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
D1-12_00018	1572			hypothetical protein	GTGGAAGGGACTTGGGCTTGTCTCATCCCATTTATTCTGGTCATTCCCATTTCAATCATTACAAAGCAAGTGCAGTCCGGTCTGTTTGTCGGTTTGCTGGTCGGAAGCTATCTTTTGCATCCCAGCTTGCTTGGCGGGATTGAACATATGGTTCAATATGTAATCAGCAATATTGTCGTCACCAATAATATTAGAATCATTGTGTTTCTATATTCATTTGCCGGCCTTGTAGGGATTATAAAGCTGACCGGCGGGATAAAAGGATTCGTCCATTTGATCAGTAAAAAAGTTAAAACCAAAAAAGGTGCGATGCTGCTTGCATGGCAGTCGACATTTGGCACGTTCAGTGAACCGGACTTTCGCATCGTCACAATTGCACCGATCATGAAAGCGTTAAGCAAGCGTCTGGACCTGTCGAAACAGAAAATTGCGTATGCCATTGAGTTTACGGCAAACCCTGTCATTGCCTTGATTCCGATAGCAACGGCATTTGTCGGCTACATGGTTTCCATTATCGGACAGGCCCTTAAAACGTCAGGAATAGATCAGCCGGCTTATACGGTGTATGTGAAAAGTATTCCCTTCAATTTTTTCTCCATTGTGATTATATTAGTCGGAATTTATTACTGCTTTTTTAAGAAACAAAAAGCGGACGAAAGCTTAAAAAAAACAGAAAAGAGCGGACAAACTTCTGCTCGCAAACATAACAAAAATACGGAACCGATTCCGCGGAACAGCGGTGTGTTGCTTTCAAAAGGCTCAGGTTCATTCAACATGGAAACAGGGACGATCTCAGATATTCACGGTGAACATACGGGAATGTTCGAAAGTGATGAGCATGCTGACCAGCAGGAGGAGCTGGATTCGGCGCACCGTGCTTATATTAAGGAAACACCGATTCGGCCTTGGAATTTAATCATTCCGATCGGGCTGTTTTTGCTATTAACACTCTTTCTCAGCTGGTGGGACGGTCATTCAAAAGCACAAGGGTTTTTGAATGCTTTTATCAAAAGTGATATGCTTGGCGTCATGTTAACCGCATTATTGGCAGCGGTTATTGCAGCATTTGCTCTTTTTATGTTTCAGCGTTTTCATGCAGGCAAGCTTGTTACCCATTTTATTAAGGGCGGAAACGAATTGGTCAACGTTATTATTATGTTATCGCTGATTTGGGCCGTAACAGCAGTATCTGAAGATCTGGGATTCTCGAAATATGTTACTTCTCATTTAACGTCATGGATCCCTCATATGTTTATTGCGCCGTCTCTTTTTATACTGGGGGCTGTTATATCCTATTTTATCGGGTCATCCTGGGGGACTTGGGGGCTATTAATGCCGCTCGGCGTAACGCTGGCGGTTCAGTCACATACCAGCTTATTATTAGCGATCGGGGCTGTGTTTGCGAGCGGAACATTTGGAGCGTTTGCTTCTCCTCTCAGTGATAATACGGTGACAACCTGTACGGTGTTGGGGATCGATGTTGTGAAGTATGCCCGTTCGAAGCTTGTTCCGGCGCTTATCGCCGCAGGGATCTCCGTTGTGTTATACGGTGCGTTTTCATTTTTCAGATAA	MEGTWACLIPFILVIPISIITKQVQSGLFVGLLVGSYLLHPSLLGGIEHMVQYVISNIVVTNNIRIIVFLYSFAGLVGIIKLTGGIKGFVHLISKKVKTKKGAMLLAWQSTFGTFSEPDFRIVTIAPIMKALSKRLDLSKQKIAYAIEFTANPVIALIPIATAFVGYMVSIIGQALKTSGIDQPAYTVYVKSIPFNFFSIVIILVGIYYCFFKKQKADESLKKTEKSGQTSARKHNKNTEPIPRNSGVLLSKGSGSFNMETGTISDIHGEHTGMFESDEHADQQEELDSAHRAYIKETPIRPWNLIIPIGLFLLLTLFLSWWDGHSKAQGFLNAFIKSDMLGVMLTALLAAVIAAFALFMFQRFHAGKLVTHFIKGGNELVNVIIMLSLIWAVTAVSEDLGFSKYVTSHLTSWIPHMFIAPSLFILGAVISYFIGSSWGTWGLLMPLGVTLAVQSHTSLLLAIGAVFASGTFGAFASPLSDNTVTTCTVLGIDVVKYARSKLVPALIAAGISVVLYGAFSFFR	PGPT0027895_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027895-tet35-K18218	NA	NA
D1-12_00019	699			hypothetical protein	GTGAAGCAGATTATTGCAATGGGCGGCGGAGGCTTTTCCATGGAGCCGGATCATCTTGTGCTGGATCAGTATATTTTAGAGCAGTCGGCGCGGTCAAAGCCGAAAGTTTGTTTTTTGCCGACGGCAAGCGGAGATTCGGAGAATTATATCGGCAGGTTTTATCAGGCCTTTCAAAAGCTGCGGTGTGAGCCGGATCACTTGTCGTTGTTTAAACCGCCGGGTTCTGATCTCAGATCCTTTCTCATGAAGAAAGATATTATATATGTCGGCGGCGGAAATACGCGCAATATGCTTGTCTTATGGAAAGAATGGGGGCTTGACCGTATTCTTCGTGAGGCTTGGGAAAACGGCATCATGTTGGCGGGTCTCAGCGCCGGGGCGATTTGCTGGTATGAAGAAGGATTGACGGATTCAGCTGGAGATTTGAGAGAGTTAAGAGCTTTAGGATTTTTGCCGGGCAGCTTTTGTCCGCACTATGACGGAGAAGCGGGGCGCCGGCCGGTGTATCACCGTCTGATTTCAGAAAAGAAACTCAGGGAGGGCTATGCCGCTGATGACGGCGCTGCGCTTCATTATAAAGACGGTCAGCTGATCCGGGCTGTCTCTTCCCGGGAAACCGCAAAGGGTTATCGGGTTTTTAATACCGAAGAAGGCGTTCGGGAAGCAGAGCTTATGACTGTCCCGTTATCTGAATTTTGA	MKQIIAMGGGGFSMEPDHLVLDQYILEQSARSKPKVCFLPTASGDSENYIGRFYQAFQKLRCEPDHLSLFKPPGSDLRSFLMKKDIIYVGGGNTRNMLVLWKEWGLDRILREAWENGIMLAGLSAGAICWYEEGLTDSAGDLRELRALGFLPGSFCPHYDGEAGRRPVYHRLISEKKLREGYAADDGAALHYKDGQLIRAVSSRETAKGYRVFNTEEGVREAELMTVPLSEF				NA	NA	NA	NA	NA
D1-12_00021	1773	thiC	COG0422	Phosphomethylpyrimidine synthase	ATGCAAAATCAATCAGTACAGCAAGCGAACATTTCCATTATGTCGAGTTTTTCCGGCAGTAAAAAGGTTTATGCAGAAGGTTCTTCGCCCGATATACGAGTGCCGATGCGGGAAATCAGCCTGAGTGCGACTACGGGGGCATTCGGGGAAGAGGAGAATGCGCCGGTCCGTGTTTATGATACGAGCGGGCCGTATACAGACCCGGATGTACAAATTGATATTCATGAAGGGCTGGGGGCGCTCCGCACAAAGTGGATTACCGGGCGCGGAGATGTAGAGGAATATAACGGCCGGACCGTGAAGCCTGAAGACAACGGTTATAAAAAAGAGGGCCGTGCCGCCGAATACCCCGGCCTGCAGCGGAAACCGCTTCGGGCCAAGCCGGGGAAAAATGTAACACAATTGCATTATGCGAGAAAAGGCATCATTACGCCGGAAATGGAGTTTATCGCAATTCGCGAGCATGTGTCTCCCGAATTTGTCAGGGAAGAGGTGGCGAGCGGACGGGCGATTATTCCTTCTAACGTCAACCACCCGGAAAGCGAGCCGATGATTATCGGCCGGAATTTTCATGTGAAAATCAATGCAAATATCGGCAACTCGGCTGTTACATCTTCTATCGAAGAAGAAGTCGAAAAAATGACGTGGGCGATTCGCTGGGGCGCCGATACGATGATGGACTTATCCACGGGAAAAGACATTCATACGACGCGTGAATGGATTATCCGCAACTGCCCCGTGCCTGTGGGGACGGTGCCGATTTATCAGGCGCTTGAAAAAGTTAATGGCATTGCCGAGGATTTAACGTGGGACATTTATCGTGACACATTGATTGAGCAGGCGGAGCAGGGCGTGGATTATTTCACCATCCATGCCGGCGTACTGCTTCGTTACGTCCCGTTAACGGCCAAACGCACGACGGGAATCGTTTCCCGCGGCGGGGCGATTATGGCGCAATGGTGCCTGGCTCATCATCAGGAAAGCTTTCTGTACACGCATTTTGAAGAAATTTGTGAAATCATGAAGACCTATGATATCGCTTTTTCTCTTGGTGACGGGCTTCGCCCCGGTTCAATTGCGGATGCCAATGATGAAGCGCAGTTTGCGGAATTGGAGACTCTCGGAGAATTGACGGAGATTGCGTGGAAGCATGATGTGCAAGTGATGATCGAAGGACCGGGTCATGTGCCGATGCATAAAATTAAGGAAAACATGGACAAGCAGCTGGAAATTTGTAAAGAGGCCCCTTTTTACACGCTCGGGCCATTAACGACGGATATCGCTCCGGGTTATGACCACATTACTTCAGCAATCGGCGCGGCGATGATCGGCTGGTATGGGACGGCGATGCTTTGCTATGTCACGCCGAAGGAGCATTTGGGGCTGCCGAATCGTGATGATGTAAGAGAAGGCGTCATTACGTACAAAATCGCGGCACATGCCGCAGACCTTGCTAAAGGGCATCCGGGTGCACAGATCCGTGACGATGCTCTGTCTAAGGCGCGGTTTGAATTCCGGTGGCGTGATCAATTTCATTTGTCGCTTGATCCTGAAAGAGCAATCGAATATCATGATGAAACGCTGCCGGCTGAAGGCGCAAAAACGGCTCACTTCTGTTCGATGTGCGGTCCGAAGTTCTGCAGCATGAGAATTTCTCAGGATATTCGTGATTATGCGAAGGAAAACGGACTTACTGAAGACGAGGCCGTCAATGAAGGGCTGAAAGAAAAAGCAAAAGAGTTTGCGGAGAAGGGAAGCCGCTTATATCAATAA	MQNQSVQQANISIMSSFSGSKKVYAEGSSPDIRVPMREISLSATTGAFGEEENAPVRVYDTSGPYTDPDVQIDIHEGLGALRTKWITGRGDVEEYNGRTVKPEDNGYKKEGRAAEYPGLQRKPLRAKPGKNVTQLHYARKGIITPEMEFIAIREHVSPEFVREEVASGRAIIPSNVNHPESEPMIIGRNFHVKINANIGNSAVTSSIEEEVEKMTWAIRWGADTMMDLSTGKDIHTTREWIIRNCPVPVGTVPIYQALEKVNGIAEDLTWDIYRDTLIEQAEQGVDYFTIHAGVLLRYVPLTAKRTTGIVSRGGAIMAQWCLAHHQESFLYTHFEEICEIMKTYDIAFSLGDGLRPGSIADANDEAQFAELETLGELTEIAWKHDVQVMIEGPGHVPMHKIKENMDKQLEICKEAPFYTLGPLTTDIAPGYDHITSAIGAAMIGWYGTAMLCYVTPKEHLGLPNRDDVREGVITYKIAAHAADLAKGHPGAQIRDDALSKARFEFRWRDQFHLSLDPERAIEYHDETLPAEGAKTAHFCSMCGPKFCSMRISQDIRDYAKENGLTEDEAVNEGLKEKAKEFAEKGSRLYQ	PGPT0008905_2276	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
D1-12_00022	1374	yvdP	COG0277	putative FAD-linked oxidoreductase YvdP	GTGAAAGTGAGTGAGAATGTGGAAAAGACAACATTGACCGGTCGCATCGTCAAAAAAGATGACCCGGACTATAATGCTGCAAGAACCAATATCAATTTAAGCCTGCAAAGATATCCAGACATCATTGTGTTTTGTCAAAATAAACATGACGCCCTCAATGCGCTGAGATGGGCGCGTGAGAACAATGTGCCTTTCCGTATCAGAGGCGGAAGACACAGCTACGAAAATTTTTCCCTGTTAAATAACGGACTAGTCATTGATCTCAGTGAAATGAAGAAAATAAGAGTAAATGAGGATACACGGCTGGTCTCGATTGAAGCGGGAGCCGAATTGGGAGAAGTCTACCGGACACTCTGGCGGTACGGCTTGACCCTTCCGGCGGGAACCATTGCGAATGTGGGAATCACGGGGCTGACGCTCGGGGGAGGAATCGGATATTTAACAAGGACAGCCGGACTTACTTGCGATCGTCTCCTCCAGCTCGAAATGATCATAGCGGACGAAAAAGCGGGTGCTGACTTGATCACAGTCAACCGCTCAAAGCACTCTGATCTATTTTGGGCGTCTCAGGGCGGAGGGGGAGGCAACTTCGGCATTGTCACATCCATGATGTTTAAAGCCGTGCCGATCTCGTGCGTGTCTGTTTTTTCTGTCACTTGGGGCTGGGATGATTTTGAGGAAGTATTTAACACATGGCAGCGCTGGGCTCCATTTACAGACAACCGGCTTACCTCATCCATTCAGTTTTGGCCTAAGGAAGTAAACCGCATAGAAGCGCTCGGTCAATTTACCGGGACAAAGGATGAGCTGAAAGAACTGCTGGCTCCGTTAATGAAAGCGGGAAAACCGGCAAGCGGCATGGTCAAGACAGTCCCATTTATTAAAGCGGCAGCCTTTTTTAACAGCCCGGGAGGCAATCAGCCGCAAAAGATGAAGCGGTCAGGATCCTTTATTGAAAAACCATTATCTACACGCGCGATTTCCACTTTAAAGCGCTATTTAGAGCACGCTCCGAACGAAAACGCCAGTGTCTGGCAGCAATCTCTCGGCGGGGCGGCCGGACGGATCGCTCCGGACCAAACGGCATTCTACTATCGCAACGCAATCATTGCCCAAGAATATATTACAACTTGGACATCTGCTGAAGAAGAAAGACAAAATGTCCGCTGGATCGAAGGACTGAGAACGTCTCTATCAAGAGAAACGATGGGAGATTACGTGAATTGGCCTGATAGAGAAATCAGAAACTGGCTGCAAACATATTACGGAGAAAATGTTCACCGCCTCCGTCAAGTCAAAACGAAATACGATCCGGAAAATATATTCCGATTTGAGCAGAGCATTCCGCCGCTTCGCCGTTCACCGTTTTTCTAA	MKVSENVEKTTLTGRIVKKDDPDYNAARTNINLSLQRYPDIIVFCQNKHDALNALRWARENNVPFRIRGGRHSYENFSLLNNGLVIDLSEMKKIRVNEDTRLVSIEAGAELGEVYRTLWRYGLTLPAGTIANVGITGLTLGGGIGYLTRTAGLTCDRLLQLEMIIADEKAGADLITVNRSKHSDLFWASQGGGGGNFGIVTSMMFKAVPISCVSVFSVTWGWDDFEEVFNTWQRWAPFTDNRLTSSIQFWPKEVNRIEALGQFTGTKDELKELLAPLMKAGKPASGMVKTVPFIKAAAFFNSPGGNQPQKMKRSGSFIEKPLSTRAISTLKRYLEHAPNENASVWQQSLGGAAGRIAPDQTAFYYRNAIIAQEYITTWTSAEEERQNVRWIEGLRTSLSRETMGDYVNWPDREIRNWLQTYYGENVHRLRQVKTKYDPENIFRFEQSIPPLRRSPFF				NA	NA	NA	NA	NA
D1-12_00023	180			hypothetical protein	GTGGCGTTAAAAAAGGTATCACATGTGCGCAAAAAGAGCAAAAAACGAAAAAAGTACAGAAAACACACATTGAATTTCGAACTGCTTGTAGAGAAAAACAAACGGGAGATTATGAGAAATAAGGAACAGATGGAGCAGATTTATATAAAGATAGATGAAAAGCATGCGGGGGTTCGATAA	MALKKVSHVRKKSKKRKKYRKHTLNFELLVEKNKREIMRNKEQMEQIYIKIDEKHAGVR				NA	NA	NA	NA	NA
D1-12_00024	1722			hypothetical protein	ATGAAGGAGAGAAAATGGAGGATAAAAACAACGGTACTCGCGCTGTCGGTATCCATCATGTTATCAGGGTGCGCGTTAGGGAGTGCCGGAGAAGAACCGTCATCTGCGGCTGATAAAAAGGAAGAAACACGTATCGCCCAAGTCAAGACAAAGGAATTTAAAGCTTCTCATCCGGCGGCGATTCCCGCTAAATCGAAAGCCAGAACTGACACTTTTGTTGCTGGGATTTCCGCGCCGGGCGGCGTGTTTCTGCCGTACTTTTACGAAAACGGCTGGGACGGAAATGCGACAGATCCTATTTTTGAACCGTTAGTCAAACTGGATAAAACGGGGAAGCCTGCCCCGGCTCTTGCGGAAAGCTGGAAAATTTCCAAAGATCAGCTTACATACACGTTCCGTTTAAGAAAAAATCTCGTTTTCAGCGACGGTTCACCATTGACCGCAAAGGATGCCGCATTCACTTTAACACTGCTGCATGATCCTGCATACGCGGGCTATGAAGATATCACCACGGCCTATATTAAAGGCGGTAAGGCTTACAAAGAAGGAAAGGCAAAGACGATAGAGGGCATACGCGTCCTTGATGACAGAACCATTCAAATTACGACTGAGAAAGTCAGTGCGAAGTCGCTGCTTCTTTTAGGCGGGCAGGTGCTGTCAGAAGCCTACTACGGGAAGAAATATCAATTCGGCAAACTGGACTATTTAAAAGAGCTTTATGCCAAACCGCTCGGAGCGGGACCTTATCAATTTACAGAATACCTTCCGGGACAGGAAATACGTTATCAGGCTAATGAACACTATTATGCCGGAAAACCGAAAACGGAAAAGCTGATTTATAAAATTATCGATCCGTCAACTTCTCTTCAGCTGTTTGAAACGGGTGACCTTGATTACGCTTCTTTCTCACCTGATGATGATACGGTTCAGCATTTAAAAAGTCTCGGTTTTGCCAATATAAGCGTATCTGTCGTGAATGATTACGGGCTTGTGTACGTCAATCACAAGCGTCCGCCTTTTCAAGATAAGAAAGTGTCCCAGGCGCTTATTTACGGACTTGACCGGCAAAAAATCGTCGATGTCCGCTTTAAACGCTACGGAGAGGTCGCGAATGTTCCGGTGTCTCCGGTTTCGTGGGCTTATGATGACAAAGGTGTCAATCGGTACGCGTTTAACCCTGAAAAAGCCAAAAAGCTTCTCGATGAAGCGGGCTGGAAAACGGGCAAAGACGGTGTACGTGAAAAAAACGGCAAAAAGCTTGAAATCAGCTATTACACGTCTAAAGCGGATGATGATTTCATCCCGATCGCGAAAGAAAATTACGCGGACATCGGAATCTCATTAAAACCGGAAGTCATGGATTTTAATACAGAAGTAGCGAAAATAAATGACAAACAATACGACCTTGCCGCCGTTTCCACCTCGCAGATTCTTGATCCGAATGACACGGTGGAAAAGCTGGCTTCCGGCCATCCCAATAATGTAACGGGATATTCCAATCCGAAAGCGGACCGGCTGATAGAGAAAGGAGCCGGCACGCTTGATATCAGCAAAAGAAAAGAGATTTATCACCAGCTGTACCGGGAGCTCGGGGAAAACCCGCCTTACATTCTGATTCATTACCGTCAGAGCGCAAGGGCGGTCAGCGGAAAAATAAAAGGGCTTGAGCCTGACAATTATTCTGGAATCAGTTCAAGTCTCTCAAATGTCTCAATTCAATAG	MKERKWRIKTTVLALSVSIMLSGCALGSAGEEPSSAADKKEETRIAQVKTKEFKASHPAAIPAKSKARTDTFVAGISAPGGVFLPYFYENGWDGNATDPIFEPLVKLDKTGKPAPALAESWKISKDQLTYTFRLRKNLVFSDGSPLTAKDAAFTLTLLHDPAYAGYEDITTAYIKGGKAYKEGKAKTIEGIRVLDDRTIQITTEKVSAKSLLLLGGQVLSEAYYGKKYQFGKLDYLKELYAKPLGAGPYQFTEYLPGQEIRYQANEHYYAGKPKTEKLIYKIIDPSTSLQLFETGDLDYASFSPDDDTVQHLKSLGFANISVSVVNDYGLVYVNHKRPPFQDKKVSQALIYGLDRQKIVDVRFKRYGEVANVPVSPVSWAYDDKGVNRYAFNPEKAKKLLDEAGWKTGKDGVREKNGKKLEISYYTSKADDDFIPIAKENYADIGISLKPEVMDFNTEVAKINDKQYDLAAVSTSQILDPNDTVEKLASGHPNNVTGYSNPKADRLIEKGAGTLDISKRKEIYHQLYRELGENPPYILIHYRQSARAVSGKIKGLEPDNYSGISSSLSNVSIQ	PGPT0004430_3823	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
D1-12_00025	957	dppB_1	COG0601	Dipeptide transport system permease protein DppB	ATGAAACGGTATGCCGCAGAACGATTCATTCAAATGCTTGTGATCTTATTCGGTACGTCTTTTATTATTTTTTTCTTATTCGCCATGCTTCCGGGCGACTATATTGATTCCAATGTAAACCTGACTCCTGAAAGAGCGAAGGAGTTAAAAGCGCTTTACGGGCTGGATCAGCCGATTTGGCAGCGCTATGTGACGTGGCTCGGTAATGTGCTCAGCGGAGATTTTGGGTTTTCTTTGAAATATCAGGAGAACGTCCTGTCACTGCTTCGGAAATATGTCTGGAATTCGTTTTTTGTCGCGTTTTTGGCGTTGCTTGTCACATGGTCAGCCGCGATGATAACGGGTGTCATATCCGCTGTCAGGAAATACTCATGGTTTGACGGGATCGTGACGTTTCTTGTGTTTGCTTCCATGGCGTTTCCGTCTTTTTTTATCAGCCTTCTGTTTATTAAGTGGTTTGGGGTGGATTTGAAATTATTGCCCGTCGGCGGGATGATTGATACCGGAAGCACGAGTACAGGTTTTTCGTACGTGCTTGAAGCCGCCAGACATATGATTCTTCCGGTCGTGATTTTATCTATGCTCGGCATCGGCTCGCTGACAAGGTATTTCCGCTCCGGCATGCTGGACGTGATCAGACAGGATTATATCAGAACGGCGAGAGCGAAGGGATTGAAAGAGCGCACCGTCATCTGGAAACATGCGTTGAAAAACGCGCTCATTCCGGCCATCACCCTGCTTGCTTTTGAACTGCCGGGACTGTTTTCCGGAGCCATCATTATTGAACAGATTTTCGGGTGGCCGGGTGTCGGACGTATTCAGCTTGAATCTGTGCATTATCGTGATTATCCGGTTTTGATGGCGTTTACCTTGTTTTTGTCTTGTTTAACGATTGTGGGGAACTTCTTGGCGGATATCGCTTATGCCGCGGTTGATCCGCGGGTCAGGCTGAAATAG	MKRYAAERFIQMLVILFGTSFIIFFLFAMLPGDYIDSNVNLTPERAKELKALYGLDQPIWQRYVTWLGNVLSGDFGFSLKYQENVLSLLRKYVWNSFFVAFLALLVTWSAAMITGVISAVRKYSWFDGIVTFLVFASMAFPSFFISLLFIKWFGVDLKLLPVGGMIDTGSTSTGFSYVLEAARHMILPVVILSMLGIGSLTRYFRSGMLDVIRQDYIRTARAKGLKERTVIWKHALKNALIPAITLLAFELPGLFSGAIIIEQIFGWPGVGRIQLESVHYRDYPVLMAFTLFLSCLTIVGNFLADIAYAAVDPRVRLK	PGPT0004445_9365	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
D1-12_00026	906	gsiD	COG1173	Glutathione transport system permease protein GsiD	ATGAAAAAACAAATAGAGGTGCCGCCTTCTCTTTGGAAGCAGACGTACCGCCGCCTGCTGCAGCATAAGCTGACGGTCATCAGTCTTCTTTTCTTATGTTTTATGTTTTTATTGTGCTTTATCGGGCCGTCTTTTTCTCCGTACATAACAGATCGGACGGATATTTCAAATGCCAATCAGCAGCCGGGAATCCATCATTGGCTGGGAACCGACCAGTACGGGAGAGATGTGCTGACGAGGCTGATGCTGGCGGGGCAGATTTCTCTGACTGTGGGGCTTGCTTCAATGGTGCTGTCGCTTGTCATCGGTTCTTTACTCGGGGCTGCGGCCGGATTTTATCGGGGAGCCGCAGATATGATCATTATGCGAATTGCTGATATGCTCATGTCTATCCCGGGCCTGCCGCTGCTTTTGATTTTGGCTGCGGTGATGTCGGAGTGGAAAGTGCCTTCTGAATACAGAATGTACCTGATTATGATGATGTTAAGCCTGATCGGATGGCCCGGTTTGGCGCGGCTTGTACGCGGACAGATTTTGTCGCTGAAGGAGCAGCCGTTTATGATGGCCGCGGAAGTTTTGGGGCTTAGTGATAAACGGAAAATCCTCTATCATTTGCTTCCCAATACATTGCCGTTATTACTGGTAGCGGCGACTTTGCATGTGGCGGGAGCGATGCTGAGTGAATCGGCGCTGAGTTTTCTCGGACTTGGCGTTGCTCCGCCCACACCTTCTTGGGGAAACATGATGGAAGCGGCGAATCATTTTATGGATTTTACACTCCGCCCGTGGCTGTGGATTCCGCCGGGAACGGCCATTTTTCTGACCGTTGTGGCGATTCATCTGCTTGGAGACGGTTTAAGAGACGCTTTTGATCCTAAGGTAAAACGGCAGGTGAAAGTGAAATGA	MKKQIEVPPSLWKQTYRRLLQHKLTVISLLFLCFMFLLCFIGPSFSPYITDRTDISNANQQPGIHHWLGTDQYGRDVLTRLMLAGQISLTVGLASMVLSLVIGSLLGAAAGFYRGAADMIIMRIADMLMSIPGLPLLLILAAVMSEWKVPSEYRMYLIMMMLSLIGWPGLARLVRGQILSLKEQPFMMAAEVLGLSDKRKILYHLLPNTLPLLLVAATLHVAGAMLSESALSFLGLGVAPPTPSWGNMMEAANHFMDFTLRPWLWIPPGTAIFLTVVAIHLLGDGLRDAFDPKVKRQVKVK	PGPT0004450_7086	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
D1-12_00027	987	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAAAAAACCGCTTTTAGAAGTAAGGCATTTGGAAACGGCTTTTTATACAGAGGAGGGGGCGGTAAAGGCTGTGGACGATGTCAGCTTTACGATACATGAGGAGGAAACGGTTTGTATTGTAGGGGAGTCCGGCTGCGGGAAAAGCATGGCGTCATTGTCCATTATGCAGCTTCTTCCCGAGACGGGGAGAATCGAACGGGGAGCGGTGCATTTTTCCGGACGGAACCTGTTGGAATTGAAACCAAAAGACATGCAGAAAATCCGCGGCAGCGAAATCGGGATGATATTTCAGGAACCGATGACATCTTTGAATCCGGTGTTTACAATCGGTGAGCAGCTGGCCGAACCGATTCGCGAACATTTGTTGCTGAGTAAGAAAGAAGCATGGCGGAAGGCCGTTGAACTGATCACGTTAGTGGAGATCCCGCATGCCGAGCAGGTTATGCACCGATATCCTCATGAGCTGAGCGGCGGCATGCTGCAGCGCATCATGACGGCTGTCGCGCTAAGCTGCGATCCGAAACTGATCATTGCCGACGAGCCGACGACAGCGCTTGACGTAACCATTCAGGCGCAGATATTGGATTTATTGCGGGATATGAAAAAGCAATTTCGCACGTCTATTTTATTCATTACACATGACCTGGGCGTGGTTGCTGAAATGGCTGATTATGTGATTGTCATGTATGCGGGAAAAATTGTGGAGGAAGGACCGGTTGCAAAGCTGTTTTCTGATCCGAAGCATCCGTATACGAAAGGGCTGCTCGCGGCCAAGCCGGTTATCGGTCAAAGAAGGGAGATGCTGTACACCATTCAGGGGCAGGTCCCCGAGCTTGCGGACCTGTCGGGATCGTCTTGTTATTTTGCGGAGCGATGTGAACACAGCACGGAAATATGCCGGAGATCGAGCCCGCATTTTACTGAATTCGGGAAGGGACATCAGGCGGCGTGCTGGCTTTACAGAGAGGAGAAAGCAGATGAGTGA	MKKPLLEVRHLETAFYTEEGAVKAVDDVSFTIHEEETVCIVGESGCGKSMASLSIMQLLPETGRIERGAVHFSGRNLLELKPKDMQKIRGSEIGMIFQEPMTSLNPVFTIGEQLAEPIREHLLLSKKEAWRKAVELITLVEIPHAEQVMHRYPHELSGGMLQRIMTAVALSCDPKLIIADEPTTALDVTIQAQILDLLRDMKKQFRTSILFITHDLGVVAEMADYVIVMYAGKIVEEGPVAKLFSDPKHPYTKGLLAAKPVIGQRREMLYTIQGQVPELADLSGSSCYFAERCEHSTEICRRSSPHFTEFGKGHQAACWLYREEKADE	PGPT0004435_10473	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
D1-12_00028	966	oppF_1	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGTGATGCGTTGCTGGAGGTCAAGGGGCTGAAAAAATATTACGAGGAACATGGGGGGATGAGAAAGACCCGCAAAAATCCCGTAAAAGCGGTCGACGGTGTCAGTTTTACGATAGGAAAAGGAGAAGTGTTCGGCTTAGCGGGAGAATCGGGCAGCGGAAAGTCATCAATCGGCAAGACCATTTTGAGGCTTCATGAGAAAACAGGGGGAGAGGTGTTTTTTCAGGGGCGTGATGTGTTTCGGATGAGCCGGCGCGAGCTCAAAACTTTCAGATCAGAAGCGCAGCTCATCTTTCAAGATCCGTTCAGTTCTTTAAATCCCCGGCGCCGGATCGGAGAAGCCATCGGTGAAGCGATGATCGAGCATCAATTGGCGGTGAAGCGGAATGCGCGTGATAAAGCGGCGGAGGTTCTTGAAGCCTGCGGGCTTTCCGCAAACTTTATCGACCGATATCCGCATGAATTTTCCGGAGGGCAGCGGCAGCGGATCGTGATTGCAAGAGCGATGGCGCTTAAGCCGCAATTTATCATTATGGATGAACCTGTGGCGGCGTTAGATGTCTCCATCCAGGCGCAGATGATCAATTTGTTCAGCAGCCTTCAAAAACAGCACGGGCTGTCATATTTGTTCATTTCTCATGATTTAAGCGTGGTGGAGCACTTATGTACGAAGGTCGCCATTATGTATTTAGGGACGATTGTGGAATACGCGTCAAAGGAGGAGCTCTTTTCACGGCCGCTTCACCCTTATACGAAAGCGCTGTTATCAGCCGTGCCTGTTCCTGATCCCGGAGCGAAAAGGGAGCGGATAATTTTAAAGGGTGATATACCGAGCCCCTCTGATCCGCCTTCAGGCTGTAAATTCCGAACGAGATGCCCGGCAGCCAAGAAGATATGTGCTGAGAAAAGTCCGGCGCTGTCAGAAAAAGGGCTTCATCATTTTGCGGCATGCCACTTCGTGTAA	MSDALLEVKGLKKYYEEHGGMRKTRKNPVKAVDGVSFTIGKGEVFGLAGESGSGKSSIGKTILRLHEKTGGEVFFQGRDVFRMSRRELKTFRSEAQLIFQDPFSSLNPRRRIGEAIGEAMIEHQLAVKRNARDKAAEVLEACGLSANFIDRYPHEFSGGQRQRIVIARAMALKPQFIIMDEPVAALDVSIQAQMINLFSSLQKQHGLSYLFISHDLSVVEHLCTKVAIMYLGTIVEYASKEELFSRPLHPYTKALLSAVPVPDPGAKRERIILKGDIPSPSDPPSGCKFRTRCPAAKKICAEKSPALSEKGLHHFAACHFV	PGPT0004440_8127	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
D1-12_00029	1446	katA_1	COG0753	Vegetative catalase	ATGAGTTCAAATAAATTGACAACCAGCTGGGGCGCTCCTGTCGGAGATAACCAAAACTCAATGACGGCCGGCGATCGCGGTCCTGCTTTAATACAAGACGTCCATCTGCTTGAGAAATTGGCGCACTTTAACAGAGAACGCGTTCCGGAGCGTGTCGTTCACGCAAAAGGCGCGGGCGCACACGGTTATTTTGAAGTCACAAATGACGTTACAAAATATACAAAAGCCGCATTTCTGTCAGAAGTCGGTAAACGCACGCCGCTCTTCATCCGTTTCTCAACCGTTGCGGGCGAACTGGGCTCTAGTGACACAGTGCGCGACCCGCGCGGATTTGCCGTTAAGTTTTATACAGAAGAAGGAAACTACGACATCGTCGGAAACAATACACCCGTGTTCTTCATCCGCGATGCCATCAAGTTCCCTGACTTTATCCATACACAAAAAAGAGATCCGAGAACACATCTGAAAAACCCGACGGCCGTTTGGGATTTCTGGTCTCTGTCACCGGAATCCCTGCACCAGGTAACCATTCTGATGTCAGACCGGGGCATTCCGGCGACTCTTCGCCATATGCACGGATTCGGAAGCCATACATTTAAATGGACAAATGATAAAGGTGAAGGCGTCTGGATTAAATATCACTTTAAAACAGAGCAAGGCGTGAAAAACCTTGATGTTAATACAGCCGCAAAAATCGCGGGCGAAAATCCCGATTACCATACGGAAGATTTGTTCAATGCGATTGAAAACGGCGATTTCCCCGCATGGAAATTATATGTTCAAATCATGCCGTTAGAAGACGCAAACACATATCGCTTTGATCCGTTTGACGTCACAAAAGTATGGTCTCAAAAAGACTATCCGCTCATTGAAGTCGGCCGCATGGTTCTGAACCGCAATCCGGAAAATTACTTTGCGGAAGTAGAACAGGCGACGTTCTCTCCCGGCACATTAGTCCCCGGCGTCGACGTCTCACCTGACAAAATGCTTCAAGGCCGGTTGTTCGCATACCATGACGCGCATCGCTACCGTGTCGGCGCGAACCATCAGGCGCTGCCGATCAACCGTTCCCGCAATGAAGTGAAAAACTATCAGCGTGACGGACAAATGCGTTTTGATGATAACGGCGGCCGCTCCGTCTATTACGAGCCGAACAGCTTCGGCGGCCCGAAAGAGTCACCTGAAGATAAACAGGCGGCATATCCTGTATCAGGTTTCGCTGACAGTGTAAGCTATAACCATCATGATCATTACACACAAGCCGGCGACCTGTACCGCCTGATGAGCGAGGAAGAGCGCGCGCGCCTTGTCGCCAATATCGTCAGTGCGATGAAACCTGTGGAAAAAGAAGAAATTAAGCTGCGCCAGATCGGCCACTTCTACAAGGCTGATCCTGAATACGGCAGACGCGTTGCCGAAGGACTCGGACTGCCATCACCAAAATAG	MSSNKLTTSWGAPVGDNQNSMTAGDRGPALIQDVHLLEKLAHFNRERVPERVVHAKGAGAHGYFEVTNDVTKYTKAAFLSEVGKRTPLFIRFSTVAGELGSSDTVRDPRGFAVKFYTEEGNYDIVGNNTPVFFIRDAIKFPDFIHTQKRDPRTHLKNPTAVWDFWSLSPESLHQVTILMSDRGIPATLRHMHGFGSHTFKWTNDKGEGVWIKYHFKTEQGVKNLDVNTAAKIAGENPDYHTEDLFNAIENGDFPAWKLYVQIMPLEDANTYRFDPFDVTKVWSQKDYPLIEVGRMVLNRNPENYFAEVEQATFSPGTLVPGVDVSPDKMLQGRLFAYHDAHRYRVGANHQALPINRSRNEVKNYQRDGQMRFDDNGGRSVYYEPNSFGGPKESPEDKQAAYPVSGFADSVSYNHHDHYTQAGDLYRLMSEEERARLVANIVSAMKPVEKEEIKLRQIGHFYKADPEYGRRVAEGLGLPSPK	PGPT0014380_5086	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-12_00030	936			hypothetical protein	ATGCTTTTCCGGCAGCATTTTAAACCTGTCGATATTCACGGTCATCTGCCGTACAGCCTTTATTTCGGCAAAAACGATAAGACATTTTCCGATTACAACCGGGAGCGGTCAGAAAGAATGAATCTGACTTGGGATTTTCCTGATCCGCATGATGTTGATGGGGATGACGGCGAAATCGCTTTGATGACAAGATGGGAGAATGAATTAGATAAGTACGGCATTGACGTGCTGAATTTTTTAACAGCAGAGAGCAATGACCGGATGGCGGCGTTTATTCAAGCCAATCCCGCGAGATTTACCGGATTTGCATATCATCCTTTGGAGCGGGAGAATGCGTATGAAGAGCTGAAAAGAGCGGTAGAAGAGCTCGGTCTGAAAGGATATAAACTGTTCGGACCGCTGACAGACATCGATTTTCATGATCCGTCGCTGAAAAAGCTGTGGACGTATCTGGCTGACAAAAAGCTGCCTGTATTAATTCACTTCGGGCTTTTAGGGAGAGCGGGGGGTATTGTCAGCCATCGCAACATCAACCCGCTCTCCATCTATCGCGTCGCGAGAGAGTATGCTGATATCCCGTTCATCATTCCGCATTTCGGCGCCGGATATTATCAGGAACTGCTTCAGCTGTGCTGGAGCTGCCCGAATGTGTATATTGATACGTCCGGCTCAAATCAGTGGATGAGGTGGATGCCGTACCCGCTTGATTTGGAAATTCTGTTTCGAAAGACATCTGAATTAATCGGTGCTGAACGGATCATCTTCGGGACGGATTCGAACGGATTTCCGAGAGGATATGTATACAGATATCTTCAGGAGCAGGTGAGAACCTGCCGGGAAATCAATATGCGGGAAGAAGATATAGAAAACATATTCGGCAACAATGCGCGAACATTATTGAAAATCGCCCGGCAAGAAAAGGAAGTAAACACGTGA	MLFRQHFKPVDIHGHLPYSLYFGKNDKTFSDYNRERSERMNLTWDFPDPHDVDGDDGEIALMTRWENELDKYGIDVLNFLTAESNDRMAAFIQANPARFTGFAYHPLERENAYEELKRAVEELGLKGYKLFGPLTDIDFHDPSLKKLWTYLADKKLPVLIHFGLLGRAGGIVSHRNINPLSIYRVAREYADIPFIIPHFGAGYYQELLQLCWSCPNVYIDTSGSNQWMRWMPYPLDLEILFRKTSELIGAERIIFGTDSNGFPRGYVYRYLQEQVRTCREINMREEDIENIFGNNARTLLKIARQEKEVNT				NA	NA	NA	NA	NA
D1-12_00031	768	ssuB_1	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGGCTGTAACCATCAGCATACAAGAAAAAGCTTTTGAGCATGAAGGCCGGAAAACACCGGTGCTGAATGATATTGAGCTGTCAATTGCTTCGGGAGAATTTTTGACTGTCATCGGGCCGAGCGGATGCGGCAAAAGCACGCTTTTAAAATTGATTGCCGGTCTTGATACCGATTATAAAGGCTCTGTCACAATAAACGGCCGCAATGTGTCGGGACCGGGCATCCGGCAGGGATTTATCTTTCAGGAGCACCGGCTGTTTCCCTGGCTGACGGTAAAACAAAACATCGCTGCCGATCTCAATATGAACGACCCGGCCGTTCGGAAAAAAGTGGATGATCTGATTGAGGTTGTCAGGCTGCAGGGAGCGGAGAACGCTTATCCGCGCGAATTATCCGGCGGCATGTCGCAGCGGGTTGCCATCGCCCGAGCCCTTTTGCGCGAGCCGGAGGTGCTGCTTTTAGATGAACCGTTCGGGGCGCTTGACGCTTTTACGAGAAAACATTTACAGGATGTGCTGCTTGATATATGGCGCGAGAAAAAAACGACGATGATTCTGGTCACGCATGATATTGATGAATCCGTCTATTTAGGCGATAAGCTGGCGATCCTCAGGGCAAAGCCCGGCCGGCTGCACAGTCTGATGCCGATTCAGCTTCCGCATCCGCGCAATCGGACGTCAGCGGATTTTCAGGCTGTCCGGCAGAAGGTGCTTTCTGAGTTTGAGAAAACGGAAGACCTCCGGTTTGCGGATGGGTCCGGGATATAG	MAVTISIQEKAFEHEGRKTPVLNDIELSIASGEFLTVIGPSGCGKSTLLKLIAGLDTDYKGSVTINGRNVSGPGIRQGFIFQEHRLFPWLTVKQNIAADLNMNDPAVRKKVDDLIEVVRLQGAENAYPRELSGGMSQRVAIARALLREPEVLLLDEPFGALDAFTRKHLQDVLLDIWREKKTTMILVTHDIDESVYLGDKLAILRAKPGRLHSLMPIQLPHPRNRTSADFQAVRQKVLSEFEKTEDLRFADGSGI	PGPT0003035_1314	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
D1-12_00032	990	ssuA	COG0715	Putative aliphatic sulfonates-binding protein	GTGAAAAAAATCATCATTCTTTTAGCCGCAGCAGTCATGATGTCAGCCGGATGCAGTGCAGACGGGACAGGAGGGAGCAGGAAAACGGTGAAAGAAATCCGGATCGGCATCCAGCAGAGTTTAAGCCCGCTTCTCATTGCCAAGGAAAAAGGCTGGTTTGAAGAGGCCTTCAAAAAAGACGGAATAAAAGTAAAATGGGTCGAATTCCAAAGCGGTCCTCCGCAATTTGAAGGTCTTGCCGCCGATAAGCTTGATTTTTCCCAGGTCGGCAATTCACCGGTCATTTCCGGTCAGGCGGCTGGAATTGATTTTAAAGAGATCGGGCTGTCTCAGGACGGGTTAAAGGCAAACGGTATTCTCGTAAACAAGGGCAGCGGCATTCAGAGCCTGAAAGAATTGAAAGGTAAAAAAATCGCCGTAGCCAAAGGCAGCAGCGGCTTTGATTTTCTCTATAAAGCTTTAGATAAAGCGGGGCTTTCCGCCGATGACGTCACCATCATCCAGCTTCAGCCTGATGAGGCGGTTTCCGCTTTTGAAAACAAATCAGTTGACGCATGGTCCATTTGGGAGCCGTATTTGTCGATTGAAACGCTGCAGCACGGGGCGGAAATATTGGCGAACGGAGAAAGCACAGATTTATATTCTCCCGGTTTCACGTTAGTCAGAACGGGATTTTCCAAAGAACACCCGGATGAGGTTGTCCGTTTTCTGAAAGTGTTCAATAAAGCAGTTACATGGCAAAAGGAACACAAAAATGAAGCTGCCTCCTTATATGCGAAAATCAAACATCTTGATCCGAAAGTCGTCAGAAACGTGCTTAACAATACTGAGCCTCTCAATGAACCGATCAATGATGATATTGTCAAAGCCCAGCAGGAAACCGCTGATTTTCAATATCAAACAAAAGCGATTCATAAGAAAATTCATGTAAAAGACGTTGTCGACAATTCATTTATTAAAAAAGCGCTTGAAACGGGGGATGGCAAGTAA	MKKIIILLAAAVMMSAGCSADGTGGSRKTVKEIRIGIQQSLSPLLIAKEKGWFEEAFKKDGIKVKWVEFQSGPPQFEGLAADKLDFSQVGNSPVISGQAAGIDFKEIGLSQDGLKANGILVNKGSGIQSLKELKGKKIAVAKGSSGFDFLYKALDKAGLSADDVTIIQLQPDEAVSAFENKSVDAWSIWEPYLSIETLQHGAEILANGESTDLYSPGFTLVRTGFSKEHPDEVVRFLKVFNKAVTWQKEHKNEAASLYAKIKHLDPKVVRNVLNNTEPLNEPINDDIVKAQQETADFQYQTKAIHKKIHVKDVVDNSFIKKALETGDGK	PGPT0003025_1566	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
D1-12_00033	834	ssuC_1	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAAAGCAGAAGCATCAACGGCTGCCGGCGCAATAAGCCAATCAGAAAAGAAAGCTCTGGCAAGATCCCGGAAGTATTCATACCAATGGATGAAGGGGGTTGTACTCCCGGCTACGGTCATCGCAGTATGGCAGTTTATCGCAAGTCTGGGTATCGTCTCGGCCACGGTGCTCCCGTCGCCTGTCGTTATCTTGCAGACGTTTCAGGAACTTCTTCTTTCAGGTGAGCTTTGGGGTCATTTAGAGATCAGCTTATACCGGGCGGCTGCCGGATTTCTGCTTGGAGCGGGCCTCGGACTTGTTTTCGGGCTGCTGGTCGGTTTCTCAAAGCGGACCGAAGCATATCTTGATCCGTCCCTGCAAATGCTCAGAACGGTTCCGCACTTGGCCGTGACTCCTCTGTTCATTTTGTGGTTCGGATTTGATGAGACATCAAAAATTCTGCTGATCGCATTGGGGGCTTTTTTCCCCGTGTACATTAATACGTTTCTCGGAATCCGCAGTGTGGACGCGAAGCTGTTTGACGTCGCGCGGGTGCTGGAATTTAGCTGGTATCAGCAGATGGCGAAATTAATTCTTCCGGCATCTCTGCCGAATATCCTGCTCGGCATCAGGCTCTCTCTGGGCATTGCGTGGCTCGGTCTTGTGGTGGCGGAACTGATGGGCTCGAGCGAGGGCGTCGGTTATATGATTATGGATGCCAGACAATTTTCACAGACAAATAAGGTGTTTGTCGGCATTATCATTTTTGCGGCTGTCGGCAAGCTGACAGATGCATTGGTCAGAATGCTCGAACGGAAACTATTAAAATGGCGGAACAGTTATGAAGGGTAA	MKAEASTAAGAISQSEKKALARSRKYSYQWMKGVVLPATVIAVWQFIASLGIVSATVLPSPVVILQTFQELLLSGELWGHLEISLYRAAAGFLLGAGLGLVFGLLVGFSKRTEAYLDPSLQMLRTVPHLAVTPLFILWFGFDETSKILLIALGAFFPVYINTFLGIRSVDAKLFDVARVLEFSWYQQMAKLILPASLPNILLGIRLSLGIAWLGLVVAELMGSSEGVGYMIMDARQFSQTNKVFVGIIIFAAVGKLTDALVRMLERKLLKWRNSYEG	PGPT0003030_1000	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
D1-12_00034	1137	ssuD	COG2141	Alkanesulfonate monooxygenase	ATGGAGATTCTTTGGTTTATTCCGACGCATGGTGACGGCCGGTATTTAGGGACGCAAACGGGAGGGAGAACGGCGGATCATCTTTATTTTAAGCAAGTGGCACAGGCGGCGGACAGACTCGGGTATACGGGGGTTCTGCTGCCGACGGGGAGATCATGTGAAGACCCGTGGCTGACGGCTGCCGCTTTAGCGGGGGAAACGAGTGACTTGAAATTTTTAGTGGCGGTCCGTCCGGGACTGATGCCGCCGTCTGTCGCCGCGAGAATGGCGTCGACAATGGACCGGCTGTCAGACGGCCGTTTGCTCGTAAATGTCGTAGCGGGCGGAGATCCTTATGAACTGGCGGGAGACGGCATGTTTATCAGCCACGATGAACGTTATAAGGCGACTGAAGAATTTTTAACCGTCTGGCGCGGACTCATGCGGGGCGAAACGGTGACATATGAAGGGGACCATATCAAAGTGGAAAACAGCAATCTGCTGTTTCCGCCAAAACAGTCTCCGCATCCGCCATTATATTTCGGCGGTTCATCACAGGCGGGAATTGAGGCTGCGGCGAAACATACAGATGTCTATTTAACATGGGGAGAGCCGCCGGAGCAAGTAAAAGAAAAGATTGAAACCGTTAAAAAACAGGCTGCCAAGGAAGGAAGGACAATGCGTTTTGGCATCAGGCTTCACGTGATTGTCCGGGAGACTGAGAAAGAGGCATGGAAAGCGGCAGAACGATTAATCAGCCATTTAGACGAAGAGACGATTGCGAAAGCGCAGGCTGCGCTCCGGCGCGCTGATTCTTCGGGACAAAAACGGATGGCCGATCTCCATAACGGTGACCGCTCGAAGCTTGAGATCAGTCCGAATCTCTGGGCTGGCATCGGACTGGTCAGAGGCGGAGCGGGCACGGCGCTTGTCGGTGATCCGCAGACTGTCGCTGCTCGAATTTTAGAGTACCGGGCACTCGGCATTGAGTCGTTTATCTTTTCAGGCTACCCGCATCTGGAAGAAGCTTATTATCTGGCTGAACTCGTGTTTCCGCTTCTGCCGTTTCAGAATGAACGGACTAAAAAGCTTGAGCGCAGACTGGGTGAAGCAATGGGAAACGACCATTTTGCAAGAGGAAATAAAGCGACAGTCTGA	MEILWFIPTHGDGRYLGTQTGGRTADHLYFKQVAQAADRLGYTGVLLPTGRSCEDPWLTAAALAGETSDLKFLVAVRPGLMPPSVAARMASTMDRLSDGRLLVNVVAGGDPYELAGDGMFISHDERYKATEEFLTVWRGLMRGETVTYEGDHIKVENSNLLFPPKQSPHPPLYFGGSSQAGIEAAAKHTDVYLTWGEPPEQVKEKIETVKKQAAKEGRTMRFGIRLHVIVRETEKEAWKAAERLISHLDEETIAKAQAALRRADSSGQKRMADLHNGDRSKLEISPNLWAGIGLVRGGAGTALVGDPQTVAARILEYRALGIESFIFSGYPHLEEAYYLAELVFPLLPFQNERTKKLERRLGEAMGNDHFARGNKATV	PGPT0003040_1394	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
D1-12_00035	270	rpsN2	COG0199	Alternate 30S ribosomal protein S14	ATGGCCAAAAAATCAAAAGTGATCAAAGAGCTCAAGCGGCAGAAGCTTGTTGAACAATATGCGGACATCCGAAGAGAATTAAAGGCAAAAGGAGACTGGGAAGCGCTGAGCAAACTGCCGCGTGATTCTGCTCCGGCCAGGCTTCATAACCGCTGTACGGTGACGGGGCGGCCCCGCGGATATATGAGAAAATTTAAATTGTCCAGAATCGCATTCAGGGAGCTGGCCCATAAAGGCCGGATTCCCGGGGTGAAAAAAGCGAGCTGGTAA	MAKKSKVIKELKRQKLVEQYADIRRELKAKGDWEALSKLPRDSAPARLHNRCTVTGRPRGYMRKFKLSRIAFRELAHKGRIPGVKKASW				NA	NA	NA	NA	NA
D1-12_00036	468			hypothetical protein	ATGAGTTTGAAAAGAAAAGCGTGTTTTCACCTTGCACTCTACGGATTGGCCTGCTGGACGCTTATTTCCTTTATGGAAGCGGCGCCGCGGATCGCCCAGTTTTTCCAAACGGAGGGGAGCGGTTCATTTGAGCTGAACATCACGCCGTTTCTGCTGTTTACCGTCTGTGCCGTATTATATATCTATACTGAAAAGAAAAAACGGAACGGCAAAAAGCACAGGCTTGTGCCCGATGAATTTGAGGAACAGGATGAAAGAGAACGAATGATGACGGCTAAAGCTTGCCGTTCCTCGTATATCGCCGTTTACTTCTCATTGCCGGCCGCAGCCGTTCTGCTTTTGTTTTATCCGCTGATTCAGCCGCATCTTCCCTTTTTTCCGATTCTTTTGATTTTCATTCTGATGATGATTCAGCATTTGGCTTATGTTTTCACTTTTCATAAGCACGGCAAAAACTCCGGTTCATGA	MSLKRKACFHLALYGLACWTLISFMEAAPRIAQFFQTEGSGSFELNITPFLLFTVCAVLYIYTEKKKRNGKKHRLVPDEFEEQDERERMMTAKACRSSYIAVYFSLPAAAVLLLFYPLIQPHLPFFPILLIFILMMIQHLAYVFTFHKHGKNSGS				NA	NA	NA	NA	NA
D1-12_00037	207			hypothetical protein	ATGATGAAAAATAAAGTAAAAGAGCTGAGAGCCAGATTCGGCTATTCTCAGGAAACGCTCGGAAAAGAAGCCGGAGCCACCAGACAGACGATTGCAGCGATTGAAAAAGGAGATTATGTGCCTTCACTTTTATTGGCGCTTAACATCTGCCGGGCTTTCTCCCTGCCGATGGAGGAAGTTTTCTGGCTGGAGGAGGAGAAAAAATGA	MMKNKVKELRARFGYSQETLGKEAGATRQTIAAIEKGDYVPSLLLALNICRAFSLPMEEVFWLEEEKK				NA	NA	NA	NA	NA
D1-12_00039	624			hypothetical protein	TTGAACATCAGTTTAGATCCACTTATTGCTGAACGGGTGCCGGGGATCAAAGCGGCAGCCGTCTTATATGAACAGATCGAAGTCGGGCCTGCTCCGCAAATGCTGAAAGGCCGCCTCCGTTTATTTCAAGAATCTCTTTACTTTGATTATGCTGACGGGGGTATAGAAGAGCAGCCTTTTGTAAAAGAGTGGGCGCGTATAATGGAACAGCTCAGTCCCGCCTTTTCAGGACAAAAAACGCCGATGGAGCTTATGCTCGGCGATATTTCCCGGGAACGATTCATTGAAAGTGTGAATTCAGCCCATGATACCATACTTTTTTTCTCCTTGAAATATTCATTGCCTATCATGGCGTATGACGCCGCAGAAATAGATGAACTGATTTCGATTACGATCGGAGAAAAAGAAAGCGTACTGTCCTTTTCCGGACCGGACGGCGTTTTCGGCGATTTCACCGGACATATCAATACCCGACCGGTCACGCCCGGCACAAAGAAAATGCTGCAGCTGATCTTTTTCCCGCCTTCATTTCATGCCGACGCGGCGGATGAGCTGCTATCATCCTTAACCAAAATGTTTGAACAAATTCACGGAGGCACGCATACCGTCTCTTGGCTTTCATAA	MNISLDPLIAERVPGIKAAAVLYEQIEVGPAPQMLKGRLRLFQESLYFDYADGGIEEQPFVKEWARIMEQLSPAFSGQKTPMELMLGDISRERFIESVNSAHDTILFFSLKYSLPIMAYDAAEIDELISITIGEKESVLSFSGPDGVFGDFTGHINTRPVTPGTKKMLQLIFFPPSFHADAADELLSSLTKMFEQIHGGTHTVSWLS				NA	NA	NA	NA	NA
D1-12_00040	1161	queG	COG1600	Epoxyqueuosine reductase	ATGAATATTCATAAACTGAAAGAGGAATTAATCGAATACGCCAAAAGCATCGGAGTCGACAAAATCGGGTTTGCGACGGCTGATACGTTCGACAGTCTGCGGGACCGGCTGATTCTTCAGGAATCACTCGGCTATTTATCCGGTTTTGAAGAGCCGGATATTGAAAAACGGGTCACTCCGTCTTTGCTTCTGCCGAAAGCCAAATCAATCGTCGCCATCGCCCTTGCTTATCCTTCCAAAATGAAAGATGCGCCGAGGAGCACGAGGGACGGCCGGCGCGGCATTTTTTGCAGAGCTTCCTGGGGGAAGGATTATCATGACGTGCTGCGCGAAAAGCTTGATCTGCTGGAAAATTTTCTCCAAAGCAAACATGAGGATATCCGCACAAAGTCAATGGTGGATACAGGAGAATTGTCCGACAGGGCCGTGGCTGAACGGGCGGGAATCGGCTTCAGCGCCAAAAACTGCATGATCACCACGCCTGAATACGGTTCTTACGTCTATCTGGCTGAAATGATCACCAATCTGCCCTTTGAACCGGATGTGCCGATTGAAGATATGTGCGGTACGTGCACAAAATGTCTAGACGCTTGTCCGACCGGCGCACTCGTCAATCCCGGACAGCTTAACGCCCAGCGCTGTATTTCGTTCCTGACCCAGATAAAGGGATTTTTGCCGGATGAGTTCCGCACGAAAATCGGAAACCGTCTGTATGGCTGTGACACGTGCCAGACGGTCTGTCCGATTAATAAGGGGAAAGATTTTCATCTTCATCCGCAGATGGAGCCTGATCCGGAAATCGCAAAGCCGCTGTTAAAGCCGCTTTTGACCATAAGCAACCGCGAATTCAAAGAAAAATTCGGACATGTATCGGGATCATGGCGCGGCAAGAAGCCGATACAGCGGAATGCGATTTTAGCTTTGGCTCATTTTAAAGATGCCTCGTCTCTTCCGGAATTAACGGCCTTGATGCACCAAGATCCGCGCCCCGTCATCAGGGGTACGGCCGCCTGGGCCATCGGGAAAATCGGTGATCCTGATTATGCGGAGGAATTAGAAAAAGCGCTTCAAAAGGAGCAGGATGAGGACGCCATACGGGAAATTGAAAAGGGACTGGAGCTGTTATCGGTTTCTGATAAGACTAAAACCGGCCGGTCCTGA	MNIHKLKEELIEYAKSIGVDKIGFATADTFDSLRDRLILQESLGYLSGFEEPDIEKRVTPSLLLPKAKSIVAIALAYPSKMKDAPRSTRDGRRGIFCRASWGKDYHDVLREKLDLLENFLQSKHEDIRTKSMVDTGELSDRAVAERAGIGFSAKNCMITTPEYGSYVYLAEMITNLPFEPDVPIEDMCGTCTKCLDACPTGALVNPGQLNAQRCISFLTQIKGFLPDEFRTKIGNRLYGCDTCQTVCPINKGKDFHLHPQMEPDPEIAKPLLKPLLTISNREFKEKFGHVSGSWRGKKPIQRNAILALAHFKDASSLPELTALMHQDPRPVIRGTAAWAIGKIGDPDYAEELEKALQKEQDEDAIREIEKGLELLSVSDKTKTGRS				NA	NA	NA	NA	NA
D1-12_00041	951			hypothetical protein	GTGTTTTTTCTTTATAAAATCGTATGGTGGGTGGAGCGCTTGAAGCATATTATTGAAGATTTAGCGGAGGCCCGGCTTCATTATTTAATCAACGGAACCGAGATGAGGCAGAATGGGCAGGCCGGCGATCTTGAGGTCCTGACGAGAAAAAAAGAGCTGTTTGAAAAACGGAAAGTTGATATCGTGAAGGCGAAGGCAAAAGCCGTCATTGTCAAAAGCAGTCTTGAGGACGACGGCACGTTATGTGTCATGTACACGATTCATTTCGAATATTTGTGCAAGGAGCATGACGGACACCTTTACTTAGAAGAGCAGATTGAGGAACGGATTGCATTTCTCTATGATGAGCTTTTGATTAAAGACCGGGAAGTAAAGAAAAAACCGGCTGGATTTTCTGACGGAAACAGCGTAATTGAATATGAGCGGAGTGAACGGGAAGATTTCGGGCGGGCGTTTCAATACGACCGTCTGGCTGCCGTGCAGTACGCGGAGAAGTTTTGGAATAAACGAAATCCCGCTTATAAAAATTTCAGCGATAATTGCACCAATTTTATTTCCCAATGTTTACATGCCGGAAAAGCACCGATGCGGGGGCATCCGAACAGAGGCTCAGGCTGGTGGATGAAGGCAAGCTCGTGGAGCTACAGCTGGACGGTCGCGCATTCGATGAAGATGTATCTGGCCCAATCCAAGGCAGGGCTTCGCGCGGTGCAAGTATCAAGAGCTGAAGAACTGATGCCCGGAGATATCATTTGCTATGATTTTGAAGGAGACGGCCGTTTTAATCATACGGCGATCGTGGTCGCGAAAGATAAAAGCAATATGCCGCTTGTCAATGCCCAAACGTATGACAGCAGAATGAGATATTGGTCATATGAGGATTCAACGGCGTATACTCCTTCCATCAGATATGTGTTTTTTCATATTACGGATGATACGACAAAAGAGTAA	MFFLYKIVWWVERLKHIIEDLAEARLHYLINGTEMRQNGQAGDLEVLTRKKELFEKRKVDIVKAKAKAVIVKSSLEDDGTLCVMYTIHFEYLCKEHDGHLYLEEQIEERIAFLYDELLIKDREVKKKPAGFSDGNSVIEYERSEREDFGRAFQYDRLAAVQYAEKFWNKRNPAYKNFSDNCTNFISQCLHAGKAPMRGHPNRGSGWWMKASSWSYSWTVAHSMKMYLAQSKAGLRAVQVSRAEELMPGDIICYDFEGDGRFNHTAIVVAKDKSNMPLVNAQTYDSRMRYWSYEDSTAYTPSIRYVFFHITDDTTKE				NA	NA	NA	NA	NA
D1-12_00042	474	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	GTGGCATTACATGTCGTTTTATATCAACCCGAAATCCCGGCCAATACGGGAAATATCGCACGTACTTGTGCGGCAACAGACACAACGCTTCATTTGATCCGCCCGCTCGGATTCTCAACCGATGATAAAATGCTGAAGCGCGCCGGACTCGATTATTGGGAGTTCGTCAACGTCGTATATCATGATTCATTGGAAGAATTATTTGAGGCATATGAGAACGGAAAGTTTTTCTTCATTACAAAATTCGGCCAAAAGCCGCACACATCATTTGATTACTCAAATACGGAGGAAGACTTTTTCTTCGTATTCGGCAGAGAAACGAGCGGACTTCCGAAAGAATTGATCGAAAACAATATGGACCGCTGCCTGCGTCTGCCGATGACCGAGCATGTGAGATCATTAAACCTGTCCAACACGGCCGCGATTCTTGTATATGAAGCGCTGCGCCAGCAAAATTACAGAGATTTGACGTGA	MALHVVLYQPEIPANTGNIARTCAATDTTLHLIRPLGFSTDDKMLKRAGLDYWEFVNVVYHDSLEELFEAYENGKFFFITKFGQKPHTSFDYSNTEEDFFFVFGRETSGLPKELIENNMDRCLRLPMTEHVRSLNLSNTAAILVYEALRQQNYRDLT	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
D1-12_00043	633			hypothetical protein	ATGGAGGAACAACTGATTTCTAAAAAAGAATTGCTGGAAGAAACATCAATTTCATACGGGCAGCTGTACCGCTGGAAACGGAAAAATTTAATTCCTGAAGAATGGTTTATCCGAAAATCGACGTTTACAGGCCAGGAAACATTTTTTCCGAGAGCGGAAATATTAAAACGCATCTCAAAAATACAGAAAATGAAAGAAAATCTGTCTCTGGATGAAATGAGAGAAATGCTGTCTCCGCAAATGACTGATGTCAATATAACGTCTGCGGAACTGCTTCAAAAGGGACTGATTTCAAAAGCCGCGCTGCAAGTTTATGGCGAAGACGGCGTGACATTCACGTCCCGCGCGCTGCTGTCTTTATATGTGCTTGAAGGGCTTTTGCAATCGGGCAATATCAGCCTTGAGGAAGGAAAATTGGCGGCAGGGGTGCTGAAAACGTATGAGGCTTCCGAGCTGAAAGCGAATACGGAGCTTGTCATGCTCCGAAAGCTTGGCGTAACGACGTGCTTCATCGCAGACGCGGAACATATTTTGTTTGAACCGACTGTCAAAGTGGTTGAACGGGTGGCGCTTGCTGCGGCATCGGAAGAATTAAAAACGAAATGGATGCAGGAGGACCATCAATGGAAGTAA	MEEQLISKKELLEETSISYGQLYRWKRKNLIPEEWFIRKSTFTGQETFFPRAEILKRISKIQKMKENLSLDEMREMLSPQMTDVNITSAELLQKGLISKAALQVYGEDGVTFTSRALLSLYVLEGLLQSGNISLEEGKLAAGVLKTYEASELKANTELVMLRKLGVTTCFIADAEHILFEPTVKVVERVALAAASEELKTKWMQEDHQWK				NA	NA	NA	NA	NA
D1-12_00044	714			hypothetical protein	ATGGAAGTAACAGATAAATTAGTCATCAACGGTTCAGGAAGTTCAAAAGGAGGCCGTTTTCATACAGTGGAGATCAACGGAAGCGGCACGGTGTCAGGTGATGTGGAGTGCACGAGCCTTTTGTTTAACGGCAGCGGAAAAACAGACGGACATGTCAAGACGCAAACGCTGATGATCAGCGGTTCGGGGAAAATTTCCGGCAGCGCCGAAGCTGAATCCATCCGTATCAACGGAACGGGTGTCATTAAAGATGATGTCAAAACGGAGCGGCTGAACGTCGCGGGATTTTCATCTTTCGGCGGCGGTGTGAAAGCTGATGATATTTTCATATCCGGGAAAGCCGGGATTGAAGGCGATTGCGAGACAGAGACGTTCCGTTCGGAAGGCAAATGCAAGATCGGCGGCCTGCTGAATGCCGATGAAGTCAGTATTAAGCTGGCGGCGGGAGAAAGCCGGGTGAAAGAAATCGGCTGCCGCCATTTGAAAGTGATGAGCAGAAAGAGCGTGCTTACGCGTTTTAAGCTGATGCCGGCCCCGGTGCTGACAGCAGAGCTGATTGAGGGTGACATCATTGAATTGGCGGACACGAACGCGAAGACAGTCCGCGGAAATCATGTGCGGATCGGCGCAGGCTGCACCATTGGGACTGTGGAATACAGCGGCGATTTTACATGTGATCCTTCCGCTTTGGTTAACAAAGTCGTGAAACGATAG	MEVTDKLVINGSGSSKGGRFHTVEINGSGTVSGDVECTSLLFNGSGKTDGHVKTQTLMISGSGKISGSAEAESIRINGTGVIKDDVKTERLNVAGFSSFGGGVKADDIFISGKAGIEGDCETETFRSEGKCKIGGLLNADEVSIKLAAGESRVKEIGCRHLKVMSRKSVLTRFKLMPAPVLTAELIEGDIIELADTNAKTVRGNHVRIGAGCTIGTVEYSGDFTCDPSALVNKVVKR				NA	NA	NA	NA	NA
D1-12_00045	711			hypothetical protein	ATGGAAACGACAAAAAAATTGAGTCATTTAAAAATGTACGGAGCCGGACACGCCTCCGGCGGCTCCTACCAAAATGTAAGCATTAAAGGGGAAGGAACTGTCGGCGAAGGACTTCAAAGCGAACGCTGCCGGATATTCGGTACGGGACTTTTTCTCGGAGATGCCGAGATCAACAGGCTGAAAATTTTCGGAGAGCATGAAGTTGCAGGAGATTTATCAGCACGTTCAGCAAATGTGATGGGCACATTGAAAGTCGGCGGCTCCATGCGTTTCGCCACGATGAGGCTGAAAGGACTTGCTGAAATTGGCGGCGGGGCCGCGGGAGAGCAGTGTCATATAAAAGGCAGTCTCACAGTCGGCGGCGATTGCGAGACGGAGCTGCTTCATGTAACAGGATGTATCAATGTGGCGGGATTGTTAAACGCGGGGGACGTAAACATCCATTTGCGTTATGACCGAAGCCGCGTGAAAGAAATCGGCGGCACATCGATCACCGTCAGACGGAAACCCGGTTTTCTTAAACGGAAAGCCGGCACGCTTTCTGCTGAATTGATCGAAGGGGACGCAATTTACCTCGAATACACGGAAGCGGACATCGTCAGAGGAAAGCATGTGGAAATCGGCCCGGGCTGCAAAATCGGAAAAATCGAGTATCAAACAAGCTGCAAATCTCATGAAAAATCAACAGTCCAAGAACATATTCAAATGTGA	METTKKLSHLKMYGAGHASGGSYQNVSIKGEGTVGEGLQSERCRIFGTGLFLGDAEINRLKIFGEHEVAGDLSARSANVMGTLKVGGSMRFATMRLKGLAEIGGGAAGEQCHIKGSLTVGGDCETELLHVTGCINVAGLLNAGDVNIHLRYDRSRVKEIGGTSITVRRKPGFLKRKAGTLSAELIEGDAIYLEYTEADIVRGKHVEIGPGCKIGKIEYQTSCKSHEKSTVQEHIQM				NA	NA	NA	NA	NA
D1-12_00046	90			hypothetical protein	ATGAAAACGATCATTTTACTTGGGGTCATTCTCACTTTTTTAGTATCCATTTTTACGGCGGGTTACGACAGCAAACCTGAAAACAAATAA	MKTIILLGVILTFLVSIFTAGYDSKPENK				NA	NA	NA	NA	NA
D1-12_00047	1896			hypothetical protein	ATGGATATATTAAAGAAAATTGAAAAGTACAGAGAGGAAGAGCAGCGTCTCAAATGGGAAGGGACGTTCGCTGATTATTTGGAGATCATAAAAGAAAATCCATTGGTCGCGCAGTCTGCTCATTCTCGCGTTTTTAATATGATAAAAGACAGCGGAATCGAGGAGGATGACGGTAAAAAGACATACAGCTTTTTCTCGAGGGAGCTGTTCGGCCTTGAGGAATCTCTGGAACGGCTCGTGGAGGAATACTTTCACCCGGCTGCCAAGCGGCTCGATGTAAGAAAACGGATTTTACTATTGATGGGACCCGTCAGCGGCGGAAAGTCAACTCTTGTCACCATGCTGAAAAAAGGGCTTGAAGCCTACTCATTGACAGACAACGGCGCTGTTTACGCCATTAAAGGCTGCCCGATGCATGAAGATCCTCTCCATCTCATTCCCCATCATCTGCGCGACGACTTCTACAGAGAATACGGCATCAGAATTGAGGGCAGCCTTTCTCCGCTTAATGTCATGCGGCTTGAAGAAGAATACGGCGGCAGAATTGAGGATGTAAAAGTTGAACGTATATTCTTCTCGGAGGATAAACGTACCGGAATCGGAACCTTCAGCCCGTCTGACCCGAAATCACAGGATATCGCCGATTTGACGGGGAGTATTGATTTTTCAACGATTGCCGAATACGGCTCGGAATCAGATCCGCGCGCTTATCGGTTTGACGGTGAATTAAATAAAGCGAACCGCGGAATGATGGAGTTTCAGGAAATGCTGAAATGCGATGAAAAATTTCTGTGGCACCTTCTGTCACTCACGCAGGAAGGCAATTTCAAAGCCGGACGGTTTGCGCTCATCTCAGCCGACGAATTGGTTGTTGCGCATACGAACGAAACGGAGTACCGCTCGTTTATTGCCAATAAGAAAAATGAAGCCCTTCACTCCAGGATCATCGTGATGCCTGTTCCTTATAATTTAAAGGTGTCAGAGGAAGAACGGATTTATGAAAAAATGATTTCTGAAAGTGATGTTTCTGACGTACACATCGCCCCCCATACATTAAAAGTGGCCGCGATGTTTTCTATTTTGACCAGGCTGAAGGAACCGAACCGCTCTGATATTGATCTCGTCAAAAAAATGAGGCTCTATGACGGAGAAAGCGTTGAAGGTTACAATTCCGTTGATCTTGAGGATATGAAGAAGGAATTTCATGATGAAGGAATGAGCGGAATTGACCCGCGCTATGTCATCAACCGCATTTCCTCAACGATTATCAGAAAAAATATGGAATCGATCAATTCGCTTGACGTGCTGCGTTCCTTAAAAGAAGGACTCGACCAGCATCCGTCCATCTCCGCCGAGGACAAAGAGCGGTATATGAATTTTATTTCCGCCGCCAGGAAAGAGTACGATGATATCGCCAAAAAGGAAGTGCAGAAGGCGTTCGTCTATTCATATGAAGAATCCGCGAAAACTCTCATGGACAATTATTTAGATAATGTGGAAGCGTACTGCAATAAAAATAAGCTCCGCGATCCGCTGACGGGTGAAGAAATGAATCCTGACGAAAAACTGATGAGATCCATTGAAGAGCAGATCGGCATTTCAGAAAACGCGAAAAAAGCGTTCCGCGAAGAAATCTTAATCCGCATATCCGCCTATGCAAGAAAAGGAAAACGCTTTGACTATAATTCGCACGAAAGACTCCGCGAAGCGATTCAGAAAAAGCTGTTCGCAGACTTAAAAGATGTGGTGAAAATTACGACCTCCACCAAAACGCCGGATGAGCAGCAGCTTAAAAAGGTCAATGAGGTAGTGGCAAGGTTAATAGATGAACACGGCTATAATTCGACTAGCGCTAATGAACTGCTGAAGTATGTCGGAAGCTTGTTAAACCGCTGA	MDILKKIEKYREEEQRLKWEGTFADYLEIIKENPLVAQSAHSRVFNMIKDSGIEEDDGKKTYSFFSRELFGLEESLERLVEEYFHPAAKRLDVRKRILLLMGPVSGGKSTLVTMLKKGLEAYSLTDNGAVYAIKGCPMHEDPLHLIPHHLRDDFYREYGIRIEGSLSPLNVMRLEEEYGGRIEDVKVERIFFSEDKRTGIGTFSPSDPKSQDIADLTGSIDFSTIAEYGSESDPRAYRFDGELNKANRGMMEFQEMLKCDEKFLWHLLSLTQEGNFKAGRFALISADELVVAHTNETEYRSFIANKKNEALHSRIIVMPVPYNLKVSEEERIYEKMISESDVSDVHIAPHTLKVAAMFSILTRLKEPNRSDIDLVKKMRLYDGESVEGYNSVDLEDMKKEFHDEGMSGIDPRYVINRISSTIIRKNMESINSLDVLRSLKEGLDQHPSISAEDKERYMNFISAARKEYDDIAKKEVQKAFVYSYEESAKTLMDNYLDNVEAYCNKNKLRDPLTGEEMNPDEKLMRSIEEQIGISENAKKAFREEILIRISAYARKGKRFDYNSHERLREAIQKKLFADLKDVVKITTSTKTPDEQQLKKVNEVVARLIDEHGYNSTSANELLKYVGSLLNR	PGPT0014345_1189	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180	NA	NA
D1-12_00048	1179			hypothetical protein	ATGTCCCGTAATGACAGCGGAAATTTTTTGATTTCAGAGGAAGACTGGTCCCTCCATCGCAAAGGCTTTGACGACCAGCAGCGCCACCAAAAGAAAGTACAGGAAGCGATAAAAAACAACCTTCCGGACCTTGTCACTGAGGAAAGCATTATTATGTCCAACGGAAAAGATGTCGTGAAAATCCCGATTCGTTCGCTTGATGAATATAAAATCCGTTATAACTATGATAAAAATAAACATGTCGGCCAAGGCGACGGCGACAGCGAAGTCGGCGATGTCGTCGCAAGAGACGGCGCAGATAAAAAGCAGGGTGCCGGAAAAGGCCAGGGAGCCGGCGATCAGGCAGGCGAGGATTATTATGAAGCGGAAGTTTCATTGATGGATCTGGAAGAAGCGCTGTTTCAGGAATTAGAACTGCCGAATCTGCAGCAAAAGGAAAGGGACAATATCGTCCATACCGATATCGAGTTCAATGATATCCGGAAAACCGGGCTGACAGGGAATATCGATAAGAAAAGGACGATGCTGTCGGCCTATAAACGAAACGCTATGACAGGCAAGCCGTCGTTTTACCCTATTTATCCGGAAGATCTGAAATACAAAACATGGAATGATGTGACGAAGCCGGAATCGAAAGCTGTCGTTTTAGCCATGATGGATACAAGCGGTTCGATGGGCGTATGGGAAAAGTATATGGCGAGGAGCTTCTTTTTTTGGATGACACGATTTTTACGGACAAAGTATGAAACGGTTGATATCGAATTTATCGCCCACCATACGGAAGCGAAGGTTGTGTCGGAAGAAGATTTCTTCTCGAAAGGCGAGAGCGGGGGCACCATCTGTTCCTCCGTTTACCGGAAGTCTCTTGAATTAATTGATGAAAAATATGACCCCGCCCGCTACAACATATATCCGTTTCATTTTTCAGACGGAGATAACCTGACTTCGGATAACGCCCGGTGCGTAAAGCTCGTCAATGACATCATGAAAAAATCGAATCTGTTCTGTTACGGGGAGGTCAATCAATATAACAGGCATTCCACCCTCATGTCCGCCTATAAAAATGTCAAAGATGATAAATTTAAATACTACATCCTGAAACAGAAATCAGACGTATTTCAAGCGCTGAAAAGCTTTTTTAAAAATGAGGAAGCCGGTGTAAGCAAAGCATCGTATTAA	MSRNDSGNFLISEEDWSLHRKGFDDQQRHQKKVQEAIKNNLPDLVTEESIIMSNGKDVVKIPIRSLDEYKIRYNYDKNKHVGQGDGDSEVGDVVARDGADKKQGAGKGQGAGDQAGEDYYEAEVSLMDLEEALFQELELPNLQQKERDNIVHTDIEFNDIRKTGLTGNIDKKRTMLSAYKRNAMTGKPSFYPIYPEDLKYKTWNDVTKPESKAVVLAMMDTSGSMGVWEKYMARSFFFWMTRFLRTKYETVDIEFIAHHTEAKVVSEEDFFSKGESGGTICSSVYRKSLELIDEKYDPARYNIYPFHFSDGDNLTSDNARCVKLVNDIMKKSNLFCYGEVNQYNRHSTLMSAYKNVKDDKFKYYILKQKSDVFQALKSFFKNEEAGVSKASY	PGPT0025005_1124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786	NA	NA
D1-12_00049	465			hypothetical protein	GTGATTGAATCAGAGCTCGCTTTGCTCAGTTTTGAACAACTGTTTGATACTTCCAGATCAATTTACAAAAAGCAGAAAATGATTCTGGAGACAGTTCTTGAACCTTTTGATATTACAGTACTGCAGTATCTGCTGATGTTCAAAATACATAAGAGCAAAAGCACGCAGCTTTCAAGGCTGGCTTTGTCGCTTGATCTGAAACCGGCGTCTGTCACGAGAATGACCGATATTCTGTATAAGCGCCGCCTAATGGTTCGGAGCGACTATCACGACGACCGGCGTGTTGTTATGATTCAGTTAACCGAAGAGGGGGAAGAACTTCTAAAGAAAGCTGCTGTTCAATATGCCGAAAAAGCGGCGGGCTTATACCGGCAGCTCAATACCGCTGAACTGCAGTACCTGCGCAAGCTTGCGGAAAGTTTAACGAAGCTTGCAAACGGCTGTGCAGTGAAAAACGGAAAATAA	MIESELALLSFEQLFDTSRSIYKKQKMILETVLEPFDITVLQYLLMFKIHKSKSTQLSRLALSLDLKPASVTRMTDILYKRRLMVRSDYHDDRRVVMIQLTEEGEELLKKAAVQYAEKAAGLYRQLNTAELQYLRKLAESLTKLANGCAVKNGK	PGPT0013155_2080	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-12_00050	633	aaeA		p-hydroxybenzoic acid efflux pump subunit AaeA	ATGAACAGAGGACGTTTAATTCTGACCAACATTATCGGTTTGATTGTTGTTCTTGCAATTATAGGCGGAGGTGCTTACTACTATTATCAAAGCACACACTATGTAAAAACCGATGAAGCAAAAGTTGCCGGCGACATGGCTGCTATCACAGCTCCTGCTGCGGGTAAAGTAACTGACTGGAACCTTGATGAGGGGAAAGAAGTAAGCAAAAACGACGTTGTTGCAAAAATCAAAGGACAGCAAAATGCTGACGTAAAAGCCATCATGGATGGAACAATCGTGAAAAACGAAGTGAAAAACGGCCAAATGGTGCAAGCCGGTACGACAATTGCCCAGGAAATTGACATGAAACATCTTTACATCACTGCAAACATTAAAGAAACAGACATTAGAGACATTGAAGTAGGAAACAAAGTAGACGTAATTGTTGACGGCGACCCTAATACAACATTTGACGGAACAGTAGAAGAAATCGGTTATGCGACAAATTCAACATTTGATATGCTGCCTTCTTCAAACTCAAGCGGCAACTACACAAAAGTAACGCAAAAAGTTCCTGTTAAAATTTCACTCAGCAACCCATCTGACAAGGTGCTTCCTGGTATGAACGCATCTGTAAAAATCTCTGAATAA	MNRGRLILTNIIGLIVVLAIIGGGAYYYYQSTHYVKTDEAKVAGDMAAITAPAAGKVTDWNLDEGKEVSKNDVVAKIKGQQNADVKAIMDGTIVKNEVKNGQMVQAGTTIAQEIDMKHLYITANIKETDIRDIEVGNKVDVIVDGDPNTTFDGTVEEIGYATNSTFDMLPSSNSSGNYTKVTQKVPVKISLSNPSDKVLPGMNASVKISE				NA	NA	NA	NA	NA
D1-12_00051	1596	emrB_1		Multidrug export protein EmrB	GTGGCTAAATCAGATAATCAAGTAAAAAGTCCTAAAACATTGCTTATTGTGCTTATGGCCGGGTTATTCCTGGCGATCTTGAACCAAACGCTTCTTAACGTGGCGATGCCGCACTTAATGACCGAGTTCGGTGTGAGTGCGACGACGATTCAGTGGCTTACGACCGGATACATGCTGGTCAACGGTGTTTTGATTCCGTTATCTGCGTTCTTAATTACCCGGTTCGGACAGAGAAGCCTCTTTCTCGTAGCCATGTTCTGTTTTACAGCGGGAACGTTAGTCTGCGGAATCGCGCCTAACTTCTCAACCATGCTGATCGGCCGGTTAATTCAGGCGGTCGGCGGCGGTATCCTGCAGCCGCTGGTCATGACAACCATTCTGCTTATCTTCCCGCCTGAAAGCAGGGGGAAAGGAATGGGGATTTTCGGTCTAGCGATGATGTTTGCTCCGGCGGTCGGACCGACTCTTTCCGGCTGGATCATCGAGCATTACACATGGCGCATTATGTTCTACGGTCTTGTTCCGATCGGGGCAATCGTTATTATCATAGCGTTTTTCCTCTTTAAGAACTTGGTGGAACCGCAAAAAATCAAACTCGACAGCTTGGGTGCGATTCTATCCATTGTCGGATTTGCCTCATTGCTTTACGGAGTCAGTGAAGCGGGCAGCGACGGCTGGGGAGATCCGATCGTGCTTTCTACCGTCATTGTCGGTGTCATCGCGATTGCCGCGTTTGTCATTCAGCAATTGCGCTCTGAAAAACCGATGCTCGACTTCCGGGTATTTAAATATGATATTTTCTCACTTTCCAGTGTGATTAACATCATTATTACCGTTGCGCTTTACACAGGAATGTTCCTGCTTCCGATTTACCTGCAGAACTTAGTCGGCTTTACGGCGCTGCAATCGGGTCTCTTGCTATTGCCGGGCGCGATTGTCATGCTGATCATGTCGCCGATTTCCGGTATTCTGTTTGACAAAATCGGTCCGAGACCGCTTGCGATTATCGGGCTGGTCATCACGGTCGCAACGACATTCCAGTACACAAAATTGACAATTGACACACCTTACACGCACATTATGCTTGTCTATGCCATCCGCGCATTCGGTATGTCACTGTTAATGATGCCTGTTATGACAGCCGGAATGAACCAGCTTCCGGCACGCTTGAACAGCCACGGCACGGCGATGAGCAACACGCTCCGCCAGATCAGCGGTTCAATCGGAACAAGTTTGATCACAACGATTTATACGAACCGTACGACAATGCACTATTCGCAGATTGCGGATAAAACGAGCACGGCTGATCCAAGCTTCATGCAGTCGTTCCAAAGCGCGGTTTCGAATTTAATGGTCAACATGAACATGTCGCTTGATGCGGCGAAACAAACCGTTTATTCATATCTCTACAAAACAGCTTCACTTAATTCCAACGTTATGGGGATTAATGACGCGTTTATGTGGGCGACGATCTTTGCGGTTATCGGCGTAGTCCTGAGCCTGTTCTTGCGTGACGTACGGAAAGACAAACAGCGGGCGAAGAAAAAAGAGGAGCTGTCATTGCTTCCGGCCCCTAAAGAAGTGAAGGAATCTTAA	MAKSDNQVKSPKTLLIVLMAGLFLAILNQTLLNVAMPHLMTEFGVSATTIQWLTTGYMLVNGVLIPLSAFLITRFGQRSLFLVAMFCFTAGTLVCGIAPNFSTMLIGRLIQAVGGGILQPLVMTTILLIFPPESRGKGMGIFGLAMMFAPAVGPTLSGWIIEHYTWRIMFYGLVPIGAIVIIIAFFLFKNLVEPQKIKLDSLGAILSIVGFASLLYGVSEAGSDGWGDPIVLSTVIVGVIAIAAFVIQQLRSEKPMLDFRVFKYDIFSLSSVINIIITVALYTGMFLLPIYLQNLVGFTALQSGLLLLPGAIVMLIMSPISGILFDKIGPRPLAIIGLVITVATTFQYTKLTIDTPYTHIMLVYAIRAFGMSLLMMPVMTAGMNQLPARLNSHGTAMSNTLRQISGSIGTSLITTIYTNRTTMHYSQIADKTSTADPSFMQSFQSAVSNLMVNMNMSLDAAKQTVYSYLYKTASLNSNVMGINDAFMWATIFAVIGVVLSLFLRDVRKDKQRAKKKEELSLLPAPKEVKES	PGPT0029220_341	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
D1-12_00052	534	pnpB		p-benzoquinone reductase	ATGAAAATTTACGTAGTGTACGATAGTGAAGGCGAACATACAAAACACCTTGCTGAAGCCATTGCCGAAGGAGCACGAGAAAACGCTGAGGCTGAAGTCCTGATCGACCATGTCGATCAAGCAGACATCCGCAAGCTGAAAGACATGGATGCCATTATTTGGGGATGCCCGGGACACTTTGGCACCATCAGTTCAGGCTTAAAAGCGTGGATCGACAGACTCGGCTATCTGTGGGCTGAAGGCGAGCTGATTGATAAAGTCGGCGCCGTATTCTGTACGACGGCGACAACACATGGCGGATTAGAAATGACAATGCACAATCTGATCACTCCTATGTTTCACCAAGGCATGATTGTTGTCGGACTTCCCGGCAACGTTCCAGAAAACGCGCTGTACGGCTCTTACTACGGCGCGGGCGTCACATGCCCGGTTGACAGCGATGTGCTGATGACGGAAGAAGGCCTTCAATTAGGCCGTGCGCTTGGCAGACGTGTCAGCCAAGTCACAGGTAATCTAACTGCCGGACGACAGTAA	MKIYVVYDSEGEHTKHLAEAIAEGARENAEAEVLIDHVDQADIRKLKDMDAIIWGCPGHFGTISSGLKAWIDRLGYLWAEGELIDKVGAVFCTTATTHGGLEMTMHNLITPMFHQGMIVVGLPGNVPENALYGSYYGAGVTCPVDSDVLMTEEGLQLGRALGRRVSQVTGNLTAGRQ	PGPT0009460_3563	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
D1-12_00053	372			hypothetical protein	ATGGCCATTATTATAGCGGTTATTGCTGCTGTCATTGTGATTGCACTTCTTATCACATTCAATGTCCGCAGCACTTCTGCAGGACAGGATGTCAAAGAAGAAAAGAGAGAAGCGATCGGCACTACAGCCGAACAGCCGGAAAAGCATGATCCGGCCGAGGAGCGCTCAGCCGAGCATGCTCCCGTCGTTGTGAAATCTGAATCTCCCCGTGAGAAAAAGAATACAATGGGCGATGATGTGTACCGTCAGGCGCTTCAGAAGTTTAAGACTTCTGAGACGGATCGGGAAACAAACGATCCTGATAGCGGCGGCAAAATGCAGGATAGCAGCTATCGTGATGCGCTGCTCTCCTTAAAAAACAAAAAGAAGTAA	MAIIIAVIAAVIVIALLITFNVRSTSAGQDVKEEKREAIGTTAEQPEKHDPAEERSAEHAPVVVKSESPREKKNTMGDDVYRQALQKFKTSETDRETNDPDSGGKMQDSSYRDALLSLKNKKK				NA	NA	NA	NA	NA
D1-12_00054	768			hypothetical protein	ATGACATCGTTTTTAGGTTTGCTGAAAAAAGATGCGAAGGTTTCATGGATTTGGCTCGCGGTGTGGCTTTTCGGCATGATTTGCTTGGCGTTTGCAGCCCACGTCATCGCTGCCCGTCAGAAAGAACCGCTCGTCATTTTCGGCTTTTTTGCGGCAATGGGGTTTTTTCAATTTCTTGTAGCGCCGCTTTTTATGTACTATCACCTTCATAAAGAAGGAAAAAACCAGCTGTGGCTTTACAATCCGAATGGAGGATTTTATCTGCTGGCTTCCAAGCTGACGGCCTCACTGCTGTATCAGTTGATCGGGCAGCTGGCGCTGACCGGTTACGGCATTTGGATGTACCGGATGCTTTCTGCAAAAGGAGCGCTGGAACACGCCATTCCCCTGGCCGGCACATTAACCGGACTGAATGCTTACCTGCTGATCAGTTCAGCGTACTTATCTGTGATCGTGGCCGTATTTTGGACTGTTTTTCACTCATTAAAAAATGTTCCCGTCCTCCGTTGGGTGATCTGCATCGTGCTTGCGTTTGTCTGGACCTATATTGACGATAAAATCATTACGCCTTTCACTTCATCTCAACATGATTTATGGCCGGTAAAAGTGTATGCGAATTTTCATTTTCATTATACAAAATTGACCGGATGGACGATGGAGCTGAAAACCGTCCACATTTCGCTTTTCAGCTTCTTGGCAGTGATCGTGCTTGCGGCGCTCTGTCTTGCGCTGGCCTCTATGCTGCTGAATCGAAAGGTTGAGGTGTAA	MTSFLGLLKKDAKVSWIWLAVWLFGMICLAFAAHVIAARQKEPLVIFGFFAAMGFFQFLVAPLFMYYHLHKEGKNQLWLYNPNGGFYLLASKLTASLLYQLIGQLALTGYGIWMYRMLSAKGALEHAIPLAGTLTGLNAYLLISSAYLSVIVAVFWTVFHSLKNVPVLRWVICIVLAFVWTYIDDKIITPFTSSQHDLWPVKVYANFHFHYTKLTGWTMELKTVHISLFSFLAVIVLAALCLALASMLLNRKVEV				NA	NA	NA	NA	NA
D1-12_00055	378	ytrA_1	COG1725	HTH-type transcriptional repressor YtrA	ATGGAGAATGAATTTCAGTCATCCAAGCCGATTTATCTGCAGATTGCCGATCGTGTATATTACCGGCTGATCCGAAGTGAGCTTTCACCGGGGGACAAACTGCCGTCCGTAAGGGAGATGGCCGTACAGATGAAAGTGAATCCGAACACGATACAAAGAACGTACAGTGAAATGGAAAGGCTGGGGATCGTGGAGACGAGAAGAGGACAGGGAACCTTTATAGCGGAAAGATCCGATCTGAAAGCGGAGCTGAAAGACAGGCTGACAAAAGACGTTTTCAAACGCTTTATTCAGGAAATGGCGGAGCTGGGGTTATCTCCTGAGGAAATGCTCGACGGGATCAAACGATATGCGGAGGAAGCAAACGATGAATCTTGA	MENEFQSSKPIYLQIADRVYYRLIRSELSPGDKLPSVREMAVQMKVNPNTIQRTYSEMERLGIVETRRGQGTFIAERSDLKAELKDRLTKDVFKRFIQEMAELGLSPEEMLDGIKRYAEEANDES				NA	NA	NA	NA	NA
D1-12_00056	717	yxlF	COG1131	putative ABC transporter ATP-binding protein YxlF	ATGAATCTTGATTTTGAACGCGTAACAAAAAAATACGGCCGCAGGCTTGCGGTCAGCGATGTATCATTTTCATTGTCTCCGGGTAAAATCTACGGAATTTTAGGGCCGAACGGAAGCGGGAAATCAACAACGCTTAAAATGCTTGCCGGGCTTGCGTTCCCGACATCGGGCGCCGTCCGGATCGGAGACTGCGCAGTAAGCAGGAACATGCTGTTTCGTACGGCTTATTTAACCGAACATGATATGTTTTCCGCCCGGACGACCGTCGGTGATATGCTCACATTTTATCATTCGCAATTCCCGGATTTTCAGCTGGAAAAAGCACATAACCTATTAACGGAAATGAATCTTTCAGCGAAGCAGAAGATAAAAGAGCTCTCCAAAGGCAGCCGGGGCAGGCTGAAAATCGTTTTGGCCCTGTCGAGAAAAGCATCCGTCATTCTGCTGGATGAGCCGTTTTCAGGTCTTGATCCGGCGGTCAGAGAATCGATTGTCAACAGTCTCGTATCTTATATTGATTTTGACAGCCAGATCGTCGTCATCGCCACGCATGAGATCGGCGAGATTGAGACGCTGTTAGACGAAGTGATGGTTTTCATAAAAGGGAAAATCGCTGAACGGCGCGAGGTCGAAGAAATCCGGGAACAGGAAGGAATGTCTGTGCTGCAATGGTACAGAAGCGTCATGCAGGCGCACGAAATAGAAGGGGGATTCTAA	MNLDFERVTKKYGRRLAVSDVSFSLSPGKIYGILGPNGSGKSTTLKMLAGLAFPTSGAVRIGDCAVSRNMLFRTAYLTEHDMFSARTTVGDMLTFYHSQFPDFQLEKAHNLLTEMNLSAKQKIKELSKGSRGRLKIVLALSRKASVILLDEPFSGLDPAVRESIVNSLVSYIDFDSQIVVIATHEIGEIETLLDEVMVFIKGKIAERREVEEIREQEGMSVLQWYRSVMQAHEIEGGF	PGPT0006725_25929	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_00057	918	bcrA_1		Bacitracin transport ATP-binding protein BcrA	TTGGAAACGGTATTAGAACTGCAACAGGTAAAGAAAACGATAAAAGGACGAACGATTATTCATGATTTGAGCTTCTCCGTCCGGGCGGGCGAAGTGTTTGGATTTTTAGGGCCGAACGGAGCGGGGAAAACCACTACGATCAGAATGATGGTCGGATTAATGAAACTGTCTCAGGGAGACATCGTAATCTGCGGGGAATCCATTACGAAAAACTATGCAAAAGCGGTCAGGCACGTCGGAGCCATCGTGGAAAACCCGGAGCTGTACAAATTCCTGAGCGGTTATAAAAATTTACAGCAGTACGCAAGGATGGTAAAAGGCGTTACGAAAGAAAAAATAGATGAGGTCATCGAGCTCGTCGGGTTGCAGGACAGAATACATGACAAAGTAAAAACCTACTCTCTCGGAATGAGACAGCGTCTCGGCCTCGCCCAAAGCCTGCTGCATAATCCTAAGGTGCTGATTCTGGATGAACCGACAAACGGCCTTGATCCCGCGGGCATCAGGGAAATCAGGGACCATCTGAAAAAGCTGACACGTGAAAAAGGAATGGCTGTCATCGTCTCTAGCCATCTGCTGTCAGAAATGGAGTTAATGTGCGACCGAATCGGCATTCTGCAAAAAGGGGAGCTTGTCGATATTCAAAAAGTAAGGGATGAAGGAAAAGAGGATAAAGATACATACTTCTTCCATATTGAACAAAGAGAAGAGGCTCTTGCCGTTCTGAGTCAGTTTGACTGTGTGAAGAAGACAAACGGTATTGAGATCAAGCTGTCAAAACAGGAAGTGCCTGATGTGATATCTCTGCTCGTCCGTGAAAACATCCGCTTATATGAAGTGAAAATCATGACAAAATCTTTGGAAGACCGTTTCTTGGAGATTACCGGCGGGACGAAAGAGGAGGTTCAATATGTTTAA	METVLELQQVKKTIKGRTIIHDLSFSVRAGEVFGFLGPNGAGKTTTIRMMVGLMKLSQGDIVICGESITKNYAKAVRHVGAIVENPELYKFLSGYKNLQQYARMVKGVTKEKIDEVIELVGLQDRIHDKVKTYSLGMRQRLGLAQSLLHNPKVLILDEPTNGLDPAGIREIRDHLKKLTREKGMAVIVSSHLLSEMELMCDRIGILQKGELVDIQKVRDEGKEDKDTYFFHIEQREEALAVLSQFDCVKKTNGIEIKLSKQEVPDVISLLVRENIRLYEVKIMTKSLEDRFLEITGGTKEEVQYV	PGPT0006725_12374	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_00058	948			hypothetical protein	ATGTTTAAGCTGATCTATAATGAATGGATAAAAATTTTCAGCCGCGTCGGCACGTGGGCTATGATTGTAATTTTAGGCGTTTCGATGATCGGTTTTGCGCTTCTGTCAAACCATTTCACCTCGAACGAAGCCAATCCGAATTGGAAACAGGAGCTCCAAGCTGAAAACAAAGAAATGAAACAGCAGATGAAGGAAACCGGAAATCAGACGCTCATTGATAACCTGAAACAGAATGTCGCGATAAATCAATACCGTATGGATCATAACATCCCCGAGGATACAGGGTACACCGTGTGGTCATACGTAGCTGATTCTTCGATGATGACTGTTTTGACCGGGCTGTTTACGATTATCATTGCCGCAGGCATCGTGGCGAATGAGTTCAACTGGGGGACGATCAAGCTGCTGGCTATCCGTCCGCTCAGCCGTTTTCAGATTTTGCTATCTAAATATATGACGGTGCTGCTGTTCGGACTGCTGATGCTTGTGATTTTATTTGCCGGCTCCGCTCTGTTGGGATTGGTCTTTTTCGGTACAGGCGGAGATACTGCGGCTGATGTTCATCTCGTATACAAAGACGGCCATGTTTTTGAGCAAAATATCATCGCTTTCCTCGCTAAAACATATGTCTATGAATCTGTCTCCGCTTTTATGCTTGCGACGATGGCGTTTATGCTGTCTGCGGTATTCCGGAACAGCTCATTAGCGGTCGGATTTTCTATTTTTCTATTGGTTATGGGGAACACGGCGACGGTATTTCTTGCTGCGAAATTTGAATGGACCAAATATATTTTATTTGCGAACACAGATTTGTCGCAATATATGAACGGGACTCCTTTAGTAGAGGGGATGACGATGACATTTTCGGTTGTGATGCTTGTGATTTACTTCGTTATTTTTCTGGCGCTCGCATTCGGCGTCTTCTTAAAACGCGATATTGCCACCTGA	MFKLIYNEWIKIFSRVGTWAMIVILGVSMIGFALLSNHFTSNEANPNWKQELQAENKEMKQQMKETGNQTLIDNLKQNVAINQYRMDHNIPEDTGYTVWSYVADSSMMTVLTGLFTIIIAAGIVANEFNWGTIKLLAIRPLSRFQILLSKYMTVLLFGLLMLVILFAGSALLGLVFFGTGGDTAADVHLVYKDGHVFEQNIIAFLAKTYVYESVSAFMLATMAFMLSAVFRNSSLAVGFSIFLLVMGNTATVFLAAKFEWTKYILFANTDLSQYMNGTPLVEGMTMTFSVVMLVIYFVIFLALAFGVFLKRDIAT	PGPT0006730_9141	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_00060	201	cspB	COG1278	Cold shock protein CspB	ATGTTAGAAGGTAAAGTAAAATGGTTCAACTCTGAAAAAGGATTCGGATTCATCGAAGTAGAAGGTCAAGACGATGTATTCGTTCACTTCTCTGCTATTCAAGGCGAAGGCTTCAAAACTTTAGAAGAAGGCCAATCTGTTTCTTTCGAAATCGTTGAAGGAAACCGCGGACCACAAGCTGCTAACGTAACAAAAGCATAA	MLEGKVKWFNSEKGFGFIEVEGQDDVFVHFSAIQGEGFKTLEEGQSVSFEIVEGNRGPQAANVTKA	PGPT0014675_8665	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-12_00061	627	metQ_1	COG1464	Methionine-binding lipoprotein MetQ	TTGGCGCTTGCCGGCGGGGATCTCGACGCCAATGCGTTTCAATCCGTTTCTTATTTTCAATCTTTGCCGCCTCATGTGAAAAAGAAGCTGGCTCCTTTAGGAACGACATATGCGGTATCGCTTGGGGTGTATTCCAAGCAGCATAAACGGCTGAAGGATATACCGGACGGAGCGGTCATTGCCGTGCCTGATGAAGCGGCGGCCTTCGGCAGGGCGCTTTTTCTCATGCAGGAGGCCGGACTGATGACATTGAAAAAGGGATTCACCGGTACGGGTTCAACTGATATGATCAAGGACAACCCGAAGCATCTGACCTTAAAAACGGAAACAAAAAAGAACGCATATCAGGCGGCGGAACATGCTGACGCAGCAGTTCTCAGTCAAAGCGAGGCGAAAAGAGCAGGATTTCATGCGGAGAAGGACGCGCTGATCCGATCGGCGCAAATGAAGGAAGCGTATATTCATCTGATCGCCGTCAGAGCTGAGGATAAAGATGATGAACGGATGCAAAAACTCCTGTCTTTGTATCAATCAGATGATACCGCGGCGTTTATTGAAAAAGAATATGAGGGCAGCCTGATTCCTGTTTTCCTGAGGGGCGGCTTTCTCACTGAAAAGAAAGAATGA	MALAGGDLDANAFQSVSYFQSLPPHVKKKLAPLGTTYAVSLGVYSKQHKRLKDIPDGAVIAVPDEAAAFGRALFLMQEAGLMTLKKGFTGTGSTDMIKDNPKHLTLKTETKKNAYQAAEHADAAVLSQSEAKRAGFHAEKDALIRSAQMKEAYIHLIAVRAEDKDDERMQKLLSLYQSDDTAAFIEKEYEGSLIPVFLRGGFLTEKKE	PGPT0020510_2263	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
D1-12_00062	1080			hypothetical protein	ATGCTGAAGGAACTGTTTCTTAATTTGACAATTTTAATTACATTTAATTATCTGTTCACCCTTCTTTTTAAAGAGTCGCTTTCGTATAAAGAAGACCGTCTGATGTTTCAATTACTGAAGGGGACGGTCTGCGGGCTTTTAGGGGTTTTTCTGATTGCTTTCGGCTTTTCTTACTCCGATTCCATCATTGATCTCAGAAATATCCCCATTATCATCGCCGCTCTTTACGGAGGCTGGGTGTCTACGGCAGCCGCCTTTGCGATTATCGTCGCAGGCCGTATCCTGATCAATTTCAATGCCAGCGCCATTTTTTCCATCGCCGCCGTCGGGGTTATTGCGATACTTTCTGCGGCCGTCCTCAGAGGAAAAAAGCCGGATCACAAAATGGCGTTCGTTATGCTGCTTTTTTCAAATGTTATTTTCACCCTGACGCTGCTGTTTCTTATGCCCGAACAGCCTGCCGGGGCCCTCGTTTATTATTGGCTCATTTCCGTCTTGGGCGGAATGCTGTCGCTGTATATTATTAAACACGAAGCCGATGCCCGCCTTTTGTTCAAGCAATACAAGTTTCAAGCGAATTATGATTTTCTGACGGGGATTTTTAATAAGAGAAAATTCGAGGAAGTCTCGCGCGTTCTGTACGATCGGGCGTCTCAATCCCCCTCGTCTCAGCTCGCGCTTATTTATTTGGATATTGATCACTTTAAGCAGATCAATGATCAATACGGCCATTATGAAGGGGATCAAGTGCTGAAGGAACTGGAGGCGCGCCTGAGGTTCTTACTCAGCAGTTCTGATCCGTCAGCCCGCATCGGCGGGGAAGAATTTGCCGTGCTTATGCCCAATTGCACGTATACGAAAGGGCTTCACCTCGCAGAGGAAATCAGGCACACGATTGACGCGAACCCGATTCTGCTGACGAGCGGAGATACAATTCCCGTGACCGTTTCCCTCGGCATCGCGCATTATCCGACAAATACATCGGATCCTCAGACATTGCCCCTGATCGCAGACCGGATGCTGTACAAAGCGAAAACATCAGGGCGCAATCAAGTGTGCAGCACTGAAAAAAAAGAATGA	MLKELFLNLTILITFNYLFTLLFKESLSYKEDRLMFQLLKGTVCGLLGVFLIAFGFSYSDSIIDLRNIPIIIAALYGGWVSTAAAFAIIVAGRILINFNASAIFSIAAVGVIAILSAAVLRGKKPDHKMAFVMLLFSNVIFTLTLLFLMPEQPAGALVYYWLISVLGGMLSLYIIKHEADARLLFKQYKFQANYDFLTGIFNKRKFEEVSRVLYDRASQSPSSQLALIYLDIDHFKQINDQYGHYEGDQVLKELEARLRFLLSSSDPSARIGGEEFAVLMPNCTYTKGLHLAEEIRHTIDANPILLTSGDTIPVTVSLGIAHYPTNTSDPQTLPLIADRMLYKAKTSGRNQVCSTEKKE				NA	NA	NA	NA	NA
D1-12_00063	1392	tcyP	COG1823	L-cystine uptake protein TcyP	TTGGAGAATTTATTTGTAGTCTTACATGTTTTTATTATGCTTTTGCTTATAGCAGGTCTGTTTGTCATGCAAAAAAAACACGTTTCCTTTTCTAAACGTGTCTTTACCGCGCTCGGACTAGGCATTGTATTCGGTTTTGCACTGCAATTGATTTACGGGCCGGCTTCACATATCGTGACACAAACGGCCGATTGGTTTAATATTGCCGGCGGCGGTTATGTCAAATTGCTTCAGATGATCGTCATGCCGCTAGTCTTTATTTCTATTCTCGGCGCATTTACGAAGCTGAAACTGACCCATAACATCGGGAAAATCAGCGGACTGATCATCGGGATTTTGATCGCTACAACAGCAATTGCTGCGGCAGTCGGAATTGTTTCGGCGCTTTCCTTTGATCTGAAAGCCGTTCATATCGACCAGGGAAGCACCGAGTTATCAAGAGGCCAGGAGCTGCAGCAAAAATCTGAGGATATGACGGCCAAAACGCTGCCTCAGCAAATCGTTGAGCTTCTGCCGGGAAATCCGTTTCTTGATTTCACGGGGGCCAGACCGACTTCCACCATCGGAGTCGTTATTTTCGCCGCTTTCCTCGGCATCGCTTTTCTGGGCGTGAAACGGAAGCAGCCGGAGCACGCTGCGACTTTCAGCGGAATTGTCGATGCGGTATACGCGATTATTATGCGCGTCGTGACATTAATTTTAAGACTGACGCCTTACGGGGTATTGGCGATTATGACAAAGACGATCGCGACAAGCGACATCGACAGCATTGCGAAACTGGGGATGTTTGTGATCGCTTCATACGCCGCGCTTATCGTCATGTTTATCATTCACTTGCTGCTGATTACGTTCAGCGGTTTAAATCCGATCACATACGTGAAAAAAGCATTTCCTGTCATGGTATTTGCGTTTACGTCCCGTTCAAGCGCAGGGGCTTTGCCGCTTAATATTAAAACACAAAAAAGCATGGGCGTCCCGGAAGGAATTGCGAACTTCGCCGGTTCATTCGGCTTATCGATCGGTCAAAACGGCTGTGCCGGCATTTACCCGGCGATGCTCGCGATGATGATTGCGCCGACAGTAGGGCAAAACCCGTTTGAACCGGGATTTATCGTCTCTGTCATCGCCATCGTGGCAATCAGTTCATTCGGTGTAGCAGGCGTGGGAGGCGGCGCGACATTTGCGGCTCTGCTCGTCCTATCCGCTTTGAACATGCCTGTCGCGCTTGCCGGGCTGCTCATTTCAATTGAGCCGTTAATTGACATGGGGCGCACCGCCTTAAATGTCAGCGGCAGTATGACCGCAGGGCTGTTAACAAGTAAAATGACGAAGGAAACCGATACCGCGGTGTACAATGATTCCTCAATCGTCATTGAAGCTGAAGAAGCTTAA	MENLFVVLHVFIMLLLIAGLFVMQKKHVSFSKRVFTALGLGIVFGFALQLIYGPASHIVTQTADWFNIAGGGYVKLLQMIVMPLVFISILGAFTKLKLTHNIGKISGLIIGILIATTAIAAAVGIVSALSFDLKAVHIDQGSTELSRGQELQQKSEDMTAKTLPQQIVELLPGNPFLDFTGARPTSTIGVVIFAAFLGIAFLGVKRKQPEHAATFSGIVDAVYAIIMRVVTLILRLTPYGVLAIMTKTIATSDIDSIAKLGMFVIASYAALIVMFIIHLLLITFSGLNPITYVKKAFPVMVFAFTSRSSAGALPLNIKTQKSMGVPEGIANFAGSFGLSIGQNGCAGIYPAMLAMMIAPTVGQNPFEPGFIVSVIAIVAISSFGVAGVGGGATFAALLVLSALNMPVALAGLLISIEPLIDMGRTALNVSGSMTAGLLTSKMTKETDTAVYNDSSIVIEAEEA				NA	NA	NA	NA	NA
D1-12_00064	480			hypothetical protein	TTGTTCAGAAAAAAAAGCGGCATCAGCCCGACAGCGCTGCTGATCGGATCATCGATTCTGATTGCAGCTTTATCACCCGAAATCCGCCGGAAAATCTCCGGAATGGTTTCAGGCAGTATGCAGCATAAAGATGGCACACATTCCATGCAGCCTGCTGACCTGATTCAACAGGCTTTCAGCGGGGAATCCGGCGGACAGCAGCACACGGACAAACCACGGCATTCACAAACAGGCTCCACGCAGCCTGCCGAGCTGATCAAACAGGCGTTCGGCGGGGATTCCGGCGGACAGCAGCATGAGCAGACTTCCCGCAATCACTCCGGCTCATCCCATACAGACGGACAGGCAGACCGCAGTAAAGAAACTTCGCCGAAGCCTCACTATACCGAGCCGATTCACTTCGAAGAAAGCGCGGTAAATGTTTTAAATGACAGCACCGTGATGAATATGCTGGAAGAAATTGAACCCGGAAATCATTAG	MFRKKSGISPTALLIGSSILIAALSPEIRRKISGMVSGSMQHKDGTHSMQPADLIQQAFSGESGGQQHTDKPRHSQTGSTQPAELIKQAFGGDSGGQQHEQTSRNHSGSSHTDGQADRSKETSPKPHYTEPIHFEESAVNVLNDSTVMNMLEEIEPGNH				NA	NA	NA	NA	NA
D1-12_00065	540	yhcN		putative spore germination lipoprotein YhcN	ATGATAAAAAAGCAAGCAGTTATCTCTGCCCTTCTTCTGCCGATGCTGATTACCGCAGGGTGCAGTATGGGGAACCAGGGGGAAGGAAAACGAAATGACAACCGCACCCAGAATGTAAATTACCGCAACACGCCTAACGACGGTGCGACAAATATGAATACAGTGAACCGTCATAACCAAAACACCGATCACAATGACAATCGTAACCTGAGAGTGGCTGATAAAGCCGCTGACAAGGTGACTGATTTAAAAGAAGTTAAAAATGCGACTGTGATCGTTGCCGGAAACAGCGCATATGTTGCCGTTGTTCTGACAAACGGGCAAAAAGGCGCCATCGCCAACCATTTAAAAAATAAAATTACCGATAAGGTGAAATCAGCCGATAAACATGTCCGGACTGTATATGTATCAGCGAACCCGGACTTCGTTGAACGTATGCAAGGCTACGGAAAACGAATCCAAAACGGACATCCTGTATCCGGTCTGTTTGATGAATTCGGTCAAATGGTGCAGCGTGTATTCCCAAACCCCAATAAATAA	MIKKQAVISALLLPMLITAGCSMGNQGEGKRNDNRTQNVNYRNTPNDGATNMNTVNRHNQNTDHNDNRNLRVADKAADKVTDLKEVKNATVIVAGNSAYVAVVLTNGQKGAIANHLKNKITDKVKSADKHVRTVYVSANPDFVERMQGYGKRIQNGHPVSGLFDEFGQMVQRVFPNPNK				NA	NA	NA	NA	NA
D1-12_00066	903			hypothetical protein	TTGCGTGACGGCATGGGGAAACGGGCGGCATTCACTCTGATCCTGTGCGGAGTCCTTGTCATATTGGCTGTCAGTTCAGCCGTTTCAGTAAGTATGATGTACGTCCTGTCAGGCCAAAACAGCCGCTCTGTTCCGACGAAGGAACAAGTGACTGAACACATGAATAAAGAAATTTACAAACATACAGCGATTTACTATACGGCGGATGAAAAGCCGCTCTTGGATCTGACCAAGCTTACGCTGGACCACGCAAAGCGTATCAATCAAATCATTGTCGGCTACAAAGGTGCAGCGCCACTTGAACTCATTTTCTTTTCGGATGAAGCTGAAATGGAGCAATCTTCAGGATTGAAAAATGTAGTCGGTTTTTATTCAGAACAGGAGCAGATGATGGGGCTTTTGCCTGAAGAGAAAAAACAGCTTTTGAAAAAAGATGAGCTGGCCGTTTTCATGTATAAACAATTAATTATACATGAATATACACACTACGCGTTTCATCAAAAAACGCGGCAATTGGGGACGGATACGTCTGTATTTCCGCTTTGGTTTCATGAGGGGCTGAGCGAGTGGGTCGCGCATTATGATGTAGTCATTGATCCGATTGCATTTTCCGTCGTGCCGTTTGATCAATTAACGACCGACCGGAAATGGCAGAAATCGCGTATGGAATATGAAACGGATGTCTATTTGCAAAGCTTCTATATGATAAAGGACTTAACCGAAACATTCGGAGAAGGCATTATCTTAACCATTATCAACAAAACCGCCGAAACACAGGATTTTGAAAAAGGCTTTGAAGCGGCTACGAAAGAAGGCCTGAAACAATTTGAACATGATTTCATAAAAGCATATGAAAAAAAGAAAACGGCATTGGAGAGTCAGGTTTCCAACGCCGTTTTTTAA	MRDGMGKRAAFTLILCGVLVILAVSSAVSVSMMYVLSGQNSRSVPTKEQVTEHMNKEIYKHTAIYYTADEKPLLDLTKLTLDHAKRINQIIVGYKGAAPLELIFFSDEAEMEQSSGLKNVVGFYSEQEQMMGLLPEEKKQLLKKDELAVFMYKQLIIHEYTHYAFHQKTRQLGTDTSVFPLWFHEGLSEWVAHYDVVIDPIAFSVVPFDQLTTDRKWQKSRMEYETDVYLQSFYMIKDLTETFGEGIILTIINKTAETQDFEKGFEAATKEGLKQFEHDFIKAYEKKKTALESQVSNAVF				NA	NA	NA	NA	NA
D1-12_00067	666			hypothetical protein	GTGGAACAGCAGCAGAATCAGCAGCAGCCGCCAGTAAATCAGGGGATCCCGGGTTCACCGCAAGTGAATCACGGAGGACATGAGCTTTTCGATATGCATGAAGTGCTGGCCGGAACAGTCGGCGTTTTAGATCAATTTATGATGCTCAGACAGTTTATACAGGATCAGCAGCTGGCCGACATCCTTGACCGCCAGTATCAATTCATTCTCGGACTCTATAATCTGACGGCAGAATGCTTTAAGACCGGCCAAAAGCCTTCTCAGGAAACGTCGACATATATGATGAAGGAACAGAACCAGGCCGTCTACGGTATAAAACCGACTCAGCCGAAAAAACCGAATCAATCATTAAATGATGTCAAAGATCTCGGGATCAGCGGCCATATGCTCGGCCTGATTAAAGCTCAAGCTTCTCTCTTGACGATGAGCTCGCTTGAAATGACCAATCCCGTCACAAGAAGAGTGCTCTCCGCCCAAATTCAGCAATATGTCGAAATGGCGTTTGAAATCTTCTTATACCAAAACAAACACGGTTATTATCAGGTTCCTCAGCTCAATGCACAAGATATGCAGACCATGCTGAATTCATTTGCACCGGCGGAGGGACAGCCGCAAATGCCTCCGATTAAAGGACAAATGGGACAGCAGCAGCAAAACCTCCATTGA	MEQQQNQQQPPVNQGIPGSPQVNHGGHELFDMHEVLAGTVGVLDQFMMLRQFIQDQQLADILDRQYQFILGLYNLTAECFKTGQKPSQETSTYMMKEQNQAVYGIKPTQPKKPNQSLNDVKDLGISGHMLGLIKAQASLLTMSSLEMTNPVTRRVLSAQIQQYVEMAFEIFLYQNKHGYYQVPQLNAQDMQTMLNSFAPAEGQPQMPPIKGQMGQQQQNLH				NA	NA	NA	NA	NA
D1-12_00068	2055	yhcR	COG0737	Endonuclease YhcR	ATGAAGAAAAAAAGGGGTATGCGTCTTTCGTGCTGTTTGCTGACGGTTTGTTTTATGATGTTCAGCGTGAAAGATGCGGAAGCAATCGGACAAGCCGGATCACTGAATGAAGCCGGCACGGATAAAGCGTATAAAGAACGGCAGACTGAAGACTCCGGCCGTGTCCCGCTCAGAATCATCAGCATGAATGATCTGCACGGAAAAATTGATCAGCAATATGAGCTTGACCTTAACGGAGACGGTAAACCGGATGGCACTTTCGGGCGGATGGACTACGCCGCCGCGTACATTAAAAAGGCGAAAGCCGAGAAAGAACACGCCTTTGTCGTGCATGCGGGCGATATGATCGGGGGCAGCTCTCCCGTGTCAGCCCTTTTTCAGGATGAACCGACAGTAGAATTGATGGAAGACATCGGTTTTGATGTCGGAACTGTCGGCAATCACGAATTCGATGAAGGAACGGATGAGCTTAAACGGATCATCAATGGAGGAGATCATCCGGACGGTAAGGGGACAAGCGGTTATGACGGCCAAAATTTCCCGCTCGTCTGCGCCAACTGTAAACTGAAGTCAGGGGAGTCCTTTCTGCCGCCGTATGAAATTAAATACGTTTCCGGAATTCCGGTCGCATTTATCGGGGTTGTAACCAGATCGGCGGCAGGCATGGTCATCCCGGACGGAATTAAAAATATTACGTTTACGGATGAGGTAAAGGCCGTCAATGACGCCGCCGCTGACCTGAAGAAAAAAGGAATTAAAGCAATCGCCGTACTCGCCCATATGTCTGCTGAACAAAATGGCTCAGCCATCACGGGAGAATCCGCAAAGCTTGCAAGCGGAACAGACTCAGAGATTGATGTGATTTTCGCCGCGCACAATCATAAAGTCGTAAACGGAGAAATCAACGGCAAGCTGATTGTGCAGGCATTTGAATACGGAAAAGCAATCGGAATCGCCGATCTTGAACTTGATAAAGAGTCGAAGGATATCGTGAAAAAATCAGCGGAAATCCAATATATCGATCAAAGTAAAATCAAGCCTGACCCGGCTGCGGCAGGCATATTAAGCAAATATGAAGAGAAAGTGAAACCGATTATCAGCGAAACGGTCGGGGAAGCGGCCCATGATATAACGGGCGGGTATTCAAATGACGGCGACACGGCGCTCGGAAATCTGATTGCCGACGGTATGAAAGCGAAGATGAAATCCGATTTTGCGCTTATGAATGGGGGAGGCATCCGGGACGGCATAAAAAAAGGACCGATCACATGGGGAGACCTTTATAATGTACAGCCGTTCGGCAATGTGCTGACGAAGCTTGAAATCAAAGGAAAAGATTTGCGGGAGATTATTAATGCGCAAATTTCTCCGGTGTACGGTCCGGATTACAGCATCAGCGGATTTTCCTATACATGGAACACGGAAACCGGACAAGCGGTTGATTTGAAAATGGCGGACGGGACAGACATACAGCCCGAAAAAGGATATACAGTAACAGTCAATCAATTTATGGCGACGGCAGCGGGGGCAAAATACGGTCCGATCGGGAAAGTCGGCAAGAATCCGGTGACGGGGCCTGAGGATTTGGAAGCGACAGTAGACTATGTCAAAAGCTTTTCCGCACCGATTTCTTATCAAACCGACGGCCGCATCCGCACGGCATCAGCCGCCAAAACACCTGATGACACCGGCAATCAGCCGGGAAGCGGGGAAACACCGGGCGGCACCAGGCCTGATAAAGGAGAAAAACCTCAAGCGGAAAAACCCGCTAAAAAACCGGATGCAGCAGAACAGCCTGATCAAACCAAAAAACCTAAACGTCCTGTCGTAAAAGAAACAGCATCTGATACAGTGCAGTCAATTCCTGAATCCCGTCCGGCGTCTGCCGCAAATTCGGAACAAAGCACAAAACAGACTGAAAGCGGCACACAAAAAGGCCGCCCATTGCCTGATACTTCAGCGGGCAGCCATCAGACGGCATTGGCCGGCCTGGTGATCACGGGTGCCGGCGTATATTGGCTTTTCAGAAAGAAAAGGGGAATCCGCACACGATGA	MKKKRGMRLSCCLLTVCFMMFSVKDAEAIGQAGSLNEAGTDKAYKERQTEDSGRVPLRIISMNDLHGKIDQQYELDLNGDGKPDGTFGRMDYAAAYIKKAKAEKEHAFVVHAGDMIGGSSPVSALFQDEPTVELMEDIGFDVGTVGNHEFDEGTDELKRIINGGDHPDGKGTSGYDGQNFPLVCANCKLKSGESFLPPYEIKYVSGIPVAFIGVVTRSAAGMVIPDGIKNITFTDEVKAVNDAAADLKKKGIKAIAVLAHMSAEQNGSAITGESAKLASGTDSEIDVIFAAHNHKVVNGEINGKLIVQAFEYGKAIGIADLELDKESKDIVKKSAEIQYIDQSKIKPDPAAAGILSKYEEKVKPIISETVGEAAHDITGGYSNDGDTALGNLIADGMKAKMKSDFALMNGGGIRDGIKKGPITWGDLYNVQPFGNVLTKLEIKGKDLREIINAQISPVYGPDYSISGFSYTWNTETGQAVDLKMADGTDIQPEKGYTVTVNQFMATAAGAKYGPIGKVGKNPVTGPEDLEATVDYVKSFSAPISYQTDGRIRTASAAKTPDDTGNQPGSGETPGGTRPDKGEKPQAEKPAKKPDAAEQPDQTKKPKRPVVKETASDTVQSIPESRPASAANSEQSTKQTESGTQKGRPLPDTSAGSHQTALAGLVITGAGVYWLFRKKRGIRTR	PGPT0013395_416	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
D1-12_00069	597	srtD	COG3764	Sortase D	ATGAACAAACTGAAACATATTCCGCTTCTCGTCATCATCGCCGGTATCATCATCACATGTTACGGAAGCTGGAAGATCATTGATTCACATATGAAAACGAACCAATCGCTTGAAGAAGCAAAACAAGCAACAGAACCTGTCTTGGAAAAGAACGAAACAAAAAGCGCCGTGCTGGCACAGCGCAAAAAAGAATTTCACCCCGAAACGGGTGAGGCAAGCGGCATTTTAGAAATTCCTGAAATCGACGCTGAGCTCCCGATCGTCGAAGGGACTGACGCAGATGATTTAGCAAAAGGCGTCGGACATTATAAGGACAGCTATTATCCGGGCGATCACGGCCAAATTGTGTTATCCGGCCACAGGGACACGGTGTTCCGCCGGACCGGCGAACTGAAAAAAGGAGACAGACTGAACGTGATTTTGTCTTACGGCACGTTTTCTTATAAAATCAGCCGTACAAAAATCGTCAGCCGGGATGATACATCTGTCATCACCCTTCGGCACAAGCGGGAGGAACTGATCCTGACCACTTGCTATCCGTTTTCTTACATTGGAAATGCGCCGAAACGATATATTATATATGCCGACCCGGTTTAA	MNKLKHIPLLVIIAGIIITCYGSWKIIDSHMKTNQSLEEAKQATEPVLEKNETKSAVLAQRKKEFHPETGEASGILEIPEIDAELPIVEGTDADDLAKGVGHYKDSYYPGDHGQIVLSGHRDTVFRRTGELKKGDRLNVILSYGTFSYKISRTKIVSRDDTSVITLRHKREELILTTCYPFSYIGNAPKRYIIYADPV	PGPT0024075_2372	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
D1-12_00070	909	rluD_1	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGAAACAAAATGACCGCGGTCTGGAACTCCTGATTACGGAAAAGCACGCCGGACAATGGCTGTTTTCAGTCCTGAAATCTGAATTCCAGGCGTCAAAACCCGTAATTACGGAATGGATGAACCAAGAAAGCATTCAGGTGAATCGGACATCCCCGAAAAACAATATCATACTGAAGACCGGAGATCGCTTATTCATTGATCTTCAGGAAAAAACGGGTTCTTCGGTGACTCCGGAATACGGAGAGCCGGACATTTTATTTGAGGACAATCATATGCTGATTGCAAATAAGCCGGCGGGAATGCCGACTCATCCAAATGAAGAGGGTCAGACCGGCACCCTCAGCAACCTGATCGCTTACCATTTTCAAATCAACGGCGAGCAGGCGAAAGTGCGCCACGTTCACCGTCTTGACCGTGACACGTCAGGCGCGGTCGTTTTCGCGAAACACCGCCTGGTCCATGCAATCCTTGACCGTCAGCTCGAAACCAAAACATTAAAACGCACCTATATCGCCGCGGCGGAAGGAAAAGTCACGCCGAAAAAAGGCACGGTTGACTCGCCGATCGGCCGCGACAGGTCACATTCCGTCAGACGGCGCGTCTCACCCGGCGGACAAGCCGCCGTCACCCATTACAGAGTGAAAGGCTATCATCCCGGTGCGCAGCTTACATTGGCAGAGCTTGAACTGGAAACCGGGAGAACACATCAAATCAGGGTGCATATGGCAAGCATCGGCCATCCGTTGGCGGGCGATGACCTGTACGGCGGAAGCAGGACGCTGTTTCACAGGCAGGCGCTTCACGCCAAAAAAGTCAGTGTCGTCCATCCGATCTCAGGAGAAGAAATCGTTGCCGAGGCGCCGATGCCGGCTGATCTGGCTCATTTTACCGAAACGTATTTTTCTTAA	MKQNDRGLELLITEKHAGQWLFSVLKSEFQASKPVITEWMNQESIQVNRTSPKNNIILKTGDRLFIDLQEKTGSSVTPEYGEPDILFEDNHMLIANKPAGMPTHPNEEGQTGTLSNLIAYHFQINGEQAKVRHVHRLDRDTSGAVVFAKHRLVHAILDRQLETKTLKRTYIAAAEGKVTPKKGTVDSPIGRDRSHSVRRRVSPGGQAAVTHYRVKGYHPGAQLTLAELELETGRTHQIRVHMASIGHPLAGDDLYGGSRTLFHRQALHAKKVSVVHPISGEEIVAEAPMPADLAHFTETYFS				NA	NA	NA	NA	NA
D1-12_00071	396			hypothetical protein	ATGGCAAGAAAGGTGATTGATGTGAGAATTGTGAACGCAGCGACTGACGGACAAGAAAGCGCGATACAAGAGCTTTCCTCTGAATTGTTTCAAAATGTCTTTCCTCTTTATTTCTCCGAACTGGAAATTCAGCGCTTTAAAAAAAGGGGCGTATTATCATTACAAAACCAACGTTACCAAGGAACTTTAAAAGAAGCGTTTCAAATTATGGCTTGTCTGCAAACGGTACATATCATGCTGTCAAAGCCGCACCCGGTATATGACGTCAAAGAGCGGGCGCTGTTTGATAAAAATTGCGCTTTGCTGAATGAATGCGGAATGAATTTTCCCTTTACCTATGATGATTTCGAGACAGGGGCCGGATCAGAAGCCTGCGGTCACAGAAGGCTGATCTGA	MARKVIDVRIVNAATDGQESAIQELSSELFQNVFPLYFSELEIQRFKKRGVLSLQNQRYQGTLKEAFQIMACLQTVHIMLSKPHPVYDVKERALFDKNCALLNECGMNFPFTYDDFETGAGSEACGHRRLI				NA	NA	NA	NA	NA
D1-12_00072	423	hrp1_1	COG0517	Hypoxic response protein 1	ATGAGTTCAATCAAACAATCAATGACTACCCACGTGGCTACCGTTTCTCCCAATCAAACGATTCAGGAAGCGGCTGCGCTGATGCACCAGCATAATGTCGGAGCAATTCCCGTCGTTGACGGAGGGGAATTAAAAGGAATGCTGACAGACCGTGATATCGCATTGAGAACAACGGCTCAAGGCCGCGACGGCCAAACACCTGTTTCACACGTGATGTCTTCTGCAGTTGTATCCGGAAACCCGGAAATGAGTCTTGAAGAGGCGTCACATCTGATGGCCCAACACCAAATCCGCCGCCTTCCCATTGTCGATCAAAATCATCTGGTCGGGATCGTTGCGCTTGGAGACTTAGCGGTCGATCAGCGTTCAAATGAGTCTGCGGGAGCAGCTCTTTCCAATATTTCCAGTCAAAACACACAGTAA	MSSIKQSMTTHVATVSPNQTIQEAAALMHQHNVGAIPVVDGGELKGMLTDRDIALRTTAQGRDGQTPVSHVMSSAVVSGNPEMSLEEASHLMAQHQIRRLPIVDQNHLVGIVALGDLAVDQRSNESAGAALSNISSQNTQ	PGPT0021445_6898	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
D1-12_00073	690	hxpB	COG0637	Hexitol phosphatase B	TTGATAAAAGCATTAATCTTTGATTTTGACGGGTTAATTTTAGATACAGAAACCCATGAATATGAAGTGCTGCAGGAAATGTTTGAAGAACACGGTTCAACATTGCCTTTATCCGTCTGGGGAAAGGTGATCGGAACGGCCGCGGGGTTTAAGCCATTCGCATATTTAGAGGAGCAGCTGGGAAGAAAGCTCGATCATGATGAACTGACGGCGATCAGGCGCGGGCGCTTCGAACAGCGGATGAAGACGGAAACGGCGCGCCCCGGGGTGGAAGCTTATTTAGCCGCGGCAAAAGAATTAGGATTGAAGGTGGGGCTCGCTTCCAGCTCAGATTTTAAATGGGTGTCGGGCCATCTGAAGGAATTAGGCCTGTTTGATGAATTTGAAGTGATTCAGACGGCTGACGACGTAGAAGAAGTGAAGCCGAATCCGGAGCTCTATCTGAAAGCTGCGGAACATTTAGGCGTTGAACCATCTGAATGTCTGGCCTTTGAGGATTCGGTCAACGGCTCAATCGCAGCCAAACGCGCCGGAATGAAATGTGTCATCGTCCCGAATAAGGTAACAAGCGCCCTGTTATTTGAAGAATACGATCACAGACTGGAATCGATGGCGGAAATGGAACTTGAATTACTCTTACAGCGATTGAACGATCAAAACGAACCGGCAGGGGGAAGCAGCATTGTCTGA	MIKALIFDFDGLILDTETHEYEVLQEMFEEHGSTLPLSVWGKVIGTAAGFKPFAYLEEQLGRKLDHDELTAIRRGRFEQRMKTETARPGVEAYLAAAKELGLKVGLASSSDFKWVSGHLKELGLFDEFEVIQTADDVEEVKPNPELYLKAAEHLGVEPSECLAFEDSVNGSIAAKRAGMKCVIVPNKVTSALLFEEYDHRLESMAEMELELLLQRLNDQNEPAGGSSIV				NA	NA	NA	NA	NA
D1-12_00074	1539			hypothetical protein	TTGTCTGAGAAACTTGATCTGACCCGTTTTGAAAAGAAAATGGTCATACGGAATATGGAAGAGAAAGATATCAACAAAATAATTGAGCTGCAAAAGGATTGTTTTCCGGGGATGGAGCCGTGGGAGCCTGAGCATTTAATCAGCCATCTCGCGCACTTTCCGGAAGGTCAGTTTTGCGCCGAGTATGAAGGAGAAATTATCGGTTCATGCTCAAGCCTGATCATAAATTTCGATGAATATGATGACCGCCACACGTGGCAGGACATTACAGACGACGGTTATATCACGAACCACAACCCGGACGGATTGAATCTGTACGGGATTGAGGTAATGGTTCACCCGGAATACAGACGGATGAAGATCGGACACCGGCTGTATGAGGCGAGAAAAGACTTGGCGAGACGATTGAATCTGAAAAGCATCATTATCGGCGGGCGGATTCCGAATTATCATAAGTATGCGGAAGAAATGACGGCGAGAGCCTATGTCGAACAGGTGACGCGCCATCAGATTTATGATCCGGTGCTTTCTTTCCAGCTGATGAACGGATTTACGCTCATGCGGATCAATCCGAATTATCTCCCGGATGACACCGCGTCCATTAAATATGCGACATTAATGCAATGGAACAATGTCGATTACTTGCCGCAGTCGAAGCGCTATTACAAATCGGCATTTCCGGTGCGCATTTGCGTCATTCAATATGAAATGAAAAAGATTTACTCCTTCGAGGAATTTGCCAATCAGGTTGAATATTATGTCGATGTGGCTTCCGATGCGAGATCTGATTTCGCGGTGTTCCCGGAGATTTTCACGACGCAGCTCATGTCATTTCTCGAGGAGCGTTCTCCGAGTCTGGCCATTCAGAGGATTACCGAATATACCGAGGACTATATCAGCCTCTTTACAGATCTCGCGGTGAAATATAATGTCAACATCATCGGCGGCTCCCACTTCGTTGAAGAAGAGGGGAAAATTTATAACATCGCCTACTTATTCAGACGTGACGGCACGATTGAAAAACAATATAAGCTTCACATTACGCCGAATGAGCGGAAATGGTGGGGCATCAGCGCCGGAGACAGGGTGCGCGTATTTGATACGGACTGCGGAAAGATCGCCATTCAGATCTGTTACGATATCGAATTTCCGGAGCTTGCGAGAATTGCCGCGGATCAAGGAGCGAAAATTATCTTTACACCGTTCTGCACTGAAGACCGCCAAGGCTACTTGCGCGTAAGGTACTGCTCTCAGGCGAGAGCGGTTGAAAACCAAATTTACACCGTCATCTCAGGTACGGTCGGAAACCTGCCGCAAACAGAAAATATGGATATTCAATACGCGCAGTCAGCCATTTTTGCTCCGTCTGATTTTGAATTCGCCAGAGACGGAATCGTCGGTGAAACGAATCCGAATATCGAAATGGTCGTGATCGGGGACGTGGACCTTGAAATCTTAAGAAGGCAGCGTGAAAACGGAACCGTGCGCCAGCTGAAAGACCGGCGCAAAGATATTTACCGGATTACGCACCTGAAATAA	MSEKLDLTRFEKKMVIRNMEEKDINKIIELQKDCFPGMEPWEPEHLISHLAHFPEGQFCAEYEGEIIGSCSSLIINFDEYDDRHTWQDITDDGYITNHNPDGLNLYGIEVMVHPEYRRMKIGHRLYEARKDLARRLNLKSIIIGGRIPNYHKYAEEMTARAYVEQVTRHQIYDPVLSFQLMNGFTLMRINPNYLPDDTASIKYATLMQWNNVDYLPQSKRYYKSAFPVRICVIQYEMKKIYSFEEFANQVEYYVDVASDARSDFAVFPEIFTTQLMSFLEERSPSLAIQRITEYTEDYISLFTDLAVKYNVNIIGGSHFVEEEGKIYNIAYLFRRDGTIEKQYKLHITPNERKWWGISAGDRVRVFDTDCGKIAIQICYDIEFPELARIAADQGAKIIFTPFCTEDRQGYLRVRYCSQARAVENQIYTVISGTVGNLPQTENMDIQYAQSAIFAPSDFEFARDGIVGETNPNIEMVVIGDVDLEILRRQRENGTVRQLKDRRKDIYRITHLK	PGPT0007175_17	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007175-yhcX-NA	NA	NA
D1-12_00075	1344	tpa	COG0161	Taurine--pyruvate aminotransferase	GTGGAACATGTACAAAAAAATCAGTCACTCAAACAAAAGGATAAAGAGCTGATTTGGCACGCGATGAAAGGGGCGGAGCCGGATGACAGCATAATCGTCCAAAAAGGGGAAGGCGCCTGGGTTACGGACATTGACGGCAGACGGTATTTGGACGGCATGTCAGGCCTGTGGTGCGTCAATATCGGATACGGGAGAAAGGAGCTTGCCGATGCGGCTTACAGCCAATTGAAGGAGCTTCCTTATTATCCGCTGACCCAAAGCCATCAACCCGCGATTGAGCTTGCGGAAAAACTGAATGAATGGCTCGGCGGCGATTATGTGATCTTCTTTTCCAACAGCGGATCGGAAGCAAATGAAACCGCGTTCAAAATTGCCCGCCAATACCACATTGAAAACGGCGATCACAGCCGCTTCAAATTCATCTCCCGGTACAGAGGCTATCACGGCAATACGATGGGGGCGCTCGCCGCTACCGGCCAGGCGCAGAGAAAATATAAATATGAGCCGCTCTCACAAGGTTTTTTGCATGCGGCGCCGCCTGATCTTTATCGGAATCCCGGAGATGCCGTCACATTGGAAAGCGCGCATGACATCGACCGGATCATGACGTGGGAATTAAGCGAAACGATTGCCGGCGTTATTATGGAACCGATTATTACAGGCGGAGGGATACTGATGCCCCCGGACGGGTATATGGCAAAGGTAGAGGACATTTGCCGCCGCCACGGCGCGCTTCTGATCAGTGATGAAGTCATTTGCGGTTTCGGCCGCACGGGAGAGCCGTTCGGATTTCAGCATTACGGCGTTTCACCGGACATCGTCACAATGGCAAAAGGCATTACGAGCGCTTACCTGCCGCTGTCGGCAACGGCAGTAAAACGGGAGATTTTTGAGGCGTATTCGGGCGGTGAGCCGTACGGCCGCTTCCGGCACGTGAATACATTCGGAGGCAATCCGGCAGCCTGCGCCCTGGCCTTGAAAAACCTGCAATTGATGGAGGACGAACATCTGATCGCCCGCTCCCGTGAGCTTGGAGAAAGGCTGCTCCGTGAGCTTGAGCCGATCAGAGAACATCCGGCGGTCGGAGATGTACGGGGCAAGGGCCTTCTTGCCGGCATTGAGCTCGTCAAGGACAAAGTCACGAAGGAACCCGCTGATGCCGCCCTTGTGCAGCACGTCATCACCGCCTGCAGAGAAAAAGGCCTGCTTGTCGGGAAAAATGGCGATACTGTAGCGGGATATAATAATGTCATTCAGCTGTCTCCGCCTTTTTGCCTGTCGGACGAGGAGCTCTCTTTCATCATTTCGACCGTCAAGGAAAGCGTGCTGAGCATTGATTTTTAA	MEHVQKNQSLKQKDKELIWHAMKGAEPDDSIIVQKGEGAWVTDIDGRRYLDGMSGLWCVNIGYGRKELADAAYSQLKELPYYPLTQSHQPAIELAEKLNEWLGGDYVIFFSNSGSEANETAFKIARQYHIENGDHSRFKFISRYRGYHGNTMGALAATGQAQRKYKYEPLSQGFLHAAPPDLYRNPGDAVTLESAHDIDRIMTWELSETIAGVIMEPIITGGGILMPPDGYMAKVEDICRRHGALLISDEVICGFGRTGEPFGFQHYGVSPDIVTMAKGITSAYLPLSATAVKREIFEAYSGGEPYGRFRHVNTFGGNPAACALALKNLQLMEDEHLIARSRELGERLLRELEPIREHPAVGDVRGKGLLAGIELVKDKVTKEPADAALVQHVITACREKGLLVGKNGDTVAGYNNVIQLSPPFCLSDEELSFIISTVKESVLSIDF	PGPT0001925_289	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-GERMINATION_STIMULATION	PLANT_GERMINATION-TAURINE_DERIVATE_PRODUCTION	PLANT_GERMINATION-TAURINE_DERIVATE_BIOSYNTHESIS,PGPT0001925-tpav|bioA|yhxA-K03851	NA	NA
D1-12_00076	576	glpP	COG1954	Glycerol uptake operon antiterminator regulatory protein	ATGAGTTTTCACAACCAGCAGATTCTACCGGCAATCCGGAACATGAAGCAATTCGATGCATTTTTAGAAAGTCCGTTCTTATACGGCGTCATTTTAGATATCCACCTCGGTCAATTAAAAGGTGTCGTGAATGAAGCGAAAAAACACGGAAAACTTCTGATGGTTCACGTCGATTTAATTCACGGCATTAAGCATGACGAATACGGTGCGGAGTTTATTTGTCAGGATATCCGGCCCGCGGGTATCATTTCGACGAGATCATCAGTCATCGTCAAAGCGAAACAAAAGAAAATATACGCGATCCAGCGTCTGTTTCTCTTGGATACGAGCGCCATGGAGAAAAGCATGGAATTCGTCGGAAAGCATAAGCCTGACTTTATCGAGGTTCTCCCGGGCATCGTTCCGACTTTAATCAGAGAAATTAAAGAAATGACGGGGATTCCGATTTTTGCCGGCGGCTTCATCCGCACGGAGCAGGACGTTGAAAACGCCTTGCAGGCAGGAGCCACGGCCGTGACGACTTCAGACACCGAACTATGGGCTAAATATGAACATTCTATGACAAAAAAAGATTGA	MSFHNQQILPAIRNMKQFDAFLESPFLYGVILDIHLGQLKGVVNEAKKHGKLLMVHVDLIHGIKHDEYGAEFICQDIRPAGIISTRSSVIVKAKQKKIYAIQRLFLLDTSAMEKSMEFVGKHKPDFIEVLPGIVPTLIREIKEMTGIPIFAGGFIRTEQDVENALQAGATAVTTSDTELWAKYEHSMTKKD	PGPT0022030_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443	NA	NA
D1-12_00077	828	glpF	COG0580	Glycerol uptake facilitator protein	ATGACAGCATTTTGGGGAGAAGTAATCGGTACAATGCTGCTTGTTATTTTCGGCGGCGGCGTTTGTGCGGGAGTCAATTTAAAGAAATCGCTTTCATACCAATCCGGATGGATTGTTATTGTATTCGGCTGGGGATTGGGAGTAGCCATGGCGGCATATGCCGTCGGCAGTATCAGCGGCGCCCACTTGAATCCGGCTTTAACGATAGGCCTTGCGCTTGAAGGCAGCTTTCCTTGGAAAGAGGTCCCTGTTTATATTGCGGGGCAGATGATCGGAGCAATGATCGGTGCGGTTGTTGTGTACCTTCATTATCTGCCGCATTGGAAGGCGACGGATGATCCGGCCGCTAAACTGGGCGTTTTCTCGACCGGCCCGAGTATTCCTCATACATTTGGGAATATGATAAGTGAAGTCATTGGTACGTTTGTGCTTGTGCTCGGCATTTTGGCAATCGGAGCGAATGAATTTACAAAAGGGCTGAACCCGCTGATTGTCGGATTCCTCATCGTTGCCATCGGGATTTCTCTTGGAGGGACGACCGGATATGCGATCAACCCTGCGCGGGATTTGGGGCCGAGAATCGCTCACGCCTTTCTGCCGATTCCGAAAAAAGGGCCGTCAAATTGGAAATATGCCTGGATTCCCGTAGTCGGTCCGATCATGGGCGGTGCGTTCGGCGGCGTATTTTACAATGCCGCGTTTAAAGGAAATGTGACACCTAGCTTTTGGTTTGTAAGCGTTATAATGGTTGTAGTGCTTTTCATACTCTATATTTATACCAAGAAATCTCAATCACGGAAAATATTATCAAATTCTGAATATATTTAA	MTAFWGEVIGTMLLVIFGGGVCAGVNLKKSLSYQSGWIVIVFGWGLGVAMAAYAVGSISGAHLNPALTIGLALEGSFPWKEVPVYIAGQMIGAMIGAVVVYLHYLPHWKATDDPAAKLGVFSTGPSIPHTFGNMISEVIGTFVLVLGILAIGANEFTKGLNPLIVGFLIVAIGISLGGTTGYAINPARDLGPRIAHAFLPIPKKGPSNWKYAWIPVVGPIMGGAFGGVFYNAAFKGNVTPSFWFVSVIMVVVLFILYIYTKKSQSRKILSNSEYI	PGPT0004760_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
D1-12_00078	1491	glpK	COG0554	Glycerol kinase	ATGGAGACCTATATTTTATCAATTGACCAAGGCACAACAAGTTCAAGAGCGATTCTTTTTAATAAAGAAGGAAAAATCGTGCATTCCGCTCAAAAGGAATTCACACAGCATTTCCCTCAGCCGGGCTGGGTGGAGCACAATGCGAACGAAATCTGGGGATCGGTGCTCGCCGTTATCGCGACTGTGATCTCCGAGTCCGGAATCAGCGCTGATCAAATTGCCGGCATCGGCATCACGAACCAAAGGGAAACGACGGTCGTATGGGATAAAGATACCGGAAAGCCGGTATACAATGCGATTGTGTGGCAATCGAGACAAACATCCGGCATTTGCGAAGAGCTTCGTGAAAAAGGATATAATGATACATTCAGAGAAAAAACGGGACTTTTGATCGACCCTTATTTCTCAGGAACGAAAGTCAAATGGATTCTTGACAATGTAGAAGGCGCGCGGGAAAAAGCGGAAAACGGAAATCTTCTGTTCGGAACGATTGATTCATGGCTCATCTGGAAAATGTCCGGAGGGGCGGCGCACGTAACGGATTATTCCAACGCTTCAAGAACGCTGATGTTTAATATTCATGAATTAAAATGGGATGACGAGCTGCTTGATATTTTAGGCGTGCCGAAATCAATGCTGCCGGAAGTGAAACCGTCTTCTCATGTGTACGCGAAAACGGTTGATTATCATTTCTTCGGTAAAAACATTCCGATTGCGGGAGCGGCCGGAGACCAGCAGTCAGCGCTGTTCGGCCAGGCGTGCTTTGAAGAAGGCATGGGGAAAAACACATACGGCACAGGCTGCTTTATGCTGATGAATACCGGAGAAAAAGCCATCACTTCTGATCACGGCCTTCTGACGACAATCGCCTGGGGATTAGACGGAAAAGTCGAGTATGCACTGGAAGGAAGCATCTTTGTCGCAGGTTCTGCCATCCAATGGCTGAGAGACGGCATGCGGATGTTCCAGGATTCAAAAGAAAGCGAGACATACGCAGAGCGTGTGGATTCCGCTGACGGTGTTTATGTCGTGCCCGCTTTCGTCGGATTAGGCACACCGTACTGGGACAGTGACGTGCGCGGCTCAGTTTTCGGCCTGACACGCGGAACGACGAAGGAGCATTTTATCCGGGCTACGCTTGAATCTCTCGCTTATCAGGCGAAAGATGTACTTGATGCCATGGAGGCTGATTCAGGCATCTCTTTAAAAACATTGCGTGTAGACGGCGGAGCGGTAAAAAATAACTTCCTCATGCAGTTCCAAAGCGACTTGCTTGATGTGCCGGTCGAACGTCCGGAAATTAATGAAACGACGGCGCTCGGTGCCGCGTATTTGGCCGGAATCGCTGTCGGATACTGGAAGGACAGCACTGAAATCGCCGATCAGTGGAACCTTGATAAGCAATTCAAACCGGAAATGGAAGATGAAAAGCGCGAAGAATTGTACGGCGGATGGAAAAAAGCAGTAAATGCAGCTATGGCTTTTAAATAA	METYILSIDQGTTSSRAILFNKEGKIVHSAQKEFTQHFPQPGWVEHNANEIWGSVLAVIATVISESGISADQIAGIGITNQRETTVVWDKDTGKPVYNAIVWQSRQTSGICEELREKGYNDTFREKTGLLIDPYFSGTKVKWILDNVEGAREKAENGNLLFGTIDSWLIWKMSGGAAHVTDYSNASRTLMFNIHELKWDDELLDILGVPKSMLPEVKPSSHVYAKTVDYHFFGKNIPIAGAAGDQQSALFGQACFEEGMGKNTYGTGCFMLMNTGEKAITSDHGLLTTIAWGLDGKVEYALEGSIFVAGSAIQWLRDGMRMFQDSKESETYAERVDSADGVYVVPAFVGLGTPYWDSDVRGSVFGLTRGTTKEHFIRATLESLAYQAKDVLDAMEADSGISLKTLRVDGGAVKNNFLMQFQSDLLDVPVERPEINETTALGAAYLAGIAVGYWKDSTEIADQWNLDKQFKPEMEDEKREELYGGWKKAVNAAMAFK	PGPT0018435_4647	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
D1-12_00079	1665	glpD	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	ATGAATCACCAATTTTCAAGTTTGGAACGGGATCATATGCTGGAAGACATGACTAAAAAAACATACGATCTGTTTATTATAGGCGGAGGTATTACGGGTGCCGGTACGGCGCTTGACGCAGCTTCAAGGGGAATGAAAGTCGCTTTGAGCGAAATGCAGGATTTCGCGGCCGGCACATCAAGCCGATCCACAAAGCTTGTCCACGGCGGTTTGCGTTATCTGAAGCAATTTGAAGTCAAAATGGTTGCAGAAGTCGGTAAGGAACGTGCCATCGTGTACGAAAACGGCCCGCACGTCACGACGCCGGAATGGATGCTGCTGCCGTTTCATAAAGGCGGCACGTTCGGTTCATTCTCTACTTCCATCGGCCTGCGTGTGTATGACTATTTAGCGGGAGTAAAAAAATCAGAGCGCAGAAGCATGCTGTCTGCTAAAGAAACGCTGCAAAAAGAGCCGCTCGTCAAAAAAGACGGCTTAAAAGGCGGAGGCTATTATGTAGAGTACCGGACGGACGATGCGAGACTGACGATTGAAGTCATGAAAGAAGCCGTTAAATTCGGTGCGGAGCCTGTCAACTACTCTAAAGTGAAAGAACTGCTTTATGAAAAAGGAAAAGTTGTCGGCGTTTTAATTGAAGATCTGCTGTCAGGCAAGGAATACAAAGTTTACGCCAAAAAAATCGTCAATGCGACAGGTCCGTGGGTCGACGAGCTGAGAGAAAAAGACCACAGCAAAAGCGGAAAACATCTTCAGCACACAAAAGGGGTCCATCTCGTATTCGACCAATCCGTATTCCCGCTTAAACAGGCGGTGTACTTTGATACGCCGGACGGCCGGATGGTGTTCGCCATTCCGCGTGAAGGAAAAACATACGTGGGTACGACCGATACGGTTTACAAACAAAAACTTGAGCATCCGCGCATGACGGTGCAGGATCGCGATTATGTCGTCAGCTCCATCAATTATATGTTCCCGGAACTGAACATTACGGCGGACGATATTGAATCAAGCTGGGCCGGCCTCAGACCGCTTATTCACGAAGAAGGGAAAGACCCGTCTGAGATCTCCCGTAAAGATGAAATCTGGACATCTCAATCAGGCCTGATTACGATCGCCGGAGGAAAACTGACGGGCTACCGTAAAATGGCTGAGCACATTGTCGATCTTGTCCGCGACCGCTTGAAAGAAGAGGGCGGCCAGGACTTCGGCGGCTGCAAGACGAAGACGATGCCGATTTCCGGCGGACATGTCGGCGGCTCTAAAAACTTCGAGTCATTTGTGGAAGCAAAGACAAAAGACGGCTTGAAAATCGGTTTATCACAGGAAACCGCTAAGCAGTTAGCCATCAGATACGGCTCTAACGTTGAAAATGTATTCAGCCGGATTGAAGGTCTGAAAGACGAAGCGGAAAAACGCCAGATTCCGGTTCACATTCTGGCTGAAGCGGCTTACAGCATCGAAGAAGAAATGGCTGCGACACCTGCCGATTTCTTCGTCCGCAGAACGGGAAGACTGTTCTTCGACATCAAATGGGTGCAAACGTATAAAACGGCCGTGATTGATTACATGAGCGACCGATTCCAATGGAATGACGCAACGAAAGAAAAACACACTGAGTGGTTAAATACGCTGCTGCACGACGCGGTTGTTCCGCTCGAACAATAA	MNHQFSSLERDHMLEDMTKKTYDLFIIGGGITGAGTALDAASRGMKVALSEMQDFAAGTSSRSTKLVHGGLRYLKQFEVKMVAEVGKERAIVYENGPHVTTPEWMLLPFHKGGTFGSFSTSIGLRVYDYLAGVKKSERRSMLSAKETLQKEPLVKKDGLKGGGYYVEYRTDDARLTIEVMKEAVKFGAEPVNYSKVKELLYEKGKVVGVLIEDLLSGKEYKVYAKKIVNATGPWVDELREKDHSKSGKHLQHTKGVHLVFDQSVFPLKQAVYFDTPDGRMVFAIPREGKTYVGTTDTVYKQKLEHPRMTVQDRDYVVSSINYMFPELNITADDIESSWAGLRPLIHEEGKDPSEISRKDEIWTSQSGLITIAGGKLTGYRKMAEHIVDLVRDRLKEEGGQDFGGCKTKTMPISGGHVGGSKNFESFVEAKTKDGLKIGLSQETAKQLAIRYGSNVENVFSRIEGLKDEAEKRQIPVHILAEAAYSIEEEMAATPADFFVRRTGRLFFDIKWVQTYKTAVIDYMSDRFQWNDATKEKHTEWLNTLLHDAVVPLEQ	PGPT0006775_2006	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
D1-12_00080	1743	pgcA		Phosphoglucomutase	ATGAGTTGGAGTAAGAGCTACGAACGCTGGAATCAGGCCGAACAATTAGATTCAGAATTGAAAAAATTATTGGCGGACGCAGAAGGAAACGAGCAGCTGCTGGAAGATTTTTTCTACAAAAATCTTGAGTTCGGAACAGGAGGCATGAGAGGAGAAATCGGGCCGGGTACGAACAGGATGAATATTTACACGGTCCGCAAAGCATCCGCCGGACTTGCGGCGTATATCGAAAAACAGGGAGAAGACGCGAAAAAAAGAGGGGTTGCGATCGCATACGACTCCCGTCATAAATCTCCTGAGTTTGCGATGGAAGCTGCAAAAACCCTTGCTTCCCAAGGCATTCAAACATACGTATTTGATGAGCTCCGCCCGACGCCTGAGCTGTCTTTTGCGGTGAGAAAGCTGAACGCTTATGCCGGTATCGTCGTGACAGCCAGCCATAACCCGCCTGAATATAACGGATATAAAGTGTATGGCGATGACGGCGCACAGCTGCCGCCGAAAGAAGCGGACATCGTCATTGCGGAAGTGAATGCCATAGAAAATGAATTAACGATTCAAGTTGAAGATGAACAGTCGCTGAAAGAAAAAGGTTTGATTAAAATAATCGGTGAAGAAATTGATAAACCGTATACTGAAAAACTGACTTCCATCTCCGTACATCCCGAGCTTTCGGATGAAGTGGATGTCAGCGTCGTGTTCACTCCGCTGCACGGCACGGCAAATAAACCGGTACGCCGCGGTCTTGAAGCACTCGGTTACAAAAACGTCACCGTCGTAAAGGAGCAAGAGCTGCCGGACCCGGATTTTTCAACCGTCAAATCGCCGAATCCGGAAGAGCACGCGGCATTCGAATATGCCATTAAACTCGGAGAAGAACAAAATGCCGATATTCTCGTCGCTACGGACCCGGATGCCGACCGTCTCGGCATTGCCGTAAAAAACAGCGAAGGCAAGTACACAGTGCTGACGGGAAACCAGACAGGCGCGCTTTTATTGCATTACCTGCTTTCCGAGAAGAAAAAACAGGGCACCCTTCCTGAAAACGGTGTCGTCATGAAAACGATTGTCACGAGCGAATTGGGCCGCGCCGTCGCTTCATCGTTCGGGTTAGATACGATTGACACGCTGACAGGCTTCAAATTTATCGGTGAAAAGATCAAAGAATATGAAAAAACAGGCCAATACACGTTCCAGTTCGGGTATGAAGAAAGCTACGGCTACTTAATCGGCGATTTCGCGCGTGACAAAGACGCGATCCAGGCTGCGCTGTTAGCCGTCGAGGTATGCGCCTTTTATAAAAAGCAGGGCATGTCTCTTTATGACGCGCTGCTGTCCATTTTTAAAGAATACGGTTATTACCGTGAAGGTTTGAAGTCATTGACGTTAAAAGGAAAACAGGGAGCAGAGCAGATTTCCGCTATCCTGACTTCATTCCGAAACGATCCGCCGAAGCAGATGGCCGGAAAACAAATCACGCAGGCTGAAGACTATTCAACGGGAAAACGGACTGTATTTGCCGATCATCGTGAAGAAGATATTGATCTTCCGAAGTCAAATGTCCTGAAATATTTCCTTGAAGACGGCTCTTGGTTCTGCCTTCGTCCATCGGGAACGGAGCCGAAAGTGAAGTTCTATTTCGCCGTGAAGGGAAGTTCTTTACAAGACAGCGAACAGCGTCTTGCCGCATTATCTGAAGCCGTCATGAAAACGGTGGATGGCATAGTGGAAAATACGAAATAA	MSWSKSYERWNQAEQLDSELKKLLADAEGNEQLLEDFFYKNLEFGTGGMRGEIGPGTNRMNIYTVRKASAGLAAYIEKQGEDAKKRGVAIAYDSRHKSPEFAMEAAKTLASQGIQTYVFDELRPTPELSFAVRKLNAYAGIVVTASHNPPEYNGYKVYGDDGAQLPPKEADIVIAEVNAIENELTIQVEDEQSLKEKGLIKIIGEEIDKPYTEKLTSISVHPELSDEVDVSVVFTPLHGTANKPVRRGLEALGYKNVTVVKEQELPDPDFSTVKSPNPEEHAAFEYAIKLGEEQNADILVATDPDADRLGIAVKNSEGKYTVLTGNQTGALLLHYLLSEKKKQGTLPENGVVMKTIVTSELGRAVASSFGLDTIDTLTGFKFIGEKIKEYEKTGQYTFQFGYEESYGYLIGDFARDKDAIQAALLAVEVCAFYKKQGMSLYDALLSIFKEYGYYREGLKSLTLKGKQGAEQISAILTSFRNDPPKQMAGKQITQAEDYSTGKRTVFADHREEDIDLPKSNVLKYFLEDGSWFCLRPSGTEPKVKFYFAVKGSSLQDSEQRLAALSEAVMKTVDGIVENTK	PGPT0017710_794	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
D1-12_00081	1137			hypothetical protein	TTGACGAAAACGACGGTAGAAACGTTAAAAACGTTAAAAGCGATTGCGGAAACCTTAAACCAAAGCCACGATTTAAAGGAAGCGCTTGATAAAGTGCTCCGCGAACTGCTCAGCCTGACCGGGCTGCGGACAGGGTGGATTTTTCTGATTGAGCCGGACGGGTCTTATACGCTCGCCGCATCTGCTTATTTACCGCCGGCTCTCGGTCAGCGGGAAAATGCACTCATGTGCAGCGGGGAATGCTATTGTCTGACCAAATTCAGCAATGGCGGATTGACAAAAGCCGTAAACATAATGAATTGTAAACGGATTGAATTTGCGGAACAGACGACGAACTGCCGCGATACGGAGGGCATTACCCATCATGCGACCGTACCGCTTGAGGACGGCGGCCGGAAGTTCGGTTTATTAAACGTCGCCGCAAGTGAAAAGACATTTTTCAACGAAGAAGAACTGCATCTGCTTGAAGCGGTTGCATTTCAAATCGGAACGGCGATTCAGCGGATGAAATTGGCCGAATTTGAGCAGCAGAACGCCCTGTTGATGGAACGAAGCAGACTTGCGCAAGAGCTGCATGATTCCGTCAATCAGATGCTGTTTTCTGTCAGCTTAACGGCAAAAGCCGCAAAGAGCTTTACAGATGATGATCGGCTCCGGCAGATGATTACGTTTATTCAAGAGCTGTCTCAGGATGCGCTAACAGAAATGAGGGCGCTTATTTGGCAGCTGAAGCCGGAAAGTTTGACGAAAGGGCTGTATGCGTCGATCAAAAGCTATGCCGCTCTCATCGGCCTGGAAGCCGTTTGTGAAATGGAGGATGAGCTGGAGCTTACAGATGAACAGGAACACGCGCTTTGGCGGATCGCCCAGGAAGCCTTGAATAACTGTAAAAAGCATGCGGGAACGGACCGGGTTATCATTTCTGCCGTTAAAAAGCCGGATTGCGCTGAGCTTCACATCAGCGACCGTGGAGCGGGCTTCAGCGCTGATGCGCACGCTGTGCTCCCATCGCTCGGCGTGGCCGGCATGAAAGCGCGGGCTGAAGCGATCGGAGGCCGCTTTACACTGCAATCCGAGCTTGGCGCCGGAACGATTGTCTCCGTTCGGCTTCCGTTTCGGGATAGGAGGTCTGATTGA	MTKTTVETLKTLKAIAETLNQSHDLKEALDKVLRELLSLTGLRTGWIFLIEPDGSYTLAASAYLPPALGQRENALMCSGECYCLTKFSNGGLTKAVNIMNCKRIEFAEQTTNCRDTEGITHHATVPLEDGGRKFGLLNVAASEKTFFNEEELHLLEAVAFQIGTAIQRMKLAEFEQQNALLMERSRLAQELHDSVNQMLFSVSLTAKAAKSFTDDDRLRQMITFIQELSQDALTEMRALIWQLKPESLTKGLYASIKSYAALIGLEAVCEMEDELELTDEQEHALWRIAQEALNNCKKHAGTDRVIISAVKKPDCAELHISDRGAGFSADAHAVLPSLGVAGMKARAEAIGGRFTLQSELGAGTIVSVRLPFRDRRSD				NA	NA	NA	NA	NA
D1-12_00082	648	liaR_1	COG2197	Transcriptional regulatory protein LiaR	ATGAAAATTGTGATTGCTGATGATCATCACGTTGTCCGCAAAGGACTGCGCTATTTCTTCGCCACTCAGGAAGACATTGAAGTTGTCGGTGAGGCATCCACCGGTGCTGAAGCGCTTCAGCAAGCTGAAAAGACGGAGCCGGACATCATTCTGATGGATTTATCAATGCCTGATATGGACGGCATAGAAGCGGCAAAAATTGCGGCTGAACGATTTCCGGACATCAGTATCGTCGTTTTGACGAGCTATTCTGATCAGGAGCATGTCATTCCCGCTCTTAAAGCCGGCGCAAAAGCATATCAGCTGAAAGACGCTCAGCCCGATGACTTAGTGAAAACGCTCCGGGAAGTGTATTCCGGACGTTACCGGCTGTCGGCGGATATTGTGCCTCACGTGCTGACCCATATGGTTCAGGATGATCAGGATAAGGAAAAATATTATCAGCTGACCCCCCGTGAAAAAGATGTTCTTCAAGAAATAGCCAAAGGGAAAAGCAATAAGGAAATTGCGGCGGCACTGTGTATTTCCGAAAAAACAGTGAAGACCCACGTATCTAACCTGCTCTCAAAGCTGAATCTTTCCGATCGGACGCAGGCGGCATTGTATGCGGTAAAATATAATGTTTTTGGAAAGGCGGTAAAATTATGA	MKIVIADDHHVVRKGLRYFFATQEDIEVVGEASTGAEALQQAEKTEPDIILMDLSMPDMDGIEAAKIAAERFPDISIVVLTSYSDQEHVIPALKAGAKAYQLKDAQPDDLVKTLREVYSGRYRLSADIVPHVLTHMVQDDQDKEKYYQLTPREKDVLQEIAKGKSNKEIAAALCISEKTVKTHVSNLLSKLNLSDRTQAALYAVKYNVFGKAVKL	PGPT0014870_488	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
D1-12_00083	525	azr	COG0431	FMN-dependent NADPH-azoreductase	ATGAGCATATTAGTGATCAGCGGAACACCGAGAAAAAACGGGCGGACTAGAATTGCCGCTTCTTATATCAGAGATCGGTTTCATACCGATTTTATTGATTTGAGCGAAAGTGAACTGCCGCTTTATAACGGTGAAGAAGAACAGAACGAGCTGCCTTCAGTGCAAGAGTTAAGGCGGCAGGTGAAAAAGTCGGCGGCCGTCGTCTTATTATCTCCCGAGTATCACAGCGGCATGAGCGGCGCTTTAAAAAACGCCATCGATTTTTTAAGCAGCGATCACTGGGCATACAAACCGGTGGCAATCATTGCCGCGGCGGGCGGAGGAAAAGGAGGCATGAACGCGCTGGCGAATATGCGGACGGTCATGCGGGGCGTCTATGCAAATGTCATCCCGAAACAGCTGGTCTTAGACCCGATTCACATCGACATGGATCGCCGGACCGTATCTGAGGATATGGCGGTCAGCCTGAAAGACATGATTGAAGAATTGAATATGTTCACAAACACAAGAAATCCCGGCGTCTGA	MSILVISGTPRKNGRTRIAASYIRDRFHTDFIDLSESELPLYNGEEEQNELPSVQELRRQVKKSAAVVLLSPEYHSGMSGALKNAIDFLSSDHWAYKPVAIIAAAGGGKGGMNALANMRTVMRGVYANVIPKQLVLDPIHIDMDRRTVSEDMAVSLKDMIEELNMFTNTRNPGV	PGPT0006791_201	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006791-azr|azoB-K03206	NA	NA
D1-12_00084	243			hypothetical protein	ATGGATCATGCCGATTATGACAAAGCCTTGTATTACACACACCGTTCTCAATGGGACAATTTGTTAATATTGATGGTTCGTACAAAAGATGATTTATTATCAAAGCGTATTGAGCACTTTCTGCACGCGTATCATTTCGAATATGATCATGCGGTGCTTGAAAAAGAGCTGTATTCTCTTCTCGGGTATATTGATCATGCGACAGAGCTCGCTTATGAAGATCAATTAGCCATGCTGACATAA	MDHADYDKALYYTHRSQWDNLLILMVRTKDDLLSKRIEHFLHAYHFEYDHAVLEKELYSLLGYIDHATELAYEDQLAMLT	PGPT0025040_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
D1-12_00085	324			hypothetical protein	ATGAAATCCCTTCCATTTGCGCTTGCCCTCTTGTTTTGCGGCATTCTCATTGCCTCGATCGCTGAAAAAGGGCATACAGAACACCTCGATCCATCAGTTGAAAAATGGGAGCAGCTCGCATGGAACCAGCTTGAACGTGAATACAAGGGGGCCGAGCTTACCGATTATTCGTACATGGGCCGTACAAAAGTGAACCGGGAACAGACGAAAGATGTGTTTCGCGTAACGGTGCAAACAGCAAAAGAAACGTTTTCATCCCGTGCTGAAGTGTATTTCCATCCCGTAACAAAACATGTGATCAGCATTAATATTTTCAGACTGTAA	MKSLPFALALLFCGILIASIAEKGHTEHLDPSVEKWEQLAWNQLEREYKGAELTDYSYMGRTKVNREQTKDVFRVTVQTAKETFSSRAEVYFHPVTKHVISINIFRL				NA	NA	NA	NA	NA
D1-12_00086	1455	lytF	COG0791	Peptidoglycan endopeptidase LytF	ATGAAAAAAAAGGTAGCGGTCGGTTTGACTGCATCTGCGATCGTCGGGTCTGCGTTAGCTGTAACACCGGCAGAAGCACAAACGATTAAGGTTAAAAGCGGAGATTCATTATGGAAGCTTGCCCAAAACTACAATACAAGCGTGGATGCCATTACATCAGCGAATCATCTAAAATCCACCGTTCTTTCTATCGGGCAGACGCTCAACATTCCTAACGGCAAATCAGATTCCGGCAGCAAAAAGCAATCTTCAAAGAACAGCGGCACGACTAAAAGCGTTTATACAGTGAAAAGCGGAGACTCGCTGTGGCTGATCGCATCTGATTTTAAAATGTCCGTACAGGAACTGAAAAAATTGAACGGTCTGACAAGCGACTTAATCCGCGCCGGACAGAAGCTGCAAGTGACGGGGAAAGTTTCCTCAAGCACCGATCAGAAAAAAACCGCTCCTGGCAGCAGCTCAAACAGCAGCAAAAATCAGTCATCATCTTCCGGGACGTATAAAGTCAAACTCGGCGATTCACTATGGAAGATCGCAAACAGCGTCAATATGACCATTGCGGAACTCAAAGTATTAAACAACTTAAAAACGGATACGATCTACGTAAACCAAGTCCTGAAAACAAAAGGAACGTCTTCTTCGGGAAACACGCCGTCAAAAGACAATTCAAACCAAAATAAAAACCAGACGCAAACGTCCTCTTATACAGTAAAAAGCGGAGACTCACTCTGGAAAATCGCAAACGCATACAATATGACGGTTCAGCAAATCAGAAGCATCAACAAACTGACGTCAGACATGCTGCGGGTCGGACAAGTGCTTAAGCTGACCAAAACGTCATCTTCCGGCTCTTCGACTTCACCGTCAACTCCGAACCAGTCCGGAGATACAGGGAAAACCACTACATATACCGTGAAAAGCGGGGATTCTTTATGGGTGATCGCCCAAAAGTTCAATGTGACCGCCCAGCAGATCCGCGAGAAAAACAATCTGAAAACAGATGTTCTTCAAATCGGACAAAAGCTGACGATTACCGGGCAGCAGACAAACACGACACCGAATCAGTCCGGCAACACAGGCGGCACAGGTTCAACAAGTGCGAAGATTAATGTAATGATCGATGCCGCAAAAGCTCAACTGGGCGTACCGTATGTATGGGGCGGGACAACGCCGAGAGGCTTTGACTGCAGCGGTTTCATTTATTACGTTCTCAATAAGGTCACTTCTGTATCCAGACTTTCAGCCGCAGGCTACTGGAATACGATGACATCAGTCAGCCAGCCGGCGGTCGGTGACTTTGTCTTTTTCTCAACTTATAAAGCCGGACCTTCCCACGTCGGTATTTATCTCGGGAACGGCCAGTTTATTAATGCCAACGATTCGGGTGTCGTTATTTCCAGCATGAACAATTCCTATTGGAAACAGCGCTACCTCGGCGCAAAACGCTTCTTCTGA	MKKKVAVGLTASAIVGSALAVTPAEAQTIKVKSGDSLWKLAQNYNTSVDAITSANHLKSTVLSIGQTLNIPNGKSDSGSKKQSSKNSGTTKSVYTVKSGDSLWLIASDFKMSVQELKKLNGLTSDLIRAGQKLQVTGKVSSSTDQKKTAPGSSSNSSKNQSSSSGTYKVKLGDSLWKIANSVNMTIAELKVLNNLKTDTIYVNQVLKTKGTSSSGNTPSKDNSNQNKNQTQTSSYTVKSGDSLWKIANAYNMTVQQIRSINKLTSDMLRVGQVLKLTKTSSSGSSTSPSTPNQSGDTGKTTTYTVKSGDSLWVIAQKFNVTAQQIREKNNLKTDVLQIGQKLTITGQQTNTTPNQSGNTGGTGSTSAKINVMIDAAKAQLGVPYVWGGTTPRGFDCSGFIYYVLNKVTSVSRLSAAGYWNTMTSVSQPAVGDFVFFSTYKAGPSHVGIYLGNGQFINANDSGVVISSMNNSYWKQRYLGAKRFF	PGPT0024010_117	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0024010-lytF|cwlE-K19223	NA	NA
D1-12_00087	435	nsrR	COG1959	HTH-type transcriptional repressor NsrR	ATGAAATTAACGAACTATACCGATTATTCTTTACGCGTTTTGATTTTTTTGGCTTCCAGACATTCCGACGAACTTTCCAACATAAAAGAAATCGCAGATACTTATTCCATCTCTAAAAACCACCTCATGAAAGTCATTTACCGCCTCGGACAGCTCGGATATGTCGAAACGATCCGGGGCCGGGGAGGCGGAATTCGATTAGGAATGACACCGGAAGACATAAACATTGGAGAAGTCGTTCGAAATACAGAAGACGACTTTAACATCGTAGAATGCTTTGACTCCAAAAAAAATCTCTGTATCATATCTCCCGCCTGCAACTTAAAGAACCTTCTGAATGAAGCCCTGCAAGCTTACCTGGCCGTTTTAGACAAATATACGTTAAGGGATCTGGTCAAAAACAAAGAGGAGATTATGAGACTGCTCAGAAGCTGA	MKLTNYTDYSLRVLIFLASRHSDELSNIKEIADTYSISKNHLMKVIYRLGQLGYVETIRGRGGGIRLGMTPEDINIGEVVRNTEDDFNIVECFDSKKNLCIISPACNLKNLLNEALQAYLAVLDKYTLRDLVKNKEEIMRLLRS	PGPT0013005_1319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
D1-12_00088	1515			hypothetical protein	TTGAATACAGCAGACATGCTTACGACGTATCTCAGCAAACTCCCGAATCTGATCATTGCACTGCTCGTCCTGCTTATCGGCTGGGGCATTGCCAAAATCATTGAAAAAGCCGTATACAAAGGCCTGCAAAAAACAAAAATCGACGACAGGCTGTTCGCCGAAAAAAAGCCGGCGCGCTATTCCTCAGAAAAAGTCATCAGTAAAGTCATTTATTTTATCGCATTAATCATCGTTTTTATTCTATTCTTTAACATTCTGCATCTGACAACCGTGGCTTCGCCTTTTGTCAGCATGCTGTCAGCGATAACGGCGGCAGTGCCGAGCATTTTAAAAGCCGGCCTGATTCTGCTGTTAGGCTGGGCGGCCGCTTCGCTTTTCAGCTATCTCGTCAAAAAAGCGGGCATGAAACTCGCTGAAAACGGCCGGCTCAGAAAATGGACAATGGTGTCTGAAGAAGCGGAGATGAGCAGATCCGTTACGGCCGCTTCACGAATCGTTTTTTACTTCGTCTTGCTCTTGTTCCTGCCCGGCGTCTTGGCCGCTCTCCAAATCAGCGGAGTATCAGGGCCGTTTACAAATATGATCCAAAGCGTTTTGTCCTTTATACCGAAATTATTCGCCGCGGCGCTGATTGTTTTAATCGGCTGGCTTGTTGCCCGTCTCGTCCGTGATATCGTCACAAACTTTCTGGCGAGTATCGGCACGGAAAGGCTTGCCGCACGTATGGGGCTTTCTATTTATCTGAAGGATACAAGCCTGTCGGCAATCATCGGAACGATTGTCTACGTGCTGATTTTCATTCCGGTGATCATCTCTGCGCTTGACCGGCTTGATGTGGCGGGTATTTCTGAACCGGCGTCAGCCATGCTGCACACGATCTTCACAATGCTCCCTAGTATCATCATCGGTATTGTGCTGATCATCGCCGGCATCTGGATCGGAAAATGGGTCAACAGCATTGTATCCGGGCTCTTGCATCGGGCCGGTTTCGACTCTCTTCTCGGTAAAATGGGCTTTGAACAGGCGGGTACCCCGAAGCTGACGCTTTCTCAGACGGTCGGCATGATTGTTCAGATCATCATCGTCCTGCTCTTTACGGCAGAGGCGCTGCAGCTTGTCCATCTCGAATTTCTCGTCGTTATCGCAACCGGTATTATCGCTTACCTGCCTAATGTTCTGGCCGCTGTATTTATTCTCGGAATCGGGCTTTTGGCCGGACAGCTCGTCAGCAGGCTGCTTGCCGGCATGCTGAGCGGAAAGGAATTCAGATTCCTGGCGCCGCTTGCGAAATATACCATTATCACTCTTTCAATCTTTATGGCGCTGGATCAGCTCGGTGTCGCCGACACGATCGTAAATGCCGCGTTTATTCTGATTCTGGGCGGTTTCGCGCTTGCCTTCGGACTTTCATTCGGTCTCGGCGGAAAAGAATTCGCCTCCCGTTATCTCGCAAAATTGGATCGCAAAATTGAAAAACATCAATCGGCTGACGATCGTAAGCCGCCGATGTCTTAA	MNTADMLTTYLSKLPNLIIALLVLLIGWGIAKIIEKAVYKGLQKTKIDDRLFAEKKPARYSSEKVISKVIYFIALIIVFILFFNILHLTTVASPFVSMLSAITAAVPSILKAGLILLLGWAAASLFSYLVKKAGMKLAENGRLRKWTMVSEEAEMSRSVTAASRIVFYFVLLLFLPGVLAALQISGVSGPFTNMIQSVLSFIPKLFAAALIVLIGWLVARLVRDIVTNFLASIGTERLAARMGLSIYLKDTSLSAIIGTIVYVLIFIPVIISALDRLDVAGISEPASAMLHTIFTMLPSIIIGIVLIIAGIWIGKWVNSIVSGLLHRAGFDSLLGKMGFEQAGTPKLTLSQTVGMIVQIIIVLLFTAEALQLVHLEFLVVIATGIIAYLPNVLAAVFILGIGLLAGQLVSRLLAGMLSGKEFRFLAPLAKYTIITLSIFMALDQLGVADTIVNAAFILILGGFALAFGLSFGLGGKEFASRYLAKLDRKIEKHQSADDRKPPMS				NA	NA	NA	NA	NA
D1-12_00089	1407			hypothetical protein	TTGAACGCGGAGGAGACAAAAGGTTTACAGCGGGCAATTGAGGAAATAACCGACATTGCCAAGGGTTTCGGCCTTGATTTCTACCCGATGAGATATGAAATTTGCCCGGCTGAAATTATTTATACATTCGGCGCGTACGGCATGCCGACGAGATTCAGCCACTGGAGTTTCGGCAAACAATTTCACAAGATGAAACTCCATTATGATCTCGGTTTGAGCAAAATTTATGAACTTGTCATTAATTCCAACCCTTGCTACGCTTTTTTGCTGGACAGCAATTCGCTGATCCAAAATAAATTAATTGTAGCCCATGTTCTTGCCCATTGTGATTTTTTCAAAAATAACTGCCGCTTTCAAAATACGAATCGGGACATGGTTGAGAGTATGGCGGCTGCGGCGGAGCGGATTAAGCATTATGAAAGAATGCACGGGATAAAAGAGGTGGAGTCCTTTTTAGATGCCATTCTGGCGATTCAGGAGCATATCGATCCGTCGCTCGTCAGGCCGAAGCTGCTGTGGAGCGTCGATGACGAAGAGGAGGACGAAGAAGAAACCGCGCCATCGCCTTACGATGATTTATGGGGAATGGATAAGCCGAAGCAGGTGAAAAAGAAAAAAGGGAAAAAACCGTTTCCGCCCCGGCCGGAAAAAGATATTCTGCTGTTTATCGAAGAACATTCGCGGGAGCTTGAACCGTGGCAGCGTGACATTTTAACCATGATGAGAGAAGAAATGCTGTATTTCTGGCCGCAGCTGGAAACGAAAATCATGAACGAAGGCTGGGCATCTTATTGGCATCAGCGGATTATCCGCGAGCTTGACCTGACTTCAGATGAAGCCATCGAATTTGCGAAGCTGAACGCAGGCGTCGTTCAGCCGTCAAAAACGGGAATCAACCCGTATTATTTAGGGCTGAAAATTTTTGAAGACATCGAAGAGCGTTATGACAACCCGACAGATGAAATGAAAAAAACAGGAGCAAAGCCCGGTTCCGGCCGCGAGAAAATGTTTGAGGTCAGGGAAATTGAATCGGATATATCATTTATCCGCAATTATTTGACGAAAGATCTCGTGATGCGTGAGGATTTGTATTTATTCCAAAAACAGGGCAGGGACTATAAAGTGATCGACAAAGAATGGAAGGCCGTGCGCGACCAGCTCGTGAACATGCGGGTCAACGGAGGATTTCCTTATCTGACCGTCAATGACGGGGATTACCTGAAGAATAATGAGCTTTATATTAAACATTGGTATGAGGGAATTGAGCTTGATCTGAAATATTTGGAGAAAGTGCTGCCGTATCTGTACCAGCTGTGGGGCAGGAGCGTGCACATCGAATCTGTTCTTGAAGACAGAGAAGTGATGTTTTCTTATGACGGCAAAGGAGTGCACCGGAGATATCTGTAA	MNAEETKGLQRAIEEITDIAKGFGLDFYPMRYEICPAEIIYTFGAYGMPTRFSHWSFGKQFHKMKLHYDLGLSKIYELVINSNPCYAFLLDSNSLIQNKLIVAHVLAHCDFFKNNCRFQNTNRDMVESMAAAAERIKHYERMHGIKEVESFLDAILAIQEHIDPSLVRPKLLWSVDDEEEDEEETAPSPYDDLWGMDKPKQVKKKKGKKPFPPRPEKDILLFIEEHSRELEPWQRDILTMMREEMLYFWPQLETKIMNEGWASYWHQRIIRELDLTSDEAIEFAKLNAGVVQPSKTGINPYYLGLKIFEDIEERYDNPTDEMKKTGAKPGSGREKMFEVREIESDISFIRNYLTKDLVMREDLYLFQKQGRDYKVIDKEWKAVRDQLVNMRVNGGFPYLTVNDGDYLKNNELYIKHWYEGIELDLKYLEKVLPYLYQLWGRSVHIESVLEDREVMFSYDGKGVHRRYL	PGPT0024845_963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415	NA	NA
D1-12_00090	1380	phoA	COG1785	Alkaline phosphatase 4	ATGAGTCTATTTAAACAGGTTCGATCAAAACTTCTGCCGGCGGCAGCCGTATCCGTGCTGACAGCCGGTCTGATTGCGGGCGCGGGGCTTCAGCACTCCGAACAGGCTGCGGCAAAAAAACAGCCTGACAAAAACGAAATCAGAAACGTCATCTTCATGGTCGGCGACGGAATGGGCGCTCCCTATATGAACGCCTACCGTTCGGTCATTAACAAAGGAAAACCTTCGGATGGCATGAAACTGACGGCATTCGACCCCAATCTCACCGGTATGATGATGACTTACCCTGACGATCCTGATTCCAATATTACCGATTCCGCGGCGGCAGGCACGGCAATGGCCACAGGCGTGAAAACGTATAACGCGGCGATCGGAGTCGATAAAAAAGGAAAGCGGGTAAAATCCGTCCTCGAAGAAGCGAAACAAAGAGGCAAATCCACCGGACTTGTCGCAACTTCGGAGATTGCCCACGCCACTCCTGCGGCATTCGGAGCCCATAACAAATCCAGAAAAAATATGGATGACATCGCAAGCAGCTACTTTGATGACCGCATCAACGGAAAACAGAAAGTCGATGTGCTCCTCGGAGGCGGCAAATCAAACTTTATCCGTAAAGACCGCAATGTAACAAAGGATTTCAAAAAAGCGGGATACAGCTACGTTACATCAAAACAGGAGCTCAAAAAGGATCGTAACAAGAAGATTCTCGGCCTGTTTGCCGATGGCGGACTCGACAAAGCAATCGACCGCTCAAACGCCGTCCCTTCATTAGAAGACATGACAACGGCAGCGATCGACAGGCTGAACAAGAATAAAAAAGGGTTTTTCTTAATGGTCGAAGGCAGCCAAATTGACTGGGCGGGACATGACAATGATATAGTCGGCGCAATGAGCGAAATGAAGGATTTTGAAAAAGCGTATAAAGCAGCGATCGCATTTGCCAAAAAGGACAAACATACGCTTGTCGTTGCCACGGCCGATCATACCACCGGCGGATTGACGATCGGCGCGAATGACGATAAAAACTGGCATGTTGAACCGATTCTTGCCGCCAAAAAAACCCCGGCATTTATGGCTGACCAAATCAAAGCGGGCAAATCCGTATCTTCCGTGCTTGCGCGTTATACAGACCTGAAATGGTCAAAAGCTGAAATCAAACAGATCGAAACGGCAGCAAAACAGGATGCTGACAAGAGCATCTACAAAGCGATCATTAAGCTCTTTAATGCGAAAACCAACAGCGGCTGGACAACCGGCGATCATACGGGCGAAGAAGTTCCCGTTTACGCGTACGGTCCGGGAAGAGAGTCATTTACGGGGCTTTTAAACAACACGGACCAGGCCAAAAAGATCTTTCACATCCTGAAACACGGAAAATAA	MSLFKQVRSKLLPAAAVSVLTAGLIAGAGLQHSEQAAAKKQPDKNEIRNVIFMVGDGMGAPYMNAYRSVINKGKPSDGMKLTAFDPNLTGMMMTYPDDPDSNITDSAAAGTAMATGVKTYNAAIGVDKKGKRVKSVLEEAKQRGKSTGLVATSEIAHATPAAFGAHNKSRKNMDDIASSYFDDRINGKQKVDVLLGGGKSNFIRKDRNVTKDFKKAGYSYVTSKQELKKDRNKKILGLFADGGLDKAIDRSNAVPSLEDMTTAAIDRLNKNKKGFFLMVEGSQIDWAGHDNDIVGAMSEMKDFEKAYKAAIAFAKKDKHTLVVATADHTTGGLTIGANDDKNWHVEPILAAKKTPAFMADQIKAGKSVSSVLARYTDLKWSKAEIKQIETAAKQDADKSIYKAIIKLFNAKTNSGWTTGDHTGEEVPVYAYGPGRESFTGLLNNTDQAKKIFHILKHGK	PGPT0002570_3068	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0002570-phoA-K01077	NA	NA
D1-12_00091	825	lytE		putative peptidoglycan endopeptidase LytE	ATGAAAAAGCAACTTGTTACAGCAACAACGGCAGTGGTTTTGGGGACGACTTTGTTTGCGGGCGCGGCATCTGCGCAAACGATTAAGGTAAAAAAAGGCGATACATTATGGGGACTTTCAAATCGGTACGGAACGTCAATTAATTCCATTAAATCTGAGAACAAATTAAAATCGGATATCATTTACATCGGCCAGACGCTTTCGATCAACGGTAAATCATCTTCAGGTTCAAATTCGGGCAGCAAGTCATCATCGTCTACATATAAAGTCGTAAAAGGCGACAGCCTTTGGAAAATTGCGAATAAATATAAAATGACGGTAAACCAATTAAAAAGTTTAAACGGTTTAAAAACGGACCTGATCCGCATCGGACAAGTTCTTAAAGTAAAGGGATCAACTTCCGGTTCAACGTCTTCAGGATCTTCGTCATCAAAGCAGCCTTCATCCAGCCATAATGCTGCACAGACGAGCCTGAATGTAAACAAGCTGATTTCTGATGCGCAATCTTTAATCGGCACGCCGTATGTATGGGGCGGAACAACGACTTCCGGCTTTGACTGCAGCGGATTTATCTGGTACCTGTTAAACAAACAGACGAGTGTCGGCAGAACAAGCACTGCGGGATACTGGAGCTCAATGAAGAGCGTGTCCAGCCCGTCAAGAGGAGACTTCGTCTTCTTTACAACATATCAGGCCGGCCCTTCACACATGGGTGTGTACATCGGAAACAACAAGTTCATCCATGCCGGTTCTGACGGCGTCACAACAAGTGATCTGAATAACAGCTACTGGAAACCTCGCTACCTTGGCGCGAAAAGATTCTAG	MKKQLVTATTAVVLGTTLFAGAASAQTIKVKKGDTLWGLSNRYGTSINSIKSENKLKSDIIYIGQTLSINGKSSSGSNSGSKSSSSTYKVVKGDSLWKIANKYKMTVNQLKSLNGLKTDLIRIGQVLKVKGSTSGSTSSGSSSSKQPSSSHNAAQTSLNVNKLISDAQSLIGTPYVWGGTTTSGFDCSGFIWYLLNKQTSVGRTSTAGYWSSMKSVSSPSRGDFVFFTTYQAGPSHMGVYIGNNKFIHAGSDGVTTSDLNNSYWKPRYLGAKRF	PGPT0024005_294	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0024005-lytE|cwlF|yocH-K19224	NA	NA
D1-12_00092	876	cysL_1	COG0583	HTH-type transcriptional regulator CysL	ATGGATTTTAAATGGCTTCACACCTTCGTCACCGCGGCAAAATATGAGAATTTCAGAAAAACGGCGGAAACGCTTTTTTTATCTCAGCCGACCGTCACCGTTCATATAAAATTATTAGAGAAAGAAATCAGCTGCAAGCTGTTTCAGCGAAGCGGCCGGAAAATACAATTGACGGAAGAAGGAAAAGCATACGTGCCGTTTGCCATGAGGCTTTTGGAAGACTATGAAAACAGCATGGCGGAGCTGCACAGGGTGCGCCAGGGCTACTCGCACACGCTGACACTCGCTGTTTCGCCGCTTATCGCCGACACCGTTCTCCCGTCTGTCATGAAGCGTTATACAGAGGACAATAAAGAAACCGAAATGACGGTCACCATTTTCGAATCGGAAGAAATCGCCTCTCAAATCAGAAACGGCTCAGCCGATATCGGACTGAGCTGCTTAAAGGTGCAATCATCTTCCCTCACTTGCCGCCCCCTGTACAATGACCCCGTTGTCCTCGTCGCGCCGCCCGGCCGAAAACCCGGGACAGGGAAGGCGGATGAAGTGAAAGACCTGTTCGGACAATATCTGCTTTTGACCCATAACCACCCTGACTATTGGGATGATTTGCTCCGCCAGGTCAGAATACAGTTCCCTTTCGTCAGGACAATGAAGGTGACACAGACGCATATTACGAAACGATTTATTAAAGAGGGGCTGGGTGTCTCATTTCTGCCGCTGTCAGCGGTACGGGCCGAACTCGCCGCAGGCAGCATGATTGAAATTCCGTGCGAATTCGCCCAGATGCCGAGCGCGGGCGCGTACGCCATTGCCCTCTATGAAAATGAGAAAAAGAAAACCTTTTTAGATTTTTTATCACATTTTCATTTTTAG	MDFKWLHTFVTAAKYENFRKTAETLFLSQPTVTVHIKLLEKEISCKLFQRSGRKIQLTEEGKAYVPFAMRLLEDYENSMAELHRVRQGYSHTLTLAVSPLIADTVLPSVMKRYTEDNKETEMTVTIFESEEIASQIRNGSADIGLSCLKVQSSSLTCRPLYNDPVVLVAPPGRKPGTGKADEVKDLFGQYLLLTHNHPDYWDDLLRQVRIQFPFVRTMKVTQTHITKRFIKEGLGVSFLPLSAVRAELAAGSMIEIPCEFAQMPSAGAYAIALYENEKKKTFLDFLSHFHF	PGPT0019505_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019505-citR-K19242	NA	NA
D1-12_00093	1110	citA	COG0372	Citrate synthase 1	ATGAAATTGATTTATCGTGGATTGAAAGGGATTACTTGTGCAGAAACGGCGATCAGCCACATTGACGGAGAAAAGGGGCATTTAATATATCGCGGCTATGATGCAAAGGATATCGCGCTGCAATTCAGTTTTGAAGAAGCGGCGTATCTCATTTTGAACGGGGCGCTCCCTGATGAGCGGCAATTGCTTGCGTTTCAGGAAGAACTTGCAGCCGAGCGCGGGCTTCCGAAACATTTGATCGGCTTACTGGAAACGCTTCCGGATGAAATGGACGACATGGCGGTGCTGAGAACGGCTGTTTCAGGTTTGGGCACAGATTCATTTACATATCCGCCCAAGCCGGAAGAAGCGATTAAACTGATTGCCGTCACACCGACGATTATTGCGTACAGATACCGCCGTAAACAAGGGAAGGAAGCGTTGTCACCTGAGGCGCGATACGGACACGTTGAAAACTATTTGTATATGCTGACAGGCAGGCAGCCGTCCGCAGCCCAAAAGAAAGCGCTTGAGACGTATATGATTCTGGCGATGGAGCACGGGATGAATGCATCGACTTTTTCAGCGAGAGTCACCGTTTCGACTGAATCGGACTTAGTGTCTGCCGTCACTGCCGCACTGGGTACGATGAAAGGGCCGCTGCACGGAGGCGCGCCTTCAGGCGTCACGAAAATGCTTGAAGACATCGAGGAAAAAGAAAATGCAGAAGCGTATTTGACAGCGAAGCTTATGAGGGGAGAACGCCTGATGGGCTTCGGGCACAGGGTGTACAAAACAAAAGACCCGCGGGCGGAAGCGCTGCGCATAAAGGCTGAAGAAGTGGCGGGAAATGATCCGTCGCTTGACTTGGCGCTTTATGTGGAGAAGGAAGCCATCCGCTTGTTAGAGCAATATAAGCCCGGACGGAAGCTGTATACGAATGTGGAGTTTTACGCAGCGGCTGTGATGCAGGCCATTGATGTCGACAATGATTTATTTACGCCGACCTTTTCAGCAAGCAGAATGGCAGGCTGGTGCGCACACGTGCTTGAACAGTCCGCTGACAACATGATTTACAGGCCGTCTGCGAAATACACCGGCGCTTTTCCCGAAACGGCTCAGCAGCTTTAA	MKLIYRGLKGITCAETAISHIDGEKGHLIYRGYDAKDIALQFSFEEAAYLILNGALPDERQLLAFQEELAAERGLPKHLIGLLETLPDEMDDMAVLRTAVSGLGTDSFTYPPKPEEAIKLIAVTPTIIAYRYRRKQGKEALSPEARYGHVENYLYMLTGRQPSAAQKKALETYMILAMEHGMNASTFSARVTVSTESDLVSAVTAALGTMKGPLHGGAPSGVTKMLEDIEEKENAEAYLTAKLMRGERLMGFGHRVYKTKDPRAEALRIKAEEVAGNDPSLDLALYVEKEAIRLLEQYKPGRKLYTNVEFYAAAVMQAIDVDNDLFTPTFSASRMAGWCAHVLEQSADNMIYRPSAKYTGAFPETAQQL	PGPT0001455_6249	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
D1-12_00094	870	ydaD_1		General stress protein 39	ATGAATCCGATGGACAGACAGACGGAAGGACAAAAGCCGCAGGTGCAAAACCGCCAGCCCGGCATTGAGTCAGACATGGAGCCGAAGCCGCTCTTGGAGGACCCGGATGTAAAAGGGTCGGGCAGATTAAAAGGAAAAGTCGCCGTCATCACGGGCGGAGACAGCGGCATCGGCGCAGCGGCTGCGATCGCTTACGCGAAGGAAGGGGCGGATCTTGCCATCCTGTACCTAGACGAACATGCCGATGCCGAGAGAACGAAAAAGCGTGCGGAAGAATACCAGGCCGAATGCCTGTTAATTCCGGGAGACGTCGGTGATGAGGCGCATTGTCAGAAGGCGGTCCGGCAAGTCTTAGATCACTACGGAAAAATAGATATTCTCGTTAATAATGCGGCTGAGCAGCATCCGCAAAACGGGATTCTTGATATTACAGCTGAACAGCTGGAGAAGACATTCCGTACAAACATGTTTTCTATGTTTCATATGACAAAAGCCGTGCTGCCTCATCTCAAAAGAGGGAGCGCCATCATTAATACAACGTCTATTACCGCTTATCAGGGAGACACATTATTGATCGACTATTCGTGCACGAAAGGCGGCATCGTTTCCTTTACGCGTTCAATGGCGATGTCATTGGCCGATCAGGGGATCAGAGTAAATGCGGTGGCCCCTGGCCCGATCTGGACCGCCCTGATTCCGGCGACGTTTACTGAAGAAAAGGTGGAAAAGCACGGTTTGGACACTCCGATGGGAAGACCGGGACAGCCTGCGGAACACGCCGGAGCTTACGTGCTTCTGGCTTCAGACGAATCTTCCTATATGACGGGGCAGACCATTCACGTAAATGGCGGCAGATTTATTTCAACATAA	MNPMDRQTEGQKPQVQNRQPGIESDMEPKPLLEDPDVKGSGRLKGKVAVITGGDSGIGAAAAIAYAKEGADLAILYLDEHADAERTKKRAEEYQAECLLIPGDVGDEAHCQKAVRQVLDHYGKIDILVNNAAEQHPQNGILDITAEQLEKTFRTNMFSMFHMTKAVLPHLKRGSAIINTTSITAYQGDTLLIDYSCTKGGIVSFTRSMAMSLADQGIRVNAVAPGPIWTALIPATFTEEKVEKHGLDTPMGRPGQPAEHAGAYVLLASDESSYMTGQTIHVNGGRFIST	PGPT0003180_15626	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
D1-12_00095	1404	yhdG_1	COG0531	putative amino acid permease YhdG	ATGAAGGGGAGCGTATTCAGAAAGAAAAGCATTCAGGACCTGCTTGCCGCAACAGGCGGGGAAAAGTCGCTGAAAAGAGAGTTAGGGGCCTTTGATTTGACCCTTCTGGGGATAGGGGCCATCATCGGAACGGGGATTTTTGTATTAACCGGAACAGGCGCTGTCACGGCGGGGCCGGGGCTGACCGTTTCATTTGTCATCGCCGCTCTTGCGTGTTTATTTGCGGCTCTGTCCTATGCCGAATTTGCTTCAAGCGTCCCGGTTTCCGGTTCCGTCTACACGTTTACTTATGCGACACTGGGTGAACTTCTCGCGTTTATTATCGGATGGGATTTAATCTTGGAATATATGCTCGCCGTCAGCGCGGTTTCGGTCGGATGGTCCGGCTATTTTCAATCATTCTTGGCGGGCTTCGGCATTCATCTTCCGACCGCATTAACGGCCGCGCCGGGGTCAATAAAAGGCACGGTCACATTCTTTAATCTCCCCGCATTTGTTATCGTGCTTGCGATTACATTCCTCCTCTACTTAGGCATTAGGGAATCGAAGCGGGTCAATAATATTATGGTCATTTTGAAGGTTCTGGTTGTTCTATTGTTTATCGCCGTTGCGGCCGTATATGTCAAACCTCACAACTGGCAGCCGTTTATACCGATGGGGTTCGGCGGTGTTTTCAGTGCCGCGGCGCTCGTTTTCTTCTCTTTTATCGGTTTTGACGCCGTCTCTTCCGCCGCTGAAGAAACGAAAAATCCAGCAAAGGATCTGCCGAAAGGAATTATCTTTTCATTAATCGTCTGCACTGTGCTGTATGTGACCGTATCGGCGATTATGACGGGCGTCGTTCCGTTTGCCCGCTTTGAAGGCGTTGACCATCCCGTGTCTCTCGTCCTGCAGATGGCAGGACAGAATTGGGTGGCCGGGATTATTGATATCGGCGCAGTGTTGGGAATGACAACGGTGATGCTCGTCATGCTGTACGGCCAGACGAGGGTGATGTTTGCCATGTCCCGTGACGGTTTGGTGCCGGGGTCGCTTTCAAAAGTCCATCCGAAGCATAAAACGCCGCACGTGGTGACGTGGGTTTTCGGCATCCTGTCGGCATTACTCGGTTCGCTCGTCCCGCTTGATGAACTGGCGAAGCTGGTGAACATCGGCACGCTTGCCGCGTTTGTCCTGATTTCCGTGGCGGTTATCGTATTGAGAAAGAAACAGCCTGATCTGCCGAGGGCTTTTAAATGTCCGGGGGTTCCCTTTATTCCGATATTGTCCATTCTGTTCTGCGTGTTTTTGATTATTAACCTCGGCGCCACCACCATATTCCGTTTCTTTATCTGGCTGATCATCGGTCTGGTGATTTATTTCTTATATTCGAGAAAGCATTCGAAATTAAACGGGGATTTGTAA	MKGSVFRKKSIQDLLAATGGEKSLKRELGAFDLTLLGIGAIIGTGIFVLTGTGAVTAGPGLTVSFVIAALACLFAALSYAEFASSVPVSGSVYTFTYATLGELLAFIIGWDLILEYMLAVSAVSVGWSGYFQSFLAGFGIHLPTALTAAPGSIKGTVTFFNLPAFVIVLAITFLLYLGIRESKRVNNIMVILKVLVVLLFIAVAAVYVKPHNWQPFIPMGFGGVFSAAALVFFSFIGFDAVSSAAEETKNPAKDLPKGIIFSLIVCTVLYVTVSAIMTGVVPFARFEGVDHPVSLVLQMAGQNWVAGIIDIGAVLGMTTVMLVMLYGQTRVMFAMSRDGLVPGSLSKVHPKHKTPHVVTWVFGILSALLGSLVPLDELAKLVNIGTLAAFVLISVAVIVLRKKQPDLPRAFKCPGVPFIPILSILFCVFLIINLGATTIFRFFIWLIIGLVIYFLYSRKHSKLNGDL	PGPT0020810_3575	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
D1-12_00096	1308			hypothetical protein	ATGGCCGCTGCCGGTTCGGCGATCGGCCTGGGAGCCATTTGGAAGTTCCCTTACGTAGCGGGTACGAACGGAGGAGGCGCTTTTTTTCTTGTATTCGTCCTCTTTACCGTGCTTTTAGGCTATCCGCTTTTGCTCGGTGAATTTATTTTCGGAAGACGGAGCCAGACAAATGCGATTGATGCCTACAAACAAGCCGCGCCGAAGTCGGTATGGCACCTTACGGGTTATGTGGGTGTGGCGGCCTGTTTTTTAGTTTTGTCTTTTTACAGTGTTGTCGGCGGGTGGATTTTGCTTTATGTGTTAAAAGCCGTTACGGGTTCTTTATCCGGGCTCACTCAGGAGCAGTACGGCACGGTGTTCGGGACGGTCATTGAAAATCCGATCCAGACTCTCGTTGCGCAGCTTGTATTTATGATCATGACGGTAGCGGTCGTGGCAAAAGGCGTGCAGAAAGGGATTGAACGTGTCAGTGCGGTGCTGATGCCGATTTTATTCGTGCTGTTTCTATTGCTTGTGCTGCGATCAGTCACGCTCGATCATGCCGTTGAGGGGATTAAATTTTTATTGGTTCCGCACTTTGAAGATTTGACGCCGGAATCCATCCTATATGCTTTAGGACAGGCGTTTTTTACATTAACGCTCGGTGTTTCGGTCATGGTGACATACAGTTCGTATCTGCCGAAAACCCAAAATCTTCCGGGTTCGGCGGGTTCCATTGTTATGATGAATGTACTCGTTACGCTGTTTGCGGGACTGGCCATTTTCCCGGCGGTTTTTTCGTTCGGCTTTAAACCGGATGAAGGGCCTACACTGCTGTTTACCGTGCTGCCGGCTGTGTTTGATCGGCTGCCGTTCGGCTCGCTGTTTTTTATCAGCTTTCTGGCGGTCTTTTTCTTCGCTGCGCTGACTTCGGCCTTTTCGATGGTGGAAATTATCGTGGCGACTGTGGGGAAAGGTGATGAAACGAAAAGAAAGAAGCTGTCGTGGACAAGCGGTCTGCTCATTTTCTTAGTCGGAATTCCGTCCTGTTTATCATACGGTGTTCTCGGTGATGTTCATTTGTTCGGAAAAACGTTTTTTGATCTTGCGGATTTCACCGTCAGCAATGTGCTGATTCCGCTCGGCGCTTTATTAATATCAATCTTCGTCCCGCTGAAAATACCGAAGCAGGAGCTGTTTGCCGAGATGAAAAGCGGTTCCGCCATCGGCTATCGTTTCTTTCAGGTGTGGTATTTCCTTCTGAAATATCTCGTGCCGCTGGCTATCATCGTCGTATTGCTGCATTTAATCGGCGTTCTTTCATTTTGA	MAAAGSAIGLGAIWKFPYVAGTNGGGAFFLVFVLFTVLLGYPLLLGEFIFGRRSQTNAIDAYKQAAPKSVWHLTGYVGVAACFLVLSFYSVVGGWILLYVLKAVTGSLSGLTQEQYGTVFGTVIENPIQTLVAQLVFMIMTVAVVAKGVQKGIERVSAVLMPILFVLFLLLVLRSVTLDHAVEGIKFLLVPHFEDLTPESILYALGQAFFTLTLGVSVMVTYSSYLPKTQNLPGSAGSIVMMNVLVTLFAGLAIFPAVFSFGFKPDEGPTLLFTVLPAVFDRLPFGSLFFISFLAVFFFAALTSAFSMVEIIVATVGKGDETKRKKLSWTSGLLIFLVGIPSCLSYGVLGDVHLFGKTFFDLADFTVSNVLIPLGALLISIFVPLKIPKQELFAEMKSGSAIGYRFFQVWYFLLKYLVPLAIIVVLLHLIGVLSF	PGPT0013950_1987	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
D1-12_00097	291	yhdK		putative anti-sigma-M factor YhdK	ATGGAATTGGTAAGAATTTTTAAAGAGCATAATGTTTTCGGCTGGATATCAGTCGGTACCGCGATTTTGTCGCTGCTGCTTTTGAACGTGGCAATCATCAGCAATGTGACTTTCTATTCTTATCAGATGCTGCCGTTTGCGATGGCCGCCGTGCCGTTCGGCATCATTGAGCTGTTTATTAAAAAAGGACGGACGGGCCCGGGACTGCTCGGTGTCATTCTCAATCTGTTCGTCATTGTCTGTGTATATACGATCGTTGCGGTTGATACGAATCTGCAATTCGGTTTTTAA	MELVRIFKEHNVFGWISVGTAILSLLLLNVAIISNVTFYSYQMLPFAMAAVPFGIIELFIKKGRTGPGLLGVILNLFVIVCVYTIVAVDTNLQFGF				NA	NA	NA	NA	NA
D1-12_00098	1074	yhdL		putative anti-sigma-M factor YhdL	ATGAATGAAGAATTTAAAAAGCGTTTTTACCAATACAAAAATGGAGAAATGAGCGACCGGGAAATGGCCGCCTTTGAAGAAGAGCTGGAAAAGCTGGAAGTCTATCAGGAGTTGATTGAAAGCGAAATGCAGGACGACCGGGAATGGGACGTCGGCATCAGCCCGGAAAAACAGAAGGCCATTTTATCATACGGAAAACGCAAATCGTATTTGCGGATTTCAGTTCTCGCCGTCATCTCCACTTTGATGATTTTGCCGCTTTGCACTTTGGGAAGCTACCTCTATTACGGTCTGGGAGGAAAGGAAAGCACCGGCAATCAATTAATGGAGACCGCGGCAGTGACGGTGGCGACCACAATGCCGAACGTCCTCGTCGATACCTCCGGACTGAAAAGCCAGGTGAAGCTGTTTGGAATGAATACGGAATTTCCGCTGCAAAAGCAGATCGGCACAAAAACGAAATCCGTCGGCGGAGAACGGATTGAAATGTTTTTAGATACGGTCAAATCGCCTGCCGTTAACTACTATGATCTAGACGCGGCACAGGCAAAGCATTATTTCGCCCATCCTTCCGGCTTAAAGGAACGCACGATTGAAAAAGCCGGTCAGACATTAAAAAAATTGCCTGAAGGAAGCGTGGCGGAGGTCTATCTTTCTTATGACCGGGCCTACCCTTCTTCTCAAGTATATTCAACTTTTAAAAAATACGATGTGAAGTTTTTATGGAATGCGGTCGAAACGGAGAAAAATCTGAAAGACAGTCCTTATGCCGAGCCGTTAGGATTTCCCGGGAAAGATTCTAAGATGGTGTCCTCTTTCGAAACGCAAGGACAGACAGACCGTGAACAATTTATCAATGCCCTTGAATTTATGTCCCGCCATAAAAAATGGGCGCATGCAATATCGAAACGAAAAGACATGAATCTTGGCAGCCGAATCGACTATGTTGAACATCACGGAATGAACGTATACGGCTCTGTCGTGACGGGGCCGACAAAAGAAATCGAACGTCTGCTGAAAAACAAAACAGTAAAAGCAGCAAACATCGGTGAGGTGGAATTATGGAATTGGTAA	MNEEFKKRFYQYKNGEMSDREMAAFEEELEKLEVYQELIESEMQDDREWDVGISPEKQKAILSYGKRKSYLRISVLAVISTLMILPLCTLGSYLYYGLGGKESTGNQLMETAAVTVATTMPNVLVDTSGLKSQVKLFGMNTEFPLQKQIGTKTKSVGGERIEMFLDTVKSPAVNYYDLDAAQAKHYFAHPSGLKERTIEKAGQTLKKLPEGSVAEVYLSYDRAYPSSQVYSTFKKYDVKFLWNAVETEKNLKDSPYAEPLGFPGKDSKMVSSFETQGQTDREQFINALEFMSRHKKWAHAISKRKDMNLGSRIDYVEHHGMNVYGSVVTGPTKEIERLLKNKTVKAANIGEVELWNW				NA	NA	NA	NA	NA
D1-12_00099	492	sigM	COG1595	ECF RNA polymerase sigma factor SigM	GTGACGATCGATGAAATTTACCAAATGTATATGAATGATGTTTACCGGTTCCTGCTCTCCATGACAAAAGACAAGCATCTCGCTGAAGATTTGCTGCAGGAAACCTTTATGAGGGCATACATACACATTCACTCCTACGACCACAGCAAAGTAAAGCCATGGCTTTTTCAAGTGGCGAGAAATGCGTTTATAGATTATGTCAGAAAACATAAAAAGGAAGTGACCATTTCCGATGACTTAATTGGGAGCCTTTTTCAGACGGCTGTTCAAAGCCCGGCTCATCAGATTGAAATCAAGGAAGTGCTGACAGGGTATATGTCCGAACTTCCCGACAATTATCGGGAGGCCTTAACACTGTATTATTTAAAAGAACTGAATTACAAAGAAGCATCCCATATTATGAATATTTCAGAGGCTAATTTTAAAAGTGTTTTATTTCGTGCCAGACAGCGGCTGAAAGCACTTTATAATAGAGGTGTTAATGATGAATGA	MTIDEIYQMYMNDVYRFLLSMTKDKHLAEDLLQETFMRAYIHIHSYDHSKVKPWLFQVARNAFIDYVRKHKKEVTISDDLIGSLFQTAVQSPAHQIEIKEVLTGYMSELPDNYREALTLYYLKELNYKEASHIMNISEANFKSVLFRARQRLKALYNRGVNDE	PGPT0014960_11885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-12_00100	600	plsC	COG0204	1-acyl-sn-glycerol-3-phosphate acyltransferase	ATGTATAAGTTTTGTGCAAATGCCATCAAATGCATTCTATCCCTGCGCGGAGGAGTGAAAGTGTACAATAAAGAGAATCTTCCGTCTGATAAAGGATTCGTTATCGCGTGCACGCATGCGGGCTGGGTGGACGTCCTCACGCTCGGTGTCGGGATATTGCCGCAGCAGATTCATTATATGGCGAAAAAAGAGCTGTTTCAGAAAAAGTGGATCGGACGTTTTTTGAAGAAGATTCACGCGTTCCCGGTTGACCGTGAAAATCCGGGCCCGAGCAGCATTAAAACGCCGATTAAGCTTCTGAAGGAAGGAAAGATTGTCGGGATTTTTCCGAGCGGTACGAGAACATCAGAAGACGTCCCGCTGAAAAGAGGGGCCGTGACCATCGCCCAAATGGGAAAAGCGCCGCTCGTTCCGGCCGCATATAAAGGGCCGTCTACGGGTAAAGCGCTGTTTAAAAAGGGAAAAATGCGGCTTATCATCGGAGAGCCGATTTTTTTGGAGGACTTTTCCGATCTTGCGCCGAAGGAGAGGCTTGCGGCCATGACAGAAGAGCTGAATGCCAGAATTAAAGAGCTTGAGAAAAAACTTGAACAATTGTAA	MYKFCANAIKCILSLRGGVKVYNKENLPSDKGFVIACTHAGWVDVLTLGVGILPQQIHYMAKKELFQKKWIGRFLKKIHAFPVDRENPGPSSIKTPIKLLKEGKIVGIFPSGTRTSEDVPLKRGAVTIAQMGKAPLVPAAYKGPSTGKALFKKGKMRLIIGEPIFLEDFSDLAPKERLAAMTEELNARIKELEKKLEQL	PGPT0024380_6844	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-12_00101	1335			hypothetical protein	TTGGACATTGTGAATTTGATTTTAGTCGCGGTTTTAATCGCGCTGACGGCATTTTTCGTAGCATCTGAGTTTGCGATAATCAGAATCAGAGGCTCACGGGTTGACCAGCTTATAGCAGAAGGAAATAAAGCCGCAATCGGTGTCAAAAAAGTGACCACGCATTTAGATGAGTATTTATCGGCGTGCCAGCTCGGCATAACATTGACTTCCATCGGTCTTGGTGTCTTAGGCGAATCAACGATTGAACGCTTGCTTCATCCGCTTTTCACAAAGATAAACGTACCAAGCTCATTATCGCATATTATTTCATTTATTCTCGCCTATGCGATCATTACATTCTTACACGTGGTCGTGGGAGAATTGGCGCCGAAAACAGTCGCCATCCAGAAAGCGGAAGCCGTTTCAATGCTGTTTTCGAAACCGCTCATTTGGTTTTACCGCATCATGTTCCCGTTTATCTGGCTTCTGAACAACTCCGCCCGTCTTTTAACGAAGGCGTTCGGTCTGGAGACGGTGTCTGAAAATGAGCTTGCCCACTCTGAAGAAGAGCTGCGCATTATTTTATCGGAAAGCTATAAAAGCGGTGAAATCAACCAGTCTGAATTTAAATATGTGAACAAAATCTTTGAATTTGACGACAGACTTGCAAAAGAAATCATGATTCCGCGTACGGAAATCGTCAGTCTGCCGCATGATATCAAAATCTCTGAAATGATGGACATCATTCAGATTGAAAAATATACCCGGTACCCTGTCGAAGAGGGTGACAAAGATAATATTATCGGCGTTATTAACATTAAAGAAGTGCTGACCGCCTGCATAAGCGGCGAAGTATCAGTCGACTCGCCGATTACCGATTTTGTCAATCCGATCATCCATGTGATTGAGTCGGCACCGATTCACGATCTGCTTGTAAAAATGCAGAAGGAACGGGTTCATATGGCGATTCTGTCGGATGAATACGGCGGAACCGCGGGGCTTGTCACCGTTGAAGACATTATTGAAGAAATCGTCGGGGAAATCCGTGATGAATTTGATATCGATGAAATCAACGAAATCCGCAAACTCGGCGACGGCCATTACATGCTTGACGGCAAGGTCCTGATTGATCAAGTGAACGAACTCCTCGGCATCCATTTGGAAAATGACGAGGTCGACACCATCGGCGGCTGGTTCCTTACCCAGAAATACGACGTCGAACAATACGACTCGATTATCGAAGAAGGCTGTGAATTTATCATTAATGAAATTGACGGCCACCACGTCGCATATATCGAAGTGAAAAAACTGGCGTTTGATGAACTGCTGGAAACCGCCGAACAAAAAGAAGCATAA	MDIVNLILVAVLIALTAFFVASEFAIIRIRGSRVDQLIAEGNKAAIGVKKVTTHLDEYLSACQLGITLTSIGLGVLGESTIERLLHPLFTKINVPSSLSHIISFILAYAIITFLHVVVGELAPKTVAIQKAEAVSMLFSKPLIWFYRIMFPFIWLLNNSARLLTKAFGLETVSENELAHSEEELRIILSESYKSGEINQSEFKYVNKIFEFDDRLAKEIMIPRTEIVSLPHDIKISEMMDIIQIEKYTRYPVEEGDKDNIIGVINIKEVLTACISGEVSVDSPITDFVNPIIHVIESAPIHDLLVKMQKERVHMAILSDEYGGTAGLVTVEDIIEEIVGEIRDEFDIDEINEIRKLGDGHYMLDGKVLIDQVNELLGIHLENDEVDTIGGWFLTQKYDVEQYDSIIEEGCEFIINEIDGHHVAYIEVKKLAFDELLETAEQKEA	PGPT0014011_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014011-mpfA|yhdP-NA	NA	NA
D1-12_00102	426			hypothetical protein	TTGGGGAGGGATTTAGATGGGGCTGAGACTTATCGCATCAGTGAATTAGCAGAGCTTGCCGGTGTAACGAAACGCACGGTGGATTACTACACAAACCTCGGGCTTTTAAAGCCTGACAGGTCTTGTTCGAACTATCGTTACTACGATACACTTGCACTTAATCGGTTAAAGTTTATAGTCGCTTGTAAAAAGCAGCGATTGGCCCTGTCTGATATAAAAGATCGACTGGAGAACCAGTTTCCCTCTTCAGCCCTGCCTGACGATATTGGAAATCTGGCATCGGAAATTGATCACATGAATCAAAACATCTCCGTGATCTTGAATCGGTTTGAAAAGCTTGAACCAGAGGAGCGCGCCCAGCTGAAAAAAAGGCTGGCTCCTGAAAAGCTTGCAGTGCTTCAATCATTTATGCTGCTGTTAAGTTAA	MGRDLDGAETYRISELAELAGVTKRTVDYYTNLGLLKPDRSCSNYRYYDTLALNRLKFIVACKKQRLALSDIKDRLENQFPSSALPDDIGNLASEIDHMNQNISVILNRFEKLEPEERAQLKKRLAPEKLAVLQSFMLLLS	PGPT0004165_95	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004165-cueR-K11923	NA	NA
D1-12_00103	1185	dapX_1	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGACAGTGGCCGGTTTATCACGGGAAGTGACACAGAATCTGGAGAAAGGTTCATGGATACGCAAACTATTTGATGAAGGCGCGCGGCTGAAAAAAGAGTTCGGCGCCGATAAGGTGTTTGACTTTTCAATAGGAAATCCGGTTGCGGAGCCGCCTGAAACGTTTAAAAAGGCGCTTTGCGAAGCGGCTGAAACAGGGCGGCACGGATACATACAAAACCAGGGGCTTCCGGAGGCGAGAGAAAAGGTTGCGCGCTTTTTGTCAGAGCGGTTTCAGACCGAGATTTCCGCCAGGCATACAGTCATGACGGTCGGAGCCGGAGGGGCGCTGAATGTCGCGCTGAAGAGCATTTTAAACCCGGAGGAAGAAGTCATCCTTCTTTCGCCTTATTTTGCGGAATATAAAGCGTATGTTGAAAATTACCGCGGCAGACCCGTCATCTGCCCGCTGACTGACTCATTTGAGATTGATATTGAAGCGGTTAAAGGTGCGATCACCCCCCGTACGAAAGGACTGATCGTTAATACGCCGCATAATCCGACGGGGACTGTGCTCAGCCAGAAAAACCTTAACGAATTAGGCGCCTTATTAAAAGAAACCGAAGAGCGGAACGGCCAAAGCATATTTATTTTATTTGATGAACCGTACAGCCAGCTGATCTACGGAGAAGAGCAGGCGAATCCGTTTCAGGCGTATCACCGCGTGATTTTAGTCAGTTCGTTCAGTAAAGATCTCGGCATTGCGGGGGAAAGGCTCGGGTATATCGCGGCAGACGCCCAAATGCCTGAGGGCGATCTTCTGACGGATGCGTTCGTTTTCTGCAACCGGACGCTCGGCTTTGTGAACGCTCCGGTCATGATGCAGCGCGCCGTGGCGAAAATGGATGATCTTTCGATTGACGCTGAACCTTACAGAAAGCGGAGAGACCTTATGGTGGACATCCTCACAGAAGCCGGCTTCGAATTTGAAATGCCGAAAGGAGGCTTTTTCGTCTTTCCGAAATCACCGATTGAAGACGAGGTGGCGTTCTGCATGCATGCCGCACAGAAATACAAACTATTGATCGTACCCGGCAGCGGATTTGGAAAAAGCGGCTATTTCCGATTATCTTTCAGCGTGCCTTCAGATCAGATCAGACAGTCGCGCGATATTTTCAAAGCACTGTATCAAGATTTTTCTTCATAG	MTVAGLSREVTQNLEKGSWIRKLFDEGARLKKEFGADKVFDFSIGNPVAEPPETFKKALCEAAETGRHGYIQNQGLPEAREKVARFLSERFQTEISARHTVMTVGAGGALNVALKSILNPEEEVILLSPYFAEYKAYVENYRGRPVICPLTDSFEIDIEAVKGAITPRTKGLIVNTPHNPTGTVLSQKNLNELGALLKETEERNGQSIFILFDEPYSQLIYGEEQANPFQAYHRVILVSSFSKDLGIAGERLGYIAADAQMPEGDLLTDAFVFCNRTLGFVNAPVMMQRAVAKMDDLSIDAEPYRKRRDLMVDILTEAGFEFEMPKGGFFVFPKSPIEDEVAFCMHAAQKYKLLIVPGSGFGKSGYFRLSFSVPSDQIRQSRDIFKALYQDFSS	PGPT0020120_236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020120-yhdR-K11358	NA	NA
D1-12_00104	1245	pksF	COG0304	Polyketide biosynthesis malonyl-ACP decarboxylase PksF	ATGTCGAGGAGAAATAATGGCACGTCAGACATCAGCATTACAGGAATCGGAGTCTTAACCGCGGTCGGACAAGGCAAGGAGGCGTTTCTCGATGCGCTCATGAAGGGGCGGCACGCCTTTGATGTGATGAAACGGCCCGGCCGGCAGAAAGGCAGTTCGTTTATCGGCGCGGAGCTCAGCGAATTAACGCCGCCGGACGCGCTGTCCAAGCGCTTGTACCGAAGGGCCGCATTATCAGGAAAGACGGCGCTTATCGCTTTATATGAAGCGTGGCATGACGCTCAATTAGACGGCGCTGATCACAGCCGCACCGGTCTGATCATCGGCGGCTCGAATATGACGCAGCGCGAATTGCTGCAGGTCTTTGAGAAAAACGGTGAAACGCCGCAATTTGTAAATCCGACATACGGGCTTTCTTTTATGGATAGTGATTTGTCGGGGCTTTGTACGGAGCAATTCGGGATAAAAGGGCCGGCCTTTACGGTCGGCGGCGCGTCGGCAAGCGGCCAGGCGGCGGTTATTCAGGCTGCTCAAGGAATCAAAGGAGGCCTGTTTGACCGATGCATCGTGATCGGGGCGCTGGCCGATCTGTCGTACATGGAGTGTCATGCTCTCCGTTCTTTGGGAGCGATGGGCACTGATACATACGCTGAACGGCCTGAAGCCGCCTGCCGCCCGTTTGACCGGCATACGGACGGGTTTATATTCGGAGAGGCGTGCGGGGCGATTGTGCTGGAACGCGCTGAATCTGCCGAACAGAGGGGCGCGCGTTCGTGGGCCGGCTTAAAGGGCTGGGGGATGGCTTCCGATGCAAACCGCAACCCGAATCCTTCAGCAGAGGGCGAAATGACGGTGATCCGCCAGGCGCTGGAGCGGGCCGGTCTTTCAGCAAAAGAGATCGATTACATCAACCCGCACGGCACCGGTTCGCCGATCGGTGATAAGACTGAATGCCGGGCGCTTTCTGAAAGCGGCCTGTCGCACGCGCGGATTAATGCGACAAAATCGATTACCGGACACGGTCTGAGTGCGGCCGGAACGGTGGAAATCATTGCTGCTCTCTTGCAAATGCGGGAAAACAAGCTTCATCCGATCCGAAACTTAACGGAGCCGATTGATGATTCTTTTCAGTGGGTGACCGACGGGCCGAGCGCCCATACCGTACACCATGCGTTAAGCTTAAGCATGGGATTCGGGGGGATTAATACGGCGCTTTGTTTAGAAAATCATTTCCGAAGCAGATAA	MSRRNNGTSDISITGIGVLTAVGQGKEAFLDALMKGRHAFDVMKRPGRQKGSSFIGAELSELTPPDALSKRLYRRAALSGKTALIALYEAWHDAQLDGADHSRTGLIIGGSNMTQRELLQVFEKNGETPQFVNPTYGLSFMDSDLSGLCTEQFGIKGPAFTVGGASASGQAAVIQAAQGIKGGLFDRCIVIGALADLSYMECHALRSLGAMGTDTYAERPEAACRPFDRHTDGFIFGEACGAIVLERAESAEQRGARSWAGLKGWGMASDANRNPNPSAEGEMTVIRQALERAGLSAKEIDYINPHGTGSPIGDKTECRALSESGLSHARINATKSITGHGLSAAGTVEIIAALLQMRENKLHPIRNLTEPIDDSFQWVTDGPSAHTVHHALSLSMGFGGINTALCLENHFRSR				NA	NA	NA	NA	NA
D1-12_00105	1389			hypothetical protein	ATGGACGATATTGACAGTTTGATTTTAATCGGTGTGCTCATTGCGTTAACGGCATTTTTCGTGGCGAGTGAATTTGCGATCGTCAGAGTGAGAAGATCCAGAATCGATCAGCTCATTTCAGAAGGGAACAGACGGGCGGTGCTCGCAAAGCGTATCATTACGGATCTTGATGAGTATTTATCCGCCTCGCAGCTTGGCATTACACTCACATCCATCGGGCTCGGCGTACTGGGAGAGCCTGCATTTGAACGGATGCTTCATCCTGTGTTTCAGGGCATGGGGCTGCCGGATTCTGCTGAGCATGTGATTGCTTTTGTGGCGGCGTACGGGCTGATTACGTTTTTACATGTCGTCGTCGGTGAGCTTGCGCCTAAAACTGTTGCGATTCAAAAAGCGGAAAAGCTGACGTTATGGATTGCCGGACCGCTTCGGTTATTTTACGTGTTCATGTTCCCGTTTATTTGGGTGCTGAACGGCTCCGCGAGAATTCTGACCGGTTTGGCCGGATTAAAGCCGGCATCTGAGCATGAAGGTTCCCACTCTGAAGAAGAGCTGCGGATCCTGCTGTCAGAAAGTTTAAAAAACGGAGAAATCAATCCGTCTGAATATACATTTGTGAATAAAATTTTTGATTTTGATAATCGGATCGCCAAGGAAATCATGATCCCGAGAAAAGAAATCGCGGCTGTTTCCACTGATATGGACGTGCCGGAAATGCTTGATATGATGCTGAAAGACAAATATACGCGCTGGCCCGTAACGGACGGGGACAAAGACAGTGTCATCGGCATGATCAATACGAAGCATCTCTTTTCAGATCTGCTGTTTATGACAGAAGATGAAAAAGCGGAAGTATCCATCACGTCTTACGTCCGCCCGGTGATTGAAGTCATCGAGACGATCCCGATACACGACCTGCTGATAAAAATGCAGAGAGAACGGATTCATTTGGCGATATTGTCTGATGAATACGGCGGAACGTCCGGTCTTGTGACGACCGAAGACATCCTTGAAGAAATCGTCGGCGATATCAGAGACGAATTTGATGAAGACGAACAGCCGCAGATTCAAAAGCTGTCCGAACGCCATTATGTGCTGGACGGAAAGGTTCGGATTGATCAGGTGAATCATCTTCTCGGCGCAGGGATTGAAGAGGAAGTCGACACGATCGGCGGTCTTGTGCTGAAACGGAATATTGACATCTGTGCGGGTGAGTCGATACAAATCGGGGGATACACTGCCCTCATATTAGAAATGGACGGCCGGTTTATTAAACAGCTTGAACTCAAAGAAGAACAGGGCCGCCCGGGCGGTCAGGGAACAATAAACCGCCAGCTGCCCGTGCCTGAAACGGTCATGCTTCATAACGCAACCTTGAGCGAAAAATAA	MDDIDSLILIGVLIALTAFFVASEFAIVRVRRSRIDQLISEGNRRAVLAKRIITDLDEYLSASQLGITLTSIGLGVLGEPAFERMLHPVFQGMGLPDSAEHVIAFVAAYGLITFLHVVVGELAPKTVAIQKAEKLTLWIAGPLRLFYVFMFPFIWVLNGSARILTGLAGLKPASEHEGSHSEEELRILLSESLKNGEINPSEYTFVNKIFDFDNRIAKEIMIPRKEIAAVSTDMDVPEMLDMMLKDKYTRWPVTDGDKDSVIGMINTKHLFSDLLFMTEDEKAEVSITSYVRPVIEVIETIPIHDLLIKMQRERIHLAILSDEYGGTSGLVTTEDILEEIVGDIRDEFDEDEQPQIQKLSERHYVLDGKVRIDQVNHLLGAGIEEEVDTIGGLVLKRNIDICAGESIQIGGYTALILEMDGRFIKQLELKEEQGRPGGQGTINRQLPVPETVMLHNATLSEK	PGPT0014012_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014012-yhdT-NA	NA	NA
D1-12_00106	360	crcB_1	COG0239	Putative fluoride ion transporter CrcB	ATGACGATTGTCCTGATGCTTATCGCAGCGGGTATCGGAGCGGTATTACGGTCTCTGCTGGGTAAAGCAATTTCAGAAAGAACAAAAGGTTTTCCGATTCCGCTTGGAATGGCTGCGGTCAACCTGCTCGGCTCCTTCGGCCTCGGCATGTTCACCGGCCTGGGCCTGGATAATCCTTCTGCCGGCATCATCATCGCGACGGGCTTTTTCGGTGCGTTTACGACCTTTTCCACGTTCAGTATTGAAGCCGTGCAGCTGATGATGAACAACCGCATAAAGGAAAGCCTGCTCTACATCGCTGTTTCAGCAGCCGGAAGCCTTTTGGCGTTCTGGTGCGGCTTCATTATCATTTCCATTTAA	MTIVLMLIAAGIGAVLRSLLGKAISERTKGFPIPLGMAAVNLLGSFGLGMFTGLGLDNPSAGIIIATGFFGAFTTFSTFSIEAVQLMMNNRIKESLLYIAVSAAGSLLAFWCGFIIISI	PGPT0004985_5115	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
D1-12_00107	396	crcB_2		Putative fluoride ion transporter CrcB	ATGAAACAATACATCGCAATTTTTATCGGAGGCGCGCTTGGCGCTTTGCTCCGCTTTGAAATGAGCGCGCACATTCACAGCGGTTCTTTCCCGGCGGCCACTTTCCTCGAAAACGCGGCGGGAAGCCTTTTACTCGGTCTTATTACGGGTTATTTCATCATTCGGGCTAAACGCCCTCTTTTGACCGCCTTTTTAGGAACCGGTTTGTGCGGAGGTTTCACGACGATGTCAACCTTCGCAAAAGAAACCATTTTTCTGCTGCAATCGTCTCCCGCAGCGGCTTTTTGTTATGCTGCCGCGACATTAATCTCTGGCATTGCCCTTGCATACGCGGGCATTTTCTGGGGACGGCGGATTGCCCTTCACGCAGCGGGAAGGGGGCATGATACGCCATGA	MKQYIAIFIGGALGALLRFEMSAHIHSGSFPAATFLENAAGSLLLGLITGYFIIRAKRPLLTAFLGTGLCGGFTTMSTFAKETIFLLQSSPAAAFCYAAATLISGIALAYAGIFWGRRIALHAAGRGHDTP	PGPT0004985_1299	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
D1-12_00108	717	glpQ_1	COG0584	Glycerophosphodiester phosphodiesterase	TTGTATACCATCGCTCATCGCGGCGCATCCGGTTACGCGCCCGAAAATACATTTGCGGCATTTGATATCGCTGCCGAAATGAACGCTGATTTCATTGAGCTTGACGTCCAGCTCACAAAAGACGGCCAGATTGTCGTCATCCATGATGACAAAGTCGACCGGACGACGGACGGCTCCGGTTTTGTAAAAGATTTTACGCTGAAGAAGCTGCAGTCTCTGGACGCCGGCAGCTGGTATGGGGCTGAGTTTAAAGGGGAGCGGATTCCCCTGCTCGAAGAGGTCTTGAAGCGTTATCATTCTGAAATCGGATTTTTAATTGAACTGAAAGGGCACGTTTCTCAAGTCGGTCTTGAAAAAGCAGTCGGCCAGCTGTTAAGCAGGTTTTCCTTTTCCATCCACCCTATCGTTCAATCATTCAGCCTCAAGTCGATTCAGACCTTTCACGACATGTATCCGTCCGTTCCGACTGCAATTATTGCAAGACCCAGCTTTGGGATGTTTTCCAAAAGCCAGCTTGCCGCCTACAAATCAGCCGTACATTATGTCAATATTAAATATACCCGCCTGAATCGGTTCTTGATTTCCACCGCTCACAGACACGGCCTGAAAGTGTTTGCCTGGACGGTCAGAAATCAAAAGACGGCCCAAAAGCTGCAAATGATGGCAGTTGACGGCATTGTAACTGATTTTCCGGATTTTATTTCTAAGGATGGCTGA	MYTIAHRGASGYAPENTFAAFDIAAEMNADFIELDVQLTKDGQIVVIHDDKVDRTTDGSGFVKDFTLKKLQSLDAGSWYGAEFKGERIPLLEEVLKRYHSEIGFLIELKGHVSQVGLEKAVGQLLSRFSFSIHPIVQSFSLKSIQTFHDMYPSVPTAIIARPSFGMFSKSQLAAYKSAVHYVNIKYTRLNRFLISTAHRHGLKVFAWTVRNQKTAQKLQMMAVDGIVTDFPDFISKDG	PGPT0018470_8174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-12_00109	105			hypothetical protein	ATGGGAAAAGGGAGATTGAAAGTGGAAGAAAGAATTAAGGCCGAAACCGATGCCGAAATCCAAAAAGCGACTCTCCTGAAACAGACACAATCAAAGAAGAAATAG	MGKGRLKVEERIKAETDAEIQKATLLKQTQSKKK				NA	NA	NA	NA	NA
D1-12_00110	1116			hypothetical protein	ATGATGACACAATTTCAGAGCTTTTTTACGCTTGACCATATTTCGCAGATCAGTATCAGCATCGGAATTTTAGCGGCTTTTCTCGTTTTGAGAAAACTGTTTGTCAAATACTTTTTTCAGCTCGTTTACAAATTGGCGAACAAGCCGAAAACCGACATATTCAAACAGATTGCCGTAGCGTTTGACAAGCCGGCCAGATGGTTTTTCGTGGCGCTGGGTCTGTTTTTGGCGATTGAGTATTCGCCGTTTTTAGACGGGCAGATGGACATTATCAAAAAAATGTACCGCTCTCTGATCGTTGCGCTGATCGCCTGGGGGCTTTGCAATCTGACATCGGCGTCTTCGTTTTTATTTCATAAAGTCAATCAGCGTTTTGAGCTTGATATGGATGACATTTTGGCGCCGTTTTTATCCAAGGTGCTGCGCTTTGTCATTCTGGCGCTCAGCGTCAGTGTGATCGCGCAGGAATTCAATTATGATGTAAACGGGTTCGTGGCCGGACTCGGACTTGGCGGATTGGCCTTCGCGCTTGCGGCTAAAGATACGATCAGCAATTTTTTCGGCGGCATTATCATCATTACGGAAAAGCCGTTTACGATCGGCGACTGGGTCGAGACGTCATCTGTAACGGGGGGCGTTGAAGATATCACATTCCGAAGCACAAGGTTCCGGACGGCGCAGGGGGCGCTTGTTACCGTGCCCAATTCAACGCTGTCTATGGAAGCCATCACAAACTGGACGAGGATGACGAAGCGCCAGGTCACGTTTTCTGTTCGTGTTTCTTATGCGACGCCGATTGATCGTTTAGAGCGGTGCATCACAAGGCTCAGAGAAATGCTTCGTGAACATGAAGGCGTGCATGATGATACGATTATGGTTAACTTTGACGTGTTTGCGGACAGCTATTATAATCTGTTTTTCAACTTTTACACAAAGACCATCGTCTGGGCGGAAAGCTTGGACGTGCGGCAGGATATCAACCGCCGAATTATTGATATTTTTGCTGAGGAAGGCGTGGAGTTCGCCTATCCGGGCCAGAATGTATTCGTAAAACAGAAGAGCCACGATGATCCGGTTCATGTGAAGGATCATTCCGGAGAAAAAGAACGGGCATAA	MMTQFQSFFTLDHISQISISIGILAAFLVLRKLFVKYFFQLVYKLANKPKTDIFKQIAVAFDKPARWFFVALGLFLAIEYSPFLDGQMDIIKKMYRSLIVALIAWGLCNLTSASSFLFHKVNQRFELDMDDILAPFLSKVLRFVILALSVSVIAQEFNYDVNGFVAGLGLGGLAFALAAKDTISNFFGGIIIITEKPFTIGDWVETSSVTGGVEDITFRSTRFRTAQGALVTVPNSTLSMEAITNWTRMTKRQVTFSVRVSYATPIDRLERCITRLREMLREHEGVHDDTIMVNFDVFADSYYNLFFNFYTKTIVWAESLDVRQDINRRIIDIFAEEGVEFAYPGQNVFVKQKSHDDPVHVKDHSGEKERA				NA	NA	NA	NA	NA
D1-12_00111	744	cobB	COG0846	NAD-dependent protein deacetylase	GTGGAAGCGTTTATGACATTGATCAATCAGGCGGAACGTATCGTGGTGCTGACGGGAGCGGGAATGAGCACGGAATCCGGCATTCCTGATTTTCGTTCGGCGGGCGGTATATGGACCGAAGACACCTCCAGAATGGAAGCGATGAGCAGGGAATACTTTGAACGCCGTCCGCGTGAATTCTGGCCTAAATTCAAACAGCTCTTTCAGATGAAAATGAGCGGAAGCTATGAGCCGAATGCCGGCCATACGTATTTGGCGGATCTTGAAAAGCGGGGAAAGCAGGTAGACATTTTCACGCAGAATATTGACGGGCTGCATAAGAAAGCGGGAAGCAGCAGTGTCTATGAGCTTCACGGTTCAATTCAGACCGCCGCATGCCCCCGCTGCGGAGCGCGCTACGGGCTTTCTCATCTGCTGAAGGACGAAGTGCCGGAATGTACGGCGGAAATCGGTGATCATGCGGTATGCGGCACCGTATTAAAAACGGATGTCGTGCTGTTCGGCGATCTCGTTCAGCATTTTGAAACCCTTTATGAAAAGCTTGATAAAGCTGATCTTCTTCTTGTGATCGGCACTTCGCTTGAAGTGGCGCCGGCAAGGTTTGTCCCTGAGGATGCGGGCCGGATTCCCGGTTTGAAGCAGGTAATCATTAACCTTGAGCCGACATATTGCGACCATTTATTTGATCTTGTCATCCATGAGAAGATCGGTGAATTTGCAAAACGGATCAGCGCCGCGACATAA	MEAFMTLINQAERIVVLTGAGMSTESGIPDFRSAGGIWTEDTSRMEAMSREYFERRPREFWPKFKQLFQMKMSGSYEPNAGHTYLADLEKRGKQVDIFTQNIDGLHKKAGSSSVYELHGSIQTAACPRCGARYGLSHLLKDEVPECTAEIGDHAVCGTVLKTDVVLFGDLVQHFETLYEKLDKADLLLVIGTSLEVAPARFVPEDAGRIPGLKQVIINLEPTYCDHLFDLVIHEKIGEFAKRISAAT	PGPT0013485_1263	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
D1-12_00112	849		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGCGCAACACAAAAGAAGGTGCTTCCCCTTCTCTGTTTTCATTGGCTTTTAAACTTACGAGTTTAGCAGTTTTGTGCGGACTGCTTCTGGTAATCGTCATAATGGGATATTCCGCTTCCGCCGCAAAAAACAAACAGGTCACCGTGACCGCAAACGGGCAGCTTCGGGATGAAGCAGAAAGCCTGCGGCTGAAAAATGATTCTCCCGACGTCTTAATGAAACATTTGCAGAAAGAGCGTGACCCAGGGAAAAAAACGGTATATTTAACCTTCGACGACGGGCCGTCTCCATATACTGAACAGCTGTTGAATGTATTGAAGGCAAATGGCGCAAAGGCCACTTTTTTTATGCTTGAACCGCGGATGAAAGCCTATAAGCATTCCGTGCAAAGAGCGAAGCAGGAAGGAATCGCGCTCGGCCTGCACGGCGTGACGCACGATAATCACCTGTTTTATCAAACACCGACATCACCGCTGAACGAAATGCAGCAGGGACGCGATACGCTCGAGGCAATCACCGGAGTAAAAACGGATCTTGTCCGCACGCCATACGGCAGTAAACCGTCATTGACGGCTGCCCAGATTAAGAATCTCGAAAAAGGCGGATTCGTGTACTGGGACTGGACGATAGACAGTGAAGACTGGAAGTACAAAAACGCACGGTACGTGCCGGAAGTATTGAATCAGCTCGCATATTTGGAAAGCGTTCATACGAGCAGGCCGCATGTCATTTTAATGCACGATCTGCCTGCGACGGTGCACGCTTTGCCTAGCCTGATCCAAAAACTGAAAGCCCAGGGCTACTCCTTTGATGTTCTGACGGATCAAATGATTCCCGTCCATGAATAA	MRNTKEGASPSLFSLAFKLTSLAVLCGLLLVIVIMGYSASAAKNKQVTVTANGQLRDEAESLRLKNDSPDVLMKHLQKERDPGKKTVYLTFDDGPSPYTEQLLNVLKANGAKATFFMLEPRMKAYKHSVQRAKQEGIALGLHGVTHDNHLFYQTPTSPLNEMQQGRDTLEAITGVKTDLVRTPYGSKPSLTAAQIKNLEKGGFVYWDWTIDSEDWKYKNARYVPEVLNQLAYLESVHTSRPHVILMHDLPATVHALPSLIQKLKAQGYSFDVLTDQMIPVHE	PGPT0018645_2571	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-12_00113	852	dat_1		D-alanine aminotransferase	ATGAAGACATTAGTAAACGGTCAGTTGATTGATCGTGAAGAAGCGGCAGTTGATATTGAGGACCGCGGATATCAATTCGGTGACGGTGTGTATGAGGTCATCAGAGTGTATAACGGCGCCTTATTCGGTTTGCGTGAGCATATCGTCCGTCTTTTCAGAAGCGCCGCAGAAATCGGCATCACCCTGCCGTTCTCCGCAGAGGACATAGAATGGGATCTGCAAAAGCTCGTACAGGAAAACAAACTCATTGACGGCGGGGTCTATATACAGACGACGAGAGGGAAGGCGCCGCGGAAGCACCAGTATGACGAAGGATTGGAACCGCAGACGACGGCATACACCTTTTCAGTGAAAAAACCGGAAAATGAACAAAAAGCCGGAGCGCAGGCCATAACGGCGGAAGACAAACGCTGGCTGAGGTGTGACATTAAGAGTCTGAATTTACTGTATAATGTGATGATTAAACAAAAAGCCTATGAAGCAGGCGCTTATGAAGCGGTGCTGATAAGGGACGGAGCGGTCACGGAAGGAACCTCTTCCAATGTATACGCCGTCATAAACGGCACTGTCCGGACGCATCCTGCAAATGAGCTGATTTTAAACGGCATTACGCGGATGAAACTGTTAGAGCTGATGAAAGAAAACGGGATTGAGGTGCGGGAGAAGGCCCTTACCGAAGACGAACTCAGGGATGCGGATGAAATTTTCATCTCGTCAACGACGGCTGAATTAATCCCGATCGTAACCCTTGACGGAAAACCGGTCGGAAGCGGCGCGCCGGGACCTGTAGCCAAAACGATTCAGGAGGCTTTTCAGTCGCACATTCAGCAGGAGCTCGGCGTTCAGTCATAA	MKTLVNGQLIDREEAAVDIEDRGYQFGDGVYEVIRVYNGALFGLREHIVRLFRSAAEIGITLPFSAEDIEWDLQKLVQENKLIDGGVYIQTTRGKAPRKHQYDEGLEPQTTAYTFSVKKPENEQKAGAQAITAEDKRWLRCDIKSLNLLYNVMIKQKAYEAGAYEAVLIRDGAVTEGTSSNVYAVINGTVRTHPANELILNGITRMKLLELMKENGIEVREKALTEDELRDADEIFISSTTAELIPIVTLDGKPVGSGAPGPVAKTIQEAFQSHIQQELGVQS	PGPT0001915_1080	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0001915-dat-K00824	NA	NA
D1-12_00114	507	betI		HTH-type transcriptional regulator BetI	ATGGAAGGAGCGACAGTGAGAAACATCGCCCAGGAAGCGGGTCTTTCTTTAGGCGCGCTGAGGCACTATTTCACCACCCAGGATGAGCTTTTAGGGTATGCGATGACACTCGTAAAAGAAAAAGCGGCCGCCAGAATTAACGAAGTTGCCATGAAAGATCTGCCGCCGAAAGAAAAAGCGGTGCGTCTGATGCTTGAAATCATCCCGACAGATGAAGAAACGATGGCTGAAATGGAGGTATGGTTCGCTTTCACAGCTTATGCCAGACATAAGGGAGAAGAGTTTCATCCCCAGCAGGACGGGATCTTGGCATATATCCGCGGTCTGATTGACTGGCTGGATGAAAATAAGCTTCTGAAACCGAATCTTGATAAAGAGATCGAAGCGGAGAAAATGTACGCCATCGCCGACGGATTGGCACTGCATGCCATGCTTGAACCTGAGCGTCTTTCAAAAGAGAAGATCTCCCGTGTGCTCGTGCAGCATATCGAATCTCTTTTTATCTGA	MEGATVRNIAQEAGLSLGALRHYFTTQDELLGYAMTLVKEKAAARINEVAMKDLPPKEKAVRLMLEIIPTDEETMAEMEVWFAFTAYARHKGEEFHPQQDGILAYIRGLIDWLDENKLLKPNLDKEIEAEKMYAIADGLALHAMLEPERLSKEKISRVLVQHIESLFI				NA	NA	NA	NA	NA
D1-12_00115	552			hypothetical protein	TTGAACGCGATTGCTTGGTTGATTGTCATTTGTGAGGCTGCGTTTTGGGCGGCTGTCATCTTCGGATTGGCGGCGCGCTATATATTCAGGCGGCAAAAGCTCGGAATGTTTTTTTTCGCTCTCATTCCTTTATTGGATGCCGTACTGTTTCTGGCGGCCGCAGCTGATTTATACAGAGGGGCGGCGGCGACTATGGCGCATGCGGTGGCGGCCATTTATATCGGAGTGTCTGTCGCCTTCGGGAAAAGCATGATTCAATGGGCGGATGAGCGGTTCCGCTATTATGTGGTCAAGGAAGGGGCAAAACCGGTCAAGCGGTACGGACTGGATTATGCCAAACATTATGCAAAAGGGTGGGGGAGACATGTATTAGCGTTTGTCATCGGCGGCGTTCTTTTAGCCGGAACGGTATTTCTCATTCAGGACGCTTCCCGCACCGAAGCGCTCAGCGTACTGTTAAAGGGCTGGTCTGTCGTATTGTGCATCGATTTTTTGATCATGGCGAGTTTTTTTGTGATGCCGAAAAAAAGAAGAAACAGCCGGGAGCTGTAA	MNAIAWLIVICEAAFWAAVIFGLAARYIFRRQKLGMFFFALIPLLDAVLFLAAAADLYRGAAATMAHAVAAIYIGVSVAFGKSMIQWADERFRYYVVKEGAKPVKRYGLDYAKHYAKGWGRHVLAFVIGGVLLAGTVFLIQDASRTEALSVLLKGWSVVLCIDFLIMASFFVMPKKRRNSREL				NA	NA	NA	NA	NA
D1-12_00116	501	nhaX	COG0589	Stress response protein NhaX	ATGTTTCACGCGGACCGGTTGATAGCAGCTTTTGACGGAAGTGATGATAGTAAAAAAGCGCTCCAAAAAGCCATAGACCTTTCAAAAACGTTTCACGCGGATTTAACGGTCGTACATTCCTACAATGCAAAAGATACCCGGACGATTGTTGATCCCCCGAGGCCGGGAGCCGGGGCAACGTATATCGGCGGCGGGATTGCAAGCGTTCCTGACCCGCTCCAGGCGGAAAGAATCTCCCCTGATCCGATGATTTATGAAGACCGTACGGAAGAAATCGTTGCGGAAGCGAGAATGCTGATGAACGACAGCCAGATTGACGGGGATATCGACATTTTAGAAGGTGATCCCGCTGATGCCATTATCGAGCATGCCGACCGTATATCGGCGGATTTGATCGTCATGGGGAGCCGGGACCAGAACAGGCTGAAAAAACTTTTATTCGGAAGCGTCAGTGAAAAACTGTCATCGAAATCCGATATTCCCGTGCTGATCGTAAAATAA	MFHADRLIAAFDGSDDSKKALQKAIDLSKTFHADLTVVHSYNAKDTRTIVDPPRPGAGATYIGGGIASVPDPLQAERISPDPMIYEDRTEEIVAEARMLMNDSQIDGDIDILEGDPADAIIEHADRISADLIVMGSRDQNRLKKLLFGSVSEKLSSKSDIPVLIVK	PGPT0015026_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015026-nhaX-NA	NA	NA
D1-12_00117	105			hypothetical protein	ATGTCTTTTTTTATACAAAAAAATGAAAGAAAGACAGGTGTGATGCATGTGGCGGTATTAGCGAAAACAATGAAAAACAATCCGGAAAAGCTTGAGGGCGGCTGA	MSFFIQKNERKTGVMHVAVLAKTMKNNPEKLEGG				NA	NA	NA	NA	NA
D1-12_00118	1758	yheI	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	TTGTTTACTGTATTAAAAAAGCTCGCGTGGTTTTTTAAAGCCTATTGGCTGCGCTATACGACAGCGATTGTTCTGTTATTGATTGTGAATGTCATTGAAATGTTTCCGCCTAAACTTCTCGGTAACGCGATAGACGATATGAAGGCGGGCGTGTTTACAAAAAGCGGGATGCTGTTTTACATATGTGTTTTTCTCGCATTAACGGCAGCCGTCTATTTACTGTCTTATTTTTGGATGTATCAGCTTTTCGGCGGGGCGAATGTCATGGAGAAGATTCTCCGTTCAAAGCTGATGGGAAGGCTTCTTCAAATGTCACCGCCGTTTTACGAGAAATACAGAACGGGCGATTTAATGGCGCGGGGGACAAATGACTTGCAGGCCGTCAGTATGACGACGGGCTTCGGGGTCTTAACGCTCGTTGATTCGACGATGTATATGCTGACGATATTTTTGACAATGGGGCTTCTCATCAGCTGGAAGCTGACATTTGCCGCGATTATTCCGCTGCCGATAATGGCGGCTGCGGTCAGCCTGTACGGAAAAAAGATCCATGAGCGGTTTACGGAAGCGCAGGATGCTTTCGGATCATTAAATGACAAGGTGCTGGAGTCAGTATCCGGCGTCCGGGTCATCCGGGCATTCGTGCAGGAAAAAAATGATGTCAGCCGGTTCGGTGATATGACGGCGGATGTATATGAGAAAAATATGAAAGTGGCGTTTATCGATTCACTTTTTGAACCGACTGTGAAGCTTCTCGTCGGCCTCAGCTATCTTATCGGTCTCGGCTACGGCGCTTATCTCGTTTTTCAAAACCGGCTGACGCTGGGAGAGCTGGTATCGTTTAACGTGTACCTCGGAATGATGATCTGGCCGATGTTTGCGATCGGAGAATTAATCAATATCATGCAGCGCGGAAATGCCTCCTTGGATCGTGTCAATGAGACGCTTTCCTATGAGCCTGACGTGACAGGACCCAAGCACCCCGCCGGCATCAAGGAGCCCGGGCGTCTTGCTTTTGAACATGTGACTTTCACATATCCGATCGGAGCTGGACCGGCGGTTTCCGATGTGTCATTTTCCGTTGAGAAAGGGCAGACACTCGGCATCGTCGGGAAGACGGGAAGCGGAAAGACGACGATCATTAAGCAGCTGTTGCGTGAATATCCGCCCGGTGCGGGAGCAATCACGTTTACAGGCGTTCCGATTCAGGAGATTCCGCTTGAGGAGCTCCGCGGGTGGATCGGCTATGTGCCGCAGGATCATATTTTATTTTCAAAGACTGTAAAAGAGAATCTGCTTTACGGACGGCAGGATGCAAACGAAGAGGAAATCGGCAGCGCGCTGAAAGATGCGCATTTTGAAAACGATATCGGCATGCTTTCCGACGGACTTGAGACGCTTGTCGGCGAGAAGGGCGTAGCGCTCTCGGGCGGACAAAAGCAGCGCATCTCAATTGCGAGAGCGCTTTTGACCGATCCGGACATTCTCATATTAGATGATTCGCTTTCTGCCGTAGACGCGAAAACGGAAGCCGCCATTATTGACAGCATTCGTAAAAAACGGCGGCATAAAACAACGATTATCACCACCCACCGGCTCTCGGCAGTTGAACACGCAGATCTCATTCTCGTCATGGATGAAGGCCGGGTATCTGAAAGAGGCACGCACCGGGAGCTATTGGCGCAGAACGGCTGGTATCGAAAACAATATGAGAGGCAGCAGCTGTCCTCTCTTGAAGAAGGGGGGACGGGCGCATGA	MFTVLKKLAWFFKAYWLRYTTAIVLLLIVNVIEMFPPKLLGNAIDDMKAGVFTKSGMLFYICVFLALTAAVYLLSYFWMYQLFGGANVMEKILRSKLMGRLLQMSPPFYEKYRTGDLMARGTNDLQAVSMTTGFGVLTLVDSTMYMLTIFLTMGLLISWKLTFAAIIPLPIMAAAVSLYGKKIHERFTEAQDAFGSLNDKVLESVSGVRVIRAFVQEKNDVSRFGDMTADVYEKNMKVAFIDSLFEPTVKLLVGLSYLIGLGYGAYLVFQNRLTLGELVSFNVYLGMMIWPMFAIGELINIMQRGNASLDRVNETLSYEPDVTGPKHPAGIKEPGRLAFEHVTFTYPIGAGPAVSDVSFSVEKGQTLGIVGKTGSGKTTIIKQLLREYPPGAGAITFTGVPIQEIPLEELRGWIGYVPQDHILFSKTVKENLLYGRQDANEEEIGSALKDAHFENDIGMLSDGLETLVGEKGVALSGGQKQRISIARALLTDPDILILDDSLSAVDAKTEAAIIDSIRKKRRHKTTIITTHRLSAVEHADLILVMDEGRVSERGTHRELLAQNGWYRKQYERQQLSSLEEGGTGA	PGPT0029040_1072	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029040-mdlA|smdA-K18889	NA	NA
D1-12_00119	2022	yheH	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheH	ATGAAGACCGGGAGAAGATTATGGAATTACGCGCTTCAATATAAGAAGCTGCTGATATGGGCGGTCGTCCTGCTCATTATTGCGGTCGGCACTGAGCTGACCGGCCCGTTTATCGGAAAAAAAATGATTGACGACCACATTCTCGGCATTGAAAAAACATGGGTTAAAGCCTCTGCGGACGATCCGGGCGCCGTCAGGTTCCGGGGGCATGATTATGTCAGGGAGGACCGGCTCAAACCGGGGGCGGACAAAACCGGAGAGGCGCACATTTATCAAGTCGGTGCGGGCTACTATTTTGTTGACCGTCCCGTCAGTTTTGACGGAAACCGTTCTGTGTCTGACGGCCGGCTGACAATATCAAACGGTAAAGAAAGCAGGTCATATTCCGCCATTACGTTATCAAGACAGGAGATTTTTCAATTTTACCGTCCCGAAATAAAAGGATTGCTGACGCTGACCGCCATTTACGCGGGGCTGCTCATGTTTTCCGTGTGTTTTCATTACGGCCAGCATTATCTGCTGCAGATGGGAGCGAACCGGATCATACAGCGCATGAGGCAGGATGTATTTTCACACATTCAGAAAATGCCGATCCGCTACTTTGATAATCTGCCTGCAGGAAAAGTCGTGGCCCGCATTACGAATGACACAGAAGCGGTCAGGGATTTATATGTAACGGTGCTGTCGACATTTATCACAAGCGGCGTTTATATGCTCGGCATTTTTACGGCGCTGTTTATGCTTGATGTCAGGCTGGCCGCCGTTTGCCTGCTGATTATCCCGATTTTAATGATCTGGTCGGTTGTGTACCGCAAATACGCATCCGTCTTCAACCAAAAAATCCGTTCCATTAACAGTGACATCAATGCGAAAATGAACGAATCCATTCAAGGAATGCCGATTATTCAGGCGTTCCGCCGAGAGAAGGAAACGATGAAGGAATTTGAAGAATTGAATGAATCTCATTTCCGCTACAAAAACAAAATGCTGTCCTTAAATTCCCTCATGTCCCACAGTCTTGTCAATGTGTTGCGCAATCTGGCGTTTGTCGGGCTGATCTGGTATTTCGGAGGTGCGAGTCTGAGTGCGGCCGGAATTGTTTCGATCGGCGTTTTATACGCGTTTGTTGATTATTTAAACCGTTTGTTCCAGCCGGTTACGGGGATTGTCAACCAATTTTCGAAGCTTGAATTGGCCCGTGTCTCTGCCGCCAGGGTATTCGAGCTTTTACAGGAGGAGGAAACGGAAGAAGAAGGCGCTCCCGCAGACAGAAAGGCGGAAGGAACTGTGGAATTCCGCGATGTTTCTTTTGGATATCGAAAGGGAGAAGAGGTGCTGAAACACATCAGCTTTACAGCTGAAAAAGGGGAGACGGTCGCCCTCGTCGGCCATACGGGGTCCGGCAAAAGCTCCATCCTGAATCTTCTGTTCCGTTTTTATGATGCTCAAAAAGGGGATATTCTGCTGGATGGTCAGAGCATATACGGCATGTCGAGGCAGGAGCTGAGGTCGCATATGGGCATTGTGCTGCAAGACCCGTATCTTTTCTCGGGCACGATCGGCTCCAATGTAACGCTCGATGATCAGCGTATTTCTTTGGAGCAGGCGGAAGAAGCGCTTCGCCAAGTCGGTGCCGCAAGCCTTCTGCAATCTTTGCCGAAGGGCATCAGAGAGCCCGTCACTGAAAAAGGCGGCACACTGTCCTCAGGCCAGCGTCAGCTGATTTCTTTTGCAAGAGCGCTTGTGTTCGATCCGGCCATTTTAATTTTGGATGAGGCGACGGCGCACATTGACACCGAAACAGAAGCAGTCATTCAAAAAGCGCTGCAAGTCGTTCAAGAAGGGCGCACGACATTTATTATCGCCCATCGGCTTTCCACGATCAGGCACGCAGACCAGATTCTCGTGCTGGAAAAGGGCCGTATTATTGAAAAGGGAAGCCATGACGAATTAATGGCGCAAAAGGGGCAGTACCGCCAAATGTATGAATTGCAGAAAGGAACGGCGAAGTCCGCGGTGTAA	MKTGRRLWNYALQYKKLLIWAVVLLIIAVGTELTGPFIGKKMIDDHILGIEKTWVKASADDPGAVRFRGHDYVREDRLKPGADKTGEAHIYQVGAGYYFVDRPVSFDGNRSVSDGRLTISNGKESRSYSAITLSRQEIFQFYRPEIKGLLTLTAIYAGLLMFSVCFHYGQHYLLQMGANRIIQRMRQDVFSHIQKMPIRYFDNLPAGKVVARITNDTEAVRDLYVTVLSTFITSGVYMLGIFTALFMLDVRLAAVCLLIIPILMIWSVVYRKYASVFNQKIRSINSDINAKMNESIQGMPIIQAFRREKETMKEFEELNESHFRYKNKMLSLNSLMSHSLVNVLRNLAFVGLIWYFGGASLSAAGIVSIGVLYAFVDYLNRLFQPVTGIVNQFSKLELARVSAARVFELLQEEETEEEGAPADRKAEGTVEFRDVSFGYRKGEEVLKHISFTAEKGETVALVGHTGSGKSSILNLLFRFYDAQKGDILLDGQSIYGMSRQELRSHMGIVLQDPYLFSGTIGSNVTLDDQRISLEQAEEALRQVGAASLLQSLPKGIREPVTEKGGTLSSGQRQLISFARALVFDPAILILDEATAHIDTETEAVIQKALQVVQEGRTTFIIAHRLSTIRHADQILVLEKGRIIEKGSHDELMAQKGQYRQMYELQKGTAKSAV	PGPT0029045_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029045-mdlB|smdB-K18890	NA	NA
D1-12_00120	621			hypothetical protein	ATGAACATCGCTTTACTCGGAGCAACGGGAAGAGTCGGACAGGCTTTTATAAAAGAAGCGCAGAAACATGGACACATGGAGATATTCGCTCTTGTCAGATCAGCCGGAACAGTCCTTCCCATTCCTGAAAAACATATCATAACAGGGAATGCGAGGCGGCGGGAAGATGTAAGCCGATTGATTTCCAAAGCGGACACAGTCGTGAGCTGTCTCGGCACGGACGGTGACGATACCCTTTCAGCCGCTATGACCCATATCATAGACGGCATGAAACGGCATCATGTTCAGCGTCTGATTACGATCGGCACCGCGGGTATCCTTCAATCACGGCTTATGCCTGATCAATACCGTTTTGAATCGGCAGAATCAAAACGAAAATCAACAAGAGCCGCAAAAGAACACGCCCGCGTATACGAGATGCTGCTGGCAGAGGATCTTGACTGGACGATCATCTGTCCCACCTATCTTCCTGACGGAGATCCTGCCGGAGTTTACCGGTTCGAACAGGATCGCCTTCCTGAAGACGGCGCTGAAATCACCGTCGGAGACACGGCGCATTTTCTGTACCGTGAGCTGATCAGCCCGCAGTTTGTCAGAAAACGGGTGGGACTGGCTTACTGA	MNIALLGATGRVGQAFIKEAQKHGHMEIFALVRSAGTVLPIPEKHIITGNARRREDVSRLISKADTVVSCLGTDGDDTLSAAMTHIIDGMKRHHVQRLITIGTAGILQSRLMPDQYRFESAESKRKSTRAAKEHARVYEMLLAEDLDWTIICPTYLPDGDPAGVYRFEQDRLPEDGAEITVGDTAHFLYRELISPQFVRKRVGLAY	PGPT0020900_34	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
D1-12_00121	126			hypothetical protein	ATGTCATTCATTGCCTCAGTCAATTGGGAGCTGTTTCAGTTCGTAAGTGTTTCTTTGGTCAATGAATATGTTGCCCACCATTTCCCGTTTATTCACAGGTATTCTTTTCCCCGCTGCTTTGAATGA	MSFIASVNWELFQFVSVSLVNEYVAHHFPFIHRYSFPRCFE				NA	NA	NA	NA	NA
D1-12_00122	207			Small, acid-soluble spore protein 2	ATGGCAAACAACAACTCTTCAAACCAACTCGTAGTACCCGGCGCTGCTCAAGCAATCGACCAAATGAAATACGAAATTGCTTCTGAGTTCGGCGTAAACCTTGGCGGAGAAACAACTTCTCGTGCAAACGGTTCTGTCGGAGGAGAAATCACGAAACGTTTAGTATCTTTCGCACAGCAGAACATGGGCGGCCAAGGCATACAATAA	MANNNSSNQLVVPGAAQAIDQMKYEIASEFGVNLGGETTSRANGSVGGEITKRLVSFAQQNMGGQGIQ	PGPT0024865_177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024865-SASP_B|sspB-K06419	NA	NA
D1-12_00123	207			hypothetical protein	ATGATTTCGCACTTCAGCTGGAAACCGTTATTCAAAAAAGAGAAACTGCCCGGATGGCGGATTTCATTTTACTGGCAGGGTACGCATTACGAAGGGATTTACCACAAGTCCGGAGACATTGAATGGGGACACACACATCCGGGAAAAGAAGAGCCGGCTCTCGTAAAAGAGCTGCATGAATTAATGCTTTATCACATATATGACTGA	MISHFSWKPLFKKEKLPGWRISFYWQGTHYEGIYHKSGDIEWGHTHPGKEEPALVKELHELMLYHIYD				NA	NA	NA	NA	NA
D1-12_00124	1359	yheD		Endospore coat-associated protein YheD	GTGAATCATAAAGGGATGATTGTCGGCATCGATAAAAAAAGCAAAAATACGCTGTTTCTCCCCTCCTCCATGAAACGGGAAGGGCTTTTATCCGCTGCCTTCGGGACCAAGGTTGTCAAATGCCGTGTAGCCTTTTCTCAATCACTTGAAAAAAGCGCGCTCCTTTCTGAAGATTTGTTTGAGGAGCTGTTGATACCGCATAAAAGCCGGGCTGATTTTCTCATACACGGCCAGACGGTGCACATCGGACCGCTGATCGGCGTTTTCACAGCCGGGTTCACATCATCGCCGACCCGCCCGTTAAGAGACCGCACAGACTTCTTTTCCAAGATGCTCTCTCTTCATGAACAGGCGAACGGATATTGTTTTGTTTTCGGTGCTCATCAGATCAACTGGGAAGAAGGCACCGTCCAAGCGCTGATTTATAAAGAAAACAGCTGGAAACGGACGGCCGTCCCGCTTCCGAATGTCGTATATGACAGACTCCCGAGCCGAAAAACGGAAGAAGTTCCGCTTTTACAGCAGACAAAACAAAGGCTGATGAATGTCTATCAGATTCCGTGGTTTAATCCGCAATTCTTTAATAAATGGGACATTCATAAGCTTCTGGAAAAAAACAGTCTCACCGCTTCACTCCTGCCAAAATCTGTCCTGCACCCGAATGCAGAAGCGTTAGAGACGTTATGCAGCACGTTTGACACCGTCTATATCAAACCTGCAGACGGCGCACTCGGAACGGGGATTTACAAGGTGGATAAAACAGATGCCGGCTTATCTGTTAAACACACGAATGAGGAAAAAACGGTGGTGACGGCAGAGTATTCAGATGCGGCATCCTTCATGACATCATTTAAAGAAAACAATGATCCGTCCGCATTTTTAATTCAGCAAGGCATTGACCTGATCCGGCTGGATGGGCGCCCCGTCGATTTCAGGGTGCACACGAATAAAAACGCCGAGGGGAAATGGACAGTGACGGCCATTGCGGCAAAAATTTCCGGTGAAAACAGCATCACGACGCATCTGGCAACCGGCGGAGAAGTCAGGACGTTAGCTGAATTATACGGCGATCCGCGCGAGAGAGTCGGCATGATGCGGAAACTTTCAAAAGCCGCCTTGGCGGTCAGCCGCGTGTTAAATGAGCACATTGAAGGTTTTATCGGCGAAATCGGTTTTGACCTCGGCGTCGATCATTCAGGGAAAGTTTGGATGTTTGAAGCCAATTCCCGCCCCGGGCGCAGCATTTTTTCCCATCCGAAGCTGAGATCGGTCGATTACCTGACAAAACGGAGAAATTTTGAATACGCGTCTTATTTATCAGAACGGTCCATCACCGCCCCGGAAAAACTTTGGCGGTGA	MNHKGMIVGIDKKSKNTLFLPSSMKREGLLSAAFGTKVVKCRVAFSQSLEKSALLSEDLFEELLIPHKSRADFLIHGQTVHIGPLIGVFTAGFTSSPTRPLRDRTDFFSKMLSLHEQANGYCFVFGAHQINWEEGTVQALIYKENSWKRTAVPLPNVVYDRLPSRKTEEVPLLQQTKQRLMNVYQIPWFNPQFFNKWDIHKLLEKNSLTASLLPKSVLHPNAEALETLCSTFDTVYIKPADGALGTGIYKVDKTDAGLSVKHTNEEKTVVTAEYSDAASFMTSFKENNDPSAFLIQQGIDLIRLDGRPVDFRVHTNKNAEGKWTVTAIAAKISGENSITTHLATGGEVRTLAELYGDPRERVGMMRKLSKAALAVSRVLNEHIEGFIGEIGFDLGVDHSGKVWMFEANSRPGRSIFSHPKLRSVDYLTKRRNFEYASYLSERSITAPEKLWR				NA	NA	NA	NA	NA
D1-12_00125	1092			hypothetical protein	ATGACAACACTCGGTTTTATGTCTGTATCCCGCCGGCACGAAGAAGATTACGCCGGGGAATTGGCTGAAAGAGCGCCTCAATATAATGTGCGCTTAGCCCGCTTTACACCGTTTGATATATTTCCGGATTCTTTGCGCGTAAAAGCGCTCGTCTATCACCCGCAAAGCGGAAAGTGGAACGAAACGGAAATCGATATTCCCGAATATATTTACGACCGCTGTTTTTACGGAAAATCCGCTGAAGCGCAAAAAGCCAAACCGATCGTCGAATGGCTGAAAAAATATCGGAAAACGGAATTTATCGGCCGGGGGCTTCCTGATAAATGGACGGTCACGGATGCGCTCCAAAAGCATCATCTGATCAGTCCCTATATTCCTGAAACGGCCGAAGTCAGCCGCTATGAACAGGTGCAATCATACTTAGCCAAGGAAAAAGCATGTATACTTAAGCCCGCTTTCGGCGCGGGAGGCAGAGGCATCATCCTGCTTGAAACAGGCAAAAAATCAATTACGGCCACTTACTATATCGGAAAAAACAAACAAACAAAATCATTTTCCAATCACGTGTCTTTTAAGTCCTGGTGCAAAAAAGTGCTGCAGCACCGCTATTTGCTTCAATCCTACTTAAATATCCAGGATAAAGAGCGGCATCCGTGCGACATCCGTATTTTCATGCGCAAAACTGAGTCAGGCGTTTGGGAAACGGTCGGAAAAGCGGTCAGAAGGGGTTATCAGAACGGTCTTTTATCTCATTTCCCCGGAGGATCCGAACCGATTAAGTTTGACACATGGTTTGAGGAAATTCCGAGAAAGCAGCAGGCCGTTTTATTGGATGATGTCTTTTCGATCACCCAATCCGTCCCTTATTTCCTTGACGAACGGTTCGGACCGCTGTTTGAGCTGGGGCTCGATATTTGTTATGCCAAAGACGGACGCATCTGGCTTTTGGATGTCAATTCAAAGCCGGGGCGGAAAGCTATTTTAAGCGTGGCTCCGGAGGCGAAAGAGGATTTGTATACGAGTCCGCTGAGACGCTTCCGCGAACTTCAGTCACAGGAAAGCCGGAAAGGAGTATTACCGCGTGAATCATAA	MTTLGFMSVSRRHEEDYAGELAERAPQYNVRLARFTPFDIFPDSLRVKALVYHPQSGKWNETEIDIPEYIYDRCFYGKSAEAQKAKPIVEWLKKYRKTEFIGRGLPDKWTVTDALQKHHLISPYIPETAEVSRYEQVQSYLAKEKACILKPAFGAGGRGIILLETGKKSITATYYIGKNKQTKSFSNHVSFKSWCKKVLQHRYLLQSYLNIQDKERHPCDIRIFMRKTESGVWETVGKAVRRGYQNGLLSHFPGGSEPIKFDTWFEEIPRKQQAVLLDDVFSITQSVPYFLDERFGPLFELGLDICYAKDGRIWLLDVNSKPGRKAILSVAPEAKEDLYTSPLRRFRELQSQESRKGVLPRES				NA	NA	NA	NA	NA
D1-12_00126	1134			hypothetical protein	ATGGGCATAGCAGGAACGTTTCTATTTATGATTGTGATCGGAGCCGCGATCGGCGCGGTGACGAATCATCTTGCCATTCAGATGTTATTTCGTCCGTACCGGCCGTATTACCTGTTCGGAAAACGGGTTCCGTTTACGCCGGGGCTGATCCCGAAAAGGCGGGATGAATTGGCAAAACAAATGGGGCTCATGGTGACGAACCACCTTTTAACCCCGGAAGGAATAAAAAAACGGCTTTTATCAGATACCGTTAAAAACCAGGCGCTTCTTTTCGCCGAACAATTCACACAAAAAATGGCCGCTTCCGAGATGACGGTGCACGAAGCTTTGGCCGCCGCGGGCATCCGGAATCCGCAGGAAAAGACGGATGCCTGGATTGACCGTTTTACCGATGAAAAGCTTTCGGAACTGTACCGGAAATATGAGCACCGCGCCATAAAAGACTGGCTTCCTGATGAGCTTCAGGAAAAGCTGGATGAAAAAGTCCCGATGGCCGCAGATTATATCCTGAAGCGGAGCATTGATTATTTTGAGAGCGAAGAAGGGAAAGACAGGCTCGGAAATATGATTGACGACTTTTTGAATTCCCGGGGGATGCTCGGCAGCATGGTGCAGATGTTCCTCGGCAATTCAAGCTTGGCAGACCGTGTGCTGCCTGAGCTGTTAAAGTTTTTGCGCAATGAGGAAACGAAAAAGCTTCTGGCTGATCTGCTTTCTCAAGAATGGGGCAAGCTCAAATCTTATACACTTTATGAGGCCGATGAAAAGTGGAATGCGAAAGATCTGCTGTTCAGCATGAAAAAGCGGGCTTTGGCCGCACTTCAAACCGCGCCCTTTTTCGAATGCCGGCTCGGTGACATCATCTCCCGTTATGAAGGGGAGATTACGGGAACGTACGCGCCGAAGCTGCTTGATGCGGCACTCGGCAGTATTGCCGCTCATTTGGAGGATGTACTGAAACGGCTGCGTCTTGAGGAAGTGGTCAAAGAGCAGGTTGATCAGTTTCCCGTTGAACGGCTGGAGGAAATGGTGCTGTCGATTTCCAAGAGAGAATTTAAGATGATAACGTATTTAGGCGGTTTGCTCGGCGGGATAATCGGAGCAATTCAGGCTTTGTTTGTCATTCTTTTCTAA	MGIAGTFLFMIVIGAAIGAVTNHLAIQMLFRPYRPYYLFGKRVPFTPGLIPKRRDELAKQMGLMVTNHLLTPEGIKKRLLSDTVKNQALLFAEQFTQKMAASEMTVHEALAAAGIRNPQEKTDAWIDRFTDEKLSELYRKYEHRAIKDWLPDELQEKLDEKVPMAADYILKRSIDYFESEEGKDRLGNMIDDFLNSRGMLGSMVQMFLGNSSLADRVLPELLKFLRNEETKKLLADLLSQEWGKLKSYTLYEADEKWNAKDLLFSMKKRALAALQTAPFFECRLGDIISRYEGEITGTYAPKLLDAALGSIAAHLEDVLKRLRLEEVVKEQVDQFPVERLEEMVLSISKREFKMITYLGGLLGGIIGAIQALFVILF				NA	NA	NA	NA	NA
D1-12_00127	351			hypothetical protein	ATGGCAGTTCATTTTTATGATGCAGCATATGATCTTGAAAAAGCTTTGCGAAACAGTGATGAATACAGCCGTCTGAGAGGGCTTTATGATCAAGTAAACGCAGATGAATCGGCAAAACGCATGTTTGATAACTTCCGCAATGTACAGCTGCAGCTGCAGCAGAAACAGATGTCAGGTGAAGAAATCACTCAGGAAGAGGTAGAGCAGGCACAAAAAACGGTTGCTCTCGTACAGCAGCATGAATTGATTTCTCAGCTGATGGAAGCGGAACAGCGCATGAGCATGCTGATCGGCGAGTTAAACAAAATCATTATGAAACCTCTTGAAGAGCTTTACGGCAGCCCGGAATAA	MAVHFYDAAYDLEKALRNSDEYSRLRGLYDQVNADESAKRMFDNFRNVQLQLQQKQMSGEEITQEEVEQAQKTVALVQQHELISQLMEAEQRMSMLIGELNKIIMKPLEELYGSPE	PGPT0026336_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA	NA	NA
D1-12_00128	1140	yhaZ	COG4335	putative protein YhaZ	ATGTATGATAAAGTTGAAAGGGAACATACATTCTCATATAATAAAAGAAAAAAAGCGGTGACTGTCATGTCTCTATTAAAAGATATTTATAACGAAGAATTTGCAGAAGCACTTCTGAACAGAATCAAATCGGCGCATCCGGCTTTTGAGCGGGACAAGTGCCGGGCGCTGATGTTTCAGGAAGATTGGCCCGGACTGACGTTAAAACAGCGGATGCGCCGGATCACAGACTCTTTATATGAAACACTGCCGAAGGATTACATACGGGCGCTTAACGTCTTATATGAGACAGCTCCCCGCTTCTCAGGGCTCGCCGGGATTATTTTTCCCGATTATGTCCAACAGTACGGAACGGATCACTGGGACGAATCCATGAAGGCGCTTCAGTATTTCACTCGTTTTTCCACTTCCGAATTTGCGGTCCGCCCGTATATCAGGCTTGACCGGGAGCGGATGTTCAAAGAGTTCCTTTCCTGGACGGAGCATCCGGACGAACATGTCAGAAGGCTTGCCAGCGAAGGCTCAAGACCGCGCCTCCCATGGGGAATCTCCATTCCGGCTCTTCTTGACGATCCTTCTCCGATTCTCCCTGTTCTGGACCGCTTGATGCAGGATGACTCGTTATATGTCAGAAAAAGCGTGGCGAATAACCTGAATGACATCTCCAAAACACATCCGGATCTTCTGCTACAGATCGCAGCCGAGCGGTTCGGAAGCTGTCCGCACACGAACTGGATTTTGAAGCACGCCTGCAGGACACTGTTAAAAAGAGGAGACAAACAGGCGCTTGCGGTTTTCGGGTTTGAAGACGCCTCCCGGATTTCATTGGAACGTTTTACACTGAATTCGGAAACGGCCGCCATCGGAACAAGCATACATTTTTCTTTTCAGATCCGCTCATCCGCCCGGCAAAAAGTCAGGGTTGAATACGCGATTGATTTTGTAAAGAAAAGGGGGCACCGCAGCCGCAAGGTGTTTAAGATGTCGGAGTCCGCCATGGATAACGGGGACGTAAAAACCTTCAGCAAACATCATTCCCTTAAAGATTTAACCACCCGCAAGCATTATCGGGGAATTCACACTCTGTCTATCATCATTAACGGAACGGTAAAAGGTTCGCTTGATTTTTCTGTTGAATAA	MYDKVEREHTFSYNKRKKAVTVMSLLKDIYNEEFAEALLNRIKSAHPAFERDKCRALMFQEDWPGLTLKQRMRRITDSLYETLPKDYIRALNVLYETAPRFSGLAGIIFPDYVQQYGTDHWDESMKALQYFTRFSTSEFAVRPYIRLDRERMFKEFLSWTEHPDEHVRRLASEGSRPRLPWGISIPALLDDPSPILPVLDRLMQDDSLYVRKSVANNLNDISKTHPDLLLQIAAERFGSCPHTNWILKHACRTLLKRGDKQALAVFGFEDASRISLERFTLNSETAAIGTSIHFSFQIRSSARQKVRVEYAIDFVKKRGHRSRKVFKMSESAMDNGDVKTFSKHHSLKDLTTRKHYRGIHTLSIIINGTVKGSLDFSVE				NA	NA	NA	NA	NA
D1-12_00129	867	yhaX	COG0561	Stress response protein YhaX	GTGTCAAAACAAATGCTGGCGTTAAATATAGACGGAGCGCTTCTTCGCTCCAACGGCAAACTTCATCAGACGACAAAGGATGCCATCGAATACGTCAAGAAAAAAGGAATTTACGTCACACTGGTCACAAACCGCCATTTTCGCTCCGCTCAAAAAGTGGCGAAAATATTAAAGCTGAATGCAAAATTGATTACCCACAGCGGCGCATACATTTCTGAAAAAATAGATGAGCCGTTTTTTGAAAAGAAAATATCAGAAGATCACACGTTTAATATCGTTCAGGTGCTGGAAAGCTATCCATGCAATATCCGGCTTCTTCACGAAAAATATTCGATCGGAAACAAGAAGAAAGTGAACTCCAATCTGGTCGGGAAAACGATGATTCATCCGTCTGACCCGATTTTTTATCCGGTGCAGTTTGTCGAATCATTAAGTGACCTGCTCCTTGATGAGCCGGTTTCAGCGCCCGTCATTGAAGTGCATGCCGAAGATGGTCTGCAGGCTGATATAACGGATACGATAATGAAAGCATTCCCGGCCGTCGATGTGATCCGCGTCAACGGAGAAAAACTGAACATCGTGCCTAAAGGGGTTTCAAAAGAAAGCGGACTTTCGATGGTCGCCGCTGATCTCGGGCTTTCAATGGAAGAGGTTGTGGCTATCGGCCATCAGGAAGATGATCTGCCGATGATCGAGCTGGCCGGTCTCGGCGTCGCGATGGGGAATGCCTCAAATGAATTAAAAAGAAAAGCGGACTGGGTGACAAGGTCAAATGATGAACAGGGAGTCGCCTATATGATTAAGGAATATTTCCGCATGCAGCACCGCAAAGGCTTTCTCGATAAGTTCCATATGAAACGGCCGTAA	MSKQMLALNIDGALLRSNGKLHQTTKDAIEYVKKKGIYVTLVTNRHFRSAQKVAKILKLNAKLITHSGAYISEKIDEPFFEKKISEDHTFNIVQVLESYPCNIRLLHEKYSIGNKKKVNSNLVGKTMIHPSDPIFYPVQFVESLSDLLLDEPVSAPVIEVHAEDGLQADITDTIMKAFPAVDVIRVNGEKLNIVPKGVSKESGLSMVAADLGLSMEEVVAIGHQEDDLPMIELAGLGVAMGNASNELKRKADWVTRSNDEQGVAYMIKEYFRMQHRKGFLDKFHMKRP				NA	NA	NA	NA	NA
D1-12_00130	1503	hemZ	COG0635	Oxygen-independent coproporphyrinogen-III oxidase-like protein HemZ	TTGCAAATAAAAATAGACGGCATCACGGATGACAGGCTGCATCGTCCGCTGCAAAACATCGCGAATTTATTTTTTGAAGAGTGTGTTCTTGCGTACGGCGAAACGGAGGAACCCTCTGATCTCGTCATCTCACTTGCCATTTCTCAAGATGCAGACAGCGTGTCGGTATCCGGAGAAATCAAAGGAACCGGCGAAAAGGAACATCATACGAAACCGCTTCTTGCCGGATGGAGCGAAAAAGAAGTATTTAAACAGGTGAAAAACACGCTGTCATACGTCTACTTAAATCTTCTTCAATCGCATACGGGCATGACACAAAAATGGGGAATCTTAACCGGCATCAGGCCTACTAAACTTCTTCATAAAAAGCTGCAGAGCGGCCTGACAAAAGAAGAGGCGCACGCCGATCTGAAAAAAGATTATCTGATCCATGATGAAAAAATCAATCTGATGCAGGAGATTGTCGACCGCCAGCTCGCGGCGGTTCCCGATCTGTACCGGGTCAAAGATGAAGTCAGCATATATATCGGCATCCCGTTCTGCCCGACGAAATGCGCCTACTGCACGTTTCCGGCATATGCCATTCAAGGACAGGCGGGAAGAGTCGGCTCCTTTTTATGGGGGCTTCACTATGAAATGCAGAAAATCGGAGAATGGCTGAAGCGGCATGATATCAAAGTGACGACCATTTATTTCGGCGGCGGCACGCCGACAAGCATTACCGCTGAAGAAATGGATCTTTTATATGAAGAAATGGTCCGCTCTTTCCCGGATGTCGCGAATATCAGGGAGATTACCGTTGAAGCGGGCCGACCCGACACGATTACGGAGGAAAAGCTGGCCGTTTTAAATAAGTATAAGATTGACAGAATCAGCATTAACCCGCAATCTTATGAAAACGAAACGCTTAAGGCCATCGGCAGACATCATACAGTTGAAGAAACCATCGAAAAATACCATCTTTCCCGCAAACACGGCATGAATAACATCAACATGGACCTGATCATCGGCCTGCCGGGAGAAGGGACGGCTGAGTTCAGGCACAGTCTTGAAGAAACGGAAAAGCTGATGCCTGAATCTTTGACCGTTCATACGCTTTCTTTTAAACGGGCGTCAGAAATGACGAGAAACAAGCATAAGTATAAAGTTGCCGACAGACAGGAAGTGTCCCGCATGATGGATGACGCCGTCCGCTGGACAAAAGAGCACGGCTATACGCCGTACTACTTGTACCGGCAGAAAAACATTCTCGGAAACCTTGAAAATGTCGGCTACTCCTTCCCTGGTCAAGAAAGCATCTACAACATTATGATTATGGAAGAAGTGCAGACGATTATCGGTATCGGCTGCGGCGCGGCAAGCAAATTCATTCATCCGGAAACCGGAAAAATCACGCACTTCGCCAATCCGAAAGATCCGAAATCATATAATGACCGATTCGAGCATTATACAGAAGAGAAAATCAAATACTTAGATGAGATGTTCGTCAAATCTGCATTATAA	MQIKIDGITDDRLHRPLQNIANLFFEECVLAYGETEEPSDLVISLAISQDADSVSVSGEIKGTGEKEHHTKPLLAGWSEKEVFKQVKNTLSYVYLNLLQSHTGMTQKWGILTGIRPTKLLHKKLQSGLTKEEAHADLKKDYLIHDEKINLMQEIVDRQLAAVPDLYRVKDEVSIYIGIPFCPTKCAYCTFPAYAIQGQAGRVGSFLWGLHYEMQKIGEWLKRHDIKVTTIYFGGGTPTSITAEEMDLLYEEMVRSFPDVANIREITVEAGRPDTITEEKLAVLNKYKIDRISINPQSYENETLKAIGRHHTVEETIEKYHLSRKHGMNNINMDLIIGLPGEGTAEFRHSLEETEKLMPESLTVHTLSFKRASEMTRNKHKYKVADRQEVSRMMDDAVRWTKEHGYTPYYLYRQKNILGNLENVGYSFPGQESIYNIMIMEEVQTIIGIGCGAASKFIHPETGKITHFANPKDPKSYNDRFEHYTEEKIKYLDEMFVKSAL	PGPT0003200_99	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
D1-12_00131	1290	iucD	COG3486	L-lysine N6-monooxygenase	ATGTATGATGTCATAGGAGCGGGAATCGGGCCGTTTAATTTAGGGCTTGCCGCATTGTTAGAGGATATACCAGGAACAGACGCTCTTTTTTTCGATAAAAAGAAAGAATTTGCGTGGCATCCCGGTCTATTAATTAAAGGGACGGATTTACAGGTGGCGTTTCTGGCGGACCTGGTCACGCTCGCCGATCCGAAAAGCCGCTACACGTTTTTAAACTTTCTCCATGAACATGACCGGCTGTACCGGTTTTATACGTTTAATGAATTTGATATTCCGAGACGGGAATTTAACGACTATTTGAGCTGGGCGGCTTCAGAAATCAAATCATGCCGTTTCGGCTCAGAGGTAATCGGTGTGAAAAATGCCGGCGGACATTATGACGTCAGCGTCAAGAACATTGAGGACGGAAGCATCAGTGTCTATCAAACGAAGCATTTCGTCATGGGGACGGGGTCTGAGCCGCTTATTCCCGCAGAGATTGCTGACGAAGCGCGTCAGGACACGATGGTCAGCACGGAATATTTGTTTCGGAAAGACGAGCTCGCCGGCGCCGAATCAATTACGGTGGTCGGTTCCGGACAGAGCGCCGCGGAGATCTTTTCTGACTTATTGCACGATGAACAATACCGCCGCAGCCGGCTGCAATGGGTGACACGCTCCGCCGGATTTCGAGAATTGGAAACCGCCAAGCTCGGGCAGGAAATGTTTACACCTGATTATGTGGAATATTTTAACCGCCTGCCTTTTAAAGAACGGCTGAACACGCTCCCTGAGCTGGACGGACTGCGCCACGGCATTGATTCTGACACACTTGCCGCCATTTACGATGCCCTGTATCACAGATCGATCAGCGGAGGTTCGCCTGACGTGTATATTCAGCCGATGGCGGAGCTTGAAAAAATTGAAAAGCAAAATGGGCGCTGCGTACTGAGCTTTCATCAATGGCAGATGGATGAAACCTTTACGGCCGATTCAGAAAAAGTGATATTGGCGACCGGCTTTAAACCTCATATTCCGGAATGGTTTACGGCAATTGCCCCCGATATCGAATGGGAGGATGAGAAACGGTTTAAAGTGACGGCCGATTCCCGTCTTATCTTTAAGGACGACAGGCGGCATCATTTTTTCACATTAACGAATCTTGATCATGCTCACGGAACAGGCGCTACGAATTTGAAGCTGTCTGTTTACAGAAACCAAAAAATCATCAATACCATTCTGGGGAAAGAGCATTTCTCCATTAATAAAAAAACGGCTTTTCAGCAATTTCTTCCCGCTCAAAAAAACTGA	MYDVIGAGIGPFNLGLAALLEDIPGTDALFFDKKKEFAWHPGLLIKGTDLQVAFLADLVTLADPKSRYTFLNFLHEHDRLYRFYTFNEFDIPRREFNDYLSWAASEIKSCRFGSEVIGVKNAGGHYDVSVKNIEDGSISVYQTKHFVMGTGSEPLIPAEIADEARQDTMVSTEYLFRKDELAGAESITVVGSGQSAAEIFSDLLHDEQYRRSRLQWVTRSAGFRELETAKLGQEMFTPDYVEYFNRLPFKERLNTLPELDGLRHGIDSDTLAAIYDALYHRSISGGSPDVYIQPMAELEKIEKQNGRCVLSFHQWQMDETFTADSEKVILATGFKPHIPEWFTAIAPDIEWEDEKRFKVTADSRLIFKDDRRHHFFTLTNLDHAHGTGATNLKLSVYRNQKIINTILGKEHFSINKKTAFQQFLPAQKN				NA	NA	NA	NA	NA
D1-12_00132	1215	khtU	COG0475	K(+)/H(+) antiporter subunit KhtU	ATGGACCATCTCGTATTTGAAGTCGGTACGGCGTTAGTTCTTGTGGCCATTGCGAGTGTCATCGCCAATAAAATTAAATTCTCGATCATTCCCTTCCTGATCATTTTAGGAATGCTTGTCGGGCCGCACGCGCCCCAAGCGGGCATCATTGACCTGACGTTTATCGAAAGCCGGGAAGTGATTGAATTTTTCGGACGGATGGGCGTCCTGTTCCTCCTCTTTTACCTCGGGCTTGAATTCTCGGTCGGAAAATTAGTCAAATCCGGACGTTCAATCGCCGCCGGCGGAACGATTTATATTCTGATTAATTTCAGTTTAGGGCTGATCTACGGCTTTATCACGGGCTTTTCCTTTTTGGAAGTGCTTGTATTGGCGGGTGTCATCACGATATCATCAAGCGCCATTGTCGCAAAGGTGCTTGTCGACTTAAAGCGCACGGCCAATCCGGAAACGGAGCTGATTCTCGGCATCATTATGTTTGAGGATATCTTTCTGGCGGTTTACTTGTCCGTCGTCTCCGGGCTTGTTCTGGGAGACGCGACGTCTGTCGGAGGCGCGCTGATGTCAATCGTGATCGCTTTCGGATATATGCTGCTGTTTTTCATTGCCGCCCGAAAATTGCCGCCTCTGCTGAACAAGCTGCTTGATATCCGTTCAAACGAGGTATTTGTCATCGTCATTTTCGCCGCGCTCTTTTTCATTGCCGGCTTTTCCGAAACGATTCATGTCGCTGAAGCGATCGGCGCGCTCTTGCTCGGACTCGTATTTTCGGAGACGGCCCATTCTGACAGGATTGAGCATCTTGTCGTGCCGTTCCGTGACTTTTTCGGGGCCATGTTTTTCTTCAGCTTCGGTCTCAGCATTGATCCGTTTTCACTCGGAGATGCGGTATGGCTTGCCCTCGGCGCCGTTCTGCTGACGATTGCCGGAAACTTTATCGCCGGCATGATCGCCGGACGCCGGGCGGGGCTTTCTCATAAAGCATCGTCTAATATCGGGCTGACCATTGTGTCACGCGGCGAATTCTCCATTATCGTCGCAAATCTCGGCATCGCCGGCGGCCTGTCCGCTTCACTTAAACCTTTCGCCGCCTTATATGTTTTAATACTGGCCATCTTCGGCCCTTTGCTCACGAAAGAATCGAAGCGGATATATCTCCTGTTGAACAGCGTGTTCAAATGGAAGACGCCTGAAAAGAAGCCGCAGAAATCATAA	MDHLVFEVGTALVLVAIASVIANKIKFSIIPFLIILGMLVGPHAPQAGIIDLTFIESREVIEFFGRMGVLFLLFYLGLEFSVGKLVKSGRSIAAGGTIYILINFSLGLIYGFITGFSFLEVLVLAGVITISSSAIVAKVLVDLKRTANPETELILGIIMFEDIFLAVYLSVVSGLVLGDATSVGGALMSIVIAFGYMLLFFIAARKLPPLLNKLLDIRSNEVFVIVIFAALFFIAGFSETIHVAEAIGALLLGLVFSETAHSDRIEHLVVPFRDFFGAMFFFSFGLSIDPFSLGDAVWLALGAVLLTIAGNFIAGMIAGRRAGLSHKASSNIGLTIVSRGEFSIIVANLGIAGGLSASLKPFAALYVLILAIFGPLLTKESKRIYLLLNSVFKWKTPEKKPQKS	PGPT0014395_3737	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
D1-12_00133	498	khtT_1	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGAATATTAAAGAAAACGATCTGCCCGGCATCGGGAAAAAATTCGAAATCGAAACGAGAAATCATGAAAAAATGACAATCATCATTCATGATGACGGCAGGCGGGAAATTTACAGATTTGATGACCGCGACCCTGATGAGCTTCTGGCAAGCATTTCACTTGATGATGCGGAAGCAAGACAAATTGCCGCGATTATCGGCGGGATGGTGTATAAACCGCAGGCGCTTGAATCGATTGAAATGGCGTTCAACGATCTGATTATCGAATGGTTTAAAGTTGAAAAAGGGGCAAAAGCGGCAGGGCGGACGCTCGGCGAACTGGATGTGCGCCAGAACTATGACGTGACGGTCATCGCCATCATTAAGCATAACCAGAAAAAGCTTTTAAACCCGGGCGCTGATTCGCTCCTTGAAGCAAACGATACACTCGTCCTCTCAGGTGAAAGAAAGCATCTGAAGAAACTGATCCAAGACTTCCTCTCCAGAGACGGAGTGTGA	MNIKENDLPGIGKKFEIETRNHEKMTIIIHDDGRREIYRFDDRDPDELLASISLDDAEARQIAAIIGGMVYKPQALESIEMAFNDLIIEWFKVEKGAKAAGRTLGELDVRQNYDVTVIAIIKHNQKKLLNPGADSLLEANDTLVLSGERKHLKKLIQDFLSRDGV				NA	NA	NA	NA	NA
D1-12_00134	354			hypothetical protein	ATGAAATATGTGATACTCAGCTTGTTACTGAGCTTTTTTATGGTGCTGTTCCCCCCTTCGGATGTCGCTCTTCCTTCCCAATTGGTGACAGAAACAGACAGCCATGTACAAATTTCGGTTTACCCGCAGGAAACGGATTCGGCAAAGACGCCGGTTCAAACCAAAACCGCTCCGCAAGGCCTGTCAAAAGGATACGGTGCGTTATCCCGGATGATCTCCCTGTTATCTGTCAAACCTCTTGATCAATTCATTGATTCCACAATGGAAAGGACATGCGCCATTCCGATACAATACCAGTCAAATTACCTCCGGCATCGGACCATTTCTCATTGCCAATCTGTATTTACGGTGTAA	MKYVILSLLLSFFMVLFPPSDVALPSQLVTETDSHVQISVYPQETDSAKTPVQTKTAPQGLSKGYGALSRMISLLSVKPLDQFIDSTMERTCAIPIQYQSNYLRHRTISHCQSVFTV				NA	NA	NA	NA	NA
D1-12_00135	768	paaF	COG1024	2,3-dehydroadipyl-CoA hydratase	ATGCAGTATATTCGTTATGAAGAAAAGGGAAAGATCGCGGAGATTGTGCTGAACCGGCCTGACAGTTACAACGCGCTGAATGAACAAATGCTCCGGGAATTGGAAAATGCATGCGTGATGGCAGCCGACAGTGAGGCGCTTATCGTGCTTTTACGGGGGGAAGGCCGGGGATTTTCCGCGGGCGGTGATATTCAGATGATGACGTCTGATCATGATTCAGGAGAATATGAACGGCTCATGAAAATGATCGAATCCATTACGCTGACCCTCTATGATATGAAAAAAATTGTGATTGCCGCCATCCACGGAGCCGCGGCCGGGCTCGGGCTGAGTTTCGCGCTGTGCGCCGATGTGGTGCTCGCCGAAGAAAACGCCCGCCTCGCGATGAATTTCATCGGCATCGGATTGGTTCCCGATGGAGGAGGCCATTATTTATTAATGAGACGCGTCGGTGAGATCGAAGCGAAAAAACTGATTTGGAGCGGTGAAAAATTGCCGGCTGAAAAAGCGGTGCGGCTCAAGCTTGCCGATGGGCTGTTCAGCGGCGGCCCTAGTGAGGGGGCACAACCGTATATCGACCGATTGCTGCATGCGCCGCTGTCAGCGATGATTGAAACGAAGGCTATTTATCAGAGCCTCCATATCAGCCGGTTAAAAGACGTTTTGTCTCTTGAACGAAAGGCCCAGGAAAATATGAGAAAAACGGATGATCATAAAGAGGGCATCCGCGCCTTTTTAGAAAAACGGACGCCGCAATTTAACCGGTAA	MQYIRYEEKGKIAEIVLNRPDSYNALNEQMLRELENACVMAADSEALIVLLRGEGRGFSAGGDIQMMTSDHDSGEYERLMKMIESITLTLYDMKKIVIAAIHGAAAGLGLSFALCADVVLAEENARLAMNFIGIGLVPDGGGHYLLMRRVGEIEAKKLIWSGEKLPAEKAVRLKLADGLFSGGPSEGAQPYIDRLLHAPLSAMIETKAIYQSLHISRLKDVLSLERKAQENMRKTDDHKEGIRAFLEKRTPQFNR	PGPT0006070_2841	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
D1-12_00136	186			hypothetical protein	ATGGGACAATATGTATTGACCGCATTCCATGCGTCGGGAGAAACGCTGCTGAATGAACGGATCGAAGCGGATAATGAGGCGGAGGCGAAGGCCGCCGGAGAGGCTTTATTGAAGGAAAAAAAGCTTGAGAACAGTACTCATCGCTTGGTAAATGAAGCCGGAAAGCTGATTTTATTCCACAGATAA	MGQYVLTAFHASGETLLNERIEADNEAEAKAAGEALLKEKKLENSTHRLVNEAGKLILFHR				NA	NA	NA	NA	NA
D1-12_00137	897	btuD_1		Vitamin B12 import ATP-binding protein BtuD	GTGCTTACAATTGAAAACGTAACGAAAACATTCGGCAGCTTTACCGCTGTTGACAATTTGAACCTGCAAATACCTGAAAGGGAAATGTTCGGGCTGCTCGGCGCAAACGGCGCGGGAAAAACGACGACCTTTCGGATGATTTTAGGTCTTTTAAGCCTGACTGACGGGCATATCACCTGGAAAGGGCAGCCGGTCAATTATTCCATCAGTGAAAAAATCGGCTATCTCCCGGAAGAGCGGGGGCTGTATCCGAAAGTGAAGGTGAGTGACCAGCTTGTCTATCTGGCGAGATTAAAAGGAATGGGCAAAAAAGAGGCGGAAAAAGAGCTCATGACATGGCTCGAGCGGTTCGGCATTACAGATTACAAGAATAAGAAAGTCGAAGAGCTGTCGAAAGGAAACCAGCAGAAAATCCAGTTCATTTCGGCCGTCCTGCATAAGCCTGAACTGCTGATTCTCGATGAACCTTTCAGCGGTCTTGATCCGGTGAATGTCGAGCTGCTGAAAGAAGCGGTTATTTCTTTGAAAAACAGCGGCGTTTCTATCGTTTTTTCAAGCCACCGAATGGAGCATGTGGAAGAGCTTTGCGAGAATTTGTGCATTCTCCAGAAGGGAAAACCCGTCGTTCAAGGCAATCTGAAAGACATTAAGCGGTCTTTCGGCAAAAAAAATGTCACCGTTCATTCAGATGATGACCTCAGATTTTTAAAAACGCATGAAGGCGTCGTGAAATGGAAGGAAACAAATGACGGGATCAGACTGCAGGTCGCGAATGAACCGGTTTCTCAGGATATTTTCCGGGCGTTGCAAGGGAAAGGTTTTATACGGAAGTTCGAATTGGAAGAGCCGTCACTGCATGATATTTTTATAGAAAAGGTGGGGGCCGTTTATGAATAA	MLTIENVTKTFGSFTAVDNLNLQIPEREMFGLLGANGAGKTTTFRMILGLLSLTDGHITWKGQPVNYSISEKIGYLPEERGLYPKVKVSDQLVYLARLKGMGKKEAEKELMTWLERFGITDYKNKKVEELSKGNQQKIQFISAVLHKPELLILDEPFSGLDPVNVELLKEAVISLKNSGVSIVFSSHRMEHVEELCENLCILQKGKPVVQGNLKDIKRSFGKKNVTVHSDDDLRFLKTHEGVVKWKETNDGIRLQVANEPVSQDIFRALQGKGFIRKFELEEPSLHDIFIEKVGAVYE	PGPT0006725_15841	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_00138	1260	yhaP	COG1668	putative protein YhaP	ATGAATAAATTTTGGATTATGCTGTTTCATACATACAAAAACAAAATCGCGGCAAAGTCATTCATTATTTCGACCGCCATTACCGTTTTATTGGTATTAGCGGTGACCAACCTGCAATCGATTATTTCCGTGTTTCAATCGGATGACGGCAAGCAGCAGATCGCGGTGATTGATGAAACGGGCGGGCTGTACCCGGCGTTTGCAAAACAGCTTAAAGCGGCGGATACAGACAATGATCTGCAGGCAATGGAGACGAAGGAGTCCGAAAAAGATGCCGTAAAGCGTGTCAAAGACGGTGAATGGGACGGACTGTTTATCATCAGACAAGATCAAAAAGGAACGATAACAGGAGCATACAAGGCGCTGACCATTTCTGATGAATCAGCGTATAAACTGCTCAAGCAGGCTTTAACCCAGACAAAAACCGCTGTCGAAACCGCCAAGCTCGGCATTTCGGCAGAAAAAGTCAGCAGCCTCTACACTCCGCCGGAAGTCAGCAAAGACGCGCTGGAAAAAGGGGCGAAATCTGAGGAAGAGCTCGGTCAGGTAATGGGGCTTGTATACATCATGCTGTTTGTCATCTACTTCTCAGTTATCATGTACGCAAGCATGATTGCGATGGAAGTGGCGACGGAAAAATCGTCACGGGTCATGGAAATTTTAATTTCAAGCATGCCGCCGATTCAGCAGATGTTTGCCAAACTGTTCGGTATCGCGCTCGTGGGGATCACACAGTTTGGGGTGCTGATTGCAGCGGGTTATCTCTCACTGAAGCTGAACCCTCATAATGAGGCGTCGTCGCCGATCAGTGCATTTCTCAACTTTACGGATGTTCCAGTCTCGACGATAGTCTATGCCGTCATTTTCTATTTGCTCGGCTATTTTCTTTACGCGACGCTTGCCGCGTTTCTCGGCAGTGTTGTCAGCCGGATAGAGGACGTACAGCAGACGATTCAGCCGATGGTTTTTTTAGTCGTGGCAGGTTTTATGATCGCCATGTTCGGCATCGGCAATCCTGACGCCGGTTTTATTACCGTTACATCTTACATTCCGTTTTTCACGCCGATGATTATGTTTTTACGCGTCGGGATGCTCGATATCCCGTTTTGGCAGGCTGCGGCCGGAATCGCCCTGACACTGGTCACTATCGTGATCTTTGCGGCGGTCGGCGCGAAAATTTACAAAGGCGGCGTATTGATTTACGGAAACGCCAGCGGATTCAAAGCGATTAAACAAGCGCTGCGCATCTCCAAAAAATAA	MNKFWIMLFHTYKNKIAAKSFIISTAITVLLVLAVTNLQSIISVFQSDDGKQQIAVIDETGGLYPAFAKQLKAADTDNDLQAMETKESEKDAVKRVKDGEWDGLFIIRQDQKGTITGAYKALTISDESAYKLLKQALTQTKTAVETAKLGISAEKVSSLYTPPEVSKDALEKGAKSEEELGQVMGLVYIMLFVIYFSVIMYASMIAMEVATEKSSRVMEILISSMPPIQQMFAKLFGIALVGITQFGVLIAAGYLSLKLNPHNEASSPISAFLNFTDVPVSTIVYAVIFYLLGYFLYATLAAFLGSVVSRIEDVQQTIQPMVFLVVAGFMIAMFGIGNPDAGFITVTSYIPFFTPMIMFLRVGMLDIPFWQAAAGIALTLVTIVIFAAVGAKIYKGGVLIYGNASGFKAIKQALRISKK	PGPT0006730_3119	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_00139	1224	yhaO	COG0420	putative metallophosphoesterase YhaO	ATGACTGATCTGACGTTTATTCATGCCGCTGACCTGCATCTGGACAGCCCGTTTTACGGCATTTCGAATCTGCCTGAACCGGTATATGCGCGTATTAAAGAAAGCACATTTCACAGCGTCCGCCGTCTGACGGACGGGGCACTCCGGGAGCAGGCAGATTTCGTGCTGCTTTCGGGGGATCTGTTTGACGAAGCCAACAGAAGTTTAAAAGCCCAGCTGTTTTTGAGAAAACAGTTTACGAGATTACAGGAAGCGGATATCCAAGTGTTCGTCATATTCGGCAACCATGATCATTTGGGCGGTAAGTGGACGCCGATTGAATGGCCGGAAAATGTACATATCTTCACCTCGGATACACCGGAGGAAAAATCTTTCTTTAAAAACGGAGAGCTTGCGGCAAGCATATACGGATGCAGCTATCAAGAAAGAAGCGTAATGGTCAATCAGGCAGCCCGTTACCGGAAAATGACCGGCGCGCCTTATCATATCGGCATGCTCCACGGCATGTTATCAGGAGCGGAAGGGCATGACCCGTACTGCCCGTTTACGAAAGAAGACCTTGAAAAAAGCGGCATGGATTACTGGGCGCTCGGACACATTCATAAACGGCAGGTTCTGTCCGCCCGGCATCCCGCCGCCATTTACCCCGGGAATATTCAAGCACGGCATTTAAAAGAAACCGGGCCTAAGGGATATTATCTCGTCCGGGCGGCAAACGGTGAGATGTCTTGGGAATTCAAAGAAGCGCATGATGTGTTATGGGAGGAAATTGATCTTGATATCTCCGGAGCTGAACATATGACTTCACTTCTGAAAGCCGCATCGGATACATTCTCCGGCTTGCGCGCGGCGGGCCGCCCGGCATGTGTCAGGCTGGTGCTTCGCGGCGCGGCGCCCCGCTTTTGGACGGAGGCGCCCGCAGGCATCGCGGAGGAGCTTCTTTCCGCTTTACAGGAGGAAGAGGCCGAAGAGGAATGTTTCGTCTGGCCGCTTGCGCTTGAGGATCGGACGGATGAAACAGACACCGTGCCGCCCGATCCGTTTTTTAAAGGGCTCCTTCAGGACATAGAACAATGCGCGGACATGAGCGGTGTATTTGAAGCCCTTGAGCGTCATCCCGTATACCGGCGTCAGATGGCTTCATTTACAGATGAAGAGATACTGGATATTAAGCGGCAGGCTCAAGCCGTTTTAAGACGCCAGATGAAGGAGCTTCAGCGATGA	MTDLTFIHAADLHLDSPFYGISNLPEPVYARIKESTFHSVRRLTDGALREQADFVLLSGDLFDEANRSLKAQLFLRKQFTRLQEADIQVFVIFGNHDHLGGKWTPIEWPENVHIFTSDTPEEKSFFKNGELAASIYGCSYQERSVMVNQAARYRKMTGAPYHIGMLHGMLSGAEGHDPYCPFTKEDLEKSGMDYWALGHIHKRQVLSARHPAAIYPGNIQARHLKETGPKGYYLVRAANGEMSWEFKEAHDVLWEEIDLDISGAEHMTSLLKAASDTFSGLRAAGRPACVRLVLRGAAPRFWTEAPAGIAEELLSALQEEEAEEECFVWPLALEDRTDETDTVPPDPFFKGLLQDIEQCADMSGVFEALERHPVYRRQMASFTDEEILDIKRQAQAVLRRQMKELQR				NA	NA	NA	NA	NA
D1-12_00140	2883	yhaN	COG4717	putative protein YhaN	ATGAAAATAACGGCGATGCATATTTACCAATACGGAAAATTTTCCGACCGAAGTTTTCAGCTGTCAGATTCTTCCGTGCAAGTGATCTACGGGTTAAATGAAGCGGGGAAAACGACATTGATGTCCTTTATCAAAAGCGTGCTGTTCGGTTTTCCGAAATCAAAAAAATACGAACCGAAAAATGGCGGGGTTTACGGCGGCACTGTGGAATTGAAGCATGTCGATCACGGTGCTGTCAAAATCGAACGGACAAAAGGCGCTGCCGAAAAAGTCAGAGTGTATATGGCTTCAGGCGAAATCAAGGACGGAGAATGGCTCAAACAGCTTCTCTCCGATACAGACCGGGCGCTGTACGAAGCGATCTATTCGTTCGATGTATTCGGACTGCAGGAGATTCAAGCTTTTAACCGGGACAAAATCGGCGAGTTTCTCCTGTATTCGAGCTTATTCGGGTCGGAAGCGGCGGCAAAGCTTGACGGGCGGCTGGCAAAAGAACTTGACAGGATGTATAAGCCGAACGGGCGGAACCCCCGCTTAAATCAGGAGTTGGATACATTAAAGCGGTTCAGCGCCCAGCTGAAACAGGCGGAAGCTGCGGAAGCGGGCTATCACAGCCTTCTGGAAGAGAAAAAAAGCGCCGGCGGCCGTTTGCAGGATGCCGAAGCACGATTGAAAGACATAACTGAAGAAATCAAAACAGTAAAATCAGCGATAGAAGCAAAGCCGCTCGCAGACAAAAAAACAGCCTTGGAAAGCGAACTTTCTTCTTATCCGGAAGCATTGAAGCAATTCCCGAAGGACGGAATGCATCAGCTTGAAAAATACGAATCGCATCTCCATCCGAAAGCGGCCCGTCTTGAGGGGCTTCGGGCAAAAGCGGATGAACTCCGGCGGCAGGCTGAGCTGCTCGCTCCAAATGAGGACTTGCTGCAAAAAGAGCGGCAGCTGCAGGAGCTTTCCGGCGAGCAGCATATGTACGAATCGCGCGGCGAACAGCTTGCCGCCATCCAATCACAGATCCGGCAGACATCTGCCCGCGTTTCGTCAGGATTGCAGCAGCTCGGAAGACATGAGGAAGACGGCATTCTTTCACTGAACACCGATTATGAATATGAATGGCGGCTGCAGGAAGCCGTGCAGAGCGCCGGACAGGCAAGAGAAAGAAAGGCACAGCTTGATGCGATGTTCGAACAAGCGCGGCTGGAGCTGGAAGAAGCCGAACGAAAACATGCCGTGACGGCGGAAAACATTTTGGACCCCGCTGTCAGGAAAGAAAAAGAAGCCGCTTTACAATTATATAAGCAAACGGCTGATACAGAAGGAAACGAATGGCAGGCACATGTTCAGCATCTGGAAAAACAGCGCGCCAAACAAAAAAAGCTCTTTCTCGGTGCGGGCATTCTGTTCATTGCGATTTTCGCTATGTTAAAGGAATGGCTGCCCGCCGCCCTTTTTACCGGCGCTCTGCTGCTGTATATGCTGTCCGGCATGCAAAAGCCGTTGCCGTCAGAAAGAGGAGGGCCCGGACACAAGAAAAAGAAGCCGGCGATCTCCAAAGAAGCGGCTGATCTTCTGCAGGAAGAGCTTTGGCGTGACGGCCGGCACCGGCAGCAGCTGATTGCGGATCAAGCCGTGCTTGAACAGAAAGAAGCGGCATATGAAAGAGTCATCCGCCAATATGAAGAATGGGAGGCGGAAATGGCGCCGTTTGAAAAACAGGCGGAACTTTTTATGAAGGAACTGGGGTTTTCAGGAAGTCCTTCCCATCTTCTTGACGCATATCATGTGATGAAAGATGTCAAAAAAGAAATCCTTAACAAGCATGAGCTGACCATTGAAGCGGGCAGGCTGCAAAAGCTGCAAAGAGCTTTTGAGGACCGGGTCAAAAAGCTGAGTCCTTCAGACGGAAGGGAGCTGTCCGTAAAAGAAAGACTGCACGTTTTGCTGGCGCAGGCGGAACGGGCCCGTGAGGAAGCAAAACGAAAGCAGGCGCTCGAAACGGATCTGCTGCATGCACAAGAGCAAATGCGTGAATTAAATGAAGAAGTTCATTACTACGAACAGCAGGTCAAACAGCTTTTCATGGCGGCAGGCGCAAAAAAACGCGAACACTTTTGTGAACTCGCCAGGCTGAATGAAAGCCGCCGGGAAAAAGAGCGGCAGCTGCGCGAAATCAAAACGCACTTGTCCGGCATAGGCGGAAAACAGCTGGAGCCGTACATGAGCCGCACAGTGTCCGAACTTGAACATACAGTCGTTCAGAAGGAAACAGAGAAAAAAACGCTTGAGGAAAAAAGCGCCCAGCTCCGTGAGCAAACCGCTTTATTAACGGTGAAGCAAGAGCAGCTGGAGTCCTCGGGGCTTGTATCCGATTTAAAACATCAGACAGAAATGCAGAAGGAGCGCGTGAAAAAAACCGCTAAAGAGTGGGCCGCATTACAGACGGTCAGACACATTATCAGGGAAAAAATGGAGCGGCATAAAAAAGTGACGCTTCCCCGTCTGTTAGAAACCGCCGGTGCATTATACGGACCGCTTACGGACGGACGCTATCACAAATTGTATTTTTCCGAGGCTGATGATTCTATTATGGTCATGCGGAAAGACGGAACGGTGTTTTCTGCAGGCGAACTGTCACAGGCGGCATGCGAGCAGCTTTATGCGGCGATTCGTTTTGCCCTTGCGTCAGAGAGGGAGTCTGCGGTATCACTGCCGTTTTTACTTGATGACAGTTTTGTCCATTTTGACAGGCAGCGGCTGCAGCGGCTGTTTGATGTGCTGAATCAGCTTTCAGAAGGCGGGCGGCAGATACTTTATTTCACCTGCCATGAGCATGTCAGCCGGTCTTTTCACAGCGGACAAGTCATGCGGCTCCTGTCATAA	MKITAMHIYQYGKFSDRSFQLSDSSVQVIYGLNEAGKTTLMSFIKSVLFGFPKSKKYEPKNGGVYGGTVELKHVDHGAVKIERTKGAAEKVRVYMASGEIKDGEWLKQLLSDTDRALYEAIYSFDVFGLQEIQAFNRDKIGEFLLYSSLFGSEAAAKLDGRLAKELDRMYKPNGRNPRLNQELDTLKRFSAQLKQAEAAEAGYHSLLEEKKSAGGRLQDAEARLKDITEEIKTVKSAIEAKPLADKKTALESELSSYPEALKQFPKDGMHQLEKYESHLHPKAARLEGLRAKADELRRQAELLAPNEDLLQKERQLQELSGEQHMYESRGEQLAAIQSQIRQTSARVSSGLQQLGRHEEDGILSLNTDYEYEWRLQEAVQSAGQARERKAQLDAMFEQARLELEEAERKHAVTAENILDPAVRKEKEAALQLYKQTADTEGNEWQAHVQHLEKQRAKQKKLFLGAGILFIAIFAMLKEWLPAALFTGALLLYMLSGMQKPLPSERGGPGHKKKKPAISKEAADLLQEELWRDGRHRQQLIADQAVLEQKEAAYERVIRQYEEWEAEMAPFEKQAELFMKELGFSGSPSHLLDAYHVMKDVKKEILNKHELTIEAGRLQKLQRAFEDRVKKLSPSDGRELSVKERLHVLLAQAERAREEAKRKQALETDLLHAQEQMRELNEEVHYYEQQVKQLFMAAGAKKREHFCELARLNESRREKERQLREIKTHLSGIGGKQLEPYMSRTVSELEHTVVQKETEKKTLEEKSAQLREQTALLTVKQEQLESSGLVSDLKHQTEMQKERVKKTAKEWAALQTVRHIIREKMERHKKVTLPRLLETAGALYGPLTDGRYHKLYFSEADDSIMVMRKDGTVFSAGELSQAACEQLYAAIRFALASERESAVSLPFLLDDSFVHFDRQRLQRLFDVLNQLSEGGRQILYFTCHEHVSRSFHSGQVMRLLS				NA	NA	NA	NA	NA
D1-12_00141	945	yhaM	COG3481	3'-5' exoribonuclease YhaM	ATGGCAAAAGGTATTATGCTGCACGAGGTCGGCGAGCAGGTCGATCAATACTTTCTGATTAAATCTTCGACTAAAGGAATCGCAAGCAACGGAAAACCATTCCTGACGTTAATGCTGCAGGACCAATCGGGAGATATCGAAGCGAAGCTGTGGGATGCCAAGCCGACTGATGAAGTAACGTACGCGGCGCAGACGATCGTGAAGGTGATCGGAGATGTCCATCACTATCGCGGACGAAACCAGCTTAAGTTGAGAAACATCCGGCCGGCCGGCGAGAACGAAAATGTCAGCATTGATGATTTTCTGGAAACGGCGCCAATTCCGAAAAATGAAATGATGGAAACCGTCACTCAATACATTTTTGAAATGAAAAATCCAAACATCCAGCGGATCACAAGACATCTGGTCAAAAAATATGCGGCTGAGTTTATGGATTACCCGGCTGCGGCTAAAAACCACCATGAGTTCGTCTCCGGGCTCGCGTATCATGTAGTGTCCATGCTGAACCTGGCAAAAGCGATTGCCGATCTGTATCCGTCTCTTGACCGGGATTTACTGTATGCCGGAGTCATTCTGCATGATCTCGGCAAAGTAAAAGAGCTTTCAGGCCCCGTCTCCACAACGTACACCGTGGAAGGGAATCTGCTCGGGCACATTTCGATCATGGTGACAGAGCTTTCAAAAGCAGCCGAAGAGCTTCAGATTGACGCTGAAGAAGTGCTGATTCTGAAACATTTGATTTTAAGCCATCACGGAAAAGCGGAATGGGGAAGCCCGAAACCGCCGATGGTGAAAGAAGCGGAAATTCTGCACTACATTGATAATCTGGATGCAAAAATGATCATGATGGACAGAGCGCTGGAACGGGTGAAGCCGGGCGAATACACAGAGCGTGTATTTGCGCTTGAAAACCGTTCTTTCTACAAACCGACTTTCCATCAATAA	MAKGIMLHEVGEQVDQYFLIKSSTKGIASNGKPFLTLMLQDQSGDIEAKLWDAKPTDEVTYAAQTIVKVIGDVHHYRGRNQLKLRNIRPAGENENVSIDDFLETAPIPKNEMMETVTQYIFEMKNPNIQRITRHLVKKYAAEFMDYPAAAKNHHEFVSGLAYHVVSMLNLAKAIADLYPSLDRDLLYAGVILHDLGKVKELSGPVSTTYTVEGNLLGHISIMVTELSKAAEELQIDAEEVLILKHLILSHHGKAEWGSPKPPMVKEAEILHYIDNLDAKMIMMDRALERVKPGEYTERVFALENRSFYKPTFHQ				NA	NA	NA	NA	NA
D1-12_00142	228	yhaL		Sporulation protein YhaL	GTGCTATTTTTTCCTTGGTGGGTATACCTTTGCATTATCGGAATTATTTTCAGCGCATATAAGCTTTTCACAACAGCTAAAGAAGAGGAAAAGCTTGACCAGTCGTTTATTGAAAAAGAAGGAAGGGTGTATATTGAACGGATGGAACAGGAACGCGAGCGCCGTATGGCTGCGCCCGCAAGTGAAAACGGGGATGCGGAAGAAAACTCCAATCATTCCATCGCATAA	MLFFPWWVYLCIIGIIFSAYKLFTTAKEEEKLDQSFIEKEGRVYIERMEQERERRMAAPASENGDAEENSNHSIA				NA	NA	NA	NA	NA
D1-12_00143	852	prsA	COG0760	Foldase protein PrsA	ATGAAGAAAATCGCGATAGCAGCTATTACGGCAACGAGCGTCCTGGCTCTCAGCGCTTGCAGCAGCGGCGACAACGACGTAATCGCCAAGACAGATGCCGGAAATGTAACAAAAGGCGAGCTCTACACGAACATGAAAAAAACCGCGGGTGCAAGTGTGCTGACACAGCTCGTACAAGAAAAAGTATTAGCAAAAAAATACAAAGTAACGGATAAAGAAATCGATAACAAGCTGAAAGAGTACAAAACGCAGCTCGGCGATCAGTACAGCGCCCTTAAACAGCAGTACGGCGAAGATTACCTGAAAGATCAGGTGAAGTACGAACTGCTTGCACAAAAAGCGGCGAAAGACAACATCAAAGTGACTGATGCTGATACGAAAGAATATTACGACGGCTTAAAAGGTAAAATCCGTGCGAGCCACATCCTTGTCGCTGACAAAAAGACAGCTGACGAAGTGGAGAAAAAGCTGAAAAAAGGCGAGAAGTTTGAAACGCTTGCGAAAGAATACTCAACTGACACATCAAAAGACAGCGGCGGCGACCTTGGCTGGTTCGATAAAAAGTCAATGGATGCAACATTCAGCAAAGCTGCATTCGGCCTGAAAGTCGGACAAGTCAGCGATCCGGTCAAAACAAAATTCGGTTATCATATCATCAAAAAGACGGAAGAACGCGGCAAATATGATGACATGAAAAAAGAACTGAAAGAAGAAGTTCTTAAACAGAAATTAAACGACAACTCAGCTGTACAGGCAGCGATTCAAAAAGTCATGAAAAAAGCTGACGTAAAAGTTGAAGACAAAGACTTAAAAGACACGTTTAACACTTCAACATCTTCTGAATCTAAATAA	MKKIAIAAITATSVLALSACSSGDNDVIAKTDAGNVTKGELYTNMKKTAGASVLTQLVQEKVLAKKYKVTDKEIDNKLKEYKTQLGDQYSALKQQYGEDYLKDQVKYELLAQKAAKDNIKVTDADTKEYYDGLKGKIRASHILVADKKTADEVEKKLKKGEKFETLAKEYSTDTSKDSGGDLGWFDKKSMDATFSKAAFGLKVGQVSDPVKTKFGYHIIKKTEERGKYDDMKKELKEEVLKQKLNDNSAVQAAIQKVMKKADVKVEDKDLKDTFNTSTSSESK				NA	NA	NA	NA	NA
D1-12_00144	531			hypothetical protein	ATGAATTGCTGGAAAACCATTAATCTGATCAAAGATTATGGTGCGGTTCGTTTATTATTGACTGCTGTAGGTTTTATGATCCTGTTTTTTATATGCAACTTCTTGGCATTCGGGCTGCTGCGTCCGAATATCAGTTTAAGTGACGGGCACGTGTTTGCTTTTTGTGTTCTGCTCGTTGTTACTTTATTTGTACATAAAGTCATACATGTCCTGCCGATGATCTGTAAAAAAAGAAAAAAGGAAATGAAAATGTACTTCTTGCGGATGCCGACATGGAAAGGCATACCGAAAACGACGATGCTGATTTCTACGATCAGCCCGTTTTTATTCATTACGCCGTTATTGTTTTATGCCGGACTGGCATTTCCGAGACACGCTCATTACTTTTATATGATTTCGAGCATTCATGCGGGGTATTGCCTGCCTGATCTTCTGTTTGCGCTCCATCTGGTCAAAGCGCCCAAATCATGTCTGATTGACCAGGAATCCGACGGTTTTGATATTTTAGTGAAAAAAGTGCCGGAGTCTTGA	MNCWKTINLIKDYGAVRLLLTAVGFMILFFICNFLAFGLLRPNISLSDGHVFAFCVLLVVTLFVHKVIHVLPMICKKRKKEMKMYFLRMPTWKGIPKTTMLISTISPFLFITPLLFYAGLAFPRHAHYFYMISSIHAGYCLPDLLFALHLVKAPKSCLIDQESDGFDILVKKVPES				NA	NA	NA	NA	NA
D1-12_00145	333	yhaI		putative protein YhaI	ATGGATCAGCGTATCGGGCGTTTAGAATATTACATACAATTGCTGGTGAAAACGGTGGATATGGATAAGTACCCTTTTTATGCGATGATGATTGAAAAAGGGCTGACCGAAGAAGAAGGAGAAGAGGTCGGGCGGATCTGCCGCGAATTGGAGGACGAGCTGGAGTCGCAAAAAGCGCAAGGCTTTGTGACGTTTGACAAGCTCCTTGCGCTTTTTGCGGGACAGCTGAACGAAAAATTAGATGTTCATGAAACGATTTTTGCTTTGTATGAGCAGGGGCTTTATACAGCGCTGATGGAAGAGTTTATTGAGATTATGAAGCACTTTGATTAA	MDQRIGRLEYYIQLLVKTVDMDKYPFYAMMIEKGLTEEEGEEVGRICRELEDELESQKAQGFVTFDKLLALFAGQLNEKLDVHETIFALYEQGLYTALMEEFIEIMKHFD				NA	NA	NA	NA	NA
D1-12_00146	612	hpr	COG1846	HTH-type transcriptional regulator Hpr	TTGAATCGTGTTGAACCGCCTTACGATCTAAAAGAAGCTTTAATCTATACCCAAAAAATGGCGCAGCTGTCCAAAGCGCTCTGGAAATCTATCGAGAAAGACTGGCAGAATTGGCTGAAGCCCTACGACCTTAATATTAATGAGCATCATATATTATGGATTGCCTATCAGCTTAAAGGAGCTTCTATTTCAGAAATCGCCAAATTCGGCGTTATGCACGTATCAACTGCATTTAACTTTTCAAAAAAGCTTGAAGAACGGGGATATCTGAAATTTTCCAAGCGGCTGAATGATAAACGGAACACGTACATTCAGTTAACTGATGAAGGGGAAAATGTATTCGAAAGCCTGCTTGAGGAGTTTGATCCGTCGAGGAACGCGGTGTTTAAAGGCTCACAGCCGATCTACCACTTATTCGGGAAGTTTCCTGAGGTTGAAGAATTAACCTGTGTCATCCGCCACATTTACGGCGAAGATTTTATGGAGATATTCGAGAAATCATTGACAAACATAAACAATGATTTTGAAAGTGAAGACGGAAGGCTGAAGAAAAAAACGGACGAATCGGCTGTCCATGAAACGGCTGAAGAGCTGGAACCGATCAACAGTTAA	MNRVEPPYDLKEALIYTQKMAQLSKALWKSIEKDWQNWLKPYDLNINEHHILWIAYQLKGASISEIAKFGVMHVSTAFNFSKKLEERGYLKFSKRLNDKRNTYIQLTDEGENVFESLLEEFDPSRNAVFKGSQPIYHLFGKFPEVEELTCVIRHIYGEDFMEIFEKSLTNINNDFESEDGRLKKKTDESAVHETAEELEPINS	PGPT0012755_29	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012755-scoC|hpr-K09682	NA	NA
D1-12_00147	366			hypothetical protein	GTGATTCAAATGGCTGACGGACGTTCCCTTTTAACAGGCCTTTTCGTAGGCGGATTGATCGGAGGCGCAGCGGTGTTACTCTCGGCTCCTTCATCCGGAAAAGAGCTGCGGGGCAAAATCAAAGAGAATTGCAATTCAATTGAGGACACAATCAAACGGTTAAAAAAAGACGGAATGGCGCTTAAGGACCAGCTTGTCCAAACGGCGAAAGAAAGCGCAGAAGTCATTAAAGACGTAGGCGGAGAGCTTCAGACCAGCATTAAAAGGTGGCAGGAGGAAATCAAGCCGCACCAGCAGGATCTCCAAAAGGAAATCGCTGATATCGAAGAGAAAATCAGACAGCTGGAGAAAACCTTACAAAACTAA	MIQMADGRSLLTGLFVGGLIGGAAVLLSAPSSGKELRGKIKENCNSIEDTIKRLKKDGMALKDQLVQTAKESAEVIKDVGGELQTSIKRWQEEIKPHQQDLQKEIADIEEKIRQLEKTLQN	PGPT0015027_236	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA	NA	NA
D1-12_00148	180			hypothetical protein	ATGATTGTTTTATCTTGTATGGCTCTTGTCTTTGCGGCGGGCGCCGTTTATTACCTGAAACTGCTCGGCCAGGCCGCTTCTTATCCGCCGAAGCGGGTCGTCCGCCAAAAGGCCATCGTCTGCTCAGCAGGAACCGCCCTCGCATTGTTCCTTATCTTTTTCACAAAACTTCTCGTATAA	MIVLSCMALVFAAGAVYYLKLLGQAASYPPKRVVRQKAIVCSAGTALALFLIFFTKLLV				NA	NA	NA	NA	NA
D1-12_00149	519	trpP		putative tryptophan transport protein	ATGAAAACAAAAGAATTAGTCATTATGGCCCTGTTTGCGGCAATCGGAGCGGTGCTTCATTCCATTATGCCGCCGGTATTATTCGGAATGAAACCCGATATGATGCTTGTGATGATGTTTATGGGTATTCTGTTATTCCCCCGTGTGCAGAACGTACTGATGATCGGGATTGTAACGGGAATCATTTCCGCACTCACGACATCTTTTCCGGGCGGACAGCTTCCGAATATCATTGAAAAACCGGTAACGGCGTTTCTGTTTCTCGCGCTGGCGCTTTTGGTGAAAAAGAGCGTGAAAACAGCGGCCGCCGCCGTCATTACGATAGCCGGCACCTTCATCTCCGGTTTGCTCTTTTTGGCGCTGGCCCTTCTGATTGTCGGCCTGCCGGGCGGATTCACCGCCTTGGTGCTCGCGGTCGTCCTTCCGGCGGCTGCGCTGAACGCGATCGCCATTATCATTATGCATCCGATTGTGCAAACGATCTTAAAACGGTCCAATATGATTGAAACGGTGAAATAA	MKTKELVIMALFAAIGAVLHSIMPPVLFGMKPDMMLVMMFMGILLFPRVQNVLMIGIVTGIISALTTSFPGGQLPNIIEKPVTAFLFLALALLVKKSVKTAAAAVITIAGTFISGLLFLALALLIVGLPGGFTALVLAVVLPAAALNAIAIIIMHPIVQTILKRSNMIETVK				NA	NA	NA	NA	NA
D1-12_00150	1080	serC	COG1932	Phosphoserine aminotransferase	ATGGAACGTACAACGAATTTCAATGCAGGACCCGCAGCCCTTCCACTGGATGTGCTGCAAAAAGCACAAAAAGAATTTGTCAACTTCAATGATACCGGCATGTCCGTCATGGAGCTGTCCCACCGGAGCACGGAATATGATGCGGTGCACCAAAAAGCCAAAAGCCTTCTGAAAGAACTGATGGATATTCCCGACGATTATGATATTTTATTTCTTCAAGGCGGCGCAAGCCTTCAATTCTCCATGCTGCCGATGAACTTTTTAACACCGGAAAAAACGGCGCACTTCATCGTAACAGGCGCATGGTCTGAAAAAGCACTCGCCGAGGCGAAACTGTTCGGAAACACATCCGTCACGGCAACAAGCGCAGATTCAAACCACAACCACATACCGGAAGCGGACCTCTCAGGAATCAAAGACGGCGCCTACCTGCATATTACGTCAAACAACACGATTTTCGGAACGCAGTGGAAAGAGTTCCCGAATTCACCGATCCCGCTCGTAGCCGACATGTCAAGCGACATCCTGAGCAGAAAAATTGATGTCAAAACGTTTGATGTTATCTATGGCGGAGCCCAGAAAAACCTCGGGCCGTCCGGCGTCACGGTCGTCATCATGAAAAAATCATGGCTTGAAAACGAAAACGCCAACGTCCCTAAAATTTTGAAATACTCCACTCACACAAAAGCCGACTCACTGTATAATACGCCGCCTACATTTGCGATTTATATGCTGAGCCTCGTCCTTGAATGGCTGGCTGAAAACGGCGGTGTCGAAGCGGCTGAACGGCGCAATCAGGAAAAGGCCGATGTCCTGTACGGCACAATCGACGCAAGCGGCGGGTTTTACGCGGGGCATGCCGCAAAAGACAGCCGTTCTCACATGAACGTCACGTTCACCCTCCGCGACAGCAGTCTCACGAAAAAATTCGTTGAAGAAGCGAAAGCGGCTAAAATGATCGGACTCGGAGGCCACCGCTCAGTCGGAGGCTGCAGGGCGTCTATCTACAACGCCGTCAGCCTGGCTGATTGTGAAAAACTGGCTCAGTTTATGAGAAAGTTCCAGCAGGAAAACGAATAA	MERTTNFNAGPAALPLDVLQKAQKEFVNFNDTGMSVMELSHRSTEYDAVHQKAKSLLKELMDIPDDYDILFLQGGASLQFSMLPMNFLTPEKTAHFIVTGAWSEKALAEAKLFGNTSVTATSADSNHNHIPEADLSGIKDGAYLHITSNNTIFGTQWKEFPNSPIPLVADMSSDILSRKIDVKTFDVIYGGAQKNLGPSGVTVVIMKKSWLENENANVPKILKYSTHTKADSLYNTPPTFAIYMLSLVLEWLAENGGVEAAERRNQEKADVLYGTIDASGGFYAGHAAKDSRSHMNVTFTLRDSSLTKKFVEEAKAAKMIGLGGHRSVGGCRASIYNAVSLADCEKLAQFMRKFQQENE	PGPT0009160_3848	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
D1-12_00151	438	hit	COG0537	Protein hit	ATGCACAAAGCGGACGATTGTATTTTCTGCAAAATCATTGCCGGTGACATTCCGTCTTCAAAAGTATACGAAAATGAACACGTCGCAGCGTTTCTTGATATCAGCCAGGTCACAAAAGGCCATACGCTCGTGATTCCGAAAACACATATCGAAAACGTGTACGAGTTTACGCCTGAGCTTTCTAAAGAATATTTTGAAGCGGTGCCGAAAATCGCACGCGCCATCCGCGATGAATTCGAGCCGATCGGGCTGAATATTCTCAATAACAACGGTGAAAAAGCGGGCCAATCGGTGTTCCATTTTCACATGCATATCATTCCGCGTTACGGAAAAGGCGACGGTTTCGGGGCTGTCTGGAAACCCCACGCCGAAGACTATACGCCTGACGATCTTCAGGAGATCGCTTCAACCGTCAGAAAACGGCTTGCCTCATCTTAA	MHKADDCIFCKIIAGDIPSSKVYENEHVAAFLDISQVTKGHTLVIPKTHIENVYEFTPELSKEYFEAVPKIARAIRDEFEPIGLNILNNNGEKAGQSVFHFHMHIIPRYGKGDGFGAVWKPHAEDYTPDDLQEIASTVRKRLASS				NA	NA	NA	NA	NA
D1-12_00152	744	ecsA_1	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGTCTCTGCTATCGGTAAAAGACTTAACCGGCGGTTATACGAGGAACCCGGTCTTAAAAAATGTTTCATTCACCCTTGAGCCGAACCAGATTGTCGGACTCATCGGATTAAACGGCGCGGGCAAAAGCACGACGATCCGGCATATTATCGGATTAATGGACCCGCATAAAGGCTCGATCGAGCTGAACGGCAAGACGTTTTCGGAGGATAAGGAAAGCTACCGCTCGCAATTTACGTACATCCCCGAAACGCCGGTGCTGTATGAAGAACTGACGCTCAAAGAGCATCTGGAGCTGACGGCCATGGCGTATGGCCTTTCCAAAGAAACGCTTGAAAAAAGGCTTCCTCCGCTTCTGAAAGAATTCAGAATGGAAAAAAGGCTGAAATGGTTTCCCGCTCACTTTTCCAAAGGGATGAAGCAGAAGGTCATGATCATGTGCGCGTTTCTCGCGGAGCCTTCGCTTTATATCATTGACGAGCCGTTTCTCGGCCTTGACCCGCTTGCGATCAATGCATTGCTGGAGCGGATGGACGCCGCGAAAAAAGCCGGATCAAGCGTGCTGATGTCAACGCATATCCTGGCTACGGCAGAGCGCTACTGTGACGCTTTCATTATTTTACATAACGGCGAAGTGCGGGCAAGCGGCACACTGGAAGAACTGAGAGAGCAGTTCGGCATGAAAGACGCAGCTCTTGATGACTTGTATATCGAACTGACGAAGGAAGACGCCGGCCATGAATAA	MSLLSVKDLTGGYTRNPVLKNVSFTLEPNQIVGLIGLNGAGKSTTIRHIIGLMDPHKGSIELNGKTFSEDKESYRSQFTYIPETPVLYEELTLKEHLELTAMAYGLSKETLEKRLPPLLKEFRMEKRLKWFPAHFSKGMKQKVMIMCAFLAEPSLYIIDEPFLGLDPLAINALLERMDAAKKAGSSVLMSTHILATAERYCDAFIILHNGEVRASGTLEELREQFGMKDAALDDLYIELTKEDAGHE	PGPT0006725_27934	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_00153	1227			hypothetical protein	ATGAATAATATGTCTACTATTTGGCAGTCCCGGCTTGAAGAGCATATAAAGGAAACCAGAATGTATATGAAATATATGCTCAATGATCATCTCGTCATTGTGCTGATCTTTTTTATTGCCGGCGCGGCAAGCTGGTACAGCAAGTGGGTCAAAGACATTCCCGTTCATTTTCCGTCATTTTGGGTGATGGCGGTGCTCTTTTCATTTGTGCTGACCGGTTCATACGTCCGGACGCTGTTAAAGGAAGCGGACCTCGTGTTTCTGCTGCCGCTTGAACCGAAAATGGGGACATACTTTAAGCATTCATTTAAGTACAGCTATCTGTCACAGCTGTTTCCGCTTATTGCCCTGTCGCTTGTATGCATGCCTCTGTTTTTCGCTGTAAGTCCGGGGGCGTCGCTTGCGTCGTATGCCGCCGTATTTATTCAGATGCTGGCGGTAAAAGCGTGGAATCAGGCCATGGAGTGGCGGATGACGTTTATGAATGACAGAAGCATGAAAATGATGGATGCGGTCATACGCTTTATCTGCAATATGCTGCTTTTATACTTCGTCTTACAGTCGTTTTATGTGTACGCTGCCGCCGTCTACATTGTGATGGCCGGCCTTTATGTGTATTTCACATCGGCCGCAAAACATAAATCATTAAAATGGGAAGCCCATATTGAATATGAATTAAGAAGGAAGCAGCGATTTTACAGAATCGCCAATCTGTTTACCGATGTGCCTCACCTGAAGAAACAGGCAAAACGCCGGGCGTATCTCGACTTTTTGCTCAGAATGATTCCGTTTGAACAGCGGAAAACGTTCTCCTATATGTATGCGCGGGCTTTTCTGCGTTCAAATGATTATCTTGGCATCCAGGTCAGGCTCACGATTATTTTTATCCTGATTATTATGCTCGTTTCCGCCAATCCGTGGATAACGGCGGCGTTAACCGTGTTTACCGTCTTTATTACGGGAATACAGCTTCTTCCGCTGTTCGGGCATTTTCATCATCTGTCGTTACAGGAGCTTTACCCGGTCAATCAGAAAGCGAAGCTGCAAAGTTTCTTTTCGCTGATGAAATCGGCGTTAACCGTGCAGGCGCTGCTGTTTTGTGCAGCGTCAGCCTATGCCGCGGGAGTCAGCGGGGCGCTGTATGCGGCTGTTGCTTCAGCCGTTCTGATTTTTGTGATCATGCCTTCGTATATGGGCGGAAGATTGAAAAAGTACGGCAAGCTGTAA	MNNMSTIWQSRLEEHIKETRMYMKYMLNDHLVIVLIFFIAGAASWYSKWVKDIPVHFPSFWVMAVLFSFVLTGSYVRTLLKEADLVFLLPLEPKMGTYFKHSFKYSYLSQLFPLIALSLVCMPLFFAVSPGASLASYAAVFIQMLAVKAWNQAMEWRMTFMNDRSMKMMDAVIRFICNMLLLYFVLQSFYVYAAAVYIVMAGLYVYFTSAAKHKSLKWEAHIEYELRRKQRFYRIANLFTDVPHLKKQAKRRAYLDFLLRMIPFEQRKTFSYMYARAFLRSNDYLGIQVRLTIIFILIIMLVSANPWITAALTVFTVFITGIQLLPLFGHFHHLSLQELYPVNQKAKLQSFFSLMKSALTVQALLFCAASAYAAGVSGALYAAVASAVLIFVIMPSYMGGRLKKYGKL				NA	NA	NA	NA	NA
D1-12_00154	705			hypothetical protein	ATGACCGACGATCAGCAGCTGATACAGGAAGCACTGCAATGGAAAGCGCGTTTTTTACGCAAAGATTCCATGCTTGAACGCTTTTCTAAAGGAATGCAGTCGAAAATAAATGAGCGGATTCCCGATAAAATTCATGCCGTCATCACAGAAAGTATTAAAAAAATGACCGAAGCAACAATGGCGGGTTCAAATCTGGTGAAAAGCAAGCGGGATACAAACGGTATGACGCTTGCTGAAAAAGATACCCTCGCCAGACAAACCATCGCATCGTACCAAAAGGTCGCGGCAGCTGAAGGTATCGGTACGGGGGCCGGCGGAATTTTTTTAGGGATGGCTGATTTTCCTTTGCTGTTATCCATTAAAATGAAATGTCTGTTCGATCTTGCCTCCATTTACGGCTATGATGTGAAAGACAGGGATGAGCGATTGTTTTTGCTGTTTATTTTTCAGCTGGCTTTCTCAAGCGGTGAACAGCGGAAACGCATATACTCAATGATTGAACAATGGGATTCGAAAAAGCATGATGTCGATTGGAGAGTTTTTCAGCAGGAATACCGCGATTATCTGGACGTGGTGAAATTGTTTCAGCTTTTGCCGGTCGTCGGAGCCGCCGTGGGCGGAGCGGCCAATTATAAACTGCTGTCACAGCTCGGTGAGACGGCAAGGCACGTTTTTCATTTAAGAATCACAGCAGCCGGTACGTAA	MTDDQQLIQEALQWKARFLRKDSMLERFSKGMQSKINERIPDKIHAVITESIKKMTEATMAGSNLVKSKRDTNGMTLAEKDTLARQTIASYQKVAAAEGIGTGAGGIFLGMADFPLLLSIKMKCLFDLASIYGYDVKDRDERLFLLFIFQLAFSSGEQRKRIYSMIEQWDSKKHDVDWRVFQQEYRDYLDVVKLFQLLPVVGAAVGGAANYKLLSQLGETARHVFHLRITAAGT				NA	NA	NA	NA	NA
D1-12_00155	1188			N-acetyldiaminopimelate deacetylase	TTGACGTTAACAACACTTCAAAAAAGCTTAAACGCTCAGCTTGACGGGCTGTATGAGGAAATGGTTCAAATCAGGCGTCACCTTCACATGAATCCCGAGCCATCGTTTAAGGAGAAAAAAACACCGGCGTTCATCGCCTCATTTTATGAAAAGCTCGGCGTTCCCATCCGGACGAATGTCGGGGGCAACGGTGTCACAGCCTATATTGAAGGCAGTGAACCGGGACCGGCCGTGGCACTCAGAGCTGATTTTGACGCTTTGCCGATACAGGATGAAAAAGATGTGCCCTATGCTTCACAAATTCCCGGCGTCATGCACGCCTGCGGGCACGACGGCCATACGGCGGCTCTGCTCGCGGTCGGAAAAGTGCTGTACCGCAACCGGGAAAAACTGAAAGGGTCATTTGTGATGATCCACCAGCACGCCGAAGAATTATCTCCCGGCGGAGCAAAAGCAATGATTGAGGATGGCTGCCTCAAACATGTCGATGCCATTTTTGGCACTCACCTTTGGGCGACTGAACCCGTCGGGACGGTCTTATGCCGTCCGGGCGCAGTGATGGCCGCCGCTGACGGCTTTACGATAAAAGTCATCGGCAAGGGCGGCCACGGCGCGATTCCTCACGATACGAAGGACGCCGTTTTAATCGGCTCACAAATTGTCACGGCTCTTCAGCATATCGTCAGCCGGCGGGTGAATCCGGTGCAGCCGGCCGTCATCTCAGCCGGCTCGTTCACCGCTGAAAATCCGTTTAATGCGATTGCCGATCAGGCAGTCATATCAGGCACCGTCCGCTCGTTTGACGAAAGTGTGCGCAGCCTGCTCGAAGCAGAAATAGAAGCCGTCGTAAAAGGAATCTGTTCCATGCACTCCGCTTCCTATGAATATCGTTTCAAGCGCGGTTATCCCGCCGTCGTTAATCATCCTGAGGAAGCAGCGCACGCGGCGGCAGCCGCAGCGGAAACAGACGGCGTCACGAAGGTCGTTGAAGGAGAGCCGCAGATGGCCGGAGAAGATTTTTCTTATTATTTGCAGCATACAAAAGGCGCTTTTTTCTTTACGGGGGCCGCTTTAGAAAATGCGGAAACCATTTATCCTCATCACCACCCGAAATTTGATTTTAATGAGAAAGCGATGCTGACGGCCGCCAAGGTGCTTATCGGCGCTGCGGTAAGCTACCCCCGCTGA	MTLTTLQKSLNAQLDGLYEEMVQIRRHLHMNPEPSFKEKKTPAFIASFYEKLGVPIRTNVGGNGVTAYIEGSEPGPAVALRADFDALPIQDEKDVPYASQIPGVMHACGHDGHTAALLAVGKVLYRNREKLKGSFVMIHQHAEELSPGGAKAMIEDGCLKHVDAIFGTHLWATEPVGTVLCRPGAVMAAADGFTIKVIGKGGHGAIPHDTKDAVLIGSQIVTALQHIVSRRVNPVQPAVISAGSFTAENPFNAIADQAVISGTVRSFDESVRSLLEAEIEAVVKGICSMHSASYEYRFKRGYPAVVNHPEEAAHAAAAAAETDGVTKVVEGEPQMAGEDFSYYLQHTKGAFFFTGAALENAETIYPHHHPKFDFNEKAMLTAAKVLIGAAVSYPR				NA	NA	NA	NA	NA
D1-12_00156	1386			hypothetical protein	TTGGGGATCGGCGTCTACTCGGTACATCTGCTTTATGTTGCTTTTATCGCGGCCATTATCGTTTTTATGCTTCTCAGAAAAGATACAACCTTTATTTCACTCGCCGGCATTTTTGTGATTGCGCTATGGACGACGCATTCATTCTCCGCTTCGGTCAGCAGCCTGTTTCACAGCTTCACGTATGCCGCCGGAGAATTGCTGCCGACGATTTTTATCATTTGTTTTATCGTGGCGATGAGCGGCCTCTTGACCGAAACCGGTATTAATGAAGCGATGATTTCTCCGTTTGCAAAGCTGATGAAAGGGCCGGCTGTCGCGTATTGGGTTATCGGCTGTCTGATGTTTGCCATCTCTCTTTTTTTCTGGCCGTCACCCGGGGTGGCGCTGATCGGCGCTGTGCTGCTTCCCGCAGCGATCCGGGCGGGCCTTTCTCCGATCGCCGCGGCTATGGCGATGAACCTGTTCGGCCACGGATTCGCTTTATCGGGGGATTACGTCATTCAGGCGGCCCCGAAATTAACGGCCGATGCCGCGGGCATTCCCGTGGGCGATGTCATGCAGGCAAGTATTCCGCTCGTTTTGATCATGGGGTTAACGACGACAATCACCGCTTTCTTCCTCATCATGCGGGATCGAAAAAAAACGAAGGCCCCCCTCTCCTTGGACAGCTCCGGTTCTTTGGACACAAGTATGTATCTGCCGAAAAAACTCAGGGTGATCCTGGCGGTTTTCATTCCGCTTGTTTTTCTCGCCGATATTATCTGCATGATTGTATACCGTCTGCAAGGAAACGAGGCGACGGCACTCGTCGGAGGAACCGCGATCGGCATTCTCCTGATCGTTCATTTCATTGTATATAAAGAGCGGCATTTAGAAAAGATCACCGAGTATTTTATCGGCGGTTTTCAATTCGGCTTTAAAGTATTCGGCCCCGTCATTCCGATCGCGGCCTTCTTTTATCTCGGTGACGCGGGGTTTAAAAGTATTTTGAACACCCCGCTGCCGAAAGGATCTGCGGGGATCGTCAATGACCTCGGATTGGCCCTGTCCCATTCTTTTCCGATGTCCGGAGAATTCGCCGGCATCGCCCTGGCAGCAGTCGGTGCGATTACCGGGCTCGACGGGTCAGGGTTTTCCGGTATATCTCTTGCAGGCTCGATGGCAAAGCTGTTTTCTGCCGCGCTTCATACGGACCCGGCCGTTTTAACGGCGCTGGGCCAGATTTCAGCGATCTGGGTCGGGGGCGGAACATTGGTCCCTTGGGCACTGATCCCCGCTGCGGCTATTTGTAAAGTTGACCCGTTTGAGCTTGCCAGGAAAAACTTTATCCCGGTTGCGGCCGGACTTGTCGTCACAACGATCGCCGCCATCATCATTCTCCCGTAG	MGIGVYSVHLLYVAFIAAIIVFMLLRKDTTFISLAGIFVIALWTTHSFSASVSSLFHSFTYAAGELLPTIFIICFIVAMSGLLTETGINEAMISPFAKLMKGPAVAYWVIGCLMFAISLFFWPSPGVALIGAVLLPAAIRAGLSPIAAAMAMNLFGHGFALSGDYVIQAAPKLTADAAGIPVGDVMQASIPLVLIMGLTTTITAFFLIMRDRKKTKAPLSLDSSGSLDTSMYLPKKLRVILAVFIPLVFLADIICMIVYRLQGNEATALVGGTAIGILLIVHFIVYKERHLEKITEYFIGGFQFGFKVFGPVIPIAAFFYLGDAGFKSILNTPLPKGSAGIVNDLGLALSHSFPMSGEFAGIALAAVGAITGLDGSGFSGISLAGSMAKLFSAALHTDPAVLTALGQISAIWVGGGTLVPWALIPAAAICKVDPFELARKNFIPVAAGLVVTTIAAIIILP				NA	NA	NA	NA	NA
D1-12_00157	501	hmoB	COG2329	Heme-degrading monooxygenase HmoB	ATGAAGGTTTATATTACATACGGGACAGCCGATTTTTTAAAGACGATTGCAAAGAAACACCCGAGTGAGAATATGGTGCTGATGCAAGGTGAGGATAATGCGGTTTTAATTCATGAAACAAATGGAGAAACCGTTTTTCAGGCGCCCCATTCCTATGAAAGCATCGACAGCGTCGGGGAAATCAAAAATCCGGGCTACGCCGTCCTCAACAACATCGCCGTTACCCAGGAAGGCCGTCCGCTGTTTGAAAACCGGTTTAAAAACCGCGCCGGCAAAGTGGAAAATGAACCCGGTTTTCAAGCCATCCGCGTATTAAGACCGCTCGAAGGCGATACGTATGTCATTTTGACCCTGTGGAAAGAGGAAAAAGCCTTTCAGGATTGGCAGCAGTCAAACTCTTATCAGGAAGCTCATAAAAAACGCGGAACATCTGCCGGCATCGACACGACGTCTATTTTCTCCCGGCCGTCTTATGTAACCGCTTATTACGCAATAGACTAA	MKVYITYGTADFLKTIAKKHPSENMVLMQGEDNAVLIHETNGETVFQAPHSYESIDSVGEIKNPGYAVLNNIAVTQEGRPLFENRFKNRAGKVENEPGFQAIRVLRPLEGDTYVILTLWKEEKAFQDWQQSNSYQEAHKKRGTSAGIDTTSIFSRPSYVTAYYAID				NA	NA	NA	NA	NA
D1-12_00158	2142	pbpF	COG0744	Penicillin-binding protein 1F	ATGCTGAAAAAGAAAAAAAGATTCTTTATTCCGGCTGTAATTGCGGCGGCAACCGCTTTTCTCGCGTTAATCGGATACATTATCATTATATTTCTCGGCCATTATGTCATCGATGAAAAGAAATTAATACTGCACGCATCTTCAAAAATCGTCGATCAAAACGGTGATGAAATCGCGAGCCTCTATACGGAAAATCGCGAGCCGGTATCCATTCAGCAGGTTCCGGAAGATGTGAGAGATGCCTTTATCGCCGTTGAAGATAAACGGTTTTACGAACATCACGGCATTGATGTGAAGTCTGTCGGCCGGGCGGTGTTCCGGGATGTTTTAGCAGGCGGCAAGGTGGAAGGCGGAAGCACGATCACCCAGCAGCTGGCGAAAAACATTTTTCTGACTCATGATAAAACATTTTTGCGCAAGACGAAGGAAGTCATTATCGCCATCAATCTTGAGCGTGATTACAGCAAGGACAAGCTGCTTGAAATGTACCTGAACCAGCTTTATTTCGGCCATGGCGTTTACGGCATTCAAGCCGCGTCCCACTACTACTTTAATAAAGAAGTAAAAGATTTAACCGTTGCGGAAGGAGCCGTTCTGGCAGCGATTCCGAAGGCGCCATCTCTTTATTCGCCGATTCAGCATCCGGATAAAAATAAAGAACGCCGCGATACGATTCTTGCAATGATGAACGACCAAGGCTATATCAGCGCCAAGGAAGCCGTCAGAGCCCAGGGCCGGACATTGGGGCTTCATGTCAAGAAAACATCAGAAACGCCTTGGTTTGACAGTTATATCGATCTTGTCATCAAGGAGGCGGAATCCCGTTATTCGATGTCGGGTGAACAGCTGCTTCAAGGCGGCTATACGATCCGGACGTCACTTGATTCCAAGCTGCAGAAAACGGCATACACCCTCATGAAGGAAAGCGGCTATTTTCCGGGGACGGATCAAGCGGCAGAGGGAAGCGCCGTCTTTATTGATAATAAAACCGGAGGCGTGCGCGCGGCGGTCGGCGGACGCGACTACGTGACAAAAGGATACAACAGGGTTACGGCGAAGCGGCAGCCGGGCTCAACGTTTAAGCCGATTGCCGTATACGGTCCCGCCATGCAGGAAGACAAGTTCAAACCGTATTCGCTTCTCCAAGACAAACTCACGTCCTACGACGGGTATGAACCGAAAAATTATGACGGACAGTACAAGGGGGAAGTGACGATGCAGGATGCGATCACTTACAGCATAAATGCGCCCGCTGTCTGGACATTGAAGCAGATCGGCGTAGATACGGGAAAATCGTATCTTGAGAAAAACGGTATAAACATTTCTGACAACGGACTCGCGATTGCGCTGGGCGGTCTGTCTGAAGGCGTCACCCCGCTTCAGCTTGCCGGAGCTTATCATACCTTTGCGGCAAGCGGAATGTATACGAAGCCATTTTTTATAGAGAACATCACGGACGAAGACGGAGAAACGTTGTCCGGGCCTAAAAACGGCAAAACGCGCGTCTTCAGCGGACAGACGGCATGGAATATGACGAGAATGCTTCAGCAGGTCGTAAAAGAAGGAACCGCTTCACAAGGCAGCTATCAAGGTGACCTGGCGGGGAAAACCGGCACGACCACATTTACCGGCGTCCCCGGCGCGACAAAGGACGCCTGGTTTGCGGGATACACTCCCGGACTGACGGGAGCCGTCTGGATGGGCTATGACAAAACGGATAAAACCCATTACCTGAAAGGCGGAAGCCAATACCCGGTCAGACTCTTTAAAGATATCGTTACAAAAGCGGGGGAAAACGGCCGGACATTCAAAAAGCCTGAAAATGTGAAGGAACTGGGCAGCCCGATTGAGCTGGAGGCGGTAAAGTCCCTGTCGGCCCGTTATACATTTAAGGCGATGGGACTGATTACGGTTCAATTAAAATGGGATATTCAAAAGGATGATCGGGTTGTTTACCGAATATATGAGAAGAAAGACGGAAAAGACAAGCTTCTGGATTCGGTGAAAGGAAAAGGCAGCTTTGACATACCGTACGCCAATCTGTTTTCAGGGGCTTCATACAAAGTCGTTCCATATAATTCACAGACGGATCAAGAAGGAGAGGGAACGGAATACGTTCAGCCGAAGCTTTTTTCTTCTTAA	MLKKKKRFFIPAVIAAATAFLALIGYIIIIFLGHYVIDEKKLILHASSKIVDQNGDEIASLYTENREPVSIQQVPEDVRDAFIAVEDKRFYEHHGIDVKSVGRAVFRDVLAGGKVEGGSTITQQLAKNIFLTHDKTFLRKTKEVIIAINLERDYSKDKLLEMYLNQLYFGHGVYGIQAASHYYFNKEVKDLTVAEGAVLAAIPKAPSLYSPIQHPDKNKERRDTILAMMNDQGYISAKEAVRAQGRTLGLHVKKTSETPWFDSYIDLVIKEAESRYSMSGEQLLQGGYTIRTSLDSKLQKTAYTLMKESGYFPGTDQAAEGSAVFIDNKTGGVRAAVGGRDYVTKGYNRVTAKRQPGSTFKPIAVYGPAMQEDKFKPYSLLQDKLTSYDGYEPKNYDGQYKGEVTMQDAITYSINAPAVWTLKQIGVDTGKSYLEKNGINISDNGLAIALGGLSEGVTPLQLAGAYHTFAASGMYTKPFFIENITDEDGETLSGPKNGKTRVFSGQTAWNMTRMLQQVVKEGTASQGSYQGDLAGKTGTTTFTGVPGATKDAWFAGYTPGLTGAVWMGYDKTDKTHYLKGGSQYPVRLFKDIVTKAGENGRTFKKPENVKELGSPIELEAVKSLSARYTFKAMGLITVQLKWDIQKDDRVVYRIYEKKDGKDKLLDSVKGKGSFDIPYANLFSGASYKVVPYNSQTDQEGEGTEYVQPKLFSS	PGPT0023895_319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0023895-pbp2A-K12555	NA	NA
D1-12_00159	1113	hemE	COG0407	Uroporphyrinogen decarboxylase	ATGGGCGAAGAACACGAACGTATGGTTGCAGGAGGAAAGGTGGAAATTCAGATGAGTAAACGAGAAGCGTTTAATGATACGTTTTTAAAAGCGGCACGGGGAGAAAAGACAAATCACGTCCCTGTCTGGTACATGAGACAGGCGGGGAGGTCGCAGCCGGAATACCGCAAGCTGAAGGAAAAGTACGGCTTAGTCGAAATTACGCATCAGCCCGAGCTGTGCGCGTATGTGACGAGGCTCCCGGTCGAGCAGTACGGAGTGGACGCTGCCATTTTATATAAAGACATTATGACGCCGCTTCCTTATATCGGAGTGGATGTTGAAATAAAAAACGGAATCGGCCCGGTGATCGATCAGCCGGTGCGCTCTGCTGCGGATATTGAAAAGCTCGGCGAACTGAATCCCGAACAGGATGTTCCTTACGTGCTGGAAACGATCCGATTACTCGTAAACGAACAGCTGAATGTTCCGCTCATCGGTTTTTCGGGAGCGCCTTTTACGCTGGCCAGTTATATGATTGAAGGCGGGCCTTCTAAAAATTACAACAAAACAAAAGCGTTTATGCACAGTATGCCGCAAGCGTGGCAAATGCTGATGGACAAGCTCGCGGACATGATTATCGTTTATGCAAAAGCGCAGATTAACGCCGGCGCAAAAGCCATTCAGATTTTTGATTCATGGGTCGGCGCGCTGAACCGCGAAGATTACCGGCAGTTTATAAAACCGGTGATGGACAGAATTTTCCGGGAGCTTTCTGCAGAGCAAGTTCCGCTGATCATGTTCGGCGTAGGCGCAAGCCATCTGGCCGGGGATTGGCATGACCTTCCTCTTGATGTCGTCGGTCTTGATTGGAGACTCGGCATAGATGACGCCAGAAAACAAGGCATTACAAAAACGGTTCAGGGCAATCTTGATCCGTCGCTTCTTCTTGCGCCTTGGGAAGTCATCGAGAAAAAAGCGAAAGCGATACTTGATCAAGGCATGAAAGCGGACGGGTTTATTTTCAATTTAGGGCACGGCGTATTCCCTGATGTCAATCCGGAAACGCTGAAAAAGCTGACGGCGTTTGTACATGAATATTCCGCTGCCAAAAAAACGGAACAATCTTCCTGA	MGEEHERMVAGGKVEIQMSKREAFNDTFLKAARGEKTNHVPVWYMRQAGRSQPEYRKLKEKYGLVEITHQPELCAYVTRLPVEQYGVDAAILYKDIMTPLPYIGVDVEIKNGIGPVIDQPVRSAADIEKLGELNPEQDVPYVLETIRLLVNEQLNVPLIGFSGAPFTLASYMIEGGPSKNYNKTKAFMHSMPQAWQMLMDKLADMIIVYAKAQINAGAKAIQIFDSWVGALNREDYRQFIKPVMDRIFRELSAEQVPLIMFGVGASHLAGDWHDLPLDVVGLDWRLGIDDARKQGITKTVQGNLDPSLLLAPWEVIEKKAKAILDQGMKADGFIFNLGHGVFPDVNPETLKKLTAFVHEYSAAKKTEQSS	PGPT0008465_683	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
D1-12_00160	936	hemH	COG0276	Ferrochelatase	ATGAGCAGCAAAAAGAAAATGGGACTTCTTGTCATGGCTTACGGAACGCCTTACAAAGAAGAGGACATAGAACGTTATTATACGCATATCAGACGCGGAAGAAAGCCGGAGCCTCATATGCTTCAAGATTTAAAAGACAGATATGAAGCGATCGGAGGCATTTCTCCGCTGGCGAAAATCACGCAGGAGCAGGCGGAGAAGCTCGCACAGCGTTTAAATGAAATCCAGGATGATGTAACATTCAAAGTGTATATCGGATTAAAACATATTGAACCGTTTATTGAAGACGCGGTGGCGGACATGCATAAAGACGGCATTACAGAAGCTGTCAGCCTTGTGCTCGCCCCTCATTTTTCAACATTCAGCGTCCAGTCATACAACAAACGCGCGAAAGAAGAAGCGGAGAAGCTCGGCGGCTTGACCATCAAGTCCGTTGAAAGCTGGTATGATGAACCGAAATTCGTTGATTATTGGGTCGGCCAGGTGAAGAAAACGTATGAATCAATGCCGAAAGAAGAACGGGATGACGCGATGCTGATCGTCTCAGCGCACAGCCTTCCTGAAAAAATTAAAGAATACGGCGATCCGTATCCTGACCAGCTGGAGGAATCCGCAAAACTGATTGCCGAAGGCGCCGGAATTACCGATTACGCAGTCGGCTGGCAAAGCGAAGGGAACACCCCTGATCCGTGGCTCGGGCCGGATGTGCAGGATCTTACGCGCGAGCTGTATCAAAAGCATCCTTATAAAGCATTTGTATACGTGCCCGCAGGCTTCGTTGCCGATCATTTAGAGGTGCTTTACGATAATGATTATGAATGCAAAGCTGTGACTGAAGAAGTCGGCGCAAGCTACTATCGTCCGGCCATGCCGAACGCACAGCCTGAATTTATCGACGCGCTTGCAGCGGTCGTGCTGAAAGAGCTGGACAAGTAG	MSSKKKMGLLVMAYGTPYKEEDIERYYTHIRRGRKPEPHMLQDLKDRYEAIGGISPLAKITQEQAEKLAQRLNEIQDDVTFKVYIGLKHIEPFIEDAVADMHKDGITEAVSLVLAPHFSTFSVQSYNKRAKEEAEKLGGLTIKSVESWYDEPKFVDYWVGQVKKTYESMPKEERDDAMLIVSAHSLPEKIKEYGDPYPDQLEESAKLIAEGAGITDYAVGWQSEGNTPDPWLGPDVQDLTRELYQKHPYKAFVYVPAGFVADHLEVLYDNDYECKAVTEEVGASYYRPAMPNAQPEFIDALAAVVLKELDK	PGPT0008485_4607	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
D1-12_00161	1434	hemY	COG1232	Protoporphyrinogen oxidase	ATGAGTGGCGATAAAAAACATCTGGTCATCATCGGCGGCGGCATAACGGGATTAGCCGCCGCCTTCTACATGGAAAAAGAAATCAAAGAAAAACAGCTGCCGCTTGAGGTCACCTTGATCGAAGCAGGCCCGAGAGCCGGCGGCAAAATTCAGACGGCGCATAAAGACGGCTACATCATTGAGCGGGGCCCGGATTCTTTTTTGGAAAGGAAAAAAAGCGCGCCGCAGCTCGTCAAGGATTTGGGGCTTGAGCATCTGCTCGTCAACAATGCGACCGGCCAGTCTTACGTGCTCGTCAACGAGACGCTTCATCCGATGCCGAAGGGCGCGGTGATGGGCATTCCGACCAAAATCGCTCCGTTCATCTCCACCGGTTTATTTTCTGTTCCCGGAAAAGCGCGGGCGGCGCTTGACTTTGTCCTGCCTGCGAGCAAACCGAAGGAAGATCAGTCTCTGGGTGAATTTTTCCGCAGACGCGTCGGTGACGAAGTTGTTGAGAATTTAATAGAACCGCTATTATCAGGGATTTATGCCGGAGATATTGATAAGCTGAGCCTCATGTCTACGTTTCCGCAATTCTATCAGACTGAGCAAAAGCACAGAAGCCTGATTCTCGGTATGAAAAAATCACGTCCGCAGCCTTCGGGACAGCAGCTGACGGCCAAAAAGCAGGGCCAGTTTTTAACGCTGACGACAGGGCTTCAAACGTTGGTGGAGGAGCTGGAAAAGCAGCTTACGCTGACAAAGGTGATGAAAGGAACGAAAGTCACCCATATCGGCCGCGAGGAGAAAGGATATTCCGTGACGCTTGATAACGGCAAAGTGCTCTATGCGGAAGGATGCATAGTAACAGCCCCGCATAAAGCCGCGGCGAAAATGCTTTCTGATCTGCCGGCGGTTTCATGTCTCAAAGACATGCATTCTACGTCCGTTGCCAACGTCGCCTTAGGTTTTCCTGAGGGAGCCGTCAAGATGGAGCATGAAGGTACGGGATTCGTAATCTCAAGAAACAGCGACTTCTCCATCACGGCCTGCACATGGACGAATAAAAAATGGCCGCACGCGGCGCCGGAGGGCAAAACGCTTCTCAGGGCGTACGTCGGAAAGGCCGGAGATGAATCCATCGTAGATCTTTCAGATAACGAGATCATTAAAATCGTAATGGAAGATTTGAAAAAAGTAATGAAAATGAATGGCGAACCGGAAATGACCTGTGTGACCCGCTGGAACGAAAGCATGCCGCAATACCATGTTGGCCATAAGGAGCGCATCAAAGAGTTCAGAGATGCGCTGAAAGCTTCCTATCCGGGCGTATACGCGACGGGCGCGTCATTCGAAGGGGTGGGCATCCCCGACTGTATCGACCAGGGAAAAGCCGCCGTATATGATTCACTGGCTTATTTATTTGAAACGTACCAGCCTCCGTTATCGTAA	MSGDKKHLVIIGGGITGLAAAFYMEKEIKEKQLPLEVTLIEAGPRAGGKIQTAHKDGYIIERGPDSFLERKKSAPQLVKDLGLEHLLVNNATGQSYVLVNETLHPMPKGAVMGIPTKIAPFISTGLFSVPGKARAALDFVLPASKPKEDQSLGEFFRRRVGDEVVENLIEPLLSGIYAGDIDKLSLMSTFPQFYQTEQKHRSLILGMKKSRPQPSGQQLTAKKQGQFLTLTTGLQTLVEELEKQLTLTKVMKGTKVTHIGREEKGYSVTLDNGKVLYAEGCIVTAPHKAAAKMLSDLPAVSCLKDMHSTSVANVALGFPEGAVKMEHEGTGFVISRNSDFSITACTWTNKKWPHAAPEGKTLLRAYVGKAGDESIVDLSDNEIIKIVMEDLKKVMKMNGEPEMTCVTRWNESMPQYHVGHKERIKEFRDALKASYPGVYATGASFEGVGIPDCIDQGKAAVYDSLAYLFETYQPPLS	PGPT0008475_906	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231	NA	NA
D1-12_00162	573			hypothetical protein	ATGTGCGTCGATCGGAAAAAGCTCATTCTGGAAGCGGCAACGAAGTCTTTTACACAATTCGGCTACAAAGCAACGACAATGGATCTGGTGGCAAAGCTTGCAAATGTGGGGAAGGGAACCATCTACACGTTTTTCAAAAACAAAGAAGAACTGTTTGATGATATTTTCACCACTATTTTAAGAGAAATGAAGGAACACGCAGACGAAGCGATGAAACCGGAGCTTTCATTTCACGAAAATGTCCACCGGGCGCTTGTCGCGATTTTGGAATTCAGAAAAACACACCAGCTGACTATTAAAATTTTTCAGGAGAACGCCGAGATTGGTACAATAGCCGTTCAGGATGTCATTGCGAAAATGGAGCGGGCCATTCTGTCATACATTAAAGAAAAGATAGAAACAGCCATTGAAAACGGAAGCATTAAACCGTGTGATCCGGAACTGACCGCTTTTGTGATGCTCAAGCTCTACATCGCGCTGATATTTGACTGGGAAAAAAACCATCCGCCTCTTGAAAAAGAGACGATCGCCGAATTGCTGGAAATGTATGTTGGTCAAGGATTATCTAAATAA	MCVDRKKLILEAATKSFTQFGYKATTMDLVAKLANVGKGTIYTFFKNKEELFDDIFTTILREMKEHADEAMKPELSFHENVHRALVAILEFRKTHQLTIKIFQENAEIGTIAVQDVIAKMERAILSYIKEKIETAIENGSIKPCDPELTAFVMLKLYIALIFDWEKNHPPLEKETIAELLEMYVGQGLSK				NA	NA	NA	NA	NA
D1-12_00163	2334	smc_1		Chromosome partition protein Smc	TTGAATACAATAAAAAGCCAGTGGAAAGACATTGTAACGAACAAGAAACTGTTAATCCCCATCATTGCCATATTATTCGTTCCGCTGATCTACAGCGGAGTGTTTTTGAAGGCGTACTGGGACCCGTACGGCACGGTGGATCAGCTGCCGGTTGTCGTTGTCAACCAGGATAAAGGGGCGGACTACGAAGGGAAACATCTTCAGATCGGTGACGATCTTGTGAAAGAGTTAAAGAAAAATGATAATTTTGATTGGCATTTTTCAAGCGATCTTGATCAATCGTTAAAGGACTTATTAAATGCTAAATATTATTTATTGGTCGAGATTCCTGAAGATTTTTCGAAAAACGCCAGCACGGTAATGGATAAAAATCCGAAGAAGCTGGATCTGAAATATCATACGAATGCCGGATCAAACTATGTCGGCGCGACAATCGGGGAAAAGGCGATCGACAAACTGAAAGCCTCCGTGTCGAAAGAAGTGACAGAGCAATACGCAAAAGTCATTTTTGATAACTTTAAAGATATTGCCAAAGGGCTCGGCAAAGCCAGCAGCGGAGCCAAGAAAATAGACGACGGCACGAAAAACGCGAAAGACGGCAGCGCCAAGCTGAAGGAAAATTTAGCGAAGCTTACTGAAAGCACCGCCACCATCAGCGATAAAACGCAGCAGCTTGCAGACGGAGCGGCGAAAGTGACAAGCGGAATTCAAACGCTTGACAGCTCTATCGCAAAACTTCAGAGCGCAAGCGCCGAAATTCAAGATAAATCAGGACAGATTGCTTCAGGAGGAGGCCAAGTGGCCAGCGGGCTGAAAACGAGCCTTGACGCACAAAAGCAGCTCCAGCAAAAGCTTCCGGATTTAACGAATGGATTAAGCGCGTTAAACAGCAAGGCGCAGGAAGTGTCGCAAAAAGCGGCGGCATTTGAAGATGCGATCAATTCAGTCAACCTCTCAGACATTGAAAACGCGGTTGGGCAGCTCGAGCAGACTGAAAAGGACCTGCAGCAGTTTAAGAAGAAGCTTTCTGATCTGAAAAACAACCTGGATGCCCGGGATGACGCGGTCAAAAAGGTGATTAAGGACAGTGATTTCTTAACGGATGAGCAAAAAGCGAAACTTGTTCAGCTACTGAATGAGAAGCTTCCGAAGGCCGACCTTCCGGATTTAGACAATATCGTCAGCCAGCTTCCGTCCGGCGGAGATATTCAGCTTCCGGATATGTCAGTCATAAAAAGCGCGCTCAAAGATGTAAAAGCGAAGGCTGATCAGCTGAAAGCACTGCCTCAGTCCACATCGAAACTGTATAACGGCGCAGCGGCGGTACAAGACGCGATTAACCAGCTGACAGCGGGAACTGATAAATTGTACAGCGGAGCGCAGACCGTCTTTGAAAGCCAAAATAAACTGACGGCCGGCATCGGCGAATACAACAGCAAGTTCGGACAGCTCAAATCAGGATCAGAAGCGTTAGTGTCAGGGAGCGGCCAAGTATCAGGCGGCTTAACGAAACTCCTGGATGCGCAAAACAAAATCCATGACGGCTCGTCCAAAATTGAGCAGGGTCAAGCATCTCTCGGCACCGGTTTAAGCAAACTTTTAGACGGCACCGGACAATTGTCCAGCCAGCTGAAAGATGCGGCCGATCAAACCGGGGACATTAAGACAGATGACAAAACGTACAGCATGTTTGCCGATCCGGTAAAAACGGACGATAACGCGATTCATTCCGTGCCTAACTACGGTACCGGACTGACGCCTTATATTCTCTCTATGGGCTTGTATGTCGGCGGATTGATGCTGACGGTCGTATTCCCTCTGAGTGAAGCTTCAGGGCGTCCGAGAAACGGTTTTGAATGGTTCCTCAGCAAATTCAGCGTTATTCTGCTTGTCGGACTGATTCAATCCGTTATTGTCGCCACGGTTCTGTTAAAAGGAATCGGGCTTGATGTGGAGAGCACTTGGAGATTCTATCTCTTTACGATGATTACCAGCATCGCGTTCCTGTCCATGATTCAATTATTGGCGACAACGATGGGGAATCCGGGACGTTTTATCGCTGTCATCATTCTGGTGCTCCAGCTCGGGGCAAGCGGAGGAACCTTCCCGCTTGAACTCCTGCCGGGATTCTATCAAGTGATTCACGGGGCACTGCCGATGACTTACAGCATCAACGGGTTCCGCGCCGTCATTTCAAATGGCGATTACGGCTATATGTGGCAGCAGGCATCCATTCTGTTGGGCATCGCCGTTGTCATGATCGCGCTGACCATCGTGTATTTTACGGTGCAAAGCAAAAAAGAACACAAAACGGAAGAAGAAATAACAGCATAA	MNTIKSQWKDIVTNKKLLIPIIAILFVPLIYSGVFLKAYWDPYGTVDQLPVVVVNQDKGADYEGKHLQIGDDLVKELKKNDNFDWHFSSDLDQSLKDLLNAKYYLLVEIPEDFSKNASTVMDKNPKKLDLKYHTNAGSNYVGATIGEKAIDKLKASVSKEVTEQYAKVIFDNFKDIAKGLGKASSGAKKIDDGTKNAKDGSAKLKENLAKLTESTATISDKTQQLADGAAKVTSGIQTLDSSIAKLQSASAEIQDKSGQIASGGGQVASGLKTSLDAQKQLQQKLPDLTNGLSALNSKAQEVSQKAAAFEDAINSVNLSDIENAVGQLEQTEKDLQQFKKKLSDLKNNLDARDDAVKKVIKDSDFLTDEQKAKLVQLLNEKLPKADLPDLDNIVSQLPSGGDIQLPDMSVIKSALKDVKAKADQLKALPQSTSKLYNGAAAVQDAINQLTAGTDKLYSGAQTVFESQNKLTAGIGEYNSKFGQLKSGSEALVSGSGQVSGGLTKLLDAQNKIHDGSSKIEQGQASLGTGLSKLLDGTGQLSSQLKDAADQTGDIKTDDKTYSMFADPVKTDDNAIHSVPNYGTGLTPYILSMGLYVGGLMLTVVFPLSEASGRPRNGFEWFLSKFSVILLVGLIQSVIVATVLLKGIGLDVESTWRFYLFTMITSIAFLSMIQLLATTMGNPGRFIAVIILVLQLGASGGTFPLELLPGFYQVIHGALPMTYSINGFRAVISNGDYGYMWQQASILLGIAVVMIALTIVYFTVQSKKEHKTEEEITA				NA	NA	NA	NA	NA
D1-12_00164	978	fabHB	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3 protein 2	ATGTCAAAATCTAAAATTACAGCAATCGGTACATATGCTCCGGCACGCCGATTAACAAACGCGGATTTGGAGCGCATCGTCGATACATCTGATGAATGGATCGTCCAGCGCACCGGTATGAAGGAAAGACGCATTGCCGGCGAACATGAATTCACATCGGATTTGTGTGTGGAAGCGGTGAAAAACCTTGCAGAACGATACAGCGGAACTCTTGATGATGTCGATATGATCCTTGTCGCCACAACGACGGCGGACTATGCGTTTCCAAGCACCGCGGCACGCGTGCAGGCTTACTTCGGCTGGCCGCAAACGGGGGCGCTTGATATTAACGCCACATGCGCCGGACTCACTTACGGCCTTCAGCTCGCAGACGCATTAATTACCGCCGGTTCCCATCAAAAAGTGATTGTCATTGCCGGTGAAACATTATCAAAGGTAACGGATTATACTGACCGGACGACCTGCGTTCTTTTCGGAGACGCTGCAGGCGCCCTATTGGTGGAACGCGATGAATCAGCGCCGGGCTTTTTGGCAGCCGTGCAAGGAACAGCGGGAGGAAGCGCGGACGTGCTGTATCGCACGGGACTGAGCGCAGAATTAAACGGCGAGCCGCTTAAAGGCGGAGGAAATATGGTGCAAAACGGGCGCGAAGTATATAAATGGGCGGCCAGAACCGTGCCTGAGGAATGCAATGCCCTTTTAGAAAAAGCCGGCTTTTCAAAAGACGATCTGGATTGGTTCGTTCCTCACAGCGCCAACATGCGGATGATCGAATCCATCTGTGAAAAACTGCCCTTCCCGCTTGAACGGACATTGACAAGCGTTGAATATTACGGCAACACTTCATCGGTTTCTATTATTCTCGCTTTGGATGAAGCTGTGAAAGCGAAAAAACTGTCGGAAGGCCAGACGCTGGTATTATTCGGGTTCGGCGGAGGATTGACGTATACCGGACTGTTGGTGAGATGGGGATTTTAA	MSKSKITAIGTYAPARRLTNADLERIVDTSDEWIVQRTGMKERRIAGEHEFTSDLCVEAVKNLAERYSGTLDDVDMILVATTTADYAFPSTAARVQAYFGWPQTGALDINATCAGLTYGLQLADALITAGSHQKVIVIAGETLSKVTDYTDRTTCVLFGDAAGALLVERDESAPGFLAAVQGTAGGSADVLYRTGLSAELNGEPLKGGGNMVQNGREVYKWAARTVPEECNALLEKAGFSKDDLDWFVPHSANMRMIESICEKLPFPLERTLTSVEYYGNTSSVSIILALDEAVKAKKLSEGQTLVLFGFGGGLTYTGLLVRWGF	PGPT0008355_4914	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
D1-12_00165	231			hypothetical protein	ATGATCAGCCGTAAACCGCACAAGCGGAAAAGATTTCATAATGATTGGTTTGAGGATTGGTTTGAGGATTGGTTTGAGGATAATTGGTCTGGTGCAGCCTTCTGGGGCTGTAAAAAAGAAAAAGATCACTGTAAAAAGAAAAAAGAAGACCCTTGTAAAAAGAAGAAAGATAAAAAGAAGAAAGATAAAAAGAAGCATCATCATTCATGCTGCCGCTGCCGTCATTGGTAA	MISRKPHKRKRFHNDWFEDWFEDWFEDNWSGAAFWGCKKEKDHCKKKKEDPCKKKKDKKKKDKKKHHHSCCRCRHW				NA	NA	NA	NA	NA
D1-12_00166	1041	ysdC_1	COG1363	Putative aminopeptidase YsdC	GTGGAAAATATGAAACATACGATGGAACTGATTAAAGAATTGGTGTCGATTCCGAGTCCGACGGGCAATACATACGAGGTTATCGCCTATACAGAAAGTCTTTTAAAAGAATGGGGCGTCTCCTCTTACAGGAACCGCAAAGGCGGTCTTTTTGTCACAATTCCCGGCCGTGATGACAAGAAACACAGATTGCTGACGGCGCATGTCGATACGCTCGGCGCGATGGTAAAGGAGATAAAGGCGGACGGCCGGCTGAAGATTGATTTGATCGGCGGCTTCCGATATAACTCGATTGAAGGGGAATATTGCGAGATCCAAACTTCTTCCGGCAAAACCTATACAGGCACCATCTTAATGCATCAGACTTCAGTGCACGTCTACAAGGACGCCGGCAAGGCAGAGCGGAATCAGGAGAATATGGAAGTCCGCCTTGATGAGCCTGTCCGGACGAAGGAAGAGACGTCCGATCTCGGCATCAGGGTCGGCGATTTCATCTCATTTGACCCGCGCGTGCAGATTACGCCGAGCGGCTTTATTAAGTCCCGGCATCTTGATGACAAAGCGAGCGTGGCACTGCTCTTGAATTTAATCCGCCGCATCACGGAAGAGAAAATCGAACTTCCGTATACGACGCATTTTCTGATTTCTAATAATGAAGAAATCGGCTACGGCGGCAATTCCAACATTCCTCCTGAGACCGTCGAATACTTGGCTGTTGATATGGGGGCGATCGGAGACGGCCAGTCTACGGATGAATATACCGTCTCCATTTGCGTGAAGGATGCGAGCGGCCCGTACCATTATCAGCTCAGAAAACATCTGGCCGGGCTTGCGGAGCGCTATGGCATTGATTATCAGCTTGATATTTATCCGTATTACGGTTCTGATGCCTCAGCAGCCATCCGTTCGGGCCATGACATCGTCCACGGGCTGATCGGCCCGGGAATTGACGCTTCACACGCTTTTGAACGCACGCATGAATTATCGCTTCTTAATACGGCGAAGCTTTTGCATCGGTACGTTCTATCGCCGATGGCATAA	MENMKHTMELIKELVSIPSPTGNTYEVIAYTESLLKEWGVSSYRNRKGGLFVTIPGRDDKKHRLLTAHVDTLGAMVKEIKADGRLKIDLIGGFRYNSIEGEYCEIQTSSGKTYTGTILMHQTSVHVYKDAGKAERNQENMEVRLDEPVRTKEETSDLGIRVGDFISFDPRVQITPSGFIKSRHLDDKASVALLLNLIRRITEEKIELPYTTHFLISNNEEIGYGGNSNIPPETVEYLAVDMGAIGDGQSTDEYTVSICVKDASGPYHYQLRKHLAGLAERYGIDYQLDIYPYYGSDASAAIRSGHDIVHGLIGPGIDASHAFERTHELSLLNTAKLLHRYVLSPMA				NA	NA	NA	NA	NA
D1-12_00167	1290	gltT		Proton/sodium-glutamate symport protein	ATGAAAAAATTACGCTTTGGACTAGCGACGCAAATTTTCGTCGGACTCATACTAGGGGTTGTAGTCGGTGTCATCTGGTACGGCAATCCCGCCATTCCAACATATTTACAGCCTATCGGCGATTTGTTTTTACGCTTAATCAAAATGATAGTGATTCCAATTGTCGTCTCCAGCTTAATCATCGGCGTTGCCGGCGCGGGAAGCGGAAAACAAGTCGGAAAATTAGGCTTCAAAACGATTTTGTATTTTGAGATCATTACCACTTTTGCCATTATTCTCGGGCTGGCTTTGGCGAATCTGTTTCATCCGGGAACAGGCGTTAATATACATGAAGCTCAAAAGACAGATATCAGTCAATATGTTGAAACAGAAAAAGAACAAAATAACAAATCTATCGCAGACACATTCCTGCATATCGTACCGACAAACTTCTTCCAATCATTAGCCGAAGGAGATCTGCTTGCCATTATCTGCTTTACCGTGCTGTTTGCACTCGGCATCTCGGCAATCGGTGAAAAAGGAAAGCCTGTCTTGGCCTTCTTTGAAGGTGTTTCTCATGCGATGTTCCATGTTGTGAACCTTGTCATGAAAGTTGCGCCGTTTGGTGTTTTTGCGTTGATTGGTGTTACCGTTTCCAAATTTGGGCTCAGTTCCCTGCTTTCACTCGGTAAACTGGTCGGTTTAGTATATGTAGCTTTGGCTTTCTTTCTCATTGTTGTATTCGGAATCGTCGGAAAGCTTGCCGGAGTAAACATTTTCAAATTCCTCGCCTATATGAAGGATGAAATTTTATTAGCGTTCAGTACGTCAAGCTCCGAAACCGTACTCCCCCGCGTTATGGAAAAAATGGAGAAAATCGGCTGTCCGAAAGGTATTGTTTCCTTTGTTGTGCCGATCGGATATACCTTTAACTTAGACGGATCTGTGCTGTACCAATCTATCGCCGCTTTATTCCTCGCTCAGGTATACCACATTGACTTGTCCATTTGGCAGCAGATTACCCTTGTGCTTGTCTTGATGGTCACTTCCAAAGGAATGGCTGCCGTGCCCGGGACTTCTTTCGTCGTCCTGCTTGCGACATTAGGCGCATTCAACATTCCTGCAGAAGGCCTTGCATTCATCGCCGGGGTTGACCGGATTATGGACATGGCCCGTACGGTCGTCAATCTGACCGGAAACGCGCTGGCATCCGTTGTGATGTCAAAATGGGAAGGCCAGTATGATCCCGTTAAAGGCGCGAAGGTCATGAGCCTCGCCAAAACAGAACAAAACACAACCATCTCAGGTTAA	MKKLRFGLATQIFVGLILGVVVGVIWYGNPAIPTYLQPIGDLFLRLIKMIVIPIVVSSLIIGVAGAGSGKQVGKLGFKTILYFEIITTFAIILGLALANLFHPGTGVNIHEAQKTDISQYVETEKEQNNKSIADTFLHIVPTNFFQSLAEGDLLAIICFTVLFALGISAIGEKGKPVLAFFEGVSHAMFHVVNLVMKVAPFGVFALIGVTVSKFGLSSLLSLGKLVGLVYVALAFFLIVVFGIVGKLAGVNIFKFLAYMKDEILLAFSTSSSETVLPRVMEKMEKIGCPKGIVSFVVPIGYTFNLDGSVLYQSIAALFLAQVYHIDLSIWQQITLVLVLMVTSKGMAAVPGTSFVVLLATLGAFNIPAEGLAFIAGVDRIMDMARTVVNLTGNALASVVMSKWEGQYDPVKGAKVMSLAKTEQNTTISG	PGPT0000805_581	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
D1-12_00168	735		COG1234	putative protein	ATGAAAGTTACAGTTATTGGATGCTGCGGCGGGTTTCCGGCCGCAAACGAAGCAACTTCAGGCTATCTGTTTCAGTCCGGCGGCTATTCTCTGCTCGTCGATTGCGGAAGCGCCGTATTATCAAAGCTGTTTGCCTATGTTCCGGCAGAAGAGCTTGATGCCGTCATTTTGTCCCATTATCATCATGATCACATCGCTGATATCGGGCCGCTTCAATTTGCCAAACAGGTCGGCTCCTTTCTCGGAAAAGGGACGCATGCACTGCCGATTTACGGGCATGATGCTGATATAGAACAGTTTGAGCGTCTTACATATAAAACGCATACAAAAGGAGTGGCCTATCAGCCGGACCGCCCGCTTTCTGCCGGGCCGTTCACCATTACCTTTCTGAAAACGGTGCATCCGGTCACCTGTTATGCGATGCGGATTACTGACGGTTCAGCTTCTGTTGTGTATACGGCTGATTCAAGCTACCAGGACGCGTTTATCCCGTTTGCGGAAAATGCCGATCTGCTGATCTGTGAGTGCAATTTTTACGCAGACCAGGACGGCACGTCAGCCGGCCATATGAACAGTTTGGAAGCCGGACGTATCGCGAAGGAGGCCGGAGCGGGGGAGCTGATTCTCACGCATCTGCCTCATTTCGGCGAGCACCGGAAGCTGAAAGAAGAAGCGGAATCCGTGTTCGGGGGCGAAGTGACAATCGCCGCTTCCGGATTGAAGTGGGAGAAATAA	MKVTVIGCCGGFPAANEATSGYLFQSGGYSLLVDCGSAVLSKLFAYVPAEELDAVILSHYHHDHIADIGPLQFAKQVGSFLGKGTHALPIYGHDADIEQFERLTYKTHTKGVAYQPDRPLSAGPFTITFLKTVHPVTCYAMRITDGSASVVYTADSSYQDAFIPFAENADLLICECNFYADQDGTSAGHMNSLEAGRIAKEAGAGELILTHLPHFGEHRKLKEEAESVFGGEVTIAASGLKWEK				NA	NA	NA	NA	NA
D1-12_00169	996	lplJ	COG0095	Lipoate-protein ligase LplJ	ATGTTATTTATCGACAATCAAAACATAACCGACCCGAGGATCAACCTCGCGATCGAGGAATATTGCGTGAAGCATCTCGACCCTGAACAGACATACCTGCTGTTTTATGTCAATCAGCCGTCGATTATCATTGGGAAGAACCAAAACACAATAGAAGAAATCAATACGAAATACGTAGAAGATAACGGAATCATCGTCGTCCGCAGGCTGTCAGGAGGCGGTGCGGTTTACCATGACCTCGGGAATCTGAATTTCAGTTTTATCACCAAGGATGACGGCGACAGCTTTCACAATTTTAAAAAATTCACCGAACCCGTTATTCAAGCGCTGCGCCAGCTCGGTGTGGAAGCTGAATTAAGCGGCCGAAACGACATCGTCGCGGACGGCAGAAAAATTTCCGGCAACGCTCAATTTTCGACGAAAGGGCGTATTTTCAGCCACGGAACATTAATGCTAGATTCCGCCATTGATCATGTTGTATCAGCCTTGAAAGTGAAAAAGGACAAAATCGAATCAAAAGGCATTAAGTCAATCAGAAGCCGTGTCGCCAACATCAGCGAGTTTCTTGATGACAAAATGACGGCGGACGAATTCAAAAAGCACCTGCTTCACCATATTTTTAATACAAATGATCTTTCCGAAGTGCCGGAATATAAACTGACCGATGAAGACTGGAAAGCGATCCGGAAGATTTCCGAAGAGCGCTATCAAAACTGGGACTGGAATTTCGGAAGGTCGCCCGCATTTAATCTTCAGCATTCGAAACGTTATCCGGTCGGATCGATTGATCTGCGTCTTGAAGTGAAAAAAGGAATCATTCAGGACTGCAAAATTTTCGGTGATTTCTTCGGTGCGAAAGATGTGAGTGAAGTCGAACAGGCACTGACCGGAAAACAGTATGACCGAACCGCTATCAGGGAGGCGCTGGCCGGAATCGATCTGAAACAGTATTTCGGTAAAATAGAGCTGGAAGATTTCCTCGAGCTGATTTATTAG	MLFIDNQNITDPRINLAIEEYCVKHLDPEQTYLLFYVNQPSIIIGKNQNTIEEINTKYVEDNGIIVVRRLSGGGAVYHDLGNLNFSFITKDDGDSFHNFKKFTEPVIQALRQLGVEAELSGRNDIVADGRKISGNAQFSTKGRIFSHGTLMLDSAIDHVVSALKVKKDKIESKGIKSIRSRVANISEFLDDKMTADEFKKHLLHHIFNTNDLSEVPEYKLTDEDWKAIRKISEERYQNWDWNFGRSPAFNLQHSKRYPVGSIDLRLEVKKGIIQDCKIFGDFFGAKDVSEVEQALTGKQYDRTAIREALAGIDLKQYFGKIELEDFLELIY	PGPT0003945_1469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003945-lplA|lplJ|lipL1-K03800	NA	NA
D1-12_00170	645	yhfK	COG0702	putative sugar epimerase YhfK	ATGAAAGTATTTCTCATCGGAGCAAACGGACAGATCGGACAGCGGCTGACCGGGCTGTTTCAAAAAGACGGCACACATACGCTGCGGGCGATGGTCCGGAAACAAGAGCAGAAAGAAGCGCTTCAAGCCGCGGGAACAGAAGCCGTTCTTGCAGATTTGGAAGGAAGCCCGGAAGACATCGCGAAAGCTGCTGAAGGCTGTGACGCGATTGTGTTTACCGCCGGATCAGGAGGAAGCACCGGATACGATAAGACGCTTTTGATTGATCTTGACGGAGCCGCGAAAGCGATAGAAGCGGCAAAGAAAGCCGGCATCAAGCGGTTCATTATGGTAAGCGCCCTTCAGGCTCATAACCGCGGCAATTGGAATGAAGCGCTGAAGCCGTATTACGCCGCAAAGCATTATGCGGATAAAATTCTTGAAGCGAGCGGTCTGACGTATACGATTATCCGGCCGGGCGGGTTATTAAATGATCCCGGCACGGGAAATATCAAAGCCGCGGCCGATTTAGAAAGAGGCTCCATTTCAAGAGACGATGTCGCCAAGACCGTTATCGCATCCCTTGATGAACCGAATACGTATGAAAAAGCATTCGATCTGACGGCGGGCGGCACGCCGGTCAGTGAAGCGCTGAAACAATTATAG	MKVFLIGANGQIGQRLTGLFQKDGTHTLRAMVRKQEQKEALQAAGTEAVLADLEGSPEDIAKAAEGCDAIVFTAGSGGSTGYDKTLLIDLDGAAKAIEAAKKAGIKRFIMVSALQAHNRGNWNEALKPYYAAKHYADKILEASGLTYTIIRPGGLLNDPGTGNIKAAADLERGSISRDDVAKTVIASLDEPNTYEKAFDLTAGGTPVSEALKQL				NA	NA	NA	NA	NA
D1-12_00171	1542	lcfB_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAATCTGGTTTCCAAATTGGAAGAAACGGCATCGCAGAAACCGGAAAAACCAGCTTGTCTGTTTCAAGATCAGTACATGACGTATGAGGAGCTGGCAGGTAAAATCAAAGCATTTGCAAACGGCTTGGAGGACAGGGGACTGAAAAAAGGGGATCATCTCGCGCTGCTGCTCGGAAATACGCCTGACTTTGTTATTGCGTTTTTCGGCGCGTTAAAAGCGGGAATTGTCGTCATACCTGTTAATCCGGCATATACACCTTCAGAAATCGCATACATGCTGAAAAACGGCGATGTCAAAGCGATCGCCGGCATCGATCTTTTAATTCCCGTATTTGAAAGCCTGCACGGCTCGCTGCCGCTGCTGGAGCATATCATTATCAGCCAGACAGCAGAGAACGCTCCATCGACAGAAGACCCTCAATTGCGCTTAAAAATGACAACGTTTACAAAAATGCTTCGCCCGGCGGAGCGCAGCAGAACTTATCCGACATTGTCAAAAGATGATACTGCCGTCATTTTATACACCTCAGGGACGACCGGAAAACCGAAAGGCGCCATGCTCACCCATCAGAATCTTTTCTCCAATGCAAATGATGTCGCCGGATACTTAGGAATGAATGAGAAAGACAAAATTGTGGCGGCATTGCCGATGTTTCACGTTTTTTGTTTAACCGTTTGTATGAATGCGCCTCTGATGAGCGGAGCGTGTGTCTTAATCGAGCCGCAATTCAGCCCGGCTTCTGTGTTTAAACTGATTAAAAGCCGTCAGGCAACCATTTTTGCCGGCGTTCCGACGATGTATAACTATCTGTATCAATACGAGCACGGCAAGGCGGAGGATTTTGCGTCCGTCAGACTGTGCATTTCAGGCGGCGCCTCCATGCCGGTCGCTCTGTTGCAGACGTTTGAACAAACCTTTGACGTCACCATTCTGGAGGGGTACGGACTTTCTGAAGCGTCTCCGGTTACTTGTTTTAATCCGTTTGACCGGGGGAGAAAGCCCGGCTCGATCGGGACGAATATTTTACATGTCGAAAATAAAGTCGTCGATACACTCGGACGTGAATTGCCCGACCATCAAGTGGGAGAATTGATCGTGAAAGGGCCGAATGTGATGAAAGGCTATTACAAGATGCCCGAGGAGACGGAGCACGCGCTGAAAGACGGCTGGCTGTACACGGGTGATTTGGCGAAGCGCGACGAAGACGGTTATTTTTATATCGTCGACAGAAAAAAAGATATGATTCTCGTCGGCGGATACAACGTCTATCCGCGCGAAGTAGAAGAAGTGCTCTACAGCCATGAGGGCATTAAAGAAGCCGTGGTCATCGGCGTTCCTGACGCCAAAACGGGGGAAGCGGTGCATGCTTATATAGTGCCTGGGGACGGTGAGCTGACAGAGCAGGCGGTTTTTGATTACTGTGAAACACATTTGGCAAAATATAAACGGCCGGCGGAAGTAGTTTTTCTTGATGAGATTCCGAAGAACGCGACCGGGAAGCTGCTGAGACGGGCGGTCCGGGACATGCTTCCGAAATGA	MNLVSKLEETASQKPEKPACLFQDQYMTYEELAGKIKAFANGLEDRGLKKGDHLALLLGNTPDFVIAFFGALKAGIVVIPVNPAYTPSEIAYMLKNGDVKAIAGIDLLIPVFESLHGSLPLLEHIIISQTAENAPSTEDPQLRLKMTTFTKMLRPAERSRTYPTLSKDDTAVILYTSGTTGKPKGAMLTHQNLFSNANDVAGYLGMNEKDKIVAALPMFHVFCLTVCMNAPLMSGACVLIEPQFSPASVFKLIKSRQATIFAGVPTMYNYLYQYEHGKAEDFASVRLCISGGASMPVALLQTFEQTFDVTILEGYGLSEASPVTCFNPFDRGRKPGSIGTNILHVENKVVDTLGRELPDHQVGELIVKGPNVMKGYYKMPEETEHALKDGWLYTGDLAKRDEDGYFYIVDRKKDMILVGGYNVYPREVEEVLYSHEGIKEAVVIGVPDAKTGEAVHAYIVPGDGELTEQAVFDYCETHLAKYKRPAEVVFLDEIPKNATGKLLRRAVRDMLPK	PGPT0008380_13666	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-12_00172	396			hypothetical protein	ATGAAAAAAATAATCGCGTTTATTGTAGTAATCGCCCTTTTGGTTATTGCTTTCTTCTATGTATACAGCCGGACCGGCGATGTGTTTCCATCAAGCAACGCAGATCTGATTATTCTGTCTGAGCACGGAAAAAAAGAAATCAAAATTAAAGACAGGCAGAATGTAAAAGATATGCTCGATATCTTGAACCAAGGAAAACAAGTCAAACTGACCAAAAGCGTGTCTCCCGATTACGACGGAACGGTCAAATACCATGAAGACCGTTTTGATTCATTCAGCATGTGGCTCGAAGGCGGCAATTATATGATGTACAAGTATAAAAACACGTATTACAAACTGACCCGGCATGATACGAAGCTTGTGCAAAGCATCATTAAGGAAGAATCGCAGAGCTGA	MKKIIAFIVVIALLVIAFFYVYSRTGDVFPSSNADLIILSEHGKKEIKIKDRQNVKDMLDILNQGKQVKLTKSVSPDYDGTVKYHEDRFDSFSMWLEGGNYMMYKYKNTYYKLTRHDTKLVQSIIKEESQS				NA	NA	NA	NA	NA
D1-12_00173	1251	htpX_1		Protease HtpX	ATGCGCAAATGGATAGCGGCAGCGGGACTTGCCTATGTGCTGTACGGCCTTTTTTTCTATTGGTATTTCTTTATGACAGGAGACTCCGCCGTCCCGGAGGCCGTAAAGGGAACGAAAGCCGATCCGTCCTCGTTTATGGACCCGGGCCGCCTGGCAGCCGCTGAAAACTTTTCAAATGTAAAGGATTTTTTATTTTTCATCGGAGCGCCGTTAGATTGGTTTTTATTTTTTCTGCTGCTCATTACGGGGCTTGCCAAAAAAATAAAGCATTGGCTGGAAGCAGCGGTGCGCTTTCGGGTGCTGCAAATCGTAAGCTTCGTATTTGTGATTTCACTCATCGTTACGGCGGCTTCGCTTCCGCTTGAGTGGATCGGATATCGGGTTTCGCTTGCGTATCATATTTCGACGCAGACAACAGCAAGCTGGATAAGAGACCATGTCATTGATTTCTGGATCAGCTTTCCGCTGTTTGCCGTGTGTGTGCTTGTGTTTTACTGGCTGATCACAAAGCATACAAAAAAATGGTGGTTTTACGCTTGGTGCCTTACTGTGCCGTTTACCCTGTTTTTGTTTTTCCTGCAGCCGGTCGTGATTGATCCTTTATACAATGATTTCTATCCGCTGAAAGACAAGGAGCTGGAAAGCAAAATTTTGTCGCTTGCCGACAAGGCCGACATTCCGGCCAGCCATGTTTATGAAGTAAATATGTCGGAGAAAACGAATGCGCTGAATGCGTATGTGACGGGAATCGGTTCGAATAAGCGAATCGTTTTGTGGGATACGACGCTTAACAAACTGAAGGATCGGGAAATTTTGTTCATTATGGGGCATGAGATGGGGCACTATGTGATGAAGCACGTGTACATCGGACTGGCCGGGTATCTCCTGCTGTCATTAGCCGGGTTCTATATCATTGACAAGCTTTATAAGCGGCTGTCCAAATTCTTCGGCCGAATGCTTCATATAAAGGGGCCTGAAGATCTGGCCGCCCTCCCGCTGTTATTGCTCCTCATATCCGTTCTCAGTTTTGCTTCTGATCCGATTACGAATGCCGTCTCCAGGTATCAGGAAAACGCCGCCGACCGTTACGGCATCGAGCTGACCGGAAACCGGGAAGCGGCGATTGAGACGTTTCAGGACTTGGCCGATACGGGACTGAGCCGGGTCAACCCGCCGTTTCTCGTCAAAATCTTCAGAGGGAGCCACCCGTCGATCATGGAGCGGATTGAACATGCGGAGGAAGAAAAATAA	MRKWIAAAGLAYVLYGLFFYWYFFMTGDSAVPEAVKGTKADPSSFMDPGRLAAAENFSNVKDFLFFIGAPLDWFLFFLLLITGLAKKIKHWLEAAVRFRVLQIVSFVFVISLIVTAASLPLEWIGYRVSLAYHISTQTTASWIRDHVIDFWISFPLFAVCVLVFYWLITKHTKKWWFYAWCLTVPFTLFLFFLQPVVIDPLYNDFYPLKDKELESKILSLADKADIPASHVYEVNMSEKTNALNAYVTGIGSNKRIVLWDTTLNKLKDREILFIMGHEMGHYVMKHVYIGLAGYLLLSLAGFYIIDKLYKRLSKFFGRMLHIKGPEDLAALPLLLLLISVLSFASDPITNAVSRYQENAADRYGIELTGNREAAIETFQDLADTGLSRVNPPFLVKIFRGSHPSIMERIEHAEEEK				NA	NA	NA	NA	NA
D1-12_00174	1149	apr	COG1404	Subtilisin BPN'	GTGAGAGGCAAAAAGGTATGGATCAGTTTGCTGTTTGCTTTAGCGTTAATCTTTACGATGGCGTTCGGCAGTACGTCTCCTGCCCATGCGGCAGGGAAATCAAACGGGGAAAAGAAATACATTGTCGGATTTAAACAGACAATGAGCACGATGAGCGCCGCTAAGAAAAAAGATGTCATTTCTGAAAAAGGCGGGAAAGTGCAAAAGCAATTCAAATATGTAGACGCAGCTTCAGCTACATTAAATGAAAAAGCCGTAAAAGAGCTGAAAAAAGACCCTAGCGTCGCTTACGTTGAAGAAGATCACGTTGCACAGGCGTACGCGCAGTCCGTGCCTTACGGCGTATCACAGATTAAAGCCCCTGCTCTGCACTCTCAAGGCTTCACCGGATCAAATGTTAAAGTAGCGGTTATCGACAGCGGTATCGATTCTTCTCATCCTGATTTAAAGGTAGCAGGCGGAGCCAGCATGGTTCCTTCTGAAACAAATCCTTTCCAAGACAACAACTCTCACGGAACTCACGTTGCCGGTACAGTTGCGGCTCTTAATAACTCAGTCGGTGTATTAGGCGTTGCGCCAAGCGCATCTCTTTACGCTGTAAAAGTTCTCGGCGCTGACGGTTCCGGCCAGTACAGCTGGATCATTAACGGAATTGAGTGGGCGATCGCAAACAATATGGACGTTATTAACATGAGCCTCGGCGGACCTTCTGGTTCTGCAGCGTTAAAAGCGGCAGTTGACAAAGCCGTTGCTTCCGGCATCGTAGTCGTTGCGGCAGCCGGTAACGAAGGCACTTCCAGCGGCTCAAGCACAGTGGGCTATCCTGGTAAATACCCTTCTGTCATTGCGGTAGGCGCTGTTAACAGCAGCAACCAAAGAGCATCTTTCTCAAGCGTAGGTTCTGAGCTTGATGTCATGGCACCAGGCGTCTCTATCCAAAGCACGCTTCCTGGAAACAAATACGGCGCGTACAATGGTACGTCAATGGCATCTCCGCACGTTGCCGGAGCGGCTGCTTTGATTCTTTCTAAGCACCCGAACTGGACAAACACTCAAGTCCGCAGCAGTTTAGAAAACACCACTACAAAACTTGGTGATGCTTTCTACTACGGAAAAGGGCTGATCAACGTACAGGCGGCAGCTCAGTAA	MRGKKVWISLLFALALIFTMAFGSTSPAHAAGKSNGEKKYIVGFKQTMSTMSAAKKKDVISEKGGKVQKQFKYVDAASATLNEKAVKELKKDPSVAYVEEDHVAQAYAQSVPYGVSQIKAPALHSQGFTGSNVKVAVIDSGIDSSHPDLKVAGGASMVPSETNPFQDNNSHGTHVAGTVAALNNSVGVLGVAPSASLYAVKVLGADGSGQYSWIINGIEWAIANNMDVINMSLGGPSGSAALKAAVDKAVASGIVVVAAAGNEGTSSGSSTVGYPGKYPSVIAVGAVNSSNQRASFSSVGSELDVMAPGVSIQSTLPGNKYGAYNGTSMASPHVAGAAALILSKHPNWTNTQVRSSLENTTTKLGDAFYYGKGLINVQAAAQ				NA	NA	NA	NA	NA
D1-12_00175	879	yhfQ	COG4594	Putative ABC transporter substrate-binding lipoprotein YhfQ	ATGAAACCAATTTTCAGTATGCTGATGATCTTATCCGTTCTCTTCATAACGGCATGTTCAGAACAGGAACATGAAACCGCCGTCAGGCACGATCTGGGGACGGCACATGTGGCTGCGCATCCGCAGCGCGTCGCCGTATTGAATGATGGCTTTATTGATACCCTCCATGATCTCGGCATAAAGCCGGCGGCCGTGGCGGATGACCGGGCAGAGCGAAACGACGGCAGTCCGTCCGTCGGGCTCCCGTCACATCCCGATTTGAAAAAGATCACTTCGTTAAAGCCCGATCTCATCATTGCAGACTCAAGCCTTCACAAGGGGATATACCATGAGCTGACAAAGATCGCTCCGACAATCGCTTTACAAAATGAAGCTGCGGATTATCAGGATGCGGTTGACGCTGCCCTTACTATTGAAAAGGCGGTCGGTAAAGATGGCATCATAGAGAAACAATTGTCGGCTCAGGAAGAAAAGCTGAATGACATCAAAAGAAAGCTGGATGCAGAAGGCGGCACGATTTTATTAATTGACGCTGCAAATGACAGCATTTCCGTAAAGGATGACCGGTTTTTCACGTCCCGGCTTTTGACGCTCGCAGGGTTTACATATGCGGTCCAGACGGATTCCGGCGGGAAATCAGACTCTATCAAAATGACGCCCGGGCAGCTTTTGCATATCGATCCTGATTACATCGTACTGTTGGACGGTGAGAAAGAACTCGAAAAAAATCACCTCTGGAAACAGCTGACAGCCGTAAAAAACGGACACGTTTACCGCGCGGACAGGGCGGTATGGACGGAGCGCCGGAGCATTGACGGTGCGGACGCCATATTACATGATCTTCAGAAAAAAATGCTCGCCAAAAAGGCCCAAAACTGA	MKPIFSMLMILSVLFITACSEQEHETAVRHDLGTAHVAAHPQRVAVLNDGFIDTLHDLGIKPAAVADDRAERNDGSPSVGLPSHPDLKKITSLKPDLIIADSSLHKGIYHELTKIAPTIALQNEAADYQDAVDAALTIEKAVGKDGIIEKQLSAQEEKLNDIKRKLDAEGGTILLIDAANDSISVKDDRFFTSRLLTLAGFTYAVQTDSGGKSDSIKMTPGQLLHIDPDYIVLLDGEKELEKNHLWKQLTAVKNGHVYRADRAVWTERRSIDGADAILHDLQKKMLAKKAQN	PGPT0003765_10600	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
D1-12_00176	576	pspB	COG0406	Putative phosphoserine phosphatase 2	ATGACTGCCGTTTGTTTAGTAAGACATGGAGAGACTGATTGGAATGCCCAAAAGAAGCTTCAAGGCAAATCGGATATTCCGTTAAATGCGACGGGGGAGCGTCAGGCGAAAGAAACAGGAGAGTACTTAAAGGGGTCCGAATGGGATGTCATCGTCTCAAGCCCGATGAAACGGGCCAGAAAAACAGCTGACATTATTAACGGGTTTTTGAATCTTCCCATTGTTGTCATGGAAGATTTCAGAGAACGGAGCTACGGTGATGCGGAAGGAATGTCTTTACCGGAACGGTCGAAGCGCTACCCGGATAAAAACTACCCGAACATGGAGACAGCAGAAGAGCTGACAGACAGAATGCTTGCCGGTTTAGTGAAAGTTCAGGAGCGGTTTCCTGAGCAAAAAGTACTGATCGTCGCTCATGGCGCAGCCATTCACGCCCTCTTGTCCGCCATTTCTGACGGTGATACCGACATACAAAACGCAAAGCTTGTCAATGCGTGCCTGAGCAATATCGAACGAATTGAAAATAAGTGGCGCGTCAAAGATTACAATATAAGCAGCCACCTATCAGAATCATAA	MTAVCLVRHGETDWNAQKKLQGKSDIPLNATGERQAKETGEYLKGSEWDVIVSSPMKRARKTADIINGFLNLPIVVMEDFRERSYGDAEGMSLPERSKRYPDKNYPNMETAEELTDRMLAGLVKVQERFPEQKVLIVAHGAAIHALLSAISDGDTDIQNAKLVNACLSNIERIENKWRVKDYNISSHLSES	PGPT0002590_214	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-UNCHARACTERIZED_PHOSPHATASE,PGPT0002590-phoE-K15640	NA	NA
D1-12_00177	1092	yhfS	COG0183	Putative acetyl-CoA C-acetyltransferase YhfS	ATGGAAGCTGTAATTACGGATGCGAAACGGACGATTTTCGCCCGGGAAAACGGCCTGTTAAAAGACTGTCTCCCAGAAGATTTGGCAGCTCCGCTGATTCGCCATTTGAGCCGAAACATGCCCGAAGACATTGATGAAGTCCTGATCGGAAACGCGACGGGCCGCGGCGGGAATCTCGCCCGGCTGTCAGCCTTGGCCGCCGGACTTCCTTTGAGCGTGTCCGGTACGACCATCGACAGACAGTGCGGCTCCGGACTGGACGCCGTGAGGGTCGCGTGCCACTTTGTTAAAGCCGGCGCGGGGAGCATGTACATCGCGGGAGGAGCGGAGAGCAGCAGCCGTTCCCCTTTCTCTTCCCGGGCGCGCTTTTCTCCTGAACACATCGGCGATCCTGATATGGGCATAGCAGCCGAGTATACGGCACAGGCTTACGGCGTAACGAGAAAGATGCAGGACGAATATGCCCTTCTCAGCTATGAACGGAGCGTCAAAGCGAACGAAGACGGCTTATACCGCCGGGAAATTCTTCCCTGTCACGGATTCGCCGCTGACGAAAACATGCTGAAAAAGCGGAACATGGAGCCTCTCATCTCCCGTGCCAAACCCGTCTTTCAGTCCGGAGGCTCTGTCACCGCCGCCAACAGCTGCGGAATTTCTGACGGTGCGGCGGCAGTTTGTGTGATGGAAGAACAAAAAGCGCGGTCTCTCGGTTTAAAGCCAAGATTGCGTTTTATCGGAAGCGCGGTAAGCGGCGTCCATCCGCATTATCCGTCAGCAGCCCCGGTTTATGCCGTCAAAAAGCTTTTGAAGGAACGGAACCTGTCACCGGATGATATTGATATATACGAAATCAACGAGGCGTTTGCCGTCAAAATATGCGTTTTTTCACAGCAGCTTCAAGTGCCGTATTCTAAAATAAATGTCCGGGGCGGCGCTCTGGCCGTCGGGCATCCGTACGGGGCTTCCGGGGCGGCGCTTGTCACCCGGCTTTTTTATGAAGCAAAAAGACGCCCGGATGCCCGCTACGCAGCAGCAGCGATCGGCAGCGGAGGCGGAGTCGGACTGGCGCTTCTCTTTGAAGTGTTAACGTAA	MEAVITDAKRTIFARENGLLKDCLPEDLAAPLIRHLSRNMPEDIDEVLIGNATGRGGNLARLSALAAGLPLSVSGTTIDRQCGSGLDAVRVACHFVKAGAGSMYIAGGAESSSRSPFSSRARFSPEHIGDPDMGIAAEYTAQAYGVTRKMQDEYALLSYERSVKANEDGLYRREILPCHGFAADENMLKKRNMEPLISRAKPVFQSGGSVTAANSCGISDGAAAVCVMEEQKARSLGLKPRLRFIGSAVSGVHPHYPSAAPVYAVKKLLKERNLSPDDIDIYEINEAFAVKICVFSQQLQVPYSKINVRGGALAVGHPYGASGAALVTRLFYEAKRRPDARYAAAAIGSGGGVGLALLFEVLT	PGPT0008320_14337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-12_00178	1437	yhfT	COG0318	putative acyl--CoA ligase YhfT	ATGATTACATCATCATATTCAGATACAGCCGGACAAGCGCCGGAACAGATCGCAATTCAGACAGAAACAGAACAGATCAACTATCAAACTTGGAACAGGCTGGTAAACCAAACCGCAAACTGGCTTGGCAGCCTTATAGATAAGCCCGAAAACATTGCAATATTACTGCCGAACGGCATCCCATTTTTACAACTTTTCGCAGGCGCGGCGCATGCCGGCTGCACGGCGGTTCCGTTAGATCCCCGCTCGGCAGCGGCGGAACTCGCGGACCAGCTGCACATCAGCAAAACCGACCTCGTCATCTGTGACCGCCGGCTGAGCGGCAGACTGGACGGCGTCAAAACGCCTGTCATCCTGTGGGATGAATGCAGGCCTTTGATCGAGTCGGAAAAAACGGAAGGCGCTTTTATCGAAAACGCCGGCCTGCCCTTTTATACCGGATTCACCTCGGGATCGACCGGTAAGCCGAAAGCCTTCACCCGCTCTCACCGTTCGTGGCTGGAGAGCTTTTCTTGTACGAAACGTGAATTCGGCATTTCCCCTGATGACAAAGTGCTGGTACCGGGCACGCTTCGCTCGTCACACTTTTTATACGGCGCCGTCAGCACTTTGTTTATCGGCGGAACCGTCATCCTTCAAAGAAAATTCAATCCGGCCGGAATGAAAGACCGGCTCAGACAAGCTGACGTTCTATATACCGTGCCGACAATGACGGATGCCCTGCTCTCACTAGAGGCGTTTCCGGATAGACCGCTCAAGGTGATTTCTTCCGGTGCAGACTGGCCCGCTTCGTCTAAACAAGCGCTGTCAGAGCGCTATCCCCATTTGCGGTTGTACGATTTTTACGGAACGTCCGAGCTGAGTTTCGTGGCGTTCTTATCGCCTGAAGACAGCGCCCGAAAGCCTGACGCGGCGGGCCGCCCGTTTGAAAATGTTACAATCGAAATCCGCCGGCCCGGCGGAGAACGCTGCATGCCGGGCGAAACGGGGAAGATTTTTGTGAACAGCCCGATGAAATTTTCCGGATACATCAACGGCGCAAAATCTGATGATTCCGGCTGGATGACGGTTGATGACATGGGATATATCGATCGTGAAGGCTATCTTTATATCGAAGGACGTGAAAACGGGATGATCGTATCAGGCGGCCTGAATGTATTCCCTGAAGAGATAGAACGTGTGCTCAACCGCTGTCCGGGCGTCAGAAAAGCGGCAGTCATCGGCATTCCTGATGATTATTGGGGCAGCATCGCCGTTGCGGTGATCGACGGACATGCAAATGTAAAGGAACTGAAGAAACAGTGCCGCGAGCAGCTGGCGGCATATAAAATCCCGAAAAAGTGGCTGTTTTCAGAAATACCGGAAACAGCCGGCGGAAAGATCGCCCGTGCCGCCGTACAAAAGCAGGCAAAGGACATGATGGAATGGAAGCTGTAA	MITSSYSDTAGQAPEQIAIQTETEQINYQTWNRLVNQTANWLGSLIDKPENIAILLPNGIPFLQLFAGAAHAGCTAVPLDPRSAAAELADQLHISKTDLVICDRRLSGRLDGVKTPVILWDECRPLIESEKTEGAFIENAGLPFYTGFTSGSTGKPKAFTRSHRSWLESFSCTKREFGISPDDKVLVPGTLRSSHFLYGAVSTLFIGGTVILQRKFNPAGMKDRLRQADVLYTVPTMTDALLSLEAFPDRPLKVISSGADWPASSKQALSERYPHLRLYDFYGTSELSFVAFLSPEDSARKPDAAGRPFENVTIEIRRPGGERCMPGETGKIFVNSPMKFSGYINGAKSDDSGWMTVDDMGYIDREGYLYIEGRENGMIVSGGLNVFPEEIERVLNRCPGVRKAAVIGIPDDYWGSIAVAVIDGHANVKELKKQCREQLAAYKIPKKWLFSEIPETAGGKIARAAVQKQAKDMMEWKL	PGPT0008380_15768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-12_00179	558	bioY_1	COG1268	putative biotin transporter BioY	ATGAAATTGACAGAAATGATGCATATTGCCGTGTTTACCGCCATTATGGGACTTTTGGGGCTGCTCCCGCCGCTTTTCTTATCCTTTACGCCGGTTCCGATTACGCTCCAGACGATCGGTGTGCTCTTATCGGGAAGCATCCTAAAACCGAAAGCGGCGTTTTTAAGCCAATTGCTTTTTTTGCTGATTGTGGCATGCGGAGCGCCTCTCCTTTCAGGCGGCAGAGGCGGGTTCGGGGTTTTTTTCGGGCCGAGCGCCGGATATCTCATCGCATATCCGCTGGCGGCATTACTTCTGAGCCTCAGCATCCAAGGCCTTCGCTCAGCTGCTGTCCCCCATTTGTTTATCAGACAGTTCTTGTTCGGCGTGCTGTTTTTGTATGTCATCGGCATTCCCGTTCAGGCTTTTATAATGCACATTGATATCTTGACTGCCGTAAAGCTCAGCCTCATCTATGTGCCCGGAGATCTGCTTAAAGCGGCCGCAGCCTCATTCGCAGCCGTAAGAATCAGAAAAACTCTTCAAGCAAGCCGGCTTTTGCCGACGAAAGGAAGCTGA	MKLTEMMHIAVFTAIMGLLGLLPPLFLSFTPVPITLQTIGVLLSGSILKPKAAFLSQLLFLLIVACGAPLLSGGRGGFGVFFGPSAGYLIAYPLAALLLSLSIQGLRSAAVPHLFIRQFLFGVLFLYVIGIPVQAFIMHIDILTAVKLSLIYVPGDLLKAAAASFAAVRIRKTLQASRLLPTKGS	PGPT0022050_1854	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
D1-12_00180	1293	hemAT	COG0840	Heme-based aerotactic transducer HemAT	TTGTTATTTAAAAAAGACCGCAAAAAAGAAACAGCTTATTTTTCAGAAGCCGATGGAAAAAAACGCATCGCGCTTTCAAATCAATATGCAGATGTCCAAAAACAGCTGAAAATGGTCAGGCTCGGAAACGAAGAACTTCATGTGCTTGAAGAGCTGCAGCCGTTAATTAAAGAACATATCTCAACAATCGTCGATTCCTTTTACCGAAACCTGGATCACGAAAAATCATTAATGACGATCATTAACGACCACAGCACGGTCGAGCGCCTGAAAAAAACATTACGGCGTCATATCCATGAGATGTTCGCCGGCACGATTGATGATGAATTCATTGAAAAAAGACAGCGCATCGCTTCCATCCACTTGCGGATCGGCCTTGAACCGAAATGGTATATGGGAGCGTTTCAGGATCTGCTTCTGTCGATGATGAACATATATGAAGCAGCAATTCCGGATTTGCATGAGCTTTTAAAAGCGATCAAAGCGACGACGAAAATATTGAATCTTGAACAGCAGCTCGTCCTTGAAGCATTCCAGAGCGAATATAACTGCCAGCGTGACGAACAAGAGGAAAAGAAAGCCCGTCTTCATCAAAAAATCCAGGAAACATCCGGATCACTCGCTGATTTGTTTTCAGAAACGAGCAGAGCCGTGCAGGAGCTGGTCGATAAATCCGAGGGCATTTCCGAGGCGTCAAAAGCCGGCACCGTCACTTCCGTACATGTCGAAGAAAAATCAATCGGCGGGAAAAAAGAGCTTGAAAGCCAGCAGAAGCAGATGAATAAAATCGACGCCAGCCTTCTGCAGATTGAAGAAGAAATGGACAAGCTGAATGACATCGCCCAGCAGATCGAAAAAATCTTCGGCATCGTGACGGGGATCGCCGAGCAAACGAATCTCCTGTCACTCAACGCTTCAATAGAATCCGCGAGAGCCGGGGAGCACGGCAAAGGGTTCGCCGTTGTGGCGACGGAGGTAAGAAAGCTTTCAGAGGATACGAAAAAAACCGTTTCCACCGTATCAGAGCTCGTGAACAATACCAATACACAAATCAACATCGTGTCCAAACATATTAAAGATGTAAACGGACTTGTAAGTGAAACGAAAGAAAAAATGACGCAGATCAACCGTCTGTTTGATGACATCGTCCAAAGCATGAAAACGAGCAAAGACCAGACAGGCAAAATCGACGTTGATTTGCAGGCCTTTCTCGGCGGTCTTCAAGAAGTCAGCCGCGCCGTTTCCCACGTTGCATCATCCGTTGATTCACTTGTTATCCTTACAGAAGAATAA	MLFKKDRKKETAYFSEADGKKRIALSNQYADVQKQLKMVRLGNEELHVLEELQPLIKEHISTIVDSFYRNLDHEKSLMTIINDHSTVERLKKTLRRHIHEMFAGTIDDEFIEKRQRIASIHLRIGLEPKWYMGAFQDLLLSMMNIYEAAIPDLHELLKAIKATTKILNLEQQLVLEAFQSEYNCQRDEQEEKKARLHQKIQETSGSLADLFSETSRAVQELVDKSEGISEASKAGTVTSVHVEEKSIGGKKELESQQKQMNKIDASLLQIEEEMDKLNDIAQQIEKIFGIVTGIAEQTNLLSLNASIESARAGEHGKGFAVVATEVRKLSEDTKKTVSTVSELVNNTNTQINIVSKHIKDVNGLVSETKEKMTQINRLFDDIVQSMKTSKDQTGKIDVDLQAFLGGLQEVSRAVSHVASSVDSLVILTEE	PGPT0015705_233	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015705-hemAT-K06595	NA	NA
D1-12_00181	1524	petC_1		Cytochrome b6-f complex iron-sulfur subunit	TTGACTACTTTTTCAAACGAGGAACCGGCTTCCTATTGGAAAGCAACAGCTGACATTCCTTCCTTTCCCGCCCTCACTGAAGATACGGAATGTGACGTTGCGGTTATCGGCGGAGGAATTACGGGCCTGACAACGGCATACGAACTGACGAAAAGAGGTTTCCGTGTCGCTGTCATTGAAGCAGACCGGATTTTAAACGGGACGACCGCGGGCACGACCGCAAAAATCACCGCCCAGCATGATTTCATCTATGCCGATCTTATTCAGCAGATCGGACAGACCAGCGCAAGGCTGTATTTCGAAGCCCATCTCCGCGCCATGGAAGACATGAAGCAGATCATCAAGGACCTTTCGATTGACTGCAGACTGATTGAACAAGACGCATATCTTTACACCAATACAGAATCAGGCGCCAAAAAAATCCGCAGTGAGCAGGAAGCTTATACCAAGCTCGGCATTGAACACGAGCTTGTGAAAGAACTTCCCGTCCCTGTTGATTGCAGGCTCGGCCTCGCCATGAAGAATCAGGCGCAATTCCATCCGCTTTTATATGGCGCGGCGCTCGTCAAAGAGATCGTTAAAAACGGGGCGCGGATTTTTGAACAGACGGCTGCGATCGACATAAAAAAAGAACCGCAGCCGGAAGTGGTCACGAAAAACAGACACGGCATCAAGTGCAGCTACATTGTCTGCTCTTCCCACTTTCCTTTTTATGACGGAGGCGGGCTTTACGCCGCCAGAATGTATGCCAGCAGATCCTACGTACTCGCGGTAAAACCGAAACAAGCGTATCCGGACGGGATGTATCTCAGCATAGACAAGCCGTCCAGATCACTGCGATACACCGATTTGAACGGTGAAAAACTGGTTCTTGTCGGCGGCGAAAGCCACAAAACAGGCCAAGGAAAAGAAATGTCCGAGCATTACGAAGCACTGAAACAATTTGCGGAAGACACAATCGGAGTTGAAAGCATCCCATATCATTGGTCTGCACAAGACCTTGTCACCATTGACAAAATTCCGTTCATCGGTCCCATCTCGGGCGATGAAGAACATATTTTGGCGGCGACCGGTTTTAAAAAATGGGGCATGACAAGCTCAGCGCTCGCCGCGAAGCTTTTGGCTGATCATATTCAAAACAAAAAGAACCCGTTTTCCGGCCTGTTTATTCCGTCACGCTTCCACGCAGATCCGGGACTGAAAAAACTGATTTCTTATAATGCCGACGTGGCCAAACACCTTATCTCGGGCAAACTTGAGAGGCCGAACGCTTCACCTGAGACTCTTCGGCCCGGGGAGGGAAAAATCGTAACGGTAAACGGCAAACGGGCCGGCGCCTATAAAGATGAAAAAGGCTGTCTGCATCTTGTCGATACGACATGCACCCATTTGGGCTGTGAGGTCGAATGGAATGACGGCGAACGGACGTGGGACTGTCCTTGTCACGGGTCCCGGTTCACACCTGACGGCGGGGTTGCCGAAGGTCCCGCCATCAAGCCGCTGAAGCGCCTCAGCCAAGATTGA	MTTFSNEEPASYWKATADIPSFPALTEDTECDVAVIGGGITGLTTAYELTKRGFRVAVIEADRILNGTTAGTTAKITAQHDFIYADLIQQIGQTSARLYFEAHLRAMEDMKQIIKDLSIDCRLIEQDAYLYTNTESGAKKIRSEQEAYTKLGIEHELVKELPVPVDCRLGLAMKNQAQFHPLLYGAALVKEIVKNGARIFEQTAAIDIKKEPQPEVVTKNRHGIKCSYIVCSSHFPFYDGGGLYAARMYASRSYVLAVKPKQAYPDGMYLSIDKPSRSLRYTDLNGEKLVLVGGESHKTGQGKEMSEHYEALKQFAEDTIGVESIPYHWSAQDLVTIDKIPFIGPISGDEEHILAATGFKKWGMTSSALAAKLLADHIQNKKNPFSGLFIPSRFHADPGLKKLISYNADVAKHLISGKLERPNASPETLRPGEGKIVTVNGKRAGAYKDEKGCLHLVDTTCTHLGCEVEWNDGERTWDCPCHGSRFTPDGGVAEGPAIKPLKRLSQD				NA	NA	NA	NA	NA
D1-12_00182	858	ydaD_2		General stress protein 39	ATGGCTAATCAGAAGAAGAAAACCTTGCCGCCGCAGCATCAAAACCGGCAGCCGGGCTTTGAATATGTAATGGACCCGCGCCCCGTTTTTGACAAACCGAAAGCGGCGAAAAAACTTGAAGGGAAAACGGCGATCATCACGGGCGGAGACAGCGGGATCGGCCGCGCCGTATCCGTTTTATTCGCGAAGGAAGGCGCTAATGTGGTCATCGTTTACTTTGATGAGCATCAGGATGCCGAAGAGACGAAGCAATATGTAGAAAAAGAGGGGGCGAAGTGTCTGCTGATCGCAGGGGATGTCGGCGACGAAGCCTTCTGCAACGATGTCATCCGCCAGGCCGGCCAAGCCTTTCCTTCCATTGACATCCTGGTCAACAACGCGGGTGAGCAGCACGTGCAGCCGGGGATTGAGAAAATCACGAGCCACCAGCTCATCAGAACGTTTCAGACGAATATTTTTTCAATGTTTTACTTAACGAAAGCCGCGCTCCCTCACCTGAAAAAAGGAAGTTCAATCATTAATACGGCCTCCATTACCGCCTATAAAGGCCACAAAACATTGATTGACTATTCAGCGACAAAAGGGGCGATCGTCACGTTTACAAGATCTCTTTCCCAATCTCTTGTCACTCAGGGCATCAGGGTAAACGCAGTGGCGCCGGGGCCGATCTGGACGCCGCTGATCCCGGCGAGCTTCTCGGCGAAGGAAGTGGAAGTCTTCGGCTCAGATGTGCCGATGCAGCGCCCGGGAGAGCCTGTTGAAGTGGCGCCGAGCTATTTGTACTTAGCAAGCGATGATTCTTCATATGTCACGGGACAGACGATTCATGTGAACGGCGGCACCATCGTAAACGGATAA	MANQKKKTLPPQHQNRQPGFEYVMDPRPVFDKPKAAKKLEGKTAIITGGDSGIGRAVSVLFAKEGANVVIVYFDEHQDAEETKQYVEKEGAKCLLIAGDVGDEAFCNDVIRQAGQAFPSIDILVNNAGEQHVQPGIEKITSHQLIRTFQTNIFSMFYLTKAALPHLKKGSSIINTASITAYKGHKTLIDYSATKGAIVTFTRSLSQSLVTQGIRVNAVAPGPIWTPLIPASFSAKEVEVFGSDVPMQRPGEPVEVAPSYLYLASDDSSYVTGQTIHVNGGTIVNG	PGPT0003180_15626	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
D1-12_00183	234			hypothetical protein	ATGAAAGAGAAAAAGTCGTACACTGAGCTCATGAAGTCCCGCAACACGCAAAAAGCAAACGAATTCGATGTGACAATGGCCGATATTTACATTCAAATGGTGCTTGATGAATCCTTGTATAAACGCCGGATCGCCATGCTGACAATGCAGATTAATAAGGCGCTTGATGATAAAAATAAAGAAGCGTTCCTCACGCTTTCAAAAGAATATGCCGCACTCAAACAGAGTGAATAA	MKEKKSYTELMKSRNTQKANEFDVTMADIYIQMVLDESLYKRRIAMLTMQINKALDDKNKEAFLTLSKEYAALKQSE				NA	NA	NA	NA	NA
D1-12_00184	579	comK	COG4903	Competence transcription factor	ATGTGCCAGAAAACACACGCACCCTTAGAAAGCTACGAAGTAAATCGTTCAACCATCGCTGTTTTGCCTGAGGAAATAGACGGTAAAATGGGGTCGAAGGTCATTGAAAAAGACTGCATTCTGTATGTCAGCATGAAGCCGATTCACATCATCGACAGAAGCTGCCGCTACTTTGGCTCCAGCTATGCCGGGAGAAAAGCGGGAACATATGAAGCGATTAAAATTTCTCACAAGCCGCCGATTATGGTGGACCCTTCAAATCACATCTTTTTATTCCCTACACTTTCTTCTGCAAGGCCTCAATGCGGCTGGATATCGCATGTGCACGTTAAAGATTTTCAACCGACGGCATTTGATGACACAGCGGTCACGTTCTCAAACGGCAAAACGATGGAACTGGAAGTATCCTATCATTCTTTTGAAAATCAGGTTTACAGAACCGCCTATCTCAGAACCACTTTTCAGGACAGGATGGGCAGTCATATCCCGAAGCGGCAGGAATTCATGCTGTATCCGAAAGAAGAGCGGACAAGAATGATCTACGACTTTATTTTGCGGGAGCTGGGGGAGAGATATTAG	MCQKTHAPLESYEVNRSTIAVLPEEIDGKMGSKVIEKDCILYVSMKPIHIIDRSCRYFGSSYAGRKAGTYEAIKISHKPPIMVDPSNHIFLFPTLSSARPQCGWISHVHVKDFQPTAFDDTAVTFSNGKTMELEVSYHSFENQVYRTAYLRTTFQDRMGSHIPKRQEFMLYPKEERTRMIYDFILRELGERY	PGPT0025815_79	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0025815-comK-K02250	NA	NA
D1-12_00185	369	fra_1	COG5646	Intracellular iron chaperone frataxin	ATGGATGTGTTTGCAAAATATGTATCAGGAATCGATAACCCGGATCACCGTCTCAAAGCAGAGGAAATTTTGTCGTGGACGGCTGGCCAATTTCCGAACTTAGAAGCGCAGATCAAGTGGAACAAACCGACATTTACCGATCACGGCACCTATATCATTATGTTTGCCGCGGCAAAAAATCATTTGAGCATTTTACCTGAAAAAGAGACGATGGAGCATTTTGCCGATGACATCGCCCAGGCCGGGTACAGCGCTTCTTCGCGCCTGTTCAGAATTCGATGGACTGATCCGGTGCACTATGATCTGCTTAAGAAGATCATCGAATTTAACATCAAGGAAAAAGCTGAAAATCCGGGGTTTTGGCGCTAG	MDVFAKYVSGIDNPDHRLKAEEILSWTAGQFPNLEAQIKWNKPTFTDHGTYIIMFAAAKNHLSILPEKETMEHFADDIAQAGYSASSRLFRIRWTDPVHYDLLKKIIEFNIKEKAENPGFWR				NA	NA	NA	NA	NA
D1-12_00186	372	fra_2	COG5646	Intracellular iron chaperone frataxin	ATGGACGTTTTCAAAGACTATTTATCAAGTATCGACAGCCCTGATCATCGTCTGCGAATGGAGGAAATCCTGTCGTGGACGGCTGACCGATTTCCGAACTTAGAAGCGCAGATCAAGTGGAACACGCCGATGTTTACGGATCACGGCACCTTTATTATCGGCTTTGCGGCAGCAAAGCATCATGTAAGTGTTTCCCCCGAAGAAGCGGGAATTGCGCATTTTGCCGACGACATTGCCCGTGCCGGCTACAGCGCTACTTCCCGTTTGTTCAGAATTCAATGGACTGAACCGGTGCATTATGAGCTGCTTGAACGCATGATTCAATTCAATATTCAGGATAAGGTGGACTGCTCAGCATTTTGGCGGAAATAA	MDVFKDYLSSIDSPDHRLRMEEILSWTADRFPNLEAQIKWNTPMFTDHGTFIIGFAAAKHHVSVSPEEAGIAHFADDIARAGYSATSRLFRIQWTEPVHYELLERMIQFNIQDKVDCSAFWRK				NA	NA	NA	NA	NA
D1-12_00187	510			hypothetical protein	GTGAATGAATTTTATAAGGCGTTAACACATGTAAATAAAATTTTTTATGAACCAAATCACTTAACGATACATGATATTCAAGAAGAAGCTCAAAATTCAGAGTATGGGGCCGGTATGTTTCAACTGCATTCAAAATCAGTTCGATTCAGAGTCGCAAAAATAACGCCTAACAAGATAGGACAGTTTGTTGCTTTTTGGGAAAAAGATGGAGATGGTAAAAACCACGCCTTTTCATATGAAAAAGCTGCTGATTTATTGGTTATCAATACTTTTGCCGGTAATAATCATTTTGGACAATTTGTTTTTCCAAAAGAAGTTCTTGTAAAGCAAAATATCCTTAAAACAGCCGCTGCAAAAGGAAAAATGGCAATTAGAGTTTACCCTAAATGGGAAAATCCCACTAGCAAACAAGCTATCAAAACACAAAAATGGCAGTTGGCATATTTTGTAGAGGCGAACGATGCAGATCGTTTTCCAGCACAAGACCTGTTAAAGCTATATTCTAACTAA	MNEFYKALTHVNKIFYEPNHLTIHDIQEEAQNSEYGAGMFQLHSKSVRFRVAKITPNKIGQFVAFWEKDGDGKNHAFSYEKAADLLVINTFAGNNHFGQFVFPKEVLVKQNILKTAAAKGKMAIRVYPKWENPTSKQAIKTQKWQLAYFVEANDADRFPAQDLLKLYSN				NA	NA	NA	NA	NA
D1-12_00188	711	yncM		putative protein YncM	ATGATGAAAAAAGGGCTTCTTGCGGGTGTTCTCACTACAGCCGTTCTATTCGGCGCATGTACGGCGGATATTCCGGGGGTGATCAGTCCCAATACGGCGGAAGCGGCGTCCCAGCTCAGCAAAGGAATCGGCGGAAGGGCCTACCTGAACAGCACGGGCTCAGTTCTCGTCACGAAAATTCAGCTTCCAAGCTCGATTCAGGTGTCAAATGGGACAGCCTATATTTACTCAGGATTTACCGGAGGCACAGAGGCTGATATCGGGCTTCAGTACAGTGACACCTATCATGTATGGAAACCGATCATGAAAGTCGGTTCAAAGGGGCAAGGCCAGGTCCGGTATCTGGAAGGAGAAAGCCAATTCACCTATACGAAAGGCTTCCGGCCCGGCAGCACCGTACAGCTGACCATTTACAAAAATCTGAACGGCAATACCCGCGCCACATATTGGGGCACGAATAATGACGGATACACCGGCCGCATCATCTCAGAACTCGCCCAAACAAATGTAGGCTCTGTCTCAAAATGGAAAGCGCTCGCCACCGTCGCGGTCACATCAGAGGATCAGCGCCCTTACATCAAATCAAACTTCTCAACAGCCTTTACGAACATCACGATCGACAATAAAGCAGTCACCCCTGTGATTGATACACAGGATTTTGCCAAATTGACAGTGTCAGGCAGCAGCGTCAGCATGTCTGTCGTCAAATAA	MMKKGLLAGVLTTAVLFGACTADIPGVISPNTAEAASQLSKGIGGRAYLNSTGSVLVTKIQLPSSIQVSNGTAYIYSGFTGGTEADIGLQYSDTYHVWKPIMKVGSKGQGQVRYLEGESQFTYTKGFRPGSTVQLTIYKNLNGNTRATYWGTNNDGYTGRIISELAQTNVGSVSKWKALATVAVTSEDQRPYIKSNFSTAFTNITIDNKAVTPVIDTQDFAKLTVSGSSVSMSVVK				NA	NA	NA	NA	NA
D1-12_00189	270			hypothetical protein	ATGAAAAAGACGGCAGCTGTGCTTTTGTCTTTCGGTCTGGTGTTCGGTTGTTCATACGGAGCGGGGCAGACGGCAGAAGCGAAAACAAAGGTAAAAACGTATCAAAACTGCAAGGCGCTGAATAAGGTGTATAAGGGCGGTGTGGCCAAATCGTCGAAAGTGAAAAACAAGGGCGGCAGAACAAAGTACAAGCCGTATGTATCAAAAGCGCTTTACAATGCAAATAAAAGACTTGACCGAGATAAAGACTATATTGCATGTGAGAAATAA	MKKTAAVLLSFGLVFGCSYGAGQTAEAKTKVKTYQNCKALNKVYKGGVAKSSKVKNKGGRTKYKPYVSKALYNANKRLDRDKDYIACEK				NA	NA	NA	NA	NA
D1-12_00190	318			hypothetical protein	ATGATCATGACAACGACCGAAACTGTCGCCGGAAAACAGATTACAGAAGTGAAAGGCTTGGTGACAAGCAGTATCGTCCAGTCCAGACACATCGGCAAAGACTTGCTTGCAGGCTTAAAATCTGTCGTCGGCGGCGAATTGAAAAGCTATACTGAAATGCTGGAAGACTCCAAAAAAGCGGTGAAAGAGCGCCTGATCAGAGAGGCGGAGCAGCTCGGAGCGAACGCCATCGTCGGCCTGCGGTTCGAACTGACCGCAGGACAGAACACATCCGAATTAATCGGATACGGAACCGCCGTCACCGCCGAATCCATTTAA	MIMTTTETVAGKQITEVKGLVTSSIVQSRHIGKDLLAGLKSVVGGELKSYTEMLEDSKKAVKERLIREAEQLGANAIVGLRFELTAGQNTSELIGYGTAVTAESI				NA	NA	NA	NA	NA
D1-12_00191	1470	yodF_1	COG0591	putative symporter YodF	ATGAACGCAGCATTTCCCGTAATGGCCGTCGTGCTCCTGTTTTGTGTATATCTCGGAATCCGGGCCCGAAAAGGAAAAAATATGGACCTTGAACAATGGACAGTGGGCGGACGCGGCTTCGGCACGATGTTTGTCTTTTTATTAATGGCGGGAGAAATATACACGACCTTTACATTCCTCGGCGGAAGCGGATGGGCTTACGGAAAAGGAGGCCCCGCCTTTTATATTATCGCGTACGGCTGCCTTGCCTACATTTTGTCATATTGGCTTCTGCCAGCCGTGTGGACTTACGCCAAACAACACAAACTGATGTCGCAATCAGATTTTTTTATTTCAAAATACAACAGCCCGCTCCTCGGCATTCTCGTATCGCTCGTCGGCATCGCATCCCTCATCCCCTATCTCGTCCTGCAGCTGAAAGGGCTCGGATTAATTGTTTCAGCAACGTCATACGGACAGATTCCGCCCTCAGCCGCTGTCTGGATCGGCGCTGTCTCCATCACGATTTATGTGATGATATCAGGAATCCACGGTTCAGCGTGGATATCCGTCGTTAAAGATATCATGATTTTAGGCATCGTCCTGTATTTAGGCATTTATCTGCCCATTCATTACTATGGCGGGTTTACGGAGATGTTCAAACAAATTGACGCCGCAAAACCCGGTTTTCTCACGCTGCCGGAAACCGGACAGAGCGTTTCCTGGTTCAGCTCAACGGTTTTGCTGACCGCTCTCGGCTTTTATATGTGGCCCCATACATTTGCCGCTTCCTATTCGGCGGAGCATCCGCGGGTGTTTCGGAAAAACGCAATCATCATGCCTCTTTATCAGCTCGTCCTGCTGTTTGTCATCTTTACCGGATTTGCGGCGATTCTGCAGGTGCCCGGTTTAAAAGGGGCGGACACGGATCTCGCCTTATTAAAGCTGTCTGTGAAAACCTTTGATCCCTGGTTTGTCGGACTGATCGGATCGGCGGGCATTCTGACGGCGCTTGTACCCGGTTCAATGATATTAATGGCCTCAAGCACGCTGTTCGCCAAAAATGTGTACAAAGCCATTCTGCCCGGCACGACTGACGAAAAAGTCTCACGGCTCGCAAAATACGCCGTACCCGTCATCGCGCTGATATCCGTATATTTTACGCTGAAAGGCGGAAATACCATCGTCACCTTGCTTTTAATGGGCTACAGCCTTGTCACCCAGCTTTTCCCCGCACTCTTATTCAGCCTGCCGAAGCGGCGTTTCATCACAAGCCACGGCGCTTTTGCCGGCATAACGGCCGGGGTCGGAACGGTGTCCTTCATTACGCTGACCGAATCAACCATCGGAACCCTCTTTCCGTTTCTTCCGCAGATCGTTAAGGATATGAATACAGGCATCATCGCGCTGGTTCTGAACATTGCCGTCATGTTTGCAGTCAGCGCCGCAGTCAGAAAAAAACAAATCAGCGCAGCCGAAAAGGCGGCTTAA	MNAAFPVMAVVLLFCVYLGIRARKGKNMDLEQWTVGGRGFGTMFVFLLMAGEIYTTFTFLGGSGWAYGKGGPAFYIIAYGCLAYILSYWLLPAVWTYAKQHKLMSQSDFFISKYNSPLLGILVSLVGIASLIPYLVLQLKGLGLIVSATSYGQIPPSAAVWIGAVSITIYVMISGIHGSAWISVVKDIMILGIVLYLGIYLPIHYYGGFTEMFKQIDAAKPGFLTLPETGQSVSWFSSTVLLTALGFYMWPHTFAASYSAEHPRVFRKNAIIMPLYQLVLLFVIFTGFAAILQVPGLKGADTDLALLKLSVKTFDPWFVGLIGSAGILTALVPGSMILMASSTLFAKNVYKAILPGTTDEKVSRLAKYAVPVIALISVYFTLKGGNTIVTLLLMGYSLVTQLFPALLFSLPKRRFITSHGAFAGITAGVGTVSFITLTESTIGTLFPFLPQIVKDMNTGIIALVLNIAVMFAVSAAVRKKQISAAEKAA	PGPT0013955_4427	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
D1-12_00192	201			hypothetical protein	ATGAAACTGATTCATGTTCTCGCCGCCCTGCCCTTTTTCGGAATTCTCGCCGGCATTCCATTTGCCAACCGGGTGACGCCTTATGTTTTCGGAATGCCTTTCATTCTCGCGTATGTCGTCATCTGGGCGGTGCTGACTTCCGTTCTGATGGCCGCTGTTTACAAATTGGACAAAGAAAACAAGGCGGGTGAGGCGGAATGA	MKLIHVLAALPFFGILAGIPFANRVTPYVFGMPFILAYVVIWAVLTSVLMAAVYKLDKENKAGEAE				NA	NA	NA	NA	NA
D1-12_00193	360			hypothetical protein	ATGCCTGACATCCGGAGCGGCACCCGCGATCTCATCGAAAAAGGGCTGTTTCTGCCCATGGCGGCTGCCATCCTGAACCGGGACCTCGAAGCGCTTGATTCGTGCCCGTTCAAATTAAAACAACCCTATAAACAGCTTATCGGCTGCTCTTTAAAATTAGCACAAAAGGATTTGAGTGATGTTCGAAAAGAGTTAAGAAAGCGTAAAATTAAACTATACGAAGCGGAAAGAGACGAAGCATTTACGCTTTATATATGCACCATTAACGGCTATGAAGAAAAACACCGTTATTTCAACCCGAGAATACGGGAACAGGTAACCGCCTTATTGGAATATTACCTGTCTCTTGCGACCATTTAA	MPDIRSGTRDLIEKGLFLPMAAAILNRDLEALDSCPFKLKQPYKQLIGCSLKLAQKDLSDVRKELRKRKIKLYEAERDEAFTLYICTINGYEEKHRYFNPRIREQVTALLEYYLSLATI				NA	NA	NA	NA	NA
D1-12_00194	627			hypothetical protein	TTGGAGCATTTTTTATCATATTTGACTGAGGAACAGCTGACGGAATGGTTCCAAAGCTATAGAGCTTTCGGCCCGGCGGCTGCGGTTGCACTGCCTTTTATTGAAGCGTTTCTTCCGTTTTTGCCGCTTGTTGTATTTGTGGTGGCGAATACGAATGCATTTGGTTTGTGGGAAGGTTTTTTTCTGTCGTGGCTCGGTTCTGCGGCAGGATCGATACTGATGTTTTATGCCGTCCGCCGTTTCGGACAGAAAAGAGCTTTCGGTTTCATCCGCAGGCATCAGACCATAAGGCGGATGATGCTCTGGGTTGAGCGGCACGGTTTCGGTCCGCTGTTTATTTTACTTTGCTTCCCCTTTACGCCGTCCGCTGCGGTTCATATCGTTGCCGGTCTGTCACGGGTGGGGGCGCTGCAGTTTATATCAGCAGCCGCTATGGGGAAAATGGTCATGATCTTTATGATCAGCTTTATCGGGTATGATCTTCACGCACTCATGACACAGCCTTTCAGGATGGCGGGCGCTATAACGGTGATCGGGGTGCTGTGGTATGCCGGAAAGCATATCAAACGGCGTTTACAGACGAGAATCAGTCAGCATGAGAAAGACGGAGGGAGACAGGAATCTTGA	MEHFLSYLTEEQLTEWFQSYRAFGPAAAVALPFIEAFLPFLPLVVFVVANTNAFGLWEGFFLSWLGSAAGSILMFYAVRRFGQKRAFGFIRRHQTIRRMMLWVERHGFGPLFILLCFPFTPSAAVHIVAGLSRVGALQFISAAAMGKMVMIFMISFIGYDLHALMTQPFRMAGAITVIGVLWYAGKHIKRRLQTRISQHEKDGGRQES				NA	NA	NA	NA	NA
D1-12_00195	516	sipV	COG0681	Signal peptidase I V	TTGAAAAAACGATTTTGGTTTATAGCCGGCGTGCTTATCGTTGTTTTGGCCATACAATTAAAGAATGCCATTTTTATTGATTATAAAGTCGAAGGAATCAGCATGAATCCGACCTTTAAACAAGGAAATGAGCTGATGGTCAACAAGTTTTCCCATCGTTACAAAACGATCCGCCGTTTCGATATTGTCCTGTTTAAAGGCCCGCACCGCAAAGTGCTGATCAAACGAGTCATCGGGCTCCCCGGCGAGTCAATCGCATACAGGGAGGATCAGCTGTATGTGAATGGAAAACGGGTGGCGGAACCGTTTTTAAAACCGTTAAAGTCATCATTGTCCGCCGGGAGCCATGTGACCGGTGATTATACGCTGAAGGAAACGACCGGGCGCAAAAGCATACCGAAGGGACAATACTTTGTTATTGGCGACAACCGCATATACAGCCTCGACAGCCGTCATTTCGGTCCGATTAAGGATAAAGACATTGTCGGAGTCATCAGTGAATCAGACGCCAAGTGA	MKKRFWFIAGVLIVVLAIQLKNAIFIDYKVEGISMNPTFKQGNELMVNKFSHRYKTIRRFDIVLFKGPHRKVLIKRVIGLPGESIAYREDQLYVNGKRVAEPFLKPLKSSLSAGSHVTGDYTLKETTGRKSIPKGQYFVIGDNRIYSLDSRHFGPIKDKDIVGVISESDAK				NA	NA	NA	NA	NA
D1-12_00196	90			hypothetical protein	ATGAAAATTGTTACGCGCGAAACAAAAAAGAGGCGTTTTATTTTTCGTGATATTGTTACGTGTGTAACAAAAAATATGAAAGAGGACTGA	MKIVTRETKKRRFIFRDIVTCVTKNMKED				NA	NA	NA	NA	NA
D1-12_00197	1479	rox		Rifampicin monooxygenase	ATGAAAACACAGACTGCCATTATCGGGGGAGGTCCGGTCGGGCTTATGCTTGCATCAGAACTGGCGCTGGCCGGAGTGAAAACGACTGTCATTGAACGATTGAAGAAGACGGTGCCATATTCCAAAGCGCTTATCATGCATCCGCGCACACTTGAGCTTTTTGCCATGAGGGGCATATTGGAACGCTTTTTGGAAAAAGGGACGAAGGTGTCTTCCGGCCATTTTTCCATGCTGGATACACGGCTGGATTTTTCTCGGCTGGATACGAAGCAGAATTATTCGTTAATGCTGCCTCAGGCAGAAACGGAGCGGATTTTGGAGGAGTATGCATCAAGTCTCGGCGCAGACATCATCCGCGGGGCGGAAGCGGTGGCTGTCATCCAGACGGATGACGGAGTGGAGACGGTGTTCCGGGACGAAAGCGGTATCCGCACTCTTCACAGCTTTTATGCAGCGGGTACAGACGGAGCGGGGAGCATTGTCAGGAAACAGGCGGGCATCGCTTTTTCGGGCACTGATGCCGACTTAACAGGAACCCTCTGTGATGCCGCTTTGAAACATCCGCCCGAATCTTCCTTTTTGTCAACGTGCCGCCTGGAGGGATCGGTTGTGATTGTCCCTCTTACGGACGGACTTTTCCGCGTCCTGATCATTTCTCCGCACGCTCCGCAAAAGCGGAAGGAAGAGCCGGTCACTGAAAATGAGCTGAAAGAAGACCTGCAGCGGATATGCGGCACTGATTTCGGATTGAGTGATCCGGTATGGATGTCGCGGTTCGGCAATGCCGAGCGTCAGGCCGAACAATACCGCTCCGGCCGGGTTTTTGTGGCCGGTGATGCGGCGCACATTCATTTTCCCGCAGGCGGCCAAGGCCTGAACACGGGGCTTCAGGATGCCTTCAACCTCGGCTGGAAGCTGGCGGCGCAAATGAAGGGAAAAGCGGCGCCTCATCTTCTGGACAGCTATCATCAGGAAAGGCACAGCACAGGAAAAGAAGTGTTGCACAATATAAAAACCCAGATAAAGCTCATGGATTTTACCGAGTCGGGTATGGCATTAAGAGAAACGATGACCGCTTTGCTGGATTTTCAGGAGTCCAACCGTTTATTGGCGGGAAAAGTATCCGCGCTTGATCTGCATTATGAACCGGATGCGGAGCTGCCGCCGCATACCCTGAACGGAAAACGCCTGCCGGATATCGAATTGACCCTTCATGACGGGCGGCCGGCCCGGCTGTATGATTTTCTTCATAAGGGCGCCTTTGTGCTTCTGTCATTAAGAGGGAGCATTCCCGCCGGTATTGATACGGACAGCGTGGCAGCTGTCAGGGCGGATCTTGCTGAAACACGTGCCGATTGGGATGACGTCCACACCGTTTTAATCCGGCCGGACGGCCACGCGGCATGGGCAGCCGGCGGCTCGGGACGTGAAGCGGAAGAAGCCGTTCTGGCCGGTTTGGAGAGATGGGGGTTCATCTGA	MKTQTAIIGGGPVGLMLASELALAGVKTTVIERLKKTVPYSKALIMHPRTLELFAMRGILERFLEKGTKVSSGHFSMLDTRLDFSRLDTKQNYSLMLPQAETERILEEYASSLGADIIRGAEAVAVIQTDDGVETVFRDESGIRTLHSFYAAGTDGAGSIVRKQAGIAFSGTDADLTGTLCDAALKHPPESSFLSTCRLEGSVVIVPLTDGLFRVLIISPHAPQKRKEEPVTENELKEDLQRICGTDFGLSDPVWMSRFGNAERQAEQYRSGRVFVAGDAAHIHFPAGGQGLNTGLQDAFNLGWKLAAQMKGKAAPHLLDSYHQERHSTGKEVLHNIKTQIKLMDFTESGMALRETMTALLDFQESNRLLAGKVSALDLHYEPDAELPPHTLNGKRLPDIELTLHDGRPARLYDFLHKGAFVLLSLRGSIPAGIDTDSVAAVRADLAETRADWDDVHTVLIRPDGHAAWAAGGSGREAEEAVLAGLERWGFI	PGPT0028535_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RIFAMYCIN_RESISTANCE,PGPT0028535-iri|rox-K21267	NA	NA
D1-12_00198	522	pchR		HTH-type transcriptional regulator PchR	TTGGACAGAAGACAGCCAGACCATGCAAAACACATGATTCTTGAAGGGCTGACAGATATTTTTCACGAGCAGGAGAGGTGTCAGGAGGACATCAGGGCGTCGTTGGCCGGACGGATGGACGAACTCCGTGAAGAAAACGGGAAAAAATTACAGCTGACCTTGACGGAAATTCACATTTTGTCGTGTATCGGAGATCATGAACCGATCAATGTCACGTCAATAGCGGAAAAAATGAAGACGACAAAGCCGACCGTGTCGAGAAGCTGCGCGAAGTTTTTGGAAGCCGGCTTTCTGCGCAGAACCCGGCTGAGCGACAATAAAAAAGAAGTCTATTTCCGGCTGACTCCTGCCGGGAAAGAGCTGCATTCCCTTCATCATGAATATCATGAATTGATAAAAAAGCGGCTCTTGGCGTTTTTAGACCGCTATACAGATGAAGAACTGTTATTTGCTGAACGGCTGTTCCGTGATCTTTCAGCAAACTGGCGGTCTGTAAATGGCGGCGGAGAGCTGTTTAAATAA	MDRRQPDHAKHMILEGLTDIFHEQERCQEDIRASLAGRMDELREENGKKLQLTLTEIHILSCIGDHEPINVTSIAEKMKTTKPTVSRSCAKFLEAGFLRRTRLSDNKKEVYFRLTPAGKELHSLHHEYHELIKKRLLAFLDRYTDEELLFAERLFRDLSANWRSVNGGGELFK				NA	NA	NA	NA	NA
D1-12_00199	1158			hypothetical protein	TTGAAGAAAGACAAACATCTCCTTACAGATATCTGGTTTATTCTCATCAGTGCGGCAGGGGGGTTTCTTCTTTCGCTTACAGGGATGTCGATCGCCTGGATGCTCGGAACGCTGGCCGCCGGCTGCATCCTATCCATGACGAGGCCCCGCTGGCTGTTCATGGCGCCTGACAGAAGAGGGATTCACCGCAGATGGCTTGCGGCGGGACAAATGATCCTCGGCATCGAACTCGGCCAGAAACTGAACCTGTCCGTTCTGTCGGTTTTACGGGAGCATTGGCTTCCGGTAGGCTTCATGCTGATTTTCTCTATCGTGATGGCGCTTGTTTCCGGATATGTGCTCTTTCGGTTCAGCCGGACGGACATGATGACAAGCTTTGTAGGCACGGCGCCGGGCGGTTTATCCGCCATGCCGGGTATCGCCCAGGAAGTCGGCGCAAACACCGCGATTGTAAGCCTTATTCAGCTGACGCGCGTCCTTTTGGTCGTCATGACAATACCGTTTCTCGTTATTTTCTTATTTACCAAACAAAACGGTGCGGCTCAGACATCAGCCGGAGCCGTTTCAGCAGGAGCTTCACATCCGGGCCTTGTCTCCGTCTTGTTAACGGCCGGATTTATTTTGGCTGCCTGGCTTGCAAGTAAAGGCGCAAAACGGCTGAAATTTCCCGCCCCTTGGCTGCTCGGCAGCATGATCGGCGTTGCTGCTGCGGAAATCGGCGTGTCCGCCTTGGCGGGCAAAGACATGCTGGCCTGGTGGCCGCCGGAAGCGAACCAGCTGTCACAAATTTTTCTCGGCGCCACAATCGGATCAAAAATGTACAAAAGCATGTTCACCGGCGTGACGAGAGTGCTGACCGTCGGGTTTATTTCTTCCGTCGGATTAATCGCCGCCATGATTCTGAGCGCGGTTGCGGTTTCTAAATTAACGGGCATCTCCATGATTACATCTGTTCTCGCCTTTTCTCCCGGCGGGATCGCCGAGATGGCGGCGACTTCGATCACCCTGCACGAAGACTCGACTTTCGTCGTCGCGGTTCAGGTCATCCGGATCGTTCTCGTCATCGCCATGCTTCCGCCCTTCTATCGGCTGCTGCACCACCTTTCTCAGCTGAAACGGGCACACGGCGAAAGAGGCCGGGCAGAAAGAGGAACATGA	MKKDKHLLTDIWFILISAAGGFLLSLTGMSIAWMLGTLAAGCILSMTRPRWLFMAPDRRGIHRRWLAAGQMILGIELGQKLNLSVLSVLREHWLPVGFMLIFSIVMALVSGYVLFRFSRTDMMTSFVGTAPGGLSAMPGIAQEVGANTAIVSLIQLTRVLLVVMTIPFLVIFLFTKQNGAAQTSAGAVSAGASHPGLVSVLLTAGFILAAWLASKGAKRLKFPAPWLLGSMIGVAAAEIGVSALAGKDMLAWWPPEANQLSQIFLGATIGSKMYKSMFTGVTRVLTVGFISSVGLIAAMILSAVAVSKLTGISMITSVLAFSPGGIAEMAATSITLHEDSTFVVAVQVIRIVLVIAMLPPFYRLLHHLSQLKRAHGERGRAERGT	PGPT0027725_72	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
D1-12_00200	1197	tetA_1		Tetracycline resistance protein, class B	ATGCAAAAACCGATCAGAGAACAAAAGGCTGTACTCATCATCTTATTAAGCAACATATTTATTGCGTTTTTAGGCATCGGATTGATCATTCCCGTTATGCCGCTGTTTATGAATGTGATGCACTTGACGGGCAGCACAATGGGATACCTTGTCGCTGCCTTCGCCGTCGCGCAATTAATTGCATCCCCCATTGCGGGGAGATGGGTTGACCGCTTCGGCAGAAAAATCATGATTCTCGCCGGACTGTTTTTGTTCGCATTATCCGAACTGACCTTCGGATTGGGCACACATGTCTCCATTTTATATTTCGCAAGGGTGCTGGGGGGCATCAGTGCCGCTTTTATCATGCCCGCTGTTACAGCGTATGTCGCAGATATTACGACGGTGCAGGAAAGATCGAAGGCGATGGGCTATGTATCTGCCGCCATCAGCACAGGGTTTATCATCGGGCCCGGCATAGGAGGATTTATTGCCGATCACGGCGTTCGTATGCCGTTTTTCTTTGCGGCGGGAATTGCATTTATCGCAGTGATTTCCTCTGTCTTTATGCTGAAAGAGCCGTTAACTAAAGATGAACGCGCAAAGCAGATGGAAAGCGTCAAAGAATCAACCTTCTTAAAAGATTTGAAAAAGTCGATTCATCCAAGCTACTTGATCGCCTTTATCATCGTCTTTGTTTTGGCATTCGGGCTGTCGGCGTACGAAACGGTATTCAGCTTATTTACAAACCATAAATTCGGCTTCACGCCAAAGGATATCGCCATTATTATTACGTTCAGCTCCATTGTGGCGGTCCTCATTCAAGTGCTCGCGTTCGGCAGACTTGTCAACTTCCTCGGGGAGAAAAAAGTCATTCAGCTTTGTCTGATCATCGGCGCTGTGCTGGCTTTCGTTTCTACGGTGATGTCAGGGTTTTTGCCCGTGCTCGCTGTCACCTGCATCATTTTCCTTGCGTTTGATTTACTGCGCCCGGCACTGACTACTTATCTATCGAAGATCGCAGGAAATCAGCAGGGGTTTGTTGCCGGTATGAACTCAACATACACGAGTTTGGGCACCATTTTCGGTCCGGCTCTGGGCGGTATTTTATTTGATATGAATATTCACTTCCCGTTTCTGTTCGCAGGTGTGGTTTTATTTCTCGGTCTGGGATTGACGCTTGTGTGGAAAGGAAAAGCGGGCGAGGTTTCGGAGTAG	MQKPIREQKAVLIILLSNIFIAFLGIGLIIPVMPLFMNVMHLTGSTMGYLVAAFAVAQLIASPIAGRWVDRFGRKIMILAGLFLFALSELTFGLGTHVSILYFARVLGGISAAFIMPAVTAYVADITTVQERSKAMGYVSAAISTGFIIGPGIGGFIADHGVRMPFFFAAGIAFIAVISSVFMLKEPLTKDERAKQMESVKESTFLKDLKKSIHPSYLIAFIIVFVLAFGLSAYETVFSLFTNHKFGFTPKDIAIIITFSSIVAVLIQVLAFGRLVNFLGEKKVIQLCLIIGAVLAFVSTVMSGFLPVLAVTCIIFLAFDLLRPALTTYLSKIAGNQQGFVAGMNSTYTSLGTIFGPALGGILFDMNIHFPFLFAGVVLFLGLGLTLVWKGKAGEVSE	PGPT0003185_526	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003185-blt-K08153	NA	NA
D1-12_00201	621	qacR		HTH-type transcriptional regulator QacR	GTGACAAATACAAAAGGCGGTGCCGGAAAGAGCGAAAAGACGAAGAACAGGCTCGTATCCGCTTCGCGTGACTTATTTGCAAAAAAAGGATATTCAGAAACATCGATTCGGGATATTTTAGAGGCGGCCGAAATCAGTAAAGGCAATCTATATCACCATTTTAAAGGAAAAGAGTTTCTGTTTCTTCATATCATGGAACAGGATCACCGCGTGATGATCGAGACGTGGAGGGAAATGGAAGCTGATCTGAAAGATGCTGCCGAAAAACTGGCGGGCTTTGCGGAGCTGCTCAGCCGGATGAGCATCAATTACCCGCTTATGAGAGCAAGTGAAGAGTTTTATGCGAGTGCGTTTACGTCAGAGGAGGTCGTAAAGCGGCTCAACAAAATTGATATTGAATATGACGATGTGATGAGGGAGATCTTAGAAGAGGGAAATCAAGACGGCAGCTGGTCCATTCATCATGTCGAATCAAAAGTGAAAATCCTGCTATCCGTCTTCTACGGTTTAGATGTGTTATATAAAAACGATACCATTCAGCAAAGAATCGAATTGCAAAAAGAAGCCATCTCCGCGTTTATTCACGGGTCGATCAGCGCTGATAAACAGAATGACAGCTGA	MTNTKGGAGKSEKTKNRLVSASRDLFAKKGYSETSIRDILEAAEISKGNLYHHFKGKEFLFLHIMEQDHRVMIETWREMEADLKDAAEKLAGFAELLSRMSINYPLMRASEEFYASAFTSEEVVKRLNKIDIEYDDVMREILEEGNQDGSWSIHHVESKVKILLSVFYGLDVLYKNDTIQQRIELQKEAISAFIHGSISADKQNDS				NA	NA	NA	NA	NA
D1-12_00202	510			hypothetical protein	ATGCACGAGAATTTTTTTCATTATACAGCCATCTGCAGTGACGATTCTGTGCTTATCAAGGATCTGGTAAAATCCATAAACGGTGAATACAGCGCTGTGATTTGCTACTCAATATTAGCCGAAAAAGCGCCGACCGCAGAAATCAGAAGACGAATCGAACATATCAGAGAAGAAGAAGTGCGCCACCTGCACGCTTTCTCTTCACTGTATACGTCAATTACCGGAAAACAGTTGACGCCGAAACAGACGGAGCATTGTCCGCACACATACAGAGAAGGACTGAGGGCGGCGTTTTATGATGAGCAGAAAACGAATGATTTTTATTTGCAGGCTTCCGATAGAGCGGTGCATCCGGAAGCGAAGCGGTTATTTGCCCGCACGGCATTTGACGAGCAGCGTCATGCCGTCTGGTTTTTATACGATATGGCCCACTCTCCTTTCCACCATACAGGGGGAACGGTATCAAACGCGCCGAACACAAGCTACACCGAGGTAAATACCGGAAAATAA	MHENFFHYTAICSDDSVLIKDLVKSINGEYSAVICYSILAEKAPTAEIRRRIEHIREEEVRHLHAFSSLYTSITGKQLTPKQTEHCPHTYREGLRAAFYDEQKTNDFYLQASDRAVHPEAKRLFARTAFDEQRHAVWFLYDMAHSPFHHTGGTVSNAPNTSYTEVNTGK				NA	NA	NA	NA	NA
D1-12_00203	711			hypothetical protein	ATGTCAGAATATCCCGAAGTGATTGTACGGACGGCTCTGTCGTTCAGCATTCTGTTTATCGGCGCCCGGATACTCGGTAAACAAACCATTTCACAGATGACGCTTTTTGATTTCATTGCGGCCATCTCGCTCGGCGCCATCACGGCAAATCTGTCGTTTAATACAAAGCTGCCGATTCATTATAATGTCATTGCCTACATTATTTTCGTGGCAATCATTTACCTTGTCGCATATCTTTCTATGAAAAACAGGGCCCTTAGGGGTTTCTTTGCAGGCAAACCGACCATTATCATTCAAAACGGTAAAATACTTGAGCATAATATGAAAACGATGCGTTATACCATCGACTACTTGAACCAGCAGCTGCGTGTAAATGACGTATTTGACATTTCTCAGGTTCAGACTGCCATCATTGAAACAAACGGCAGCATGTCAGTGGAGGTCAAACCGGAATTTGCGCCCGTTACAAGACAGGATCTCGGCATTTTTGCCGGACATGAAAAGAACTTTGCCGTTGAGCTGATTATGGACGGCCGGCTGGTGATGAAGAATCTGGAAGAAAACCACGTATCGGAAAAATGGCTGAGAGAAGAATTGGACAAGAGAAACCTCAAACCGGAAGACGTCGTATACGCTGTGCGCGGAAGCAACGGCCGGCTTTTTGTCGACACATACGACGACCATATTACATCGCCGCTGGATCAAGAATAA	MSEYPEVIVRTALSFSILFIGARILGKQTISQMTLFDFIAAISLGAITANLSFNTKLPIHYNVIAYIIFVAIIYLVAYLSMKNRALRGFFAGKPTIIIQNGKILEHNMKTMRYTIDYLNQQLRVNDVFDISQVQTAIIETNGSMSVEVKPEFAPVTRQDLGIFAGHEKNFAVELIMDGRLVMKNLEENHVSEKWLREELDKRNLKPEDVVYAVRGSNGRLFVDTYDDHITSPLDQE				NA	NA	NA	NA	NA
D1-12_00204	3501	addB	COG3857	ATP-dependent helicase/deoxyribonuclease subunit B	TTGGGTGTTGAGTTTTTAGTAGGCAGATCGGGGAGTGGGAAAACGAGGCTGATTATCGACAGCATTCAAGATGAACTGCGCCGGGAGCCGTTCGGGAAACCGATCATTTTTCTAGTCCCGGATCAAATGACGTTTTTAATGGAATATGAGCTTGCTAAAACGCCGGATATCGGCGGCATGATACGCGCTCAAGTGTTCAGTTTTTCGCGTTTGGCGTGGCGCGTGCTTCAGCATACCGGGGGCATGAACCGCCCGTTTGTGACGACGACGGGTGTGCAGATGCTTTTAAGGAAACTGATTGAAGAATATAAGCACGAGTTTAAAGTGTATCAAAAAGCGAGTGACAAAACCGGGTTCACTGAGCAGGTGGAACGGATGCTGACAGAGTTTAAGCGGTACTGTATTGAACCTGAAGACGTCCGCCGCATGGCGGAAAGCGGAACGGCGTCAGAATATCGCGGAGAGCGGATGCTGTCTGAAAAACTTCATGATTTAGGCATTTTATATCAGCAGATGGAAAGAAGCCTCGCCGGACACTATTTGCATTCAGAGGATTATTTGACGCTGCTCGCTCAGCAGATTCCTTTGGCGGACGTTGTAAAAGGCGCCCGTGTTTACGTCGACGGATTCTATCAATTTACGCCGCAGGAATTAAGGGTGCTGGAGCAGCTGATCATGCATGCTGAACATGTCACATTCTCGCTGACGGCGGACAGCCCTTCGGCGGAACAGGCACCGGATGAGCTCGATCTGTTCAGAATGACGGGAAGCACATACTATAAGCTTTATCAGACGGCAAAGGAATTGAATGCCGATATTTCCTGCAAGGAACTGCATGGCACGAAGCGGCATCGGCATGTGCCGGAGCTTGCCTGTATAGAGTCGCAGTACGATGTGCGTCCCGCCGCGGCGTATACCGGCGGACAGGAAGCTTTTACCGTCATGCAGGCGCAAAACAGAAGAGCTGAGCTTGAAGGTATTGCCCGGGAAATTCAATCACTTGTCCGGGACGGAGGATACCGGTACAAAGATATGGCGATTCTCATCCGTCAGCCGGAAGATTATAAAGATTTGCTGAAGGAAGTGTTTGCCGATTACGGGCTTCCTTATTTTATTGACGGAAAAGCTTCTATGCAGCATCACCCGCTTATTGAATTCATCCGTTCAAGCCTGGATGTCGTGAAGGGGAACTGGAGATATGAAGCGGTGTTCCGCTGTGCGAAAACCGAACTGTTATTCCCGCTTGATCAGCCGGAGCAGAAAATAAGAGAGCAGGTTGATCAGCTTGAAAACTACTGTATCGCCTACGGCATTAAAGGGGAGCGCTGGACGAGCGGCGAGCGGTTTGTATACAGGCGCTTCGTATCGCTCGATGAGGATTTCGCGCAGACAGATCAGGAAATAGAGATGGAGCAAATGCTGAATGAGACGAAAGAGTGGATGGCCGCGCCCCTTGTCCGGCTTCAAAACCGGATGAAAAAGGCGAAAACGGTTCAAAGCATGGCGGAGGCTCTTTATCTCTTTTTGGAAGATACCGATGTTCCCCTGAAGCTGGACCGAAAAAGGCAGCGGGCCGAAGAGGCCGGAAACATGATCGAAGCGCAGCAGCACGGCCAGGCGTGGGATGCCGTTATCCAGCTTCTCGAGGAGTTTGCCGGCATGATGGGTGAAGATGAAATATCTTTGGCGCTGTTCCAGCAAATGCTTGAAACGGGAACGGAATCGCTTCATTTTTCTTTAATTCCTCCTGCGCTTGACCAAGTATTTGTAGGGAATATGGATCTCTCAAGAATGTACGGCACGTCCTGCACATTCGTCGTCGGGGCCAATGACGGCGTTCTTCCGGCGCGCCCGGATGAAAACGGCGTGCTGTCTGATGATGACCGGGAGTGGCTGAAAGCAGTCGGAGTGGAGCTGTCTTCCGCGGGGCGTGAGCGGCTGCTTGATGAGCATTTTCTCATCTATATGGCGCTGTCGAGTCCGTCTGACCGTCTTTATGTGTCATACCCGATTGCCGATGCGGAAGGAAAAACGCTCCTGCCGTCAATCGTTGTAAACAGGCTTGGCGAGCTGTTTCCCGATCATCAGGAAAAGCTGTCAGCGGCTGATCCCGAGCAGGTAAGCGAAGAAGAGCAGCTTCAGTATCTCGTCAATAAACAGGTGGCTCAGACATATACGGCAAGTCAGCTCAGGCTGTGGACAAGAGAGTACGAGATCAGTGACGTATGGTGGAGCGCATACAATTTGCTGATGAAAGAGTCTGATCACCGGCGTGCGAAAAAGCTGTTTTCAAGCCTGTTTTTCCGCAATGAGGCGAAGCGTCTTGAACGGCCTGTTTCGCGCCAGCTTTACGGCGAGCATATTAAAGGAAGCGTCTCCCGGATGGAGGCGTTTAATGCCTGCCAGTTCTCTCATTTTGCATCTCACGGGCTTCAATTAAAAGAGCGGCAGTTTTTCAAGCTGGAAGCGCCGGATATCGGCCAGCTGTTTCACTCCAGCCTGAAGCTGATTTCAGACCGGCTTCGTGAGCAGAAGCTGGAATGGCGCGATCTGACGAAAGATCAGTGCCGGAATTTCTCCTATGAAGCGGTGGAACGGCTTGCGCCAAAGCTGCAAAAAGAGATTCTGCTCAGCTCAAACAGACACTTTTATGTGAAGGAAAAACTGCAGAAGATCGTCACGCGTGTTTCAGGCATATTAAGCGAGCATGCGAAGGCGAGCGGTTTCGTCCCGGTCGGTCTTGAACTCGGTTTCGGCGGAAGCGGGCCGCTGCCTCCGCTCACTTTCACGCTGAAAAACGGCTGTACGATGGAACTCGTCGGACGGATCGACCGCGTGGATAAAGCGGAAAGCTCAAAAGGCCTGCTGCTGAGAATCGTTGATTATAAATCAAGCGACAGAGGGCTTGATCTGGCTGAGGTGTATTACGGGCTCGCTCTGCAAATGCTCACATATCTTGACTTATCGATTACACATTCCGCGGATTGGCTCGGCATGAAAGCGACCCCGGCAGGCGTTTTGTATTTCCATATTCATGATCCGATGATTCAGGCCAGTCTGCCGATGGGGCTTGATGAAATCGAGCAGGAAATTTTTAAGAAATTTAAAATGAAAGGCCTTCTTCTCGGTGACCGGGAGGCGATCAGCCTGATGGACACGACGTTGGAGGAAGGGCGTTCAAATATCGTCAATGCCGGTTTGAAAAAGGACGGGTCTTTAAGATCCGACTCAGCCGCGGTCAGCGAACAGGACTTTCATCTGCTGACAGACCATGTGCGGCGGACATTTGAACAGGCGGGCGAAGCGATAACGGACGGGCTTGTGTCCATTACCCCGTATAAGCTGAAAGATAAGACGCCTTGTACGTATTGTGCGTTTCAATCGGTGTGCCAGTTTGATGAGTCGCTTAAGGAAAATGAATACCGCAGCCTGAAAGCGGAAAAAGACGGCACCATACTGGATTGGCTGAAGAAGGAGGCGGATGATGATGCAAATTCCTAA	MGVEFLVGRSGSGKTRLIIDSIQDELRREPFGKPIIFLVPDQMTFLMEYELAKTPDIGGMIRAQVFSFSRLAWRVLQHTGGMNRPFVTTTGVQMLLRKLIEEYKHEFKVYQKASDKTGFTEQVERMLTEFKRYCIEPEDVRRMAESGTASEYRGERMLSEKLHDLGILYQQMERSLAGHYLHSEDYLTLLAQQIPLADVVKGARVYVDGFYQFTPQELRVLEQLIMHAEHVTFSLTADSPSAEQAPDELDLFRMTGSTYYKLYQTAKELNADISCKELHGTKRHRHVPELACIESQYDVRPAAAYTGGQEAFTVMQAQNRRAELEGIAREIQSLVRDGGYRYKDMAILIRQPEDYKDLLKEVFADYGLPYFIDGKASMQHHPLIEFIRSSLDVVKGNWRYEAVFRCAKTELLFPLDQPEQKIREQVDQLENYCIAYGIKGERWTSGERFVYRRFVSLDEDFAQTDQEIEMEQMLNETKEWMAAPLVRLQNRMKKAKTVQSMAEALYLFLEDTDVPLKLDRKRQRAEEAGNMIEAQQHGQAWDAVIQLLEEFAGMMGEDEISLALFQQMLETGTESLHFSLIPPALDQVFVGNMDLSRMYGTSCTFVVGANDGVLPARPDENGVLSDDDREWLKAVGVELSSAGRERLLDEHFLIYMALSSPSDRLYVSYPIADAEGKTLLPSIVVNRLGELFPDHQEKLSAADPEQVSEEEQLQYLVNKQVAQTYTASQLRLWTREYEISDVWWSAYNLLMKESDHRRAKKLFSSLFFRNEAKRLERPVSRQLYGEHIKGSVSRMEAFNACQFSHFASHGLQLKERQFFKLEAPDIGQLFHSSLKLISDRLREQKLEWRDLTKDQCRNFSYEAVERLAPKLQKEILLSSNRHFYVKEKLQKIVTRVSGILSEHAKASGFVPVGLELGFGGSGPLPPLTFTLKNGCTMELVGRIDRVDKAESSKGLLLRIVDYKSSDRGLDLAEVYYGLALQMLTYLDLSITHSADWLGMKATPAGVLYFHIHDPMIQASLPMGLDEIEQEIFKKFKMKGLLLGDREAISLMDTTLEEGRSNIVNAGLKKDGSLRSDSAAVSEQDFHLLTDHVRRTFEQAGEAITDGLVSITPYKLKDKTPCTYCAFQSVCQFDESLKENEYRSLKAEKDGTILDWLKKEADDDANS				NA	NA	NA	NA	NA
D1-12_00205	3705	addA	COG1074	ATP-dependent helicase/nuclease subunit A	ATGCAAATTCCTAAACCGAAAGACAGCATATGGACGGATGACCAATGGAGCGCCATCGTTTCTTCCGGCCGCGATATTCTGGTCGCTGCCGCAGCCGGATCAGGTAAAACGGCCGTGCTCGTGGAACGGATGATCAGAAAGATAACCGCGGAGGAAGATCCGGTTGATGTTGACAGGCTCCTTGTGGTGACCTTTACAAACGCCTCAGCAGCGGAGATGAAGCATCGGATCGCGGAAGCATTAGAAAAAGAGCTCGCCAAAAATCCGGGATCTCTGCATATCAGACGGCAGCTCTCTCTATTAAATCGGGCGAGCATTTCGACGCTTCACTCTTTCTGTCTGCAAGTGCTTAAAAAATATTATTATATGATTGATCTTGACCCCGGTTTTCGGATGGCTGACCAGACGGAAGGCGAATTGCTCGGAGACGAAGTGCTTGATGAGCTGTTTGAAGATGAATACGCAAAAGGGAATCAGGCGTTTTTTGAGCTTGCGGACAGATATACGACAGACAGGCATGATCTGGATCTTCAAGACCTTGTCAAACGGGTGTACGAGTATTCCCGGTCGCATCCTGACCCGGAAGCGTGGCTGCAAAGCTTTGTCCGCTTGTATGACGTGACGGAAGAAAGCAAAATGGAAGAGCTTCCGTTTTACCAGTATGTGAGAGAAGATGTTGAAATGGCGCTCTTCGGGGCAAAACAAAAGCTTGAGAAGGCGCTTGAACTGACAAAAGCGCCCGGCGGGCCGGCCCCGCGCGCTGATAATTTTCTGGATGACCTTCAGCAGATAGAAGAGCTGATCAGCTGCCGGCATGACTTCGATGCGCTGTATGAACGGGTTCCCGCAGTCTCATTTAAGCGGGCGAAGGCGGTAAAGGGTGATGAATTTGACAAAGCGCTTTTGGACGAAGCGACCGATTTGCGAAACGGCGCGAAGAAACTGATCGAAAAGGTAAAGACAGATTACTTTACAAGAAGTCCGCAAGATCACTTAAAGAGTTTAACAGATATGAAGCCTGTCATCGAAACGCTCGTTCAGCTCGTGATATCGTACGGAAAACGATTTGAAGCGGCGAAACAAGAAAAATCAATTATTGATTTCTCAGATTTGGAACATTACTGCCTGGCGATTTTAACTGCGGTTGATGAAGAAGGCCGGCGGGTGCCGAGCGAAGCGGCCGTTTATTATCAAGACCAGTTTCATGAAGTTCTGGTTGATGAATATCAAGATACCAATCTTGTGCAGGAGTCTATCCTGCAGCTTGTTAAAAGCGGGGATGAAGAGGCGGGAAATCTGTTTATGGTAGGCGACGTCAAACAATCGATCTACCGTTTCAGACTTGCCGAGCCGCTGCTGTTTCTCGGGAAATATAAAAGGTTTACAGAAAGCGGGGAAGGCGCGGGGCAGAAAATTGATCTGAACCAAAATTTCCGCAGCCGCTCCGATATTTTGGACAGTACGAATTTCTTGTTTAAGCAGCTGATGGGCGGAAAAATCGGCGAAGTGGACTACGATGAACAGGCGGCATTGAAGCTCGGAGCATCGTATCCGCCGAATGACGCGGCCAAAACGGAACTGCTGCTGATTGACAGCGCTGATGACGCAGACAGCGCCGAGGATGCCGAAGACTTTGAAACCGTGCACTGGGAAGCGAAAGCGATAGCCGGGGAGATCCGAAAGCTTGTCTCATCTCCGTTTAAGGTATATGACGGCAAAACAAAAACACACCGGAATATCCAGTACCGGGATATCGTGATTTTGCTGCGCTCTATGCCGTGGGCGCCGCAATTAATGGAAGAGCTGAAAAACCAGGGCATTCCGGTGTACGCCAATTTGACGTCGGGTTACTTTGAAGCCGTGGAGGTGGCTGCGGCGCTTTCAGTCTTGAAGGTGATTGATAATCCGTATCAGGATATTCCGCTTGCTTCCGTGCTGCGCTCGCCCATCGTCGGCTGTGACGAAAATGAACTTGCGCTGATACGCCTTGAAAAGAAAAAAGCGCCGTTTTATGAAGCGCTGAAAGCATATATAGCGAACGGTGACAGGCATGATGACCTGTATCAAAAACTGAGAACCTTTTATGACAGTCTGCAAAAGTGGCGGTCATTTTCGACGAATCATTCGGTGTCTGAGCTGATTTGGGAAGTATACCGCGATACCGGATATTTTGACTATGCAGGCGGCATGCCCGGCGGAAAGCAGCGTCAGGCCAATCTGCGCGTCTTGTATGACCGGGCGCGCTCGTACGAAGCGACGGCGTTCCGCGGGTTATTCCGCTTTTTGCGGTTCATTGAACGGATGCAGGAGCGCGGTGATGATCTGGGGACGGCCCGGGCGCTCAGCGAGCAGGAGGATGTCGTTCGGCTGATGACGATCCACAGCAGCAAAGGACTTGAATTCCCCGTCGTTTTCACCGCCGGACTCGGCAGAAGTTTTAATATGATGGATCTCAACAAATCATACCTGCTTGATAAAGAGCTCGGTTTCGGCACGAAGTACATTCATCCGGAACTCAGAATCAGCTATCCGACTCTGCCGCTTGTGGCGATGAAGAAAAAGATGCGCAGAGAGCTCTTATCCGAAGAATTGCGCGTATTGTATGTGGCGCTGACCAGAGCGAAGGAAAAGCTGTTTCTCGTCGGTTCCTGCAAAAACCGGGAAAAACAGCTGGCCAAATGGCAGGCGCAAGCAGACCGGGCCGATTGGCTTCTTTCTGAATTCGACCGCTATCAGGCGTCATCTTATTTGGACTTTATCGGGCCGGCGCTCATCCGCCACCGTGACATGGAGGCGCACAGGACGCCGGGACTTTCATCGTCTGAGGATATCGCGCGCGACCCGTCGCGTTTTCACACCCGGATGCTGCAGCAAAGTGAATTGCTGGAAGAGAATCCAAAAGAACGTGCTGAAGAAAAGAGCAAACGTCTCAAAGCAATACAGCAGGGCGAGCCGATTCCTGGTTCGTTTTCATTTGATGATCAGGCGCGCCGTCTGCTTGAATGGGAATATCCGTACCGAGAGCTGACGGCTATCAGAACGAAGCAGTCAGTTTCTGAGCTGAAGAGAAAGCAAGAATACGAGGATGAATACAGCGGCCGCTCTCTCATCAAACCGTCAGGAGACACGCTTTTATACAGGCGTCCCGGTTTTATGATGAAAAAAGGGCTGACAGCCGCCGAAAAAGGAACGGCGATGCATACGGTGATGCAGCATATACCGCTGACGCACGTGCCGACTGCCGAAGAAGCGGAGCGGACGGTCCGGATGCTTTACGAAAAAGAGCTGCTGACAGAAGAGCAGCAGGAAGCTATTGATATAGAAGAAATTGTTCAGTTTTTCGGAACTGAAATCGGTAAAGATCTTCTCGGGGCGCTGCGGATTGACCGGGAAGTGCCGTTCAGTATGGCGCTTCCGGCCGGCGAGGTGTACAAGGATGCCGAAACGGCCGGTGAACCGCTGCTCGTGCAGGGGATTATTGACTGCCTCTACGAAACGTTGGACGGTCTCTATTTGCTGGACTATAAAACAGATCGGATAGAGGGGAAATTCCGGAACGGATTTGAAGGCGCGGCTCCGATTCTGCAAAAAAGGTATGAAACACAAATCGAATTGTATACAAAAGCGGTTGAACAAATTACAAAAACGAAAGTGAAAGGGCGTGCGCTCTATTTCTTCGATGGAGGTCACGTTCTTACACTGTAA	MQIPKPKDSIWTDDQWSAIVSSGRDILVAAAAGSGKTAVLVERMIRKITAEEDPVDVDRLLVVTFTNASAAEMKHRIAEALEKELAKNPGSLHIRRQLSLLNRASISTLHSFCLQVLKKYYYMIDLDPGFRMADQTEGELLGDEVLDELFEDEYAKGNQAFFELADRYTTDRHDLDLQDLVKRVYEYSRSHPDPEAWLQSFVRLYDVTEESKMEELPFYQYVREDVEMALFGAKQKLEKALELTKAPGGPAPRADNFLDDLQQIEELISCRHDFDALYERVPAVSFKRAKAVKGDEFDKALLDEATDLRNGAKKLIEKVKTDYFTRSPQDHLKSLTDMKPVIETLVQLVISYGKRFEAAKQEKSIIDFSDLEHYCLAILTAVDEEGRRVPSEAAVYYQDQFHEVLVDEYQDTNLVQESILQLVKSGDEEAGNLFMVGDVKQSIYRFRLAEPLLFLGKYKRFTESGEGAGQKIDLNQNFRSRSDILDSTNFLFKQLMGGKIGEVDYDEQAALKLGASYPPNDAAKTELLLIDSADDADSAEDAEDFETVHWEAKAIAGEIRKLVSSPFKVYDGKTKTHRNIQYRDIVILLRSMPWAPQLMEELKNQGIPVYANLTSGYFEAVEVAAALSVLKVIDNPYQDIPLASVLRSPIVGCDENELALIRLEKKKAPFYEALKAYIANGDRHDDLYQKLRTFYDSLQKWRSFSTNHSVSELIWEVYRDTGYFDYAGGMPGGKQRQANLRVLYDRARSYEATAFRGLFRFLRFIERMQERGDDLGTARALSEQEDVVRLMTIHSSKGLEFPVVFTAGLGRSFNMMDLNKSYLLDKELGFGTKYIHPELRISYPTLPLVAMKKKMRRELLSEELRVLYVALTRAKEKLFLVGSCKNREKQLAKWQAQADRADWLLSEFDRYQASSYLDFIGPALIRHRDMEAHRTPGLSSSEDIARDPSRFHTRMLQQSELLEENPKERAEEKSKRLKAIQQGEPIPGSFSFDDQARRLLEWEYPYRELTAIRTKQSVSELKRKQEYEDEYSGRSLIKPSGDTLLYRRPGFMMKKGLTAAEKGTAMHTVMQHIPLTHVPTAEEAERTVRMLYEKELLTEEQQEAIDIEEIVQFFGTEIGKDLLGALRIDREVPFSMALPAGEVYKDAETAGEPLLVQGIIDCLYETLDGLYLLDYKTDRIEGKFRNGFEGAAPILQKRYETQIELYTKAVEQITKTKVKGRALYFFDGGHVLTL				NA	NA	NA	NA	NA
D1-12_00206	1173	cpdA_1		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGCGCATTTTACATACAGCTGACTGGCACCTCGGCAAAACGCTGGAAGGCAGAAGCCGGCTGAGCGAGCAGGCCGAGGTATTGGAAGAGCTGAATACCATTGTCAAGGAAGAAAATATTGATGCGGTCATTATGGCGGGGGATGTATTTGATACGGTCAACCCGCCTGCGCTCGCTGAACAATTGTATTACGAAAGTCTTTCCGCGCTTTCTGACGGCGGAAAACGACCGGTCGTCGTCATTGCCGGAAACCATGACAATCCCGACAGGCTGGCGGCGGCTTCTCCGTTAACAAATGAGCGCGGCATTCATTTAATCGGCTATCCGCGGACAGAACCCGTGCATATTGAGGTGCCGTCGGCGGACGAGCTGTTAGCCGTAGCCGCGCTGGCATATCCGTCAGAGGCGAGATTAAACGAAGTGCTTTCTGATACGTTTGAGGAAAAGCTTCTTCGCGATCATTACGATGTCAAAATCAGAGAGGGGTTTGCTCACATGTGCGGACTGTGCCGGGACGATGCCGTGAAAATTGCGGCGAGCCACATTTATGTCGCGGGGGGAAATCAGACCGATTCAGAGCGTCCGATTGAAGTCGGGGGCGCTTACACAGTTGCCGCTGACAGCCTGCCGGCTGATGCGGCTTACGTGGCTCTCGGCCATCTCCACCGTCCGCAAACGATCAAGCGCGCCAAGACGGCTGCCCGTTATTCAGGCTCTCCGCTCGCATACAGCTTTTCAGAAGCCGGTTATGCCAAATCGGTCACGGTGGTAGAAGCGAAGCCCGGCGGAGAAGCGAAGTGGGAAGAGGTTTTCCTGTCTTCCGGTAAACCGCTCGTCAAATGGAAAGCGCAGGGGCTGAGCGAGGTTCACGGCTGGCTCGATGAAGGGCGTGACCGGAATGCCTGGATCGACCTTGATATCCATTTGACGGATCAGCTTTCTCTCGAGGAAATTCATCGGCTGAGAAAGGCGCATCCCGGCTTTATCCATATCAGGCCGGTTTTTGAAGAAAAAGAGACCGGCAATGACCGGATTGAAGTGAAACACACATCAATTGAGGATCGATTTAAGAAGTTTTATGAAAAACAAACGGGCGGCGGCGTGCCGGATGAGGAGATGGTCAAGCTGTTTTTAGAGCTTGCGTCAGCAGATGATGAGGAGGATGCGACATGA	MRILHTADWHLGKTLEGRSRLSEQAEVLEELNTIVKEENIDAVIMAGDVFDTVNPPALAEQLYYESLSALSDGGKRPVVVIAGNHDNPDRLAAASPLTNERGIHLIGYPRTEPVHIEVPSADELLAVAALAYPSEARLNEVLSDTFEEKLLRDHYDVKIREGFAHMCGLCRDDAVKIAASHIYVAGGNQTDSERPIEVGGAYTVAADSLPADAAYVALGHLHRPQTIKRAKTAARYSGSPLAYSFSEAGYAKSVTVVEAKPGGEAKWEEVFLSSGKPLVKWKAQGLSEVHGWLDEGRDRNAWIDLDIHLTDQLSLEEIHRLRKAHPGFIHIRPVFEEKETGNDRIEVKHTSIEDRFKKFYEKQTGGGVPDEEMVKLFLELASADDEEDAT				NA	NA	NA	NA	NA
D1-12_00207	3393	smc_2		Chromosome partition protein Smc	ATGAAGCCGATTCTGTTAACGATAAAAGGGCTCCACAGCTTCAGGGAGGAACAGACCATTGATTTTGCCGGACTGTCAGGAGCCGGGGTGTTCGGGATTTTCGGGCCGACCGGAAGCGGAAAATCGTCGATCCTTGATGCCATGACACTCGCTTTATACGGAAAAGTGGAGCGCGCCGCAAATAATACGCACGGCATCCTGAATCATGCCGAAGATCAGCTCGCCGTCTCATTTACATTCGCGCTTCAATCCGGCCACCGGGTTTCCTACAAGGTCGAGCGCGTTTTTAAGAGAACGGATGAAACGAAAGTAAAAACCGCCCTCTGCCGCCTGATTGAAATCAAAGACGAACAAACGGTGCTGGCCGATAAAGCGAATGAAGTGAACAAAAAGGTAGAGGAGCTTCTTGGCCTGACCATTGACGACTTTACAAGAGCGGTCGTGCTGCCGCAAGGAAAGTTTGCCGAGTTTCTGTCGCTTAAAGGCGCGGAAAGAAGACATATGCTCCAGCGCCTGTTTAATCTGGAACAGTACGGGGACAGGCTTGTCAAAAAATTGCGGCGGCGGGCGCAGGAAGCGGCAGCGAAAAAAAATGAAATGCTGGCCGAACAATCCGGCCTCGGAGACGCAGGAGAAGATGCGCTGAAGCAGGCTGAACAGCAGTTTCACGAAGCGAACGAACGGCTTGAAGCAGCTGAGAAGAAACGGGTCCGGGCAAAAGAGCGTTTTGAGAATCACCAGGAAATTTGGAACCTGCAGACAGAAAGAGATGAATATGAGCGCCGGGAGAAAAAGCTTGAGGAAAGACGCCCGTACATCACGGATTTGACTGAGCGTCTTAAAGAGGCTGAAACAGCTCTCGCCCTTGAGCCGTACGCAGACCGCTACACAGAAGCCGTCCGCCGGAAGCAGCGCGCCGAACAGGAGCACGAACTGGCCAAACGGAAATCAGAGGCGGAAACCGTTTCATTTACCCGGCAAAATGAAGCCTATGAAGCATGGCGGGCCCATAAGGCCGAACAGGAGCCGAAGCTTGTCAAGGAAGAAGAGCTGTATCAAAGACTTTCAGCCATAGAACAAAAACTGCTTGAAGCGAAAAAAGAAGCGGAAAAAACAAATGCGGAACACAGCAAAAAAGAGGAAGAATACGAAGCCGCCTCGAAACAGCTGGCCGGAGTGAAAGACCGCCTGACCCGCGGCCAAAACAGGCAGAATGAGCTGAAAGAAGAGCTGAAAGCAGTTCAAGTGACCGCCGATGAACGGAAAAAATGCCAGACCGCAGCACAGCTGGCGGCGGGCTTTCAGCAGACACAGGAACAAATCACGAAAGAACGGGCCAATCTGACAACGCAGCTGAAAAACGTGGAGAAGCTGAACGGAGAAAGCGAGTCGCTCACAGCGAAAGCGAAAACGGAAGAGGAAGACATTACGCGCGCTTATCAAACGCTTCAAACCGTTTACCATATGGTCTGTGAAACGGAGCGTTCACTGAAAGCCGCAGCCGAACGGGCTGACAAAACGCAAGCCGATCTCCGCAGGCGCTCAGAGGAAGCGAGAACGGCTGCATTAACAAAAGAATTATCGGAAAAACTAATCGAAGGAAAGCCTTGTCCTGTATGCGGCTCCACGCAGCATGACCGCCCGCGTTCCGCTCATGAAACATTCTCGCCTGATACAGCTGTACAGGAACAGCTGCAGCAGGTTGAAGCACTGCTTTCTGAGGCGGCGGCTCTTTCTCAGGAAGTGCTGACAGCCAAGGTTGCATTAGAAGAACAGTCGGGGCGTTTTACCGAAGAATGTCCGTTTCTGCAAAGCGCCCGGGTTCCGGAGCTGGAAGCCGCTTCCTCCATCAGCGGACGCCCGCTTGATGAAGCGTTCAGCGCCGTCCGCTTGGAGTGGAAACAAATGAAACAGGATATGCTGTCGGTAAAAGAGAAGGTCACAAGACTGATCAGCGCGCATCAGCAGACGGTGAAACAAGCTGAGCAGCTTGCCGAACGAATCCGCTACGAGGAAAAAGAAGCCGCCCGTCTCAGACATTCATTAGAAGAGCTTGAATCGCTGTCAGAAAGCCGATTGAATCAGTACAACGAAGTCTGCGGTGATATTCCGCCAAACCGGATTGACGCCTGGCAGGCTTCGATAGATGAGAAGGACAGGCAGGCAGAAGAATGTGAGAAGCGCATTGAAACAAGCATCGCATTCCTCAAGGAACATGAAGAGGAGAAAGAACGCCTGCAGGAGATGAAGCATCGGCTTGAACGGGAACGGCTCGAGCTTCACTATGCGTCGGAGCGCCTGCAGCAGGTGATTGACGGATATGAACAAGAGCTCGGAACAGCAGCTGAAGAAACATCAATTTCCGCAAAGCTTGAAGCGGTGCGGCAGGAATTACAGCTGTTAAAATCGAAAGAGCAGTCCCTATTCGACGCGCTGAAGCAGGCGCAGCAATCACTGAATGACGCAAAAGGCCGGGAATCCGGGAGTCTCATGTCACTCAGGGATGCTGAGACCTCCCTTGAGAAAGCGCAAAACGACTGGCGCGTGAGGTCAAAAGACACCGGGTTTACCGAGCCGGACCAAGTCAAAAAAAGTCTGCTTCCGCAAGGGCGTGCAGAGGAAATGAAAAAAGAAATTGATGAGTTCCTGGACACCTCAAAACAGCTATCGGCAAATATCAGCCGTGTTACTGATAAATTAGCCGACCGCCGGATATCAGAGGAAGAATGGACAGCATCCGTTTCTCTGCTGAAGCAGGCAGAGGCTGAGTCAGGCGCCGCCATGGAGGAAAAAGGAGCACAGGCAAAAGCCTTCGCGGTTATGCAAAAACAGCATAAGCGCTTTAAAGAGATTGAAGCCGAACTGAAAAGCTGGCAGACACAGATTGACAGGCTTGATAAGCTCCAGTCTGTATGTAAAGGCAATACATTCGTCGAATTTTTAGCGGAAGAACAGCTGGAAAGCGTGGCTCGGGACGCCTCTGCCCGTCTCGGAGCGCTGACAAGGCAGCGGTATGCCATATTAGTCGATTCAGAAGGCGGTTTCGTCATGCGTGATGATGCGAACGGAGGCGTCAAACGGCCCGTATCAAGCCTTTCCGGCGGGGAGACGTTTCTGACATCGCTGTCGCTTGCGCTTGCCTTGTCCGCCCAGATTCAGCTGCGGGGGCAATACCCGCTGCAATTCTTTTTCTTAGATGAAGGATTCGGGACTCTTGACCAAGGGCTCTTAGACACCGTTGTCACAGCGCTCGAAAAGCTGCAATCGGACAACTTATCCGTCGGAGTGATCAGCCATGTGCAGGAGCTGAGAGCGCGTCTGCCGAAAAAATTAATCGTTCATCCGTCCGAACCGGGCGGGAAAGGCACCCGGGTCACATTGGAGATCATGTAG	MKPILLTIKGLHSFREEQTIDFAGLSGAGVFGIFGPTGSGKSSILDAMTLALYGKVERAANNTHGILNHAEDQLAVSFTFALQSGHRVSYKVERVFKRTDETKVKTALCRLIEIKDEQTVLADKANEVNKKVEELLGLTIDDFTRAVVLPQGKFAEFLSLKGAERRHMLQRLFNLEQYGDRLVKKLRRRAQEAAAKKNEMLAEQSGLGDAGEDALKQAEQQFHEANERLEAAEKKRVRAKERFENHQEIWNLQTERDEYERREKKLEERRPYITDLTERLKEAETALALEPYADRYTEAVRRKQRAEQEHELAKRKSEAETVSFTRQNEAYEAWRAHKAEQEPKLVKEEELYQRLSAIEQKLLEAKKEAEKTNAEHSKKEEEYEAASKQLAGVKDRLTRGQNRQNELKEELKAVQVTADERKKCQTAAQLAAGFQQTQEQITKERANLTTQLKNVEKLNGESESLTAKAKTEEEDITRAYQTLQTVYHMVCETERSLKAAAERADKTQADLRRRSEEARTAALTKELSEKLIEGKPCPVCGSTQHDRPRSAHETFSPDTAVQEQLQQVEALLSEAAALSQEVLTAKVALEEQSGRFTEECPFLQSARVPELEAASSISGRPLDEAFSAVRLEWKQMKQDMLSVKEKVTRLISAHQQTVKQAEQLAERIRYEEKEAARLRHSLEELESLSESRLNQYNEVCGDIPPNRIDAWQASIDEKDRQAEECEKRIETSIAFLKEHEEEKERLQEMKHRLERERLELHYASERLQQVIDGYEQELGTAAEETSISAKLEAVRQELQLLKSKEQSLFDALKQAQQSLNDAKGRESGSLMSLRDAETSLEKAQNDWRVRSKDTGFTEPDQVKKSLLPQGRAEEMKKEIDEFLDTSKQLSANISRVTDKLADRRISEEEWTASVSLLKQAEAESGAAMEEKGAQAKAFAVMQKQHKRFKEIEAELKSWQTQIDRLDKLQSVCKGNTFVEFLAEEQLESVARDASARLGALTRQRYAILVDSEGGFVMRDDANGGVKRPVSSLSGGETFLTSLSLALALSAQIQLRGQYPLQFFFLDEGFGTLDQGLLDTVVTALEKLQSDNLSVGVISHVQELRARLPKKLIVHPSEPGGKGTRVTLEIM				NA	NA	NA	NA	NA
D1-12_00208	294			hypothetical protein	ATGGCCGATTCTGCCGAGGGCACATGTGAATTATGCGGCCGTCATCATGTGCGGCTGACGGAGCACCACTTAACGCCTAAGGAAGAAGGCGGGACATTCCTTCCGACCGCAATGCTCTGCATCCCTTGTCATAAACAGGTTCACGCGCTCTATACGAATCAGGAGCTTGCGGCAAGGCTCGCGGGAATAGAAGAGCTGCGGCGTGACCCGAAACTCGCGCGGTTTGTGAAATGGATCAGAAAACAGCCGCCAAAAAAGCTTGTAAAAACAAAAAAAGCAAATGAACGAACATAA	MADSAEGTCELCGRHHVRLTEHHLTPKEEGGTFLPTAMLCIPCHKQVHALYTNQELAARLAGIEELRRDPKLARFVKWIRKQPPKKLVKTKKANERT	PGPT0027235_2085	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
D1-12_00209	219	gerPF_1		putative spore germination protein GerPF	ATGCCAGCAATTACCGGACCTATAGCTATCAATTCCATATCGGGCGGAGTCGTTAACTTTGGTGATTCCTTTTACCTTTCTCCAAAAAGCTCTTCTAAATCTGCGCTCGGTTCGGGAGCAGGCAATACCGGAGATTTCCTGTTATTAAACAACGTTGTCAATGCGACAAACTATATAGACCCCGATGTCAGCGATCAAAATGTGGTCGGAAACGCCTAA	MPAITGPIAINSISGGVVNFGDSFYLSPKSSSKSALGSGAGNTGDFLLLNNVVNATNYIDPDVSDQNVVGNA	PGPT0025090_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304	NA	NA
D1-12_00210	396	gerPE		putative spore germination protein GerPE	ATGTTAAAGCGCATTTCACGCCTCCGGAACGCCAAAATCAATTCAGTCGGAATTGCGAGTGTCTTTCAAGCAGGCGATACGAATGAAATCAATATGCGGGTCAAAGTATTGGCCGATCAGCGTAGTCTTGCTGTATACAGAGATGATGAAGGCTCATTTAACAAAAAAGAATACCAGATCTTTCGGCAGCCGGCCGTCATGCCGTTACCGGAAACGGGAGTCCAAAGCGCATTCTGCCATGAAAACCCTTCAATTCGGGTAAGGAATGTGAAAGTTCAAGGGGTATCGTCAGCGTCCGTGGTTCAAATCGGATCGACGTCGATCGTTCTGGGAGATTCGCGGCTGAAACATATTAGGCAGATCTTCACATCAAGCTCACAATCACAGCAGCCCTGA	MLKRISRLRNAKINSVGIASVFQAGDTNEINMRVKVLADQRSLAVYRDDEGSFNKKEYQIFRQPAVMPLPETGVQSAFCHENPSIRVRNVKVQGVSSASVVQIGSTSIVLGDSRLKHIRQIFTSSSQSQQP	PGPT0025085_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025085-gerPE-K06303	NA	NA
D1-12_00211	177	gerPD		putative spore germination protein GerPD	ATGATTTTTACAGTGATTAACCGGAATATTGAAGTCGGCGACATCCGGTCTACCGGTGTATCCAGTTCTTCCTTATTATTAATCGGCGACACCGATTCCGTCTATCTGTCTTCCATCTTTGACACGCCTCCGGAATCTCTTATTATCGGGCCTTATGTGCCGCTGGCGCCGGAATAA	MIFTVINRNIEVGDIRSTGVSSSSLLLIGDTDSVYLSSIFDTPPESLIIGPYVPLAPE	PGPT0025080_82	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025080-gerPD-K06302	NA	NA
D1-12_00212	618	gerPC		putative spore germination protein GerPC	ATGTATGATCAATCCGTTTCATCCTACCTGCAGAATTTAAATTCTTTCGTCCAGCAGCAGGCGCAGCAGATTCAGGAGCTCGAACGGCAGCTGAAAGAATTCCAAAATGAAATTTCAACGCTGAAGCAGCAGCCTTCTACAAGAATCGATCGGCTCGAGTATAAATTTGATCAGCTGAAAATTGAACGGCTGGAAGGAACGCTGAATATCGGATTGAATCCGACTGATCCGAATGCCGTGCAAAACTTCGAAGTCGGCCAGACATCTCCGCAGGTCGGAATGATGCAGCAGGAACAGGCGGGCCAGCAAATGCAGCAAATCCGCCAAAACGTCGATATGTATCTGAATGAAGAAATCCCCGCGCTTTTAGAGAAGCTCGAAACTCAGTATGAGAGCAGGCTGGACGAAGCGAACAAATATCATATTATTGAAGATATCAGAAAGCAGATGGACAGCCGGATTCAGTATTATCTGTCCCATGTCCCGAAAGAAGAAAATACGGCGCCCGCGCAATATGCCGAGCAGATTGCCGAACATGTGAAGCGTGATATTGTCAGGGCCGTCGAGCACTTTATTAAGCACATACCTGGTGAAATGAAAGGTGATGATCCGTCATGA	MYDQSVSSYLQNLNSFVQQQAQQIQELERQLKEFQNEISTLKQQPSTRIDRLEYKFDQLKIERLEGTLNIGLNPTDPNAVQNFEVGQTSPQVGMMQQEQAGQQMQQIRQNVDMYLNEEIPALLEKLETQYESRLDEANKYHIIEDIRKQMDSRIQYYLSHVPKEENTAPAQYAEQIAEHVKRDIVRAVEHFIKHIPGEMKGDDPS	PGPT0025075_58	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025075-gerPC-K06301	NA	NA
D1-12_00213	237	gerPB		putative spore germination protein GerPB	ATGAATTTTTACGTCAATCAGTCGATCCATATCAATTACATGCGTGTAGAATCTGTCAGCAATTCCTCCATACTGCAAATCGGAAGCGCCGGTTCAATTAAATCTCTTTCCAATCTGTACAATACAGGGAGTTATGTTGAGCCGGCGCCGCCTGTCACCGCGGGGCAGCAGACTGTAACAACAGGGGGAGGTCCCGGCACCTCATCATTTGTACCGCTCCAGCCGCCAAGCCGGTAG	MNFYVNQSIHINYMRVESVSNSSILQIGSAGSIKSLSNLYNTGSYVEPAPPVTAGQQTVTTGGGPGTSSFVPLQPPSR	PGPT0025070_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025070-gerPB-K06300	NA	NA
D1-12_00214	222	gerPA		putative spore germination protein GerPA	ATGCCCGCAATTGTCGGAGCGTTTAAAATTAATGCCGTCGGTACGAGCGGAGTCGTTCATATAGGCGACTGCATCACCATTTCTCCAAAAGCAGAGGTTAAGACATTTGCCGGAGCGGGCAGTTTCAATACCGGAGACAATCTCACACTGACGAATTACAGAAATTCAACGAATGTGTACGATAATGATGTAATCGATCAGCCGATGGCAGGAAACGCATAA	MPAIVGAFKINAVGTSGVVHIGDCITISPKAEVKTFAGAGSFNTGDNLTLTNYRNSTNVYDNDVIDQPMAGNA	PGPT0025065_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025065-gerPA-K06299	NA	NA
D1-12_00215	216			hypothetical protein	ATGAACAAAATTGAAGAAAAAAGATTAACTTTATTCGAGACAGCGCAAAAATTCGGAATCAATGCGACGGAGACCATCAGGTGCAGCCAGGAGCTGGACAGCCTTTTAAACGGGTGCCGGGGCGGGCTCATCCAACAAACGAAAGACAGCGGGCTGAACCCGTCCGTACAGATTGAGCACGGCCGCACCGCAGGAAAAAAAGAGGCTTTCTCATAA	MNKIEEKRLTLFETAQKFGINATETIRCSQELDSLLNGCRGGLIQQTKDSGLNPSVQIEHGRTAGKKEAFS				NA	NA	NA	NA	NA
D1-12_00216	906	yisK	COG0179	putative protein YisK	ATGAAATTTGCGACAGGGGAACTGAACAGCCGAACATTTGTCGGTCTGATCATTGATGATGACAAAATCTTAGATCTGCAAAAGGCTGAAAAAAAATTGTTTGAACTTGAGACGATTCCGGGTTCGCTGATCGAGTGCATTCAAAAAGGAGATAAGTTTGTCGCGCATGCCGGACAGCTTGCGGAATGGGCGAAAAAACCGAATGACGAGTCGGGTTCATTTATGTATGCGCTGTCTGACGTAAAGCTTTGCGCGCCTATTCCGAGACCTTCAAAGAACGTGATCTGCATCGGGAAAAATTATCGTGATCATGCCGTTGAAATGGGGAGTGAGGCTGATATACCGGAGCATCCCATGGTTTTTACGAAAGCCCCCGCTGCCGTTACAGGACACGGAGAAACAGTGGACAGCCACTTGGACGTAACGGAGCAGCTTGATTATGAAGGGGAGCTTGCGGTAATCATATCAAAAAGCGGATCGCACATCTCCAAAGAACATGCGCTTGATCATATATTCGGCTATACCATTGTAAATGATATAACAGCGCGCGATCTGCAGAAAAAACATAAACAGTTTTTTATCGGCAAAAGCCTGGATACGACATGCCCGATGGGCCCGGTCATTGTACATAAGTCGGCCGTCAGTGATCCGCAAAGCCTGAAAGTTGAAACGCGGGTGAACGGAGAACTGCGCCAATCAGGATCAACGGGGGACATGATTTTTCCGATAGCTGAATTAATCGAGACGCTGTCAAAAGGGATGACGCTTGAAGCCGGTGACATTATAGCGACGGGGACGCCGTCCGGTGTCGGAAAAGGGTTTAAGCCGCCGAAATTTTTAAAGCCGGGGGACCGCATTGACATTACAATTGAACCGATCGGCACGCTGTCGAACCAAATCGGATAA	MKFATGELNSRTFVGLIIDDDKILDLQKAEKKLFELETIPGSLIECIQKGDKFVAHAGQLAEWAKKPNDESGSFMYALSDVKLCAPIPRPSKNVICIGKNYRDHAVEMGSEADIPEHPMVFTKAPAAVTGHGETVDSHLDVTEQLDYEGELAVIISKSGSHISKEHALDHIFGYTIVNDITARDLQKKHKQFFIGKSLDTTCPMGPVIVHKSAVSDPQSLKVETRVNGELRQSGSTGDMIFPIAELIETLSKGMTLEAGDIIATGTPSGVGKGFKPPKFLKPGDRIDITIEPIGTLSNQIG	PGPT0001630_39	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164	NA	NA
D1-12_00217	357			hypothetical protein	ATGACACATTGGCATATTACTTCATGGGTCGTTGCGCTTATCCTGGTGTTTGTCAGCTACGGGCTGTACGGTGCCGGAAAAGCGAAGGGCGCAAAAATTACGCATATGATTCTGCGCTTATTCTACATTATTATTATTCTGACCGGAGCTGAGCTTTTCGTCCGTTTTGCGAATTGGAACGGAGAATATGCCGGAAAAATGCTGCTCGGCATCATTACCATCGGACTGATGGAAATGCTCGTCATCCGCAAGAAAAAAGGCAAATCAACCGGCGGACTGTGGATCGGTTTTATTATCGTGCTCGTCCTGACGGTGCTGCTCGGCCTTCACTTGCCGATCGGCTTTCACGTATTTTAA	MTHWHITSWVVALILVFVSYGLYGAGKAKGAKITHMILRLFYIIIILTGAELFVRFANWNGEYAGKMLLGIITIGLMEMLVIRKKKGKSTGGLWIGFIIVLVLTVLLGLHLPIGFHVF				NA	NA	NA	NA	NA
D1-12_00218	543			hypothetical protein	ATGAAACGAAAACAGCTTTTCTCAGAAAAAAACAAATGGGGGCGCGGCACCCTGATGATAGAGGACGGCATCTGCCTCGTCGAAAACGATGAAGGCGATATCCTGCTTGCAGACAGTCTAGGAAACGCAGACGTATTGATGAAACGCGGCGGCAGATGGCAGCCGGCACGGATTTGCGGCGGTGCGGCCGAAATCGGCGCTGACACCATCCCCCTGCTCGGCGGGGAAGAAATCCGTTATGAAAAGGCGGTCAAACGGCCGCTGTTAACCTTGCTCGATTCGCTGGACGATGAAACGTTTCTGCTGTTTCTCAGCCATCTTCACGGGTTCGGCCTGTCTGTATATGATTGCGTATTTTCCTACAATCAGGCGCTGTTTTCCGGTGAAGGCGTTTCGTTTTATCACTTCTCGGCGGATGACGCACAATGCGCCCTGCAGCATCACCGCGGCAGCTCGGGTAAACACGACAGATTTGAATGGACGGCATCTGACGGGCGGCGCTCCATTATGTATTCAGCGGCAAAACAAGACGGCACCGCGTAA	MKRKQLFSEKNKWGRGTLMIEDGICLVENDEGDILLADSLGNADVLMKRGGRWQPARICGGAAEIGADTIPLLGGEEIRYEKAVKRPLLTLLDSLDDETFLLFLSHLHGFGLSVYDCVFSYNQALFSGEGVSFYHFSADDAQCALQHHRGSSGKHDRFEWTASDGRRSIMYSAAKQDGTA				NA	NA	NA	NA	NA
D1-12_00219	1842	asnO	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 3	ATGTGTGGAATTGCGGGTTGGGTCGATTTTCAAAAGCAGCTCGTCCAAGAGAAACATATTATGAACAATATGATAGACACTCTTTCAAAACGAGGGCCTGATGATTCAAACGTCTGGGGAGAGCCCCATGTTTTATTCGGACATAAAAGACTTTCGGTCGTTGACATTGAAGGCGGCCGCCAGCCGATGGCCTGCACGCATCAAGAGGAGACGTACACCATCATTTATAATGGCGAGCTGTATAACACGGAGGAATTGCGGAAGGAGCTTCAGGCGAGGGGCCACCGTTTTGAGAGGACCTCTGATACAGAAGTGCTGCTGCACAGCTATATTGAGTGGCGGGAGGAGTGCGTGAACCGCTTGAACGGTATTTTCGCTTTTGCCATCTGGGATGAAAAGCGCGAGCGGCTGTTCGGGGCAAGAGACCGGCTCGGCGTCAAACCGTTTTTTTATAAAGAACACGGCTCTTCCTTTCTGTTTGGGTCGGAATTGAAAGCCATCCTTGCTCATCCTGATGTGAAAGCCCGCACAGACAGCGGCGGACTTGCGGAAGTATTCGGACTCGGGCCGTCCAGAACTCCGGGCTGCGGGGTGTTTAAAGGAATTCACGAGGTGCGTCCCGCCCATGCGTTTACTTTCTCAAAGGACGGTTTGTCCATATGGCGTTATTGGAATGTAAAGAGCGAAAAGCATACAGACAGCTTCGATGAAACCGCGGCTCACATTCGGTACTTATTTCAGGATGCAGTGACACGCCAGCTCGTATCTGACGTGCCGGTTTGCACGTTTTTATCAGGGGGGCTTGATTCGAGCGCGATAACCGCGATAGCCGCCGCTCATTTTGAGAAACAAGGCAGAGATCCCCTTCATACTTATTCAATTGATTATGAGGAGAACAGCAAATTTTTTAAAGCGAGCGCCTTTCAGCCGAATGATGACGGCCCGTGGATCGATAAAATGACAAATGCATACGGCACACAGCATCATAAGTGCGTGATTACGCAGGATCAGCTGGTTGAACATCTGGAGGAATCCGTTCTCGTCAGAGACCTGCCGGGCATGGCTGATGTGGATTCCTCGCTATTATGGTTCTGCCGGGAAATTAAAAAAGATTTTGTCGTGAGCCTTTCCGGAGAATGCGCGGACGAAATTTTCGGCGGATATCCGTGGTTTCACACCGCGGCAGAAGAAGACGGATTTCCTTGGATGAGGTCGACTGAGGAGAGGATCACGCTCTTGGATGAAAAGTGGCAAAAACGGCTGAACCTTAGAGAATACGTGAATGCGAGATATGAAGAAACCATTGCGGAAACGCCGCTGTTAGACGGTGAGACGGGAACAGATAAAGCGAGACGGCAGCTGTTCTACTTAAATATGCTTTGGTTTATGACAAATCTGCTCGACCGTAAAGACCGCATGAGCATGGGCGCAAGTCTTGAAGTACGGGTGCCGTTCGCCGACCACAGACTTGTGGAATACGTTTGGAATATTCCTTGGGAAATGAAAATGCATGGCAGCCGGGAAAAAGGCATCTTGCGGAAAGCGCTTGAAGGACTGCTTCCTGAAGATATTTTGTACCGCAAAAAAAGCCCTTATCCGAAAACGCATCACCCGAAATACACGCAGGGGGTCACAGAATGGCTGAAAACGATTTTACAACAGAAAGATTCCGTGCTTCACACCCTGCTTGACAGAAAGAAGCTGGAAATGCTGCTGGAGACAGAAGGTTCATCTTTTCAGGTTCCGTGGTTCGGCCAGCTGATGAAAGGCCCGCAGCTGATCGCCCATCTTGCCCAGATCCATACATGGTTTGAGGCGTACCGTATCGATATAGAAGAATAA	MCGIAGWVDFQKQLVQEKHIMNNMIDTLSKRGPDDSNVWGEPHVLFGHKRLSVVDIEGGRQPMACTHQEETYTIIYNGELYNTEELRKELQARGHRFERTSDTEVLLHSYIEWREECVNRLNGIFAFAIWDEKRERLFGARDRLGVKPFFYKEHGSSFLFGSELKAILAHPDVKARTDSGGLAEVFGLGPSRTPGCGVFKGIHEVRPAHAFTFSKDGLSIWRYWNVKSEKHTDSFDETAAHIRYLFQDAVTRQLVSDVPVCTFLSGGLDSSAITAIAAAHFEKQGRDPLHTYSIDYEENSKFFKASAFQPNDDGPWIDKMTNAYGTQHHKCVITQDQLVEHLEESVLVRDLPGMADVDSSLLWFCREIKKDFVVSLSGECADEIFGGYPWFHTAAEEDGFPWMRSTEERITLLDEKWQKRLNLREYVNARYEETIAETPLLDGETGTDKARRQLFYLNMLWFMTNLLDRKDRMSMGASLEVRVPFADHRLVEYVWNIPWEMKMHGSREKGILRKALEGLLPEDILYRKKSPYPKTHHPKYTQGVTEWLKTILQQKDSVLHTLLDRKKLEMLLETEGSSFQVPWFGQLMKGPQLIAHLAQIHTWFEAYRIDIEE	PGPT0020150_3183	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
D1-12_00220	741	yisP	COG1562	Putative phytoene/squalene synthase YisP	ATGACCGAATACGAAACATGCGCCCAGCTTTCCGAGGCGCACTTTCCTTTATATAAACGGACTTTCTCATCCCTGCCGCCAAAAAACAGGCGGGCCGCATGGGCGGTGCTTGCTTTGTTTCACGAAGCTGACCGGCTTGATGTGCAGGAACTTGGGAGATTTGAACAGGCGGTACAAGACTTTCTGAACGGGACAGGCGCCGACGGCTTTTTGTGGGAGGCGCTCGCCGATGTGCGGCAGCAATTTGCGCTTGAAGAAGAGCCGTTACGTGAGTTTATCGCCGGCCAAATCTCTGACAGAGAAAAAGTAACTTATCAAGAGTTTGATGACCTGCTGATGTACGCGGGCCAAACAGGCGGAGCCCTCGGCCTGCTTCTGCTGCCGGTTTGCGCGCGCCGGAACCAAGAGAAACTCCGCCATGCAGCCGTTTCATTAGGAGCAGCCATTCAGCTGACCCGGGTGCTTCTGGGGGTCCATACGGATGAGCGGGCGAAAAAGCGTCTCCCGCGCCAGGTGATGAAGCAATTCGGCTATACGGAAGAAGAGCTGGAGAGCCATACCGTCAACAAAGCTTTTATGAATGTATGGGAGTACATCGCATTCGAGGCCGAGGCGTATTTCGAGGAGGCGTCTGAAGCGCTGGAGCTGTTTCCGTTATACTCAAGGCCCGCCGTTACCGGTTTGCTGGCACATTACCGGTCAGAGCTCGGTGACATGAGACAACGGCTTTCGCAAGCATAA	MTEYETCAQLSEAHFPLYKRTFSSLPPKNRRAAWAVLALFHEADRLDVQELGRFEQAVQDFLNGTGADGFLWEALADVRQQFALEEEPLREFIAGQISDREKVTYQEFDDLLMYAGQTGGALGLLLLPVCARRNQEKLRHAAVSLGAAIQLTRVLLGVHTDERAKKRLPRQVMKQFGYTEEELESHTVNKAFMNVWEYIAFEAEAYFEEASEALELFPLYSRPAVTGLLAHYRSELGDMRQRLSQA	PGPT0007375_2768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007375-crtB-K02291	NA	NA
D1-12_00221	1398	yeeO	COG0534	putative FMN/FAD exporter YeeO	TTGATTTTGTCAGGAAAGGGGTTAAAAGAAATGAAACAAGCGATTTTAAAACGGGCTGCGTTCAAACAATCCTCTGATCACAAACTCTCATTATACGCGCTGACTTGGCCGATATTTATTGAGGTTTCATTATATATGTTTATGGGAAACGCCGACACTCTTATGCTTAGCCAATACTCTGACAACAGTGTGGCGGCCGTGGGTGTCAGCAATCAGATTTTAAATTTAATTATCGTGATGTTCAGCTTTATCGCAACGGGTACGACAATTGTGATTTCACAGTTTTTAGGATCTAAACAGAAAAAAGAGGCGCAGGAAGTGGCTTATGTATCAATAGGAGCGAACTTTGTCATCAGTCTCGCCATCAGCGCCGCCATATTTTTTGCGGCCGTTCCGCTGCTTCATGTGATGGGTCTTTCCAATGAATTGATGCCGGATGCCAAAGTCTTTTTGCAGGTGGTCGGCGGGCTGTCCTTCATTCAGGCTTTGATTATGACATTCAGTGCCATTTTAAAAAGCTACGGTCATACGAAGGATACGATGTTCGTTACGATCGGGATGAATATTTTAAATATTGCCGGAAACTTTCTTGTCATTTTCGGGCCGCTCGGCCTTCCGGTGTTAGGCGTCGCCGGTGTTGCGATGTCAACGTCCTTTGCACGGATCATCGGACTGATCGCGATGATTGTGATCGTCAAAAAACGCATCGGACTCGGTCTGACATGGCAAAAGATTTTTCACGTCCATAAAGAGCACTTGCGGAAACTCCTGAAAATCGGGATTCCGTCTGCCGGCGAACAGCTGTCTTACAACATTTCACAAATGGTTGTCACTTATTTTATCGCCATTATGGGCGCTCAGGCGCTTACAACAAAGGTTTATACGCAAAACATCACCATGTTTATCCTGCTGTTCGGAACGGCGATCAGCCAGGGCACACAGATTTTGATCGGCAGATATATCGGCGCCAAACGGTTTGACGACGCTTATGACCGCTGCATGAAAAGTCTGTACTGGGCGCTTGGCATTGCCGCTTTGACATCCGTGATCATGACCTTGTTTTCAAAGCAGCTGATCGGAATTTTCACAAGCAGCCCTGACATTATTGCGACGGCGAGCATGCTGATCGCCATGACGATCATTCTTGAGCCCGGCCGCTCATTTAATGTCATTATCATCAACTCACTGCGGGCTGCCGGAGATGCAAAATTCCCCGTTTACATGGCGATGATTTCCATGTGGGGTATCGGACTGCCTCTCGCTTATCTGTTCGGCATCCATTTCGGATTGGGGCTTATGGGCATCTGGATTTCATTTATCGCGGATGAATGGGTCAGAGGCATTCTTATGTACAGAAGATGGCGGTCGCGGATTTGGATTCAAAAAGGGATTGCATAA	MILSGKGLKEMKQAILKRAAFKQSSDHKLSLYALTWPIFIEVSLYMFMGNADTLMLSQYSDNSVAAVGVSNQILNLIIVMFSFIATGTTIVISQFLGSKQKKEAQEVAYVSIGANFVISLAISAAIFFAAVPLLHVMGLSNELMPDAKVFLQVVGGLSFIQALIMTFSAILKSYGHTKDTMFVTIGMNILNIAGNFLVIFGPLGLPVLGVAGVAMSTSFARIIGLIAMIVIVKKRIGLGLTWQKIFHVHKEHLRKLLKIGIPSAGEQLSYNISQMVVTYFIAIMGAQALTTKVYTQNITMFILLFGTAISQGTQILIGRYIGAKRFDDAYDRCMKSLYWALGIAALTSVIMTLFSKQLIGIFTSSPDIIATASMLIAMTIILEPGRSFNVIIINSLRAAGDAKFPVYMAMISMWGIGLPLAYLFGIHFGLGLMGIWISFIADEWVRGILMYRRWRSRIWIQKGIA				NA	NA	NA	NA	NA
D1-12_00222	864	araC		Arabinose operon regulatory protein	ATGTCCTTTCTCGAGTTCACAGTTCCTCCGTTCCCGGTCTTTATCGCTGCGGGAGAAGGAGTGTTCAAAAAAGGCGAAACCCATGTGAGACGGGTCTTCCCGGTGTTTGATCTGCTGTATGTGAAAAAAGGCGTCCTCTACATTACAGAAGACGAAAACGCCTTTTCCGTTGAAGCGGGAGAATATATTCTGCTTTCTCCCGGCCTTGAACATTACGGAACAAAAGGCAGTGAAGAAACGACATCCTATTCGTGGCTTCATTTTGAAGGAGCGGCTTATGAGGTGACGGAAACAACCGGGAACAACTGGTCGGAGCTGAGGCGAAAAAAAGGGAGCTTTGAAGAGCCGTCCCGCTACCGCCTGTCCCTGCCGCAAAAAGGGAAGGTGAGACGCCCGCAGTTTATGGCCGGGCAATTCAGTGTGCTGACCGATGACAGCGCAGAGAACTCCGATCTGCCGCTCAGAAAGCAGATTCTGTTTGAAGAGCTGCTGCTCCATCTTCAGAAAGAAGCGTTCCAAATCCCGTCCGCAAAGGAAAGAGTCGCATGGGAGGCCGCCCGGTACCTGCAGGAGCACTATCAGGAGAAAACAACCATCAAAGCGCTCTCTTCGGCTCTTCATTACAACCAAGACTACGTGACCCGCTGCATGCAGCAGGTGCTCGGCGTCACGCCCGGCCAGTATACGAACAAAGTCAGAATGACGGAGGCGAAACGTCTTTTGTCCGCAACCAATTACAAAATGGGGGCGATCGCGGACGCCATCGGCATGGAGGACCCGACCTATTTTTCCAAACTGTTTAAACAGATTGAAGGCATTTCGCCGCTTGAATACCGCAAATTCGTAAGCCGGAAAACGGACTGA	MSFLEFTVPPFPVFIAAGEGVFKKGETHVRRVFPVFDLLYVKKGVLYITEDENAFSVEAGEYILLSPGLEHYGTKGSEETTSYSWLHFEGAAYEVTETTGNNWSELRRKKGSFEEPSRYRLSLPQKGKVRRPQFMAGQFSVLTDDSAENSDLPLRKQILFEELLLHLQKEAFQIPSAKERVAWEAARYLQEHYQEKTTIKALSSALHYNQDYVTRCMQQVLGVTPGQYTNKVRMTEAKRLLSATNYKMGAIADAIGMEDPTYFSKLFKQIEGISPLEYRKFVSRKTD				NA	NA	NA	NA	NA
D1-12_00223	1026	degA_1	COG1609	HTH-type transcriptional regulator DegA	ATGAAAATGACAATTTACGACGTGGCCGAAAAAGCGGGCGTCTCCATCTCGACGGTCTCGCGGGTCATCAACAATACGGGGAGGATCAGTGACAAAACCCGCCGGATGGTGCTCCGTGTCATGGAGGAGATGGACTATCATCCGAATGTTCACGCATCCGCTTTGACGGGCAAAAAGACGAATATGATCGGCCTGATCACCCCGGATATTTCAAACCCGTTTTTCGGGGAACTGGCGAAAAGCATTGAAGACAGCGCCGGTGCACTGGGGTTTCATATCATTATCTGCAGCACCGATTATCAGCCTGAAAAAGAAACGAAGTATTTTTCGATGCTGCGGCAGAAGCAGGCGGACGGCATTATTTTCGCGACGGGACTTGATCATGATAACAGCGTCACAGCGCTTGATGATATGGTGAAATCGGGCATCCCGCTTGCGATGATTACGCAGGATAAACCGCTCGCGCCGATGGACGTCGTCATTATCGATGACTTTCTCGGCGGCTATACGGCGGCTGAGCATCTCATATCTTTAGGCCATAAAAGAATTGCCTGTATCGTCGGCAACGGTTCGACGACGGGTGAAAGAGACAGAATCAAAGGCTTTCGAAAAGCGATGCGGGAAGCGGGGATGACACTAGATGAATCGCTGATCATACCGACGGAATATTCGCTGGAAAGCGGAAAACAGGCAGCGGGCGAGCTGTTTGACAGAGACCTTCCGACCGCCGTTTTCGCCTTTAATGACGTCTTGTCATGCGCGGCGATACAGGCGGCGCGCTCCCGGGGCATTCGGGTGCCGGAAGACTTGTCGGTCATCGGCTTTGACAATACCATTCTCGCTGAAATGACGGCACCGCCGCTCACGACGATTTCTCAGCCCATACGCGAAATGGGGCGGCGTGTCGTTGAACTTCTCATTGATGAGATTCAAGGGAAGAAAAAAACAAAAAGCAAAATCATTTTATCTCCGGAACTCGTCATCAGGCATTCTACGGCACCGGCAAAAACGCGCCCTCAGCGATAA	MKMTIYDVAEKAGVSISTVSRVINNTGRISDKTRRMVLRVMEEMDYHPNVHASALTGKKTNMIGLITPDISNPFFGELAKSIEDSAGALGFHIIICSTDYQPEKETKYFSMLRQKQADGIIFATGLDHDNSVTALDDMVKSGIPLAMITQDKPLAPMDVVIIDDFLGGYTAAEHLISLGHKRIACIVGNGSTTGERDRIKGFRKAMREAGMTLDESLIIPTEYSLESGKQAAGELFDRDLPTAVFAFNDVLSCAAIQAARSRGIRVPEDLSVIGFDNTILAEMTAPPLTTISQPIREMGRRVVELLIDEIQGKKKTKSKIILSPELVIRHSTAPAKTRPQR	PGPT0017992_9780	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
D1-12_00224	1032	iolX	COG0673	scyllo-inositol 2-dehydrogenase (NAD(+))	ATGACAGATCAAGTCAGATGTGCGGTGCTGGGATTAGGACGATTAGGGTATTTTCATGCGAAGCATTTAGTCAGCGAAGTTCGGGGAGCTGAGCTTGCGGCCGTCTGTGACCCGATGAAGGGAAAGGCGGAAGCGTGTGCGAAAGAATTAGGAATCGCCAAATGGACGGAGAATCCGTATGACCTGTTGGAAGATCACACGATTGACGCCGTCATCATTGTCACACCGACAAGCACACATGCGGAAATGATCATGAAGGCTGCTGAAAACGGCAAGCACATCTTTGTTGAAAAGCCGCTCACCCTGAGTCTTGAGGAATCTAAAGAAGTCATGAAAAAAATCGAAGAAACGGGCGTCATCTGCCAGGTCGGTTTTATGAGGCGGTTTGATCCGGCATACGCCGACGCGAAAAGAAGAATCGACGCCGGGGAAATCGGCAGGCCCATTTATTATAAAGGATTTACAAGAGATCAAGGCGCACCGCCCGCGGAATTTATCAAACATAGCGGAGGGCTTTTCATTGACTGTTCGATTCATGATTACGACATCGCGAGATATCTCATGAATGCCGAAGTTACGTCCGTCTGCGGGCACGGGAGGATTTTAAAGCACCCGTTCATGGAAGAGTGCGGCGACGTTGATCAGGCATTAACGTATCTTGAATTTGATTCGGGCGCGGCCGGCGATGTGGAGGCAAGCCGAAATTCTCCGTACGGGCATGATATCCGAGCCGAAATTATCGGGACGGCGGGAAGCATCTTGGTCGGTACGCTGCGGAAAAGCCATGTCACCATTTTAACGGAGTCAGGCAGCAGCTACGAAATTATTCCGGATTTTCAAGCCCGCTTTAAAGACGCTTACCGTCTGGAGCTTGAGCACTTTGCCGAATGTGTGAAAAAAGGGGAAACGCCGATTGTGACAGACATCGATGCCACGATTAACTTAGAAATCGGGATCGCCGCGACGGAATCTTTTAAAACCGGAAGGCCTGTAAAGCTTACCCCGGGCGCCTCCGGATATGCCGGATTATGA	MTDQVRCAVLGLGRLGYFHAKHLVSEVRGAELAAVCDPMKGKAEACAKELGIAKWTENPYDLLEDHTIDAVIIVTPTSTHAEMIMKAAENGKHIFVEKPLTLSLEESKEVMKKIEETGVICQVGFMRRFDPAYADAKRRIDAGEIGRPIYYKGFTRDQGAPPAEFIKHSGGLFIDCSIHDYDIARYLMNAEVTSVCGHGRILKHPFMEECGDVDQALTYLEFDSGAAGDVEASRNSPYGHDIRAEIIGTAGSILVGTLRKSHVTILTESGSSYEIIPDFQARFKDAYRLELEHFAECVKKGETPIVTDIDATINLEIGIAATESFKTGRPVKLTPGASGYAGL	PGPT0018525_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018525-iolX-K16043	NA	NA
D1-12_00225	495			hypothetical protein	ATGTCAGACATTTTAAAGCTGTATCACTACCACAGATGGGCAAATGAGCAAGTTATTCAGCATCTGAAGACCCTGCCCGCGGCAAGCTTACAGCAGAAACTGGATAGTGTTTTTCCGACTGTGAACGTCGTGCTTGTGCATATATACCGGGCTGATTACATTTGGCTTCACGTGCTTTACGGAGAAACTTACGAACAAATCATCTCGCAGTTTGATCAATTTGAAAAGCTTGACGGAGATTTTGAGGCGATTGAACATAGAATGACTGAACTGGACAAAGAATACAGCGAATTTTTAAGAGAATTGGAGAACACGGAAGGCCCGATCTCCATTTCTCATCCACGCATGGGAACGCTCCGGACGACATATGCCGATGTGATCCGGCATGTTGTGAATCACGGCACATACCATCGCGGCAATATAAGCGCGATGCTTCACCAAATGGGCTATAAAAGCGGGCCGACTGACTACATTTTTTTCTCATACGAATCATAA	MSDILKLYHYHRWANEQVIQHLKTLPAASLQQKLDSVFPTVNVVLVHIYRADYIWLHVLYGETYEQIISQFDQFEKLDGDFEAIEHRMTELDKEYSEFLRELENTEGPISISHPRMGTLRTTYADVIRHVVNHGTYHRGNISAMLHQMGYKSGPTDYIFFSYES				NA	NA	NA	NA	NA
D1-12_00226	627			hypothetical protein	ATGAATACGATCCAAAAACCGAAAATCCCGAAAGAATTGCCGATGCTTTCTTTCACTGAAGCGCTTCAGGATGAGGAGCTCAAAGAAGTCATCGTTGAAAACGGCATCGTAAACGGCAAACTGGACGGCCTGCGCGCCGATAAAGTCATTTTCAGAAACACCGTTTTTACGGATGTCTCTTTCAGACATATGGAATGTACGGATGTCCTGTTTGACAAATGCGATGTCTCAAACGCTGATTTCAGCGGAAGCATCATCCATAGAACGGCGTTTCAGCATTCAAAACTTCTCGGCTTGAATCTGGCGGATTCCGCCATGCGTCATGTACGGTTTGAAGACTGCCTCGCACATTACAGCTCCTTCAGCTATTCCAATATGAAGCATGTCCGGTTTGACTCGTGCGGCCTTTCAGAAAGTGAGTGGAATGATGCCGTTCTTGAATACACAGATCTTGACGTCTGTGATTTGAACGGCGCAAACTTCATCGGCACGTCTCTTTTTAATATGGATATCAGCACGTGCACATTTGATCATCTGCACGTCTCGCTTGATAAGCTGAAAGGATGCCGCATCTCTCCGTCTCATGCCGTGACATTCGCAGAAGCGCTCGGAGCCATTGTGACGTGA	MNTIQKPKIPKELPMLSFTEALQDEELKEVIVENGIVNGKLDGLRADKVIFRNTVFTDVSFRHMECTDVLFDKCDVSNADFSGSIIHRTAFQHSKLLGLNLADSAMRHVRFEDCLAHYSSFSYSNMKHVRFDSCGLSESEWNDAVLEYTDLDVCDLNGANFIGTSLFNMDISTCTFDHLHVSLDKLKGCRISPSHAVTFAEALGAIVT				NA	NA	NA	NA	NA
D1-12_00227	441			Acetyltransferase	ATGGTTGAAGTAAAACCCATCACCGCAGAAGACACATACGCGATCAGACACAGCGTGCTGCGCCCCCATCAGACGATTGAGGATTGTAAATATGATCAGGACAGCGTCAAAGGAGCCTTTCATCTCGGAGGTTTTTACGACGGGACATTGATCAGCATCGCTTCTTTCTACCCGCAGAACCAGCAGGCTTTACAGGCAGCGCCTGCCTACCAGCTGCGCGGCATGGCGACGCTTGAGGAATACCGGACGCAAAAAGCGGGAAGCACGTTAATCGCCTATGCGGAACGGAAACTGGCAGATATGGGGGCGGCGCTTGTCTGGTGCAACGCCAGATGTCACGTAAAGGGATATTACGAGAAGCTCGGCTTGAAAAGCACGGGCAGCCCCTTTGATATTCCCGGCATCGGCCCGCATGTGATCATGTATAAAGAACTCGCCTGA	MVEVKPITAEDTYAIRHSVLRPHQTIEDCKYDQDSVKGAFHLGGFYDGTLISIASFYPQNQQALQAAPAYQLRGMATLEEYRTQKAGSTLIAYAERKLADMGAALVWCNARCHVKGYYEKLGLKSTGSPFDIPGIGPHVIMYKELA				NA	NA	NA	NA	NA
D1-12_00228	1842	yitJ	COG0646	Bifunctional homocysteine S-methyltransferase/5,10-methylenetetrahydrofolate reductase	ATGGGACTATTACAAGACTTAGAAGAACGGATTTTAATCGGGGACGGCGCGATGGGCACTCTCCTCTATTCCTACGGCATTGACAGATGTTTTGAGGAACTGAACGTATCAAAGCCCGAAGAAATCAAGCGGATACATAAGGCTTACGTGGAAGCCGGGGCAGACATCATCCAGACAAATACGTACGGCGCGAATTTTATTAAGCTCTCAAGATACGGACTTGAGGATGAAACGAAAAAAATCAATCAGGAGGCGGTCAGAATCGCGCGCGCTTCCTCAGACGGCGCTTATGTATTGGGAACGATGGGCGGCATCCGCACCTTTAACAAAAACGCCTACAGCCTGGAGGAGATTAAACGCAGCTTTCGGGAGCAGCTTTATTTATTGCTGCACGAAGAGCCGGACGGTCTGCTTCTGGAAACATACTATGATTTAGAAGAGGCGCGTGAAGTGCTGAAGATCGCGAGAAAAGAAACGGAACTTCCGATTATGCTGAACGTATCCATGCACGAACAGGGCGTTCTGCAGGACGGAACGCCGCTTCGGGAAGCCCTCAGGTCCATTGCCGATCTCGGCGCTGACATAACGGGAATCAATTGCCGGCTCGGCCCGTACCACATGATTGAAGCGCTCACCGAAGTGCCGATTTTCCGTGACGCTTATTTATCGGTCTATCCGAACAGCAGCCTTCCGTCTTTAGAAGAAGGCCGGCTTGTTTATGATACGGACGATGCCTATTTCCGGGAGAGCGCCGTACAGTTCCGCACTCAGGGCGCGCGCATTATCGGCGGCTGCTGCGGTACGACGCCAAACCATATCAGAGCCATGGCTGAAGCGGTCCGCGGACTTTCTCCCGTCACTGATAAAGAAGTGAAAATCAGACGGGAAGAGGAAGTCATCTCAGTCCGTAATGAACGGACCGAGCCTGGTTTAAACGAAATCGCCGCTCAAAAACGGTCAATTATCGTAGAGCTTGATCCGCCGAAGAAATTGAATTTTGACAAATTTCTGCAAGCGGCGGCTGAATTAAAAGAGACCGGCATAGAAGCGCTGACGCTCGCCGACAATTCATTGGCGACACCGCGGATCAGCAATGCCGCCTGCGGTTCATTGCTGAAAGAGCGCCTTGATATCCGTTCTCTCGTTCACATTACATGCAGAGACCGCAACATCATCGGCCTTCAGTCACATTTAATGGGGCTGGATACGCTCGGGCTCACCGACATTTTAGCCATCACGGGCGATCCTTCAAAAATCGGCGACTTTCCGGGGGCTACCTCCGTCTATGATTTAACGTCCTTTGATTTGATCAGGCTGATTAAACAATTCAACGAGGGCATTTCTTTATCAGGGAAACCGCTCGGCAAGAAAACGAACTTTTCCGTAGCCGGAGCATTTAATCCGAATGTCCGCCACCTTGATAAAGCAGTAAAACGGCTGGAGAAAAAAATCGAGTGCGGAGCTGACTACTTCGTGTCCCAGCCTGTCTACTCGGAGCAGCAGCTCATTGACATTCATCATGAAACGAAGCATCTCAAAACACCGGTGTATATCGGAATCATGCCGTTAACGAGCAGCCGCAACGCAGAGTTCATTCATCATGAAATCCCGGGCATTAAGCTGTCAGACAGCATCCGCGAAAAAATGGCGCTCGCCGGTGAAGACAAGCGAAAGCAGAAAGCCGAAGGCCTCGCCATCGCTAAATCGCTTCTCGACACGGCGTGCGAACTGTTTAACGGAATTTATTTAATCACCCCGTTTCTCCGTTCTGATTTGACGTCAGAGCTTGCAGCTTATATTAAGCAAAAGGATGAAAAGCGGGCTGATGTATATTTGCATTGA	MGLLQDLEERILIGDGAMGTLLYSYGIDRCFEELNVSKPEEIKRIHKAYVEAGADIIQTNTYGANFIKLSRYGLEDETKKINQEAVRIARASSDGAYVLGTMGGIRTFNKNAYSLEEIKRSFREQLYLLLHEEPDGLLLETYYDLEEAREVLKIARKETELPIMLNVSMHEQGVLQDGTPLREALRSIADLGADITGINCRLGPYHMIEALTEVPIFRDAYLSVYPNSSLPSLEEGRLVYDTDDAYFRESAVQFRTQGARIIGGCCGTTPNHIRAMAEAVRGLSPVTDKEVKIRREEEVISVRNERTEPGLNEIAAQKRSIIVELDPPKKLNFDKFLQAAAELKETGIEALTLADNSLATPRISNAACGSLLKERLDIRSLVHITCRDRNIIGLQSHLMGLDTLGLTDILAITGDPSKIGDFPGATSVYDLTSFDLIRLIKQFNEGISLSGKPLGKKTNFSVAGAFNPNVRHLDKAVKRLEKKIECGADYFVSQPVYSEQQLIDIHHETKHLKTPVYIGIMPLTSSRNAEFIHHEIPGIKLSDSIREKMALAGEDKRKQKAEGLAIAKSLLDTACELFNGIYLITPFLRSDLTSELAAYIKQKDEKRADVYLH	PGPT0008140_286	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008140-yitJ-K24042	NA	NA
D1-12_00230	492			hypothetical protein	ATGGCAAAAGAAAGTTCTTTTGATATTGTATCCAAAGTTGAATTTCCCGAAGTGCAGAATGCGATTCAGATGACGCTGAAAGAAATCGGCACGCGCTATGACTTTAAAGGATCGAAAAGCGATGTGAAGTTAGAAAAGGAAGAACTTGTCCTGATTTCTGATGACGAGTTTAAACTGAATCAGCTCAAAGATGTGCTGAGCGGCAAGCTGATCAAACGGGACGTGCCGACGAAAAACATTGAATACGGCAAAATCGAAAATGCAACTGGAGGCACGGTGCGCCAGCGCGCGAAGCTTGTACAGGGCATTGATAAAGACAATGCCAAAAAAATCAACGCGGTGATTAAAAACTCCGGCTTGAAGGTCAAGTCGCAGATTCAGGACGACCAAGTGCGCGTCACCGGAAAAAATAAAGATGATCTGCAGCAGATTATTGCAGCCGTCCGCGGAGCAGACCTGCCGATTGACGTTCAATTTATTAATTTTAGATAA	MAKESSFDIVSKVEFPEVQNAIQMTLKEIGTRYDFKGSKSDVKLEKEELVLISDDEFKLNQLKDVLSGKLIKRDVPTKNIEYGKIENATGGTVRQRAKLVQGIDKDNAKKINAVIKNSGLKVKSQIQDDQVRVTGKNKDDLQQIIAAVRGADLPIDVQFINFR	PGPT0012210_933	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
D1-12_00231	849	cvfB		Conserved virulence factor B	ATGAGACCAGGGCAGCAGCTCACGCTTAGTATAGATCACCAAACCGATTTCGGTTATTTTTTAACTGACGGCGAGGATACGGTTCTTTTACATAACAGTGAAATCACAGAGGATATCGAAGACAGAGATGAAGTGGACGTATTTATTTACGTCGATCATCAGGAAAGACTCGCGGCGACGATGAAAAAGCCGCTCATCAGCTTTTATGACTACGGATGGGTGGAAGTGACGGACGCTGTGGAAGATATGGGCGTATTCGTCGACGTCGGTCTGTCAAAAGACGCGCTCGTCGCAACGGAGCACCTGCCTCCGTACAAATCCGTCTGGCCGCAAAAAGGAGACAGACTGTATTGCATGCTGAAGGTGACAAGCCGCGGGCGCATGTTTGCCAAACCGGCGCCTGAGGATATCATCAGTGAATTATTTACGGATGCAGAGGAAGACGTCATGAATAAAGACCTGACAGGCACGGTGTACAGACTGATCGCATCAGGCTCTTTTCTGATTACCGATGAAGGCATCCGCGCGTTTATTCACCCTTCAGAAAGAAAAGAAGAGCCGAGACTCGGCAGCCGCGTGACAGGGCGTGTCATCGAGGTAAAGGAAGACGGCTCCGTCAACATGTCCCTGCTGCCGAGAAAGCAGGATGCGCTTTCGGTTGACGCGGAAGAAATTCTGACCTATCTGAGATCAAGAAACGGCGCGATGCCTTACGGAGACAAAAGCCATCCTGACGATATCCGCGAACGGTTTCATTTAAGCAAAGCCGCCTTTAAGCGGGCGCTCGGGCATCTGATGAAAAACGGCAAGGTCTATCAGGAAGACGGCTGGACATACGAAAAACAATAA	MRPGQQLTLSIDHQTDFGYFLTDGEDTVLLHNSEITEDIEDRDEVDVFIYVDHQERLAATMKKPLISFYDYGWVEVTDAVEDMGVFVDVGLSKDALVATEHLPPYKSVWPQKGDRLYCMLKVTSRGRMFAKPAPEDIISELFTDAEEDVMNKDLTGTVYRLIASGSFLITDEGIRAFIHPSERKEEPRLGSRVTGRVIEVKEDGSVNMSLLPRKQDALSVDAEEILTYLRSRNGAMPYGDKSHPDDIRERFHLSKAAFKRALGHLMKNGKVYQEDGWTYEKQ				NA	NA	NA	NA	NA
D1-12_00232	978	tmpC_1	COG1744	Membrane lipoprotein TmpC	ATGAGAAAAATGGCGATATTTGCGGCTGTACTGCTGCTTGCGCTCAGCACGGCGGGATGTGCCGGCAAATCTGAGGAAACGGCGGCCGAAAAAACGAAAACAATCGGCATCATGCTGACAGACAACGGCCTCGGCGACCAATCATTTAATGATTCAGGCTTTCAAGGTTTGATGAAAGCGAGAGACGAGCTCGGCATCACATTTGATTACCGGGAAATAAAAGATACCGGTACATACGAAAAAGGACTGACCCAGCTTGTCCGGGAAGGCAATGATCTTGTTGTGGGGCTCGGTTACAGCATGCAGGCGGATTTAGAAAAGGTCGCCAAAAAATATCCGAAGCAGCGGTTTGTGCTGATTGATTCCGTATCAGACCTGGATAATGTCACCTCCGTCACGTTTAAAGAGGATGAAGGAAGCTTCTTAGCCGGAGCGCTGGCGGCTATGACGAGCAAAACCGGCACGATCGGATTTATCGGCGGTTCAGATGCCGACGTCATTAAACGGTTTAAAAAAGGCTATCTGAAAGGCGCGGAATCAGTCAAACCGAAAATCCGCGTGCTGTCGGACATCAGCGGTACGTTTGATGATGATAAGCTCGGGAAGCGCATCGCCCAAAACATGATCCGAAAAAAAGCCGATGTCCTGTTTACGGCGGCCGGCTTCACGGGTGTCGGCGCACTGAAAGAAGCGGAGGCGCAAAAAGTATACGCCATCGGTGTTGACAGCGATCAATATTACACCGCCGAGCACGCCGTTATTTCTTCTTTAGTGAAAAATGTCGACCATGTCATCTATGAATTGGCGAAAGATTTAAAAGACAACAAGGAGATCAAAAGCGGTGAGATCGTTTACGGACTGAAGGAAAACGGCATGGAATTAGCCAAGATCAGAGTTGTCAAAAACGCAGGCGGGCTGGCGAAAAAGATCACGGATATGAAAAACAGCCTGATTGAAAAAGGAGGCGATCTGAAGTGA	MRKMAIFAAVLLLALSTAGCAGKSEETAAEKTKTIGIMLTDNGLGDQSFNDSGFQGLMKARDELGITFDYREIKDTGTYEKGLTQLVREGNDLVVGLGYSMQADLEKVAKKYPKQRFVLIDSVSDLDNVTSVTFKEDEGSFLAGALAAMTSKTGTIGFIGGSDADVIKRFKKGYLKGAESVKPKIRVLSDISGTFDDDKLGKRIAQNMIRKKADVLFTAAGFTGVGALKEAEAQKVYAIGVDSDQYYTAEHAVISSLVKNVDHVIYELAKDLKDNKEIKSGEIVYGLKENGMELAKIRVVKNAGGLAKKITDMKNSLIEKGGDLK	PGPT0021055_4136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
D1-12_00233	1650			hypothetical protein	GTGACATTACGGACAAGGCTGCTCGTTAACGCAGCCGTTACGATGATTTGCTTCGCCGCCGTCATCGGCTTTACCATCGTAAACATGATGAAGATTCAGGCTTCAAATGAAGATGAAGTGGACGCGCTGTTAAACGTCCAGGAAGCAAAAGCTGACCTTAATACGTTAAAAGAAAGCATCACCGGCTATTCCTATACGCTCGCAGACGCCCAGAAAGAAGATGTGCGAAGCTATATGAAAAGCAGCTCAGACAAACTGGCGGCGCTCAAAAAAACGATGACGGACGATGCGGACAAAGCCGCTTATGACAAACTCGCCAAAAAATACGAATCGTGGCAGGCGGAGGCGGACGCTGCTCTTGATTCGAAAAGCCCGGCTGAAGCGACAAGGACGGCGGCCCGCATCAACGGTCTTCTGAATGATATTTATATGCTGAATCTGAAAAGCCGGGATCACTATGAAGACATGCAGAAGCAGACGGCTGACCAGATTCAGTTTATCGTTTACAGCGCAGCCGTGCTGACCATCGTGATACTTACTGTTACCGTCATATCTTCCATCAGGCTGACGAAGAGAATTGCAGGGCCGATACGCCGTATGGCTGAAAATGCCCGTCGTATTGCGGGAGGGAACCTTGCTGTTGAAATGCTTGATTATAAAGGGAAGGACGAACTGAAAGAGCTGAATGACTCATTCGGAATGATGGCTGAACAGCTCCGCACCTTAATTCAGGCGATCGGAGAGGTCGGCCGTGAAGTCGAGACGTTTGCGGAAGGTTTGACGAAGGAAAACCAGACGCTGAAGGACATGACCGAGCAGGTGTCCGTGTCAACGGAAGAAATGGCGCAAGGCTCCCAAACCATTTCAGAAGATCTGCAGCATGCGGTGCAATTCATTGAACAAATGGATGAACATTCAAAGGCGAACGCCGAACGTTCAAAACAAACGACGAGAAGCAGCGAAGAGACGATTGCGGCGGTGGCTGCGGGGCGCGGTGCTTTAGCCGAGACCAAGCAAGCCATTGATAAAAGCAATGAGACATCAAAAGAGATTTCCGAAGCCGCCGATCTCTTCATAGAACATGCGGCAGGCATCAGTATGATGGCGCAGACCGTTTCTGACATTGCGGGCCAGACCAATCTGCTGTCATTAAACGCCGCAATCGAGGCGGCCAGAGCAGGCGAGTCCGGAAAAGGATTTGCCGTCGTTGCCGAGGAGATACGGAAGCTCGCAGACGGATCAGCCAAAGCGACAGCGCAGATTTTCGATATGGTAAAGCAAATTGAAGACGGCATCACATCTATTACCGGAGCTGTCACGACCGGCGTCGCTTTAGCGGACAGACAGCAGGAGCTGATGGAGAAAACATCAGAATCATTCGTCCATATTGAACAAAAAGCCGCCCATATTAAAGCGGAGCTTACTCAATTGGACGGACGGATCATCGAATCGAAACAGCTTGGTGAGCAAGTGCTGCATCATGCCGAAAGCATCAGCGCCGTCGTTCAGGAAACGGCTGCAGGAAGCGAAGAGATTTCTGCCTCCGCGCTTGAGCAGCTGTCTTCTTTTCATAAAATGGCGGAAAGCGTCAATAATCTGGTGAGCCTGACAGAGCGGTTAAACGATCAGGTCCGCCGGTTTACTTTGTAA	MTLRTRLLVNAAVTMICFAAVIGFTIVNMMKIQASNEDEVDALLNVQEAKADLNTLKESITGYSYTLADAQKEDVRSYMKSSSDKLAALKKTMTDDADKAAYDKLAKKYESWQAEADAALDSKSPAEATRTAARINGLLNDIYMLNLKSRDHYEDMQKQTADQIQFIVYSAAVLTIVILTVTVISSIRLTKRIAGPIRRMAENARRIAGGNLAVEMLDYKGKDELKELNDSFGMMAEQLRTLIQAIGEVGREVETFAEGLTKENQTLKDMTEQVSVSTEEMAQGSQTISEDLQHAVQFIEQMDEHSKANAERSKQTTRSSEETIAAVAAGRGALAETKQAIDKSNETSKEISEAADLFIEHAAGISMMAQTVSDIAGQTNLLSLNAAIEAARAGESGKGFAVVAEEIRKLADGSAKATAQIFDMVKQIEDGITSITGAVTTGVALADRQQELMEKTSESFVHIEQKAAHIKAELTQLDGRIIESKQLGEQVLHHAESISAVVQETAAGSEEISASALEQLSSFHKMAESVNNLVSLTERLNDQVRRFTL				NA	NA	NA	NA	NA
D1-12_00234	1251	cypC	COG2124	Fatty-acid peroxygenase	ATGGATGAACAAATTCCGCATGAAAAGGGTCTTGATAATAGTCTGGCTTTATTACGCGATGGTTATGTATTTGTGAAAAAACGAGCGGAGACTTATCGCTCAGATGTGTTTCGCGCCCGTTTATTAGGGAAGACATTCATTTGTATGAGCGGAGCGGAAGCCGCAAAGCTTTTTTATGACACAGAACGATTTCAGCGGCAGCAGGCCCTCCCCAAACGGGTGCAGAAAACGTTATTCGGAACAGGGGCAATCCAGGCAATGGACGGTGAACGGCATAAGCACAGGAAGCTTCTATTTATGTCGCTGATGACGCCGCCCCGGCAAAAACGGCTTGCGGAAGCGGTGGCAAAACAGTGGAAAGCATCTGCGGAAATGTGGGAGGGTTCAAACCGAATTGTCCTTTTTGATGAAGCGAAGAAAGTGCTGTGCCGGGCTGCCTGTGAGTGGGCCGGCGTCCCGCTGAAAGACTCAGAAGTGAAAGAGCGGGCAGAGGATTTCACCGATATGGTAGACGCATTCGGCGCTGTCGGACCGCGTCATTGGAAAGGCAGAAGGGCGAGGCTGAAAACGGAGAAATGGATAGAGGAGGTCATTGAGGATGTGCGGTCCGGCAAGCTGCAAACGCCGGAGGGCTCAGCCTTGTATGAAATGGCTTTTCATACAGAACTTGACGGGAACAGACTTGATTCTCACATGGCTGCTGTTGAGCTTATTAATGTTCTGCGCCCGATTGCCGCCATTTCTTACTTCATTACGTTTTCAGCTCTTGCATTGCATGATTACCCTGAATATCGGGGCAAACTGAGATCGAGAGATGATCAGGAGGCCGAAAGATTTGCACATGAAGTTCGGCGGTATTACCCGTTTGCCCCGTTTTTAGGAGCCGTTGTGAAAAAAGATTTCGTATGGAAGAACTGTGAGTTTAAAAAGGGTGCATCCGTCATGCTTGACCTATATGGGACAAACCATGATTCCCGGCTTTGGGAGGATCCGAATGAATTTCGCCCGGAACGTTTTCAGGGGCGGGAGGAAAATAAATTTGATTTCATTCCCCAGGGCGGAGGTGATCCGGCTAACGGCCACCGCTGTCCGGGTGAGGGAATGACCGTGGAAGTCATGAAAACTTCCCTTGCGTTTCTTGCCAATGAAATAGAGTACGATGTTCCGTCCCAAGATTTAAGCTTCAGCCTGTCCAGAATGCCGGCATTGCCTGAAAGCGGATTCGTGATAAGTGATGTTAGACGCATATAG	MDEQIPHEKGLDNSLALLRDGYVFVKKRAETYRSDVFRARLLGKTFICMSGAEAAKLFYDTERFQRQQALPKRVQKTLFGTGAIQAMDGERHKHRKLLFMSLMTPPRQKRLAEAVAKQWKASAEMWEGSNRIVLFDEAKKVLCRAACEWAGVPLKDSEVKERAEDFTDMVDAFGAVGPRHWKGRRARLKTEKWIEEVIEDVRSGKLQTPEGSALYEMAFHTELDGNRLDSHMAAVELINVLRPIAAISYFITFSALALHDYPEYRGKLRSRDDQEAERFAHEVRRYYPFAPFLGAVVKKDFVWKNCEFKKGASVMLDLYGTNHDSRLWEDPNEFRPERFQGREENKFDFIPQGGGDPANGHRCPGEGMTVEVMKTSLAFLANEIEYDVPSQDLSFSLSRMPALPESGFVISDVRRI				NA	NA	NA	NA	NA
D1-12_00235	123			hypothetical protein	ATGAAAGATGATGACAAAAAACCGTTGGACAATAACGCCGTAAATCAGAAAAAGAACCGGCTTGCCGAAAAAAACCGGCAGGCGGGAAAAAACCAGAATTCCAAAAAACCGGACCATCTGTAA	MKDDDKKPLDNNAVNQKKNRLAEKNRQAGKNQNSKKPDHL				NA	NA	NA	NA	NA
D1-12_00236	852		COG1307	Fatty acid-binding protein	ATGACAGTTCACCTTATTGCTGACAGCGCCTCTGACCTGCCGAAATCTTATATTGAAGAAAACCGGATCGGGTTCATTCCGCTGCACGTAACACTTGACGGAAACGAATATGAGGACGCGGTCACCATTCAGGCGGATCATATATTTCAAGCGATGCGGGACGGGAAAGTTCCGAAAACATCCCAGGCATCACCGGATACGATAAAAAAAGTATTTTTACAATACGCGGAACTGGGAGAACCGGCGATATACGTCGCCTTTTCCTCAGGTCTTTCCGGCACCTATCAGACGGCCGTAATGATGGCCAATGAAGTAAAAGAGGAATTTCCCGATTTTGATTTACGGATTGTAGATTCCAAATGCGCTTCATTGGGCTGCGGCCTCGCGGTGATGCACGCGCAAACACTCTGTGTTAACGGGAATACAATACAAGAAATCGAAACGTCTGTAAAGAGCTTTTGCGCACGGATGAAACATATATTTACGGTCGATGATGTCGCTTATCTCGCGCGGGGCGGCAGAATTTCAAAAACGTCCGCTTTTGTCGGGGGGCTTTTGAACATCAAACCGATTCTGCATGTGGATGACGGCAGGCTCGTGCCGCTCGAAAAATTGCGCGGACAAAAGAAACTGTTTAAACGGATTATAGAAATGATGAAGGAAGAAGGCGGCGATTGGGCGGATCAAACCGTGGGGATCAGCTATGCAGATAACGAGGAGACGGCGCTTCGGATGAAGGAAATGATTGAAGAAGCGTTCCATCCGAAAGAGATCATTCTTCATTCAATCGGCTCTGCGATCGGCGCCCACTCCGGGCCGGGCACGCTCGCGATTTTTTTCCTGAAGCCATAA	MTVHLIADSASDLPKSYIEENRIGFIPLHVTLDGNEYEDAVTIQADHIFQAMRDGKVPKTSQASPDTIKKVFLQYAELGEPAIYVAFSSGLSGTYQTAVMMANEVKEEFPDFDLRIVDSKCASLGCGLAVMHAQTLCVNGNTIQEIETSVKSFCARMKHIFTVDDVAYLARGGRISKTSAFVGGLLNIKPILHVDDGRLVPLEKLRGQKKLFKRIIEMMKEEGGDWADQTVGISYADNEETALRMKEMIEEAFHPKEIILHSIGSAIGAHSGPGTLAIFFLKP				NA	NA	NA	NA	NA
D1-12_00237	843			hypothetical protein	ATGGTACTAGAACAAGCAAAAAAATTAGCAATCGTCGTCATCGGCGCGTTTCTGTATGCGGCGGGACTGAATTTATTCCTGATACCGGCGAATGTATATGCCAGCGGTTTTACCGGTGTCGCCCAGCTGCTGTCAAGCGTCGTTGATCAATACGCCCCCTTTTATATTTCGACAGGAGTTCTCATGTTCCTCTTAAACATTCCCATCGGTGTGTTAGGGTGGCTGAAAGTCGGCAGATCATTCACCGTATACAGCATATTAAGCGTAGCGATGACGTCCGTCTTTATGGGAATTCTCCCGGAAATGAGACTGTCGCACGATATTCTTCTGAATACCGTATTCGGAGGAGTCATCTCAGCTATCGGCATCGGTTTAACGCTGAAATTCGGCGCTTCGACAGGCGGTCTTGATATCGTGTCGATGGTGCTGGCCAAATGGAAGGATAAACCGGTCGGCACATATTTCTTCATTTTGAACGGGATTATCATTTTGACGGCAGGATTATTGCAAGGATGGGAGAAAGCATTATATACCCTTGTCGCTCTGTATGTCACAACAAGGGTGATTGACGCCATTCACACCCGCCACATGAAACTGACCGCCATGATCGTTACGAAAAAAGCCGATGAAATCAAAGAAGCGATTTACGGGAAAATGGTCCGCGGCATTACGACGGTGCCGGCAAAAGGCGCTTACACAAACGAACAGAAAGAAATGATGATCATCGTCATCACGCGGTATGAATTGTATGACCTCGAGAAAATCGTGAAAGAAGTCGACCCGAAAGCCTTCACAAACATCGTGCAAACGACGGGGATCTTTGGTTTCTTCAGAAAAGACTGA	MVLEQAKKLAIVVIGAFLYAAGLNLFLIPANVYASGFTGVAQLLSSVVDQYAPFYISTGVLMFLLNIPIGVLGWLKVGRSFTVYSILSVAMTSVFMGILPEMRLSHDILLNTVFGGVISAIGIGLTLKFGASTGGLDIVSMVLAKWKDKPVGTYFFILNGIIILTAGLLQGWEKALYTLVALYVTTRVIDAIHTRHMKLTAMIVTKKADEIKEAIYGKMVRGITTVPAKGAYTNEQKEMMIIVITRYELYDLEKIVKEVDPKAFTNIVQTTGIFGFFRKD	PGPT0014526_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014526-yitT-NA	NA	NA
D1-12_00238	462			hypothetical protein	ATGAAGTGGCTGTTTGGCCTGTTATTACCGGTCATTTTACTGATCGGATGCAGCAGTCAATCCGGGCAGAAGGAGCCCGCTGAGGAGGTATCCGGAGAGATGAATGAACAGCAAGCGGAATTAGCCGTAAACCCTGTGCAGACGGATCAGCAGATCGAATTTCAAATGTCTTTAAAAAACAAAAGCGAAAGCCCGATCGATTTCACATTCAGCTCTGGGCAGAAATTCGAATTGACCGTACATGACCAACATCACAAAGAACTGTACCGCTATTCAAAAGACAAAATGTTTACTCAGGCGTTTCAAACCGTGACTTTAATGCCGAATGAAACGTATGACTTTTCAGATGTGTGGAAAAACGTGCCCGGTCCGGGAACATACACGGTGACGGTGACGTTTTTAGGGAAGTCCGATCAGATCGGAAAAAGACTGAAAACGGTAAAAACATTTGAAGTGAAATGA	MKWLFGLLLPVILLIGCSSQSGQKEPAEEVSGEMNEQQAELAVNPVQTDQQIEFQMSLKNKSESPIDFTFSSGQKFELTVHDQHHKELYRYSKDKMFTQAFQTVTLMPNETYDFSDVWKNVPGPGTYTVTVTFLGKSDQIGKRLKTVKTFEVK				NA	NA	NA	NA	NA
D1-12_00239	198			hypothetical protein	ATGAGAAACGAACTGTTTTCTCAAGCCAAGTCATTTGTCCAGCAGGCCGTCATGATTGCTAACGGTTTCGAGGACGGCGATCAGGAAAAAGCCGTCTCACGCGCCAAAAACGCCGTGTCTTCCGCGTACGCCAATTCGACGGATGCAGAACGTCAGCAGCTGCACCAATTTCAGGATCAGCTGGAGAAATTGCAATAA	MRNELFSQAKSFVQQAVMIANGFEDGDQEKAVSRAKNAVSSAYANSTDAERQQLHQFQDQLEKLQ				NA	NA	NA	NA	NA
D1-12_00240	150			hypothetical protein	ATGGGTAAACGAAACAAATCAAAACGGTTTATTCAGCAAGGCAAGGACTCTGTCAGTCTTCATGACGCAAGATTTCCATATCGGTCTACATTAGAGGAAGCACAGCATGATGCAGCAAAAGATTCGGCTGAAAGGCAGGTTGACTTTTAA	MGKRNKSKRFIQQGKDSVSLHDARFPYRSTLEEAQHDAAKDSAERQVDF				NA	NA	NA	NA	NA
D1-12_00241	813	yitU	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YitU	ATGGAGACAAAACCTTACCTCATCGCTTTAGATCTGGATGGAACCTTATTAAAAGATGATAAAACCATTTCCCCTGAAACGGCGCGGACGATTCAGACGCTGAAAGAAGCGGGTCATCATGTCTGCATCTCAACCGGCCGCCCGTTCCGTTCCAGTTCGATGTATTATGACGAGCTCGGGCTGACAACGCCGATTGTCAATTTTAACGGGGCATTTGTCCACCACCCGAAAGACGAGTCATGGGGACGATACCACACGTCCTTATCTGTCGATGTGGTCAGACAGCTTGCCGAACTTACAGAGACCTATCAAATACATAATGTGCTCGCTGAGATCGTTGATGATGTGTACTTCCATTATCATGATGAGCATTTAATTGAGGCGTTTCATATGAATACGGCGAATGTCACATTCGGCGATCTGCGCGAAACAGTCCAAGAAGATGTGACGTCCGTATTGATACATGCAAAGGAAGAGGACGTCGCGGACATACGCGCGCATTTATCCGATGTGCACGCCGAGGTCATTGACCACAGAAGATGGGCGGCTCCTTGGCATGTGATTGAAATTATTAAACACGGCATGAATAAAGCGGTAGGCCTGAAGAAAATCAGCGACTATTACCAAGTGCCGAGAGAACGGATCATCGCGTTCGGCGACGAAGACAACGATCTTGAAATGCTCCGATTTGCCGGGTGCGGCGTAGCGATGGGAAACGGCACGGATGAAGTCAAACAGGCCGCCGACCGCGTCACGGGATCAAATGAAGCGGACGGAATCGCCGAATTTTTAAAATCCTATTTCTCCCTGTGA	METKPYLIALDLDGTLLKDDKTISPETARTIQTLKEAGHHVCISTGRPFRSSSMYYDELGLTTPIVNFNGAFVHHPKDESWGRYHTSLSVDVVRQLAELTETYQIHNVLAEIVDDVYFHYHDEHLIEAFHMNTANVTFGDLRETVQEDVTSVLIHAKEEDVADIRAHLSDVHAEVIDHRRWAAPWHVIEIIKHGMNKAVGLKKISDYYQVPRERIIAFGDEDNDLEMLRFAGCGVAMGNGTDEVKQAADRVTGSNEADGIAEFLKSYFSL	PGPT0008595_528	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
D1-12_00242	768			hypothetical protein	GTGATTCTTATTGATCATCAAACCGTATCAGGCATTCCGTTTTTACATATTGTAAAAGAAGAAAATCGGGACCGTCCCGCTCCCCTTGTTTTCTTTATTCACGGTTTTACAAGCGCGAAGGAGCATAATCTTCATTTCGCTTACCTGCTTGCTGAAAAGGGATTCAGGGCGGTGCTGCCGGAAGCTCTTTACCACGGTGAACGCGCTGAACAGCTGTCAGCAGAAGAGCTCGCCGTCCATTTTTGGGACATTGTATTAAATGAAATCGAGGAGCTTGACGTGCTGAAAAAGGATTTTGAAGCGCGCGGTCTGATTGAAGACGGGCGGATCGGTCTTGCAGGCACGTCAATGGGCGGAATTACGACATTCGGCGCGATGGCCGCGTATGATTGGGTCAAAGCCGGCGTCAGTCTGATGGGAAGCCCGAACTATACGGCGTTTTTTCAGCAGCAGATTGACCACATTCAAAAGCAGGACATCGACATTGACGTCACAAAAGAACAGGTCGATGAACTGTTTGCGCGGCTCAAACCGTTTGATCTCAGTCTGGAACCGGAAAAACTCCGGAGCCGCCCGCTGCTGTTCTGGCACGGCGTTCAAGACAAAGTCGTTCCGTATGCACCGACCCGCGGCTTTTATGAAACGATTAAACCTCATTACAGCAGCCGGCCTGACCATCTTCAGTTTCTGAAAGACGAACGGGCTGACCATAAAGTCCCGAGATACGCCGTTTTAGAAACCGTCGCCTGGTTCGATAAGCATTTATAA	MILIDHQTVSGIPFLHIVKEENRDRPAPLVFFIHGFTSAKEHNLHFAYLLAEKGFRAVLPEALYHGERAEQLSAEELAVHFWDIVLNEIEELDVLKKDFEARGLIEDGRIGLAGTSMGGITTFGAMAAYDWVKAGVSLMGSPNYTAFFQQQIDHIQKQDIDIDVTKEQVDELFARLKPFDLSLEPEKLRSRPLLFWHGVQDKVVPYAPTRGFYETIKPHYSSRPDHLQFLKDERADHKVPRYAVLETVAWFDKHL				NA	NA	NA	NA	NA
D1-12_00243	309	sufT		Fe-S protein maturation auxiliary factor SufT	GTGGAAGAAGCATTAAAAGAAAACATCATGGGCGCCTTGGAGCAGGTTGTTGACCCTGAGCTCGGCGTCGATATCGTCAATCTCGGCCTTGTATACGACGTTGATATGGATGACGACGGCCTGACGCACGTTACGATGACGCTGACATCAATGGGGTGCCCGCTCGCTCCGATCATCGTCGACGAGGTGAAAAAAGCGCTCGCCGACATTCCGGATGTAAAAGAGACGGAGGTCCACATCGTCTGGAATCCGCCGTGGACAAGAGACAAAATGTCACGCTACGCAAAAATCGCATTAGGGATTCAGTAA	MEEALKENIMGALEQVVDPELGVDIVNLGLVYDVDMDDDGLTHVTMTLTSMGCPLAPIIVDEVKKALADIPDVKETEVHIVWNPPWTRDKMSRYAKIALGIQ				NA	NA	NA	NA	NA
D1-12_00244	444	fosB	COG0346	Metallothiol transferase FosB	ATGTTAAATGAGGTGGGGAAAATAAACATAAAAGGAATCAATCATCTTCTTTTTTCTGTTTCAAATTTGGAAAGATCTATAGAATTTTATGAAAAAGTATTTCATGCACAACTCCTGGTTAAAGGGCAAAAGACAGCATATTTTGATCTGAACGGGCTTTGGCTTGCACTTAACTTAGAGGCGGATATACCAAGAAATGAAATACATAAATCTTATACGCATATGGCCTTTACAATTGACCCAAAAGATTTTGATGCAATACATCAACGGCTAAAAAATCTAAATGTAAATATATTAAATGGGCATCCAAGAGATAAACAAGATCAAAAGTCAATTTATTTTACTGATCCCGATGGGCATAAATTTGAATTCCACACAGGCACACTCCAAGACAGATTGTCCTATTACAAAAAAGATAAACCTCATATGAAATTTTATATATAA	MLNEVGKINIKGINHLLFSVSNLERSIEFYEKVFHAQLLVKGQKTAYFDLNGLWLALNLEADIPRNEIHKSYTHMAFTIDPKDFDAIHQRLKNLNVNILNGHPRDKQDQKSIYFTDPDGHKFEFHTGTLQDRLSYYKKDKPHMKFYI	PGPT0028560_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028560-fosB-K11210	NA	NA
D1-12_00245	1539	dprE1	COG0277	Decaprenylphosphoryl-beta-D-ribose oxidase	GTGGATTTTTTATGCCGTGTGTTTTCCGGTATCGGGTTAAAAAGGAAAAAAACGGACGTAAGGCATGATATAATAGACCGGCTGCATGCGAGGGAGGAACCCATGAAGAAAAAATTACTTCTCATTATCCTTAGCATTCTTGTTTATACGGCGCTGTTCGCTGTTTCCGCTTTTCACAAAGAGCCGGAGCAGCAGGCAGGGACAATGACGGATGTCAGCCGTCTCATGCCCGTGAAAATTAAGCAGACGGTCAAAGGAAAAGAGAAAGAAACATTGATCGAAACCATTAAGGAAGCAAAGAGAAAGCATCTGAAGATCTCAATCGCAGGCGCCCAGCACTCAATGGGCGGCCAGACGTATTATGAAGACGGTATCGTTCTCGACATGACGGGCTACAACAAAATACTCGGTCTCGACCGAAAGAAAAAAATCATCAGAGTGCAGGCGGGAGCGACGTGGAATGATATTCAGCGCTATGTCAATCCGTATGGGCTCGCGGTAAAAGTCATGCAATCGCAAAACATTTTTACGATCGGCGGCTCACTGAGCGCCAATGCCCACGGCCGGGATATCCGGTACGGTTCGCTGATTGATACGGTCAAATCGTTTCATCTTTTAAAGGCGGACGGCAAAGTCATCACCGTTACTCCGAAAGATGACCTGTTTTCAGCCGTCATCGGCGGCTACGGCCTGTTCGGGGTCATCCTTGACGCGGATATTGAGCTGACGGATGATGAGCTTTATGAAATGAAAACGAAACGCATGAACGCTGATACATACAGTCAATATTTTACGCAGCATGTTCAGCGCAACCCCGCCGTGCGCATGCATCTCGCGCGGATCGCAACAGGGGATAAAGGCTTTTTGCACGATATGTATGTGACTGATTACACACTCTCAGACAACCAGAAAGAATTAAAGCGGCACAATGAACTGAAAGAAGATGAGCATCCGGCGCTGACGAAATTCGCGCTTGGCCTCTCCCGCCGGTATGACTGGGGAAGAAATTGGTTCTGGTCCACCCAGCAGTCTTATTTTCTCAGCCAAAACGGCGTGAAAGTCTCCAGGAACAATGTCATGCGGTCAGAATCGAAGTTTTTGGAATATGAAAACACGGACAACACCGACGTGCTACAAGAATACTTCGTGCCCGTCGGCGAATTTGCGCCGTACATTCATGATTTACGCAAGACGCTGTCACATGAAGATCTCAATCTCGTAAATATTACGATCCGCTACGTGCAAAAAAATGAAAAAGCCGATCTGTCATACGCAAAGGAAGACATGTTTTCACTCGTCCTTTTAATCAATGAAGGGTTTTCAAAAGACGGCCAGGCGAGTGCGGCGCGGATTGTCAGAAAAATGACGGATACGGCATTGCGCCACCGCGGCAGTTATTATCTCCCGTATATGCTGTACCAAACGAAAGAGCAGATGCGCGAGGCATATCCGAAAAGCGATATGTTCTTTCAGAAAAAACACAAATATGATCCGGATGACTTGTTTATGAATTATTTTTATCAGAGGTACAAATCATGA	MDFLCRVFSGIGLKRKKTDVRHDIIDRLHAREEPMKKKLLLIILSILVYTALFAVSAFHKEPEQQAGTMTDVSRLMPVKIKQTVKGKEKETLIETIKEAKRKHLKISIAGAQHSMGGQTYYEDGIVLDMTGYNKILGLDRKKKIIRVQAGATWNDIQRYVNPYGLAVKVMQSQNIFTIGGSLSANAHGRDIRYGSLIDTVKSFHLLKADGKVITVTPKDDLFSAVIGGYGLFGVILDADIELTDDELYEMKTKRMNADTYSQYFTQHVQRNPAVRMHLARIATGDKGFLHDMYVTDYTLSDNQKELKRHNELKEDEHPALTKFALGLSRRYDWGRNWFWSTQQSYFLSQNGVKVSRNNVMRSESKFLEYENTDNTDVLQEYFVPVGEFAPYIHDLRKTLSHEDLNLVNITIRYVQKNEKADLSYAKEDMFSLVLLINEGFSKDGQASAARIVRKMTDTALRHRGSYYLPYMLYQTKEQMREAYPKSDMFFQKKHKYDPDDLFMNYFYQRYKS				NA	NA	NA	NA	NA
D1-12_00246	543			hypothetical protein	ATGAAACACAACCATTTAAAATGGCTGATCCTGTCTCAGAGCAGTGTCTTTTTTGCCGGCAGCCTGATCTTTCCGTTTTATATTTTATTTATTAAAAACATCGGTTCCAGCTACACGCAATTCGGTCTCTCATACGGCTTGTTCGGCCTGAGCGGCGCATTGATTCATCCGCTGCTCGGCCGGCTGTCGGCAAGACTGGACCCCCGCTGGTTCCTTATGGCAAATTCGTGGGGGATGGCGGTGCTTCTTCTGACGCTCCCGCACATTACCGGCGTGCACCAGGTTTATGTTGTGCAGGTGCTTTTGGGCCTGTTCGGCGCGATGCAAAAACACGGCGAGAAAATCATGATCGCCGATTACACCGACGGCGGGGAGCGGGGAAAAAAAGTCGGCAGCTATCATTTCTGGACGGCCGTATTTTCAGCTGCCGCCATTATTCTCGGCGGGTTTCTCGCTGATTTCTTTACGGTTTATATTATTTTTTACGCCAGCTCCGTGCTGTTTTTTATAAGCGGGCTGATGATGCTGAAGAAAACAGGCTGA	MKHNHLKWLILSQSSVFFAGSLIFPFYILFIKNIGSSYTQFGLSYGLFGLSGALIHPLLGRLSARLDPRWFLMANSWGMAVLLLTLPHITGVHQVYVVQVLLGLFGAMQKHGEKIMIADYTDGGERGKKVGSYHFWTAVFSAAAIILGGFLADFFTVYIIFYASSVLFFISGLMMLKKTG				NA	NA	NA	NA	NA
D1-12_00247	1038	argC		N-acetyl-gamma-glutamyl-phosphate reductase	TTGAAAATAGGTGTTATAGGCGCTACTGGTTATGGAGGCGCCGAACTTGTCAGGATTCTTAACCATCACCCTTATGCAGAGGATTGTATATTATATTCATCGAGTGACGAAGGAAAAGAATATGCCGCTTCATATCCGCATTTGAGGAATATAGCGTCACAATCACTTCAGCCGCTTCATATAGAAACGATCCGAAACGAAATTGATGTCATGTTCATAGCCGCGCCGCCCGGCGTCTCCGGAGAGTGGTCGCCCAAGCTGGCGGAGGCGGGCATCCCGGTCATTGATCTATCCGGCGATCTGCGGATTCAAAACCCGGCCGTGTATGAAAAGTGGTATAAGCGGAAGGCCGCTCCGAAAGGAACGATTCAAAGCGCGGTTTACGGTTTAGCTGAACTGCAAAAAGAAGAGATTCAGACTGCAAAGCTGATTGCCAATCCGGGATGTTTTCCGACGGCTGTGCTGCTCGGGCTCGCCCCGCTGGCGAAGAATAAGCTTTTACAAGATTCATTTCTGATTGTTGATGCGAAAACAGGCGTATCCGGCGCCGGCCGAAAAGCATCCATGGGCACTCATTATTCTGAGCTGAATGATAATTTCAAAATTTATAAGGTTAATGAGCATCAGCATACTCCGGAAATTGAACAGCAATTAGCGGCTTGGCAGCCCGGCACAGGCCCGATCACGTTTTCCGCTCATTTGGCGCCGATGACAAGGGGCATTATGGCGACGATGTATACGGAGGCTCCCCCGGGTATGTCTGCTGCACAGGTAAGAGAATTGTATTCCGAATTCTACAAAGATTCATATTTTGTCAGAATCAGGCCGGAAGGTGAATTTCCGGCGACGAAAGAGGTATACGGCAGCAATTTTTGTGATATCAGTGTCACCGTGGATAAAAGAACAAACCGTGCCACCATCGTTTCTGTCATAGATAATCTGATGAAAGGCGCCGCAGGGCAGGCGGTTCAAAATTTAAATATCATGAATGGCTGGCAGGAAGAAACGGGACTTACGATGACGCCAGTCTATCCATAG	MKIGVIGATGYGGAELVRILNHHPYAEDCILYSSSDEGKEYAASYPHLRNIASQSLQPLHIETIRNEIDVMFIAAPPGVSGEWSPKLAEAGIPVIDLSGDLRIQNPAVYEKWYKRKAAPKGTIQSAVYGLAELQKEEIQTAKLIANPGCFPTAVLLGLAPLAKNKLLQDSFLIVDAKTGVSGAGRKASMGTHYSELNDNFKIYKVNEHQHTPEIEQQLAAWQPGTGPITFSAHLAPMTRGIMATMYTEAPPGMSAAQVRELYSEFYKDSYFVRIRPEGEFPATKEVYGSNFCDISVTVDKRTNRATIVSVIDNLMKGAAGQAVQNLNIMNGWQEETGLTMTPVYP	PGPT0014251_1454	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
D1-12_00248	1218	argJ		Arginine biosynthesis bifunctional protein ArgJ	ATGATTCAGCTGAGTGAGGAAATCACGAAAATAAAAGGCGGCGTATCCTCGCCGAAAGGGTTTGAGGCAAAGGGCGTGCACTGCGGTCTGCGCTATTCAAAAAAAGATCTCGGAGCGATTATCAGTGAAGCGCCTGCAGTCAGTGCAGCGGTATATACGCAGAGCCATTTTCAGGCAGCGCCGCTGAAAGTGACGCAAGCCAGCTTGAAAAAAGAGGGTGTGCTTCAGGCGGTTATCGTCAACAGCGCAATTGCCAATGCCTGTACGGGAGACCAAGGATTAAAGGACGCCTATGAAATGCGGGACGGCTTCGCGAGCCAGCTCGGCATTGAGCCGGAGCTTGTTGCGGTTTCGTCAACCGGGGTGATCGGCGAGCTTTTAGATATGAAAAAAATTCAAGCGGGCATTGAACAGCTCGGTCAAGCGCCGTCCGTGTCCGGAGCATTTGAAGAAGCCATTTTGACGACGGATACAGTGACGAAACAGACGTGTTATGAACTGGTGATCGGCGGAGACATCATCACGATCGGCGGAGCGGCGAAAGGCTCCGGCATGATCCACCCCAACATGGCGACAATGCTCGGCTTTGTCACAACGGACGCGGCCGTGGAAGAACAGTCGCTCAAAAACGCGCTCAGAGAGATTACGGATGTTTCATTTAACCAAATCACCGTTGACGGAGAAACATCGACGAATGACATGGTGCTTGTGATGGCGAACGGCTGCGCGGGGAATGATTGCCTGACGGAGCAGCACCCTGACTGGCCGGCATTTAAAAAGGGGTTAAAGCTTGTATGCGAAGACCTTGCCAAAGATATTGCCAGAGACGGTGAAGGAGCGACGAAATTAATTGAAGCCAGAGTCGAAGGCGCGAAAAATAACCTTGAGGCGAATATTATCGCCAAAAAAATCGTCGGCTCAAGCCTTGTGAAGACCGCCGTTTACGGCACTGACGCCAACTGGGGGCGCATCATCGGCGCCATCGGGCACAGTGCGGCAAGCGTAACGGCCGAACAAGTGGAAGTTTTCCTCGGCGGTCAGTGTCTGTTTAAACACAATGAACCTCAGCCGTTTTCGGAAACTGATGCCAAGGAGTACTTATCAGGTGATGAGATTACGATTGCAGTCCGCCTGCAGGAAGGCTCCGGCAGCGGCCGGGCATGGGGCTGTGACTTAACTTATGATTATATCAAAATCAATGCGAGCTATCGCACATAA	MIQLSEEITKIKGGVSSPKGFEAKGVHCGLRYSKKDLGAIISEAPAVSAAVYTQSHFQAAPLKVTQASLKKEGVLQAVIVNSAIANACTGDQGLKDAYEMRDGFASQLGIEPELVAVSSTGVIGELLDMKKIQAGIEQLGQAPSVSGAFEEAILTTDTVTKQTCYELVIGGDIITIGGAAKGSGMIHPNMATMLGFVTTDAAVEEQSLKNALREITDVSFNQITVDGETSTNDMVLVMANGCAGNDCLTEQHPDWPAFKKGLKLVCEDLAKDIARDGEGATKLIEARVEGAKNNLEANIIAKKIVGSSLVKTAVYGTDANWGRIIGAIGHSAASVTAEQVEVFLGGQCLFKHNEPQPFSETDAKEYLSGDEITIAVRLQEGSGSGRAWGCDLTYDYIKINASYRT	PGPT0014244_2167	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
D1-12_00249	777	argB	COG0548	Acetylglutamate kinase	ATGAAGAAAACCATCGTTTTTAAGTGCGGCGGAAGCGTAATCCGCGAGTTATCCGCCGATTTTTTTCAAAGTGTAAAAGAGCTTATGCAATCGGGCTGGAACCTTGCCGTCGTGCATGGAGGCGGCCCGGACATTTCAAGAATGCTGAAAACATTGCAGATTGAAACGGAATTTGTCGATGGACAGCGGAAAACGACCAAACCGGTGCTGGAAACAGCGGAAATGGTCTTGTCAGGGACGATCAATAAATTTTTCGTAACCGAACTCGCGAAAAACGGGCTGAAAGCCGCGGGAATATCAGGAAAGGACGGCGGTCTCCTTCAAGCATCTTACCTTAATCAAGACAAATACGGAGAAGTCGGCGAAATACAAAAAACCGATCCGTCAATCATTCACGCATTAATGAAAGAAGGCATCATTCCCGTTATCGCTCCGCTTTCCATGACAAGTGATTTCGAAACGCTGAACGTCAATGCAGACGCCGCGGCATCGGCCGTCGCTTCAGCCTTACACGCCGATAAACTTTTATATGTCACGGATGTCGAAGGAATTATGGACGGAGAGAACAGGCTGGATACTTTGACGCCGCAAGAGATTCAGGCCCTCATCGATGGCGGCGTGATTTCAGGAGGGATGATTCCGAAGGTAAACTCGGCATTATCGGCACTGAGTGAAGATGTCGCGGAAGTGATGATCGTAAACGGAAAAGGAGCGTTTTTCACCAATCAAGTCTTCCGAGGAACAAAAATCGTCAAAGAAAAGGAGAGCGTGTCATGA	MKKTIVFKCGGSVIRELSADFFQSVKELMQSGWNLAVVHGGGPDISRMLKTLQIETEFVDGQRKTTKPVLETAEMVLSGTINKFFVTELAKNGLKAAGISGKDGGLLQASYLNQDKYGEVGEIQKTDPSIIHALMKEGIIPVIAPLSMTSDFETLNVNADAAASAVASALHADKLLYVTDVEGIMDGENRLDTLTPQEIQALIDGGVISGGMIPKVNSALSALSEDVAEVMIVNGKGAFFTNQVFRGTKIVKEKESVS	PGPT0014249_3512	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
D1-12_00250	1158	argD	COG4992	Acetylornithine aminotransferase	ATGAGCAGCCTATTTCAAACCTACAGCCGCTGGCCTATCGATATTAAAAAAGCGAAAGGGACAATCGCAGAGGATGAAAACGGAAAAACGTATCTTGATTTTATTCAGGGCATCGCCGTTTCCAATCTCGGCCATTGTCATGATGCGGTGACAGAAGCGGTGAAAGAACAGCTTGACAGCGTATGGCACGTTTCCAATCTGTTTGAAAATGATCTTCAGGAAAAAGCCGCGGCAAAGCTTGCCGGACATAGCGAGGGGGATCTCGTTTTCTTCTGCAACAGCGGAGCCGAAGCGAATGAAGGCGCCATTAAACTTGCCCGTAAAGCAACGGGAAAGACAAAAATCGTAACATTCCATCAATCCTTTCACGGACGGACCTATGCGGGGATGGCCGCCACCGGACAAGACAAAATCAAGACCGGTTTCGGACCGATGCTCCAAGGCTTTCACTATCTTCCGTTTAATGATCCGTCGGCATTCAGCACGCTTTCAAAAGAGGATGATATCGCCGCCGTCATGCTTGAGACGGTGCAGGGAGAAGGGGGAGTCAATCCCGCCGATCCGGAATTCATCGAAGCCTTACAGACATTTTGCAAAGACAAACAGGCGCTGCTTATCGCAGACGAGATTCAAACCGGAATCGGCCGGACGGGCAAGGCATTCGGCTATGAGCATTTCGGCATCTCTCCGGACATCATCACTGCTGCGAAAGGGCTTGGAAACGGTTTTCCCGTCGGAGCCGTGATCGGCAAAAAGAAGCTTGGAGACGCCTTTACGCCGGGTACGCATGGTACGACTTTCGGCGGCAATAAGCTTGCCATGGCAGCTGTGAAAGCAACCTTGGACATTGTGTTTCAGCCGGACTTTCTCCAGGCGGCGGCAGACAAAGGCTCTTTTTTAAAAGCGCAGCTGAACCGTGAACTGACAGGGCCTTTTGTAAAAGAAATCCGCGGAAAAGGGTTATTAATCGGCATTGAATGCGCAGGTCCCGTGTCCGGCATTATCGGAGATTTGCAGGAACGCGGACTTCTCGTGCTTCCGGCCGGACCGAATGTCATTAGGCTGCTGCCGCCGCTTACAGTTTCTGAAGAAGAAATGCTGTCGGCCGTCAGTATGCTGAAAGCAGCGATCGAAGCGCATTCGGCAGTGAAACGGTAA	MSSLFQTYSRWPIDIKKAKGTIAEDENGKTYLDFIQGIAVSNLGHCHDAVTEAVKEQLDSVWHVSNLFENDLQEKAAAKLAGHSEGDLVFFCNSGAEANEGAIKLARKATGKTKIVTFHQSFHGRTYAGMAATGQDKIKTGFGPMLQGFHYLPFNDPSAFSTLSKEDDIAAVMLETVQGEGGVNPADPEFIEALQTFCKDKQALLIADEIQTGIGRTGKAFGYEHFGISPDIITAAKGLGNGFPVGAVIGKKKLGDAFTPGTHGTTFGGNKLAMAAVKATLDIVFQPDFLQAAADKGSFLKAQLNRELTGPFVKEIRGKGLLIGIECAGPVSGIIGDLQERGLLVLPAGPNVIRLLPPLTVSEEEMLSAVSMLKAAIEAHSAVKR	PGPT0014253_4131	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
D1-12_00251	1059	carA_1		Carbamoyl-phosphate synthase arginine-specific small chain	ATGAAAGGCTATTTAGTATTGGAAGACGGAACATCATTCGGCGGTGAACTTGAAAAAGAGGCCCGCTGTGTTGGCGAAGCGGTTTTTTTCACCGGAATGACGGGTTATCAGGAAGTGCTTACAGACCCGTCATATAAGGGCCAGATCATCGTCTTTACGTATCCGCTGATCGGAAACTACGGAATTAATGAAAAAGACCTTGAAAGTAAGATTCCTCAAGTCAAGGCTGTTGCCGTCTATGAAGCGTGTGAACATTTTTCTCACCATGAAGCAGTTTCAAGCTTGAGAGAGTATTTAAATAAATGGAACATCCCGCTCTTAACCGAAGTGGACACACGGGCCGTCGTCAAAACCATCCGCTCCGGCGGCACGATGAACGCTGCCGTGTCAACAACAGGAGAGATTCCCGCAGCATCCGGAACAGAAAACCCGGCGGAGCTGGCGCAGTCTGAAGACATCACGTCAATGGGGAACGGAGACCGGCATATTGCGCTGATTGATTTCGGTTATAAAAAATCAATCGCCTCGTCACTTGTAAAGCGCGGCTGTAAAGTAACGGTCATTCCGTATCAGCAGATGAACGCTGTTTATGACATTCAGCCTGACGGAATCGTGCTTTCAAACGGCCCGGGCGACCCGAAAGCGATTGCGCCGTACATGAACCGGATTACATCATTACTCAGTGATTTCCCCGCACTCGGCATTTGCCTCGGGCATCAGCTGATTGCCCTGGCTTTCGGAGGAAATACGTATAAGCTGCCGTTCGGCCACAGGGGTGCCAATCATCCCGTCATTGACCGGAAAACGAAACGGGTGTTTATGACAAGCCAGAACCACAGCTATGTCGTTGATGAAGCATCAATTGACGAGAACGAGCTGTCCATCAGATTTCATCATGTCAATGATACATCAGTGGAAGGGCTCATTCATAAGCGCCTTCCCGTATTAAGCGTCCAGTTCCACCCTGAAGCTCACCCCGGACCGGCTGAGAGCGAGTGGATATTTGATGAATTTCTAGAGAAAGTGATACCAGCAAGGAGAGAAATCGCTCATGCCTAA	MKGYLVLEDGTSFGGELEKEARCVGEAVFFTGMTGYQEVLTDPSYKGQIIVFTYPLIGNYGINEKDLESKIPQVKAVAVYEACEHFSHHEAVSSLREYLNKWNIPLLTEVDTRAVVKTIRSGGTMNAAVSTTGEIPAASGTENPAELAQSEDITSMGNGDRHIALIDFGYKKSIASSLVKRGCKVTVIPYQQMNAVYDIQPDGIVLSNGPGDPKAIAPYMNRITSLLSDFPALGICLGHQLIALAFGGNTYKLPFGHRGANHPVIDRKTKRVFMTSQNHSYVVDEASIDENELSIRFHHVNDTSVEGLIHKRLPVLSVQFHPEAHPGPAESEWIFDEFLEKVIPARREIAHA	PGPT0021155_5283	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
D1-12_00252	3096	carB_1		Carbamoyl-phosphate synthase arginine-specific large chain	ATGCCTAAAGATACAACCATTTCCAGCATATTAGTCATCGGCTCCGGCCCCATCATCATCGGCCAGGCGGCAGAATTTGATTATTCAGGAACGCAGGGCTGCATGGCTCTGAAAGAAGAAGGATACCGCGTTATTCTAGTCAACAACAACCCGGCAACGATTATGACGGATGAGGCGTTTGCCGATGAAATATATTTTGAACCGCTCACAACCGACAGCATCGAGGCCATTATTGAAAAAGAAAAACCGGACGGTCTGCTTGCCAATTTGGGGGGCCAGACGGCATTGAATTTAGCCGTTAAGCTTGAAGAAGCAGGCGTGCTGAAGAAGCATCACGTCAAGCTTTTGGGAACATCGGTGGAAACCATTCAAAAAGGCGAAGACCGGGAGCAGTTCCGCGCCCTGATGAAAGAGCTCGATCAGCCCGTTCCGGAAAGCGAAATCGTCGACAACGAAGAAGACGCCCTCCGTTTCGCTGAGTCTATCGGATTTCCGGTCATTCTGAGACCGGCGTACACGTTAGGCGGAAAGGGAGGCGGAATCGCGAAAACGAAAGAAGCATTTCAGACGCTTATTAAACAGGCGCTGTTAGCAAGCCCGATCAGCCAATGCCTCGTCGAAAAAAGCATCGCCGGTTTTAAAGAAATCGAATATGAGGTCATGCGCGACAGCAATCATACATGCATCACCGTCTGCAATATGGAAAACATCGATCCCGTCGGCGTGCATACAGGAGACTCCATCGTCGTCGCACCGTCCCAGACGTTAACGGATGAAGAATATCAGATGCTGCGTTCAGCAAGCCTGGCGATTATTTCGGCGCTGGATGTGGTCGGCGGCTGCAACATTCAATTTGCGCTGGATCCGTTCAGCAAACAGTACTATGTCATTGAAGTGAACCCGCGTGTCAGCCGTTCATCGGCCCTCGCGTCAAAAGCGACCGGCTACCCGATTGCCAAAATGGCGGCGAAACTTGCCGTCGGCTATACGCTCGACGAACTGAAAAATCCGCTGACGGGCTCTACTTATGCAAGCTTTGAACCGGCGCTTGATTATGTCATCGTCAAATTCCCGCGCTGGCCGTTTGATAAGTTTAAACATGCCGATCGCACGCTCGGAACGAAGATGAAAGCGACGGGAGAGGTCATGGCGATCGAAAGAAATATGGAAGCGGCCATTCAAAAAGCGGCGGCCTCCCTTGAGCTGAAAACGATCGGCACCCGCCTGCCTGAACTCGGCGGCTGTACGATCAATCAGCTGTGGGAATTAGCGGTAACGCCGGATGACCGGAGATTTTTCGTCGTCATGGAACTGTTAAGCCGCGGTGAAACGATAGAAGACATCCATGCCAAAACGAAAATTGACCCGTTTTTTCTCCATGTATTCCGAAATATCATCACATTGGAAAACAAGCTGATGGAAGAAGGGGATCATCTGTCTGTCCCGCTTTTAAAGCAGGCGAAGGTAAAGGGCTTCACGGATGTCATGATCGCATCTCTCACGGGAAAAACGGAAGAAGACATCCGTGCTCTCAGAAAGAAAACAGGCATCGTCCCGTCGTTTAAAATCGTAGATACATGCGCCGCTGAATTTGATGCCAAGACGAATTATTTCTACTCCACCTATCTAGGGGAAAGTGATGGAGATATCAGCCGAAAAGAGAAAAAACGCGCCCTCATCATCGGCTCCGGCCCGATCCGCATCGGTCAGGGAGTGGAATTTGATTACAGCGCCGTCCACGGCGTTCTGACCCTGCAAAAGCTGGGGTATGAAACGATTATGATCAATAACAATCCGGAAACAGTAAGCACGGATTATGAAATCGCCGACCGGCTTTATTTTGAACCGCTGACGACAGAACATATTTTGAACGTGGCGGAACATGAAAACATTGATTTTGCCATCGTCCAATTTGGGGGGCAGACCGCGATCAATGCCGCTGAACCGCTGGAAAAAGCGGGCATTCCGCTGCTCGGAACATCCTTTGAAACCCTTGATGCGCTGGAGGATCGGGATCTGTTTTATCAGCTGCTTGATGATCTTGACCTGAAACATGCCAAAGGCGAAACCGCTTATTCAAAAGAAGAAGCAACGGAAAAAGCAAGCCGAATCGGCTACCCCGTGCTGATCCGTCCGTCTTATGTCATCGGTGGGATGGGCATGATCATCGTTGATTCAGAAGCGCAAATGTCAGAACTGCTGGAAAATGAAGCGGGCATGCCGTATCCGATTTTGATCGATCAGTACATTACAGGAAAAGAATTGGAGATCGATCTGATTTCCGACGGACATGAAGTATTCGTGCCGACTTATACAGAGCACATTGAACGCGCCGGCGTCCATTCGGGCGACAGTTTTGCGATTCTTCCGGGTCCGTCTGTCACACCTGATATGCAGCGTAATATAAAAGAGGCCGCCGAAAAAATCGCGGTAAAACTGGCTTTTAAAGGCATCATGAACATTCAGTTTGTCATTGATGACAAAGGAGATATTCTCGTTCTTGAAGTGAATCCGCGGGCAAGCCGCACGGTTCCTGTCGTGTCTAAGGTGATGGGGGTGCCGATGATCCCGCTTGCCGCCAGATTGCTGGCCGGCGCTTCCCTTAAAGACATCAAGCCCGAGGTTCAAAATCAGCACGGAACGGCAGTGAAATTCCCGGTTTTTTCTTCTCACGCCATTCAGGATGTGGACGTAAAGCCCGGGCCGGAAATGAAGTCGACCGGAGAAGGCATGTGTGTCGCGTTTGACGCAGAAAGCGCCCTGAAAAAAATCTACGCGCACGTCTGGGAGAAAAAAGGCAGCATCTATCTGGAAGGCTGTGATGCGGAATTGGAACGTCAGGCTCAAGAGGCGGGATTTACGGTATGCAAAGATGCGTTCCCGGCATGGGCAGAGCGAAAGGATAAAGCGGTTCATATCAATTTCAATCACTCTGAAGAAGCGCGTAAACAACGGATCGAAGCCATGACGCACGGTGTGACGGTCTTTACTGAACCGGAAACCGTAAAGGCATTTTTAGAAAGCGGCTCCGGCAAACCTCAGCCTGTATCGCTCAAAGATCTTTATCAAAAGGAAGTGGCATCATGCACACAATAA	MPKDTTISSILVIGSGPIIIGQAAEFDYSGTQGCMALKEEGYRVILVNNNPATIMTDEAFADEIYFEPLTTDSIEAIIEKEKPDGLLANLGGQTALNLAVKLEEAGVLKKHHVKLLGTSVETIQKGEDREQFRALMKELDQPVPESEIVDNEEDALRFAESIGFPVILRPAYTLGGKGGGIAKTKEAFQTLIKQALLASPISQCLVEKSIAGFKEIEYEVMRDSNHTCITVCNMENIDPVGVHTGDSIVVAPSQTLTDEEYQMLRSASLAIISALDVVGGCNIQFALDPFSKQYYVIEVNPRVSRSSALASKATGYPIAKMAAKLAVGYTLDELKNPLTGSTYASFEPALDYVIVKFPRWPFDKFKHADRTLGTKMKATGEVMAIERNMEAAIQKAAASLELKTIGTRLPELGGCTINQLWELAVTPDDRRFFVVMELLSRGETIEDIHAKTKIDPFFLHVFRNIITLENKLMEEGDHLSVPLLKQAKVKGFTDVMIASLTGKTEEDIRALRKKTGIVPSFKIVDTCAAEFDAKTNYFYSTYLGESDGDISRKEKKRALIIGSGPIRIGQGVEFDYSAVHGVLTLQKLGYETIMINNNPETVSTDYEIADRLYFEPLTTEHILNVAEHENIDFAIVQFGGQTAINAAEPLEKAGIPLLGTSFETLDALEDRDLFYQLLDDLDLKHAKGETAYSKEEATEKASRIGYPVLIRPSYVIGGMGMIIVDSEAQMSELLENEAGMPYPILIDQYITGKELEIDLISDGHEVFVPTYTEHIERAGVHSGDSFAILPGPSVTPDMQRNIKEAAEKIAVKLAFKGIMNIQFVIDDKGDILVLEVNPRASRTVPVVSKVMGVPMIPLAARLLAGASLKDIKPEVQNQHGTAVKFPVFSSHAIQDVDVKPGPEMKSTGEGMCVAFDAESALKKIYAHVWEKKGSIYLEGCDAELERQAQEAGFTVCKDAFPAWAERKDKAVHINFNHSEEARKQRIEAMTHGVTVFTEPETVKAFLESGSGKPQPVSLKDLYQKEVASCTQ	PGPT0021150_5232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
D1-12_00253	972	argF	COG0078	Ornithine carbamoyltransferase	ATGCACACAATAAAAGCGGAACACACATTAACCCATTTGTACGGAAAAGATTTTCTTTCCTTAAAAGATGTCAGCCCGTCAGACATCAATGCGCTTCTGACAGAAGCTTCATTATTAAAACAACATCCGATACAGCCGATTTTCCAAGGGAAAACATTGGCGATGATTTTTGAAAAATCTTCAACCCGCACACGTGTGTCTTTTGAAGCGGGAATGGCCCAGCTCGGGGGAACGGGACTATTTCTTTCAAGCAGCGACCTGCAGCTTGGGCGGGGGGAGACGGTTGCGGATACGGCGAAGGTGCTGTCCGGCTTCGTTGATGCCATTATGATCCGCACCTTTGAACATGAAAAAGTCGAAGAGCTTGCTGAGCATGCAGATATTCCTGTCATAAACGGGTTGACCGACCGGTATCACCCGTGTCAGGCACTCGCGGATCTGTTAACGATACAAGAAATAAAAGGAAAATTAAAAGGAGTAAAAGCCGCCTATATCGGTGATGGAAATAATGTAGCGCATTCACTAATGATCGGCTGCGCAAAAATGGGCTGTGACATTGCGGTTGCTTCGCCGAAAGGCTATGAAGTTGAGGAAGAGGCGGTAAATGCCGCAAAAGAAGCGGCGGCTGTTTCCGGAGCGAAAATCACCCTTACCGAAAATCCGCAGGAAGCGGTGCAGGATGCAGACGTGATTTACTCCGACGTCTTCACGAGCATGGGGCAGGAGGAAGAGACGCAGCAGCGGCTGAACGTGTTTGCTCCGTATCAAGTCAACGCCTCACTCGTCAGTCTCGCCAAACCTGACTATACATTTTTGCATTGCCTGCCCGCGCATCGGGAGGAAGAGGTCACGTCCGAGATTATCGACGGCCCGAACTCTGCGGTATTCCAGCAGGCGGAAAACCGGCTTCACGCGCAAAAAGCGCTCCTGAAAGCTCTTCTTTACAAACAGGATGAACAAAAAAACCGCTGA	MHTIKAEHTLTHLYGKDFLSLKDVSPSDINALLTEASLLKQHPIQPIFQGKTLAMIFEKSSTRTRVSFEAGMAQLGGTGLFLSSSDLQLGRGETVADTAKVLSGFVDAIMIRTFEHEKVEELAEHADIPVINGLTDRYHPCQALADLLTIQEIKGKLKGVKAAYIGDGNNVAHSLMIGCAKMGCDIAVASPKGYEVEEEAVNAAKEAAAVSGAKITLTENPQEAVQDADVIYSDVFTSMGQEEETQQRLNVFAPYQVNASLVSLAKPDYTFLHCLPAHREEEVTSEIIDGPNSAVFQQAENRLHAQKALLKALLYKQDEQKNR	PGPT0020080_2277	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
D1-12_00254	180			hypothetical protein	GTGGGACAGCAGCATCAATTCCGCCCGGGACAAAAAGCGCCGAATAACGGTGTGTACGTTGAAATCGGCGAAACGGGAAGCATGGTCAAAAATCCGCAAAAAATCAAGCTCACAGTGGGAGAAATGTTCCCTGAAACTTCAAACCACAACAGATTGTGGACGTATCAACGAAAACCGTGA	MGQQHQFRPGQKAPNNGVYVEIGETGSMVKNPQKIKLTVGEMFPETSNHNRLWTYQRKP				NA	NA	NA	NA	NA
D1-12_00255	186			hypothetical protein	GTGCGGTTTATTATCGGTTTTATTTGGACGTTCCTTTTAACACATATGGCCTGTTATTTGGTCGCCTCCATGAACAGCGCGGCGTACAATTTCAAGCAATCATCCGTTATTGCCGTAGTTATTGCAGTGCTTGTCTTTGTTCTTGCGGAGATCATGCCTGTCAAACAGGATGCAAGCCAGCATTAA	MRFIIGFIWTFLLTHMACYLVASMNSAAYNFKQSSVIAVVIAVLVFVLAEIMPVKQDASQH				NA	NA	NA	NA	NA
D1-12_00256	735			hypothetical protein	ATGGGGATAACGGAAAGATTCTTCCAATTCGGATCTGAGCTGAACGTCATCCATCTGCCGTATCGGCCGAACGGCTTCTGTATCTTTATTCTGGGGGACAGAACCCACTTTGTCAGCCGGGACTCAAGCTTTTGGCTCGAACATGAAGGGAGAAACCAGCTGTTAAATACGATGCTTGACAGAGGGTACACCATTTTCAACAGCAATTTATACGGACGGCATTGGGGTTCGGAAAAAGCCGTCCTTTACGCCAGACAGCTGATTCATTATGTGCTGAAACAAGAAACCCTCAATCCGAAAATACACTTGCTCGCAGAAGGCATGGGCGCCCTCATCGCCGATCAATTGCTGCAGTCTTCACCGGAGCATATCCGTTCAGCCGCAATGTTAGATCCTTGTCTTGATCTTCAAGCCCATTTTGAATCAGAGAAAGAAAATAAGTTTTTTTATAAGCAGTTTCTGAGGGAAACGGCACAAAGCTTCGGTGTTTCTGAAAAAGAGGCAAGCTCACTGAGCTATCAGACCATTACCGGCTGCCGCACCCGCGCGCCGGTACATATATGGCAAAGAACGACCGGAGCGCCGTACCCGTACACCCTGCATGCGAACGCGTATAAAGAAGCCCGGGAAAAGACCGGAAGCAAGACTGATATCACGTATCACCTGCTTGAGAACCCTGCGCGTATGTACAGAGCCATCTGCCGGTTTTTCCGCAGTCATGAAAAAGACCTGTAA	MGITERFFQFGSELNVIHLPYRPNGFCIFILGDRTHFVSRDSSFWLEHEGRNQLLNTMLDRGYTIFNSNLYGRHWGSEKAVLYARQLIHYVLKQETLNPKIHLLAEGMGALIADQLLQSSPEHIRSAAMLDPCLDLQAHFESEKENKFFYKQFLRETAQSFGVSEKEASSLSYQTITGCRTRAPVHIWQRTTGAPYPYTLHANAYKEAREKTGSKTDITYHLLENPARMYRAICRFFRSHEKDL				NA	NA	NA	NA	NA
D1-12_00257	567			hypothetical protein	ATGAAAACAGCGCTGATCATTGGAGCAGATGAATTTCTCGGCCTTTCATTGTGCGAACGGTTGATGGATGAGGGTGTGCATGTTGATGTCATTTTGGCAGAACCGGAGGACAAAACGAGGCAGCTGTATTTAGAAGAACGTTTAATGTGGCTCGCGAGAAACGGGCTTTTTCAAATAATAGATGAAATCGGTGAAAAGGAATACGATCGTATCTGCGTTCAATACGGGAGCGGGTGTCTGCCTGAAGAAAGGGCTGAGCCTTTATATTGGATTGTTTACAGTGAGGATCAAGGAGACTGGGAAAAAAACGGTCAGCGGGATACGGCAAAAGCGATTATCCTTCCTCCCCTTTACGGTCCGTGGACGGAAGAAAAAGAAGATGGCGAAAGCAGGATCTTTTTAGAAGACGCGGTCTGCGGGCTGATGAATAAGCTTGAGGCTGACGGCACAGAAGACGAAAATCAGATTATTACCCTGGAAATAAAAGAAAAAACGCAAAAAACAGAAGCGGAAGAAAAAATTAAAGAATGGAAAAGACAATTTTCATCAATATTCGACATTTTTTAA	MKTALIIGADEFLGLSLCERLMDEGVHVDVILAEPEDKTRQLYLEERLMWLARNGLFQIIDEIGEKEYDRICVQYGSGCLPEERAEPLYWIVYSEDQGDWEKNGQRDTAKAIILPPLYGPWTEEKEDGESRIFLEDAVCGLMNKLEADGTEDENQIITLEIKEKTQKTEAEEKIKEWKRQFSSIFDIF				NA	NA	NA	NA	NA
D1-12_00258	861			Purine-binding protein	ATGCTTTTTCCCGATACCATCAGTGACTTGGTATGGGGCACAAAAGGTTACAAAGGTTTATTAGCGATACAATCTGAATTTAACGTTGACGTTTATTATAAAGAAAATATCAGATCCGATGAAGATATTTTAAAAGCGATAGATGATTTTCATAAAAAAGGAGTCAATCTTTTATACGGGCACGGAAATGAATACGAGGAAATCTTCAATATGATCAGCAAGGATTATCCCGACATGGAATTCGTCGTCGCAAACGGAACGGCGAAAAGCGATAATGTCACAAGCGTTCACCTTATGGGAGAAGCAATGGGCTTTTTCGGGGGAATGACGGCCGCCCATATGTCAAAAACCAATGAGGTAGGTGTCATCGCCTCCTTTCTGTGGCAGCCTGAAGTAGACGGCTTTATCAAAGGGGCGAAATATGAAAAGCCTGATATCACCGTCAATACGGAATTTACGGACCACTGGGATAACGGCAATGAAGCGCTGCATCTTTACGAGAAGTTAAAAGCGGAAGGCACGGATGTTGTATATCCGGCCGGAGACGGGTATAATGTTCCTGTCATTCAGCAAATCAAAAAAGACGGGCTTTACGCCATCGGCTATGTCGCCGAGCAATCGAATCTCGGCAAAAACACGGTGCTGACAAGCACGGTGCAAAACGTAGATAAAGCCTATACATTAATTGCCGAGCAATATAATAAAGGTACGCTCAAGAGCGGAGATCACGACTTTGATTTCAGGGAAGGAGTCGTTGAAATGGGGACGTTCAGCCCGCTGGTGGACAAAGCGTTTCAAGACAAAATCTCAGACCTTGTAAAAACGTATAACCAAACAAATGAACTGCCGTCAAATGAATAG	MLFPDTISDLVWGTKGYKGLLAIQSEFNVDVYYKENIRSDEDILKAIDDFHKKGVNLLYGHGNEYEEIFNMISKDYPDMEFVVANGTAKSDNVTSVHLMGEAMGFFGGMTAAHMSKTNEVGVIASFLWQPEVDGFIKGAKYEKPDITVNTEFTDHWDNGNEALHLYEKLKAEGTDVVYPAGDGYNVPVIQQIKKDGLYAIGYVAEQSNLGKNTVLTSTVQNVDKAYTLIAEQYNKGTLKSGDHDFDFREGVVEMGTFSPLVDKAFQDKISDLVKTYNQTNELPSNE				NA	NA	NA	NA	NA
D1-12_00259	192			hypothetical protein	ATGCAGCATGAAAAGTCTCTTGAATTTATGCAGATCGCGATGAAATACCTGCCGGAAGCAAAGGCGGAGCTTGAGAAATCCGGCATAGATCTGTCTATGGAAATGATTCAGCCGTTTATGGACCTGTTTACATCGGTCATGGCGGAAGCGTATGAGCTTGGCAGATCTGATGCCGGGGAGCTGAATAAATAA	MQHEKSLEFMQIAMKYLPEAKAELEKSGIDLSMEMIQPFMDLFTSVMAEAYELGRSDAGELNK	PGPT0029475_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029475-comZ-K02254	NA	NA
D1-12_00260	219			hypothetical protein	ATGGATATTTTCTCCAAAATGATGTTCGGCGATTCCAGAGACCGGGATAAAGAACCGGAAGAAAACCCGGAGCAGCCTCAGGCTGAAAACGAAGAAGAGATCGATTACAACCACGTGATGAATCAGCTGGGGTCCATCATGAACTCTCTGGATCAATTAAAGCCCGTATTTAAAGACTTCGCGCCGATGGTGTCCGCTATAAAGAAAAAAATCATGTGA	MDIFSKMMFGDSRDRDKEPEENPEQPQAENEEEIDYNHVMNQLGSIMNSLDQLKPVFKDFAPMVSAIKKKIM				NA	NA	NA	NA	NA
D1-12_00261	939	fabHA	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3 protein 1	ATGAAAGCTGGAATTCTTGGCGTCGGCCGTTACATCCCGGAAAAAGTGCTGACAAATCATGATCTTGAACAAATGGTAGATACATCGGACGAGTGGATTCGTACGAGAACAGGTATAGAAGAAAGAAGAATCGCCGCGGAAGATATGTATTCATCCGGCATGGCCGCTGAGGCTGCGCAAAAAGCGCTTGATCAGGCCGGCATTTCCGCTGAGGAGCTTGATATGATCCTCGTGGCGACGGTTACTCCTGACCAGTCCTTCCCTACCGTTTCCTGTATGATACAAGAGAAGCTCGGGGCCAAAAAAGCGTGCGCGATGGATATCAGCGCCGCATGTGCGGGTTTTATGTACGGTATCGTAACCGCCAAACAATTCATTGAATCGCAAACATACAAACATGTCCTCGTGGTCGGCGTGGAAAAGCTCTCAAGCATTACCGACTGGGACGACCGCAATACGGCTGTGCTGTTCGGAGACGGAGCCGGAGCGGCGGTCATCGGACCGGTCAGCGACGACAGAGGCATACTGTCATTTGAGCTCGGAGCAGACGGTACAGGCGGTCAGCACTTGTACTTAGATGAAAAAGGGCATACAATCATGCATGGAAGAGAAGTATTCAAATTCGCCGTCCGGCAAATGGGTGAATCGAGTGTAAATGTCATTGAAAAAGCCGGCCTCTCCAAAGAGGACGTAGACTTTTTGATTCCGCATCAGGCAAACATCCGCATCATGGAAGCGGCACGGGAACGTTTGGAGCTTCCGGTTGAAAAGATGTCTAAAACAGTCCATAAATATGGAAACACATCCGCAGCATCCATTCCGATTTCATTAGTAGAGGAACTGGAAGCAGGCAAAATTAAAGACGGCGACGTCATCGTCATGGTCGGTTTCGGCGGAGGATTGACATGGGGCGCCATAGCAATACGCTGGGGACGATAA	MKAGILGVGRYIPEKVLTNHDLEQMVDTSDEWIRTRTGIEERRIAAEDMYSSGMAAEAAQKALDQAGISAEELDMILVATVTPDQSFPTVSCMIQEKLGAKKACAMDISAACAGFMYGIVTAKQFIESQTYKHVLVVGVEKLSSITDWDDRNTAVLFGDGAGAAVIGPVSDDRGILSFELGADGTGGQHLYLDEKGHTIMHGREVFKFAVRQMGESSVNVIEKAGLSKEDVDFLIPHQANIRIMEAARERLELPVEKMSKTVHKYGNTSAASIPISLVEELEAGKIKDGDVIVMVGFGGGLTWGAIAIRWGR	PGPT0008355_7121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
D1-12_00262	1239	fabF_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAGTAAAAAAAGAGTAGTCGTTACAGGGCTTGGAGCCCTGTCTCCGCTTGGCAACGACGCCGAAACAAGCTGGAAAAATGCAATCGGCGGCGTATCCGGAATCGGACCGATCACACGTGTGGAATCGGACGAGTATCCGGCGAAAGTAGCTGCTGAACTGAAAGATTTCAATATTGAAAATTACATGGATAAAAAAGAAGCGCGAAAAATGGACCGCTTCACGCAATACGCTGTCGTAGCCGCGAAAATGGCCGTTCAAGATGCCGGTCTGAACATCACAGACGAGATCGCGCCGAGAGTCGGCGTTTGGGTCGGGTCCGGAATCGGCGGTCTTGAAACGCTTGAATCCCAATTCGAAATCTTCCTGACTAAAGGGCCGAGAAGGGTCAGCCCGTTCTTTGTTCCGATGATGATTCCGGATATGGCGACAGGCCAAATCTCAATCGCTCTCGGAGCAAAAGGAGTCAACTCCTGTACGGTGACGGCATGTGCGACGGGAACGAACTCTATCGGTGACGCGTTTAAAGTCATTCAGCGCGGCGATGCCGATGCGATGATTACGGGCGGAACGGAAGCGCCGCTGACAAGAATGTCATTTGCGGGCTTCAGTGCAAACAAAGCCCTTTCTACAAATCCTGATCCGAAAACGGCAAGCCGCCCGTTTGATAAAAACCGTGACGGCTTTGTCATGGGAGAAGGCGCGGGGATCGTCGTGCTTGAAGAGCTTGAGCATGCGCTTGCCCGCGGTGCGAAAATCTACGGGGAAATTGTCGGCTACGGCTCAACGGGTGATGCCTACCACATTACCGCGCCTGCCCAAGATGGGGAAGGCGGTGCGAGAGCGATGCAGGAAGCAATCAAAGATGCGGGCATCAAGCCTGAAGAAATTGATTACATCAACGCTCACGGCACAAGCACGTACTACAATGATAAATACGAGACAAAAGCCATTAAGACCGTTTTCGGTGATCATGCGTACAAGCTTGCCGTCAGTTCGACAAAATCAATGACGGGTCATTTGTTAGGCGCTGCCGGAGGAATTGAAGCAATCTTCTCCGTCATGGCCATTAAAGACAGCATTATCCCGCCGACGATTAACATCGAAACACCTGATGAAGAGTGTGATTTAGATTATGTACCGGACAAAGCGCGCGAGCAGGATGTCAACATCGTTCTCAGCAACTCGCTCGGATTCGGCGGACATAATGCCACTTTGATCTTTAAAAAATATCAATAA	MSKKRVVVTGLGALSPLGNDAETSWKNAIGGVSGIGPITRVESDEYPAKVAAELKDFNIENYMDKKEARKMDRFTQYAVVAAKMAVQDAGLNITDEIAPRVGVWVGSGIGGLETLESQFEIFLTKGPRRVSPFFVPMMIPDMATGQISIALGAKGVNSCTVTACATGTNSIGDAFKVIQRGDADAMITGGTEAPLTRMSFAGFSANKALSTNPDPKTASRPFDKNRDGFVMGEGAGIVVLEELEHALARGAKIYGEIVGYGSTGDAYHITAPAQDGEGGARAMQEAIKDAGIKPEEIDYINAHGTSTYYNDKYETKAIKTVFGDHAYKLAVSSTKSMTGHLLGAAGGIEAIFSVMAIKDSIIPPTINIETPDEECDLDYVPDKAREQDVNIVLSNSLGFGGHNATLIFKKYQ	PGPT0008360_6026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-12_00263	786			hypothetical protein	ATGAGCGTCAAGCAGACATATCAATGGATGGAAAAGGCGGCATCCGTAAATGATCTGGCCCCGCATCTTTTGCCGCTTTTTTCAGGGGCCGATAAGAAAGAGTGGAAGCCGATACTCGGGATGCTGCAAAACCACGGCATGTTCCGCTATTTGAAGGACGGCGTTAGGACCAGTAAACGGCTGAAAGAAAAAGGATGCTACAGCCATATTCAAAAGGAGGAAGCCTATTTAAAGGAGAAGTGGAACGGGCCGGACGTGCCGATCGTAGTTTTGCCCGTCGATGAACGAAACCGGAAAATCCGTCAGGAATTCGGGTCAAAATCCGGTCTGGCCTTTCGGGACAAAATGTTCCTCTTTCTATCATCGGATAGTTCCAATTCAGCTGTATCCGCCCTTATGACACATGAATATAATCACGTCTGCCGGTTAGAACATGTGACAAAGGACGAAAAAGATGAGACATTCCTTGATACAATCATGATGGAGGGACTGGCAGAATATGCTGTATATGAGCGGTTCGGCTCAAGTCTTACGGCGGAATGGACGTCCTACTATACGCCTGAGCAGCTTGATTTTCTGTTTGAAAAAAGAGTCAAGCCGAACCTCCGCTTAACGAGAGACAGCAGAATGTTTTCCCAGCTGTTATACGGAAAAGGATACTTCCCCTCAATGCTCGGCTATGCCGTCGGATTCAATATAGTAAAAAAATATTTAACCGACCATCAAAAAACAGTAAAAGAAGCATTGGCCATTCCTTCAAAAACCTTTCTGGAGGCAACGCTTTAA	MSVKQTYQWMEKAASVNDLAPHLLPLFSGADKKEWKPILGMLQNHGMFRYLKDGVRTSKRLKEKGCYSHIQKEEAYLKEKWNGPDVPIVVLPVDERNRKIRQEFGSKSGLAFRDKMFLFLSSDSSNSAVSALMTHEYNHVCRLEHVTKDEKDETFLDTIMMEGLAEYAVYERFGSSLTAEWTSYYTPEQLDFLFEKRVKPNLRLTRDSRMFSQLLYGKGYFPSMLGYAVGFNIVKKYLTDHQKTVKEALAIPSKTFLEATL				NA	NA	NA	NA	NA
D1-12_00264	987	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAGCACACTATTAGAAGTGAATAATTTAAAGACCTATTTTTTCAGAAAGAAACAGCCGATCCCCGCAGTCGACGGGGTTGATTTTCACATTAACAAAGGCGAAACCGTCGCTCTTGTAGGAGAATCCGGCTCGGGCAAAAGCATCACCTCGCTTTCTATTATGGGACTTGTCCAAGGCTCGGGCGGAAAAATTATGGATGGCTCGATTAAGCTTGAAGGCAGAGACCTGGCCTCCTTCACCGAAAACGAATATTGCAAAATCCGCGGAAATGACGTCTCTATGATCTTTCAGGAGCCCATGACTTCCCTGAATCCGGTGCTGACTATCGGCGAACAAATTACCGAAGTGCTTGAATACCATAAAAAAATGAATAAAAAAGAAGCGTCCAAAAAAGCCGTTGAGCTTCTGGAACTCGTCGGATTCTCCAGAGCGGAACAAGTGATGAAAGAATATCCGCACCGCCTTTCCGGAGGGATGAGACAGAGGGTGATGATCGCCATCGCGCTCAGCTGCAATCCGAAGCTTCTGATCGCTGATGAGCCGACGACGGCGCTTGATGTGACGATACAAGCCCAAGTATTGGAGCTGATGAAAGACCTCTGCAAAAAATTCGATACTTCCATTCTGCTGATCACTCACGATTTAGGTGTGGTTTCCGAAGCCGCCGACAGGGTGATCGTGATGTACTGCGGACAAGTCGTAGAGAGCGCGAGTGTGGAGGACTTATTTTTAAACCCTCTTCATCCGTATACCGAAGGGCTGTTAAACTCCATACCGGTGATAGATGGAGAGATTGATACATTAAAAGCGATCAAAGGCAGTGTCCCGACACCGGATAATCTTCCGGAAGGCTGCCGATTCGCCCCGAGGTGTTCAAAAGCGATGGACAAATGCAAAACAGGGCAGCCGGAGCTGATAACTCATGAAAGCGGCCGTTCTGTAAGATGTTTTTTATATGAGGAAGAGGGTGCCCCATCAAAATGA	MSTLLEVNNLKTYFFRKKQPIPAVDGVDFHINKGETVALVGESGSGKSITSLSIMGLVQGSGGKIMDGSIKLEGRDLASFTENEYCKIRGNDVSMIFQEPMTSLNPVLTIGEQITEVLEYHKKMNKKEASKKAVELLELVGFSRAEQVMKEYPHRLSGGMRQRVMIAIALSCNPKLLIADEPTTALDVTIQAQVLELMKDLCKKFDTSILLITHDLGVVSEAADRVIVMYCGQVVESASVEDLFLNPLHPYTEGLLNSIPVIDGEIDTLKAIKGSVPTPDNLPEGCRFAPRCSKAMDKCKTGQPELITHESGRSVRCFLYEEEGAPSK	PGPT0004435_9313	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
D1-12_00265	990	oppF_2	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACAGCTGCAGGCCAAGAAACGATTTTAGAGCTGAAAGACGTAAAAAAATATTTCCCGATCCGCTCCGGTTTTTTTCAAAGGAAAGTCGGTGATATAAAGGCTGTTGACGGCGTTTCTTTTTCACTGAAGCGCGGGGAGACGCTCGGCATCGTCGGTGAATCAGGATGCGGCAAATCAACGGCGGGAAGGACGATGATCCGATTATACAAGCCGACAGACGGCCGGATTCTTTTTAAGGGTCAGGATATTTCCGGCTTATCTGAAGAAAAGCTGAGAAAAAGCGTCCGTAAAAACATCCAGATGGTCTTCCAAGATCCCTTCGCATCCCTTAACCCGAGGAAAACGCTGCGTTCCATTATTAAAGAGCCGTTCCAGACTCACCATATGTACAGCATGAGCGAGCGGAACGAGCGAGTGGAGGAGCTGCTGGCGAAAGTCGGCCTTCATCCGAGCTTTGCAAACCGCTATCCGCACGAATTTTCCGGGGGGCAGCGCCAGCGGATCGGGATTGCGCGGGCTCTGACATTGAATCCCGAGCTGATTATTGCGGATGAACCCGTTTCCGCACTCGATGTCTCCATTCAGGCCCAGGTCATCAATCTGATGGAAGAACTGCAGGAAGAATTCAACCTGACCTATTTGTTTATTTCTCATGATTTGAGTGTTGTCCGCCATATCAGCGACAGAGTCGGCGTCATGTATCTGGGAAAAATGATGGAGCTGACTGAAAAACACGAGCTGTACGGCAATCCGCTTCACCCTTATACGCAGGCGCTTTTGTCTTCAGTGCCCGTCACGAGAAATAAAGACGCCGTCAAGCGGGAACGAATCATCCTGAAAGGAGAACTGCCAAGCCCGGCAAACCCGCCGAAAGGCTGCGTGTTCCACACGCGGTGCCCGATGGCCAAACCGATCTGCAAGGAACAAATCCCGGCATTTGAAGAAGCCGCTCCCGGCCATTACGTCGCCTGCCATTTATATGCCTGA	MTAAGQETILELKDVKKYFPIRSGFFQRKVGDIKAVDGVSFSLKRGETLGIVGESGCGKSTAGRTMIRLYKPTDGRILFKGQDISGLSEEKLRKSVRKNIQMVFQDPFASLNPRKTLRSIIKEPFQTHHMYSMSERNERVEELLAKVGLHPSFANRYPHEFSGGQRQRIGIARALTLNPELIIADEPVSALDVSIQAQVINLMEELQEEFNLTYLFISHDLSVVRHISDRVGVMYLGKMMELTEKHELYGNPLHPYTQALLSSVPVTRNKDAVKRERIILKGELPSPANPPKGCVFHTRCPMAKPICKEQIPAFEEAAPGHYVACHLYA	PGPT0004440_7504	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
D1-12_00266	1629	appA		Oligopeptide-binding protein AppA	ATGAAATTACGTAAAAGCGCACTGATGATGCTAAGTGTTTTTATGGCGCTCGCCATCTTCCTGTCAGCCTGCTCCGGTTCAAAATCCACAAGCACCGAATCCAAACCGGCAGGAAAACCGCAAAAAGGCGGAGATTTGGTTGTCGGGTCAACCGGGGAACCCACACTTTTTAATCCACTTTATTCTACCGATGTTGCAAGTTCTGATATTGAAGGAATGATTTACAGCACATTATTGGAAACTGATGAGAAATTAAACGTCAAGCCGTCGCTGGCTGAAAAAGTAACAGAAGCTGACGGGGGATTAACGTATGATGTAAAACTGAAAAAAGGCGTTAAATTCCATGATGGAAAAGAGCTGACGGCCGATGATGTTGTTTTCACCTACAGCATCCCTCTTAACAAAGATTACAACGGTGAGCGTGGCTCGGGTTTTGAGTCCCTTAAATCCGTAACGAAAAAAGGGAAATATGAAATTCAGTTTAAAATGAAGAAAAAAGATGCCTATTTCTATAATGTCGTTCTCGACAGTTACGGCATTTTGCCTAAACATATATTGGGTAAGGTGCCGGTTGCAGATCTGGGAGAGAATGAATTTAACCGTAAAAATCCAATCGGTTCCGGTCCGTTTAAGTTTGTTGAGTGGAAAAAGGGCGAGTATGTCAAACTGGAAGCAAATGATGATTACTTTGGCGGCAGACCTTACCTTAATACAGTGACAGTAAAAACAATACCTGATTCTAACGCTGCTGTGGCTCAGTTAAAAGCGGGGGATATTGATTTCTTCGTTGTGCCGGGCACAGATTTTGATACGGTTAAAACGTTTGGAAACGTGAAGGTCAAATCTGACCTTGGCTTAAACTACAGCTATATCGGCTGGAATGAGAAAAAAGAGATCTTTAAGGACAAAAAAGTGCGTCAGGCATTGACTTACGCTCTTGACAGGCAGGCAATGGTGGATCAAGTGCTGAACGGAGACGGTAAGGTAGCGGATGTTCCTGAGAGTCCGCTGTCATGGAATTATCCGAAGTCTAAAGTGCCGACATTTGATTATAATCCGAAAAAAGCAAAGCAGCTGCTAAAAGAAGCCGGATGGGAAGACCATGACGGTGACGGCTACCTTGATAAAGACGGGAAAAAATTCTCATTTGAAATTAAAACGAATCAGGGCAATAAAATTCGTGAAGATTTAGCTGTTGTCGTTCAGCAGCAATTAAAAGAAGTGGGAATCGAGGCTAAACCGCGAATTGTTGAATTCAGTGCGTTAATCGAACAGACAAGTGCCCCTAATTGGGATTATGACGCTCTTCTTCTCGGATGGAGTCTTGCAACGTTCCCGGATCAATTCTCTATCTTCCATTCAAGCCAATCGAAAAACGGGCTGAATAATATCTGGTATAAAAACCCGAAAGTCGACAAGCTGCTTGAAGAAGCGAAGTCAATTACTGACAGAAAAGAATACCAAAAGAAATATGAAGAGATATACAAATTGATTGCTGAAGATCAGCCGTACAGCTTCTTATTCTATTACAATTACCACAGAGCGATGCCGAATAATTTACAAGGCTATGTATTCCACCCTAAAAATGACTTGTACAATATCGAAAAATGGTGGCTGGATCAAAAATAG	MKLRKSALMMLSVFMALAIFLSACSGSKSTSTESKPAGKPQKGGDLVVGSTGEPTLFNPLYSTDVASSDIEGMIYSTLLETDEKLNVKPSLAEKVTEADGGLTYDVKLKKGVKFHDGKELTADDVVFTYSIPLNKDYNGERGSGFESLKSVTKKGKYEIQFKMKKKDAYFYNVVLDSYGILPKHILGKVPVADLGENEFNRKNPIGSGPFKFVEWKKGEYVKLEANDDYFGGRPYLNTVTVKTIPDSNAAVAQLKAGDIDFFVVPGTDFDTVKTFGNVKVKSDLGLNYSYIGWNEKKEIFKDKKVRQALTYALDRQAMVDQVLNGDGKVADVPESPLSWNYPKSKVPTFDYNPKKAKQLLKEAGWEDHDGDGYLDKDGKKFSFEIKTNQGNKIREDLAVVVQQQLKEVGIEAKPRIVEFSALIEQTSAPNWDYDALLLGWSLATFPDQFSIFHSSQSKNGLNNIWYKNPKVDKLLEEAKSITDRKEYQKKYEEIYKLIAEDQPYSFLFYYNYHRAMPNNLQGYVFHPKNDLYNIEKWWLDQK	PGPT0004430_4832	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
D1-12_00267	951	dppB_2	COG0601	Dipeptide transport system permease protein DppB	ATGGTTACATATATTTTACGGCGAACATTAATGTCCTTGCCGATTCTCTTAGGCATTACAATTTTGTCGTTTGCCATCATGAAAGCAGCGCCGGGAGACCCGATGTCACTTATGATGGACCCTACAATCAGTCAAGCGGACAGGGCGAAATTCATTGAAAAATACGGGTTGAATGATCCGGAACCTGTTCAATATGTGAAATGGCTGGGGAATATGCTGCAAGGGGATTTCGGGACTTCTATCGTCAAGAAAGGCACTCCAGTTTCTGAACTTATCTTATCCCGCTTACCGAATACGATTGTGCTTATGCTTTTCTCAACCCTTGTCGCTCTTCTTATTTCTATTCCATTTGGTGTTCTGTCAGCGAAACGTCCTTATTCAAAATTGGATTACGGGATAACTGTTACTTCATTTTTAGGGCTTGCCATACCGAATTTTTGGTTCGGTTTGATTTTAATCATGGTTTTATCTGTAAATCTGGGGTGGTTTCCCACTGGCGGAGTAAGCACTTTAAATGCTGACTTTAACATATTTGACCGATTGCATCACTTGATTCTGCCTGCTTTTGTGCTCGCCACGGCAGACATGGCAGGGATAACGAGATACACAAGATCCAGTATGCTGGATGTGTTAAAACAGGATTATATACGAACGGCGCGTGCGAAAGGATTCCGAGATAATAAAGTGATTTTTAAACACGGTTTGAGAAACGGACTTCTTCCTGTCATCACTATTTTTGGTCTGATGATACCGTCATTTATCGGGGGAGCGGTAGTGGTAGAACAGATTTTCACTTGGCCGGGTCTCGGCAAATTGTTTATTGATTCAGCCTTTTCGCGGGATTATCCGGTTATCATGGCCATGACGGTCATTTCAGCTGTTTTGGTTGTAGTGGGGAATTTAATTGCGGACATCTTATATGCGCTGGTTGATCCCCGCATTGAATATTAA	MVTYILRRTLMSLPILLGITILSFAIMKAAPGDPMSLMMDPTISQADRAKFIEKYGLNDPEPVQYVKWLGNMLQGDFGTSIVKKGTPVSELILSRLPNTIVLMLFSTLVALLISIPFGVLSAKRPYSKLDYGITVTSFLGLAIPNFWFGLILIMVLSVNLGWFPTGGVSTLNADFNIFDRLHHLILPAFVLATADMAGITRYTRSSMLDVLKQDYIRTARAKGFRDNKVIFKHGLRNGLLPVITIFGLMIPSFIGGAVVVEQIFTWPGLGKLFIDSAFSRDYPVIMAMTVISAVLVVVGNLIADILYALVDPRIEY	PGPT0004445_10448	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
D1-12_00268	915	oppC_1	COG1173	Oligopeptide transport system permease protein OppC	ATGTTACAGCCCAATACCGGCACACCCCCCAGTGAAGTAAAATTAAAGGAAAATATTCAATCCAAACCGGAAACAATGACGAAGATTTTTTTCGAAAAGTTCTTTCAAAATAAACTAGCTGTAATCGGAGCCGTTATATTAACCATCATCATCTTGTCAGCCTTATTCGCTTCGGTAATCGCTCCTTACTCTCCGGAGAGTCAATCTCTTATCAATCGTTTGAAGCCGCCGAGCTTAAAACATCTAATGGGAACTGATAAATTCGGAAGAGACATCTTTACGAGGGTTCTGTACGGGGCGCGCGTCTCCTTGCTTGTCGGATTCGTTTCTGTGATCGGCGCGATTACAATCGGGACAGTTGTCGGAGCCGTTGCCGGATATTTTAAAGGGATTGTCGATGCCGTTCTCATGAGAACCGTTGATATCGTATTATCCATACCTGATATATTTTTGCTTATTACACTTGTTACGATTTTTCAGCCCGGAATGGATAAATTAATTTTAATTTTCTCCCTTACAGGCTGGACAACAACGGCACGCCTTGTCCGGGGGGAATTTTTATCGCTTCGTTCCAGAGAGTTTGTATTAGCTGCAAAGACGATCGGTACAAAAAATCATCACATCATCTTTTCTCATATATTGCCGAATGCGCTCGGACCGATCATTGTCTCAGCGACATTAAAGGTGGGAACGGTTATTTTGGCGGAATCTACATTAAGTTATCTCGGTTTCGGGATTCAGCCGCCGATCGCAAGCTGGGGCAATATGCTTCAGGATGCACAGAACTTTACGCTTATGATCCAGGCTTGGTGGTACCCGTTATTTCCGGGACTGTTCATTCTTCTTACCGTATTGTGCTTCAACTTTGTCGGAGACGGGCTGCGTGATGCGCTTGATCCGAAAAATGTGAAATGA	MLQPNTGTPPSEVKLKENIQSKPETMTKIFFEKFFQNKLAVIGAVILTIIILSALFASVIAPYSPESQSLINRLKPPSLKHLMGTDKFGRDIFTRVLYGARVSLLVGFVSVIGAITIGTVVGAVAGYFKGIVDAVLMRTVDIVLSIPDIFLLITLVTIFQPGMDKLILIFSLTGWTTTARLVRGEFLSLRSREFVLAAKTIGTKNHHIIFSHILPNALGPIIVSATLKVGTVILAESTLSYLGFGIQPPIASWGNMLQDAQNFTLMIQAWWYPLFPGLFILLTVLCFNFVGDGLRDALDPKNVK	PGPT0004450_6403	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
D1-12_00269	753			hypothetical protein	ATGTTATTTCTTCATGATGTATGGGTCAATTGGTTTGAAGGGGAAGAAAACGGCTACAATGTATGCCATTTTCACGAATGGCGGAAGGAAGACACGGTTGAGCTTTTGGATCAGACGCCGCTGCTCAGAGTGCCGTCGGTATTATTTCATTACATAGAAAACGACTTATCAGAGCTTCCGAAAGAGCTGCTTGACCAAGTCCACCAGAAGTCATACGTGCGAAAAAATCATGAGCGGACAAAACTGGAGTACTGTTTTGTCGTGACAGACGGGATCGGCATCATTGCCGTAGATACGATCGGGTATACCATTCCGGTCAGAAAGAGCCGCCTGATTCCGAGACAGGAGCAGCTTGTTTATGAAATGGTAAAGGATGTAGAACCGGAATCGTTTCAATTTGACCCGTCGCAATTGGAGTCTTCAAAGGAATATCACATTTTGTCATTGGCGCCGGAGCATGTCAGAGGTCTGACGAGAAAAGAGCGGCAGATCAAGCAGCTGATGTTTATGGCGCTCGACCAGCTGAAAGGGCTGAAAAACCGTGCGGAAATTGTGTATTGGTACACGGAATGGAATCCGCATATGTATGAACAGATCAAACGGATGAGTTTTGAAGAGATCTGGGACATGCTTTACAATGAAACAATTGAAGGCTGGTCGGATAAACATCTTGCGTTCTGTGAAAATTTGATTAAAGGGCAGCCGTTTTTCGAAAAGCTTTGGGAAATGGAACAGGAATCAAAAGTGAACTAA	MLFLHDVWVNWFEGEENGYNVCHFHEWRKEDTVELLDQTPLLRVPSVLFHYIENDLSELPKELLDQVHQKSYVRKNHERTKLEYCFVVTDGIGIIAVDTIGYTIPVRKSRLIPRQEQLVYEMVKDVEPESFQFDPSQLESSKEYHILSLAPEHVRGLTRKERQIKQLMFMALDQLKGLKNRAEIVYWYTEWNPHMYEQIKRMSFEEIWDMLYNETIEGWSDKHLAFCENLIKGQPFFEKLWEMEQESKVN				NA	NA	NA	NA	NA
D1-12_00270	993	trpS	COG0180	Tryptophan--tRNA ligase	ATGAAGAAAACGATTTTTTCAGGCATTCAGCCGAGCGGTTCCGTTACCCTCGGCAACTACATCGGCGCAATGAAGCAATTTGTTGATTTGCAGCATGACTACAACGGCTACTTCTGCATTGTCGATCAGCATGCGATTACGGTTCCGCAGGATCGGCTTGAACTGCGGAAGAACATCCGCAATCTCGCGGCTCTTTACCTGGCCGTCGGACTTGATCCCGAGAAAGCGACCCTCTTTATCCAGTCGGAAGTTCCCGCTCATGCCCAGGCGGGGTGGATGCTCCAATGCGTCGCATATATCGGCGAGCTTGAGCGGATGACGCAATTTAAGGATAAGTCAAAGGGCAAAGAAGCCGTCGTGTCCGGACTGTTAACCTATCCGCCGCTGATGGCCGGCGATATTTTACTGTACGGAACGGATCTTGTTCCGGTCGGAGAAGACCAAAAACAGCATCTTGAACTGACCCGCAACCTGGCGGAACGCTTTAATAAAAAATATAATGACATCTTCACGATTCCTGAGGTGAAAATTCCTGAATCAGGCGCGCGCATCATGTCACTGGCTGATCCGCTCAAAAAAATGAGCAAATCAGATCCGAACCAAAAGGCATTCATCACGCTGCTTGATGAGCCGAAGCAGCTCGAGAAGAAAATCAAGAGCGCCGTGACTGATTCTGAAGGCATTGTAAAGTATGATAAAGAAAACAAACCGGGCGTTTCTAATCTTTTGACGATCTATTCTATTTTAGGAAACACATCAATTGAAGAATTAGAAGCTAAATATGAAGGCAAAGGGTACGGTGAATTCAAAAGCGATTTAGCCGAAGTCGTTATCGGCGCATTGACACCGATCCAAGAGCGCTACCGTGAATTAATTGAGAGCGACGAGCTTGACCGCATTCTCGACGAAGGGGCGGCGCGCGCAAACAAAACGGCCGGCAAAATGGTGAAGAAAATGGAAAACGCCATGGGTCTCGGACGGAAAAGAAGATAA	MKKTIFSGIQPSGSVTLGNYIGAMKQFVDLQHDYNGYFCIVDQHAITVPQDRLELRKNIRNLAALYLAVGLDPEKATLFIQSEVPAHAQAGWMLQCVAYIGELERMTQFKDKSKGKEAVVSGLLTYPPLMAGDILLYGTDLVPVGEDQKQHLELTRNLAERFNKKYNDIFTIPEVKIPESGARIMSLADPLKKMSKSDPNQKAFITLLDEPKQLEKKIKSAVTDSEGIVKYDKENKPGVSNLLTIYSILGNTSIEELEAKYEGKGYGEFKSDLAEVVIGALTPIQERYRELIESDELDRILDEGAARANKTAGKMVKKMENAMGLGRKRR	PGPT0007120_5757	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
D1-12_00272	1635	oppA	COG4166	Oligopeptide-binding protein OppA	ATGAAAAAGCGTTGGTCTATTGTAGGTTTGATGCTTATCTTCTCGCTTGTATTAAGTGCGTGCGGCGGATTCAGCGGCGGATCAGGCGGCGGTAAAAAAGACACCAAAGGACAGACTTCACTTAATATCAATATTAAAACCGAGCCGTTCTCACTGCATCCGGGTTTAGCGAATGATTCCGTGTCAGGAGGCGTAATCCGACAGACTTTTGAAGGATTGACACGCGTAAACTCCAAAGGTGAGCCTGAAGAAGGAATGGCATCTAAAATTGAAACAAGCAAAGACGGAAAGACCTATACATTTACGATTCGTGACGGTGCGAAATGGTCTAACGGCGACCCTGTGACGGCGCAGGATTTTGAATATGCGTGGAAATGGGCGCTTGACCCGAACAACGAATCACAATACGCTTATCAGCTCTACTACATCAAAGGCGCTGAAGCTGCCAATACAGGAAAAGGCAAGATTGATGATGTAGGCGTAAAAGCCGTAAATGACAAAACATTAAAGGTTGAACTGAATAACCCGACACCTTATTTCACGCAATTAACTTCATTCTATACGTATATGCCGGTCAACAAGAAAATTGCTGAAAAACATAAAAACTGGAACACAAACGCAGGCGAAAATTACGTGTCAAACGGCCCGTTCAAAATGACGGCCTGGAAACACAGCGGTTCCATCACGCTCGAAAAGAACGATCAATATTGGGATAAAGACGCTGTGAAATTGAAGAAAATCAACATGGTGATGATTAACAATAACAACACCGAACTGAAAAAATTCCAGGCCGGTGAGCTTGACTGGGCAGGGATGCCGCTCGGCCAGCTTCCGACTGAATCATTGCCGACATTGAAAAAAGACGGATCTCTTCACGTTGAACCGATCGCAGGCGTGTATTGGTACAAATTCAACACAGAAGCGAAACCGCTGAACAATGTCAACATCCGTAAAGCCCTTGCTTATGCGATCGACCGCTCGTCCATCGTGAAAAATGTAACGCAGGGCGAACAAATCCCGGCCATGGCTGCGGTGCCGCCGTCAATGAAGGGATTCAAGGATAACACAAAAGGTTATTTCAAAGACAATGACGTCAAATCAGCTAAAGAATTCTTAAATAAAGGACTGAAGGAATTAGGCGTCAAGAATGCCTCTGACCTTCCGGCGATCAAACTGTCCTACAATACGGATGACGCGCATGCGAAAATCGCGCAGGCCGTACAGGAAATGTGGAAAAAGAACTTAGGCGTCAAAGTTGAGCTTGATAACTCCGAATGGAATGTTTACATCGACAAGCTGCACAGCCAGAACTACCAAATCGGGCGTATGGGCTGGCTCGGCGATTTCAACGATCCGATCAACTTCCTTGAATTGTTCCGTGATAAAGAAGGCGGAAACAATGATACCGGATGGGAAGATCCTGAGTTTAAAAAGCTGCTGAACCAATCTCAGCTTGAAACGGATCCGGATAAACGTATCGAAGAGCTGAAAAAAGCAGAAAAGATCTTTATTGACGCAATGCCGGTCGCGCCAGTTTATTTCTATACGGATCCTTGGGTGCAGGATAAAAACCTCAAAAATGTAATCTTGACCGGAACAGGCGAAGTTTACTTCAGAAACGCTTCTTTTGAATAA	MKKRWSIVGLMLIFSLVLSACGGFSGGSGGGKKDTKGQTSLNINIKTEPFSLHPGLANDSVSGGVIRQTFEGLTRVNSKGEPEEGMASKIETSKDGKTYTFTIRDGAKWSNGDPVTAQDFEYAWKWALDPNNESQYAYQLYYIKGAEAANTGKGKIDDVGVKAVNDKTLKVELNNPTPYFTQLTSFYTYMPVNKKIAEKHKNWNTNAGENYVSNGPFKMTAWKHSGSITLEKNDQYWDKDAVKLKKINMVMINNNNTELKKFQAGELDWAGMPLGQLPTESLPTLKKDGSLHVEPIAGVYWYKFNTEAKPLNNVNIRKALAYAIDRSSIVKNVTQGEQIPAMAAVPPSMKGFKDNTKGYFKDNDVKSAKEFLNKGLKELGVKNASDLPAIKLSYNTDDAHAKIAQAVQEMWKKNLGVKVELDNSEWNVYIDKLHSQNYQIGRMGWLGDFNDPINFLELFRDKEGGNNDTGWEDPEFKKLLNQSQLETDPDKRIEELKKAEKIFIDAMPVAPVYFYTDPWVQDKNLKNVILTGTGEVYFRNASFE	PGPT0021015_2642	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
D1-12_00273	936	oppB	COG0601	Oligopeptide transport system permease protein OppB	TTGCTGAAATATATCGGTAAACGATTCATTTACATGATCATCACATTGTTTGTGATTGTGACCGCCACATTCTTCTTAATGCAGGCAGCGCCGGGCGGACCATTTTCCGGCGAAAGAAAGCTGCCGCCTGAAATTGAGGCAAACTTAAACGAACACTATGGCCTGGACAAGCCTCTTTTCGTTCAATATGCCAGCTACTTAAAATCTGTGGCGATGTGGGACTTCGGACCTTCTTTTAAATATAAAGGCCAAAGTGTTAATGATTTAATCAATTCAGGCTTCCCCGTCTCATTCACTCTCGGTGCAGAAGCTATTCTCCTCGCTTTAGCGTTCGGTGTGCTTTTCGGGGTGCTTGCTGCCCTGTACCATAATAAATGGCAGGATTATACCATTGCGATTTTAACGATCTTTGGGATCTCAGTTCCGAGCTTTATATTGGCGACGATTTTGCAATATATTTTCTCAATTAAATTAGAACTGTTCCCGGTCGCAGGGTGGGAATCCTGGGCATACACCTTTCTGCCCTCTATTGCGCTCGCTTCCATGCCGATGGCGTTCATTGCCAGACTCTCCCGTTCAAGCATGATTGAAGTGTTAAACAGCGATTACATACGGACTGCAAAAGCTAAAGGACTTTCCCGTCCGTCAGTCACCGTGCGCCATGCGCTTCGAAACGCGCTTTTGCCGGTCGTGACATATATGGGGCCGATGGCGGCATCCATTTTAACGGGAAGTTTCATCATTGAATCCATTTTCGGAATTCCCGGTTTAGGCGCGCATTTTGTAAACAGCATTACAAACCGTGATTATACGGTCATTATGGGAGTTACCGTGTTCTTCAGCGTGCTCCTGCTTTTATGCGTATTAATTGTAGACGTGCTGTACGGATTAATCGATCCGAGAATCAAGCTTTCCAAAGCAAAGAAAGGAGCCTAG	MLKYIGKRFIYMIITLFVIVTATFFLMQAAPGGPFSGERKLPPEIEANLNEHYGLDKPLFVQYASYLKSVAMWDFGPSFKYKGQSVNDLINSGFPVSFTLGAEAILLALAFGVLFGVLAALYHNKWQDYTIAILTIFGISVPSFILATILQYIFSIKLELFPVAGWESWAYTFLPSIALASMPMAFIARLSRSSMIEVLNSDYIRTAKAKGLSRPSVTVRHALRNALLPVVTYMGPMAASILTGSFIIESIFGIPGLGAHFVNSITNRDYTVIMGVTVFFSVLLLLCVLIVDVLYGLIDPRIKLSKAKKGA	PGPT0021020_631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021020-oppB-K15581	NA	NA
D1-12_00274	918	oppC_2	COG1173	Oligopeptide transport system permease protein OppC	ATGCAGAACATTCCTAAAAATATGTTTGAACCAGCTTCAGCTAATGCCGGCGATGCCGAAAAAATAAATAAAAAAAGCCTTTCCCTCTGGAAAGACGCCATGCTCCGCTTCCGCAGCAATAAGCTTGCGATGGTCGGGTTCGTACTGATCGTTCTTATTATTCTGATGGCGATTTTTGCGCCTGTCTTTTCAAGGTATGATTATGCGACTACCAATCTATTAAATGCGGATAAAGCGCCGTCGAAAGATCATTGGTTCGGCACGGATGACCTTGGAAGGGATATATTCGTCCGGACATGGGTGGGCGCGCGGATTTCCATCTTTATCGGTGTCGCAGCTGCCGTGCTTGATTTATTAATCGGCGTAATCTGGGGCAGCATTTCCGGATTCCGCGGCGGACGCACAGATGAAGTGATGATGCGCATCGCCGACATTCTGTGGGCTGTTCCTTCATTATTAATGGTTATTTTGCTGATGGTTGTCCTGCCGAAAGGATTGCTCACCATTATCGTCGCCATGACAATCACGGGCTGGATCAATATGGCGAGAATCGTCCGCGGACAGGTGCTGCAATTAAAGAATCAGGAGTATGTGCTTGCTTCACAGACACTCGGCGCCAAAACCGGCCGGCTTTTGTTTAAGCATATCGTCCCGAACGCGATGGGCTCTATCCTCGTAACGATGACACTGACGGTTCCGACGGCGATTTTTACAGAAGCGTTTTTAAGTTATTTGGGCCTCGGCGTACCTGCGCCGCTTGCGAGCTGGGGAACGATGGCCTCAGACGGATTGCCTGCATTAACCTATTACCCTTGGCGTCTGTTCTTCCCTGCCGGCTTTATCTGCCTGGCGATGTTCGGCTTTAACGTTGTCGGCGACGGGTTAAGAGACGCGCTGGATCCTAAGTTACGCAAATAA	MQNIPKNMFEPASANAGDAEKINKKSLSLWKDAMLRFRSNKLAMVGFVLIVLIILMAIFAPVFSRYDYATTNLLNADKAPSKDHWFGTDDLGRDIFVRTWVGARISIFIGVAAAVLDLLIGVIWGSISGFRGGRTDEVMMRIADILWAVPSLLMVILLMVVLPKGLLTIIVAMTITGWINMARIVRGQVLQLKNQEYVLASQTLGAKTGRLLFKHIVPNAMGSILVTMTLTVPTAIFTEAFLSYLGLGVPAPLASWGTMASDGLPALTYYPWRLFFPAGFICLAMFGFNVVGDGLRDALDPKLRK	PGPT0021025_1737	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021025-oppC-K15582	NA	NA
D1-12_00275	1077	oppD_3	COG0444	Oligopeptide transport ATP-binding protein OppD	GTGACACGTTTGCTAGAAGTAAAAGACTTAGCCATTTCATTTAAAACATACGGCGGAGAGGTACAGGCAATCCGCGGCGTGAATTTCCATTTAAATAAAGGAGAGACGCTGGCGATCGTGGGGGAGTCGGGTTCCGGAAAAAGTGTGACCTCCCAAGCGATTATGAAGCTGATTCCGATGCCGCCGGGCTACTTTAAAAGAGGACAGATTCTTTTTGACGGACGCGATATCGTGCCGATGTCTGAAAAAGAAATGCAGGCCATCAGAGGAAAGGACATCGGAATGATTTTCCAAGACCCGATGACCTCTCTGAACCCGACGATGAGAGTCGGCAAACAAATTACGGAAGTGCTTTTCAAACATGAAAAAATCTCAAGTGAAGCGGCGAAAAAGCGCGCCATAGAGCTGCTTGATCTCGTCGGGATTCCGATGCCCGAAAAACGGATCGGCCAATTCCCCCATGAATTTTCAGGCGGGATGAGACAGCGTGTCGTCATCGCGATGGCGCTTGCGGCAAATCCGAAACTGTTAATTGCCGATGAACCGACAACAGCGCTTGATGTGACGATTCAGGCACAGATCCTTGAGCTGATGAAAGATCTGCAAAAGAAAATTGATACGTCTATCATTTTTATCACGCATGATCTCGGCGTTGTCGCCAATGTCGCCGACCGGGTCGCCGTCATGTACGCAGGTCAGGTCGTCGAATCGGGCACGGTGGATGAAATCTTTTATGATCCGCGCCATCCGTATACGTGGGGGCTGCTTGCCTCAATGCCCAGCCTGGACAGCACCGATCAGGAAAAACTGACGGCCATCCCGGGCACGCCGCCTGATCTGACGAATCCTCCGAAAGGGGATGCATTTGCGCTCCGCAGCTCATATGCGATGAAAATTGACTTTGAACAGGAACCGCCGATGTATAAAGTGTCTGATACGCATTTTGTGAAATCGTGGCTTCTGCATCCTGATGCGCCTAAGGTCGAGCCCCCTGAAGCGGTGAAGGCTAAAATCCGTCAGCTTCCGAATACGTATCAGCATCCTGTTTTAATGAAGGAAGGTGAAAAAAATGACTGA	MTRLLEVKDLAISFKTYGGEVQAIRGVNFHLNKGETLAIVGESGSGKSVTSQAIMKLIPMPPGYFKRGQILFDGRDIVPMSEKEMQAIRGKDIGMIFQDPMTSLNPTMRVGKQITEVLFKHEKISSEAAKKRAIELLDLVGIPMPEKRIGQFPHEFSGGMRQRVVIAMALAANPKLLIADEPTTALDVTIQAQILELMKDLQKKIDTSIIFITHDLGVVANVADRVAVMYAGQVVESGTVDEIFYDPRHPYTWGLLASMPSLDSTDQEKLTAIPGTPPDLTNPPKGDAFALRSSYAMKIDFEQEPPMYKVSDTHFVKSWLLHPDAPKVEPPEAVKAKIRQLPNTYQHPVLMKEGEKND	PGPT0021030_551	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021030-oppD-K15583	NA	NA
D1-12_00276	918	oppF_3	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACTGAGAAACTTCTCGAAATCAAACATTTAAAACAGCATTTTTTCACGCAGAAAGGAACGGTAAAAGCCGTAGATGATTTGTCATTTGATATTTATAAAGGCGAAACGCTCGGCCTTGTCGGAGAATCGGGCTGCGGTAAATCAACGACGGGCCGCAGCATTATCCGGCTATATGAGGCAACCGGCGGGGAAGTTCTCTTTAACGGGGAAAATGTCCACGGGAAAAAATCCCGCAAGAAGCTGCTGGAATTTAACCGGAAAATGCAGATGATTTTCCAGGATCCGTACGCATCTTTAAATCCGAGAATGACAGTCGCCGACATTATTGCCGAGGGAATAGATATTCACCGCCTGGCAAAAACGAAAAAAGAGCGGATGCAGCGGGTTCACGAACTGCTGGAAACGGTCGGTTTAAATAAAGAGCACGCCAACCGCTACCCGCATGAATTTTCGGGCGGACAGCGCCAGCGTATCGGAATCGCCAGAGCGCTGGCGGTTGATCCGGAGTTTATCATCGCGGACGAACCGATTTCGGCGCTTGACGTCTCCATTCAGGCGCAAGTCGTCAATTTAATGAAAGAATTGCAGAAAGAAAAAGGGCTCACTTACCTGTTTATCGCCCATGATTTATCAATGGTCAAATACATCAGCGACCGCATCGGCGTCATGTATTTCGGAAAATTGGTGGAGCTTGCGCCGGCGGATGAGCTTTACGAAAACCCGCTTCATCCATATACGAAATCATTGCTGTCCGCTATCCCGCTTCCTGATCCGGACTATGAAAGAAATCGCATGCGAAAGAAATACGATCCGGCAGTTCATCAGCTCCAGGAAGGAGAAAAAATGGAATTCAGAGAAGTGAAACCGGGACATTTTGTCATGTGCACAGAAGCTGAATTTAAAACCTATCTATAA	MTEKLLEIKHLKQHFFTQKGTVKAVDDLSFDIYKGETLGLVGESGCGKSTTGRSIIRLYEATGGEVLFNGENVHGKKSRKKLLEFNRKMQMIFQDPYASLNPRMTVADIIAEGIDIHRLAKTKKERMQRVHELLETVGLNKEHANRYPHEFSGGQRQRIGIARALAVDPEFIIADEPISALDVSIQAQVVNLMKELQKEKGLTYLFIAHDLSMVKYISDRIGVMYFGKLVELAPADELYENPLHPYTKSLLSAIPLPDPDYERNRMRKKYDPAVHQLQEGEKMEFREVKPGHFVMCTEAEFKTYL	PGPT0021035_2837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021035-oppF-K10823	NA	NA
D1-12_00277	1170			hypothetical protein	ATGAAAACCATTTTGTGCGCCATTTGTGCGGGACTGTTTATCAGTGCAGCCGCTGTGAAAGAGGAGCAGCCGCTTGTAAAAATAGCGCTGGCTGAAAAAGAACTGCCGAAATCAAATGCACGGTTCGCTTATCCGTCAGGGCTGCATTTTACACATCCTGATAAGGTGCGGGGCATTTACGTCACAGGGCATTCAGCGGGAGGAAGCAAATTCGGGGAGCTGACAGACTTTGTGGACAAAACGGAGCTCAATACAATGGTGATTGATGTCAAGGACGACAACGGAAACCTCACCTTTAAGCCGGACGGCCATTCTGAGTATGCCAAAATCGCTAAGCCATACATCAAAGACCCAAAAAAGATGATGAAAAAGCTGGAGGAAAAAAAGATCTATCCGATCGCGCGTATTGTCGTATTTAAAGACAGCGAACTCGCGAACGAAAAGCCGGAGTGGTCCTTTAAAGAAAAAAACGGAAGTGTCTGGAAAAACGGCCGCGGCGAATCGTTCGTCAATCCGTTTATGAAAGAAGTATGGGATTACAATGTAAAGATTGCAAAACAAGCTGTAAAGATGGGGTTTCAAGAAATTCAGTTTGATTATGTCCGTTTTCCTGAAGGATTTGAAAAACGTGATGACGAACTGACATACGGACACGGCGATTACGGAAAAACAGCAGACAGCAATGTGCAAAAACGCGTTCACGCCGTCACCGATTTTGTCGGTTATGCGAAGAAAAAACTCAAGCCGTACGGCGCGGATGTGTCGGTTGATATTTTCGGCTATTCTGCCACGCTGCCGGAAGCGCCGGGGATCGGCCAGAATTTCAGCAAGATTTCAGAACAGGTCGATGTCATTTCATCCATGATTTATCCGAGCCATTGGACAAGCTATTTCGGCATTGATAAACCGGATCTTGAGCCTTACAATGTCGTCAAAGAATACGCGAAGGTGGAAAATAAAAAACTGTCTAAGCTGAAACACCCGCCTGTATCGCGTCCGTGGCTTCAGGACTTCACGGCATCATATCTCGGCAGCGGAAATTATCAAAAGTACGGAAAACGCCAGGTGGAAGACCAGGTTAAAGCGCTGCATGATGAAGGAATTGACGAATTTTTATTGTGGGACGCGGCAAACCGTTATACCAAAAACGTCGATTACACACCATTTTAA	MKTILCAICAGLFISAAAVKEEQPLVKIALAEKELPKSNARFAYPSGLHFTHPDKVRGIYVTGHSAGGSKFGELTDFVDKTELNTMVIDVKDDNGNLTFKPDGHSEYAKIAKPYIKDPKKMMKKLEEKKIYPIARIVVFKDSELANEKPEWSFKEKNGSVWKNGRGESFVNPFMKEVWDYNVKIAKQAVKMGFQEIQFDYVRFPEGFEKRDDELTYGHGDYGKTADSNVQKRVHAVTDFVGYAKKKLKPYGADVSVDIFGYSATLPEAPGIGQNFSKISEQVDVISSMIYPSHWTSYFGIDKPDLEPYNVVKEYAKVENKKLSKLKHPPVSRPWLQDFTASYLGSGNYQKYGKRQVEDQVKALHDEGIDEFLLWDAANRYTKNVDYTPF				NA	NA	NA	NA	NA
D1-12_00278	579	yjbC		Putative acetyltransferase YjbC	ATGAACTGGTACGAAAAGCTGAGTGAATATTTTCCGATTGAAGAAATGAAATCAAAAGCGCATATGGAAGCTCTGTTAAAGGAGCAAAGCGATGTTTATCATAAAGAAGAGGGGCAGTACCACGTGCTGATGTATGCGGAATTTGACTCTTTCATCTTTATTGATTACCTGTTTGTGTCAAAGAAATCCAGAGGACAAGGCCTCGGAAGCAAGCTGATCGGCAGGCTGAAAAAGAAAAACAAGCCGATTCTGCTTGAGGTGGAGCCTGTTGACGAGGATGACACGGATACACAGAAACGCTTGCGTTTTTATCAAAGAGAGCATTTCAAGCACGCGCAGTCAATCGGGTATCGGCGCCGGTCATTGGCTACGAATGAAGTGAACAAAATGGAGATTCTGTACTGGTCACCTAAGACGGAATCAGAAGAAGAAATGTTTGAAGCGATGAAACAGACATATGAAAACATTCACACTTATAAAGATGAAAAATGGTACGGAGAATCATACGAAAAAACGGATGAAGTTCTCAAAGTCATTGATGAGAAAAAACGAAAAAACATTTTCGATCAGCTGAGCTAA	MNWYEKLSEYFPIEEMKSKAHMEALLKEQSDVYHKEEGQYHVLMYAEFDSFIFIDYLFVSKKSRGQGLGSKLIGRLKKKNKPILLEVEPVDEDDTDTQKRLRFYQREHFKHAQSIGYRRRSLATNEVNKMEILYWSPKTESEEEMFEAMKQTYENIHTYKDEKWYGESYEKTDEVLKVIDEKKRKNIFDQLS	PGPT0014311_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014311-yjbC-NA	NA	NA
D1-12_00279	396	spxA	COG1393	Regulatory protein Spx	ATGGTTACATTATACACATCACCTAGCTGTACGTCATGCAGAAAAGCAAGAGCTTGGCTTGAAGAGCACGAGATTCCGTTTGTAGAGAGAAACATTTTCTCCGAGCCGTTATCAATTGATGAGATCAAGCAGATTCTGCGTATGACTGAAGACGGTACGGATGAAATTATCTCTACCCGTTCTAAAGTATTCCAGAAACTGAACGTAAATGTTGAATCTATGCCGCTTCAAGACTTATATACTTTGATCAATGAGCATCCGGGACTGCTCCGCCGTCCGATCATCATTGATGAAAAACGTCTGCAAGTCGGCTATAACGAAGATGAAATCAGACGATTCCTGCCAAGAAAAGTGCGTTCTTTCCAATTAAGAGAAGCACAGCGTCTTGCCAACTGA	MVTLYTSPSCTSCRKARAWLEEHEIPFVERNIFSEPLSIDEIKQILRMTEDGTDEIISTRSKVFQKLNVNVESMPLQDLYTLINEHPGLLRRPIIIDEKRLQVGYNEDEIRRFLPRKVRSFQLREAQRLAN	PGPT0012940_532	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012940-spx|spxA-K16509	NA	NA
D1-12_00280	657			hypothetical protein	ATGCCGCACGATTACCTGCTGTCCCTTCTGCTTATTATCGGGATTGACCTTATTCTCGGCGGTGACAATGCCGTCGTCATCGCGATGGCCAGCCGGAATCTGGCTCATAAACAAAGACAGCAAGCGATCATCTTCGGAACGTTTATCGCGGTCGTCTTGAGAATCGTTCTGACGAGCGCTGCGGTCTATTTATTGAATGTTCCTTTTTTACAATGCGCAGGCGGGGTATTTTTATTGTATCTCGGCTATCAGCTTCTGATTGAGAAGAAAGATGCGCAGCATGTGAAAAGCAGTTCTTCTCTTTGGAAAGCCATCCGCACAATCGTTCTGGCTGATATCTTTATGTCGCTTGACAATGTCATCGCAGTAGCCGGCGCTTCTCACGGTGAGCTGACACTAGTAGTGATCGGTCTCTTCATCTCGGTGCCGATTATCATTTGGGGCAGCAAGCTCGTTCATGCCGCCATGGACAAAATGCCTTTATTGATGTACGCCGGGAGCGGTCTTCTCGCATTTACCGGCGGTGAAATGATTGCCGGAGACAGCAAGCTGTCATTTTTCATGGCAGAACACGGCATTATACAAATGATGCTGCCGATTTTGACCGTCGTATTTGTTATCCTCGCCAGTATGATTTACCAGCAGACTGAAAAATAA	MPHDYLLSLLLIIGIDLILGGDNAVVIAMASRNLAHKQRQQAIIFGTFIAVVLRIVLTSAAVYLLNVPFLQCAGGVFLLYLGYQLLIEKKDAQHVKSSSSLWKAIRTIVLADIFMSLDNVIAVAGASHGELTLVVIGLFISVPIIIWGSKLVHAAMDKMPLLMYAGSGLLAFTGGEMIAGDSKLSFFMAEHGIIQMMLPILTVVFVILASMIYQQTEK				NA	NA	NA	NA	NA
D1-12_00281	750	mecA	COG4862	Adapter protein MecA 1	ATGTGGACGGAATGGGTAAAGTGTAGTAAAGTACTATTCATCGGGAGCTTAGATGTCCCTTCAACATCTTATAAAGAAGGGAAGGTTGGCAAAATGGAAATAGAAAGAATTAATGAGCATACTGTAAAATTTTATATGTCTTATGGTGATATTGAAGATCGCGGTTTTGACAGAGAAGAAATCTGGTACAATCGCGAGCGCAGTGAAGAACTGTTCTGGGAAGTCATGGATGAAGTGCATGATGAAGAAGAATTCGCTGTCGAGGGTCCTCTTTGGATTCAGGTTCAGGCATTGGACAAAGGACTGGAAATAATCGTAACAAAAGCCCAGCTTTCCAAGGACGGACAAAAACTCGAACTGCCGATCCCGGAAGATAAAAAACAAGAGCCGGCAGATGAAAATCTCGATGCTTTACTTGATGATTTCCAGAAAGAAGAGCAGGCCGAGAGCCGGGAAGATAAGGAGCAAAAGCTTCAGTTCACTTTGCGGTTCGATGATTTTGAGGATCTCATCTCGCTATCAAAATTGAATCTTAACGGAATCAAAACGACCCTGTATTCGTTTGAAGACCGATATTATTTATATGCAGATTTTTATGAGCAAACTGATGAAGAGGTTGAAAATCAGCTAAGCATCCTGTTGGAGTACGCGCACGAATCATCAGTCAGCATTCACCGTCTTGAAGAATACGGCAAATTGGTGATCGCTGATCATGCGTTATATACAATAAAAAAACACTTTGCATCATAA	MWTEWVKCSKVLFIGSLDVPSTSYKEGKVGKMEIERINEHTVKFYMSYGDIEDRGFDREEIWYNRERSEELFWEVMDEVHDEEEFAVEGPLWIQVQALDKGLEIIVTKAQLSKDGQKLELPIPEDKKQEPADENLDALLDDFQKEEQAESREDKEQKLQFTLRFDDFEDLISLSKLNLNGIKTTLYSFEDRYYLYADFYEQTDEEVENQLSILLEYAHESSVSIHRLEEYGKLVIADHALYTIKKHFAS				NA	NA	NA	NA	NA
D1-12_00282	1161	coiA	COG4469	Competence protein CoiA	ATGTTCAGTGCTGTGACTGCCGACGGAAGGCTCATTCAGCTGGCCGGAAGCTATTCAAAGGAAAAAGCGGCGGAGCTGAGAAAGAAACGCTGGTTCTGCCCTGTTTGCGAAAGTGAGCTTGATATCAAACTGGGCCGGGAGAAACTGCCGCACTTCGCTCATAAAAAAAGCAGGCTGTGTCCGGGGGAATCCGAACCTGAAAGCGAATACCATCTGGAAGGAAAAAGACAGCTTTTTCTCTGGCTAAAGACACAAGGGTGCAGTGTCAGCCTGGAACCGTATCTGACTTCCGCGGGACAGCGGCCTGACTTGACGGCGGAAAGCGGAGAAGAGAGGCTGGCTTTTGAATTTCAATGTGCGAACCTTTCGGCGGACTCTTTAAAGAGCCGGACGGCAGGCCTGAAAAACGCCGGGTACCGGCCGGTCTGGATTATCGGGGCAAAACGGTTAAAACGGCTGGCCGCGCAATTTTTCCGGCTTTCTGCTTTTCACTGGCAGTTCTTTGAAGTCCATTCATTTTCCTCCTTACTGTTTTACTGCCCCGACGCCCGCTCCTTTTACAGGCTGCATTCCATCACTCCGTTTTACACCGGCTATTCTTATGCCGGCTTAACCGCAATCCCTCTTCACAAAGCAAACCTGAAAGACATTTGTCATCCGGAAGGGCGGCACAGCGTCAGACTTCCCTCGTGGGGACGTGCCGTAGCCGGCTTCCGCAACAAAAGCGGGCGGTTTTTATCTGAAGATGCCGGTCTTATCCGGTGTCTTTTTTACGAAAGACATCAGGTTGCATTTCCATTTCTCCCCTCTGAAGTGTTTATTCCCGTTTCAGCGGGCTTTGTGTTTGCAAGTCCCGTTTTTGTGTGGCAGGGCCATTTATACTTGCGGCTTGCGGAACTTTCTAAAAAAGGCGCGCCGATCCGATTATCCGGCATGGTTCATGATTTACGGCAAAAAATCAGGGGTAAGGAGATCCGGATGAGGTATGGTTCACAAGACAGCCTTATCGGAATGGCGGTAAAACAATATGCTGATTTCTTATGCTTGCAGGATTTTTTAAGGGAAATTGAGAATGAAGTATATATGCCCTCATCTCAATGGAAGCGCCCTCAAACGGCAGAAGAGCTGCGCCGGCGGGATCTGCTCTTTTTTGGGGAATGA	MFSAVTADGRLIQLAGSYSKEKAAELRKKRWFCPVCESELDIKLGREKLPHFAHKKSRLCPGESEPESEYHLEGKRQLFLWLKTQGCSVSLEPYLTSAGQRPDLTAESGEERLAFEFQCANLSADSLKSRTAGLKNAGYRPVWIIGAKRLKRLAAQFFRLSAFHWQFFEVHSFSSLLFYCPDARSFYRLHSITPFYTGYSYAGLTAIPLHKANLKDICHPEGRHSVRLPSWGRAVAGFRNKSGRFLSEDAGLIRCLFYERHQVAFPFLPSEVFIPVSAGFVFASPVFVWQGHLYLRLAELSKKGAPIRLSGMVHDLRQKIRGKEIRMRYGSQDSLIGMAVKQYADFLCLQDFLREIENEVYMPSSQWKRPQTAEELRRRDLLFFGE				NA	NA	NA	NA	NA
D1-12_00283	2061	pepF1_1		Oligoendopeptidase F, plasmid	ATGAGAATGCTTCATTTCGTTCACCCTAACGTCAAGGTGGTGGCGAATGTGAGGGGCGTACAAGCATTTTGTTTTCGTTTTTTCACTGTATTATTGGTATGCTCGGTCTTATATGCCGCATATGATTTGACAAAAGGCAGTGAAAAGCCGGAAGATAATCACAACACAAGTTTTTGGAGAAACAATCGTTTTTTCAATTGGCTTGAAGTAAAGAAAACGAGGGGGATCACCATGACTAAGGAAAATAAAGCAGCACAGCTGCCTGACAGAAGTGAAGTAAAGGCAGAGCATACATGGAGACTAGAGGATATTTTTCCTAGTGATGAGGCCTGGAATAAAGAATTTCAAGCAGTTAAAGAATTAATCCCGAATTTATCTTCTTTTAAAGGCACACTTGCTCATTCGGCTGATAATTTATACGCGGCGCTTACGGCACAGGATGAAGTGACGAACCGCCTTGGGAAACTTTATGCATACGCGCATATGCGCTCAGACCAGGATACGGGAAATTCTTTCTACCAAGGGCTGAACGACAAAGCCGCAAGCCTGTATTCTCAGGCTGCAAGCGCGACTGCTTACATTGAACCGGAAATTCTGGCGATTCAGGAGGACAAGCTGCACCAGTTTATTCTCGAAAAAGAAGAGCTTAAGCTTTACTCCCATGCAATTGAAGAAATTACAAAACAGCGTCCGCACGTGCTGAGCGAACAAGAAGAGGCCCTGCTTGCGGAAGCCTCAGAAGCGCTGTCGTCGCCTTCCAATACATTCAGCGTTTTAAATAACGCCGATATTACATTTCCGTCGATTAAAGATGAAAACGGCAAGGAAACTCAAATCACACACGGCAACTTTATTAATTTCCTGGAAAGCAGCAATCGTGAAGTCCGCAAAAACGCATTTGAAGCCGTATATAAAACATACGGACAGTATAAAAACACGATGGCGACTACACTCAGCGGCACTGTGAAAAAAGATAATTTTTACGCCCGTGTGAAAAAATATAAATCAGCACGGGAAGCGGCTTTATCCAATAACAGCATCCCTGAAGAAGTTTACGATAACCTGATTAAAACGATCAATAAACATCTTCCGTTATTACACCGTTACATTGACCTGCGGAAAAAGGTGCTCGGCCTTGATGAAGTCCATATTTATGACCTGTACACACCGCTCGTAAAAGATTCGGGAATGAAGGTCACATATGAGGAAGCGAAAGATTATATGCTCAAAGGACTTGCTCCGCTGGGCGAGGAATACGCGTCTATTTTAAAAGAAGGACTTGAAAACCGCTGGGTCGATGTATACGAAAACAAAGGAAAACGCAGCGGTGCTTATTCGTCCGGTACATACGGCACGAATCCGTACATCTTGATGAACTGGCATGATAATGTCAATAATCTGTTTACGCTCGTTCACGAGTTCGGCCATTCCGTGCACAGCTACTATACGAGAAAATATCAGCCGTATCCATACGGTAACTACAGCATTTTTGTCGCTGAAGTCGCTTCAACGACCAATGAAGCGCTGCTCGGTGAATATATGCTGAACAGCTTAAAGGATGAAAAACAGCGTCTGTACCTGCTCAACCACATGCTTGAAGGATTCAGAGGCACAGTGTTCAGACAGACGATGTTCGCTGAATTTGAGCATCTGATTCATACGAAAGCGCAGGAAGGCGAGCCGCTGACGCCTGAACTGCTGAACGAACTTTATTATGATCTGAATAAAAAGTATTTCGGTGACAACATGGTGATTGATAAAGAAATCAGTCTGGAATGGTCAAGAATTCCGCATTTCTATTACAATTATTATGTGTATCAATATGCAACAGGCTACAGTGCGGCCCAAGCGCTGAGCAGCCAGATCTTAAAAGAAGGCAAGCCTGCGGTGGAGCGCTATACCGAATTCTTAAAAGCGGGAAGCTCGGAATATCCGATCGACATACTGAAAAAAGCGGGAGTCGATATGACATCGCCTGAACCGATCGAGGCGGCCTGCAAAATGTTTGAAGAGAAGCTGAACGAAATGGAAGAGCTTCTTTCGAAAGTGAACCCTTCGTAA	MRMLHFVHPNVKVVANVRGVQAFCFRFFTVLLVCSVLYAAYDLTKGSEKPEDNHNTSFWRNNRFFNWLEVKKTRGITMTKENKAAQLPDRSEVKAEHTWRLEDIFPSDEAWNKEFQAVKELIPNLSSFKGTLAHSADNLYAALTAQDEVTNRLGKLYAYAHMRSDQDTGNSFYQGLNDKAASLYSQAASATAYIEPEILAIQEDKLHQFILEKEELKLYSHAIEEITKQRPHVLSEQEEALLAEASEALSSPSNTFSVLNNADITFPSIKDENGKETQITHGNFINFLESSNREVRKNAFEAVYKTYGQYKNTMATTLSGTVKKDNFYARVKKYKSAREAALSNNSIPEEVYDNLIKTINKHLPLLHRYIDLRKKVLGLDEVHIYDLYTPLVKDSGMKVTYEEAKDYMLKGLAPLGEEYASILKEGLENRWVDVYENKGKRSGAYSSGTYGTNPYILMNWHDNVNNLFTLVHEFGHSVHSYYTRKYQPYPYGNYSIFVAEVASTTNEALLGEYMLNSLKDEKQRLYLLNHMLEGFRGTVFRQTMFAEFEHLIHTKAQEGEPLTPELLNELYYDLNKKYFGDNMVIDKEISLEWSRIPHFYYNYYVYQYATGYSAAQALSSQILKEGKPAVERYTEFLKAGSSEYPIDILKKAGVDMTSPEPIEAACKMFEEKLNEMEELLSKVNPS	PGPT0020965_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
D1-12_00284	168			hypothetical protein	ATGCTCCGCACCGTATTGATCATCGGAATGATTGTGTTTTTCTTCTTTTTAAATCTGCTGGCCATGATGCACATGCTGCCGATTTACATTACATCTCCCCTGCTGTTTCTGTCCATATTGTTTGCCTTGTACCGGCTGAATCACAGAAAAACGTTTAAAGGGTTTTAG	MLRTVLIIGMIVFFFFLNLLAMMHMLPIYITSPLLFLSILFALYRLNHRKTFKGF				NA	NA	NA	NA	NA
D1-12_00286	903			hypothetical protein	TTGACGAATTATCAGCATGAGCAATACTTCGCCCATTGCCACGGACATCCAAAAAAACCGCTCGAAATTTACATGTTTGTCGACCCTTTATGTCCTGAATGCTGGTCGCTGGAGCCCGCCATAAAAAAATTAAAAATCAAATACGGACGTTTTTTTACGCTGCGGATCATTGTTTCCGCGAGCATTACATCGTTGAATAAGCAAAAACGGAAAAAACACCTTCTTGCCGAAGCTTGGGAAAAAATTGCGAACCGTTCCGGTATGCCCTGTGACGGAAGCCTTTGGCTTGAGCAGGATCAGCCTCTTTCATCGCCCTACCTTGCCGCACTCGCTTTAAAAGCGGCTGAACTGCAGGGAAGAAAAGCGGGCATTCTGTTTCTCCGCAGCATGCAGGAAAGCCTGTTTGTTTCCAAGCAGAATATTACAGATGAAGACGTTCTTTTAGAAATTGCCGAAAAGACGAAATTGGATGTTGAAGAATTCAAGCGCGATCTCCATTCGCAAAGCGCGGTAAAAGCGCTTCAGTGCGATATGAAAATCGCGGCGGAAATGGACGTCACCGTCAACCCGACATTGACGTTCTTTAACAGCCTGCATGATGATGAAGGGCTGAAGGTTCCCGGCAACTATTCTTATGACGTATACGAAGAGATCTTATTCGAAATGCTCGGGGATGAACCGAAGCCTTCTGAAACGCCGCCTTTGGAATGTTTCATTGAATATTTCCAGTTTGTCGCATCGAAAGAAATCGCACTCGTTTATGATTTGAGTCTAGAAGAAGTTGAAAAAGAAATGAAAAAACTGGCATTCGCCAAAAAGGTCGCCAGAGTGGAAGCAAAGCACGGTCTGTTTTGGAAGTCTCTTTCCGGCACCCAGGAGGATGTCACCTGTTGTGATCATTAA	MTNYQHEQYFAHCHGHPKKPLEIYMFVDPLCPECWSLEPAIKKLKIKYGRFFTLRIIVSASITSLNKQKRKKHLLAEAWEKIANRSGMPCDGSLWLEQDQPLSSPYLAALALKAAELQGRKAGILFLRSMQESLFVSKQNITDEDVLLEIAEKTKLDVEEFKRDLHSQSAVKALQCDMKIAAEMDVTVNPTLTFFNSLHDDEGLKVPGNYSYDVYEEILFEMLGDEPKPSETPPLECFIEYFQFVASKEIALVYDLSLEEVEKEMKKLAFAKKVARVEAKHGLFWKSLSGTQEDVTCCDH				NA	NA	NA	NA	NA
D1-12_00287	399	yjbI	COG2346	Group 2 truncated hemoglobin YjbI	ATGGGACAATCGTTTAACGCACCATATGAAGCGATTGGAGAGGAACTTCTATCGCAACTTGTTGATACTTTTTATGAGCGTGTCTCGTCTCATCCCTTGCTGAAGCCGATATTTCCAAGTGATTTGACTGAAACGGCCAGAAAACAAAAGCAATTTTTAACCCAGTATTTGGGCGGACCTCCTCTTTATACTGAAGAGCACGGACATCCCATGCTCAGGGCAAGGCATCTCCCCTTTCCGATTACGGACGAGAGGGCTGATGCGTGGCTAAGCTGTATGAGCAAAGCGATGGATCAGGTCGGGCTGGAGGGCGATATTCGTGAATTTCTGTACGGGCGTCTGGAACTGACGGCCAGGCATATGGTAAACCAGTCAGAAGCGGAGGATCGATCATATTGA	MGQSFNAPYEAIGEELLSQLVDTFYERVSSHPLLKPIFPSDLTETARKQKQFLTQYLGGPPLYTEEHGHPMLRARHLPFPITDERADAWLSCMSKAMDQVGLEGDIREFLYGRLELTARHMVNQSEAEDRSY				NA	NA	NA	NA	NA
D1-12_00288	687	mltF		Membrane-bound lytic murein transglycosylase F	GTGAATATAACGAATTGGGCGGCCCTTCTCCAGCTGCAATCAATGGCGCTGCAATCAATCTCTCATACAAGCACGGCTTCAGGCGGGCAATCTTCAGAAAGCCCGCTTGCCAATTTCAGCGCGCTGCTCAGCCAGTATACGGACACAGCCGTCCGGCAGCAGCCGGAATCAGGAATTTTAAACGGCGTGCGGACCGCTCACGCTTCTTATTCACCGAGAATTCCCGTTTCATCCGGTTCCGCGGCAGCTTCACAGACCGCTTCCCCAAGCATAAAGTCTGCGAATGCGGCTTCTGACATCAGCACCGGAAACTTTTCAATAGACAGCGCCATTCAGAAAGCGGCCGAAAAATACGGAGTGGACGAAAAGCTGATCCGCGCGGTTATTAAACAGGAATCAGGCTTTAATCCGAAAGCGGTCAGCGGTGCGGGGGCAATGGGACTGATGCAGCTCATGCCTTCCACGGCAGAATCACTCGGGGTGTCAAACCCGCTTGATCCCGTCCAGAACGCTGAGGGCGGCACGAAGTACTTAAAGCAGATGCTCACGAAATACGACGGAAATGTATCTCTCGCGTTAGCCGCCTACAACGCAGGCCCCGGCAACGTAGATCGGTACGGAGGCATTCCGCCGTTTAAGGAAACACAGCAATATGTCAAAAACATAACCAAACAGTATTACGCGTAA	MNITNWAALLQLQSMALQSISHTSTASGGQSSESPLANFSALLSQYTDTAVRQQPESGILNGVRTAHASYSPRIPVSSGSAAASQTASPSIKSANAASDISTGNFSIDSAIQKAAEKYGVDEKLIRAVIKQESGFNPKAVSGAGAMGLMQLMPSTAESLGVSNPLDPVQNAEGGTKYLKQMLTKYDGNVSLALAAYNAGPGNVDRYGGIPPFKETQQYVKNITKQYYA				NA	NA	NA	NA	NA
D1-12_00289	573	yjbK	COG4116	Putative triphosphatase YjbK	ATGACCCAAGAAATAGAAATTGAATTCAAAAACCTGCTGACAAAATCAGAATTTCTGAAGCTGAGTGAAGCACTCTGCATGAAAGAACATGATTTTAAACAGCAGGTCAATCATTATTTCGACACGAAAGATTTTTCCCTGAAACAAAAAAAATCAGCACTCCGCATCCGAGAAAAAGACGGCGCGTTCGTTCTGACGTTAAAAGAGCCTGCCGCGGTCGGTCTGCTGGAAACCCATCAAGAGCTTGCGGCACCTGATCTTGACGTCTTCAAGATTCCGGAAGGCCCCGTCAAACGTCAGCTGGAAGGTCTCGGAATCAACTCAGAACACATTTGCTATTTCGGAACGCTGTCGACCGCACGCGCGGAAAAAGAATCAGAAAAAGGCTTAATCATTTTAGATCACAGCCGATATTTAGAGAAAGAAGACTTTGAATTGGAATTCGAAGCTGCTGACTGGGATGAAGGAAAACGGGGGTTTGAACAATTGCTCAAGCAATTCGGCATCCCAGAGCGGATCACGAAAAATAAAATCCAGCGTTTTTATGAACAGAAACAAAAAAAGGTGGAATGA	MTQEIEIEFKNLLTKSEFLKLSEALCMKEHDFKQQVNHYFDTKDFSLKQKKSALRIREKDGAFVLTLKEPAAVGLLETHQELAAPDLDVFKIPEGPVKRQLEGLGINSEHICYFGTLSTARAEKESEKGLIILDHSRYLEKEDFELEFEAADWDEGKRGFEQLLKQFGIPERITKNKIQRFYEQKQKKVE				NA	NA	NA	NA	NA
D1-12_00290	366			hypothetical protein	ATGCAAAAGAGAATTGAAATCCAAAATGCATCATTAACAGAAGACGCGCTCCGCTTGAAGTGCGGAGAGGACTTAAGCGGAGCGGAACGCAAAGCCTCAGGTCAAATGCTTGTTGATTCCGATCACTTTGCTTTTGTATACATACTTGAATCAGCTGACTCTTTTGAATATGTCATTATAAAAGAACATATCTGGCCGGATCTGAAAGAAGCCTTAGACCAAAGAAAGCCGGCGGTCCTTGAGGCCGGCGGAAAAACGGTTGAACTTTCAGGGCTGCATGAAGAACTCGATTATCTTCTTGAAAATATTAAAGATAATGCAAACTACGGAGATATGGAAGAAAAAGTGAAAAACGTATTTCTTTAG	MQKRIEIQNASLTEDALRLKCGEDLSGAERKASGQMLVDSDHFAFVYILESADSFEYVIIKEHIWPDLKEALDQRKPAVLEAGGKTVELSGLHEELDYLLENIKDNANYGDMEEKVKNVFL				NA	NA	NA	NA	NA
D1-12_00291	636	yjbM	COG2357	GTP pyrophosphokinase YjbM	ATGGATGACAAACAATGGGAGCAATTTCTAGCGCCATACCGCCAGGCTGTTGAAGAATTAAAGGTGAAGCTGAAAGGCGTCAGAACCCTTTATGAGTATGAAGATGACCACTCACCGATTGAGTTTGTGACAGGCCGCGTGAAGCCGGTGGCGAGCATACTTGAAAAAGCGAGACGAAAAAGCATACCGCTTCATCAGATTGAAACGATGCAGGATATCGCGGGGCTGCGTATTATGTGCCAATTTGTCGATGATATCCAGATCGTCAAAAATATGCTGTTTGCCAGAAAAGATTTTACCGTTGTCGATAAGCGGGATTACATAGCAGAGCATAAGGAAAGCGGATATCGGTCTTACCACCTTGTCGTTTTATATCCTTTACAAACAACGTCCGGTGAAAAGCACGTTCTTGTGGAAATACAGATTCGGACGCTTGCCATGAACTTTTGGGCAACCATTGAGCATTCACTGAATTACAAATACAGCGGGAACATTCCCGAAAAAGTAAAGCTGAGGCTGCAGCGGGCCTCAGAAGCCGCATCCCGGCTCGATGAAGAAATGTCAGAAATCCGCGGAGAAATCCAGGAAGCCCAAGCCGCGTTCTCGCGAAAGAAAAAAGCGGGAGACCACCAGTAG	MDDKQWEQFLAPYRQAVEELKVKLKGVRTLYEYEDDHSPIEFVTGRVKPVASILEKARRKSIPLHQIETMQDIAGLRIMCQFVDDIQIVKNMLFARKDFTVVDKRDYIAEHKESGYRSYHLVVLYPLQTTSGEKHVLVEIQIRTLAMNFWATIEHSLNYKYSGNIPEKVKLRLQRASEAASRLDEEMSEIRGEIQEAQAAFSRKKKAGDHQ	PGPT0014825_1404	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
D1-12_00292	801	ppnKA	COG0061	NAD kinase 1	ATGAAATTTGCCGTTTCTTCAAAAGGAGACGAGGTTTCAGATACACTGAAAAGCAAAATACAGGCGTATTTACTCGATTTTGATATGACCTTGGATGAAAAAGAGCCGGAAATCGTTATTTCCGTCGGCGGTGACGGAACGCTTCTTTACGCATTTCACAGGTACAGCGACCGTCTCGATAAAACGGCGTTTGTCGGAGTTCACACGGGGCATTTGGGTTTTTATGCCGATTGGGTTCCGCAGGAGATAGAAAAGCTCGTTCTGGCCATCGCCAAAACGCCGTATCATACCGTGGAGTATCCCCTTCTTGAGGTGATTGTCACTTATCATGATGAAGAGCGTGAGGAGCGGTATCTGGCTTTGAACGAATGTACGATCAAAAGCATAGAAGGCAGTCTCGTCGCTGACGTGGAAATTAAAGGCCAGCTGTTTGAAACGTTCAGGGGAGACGGTTTATGTCTGTCCACGCCTTCCGGAAGCACGGCTTATAATAAGGCGTTAGGCGGCGCAATCATCCACCCTTCCATCAGAGCGATTCAGCTTGCGGAAATGGCATCCATTAACAACAGAGTGTTCAGGACTGTCGGCTCGCCGCTTTTGCTTCCCGATCATCATAACTGTGTCATCAAACCGAGAAACGACGTCGACTTTCAAGTCACAATTGATCATTTAACCTTGCTGCATAAGGATGTCAAGTCCATTCTATGCCGTGTGGCAAATGAAAAAGTCAGATTTGCAAGATTCCGCCCTTTTCCGTTTTGGAAAAGGGTGCAGGACTCCTTTATCGGAAAAGGCGAATAG	MKFAVSSKGDEVSDTLKSKIQAYLLDFDMTLDEKEPEIVISVGGDGTLLYAFHRYSDRLDKTAFVGVHTGHLGFYADWVPQEIEKLVLAIAKTPYHTVEYPLLEVIVTYHDEEREERYLALNECTIKSIEGSLVADVEIKGQLFETFRGDGLCLSTPSGSTAYNKALGGAIIHPSIRAIQLAEMASINNRVFRTVGSPLLLPDHHNCVIKPRNDVDFQVTIDHLTLLHKDVKSILCRVANEKVRFARFRPFPFWKRVQDSFIGKGE	PGPT0013490_5449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
D1-12_00293	894			hypothetical protein	TTGGACAACTTTTTTATCCAAAAGAACATGACTGCCCGGGAAGCCGGCATGACGGTAAAAGAATATACGGCGCAGCTCGGCATTTCAAAGCGGCTACTCGCTGACATTAAATTCGGCGGGGGAGACCTGCTTGTGAACGGAGAGCATGTAACCGTCCGCACCGTGTTAGCGGACGGAGACGTGCTTAAGATTGAATTTCCGAAGGAGCATGTGAGTGAAACGCTTTTGCCTGAGCCGGTTCCGCTTGATATTCTTTATGAAGATGACCATGTGCTTGTGGTCAATAAACAGCCGTATGTCTCCTCAATTCCATCAAGAGAACACCCGTCGGGAAGCATCGCTAACGGAGTGATCAGCCACTACCGAAAAAGCGGCGTGCCATCAACGGTTCATCTTGTCACCCGCCTTGACAGGGATACATCGGGGGCGATGCTGATCGCCAAACATCGGCTTGCCCATTCTCTTTTATCGGCGGCGCAGAAGAAGGGGCTTGTCAGCAGGCGGTATCTCGCTGTCGTACACGGCATCATGCCACAGAAGGAAGGAACGGTGGACGCGCCCATCGGAAGAAAACACGACAGTATTATTGAGCGGATGGTAACGCCGGAGGGACAACGAGCGGTGACGCATTTTCAAACGGAAAAAGCGGGACATGCGTTTACGCTTGCAGCCCTGCGGCTGGAAACGGGGCGGACGCATCAAATCCGGGTGCACATGAGCTACCTCGGCCATCCGTTAGTCGGTGATACACTGTACGGCGGAAAAAATGAGGGAATTGCGCGGCAGGCTCTTCACAGTGAGCGGCTTTCATTCGTACACCCCATGACCGGAGAAACGCTCGTTTTTCACGCTCCGGTGCCTGACGATATGAAAACATTAATTGAACACATATAA	MDNFFIQKNMTAREAGMTVKEYTAQLGISKRLLADIKFGGGDLLVNGEHVTVRTVLADGDVLKIEFPKEHVSETLLPEPVPLDILYEDDHVLVVNKQPYVSSIPSREHPSGSIANGVISHYRKSGVPSTVHLVTRLDRDTSGAMLIAKHRLAHSLLSAAQKKGLVSRRYLAVVHGIMPQKEGTVDAPIGRKHDSIIERMVTPEGQRAVTHFQTEKAGHAFTLAALRLETGRTHQIRVHMSYLGHPLVGDTLYGGKNEGIARQALHSERLSFVHPMTGETLVFHAPVPDDMKTLIEHI				NA	NA	NA	NA	NA
D1-12_00294	750	prpE	COG0639	Bis(5'-nucleosyl)-tetraphosphatase PrpE [asymmetrical]	ATGGCTTATGACATCATCAGCGATATACACGGATGTTATGACGAAATGATCGCGTTAATGCAAAAGCTCGGATATGAAGTGAAAGACGGAACGCCCGTTCATTCTGAAGGCAGGACGCTTGTCTTTGCGGGGGATTTAACGGACAGAGGCCCAAAATCCGTAGAAGTGATGCGTTTTGCGGCAAAAGCATATGAAAAAGGAGCCGTCCGTTATGTCCCGGGAAATCATTGCAACAAACTGTATCGTTACTTAAAAGGAAACCCCGTAAAAGTGATGCACGGACTGGAAACGACGGCAGCCGAACTGAAAGAGCTGTCTCCCGCCGACAGAACGGAAGTCTCCAGACAATTCATCCGATTATATGAGTCAGCGCCGCTTTATGACATTTTACATAATGGCGATCTCGTTGTCGCCCACGCCGGCATAAAAGCTGACGATATCGGTAAATACTCGCGTAAGGTAAAAGAATTTGTTCTGTACGGCGATATCACGGGTGAAACGTATCCCGACGGCAGGCCCGTCAGAAGAGACTGGGCCGCCGCTTACGAAGGCAAGGCATGGATTGTTTACGGCCATACCCCGGTAAAACGCCCCCGGATCGTCAACCGTACAATCAACATTGATACAGGATGCGTCTTCGGGAATCAACTGACAGGCTTTCGTTTTCCGGAGCATGAAACCGTCTCTGTGGAAAGCTCAATGCCGTATGATGCTTCACGCTTTCGCGAGGATCACGGAAGGCAGGCATGA	MAYDIISDIHGCYDEMIALMQKLGYEVKDGTPVHSEGRTLVFAGDLTDRGPKSVEVMRFAAKAYEKGAVRYVPGNHCNKLYRYLKGNPVKVMHGLETTAAELKELSPADRTEVSRQFIRLYESAPLYDILHNGDLVVAHAGIKADDIGKYSRKVKEFVLYGDITGETYPDGRPVRRDWAAAYEGKAWIVYGHTPVKRPRIVNRTINIDTGCVFGNQLTGFRFPEHETVSVESSMPYDASRFREDHGRQA	PGPT0030420_665	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
D1-12_00295	1845	kefB		Glutathione-regulated potassium-efflux system protein KefB	ATGGAACACACATCAGTCGCATCTTTAGTCGTCGTTCTGATCGTTGCTTTTTTGACGCCGCTCCTTTTACATCGGTTTAAGCTCAGCATCCCCGTCGTCGTCGCGGAGATCATCATGGGGCTTATTATCGGAAAAAGCGGCCTGAATCTTGTCGTTCAGGGAGACACGTGGCTGGAGACGCTGTCGGTTCTCGGCTTTATCTTTTTAATGTTTTTAAGCGGATTGGAAATTGATTTTTCTTCATTTGAGAAAGGGAAGAAAAAACAATTCCTTCCGAATGGCAAGGAAGCGCCCAACACGTTTTCTGCCGCACTGATTATCTTTTTCGGCATCTTTATTTTATCATTGCTGCTGTCCTATGCTTTTGTATTAGCCGGTTTTATACAAAACGCATTTTTAATGACGCTTATTATTTCGACGATATCACTCGGCGTGGTGGTCCCGACTTTAAAGGAAGAACGGATCATGAACTCCAATATCGGCCAGATCATCCTGCTTGTCGCCGTTATCGCGGACTTGGCTACGATGATTCTGCTCGCTTTTTTCTCTTCTCTTTACGGAGAAGACAGCGGAAATATGTGGCTTCTGTTGATTCTTTTTGCCGCGGGGGTCGTGCTGTATTTCTTCGGCAGGATCTTTAAACACCGTTCATTTGTGCAGTCGATGTCTAAAGGCACCGTGCAGATCGGCACGAGAGCCATTTTCACACTGATTATCGTGCTTGTCGCTTTATCGGAATCTCTCGGGGCGGAAAATATTCTCGGCGCGTTTTTGGCAGGCGTTCTGGTATCGCTTCTGTCTCCGAATAAAGAAATGGTGGAACAGCTGGATTCATTCGGCTACGGGTTTTTAATTCCGATCTTTTTCGTCATGGTCGGGGTGAAATTGGACATTTGGACGCTTTTCCAAGATCCGAAAACAGTAACGATGATTCCGCTGCTTCTGCTTGCGCTGTTTATCAGCAAAATGTTCCCGGTGTTTTACTTAAAGAAATGGTATGACAAAAGAACCGTGTTTGCTTCGGGCTTTTTGCTGACGTCCACGCTGTCGCTTGTTATCGCGGCGGCTACGATCGGAGAAAGGCTCCACATTATCAGCGCCAATATGTCCGGCGCGCTGACTTTAGTTGCGGTTATTGCCAGCATCATCACGCCGATCGGCTTTAAGAAATTATACAAACGGCAAAGTGCGCCGCAGGAAAAAAAGCGCATTACATTTATCGGCGCCAACCAAATGACACTTCCGGTTACGCTGGAACTGCCTGAGGAGGAATATGAAGTACGGGTCGTCCATGTGTATCAGGAAAATGCCGGGGAAACGCTTGCGGAATCGGTTTTTTCGGTTGACACGATTTCTGATTACGAGCCCGGCACGCTTGAGTCGCACGGTATTTTCAAAACGGATATTCTTGTCGTGGCGACGGGAAATGAAGATGTGAACGCTGAAATCGCCTTAATAGCGAAAGAGAAAGGGACTGAGCGTATCATCGCAAGCGTCGGCTCGGTTGAGCATGAAACAAAACTGAAAGAAGAGGGCATCAGTATTTTTTCTATCCTTCTGTCTACAAAGACGCTCTTGCGCGCATTAATTGAGGCGCCGGGCGTGATGAGCCTCCTGACGAATGACGAGTCTTCGTTATATCAGATCAATCTGGAAAACCCGGCGTATAACGGCATCATTCTGCGGGAATTTCCGCTGATGGGCGATGTGATTTTCGTCCGGATTTTCAGAGGTGTGGACAGCATCGTTCCGCACGGAGACACGCGGCTGAAAACAGGAGACCGCCTCATCGTCACGGGCTCGCGCAACTACGTGTCGGAACTGAGAAAAATCCTTGAAGCTTGA	MEHTSVASLVVVLIVAFLTPLLLHRFKLSIPVVVAEIIMGLIIGKSGLNLVVQGDTWLETLSVLGFIFLMFLSGLEIDFSSFEKGKKKQFLPNGKEAPNTFSAALIIFFGIFILSLLLSYAFVLAGFIQNAFLMTLIISTISLGVVVPTLKEERIMNSNIGQIILLVAVIADLATMILLAFFSSLYGEDSGNMWLLLILFAAGVVLYFFGRIFKHRSFVQSMSKGTVQIGTRAIFTLIIVLVALSESLGAENILGAFLAGVLVSLLSPNKEMVEQLDSFGYGFLIPIFFVMVGVKLDIWTLFQDPKTVTMIPLLLLALFISKMFPVFYLKKWYDKRTVFASGFLLTSTLSLVIAAATIGERLHIISANMSGALTLVAVIASIITPIGFKKLYKRQSAPQEKKRITFIGANQMTLPVTLELPEEEYEVRVVHVYQENAGETLAESVFSVDTISDYEPGTLESHGIFKTDILVVATGNEDVNAEIALIAKEKGTERIIASVGSVEHETKLKEEGISIFSILLSTKTLLRALIEAPGVMSLLTNDESSLYQINLENPAYNGIILREFPLMGDVIFVRIFRGVDSIVPHGDTRLKTGDRLIVTGSRNYVSELRKILEA	PGPT0014395_1408	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
D1-12_00297	711	tenA	COG0819	Aminopyrimidine aminohydrolase	ATGATGACATTTTCTGAAGAATGCAGACAGGCGGCTGCCGAATGGTGGGACGGAAGTTTTGTTCATCCGTTTGTAACGGGAATCGGTGACGGAAGCCTGCCGATAGACCGTTTCAGCTATTACGTGCTGCAAGATTCCTACTATTTGACGCATTTTGCAAAAGTTCAGGCGTTCGGCGCCGCATATGCCGAAGACTTGTTTACGACGGGCAGGATGGCGGGCCACGCTCAAGGGACATATGAAGCGGAAATGGCGCTGCACCGCGAGTTTACGGAGCTTTTAGGGATTACGGAAGAAGAGCGTGCGGCATTTAAACCGGCACCGACCGCCTATTCTTATACGTCTCATATGTACAGATCGGTGATGAGCGGCAATTTTGGAGAAATATTAGCTGCGCTTCTGCCCTGTTATTGGCTATATTATGAAGTCGGCGAACACTTAAAAGAGTGCAAACCGGAGCATCCGATTTATGAAAAATGGATCGGTACATACGGCGGAGACTGGTTCAGACAGCAAGTCGAAGAACAAATCAGCCGTTTCGACGAGATTGCTGAAAACAGCACAGAGGACATCCGCGCGAAAATGAAAGAGAATTTTGTGATTTCAAGCTATTATGAATATCAATTTTGGGGAATGGCCTATCAAAAAGAAGGCTGGTCCGAGAAGGGCGGAAAAGAGGTGGAATCCTTTGGAGCTGCACGCGGTAACTGA	MMTFSEECRQAAAEWWDGSFVHPFVTGIGDGSLPIDRFSYYVLQDSYYLTHFAKVQAFGAAYAEDLFTTGRMAGHAQGTYEAEMALHREFTELLGITEEERAAFKPAPTAYSYTSHMYRSVMSGNFGEILAALLPCYWLYYEVGEHLKECKPEHPIYEKWIGTYGGDWFRQQVEEQISRFDEIAENSTEDIRAKMKENFVISSYYEYQFWGMAYQKEGWSEKGGKEVESFGAARGN	PGPT0009055_157	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009055-tenA-K03707	NA	NA
D1-12_00298	618	tenI	COG0352	Thiazole tautomerase	TTGGAGCTGCACGCGGTAACTGATAATCGCAAACCCGTTGCCGAGCTGGCCGAGGATATTCTTTCGATTCAGCGCGAAGTAAGCTTTATCCATATCCGTGAGCGGGATAAAACAGCGGGAGAGATCATGCAGCTTTTGTCCCTTTTGAAAAAGGGCGGTGCGGATAAGGACAAATTGATTATCAATGACAGGGCGGATATCGCGCTTTTTGCCAACATACACCGTGTTCAGCTTCCGTCCCGCAGCTTTTCCGTAAAGCAGGTGCGAAGCAGATTTCCCCATCTTCATATCGGACGTTCGGTTCATTCGCTGAAAGAAGCCATCCAAGCTGAAAAGGAAGATGCGGATTATGTGGTGTTCGGCCATGTATTTGAAACCGAATGTAAACAAGGACTTGAAGCAAGAGGCATCAGCCTGCTTTCAGAGATCAAACGCACGCTTTCCATCCCCGTCATCGCAATCGGCGGAATGACAATGCAGACGATCGGACACACAAAGCAGGCGAAACCGGACGGAATTGCCGTCATGTCAGGTATATTCTCAGCTGAAAATCCTGAGGAGGCGGCAAAACGGTATGCACGCGCGGTAAGGGAGGCCGATTATGAAGAAGCACTATGA	MELHAVTDNRKPVAELAEDILSIQREVSFIHIRERDKTAGEIMQLLSLLKKGGADKDKLIINDRADIALFANIHRVQLPSRSFSVKQVRSRFPHLHIGRSVHSLKEAIQAEKEDADYVVFGHVFETECKQGLEARGISLLSEIKRTLSIPVIAIGGMTMQTIGHTKQAKPDGIAVMSGIFSAENPEEAAKRYARAVREADYEEAL	PGPT0008975_107	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008975-tenI-K10810	NA	NA
D1-12_00299	1110	thiO_1	COG0665	Glycine oxidase	ATGAAGAAGCACTATGATACAGCGGTGATCGGCGGCGGAATTATCGGGTGCGCCATTTCTTATGAGCTGGCGAAGACGCAGCAGAACGTTGTCTTGTTTGAAGCCGGAGAAGTCGGCCGAAAAACGACAAGCGCTGCCGCGGGAATGCTGGGCGCTCATGCGGAATGTGAAAACCGGGATGCGTTTTTTGATTTTGCCATGCACAGTCAAAGGCTGTATGAAGCGGCGGGGCAAGAGCTTGAGGAAGCTTGCGGCATTGACATCAGGCGCCATAACGGCGGAATGCTTAAACTGGCGTATACCGAAGAAGATATCGCCCGTCTACGGAAGATGGATGATCTGCCTTCCGTCACCTGGCTTTCAGCGGAAGATGCCCTTGAAAAAGAGCCTTACGCTTCAAAAGACATTCTCGGCGCAAGTTTTATAAAAGACGATGTCCATGTCGAACCGTACTATGTCTGCAAAGCGTATGCAAAAGGAGCGCGGCGCTATGGCGCTCACATATATGAGCATACACAAGTCACCTCCGTAAAACGGGTGAACGGAGAATATTGCATCACAACATCCGGCGGGGATGTCTATGCTGACAAAGTCGCAGTTGCAAGCGGTGTATGGAGCGGCCGGTTTTTCAGCCAGCTCGGCTTGGGACAGCCTTTTTTTCCTGTGAAGGGAGAATGCCTTTCCGTGTGGAATGACGATACCCCGCTGACCAAAACCCTTTACCATGATCATTGTTATGTCGTCCCGAGAAAAAGCGGCCGGCTTGTCATCGGCGCCACGATGAAACAGGGCGACTGGAGCGATACGCCTGACATCGGAGGAATTGAGGCCGTCATTGCAAAAGCGAAAACCATGCTTCCCGCCATCGAACATATGAAAATAGACCGGTTTTGGGCGGGTCTCAGGCCGGGAACAAGAGACGGAAAGCCGTTTATCGGGCGGCATCCTGAAGACAGCGGCATCATCTTCGCCGCCGGCCATTTTCGGAACGGCATCCTGTTGGCGCCGGCAACGGCTGAAATGGTGCGGGATATGATCCTGGAAAGACAGATTAAACAGGAATGGGAAGAAGCGTTTCGAATTGATCGCAAGGAGGCTGTTCATATATGA	MKKHYDTAVIGGGIIGCAISYELAKTQQNVVLFEAGEVGRKTTSAAAGMLGAHAECENRDAFFDFAMHSQRLYEAAGQELEEACGIDIRRHNGGMLKLAYTEEDIARLRKMDDLPSVTWLSAEDALEKEPYASKDILGASFIKDDVHVEPYYVCKAYAKGARRYGAHIYEHTQVTSVKRVNGEYCITTSGGDVYADKVAVASGVWSGRFFSQLGLGQPFFPVKGECLSVWNDDTPLTKTLYHDHCYVVPRKSGRLVIGATMKQGDWSDTPDIGGIEAVIAKAKTMLPAIEHMKIDRFWAGLRPGTRDGKPFIGRHPEDSGIIFAAGHFRNGILLAPATAEMVRDMILERQIKQEWEEAFRIDRKEAVHI	PGPT0008955_956	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
D1-12_00300	204	thiS	COG2104	Sulfur carrier protein ThiS	ATGATCCTTCAGCTGAACGGAAAACAAATTGATTGGAATCGAAATGAGGGGACGGTTCAGGATTTGCTTGAATCGTACCAGCTTGATCAAAGAATCGTAGTTGTGGAGAGAAATAAAGAAATCATTGAAAAAAAGAATTATGAAAATACAAGTTTGTGTGACCGCGATGTCATAGAAATTGTCCATTTTGTAGGAGGCGGATGA	MILQLNGKQIDWNRNEGTVQDLLESYQLDQRIVVVERNKEIIEKKNYENTSLCDRDVIEIVHFVGGG	PGPT0008970_1203	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
D1-12_00301	765	thiG	COG2022	Thiazole synthase	ATGTTAACAATAGGCGGAAAACAGTTTCAGTCAAGATTGCTGTTAGGAACGGGAAAATATCCGAGTTTTGAGATTCAGAACGAGGCGGTGGCTATCTCGGAATCAGATATTTTAACCTTTGCGGTGCGGCGGATGAACATCTTTGAAGAGTCTCAGCCTAACTTTCTCGAACAGCTTGATTTGTCTAAATACACGCTTCTGCCGAATACGGCCGGTGCCGCAACGGCTGAAGAGGCGGTCCGAATCGCAAGGCTTGCCAAAGCTTCAGGGCTTTGTGACATGATAAAAGTAGAAGTCATCGGATGCAGCCGGTCACTTTTGCCTGATCCGGTTGAAACGCTGAAAGCATCAGAACAGCTGCTCGAAGAGGGATTTATCGTGCTTTCGTATACGTCAGACGATGTCGTGCTCGCAAGACGTCTTGAGGAGCTCGGAGTGCATGCCATTATGCCGGGCGCTTCTCCGATCGGTTCCGGTCAGGGAATTTTAAATCCGCTGAATCTTTCCTTTATCATTGAACAGGCGAAGGTGCCGGTCATTGTCGATGCCGGCGTCGGATCTTCAAAAGACGCCGCCTACGCGATGGAGCTCGGGGCTGACGGCGTGCTGTTAAATACCGCTGTGTCAGGCGCTGATGATCCGGTCAAGATGGCCAGGGCGATGAAGCTTGCCGTAGAAGCGGGCCGCCTTTCTTATGAAGCCGGGAGAATTCCGGTGAAAGATTACGGAACTGCAAGCAGTCCGCGAGACGGTCTTCCGGTATGA	MLTIGGKQFQSRLLLGTGKYPSFEIQNEAVAISESDILTFAVRRMNIFEESQPNFLEQLDLSKYTLLPNTAGAATAEEAVRIARLAKASGLCDMIKVEVIGCSRSLLPDPVETLKASEQLLEEGFIVLSYTSDDVVLARRLEELGVHAIMPGASPIGSGQGILNPLNLSFIIEQAKVPVIVDAGVGSSKDAAYAMELGADGVLLNTAVSGADDPVKMARAMKLAVEAGRLSYEAGRIPVKDYGTASSPRDGLPV	PGPT0008965_2648	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
D1-12_00302	1011			hypothetical protein	ATGACGGACAGATATTCCAGACAGGAGCTGTTTCAGCCGATCGGTCCCTCAGGCCAAGAGAAGCTCCGGTCGTCTCATGCCGTGATTATCGGCGCGGGTGCGCTTGGGACGGCAAGTGCGGAGATGCTTGTCAGAGCAGGGGTCGGGAAGGTAACGATCGCTGACAGAGATTATGTGGAGTGGAGTAATCTCCAGCGCCAGCAGCTTTATACCGAAGACGATGTCAGACAGGAAATGCCGAAAGCCGCGGCGGCTGAAAAACGGCTTCGATCCATAAATAGTGATGTAGAGGTCGAGGGATTTGTCATGGATGTCACTGCGGAAAACGCACCCGGATTGATTCGTGACGCCTCTCTCATCGTGGATGCCGCCGACAACTTTGAAACGAGACTGATTGTGAATGATGCGGCTGTGCAGAAAGGGATTCCCTTTCTGTACGGCGCCTGTGTCGGCAGCTACGGGCTCTCTTTTACCGTCATTCCCGGTGTCACGCCGTGCCTTCACTGTCTGCTTGAGACATTGCCTTTAGGCGGTATGACATGCGATACGGCGGGAATCATCAGCCCGGCTGTATTGCAGACGGCCGTTTTTCAGGCAGCAGATGCGCTGAAGCTGTTAACGGGCGGATCTATCGAGCATGTTCTCCGTTCCTTTGATTTATGGAAAAATGAACGGTCAGAAATAAACGTCGCCCGTCTTAAGTCGGCTGATTGCCCAAGCTGCGGCACAAACGATTTTCCGTTTTTATCCTATGAAAATCAGACAAAAGCGGCGGTTCTGTGCGGGCGGAACACGGTGCAGATCAGAACGGGGATCTCCGAACAGTTTGATCTGCAAAAACTTGCGGGACAGCTCAGACGGACAGGGCTTGATGTTTCAGCCAACCCGTATTTAATTTCGTTTTGCACAGACAAGTTCAAGATGGTTCTGTTTCGTGACGGCAGAGCATTAATACACGGCACAAGTGATATCAGCAGAGCGAAATCTTTTTATCATAAATGGATCGGATAA	MTDRYSRQELFQPIGPSGQEKLRSSHAVIIGAGALGTASAEMLVRAGVGKVTIADRDYVEWSNLQRQQLYTEDDVRQEMPKAAAAEKRLRSINSDVEVEGFVMDVTAENAPGLIRDASLIVDAADNFETRLIVNDAAVQKGIPFLYGACVGSYGLSFTVIPGVTPCLHCLLETLPLGGMTCDTAGIISPAVLQTAVFQAADALKLLTGGSIEHVLRSFDLWKNERSEINVARLKSADCPSCGTNDFPFLSYENQTKAAVLCGRNTVQIRTGISEQFDLQKLAGQLRRTGLDVSANPYLISFCTDKFKMVLFRDGRALIHGTSDISRAKSFYHKWIG	PGPT0008935_141	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
D1-12_00303	813	thiD_1	COG0351	Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGAGCATATGCAAAGCATTGACGATTGCCGGATCAGATTCAGGAGGCGGCGCCGGTATACAGGCGGATCTCAAAACCTTTCAGGAGCTCGGCGTTTTCGGGATGTCAGCCATTACAGCGGTAACCGCCCAGAACACTTTGGGCGTTCACGGCATTTATCCGCTCACCCGGGAAGCGCTGGGCAGCCAGATTGACGCGGTGGCGGAAGATTTGCGGCCTGACGCTGTAAAAACGGGAATGCTGTGGAGCGCGGAAATGATTGCGGAAATTGCGGAAAAAACGGATCAGTACGGGCTTGATCATGTCATCACCGACCCCGTCATGATTGCCAAAGGAGGCGCTTCCCTGCTGCGTGAGGAATCTCAGGCCGCGTTAAAAGAGCTGTTAATTCCGCGCAGCTATGCGGTGACGCCGAATGTTCCGGAAGCTGAGGTATTGACGGGAATGGAAATCCGAACGTTTGAGGACCGGAAAAAAGCGGCCGAATGCCTTTGCAAGCTTGGTGCAAAGCATGTCATCATAAAAGGCGGACATCAGCCTGAACAGGGGAGAATCGTTGATTTATTATTTGACGGTTCGTCTTTTACCCAAATCAGCCACGCTTATATTGACACCAAACACACCCACGGAACAGGCTGCACGTTCGCAGCCGCGCTGACGGCGGAAACGGCAAAGGGGAAAAACATTCAGACCGCGTTTGAGACAGCCGTCAATTTTGTGCGGGAAGCCGTGGAACATACGCTCGGCATCGGAGAGGGACACGGCCCGACCAATCATTTTGCCTTTAAAAGGAACAGTCTGCAGACGAGATAA	MSICKALTIAGSDSGGGAGIQADLKTFQELGVFGMSAITAVTAQNTLGVHGIYPLTREALGSQIDAVAEDLRPDAVKTGMLWSAEMIAEIAEKTDQYGLDHVITDPVMIAKGGASLLREESQAALKELLIPRSYAVTPNVPEAEVLTGMEIRTFEDRKKAAECLCKLGAKHVIIKGGHQPEQGRIVDLLFDGSSFTQISHAYIDTKHTHGTGCTFAAALTAETAKGKNIQTAFETAVNFVREAVEHTLGIGEGHGPTNHFAFKRNSLQTR	PGPT0008915_2043	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
D1-12_00304	777	fabI	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGAATTTCTCACTTAAAGGCCGCAACATCGTTGTGATGGGCGTTGCCAATAAACGCAGTATCGCATGGGGAATCGCCCGTTCGCTGCATGAAGCCGGAGCGCGCCTCATTTTCACTTACGCGGGAGAGCGCTTGGAAAAATCAGTTCATGACCTTGCGGCTACATTAGAAAGAAATGATTCCATCATCCTTCCGTGTGATGTGACAAATGACGCTGAGATCGAAACTTGCTTTGCGAGCATTAAAGAGCAGGTCGGCGTGATTCACGGCATCGCGCACTGCATCGCGTTCGCAAACAAAGAAGAGCTTGTCGGCGAATATTTAAATACGAACCGCGAAGGATTCCTGCTTGCGCATAACATCAGTTCTTACTCTCTGACAGCGGTCGCAAAAGCGGCGCGTCCGATTATGACTGAAGGTGGAAGCATCGTTACACTCACTTACCTCGGCGGAGAGCGCGTCGTTTCAAACTATAACGTAATGGGTGTGGCAAAAGCGTCCCTTGATGCGAGCGTCAGATATTTAGCCGCTGACTTAGGAAAAGAAAACATCCGCGTCAACAGCATTTCAGCAGGACCGATCCGTACGCTGTCTGCAAAAGGAATCAGTGATTTCAACTCTATCCTGAAAGAAATTGAAGAGCGCGCGCCGCTGCGCCGCACGACAACACCTGAAGAAGTGGGCGACACGGCTGCATTCTTGTTCAGTGACCTGTCAAGAGGCATCACGGGCGAAAATCTTCACGTTGATTCAGGATTCCATATTACCGCACGTTAA	MNFSLKGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHDLAATLERNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNREGFLLAHNISSYSLTAVAKAARPIMTEGGSIVTLTYLGGERVVSNYNVMGVAKASLDASVRYLAADLGKENIRVNSISAGPIRTLSAKGISDFNSILKEIEERAPLRRTTTPEEVGDTAAFLFSDLSRGITGENLHVDSGFHITAR	PGPT0008370_2887	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
D1-12_00305	609			hypothetical protein	ATGTCAAAACAAAACAGAAACGCGGAAAAAAAACCGCTCATGTATATTGTTCAGGCGGATTATTCAGACACGCAATCATCAATGCAGGACATATTAATCAAAAAAAGGAAAGCGCCTCAGCCGCCGGAAGAAGAGCCGATGCATGAAAAGCGGGAGGAAGAATGTAAATCTCAGCCTGAAGGAGCAGCGGCTGTCGAACCAGAAAAGCAAGTGCCTGAACAGCACAGCCGCGCAGAAGAAGCCGTTCAAGAAGTTCCGGCGCAAGCGGAGCAGGACACTGCCAAGCCTGACGCCGCTGAAAAAGAGCCTGATACCGCTGAAAAAGAGCCTGAAGCGGTTCACAATGCCGCCCCAGAGGAAAAGGTTCCGCCAAAGCGCGTGAAAAAGCCGATGAGCAGAATGTCCATTCTTGAAAAAATTGATTTCTTAACGAAGCTGCCGCATAATATGCCGCGGACCCTTTGTCTGATAGAAGCCAACGGGAAAACCTACAGAGGCGTAATCGTCGGCAGAAAAAATAATGCGATCTTCCTGCGGACGACAAGCAACGGAGCGCCGGCAGAACTCGCAATAGACGATATTACCTCGCTGCATCCGCTTGGATTTTAA	MSKQNRNAEKKPLMYIVQADYSDTQSSMQDILIKKRKAPQPPEEEPMHEKREEECKSQPEGAAAVEPEKQVPEQHSRAEEAVQEVPAQAEQDTAKPDAAEKEPDTAEKEPEAVHNAAPEEKVPPKRVKKPMSRMSILEKIDFLTKLPHNMPRTLCLIEANGKTYRGVIVGRKNNAIFLRTTSNGAPAELAIDDITSLHPLGF				NA	NA	NA	NA	NA
D1-12_00306	444	cotZ		Spore coat protein Z	ATGAGCAAGCATACAACATACTGTGTGCGTGAAGCGGTAGAAAATATTGAAGACCTGCAAAATGCGGTTGAAGAAGATTGCCCGACAGGCTGTTATTCTAACCTTTTATCTCCGGCTTATACATTAGGCGATACAGTGCCGTTCGCCATCTTCACCTCAAAATCGAAACCGTTCACCGCATTCGGAAACGTCGGCGAGCTGGATAACGGTCCGTGCTTTAATACCGTTTTTTTCAGAGTTGAAAGGGTCTGTGACGGCTGTGCCACATTAAGCCTGCTTATTGCTTTTGACGAGCATAAGCACATTCTTGATTTTACAGATAAAGACTCTCTCTGCGATGTATTCCGTTTAGAAAAAACGAACTATTGCGTTGAAGTCGATCTCCATAGCTTCTGCGCCATCAATTGCCTGAACCCGAGACTGATCAACCGCACACATTCTTAA	MSKHTTYCVREAVENIEDLQNAVEEDCPTGCYSNLLSPAYTLGDTVPFAIFTSKSKPFTAFGNVGELDNGPCFNTVFFRVERVCDGCATLSLLIAFDEHKHILDFTDKDSLCDVFRLEKTNYCVEVDLHSFCAINCLNPRLINRTHS	PGPT0025235_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025235-cotZ-K06344	NA	NA
D1-12_00307	483	cotY		Spore coat protein Y	ATGAGCTGCGGAAAACACCATGGCCGAGATGAAAGTTGTGTATGCGATGCAGTCGAGAAGATTTTAGCAGAACAAGAGGCTGTTGAAGAACAATGCCCGACTGGATGCTATACCAATCTGTTAAGCCCGACGGTTACCGGTAAAGATACCATCCCGTTTCTCTTGTTTGATAAAAAGGGCGGTTTGTTCTCCACATTCGGGAACGTCGGAGGATTTGCGGATGACAGCCAGTGCTTCGAGTCTATTTTCTTCCGGGCAGAAAGAGTTTGTGATTGCTGCGCAACGCTTTCAGTATTGCGCCCCGTAGATGTGCACGGCGACACCCTCAGCGTCTGCCATCCTTGTGACCCGGATTTCTTCGGTTTAGAAAAAACAGATTTTTGCATTGAAGTTGATCTGAGCTGCTTCAGCGCCATTCAGTGCCTGTCACCCGAGCTTGTTAACCGGCCTGCGCCGCACAAAGAGAAAAAGCATCACGGATAG	MSCGKHHGRDESCVCDAVEKILAEQEAVEEQCPTGCYTNLLSPTVTGKDTIPFLLFDKKGGLFSTFGNVGGFADDSQCFESIFFRAERVCDCCATLSVLRPVDVHGDTLSVCHPCDPDFFGLEKTDFCIEVDLSCFSAIQCLSPELVNRPAPHKEKKHHG	PGPT0025230_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025230-cotY-K06343	NA	NA
D1-12_00308	501	cotX		Spore coat protein X	ATGGAAAGCAGACCATACTCTTGGGTTGCACTTGATCCTGAATGCGAACATCCGCGAGAAGAAAAAGAAGAAAAAGAAGGCAGAAGATGCAGTGTTTGCTGTAACGGAAACGGATTCGGCGAAGATAACGCCTTCCTTGACCAAGACCTTGCTCAAGCGAATCTCAACAAACAAGTTTCTGAAGAAGCGATTATTATCAGAGACTCTTGTGATATCAACGTAACGTCAACAGACGTTCAAGCAGTCGCTTCAGTCATGACAGCGATTAATGCAGCAGTCGTAACGGCCACTCTCACTTCAATCGCTGACGGAGTCATCGCTGAATTGGTCGCACAAGACTTATTGCAGCTAACAGCTAACAAACAAATCAACCGTCAAAAACTGCTCATCGAAAACTCCCGCGGCGTAAACGTGACAACAGTAGATGCCGATATCGCAGTATTGATCTCAACAGCGACAAATTTACTGATTGCTGTCTTAGTCATCACCCTTGTCCTCTAA	MESRPYSWVALDPECEHPREEKEEKEGRRCSVCCNGNGFGEDNAFLDQDLAQANLNKQVSEEAIIIRDSCDINVTSTDVQAVASVMTAINAAVVTATLTSIADGVIAELVAQDLLQLTANKQINRQKLLIENSRGVNVTTVDADIAVLISTATNLLIAVLVITLVL	PGPT0025225_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025225-cotX-K06342	NA	NA
D1-12_00309	315	cotW		Spore coat protein W	ATGGCAGATAACGAAAAATTAAAAAAAGAACTCGAAAATCTACCAGAAGTGGATCCGCTTTTAAAGGTGCTTGTCAGCAATGTCTTCAAAAAACACGGCGTGACAAAAGATAAAATGCGGGAAATACCTGATGAAGAAAAAGAAATGCTGATCGCATTAGTCAAAGACATGCAGGCAAAAACAGAAGCTTTTCTTGAAAGCCAGAAACAGAAAAAAGAGCAGGAAAAAGCGCAAGATCAGCAGACCAATCCGCAAACCCGCAGAGAACAATTAATCGAACAGCTCCGGCAAAGACGCCAAAATCCCGGTCAATAA	MADNEKLKKELENLPEVDPLLKVLVSNVFKKHGVTKDKMREIPDEEKEMLIALVKDMQAKTEAFLESQKQKKEQEKAQDQQTNPQTRREQLIEQLRQRRQNPGQ	PGPT0025220_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025220-cotW-K06341	NA	NA
D1-12_00310	387	cotV		Spore coat protein V	ATGTCGTTTGAAGAAAAAGTCGAAACACTGCAACCGCAAATATACGAACAATTATCCAACGAATTCGAGCAGACGATCGAAGTGATTGATTGCGAAAATGTCACAATAGATACAACACATATAACGGCCGCTCTTTCTATACAAGCCTCAGTTACTACGGCGATTATCCTTGCGACACAGCTCGCGATCGCAGATGAAGACACAGCCGACCAAATAGCAACCGAACTGCTGATCCTGGATGATTGCCAAATAAAAAAGAGGACCGTCATTCAAGTCCTGAACAGCCGCAATATTAAAATCACACTGACTGCAGACGATATTATGGCCTTTGTACAAATTTTGTTTCAATTATTAAATATACTTTTTGCTGAACTAGACATCCTTTAA	MSFEEKVETLQPQIYEQLSNEFEQTIEVIDCENVTIDTTHITAALSIQASVTTAIILATQLAIADEDTADQIATELLILDDCQIKKRTVIQVLNSRNIKITLTADDIMAFVQILFQLLNILFAELDIL	PGPT0025215_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025215-cotV-K06340	NA	NA
D1-12_00311	357	yjcA		Sporulation protein YjcA	GTGGTTATCAATTGGCTTTCATTTATTCTGTTATCGTTTGCCGTTTTCCGGCTGGCCAGGCTTTTCGTATTTGACACCATTATGGCGCCGCTTCGGAGCCTTTTTCACGAGGAAAAAACAGAAACCGCACCAGACGGCACGACAGAAACCTACATTGTCATAAAAGGAAAAGGCATCAGGGCATTTATCGGTGAACTTCTCAGCTGCTATTGGTGTACGGGCGTATGGTGCGCCGCCTTTTTAATTGCGGCGCAGATTGTGGTACCCGAGGCTGCGCAATGGCTGATTTTGCTGTTAGCCATAGCCGGCGCGGCCGGGATCATTGAAGCTGCGGTTTCTCGTCTTCTGCAGGAATAA	MVINWLSFILLSFAVFRLARLFVFDTIMAPLRSLFHEEKTETAPDGTTETYIVIKGKGIRAFIGELLSCYWCTGVWCAAFLIAAQIVVPEAAQWLILLLAIAGAAGIIEAAVSRLLQE				NA	NA	NA	NA	NA
D1-12_00312	120			hypothetical protein	ATGAATCAATCAAGCAACCCTTCCCAACATTCTCCATACAAATCAACTGTGCATCAGCCTTACGAAAAAAAAATTAAGAAAAAAGGCTGCGGCTGCGGCCAAAAGAAAAAACCGAAATAG	MNQSSNPSQHSPYKSTVHQPYEKKIKKKGCGCGQKKKPK				NA	NA	NA	NA	NA
D1-12_00313	198			hypothetical protein	ATGAATATATTTGAATCATTCATAAACGGTAAATACCGCCGGCACAATCAAAACCAGCGGGAGCATGACAAATATATCTTATCTATTGAAAAACAGCTGTCTGAGTTTGATGAAGCGGGATCGCGCTTTGAGGAATGGATAGATGTGTTTGCCGCCGAAACAGAAGCAAAACTGAAGAAAAATGAGCATTCTCATTAA	MNIFESFINGKYRRHNQNQREHDKYILSIEKQLSEFDEAGSRFEEWIDVFAAETEAKLKKNEHSH				NA	NA	NA	NA	NA
D1-12_00314	162			hypothetical protein	ATGGGATTCGGATATGGCGGATTCGGCGGCGGCTACGGCGGTTATGGCGGCTGCGGCGGATACGGAGGCGGCTATGTCGGAGGCGGATACGGCTCAACATTTGTTCTTGTTGTCGTATTGTTTATCCTTCTGATCATTGTCGGTGCATCCTTTTTTGGCTAA	MGFGYGGFGGGYGGYGGCGGYGGGYVGGGYGSTFVLVVVLFILLIIVGASFFG	PGPT0024985_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
D1-12_00315	255			hypothetical protein	ATGGATAATCAATTTTTCAAAAATATTGAGAAGAAAACAGGCGTCAGCATGAAGGATGTCATGAACCTTGCAGGATCATTGCAAAATGCCAATTTCAAAGATGAAAACACGGTGAGAGGCGTCATTCAGAAGGTGTCCCAGCTGGCTAACAAGCGTGTTCCGAAAGAATTGGAAGACAAAATCGTTCAATCTATTACAAGCGGTAAAGAGAAACTTGATTTTGGCACCATTTCTAAAATGCTGAACAATAAATAG	MDNQFFKNIEKKTGVSMKDVMNLAGSLQNANFKDENTVRGVIQKVSQLANKRVPKELEDKIVQSITSGKEKLDFGTISKMLNNK				NA	NA	NA	NA	NA
D1-12_00316	2286	yjcD	COG0210	Putative ATP-dependent DNA helicase YjcD	TTGAAATGCGCCCGAATGAATAACCGAACGATACATTTACATACATATTCTAGAGAACATTACCAATTCCTTTTTGAAGAAGCTCAGAAAGGAAATATTTTTTGCGCACATTGTGACCAGCCCGTCTTGATGCGGCTTTCGATTTTAAAGCAGCCGGCATTTTATCACCGGCAAAAGGGAGACTTCACCGCCTGTGAAAAAGCATGCGCGGCCGAGGAACCGCAAGCGGAGAAAGAAAAAGAAGAGTATAAGGAAGCCGGCATGTTCCGCCTGCCGAAAGGAAAAGCGATTTCAGAGAATCCGAAACCGATCGTCTCAGAATGGAAAAGCCCGAAAAAAGTGCCTGCGGCCGAACCGTTTTCACCAACATCCGAGTCGGCTGATACATCTTTGTTCCCCGGCATCGGCCTGAACCGTGAACAGATGAAGGCAGTTACTGAAACGGACGGGCCTTTGTTAGTGCTTGCCGGAGCGGGAAGCGGAAAAACAAGGGTGCTGACAGCACGCGCCGCCCATATGATTGAACACCTCGGCATTTCACCTGAGAATATGCTGCTTGTGACCTTTACGACAAAAGCCGTCGCCGAAATGAAAGAGCGGATGGCGAATGAGTACGGTCTGGCAGCCGGAAAAGTCTCCCGTCTCGTGACCGGAACATTCCACAGCTTTTTCTATAAAATACTCTATCACTATGATTCTTCAAAATGGAACGGCAGCCAGCTTTTAAAAATGGAGTGGCAAAAAGAGCAATATGTGAAAAAGGCGCTCTATGAAGAAAATTTGGATGAAAAAGAGTTTCCCGTCGACCAGGCGCTTCAGCTTATCGGCTGCTGGAAAAACACGTATCTCCCCCATGAGACCATTCCGCTTGCGGACGACTGGGAGAAAAAAGTGTACAGGCTCTACGAACATTACGAACGGCAAAAGCGGGAAAAACGGCAATTTGATTTTGATGACATGGCCCAAGGCTGTTATGAACTGTTTCAAAGCCGGCCTGATATTCTCGCACAGTACCAAAACAGATTTTCTCATATTTTGATTGATGAGTTTCAAGATATCAATCCTGTCCAGTACAACATTATGCAAATGATCGCAAGCCCTGAGAATAACCTGTGCTGCGTGGGTGATGACGACCAATCCATTTATGCGTTCCGCGGCAGCAGCCCGTCTTTCATTTTAGATTTTCAAAAGGATTATCCGGCAGCAAAGACCATTTACTTAACGGCAAATTACCGATCGCCGCATCCGATCGTCTCAAGCGCTCATGCCGTCGTAAAGAAAAATAAAAAACGGTATGAAAAAACACTTTCTGCCGTCAAAGACGGCGTTCACAATCCCGTGCTGTTTTATCCTTACGATGAAGAAGAAGAAGCGACCATGATCGTTTCGGATATGAAAGAGAAAATTCAAAACGGGGCGAGTCCTGACGATTTTGCCGTGCTTTACCGGACAAACAGCGCCGGACGGGCCATTTATGAAAGACTGCATCAATCATCGATTCCTTATCATGCCGACAGGGGTGTGCAGACGTTCTACAGCCGCAGAATCGTACGCCAGATCCTCGCCTACTTATATGCGAGTCAGAATGAAGATGATCCGGATGCGGTGAAAGACCTGCTGCCCGCCTTATTTTTAAAGCAATCCGCCCTGCAAACGTTAAAGGCGCTGTCAATCACGGAAGATTGCACGATGATTAAGGCACTGACGAAACTGCCTGACCTGAAGCCTTTTCAAATAGGGAAGATCAAGCAGATCGTTCCGTTTTTCGCAAGCATCCGGACAATGAAGCCGGTTGAAGCCATCACCTTTGCAGAAAGCAAAATGGGTTTTTCCGAGTATTTAAAAAAACGGGGCAATGAGGGGAGCAAACTGGAAAAAGGCTCTGATGATCTCAGGGATGTCAAAGTGGCCGCCAAAAAATTCAAAACGATTCCCGATTTTCTTGCGCATGTCGATCATATGCGCGCCGCTGAGAATCTGAAAACTGATGAAAACGGCGTCGAACTGCTGACCATTCACCGCTCTAAAGGTCTTGAATTCAATACGGTCTATATTTTAGGCGCGGCTGACGGCTCGATCCCCCATGACTTCGCGCTTGAGACGGCGAGACAGGGCGATCCCGCTCCGCTCGAAGAAGAAAGACGGCTTCTGTATGTCGCAATGACAAGGGCCATGCAGCATTTATATGTATCTTGTCCCGCGTACAGGCGGGGAAAAACAGCGCGCAGCTCAAGATTTCTCGAGCCCCTTCTTCGGACGGACAGACGGAGCGCACTCAGGATATAA	MKCARMNNRTIHLHTYSREHYQFLFEEAQKGNIFCAHCDQPVLMRLSILKQPAFYHRQKGDFTACEKACAAEEPQAEKEKEEYKEAGMFRLPKGKAISENPKPIVSEWKSPKKVPAAEPFSPTSESADTSLFPGIGLNREQMKAVTETDGPLLVLAGAGSGKTRVLTARAAHMIEHLGISPENMLLVTFTTKAVAEMKERMANEYGLAAGKVSRLVTGTFHSFFYKILYHYDSSKWNGSQLLKMEWQKEQYVKKALYEENLDEKEFPVDQALQLIGCWKNTYLPHETIPLADDWEKKVYRLYEHYERQKREKRQFDFDDMAQGCYELFQSRPDILAQYQNRFSHILIDEFQDINPVQYNIMQMIASPENNLCCVGDDDQSIYAFRGSSPSFILDFQKDYPAAKTIYLTANYRSPHPIVSSAHAVVKKNKKRYEKTLSAVKDGVHNPVLFYPYDEEEEATMIVSDMKEKIQNGASPDDFAVLYRTNSAGRAIYERLHQSSIPYHADRGVQTFYSRRIVRQILAYLYASQNEDDPDAVKDLLPALFLKQSALQTLKALSITEDCTMIKALTKLPDLKPFQIGKIKQIVPFFASIRTMKPVEAITFAESKMGFSEYLKKRGNEGSKLEKGSDDLRDVKVAAKKFKTIPDFLAHVDHMRAAENLKTDENGVELLTIHRSKGLEFNTVYILGAADGSIPHDFALETARQGDPAPLEEERRLLYVAMTRAMQHLYVSCPAYRRGKTARSSRFLEPLLRTDRRSALRI				NA	NA	NA	NA	NA
D1-12_00317	255			hypothetical protein	ATGATTTATGCAGGACGGATTCAAAACCAGCAGTATTCTCAATACGCAAACCGGGCAGCGGGTTATAAGCCTGATTACGCCGGCATTACGAAAGCGGCCGCCCTCGCCAATGACAGGTTGTACAGAGAGGTGGAGCGCCGCCAGGAAAACACCGCAGCCGCAGAAAAGAAAGTACATGAGGAAAAACGTAAGCGCTCTCTTTCCCGTCTGCCGCAAATCATGGGAAAAGGCCGGTTAATAAATCAATACGTGTGA	MIYAGRIQNQQYSQYANRAAGYKPDYAGITKAAALANDRLYREVERRQENTAAAEKKVHEEKRKRSLSRLPQIMGKGRLINQYV				NA	NA	NA	NA	NA
D1-12_00318	387	blm_1		Metallo-beta-lactamase type 2	TTGAGAAAGCTTTCATTATTAATTGCGGGGTTATTTCTATTCGGCCTCTTTACTGCCGGAATGAAACCGGCACACGCGGCGGATGGCTCCGCAGCAAAAGATGTCACTCTCACACAGCTGGCGCCGCATGTTTGGATGCATACAAGCACCGGTACGGCAGACGGAAGTCCCGTCCCTGCGAACGGATTGCTTCTTGAGACTTCCAAAGGAATCGTACTGATTGATACTCCGTGGAATGACAGTCTCACAGAGCAATTAATGACACAAATAAAAAAGCGGTTTCCCGGAAAAAGGATGACCGATGCCATTGTGACACACGCCCACGATGATCGTATCGGCGGTCTGAACACCCTGTACAAATACGGTGTAAAGGTGCACAGCACGTAG	MRKLSLLIAGLFLFGLFTAGMKPAHAADGSAAKDVTLTQLAPHVWMHTSTGTADGSPVPANGLLLETSKGIVLIDTPWNDSLTEQLMTQIKKRFPGKRMTDAIVTHAHDDRIGGLNTLYKYGVKVHST				NA	NA	NA	NA	NA
D1-12_00319	303	blm_2		Metallo-beta-lactamase type 2	GTGACAAAGCTGCAGTTTGGCGATATGAAAATTGAAACGTTTTATCCGGGAAAAGGGCATACGGAAGACAATATGACCGTCTGGCTGCCTGAGGATAAGCTCTTATTCGGCGGATGCTTAATCAAGGCTTTAGAAACAAAGGAAATCGTGCCTACTCCGGGCTTTTATCCGGATCAGTGGCCGCGCGCCGTCCGCAAAGTCATGAAAAGATATCAGGACATCAGCATTGTCGTCCCGGGCCATGGCAGTCCGGGGGATGACCGTCTGCTGCCGCATACGATAAGCCTTCTGAAAGAAACGTAA	MTKLQFGDMKIETFYPGKGHTEDNMTVWLPEDKLLFGGCLIKALETKEIVPTPGFYPDQWPRAVRKVMKRYQDISIVVPGHGSPGDDRLLPHTISLLKET				NA	NA	NA	NA	NA
D1-12_00320	723			hypothetical protein	ATGCTTGATTTCGCCATTCGCAACCGCAAAGAAATTTTTCGTGACCCCCTGTCTATTATCCTTGGAATCGCACTGCCTGTTATTCTATTGTTTCTGTTTACGGCGATTGAAAAAAATGCGCCGCTTGATACCTTTAAAATTCAGCACTTAGCACCCGGACTCATTGTTTTCGGTTTCGCTTTCCTTACAATGTTCTCTGCATTGCTGATCGCAAAAGACAAACAGACCGCCCTTTTGACCCGTTTGTTTGCTTCCCCTTTAAAAACAGCCGATTATGTCATCGGTTATGCAATGCCGATGCTGCCGTTAGCCATTTTACAAATCGTCATTTGTTTTATCGCAGCAGCGGCTGCCGGTTTATCCGCCGAGTGGATGAATCTTCTCGCAGGTATCGCTGTCTTGCTGCCGATTGCGATGATGTCCGTTTTCTTCGGTTTATGTTTAGGGGCTGTGTTTACGGACAAACAAATTTCAGGTATCGGAACGATTTATATTACACTCGTGCAATTTCTGGGCGGGGCTTGGATGGAGGTGAGCCTGCTCGGTGACACATTCAAACATATCGCTTATGCCTTACCGTTTATTCACTCGATCGAGCTGGCCCAGGAAGTCATATCCGGAGATTATTCTTCATTTCATCAGCATATTTGGCCGATAGCGGGATATACCGTTTTGGCGCTTGCACTTGCTTTCCTCAGTTTTATGAAAATCAGGAAGAGATAA	MLDFAIRNRKEIFRDPLSIILGIALPVILLFLFTAIEKNAPLDTFKIQHLAPGLIVFGFAFLTMFSALLIAKDKQTALLTRLFASPLKTADYVIGYAMPMLPLAILQIVICFIAAAAAGLSAEWMNLLAGIAVLLPIAMMSVFFGLCLGAVFTDKQISGIGTIYITLVQFLGGAWMEVSLLGDTFKHIAYALPFIHSIELAQEVISGDYSSFHQHIWPIAGYTVLALALAFLSFMKIRKR	PGPT0006730_23892	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_00321	738	lnrL_1	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGCACGCGATTGAGCTGAAGCAATTAACGAAACATTATAAAGAAACCGCCGCCGTTGACCGTCTTAAGTTCTCAGTTGAGAAAGGGGAATTTTTCGCTTTACTCGGTGAGAACGGAGCCGGAAAAACGACATTAATCAGTATGCTTTGCGGACTCCTTTCTCCGGATGATGGTGATGCATCAGTGCTTGGACACAGTATTTTGACTGATTTGGATAAAATAAAACCGAAATTGAATATGTCCCCGCAGGAAACAGCCATCGCTCCTCATCTAACCGTACGGGAAAACTTAGAGTTTATAGCCGGAGTCTACGGAATTCCGAAAAAAGAAGCAAAAAAAAGAACAGATGAGATGCTCGAATTGTTTCAATTAAAAGAGAAAGAAAGAGCAAAAACAAAAACATTATCAGGAGGAATGCAGCGCCGCCTCAGCATCGCAATGGGAATGATCACCAAGCCGGATATTTATTTCTTAGATGAGCCGACATTAGGGCTGGACGTCCGTTCACGCCGCGAGTTGTGGAAAAATCTTGAGGCATTAAAGGGAGACATGACGATTATTTTAACGACACACTATTTAGAAGAGGCTGAAGCCCTGGCAGATCGTATTTGCATTTTAGAAAATGGGACTTTAAAAGCACTGGGCACGGCGGAGGCTCTGAAAAAGCAAACTCATTCAGCCACATTTGAAGATGCCTTTTTAGCGATTTGTGACGGGGAGGCGGGTCTTTATGCTTGA	MHAIELKQLTKHYKETAAVDRLKFSVEKGEFFALLGENGAGKTTLISMLCGLLSPDDGDASVLGHSILTDLDKIKPKLNMSPQETAIAPHLTVRENLEFIAGVYGIPKKEAKKRTDEMLELFQLKEKERAKTKTLSGGMQRRLSIAMGMITKPDIYFLDEPTLGLDVRSRRELWKNLEALKGDMTIILTTHYLEEAEALADRICILENGTLKALGTAEALKKQTHSATFEDAFLAICDGEAGLYA	PGPT0006725_24243	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_00322	234			hypothetical protein	ATGACGGCACCAAAAGGAAAACACATATTCGGGACTGTTAAAGTGGGCACAAAAGGACAGATTGTCATTCCTAAAGAAGCAAGAGATGTTTTCGATATAAATCCGGGGGATTCTCTGCTTATGCTTGGGGATGACCAGCAAGGTATCGCACTTGTTAAACAAGAACTCTTTTTCGAATTTGCAAAAGATATTTTAAACGCTAAGCAAATCGATGAAGATAGCGAGGATGAGTAA	MTAPKGKHIFGTVKVGTKGQIVIPKEARDVFDINPGDSLLMLGDDQQGIALVKQELFFEFAKDILNAKQIDEDSEDE				NA	NA	NA	NA	NA
D1-12_00323	432	yjcF		putative N-acetyltransferase YjcF	TTGGAATCCATCATCGCAAAAACTGAAAAACAGCTGAACGACGCTTTTTTCGTCAGAAAAGAGGTCTTTGTTAAAGAACAGCACGTTCCGGAAGAAGAAGAGATTGATCAATTCGAGGACACGTCAGAACATATAGTCATATATGACGGCGGCCAGCCGGTCGGAGCCGGCAGATGGCGCATGAAAGACGGACATGGAAAATTAGAACGCATCTGCGTGATGAAAAGCCATCGTTCTTTAGGCGTCGGAGCCGTCATTATGCAGGCGCTTGAAAAAGCGGCGGCAGCCAAGGGCGCCGACAGCTTTCTCTTACATGCGCAGACGCAGGCGGTTCCGTTTTACGAAAAACAAGGATACCGCGTCACATCCGGCGAAGAATTTCCAGATGCGGGCATCCCCCATCTGGAAATGATAAAGGAACACAAACGATAA	MESIIAKTEKQLNDAFFVRKEVFVKEQHVPEEEEIDQFEDTSEHIVIYDGGQPVGAGRWRMKDGHGKLERICVMKSHRSLGVGAVIMQALEKAAAAKGADSFLLHAQTQAVPFYEKQGYRVTSGEEFPDAGIPHLEMIKEHKR				NA	NA	NA	NA	NA
D1-12_00324	516	yjcG	COG1514	Putative phosphoesterase YjcG	ATGAAATACGGTATTGTTTTATTTCCATCAAAAAAATTACAGGATCTCGCAAATTCGTACCGGAAACGCTACGACCCGAGCTACGCGCTCATTCCGCCGCATCTGACGGTAAGAGATCCGTTTGAAGCGACAGAACAGGAAATCGAGCAGGTCGTATCACAGCTGAGACAGACGGCGAAAGAGTCGCATCCGCTCGTTCTGAAAATCACAAAATACAGCTCGTTTTCTCCTGTGAATAATGTGATATATATGAAAGCAGAACCGACGGAGGAATTAAAATCTCTGAGTGAGAAATGCTACTCAGGAGCATTATCCGGCGAGCCGGAATACAGCTTCGTTCCGCATGTCACGGTCGGCCAGAAGCTGTCGTCAGATGAACATTCCGACGTACTCGGACAGCTGAAAATGCAGGACATTTCCCACGAAGAAGTCATCGACCGTTTTCACCTGCTCTATCAGCTGGATAACGGCTCATGGACTGTGTACGAAACATTTTTATTAGGCGGAGGAGAATAA	MKYGIVLFPSKKLQDLANSYRKRYDPSYALIPPHLTVRDPFEATEQEIEQVVSQLRQTAKESHPLVLKITKYSSFSPVNNVIYMKAEPTEELKSLSEKCYSGALSGEPEYSFVPHVTVGQKLSSDEHSDVLGQLKMQDISHEEVIDRFHLLYQLDNGSWTVYETFLLGGGE				NA	NA	NA	NA	NA
D1-12_00325	723			hypothetical protein	GTGGCATCGAAAAACGGAATCATTCATGAGAAAAAACTTTTCTCCCATGAGCTTGAAGAGGAAATGACCGTTTTGGTCTACCTGCCCGCCACCTTCTCCCCCCTGTATAAATATCATACGGTCATCGCTCAGGACGGCCATGATTATTTCAGATTAGGGAGAATCGGGCGGCAGGCGGAAGAGCTTATGTCAAAAGGGGAAATTGACCGCTGCATCATTATCGGCGTCCCTTATAAAAATGTGCGGGAGCGAAGAAACACATACCATCCAGAAGGCTCTAAGTTCGCCTCATATAAGCGGTTTATCGCAAATGAGCTCGTTCCTTTTATCGACAAAGAATACCCGACTTATCAAGTCGGATACGGCCGCACCATGATCGGGGATTCCCTCGGCGGAACCGTTTCGCTCATGACGGCGATTGACTATCCGAACATGTTTGGAAACGTCATCATGCAGTCTCCGTATGTTGACGGGCACGTGCTGGATGCCGTCCGGCAGTCGGAGGATCTCAAACAGATTTCCGTTTATCATCAAATCGGAGAAAAAGAAACCGGCGTTCACACGACGGACGGCCAGGTTCTTGATTTCACCGCGCCGAACGAAGAGCTCAAACAGCTGCTGGAAAGCAAACAGTCCGAATACACGTATGAAACCTTCGACGGGGATCATAAATGGACCTACTGGCAGCCGCTCATCACGCCGGCGCTGAAAAAAATGCTGTAA	MASKNGIIHEKKLFSHELEEEMTVLVYLPATFSPLYKYHTVIAQDGHDYFRLGRIGRQAEELMSKGEIDRCIIIGVPYKNVRERRNTYHPEGSKFASYKRFIANELVPFIDKEYPTYQVGYGRTMIGDSLGGTVSLMTAIDYPNMFGNVIMQSPYVDGHVLDAVRQSEDLKQISVYHQIGEKETGVHTTDGQVLDFTAPNEELKQLLESKQSEYTYETFDGDHKWTYWQPLITPALKKML				NA	NA	NA	NA	NA
D1-12_00327	1122	metI	COG0626	Cystathionine gamma-synthase/O-acetylhomoserine (thiol)-lyase	ATGACGCAGCATGTTGATACAAAATTAGCCCAAATCGGAAATAGAAGCGAAGAAGCAACGGGAACGGTCAGTCCGCCGATTTATCTGTCCACCGCTTACCGCCATAGAGGAATAGGAGAATCTACAGGTTTTGACTACGTGCGCACGAAAAACCCGACACGCCAGCTCGTCGAAGACGCCATCGCCGTGTTGGAAAACGGTGCGAGAGGATTTGCCTTCAGCTCGGGAATGGCAGCCATTCAAACCATTATGGCATTGTTTAAAAGCGGGGATGAATTGATTGTATCCTCCGATTTATACGGAGGCACGTACCGTTTGTTTGAAAACGAATGGAGAAAATACGGCTTAAGCTTTATTTACGATGATTTCAGCGATGAAGACTGTTTACGCTCCAAAATAACGGAAAACACGAAAGCGGTATTTGTTGAAACACCGACAAACCCGTTAATGCAGGAGGCGGACATTGAAAAAATTGCCCGGATTACGAAAGAAGCCGGCCTGCTTTTAATTGTGGATAATACGTTTTATACCCCGGTGCTACAGCGCCCGCTTGAACTGGGAGCGGACATCGTCATTCACAGCGCCACAAAATATTTAGCCGGGCACAATGATCTCCTTGCCGGTCTGGCTGTCGTTAAGGATGAAGAGCTCGGCGAGATCATGTTTAATCACCAAAATGCGATCGGCGCGGTTCTCCCGCCGTTTGATTCGTGGCTTTTAATGAGAGGGATGAAAACACTCGGACTCAGAATGCGCCGTCATGAAGAAAACGCCCGTGAACTTGCAGAATTTTTAGAACAGGAAGAAGAAATCGCCGACGTGTTATATCCCGGAAAAGGCGGGATGCTGTCTTTCCGGCTGCAAAAAGAGGAATGGGTCAATCCGTTTTTAAAGGCGCTGAAAACGATCTGTTTCGCAGAAAGTCTCGGCGGGGTGGAAAGCTTTATTACATATCCCGCGACGCAGACGCACATGGACATTCCGGAAGACATCCGTATCGCAAACGGCGTCTGCAACCGTCTGCTGCGTTTTTCAGTGGGCATTGAACATGCAGAAGATTTGAAGCGGGATGTCAAGCAGGCATTACAGCAAGTAAAAGAGGGGGCCGTATCATATGAGTAA	MTQHVDTKLAQIGNRSEEATGTVSPPIYLSTAYRHRGIGESTGFDYVRTKNPTRQLVEDAIAVLENGARGFAFSSGMAAIQTIMALFKSGDELIVSSDLYGGTYRLFENEWRKYGLSFIYDDFSDEDCLRSKITENTKAVFVETPTNPLMQEADIEKIARITKEAGLLLIVDNTFYTPVLQRPLELGADIVIHSATKYLAGHNDLLAGLAVVKDEELGEIMFNHQNAIGAVLPPFDSWLLMRGMKTLGLRMRRHEENARELAEFLEQEEEIADVLYPGKGGMLSFRLQKEEWVNPFLKALKTICFAESLGGVESFITYPATQTHMDIPEDIRIANGVCNRLLRFSVGIEHAEDLKRDVKQALQQVKEGAVSYE	PGPT0001995_2839	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
D1-12_00328	1176	metC	COG0626	Cystathionine beta-lyase MetC	ATGAGTAATCACAATTGGACGCTGGAAACCCAGCTTGTGCACAATCCATTTAAAACAGACGGAGCCACCGGAGCCGTCAGCGTGCCGATCCAGCATGCTTCCACATTCCATCAGTCCTCATTTGAAGAATTCGGGACATATGACTACAGCCGCTCAGGCACACCGACAAGAACAGCGCTTGAAGAAACGATCGCAGGTCTTGAAGGCGGAACGAGAGGTTTTGCTTTCAGCTCCGGTATGGCGGCGATTTCGACGGCATTTCTGCTCTTATCCCAAGGCGACCATGTCCTCGTCACGGAGGACGTGTACGGCGGAACATTCCGCATGGTGACTGAGGTTCTGTCCCGTTTCGGTATTGAGCACACGTTTGTTGATATGACGGATATCAACGAAGTGGCGCGGAATATCCAGCCGAACACAAAGGTCATTTATATGGAGACACCATCAAATCCTACACTTGGAATTACTGATATTAAAGCGGTTGTCCAGCTTGCAAAAGAAAACGGCTGTCTGACCTTTCTGGATAATACATTCATGACACCTGCACTGCAGCGTCCGCTTGATCTCGGTGTTGATATTGTGCTTCACAGCGCAACAAAATTCCTGAGCGGACACAGTGATGTGCTGTCAGGCCTTGCCGCCGTAAAAGATGAAGAGCTCGGCAATCAGCTGTATAAGCTGCAAAACTCGTTTGGCGCTGTCCTTGGCGTGCAAGATTGCTGGCTCGTGCTGCGCGGCTTAAAAACATTGCAGGTCAGACTGGAAAAAGCGAGCCGGACGGCTGAGCGGCTGGCTGCCTATTTTGACGGGCATCCCGCCGTCAAAAACGTTTACTATCCCGGCCTTGCCGGACACCCGGGAGCCGATACCCATAAACGTCAAGCGAGCGGAGCGGGCGCCGTCCTGTCCTTTGAATTGGAAAGCAAAGAAGCCGTCAAAAAGCTGGTCGAAAACGTATCGCTTCCGGTATTTGCCGTCAGCCTCGGCGCCGTCGAGTCCATTCTCTCATACCCTGCAGCCATGTCGCATGCCGCCATGCCGAAAGCAGAGAGGGAGAAACGCGGCATCACAGACGGCCTTCTGCGCCTGAGCGTCGGAGTCGAAAACGCCGAAGATTTAGAACGGGACTTCGAACAGGCATTGAAAAAAATAACCCCCGCCCAAGTGAGATCATAA	MSNHNWTLETQLVHNPFKTDGATGAVSVPIQHASTFHQSSFEEFGTYDYSRSGTPTRTALEETIAGLEGGTRGFAFSSGMAAISTAFLLLSQGDHVLVTEDVYGGTFRMVTEVLSRFGIEHTFVDMTDINEVARNIQPNTKVIYMETPSNPTLGITDIKAVVQLAKENGCLTFLDNTFMTPALQRPLDLGVDIVLHSATKFLSGHSDVLSGLAAVKDEELGNQLYKLQNSFGAVLGVQDCWLVLRGLKTLQVRLEKASRTAERLAAYFDGHPAVKNVYYPGLAGHPGADTHKRQASGAGAVLSFELESKEAVKKLVENVSLPVFAVSLGAVESILSYPAAMSHAAMPKAEREKRGITDGLLRLSVGVENAEDLERDFEQALKKITPAQVRS	PGPT0001995_1836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
D1-12_00330	342			hypothetical protein	ATGGAATATTCATTTGAATGTAAAAGAGACCATTTAGGATACTTACGAGTAGTTCTCCCCGCAGAGTTAGAATACTTTTCTGATTTCATTGAAGACATTGTTTCGGTAGATGAAGCTGATGAATACTTGAAAATGATTCAAGACGTATTGGATGGTTCCTCTGAAGAATATGAGATTCAACTAAATACCACCGTTGCATATATAAAAGAAGATCAAACGGTCATAGAACACCTTTATACAGAAAATGAAAACGATAGAAACTCCATGGAGACAGAAAAATTCAAAAAACTTATACTCGACTGGAGAGACAAGATCCCCCAAAGGTATAAGAGTGATGATTAA	MEYSFECKRDHLGYLRVVLPAELEYFSDFIEDIVSVDEADEYLKMIQDVLDGSSEEYEIQLNTTVAYIKEDQTVIEHLYTENENDRNSMETEKFKKLILDWRDKIPQRYKSDD				NA	NA	NA	NA	NA
D1-12_00331	300			hypothetical protein	ATGATTGAAATTAAAGTTTCTGATCCTGTATTTAGATTTCTCGGTGGACATTTCCACCAAGATATAGAGTCTCCGGAAAATGCACTTGATGAATATTTAAATGAAGCATCACAAAAACTAAAAGAAAGAGATTTAATAGCACTAACTGAGTTTGTAAATAGTGATCATTCAGAAGAAGACAAGAATGAATTTATAGAGGAAGCAGCGGATGGTATATACTTTCCTGAAGACGATATAACTCCATTAGAATGGCTTAAGCAAGTCACTGAACAAATTAAAAAACATCTTAAAACAACATAG	MIEIKVSDPVFRFLGGHFHQDIESPENALDEYLNEASQKLKERDLIALTEFVNSDHSEEDKNEFIEEAADGIYFPEDDITPLEWLKQVTEQIKKHLKTT				NA	NA	NA	NA	NA
D1-12_00332	309			hypothetical protein	ATGAATTTAGAGAAAAAAATGAAAGATATATTAATTAAAAGAAAAAAACTTAATCTTAATGATGACTATGGCATTCAAAAAAGTTGGGATGAAATAATTGAAGTGCTCTCAGAAAACGAAGAAAATACAATCAGCTATCTAGAAAATTGTAATAAAGCAGATTTATATTGGGTCAGTGAGGTATTTGAAGATTTAGCTGAAAGTTTGCAAAGTAAAGAACTTATTGATTGTTTAAGAAAATTAGATGAAAAATACTCTGGCCTAGAAATGACAAATGATATTGATATAGCAGAAAGTTATATAGAATAA	MNLEKKMKDILIKRKKLNLNDDYGIQKSWDEIIEVLSENEENTISYLENCNKADLYWVSEVFEDLAESLQSKELIDCLRKLDEKYSGLEMTNDIDIAESYIE				NA	NA	NA	NA	NA
D1-12_00333	393			hypothetical protein	ATGACCTTATACGAAGAATGTCTAGAAGCTCTTGGAGATAACAAAGAAGTCCTCACTATTTCTGAGACACGTAAATATCATGAGCAACTTGGCGAAAGTTTCCCCTTCACATCATGGGGAAGAATTAAATGGGATGAAGTAACTTATCACAGATCTATTGATTACGCTGAAGATATTGATGAATGGTTAGTTGAGAATAAAATAGCTAATAAAACTGTTATTCTCCTTTGGGCTTACGGTGATTATCCAGCTGTAAAAACCAGCTTAGACAACGCCTTAAACGTAATTGATGATGTAACTGCTGTAGGTTCAGATACCTTCATGTTCAGCGAATCTGGTTATGTTATTGAATTTTTCCATGATGGAGATGTAACAATAGGAAAAGCAATATGA	MTLYEECLEALGDNKEVLTISETRKYHEQLGESFPFTSWGRIKWDEVTYHRSIDYAEDIDEWLVENKIANKTVILLWAYGDYPAVKTSLDNALNVIDDVTAVGSDTFMFSESGYVIEFFHDGDVTIGKAI				NA	NA	NA	NA	NA
D1-12_00334	897			hypothetical protein	TTGCAAATCATAGGTGATGGCGCCAAAGGTCTGCTTGTTGGTGTATACGATCTTGCCAAAGATACCGGTGAAGGAGCACTTCAACTCGGACGGAATATCGGTTGGACAATTGACAACTTAAACAAAGATCCTCAAAAAGTTCTGGATACTGTTCTGGAATACGACTATCTAGGTGTCTTTCAAAGTATGGTTGACACATTGAAGGATGATTGGGATAAAAAGATGATTCACGGGGATGCATATACACGGGTGCACTATGTTACTTACTTGGGCGGAAGTCTTCTGTTATTGAAAGGCGGAAAGTCCTCTGTCTCAAAAGGCTCAAAAGATCTTGCTAAAGTTGGTGGCACAATTAAGAAAGGCGGAAAGTCTGTAAAACAGTTTTACAAATCTCCTGTCAATCGGTATACTCCTGCATTAGAAGGAATCCTTCAAGATGCTGAGAATACTATTAATGTGAAGAATACACCACTCCTAAAAAGAATAGCCGATTCCACTAAAGGTAGTGTACTCTTTAAATCAATCAATGGTAAGTCATCAAAAAACAAGACAGTTAAAAAAGGCCTTTCCAAAAAATCAAGAGAAGTTGCGCTTCCAAAGGTAGACACATATGAACAAGCTAGAAATGAGGCGCTAAATCTAATTGGTGATTTAGGAATAGATTCAAAACCTTTTATAGGTACTTTATCTAAAAGCGCAGGCTTTGGTAAAGTTACTGGCCGAATGTCTGGAGATAATAAAGTCCTTTGGAGATTAGATTATGACCCCGAAAAGGGACCTCATATAAATGTTGAGGATTATAGAAATGGAAAAGGAGATAAGGCAAAGAAATATTATATACCTTTTAACGGAAACGAAGATACTTATAAATCCCTTTTAAAACATTTAAATAAATAG	MQIIGDGAKGLLVGVYDLAKDTGEGALQLGRNIGWTIDNLNKDPQKVLDTVLEYDYLGVFQSMVDTLKDDWDKKMIHGDAYTRVHYVTYLGGSLLLLKGGKSSVSKGSKDLAKVGGTIKKGGKSVKQFYKSPVNRYTPALEGILQDAENTINVKNTPLLKRIADSTKGSVLFKSINGKSSKNKTVKKGLSKKSREVALPKVDTYEQARNEALNLIGDLGIDSKPFIGTLSKSAGFGKVTGRMSGDNKVLWRLDYDPEKGPHINVEDYRNGKGDKAKKYYIPFNGNEDTYKSLLKHLNK	PGPT0027660_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YxiD-YxxD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027660-toxin_yxiD-K21493	NA	NA
D1-12_00335	894	yokI_1		putative ribonuclease YokI	ATGAAAGTTTTCGAAGCAAACAGCTTGTTGACCGCTGCCAAACAGCGCGCGGGTGAATACAAAGAACTGCGCGGCCAGATGGTCAATCTGAAAAAAGCGTTTCAAGGTATGGCTGACCTTGGTGACAATGATTTCTCAGGCCGGGGCGCTGACAACATCAAAGCTTTTTTCAAGGATCACGCCGGCGTCACAGACAGCTGGCTTGATCTGATCGACATGAAAATCGCATTTCTCACAAGCCTTCCCGGTAAGGTCGAAGACGCCGGACTTTCCAATTCGCATGTGGAGGAATCATTTCTGGAGCACGAGCTCACCCACGCCCTCAGTAAATCAAAGGCGATTATGGAAGAGCAGAAAAAGGACATGCGCTCCATCCTCGGAGAGATCGAAGACATCATCTCGCTCGAATTGTTTTCAACCGAAAGCACGGATCAGAAGCTTTCTTCAGCTGACAAAAAAAGAAGCGAAACGATACATAAACTCGGCAAACTTGATCACGATCTAACGAAAGAATACGCAGAAACCGAAGCGAACGAACAGTTCATCCAAGCTGACTTCCAGAAACTTCAAAACGCCACGGGCAAAGGAAAAGGTGCCACGCCGCTTCACTACAACGCTAAGGCGTACCGTGAAAGCGACATACATAAGAAAAAAGGCGATATCGCAAGACATTCGGATGCCTATTTGACGATTAAAAAGGAAGAAGCGAAAGAGCGTGAAATCAAGGATCTGAAGAAAAAGCTGGCTGATGGCGTAACCGACCCGGATGAATACTTAGAAATCGCCAAAAAGGTTGGCTATGAGAATCTCACCCCTGAACAGCTTGAATTTGTTTCATTTCTGGAACAGCGTAAAGCTTTCATGGATAACGAAAAGAAGCATTGCAAATCATAG	MKVFEANSLLTAAKQRAGEYKELRGQMVNLKKAFQGMADLGDNDFSGRGADNIKAFFKDHAGVTDSWLDLIDMKIAFLTSLPGKVEDAGLSNSHVEESFLEHELTHALSKSKAIMEEQKKDMRSILGEIEDIISLELFSTESTDQKLSSADKKRSETIHKLGKLDHDLTKEYAETEANEQFIQADFQKLQNATGKGKGATPLHYNAKAYRESDIHKKKGDIARHSDAYLTIKKEEAKEREIKDLKKKLADGVTDPDEYLEIAKKVGYENLTPEQLEFVSFLEQRKAFMDNEKKHCKS	PGPT0027630_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_00336	519			hypothetical protein	ATGATAAATATCTTAACTAATATTTTGAAAAATGACAGATTAGATGAATACCCATTATTTGAAAAGTTTTGCTTTCTCAAAGAAAAAGGATTACGTAAAGAATCCCTTAAAGCATTATCTTCCTTTATCGATGAAGCCAAGACGTGGGATAATCATGCACAACAGAATTTTGCTTGTTGGCTATTTGCTTTATTAGAAACATCAGATGATATTCACCATATACTTGTTCACCCTTTGGAAATGGCTCTTTTAAAGCCTCTGCTTGAAGCATGGATGAAGAGTAACCCCGAAGATCCAAGACCATACAGGTGGTATGGTGTGTTTTTAAATACTGAAAACCGTGTTGATTACTTGAATAATGCACTTAGACTAGGTGGGAGTAATGAACAATTATCTTTATTAACGTTAATTGATATTCATTTGAACACCTTGTGGTATTCATTTCATCACATATCCGAAGATTTATATCTAGGCGATATTAAAGAAGATCAAACACTTTTACCAAGTCCCGGCAGTTGA	MINILTNILKNDRLDEYPLFEKFCFLKEKGLRKESLKALSSFIDEAKTWDNHAQQNFACWLFALLETSDDIHHILVHPLEMALLKPLLEAWMKSNPEDPRPYRWYGVFLNTENRVDYLNNALRLGGSNEQLSLLTLIDIHLNTLWYSFHHISEDLYLGDIKEDQTLLPSPGS				NA	NA	NA	NA	NA
D1-12_00337	579			hypothetical protein	TTGAACAACAAGCTTGAATGTCACCAAACAAGAAAAAGCAATAACGAACAACTTAATTATTATCAAGATTTGTTGAATTACTGGCTGTTGTTTAAAGAAGAACAATCAAAGGGATTTGTTGAATGGTGTGAAAATAAGGGCCGAATCTATCCTTGGGTCAAATCCTTATTATTACGAAATTTAATCGCAAGGGGGGAGATAGATTTGATGGTGGTAAGATACCTAGCTGTCCTTATTCTGTCGGTCATATGTGCCACACTGGTATATGTTATCATCCTGAATCAAGCTGAATATGTCCCTTATCTTATAATTAGCGGGATCATGTTGACATGTTATTTAATTTTTGAATTGCCATTGCAGCTTATCTTAAACCGAAAACCTAGAAGGTTCAATTTAAAATATCTCTTAATATACACAGTATCTTCATTTGTTACATGGCTAATCATGGCCGTTCTCTTTGAACCTTATAATCCAATAGGGTCTATACTAGCGAGTTATGAGATATATTTATTCAGCGTATTATTTGCTCTGATCTTTTGGCTTTGGGACTCTATTCTTGTACAGGAAGTTGCGGGTTAA	MNNKLECHQTRKSNNEQLNYYQDLLNYWLLFKEEQSKGFVEWCENKGRIYPWVKSLLLRNLIARGEIDLMVVRYLAVLILSVICATLVYVIILNQAEYVPYLIISGIMLTCYLIFELPLQLILNRKPRRFNLKYLLIYTVSSFVTWLIMAVLFEPYNPIGSILASYEIYLFSVLFALIFWLWDSILVQEVAG				NA	NA	NA	NA	NA
D1-12_00338	366			hypothetical protein	ATGAACGTAAAACATTCTAACTGTTTCTTTGTTATCAGGCTGTTTGCTGCTCTTTGTGTGTTGATTGGTCATGCTACAAGAGATCTAAACATTTCTGTCTTTGGTTATACTCCAGAGAGCAAAGCAATATTTCACACCGGCATATCAATCTTCTTTTTTCTAAGTGCATTTTTTCTTTTCACTTCCTATGAAAGATCCAGGCTTAAAGGGAATAATGTAACTGATTTTTATTGGAGCAGAATCACCATCAGAATCGCACCCGCTATATACACCTATGCTATCGTCTCCACCATCCTGTTAATTGTTCTAGGAGCTCTTTCATTAACAGTATTCACTACTAAAGAGTACTGGACATGGCTTCACTGA	MNVKHSNCFFVIRLFAALCVLIGHATRDLNISVFGYTPESKAIFHTGISIFFFLSAFFLFTSYERSRLKGNNVTDFYWSRITIRIAPAIYTYAIVSTILLIVLGALSLTVFTTKEYWTWLH				NA	NA	NA	NA	NA
D1-12_00339	438			hypothetical protein	ATGAAAAAGCTAATCTTTTTGGTTGTGATTTGCATTGGTTTTATATTGAGTTTTAACACACCAAGTGCTGAGGCGAAGCTTACATTAGACTACAAAAACGTGAATTTTCACATGAGTGAGGATTCAGAGAGTTTTTCAATGGCAGATTATTTTGATCGGACTTATGATCGCACTTGGCTCTTCTACAAATTCACAATTAGCAATGCTGAGGGGTGTACTCTAAATATGAAAATCAGTAGGATAACTCTTGCTGGCTGGGTATTCCCACGTAGTGAAAAGCAGTTTGTAGGGAACTATGCCGACTATACTGCTGCAGATCGAGTAGAAGGAGATGCCAATCGCAATCATGTGTTAAAGATTACAAAGAATCCAGGCTGTGGAGATGTGTGGATTAAAGGTATTTATGGATTTGAACATGAAGATTCATTTGACTGGTAA	MKKLIFLVVICIGFILSFNTPSAEAKLTLDYKNVNFHMSEDSESFSMADYFDRTYDRTWLFYKFTISNAEGCTLNMKISRITLAGWVFPRSEKQFVGNYADYTAADRVEGDANRNHVLKITKNPGCGDVWIKGIYGFEHEDSFDW				NA	NA	NA	NA	NA
D1-12_00340	237			hypothetical protein	GTGATCATACATAATGAATGTGGGGTAGTTAAATTGATTAAATCAAATTTAAAGCCGATAATAGACGAAAGGAATATCAGTATTCGAAAGCTGTCCAATGATATTGACCATGGTTTTAACACAGTTAGGAAGCTTTATCATGATGAAATGGAGCGGTATCCAAGGGATCTGCTTGATAAAGTCTGTACATATTTAGACATTGAGCTGCATGAGCTGTTGATTTACAAAAAAGATTAA	MIIHNECGVVKLIKSNLKPIIDERNISIRKLSNDIDHGFNTVRKLYHDEMERYPRDLLDKVCTYLDIELHELLIYKKD				NA	NA	NA	NA	NA
D1-12_00341	1578			hypothetical protein	ATGATAAAAATAAAAAACCCATATAGTAGTAAGAGATTAAGTTATAAAGATAAATTCAATAAAAAATTTACTGACTTACTTGTACCGTATATTAAAAAAATACGTTTAGAAGAGGATTGGAGCATTAAATCAAAGTACATTCCTCGAGTCTTGAAAAATGCAAGGAAAAGTATTGAAGGGTGGGACAGAAATTTTTGGAGAAATGAAAAACCGAATAACATTGAGTTGGATTTACTATCTTTATATGTAGCGGAATATATACCAACTGAGAATCTAGATAATTTAAACAAAGGACTAAAGAAACTTATAAAAAAATTTCCTTCAAAACATGAATATGGACAATTTGAACGGATCGATAATTTTTGCAGTGAAGTAAAACAAAGTATTCATAGTGGGCGTTGGAGTAACTTTGGTTTTATTGATATTGGAATAGAACCAAGCCTATCAAGGTTTGTTGATAATATATATGTGGAAGCTTCACATGTTACTTCTTCATCCGTTATTTTACAATTTTTAATAAAGCCTTCGGATGAATTTCTAAATGAATATAAAAGCTTAGTAACGAAGAACATAAAAGGAAGCAGTGTTTTCACTCCGTCTCTCAAGAAATTTTTTAAATTTTGGGGTGCAAAAGGATTAGCTGAATCAATCATCAAGAATCAAATGTTAGAAGACTTAATAATCGAATTAAAATGGATAACAATGAACGAAATCAGCAGATATTTTGATTTGTATTTCACAAATAACAGAATAATTCCACCAAGCATTGAGGTTTATAAATTAAAGCAACTTTCTTGTGAAATTAAGGGAGAGAAAAAAGGCTTAAATAATGATTTTTGGCGTTCTGTTGGCATGGATAATTTTTATGATGTATCTAAGGATGGATATTTGCAGTTATTCTCAGAGGAGACAAGCCCTCACTTTTTAGATTGCTCCTTGAAAGTTACTTGCAACACGGAAATACAAAAGCAATCTATGTACCATTATAATGATTTTCAAATTGTGTATTCATTACTAGAATTCACTAAAAGGCTACTTCCGATATTAGCTATTAGAGAATATGCTTTTGATGTAAGTAAAAAAGTAGCTATTCAACAGAATAAAACCTTTTTATCTATAAAAAAAGAAAATCCAAATTATAATAGACTAATAAATGTAAGGCATGAGTTAGAACGAGATTTGCAAATACTTAAACGTTTCAAAAATGAAATTGGTGATAACTATTTTGATAACGTTAAATCCACATTAAAAAAGACAAATGAATTTGAGCCTTCTAGACCCCAATATAGAGAAAAGGCAGTAACTGATATGATTGTTGATAATACAAGCTATCTAGTTGAAAAAACATTTAACCACTCACAATATTTCGCTAAGATGATAGACGAAGCAACTAAATTATTAGAAATTAAAACAAATAATTCATTAAGAGCTTTCACTTTTTTTCTCACAATCACGACGGTGATATTCTCTATTATTGCCACAGCAATTGCTGCAGCTTCATTTTATTTTCAATTAAGTGAGAATGCAAAAGATGAATTACAAAATTTAATCTCTAATATTAACAGCTTCTTTTCTTAA	MIKIKNPYSSKRLSYKDKFNKKFTDLLVPYIKKIRLEEDWSIKSKYIPRVLKNARKSIEGWDRNFWRNEKPNNIELDLLSLYVAEYIPTENLDNLNKGLKKLIKKFPSKHEYGQFERIDNFCSEVKQSIHSGRWSNFGFIDIGIEPSLSRFVDNIYVEASHVTSSSVILQFLIKPSDEFLNEYKSLVTKNIKGSSVFTPSLKKFFKFWGAKGLAESIIKNQMLEDLIIELKWITMNEISRYFDLYFTNNRIIPPSIEVYKLKQLSCEIKGEKKGLNNDFWRSVGMDNFYDVSKDGYLQLFSEETSPHFLDCSLKVTCNTEIQKQSMYHYNDFQIVYSLLEFTKRLLPILAIREYAFDVSKKVAIQQNKTFLSIKKENPNYNRLINVRHELERDLQILKRFKNEIGDNYFDNVKSTLKKTNEFEPSRPQYREKAVTDMIVDNTSYLVEKTFNHSQYFAKMIDEATKLLEIKTNNSLRAFTFFLTITTVIFSIIATAIAAASFYFQLSENAKDELQNLISNINSFFS				NA	NA	NA	NA	NA
D1-12_00342	915			hypothetical protein	ATGGGGAGAGGGACTGCTATTTATAAAGCTTTAGTTAAAGGATCAAAGGGTAAATTGGAACCGATTAAGGCAACAGAAGTTACTAAAGAAATGAAGGATAGAAGTGAAATTTTTTATTGTCCAACTTCTAATTGTAAGGCTAAGTTAAGTCATAATAAAGGACGTGGAAAGAATCCCAAACCATATTTTTTCCTTCGTAAGCTCCCAAAAGGTGAGCTTAATAACCATGTAAATTGCGACTATATAAATGAATACGTTAACATTAAAACTGCTAACAAAAAGAGAATCAAATATCACGGGGTCGAATGGAGAGTTCCATTATTCGAATTAGAGAGCCCCAATGTAGATGGTCTCTCCCCCTATACAGATCAAAAAAATTCTTCAATAAAATTAAATAGAACAAATAAATTTACCATAAAACCTAATATTGAAAAATTGGCTAGCGTTAGATCTCTATTTGCATTACGAAATGAGCTTAAAGAGTTTGACAAAGAAACACAAGTGAAAACATATAGTGAATTAAAAGATCAGTGCGTTCTCTATAATACTAAATCATACGATAAACTTTTAATTGATATACAAAATAAAAAGGTAGATAACGCATTCTATGTATTAGGATATCTTTGGATGTCAGAATGGAAGAACCTCAAATCTTTAGAAAATCCTTATTTTTTCTTGAGGGGTGCAAATAGAGACATTATAAAATGTTATACAGGTATAAACACTGTTGGACGCGCTGTTAAGGATTTAACCTGGGAAATAAGAAATAAACTCGAAAATAATCCATCTGCGAAGAAATCCGTTTTTATAGCGGCTAAAGGGGTAAAGGTTGGAACCGAAACACTAAAGATAAATGAAAAATCAACTACAGTTTCAGTAATTAAAGTATATGAGGTTGGTACAGAAGAAGATTAG	MGRGTAIYKALVKGSKGKLEPIKATEVTKEMKDRSEIFYCPTSNCKAKLSHNKGRGKNPKPYFFLRKLPKGELNNHVNCDYINEYVNIKTANKKRIKYHGVEWRVPLFELESPNVDGLSPYTDQKNSSIKLNRTNKFTIKPNIEKLASVRSLFALRNELKEFDKETQVKTYSELKDQCVLYNTKSYDKLLIDIQNKKVDNAFYVLGYLWMSEWKNLKSLENPYFFLRGANRDIIKCYTGINTVGRAVKDLTWEIRNKLENNPSAKKSVFIAAKGVKVGTETLKINEKSTTVSVIKVYEVGTEED				NA	NA	NA	NA	NA
D1-12_00343	255			hypothetical protein	ATGATTGGATTAGCTTATTTTTTAATTATTTGGCTTGGAGTTGGATTATTTACTGGCATTAAGTTTATTTTTGTTGATCAGGTCTATGATGAAGAGTTTAAAGAACTCATGGATAAAGAAACAGCAGCGGGCATGGAAAGGAATTTGGCCAGCCTGTTTTTCAAAAGTAAGCTTAACGCCAATGCCTTCTTCATGTTAATTGGTTTGCTGCCATTAGTAATGAGGATTACAAATTTATTTAAAGAGGTTGATTAA	MIGLAYFLIIWLGVGLFTGIKFIFVDQVYDEEFKELMDKETAAGMERNLASLFFKSKLNANAFFMLIGLLPLVMRITNLFKEVD				NA	NA	NA	NA	NA
D1-12_00344	141			hypothetical protein	TTGACATCTAGCGAGCTCCACGGCGCTTCTAAATTGCAAACAATGTATGAAGTCATTGAGATAGCAAGTGAGCTCAAAACAAAGTGTAATGTGCAATGTGAGGTTAGGGAAATTCAAATCGTAGAAAAGCATTGTTGCTGA	MTSSELHGASKLQTMYEVIEIASELKTKCNVQCEVREIQIVEKHCC				NA	NA	NA	NA	NA
D1-12_00345	663			hypothetical protein	TTGAAGCTTCTTTTGCTTTTTTCTGTATCATTAACATGGATCACCTATGTAATTTATTTTGAGCATGTTGGCAATTTTATACTGAGAATATCTCAAGGGAATATCTTAATAGCAAATTTGGTGTTGCCTATATTTCAGACGTTTCCCTTGCTTCTAAGTTTTATCTATGTTTTTAAAGGCAATTACCGAGCTTTATTCTTTAAAGTGAAATTTTCAAGAATATTGATTTATATAATTTTGGGAGTATTAACGGAGATTATACTATCGGTAAACATAGGCCACTTACTAAAAGGAATAAAGCCAAGTGCAAATCCTGCAGTTGAGGATCCAATCGGTATCACTATTTATAGTTTATCGATTAGTCTTATAGCAGAGCAAATTCTGTTCTTTTCTGTGTATTACTTTTTCTTTTTATTGTTTTTAAAACTGAAACTTAACAATGAAATTGTCGTTATAATATCTTTAATCCCTGCCAGTTTAATTTTTGGTCTAGCGCATATGGCAGTATATAACGGTAATGTTCTTCAATGCGTTTTTTTAATCAGCTTACCTTTTACATTAATGCAAGTTTTTTTGTTTTTCCGGTCAGGAAACTTTTTTATTGGATACATAGTGCATCTAGCGTTTGATATTACTATACTATTAATCGCTAAATTAACATAG	MKLLLLFSVSLTWITYVIYFEHVGNFILRISQGNILIANLVLPIFQTFPLLLSFIYVFKGNYRALFFKVKFSRILIYIILGVLTEIILSVNIGHLLKGIKPSANPAVEDPIGITIYSLSISLIAEQILFFSVYYFFFLLFLKLKLNNEIVVIISLIPASLIFGLAHMAVYNGNVLQCVFLISLPFTLMQVFLFFRSGNFFIGYIVHLAFDITILLIAKLT				NA	NA	NA	NA	NA
D1-12_00346	543			hypothetical protein	ATGAGCAATAACAAAGATCAAGCAATTGAAAAAATTCTATCTTTTATTGAATCAAATGAAAAAGTTGCTTTAATGACTGGAACAAACATGTTTAAGAAACATGAACTTGTGTTTAAAACCATAACTGAGAATTTTGTTGGATCAAGAATTTTACTTAGAACTAGCAGCTTAGATAATGCAAAGGTGTTTATGAAGGCAACTGGAACTTTAAAAACAGGAGTCCCTTATAATTTGAACGGAAGTACAGTTTATATTGACACTGTTACTAGAAGCACATGGGATAAGACACCAAGTGATTTGGATTTTGCAATTATTTACCCTCTTATGCCTCTGACAAAACAGAAGCTTAGAGAAGAGTTATTAAAGGATATTACTTTCTTTAAAAATATTAAAAAAATTTTATTAGTGAGTTCGCAAGATACAATTGATATGTCTTGGGCAGAGGATTTCATCAAAACAAAGATCATTTATGATGTTTTAGAAGAGGATCCTGATTATCATTATAGAGTCTTAGAAGATTTAAAAAGGTATAATTTAAAATAG	MSNNKDQAIEKILSFIESNEKVALMTGTNMFKKHELVFKTITENFVGSRILLRTSSLDNAKVFMKATGTLKTGVPYNLNGSTVYIDTVTRSTWDKTPSDLDFAIIYPLMPLTKQKLREELLKDITFFKNIKKILLVSSQDTIDMSWAEDFIKTKIIYDVLEEDPDYHYRVLEDLKRYNLK				NA	NA	NA	NA	NA
D1-12_00347	663			hypothetical protein	ATGATTGAAAAAATGTTACATGATAATTTACGTATTTGTTTTCCAAACAAAAGAATTTTTATTTCAAGAGACCATAATTTCGCTTTTGCAGCTTGGGAAATAGGAAGATTAAGGGGATACATACAACCTGGGGCATCCCTAATTCATATTGATTCGCATTTAGATTACTGTAACAATCCAATAGATACTTCGGATATAAAAGAGGAAAGTCAGGCAGTTGAAATCGCTAACCAATTAGATATTGTAGAATTTATAATACCAGCACAAAAAAATGGCACATTAAAAGGTTGTTTTACAATTAGCGATGATACAGTATATATTGAACAATCTGAAAATTTCCGACGAGCATATACATACAATCATTATGAACAAGTTTTGAGAGAAAATTGGTACAAGGAAAGAGAAGGTACAAGTTTGATTCTTGATTTGGACTTAGATTATTTTAATAAAAACTATTTAGATTATAACTCAAATTCTTTGTTATTACCTGAAGAAGCCATAAGGACTCAATTATTAAACATGAAAGAGAAAATGTGGAATTGGGACATGATAACTGTAGCTTTATCACCAGAATTTTGTGGTGGTGAAAAGGAGTGTGAATATTTATTAAACCTCTTTTTAGACGTGTTCAATTTAAAACTTGAAGATGGAGAGCTATGGTGA	MIEKMLHDNLRICFPNKRIFISRDHNFAFAAWEIGRLRGYIQPGASLIHIDSHLDYCNNPIDTSDIKEESQAVEIANQLDIVEFIIPAQKNGTLKGCFTISDDTVYIEQSENFRRAYTYNHYEQVLRENWYKEREGTSLILDLDLDYFNKNYLDYNSNSLLLPEEAIRTQLLNMKEKMWNWDMITVALSPEFCGGEKECEYLLNLFLDVFNLKLEDGELW				NA	NA	NA	NA	NA
D1-12_00348	333			hypothetical protein	TTGTCTGTAAAGGAACTTGCAGAATTAATAAAAGAATTGATTTATGAAGAACGTGAAGATGTTGCTGCAAAATGCGATTTTATTTTATGTGAGGATAATCCAGTGTTTACTGATAATCAACATGTAATTTACAAAGGATTAGCAGGAAGCATAAACTACAAAGAATTGTTAATTTCTTTAGCAACTATATTAGTCATGACTAATTGTTATGACCACGTGCAAAATATACTTTACTTTGCTAAGTGTTTAAGGAATTTTGCTAGAGAAATCTGCGACAAATTTGTAAAAGATATCCGAGAAGAGGTTTATTACAATCTAAAACATGGCGTTTAA	MSVKELAELIKELIYEEREDVAAKCDFILCEDNPVFTDNQHVIYKGLAGSINYKELLISLATILVMTNCYDHVQNILYFAKCLRNFAREICDKFVKDIREEVYYNLKHGV				NA	NA	NA	NA	NA
D1-12_00349	330		COG0537	putative HIT-like protein	TTGACAGAAGACTTTTATTGCGATGAAGTATTAAGCGGAAAAACAAAAGTAAATAAAGTTTTAGAAACCGAGAATGTATTGGCGTATCATCATACAAGACCTTTTTGGCCGGTGCATATTGTTGCTATTCCTAAAAAACATATCTCTTCTTTAATCACTTTGGAAGAAGACGACAATGAACTTTTACTCGAGTTGCTGGGTGTGATTAAAAAGGTTGCAGCGAAGGTGACAAAAGAAAGTGGTTCTTGCAGGGTGCTTACAAACTTAGGAGATTATCAGGATTCAAAGCATCTGCATTGGCATATAGCTTCAGGAGATCCATTGAGATAA	MTEDFYCDEVLSGKTKVNKVLETENVLAYHHTRPFWPVHIVAIPKKHISSLITLEEDDNELLLELLGVIKKVAAKVTKESGSCRVLTNLGDYQDSKHLHWHIASGDPLR				NA	NA	NA	NA	NA
D1-12_00350	471			hypothetical protein	ATGAAATTGTATAATGAATTTATAAATATAGCTAAAACTCTTAATAAAGAGTTAGACATTACCCCATTATTATATGGCTCTTTAGGTCTTGAAAAGGTAACTGGGTTGAACTTTTCACCAGAAGATATTGACATCCTTATTCCTTTAATATTTTTAGAGGAAAAGTGGGAAAAACTTAAAAAAATTATGGAACTGCAAGGATATAAATTGGTTGATTTACATGAGCATGAATTTAGGAAAACTAATACTAAAATAGGCATTGCTTACATTGAGGATTTAAAACCATTTGCAGATGTAGACTATCATAACCTAGGGGTTTTTGAAGATGACGGAGCCAAATATCATTTGCTGACTATTGATGATTACCTCAAGGTTTATAATATGTCTTTATTAGATGGATATAGAAGAACAAAGAAGAGTAATAAAGATCAAAGTAAAATTAACATATTGAATAAACTGATACAGTATTAA	MKLYNEFINIAKTLNKELDITPLLYGSLGLEKVTGLNFSPEDIDILIPLIFLEEKWEKLKKIMELQGYKLVDLHEHEFRKTNTKIGIAYIEDLKPFADVDYHNLGVFEDDGAKYHLLTIDDYLKVYNMSLLDGYRRTKKSNKDQSKINILNKLIQY				NA	NA	NA	NA	NA
D1-12_00351	363			hypothetical protein	ATGATTGAATTTACACGGCCATCGCCTATGAAGAAAACATGCACGATGCACCCGGAAAAGGAATCTGTCAGATCGGTTTCGTTTACTGATTTTAACGGCAATTCTGTAACAGTAACCCTTTGTCAAATGTGTCTGGCTGAATTAAAAATGAAAGCCGCGACTGAATACAGGAGCATGACCGAGGAGCGGGCCAAACAGAATCGTTTCAAGATTGGTGATCATGTGTATTTAGAGCATTTGGGAGTAGTCAGCGAGATAAAAAATATGGAAGGCGTTCAAGTGGCAAACAGGACAGACGCAGACGGAGTCCGGAAGGCTACCCCTAAGGAAATCGCAGAATTTAAAAAGCAGGGGAAGCAATGA	MIEFTRPSPMKKTCTMHPEKESVRSVSFTDFNGNSVTVTLCQMCLAELKMKAATEYRSMTEERAKQNRFKIGDHVYLEHLGVVSEIKNMEGVQVANRTDADGVRKATPKEIAEFKKQGKQ				NA	NA	NA	NA	NA
D1-12_00352	105			hypothetical protein	ATGTACAATCTTAAAGAACGCGATGCAATCAAACGGTTCTTAAATGAGGAAATCGTTAATACAAGCGAAGCAATTGAAATATTGGGCTTCACTCGCCATACCTAA	MYNLKERDAIKRFLNEEIVNTSEAIEILGFTRHT				NA	NA	NA	NA	NA
D1-12_00353	183			hypothetical protein	ATGAAAAAATTAATCGATGGTTCAACGATCTTATTCTTTATTCTGTTTGTGATATTGTTCACTAATTTTAATTATGGTCATCTCAGCACTCTCGATATTATTACTATGATTTTGGCATTTATCTGGTTGGTATTGACTATAATTAATATAACCCTAAAATGGAGAAACCTCCGAAATGGCTAA	MKKLIDGSTILFFILFVILFTNFNYGHLSTLDIITMILAFIWLVLTIINITLKWRNLRNG				NA	NA	NA	NA	NA
D1-12_00354	213			hypothetical protein	ATGGCTAAGTTTATTTTTGAGAGTATAGACGAGCTGAGAGATTTTATGGATAAAGAAGTCATAACGACATCTGAAGCCATTGAGATAATCGGATGCAGCCGGCAGAACCTCAAGCAGCTGGTGGATTATAAAACATTGGTTCCGATTAAAACTACGAACAGAGATCGCCTATTCTTGAGAAAAGATATTGAAGGCTATAAAAAGAAACGTTGA	MAKFIFESIDELRDFMDKEVITTSEAIEIIGCSRQNLKQLVDYKTLVPIKTTNRDRLFLRKDIEGYKKKR				NA	NA	NA	NA	NA
D1-12_00355	675			hypothetical protein	ATGGAGCCTAAGGATTGGATAACATTGATGTCAATATTGGTTACATTAGTAATCGGTATTACGACTCTTATTATTAGTATCAGAACTAATAAAAAGTCGAGATTTGTTAATGCAGTGACTACTGAAAGAGTTAAGTGGATGACTAATTTAAAAGAACTCATCTCAGAGTATCTTTCATTGGCTACTTATTATGATGATAAACCATTTCTTTCTGGTGAAGAGCAAGCAAAATATTTTGAAAGGTTATTTTATCTACAGAATAATATTAAGTTACAATTAAACTATACTGACAGTAAAGATCAGGAAATTAATGAACTTATAGATAAAATAAATCAGAAAATAATTGGTTTATATAAAGCAAAAAAAATCATAGAAAAGAAAGATACTGTTCCAAAGGAAGAGCTAGAAAAAGCGATGGAAGCTGTATTAAAAGAGAAAGAGAAAGAATTCACAAAAAAAATAAAAAACCATGACTACTCATTACCAAATTTATTCGAGGAAATATATAGCGATTCAATGGCTGTTATAAGTGAGAACTTTCGTAAACAATATGGGTATGCAGGTCGAGATGAACTAAAGAGTTTAACAGATAGTTTAGTTAATAAGTGTAGAGAGTATTTAAAGTTTGAATGGGAAAAAGTAAAAACAGAAGCCGAGAATGGTAACGTAAAATAG	MEPKDWITLMSILVTLVIGITTLIISIRTNKKSRFVNAVTTERVKWMTNLKELISEYLSLATYYDDKPFLSGEEQAKYFERLFYLQNNIKLQLNYTDSKDQEINELIDKINQKIIGLYKAKKIIEKKDTVPKEELEKAMEAVLKEKEKEFTKKIKNHDYSLPNLFEEIYSDSMAVISENFRKQYGYAGRDELKSLTDSLVNKCREYLKFEWEKVKTEAENGNVK				NA	NA	NA	NA	NA
D1-12_00356	525			hypothetical protein	ATGAAATTTATCAAAAATCATAGTTATCCTTGTATCTTGATTTTATTAATTTTATGTATCTTGTTAACGTTAATCAATTTTCATACACAACTATCTGATTACACTAATGTTCTTTCTGCAATGATGGGAGCGTTAGTCGGTAGCATGGGCCCTTATGTCATAGGTCTCCAAAGTCAAAAGAATGAATATAAAAAAGCGAAGCGGAGATTTACTAGGTTATTACAATATACTCATAGTGTGTTCAATGATGAAAATGTAGAAGAGTATTTGAAAACACCCCTAGAAAATACTGCAATTGGAAAGGTAATTTATGATGATCAATGGTCAAATTATCTTTCTTTCTTAGATAGAGATTTATCGGATGATGAAATTAATATCATTGTACAATGGTTTGATCGTATCTTTATATTAGAGAACTCAGATATAGACAGGTATGTATACAAAGCAACATTAACAGATTTACAAAAGAAGTCAGAGGACATTGAAGCTATAATTAAAAAACTAAAAACGATTAGCATCTCATAA	MKFIKNHSYPCILILLILCILLTLINFHTQLSDYTNVLSAMMGALVGSMGPYVIGLQSQKNEYKKAKRRFTRLLQYTHSVFNDENVEEYLKTPLENTAIGKVIYDDQWSNYLSFLDRDLSDDEINIIVQWFDRIFILENSDIDRYVYKATLTDLQKKSEDIEAIIKKLKTISIS				NA	NA	NA	NA	NA
D1-12_00357	105			hypothetical protein	ATGGCTGAAAAGCATATTCAGGCGTATAAGGATTACGTCAAAGGTATGAAATACAAGGATCTTGCCGAGAAATATGGGGTGTCAGTGAACACCATTAAATCGTAA	MAEKHIQAYKDYVKGMKYKDLAEKYGVSVNTIKS				NA	NA	NA	NA	NA
D1-12_00358	183			hypothetical protein	ATGCACACAAAAATAGGCGGGCAACCCGGCAGCAAAAACGCATTAGGAAACAGCGGAGGGGGCTCCGGCAAGAAACCAAACGCTGTATCACACGGGTTTTTCTCGAAATATCTGCCGGAAGAAATACTATCCATTAAAGAGATTCAGGGGTGTTTTCAATTAAATTTTCAGCTGATTTCCTAA	MHTKIGGQPGSKNALGNSGGGSGKKPNAVSHGFFSKYLPEEILSIKEIQGCFQLNFQLIS				NA	NA	NA	NA	NA
D1-12_00359	921	penP	COG2367	Beta-lactamase	ATGAACGTGAAAAATAAAGCGGGAATACAATTTGGAATATGCATTGGACTTTTATGTTTAAGCTTTACCGGTTTCAATCCTTTATTCGGCTCAGCGCATGCTGAAGCGAAGTCTATAGAAAACACAAAAATGATAAGCTGTATAACGAATCAAAAATTTGTTCAGCTTGAGAAAAAATTTGATGCCAGGCTTGGGGTTTATGCGATTGATACAGGTTCAAACAAGACAATCGCCTATCGGCCGAATGAACGGTTTGCTTACGCATCAACCTATAAAGTTCTGGCCGCGGCTGCTGTTCTGAAGAAAAGCTCAAATGAAAAACTTAATGCCATCATCCGCTACAGCAAAGACGATTTAGTTACATATTCTCCAATCACAGAAAAACATCTGGATACAGGCATGAGCCTGAAAGAAATCTCAGAAGCCGCTGTCCGTTACAGCGATAATACCGCCGGGAACCTATTGCTGCAGCAGCTTGGCGGCCCTAAAGGTTTTGAAAAGTCATTGAAACAGATCGGGGATCATGTAACGAAAGCTGATCGGTTCGAGACGGATCTAAACTCGGCGATTCCCGGGGATCGTCGTGACACAAGCACCGCAAAAGCACTGGCAACTGATCTTAAGACTTTCGCTTTGGGTAACACTCTCACGACTGACAAGCGCACGATTTTAACAGATTGGATGCGGGGCAACGCTACCGGCGACGAACTGATTCGGGCAGGCGCTCCTGCAGGATGGGAAGTCGGCGATAAATCCGGAGCCGGAAGCTACGGCACACGAAACGACATTGCGATCATTTGGCCGCCTGACAGAGCCCCAATTGTTTTGGCAATCCTGTCAAACCGGTTTACGGAAGATGCCAATTATGATAATGCTCTTATCGCTGAGGCTGCAAAAGCCGCTCTTAATGCTCTTAAATAA	MNVKNKAGIQFGICIGLLCLSFTGFNPLFGSAHAEAKSIENTKMISCITNQKFVQLEKKFDARLGVYAIDTGSNKTIAYRPNERFAYASTYKVLAAAAVLKKSSNEKLNAIIRYSKDDLVTYSPITEKHLDTGMSLKEISEAAVRYSDNTAGNLLLQQLGGPKGFEKSLKQIGDHVTKADRFETDLNSAIPGDRRDTSTAKALATDLKTFALGNTLTTDKRTILTDWMRGNATGDELIRAGAPAGWEVGDKSGAGSYGTRNDIAIIWPPDRAPIVLAILSNRFTEDANYDNALIAEAAKAALNALK	PGPT0028070_1268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028070-penP-K17836	NA	NA
D1-12_00360	282	yjcS	COG1359	putative protein YjcS	ATGCATTACATAACGGCATGCTTAAAAATCATCAGTGATAAAGACCTTAATGAAATAATGAAGGAATTCAAAAAACTTGAGGAAGAAACGAACAAAGAAGAAGGCTGTATTCAGTTCCATGCTTATCCGCTTGAACCATCAGAACGCAAAATCATGCTTTGGGAGATTTGGGAAAACGAAGAAGCTGTTAAAGTCCATTTTACGAAAAAACATACAAAAGACGTTCAAAAACAAGAATTAACGGAAGTAGAATGGTTAATGAAAAGCAATGTGAATGAGTAA	MHYITACLKIISDKDLNEIMKEFKKLEEETNKEEGCIQFHAYPLEPSERKIMLWEIWENEEAVKVHFTKKHTKDVQKQELTEVEWLMKSNVNE				NA	NA	NA	NA	NA
D1-12_00361	1413	emrB_2		Multidrug export protein EmrB	ATGTCAACACATAAAAGAAAGGAACTTCGGCTGCCAAAAGAAGTTCTCACAGCCGCCTGGGCTATTGCACTGGGAGCAATCGCTCCAATGCTTGACTCTACGATGGTAAACATCGCCATCGACAAACTGACCAAAGACTTCAACACGACATTGGATACCATTCAGTGGTCCGTTACAGGCTATGTCTTAGCACTTGCGATTGCAGTACCCGTATCCGGCTGGCTTATGAATAAATATAACGGTAAGAAAATCTTCATCGGCTCAGTCATCGCCTTTGGTGTCATTTCTGTTTTTGCGGGAATGAGCCGTGACGTTTCCAGCTTCATCTTCTTCCGTTTGCTTCAAGGATTCAGCGCCGGTATTATGACTCCGCTTATGTCAACACTCTTGGTTAAAACGGCAGGTCCGGAAAACCTGGGAAAAGTGATGGCAATCGTCAGCACCCCTATGATCTTCGGCCCGATCTTAGGACCTGTCATCGGAGGCTTCATCGTCCAAGGCGCTTCATGGCATTGGATTTTTTACATCAACGTGTTCATCGTTTTGATTGCTGCACCGCTTATGATGAAAACCATTCCAGACTTTGAACCATTCAACAAAGATCGTAAACTCGATATTTTCGGGATTATCAATTTGTCATTAATGAGCGCGGCATTGATTTACGCTATTACAAAAGCGGCGGATCATGCATCATTTAACAATAGCGACACCATTTTATGGACGGGCATCGGTCTTGTTTCAGCAGCCATTTATCTTGTATATAATCTGATCAAGAAAAACCAAACCGTGCTGCCTATGAATTTGTTTGCAAACAAGAGCTTCTTATCATCTTCGATCGGGTTGTTCTTAGCGAATGTTGCCATCATGGGGCCGATGTTAATACTTCCGCTGTTTTTTCAAAACATTCGTCATTTCACGGCAGTCGGAGCAGCACTCGCTTTAATCCCTCAAGGAGTCGGAATGCTCGTGACTCGTCCGCTGATCGGAAAAATGATTGATAAGATCGGTGCGAAATACGTGGTTACGGTCAGTCTTGTTCTTTCGCTGATCGGATCTATCCCGCTTATTTTTATCACCGATAACACAAGTATGATTTGGATTTCCGTCGTATTATTTATCCGCGGCACCAGTTTTGGAGGAATTATGCTCCCATTAATGAGTGACGCTTATACAGGCCTTGACAGCAAACAGCTTCCGGAAGCGGGTGTAGGTATTCATATGATTGAAAACCTCGGTTCCAGCTTTGGGTCAGCTGTGATCGCAACCGTTACCGCAACTGTCATACAAGGATTGCAGCCAACGATTCCGAACAGTTTAAAAGGCTACCATGCCGGGTTCTTAGTATCCGTCATCATCCTTGCGGCCATCTTCATTCCAAGTCTGTTCCTTACCCATAAAAAGACTGCGATATAA	MSTHKRKELRLPKEVLTAAWAIALGAIAPMLDSTMVNIAIDKLTKDFNTTLDTIQWSVTGYVLALAIAVPVSGWLMNKYNGKKIFIGSVIAFGVISVFAGMSRDVSSFIFFRLLQGFSAGIMTPLMSTLLVKTAGPENLGKVMAIVSTPMIFGPILGPVIGGFIVQGASWHWIFYINVFIVLIAAPLMMKTIPDFEPFNKDRKLDIFGIINLSLMSAALIYAITKAADHASFNNSDTILWTGIGLVSAAIYLVYNLIKKNQTVLPMNLFANKSFLSSSIGLFLANVAIMGPMLILPLFFQNIRHFTAVGAALALIPQGVGMLVTRPLIGKMIDKIGAKYVVTVSLVLSLIGSIPLIFITDNTSMIWISVVLFIRGTSFGGIMLPLMSDAYTGLDSKQLPEAGVGIHMIENLGSSFGSAVIATVTATVIQGLQPTIPNSLKGYHAGFLVSVIILAAIFIPSLFLTHKKTAI				NA	NA	NA	NA	NA
D1-12_00362	474			hypothetical protein	ATGGACAAAAAAGAACAGCTCCTCACGGATTTCAGGGACTTTTTTAACAAGATGGTGTGGCTGAATAGGCTGAAGATGGAAGAAAGCCTTAAGGGGCATAAACCTTCTGAAGTGCATTGCATCGAATTCATCGAAAAAATTGAAGATGCCAATGTGACAAAACTTGCGGAGTCTCTTTATATGACAAGAGGCGCCATAAGTAAATTAACGAAGAAGCTTATCAATAAAGGCCTTATCGAAAGCTATCAGAAGCCGCTTAACAAGAAAGAAATCTATTTCAGGCTTACCGAGCAAGGAAAAGTCATTTATAAAATTCACGAGGAATTGCACAAAGAGTTTCAAGAACGCGACAAAATCGTGTTTGAACAAGTAACCGATGAACAATTTGACACGATGCTGAACTTCGTGGAAACATACAGCAGGCATTTGGATTCAGAAATAAAGAAACTTGGTGCAGACATGAAATCGGAATAA	MDKKEQLLTDFRDFFNKMVWLNRLKMEESLKGHKPSEVHCIEFIEKIEDANVTKLAESLYMTRGAISKLTKKLINKGLIESYQKPLNKKEIYFRLTEQGKVIYKIHEELHKEFQERDKIVFEQVTDEQFDTMLNFVETYSRHLDSEIKKLGADMKSE				NA	NA	NA	NA	NA
D1-12_00363	1113	ganB	COG3867	Arabinogalactan endo-beta-1,4-galactanase	ATGTTCAAAAACCGATTGAAACGTGTATTTGTAAACGCAATCTGTCTTTCTCTCATTTTCACTGCTTTTACATTCTTTGAGAAGTCTCCTAAAGCAAAAGCGGATGCCCCGTTTGCCTATGGCGCTGATATAGGATGGCTGAAACAAATGGAGGACGAAGGTGTGCGCTGGCTGGATGACGGCGGAAAACAGAAAGATGCCTTGCAGATTCTTAAAGATCACGGAATAAATGCCGTGAGACTGAGAGTGTTTGTGAATCCGCCAAGCAGCTATTATTGGCTGAAAGACGGCACAACATGGACCATGCTCGGCTATAGTGACAAAGCGGGCGTACTTGCGGCGGCCAAAAGGGCAAAAGCGTTAGGAATGAAGGTAATGGTTGACTTCCATTACAGTGATGTGTTCGCTGATCCCGGCCACCAGATCAAGCCGAACCAATGGACCGGCTATTCAAGCAGCCAGCTGCAGGCAGCCGTGTATAACCATACGTACGATGTCATGAAAGAACTTAAAAATCACGGCATCTCCCCTGATTGGGTGCAAGTAGGGAATGAAATGAATTCAGGAATTTTACTGCCCGACGGCAGCACGAACGATTTCAGCAAATTGACCGCCTTACTGAACAAAGGCTATGACGCCGTGAAATCCGTCAGCCCGGCCACCAAGGTCATCAGCCATTTGGCACACGGCACGGACAACAGCCTATTCAGATGGTGGTTTGATCAATTCTTTAAAAACGGAGGAAAAACCGACATCATCGGCGTTTCATTCTATCCCTATTGGGAAGGTAAGCCGTACTGGGAGCTCACCGGCCAATTATCATCTAATTTGAATGACATCGCCTCACGCTACAACAAGGAAGTCATGGTGGTTGAACTGGGCGGAGATGAAAATAATCCGAAAGATTCCTACTGGACCATAAAAGACACCATAAAACTGGTGAAAGCGGTTCCGAACGGCAAAGGAACCGGCGTATTTTACTGGGAGCCCGAGGCTCACTCCAGCGTTCTGTCAGACGCGTATCCATTAGGCGCAACCGCCAAAGTGTCTAAAAACGTCTTGAAATACACAACCGCAATTGACGCTTTTTATGACGCCGCAACAGGAAAATGA	MFKNRLKRVFVNAICLSLIFTAFTFFEKSPKAKADAPFAYGADIGWLKQMEDEGVRWLDDGGKQKDALQILKDHGINAVRLRVFVNPPSSYYWLKDGTTWTMLGYSDKAGVLAAAKRAKALGMKVMVDFHYSDVFADPGHQIKPNQWTGYSSSQLQAAVYNHTYDVMKELKNHGISPDWVQVGNEMNSGILLPDGSTNDFSKLTALLNKGYDAVKSVSPATKVISHLAHGTDNSLFRWWFDQFFKNGGKTDIIGVSFYPYWEGKPYWELTGQLSSNLNDIASRYNKEVMVVELGGDENNPKDSYWTIKDTIKLVKAVPNGKGTGVFYWEPEAHSSVLSDAYPLGATAKVSKNVLKYTTAIDAFYDAATGK	PGPT0023570_479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTANASE,PGPT0023570-EC_3_2_1_89|ganA-K01224	NA	NA
D1-12_00364	1500	galT_1		Galactose-1-phosphate uridylyltransferase	ATGGAGGCGGCGGTCATTGACGTTTTTGAATCAGTGGCAGGGTTTCTGAAAGAAAGCACTGTCTTAGGCGACATTAATGAAACAGATGTGATTTACACAAGAAACAGACTTCTCGATCTGCTCGGACTGACGGATTATGCAGAACCGAAACATATCAAGAAACAAAACAGGCTTCACTATGTGGACGAAATGGTGAAAGACGCGGTAAAACGGTCAATCATAAACGATACGCCGGCTGAAAGAGACATGCTGGGAAGCAGAATCATGGACGTGATCACACCGGCCCCTTCTCTGATCAATGCCGCATTCAGCGAATTATTATCCGATTGCCCGAAAAAAGCAACAGATTATTTTTATAGATTGAGTCAAAACAACGACTATATTAAGACGCGGGCCATCCGAAAAAATATCGTGTACCGCTCACCAACACCTTTTGGAGAATTGGACATCACCATTAATTTATCAAAGCCCGAAAAAGACCCTAAAGACATCGCCGCGGTAAAAAACAGTCCGGAAAACCGGTATCCGACATGCCTGCTCTGTATGGAAAACGAGGGGTATGCCGGAACACCGCATCACCCCGCCCGTTCAAACCACCGCATCATCAGGCTTGACTTAGCGGGAGAACAGTGGGGTTTTCAATACTCTCCTTATGCGTATTACAGCGAGCATGCCATCTTTCTTTCAAGCGTGCACAAGCCGATGAAAATCAGCTGCGACAGCTTCAGAAGGCTTCTGGCCATTACGGAAATTTTCCCGCATTATTTCGCGGGATCAAACGCAGACTTGCCGATCGTAGGGGGTTCCATTCTTTCACACGATCATTATCAAGGCGGCGCCCATGAGTTTCCGATGGCAAAAGCGGGTTCCCTCTACCCTTTTCATATGCGTCATTTTCCAGACGTTCAGGCCGAAGCCGTGAAGTGGCCGGTATCAGTGATCCGCCTTCGCGCAAAAGATCCGGATTTGCTGACAGATGCCGCTGCGTATGTTTTTGAAAAGTGGCGGGAATATTCAGATGAAACCGCCAGCATCATCGCAAAGACAAATGAACCCCATAATACCGTCACTCCAATTGCCAGACGCAGGGGAACGGATTTTGAAATCGATCTCGCTCTCAGAAACAACCGCACCTCCGAAGATTATCCGGATGGCATTTTTCACCCGCATCAAGATGTCCATCACATCAAAAAAGAAAATATCGGTCTGATTGAAGTGATGGGACTCGCCGTTTTACCTCCCCGCCTGAAAGATGAGCTGGCAGAAGTGAAAAAGTATTTACTGAATGAACCTCATGACATCAAAGACATTCATCTTCCGTGGGCTGAAAATATCAAAGCGGATGAAGACGTGACACCGGAAAATGCAGCCGCTGTTTTACAAAAAGAAACCGCGAATGTATTTTTACGCGCGCTGACCGATGCAGGCGTTTTTAAAATGACACCCGAAGGAATTCAGGCGTTTCAGCGTTTCACGACGTTATTGGAGAATGGCAGCTGA	MEAAVIDVFESVAGFLKESTVLGDINETDVIYTRNRLLDLLGLTDYAEPKHIKKQNRLHYVDEMVKDAVKRSIINDTPAERDMLGSRIMDVITPAPSLINAAFSELLSDCPKKATDYFYRLSQNNDYIKTRAIRKNIVYRSPTPFGELDITINLSKPEKDPKDIAAVKNSPENRYPTCLLCMENEGYAGTPHHPARSNHRIIRLDLAGEQWGFQYSPYAYYSEHAIFLSSVHKPMKISCDSFRRLLAITEIFPHYFAGSNADLPIVGGSILSHDHYQGGAHEFPMAKAGSLYPFHMRHFPDVQAEAVKWPVSVIRLRAKDPDLLTDAAAYVFEKWREYSDETASIIAKTNEPHNTVTPIARRRGTDFEIDLALRNNRTSEDYPDGIFHPHQDVHHIKKENIGLIEVMGLAVLPPRLKDELAEVKKYLLNEPHDIKDIHLPWAENIKADEDVTPENAAAVLQKETANVFLRALTDAGVFKMTPEGIQAFQRFTTLLENGS	PGPT0017835_317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965	NA	NA
D1-12_00365	993	galE	COG1087	UDP-glucose 4-epimerase	ATGGCGATTCTCGTTCTCGGCGGAGCCGGCTATATCGGTTCTCATGCGGTTGATCAATTATTAAACAAAGGATTTAAAACGATAGCTGTGGATCATCTGCAGACAGGCCACCGGAAAGCTGTTCATGAAAAAGTAGTTTTTTACTATGGAGATATCCGTGACAAACCGTTTCTTCGCTCTGTGTTTGCGAAGGAGAACGTAACAGGCGTTCTCCATTTTGCCGCTCAATCCCTTGTGGGCGAATCAATGAAAGACCCTCTTTCATATTTCAATAATAATGTGTACGGTACACAAATTACGCTGGAGGTCATGCAGGAATTCGGGGTGAAACACATTGTGTTTTCTTCATCCGCCGCTGTATACGGCGAACCTGAAAAAGTGCCCATCACAGAAGACATGCCGGAAAAGCCGGAAAGCGCATACGGCGAATCAAAACTCATGGCAGAAAAAATGCTGAAGTGGTGCGAAACCGCCTGCGGCATAAAATATGTCTCGCTTCGATATTTTAACGTTGCCGGCGCGAAAACGGACGGTTCCATCGGAGAAGATCATCATCCGGAAACCCACCTTATCCCTATCCTTTTACAAACCGCGCTCGGTCAGCGCGAGGAGGTTTTGATATTCGGCACTGACTATGATACAAAAGACGGCACGTGCATCCGCGATTATGTCCATGTTTCCGATTTAATCGATGCCCATATTCTCGCTCTGGAATATTTGCAAAACGGCGGAGACAGCGGCATTTTCAATTTAGGATCAAGCAGCGGGTTTTCCGTATCAGAAATAGCGGAAGCAGCCCGGCTAGTGACCGAAAGAGACATAAAAGTAAGAGCGGCCGCAAGAAGACCCGGTGATCCAAGCACCCTCATCGCTTCCAGCGATAAAGCGCGGAACATTCTGGGCTGGAATCCGAAACAAACGGACATATCGGAAATCATTGCGTCAGCATGGAATTGGCATCAGCATCATCCAAACGGATACAAGGACAAATGA	MAILVLGGAGYIGSHAVDQLLNKGFKTIAVDHLQTGHRKAVHEKVVFYYGDIRDKPFLRSVFAKENVTGVLHFAAQSLVGESMKDPLSYFNNNVYGTQITLEVMQEFGVKHIVFSSSAAVYGEPEKVPITEDMPEKPESAYGESKLMAEKMLKWCETACGIKYVSLRYFNVAGAKTDGSIGEDHHPETHLIPILLQTALGQREEVLIFGTDYDTKDGTCIRDYVHVSDLIDAHILALEYLQNGGDSGIFNLGSSSGFSVSEIAEAARLVTERDIKVRAAARRPGDPSTLIASSDKARNILGWNPKQTDISEIIASAWNWHQHHPNGYKDK	PGPT0019010_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-ARBINOSE-XYLOSE_POOL,PGPT0019010-uxe-K12448	NA	NA
D1-12_00366	1170	galK	COG0153	Galactokinase	ATGGATGCAAAACTTTTGAAATTAAGATTCGAAGACGTTTTCAAGAGAAGTAACGGAGAACTGTTTTTCGCACCCGGCCGGATCAACCTGATCGGGGAACATACGGATTATATAGGCGGCCACGTTCTCCCCTGCGCGATTACGATCGGAACATATGCCGTATGCGCAAAACGCGGAGATCATCAGATCCGGTTATACTCAGAAAACTTTCCTGACAGCGGCATTGTCTGCCTTGATCTTTCCGCCACAGCATACAAAAAAGAAGACGGCTGGGCCAATTATCCGAAGGGGATGATCCATTACCTTCTTAAAGCCGGCGGCCAAATAGACAGCGGAATGGATATTCTTTTTCACGGTACGATTCCAAACGGAGCCGGTTTAAGCTCCTCCGCTTCTATTGAAATGTTAACCGGCTCCATTTTAAGAAAGTTATTCAGCCTGGATGTTTCCGATACTGAACTGGCGCTTATCGGAAAAAGAGTCGAAAATGAATTTATCGGCGTGAATTCAGGCATTATGGATCAATTCGCAGTGCAAAAAGGCAAAAAGAACATGGCCATTCTGTTAAACTGCGATAAGCTTGAGCACGAAATGATTCCGGCTGCTTTTAACGGATATAAAATCGTCATTATGAATACGAACAAGCGCCGGGAGCTGGCGGCTTCAAAATATAATGAACGCCGCAGCGAATGTGACGAGGCTCTCTCAGAACTGCGGCAATATCGGAATATCGCATCACTTGCGGAATTGACGGCAGAAGAATTCAACGAACTCGAATCCCTTCTCTCCTGTGAAACGTTGCGTAAAAGAGCCCGGCACGCGGTCAATGAAAACGAGCGGACCCTCTCAGCCGCGGAAGCTCTCAAATCGAATGATTTGAAAACGTTCGGCGAGCTCATGAATGCGTCCCACCGTTCGTTACGCGATGATTATGAAGTGACCGGTGACGAATTAGACGCGCTCGCTGAAGCAGCCTGGAAAGAAGGAGCACTCGGAGCGCGGATGACGGGCGCGGGGTTCGGCGGCTGCGCCATAGCCATTGTGGAAAGTGAAGAAACCGCCGGCTTTATCCGGGCCGTTTCATCTCACTACCGCAGCAGGACAGGTCTTGAAGCTTCTTTTTACATCGCGGATATAAGCGATGGCGCTGCTGAATGGAGGGAAAACTAA	MDAKLLKLRFEDVFKRSNGELFFAPGRINLIGEHTDYIGGHVLPCAITIGTYAVCAKRGDHQIRLYSENFPDSGIVCLDLSATAYKKEDGWANYPKGMIHYLLKAGGQIDSGMDILFHGTIPNGAGLSSSASIEMLTGSILRKLFSLDVSDTELALIGKRVENEFIGVNSGIMDQFAVQKGKKNMAILLNCDKLEHEMIPAAFNGYKIVIMNTNKRRELAASKYNERRSECDEALSELRQYRNIASLAELTAEEFNELESLLSCETLRKRARHAVNENERTLSAAEALKSNDLKTFGELMNASHRSLRDDYEVTGDELDALAEAAWKEGALGARMTGAGFGGCAIAIVESEETAGFIRAVSSHYRSRTGLEASFYIADISDGAAEWREN	PGPT0017840_1391	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017840-galM-K00849	NA	NA
D1-12_00367	1698	lacE	COG1455	PTS system lactose-specific EIICB component	ATGAACGGTATCATCAAGCAAATCGAAAAGGGAAAACCGTTTTTTGAAAAAATCTCAAGAAACATTTATTTAGGCGCGATCCGCGACGGCTTCTTAACTGCCATGCCTGTTATTTTATTCGCCAGCATTTTCATCCTCACCGCCGCTGTGCCGGAAGTGTTGGGCTTCACTTGGCCTAAAAGTGTTTCTGAATGGCTTTGGAAAGTTTATAACTATTCAATGGGCGCCCTCGGTCTGATCGTTGCGGCAACAAGTGCGAAATGCCTGAGTGAATCAATGAACCGAAAAATGCCTAAAAACAAAGGGATCAACCCCGTTTCAGCGATGCTTGCTTCAGTCGTCGGGTTTCTCATTTTAAGCGTCACTCAAATCGATGGCGGATTCTCGACGGAATACCTCGGCACAAAAGGTCTTTTAGCCGCTTTTGTATCCGCTTTCATAACAGTGAACGTTTACAGATTCTGCGTGCTGAAAAATATTACGATTAAAATGCCTAAAGAAGTACCGGGTACCATTTCACAAACATTTAAAGATGTTTTTCCGTTCGCTTTTTCCGTTTTGGCCATGGTGATCGTTGATTTATTGATCAGGAACACGCTGAACGTATCGTTTGCGGAGGCTCTCTCCTCTCTCTTATCGCCGTTTTTTACCGCCGCAGACGGTTATCTTGGGATTTGTATCATTTGGGGAATGATGGCGCTGTTCTGGTTTGTCGGCGTTCACGGGCCTTCTATTGTGGAACCTGCCATCGCAGCTATTATTTACGCAAATGTGGAGGCGAACCTGCAGCTTCATAATGCCGGTGAGCAGGCGTCCAACGTGCTGACCGTCGGACTCGGGAACTTCGTCGGCACAATGGGAGGGACCGGCGCAACCCTTGTTGTTCCGTTTATCTTTCTTCTTTTCGCGAAATCCAAGCAATTGAAAGCAGTCGGAAAAGCATCCGCGGTTCCGGTGTCTTTCGCAGTAAACGAACCCCTTCTCTTTGCTGCGCCGATCATTTTAAATCCTTATTTTTTCATTCCGTTTGTTGTAACGCCAATGGTGAATGTCTGTCTGTTTAAATTTTTCGTGGATGTCATCGGAATGAACAGTTTTATGTATGTTCTTCCGTGGGCCACCCCGGCGCCCGCCGGCTTGATTCTCGGAACCGGCATGGGGCTCTCGGCTTTTGTGCTGACGGCTGTATTAATCATCGTCGATTCCCTGATATACCTGCCATTCTGTAAAGCTTATGACAAAGTATTAGCGGCGAAAGAAGCCCAACACACCGAACCTGAAAGCGCGCCGCAAACATTACAGCCCGCCATGGCCGGCGCCTCCGAAGACGCGGCCTCCGTCATCAGCACAAATCTTCAGGAATCCTCATCCGCCTTGGAACACAGCACCAATGTGTTAGTGCTGTGCGCCGGAGCGGGAACGAGCGCCATGCTTGCGAACGCACTGACAGAAGGAGCCGAAGAATATAACGTGCCGATTACCGCCTCAGCAGGCGCCTACGGTTCCCATTACGACATCATGAAAGACTTCGATATGATCATTTTGGCTCCGCAGGTCGGCTCTTATTATGATGACATTAAAGAAGATGCGGACCGCCTGCATGTGAAACTCATCGCAACGAAAGGAGCGGAATATATCAGTCTCACCAGAAATTCACAAAAAGCCATTCAGTTCATACTGGAGCATACCTCAAAATAG	MNGIIKQIEKGKPFFEKISRNIYLGAIRDGFLTAMPVILFASIFILTAAVPEVLGFTWPKSVSEWLWKVYNYSMGALGLIVAATSAKCLSESMNRKMPKNKGINPVSAMLASVVGFLILSVTQIDGGFSTEYLGTKGLLAAFVSAFITVNVYRFCVLKNITIKMPKEVPGTISQTFKDVFPFAFSVLAMVIVDLLIRNTLNVSFAEALSSLLSPFFTAADGYLGICIIWGMMALFWFVGVHGPSIVEPAIAAIIYANVEANLQLHNAGEQASNVLTVGLGNFVGTMGGTGATLVVPFIFLLFAKSKQLKAVGKASAVPVSFAVNEPLLFAAPIILNPYFFIPFVVTPMVNVCLFKFFVDVIGMNSFMYVLPWATPAPAGLILGTGMGLSAFVLTAVLIIVDSLIYLPFCKAYDKVLAAKEAQHTEPESAPQTLQPAMAGASEDAASVISTNLQESSSALEHSTNVLVLCAGAGTSAMLANALTEGAEEYNVPITASAGAYGSHYDIMKDFDMIILAPQVGSYYDDIKEDADRLHVKLIATKGAEYISLTRNSQKAIQFILEHTSK	PGPT0016960_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|CELLOBIOSE_PTS_SYSTEM,PGPT0016960-lacE-K02788	NA	NA
D1-12_00368	315	lacF		PTS system lactose-specific EIIA component	ATGACAAAGGAAGAATTGCAGATGCTCGGTTTTGAAATCGTCGCCTATGCCGGCGACGCCAGAAGCACTTTATTGAAAGTCCTGAAAGAAGTCCGTGCCGGAAACTTCGAAAACACGGAAGCAGCATTGAAAAGCGCCGATGAAAATTTAACCCTCGCCCACAATGCGCAAACGAAAATGTTAGCTGAAGAAGCTGACGGCAAGGACATGGAATTAGGATTTATTTTCGTTCACGGTCAGGACCACTTGATGACAACCCTTTTGCTCCGTGATCTTATTCAGGATTTTATAGAACTCTACCGAAGCCGCCGATAA	MTKEELQMLGFEIVAYAGDARSTLLKVLKEVRAGNFENTEAALKSADENLTLAHNAQTKMLAEEADGKDMELGFIFVHGQDHLMTTLLLRDLIQDFIELYRSRR	PGPT0016965_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_LACTOSE_DEGRADATION,PGPT0016965-lacF-K02786	NA	NA
D1-12_00369	1401	lacG	COG2723	6-phospho-beta-galactosidase	ATGCTCAAATTACCTCATGACTTTATTTTCGGCGGGGCGACTGCGGCATATCAAGCGGAAGGCGCCACAAAAGAAGGCGGCAAAGGACCTGTGGCCTGGGATGAATTTCTTGAAAAACAGGGAAGATTCAGCCCTGATCCGGCAAGTGATTTTTACCGCCAGTTTCCGGAAGATATTAAACTATGTGAAAAATTCGGAATAAACGGCATCCGCCTTTCTATAGCCTGGACGAGAATTTTCCCTGACGGCACGGGCAAAATCAATCAGGAAGGTGTTGATTACTATCATCGTATTTTCTCAGAGTGCCATAAACGCAACGTCATCCCTTTTGTCACGCTGCATCATTTCGATACACCGAAAGGATTATTTGATCAGGGAGATTTCCTCAACCGCGCTGCAATAGAAGCGTTTGTCAGCTATGCGGAATTTTGCTTTAAAGAATTCAGCGAAATCAGATATTGGAGCACGTTTAACGAAATTTATCCCACAGCCACCAACCAGTATTTACTCGGGGTTTTCCCGCCATCTGTTAAAAGTGATATCACAAAAGTCATTCAATGCCTCCATCACATGATGGTAGCGCATGCGATGACCGTCAATCTTTTTAAAGACGGCGGCTATCCGGGAGAAATCGGTGTCGTTCACTCATTAGAAACAAAATATCCCGCCAGCGACTCAGAAGATGACCGCCACGCCTGTTTTCTGGATGACGCGTTATCAGTGAGATTCCTCCTCGACGCCACCTACCTCGGCTATTATTCTGAGGAAACCATGCGGGCTCTGGATGAAATCTGTGAGGCAAACGGCGCTTCCTACGAGTTTTCAGACAGTGACTTTGACGTGATGAAAAAAGCTTCAACGCGCAATGATTATCTCGGCATCAATCATTATCAATGCCATTTCGTCAAAGCGTACGACGGAGAAACCGTTATTCACCATAACGGAACGGGCGATAAGGGCACTTCGGTCTATAAAGTAAAAGGAATCGGCGAAAGAATTTACAAAGAAGGCCTGAAGCGGACTGATTGGGACTGGCTCATTTATCCTGAAGGCATGTATGACATGCTGATGCGCATCAAACGGGACTATCCGCAATATAACAAAATTTACATTACCGAAAACGGCATGGGCTATAAAGATGAGTTTGAAGACGGCATCATTATGGATAAGGCAAGAATCGACTATTTAAAAGTCTATTTAGAAGCCGTCAGTAAAGCGATTAGCGACGGGGTCAACGTAAAGGGATATTTCTTATGGTCCTTAATGGATTTATTTTCATGGACCAACGGCTACAACAAACGTTACGGTCTTTTTTACGTCGACTTCGACACCCAAAAACGGTATCCGAAAGAATCGGCCTACTGGTACAAACTTGTAAGTGAAACAAAAACAATCATTTAA	MLKLPHDFIFGGATAAYQAEGATKEGGKGPVAWDEFLEKQGRFSPDPASDFYRQFPEDIKLCEKFGINGIRLSIAWTRIFPDGTGKINQEGVDYYHRIFSECHKRNVIPFVTLHHFDTPKGLFDQGDFLNRAAIEAFVSYAEFCFKEFSEIRYWSTFNEIYPTATNQYLLGVFPPSVKSDITKVIQCLHHMMVAHAMTVNLFKDGGYPGEIGVVHSLETKYPASDSEDDRHACFLDDALSVRFLLDATYLGYYSEETMRALDEICEANGASYEFSDSDFDVMKKASTRNDYLGINHYQCHFVKAYDGETVIHHNGTGDKGTSVYKVKGIGERIYKEGLKRTDWDWLIYPEGMYDMLMRIKRDYPQYNKIYITENGMGYKDEFEDGIIMDKARIDYLKVYLEAVSKAISDGVNVKGYFLWSLMDLFSWTNGYNKRYGLFYVDFDTQKRYPKESAYWYKLVSETKTII	PGPT0017845_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0017845-lacG-K01220	NA	NA
D1-12_00370	768	lacR_1		Lactose phosphotransferase system repressor	TTGAACATGTTAAAAAAAGAGCGTCTTTTAAAAATCGTCGATATCGTAAACTCGCGGGGGTTTATTACGGTGAGTGATATTATCGATGAACTGGATGTTTCTGATATGACAGTGAGAAGAGATCTGGACGAGCTGGATAAGGCCGGAAAAATCGTACGTATTCACGGAGGCGCACAGAGCATATCTTATTCCATTGATCACGAATTATCGCATAATGAAAAACTGGGTGTTCAAATGGATGAGAAGGAGAAAATCGCGGAACTCGCAGCTTCATATGTAAATGACGGCGATACCGTTTTTTTAGGGCCCGGCACGACGATTGAACTTTTAGCCAAACACCTGCTGCATAAGCGAATCAGGATTATCACAAACAACTATCCCGTATTTGATATTTTAAAACATGGTGACACTGCGGATACCATCCTGATTGGCGGCGATTTCCGAAAAAATACCGGTGCCTTCGTCGGACCCATCGTGAACGGCAATCTGCAGAAATTCAATTTTACGAAAGCTTTCATCAGCGCCAACGGCATACATAATGATGAGATTTCTTCTTACAGCATTGAAGAAGGGGAAGCCCATCAAATCGCGCTGAATAATTCGCGGACGAAATTTTTACTGGCGGATAATAAAAAATTCAACCGGGAAGATTTTTACGTGTTCTATAACTTGCATGATATGGATTATCTGATTACGGATGATAAAGTGATGAAAGATGTTCAAATTCATTACGAGCAATATGTAGATGTCAAAATCGCAAAAAAATAA	MNMLKKERLLKIVDIVNSRGFITVSDIIDELDVSDMTVRRDLDELDKAGKIVRIHGGAQSISYSIDHELSHNEKLGVQMDEKEKIAELAASYVNDGDTVFLGPGTTIELLAKHLLHKRIRIITNNYPVFDILKHGDTADTILIGGDFRKNTGAFVGPIVNGNLQKFNFTKAFISANGIHNDEISSYSIEEGEAHQIALNNSRTKFLLADNKKFNREDFYVFYNLHDMDYLITDDKVMKDVQIHYEQYVDVKIAKK				NA	NA	NA	NA	NA
D1-12_00371	684	yqaB	COG0637	Fructose-1-phosphate phosphatase YqaB	ATGAAAGGGGTTATTTTTGATTTCAACGGCACGATGTTTCAAGATTCGCATCTGCACGAAAAAGCATGGTTTTTCATGGTGAAAAAATACGCGCCGAAAACCATTTCTGATGAAGACATTTTCGTTAACATTCACGGGAGAACAAACAGTGAAATCCTGACGTATTTTATTTCCGGCGATTTAACAAATGAAGAAATCGAGAAGCTGTCTTTTGAAAAAGAAGCCTACTACAGAGAATTATGCCTTGGAAACAAAGATGAGTTAAAGCTGACGAAGGGACTGACCGGCGTATTGAACCATCTGAAAAAATCAGAAACGCCAATGACCATTGCCACGGCTACGGTAAAGGAAAATGTCGAGTTTTACTTTGACGTCTTTCAGTTGGATCGGTGGTTTGATTTTGACAAAGTCACGTTTGATGACGGGAGCTTCCCCGGAAAACCGGCGCCGGATATTTTTCTCATCGCATCGGAAAAGTTAGGCCTCAGACCTGAAGATTGCTTAGTCATTGAAGATGCCTTTTCGGGGCTCACAGCGGCGAAAAAAGCAGGTGCAGGCAAGATTATGGCCATTGACCCGCTCGGAAAAAACCGCGCGTTATTTGAAGAAAAACAGCTGGCGGGTGACGGGATACTGACAGATTTCACCTCGTTTTTTGAGGTGATTGCCGGACATTCTGTTTGA	MKGVIFDFNGTMFQDSHLHEKAWFFMVKKYAPKTISDEDIFVNIHGRTNSEILTYFISGDLTNEEIEKLSFEKEAYYRELCLGNKDELKLTKGLTGVLNHLKKSETPMTIATATVKENVEFYFDVFQLDRWFDFDKVTFDDGSFPGKPAPDIFLIASEKLGLRPEDCLVIEDAFSGLTAAKKAGAGKIMAIDPLGKNRALFEEKQLAGDGILTDFTSFFEVIAGHSV	PGPT0017720_407	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017720-pgmB-K01838	NA	NA
D1-12_00372	348			hypothetical protein	ATGTTTACGATCGTTAAAATCATTGTCTCCGCTGCTATTATTGGGATTATCACTGAAATATCAAGAAGAAGCCCGAGTTATGGAGGTATTATAGCGGCATTACCAATTGTCAGTATGCTGAGCATGGTTTGGCTGTACATCCAAGGCGAAACGAAGGAGACATTAAGTCATTTTGCATTCAGCGTGGCTTCCGGCATCCCCTCCACAGTCATTATGCTGGTCATTATCGGCATCGCCCTTCGCCATTCACTGTCTTTCATTGCCGCATCAGGGCTTGGACTTACAGGATGGCTGGTTTTCTTGTATGCTCAGGATTTTATCGTAAAACATATAAACAGTCAGCAATAA	MFTIVKIIVSAAIIGIITEISRRSPSYGGIIAALPIVSMLSMVWLYIQGETKETLSHFAFSVASGIPSTVIMLVIIGIALRHSLSFIAASGLGLTGWLVFLYAQDFIVKHINSQQ				NA	NA	NA	NA	NA
D1-12_00373	426			hypothetical protein	ATGTCAAACGAAATCATGCGATTAAATGACCTCTGGACAGATATTTACTACCGGCTCCGTTATCAGCACCATGAAAAAATCACTCACCAAGGTGTACGGATTCTGCAAGTCATTCAAAAAGAGAAGGCAGTCGGAATAAAAGACATTGCCGAAGCGATTCAAGTATCACATAATACCGCTTCGGAACATATAAAGCGGTTACTGCAGAAAAAGTACGTTTATAAAACCAGAAGTGTTGAGGATGAGCGGAAAGTCATTTTAAAACTTACCAGTTTGGGGGCGGATGTCCTTTACCGGCATTCCGGTCTTGATGAAGAAAAGCTTAAACAGCTTCTTTTTGACAGCATGAATCATGAAGAAAGAACACTTGTCTTAAAAGCATTCAGTTTGATGAAGGAGCGTGCTGAAGATGTTTACGATCGTTAA	MSNEIMRLNDLWTDIYYRLRYQHHEKITHQGVRILQVIQKEKAVGIKDIAEAIQVSHNTASEHIKRLLQKKYVYKTRSVEDERKVILKLTSLGADVLYRHSGLDEEKLKQLLFDSMNHEERTLVLKAFSLMKERAEDVYDR	PGPT0013155_4795	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-12_00374	636	sapB_1	COG1285	Protein SapB	ATGGAACTTGATTTTGTGATTCGTCTGGCGGTTGCGGGTCTGCTTGGGGCTCTTATTGGATTAGAGAGAGAATTCAGGGCGAAGGAAGCCGGTTTGAGGACGCATTTTTTAGTGGCCGTCGGCAGCGCCTTGATGATGATCGTTTCTAAATACGGCTTTTTTGATTTGTTATCCAACAGCCATACGTCCTTTGATCCGAGCCGGGTGGCGGCGCAGGTCGTCAGCGGCGTCGGATTTTTAGGAGCCGGCACGATTATTTTGCAGCGGCATGTCGTGCGGGGGCTTACGACGGCCGCGGGGATTTGGGCTACGTCGGGGATCGGGCTGACGATCGGGGCGGGTATGTATGTCATCGGCATCAGCGGCACGATTTTGGCGTTAATCGGGCTTGAACTGTTAAATTTTCTGTTTAAACCGGCGGCGCATTCTTTGTCTGTCAGTTTCAGGATTGAGGAGAAAGCCGTCATGCATGATATTTTAACTTCTCTTGAGGAAAAAGGAATTCTTATTACGTCCTATGAATTGAATAAGGCGGTGCTTGAAGTGAAGGGAAGGGTGAAAAGCAAAAGCGGGAAAGCGGCGGTAATGGAAAAAGTTCAAGCTCTCCCGTATATTCTGTCGGTCAAAGTTGAATAG	MELDFVIRLAVAGLLGALIGLEREFRAKEAGLRTHFLVAVGSALMMIVSKYGFFDLLSNSHTSFDPSRVAAQVVSGVGFLGAGTIILQRHVVRGLTTAAGIWATSGIGLTIGAGMYVIGISGTILALIGLELLNFLFKPAAHSLSVSFRIEEKAVMHDILTSLEEKGILITSYELNKAVLEVKGRVKSKSGKAAVMEKVQALPYILSVKVE	PGPT0014005_2221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
D1-12_00375	234			hypothetical protein	ATGGATATGGTCTGGGGAAATAATAAGGCGGCCGCGGATAATGATATGGCACCCGTTCGTGGCTCTCAGCTGTGTACTCATGATAGAAAGGATCGTACAAGAGGAAAACCTCATTTTCAAATGTTGGTTCCGTTTACCTTATTCCTGTATGCCCGGTATGGTGTACGTACAACGGGCAAAAAAAAGACGCCGGTTCTCATCCGGCATCTTTTTTTACACTTTCACATCAATTGA	MDMVWGNNKAAADNDMAPVRGSQLCTHDRKDRTRGKPHFQMLVPFTLFLYARYGVRTTGKKKTPVLIRHLFLHFHIN				NA	NA	NA	NA	NA
D1-12_00376	174	yjfB		putative protein YjfB	ATGGATATCCCTGCGTTATCAATCGCTATGCACCAGGCATCTCTGGCGCAGAATGTAAATATCGCTTTAACAAAAACGGTCATGCAGCATGCACAGGCTGCGGCGGAAGAAACAGTGAAAATGCTGCCGTCCCAGCACCCGACTGCCGGACATTCAATTGATGTGAAAGTGTAA	MDIPALSIAMHQASLAQNVNIALTKTVMQHAQAAAEETVKMLPSQHPTAGHSIDVKV				NA	NA	NA	NA	NA
D1-12_00377	402			hypothetical protein	GTGATTAGACATCCATTGACATACGGAATATGTACCGTTTTTATCATCGCCCTCGGTTTGCTGTCCAGAACCGCATACATCACCGCCCTATTGCCCGGCATCATAAACGCTTATTTAGGAGATGCCTTGTGGGCGGCAATGATTTTTACAGGATTCGGGCTTTTCTTTCGGCACATCCGGACGGAAACAGCCGCATTTTTGAGCCTCTCGTTTTGCTGTCTGATTGAATGCAGCCAGCTGTATCACGCGCCTTGGATTGACGCAATCAGAAGCAGCACGCTCGGCGGGCTGATCCTCGGCTGGCAATTTGTCTGGAGTGACATTTTTGCCTATACTCTCGGGGTATGCGCTGCCGCACTTTTAGAATGGGCCGTAAAAAGAAACCGCCAGTCCCCTTCATAA	MIRHPLTYGICTVFIIALGLLSRTAYITALLPGIINAYLGDALWAAMIFTGFGLFFRHIRTETAAFLSLSFCCLIECSQLYHAPWIDAIRSSTLGGLILGWQFVWSDIFAYTLGVCAAALLEWAVKRNRQSPS				NA	NA	NA	NA	NA
D1-12_00378	570	yjgB		putative protein YjgB	ATGTTGAAGAAAAAAACACTCGCCACGGGATTATCGGCAGTGATGCTCACGGGATGCGCATTCGGCGCAGAAGCATTTTCGGTTACACAGCCCGTCCATGCCGCAGCCGCTTCAAAAACGGAAAACCAACGTGCACAAGAACTGGTGAATAGCCTTTACCAATCGGCGTTTAAAGGGGAAATGCCGCAAAATGTGAAAGGCCTGAAAATCAACCAAAGCACAAGACAGGACGTTTACAATAAAATCGGCGAGCCGGAACAAAAAGCAGACAGCCGCAACCCATTTGATTTATACAGCTGGAACATGGGAAACCCCGGTTATGGATTTTCCTATCATAAAAACGGAAAAATCTCGGAAATACGCTATTTCGGAACAGGGGTCGAGCGGCGCTTAAACCTCGGCAGCGTCACACCTGACGTCTTAAGCAAACAAATCGGCAGCGCTGACAAAATCCTGACAGTGCCAAAAACGGGCGAAACAGATTACGTCTACCATACGGGGCAGTATGAGCTCCGCTTCGTCATCGGCAGTGATCAAAAAGCAGACCACGTCAACCTAAAAGCCAGATAA	MLKKKTLATGLSAVMLTGCAFGAEAFSVTQPVHAAAASKTENQRAQELVNSLYQSAFKGEMPQNVKGLKINQSTRQDVYNKIGEPEQKADSRNPFDLYSWNMGNPGYGFSYHKNGKISEIRYFGTGVERRLNLGSVTPDVLSKQIGSADKILTVPKTGETDYVYHTGQYELRFVIGSDQKADHVNLKAR				NA	NA	NA	NA	NA
D1-12_00379	2991			Putative formate dehydrogenase	ATGTATAGAGGGGGACAGAAAGGGGAAAAGAAAATGGCTGATACAAAGAAAGTTACAATCAATGGGGTTGAAATGGAAGCGCCGGACGGTCAAACCGTTTTGCAGCTTTTGAACAATAGTTCAATTGACGTGCCGCACGTGTGTTATCACCCGAGTCTCGGGCCGATTGAAACGTGCGATACCTGTATCGTCAATGTTAACGGGGAACTGGTGCGTTCGTGTTCCGCGCAAATAAAGGACGGAGATGTCATCGATACGCTTTCGTCCGATGTAAAAAAAGCGCAGATTATCGGCATGGACAACATTTTGCACAACCATGAATTGTACTGCACGGTCTGTGATTACAACAATGGGAGCTGCGAAGTACATAATACCGTAAAGGAAATGAAAATCAATCATCAAAGCATTCCGTTCGATCAAAAACCGTATCCTAAAGATGAATCAAATCCGTTTTACCGATATGATCCCGACCAGTGCATCCTATGCGGCCGCTGCGTCGAAGCCTGTCAGGACGTACAGGTAACCGAAACCTTAAGCATTGATTGGGAGCGGAAACGCCCGCGGGTCATTTGGGATCAGGATGTGCCGATCAATGAATCATCATGTGTTTCCTGCGGACATTGCTCGACGGTATGTCCGTGCAATGCCATGATGGAAAAAGGCATGGAAGGCGAAGCGGGGTATTTAACAGGCATTAACCAAGAGACGCTTCGGCCGATGATTGACATCACAAAAGGGGTCGAAACCGGGTACGGATCGATTTTGGCCATATCGGACATGGAATCGGCCATGAGGGATGAAAGAATCAAAAAAACGAAAACCGTATGCACTTACTGCGGTGTCGGCTGCAGTTTTGATATATGGACGAAAGGAAGAGACATTTTAAAGGTTGAGCCTCAGGCCGAGGCGCCCGCAAATGGCATTTCGACGTGTGTGAAAGGGAAATTCGGCTGGGATTTCGTCAATAGTGAAAAGCGCCTTACCAAACCGCTTATCCGGGAAGGAGACTCGTTTCGGGAGGCGGAATGGGATGAAGCGCTGCAGCTGATCGCTGATAAATTTACCGATATAAAAGAACATTTCGGCCCGGATGCACTTGCCTTTATCACATCTTCCAAATGCACGAATGAAGAATCATACGTGATGCAGAAGCTTGCAAGAGCTGTCATCGGCACAAATAATGTCGATAACTGCTCACGCTACTGCCAGTCTCCCGCCACGGCGGGATTGTTCAGAACGGTCGGATACGGCGGTGATTCGGGGTCGATTACAGATATAGAAAAAGCTGAGCTCGTGCTGATTATCGGTTCAAATACGTCTGAGTCTCACCCCGTCCTGTCCACACGCATTAAACGTTCTCATAAGCTGCACGGACAGAAGCTCGTCGTCGCTGACTTGCGAAAACATGAAATGGCCGAGCGCTCCAATGTGTTTTTCCAGCCGCGTGCCGGATCAGATATCGTCTGGCTGAATGCCGTATCGAAATATCTGCTTGATCACGATTTGGCGGATACTGCATTTCTGAAGGAGAGAGTGAACGGATTAGATGAATTCGTGAAAAGTCTTGAACCTTATACAATGGAATATGCGGAAAAACATACCGGTGTGGACAAGGATACCTTAATCAAAGTGGCTCGGATGATTCATGAAGCCGGCAGCGTGTGCGCACTGTGGGCGATGGGGGTCACCCAGCATATCGGAGGAAGTGATACGAGCACGGCCATTTCCAACTTGCTTCTCGTGACCGGAAATTACGGCAAGCCCGGCTCAGGATCATATCCGCTTCGGGGCCATAATAACGTGCAGGGAGCCAGTGATTTCGGCAGTATGCCTGACAGCTTCCCCGGCTATGAAAAAGTAACGGATGAAAAAGCCCGCAAAAAGTATGAACAGGGCTGGGGAACAGACCTGCCGAAAGAAATCGGAATGACAAATCATGAAATGATCGAAGGCATCCACTCAGGAAAACTGAAGTCCATGTATGTAAAAGGAGAAGAAATGGGGCTTGTCGACTCCAATATTAACCATGTTCATGCCGCATTTGAAAAGCTTGATTTCTTCGTTGTGCAGGATATCTTTCTTTCGCGTACGGCCGAGTTCGCCGATGTCGTGCTTCCGGCAAGCCCGAGCCTTGAAAAAGAAGGGACGTTTACGAATACGGAACGGAGGGTGCAGCGCCTTTACGAAGTGTTTGAACCGCTGGGCGATTCAAAGCCTGATTGGCAGATCATTACGGACATCGCCAACCGTCTGGGCGCTGATTGGCACTATGAACATCCGGCAGACATTATGGAAGAAGCGGCAATGCTTTCGCCGCTCTATGCAGGCGTCACTTACGAACGTCTCGAAGGCTACAATTCACTGCAATGGCCGGTTGCAGCGGACGGAACCGATTCACCGCTTTTATTTACGGATAAGTTCCCGTTTTCAGACGGCAAAGCGATTTTATATCCCGTTCAGTGGACCGAGCCGAAAGAATTTGGTGAAGAATATGATATCCATGTGAATAACGGGCGGCTGCTCGAGCATTTTCACGAAGGAAATCTGACTTACCGATCAAAAGGAATATCCGAAAAAACACCGAGTGTGTTCCTTGAGGTCTCGCCCGAACTCGCCGAAGAAAGAGGGCTGGAAGACGGAACGCTTGTCCGTCTGACATCACCGTACGGAAATGTGAAAGTCAAATGCGTCATCACAGACAGGGTAAAAGGCAAACAAGTCTATCTCCCGATGAACGATTCAAAAGACGCCGCCATTAACCTTTTGACAAGCAGCTATGCGGATAAGGATACCGATACACCGGCTTATAAAGAAACATCAGCGAAGATGGAGATTTTGAAAAAAGAAGGCGTTAATCCGCTTCCGAAAATCAATTTCCGTTACGGAAACCCGCAGCCGCAGATCGGTGTCCGGGTTGAGCGGAAATGGGCGCGTAAAGATTATGTATTTCCGGGAGACGCCGTAAAAAGGGGGAAACAGCAAAATGGCTAA	MYRGGQKGEKKMADTKKVTINGVEMEAPDGQTVLQLLNNSSIDVPHVCYHPSLGPIETCDTCIVNVNGELVRSCSAQIKDGDVIDTLSSDVKKAQIIGMDNILHNHELYCTVCDYNNGSCEVHNTVKEMKINHQSIPFDQKPYPKDESNPFYRYDPDQCILCGRCVEACQDVQVTETLSIDWERKRPRVIWDQDVPINESSCVSCGHCSTVCPCNAMMEKGMEGEAGYLTGINQETLRPMIDITKGVETGYGSILAISDMESAMRDERIKKTKTVCTYCGVGCSFDIWTKGRDILKVEPQAEAPANGISTCVKGKFGWDFVNSEKRLTKPLIREGDSFREAEWDEALQLIADKFTDIKEHFGPDALAFITSSKCTNEESYVMQKLARAVIGTNNVDNCSRYCQSPATAGLFRTVGYGGDSGSITDIEKAELVLIIGSNTSESHPVLSTRIKRSHKLHGQKLVVADLRKHEMAERSNVFFQPRAGSDIVWLNAVSKYLLDHDLADTAFLKERVNGLDEFVKSLEPYTMEYAEKHTGVDKDTLIKVARMIHEAGSVCALWAMGVTQHIGGSDTSTAISNLLLVTGNYGKPGSGSYPLRGHNNVQGASDFGSMPDSFPGYEKVTDEKARKKYEQGWGTDLPKEIGMTNHEMIEGIHSGKLKSMYVKGEEMGLVDSNINHVHAAFEKLDFFVVQDIFLSRTAEFADVVLPASPSLEKEGTFTNTERRVQRLYEVFEPLGDSKPDWQIITDIANRLGADWHYEHPADIMEEAAMLSPLYAGVTYERLEGYNSLQWPVAADGTDSPLLFTDKFPFSDGKAILYPVQWTEPKEFGEEYDIHVNNGRLLEHFHEGNLTYRSKGISEKTPSVFLEVSPELAEERGLEDGTLVRLTSPYGNVKVKCVITDRVKGKQVYLPMNDSKDAAINLLTSSYADKDTDTPAYKETSAKMEILKKEGVNPLPKINFRYGNPQPQIGVRVERKWARKDYVFPGDAVKRGKQQNG	PGPT0019635_617	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
D1-12_00380	543			hypothetical protein	ATGGCTAAAGCAATCAGCGGCATCCGAAAACAGACCGTCACAGAAGAAGACAAACGAAAAAAGGACTTAGAAGAGATCGAGACGGCTCTTTTACGAAATAAAGACGCGATTTTGGAATCTCTGCACATTCTTCAGCACATGAACGAGCGCGGCGTTTTGGCGCTTCTGCGCGGGCTCTTCGGCCAGGGAGACAAAGTGATGGATATCCTCGTGAAGAAGGCGAATACTCCGGAAACGGCCAATATGCTGAAAAATCTCCTGCTGTTAAGCGGCGTTCTCGGCATGCTCGATGTAAAACAGCTTGAGCCGTTTATCGTTAAAATCAATGCGGGCGTCACAAAGGCCGTCGAGGAAAAAGACAGCGGCAGGAAGACGGGGTATTTTGATATCGTCCGCGCTTTAAAAGACCCGGAAATCAACAAGGCCGTCACTCTGCTGTTTTCTTTCCTGAAAGGCATGGGCGCTGATACGGACGATATGGAAAGAAATACGCAGCCTCCTGAAGACCAAAAGCAGCACCAGAAACCGCAGACGAATGAGTGA	MAKAISGIRKQTVTEEDKRKKDLEEIETALLRNKDAILESLHILQHMNERGVLALLRGLFGQGDKVMDILVKKANTPETANMLKNLLLLSGVLGMLDVKQLEPFIVKINAGVTKAVEEKDSGRKTGYFDIVRALKDPEINKAVTLLFSFLKGMGADTDDMERNTQPPEDQKQHQKPQTNE	PGPT0015032_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015032-yjgD-NA	NA	NA
D1-12_00381	159	yjiB_1	COG2124	Putative cytochrome P450 YjiB	ATGAGTAAGCTGAGGAGCACGAGACAAGCCATCCAAAGAACCCTGATGAAAGGAAAAAACGGCCTGGACGTATACAACCCTTTTCCTTGGTACGAAAAAATGAGACGGGAAAGCCCTATACACTTTGATGAAGAAACGAAGGTTTGGAGTGTGTTTTGA	MSKLRSTRQAIQRTLMKGKNGLDVYNPFPWYEKMRRESPIHFDEETKVWSVF	PGPT0006735_87	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION-CYTOCHROME_P450,PGPT0006735-cpx|cyp109E1-K23138	NA	NA
D1-12_00382	1011	yjiB_2	COG2124	Putative cytochrome P450 YjiB	ATGACTGATGTGAAAAGCTCGATTGCAAAGTCCATGCTGAATATGGACCCGCCGAAGCATACCCAAATCAGATCTGCCGTCAATCGTGCTTTCACTCCCCGCGTCTTGAAGGAATGGGAGCCGCGAATTAAAGACATTACCGATCATCTCCTGAAACAGGCAAAGAACAAAGGGCGGATTGATATCGTTAAAGATCTCTCTTACCCTTTGCCGGTCATGGTGATTTCAGAATTATTAGGCGTTCCGTCCGAACATATGGATCAGTTTAAAAAATGGTCGGACATTCTCGTCAGCATGCCGAAAGATGCGAGTCCTGAAGCGGCGGAGAAAAATCAGCAGGAACGTGACCAATGTGAGGCGGAGCTGGCGGCGTTTTTTGCGGAAATAATAGAAAGCAAACGAAAAAAGCCCGGCCAAGACATTATTTCTATTTTGATAAAAGAGGAAGAAGAGGGAGAGAAGCTCACGGCAGAAGATCTGATCCCGTTTTGCAACCTGCTTTTAGTGGCGGGAAATGAAACAACGACTAATCTCATTTCAAATGCGGTTTACAGCATATTAGAAACGCCCGGCCTTTATGAAGAGCTGAGACAGGACCCTTCTCTCATCGCGCAAACGGTGGAAGAAACGCTGCGTTTTCGCGCTCCCGCTCCGTTTGTCAGAAGGACGGTCCGGCACGACACTGAACTGCGCGGACGCCGCTTGAAAAGCGGGGAGATCGTTCTCTGCTACGTTGCATCTGCCAACCGTGATGAAAACAAATTTGAGAAGGCGGGCGTATTTGATATTCATCGCCAATCGAATCCGCACCTTTCCTTCGGATTCGGCGTACACTTCTGCTTAGGCGCACCGCTTGCCAGACTTGAAGCGGAAGCCGCGCTGAAAGGAATTGTAAAAACCTTTTCACACCTTGAGCCCGTCGGGATTGAGCCGATCCGAAACAGTGTCATGTACGGGCTGGAGTCTTTAGAAGCGGAGATAAACGAAAGTGAGGGAGAAGAAAAAAGATGA	MTDVKSSIAKSMLNMDPPKHTQIRSAVNRAFTPRVLKEWEPRIKDITDHLLKQAKNKGRIDIVKDLSYPLPVMVISELLGVPSEHMDQFKKWSDILVSMPKDASPEAAEKNQQERDQCEAELAAFFAEIIESKRKKPGQDIISILIKEEEEGEKLTAEDLIPFCNLLLVAGNETTTNLISNAVYSILETPGLYEELRQDPSLIAQTVEETLRFRAPAPFVRRTVRHDTELRGRRLKSGEIVLCYVASANRDENKFEKAGVFDIHRQSNPHLSFGFGVHFCLGAPLARLEAEAALKGIVKTFSHLEPVGIEPIRNSVMYGLESLEAEINESEGEEKR	PGPT0006735_14	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION-CYTOCHROME_P450,PGPT0006735-cpx|cyp109E1-K23138	NA	NA
D1-12_00383	1185	oleD_1		Oleandomycin glycosyltransferase	ATGAGAAAAACACACATCGCCATTATTAATGTGGCCGCTCACGGTCATGTCAATCCCACGCTGCCTGTAGCCGAGGAACTTGTCAATCGCGGGTATAAAGTGACATTCGCTACGACTGAGGAATTTGAAGCTTCCGTTGCCAAAACGGGCGCCATTCCCGTTTTATACCGCACAAGCATAAAGGCGGACCCGGAGACGATAAAAGAACGGGTAAATAAAAATGACGCGTTTGTGATGTTTCTGGAAGAAGCGGTTGAAGTGCTTCCGCAGTTGGAAGAGCTGTACAAAGACGACCTTCCTGACATCGTCCTGTTTGATTTTTTAGCTCTTGCCGGAAAATTGTTTGCGGATAATGGCGGCATCCCGGCCGTAAAGTTCTGCCCGAGCTATGCAATGAATGAGTATTTTCAATTAGGAAGAGACGAAGAAACACTGGAAGCGGCCAAACAGGCGATAGAAGAATATCAGGAGCAGATTGAAAATGAACAATTGAAACGGATGACAATGGAAGAATTTTTTATGCCTGAAAAACTGAATATTGTCTTTATGCCAAGGGACTTTCAGCCGAAACAGGAAACCTTTGATGAACGATTCTGTTTTGTGGGTCCGTCTCTTGGAGAACGCACAAATACGGGAAGTCTGGAAATTGATGCAGCCGATGACCGTCCGCTTATGCTCATCTCACTGGGAACGGCGTTTAACGCCTGGCCTGAATTTTACCGGATGTGTATTGACGCGTTTCGGGACTCGGACTGGCGGGTTATTATGTCAGTCGGCACAACAATTGATCCGGAAAGTTTTTCGGATGTCCCCGATCACTTTATCATCCGCCAGCACGTTCCTCAGCTTGATGTGCTGGAGAAAGCAAAGCTGTTCGTATCTCACGGCGGGATGAACAGTACAATGGAGGCGATGAATGCGGGTGTCCCGCTCGTTGTCGTTCCGCAAATGCACGAACAAGAGGTCACCGCAAAGCGTGTGGATGAATTGGGGCTTGGCGTGCATCTGCCGCCGAAAGAAGTCACTGCGGCCCGTTTGCAAAAAGACGTTCAGAACGTATACGGCGATAAGAACATCCTCAGCCGCGTGAAAAGCATGCAGCAGAAAATAGAAGAAACCGGCGGCCCCAAACAGGCTGTTTGCGCCATTGAAGAATTTTTGAAAACGGCGGCCGTCGAAAATTGA	MRKTHIAIINVAAHGHVNPTLPVAEELVNRGYKVTFATTEEFEASVAKTGAIPVLYRTSIKADPETIKERVNKNDAFVMFLEEAVEVLPQLEELYKDDLPDIVLFDFLALAGKLFADNGGIPAVKFCPSYAMNEYFQLGRDEETLEAAKQAIEEYQEQIENEQLKRMTMEEFFMPEKLNIVFMPRDFQPKQETFDERFCFVGPSLGERTNTGSLEIDAADDRPLMLISLGTAFNAWPEFYRMCIDAFRDSDWRVIMSVGTTIDPESFSDVPDHFIIRQHVPQLDVLEKAKLFVSHGGMNSTMEAMNAGVPLVVVPQMHEQEVTAKRVDELGLGVHLPPKEVTAARLQKDVQNVYGDKNILSRVKSMQQKIEETGGPKQAVCAIEEFLKTAAVEN				NA	NA	NA	NA	NA
D1-12_00384	186			hypothetical protein	ATGGAAACAAAAAAAGAGTTCGAGACAAAAGGATACGATACTTCGGTCATTTATGAGTTCAATGAATATCCTGATGTTCACAGCGGCCGATGTGACAATTGCGACTACACGCTGTTTAAAAGTTCAGTGAAGGGCGGAAAATTTTTGAGGGAATGCCGGAGATGCGGCATGAAGAAAAACATATAA	METKKEFETKGYDTSVIYEFNEYPDVHSGRCDNCDYTLFKSSVKGGKFLRECRRCGMKKNI				NA	NA	NA	NA	NA
D1-12_00385	807			hypothetical protein	TTGAACGGGAAACGGATTGCCATCGGCGGTTCGCGGAAAACAGAAGAGATCACAAAATTAATAGAAAAGCAGGGCGGAACGGCAGTCGTCCGTTCCCTCCAAGGAACCGTATACCTGGCGGAGGATCAAATTGAACCCGACGTAAGAACATTTGCCGGGCAAAAAGCCGACTGGGTGATATTCACCACAGGCATCGGTACGGAAACGTTATTGTCGGTATCGGAAAAAATCGGTCTGAAAGAAGAATTTTTAGCGGCCGTTCATGAAGCGAAAATCGGCTGCAGAGGCTATAAAACATATGCGGCCTTAAAAAAGCTCGGCATCACGCCGCATGCCTCAGATGAAGACGGTACAACAAGAGGGCTGATCCGCTCCTTGGAACGATTTGACTTTAAAGATAAAAAAGTCATGATACAGCTTCATGGCGAAAAAGCGCCGGTCTTAACGGAGTTCCTTGAGAAAAACGGAGCGGAGGTTTTCCCTGTTCTGCCGTATCAGCATATTCCGCCTGAAAGGGAGACGGTCGATAAACTGCTGGGAGAGCTGTTAAACGGAGAGGTCGATGCCGTATGTTTTACGACAGCCATTCAAGTGCGCTCTCTCTTTGATTATGCAAAAGAAAAAGGGTTCACAAAAGAATTGCAGCAGGCATTCGAAAAACATGTGCTTGCCGCCGCAGTCGGCAAAGTGACGGCTGAAGCGATCCGGGATGAAGGGGTAAAGAGGGTCCTTGCTCCGGACATTGAGCGGATGGGAGCGATGATTATTGAATTATCCCGTTACTATGAATCTCTGACCTTGTCATAA	MNGKRIAIGGSRKTEEITKLIEKQGGTAVVRSLQGTVYLAEDQIEPDVRTFAGQKADWVIFTTGIGTETLLSVSEKIGLKEEFLAAVHEAKIGCRGYKTYAALKKLGITPHASDEDGTTRGLIRSLERFDFKDKKVMIQLHGEKAPVLTEFLEKNGAEVFPVLPYQHIPPERETVDKLLGELLNGEVDAVCFTTAIQVRSLFDYAKEKGFTKELQQAFEKHVLAAAVGKVTAEAIRDEGVKRVLAPDIERMGAMIIELSRYYESLTLS	PGPT0003665_1346	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
D1-12_00386	762	fetB	COG0390	putative iron export permease protein FetB	ATGAATGATCTTTCTCTGTTACTAACAAGTATATTTGTCATTATCGCTTTATTCCTGTCTAAATCTTTTAAAGCCGGCGTCGAAAAGGATATGATCGTCGCAACCGTCAGGGCCGTCATTCAGCTTCTCATCATCGGCTATGTGCTGTCGCTGATTTTTCGCGGTGATCACCCGGTGTTTATCATATTAATGGTGCTTCTCATGCTCACGGCCGCTTCGCACAATGTCGCCAAACGGAAAAAAATGCGGATCGGCTCATTTTGGCGCGTTTTTCTGACACTGGCGATCGTGGAAGTTGTGACGCAGGGACTTTTACTGACCCTGCATATCATTCCGTTCACTTCAAGATATGTCATTCCGATAAGCGGTATGGTCATCGGAAACTCCATGGTGCTCTCAAGCCTGTTTTTAAGCCGGCTCAGTTCGGAAGCAGACCTGCGGAAAGAAGAAATCCAGCTGATTCTCTCTCTCGGAGGGACGCCTAAGCAGGCCGTCCGGCAGATATTGACGTCCAGTATGAAGCTCAGTATGATCCCGACGCTTGAAAGCCAGAAAACATTGGGTCTCGTTCAGCTTCCCGGCATGATGACGGGGCAGATTTTAGCGGGGGCTGATCCGATACAGGCGGTGCGCTTTCAGCTGCTGATCGTTTTTACAACGATGGCCTCCGCTCTTCTTACATGTATCATACTCAGCGCCTTGACATATCCTTCCCTTTTCACGGAACACTGGCAATTAAAAAAATTCAGCAGGGAAGCGTAG	MNDLSLLLTSIFVIIALFLSKSFKAGVEKDMIVATVRAVIQLLIIGYVLSLIFRGDHPVFIILMVLLMLTAASHNVAKRKKMRIGSFWRVFLTLAIVEVVTQGLLLTLHIIPFTSRYVIPISGMVIGNSMVLSSLFLSRLSSEADLRKEEIQLILSLGGTPKQAVRQILTSSMKLSMIPTLESQKTLGLVQLPGMMTGQILAGADPIQAVRFQLLIVFTTMASALLTCIILSALTYPSLFTEHWQLKKFSREA				NA	NA	NA	NA	NA
D1-12_00387	738	pstB3_1	COG1117	Phosphate import ATP-binding protein PstB 3	ATGAAAGAAGAAACTCCGGCAATATCTTTTCTGTCAGCCGGCAAACGCTTTGAACAAAACAATACGTCCTTTGATGTCCTAAGCCGTGTAACCGGACATATTCAAAAAGGTTCTATCACGGCGTTGATAGGGCCTTCCGGCGCGGGAAAAAGCACATTGCTGTCACTTTGCAATCTGATGAATACACCTGATGAAGGGGAAGTGCTTGTATTCGGAAAAGAAATAAGACACTGGGACATCAGAGAGCTCAGAAAAACCGCGGGCCTTGCATTTCAATCAGCTCCCGTCCTCGAGGGAACGGTGCGGGACAACCTTCTGCTCGCAGAAAAACTCCACGGGGCGCAGCACTATACGCCTGAAGAGCTCGCAGATTTTACAGATCTTCCGCGCGAGCTTCTGGATCGAAATGCAAAAGAATTATCCGGAGGTCAGCGGCAGAAGCTCTCATTAGCGCGAACTCTCGCCGGACTGCCGTCCATCCTGCTGCTGGATGAAATCACATCGGCGCTGGACCCGTCATCCGTTCTCACCATTGAGAAACTGATTACGAAACTCCATCGGCAAAAACAGCTGACGATCCTGTGGATCACCCATAACCTTGAACAAGCGGAACGATTATCCGATACAGTATGGTTTATGGCTGAGGGACGGCTTTTAGAGACCGCGGAAACGAAAACGTTCTTTAAAGAACCGAAACACGAAAAGGCCCGGGCGCTTTTACAAGGGAGCGGGTGCTGA	MKEETPAISFLSAGKRFEQNNTSFDVLSRVTGHIQKGSITALIGPSGAGKSTLLSLCNLMNTPDEGEVLVFGKEIRHWDIRELRKTAGLAFQSAPVLEGTVRDNLLLAEKLHGAQHYTPEELADFTDLPRELLDRNAKELSGGQRQKLSLARTLAGLPSILLLDEITSALDPSSVLTIEKLITKLHRQKQLTILWITHNLEQAERLSDTVWFMAEGRLLETAETKTFFKEPKHEKARALLQGSGC				NA	NA	NA	NA	NA
D1-12_00388	984			hypothetical protein	ATGAAAGCCATCGTGATCGGAATATTGGCATCTCTGTTTTTTGCAGTCACCTTTATTTTAAACAGGGCGATGGAGCTTTCCGGCGGAAGCTGGATGTGGAGCTCTTCCCTGCGTTTTCTTTTTATGGTTCCGTTTTTATTTTTGATCGTTTATGCGAAAGGAAAATGGGTGCCGCTCTGGCATGAAATCCGAAAAAAACCGTTGTTTTGGCTGAAGTGGAGTTTTACCGGGTTCGTGCTGTTTTATGCCCCGATTACGTTTGCGGCGGCATATGGGCCGGGCTGGCTGATCGCCGGCACGTGGCAGATTACAATTGTCGCGGGTGTGCTTCTGTCGCCGTTTTTCTACGAAACAAAACATTCACCGGCGGGCCCGGTTTCCGCCAGACAAAAGATCCCGCTGATTTCGCTGGTTACTTCCGTCATCATCCTGATCGGAGCCGGTCTGATTCAGCTTCAGCATGCGGGTTCTCTGTCCGGCCGCACGATACTATTCAGCGTGGTGCCGGTCGTCATTGCCGCTTTTGCCTATCCGCTCGGCAACCGCAAAATGCTGGAACAATACGGCGGAAAACTCGATACGTTTCAGCGGGTGCTCGGCATGACGCTCGCAAGCCTTCCGTTTTGGCTTTTGATCGCCGCTTTCGGCTGGCATAGAGACGGGCTTCCCTCAATGGGACAGACATTCCAATCCTTTATCGTCGCACTCAGTTCTGGCGTTATCGCAACAGTATTATTTTTCCGCGCCACCGATATGGTGAGGAATGAGCCGCAGAAGCTCGCTGCTGTTGAGGCGACGCAGTCCGGAGAGGTTCTTTTTGCACTGATCGGCGAAATCGTCTTTTTATCCGCGGTGTTTCCGTCACTTCTTTCATTTGCCGGACTGTTCATTATTATTGCGGGAATGGTCATGCATACATTCGCTTCCCGGCAGACAGACCAGAAAACGGCTGAGCAAACGTCAGCCAATCTCACCGGTTCCTGA	MKAIVIGILASLFFAVTFILNRAMELSGGSWMWSSSLRFLFMVPFLFLIVYAKGKWVPLWHEIRKKPLFWLKWSFTGFVLFYAPITFAAAYGPGWLIAGTWQITIVAGVLLSPFFYETKHSPAGPVSARQKIPLISLVTSVIILIGAGLIQLQHAGSLSGRTILFSVVPVVIAAFAYPLGNRKMLEQYGGKLDTFQRVLGMTLASLPFWLLIAAFGWHRDGLPSMGQTFQSFIVALSSGVIATVLFFRATDMVRNEPQKLAAVEATQSGEVLFALIGEIVFLSAVFPSLLSFAGLFIIIAGMVMHTFASRQTDQKTAEQTSANLTGS				NA	NA	NA	NA	NA
D1-12_00389	498			hypothetical protein	GTGCAGAAAGAGGATATTCAAGTGCTTTATTTCGAAGATGACGGCCGCATTCCGAATAACCCGAATCTTCCGCTTGTTATTTATAAAGCGGTATTTAATGAAGAAACGGTACAGAAAGCAGAGTCCGTCCTCCGCCGGCACGATTGGTCGAACAGCTGGACGGGCGGAGTATTTCCGTATCACCATTTTCACAGCACCACGCACGAAGTTCTTGTCGCGGTAAAAGGAAACGCGGTTTTGAGGTTCGGCGGGGAACAAGGAGCGGACGCGGTTCTTCAAATGGGAGACGCAGCGGTCATTCCGGCCGGCACCGGACATAAAAAACTGTCGGGCAGTTCTGATTTTACCGTGATCGGGGCTTATCCGGGCGGCCGGCAGTACGATACAAAAACGGAGAAAAATGATAGAACTTCAGAAGAAATCAGCCGTGTCCCGCTCCCGGAATGCGACCCCTTTACGGGAAAATCGGGCCCGCTTTTAAAATTGTGGGAAAAATGA	MQKEDIQVLYFEDDGRIPNNPNLPLVIYKAVFNEETVQKAESVLRRHDWSNSWTGGVFPYHHFHSTTHEVLVAVKGNAVLRFGGEQGADAVLQMGDAAVIPAGTGHKKLSGSSDFTVIGAYPGGRQYDTKTEKNDRTSEEISRVPLPECDPFTGKSGPLLKLWEK				NA	NA	NA	NA	NA
D1-12_00390	417	yjlC	COG2427	putative protein YjlC	ATGCCAGAAACAATCGATCAAACAAATGCATCTGTCAGCCAAGGCCAACGCGATCTTATTGATCAGCTGCTAAAACCTGAAGTTCAAGAATCACTGACTGTTTTAGTGGATCAGCTTCCAAAACTGACTGAGTTAGTAAATATTTTAACGAAGTCTTATGATTTTGCACAGTCTGTAGCGACAGACGAAGTATTGAAGAGCGATACAGTGGGTGCGCTTACAGAAATTCTTGAGCCGGTGAAAGAAACAGCGAAAGAAGTGGCGGCTACTGCGATCGAAGCAAAAGACCGCGCGGATGCAAGCAATGAAACGATCGGACTTTTCGGCCTGCTGCGCATGCTGAAAGATCCTCAAGCTCAAAAGCTGTTCCGTTTTGCTAACAGCTATCTTGAAATCATGAACGAAAAACAAAAATAA	MPETIDQTNASVSQGQRDLIDQLLKPEVQESLTVLVDQLPKLTELVNILTKSYDFAQSVATDEVLKSDTVGALTEILEPVKETAKEVAATAIEAKDRADASNETIGLFGLLRMLKDPQAQKLFRFANSYLEIMNEKQK				NA	NA	NA	NA	NA
D1-12_00391	1179	yjlD	COG1252	NADH dehydrogenase-like protein YjlD	ATGTCAAAACATATTGTCATTTTAGGCGCTGGTTACGGCGGAGTTCTTTCTGCTTTAACCGTTCGCAAACATTACAGTAAAGATGAAGCACGCGTAACCGTTGTGAACAAATACCCGACTCACCAAATCATTACGGAACTGCACCGCCTTGCAGCAGGCAACGTGTCTGAACAGGCTGTTGCTATGCCGCTTGAAAAACTTCTGAAAGGAAAAGACGTCGACATTAAAATCGCAGAAGTCAATTCTTTCTCAGTTGATAAGAAAGAAGTTGCCCTTTCTGACGGTTCTAAGCTGACTTATGACGCGCTTGTTGTCGGACTTGGTTCTGTTACGGCTTATTTCGGCATTCCTGGACTCGAAGAAAACAGCATGGTGCTGAAATCTGCTGCTGATGCGAACAAAGTATACAAACACGTGGAAGACCGTGTGCGTGAATACGCTAAAACGAAAAACGAAGCTGATGCAACGATCCTTATCGGCGGCGGCGGCTTAACAGGCGTCGAGCTTGTCGGTGAGCTTGCTGACATCATGCCGAACCTTACGAAAAAATACGGCGTAGATCCGAAAGAAATCAAACTGAAATTAGTAGAAGCAGGTCCGAAAATTCTTCCTGTTCTTCCTGATGACCTTATCGAACGCGCGACAAAAAGTCTTGAAAAACGCGGCGTTGAGTTCTTAACAGGTCTTCCTGTTACAAATGTTGAAGGAAACGTTATTGATCTGAAAGACGGTTCAAAAGTCGTTGCCAACACATTTGTATGGACAGGCGGCGTACAAGGCAACCCGTTAGTCGGCGAATCCGGCCTTGAAGTGAACCGCGGCCGTGCGACGGTTAACGATTTCTTACAATCTACTTCTCACGAAGATGTATTCGTTGTCGGAGACAGCGCTGTATACTTTGCGCCGGACGGCCGTCCGTACCCGCCGACAGCGCAAATCGCTTGGCAGATGGGTGAACTTGTCGGTTACAACCTGTTCGCTTACTTAGAAGGAAAAACGCTTGAAACATTCAAGCCTGTAAACTCTGGTACGCTTGCAAGCCTCGGACGTAAAGACGCGGTTGCCATCATCGGAGCGAACTCTACTCCGCTGAAAGGTCTTCCGGCATCTTTAATGAAAGAAGCAAGTAACGTACGTTATTTAACACATATCAAAGGATTATTCAGCCTCGCTTACTAA	MSKHIVILGAGYGGVLSALTVRKHYSKDEARVTVVNKYPTHQIITELHRLAAGNVSEQAVAMPLEKLLKGKDVDIKIAEVNSFSVDKKEVALSDGSKLTYDALVVGLGSVTAYFGIPGLEENSMVLKSAADANKVYKHVEDRVREYAKTKNEADATILIGGGGLTGVELVGELADIMPNLTKKYGVDPKEIKLKLVEAGPKILPVLPDDLIERATKSLEKRGVEFLTGLPVTNVEGNVIDLKDGSKVVANTFVWTGGVQGNPLVGESGLEVNRGRATVNDFLQSTSHEDVFVVGDSAVYFAPDGRPYPPTAQIAWQMGELVGYNLFAYLEGKTLETFKPVNSGTLASLGRKDAVAIIGANSTPLKGLPASLMKEASNVRYLTHIKGLFSLAY	PGPT0004020_5289	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
D1-12_00392	1398	uxaC	COG1904	Uronate isomerase	GTGAAAGCTTTTATGGGTGATGATTTTTTACTGGATAGTAAAACGGCCGTAAAGCTGTACCGGGAATACGCTGAAAACATGCCGATCATTGATTATCACTGTCACTTAAGCCCAAAGGAAATCTATGAAAATAAAACCTTCGCAACCATTACGGAGGCATGGCTTTACGGTGACCACTACAAGTGGCGGATTATGAGGGCCAACGGCATTGAAGAGCGCTGCATTACCGGAAACGCTTCAGATGAAGAGAAGTTTTTCGCCTGGGCAAAAACGGTGCCGATGGCGATAGGCAATCCGCTGTACAGCTGGACGCATTTAGAGCTGCAGCGCTGGTTCGGCATTTATGACGTATTGAATGAAAAAACGGCCGCGGCCATTTGGAAAAAAACGAATGAGCTCCTGCAGGGAGACGGGTTTGGCGCAAGAGATCTCATTCTGAAATCAAATGTCAAAGTCATTTGCACAACCGACGATCCTGCCGATGCGCTGACATACCACGAACTGTTGAAAGAAAGTGATTTTCCGGTTCAAGTGCTGCCCGGATTTCGGCCTGACAAAGGACTGGACATCAGCAGACCGGGTTTTGCCGATTGGGTCCGTTCGCTGGAGAGTGCTTCCGGAATAGCTGTCACCACCTACCAATCGTATTTAGATGCGTTAGAATCCCGCGTCCGCTTTTTTCACAATGCCGGGGGAAGAGTGTCGGATCATGCGTTAGATCAAATGGTTTATGCCGAGACGACCGAAGAGGAAGCGGCCCGGATTTTTGCAGCCGGATTAAGCGGAGAGCATGTGTCTTTTGAAGATGAAAAGAAATTCAAAACACGGACGCTGCAATATCTTTGCGGTCTTTACGCCGAACTGGACTGGGCGATGCAGTTCCATATTAACGCGTTAAGAAATACCAATACAAATAAGTTCAGCAGCCTCGGTCCTGATACAGGATATGACTCAATTAATGATGAACGTATCGCAAAACCGCTTGCCCGGCTGTTAGATTCCGCCGAAAAAAAGCGACAGTTGCCTAAAACGATTTTGTATTCTTTGAATCCGAATGACAACTATATTATCGCCAGCATGATCAACAGCTTTCAGGATGGGAAAACACCGGGGAAAATTCAATTCGGCACAGCCTGGTGGTTCAATGACACGAAAGATGGAATGCTCCAGCAAATGAAAGCGTTATCAAACATGGGCCTGTTCAGCCGTTTTATCGGGATGCTGACGGATTCAAGAAGTTTCCTGTCCTATCCCCGCCATGAATACTTCAGGCGGCTTGTCTGCACGCTGATCGGCGGCTGGGCGGAACAAGGCGAAGCGCCTTACGATATGGAGCTTTTAGGAAAGATTGTCGAGGGGATTTGTTACCGGAATGCTGAGGAATATTTCCGCTTTTAA	MKAFMGDDFLLDSKTAVKLYREYAENMPIIDYHCHLSPKEIYENKTFATITEAWLYGDHYKWRIMRANGIEERCITGNASDEEKFFAWAKTVPMAIGNPLYSWTHLELQRWFGIYDVLNEKTAAAIWKKTNELLQGDGFGARDLILKSNVKVICTTDDPADALTYHELLKESDFPVQVLPGFRPDKGLDISRPGFADWVRSLESASGIAVTTYQSYLDALESRVRFFHNAGGRVSDHALDQMVYAETTEEEAARIFAAGLSGEHVSFEDEKKFKTRTLQYLCGLYAELDWAMQFHINALRNTNTNKFSSLGPDTGYDSINDERIAKPLARLLDSAEKKRQLPKTILYSLNPNDNYIIASMINSFQDGKTPGKIQFGTAWWFNDTKDGMLQQMKALSNMGLFSRFIGMLTDSRSFLSYPRHEYFRRLVCTLIGGWAEQGEAPYDMELLGKIVEGICYRNAEEYFRF	PGPT0018210_1428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018210-uxaC-K01812	NA	NA
D1-12_00393	1392	yjmB	COG2211	putative symporter YjmB	ATGAGTAATGTGCCTGTCGTGACAGCACCTGCCGCAAAAGTGAAGGAGCATAAGCTGAGTCTGAAAGAAAAAGTATCCTATGGTTTTGGAGATTTTGGGAACGGATTTATGTTTGATCTCGGGCAGATCTATTTGCTGAAGTTTTTCACAGATGTCGCAGGCATTCCGGCAGCGTTCGCCGGCAGTATTTTTTTGGTCAGCAAGCTGTTTGCGGCTGTGACTGATCCGATTGTCGGCTCGGCCATTGACTACAGAAAAAAGATCGGACCCCGGGGGAAATTCAGGCCGTACTTATTATTCGGAAGTATTATTCTTGCGATCATGACCGTATTGATTTTTGTGTCACCGGACGTGAGCGTCACCTGGAAGCTTGTGTACGCCTATGCTTCTTACATGCTGTGGGGGGTCGCTTATTCTTTCGTCAATATTCCGTACGGCTCCCTCGGCGCGGCCATTACACAGGATGCGGAGGACAGAACGGCGCTTTCTGCATTCCGCCAGATCGGCTCCCTCGGCGCGCTGCTCATTACAAGTGTCATCGTCATCCCGATTCTCGTTCATTTTGATAACGTTCATATCGGCTACCCGGCAGTCATGGGAATGATGGCCGTAATCGGAATCGCGGGATTTATGATCTGCTACCGAAACTGCAAAGAAAGAATTATCGTCCGTGAAGCGCCGAAAGAAAAGCTGTCCGTCATGTCGGTTTTCAAATGCTTTATCGGCAACAAACCGCTTCTGACCGTCGTTTTCATGACGATTTTCTCAATATCGGCATATAACATTAAATCCGCTATGCTTGTTTACTTCGCCCAGTACAATCTCAACAATGCGGAGCTGATGTCCTACATGAGTTTTATCATCATCGGTTCTTCATTTTTAGGTGTTTTGTTTATGCCGAAACTCGTCAAACGCTTCGGAAAAAAGCAAACGGTGATGATCGGTTTTGCCGTCAGCGCCGCGGCTGATGCGCTGAATTTCTGTCTCCCGTCAAATGTATATATCTTTACGGCGTTAGCGAGCATTGCTTTTATCGGGATCAGCATACCAAACGGCATTACGTGGGCGCTTGTGTCGGACATTATTGATTACGGAGAATGGAAGACGGGTGAACGGAAGGAGGCGACGACATATTCGCTTTTCAACTTCTCCAGAAAACTCGCCCAATCTTTATCAGGTTTTCTTTCAGGCATCGGGCTGAGCGTTATCGGCTATATCCCGAATGCATCTCAGACAAAAGGCACGTTAATCGGGATTAAAGGGCTTCTGCTGCTGTACCCAGCTTTCGCTTTAGCGTGCGCCATGCTGATTATCGGTTTGATGTATAAACTGACGGACCGGCAGCATGCCGAGCTCGTTCAGGACTTACATCATGCAAAACCTCAACTTTAG	MSNVPVVTAPAAKVKEHKLSLKEKVSYGFGDFGNGFMFDLGQIYLLKFFTDVAGIPAAFAGSIFLVSKLFAAVTDPIVGSAIDYRKKIGPRGKFRPYLLFGSIILAIMTVLIFVSPDVSVTWKLVYAYASYMLWGVAYSFVNIPYGSLGAAITQDAEDRTALSAFRQIGSLGALLITSVIVIPILVHFDNVHIGYPAVMGMMAVIGIAGFMICYRNCKERIIVREAPKEKLSVMSVFKCFIGNKPLLTVVFMTIFSISAYNIKSAMLVYFAQYNLNNAELMSYMSFIIIGSSFLGVLFMPKLVKRFGKKQTVMIGFAVSAAADALNFCLPSNVYIFTALASIAFIGISIPNGITWALVSDIIDYGEWKTGERKEATTYSLFNFSRKLAQSLSGFLSGIGLSVIGYIPNASQTKGTLIGIKGLLLLYPAFALACAMLIIGLMYKLTDRQHAELVQDLHHAKPQL	PGPT0014410_1672	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-CAPSULAR_COLANIC_ACID_BIOSYNTHESIS,PGPT0014410-TC_GPH|yihO|xynP-K03292	NA	NA
D1-12_00394	999	exuR	COG1609	putative HTH-type transcriptional repressor ExuR	ATGGTAACCATAAAAGATATCGCAAAACTCGCCAACGTATCCCACACCACCGTATCCCGGGCACTTAACGGCAGCCCCTACATTAAAGAGCATACAAAACAGAAAATATTAGAGCTCGCTTCACAGCTGAATTACACACCGAATGTAAATGCAAAAAGCCTTGCCATGCAAAAGTCCCATACGATCGGACTGTTTTTTACAAGCATCACAAACGGAACCTCACACAGCTTTTTTTCCGATACCATCAAAGGTGTAAACCGCACAATCAGTGAGGAATACAATTTGTTCGTCCGCGCGATTGACGACCTGAAAAGCTTTGAAACCATTACGCCCATGAGATATGACGGAATCATTTTAATGAGCCAAAGCGACAGTGATAATTCATTTATTTATCATATCCGCGAGAAAAACATCCCGCTCGTCGTGCTGAACCGGGACATTGATGACCGGAGCATCACGAATATCCTGTCAAACGATAAAGAAGGCTCCAGACAGGCGGTCGACTGCCTGATCGCAAACGGACACAGAGATATTGCGATCATTGAGGGAAAGGAAGGATTCAGGTCAACTTCTCAGCGGAAAGAAGGCTATTTGACATCTTTAATTGATCATTCTATCCCGATTAAGCATGAATACAGTGTAAAAGGCCGCTATGATATGGAAAGCGGCAGTCAGGCGATGGAAAAACTCTTGGCGCTTCAATCACCGCCTACGGCTGTTTTTTGTTCAAACGATGATATGGCGATCGGGGCGATGAATGCCATTTTCGCCAAAGGCCTGAACGTTCCGGAAGATATATCCGTTATCGGGTTTGATGACATCGGCATTTCCCAATACATGACGCCGAGGCTTTCGACAGTAAAACGCCCGGTTGAAAACATCAGCATACTCGGCGCAGAGAAGATTTTGGCGCTAATCGCCGACCCGGATACGGCGGCGGAAAAAATATACGAAAACACCGAGGTGATGATAAGAGATTCAATTAAAAAACTCACATAA	MVTIKDIAKLANVSHTTVSRALNGSPYIKEHTKQKILELASQLNYTPNVNAKSLAMQKSHTIGLFFTSITNGTSHSFFSDTIKGVNRTISEEYNLFVRAIDDLKSFETITPMRYDGIILMSQSDSDNSFIYHIREKNIPLVVLNRDIDDRSITNILSNDKEGSRQAVDCLIANGHRDIAIIEGKEGFRSTSQRKEGYLTSLIDHSIPIKHEYSVKGRYDMESGSQAMEKLLALQSPPTAVFCSNDDMAIGAMNAIFAKGLNVPEDISVIGFDDIGISQYMTPRLSTVKRPVENISILGAEKILALIADPDTAAEKIYENTEVMIRDSIKKLT	PGPT0017992_6965	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
D1-12_00395	1446	uxaB	COG0246	Altronate oxidoreductase	TTGCGTCAGCTGAATAAAAAGATGTGCGGTGAATACATTCAATATCCTGAAAAAGTCCTTCAGTTCGGCGAAGGCAACTTTTTGCGGGCCTTCGCAGACTGGCAGATCGATCAAATGAATCAATTGACGGATTTTAATGGAAGCGTTGTCGCTGTACAGCCGAGAGGCTCTGAGAAAATCAAACGTTTAAACGAGCAGGACGGTTTGTTTACGCTTTTTTTGCAGGGGATAAAGGACGGAAAACCGGCTGAAGAACACATGATCGTCAAATCTATCAGCCGCGGCATTGATCTTTTTTCTGACTATGATTCCTTTAAACGGCTGGCAGCACAAGAGGAGCTTCGTTTTATCATTTCCAATACGACGGAAGCGGGAATTACGTTTGAGAAAGGCGACCGGCTTGAAGATAGGCCTCAAAAAACATTCCCCGGGAAATTAGCGGCGTTCCTTTATTTCCGCTATAAGGCATTTACGGGTGACGCCGAGAAAGGGTGCATTGTGCTTCCATGTGAACTGGTCGAAGAAAACGGACGGAAACTGAAGGCTGCCGTGCTTCAATATGCCGGGCTGTGGGAGCTGGAGCCTGATTTTACTCAATGGATTCATGACGCGAACATCTTCTGCAATACTCTCGTGGATCGGATTGTTCCCGGATTTCCTATTGATACCGCGGAAGAACTTACCGATTTTCTCGGATACGAAGACCGTCTGCTTGTGGTCGGTGAGCATTATTATTTGTGGGTGATAGAAGGGCCGGAACAGCTTCAGAATGAGCTTCCTTTTGCTGAGGCCGGGCTGAACGCACTGATCACGTCTGACCTTACGCCTTACAGGACAAAAAAGGTGAGAATCTTAAACGGCGCTCACACGGCATTGGCGCCAGTGGCTTTACTATACGGACTGCAAACCGTCCGGGAAGCGGCTGAGCACGAGGTGACGGGCAGATTCATCGAAGAGCTGATCAATGAAGAAATCCTCCCTGTGCTGCAAATGGAGGGTGTCACCCAATACGCGGCAGATGTGTTACAGCGGTTTAAAAACCCTTATATCCAACATTATCTGCAAAGCATTACCCTTAACGCCGCCGCGAAATTCAAAACAAGAAACCTGCCGACGCTGAAGGCTTATATCGAACAGGAGGGCCGGCTACCTGAGAAGCTGGTATTTTCGTTCAGCTCCATGATCTATTCATACTGGAACGGACCGAACAAACCGGCTGACGGCGAGGAGGTTCTTAACCGTTTTCAAATGGCGCGGTCCCGTTGCAAAGATGATATGTTTCAAGCGGCATCTTCTATATTAGGAGAAGAGCGACTGTGGGGGAAGAACCTGAATCATCTTCCGGGGCTGACTGAACGAACGGCTTATTTTCTGTCTGTCATTCATAAGCGGGGTATGAAGCATGCGTTACATGAATGCTGCGGCAAAAAGGGGGAAGTAAAATGA	MRQLNKKMCGEYIQYPEKVLQFGEGNFLRAFADWQIDQMNQLTDFNGSVVAVQPRGSEKIKRLNEQDGLFTLFLQGIKDGKPAEEHMIVKSISRGIDLFSDYDSFKRLAAQEELRFIISNTTEAGITFEKGDRLEDRPQKTFPGKLAAFLYFRYKAFTGDAEKGCIVLPCELVEENGRKLKAAVLQYAGLWELEPDFTQWIHDANIFCNTLVDRIVPGFPIDTAEELTDFLGYEDRLLVVGEHYYLWVIEGPEQLQNELPFAEAGLNALITSDLTPYRTKKVRILNGAHTALAPVALLYGLQTVREAAEHEVTGRFIEELINEEILPVLQMEGVTQYAADVLQRFKNPYIQHYLQSITLNAAAKFKTRNLPTLKAYIEQEGRLPEKLVFSFSSMIYSYWNGPNKPADGEEVLNRFQMARSRCKDDMFQAASSILGEERLWGKNLNHLPGLTERTAYFLSVIHKRGMKHALHECCGKKGEVK	PGPT0018320_543	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018320-uxaB-K00041	NA	NA
D1-12_00396	1494	uxaA	COG2721	Altronate dehydratase	ATGAAAGAGGTCATAAAAATCCATAAAAACGATAACGTGCTTCTCGCCATGCGCCATTTTAACAAAGGGGAGCGGCTGCATACAGACGGACTGACGATTGAAGTGAAGGACCCTGTAAAGCGGGGGCATAAAATCGCGCTGCAAACCATTGAAGAAAACGGCAGCATTATTAAATACGGTTTTTCGATCGGGCGTGCGACAAGGCGGATTTCGGCCGGCGAGCATATTCATACCCATAATCTGCAAACGAATTTATCCGATGTGCAAGAATACACGTATTCACCGCGCTTCGAGGACAATCCTTTTACAAATGAGAACCGGACATTTAAAGGCTACAGAAGAGAAAACGGTACATCCGGCGTCCGGAATGAACTGTGGATCGTGCCTACAGTCGGCTGCGTAAACGGCGTCGCTGAGAAAATCCTGCAGCGCTTCGTAACAGAGGCGAAAGACATTGCGCCCTTTGACAATGTGCTGGTTTTAAAGCACCAATACGGCTGCTCCCAGCTTGGCGATGATCATGAGAATACGAAACAAATGCTGATGAACGCCATCCGTCATCCAAATGCGGGCGGTGTGCTGGTTTTAGGGCTCGGCTGTGAAAATAATGAGCTGGCGGCGATTAGGGAAACGCTTTCTGAAGTGAACGGAGATCGGGTGAAATTTCTCGAATCACAGGCTGTCACAGATGAAATTGAAGCAGGGACTGCGCTACTTAAAGAGATACACCTTGCGGCAAAGGAAGATAAACGTGAGGAGATTCCGCTGTCAGAATTGAGCATCGGATTGAAATGCGGCGGGTCGGACGGTTTTTCCGGCATCACGGCAAACCCTTTATTAGGGAGATTTTCAGATTACTTGATTGCACAGGGAGGGAGCACGGTCTTAACGGAGGTGCCTGAGATGTTCGGCGCTGAGACGATTCTCATGCAGCGTGCGGCGAGCGAAGAAGTGTTTCATAAAACAGTCCGATTGATCAATGATTTCAAGCAATATTTTATGAAGCACGAGCAGCCGATTTATGAAAACCCGTCACCAGGGAATAAGGAAGGCGGCATTTCAACGCTCGAAGACAAGTCGCTCGGCTGCACCCAAAAAGCCGGTCTTGCACCGGTTTCTGATGTGCTGACATACGGTGAAACCCTGAAAACAAAGGGATTGACACTGCTCAGTGCGCCCGGCAATGATTTAATCGCTTCTTCAGCGCTCGCCGCGGCGGGCTGTCACATCGTTTTGTTTACAACCGGAAGAGGCACGCCGTTCGGCACATTTGTCCCGACTGTGAAAGTATCAACAAATACCGATTTATTTCAATCAAAGCCTCATTGGATTGATTACAACGCGGGCAGATTGGCGGAAGACCAAACAACAGAAGATCACATTGTAAGAGATTTTATTCAATACATTATTAAAGTTGCAAGCGGAGAATGCGTCAATAACGAAAAAAACGATTTTCGGGAGCTTGCAATCTTTAAGTCCGGTGTGACGTTATAA	MKEVIKIHKNDNVLLAMRHFNKGERLHTDGLTIEVKDPVKRGHKIALQTIEENGSIIKYGFSIGRATRRISAGEHIHTHNLQTNLSDVQEYTYSPRFEDNPFTNENRTFKGYRRENGTSGVRNELWIVPTVGCVNGVAEKILQRFVTEAKDIAPFDNVLVLKHQYGCSQLGDDHENTKQMLMNAIRHPNAGGVLVLGLGCENNELAAIRETLSEVNGDRVKFLESQAVTDEIEAGTALLKEIHLAAKEDKREEIPLSELSIGLKCGGSDGFSGITANPLLGRFSDYLIAQGGSTVLTEVPEMFGAETILMQRAASEEVFHKTVRLINDFKQYFMKHEQPIYENPSPGNKEGGISTLEDKSLGCTQKAGLAPVSDVLTYGETLKTKGLTLLSAPGNDLIASSALAAAGCHIVLFTTGRGTPFGTFVPTVKVSTNTDLFQSKPHWIDYNAGRLAEDQTTEDHIVRDFIQYIIKVASGECVNNEKNDFRELAIFKSGVTL	PGPT0018305_640	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
D1-12_00397	765			hypothetical protein	ATGACTGTAAGCATTGTGTTTATGGGTTTCTTTGTCGGAACGCTTGTCGGATTGACGGGTGTGGGAGGAGCGGCGCTTTTGACTCCTTTACTGATCGTTTTGGGGATCAACCCCTCAATCGCCGTCGGCACTGACCTTTTATATAACTCCATCACCAAACTGTTCGGTGTCGTTTCTCATTGGAAGCAGCGTACCGTTCAATTTAAACTTGTCGGCTACTTGGCGCTCGGAAGCATTCCCAGCGCAACAGCCGCCATCGGTGTTCTTCACTTGTTTCCCGCTTTTCACCAGCATCAGGAGCAGATTATCAAACAGGCGCTCGGCTACGTGCTGACCCTTGTCGCCATTTCCATTATCGCCCGCCTTTTTTTCGATAAAAAACTGCGGCCGAACCGCTGGCAGCAAAAAACGCTTGAAGAAAAGCGGACACTCATGATATTGATCGGCGTCATTTTCGGCTTCATCGTCGGCCTGACATCTATTGGGTCCGGCTCGTTATTTGCGATCGCCATGCTATACCTGTTCAGAATGAAAACGGCAGAAGTAGTGGGAACGGATATCGCACATGCCTTTCTGCTCGTAACTGCTGCCGGTCTGTTAAACGCAAGCTTCGGAAGCGTCGATTACCTGCTTGTATTGAATCTGTTGATCGGCTCTGTGCCGGGTGTGCTTCTCGGCAGCTTCTTTTCGCCGAAATTCTCACCGCGCCCGCTGCAATTTGTGATGGCGGCGATTATTTTAATCAGCGGAATAAAATTAATATAA	MTVSIVFMGFFVGTLVGLTGVGGAALLTPLLIVLGINPSIAVGTDLLYNSITKLFGVVSHWKQRTVQFKLVGYLALGSIPSATAAIGVLHLFPAFHQHQEQIIKQALGYVLTLVAISIIARLFFDKKLRPNRWQQKTLEEKRTLMILIGVIFGFIVGLTSIGSGSLFAIAMLYLFRMKTAEVVGTDIAHAFLLVTAAGLLNASFGSVDYLLVLNLLIGSVPGVLLGSFFSPKFSPRPLQFVMAAIILISGIKLI				NA	NA	NA	NA	NA
D1-12_00398	468	yjoA	COG2318	putative protein YjoA	ATGACAGCACAAAATCAATTGGTCAGCCACTTTCTGTCACATCGAAACGTGACGATTGAACTGGCGGAAAAAATCAGCCGCGAGCATTACGACTACAAACCGGCAGAGACATCAATGTCCGCTCAGGAACTTGTAAAACACATCGTTTATTCTTTTCTTATGTTTGCAAACGTCATTAACGACGGAAACGGATCAGCCATCCAGAACAAACCGAAAGAAGAAGCGGAAACAGACCTCGTCAAACTGGCGGAAGCATGTACTGAAAAAACGACAGACATTCTGTCACAGCTGACTGAAGAGCAGCTGAACCGCGAAATTGACCTGACCGCCTCTTTCGGCAGAAAAGTGACCGGCGCTGCTCTCCTTCAGCTTGCCATGGAGCATGAAATTCATCATAAAGGCAACCTTTTCGTGTATGTCAGAGAAATGGGCCACACGGAACTTCCGTTTTATCAGCAAAAATCATAA	MTAQNQLVSHFLSHRNVTIELAEKISREHYDYKPAETSMSAQELVKHIVYSFLMFANVINDGNGSAIQNKPKEEAETDLVKLAEACTEKTTDILSQLTEEQLNREIDLTASFGRKVTGAALLQLAMEHEIHHKGNLFVYVREMGHTELPFYQQKS				NA	NA	NA	NA	NA
D1-12_00399	1131	rapA_1	COG0457	Response regulator aspartate phosphatase A	ATGAAGCAGACTATTCCGTCCTCTTTTGTCGGGCTCAAAATTAATGAATGGTATACCCATATCCGGCAGTTTCACGTCCTTGAGGCGGAGCGCGTCAAACGTGAAGTAGAGAGAGAGATCGAGGATATGGAAGAAGATCAGGATCTGCTGCTGTATTATTCATTAATGGAATTCAGACACCGTGTCATGCTGGATTACATCAAGCCCTTAAAGGAGGACCCTTCTCAGCCTGAGTTTTCAGAATTATTGGAAGACATTGAAGGCAACCAGTATAAACTGACAGGACTGCTTGATTACTACTTTAATTTTTTTCGAGGAATGTACGAATTTAAACAGAAAATGTTCCTAAACGCCATGATGTATTACAAACGGGCTGAAAAAAACCTTGCACTCGTTTCTGATGACATCGAGAAAGCTGAGTTTGCTTTTAAAATGGCCGAGATATTTTACAACCTGAAACAAACCTACGTCTCCATGAGTTATGCCGTTCAAGCCCTTGAAACGTACCAATCGTATGAGACGTACAACGTCCGCAGAATCCAATGTGAATTCGTTATTGCAGGGAATTATGATGACATGCAGTATCCAGAAAGAGCATTGCCCCACTTAGAACTTGCTTTAGATCTTGCAAAACAAGAAGGCAATCCCCGTCTTATCAGTTCAGCCTTATATAATCTCGGAAACTGTTACGAAAAAATGGGAGACCTCTCTAAAGCAGCCGAATATTTTGAGACATCCGTTTCCATTTGCAGGTCAGAAAAGTTCGATAATCTTCCGCATTCTATTTACTCATTAACACAGGTTCTTTATAAACAGAACACTACAGCCGAAGCAGAGAAGCAATACCGCCTCGGGCTCAGTATCGCCCGCGAATACAATGATGAATTATTTGTGAATCTGTTCCAATTTTTACATGCGTTATACGGCAAGGAAATGGATAACGCATCCGTCAGGCACACGTTTGATTTTCTGGAAGAACACATGCTGTATCCGTATGTGGAAGAATTGGCGCATGATGCTGCCAAATTTTACATGAAACACGGACAGCCTGAAAAAGCGCTCACGTTTTATGAAAAAATGGTGCACGCCCAAAAACAAATCCAGAGAGGAGATTGTCTATATGAAATCTAA	MKQTIPSSFVGLKINEWYTHIRQFHVLEAERVKREVEREIEDMEEDQDLLLYYSLMEFRHRVMLDYIKPLKEDPSQPEFSELLEDIEGNQYKLTGLLDYYFNFFRGMYEFKQKMFLNAMMYYKRAEKNLALVSDDIEKAEFAFKMAEIFYNLKQTYVSMSYAVQALETYQSYETYNVRRIQCEFVIAGNYDDMQYPERALPHLELALDLAKQEGNPRLISSALYNLGNCYEKMGDLSKAAEYFETSVSICRSEKFDNLPHSIYSLTQVLYKQNTTAEAEKQYRLGLSIAREYNDELFVNLFQFLHALYGKEMDNASVRHTFDFLEEHMLYPYVEELAHDAAKFYMKHGQPEKALTFYEKMVHAQKQIQRGDCLYEI	PGPT0024645_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024645-rapA|spo0L-K06359	NA	NA
D1-12_00400	135			hypothetical protein	ATGAAATCTAAACTGTTGTCAGGATTGCTGCTTGTTGCTGTCGGGTTCAGCTTTACACAGGGGATCGGCCATGGAAGCCATTTGGAAAACCAAGCGGACGGCACATTCCATATTGCCGCGCGCAACCAAACATAA	MKSKLLSGLLLVAVGFSFTQGIGHGSHLENQADGTFHIAARNQT	PGPT0025670_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_BIOSYNTHESIS,PGPT0025670-phrA-K06352	NA	NA
D1-12_00401	954	cwlA	COG3409	N-acetylmuramoyl-L-alanine amidase CwlA	GTGGGGATTGAAGTGAAAAAACGGCTCGTATCGGCTGATAAATATGCGTTAAAATGTCCGAATCCGATGACGCCGGAGTATATTACCATTCATAACACGGCAAACGACGCATCCGCCGCTAATGAAATCAGCTATATGACGGGAAACAGCGAATCAACGAGCTATCATTTTGCGGTTGATGACAAAGAAGTGATCCAGGGAATTCCGTTGGACCGCAATGCCTGGCATTCGGGAGACGGCACGAACGGTACCGGAAACCGAAAGTCGATTGCTATAGAAATCTGTTACAGCAAGTCAGGCGGCGAACGGTACAGAGCCGCAGAAGAACTGGCGATTGCGTTCGCGGCGCAGCTTTTGAAAGAACGGGGCTGGGGGATTGACAGAATCAGAAAGCATCAGGACTGGAACGGAAAGTACTGCCCGCACCGCATTTTGTCTGAAGGCCGCTGGGATGAAGTGAAGGCGAAGATTGCAAAGAAATTAAGCGGAAGTATGCCGGCGAAAAAAGCCTCTATTTCTTCTTCCGCGTCTGAATACCATGTGAAAAAAGGCGACACCTTATCGGAAATCGCCGCATCGCACGGTGTCAGCGTAAAATCGCTGCAAAGCATCAACCATATCACCGATCCGAATCACATTACAGTCGGACAAGTGATCAAGCTCACTCAGACGGGTTCTTCTTCAAAAAGTCAGGCTGTGTCTTCCTATCCGCTTCCATCCGGTGTGATCAAAGTGACGAAACCGCTGACGAAAGGGACAAACGTAAAACAAGTGCAAAACGCTTTATCCGCTCTTTATTTTTATCCCGATAAAGGAGCAAAAAATCATGGGGCGGACGGCGTTTACGGTCCGAAAACGGCAAATGCCGTAAAGCGTTTTCAATCCGTCAGCGGATTAACGGCAGACGGAATTTACGGCCCGAAAACGAAGGCGAAAATTGAAGAAAAACTGTAA	MGIEVKKRLVSADKYALKCPNPMTPEYITIHNTANDASAANEISYMTGNSESTSYHFAVDDKEVIQGIPLDRNAWHSGDGTNGTGNRKSIAIEICYSKSGGERYRAAEELAIAFAAQLLKERGWGIDRIRKHQDWNGKYCPHRILSEGRWDEVKAKIAKKLSGSMPAKKASISSSASEYHVKKGDTLSEIAASHGVSVKSLQSINHITDPNHITVGQVIKLTQTGSSSKSQAVSSYPLPSGVIKVTKPLTKGTNVKQVQNALSALYFYPDKGAKNHGADGVYGPKTANAVKRFQSVSGLTADGIYGPKTKAKIEEKL	PGPT0019115_674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
D1-12_00402	378			hypothetical protein	ATGGGGTTCATCAATGGATTGCTGGGCAATGCGTCGACAATATCGACGGCTGAAGCAAAAGCAGAACTGGTTCGTATTCTGCTGGAAGGTGAGAATGTCAACGCCGCATTTAAGCTCGTCCGAGATATCATTGTCTTTACGGATAAGCGTCTTATTCTTGTTGATAAACAGGGACTCACGGGGAAGAAAACGGAGATTCAATCCATTCCGTACAAGAGCATTTCCAGATTCAGCGTAGAAACCGCCGGCCGCTTTGACCTTGATTCAGAGCTGAAAATTTGGATTTCAGGAGCGGAACTTCCCGCTGTCTCAAAGCAGTTTAAAAAAGATGAAAGCATTTATGATATTCAAAAGGCCCTTGCCGCAGTTTGTATGTAA	MGFINGLLGNASTISTAEAKAELVRILLEGENVNAAFKLVRDIIVFTDKRLILVDKQGLTGKKTEIQSIPYKSISRFSVETAGRFDLDSELKIWISGAELPAVSKQFKKDESIYDIQKALAAVCM				NA	NA	NA	NA	NA
D1-12_00403	603			hypothetical protein	ATGAAAGATAGATATGACAATTTCGCAGCCCTTTCTGCTGCTGAATCGGAATACAGAATTATTTATGAAGAAAAAGAGGGAAGTAAATGTATCGTCCTCGCTCCCCACGGCGGGAGAATTGAACCGGGTGTCAGTGAGCTGGTGCGGGCATTTTCTGACCAAAGCTCAATTTACTTATTTGAAGGGACGAAGCGGTGCAATAACCGTTCTCTCCACTTGACAAGCACACGCTTTGACGAACCCCTGGCTTTAGAAAAAGTGACCGCCCATCATTACGGATTGGCTTTTCACGGGTATCATGATCTGAAAAAGGCAAATACACTCGTCGGGGGCGCGGATCTGGAAAAAGCAAGACTGATTTGTGATCTGCTGCGTGAAGCGGGATTTGATGCCGAGCTGACAGAGAAGAATGATCGGCTGGCAGGTGTAAATCCCGGCAACATTGTCAATCGGACAAAAAGGAAAATGGGGCTGCAATTGGAAGTGAGCACGGCGCAGAGACACGCGCTTTTCAGCAATTTTGGCTGCCGGGGAGAAAAATATACGCCAACCGATCTGTTTTTTCGGTATGTAGAAGCCGTGAAGGCCGGTTTTTATGAGTAA	MKDRYDNFAALSAAESEYRIIYEEKEGSKCIVLAPHGGRIEPGVSELVRAFSDQSSIYLFEGTKRCNNRSLHLTSTRFDEPLALEKVTAHHYGLAFHGYHDLKKANTLVGGADLEKARLICDLLREAGFDAELTEKNDRLAGVNPGNIVNRTKRKMGLQLEVSTAQRHALFSNFGCRGEKYTPTDLFFRYVEAVKAGFYE				NA	NA	NA	NA	NA
D1-12_00404	837	ydbD_1	COG3546	putative manganese catalase	ATGTTTTATCATATTAAAGAGCTTCAATACCGCGCAAAGCCGTCTTGTCCTGATCCGGCTTACGCGAAAAAGCTTCAAGAAGTACTTGGAGGGCAGTACGGTGAGATCAGCGTCATGATGCAATATTTGTTTCAAGGCTTTAACTGCCGTGCCGATGAAAAATATAGAGATTTGCTGCATGATGTCGGAACGGAAGAGATCGGACATGTGGAAATGCTTGCGACGATGATTTCAAGGCTTTTGGACGATGCGCCGGCTGATGTGCAGGAAAATGCCTATAAAAGTGACCCGGCCGTCGCGGCTGTTATGGGGGGAATGAATCCGCAGCACGCCATTGTTGCAGGTTTAGGCGCAATGGCGGCTGACGCTGAAGGATACCCTTGGAATGCGAAATACATTATTTCCAGCGGGAATTTACTTGCAGATTTTCGGGCAAATTTAAATGCGGAATCCCAGGGACGCCTTCAGGTGACCCGGCTGTATGCGATGACTGACGATCCGGGTGTCAGGGATATGCTGTCCTTTTTAATTGCAAGAGATACGTATCATCAAAATATGTGGTACGCGGCGATAAAAGAGCTGGAAGAAAGAGAACGGGACATTGTCGTGCCTGCGACGTTTCCGCGTGAACTCGAAAAGCAGGAAGTGTCGTATGACCTGTTTAACTTTTCCAGAGGAGATGAGAGTTCACAAGGAAGATGGGCCCGCGGTGAAGCCTTTGACGGACGGGGCGAGTTCAGGTATATTTCGGTCCCGGTCGCGTTCGCATCTGCGCCTCATCTTAAACCGGCGCCAATGTGGCTTCACAATACACTTCTTCCGATGTCAAAATGCTGA	MFYHIKELQYRAKPSCPDPAYAKKLQEVLGGQYGEISVMMQYLFQGFNCRADEKYRDLLHDVGTEEIGHVEMLATMISRLLDDAPADVQENAYKSDPAVAAVMGGMNPQHAIVAGLGAMAADAEGYPWNAKYIISSGNLLADFRANLNAESQGRLQVTRLYAMTDDPGVRDMLSFLIARDTYHQNMWYAAIKELEERERDIVVPATFPRELEKQEVSYDLFNFSRGDESSQGRWARGEAFDGRGEFRYISVPVAFASAPHLKPAPMWLHNTLLPMSKC	PGPT0013240_834	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
D1-12_00405	591			hypothetical protein	TTGGGCGATTTTTTAACACATCTTGAGGAATACGTCAAAAACTTATATTGCCGCATGGGAATGACCGCCCCTCTCCATATTGATATGCAGATGATTGCCAAGGAGCTTGACATTTGGATTCATTTTGAAGATACACACAGTATGATGCTGAAGCGGGACGGCATGTACAGCATCGTCCTGAATCAAAAAAAGTCACCCGAAGAGCAATGGCAGGATTTTGCGCACGAACTGTGCCATGTGCTGAAGCATACCGGCAACCATTTTCATATGAACAAGCTGTTCAGGGAACTGCAGGAATTTCAGGCCAACCATTTTATGTACCACTTCTGTGTGCCGACCTTTATGCTGTTAAACATGGAGCTTCCCCAGCGGAGAAGCCATGCCGTTATTTTAATCGCAGCCGCTTTCCGGGTGACGGCATCATTTGCGGAAAAAAGGCTGGAGCTGTTTGAACGGCGTAAAGCAGGTATTCAATTTCAGAAGCGGCTCGCTTGTCTGTTATCCGACAAGCGGCCGAATGGGTATTATGAAAGCGGACAGACACACTTGCATGCCGCTGAAGAAAAAACGCCGTATTTTATTGAAAACTAG	MGDFLTHLEEYVKNLYCRMGMTAPLHIDMQMIAKELDIWIHFEDTHSMMLKRDGMYSIVLNQKKSPEEQWQDFAHELCHVLKHTGNHFHMNKLFRELQEFQANHFMYHFCVPTFMLLNMELPQRRSHAVILIAAAFRVTASFAEKRLELFERRKAGIQFQKRLACLLSDKRPNGYYESGQTHLHAAEEKTPYFIEN				NA	NA	NA	NA	NA
D1-12_00406	339	xre	COG1396	HTH-type transcriptional regulator Xre	ATGATAGGCGGAAGATTAAAGAGTCTCAGAGGAAAGAAAACGCAGGAAGAAGTCGCAAATCATATCGGTGTCTCGCGCGCCAGATATTCTCATTATGAAAACGGCCGATCTGAACCCGATTACGACACGCTGCAAAAGCTTGCGGATTATTTCAAAGTGTCGACTGATTATTTGTTAACCGGAAAAGAACCTTCAGATGAAGACATGTTTGCCGATCCCGACCTGCAGATAGCATATCGGGACATGCAGGACTTTTCGCCGGAAAGCAAGCAGCAGGCCATTGAATTCATTAATTATTTAAAAGAAAAAGAGAAAAACCGCAGGCCGAAACATAAATAA	MIGGRLKSLRGKKTQEEVANHIGVSRARYSHYENGRSEPDYDTLQKLADYFKVSTDYLLTGKEPSDEDMFADPDLQIAYRDMQDFSPESKQQAIEFINYLKEKEKNRRPKHK				NA	NA	NA	NA	NA
D1-12_00407	180			hypothetical protein	ATGCAGCCGATAATCATCCGTTTCAGCAGCAATCCGGCTGACCAGAGATGTTTAGGGAAAGCAGGCGGTTCGATATCTTTTACCGCTTGCGGACTTCCGGTATTCCGATTTGATAACCGATTGCAGTATGAACGCTATATAAGTCTGAAGAAAAACGGAGACGTCCAATATGAATCGTAA	MQPIIIRFSSNPADQRCLGKAGGSISFTACGLPVFRFDNRLQYERYISLKKNGDVQYES				NA	NA	NA	NA	NA
D1-12_00408	801	dnaA_1		Chromosomal replication initiator protein DnaA	ATGACAAAACGAACGATCGAGCAGATACTGGCCGACCTGAAAAACGGAAAACGTCCATTACTGGCGGACAGACCGGAAGAATCAGACGAAAGCCGCTTTGACTGTCCGCTCTGTAAAGATCAGGGCGGTTATCTCAAAAACCAGCTGGGAATGGATGTGTGGGTTAAGTGCCGCTGCGCCGCCAAACGAAAAGCAGAGCGCATCCTCAGCGCAAGTGAGATTACAGATGCCTTTCGGAAGCTGGATTTCAAAGGATTTATCACGCGGGGCAAGCCTCAGGCAGTCGTCGACGCATATGAGTGCGCCCTTGAATATGTTGAAAACTTCGACAAGATTAAAAACTGCCGGAAAAACAGCATTGCCCTTTTAGGGCGTCCGGGATCGGGAAAAACCCATCTTTTGACCGCTCTCAGCAATTATGTCATGAGACAGAAGCAGACACCGGTGCTGTATTTTCCTTTTGTGGAGGGCTTTACGGATTTAAAAAATGATTTTGATCTGCTTGATGCAAAGCTTGGCCGTATGAAACAGGCGGATGTGCTTTTTATTGACGATCTGTTCAAACCGCTGAACGGAAAACCCCGGGCGACCGATTGGCAGATTGAACAAATGTACGCCGTCGTGAATTACCGCTATTTAAATCATAAGCCGGTTCTTATCTCGAGCGAGCTGGCCTGTGACGGACTGGTGCAGGTTGATGAAGCCTTGGGCACAAGAATTTATGAGATGTGCAGCGATTATTTAGTCATCATTAATGGCAATTCATTTGACGTAAACCACAGATTAGAGGGGGCGAGATAA	MTKRTIEQILADLKNGKRPLLADRPEESDESRFDCPLCKDQGGYLKNQLGMDVWVKCRCAAKRKAERILSASEITDAFRKLDFKGFITRGKPQAVVDAYECALEYVENFDKIKNCRKNSIALLGRPGSGKTHLLTALSNYVMRQKQTPVLYFPFVEGFTDLKNDFDLLDAKLGRMKQADVLFIDDLFKPLNGKPRATDWQIEQMYAVVNYRYLNHKPVLISSELACDGLVQVDEALGTRIYEMCSDYLVIINGNSFDVNHRLEGAR				NA	NA	NA	NA	NA
D1-12_00409	168			hypothetical protein	ATGTGTAAGCTGTGCGGGCCGAAGAAGGTCATTGTGACGGAAACGGGTTTCGGCGCTGTCTTTCACCCTTGCCCGAACTGCAAAACAGGCACTGATTTAACGCCGGTCATTAAACGTCTCGAGCGAATGGTTCAAGACGCAAAAGCGAGGCTTGATGCACGTGTGTAA	MCKLCGPKKVIVTETGFGAVFHPCPNCKTGTDLTPVIKRLERMVQDAKARLDARV				NA	NA	NA	NA	NA
D1-12_00410	342			hypothetical protein	TTGCAAGAAAAACACAGCCCCGCTCCATGGCGGGCCGTACACAGCGGAGAAGAAAAACCCATTTACATTTATTCCGCTTACAGCGAAGCGGATAAAGAGAAGTTCCCTTATTCAAACGGAAGGCTCATCGCGGCCGTTTTCAACTTAAGTTCATACTCTCAGCAGATCAACGCGGCATTGATGGCGAAAGCCCCGGAACTTTTTGAGGCGGCCGAAACGGCTCTCCGCCTGCTCCGGGGAGAAAGTTCTGAAGAAAAAGAAGCGTTTATAAATCAGCTCGAAAGCCTCATACATGAAGTAAACATCCTGAAAAAGACGGAGGACGTAAAACATGAATCCTAA	MQEKHSPAPWRAVHSGEEKPIYIYSAYSEADKEKFPYSNGRLIAAVFNLSSYSQQINAALMAKAPELFEAAETALRLLRGESSEEKEAFINQLESLIHEVNILKKTEDVKHES				NA	NA	NA	NA	NA
D1-12_00411	204			hypothetical protein	ATGAATCCTAAAAAACTGACCGACATTGAACATACAACATTAAAAAGCCAGCTGGAAGAAGGCAAGGTTCGGGTGATTATTGTAGACGGACTGAGAAAGGAAGCATGGCTCGCCGAAGCGCCGGAGCACGGCAAAACGCTTGTCGAAACGCGAAAAGGGGATCTGGCCCGGGTCGAATATGAAATCGGCTTTAAATTGAATTAA	MNPKKLTDIEHTTLKSQLEEGKVRVIIVDGLRKEAWLAEAPEHGKTLVETRKGDLARVEYEIGFKLN				NA	NA	NA	NA	NA
D1-12_00412	513			hypothetical protein	ATGGAAGACTTACTATTTGAATATAAACGCACGCTGAAAGAGACGAAAAAGTGGTACAAGCAGCTGGAGGAAGCCGATGAAACGGTGCTTACTTCAGAAGAACTGAAAGATAAAAAAATCATCAGAACAATCATTACAGATGTGGAATATGTCATCGAATGGCTTGAAAAAGGCCGGCAGCCCGGCATAAGAAGAGCGATAGACCGCAGAGACGCTTATCAGAGAATGCTGATTAAAGATCCGAGAATTATAGAAACCTATTCACAGGCGCTGATGTTTGAACCTTCCGCAAATGTGACTGAAGAAGACAGAATCAGACTGCGGGACGCATTAGCCGTTTTAACGGATAGAGAAAAAGAAATGCTGCTGCTCCACAAAGCGGAATGCTTTTCATATGAACGGATCGCCGCCTTGCTGAATGTAAAGAAATCAACCGTACAGACGACGGTCAAACGGGCGCTTCTAAAAATTCAAAAACAGCAAGAACAAAGAAATCAATCGCCTGCTTCATAA	MEDLLFEYKRTLKETKKWYKQLEEADETVLTSEELKDKKIIRTIITDVEYVIEWLEKGRQPGIRRAIDRRDAYQRMLIKDPRIIETYSQALMFEPSANVTEEDRIRLRDALAVLTDREKEMLLLHKAECFSYERIAALLNVKKSTVQTTVKRALLKIQKQQEQRNQSPAS	PGPT0011755_61	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS_RELATED_FUNCTIONS,PGPT0011755-xpf-K24072	NA	NA
D1-12_00413	798			hypothetical protein	ATGAAAAACGCAAAAAGAGAACAGGCATTTACAATCTATCAGTCTCATCAAGGCCGCATCACAAATCGCGCCCTTGCCGGCAAATCAGGCGTATCCGCAAGAACGATCGGCAGATGGAAAAAAGAAGGGCGCTGGGACGAGGCGCTCCATAAGAACGCGGAAAGCGGCGGAAAAAACAACCCGGGCGAAGGTGATGAGTTAAACGAACGCCAGCGGCTGTTTTGTCTTTATTATGTGAAAAGCTTTAACGCCACCCAATCTGCGATAAAAGCCGGGTATTCACCGGAAAGCGCGCATGTGACGGGAAGCAGGCTGTTAAAAAACGGAAAAGTCGCCAAAGAAATCAGCCGCATGAAAAAGGAAATGGTCAATAAAGTGTTTGTCGAAGCGATGGACGTTCTTCAAGTCTATGTGAAAATCGCTTTCGCCGACATTACCGATTATGTAACCTTCGGAAAAAAAGAGGTTCAGGCCTTCGGAAAATCAGGGCCGCTCTTTGACGAAAATGATAATCCGATTATGCAGGAAATCAGCTACGTTGACGTTAAAGATTCGCACCTTCTGGACGGAACCATCGTCACAGAAGCAAAACTCGGAAAAGAGGGCATTGCAATAAAGCTTGCCGACAAGATGAAGGCTCTTGAAAAGCTGTCCTTGTACTTTGACCTTTTCCCCGATCAATTTAAACAAAAAATCGAAAATGAAAAATTAAAGCTGGCACAGCAGAAGATGGAAAAAACAGAAGACAGCCAAAAGCCGATTGACATTGTCATTACGCGGAAAGAGGAACGGTCATGA	MKNAKREQAFTIYQSHQGRITNRALAGKSGVSARTIGRWKKEGRWDEALHKNAESGGKNNPGEGDELNERQRLFCLYYVKSFNATQSAIKAGYSPESAHVTGSRLLKNGKVAKEISRMKKEMVNKVFVEAMDVLQVYVKIAFADITDYVTFGKKEVQAFGKSGPLFDENDNPIMQEISYVDVKDSHLLDGTIVTEAKLGKEGIAIKLADKMKALEKLSLYFDLFPDQFKQKIENEKLKLAQQKMEKTEDSQKPIDIVITRKEERS				NA	NA	NA	NA	NA
D1-12_00414	1299			hypothetical protein	ATGATTGAAAAAGCGGTCAACCCGCGCTTTGAAGATTATTTGTTCAATTGGAATGAAACGTACCAATTTCTCGTCGGAGGCTACGGCTCGTCAAAAAGCTATCATACCGCGTTGAAAATCATCTTGAAGCTGCTTCGTGAAAAGCGGACGGCGCTTGTCGTGCGGGAAGTTTTCGATACGCACAGAGATTCTACTTTTGCCTTGTTTGAGGACATTATCGAAGAGCTTGAGCTGGGACATGCCGTAAAGGCCGTGTCATCACCGATGCAGCTGAGATTTTCAAACGGAAGCCGGATTATGTTTAAAGGGATGGACAATCCGGCCAAATTGAAATCCATTCATCATATTTCACTGATTTGGATTGAAGAATGCTCTGAAGTGAAATATGAAGGCTTTAAGGAGCTGATCGGCCGTCTGCGCCATCCTGAGCTTTCGCTTCATATGATATGCACCACAAATCCCGTCGGCACCTCCAATTGGACGTACCGGCATTTTTTTCGTGATGAGCAAAACAAACGGTTCGTATTGGATGACCAGACACTGTATGAAAAAGGCACCGTCGTTAAGGGAGATACGTATTACCACCATTCCACAGCGTGCGATAATCTGTTTTTGCCGAAAAGCTATATTAAGCAGCTGGACAGCTTACGGCATTACGATCCCGATTTATACCGGATCGCTCGCAAAGGACAGTTCGGCGTTAACGGCATCCGCGTGTTTCCGCAGTTTCAGGTCATGGAGCACAACGAAGTAACGGAGCGGATTGCTTCCATCAGGCGCCCCCTGTTTCGGACGGGCATGGATTTCGGTTTTGAAGAGTCATACAATGCGGTCATCCGGCTTGCCGTCGATCCGGATCAAAAAGAGCTTTATATTTTCTGGGAGTATTACAAAAACAAAATGACCGATGATCAGACAGCTGAGGAGCTTCAGGAATTGGCGGATCAAAAAGAGCTGATCAAAGCGGATTCGGCTGAGCCGAAAAGCATCCAATATTTTCGCAGGCAGGGCTTTTGCATGGTTGCGGCCAAAAAGTTTCCGGGCTCAAGACTTCAGTATACAAAAAAGCTGAAGCGGTTCAAACATATCTATTGCTCAGACAGCTGTCAACATACGATCCGCGAATTGCAGAACTTAACGTACGCAAAAAACAAAAACGGCGTTCTGTCGGAAGATGAGTTTTCAATTGATCCCCACACACTTTCAGCCATTTGGTATGCGCTGGATGACTATGACGCGGCGGATCTGAAAGATGCATCACAAAAACGGAGACGTCCGAATCGGGAAAGGAGGAGGTAG	MIEKAVNPRFEDYLFNWNETYQFLVGGYGSSKSYHTALKIILKLLREKRTALVVREVFDTHRDSTFALFEDIIEELELGHAVKAVSSPMQLRFSNGSRIMFKGMDNPAKLKSIHHISLIWIEECSEVKYEGFKELIGRLRHPELSLHMICTTNPVGTSNWTYRHFFRDEQNKRFVLDDQTLYEKGTVVKGDTYYHHSTACDNLFLPKSYIKQLDSLRHYDPDLYRIARKGQFGVNGIRVFPQFQVMEHNEVTERIASIRRPLFRTGMDFGFEESYNAVIRLAVDPDQKELYIFWEYYKNKMTDDQTAEELQELADQKELIKADSAEPKSIQYFRRQGFCMVAAKKFPGSRLQYTKKLKRFKHIYCSDSCQHTIRELQNLTYAKNKNGVLSEDEFSIDPHTLSAIWYALDDYDAADLKDASQKRRRPNRERRR				NA	NA	NA	NA	NA
D1-12_00415	1440			hypothetical protein	GTGTTGCCGAACTATCAAAACGTTAGAGCGACCGTCTTTAAATCAAAAATGGCCGCGCCGCAGGCAAGGCAGATGAATGAAGATCAATTTGCCGATCTGTACGGCGAAGACATCATTTCACCGCCCTATAATCTCATTGAACTGAAAACAATCGCCGAATATTCGACGATTCTTCAGCAGTGCATTGACGCGTATCGGGTCAATATTACGGGGTTTGGGTTCGATGTGGAATATACCTTTGATGTAAATAGCCCAGATTGCTCCCCGACAAAAAAGGCGCGGGCCGAAAAAAACTGGATGAAGCTGGAGAGCTTTTACAAATGTCTTCATTTTGATGAATCGGCCGAGACGATCCTCGGATATGCGATAGAAGACCGCGAAAAAACGGGCAACGGTTTTCTCGAAGTGCTTCGGGACGGGGCGGGAAAACCGGCGGGGATTGAATATCTGGATGTGAAACATATGCGCGTGTGCGGTGTGACTGATCCCGTTGAAGTTACATTTTCATATGAAGAAAACGGCGCATCCAAAACGATTAAAAGGCAAAAACGGTTTCGTAAATATGTTCAGATGCTGAACGGTCGGAAAGTGTTTTTTAAAGAATACGGCGATCCCCGCATGATGGACATGAGAACCGGCGAATACGTAAAGACCCTGTCTGAAGAATATCGGGCAAATGAAGCCATTCACTTAAAAATCGGCAGCGGCACTTACGGAATTCCGCGCTGGGTCGGCAATATCGTCAATCTGTACGGCGCCCGGAAAGCGGAAGAACTGAATTTTATGTATTTCAAGCAGGGCCGTCACGTGCCGGCCGCCATTACGGTTGAAAACGGCATGCTGTCAGAAACCTCGTACAAAGAGCTCCAGGATTATATGAATGATCTGGAAGGGGTGGAAAACGCCCACAAATTTCTGCTGATTGAGGCGGAAGGCATTGCGAAGGAAAAAGACCTTCACGGAGGCGAAGACATTACGCCCGTGTCTGTGGAAATTAAATCACTTGCGGAAATTCTGCAGGATGATGCGCTGTTTCTTGAATATGACGACAAGAGCAGAAATAAACTCCGTTCCGCTTTCCGTCTCCCGCCGCTTTACACGGGCGAGGCGCAGGAATACAACAAAGCCACCGCCGATACGGCACGGAAAATAACGGAGGAGCAGGTGTTTCAGCCGGAGCGGAAAACGCTGATTAATAAGCTCAACACGTTATTTTTGCCTGAATTGGGTCTCCACGATGTACAGCTCACATTAAAAGGGCCTGATTTTCGCGATCCGCTTGAAATTGCGAAGGTGCTTACGCCATTTATTTCCGCCGGCGCGGTCTCTCCTAATGACCTCCGTGATCTGGCGGGAAGAGTGCTCGGCAAGACGCTTGAGGAATGGCCTGAAGAGTACTACAGCAGGCCGGTGCTGAAAGGGAAAAAGGAGCAATCCTGA	MLPNYQNVRATVFKSKMAAPQARQMNEDQFADLYGEDIISPPYNLIELKTIAEYSTILQQCIDAYRVNITGFGFDVEYTFDVNSPDCSPTKKARAEKNWMKLESFYKCLHFDESAETILGYAIEDREKTGNGFLEVLRDGAGKPAGIEYLDVKHMRVCGVTDPVEVTFSYEENGASKTIKRQKRFRKYVQMLNGRKVFFKEYGDPRMMDMRTGEYVKTLSEEYRANEAIHLKIGSGTYGIPRWVGNIVNLYGARKAEELNFMYFKQGRHVPAAITVENGMLSETSYKELQDYMNDLEGVENAHKFLLIEAEGIAKEKDLHGGEDITPVSVEIKSLAEILQDDALFLEYDDKSRNKLRSAFRLPPLYTGEAQEYNKATADTARKITEEQVFQPERKTLINKLNTLFLPELGLHDVQLTLKGPDFRDPLEIAKVLTPFISAGAVSPNDLRDLAGRVLGKTLEEWPEEYYSRPVLKGKKEQS				NA	NA	NA	NA	NA
D1-12_00416	846	yqbD		putative protein YqbD	GTGCCGAGAGAATTGAGAAATGCCGTCATCAGTTTTGTGAGCTATGTCGATAAGGCGGCGAACCAAACGGAATTCTTTTTTACAAAATCAGCCGGAGGCCTTCCGTCATTTGAAAAAAAGGTGCAGGTGTTTACAAAAAACGAATCGGATGAGCAGAAGCTTGTTTACGGCATCGTTTACGAACCGGATGTCCCGGATGCACATGGCGATTATATGACGGCTGAAGAAATTGAAAAGGCCGCTCACGGTTTTTTGGCGGACGCCCGCAACATCGATACAAATCATAATTTTGAAGGCGGGACCGGCGAGGTGGTGGAGTCGTACGTTGCCCCGGATGACTTTGAAATCGGGAATGCTGTGATCCGGAAAGGATCTTGGGTGCTTGTCACCAAAGCTTCCGATGAAGTATGGGATCAGATTAAAGCCGGTATCATTACGGGCTACAGCATGGCGGGAACCGCTGACGTTTACGAAGAGCCGGCAGAAAAGCAAGCCGGCTTATTCGGCGCGGTCAAGCACTTTCTCGACCGTGACCGCAAATCAAGAAACCGCAAGGGAGAGGACTTGAACAAGATGAGAAAAGAAGACGTAAGAGAATCAATTGAACACGCGCTGCACCCGCTTTTAAAGCGGCTTGACAGCTTGGACCAAAACACGGAAGACAAAGACGGGGCGGCTGCGCCGTCTGATGAAGAAAAGCTGAAAACGCTTGTTGAGGACATGCTCGCGCCGATTATTAAACGCATTGAAGCGCTTGAAAAAGTAAGGGGCGCATCAAAGCAGCCGGAAGAAGAGACGGGCGGCCAAGAGCCTGTTAAAAAATCCATTTGGAGCGGACTGCTTTAA	MPRELRNAVISFVSYVDKAANQTEFFFTKSAGGLPSFEKKVQVFTKNESDEQKLVYGIVYEPDVPDAHGDYMTAEEIEKAAHGFLADARNIDTNHNFEGGTGEVVESYVAPDDFEIGNAVIRKGSWVLVTKASDEVWDQIKAGIITGYSMAGTADVYEEPAEKQAGLFGAVKHFLDRDRKSRNRKGEDLNKMRKEDVRESIEHALHPLLKRLDSLDQNTEDKDGAAAPSDEEKLKTLVEDMLAPIIKRIEALEKVRGASKQPEEETGGQEPVKKSIWSGLL				NA	NA	NA	NA	NA
D1-12_00417	936	xkdG_1		Phage-like element PBSX protein XkdG	GTGAGAAATCAAGATATCATCAGAAAGGCGGAAATGTCACTTTCCGCTTTAAAAAGCGGCGGTTTAATGAACCCCGCACAAGCTTCAGCATTTATCCGCATGGTGCAGAACACGCCGACCATTTTCAGCGAATCGCGTGTGATTCAAATGGAAAATGACTCGCAGAAATTTGAAAAAATCGGTTTCGGCCAGCGTATTCTGCGTGCTGCTGAGGAAGGAAAAGCCTTAACTGACGATCAGCTGACCGTCCCGGCAACAAGTACGGTGCAGCTGAATACGAAAGAAGTCATTGCGGAAATTAATATCACCTATGACACGCTTGAAAACAATATTGAAAAAGACGGCCTGCAGCAGACGATCATGCAGATTTTGGCGGAGCGGGCGGCAGTCGATATTGAGGAGCTTGTCGTAAACGGCGATACATCTTCTTCTGATCCGTACTTGGCACAGCTTGACGGAATCCGTAAGCAGACTGTATCTCACGTCATTGACGGAAACGGGGAAGAGCTGTCCAGAGCCACATTTAAAAAAGGCTTAAAAGCCATTCCGGCAAAATATTTGCGCCTGCCTCAAGAATTCAGATTTTACACATCTCAAGGCATGGAGATTGAATGGAAAGACCGTGTGGCTGACCGTCAGACCAATCTGGGGGATCTTGCGGTGCAGGGCGGTTTGTCTTCAGCATTCGGCGTTCCGGTCAAAGGAGTGTCCAATCTGCAGCCGTACTCGGTCGGAGAAGGTGACTCCCAGTACGATGCGTCTGACATCATTTTGACTCACCCGAAAAATATCATTCTCGGTTTTTCACGGAATATCCGAATCGAAGTAGATAAAGATATTCGCAGCCGCAAATTTATTATCGTACTGACGGCTAAACTTGACAGCAAATTTGAAGAAGAAGATGCAAGCGCCAAAATCGTAAACGTTAAAGAATAA	MRNQDIIRKAEMSLSALKSGGLMNPAQASAFIRMVQNTPTIFSESRVIQMENDSQKFEKIGFGQRILRAAEEGKALTDDQLTVPATSTVQLNTKEVIAEINITYDTLENNIEKDGLQQTIMQILAERAAVDIEELVVNGDTSSSDPYLAQLDGIRKQTVSHVIDGNGEELSRATFKKGLKAIPAKYLRLPQEFRFYTSQGMEIEWKDRVADRQTNLGDLAVQGGLSSAFGVPVKGVSNLQPYSVGEGDSQYDASDIILTHPKNIILGFSRNIRIEVDKDIRSRKFIIVLTAKLDSKFEEEDASAKIVNVKE				NA	NA	NA	NA	NA
D1-12_00418	384	yqbG_1		putative protein YqbG	ATGTTAATTCAGCCGTCTGACGTTGTTTCATATTCAGTTTATGATCAAGTCAAAAACAGGCCGGAGCCGCTTCTTATACAGGATATTCTGGAGGCGGAGGCGGAAGCGGCCAGAATGGCGGGGCATTCGTTCACTGACCCTATTTACTCACCGCTTCCCGAAAAGATTAAGCTTGCGTTATTAAAGCTTTCTCAATATTTTGCGCTGATCAACCAGAATGAAGCAGCCGCTTCCGCCTATCAATCTGAAAAGATAGGTGACTATTCCTATACGGTGGCAGGTGAAGGCGGGATCAGAAAACCGGCTGTGCGCCATCTTCTCTGTGAATATATCGCGCCGGGTTATTCCCCGGTTTCTGCAAACGCAAAGGTGAGACCGTTATGA	MLIQPSDVVSYSVYDQVKNRPEPLLIQDILEAEAEAARMAGHSFTDPIYSPLPEKIKLALLKLSQYFALINQNEAAASAYQSEKIGDYSYTVAGEGGIRKPAVRHLLCEYIAPGYSPVSANAKVRPL				NA	NA	NA	NA	NA
D1-12_00419	357	xkdH_1		Phage-like element PBSX protein XkdH	ATGAGCTACGAACGGCTGCTCACTGACAGATGCGATATTTATCATGAGACGGTGTCAGTTCCGAAGGCCGGACGCTTCGGGATTCCCGCCGAAAAGCTCCAGCCTGTCTTTTCTTATCCGGAAGTGCCCGATGCTGAAGACGTGCCGTGTCTGTTTGTTGAAAAACAGCAGCAGCTTATTCAGCTTGAGCCTGATCATAAGGTATATCAGCGGTTTCTCGTTCATTTTCCGAAAGAGGCCGTTGTGCGTGTCAATGACAAAATCATTTGGGAAGGCCAGGCGTATATTCTGGAAATGCCGAAGAAAGCAAGACAGCACCATTGGGAGGTTATCGCTGTGAGAGATGACAGACTATGA	MSYERLLTDRCDIYHETVSVPKAGRFGIPAEKLQPVFSYPEVPDAEDVPCLFVEKQQQLIQLEPDHKVYQRFLVHFPKEAVVRVNDKIIWEGQAYILEMPKKARQHHWEVIAVRDDRL				NA	NA	NA	NA	NA
D1-12_00420	504			hypothetical protein	ATGAACATAAAAAACCTTGAACAATGGAGTCGGTCGCTGCAAAAGGCATCATCCGGAGAATTTGCCCGTCAGGCAGGCGAATGGCTGGAACAGTCAGGAGAGGATTTTCTCGACTTGGTACGGGAGGAGCTTATTCATTCGGGAGGGATTGATACAGAAAGCCTGCTGTCTTCTTTCCGAAAAGGAGCGCAGGATCACGTATGGATCATTGAAAACGGGGGACTGACCCTTGAAATCGGCACCAATGTAGAGTATGCCTCATTCATAAATGACGGACATTGGACCGTCTCAGATGAAAATGTCAGATGGGTGCCCGGGTATTTTCAAGGCTCCCGGTTCATCTATGATCCGTCAGCTTCAACGGGAATGGCGCTCAAAAAACAGTGGATCAGCGGAAATGGGTTTTGGGACAAAGCCCTTCTTTTGTATGAAACACTCTTCGCCGAATCGCTGGACAAGCGTTTCAATCAGTGGCTTAACACGTTGGGGGGAGATATCGGATGA	MNIKNLEQWSRSLQKASSGEFARQAGEWLEQSGEDFLDLVREELIHSGGIDTESLLSSFRKGAQDHVWIIENGGLTLEIGTNVEYASFINDGHWTVSDENVRWVPGYFQGSRFIYDPSASTGMALKKQWISGNGFWDKALLLYETLFAESLDKRFNQWLNTLGGDIG				NA	NA	NA	NA	NA
D1-12_00421	447			hypothetical protein	ATGAATCGCGAAACCGGTTCAATCGCCGCTTTTTTGTATCAGCAATGCGGCGTGCCCGTATATGAAAATGAACTGCCTGAACAATTTCAGGTGCCGTCACTTTACATCCCGCCCCCGTACGCTTTTGACGAGAATGACACAGTCTCCACCTTTAAGAAGACATACAGTCTGAATGTGAAGCTGTTCCATGCCGACTCGGTGCAGGCGCTCTATGCAGCCGACCGGATCGCCGATGCGGTGAGAGAATCAAGACAGCTGATTCCGCTGCTTACGGAATCAGGGGAGGATACCGGTGATTTCGTCCGCATCAGCCGTATCGAAACAAGAGTCGGAGACAAAGGCGAGGCAGTGATCACCATCCGCTGGACGAGCCGCTACTACTATCAGAAACAAACATCTCCCGCACTGCGGGATGTGGACATTAACAGCGGGGTGAAACAAAAGTGA	MNRETGSIAAFLYQQCGVPVYENELPEQFQVPSLYIPPPYAFDENDTVSTFKKTYSLNVKLFHADSVQALYAADRIADAVRESRQLIPLLTESGEDTGDFVRISRIETRVGDKGEAVITIRWTSRYYYQKQTSPALRDVDINSGVKQK				NA	NA	NA	NA	NA
D1-12_00422	210			hypothetical protein	GTGAAACAACATAAAAAGAAAAACGCCGCAACTGCGGAACGAGCGGTTCTTTATGACACGGCGGATTTAACAAAGCACGCGAAGGAGCTTTTCGGCGTAAAACCCGAGATTCTCCAGGGGGCTTTATTCGGCGTGAAGCAAAAACAAATGACAAAAGCGCAAGCCAAGTCTTACATTGAAGCATTTTTAACCAAGGAGGTCATGCAATAA	MKQHKKKNAATAERAVLYDTADLTKHAKELFGVKPEILQGALFGVKQKQMTKAQAKSYIEAFLTKEVMQ				NA	NA	NA	NA	NA
D1-12_00423	1398			hypothetical protein	ATGAACGGCGGAACATTTACGCAAGGAAAAGAAAAAGAACGTGCCGGAATCTATTTTAACTTTAAAACAACCGCCCAGGAGCGGGTATCGATCGGTGAACGCGGGATTGTCGCCCTTCCCGTCGCATCCGGCTGGGGGGAAGCGAAAACATTCGTTTCCATTTCAAGCGTTGAAGATTTGAATAAAAAAGTGGGGCTCAGTATTGAAGATCCGTCACTGATTCTGCTTCGTGAGGCGAAAAAGAAAGCAAAAACCGTTTTGATGTACCGTCTGACAGAGGGAATCAGAGCGAGCGCAGATCTTTCGCAAGGTGTTAAAGCAACCGCTTTGTACGGGGGTTCAAAAGGAAATGACATCATCATCCGCATCAGTGAAAACGTCCTTGATCAGACCGCTTTCGATGTGACCACTTACATGGATGAAGCGGAAGTTGACAAACAAACGGTGAAAAAAGCCGAAGAATTAAAAGCAAACGGCTATGTCACATTTACGGGAACGGGCGAACTGTCGGCTTCCATCCCGCTGACAGGCACTGAGGAAGAATCCGGGGAAACGTTAAACCCGCAGGCAGGCATCCGTCTCGCGGGAGGAACTGATAAAGCACCGGTCAACTCAGACTATACGGATTTTTTAGTTGCGGCTGAAACGGAGAATTTCGATGTCATCGCTCTTCCTGTCGCGGAAAACGATCAGCTGAAAGCGACATTTGCCGCATTCATTAAACGCCTTCGCGATGCGCAGGGACAGAAAGTGCAAGGGGTGACTGCCCATTACAGCGGAGATTATGAAGGCATTATCAATGTGACTGAAGGTGTGCTGCTGGAAGACGGAACTGAGATTAAAGCTGAAGATGCGACCGCCTGGGTGGCAGGCGCAAGTGCCAGCGCCGCATTTAATCAATCCTTAACATTCGTTGAATACGAAGGCGCCGTCGATGTGCTGCACCGCCTGACTCATGATGAAGTGATCGAACGTCTTTCCAAAGGTGAATTCCTTTTCTCTTATGATGCCCGTGATAAGTCAGTCAGCGTTGAAAAAGATATCAACTCATTGGTGACATTTACGGCAGAGAAAAACAAAAAGTTCGCGAAAAACAAAATCGTCCGTGTGCTTGATGCGGTGAATAACGATTTGACACGTGAACTGAAAGCCTTAATCAAATCGAAAAAAGGCACCGGAAGCGATCTTCCAGCGACAAATGACGGCCTTCAATTCGTCAAAACGATGATTATTCAATATTTGACAACGCTTCAGGATGCGGGCGGCATCGCTAACTTTGATTCAGACAAAGACATTACAATCGGCCTTAATGAAGACCGCGACGGCTTTTTAATCGATCTCGCCGTGCAGCCTGTAGATGCGGCAGAAAAATTCTACTTTAATGTGGAGGTAAACTAA	MNGGTFTQGKEKERAGIYFNFKTTAQERVSIGERGIVALPVASGWGEAKTFVSISSVEDLNKKVGLSIEDPSLILLREAKKKAKTVLMYRLTEGIRASADLSQGVKATALYGGSKGNDIIIRISENVLDQTAFDVTTYMDEAEVDKQTVKKAEELKANGYVTFTGTGELSASIPLTGTEEESGETLNPQAGIRLAGGTDKAPVNSDYTDFLVAAETENFDVIALPVAENDQLKATFAAFIKRLRDAQGQKVQGVTAHYSGDYEGIINVTEGVLLEDGTEIKAEDATAWVAGASASAAFNQSLTFVEYEGAVDVLHRLTHDEVIERLSKGEFLFSYDARDKSVSVEKDINSLVTFTAEKNKKFAKNKIVRVLDAVNNDLTRELKALIKSKKGTGSDLPATNDGLQFVKTMIIQYLTTLQDAGGIANFDSDKDITIGLNEDRDGFLIDLAVQPVDAAEKFYFNVEVN				NA	NA	NA	NA	NA
D1-12_00424	444	xkdM_1		Phage-like element PBSX protein XkdM	ATGGCATTAAAAGCGCAAAACACAATTTCAGGAAAAGAAGGCCGTTTATTTCTCGACGGAGAAGAGATGGCGCATATTAAAACGTTTGAAGCAAACGTGGAAAAAAACAAATCAGAAGTAAACATCATGGGCCGCCGCATGACGGGACATAAAACAACAGGCGCCAACGGAACGGGCACGGCAACATTCTATAAGGTCACATCCAAATTCGCTGTGCTTATGATGGATTACGTGAAAAAAGGCAGCGACCCGTATTTTACGCTGCAAGCCGTTCTTGACGACAAATCATCAGGCCGCGGAACAGAACGCGTCACCCTGTATGACGTCAACTTTGATTCTGCAAAAATCGCTGGACTGGACGTAGACTCAGAAGCGCTCGAAGAAGAAGTGCCGTTTACCTTTGAAGATTTCGATGTGCCGGAAAAGCTTTCTGAAACGTTTTAA	MALKAQNTISGKEGRLFLDGEEMAHIKTFEANVEKNKSEVNIMGRRMTGHKTTGANGTGTATFYKVTSKFAVLMMDYVKKGSDPYFTLQAVLDDKSSGRGTERVTLYDVNFDSAKIAGLDVDSEALEEEVPFTFEDFDVPEKLSETF				NA	NA	NA	NA	NA
D1-12_00425	447	yqbN_1		putative protein YqbN	ATGAGCGAAAAAAACGAACAAGTATATGATCTGTCATTCTTTATGCCGGGTAAAACAGTCGAGGCTGAGGAGATCCGGGTTCCGCTTTCAAAGCGTTTTGTCGATAAAAAAGGAAACATCGTGCCTTTTATTTTTAAAGCCATTACGACTGAGCGCATTGACGAACTGGAGAAGGAAAGCACGACATATAAAAATGTGAAGGGCAGAGGCCGCGTAAAAGACTTAGACAGCCAGCGCTTCTATGCGCGGATCGCGGTTGAATCTACGATTTACCCTGATTTCCGGTCTAAGGAGCTCCGCGACGCTTACAAAACGGCAGATCCGGTCGAGGTGGCAAAACGCGTTCTTTCAGTCGGCGGTGAGTATGCAAATTGGCTGAATAAAGCGATTGAGATCAACGGTTTTGAAGATGAATTAGAAGATCTGGAGCAAGAAGCAAAAAACTGA	MSEKNEQVYDLSFFMPGKTVEAEEIRVPLSKRFVDKKGNIVPFIFKAITTERIDELEKESTTYKNVKGRGRVKDLDSQRFYARIAVESTIYPDFRSKELRDAYKTADPVEVAKRVLSVGGEYANWLNKAIEINGFEDELEDLEQEAKN				NA	NA	NA	NA	NA
D1-12_00426	171			hypothetical protein	GTGTATCTCTATTACGCGATGCATGAGCTTCATTATTCTCCATCAGAACTGAAAGAGTTATATGAAGCACCGAGACATTTTAAGGCGCTGTTGTACGGTTTAATCGGTTACAAGCTGGACATTCTTGAAAAACAAGCGAAGAAAGGGGGAGCGACATCATGGCAAAGCTGA	MYLYYAMHELHYSPSELKELYEAPRHFKALLYGLIGYKLDILEKQAKKGGATSWQS				NA	NA	NA	NA	NA
D1-12_00427	5004			hypothetical protein	ATGGCAAAGCTGACCGCCCGTTTTGAATTGGAAGATCGGGTTTCAAAGAAAATAAGGAAAATCCAAAATGGCTTCAGAGCGCTTGAGAAATACAGGAAAATGACAAAACGCCAAAGTGAAATTGATATACGCAAAGAGAGTAAATCTGTTTTAAGAACAATTGACCGCATCCAGCGCTCTATGAAAAGAAAGCTGGGCGCACAAATGATCTCTATTTCAGCTGAAGACGGAGCCAGTGCCGTCATTCAAAAGGTGCAAGCCCAATTAGCGGGTCTGCCTGCGTCTTTAACCGTTAAAATAGGAGCAAAAGACAGCGCGACAGCGGCATTTGAGAGATTGCGGGATCTGGCTGCCGGTTTTAAAGGATTTACCGTTTCACTGTATGCGTCAGACGAAGTGACTCCTGCCATGGAACGTATCAAACGCTACATGCAATCTGCGTTAAAGAACGGGTACTCTGTCACTATACGCGTCATAGATCACGTCATGAAAACAGTCGGCCGAATTTCAGCGGGGATGGATTCGCTGACGGGGAAAAACAATGTCATTCAATTATCGTTAAACGAAAAGGTGACAGCACAGCTGGCTGCAATGCAAAAGAATATGCCGGACGTCGGAAAAGCTTCTGCATCTGCTGCTCCTGCTTCGCCGAAAAACGATTTTTCAATGCTTGACTCCATTGCAGACACCTTCATGAAAAAAGTCAATAACATCGCATCCAAATTTTATCCGGAAACAATCATAGCGGAACTGGATAAATTCGCTGCAAACTTTATGAAGAAAGCGGATGAAATCGCAAGCAAATTCAGCCCTGAGACGATTTTAGCCGAACTGGACAAGTTCACAACGTCATTCATGGGAAAAGTAGACGAAATCGCGAGCAAATTCAGCCCTGAGACGATATTAACCGAACTGGACAAGTTCACAACGTCATTCATGGGAAAAGTGGACGAAATCGCAAGCAAATTCAGCCCTGAGACGATTTTAGCAGAGCTGGACAAGTTCACGACCTCATTCATGGGAAAAGTAGACGAAATCGCAAGCAAATTCAGCCCTGAGACGATTTTAGCAGAGCTGGACAAGTTCACGACCTCATTCATGGGAAAAGTAGACGAAATCGCAAGCAAATTCAGCCCTGAGACGATATTAGCCGAACTGGACAAGTTCACAACGTCATTCATGGGAAAAGTAGACGAAATCGCGAGCAAATTCAGCCCTGAGACGATTTTAACAGAGCTGGACAAGTTCACAACGTCATTCATGGGAAAAATAGACGAAATCGCGAGCAAATTCAGCCCTGAGACGATATTAACCGAACTGGACAAGTTCACGACATCATTCATGGGAAAAGTAGACGAAATCGCGAGCAAATTCAGCCCGGCAACGATATTAACCGAACTGGACAAGTTCACGACCTCATTCATGGGGAAAGTGGACGAAATCGCAAGCAAATTCAGTCCGGCAACAATCTTAGCAGAGCTGGACAAGTTCACGACCTCATTCATGGGGAAAGTGGACGAAATCGCAAGCAAATTCAGTCCGGCAACAATCTTAGCAGAGCTGGACAAATTCGCTGATTCGTTTATGAAAAAAGTAGACGGGGTCGTGAGTAAATTCAGTCCGGAAGCCATATTGAAAGAACTGGATAAATTCACTGATTCATTTATGAAAAAGATAGATGACGTTGTCAGCAAATTCAGTCCGGAGACCATATTGAAAGAGCTGGATCATTTTACTGATTCGTTTATGAAGAAAGTCGACGACGTTGTCGGTAAATTCAGTCCTGATAAGCTAATCGACCGCGCCGAACAATTTGTAAATGACACGATTGACCGAATTTCTGAGAAATTCGATTTTCTCAATCCGGATAAGATTTTGGAAAAAGTGGAGCAGTTTACATCCTCACTGTTCGGAGGCATTGATAAAAAGTTCGGCAAATTCAGTCCTGATGCGATCATCGAAAAAGCCGAGGCATTTGTTGATAAAATTGTAAGCAAGATTGCCAAGAAATTTGAGAAATTCAGCCCGGACAAAATCATCGAAAAAGCCGGGGAATTAATAGAAAAAATATTTTCAGGAATCGCTGAAAAATTAGGCAAACTCAATATCGGCGGATTATTAGGCGGCGGCACGAAAAAAGAAAAGAGTAAGGGCGGCCTTTCTGCCGGCGGCACCAACAGCCCGAAGCGTCCTGATCTGACAAAGGGTCCGCAGCGCACGGTAACAGCGCCAAAATCTTCAGGAAAGTCAGCCAAAAAAACCGGCGGGGCTTTGGGGGGCTGCTGCTGCTGTACCGGAGTGTCGAGGGGCAAAAGCAGTAAAGTCGAAGAGCGAAATAAATCCTCGAAAAGAGGTTCCTCCGTAAAGGAAAGCAAACAGGCATCCGTAAACACGCCGAAAACAAAAGGGGCAGGTAAAGGCATCGGCGCGCTTTTGAAAGGCTTAGGAGATTCAAAGGCGCTAAAAGGCGGTTTGAAAGGGTTAAAAGGTGCCGCTAAAGGAATTCCCGGCATAGGTGAATTGTTATCACTTACTGATTTAGCCGGCATCAATAAAGATAATGCAGGAGAGAAGGTCGGCTCAGCAGGCGGCGGTCTTGCCGGAGCTGCGGCCGGAGCGGCAATCGGCAGCGTTGTTCCCGGAGTGGGCACATTAATCGGCGGCGCGGTAGGCGGCATCGCCGGCAGTTTAGGCGGTTCCAGCTTGGGAGAGGCCTTTGATTCAGGGGCTTTGAAAGACACGTGGAATGATATTTCCAAAGCGGCGCAAAGTGCTTGGACAACAATACAAGATACTTGGGGAAGCGTTTCATCCTGGTTCATGGAAAATGTATGGACGCCGGTTTCAACGGCTGTCGTCGGAGTGGCAACCAGCATCTGGTCAAATATCGTGAATGCGTGGACGACGATTCAAGGTGTCTTCAGCACAGTATCCGGCTGGTTTATGAGCACCGTGTGGGGGCCCGTAAAATCGGCTGTCGTCGGAGTGGCGACGTCCATTTGGAGTAAAATCACAGGAGCTTGGGATAAAATTAAATCGGTTTTCAGTACGGTTTCCGGCTGGTTCATGGATACTGTCTGGAATCCGGTGAAAGACATGGTGAAAAATGTCGGTAAAGGAATATCAGATGCTTTCCAGACTGCTTTAGATACGGTAAAGGATATATGGAAAGGGTTAAGCGGCTGGTTTGAGAAACATATAAAAGAACCTCTTGTAAAAGTGGGAACGGCCATATCAGATGCTTTTTCTGCAGCATTCGACTGGGTGAAAAAGATTTGGGATAAAACCGGCGGCAAAATGATTTCAGGCATAATGAACTTTGTCACAGGAGGCGGCGGAGATAAAAAGAAAAAAACGGACAAAAACGCCACGGGCGGCTACATTACAAAGCCGACCATTTCCTGGATCGGTGAAGCCGGTAAAGAATTTGTCATCCCCGTCGACAACAATCGCGGCCGCGGGAAGATGCTGCTTTCACAAGCTGCGTCTAAGCTCGGCATGCGTGTTGTCGATGATATGGGCGCGGCTTCGGCTCAGTCTTCTGCTGTGCCGGCGGGAGCGGGCGGTGTTTCTTCTTCTGCATCTGTATCGGCCGCAGCGTCTGTGGATTCTTCCGGATTAGCCGGGACGGCTTCATCACTCGGCAAACAGTTTACTGAAGGCTTTGACAGCGGAATCAGCAAAAAAGCCGTGGATATGGACGGCTGGAAGGAAAAAAACATCGGAACGCCGTTCAATGCCCTCATTTCGTCTTCATCCGGTTACGGAAAGCAAGTCGTTGCGGGCTATGTGAAAGGTCAGAATACTTCGCCGACGGGCACCGATTCATTTTTAAAAACAAAGGTGAAAACACCTTATCAATCGGCGGTTAACCAATCGTCATCATGGGGCGCCGCAACGGTGAAAGGATATTCGGCCGGACAGAATGCAAAAGATACGGGAACGTCGCAATACGTAAGCACACATATCAATAAACCGTTTGTGCAATCAAGAGATTCCGCGAACGGCTGGGGGTCAGGCCTGATCGGACACTTCGTATCAGGGATGACTGCAAAAGGAAGCGAAGTCAAACAGGCGGCCAAAGATATGGCCAAAAAAGTCGAGGACGCATTCAGGGAAGAGCTTGATATTCACTCTCCTTCCCGTGTCATGATGAGTCTCGGACGCTTTGCTTCAGTCGGCGTCGTCAAAGGTCTCGGCTCAGTTGACGTGAAAAAATACGCCGAAAAACAGGCAGGCTCGCTTGCAGCAGCCTTTTCCGGCATGGGTGCAGCGGGAGGAAGCGTCAAAGAGTGGCTTTTGGCCGCAATGAAAGCAACCAATACGCCGATCAGCTGGCTTCCGGGATTAATGACGATCGCACAGCATGAGTCAGGCGGCAACCCTAATTCCATTAATCTATGGGACAGCAACGCCAAAGCCGGACACCCGTCACAGGGGCTTATGCAGACGATTCCGAGCACCTTTGAAGATCACAAAGCGCCGGGCATGAATGATATCAGAAATCCAATTCACAACGCCGCTGCCGCTATCGGCTATATTAAAAGCCGATACGGCTCGATCAGCAATGTCCCCGGGATTAAAAGTATGGCTCATGGAGGCCCTTACGTCGGTTATGCCAATGGGGGTCTGATTACCAAGGAGCAGATCGCCCGTGTCGGGGAAGGGAACAAACGGGAGTGGATCATCCCTGAAGAGCGGGGCATCCGCGGCCGTTATCTGCTGCAAAAAGCGGCTCAAGCGCTCGGCATGGAAGTGTCCGACCCGTCACAGACGGAACCGGCGGCGCTTTCAGCCGGCACGGTTTCCGCAGCCGTTAAAGGCGGCGGACAAACCGTTCAAAAAACGGGAACAAAAGAGATTAAAATCGAATTCAGCGGCGATCAGCATTTCCATAACGGACAGGACGCCGACAGCCTCGCCGCCAAAATCAAACAGGCGCTGATTGATGAACTGCAAAAAGACATGTATACCGGAGCAAAGGGGGCCGTTGCTTTTGACTAA	MAKLTARFELEDRVSKKIRKIQNGFRALEKYRKMTKRQSEIDIRKESKSVLRTIDRIQRSMKRKLGAQMISISAEDGASAVIQKVQAQLAGLPASLTVKIGAKDSATAAFERLRDLAAGFKGFTVSLYASDEVTPAMERIKRYMQSALKNGYSVTIRVIDHVMKTVGRISAGMDSLTGKNNVIQLSLNEKVTAQLAAMQKNMPDVGKASASAAPASPKNDFSMLDSIADTFMKKVNNIASKFYPETIIAELDKFAANFMKKADEIASKFSPETILAELDKFTTSFMGKVDEIASKFSPETILTELDKFTTSFMGKVDEIASKFSPETILAELDKFTTSFMGKVDEIASKFSPETILAELDKFTTSFMGKVDEIASKFSPETILAELDKFTTSFMGKVDEIASKFSPETILTELDKFTTSFMGKIDEIASKFSPETILTELDKFTTSFMGKVDEIASKFSPATILTELDKFTTSFMGKVDEIASKFSPATILAELDKFTTSFMGKVDEIASKFSPATILAELDKFADSFMKKVDGVVSKFSPEAILKELDKFTDSFMKKIDDVVSKFSPETILKELDHFTDSFMKKVDDVVGKFSPDKLIDRAEQFVNDTIDRISEKFDFLNPDKILEKVEQFTSSLFGGIDKKFGKFSPDAIIEKAEAFVDKIVSKIAKKFEKFSPDKIIEKAGELIEKIFSGIAEKLGKLNIGGLLGGGTKKEKSKGGLSAGGTNSPKRPDLTKGPQRTVTAPKSSGKSAKKTGGALGGCCCCTGVSRGKSSKVEERNKSSKRGSSVKESKQASVNTPKTKGAGKGIGALLKGLGDSKALKGGLKGLKGAAKGIPGIGELLSLTDLAGINKDNAGEKVGSAGGGLAGAAAGAAIGSVVPGVGTLIGGAVGGIAGSLGGSSLGEAFDSGALKDTWNDISKAAQSAWTTIQDTWGSVSSWFMENVWTPVSTAVVGVATSIWSNIVNAWTTIQGVFSTVSGWFMSTVWGPVKSAVVGVATSIWSKITGAWDKIKSVFSTVSGWFMDTVWNPVKDMVKNVGKGISDAFQTALDTVKDIWKGLSGWFEKHIKEPLVKVGTAISDAFSAAFDWVKKIWDKTGGKMISGIMNFVTGGGGDKKKKTDKNATGGYITKPTISWIGEAGKEFVIPVDNNRGRGKMLLSQAASKLGMRVVDDMGAASAQSSAVPAGAGGVSSSASVSAAASVDSSGLAGTASSLGKQFTEGFDSGISKKAVDMDGWKEKNIGTPFNALISSSSGYGKQVVAGYVKGQNTSPTGTDSFLKTKVKTPYQSAVNQSSSWGAATVKGYSAGQNAKDTGTSQYVSTHINKPFVQSRDSANGWGSGLIGHFVSGMTAKGSEVKQAAKDMAKKVEDAFREELDIHSPSRVMMSLGRFASVGVVKGLGSVDVKKYAEKQAGSLAAAFSGMGAAGGSVKEWLLAAMKATNTPISWLPGLMTIAQHESGGNPNSINLWDSNAKAGHPSQGLMQTIPSTFEDHKAPGMNDIRNPIHNAAAAIGYIKSRYGSISNVPGIKSMAHGGPYVGYANGGLITKEQIARVGEGNKREWIIPEERGIRGRYLLQKAAQALGMEVSDPSQTEPAALSAGTVSAAVKGGGQTVQKTGTKEIKIEFSGDQHFHNGQDADSLAAKIKQALIDELQKDMYTGAKGAVAFD				NA	NA	NA	NA	NA
D1-12_00428	660			hypothetical protein	TTGACTAAATCTGTTTACGAATTTTGGCTGTCTCAGGGAAAGGACAAGCTCCGGCTTCCCGTTCTCCCTGAAGCGATTGATATCGCAAACAGCGTGCAGAATGATTCCGTGAAAGTCACCGGACTTGGAGAGGTGACGTTTATCGAAGAACCGGGAGCGAAAGAAATTTCGTTCTCTTCTTTTTTTCCGAAACGGTACAGCCCGATTGTTGAATATCAAAGCATCCCTTCGCCGGAAAAAGCCATTTCAGCCATTGAAGCATGGATGAAAGCGAAAAAACCCGTTCAGTTTTTGATTACAGGGACAAAAATCAATGTCACATGCAGCATTGAAAGCTTTAATTACAGCGAAGGTGACAATGAAATCGGCGACCGGAATTTTGATATCGTACTGAAAGAATATAAAACCGCTTCGCCAAGAAAAATCAAACAAAAGAAAAAAACGAAAGCGAAGCGCCCGTCCAAAGCTTCACCCAAAACATATACCGTCAAAAAAGGGGATACGCTTTGGGACATCGCCGGCAAGTTTTACGGAAAACACACGGAGTGGCGGAAAATCTGGAACGCGAATAAAACCGCCATGATTAAGCGCAGCAAACGGAATATCCGGCAGCCGGGGCATTGGATCTTCCCGGGGCAGAAGCTGAAGATACCGCAATGA	MTKSVYEFWLSQGKDKLRLPVLPEAIDIANSVQNDSVKVTGLGEVTFIEEPGAKEISFSSFFPKRYSPIVEYQSIPSPEKAISAIEAWMKAKKPVQFLITGTKINVTCSIESFNYSEGDNEIGDRNFDIVLKEYKTASPRKIKQKKKTKAKRPSKASPKTYTVKKGDTLWDIAGKFYGKHTEWRKIWNANKTAMIKRSKRNIRQPGHWIFPGQKLKIPQ				NA	NA	NA	NA	NA
D1-12_00429	978			hypothetical protein	ATGATTGAACTATTTGTCATAAAAGAAACGGAGTGGCTCGAGCTTGTCACAGAAAGCGTAACGCTGGAAGGACACAGATATCAGGCGCCCCGTTCCATCGAAGCGACGATTGTCGTAAAGCAGGGCAGCCAGACGTATTACGGCGTATCAGAAGGGGATACGGTTTTGTTCAAATGGAACGGAAAAGAACTGTTCCGCGGCATTGTTTTTGCAAGAACGCCCGATGAGCATACCGTCGCCTTCACCGCATACGATATGCTTCAATACCTTGTGAAAAACCAGGACGTTTACGTGTTTTCCAACAAGCGCGCCGATCAAATATTAAAAAGGATCGCCAGCGATTTTCAAATTCCCGTCACATCCATTGCCAACACAGGCCATACCATTAAATCACTCGTTTTTAAAAATGATACAAGCCTTTACGATATGATGCTAAAAGCTTTAAAGCAGACAAAAAGCCAGACGGGGCGCAATTATCAGCTCTATTCAGAAAAAGGCAGGCTCGGCTTGCGTGAATGGCCGGAGCCGTCTGACATATGGGTGCTGGAAACAGGAGTTAATATCACAGGGTATCAATACAACACCTCAATTGATGACACCGCAACCCGTGTCGTCATGCGGCTGCAAAAAGACGATAAAACCGTGAAGGCTTCCGCCTCAGACAGCGCGGGCATGAAAACATTCGGCGTTTTGCAGTATACCGAAACGGTTTCTGACGACATTAATGAAGCCCAGCTGAAACAGCGCGCAAAAGTGAAGCAGGCTGAGAAAAAAGGCGTTAAGAAAGAGCTGAAAAATATACAGGCGATCGGTATTCCCGGGTTGGAAAGCGGATTGCCGGTCTATATCTCAATTCCGGAAATCGGGCTGAAGAAAACCTATTATGTAGATACGGACCGCCATGAATTCCAAGGAACAAAACATACCATGACGATTGACGTCACGGAGAAAAATTCACTTCCGGAGGGGACATCCTGA	MIELFVIKETEWLELVTESVTLEGHRYQAPRSIEATIVVKQGSQTYYGVSEGDTVLFKWNGKELFRGIVFARTPDEHTVAFTAYDMLQYLVKNQDVYVFSNKRADQILKRIASDFQIPVTSIANTGHTIKSLVFKNDTSLYDMMLKALKQTKSQTGRNYQLYSEKGRLGLREWPEPSDIWVLETGVNITGYQYNTSIDDTATRVVMRLQKDDKTVKASASDSAGMKTFGVLQYTETVSDDINEAQLKQRAKVKQAEKKGVKKELKNIQAIGIPGLESGLPVYISIPEIGLKKTYYVDTDRHEFQGTKHTMTIDVTEKNSLPEGTS				NA	NA	NA	NA	NA
D1-12_00430	267			hypothetical protein	ATGAGATTAAGTGATGCCATTAAACATTTAGCCGTCGGAGCGGTTGACGCCGAAGCGCCGGTAGAGCTGATGCCGGCCGAAGTGACCTCCGTTTCGCCGCTCGAGCTGAAACTGAAAGATCACGACAAACTTTTGATTCCGTCTGATGCACTCATTTTGCCGAAGCGGCTGAGATCCGGAGAAGATGATCAGCTCCAAGCGGGAGATCGGGTGATGACCGCCGCTTTAACAGGAGGACAGTCTTTCTTTGTACTGGACAAAATTTAA	MRLSDAIKHLAVGAVDAEAPVELMPAEVTSVSPLELKLKDHDKLLIPSDALILPKRLRSGEDDQLQAGDRVMTAALTGGQSFFVLDKI				NA	NA	NA	NA	NA
D1-12_00431	426			hypothetical protein	ATGGCCCTGACACCGGAAATCGAATTTGAAGATTTGGAGGATGCGAGTGAGGCCGTTGAGACTTCACAAACCTACCGAATTGATTTTGAAAACAACCGGATTACCAATGAACTGATAAACGGACTGGACGCAATCAGACAATTCGTCTATATCGCTCTTCACACAGAACGGTATTCATATTCGGTTTTCAGCCATGATATCGGAAATGAACTGCAGGAAGTGCTTTCAGATCAGAACACGACGGATGCTTATAAAAAAATGGAGATCCCAAGACTGATAGAAGAAGCCTTGCTGTATGATGACCGTATTTTGGCCGTTACCAATTTTGAGATTGAGAAAAAAGATGATGCCTTCATCGTCTCTTTTACCGTTGAAACTGATGAGGGCATGCTTGAGATAGAGGAGGTGCTGGGTGAGGATGTTTGA	MALTPEIEFEDLEDASEAVETSQTYRIDFENNRITNELINGLDAIRQFVYIALHTERYSYSVFSHDIGNELQEVLSDQNTTDAYKKMEIPRLIEEALLYDDRILAVTNFEIEKKDDAFIVSFTVETDEGMLEIEEVLGEDV				NA	NA	NA	NA	NA
D1-12_00432	1047			hypothetical protein	ATGTTTGAAGCTCAGACGTTTGACGACATTATGGACAGAATGCTGGCGCGCGTTACGGCGGATATTGATACGAGAGAAGGCAGCGTCATTTACAATGCGCTCGCGCCTGCGGCCGCTGAGCTCGCAAAGTCTTATATTTGGCTTGATACCGTGCTGGAGCTCGTGTTTTCCGATACGGCTCAGGGAGAATTTCTGGACAGGCGTGCTGCTGAAGCGGGAATTGAACGAACACCTGCTACAAAAGCGGTCAGAGCAGGAGAATTCACAGCGGGCATCACCATTCCGCCAGGCTCCCGTTTCTTCGTTGATAACCTGTATTTTCAATATACGGGGGATGGAACGCTTGAATGTGAAACAGCCGGTGAAGCGGGCAATGCCGGCATTTCAGGGCAGAACCTGCTGCCGCTTGATACGATACCCGGGCTTGAGAAAGCAGTCATGCGCGATATATTAATTCCCGGCCGTGAGGAAGAAGACGACAACAGCTTAAGGGCGCGCTATTTTACCCGTGTCCGCCGGGAGGCAGTCAGCGCAAATAAACAGCATTATAAACAATGGGCCGAAGAGGTTGACGGCGTCGGCAGGGCGAAAATCTTCCCGCTTTGGAACGGAGCCGGAACGGTGAAGGTTGTCATCACAAATGCGAATTTGGAACCGGCATCAGATATTCTGATCAAAAAAGTAAAGGATTATATTGATCCGGACGAAGGACAGGGAGAAGGACAGGCGCCGATCGGAGCGGCAGTAACGGTGGAAAGCGCCGTATGGAAGGAAATCGAAATCTCGGCTTCCGTGCTGCCTGAGCTGAACAGCTCGATCGATGACGTAAAAGCGGAGATTGAAAAAGGCGTCCTGAATTTATTTAAGAAAATGGCCTTCGAAGAAAACACCGTCCGTTTATCACAAATAAACAACATCGTTTATAACTCGGCATCCGTCAGTGACTACGCCGATATCAAAATGAACGGTGCGGCGGAAAACCTCGTGCTCAGTGACGTGGAAATTCCTAAACTCAAAGAGGTGACAATCCTTGAGCAGACTCGATGA	MFEAQTFDDIMDRMLARVTADIDTREGSVIYNALAPAAAELAKSYIWLDTVLELVFSDTAQGEFLDRRAAEAGIERTPATKAVRAGEFTAGITIPPGSRFFVDNLYFQYTGDGTLECETAGEAGNAGISGQNLLPLDTIPGLEKAVMRDILIPGREEEDDNSLRARYFTRVRREAVSANKQHYKQWAEEVDGVGRAKIFPLWNGAGTVKVVITNANLEPASDILIKKVKDYIDPDEGQGEGQAPIGAAVTVESAVWKEIEISASVLPELNSSIDDVKAEIEKGVLNLFKKMAFEENTVRLSQINNIVYNSASVSDYADIKMNGAAENLVLSDVEIPKLKEVTILEQTR				NA	NA	NA	NA	NA
D1-12_00433	579			hypothetical protein	TTGAGCAGACTCGATGAGATGACGGCGTACCTCCCGCCGTTTTTAACCCGATTAAAAGAGATGGCACAGCTGCTTGAGGCGGAAGCTCCTGAGTTTGAGCGGCAGAATAACGATATTTTCGATTTGACGGATCAGCTCTTTATCACGACGGCGACGTGGGGGCTTGACCGCTGGGAAAAAATATTAAAAATACCGCGGGAATCAGGTGACACGGAGGATATGAGACGGCTCAGGCTGATTTCGAAGATGTCGAATATTCCGCCCATCACACATCAAGCGATCGAGCAGGCGCTAAACCGTTTTTTAAAACATCCGTCAGCTTACGTTCGGATGTTTCCGGGGCAGTATCGTTTTTATGCCGATATCGGGCTTGATGACCTGCAGCACATGAACGAGCTGATTGAAACGCTTGAAAAAATCAAACCTGCTCATTTGGCGTATACACTGAGAGCCGCATTAAACGAAACACTGGAAATCAAAGACCGGGTCATTCTCAACAATCGGAGATACCGAAAAGTCAGTGAACTGAAGGTCGGTTATTCCGTCACACTCAACAATAACGAGGTGGTCTTACCATGA	MSRLDEMTAYLPPFLTRLKEMAQLLEAEAPEFERQNNDIFDLTDQLFITTATWGLDRWEKILKIPRESGDTEDMRRLRLISKMSNIPPITHQAIEQALNRFLKHPSAYVRMFPGQYRFYADIGLDDLQHMNELIETLEKIKPAHLAYTLRAALNETLEIKDRVILNNRRYRKVSELKVGYSVTLNNNEVVLP				NA	NA	NA	NA	NA
D1-12_00434	273			hypothetical protein	ATGATATCAGCCGCTTACAGACAGCGTGCCGCAGCCGATCTGAAAAACAGGATCGCAAAAGTGCTGTTAAACGGCAAAGAAACTCCGATTGCGGATATTTCCGTAAAAGATGCCGCAGTCACCGTTCTCACACGCAGGGAAGAAGACGTCAAACACATTGAAACCGTGCAGATGCTTGACGAAACAGGAAGCGTCATCACAGAACGAAAAACAAATTTAGATCTCAGCAATAACAGAACGCTTGATTTAAGATTTACCTTTGAGGTGGTGTAA	MISAAYRQRAAADLKNRIAKVLLNGKETPIADISVKDAAVTVLTRREEDVKHIETVQMLDETGSVITERKTNLDLSNNRTLDLRFTFEVV				NA	NA	NA	NA	NA
D1-12_00435	1590			hypothetical protein	ATGGCTTACGAAGAAAAAACAGACTGGCTTCCGGACGATCCGATTAACGAAGATGACGTCAACCGCTGGGAAAAAGGCATAAAAGACGCCCACACGGATCTGGCGGCCCATAAAAACGACATGAACAACCCGCACAAAACGACAAAGGCCCAAATCGGCCTCGGAAACGTAGACAACGTCCAGCAGGCAGCAAAAAAAGATTTCGACCGGCACAATCAAGATCTGGACCGGCATGTGACGAAGGAAGAGCGCCAGAAGTGGAATAACGGGCAATTAACAAAGCTGACGGATGATTCAGGGAAATATTTAATAAGTATACAAGATGGCTTGGATTTTCATCAAATTGTAGATCAGCTTAATCAATCTTTTTTCTTTTACACAAATAACACGGGAGTTCATACTCCCCCGCTATCCGCCAGAGGTTTATATATCGGATTCAAGTCTTATGGTGAGGCTCTGGCGATGGATTATGAAGGCGGCACATGGAGAAAAACCCTTAAAGCTTCCGGCTGGACTGATTGGGTTCAGTTAGAAACTTCGGAAGGCGCCCAAAAAAAAGTCGATGCCCACACAAAGCAGACTGATATCCATGTAACGAAAGCTGAGAAGGATACATGGAACGCAGGCCAGCTGTTTAAAATCACCGCCGATAATGGCACCCAAAAAATCAATTTAACTTCCGGCTCGTTTTATGACTCGTTAAAAGACGTTGGTTCTGTAACATTTTACGGAACCAATGCAGTAACAGACAACCCGTCAAATACGAGTCTGCGCGGTATGCAGTTAGTGGGGCAGCCGGGAATAGGTAATGGTTATGCTGTAGACGTAAAGGGTAACGCATGGTGGTTTTACTATAACTCTAATCAAACAGCAATCAATTGGTATCCAATTGAATCCATAGCTGGAGCGCAGTCAAAGGTCGATGCACATGCGATAGATTCATCAATTCATATAAGTCCTATCGAAAGAGACAAATGGAACGGCGGCCAGTTGGCGAAATTGACAAAGGATGATGGGAAACGGACACGCTTAGAAAGCGGATCAGACATACTGGCACTGAGCTCGGGATTTTATTATGGAATGGGTGCTCAGCTGAAAAACAATCCGGTTGAAAATGATAATTCCTTTTTTAACTATGATGTGATTGAGAGTGAGTCAGGTAGAAAGTCGATTTTGGCTTGGAGAAGTTACGATAATAATGTATGGATTGCGACTGTTCATACAGACGGTGTTTTTAAGGGGTGGAAACGTCTATTTACTGAAGAAGAATTTAATAAAATGACCTGGTATGATTTAACACTAATTAATGGGCATAAGGCTGGCGCAAGAAATCCTCAGTATGCAGTGTGGGGCAACCAGGTATTCACTCGTGGTGAAGTGGTTCCTCCAGATTTCGACAGCATTTTCGCTGTACTTCCTTCTGAAGCTCACCCTTCAACACAGAAATCAATGGCTGCCCCACTCTTTGGAACAACCGGGATAACAAAATATTATGCCGAACCAACGGGAGAACTGAGAATTAACGGAAAATACGCCAAAATAGAGGGGAATATTACAGGGATTTCAATAGATAATAATTTCACTTTGTAA	MAYEEKTDWLPDDPINEDDVNRWEKGIKDAHTDLAAHKNDMNNPHKTTKAQIGLGNVDNVQQAAKKDFDRHNQDLDRHVTKEERQKWNNGQLTKLTDDSGKYLISIQDGLDFHQIVDQLNQSFFFYTNNTGVHTPPLSARGLYIGFKSYGEALAMDYEGGTWRKTLKASGWTDWVQLETSEGAQKKVDAHTKQTDIHVTKAEKDTWNAGQLFKITADNGTQKINLTSGSFYDSLKDVGSVTFYGTNAVTDNPSNTSLRGMQLVGQPGIGNGYAVDVKGNAWWFYYNSNQTAINWYPIESIAGAQSKVDAHAIDSSIHISPIERDKWNGGQLAKLTKDDGKRTRLESGSDILALSSGFYYGMGAQLKNNPVENDNSFFNYDVIESESGRKSILAWRSYDNNVWIATVHTDGVFKGWKRLFTEEEFNKMTWYDLTLINGHKAGARNPQYAVWGNQVFTRGEVVPPDFDSIFAVLPSEAHPSTQKSMAAPLFGTTGITKYYAEPTGELRINGKYAKIEGNITGISIDNNFTL				NA	NA	NA	NA	NA
D1-12_00436	426			hypothetical protein	ATGCAAGTCTTTTTGTATGATGAGAATTTTTATTTTCAAAGGCCTGAAATCTTAAACAGTACATCAAGTTCAATGCCGCAAAACTCAACAACCATAAAACCTCCGGACGGCTTATGGAGACCGCAGTTTGATGAAGTAAATAAAATTTGGAACGAATCTGCTGATAAAGAATATAAGGAAAATCAAAAAAACAAGTATCAGGATGTGGTGGAGCCGGATCCCATCGTGGAACAGTTGAAAGAAATCGGACAGCAACTGGCAGATGAAAAACTTGTGAGAAAACAAGCAGAACAAGCTCAAAATGCTTTAGGTGTACAATTGTCTGCCGAAGTGGTGGCAAGGGAGAAAACAGAGATGCTGAATAAAGCTTTAGGTGAACAATTAGTATCTTTAAAATTAGAATTATTAAACATAAAAGGAGAATGA	MQVFLYDENFYFQRPEILNSTSSSMPQNSTTIKPPDGLWRPQFDEVNKIWNESADKEYKENQKNKYQDVVEPDPIVEQLKEIGQQLADEKLVRKQAEQAQNALGVQLSAEVVAREKTEMLNKALGEQLVSLKLELLNIKGE				NA	NA	NA	NA	NA
D1-12_00437	198			hypothetical protein	ATGAAGAGACTTAACTTTTGGGTTTACGCTTTGTTTTATAAGTGGGCCTCAATAGAAATGGTAAAACAGGCTATGGGCTATGATGACTGCTCTGCCGAAGATCTGGCGGAAGGTGTGGCCGCGAAGTATATCACGCCTGAGGAATTTCAAGAAATAACGGGTGAAACATACGAAAACTATAAAAATGCTGTGTCATAA	MKRLNFWVYALFYKWASIEMVKQAMGYDDCSAEDLAEGVAAKYITPEEFQEITGETYENYKNAVS				NA	NA	NA	NA	NA
D1-12_00438	762			hypothetical protein	ATGAAAAAGCATTCATTTGAATTTCCCGCCGATCAACTTGGCAGGCCCGGCGCCGTAAAAGCTTATCGCGGTAACAAAAACGATTATGTCACACCGGTTGCTGATTTGTCCGGAATGGCAGAGCTTCTTACCAATACGCCGCTAGAAGCGATTGAAGTCTACAGCCAATTCGGACAAGACCGTTTAGGAGCCGTCTTAATAAACAGAGCACAGGGGTGGGCTTATTCGGACCGCAGCGGAACTCTTTTTATCGAAGAGAGCGAGGATAACAATTCGTGGACAGCTTCACATTCTGTCGCAGTAAAAGGCGGAGTGCTGACCGCTTCGGGGTGGGTCAGCCTGACAAAAAGATATTACCGGTTCCGTTTTGAAAATGGAAATCAAAAGCAGTCCGAATTTGTTTTATACCAATCTGTCGGTACGGGCGGTGATATGGCATTTTCATATACAGACGTGATTTTTCATGAAAATGCAGCAGAGGCGGGCGAGGGAAGCATCTTCTCAGCAGGCGCTTGGAAAAAACTTCTCGTCGAAATCACCGGCACGGCTGAGTCGGGCCATGTCGCGTTTTGGGGGAGATCCATCTCGGGAAAAAATGTGCCGATCAGAGGAATCAGGTCTGATGACGGGACATCAGCCGCCGGTACGTCAGGCACAGAAGAAGTGTGGGCATTTGATATTGCCGGCTTTAAGGAAATCGTCATGGAAATCAAGAGCATTTCCGGCGGGAGCCTTTCTGTCAAAGGCACGGCATTTTCTTAA	MKKHSFEFPADQLGRPGAVKAYRGNKNDYVTPVADLSGMAELLTNTPLEAIEVYSQFGQDRLGAVLINRAQGWAYSDRSGTLFIEESEDNNSWTASHSVAVKGGVLTASGWVSLTKRYYRFRFENGNQKQSEFVLYQSVGTGGDMAFSYTDVIFHENAAEAGEGSIFSAGAWKKLLVEITGTAESGHVAFWGRSISGKNVPIRGIRSDDGTSAAGTSGTEEVWAFDIAGFKEIVMEIKSISGGSLSVKGTAFS				NA	NA	NA	NA	NA
D1-12_00439	264			hypothetical protein	GTGCTTCTGGATGAACAAGCGGTGCAAAAAGAATTCGCAGGCATCAAAGGTGAACAAAAGGTGCTTGAACAGCGGGTAGCCGCATTAGAGCGGGTATCAGACCGGCAGGATCAGCAAATCATGACGCTGAATGAAAAACTGAACAAAATTGACGAAAACACAACATGGATTAAGCGGACCATTACAGGAGCGATCGTGACAGCAATCTGCACGGGCGTCATTGGCGGAGCCATCGCCATCATGTACAATCTGCTGCAAAAGTAA	MLLDEQAVQKEFAGIKGEQKVLEQRVAALERVSDRQDQQIMTLNEKLNKIDENTTWIKRTITGAIVTAICTGVIGGAIAIMYNLLQK				NA	NA	NA	NA	NA
D1-12_00440	264			hypothetical protein	ATGAAATTCGCGGACAAAGGCACGGTCGTCAGGACGGTGCTTCTTTTGCTTGCTTTATTGAATCAAACTTTGCTGATGTTCGGCAAATCGCCGCTGAATATTCAGGAGGACCAGGTCAGCCAGCTTGCAGATACGCTGTATGCCGCCGGGTCGGCCGTTTTTACAATCATAACGACTGCCGCTGCCTGGTTTAAAAACAATTATGTTACAGCAAAAGGGAAAAAACAGCAGGCTTTATTAAAAATAAACAATTTATCGAAATAG	MKFADKGTVVRTVLLLLALLNQTLLMFGKSPLNIQEDQVSQLADTLYAAGSAVFTIITTAAAWFKNNYVTAKGKKQQALLKINNLSK				NA	NA	NA	NA	NA
D1-12_00441	879	xlyA	COG1388	N-acetylmuramoyl-L-alanine amidase XlyA	ATGGTAAAAATCACACAGGATTTTATCCCGGCAGGAAACAATAACCGCCCAGGCTATGCAATGACACCGATTTACATTACGGTGCACAATACAGCCAATACCGCAGTCGGAGCTAACGCCAAAAGTCACGCAAGCTATGTGAAAAATCCCGATACACCGACAAGCTGGCATTTCACAGTCGATGATACGGAAATTTATCAGCATCTTCCGCTGAACGAAAACGGTTGGCATGCCGGTGACGGAAACGGGGACGGCAACCGTAAATCCATCGGTATTGAAATTTGTGAAAACGCAGACGGAAACTTTTCACAGGCCGTGACAAACGCCCAATGGCTCATCCGCACTTTAATGACGTCGCACGGCATCCCGCTTGCGAATGTCGTTGCGCACAAGCATTGGTCAGGAAAGCTTTGTCCGAGAAGACTGCTGGATACATGGGATGAGTTTAAAGCGGGAATCGGTTCTGAGGAAAGACAGACGTATACCGTCCAAAAAGGAGATACGCTGTCGGCGATCGCGCGGAAATTCGGCGTCAGCGTGGCCGATCTGCAGAAATGGAATAACATCGCTGACCCGAACTTGATTAAAGTCGGACAAGTGCTGATCGTCAGCCCGCCGGTTGAAGCACTGTATTCTCTTCCGGATGAGGTGATCAAGCTGACAGAGCCGTACACGTCCGGTGAAAAGGTATACCAGGTGCAGAACGCGCTCGCCGCGCTTTATTTCTATCCTGAAAAAGGAGCTGTCAATAACGGCATTGACGGTATCTACGGTCCGAAAACGGCAGATGCCGTGGCCCGCTTCCAATCTGTAAACGGACTGACGTCTGACGGCGTCTACGGTCCCGCTGTAAAAGCGAAAATTCTGATGCAGCTTTAA	MVKITQDFIPAGNNNRPGYAMTPIYITVHNTANTAVGANAKSHASYVKNPDTPTSWHFTVDDTEIYQHLPLNENGWHAGDGNGDGNRKSIGIEICENADGNFSQAVTNAQWLIRTLMTSHGIPLANVVAHKHWSGKLCPRRLLDTWDEFKAGIGSEERQTYTVQKGDTLSAIARKFGVSVADLQKWNNIADPNLIKVGQVLIVSPPVEALYSLPDEVIKLTEPYTSGEKVYQVQNALAALYFYPEKGAVNNGIDGIYGPKTADAVARFQSVNGLTSDGVYGPAVKAKILMQL	PGPT0019115_896	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
D1-12_00442	171	spoIISB		Stage II sporulation protein SB	ATGGAGCAGGCATTTCAAAACGGGCAGCCGGAACAAAGAGCGAAACCGTTCAAAATGTTTAAAAAACGTTCAATGACAAGTATCGCAAGTTACCAGGTCAGCCCTCATACCGCCAGAATTTTCAAAGAAAACGAGCGGCTGATTGACAAGTATAAACAAAAAAAAGCTTGA	MEQAFQNGQPEQRAKPFKMFKKRSMTSIASYQVSPHTARIFKENERLIDKYKQKKA	PGPT0024710_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024710-spoIISB-K06389	NA	NA
D1-12_00443	747	spoIISA		Stage II sporulation protein SA	ATGCTTTTGTTTTTTCAGATTATGGTGTGGACGATGGCGGCCGCACTCATTTTATATGTGTACGCATCCTGGCGGTATGAGGCAAAGGTAAAAGAAAAAATGTTTGCCATCCGTAAAACGTGGTATTTACTATTTGTACTGGGCTCCATGGTCTATTGGACATATGATCCTGAATCGCTCTTTGCCGCATGGAGTCAATATTTGATTGTTGCCGTCTGCTTTGCCCTTATTGATGCGTTTATCTTTTTGAGCGCGTATATCAAAAAGCTCGCCGGCAATGAATTAGAGACGGATACGCGGGAAATTTTAGAAGAAAATAACGAAATGCTTCACTCCTATCTTGAAAAACTGAAAACCTATCAATATCTGTTGAAAAATGAACCGATCCATGTATATTATGGAAGTACAGAAGCTTATGCGGAAGGCATCAGCAGACTGCTGGCCGCTTATGGAGAAAAAATGAATGTCACGGCTTCCTTGTGCGAGTATTCCGCACAATCGGATAAGGACCGCTTGACGGAGCATATGCCTGATGCGGCGGACGTTCAGTCCCGTCTTAACCGTAAAGACGTCTACTATGATCAAAAAGGCAGGCTTGTGCTTATTCCGTTTACAGTCCAGGACCGCCATTACGTGATCAAACTCACGTCGGAAAACCTGTTGACGGAATTCGATTATTTGCTTTTCACATCGCTAACGAGCATTTATGATTTAATGCTGCCAATAGAAGAGGAAGGTGACGGTTAA	MLLFFQIMVWTMAAALILYVYASWRYEAKVKEKMFAIRKTWYLLFVLGSMVYWTYDPESLFAAWSQYLIVAVCFALIDAFIFLSAYIKKLAGNELETDTREILEENNEMLHSYLEKLKTYQYLLKNEPIHVYYGSTEAYAEGISRLLAAYGEKMNVTASLCEYSAQSDKDRLTEHMPDAADVQSRLNRKDVYYDQKGRLVLIPFTVQDRHYVIKLTSENLLTEFDYLLFTSLTSIYDLMLPIEEEGDG	PGPT0024705_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024705-spoIISA-K06388	NA	NA
D1-12_00444	999			hypothetical protein	ATGGATACTCTATTACTTTTAACGATATTAATTGTCATATGCGCTTTGGTATTTGACTTCATTAACGGATTTCACGATACCGCAAACGCAATCGCCACCTCAGTTTCGACAAAAGCGCTGAAGCCGCGGCACGCAATCGTCATGGCCGCCATCATGAACTTTCTCGGAGCGATGACATTTACCGGTGTGGCGAAAACCATTACAAAGGACATTGTGAATCCTTATACATTAGACAATGGGTCAGTTGTCATTCTGGCGGCTCTACTCGCCGCAATCGCCTGGAACTTGATCACATGGTATTTCGGCATTCCGAGCAGCTCTTCACATGCGATTATCGGAGCGATCGCCGGAGCGGCCATTGCAGCGTCAGGTTTTGCGACGCTTAATTATAAAGGGTTCATTAAAATTATCGAAGCACTTATTTTATCACCGATCATCGCCTTTGTTCTCGGCTTTATCGTATATTCGATCGTGAAGCTGATTTTTAAAGACAGCAATCTGGCGAAAACAAATAAACGCTTCCGCAGAGTGCAGATTTTGACGGCTGCCATTCAGTCCTATACACACGGAACGAACGACGCGCAAAAAGCGATGGGTATCATTACGATGGCGCTTATGACTGCCAATTTACATAAAAGTGATGCCATTCCTTTTTGGGTGCAGCTCTCTTGTGCCCTGGCAATGGGTCTCGGCACATCCATCGGCGGCTGGAAAATCATTAAAACCGTCGGCGGGAAAATTATGAAAATCCGTCCGGTAAACGGCGTATCTGCCGACTTAACCGGCGCAGCCATTATTTTCGGGGCCACGTTTATTCATCTCCCTGTCAGCACGACACACGTCATTTCGTCTTCCATTCTCGGTGTGGGCGCTTCCCACCGCGTAAAAGGCGTAAACTGGGGAACGGCTAAACGGATGCTCATTACATGGGTCATCACCCTGCCGATTGCAGGTACACTCGGCGCCATCGCCTTTTTCATCTTAGATCTGTTTTTCTGA	MDTLLLLTILIVICALVFDFINGFHDTANAIATSVSTKALKPRHAIVMAAIMNFLGAMTFTGVAKTITKDIVNPYTLDNGSVVILAALLAAIAWNLITWYFGIPSSSSHAIIGAIAGAAIAASGFATLNYKGFIKIIEALILSPIIAFVLGFIVYSIVKLIFKDSNLAKTNKRFRRVQILTAAIQSYTHGTNDAQKAMGIITMALMTANLHKSDAIPFWVQLSCALAMGLGTSIGGWKIIKTVGGKIMKIRPVNGVSADLTGAAIIFGATFIHLPVSTTHVISSSILGVGASHRVKGVNWGTAKRMLITWVITLPIAGTLGAIAFFILDLFF	PGPT0002655_3523	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
D1-12_00445	618			hypothetical protein	ATGATAAAAAGAAAAAAAGATAAGTTCTCACTCCTTTTAACAGAAATCGCAAAAAACATAGACGAAACCGCAGAATACTTTGTCAACTTTAAAGTGACGAACCAGACGACTTTAAAGGAATTTGCCGATACGTTAAAAGAGTTTGAAACAAAAGGAGATAATCATGTTCATGTCATGATTAAAGAGCTGAACAAAGCTTTTATCACTCCCATTGAACGTGAAGACATCCTTGAGCTGACAAACAGCCTCGATGACGTGCTTGACGGAATCGAACATTTTTCAGCAATGATGGAGATTTTCTCGATCACTTCTTCCGATGAGCATATCGATAAGTTCAGCGGATACATCAGAGAGTGCGCGAAGGAAATTTTAATCACGATTGAGCTGCTTGCAGAAAACCGATTGAAGGACATTCACCCTCACGCCATTAAAATTAAGGAATACGAGCACAGCTGTGATAACCTGCACCGTAAATCATTAAAAAATCTGTTCGGCACAGAAACCGATCCGATTAAAGTGATTCAGTACCGCGAGATTTACGAAACGCTTGAGGAAATTGCCGACTCTTGCCAAAGCGTTGCCAATAACCTTGAAACCATTATTATGAAAAACGCGTAA	MIKRKKDKFSLLLTEIAKNIDETAEYFVNFKVTNQTTLKEFADTLKEFETKGDNHVHVMIKELNKAFITPIEREDILELTNSLDDVLDGIEHFSAMMEIFSITSSDEHIDKFSGYIRECAKEILITIELLAENRLKDIHPHAIKIKEYEHSCDNLHRKSLKNLFGTETDPIKVIQYREIYETLEEIADSCQSVANNLETIIMKNA				NA	NA	NA	NA	NA
D1-12_00446	1368	steT	COG0531	Serine/threonine exchanger SteT	ATGGAAAATAGTTTTTTCATCATGACGATTTTACATCTGGAGGGAAAGGATATGCAGATTGAAGAGAACGGACTTAAAAAAGAGATCGGCCTTACCATCGCCCTCTCACTTGTTATCGGCACCATCATCGGTTCCGGCGTATTTATGAAACCAGGCGCCGTGCTTGCCTACTCCGGTGATGCGAAAACCGCGCTTATCGCGTGGCTGTTAGGAGGTATTTTGACGCTTGCAGGCGGATTGACCGTTGCGGAAATCGGCACTCAGATTCCGAAAACGGGCGGACTTTATACATATCTCGAAGAAGTGTACGGCGAATTTTGGGGCTTTTTGTGCGGATGGGTTCAAATTATCATTTACGGCCCGGCCATTATCGGAGCAATCGGCTTGTATTTCGGATCTTTGATGGCGCACTTGTTCAATTGGGATTCCGGCTGGTCTAAATTGATCGGGATTTCAGCCGTTTTGTTTTTAAGCATCATTAATATTATCGGAACGAAATATGGCGGCATCGTACAGGGAATTACGACTGTCGGCAAATTGATTCCGATTATCTGCATGATCGTGTTCGGCCTTTGGAAAGGCGATCAGCATATTTTCACAGCCGTTACAAGCAGCATGTCGGACATGAATTTCGGCGCTGCCATACTGGCCACCTTGTTTGCTTATGACGGCTGGATTCTGCTTGCGGCACTCGGCGGCGAGATGAAAAATCCGGAAAAGCTGCTCCCGAGAGCGATGACGGGCGGACTGCTGGTCGTCACCGCCATTTATCTTTTCATTAACTTTGCGCTGCTGCACATTCTTCCTGCGACCGACATCGTCAAACTCGGTGAAAATGCGACCGGCACCGCTGCCGGAATGCTGTTTGGCGACATCGGAGGAAAATTGATCAGCGTCGGAATCATCGTCAGCATCTTCGGCTGTTTAAACGGAAAGATTCTCGCTTTTCCGCGTGTCTCGTTTGCGATGGCGGAACGGAAACAGCTGCCGTTTGCCGGACAGATTTCGCGGGTTCATCCGACGTTCCGCACCCCGTGGATTGCCGTGTCATTTCAGATCGCGCTGGCCATTATTTTTATGATCGCCAGCAATCCCGATAAGCTGTCTGAAATCTCTATTTTCATGATTTATATTTTTTACGTCATGGCCTTTTTCGCCGTGTTTATCCTCAGAAAAAAAAGCGGCGGAAAACCGCGCGCCTACAGCGTGCCTTTGTATCCGATCATTCCTGTTTTGGCCATCGCGGGTTCACTGTTTGTGCTGATCAGCACGATCATTACAGATACACTGAGCTGCGCGCTGTCCCTCTTGATCGGCCTCGCCGGGCTGCCGCTTTATTTTTGGCTGAAAAACGGCAGAAAAAACTGA	MENSFFIMTILHLEGKDMQIEENGLKKEIGLTIALSLVIGTIIGSGVFMKPGAVLAYSGDAKTALIAWLLGGILTLAGGLTVAEIGTQIPKTGGLYTYLEEVYGEFWGFLCGWVQIIIYGPAIIGAIGLYFGSLMAHLFNWDSGWSKLIGISAVLFLSIINIIGTKYGGIVQGITTVGKLIPIICMIVFGLWKGDQHIFTAVTSSMSDMNFGAAILATLFAYDGWILLAALGGEMKNPEKLLPRAMTGGLLVVTAIYLFINFALLHILPATDIVKLGENATGTAAGMLFGDIGGKLISVGIIVSIFGCLNGKILAFPRVSFAMAERKQLPFAGQISRVHPTFRTPWIAVSFQIALAIIFMIASNPDKLSEISIFMIYIFYVMAFFAVFILRKKSGGKPRAYSVPLYPIIPVLAIAGSLFVLISTIITDTLSCALSLLIGLAGLPLYFWLKNGRKN	PGPT0020810_4908	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
D1-12_00447	951	mhqA	COG0346	Putative ring-cleaving dioxygenase MhqA	ATGAAAGTTAATGGAATACACCATGTATCAGCATTGACGGCTGATGCGCAGAAAAATTTAGATTTCTATCGGAACATCCTGGGACTGAAGCTTGTGAAAAAGTCCGTAAACCAAGATGAACCGACGATGTATCATTTGTTTTACGGTGATGAAACAGCCAATCCGGGATCTGAATTGACGTTTTTCGAGATTCCGCGGATTGCGCCGTTTCATGCGGGAACAAACAGTATTTCTTCAATCGGCCTGCGTGTCCCGGATGCACAAGCGCTCCAATATTGGAAAAAACGATTTGAAGAGCATCAGGTCTCTCACAGTGAGATCGTGAAAATAGCGGGCAGGGACACACTCGCTTTTCAGGATCATGAAGGACAGCGGCTTGTGCTGACAGCTGACGAAAAAGGAAAAGACATCGGTGAAGCGGTGAAGCAAAGCGGCATACCGGAAGAATTTTCTTTCCGCGGTCTTGGTCCCGTTGAATTGACCGTCCCGTATGCAGAACAGACGCTGCGTGTGTTAACCGATGTGCTGGGCTTCACTGAAATCGGGAAAGAAACGCATGAAGACCGGGGCACGGTTACGGTGCTCGAATCCGGAAACGGAGGCGCGCGTACAGAAGTCCATCTCATTGAAAGAAACGATCTTCCGCGCGAGCGTCCTGGAAAAGGCAGCGTGCACCATGTGGCCTTCCGCGTCCAGAATGAAGAGGAGCTTGCTTTATGGCACCGCATCATTACGAAAGAAGGTTTCAGCAACTCAGGCATTGTAGAGCGTTATTATTTCAAAGCGCTGTACTTCCGGGAGCCGAACGGAATTCTGTTTGAATTGTCAACGGACGGTCCGGGATTTATGGTTGATGAAAAACCTGAAGAGCTGGGCAAAACGGTTGCGCTCCCGCCTTATCTCGAACACCGCCGTTCTGAAATAGAAGCACGGCTGAAACCGATTCAGTAA	MKVNGIHHVSALTADAQKNLDFYRNILGLKLVKKSVNQDEPTMYHLFYGDETANPGSELTFFEIPRIAPFHAGTNSISSIGLRVPDAQALQYWKKRFEEHQVSHSEIVKIAGRDTLAFQDHEGQRLVLTADEKGKDIGEAVKQSGIPEEFSFRGLGPVELTVPYAEQTLRVLTDVLGFTEIGKETHEDRGTVTVLESGNGGARTEVHLIERNDLPRERPGKGSVHHVAFRVQNEEELALWHRIITKEGFSNSGIVERYYFKALYFREPNGILFELSTDGPGFMVDEKPEELGKTVALPPYLEHRRSEIEARLKPIQ	PGPT0028510_856	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
D1-12_00448	2142			hypothetical protein	GTGAAAATGAAAAAACGCGAGATAGACGCAGTCTTAATTCTCATTTTACTCGCTTCCGCATTCTTGAATATGTACAACATCTGGAATGACGATACGGTGAATCCTTATTACACCGCAGCGGTAACGAGTATGCTTCAAAGCTTTCATAATTTCTTTTACGCTTCATTTGACGCAGCCGGGTTTATCACGGTAGATAAACCGCCTGTTACATACCAGATTCAAACGATCAGCGCGCTGATATTCGGTATGCACGGGTGGAGCGTCATCCTGCCTCAGGCATTGGCGGGTGTAGGTTCAGTTCTATTCATGTACTTATTAATAAAGCCGACGTTCGGAAAAACGGCGGCGCGCATCGCCTCATTTGTCATGGCGTGTACACCGATCGCAGTAGCGGTCGCGCGGACGAACAATGTCGATGCTTTACTGGTCTTTTTCCTCTTGTTCGCTACATGGCTTCTCTTTAAAGCAATCAGAAAAGGCAGACTGATTTGGCTTTTGGCGGCATTTTTTGTCGTCGGAGCAGGCTTTAACACAAAAATGCTTCAGGCTTATATGATTTTGCCGGCCTTCTTGCTGTTCTATATGATTGCGGCAAACACCACGATTAAGAAAAAAATCATTTCATTGGTAAGCGCGTTAGCCGTTTTAGCAGCCGTTTCATTGTCATGGCCGCTCATTGTTGACAATATTCCTGCCAGCAAAAGGCCATATGTCGGAAGCAGCCAGACAAACTCCGTATTGGAATTGGCCTTCGGATATAACGGGATTCAGCGGCTGACAGGGCAAAGTTCCGGCGGCGGCCAGGGCGGGCCCGACGGAAACGCATCGAAAGAGATGTCTTCTTCCGGCGGTTCTTCACAAATGCAAAAACCGCCCGGCCAGTCAGCAAGCGGAGACAAATCACAAACCGGCAGTATGACGGCACCTCCATCTAACGGACAAATGCCAAGCGGCGGTCAAGGAGGCCCTCCAAGCGGCGGAGACGGCGGCAAAGGCGGTCCTGGCGTAGGGAAAAGCGGTACAGGCACCGGCTCGAAAATGCAGTCAGGGTCAGGAATGTTCGGTACGGGAACACCCGGTCCGCTGAGACTCTTCCAACAAGAATTATCTGATCAGATCAGCTGGCTCCTGCCGTTTGCGATTTTTGGACTGGCCGGTTTATTGATCGCCGGAGCGAGAGAAAGAAGACGATTATCAGCAGAACAGAAGGAAACGATCTTTTGGGCAGCTTGGCTTGTGCCGATTGCCGGATTCTTCAGTGTGGCGGAATTTTTCCACCATTATTATCTCATTATGCTGGCGCCTCCGATTGCTGCTCTTACCGGTGCGGGATGGGTCGCCCTCGTTCATCTGTACCGCAAGCAGGCGGGATGGAAAACTTGGCTATTGCCGGCCGCTATTCTTGTGACAACCGGATTTGAGCTGTTTATCCTTAGAAACTACAATGATCAAATCGGCGCAGGCTGGAGCATCGGAGCAGGCGTTCTCGGCGCAGTGGCGGCAATCGCCCTGTTCGTATTCAAACAGCGCCAAAAACCGCTCAGTTACTATGTTTCACTTGCAGCCCTTCTCGTCTTGATGGTGATGCCGATTTATTGGGCGAGCACACCGCTTCTGTACGGAGGCAACAGCTCATTGCCTGAAACAGGCCCTCAGCTTGCGTCAGCAGGCGGAAAAGGCATGGGAATGGATAACGCATCTGTCAATACAAAACTGATCAACTATTTAGAGAAACATAACGCCGGAGCGGATTATCTATTTGCTGCAACCGATTCCAACACAGCTGCGCCTTACATTATAAAAACGAAAAAAGCGGTCATGGCGATCGGCGGATTCAGCGGGTCTGACCCGGCCATTACGCTGACTCAATTTAAAAAGCTCGTAAAAGAAGGGAAAGTAAAATACTTCTTAACATCCGGAATGGGAAAAGGCGGAAACAACGATATTGTTGAATGGGTTGAGAAAAACGGAAAGAAAGTATCTTCATACAAATGGCAATCAAGCACAGATCAGAAAACGAAAAATCATGATGCAGCTGATACAAAAAGCAGCAAGGCCGCGGGTAAAAACAGCCGAATGAGCGGCGGGCCGGGCGGAATGAATCAGTCAGCTTCACTATACGAACTTCAATCTGATGAATAG	MKMKKREIDAVLILILLASAFLNMYNIWNDDTVNPYYTAAVTSMLQSFHNFFYASFDAAGFITVDKPPVTYQIQTISALIFGMHGWSVILPQALAGVGSVLFMYLLIKPTFGKTAARIASFVMACTPIAVAVARTNNVDALLVFFLLFATWLLFKAIRKGRLIWLLAAFFVVGAGFNTKMLQAYMILPAFLLFYMIAANTTIKKKIISLVSALAVLAAVSLSWPLIVDNIPASKRPYVGSSQTNSVLELAFGYNGIQRLTGQSSGGGQGGPDGNASKEMSSSGGSSQMQKPPGQSASGDKSQTGSMTAPPSNGQMPSGGQGGPPSGGDGGKGGPGVGKSGTGTGSKMQSGSGMFGTGTPGPLRLFQQELSDQISWLLPFAIFGLAGLLIAGARERRRLSAEQKETIFWAAWLVPIAGFFSVAEFFHHYYLIMLAPPIAALTGAGWVALVHLYRKQAGWKTWLLPAAILVTTGFELFILRNYNDQIGAGWSIGAGVLGAVAAIALFVFKQRQKPLSYYVSLAALLVLMVMPIYWASTPLLYGGNSSLPETGPQLASAGGKGMGMDNASVNTKLINYLEKHNAGADYLFAATDSNTAAPYIIKTKKAVMAIGGFSGSDPAITLTQFKKLVKEGKVKYFLTSGMGKGGNNDIVEWVEKNGKKVSSYKWQSSTDQKTKNHDAADTKSSKAAGKNSRMSGGPGGMNQSASLYELQSDE				NA	NA	NA	NA	NA
D1-12_00449	972			putative glycosyltransferase	ATGAGCAGACATATTCAATATTCAATAGTCGTCCCGGTTTATAACGAGGAACTCGTCATTCAGACAACCTATCAGCGCCTGAAAGAAGTCATGGATCAAACAAAAGAGCATTATGAATTGATCTTTGTCAATGATGGAAGCAAAGACCGCAGTATTGAGATTTTAAGAGAGCAAAGTCTGATTGATCCGAGAGTGAAAATTATTGATTTTTCCAGAAACTTCGGACATCAGATCGCGATCACAGCGGGCATGGATTATGCAGAGGGGAATGCAATCGCCGTCATTGACGCCGATTTGCAGGACCCTCCTGAATTAATCCTTGATATGATTGAACAGTGGAAAGAAGGCTACGATGTGGTGTACGCCGTCAGAACGAAACGAAAGGGAGAAACCTTTTTCAAGAAACAGACGGCCTCTCTGTTTTACCGGCTGCTGCGGAGCGTGACTGATATTGATATTCCGCTCGACACCGGGGATTTCCGCCTGCTGGACAGAAAAGTCTGTGATGAGATGAAAAGATTAAAAGAAAAAAATCCTTTTGTCAGAGGACTCGTCAGCTGGGTCGGCTTTAAGCAGACTGCTGTAGAATATGAACGAGATGAGCGGCTTGCGGGGGAAACGAAATACCCGCTTAAAAAAATGCTGAAGCTTTCCATGGACGGGATCACAACGTTCTCTCATAAACCGCTCAAGGCGGCAAGCTATGCGGGAATGCTCATGTCCGGAGCGGGTTTTCTCTATATGTTTATCGTTTTATACATGAAGCTTTTTACAGACAGCACCATTACGGGCTGGTCCTCTCTGATTGTGATACAGCTGTTATTCAGCGGCATCGTTCTATTAATGCTCGGAATGATCGGCGAATATATCGGAAGAATTTATGACGAAGCAAAAGATCGTCCGCTCTATATCGTGCAAAAAGCGTACGGTATGAAAAACGAAAAGATTTATCGGGACCAGCATATGTCTTAA	MSRHIQYSIVVPVYNEELVIQTTYQRLKEVMDQTKEHYELIFVNDGSKDRSIEILREQSLIDPRVKIIDFSRNFGHQIAITAGMDYAEGNAIAVIDADLQDPPELILDMIEQWKEGYDVVYAVRTKRKGETFFKKQTASLFYRLLRSVTDIDIPLDTGDFRLLDRKVCDEMKRLKEKNPFVRGLVSWVGFKQTAVEYERDERLAGETKYPLKKMLKLSMDGITTFSHKPLKAASYAGMLMSGAGFLYMFIVLYMKLFTDSTITGWSSLIVIQLLFSGIVLLMLGMIGEYIGRIYDEAKDRPLYIVQKAYGMKNEKIYRDQHMS	PGPT0014540_1576	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
D1-12_00450	177			hypothetical protein	ATGAAACAAACCGGACTTTTGCTGGTCGTTACCGGCCTGATCTTGCTCCAGCTGAGCATTCAGCTTCCTCAGCAAAATGCTGCTTGGGGAATGACGCTTGGTGCAAGCATTTTACTGAACCTTTCGGGAACCGGACTGATCATGCGTTCTCTGCACAACCAGACCGGCCGCAGATGA	MKQTGLLLVVTGLILLQLSIQLPQQNAAWGMTLGASILLNLSGTGLIMRSLHNQTGRR				NA	NA	NA	NA	NA
D1-12_00451	1353	htrA_1	COG0265	Serine protease Do-like HtrA	ATGATGGATAACTATCGTGATGAAAATCGGACAGACCAAAAAGAACAGGAAGTCCTTTTAGTAAAAGAAAACCCGCAGCCGGCCAGATATTCCGCGCCGGACGAGGACAAGAAAAAACGAAGCTTCGGCTGGTTCAGACCGCTTCTCGGCGGAGTGATCGGCGGAGGGCTCGCCCTCGGCATCTATACATTTACGCCGCTTGGAGACCATCAGACTCAAGATACTTCCAATACGGCTCCCGCTCAGGAAACGTCATCGGTAACCGCCAAGCAGACATCTTCTGATTCCGGCAGCAGCAAATCGGCAAACAGCTCATCGGCAAATTCAAGCAGCATTTCGAATATGGTGGAAAACATTTCACCGGCGATCGTCGGAATCACCAATCTGCAGAAGCAGCAAAGCAGTTCCGATTTATTCGGATTCGGATCAAGCTCAGATTCAAACTCAAATTCATCGGGTGAAGATGCGGAAACGGGATCGGGTTCAGGCGTTATTTTTAAGAAAGCAAACGGCAAAGCGTATATCATTACGAATAACCACGTGGTCGAAGGCGCCTCTTCCCTTAAAGTGTCATTATATGACGGCACCGATGTAACAGCTAAACTCGTCGGCAGCGACTCTCTGACAGACTTGGCCGTTTTAGAAATCAGTGATAAACACGTGACAAAAACGGCAAGCTTCGGCAGCTCATCCGCTCTCAGAACGGGTGAATCCGTCATCGCCATCGGTGATCCGCTCGGAAAAGACCTTTCCCGCACCGTCACACAGGGCATCGTGAGCGGCTTAAACAGAACCGTCTCGATCTCTACGTCAGCCGGTGAGTCAAGCATCAACGTCATCCAAACCGATGCCGCCATCAATCCCGGAAACAGCGGCGGACCGCTCTTGAATACAGACGGCAAAATCATCGGCATCAACAGCATGAAAATCAGCGAAAGTGATGTAGAAGGCATCGGCTTTGCCATCCCGAGCAACGATGTAAAACCGATCGCCGAAGAGCTTCTCACGAAAGGACAGGTAGAGCGCCCTTATATCGGCGTGAGCATGATCGACTTGGAACAAGTGCCGCAAAACTATCAGGAAGGCACACTCGGGCTTTTCGGCAAACAGCTGAATAAAGGCGTTTATATTCGCGAAGTGGCGCAGGGCTCACCTGCAGCCAAAGCCGGATTAAAAGCAGAAGACATCATTATCAGCTTAAAAGGGAAAGAAACCGACACGGGCAGCGAACTTCGCAATATTCTCTACAAGAATACGAAAGTCGGCAGCACCGTTGACGTGAAGATTATCAGAAACGGCAAGGAAATGACGAAAAAAATGAAACTGACTCAAAAAGAAGAAACATCTTCTTAA	MMDNYRDENRTDQKEQEVLLVKENPQPARYSAPDEDKKKRSFGWFRPLLGGVIGGGLALGIYTFTPLGDHQTQDTSNTAPAQETSSVTAKQTSSDSGSSKSANSSSANSSSISNMVENISPAIVGITNLQKQQSSSDLFGFGSSSDSNSNSSGEDAETGSGSGVIFKKANGKAYIITNNHVVEGASSLKVSLYDGTDVTAKLVGSDSLTDLAVLEISDKHVTKTASFGSSSALRTGESVIAIGDPLGKDLSRTVTQGIVSGLNRTVSISTSAGESSINVIQTDAAINPGNSGGPLLNTDGKIIGINSMKISESDVEGIGFAIPSNDVKPIAEELLTKGQVERPYIGVSMIDLEQVPQNYQEGTLGLFGKQLNKGVYIREVAQGSPAAKAGLKAEDIIISLKGKETDTGSELRNILYKNTKVGSTVDVKIIRNGKEMTKKMKLTQKEETSS	PGPT0015105_4427	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
D1-12_00452	1560			hypothetical protein	ATGAAAGAAAAACATCATTGGATTATTTCTCTGCTCGCTGTGCTGGCGGTCGGGCCGGGGCTGATGTCGAATACCGCACTTTCGGCTGTCCAAAGCCTTGTCCGGCAGACGGTCGGCGGTGAAAACTTTGACTCTTTTCATCCGATTATTATCGGTAATATGGCATTTGCCTTATTCGTGCCGGCGGGGCCGTATTTAAGAAAAAGATTCGGCTCCCGGCCTGTCTATATGATTTCGATGGCCGCGGGTGTCATCGGAGCGCTCCTTGCTGCTGTGACAAATGATATTTATCCGCTCGCCGCGGGCCGTTTTTTACAGGGAGCTGCGGCGGGCACTATGCTGATGATTATGATCCCGATGCTGGTGCTTTCGTTTCCGATTGAGCGCCGGAATTACGCATTATTTGTGTTAATCGGCGGATTTTACGGGTCCGTCATTATGGGGACTGTTTTAGGCACGGCGGCGGCAAGCGCCGGCCATTGGCATTGGCTGTTCGGCATTTTTGGCCTGCTGTCTTTTTTCGGCCTCATTTTCAGTTATATGTGGCTGCGGGATGACGCTCATAAAAATGCTGAAAAATCTCCATTTGACGGCATCGGTTTTCTGTTAGCGGGTGTATCAGCCGTGCTGACCGCCTATACATTTATTCATCTGCCGAAATGGGGCTTTTCATCATGGCAGACATTGGCGGGATTTGGAGGAAGCATCGTCATTCTTCTGATCTTGCTGATCATGCAGTACAGAAACGAACATGCGCTGATTTCGATTAAACTTATGCTGATTCCAAAGCCGATTCTGGGTGTTTTCATGATCGCTGCGGGCAGTATTTCCATAGCGGTCAGTCTTTCTGCATTTCACGGGGAGCTTCAGACCGCATATCATATGTCACAAACTCAACTGATATTCCTATATGCGAGCCTTTTGGGAGGCGTGGCCATCGCCGCTGTCATCAGTGCATTAGCATATGATAAAGTCGGTCCGGGCATGCTCGGCATAACAGGCTCTGTTATACTGGTATTCGTGAATTTTCAATGGATGACGGCGGATCATCATATACCGCTTATTCTATTTGCGGGGCTTTTCGTGATGCTGGCGGCCGGGACAGGGCTTATTGTGGCAGCCGGACTGATGGGAGCCGCGTTGGGCGGACCGCTTCCGGAACTGGTGAAACGCATGACGGCAGTTCAGTTTTTAAGGCTGTTCATTTATATGGGCGCACCTGTTTTAATAGGGTATTTTACGAAAAGAGATGCTTCCGGCATGCTTCGGGGCGCGCGCGGCACACAATCGCCGCATGACCTGCTGATGGGGACATACAGCGATTTGTTTCTTATTGCTTTCATCTTAAGCTTGCTTTTAGTGTGTTTATCATTTGTCATGAATGCGACCGGCATGGGGCATAAGCTGGCGCATAAACCGCATGCCGTCCGTAAGCAGGCGGCTGAAGAGCCTTCGCCGCAGGCTCCTGAACCGATCAGGCATCAGGTCATTCCCGATCGTGAATACAGAAGTGCGGTCAGACAGTTTCAGCGTCATCATATAAGCAAAAACGGTATGTAA	MKEKHHWIISLLAVLAVGPGLMSNTALSAVQSLVRQTVGGENFDSFHPIIIGNMAFALFVPAGPYLRKRFGSRPVYMISMAAGVIGALLAAVTNDIYPLAAGRFLQGAAAGTMLMIMIPMLVLSFPIERRNYALFVLIGGFYGSVIMGTVLGTAAASAGHWHWLFGIFGLLSFFGLIFSYMWLRDDAHKNAEKSPFDGIGFLLAGVSAVLTAYTFIHLPKWGFSSWQTLAGFGGSIVILLILLIMQYRNEHALISIKLMLIPKPILGVFMIAAGSISIAVSLSAFHGELQTAYHMSQTQLIFLYASLLGGVAIAAVISALAYDKVGPGMLGITGSVILVFVNFQWMTADHHIPLILFAGLFVMLAAGTGLIVAAGLMGAALGGPLPELVKRMTAVQFLRLFIYMGAPVLIGYFTKRDASGMLRGARGTQSPHDLLMGTYSDLFLIAFILSLLLVCLSFVMNATGMGHKLAHKPHAVRKQAAEEPSPQAPEPIRHQVIPDREYRSAVRQFQRHHISKNGM	PGPT0028570_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028570-lmrB-K18926	NA	NA
D1-12_00453	120			hypothetical protein	ATGCAATATACCATTCTGCTATTATGGGAAAAAACAAACCCTTTTCACCGGGAAAAGGGTTTGCTGATAGAAAAAGTTACATACCGTTTTTGCTTATATGATGACGCTGAAACTGTCTGA	MQYTILLLWEKTNPFHREKGLLIEKVTYRFCLYDDAETV				NA	NA	NA	NA	NA
D1-12_00454	825	dppA	COG2362	D-aminopeptidase	ATGAAACTGTATCTATCTGTGGATATGGAAGGGATTTCCGGACTGCCTGATGAAACATTTGTCAATTCCCGCATGCACAATTATGAGCGCGGCAGGGTTCTGATGACCGAAGAAGCAAACTGGTGCATCGCAGAAGCGTTTAATAACGGATGCACGGAAGTGACCGTGAATGACAGCCACTCAAAGATGAATAATCTGCTCGCGGAAAAACTTCACCCTGAGGCAGAGCTGATTACGGGGGATGTCAAGCCGTTTTCCATGATGCAGGGGCTTGATGAATCGTATTCAGGTGTGATGTTTATCGGCTATCATGCGAGAGCGTCGATGCCGGGCGTCATGTCGCACAGCATGATATTCGGCGTCCGCCACTTTTACATAAATGATAAGCCGGTCGGTGAACTGGGGTTAAATGCCTATCTCGCCGGATTTTACGATGTCCCTGTCATCATGGCTGCCGGAGACGATTGCGCCGCAAAAGAAGCGGAGGAGCTGATCCCGAATGTAACGACTGCCGCCGTCAAACAAACCATTTCAAGAACCGCGGTCAAATGCCTGTCCCCTCAAAAAGCCGGACGGCTCCTGACGGAAAAAACAGCCTATGCGCTCAAAAATAAAGATAAGGTCAAACCGCTGACTCCGCCTGAAAGACCTGTATTAGGCATTGAATTTGCCAACTACGGACAGGCTGAATGGGCCCATTTAATGCCGGGCACAGAAATCATCCCGGGAACGACAATCGTTCAATTTCAGGCAAAAGACATGCCGGAAGCCTATCAGGCCATGCTCGTCATGACAGAACTCGCCATGAGAACAACATTCTGTTAA	MKLYLSVDMEGISGLPDETFVNSRMHNYERGRVLMTEEANWCIAEAFNNGCTEVTVNDSHSKMNNLLAEKLHPEAELITGDVKPFSMMQGLDESYSGVMFIGYHARASMPGVMSHSMIFGVRHFYINDKPVGELGLNAYLAGFYDVPVIMAAGDDCAAKEAEELIPNVTTAAVKQTISRTAVKCLSPQKAGRLLTEKTAYALKNKDKVKPLTPPERPVLGIEFANYGQAEWAHLMPGTEIIPGTTIVQFQAKDMPEAYQAMLVMTELAMRTTFC	PGPT0020935_393	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020935-dppA1-K16203	NA	NA
D1-12_00455	927	dppB_3	COG0601	Dipeptide transport system permease protein DppB	TTGCTGCGGTATTTTATCAAACGTTTTATCGCCATGATTATGACCGTCCTCGTCATCACCACTCTGACATTTGTCATGATGAAAGTGATACCCGGCTCGCCTTTTAACGAAGAGCGGGGCACAAACGAAGCGGTCCAGCGAAATCTCGAATCCTACTACCATCTGAACGAACCTCTTATCACTCAATACGCCATCTATCTAAAATCCATTCTTACCTTTGATTTCGGTCCTTCAATTAAAAAACCGTCAGACAGTGTAAACGCCATGCTTGAACGCGGGTTTCCGGTCTCATTTGAGCTTGGGATAACGGCGATCATCATCGCTGTTATTTCCGGGCTCGCGCTCGGCATAATGGCCGCTCTCAGGCGCGGCGGCTTTCTCGATTATGCGGCCATGAGCCTTGCGGTGCTCGGGATTTCTATTCCGAATTTTATTATGGCTACGCTGCTGATTCAGCAATTTGCGGTTCATCTGAAATGGTTTCCGGCAGCTACCTGGACGAGTCCCGTTCACATGGTCCTGCCGACTGTTGCGCTTGCCGTCGGTCCCATGGCCATTATCGCGAGGCTGACAAGATCGAGCATGGCCGAAGTGCTGACTCAGGATTACATCCGCACGGCAAAAGCAAAGGGGCTTTCTCCCGTCAAAATTGTGATCAAACACGCATTAAAAAACGCTCTTATGCCTGTTGTGACAGTACTCGGGACGCTTGCCGCAAGTATTTTAACGGGCAGTTTCGTCATCGAGAAAATTTTTGCCATACCGGGAATGGGCAAATATTTCGTAGAAAGCATCAATCAGCGTGATTACCCGGTCATCATGGGAACGACCGTATTTTACAGTGTGATTCTGATCGTCCTGCTGTTTCTGGTTGATTTGGCATACGGCCTGTTAGACCCGCGCATAAAACTTCATAAGAAAGGGTGA	MLRYFIKRFIAMIMTVLVITTLTFVMMKVIPGSPFNEERGTNEAVQRNLESYYHLNEPLITQYAIYLKSILTFDFGPSIKKPSDSVNAMLERGFPVSFELGITAIIIAVISGLALGIMAALRRGGFLDYAAMSLAVLGISIPNFIMATLLIQQFAVHLKWFPAATWTSPVHMVLPTVALAVGPMAIIARLTRSSMAEVLTQDYIRTAKAKGLSPVKIVIKHALKNALMPVVTVLGTLAASILTGSFVIEKIFAIPGMGKYFVESINQRDYPVIMGTTVFYSVILIVLLFLVDLAYGLLDPRIKLHKKG	PGPT0004530_61	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004530-dppB1-K16200	NA	NA
D1-12_00456	948	dppC	COG1173	Dipeptide transport system permease protein DppC	ATGAATCTCCCGCAAGAAACGGTAAAACACACAGAAGTGCCTGATGACTGGTTTCAGCCGGGCGCGGAAAGAAAGGGTGAAACCGAGTCGGTCAAGCGTCCGAGCCTGTCTTACACTCAGGATGCGTGGCGGCGGCTTAAAAAGAACAAATTGGCGATGGCCGGGCTTGTGATTTTATGCTGCCTGTTTCTATCGGCTGTGTTCGGTCCGCTGATATCACCGCACAGCGTGACAAGGCAGACGCTCGCCGAGCAGAATCTTCCGCCTTCTTTTTCACACTGGTTCGGAACCGATGAACTTGGCCGGGACGTGTTTACAAGAACGTGGTACGGAGCGAGGATCTCTTTATTTGTCGGTGTGATGGCGGCGCTGATCGACTTTTTGATCGGCGTTATCTACGGAGGGGTCGCCGGATACAAAGGGGGCCGGACAGACAGCGCCATGATGAGAATCATCGAGGTTCTCTACGGATTGCCGTATCTGCTCGTTGTCATTTTGTTAATGGTGCTGATGGGGCCGGGGCTCAGTTCCATTATCGTCGCTCTGACCGTGACGGGATGGGTCGGCATGGCGCGGATTGTCAGAGGGCAGGTGCTGAGGATGAAGCATGATGAACACGTATTGGCTTCGAAAACGTTTGGAGCGAAAACATTTCGGATCATTAAGAAAAATCTGCTGCCGAATACGATGGGAGCCATTATTGTCCAAATGACGCTTACAGTGCCGGCGGCGATTTTTGCGGAATCATTTTTAAGTTTTCTCGGACTCGGCATTCAGGCGCCGTTTGCAAGCTGGGGCGTCATGGCAAACGACGGGCTGCCGGCGATTTTATCAGGCCATTGGTGGCGGCTGTTTTTTCCCGCTTTTTTCATTTCCTTAACGATGTACGCGTTTAACGTACTTGGAGACGGCTTGCAGGACGCGTTAGACCCGAAACTGAGGAGGTAG	MNLPQETVKHTEVPDDWFQPGAERKGETESVKRPSLSYTQDAWRRLKKNKLAMAGLVILCCLFLSAVFGPLISPHSVTRQTLAEQNLPPSFSHWFGTDELGRDVFTRTWYGARISLFVGVMAALIDFLIGVIYGGVAGYKGGRTDSAMMRIIEVLYGLPYLLVVILLMVLMGPGLSSIIVALTVTGWVGMARIVRGQVLRMKHDEHVLASKTFGAKTFRIIKKNLLPNTMGAIIVQMTLTVPAAIFAESFLSFLGLGIQAPFASWGVMANDGLPAILSGHWWRLFFPAFFISLTMYAFNVLGDGLQDALDPKLRR	PGPT0004535_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004535-dppC1-K16201	NA	NA
D1-12_00457	1029	oppD_4	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGCGCAGCAAGTTCTTTCCGTTCAAAATCTGCATGTTACTTTTTCAACATACGGAGGCACTGTAAAAGCCGTAAGAGGCGTCAGCTTCGATTTATATAAAGGTGAAACGTTTGCGATCGTCGGTGAATCGGGCTGCGGAAAAAGCGTGACGTCACAAGCCGTGATGGGTCTTCTTCCGAAACATTCGGCAAAGATTGAATCCGGAAGCATACAATTTAAACAGAAAGACCTTTGCCAAATGTCGGATCGGGAAATGCGGGGAATCCGGGGGCGCGATATTTCTATGATCTTTCAGGACCCGATGACGGCGCTCAATCCGACTTTGACCATAGGGGATCAGCTCTCAGAAGCGCTGTTGGAACACCGCGCCATGACAAGAAAACAAGCTGAATCCGAAGTTCTCGCCATGCTGGATCTGGTCGGTATCCCGGACTCGAAATCCCGCCTGAAGCAGTACCCCCACCAATTAAGCGGGGGCATGCGGCAGCGGATCGTGATCGCGATGGCTCTGATCTGCGAGCCGGAAATTATGATCGCCGATGAACCGACAACGGCTCTTGATGTGACGATTCAAGCACAAATCCTTGAATTATTTAAGAAGATTCAAAGAAAAACAGGCGTGTCTATTATTCTGATCACACACGATCTCGGCGTCGTCGCTCAGACCGCCGACAGAGTCGCCGTCATGTATGCGGGGAAAATCGCCGAAATCGGCACGAGGCATGATATTTTTTACCGTCCGGCTCATCCATACACAAAGGGGCTGCTTCGTTCAGTGCCGCGGCTGGATATGGAGGATAGTGAGCTGTCGCCGATTGACGGGACGCCGCCTGATTTATTCGATCCGCCGCCGGGCTGCCCGTTTGCCGCCCGCTGCCCGGACAGGATGATCGTCTGTGAAAAGGTATACCCGGCAACAACCGTGAAATCCAAAAGCCATATCGTTAATTGCTGGCTTCAGGATCACCGTGCAGAGCGGCTGAAGCAGCAGCTGACGGCAGCAGAGGAAAAAGGGGGATTGAAATGA	MAQQVLSVQNLHVTFSTYGGTVKAVRGVSFDLYKGETFAIVGESGCGKSVTSQAVMGLLPKHSAKIESGSIQFKQKDLCQMSDREMRGIRGRDISMIFQDPMTALNPTLTIGDQLSEALLEHRAMTRKQAESEVLAMLDLVGIPDSKSRLKQYPHQLSGGMRQRIVIAMALICEPEIMIADEPTTALDVTIQAQILELFKKIQRKTGVSIILITHDLGVVAQTADRVAVMYAGKIAEIGTRHDIFYRPAHPYTKGLLRSVPRLDMEDSELSPIDGTPPDLFDPPPGCPFAARCPDRMIVCEKVYPATTVKSKSHIVNCWLQDHRAERLKQQLTAAEEKGGLK	PGPT0004540_14	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004540-dppD1-K16202	NA	NA
D1-12_00458	1620	dppE	COG4166	Dipeptide-binding protein DppE	ATGAAAAAGAGATGGGCGATCGGTGTGATTGCTGTTGTTTCGTTTGCTCTGATGGGCTGTACAGCCAATGAACAGGCGGGGACAGAACCCGGCAAAGCAAAAGAACAGGGGGGTGAAACGGTGCTGCGGCTCAATAACGAAAATGAGCCGACCTCACTTGATCCGCCGATCGGATTTAATAATGTTTCCTGGCAGCCGCTGAATAACATCATGGAAGGATTGACGAGGCTCGGAAAAGATAATAAACCCGAACCGGCCATGGCGGAAAGCTGGAAGGTGTCCGCTGATAAGCTGACATATACCTTCAATATCCGTGATAACGCCGAATGGACAAATGGCGATCCCGTTACGGCGGAAGACTTCGTGTACGCCTGGAAACGGATGCTCGATCCGAAAACGGGCGCATCTTCCGCATTTCTCGGCTATATGATCAAAGGCGGGGAAGAATTTAACAGCGGAAAAGGCAAAAAAGAAGACGTGAAAATCACGGCAAAAGATAAAAAAACGCTTGTCGTCACATTGGCGGCACCGCAGGATTATTTTCTGAGCGTCGTGTCCAATCCGGCGTATTTCCCGATTAATGAGAAGGTCGCCAAGGCTGATCCGAAATGGTTCACTGAAGCAAAAACCTTTGTCGGCAACGGGCCGTTCAAACTGACGGAATGGAAGCATGACGACAGCATGACGATGGTCAAAAACGAGACGTATTGGGATAAAAAGACGGTGAAACTGGATAAAGTCACCTGGGCGATGGTCAGTGACCGGAATACCGACTATCAGATGTTCCAGTCGGGGGATTTGGATACCGCCTTTGTGCCGGCAGAGCTGAGCGAGCAGCTGATGGGAGGAAAAAATGTCCGCACGTGGGATCAGGCCGGACTCTATTTCTATCGTTTTAACGTAAAAATGGAGCCGTTTCAAAATGAGAAGATCAGAAAAGCGTTCGCCGCAGCGATTGATCAGAAAGAAATCACGGATTATGTGACCAAAAACAGTGAAAAGCCGGCACATGCCTTTGTATCCCCGGGATTTACTCAGCCTGACGGGAAAGATTTCCGCGAAGCGGGCGGCAGTTTATTAAATCCGGATGAATCAGAAGCCAAAAAACTGCTGGAAAAAGGCATGGCGGAAGAGCATTATGACAAGCTGCCCGCCGTTACATTGACATACAGCACAAAACCGGAGCATAAGAAAATAGCGGAAGCGGTTCAGCAGAAGCTCAAAAGTGTGCTCGGTATAGACGTTAAGCTCGCCAATATGGAATGGAACGTCTTTTTAGAAGAGCAGAAAGGACTGAAGTTCCAGTTCTCTCAAAGCTCATTTTTACCGGATTACGCAGATCCGATCAGTTTTCTTGAGGCTTTCCAAACGGATAATTCCATGAACCGCACCGGCTGGGGCAGCGCGGCATACGACGGCTGCATCAAGCAGGCAAAACAGGAGGCCGATGCCAAAAAACGTTTTGCGCTCATGCATAAAGCGGAAAAGCTGCTCATGAATGAGGCTCCGATCATTCCGATTTACTTTTACAATCAGGTGCATCTGCAGAACAGCGGCGTGAAGGGCATTGTCCGGCACCCCGTCGGTTACATTGATCTGAAATGGGCGGAAAAGTCCTGA	MKKRWAIGVIAVVSFALMGCTANEQAGTEPGKAKEQGGETVLRLNNENEPTSLDPPIGFNNVSWQPLNNIMEGLTRLGKDNKPEPAMAESWKVSADKLTYTFNIRDNAEWTNGDPVTAEDFVYAWKRMLDPKTGASSAFLGYMIKGGEEFNSGKGKKEDVKITAKDKKTLVVTLAAPQDYFLSVVSNPAYFPINEKVAKADPKWFTEAKTFVGNGPFKLTEWKHDDSMTMVKNETYWDKKTVKLDKVTWAMVSDRNTDYQMFQSGDLDTAFVPAELSEQLMGGKNVRTWDQAGLYFYRFNVKMEPFQNEKIRKAFAAAIDQKEITDYVTKNSEKPAHAFVSPGFTQPDGKDFREAGGSLLNPDESEAKKLLEKGMAEEHYDKLPAVTLTYSTKPEHKKIAEAVQQKLKSVLGIDVKLANMEWNVFLEEQKGLKFQFSQSSFLPDYADPISFLEAFQTDNSMNRTGWGSAAYDGCIKQAKQEADAKKRFALMHKAEKLLMNEAPIIPIYFYNQVHLQNSGVKGIVRHPVGYIDLKWAEKS	PGPT0004525_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004525-dppE-K16199	NA	NA
D1-12_00459	936	ykfA	COG1619	putative murein peptide carboxypeptidase	ATGAACCATAAACCGAAAGCACTGCAAAAAGGCGACACGGTCGGTGTGATTGCGCCCGCAAGCCCGCCTGAGAGCGGGACGCTGCAAACCGCGCTGCGTTTTTTAGAGAATGAGCTTGGCCTTCAAGTGAAACTCGGCCGGGCGCTGAAGACTCGTCACGGCTATTTGGCGGGAGAGGACCGGGCGCGTCTCGATGATCTCCATGACATGTTTAGTGATCAGAATGTCAAAGCGGTGATATGCGCGTGCGGAGGATTCGGCACGGGCCGCATTGCCGCCGACATCGATTTCGGCTTAATCCGCCGCAATCCGAAAATTTTCTGGGGATACAGCGATATTACGTTTTTACATACCGCCATTCATCAAAATACGGGGCTCGTCACATTTCACGGCCCGATGCTGAGCACGGATGTCGGGCTTGAAGACGCTGATCCCCTGACAAAAGCGTCGTATCATCAGCTTTTTGCAGAAACGGAATTCACCTATACGGAGGACATTTCTCCCTTAGAGGTGCTGACAGGCGGAAGGGCCGAGGGAGAGCTTGCGGGCGGCAATCTGTCGCTCATTACGTCCACGCTCGGCACGCCGTTTGAAATCGATACGAAAGACAAATTGCTGTTTATCGAGGATATTGATGAGGAGCCGTATCAAATCGACAAAATGCTGAATCAATTAAAGATGGCAGGAAAACTGTCAGATGCAGCCGGAATCCTGGTCTGTGACTTTCACCAATGCGAACCGAAAAACAAAGAAAAGTCCCTTACCTTAGAGCAAGTGCTGAATGATTACATTGTCAAATCAGGGAAGCCCGCGCTTAAAGGCTTTAAAATCGGCCATTGTTCACCGAGCTTCGCCGTTCCGATCGGAGTCCGCGCGGTTATGGATACGGCGGCCAAAGCGGTAACGATTGAATCGGGGGTTTCCGGAAGGGAGTGA	MNHKPKALQKGDTVGVIAPASPPESGTLQTALRFLENELGLQVKLGRALKTRHGYLAGEDRARLDDLHDMFSDQNVKAVICACGGFGTGRIAADIDFGLIRRNPKIFWGYSDITFLHTAIHQNTGLVTFHGPMLSTDVGLEDADPLTKASYHQLFAETEFTYTEDISPLEVLTGGRAEGELAGGNLSLITSTLGTPFEIDTKDKLLFIEDIDEEPYQIDKMLNQLKMAGKLSDAAGILVCDFHQCEPKNKEKSLTLEQVLNDYIVKSGKPALKGFKIGHCSPSFAVPIGVRAVMDTAAKAVTIESGVSGRE	PGPT0023815_1572	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
D1-12_00460	1098	ykfB	COG4948	L-Ala-D/L-Glu epimerase	GTGAAGATTACAGATATTCAAACGGGACGGATGTCCGTGCCGCTGAAAAAGCCGTTTAAGACCGCTTTGCGCACGGTTTACAATGCTGAATCGGTCATTGTGAAGCTCACTTTTGACAACGGTCTGACCGGCTGGGGGGAGGCGCCGCCGACGGTTGTCATTACAGGCGACAGCACGGCCGGTATTGAAAGCGCCGTCCACGATGTGCTGAAGCCCGTTCTCTTGGGGCGGAGCCTTTTCGGCACGGAAGCTGTTCTGTATGATATCAGCCGGCTGTTGGAAAGAAATCAAAGCGCAAAAGCCGCGGTGGATATGGCTGTATATGACGGATGGGCGCAAATGCACGGACAGCCGCTTTACCGGCTTCTCGGAGGCTATCGGAATACACTGGAAACAGATTTTACCGTCAGCGTCAATTCTCCTGAGGAGATGGCGGGGGATGCAGACCGTTATGTGAACAAAGGATTTCATATTTTAAAAATAAAAGTCGGCATAGGTGACATATCGGACGATGTTGCCCGGATTCAGGCGATCAGATCACGTGTCGGCGGAAACGTCAAACTGAGATTGGACGCCAACCAAGGCTGGACGCCGAAAGAAGCCGTGACTGCGATCCGAAAGATGGAAGACGCCGGCCTGGGCATTGAGCTGGTCGAGCAGCCTGTTCATAAAGACGATATCGCCGGGCTGAAGCAGGTCACAGATGCCGTAGACACGCCGATTATGGCGGATGAGAGCGTCTTTACCCCCCGTCAGGCCTTTCACGTGCTGCAGACGAGAAGCGCCGATTTAATCAATATTAAGCTGATGAAAGCGGGCGGCATAAAGCAGGCGGAAACAATCAATGCGATGGCCGAAACGTGCGGCGTGGAATGCATGGTCGGCAGCATGATTGAGACCAAGCTCGGCATCACCGCCGCGGCTCATTTTGCCGCGGGCAAACGGAATGTGACAAGGTTTGATTTTGATGCGCCGCTTATGCTGAAAGATGATTTGATTCAAGGCGGCATCACATACAGCGGCAGTCAGATTACGATTCCCGATGAACCGGGTCTCGGCATTACCGGTGTGTCGATACAAGAGGAGGCGAAAGGATGA	MKITDIQTGRMSVPLKKPFKTALRTVYNAESVIVKLTFDNGLTGWGEAPPTVVITGDSTAGIESAVHDVLKPVLLGRSLFGTEAVLYDISRLLERNQSAKAAVDMAVYDGWAQMHGQPLYRLLGGYRNTLETDFTVSVNSPEEMAGDADRYVNKGFHILKIKVGIGDISDDVARIQAIRSRVGGNVKLRLDANQGWTPKEAVTAIRKMEDAGLGIELVEQPVHKDDIAGLKQVTDAVDTPIMADESVFTPRQAFHVLQTRSADLINIKLMKAGGIKQAETINAMAETCGVECMVGSMIETKLGITAAAHFAAGKRNVTRFDFDAPLMLKDDLIQGGITYSGSQITIPDEPGLGITGVSIQEEAKG	PGPT0020045_494	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
D1-12_00461	900	ykfC	COG0791	Gamma-D-glutamyl-L-lysine dipeptidyl-peptidase	ATGAGAGCAGCCGTTACAGCGGCGGCAGCCAACGTATGGACGCTGCCGTCATCTCCCCGTTCGGATGATGCGCCGATGCTCGAAAACCCGCCGCAGATCAGAAAATGGTTAGTGTCTATGGGATATGAAGAGCGGCTGCAATTATGCACAGACAACCTTGTCCAAACGCAAGTGCTTTTCGGAGAAGAAGTGATCATTCTCAAAGAGGAAGGGGAATGGGCTTTTGTCGCCGTTCCCGGCCAGCCTTCAAACAAGGACGCGCGCGGATATCCGGGCTGGATGAAAAAAAGCCAGCTTTCAAAAGACGGCTTTCATACATCTTCCCCCGCCGTATGGATTACCAAACCGACAGCTTTTTTATATCACACAAACGGCGAACCGGACTTGGAAGTAAGTTTCTTAACGCGTCTTCCGGCTCCAGGACGTGAAAAAAGTTTTTTCCGGGTGGTGACGCCCCTCGGAGAACGGTTCGTAAATGAAGCTGACGCAGACGAGTGCCGGCATACGGAAGGACGGGCGGCCGATGTCATCGAAACGGGCATGATGTTTCTCGGGCTTCCGTATTTATGGGGAGGACTGAGCGGTTTCGGGTTTGACTGTTCCGGGTTTATGTATTCGATATTTAAAGCAAACGGCTATACCCTTCCCCGTGATGCAAAGGACCAAGCAAAAGCCGGGTGCGGCGCGGCGGTAAACGATATCCGGCCGGCTGACCTTTTGTTTTTCGCCTATGAAGAAGGAAAAGGCGCGATCCACCATGTCGGTTTGGCGCTGGGAGACGGCCGAATGCTGCACTCCCCGAAAACGGGAAAAACAATCGAAGTGCTGTCTTTAGAAGGAACCGTCTATGAAAAAGAATTATGTACCGTACGCCGCTGTATAAGCGAAAAGGGGGAATAG	MRAAVTAAAANVWTLPSSPRSDDAPMLENPPQIRKWLVSMGYEERLQLCTDNLVQTQVLFGEEVIILKEEGEWAFVAVPGQPSNKDARGYPGWMKKSQLSKDGFHTSSPAVWITKPTAFLYHTNGEPDLEVSFLTRLPAPGREKSFFRVVTPLGERFVNEADADECRHTEGRAADVIETGMMFLGLPYLWGGLSGFGFDCSGFMYSIFKANGYTLPRDAKDQAKAGCGAAVNDIRPADLLFFAYEEGKGAIHHVGLALGDGRMLHSPKTGKTIEVLSLEGTVYEKELCTVRRCISEKGE	PGPT0020945_306	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-DIPEPTIDYL-PEPTIDASE_ACTIVITY,PGPT0020945-ykfC-K20742	NA	NA
D1-12_00462	972	oppF_4	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACGGCATCTCCGCTCCTTGAAGTCAGCGGGCTGAAAATGCATTTTGACGCAGGAAGAAAGAAAGCCGTAAAAGCAGTCGACGGTGTCAGTTTTCACATTAAAAGAGGGGAAACATTCGGACTTGTCGGAGAATCGGGATGCGGTAAATCGACGCTCGGAAGGGTTATTCTCCGTCTGTATGACCCGACGGCCGGTTCGGTATCATATGAAGGGACGGATATACACCGTGCCGCGGCAGAACAGCGGTCTGTCTTCTTCCGCAAGCTGCAGATGATTTTCCAAGACCCTTACGCCTCGTTAAATCCGCGCCTGACCGTAAGGGAAATTATTATGGAGCCGATGGAAATCCACAATCTTTACAATACAAGAAAAGCCCGTCTGATGATGGCGGATGAACTGCTTGAAGCTGTCGGGCTCCATCCGGATTTCGGCAGCCGGTATCCTCACGAATTCAGCGGCGGACAGAGGCAGAGAATCGGGATTGCCAGAGCGCTCTCTCTGCACCCCGAATTTATCGTGGCGGATGAGCCGATTTCAGCGCTGGATGTGTCGGTACAGGCTCAGGTCGTCAACCTTTTAAAAAGGCTTCAGAAAGAGAAAGGGCTGACATTTTTATTTATCGCCCACGATTTATCAATGGTCAAGCATATCAGCGACCGGATCGGCGTGATGTATTTGGGGCGCATGATGGAAATTACAGAAAGCGCTGCGCTTTACCGGGAACCGCTTCACCCTTATACGAAGGCGCTTTTATCCTCAATCCCGATTCCTGATCCGCTTCTTGAGGACAAGCGTGAACGGATTATTCTGAAAGGGGAGCTGCCGAGCCCCCTTAACCCGCCGAGCGGCTGTGTATTCAGGACGCGGTGTCCTGAAGCGATGGAGCTCTGCGGTAAGATAACGCCTGAGCTTGAAGAAGTGAAGGCGGGGCGTTTTGTCGCCTGCCATTTATACAAAAAAGAAAGCTGA	MTASPLLEVSGLKMHFDAGRKKAVKAVDGVSFHIKRGETFGLVGESGCGKSTLGRVILRLYDPTAGSVSYEGTDIHRAAAEQRSVFFRKLQMIFQDPYASLNPRLTVREIIMEPMEIHNLYNTRKARLMMADELLEAVGLHPDFGSRYPHEFSGGQRQRIGIARALSLHPEFIVADEPISALDVSVQAQVVNLLKRLQKEKGLTFLFIAHDLSMVKHISDRIGVMYLGRMMEITESAALYREPLHPYTKALLSSIPIPDPLLEDKRERIILKGELPSPLNPPSGCVFRTRCPEAMELCGKITPELEEVKAGRFVACHLYKKES	PGPT0004440_7911	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
D1-12_00463	1050	pgl	COG2706	6-phosphogluconolactonase	ATGGCTAAGTACATAGGATACGCGGGAACATATACAAAAGGCGGAAGCGAAGGCATTTATTGTTTTGAACTTGATACAGAAGCGAAACGGCTCAGCCGGCCGAAGCTGGCAGCAAAGCTCGGCAACCCGACATACGTCACTCCGAATTCTGATAACAGCATGCTGTATTCCATTGAAAAGGCAGACGGAAAAGGCGGCGTCGCAGCCTATCAGATTCATCAGAACAGCGGGGAATTAACTTTTGTGAACCACCAGCTGATTGAAGGCCCTTCTCCATGCCACGTCAGCATTGATGATAAACATGAATATGTGTTAACCGCGAATTACCACAGCGGAAAAGTGCACGCCTTTCCCGTCAATGAGGACGGAAGTCTGCGGGAGCCGGCTGCCGAAGCCGCTCATACGGGAACAGGTCCTCATGAAAGACAAGAGAAACCGCATACCCATTTCGCAGGCTATACACCTGAGCATAACTACATTGCAGCCGTCGATTTAGGGACGGATACGCTGTATACTTACCAAATGAAAAACGGTTCGCTCACAGAGGTGAAAACTCATTCTTTCACACCGGGTTCAGGGCCGCGCCACATCGTTTTCCATCCGGCGGAAAAATATGCCTATGTCATGACGGAAATCAGTAATGAAGTCATCGCGCTTGAATACAACCCGACCTTAGGTGAATTCAGAGAGCTCCAGGTCATTTCCGCTTTGCCTGAAGGCTTTACGGACAAATCGCAAGGCAGTGCGATCCGCATATCTAAAGACGGCAGATTTCTTTATGCCGCCAACCGCGGACATGACAGCATCGCCATCTTTAAGATCAACCAATATTCCGGTGAATTGTCTCTTATTGAATGGGTGCCGACAGAAGGAAACTGGCCGCGTGATTTCGCGTTTGACCCTTCCGAGACATTCCTTGTCGCGTCAAACGAAGAAACGGGAAATCTGGTTTTGTTTGAACGTGATCCGGAAACAGGCAAATTGACTCTGCTTCAATCTGACATTCCGGTTCCGTATCCGGTCTGCGTGTCATTTCTGCATCAGGTTTAA	MAKYIGYAGTYTKGGSEGIYCFELDTEAKRLSRPKLAAKLGNPTYVTPNSDNSMLYSIEKADGKGGVAAYQIHQNSGELTFVNHQLIEGPSPCHVSIDDKHEYVLTANYHSGKVHAFPVNEDGSLREPAAEAAHTGTGPHERQEKPHTHFAGYTPEHNYIAAVDLGTDTLYTYQMKNGSLTEVKTHSFTPGSGPRHIVFHPAEKYAYVMTEISNEVIALEYNPTLGEFRELQVISALPEGFTDKSQGSAIRISKDGRFLYAANRGHDSIAIFKINQYSGELSLIEWVPTEGNWPRDFAFDPSETFLVASNEETGNLVLFERDPETGKLTLLQSDIPVPYPVCVSFLHQV	PGPT0014975_1561	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
D1-12_00464	861	arcA		Arginine deiminase	ATGGACGTATCCATTCCCAAATCCACGCGGAAACCGGCTTGCCGCAGTGAATTTGATGCTTTGCAGACAGTCATCTTATGCCGGCCGGAACACATGGCCATCAAGGATATTATTAACGGAACGCAGAAACATTTCAAACAAGAAAATATTAACATACCCGTTGCCCTCAAACAGCATAGTGAGTTTATTGACATTTTAAGATCTCATCAGATTGAAGTCGTCCTGCTGCCTGCCGATTCCGCATTGCCTGAGCAGGTATTCACCCGGGATATCGGATTTGTCTTAGGCGAGACGGCGTTTATTTCAAACATGGCGGCTTCAGTCCGGCAGGGAGAAGAAACAGTGTTTCAAGACCTGCTTGACAATAAGAAAATCCCTTATACGCGACTGAAAAAAGGGAACATTGAAGGCGGCGACATCTTGATCGCAGACGGCACCGTTTACGCCGGGCTGAGCAAGCGCACGGATAAAGCGGCTGTCCGGGAGCTGCAGGAGGCGCTGCCGGAGATGACGGTTGTGCCGATCCCTCTCAAGGAGGATTTCTTACATTTGGACTGTGTATTTAATATGATCTCGGAAACGGAAGCGCTATACTGCAAAAATGGCTTGCGGCAGAAAGAAATTGATCTTCTCGCCGAACGTTTTGAGATGATAGAAGTGCCTGAAGAAGAGCAATTCACGCTCGGCCCGAATATCCTGTCAATCGGCAATCAGACAATTATCAGCCTGCCGCAGCACCGTCATACGAACCGCGAGCTCAGAAAAAGAGGTTATACGGTCATTGAAACCGAGTTTTCCGAAATTATTAAATCAGGCGGTTCCTTCCGCTGCTGCACCTTGCCGCTTGTCAGAACATCTTAA	MDVSIPKSTRKPACRSEFDALQTVILCRPEHMAIKDIINGTQKHFKQENINIPVALKQHSEFIDILRSHQIEVVLLPADSALPEQVFTRDIGFVLGETAFISNMAASVRQGEETVFQDLLDNKKIPYTRLKKGNIEGGDILIADGTVYAGLSKRTDKAAVRELQEALPEMTVVPIPLKEDFLHLDCVFNMISETEALYCKNGLRQKEIDLLAERFEMIEVPEEEQFTLGPNILSIGNQTIISLPQHRHTNRELRKRGYTVIETEFSEIIKSGGSFRCCTLPLVRTS	PGPT0014323_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014323-ykgA-NA	NA	NA
D1-12_00465	519			hypothetical protein	ATGAAGTTGCCAGAATCAAGATTTTGCAAAGAAACAAGGGTTGTTAAAACAAGCAGGGTTTTTCCGCTTGATACGAATAATCACAATACGCTGTTTGGCGGAAAGCTGATGAGCTACATTGATGATATCGCTTCAATTTCCGCGGCCCGCCACTGCCGGTGTGAAACAGTCACGGCTTCAATGGATTCTGTAGATTTTTTGCGCCCCATCGGCCAACAGGATTCCGTATGCCTTGAATCTTACGTCACATGGGTCGGCACATCGTCTATGGAGGTGTTTGTCAAAGTCATTAAAGAGCATCTGATGACGGGCGAACGCGAGCTTGCGGCAACGTCGTTTCTGACCTTTGTCGCGCTTGATTCAAACGGGAAATCGGTACCCGTTCCGCGGATCGTGCCGGAAACCGAGGAAGAAATCATGCTTCACAATACGGCCGTTCAGCGCGCCGGAGAACGAAAAAACCGCTTAAAACACAGCAAAGCCCTGGCCGAGGCGCTCGGAACAGATAAACCTTGGTAA	MKLPESRFCKETRVVKTSRVFPLDTNNHNTLFGGKLMSYIDDIASISAARHCRCETVTASMDSVDFLRPIGQQDSVCLESYVTWVGTSSMEVFVKVIKEHLMTGERELAATSFLTFVALDSNGKSVPVPRIVPETEEEIMLHNTAVQRAGERKNRLKHSKALAEALGTDKPW				NA	NA	NA	NA	NA
D1-12_00466	546		COG1670	Acetyltransferase	ATGATGGAACATAAGTCTTCCGGCACCATCCTGACAACCGGGCGTATCCGTCTGCGGACTATGCGGGATGACGATGAAGAAAATTTGTACGGGCTGTTTACCGACAGAGAGGTCATGAAATATTATCCTTCTCTCAAAAGCAGACGGGAAACGAAGGAATGGATTGCCTGGAACAAACGATTGACCACAGGATACGGCGTCAGTCTTTGGATCGCAGAGGATAAAGAGACGGGCGCATTTCTCGGTCAATGCGGAATCGTTCCGCAGACGGTAAACGGAAACACTTTGATGGAAATCGGCTATATGTTTGCCCGCCGCCACTGGGGCTGCGGCTATGCGACAGAGGCGGCGAACGCCTGTCTGGACTACGGTTTTCATATGCAGCAATACGGACGCATAGCGGCGCTGATTGATCCGGAAAACGCTGCCTCCGTCCGTGTCGCGGAAAAAATCGGCATGGTGCCCGGTGAGACCGTTACCAAATGGGAGAGGCAGCTGACGGTTTTTGACATCACATCTGACGTTGAACGTTTCGGCGAAATGTAG	MMEHKSSGTILTTGRIRLRTMRDDDEENLYGLFTDREVMKYYPSLKSRRETKEWIAWNKRLTTGYGVSLWIAEDKETGAFLGQCGIVPQTVNGNTLMEIGYMFARRHWGCGYATEAANACLDYGFHMQQYGRIAALIDPENAASVRVAEKIGMVPGETVTKWERQLTVFDITSDVERFGEM				NA	NA	NA	NA	NA
D1-12_00468	339	gdnC	COG2076	putative guanidinium efflux system subunit GdnC	ATGAAATGGGGTTTAGTGGTCATAGCGGCCGTATTTGAAGTGGTATGGGTCACCGGCCTGAAACATGCTGATTCAGCACTGGCGTGGAGCGGCACGATTATGGGAATCATCATCAGTTTTTATCTATTAATCAAGGCGACAGACAGCCTGCCCGTAGGAACGGTATACGCGGTCTTTACCGGACTCGGGACAGCGGGCACCGTGCTCAGTGAAATCCTGCTTTTCAAAGAACAGGCCGATCCGGTGAAAATCGTGCTGATCGGCGTTTTGCTGATCGGTGTCATCGGATTAAAGCTGGTCACACAGGATAAGCCTGAGACGAAGGAGGAGAAGGCGTAA	MKWGLVVIAAVFEVVWVTGLKHADSALAWSGTIMGIIISFYLLIKATDSLPVGTVYAVFTGLGTAGTVLSEILLFKEQADPVKIVLIGVLLIGVIGLKLVTQDKPETKEEKA	PGPT0029165_246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029165-ykkC-K18924	NA	NA
D1-12_00469	315	gdnD	COG2076	putative guanidinium efflux system subunit GdnD	ATGCATTGGATCAGCCTGATAGCCGCGGGTCTTTGTGAAATGCTCGGGGTCATTTTAATGAATCAATTTCAAAAAGAAAAGAAAGTCAAATGGATTCTTTTCATTATCGCCGGATTTGCGGCTTCTTTTTCCCTGCTTTCTTATGCGATGGAGACGATCGCGATGGGCACGGCCTATGCGATCTGGACCGGTATCGGCACAGCGGGCGGCGCATTAGCCGGCATTCTTTTCTACGGCGAGCAGAAGGATGCGAAGCGCATCTTTTTCATTGCGCTTATTTTATGCGCTGCCGTAGGGCTGAAAATTCTTTCGTAA	MHWISLIAAGLCEMLGVILMNQFQKEKKVKWILFIIAGFAASFSLLSYAMETIAMGTAYAIWTGIGTAGGALAGILFYGEQKDAKRIFFIALILCAAVGLKILS	PGPT0029170_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029170-ykkD-K18925	NA	NA
D1-12_00470	903	purU	COG0788	Formyltetrahydrofolate deformylase	ATGAATTCATATATGACACAGCGGCTGAAAGAATACCGCCGCGGGAATGAGGAAAAAGGGCGCCTGCTTGTCAGCTGCCCCGACCAGCCGGGAATTGTATCGGCCGTGTCGGCGTTTTTGTTTGAACATGGCGCAAACATTATTGAATCAAATCAATACACGACTGACCCTGAAGGCGGACGGTTTTTTCTTAGGATCGAATTCGACTGTAAGGGCATTCGTGAGAAAAAAGAGGACTTACAGCAGGCGTTCGCCTCAATCGCCCAGACATTCGGCATGACATGGAGCCTGTCTCTGGCAAGTGAGCTGAAGCGAGTGGCGATCTTTGTATCGAAGGAGCTGCACTGCCTTCATGAACTGATTTGGGAATGGCAAAGCGGCAATATGATGGCCGAAATTGCGGTCGTCATCAGCAACCACGAAGAGGCCAAAGAAGTGGTCGAACCGCTGAATATTCCGTTCCATTACATGAAAGCTAACAAAGACATCCGCGCCGAAGTGGAGCGGCGCCAGCTTGAGCTGCTGGAGCAGTATAAGATTGATGTGATCGTTCTTGCCCGATACATGCAGATTTTGACGTCTGATTTTGTATCTGCCCATCCGAATCGGATTATTAACATCCACCATTCATTTCTGCCGGCCTTTATCGGCGCTAATCCGTATAAACGGGCTTATGAGCGCGGAGTGAAATTAATCGGCGCGACTTCTCACTATGTGACGGACGATCTTGACGAAGGGCCGATTATTGAACAGGATATTGAACGCGTCGATCACAGAGATCACGCAGAGGATCTGAAGAATATCGGCAGAACGATTGAGCGGAGCGTGTTGGCAAGAGCCGTAAAATGGCATCTGGAAGACCGCGTCATCGTTCACGGAAACAAAACGATCGTATTTAATTAA	MNSYMTQRLKEYRRGNEEKGRLLVSCPDQPGIVSAVSAFLFEHGANIIESNQYTTDPEGGRFFLRIEFDCKGIREKKEDLQQAFASIAQTFGMTWSLSLASELKRVAIFVSKELHCLHELIWEWQSGNMMAEIAVVISNHEEAKEVVEPLNIPFHYMKANKDIRAEVERRQLELLEQYKIDVIVLARYMQILTSDFVSAHPNRIINIHHSFLPAFIGANPYKRAYERGVKLIGATSHYVTDDLDEGPIIEQDIERVDHRDHAEDLKNIGRTIERSVLARAVKWHLEDRVIVHGNKTIVFN	PGPT0008155_466	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-12_00471	1113	proB_1	COG0263	Glutamate 5-kinase 1	ATGAAAAAACAAAGAATTGTTGTGAAAATCGGGAGCAGCTCGCTCACCAACAGTAACGGAAGTATTGATGAAGCAAAAATCAAGGAACATACGGAAGCCATTTCTTTATTAAAAGAAAACGGGCATGAAGTGATCCTCATTACCTCAGGCGCGGTGGCAGCGGGTTTTTCCGCTCTCGGCTATCCGTCGCGACCCGTTACGATAAAAGGAAAGCAGGCCGCTGCCGCAGTCGGCCAGACGCTTTTAATGCAGCAATATATGGACCATTTAAAAAGATACGGTCTGACGCCGGCACAAATTTTATTAACAAGAAATGATTTCTCAAAAAGAGAGCGGTACAGAAATGCCTATGCCACTGTAATGGAACTGTTGGAGCGTGGCGTCGTGCCGATTATTAACGAGAATGATTCCACATCAGTCGAAGAGCTGACGTTCGGTGATAACGACATGCTGTCGGCGCTTGTGAGCGGGTTGATTCATGCAGACCAATTAATGATTCTCACAGACATTAACGGGCTGTACGATGCCAATCCGAATGAAAACCCGGACGCAAATCGGTTCGACTATCTGAATGACATTACGCCAGAATTGCTCGGGTATGCCGGATCAGCAGGCTCAAAGGTCGGCACCGGAGGCATGAAGTCAAAACTTCTCGCCGCCCAGACCGCATTGTCGCTCGGGGTGAAGGTATTTATCGGAACCGGCTCCGGACGGGAAAAACTGATGGGAATTTTAGACGGAAAAGGCGACGGCACTTATATCGGCGATAAAGACCTGTCCTCAGTGAATAATACACGGCAATGGATCATGTTTCATTCTCCGATATCAGGGGAAATCATCATTGATGGGGGAGCGGAGCAGGCGATGATCCATAACGGGTCAAGTCTCCTCCCGGCCGGTGTCGCCGATGTCTGCGGCAGTTTTCCGAAAGGGGCTGTAGTGGAAGTCAGAGGGCCCGGCGGCATTATCGGCAAAGGGCAGACGCAGTACTCATCCGATGAAATTTTAGAAGCCAAAGGGAAGCGGAGCGACCAGCTTTCAGGAACGAAGCAGGTGGAAGTGATTCACAGAGATGATTGGGTGAATTTATTTGACGAGGGGGAACACAAATGA	MKKQRIVVKIGSSSLTNSNGSIDEAKIKEHTEAISLLKENGHEVILITSGAVAAGFSALGYPSRPVTIKGKQAAAAVGQTLLMQQYMDHLKRYGLTPAQILLTRNDFSKRERYRNAYATVMELLERGVVPIINENDSTSVEELTFGDNDMLSALVSGLIHADQLMILTDINGLYDANPNENPDANRFDYLNDITPELLGYAGSAGSKVGTGGMKSKLLAAQTALSLGVKVFIGTGSGREKLMGILDGKGDGTYIGDKDLSSVNNTRQWIMFHSPISGEIIIDGGAEQAMIHNGSSLLPAGVADVCGSFPKGAVVEVRGPGGIIGKGQTQYSSDEILEAKGKRSDQLSGTKQVEVIHRDDWVNLFDEGEHK	PGPT0014220_2249	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
D1-12_00472	1248	proA	COG0014	Gamma-glutamyl phosphate reductase	ATGAGTGAAGTATTGCAAAAAGCGGCTTTGGCAAAAGAAGCGGCTGCCGAAATGGTCATGAAAACGACGGCTGAAAAAAACGAAGCGCTCCAATGTATTGCAGACGGACTCAGAAATGAACGCCGGCTGATTTTAACAGAGAATCAGAAAGATATTGAAGCGGGACGGAACAGAGGACTGACACCTGACATTATTGACAGGCTGACTCTTGATGAAAAACGCCTGCTCGATATCGCGGACGCCGTGGAACTATTAATCGGTCTTGAAGATCCCGTCGGTGAATCGCTGGAGACCATTCAAAAAGAGAATGGATTATCTATTGAAAAAATCCGCGTGCCCCTCGGAGTAGTGGGCATGATCTATGAGGCCAGACCGAACGTTACCGTAGACGCGGCCACACTCTGCCTGAAAACCGGAAACGCGGTTGTGCTCAGAGGAAGTTCTTCCGCCATCCACAGCAACATAGCGCTTGTCAGTGTGATGAAACGCGCACTGGGGCTGTCAAAGCTTCCGATTGATGCCGTTCAGCTCATAGAAGATACAAGCAAAGAAACCGCCAAACAGCTCTTTACATTAAATGACGGGCTGGATGTATTGATCCCGCGCGGCGGTAAAAATTTAATTGATCTTGTGGTCAGGGAATCAACCGTACCCGTTTTAGAAACCGGAGCGGGCAATTGCCACGTGTACATAGATGAGTCAGCAGATCCTCAAATGGCAAGCGAGGTCGTCATCAATGCCAAAACACAGCGTCCTTCGGTCTGCAACGCGATTGAATCTCTTTTGATTCATGAAAAATGGGCCGAAGAACACGGACGAAAGCTGCTGAATCAGCTGACAGAAAAAGGGGTGGAGCTCCGAGGAGACCAGGTGATTTGCAGACTGGAGCCTCAAGCGAAACAAGCAGAAGAAGCCGATTGGGGAGCGGAGTACCTGGCGCCGATTCTCAGTGTGAAAACGGTGCAGGACGTACAGGAGGCGGTCCGCCACATTCAGCAGTACGGCACAAACCATTCAGAAGCCATTCTGACGGAGAACGCCGAGCATGCGGCTTACTTCCAGACCGCCGTTGACGCCGCCGCCGTGTATCATAATGCTTCAACCCGGTTTACGGACGGTTTTGAATTCGGATACGGAGCCGAAATCGGCATCAGCACGCAAAAGCTTCACGCGAGAGGGCCAATGGGGCTTCCGGCGTTAACATCTACAAAAATCATCATCAAAGGAAACGGACAAATCCGCGTATAA	MSEVLQKAALAKEAAAEMVMKTTAEKNEALQCIADGLRNERRLILTENQKDIEAGRNRGLTPDIIDRLTLDEKRLLDIADAVELLIGLEDPVGESLETIQKENGLSIEKIRVPLGVVGMIYEARPNVTVDAATLCLKTGNAVVLRGSSSAIHSNIALVSVMKRALGLSKLPIDAVQLIEDTSKETAKQLFTLNDGLDVLIPRGGKNLIDLVVRESTVPVLETGAGNCHVYIDESADPQMASEVVINAKTQRPSVCNAIESLLIHEKWAEEHGRKLLNQLTEKGVELRGDQVICRLEPQAKQAEEADWGAEYLAPILSVKTVQDVQEAVRHIQQYGTNHSEAILTENAEHAAYFQTAVDAAAVYHNASTRFTDGFEFGYGAEIGISTQKLHARGPMGLPALTSTKIIIKGNGQIRV	PGPT0014215_3984	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
D1-12_00473	426	ohrA	COG1764	Organic hydroperoxide resistance protein OhrA	ATGACAAAACCATTATTTACTGCAACCGTATCAGCCGCCGGCGGACGTGAAGGGAAAGTCACGTCTTCTGACGGAGTGCTGAATCTTGATGTTGCCATGCCGGGAACGCCAAGAGCAAAAAAGCTCGAACATGCCACAAACCCTGAGCAGCTGTTTGCCGCAGGATATTCAGCCTGCTTTGACAGCGCTCTTCAGCTCGTAGCGAGAAAAGAGCGTCTGAGTATTGAAACAGAGGTCACTGCGCATGTCAGTCTGCTGAAAGATGAAGCAGACCAAGGATATAAACTAGGCGTTACGCTTGAGGTCAAAGCATCCGGCATTGATAAACAGGAGCTTGAAGCCCTTATTCAAAAAGCGCACGGTGTCTGCCCGTATTCAAAAGCGACAGCGGGAAATATTGAAGTGAAGCTTCTGGCAGCAGAATAA	MTKPLFTATVSAAGGREGKVTSSDGVLNLDVAMPGTPRAKKLEHATNPEQLFAAGYSACFDSALQLVARKERLSIETEVTAHVSLLKDEADQGYKLGVTLEVKASGIDKQELEALIQKAHGVCPYSKATAGNIEVKLLAAE	PGPT0013160_1868	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
D1-12_00474	510	ohrR		Organic hydroperoxide resistance transcriptional regulator	ATGGATCGTTTTTCGGCTACAATAGGGGTAACGTTAACAAACAAAGAGTTGGTGAAAGAAGTAATGGCAGAAAAAGATTTTGAACATATGAAACTTGAGAATCAGCTTTGTTTTTTGCTGTACGCAAGCTCAAGGGAAATGACGAAACGGTACAAACCGCTGCTTGATAAGCTCAACGTAACTTATCCCCAGTATTTGGCGCTGCTTTTATTATGGGAGCACGAAGAACTGAATGTGAAACGGATGGGTGAGCTTTTGTACCTGGATTCCGGAACGCTGACACCGATGCTGAAACGGATGGAGCAGCACGGAATCATCATGAGAAAGCGGTCGGCTGAAGACGAGCGATCCGTGACGATCAGGCTCACAGATGAAGGACGGGCCTTGCAGAAAACAGCGGCGGATATTCCCATTGCCATGCTGGAACAGACGGGACGGTCAAAAGAGGAATTAAAGCAGTTAAAGCAGTCGCTTTATGAGGTTTTGAATACGCTGCACGGCAAAAAATAA	MDRFSATIGVTLTNKELVKEVMAEKDFEHMKLENQLCFLLYASSREMTKRYKPLLDKLNVTYPQYLALLLLWEHEELNVKRMGELLYLDSGTLTPMLKRMEQHGIIMRKRSAEDERSVTIRLTDEGRALQKTAADIPIAMLEQTGRSKEELKQLKQSLYEVLNTLHGKK	PGPT0013155_582	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-12_00475	411	ohrB	COG1764	Organic hydroperoxide resistance protein OhrB	ATGGCATTATTTACTTCAAAAGCGACCGCAGTCGGCGGACGAGCAGGACATATTAAATCCGACGACGGGGTGCTGGATTTTGACATCATCATGCCGAATGCAAAAAAAGACGGAGAAACCGGCACAAACCCTGAACAGCTCTTTGCGGCAGGGTATGCTGCCTGCTTTGGGGGAGCGCTTGAGCTTGCCGCCCAAAAACAAAAAATCGACATGACCTCTGAAATTGAAGGACAGGTCAGCCTTTTAAAAGATGAGAGTGACGGAGGTTACAAAATCGGCGTAACGCTCGTCATTGATACAAAAGATCTTGACAAAGAAACGGCGGAGAAGCTAGTGCACGCCGCTCACGAGTTCTGTCCGTATTCAAAAGCAACAAGAGGAAATGTAGACGTCAAACTTGAATTAAAATAA	MALFTSKATAVGGRAGHIKSDDGVLDFDIIMPNAKKDGETGTNPEQLFAAGYAACFGGALELAAQKQKIDMTSEIEGQVSLLKDESDGGYKIGVTLVIDTKDLDKETAEKLVHAAHEFCPYSKATRGNVDVKLELK	PGPT0013160_4135	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
D1-12_00476	570			hypothetical protein	ATGTCTCTTCCAAACATACCGAACATCACCCCCGACATTACACTCTCCAGATGTGAGACCCTGAACCTCCTTCTTTCATCCGTGGCTATGGAAGAAATCGGACTATCCCATATTCTGCAGGCGGAAGCGGAAAGGATTCAAATGTTTCTCGGCGCTTCCGGCGATCCCTCCTTGGAGGAATTGTCATCAATCAATAGAAGCACTGAACGGCTCCTGCGCACCGTCATGAAATCACAACTCCTTTTGCAGACGAAGCTTGAGGACATTATCTTCTTACAGGATTCTGAGGCCTGTATGGACCCGGACGACCCAAGCAATCCGAGTAATCCGGGCGATCCTGATGACCCGTGGAATCCGGACGACCCAAGTAATCCGAGTGATCCGGGCGATCCTGATGACCCGTGGAATCCGGACGATCCCAGTGATCCGGAAGATCCATGCGACCCGTGCTTTCCGAATCCGCATCCTGAAGATCCGTGTGACGGCCTGTTTTACGGCCGCATTGGCTGCTGTGAGTGCGGGGATTGTGAGGACTGCGGTTGGAAGAAAAAAGGCGGGGAGCGTTCATAA	MSLPNIPNITPDITLSRCETLNLLLSSVAMEEIGLSHILQAEAERIQMFLGASGDPSLEELSSINRSTERLLRTVMKSQLLLQTKLEDIIFLQDSEACMDPDDPSNPSNPGDPDDPWNPDDPSNPSDPGDPDDPWNPDDPSDPEDPCDPCFPNPHPEDPCDGLFYGRIGCCECGDCEDCGWKKKGGERS				NA	NA	NA	NA	NA
D1-12_00477	465			hypothetical protein	ATGCCGTATCCAAGCATCTCAAAAGCGAAACAGACATCTTTTGAAGCCATGCATTGCCTCACGATTGCGCTGTTAAATATATTATCTGTGACCGTGGATAAAAGAAGGGATTCAAATTACAAAGAAGAAATCAGGCTGTTCTCCGCATTGTGCCGCTGGCAGATGGAAACTGGCGGCCGTCTGTTTTTAATGGTCAGCCTGGAAGAAGAGCAGAAGCAGATGTATGAGCGGCACTTTCATGAAATGAAGACAGTTACGGAACGAACGAAAAAATTCATTTTTGAAAGCCCGCGCGAATTCCGGGCGCATCCCATTACGAAGCGGGCTGTCAGGCAGCTTCAGGAATGGGATGCAGAATCAACTGCCGAACCTGCCGTCAGATGGGTGCGGCCTGTCATCATAACGATGAACGGCACTCCTGAACGGCCTTGGTTCAATCAACAACTCCAAAATCGGGAAAGGTGA	MPYPSISKAKQTSFEAMHCLTIALLNILSVTVDKRRDSNYKEEIRLFSALCRWQMETGGRLFLMVSLEEEQKQMYERHFHEMKTVTERTKKFIFESPREFRAHPITKRAVRQLQEWDAESTAEPAVRWVRPVIITMNGTPERPWFNQQLQNRER				NA	NA	NA	NA	NA
D1-12_00478	1128			hypothetical protein	ATGAGCGGAAATGCTGAATGTAAACTGACTCTTTGCATGATTGTGAAAAACGAGGAGAGATACATCTCCCGTTGTTTATCAAGTGTACAAGACATCGTTGATGAGATCGTCATCGCAGACACCGGATCACAAGATAATACAAAAGATATATGCAAAAGCTTTCAGGCAAGAGTGTTTGATTTCGAATGGGAGAATGATTTCGCAAAGGCCAGAAATTACGCCCTGCAGCATGCCGAAGGAGATTGGATTTTAATGCTTGACGCGGATGAAGAGCTCGATCAGGAGACGGGCCGCTTTTTAACTTCGCTGCTTCATGACGGATTACCGAGCCGGGGCCTTTTGAAAATCATCAATTATACGGGGAAGCAGCTCGATGAAAACGAAGCGTTTGAAAGTATGCAGCCGAGACTGTTCCGCAATCATAAAGGCCTTCTGTATCAAGGCAGAATTCACGAGAATATCTCGGCTCCCAATGAGGAAGAAAACAATGCTTTTTTCACGCTCCCATGTGTGATTCATCACTACGGCTACTTGGAGCAGGAAGAAAAGATCAAGCAAAAACATAAACGGAATATCAGCATTTTAAATGAAGAGCTTTCAGAGGAAAATCCTGATCCGTGGCTTGTCTATCATTTGGCAAGTGAATGCTACAGAATAAAAGACTATGAAAAAGCATTACATCTTGTCAACGGCTCAATTTTTCAATTTTTAAGCGAAAAACGAATGCCTCCGTCTCTCCTGTATTATTTGAAATATACAATATTGCTTGAGCTCAAACGGTATGAAGAAGCCGAACAAGGGATTGAAAAAGTGCTCAAGCTATATCCTGATTACAGCAATCTTCATTATTATAAAGGCCTTGTATTATATCATTTGGAAAAGTACAGAGCGGCAATCAAAGCATTTGAAAACGGAACGCAGGTTGAAGGAGAAAACGCTGATCACTTAATTTTAAAAGGTGCCGCCGATTTCAGAGCTTTTTATTATATGGCAAAATGCCATGCTGAATTAAACCATGATATGACGGCCATCGCTTACGCCAAAAAATCCGTGAAGTTCAATCCTCAATTTAAACCCGCGCAAGAGCTTCTGTCTCAATTAAAAAAGGATCAGCGGACAAACGCCTGA	MSGNAECKLTLCMIVKNEERYISRCLSSVQDIVDEIVIADTGSQDNTKDICKSFQARVFDFEWENDFAKARNYALQHAEGDWILMLDADEELDQETGRFLTSLLHDGLPSRGLLKIINYTGKQLDENEAFESMQPRLFRNHKGLLYQGRIHENISAPNEEENNAFFTLPCVIHHYGYLEQEEKIKQKHKRNISILNEELSEENPDPWLVYHLASECYRIKDYEKALHLVNGSIFQFLSEKRMPPSLLYYLKYTILLELKRYEEAEQGIEKVLKLYPDYSNLHYYKGLVLYHLEKYRAAIKAFENGTQVEGENADHLILKGAADFRAFYYMAKCHAELNHDMTAIAYAKKSVKFNPQFKPAQELLSQLKKDQRTNA				NA	NA	NA	NA	NA
D1-12_00479	1866			hypothetical protein	GTGTCACAGCCTAATATGCCCAATATCACCCCTGTCGTTACACTTTCCAGAGACGATACCATTAACCTTCTTCTTTCGTCAATTGCTATGGAAGAGCTGGGAATGGCACATATTCTGAATGCGGAAGGGGAAAAAATCCAATACGCGCTCGGAACGATTCCCGGATTAACAGGACCCCCGTCAAGTCTTGCGGATATTCTTAACCTGAATGAGAGCGTCCGGGATACGCTTGACAGCTTAATGAAACAGGAGCTCCTTCTCGGTTCAAAATTGGACAGTATCTCAAATATCCCTACACTGGCGGGACCGACTGGTGCTACGGGGCCGACGGGACCAGCCGGCGGGCCCCCAGGACCTACGGGAGCAATCGGCCCGGCCGGAGCGACGGGGCCAACCGGACCGACCGGGCCGACGGGGGTCACCGGTGCGGGTCTTCAAGGGATTGTTGCTTTTAATCCGCTGATTGCTCCCACTTATACACCCGGACAGGTTGTATTGTATAACGGAAGCTCCTATGTCGTGAACACACCTTCGCCGGCAGGGATTCCGGATACGTCTGCCGATTATACGCTTTTAGCTGCCGCAGGATCAACCGGGCCGATTGGACCAACAGGCGCTACAGGAGCCGGATTGACAGGATTGACAGCTTTTGATCCCGCTGCTGCGCCTTTTTATACAGCGGGGCAGGTTGTATTGTATGAGGGTGCTTCTTATGTCGTAAATATCAATAACCCTTCAGGCATTCCCGGGACATCGCCGGATTATACACTGCTTGCCGCCGCGGGGCCGACCGGGCCGACAGGGGTCACGGGCGCCGGACTGCAGGGCATCGTACCGTTTGATCCCCTCGCCGCCGCTGCCTATACCGCCGGACAGCCAGTTACTTTCAACGGCAGCTCTTACGTCGCAAACGTAAACAGCCCGGCGGGAACCCCTGGAGCCTCAGCTGACTATACACTTTTAGCTGCGGCGGGAATCACTGGCGCTACTGGCGGTACCGGGCCGACCGGATTTACCGGTGCTACTGGCGTTTCCGGGCCGACCGGGATCACCGGCGCTACTGGCGGTACCGGACCGACCGGAAGCACCGGCGCTACTGGCGGCACCGGACCGACCGGATTTACCGGTGCTACTGGCGTTTCCGGACCGACCGGATTTACCGGCGCTACTGGCGGCACCGGACCGACCGGAAGCACCGGCGCTACTGGCGAAATCGGACCGACCGGATTTACCGGCGCTACTGGCGGCACCGGACCGACCGGAAGCACCGGCGCTACTGGCGTTACTGGACCGACCGGAAGCACCGGCGCTATTGGCGAAACCGGACCGACCGGAAGCACCGGTGCTACTGGCGTTACCGGACCGACTGGAATTACCGGCGCTACTGGCGACACCGGACCGACTGGAAGCACTGGCGCTACTGGCGGCACCGGACCGACCGGAAGCACCGGAACAAGTCTGACAGCAACTTCCGGCTATGCAAGCAATACGGGCGGCGGTGTTGTCGCAGTTATTGTCGGCGGCACGACCATTTCTTTACCGAATGAACAAAACCTTTCTGCGGATATAACGGTTAATGCCGCAAATACCGTATTCACCGTTGCTCCGGCGGGACGTTACTATATCTCCTACCATATTAATTTAACGGCCGGCTTGCTTGTAAGTTCGCGTATTTTAATCAACGGCACTCCTCCTGCAAGTTCGATTATCGCCCCGGTCGCGTCTTTGGCAAACTTTAATAACTCCTTTATTGTGACATTGCCAGCAGGCAGCACCATCCAGCTTCAGCTGTTCGGATTATTGGGTGCGGCCACATTGCTTGGAGGAAGCGTCGGTGCAGCTTTAAACATTATTCGATTATCTTAA	MSQPNMPNITPVVTLSRDDTINLLLSSIAMEELGMAHILNAEGEKIQYALGTIPGLTGPPSSLADILNLNESVRDTLDSLMKQELLLGSKLDSISNIPTLAGPTGATGPTGPAGGPPGPTGAIGPAGATGPTGPTGPTGVTGAGLQGIVAFNPLIAPTYTPGQVVLYNGSSYVVNTPSPAGIPDTSADYTLLAAAGSTGPIGPTGATGAGLTGLTAFDPAAAPFYTAGQVVLYEGASYVVNINNPSGIPGTSPDYTLLAAAGPTGPTGVTGAGLQGIVPFDPLAAAAYTAGQPVTFNGSSYVANVNSPAGTPGASADYTLLAAAGITGATGGTGPTGFTGATGVSGPTGITGATGGTGPTGSTGATGGTGPTGFTGATGVSGPTGFTGATGGTGPTGSTGATGEIGPTGFTGATGGTGPTGSTGATGVTGPTGSTGAIGETGPTGSTGATGVTGPTGITGATGDTGPTGSTGATGGTGPTGSTGTSLTATSGYASNTGGGVVAVIVGGTTISLPNEQNLSADITVNAANTVFTVAPAGRYYISYHINLTAGLLVSSRILINGTPPASSIIAPVASLANFNNSFIVTLPAGSTIQLQLFGLLGAATLLGGSVGAALNIIRLS				NA	NA	NA	NA	NA
D1-12_00480	1185	hcaT		putative 3-phenylpropionic acid transporter	ATGAAAGCATATCGCTGGATGAGTCTGCATTTTTTTAGTTTTTTTATGACATGGGGTGTTTTTCTGCCCTATTGGACGGGATGGATGGTGCATATAAAAGGGGTTTCCGTATCCGAAGCCAGTTTCATTATGAGCCTGGGCTTGGCGGCAAGAGGGATTTCCACATTATTTTTCTTCCCTTATTTATCAGGAAAATTCAGCAGCAAAGCCTTATTAAACGGCGCCAGAATCGGGACGCTTCTCGCACTTTTATGTTATATTCCCGCTGATTCTTTTCAAAGCCTGCTTCTTGTCACATTAGTGCTGCATGTGTTTTACCCTGCTTTAATGCCTGCTTTAGACAGCGCTTGCGGCGTCCTTGTACAGCATAACGAATTAAAGGCTTATGGGACAAGCCGCCAGTGGGGGTCCGCGGGTTTTGTTTCAGCCGGCGTCATCCTGTCCGTCTTTACAGGTATATTCGGAGACCAAGCGATTTTATGGGCACTGCTTTTGGGCGCCCTGATATTCGCATCCCTAAGCTTTATGCATGCGCCAGCTGTTCTTTCAAAACGGCCGGAAACAGACCGCGCAAGAAAAGAGGGCATGTTTGCCTTATTCCGCATCAAATATTTCGGTCTGGTGCTCGCAATCGTTATCTTACTGCAGGCGGCACATGCATCTTACTACAATTACGGTTATCTCTTTTTGCAGGAAATCGATGCGCCCGCATATGCCATCGGAATCATCATCAACATCGCCGTTATCGCGGAGATTATCTTCTTTGCAATCGCTGACCGATACTTTCATCAATTTACGGCAGGCTCTTTGCTCGCCCTGGCGGCGCTTGGTGCTACCGTACGCTGGATACTCGTATTTGCCTTTCCGCATGTCATCATTTTCTGTCTTGCGCAGACGCTGCATGCCTGTTCATTCGCGATGGGACACTATGCATTTATGAAATACTTAATTAAAAATATTTCACCCGCGCAAATCCCGAAAGCCCAAGGTATATATTCAGCGCTTGCTCTCAGCTGGAGCACTGCGGTATTTACTATTTTCGGAGGTTTTTTATATGAAATTGAACCCCGGTATGCCTTTATCGGAATGATTGTTTGTACGATACCGTCCATGCTTCTCGCCCTTTTATACAGAAAACTTGAAATGAAAAAGAGCGTTTTTGCAGGAAACGCACAAGATATATAG	MKAYRWMSLHFFSFFMTWGVFLPYWTGWMVHIKGVSVSEASFIMSLGLAARGISTLFFFPYLSGKFSSKALLNGARIGTLLALLCYIPADSFQSLLLVTLVLHVFYPALMPALDSACGVLVQHNELKAYGTSRQWGSAGFVSAGVILSVFTGIFGDQAILWALLLGALIFASLSFMHAPAVLSKRPETDRARKEGMFALFRIKYFGLVLAIVILLQAAHASYYNYGYLFLQEIDAPAYAIGIIINIAVIAEIIFFAIADRYFHQFTAGSLLALAALGATVRWILVFAFPHVIIFCLAQTLHACSFAMGHYAFMKYLIKNISPAQIPKAQGIYSALALSWSTAVFTIFGGFLYEIEPRYAFIGMIVCTIPSMLLALLYRKLEMKKSVFAGNAQDI	PGPT0028051_501	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
D1-12_00481	672	yeiL	COG0664	Regulatory protein YeiL	ATGGAAATTTATAAAGGCGAGAAAAAGCGGCATCAGTTAGAAAAACACTCAATCGCGCATTTATTCTCTTTCCCCGCTGAAAAGTTTATGGAAGTGCGCGAATATGAGCGGGACGAATGGATGATTCAAGAGGGCAGGAGGCCTGACTTCCTGTTTTACGTGATTGAAGGAAAAGCGAAAATATATGTAACCCATCAAAACGGGAAAGTTTCTTTAATTAATTTTATCAACAAAAATGATTACATCGGAGAGATGGAACTATTACATGAAGTGTATTACACAAAAGGAATTCAAGCCTCAGCGAAGACTGTTTGTTTTGCTCTGCCTATTTACCGCTGCCGCGCGCAATTGCTGCAGGATGCGAAATTCCTGCGTGAGTTGGCTAAGTTTTTAAGTGCTAAGGCAACGCTTATGGCTTCGAAATATTCACAAAGTCTGGCGTTCCCATTTGAAAACCGGCTGGCTGATTTTATTTTGCAGACGGCTTATGAAGGGGTTTATAAAGAGAAGCACGTAACGGTCTGTGATTATTTGGGTGTATCTTACCGTCATCTCTTGCATGTGCTGACGCAATTCTGCCAAAAAGGGTATTTGCAAAAAGAAGGGAGGGGCTATCAAATTAAGCAGTATGATTCACTAAGTGAACTTGCAGAAGCGCTGAAGAATAAGTAG	MEIYKGEKKRHQLEKHSIAHLFSFPAEKFMEVREYERDEWMIQEGRRPDFLFYVIEGKAKIYVTHQNGKVSLINFINKNDYIGEMELLHEVYYTKGIQASAKTVCFALPIYRCRAQLLQDAKFLRELAKFLSAKATLMASKYSQSLAFPFENRLADFILQTAYEGVYKEKHVTVCDYLGVSYRHLLHVLTQFCQKGYLQKEGRGYQIKQYDSLSELAEALKNK				NA	NA	NA	NA	NA
D1-12_00482	2289	metE_1	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGACAACAATCAAAACTTCGAACCTCGGTTTTCCGAGAATCGGCTTGAACAGAGAATGGAAAAAAGCGCTTGAGGCATATTGGAAAGGTAACACTGACAAAGAAACGTTTCTTAAAGAACTTGACGGTTTATTCTTATCAGCTGTCAAAACACAGCTTGACCAACATATCGATATCGTGCCGGTCTCTGATTTCACCCATTATGACCATGTGCTCGATACAGCCGTCAGCTTTAACTGGATTCCGGAAAGATTCCGCAGCATCACGGATCCCGTTGATACATACTTTGCGATTGCCCGCGGTGTAAAAGACGCCGTTTCCAGTGAAATGACGAAATGGTTTAATACCAACTACCATTACATCGTTCCTGAATATGACGAAAGCATTGAATTCCGTCTGACGAGAAACAAACAGCTTGATGACTACCGCCGGATCAAAGAAGAATTCGGAGCGGAAACGAAACCTGTCATCGTCGGTCCGTACACATTCGTCACGCTTGCGAAAGGATACGAAGAATCAGAAGCGAAAGCGATTCAAAAACGCCTTGTTCCTCTTTATGTGCAGCTGCTGAAAGAGCTTGAAGCAGAAGGCGTCAAATGGGTTCAGATTGATGAGCCTGCTCTTGTGACAGCTTCTTCTGAAGACGTCCGTGCCGCCAAAGACCTCTATGAAGCGATCACAAAAGAGCTTTCAGGACTGAATGTTCTCCTGCAGACATACTTTGATTCGGTTGATGCATATGAAGAACTCGTTTCTTATCCCGTACAGGGAATCGGGCTTGACTTCGTGCATGATAAAGGCAGAAACCTTGAGCAGCTGAAAAAGCACGGCTTCCCGAAAGATAAAGTGCTGGCAGCCGGTGTGATCGACGGGCGCAACATTTGGAAAATCGATGTTGAAGAACGCCTTGATGCAGCTCTGGATATCCTCAGCCACGCTGACGTTGAGGAATTATGGATTCAGCCTTCAAGCAGCCTTCTGCACGTGCCGGTGGCAAAACACCCTGACGAGCACCTTGAAAAGGATTTGCTGAACGGCCTGTCATACGCTAAAGAAAAACTGGCGGAACTCGGCGTCTTAAAAGAAGGGCTTCTGTCCGGCAAAGCGGCCGTCAGTGAGCAGATCGAAGAGTCAAAAGCGGCACTTAAGGCTTTAAAAGCATTCGCAACAGGAGCGAACTCAGCTCAAAAAGAAGAGCTGAATCAGCTGACGGAAAAAGATTTCTCCCGTCCGGCAAGCTTTGAAGAACGATTGGCGCTGCAAAATGACTCACTCGGTCTTCCCCTTCTGCCGACGACGACAATCGGAAGCTTCCCTCAATCTGCCGAGGTGCGGAGCGCACGGCAAAAATGGCGGAAAAAAGATTGGACGGATGAACAGTACCAAGCCTTTATTAATGCGGAAACGAAGCGCTGGGTTGACATTCAGGAAGAAATCGGCTTAGACGTGCTCGTTCACGGAGAATTTGAGCGGACGGACATGGTCGAATACTTCGGTGAAAAACTGGCCGGATTCGCCTTTACGAAATATGCATGGGTGCAGTCTTACGGTTCACGCTGCGTACGTCCGCCTGTCATTTTCGGAGATGTCGAATTTATCGAACCGATGACGGTAAAAGATACGGTCTACGCCCAATCGCTGACGGAAAAACACATGAAAGGCATGCTGACGGGACCTGTCACCATCTTAAACTGGTCATTCCCGCGTGTGGATATTTCAAGAAAAGAAATCGCCTTCCAGATCGGGCTTGCCCTCAGAAAAGAAGTAAAAGCGCTTGAAGATGCCGGTATCCAAATTATCCAAGTGGATGAACCCGCGCTCCGCGAAGGACTGCCGTTAAAAACGCAGGATTGGGATGAATATTTAACTTGGGCCGCAGAAGCATTCCGGTTAACGACGTCTTCTGTGCAAAATGAGACGCAGATTCATACGCATATGTGTTACAGCAACTTTGAAGATATCGTAGATACGATCAATGATCTTGACGCGGATGTCATTACAATCGAACACAGCAGAAGCCACGGAGGATTTTTAGAATACTTGAAAGAACATCCTTACGTGAAAGGCCTCGGACTCGGTGTATACGACATTCACAGCCCGCGTGTGCCGGCAACTGAAGAAATCTATCAAATTATTGATGACGCGCTTGAAGTGTGTCCGACTGACCGCTTCTGGGTAAACCCGGACTGCGGACTGAAAACAAGACAGCAGGAAGAAACCGTTGCGGCATTAAAAAATATGGTCGACGCCGCGAAACAGGCACGAAAAAAACAAGCTCAGCTTGTATAA	MTTIKTSNLGFPRIGLNREWKKALEAYWKGNTDKETFLKELDGLFLSAVKTQLDQHIDIVPVSDFTHYDHVLDTAVSFNWIPERFRSITDPVDTYFAIARGVKDAVSSEMTKWFNTNYHYIVPEYDESIEFRLTRNKQLDDYRRIKEEFGAETKPVIVGPYTFVTLAKGYEESEAKAIQKRLVPLYVQLLKELEAEGVKWVQIDEPALVTASSEDVRAAKDLYEAITKELSGLNVLLQTYFDSVDAYEELVSYPVQGIGLDFVHDKGRNLEQLKKHGFPKDKVLAAGVIDGRNIWKIDVEERLDAALDILSHADVEELWIQPSSSLLHVPVAKHPDEHLEKDLLNGLSYAKEKLAELGVLKEGLLSGKAAVSEQIEESKAALKALKAFATGANSAQKEELNQLTEKDFSRPASFEERLALQNDSLGLPLLPTTTIGSFPQSAEVRSARQKWRKKDWTDEQYQAFINAETKRWVDIQEEIGLDVLVHGEFERTDMVEYFGEKLAGFAFTKYAWVQSYGSRCVRPPVIFGDVEFIEPMTVKDTVYAQSLTEKHMKGMLTGPVTILNWSFPRVDISRKEIAFQIGLALRKEVKALEDAGIQIIQVDEPALREGLPLKTQDWDEYLTWAAEAFRLTTSSVQNETQIHTHMCYSNFEDIVDTINDLDADVITIEHSRSHGGFLEYLKEHPYVKGLGLGVYDIHSPRVPATEEIYQIIDDALEVCPTDRFWVNPDCGLKTRQQEETVAALKNMVDAAKQARKKQAQLV				NA	NA	NA	NA	NA
D1-12_00484	960	isp	COG1404	Major intracellular serine protease	ATGAATGGTGAAATGCATTTGATTCCTTATGTCACGGACGAACAGATCATGGATGTGAACGAGCTTCCGGAGGGGATTAAAGTGATTAAGGCGCCAGAGTTGTGGGCAAAAGGGTTTAAAGGCAAGGATATTAAAATCGCGGTGCTTGACACAGGCTGCGACATCAATCATCCTGATTTGAAAGACCGGATTGTCGGCGGGAAAAACTTCACCGATGATGACGGAGGCAAAGAAGACGCGATTTCCGATTATAACGGACACGGGACACACGTTTCCGGAACGATTGCCGCCAATGATTCAAACGGCGGAATTTCGGGTGTCGCGCCGGAAGCAAGCCTCTTAATTGTTAAAGTTCTCGGCGGGAAAAACGGCAGCGGCAAATACGAATGGATCATTAACGGCATCAACTACGCCGTTGAACAAAAGGCCGATATCATTTCCATGTCACTCGGCGGGCCAAGCGATGTGCCTGAATTGAAAGAAGCCGTCGCAAATGCGGTAAAAAGCGGTGTTCTGGTCGTTTGCGCGGCAGGAAACGAAGGCGACGGAGACGAGCGTACAGAGGAACTGTCGTATCCGGCCGCTTACAACGAAGTGATCGCAGTCGGATCAGTCTCAATCGCCCGTAAATCGTCTGAATTTTCAAACGCCAATAAAGAGATTGACCTGGTGGCTCCGGGAGAAAATATTCTCTCCACCCTTCCCAACCATAAATACGGGAAGCTGACGGGCACTTCAATGGCCGCCCCGCATGTGAGCGGAGCGCTTGCCTTAATAAAAGGGCTTGAACAGGACGCGTTTCAGCGGACGCTTTCTGAGGCTGAAGTCTACGCCCAGCTCGTGCGGCGGACCCTTCCTTTGGACATCGCCAAAACATTGGCCGGGAACGGGTTTCTGTATTTAGACGCGCCTGAAGTGCTGATGGAAAGAGCCGAACAGGCACAGCTGCTGTCTTTCTGA	MNGEMHLIPYVTDEQIMDVNELPEGIKVIKAPELWAKGFKGKDIKIAVLDTGCDINHPDLKDRIVGGKNFTDDDGGKEDAISDYNGHGTHVSGTIAANDSNGGISGVAPEASLLIVKVLGGKNGSGKYEWIINGINYAVEQKADIISMSLGGPSDVPELKEAVANAVKSGVLVVCAAGNEGDGDERTEELSYPAAYNEVIAVGSVSIARKSSEFSNANKEIDLVAPGENILSTLPNHKYGKLTGTSMAAPHVSGALALIKGLEQDAFQRTLSEAEVYAQLVRRTLPLDIAKTLAGNGFLYLDAPEVLMERAEQAQLLSF				NA	NA	NA	NA	NA
D1-12_00485	834	rsbRB	COG1366	RsbT co-antagonist protein RsbRB	ATGAAGATAAATGAAGCATTATACGACTATTTTACAGAACAAGCGGATCAAATTGCGAAAGAGTGGATCGAAACGATGGAAGATTCGGACCCGAATTCGATTTATTCTTTGACAAACCCCGTCATCACAGAAGAACTGACGGAGCAGGATAAAGAATTTTACCGGCATATTAATAAAATGTATATCATGCCGGAAAAAGAATTTTTAGAAGAGTTCGAGCGGTGGGTGATTGAGCTTGCGAAAGACCAGAAGCATCTGGATACTCCCGTCCAGTATGTGGTCCGTGAATTCATGAGAAACCGGAGACTATACATCACTTATTATGATGCGTTTGCCGATAAACATGAATCTTCGTTTGCACGGGGAGAAAGGAAGAAATGGGAGAATTTAATTGTACGAGTATTTGATTTTACGATTTACACGTTTGTCGATCATGCCGAGCATAACTCGAAAATGCAGCTGAACGCGCAAAGAGAAATGATTTTGGAGTTAAGCTCGCCGGTTATCACGCTGAGCAAACGGACGGCGCTGCTGCCGCTTGTCGGCGATATTGACACGGAGCGCGCCAAATTCATTCTTGAAAATACGCTGAGCACATGTGCAAAACGGCTGATTGAACATCTGTTTATTGACCTGTCGGGTGTAGTGGTTGTCGATACGATGGTGGCGCATCAGATTTTTAAATTAATTGAGGCGCTGAACCTGATCGGCGTCACGTCCACTTTATCCGGAATCAGGCCGGAAATGGCTCAAACCGCCGTACAGCTCGGCATTAATTTCTCAGATATTACGATCAAGTCCAATCTCGCTCAGGCTCTCAATTATCATCAATAA	MKINEALYDYFTEQADQIAKEWIETMEDSDPNSIYSLTNPVITEELTEQDKEFYRHINKMYIMPEKEFLEEFERWVIELAKDQKHLDTPVQYVVREFMRNRRLYITYYDAFADKHESSFARGERKKWENLIVRVFDFTIYTFVDHAEHNSKMQLNAQREMILELSSPVITLSKRTALLPLVGDIDTERAKFILENTLSTCAKRLIEHLFIDLSGVVVVDTMVAHQIFKLIEALNLIGVTSTLSGIRPEMAQTAVQLGINFSDITIKSNLAQALNYHQ	PGPT0014945_1082	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
D1-12_00486	762	ykoC		Putative HMP/thiamine permease protein YkoC	ATGAACTTGCGGCTGGAGGCTGTTAACCCGTCAATAAAGGCGGCGGCTGTATTGTTATGCGTCATTATGCTGTCGTTTATTTATAATCCGTACACCCCTGCTTTGTTTTATATCATCATTGCGGGAGGCGTCCTCTCGGCGGGGCGTGTGCCGCTGAAAAAATGGCTGCTGTTCACGATTCCGTTTGTCATTCTGGCCTTCGGTTCTTTATGGACAGCCGCCGTATTCGGAAACGTCCCGACAACCGGAAGCAACCTGCTGTTTAAGCTCGGGCCGATTGCCGTCAACAGTGATAACGCGGCGCTCGGGATTTCTATCGCGTTTCGTATTTTATGTTTTTCCGCTTTGTCGATGATGTTTCTTTTCACAACCGATCCGATTCTGTTCATGCTCAGTCTGATTCAGCAGTGTAAGCTGCCGCCCAAGCTTGCATACGGCGTTATCGCGGGGTTCCGGTTTCTCCCTCTTCTGAAAGATGAAATCCTGATCATCCGGCAGGCGCACAGAATCAGGGGCGCGGCGTCTGATTCCGGGCTGAAAGGAAAGCTCTCCGCCTTCAGGCGCTTCACCATTCCACTATTGGCAGGCGCAATCAGAAAGGCGGAACGCACGGCGATCGCGATGGAATCTAAAGGCTTTACGGGGAGCCGAAACCGCACGTTTTACAGAACTGTTACCGTGCGCCGCGCCGACTGGTGCTTTTTCCTGCTCGTGCTTCTGTTATTCGGCGCAAGCTGGCTCATTTCATTGTTGTTTGTATAA	MNLRLEAVNPSIKAAAVLLCVIMLSFIYNPYTPALFYIIIAGGVLSAGRVPLKKWLLFTIPFVILAFGSLWTAAVFGNVPTTGSNLLFKLGPIAVNSDNAALGISIAFRILCFSALSMMFLFTTDPILFMLSLIQQCKLPPKLAYGVIAGFRFLPLLKDEILIIRQAHRIRGAASDSGLKGKLSAFRRFTIPLLAGAIRKAERTAIAMESKGFTGSRNRTFYRTVTVRRADWCFFLLVLLLFGASWLISLLFV	PGPT0004015_2879	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
D1-12_00487	1638	ykoD	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGCAGGCATCTGAGCCCCTTCTATCGGCCGGCTGTCTTACCTTTTCTTATGATCAGGATGAAAAGCCGATTCTTCAAAACGTGTCCTTTCAGCTCCGCAAAGGAGAGCGGGCTTTATTGCTCGGGCCGAGCGGATGCGGCAAAAGCTCGCTCGCTCTTTGTTTAAACGGTCTGTACCCGGAAGCATGCGATGGGGTTCAATCGGGCACCGTTTCTTTATACGGAACACCTCTTTCACACCTGACAGAACCCGCCGCCAGATCCATCGGCGTCGTGTTTCAAGATCCGGACCAGCAGTTTTGCATGCTGACGGTTGAAGATGAAATCGCCTTCGGCTTGGAAAATTTGCAATATACAAAAGAAGATATGGACGCAATCATCAATGACGTTTTAGAAAAATTAGAGATCACTCATTTGAAAACGCGAACGATCGCTTCGCTGTCAGGCGGTTCAAAACAAAAAGTGGCGCTTGCCTGTATCATTGCGATGGAACCGGAACTCATTATTTTGGACGAACCGACGGCACAGCTTGATCCATATTCCGCACGTGAATTAGTGCGGCTGATCAAAGATCTTCAAGCAAAAAAAGGCTTCGGCCTTCTCGTTATCGAACATCAGCTTGATCATTGGGCGCCGTGGATGGACAGGACGATTGTCCTTGACGAAATGGGTCAGAAGGTGATGGACGGAGAGACGGACGTTATCTTTGAAACAAAGATTGAAGAGCTGATGCAGCTCGGCATTCCGATTCCGCGTGTGATCTCATTGCAGGAGCACGTCAGCATTCCTTTTACATTGTGTAAAGAAAAGCTGTTTCACGAACCTGTACCATCTCTGCCCGAACCCCGGCCCGCCGCGCTTTCGGCAGAAGACGCGCTGAGCGTTCACGAGCTGTCATTCTCAAGAGGAGCAGACGTCATTTTTCAGGATGTGAACTTTTCCGTAAAAAAAGGTTCAATCACCGCGATTGCCGGCCCTAACGGAACAGGAAAATCCACGCTCCTTTCTGCCGCGGCCAAGCTCATCCGTCCGCTGAGCGGAGACATCAAAATAGACGGCAGACCGATTGATTCCTATTCTGAAAAAGAGCTGCGGCGGCTGACCGGATATGTTTTCCAAAATCCTGAACACCAGTTTGTCACAGATTCCGTCATTCAAGAGCTGATGTTCGGTTTTGAAAGCAGCAGACCCGCAAAGGAGAAAGCTCTTCAGCTGTTAACCCGATTCGGCCTGAGACGCCATGCCTCACAGCATCCGTTTTCTTTAAGCCAAGGACAAAAACGCCGGCTCAGCGTTGCGACAATGCTTATGCACAATGTGAACGTTTTGATGCTTGATGAACCGACTTTCGGACAGGATGCCAAAACGGCGCGGGAGTGTATGCAAATGCTCCGTGAGATTCAAAAGGAAGGAACGGCTGTTTTGATGGTGACACACGATATGGAACTCGTCTCAGATTATGCCGACACGATCCTTGTGCTCTGCGGCACGAAACTGGTATTCCGGGGAACTCCCGACGCTTTATTTTCTGATAACACCGGGATCGCCGAGCAAGCGCATTTGGCTTTGCCGCTGCGGTATGAATGGATGAAACACGACAGGAGGCGGAGAAATGAACTTGCGGCTGGAGGCTGTTAA	MQASEPLLSAGCLTFSYDQDEKPILQNVSFQLRKGERALLLGPSGCGKSSLALCLNGLYPEACDGVQSGTVSLYGTPLSHLTEPAARSIGVVFQDPDQQFCMLTVEDEIAFGLENLQYTKEDMDAIINDVLEKLEITHLKTRTIASLSGGSKQKVALACIIAMEPELIILDEPTAQLDPYSARELVRLIKDLQAKKGFGLLVIEHQLDHWAPWMDRTIVLDEMGQKVMDGETDVIFETKIEELMQLGIPIPRVISLQEHVSIPFTLCKEKLFHEPVPSLPEPRPAALSAEDALSVHELSFSRGADVIFQDVNFSVKKGSITAIAGPNGTGKSTLLSAAAKLIRPLSGDIKIDGRPIDSYSEKELRRLTGYVFQNPEHQFVTDSVIQELMFGFESSRPAKEKALQLLTRFGLRRHASQHPFSLSQGQKRRLSVATMLMHNVNVLMLDEPTFGQDAKTARECMQMLREIQKEGTAVLMVTHDMELVSDYADTILVLCGTKLVFRGTPDALFSDNTGIAEQAHLALPLRYEWMKHDRRRRNELAAGGC				NA	NA	NA	NA	NA
D1-12_00488	600	ykoE	COG4721	Putative HMP/thiamine permease protein YkoE	ATGAAAAATTGGAAAATGAGAGAAATTGTCGTCATGTCCGTCATCAGTGTAGTATTTGCTGTCATTTATTTAGTATCAACTCATGCAAGCAATATAGCGGCAGGGTTTTTCGGCCGAATGAGCTACGAACCGATTTACGGTATCTGGTTTATCGTCTCGGTAATTGCCGCGTACATTATTCAAAAACCGGGAGCGGCTCTTGTTTCTGAAATCATCGCCGCGTTTGTGGAGTGCTTACTCGGAAATCCGTCAGGACCGATGGTGATTCTGATCGGGATCGCACAGGGAATCGGTGCGGAAGCGGTCTTTTTTGCGACACGCTGGCGGATTTATACCCTGCCCGTGCTTCTTTTATCCGGTATGGGGTCTTCTGTGACGAGCTTCATTTATGACTTGTTCGTTTCCGGATACTCTGTTTTGAATCCGGGTTTATTAGCCGTCATGCTTCTTGTCCGTCTGATCTCAGGTGCGCTTCTTGCCGGCCTTCTCGGCAAAGCAATCAGTGATGCGCTGGCTTACACAGGGGTGCTGAACGGCATGGCGCTCGGAAAACAATTCAAGAAGAAAAAGAAACAGGTGAACCAAGATGCAGGCATCTGA	MKNWKMREIVVMSVISVVFAVIYLVSTHASNIAAGFFGRMSYEPIYGIWFIVSVIAAYIIQKPGAALVSEIIAAFVECLLGNPSGPMVILIGIAQGIGAEAVFFATRWRIYTLPVLLLSGMGSSVTSFIYDLFVSGYSVLNPGLLAVMLLVRLISGALLAGLLGKAISDALAYTGVLNGMALGKQFKKKKKQVNQDAGI				NA	NA	NA	NA	NA
D1-12_00490	1263	ydhD	COG3858	Putative sporulation-specific glycosylase YdhD	ATGTTTGTTCATACAGTGCAGTCTGGCGACTCGTTATTTTCCATCAGCAGAAAGTACGGATACCCTGTTGACAGCATCAGAAGCGTCAACGGGCTTGAGGAAACGAATATCGTTCCGGGGCAGGCGCTTTTAATCCCTCTTAATGAATATACGGTTCAGCCGAATGATACGTATGCCGTTATCGCAGGTAAGGCTTATGTGCCGCAGATGCAGCTGATGCAGGCAAACCCGGATATTCCGCCGAACCGGCTGCGGGCGGGTATGAAAGTGAAGATCCCTGATATCTCTAACTATCTTGCGGGAACCCTGCAATTTTATGTCATTCGGACGCCTGAAGCGGATAGAGAGTTAATTAATGATTTTGCGCCGTATTCTTCGGCGATTTCTTTGTTTGAATATCATTTTGGCCCGAACGGAGATATCATTAACGATTTAAACGACAGAACCGCAATAGAAACCACATGGCAGAACAGAGTGCGCCCGCTTGCCGTTATTACAAATTTGACAGAAGGGGGATTCAGTCCGGAATTAGCCCATCAAGTGCTGCAAAATCCGACGGCACGAACGAATCTCGTCAACAATATCGTCTCCTTAACCGTAAGAAAGGGATACGGCGGTGTAAATATCGATTTTGAACGGGTCAGAGAAGCTGACAGGGACCTCTTCACAGGATTTCTCCGGCAGTTAAAAACCCGGCTTTCAGAGCATCAGCTTGCGTTAACGATATCGGTTCCGGCGAAAACAAGTGATGCAGTGCCGTGGCTGAGGGGATATGATTACGGCGGAATCGGAGCCGTCGTCGATTATATGTTCATTATGGCGTACGACTGGCACCATGCCGGCAGTGAGCCGGGACCCGTGGCGCCTTTGACAGAGGTCAGGCAAACGATCAATTTTGCCATCAGCAGGGTGCCGAGAAGAAAAGTGATTCTCGGTGTTCCGCTGTACGGGTATGATTGGGTGATTCCGTACCGTCCCGGAACGATCGGATCCGCCATCTCCAATCAGCGCGCCATGGAAACGGCCATGAAGCATCAATCAGTGATCCGTTATTCCCAGCAGGAGCGTTCCCCTTACTTCCGGTATACTGATGAAAATGGAAGAACGCATGAAGTGTGGTTTGAGGATGTGCGGAGCATGAGTGAAAAAATGGTTCTCGTTCGGGAGTTCGGACTGCAGGCGATCGGCGCGTGGCAATTAACGCTCGGTTTCAAACCGGGCCCGTGGCTGCTTAGGAACTTTTTCACGATCCGAAAAATATAG	MFVHTVQSGDSLFSISRKYGYPVDSIRSVNGLEETNIVPGQALLIPLNEYTVQPNDTYAVIAGKAYVPQMQLMQANPDIPPNRLRAGMKVKIPDISNYLAGTLQFYVIRTPEADRELINDFAPYSSAISLFEYHFGPNGDIINDLNDRTAIETTWQNRVRPLAVITNLTEGGFSPELAHQVLQNPTARTNLVNNIVSLTVRKGYGGVNIDFERVREADRDLFTGFLRQLKTRLSEHQLALTISVPAKTSDAVPWLRGYDYGGIGAVVDYMFIMAYDWHHAGSEPGPVAPLTEVRQTINFAISRVPRRKVILGVPLYGYDWVIPYRPGTIGSAISNQRAMETAMKHQSVIRYSQQERSPYFRYTDENGRTHEVWFEDVRSMSEKMVLVREFGLQAIGAWQLTLGFKPGPWLLRNFFTIRKI	PGPT0025110_444	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
D1-12_00491	138			hypothetical protein	ATGAAGAAAAGGGAAGAGCAGTATATCAACGTGGCTGAGTATGTACCGCATCCGACAAAAGAAGGGGAGTACGCGCTCATGCTGCATGAATCCTATCATTTCCTTTCAGAAGAGGATGAAAGCGATTTGCCGGAATAA	MKKREEQYINVAEYVPHPTKEGEYALMLHESYHFLSEEDESDLPE				NA	NA	NA	NA	NA
D1-12_00493	1356	mgtE	COG2239	Magnesium transporter MgtE	ATGGTCCAAAACATGACCTATGACGAACTCATATTACGCATTATCATTTTATTGCGGGACGGAAAAATAAAAGAATTCCGAAACATGATAGATGAGCTTCAGCCCTATGATATGGCATTTTTGTTTAAAGAAATGCCGGAAAAGCACCGGGCCCGCTATCTGTCATATATGACGGTTGATGACATCACCGACATGATCGGAGAGCTTGAGCGGGAATTTCAGCTTGCCGTTTTGCATAAAGTCGGTAAAACGAAAGCCACTCTCGCAATGAATAAAATGGATAACGACGATCTCGCCGCATTGCTGGAAGAGATGGATGAAGAACTGAAAGAACAGCTTTTATCCAGCATGGAAGCTGAGGAATCAAAGGCCGTACAGCTTTTGATGAACTATCCGCAAGAATCGGCGGGCCGGATGATGACGAACCGCTTCGTCTGGATTCCGCAGCATTATACAGTAAAAGATGCGGTCGTGAAGCTGAAAAGCTTTGCAGAAATCGCAGAATCAATAAATTATTTGTACGTGATTAATGACAGCAAGCAGCTTGTCGGAGTGCTCTCTTACAGAGATTTAATTCTTGGCGAGCCTGAGGATAAAGTGCAGGATCTCATGTTTACGCGTGTCATCTCGGCCGGGGTGCTCCAAGATCAGGAAGAAGTCGCCCGGCTGATCCAGCGGTATGACTTTTTAGCCATTCCGATCGTGGAAGAAAATCATGTGCTTGTCGGTATTGTCACTGTCGATGATATTATTGACGTCGTGATTAAAGAAGCCGATGAAGATTACGAAAAATTCGCAGCCTCCGGTAAGGCGATTACATTTGATACGAAAGCGTACGTTGCAGCGTACCGCCGTTTGCCGTGGCTCATTCTGCTTTTGTTTATCGGATTGATTTCCGGAAGCATTCTGAATTATTTTGAAGATACATTGCAAAAAGTAGTCGCCCTCGCATTTTTCATGCCGATGATTGCGGGAACGACGGGTAATACAGGCACACAGTCACTCGCCGTCGTCATCAGAGGACTGGCTAAAGAAGAAATGAATAAAAAAACCATCTTTAAACTGATTTTCCGTGAATTAAGAACCGGAATCTATATCGGCATCGTCTGTGCGATCGCGATTACGATTGTCGCAACCGTCTGGCAGAAAGACTTAACGCTCGGTTTTGTCGTCGGTTCATCGCTGCTTGCAACGTTGATTATCGGTACGATGGCCGGAACGATCGTCCCTATTATTCTTCATAAACTGAACATTGACCCGGCGATTGCATCAGGACCGCTGATTACGACGCTGAACGATATTTTGTCCTTATTAATTTATTTCGGCATTGCAACTGCATTTCTTCATGCTTTATAA	MVQNMTYDELILRIIILLRDGKIKEFRNMIDELQPYDMAFLFKEMPEKHRARYLSYMTVDDITDMIGELEREFQLAVLHKVGKTKATLAMNKMDNDDLAALLEEMDEELKEQLLSSMEAEESKAVQLLMNYPQESAGRMMTNRFVWIPQHYTVKDAVVKLKSFAEIAESINYLYVINDSKQLVGVLSYRDLILGEPEDKVQDLMFTRVISAGVLQDQEEVARLIQRYDFLAIPIVEENHVLVGIVTVDDIIDVVIKEADEDYEKFAASGKAITFDTKAYVAAYRRLPWLILLLFIGLISGSILNYFEDTLQKVVALAFFMPMIAGTTGNTGTQSLAVVIRGLAKEEMNKKTIFKLIFRELRTGIYIGIVCAIAITIVATVWQKDLTLGFVVGSSLLATLIIGTMAGTIVPIILHKLNIDPAIASGPLITTLNDILSLLIYFGIATAFLHAL	PGPT0013995_2724	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
D1-12_00494	333	tnrA	COG0789	HTH-type transcriptional regulator TnrA	ATGACGACAGACGAACAATCTTACAAAGATAAAAAAGTAATCTCGATCGGCATTGTAAGCGAATTAACCGGATTGTCAGTCAGACAGATCAGATACTATGAAGAACGGAAATTAATCTACCCGCAGCGTTCATCACGGGGAACGAGAAAGTATTCCTTCGCGGACGTTGAGCGGCTGATGGATATTGCCAACAAGCGGGAAGACGGCGTGCAGACGGCTGAGATTTTAAAAGACATGCGAAAAAAAGAACAGGCTCTCAAAAACGACCCGCAGCTCCGCAAAAAAATGCTGGAAGGACAGCTTAATGCTCATTTTAAGTATAAAAACCGCTGA	MTTDEQSYKDKKVISIGIVSELTGLSVRQIRYYEERKLIYPQRSSRGTRKYSFADVERLMDIANKREDGVQTAEILKDMRKKEQALKNDPQLRKKMLEGQLNAHFKYKNR	PGPT0001085_24	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001085-tnrA-K23776	NA	NA
D1-12_00495	156			hypothetical protein	ATGGAGAAAGAAAAAGCGGTTTCGCTGGCAAAAGAAATCATTGAATTAGATATGAAACGCGATGAAATGCTGGAGGCGTTCATGCAGCTTGCCGGGGAACATGCTTTTCCGCTGCTCAGAGCCGTCCAGAACGGACTTTACCGAAAAACATCATAA	MEKEKAVSLAKEIIELDMKRDEMLEAFMQLAGEHAFPLLRAVQNGLYRKTS				NA	NA	NA	NA	NA
D1-12_00496	183	ykoL		Stress response protein YkoL	ATGAGTCGTTTGCTTCAAAATGCATTGGACAAAGAGAGAAACCATTATTCCAAAAAGCTTCTGCAGATCGGAGTCTATACGAAAGAAATACTCAATTCCATGACAATTACGGAGCTGAGAAAGGAATACGCGTATTTTTTTCGGAACATTCCCTATAAAGAACGGAACCCTTATACAAATTAA	MSRLLQNALDKERNHYSKKLLQIGVYTKEILNSMTITELRKEYAYFFRNIPYKERNPYTN				NA	NA	NA	NA	NA
D1-12_00497	462	mhqR_1	COG1846	HTH-type transcriptional regulator MhqR	ATGAGATTATCATTTAACGAAGAAGAAGTGATGCGTTCGATGAATTTGTACAAAGTTTTTGCAAGGGCTTTCAAGAGTGTGTCTGAACACAGCATCCGCGACAGTAAAGAACACGGTTTTAATCCGACTGAATTTGCCGTTTTGGAGCTGCTCTATACGAGAGGACCGCAAAAGCTTCAGCAAATCGGGTCGCGTCTTTTGCTTGTCAGCGGGAATGTCACCTATGTCATCGACAAGCTTGAAAGAAACGGGTTTTTGGTCAGAGAACAAGACCCGAAGGACAAACGGTCTGTTTACGCCCATTTAACTGATAAAGGAAACGAGTATTTGGATAAAATTTATCCGATTCATTCATTGAGAATTGCGAGAGCGTTTTCAGGACTTATGCCTGAAGAACAGGAACAGCTGATAGCCTTACTGAAAAAAGCGGGAATTCACAGCCAGCATTTGCTTTTCCGTTAA	MRLSFNEEEVMRSMNLYKVFARAFKSVSEHSIRDSKEHGFNPTEFAVLELLYTRGPQKLQQIGSRLLLVSGNVTYVIDKLERNGFLVREQDPKDKRSVYAHLTDKGNEYLDKIYPIHSLRIARAFSGLMPEEQEQLIALLKKAGIHSQHLLFR				NA	NA	NA	NA	NA
D1-12_00498	555			hypothetical protein	GTGAGAAGCTGTCTGCTGTCTATATGGTACTTACTTGATCCGCTTTATTTCTTCTTTACCCGGCTGACGCTGATTGATAAACGGCAATCGAATGTATTCCGCGTCCGTTTGACAAGATATAAAGGAAAAGAAGTCATCCTGAGCGACGGAACCAGAATTAAAAAAAACGACGTGTTAGTTAAGATTCATCTTCATAATGTCAAACTCCTGAAAGAGCTGCAGCCTATTGAAAGCGCGGTCAGAAGGGGGATTATGCTATATCAGAAGGTATATCAATCCATGCCTCATTTAGCGGATTATATTAACCAGCATAAACGGAAAGACGAGATTAAGGGAGTCGTCGGCATTACAATGCTTCATAAAGGAGCGGCGAGACTCGGTTTTGATGTGATAAAACCGTCCAGCGGCTGCTACAGGCTGTTTAAGAAAGCGGCCCATATTCCGATTTTATACTTTACTGCAAAACAGCTCACCCTCAAAAACATTCCTTACTCCTGCTATTTATTTATTTCCAAAGAAAAATTGATGTGCACGTATCAGACTGAAAAGAGCTGA	MRSCLLSIWYLLDPLYFFFTRLTLIDKRQSNVFRVRLTRYKGKEVILSDGTRIKKNDVLVKIHLHNVKLLKELQPIESAVRRGIMLYQKVYQSMPHLADYINQHKRKDEIKGVVGITMLHKGAARLGFDVIKPSSGCYRLFKKAAHIPILYFTAKQLTLKNIPYSCYLFISKEKLMCTYQTEKS				NA	NA	NA	NA	NA
D1-12_00499	1836	ligd	COG1793	Bifunctional non-homologous end joining protein LigD	ATGGTGCTGACGATGCAGCCGATTTTGACCTCTGTACCGCCTGAAGGCAGTGAGTGGCGCTATGAGGTAAAGTATGACGGATTCCGCTGTCTTCTCCGCATAGACGAAAGCGGCGTTACATTAACCAGCAGAAACGGACAGACGCTGACGAATCAATTTCCAGAAATCACGGCTTTTGCAGCCCGGTGTTTTCAGCACATGAAAGACAGGTTCCCCATTACGCTTGACGGAGAGCTTGTCTATTTAATCAATCCGTACAGAGCGGACTTTGAGCATCTTCAAATCCGCGGACGTTTAAAACGGACGGAAGCAATTGAAAGCACCGCTGATAGACGGCCGTGCCGCTTTCTGGCATTTGATCTCCTCGTTCTGGAAGGCGCCGGCACCGTCTCATTACCGTATGTGAAACGGAAGCGCGCCCTTTCCAAACTGTTTAAAGAAGCAAATCTTCCCGCCTGCCCTCATCACTTAGCGGAAGAAGCGATTCAATACATTCCGGAACACACTGACTTTGATGCGCTTTGGGACAAGGTCGTCCGCCATGACGGAGAAGGTGTCGTAGCAAAAAGAGCATCAAGCGGCTGGGCGGAAAATAAACGCTCTCCCGACTGGCAAAAGTATAAACATATGAAAACGGCACATGTGCTATTAACCGGGTTTAATCCGAAAAACGGGTATGTAACAGCCTCTGTTTTAAAAGACGGCACCGTCGTCCCGATCGCTTCCGTTTCCCACGGCATGCAGGCGGAAGAAAAAAACGCCGTCAGAACCATTATGGAGACCCACGGAAAAAAACTGCCAAGCGGCGAGTATACACTTGAGCCTTCTATCTGCATGACCGTGCAGTATTTAACCATATTGCAGGACACGCTGCGTGAAGTATCTTTTGTGTCTTTTCAGTTTGAAATGGATTGGACGGAATGCACGTATCAGCAGCTCACCCTCCGCTCTAAAACGCTGCCGCCGAAGCTGCAGTTCACAAGCCTGGATAAGATCGTTTTTAAAAAACGTGAAAAAACGAAAGCAGATTTCCTTAGTTATATGGTGAAAATGAGCGATTTTCTTATGCCCTTTCTTAAAGATCGGGCCGTCACGGTGATCCGTTATCCGCACGGCGCGCCTGGCGAATCTTTTTTTCAAAAAAACAAACCGGACTACACGCCGGACTTTGTCTCAAGCGTGTTTGACGGGAGCCACGAGCACATCGTATGCAGCAGCATACCGTCACTTCTATGGCTGGCCAATCAGCTGGCGCTTGAATTTCACGTTCCGTTTCAGACAGTGCATTCTGAAAGACCCGCAGAGATTGTCATTGACCTTGATCCTCCGTCAAGGAATGATTTTCCTATGGCAGTGGAGGCTGCGCATGTGCTGAAACAGCTGTTTGACTCATTCAGCATTACGTCATTCCCGAAGCTCTCCGGAAATAAAGGCATTCAGCTCTACATCCCGCTTTCACCGGAAGCATTCAGCTATGAAGAAACCCGTGCGTTCACAATGCTCATCGCCGATTATTGCGTCAGGACGCGCCCGGATCTTTTTACGACAGAGCGGTTTATCAAAAACCGAAACGGCAGGCTCTACCTAGATTATTTGCAGCATGCCGAAGGGAAAACCATTATCGCCCCCTATTCGACCCGGGGCAACGAATTGGGAACGGTTGCGGCTCCCCTTTATTGGAGCGAAGTCAACTCCTCTTTAACACCTGATGATTATACGATCGATACAGTAGTGAACCGCGTCAGGACAGAGGGAGATCCGTTTTATGATTTTTACCGGAATCCGCAGGACGGCCCGCTTTCAATCGTGCTTGAGCAAATCAAGAGGAAGAGCTGA	MVLTMQPILTSVPPEGSEWRYEVKYDGFRCLLRIDESGVTLTSRNGQTLTNQFPEITAFAARCFQHMKDRFPITLDGELVYLINPYRADFEHLQIRGRLKRTEAIESTADRRPCRFLAFDLLVLEGAGTVSLPYVKRKRALSKLFKEANLPACPHHLAEEAIQYIPEHTDFDALWDKVVRHDGEGVVAKRASSGWAENKRSPDWQKYKHMKTAHVLLTGFNPKNGYVTASVLKDGTVVPIASVSHGMQAEEKNAVRTIMETHGKKLPSGEYTLEPSICMTVQYLTILQDTLREVSFVSFQFEMDWTECTYQQLTLRSKTLPPKLQFTSLDKIVFKKREKTKADFLSYMVKMSDFLMPFLKDRAVTVIRYPHGAPGESFFQKNKPDYTPDFVSSVFDGSHEHIVCSSIPSLLWLANQLALEFHVPFQTVHSERPAEIVIDLDPPSRNDFPMAVEAAHVLKQLFDSFSITSFPKLSGNKGIQLYIPLSPEAFSYEETRAFTMLIADYCVRTRPDLFTTERFIKNRNGRLYLDYLQHAEGKTIIAPYSTRGNELGTVAAPLYWSEVNSSLTPDDYTIDTVVNRVRTEGDPFYDFYRNPQDGPLSIVLEQIKRKS	PGPT0014910_1276	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-12_00500	882	ku	COG1273	Non-homologous end joining protein Ku	ATGCACACGATGTGGAAGGGTTCGATCAGTTTCGGTCTCGTCAATATCCCGGTCAAGCTCTTTGCGGCCACTGAAGATAAAGATATAAAATTCCGCAGTCTTCATAAAGAAGACCATGCGCCGATTAAATACGAAAAAATCTGCACCGGATGTGAAAAAAGTCTGGAACCTGATGAAATCGTGAAAGGCTATGAGTATGTAAAAGGGAAATACGTCATTATGACAGACGAAGACTTGAAAGACGTAAAACAGGAACATGAAGAAAAAGCGGTTGAGATTGTTGACTTTGTCCAGCTGCAGGAAATTGATCCGATTTATTTTAACCGGTCGTATTATGTCGGGCCGGGAGATAACGGCACAAAAGCCTATACACTTCTGCGGGAAGCGCTGAGGACGACGGGTAAAATCGGGATTGCCTCCATTACGATCCGCTCTAAACAGCAGCTTGCGATTCTTCGCGTGTATGACAACTGCATCGTGATGGAATCCATTCATTATCCGGATGAAGTCAGAAATGCCGGACATGTGCCGGGCGTTCCCGAGCAGACAGCCGTTAATGAAAAAGAGCTGCAGACGGCGATTACGTTAATTAATGAACTGACAACCGAGTTTGACCCGGAACAATACGAAGACACATACCGGAAAGCCCTTCTCGCTAAAATTAACGATAAGCTCGAACATGAAGAAGCGGGCGTGACACCGGCTGCTGCCGGCCCGCGCGAAGATGTCATTGATCTTGTCAGCGCGCTTCAGGCAAGCATTGACCGGACGAAGCGGCCGGATCGCGAACAGGCTGCACCGGCGCGGACAAAAGACGCCGCGTCAGCAGGCGGCAGAGGCAAAAAGCAAAAGACGACCAGACAAAAAGCCGGAACATCTTAA	MHTMWKGSISFGLVNIPVKLFAATEDKDIKFRSLHKEDHAPIKYEKICTGCEKSLEPDEIVKGYEYVKGKYVIMTDEDLKDVKQEHEEKAVEIVDFVQLQEIDPIYFNRSYYVGPGDNGTKAYTLLREALRTTGKIGIASITIRSKQQLAILRVYDNCIVMESIHYPDEVRNAGHVPGVPEQTAVNEKELQTAITLINELTTEFDPEQYEDTYRKALLAKINDKLEHEEAGVTPAAAGPREDVIDLVSALQASIDRTKRPDREQAAPARTKDAASAGGRGKKQKTTRQKAGTS				NA	NA	NA	NA	NA
D1-12_00501	570			hypothetical protein	TTGGCGCTCAGTATAGAATTCATCCCGGCGGAAATTGTTCTTCCGCTTGCGGGCTATTGGGTCTCAAAAGGGGATATGACGCTTGCCGGGACCGTGTTTGCCGGTTCGCTCGGCGGTGTTTCAGGTCCGCTTGTCTTATATGGAATCGGCAGGCTGGGCGGTCGGCCGTTTTTGCTGAAATATGGAAAGTATATATGGATAAAACCCGAATCCCTGCAGAAATCAGATGATTTCTTTCAGAAGCACGGAGGTTTGGTCGCGTTCAGCGGCCGTTTTATACCGGGGGTCAGGACGCTGATTTCTTTGCCGTGCGGCATTGCGAAGATGAATGTCTGGGTGTTCTCCCTATATACATATGCAGCGATGCTGCCGATTACATTTGCTTACGTATACCTCGGAATGAAACTCGGGGAAAATTGGAAAAGCGTCGGTTCCATTCTCGATCAATATATGCTGCCGCTCGGTATAATCATTGTGTTGCTTCTCATTCTTTGGATGTCTTTAAAGAGAAGAAAACAGCGGGCCAAAACAGAAAAAATTTCTCAATTTGTTAAAAAAGTTAAGCGTTGA	MALSIEFIPAEIVLPLAGYWVSKGDMTLAGTVFAGSLGGVSGPLVLYGIGRLGGRPFLLKYGKYIWIKPESLQKSDDFFQKHGGLVAFSGRFIPGVRTLISLPCGIAKMNVWVFSLYTYAAMLPITFAYVYLGMKLGENWKSVGSILDQYMLPLGIIIVLLLILWMSLKRRKQRAKTEKISQFVKKVKR				NA	NA	NA	NA	NA
D1-12_00502	783			hypothetical protein	TTGGACTTTGCATTATTATTGGAGTATGGATGGGTTCTTCTCGTTTTAATCGGGCTGGAAGGGATTTTGGCGGCGGATAATGCGCTGGTGATGGCTGTGATGGTGAAGCATCTTCCTGAAAAACAAAGGAAGAAGGCTTTATTTTACGGATTGGCGGGCGCATTTATTTTGCGTTTCGGGTCGCTGTTCGCCATTTCTTTTCTGGTGAATGTTTGGCAGGTCCAGGCCGTCGGCGCTTTATATCTGTTTTACATTGCGGTCAGCCATTTGCTGAAGCGGTATGTATTTAAAGATAACGCCGGTCAGAAAACGCAGAAAGAAAGCGGGTTTTGGCAGACTGTCTTGAAAGTGGAGCTCGCGGACATCGCTTTTGCCGTTGACTCCATTTTAGCTGCGGTCGCGCTTGCCGTAACGCTCCCGGGAACAGAGCTTCCTGCCATCGGCGGCTTGGACGGCGGTCAGTTTCTCGTTATTTTAGCTGGCGGCGTAATCGGTTTAATCATTATGCGTTTTGCGGCATCAATGTTCGTATCCTTACTGAAAACCAGGCCGGGCCTTGAAACGGCGGCATTTGTGATTGTCGGATGGGTAGGAGTAAAGCTCGCTCTTTATACATTGGCCCATGAGGAACTCGGTATAATTCCGGCAGATGTCATCCATTCGGCGGCCTGGAAAATCATTTTCTGGGCGGTTCTGGCTGCCATCGCGGTTTGCGGATGGTTTATGTCAGGAGCAAAACAAATAGAGTCTGGCGCGGAATCGGAAAAAAGAGAACACGCGTAA	MDFALLLEYGWVLLVLIGLEGILAADNALVMAVMVKHLPEKQRKKALFYGLAGAFILRFGSLFAISFLVNVWQVQAVGALYLFYIAVSHLLKRYVFKDNAGQKTQKESGFWQTVLKVELADIAFAVDSILAAVALAVTLPGTELPAIGGLDGGQFLVILAGGVIGLIIMRFAASMFVSLLKTRPGLETAAFVIVGWVGVKLALYTLAHEELGIIPADVIHSAAWKIIFWAVLAAIAVCGWFMSGAKQIESGAESEKREHA	PGPT0003866_7	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003866-yceF-NA	NA	NA
D1-12_00503	756	sigI		RNA polymerase sigma factor SigI	GTGAAACCAGTGCTTAGCCTTTTGTTTAAATTGGGAAAAAAGAAGCAAACGCTTGAAACATCTGTTGAAAAAATACAAAAAGGCGACAAAGATCTGCAGAACGATTTAATACAGCAATATAAGCCTTTTATCGCGAAGACGGTTTCATCCGTTTGTAAACGATATATAGATGAAAAAGACGACGAATTCAGCATCGGGCTGATCGCGTTTAACGAAGCCATTGAAAAGTATTCGGCTGAAAAAGGTAATTCGCTGCTTGCATTTGCAGAGCTGATTATAAAAAGAAAAGTGATAGACTATATCAGAAAAGAAGCAAGAACCGCTCAGCATATCAATATGGATGTGCAGGAAGGCGACGACCAGGAATCTTCGCAGAGCCTTATCGAAGCGGAGCTTTCCATTGATGAATACCGCAAACAGATAGAACAGGAACAGCGCCGGGAAGAAATTCTTTTTTTTCAGAAGCAGCTCAAAGAATACGGGCTGTCTTTTAAAGAGCTGCTGGAACAATCGCCGAAGCATACAGATGCGAGGCAGAATGCGATTAAGGTAGCCTACACGCTTGTTGAAAATGAAGAGCTGGCGTCCATTTTGCACCAGAAAAAACAGCTTCCTGTCAAACAGCTGGAGCAGCTCGTGTCGGTCAGCAGAAAAACGATCGAACGGAACCGAAAATATATCATCGCCATGAGTATTATTATTACCGGTGATTATATTTATTTAAAAGATTATCTTAAAGGGGTGTTGCACTCATGA	MKPVLSLLFKLGKKKQTLETSVEKIQKGDKDLQNDLIQQYKPFIAKTVSSVCKRYIDEKDDEFSIGLIAFNEAIEKYSAEKGNSLLAFAELIIKRKVIDYIRKEARTAQHINMDVQEGDDQESSQSLIEAELSIDEYRKQIEQEQRREEILFFQKQLKEYGLSFKELLEQSPKHTDARQNAIKVAYTLVENEELASILHQKKQLPVKQLEQLVSVSRKTIERNRKYIIAMSIIITGDYIYLKDYLKGVLHS				NA	NA	NA	NA	NA
D1-12_00504	1170	rsgI		Anti-sigma-I factor RsgI	ATGAGAAGAGGGATCATAGTAGAGAAAAATAAAAAATTCGTCACGTTGCTAACCCCTGACGGACAATTTTTAAAAACAAAAAATGATCACCGCACTTGTGAAATCGGAGAGGAAATTACGTTCGAAGGCGAAACGCGTATGGGAAGAAGGGCCAGCTTTTTTGATTTTCTGAAACTGCGCCCTTTTAAATTGGGAGTGTTTACGATGACTGCTATTATTTTGTTTATTTTAATTTTGCTCCCGGTTTTTTCTGATAACAAAGCTTACGCGTATATGACGCTTGACATTAATCCCAGCATTGAAATGGCTTTAAACAGCAAATATGAAGTCATTGAACTGACACCGCTGAACCATGACGCCAAACAGGTCATCAGTGACATCGGAGATTGGAAAAGCAGCGATTTTAAGGAAGTCATCAGTAATATTATTACCGATTGCAGCAAGCATGGATATGTAAAGGAATCAAAAGAGATTTTAATTTCCACGGTTTATGAAAATACAGATGACAATACATATAAAAAAGGCGTTAAAAAACAGCTGGCCGACATGACTGAAAAATATAAGGGCACCTACCAGGTCCAATCGCTTGAATCTGATATGGAAACAAGAGAAAAAGCAAAACAGGAAGGGATGTCAACAGGCAGCTACATAAGAAGAAACGAAAAGAAAACAGAAGAAAAACAGCCTGAAAAGCAAACCGACGGCAATGAAACAGATCAAAAAGATACCGAAACAGACGCTGATCAAAGCGAGCAGCCGGACACAGATAAGCCGGCGGCTGATGAAAAGACAGCTCCTGATGAAGAAAAGGCAGCAGAGAAGCCGGGAAACAATGAAACAACGCCCGGTACGGAAGAAGCGAAGCCGGACAGTCAGGACGGCAATCAGCAAACCGAAAAAAATGCAGCTTCCGGATCAGAGGAAAACACACAGAAGGAACAAGATGGGGAAACAGAGCAGCCCCCAACACAAAATCCTCAGGAAAACGGAAATGACAAAGAGCCTAAGCAAAAGTATTACAATCATTACTGGAATCATGATCGCAATGAACATTGGGAATCCTATCGGCATCATGAAGATTCGTCAGACCGAAGGAATCCGAACGGCTACCGGCACGGAAAGGAGAATGCCGATAAATATCAAAATTCGCCGAGAAGTCCCGGCGAATAA	MRRGIIVEKNKKFVTLLTPDGQFLKTKNDHRTCEIGEEITFEGETRMGRRASFFDFLKLRPFKLGVFTMTAIILFILILLPVFSDNKAYAYMTLDINPSIEMALNSKYEVIELTPLNHDAKQVISDIGDWKSSDFKEVISNIITDCSKHGYVKESKEILISTVYENTDDNTYKKGVKKQLADMTEKYKGTYQVQSLESDMETREKAKQEGMSTGSYIRRNEKKTEEKQPEKQTDGNETDQKDTETDADQSEQPDTDKPAADEKTAPDEEKAAEKPGNNETTPGTEEAKPDSQDGNQQTEKNAASGSEENTQKEQDGETEQPPTQNPQENGNDKEPKQKYYNHYWNHDRNEHWESYRHHEDSSDRRNPNGYRHGKENADKYQNSPRSPGE				NA	NA	NA	NA	NA
D1-12_00505	195	sspD		Small, acid-soluble spore protein D	ATGGCGAGCAGAAATAAACTCTTAGTTCCAGGGGCTGAGCAGGCACTTGACCAATTTAAATACGAAGTGGCTCAAGAATTCGGCGTGAACCTTAGCTCTGATACAGCAGCACGCGCAAACGGCTCTGTAGGCGGGGAAATGACAAAACGTCTTGTACAGCAGGCTCAATCACAATTAAACGGGAAAAATCAATAA	MASRNKLLVPGAEQALDQFKYEVAQEFGVNLSSDTAARANGSVGGEMTKRLVQQAQSQLNGKNQ	PGPT0024875_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024875-sspD-K06421	NA	NA
D1-12_00506	702			hypothetical protein	ATGAACACGTTTAAACTGACCCGAACTGATATGGTCCGGCTTCTTTACGCGTTAAAAGGCCAAGGAGACGCAACTCCTCTCCAAATCTTATTGCAATCAGCGGATATGACCTTGGATGAAGCGGAAAGCCGTCTGCATATTCCTGAATTTCTGACGAGATTCGAACGAAAAAAAGAGAAAAAGGAATACGGGCTTTCAACTAACGAGATTGTCGAGCTGGGAAATCTGTGCGAGCTGACGTCTTTAAAATCAACCGCCGTCCAAAACTGGGTGAAGCGCGATATTAAAGATTTAATCGGCCACCCCTTACTCGGCAAAAAATATACAATAGAACAAGCTGTCATCCTTCTCATTGTACGTGATTTAAAATCAATTTATGACTTCGAACATATACGCGGCATATTAAAAATCGCTTTTAACACGATCACAGACAGATCAGATGACGTCATCAGCCCGATCAGCTACTATGAAAGCTGCGCCCAAGTGATTGATTATCTTCATCATAAGGCAAACCCGCCGATGAAGGAAACGAGCCTGCAGGAGCTCGTCGAAGAGCAGACGGACAAGCTCAAAGGCTGCTTTAAAGAACTCGGAAGCGGACAATGGAACAATATCAGATCCATAATCGCCGTCACGGTGCTCTCCGTTTTGACTTTCCATATTCAAGCCTCAGCCTACAAAATGATCAGCCATTTATTATAA	MNTFKLTRTDMVRLLYALKGQGDATPLQILLQSADMTLDEAESRLHIPEFLTRFERKKEKKEYGLSTNEIVELGNLCELTSLKSTAVQNWVKRDIKDLIGHPLLGKKYTIEQAVILLIVRDLKSIYDFEHIRGILKIAFNTITDRSDDVISPISYYESCAQVIDYLHHKANPPMKETSLQELVEEQTDKLKGCFKELGSGQWNNIRSIIAVTVLSVLTFHIQASAYKMISHLL				NA	NA	NA	NA	NA
D1-12_00507	894	htpX_2	COG0501	Protease HtpX	ATGGCGAAAAGAATATTTCTGTTTATTTTAACGAACCTTTTGGTCATTACGACAATCGGAATTGTGCTTACGATTATTACAAGCGTTACCGGTGTCGGCTCGTATATACAAAATGGCCGCATTGATCTGATGGCATTGCTCGTGTTCAGTCTTGTCGTCGGTTTTGTCGGTTCTTTTATTTCTCTCGGAATGTCCAGATGGATGGCCAAAACGATGATGGGCGTCCGGGTGTTAAATCCGAAGAAACAGTCGCTCAGCTATGAAGAACAGCAATTGGTTGACCGTGTGCACAGATTGTCCCGTGCCGCAGGGATGACGAAAATGCCTGAAGTCGGCATTTATCATTCCCCGGAGGTCAATGCTTTTGCGACCGGGCCTTCTAAGCGCCGTTCGCTTGTCGCGGTTTCTTCAGGTTTATTGCAGCAGATGGATGATGCTGCGGTGGAAGGGGTTCTTGCCCATGAAGTCGCACACATCACAAACGGTGATATGGTCACGATGACGCTGCTGCAGGGAATCGTCAATACGTTCGTCGTATTCCTTTCCCGAATCGCGGCATGGGTTGCAAGCCGCTTTGTCAAAGAAGACCTCGCACCGGTCGTGCATTTTATCGCGATGATCGTGTTTCAGATTATCTTTTCCATTCTCGGCAGTCTTGTCGTCTTCGCCTACTCGCGCCACAGAGAGTTTCACGCTGACCGCGGCGGTGCAGACCTTGCCGGCAAGGATAAAATGATTCACGCCCTGCGTACGCTGAAGTCTTATACAGGACATGTGAATGAAGAAGACCAGACGGCAGTGCAGACGTTAAAAATTAACGGCAAAAAGCATTCGTCATTGTTCTCCACACACCCTGATCTCGATGAGCGCATTCGCAGGCTGGAAGCAAAATAA	MAKRIFLFILTNLLVITTIGIVLTIITSVTGVGSYIQNGRIDLMALLVFSLVVGFVGSFISLGMSRWMAKTMMGVRVLNPKKQSLSYEEQQLVDRVHRLSRAAGMTKMPEVGIYHSPEVNAFATGPSKRRSLVAVSSGLLQQMDDAAVEGVLAHEVAHITNGDMVTMTLLQGIVNTFVVFLSRIAAWVASRFVKEDLAPVVHFIAMIVFQIIFSILGSLVVFAYSRHREFHADRGGADLAGKDKMIHALRTLKSYTGHVNEEDQTAVQTLKINGKKHSSLFSTHPDLDERIRRLEAK	PGPT0014605_1772	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
D1-12_00508	1353	ktrB	COG0168	Ktr system potassium uptake protein B	ATGAAATTAAAACTGAAGAAATTCATACAGATCTTGTCGCCAGCACAGCTGATTGCATTATATTATTTTCTTGCTGTGACGGTGGCATTTATTTTGCTAAGTCTGCCGGCCGCCCACAAACAAGGGGCCAGCTGGTCGTTTATAGACGCGCTGTTTACGGCTGTCAGCTCAGTCAGTGTCACCGGTTTAACGGTCGTCAACACGGCTGATACATTCAGCACGGCCGGGATTGTCATTTTGGCTTTCGTGCTTCAATTCGGCGGAATCGGCATCATGACGCTCGGAACATTCGTCTGGCTCATTATGGGCAAACGGATCGGTCTGCGGGAACGGAAGCTCATCATGGTGGATCAGAATCAATCGCAGTTTTCCGGTATCGTCAACCTGATGAAGCAAGTGCTGTTTTTGATTTTATTAATCGAGTTTTTAGGCGGCATCATCTTAGGAACATATTTTTTAACGTATTATGATTCGTTTGAACAGGCGTACTTGCACGGATTCTTTGCGAGCGTCAGCGCCACGACAAACGGCGGTTTTGATATTACGGGAAATTCACTCGTCCCGTTCAGACATGACTATTTCGTGCAGTTTATTACGATGCTTCTGATTATTTTCGGTGCGATCGGTTTTCCGGTGCTCGTAGAAGTAAAGGACTTTTTGTTTTCAAAACAGCGCAGATATTCATTCACGCTGTTTACGAAAATTACGACCGTTACGTTCGGAATGCTCGTTTTGTTCGGAGCCGTGGGCATTTACGCGCTTGAAGCAAGCCATGTCATGAAGGGGAAAAGCTGGCATGATGTTTTATTTTTATGTCTCTTTCAATCAACCGCTACGCGAAGCGGCGGGCTTGCGACAATTGATATCAGCCAGCTGTCGGCGCCGACATTATTTTTCATCTGCGCCCTCATGTTTATCGGCGCATCACCGAGCTCGGTCGGCGGCGGAATCCGTACGACGACGTTTGCGCTTAACCTTCTTGCTCTGTTTCATTTTGCCCGGGGGAATAAAGCGGTCAAGGTCTTTAAACGCGAGCTTCACCAGGCTGATGTCATGAAGTCGCTGGTCGTTACGATGATGGCGATTCTGCTCGTGTTCGGATCGACGCTGATTCTGGCCGTGACGGAGAAAAATCAGACGCTCCTCGGACTGCTTTTTGAAGTGTGTTCCGCTTTCGGAACGACCGGCCTGTCGCTCGGGATTACTCCGCATTTAAGCGACATCGGAAAATGCGTGATCATGATTGTCATGTTTATCGGCCGGATCGGCATTTTGACATTCCTTTATTTGATCGGCCGAAAAGAAATCGAAGCAAATTATCACTATCCGAAGGAAAGAATGATTATCGGCTGA	MKLKLKKFIQILSPAQLIALYYFLAVTVAFILLSLPAAHKQGASWSFIDALFTAVSSVSVTGLTVVNTADTFSTAGIVILAFVLQFGGIGIMTLGTFVWLIMGKRIGLRERKLIMVDQNQSQFSGIVNLMKQVLFLILLIEFLGGIILGTYFLTYYDSFEQAYLHGFFASVSATTNGGFDITGNSLVPFRHDYFVQFITMLLIIFGAIGFPVLVEVKDFLFSKQRRYSFTLFTKITTVTFGMLVLFGAVGIYALEASHVMKGKSWHDVLFLCLFQSTATRSGGLATIDISQLSAPTLFFICALMFIGASPSSVGGGIRTTTFALNLLALFHFARGNKAVKVFKRELHQADVMKSLVVTMMAILLVFGSTLILAVTEKNQTLLGLLFEVCSAFGTTGLSLGITPHLSDIGKCVIMIVMFIGRIGILTFLYLIGRKEIEANYHYPKERMIIG	PGPT0002735_4175	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
D1-12_00509	675			hypothetical protein	TTGTTTGCCGTATTTTGGAAGTCGGTAGTTATGATAGCGGTCGGTACCTTTTTATTGCGGATTGCCGGACGGAAATCAATCAGCCAGCTGTCGGTGACCCAGACAGTCATCATGATTTCGATCGGCTCGATTATTATTCAGCCGTTTATTGAACATAATTTATGGGAAACCATTTTCGCGGCGGCGATTTTTATTGCGGTGTTAATCCTGATGGAATATTTAGAAATCAAATCAAGCTTTTTTGAGTTTTTATTTTCAGGAAAAACCGTCGCCGTTGTCAGAAACGGAAAAATCATCCCGGAAAACTTAAAAAAAATGCGTTTTACCGAAGATCAGCTGTCAATGAGGATCAGGCAGGAAGGCCTCGGAGACATTCAAGATTTTAAATATGTGCTGCTTGAGCCGAACGGACAGATCGGCTATGAACTCATTGATGAGGCCAAAAACGTGACAGTGCGCGACTTGAAAAAAATGCTTGATGAATTCAAAACAGATTTGCTGACAGAAGGAGGAAATCAAATGAAACGCAAAGCAGCAAAGAATGAAGCTTTGACCAACAACAACACACCGACTGAGAGCATGGACAAAGATGCATACAAAACACAATATGACGGTGATCCCGGACTGAGAGGCGCAAACCGCAAATCAAAACACGGCAAACAAGGAGGCGAGTAA	MFAVFWKSVVMIAVGTFLLRIAGRKSISQLSVTQTVIMISIGSIIIQPFIEHNLWETIFAAAIFIAVLILMEYLEIKSSFFEFLFSGKTVAVVRNGKIIPENLKKMRFTEDQLSMRIRQEGLGDIQDFKYVLLEPNGQIGYELIDEAKNVTVRDLKKMLDEFKTDLLTEGGNQMKRKAAKNEALTNNNTPTESMDKDAYKTQYDGDPGLRGANRKSKHGKQGGE				NA	NA	NA	NA	NA
D1-12_00510	171			hypothetical protein	ATGACGAAAAAAAACCGCCACAGCAAAGACATGCAAAACCATAAAAAGCCGATGGACCCTAAATTGCTTGAAGAAGAGTTTGCAAGCGAGCTCGGTGATTATAACGCCGGAAAATGGATTGAAACGCTTGAACAGACGAAGCCAAAGAAAAAAGAAGACGGCAAAAAATAA	MTKKNRHSKDMQNHKKPMDPKLLEEEFASELGDYNAGKWIETLEQTKPKKKEDGKK				NA	NA	NA	NA	NA
D1-12_00511	1023			hypothetical protein	ATGACAAAATCGCGAGACAGTTACTTTGACAACGCCAAGTTTATCTTGATTTTTCTGGTGGTGTTCGGCCATATCCTCCGGTCATTTATTAACGGAAATGAGTTTATGCTCCATCTCTACAAATTCATTTATACTTTTCATATGCCGGCCTTTATCCTGGTTTCCGGCTATTTCGCAAAAAACTTTAAGCGGACAGGTTATGTGAAGAAGTTGGCTGTGAAGCTGATTATTCCGTACCTGATTTTTCAGGGCATTTACTCCGTTTTTTACTATTTGATTCAGGATGAAAGCATGGCAAGCGTCAATCCGATTGATCCGCAGTGGTCTCTCTGGTTTTTAGTCAGCTTATTCTTTTGGAATCTGCTGCTTTATCCCTTTACGAAGCTGCCGAAATTGTGGGCGCTTGGGGCGAGCTGCGGGCTTGCCGTCATGATCGGGTATCTTGATTTTATCAGCAGCACGCTGAGTCTTTCACGGACGTTTGTTTTTCTTCCGATGTTTCTCGTCGGGTTTTATTTAAAGAAACAGCACTTTGATTTGCTTCGGGCTAAAAGAGGCAGGCAGATTGCCGCGGGCGTGCTGGGGATTGTTTTCCTGTTATGCTGGTGCATTGACTTTGATTACTCCTGGCTGTTCGGATCGGAGCCTTATTCCACATTCGGCACAGTGTCGCTGTTGAGCGGTCTGTCGCGCATCGGCTGGTATGTTTTGGCCTTTGCCGCCACTTTCAGCTTTTTGGCGCTCGTTCCGCAAAGGCGTTATTTCTTTACGAAATGGGGGACGAGAACGTTTTACGTGTATCTGCTGCATGGATTCATTATAAAAACGCTGCGGCAGATCGGGCTTGAAGATCACTTGTCTGATTATCAGAATTTAGTCATACTCTTAATGTTAACGGCCGCTCTTACGTCCATTCTCTCCAGCAATGCGGTGAAAACGGCCGCACAGCCGTTTATTGAGCTGCGGATAACCGGCTTGCTTGAAGCGGTGAAAGGAACAAGAAACGGTGCTTATTCGAAATAA	MTKSRDSYFDNAKFILIFLVVFGHILRSFINGNEFMLHLYKFIYTFHMPAFILVSGYFAKNFKRTGYVKKLAVKLIIPYLIFQGIYSVFYYLIQDESMASVNPIDPQWSLWFLVSLFFWNLLLYPFTKLPKLWALGASCGLAVMIGYLDFISSTLSLSRTFVFLPMFLVGFYLKKQHFDLLRAKRGRQIAAGVLGIVFLLCWCIDFDYSWLFGSEPYSTFGTVSLLSGLSRIGWYVLAFAATFSFLALVPQRRYFFTKWGTRTFYVYLLHGFIIKTLRQIGLEDHLSDYQNLVILLMLTAALTSILSSNAVKTAAQPFIELRITGLLEAVKGTRNGAYSK				NA	NA	NA	NA	NA
D1-12_00512	2220	kinE	COG2202	Sporulation kinase E	ATGGCTGAAACTCTGGATTTGCAAACAAACGAGTCGCTGAAAGAGCAGCTGAAGCGGATGAAAGAGGAAAATGACCGCCTGAAGAGTGATTTGAACCGGTATCACGTGATTATGAATAACACGCTTGATGCCATTTTTATATGCCATAAGGAAATGAAAATCGTCCAGGCGAACGAGGCTGCGGCCCGGATGATGCAGATTGAGGCAGAGAACCTCATTAACCGCTCCGTCCTGGATTTTTTATATTCCGTGCCTCAGGAAGAACTGAATAAGGCCGTGAAAAAGTTTTTTAAAAAAGGCCATCTGTGGAAAGAGGTGCCGATTAAGCTTGACAGCGGCGCGACGAAATACATTGAATTCCTCGCCAGAGACGGAATTGGGGAGGATTATTTTTTTGTGGTGATGAGGGATATCTCCTCTAAAAAAATATTAGAGCGCGAATTCTCCATGAACGAGCAGCTGTTTAAAGATTTGTTTGACAGGGCTGTCGACGGCATCGTGCTGTTTGATAAGGACGGCGGGTTTATTGATGCGAACCTCTCTTTTTGCAAAAGCTTTGAGATCGGCCAGAATGAATTGTCCCATCTGTCGCTCCGCCATTTTACCGACGGAGAAAACAAAAAGCATCTGAAAGAAATCTGGGAAACCCTCCGTAGAAAAGGAAACGCCAAAGGAGAACTGCCCGTCAAGCTTCGGTCCGGCGAAGAGAAGCTGTTTGAATTTACGATTACGTCCAACTTAATCAGCGGGTTCTACATGTCCATTATGAGAGACATAACAGAGAAACGGCTGATGGAATTGAAACTCTTTAAAAGCGAAGAGCGATTCCGCGAAATTTTTGAAAACGCCATGGACGCGATTGTCATTTGGTCTGATGACGGAAAGATTGCCAAAGCAAACGAATCGGCGTGCCGCATTTTCGAACTGCCGATGGATAAGCTGGTGGAGACGAATTTATGTACGTTTATCGTTGATCCGCAGAAAAAATACAAGCAGATTAAGAAGAAATATGAAAAATACGGGGAAATCCGTGAAGAAATGCTGTTTCAGATGGCAAACGGCCAATTTAAAGAGCTGGAATTCACATCAAAACGAACCATACTTGAAGGTCAGCATTTAACCATTTTAAGAAATGTCAGCGATCGTAAGCGCATGGAAAAAGAATTGCGGGAAAGCGAGCTGAAATTCAGAAAAGTATTCAACGGCTCAATGGACGGCAAGGTCTTATTTGACAACCAATTCCGCATTATTGACGCGAATCCTCTCGCAAGCCGTATACTCGGTATGCCGGATGTGGAGCTGAGAGCGTACACCGTTCCGGATATTCTTTCTTTATTTGATATTGAAAACGCGGGTGTTCCCGCCAGAAAGATTGATTTAGAAGGAATGGATAATGAAATCCCCTTCCTGTTAAGCAGCAGCGACAGCCGCAAACTGGAATTCTCCTTCAAAAGAAATATCATTCAAAATATGAATCTGGCCATCTTTAAAGATGTCACAGAGGCCAAAGAGCTTGAAGAGAGGCTGCGGAAATCCGATACTCTTCATGTTGTAGGGGAGCTGGCGGCGGGCATCGCCCACGAAATCAGAAACCCGATGACGGCGCTGAAAGGGTTCATTCAGCTTCTTCAAGGAAGCATTGAAGGCGAATATTCTCTGTACTTTAACGTCATTACCTCAGAATTAAAACGCATCGAGTCTATCATCACTGAATTTTTAATTTTAGCGAAACCCCAAGCGATACTATATGAAGAAAAAGACGTGACGCAGATTATGAAAGACACGGCTGATCTTTTGAATGCCCAGGCCAATCTTGTCAATGTGCAGATCCATCTGAACCTGACCGGAAACATCCCGCCGATTTACTGTGAACCGAATCAATTAAAACAGGTGTTTATCAATATTTTAAAAAACGCCATTGAAGTCATGCCGGGCGGCGGCAATATCTACGTGACCATTCAGTCTTCTGATCAAGACCACATTTTGATTTCTATTCAAGATGAAGGAACGGGCATTTCCGAAGACAAATTAAAACGTCTGGGTGAACCATTTTACACGACAAAAGACAGGGGAACGGGCCTCGGCCTCATGGTCAGTTATAAAATCATCGAAGAGCATCAGGGCCGCATTCATGTGGAAAGTGAAGAAGGGAAGGGCACCGTTTTTCATTTGACGCTTCCGATCCGGCAGAATACGGAAGAAAGAAGGAGCGGGGAATGA	MAETLDLQTNESLKEQLKRMKEENDRLKSDLNRYHVIMNNTLDAIFICHKEMKIVQANEAAARMMQIEAENLINRSVLDFLYSVPQEELNKAVKKFFKKGHLWKEVPIKLDSGATKYIEFLARDGIGEDYFFVVMRDISSKKILEREFSMNEQLFKDLFDRAVDGIVLFDKDGGFIDANLSFCKSFEIGQNELSHLSLRHFTDGENKKHLKEIWETLRRKGNAKGELPVKLRSGEEKLFEFTITSNLISGFYMSIMRDITEKRLMELKLFKSEERFREIFENAMDAIVIWSDDGKIAKANESACRIFELPMDKLVETNLCTFIVDPQKKYKQIKKKYEKYGEIREEMLFQMANGQFKELEFTSKRTILEGQHLTILRNVSDRKRMEKELRESELKFRKVFNGSMDGKVLFDNQFRIIDANPLASRILGMPDVELRAYTVPDILSLFDIENAGVPARKIDLEGMDNEIPFLLSSSDSRKLEFSFKRNIIQNMNLAIFKDVTEAKELEERLRKSDTLHVVGELAAGIAHEIRNPMTALKGFIQLLQGSIEGEYSLYFNVITSELKRIESIITEFLILAKPQAILYEEKDVTQIMKDTADLLNAQANLVNVQIHLNLTGNIPPIYCEPNQLKQVFINILKNAIEVMPGGGNIYVTIQSSDQDHILISIQDEGTGISEDKLKRLGEPFYTTKDRGTGLGLMVSYKIIEEHQGRIHVESEEGKGTVFHLTLPIRQNTEERRSGE	PGPT0025290_114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025290-kinE-K13533	NA	NA
D1-12_00513	498	ogt	COG0350	Methylated-DNA--protein-cysteine methyltransferase, constitutive	ATGATCTGTTTTACAAGTGTAAGAGCGCCGTTTGGAACCGTCATCGTAACAGAGGAAGAGAGCTTTATTACCGGCCTGTTTCTCACCGGGGAAGATTTTGAGGAATGGCGGAAAGACGCGCCCGGCGTAAAGCCGTGCGAAACCGCTTTGCTGTCGGAGGCGAAACAGCAGCTGGCATCATATTTTTCAGGAGAAAGAAAGCAATTCTCTCTGCCTCTGAGACAAAAAGGCACACCCTTTCAGGAAAGGGTGTGGAACGCGCTGACGATGATTCCTTACGGGGAATCCCGAAGCTACGGCGATATGGCTGAAGCGATCGGAAAACCGAAAGCGGTGCGCGCCATCGGACAAGCCAATAAACGAAACCGGCTGCCGATTTTGATCCCGTGCCATCGGGTAATCGGCAAAAACAGCGCCTTAACGGGATACGCGGGCACGAAGACGGATGTAAAAGCGGTGCTGCTGAACATCGAACAAATATCCTATAAAGAAAAATAA	MICFTSVRAPFGTVIVTEEESFITGLFLTGEDFEEWRKDAPGVKPCETALLSEAKQQLASYFSGERKQFSLPLRQKGTPFQERVWNALTMIPYGESRSYGDMAEAIGKPKAVRAIGQANKRNRLPILIPCHRVIGKNSALTGYAGTKTDVKAVLLNIEQISYKEK	PGPT0022325_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022325-lpxB-K00748	NA	NA
D1-12_00514	120			hypothetical protein	ATGAAAGTGAGCCGTCCGCAAAAGATAGCCGGTTATGCAGAGCTGTTTTTTAAAATGCATCTCATTACAGCCGCCCAAAAAGATGAAGTGATTACATTGTGCAGACAAAAAAACCGCTGA	MKVSRPQKIAGYAELFFKMHLITAAQKDEVITLCRQKNR				NA	NA	NA	NA	NA
D1-12_00515	1062	mtnA	COG0182	Methylthioribose-1-phosphate isomerase	ATGACCAATGAATTTGCCATCCCCCGTTCTGTGGAATGGAAAGAAACCTACATCCGCATTTTAAATCAGCAAAAGCTTCCCGACGTCACTGAATATGCGGAACTTGAAACAAAGGAAGATGTATTCGACGCGATTGTCACGCTGAAAGTAAGGGGCGCCCCGGCCATCGGTATAACCGCGGCGTTCGGACTCGCGCTCTCCGCCAAGTCATTTGAAGCCCGCGACCTTTCAGATTTCCGACGTCAATTCGCGGATGTCAAAGCGTATTTAAACAGTTCGAGGCCCACTGCCGTCAACCTTGCGTGGGCGCTTGACAGACTTACGGATTCGATCAGGGATGCGATCTCAATCAATGAAGCGAAGACAACGCTCGTTCATGAAGCCATTCAAATTCAGATTGAGGATGAAGAAACATGCCGAATGATCGGCCAAAATGCTCTGCACCTTTTTAATAAAGGCGATCAGATCATGACCATCTGCAATGCGGGCTCGATTGCCACAAGCCGGTACGGTACGGCGCTTGCTCCCTTTTACTTAGCGAAACAAAAAGACCTCGGCCTTCATATCTACGCATGTGAAACAAGACCCGTTCTTCAAGGATCACGGCTGACGGCGTGGGAGCTGATGCAGGGCGGAATTGATGTCACGCTCATTACGGACAGCATGGCCGCCCATACAATGAAGGAAAAACATATTTCTGCGGTCATTGTCGGCGCTGACAGAATTGCAAAAAACGGTGATACGGCCAACAAAATCGGAACGTACGGCCTCGCTATTTTGGCAAACGCCTTTCAAATTCCGTTTTTTGTGGCCGCCCCGCTTTCGACATTTGACTTGCAGATTGAAAACGGCGATCAGATTCCGATTGAAGAAAGAGATCCGGATGAAGTCAGACAGATCTCCGGCATACGCACCGCTCCCGAGGATGTTCCGGTCTTCAATCCGGCCTTTGACATCACACCGGGCAGCCTGATTTCCGGCATAATAACCGAGAAAGGAATTGTGACCGGTTCTTACACGGAAGAAATTGAACAATTATTCGCTGACTGCCAGCTGAGCTGA	MTNEFAIPRSVEWKETYIRILNQQKLPDVTEYAELETKEDVFDAIVTLKVRGAPAIGITAAFGLALSAKSFEARDLSDFRRQFADVKAYLNSSRPTAVNLAWALDRLTDSIRDAISINEAKTTLVHEAIQIQIEDEETCRMIGQNALHLFNKGDQIMTICNAGSIATSRYGTALAPFYLAKQKDLGLHIYACETRPVLQGSRLTAWELMQGGIDVTLITDSMAAHTMKEKHISAVIVGADRIAKNGDTANKIGTYGLAILANAFQIPFFVAAPLSTFDLQIENGDQIPIEERDPDEVRQISGIRTAPEDVPVFNPAFDITPGSLISGIITEKGIVTGSYTEEIEQLFADCQLS				NA	NA	NA	NA	NA
D1-12_00516	1185	mtnK	COG4857	Methylthioribose kinase	ATGTCAGCAACTAAAACAAGTCTTTATGAACAATTAACAGAAAGCTCCGCCGCCGCGTTAGCCGTCAAGCTCGGCTTATTCCAAAGCAAAAGCACTCTGACATGCCGTGAAATCGGCGACGGCAATTTAAATTACGTCTTTCATGTTTACGATAAAGAAAACAAAAAAGGACTGATTATTAAACAGGCAATCCCTTACGCGAAAGTCGTCGGTGAAAGCTGGCCGCTTACCATTGACCGGGCGAGAATCGAAAGCAGCGCCCTCATCCGCCAGGGCGAACACGTGCCGCACCTCGTTCCGGCCGTTTACTATTCCGATACTGAAATGGCCGTCACGGTAATGGAAGACCTCTCCCATTTGCGGATTTCAAGAAAAGGGCTGCTGGAAGGGCAGCATTATCCGAACTTATCGGTTCATATCGGTGAATTTTTAGGGAAAACGCTTTTTTACTCATCCGATTATGCGCTTGATGCGAAAGTAAAGCAGCAGCTCGCAAAGCAGTTTACAAATCCTGAGCTTTGCAATATTACAGAAAGGCTTGTGTTTACAGAACCGTTTCTCGACCATGAGACAAACGATTTTGAAGAGGAGCTGCGCCCATACGCAGAAAAAGTTTGGAACAATTCCCGGCTGAAAGAAGGCGCTGACGAATTGAAAGCCATCTTTCTGAATTCCGCGGAAACATTGGTTCACGGCGATCTGCACACGGGAAGCATCTTCGCCGATGAACATGAAACAAAGGTGATTGATCCCGAGTTTGCTTTCTTCGGACCGATCGGGTTTGACATCGGCCAATTTATCGCCAATCTGCTGTTAAACGCCCTCAGCCGCGACGGTGACGACAGACAGCCGTTATATGACCATACTGCCGCCGTATGGGATACATTTGTGAAAACATTCAGTGAAGCATGGGAGAAAGACTGCTTGCCTTCCCGCAGACACCTGCTGGAAGACACACTGAAAAACGCATTTGAGGAAGCGGTCGGTTTTGCGGGATGCGAATTGATCCGGCGCACGATCGGACTCGCCCATGTGGCTGACTTAGATGAAATCACTCCGTTTGACAAACGAATCGAACGGAAGAAGCTGGCGCTTGACATCGGCGCCTATTATATCGAAAACAGAAAAAAACTGAAGCATATCACCGAGGTTCTGGACCAATTTAAGCTCCGTGTAAAGGAATGA	MSATKTSLYEQLTESSAAALAVKLGLFQSKSTLTCREIGDGNLNYVFHVYDKENKKGLIIKQAIPYAKVVGESWPLTIDRARIESSALIRQGEHVPHLVPAVYYSDTEMAVTVMEDLSHLRISRKGLLEGQHYPNLSVHIGEFLGKTLFYSSDYALDAKVKQQLAKQFTNPELCNITERLVFTEPFLDHETNDFEEELRPYAEKVWNNSRLKEGADELKAIFLNSAETLVHGDLHTGSIFADEHETKVIDPEFAFFGPIGFDIGQFIANLLLNALSRDGDDRQPLYDHTAAVWDTFVKTFSEAWEKDCLPSRRHLLEDTLKNAFEEAVGFAGCELIRRTIGLAHVADLDEITPFDKRIERKKLALDIGAYYIENRKKLKHITEVLDQFKLRVKE				NA	NA	NA	NA	NA
D1-12_00518	780	yafV		Omega-amidase YafV	ATGAAATGGACCGTTTCCTGTTTGCAATTTGATATTTCATACGGAAATCCTTCAGAAAACTTTAAAAAAGCAGAATCTTTGATTGAGCAAGAAAGCCGCCATGCAGATGTAATCGTGCTTCCTGAGTTGTGGACGACCGGCTATGATCTCACACGGCTAGATCAGCTGGCGGATGAAAACGGCAAAGTTTCGGAACAATGGCTTAAAGAAACGGCAAAAACATACAACGTACACCTCGTTGCCGGATCTTTTGCGGTCAAAGAAGGCGAAAATGTCTATAACACCATGTACATCGCCGATAACAGCGGACAGATCGTGAAGCGGTATCAGAAAGCACATCTGTTTCAGCTGATGGATGAACACCTTTACTTGTCAGCAGGAAACAGTGACGGTTCCTTTGAGCTTGACGGTGTCAAGTGCGCCGGGCTGATCTGCTATGATATCCGTTTCCCCGAATGGATCAGAAAGCATACGTCCCAGGGCGCGAATGTCCTGTTTATCTCTGCTGAATGGCCTCTGCCCCGCCTTGATCATTGGCGAAGCCTGCTTATCGCCAGAGCAATTGAAAACCAATGTTTTGTCGCAGCCTCTAACTGCACGGGGTCCAATCCCGATAATGAATTTGCCGGCCACAGCCTGATTATTGACCCGTGGGGCCGAATTTTAGCCGAAGGAGACCGGACGGAAGGCGCAGTCCGGGCGGAAATTGATGTGTCAGAAAGCGCGGACGTGCGGGGAACCATTCCGGTTTTCCAAGACTTGCGGCGTGATTTATATTAA	MKWTVSCLQFDISYGNPSENFKKAESLIEQESRHADVIVLPELWTTGYDLTRLDQLADENGKVSEQWLKETAKTYNVHLVAGSFAVKEGENVYNTMYIADNSGQIVKRYQKAHLFQLMDEHLYLSAGNSDGSFELDGVKCAGLICYDIRFPEWIRKHTSQGANVLFISAEWPLPRLDHWRSLLIARAIENQCFVAASNCTGSNPDNEFAGHSLIIDPWGRILAEGDRTEGAVRAEIDVSESADVRGTIPVFQDLRRDLY				NA	NA	NA	NA	NA
D1-12_00519	1197	bacF_1	COG0436	Transaminase BacF	ATGAACTTTGAAATCTCAGATGTACTCAAACAGCTGCCGGAACAATTTTTCGCATCATTGGTGCAAAAAGTGAATCAAAAGCTGAAAGAAGGCAGAGACGTCATCAATTTAGGGCAGGGAAACCCTGATCAGCCGACGCCTCAGCATATCGTTGAAGAAATGAAGCGCGCCGTCGAAAGGCCGGAAAATCATAAATACTCATCATTCCGGGGCGCTTACAGCTTCAAAAAAGCAGCCGCTGCATTTTATGAAAGGGAGTACGGGGTCACGCTTGATCCGGAAACGGAAGTCGCCGTGCTGTTCGGAGGCAAGGCGGGACTTGTTGAGCTTCCGCAATGTCTTTTAAACCCTGGAGATACCATTCTGGTGCCTGATCCCGGATATCCTGATTACTGGTCAGGCGTCGCCCTTGCGAAAGCGAAAATGGAAATGATGCCGCTGACGGAGGTAAGAGGGTTTCTCCCTGATTACAGCGTAATTCCTGAAAAGGTGCGGAGCGAGGCGAAGCTGCTGTATCTCAATTATCCGAATAATCCGACCGGCGCTGTGGCGACAGAGGCGTTTTTCGAGGAGACGGTCGGTTTTGCGGAACAAAACGGCATTTGTGTCGTTCATGATTTCGCGTACGGAGCCGTCGGTTTTGACGGGCATAAACCGCTGAGCTTTTTGCAGACCGAAGGCGCAAAAGAGACGGGAATCGAAATCTACACCTTGTCTAAAACCTATAATATGGCGGGCTGGCGGGTCGGATTTGCCGTCGGAAACGCTTCTGTCATCGAAGCGATCAACCTTTATCAGGATCATATGTTTGTCAGTTTGTTTCCCGCGGCGCAGCAGGCGGCGGCAGCCGCTCTTTTAGCGGATCAGGCATGCGTCGCAGCGCAAAATGACAGATATGAATCGAGACGCAATGCATGGATTGAAGCCTGCCGCGATATCGGCTGGGATGTGACGGCTCCGGCGGGCTCCTTTTTTGCATGGCTCCCTGTGCCTGACGGTTATACGTCACAGTCGTTTTCAGACTTGCTGCTCGAGAAAGCGGATGTCGCGGTCGCTGCCGGAAACGGGTTCGGAAAATGGGGGGAAGGCTATATAAGAGTCGGTCTTCTGACAAGTGAAGAAAGACTTAAAGAAGCTGCGGAACGGATCGGGAAACTGAATCTTTTCACCCGAAAAAGCATTGACATATCAGGGTAA	MNFEISDVLKQLPEQFFASLVQKVNQKLKEGRDVINLGQGNPDQPTPQHIVEEMKRAVERPENHKYSSFRGAYSFKKAAAAFYEREYGVTLDPETEVAVLFGGKAGLVELPQCLLNPGDTILVPDPGYPDYWSGVALAKAKMEMMPLTEVRGFLPDYSVIPEKVRSEAKLLYLNYPNNPTGAVATEAFFEETVGFAEQNGICVVHDFAYGAVGFDGHKPLSFLQTEGAKETGIEIYTLSKTYNMAGWRVGFAVGNASVIEAINLYQDHMFVSLFPAAQQAAAAALLADQACVAAQNDRYESRRNAWIEACRDIGWDVTAPAGSFFAWLPVPDGYTSQSFSDLLLEKADVAVAAGNGFGKWGEGYIRVGLLTSEERLKEAAERIGKLNLFTRKSIDISG	PGPT0012760_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012760-bacF-K19549	NA	NA
D1-12_00521	1215	mtnW	COG1850	2,3-diketo-5-methylthiopentyl-1-phosphate enolase	ATGAGCGAATTATTGGCAACATATCTTCTGACAGACACAACGGACAGTGAAAAGCGGGCGGAACAGATTGCGGCGGGGCTGACGGTAGGCTCCTGGACTGACCTGCCCCTGGTGAAGCAGGAACAGCTCAGAAAACATAAAGGGCGGGTCGTAAAAGTTGGGGAGAAAGAAGGAACCTCAGAAAACGAAACACAATCCGTCATCACCATCGCCTATCCCGAGGCGAACTTTTCAAGAGATATTCCGGCCGTCCTGACGACGGTATTCGGAAAGCTGTCACTGGACGGAAAAATAAAATTGACTGATCTTGAATTTTCCGAAGGGTTTAAACGCTCCCTTCCCGGGCCGAAATTCGGTATATACGGCATCCGCAAACTGCTGGGCGAATTTGAAAGACCGCTTCTGATGAGCATATTTAAAGGCGTGATCGGACGGGATCTCGCCGACATTAAAGAACAGCTCAGACAGCAGGCGCTCGGCGGCGTGGATCTTATTAAAGATGACGAAATTTTCTTTGAAAATGAACTGGCTCCGTTTGAAACCCGCATTATCGAAGGAAAACAAGTCCTGAAGGAAACCCGGGAGGAGACGGGGCATAAAACGCTGTATGCCGTAAACCTTACGGGAAGGACCGCTGAATTGCGGGATAAAGCGAGGCGCGCGGCAGAACTCGGGGCGGACGCGCTTTTATTGAATGTGTTCGCTTACGGTTTAGATGTGATGCAGAGTCTTGCTGAAGACAGGGAAATCCCGCTTCCGATCATGGCGCATCCGGCAGTCAGCGGCGCGTTCACATCATCTCCCGTTTACGGCTTGTCGCATGCGCTTTTGCTCGGCAAGCTGAACCGCTATTGCGGCGCTGATTTCAGCTTATTTCCGTCACCTTACGGAACCGTTGCTCTTCCGAAGGAGTCCGCTCTTGCAATCCATGATGAATGTGTAAAAGACGATGTCTTTCATCCGTCGTTTGCCGTCCCGTCAGCAGGCATTCATCCCGGTATGGTGCCATTATTGATGCGCGATTTCGGCATCGACCACATCATCAATGCCGGCGGAGGCATTCACGGCCACCCGAAAGGAGCCGAGGGCGGCGGAAAAGCGTTCCGCGCCGTCATTGATGCGGTGCTTGAAGCGCAGCCGATTGAAGAAAAAGCCGCGTCGTGCAAAGATCTTCAGCTCGCATTAGACAAATGGGGAAGGGTGGAAGCCGTATGA	MSELLATYLLTDTTDSEKRAEQIAAGLTVGSWTDLPLVKQEQLRKHKGRVVKVGEKEGTSENETQSVITIAYPEANFSRDIPAVLTTVFGKLSLDGKIKLTDLEFSEGFKRSLPGPKFGIYGIRKLLGEFERPLLMSIFKGVIGRDLADIKEQLRQQALGGVDLIKDDEIFFENELAPFETRIIEGKQVLKETREETGHKTLYAVNLTGRTAELRDKARRAAELGADALLLNVFAYGLDVMQSLAEDREIPLPIMAHPAVSGAFTSSPVYGLSHALLLGKLNRYCGADFSLFPSPYGTVALPKESALAIHDECVKDDVFHPSFAVPSAGIHPGMVPLLMRDFGIDHIINAGGGIHGHPKGAEGGGKAFRAVIDAVLEAQPIEEKAASCKDLQLALDKWGRVEAV				NA	NA	NA	NA	NA
D1-12_00522	705	mtnX	COG4359	2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase	ATGACCCGCACACCGCTGATTATTTGTGATTTCGACGGAACGGTCACCATGAACGACAACATTGTCAGCATGATGAAAGAATTCGCACCTCCTGAGTGGCTTGAATTAAAAGACGATGTTCTGTCTAAAAGCATATCAATCCAAGAAGGAGTCGGCCGGATGTTCGGACTGCTGCCGAGCAGCTTAAAAGAAGAACTGACCGGCTTTATCCTGAAGGATGCGAAAATACGGGACGGCTTTTTGGATTTTGTCTCGTTTGTCCGCTCAAACGACCTCCCGTTTTATATCGTAAGCGGAGGAATGGACTTTTTTGTGCATCCGCTTTTGGAAGGGATCGTAGAAAAGGAGCGGATTTTCTGCAATCATGCATCCTTTGACAATGAATATATTCATATAGACTGGCCGCATGCCTGTGACGGAGACTGTACCAATCAATGCGGCTGCTGCAAACCGTCAGTCATCCGGAAGCTATCCGATCAGCAGAAATTTCTCGTTATGATCGGTGATTCGGTCACGGATGTCGAGGCTGCAAAGTTATCCGATATGTGTTTTGCGAGAGATTATCTTTTGACTGAATGCAAAGAACTCGGCCTCCGGCATCTGCCTTTTCAAGATTTTCATGAGGTGAAAACAGGCATTGAAAACATCGGGGAGGTGCAGGCATGGCTGCAAAAGAAGAACGCTGGCGCGAACTTGCCGAGGTAA	MTRTPLIICDFDGTVTMNDNIVSMMKEFAPPEWLELKDDVLSKSISIQEGVGRMFGLLPSSLKEELTGFILKDAKIRDGFLDFVSFVRSNDLPFYIVSGGMDFFVHPLLEGIVEKERIFCNHASFDNEYIHIDWPHACDGDCTNQCGCCKPSVIRKLSDQQKFLVMIGDSVTDVEAAKLSDMCFARDYLLTECKELGLRHLPFQDFHEVKTGIENIGEVQAWLQKKNAGANLPR				NA	NA	NA	NA	NA
D1-12_00523	630	mtnB	COG0235	Methylthioribulose-1-phosphate dehydratase	ATGGCTGCAAAAGAAGAACGCTGGCGCGAACTTGCCGAGGTAAAACGCGAGCTGGCCGAAAGAGACTGGTTCCCGGCAACGAGCGGGAATCTTTCCATCAAAGTATCCGACGGGCCGCTGACTTTTCTCGTTACGGCGAGCGGAAAAGACAAACGAAAAGAAACAGACGAAGATTTTCTCTTAATCGATGAGAACGGGAAGCCCGCTGAGACCGGCCATTCTTTAAAACCTTCAGCAGAAACGCTTCTCCATACTTACTTATACCAAAAGACAGACGCAGGCTGCTGTCTGCATGTCCATACCGTCAATAATAATGTCATCTCAGAGCTTTACGGGGATGAAAAACAAATCACTTTTCAGGGGCAGGAGATGATTAAGGCGCTCGGATTATGGGAGGAAAACGCGTCCGTGACCGTTCCGATCATTGACAATCCGGCGCACATCCCGGCATTGGCCGAAAATTTCGCGCACCATGCGGACGCCGGATCAGGCGCGGTGTTAATCCGCAATCACGGCATTACGGCATGGGGGCGGACCGCATTTGAAGCGAAAAGGGTGCTGGAAGCCTATGAATTTTTATTCAGCTGTCACCTCAAGCTTCTGTCACTTCGTCCGCAGCTGGTAAAATAA	MAAKEERWRELAEVKRELAERDWFPATSGNLSIKVSDGPLTFLVTASGKDKRKETDEDFLLIDENGKPAETGHSLKPSAETLLHTYLYQKTDAGCCLHVHTVNNNVISELYGDEKQITFQGQEMIKALGLWEENASVTVPIIDNPAHIPALAENFAHHADAGSGAVLIRNHGITAWGRTAFEAKRVLEAYEFLFSCHLKLLSLRPQLVK				NA	NA	NA	NA	NA
D1-12_00524	537	mtnD	COG1791	Acireductone dioxygenase	ATGGCGACCATCAGAATTCATGACGAAAAGAATACGATCATTGAACATCAGGAAGAAGTAGCGCGCTTCTTAGACGAGCAAGAGGTGATCTATGAGCAGTGGAACATTGAAAAACTTCCGTCTGAGCTTTCGGAAAAATACGATCTAACCGAAGATGAAAAAGAACGGATTCTCGCGGCGTTTGACACGGAGATTCAGGACATTTCAGCCCGGCGCGGATATCAGTCTCAGGATGTCATTTCTTTATCAGATACCACGCCGAATCTTGATGAATTATTAAAAAATTTCCAAAGAGAACATCACCACACGGATGATGAAGTCCGCTTTATCGTCAGCGGACACGGCATCTTCGTCATTCAAGGCAAAGACGGCACATTTTTCGACGTCCGTTTAAATCCGGGAGATTTGATTTCAGTTCCGGAGAACATCCGCCACTACTTTACGCTTCAGGAAGACCGCCGGGTCGTCGCAATCCGAATCTTTGTGACGACTGAGGGCTGGGTGCCGATTTACGAAAATGAAAGTGTGCAAAACTGA	MATIRIHDEKNTIIEHQEEVARFLDEQEVIYEQWNIEKLPSELSEKYDLTEDEKERILAAFDTEIQDISARRGYQSQDVISLSDTTPNLDELLKNFQREHHHTDDEVRFIVSGHGIFVIQGKDGTFFDVRLNPGDLISVPENIRHYFTLQEDRRVVAIRIFVTTEGWVPIYENESVQN				NA	NA	NA	NA	NA
D1-12_00525	261	spo0E		Aspartyl-phosphate phosphatase Spo0E	ATGGGCAGTTATTCTGAACAAGAAAAATTGCTTGTATCTATTGATAAAAAAAGAAAAATGATGATAGATGCGGCTAACAGGCAAGGGTTTACAGGATATGACACGATCAGACACAGCCAGGAACTGGACTGTCTGATGAACGCGTATCAGCAGCTGGTAAACCGTGATCGTACACATCACCAAGGAATACAGGGCCTTGTGAAGAAAATAGGCTTGTTCTCCCGCGGTGACGTCATGCCTGCATATGAAGCAAACAAATGA	MGSYSEQEKLLVSIDKKRKMMIDAANRQGFTGYDTIRHSQELDCLMNAYQQLVNRDRTHHQGIQGLVKKIGLFSRGDVMPAYEANK	PGPT0024640_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024640-spo0E-K06376	NA	NA
D1-12_00526	1500	kinD		Sporulation kinase D	GTGAATACATTTAAAGGTGCCCGGGGAAAGATCAAGCTTTATCTCATATTGGTGATCATCCCGGCACTTATTATCAGCTTTTTCATTTATGAAAAAGAAAAGCAGAAAATAGCCGATAAACACATACAGGAAGCCAGTATGATGCTCAACCTTCACCGCAATAAGCTCAATTATTTAATCGGTGAAACAAAAGCCCGGATGACAACACTTGCGATCGCTGTCGATAAGCCTGTCAATGAAGAAAAGATCATTGACATTCTTGATCAGGCTTTTGAGGATGAACCCAGATTCAGCGGTCTGTATATGCTGAATTCCAAAGGTGATGTCATCGCAAGCACGACTGATCTGAAATCAAAGGTGAATTTGGCCGACAGACCGTATTTTACGAAGGCGAAAAAGACGAAAAAAACGGTCATCACAAATGACTACTCCAGCAGAATTACAGGCCAGCGCATCTTCACGATCTGCGTGCCGGTGTTAGACGCAAAACGGGAAGTCACGGATTATTTAGTAGCCGCCATACAAGTCGATTATTTGAGAAATATGATCAATATGCTGAGCCCTGACGTTTATGTCAAGGCAACCAATCAGAATAAAGTGATATTTGCCAGCGGACGGGCTGATCAATCAGAAGGTGTGAAACCGGTCAGCGGCTATCTGGATGATATTAATTGGAATATCAATGTTTATCCGAAACCGGTTGAGCTGAACGAGCTGACCAAAAGCGTGCTGCTGCCGATGTCCAGTATTGCCGTGCTGCTGAATATTCTGTTCATCCTCGTTCAATATTATCTGCTTAAGCGCAAGACCCAGCTGGAGCGCGCTCAAAATGAAGCGCAGAAATTGGAGCTGATCGGAACGCTTGCCGCCAGCACCGCCCATGAAATCCGCAACCCGCTTACAGGGATCAGCGGCTTCATTCAGCTTTTGCAGAAAAAATACAAATCGGAGGAAGATCAGCTGTATTTCTCAATTATTGAGCAGGAGATTAAACGGATCAATCAGATTGTCAGTGAGTTTTTAGTGCTTGGAAAACCCACTGCTGAACGGTTGGAAGTGAACTCGCTGCAGGATATTCTTGATGAGATTATGCCGATTATTTATTCTGAAGGGAATCTGTATAATGTGGAAGTGAATGTGGAGATTCTCGTCAATCGGCCGCTCAAGGTCAACTGCACGAAAGACCATATTAAACAGGTGATTTTAAATGTCGCGAAAAACGCGCTGGAATCCATGCAGGAAGGCGGCCGGCTGTCCATCTATTTAGAAGCACGCGATCATAAAGCAGTCATTAAGGTGGCCGACAACGGAATGGGCATTTCTGAAGATATGCTTGAGCACATTTTTCTTCCGTTTGTAACGTCAAAGGAAAAAGGCACCGGCCTCGGCCTTGTCGTATGTAAACGAATCATGCTGATGTACGGCGGTTCGATTGACATTCAAAGCGAAGTCGATAAGGGCACAGAGGTCACCATTGCCCTCCCTGCCGCTTCTCGATGA	MNTFKGARGKIKLYLILVIIPALIISFFIYEKEKQKIADKHIQEASMMLNLHRNKLNYLIGETKARMTTLAIAVDKPVNEEKIIDILDQAFEDEPRFSGLYMLNSKGDVIASTTDLKSKVNLADRPYFTKAKKTKKTVITNDYSSRITGQRIFTICVPVLDAKREVTDYLVAAIQVDYLRNMINMLSPDVYVKATNQNKVIFASGRADQSEGVKPVSGYLDDINWNINVYPKPVELNELTKSVLLPMSSIAVLLNILFILVQYYLLKRKTQLERAQNEAQKLELIGTLAASTAHEIRNPLTGISGFIQLLQKKYKSEEDQLYFSIIEQEIKRINQIVSEFLVLGKPTAERLEVNSLQDILDEIMPIIYSEGNLYNVEVNVEILVNRPLKVNCTKDHIKQVILNVAKNALESMQEGGRLSIYLEARDHKAVIKVADNGMGISEDMLEHIFLPFVTSKEKGTGLGLVVCKRIMLMYGGSIDIQSEVDKGTEVTIALPAASR	PGPT0025287_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025287-kinD-K13532	NA	NA
D1-12_00527	447	mhqR_2	COG1846	HTH-type transcriptional regulator MhqR	ATGACGGATAAAACAGAAAACTCATTGAAATTATTTATTGTACTGTCACGTGCGTACCGATCTATTAACGACCATATGAATAAACATATTCATAAGCACGGCCTGAACCCGACGGAATTTGCGGTGCTTGAGCTGCTGTACCACAAAGGCAACCAGCCGCTTCAGCAGATCGGCGACAAAATTTTATTAGCGAGCGGAAGTATTACATACGTTGTTGACAAATTAGAGAAAAAAGAACTTCTCATCAGAAAAGCCTCGCCGACTGACAGGAGAGTGACTTTCGCACAGATTTCTGAAAAGGGAATCCGTCTTTTGGACGATATTTTCCCTGATCATGCTGAAGAAATTAAAGAAATGATCAGTGTGCTGAGTGATGAAGAGATAGAAATGTGTACGGAAATGCTGAAAAGAGTGGGATTAAACGCTAAATATTTTCATCAGAAATAA	MTDKTENSLKLFIVLSRAYRSINDHMNKHIHKHGLNPTEFAVLELLYHKGNQPLQQIGDKILLASGSITYVVDKLEKKELLIRKASPTDRRVTFAQISEKGIRLLDDIFPDHAEEIKEMISVLSDEEIEMCTEMLKRVGLNAKYFHQK				NA	NA	NA	NA	NA
D1-12_00528	786	motB	COG1360	Motility protein B	ATGGCGAGAAAAAAGAAGAAGAAGCATGATGACGAGCATGTGGATGAGTCTTGGCTGATCCCGTACGCGGATTTGCTCACCCTTCTTTTGGCTCTGTTCATTGTATTGTTCGCCATGAGCTCGGTCGATGCGGCGAAATTCCAAATGCTGTCTAAATCATTTAACGCCGTGTTTACCGGAGGCACGGGTGTTCTTGAATATTCAAGCCTCACCCCTCCTGAAAACGAAAAAGACGGCGTTGATCAGTTAAAAAAAGACAAGGAAAAAGATAAAGAACAGAAAAAGAAAGAAAGAGAAGCAGCCGACCGCGAAGAACTTGAAGGCGTGCAAAAGCAAGTCAATCAATTTATAAAAAATAAAAAGCTTGAAACTCAGCTTGAAACAAAGCTGACTAAAGAAGGACTCTTAATTACGATTAAAGACAGTATCTTTTTTGATTCCGGACGGGCGGATATCCGTCAGGAAGATATTCCGCTTGCCAAGGAAATCTCGAATCTCCTTGTGCTGAATCCGCCGAGGAACATTATCATCAGCGGACATACGGACAATGTACCGATTAAAAACTCACAATATCAATCTAACTGGCATTTAAGCGTCATGCGGGCCGTCAACTTCATGGCTATTCTGACAGAAAACCCGAAACTTGACGCAAAAGTTTTCAGCGCCAAAGGTTTCGGAGAGTATAAACCGGCCGTGTCGAACAAAACCGCTGAAGGGCGCAGCAAAAACAGGCGCGTCGAGGTATTGATACAGCCTAGAAACGCCGCGACTGACCAAAATCAGTAA	MARKKKKKHDDEHVDESWLIPYADLLTLLLALFIVLFAMSSVDAAKFQMLSKSFNAVFTGGTGVLEYSSLTPPENEKDGVDQLKKDKEKDKEQKKKEREAADREELEGVQKQVNQFIKNKKLETQLETKLTKEGLLITIKDSIFFDSGRADIRQEDIPLAKEISNLLVLNPPRNIIISGHTDNVPIKNSQYQSNWHLSVMRAVNFMAILTENPKLDAKVFSAKGFGEYKPAVSNKTAEGRSKNRRVEVLIQPRNAATDQNQ	PGPT0015375_3849	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
D1-12_00529	825	pomA_1	COG1291	Chemotaxis protein PomA	GTGAAAACTATGGATAAAACATCGATTATCGGTATCATCCTCGCCTTGATTGCTTTAAGCGTGGGCATGGTGCTGAAAGGGGTCAGCTTAAGCGCACTCGCTAACCCGGCAGCTATTCTGATTATTTTGTTCGGTACGATTTCTGCGGTGATCATCGCATTCCCCGGAAAAGAAATCAAAAAAGTGCCTGCCCTTTTTAAAGTGCTGTTTAAAGAAAACAAACAGCTGACAATTGCGCAATTAATTCCTATGTTCTCTCAATGGGCGCAAATCGCCAGACGTGAAGGTCTGCTCGCATTGGAAGCAAGCATTGAAGACGTGGATGACGCATTTTTGAAAAACGGCCTGAGCATGGCGGTTGACGGACAAAGCGCAGAATTTATCAGAGATATTATGACTGAGGAAGTTGAAGCGATGGAAGACAGACACCAGGCCGGCGCAGCCATCTTTACACAAGCCGGCACATATGCGCCGACACTCGGCGTTTTGGGTGCGGTCATCGGCCTTATCGCCGCTCTTTCCAACATGAACAACACCGAGGCGCTCGGACATGCCATCAGTGCGGCGTTTGTCGCCACCCTTCTCGGGATTTTCACAGGATATGTACTATGGCATCCCTTCGCCAACAAACTGAAACGCAAATCAAAGCAGGAAGTCAAACTGCGTGAAATCATGATCGAAGGCGTTCTGTCAGTGCTTGAAGGACAGGCTCCGAAAGTGATCGAACAAAAACTTCTCATGTATCTTCCTGCGAATGAACGCGCAAAAGTCGCTGAACAAGAAGGAGAGGCAAACAATGGCGAGAAAAAAGAAGAAGAAGCATGA	MKTMDKTSIIGIILALIALSVGMVLKGVSLSALANPAAILIILFGTISAVIIAFPGKEIKKVPALFKVLFKENKQLTIAQLIPMFSQWAQIARREGLLALEASIEDVDDAFLKNGLSMAVDGQSAEFIRDIMTEEVEAMEDRHQAGAAIFTQAGTYAPTLGVLGAVIGLIAALSNMNNTEALGHAISAAFVATLLGIFTGYVLWHPFANKLKRKSKQEVKLREIMIEGVLSVLEGQAPKVIEQKLLMYLPANERAKVAEQEGEANNGEKKEEEA	PGPT0015370_1582	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
D1-12_00530	2097	clpE	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpE	ATGCGTTGTCAACATTGTCAGAAAAACGAGGCGACGATTCGCCTGAACATGCAAGTCAATTCCATTCAAAAACAATTCGTTTTATGTGAAACATGTTATACAGAATTAACCCGAAAACCGTCTATGAGCATGGGGCCGCAATCATTCGGATTCCCGTTTGAGCAAGGTTTCGCTCCCAATCAAAATAAACAGCAGTCCGGCCCTGAAAAAGGCCTGCTCGACGAGCTCGCTCAAAACGTCACAAACGGCGCAAAAGCAGGTCTGATTGACCCTGTGATCGGCCGCGATAATGAAGTGGCGCGCGTAATTGAAATTTTGAACCGCCGGAATAAAAACAATCCGGTGCTGATCGGTGAGCCGGGCGTCGGTAAAACGGCTATTGCAGAAGGCCTCGCGCTTAAAATCGCTGAAGGCGATGTGCCGAACAAATTGAAAAACAAAGAGCTTTACCTGCTTGACGTCGCTTCTCTCGTCGCCAATACAGGGATCAGAGGCCAGTTTGAAGAAAGAATGAAACAATTAATGAACGAATTAAAAGAACGGAAAAACGTCATCTTGTTCATTGATGAGATTCATCTTCTTGTAGGCGCCGGCTCTGCCGAGGGATCAATGGATGCCGGGAACATCCTGAAACCGGCGCTTGCCAGAGGCGAGCTGCAGGTCATCGGGGCGACAACGCTGAAAGAGTACCGCCAGATTGAAAAAGATGCGGCGCTTGAAAGACGCTTCCAGCCTGTCATGGTTCACGAGCCTACAATAGAACAAGCCATCAGCATTCTGGAAGGCATTAAAGATAAATATGAGAAATACCACGGCGTCACATTCAGCAATGAAGCGATAAATGCCTGTGTTACGCTTTCATCCCGTTACATTCAGGACCGCCACCTGCCGGATAAAGCGATCGACTTATTAGATGAAGCCGGCTCTAAGGCGAACTTGGAGCTTGATACCGTAAATGAAGAAGATGCGGCTGAGAGACTCAAAGCAATTGACGCGGAGAAAACAAAAGCGCTTCATGAAGAAAATTATGAGCTTGCCGCGAAACTGCGTGATGAAGAAGCGGCGTTGGAAAAGCAGCTGGCGCATGAAACACCGGCCTCTTCACCTGAAATCGGGGCGGAGCATATTCAAGCCATCATTGAACAGAAAACAGGCATTCCGGTCGGAAAACTCCAGGCTGATGAACAAGTAAAAATGAAGGAACTTGAAGAGCATCTTCATCAGCGCGTCATCGGTCAGGAAAAAGCCGTGAAAAAAGTGGCGAAAGCGGTCAGACGAAGCCGCGCCGGCTTAAAATCCAAACACAGACCTGTCGGCTCCTTCCTCTTTGTCGGACCGACCGGAGTCGGAAAAACCGAGTTATCAAAGACACTCGCAGATGAACTGTTCGGTACAAAAGATTCCATTATCCGTCTCGATATGAGTGAATACATGGAAAAACACGCCGTATCAAAAATCATCGGTTCACCGCCGGGATATGTCGGACACGATGAAGCCGGTCAATTAACGGAAAAAGTGCGCCGCAATCCGTACAGCATCGTGCTGCTCGATGAGATTGAAAAAGCCCACCCTGATGTCCAGCATATGTTTCTGCAGATTATGGAGGACGGCCGTCTGACAGACAGCCAGGGCAGAACGGTCAGCTTCAAAGATACCGTTTTGATTATGACAAGCAACGCTGGAACCGGCGAAAAACAGGTGAAAGTCGGATTCCAATCTGAAGAGAGCGTCCTGGAAGAACAAACGCTGATTGATTCACTGAGCGCGTTCTTCAAACCGGAGTTTTTAAACCGGTTTGACAGCATTATTGAATTCCAATCCCTGAAAAAAGAACATCTCGTGAAAATCGTCAGCCTGCTTCTCACAGAGCTTGAAGACACATTAAAAGAGCGCGGCATCAGCCTGAGCGTCACCGATGATGCGAAAGAAAAAATCGCTGAAATCGGCTACCACCCCGCTTTCGGAGCACGCCCGCTCAGAAGAACCATCCAAGAATTGATCGAGGACGAAATGACAGATCTCTTATTGGATGACAACGAAATAAAAGCCTTCCATGTCGTAATGGAAGAGGACGGCATCAAAGTCCGGGCACAATAA	MRCQHCQKNEATIRLNMQVNSIQKQFVLCETCYTELTRKPSMSMGPQSFGFPFEQGFAPNQNKQQSGPEKGLLDELAQNVTNGAKAGLIDPVIGRDNEVARVIEILNRRNKNNPVLIGEPGVGKTAIAEGLALKIAEGDVPNKLKNKELYLLDVASLVANTGIRGQFEERMKQLMNELKERKNVILFIDEIHLLVGAGSAEGSMDAGNILKPALARGELQVIGATTLKEYRQIEKDAALERRFQPVMVHEPTIEQAISILEGIKDKYEKYHGVTFSNEAINACVTLSSRYIQDRHLPDKAIDLLDEAGSKANLELDTVNEEDAAERLKAIDAEKTKALHEENYELAAKLRDEEAALEKQLAHETPASSPEIGAEHIQAIIEQKTGIPVGKLQADEQVKMKELEEHLHQRVIGQEKAVKKVAKAVRRSRAGLKSKHRPVGSFLFVGPTGVGKTELSKTLADELFGTKDSIIRLDMSEYMEKHAVSKIIGSPPGYVGHDEAGQLTEKVRRNPYSIVLLDEIEKAHPDVQHMFLQIMEDGRLTDSQGRTVSFKDTVLIMTSNAGTGEKQVKVGFQSEESVLEEQTLIDSLSAFFKPEFLNRFDSIIEFQSLKKEHLVKIVSLLLTELEDTLKERGISLSVTDDAKEKIAEIGYHPAFGARPLRRTIQELIEDEMTDLLLDDNEIKAFHVVMEEDGIKVRAQ	PGPT0014590_448	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014590-clpE-K03697	NA	NA
D1-12_00531	1038			hypothetical protein	ATGGGACAAACAAAAGGTTCTGCAAGTCAGCTTGCATTTGTATACGTAGGCACGGTTGTAGGAGCCGGTTTTGCCACGGGACGGGAAATCGTTGAGTTTTTTCTGAAGTTCGGCTGGATCGGTCTGTTCGGTATCGTGGTAAGCGGTCTGATGTTTACATATTTAGGCGCCAAAATCATGATCATTTCCAAACGGATTCATGCAGCATCTTATCAGGAATTGAACACATATTTATTCGGCCAGTCCATCGGCCGCGCCGTGAACATGTTTATGATGTTTATATTGCTGGGAGTGACCTCTGTCATGCTGTCCGGAGCTGGGGCGCTGTTTCATGAACAGCTTGGATGGTCCGCACAAGCGGGGATCCTTCTGACGATCGTACTGAGCTTTGCCGTCATGACAAGCGGTGTTAAAGGTGTGGTCGGCGTCAATATATTGGTTGTGCCGCTTTTAATTTCTTTCTCTTTTATCGTGACAGCTGATTCATTTGTATTTACAAGCACGAGAAACGCGGACGAATGGGTATGGCCTGACAAGTGGAACTGGCTTTTGTCCGCCGTCTCTTACGGCGCGTTAAATTTATCGCTCGCCCAAGCCGTCCTTGTGCCGCTTGCGAACGAAATGTCTTCAGAGAAGGTGATCAGAAGGGGAGCTTATTTAGGCGGCGTTCTGTTGACACTGGTGCTTGCCGCGAGCTTCTTATCATTATCGGTGCTGCCGGATGTGCTGGAGTTTGACATTCCGATGGCTCAAGTCGTCTATTCGTATTCGCGTTCGCTTCATATCATTTATTTGTTTATTATTTTCGGGGAAGTGTTTACGTCGGTTATCGGCAATTTATACGGATTGGAAAAACAATTAAACAGTTTTCTTCGTATAAAAAGTACATATATTTACGGCGGCATTTTGGCGTTTGCTTTCATTATCAGCCAAATCGGTTACGGGCAGCTGATTTCCACCGTTTATCCGGTGTTTGGGTATGTGAGCCTCGCTTTCATCGGCGCATTGATTTGCAAAAAAATCCCGAAAGAAAAATAA	MGQTKGSASQLAFVYVGTVVGAGFATGREIVEFFLKFGWIGLFGIVVSGLMFTYLGAKIMIISKRIHAASYQELNTYLFGQSIGRAVNMFMMFILLGVTSVMLSGAGALFHEQLGWSAQAGILLTIVLSFAVMTSGVKGVVGVNILVVPLLISFSFIVTADSFVFTSTRNADEWVWPDKWNWLLSAVSYGALNLSLAQAVLVPLANEMSSEKVIRRGAYLGGVLLTLVLAASFLSLSVLPDVLEFDIPMAQVVYSYSRSLHIIYLFIIFGEVFTSVIGNLYGLEKQLNSFLRIKSTYIYGGILAFAFIISQIGYGQLISTVYPVFGYVSLAFIGALICKKIPKEK				NA	NA	NA	NA	NA
D1-12_00532	1122			hypothetical protein	ATGAAGGATCGACGTGTATTATTGGGATTTATTTTTATTTGTATCGGCATTGTATTTTTTTTACAGAAGGCGGGAGTTATACATATATCCGCAGGTTCGGCGTGGCCGTTTCTTTTCATTATAATGTCCGCAGGATTTCACGCCGGATTTATTTTTGCGAAAAAAACGACTGAACAGGCGGGACTGCTCGTTCCCGGCGGTATGTTTCTTGTGCTGGGCTGCCTGTTTTGTTTTGAGACCGCAACGGGATGGACGTATTCAGGCGTGACGTGGCCTGTTTATATATGGGCGCCTGCTCTCGGTCTGTTTGAGCTGTGGTATTTCGGCGGGAGGAAGTTAGGTGTATTGATTCCTGCTTTCATCCTGACTGCCGTGGGAGCACTATGCTTTGCCGGTATGCTGATACCGGGGCTGTGGCCGCTTTTGATCATCGCAGCCGCGCTTTTGTTTCACGCCGCTGCCTTTATGCAGCCGAAAAAAAGATCGGGCCTTCTTATTCCGGGCGGCATTTTGCTTGTGACGGGCGGCTTGTTATGGTTTGAAACGCTGACGGATTGGACATACGCAAATGTGACATCGCCTGTCTACCTCTTTGCCGTTGCATTCGGGCTGTTTGAAGCCTGGCTGTTCGGCAGAAGGCAAAGAGGGCTTTTGACTGCTGCGGCGGTTCTGTGCGCCGCGGGCATTTTCGGCATATTCACCAATGCAAATGAAGTCATCAGCGAACGCGGCTGGCCCGCTCTCATTCTGTTGCTGGGCGCCGCTTTTCACATTCCGATTTTCGGCCCGAAACCTGTCAAAAACGCGGGGCTTCTCGTACCGGGCGGCATCTTATTGATTACGGGGATCTTGTTTGTCTTTGAAACGGCAACCAATTGGTCCTACTCCGATGGGACATGGCCTGTTTACCTGTTGGCAACGGCATTCGGTTTATTTGAGCTGTGGCTGTTCGGCGGGAAACAGAAGGCGCTGCTCATTCCGGTTGCGGTGCTGACCTTGACAGCACTTTGCTTTATGATGACGTATCAGCCGATCATTCCGGTTTCTGTTTTCTGGCCTGCTTTATTTGTTCTGATCGGGATTGCGCTGATGGTATTTCCGGGGAAGAAACGCGGGGCTTAA	MKDRRVLLGFIFICIGIVFFLQKAGVIHISAGSAWPFLFIIMSAGFHAGFIFAKKTTEQAGLLVPGGMFLVLGCLFCFETATGWTYSGVTWPVYIWAPALGLFELWYFGGRKLGVLIPAFILTAVGALCFAGMLIPGLWPLLIIAAALLFHAAAFMQPKKRSGLLIPGGILLVTGGLLWFETLTDWTYANVTSPVYLFAVAFGLFEAWLFGRRQRGLLTAAAVLCAAGIFGIFTNANEVISERGWPALILLLGAAFHIPIFGPKPVKNAGLLVPGGILLITGILFVFETATNWSYSDGTWPVYLLATAFGLFELWLFGGKQKALLIPVAVLTLTALCFMMTYQPIIPVSVFWPALFVLIGIALMVFPGKKRGA				NA	NA	NA	NA	NA
D1-12_00534	660	queC	COG0603	7-cyano-7-deazaguanine synthase	ATGAAAAAAGAAAAAGCGGTTGTGGTGTTCAGCGGAGGCCAAGACAGCACGACTTGTTTATTATGGGCTTTGCAAAACTTTGAAGAAGTGGAAACTGTTACATTCCATTATAATCAGCGTCACCAAGAAGAAATCGATGTGGCAAAATCGATTGCCGAAAAGCTCGGTGTCAAAAACCACTTGCTTGATATGTCTCTTTTAAATCAGCTTGCGCCGAATGCGCTGACAAGAGATGATATCGAAATTGAAGCGAAGGACGGGGAATTGCCGACAACCTTTGTACCGGGACGCAACCTTGTATTTTTATCCTTTGCATCGATTCTTGCATATCAAATCGGTGCGCGCCACATTATTACCGGTGTTTGCGAGACTGATTTCAGCGGCTACCCGGACTGCCGTGACGAGTTTGTCAAATCCTGCAATGTCACCGTCAATTTGGCGATGGAAAAGCCGTTCGTCATTCATACGCCGCTTATGTGGCTGAACAAAGCAGAAACGTGGAAACTTGCGGATGAGCTCGGCGCGCTTGATTTTGTAAAGAATAATACACTGACTTGCTATAACGGCATCATTGCGGACGGATGCGGCGAATGCCCGGCATGCCTGCTCCGCAATAAAGGATATGATGAATATATGAAAATGAAAGGAGAGCGGAACTAA	MKKEKAVVVFSGGQDSTTCLLWALQNFEEVETVTFHYNQRHQEEIDVAKSIAEKLGVKNHLLDMSLLNQLAPNALTRDDIEIEAKDGELPTTFVPGRNLVFLSFASILAYQIGARHIITGVCETDFSGYPDCRDEFVKSCNVTVNLAMEKPFVIHTPLMWLNKAETWKLADELGALDFVKNNTLTCYNGIIADGCGECPACLLRNKGYDEYMKMKGERN				NA	NA	NA	NA	NA
D1-12_00535	441	queD	COG0720	6-carboxy-5,6,7,8-tetrahydropterin synthase	TTGCTTTCTCAAATTTACCCGCAGGTTCAGCATCCTTATTCGTTTGAGTTAAATAAGGACATGCACATTTCAGCCGCGCACTTTATTCCCCGCGAAAGCGCAGGAGCGTGCAGCAGAGTCCACGGGCACACGTATACAGTAAATATTACCGTTGCGGGGGATGAACTGGACGATTCAGGCTTTCTCGTGAATTTCAGCGTGCTGAAGAAATTGGTGCACGGCGCTTATGACCATACATTGCTGAATGACCATGAGGAATTTTCTGATGATGACAGATATTCACTGCCGACGACCGAGGTCGTGGCCAAAACGATTTATGATAAGGTGCAGTCCTACCTCGAAACACTGGAGAATCAGCCGGTCTGCGTGCAGGTTTTTGTCAGGGAAACCCCGACAAGCTATTGCGTATACCGCCCGAAAAAAGGTGATAGGAATGGCTAA	MLSQIYPQVQHPYSFELNKDMHISAAHFIPRESAGACSRVHGHTYTVNITVAGDELDDSGFLVNFSVLKKLVHGAYDHTLLNDHEEFSDDDRYSLPTTEVVAKTIYDKVQSYLETLENQPVCVQVFVRETPTSYCVYRPKKGDRNG				NA	NA	NA	NA	NA
D1-12_00536	732	queE_1	COG0602	7-carboxy-7-deazaguanine synthase	ATGGCTAAAGGAATTCCGGTATTAGAAATTTTCGGACCGACGATACAAGGGGAGGGCATGGTTATCGGCCAGAAAACCATGTTCGTCCGCACGGCGGGCTGCGACTACTCCTGCAGCTGGTGCGACTCCGCTTTTACATGGGACGGCTCAGCCAAAAAAGATATCCGCTGGATGACAGCGGAAGACATTTACCGCGAGCTGAGAGAAATCGGCGGAGACGCCTTTTCTCATGTCACCATCTCAGGAGGAAACCCGGCGCTGTTAAAGCAGCTTGACGCGCTGATTTTGCTGCTGAAAGAGCACGGGGTGCGCGCCGCTTTAGAAACGCAGGGAACGGTCTATCAGGATTGGTTCACAATGATTAACGACCTGACGATTTCACCGAAGCCGCCAAGTTCGGGGATGACAACCGATTTTGCAAAGCTCGATCACATTGTGTCTTCGCTTGATGCGGCAGAAAGGCTTAACGCGGTCAGCTTAAAGGTTGTCATTTTTAATGATGAAGATCTGCAATTTGCGAAAACCGTGCACAAGCGGTATCCGAATATTCCATTTTACCTTCAGGTCGGAAACGATAACGTCCATACGACGGACGACCGGGCATTGATCGCACATCTGCTCGGAAAATACGAAACACTTGTTGATAAGGTTTCTGCCGATTCGGATCTGAATCTCGTCAGAGTCCTGCCTCAGCTGCATACGCTGCTTTGGGGCAATAAACGGGGAGTTTAA	MAKGIPVLEIFGPTIQGEGMVIGQKTMFVRTAGCDYSCSWCDSAFTWDGSAKKDIRWMTAEDIYRELREIGGDAFSHVTISGGNPALLKQLDALILLLKEHGVRAALETQGTVYQDWFTMINDLTISPKPPSSGMTTDFAKLDHIVSSLDAAERLNAVSLKVVIFNDEDLQFAKTVHKRYPNIPFYLQVGNDNVHTTDDRALIAHLLGKYETLVDKVSADSDLNLVRVLPQLHTLLWGNKRGV				NA	NA	NA	NA	NA
D1-12_00537	495	queF_1	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGACAAGAAAAGAATCAGAATTAGAAGGAGTTACGCTCCTGGGGAATCAAGGAACAAACTATTTATTTGAATATGCGCCGGAGGTTTTGGAATCATTTCCGAATAAACACGTGAACCGTGATTATTTCGTTAAATTCAACTGCCCGGAATTTACGTCGCTTTGCCCGAAAACGGGACAGCCGGACTTCGCAACTATCTACATCAGCTATATTCCGGATGAAAAAATGGTGGAAAGCAAATCGCTGAAGCTGTATCTTTTCAGCTTCCGCAACCACGGAGATTTCCACGAGGACTGCATGAACATCATCATGAATGACTTGATTGAATTAATGGACCCGCGCTACATCGAAGTATGGGGCAAATTCACGCCAAGAGGCGGAATTTCCATCGATCCATACACAAACTACGGAAAACCTGGCACGAAATATGAGAAAATGGCCGAGTACCGCATGATGAATCATGATTTGTATCCGGAGACGATTGATAATCGTTAA	MTRKESELEGVTLLGNQGTNYLFEYAPEVLESFPNKHVNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR				NA	NA	NA	NA	NA
D1-12_00538	357	ytcD_1	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAAAAAATTTAGCTGCGGCTTTGAAGTGACAAAGGAAGTTATTGGCGGAAAATGGAAAGGCCTTGTATTATACTTTTTAATGAATGGACCAAAGAGAACGAGTGAATTAAAGCGCATTATCCCAAATATAACTCAGAAAATGCTGATTCAAACACTTAGAGAGCTTGAAGCCAGTGGACTTGTGAGCAGAAAGATGTATAATCAAGTACCGCCGAAGGTTGAATATTCATCCACTGAACTTGGAGAATCTCTTAAACCTATCTTGCAGGAGCTCTGTCAATGGGGAGGCCATTATGCGGAGCAAGAGTATGCAGAAGGTGAATATGAAATTGTACAACCAGAACAACTAAGTTAG	MKKFSCGFEVTKEVIGGKWKGLVLYFLMNGPKRTSELKRIIPNITQKMLIQTLRELEASGLVSRKMYNQVPPKVEYSSTELGESLKPILQELCQWGGHYAEQEYAEGEYEIVQPEQLS				NA	NA	NA	NA	NA
D1-12_00539	747	gdhIV	COG1028	Glucose 1-dehydrogenase 4	ATGGGGAAATTTGAAGGTAAAATAGCGCTTGTAACAGGTGGAACAAGTGGGATTGGTCTTGCTGCAGCACAAAAATTTGTAAACGAAGGTGCATATGTTTATATCACGGGACGCAGACAAAACGAACTTGATAAAGCTGTTAACCAAATTGGCAAGAACGTAACCGGTGTTCAAGGTGATATTTCTAAGCTTGAAGACTTAGACAAACTATATGACATGATAAAGCAGGAAAAAGGTAAGTTGGACATTCTTTTTGCTAATGCAGGCATCGGCAACTTCCTTCCATTAGGTGAAATTACTGAAGAGCAGGTTGATAGAACGTTCGACATTAACGTTAAAGGAACCATCTTTACTGTTCAAAAAGCGTTATCACTATTCCCGGACAAAGCAGGTTCTATTATTGTAACGGGCTCTACTGCTGGATCAATTGGCAACCCAGCGTTTAGTGTATATGGAGCATCTAAAGCAGCATTAAGAGCACTAGTTCGCAACTGGATTCTTGACCTAAAAGGTACTGAAATCCGTGTAAATGTGGTTAGTCCAGGAGCTATTCTTACACCTGCCTACGATGAGCTTTTTGGTGATGCACTTGAAGAAGTAATGGAAAATAGCAGAAATACTGTTCCAGCTGGAAAAGTTGGGACACCTGAAGAAGTAGCAAACGCTGTATCTTTCCTTGCTTCAGACGAAAGCAGTTACTTGACGGGTGTTGAATTGTTCGTAGATGGCGGGCTAGCACAGGTATAA	MGKFEGKIALVTGGTSGIGLAAAQKFVNEGAYVYITGRRQNELDKAVNQIGKNVTGVQGDISKLEDLDKLYDMIKQEKGKLDILFANAGIGNFLPLGEITEEQVDRTFDINVKGTIFTVQKALSLFPDKAGSIIVTGSTAGSIGNPAFSVYGASKAALRALVRNWILDLKGTEIRVNVVSPGAILTPAYDELFGDALEEVMENSRNTVPAGKVGTPEEVANAVSFLASDESSYLTGVELFVDGGLAQV	PGPT0028940_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-CHLORAMPHENICOL|TRIMETHOPRIN_EFFLUX_PUMP_BpeEF-OprC,PGPT0028940-bpeT-K18900	NA	NA
D1-12_00540	198	queF_2	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGAACATCATCATGAATGATTTGATCGAATTAATGGACCCCGGCTGCATTGAAGTATGGGGCAAATTCACGCCTAGAGGCGGAATCTCGATTGACCCGTATACAAACTACGGCAGACCGGGAACAAAATATGAAAAAATGGCCGAACATCGGATGATGAATCATGATATGTATCCGGAGACGATTAACAACCGTTAA	MNIIMNDLIELMDPGCIEVWGKFTPRGGISIDPYTNYGRPGTKYEKMAEHRMMNHDMYPETINNR				NA	NA	NA	NA	NA
D1-12_00541	276	ykvR		putative protein YkvR	ATGGAGCCGTTAGAGTTAAACGGTGTAAGGCTGAAAATGTATGATTGTAAAGAAAGTGCGGGCAAAAACGGCCGCATGATTTCATTTGTATTGAAGGTGACCTCTGAAACGTATCATGATATTGCCGTCCTTTTGTATGAAAAAACATTTGACATCAAGGCGCCCGAGCGTGGGCTTGAATTCCGCGGTAAAATAACCAACTACTATACATCCGTCACAAATCTTTACAATAAAGATGAGACCGGTGATTTTTATGTAGAAATGACCGAGATCTGA	MEPLELNGVRLKMYDCKESAGKNGRMISFVLKVTSETYHDIAVLLYEKTFDIKAPERGLEFRGKITNYYTSVTNLYNKDETGDFYVEMTEI				NA	NA	NA	NA	NA
D1-12_00542	186			hypothetical protein	GTGAAAATTGCTAAGGTTGGAAACGTCATTGAATTTAAAAACGGATTAACCGGTATTGTTGAAAAAGTAAATGAAAACTCCGTCATCGTTGATGTAACCATCATGGATAATTATCGTGACCTTGAATTAGATTCCCTCACTGTCGTCAACCATAAGAATTATAAAATCATCAGAGACTCCTATTAA	MKIAKVGNVIEFKNGLTGIVEKVNENSVIVDVTIMDNYRDLELDSLTVVNHKNYKIIRDSY				NA	NA	NA	NA	NA
D1-12_00543	195			hypothetical protein	TTGCTGCCTGAGGAAATTTCAGAATGTATCAACCAAATGCGCACCGGTGAAATCAAAGAATTCAGGGTGCAGAAAGAACATTTTCTTGCATTTCGAGCGGTTTTGTCGAAGCAGGAAGATTTTAAGCATTTCCGCGGTATTGCCCAGCAGGGCGGGGATGTTATATTCCAGTATTTAGAACAGCCAAGAAGCTGA	MLPEEISECINQMRTGEIKEFRVQKEHFLAFRAVLSKQEDFKHFRGIAQQGGDVIFQYLEQPRS				NA	NA	NA	NA	NA
D1-12_00544	624	ykvT	COG3773	putative protein YkvT	ATGACGACAAAATTTGCTGCCTTGGCTGTCTTTTTTCTATGTTTTATGCCTGCATCAAAAATTGAACATACAGAAGCTCTGTTTACTTTTGCGAAGAAGCCAAAGCAAGAACCCAGCACACTGATTGCTGATTTAAATAAAAAAAGCTCGGTTCCGAAGCTTTCAAAAACGGATCATAAGCATTCTATTCAACCGATAAAGCTGTCATCTCACCAAGAGAAGGAAGCAAAACCGGAAGAGACGGCTTATCAGCCGCCGAAAAAAACGTATTCCCGCGCTGACAGACAACTTCTGGCACGTCTCGTTCACGCAGAAGCGAAAGGTGAATCTTATAAAGGGAAGGTTGCGGTAGCCAGCGTAGTGCTGAACCGCACTGAAAAAAACGGCTTCCCGGATACCATTCGGGGTGTGATCTATCAAAGGAATGCATTTGAACCGGTAGCAAACGGAAGCATTAATCAAAAGCCGGATAAGGATTCCGTCGCCGCCGCAAATGAGGCGCTTGACCATCCGGGCAGAGAAACGAACGCGTTGTTTTTCTACAATCCGAAAACGGCATCTGACCACTGGATCCGTTCCCGAAAAATTATCGAACGGATCGGCAGACACGTATTTGCGATGTAA	MTTKFAALAVFFLCFMPASKIEHTEALFTFAKKPKQEPSTLIADLNKKSSVPKLSKTDHKHSIQPIKLSSHQEKEAKPEETAYQPPKKTYSRADRQLLARLVHAEAKGESYKGKVAVASVVLNRTEKNGFPDTIRGVIYQRNAFEPVANGSINQKPDKDSVAAANEALDHPGRETNALFFYNPKTASDHWIRSRKIIERIGRHVFAM				NA	NA	NA	NA	NA
D1-12_00545	1341	ykvU	COG2244	Sporulation protein YkvU	ATGAATCGATTTGTGAAAGGGATCATTCTTTTATCCATCGCCGCCTTTTTCGCGGAATGTCTGGAATTTGTCGTGAATATGATACTGGCGCGGGAGCTTGGCGAGCATGGGATGGGGCTTTACATGAGCATTCTGCCCACCATTTTTTTAATTATCGTGATCGCCAGTCTGGAGCTTCCGATCTCCATTTCAAAATTCATCGCGGAATCCAATCAGAAGCTGCATGAAAGCATGCTCCGGCATGCCTTCAGAATGACCGCCGTTTTTACCGCGTTTTCAACCGCGGCCGCAAGCATCGCGCTGCCGTTCATTCCTGTATTCGATACGTATCACCCGTTTATTAAAGGGATTGTCATCGGGCTGATTCCAGTCGTCGCTTTTACATCCATCGCCAGAGGTTATTTTATGGGTGTGCAGCAAATGGGAAAAATCGCGGTTGCGAATGTCTTGAAAAAAATCATTCAAGTGCTTTGTCTGTTTATCTTTTTTCAATGGTACTCTTTTGAAATTGATATGGCCGTGCTCATTTCGTTATTTGTGCTGGTCGCAAGCGATGTTGTGGTGTTCGTTTACTTGTATACGCAGTTTATTTTGGCGCGGAGGGCGCTTTCCGGCCATCAGCACATTCATCTTCGCGGGAAAGACGTGCGGAAACGCCTCCTGGCCGTATCCATCCCGACAACGGGACTTCGTATATTTCATGCGGTGACAAACGCCATTGAACCCTTTTTAGTGAAAGGAGCGCTGCTGGCGTCCGGGGCAGCCGGGACAGCTGCGATTGATCAATACGGCATGCTAGCCGGTGTAGCGATGACAATCGGTTCGTTTCCCGCATTTATCGCCCATTCGCTGATGGTCGTCATGATTCCCAGCATTTCAGAAGCGTATGCGCTGTCCCAATATGATATTGTGCTGAAACGGCTGAGACAAGCGATTTTTATTACATTCGGCTACGGCATTCCGGCAGTCTGGGTCATGTTTCAGTTCGCGGGCCCGCTGACCCATTTGTTTTTTCAGTCTCCGGAAGCGCAGTATTATTTGCAGCTTTTGTGGCCGTTTTTTCTTTTTCACCTGTTTGTGATGCCGCTTCAGGCCTGTCTGATCGGCATCGGCCACGTGAAAACGGCGTTTTATCATAACGTATGGAGCAGCATTGTAGGGCTTTCGATGATGTATGTGCTCGGTTCTATGCCGGAATTGCAAATGCTCGGCATTATACTCGGCATGAATACCGGCATGATTCTTCTGACAAGTTTACATTACGCGACGATCTGCAAAGACCTCGGTGTCTCCGTGTTTTTGACGGGCGGCGGAAGAACAGCGCCCCGGATCGAAAGCTGA	MNRFVKGIILLSIAAFFAECLEFVVNMILARELGEHGMGLYMSILPTIFLIIVIASLELPISISKFIAESNQKLHESMLRHAFRMTAVFTAFSTAAASIALPFIPVFDTYHPFIKGIVIGLIPVVAFTSIARGYFMGVQQMGKIAVANVLKKIIQVLCLFIFFQWYSFEIDMAVLISLFVLVASDVVVFVYLYTQFILARRALSGHQHIHLRGKDVRKRLLAVSIPTTGLRIFHAVTNAIEPFLVKGALLASGAAGTAAIDQYGMLAGVAMTIGSFPAFIAHSLMVVMIPSISEAYALSQYDIVLKRLRQAIFITFGYGIPAVWVMFQFAGPLTHLFFQSPEAQYYLQLLWPFFLFHLFVMPLQACLIGIGHVKTAFYHNVWSSIVGLSMMYVLGSMPELQMLGIILGMNTGMILLTSLHYATICKDLGVSVFLTGGGRTAPRIES	PGPT0024825_767	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024825-spoVB-K06409	NA	NA
D1-12_00546	495	stoA	COG0526	Sporulation thiol-disulfide oxidoreductase A	ATGCATAAAAACCGCCTAATTGTATGTGCAGTCCTTTTGATAGCTGCCGCCGTCTGGATGCCTGAAGCAAACGCCTCATCAGAAAAACAGGCAGTTCCCGCCGTGTTTCTGATGAAGACGATTGAAGGAGACGAAATATCGATTCCGAATAAAGGGCAGAAAACGATATTGCATTTTTGGACATCGTGGTGTCCGCCGTGCAAAAAAGAACTGCCGCAGTTCCAAACGTATTATGAACAGCATCAGTCCGATGATGTAAGCCTTGTAACGGTAAATCTGATGAATGCCGAGCGAAACAAAAATACCGTTCAAAACTTTGTCAGTCAGCACCATCTCACTTTCCCGATTGTTCTTGACAAGAAAGGCGAGCTTATGAAGGAATACGATGTCATGACGATTCCCACGTCATTTCTGCTGAATGAAAAAGGAGAAATCGAAAAAAAGATCGTCGGTCCGATGACCGCCTCACAATTAAAAGAATGGTCAGAGAAATAA	MHKNRLIVCAVLLIAAAVWMPEANASSEKQAVPAVFLMKTIEGDEISIPNKGQKTILHFWTSWCPPCKKELPQFQTYYEQHQSDDVSLVTVNLMNAERNKNTVQNFVSQHHLTFPIVLDKKGELMKEYDVMTIPTSFLLNEKGEIEKKIVGPMTASQLKEWSEK				NA	NA	NA	NA	NA
D1-12_00547	1914	zosA	COG2217	Zinc-transporting ATPase	ATGAATGAACAAGTGATGACACAAACCCATTCACAACAGCACATACAAGAAGAGCGGGCCGGAAAAAAGTGGCTCCAGCATGCAGAACTCATTGCGGCGCTCGTATCCGGCGTCCTTATTCTTGCGGCCTGGTTTTTTACCGAAACAAAAGGCCTGTCCGTCACTTTGTATATCCTTGCCTTCCTGATCGGGGGATTTGCAAAAGCGAAAGAGGGAATTGAGGATACCATTGAGACGAAGGCGTTAAATGTGGAACTGCTGATGATTTTTGCGGCTGTCGGCTCCGCCCTGATCGGTTATTGGGCGGAAGGCGCTGTTCTTATCTTTATTTTTTCGTTAAGCGGCGCGCTTGAAACATATACGATGAATAAAAGCAGCCGTGATTTAACCTCTTTGATGAAACTGGAACCGGAGGAAGCGACCCTGCTTGCGGACGGACGGGAAAAGCGGGTGCCGGCTGCTGAACTTAAGATCGGTGACATGATCGTCATTAAGCCGGGCGAACGCGTAGCGGCAGACGGGATCATTGAGTCTGGCGTGACGAGCCTCGATGAATCGGCGCTTACGGGTGAAGCGATGCCGGCGGAAAAAACAGCCGGAGATTCTGTGTTTACAGGAACGGTAAACGGAAACGGCTCCTTAACTGTCCGTGTGACGAAAACAAATGAACAGTCTTTATTCAGAAAAATCATCCGGCTGGTGGAATCAGCCCAAAACAGCGTGTCACCGGCTCAGGCATTTATTGAGCGGTTCGAAAGTGTCTATGTCAAAGGCGTGCTGTTAGCCGTGGCTTTGCTTTTATTCGTTCCTCATTTCGCTTTAGGCTGGAGCTGGAGTGAAACCTTTTACCGGGCGATGGTGTTTATGGTGGTCGCCTCCCCGTGCGCGCTTGTCGCTTCTATTATGCCCGCTGCGCTTTCCCTTATCTCAAATGGGGCCCGCAACGGATTATTGGTTAAAGGAAGTGTGTTTTTAGAGCAGCTGGGAAGCGTACGGATGATCGCTTTTGACAAAACCGGCACGGTCACTAAGGGACAGCCGGCAGTCGCGGCATTTCAAGCTGCGGAAAATGTGAGTGAAGATGAGATCATGCAGGCGGTGTATGGGATAGAAAAGCAATCAAGCCACCCGCTTGCAAAAGCGATAGCTGAATTTGCCGAAAGCCGGGGCGCCGCGCCCGCAGGACATCTATCGATTGACGAGACGTCCGGATTCGGTGTTCAGGCTGAAATAGAAGGCGTCAAATGGATGGTCGGAAAAGCGGGATTTGCAGGTGAAGATGCGGCAGATGCTTTTTTGCAGACATCGGGAAAAGAATTAAAGGATAAAGGCTTTACACTGGTCTTTGTCAAGAAAGATGACCGGATTGCGGGCTGCTTTGCCTTAAAGGATCAAATCCGACCTGAAGCGAAAGCCGTGATGGCTGAGCTTGAATCACTGGGCATTAAAACAGCCATGCTCACCGGCGATCAGTCTGAAACTGCGGCTGCCATTGCAAAAGAGGCGGGCATGACGACGGTTGTTGCCGATTGTCTGCCGGACCAAAAGGCAAAAGAAGTGAAGAAGCTGAAAGAAACGTACGGCACAATCGCCATGGTGGGGGACGGCATTAATGACGCGCCCGCTCTGAAAACCGCTGACGTCGGTATTGCGATGGGCGGGGGAACGGACGTGGCTCTTGAAACGGCTGACTTAGTCCTTATGAAAAATGATCTTCACAAGCTTGTGAAAATGTGCAGACTCTCAAGGAAAATGAACCGGATTATTAAGCAGAATATTGTTTTCTCGCTCTCGGTCATCTGCCTTTTGATCTGCGCTAACTTTCTGCAGGTGATGGAACTGCCGTTTGGCGTGATCGGGCATGAGGGGAGCACGATTCTGGTCATACTGAACGGACTGAGATTATTAAAATAA	MNEQVMTQTHSQQHIQEERAGKKWLQHAELIAALVSGVLILAAWFFTETKGLSVTLYILAFLIGGFAKAKEGIEDTIETKALNVELLMIFAAVGSALIGYWAEGAVLIFIFSLSGALETYTMNKSSRDLTSLMKLEPEEATLLADGREKRVPAAELKIGDMIVIKPGERVAADGIIESGVTSLDESALTGEAMPAEKTAGDSVFTGTVNGNGSLTVRVTKTNEQSLFRKIIRLVESAQNSVSPAQAFIERFESVYVKGVLLAVALLLFVPHFALGWSWSETFYRAMVFMVVASPCALVASIMPAALSLISNGARNGLLVKGSVFLEQLGSVRMIAFDKTGTVTKGQPAVAAFQAAENVSEDEIMQAVYGIEKQSSHPLAKAIAEFAESRGAAPAGHLSIDETSGFGVQAEIEGVKWMVGKAGFAGEDAADAFLQTSGKELKDKGFTLVFVKKDDRIAGCFALKDQIRPEAKAVMAELESLGIKTAMLTGDQSETAAAIAKEAGMTTVVADCLPDQKAKEVKKLKETYGTIAMVGDGINDAPALKTADVGIAMGGGTDVALETADLVLMKNDLHKLVKMCRLSRKMNRIIKQNIVFSLSVICLLICANFLQVMELPFGVIGHEGSTILVILNGLRLLK	PGPT0004200_3783	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
D1-12_00548	1095			putative peptidase	ATGAACAGATTAGAACGTGTTTCATCTTGGCTGAAAAAAGAAGGACATGATGCGGCGTTTATACATACAAAGGAAAACGTATTTTATTTAACTGATTTTTACACGGATCCGCATGAGCGGTTAATGGGATTGTTCCTGTTTCAGGAACAGGAGCCGTTTTTCGTTTGTCCGGGAATGGAAGCCGGACAAGCCCGAAGCGCCGGGTGGGAGCATGGTATTATCGGCTACGGCGATCACGAAGACCCGTGGGAGCTGATCAAAGCCGAGCTCACAAAACGAAATGTGCGGCTTGATTCCATCGCGGTTGAAAAGGATTCGATCTCTCTTTCCCGCTCAGAACAGCTCAAACAAGCTTCAGGGGGCGCGGCATTTGTTTCGGCAGAAGAAACGCTCAACCAATTCCGTCTCGTAAAAGATGAGAAGGAAATCAGCATTCTCAGGGAAGCGGCAAAACTCGCGGATTACGGAGTTGAAGTCGGTGTCGCGGCGCTTAAAGAGGGTGTGAGTGAAACCGAAGTACTCGCGCAGATTGAGTTTGAGCTGAAGAAAAAAGGCGTGCAGGGCATGTCATTTTCAACGATGGTGCTGTTCGGGGAAAAATCAGGCCAGCCCCATGGAAATCCGGGTGCAGACCGATTGAAAAAAGGCGATTTCGTTCTGTTTGATCTGGGCGTTATTCTTGACGGCTACTGTTCAGACATTACGAGAACGTTCGCATACCAATCAATCAGCCCGAAACAGGAAGAGATTTACGAAACGGTGCTTAAAGCTGAACAGGCGGCGCTTCAATTAAGCAAACCCGGCGTCAGAATCGGCGATCTTGATTTAAAAGCCCGCGGCATTATTGAAAAAGCCGGATACGGAGACTATTTCCCGCACCGCCTCGGCCACGGACTCGGGATTTCGGTTCACGAATATCCATCAATGAGCAGCGCGAACGACACACTCCTCAAAGAAGGCATGGTCTACACGATAGAACCGGGGATTTACGTGCCGGATGTCGGCGGCGTGCGCATTGAAGACGATGTGTTCGTCACAAAAGACGGCGCCGAAGCATTAACGCAGTATCCGAAAGAATTAACGATTCTGAAATAG	MNRLERVSSWLKKEGHDAAFIHTKENVFYLTDFYTDPHERLMGLFLFQEQEPFFVCPGMEAGQARSAGWEHGIIGYGDHEDPWELIKAELTKRNVRLDSIAVEKDSISLSRSEQLKQASGGAAFVSAEETLNQFRLVKDEKEISILREAAKLADYGVEVGVAALKEGVSETEVLAQIEFELKKKGVQGMSFSTMVLFGEKSGQPHGNPGADRLKKGDFVLFDLGVILDGYCSDITRTFAYQSISPKQEEIYETVLKAEQAALQLSKPGVRIGDLDLKARGIIEKAGYGDYFPHRLGHGLGISVHEYPSMSSANDTLLKEGMVYTIEPGIYVPDVGGVRIEDDVFVTKDGAEALTQYPKELTILK	PGPT0006760_2587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271	NA	NA
D1-12_00549	126			hypothetical protein	ATGGGGATTCTTTGCTTAATCGGTTTGTGTCTGGCCATAGTCGGCGGCAGTTACCTTGCCATGCGGCCCCTGAATGAAAAGCATGACATCAAACCATTTCAGCATTTTGATGATTTTTTCATTTAA	MGILCLIGLCLAIVGGSYLAMRPLNEKHDIKPFQHFDDFFI				NA	NA	NA	NA	NA
D1-12_00550	966	ccpB_1		Catabolite control protein B	ATGGCTACGATCAGAGACATTGCCGGCGCTGCCGGGGTTTCCGTTACAACGGTATCAAGAGTGTTAAACGATCATCCTTATGTAAGTAAGGACAAAAGAGAAAGAGTGAAAAAAGCGATGCAATCGCTCGGATATACGCGCAACATTCATGCTGTGCATTTATCCAAAGGTTTTTCCGATATGATCGGCGTTGTGCTTCCGTCGGTGAATCTTCCGTATTTTGCAGACCTTGTTGCAGGTATTGCCGAGGCTGCCGAAACGTCAGGCGTGCATCTTTCTTTATACCAGACAGATTATCAGCAGCAAAAAGAACGTTTTGCCTTATCACAATTACAGGAGCGCCAAGTGGACGGCCTGATTATCTGCTCCAAAGCAATTCCTGATGAGCATCTGCTTACCGTGAAAGAACCGCTCATCCTCTGCCAGTACACTGATGCGGCAGGGCTTTCCTCCATCAGTAATCCGCATCGGGAAGCATTTCGGCACGGTCTGGATTATCTGATAGAAAAGGGACACCGGAAAATAGCGATCAGCCTAGCCAGAAAAAAGGGAAAAAACAGTCAAGTACGCATTGCCGCATACAAAGAGGCGCTGAAGAAGATCGGGCAGCCTTACAGGGAAGAGCTGGTTGTGGAAAAGGCGCTGACGCTGCTTGACGGGAAAGCCCTTTTTCATAGATGGAAGAGCTGGGATGACAAACCGACTGCGCTGTTTGCAGCGAATGATCAAGTATCCGCAGGTCTTTACCTTGAAGCCAAGGCAAACGGGACACGCATCCCGGAAGAGCTTGCGATTTTGAGCATCGACAATCATGATATCAGCAAGATGTTAGGTATTTCCACAATAGATATACAAACAAAAGAAATGGGAAAGCAGGCTTTTCACATGCTTGAGAACAGGATCAGCGGCGGGCCTCCGGCAAGGAAAGTTCTTGATTACCGCCTTATTGAACGATCAACCGTCTAA	MATIRDIAGAAGVSVTTVSRVLNDHPYVSKDKRERVKKAMQSLGYTRNIHAVHLSKGFSDMIGVVLPSVNLPYFADLVAGIAEAAETSGVHLSLYQTDYQQQKERFALSQLQERQVDGLIICSKAIPDEHLLTVKEPLILCQYTDAAGLSSISNPHREAFRHGLDYLIEKGHRKIAISLARKKGKNSQVRIAAYKEALKKIGQPYREELVVEKALTLLDGKALFHRWKSWDDKPTALFAANDQVSAGLYLEAKANGTRIPEELAILSIDNHDISKMLGISTIDIQTKEMGKQAFHMLENRISGGPPARKVLDYRLIERSTV	PGPT0021075_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-12_00551	846	glcT	COG3711	PtsGHI operon antiterminator	ATGAAGGGGTCCTTTACAGTTGAAAAGGTATTAAATAACAATGTGCTCATCGCAACACATGATAGATACAGTGAGGTCGTCTTAATCGGAAAAGGGATCGGCTTTGGAAAAAAACAAGCGGATGTCATTGAAGATAAAGGGTATGACAAGATGTTCATCTTAAAGGATGAAAAAGAACAAAAACAATTTAAAAAGCTCCTCGGTTATGTGGACGAGACACTTGTCGACATCTCCAATGACGTCATTTATCATATCAAGAAGCGGACAAGCCAACCGTTAAATGAGCATATCCATATTGCGCTGACTGACCATATCGCCTTTGCGGTAAAGCGGCTGCAGCAGGGCTTTGACATTAAAAACCCGTTTCTTATGGAAACCGAAACGCTTTATCCGGAAGAATTCCAAATTGCCCGTGAAGTCGTCGGCATGATTAATGAAAAGACGGGAATCTGCCTTCCGGAAGGAGAGATCGGCTTTATCGCTCTGCATATCCATTCCGCCCTGACGAATCGGCCCCTTTCAGAGGTCAATCAGCATTCACAGCTGATGTCCCGGCTCGTTCAGGTGATTGAGGAATCTTTCCAGATGAAAGTGAATAAAGAAAGCGTCCACTATTTGCGGCTGATCCGGCATATCAGATTTACCATAGACAGGATTAATCGGGAAGAGCAGACAAAAGAACCAGAAAAGTTAATGTTATTATTGAAAAATGAATACCCGCTATGCTACAATACTGCTTGGAAACTGATAAAAATCTTGCAGCAAATACTGAAAAAACCAGTTCATGAGGCGGAAGCGGTTTATCTCACGCTTCATTTGTACCGATTAACCAATAAAATTTCATAA	MKGSFTVEKVLNNNVLIATHDRYSEVVLIGKGIGFGKKQADVIEDKGYDKMFILKDEKEQKQFKKLLGYVDETLVDISNDVIYHIKKRTSQPLNEHIHIALTDHIAFAVKRLQQGFDIKNPFLMETETLYPEEFQIAREVVGMINEKTGICLPEGEIGFIALHIHSALTNRPLSEVNQHSQLMSRLVQVIEESFQMKVNKESVHYLRLIRHIRFTIDRINREEQTKEPEKLMLLLKNEYPLCYNTAWKLIKILQQILKKPVHEAEAVYLTLHLYRLTNKIS	PGPT0014761_223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE_USAGE_REGULATION,PGPT0014761-licT|bglG-K03488	NA	NA
D1-12_00552	2097	ptsG	COG1263	PTS system glucose-specific EIICBA component	ATGTTTAAAGCATTATTCGGCGTTCTCCAGAAAATCGGCCGTGCTCTTATGCTTCCGGTTGCGATTTTACCGGCTGCGGGGATCTTGCTTGCGTTAGGGAATGCCATGCAGAACAAAGATATGATTCAAGTCATGCATTTCTTAAGCAATGATAACGTTCAGCTTGTGGCGAACGTCATGGAAAGCGCCGGCCAAATCGTATTTGACAACCTGCCGCTTCTTTTTGCAGTAGGGGTTGCGATCGGTCTTGCCAACGGAGACGGTGTTGCCGGAATCGCGGCTATTATCGGATACTTGGTCATGAACGTATCCATGAGCGCCGTGCTTATGTCAAACGGCAGTATTCCGTCTGACAAAATTGAACGGGCAAAGTTTTTTGCGGAAAACCATCCGGCCTATATTAACATGCTGGGGATACCCACTTTGGCGACGGGTGTGTTCGGCGGTATTATCGTCGGGGTTCTGGCCGCGTTATTGTTCAACAAGTTTTATAAAATTGAACTTCCGCAGTACCTCGGATTCTTTGCGGGTAAGCGGTTCGTCCCGATTATCACATCAATTTCCGCATTAATTCTCGGTCTTATTATGTTAGTGATCTGGCCTCCGATCCAGCACGGTCTGAATTCCTTCTCCACGGGTCTTGTGGAAGCGAATCCAACCTTGGCGGCCTTTATTTTCGGGATGATTGAGCGGTCATTGATTCCGTTCGGTCTTCATCACATTTTCTACTCGCCGTTCTGGTATGAATTTTTCAGCTATAAAAATGCCGCCGGAGACATCATCCGCGGAGATCAGCGGATTTTCATGGAGCAGATCAAAGACGGCGTGCAGCTGACGGCGGGAACATTTATGACGGGGAAATATCCGTTTATGATGTTCGGTCTTCCGGCGGCAGCACTTGCAATCTATCATGAAGCGAAGCCTGAAAAGAAAAAACTTGTAGCCGGAATCATGGGTTCTGCCGCTCTGACAAGTTTCTTAACGGGAATTACCGAGCCGCTTGAATTCTCATTCTTATTTGTGGCTCCTATCCTGTTTGCGATTCACTGCGTATTCGCGGGGCTTTCCTTTATGGTTATGCAGCTGCTGCATGTAAAAATCGGTATGACCTTCTCAGGCGGTCTGATTGACTACTTCCTGTTCGGAATTCTGCCTAACCGGACGGCTTGGTGGCTTGTCATTCCGGTCGGCTTAGGATTAGCCGTCATTTACTACTTCGGTTTCCGGTTTGCGATCAGAAAGTTCAATCTGAAAACGCCGGGCCGTGAAGAAGAGGCTGCGGATGAAGGTGCGGGCGCCTCAGGCGAAGCCGGCGACCTTCCTTATGAAATCCTGCAGGCAATGGGTGATCAGGAAAACATTAAGCACCTTGACGCTTGTATCACGAGACTCCGCGTTACGGTCAACGACCAGAAGAAAGTGGATAAGGCCCGTCTGAAACAGCTTGGCGCCTCAGGCGTTCTTGAAGTCGGAAACAACATTCAGGCCATTTTCGGCCCGCGTTCTGACGGTTTAAAAACACAGATGCAGGATATTATCGCCGGACGCACGCCGCGCCCTGAACCGAAAGTATCCGCACAAGAAGAAGTCAGCCAGCAGGTTGAAGAGGTTATCGCAGATCCGCTCCGAAACGAGCAGGGTGAAGAAGTGTTCGCTTCTCCGATCACCGGCGAAATCCATCCGATTACCGATGTGCCTGACCAGGTATTCTCAGGAAAAATGATGGGTGACGGTTTTGCGATTCTTCCTGAAGAAGGAATCGTCGTATCGCCTGTCCGCGGAAAAGTGCTGAATGTTTTCCCGACAAAACATGCGATCGGCCTTCAGTCTGACGGCGGAAGAGAGATCCTCATTCATTTCGGAATCGACACAGTCAGCCTGAAAGGTGAAGGATTCACTTCTTTTGTTTCTGAGGGTGACCGGGTTGAACCGGGGCAAAAACTGCTTGAAGTTGATCTTGAAGCGGTTAAACCTCATGTTCCTTCATTAATGACACCGATTGTTTTTACAAATCTTGCCGAGGGTGAAGCGATTTCCCTTTCGGCCGAAGGTACCGTAAAACGGGAACAAAAAGATATTGTGAAAATCGGAAAATAA	MFKALFGVLQKIGRALMLPVAILPAAGILLALGNAMQNKDMIQVMHFLSNDNVQLVANVMESAGQIVFDNLPLLFAVGVAIGLANGDGVAGIAAIIGYLVMNVSMSAVLMSNGSIPSDKIERAKFFAENHPAYINMLGIPTLATGVFGGIIVGVLAALLFNKFYKIELPQYLGFFAGKRFVPIITSISALILGLIMLVIWPPIQHGLNSFSTGLVEANPTLAAFIFGMIERSLIPFGLHHIFYSPFWYEFFSYKNAAGDIIRGDQRIFMEQIKDGVQLTAGTFMTGKYPFMMFGLPAAALAIYHEAKPEKKKLVAGIMGSAALTSFLTGITEPLEFSFLFVAPILFAIHCVFAGLSFMVMQLLHVKIGMTFSGGLIDYFLFGILPNRTAWWLVIPVGLGLAVIYYFGFRFAIRKFNLKTPGREEEAADEGAGASGEAGDLPYEILQAMGDQENIKHLDACITRLRVTVNDQKKVDKARLKQLGASGVLEVGNNIQAIFGPRSDGLKTQMQDIIAGRTPRPEPKVSAQEEVSQQVEEVIADPLRNEQGEEVFASPITGEIHPITDVPDQVFSGKMMGDGFAILPEEGIVVSPVRGKVLNVFPTKHAIGLQSDGGREILIHFGIDTVSLKGEGFTSFVSEGDRVEPGQKLLEVDLEAVKPHVPSLMTPIVFTNLAEGEAISLSAEGTVKREQKDIVKIGK	PGPT0016870_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0016870-ptsG|glcA|glcB-K20118	NA	NA
D1-12_00553	267	ptsH	COG1925	Phosphocarrier protein HPr	ATGGCACAAAAAACATTTAAAGTAACAGCAGATTCCGGAATCCACGCTCGTCCTGCGACAGTTCTTGTACAGACTGCAAGCAAATACGATGCTGACGTAAACTTAGAATATAACGGCAAAACAGTAAACCTTAAGTCAATCATGGGTGTTATGTCTCTAGGTATCGCTAAAGGCGCTGAAATCACAATTTCCGCTTCAGGCGCTGACGAAAACGATGCTCTTAACGCTTTAGAAGAAACAATGAAAAGCGAAGGACTCGGCGAGTAA	MAQKTFKVTADSGIHARPATVLVQTASKYDADVNLEYNGKTVNLKSIMGVMSLGIAKGAEITISASGADENDALNALEETMKSEGLGE	PGPT0016875_1097	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
D1-12_00554	1716	ptsI	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGCAAGAATTAAAGGGAATAGGCGCTTCAGCCGGAATTGCGATTGCGAAAGCATACCGGCTTGAAGAGCCGGACTTAACGGTTGAAAAGAAAAACATTGCTGATGCTGCGGCTGAAGTAAGCCGTTTTGATGAAGCGATTGTACGTTCTAAAGAAGAGCTTGAAAAAATTAAAGAGCATGCTTTAAAAGAACTGGGACAAGACAAAGCTGACATTTTCTCCGCGCACCTTTTAGTTCTGAGTGATCCTGAGCTGTTGAACCCGGTAAAGGAGAAAATCAGCACAGATTCAGTCAATGCTGAATTCGCTCTGAAAGAAACAGCTTCCATGTTCGTTACTATGTTTGAATCAATGGATAACGAGTACATGAAAGAGCGTGCGGCGGATATCCGTGACGTAACAAAACGTGTGACGGGGCACCTGCTGGGCGTGGAAATTCCGAACCCGAGCATGATCTCAGAAGAGGTTGTTATCGTGGCTGAAGATTTGACACCGTCTGATACGGCGCAATTAAACCGCCAGTTTGTAAAAGGTTTTACAACTGATATCGGCGGACGCACTTCACACTCCGCGATCATGGCCCGTTCGCTTGAAATTCCGGCTGTTGTCGGCACAAAAGCGGCTACAGGGACAATTGAAAACGGTGTTACGGTAATCGTAGACGGCATCGATGGTGATGTGATCATCGATCCTTCCCGTGAAACGTTAAAGAAATATGAAGAAAAGCACAGTGCTTACCTGGCGCAAAAAGCTGAGTGGGCGAAGCTCGTCAATGAACCGACTGTTTCTAAAGACGGCCATCATGTAGAGCTTGCCGCAAACATCGGCACCCCGGATGATGTAAAAGGCGTTCTTGAAAACGGAGGAGAAGCTGTAGGGCTTTACCGTACGGAATTCCTTTACATGGGACGCGACCAGCTTCCGACGGAAGACGAGCAGTTTGACGCTTATAAAACGGTTCTTGAGCGTATGGAAGGAAAATCAGTTGTCGTGCGGACATTGGATATCGGCGGCGACAAAGAGCTTCCTTACCTGCAGCTCCCTAAAGAAATGAACCCGTTCTTAGGCTACAGAGCCATCCGCCTTTGCCTTGAAGAGCAAGAAATCTTCAGAACTCAGCTTCGTGCGCTGCTTCGTGCAAGTACATACGGAAACTTAAAAATCATGTTCCCGATGATTGCGACAGTAAACGAGTTTAAACAGGCGAAAGCGATTCTTCTCGAAGAAAAAGAAAAACTCGTTGAAGCCGGCGTAGCGGTTTCTGACGATATTGAAGTCGGTATGATGGTAGAGATTCCGTCTACAGCCGTTATCGCAGATCAGTTTGCCGCAGAAGTTGACTTCTTCAGTATCGGAACAAATGACTTAATCCAATACACGATGGCTGCTGACCGCATGAACGAGCGCGTAGCTTATCTGTATCAGCCATACAATCCGGCGATCCTTCGTCTGGTCACCCTTGTTATTGAAGCTGCTCACAAAGAGGGCAAATGGGTCGGCATGTGCGGAGAAATGGCGGGAGACGAAATTGCGATTCCGATTCTTCTCGGCTTAGGCTTAGATGAGTTCTCAATGAGCGCTACATCCATCCTTCCGGCAAGAACGCAGATCAGCAAGCTTTCTAAAAAAGAAGCTGAATCATTCAAAGAAACAATCTTGTCTATGAGCACGACAGAAGAGGTTGTCGCATTCGTTAAAGAAACATTCAATAAGTAA	MQELKGIGASAGIAIAKAYRLEEPDLTVEKKNIADAAAEVSRFDEAIVRSKEELEKIKEHALKELGQDKADIFSAHLLVLSDPELLNPVKEKISTDSVNAEFALKETASMFVTMFESMDNEYMKERAADIRDVTKRVTGHLLGVEIPNPSMISEEVVIVAEDLTPSDTAQLNRQFVKGFTTDIGGRTSHSAIMARSLEIPAVVGTKAATGTIENGVTVIVDGIDGDVIIDPSRETLKKYEEKHSAYLAQKAEWAKLVNEPTVSKDGHHVELAANIGTPDDVKGVLENGGEAVGLYRTEFLYMGRDQLPTEDEQFDAYKTVLERMEGKSVVVRTLDIGGDKELPYLQLPKEMNPFLGYRAIRLCLEEQEIFRTQLRALLRASTYGNLKIMFPMIATVNEFKQAKAILLEEKEKLVEAGVAVSDDIEVGMMVEIPSTAVIADQFAAEVDFFSIGTNDLIQYTMAADRMNERVAYLYQPYNPAILRLVTLVIEAAHKEGKWVGMCGEMAGDEIAIPILLGLGLDEFSMSATSILPARTQISKLSKKEAESFKETILSMSTTEEVVAFVKETFNK	PGPT0002025_1996	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0002025-ptsI-K08483	NA	NA
D1-12_00555	240			hypothetical protein	ATGACAAAATCATTTGCAGCGGGGGATACGGTCTATGTGATTTACCGCAATCCGCATGCCGCCAATGTTGCCCATATTAAAGAGGCGGAGATCGTCCATCACCCGTATCATGAGGGAGAACTTTCTCTGTTTTTATACGAAACCTATCATCCGCTGGCCGAAGATGACGCGGTCTTTTCGACATATGAGGAAGCGGAAGCGCTTTACAGCGAGCTTTTTGAAGAAGACCGGTATCATTGA	MTKSFAAGDTVYVIYRNPHAANVAHIKEAEIVHHPYHEGELSLFLYETYHPLAEDDAVFSTYEEAEALYSELFEEDRYH				NA	NA	NA	NA	NA
D1-12_00556	1029	splB	COG1533	Spore photoproduct lyase	ATGCTGAAGCCGTTTGTTCCCCAGCTTGTTTATATAGAACCGAGAGCGCTCGAATACCCGTTAGGACAAGAGCTGAAAAATAAGTTTGAAAACATGGGGCTTGAGATCAGAGAAACGACATCGCATAATCAAGTCCGGAATATTCCGGGAAAAAATCACTTGCAGCAATACCGGAACGCGAAATCAACATTGGTAATCGGCGTCCGGAAAACACTGAAATTCGATTCTTCAAAGCCGTCCGCCGAATATGCCATTCCGTTTGCGACGGGCTGTATGGGGCATTGCCACTATTGCTACCTGCAGACGACGATGGGGTCAAAGCCTTACATCCGGACATATGTCAATGTGGAAGAGATTCTGGATCAGGCTGATGAGTATATGAAAGAACGGGCGCCGGAATTTACAAGATTTGAAGCCTCTTGTACGTCTGATATCGTCGGAATCGATCATCTGACACATACATTAAAAAGAGCCATTGAACATTTCGGACAAAGCGAATTGGGACAGCTCAGATTCGTGACTAAATTTCACCACGTCGATCATTTGCTTGATGCAAAACATAACGGAAAGACAAGGTTCAGATTCAGCATCAATGCGGACTATGTCATTAAAAACTTTGAACCGGGAACTTCTCCGCTCGACAAACGGATAGAAGCCGCCGTCAAAGTCGCTAAAGCGGGCTATCCGCTCGGTTTCATCGTGGCGCCGATTTATATTCACGATGGCTGGGAGGAAGGCTATAAGGAACTGTTTGAGAAACTTGACGCGGCGCTTGATGAAGACGTTCGGCATGACATCACATTTGAACTGATCCAGCACCGTTTTACAAAACCGGCCAAACGGGTGATTGAGAAGAACTATCCGAAAACAAAGCTTGAGCTTGATGAAGAAAAGCGCAGATACAAATGGGGACGCTACGGAATCGGCAAGTATATATACCAAAAAGACGAAGAGCATGCTTTAAGGGAAACATTGGAGTCTTATATCGAAACCTATTTCCCGAAAGCGAAAATCGAATATTTTACGTAA	MLKPFVPQLVYIEPRALEYPLGQELKNKFENMGLEIRETTSHNQVRNIPGKNHLQQYRNAKSTLVIGVRKTLKFDSSKPSAEYAIPFATGCMGHCHYCYLQTTMGSKPYIRTYVNVEEILDQADEYMKERAPEFTRFEASCTSDIVGIDHLTHTLKRAIEHFGQSELGQLRFVTKFHHVDHLLDAKHNGKTRFRFSINADYVIKNFEPGTSPLDKRIEAAVKVAKAGYPLGFIVAPIYIHDGWEEGYKELFEKLDAALDEDVRHDITFELIQHRFTKPAKRVIEKNYPKTKLELDEEKRRYKWGRYGIGKYIYQKDEEHALRETLESYIETYFPKAKIEYFT				NA	NA	NA	NA	NA
D1-12_00557	2079	mcpC	COG0840	Methyl-accepting chemotaxis protein McpC	ATGACGGCTCTTTTTTTGCTGCGCCAAATGGCGGAAATTTTTGATATTTATTTCAAGGTTTATTCATTTTCTTGGCCGAAAGACCGATATAACTCTCAGGAGGGGATGGTTATGTTTAAAAAAATGCACATCAAAATTGCTGTGTTTGTATCGGCAATGCTTATTGTAACGGTTGTTTTTTTAACGGTTTCTTCATATTTGACATTAAAGCCGATGATGACGGAGGAAGCAAAACGTACGACAGAGAATGTCACCAATTCACTCGGTCAGAACATTGAGCTTCAGCTGAAAAATGATGAGACCGTATTAATGAGATTAGCAGGCGGTGAATTGTCCCGGTCTTTTCTATCAGATGGGAAGAAAGAAACCGCGCGGCTTTTTAACGATGAGTTAAAACAGATCGGACGGAATGACAAATATGTCGCGCTTGCGTACGTCGGAACCGCAAACAAACAAATGTTTACATACCCAAAGGCCGAATTTGCCAAAGACTATGATCCGACAAATAGAACGTGGTATAAGATGGCGGCCGAAAAACCCGATAAAGTTGTCTGGACTGCCCCTTATAAAGATGCAGTGACGGGAGACATGATTGTGACGGCGTCAAAAGCCATTCAAAACAGCGGAACCGTCGTCGGAGTGGCGAGCTTAGATCTGAAGCTGTCCTCCATTCAGAGCATGGTCAACGAGCAAAAGGTCCCGTATAAAGGATTTGCGTTTTTGGCGGATGAAAACGGTTCTCTGCTGGCGCATCCGGAAAAACAGGGAAAAAATATTTCGGAAGATCAGACGTTAAAAGACATCACTACGGATAAAGAAGGCATCAAAGAGCTGCAGGGGAACATGGTCGTCTACCAAACGGTAAAAGAAACAGGGTGGAAAGTCGGAACGCAGTTTGAAAAAGATCAGCTGATGGGAGTTGCCGACAAAATGAACACGGTGAGCATTTTTATGTCACTGATCGCCCTTGTGATTACGATCGGACTCAGCTATTTACTAGCAAAAACGATAACCGGGCCGATTCAGCAGCTGATCGCCAAAACAAATTCAGTCTCAGCCGGAGATTTAACCGTCCGCGCCCAGACGAAATCAAAAGATGAAGTAGGCGAGTTAACAAAAGACTTTAATCAAATGGTTGAAAATATGAAAGAGATGGTCGAACAGGTTAAGGCCTCCTCAGAAAATGTGTCTGATACATCTGACCAGCTAACCGTCATTTCACAAGAAACAAATGAAACGAGCGGACAAATCGCAAAAGCGATAGAGGAAGTCGCCGCCGGAGCGACAGAGCAAGCGTCAGAGGTTGAGACGATCAACGAAAAATCAGAAAATCTCTCAGTCAAAATAAAAGGAATCGCAGATCGCGCAGGCAGCATAAAACAACTCTCCAAATCTTCAGAGGATGCCAGCTACAAAGGACTGGACGCGCTCGGGCAGCTGCTGATGAAGTCAAACGAAGCCAATTCAGAAACGAAAAAAGTAGAGGCAATGCTGAATGACCTGGAAGAACAAACGAAAAACATAGAAGAAGTCGTGACGGCAATATCCGCCATTTCAGACCAGACGAACCTCTTGGCGCTGAATGCGAGCATTGAAGCCGCAAGAGCGGGAGAAAGCGGCCGGGGCTTTGCCGTCGTCGCGGAAGAAGTCCGCAAGCTTGCTGAACAATCAGCTCTTTCTTCCGGCCATATCAGTGAAACGGTCCGGCTGATTCAATCTGAGACAAAAGAAGCGTCACACGCGATGATTGAGGCAAGCAGAATGAATGATGAACAAAACAGCGCCATTCATGAAACGGGTGAGGTCCTCAATCTGATTACGACGGAAATGCAGTCTCTCGTTCAAGGTATAGATCATATTTACAATGACATTCAAAAAATGAGTGAAGAACAAGCCGCGATTCAAGAAGCGATTCAAAGCATCTCCGCCATTTCTCAAGAATCAGCGGCAGCCGCGGAAGAAGTGAATGCTTCTACTGATGAACAGCTCGTTACGCTTGAAAAAGTGAAGCAATCGACTGATATGTTAAAGAGCGCAAGCGAAGATCTGATCAGCGCCATTTCTAAATTCACCTTGTAA	MTALFLLRQMAEIFDIYFKVYSFSWPKDRYNSQEGMVMFKKMHIKIAVFVSAMLIVTVVFLTVSSYLTLKPMMTEEAKRTTENVTNSLGQNIELQLKNDETVLMRLAGGELSRSFLSDGKKETARLFNDELKQIGRNDKYVALAYVGTANKQMFTYPKAEFAKDYDPTNRTWYKMAAEKPDKVVWTAPYKDAVTGDMIVTASKAIQNSGTVVGVASLDLKLSSIQSMVNEQKVPYKGFAFLADENGSLLAHPEKQGKNISEDQTLKDITTDKEGIKELQGNMVVYQTVKETGWKVGTQFEKDQLMGVADKMNTVSIFMSLIALVITIGLSYLLAKTITGPIQQLIAKTNSVSAGDLTVRAQTKSKDEVGELTKDFNQMVENMKEMVEQVKASSENVSDTSDQLTVISQETNETSGQIAKAIEEVAAGATEQASEVETINEKSENLSVKIKGIADRAGSIKQLSKSSEDASYKGLDALGQLLMKSNEANSETKKVEAMLNDLEEQTKNIEEVVTAISAISDQTNLLALNASIEAARAGESGRGFAVVAEEVRKLAEQSALSSGHISETVRLIQSETKEASHAMIEASRMNDEQNSAIHETGEVLNLITTEMQSLVQGIDHIYNDIQKMSEEQAAIQEAIQSISAISQESAAAAEEVNASTDEQLVTLEKVKQSTDMLKSASEDLISAISKFTL	PGPT0015710_4468	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
D1-12_00558	867	garR_1	COG2084	2-hydroxy-3-oxopropionate reductase	GTGAACAAAACGGTCGGATTTATCGGTTTGGGCGTCATGGGAAACAGTATGGCATCGCACATTTTAGAAGCGGGCTATCCGGTTTTAGTCTACACGCGGACGAAACAAAAAGCGGAAGAGATTCTGAATAAGGGAGCGGTCTGGCAGGAGACGGTCAAAGACCTTTCAGAGAAAGCAGACATCATTATTACCATGGTCGGCTATCCGAGTGATGTCGAGGAAATCTATCTCGGCGAAAACGGCATTCTCCGGCACGCAAAAGAAGGGGCGTTTGTCATTGATATGACGACATCAAAACCGTCTCTGGCGAAGAAAATAGCGGAGAAAGCCAAAGAAAAATCCATTCTCGCCCTGGATGCACCCGTTTCCGGCGGAGACATCGGCGCGAGGAACGGAACGCTTGCCATTATGGCCGGAGGAGAAAAAGAAGCGTTTGAAGCATGCCTGCCGCTTTTCTCCGTTATGGGGGAAAACATTCAGTATCAAGGGCCGGCTGGCAGCGGCCAGCATACGAAAATGTGCAATCAGATCGCGATTGCAGCGGGAATGGTCGGAGTGGCTGAAGCGATGGCTTACGCTGAAAAATCCGGTCTGAACCCGGAACAAGTGCTGAAAAGCATTACAACCGGAGCGGCTGGCAGCTGGTCATTGTCAAATCTCGCCCCCCGTATGCTGAAAGGCGATTTTGCGCCCGGATTCTACGTGAAACACTTTATTAAAGACATGGGCATTGCCCTTGAAGAAGCGGAGCTCATGGGAGAAGAAATGCCCGGATTGGCTCTTGCCAAATCATTGTACGACAAGCTTTCCGCGCAAGGTGAAGAAAACAGCGGAACTCAAAGCATTTATAAGCTTTGGGTGAAATAA	MNKTVGFIGLGVMGNSMASHILEAGYPVLVYTRTKQKAEEILNKGAVWQETVKDLSEKADIIITMVGYPSDVEEIYLGENGILRHAKEGAFVIDMTTSKPSLAKKIAEKAKEKSILALDAPVSGGDIGARNGTLAIMAGGEKEAFEACLPLFSVMGENIQYQGPAGSGQHTKMCNQIAIAAGMVGVAEAMAYAEKSGLNPEQVLKSITTGAAGSWSLSNLAPRMLKGDFAPGFYVKHFIKDMGIALEEAELMGEEMPGLALAKSLYDKLSAQGEENSGTQSIYKLWVK	PGPT0018170_960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
D1-12_00559	393			hypothetical protein	TTGAAAAAAATTGTAATGACACTATTCACAGTTGCTCTTTTGACATTCGGGATTTTCTCAAACAGTTCAGAAGCGTTAGCCATGACTTCAAAAGGAGCAATTAAATTCCAAACAGATGCTAATACTTACTCAAAACACGCTACTTCTATTGTCGTAACAGGTACTGTGCCTACAAAATATGAGGTGAACGAGGGTGTTAATGTTCTTCTTGTCAATAAAAAAAGAGATGTAGTCAAAGACATATATGTTAATGGCCGTAATATTCGCAGTTTTAAAGTGAGCTTTTTGACAAAAAATATTCCAGCAGGCAAGTATGATGTGGTGGTAGCATTGACTTGGGGAAATCAAACCCATAGAGGAGAACTGAAACACTATATTACTGTACAACATTAA	MKKIVMTLFTVALLTFGIFSNSSEALAMTSKGAIKFQTDANTYSKHATSIVVTGTVPTKYEVNEGVNVLLVNKKRDVVKDIYVNGRNIRSFKVSFLTKNIPAGKYDVVVALTWGNQTHRGELKHYITVQH				NA	NA	NA	NA	NA
D1-12_00560	777			hypothetical protein	ATGAAAAAAGCATTTCTCTTATCTGCCGCCGCGGCAGTCAGTTTGATTACATTCGGAGGCATTCAGCAGGCATCTGCCAAAGAGCTGTCATGCCAGCACGTCGTTACCGTGAAAAAAGGAAACACCGTACAGCATCTGACTCTTCAAGAGGCTGTTGAAAAACTACATATGAAAACGAGCGCGAAACAGCTGAACGTTAAAAATGAGAAAGAACTGAAACAGCTGCTGCAAAAACACGCAAAGCATTCTGACATGACAGTTAAGGATGTACAAAAAGAAACACCGGCAAAAACGGCTCCGGCAGCTGCCGAAAAACCGAAAGCCGATCAAAACAAGACGGCTGACAATGCAAAGCAGACAGATAACACAAACAACAGCAGCGAGAAAACTCCTTCATCTGTCAGTGCGTACGAAAAGAAAGTCGTTGAATTGACAAATGCAGAGAGACAAAAGCAAGGCTTAAAACCTCTGCAGATTGATGAAAAATTAAGCAAATCAGCTCACGCAAAATCACAAGATATGAAAGACAAAAACTATTTCGATCACCAAAGTCCGACTTACGGCTCACCTTTCGATATGATGAAGTCTTTCGGAATCACTTATAAAACTGCCGGTGAAAATATCGCCAAAGGACAGCCGACTCCTGAAGCTGTCGTTAAAGCTTGGATGAACAGTGAAGGCCACAGAAAGAACATCATGAATCCTGAGTTCACTCAAATCGGTGTCGGTTACGTAGAATCAGGAAACATCTGGACACAGCAATTCATCGGAAAATAA	MKKAFLLSAAAAVSLITFGGIQQASAKELSCQHVVTVKKGNTVQHLTLQEAVEKLHMKTSAKQLNVKNEKELKQLLQKHAKHSDMTVKDVQKETPAKTAPAAAEKPKADQNKTADNAKQTDNTNNSSEKTPSSVSAYEKKVVELTNAERQKQGLKPLQIDEKLSKSAHAKSQDMKDKNYFDHQSPTYGSPFDMMKSFGITYKTAGENIAKGQPTPEAVVKAWMNSEGHRKNIMNPEFTQIGVGYVESGNIWTQQFIGK				NA	NA	NA	NA	NA
D1-12_00561	2133	pbpH_1	COG0768	Penicillin-binding protein H	GTGGCTGAAGTCGCGCGCGAACCAAAGAAAAAAACGAAACGTTACAGAGCGCTGAGAATGAATCTCTATTTTTTGATTGTTTTTCTTCTCTTTACGGCACTGATTTTTAAACTCGGCATCGTCCAGATTGTCGAAGGGGATAAACACCGCCAGGATGCGGAGAAGGCAAATGCAAAAACCGCCTATTATCCGACACCGCGGGGAAAAATGTATGACAAGCGGAACAGGGTGGCGGTTGATAACCAGGCTGTGCCTGAAATTGTATACGTTTCTACCTCAAAAACCTCGGCAAAGGACAAATTGAAAACGGCAAAAAATCTCGCCGCACTGATTCATATTGATACTGAATTTATGAAGGATCGAAATATCATTGATTACTGGCTTGCCGCACATCCGAAGAAGGCGGAAAAGCTTATGAAGGATTCAGAAAACAGCCTGAAATCCCAAGAAGTGTACAAACGCCAGATTGAACGCGTTCCGAAGCAGGAGATTGATGCGATCAAACAAGATAAAAAAGAGCTGCAAATTGCGGCGATTTATACGCGTTTTTCAAGCGGCAACGCCTATCAGCCGCAAGTCGTCAAATCAATGGACCCGAATAAGCTGAACGGAAACGGAAACAGCGGTTCATTGCTTGACGAGCATGAAAACAACAAGCAAAAACCGAAAAGCGATCTGACATATGAAGAAGTTTCCGTCGTATCCGAGCACTTGAAAGAGCTCCCCGGCATTGACGTGATCAATGACTGGACGCGGAAATATCCGTACGACAAAACGCTGTACTCTCTGTTCGGCGGTGTGACGACACCGGAACAGGGATTGTTGGGCGAACGGAAAGATTACTATGTCACAAGAGGCTACTCACTGAATGACCGGGTGGGAAAAAGCTACATCGAATATCAGTATGAGGACTATTTAAACGCGCATAAAGAAAAAGTAGAGTATGTGGAAAACAGCAAAGGTGAGGTCGTCAGCCAAAAGCCCGTCGATGAAGGCAGCAGAGGCTACGATCTGCAACTCTCGCTCGATATGGAATTACAGTCGAAAGTCGAAAAAGTCATTGAAAAAGAGCTGAGAAGAAGCCGCGCCGCAGGCAACTATATGGTTGACAGAGGATTTGCCGTCATGATGGACCCGAACAACGGGGATATTCTCTCAATGGCGGGGAAACGCATCGATCTCGAAACAAATAAAACACAGGATTTTGCGATCGGAGCATTTACGACCCAATATGAGATGGGCTCTTCTGTTAAAGGAGCGACTGTTCTCGCGGGTTACCAAAGCGGCCTCCCGCATTATAAAACGTTTGTCGATGCACCGCTTGTATTTAAAGGCAAAACGAGAAAACAATCGTGGACACAAATGGGAGCCATTACTGAGCTGACCGCGCTGCAAAGAAGTTCAAACGTGTATATGTTTCATGTGGCCATGCATATCGCCGGCATTACCTACAGGCCGTACGGCACGCTGCCTGCCGGATTAGACGATATTAAAAAAATGCGCAACTACTACGCCCAATTCGGTTTGGGTGTGAAGACCGGGATTGATCTTCCGCAGGAATCAGCGGGCATGCAGTCAAATCCGCAAATGGTCGGGGGATTGCTGCTTGACTTTGCGATCGGACAGTTTGATACGTATACGCCGCTTCAAATGGCTCAATATATTTCAGCCATCGCAAACGGCGGGTATCGCGTCCAGCCGCGGATCGTCACAAGCATTCATGAACCGGACAGCAAAAATAAGATTGGAAAAGCGATTGAACAGCGGGATATTAAAATTTTAAACAAAGTAAATAACAGTCCGAGCGATTTTGACCAAGTTCATAAAGGAATGAAATTGGTCACAAGCTCACCTCAAGGAACGGCTTATTCAACATTCCAAGGTTCCGGCGCTGATGTTTCCGGAAAAACGGGAACCGCGGAGACGCACTATTACGGCACGAACAAAAACTGGTGGGGGAAGTACACGTATAACCTGACCTTTGTCGGCTATTATCCGTCAGAACATCCAAGAGTGGCATTCAGCGTCGTCGTTCCGTCTGTTGGAAATGATAAAGATCATGTAAGCAAAAACATTGCTAAGGGAGCAATTGACGCTTACAAAGAACTTGAAAAGAAATACAATAAAAAATAA	MAEVAREPKKKTKRYRALRMNLYFLIVFLLFTALIFKLGIVQIVEGDKHRQDAEKANAKTAYYPTPRGKMYDKRNRVAVDNQAVPEIVYVSTSKTSAKDKLKTAKNLAALIHIDTEFMKDRNIIDYWLAAHPKKAEKLMKDSENSLKSQEVYKRQIERVPKQEIDAIKQDKKELQIAAIYTRFSSGNAYQPQVVKSMDPNKLNGNGNSGSLLDEHENNKQKPKSDLTYEEVSVVSEHLKELPGIDVINDWTRKYPYDKTLYSLFGGVTTPEQGLLGERKDYYVTRGYSLNDRVGKSYIEYQYEDYLNAHKEKVEYVENSKGEVVSQKPVDEGSRGYDLQLSLDMELQSKVEKVIEKELRRSRAAGNYMVDRGFAVMMDPNNGDILSMAGKRIDLETNKTQDFAIGAFTTQYEMGSSVKGATVLAGYQSGLPHYKTFVDAPLVFKGKTRKQSWTQMGAITELTALQRSSNVYMFHVAMHIAGITYRPYGTLPAGLDDIKKMRNYYAQFGLGVKTGIDLPQESAGMQSNPQMVGGLLLDFAIGQFDTYTPLQMAQYISAIANGGYRVQPRIVTSIHEPDSKNKIGKAIEQRDIKILNKVNNSPSDFDQVHKGMKLVTSSPQGTAYSTFQGSGADVSGKTGTAETHYYGTNKNWWGKYTYNLTFVGYYPSEHPRVAFSVVVPSVGNDKDHVSKNIAKGAIDAYKELEKKYNKK	PGPT0023960_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023960-pbpH-K21466	NA	NA
D1-12_00562	1821	kinA	COG0642	Sporulation kinase A	GTGGAACAGGATACTCAGCATGTCAAACAGTTTCAATCGAAAACCGATCTTCATGCCGTTTTGACGTCTAACGGGCGTATTATGTATATTTCTGCAAACTGCAAATCGTACTTCAGTTATTCTCAGGAAGAGATGATTGGGTCATTTCTCAAAACGTTCCTGCATGAAGAAGATCAATTTTTGGTTGAAAGTTACTTCTATAATGAGCATCATTTGATGCCTTGCACCTTTCGTCTTATTAAAAAAGATCATACCATCGTATGGCTTGAAGCGGGTGTGGAAATTGTCACACCGCAAATGGAGGGGACGGATCGGGAAATCATCCTCAAAATCAAGGTGCTTGAGGAGAAGACGCCCCGCCGGCCTTATATGTATGAACAAAAGAAGCAAAAGGCAGAACAACAGTCGGAAGATGCGGCTGGAAACGGCGAATTCGAGCGTCTTGTCGAAATGCTGCCGAATCCTTTATATGTCAGCATCAACGGCACAATCGCATACGCCAACAACGCGATGCTTGCCATGCTGGGAGCCGAAAGCAAAGACGAGGTAATCGGCAGGCGCTCTTATGAGTTTATTGAAGAAGAGTATCACGACATTGTGAAAAACCGAATTGTGCGGATGCAAAAAGGAATGGAAGTCGGAATGATCGAACAGACGTGGAGAAGGCTCGACGGCACGCCCGTTCATTTAGAAGTAAAGGCGGCACCGACGACATATAAAAATCAGCGGGCGGAATTGCTGCTTCTGATTGATATTTCTTCACGGAAAAAATTCCAAACGATTCTGCAAAAAAGCAGAGAGCGTTATCAGCTCCTCATTCAGAATTCAATTGATACGATCGCCGTGATTCACAATGATAAATGGGTATTCATGAATGAGTCGGGCATTTCGCTGTTTGAGGCTGAAACATATGAAGATTTAATCGGGAAAAACGTCTATGATCAGCTTCATCCCTGTGATCATGACGGCGTGAAACAGCGGATCCAAAATATTATCAACCGAAAGACCGAGTCAGAAATTATTAAGCAATCGTGGTTTACCTTTAAAAACCGGCTGATCTACACGGAAATGGTCTGCATTCCGACGACGTTTTTCGGAGAAACGGCCGTGCAGGTCATTCTGCGTGATATTTCTGAGCGGAAGCAGACGGAGGAATTAATGCTGAAGTCGGAGAAGCTGTCTATCGCAGGGCAGCTGGCGGCGGGAATCGCTCACGAAATCCGCAATCCGCTGACGGCGATCAAAGGATTTTTACAGCTCATGAAGCCGACGATGGAGGAAAACGAACATTACTTTGAAATTGTGTTTTCTGAACTGAGCAGAATCGAATTAATTTTAAGTGAGCTTTTAATGCTTGCCAAACCTCAGCAAAACGCCGTGAAAGAGCGTGTAAACTTAAAGAAAATTATAAGTGAAGTGACCGCTCTTTTAGAGACGCAGGCAAATCTTAAAGGGATTTTTATCAAAACGGATTATGAACATGACAGCATGTATATTAACGGTGATCAAAATCAGCTGAAACAGGTGTTTATCAATCTGATTAAAAATGCCGTTGAGTCGATGCCGGATGGGGGAACGGTTCACATTCTTATGACAGAAGATGAGTATTCCGTTAATGTGACGGTGAAAGACGAGGGTGACGGGATACCGGAAAACGTGCTGAAACGAATAGGCGAACCGTTTTTGACAACGAAAGAAAAAGGAACCGGCCTGGGGCTGATGGTCACATTCAACCTTATTAAAAACCACCAGGGAGCTATCCAAGTAGACAGCAAACCGGATAGAGGCACGGCCTTTCATATTACATTCCCGAAACAATAA	MEQDTQHVKQFQSKTDLHAVLTSNGRIMYISANCKSYFSYSQEEMIGSFLKTFLHEEDQFLVESYFYNEHHLMPCTFRLIKKDHTIVWLEAGVEIVTPQMEGTDREIILKIKVLEEKTPRRPYMYEQKKQKAEQQSEDAAGNGEFERLVEMLPNPLYVSINGTIAYANNAMLAMLGAESKDEVIGRRSYEFIEEEYHDIVKNRIVRMQKGMEVGMIEQTWRRLDGTPVHLEVKAAPTTYKNQRAELLLLIDISSRKKFQTILQKSRERYQLLIQNSIDTIAVIHNDKWVFMNESGISLFEAETYEDLIGKNVYDQLHPCDHDGVKQRIQNIINRKTESEIIKQSWFTFKNRLIYTEMVCIPTTFFGETAVQVILRDISERKQTEELMLKSEKLSIAGQLAAGIAHEIRNPLTAIKGFLQLMKPTMEENEHYFEIVFSELSRIELILSELLMLAKPQQNAVKERVNLKKIISEVTALLETQANLKGIFIKTDYEHDSMYINGDQNQLKQVFINLIKNAVESMPDGGTVHILMTEDEYSVNVTVKDEGDGIPENVLKRIGEPFLTTKEKGTGLGLMVTFNLIKNHQGAIQVDSKPDRGTAFHITFPKQ	PGPT0025280_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025280-kinA-K02491	NA	NA
D1-12_00563	1170	dapX_2	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGGAACATTTGCTTAATCCGAATGTAAAAGAAATTGAAATTTCAGGAATTCGCAAATTCTCAAATCTTGTAGCTCAGCACGACAATGTCATTTCGCTTACGATCGGCCAGCCGGATTTCTTCACGCCGCACCATGTCAAAGCGGCTGCCAAAAAGGCAATCGACGAGAACGCAACGGCGTATACTCCGAACGCGGGCGGACTTGAGCTGAGACAGGCCGTACAGCTTTATATGAAGAAAAAAGCTGACTTGAATTATGAAGCTGAAACTGAAATCATCGTCACAACCGGGGCAAGCCAAGCGATTGACGCGTCTTTGCGGACGATTTTATCTCCGGGCGATGAAGTTATTCTCCCCGGACCGATATATCCGGGCTACGAACCGATCATCCGCATGTCGGGCGCCGTTCCGGTCCATGTGGATACGACGACACACGGATTTAAGCTGACGGCGCGGCTCATTGAAGAATCGCTGACACCAAAAACAAAATGCGTCATTCTTCCTTATCCGTCAAACCCGACCGGAGTGACATTGTCTGAGGAAGAGCTGCAAAACATCGCAGCCGTCCTGAAGGGCAGAAATGTTTTTGTCCTGTCTGATGAGATTTACAGCGAATTAACCTATGACAGACCGCATTATTCGATCGCGTCTTATTTGAGAGACCAGACGATCGTCATCAACGGCCTGTCAAAATCACACAGCATGACGGGCTGGAGAATCGGTTTCATTTTCGCACCGAAAGAAATTGCCAAGCACATCTTAAAAGTTCACCAATACAGTGTGACATGCGCGTCTTCAATCTCTCAGAAAGCGGCTCTTGAAGCGGTGACAAACGGTGTTGATGATGCGCTTATTATGAGAGAACAGTATAAAAAGCGGCTTGACTATGTATATGACCGTCTTGTTTCAATGGGGCTTGACGTCGTAAAGCCGTCAGGCGCATTTTATATCTTCCCTTCCATTAAGTCATTCGGAATGTCATCGTTTGATTTTAGTATGGCTCTTTTAGAGGATGCAGGTGTGGCTCTTGTGCCCGGCAGCTCGTTTTCAAAGTTGGGTGAAGGGTATGTGAGGCTGTCATTCGCATATTCACTGGATACATTGAGAGAAGGCTTGGACCGGCTGGAAGCATTTATTTTAAAAACGAGAGAATCCATGCAGACTATTTAA	MEHLLNPNVKEIEISGIRKFSNLVAQHDNVISLTIGQPDFFTPHHVKAAAKKAIDENATAYTPNAGGLELRQAVQLYMKKKADLNYEAETEIIVTTGASQAIDASLRTILSPGDEVILPGPIYPGYEPIIRMSGAVPVHVDTTTHGFKLTARLIEESLTPKTKCVILPYPSNPTGVTLSEEELQNIAAVLKGRNVFVLSDEIYSELTYDRPHYSIASYLRDQTIVINGLSKSHSMTGWRIGFIFAPKEIAKHILKVHQYSVTCASSISQKAALEAVTNGVDDALIMREQYKKRLDYVYDRLVSMGLDVVKPSGAFYIFPSIKSFGMSSFDFSMALLEDAGVALVPGSSFSKLGEGYVRLSFAYSLDTLREGLDRLEAFILKTRESMQTI	PGPT0007150_422	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007150-patA-K00841	NA	NA
D1-12_00564	162			hypothetical protein	ATGGGTACAGTAGTCATATTCGACCAAGATCAAATGACGGTGTTAGAAGATATCAGCAAAACGGCTTACCTGCAAATGAAAAAAGAGGCGAAAGAGCGTCCCGACAAGCCCGCTCCATACATCTTATGGCGGGAAGACGTCAGCTTTGAATACGGGTATTAA	MGTVVIFDQDQMTVLEDISKTAYLQMKKEAKERPDKPAPYILWREDVSFEYGY				NA	NA	NA	NA	NA
D1-12_00565	912	cheV	COG0784	Chemotaxis protein CheV	TTGTCTTTACAACAATATGATATTTTATTGGATTCAGGCACAAACGAATTAGAAATCGTCAAATTTGAAGTAGGCGTCAATACATTTGGCATAAATGTGATGAAAGTCCGGGAAATCATTCAGCCGGTAGATGTCACATCTGTGCCTCAGTCTCATAAAGACGTAGAAGGGATGATTAAGCTGAGAGGCGAAATTCTTCCCGTCATCAGTCTGTATTCCTTTTTCGGCGTTGATGCCGAAGGAGCAAAAGACGATAAATATATCGTAACGGAATTCAACAAACGGAAAATCGTCTTTCACGTCGGTTCCGTTTCACAAATCCACAGGGTGTCCTGGGAGGCGATTGAAAAGCCGACTTCCCTGAACCAGGGCATGGAGCGGCATTTAACGGGAATCATCAAACTGGAAGACACGATGATCTTTCTGCCTGATTATGAAAAGATCATTTACGATATTGAATCGGCATCGGGAGTTGAGACTTATCATGTCCATCAGGAAGGATTTGATGAAAGACGGGCGGGTAAAAAACTGATCATCGTTGAAGATTCGCCGCTTCTGATGCGTCTTTTGACGGATGAGCTGACTGAGGCGGGGTACAGTGAAATCGTTACGTTTGAAAACGGAAAAGAAGCGTATGATTACGTCGTGGAACTGACGGATAACGGAGAAAACCTGTCAGACCATATTGACATGATTATCAGTGACATTGAGATGCCGAAAATGGACGGGCATCGTTTGACGAAGCTCCTTAAGGATAACCCGCAAAGCTCTGATGTGCCGATTATGATTTTCTCGTCCCTGATTACGGACGACCTGCGCCACCGGGGCGAAGTAGTCGGAGCGGATGAACAGATCAGCAAGCCTGAAATCAGCGAGCTCATTAAAAAAGTGGATACGTACGTGATTGAATAG	MSLQQYDILLDSGTNELEIVKFEVGVNTFGINVMKVREIIQPVDVTSVPQSHKDVEGMIKLRGEILPVISLYSFFGVDAEGAKDDKYIVTEFNKRKIVFHVGSVSQIHRVSWEAIEKPTSLNQGMERHLTGIIKLEDTMIFLPDYEKIIYDIESASGVETYHVHQEGFDERRAGKKLIIVEDSPLLMRLLTDELTEAGYSEIVTFENGKEAYDYVVELTDNGENLSDHIDMIISDIEMPKMDGHRLTKLLKDNPQSSDVPIMIFSSLITDDLRHRGEVVGADEQISKPEISELIKKVDTYVIE	PGPT0015675_1498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
D1-12_00566	465			hypothetical protein	ATGGACGACCACGCTTATTCGAAAGAGCTGCAGCCAACCATCGAGAATCTTTCAAAAGCTGTTTATACTGTGAACCGCCATGCAAAAACCGCCCCCAACCCTAAATACCTTTATCTGCTGAAAAAACGGGCATTACAAAAGCTTGTGAAAGAAGGCAAAGGGAAAAAAATAGGGCTTCACTTTTCAAATAATCCCAGGTTTAGCCAACAGCAGTCAGACGTACTTATCTCTATCGGAGACTACTATTTTCACATGCCTCCAACAAAAGAAGACTTCCAGCATCTTCCGCATTTAGGTACGTTAAATCAATCGTACCGCAATCCTAAAGCACAAATGTCTTTGACAAAAGCGAAAAACGTATTGCAAAAATATGTGGGCTTAAAGGAAAAACCGCTTGCCGCCAACAGGCAGCAGCCTGCTTATCATAAACCCGTATTTAAAAAACTTGGTGAGAGTTATTTTTAA	MDDHAYSKELQPTIENLSKAVYTVNRHAKTAPNPKYLYLLKKRALQKLVKEGKGKKIGLHFSNNPRFSQQQSDVLISIGDYYFHMPPTKEDFQHLPHLGTLNQSYRNPKAQMSLTKAKNVLQKYVGLKEKPLAANRQQPAYHKPVFKKLGESYF				NA	NA	NA	NA	NA
D1-12_00567	1293			hypothetical protein	ATGGATATATTTAAAAATCGCAATTTTGTCCGTCTCTTTTTCGCAGCACTCGCTTCTCAAATGGGAACGACTGTAGGTAATATGGCTTTCGCTTTTTACTTGCTGGACCATTTTTCAAATCAGCCGGCATACACGACTTTGGCTGAGCTGATGTATTCACTGCCGACAGTTTTCGTATTTCTGATTGTCGGTGTCGCAGCTGACCGGCTTGACAGGAAAAAGGTCGCAGAGAATTGTGACTGGATCAGAGCCGGACTGACGATCGTATTGTTTGCCGCACTATACACCGGGAGCATCCCTCTCGTGTTCTGTATTTTGTTCATCAGAAGCGCCGTGACCAAGTTCTTTTTCCCGGCGGAAGCCAGCCTTGTACAAGCTATTCTGCCAAAGGAGCATTACGCGAAAGCGGCGGGACTTAACCAGATCCTGTTCAGCATCTTCATGGTATTCGGCGTCGGTATAGGCGCGTTTATGTATAAAACGATCGGTATTCACGGAGCCATTATCCTTGATTTTGTCAGCTTTATTGTATCAGGCTTTCTGATCCGCGCCTGCCGCATTCCGAAAGAAGCCCGTCAGCCGAACGGCCCTTTTAAATGGGGAGATTCGTTTCTGAAAGACTCGGTCGCTGATTTTAAGGAAGGGATCGTATATATTGTTAAAAACAAATTGCTTGCTTCCCTTATTTTCGGCTTTTTTATCTTTGGTTTTGTCAACGGCGGCTTTGCCGTACTGCCGATGTTTACGATGAAATACGGACTTGCGCCTGATCATTACGAATCACATACTTCCATCTTCACCGTCGCACTCGGCTTCGGCCTGCTTGCAGGAAGTGTGATCGGAACGATGATCGCGAAAAAAGTCAAACCGCATCATTTGATGTCGATTCCTATTTTGGCAGCCGGACTGCTCATTTTTGTCCTCGGCTATACGGATAAGCTGTGGATTTATTATGCGGCGGCTTTCGTCCTCGGCATGTGCATCGGCCCTGTCAATATCGCCATCGGCGGCTGGATGCCGAAAATTGTTCATCCGAAAATAATGGGCCGGGTCAGCGGCTGGCAGGACCCTTTTATGATGTTTGCCCAATCGATTACACTCGGACTGGTTGCCCTGTTATTTCCGAAATTCGTTTCCAATATTGATTACCTTTATTACGGCATGGGAATCGTGATTTTAGCGGTATTTGTGTTCTATTTTATCGCTCTTCCGAAATACAGCGCCGAGGCAGCAGAGGTCGATGTGCAGCAATCATTAAAGGCTGATTCCGAAAAACATGCGAATCCTGTCTAA	MDIFKNRNFVRLFFAALASQMGTTVGNMAFAFYLLDHFSNQPAYTTLAELMYSLPTVFVFLIVGVAADRLDRKKVAENCDWIRAGLTIVLFAALYTGSIPLVFCILFIRSAVTKFFFPAEASLVQAILPKEHYAKAAGLNQILFSIFMVFGVGIGAFMYKTIGIHGAIILDFVSFIVSGFLIRACRIPKEARQPNGPFKWGDSFLKDSVADFKEGIVYIVKNKLLASLIFGFFIFGFVNGGFAVLPMFTMKYGLAPDHYESHTSIFTVALGFGLLAGSVIGTMIAKKVKPHHLMSIPILAAGLLIFVLGYTDKLWIYYAAAFVLGMCIGPVNIAIGGWMPKIVHPKIMGRVSGWQDPFMMFAQSITLGLVALLFPKFVSNIDYLYYGMGIVILAVFVFYFIALPKYSAEAAEVDVQQSLKADSEKHANPV	PGPT0027965_267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
D1-12_00568	501	ykuD	COG1376	Putative L,D-transpeptidase YkuD	ATGAAACTGCTGACATATCAAGTGAAACAAGGAGAAACCATCTCCAGCATTGCGCAAGACTTCAGAATAAGCGCTGCTGCTCTCCTTCAGGCAAATCCCTCAATCCAATCGGTCATATACGCGGGACAGCACATTATCATACCGAATCTTCCTGACCCATCCACCATTCCCTACTCCATCATCGTGTATATCGGAGCGAAGAAACTGGAGTTATACCGCCTTGGCAGGCTCATCCGTACGTACCCCATCGCAGTCGGAAAAATATTGACGACCACGCCGACCGGAGAATTTTACATCGTGAACCGCCAGCCTAAGCCCGGAGGCCCGTTCGGCGCTTATTGGCTCAGCCTCTCTAAAATTCATTACGGCATTCACGGAACAAATAATCCTTCCTCCATCGGCAAAGCGGTATCAAAAGGATGCATCCGGATGTATAATCAGGACGTCACTAAACTTGCCGCTGCCGTTCCTAATGGAACAAGGGTGACTATTATAAGATAG	MKLLTYQVKQGETISSIAQDFRISAAALLQANPSIQSVIYAGQHIIIPNLPDPSTIPYSIIVYIGAKKLELYRLGRLIRTYPIAVGKILTTTPTGEFYIVNRQPKPGGPFGAYWLSLSKIHYGIHGTNNPSSIGKAVSKGCIRMYNQDVTKLAAAVPNGTRVTIIR	PGPT0023745_793	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
D1-12_00569	864	lpxG	COG1408	UDP-2,3-diacylglucosamine pyrophosphatase LpxG	ATGGAGAAAATGACCAGAAGAACATTTTTAAAAAGAGGATTCGGTGTTTTGGGTGCAGCTCTTGCAACGGCTTGCGGAGGCTACGGCTATGCCCGGTATATTGAACCGCGCATGATTGAAATCACCCGGCATACAATCACCAACCGCCTGATCCCCCGCGGCTTTGACAATTTTAAAATCGTTCAATTCAGCGATACGCATCTCAGTGATGGGTTTACATCCGGTGACTTGAATAAAGCAGCGGAAAAGATCAATCAGCTGAAACCCGATCTGCTCATCTTTACGGGAGATTTAATTGATAAGCCGCATTTATTTAATGATCACCAGCATGCACTCGCCGTGCTGCAAAATCTTGAAGCTCCCTTCGGCAAACTTTGTGTTTACGGAAACCATGACCACGGAGGCTACGGTACGAACACGTACAAGGCTCTGATGGAAGCTGCTGATTTTCAAGTGTTTCGAAACGGCTATCGTCAGGTGCAGCTGACAGACGGAAGCCGGATTGAACTCGCGTTTTTGGATGATGTAATGCTCGGAAAACCCGATTATGAAGGCACCCTGTCCCGCCTTTCCGAAGATGCGTTTTCCATTTTAATCGTCCACGAGCCTGATGCCGCTCTCGAGATAGGCGGATATCCCGTAAACCTCCAGCTGTCGGGACACACCCACGGCGGCCAGGTCCAGCTCCCGTTTTTCGGCCCTCTCATTACGCCTCCTTACGGAAAAACGTATACCGACGGCATGTATACGCTTCATGACACAGCCGTTTACGTCAATCGCGGGCTCGGTACGACAAGACTGCCGTATCGATTTTTAGCCAGACCGGAAATCACGCTGTTCACATTGAAAACCGAGCAAAAATAA	MEKMTRRTFLKRGFGVLGAALATACGGYGYARYIEPRMIEITRHTITNRLIPRGFDNFKIVQFSDTHLSDGFTSGDLNKAAEKINQLKPDLLIFTGDLIDKPHLFNDHQHALAVLQNLEAPFGKLCVYGNHDHGGYGTNTYKALMEAADFQVFRNGYRQVQLTDGSRIELAFLDDVMLGKPDYEGTLSRLSEDAFSILIVHEPDAALEIGGYPVNLQLSGHTHGGQVQLPFFGPLITPPYGKTYTDGMYTLHDTAVYVNRGLGTTRLPYRFLARPEITLFTLKTEQK	PGPT0022365_3216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
D1-12_00570	765	fadH	COG1028	putative 2,4-dienoyl-CoA reductase	ATGGATAAGAAAGCGGTAATCATTACAGGCGGTTCAAGCGGCATGGGAAAAGCAATGGCGAAAAAACAGGCTGAATTAGGATGGCACGTCATGGTGACAGGGAGGAACCATGAAGCACTTGAGGAAACAAAAAAAGAAATTGAGACCTTTGAGGGGCAGGTCGCCTGTTTTCAAATGGATGTCCGTTCTGATTCCGCCGCTTCAGACATGATTACAGAAGCGAAAAAAGTCTTTGGCCGGCTCGATGCGCTGATTAACAATGCGGCCGGCAACTTTATTTGCCCGGCAGAGAAGCTGACGCCCAATGGATGGAAAGCTGTTATTGAGATTGTTTTAAACGGCACATTTTTCTGCAGCCAAGCCGCGGCAAGGCATTGGATCGAGCAGGAGCAGAAGGGCGTCATCTTAAATATGGCCGCTACATACGCATGGGGAGCGGGAGCGGGTGTCGTTCATTCCGCTGCAGCCAAAGCGGGGGTATTGTCACTGACAAGAACGCTGGCCGTTGAATGGGGGAGCAAATACGGCATCCGCACAAACGCGATAGCCCCCGGCCCGATTGAACGGACAGGCGGTGCGGAGAAGCTGTTTGAATCGGAAAAAGCGGTGTCCCGCACTATGAACAGTGTGCCGCTCGGCCGGCTGGGCACACCGGAAGAAATCGCCGCGTTGGCAGCGTTTTTGCTATCTGATGAAGCGTCCTATATAAACGGGGATTGTATCACAATGGACGGGGGGCAATGGCTGAATCCTTATCCGTTTTAA	MDKKAVIITGGSSGMGKAMAKKQAELGWHVMVTGRNHEALEETKKEIETFEGQVACFQMDVRSDSAASDMITEAKKVFGRLDALINNAAGNFICPAEKLTPNGWKAVIEIVLNGTFFCSQAAARHWIEQEQKGVILNMAATYAWGAGAGVVHSAAAKAGVLSLTRTLAVEWGSKYGIRTNAIAPGPIERTGGAEKLFESEKAVSRTMNSVPLGRLGTPEEIAALAAFLLSDEASYINGDCITMDGGQWLNPYPF	PGPT0019825_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019825-atuB|atuG-K13774	NA	NA
D1-12_00571	558			hypothetical protein	TTGAAGAAATTATTAAAATGGTTCGTTGTACTATTTGTAAGCAGTTTAGCTATCATCTTTAATATTTGGTACTTTATTATTTGTGCTTTTACTCCGGAGTATTATCAAAATACCAATCTTACATCTGATGAAATAATCAGATTTGAAAAGCTATATCACATAGATTTTCCTGATGAAACGAAATGTATTAAAGCCAGGGAGTATTTGAGTGGGCTCGGAGGCGATACATCGGCTGTATTATATGTGTCTCTGCCAACCAAGCTGGCGGAAACAATTTTATCTGATTATACGTATATGCCAATAAATCATACTGATCATGCCGGTTCAATGTATGGAGTTGACGTTTCCGAGAGTGTTGGCGGGTTAACAACTCTTACATTTGGCACTTTAGATAAAAAAGGAACTTTCTTTCAGTTGAAACATGATGATGATTGGATATTTAACAGCACTGATTGGAGCCATTATTTTTGGACAGCTGCCGGTTATAATGCTCTTATATTTATCCTTTTATTTGTGATTGTGAAACAAATGAATAACGTCCTTAATGAACCGGTCTGA	MKKLLKWFVVLFVSSLAIIFNIWYFIICAFTPEYYQNTNLTSDEIIRFEKLYHIDFPDETKCIKAREYLSGLGGDTSAVLYVSLPTKLAETILSDYTYMPINHTDHAGSMYGVDVSESVGGLTTLTFGTLDKKGTFFQLKHDDDWIFNSTDWSHYFWTAAGYNALIFILLFVIVKQMNNVLNEPV				NA	NA	NA	NA	NA
D1-12_00572	1221	ykuI	COG2200	putative EAL-domain containing protein YkuI	ATGTTGGACCCACTTGATATACTGACGAATATTGATGATGTCATTCCGTATTACCAAGCGATTTTTAACGCTGAAGAACAAAGAGTCGTAGGCTATGAGGTGCTTGGGCGTATTTTGGCAGATGCGGAGATTGAGAGCCTCGGGTCGTTTTTCTTAGATTCCGGCATTCCGGAAGAATATAAGCTTGAGGTCGATGACAGAGTCATCAGGCAGGCGCTGGAGCGGTTTAAAGAAGCTGACCGTGATCTGTTGATTTTTATCAATCAGGATGCGAATGTATTGATGCTTGACCACGGCGAAAGCTTTCTTGAGCTTTTGAAAGAATACGAAGAGCAGGGCATTGAATTGAACCGTATTGTGCTTGAGATCACCGAGCACAATTTCGAAGGCGACATTGAACAGCTGTACCATATGCTTGCCTATTATCGTACATACGGCATTAAAATCGCGGTGGACAATATAGGTAAGGAGAGCAGCAACCTGGACAGAATCGCGCTCCTTTCACCGGACCTTCTGAAAATAGATTTGCAGGCGCTGAAGGTATCTCAGCCGTCACCATCATATGAGCATGTGCTGTACAGCATTTCATTGCTGGCGAGAAAAATCGGCGCCGTGCTGCTGTATGAAGATATAGAAGCTGATTTCCAGCTCCAGTACGCATGGAGAAACGGAGGCCGATTTTTTCAAGGCTATTATCTGCAGGCGCCGAGCGGCGATTTTATAGACCGGAGCCTGTTAAAAGCACGCTTGAAAACGGAGTTTCAGCAATTTATTACGAGAGAAAAAAAGAAGCTGGAAACGGTATATGAACACTCTGAGAATTTTTATAAGCGGGTCAATCAGGCAGTTTCCGAGCTGAAGAAAACCCATCAGGCGGACGATGAGTTTATTAAAAAACTGGCGGAAAACCTGACCGACTGCTGCTTCAGAATTTATATGTGTGATGAAGAAGGCTATCAGCTGACGGGAAATGTGTACAAGCAGTCCGGCGAATGGCTTTATCAGCCTGAATACATGGAGAAAAACTGGAGCTGGCGTCCGTACTTTTTAGAAAACATCATGAAGATGCGGAATTCAAGAAAAGGCTTTTTCAGTGACCTGTACAGTGATATTGAGACGGGTGAGATGATCAGAACCTTTTCATACCCGATGGATGACAATATGTATTTATTTATCGATCTGCCTTACTCTTATTTATATGAACAGGACGGATTACTTTAA	MLDPLDILTNIDDVIPYYQAIFNAEEQRVVGYEVLGRILADAEIESLGSFFLDSGIPEEYKLEVDDRVIRQALERFKEADRDLLIFINQDANVLMLDHGESFLELLKEYEEQGIELNRIVLEITEHNFEGDIEQLYHMLAYYRTYGIKIAVDNIGKESSNLDRIALLSPDLLKIDLQALKVSQPSPSYEHVLYSISLLARKIGAVLLYEDIEADFQLQYAWRNGGRFFQGYYLQAPSGDFIDRSLLKARLKTEFQQFITREKKKLETVYEHSENFYKRVNQAVSELKKTHQADDEFIKKLAENLTDCCFRIYMCDEEGYQLTGNVYKQSGEWLYQPEYMEKNWSWRPYFLENIMKMRNSRKGFFSDLYSDIETGEMIRTFSYPMDDNMYLFIDLPYSYLYEQDGLL				NA	NA	NA	NA	NA
D1-12_00574	240	ykuJ	COG4703	putative protein YkuJ	ATGTCACAATTAATGGGTATCATCACGCGGCTGCAAAGTCTGCAAGAAACAGCGGAAGCGGCGAACGAGCCGATGCAGCGTTATTTTGAAGTTAACGGCGAAAAAATTTGCAGTGTTAAATATTTCGAAAAAAATCAAACGTTTGAACTGACGGTTTTCCAAAAAGGTGAAAAACCTAACACATATCCGTTTGATAACATTGACATGATTTCTATTGAAATTTTTGAGCTCCTTCAGTAA	MSQLMGIITRLQSLQETAEAANEPMQRYFEVNGEKICSVKYFEKNQTFELTVFQKGEKPNTYPFDNIDMISIEIFELLQ				NA	NA	NA	NA	NA
D1-12_00575	519			hypothetical protein	ATGGCTGATTCTTTTCTGTTTTATAATCTTTCTGAGGCACAGATGACCTTTCAAGACGTGACGGAGCGGCTGAAACGCTTTGTCAATAAAGACCCCCGTTCAGCATACGTGCTGTCTGTAGGGACTGATTCACAAGTTTACCGCGACTTCACAAAGTTTATTACGGCTATACACTTGCACCGTACAGGCAAGGGAGCTTGGGGCTGTTTGAAAAATCACGATCTTGCAAGACCGATACATAGCCTTCGCGAAAAAATTTCGCTGGAAACCGCGTTCAGCCAGGAGATGGCTGCGCATATCCTCGACGGCCGTCTTATGGAAATGACAGATTTACTCTTGCCTTTTGCGGATGAAGGGGCGGATCTTTCATTTGAAGTGCATCTGGATATCGGTCAAAAAGGGCTGACAAAAGAATTGATACAAGAAATGACCGGCCGCATTACCTCGATGGGCATTGAAGCGAAAATCAAGCCCGATTCCTGCACAGCATTCAGTTATGCCAATCGTTACACAAAATAA	MADSFLFYNLSEAQMTFQDVTERLKRFVNKDPRSAYVLSVGTDSQVYRDFTKFITAIHLHRTGKGAWGCLKNHDLARPIHSLREKISLETAFSQEMAAHILDGRLMEMTDLLLPFADEGADLSFEVHLDIGQKGLTKELIQEMTGRITSMGIEAKIKPDSCTAFSYANRYTK				NA	NA	NA	NA	NA
D1-12_00576	192	ykzF		putative protein YkzF	ATGAGTCTTATCAGTGAACGATTTACGGAAGAAGAACAGAAACTTCTGCTGAATATCCTGATCAATCAAGAATATGCCATTGAGCTTTTGACCAGCGAAATCAACGATATAGAAGCAGGGTCAAAAAGCGTTGATGGAACCACTTATAAAAAACTCGTAACGCTCTATGACCGTTTTCGGAATGAAAATTAA	MSLISERFTEEEQKLLLNILINQEYAIELLTSEINDIEAGSKSVDGTTYKKLVTLYDRFRNEN				NA	NA	NA	NA	NA
D1-12_00577	444	ykuL	COG0517	CBS domain-containing protein YkuL	ATGATTAGCTTACAATCAGATCAGCTTCTTGATGCAACAGTCGGACAATTTATGATCGAGGCGGATAAAGTGGCGCACGTTCAAGTCGGTAACAACCTTGAGCATGCTCTTTTAGTGCTGACCAAAACCGGCTATACCGCCATTCCCGTCCTCGACGCTTCGTACCGTCTGCACGGTTTGATCGGGACAAATATGATTATGAACAGCATTTTCGGACTTGAACGGATCGAGTTTGAGAAACTGGATCAAATTACGGTTGAGGAAGTCATGCTGAAAGACATTCCCCGTCTCCACATCAATGATCCGATTATCAAAGGGTTCAGCATGGTCATTAACAACGGCTTTGTCTGCGTTGAAAATGATGAAGGCGTCTTTGAAGGCATTTTCACGAGAAGAGTCGTGTTAAAACAGTTGAGCAGCCATATCAGATCATTGAATAAGTAG	MISLQSDQLLDATVGQFMIEADKVAHVQVGNNLEHALLVLTKTGYTAIPVLDASYRLHGLIGTNMIMNSIFGLERIEFEKLDQITVEEVMLKDIPRLHINDPIIKGFSMVINNGFVCVENDEGVFEGIFTRRVVLKQLSSHIRSLNK				NA	NA	NA	NA	NA
D1-12_00578	882	hdfR		HTH-type transcriptional regulator HdfR	ATGCAGCTTCAAGAGCTTCATATGCTCGTAGTTTTGGCTGAGGAATTAAACATGAGGAAGGCTGCCGAACGGTTATTCGTGTCACAGCCGGCTCTGTCCCAGCGATTGCAGACCATTGAAAAAGCCTGGGGAACAAAGATCTTTCTAAGATCTCAAAAAGGACTTACGGTAACGCCGGCAGGAGAAAAAATCATACAATTTGCAAATGACGTCACGGATCGGCAAGAAAGAATCAGAGAAAACATTGATGAACTTGAGGGTGAGATTCACGGCACATTAAAGCTTGCCGTCGCCTCCATTATCGGGCAGCACTGGCTTCCGAAAGTGTTAAAAACATATGTGGAACGATATCCGAATGCAAAGGTCTCTCTCATTACAGGGTGGAGCAGCGAAATGCTGAAAAGTCTGTATGAAGATCAGGTACATATCGGCATTATCCGGGGAAATCCGGAATGGAAAGGCCGGAAAGATTATTTAATGACCGATCATTTATATTTGGTTGATACGGAAATTTCCTGTATTGATGATATTGCCCATACCGATCGGCCGTTTATCCAATTCAAAAGTGACAGTACATATTTTCAGGAAATTCAGCATTGGTGGCATCAAAAATTCAAAACCTCGCCGAAACAGACCATCCTCGTCGATCAGATTGAAACGTGCAAGCAGATGGCGCTGCACGGAATCGGTTATGCCATTCTGCCGTCAGTCACTTTAGAAGAGGAAGACAAAGTAAATAAAATGCCCCTGCTTGATACAAAAGATCATCCGATCGGCCGTGACACATGGCTGCTCGGTTATGAGCCGGCATTTGAATTAAAACAGGTGCAGGCTTTTGTTTCTGTCATTAAAGATATGCTGAAGCAGGAACGCCCATTTTAG	MQLQELHMLVVLAEELNMRKAAERLFVSQPALSQRLQTIEKAWGTKIFLRSQKGLTVTPAGEKIIQFANDVTDRQERIRENIDELEGEIHGTLKLAVASIIGQHWLPKVLKTYVERYPNAKVSLITGWSSEMLKSLYEDQVHIGIIRGNPEWKGRKDYLMTDHLYLVDTEISCIDDIAHTDRPFIQFKSDSTYFQEIQHWWHQKFKTSPKQTILVDQIETCKQMALHGIGYAILPSVTLEEEDKVNKMPLLDTKDHPIGRDTWLLGYEPAFELKQVQAFVSVIKDMLKQERPF				NA	NA	NA	NA	NA
D1-12_00579	474			Flavodoxin	ATGCGGAAAGCATTAATGATATACGCAAGCATGTCGGGGAATACAGAGGATATTGCCGGCATTATAAAAGAAACACTGAGCGGGCATCAGATAGCAGTTGACTGTCTCGACATGGATGAGGCAGATGCGGATTCTCTCGAAGCATATGATTATGTTTTTGTCGGCACGTACACATGGGGGGATGGTGATCTTCCTTACGAAGCGGAAGATTTTTACGAAGATATTCTGCACAGCCAGCTCAACGGACTGAAAACGGCCTGTTTCGGTTCAGGCGATCACGCCTACCCGAAGTTTTGCGAAGCGGTCACGCTGTTTTGCGATGCGTTTGAACAGGCCGGAGCCAATTTATATCCGGAAACGCTGAAAATCGAGCTGGCGCCCGAGACGGCTGAGGATCAGGAATGCTGCAAAGAATTTGTCCGCGGTTTTCTTGCATGGGCCGCTCACCACGGAGACCGGTGCCATGTTTCATAA	MRKALMIYASMSGNTEDIAGIIKETLSGHQIAVDCLDMDEADADSLEAYDYVFVGTYTWGDGDLPYEAEDFYEDILHSQLNGLKTACFGSGDHAYPKFCEAVTLFCDAFEQAGANLYPETLKIELAPETAEDQECCKEFVRGFLAWAAHHGDRCHVS	PGPT0000020_1110	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
D1-12_00580	894			hypothetical protein	ATGTTTCATAAAGGCGCGACGGCTGTCATGGCATCAGTGACCTCAGGATATTTTGTCGCGGTGAAAGACGAAGGTATTTTTCATTTTTCGGCGGAAGAAGGTTGGAAAAGACTGTTCCGAGTGAAAAGCAGGATTCATGTGCTGACTTACATAGGGCCCTACATATTCGCGGCTGGAGAAAAAGGCGCCGTCCTCAGATCAGCCGATCAGGGAAAGACTTGGACGGCCTCCCGATTTCCGACCAGCGCCTCCGTATGGGCCGTTGCCGGGCGGAATGACGGGTTTGTCTGTGCGCACGGCACATATTGCCTCTACTTATCTGATGATTTCGGCGTCACTTGGCATGTGGCTAAGCCCTTTTCACAATTAAAGGAGCCGCCTGTCATCCGTTCGCTTTGTTTACACGGTCAGACGATTTATATCGGCACCCGGATTCATATGAATCATGGCGGCATTTGGGCGTATGATCTGACGGAAGACCGCATCCGGCGTATAAGCCGCGAAAGGCAGCGCATGACGGCTTCAATGATGATGTATCAGAATGACTGGCTCATTGCAGCAAAGGGCGCGGCAAAGGGAGAACGGGGGGAGGTTGCCGTCCGAAACGTGCGGACGCAAGAGGAGTTTGCCATTACAGCCGGGCCCGCCGTACGGGAAAAATCATTTCTCGACGTTTCTGAGGATAACGGGATTATTTATGTTACATCATCACAGGACGAAAACGGATTTTCGCGTATTTATCAAGCTGATCTCGCCGCCGGTGAATTAAAGTGGTTTGATACGATCCGCGGTCACGGATGGCGGGTGGCAAACCGGGAAGAAAACTTTTTTTGCGCGGGCCTTTACGAAAGTAAGTTTGTCAGACCGTATGAGGCGGTACAGCTCGCACATTAG	MFHKGATAVMASVTSGYFVAVKDEGIFHFSAEEGWKRLFRVKSRIHVLTYIGPYIFAAGEKGAVLRSADQGKTWTASRFPTSASVWAVAGRNDGFVCAHGTYCLYLSDDFGVTWHVAKPFSQLKEPPVIRSLCLHGQTIYIGTRIHMNHGGIWAYDLTEDRIRRISRERQRMTASMMMYQNDWLIAAKGAAKGERGEVAVRNVRTQEEFAITAGPAVREKSFLDVSEDNGIIYVTSSQDENGFSRIYQADLAAGELKWFDTIRGHGWRVANREENFFCAGLYESKFVRPYEAVQLAH				NA	NA	NA	NA	NA
D1-12_00581	456		COG0716	Flavodoxin	ATGGGGAATGTATTGCTTGTTTACGCTACAATGTCAGGAAACACCGAGGCGATGGCGGATTTAATTGAAAAAGGGCTGATCGAAGCACAAGCATCCGTAGACAGATATGAAGCGATGGATATTCATGCCGAACTTTTTAATGATTACGAGTATATTTTATTAGGCACATATACGTGGGGAGACGGGGATCTTCCTGATGAAATGCTCGATATTGCTGAAGATATGGAAAACCTGGAGTTCACGGGAAAAACATTTGCTTTGTTCGGTTCCGGAGATACGTCCTATGAGTTTTTTTGCGGAGCAGTTGACGAATTGGAAAAAGTAATCACAGCCCGCGGCGGGCGGGTGGTGCTGCCGTCGGTCAAAATTGAAAACAACCCTGAGGGCAGTGAGGAAGAAGAGCTCCGGGAATTCGGAAGACAGTTTGCCGCGCTGTGCAGCCAGCCGGCAGAATAA	MGNVLLVYATMSGNTEAMADLIEKGLIEAQASVDRYEAMDIHAELFNDYEYILLGTYTWGDGDLPDEMLDIAEDMENLEFTGKTFALFGSGDTSYEFFCGAVDELEKVITARGGRVVLPSVKIENNPEGSEEEELREFGRQFAALCSQPAE	PGPT0000020_1194	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
D1-12_00582	711	dapH_1	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGAAAATGATGGATGCAAATGAAATTATTTCATTTATTCAAAATAGTACAAAATCAACGCCTGTAAAAGTGTATGTAAAAGGCGATCTCGAAGGAATCAGCTTTGGCGATTCCGCTAAAACATTCCTGAACGGCCAATCCGGCGTCGTTTTTGGCGAGTGGGCTGAAATTAAAAGCGCAATCGAAGAAAACAAAGACAAAATTGAGGATTACGTCATTGAGAATGACCGCCGCAACTCTGCGATCCCGATGCTTGATTTAAAAGATGTTAAAGCGAGAATCGAGCCCGGCGCTATTATCCGCGACCAAGTCGAAATCGGCGACAATGCCGTTATCATGATGGGTGCGTCTATTAATATCGGTTCAGTCATCGGCGAAGGTACGATGATTGATATGAACGTTGTTCTCGGTGGGCGCGCGACTGTCGGCAAAAACTGCCACATCGGAGCGGGTTCTGTATTAGCGGGCGTTATTGAGCCGCCTAGCGCTAAGCCTGTTGTCGTGGAAGACGACGTTGTGATCGGCGCAAATGCGGTTGTGCTTGAAGGCGTAACAATCGGTAAAGGCGCGGTTGTCGCTGCGGGAGCCATCGTTGTGAACGATGTCGAACCATATACCGTTGTAGCGGGAACACCTGCGAAAAAAATCAAAGATATCGATGAAAAAACAAAAGGCAAAACAGAAATCAAACAGGAATTACGCCAGCTGTAA	MKMMDANEIISFIQNSTKSTPVKVYVKGDLEGISFGDSAKTFLNGQSGVVFGEWAEIKSAIEENKDKIEDYVIENDRRNSAIPMLDLKDVKARIEPGAIIRDQVEIGDNAVIMMGASINIGSVIGEGTMIDMNVVLGGRATVGKNCHIGAGSVLAGVIEPPSAKPVVVEDDVVIGANAVVLEGVTIGKGAVVAAGAIVVNDVEPYTVVAGTPAKKIKDIDEKTKGKTEIKQELRQL				NA	NA	NA	NA	NA
D1-12_00583	1125	ykuR	COG1473	N-acetyldiaminopimelate deacetylase	ATGGAAAAAGAGCGGCTCATTGCCATCCGAAGAGATCTGCACCGCATTCCGGAGATCGGCTTTCAGGAATATAAAACCCAGCAGTACCTGCTGAATCTATTGAACCAATATCCGGAGGAAAGAATTGAAATTGAAACTTGGAGAACCGGCATCTTTGTCAAAGTCAACGGCACGGCTCCGGAAAAAATGCTCGCCTACAGAGCGGATATAGACGCTCTGTCGATTGAAGAGCAGACGGGACTTCCGTTTGCATCTGAACACCCCGGTTTTATGCACGCATGCGGCCACGATATGCACATGACCATCGCGCTCGGCATTATTGATCATTTTGTCCATCATCCCGTCAAACATGATCTGCTCTTTTTATTCCAGCCGGCTGAAGAAGGACCGGGCGGAGCGGAACCGATGCTTGAAAGCGATGTGCTAAAAAAATGGACGCCGGATTTGATTACCGCTCTCCATATAGCACCTGAGCTTCCTGTAGGCACAATCTCCACCAAAAGCGGATTGCTGTTTGCCAATACGAGCGAGCTCGTCATCGATCTTGAGGGGAAAGGCGGACATGCGGCATATCCGCATACAGCAGACGACATGGTCGTTGCCGCGAGCACGCTTGTCACGCAGCTGCAAACGGTCATATCCAGAAATACGGACCCGCTTGACAGCGCTGTGATAACTGTCGGAATGATTACCGGGGGCACGGCGCAAAATATCATCGCAGAGCATGCTCATCTGGAGGGAACCATCCGGACGCTTTCCGAGGAATCAATGCGTATGGTGAAAAAGCGGATTGAAGAGCTTGTCAAAGGAATTGAAATCGGCTTCCGATGCAAAGGAAAAGTCACGTATCCGTCCGTTTATCATCAAGTTTATAATACAAGCGGCCTGACCGAAGAATTTATGCAATTTGTCAGCGATCATCAGCTTGCTGACGTGAAAACGGCGAAAGAAGCGATGACCGGAGAAGATTTCGGATATATGCTGAAAAAATATCCCGGCTTTATGTTCTGGCTGGGGGCCGATTCATCCCACGGGCTTCATCACGCAAAGCTGAACCCGGATGAAGATGCGATGGAAACCGCGGTAAATGTCATGGTCGGATATTTTTCGAAGTATGCCAATTAA	MEKERLIAIRRDLHRIPEIGFQEYKTQQYLLNLLNQYPEERIEIETWRTGIFVKVNGTAPEKMLAYRADIDALSIEEQTGLPFASEHPGFMHACGHDMHMTIALGIIDHFVHHPVKHDLLFLFQPAEEGPGGAEPMLESDVLKKWTPDLITALHIAPELPVGTISTKSGLLFANTSELVIDLEGKGGHAAYPHTADDMVVAASTLVTQLQTVISRNTDPLDSAVITVGMITGGTAQNIIAEHAHLEGTIRTLSEESMRMVKKRIEELVKGIEIGFRCKGKVTYPSVYHQVYNTSGLTEEFMQFVSDHQLADVKTAKEAMTGEDFGYMLKKYPGFMFWLGADSSHGLHHAKLNPDEDAMETAVNVMVGYFSKYAN				NA	NA	NA	NA	NA
D1-12_00584	246			hypothetical protein	ATGACGAAAAAAATTGGAATTGAACAATCTTTATCGGATGTAGAACAGGCGTTAAAACAAAAAGGATATGACGTAGTGATGATGAAGACTCCTGAGGATGCGAAGAATTGTGACTGCTGTGTCGTAACCGGACTTGACAGCAATGTCCAAGGAATTGCCGATACGTCAACTCAGGCTCCCGTCATTACGGCTTCCGGAATGACCGCCGACGAAATCTGCAGCGAAGTGGAAAAAAAATTTCATTAA	MTKKIGIEQSLSDVEQALKQKGYDVVMMKTPEDAKNCDCCVVTGLDSNVQGIADTSTQAPVITASGMTADEICSEVEKKFH				NA	NA	NA	NA	NA
D1-12_00585	807	ykuT	COG0668	putative MscS family protein YkuT	ATGATTGATCTAAAACACTTTGATTGGGCCGGGCTTCTCACATCTGCCGGGATTTTCATCATAAAGCTGGCTCTCATTATTTTAGCGTATTTTATTTTCCGGACGGCAGGAAAAAAGCTGATCAAGCATCTGTTTCAGAAATTCGAGCAACAAAACAACCTCTCTACAGGCCGCGCTTATACTTTGCGAAGCCTCGCGCTTAATGTATATGGATACATCCTGATTTTCGTTTTTATCGTAATGATTTTGGATTTATTTCACTACAATCCGAGCGCTCTCATTGCCGGCGCCGGCGTGGTCGGTCTCGCAGTCGGCTTCGGGGCTCAGGGGCTTGTCAGTGACATCGTCACCGGATTTTTTATCCTTTTGGAAAAACAGATCGACGTCGGTGATTATATTACGGTTGCCGGCTACAGCGGCATTGTCGAGCAGGTCGGTCTCCGTACGACGCAAATCCGGAGCTTTGACGGCACGCTTCACTATCTTCCCAACCGGGGCATTACGAATGTGAGCAACCATTCCCGCGGAACGATGCAGGCGCTTGTCGATATTAAAGTGCCGCTTGAAAAAAATCTTGATGAAACCATTCAAATCCTGCAAACCGCGTGTGACAAAGCAGCCGCTGAGCTCCCGCAGATTAAGGAAGGGCCGGACGTCATCGGGGTTCAGGATTTAAGCTCGTCAGAAATGGTGCTCAGAATCATTGCCAAAACAGAAAATATGGAGCAATGGCGGGTTGAACGCGTACTGCGGAGAGAAATGAAAATCGCGCTCGACCGTTTTAAAAACGCCGCTTCCGCCGAATAG	MIDLKHFDWAGLLTSAGIFIIKLALIILAYFIFRTAGKKLIKHLFQKFEQQNNLSTGRAYTLRSLALNVYGYILIFVFIVMILDLFHYNPSALIAGAGVVGLAVGFGAQGLVSDIVTGFFILLEKQIDVGDYITVAGYSGIVEQVGLRTTQIRSFDGTLHYLPNRGITNVSNHSRGTMQALVDIKVPLEKNLDETIQILQTACDKAAAELPQIKEGPDVIGVQDLSSSEMVLRIIAKTENMEQWRVERVLRREMKIALDRFKNAASAE	PGPT0013695_2751	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
D1-12_00586	459	ykuV	COG0526	Thiol-disulfide oxidoreductase YkuV	ATGAAATTACGTCAGCAAATGCCTGAATTGACAGGCGCTAAAGCATGGATTAACAGAGAAGTCACGAAGGAACAGCTGGTCGGCGGAAAGCCGGCACTGATTCACTTCTGGTCCGCCAGCTGCCGCATGTGTAAAGAAGCGATGCCTGAGGTGAACGGGTTTCGTGATAAATATAAAGATCAGCTGAATGTGGTGGCCGTTCACATGCCCCGTTCCGAAGACGATCTTGATCTTGAGAAAATCAAGAAAACAGCGGCTGAACACGATATCTCTCAGCCGATTTACGTCGACAGCGATCATACGCTGACTGAAGCATTTGAAAATGAGTATGTGCCGGCTTATTACGTTTTTGATAAAAGCGGACAGCTCCGCCATTTTCAAGCGGGAGGAAGCGGGATGAAAATGCTTGAAAAACGCGTCAGCCGAGTACTTTCAGAAACGGAGCAGGCTTCTGAGTAA	MKLRQQMPELTGAKAWINREVTKEQLVGGKPALIHFWSASCRMCKEAMPEVNGFRDKYKDQLNVVAVHMPRSEDDLDLEKIKKTAAEHDISQPIYVDSDHTLTEAFENEYVPAYYVFDKSGQLRHFQAGGSGMKMLEKRVSRVLSETEQASE				NA	NA	NA	NA	NA
D1-12_00587	597	rok		Repressor Rok	ATGTTTAATGAAAGAGAAGCGCTGCGCTTACGTTTAGAACAATTAAACGAAGCAGAGGTAAAAGTCATTCGTGAATATCAAATAGAACGTGATAAAATATATGCAAAACTGAGAGAATTAGACAATACAGGCAGCCTGTCCGATACAAAAAAAGAGTTTCGTCCGGAGAAAAAAAGTGACTCTCTCCCGGTGCTTGCAGAGCTTGCAGCACAGGAAATGAGAAGCTATCAAAAGCCGCAGACACAGCCTCAATCCTCCCAGCCGCAGATGCAGTCTATTACGTCTCTTCCCGCCGGCATTCCGGACGGTTCTACAAGAAGAAGAAGAGGGACGGCGAGACCGGGATCAAAAGCGGCAAAACTGCGCGAAGCAGCGATTAAAACGTTGAAACGCCACAATGCAGCGATCAAAAGTTCCGAACTGCAAAAGGAAATTGAAAAGGAAAGCGGCCTTGAAATTCCTAATATGACAACATTTATGCAAAGCTTAATTAAAATGTATCCGGAAGTGAAAAAACCATACCGCGGCCAATATATTCTTGAGGGAGAAATTTCTCAGGAAACAGCAGAAACGGCAAATGATACGGCTGCTGAATAA	MFNEREALRLRLEQLNEAEVKVIREYQIERDKIYAKLRELDNTGSLSDTKKEFRPEKKSDSLPVLAELAAQEMRSYQKPQTQPQSSQPQMQSITSLPAGIPDGSTRRRRGTARPGSKAAKLREAAIKTLKRHNAAIKSSELQKEIEKESGLEIPNMTTFMQSLIKMYPEVKKPYRGQYILEGEISQETAETANDTAAE				NA	NA	NA	NA	NA
D1-12_00588	993			Sporulation protein cse15	ATGAAAATATCCGGTCCGTTTTTCCACGACACTTCTCAAGAGAACCTTTACTTGAAATCCGAACTTTCCAGATGCAGAAAATTAATTTCAGAATTTGAAGCAAGCTACTTCCATCAGAAAAATAATAAGCTTCAGGAGGAAAACGCCAATATTAAAGAGCGGCTTCACAAGCTTTCTGACGAATTGGAAGCCATGGCTCAAAAACACAAACAGACAAGTGACACGGAACGTTCTTTGCATGAAATCAGAGCCGGGCTGCTCGATAAAATCGTCATTCTGCAAGAACTGCTTCAGCAGGAAACGTTTCGGCGGAAAAATGAGATGGAAGAAAAGCACCGTCTGCATCTTACAAATGTAAAATTTGAAGAAGAAAATAAAAACTTACATACCCGCATCCGCTCACTTGAGACCGCCATTCAAACTGAACGGACTTCTCACGAAGATATGAAACAGCGTTATCATGCCGCTGCAGACGAAAATACCCGGCTCCAAACACAAATGATAGAAAAAGAATACCAGCTCAAACATATTAAAATAGAAATTAATCATATGAGAGATCGAATACTAGAAACAAAAGAACGGCTTGTAGAAATAGAAAAAACGAAAGAAAAGTTATTTCAAGAAACCATTCTTTCGTATAAACGGCAGCTGGACGAAAGTGATGCTTGGATTGCCGGCCATTTTGCTGATATTGACAGCCGCACGGCGGAACCGGCGGAACAAGCTCTGGAAATCCCTTCTGTTTCCAAAGAGACTGTTCAGGCAGAAGACTTGCTTAAAGCCGTTACCGAACAAGTCATCTCCCTGCAAAAACAATTTGTACAATCAGAGTCCCGCGATCAGTCGCTTGATGAAAAACTGGATGCGTTGAAAGAACGTGCTGACGGCGAAAAGCCTTTCCAAAAATATGTCGTCAAGCTTGAAAAAAAGCCTGGAAAAGATGCGTCACTTCCGCAGAATAAGCGGGAAAACGCAAAAAAACTGCTTGAGTAA	MKISGPFFHDTSQENLYLKSELSRCRKLISEFEASYFHQKNNKLQEENANIKERLHKLSDELEAMAQKHKQTSDTERSLHEIRAGLLDKIVILQELLQQETFRRKNEMEEKHRLHLTNVKFEEENKNLHTRIRSLETAIQTERTSHEDMKQRYHAAADENTRLQTQMIEKEYQLKHIKIEINHMRDRILETKERLVEIEKTKEKLFQETILSYKRQLDESDAWIAGHFADIDSRTAEPAEQALEIPSVSKETVQAEDLLKAVTEQVISLQKQFVQSESRDQSLDEKLDALKERADGEKPFQKYVVKLEKKPGKDASLPQNKRENAKKLLE	PGPT0024980_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024980-yknT-K06437	NA	NA
D1-12_00589	603	mobA		putative molybdenum cofactor guanylyltransferase	ATGAAACGGGTGAATGTAATATTAGCGGGGGGAGCTTCCCGAAGATTCGGAGAACCGAAAGCTTTTGCAAAGTGGAAGGGCGGCATGTTTTATGAACAGGCGAAAAAAGCCTTCGGCGGCGGAGAAACGGTAATTATCAGCCGCCCTGAGCATATAAAAAAGTTCTTATCAAACAGGGAGCGGCATGTTTTTGCCGATGAGCCGCGGTTTCGGGGAATGGGCCCGCTGGCCGGCATATATACGGCAATGAAACAAACGGAAGGCGAAACATACACGGTCATATCCTGTGACACGCCGCTCGTGACAAGAAAGACGATGGCTGCACTAGAAATGAAGCTGACCGGAAATCTGGACGCTGTCATACCGGTTTGTGAAAACAGAGAGCATCCCCTCTTGGCGGTTTACCATAAACGGGTGCAGGATGTGCTTTTTGATCAGCTGACACAAAACAAACTGAAAATGACAGACACGCTGAAACGGCTGTCTGTCTGTTATGTGCAGGCTGAAGACATCGGCGCCGGGCCGGAGGAGTTCGCTAATATCAACACACGGGACGATTACACCAGACTTTTGGCGCATGTCGAGTCTTCAAATCAGGACTGA	MKRVNVILAGGASRRFGEPKAFAKWKGGMFYEQAKKAFGGGETVIISRPEHIKKFLSNRERHVFADEPRFRGMGPLAGIYTAMKQTEGETYTVISCDTPLVTRKTMAALEMKLTGNLDAVIPVCENREHPLLAVYHKRVQDVLFDQLTQNKLKMTDTLKRLSVCYVQAEDIGAGPEEFANINTRDDYTRLLAHVESSNQD				NA	NA	NA	NA	NA
D1-12_00590	1020			hypothetical protein	ATGGAAGAGCGCTATTCGCGGCAGACAAGATTTAAGCCGATAGGGGAAAAAGGGCAGCAGGCGCTGGCTGACAGCAGTGTCCTGATTGTCGGAGCCGGAGCCCTCGGAACAGCCGCGGCAGAGGGTTTGGCAAGAGCCGGAGCGGGCCGTATGGCGATTATTGACCGGGATTATGTGGAATGGAGCAATTTACAAAGACAGCAGCTGTATACAGAAGAAGACGCGAGACAGCGCCTGCCGAAAGCAATGGCGGCCAAGGCGCGTCTTTTGGCGGTAAACAGTGATATACATATCGATGCTTACGCGGCGGAAGGTACGGCGGAAACGCTCGAACCGCTGATCGAACAAGCGGATTGCATCGTGGATGCGACAGATAATTTTGAAACGAGAATGGTCATCAATGATCTGGCGCTGAAAACGAAAACACCTTGGATTTATGGTGCCTGTGTCAGCAGTCAGGGAATGTGCATGACGATTATTCCGGGGGTTACGCCGTGTTTATCCTGCCTGTTTGAGCAAATGCCCGTGGGCGGAGCGACATGTGATACAGCAGGCATCATACCTCCGGCGGTTCATATCGTTTCCGCTTATCAGCAGGCTGAGGCGCTGAAATTGCTGACAGGAAATCATGCGGCGGTAAATCGGCGCTTTTTCACGTTTGACGTGTGGAATAACACCAATATGAGCATAAATGTGGATCAGATCAAACGGGATCATTGCCCTTCCTGCGGCGCGGAGCCCGTATATCCGTATCTGCAGCCTGAAAACAGGCCGAAAGCAAGCGTGCTGTGCGGAAGAGACACCGTTCAAATCAGATCGGAAGCCTTAAAGAGGCTGGATAAAGAAGAGCTTGTCAAACGTCTGAAGCAGATCGGTAAAGTGGAAGCAAATGAATTTCTGCTGCACATGGCGTATGAGCGCTTCAGAATCGTTATTTTTCAGGACGGACGGGCTTTGATTCACGGTACAAACGATATAAAAGAAGCAAATTCAGTTCTGGCCAGAGTGATCGGACTGTAG	MEERYSRQTRFKPIGEKGQQALADSSVLIVGAGALGTAAAEGLARAGAGRMAIIDRDYVEWSNLQRQQLYTEEDARQRLPKAMAAKARLLAVNSDIHIDAYAAEGTAETLEPLIEQADCIVDATDNFETRMVINDLALKTKTPWIYGACVSSQGMCMTIIPGVTPCLSCLFEQMPVGGATCDTAGIIPPAVHIVSAYQQAEALKLLTGNHAAVNRRFFTFDVWNNTNMSINVDQIKRDHCPSCGAEPVYPYLQPENRPKASVLCGRDTVQIRSEALKRLDKEELVKRLKQIGKVEANEFLLHMAYERFRIVIFQDGRALIHGTNDIKEANSVLARVIGL	PGPT0008935_33	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
D1-12_00591	1293	moeA		Molybdopterin molybdenumtransferase	ATGCTTGAAAAAAGAACGCCGATTCAGGTGGACGAAGCAGTCCGCCGGGTGAGCCGGTATAAAAAACAGGGGGATACCGAATGGGTGGCGCTTGAGGACAGTCTCCACCGCTATTTGGCGGAGGATGTTAAGGCGGATCATGATGTGCCGGCCTTTAACCGTTCCCCGTATGACGGGTTTGCCATCAGGGCGAGCGATTCAAAAACGGCTTCCCGTGACAATGCCGTCACCTTTGAAGTCATTGACCATATCGGAGCCGGCGCCGTGTCAGAAAAAGAACTCGGGCCTTATGAAGCGGTCCGCATTATGACGGGTGCGCAGATTCCAAAAGGCGCGGATGCCGTAGTGATGCTTGAACTGACAAAAACGTTTTCTGAAAACGGGACGAATTACATGTCAGTGAAACGCCCTTTTCATGCGGGTGATAATATTTCATATCAAGGAGAAGATGCGAAAAAGGGCAGCTCGCTATTAAAAAAAGGGACGAAAATCACGCCGGGCGTAACCGCTCTTTTAGCAACCTTCGGCTATGCTTCCGTTCCCGTGGTCAGAAAGCCGGTTGTCGGCATTATCGCAACGGGAACCGAGCTTCTTCATGTCAGCGATCCGCTTGAGCCGGGGAAAATCCGCAACAGCAACGCTGCCATGGTGTATGCCCAGGTCATTGAAGCGGGCGCGGTACCGATGAACTTAGGGAAAATTTCCGATGATTTTGATGACAGCTATGCTGCGGTGAAGGAAGCTATGAAAAAAGTTGATTTTCTGATCACGACCGGCGGCGTGTCAGTCGGCGATTTTGATTTTCTTCCAGACATTTATAATAAGCTCGGAGCGGAAGTTCTTTTTAACAAAGTGGCAATGCGCCCGGGGAGCGTGACAACTGTCGCCCGGGCCGATGACATGCTGCTGTTCGGCCTTTCAGGCAATCCGTCCGCATGTTATGTCGGATTCACCCTGTTTGTCAAACCGATGATTCAGACGTGGCTTCTGAATGAAAAACCTCATTCCGGATGGGCGGAAGCCGTGTTAACAAACGACTTTCCGAAGCCGAATCCGTTCACGAGATTTGTGAGAGCATTTGTTTATCATAAGGACGGAAAGATGATGGCGTCACCGGTCGGTCTCGACAAATCAAGCTCAGTCACATCTCTAGCCGAAGCAAACGCGTTTATCCTTCTGCCGGGAGGAACGAGGGGGTATGAAGCGGGCCGGACGGTTCACGTGCTCCTCATCCGTGATGAGAATGGAAGTGAATGGCCGTGGTCAATTCTTTCCCGATCGTCCAGATCGTAG	MLEKRTPIQVDEAVRRVSRYKKQGDTEWVALEDSLHRYLAEDVKADHDVPAFNRSPYDGFAIRASDSKTASRDNAVTFEVIDHIGAGAVSEKELGPYEAVRIMTGAQIPKGADAVVMLELTKTFSENGTNYMSVKRPFHAGDNISYQGEDAKKGSSLLKKGTKITPGVTALLATFGYASVPVVRKPVVGIIATGTELLHVSDPLEPGKIRNSNAAMVYAQVIEAGAVPMNLGKISDDFDDSYAAVKEAMKKVDFLITTGGVSVGDFDFLPDIYNKLGAEVLFNKVAMRPGSVTTVARADDMLLFGLSGNPSACYVGFTLFVKPMIQTWLLNEKPHSGWAEAVLTNDFPKPNPFTRFVRAFVYHKDGKMMASPVGLDKSSSVTSLAEANAFILLPGGTRGYEAGRTVHVLLIRDENGSEWPWSILSRSSRS	PGPT0008430_1353	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-12_00592	522			hypothetical protein	ATGGCCGTGGTCAATTCTTTCCCGATCGTCCAGATCGTAGGTTTTCAAAACAGCGGTAAAACAACGTTTATTGAACGTGTGCTGAAAGCGGCGCCGAAAGAGTGCGATATTGGATGTTTAAAACATCACGGACATGGCGGAGAACCGGAACCTTTTTCTGACGGAAAAGACTCGGAGCGTTTTTCAAAAGCCGGAGCCGCGGTTACGGCAGTAGAAGGGGACGGCGTCCTGCAGCTTACGGCGCGAAAAAAATGGGATCTGGCGGGTTTGATCAGTCTGTATGAATGTCTGGGAATTGACGGTCTTCTCATAGAGGGATTTAAACATGCGCCGCATCCGAAAATCATTATGATCAAAGACAGCGAAGATTGGCAAAAGCTCAAACATTTGGAGCGCGTGATCGCGGTTATCAGCAGAAATATGGAGCATATGCCGGCAGATGCAGGCATGCCCGTATTCCATGCGGATGATCCGGCTGCCATTATGTTTGTGCTTTCGCAGCTGAAAGGGGAATCTGCATAA	MAVVNSFPIVQIVGFQNSGKTTFIERVLKAAPKECDIGCLKHHGHGGEPEPFSDGKDSERFSKAGAAVTAVEGDGVLQLTARKKWDLAGLISLYECLGIDGLLIEGFKHAPHPKIIMIKDSEDWQKLKHLERVIAVISRNMEHMPADAGMPVFHADDPAAIMFVLSQLKGESA				NA	NA	NA	NA	NA
D1-12_00593	471	moaE		Molybdopterin synthase catalytic subunit	ATGGAACGTTTTCAAATTACAAGGGAACCTATCATTGCGGAAAATATCGTAAAAAAAGTTGAAAAGCGTGAAGCCGGCGCCATCACAACGTTTATCGGCACGGTCAGAGAGTGGACTGCAGGACGGCGGACGGTACGGCTCGAATATGAAGCGTATGAACCGATGGCTGTTCAAATGCTTTCTCAAATCGGCGATGAAATCAGTGCGAAATGGGAAGGAGCCGAAGCTGCAATCACACACCGTGTCGGCGTCCTTGATATCGGAGAAGCAGCGGTCGTAATCGCCGTGTCTTCACCGCACAGAAAGGCGGCATATGAGGCGAATGAATATGCAATTGAACGGATAAAACAGATTGTGCCGATATGGAAAAAAGAAATCTGGGAAGACGGAGAAGAATGGATAGGCGATCAGCTGGAAACAACGCCCTATCCGAACGGAGAACCGGATTTGGATAAAGGGGAATCGCGATGA	MERFQITREPIIAENIVKKVEKREAGAITTFIGTVREWTAGRRTVRLEYEAYEPMAVQMLSQIGDEISAKWEGAEAAITHRVGVLDIGEAAVVIAVSSPHRKAAYEANEYAIERIKQIVPIWKKEIWEDGEEWIGDQLETTPYPNGEPDLDKGESR	PGPT0008430_580	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-12_00594	234	moaD	COG1977	Molybdopterin synthase sulfur carrier subunit	ATGATTAAAGTACTATTGTTTGCCGGGCTTGCGGAGCAGGCGGGAACACCGGTCATTGAACTTGACGAAAAAGAGACGGCGGCGTCTGCTGTAAAAACACTGTTAAAGGAACGGTACGGACTTCAGACGATTGACAATGCCATGATCGCAATCAATGAAACATATGTAAAAGACAACAGCATCGTAACAGAAGGTGATACCATTGCCTTTATCCCTCCTGTAAGCGGAGGGTGA	MIKVLLFAGLAEQAGTPVIELDEKETAASAVKTLLKERYGLQTIDNAMIAINETYVKDNSIVTEGDTIAFIPPVSGG	PGPT0008415_55	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
D1-12_00595	699	yknW		Membrane protein YknW	ATGGAACCAAACCTGGAAAAAGGCAATACGGCAGTAACGGAAAAGCCGTCAATTTTCGGCGTCATTACAAGTCCTGTTGTGCAGTTTAAAAGATTAAAAGAAAAGCCGGTCATCGGCATTCCTCTCCTGATTGTCATCATTCTCATCGCGGCCGGCAGTATTTTGCGCGGACTGGGGATGAATTATGAAGAAGTGCTGAACAGCCCATCTCTTGACGGTTTGACGGATGATCAGATTGAAATGACCAAAACCTTCGCTAAATTCGGCACGATGTTCGGAGGAATCTTCGGGGGCATTATCGCTCTGTTTATCGTTCCGCTCATTTACTGGCTGTGCGTCAAAATTTCAGGCGGCGTGACAACTTACAAAAAAATGCTCTCACTCAGCCTGTTTACGGCATTCATTACCAATATCGGCTTAGTTATTAACGGTCTTGTCACTTATTTTACCGGTGCGGGCTCACTGTACGCCGTTACATCTTTGGCGAGTGTCATACCGGCCGGAGACGGCGTCGCGGTCTTTTTAAGCGCGTTCGACATTTTCAGCATCTGGAGCTATATTCTGCTCGCTTTGGGTCTTCGCTATACAGGCGGCATTTCGAAAAAAGCGGCCTGGACTTCCGCGATTGTCCTGTTTGTTATTATGCTTTTGGTTTCGGCAGTCGGAGGACTGTTAAGTTCAGTGACAGCAGGTGTATAA	MEPNLEKGNTAVTEKPSIFGVITSPVVQFKRLKEKPVIGIPLLIVIILIAAGSILRGLGMNYEEVLNSPSLDGLTDDQIEMTKTFAKFGTMFGGIFGGIIALFIVPLIYWLCVKISGGVTTYKKMLSLSLFTAFITNIGLVINGLVTYFTGAGSLYAVTSLASVIPAGDGVAVFLSAFDIFSIWSYILLALGLRYTGGISKKAAWTSAIVLFVIMLLVSAVGGLLSSVTAGV				NA	NA	NA	NA	NA
D1-12_00596	1137	yknX	COG0845	Putative efflux system component YknX	ATGAAAAAAATTTGGATCGGAATCGGCATCGCCGTAATTGTTGCAGTATTCATCGGTATCAATATTTATAAGTCTGCCGCTCCCGCGGGCGGCAGCGCCGGGAAAAAAATCGAAACCGGAACCATGGAAAACAGAGAAATCTCCTCTACGGTTATGGTTCCGGGAACACTTAAATTCTCTAAAGAACAGTATGTTTTTTATGAAGCGGATAAAGGAACTCTTGATAAAGTGAAAGTAAAAGAAGGCGACAAAGTAAAAAAAGGGTCGTCGTTAGTCACGTATACAAATGAGCAGCTCAATCTTGATAAAGAACAAAATGAGTTGACAGAACAATCAAAACGGATGCAAATCGAACAAGTTGAAGAAAAACTCAGAGCATTAAACAGCAAGGAACAAGATCTGGCAAAACAAGTTGGAGAAGCTGAAGCCAAAAAACAAATTGAATCCGAACGGACTGATCTGCAGCTTCAGCAAAAAACGGCGGAAATCGAATTAAAGCAATCTGATTTGCAAAAGCAGTCTCTTGAAAATCAAGTGGCGAATCTCAATGTTAAGAGTGAGATGGACGGGACGGTAATCTCGGTAAATCAAGAAGCGGCTTCTAAAAAATCGGATATTCAAGAACCGGTTATACATATAGGAGACCCGGAACACCTGATCGTTGCCGGCAATTTGTCCGAATACGACACGCTGAAAGTGAAAAAGGGCCAAAGCGTTACGATTACCTCAGACGCCATTCCCGGTAAAACGTGGAAAGGGAGAGTGGCGGCTGTCGGCCTCGTTCCTGATCAAAAGTCAAGCGCTGCTTCGGGGGAAAGCACGGAACAGGCCGTGCAGTATCCGTTCCAGGTTAAGCTGATCGGAAACCTTCCGGAGGGCAAGCCGGGGTTTAAATTAATTATGAACATTGAAACCGACAAACGGAAAGCCGATACGCTGCCGTCCTCCGCGGTCAAAAAAGACGGAGATGAGCACTGGGTCTTTACGGTAAAAGACGGGAAGGCCAAACGCGTGAAAGTTAAAGTCGGCGATACCGCAAATCAGCTTACGGAGATAAAAGAGGGGCTTTCAAAGGATGATAAAGTCATTCTGAATCCGGCTGACGGTTTGACTGACGGAACGGATGTGAAAGCATAG	MKKIWIGIGIAVIVAVFIGINIYKSAAPAGGSAGKKIETGTMENREISSTVMVPGTLKFSKEQYVFYEADKGTLDKVKVKEGDKVKKGSSLVTYTNEQLNLDKEQNELTEQSKRMQIEQVEEKLRALNSKEQDLAKQVGEAEAKKQIESERTDLQLQQKTAEIELKQSDLQKQSLENQVANLNVKSEMDGTVISVNQEAASKKSDIQEPVIHIGDPEHLIVAGNLSEYDTLKVKKGQSVTITSDAIPGKTWKGRVAAVGLVPDQKSSAASGESTEQAVQYPFQVKLIGNLPEGKPGFKLIMNIETDKRKADTLPSSAVKKDGDEHWVFTVKDGKAKRVKVKVGDTANQLTEIKEGLSKDDKVILNPADGLTDGTDVKA				NA	NA	NA	NA	NA
D1-12_00597	693	yknY_1	COG1136	putative ABC transporter ATP-binding protein YknY	ATGATTCAGCTTTCAAAGGTGAAAAAAAGCTATCAGATCGGCAAGGAGACGTTTGATGTTCTTCGTTCAATCGACCTGACGATTGAAGAAGGAGAATATGTGTCAATTATGGGACCGTCGGGATCGGGAAAATCTACGATCATGAATATCATCGGCTGTCTGGACAGACCGACGTCCGGCAGTTACAGGCTTGCGGGCGAAGATGTTTCTTCATGTACCGAAAAAGAGCTTGCGGCGGTCCGGAACAAATCAATCGGATTTGTCTTTCAGCAATTTCAGCTGCTGCCGCGATTGAATGCAAGAAAAAATGTCGAACTCCCCATGATCTACGCCGGTATCGGCAAAAAAGAGCGTGAGGAACGGGCTGAGCATGCGCTGGAAAAAGTCGGTTTGGCGGATCGGATGCGTCACATGCCGAATGAGCTGTCAGGCGGCCAGAAGCAGCGTGTCGCGATTGCAAGAGCCATCGTGAACGAACCGAAGCTCATTTTAGCTGATGAACCGACCGGCGCGCTGGATACGAAAACAAGCATTTCTATTATGGAGCAGTTCACAGAGCTTAATGCAGAGGGCGTGACCGTGGTGCTTGTCACTCATGAGCCTGAAGTGGCGGACTGTACAAACAGAGTGATTTTCGTCCGTGACGGCATGATCGTTTCCCGCGATGCTGAGCAGAGGAGAGTGGGAGAATGA	MIQLSKVKKSYQIGKETFDVLRSIDLTIEEGEYVSIMGPSGSGKSTIMNIIGCLDRPTSGSYRLAGEDVSSCTEKELAAVRNKSIGFVFQQFQLLPRLNARKNVELPMIYAGIGKKEREERAEHALEKVGLADRMRHMPNELSGGQKQRVAIARAIVNEPKLILADEPTGALDTKTSISIMEQFTELNAEGVTVVLVTHEPEVADCTNRVIFVRDGMIVSRDAEQRRVGE	PGPT0013345_13929	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-12_00598	1194	yknZ	COG0577	putative ABC transporter permease YknZ	ATGAGCCTGTTAGAAAATCTCCGGATGGCCCTCAGTTCCGTAAGAGCTCACAAGCTGAGATCGATTCTGACGATGCTCGGAATCATTATCGGCGTCGGTTCAGTAATTGTTGTTGTGGCTGTCGGCCAGGGCGGAGAGCAAATGCTGAAGCAATCCATCAGCGGGCCGGGCAATACGATTGAATTGTTTTACCTTCCGAGTGATGAAGAATTAACAGCCAATCCGAACGCCTTACAGGAAGCGAGTTTTACAGAAGAAGATATTAATGGATTAAAAGGAGTGGACGGCGTAAAGCAGGTTGTCGCTTCCGCGGTAAAATCCATGACGGCCCGTTACCATGAAGAAGACACGGATATTACGTTGAACGGCATTAACAGCGGCTACATGGACGTAAAAAAGCTGGACGTTCAAGATGGACGGACATTTACGGACAATGATTTTCTTTCCGGGAAAAGAGCAGGAATCATCTCGAAAAAAATGGCTGAAAAGCTGTTCGGGAAAACGTCTCCGCTCGGAAAAATCGTCTGGGCCGGAGGACAGCCCGTTGAAGTAATCGGCGTACTGAAAGAAGAGAGCGGTTTTTTATCGTTAGGACTCAGTGAAATGTATGTGCCGTTCAACATGCTGAAAACGTCTTTCGGTACTAACGACTACAGCAACGTTTCCGTTCAGACGGAGTCCGCTGATCAAATCAAAACAACAGGAAAAGAAGCGGCCCGTCTCTTAAATGACAATCACGGTACAAAAGAGGCCTATCAAGTCATGAATATGGAAGAAATCGCGGCGGGAATCGGTCAGGTCACGACCGTCATGACGACGATCATCGGTTCGATCGCCGGTATTTCTCTCATTGTCGGCGGGATCGGGGTCATGAATATTATGCTCGTATCAGTGACGGAACGGACAAGAGAAATCGGCATCCGCAAATCGCTCGGTGCCACGAGAGGACAGATTCTGACACAATTCTTAATTGAATCTGTTGTGCTTACATTAATCGGCGGCTTAATCGGAATCGGTCTCGGCTACGGGGGAGCATCACTCGTTTCCCTTATCGCAGGCTGGCCGTCGCTCGTTTCCTGGCAGGTGGTTTGTATCGGCGTGCTGTTCAGTATGCTGATCGGTGTCATTTTCGGCATGCTGCCCGCCAACAAAGCATCACGCTTAGATCCGATTGAAGCATTAAGGTATGAATAA	MSLLENLRMALSSVRAHKLRSILTMLGIIIGVGSVIVVVAVGQGGEQMLKQSISGPGNTIELFYLPSDEELTANPNALQEASFTEEDINGLKGVDGVKQVVASAVKSMTARYHEEDTDITLNGINSGYMDVKKLDVQDGRTFTDNDFLSGKRAGIISKKMAEKLFGKTSPLGKIVWAGGQPVEVIGVLKEESGFLSLGLSEMYVPFNMLKTSFGTNDYSNVSVQTESADQIKTTGKEAARLLNDNHGTKEAYQVMNMEEIAAGIGQVTTVMTTIIGSIAGISLIVGGIGVMNIMLVSVTERTREIGIRKSLGATRGQILTQFLIESVVLTLIGGLIGIGLGYGGASLVSLIAGWPSLVSWQVVCIGVLFSMLIGVIFGMLPANKASRLDPIEALRYE	PGPT0013350_19118	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-12_00599	756	lacR_2		Lactose phosphotransferase system repressor	ATGCTTACTCCTGAAAGGTATCAGCTGATTATGGATCAGATTGAAAAGCGAGATGTGGTGAAGATTCAAGAGCTGATAAGCATGACAAACGCTTCTGAATCAACGATCAGAAGAGATTTATCAACACTTGAAGAGCGCGGGTTTTTAAAGCGCGTTCACGGCGGGGCGTCTAAACTTTCCAACAGCAGGCAAGAACCCGATATGCTTGAAAAATCCTCCAAAAACCTTCAAGATAAACTGAAGATCGCTGAAGAAGCGGCATCTTTATTAGAAGAAGGTGACTGTATTTACCTCGATGCGGGAACAACTACATTGCACATGATTGATTTTATAGATCATACAAAGGACATTGTGGTTGTCACAAACGGAGTTATGCATATCGACGCTTTAATAAGGAAAGGGATTCCTTTTTATCTTCTCGGAGGATATGTGAAGCATAGAACAGGTGCGATGATCGGCGGCGCCTCATTAACGGCGGTCAGCCAGTACCGTTTTGACAAAAGCTTTCTCGGGGTGAACGGCGTGCACATTGAAGCCGGCTTTACAACACCCGATCCGGATGAGGCTCTTCTGAAGACAAAGGCTGTGAGACAGGCGAAAAATGCGTATGTTTTAGCCGATCCTTCTAAATTCGGCGAGATTTCTTTCGCAGCGTTCGCCGCCTTGGGCGATGCAGCTATCATTACCACTGAAGCTGAAGAACTTGCATTCGATAATTACCAAGAAAAAACTGTCGTAAAGGTAGTGAAACCATGA	MLTPERYQLIMDQIEKRDVVKIQELISMTNASESTIRRDLSTLEERGFLKRVHGGASKLSNSRQEPDMLEKSSKNLQDKLKIAEEAASLLEEGDCIYLDAGTTTLHMIDFIDHTKDIVVVTNGVMHIDALIRKGIPFYLLGGYVKHRTGAMIGGASLTAVSQYRFDKSFLGVNGVHIEAGFTTPDPDEALLKTKAVRQAKNAYVLADPSKFGEISFAAFAALGDAAIITTEAEELAFDNYQEKTVVKVVKP	PGPT0017590_1381	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
D1-12_00600	912	lacC	COG1105	Tagatose-6-phosphate kinase	ATGATTTACACTGTAACCCTCAATCCTTCTGTTGACTATATCGTTCACGTTGAAGATTTTGCCGTAGGCGGTTTAAACCGTTCCAGCTATGACACGAAGTATCCCGGCGGAAAAGGCATCAACGTTTCGAGATTACTGAAAAGACACCATGTGCCGTCAAAAGCATTGGGGTTTGTCGGCGGATTTACCGGAAATTATATCACGTCATTTTTGCAGCAGGAAGGTCTGGAAACGGCTTTTTCTGAGGTAGATGAAGACACGCGTATAAATGTAAAACTGAAAACGGGCGATGAAACGGAAATTAACGGACAGGGCCCGACGATTTCAGACGAAGTGTTCAATGCCTTTTTAGAACAGTTCTCCGCTCTGGAAGAGGGAGACATCGTCGTTTTAGCGGGAAGCATTCCTTCTTCCCTGCCGCATAACACGTATGAAAAAATTGCTGAGGCATGCAGAAAGCAGAATGCCCGGGTAGTGGTGGACATCTCCGGTGAAGCGCTGATGAAAGCGACAGAAATGAAACCGTTTTTGATGAAGCCGAATCATCATGAGCTTGGGGAAATGTTTAATACGGTCATTGATTCAGCCGAAGCTGCCGTTCCTTACGGTAAAAAATTAATTGAACAAGGCGCTGAACACGCGATTGTTTCGATGGCTGGCGACGGTGCGCTTTTATTTACGAAAGAGGCGGTTTTCCTCGCCAATGTTCCTAAAGGAAAGCTTGTCAATTCCGTAGGCGCGGGTGATTCCGTCGTCGCGGGATTCCTTGCGGGAATTTCAAAACAGCTGCCTTTGGAAGATGCGTTCCGTTTAGGAGTTGCTTCCGGAAGCGCGACGGCATTTTCTGAAGAACTCGGAACTGAAGAGTTTGTACAGCAGCTTCTTCCTGAAGTTAAAGTCACACGTCTATAG	MIYTVTLNPSVDYIVHVEDFAVGGLNRSSYDTKYPGGKGINVSRLLKRHHVPSKALGFVGGFTGNYITSFLQQEGLETAFSEVDEDTRINVKLKTGDETEINGQGPTISDEVFNAFLEQFSALEEGDIVVLAGSIPSSLPHNTYEKIAEACRKQNARVVVDISGEALMKATEMKPFLMKPNHHELGEMFNTVIDSAEAAVPYGKKLIEQGAEHAIVSMAGDGALLFTKEAVFLANVPKGKLVNSVGAGDSVVAGFLAGISKQLPLEDAFRLGVASGSATAFSEELGTEEFVQQLLPEVKVTRL	PGPT0017580_1932	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
D1-12_00601	1905	fruA	COG1299	PTS system fructose-specific EIIABC component	GTGAAGATAACTGAGCTGTTAACAAGAGATACAATTCATCTCAATATAGAAAGCAAAGAGAAAGAAAACGTTATCGATGAAATGGTGACAGTGCTTGACAAAGCCGGCAGATTAAATGACAGAGAGGCTTACAAAGCAGCCATTTTAAATCGTGAAAGCCAAAGCTCGACGGGAATCGGCGAAGGCATTGCCATTCCTCATGCGAAGACGGCGAGCGTCATTAACCCGGCCATCGCATTCGGCCGTTCAAAAGATGGTGTGGATTATGAATCATTAGACGGTCAGCCGGCACACCTGGTCTTTATGATTGCGGCAACCGAAGGAGCGAATAATACGCACCTTGAGGCATTATCAAGACTTTCAACGCTTCTTATGCGTGAGGAAATCCGCAAACAGCTTCTTGAAGCTGAATCAGAAGACGCGATCATTGACATCATCAATCAGCATGACAAAGATGACGATGAGGAAGAAGAAGAGCAGGAAGAACAGGCAGCGCCGTCAGGAAAAGGCAAAATCCTTGCCGTTACGGCATGTCCGACAGGTATCGCCCATACGTTCATGGCAGCTGACGCACTGAAGGAAAAAGCGAAAGAGCTCGGCGTTGACATTAAAGTCGAGACAAACGGCTCAAGCGGTATCAAACATAAGCTGACGGCTCAAGAAATTGAAGACGCGCCTGCGATCATCGTGGCGGCTGATAAACAGGTTGAAATGGAGCGCTTTAAAGGCAAACATGTTCTTCAAGTACCTGTAACAGCTGGTATCAGACGTCCTCAGGAACTGATTGAAAAAGCCGTTAACCAAGATGCGCCGATTTACGAGGGCAGCGGCGGCGGATCTTCCGCTTCAAATGAAGACGGCCCGAAACAGAAATCAGGCACAAGTATCGGAAGCACTTTCTATAAACACTTAATGAGCGGTGTCAGCAACATGCTGCCATTTGTCGTCGGTGGCGGAATTCTCGTTGCGATCTCATTCTTCTGGGGAATTCATTCAGCTGATCCGAAAGACCCGACATACAACACGTTTGCCGCAGCGCTGAACTTTATCGGCAGCGATAATGCGTTAAAACTGATCGTTGCCGTTCTTGCCGGATTCATCGCAATGAGTATTGCGGACCGTCCGGGATTTGCGCCGGGTATGGTCGGCGGATTTATGGCTACGCAGGCGAATGCCGGATTCTTGGGCGGACTGATTGCCGGATTCTTAGCCGGTTATGTCGTAATCCTGCTGAAAAAGCTGTTTGTCTTTATCCCTCAATCTCTTGACGGATTAAAACCTGTATTGATTTATCCGCTGCTCGGTATTTTTATCACAGGAGTTCTGATGCAATTTGTCATTAACACACCTGTAGCAGCGTTCATGAATTTCTTAACAAATTGGCTTGAAAGCCTTGGAACTGGAAACCTTGTTTTAATGGGGATTATTTTAGGCGGTATGATGGCTATCGACATGGGCGGCCCGCTCAATAAAGCGGCGTTCACTTTCGGAATTGCGATGATCGATGCCGGAAACTATGCGCCGCATGCGGCCATCATGGCGGGCGGAATGGCTCCGCCGCTTGGAATCGCACTGGCGACAACATTCTTTAAACACAAATTCTCTAAACGTGACCGTGAAGCCGGTATTACGTGCTACTTCATGGGAGCAGCTTTCGTTACAGAAGGCGCTATCCCGTTTGCAGCGGCTGATCCGCTTCGCGTCATCCCTGCAGCTGTTGTCGGTTCTGCGGTAGCTGGCGGGTTGACAGAGTTTTTCCGGGTAACGCTTCCTGCACCGCACGGAGGAATATTCGTTGCATTCATTACGAACCATCCGCTGCTTTACTTAATGAGCATCGTGATCGGAGCGATTGTAACGGCTGTTATCTTGGGAATCGTCAAAAAACCGGTTGTAGAGAAATAA	MKITELLTRDTIHLNIESKEKENVIDEMVTVLDKAGRLNDREAYKAAILNRESQSSTGIGEGIAIPHAKTASVINPAIAFGRSKDGVDYESLDGQPAHLVFMIAATEGANNTHLEALSRLSTLLMREEIRKQLLEAESEDAIIDIINQHDKDDDEEEEEQEEQAAPSGKGKILAVTACPTGIAHTFMAADALKEKAKELGVDIKVETNGSSGIKHKLTAQEIEDAPAIIVAADKQVEMERFKGKHVLQVPVTAGIRRPQELIEKAVNQDAPIYEGSGGGSSASNEDGPKQKSGTSIGSTFYKHLMSGVSNMLPFVVGGGILVAISFFWGIHSADPKDPTYNTFAAALNFIGSDNALKLIVAVLAGFIAMSIADRPGFAPGMVGGFMATQANAGFLGGLIAGFLAGYVVILLKKLFVFIPQSLDGLKPVLIYPLLGIFITGVLMQFVINTPVAAFMNFLTNWLESLGTGNLVLMGIILGGMMAIDMGGPLNKAAFTFGIAMIDAGNYAPHAAIMAGGMAPPLGIALATTFFKHKFSKRDREAGITCYFMGAAFVTEGAIPFAAADPLRVIPAAVVGSAVAGGLTEFFRVTLPAPHGGIFVAFITNHPLLYLMSIVIGAIVTAVILGIVKKPVVEK	PGPT0017120_1155	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
D1-12_00602	582	sipT	COG0681	Signal peptidase I T	TTGACTGAAGAACAAAAACCTACTTCTGAAAAATCGGTAAAAAGAAAATCCAACACGTATTGGGAATGGGGAAAGGCCATCATTATAGCGGTCGCACTTGCGCTGTTAATCCGCCATTTCCTGTTCGAACCGTACTTAGTGGAAGGATCATCAATGTACCCGACATTACATGACGGTGAAAGGCTGTTTGTCAACAAAAGCGTCAATTATATCGGAGAAATCGAGCGGGGGGACATCGTCATTATTAACGGCGATACATCGAAAGTCCATTATGTAAAGCGGCTGATCGGAAAACCGGGAGAAACGGTGGAAATGAAAAATGACACGCTTTATATAAACGGCAAAAAAATCGCAGAACCGTACCTCGCGAGCAATAAAAAAGAAGCGAAAAAACTGGGAGTCAACCTGACGGGAGATTTCGGCCCCGTAAAGGTTCCGAAAGGCAAATACTTCGTCATGGGCGACAATCGGCTGAACTCAATGGACAGCCGGAACGGACTCGGTTTAATTGCCGAAAACCGGATCGTCGGCACCTCGAAGTTTGTGTTCTTCCCATTTCATGATATGCGTCAGACAAAATAA	MTEEQKPTSEKSVKRKSNTYWEWGKAIIIAVALALLIRHFLFEPYLVEGSSMYPTLHDGERLFVNKSVNYIGEIERGDIVIINGDTSKVHYVKRLIGKPGETVEMKNDTLYINGKKIAEPYLASNKKEAKKLGVNLTGDFGPVKVPKGKYFVMGDNRLNSMDSRNGLGLIAENRIVGTSKFVFFPFHDMRQTK				NA	NA	NA	NA	NA
D1-12_00603	270			hypothetical protein	TTGAAGCTTTTAACACTCACAGAATACTGTCTTATGATTTTCTTCACCGGGGTTTTTCTGGCCGTCACAGGCTTTACGGCCCGTGACATCGGCTTGTACGTGGGAATCGCCCTCATTTATACGTTTTCGCATCTCTTTTCAAAACGGATGCTTGAAAAACGCGGCAAAGAGAAGAAGCAGGTGAACCTTTTTTTCAGCGTTCTGGCCATTGTCGGATCAGTGCTGGCCACGGTATTGTTCATCGCCGTCGCCGCCTCGTTTGCCAAATAA	MKLLTLTEYCLMIFFTGVFLAVTGFTARDIGLYVGIALIYTFSHLFSKRMLEKRGKEKKQVNLFFSVLAIVGSVLATVLFIAVAASFAK				NA	NA	NA	NA	NA
D1-12_00604	1620	ybiT_1	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGATTGCTGTAAATAATGTGAGCTTGCGTTTTGCGGATCGCAAGTTATTTGAAGATGTCAATATTAAATTTACGCCGGGCAACTGCTACGGATTAATAGGCGCAAACGGTGCCGGAAAATCAACATTTTTGAAAATTTTATCCGGTGAGCTGGAGCCGCAGACCGGCGATGTCCATATGAGCCCGGGTGAACGTCTTGCCATTCTGAAGCAGAACCACTTTGAATATGAAGACTTCGAAGTGCTGAAAGTCGTCATTATGGGACATAAACGTTTATACGAAGTTATGCAGGAAAAAGACGCGATTTATATGAAGCCTGATTTTTCAGATGAAGACGGCATCCGCGCCGCTGAGCTTGAAGGAGAGTTTGCGGAATTAAACGGATGGGAAGCTGAAAGTGAAGCCGCTATTTTGTTAAAGGGCCTGGGCATCTCTGAAGACCTGCATACGAAGAAAATGGCGGACTTAGGCGGTTCAGAAAAGGTGAAAGTGCTTTTGGCACAGGCGCTGTTCGGCAAGCCGGACGTTCTGCTGCTTGATGAACCGACCAACCACTTGGATCTGAAAGCGATTCAGTGGCTGGAAGAGTTTTTAATCAACTTTGAGAACACAGTCATCGTCGTATCCCATGACCGTCACTTTTTAAATAAAGTGTGCACGCACATCGCCGATCTTGATTTTAATAAAATTCAAGTGTACGTCGGCAACTATGATTTCTGGTATGAATCCAGCCAGCTTGCTTTAAAGCTTTCTCAGGAAGCCAACAAGAAAAAAGAAGAGCAGATTAAACAGCTTCAGGAATTCGTGGCCAGATTCAGCGCCAACGCTTCTAAATCAAAGCAGGCGACATCAAGAAAGAAACTCCTTGATAAAATCACGCTTGATGATATCAAACCGTCATCACGCCGTTATCCTTATGTCAATTTCACGCCGGAACGCGAGATCGGAAATGACGTGCTGCGGGTTGAAGGCTTAACAAAAACGATTGACGGGGTAAAAGTGCTTGATAACGTCAGCTTTATTATGAACAGAGAAGATAAAATCGCTTTTACGGGCCGCAACGAACTTGCCGTTACGACATTGTTTAAAATCATTTCCGGGGAAATGGAAGCTGACAGCGGCACATTTAAATGGGGCGTGACCACTTCTCAGGCGTACTTCCCTAAAGACAACAGCGAGTATTTTGACGGCAGCGATGCGAACCTTGTTGACTGGCTCCGCCAATACTCGCCGCATGACCAAAGTGAAAGCTTTCTGCGCGGTTTCTTAGGACGCATGCTGTTCTCAGGAGAAGAAGTCAACAAAAAATCAAACGTTCTTTCCGGAGGAGAAAAAGTGCGCTGCATGCTTTCAAAAGCGATGCTTTCCGGCGCGAATATCTTAATTCTGGATGAACCGACAAACCACTTAGATTTGGAATCCATTACGGCGCTTAACAACGGCTTAATTAGCTTTAAAGGCGCTATGCTGTTTTCATCTCATGACCATCAGTTTGTACAGACAATTGCCAACCGCATCATTGAATTAACGCCTAAAGGCATTGTTGACAAACAAATGTCTTATGACGAATTTCTTGAAAACGCGGATGTACAGAAAAAGCTTGAAGAGCTATACGCGTAA	MIAVNNVSLRFADRKLFEDVNIKFTPGNCYGLIGANGAGKSTFLKILSGELEPQTGDVHMSPGERLAILKQNHFEYEDFEVLKVVIMGHKRLYEVMQEKDAIYMKPDFSDEDGIRAAELEGEFAELNGWEAESEAAILLKGLGISEDLHTKKMADLGGSEKVKVLLAQALFGKPDVLLLDEPTNHLDLKAIQWLEEFLINFENTVIVVSHDRHFLNKVCTHIADLDFNKIQVYVGNYDFWYESSQLALKLSQEANKKKEEQIKQLQEFVARFSANASKSKQATSRKKLLDKITLDDIKPSSRRYPYVNFTPEREIGNDVLRVEGLTKTIDGVKVLDNVSFIMNREDKIAFTGRNELAVTTLFKIISGEMEADSGTFKWGVTTSQAYFPKDNSEYFDGSDANLVDWLRQYSPHDQSESFLRGFLGRMLFSGEEVNKKSNVLSGGEKVRCMLSKAMLSGANILILDEPTNHLDLESITALNNGLISFKGAMLFSSHDHQFVQTIANRIIELTPKGIVDKQMSYDEFLENADVQKKLEELYA				NA	NA	NA	NA	NA
D1-12_00605	909			hypothetical protein	ATGAAGTTTTTAATTGTCGGAGCTGGAGGAGTGGGCGGATATATCGGCGCGCGTCTTGCAGAAAAGGGAAATGACGTTACGTTTCTCGTCCGCAAGAAACGGGCGGAACAATTACAAGAAACGGGTTTGATCGTCAAAAGTGCAAAAGGTGATGTTTCAATCAAGCCGAAATTAATGATGGCGGGCGAAGAAGGAGCATTTGACGCCGTTATTATCGCTTCAAAAGCGTATTCTTTGCAGGACGTTATTCGGGATGTCAAACCGTTTGTCAAACCTTCGTCGGTCATTATTCCTTTTTTAAACGGATACAGGCACTATAACCAGCTGTTTGAAGCTTTTTCAAAACGGCAGGTGCTGGGCGGCCTCTGCTTTATTGAGAGCGCCCTTAACGACAAAGGGGACATTCTTCATACGAGCGCTGCCCACCGCTTTGTTTTCGGTGAATGGAACGGGGAACGCACAGAACGTATGAACGAGCTGGAAAACGCATTTGCAGGTGTGAAAGCGGATGTCATCATCAGCCGGGATATTGAAAAGGACATTTGGAAAAAATATATGTTTATTGCCGCGCAGGCGGGAGTGACCACTCTGTTTCAACAGCCGGTCGGACCGATTTTAGAAACAGAAGGCGGCCTCAACACGGCAAAGCGCCTCTTTGCTGAAATCGGAGCCATTTTCAAGGCTGCCGGCATCCCGAAAGATCCTGGTCTGGAAGAAGAGAGTTATCGCACATTGACAAGCATGTCTTACCATATGAAATCGTCGATGCTGAGAGATATGGAAAAGGGCAGGGTGACGGAAGGTGATCATTTACACGGATTTTTGCTTGAGAAAGCGAAAGGCTTGTCAGTTGATACACCTGTTTTGGAAACCGTCTGCGCCAACTTGCAAATGTATGAAGCGAAATAA	MKFLIVGAGGVGGYIGARLAEKGNDVTFLVRKKRAEQLQETGLIVKSAKGDVSIKPKLMMAGEEGAFDAVIIASKAYSLQDVIRDVKPFVKPSSVIIPFLNGYRHYNQLFEAFSKRQVLGGLCFIESALNDKGDILHTSAAHRFVFGEWNGERTERMNELENAFAGVKADVIISRDIEKDIWKKYMFIAAQAGVTTLFQQPVGPILETEGGLNTAKRLFAEIGAIFKAAGIPKDPGLEEESYRTLTSMSYHMKSSMLRDMEKGRVTEGDHLHGFLLEKAKGLSVDTPVLETVCANLQMYEAK	PGPT0008745_4327	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
D1-12_00606	1233			Aminopeptidase 2	ATGAGTTCGTTTACTGAAAAGTTACATACATATGCTCAGCTGGCGGTAGAAGTCGGCGTCAATGTCCAAAAAGGACAGCATGTCGTAATCAATGCCTCAACTGATGTTAGGGAACTTGTCAGACTGCTTGCCAAACATTCTTATGAAAAAGGCGCAAAAAACGTCACCGTAAATTGGCAGGACGATGAACTGTCCAGATTAAAATACGAGATGGCACCGTTTGAAGCGTTTGAAGAGTATCCTGAATGGGAAGCAAAAGGCAAAGAAGAGCTCGCGAAAAAAGGGGCTGCGTTTATTTCTGTCGTCTCATCCGACCCCGACCTGTTAAAAGGCACTGACGGCAAACGGATTGCAGCGTTCCAAAAAGCCGCCGGAAAAGCATTGCATACATACAGACAATATATTCAATCAGATAAGGTCAGCTGGACGGTGATCGGAGCGGCTTCAACAGGCTGGGCGAAAAAAGTGTTCCCGGATCAGCCGGAAGAAACAGCCGTTCAGCTTTTATGGGAAGAAATTTTCAAAACGACCCGCGTAAATGAAGAAAACCCTGTGGAAGCATGGAAAAAACATGATCAAAATCTTCATGAAAAAGTGGAACACCTGAACAAAAAACATTACAGCGCCCTGCATTATCAGGCTGAAGGAACAGACTTAACCATTGAACTGCCCAAAAAACATGTATGGGCAGGCGCGGGAAGCGTGAATGAGAGCGGGCACGAATTCATGGCCAACATGCCGACAGAAGAGGTTTTCACCCTTCCGCAGCGTGACGGGGTGAACGGCACGGTTTCCAGCACGAAACCGCTGAGCTATGGCGGCAACATTATTGATAACTTCACTCTTACCTTTGAAAACGGCCGCATTGTCGATGTGAAAGCTGAAAAAGGCGAGGAGATTTTAAAAGGCATCGTCGAAACCGATGAAGGCTCACACTATCTCGGAGAAGTGGCCTTAGTGCCGTACGATTCACCGATTTCACAATCAAATATTTTATTTTACAACACACTGTACGATGAAAACGCCTCTAACCACTTGGCGATCGGCAGTGCGTATGCCTTTAATATTGAGGGCGGTAAACAAATGACACGGGAAGAGCTTGTCAAAGAGGGCTTAAATGAAAGCATTACACACGTAGATTTTATGGTCGGTTCCAAAGATATGAATATCGACGGCATTACGGCGGACGGCAAAAGAGAACCGATCTTCAGAAACGGAAACTGGGCATTTTAA	MSSFTEKLHTYAQLAVEVGVNVQKGQHVVINASTDVRELVRLLAKHSYEKGAKNVTVNWQDDELSRLKYEMAPFEAFEEYPEWEAKGKEELAKKGAAFISVVSSDPDLLKGTDGKRIAAFQKAAGKALHTYRQYIQSDKVSWTVIGAASTGWAKKVFPDQPEETAVQLLWEEIFKTTRVNEENPVEAWKKHDQNLHEKVEHLNKKHYSALHYQAEGTDLTIELPKKHVWAGAGSVNESGHEFMANMPTEEVFTLPQRDGVNGTVSSTKPLSYGGNIIDNFTLTFENGRIVDVKAEKGEEILKGIVETDEGSHYLGEVALVPYDSPISQSNILFYNTLYDENASNHLAIGSAYAFNIEGGKQMTREELVKEGLNESITHVDFMVGSKDMNIDGITADGKREPIFRNGNWAF	PGPT0020940_721	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
D1-12_00607	135			hypothetical protein	ATGCTTAGAGATGTGGGAAGACGCGTAGCAGTAGCCGTCATTTTAAGCGGAATTATTTTGGGGGGTATGAGCATTTCACTGGCCAATATGCCCCATTCTCCGGCCGGCGGCGCCGTAAAACTGAATCACCCGTAA	MLRDVGRRVAVAVILSGIILGGMSISLANMPHSPAGGAVKLNHP				NA	NA	NA	NA	NA
D1-12_00608	1020	mreBH	COG1077	Cell shape-determining protein MreBH	TTGGGTGAAAACATGTTTCAATCAACTGAGATCGGAATCGACTTAGGAACCGCTAATATACTTGTTTACAGTAAAAATAAAGGAATTATTTTAAACGAACCTTCCGTTGTCGCTGTAGATACAACAACGAAAGCGGTGCTTGCCATCGGAACGGATGCCAAAAGCATGATCGGAAAGACGCCGGGGAAAATAGTCGCCGTACGGCCGATGAAAGACGGTGTCATTGCTGATTATGATATGACAACTGACTTATTAAAACACATTATGAAAAAAGCCGGAAAAAAAATCGGAATGACTTTCCGCAAACCGAATGTCGTCGTCTGCACGCCTTCAGGCTCAACAGCCGTTGAACGCCGCGCCATCAGTGACGCTGTCAAAAACTGCGGAGCGAAAAACGTTCACTTGATTGAAGAACCCGTAGCCGCTGCAATCGGGGCCGACCTCCCTGTTGACGAGCCGGTCGCAAACGTCGTCGTAGATATCGGCGGCGGTACGACTGAAGTCGCCATCATCTCATTCGGGGGCGTCGTATCCTGCCATTCGATCAGAATCGGCGGCGACCAGCTTGATGAAGATATCGCCTCGTTCGTCAGAAAAAAATACAACCTGCTGATCGGGGAACGTACGGCAGAACAAGTGAAAATGGAAATCGGTTTTGCATTGATTGAACATGTGCCGGAAACGATGGAAATCCGCGGCCGTGACCTTGTAACCGGTCTGCCGAAGACAATCAGACTGCAGTCTAATGAAATTCAGCACGCGATGCGTGAGTCGCTCCTGCATATTCTTGAAGCGATCAGAGCGACACTTGAAGATTGTCCGCCGGAGCTCAGCGGCGATATCGTTGACCGCGGCGTCGTGTTAACCGGCGGAGGCTCCCTTTTAAACGGGATGAAAGAATGGCTGACAGAAGAAATCGTCGTTCCCGTTCATTTGGCGGCAAATCCGCTTGAATCAGTGGCTATCGGCACGGGGCGTTCATTAGACGTCATCGACAAGCTGCAAAAAGCGATTAAATAA	MGENMFQSTEIGIDLGTANILVYSKNKGIILNEPSVVAVDTTTKAVLAIGTDAKSMIGKTPGKIVAVRPMKDGVIADYDMTTDLLKHIMKKAGKKIGMTFRKPNVVVCTPSGSTAVERRAISDAVKNCGAKNVHLIEEPVAAAIGADLPVDEPVANVVVDIGGGTTEVAIISFGGVVSCHSIRIGGDQLDEDIASFVRKKYNLLIGERTAEQVKMEIGFALIEHVPETMEIRGRDLVTGLPKTIRLQSNEIQHAMRESLLHILEAIRATLEDCPPELSGDIVDRGVVLTGGGSLLNGMKEWLTEEIVVPVHLAANPLESVAIGTGRSLDVIDKLQKAIK	PGPT0027700_3084	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
D1-12_00609	285	abh	COG2002	Putative transition state regulator Abh	ATGAAATCAATTGGTGTAGTAAGAAAAGTAGACGAACTCGGGCGTATTGTCATGCCGATTGAATTGAGAAGAGCATTGGATATCGCTATTAAAGATAGTATTGAATTTTTCGTTGACGGAGACAAAATTGTCTTAAAAAAATACAAGCCGCACGGCATTTGCTTAATGACGGGGGAAATTACCTCCGAAAATCAGGAGTACGGCAACGGCAAAATTATTTTAAGTCCTGAAGGAGCGAAAATGCTGCTTGAGGAAATCGAGGAAGCGTTAAAAGATAGATCATAA	MKSIGVVRKVDELGRIVMPIELRRALDIAIKDSIEFFVDGDKIVLKKYKPHGICLMTGEITSENQEYGNGKIILSPEGAKMLLEEIEEALKDRS	PGPT0014790_159	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
D1-12_00610	1305	sasA_1		Adaptive-response sensory-kinase SasA	ATGGGAAAATATCAAGCGCGTATCATTTCCTTAATCTTGGCAATGATTTTTATTATGTTTTGGGATTATTTATTTTATATGATTGAACGGAATCCGATTAACTGGCCAGTTGACATCACCTTTACCGCCGTCACATTAATCGGCGTCTGGCTGCTGGCTTATTATGTGGACAATAAAAAGCAGCTGCTGGCGGAGCTGAAGGACAGCGAGCAGAAAGCAAAGGCGCTTTCAGATGAGAAAAACCGGATCATGGACAATCTGCAGGAAATCGTTTTTCAGACGGATGCACAAGGGAATATTACATATTTGAATCAGGCCTGGACGGCGATTACGGGCCACTCCATCAGCGAATGTATGGGCACGATGTATAATGATTATTTTATAAAAGAAAAACATATCATTGATTATATTATCTCCCAAATCAAGCAGCAGTCCCCGTCAGGAATGTTTACGGCCAAATATATTAAAAGAGACGGCTCGATCTTTTGGGGAGAAGTCCATTATAAGCTGTATTATGACCGCAGACAGAAATTTGTCGGAAGCCTGGGGACGATGTCTGATATCAGTGAACGGAAAAAAGCGGTCGACGAGCTTCTGGAAACGAACGAACGCCTTGCCATGCAATCTCAAAAGCTGGCCATTGCCGGGGAGCTTGCGGCAGGAATCGCCCATGAAGTAAGAAATCCTTTAACGTCAGTCAGCGGCTTTCTCCAGCTGATGAAAGCCCAGTATCCGGAAAGAACGGATTATTTTGATATTATTTTTTCGGAGATTAAAAGGATTGATCTCGTGCTGGGGGAGCTGCTTCTGCTCGCCAAGCCGCAGACCGTGACGTTTACCGCTCATCATCTCAACCATATTTTAAGGCAGGTGGCGACGCTTCTTGACACGAACGCGGTGCTGTCGAACACTGTGATTGAGAAGGATTTCAGGCAGACTGAGTCCTGTATGGTCAACGGTGACGAAAACCAGTTGAAACAGGTATTTATCAATATTATTAAAAATGCGATTGAAGCGATGCCTGACGGCGGGAATATTCATATTTATACAAAACGGGATGAAGAATACGCGGTGATCAGCATACAGGATGAAGGAAACGGCATGTCGAAAGAAAAGCTTGAAAACATCGGGAAACCGTTTTTCTCAACAAAAGATCAGGGAACGGGTCTCGGTCTTCCGATTTGTTTACGAATTCTGAAGGAGCATAATGGTAAACTTAACATTAAGAGCAAAAATGGAGAAGGCAGTACGTTTCAGGTGATTCTGCCGTTAGAAGCGGCTGCTGTCCAAAAGGAGGAAAAATAA	MGKYQARIISLILAMIFIMFWDYLFYMIERNPINWPVDITFTAVTLIGVWLLAYYVDNKKQLLAELKDSEQKAKALSDEKNRIMDNLQEIVFQTDAQGNITYLNQAWTAITGHSISECMGTMYNDYFIKEKHIIDYIISQIKQQSPSGMFTAKYIKRDGSIFWGEVHYKLYYDRRQKFVGSLGTMSDISERKKAVDELLETNERLAMQSQKLAIAGELAAGIAHEVRNPLTSVSGFLQLMKAQYPERTDYFDIIFSEIKRIDLVLGELLLLAKPQTVTFTAHHLNHILRQVATLLDTNAVLSNTVIEKDFRQTESCMVNGDENQLKQVFINIIKNAIEAMPDGGNIHIYTKRDEEYAVISIQDEGNGMSKEKLENIGKPFFSTKDQGTGLGLPICLRILKEHNGKLNIKSKNGEGSTFQVILPLEAAAVQKEEK	PGPT0025286_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025286-kinC-K07698	NA	NA
D1-12_00611	828	ykqA	COG2105	Putative gamma-glutamylcyclotransferase YkqA	TTGCTTCTTTTTGTATACGGTTTGTTACGGAAGCGTGAAGAAAACCATGAACTGCTGAAAGGCGCTCCGTGTGTGTGCGAGCAGGCCGCGATAAACGGTGTGCTGTACGAAACGGATAAAGGTCAGCCTGCGGCGTCTTTAGCAGAAACAGCTTTTGTGTACGGGGAATTGTATGAAACAGATCATCAGATGATCCGTAAGCTGGATGCGTATTATGCTGATTTTGATCGGAAAGAGGTTGCTGTGACGACGGATGCCGGGAATAAAACCGCCTTCGCATATGTCGTAAAGCCCGGCCAGTGTGCCTCATTCAGCCGTATCAAAAGCGGAGACTGGAAAGAATACCGTTTTATGAAACGGGAGGATGACAGTCCGGTTTATTATTTCGCTTACGGATCCTGTATGGACAATGCCCGGTTTAAACAGGCGGGGGTCGACCACTTTTTTGCCGAGCCGGTCGGAGGGGCGGTTGTTGAAGGGTATTCGACGAGATTCACGTTAAGGCGTCCTGACGGTTCCAGAGCCGATCTTGTTGAAGACGGGGGGCGAACTGAAGGCGTGCTGTACAAGCTCCCGTTTGAAGCGGCAACCTATCTGTACAAAAGAGAAGGTGTTGATAACCACACATACCGTCCCGCGTTCATAGAAGTGTGTGCCGGCGGCCGTGTATACAGAGGCGTCCTGACGTTTCTCGTTCTTGATAAAGCTGAGGAAATTGCGCCTCCGGGTCACTATCAGGAAGAAATCGAACGCGGAGCGGACCTGTATTTATCGCCCGCCTTTTCAGAAAAGCTTAAACGCTATATGAACTCATTGCCGAAAATGTGA	MLLFVYGLLRKREENHELLKGAPCVCEQAAINGVLYETDKGQPAASLAETAFVYGELYETDHQMIRKLDAYYADFDRKEVAVTTDAGNKTAFAYVVKPGQCASFSRIKSGDWKEYRFMKREDDSPVYYFAYGSCMDNARFKQAGVDHFFAEPVGGAVVEGYSTRFTLRRPDGSRADLVEDGGRTEGVLYKLPFEAATYLYKREGVDNHTYRPAFIEVCAGGRVYRGVLTFLVLDKAEEIAPPGHYQEEIERGADLYLSPAFSEKLKRYMNSLPKM				NA	NA	NA	NA	NA
D1-12_00612	666	ktrA_1	COG0569	Ktr system potassium uptake protein A	ATGAGAAAAGAGTTTGCCGTTATCGGTCTTGGACGCTTCGGCGGAAGTATTTGCAAAGCATTAAGTGAAGAAGGCCTTGAGGTCATGGCGATGGATATTGATGAAGATAAAGTGAATGAATACGCCAAAATCGCATCACACGCGGTCATCGGCGATTCAACCGATGAATCGGTGCTGAAAAACTTAGGGCTGCGCAACTTTGACCACGTCATTGTGGCAATCGGCGAAAATATACAGGCGAGCATTTTAACGACGCTGATCTTAAAGGAACTCGGCGTGAACACGATCACGGTAAAAGCGCAGAACGATTATCATGAGAAAGTGCTTGCGAAAATCGGGGCCGACCACATCGTCCACCCTGAACGTGACATGGCAAAACGCATCGCCCACAACATCGTATCAAATAATGTGCTTGATTATTTGGAGCTGTCCGACGAACACAGCATTGTGGAGATCGTGGCCAACAGCAGGCTTGCGGGCAACACACTGCTTGATCTGGACATCCGGGCGAAGTACGGCATTAATATCGTGGCCATCAAGAGAGAAAAAGAAGTGATCGTATCTCCGCTGGCGACTGAAATGATCCAAAAAGAAGATATTCTCATCGTTATCGGCTCTCTTACGGACATTTCCCGATTTGAAAAAAGAGTGCTTCATACAAAGTGA	MRKEFAVIGLGRFGGSICKALSEEGLEVMAMDIDEDKVNEYAKIASHAVIGDSTDESVLKNLGLRNFDHVIVAIGENIQASILTTLILKELGVNTITVKAQNDYHEKVLAKIGADHIVHPERDMAKRIAHNIVSNNVLDYLELSDEHSIVEIVANSRLAGNTLLDLDIRAKYGINIVAIKREKEVIVSPLATEMIQKEDILIVIGSLTDISRFEKRVLHTK	PGPT0002710_3909	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-12_00613	1734	adeC		Adenine deaminase	TTGAACAAAGAAACACTGGCTGAACGGCTGAATGCATCAGCCGGCAGACAAAAAGCCGATACCGTCATTAAAAACGGAAAAATCATGGATGTATTTAACCAGGAATGGATTTCTGCAGATATCGCCATTACGGACGGAGTGATCGTCGGGCTGGGCGAATATGAAGGGGAAGAAGTTATTGATGCAGAAGGCCAAATGATCGTTCCGGGCTTTATTGACGGACATGTTCATATCGAGTCCTCTATGGTTACTCCGATTGAATTTGCTAAAGCTGTCCTCCCACACGGAGTGACTACTGTCGTTACTGATCCTCACGAAATTGCGAACGTTTCCGGAGCAAAAGGCATTTCTTTTATGATAGAGCAGGCGAAAAAGGCGCCGCTGAACATCCGTTTCATGCTTCCTTCCTGTGTTCCCGCCGCTAGCTTTGAACGCTCAGGAGCCGTATTAAAAGCCGAGGATTTAAAGCCTTTTTATCAGGAGAAAGAGGTGCTCGGACTTGCGGAAGTAATGGATTATGTGTCTGTTGCGGAAGGTGAAGAGGATATGCTTCAGAAACTGCTTGATGCCAAGCGTCACGGAAAACGGATCGACGGGCATTTAGCCGGACTCTCTTCAGATATCATCAATATATATAGAACCGCAATGGTGTCAAATGATCATGAAGTGACGACAAAAGAAGAAGCGCTGGACAGAATCAGACGGGGAATGTATGTCATGCTGCGCGAAGGATCGGTGGCAAAAAATACGCTCAATGTGCTGCCGGCGGTGAATGAAAAAAACGCGCGGCGCTTTTTCTTTTGCACGGATGATAAGCATGTAGATGATCTGCTTTCAGAAGGAAGTGTGAACCACCAAGTCAAAATGGCGATAAAGGCGGGACTTGATCCATTCCTTGCGTATCAGCTTGCCAGTTTAAATGCGGCTGAGTGCTACGGTCTTGAAACAAAAGGGGCGGTAGCGCCGGGTTTTGACGCAGATCTGCTGTTCATTTCAGATGTACGGGAGGCTGCCGTCACGAAGACCATGGTCGCCGGCCGGACCGTTGCCGAGAACGGACGCACGGTTTATGAACAGTCTGCCGGTTCCTATTCGCCGGACCAGGCGCTGTTGGATACAGTGCGGCTGAAAGCGCCGCTGACTGAATCGGATTTTCATATACCGATTCAAGAGGGCAAGAAAATGAATGTAATCGAAATGATACCGAATCATTTGGAGACGAGACAAAAAGAAGTGCCTGCACCGTCTGCTGACGCGTTTCGTCCTGATACAGAAAATGATTTATTAAAAATCGCCGTCGCAGAGCGGCACAGCGGCGAAAAAATGATAGGACTCGGGATTGTACAAGGGTTCGGGTTAAAAGAAGGCGCCATCGCCACAACCATTTCTCACGATTCCCATAATATCATCGCCGTCGGTACAAACGATGCCGATTTGGCAAAAGCAATCAACAGGCTCCGTGACACTGGAGGAGGATTAACAGCCGTGAAAAACGGAGAATTGCTTCATTCCGTTCCGCTTCCGATCGCCGGGCTTTTGTCTGATAAGTCGGCGGAATGGGTCAATGACAGCTTGGGCGTGCTTCATGAAAAGCTTTCTCTGCTCGGATTCACCGGTGATTTCAATCCGTTTCTCACATTATCGTTTTTAGCGCTTCCGGTGATTCCGGATATTAAAATGACAGCAGCCGGTCTGTTTGATGTCAAAGCCTTTCAGCATATTCCGCTGCAATAA	MNKETLAERLNASAGRQKADTVIKNGKIMDVFNQEWISADIAITDGVIVGLGEYEGEEVIDAEGQMIVPGFIDGHVHIESSMVTPIEFAKAVLPHGVTTVVTDPHEIANVSGAKGISFMIEQAKKAPLNIRFMLPSCVPAASFERSGAVLKAEDLKPFYQEKEVLGLAEVMDYVSVAEGEEDMLQKLLDAKRHGKRIDGHLAGLSSDIINIYRTAMVSNDHEVTTKEEALDRIRRGMYVMLREGSVAKNTLNVLPAVNEKNARRFFFCTDDKHVDDLLSEGSVNHQVKMAIKAGLDPFLAYQLASLNAAECYGLETKGAVAPGFDADLLFISDVREAAVTKTMVAGRTVAENGRTVYEQSAGSYSPDQALLDTVRLKAPLTESDFHIPIQEGKKMNVIEMIPNHLETRQKEVPAPSADAFRPDTENDLLKIAVAERHSGEKMIGLGIVQGFGLKEGAIATTISHDSHNIIAVGTNDADLAKAINRLRDTGGGLTAVKNGELLHSVPLPIAGLLSDKSAEWVNDSLGVLHEKLSLLGFTGDFNPFLTLSFLALPVIPDIKMTAAGLFDVKAFQHIPLQ	PGPT0021510_1074	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
D1-12_00614	1668	rnjA	COG0595	Ribonuclease J1	ATGAAATTTGTAAAAAATGACCAGACTGCCGTTTTCGCCCTCGGCGGATTGGGCGAGATCGGGAAAAATACGTACGGGGTGCAGTTTCAGGATGAAATTGTACTGATTGATGCGGGAATCAAGTTCCCGGAAGATGAACTTCTCGGCATTGATTACGTAATCCCCGATTACACGTATTTAGTAAAAAATGAAGATAAAATTAAAGGTCTGTTTATCACCCACGGTCACGAAGACCATATCGGCGGTATTCCGTACCTGCTCAGACAAGTAAATATTCCCGTTTACGGCGGTAAACTCGCGATCGGCTTACTTCGGAATAAACTTGAAGAGCACGGGCTGTTAAGACAGACCAAATTAAACATCATCGGTGAAGACGACATCGTGAAGTTCCGCAAGACGTCTGTATCCTTCTTCAGAACGACACACAGCATTCCGGATTCATACGGAATCGTCGTCAAAACACCGCCGGGCAATATCGTACATACCGGGGACTTTAAGTTCGATTTCACACCGGTAGGCGAACCGGCAAACTTGACAAAGATGGCTGAAATCGGGAAAGAAGGCGTTCTGTGCCTGCTTTCTGACAGTACAAACAGTGAGGTTCCTGATTTCACCATGTCAGAACGCCGCGTAGGCGAAAGCATTCACGATATTTTCCGAAAAGTGGACGGCAGAATTATATTTGCGACATTCGCTTCGAATATACACCGTCTTCAGCAGGTGATTGAAGCAGCCGTTTTAAACGGCAGAAAAGTTGCCGTATTCGGACGCAGTATGGAATCGGCTATTGAAATCGGACAAAATCTCGGTTACATTACCTGTCCTAAAAATACGTTTATTGAGCATAACGAAATCAATCGTATGCCTGCCAATAAGGTAACGATTTTATGTACGGGAAGCCAAGGTGAACCGATGGCGGCGTTATCACGCATCGCTAACGGGACGCACCGGCAGATTTCCATTAATCCCGGAGATACGGTCGTCTTTTCTTCCTCTCCGATTCCCGGAAACACAATCAGCGTAAGCCGCACCATCAACCAGCTGTACCGTGCGGGCGCAGAAGTCATTCACGGTTCATTGAATGACATTCATACATCCGGACACGGCGGACAGGAAGAGCAGAAATTAATGCTCCGCCTGATCAAACCGAAGTTCTTTATGCCGATTCACGGTGAGTACAGAATGCAGAAAATGCACGTCAAACTCGCGACTGATTGCGGCATACCTGAAGAAAACTGCTTTATCATGGATAATGGCGAAGTGCTGGCCCTCAAAGGCGAAGAAGCCGCTGTGGCAGGCAAAATTCCGTCCGGCTCCGTTTACATTGACGGAAGCGGAATCGGTGATATCGGCAATATCGTGCTCCGCGACCGCCGCATTCTTTCAGAAGAAGGCCTTGTTATCGTTGTTGTCAGTATCAATATGGACGACTTTAAGGTTTCGGCGGGGCCTGATTTAATCTCAAGAGGTTTTGTATACATGAGAGAATCAGGTGATTTGATCAATGACGCGCAGCAGCTCATTTCGAACCATCTGGAGAAAGTAATGGATCGGAAAACAACGCAGTGGTCCGAAATTAAAAACGAAATTACCGATACGCTTGCTCCGTTCCTATACGAAAAAACAAAACGCCGCCCGATGATCCTTCCGATCATTATGGAGGTCTAA	MKFVKNDQTAVFALGGLGEIGKNTYGVQFQDEIVLIDAGIKFPEDELLGIDYVIPDYTYLVKNEDKIKGLFITHGHEDHIGGIPYLLRQVNIPVYGGKLAIGLLRNKLEEHGLLRQTKLNIIGEDDIVKFRKTSVSFFRTTHSIPDSYGIVVKTPPGNIVHTGDFKFDFTPVGEPANLTKMAEIGKEGVLCLLSDSTNSEVPDFTMSERRVGESIHDIFRKVDGRIIFATFASNIHRLQQVIEAAVLNGRKVAVFGRSMESAIEIGQNLGYITCPKNTFIEHNEINRMPANKVTILCTGSQGEPMAALSRIANGTHRQISINPGDTVVFSSSPIPGNTISVSRTINQLYRAGAEVIHGSLNDIHTSGHGGQEEQKLMLRLIKPKFFMPIHGEYRMQKMHVKLATDCGIPEENCFIMDNGEVLALKGEEAAVAGKIPSGSVYIDGSGIGDIGNIVLRDRRILSEEGLVIVVVSINMDDFKVSAGPDLISRGFVYMRESGDLINDAQQLISNHLEKVMDRKTTQWSEIKNEITDTLAPFLYEKTKRRPMILPIIMEV				NA	NA	NA	NA	NA
D1-12_00615	210			hypothetical protein	ATGATTTATAAGGTATTTTATCAAGAGAAGGCTGACGAAGTACCTGTTCGGGAAAAAACAGATTCACTTTACATTGAGGGCGTTTCAGAACGGGACGTCAGAACGAAACTGAAAGATCAGAAATACAACATTGAATTTGTTCAGCCTGTGGACGGTGCTTTTTTAGAATATGAGAAGCAGAGCGAAAATTTTAAAGTATTGGAGTTATGA	MIYKVFYQEKADEVPVREKTDSLYIEGVSERDVRTKLKDQKYNIEFVQPVDGAFLEYEKQSENFKVLEL				NA	NA	NA	NA	NA
D1-12_00616	831			Putative bifunctional phosphatase/peptidyl-prolyl cis-trans isomerase	ATGTATGATGATATTGAAAAAGACACGACTGATAAACGGGAAAAAGGAGAAATTGACATGAAACCAAAATTGATTTTTTTTGATATTGACGGCACGATCTATGACCATGATAAACATATTCCCGATAGCGCAAGAAACGCCGTGAAGGCGCTTAAAGAGGCTGGCCATCACGTTTTTATCGCCAGCGGAAGGTCCCCGTTTATGGTAAAACCGATTCTGGAAGAGCTTGAGATTGAATCATTTATTTCATACAACGGCCAGTATGTCGTATTTGAAGGTGAGGTCATTTATAAAAATCCGCTTCCTGAAGATGCGGTTGCGCGTTTATTAAAGCAGGCGGCAGAAGGGGAGCACCCCGTCGTATTTATGGCGGAAGACACGATGAAAACGACCGTCCCCGGACATCCGCACGTCTCGGAAGGTATCGGCAGTCTGAAAGCGCCTTATCCCGAAGTGGATGAAACATTTTATAAAGGAAAAGAAATTTATCAGCTGCTTTTATTCTGCCGCGGTCATGAAGAAAAAGCATATGCCGCTTTTCCGGAGTTTGATTATGTCCGCTGGCATGAATTGTCAACGGATGTGCTTCCGAAAGGCGGTTCAAAAGCGGAAGGCATTAAAAGAGTGCTTGAGCGGCTTCCGTACGGGGTAAGTGACACTTATGCATTCGGCGACGGACTAAATGACCTTGAGATGATCCGTTTTGTCGGCACCGGGGTGGCGATGGGAAATGCGGTTCCGGAATTAAAAGCTGCCGCCGATTTCGTCACAAAGCCGGTGGATGAAGAGGGAATCAGCTGGGCCGTCAAAGAACTGGGCCTTTTGAAATAG	MYDDIEKDTTDKREKGEIDMKPKLIFFDIDGTIYDHDKHIPDSARNAVKALKEAGHHVFIASGRSPFMVKPILEELEIESFISYNGQYVVFEGEVIYKNPLPEDAVARLLKQAAEGEHPVVFMAEDTMKTTVPGHPHVSEGIGSLKAPYPEVDETFYKGKEIYQLLLFCRGHEEKAYAAFPEFDYVRWHELSTDVLPKGGSKAEGIKRVLERLPYGVSDTYAFGDGLNDLEMIRFVGTGVAMGNAVPELKAAADFVTKPVDEEGISWAVKELGLLK				NA	NA	NA	NA	NA
D1-12_00617	555	defB	COG0242	Peptide deformylase 2	TTGATTACTATGGAAAATATTGTACGCGATGGACATCCCGCGCTCAGAGAGATCGCTGAAGAGGTTCAGCTTCCCGCTTCTGACGAAGAAAAACAGCATCTTGCTGATATGATTGAGTTTGTGAAAAACAGCCAAAATCCTGAATTAGCCGAGAAATACAAGCTTCGTCCGGGCGTCGGTCTTGCCGCTCCGCAAACAGACGTAAAAAAACGGATGATCGCCGTCCATGCAGAAGATGCGAAAGGCACTTTATACAGCTATGCTCTTTTTAACCCTAAGATCGTCAGCCACTCAGTGGAAAAAAGCTACTTGACGAGCGGAGAAGGCTGCCTGTCGGTAGACGAACCCATTCCCGGCTATGTGCCGCGCTACGCCCGCATCCGCGTAAAGGCGGTGACGCTTGAAGGAGAACAGATTGACATCCGTCTCAAAGGTTTTCCGGCCATCGTGTTTCAGCACGAAATCGATCATCTGAACGGCGTGATGTTTTACGACCATATCGACAAAGAAAATCCGTTCAAAGAACCTGAAAACGCCATTGCCATTGACCGTTAA	MITMENIVRDGHPALREIAEEVQLPASDEEKQHLADMIEFVKNSQNPELAEKYKLRPGVGLAAPQTDVKKRMIAVHAEDAKGTLYSYALFNPKIVSHSVEKSYLTSGEGCLSVDEPIPGYVPRYARIRVKAVTLEGEQIDIRLKGFPAIVFQHEIDHLNGVMFYDHIDKENPFKEPENAIAIDR				NA	NA	NA	NA	NA
D1-12_00618	180			hypothetical protein	ATGTACGGATATGGATTTGGCGGCGGATTTGGCGGCGGTTGCTGCGGCGGCGGATATGGTTATGGCGGCGGTTACGGTTACGGCTGCGGCGGCGGATACGGCCGCACATTCGCATTAATCGTCGTATTGTTTATCTTATTAATCATCGTCGGTGCCGCTTATTTAGGCTGCGGCTGCTGA	MYGYGFGGGFGGGCCGGGYGYGGGYGYGCGGGYGRTFALIVVLFILLIIVGAAYLGCGC	PGPT0024985_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
D1-12_00619	645			hypothetical protein	GTGAATATGATTCAAAAAAAGGTATTAGCAGGAATCGGAGCGCTCGGCGCCGCAAGTATGCTGCTTGCCGGCTGCGGGGGAAAAGATCCGGTTGAATCGCTTCATGACTCGATGGAAAAAGCCGTTCAAGCGGAAAAACCGTTTCAAAAAGAGCAGAAAACATTAGAAAAATTGGAGAAAAAAGAGCATAAGCTATACGACAGCGCGGTTAAACTGAATATGGATGATTACCAGAAAATTGTCACACTGTCTGATCAGGCTCTGAGCAATGCAAATCAGCGAAAAAAACATCTGAAAGCAGAAAAAGACAGTATTGATGATTCAAAACAAGCGTTTGAATCCGCAAAAAAAACTTCTCAAGAAATAAAGGATAAGAAAGTAAAAGAAAAAGCCGGGCATGCGGTCGCTTTAATGGAGAAAAGGTATGCATCTTATGACCTTTTGTACAAAAAGTACGAAAAAGCCATTTCACTTGATAAGGACCTTTATAAACTGATTAAAGATAAAAAGCTCACATTAGCGCAGCTGGAAGAGCAAATCAGCAAAGTAAACTCAGTTTACGAAAAGGTGCATAAACAAGCAGATGAGTTCAATCAATTTACTAAAGACTACAACAAAGAGAAAGAACTATTATTCCGCAAATAG	MNMIQKKVLAGIGALGAASMLLAGCGGKDPVESLHDSMEKAVQAEKPFQKEQKTLEKLEKKEHKLYDSAVKLNMDDYQKIVTLSDQALSNANQRKKHLKAEKDSIDDSKQAFESAKKTSQEIKDKKVKEKAGHAVALMEKRYASYDLLYKKYEKAISLDKDLYKLIKDKKLTLAQLEEQISKVNSVYEKVHKQADEFNQFTKDYNKEKELLFRK				NA	NA	NA	NA	NA
D1-12_00620	2307	pksE_1	COG0331	Polyketide biosynthesis protein PksE	ATGCTTGCTTACGTCTTTCCCGGACAGGGAGCGCAGTTTAAAGGAATGGGCAGAGACTTATTCGATGAATTCAGTGAGCTCATTAAAAAGGCAGATCATATTTTAGGATACTCCATAAAGGATTTATGCCTTTCAGACGAAAAAGAGAGGCTGACTGATACGAAGTATACACAACCTGCAATTTATACAGTGAGCGCACTGCAATATTTAAAGGGTTTAAAAGAAGGTCATACACGCCCAGATGCTGTTGCAGGACATAGTCTGGGTGAATATACTGCGCTTTTTGCGGCCGGCGTTTTTAATTTTGAAACAGGTCTCCGGCTGGTTGCTAAAAGAGGCGAGCTAATGAGTGAGGCTTCCGAGGGCGGAATGGCTGCCGTGATCGGACTGGATGAGCACCACATAAAAAAAATACTTCAAAAGTATGAATTCGGCCAAATAGATATCGCCAATTACAATACATCTTCACAAATTGTGATAGCAGGGGCTGCAGAAGAGATAAAGCGGGCAGCCTCTTTTTTTGAAAAAGAAGGGGCGAAAGCTTATATCGTATTGCAGGTCGGCGGGGCTTTTCATTCTCGTTTCATGGAAAGTGCACAGCGTGAATTTGCGGAATTTATCGAGGGGTTTCAATTTTCTGAATTGAATTTCCCGGTCATTTCTAACTACACGGCAAGACCTTATAAACAAGAAGATATCAAACGGAATTTAATTGAACAAATAACAAACTCGGTAAAATGGACTGAAAGCATCAGGTATCTAATGGGACAAGGCGTCACTGTGTTTGAAGAGATCGGTCCCGGCAACATTCTGACTAAATTAATTCAAACCATACAAAGAGATGAGGAACCGCTTACTATCAGTGCGCCGGAAGACAGTCTCTTCTTTTCTGAAGGGAATAAGGACAATTCGGAAAGCGGGAAAGAGCATAGCCTCTTGGCCGAAAATATAGAGAGCGGTGCAGCTTCACCGATGTCCCGATTGGGTGATCAATCTTTTAAAGAAGATTACGGTTTGACATACGCGTATTTGGCAGGTGCGATGCATAGAGGGATCTCTTCCGCTGAAATGCTGATCCGCCTCGGGAAGAAAGGAATGCTGGGGTTCTTTGGCACAGCAGGTTTAACGATAAGGGAAATTGAACAGGCCCTTATTTCTATTAAGAAGACACTCAAAAATGGCCAGCCCTACGGAATGAATCTGCGATTTGAGCCGGATCATCAAGATAGAGAAAAGGAATTGATAGATTTATATATCAAGCATGACGTACGAGTAATAGAAGCGTCTTCGTATCTTTCCGTCAGCGCGCCATTAATTTATTACAAAGCGCATCAGTTGAAGATAGACAAAAGCGGCAGCGTCATACCTCATAATCGGATCATTGCCAAAGTTTCACGGCCGGAAGTTGCGGCCGCATTTCTGAGTCCGCCTCCTCAAAGTATCGTAAAGAGAATGTGTCAGCACGGTATGCTGACGGAAGAGCAGGCGGAGTGGCTCAGCCGTATTCCGGCAGCAGACGATATCATTATTGAAGCAGATTGCGGAAGTAATACTGAACAGGGCTCATTGACGGCGATGCTGCCGTTTTTTGTTAACCTGCGGGATGAAATGATGGAAACACACAAATACGCAAGGAAGATAAGGATCGGGGCTGCGGGAGGAATCGGGACTCCCGAGTCTGCCGCGTCTGCTTTTTTAATGGGCGCTGATTTTATTATGACGGGATCCATTAATCAATGTACAGTTGAAGCCGAAACAAGCGGTTTTGTTAAAGAAATGCTGAGTGAGACAGGAATATGCGATACTGCTTATGCGCCTTCGGAGACTCTGTTTGAGTTCGGAACAAAGGTTCAGGTGCTGAAAAAGGGCACGCTGTTTCCGGTCAGGGCAAATAAATTATTTCAAATCTACCAACAATACGAGTCTTTGAGTGAGATAGATGAAAAGACAAAGATTCAGCTCGAAAATGATTATTTTAACAAGACTTTTGATGAAATCTACGAAAGCATAATAGAAAAACAGCCGAACCTGGCCCAAAAAGCTGAGCGCAATCAAAAATATAAGATGCTGTTACTATTTAAGTGGTATTTGCAGAGAGGATGTCTGCTTGCTTTGGAAGGGCAGGAAGAACAAAAGGTGAATTTCCAAGTTCATTGCGGCCCGTCTTTAGGCGCTTTTAATCATTGGGTAAAGGGCACGGATTTGGAATCATGGAGAAACAGACATGTCGATGACATTGGTGAAAAATTGATGAATGAGACCGAAAGTCTGCTGAGGCGCAGATTGGATATGTTATTTCTACACTAA	MLAYVFPGQGAQFKGMGRDLFDEFSELIKKADHILGYSIKDLCLSDEKERLTDTKYTQPAIYTVSALQYLKGLKEGHTRPDAVAGHSLGEYTALFAAGVFNFETGLRLVAKRGELMSEASEGGMAAVIGLDEHHIKKILQKYEFGQIDIANYNTSSQIVIAGAAEEIKRAASFFEKEGAKAYIVLQVGGAFHSRFMESAQREFAEFIEGFQFSELNFPVISNYTARPYKQEDIKRNLIEQITNSVKWTESIRYLMGQGVTVFEEIGPGNILTKLIQTIQRDEEPLTISAPEDSLFFSEGNKDNSESGKEHSLLAENIESGAASPMSRLGDQSFKEDYGLTYAYLAGAMHRGISSAEMLIRLGKKGMLGFFGTAGLTIREIEQALISIKKTLKNGQPYGMNLRFEPDHQDREKELIDLYIKHDVRVIEASSYLSVSAPLIYYKAHQLKIDKSGSVIPHNRIIAKVSRPEVAAAFLSPPPQSIVKRMCQHGMLTEEQAEWLSRIPAADDIIIEADCGSNTEQGSLTAMLPFFVNLRDEMMETHKYARKIRIGAAGGIGTPESAASAFLMGADFIMTGSINQCTVEAETSGFVKEMLSETGICDTAYAPSETLFEFGTKVQVLKKGTLFPVRANKLFQIYQQYESLSEIDEKTKIQLENDYFNKTFDEIYESIIEKQPNLAQKAERNQKYKMLLLFKWYLQRGCLLALEGQEEQKVNFQVHCGPSLGAFNHWVKGTDLESWRNRHVDDIGEKLMNETESLLRRRLDMLFLH	PGPT0010125_87	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010125-baeE|pksE|dfnA-K15329	NA	NA
D1-12_00621	12255	fadA_1		3-ketoacyl-CoA thiolase	ATGGTTCATTTGAATAAACAGAATGCGGATATCGCGATAATCGGGGTTGCTTGCAGATTCCCCGATGCAGATCATTATCATGAATTCTGGGAAAACATAAATAGCGGCAAAGATTCCATCCGGGAAGTGCCGATTGAACGGTGGGATCCCGAACTTTATTATTCAGCTGATATCAGTATACCGAACAAAACAATCAGCAAGTGGGGAGGTTTTATTCATAAAGCAGACCATTTCGACCATAAGTTTTTTAATATCTCTCCCCGGGAAGCGAAAAACATGGATCCTGAGCAAAGAATCCTTTTAGAAGAAACCTGGCGGTGCATCGAAGATTCCGGGGTTTCTTTGCAGGATCTCCAGCGTAAAACCACTTCTGTTTTTGCGGGTATTATGAATTCTGACTACCGGCAGACAGGTCATGCTGAATCGGAAATCGACAGTTACGCCTGTTTAGGAAGTTTCGAAGCTATGCTTTCCAACCGGCTTTCATACACATTCGGTTTGACCGGAAAAAGCATGTCTGTAAATGCCGCTTGTGCATCATCGCTTGTTGCTTTACATGAAGCGGTTAAGTCATTGCGGACAAAAGAAAGCGATTATGCAATCGCATCGGGAGTAAACTTGAATTTCCAACCCGGAAAATATATTTCTTTTTCTAAAGCCAGAATGCTGAGTCCTGACGGCAAATGTAAAACCTTTGACGCAGCGGCGAACGGGTACGTTCCCGGAGAAGGGGCAGGCGTTGTATTGCTGCAGCGCCTTGGTGATGCAGTAAAAGCCGGTCACCATATATACGGGATCATAAAAGGGACAGCTGTTAATCATGGCGGTAAATCCCGTTCCATAACCGCTCCCAGAGCAGAAGCGCAGTGCCGGGTCATCTCAGAAGCTTTACACAACGCTGCTGTTGATGCTGCGACGGTTTCTTATGTAGAAGCACATGGCACAGGTACATCTCTGGGCGATCCGATAGAAATAGAAGCATTGACAAAAGCGTATCGGCAATATACTGAGGATACTCAATATTGCAGGATCGGAAGTGTGAAAACAAATATCGGTCATACAGAAGCAGCGGCGGGAATGGCCGGATTGATAAAAGTTCTAATGATGATGAAACATCGGAGGGTGCCGAAAAGCCTGAATGTACATACGGTAAATCCAATTATACAGTTTGAAAAAACACCGTTTAGGCCGGCGCTTGATTCAAGTGATTGGAAGGCGGCAGACGGGGCTCCGCTCAGGGCGGGAATCAGCTCCTTCGGTTTTGGGGGTGTTAACTCTCACGTCATTATCGAAGAATTTATACATACAAATGACGAAACTGACAGAAAGGGAAGGGTTCCCTTCCTTTTTTCCGCTAAAAGTGAAGAAAGCATGAAACAAATGATACATAATTGGAGAACCTTTTCTGACGATTCTGAGGAATTTTGCAAAATATCAAATGAAGCGATCAGCAGCACCCTTTTAACAAGGACATCGTTTGATTACAGGGCGGGTTTATTGGCAGGCAGCAAGGAGGAATTTAAAAATCAGCTTAAAGAGGGATTAAGTTTTCGGAGGAAACAAGATTCTGAATGGGCGCTTGCCATCGGTGACTTCAAATGGGAAAGTTATAAACAATTTGCCGTTTTGAAACGCGTGTTCCCTGATTTAGAAAAGAACGTAAGGTCGGTGCTGAAGGGTATACCAACATTGCACAGTTCATTTAAAAGAAAATGGACGCCTGAGAAAATCCGCTTGTATTCTTTAGTTATCAATACGGAAATCATAAAAAGTATCCTGGCATCCGGTTTTAAGCCAAGCCTCATTACAGGCGCCGGAGACGGATATTACGTCGCTCTTGCAGCAGCGGATATCATCAAAATTGAAAAGGCCATTTCTGTCATCACAGGCGCTGAAAAACCTTCGCACTTATCCTGTGAGCCGCCGTCCATTCCATTTGTCAATCCGTACACTTCAAAAACGTACCCGCCGGTTCGATTAAATGAAGAATATGTAAGGATGCTGCTGAACGGTCTGAGCTTCCCGGCTGATTTTACAGACCGTCTGTACGGGAAAACACGGCTGCTTCTTGAGCACCAATATACGTTTAAAGGGTTTTTAGAAGAGTGGGATAAAGCGGGAAAGACTCAGGAAATCGAGATTTTATCTTATATTGTGAATCGCACGGCGGATAAAAGAAACGCACTGCCGGCTGATGAGGAAGCGGCGATCATGGCTATCCTTGCCTCTATGAGAAGACTGTATAAGAGATGGGATTTAACAGATTATGATGGATTCTTTAATAATGATTATGTTCTGGAAATATTAAATTTACTTGATGAAGGGATTTTGTCTAAAGAACTTTTTCTGAGCATGTTATTGAAAAAGCAAGACGGAATTAAACAGGCTGTTGCTTGTATGAATGAGCAGCCGGCAGATTTTTATGATAAGGATCGTTTTCCGTTGATGACAGAATACAATCAAATGGATGCCGTGTCTCAGGAGATAGCTGATCATATGCCGCTTCACACGGAAGAAAAGGGAACGGAGCCGGATGTGGTTATTTCTGATTTTTCAGTTTTCCAATTCGGATCGCTCCCTCCATCAGCAAAACTAAACAAAGCGGCTGCTTTTGAAGCGGACAAAGCAGCTGATGAAGCTCTTTATCATTCATTTATGCAACTGTGGCTTTCAGGAGAAGAGATTGAATGGGCGAAACTAGGTGACTATCATAAAAGAAAAGCCCCGCTTCCGCCTTATCCGTTTGAGCGCTGTCAATTTTCTTTAAACCCTCAGCAGGTAAAATCAGACGCGGCTTTTTCAGCAAAGAAGAATCAGGCACTTTATGCGCCGATATGGAAAGAAACCGCACTTGAGAATGAAGCGGACAGCGGACAAGCCTGTACTATTTTGTTGTTCTCCGAGAATAAAGACTATTTTGAAGAGATGAAAAAAAGAGAGAATACGTCCGCATATCTTATTATGCCCGGTGACCGTTTAGAGCAGATAAGCGACAGTGTTTTCACGATCAACAGGCAGCGTCCCGATGATTATCAAAGTGTCATTCGTCTGTTAAAAGAAAAAGGCGCAGCGCCTGATGCAATTTTGCATACGTGGTCTGAAAAACAGCCTGAACTGGAAGAAACACTCGAATCAGGAATTTATTCCGTGTTTTATCTGACTAAGGCTTTAATCAGCGAGAACCTTATAAACAAAGTAACGTTCATTTATACATTCAGCGCAGATCAAAAAGAAAAATTGCCGTATTTTGAAGGTGTGAACGGTTTTTTAAAATCGGTAAAACAAGAATATCCGCAGCTGCATTGTAAGACGGTTTGCTTTGAACATGATTCTGCAGCCGTTTCATTTTCAGAGAAGGCTGCCATTCTTTATAAAGAAATAAACACAGCACCTGATCGGCATATTCATATCACTTACAGAGGCTGCGTAAGATATGCACGGATGTTAGAGAAGCAGAGAGAAACATACACAAAGACCATTCAATACCCTGAAAAAGATAAAGTATATTTAATTACAGGGGGATTTGGGGGGATTGGCAGTAAAGTCGCTGAATATTGCGCGAAAACTGAAAGATCCACCATTATTCTATCGGGGCGATCTGCTTTAACCGGAGATAAGCAGAAACATTTAGAATACCTGAACAGCTTTAAAGCCAAGGTTTATTATATACAGGCGAATATATCCGATAAAGAAGCGGTAAAAAAAATGATTGACGGTATTACCGATCAGCATGCAGGTCTTCATGGCGTCATTCATTGCGCAGGAGTTATCAGAGACTCGCTGCTTTTTCAAAAAACAAAGCAGGAACTTTCAGAGGTGATTGCTCCGAAAGTTCATGGTGCGTTGAATCTTGATCATGCAACGAAGTCGCTGGAATTGGATTTTTTCGCCGTTTTTTCTTCAGTCGTCTCTATTGCAGGGAACGAAGGCCAGTGTGATTATGCATATGCAAACGGCTTTTTAGATCATTTTGCAGAATATCGGGAATGGAAACGGCAAAATTCTCTGCGCAGCGGCCGTACGCTGACAATCAATTGGCCTTTATGGAAAGACATCGGAATGGGGGCGAACCTGTCAGGTCAAGGGCGGACGTCTCTTTTTCATGGTTCCGGGCTCGAAGAACTTCCTGCTGAAGACGGAACGCAATGGTTTTCGCGGATTGTAACTTCGGGTCAGCTGCATAATATTGCAGTCTGCGGTGATCATGAGCGCTTTGAACAATTTATGCGGCAGAGATTTTTGACGGACGAAACAGAGACAGGCAGTGCCATTCCTTTGGCCCAAGGCGATATTTTGGATCAGACAGTTTTGTTTTTAACCAATATCATCTCCTCTGAGGTCGGTGCAGAACGGGAAGAGATCGATCAAGATGTGCATCTGGCTGAATATGGAATGGATTCGGTTATGATTCATCAATGCAACACAAAGCTGGAGCAGTCACTGGGAGCAATTTCGAAAACGCTTTTATTTGAATTTCATACAATCAGAGATTTAGCAGATCATCTTGTAAAGGAATATCCGGATCGGCTGGGGCGTTTATTTTCACGGGAGGAAAAAGGAAAACAGATTCAGAGCATTACCCCCGCCAGGCCGGAACAAAACATCACTGCACCTGCGGCGGAGGAAAAAGAACATCTTGACGGGATAGCGGTAATCGGTATCAGCGGCCGTTATCCCGGGGCTGAAAATATCGAAGAATTGTGGGAACTTCTATCAAAAGAGAGAACCGCAATCACAGAAATTCCGAAAGAACGTTGGAATTATGAGACCTACTATGATCCAGACCCCGCTAAAGCGCATGAGGGGAAAATTTATTGCAAATGGGGCGGATTTTTAAAGAATGCTGAATCATTTGATTCTTTGTTTTTCCAAATATCGCCAAGAGAAGCGGAAGCGATGGATCCTCAGGAACGAATATTTCTCGAAACCGTATGGAAAGCATTTGAAGATTCGGGATATACCATTGAAGGGTTGAGAAAGCAGACCGAAAAACATGTCGGTGTATTTGCGGGAGTGACGACCAATTCTTACAAGCTGCTCGGTGAAAGAATACCGACGGACAAAAACGATGTACTTCCAAATTCGTTCCCATGGTCTCTCGCGAACAGAGTGTCTTACACATTTGACTTTACAGGTCCCAGTGTCCCTGTAGATACGGCTTGCTCTTCATCCTTAACGGCAATTCACATGGCTTGCCAAAGTTTAAAAAAAGGTGAGTGCTCGGTTGCGGTTGCGGGAGGAGTAAATTTGTATCTTCATCCTTCTGACTATTTATACCGATGTCAGATGGGAATGCTTTCAAAATCGGGAAAATGCAGAAGTTTTGGAGAAGGCGGCGACGGTTTCGTACCCGGGGAAGGTGTCGGGGCCGTAATTCTTAAACCGCTTAAAGATGCCATACGTGATAATGATACTGTGTACGCCGTCATTAAAGGAACGGCAATTAATCACGGCGGAAAGACGAATGGCTATACGGTGCCTAATCCTGCCGCACAGGCGGATTTAATCCAAGGAGCTCTTAAAGCGGCCGGTTGGAGCGCCAGAAGTGTCAGCTTTATTGAAGCCCACGGCACGGGAACGCCGCTGGGTGACCCGATTGAAGTCCGCGGCCTGACCAAGGCGTTTAGAGCTTATACCGAAGATGTTTCATATTGCTCTCTCGGATCGATTAAATCTAACATCGGTCATCTCGAAGCGGCTGCGGGTATTGCCGGCCTGACAAAGATTATCTTACAAATGAAGTATAAAAAAATAGCCGCAACACTGCATGCTGAACGGGTGCATCCGGATCTTTATCTGGAAGAGACACCTTTTTGTCTTCAGCAGGAAACCGCCGACTGGATAAAACCCGCGAATGAAAAACATTCTGACAGCAAATATCCGCGGCGTGCGGGATTAAGTTCTTTCGGAGCGGGCGGGGCGAATGCTCATATTCTTGTGGAAGAGTATGAGTCTGCTGCTGACTGTTATACGGATTGTGAGGAAAGTGAGGAACTTATCGTACTCTCAGCCAAGCATTCACTGAGTTTACGGGAATCGGCAAAACAGCTGGTGGAATATCTTCAAAAGGTCCGTCAACAACAGGGCGAGTTTTTGCAGCAAGCGGGAACAAACAAGCCGCTTCACCTTTCTGATATTGCGTATACCCTTCTTGAAGGGCGTGAAGCCATGGCGGAAAGGCTTGCTGTCATTTCAAATAATATCGACGATCTGATGTTGAAATTAAATCACTTTTATAATGGAATTGACGATCACGAAATATTTAGAGGGAAAAAACCGAATCATAAACGCAGACAGCAGCAATCGGATCTTCCGCTCAAATCCGGCAGAACCACATTAGCCGAAATGGCTGAATTCTGGGTATCAGGAGGCAATTTAAGCTGGGAAGATTTCCGCACTGGCAGAAAACCGGCGAAAATTACCCTGCCGACTTACCCTTTCTTAAAAAACAGACTGTGGGTGTCAAATAAGGCGCAATCAAAATCAACAGCTGATAAAGCTCCTTTATTTGATTTTTCTGCAGGTGAGTGCCGATTTTATAAAACGCTTTCAGATTCTGAATATTATGTAAAAGATCATGTTGTGCATGGGAATATGGTTCTGCCAGGAGCGGCAATCATCGAAGCGGCCAGAGAAGCGGGAGAGAGGCTGTACGGAAAATCAGTCATAAAACTGAGTCAGGTTGTATGGGCGGTTCCAATAACCGTTGAGAAAGAAAAGACGGTAATGATAGATCTGCTGCCGAATCAAAAAGACGGCAGATTTGTGGTGAAAACCGATATGCAACCTGAAGCGGCGGTTCATTGCCAAGGAAACATTATCACATGCGGAGATAAAGATGCCTCTCATACAGAGCATTTTCAATTGGACAGCTGGTTAACCGGACAGAAAAGATTAATCAGCGGCGCTGAGTGTTACAGGGATTTCCGGCAGAGCGGTTTGGACTATGGAACCAGTTTTCAGGTAATAAAACAGCTGTTTATCCATGAAAATGCTGTTCTTGCACGAATATCACTTCCTGAGAGCATTCATAAAAAATCCGGCACGCTGCTGGAACCGTGTTTATTGGATGGCATTTTTCAATCCACAACCGGGTTTACGTCCGGTCAAGAAGGAGATCTCACCGCATATTTGCCTTTTGAATTAGGTGAGCTGGAGATTCTTCATGCACCTTCGGCAAACGGCTATGCTTACATTACAGCTGCCGATGAAAGACAACATGATGATGTCAAAAGGTTTCATATATTATTTATGGATGAAAACGGATCTGTAAGTCTTAAAATAAAAAACTTAGCGTTGAAGGCGTTAAGGGCTGCACCGCAGACTCAGGAGGAGCGGCATTCAGTTAAGTATTACACTGATATGTGGAAGCGGGCCCCTCTGCTTCATCAGCCTGAAGCCAGCGGTTTAAACAGCTGCCTTGTGATTTCACTCCGTCGGGATATATCAGAACCGCTGATCCGCCAGGCATATAAAGATATCGGCTTGAACATGATCTTTGTCCGCCATGGCGGCAATTTTCAAGAAAAAGAAGCTGATTCCTTTGAATTGAACAGCGTCAAACTTGAAGGCTATCAGAAATTGCTGGCGATTCTTAAAGAAAGACAAGTGACAATTGACCGTGTCATTTTAATCGGGATGAGCCCTGAAACGGGAATTGAGCAGAACATTCATGAAAAGCTGGAAGAGGCTGTTTTGCCGGTTTTCAATGTAACGAAAGCTCTGCTAGCAACAATCCCGAGACATAAAATCCTGATATCACATGTGTTTTTCACAAGGGAAAATCAAATCTTACCTTATCAAATGGCAATCAGCGGCTTTTTTAGGTCGCTTCATTTAGAACATCCAATGTTGTCCGGTAAAAATATTGAAATACACAGCGACGAAATTCAGTTACAGCTGAACACCGGTCTGCCTGAATTAAAAAACCTTGTGAAAGAAACAATCATCAGCGATGATACTTCAGAAATCAGATACAGAGATGGAATCAGGCAGGTGAAACACTCTGCAGAAATTGAAAGTGCCGAGCCCCCCGAAAAGATGGAAGTAAAAGAAGGGGGAGTTTACCTCATTACAGGAGGAACGGGCGGTCTGGGACTGATTTTCGCCAGACATCTTGTGCGAAAAGGGAGAATAAAACTTGTCCTTATCGGCAGGTCAGAGCTTTCTGAGGAAGCCGTAAGCAATGTAAAAGAGCTCGAAAAAAACGGATCAGAGGTTTTTTATGTAAGAACCGATATTTCTGATAAGGAAAATGTCAATAACCTGATAAAACTCGTCAAAAACAAATTAGGTCCTGTTAAAGGAATTATTCACAGCGCCGGTGTGATAAAAGATTCATTACTCATCAATAAGCGTGAAGAGGATCTCGATTCAGTCTTGGCCAGCAAGGTTTACGGAACGATATGGCTTGACCGGTATACAGACAGAGAACCTCTGGACTTTTTTGTAATGTTTTCATCTATCAGCGCAATAATCGGGAACGCGGGACAAACCGATTATGCTTATGCAAACCGGTTTATGGATTATTTTGCGGAAATGAGAGCGGCGGAAAATAAACCTGGAAAAACAGTCTCGATGAATTGGCCTTTATGGAAAGAAGGCGGTATGCAAATTGATATTCATTCAGAGAAGTTCCTTTATGACCGTTTCGGAATGCTGCCTCTGGAAAAACGGGAAGGCCTTGCAGCATTTGATCAAGCAATGACAGGGTGTGAACATCAAATAATGGTATTTAGCGGTAATGAATTAAAGCTGGAACGAATGATAACGATTGACAGCGGAAAAAGTGACCCGGCAATCGCCGACGAAAATCAAGAACTGAAAGAGCTGTCAATAACTGAATCTTTAAAAAGCACTTTGACGCGCATCATCACCGGCGTATTAAAAATTGAAGAACGGGAATTTGATTTTGAACTGCCGATAAGTGAATACGGATTTGATTCAATTATGTTTACAATGCTGGGCAACGAATTAAACGAGTCATTAGGAATATCAATGATGCCGTCAGATTTTTTCGGTCTTACTGATTTTAATGAACTTCTTGAGTTTTTAAAGAGTGAGTATTCCGAGGAGCTTCATCTCTGCGGCTCTTTTTCTTCAGATGAATCTGCGGCGAAAGACCGGAGAGAAAATCTGATTGAGGGCATTGCAAAGATGATGTCAAGTATTTTGAAGATTGACAGAAAGGAAATAGAAGAAGAGACTTCATTCGGCGAGTACGGATTTGATTCTATTACGTTTACCAGACTCGGAAATGAAATCAATCAACAATATGGTACGGAATTATTGCCGTCCATTTTCTTTGAATGCAATTCACTGGCTGAAATGACTGATTATGTAATCGAGCAATACGGAGAAATCCTTTTTGCTGAGACAGAATCTTTTTCTGCAGCTGACGAAAAAACATTGTACAGCACGCCTCCGCCGGAATCTTATGAACATTCCCCTGAGCCTGAAAATAAAACTAGGCAAGAGGAAAGACATATAAATGAGCCGGTGGCAATAGTGGGAATAAGCGGCCGTTTCCCCCAAACAGATACGCTGGAAGACTTTTGGGAAGGAATTGAAAAAGGCCGGGATATGATTACAGACATTCCTGAAGACCGTTGGAACTGGAAAGAGTTTGACGGCGATCCGATCAGGGACGTCAATAGAACAAAAATAAAAAAAGGCGGATTTATCAAAGGCGCGGACAGTTTTGATCCGTTGTTTTTCGGGATTTCTCCCGCCGAAGCAGAATTAATGGATCCCCAGCAAAGAATTTTTATGGAGACTGTATGGAAAACAATAGAAGATGCGGGCTATAAGCCGTCCGATTTGGCAGGGACGAAAACCGCGGTGTTTGCAGGGGTCGCCACAACGGATTATGCTGAACGTCTGAATGAAAATGGCGTCTCTGTTCAGGCGCAGACCGCAACCGGTTTAAATCATTGTATATTGGCAAATCGTATTTCTTACCAGCTGAACCTGACGGGTCCGAGCGAACCGATTGACACTGCCTGTTCAAGTTCGTTAGTTGCGCTTCATCGTGCGGCTGAGGGGATTCAAAGAGGCGATTTTGAAATGGCGATTGCAGGCGGAGTGCATATTATGACAAGCCCTACTCTGTTTATAGCTTTTGATAAAGCAGGTATGCTTTCCAAAGACGGAAAGTGCAAAACGTTTGATAAAAGCGCTGACGGCTATGTAAGGAGTGAAGGGGCGGCTGCAGTATTGCTCAAGCCGCTCAGCAAAGCACAGGCAGACGGTGATCATATATATGGTTTGATTAAAGGGTCAGCTGTAAATCACGGCGGCCGCGCCAATTCTTTGACAGCTCCGAATCCGAACGCACAGGCGGACTTATTAACCGAAGCTTGGCGGAAGGCGGGGGTCAGTCCTGCCACTGCGGGATATATAGAAGCGCATGGCACAGGGACAAGTCTTGGTGATCCGATTGAAGTGAACAGCATCATAAAGGCATTTAAAACGTTATATCAAGAATGGGACATTCCTTTTGCGAAACAGAAATGCTGCGGAATCGGGTCTGTGAAAACAAACATCGGCCATCTCGAAACCGCTGCCGGAATAGCCGGAGTGCTGAAAGTGTTACTGGCTTTTAAATATCGCAAACTTCCGGGACTCGCCCATTTTTCAGAACTCAATCCATACATCAAACTGGAAAATACGCCATTTTATATCACAGAAACCGCTCAAAAGTGGAATCCGATAAAAGATGAAGAGAACAACGATCTGCCGAGGAGAGCAGGTGTCAGCTCATTCGGATTCGGCGGTGTGAACGCGCATATTGTTTTAGAGGAATATAGGGAACCTCAAAAAGAAGTGCCGGAAAACAACGGTAACACACATATTTTTGTTTTATCTGCGAAAAGCAAAGATCAATTACTTGAGTATATCCGGCTTATGGTTCAGTACTTGGATCGCGTGATTGCCGGTGACATGACCGTTAATGCCAGTGACATGGAATTTACATTGCAAAACGGCCGGGAAGCAATGAACGAAAGAATTGCCGTATGTGCAGCGAGTCTGACTGAGCTGAGAGATAAATACGTCAGCTTTCTTGATGACAGCAAGGTGCAAAAAGGCGTATTTATAAGCGAAAACACTGAAGAGCGCACAGCTGTTTCTGAATATATGATTCAGGAGGCTCTTCAAAGCGGAAAAGAGGAGCTGCTCGCACAATGGTGGGCCAATGGAGCCGAGTTTGAATGGAAGACAATCGGCAATAAGAAATTGAATAGAGTGCCGATGCCAACTTATCCGTTTGCAAAAGAGAGTTATTGGTTTACTCCGAAAAAGAACAAAAGCGAGGTTAATAGTAAAAGTCTTCACCCATTAATCAGCGAGAATGTCTCAACATTAAAGAAACAAGCATTTAAAACTGTTATTTCCGGAACTGAATTTTTCGTCACTGATCATCTTGTTTCAGGAGACTATGTGCTGCCAGGAGCCGCTTCGCTTGAAATGGCTCTTGTTTGTGCGGAAATAAGCGGAGAAAGTAAAGTATATAAAATAAAAGACGTGATGTGGAACAGACCTATATTATATAAAGGAAAAACGCTGCACATTTATACCGACTTGGAAATGAAACAAGATAAGTTGAACGTAATGATATGTAAAGAGGGTCCGGATGGCGTGCAGCAAATCTGCACACAAAGTGAAACAGTATTCGGAGACATAAACAGCAATCCTGAGTATGTCGATATTGATCAGTTCATACGCAGCAGTGAGCCGGTCATAAGCCGGGAAGAGTGTTATCACCGCTTCAGCCGTATGGGCCTGACATATCATAGCAGTTTTCAAACATTGAAAGCCGTATATCGCGGTGATATGGAGTTAATGGCAGAATTGGAGCTTCCTGCTCATTTAGCGAACGGGTTTTCACATTTTACACTTCATCCTTCATTAATTGACGGCGGTTTTCAAGCGGCGGCATTTTTGTTAAGAGATAATGAGAAAGAGGGCTTATTTGTTCCATATTCACTTAGAGAGCTTCACATTAAGAGGGCGCTTACTGCCCGATGCCATGTCTCGGTGAAAGAAACCGGTTTTTATACGTATAACATTGATTTTATTAACGAGAGCGGCGAAATAGCCGTGAGCATGAAAGACTTTTCTGTCAGAAAAGTGACCGGGGGAGAATTAACCGCAGGACGTAAAAATGAAGATCAGGAAATTCTCTTCTTATTAGAACGATTGAAAAACGGTGAACTTTCTGCTGACCAAGTTTATCAGCTGCTGGAGGGAAAATAG	MVHLNKQNADIAIIGVACRFPDADHYHEFWENINSGKDSIREVPIERWDPELYYSADISIPNKTISKWGGFIHKADHFDHKFFNISPREAKNMDPEQRILLEETWRCIEDSGVSLQDLQRKTTSVFAGIMNSDYRQTGHAESEIDSYACLGSFEAMLSNRLSYTFGLTGKSMSVNAACASSLVALHEAVKSLRTKESDYAIASGVNLNFQPGKYISFSKARMLSPDGKCKTFDAAANGYVPGEGAGVVLLQRLGDAVKAGHHIYGIIKGTAVNHGGKSRSITAPRAEAQCRVISEALHNAAVDAATVSYVEAHGTGTSLGDPIEIEALTKAYRQYTEDTQYCRIGSVKTNIGHTEAAAGMAGLIKVLMMMKHRRVPKSLNVHTVNPIIQFEKTPFRPALDSSDWKAADGAPLRAGISSFGFGGVNSHVIIEEFIHTNDETDRKGRVPFLFSAKSEESMKQMIHNWRTFSDDSEEFCKISNEAISSTLLTRTSFDYRAGLLAGSKEEFKNQLKEGLSFRRKQDSEWALAIGDFKWESYKQFAVLKRVFPDLEKNVRSVLKGIPTLHSSFKRKWTPEKIRLYSLVINTEIIKSILASGFKPSLITGAGDGYYVALAAADIIKIEKAISVITGAEKPSHLSCEPPSIPFVNPYTSKTYPPVRLNEEYVRMLLNGLSFPADFTDRLYGKTRLLLEHQYTFKGFLEEWDKAGKTQEIEILSYIVNRTADKRNALPADEEAAIMAILASMRRLYKRWDLTDYDGFFNNDYVLEILNLLDEGILSKELFLSMLLKKQDGIKQAVACMNEQPADFYDKDRFPLMTEYNQMDAVSQEIADHMPLHTEEKGTEPDVVISDFSVFQFGSLPPSAKLNKAAAFEADKAADEALYHSFMQLWLSGEEIEWAKLGDYHKRKAPLPPYPFERCQFSLNPQQVKSDAAFSAKKNQALYAPIWKETALENEADSGQACTILLFSENKDYFEEMKKRENTSAYLIMPGDRLEQISDSVFTINRQRPDDYQSVIRLLKEKGAAPDAILHTWSEKQPELEETLESGIYSVFYLTKALISENLINKVTFIYTFSADQKEKLPYFEGVNGFLKSVKQEYPQLHCKTVCFEHDSAAVSFSEKAAILYKEINTAPDRHIHITYRGCVRYARMLEKQRETYTKTIQYPEKDKVYLITGGFGGIGSKVAEYCAKTERSTIILSGRSALTGDKQKHLEYLNSFKAKVYYIQANISDKEAVKKMIDGITDQHAGLHGVIHCAGVIRDSLLFQKTKQELSEVIAPKVHGALNLDHATKSLELDFFAVFSSVVSIAGNEGQCDYAYANGFLDHFAEYREWKRQNSLRSGRTLTINWPLWKDIGMGANLSGQGRTSLFHGSGLEELPAEDGTQWFSRIVTSGQLHNIAVCGDHERFEQFMRQRFLTDETETGSAIPLAQGDILDQTVLFLTNIISSEVGAEREEIDQDVHLAEYGMDSVMIHQCNTKLEQSLGAISKTLLFEFHTIRDLADHLVKEYPDRLGRLFSREEKGKQIQSITPARPEQNITAPAAEEKEHLDGIAVIGISGRYPGAENIEELWELLSKERTAITEIPKERWNYETYYDPDPAKAHEGKIYCKWGGFLKNAESFDSLFFQISPREAEAMDPQERIFLETVWKAFEDSGYTIEGLRKQTEKHVGVFAGVTTNSYKLLGERIPTDKNDVLPNSFPWSLANRVSYTFDFTGPSVPVDTACSSSLTAIHMACQSLKKGECSVAVAGGVNLYLHPSDYLYRCQMGMLSKSGKCRSFGEGGDGFVPGEGVGAVILKPLKDAIRDNDTVYAVIKGTAINHGGKTNGYTVPNPAAQADLIQGALKAAGWSARSVSFIEAHGTGTPLGDPIEVRGLTKAFRAYTEDVSYCSLGSIKSNIGHLEAAAGIAGLTKIILQMKYKKIAATLHAERVHPDLYLEETPFCLQQETADWIKPANEKHSDSKYPRRAGLSSFGAGGANAHILVEEYESAADCYTDCEESEELIVLSAKHSLSLRESAKQLVEYLQKVRQQQGEFLQQAGTNKPLHLSDIAYTLLEGREAMAERLAVISNNIDDLMLKLNHFYNGIDDHEIFRGKKPNHKRRQQQSDLPLKSGRTTLAEMAEFWVSGGNLSWEDFRTGRKPAKITLPTYPFLKNRLWVSNKAQSKSTADKAPLFDFSAGECRFYKTLSDSEYYVKDHVVHGNMVLPGAAIIEAAREAGERLYGKSVIKLSQVVWAVPITVEKEKTVMIDLLPNQKDGRFVVKTDMQPEAAVHCQGNIITCGDKDASHTEHFQLDSWLTGQKRLISGAECYRDFRQSGLDYGTSFQVIKQLFIHENAVLARISLPESIHKKSGTLLEPCLLDGIFQSTTGFTSGQEGDLTAYLPFELGELEILHAPSANGYAYITAADERQHDDVKRFHILFMDENGSVSLKIKNLALKALRAAPQTQEERHSVKYYTDMWKRAPLLHQPEASGLNSCLVISLRRDISEPLIRQAYKDIGLNMIFVRHGGNFQEKEADSFELNSVKLEGYQKLLAILKERQVTIDRVILIGMSPETGIEQNIHEKLEEAVLPVFNVTKALLATIPRHKILISHVFFTRENQILPYQMAISGFFRSLHLEHPMLSGKNIEIHSDEIQLQLNTGLPELKNLVKETIISDDTSEIRYRDGIRQVKHSAEIESAEPPEKMEVKEGGVYLITGGTGGLGLIFARHLVRKGRIKLVLIGRSELSEEAVSNVKELEKNGSEVFYVRTDISDKENVNNLIKLVKNKLGPVKGIIHSAGVIKDSLLINKREEDLDSVLASKVYGTIWLDRYTDREPLDFFVMFSSISAIIGNAGQTDYAYANRFMDYFAEMRAAENKPGKTVSMNWPLWKEGGMQIDIHSEKFLYDRFGMLPLEKREGLAAFDQAMTGCEHQIMVFSGNELKLERMITIDSGKSDPAIADENQELKELSITESLKSTLTRIITGVLKIEEREFDFELPISEYGFDSIMFTMLGNELNESLGISMMPSDFFGLTDFNELLEFLKSEYSEELHLCGSFSSDESAAKDRRENLIEGIAKMMSSILKIDRKEIEEETSFGEYGFDSITFTRLGNEINQQYGTELLPSIFFECNSLAEMTDYVIEQYGEILFAETESFSAADEKTLYSTPPPESYEHSPEPENKTRQEERHINEPVAIVGISGRFPQTDTLEDFWEGIEKGRDMITDIPEDRWNWKEFDGDPIRDVNRTKIKKGGFIKGADSFDPLFFGISPAEAELMDPQQRIFMETVWKTIEDAGYKPSDLAGTKTAVFAGVATTDYAERLNENGVSVQAQTATGLNHCILANRISYQLNLTGPSEPIDTACSSSLVALHRAAEGIQRGDFEMAIAGGVHIMTSPTLFIAFDKAGMLSKDGKCKTFDKSADGYVRSEGAAAVLLKPLSKAQADGDHIYGLIKGSAVNHGGRANSLTAPNPNAQADLLTEAWRKAGVSPATAGYIEAHGTGTSLGDPIEVNSIIKAFKTLYQEWDIPFAKQKCCGIGSVKTNIGHLETAAGIAGVLKVLLAFKYRKLPGLAHFSELNPYIKLENTPFYITETAQKWNPIKDEENNDLPRRAGVSSFGFGGVNAHIVLEEYREPQKEVPENNGNTHIFVLSAKSKDQLLEYIRLMVQYLDRVIAGDMTVNASDMEFTLQNGREAMNERIAVCAASLTELRDKYVSFLDDSKVQKGVFISENTEERTAVSEYMIQEALQSGKEELLAQWWANGAEFEWKTIGNKKLNRVPMPTYPFAKESYWFTPKKNKSEVNSKSLHPLISENVSTLKKQAFKTVISGTEFFVTDHLVSGDYVLPGAASLEMALVCAEISGESKVYKIKDVMWNRPILYKGKTLHIYTDLEMKQDKLNVMICKEGPDGVQQICTQSETVFGDINSNPEYVDIDQFIRSSEPVISREECYHRFSRMGLTYHSSFQTLKAVYRGDMELMAELELPAHLANGFSHFTLHPSLIDGGFQAAAFLLRDNEKEGLFVPYSLRELHIKRALTARCHVSVKETGFYTYNIDFINESGEIAVSMKDFSVRKVTGGELTAGRKNEDQEILFLLERLKNGELSADQVYQLLEGK	PGPT0010165_157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|MACROLACTIN|DIFFICIDIN_METABOLISM,PGPT0010165-baeN|pksN|mlnB|mlnD|dfnG-K13614	NA	NA
D1-12_00622	4773			hypothetical protein	GTGCAGATCAAACAAATACTTTCCTTAATTAAAGAACAGCAAATGTCTCCTGATGCAGGACTGGAGCTAATTCGCACTTACAGAAAAGAACAAATGGAAAAAAAGGCGGAGCCGGAATCACAAGCTCCGTCCCCAACCATTTTTTTTAAGAACGAATGGGTAAGGACAAATAACATTGATAGGCCGAATCAGCAGGCACCGGGAAATATGCTGATTTTTGATCAGGATAACCGTCTTTTTCAGCATGCCGAGATGATGAATGGAGAACATAACCGTGTCATTCTCGTAACGCCCGATTCTGATTATAGAATTGAGCGGAATAGATGCACAATCAATCCTTCTGATGAAAATCATGTCGAAATGCTGCTGTCTGATTTGGCTGAAAACGGATTTACACCTGATGTCGTGCTTTATTTATGGAACGGAGAAATCAGAGAATTCACTGAAGAATCCGTTAACGAAACTCTTCGCAGAGGGATAAACTCGCTCTTTTTATTATCAAAAGCTTTAATGCGAAGAAACGAACCTGTTACGTTATTGCATATTTATTGGACAAGCGGTCTGAATCAGCCGTTTCATGAAGCTGTCGGAGGGTTCATGAAAACGGTAAACATGGAAAGCTCCAAGCTTAAAGCGAAAACCATACAGATTCGCCATGAGCATTCTGAGATAAATCCTCCGGTTTCCAAGGTGTGGGATGCTGCAATCAGTGAAATACAGCACTTTCAATCCGATGAATGTGAGGTTTTAATAGACTCACATACCCGTTATGTGAAAGGGCTGCAGCATATTGATAATCCGGAACACGATAACGGATCTGTAACGTATCAAAAAGGCGGCATATATATCATTACCGGAGGAGCGGGAAAACTCGGGCTGCTGTTTGCGGAACACATCGCTAAAGAAAACCAAGCCGTGATTATACTTACAGGCCGTTCTTTTTTAACAGCTGATCAAAAAGAACGGATCAGTAAGCTTAATGAGAGCGGCTCTATTGTTGAATATCAGCGGACGGACATAACAAATCGAACCGAGACAGAGCGATTCATTTTCGGCGTTAAACAGCGGTACGGCAGCATAAACGGGATCATTCATGCTGCCGGCATCCTTCGTGACTCATTTCTTGTAAATAAAAGTCTCAGTGATTTTACGGACGTACTGAACCCGAAAGTTTACGGGACAATCTGGCTGGATGAGCTGACAAAAGACGAAGATCTTGATTTTTTTGTTCTCTTTTCTTCTTTTTCCGCTTACGGAAATGCCGGCCAAAGTGACTATGCGTACGCAAATCATTTTATGGACAGTTTTGCAGTGCTTCGATCTCAGCTCTCCCGAAACGGAAAAACCCTTTCAATCAATTGGCCGTTATTGAAAGATGGCGGGATGAGTCTCGACAGCAATGGAATCATTCAAATAAAAGAAAAATACGGAATGACTCCGATGCGAACTTCCTCTGTTTTGGAAGCGTTTCTGAAAATGCTGCGGTCTTCATTTACCAGCTTAATGCCTGCAGAAGGAGAGCGGGATAAAATGATAAAAGCGCTTTCGATTCAAAGAAATACAGCTGCAGCAGATCAAGATACACTCACGGCGGAACACGATGAAGAAGAGGAATATGCTGCGAAAGAAAAAGTCAATGACTATTTAATCAAGATCATCAGCGGTGTCTTGAAAATCCAAGCTCATAAAATAAATGCGAAAGACTCTTTTGAGAAATTCGGAATCAACTCACTTATGATCATGTCACTTATTTCAAAGCTTGAAGATACTTTCGGGGATCTTCCAAAAACAATCTTTTTTGAATATCAGAACATTGAAGAGCTTTCAAACTTCTTCCTAACATCTTTTAAAGAAAAAGTGCTTAAGGCCGCAGGGGCAGCTCCGGTAACAAGAGTGCAAAAGAAAAGAGAAAATCTGAGTAAAAAACAGCACCGGCAGCAGAAGGTTGCAGCTGCACCGAGCATGGTTCAGCCGGGTGAGGATATTGCCATTATCGGTGTGAGCGGAAGATATCCGAATTCCGATACTCTTGAGGAGTTCTGGGAAAACATTGCCGGAGGGAAAAACTGTATTATTGAAATCCCCGAGGAACGTTGGGATTTCAGATCGACTTACAGTCCCGACAGAATGGAGAAGGGGAAAATCAACAGTAAGTGGGGCGGTTTTATCAGCGGTGTTGATCAATTCGATCCGCTGTTTTTCCATATTTCTCATAAAGAAGCTGAGCTGATGGACCCTCAGGAGCGAATTTTTCTCGAAACCTCCTGGCATACGTTTGAAGATTCAGGATATACAAAAGAGAAGCTTGACGGTATGAAAGCCGGTGTGTTTGTCGGAGCCATGTACGGACAATACCAATTATTCGGCGCAGAAGAAACTGCGCGGGGCAATCCGATCGCGCTCAGTTCCTTCTTTTCATCTATTGCGAACAGGGTTTCATACTTTTTTAATCTCTCCGGCCCGAGCATTGCACTGGATACGATGTGTTCATCATCGCTGACGGCCATTCACTTGGCATGTGAGAGCATTAAAAGAGGGGAAAGTGAAATTGCGCTTGCGGGCGGCGTTAATGTATCCATACACCCCAGCAAATACCTTTGGCTGAGTCAAGGTAATTTTGTTTCCACCGAAGGATTGTGCAGAAGTTTCGGAGAGGGCGGAGACGGCTATGTGCCGGGAGAAGGTTCGGGAGCCGTCCTGTTGAAACCTCTGGAAAAAGCAATTGCCGATCAGGATCATATATACGGAGTGATTAAAGGAACATCTGTAAATCATGGCGGAAAAACCAATGGATTTACGGTTCCGAATCCGAATGCACAAGCTGAGCTGATTGCTGAAAATTTTAAGAAATCGGGCATCAGTCCGCGATCCGTCAGCTACTTGGAAGCACACGGAACGGGTACCTCGCTCGGAGATCCGATTGAGATCGCAGGATTGACAAAAGCGTTTGAGAAATTTACGGATGATAAACAATTTTGTGCTATAGGTTCAGTGAAGTCTAATATCGGACATTTGGAGTCTGCTGCAGGTATAGCAGCTCTTACAAAAGTTCTTTTACAATTTAAGCATCAGAAATTGGCGCCATCCATTCACTCGGAACAGCTGAACCAAAATATCCGATTTGAAAAGACGCCTTTTTACGTTCAGCGGAAAGAAGAAGAGTGGCGGAAAGAATCAGGCGCCTCCAACAGGAGAGCAGCAATCAGTTCGTTCGGAGCGGGAGGAGCAAATGCCCATGTCATTGTGGAAGAATATCAAAACCATGCGGACACACAAACAATAAGCGGGCCGTTTGCCGCAGTTCTCTCTGCCAAAAATGAAGACAGACTGAAAGAATACGCTCGGCGCCTTCTGCAATTCACAGAGCGGGAGACAAAGGCCTCGGCAGCTGATATCGCTTTTACATTGCAGACATGCAGGGAACCGATGGAAGACAGACTTGCTGTTGTAGCTTCCGATTTGCCGGAGCTTAAGGAGAAGCTGAGAACTTTCTGTACCGAAGGAACAATTGGAGAGGGCGTATACAAAGGCAATGTTACGAAAGATTTTGATAAAGTCTTTATCTTTCATGATCAAAAGATGAAAGATAAATTCCTCGAGGCGATGATGGAGACAAAGGACTTGAATCTTCTTGCAAAATTATGGTCTTTCGGGGCTGATATTCAATGGCGAGAGTTATATGAAGAATATACCCCGCAAAAGGTCAAGCTTCCTTTATATCCATTTGCTGAGGAGTCTTACTGGGTGCCTGGAAGCCAAAGTGCAGTATTTCCGGAAACATTGCCGCAGCAGTCTTCACTGCACCCGCTTCTGGATTCGAATGAATCTACTCTGGAACAGCAGTTTTTTAAAACGACATTAAGAGAAAAAGAGATTTGGTTAAAAGACCACATTGTAAAAAACAAGAGCATTCTCCCGGCAGCTGCTTTTCTTGAAATGGCATGCGCAGCGGGAACGCGGTCATATCGAAAGAAAAAGGTCACTCGTTTAAAAAACGTGATATTTGCCAGACCGGCCATGCTTTTGCAAGAGAGCCTGACCATTTACACTCACATTTCCGTAAAAGACGGCAGCATATTATTTAACATGTCACCTGACGAGGATGCTGCTGTAAGGACTGGATTTGTGACGGGGGAATTAGATTATGATCATCATTACAATGATGATGATATAGAGAACATCGACAGACAAGAGATGATAAACAGAAGTGCTTTTGTCCGTGAACAAGATGAATGTTACGAGTATTTTCGGGAAAACGGGTTCCTGTATGGGCGCGCTTTTCAGCCGATTCAACGTTTATGGGGCGGCGGAACGGAAGCGGTTGCACACTTATTGCTGCCAAAAGAAGCCGCATATGCTCTTGAAAATTATACATTGCATCCGTCTTTAATTGATGGGGCTCTGCAATCTTTGTTCGGAATTACCGACGGAAGAGAAGAGGCATCTGTTTATGTTCCTTTTTCAATAGGAGAGATTACGATTCGGAAAAAAGTTTCAGCAGAATGCTGGGCTTATGCGCGTAAAACAGGCCAAAAAGGTCAATCCGAGCTTATTTACGATATTCAGCTGCTTAATGAACACGGAGAGAGACTTGCAGGTTTGAAGGATGTAACCATTCGTAAAAAAGAAACGTTTTCCGCGGAGACACAGACTCGTGCAACAGCGGATTCCAATGGAAAGAACGAGAGAGTAAAAGAGCTCCTCAGACAATTAAAAGCGGGCGAACTGACTGCGGAGGAAGCAGATTATGCGCTGGAGCGTATGCAGGATTAG	MQIKQILSLIKEQQMSPDAGLELIRTYRKEQMEKKAEPESQAPSPTIFFKNEWVRTNNIDRPNQQAPGNMLIFDQDNRLFQHAEMMNGEHNRVILVTPDSDYRIERNRCTINPSDENHVEMLLSDLAENGFTPDVVLYLWNGEIREFTEESVNETLRRGINSLFLLSKALMRRNEPVTLLHIYWTSGLNQPFHEAVGGFMKTVNMESSKLKAKTIQIRHEHSEINPPVSKVWDAAISEIQHFQSDECEVLIDSHTRYVKGLQHIDNPEHDNGSVTYQKGGIYIITGGAGKLGLLFAEHIAKENQAVIILTGRSFLTADQKERISKLNESGSIVEYQRTDITNRTETERFIFGVKQRYGSINGIIHAAGILRDSFLVNKSLSDFTDVLNPKVYGTIWLDELTKDEDLDFFVLFSSFSAYGNAGQSDYAYANHFMDSFAVLRSQLSRNGKTLSINWPLLKDGGMSLDSNGIIQIKEKYGMTPMRTSSVLEAFLKMLRSSFTSLMPAEGERDKMIKALSIQRNTAAADQDTLTAEHDEEEEYAAKEKVNDYLIKIISGVLKIQAHKINAKDSFEKFGINSLMIMSLISKLEDTFGDLPKTIFFEYQNIEELSNFFLTSFKEKVLKAAGAAPVTRVQKKRENLSKKQHRQQKVAAAPSMVQPGEDIAIIGVSGRYPNSDTLEEFWENIAGGKNCIIEIPEERWDFRSTYSPDRMEKGKINSKWGGFISGVDQFDPLFFHISHKEAELMDPQERIFLETSWHTFEDSGYTKEKLDGMKAGVFVGAMYGQYQLFGAEETARGNPIALSSFFSSIANRVSYFFNLSGPSIALDTMCSSSLTAIHLACESIKRGESEIALAGGVNVSIHPSKYLWLSQGNFVSTEGLCRSFGEGGDGYVPGEGSGAVLLKPLEKAIADQDHIYGVIKGTSVNHGGKTNGFTVPNPNAQAELIAENFKKSGISPRSVSYLEAHGTGTSLGDPIEIAGLTKAFEKFTDDKQFCAIGSVKSNIGHLESAAGIAALTKVLLQFKHQKLAPSIHSEQLNQNIRFEKTPFYVQRKEEEWRKESGASNRRAAISSFGAGGANAHVIVEEYQNHADTQTISGPFAAVLSAKNEDRLKEYARRLLQFTERETKASAADIAFTLQTCREPMEDRLAVVASDLPELKEKLRTFCTEGTIGEGVYKGNVTKDFDKVFIFHDQKMKDKFLEAMMETKDLNLLAKLWSFGADIQWRELYEEYTPQKVKLPLYPFAEESYWVPGSQSAVFPETLPQQSSLHPLLDSNESTLEQQFFKTTLREKEIWLKDHIVKNKSILPAAAFLEMACAAGTRSYRKKKVTRLKNVIFARPAMLLQESLTIYTHISVKDGSILFNMSPDEDAAVRTGFVTGELDYDHHYNDDDIENIDRQEMINRSAFVREQDECYEYFRENGFLYGRAFQPIQRLWGGGTEAVAHLLLPKEAAYALENYTLHPSLIDGALQSLFGITDGREEASVYVPFSIGEITIRKKVSAECWAYARKTGQKGQSELIYDIQLLNEHGERLAGLKDVTIRKKETFSAETQTRATADSNGKNERVKELLRQLKAGELTAEEADYALERMQD	PGPT0010096_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-MACROLACTIN_METABOLISM,PGPT0010096-mlnC-NA	NA	NA
D1-12_00623	8712	pksN_1	COG1020	Polyketide synthase PksN	ATGAAAGAAGCCCGTCATATTAGAAAAAAAGTACTTTCTGACATAGAAAGCGGCATCATTTCTTTGGAAGAAGGAGTAAAGCGGATACAGCAGCTTGGTTCTCATTCCGCAGGGGGTAACGGACAGGCGATATATTATCAGACGGTCTGGCAGCGGACAGATCTCAGCATTCATGTAAAAGGCGGCCGACGTGAGGGCAGCCTTTTATTATTTGATAAAAATGAAATTGTGAGAAATGAACTTGCTGCATTGCATGATACAAGGGTTATTTTGGTTAAGCCGGGGAAAGAGTTTCGAAAAACCGGGGACGGTGTATTTGAAATCGACCCCCGCTCTGAAAGAGATTACATAAACCTGTTAGGATGGCTTATAGAAGAAGAGAAGTCAGATATACGGGAAGCGGTGCATTTATGGTCAGACATGCCGTTTGAAAAGACTGAGAGAGCGATTCGTGAACAATGCGACAGCGGAGTCTATTCTTTGTTTTTACTGCAACAGGCGCTCTTCAAAAATAACTGCCGCAAACCGATCAAGCTGTTATACGGATATTTTTCGCATCTTTCTGGAGAACAGCCTCTTTACGCGGCGGCAAGCGGATTTTTGCGGACATTGCAGCTGGAAAATCCGTTAATCTCAGCAAAAAGCATTGAATTGGAGCAGTCAATAGCAGCCGTTCACGCGGCTGATATCATACGCAATGAGCTGAGTGATTTCCAGCCTTCAGATGTAGAGATCCGTTATAAAGACATGCAGCGTTATGTTAAACAGCTCAAAACGTATGAACCCGAAAAAAATTCCGGAAGCGGAGATGTGCCGCTGAGAGAAAATGGAGTATATATTATCGCAGGAGGCGCGGGCGGATTAGGATTTACCTTTGCAGAATATTTGGCTTTTCAAACAAAATGCTGCCTTGTTTTAACGGGGAGATCTCCGCTTTCAGATCATATAAGAAAACAGCTGAGACGATTAGAGGATGCCGGTTCTTCAGCTGTTTATGTTCAGGCTGATATTACCAATAAGGAAGAAGCCGAATATGTAGTCAAAAAAGCCAAAACTTCTTATGGAAAAGTAAACGGGGTCATTCAGGGCGCGGGAATCATCCGTGATTCTTTCCTTCTTAACAAGTCACGAGAGGAATTCGATCAGGTAATCAGACCGAAAGTATTGGGTACGATGTGGCTGAATGATGCTGTTGAGAAAGAAAATCCTGACTTTTTCATTTGCTTCTCCTCTACTTCCGCAGTGTTGGGAAATGTCGGGCAATCTGATTACGCGTTCGGAAACAGTTATATGGATCATTTCATGAATATGCGTTCTGCCCAGGATTCTGATACGATTTCTCTCTCTCTGAACTGGCCGCTGTGGAAAGAAGTCGGCATGCAAGTGGATGAGCGCACGGTAGAGACAATGAAAAAGGCGGGTTTTTATCCTTTAGAAAAAGAAGAAGGTAAAGAAGCGTTTGCAGTCGCATTGTCCTCCGGTTTTTCGCAATTTACTGTATTTTACGGAGATGAGCAAATTGACAATCATGTTCATCAATTATATGAACGAAAAGACAATATTCAGGCAGATGAAGGAACAGGGAGAAATATCGAATCATTTGATTCAGAGAAACTGACAGCTGAAACATCTGATTTTATTATAAAAATGATTGCTGCAGAATTCAGGATGCCTGCGGACAAAATAGATGCAGAAGAGGCATTGGAAAAATACGGACTTGATTCCGTTATGATTATCAATATGACGAATGAGCTTGAAAAACATTTCGGCGCGCTCTCAAAAACGCTGTTATTCGAATATCAGACTGCGGCAGAATTGTCACAGTATTTCGTTGAGGAGCACAGGGATACTCTTCTTCATAAACTCCGGTTAGGAGAAAACAGGAGCAGCACCCCATCTCAGAAGAAAAAAGACAATAAACAGACAGCCGAAGTTAACGGGAAACAGAAAATCCAGATGAAAAATCAGGTGCAGCAGCAGGAGAAGTATCATGACAATGATATCGCGATTATCGGTATCAGCGGACGTTACCCGATGGCAAATGATCTTGATACTCTGTGGGAAAACTTATTGAACGGTAAAGACTGTATAACTGAGATACCTAAGGATCGGTGGGATTCGGGGCTGCACTATCAGCCCGCAGCGGGCGATGAAGTAAAAAACCAAAGCAAATGGGGGGGATTTATTGACGATGTGTATCATTTTGATCCGTTGTTCTTTAATATTTCTCCTGCCGAAGCTGAATTAATTGATCCGCAGGAGAGACTGTTTTTAGAGACGGTTTGGCACACCATAGAAGATGCGGGGTACGCAAAGAAAACGCTTGAAAGAAAAAACGTCGGTGTTTTTGCAGGGGTTATGTACGGCCAATATCAGCTGTACAGCGTTGGTCACGAAGCGGCCGTTTCTTCCTCATATGCATCAATCGCCAACCGGGTATCCTACTTCTTTAATTTCAGCGGGCCAAGTATTGCTTTGGACACGATGTGTTCCTCATCATTAACGGCTGTTCATTTTGCCTGTGAAAGTTTAATCAGGAATGAATGTGAAATTGCAATTGCAGGAGGCGTCAATTTATCCATTCATCCTCATAAATATGAACTCCTGACTCAAGGCGGATTTTTATCCAGTGATGGCCGGTGCAGAAGCTTCGGTTCAGGAGGAGACGGCTATGTGCCGGGAGAAGGGACAGGTGCCGTGCTGCTGAAACCCGTAAAAAAGGCTATTGCCGACGGTGATCAGATTTATTCAGTGATTAAGGCAACAGCCATCAACCACGGTGCTAAGACGAATGGATATACCGTGCCGAATCCCAAAGCTCAAAGTGAGGTCATTACGAGAGCCTTAAAAAAAGGATTTATTGATCCAAACAGCATCAGCTATATAGAGGCTCACGGAACAGGCACCGCGTTAGGAGATCCGATTGAAATCACCGGTCTGACCAAAGCATTTTCAGGTGCCGAACGCGATAAGAAGACATGCGCGATCGGGTCGATTAAATCAAATATCGGACATCTTGAGGCTGCTGCAGGCATAGCGGGCATTACGAAAGTTATTCTTCAAATGAAACATAAAACAATTGTTCCGTCACTGACTCATTCTGCTGAATTGAATGAAAATATACCGTTTCAAAAAACACCTTTTTATGTACCGGACAGTGCCGAAAAATGGGAGTCATCCGTTCCCAGGCGTGCCGGAATCAGTTCTTTCGGGGCAGGAGGAGCTAATGCCCATGTTATTTTAGAAGAATTTGCGGATGAAGCTATCTCTCCTCTCGCGGCTGAAGAACCTGAACAGCTTTTATTTGTTTTTTCTGCAAAAAATGCCGACAGGCTGGCAGAATATGCAAAACGCGCAAAAGAACATATAGCAGCCAGAGATTATCCATTAGAAACACTTAGAAATACAGCATTTACTTTACAAACCGGCAGAGAAGAAATGCCGCACAGATTGGCTGTTATCGCCTCCACAAGAGATGAATTGCTTAAAGGACTGACAGACTATACCCTCGGAAACGCGATGGATCATATTTTTACAAGCGGCAAAGACACAACAGAAGCAAAAAGGATGAACAAAGCTGAGATTGAAGAAGCAGCCGCAAACAGGGATCTTGTGAAGATTGCTGAATACTGGGTTGCCGGAAACGGGGTAGATTGGCCGTCACTTTATAAAGGTGCCACTCTGAGACGGGTATCAGCACCCGGATATCCATTTGCCAAAGAGCTATGCAGAATAGATGCGCAAAATACGGGAAGCCGCCGGATGAACGGTAATAACGATCTGCATCCTTACATTTCATGCAATATATCTGATTTTAAAGCACAGAAGTTTCTTATCAATGTAAGCGATACCGATTTGTATATAAAAACAAAGTATCAAGACAAGGAAATGTTTCCGTTTCTCAGCCAGATTGAAATGGCGAGAGCTGCCGGAGCAATGGCTTCAGGGAATCCGATTATTAAATTAACAGAGCTCTCCTTTAGAGAACCGATGTTACAAAGCGGAAGCAATGAGCAGATCCGGATTGTATTAACCCCGGATAATCAGGGTGCATCGTATTCTATAGAAAAACAGAGCGACTCATCCATTTATTCCTCAGGGCGGCTCGAATTAGAAGGCGGGGCGTACGAGAACGGAAATATTCATCTTGAGCCGTTCCTGTCTCAGCGCGCAGACCGCATACCGTATGAAGCGTTTTATCAGCGGCTTGCCGAATTCGGATACAGCTGCAGTGACAGTCTGAAAGCCGCAGAGCACTGCGTCAGCAGGAACGGACAGGTACTTTTAAAGATAAAAGCAAAGGCCGGGCCGAAAGGGTGCATAATCAAACCGGAAGTTATTGAGAGCGTATATCAAGCCGTCATATACCTTGCGGGGGAAAATGCCGGCGAGCTCCCGGAAAACATTAAAGAATGTAAGATTTTTGATCATGAGACTGAACCCGTTTATGTATATGCAGAACAAACTGAAGAAAGCGATTCGGCTTATGATGTGTATGTATTAGACAATGCCGGCGGGATTTTGATGGAACTGAGCGGGCTGGTTTTTGGCGGAAAGCCTAATAAAAATGTACGTTTTTATGAGCATAAGTGGGATCAAAAAAAACCTCTGATTAAAATGAAAGATAGGGAGCCAAAAACAATTCTGGTCTTTGCAAAAGATGAAGCATTGGCTGGAGCTCTGAAAAATCAATCAGACAGCCGTGTCATTCTCGTCACGCCGGATCAGCGGCAGACCGATCAAAATCTGCTGACATTCCGTGTAAACCCGGAAGTGACGTCAGATTACATTCGTTTATTCGAAGAATTGGAGAAAAAGGGGTTTTCTCCTGATGTCATCTTGCACACGGGAGAAACATTTTACGCGGGTGACCGCCTTCTCAGCGGCCTGGAATCAATTTTTTATTTATTAAAAGCGCTGAACGCCCGCAGTGACGCCTCTCTTTATCTTCATTCTCTGCTTCTTGTTCACTCTTTTAAAGAAGGCGTGAATGATCCGTATACGGGCGCTCTTGCAGGCTGTTTAAAAACGGCAAATATGTTGGTGCCATCCGCAGAGAATGTGAAGTCAATCGGTTTTTCAGAACGTATATCAATTGAAAAAATGGCTGAATTTTGTCTTAACGAAATGGTTTCAGGCGTGGAACGGCAGGCGGAAGAAGTTAAATATATAAATGACAAGAGGTATGTTAAGACATTAAAGGAGTATGTATTCAATCATACAGAGCACTCTCATCAGCTGAAACAGAAAGGGATTTACCTCATAACGGGCGGTTTGGGCGGTCTGGGCCTGATTTTTGCAAAATATTTAGCCTCTCAGTATCAAGCAAAATTAGTATTGACGGGAAGGTCACCGTTAACAGCTGATAAACGACATAACATTGACCGGCTGCAGGCGCTTGGAGGAGATGCGGTATATTATCAAGCTGATGCCGCAGATCAAAAGACGATGGGACGGGTCATAGAAGAAACGAAACGGACTTGGGGCTCCATTCAAGGTATTATTCATTCAGCTGGTCATGCCGATGATCGGTTATTTACAGAGATGAATCTGACTGATTTTTCAGAAGGCATGACTGCTAAAATTGAAGGAACGGTATGCTTAGATGAATTAACGAAAGATGAGCCGCTTGATTTCTTTATCGTATTTTCTTCTATTTCTTCGGTCTTCGGAGATTTTGGACAGGTTAACTATGCGTTGGGCAATTATTTTCAAGATCAATATATAAATTGGAGATCCGAACAGAGCCGCCGGCAAGAGAGACAAGGCAAGAGCATTTCGATTAACTGGCCGTTGTGGCGTAAAGGCGGAATGCATTTAAACAAAGAAGCTGAAGAAGCATATCTTTCCGCATCCGGGTTTGATTATTTGGAAACGGAAGAAGGGATAGCGGCTTTTGAGACGATTTTGGCAAGTGACTGTCCGCAAATTTCGGTTGTTACCGGGGATGCCGGAACAACACCAGCAAAAAAAGATCTGCCGTATCAAAAAGTAAATACGCTTCCGGTTCGTCAAGAGGAAATTTCTTATACAGCACCGGCTTATACAGACAATGTCCTGGAAGAACTGAAGCAAATGGTATCGGAATTATTGAAAATTAACATTGAACAGCTGGATACGGCAGAGAATTTCGGCAATCTCGGCTTTGATTCTATCAGTTTGAAAACATTAGCTGTCCGACTGAATAAAAAATACAAGCTTAAGCTGACACCTGCCGTTTTCTTTACTTACAGCCATATTAAGTCTCTTTCAGAATTTCTAAACAGTGAACTGCGTACTGTTGCAAAAGGGAATACAGATGCAGAAAAAAACATTTCTGAAAAAAGGAAAGTAGTGCACGCTGGGAAAACCACCGGGAAAACCGTGAAGCCGCCGCGAAGTTTTCCGTTTGAAAAAAAGACAACAAGACAGGCTGACCATCATCCAGAGAGGCAGCCAGTTGCCATTATCGGGATGAGTTGTGTTTTTCCGGGATCAAAAAATGCAGATGAGTTTTGGATCAATTTAATCAATGAAAAAGATTTGATTCAGGAAATTCCCCCGGATCGCTGGGATTGGAAAAAATACGCCGAAGGCAAAGGAAGCAGCGAAGTACATTCGAAATGGGGCGGCTTTATCACAGATGCCGATAAATTCGATGAGGCGTTTTTCAATATTAATCCGCGGGAAGCAGAACTCATGGATCCTCAGCACAGAATTTATTTGCAGGAAACCTGGAAAGCGATAGAAGATGCGGGTTACAAAGCTTCAAAGCTGTCTGGCAAAAATATCGGGGTGTTTACGGGCATTCAATTTAATGATTACCGCCAGCTGCTGATGAGGCATTCGGACGGGGCGCACGCGTTTGCGGGAACCGGAAACAGCCAGGCGCTCATCAGCAATCGTGTATCCCACTATTTTAATTTCAGAGGTCCGAGTGAGTCCATTGATACAGCCTGCTCAAGCAGTCTTGCAGCAATCCACAGAGCTGTGCGCTCGATTCAAAATGGTGAAAGTGAGCTGGCGGTAGCAGGCGGGGTTTCGCTGCTCTTAGATCCAGTCACGCATATGTATACTGATAAACTCGGTATTTTGTCTAGGGACGGCCGGTGTAAGACGTTTGATAAACTTGCCGACGGTTATGTCCGCGGTGAAGGTGCAGCTGTTCTGTTATTGAAACCATTGCAAGCGGCAATGAATGACAGAGACAATATTTACGGAGTCCTGAGAGGAACCGGAGAAAATCACGGAGGAAGATCTGCTTCATTGACCGCTCCGAACCCGGAAGCTCAGGCTGAACTGTTAACGTCTGTTTACAAAAATGCCGGTATTCCTGTTGATACGATATCTTATATTGAAGCACACGGAACCGGGACAGAACTGGGAGATCCGATTGAGATTGAAGGCTTGAAAAAAGCGTTTGGATCTTTTGAGCCGCGTTCAGGAAAGAATAATGACCAATATTGCGGCATCGGTTCAGTAAAAACGAATATCGGTCATTTAGAGCCCGCCTCTGGAATGCCGGGGCTGATTAAAGTATTACTATCCATGAAGTATAAAACATTGCCTGCCACACTACATGTCAAGGAACTGAACCCTTATATTCAATTAAGCGGAACGCCGTTTCATATTGTCACTAAAACAATAAAGTGGGCCAGATTAAAAGATCGAAAAGGAAATGAAATTCCGCGCCGTGCCGGAGTCAGTTCCTTCGGATTCGGCGGGGCAAATGCTCATGTCATCGTGGAAGAATTTGAATACGGCCAAGATAAAGCAGTAACTGCCGAGCGGGAACAAATCATTGTTCTATCGGCCAAAACAAAGGAAAGGCTGATGGTTAAAGCCAAAGAGTTAACAACATTTTTACATGAAGAACGATCAGTTCAATTCAGTCAGCAAGAGGTGCAGGAACGTGATTTACAAGAGGCGGTTCGGGAAGCGGCAGCGGGTATCCTGCGTTTAGATACCGCAGATATAGATGCAAAGACACCTCTTTCGGAATTCGGATTTGATCCGTTGGCTTATTCCGAATTAATCTCTTTTATAAACCAAATGTACGGCACAGAAATATCACTTGACATATTTCAGGAATTAAAGACACTGAGCGAGCTGTGCCGCTATATCAGCCGCATCCGGAATCGATCAGCTGATAAACCGCATAACGGCAATTTTAGAGAAAAGTCCGGATTCGGTCTTGAAGAAATAGCATATACGCTGCAAACCGGAAGGGAACCATTTGAATGCCGCCTTGCGATCACTTGCTCGAATACCGGAGATCTTCTTGAAAAATTAAACGGTTACATCCAGGGGAGCAGGCTGCAAGGTGTTTATGAAGGAAATGTAACGGATTTTGATAGTCTGTACGCTCCTTTATTCGGCGGCCCCGAAGGTCATGCATATGTTCAATCACTAATTCAGCAAAACAAGCCGGCCAAACTGGCTCAGTTGTGGACGATCGGTTGTGAAATCAGCTGGGAAGACTTGTATGAGGAGGAACTCAAACCGGTTAAACTGTCTCTTCCTCTTTATCCTTTCAGCAAGAACAGACATTGGATTCATTTAAATAAAGATGAAGCGCAGAAGGCTGAGGCTTTCTCGAACACTGAGCTTCACAACTCAAATAAAGATACAGCAGATGGAGAAATCATGTCGCTTCTTGAAAAAGCACAAACAGGTGAGATGAATACGAAAGAGACGTCAGAGCTGATAGAGGAGTTGCTTTTCCATGAATGA	MKEARHIRKKVLSDIESGIISLEEGVKRIQQLGSHSAGGNGQAIYYQTVWQRTDLSIHVKGGRREGSLLLFDKNEIVRNELAALHDTRVILVKPGKEFRKTGDGVFEIDPRSERDYINLLGWLIEEEKSDIREAVHLWSDMPFEKTERAIREQCDSGVYSLFLLQQALFKNNCRKPIKLLYGYFSHLSGEQPLYAAASGFLRTLQLENPLISAKSIELEQSIAAVHAADIIRNELSDFQPSDVEIRYKDMQRYVKQLKTYEPEKNSGSGDVPLRENGVYIIAGGAGGLGFTFAEYLAFQTKCCLVLTGRSPLSDHIRKQLRRLEDAGSSAVYVQADITNKEEAEYVVKKAKTSYGKVNGVIQGAGIIRDSFLLNKSREEFDQVIRPKVLGTMWLNDAVEKENPDFFICFSSTSAVLGNVGQSDYAFGNSYMDHFMNMRSAQDSDTISLSLNWPLWKEVGMQVDERTVETMKKAGFYPLEKEEGKEAFAVALSSGFSQFTVFYGDEQIDNHVHQLYERKDNIQADEGTGRNIESFDSEKLTAETSDFIIKMIAAEFRMPADKIDAEEALEKYGLDSVMIINMTNELEKHFGALSKTLLFEYQTAAELSQYFVEEHRDTLLHKLRLGENRSSTPSQKKKDNKQTAEVNGKQKIQMKNQVQQQEKYHDNDIAIIGISGRYPMANDLDTLWENLLNGKDCITEIPKDRWDSGLHYQPAAGDEVKNQSKWGGFIDDVYHFDPLFFNISPAEAELIDPQERLFLETVWHTIEDAGYAKKTLERKNVGVFAGVMYGQYQLYSVGHEAAVSSSYASIANRVSYFFNFSGPSIALDTMCSSSLTAVHFACESLIRNECEIAIAGGVNLSIHPHKYELLTQGGFLSSDGRCRSFGSGGDGYVPGEGTGAVLLKPVKKAIADGDQIYSVIKATAINHGAKTNGYTVPNPKAQSEVITRALKKGFIDPNSISYIEAHGTGTALGDPIEITGLTKAFSGAERDKKTCAIGSIKSNIGHLEAAAGIAGITKVILQMKHKTIVPSLTHSAELNENIPFQKTPFYVPDSAEKWESSVPRRAGISSFGAGGANAHVILEEFADEAISPLAAEEPEQLLFVFSAKNADRLAEYAKRAKEHIAARDYPLETLRNTAFTLQTGREEMPHRLAVIASTRDELLKGLTDYTLGNAMDHIFTSGKDTTEAKRMNKAEIEEAAANRDLVKIAEYWVAGNGVDWPSLYKGATLRRVSAPGYPFAKELCRIDAQNTGSRRMNGNNDLHPYISCNISDFKAQKFLINVSDTDLYIKTKYQDKEMFPFLSQIEMARAAGAMASGNPIIKLTELSFREPMLQSGSNEQIRIVLTPDNQGASYSIEKQSDSSIYSSGRLELEGGAYENGNIHLEPFLSQRADRIPYEAFYQRLAEFGYSCSDSLKAAEHCVSRNGQVLLKIKAKAGPKGCIIKPEVIESVYQAVIYLAGENAGELPENIKECKIFDHETEPVYVYAEQTEESDSAYDVYVLDNAGGILMELSGLVFGGKPNKNVRFYEHKWDQKKPLIKMKDREPKTILVFAKDEALAGALKNQSDSRVILVTPDQRQTDQNLLTFRVNPEVTSDYIRLFEELEKKGFSPDVILHTGETFYAGDRLLSGLESIFYLLKALNARSDASLYLHSLLLVHSFKEGVNDPYTGALAGCLKTANMLVPSAENVKSIGFSERISIEKMAEFCLNEMVSGVERQAEEVKYINDKRYVKTLKEYVFNHTEHSHQLKQKGIYLITGGLGGLGLIFAKYLASQYQAKLVLTGRSPLTADKRHNIDRLQALGGDAVYYQADAADQKTMGRVIEETKRTWGSIQGIIHSAGHADDRLFTEMNLTDFSEGMTAKIEGTVCLDELTKDEPLDFFIVFSSISSVFGDFGQVNYALGNYFQDQYINWRSEQSRRQERQGKSISINWPLWRKGGMHLNKEAEEAYLSASGFDYLETEEGIAAFETILASDCPQISVVTGDAGTTPAKKDLPYQKVNTLPVRQEEISYTAPAYTDNVLEELKQMVSELLKINIEQLDTAENFGNLGFDSISLKTLAVRLNKKYKLKLTPAVFFTYSHIKSLSEFLNSELRTVAKGNTDAEKNISEKRKVVHAGKTTGKTVKPPRSFPFEKKTTRQADHHPERQPVAIIGMSCVFPGSKNADEFWINLINEKDLIQEIPPDRWDWKKYAEGKGSSEVHSKWGGFITDADKFDEAFFNINPREAELMDPQHRIYLQETWKAIEDAGYKASKLSGKNIGVFTGIQFNDYRQLLMRHSDGAHAFAGTGNSQALISNRVSHYFNFRGPSESIDTACSSSLAAIHRAVRSIQNGESELAVAGGVSLLLDPVTHMYTDKLGILSRDGRCKTFDKLADGYVRGEGAAVLLLKPLQAAMNDRDNIYGVLRGTGENHGGRSASLTAPNPEAQAELLTSVYKNAGIPVDTISYIEAHGTGTELGDPIEIEGLKKAFGSFEPRSGKNNDQYCGIGSVKTNIGHLEPASGMPGLIKVLLSMKYKTLPATLHVKELNPYIQLSGTPFHIVTKTIKWARLKDRKGNEIPRRAGVSSFGFGGANAHVIVEEFEYGQDKAVTAEREQIIVLSAKTKERLMVKAKELTTFLHEERSVQFSQQEVQERDLQEAVREAAAGILRLDTADIDAKTPLSEFGFDPLAYSELISFINQMYGTEISLDIFQELKTLSELCRYISRIRNRSADKPHNGNFREKSGFGLEEIAYTLQTGREPFECRLAITCSNTGDLLEKLNGYIQGSRLQGVYEGNVTDFDSLYAPLFGGPEGHAYVQSLIQQNKPAKLAQLWTIGCEISWEDLYEEELKPVKLSLPLYPFSKNRHWIHLNKDEAQKAEAFSNTELHNSNKDTADGEIMSLLEKAQTGEMNTKETSELIEELLFHE	PGPT0010165_231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|MACROLACTIN|DIFFICIDIN_METABOLISM,PGPT0010165-baeN|pksN|mlnB|mlnD|dfnG-K13614	NA	NA
D1-12_00624	7005	acpP_1		Acyl carrier protein	ATGAATGAAAAAACGATGCAAATTGAGCAAATCGTGAAAAAGGTGAAAGAACGCAGCCTGACGCCTGAAGAAGGGCTGGAATTCATTAAGAGCTTGGGGAAAACCCATCTATATGAAATGGTATGGGATAGACATGAATTTAAAGGCAGTGAAAAATTCCCGCATACGAAAGAGCCAATTTTATTTTTTTGCGAAGACGACAGCATGTATACCGTAATGAAGAGGCAGCTTGAAGGCTATGAGGCACCTTTCATTTACGTGACTTCCGGCGAGCGTTTCGAAGATTGCCGGAACGGTCGTTTTACAATGAACTTTACAAAAGGTGAGGATTATGATGCGTTATGCGGGGTTCTGCGTTCTCAAAATATAAGACCCCGCCACATTATTCATTTTTTAGCTGCCGGGCTCTTCAAAAATACGGAAGATGCAATGAGAAAGCAGCTCAATGAAAGTCTGTATTCCTTGTTTCAAATGTTTCAGGCCTTCATGGCGAACAAACTTTGTCCAAAAGCTGAGATTTTGTACCTGTATGAAAATACCGAGGGCGAGGTTCAGCCGATTTATAACGCGGTTGAAAGTTTTCTTAAGACCGTACAGGCCGAAAATCCGAATTTCACATGTAAGGCTGCAGAGCTGAAATCAATGTTTGACGAGCCGTTTACAAAGCAGCATGTTGCAGATGTCATCTCTTTTGAATGGAACAATCAATGTAAGACGAACCACTTTACCTGCTATGAGCCGAGGCATTATTATAAAAGGCAGCTTCAAAGAGTAAAAAAAGAAGATGGGGAGAAACATAGTTTCAGTGTAAAAAAGAACGGTGTGTATTTAATTACGGGAGGAGCCGGCGGTCTTGGGTATCTGTTTGCTGAATATCTGGCGAAACAGGCAGAAGTCAAGCTGGTATTAACCGGGCGTTCCCCGGCCTCCAGTGAAACGGCGCAAAAATTGAGCGCTCTTGAAAATCTTGGCGCTGAAGCCTTATATGTCCCGGCAGATATTTCAAAGGAAAAAGAGACGGACGCTTTGATTAAGCACATTAAGCAGACATTCGGAGAATTAAACGGAATTTTGCACAGTGCCGGACTTGTTAAGGATGCATTTATCATAAAAAAAACGAAAGAAAGCATAGAAGAAGTTATAGCGCCTAAAGTATTCGGAACCGTTTGGCTGGATAAAGCAGCTGAAGAAGAGCCTCTTGATTTCTTCGTTATGTTTTCATCCCTTTCGGCCGTTCTGCCTAATGCGGGTCAAAGCGACTACGCCTTCGCTAACGGATGTATGGATGGATTCACTCAGTATCGAAGCATTAAAGGACGTCCCGGGAAAACACTTTCTATTAATTGGCCGTTATGGGATGCGGGTAATATGACAGTCGGGCCGGGAGAGCTGCAAGCTTTAAGACATGCAGGGCTGGAACTTTTATCCGCCCAAGCAGGACTTGCCGCTTTTCAGGACAGTATGAGCCGCTCTGCTTCTCAGCTGGCTGTTATCAGCGGAGACAAAGATAGAATAAGTGAATTACTCTCAACTGACCATAAAAAGATAGAGACTGTGCCTGAAAACAACAGTAATCTGCCGCAATTAAACGAAAAAGATCTGAAAAAGCAAACGGTCCGTCTTTTGACAGAGATTGTCGGTGCGGAAACGGGAAGACCGGCGGACAGTATTTTACCCGAGGATACGTTTGACCGTTACGGAATTGATTCTCTAACGATTTTAGGTCTTAACTCCCGTCTGGAAAAATATTTTGGAAGAGTGTCTAAGACTCTTTTCTTTGAATACAGCAGTGTTGAAGAGCTGTCAGAGTATTTTCTTGAACACTATCATCATGAGTTGAAGAAGGCGTTTTTACCGGCAGCCAGACAGCGAATTGATCATTCGGCGCCGGCGAAACGGGAGAAGCTTTCCGTTTCCCGCATACCATCCGCACCTTCCGAGGAAGATATTGCAATTATCGGTATAGCCGGCCGCTACCCGATGGCGAAGGATGTGGAACAGTTTTGGGAAAATATTTCTTCCGGAAAAGATTGTATAACGGAAATACCGAAAGAGCGCTGGGATTTTCGGAAATATTATCACACAGGTGACAATGCCCGTCATGACAGCAAATGGGGAGGTTTTATAAAAGACGCTGATAAATTCGATCCGCTGTTCTTCTCAATTTCGCCCCGTGATGCCGAGTTAATTGATCCTCAGGAACGGTTATTTTTAGAGACAGCGTGGCACACGTTTGAAGATGCGGGTTACACAAAGAAAAAGTTGAAACGGCATAAGACAGGTGTATTTGTCGGCGTCACCTACAGCCACTATCAGTTATTTGCAGCCGGTGCTTCAGATGATGAGGAACGTCAGGCGCTCCTGTCTTCTTATTCGTCTATCGCAAACCGGGTGTCATATTTCTTTGACCTGCACGGACCCAGCCTTGCAATTGATACAATGTGTTCTTCTTCACTTTCTGCTGTTCATTTTGCATGTGAAAGTATAAAAAGGGGAGAATCCACCCTCGCTATTGCCGGAGGAGTGAATTTATCCTTACACCCTGATAAATATACTTTGCTTTCACAAAATCATTTTGTTTCAAGCGATGGGCGCTGCAGAAGCTTTGGAGCGGGAGGAGACGGATATGTGCCGGGAGAAGGAGTCGGGGCCGTTCTTTTGAAATCGCTTTCTGCCGCGAAGGCTGACGGGGACAGGATTTACGGTGTGATTAAGGGAACATCTGTAAATCACGGCGGAAAAACAAACGGATACACTGTGCCAAATCCGGGCGAGCAGGCAAACGTCATCAGTGAAACTCTTGATAAGGCGGGGATTGATGCAGACAGCATAAGTTATATTGAAGCGCATGGCACCGGGACATCTTTGGGAGACCCGATTGAAATTTCAGGATTAACCAAAGCTTTGCACAGCTCGAAAAGCGATTATCGTTGTGCAATTGGTTCGGTTAAGTCAAATATCGGACACCTAGAGGCTGCGGCGGGAATTGCTTCTATTACAAAAGTGCTGATGCAAATGAAATATAAACAGCTTGCTCCTTCCCTTCATTCCGATCACTTAAATCCTAATATTGATTTTGAGGAAACACCGTTTTACGTGCAGTCTGAACTGACCGATTGGGAGACGCCGCAAAATCAAGCCAGAAGGTCAGGCATCAGTTCTTTCGGCGCTGGAGGATCTAATGCCCACATTATCATCGAAGAGTATAAGAATGAAGAAAAGGTGGAAACGGTAAAGAGCAACAAGACGCAAATTATTCTGCTTTCTGCCAAAAATGAAGAACGGCTCAGACTCTTGATTGATGCATATATAAAAGAACTCGAGCCAAAAACGTCACTAGCTGATGCTGCGTACACCTCGCAGACCGGGAGAAACGCTATGGAAGAGCGGCTCGCTGTTGAGGTTAGCAGCATTGACGATCTTCGCAATAAGCTGACGATGTATTTGCGGTCAGATCATAAGTTAAACGGTTTATATAGGGGAAAGGCCCGCCGAGGCACCGGTCAAAAGGATGCCCTGTCAGCCGCTCACTTTAATAGTGCAAGAGAAATGGCCATTCACTGGGTGAACGGAGGAGACGTTCAATGGGAAGAGATGTACACTTCGGAATTACCGAAGCTTATCTCTCTTCCTGCATATCCTTTTGAACGGAACAGATATTGGGTGCCTGCCGCAAAAGCAGCACAGAAACAGAAAAAAACAGGCGTACCGCAGAGTTTGCCCCATGCACCGACTGACTTATCATTTGATGTATTAAAAAAATCGTGGAAAAAACAAAAGGCTGCGCCTTCCGCTTTTACGAAAGGACAGGTGATGATCCTGGCTAATAGTGAAAGTGAGCGGCTTGCATTCGAATTGTTTGATTCAGACCCTATGATTGAAGCCGCTGTCATTTGCGCAGATAACTGGGATCATTCGGATGGGGAAGCCAAAAAAACGGCTCTAGCGGTCATAGAAGAAAATCCGGAAATCATCGGCATGATTGACCTGTCAGATTTGCGGAGTGATCAAAACGGGGCACGCACCGGCACAATCGGGAAGCTGACACTGCTGCAGGAAATCATAAAGACACGTAAACAGCTTTTCGTTTTACATGTGACCAGAGGGCTGCAGACATTTCTGAATGACAAGCCGTCGTTAGCCGGAGCCGAAACAGCCGGACTATATAAAATGCTGAGTGCGGAGTATCAAAAGATAAAATCAAAAACAATAGATGTAGACGGACATGTCGGGACTGCGGCGGAATTGAGACAGGTAATCACAGATGAAGCTTGCGCTGACGGGCTGTATAGTGAAATCTGCTATCGGAACGGTGAACGTTATATTCCATACGTCGAGAAATTACATGCAGCGGAAATAAACCGGAAACTATCCGGTCTGCCAGTATGCCGTACGGATCAAACCCTGGTTATTACAGGGGGAACAAGAGGGATCGGAGCAGAACTTGCCAGACATTATGCCGGCAAGGGAGTCAAAAAACTTGTGTTGATGGGAGTAACCGACCTTCCGGAATCTGATAAAATAGCCGGCATGTTAAAAGACACCGATGAAAAGTCACCTCTTTATTCGAAATTACAACTGCTGCATGAGTTGGATCAAAAGGGAGTTCAAGTAGAAGTGTATTCCGGGCCGCTCACGGAAAAAGAAAAATTACAACGCTTCTTTTCAGAGGTGAGACTGAAGTTCGGCAAAATCGGCGGGGTGATTCATTGCGCTGGTGCAGCCAATCATTCGAATCCGGCTTTTATTCATAAATCTGATAAAGAAATAAGAGAAGTATTTGAGCCAAAGGTGCAGGGGATGCAGGTACTTCATGACATTTTTATTGATGACGAACTTGATTTCTTCATTTTGTTTTCATCTGTTGCGAGCGCTTTTCCTTTATTAGGCGCCGGAACAAGTGACTATGCCGCAGCGAACGCTTTTATGGATTACTTTGCGGCGTATCAGCATGCAGCCGGCAGAACGTATTATCAATCAATTAACTGGCCGAGCTGGAAGGACATTGGGATGGGCGAGGTGACAAGTCCATCATATCAGGCACTTGGTTTACTATCTCACTCAACAGAAACAGGTATTGCCATGCTGGATGAAATGATGACGATAAACGGATACCCCTGCCTTATACCGGCAAAGACACATCCGGAGAAATTCATGCTGCAGCAGCTGCTTCAGACAAGAATTCAAGCTGCTAAAAATAACCCGGATGCTGAGGAAAAAGTGATTTCTGGTCAGGGAGACAATGAATCCATTATCAGGAAGTTAATGGAGATCTTTTCCGCAGAGCTGAAAATACCTTACGGGAATTTAGATCAGGATACGTCTTTTGCGGATTACGGAGTTGATTCAATCTTACTGGTTCAGCTTGTCAAAAAAGCGGAAGATGTATTTCAAATAAAAATTGAACCTTCAGCTTTTCTGGAGTATCCGAGTTTTTCACAACTGGGTGTCTATTTGAACGAGTTATTTGCAAGTGAGGGGATCAGTCCTCAAATTGATTCGGAAAACATTGAGGTTCGGAAAAAAGAGCAACATATAAATCAAAATGCTTCCGAAATACGGGACAACGGATCACAAATACAACAAACCAGTCTGAACCAAATCGCTATTATCGGAATGGGCTGTGAGTTTCCGGATGCTCCGGATACAGAAACGTTCTGGACAAATTTGAAGAAAGGACAAAATAGTGTCCGCGAAGTCCCGGCGTCGCGATGGGATATTTCTTCATACTACTCTGACACCTATGAAAAGGGAAAAAGTATCAGTAAGTGGGGCGGATTTCTTCAAGATATTGAGTCTTTCGATCCCGCGTTTTTTAATATGAACAAAAGTGAGGCATCAGAGCTTGATCCGTTAATCAAAAAATGCCTTGAGGTCAGCGTCCAGACATTGAGAGACGGCGGCTATACAAAAGAAGAAGTATCAAACAAAGAAGTCGGCGTCTTCATCGGTTCGCGGACCGGGACGTTTATGTCCAAAATAGGTTCCCCTTCAAAAAATACGATCGTGGGTATAGGACAAAATTTCATAGGCGCGCATATCTCACACTTTTTTAATCTGAAAGGACCGAATCTGGTTGTAGACACGGCTTGTTCTTCTTCATTGGTCAGCGTCCATCTCGCTTGTCAAAGCCTGATGTCAAAAGAGTCAGATATGGCGATTGCGGGCGGGGTTGACATTTTGCTGGATCAAAAGCCTTACGTCATGCTGAGTGAGGCTCGGGCGCTTTCACCTGAAGGAAAATGTCATACATTTGATGAGAAGGCAGATGGATTTGTACCGGGAGAGGGATGCGGCGCAGTCCTTTTGAAAAGACTTGATGACGCCCTTGCCGAAGGTGACAGAATTTACGCGGTAATTGACTCATCCGCGGTTAATAATGACGGACAGACAATGGGAATGACAACACCTAATCCGAAAGCGCAAAGCGCAGTGATAAAAAAAGCCCTGAAAAAAGGCGGAATTGATGCAGATACTCTCAGTTATGTCGAGACGCATGGCACCGGTACGATGATAGGAGATCCGATTGAATTAAAAGCGCTGACTGAAGTGTTCCGGGAGGTTACGGAAGAAACGCAATTTTGCGGAGTAGGCAGCGTAAAAACGAATTTCGGACATTTAATGAGCGCAGCGGGGATAGCGAGTATTATAAAGGTTGCCTTATCCATAAAAAATCAGATGCTCCCGCCGACATTACATTGTAAAACGCCAAATCCGCGTTTTAAATTTGATCAGTCTCCATTCTTTCCGAACACGTCCTTAAAAGAATGGCGTCCCAGAAAAGGGGTTTTGAGAGCCGGAATCAGTTCTTTTGGATTCGGGGGCACGAACGCACATATGATATTGAGCGACAGCCATCTCACATTAGGATATGGAGAGACAAAAAGACACCCGCTTTCTCCGGTTATATTCAATAAGGAACAATGCTGGATCGACAATGGAGAAACTCCAGAAAAGGAAGAGTCAGAATTGCTGATTCCTTTACTTGATTTCAAAGAATTATAA	MNEKTMQIEQIVKKVKERSLTPEEGLEFIKSLGKTHLYEMVWDRHEFKGSEKFPHTKEPILFFCEDDSMYTVMKRQLEGYEAPFIYVTSGERFEDCRNGRFTMNFTKGEDYDALCGVLRSQNIRPRHIIHFLAAGLFKNTEDAMRKQLNESLYSLFQMFQAFMANKLCPKAEILYLYENTEGEVQPIYNAVESFLKTVQAENPNFTCKAAELKSMFDEPFTKQHVADVISFEWNNQCKTNHFTCYEPRHYYKRQLQRVKKEDGEKHSFSVKKNGVYLITGGAGGLGYLFAEYLAKQAEVKLVLTGRSPASSETAQKLSALENLGAEALYVPADISKEKETDALIKHIKQTFGELNGILHSAGLVKDAFIIKKTKESIEEVIAPKVFGTVWLDKAAEEEPLDFFVMFSSLSAVLPNAGQSDYAFANGCMDGFTQYRSIKGRPGKTLSINWPLWDAGNMTVGPGELQALRHAGLELLSAQAGLAAFQDSMSRSASQLAVISGDKDRISELLSTDHKKIETVPENNSNLPQLNEKDLKKQTVRLLTEIVGAETGRPADSILPEDTFDRYGIDSLTILGLNSRLEKYFGRVSKTLFFEYSSVEELSEYFLEHYHHELKKAFLPAARQRIDHSAPAKREKLSVSRIPSAPSEEDIAIIGIAGRYPMAKDVEQFWENISSGKDCITEIPKERWDFRKYYHTGDNARHDSKWGGFIKDADKFDPLFFSISPRDAELIDPQERLFLETAWHTFEDAGYTKKKLKRHKTGVFVGVTYSHYQLFAAGASDDEERQALLSSYSSIANRVSYFFDLHGPSLAIDTMCSSSLSAVHFACESIKRGESTLAIAGGVNLSLHPDKYTLLSQNHFVSSDGRCRSFGAGGDGYVPGEGVGAVLLKSLSAAKADGDRIYGVIKGTSVNHGGKTNGYTVPNPGEQANVISETLDKAGIDADSISYIEAHGTGTSLGDPIEISGLTKALHSSKSDYRCAIGSVKSNIGHLEAAAGIASITKVLMQMKYKQLAPSLHSDHLNPNIDFEETPFYVQSELTDWETPQNQARRSGISSFGAGGSNAHIIIEEYKNEEKVETVKSNKTQIILLSAKNEERLRLLIDAYIKELEPKTSLADAAYTSQTGRNAMEERLAVEVSSIDDLRNKLTMYLRSDHKLNGLYRGKARRGTGQKDALSAAHFNSAREMAIHWVNGGDVQWEEMYTSELPKLISLPAYPFERNRYWVPAAKAAQKQKKTGVPQSLPHAPTDLSFDVLKKSWKKQKAAPSAFTKGQVMILANSESERLAFELFDSDPMIEAAVICADNWDHSDGEAKKTALAVIEENPEIIGMIDLSDLRSDQNGARTGTIGKLTLLQEIIKTRKQLFVLHVTRGLQTFLNDKPSLAGAETAGLYKMLSAEYQKIKSKTIDVDGHVGTAAELRQVITDEACADGLYSEICYRNGERYIPYVEKLHAAEINRKLSGLPVCRTDQTLVITGGTRGIGAELARHYAGKGVKKLVLMGVTDLPESDKIAGMLKDTDEKSPLYSKLQLLHELDQKGVQVEVYSGPLTEKEKLQRFFSEVRLKFGKIGGVIHCAGAANHSNPAFIHKSDKEIREVFEPKVQGMQVLHDIFIDDELDFFILFSSVASAFPLLGAGTSDYAAANAFMDYFAAYQHAAGRTYYQSINWPSWKDIGMGEVTSPSYQALGLLSHSTETGIAMLDEMMTINGYPCLIPAKTHPEKFMLQQLLQTRIQAAKNNPDAEEKVISGQGDNESIIRKLMEIFSAELKIPYGNLDQDTSFADYGVDSILLVQLVKKAEDVFQIKIEPSAFLEYPSFSQLGVYLNELFASEGISPQIDSENIEVRKKEQHINQNASEIRDNGSQIQQTSLNQIAIIGMGCEFPDAPDTETFWTNLKKGQNSVREVPASRWDISSYYSDTYEKGKSISKWGGFLQDIESFDPAFFNMNKSEASELDPLIKKCLEVSVQTLRDGGYTKEEVSNKEVGVFIGSRTGTFMSKIGSPSKNTIVGIGQNFIGAHISHFFNLKGPNLVVDTACSSSLVSVHLACQSLMSKESDMAIAGGVDILLDQKPYVMLSEARALSPEGKCHTFDEKADGFVPGEGCGAVLLKRLDDALAEGDRIYAVIDSSAVNNDGQTMGMTTPNPKAQSAVIKKALKKGGIDADTLSYVETHGTGTMIGDPIELKALTEVFREVTEETQFCGVGSVKTNFGHLMSAAGIASIIKVALSIKNQMLPPTLHCKTPNPRFKFDQSPFFPNTSLKEWRPRKGVLRAGISSFGFGGTNAHMILSDSHLTLGYGETKRHPLSPVIFNKEQCWIDNGETPEKEESELLIPLLDFKEL	PGPT0010097_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-MACROLACTIN_METABOLISM,PGPT0010097-mlnE-NA	NA	NA
D1-12_00625	5712			hypothetical protein	GTGGCCAGTAATCAAAACTATCAGTTCACATTAACAATTAAACATACGGACTATATTGTCAGGGATCACCGGGTGCATGGCACCCGGATTATACCCGGTGTCACATTTTTAGATATGATATACCGTATGGCGCTGAGCAAAGGTTTGCCTATTGAAGAACTCGAGTGTCAGAATATTTTGTATTTGGAACCTGTAGCAACATCAGATACCTTTGACAGAGAAATCCGCATCCGTTTTCAGGGATTGGAACAGGGATGGGAAATTCAGGCGAAGAGCAGAAAAGTAAAAGATGACCGCATTCTGGATGAAAGCTGGGATGAGAATATGACCTGCAGGCTCATGCCGAAAATCCCGGAAAGCATGAGTTCAATCAATATTGATGAAATCAAACATGCCTCCGTCCGTGAAGCCGATATGGAGATATGTTATGACTATTTAAAAAAGGTCGATATAGAACATTTTGAATTTATGAAGAGTCTGGGGAAGGTTTATGCGTCTGACCATTCTGTACTTGCAGAGTTGACGCTCAGCCAAATTGCCAATCAATATACCGGCTATTTTCAATTGCATCCCACTTTTCTTGATGCGTCTACCATCATATCGATCCTTTATCAGGCATGTCCCGAATATTTTACTCAAGGATCTCCGGCAAGCCGGATGAAAACGTATATTCCCATTCATATTGAATCTTTCCGTATGACGAAGCGCCTGGAAGACAGGTGTTATGTGTACATAGAGAAGCAAGACCAAAATCATGATTCAGGGGATGTTATCCAAGTAAGTTACGGTTTATACGATGCACACGGGGAGATGATCGCTTATTTTACGCGGCTGTCTGTGAAACATATTCGCTCAAAAGATTTAATTGAAAACCTGAAGCAGACTCGTTTGGAAACTGAAGCGGCTTCTCAGCCAAAAGACAGCCTGATCAGAAAAGATTCAATCATAAATCGAAGCGAAAGCATCGAGACACACCTTAAAGAATTAATATCCGGGGTTTCAAATATAGATCTGCGTGACATAAGGACAGACATTGGTTTTTATGAACAGGGCCTGGATTCAGCTTCTTTGCTTGCCATTGTCAAAGAACTTGAAAACAAAACAGGGGAACAGCTGTATCCTACACTCCTGTTTGAGCAGAAAACGATCCGGGAACTCGCCGCGTATATTAGAGAAAATCAAAAAATGTCCAGTTATTTCTTAACGCGAAATCAACCGGCTGAAAAGCCTGACATGAAAGAAAGTAAGAACGAAAATCGTTCCGCTCTTATAACAGAAGGAGACATTCAGCAGCTGATCGCAGATATCAAAGGGACTGCCCCTGAAACACTCTCTGTGGTAAAAGGTTTTTATGAACAAGGTCTCGATTCCGTAACACTTATGCAAGCCGTAAAGGCATTGGAAGAGAAAACAGGCAGGGAACTGTACCCTACTTTATTGTTTGAGTATCCGACGATTCAAAAACTTGCAAACTATTTTGCAGAGAGCGGCGAAAAGACTTTCGTTGAAAAAGACCGCCCTCTTCATCATGGAGAGAATCATACGGCTCTGACCTATTTAACGCCGTATTGGAGACAAAAGACGGCCGCTTGGGACCCGCATTGCGGAAATAAAAAGAAAAGAACATGTCTGCTGTTTCAATATGACAGAGAGCTTTTTCATTTTATGCGGGAAAATGCTGAAGATGGATTCGAAAATACACAGATCATTCTCGTTTTATCAGGGAATCGTTTCTCCTATCACGGAGACGGTGTTTATGAGATAGATCACAGGGAGGAAGCTCACTTTGACAGGCTTGCAGCTGATCTGAAAAAAAGGGGGCAAATGCCCGACACCGTGGTTTACGGGTGGCCGGAAGGGTCATTTGCCGGCCCGGAAAAAATAAGTGAACAGCTTTCTAAGGGGGCTTACCCGCTATTCTTTTTCAGTCGGGCATTGATGCGCAGCAAGGCGGAAAAAAAGGTTGTATCGCTTTTCCTTTATCCAGCGGACCATAAAAATGATCAGCCGCTTTACGCTTCAGTCCATGGCGCAGGGCAGTCTATTTTGCTTGAGAACCCGAAACTGGCCCTTAAGACAATCGGGATATCAGTTTCAGACAAGTCATCGTTGCCGGAACTTACAGCTGAAATCATCAGAGTCGAATCTACGGAAGCGCATCCGGGAGAAACCGATCTTTATTATGAAAGAAATGTGCGCTGGGTCCGAGCCTTACGGGAAGCGGAACCGGCTCAAAACTCAGGTTTCTCCTTTAAAGAAAACGGAGTATACATGATTACAGGAGGGGCCGGCGGCTTAGGCCTTATATTTGCAGAACATATCGCAGCCCAAACGAAAGCCAATATTATTTTAGCGGGCCGTTCTGAACTTACGGAAGACAAAAAGAACAAAATCAGCCGAATGAAAGCAGGCGGTTCTTCGGTTCAATATATAAGAGGTGATTTTTCAGATAGCCGCGATGCAGAGCGAATCATAAAAACCATTAAAAGGCAATTCGGAGAAATCAACGGTGTGATACACAGTGCCGGTGTGACGCACGACGCTTTATTGATTCAAAAATCAAAAGATGAAATTCAGGAAGTGATCGCTCCGAAAATAAATGGGACGGTCTTATTGGACAGCTTGCTGCAAACCGAACCTTTGGACTTCTTTGTGATGTTTTCATCAAGCAGCTCGATGTACGGGAATATCGGACAGACGGATTACGCATTGGCCAACCGGTTCATTGATCTTTTCGCTGAGTGGCGTGAAGGAATGAGGCGGAAAAAAGAACGCTCCGGCGTCTCAGTAGCCATCGGCTGGCCGCTATGGGAAGACGGCGGCATGAAAGTGGATAAACAAACTGAAAAATGGATGAAACAAAAAATCGGTATGGTTCCCCTTAGTAAAACCAATGGGATCAAAGCTTTTCAAGATTCACTCTCTCTGAACGCATCACAGCTGATCGTGTTTGAAGGTGACAAAGAAAAATTAGAATCTGCACTTCAAGATACCTTCATAGAGGATGAAAGCCATGAGATCCAAATAAATGAGAAAGCTGATACAAGGCATGGTGACATTGCCATTATCGGATTAAGCGGGAAGTATCCGATGGCTGAAGACTTATCTCAATTTTGGGAGAATTTAAAGAGCGGAAAAGATTGTATTACAGAAATCCCGCCTGACCGCTGGAATATGGATGATTTCTTCAGCGAAGACAGAGATATGAAAGGGAAGTCTTACAGCAAGTGGGGAGGTTTTATCAGCGGAGCCGATCAATTTGATCCGCTTTTCTTTCATATTTCCCCAAGGGAAGCAGAACTTATGGATCCCCAGGAAAGGCTCTTTTTAGAAACGGCCAAACATTGTTTTGAAGACTCAGGGTACCCGAGAAACATGCTGGAAAAGATGAAAGTCGGTGTATTTGTCGGTGCAATGTGGGGCCAATATCAACTATTTGAAGGGGAAGAAAACGGAGCGGCTTTCTCGCCGGCTTCCGTCTATTCTTCAATAGCCAATCGGGTGTCTTATTATTTTCATTTAAAAGGTCCGAGTTTGGCTCTGGATACAATGTGCTCTTCATCACTGACCTCTATTCATTACGCATGCCAAAGCATACATTGCGGAGAGAGCGATATGGCATTAGCCGGCGGAGTGAATTTGTCAATACATCCGAATAAATATAAGTTCCTCAGTATGGGACAGTTTCTATCAAGTGACGGCAGATGCCGGAGTTTTGGAAAAGACGGAAGCGGTTATGTTCCCGGTGAGGGAGTCGGAGCCGTATTGTTAAAACCATTGAAAAAAGCAATAGAAGATCAAGATCAAATATACGGTGTGATTAAGGGAAGCGCCGTTAACCACGGAGGAAAGACGAGCGGATATTCCATACCGAATCCGGATGCGCAGGCGGAGGTCATTTCAGAAGCGCTTCGTAAAGCTGACATTGATCCGAACACCGTCAATTATATTGAAGCGCATGGAACAGGGACGTCATTAGGCGATCCGATTGAAATTCAAGGACTGAAAGATTCCTATCAATTGAACCATCCTTGCGCCATCGGTTCGGTGAAATCAAATATCGGACATTTAGAATCTGCGGCAGGAATCGCTGCGGTAACGAAAGTGCTTCTCCAAATGAAGAATAAGCAGCTTGTTCCTTCTCTGCATTCCGATATTGTTAATCCGTTTATAGATTTTGATCAGGTTCCTTTTCAAGTGCAGCGGAAAGCGGCTGAATGGAATATTCCGCAAAACAGCAATGCTGTTCACCCTTTGAGAGCCGGGGTAAGCGCTTTTGGGGCAGGAGGAACAAACGCGCATCTTATATTGGAAGCGTATGAGCCGCCAAAAGCTTTTGATCATCAAAGCGGCCGAGTGATCTTTGTTTTATCGGCTCAAGACAAACAACGGCTGATAAAGTATGCGAAGGTTATGGCTGATTTTCTATCAGAAAATGAATCGAAGGATAACAATCATAAACTGCGTCTTCAGGATATTGCCTATACACTTCAGACGGGACGCGATCATATGGAAGAACGGCTGGCGATAGTGGCAGATTCCGGGCAGGTCATTGCTGAAGAGCTTTCAGCTTATATCAGGGGTGAAAAAAGCAGCTTGAGCCATACCGGTCATACATTCGAATCAGAAGTTCACAATGAAATGCCTCACGTTTGTTCAGATTACGCCGAAGCAGCATCCAAATGGGTAAATGGAAGAAAGATAGATTGGGAGACTTTTGAGGTGAATCGGAATGCTCGCAGGATTTCTATTCCGGGACAACCGCTGATCAAACAGCGGTATTGGATAGCGGAAAAAGGGGACGCACTTGCTTCAGCGGATGTGAGTAAGCCGGGTCACCCTTTCTTGGGGAGTAACACGTCCGATTTTAATCAGTTCAGTTTCACGAAAAAAATCAGCCGTAATCATCCGTTTGCACTAAGTCTGTCTGAAGGAAACGTGTCCTTTTTCCCTTATGCATCTTTGGCTGAAATGGCTATCGTCAATGCAGCGGAGGCATTTGGACAACCAGTTCATACATTAACTGATTTATTGTGGACCGAAAGCATGAACGGAATGACTGATATAAGGGAACTGATGATTACGCTGACGCCTGAGCGCGGCTTTGCGCGATTTGAGATATATGCAAACACAAAAAATGAGAATAAAGTACGTCTTGCCAGGGGAAATGCGCATATTGTTAAGCCTGAAAGCGGTATGCTTCCTGAAGCGCTTGATATTGCTGAAGTCAAATCAGAAATGACTGAACATCCGGCTGAAGCGCCTTTTGTCATTGAATCAGCGAAAAACAGTGACGGAATGCTGTCGCTTCATTCATTGCCGGATGAGCTTTATGCAAAAAGAGAGAATTTTACGATCTCTCCTGAAGCGCTTGAGTCCGCGATTCAAGCCAGTGCGTTTTTTGTCAGCAGAGAAACCTTCCCGGAATTGATCGGAATGGGAGCGGCGGATGTCTATCAGCCTCTCGCTCAAAATTTTTATGTCTATACTCAAAAAGAGAACCGGCAGAACAGCCGTGATGTAACGTGTCATATGACATTTACAGATGGAAACGGAAGCATTCTGGCAGAGTGCAGAGATGTGAGATTCAGGTATGGTCATGAAAAAGACACTGTTCAGACGGACGATGAACTCATTCGTCTCCTGCGTCAATTGGAAACCAATGATATTGATCAGAAGGCTGTATTGAAACAATTAATGGGGGAAGAATGA	MASNQNYQFTLTIKHTDYIVRDHRVHGTRIIPGVTFLDMIYRMALSKGLPIEELECQNILYLEPVATSDTFDREIRIRFQGLEQGWEIQAKSRKVKDDRILDESWDENMTCRLMPKIPESMSSINIDEIKHASVREADMEICYDYLKKVDIEHFEFMKSLGKVYASDHSVLAELTLSQIANQYTGYFQLHPTFLDASTIISILYQACPEYFTQGSPASRMKTYIPIHIESFRMTKRLEDRCYVYIEKQDQNHDSGDVIQVSYGLYDAHGEMIAYFTRLSVKHIRSKDLIENLKQTRLETEAASQPKDSLIRKDSIINRSESIETHLKELISGVSNIDLRDIRTDIGFYEQGLDSASLLAIVKELENKTGEQLYPTLLFEQKTIRELAAYIRENQKMSSYFLTRNQPAEKPDMKESKNENRSALITEGDIQQLIADIKGTAPETLSVVKGFYEQGLDSVTLMQAVKALEEKTGRELYPTLLFEYPTIQKLANYFAESGEKTFVEKDRPLHHGENHTALTYLTPYWRQKTAAWDPHCGNKKKRTCLLFQYDRELFHFMRENAEDGFENTQIILVLSGNRFSYHGDGVYEIDHREEAHFDRLAADLKKRGQMPDTVVYGWPEGSFAGPEKISEQLSKGAYPLFFFSRALMRSKAEKKVVSLFLYPADHKNDQPLYASVHGAGQSILLENPKLALKTIGISVSDKSSLPELTAEIIRVESTEAHPGETDLYYERNVRWVRALREAEPAQNSGFSFKENGVYMITGGAGGLGLIFAEHIAAQTKANIILAGRSELTEDKKNKISRMKAGGSSVQYIRGDFSDSRDAERIIKTIKRQFGEINGVIHSAGVTHDALLIQKSKDEIQEVIAPKINGTVLLDSLLQTEPLDFFVMFSSSSSMYGNIGQTDYALANRFIDLFAEWREGMRRKKERSGVSVAIGWPLWEDGGMKVDKQTEKWMKQKIGMVPLSKTNGIKAFQDSLSLNASQLIVFEGDKEKLESALQDTFIEDESHEIQINEKADTRHGDIAIIGLSGKYPMAEDLSQFWENLKSGKDCITEIPPDRWNMDDFFSEDRDMKGKSYSKWGGFISGADQFDPLFFHISPREAELMDPQERLFLETAKHCFEDSGYPRNMLEKMKVGVFVGAMWGQYQLFEGEENGAAFSPASVYSSIANRVSYYFHLKGPSLALDTMCSSSLTSIHYACQSIHCGESDMALAGGVNLSIHPNKYKFLSMGQFLSSDGRCRSFGKDGSGYVPGEGVGAVLLKPLKKAIEDQDQIYGVIKGSAVNHGGKTSGYSIPNPDAQAEVISEALRKADIDPNTVNYIEAHGTGTSLGDPIEIQGLKDSYQLNHPCAIGSVKSNIGHLESAAGIAAVTKVLLQMKNKQLVPSLHSDIVNPFIDFDQVPFQVQRKAAEWNIPQNSNAVHPLRAGVSAFGAGGTNAHLILEAYEPPKAFDHQSGRVIFVLSAQDKQRLIKYAKVMADFLSENESKDNNHKLRLQDIAYTLQTGRDHMEERLAIVADSGQVIAEELSAYIRGEKSSLSHTGHTFESEVHNEMPHVCSDYAEAASKWVNGRKIDWETFEVNRNARRISIPGQPLIKQRYWIAEKGDALASADVSKPGHPFLGSNTSDFNQFSFTKKISRNHPFALSLSEGNVSFFPYASLAEMAIVNAAEAFGQPVHTLTDLLWTESMNGMTDIRELMITLTPERGFARFEIYANTKNENKVRLARGNAHIVKPESGMLPEALDIAEVKSEMTEHPAEAPFVIESAKNSDGMLSLHSLPDELYAKRENFTISPEALESAIQASAFFVSRETFPELIGMGAADVYQPLAQNFYVYTQKENRQNSRDVTCHMTFTDGNGSILAECRDVRFRYGHEKDTVQTDDELIRLLRQLETNDIDQKAVLKQLMGEE	PGPT0010098_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-MACROLACTIN_METABOLISM,PGPT0010098-mlnF-NA	NA	NA
D1-12_00626	7383	acpP_2		Acyl carrier protein	ATGAACGGAAAACGTGAACAAATCAGCGATATTCTTGATCTGATTCAAACAGGACAAATGTCGGCTGACGAAGGCTATGCCCGTGTGACATCCATTCAGAATCAAAAATCACGGGCATCGAACCATCCGCTTTTATATTACAAGCCGGAATGGACAGAATCGTTCATTCCGAGTAAGAAGAGCGTACCCTTGACGGGATTGCTCCTGATTTTTGCAGAAAATGAACGGCAAATACAAGAATTGAGCGGTTTGTTTAAGGGCTGTACTCTCTTGTTTGTCATCCGCGGAAAAGAATTTGCTGTTTTACATGATGATACGATTTGTATGAACCACGTGAAAAAACACGATTATCTAAAGCTGTTCCGATACATTCATGATCATTATCAGCTGCCCGAAAAGATTCTTCACTTGTGGTCTGATTCTCAGGCTGACATGAGTAAAGGAGGTATACAGAAACAATTGGAAAATGGATTGTTTTCTCTTCTGTATATTACACAGGCGCTGATTGAACTAAAATGGAAAAAGATAATAAAGCTGACGCATATTTTTCAAACAGAGAATAAAGAACAACTGCCGCTGCATCATGCGCTCGGCGGATTGGTGAAAACCGTTCACCAAGAACACCCCAATTTTCACTATCAGATTATCAATATCACGCAATCAGAGGGTGCGGGAGCCGCTCTTCCAGCAATAGCGGACATATATCAGAGAGAGTGTGACGAAAAACGGGATATCCATTTTGAAGTGCGCTATGAAAACGGCAGACGTTTTACGAAAAGCTATAATAAAGCCGGCTCATTCGATTTAACTCAGCCGCTGAAACATCATGGGAATTATCTGATTACAGGAGGCCTGGGCGGTCTCGGTTATATTCTGGCAAAACATCTGTCGGAAAAATGGAAAGCGAATCTCATATTAACGGGGCGCTCTGATTTAACTGAAGAGCAGGAGAAAAAGATCGAATATTTAAGAAGTTCAGGTTCAACAGTTGAATATATCCGATCTGATGTATCAAAACAAAGTGATGCTGAACGGATGTTTGCTTTTGCAAAAGAGCAGTTCGGCACCTTACATGGAGTATTTCACAGTGCCGGCGTACTCCGTGACTCTTTTATCTTAAGAAAGACAAAAGAAGAAATTGATCAAGTCACAGGTTCGAAAGTTTATGGCACGCTGTGGCTGGCGGAAGAAATCAAAAAAATGAAAGTTGAATTACTTGTCTTGTTTTCATCCACATCGGCAGTCTTCGGCTCAGCCGGCCAATGTGACTATGCTTTCGCCAATGCCTTTCTGGATCAGTATGCAGCAGTTATGACCGCAAAAGAGTCTGCCGAAAGGGTAGTGTCAGTCAATTGGCCGCTATGGACTTCCGGCGGGATGAATATTGACGATGAAGGAGTATCCTACATGAAACAGGAACTCGGTCTTGACCCGTTAGATGATAGTGACGGAATACAGGCTCTGGAGAACAGCTTGTGTCAATCATCTGAACAGCTGATTGCCCTGAAAGGCCGTAAAGAAAAGATTGAGGATGTGCTGAATCGTGCCGGCACAATCAGCTTTCATTCAGAGCAGCAGGAAGATGCTGATTTGCAAAACGATGAATTAAGACAAAATATAATCAGTTATCTGAAAAATATAATGTCAGAGGAATTGAAATTACCGGCCTCACTCATAGATGAAAAACAATATCTGGAGAAATACGGCATTGATTCAGTGATGATCATGCGTCTGACCAAAAAGCTGGAGCAAAGTATCGGCAGATTGTCGAAAACATTATTTTTTGAATATCATTCAATATCGCAGTTAGCCGAATATTTCCTGAGTCATCACAGCGAACGAATGATGAAACTGCTGAACCCGGCCGGCACATCTGAACTTGTTTCATATCAAAAAAAGCCAAAAAGAAAACCAGTGGAAACAAAAGCGCCGGTACGCTCTGAAGGAGAAGATTCAAAAGAGCACATTGCGGCCGATCCCCTTTCTGCTGATATAGCCATTATCGGTGTCAGCGGCAGATACCCGGGTGCGGAAAACATCAGGGAGTTCCAGAATGTGCTGATGAATGGACGGGATTGCGTAAGCGAAATTCCCGATGACCGGAAGGAAATGCTGGAGGGAAGCTGCTATAAGTGGGGAGGTTTTCTGAAAAATCCAGACCGGTTTGATCCTTTATTTTTCCGGATATCACCGAAAGAAGCGGCTTTTCTTGATCCTCAGGAACGCCTCTTTTTAGAGACAGTGTACAATACCATAGAGGATGCGGGTTATAAACCTTCAGATCTGACCCGCAAAAAGGTCGGAGTATTTGCAGGCGTCACATATGGAAGCTATCAATTTTTCGGCGTTGAAGAATCACTTAAAGGAAATGAACTGGCCGTCGGGTCTCCATTTTCTGCAATAGCAAACAGAATATCATATTTCTTTAATTTTAAGGGGCCGAGTATGGCGGTTGATACAATGTGTTCATCCTCTCTTAACGCCATTCACTTAGCCTGTGAAAGTATACGAAGAGGAGAAAGCACACTTGCTGTTGCGGGCGGGGTCAATCTTACGCTTCATCCGAATAAATATACATTATTAAATCAAAGCCGCTTCTTTGCAAGTGATGGCCGATGCCGTACATTCGGCGAGGGCGGTGACGGTTATGTACCGGGAGAAGGAGTGGGATCCGTACTTTTAAAGCCGGCGGCGGAAGCGGTAAGGGACGGAGATCATATTTATGCGCTGATTAAAGCGACAGCGGTCAATCACGGAGGGAGAACAAACGGTTTTACGGTTCCTAATCCAAATGGTCAGTCTGAACTGATACAGGACGCGCTTCAGAAAGCTTGTATTGACCCTCGTACAATTAGTTATATTGAAGCTCACGGAACGGGAACTTCTCTGGGAGACCCGATTGAGATCACCGGATTAACAAAAGCGTTTCGGGAATTTACGGAGCACACTCAATATTGTTCAATCGGTTCTGTCAAATCAAATATCGGCCATCTTGAGGCCGCAGCGGGAATTGCCGGTTTGACAAAGGTTCTTTTGCAAATGAAACTGAAAAAACTGTTTCCCTCCATACATGCGGAGACGTTGAATCCAAATATTGATTTTAAAGCATCTCCCTTTTATGTACAGCGGTCATTGCAAGACTGGAAGAAACCGAAACTGCAGGAAAACGGAAAAACAGTAACTGTTCCGAGAAGAGCGGGGATCAGCTCATTCGGAGCGGGAGGAACGAATGTTCATATCATTATAGAAGAATATGAAGAAACAAACGTCTCAACAGAACATGTTGAGAACGAACCGCATATTGTCCTGTTATCTGCCAAAGACAATGAACGTCTTCTTGAGTATGCCGAAAACATGAGAGATTTTATTCAACGTTCACTAAGTCCTGAAGTAAAGGATAAACAGCCTGATATGAAAGAAAAGGTGTATGAAGTACTCAAACCGTTTGTTTCGGAATTGCTTCATATCCATCCGGAAGAAATTAATATTGCTGATCACCTGAGTGAATTTGGCGTAGGGCCTTTGGAATTAAGCCGGATGGCGGATTTTATTAACGAAATGTTTCATATTGAACTCACGATGTATGAATTAACTGATTGCGCCTCCATTCAAGCGGTTACTGAATACTTATTGAAGGAATATGCCGGAGCGATAAGAAACATGTTCCCGAATGAAGTGATGGAAGCCGGCCAATCGGAAAGCGTCGTTTTACGGGATCTGGCATACACTACACAATCGGGCAGAGAAGCGATGGAGGCCAGAGCGGCGATTACCGGTACCTCTCTTAAAGAAATGAAAGATAAATTATTTGAGTTTTGCCGCGGTGACAAGCAAGTTCCAGGCGTATATGTTAATCAGCAATCAGCAGATGCATTCGCTGAAAAAATGAAGGCGTTAACGGAAGGCAGAGCAGGTGAATTGTTTGTAAAGACCATTATTGAGAACGGTGAAGCGGAAAAGCTGGCTCAATTATGGGTTTGGGGGGCGGATATCGACTGGAAATCCGTTCATCAACATTTACAGCAGCCGGGTAAACGGATCTCAATTCCGACTTATCCGTTTGCAAAAGAACGTTATTGGGTTCCGTCCAGGACTGAGAAGGCAGAGATCCCTCAGCATTCTTTTCAACATCATTTGCAAAAAAAATGGAGGGAGAATCCTTTTGTAAATCCATCCGAAACAAAAGAGTACGGACTGACAGTAGCATTTGTAAATCAAGACACAGAATCAATTGCCCGCACCATTTGTTCGGATATAGATCAGGAGAATCTGATTGTCATAAAACATCACTCTTCATTTATAAAACACTCTGATCAAATGTTTGAGTGTTCTTTATTAGATGAAAACCACGCATACGACGTTATCCGTGAGATCTTCTCGGGCGGTGAGCGGCAGGTCGAAAATATATTTGATTTCTCAGATATCGGAAACCAGAGTGAAAATCAGAACGGCATCCCATATGGTAAATTCTTATTTATACAAGAAATAATTAAGCGGAGTAAAAAGGAAACACCATTATCCATTTTACAAATCACCAATGGCTTGCAGGTATTTAAAGCGGAAAAACCAAAGCTGACGGGGGCGGAATCAGCGGCTTTTCTGAAAGCCCTTTCTGCGGAATACGGCTTTGTTCATGTGAAAACAATAGATATAGACAGCATGAAAGAAACGCATGAGCTGAAACAAATCTTTGAGAATGAAAGGGCGCAATGTACCGGAGAGAATGAAGTATGCTACCGCAGCGGCGTCAGATATGTTCCGTATTTTGAAGAAGAAAGAATCCATACCGGCGGGCCTGTTTCATTTCCTGCGGATAAAGCCATCGTGATTACCGGCGGGACAGGGGGCATTGGCAGAGCAATAGCTGAAGATTTGGTGAAACGGGGAGTGAAAAAACTCGTGCTGACGGGGACGCGTCCATTACCTTTGCGAAGTGAATGGGATCATTTGCTGAAAGAGCGCAGACAGGACGAAAAGACAGTCAGCAATATCAAACTGTTTCAAAGTTTTGAAGAGAAAGGTGTCAACTATCTGTATTACAGCGGTTCTCTCACAAATGAAGAGAAGCTGCGTTCATTCTTTCACCAAGTAAGCCTTGAATTTAAAGATATAAGCGGTGTCATACACTGTGCCGGACTGCACAGCGGCGGAAATCCGGCCTTTATTCATAAAAGAATGAGTGAATTTAAGACGGTGTACGGGCCGAAAGTCACTGGACTTCAGAATTTGGAGCGGATTTTTAATAATAGGCCGCTGGATTTCTTTATTCTATTTTCATCAATTGCTGCACAGTCACCCAAACTGTCGAAAGGAATGACTGATTACGCGTCTGCAAACGCATATATGGACTATTTCGCGGCTTATCATTTTCAAAAGGGGAGAACGTATTTCACGTCCATCAATTGGCCGAGCTGGAAAGAAGTCGGAATGGGTACTGTGACGAGTCCTTTATATGATGAATTGGGATTGGACTCTCTTTCCACACGGGAAGGACTGGCGATTTTGTATCATGCACTGGAGAAAAAATCGGCCAATATCATTCCTATCGTGAAAAAAGGAACAGTGTTTCATGCAGACAGTCTCCTGAAAATCAATAAAACCGGCGGAGCTTCGGTTCCAGTCCGAAGACAGGAAACTCCCGACACTTTTGATCGTTCAGAAGGGCTTGTCAGTGAACTTTCTGCCGTATTTGCCGAGGAATTGAGCATTCCCCTTGAAAAGCTTAACCCAAATACGGATTTTCAGGAATACGGTGTGGATTCTATACTACTTGTCAGCATTATACATCGTATAGAAGCAATGATTCAGAAAAAAATTGACCCTACTGTGCTTCTTGAACACAACACGATTCATGGTCTTGCGGAATATATCGGTAAGACGGCGCCGCCGTTGAAAAAACAAATCGAACAGACTGATTCTCAAAGCAGCAATCAGCATGATATGCAGTCTGTGACGAGCCGAAATACAGAACCGCAGACGGCTTCCTCTGCAAAGATAGCTGTTATCGGAATCGGATGTAAGTTCCCTGGAGCGGCTGATAAAGAGGAATTTTGGGACAATCTGAGAAAAGGGAAGAATCATATTAAAGAAGTACCTGATTCCCGGTGGAATATAGAAGAAAATTACTCTCCGGTGCAGCAAAAGGGAAAAAGCATCAGCAAATGGGGAGGATTTATCAATGGAATCGGCAGCTTCGATCCGGAGTATTTCCGCATGGAAGAGGAGAAAGCCATCCAAACGGACCCGCTGATAAGACATTTCTTAGAAACGAGTGTACAGACTGTACGGGATGCCGGTTATGAAGAAACAGAATTATCGGGAAAAAAAGTCGGCGTATTTGTCGGTTCCAGAATGGGCGGCTACGGTCACAAACTGCCGAAAGAAAGCAACAGCCACATCGTCGGGCTTAGTCAAAACTTTATTGCTTCACACGTGTCGCATTTCTTTAATTTTCACGGCCCAAGCATGGTTTCTGATACCGCTTGTTCTTCTTCATTAGTCAGCATTCATTTAGCCTGCCAAAGCATAAAAAACGGTGATTCAGAGATGGCGCTGGCAGGAGGGGCGGATCTGCTTTTGGATGAAATTCCTTACCTGATGTTAACAGAAGGAGGAGCTCTTTCGCCGGACGGTCAGTGTTTTACTTTTGATGAAAGGGCAAACGGCTTTGTACCCGGAGAGGGTTTTGGCGCTGTTCTGTTAAAACCGCTCGAGAAAGCGAAAGCGGACGGAGATCGGATATACGGTATCATTGAAGCATCAGCTATTAATAACGACGGTGCGACAATGGGAATTACGACCCCGAATCCTAAGCTTCAAGAGCAGGTTATTCAAGATGCATTTGAAAAAGCCGATATCACTCCCGGATCAGTCAGCTACGTCGAAACTCACGGCACAGGCACGATGATTGGAGATCCGATTGAGCTACAGGCTCTGACAAAAGTATTCCGAAGAGACACAAACAAAACGCAATTTTGCGGAGTAGGAAGTGTAAAAACCAATATCGGACACTTATTAAGCGCTGCCGGAGCGGCAAGTTTCATTAAAGTGATTTTATCAATATGGCATAAGGAAATTCCGCCTACATTGAATTGTGAAACGCCAAATCCCCGCTTTGAATTTGAAAAGTCGCCTTTTTATCCGAATACAGAGCTGAGAAGCTGGAAGGATGGAAAACGGAGGGCGGGCATCAGCGCTTTCGGTTTTGGCGGAACAAACGCCCACCTTTTGGTAAGCGGCCTGGATGATTCATATCATTCCGTCAGAACTCCGCTGCCGCCTGCCGAGTTTGTCAGAAAAGAGTACTGGCCGGATTCAAATCGGAAAAAACAAATCAAACAGAATAAAAAACGGCTTCTTGAAATTATTGATGAAACAGAGTAG	MNGKREQISDILDLIQTGQMSADEGYARVTSIQNQKSRASNHPLLYYKPEWTESFIPSKKSVPLTGLLLIFAENERQIQELSGLFKGCTLLFVIRGKEFAVLHDDTICMNHVKKHDYLKLFRYIHDHYQLPEKILHLWSDSQADMSKGGIQKQLENGLFSLLYITQALIELKWKKIIKLTHIFQTENKEQLPLHHALGGLVKTVHQEHPNFHYQIINITQSEGAGAALPAIADIYQRECDEKRDIHFEVRYENGRRFTKSYNKAGSFDLTQPLKHHGNYLITGGLGGLGYILAKHLSEKWKANLILTGRSDLTEEQEKKIEYLRSSGSTVEYIRSDVSKQSDAERMFAFAKEQFGTLHGVFHSAGVLRDSFILRKTKEEIDQVTGSKVYGTLWLAEEIKKMKVELLVLFSSTSAVFGSAGQCDYAFANAFLDQYAAVMTAKESAERVVSVNWPLWTSGGMNIDDEGVSYMKQELGLDPLDDSDGIQALENSLCQSSEQLIALKGRKEKIEDVLNRAGTISFHSEQQEDADLQNDELRQNIISYLKNIMSEELKLPASLIDEKQYLEKYGIDSVMIMRLTKKLEQSIGRLSKTLFFEYHSISQLAEYFLSHHSERMMKLLNPAGTSELVSYQKKPKRKPVETKAPVRSEGEDSKEHIAADPLSADIAIIGVSGRYPGAENIREFQNVLMNGRDCVSEIPDDRKEMLEGSCYKWGGFLKNPDRFDPLFFRISPKEAAFLDPQERLFLETVYNTIEDAGYKPSDLTRKKVGVFAGVTYGSYQFFGVEESLKGNELAVGSPFSAIANRISYFFNFKGPSMAVDTMCSSSLNAIHLACESIRRGESTLAVAGGVNLTLHPNKYTLLNQSRFFASDGRCRTFGEGGDGYVPGEGVGSVLLKPAAEAVRDGDHIYALIKATAVNHGGRTNGFTVPNPNGQSELIQDALQKACIDPRTISYIEAHGTGTSLGDPIEITGLTKAFREFTEHTQYCSIGSVKSNIGHLEAAAGIAGLTKVLLQMKLKKLFPSIHAETLNPNIDFKASPFYVQRSLQDWKKPKLQENGKTVTVPRRAGISSFGAGGTNVHIIIEEYEETNVSTEHVENEPHIVLLSAKDNERLLEYAENMRDFIQRSLSPEVKDKQPDMKEKVYEVLKPFVSELLHIHPEEINIADHLSEFGVGPLELSRMADFINEMFHIELTMYELTDCASIQAVTEYLLKEYAGAIRNMFPNEVMEAGQSESVVLRDLAYTTQSGREAMEARAAITGTSLKEMKDKLFEFCRGDKQVPGVYVNQQSADAFAEKMKALTEGRAGELFVKTIIENGEAEKLAQLWVWGADIDWKSVHQHLQQPGKRISIPTYPFAKERYWVPSRTEKAEIPQHSFQHHLQKKWRENPFVNPSETKEYGLTVAFVNQDTESIARTICSDIDQENLIVIKHHSSFIKHSDQMFECSLLDENHAYDVIREIFSGGERQVENIFDFSDIGNQSENQNGIPYGKFLFIQEIIKRSKKETPLSILQITNGLQVFKAEKPKLTGAESAAFLKALSAEYGFVHVKTIDIDSMKETHELKQIFENERAQCTGENEVCYRSGVRYVPYFEEERIHTGGPVSFPADKAIVITGGTGGIGRAIAEDLVKRGVKKLVLTGTRPLPLRSEWDHLLKERRQDEKTVSNIKLFQSFEEKGVNYLYYSGSLTNEEKLRSFFHQVSLEFKDISGVIHCAGLHSGGNPAFIHKRMSEFKTVYGPKVTGLQNLERIFNNRPLDFFILFSSIAAQSPKLSKGMTDYASANAYMDYFAAYHFQKGRTYFTSINWPSWKEVGMGTVTSPLYDELGLDSLSTREGLAILYHALEKKSANIIPIVKKGTVFHADSLLKINKTGGASVPVRRQETPDTFDRSEGLVSELSAVFAEELSIPLEKLNPNTDFQEYGVDSILLVSIIHRIEAMIQKKIDPTVLLEHNTIHGLAEYIGKTAPPLKKQIEQTDSQSSNQHDMQSVTSRNTEPQTASSAKIAVIGIGCKFPGAADKEEFWDNLRKGKNHIKEVPDSRWNIEENYSPVQQKGKSISKWGGFINGIGSFDPEYFRMEEEKAIQTDPLIRHFLETSVQTVRDAGYEETELSGKKVGVFVGSRMGGYGHKLPKESNSHIVGLSQNFIASHVSHFFNFHGPSMVSDTACSSSLVSIHLACQSIKNGDSEMALAGGADLLLDEIPYLMLTEGGALSPDGQCFTFDERANGFVPGEGFGAVLLKPLEKAKADGDRIYGIIEASAINNDGATMGITTPNPKLQEQVIQDAFEKADITPGSVSYVETHGTGTMIGDPIELQALTKVFRRDTNKTQFCGVGSVKTNIGHLLSAAGAASFIKVILSIWHKEIPPTLNCETPNPRFEFEKSPFYPNTELRSWKDGKRRAGISAFGFGGTNAHLLVSGLDDSYHSVRTPLPPAEFVRKEYWPDSNRKKQIKQNKKRLLEIIDETE	PGPT0010099_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-MACROLACTIN_METABOLISM,PGPT0010099-mlnG-NA	NA	NA
D1-12_00627	3849	rutD_1		Putative aminoacrylate hydrolase RutD	ATGAGGTTCAGCGTATTAGTCAAACATGACGATTATATTGTTTCAGACCATGTCCTTCATCAAGTGCGTACGATACCCGGCGTAACGTATTTGGATTTAATAACCCGATTTTTAGCTGAGAAAGGGATATCCCCCCGAAGTTTTGAAATCAAACATGTTTTATTCCGTGAACCTGTTGCGACGTCAGTCCATTTTGATAAAAAAGTCAGCTTCCAGTTTACGGAACAAGAAAACGGCTGGCTTGTTGAAACAACAAGCAGGAAATGGGTCGCTGAAAAGGCGGAAGGTGAAGCGTCAGTCAACTTGCAGGCGGAAATTATAAGAAAAAATGCGATAAACGAAAAGACAATTTCAATCGAAGAATTAAAGAAAGGAGCCGTCCGGATTTCGGATGCTGAATCCGCCTATCGTAATTTGCGCAGGGGCGGGCTGATTCATAAAGATTTTATGAAATTGGAAGGTACGGTATATGAAGGTGAAAATTATATTCTGGGAGAGGTCAGTTTAAGCGGACTTTCAAAAGAATATACAGATGACTTTTACATGCATCCCGCATTTTTGGATGGGTCTCTCAGCTTGTTGGGAATCCTTACATCAGACTTGCCGGATGAAGGAACAAATGCGTTTATCCCTATATATATTGAGACATTCCGGGCACTGCATAAAACAACTGGGTCTTGTTTTGTGTATATTGATAAAAACAGTATAACGCAGCCGCCTTCTAAAGACATTTTATATGCGGACATAGAAGTATACAGGCCTGATGGAGAGCTTGCTTTTTATTATGAGCGATTCGGTGTGAAAAGAGTCAGAAATGAAAAATCAATACAAAGGCTGGAGCATTCCCAAAAAGCTAAAGAGGTTGGCAGCGCAACGAACAATAAAGAAATGATCAGAAATAATTTGATCCAAGAGATAACCGGCATGATTGAAAAACCTGCTGAAACAGTGAAGAATGATATTTCCTTTTACGAGATGGGCTTGGATTCTAAACAATTATTAGACTTATCCAAAAAATTAGAACTGATGTTAGATACAAAGCTGTACCCGACTTTATTATTTGATTACTCCACAATCGGTGAATTGACGGAATATCTGCAGGAGAAATACGGAGCTGACATTACAGACTCTATCTCTGATACAGTTTTGCACCAAGACAGTCAAAAAACATTAACAGATGAGCTGTCATCCATTATTGGAGAGGTTACAGACACACCGCTAAATAAAGCGGACAAACACCAATCTTTTTACGAACTGGGTCTTGACTCAAAACAGCTGCTGCATATATCGAAAATGCTCGAGGAAAGATTGGATACACAATTGTATCCGACATTGCTTTTTGATTATAACAATATTTATGATTTAGCGGCTTATTTAGAAGAAAAATATGATGTGCGTAATACACCGGCTGCAGCTTTTAAAGAAAAAGCGCAAACGAAAGAGCCGTCTGAAAAGCCGATGCTTGAATCTTTGTATTTACAAAAAGAATGGATTGAGTCGCCATTAAAGTCCGGAGAAGTACCTAAGGAAAATACATTGATTTTCGATTTCGACAGTTCATTGAGTGATGAAATCCGTAAGTGCATCGGCAGTGAAAATGTTATTTATGCGGAAGCCGCCGCTGAATATGAAATGGTAAATGAAAAGCATTATAAATTTAACCCGGAGCAGTCTGCTCATTACACCAGACTGTTAGATGATATGAAAAAGTCCGGAGCGTTTCCGGCGTCAATCATTCATTACCTGTCAAAAAAAGCTTATACTGAAGCGGCGTTAGACCTGACTCACAGCTTTTATTCAATCCTTTATTTAAGTAAAGCTTTGATCCGTCAAAAAACAAAAGAAAACATCAACATTCTGTACGTACATGACAAGGATCAATATACAAATCCGGTTTACGCCGCGATTGCAGGCTTTTTTAAAACGCTGAATGCGGAGCAGCCGAATATAAAGTGTAAAACGGTTGAGATTTCTTCAAGACAAACCGTTGAAAAAGCACCTTTGCTTCTCAATGAATTAAGTGCCGGACATCATCAGGCTGTGAAATATGCCGGCGATCAAAAAAGGTGGGTGACAGCATATAAAGACGCTTCGCTGCAAACAGGACAAAAGGCCGCAAAGTTTGCAAAAAACGGGGTGTATCTCATCATCGGAGGGTTAAGCGGCATCGGCTGGATTATTTCAGCGTTTCTTTATGCAAATCACGGAGCCAGCGTTATCATTGCCGGGCGATCGAAAATGACAGCAGACATGGAAGAAAAATTAGACAGCATCCGATATGACGGGGCAAGCATTTCTTATATCCAGGCTGACATGTCAGATAAGCAGCAGGTCATCAAGTTAGCGGAAAAAATTCGTGCTGATTATTCCGAAATCAACGGGGTCATTTACAGTGCAGGCGTGTTAAAAGACTCTCTCATTATGAACAAAACAGACGCGGAAGCTCAAGCGGTGCTGCAATCAAAGGTCAATGGTGTGATTCATTTGGATGAAGCGCTCAGAGATATGCCTTTAGACTTTTTTGTTTTGTTTTCTTCCATCTCCTCAGAAATCGGAAGTCTGGGTCAAGCCGATTATGCCTACGCCAATCGTTTTCTGGAGCATTTTGCCGAGTGGAGGGAATGTATGAGAAAGGCGGGGGGAAGATCAGGAAAAACCATCGCTGTAAATTGGCCTTTCTGGAAAGACGGAGGCATGTCAGTTGATCCCGGCATCCAAGATATTATGAAAAGGGAGTACGGACTTCACCCATTAGAAAATACTGCCGGAATCAAAGCTTTTGAACACTCGCTTCTCGGCCAAGGCCACCAGCTGATCGTGTTATACGGAGAAAAAGAAAAAATACAAAACGATTTCAAGCCGTTATCCGCCCGTTCAGCACCGCCTCTGGTAAGAGATTCAGCGATTGCAGCCGATTTTGATGCTTCGTCAATCGTTACGGAAGCTGAAAGTCCTTTCCGGATACTCGGCACGGCTTCCAATCGTCATCTCGACGATTATTTGCATTATTGGAGCAGACTGAAGAAAGGAGCCCTTCAGCACAATCAAAGCGATGCCGCAAAAAAACTCATCGCTTTTTACCAGACAGAAGAAACGGAAACCGTTCATTTTCTGGCAAACACAGAAAATGCCCGGCATATGGAGATATTGATGAGCGGTAAGGGCGAAACAATTTTACTGATTTGCGGTTTTGCTACCACTGCTTACATGTGGAAAGAACAAATGAAAGAGTGGGCAGATCAATTTAATGTAATTGTCATACACACACCGGGTTACGGGCTGAGTGAGGGGAGCGCCGATTTTACACTGAGCGGGCTGGCTCAGACTTTTATCGAAGTGCTGAACGAGATAGGGGTTGCGTGGCCGATCCACATTGCGGCAGCTTCTTGGGGAGGCATGATAGGGCAGAGGATAGCCTATGAATACCCTGAAAAAGTAAAAACACTCATTCTTTCCGGAAGTTACACCGAATACGAAGAAGACCCTGAAAGCAGTGTCGAGGAAAAACTGAAAAATGATTTTATAGCTATAGGAAAATCGCATGAATATGAAAGTTTATACAGTAATCAATTTTTAAATGCTTCTATTGAACGTTTTATGAAGATACATCAACAAGAAGGCTATTCTACGATCGGCTTTTTAAAAGACATTCATACAAGAACGCTTATCCTTACGGGTGAGAAGGAAAGCGTAGTTGATCAGAAAGAAACAAAAAGGCTGCAGAAACTGCTGAGCAATGCAGAATTAAAGAAAATTAAGGGAGCGGGGCATCTTCCGAACATCACACATCCGGAAGAATTTAATAAAGCGGTGTCAGAATTCATCAAGAAATCGGTAAGTAAAGGATGA	MRFSVLVKHDDYIVSDHVLHQVRTIPGVTYLDLITRFLAEKGISPRSFEIKHVLFREPVATSVHFDKKVSFQFTEQENGWLVETTSRKWVAEKAEGEASVNLQAEIIRKNAINEKTISIEELKKGAVRISDAESAYRNLRRGGLIHKDFMKLEGTVYEGENYILGEVSLSGLSKEYTDDFYMHPAFLDGSLSLLGILTSDLPDEGTNAFIPIYIETFRALHKTTGSCFVYIDKNSITQPPSKDILYADIEVYRPDGELAFYYERFGVKRVRNEKSIQRLEHSQKAKEVGSATNNKEMIRNNLIQEITGMIEKPAETVKNDISFYEMGLDSKQLLDLSKKLELMLDTKLYPTLLFDYSTIGELTEYLQEKYGADITDSISDTVLHQDSQKTLTDELSSIIGEVTDTPLNKADKHQSFYELGLDSKQLLHISKMLEERLDTQLYPTLLFDYNNIYDLAAYLEEKYDVRNTPAAAFKEKAQTKEPSEKPMLESLYLQKEWIESPLKSGEVPKENTLIFDFDSSLSDEIRKCIGSENVIYAEAAAEYEMVNEKHYKFNPEQSAHYTRLLDDMKKSGAFPASIIHYLSKKAYTEAALDLTHSFYSILYLSKALIRQKTKENINILYVHDKDQYTNPVYAAIAGFFKTLNAEQPNIKCKTVEISSRQTVEKAPLLLNELSAGHHQAVKYAGDQKRWVTAYKDASLQTGQKAAKFAKNGVYLIIGGLSGIGWIISAFLYANHGASVIIAGRSKMTADMEEKLDSIRYDGASISYIQADMSDKQQVIKLAEKIRADYSEINGVIYSAGVLKDSLIMNKTDAEAQAVLQSKVNGVIHLDEALRDMPLDFFVLFSSISSEIGSLGQADYAYANRFLEHFAEWRECMRKAGGRSGKTIAVNWPFWKDGGMSVDPGIQDIMKREYGLHPLENTAGIKAFEHSLLGQGHQLIVLYGEKEKIQNDFKPLSARSAPPLVRDSAIAADFDASSIVTEAESPFRILGTASNRHLDDYLHYWSRLKKGALQHNQSDAAKKLIAFYQTEETETVHFLANTENARHMEILMSGKGETILLICGFATTAYMWKEQMKEWADQFNVIVIHTPGYGLSEGSADFTLSGLAQTFIEVLNEIGVAWPIHIAAASWGGMIGQRIAYEYPEKVKTLILSGSYTEYEEDPESSVEEKLKNDFIAIGKSHEYESLYSNQFLNASIERFMKIHQQEGYSTIGFLKDIHTRTLILTGEKESVVDQKETKRLQKLLSNAELKKIKGAGHLPNITHPEEFNKAVSEFIKKSVSKG	PGPT0010113_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-MACROLACTIN_METABOLISM,PGPT0010113-mlnH-NA	NA	NA
D1-12_00628	1092	yfeW		Putative D-alanyl-D-alanine carboxypeptidase	ATGAAACAAACAATAAGCAATCCGGCATTTGATATGAAACAAATTAACGCTCTTAACAGCCATTATCAGACGATGATAGACAATGGAGATCTGCAATGTGCGAGTTATATGATGTCAAGAGGAGGTGAGGTTTTTGCAGCTGAGTCGTTAGGGGAATTTACCGGCGGACAAAACGAAAAGCAAACATTTCAGCTTGATACAATCAGAGAAATCGGTTCTTTGACAAAAGTGTTTACCGCTGTAGCCGTCATGCAGCTCGTCGAAAAAGGTTTGCTCGATCTGAAAATGCCGGTCAAGCTCATTTTGCCTGCGTTTGATAAACCGGGTTTCGGAGAAATTAAAATTTTGCACCTTTTGACTCATACGGCGGGATTAAGTTTTGAGCTGGATATTCAAAAGGCTGAAGGCATTGACTTAACGAATGAGGAAGAATGGATAAACTATCTGGTCAGTACGCCTTTGGAGTACGGAGTGGATGAAGCATGGAACTATTCCAGAACCGGTTTTGTTATACTTGGCATCATTATTTCAAAAGTAACAGGCGTATCCTACGAACAGTATGTAACAAAGCATATTATTGAAGCGCTCGGATTAGAAAGAACGTATTTTTATGTGCCTGATGCTTTAAAAGAAGAAGTTTGTGTGATCAATGAACACGAGTGCGTACAGCTGGAAAAAAGTCATCACCCGTATTTTCCGAATAAAGCGACAAGCGGTCTGTACTCTTCGTTGCGGGATATTTGGAAGTTGGCTGAAATGTTTAGAAATAAAGGCAGATTGAAAGATAAGAAGCTGCTTGGAAGAAAAACAGTCGAGGCCATGCTGAGAAATCAAATAAAGCCCGGTCTTCCTTTTTACTTCTTCGGAGCGCCCAGGGAGGAAGGCGGCTTTGGTTTAGGCGTTAATTTGTGGCCGGCCGGTGACCATTATTTCATGACAGAAGGCACCTTCTCACATCTTGGAATGGGTTGGTGCGGCATGTTTTCTGATCCAGCCGAAGATTTTACGTATGTATTTTTCACTCCGATTTCCGAGTTTCATCCTCATGCCGTGCTGACGCCGCTGAATATCGTGTGGGCGGGTATTGAATAA	MKQTISNPAFDMKQINALNSHYQTMIDNGDLQCASYMMSRGGEVFAAESLGEFTGGQNEKQTFQLDTIREIGSLTKVFTAVAVMQLVEKGLLDLKMPVKLILPAFDKPGFGEIKILHLLTHTAGLSFELDIQKAEGIDLTNEEEWINYLVSTPLEYGVDEAWNYSRTGFVILGIIISKVTGVSYEQYVTKHIIEALGLERTYFYVPDALKEEVCVINEHECVQLEKSHHPYFPNKATSGLYSSLRDIWKLAEMFRNKGRLKDKKLLGRKTVEAMLRNQIKPGLPFYFFGAPREEGGFGLGVNLWPAGDHYFMTEGTFSHLGMGWCGMFSDPAEDFTYVFFTPISEFHPHAVLTPLNIVWAGIE	PGPT0010114_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-MACROLACTIN_METABOLISM,PGPT0010114-mlnI-NA	NA	NA
D1-12_00629	1116	pdhA	COG1071	Pyruvate dehydrogenase E1 component subunit alpha	ATGGCTGCAAAGACAAAAACTTCAATTGTTGATAGCAAAAAACAATTTGATGCTATTCATAAGCAGTTTGAAACGTTCCAAATTTTAAATGCTGAAGGAGAAGTCGTAAATAAAGACGCAATGCCTGATCTTTCAGATGATCAGTTAAAGGAATTAATGAGAAGAATGGTGTATATCCGCATTTTAGACCAGCGTTCAATTTCTCTTTCCCGTCAAGGACGTTTAGGTTTCTATGCACCGACAGCGGGCCAGGAAGCTTCTCAAATTGCATCACACTTCGCGCTTGAACAGGACGACTTTATCCTTCCGGGTTATCGTGACGTTCCTCAGCTGATTTGGCACGGGCTTCCTTTACATCAGGCATTCCTGTTCTCAAGAGGCCATTTTAAAGGTAATCAGATGCCTGAGGGAGTAAATGCTTTATCACCTCAAATTATTATCGGTGCTCAAATTATTCAAACCGCAGGTGTAGCTTTAGGTCTTAAAAAGCGCGGTAAAAAAGCGGTAGCTATTACTTACACTGGTGACGGCGGAGCTTCTCAAGGTGACTTCTATGAAGGAATGAACTTTGCCGGAGCATTTAAAGCGCCAGCGATCTTCGTTGTTCAGAATAACCGCTATGCGATTTCAACTCCTGTAGAAAAGCAATCATCCGCACAGACAATTGCCCAAAAAGCAGTTGCCGTCGGTATTACAGGTGTTCAAGTAGACGGAATGGATGCACTTGCCGTTTACGCTGCAACCGCAGAAGCACGCCAGCGCGCAATTAACGGTGAAGGTCCGACTCTGATCGAAACTCTTACATTCCGTTACGGACCTCATACAATGTCCGGTGACGATCCGACTAAATACCGTACGAAAGAAATAGAAAATGAATGGGAGCAAAAAGACCCGCTCGTACGTTTCCGCAAGTTCTTGGAAAACAAAGGACTATGGTCTGAAGAAGAAGAGAACAAAGTGATTGAACAGGCCAAAGAAGAAATCAAACAAGCTATCAAAAAGGCTGACGGCGAATCAAAACCGAAAGTAACAGAGCTGATTGAGAATATGTTTGAAGAGCCGACGTTCAACTTAAAAGAACAACTTGAAATTTACAAAGCGAAGGAGTCGAAGTAA	MAAKTKTSIVDSKKQFDAIHKQFETFQILNAEGEVVNKDAMPDLSDDQLKELMRRMVYIRILDQRSISLSRQGRLGFYAPTAGQEASQIASHFALEQDDFILPGYRDVPQLIWHGLPLHQAFLFSRGHFKGNQMPEGVNALSPQIIIGAQIIQTAGVALGLKKRGKKAVAITYTGDGGASQGDFYEGMNFAGAFKAPAIFVVQNNRYAISTPVEKQSSAQTIAQKAVAVGITGVQVDGMDALAVYAATAEARQRAINGEGPTLIETLTFRYGPHTMSGDDPTKYRTKEIENEWEQKDPLVRFRKFLENKGLWSEEEENKVIEQAKEEIKQAIKKADGESKPKVTELIENMFEEPTFNLKEQLEIYKAKESK	PGPT0018025_1113	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0018025-pdhA-K00161	NA	NA
D1-12_00630	978	pdhB		Pyruvate dehydrogenase E1 component subunit beta	ATGGCGCAAATGACAATGATTCAAGCGATCACTGATGCGTTACGCACAGAACTAAAAAACAATGAAAACGTTCTGCTTTTCGGGGAAGATGTAGGCGTTGCCGGAGGCGTATTCCGTGCAACTGAAGGCCTTCAAAAAGAATTCGGTGAGGACCGCGTATTTGACACGCCGCTTGCTGAATCCGGTATCGGCGGTCTCGCTCTCGGTTTAGGCCTGCAAGATTACCGTCCTGTTATGGAAATCCAATTCTTCGGATTCGTATATGAAGTAATGGATTCAATCTCAGGACAAATGGCTCGTCTCCGCTACCGTTCCGGCGGACGCTGGACTTCTCCGGTGACAATCCGTTCTCCATTCGGCGGAGGGGTTCATACACCTGAACTTCACGCTGACAGTTTGGAAGGCCTTATCGCTCAGCAGCCGGGTATTAAAGTTGTTATCCCTTCCACTCCTTACGATGCAAAAGGACTGCTGATTGCCTCTATCAGAGACAATGATCCGGTTGTTTTCTTAGAGCATATGAAACTTTACCGTTCTTTCCGTCAGGAAGTTCCTGAGGAGGAATACACAATCGAGCTTGGCAAAGCTGATGTGAAACGCGAAGGTACTGACCTTTCTATCATCACATACGGCGCGATGGTTCATGAGTCGCTTAAGGCTGCTGAAGAGCTTGAAAAAGAAGGCGTTTCTGCTGAAGTTATCGACCTTCGCACTGTAAGTCCGCTTGATATTGATACGATTATTGCTTCTGTTGAAAAAACAGGCCGCGCAATTGTCGTGCAAGAAGCTCAAAAACAAGCCGGCATCGCTGCCAACGTTGTAGCTGAAATCAATGACCGCGCGATTCTGAGCCTGGAAGCTCCGGTTCTGCGTGTTGCGGCGCCTGATACAGTATTTCCTTTCTCGCTTGCTGAGAGCGTATGGCTTCCAAACCATAAAGACGTTCTTGAAACTGCGAAAAAAGTTCTTGAATTTTAA	MAQMTMIQAITDALRTELKNNENVLLFGEDVGVAGGVFRATEGLQKEFGEDRVFDTPLAESGIGGLALGLGLQDYRPVMEIQFFGFVYEVMDSISGQMARLRYRSGGRWTSPVTIRSPFGGGVHTPELHADSLEGLIAQQPGIKVVIPSTPYDAKGLLIASIRDNDPVVFLEHMKLYRSFRQEVPEEEYTIELGKADVKREGTDLSIITYGAMVHESLKAAEELEKEGVSAEVIDLRTVSPLDIDTIIASVEKTGRAIVVQEAQKQAGIAANVVAEINDRAILSLEAPVLRVAAPDTVFPFSLAESVWLPNHKDVLETAKKVLEF	PGPT0019590_2642	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019590-pdhB-K00162	NA	NA
D1-12_00631	1329	pdhC_1	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	GTGGCATTTGAATTTAAACTTCCGGATATCGGGGAAGGTATCCACGAAGGCGAAATCGTAAAATGGTTTGTTAAGCCGAACGACGAGGTAGAAGAAGACGATGTTCTGGCTGAAGTGCAAAATGATAAAGCAGTGGTAGAAATTCCTTCACCTGTTAAAGGAAAAGTATTAGAATTAAAAGTTGAAGAGGGAACAGTTGCAACTGTTGGACAAACGATTATTACGTTTGACGCACCTGGTTACGAAGATCTTCAATTTAAAGGAAGCCATGATTCAGGAGATGCGAAAACTGAAGCTCAAGTTCAGTCGTCTGCTGAAGCAGGGCAGGATATCGCTAAAGAAGAGACTCCTAAAGAGCCTGCAAAAGAAACCGGCGCAGGACAGCAGGACCAAGCGGAAGCTGATCCGAACAAACGCGTGATCGCGATGCCTTCCGTACGCAAATATGCCCGTGAAAAAGGCGTGGATATCCGTAAAGTAACAGGTTCAGGCAATAACGGACGTGTTGTAAAAGAAGATATCGACAGCTTTGCAAATGGAGGAGCGGCTCAAGAAGCGGCACCGCAAGAAACAGCTGCACCTCAGGAAACAGCTAAACCTGCAGCGGCTCAGGCTCCTGAAGGCGAATTCCCTGAAACACGCGAAAAAATGAGCGGTATCCGTAAAGCGATCGCGAAAGCAATGGTGAACTCTAAGCATACTGCACCGCACGTAACTCTTATGGATGAAGTTGACGTAACAAATCTTGTTGCTCACCGCAAACAGTTCAAACAAGTTGCTGCTGATCAAGGCATCAAGCTGACTTATCTGCCTTACGTCGTCAAAGCATTAACATCCGCTTTGAAAAAATTCCCTGTTTTAAACACATCTATTGATGATAAAACAGATGAAGTGATCCAAAAACATTACTTCAACATCGGAATTGCAGCGGATACCGAAAAAGGCCTGCTTGTGCCGGTAGTGAAAAATGCCGACCGTAAAGCCGTTTTCGAAATCTCTGATGAAATCAACAGCCTTGCTACAAAAGCGCGTGAAGGCAAGCTTGCACCTGCGGAAATGAAAGGCGCTTCTTGCACGATCACAAATATCGGTTCTGCCGGAGGCCAATGGTTCACACCGGTTATCAACCACCCAGAGGTTGCGATTCTCGGTATCGGCCGTATTGCTGAAAAAGCGATCGTCCGTGACGGTGAAATTGTAGCTGCTCCTGTCTTAGCTCTTTCTCTCAGCTTTGACCACCGTATGATTGACGGAGCAACTGCACAAAATGCGTTAAACCACATCAAGCGTTTACTGAACGATCCACAACTTATTTTAATGGAGGCGTAA	MAFEFKLPDIGEGIHEGEIVKWFVKPNDEVEEDDVLAEVQNDKAVVEIPSPVKGKVLELKVEEGTVATVGQTIITFDAPGYEDLQFKGSHDSGDAKTEAQVQSSAEAGQDIAKEETPKEPAKETGAGQQDQAEADPNKRVIAMPSVRKYAREKGVDIRKVTGSGNNGRVVKEDIDSFANGGAAQEAAPQETAAPQETAKPAAAQAPEGEFPETREKMSGIRKAIAKAMVNSKHTAPHVTLMDEVDVTNLVAHRKQFKQVAADQGIKLTYLPYVVKALTSALKKFPVLNTSIDDKTDEVIQKHYFNIGIAADTEKGLLVPVVKNADRKAVFEISDEINSLATKAREGKLAPAEMKGASCTITNIGSAGGQWFTPVINHPEVAILGIGRIAEKAIVRDGEIVAAPVLALSLSFDHRMIDGATAQNALNHIKRLLNDPQLILMEA	PGPT0001390_4480	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
D1-12_00632	1413	pdhD_1		Dihydrolipoyl dehydrogenase	ATGGTAGTAGGAGATTTCCCTATTGAAACAGATACTCTTGTGATTGGTGCGGGACCTGGCGGCTATGTAGCTGCCATCCGCGCTGCTCAGCTTGGACAAAAAGTAACAGTCGTTGAAAAAGCAACTCTTGGAGGCGTTTGTCTGAACGTCGGCTGTATTCCTTCAAAAGCGCTCATCAATGCAGGCCATCGTTACGAGAATGCAAAACATTCAGATGACATGGGAATCACTGCTGAGAACGTAACAGTTGACTTTACAAAAGTCCAAGAATGGAAAGCTTCTGTTGTAAATAAGCTTACCGGCGGTGTTGCAGGTCTTTTAAAAGGAAATAAAGTGGACGTTATAAAAGGGGAAGCTTATTTCGTAGACAGCAACTCTGTCCGTGTAATGGATGAGAACTCTGCACAAACATACACATTTAAAAACGCAATCATTGCTACCGGTTCTCGCCCTATCGAATTGCCAAACTTCAAATATAGCGAACGCGTTCTGAACTCTACAGGCGCACTTGCGCTTAAAGAAATTCCGAAAAAGCTCGTTGTTATCGGCGGCGGATATATCGGTACTGAGCTTGGAACAGCGTATGCGAACTTCGGAACTGAATTGGTTATTTTAGAAGGCGGAGATGAAATTCTTCCTGGCTTCGAAAAACAAATGAGTTCTCTCGTTACCCGCAGACTGAAGAAAAAAGGCAACGTTGAAATCCATACAAGCGCTATGGCTAAAGGCGTTGAAGAAAGACCTGACGGCGTAACAGTTACATTCGAAGTAAAAGGCGAAGAAAAAACGGTTGATGCTGATTACGTATTAATCACTGTCGGACGCCGTCCGAACACTGACGAGCTCGGCCTTGAGCAAGTCGGTATCGAAATGACTGACCGCGGTGTCATTAAAACAGACAAGCAGTGCCGCACAAACGTACCGAACATTTACGCAATCGGTGACATCATTGACGGACCTCCATTGGCTCACAAAGCGTCTTACGAAGGTAAAATCGCTGCGGAAGCTATTTCAGGAGAGCCGGCTGAAATCGATTACCTCGGTATTCCGGCGGTTGTATTCTCTGAGCCTGAACTGGCTTCTGTCGGTTACACTGAAGCACAGGCGAAAGAAGAAGGCATTGAAGTCGTTGCAGCTAAGTTCCCGTTTGCAGCAAACGGACGTGCGCTGTCTCTTAACGAAACTGACGGCTTCATGAAGCTGATCACTCGTAAAGAAGACGGTCTTGTAATCGGTGCGCAAATTGCCGGCGCAAGCGCTTCTGACATGATTTCTGAATTGAGCCTGGCGATCGAAGGCGGAATGACTGCTGAAGATATCGCAATGACAATTCACGCTCACCCGACATTGGGCGAAATCACTATGGAAGCTGCCGAAGTAGCAATCGGAAGCCCGATCCATATCGTAAAATAA	MVVGDFPIETDTLVIGAGPGGYVAAIRAAQLGQKVTVVEKATLGGVCLNVGCIPSKALINAGHRYENAKHSDDMGITAENVTVDFTKVQEWKASVVNKLTGGVAGLLKGNKVDVIKGEAYFVDSNSVRVMDENSAQTYTFKNAIIATGSRPIELPNFKYSERVLNSTGALALKEIPKKLVVIGGGYIGTELGTAYANFGTELVILEGGDEILPGFEKQMSSLVTRRLKKKGNVEIHTSAMAKGVEERPDGVTVTFEVKGEEKTVDADYVLITVGRRPNTDELGLEQVGIEMTDRGVIKTDKQCRTNVPNIYAIGDIIDGPPLAHKASYEGKIAAEAISGEPAEIDYLGIPAVVFSEPELASVGYTEAQAKEEGIEVVAAKFPFAANGRALSLNETDGFMKLITRKEDGLVIGAQIAGASASDMISELSLAIEGGMTAEDIAMTIHAHPTLGEITMEAAEVAIGSPIHIVK	PGPT0001380_4706	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
D1-12_00633	375			hypothetical protein	ATGCGCTACCGTACGGTGATTCCCTTTTTTTTGATGCTGTTCGTTCTGTCAAGCTGTTCGGTTTCTACTGTCAGTCCATTCACAAAAAACCGGATCGACAGCATTCATCACACTCAAATCTTGTTTTTTTCCGATGAAAATCATATAGATAAAGAAGTGCCTTATTACGATGCGATCCTTGATTTAGAAAAGAAATATCCCCATCATGTCGATCAAATGAAGGTTTATGACAACAGAAAGGGATGGGAAGAGGAAATCAACACGTTCCCTGCGCTGATGGTGATCAATCATCGGCATGTGGTCATGAAGATTGAGGGATCCGTAAAGAAAAAAGAGGATATCATCAAACCTATGCAGCATGTTCTTGCACAATAA	MRYRTVIPFFLMLFVLSSCSVSTVSPFTKNRIDSIHHTQILFFSDENHIDKEVPYYDAILDLEKKYPHHVDQMKVYDNRKGWEEEINTFPALMVINHRHVVMKIEGSVKKKEDIIKPMQHVLAQ				NA	NA	NA	NA	NA
D1-12_00634	801			hypothetical protein	ATGTATAAAGCCGCTGCAGCCGTCGTATGTATGTGCTTACTCGCCGGCTGCCAATCAAATGAAAAAATGCAAACAAACAAACCCCATTCTCAAGCCGCGGCCAATCATGCCAAACGGGAAAACCACCATACAAAAGAGGAAAAACAGAAAAAACAGAAGGCGGAGCCTCGTTACTATATCAATCCTAAAACCTTTTCTGTGGAAAAAATGGATGAACAGAAAGAGAAAAAACCGATCGCATTGGTAACGATCGATGACGCGCCTGATCAGCATGCCGCTGAGATTGCGGACAAACTGCATGATCTCAATGCGTCAGCGATCTTTTTTGTAAACGGACATTTTTTGAAAAAAGATGAAAATAAGAAAGCGCTTAAGCATATTCATGAGTTAGGTTTTATGATCGGAAATCATACAATGACTCATCAAAACTTAAAAGATCTTTCCGAACAAAAACAACGGGAAGAAATCATTGGCGTCAATAAAGCGGTTGAAAAGGTAATAGGAGAGAAACCCGCATTTTTCAGGGCGCCTTTCGGAAGCAATACGGACTACAGTGACAGACTTATAAAAAAAGAAGGCATGGTGAAAATGAACTGGACCTTCGGGTATGATTGGGATCAGAAATATCAATCCAAAAAAGCGCTTACCGATATCACACTGAGCAGTCCTTATCTGCGGGACGGGGCCAACATATTGATGCATGACCGGAAATGGACGGCAGAAGCCATGCCGGACATTGTAAAAGGATTGCGTAATAAAGGATATACTGTGATTGACCCTCGAGCTATAAAAAGACCGTAA	MYKAAAAVVCMCLLAGCQSNEKMQTNKPHSQAAANHAKRENHHTKEEKQKKQKAEPRYYINPKTFSVEKMDEQKEKKPIALVTIDDAPDQHAAEIADKLHDLNASAIFFVNGHFLKKDENKKALKHIHELGFMIGNHTMTHQNLKDLSEQKQREEIIGVNKAVEKVIGEKPAFFRAPFGSNTDYSDRLIKKEGMVKMNWTFGYDWDQKYQSKKALTDITLSSPYLRDGANILMHDRKWTAEAMPDIVKGLRNKGYTVIDPRAIKRP	PGPT0018645_3081	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-12_00636	1473	speA_1	COG1982	Arginine decarboxylase	TTGCCGCAACATGAAACACCCCTGTACAGCGGACTGAAAAAGCACGCGGACAGACAGCCTGTCCAATTCCACATTCCGGGCCATAAAAAAGGCGCGGGAATGGACCCGGAATTCAGACAATTTATCGGAGAAAACGCGTTAAGCATAGATTTAATTAATATCGAACCTCTGGATGATTTACATGCGCCAAAGGGCATAATTAAAGAAGCCCAGGATCTGGCCGCTCGAGCATTCGGCGCAGACCATACCTTCTTTTCCGTACAAGGGACGAGCGGCGCCATTATGACGATGGTCATGGCCGTATGCGGACCCGGAGATAAAATCATCATCCCGAGAAACGTTCATAAATCCATTATGTCGGCCATTGTATTTTCCGGAGCGGTGCCGATTTTTATACACCCGGAAATTGACGATGAGCTCGGAATTTCTCACGGCATTACGCTTGAGTCCGCCGAGCGGGCTTTGACGGAGCACCCTGATGCAAAAGGCCTGCTTGTCATAAATCCGACGTACTTCGGTGTGGCAGCTGACTTGAGCAGCATTGTAAAGCTCGCGCATTCTTTCAATGTGCCTGTGCTTGTCGATGAAGCGCACGGCGTGCATATTCATTTTCATGATAAGCTTCCTCTGTCCGCCATGCAGGCGGGCGCTGATATGGCAGCCACAAGCGTGCACAAATTGGGAGGCTCCCTGACGCAGAGTTCCATTTTAAATGTGAGAGAAGGCCTTGTTTCCAAAGAAAGAGTACAGTCGATTTTAAGCATGCTGACGACAACGTCAACATCCTATCTGCTTCTCGCTTCACTGGATGTCGCAAGAAAACGCCTCGCTACAGAAGGCCGCGATCTTCTTGAAGATACGATTCTGCTGGCGGATCAGACACGGGAACGCCTCAATCAAATTGAAGGCATCCGCTGTGTCGGCGAAGAAATCACAGGGTCTAAAGCTGCCTTCAGTTATGATCCGACTAAATTAATCATTTCGGTCAAAAACCTCGGCCTGACGGGTCATGACGTTGAAAAATGGCTCCGCGAATCATATAATATCGAAGTCGAGCTGTCCGATTTGTATAATATTTTATGTATTTTCACCCCCGGAGACAGAGCAGGAGATGCCGACCGTCTTGTAAGCGCGCTTACAGACATTTCAAAGCAGGCTTCCGCCAATGACTATGCTCATCAGCAAACCGAAGTTCTGCTTCCTGAAATTCCTCTGTTAGCGATGACGCCAAGAGACGCGTTTTACGCAAATACGGAAGTCATTCCGTTAAAAGAATCCGCGGGACGGATCATCGCAGAGTTTGTCATGGTGTACCCGCCGGGAATTCCGATCTTTATTCCGGGTGAGATTATTACTGAAGAAAATATCAGCTACATTTTTAAAAACTTGGACGCCGGCCTTCCTGTGCAGGGTCCCGAAGATGCAACGCTTGAAATGATCAGAGTCATCAAAGAGCAAAAAGCCATCCAATAA	MPQHETPLYSGLKKHADRQPVQFHIPGHKKGAGMDPEFRQFIGENALSIDLINIEPLDDLHAPKGIIKEAQDLAARAFGADHTFFSVQGTSGAIMTMVMAVCGPGDKIIIPRNVHKSIMSAIVFSGAVPIFIHPEIDDELGISHGITLESAERALTEHPDAKGLLVINPTYFGVAADLSSIVKLAHSFNVPVLVDEAHGVHIHFHDKLPLSAMQAGADMAATSVHKLGGSLTQSSILNVREGLVSKERVQSILSMLTTTSTSYLLLASLDVARKRLATEGRDLLEDTILLADQTRERLNQIEGIRCVGEEITGSKAAFSYDPTKLIISVKNLGLTGHDVEKWLRESYNIEVELSDLYNILCIFTPGDRAGDADRLVSALTDISKQASANDYAHQQTEVLLPEIPLLAMTPRDAFYANTEVIPLKESAGRIIAEFVMVYPPGIPIFIPGEIITEENISYIFKNLDAGLPVQGPEDATLEMIRVIKEQKAIQ	PGPT0007770_1706	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
D1-12_00637	267			hypothetical protein	TTGGAATATCAATATCCGATGAATGAGGACTGGACGACAGAGGAGGCCGTGGATGTCATTGCTTTTTTTCAGCAGGTGGAAAACGCCTATGAAAAAGGAGCTGACCGAGACAGACTTCTGAATGCGTACCGCCGCTTTAAAGAAATCGTTCCCGGGAAAGCGGAAGAAAAGAAAATCTGCAGCCAATTTGAAGCTGACAGCACCTATTCCCCGTATCGGACTGTGAAACAGGCGAAACAATCAGATCAAGCGATTATCAAAATGTAG	MEYQYPMNEDWTTEEAVDVIAFFQQVENAYEKGADRDRLLNAYRRFKEIVPGKAEEKKICSQFEADSTYSPYRTVKQAKQSDQAIIKM				NA	NA	NA	NA	NA
D1-12_00638	633			hypothetical protein	ATGACTCAGATGCGTTTTACAAAAGAAGACTTCGATACATTTACAATAGAAGGTTTAGATCCGCGCATGGAGGTGTTAAAAGAACAAGTCCGTCCGAAGCTGACCTTGTTAGGAGAGCATTTCGCACCGACATTGTCAGCATTGACAGGAGATGAAATGTTCCCGCATGTCGCCAAGCACGCGAGAAGATCTGTCAACCCGCCGGCTGACAGCTGGGTTGCCTTTGCCAACAGCAAACGCGGGTATAAGAAACTCCCTCACTTTCAGATCGGTTTATGGGACACCCATATGTTTGTATGGTTTGCCATCATTTATGAATCTCCGATAAAAGAGGAATACGGCAGATTGCTGGAAGCGAAGCAGGAGGACATCACAAAACAGATTCCCGGTCATTTTGTATGGTCGCCGGATCATACGAAGCCAGGTGCGTACAAGCAGTCCGACATGGATCAGGAGCAGCTGAAAACATTATTTGAACGCCTGCAGACAGTGAAAAAAGCAGAGCTTTTGTGCGGCATTCAGCTGCAAAAAGAAGACGTGATCAACATGAACAACAATGAATTCCTGCAAACCATTGAAGACGCTTTTAGGAAGCTTTCCTTTTTATACACACTGACTCAGAAAGTCTCATAA	MTQMRFTKEDFDTFTIEGLDPRMEVLKEQVRPKLTLLGEHFAPTLSALTGDEMFPHVAKHARRSVNPPADSWVAFANSKRGYKKLPHFQIGLWDTHMFVWFAIIYESPIKEEYGRLLEAKQEDITKQIPGHFVWSPDHTKPGAYKQSDMDQEQLKTLFERLQTVKKAELLCGIQLQKEDVINMNNNEFLQTIEDAFRKLSFLYTLTQKVS				NA	NA	NA	NA	NA
D1-12_00639	177			hypothetical protein	GTGAAGGAAGGATTCAGGGAGGAAAAAAATAACCGTGTAGCTGTCTGGAGACTAGAGGTTGATTATGAATTGGCAACCCTGTATGAGGCCATGCAAAAAGAGAATGAAGATCAAATCGATCTCAGCAAAAGAAAACTGGAACGTCTCAGAAAAGAATGGATTCGGCTTAACGGATAA	MKEGFREEKNNRVAVWRLEVDYELATLYEAMQKENEDQIDLSKRKLERLRKEWIRLNG				NA	NA	NA	NA	NA
D1-12_00640	798	suhB	COG0483	Inositol-1-monophosphatase	ATGACAAATTGGACGGAAATTGATGATATCGCAAAAAAATGGGTAAAAGAAGCCGGAACGAGAATCAGACAATCCATGCAGGAAAGCTTGACGATTGAAACAAAATCAAATCCGAATGATTTAGTCACAAATATTGATAAAGAGACGGAACGCTTTTTCATTGACCGTATACAAGGAACTTTTCCCGGACACCGGATTCTCGGAGAAGAAGGGCAGGGGGATAAACTCCGCTCCCTTGACGGAATTGTCTGGATCATTGATCCGATTGACGGAACGATGAATTTTGTCCATCAAAAGCGGCATTTCGCGATCTCCATCGGCATCTTTGAAGACGGAAAAGGCAAAATCGGCTTAATTTATGATGTGATGCAGGACGAACTGTATCACGCATTCAGCGGAAAAGGGGCTTATCTGAACAATACGCCGCTTGCTCCTTTAAAAGAAGCTTCCATTGAAGAAGCCATTATTGCAATCAATGCCACATGGGTGACGGAAAACAGAAGGATTGACCCGAGTATTTTGGCGCCGCTCGTAAAACGGGTCAGAGGAACGCGTTCCTACGGTTCGGCGGCACTTGAGCTGGCCAGTGTTGCGGCCGGCCGCATTGACGCATACATTACGATGAGGCTCGCGCCGTGGGATTACGCTGCCGGCTGCGTGCTGCTGAACGAAGTCGGGGGCATTTACACGACCACAGACGGCGAACCGTTTACGTTTTTAGACAACCACAGCGTGCTTGCGGGCAATCCGGCAATACATAAAATTATCTTTGACGATTATTTACATGCTGACAGGTAG	MTNWTEIDDIAKKWVKEAGTRIRQSMQESLTIETKSNPNDLVTNIDKETERFFIDRIQGTFPGHRILGEEGQGDKLRSLDGIVWIIDPIDGTMNFVHQKRHFAISIGIFEDGKGKIGLIYDVMQDELYHAFSGKGAYLNNTPLAPLKEASIEEAIIAINATWVTENRRIDPSILAPLVKRVRGTRSYGSAALELASVAAGRIDAYITMRLAPWDYAAGCVLLNEVGGIYTTTDGEPFTFLDNHSVLAGNPAIHKIIFDDYLHADR	PGPT0018535_5039	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
D1-12_00641	453			hypothetical protein	ATGCTGACAGGTAGAGATTTTGAAGAAGAAGATCTCGGGTTTCTGGAGCAGCTGGCGGCATCACACCCGGTGTGGAAAAACGAAGAGTTCGGAACAAAAAATGCGGCGGAGTTTATGCTTGCATACTCCATGTACAATGGAACGTGGCTCGTATGGGAGATTGACGGCGCTCCTGCCGTCGTCAGTTTTCATTTGGAATGGGCGCCTTCAAACGGAAAACCGTGGCTCGGAACCGTGGCCGTCGCTCCGGAGGCAAAAGAGAAAGGAATCGGACGCGCGGTCATTGAAGAGATTGCGGGCCGGCTGAGAGGGGAGCATAAAGCGATGTTTTCAGCCGTTCCCCTGGACAGGCAGGAATGGGTTTTGTTTTTAAGCCAATGCGGCTTTGAACAGCTTAAGCTTGAAAAAGACGATCGGGAAAAAACATATATGATCATGGTGAAGCCATTGTGA	MLTGRDFEEEDLGFLEQLAASHPVWKNEEFGTKNAAEFMLAYSMYNGTWLVWEIDGAPAVVSFHLEWAPSNGKPWLGTVAVAPEAKEKGIGRAVIEEIAGRLRGEHKAMFSAVPLDRQEWVLFLSQCGFEQLKLEKDDREKTYMIMVKPL				NA	NA	NA	NA	NA
D1-12_00642	1566	npr	COG3227	Bacillolysin	GTGGGTTTAGGTAAGAAATTGTCTGTTGCTGTCGCCGCTTCCTTTATGAGTTTAACCATCAGTCTTCCGGGTGTTCAGGCCGCTGAGAATCCTCAGCTTAAAGAAAACCTGACGAACTTTGTGCCGAAGCATTCTTTGGTGCAATCTGAATTGCCTTCAGTCAGTGACAAAGCAATCAAGCAATACTTGAAACAAAACGGCAAAGTCTTCAAAGGCAACCCTTCTGAGAGACTGAAGCTGATTGACCACACGACCGATGATCTCGGCTACAAGCACTTCCGTTATGTGCCTGTCGTTAACGGTGTGCCTGTGAAAGACTCGCAAGTCATTATTCACGTCGATAAATCCAACAATGTCTATGCGATTAACGGTGAATTAAACAACGATGCTTCTGCCAAAACGGCAAACAGCAAAAAATTATCTGCAAATCAGGCGCTGGATCATGCTTTTAAAGCAATCGGCAAATCACCTGAAGCCGTCTCTAGCGGCAACGTTGCAAACAAAAACAAAGCCGAGCTGAAAGCAGCGGCCACAAAAGACGGTAAATACCGCCTCGCCTATGATGTAACCATCCGCTACATCGAACCGGAACCAGCTAACTGGGAAGTAACCGTTGATGCGGAAACAGGGAAAGTCCTGAAAAAGCAAAACAAAGTGGAGCATGCCGCTGCAACCGGAACAGGTACGACTCTTAAAGGAAAAACGGTCTCATTAAATATTTCTTCTGAAAGCGGCAAATATGTAATGCGTGATCTTTCTAAACCTACCGGAACGCAAATTATTACGTACGATCTGCAAAACCGACAATATAACCTGCCGGGCACGCTCGTATCAAGCACTACAAACCAGTTCACAACTTCTTCTCAGCGCGCTGCCGTTGATGCGCATTACAATCTCGGCAAAGTGTACGATTATTTCTATCAGACGTTTAAACGCAATAGCTACGACAATAAAGGCGGCAAAATCGTATCTTCCGTTCATTACGGCAGCAAATACAATAACGCGGCCTGGATCGGCGACCAAATGATTTACGGTGACGGTGACGGCTCATTCTTCTCGCCTCTTTCCGGTTCAATGGACGTAACGGCCCATGAAATGACACACGGTGTTACACAGGAAACAGCCAACCTGAACTATGAAAATCAGCCGGGCGCTTTAAACGAATCCTTCTCTGATGTATTCGGATACTTCAATGATACTGAGGACTGGGATATCGGTGAAGATATTACGGTCAGCCAGCCGGCTCTCCGCAGTTTATCCAATCCGACAAAATACGGACAGCCCGACCATTACAAAAATTATCGAAACCTTCCGAACACTGATGCCGGCGACTACGGCGGCGTGCATACAAACAGCGGAATTCCGAACAAAGCCGCTTACAACACGATTACAAAAATCGGTGTGAAAAAAGCGGAGCAGATTTACTACCGTGCACTGACGGTATATCTCACTCCGTCATCAAGCTTTAAAGATGCAAAAGCAGCTTTGATTCAATCAGCGCGGGACCTTTACGGCTCTCAAGACGCTGCAAGCGTAGAAGCGGCCTGGAATGCGGTCGGCTTGTAA	MGLGKKLSVAVAASFMSLTISLPGVQAAENPQLKENLTNFVPKHSLVQSELPSVSDKAIKQYLKQNGKVFKGNPSERLKLIDHTTDDLGYKHFRYVPVVNGVPVKDSQVIIHVDKSNNVYAINGELNNDASAKTANSKKLSANQALDHAFKAIGKSPEAVSSGNVANKNKAELKAAATKDGKYRLAYDVTIRYIEPEPANWEVTVDAETGKVLKKQNKVEHAAATGTGTTLKGKTVSLNISSESGKYVMRDLSKPTGTQIITYDLQNRQYNLPGTLVSSTTNQFTTSSQRAAVDAHYNLGKVYDYFYQTFKRNSYDNKGGKIVSSVHYGSKYNNAAWIGDQMIYGDGDGSFFSPLSGSMDVTAHEMTHGVTQETANLNYENQPGALNESFSDVFGYFNDTEDWDIGEDITVSQPALRSLSNPTKYGQPDHYKNYRNLPNTDAGDYGGVHTNSGIPNKAAYNTITKIGVKKAEQIYYRALTVYLTPSSSFKDAKAALIQSARDLYGSQDAASVEAAWNAVGL	PGPT0020995_414	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
D1-12_00643	1938			hypothetical protein	ATGTCAGAGATTTTCAGTCATTTTATTCAGCATTTCGACAGATATTTCATTTTAAGCAGACAGAGCGTGTTGATCATTCAGTGGTCAGCCGTCTGCCTTGCTGTTTTATACGCGCTGACTTTTCATCCGAAAATCAGCCGTGAGAGAGTTTGGTTTTATTCAGGAATTCTGCTCAGGGCCGTATTATTAGCGGGCATAACAGTTGAATTGGTTCATCAGGTGCAGAGTACTCACTTTAGCGCGCACTATTTGATATCGGAAGAAAGCGAGCTTCTGCCGATCGTTCATCTCTTAATGTATGGGTATGTGCTGCTCACCGCGTTTCACTATATCCTCATGCCGCAGGAGCAGAGGGGAAAGGGCATGTTTTATACGTTTGATCTCACTGTGGTGACACTGCCCGTCATTCAGCTGATCTTCAGCTTTTTCGCTTTCTGGAATATCAGTCCCGATGCGATGGCGGGGGAGGATATAGTTTCGATGCTATGTTTTATTACGGTTGTTTTACTTCTGCTGATTTCTATGAATGTTTTATTCTTTAAAATGTATTGGAAACCGAGACCCGTTTTTATCGGCGTGTTTTATGCCGGGGTCATCGGGCTGTTGGTATGGGTGCTCGCTGCGCCCTCGGCCGGTGTAACAAAAGATTACGGCAGACTTCTCCCATTTACGGTGTATTTAACGATGGCCGGTTTTCTGATGACCCATCATTTATTTCATCGGTCAGACAGGATCAGACAGCGGACGAAAAGCTTTCTTGCGGCGGCAACGGCCGCTGGTTTTATTGTCTTTTTGAATCCGGTATACAATGCGGGCGATGCAGCTTTTGCGGTTTCAAAGCCGATAGCTGAAGATTCTGTTGATAATGTGGGTGAACATATCACTTCAGACCAAGCGGAACGGATCCTTACTTCATTTTTTCCGGCTGAGAATCCGATTTATTTAACAGAAACCAATCAGGACCTCCATTACTTTTACCGTTTTAAAACGGAAGATTACGAAGCGGAAGTGGACGAGGTTTCCCGATTGATTACAAATTATCAATATCTTAAAAAACCGGAAGGCCGCACTTTAACAGAAGAGGAATACCGGAAAAAGTCGCTGGATTTCTTGTCGGCGCACGGCCGAAAAATAAAAACACAAGGGATTCAGACAACAGTGAGAAAAGAAGACGGACAGTTTGTCGTGGAGATTGCGCCGAAAAGACAAGGGGCGAAACACGAAGATTCGGGCACAGTATTATACTGGGAAAAAGACACCATTATGGGTTTTTCAGAAGATCCGTCTATTTATCTGCTTGAGTCACTGCCGCAGGTGCATATGAAGGAAAAAGACATAGTGAAAGCATCAAAAGCCGCCTTTCGTACGCTGCAAATGCCTGATCAGACATTTGAAATCACAAATACAGATATAAACAGCCTGATCGGCAGCAGTTTGACCGTAACTGCGAATAACGGAACGGAGCTGATATTTGATGCAGTATCCGGACGTCTTATGAAAATCAGAGTCTCACCTGACAGCACCGTTTTAACAAAAACAGAACTTCAGAAGAAGCTTTTTTCATTGCTGGACGCGGATACTTCAAAGCTTAGACAAATTGATAAATCGGAAGGCAATCTCGTTTTTGAAAACTCTGAAGGCACATTCGTTTATACGCTTCGGAATGAAGAAGGCATGAAAGAGGCCTCATTCTACGGACAGGTAAGTGCCAAAACATTCCCGCATACATACAGAGACGGGCAAACAGCATTCAAAAAAGTGGCGGCAGCTTATAACGGCATCATTTACAAAAAGCGGGTGAAGCCTGTCATAGCGGTGAAAGACGGCGTAACATATAACGCATGGCTCGTCATTATTCAGCCGTTCGGTTCAAACCGTCATGACGCATATGTAGTGAACGCGGATACTTACGAGGCGGTGAACCTTTATGAACAATAA	MSEIFSHFIQHFDRYFILSRQSVLIIQWSAVCLAVLYALTFHPKISRERVWFYSGILLRAVLLAGITVELVHQVQSTHFSAHYLISEESELLPIVHLLMYGYVLLTAFHYILMPQEQRGKGMFYTFDLTVVTLPVIQLIFSFFAFWNISPDAMAGEDIVSMLCFITVVLLLLISMNVLFFKMYWKPRPVFIGVFYAGVIGLLVWVLAAPSAGVTKDYGRLLPFTVYLTMAGFLMTHHLFHRSDRIRQRTKSFLAAATAAGFIVFLNPVYNAGDAAFAVSKPIAEDSVDNVGEHITSDQAERILTSFFPAENPIYLTETNQDLHYFYRFKTEDYEAEVDEVSRLITNYQYLKKPEGRTLTEEEYRKKSLDFLSAHGRKIKTQGIQTTVRKEDGQFVVEIAPKRQGAKHEDSGTVLYWEKDTIMGFSEDPSIYLLESLPQVHMKEKDIVKASKAAFRTLQMPDQTFEITNTDINSLIGSSLTVTANNGTELIFDAVSGRLMKIRVSPDSTVLTKTELQKKLFSLLDADTSKLRQIDKSEGNLVFENSEGTFVYTLRNEEGMKEASFYGQVSAKTFPHTYRDGQTAFKKVAAAYNGIIYKKRVKPVIAVKDGVTYNAWLVIIQPFGSNRHDAYVVNADTYEAVNLYEQ				NA	NA	NA	NA	NA
D1-12_00644	270			hypothetical protein	ATGAACAATAAAGAAAAAAAGGCTGTCTTCTTCGATTTATACGACCTTTATAAGGAAGGAGAACTCGAAGGCGGCACGCTCCAGTGGATGAAAGAACATGAGCCTTTATTCGGAGCTGAGGCGGAAAACAGAAAAGGGCAGAATGAACATGGTTTGAATGCGCCATCCGGCGATATCCGCCAGATTAAATATATGAAATGCCTGACGTATGGATTGTACGGATTCTTCATTGTGCTCTCAATCTGGATGACAGTGTGGTTTTACTTTTAA	MNNKEKKAVFFDLYDLYKEGELEGGTLQWMKEHEPLFGAEAENRKGQNEHGLNAPSGDIRQIKYMKCLTYGLYGFFIVLSIWMTVWFYF				NA	NA	NA	NA	NA
D1-12_00645	522	ylaC		RNA polymerase sigma factor YlaC	ATGAAAAACAAGATGTCAATTGAACAGCTGTACCGTGAACATTATCAAGATATTATGTATTACCTTTACAGACGCACACAACATGCTGAGACCGCTAAAGACCTCGCTCAGGATACATTTATGAAAGCATTTAACGGGCTTGAGTCGTTTAAGGGCCATTCGTCTATCAGAACGTGGCTCTATGCAATTGCCCATCATACCTTCATCAATTGGTACAGACGTGATAGAAAATATCAATTTTCAGATATCACCCTGAATGAAGGGCTTCAGCAAACAACATATGAACTGCCGGAGCATTATGTCGCCCGGACAGACACTCAGAATGCGCTGACCGGGCAGATTCAGCGTCTGAAAAGCGATCAGCAGACCGTTTTAATTTTAAGGGAATTTCAAGAGCTGTCTTACGAAGAGATTGCTGATGTTTTGGACTGGAGTCTTTCGAAGGTGAAGAGCACCCTGTACAGGGCAAGAATGCAGCTGAAACAGCACTTGGCGGAAAAAAGGAAGGACGGACAGATATGA	MKNKMSIEQLYREHYQDIMYYLYRRTQHAETAKDLAQDTFMKAFNGLESFKGHSSIRTWLYAIAHHTFINWYRRDRKYQFSDITLNEGLQQTTYELPEHYVARTDTQNALTGQIQRLKSDQQTVLILREFQELSYEEIADVLDWSLSKVKSTLYRARMQLKQHLAEKRKDGQI	PGPT0014960_11002	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-12_00646	294			hypothetical protein	ATGACTTGCTGTTTAGTGAGAGATTTACTCCCTTTATATATTGAAGGCGATTGTGAAACAGAAACGGAGCGGTTTATTTCCCGCCATCTTGAATCATGCGGTAAGTGCGGGAGTTTATATCATATGATGAAGGAGCCGCTTGACCTCGGCAGCCCTGAGATGAAGGCGCCAGCCTGTTATGCAGAAGAAGAAAGGCGGTTTAAGGAACGGTATTACGGGAAGCTGCTGATAAAAGCAGCCTGTTTGTTCGGCGCTGTTTTCTTTATCATGCTGATCCTTAAACTGCTGATTTAA	MTCCLVRDLLPLYIEGDCETETERFISRHLESCGKCGSLYHMMKEPLDLGSPEMKAPACYAEEERRFKERYYGKLLIKAACLFGAVFFIMLILKLLI				NA	NA	NA	NA	NA
D1-12_00647	618			hypothetical protein	ATGAAAACATCTTTTTTGAAGAAAACCGCTGTAACTGCCGCCGCAACCGCCTCAGCCGCCTTGCTTGCATTCAGTCCGCTTGATTCTGCCGGCGCAAAAACGATCCAGGCAAATGAACCGCATATCCTGCAGGCTTCCGCAGAGAAAACACCGGAAGACGCGGCAAAACTCATTGACATCATCAGCCAATCGATTTACGAAAAAGACGGTGTCTATTATTTTGACAGCGAAAAAGCGGTGGAATTGGGATTAGATCAAGAACAAGCCCAGATCATTCAAAAGCTGTGGGACAGTTCAACCGAATTTTTAACCGTTCTTTCCCAATGTATTGAGAAAACGGACGGCGAATATACATTTAATAAAGAAAAAGCGGTGGAGCTCGGCTTTACGGAAAAAGAGGCCCTTATCGTTGATCAGCTGTTCACCGCTTTTTCCCAAAGTCTTCATATCCTTCAATCTGCGCTGATTGAAGAAGACGGTGTGTATACGTTTGATCAGAACCTTGCTGAAAAAGCAGGAGCAGGAAAAAAAGAAGCAAAGCTGTGTGCCGGATTCTTTAATTCACTGCCCCAGGAATTGCTTGAAGGCATTTATACAGCCTTTCATCCGGCTGAGTAA	MKTSFLKKTAVTAAATASAALLAFSPLDSAGAKTIQANEPHILQASAEKTPEDAAKLIDIISQSIYEKDGVYYFDSEKAVELGLDQEQAQIIQKLWDSSTEFLTVLSQCIEKTDGEYTFNKEKAVELGFTEKEALIVDQLFTAFSQSLHILQSALIEEDGVYTFDQNLAEKAGAGKKEAKLCAGFFNSLPQELLEGIYTAFHPAE				NA	NA	NA	NA	NA
D1-12_00648	189			hypothetical protein	ATGAAAAAATTGAATTGGCTCTTATTATTATTTGCATTCGCAGCAGTCTTCAGCATGATGCTGATCGGCGTATCAATCGCTGAGAAAAGCGCATGGGGCATCATCGGAAGCATTGTTCTCGTTATCGCCATGATGGGAAGCGGTTTCACCGTAAAGAAAAAAATGCGCGAACAGGGACTGCTTGATTAA	MKKLNWLLLLFAFAAVFSMMLIGVSIAEKSAWGIIGSIVLVIAMMGSGFTVKKKMREQGLLD				NA	NA	NA	NA	NA
D1-12_00649	1839	typA	COG1217	GTP-binding protein TypA/BipA	GTGAAACTTCGAAACGATCTTCGCAACATCGCGATTATTGCCCACGTTGACCATGGGAAAACGACTTTGGTAGACCAATTGCTTCACCAAGCCGGAACATTCCGTGCCAACGAAAATATTGCCGAGCGCGCAATGGATTCAAACGATCTTGAACGTGAACGCGGTATTACAATTCTTGCGAAAAATACTGCGATTAACTATAAAGATACACGCATTAATATTTTGGACACTCCGGGACACGCCGACTTCGGCGGAGAGGTAGAACGGATTATGAAAATGGTTGACGGCGTTCTGTTAGTCGTTGACGCATATGAAGGCTGCATGCCGCAAACCCGTTTTGTACTGAAAAAAGCCCTTGAGCAGAACTTAAATCCGGTTGTCGTCGTAAACAAAATCGACCGTGATTTCGCCCGTCCGGAAGAAGTCATTGATGAAGTGCTTGATTTGTTCATCGAGCTTGACGCAAACGAAGAACAGCTTGAGTTCCCTGTCGTCTATGCTTCTGCGATTAACGGAACGGCAAGTCTGGATCCGAAAAAGCAGGACGAAAATATGGAATCACTGTATGAAACGATTCTTGAACATGTCCCTGCCCCGGTTGATAACGCCGAAGAGCCTCTTCAATTCCAAGTGGCGCTGCTTGATTACAATGATTATGTCGGCCGTATCGGTATCGGACGCGTTTTCCGCGGCACGATGAAAGTGGGTCAGCAGGTTTCATTGATGAAACTTGACGGAACGGTAAAATCATTCCGCGTAACGAAAATCTTCGGTTTCCAAGGATTGAAACGCGTGGAAATTGAAGAAGCGAGAGCGGGAGACCTCGTTGCCGTTTCGGGCATGGAAGACATCAACGTCGGTGAAACGGTTTGTCCGGCTGAACACCATGAGCCGCTGCCGGTTCTGCGCATTGATGAGCCTACGCTCCAAATGACATTTGTCGTAAACAACAGCCCGTTTGCAGGTCGTGAAGGCAAATATGTCACATCCCGTAAAATTGAAGAGCGTCTGAACGCGCAGCTTCAAACAGATGTCAGTCTCCGTGTCGAACCGACGGCCTCACCTGACGCATGGGTTGTTTCAGGACGCGGTGAGCTTCACCTGTCCATTTTAATTGAAAACATGCGCCGTGAAGGCTATGAGCTTCAAGTGTCTAAGCCTGAAGTTATCATTAAGGAAATCGACGGCGTAAGCTGCGAGCCTGTTGAGCGCGTGCAGATTGACGTGCCTGAAGAGCATACCGGTTCTGTTATGGAATCAATGGGTGCGAGAAAAGGCGAAATGCTTGATATGATTAATAACGGAAACGGCCAGGTCCGCCTGATCTTTACCGTACCTTCACGCGGACTCATCGGCTATTCTACTGAGTTTCTGTCACTGACACGCGGTTTCGGTATCCTGAACCACACGTTTGACAGCTATCAGCCGATGCAAAAAGGCCAAGTCGGAGGCCGCCGTCAGGGTGTGCTCGTTTCCATGGAAAACGGAAAAGCGACATCTTACGGAATTCAAGGTATTGAAGACCGCGGCGTCATCTTCGTTGAGCCTGGAACAGAAGTATATGAAGGCATGATTGTCGGCGAACATAACCGTGACAATGACCTTGTCGTCAATGTCAGCAAAATGAAACAGCAGACAAACGTCCGTTCCGCTACGAAGGATCAAACGACTACGATTAAGAAAGCGCGCATTATGTCGCTTGAAGAATCACTCGAGTACTTAAACGAGGATGAATACTGTGAAGTAACGCCGGAATCCATCCGTTTAAGAAAGAAAATCCTGAACAAAAACGAACGTGAAAAAGCGGCGAAAAAGAAAAAAACAGCAGGAATGTCTTAA	MKLRNDLRNIAIIAHVDHGKTTLVDQLLHQAGTFRANENIAERAMDSNDLERERGITILAKNTAINYKDTRINILDTPGHADFGGEVERIMKMVDGVLLVVDAYEGCMPQTRFVLKKALEQNLNPVVVVNKIDRDFARPEEVIDEVLDLFIELDANEEQLEFPVVYASAINGTASLDPKKQDENMESLYETILEHVPAPVDNAEEPLQFQVALLDYNDYVGRIGIGRVFRGTMKVGQQVSLMKLDGTVKSFRVTKIFGFQGLKRVEIEEARAGDLVAVSGMEDINVGETVCPAEHHEPLPVLRIDEPTLQMTFVVNNSPFAGREGKYVTSRKIEERLNAQLQTDVSLRVEPTASPDAWVVSGRGELHLSILIENMRREGYELQVSKPEVIIKEIDGVSCEPVERVQIDVPEEHTGSVMESMGARKGEMLDMINNGNGQVRLIFTVPSRGLIGYSTEFLSLTRGFGILNHTFDSYQPMQKGQVGGRRQGVLVSMENGKATSYGIQGIEDRGVIFVEPGTEVYEGMIVGEHNRDNDLVVNVSKMKQQTNVRSATKDQTTTIKKARIMSLEESLEYLNEDEYCEVTPESIRLRKKILNKNEREKAAKKKKTAGMS	PGPT0023720_1676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
D1-12_00650	321			hypothetical protein	TTGAATGAAGTAAGTGAACGGCTGTCGTTCTTTGCGGCTCTTTACCAAGTGGATGAGCATCCGCTGACGGGAATGTGGCTGTTATACGGAACGATCGTCGTGCTTTCGGTGATTGTATTTAAACTCGGCTTTGCCAAACGGCTGCCGGTTTTGAAGGCTGCGGCAGTTTATCTCTTTCTCGTGCTCGGCTGCACCGTGCTGACTTTTTTCGGTGTGTTTCTGCCGGTCGGAGAAGGGCTTGTTGTCGCCGCCTTGATTTTGATCGTTTACAAAATCCGTCTGCACCAGTCCAAAAAAAGCCAGTCAGCTAAACCGCAATAA	MNEVSERLSFFAALYQVDEHPLTGMWLLYGTIVVLSVIVFKLGFAKRLPVLKAAAVYLFLVLGCTVLTFFGVFLPVGEGLVVAALILIVYKIRLHQSKKSQSAKPQ				NA	NA	NA	NA	NA
D1-12_00651	210			hypothetical protein	ATGAGAGTAAAATGTTCCATTTGCGACAAAATCGAACAAATTGATGATGAAACACTGACAGCCAAACGCCTCCGCAATCGTCCGATTCATACATATATGTGCCGGGAATGCCATGACCGAATCAAAGTCAAAACGGAGGCGCGGCTGAATACCGGACACTTTTCCTTTCATCCCGGACAAAAAGCGAAAAAAGATAAACTGAAAAAATAA	MRVKCSICDKIEQIDDETLTAKRLRNRPIHTYMCRECHDRIKVKTEARLNTGHFSFHPGQKAKKDKLKK				NA	NA	NA	NA	NA
D1-12_00652	624			hypothetical protein	GTGCGAATTCTTTTCATTATCATACAAGCCTTATTTATCCTTACCGGCTGCACTGCTGTACAGGACGGCCGCGGCCGCAATATTCAGAACGAATCAGCCGATCAGCGCGATGCAAAACCGATCCATGTGAAAAATACGGCTCCTGAGACAGCTGAAAATCCCGGCCGGACAGACATCGCTAAGCATCTCGTCGAGGTAACCGAAAAAATCCCCGGCATTTCAGATGCCACCGCGGTTGTACTCGGAAGATACTCCGTTGTCGGAATCGATGTGGATGACAATTTAGAAAGAAGCAAAGTGGAGAGCATTAAATACACGGTTGCCCAGGCGTTAAAAAACGATCCTTACGGCGCCAATGCCGTTGTCGTGGCTGATCCTGATACGGTTTCCCGTCTGAGAGGCATGGGCAGCGACATTAAGGCCGGCCGCCCCGTTTCAGGCATTTTGGACGAACTTGCCGCCATCGTCGGCCGTGTCATGCCGGAAGTCCCGAATGATGTGACCGACAATGAAAAAGAATCACCGACTCAATCGAATGATGATCAGCTGAACCAAAGAGACCAGAACAAGCTGCAGAACGAACAGAACGATCAATCGGATCATCATATGAAAAACCGCCGGTAA	MRILFIIIQALFILTGCTAVQDGRGRNIQNESADQRDAKPIHVKNTAPETAENPGRTDIAKHLVEVTEKIPGISDATAVVLGRYSVVGIDVDDNLERSKVESIKYTVAQALKNDPYGANAVVVADPDTVSRLRGMGSDIKAGRPVSGILDELAAIVGRVMPEVPNDVTDNEKESPTQSNDDQLNQRDQNKLQNEQNDQSDHHMKNRR				NA	NA	NA	NA	NA
D1-12_00653	1329			hypothetical protein	TTGAGTAAAATTTATGTGTTAGATACGAATGTACTTTTGCAGGATCCTAACGCCATTTTTTCCTTTGAAGAAAACGAAGTTGTCATCCCCGCCGTCGTGCTGGAAGAGGTCGATTCAAAAAAGCGGTATATGGACGAGGTCGGGAGAAATGCGAGGCACGTATCTAAGCTGATAGACGGGCTCAGGGAGAAAGGAAGGCTGCACGAGAAAGTTCCGCTTGAAAGCGGAGGAACGCTCAGAATTGAACTGAACCACCGGTCATTTCACCAGCTCCAAGAAATTTTTATCGAAAAAACGAATGATAACCGCATTTTGGCGGTGGCAAAAAATTTAAGCCTTGAGGAGGAAACGAAAGAAAACGGCCGCCTCGTCATCCTGGTCAGCAAAGATGTGCTTGTCAGGGTAAAGGCGGATGCCATCGGGCTTTTGGCGGAGGACTTTTTAAACGACAGAGTCGTTGACCATGATGAAATATATAGCGGGTACAAAGATATATTTATGAATAAAGAGCGGTTTGCCTCGTTTTATAAAAACAAACAAATTTCAGTCAAGGAGCTTCAGCAGCATCAGGTTTATCCGAATCAATTTGTGCTGATGAAAGATGAATTAGGAGGATCTTCGTCTGCGGTCGGCATGGCAGATAAGAAAGGCGAGACCGTAAAAAGACTCGTTTTCGATGATGAGCACGTATGGGGTATCAGGCCGAAGAACGTCCAGCAGACAATGGCGCTTGAACTCCTGCTGAGGGAAGATATCCCGCTTGTCACCCTGATCGGAAAAGCGGGAACGGGAAAAACCTTGCTTGCTCTCGCGGCAGGGCTTCTGCAGACGGAGGATCTCGGTATTTATAAAAAACTGATCGTCGCGCGTCCCATCGTCCCGGTGGGAAAGGATATCGGATATTTGCCGGGCGAAAAAGAGGAAAAGCTCAAGCCGTGGATGCAGCCGATCTTTGATAATCTTGAATTTTTATTCAATGCGAAAAAGCCGGGTGAACTTGAAGCGATTTTGGCAGGAATCGGATCGATTCAGGTGGAGGCGCTGACATACATTCGGGGAAGAAGCATTCCGGATCAATTTATTATTATTGATGAGGCTCAGAATCTGACGAGGCACGAGGTCAAAACGCTTTTGACTCGGGTGGGAGAGGGCAGCAAAATTGTCCTGATGGGCGATCCGGAGCAAATAGATCACCCATACTTAGACAGTTTAAACAACGGACTTGCTTATGTTGTAGAACGGTTTAAAGAACAAACCGTCTCCGGCAGCGTGAAGCTTGTGAAAGGTGAGAGATCCGGCCTTGCACAGCTTGCCGCCGATTTGTTATAA	MSKIYVLDTNVLLQDPNAIFSFEENEVVIPAVVLEEVDSKKRYMDEVGRNARHVSKLIDGLREKGRLHEKVPLESGGTLRIELNHRSFHQLQEIFIEKTNDNRILAVAKNLSLEEETKENGRLVILVSKDVLVRVKADAIGLLAEDFLNDRVVDHDEIYSGYKDIFMNKERFASFYKNKQISVKELQQHQVYPNQFVLMKDELGGSSSAVGMADKKGETVKRLVFDDEHVWGIRPKNVQQTMALELLLREDIPLVTLIGKAGTGKTLLALAAGLLQTEDLGIYKKLIVARPIVPVGKDIGYLPGEKEEKLKPWMQPIFDNLEFLFNAKKPGELEAILAGIGSIQVEALTYIRGRSIPDQFIIIDEAQNLTRHEVKTLLTRVGEGSKIVLMGDPEQIDHPYLDSLNNGLAYVVERFKEQTVSGSVKLVKGERSGLAQLAADLL				NA	NA	NA	NA	NA
D1-12_00654	477			hypothetical protein	ATGAGCGTTATTCAAGTAAAAGGCAATGTTACATACCCGATTACAATTGATCCGAGTGTCTGGATTTTCGATGACCGCAAGTTTCCGTTTGAAAAAAATCAGCCCGTTCATCCGGACGGCTCTGCAGAAACCCAGGAGCATACGCTTGATCCGGAACGGGTGATCAGAGAAGGGCGCATTTCGCCGCCGACTTTAAAAAGCGAAAAACGTTATGAAAAAGAAAGACTGATGAACGGCAGCTTCGCCATGAAGCTCGGCGCTGTTTTAGCAAATGCCGAGCCGAAAGAAAGCGCTGTCCTGTGCGCATTTATTTCAAAATCAGAAAGAACCGAAGTGCCGCTCGAAAAGGCGATGGACGCAATCGCGCATTTCAGCGATGCGGGGAAACCCCTTCAAGACGGCGGCCCGGTCCATTTTTACGTGGACGGAGACTTTGAAAAACCAATAACGGGCGTCACAGAAATCGAAGTTTTATAA	MSVIQVKGNVTYPITIDPSVWIFDDRKFPFEKNQPVHPDGSAETQEHTLDPERVIREGRISPPTLKSEKRYEKERLMNGSFAMKLGAVLANAEPKESAVLCAFISKSERTEVPLEKAMDAIAHFSDAGKPLQDGGPVHFYVDGDFEKPITGVTEIEVL				NA	NA	NA	NA	NA
D1-12_00655	930	glsA2	COG2066	Glutaminase 2	ATGGTATGCCGGCATTACCAAGAGCTGGACGCATTAGTTCAGGAAGCGAAAAAAAGAACCGAAGAAGGCAAAGTGGCAGACTATATTCCAGCTCTGGCTGAATCTGAACAAGACAGCCTTTCGGTCACGATTTATCATGCGGAAAATACATGTCTGTCGGCAGGAGACGCCGACCGGACATTTACGCTGCAGAGCATTTCGAAAGTGCTTTCTCTGGCGCTCGTACTGATGGATTACGGAAAGGAAAAGGTGTTCAGCTGCGTGGGTCAGGAGCCGACCGGCGACCCGTTTAATTCCATGATTAAGCTTGAAACAATGAATCCGGGCAAGCCTTTAAATCCGATGATTAATGCGGGAGCCCTCGTCGTTACGGGTTTAATTAAAGGGCATTCGCCGAAAGACCGCCTGGATTACCTGCTCGGATTCATCAGAAGACTTGCGAATAATCAGGACATTACATATTGCAGCCATGTCGCGGAATCGGAATTCAAATCTTCCATGATTAATCGGGCCATGTGTTATTACATGAAGCAGTATGACATTTTTAAAGGCGATGTTGAAGGGGTCATGGATTTGTATACAAAACAGTGCGCGATTAAGATGAGCAGTCTGGATTTAGCCAAAATCGGCTGTGTATTCGCCCTTGACGGCAAGCATCCGGAAACCGGGGAGCAGGTCATTAAAAAAGATGTGGCGAGAATCTGCAAGACGTTTATGGTGACCTGCGGCATGTACAATGCGAGTGGGGAATTCGCGATTAAGGTCGGCATTCCCGCTAAAAGCGGCGTTTCGGGAGGAATCATGGGCATTTCGCCGTACAACTTCGGAATCGGTATATTCGGCCCGGCGCTTGATGAAAAAGGCAACAGCATCGCGGGTGTGAAGCTTTTGGAAATCATGTCTGAGAAATACAGGCTGAGTATTTTTTGA	MVCRHYQELDALVQEAKKRTEEGKVADYIPALAESEQDSLSVTIYHAENTCLSAGDADRTFTLQSISKVLSLALVLMDYGKEKVFSCVGQEPTGDPFNSMIKLETMNPGKPLNPMINAGALVVTGLIKGHSPKDRLDYLLGFIRRLANNQDITYCSHVAESEFKSSMINRAMCYYMKQYDIFKGDVEGVMDLYTKQCAIKMSSLDLAKIGCVFALDGKHPETGEQVIKKDVARICKTFMVTCGMYNASGEFAIKVGIPAKSGVSGGIMGISPYNFGIGIFGPALDEKGNSIAGVKLLEIMSEKYRLSIF	PGPT0020215_1620	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
D1-12_00656	282			hypothetical protein	TTGGCTTCAGAGATTATAGTTGACCATCAGCAGAAAGCATTCGAGCTGTTGAAGTTAGATGCTGAGAAGATTTTGAAGCTGATCCGAGTACAAATGGATAACTTAACGATGCCTCAATGTCCTCTGTATGAAGAGGTCTTGGATACTCAGATGTTCGGACTGTCGAGGGAAATCGATTTTGCTGTCCGCCTGGGATTAGTTGACGAAAACGACGGCAAAGAGCTGCTGGACAGACTTGAAAGAGAACTGTCTGCTTTGCATGACGCGTTTACAGGAAAATAA	MASEIIVDHQQKAFELLKLDAEKILKLIRVQMDNLTMPQCPLYEEVLDTQMFGLSREIDFAVRLGLVDENDGKELLDRLERELSALHDAFTGK				NA	NA	NA	NA	NA
D1-12_00657	1212	ftsW_1	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGTTTAAAAGAATGTTAAAATCTTACGATTATTCATTGATATGCGCTATCATTCTGCTGTGCAGTTTCGGATTGGTCATGGTATACAGCTCAAGCATGATTACCGCCGTTATGCGTTACGGCGTGAGCAGCGACTATTTCTTTAAACGGCAGCTGTTCGCCGTCATCGCGGGGTTTGTGCTGTTTATTATCGCGGCCGTTTTTCCGTACAAAGTGTTCGCTCATCAAAAGATTCAGAAATTCGTACTGCTTGCGTCAGTGGCTGCGCTTTGCGCGCTGTTTGTTTTCGGACATGTTGCCGGAAACGCGCAAAGCTGGTTTAAAATCGGCGGAATGGCCATTCAGCCGGGGGAATTTGTCAAGCTGACCCTGATACTGTACCTTGCCGCGGTATACGCAAAGAAACAAAGCTATATCGATCAGCTTTTGACGGGGGTTGCGCCGCCGGTGATCGTCACCGTAGTCATTTGTGCGCTTATCGCCATTCAGCCTGATTTCGGAACGGCGATGATTATCGGTCTGATCGCGCTTTGCGTCATTATGTGTTCGGGATTCAGCGGAAGGACCCTGCTCAAGCTGGTTCTCATGGCGGGAATCGTATTGCTCCTTGTCAGCCCGATCATCTATCTGAAATGGGACGATATTTTGACACCCGGGCGTATGAGCCGGTTTGAAAGTCTTGAAAATCCCTTTAAATACGCCAGCACATCAGGCCTGCAGATTATAAATTCGTATTATGCGATCGGCTCAGGCGGTTTTTTCGGTCTCGGTCTTGGAGAAAGCATTCAAAAATACGGTTATCTGCCTGAATCGCATACAGACTTTATTATGGCGGTTATTTCAGAGGAGCTCGGCATTTTCGGCGTCCTGTTTGTCATTGTACTGCTGGCTTTTGTCGTGTTAAAAGGTTTTTATATTGCGAGAAAATGTGAAGATCCGTTCGGAAGCCTTTTGGCAATCGGGATATCCAGCATGATTGCGATTCAGACCTTTATCAATCTCGGCGGTGTCAGCGGTTTAATTCCAATCACAGGTGTTCCGCTGCCGTTTATCAGCTACGGAGGCTCATCAATGTTTTTGTTATTAACGAGCGCCGGTATATTGGTGAATGTCAGCATGCATGTCAAGTACTCAGAAAAGAAGAAAAAGAGGGAGCCCGTTCCGTCTAAGGGGGTAAAAAGACGGCAGACGGAAAAATCTGTGTATCTCTAA	MFKRMLKSYDYSLICAIILLCSFGLVMVYSSSMITAVMRYGVSSDYFFKRQLFAVIAGFVLFIIAAVFPYKVFAHQKIQKFVLLASVAALCALFVFGHVAGNAQSWFKIGGMAIQPGEFVKLTLILYLAAVYAKKQSYIDQLLTGVAPPVIVTVVICALIAIQPDFGTAMIIGLIALCVIMCSGFSGRTLLKLVLMAGIVLLLVSPIIYLKWDDILTPGRMSRFESLENPFKYASTSGLQIINSYYAIGSGGFFGLGLGESIQKYGYLPESHTDFIMAVISEELGIFGVLFVIVLLAFVVLKGFYIARKCEDPFGSLLAIGISSMIAIQTFINLGGVSGLIPITGVPLPFISYGGSSMFLLLTSAGILVNVSMHVKYSEKKKKREPVPSKGVKRRQTEKSVYL	PGPT0014810_1935	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
D1-12_00658	3447	pycA		Pyruvate carboxylase	TTGTCACAACAATCCATCCAAAAAGTGTTAGTAGCAAACAGGGGAGAAATTGCGATCCGGATTTTCCGGGCGTGCACAGAATTGAACATCAGAACGGTAGCCGTTTATTCAAAAGAAGATTCGGGCTCCTATCATCGCTATAAAGCGGATGAAGCTTATCTTGTGGGAGAAGGCAAAAAACCGATTGACGCGTATCTTGATATTGAAGGGATTATTGAGATCGCAAAAAGAAACGGCGTCGATGCCATTCATCCGGGCTACGGATTTCTCTCTGAAAATATCCAATTTGCGAGACGCTGTGAAGAAGAGGGCATCGTATTTATCGGACCGACGTCAGCGCATTTGGATATGTTCGGAGATAAGGTAAAGGCGAGGGAGCAGGCAGAAAAAGCCGGCATTCCCGTTATTCCGGGGAGTGACGGACCGGCTGAAACATTAAAAGATGTCGAACAATTCGCAAAAGTCCACGGATTTCCGTTTATTATTAAAGCATCGCTCGGAGGCGGAGGCCGCGGAATGAGAATCGTCCGAAGCGAAAGCGAATTGAAAGAATCGTTTGAGCGGGCCAAATCAGAAGCGAAAGCCGCATTCGGAAACGATGAAGTGTATGTTGAAAAACTGATCGAAAATCCTAAGCATATTGAAGTTCAGGTGATCGGAGATAAAGAAGGCAATGTCGTCCATCTGTATGAGCGGGACTGTTCCGTTCAGAGACGCCATCAAAAGGTCATTGAGGTGGCGCCGAGTGTATCTTTGCAGCCTGAATTAAGGGACGAAATCTGTGAAGCGGCTGTGGCGCTTGCGAAAAATGTCGGCTATATCAACGCGGGGACCGTGGAATTTCTCGTAGCGGGCGGTGAATTTTACTTTATTGAAGTGAACCCGCGCGTACAAGTGGAGCATACGATTACGGAAATGATAACGGGGGTTGATATCGTTCAGACGCAAATCCTCGTCGCGCAGGGCCACGGACTGCACAGCCGTGCCGTCAATATCCCTGAGCAGAAAGACATTTTTACAAACGGGTATGCGATCCAATCACGTGTGACTACTGAAGATCCGCTGAATGACTTTATGCCTGACACGGGTAAAATTATGGCTTACCGCTCAGGCGGCGGCTTCGGCGTCCGCCTTGATACGGGAAACAGCTTCCAGGGCGCCGTCATCACGCCTTATTATGATTCACTGCTCGTCAAGCTGTCGACATGGGCGCTGACGTTTGAACAGGCATCAGCAAAAATGGTCCGCAACCTGCAGGAATTCAGGATCAGAGGCATTAAGACCAATATTCCGTTTCTTGAAAACGTGGCAAAGCATGAAAAATTCCTGACGGGCCAATACGACACATCGTTTATCGACACAACGCCTGAGCTCTTTGTTTTCCCAAAACAGAAGGACCGCGGAACAAAAATGCTTTCCTATATCGGCAATGTCACGGTGAACGGTTTTCCGGGAATCGGGAAAAAAGAAAAACCTGCATTTGATAAGCCTCAGACCGTTACGTTAGGTATCGAAGAAAAGCCGGCAAGCGGTACGAAACAGATCCTTGATGAAAGAGGCGCTGAGGGGCTTGCAGACTGGGTGAAAGAGCAAAAATCCGTGCTCCTGACCGATACAACGTTCAGGGATGCCCATCAGTCCCTGCTTGCAACCCGGATCAGATCCAATGATTTGAAAAAAATCGCGAATCCTACGGCTGCCCTGTGGCCTGAACTGTTCAGCCTTGAAATGTGGGGAGGCGCGACATTTGATGTAGCGTACCGTTTCTTAAAAGAAGACCCTTGGAAACGCCTTGAAGATCTTCGCAAGGAAGTGCCGAACACATTGTTCCAGATGCTGCTTCGTTCATCAAATGCCGTCGGTTATACAAACTATCCGGACAATGTCATCCAAAAATTTGTCCGGCAGTCAGCGAAGTCAGGTATTGACGTATTCCGGATCTTTGACAGCCTGAACTGGGTAAAAGGGATGACGCTGGCCATCGATGCCGTTCGTGAAACCGGAAAAGTGGCGGAGGCTGCGATTTGTTACACGGGAGATATTCTTGATAAGACCCGGACGAAATATGATTTGAAGTATTATCTTTCTATGGCGAAAGAGCTTGAGGCGTCTGGTGCGCACATTCTCGGCATTAAAGACATGGCCGGTCTTTTGAAACCTCAAGCCGCATACGAACTTATCTCAGCGCTGAAGGAAACGATTGATATTCCCGTTCATCTTCACACGCATGATACGAGCGGCAATGGCGTCTTTCTCTATGCCAAAGCTGTTGAAGCGGGGGTGGACATCGTGGATGTCGCCGTCAGCTCAATGGCGGGTCTGACTTCACAGCCGAGCGCAAGCGGATTTTATCATGCCCTTGAAGGAAACAGCCGCCGTCCTGAAATGGATGTCCGCCAGGTGGAAAGACTGTCACAATATTGGGAATCAGTCCGTCAGTATTACAGTGAATTTGAAAGCGGGATGAAGTCTCCGCATACTGAGATTTATAATCATGAAATGCCGGGCGGCCAGTACAGCAATCTGCAGCAGCAGGCAAAAGGAGTCGGCCTCGGTGATCGCTGGAATGAGGTGAAAGACATGTACAGCGTCGTCAACCGCATGTTCGGCGACGTCGTGAAAGTAACACCTTCTTCCAAAGTCGTCGGAGATATGGCGCTTTACATGGTGCAAAACAATTTAACAGAACAAGATGTTTATGATAAAGGCGAAACGCTTGATTTTCCGGATTCAGTCGTTGAGCTCTTTAAAGGGCAGATCGGCCAGCCGCACGGCGGATTTCCGGAAAAACTGCAAAAGCTCGTTCTGAAAGGACAGACGCCGATCACGGTAAGACCGGGTGAGCTGCTTGAACCGGTATCTTTTGAAGGCATTAAAGAAGAATGGAAAGAAACACATCAGATGGAATTGAGTGATCAGGACGCAATCGCGTATGCTCTTTATCCGAAGGTGTTTACAGAATATGTTAAAACGGCTGAACGCTTCGGTGATATTTCCGTATTGGACACACCGACTTTCTTCTACGGCATGACACTCGGTGAAGAAATCGAAGTGGAAATCGAGCGCGGAAAAACGCTGATCGTGAAGCTTGTATCTATCGGTGAACCGCAGCCAGATGCGACACGTGTCGTTTATTTCGAATTGAACGGCCAGCCGCGCGAGGTGGTCATTAAAGATGAAAGCATAAAATCGTCCGTACAGGAAAAATTAAAAGCAGATCGGACAAACCCAAGCCACATTGCGGCATCCATGCCGGGAACCGTCATTAAATTGTTAACGGAAACCGGGGCAAAGGTAAATAAAGGCGATCATCTGATGATTAATGAAGCGATGAAAATGGAGACGACGGTACAGGCGCCGTTCTCCGGGACGATACAGCAGATTCATGTGAAAAACGGTGAACCGATTCAGACAGGTGATTTACTGATCGAAATTGAAAAAGCGTAA	MSQQSIQKVLVANRGEIAIRIFRACTELNIRTVAVYSKEDSGSYHRYKADEAYLVGEGKKPIDAYLDIEGIIEIAKRNGVDAIHPGYGFLSENIQFARRCEEEGIVFIGPTSAHLDMFGDKVKAREQAEKAGIPVIPGSDGPAETLKDVEQFAKVHGFPFIIKASLGGGGRGMRIVRSESELKESFERAKSEAKAAFGNDEVYVEKLIENPKHIEVQVIGDKEGNVVHLYERDCSVQRRHQKVIEVAPSVSLQPELRDEICEAAVALAKNVGYINAGTVEFLVAGGEFYFIEVNPRVQVEHTITEMITGVDIVQTQILVAQGHGLHSRAVNIPEQKDIFTNGYAIQSRVTTEDPLNDFMPDTGKIMAYRSGGGFGVRLDTGNSFQGAVITPYYDSLLVKLSTWALTFEQASAKMVRNLQEFRIRGIKTNIPFLENVAKHEKFLTGQYDTSFIDTTPELFVFPKQKDRGTKMLSYIGNVTVNGFPGIGKKEKPAFDKPQTVTLGIEEKPASGTKQILDERGAEGLADWVKEQKSVLLTDTTFRDAHQSLLATRIRSNDLKKIANPTAALWPELFSLEMWGGATFDVAYRFLKEDPWKRLEDLRKEVPNTLFQMLLRSSNAVGYTNYPDNVIQKFVRQSAKSGIDVFRIFDSLNWVKGMTLAIDAVRETGKVAEAAICYTGDILDKTRTKYDLKYYLSMAKELEASGAHILGIKDMAGLLKPQAAYELISALKETIDIPVHLHTHDTSGNGVFLYAKAVEAGVDIVDVAVSSMAGLTSQPSASGFYHALEGNSRRPEMDVRQVERLSQYWESVRQYYSEFESGMKSPHTEIYNHEMPGGQYSNLQQQAKGVGLGDRWNEVKDMYSVVNRMFGDVVKVTPSSKVVGDMALYMVQNNLTEQDVYDKGETLDFPDSVVELFKGQIGQPHGGFPEKLQKLVLKGQTPITVRPGELLEPVSFEGIKEEWKETHQMELSDQDAIAYALYPKVFTEYVKTAERFGDISVLDTPTFFYGMTLGEEIEVEIERGKTLIVKLVSIGEPQPDATRVVYFELNGQPREVVIKDESIKSSVQEKLKADRTNPSHIAASMPGTVIKLLTETGAKVNKGDHLMINEAMKMETTVQAPFSGTIQQIHVKNGEPIQTGDLLIEIEKA	PGPT0001420_889	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001420-pyc-K01958	NA	NA
D1-12_00659	927	ctaA	COG1612	Heme A synthase	ATGAATAAAGCTTTGAAAGCGCTCGGCGTACTGACGACATTCGTTATGCTCGTCGTGCTGATCGGCGGCGCTCTTGTCACAAAGACAGGATCGGGTCTCGGTTGCGGAAGGCAGTGGCCGCTTTGCCACGGCCGGTTTTTCCCGGAGCTTAACGCCGCTTCTATCATTGAATGGAGCCACAGACTCGCAAGCGGTGTCTCAATCGTTCTCGTGCTGAGTCTCGCTTTTTGGGCATGGAGAAAAGTCACGCCTGTTTTCCGTGAAACAACCTTTCTCGCCATTATGTCCATTATCTTTTTATTTTTACAGGCGCTTCTCGGCGCATTAGCGGTTGTTTTCGGATCAAATGCGCTCGTTATGGCGCTTCATTTCGGCATATCGCTGATTTCTTTCGCTTCTGTTCTGATTTTGACGCTGCTCATATTCGAAGCTGATAAATCAGACAAAAAGCTCGTCAAGCCGCTCAGAATCGGCAGAAAAATGCAGTTTCATATGATCGGTCTTTCGATTTACACGTATATCGTCGTTTATACGGGGGCTTATGTACGCCATACGAAATCAAGCCTTGCCTGCCCTGACGTTCCGCTTTGCAGCAGGCTGAATCACGGGCTTCCGTCCCATTTTCAGGAATATGTGCAGATGGGTCACAGAACGGCAGCACTGCTTCTGTTCGTATGGATTCTTGTCGCTTTTGCGCATGCGGTGCGCTCCTACAAAGATCAAAAACAGATTCTTGGGGGCTGGATAGCGGCTCTTGTCTTTGTTTTATTACAGGCGCTGTCCGGAATCATGGTTGTTTATTCAGAAATGGCCACCGGTTTTGCACTTGCCCATTCGCTCTTTATTGCCGGCCTGTTCGGCGTCTTATGCTATTTCTTATTATTAATCGCCCGCTTCCGCTATGAATCAAAACAGCGGAACATCTGA	MNKALKALGVLTTFVMLVVLIGGALVTKTGSGLGCGRQWPLCHGRFFPELNAASIIEWSHRLASGVSIVLVLSLAFWAWRKVTPVFRETTFLAIMSIIFLFLQALLGALAVVFGSNALVMALHFGISLISFASVLILTLLIFEADKSDKKLVKPLRIGRKMQFHMIGLSIYTYIVVYTGAYVRHTKSSLACPDVPLCSRLNHGLPSHFQEYVQMGHRTAALLLFVWILVAFAHAVRSYKDQKQILGGWIAALVFVLLQALSGIMVVYSEMATGFALAHSLFIAGLFGVLCYFLLLIARFRYESKQRNI	PGPT0008525_3071	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
D1-12_00660	918	ctaB2	COG0109	Protoheme IX farnesyltransferase 2	ATGGCTAATTCCAGAATTTTAAACGATACAGCTATAGACGGACAGATTGAAGAGACGACGGCATGGAAGGATTTCCTTTCGCTTATCAAAATAGGAATCGTCAATTCGAATTTAATTACGACTTTTACCGGCATGTGGCTTGCGTTACATATATCCGGTCTGAGTTTTTTAGGCAATTTAAACACCGTGCTTCTTACATTAATAGGATCTTCTTTGATCATCGCCGGTTCTTGTGCGGTTAACAACTATTACGATCGTGATATTGATCATTTAATGGAACGCACGAAAGTAAGACCGACGGTAACCGGAAAGATTCAGCCGAATCAAGCGCTGTGGTCAGGAATTTTACTCATTGCTTTAGGACTTATCATGCTTTTGATGACCACCGTGATGGCAGCAGTCATCGGTTTTATCGGCGTGTTTACGTACGTTGTTCTTTATACAATGTGGACGAAACGCCGTTATACGATTAATACGGTTGTCGGAAGTGTATCAGGCGCCGTGCCGCCGTTAATCGGCTGGACAGCGGTTGAAGGGCACATCGGTGTTGTCGCGTGGGTTTTATTCATGATTTTATTCATCTGGCAGATTCCGCACTTTTTAGCGCTTGCGATTAAAAAGACGGAAGATTACAGAGCAGCGAATATTCCGATGCTTCCGGTAGTGCACGGCTTTGAAGTGACGAAAAGACAGATTATCGTCTGGGTAGCATGCCTGCTGCCGCTTCCGTTTTTCCTCGGCAGTCTCGGTCTTCCGATCGTCATTCTCGGCACTTTGCTGAATGTCGGATGGCTTGTTCTCGGACTGATGGGATTCCGCATGAAAAACATCATGAAGTGGGCAACTCTTATGTTTGTCTATTCGCTTAATTACATGACCATTTATTTTGTAGCGATGGTGGTCTTCACGCTGTTTTAA	MANSRILNDTAIDGQIEETTAWKDFLSLIKIGIVNSNLITTFTGMWLALHISGLSFLGNLNTVLLTLIGSSLIIAGSCAVNNYYDRDIDHLMERTKVRPTVTGKIQPNQALWSGILLIALGLIMLLMTTVMAAVIGFIGVFTYVVLYTMWTKRRYTINTVVGSVSGAVPPLIGWTAVEGHIGVVAWVLFMILFIWQIPHFLALAIKKTEDYRAANIPMLPVVHGFEVTKRQIIVWVACLLPLPFFLGSLGLPIVILGTLLNVGWLVLGLMGFRMKNIMKWATLMFVYSLNYMTIYFVAMVVFTLF	PGPT0008520_2254	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
D1-12_00661	1071	ctaC		Cytochrome c oxidase subunit 2	ATGTTAAAGCGTTGGCGTCTTTTATCATTATTAGCCTTAGTGCCGCTTTTATTGAGCGGCTGTGGAAAACCGTTTCTGTCCACACTCAAGCCTGCCGGCGAAGTGGCTGATAAACAATATGATCTGACGGTGCTCAGCACACTTATCATGGTTGTCGTCGTTGCGGTCGTAGCAGTTATTTTCTTTTACGTCATTGTGAGGTTCAGACGGTCGCGTGTAGGGGAAGACACGATACCGAAACAGGTGGAGGGGAACCGTTTTTTAGAAATCACCTGGACCGTTATTCCGATCTTGCTTCTGATTATTCTTGTCATTCCGGTTGTCATCGACACATTGGCGCTGGCGGATACGTCGCCGATGGATAAGAAAAACCGTAAAGCAGAGGATGCGCTCGTGATTAATGTAAGGGCGAATTTATACTGGTGGGAATTCGAGTATCCTGATTACGGGTTTGTGACAAGTCAGGAGCTGATCGTTCCCACAGATGAACGCGTCTATTTCAAGCTGAAGTCCTCAGATGTGAAACACTCTTTCTGGATTCCGTCAGCCGGGGGAAAAATCGATACGAATACGGATAATGACAATACTTTCTTTCTGACCTTCGATTCTAAACGCAGCAAAGAAGCGGGAGAATATTTCTTCGGGAAATGCGCAGAGCTGTGCGGACCTTCACATGCGCTGATGGATTTCAAAGTGAAACCGCTGCCGTCAAAAGAATTTAAACAATGGACGAAAGCGATGAAAAATTATAAGCATACAACAGATTCCGGTTTAGCCGCGCAAGGAGAAGAGCTCTTTAAGGAAAAAAACTGCCTGAGCTGTCATGCGGTTGAGCCCAATGATAAACGGGCTGAAGCGGCAAGAACGGCTCCGAACCTCGCTACCTTCGGTGAACGGGTCAAAGTGGCCGGCATTAAGGATGCGAATAAAGAGAATATAAAAGCCTGGCTGAAAAATCCGGACAGCATTAAACCGGGCAATAAAATGACAGGCACTTATCCGAAGCTCTCGGACGCTGAAACGGATGCGCTGTATGAATATTTAAAAGGGCTGAAAGCGGAGAACAAGTGA	MLKRWRLLSLLALVPLLLSGCGKPFLSTLKPAGEVADKQYDLTVLSTLIMVVVVAVVAVIFFYVIVRFRRSRVGEDTIPKQVEGNRFLEITWTVIPILLLIILVIPVVIDTLALADTSPMDKKNRKAEDALVINVRANLYWWEFEYPDYGFVTSQELIVPTDERVYFKLKSSDVKHSFWIPSAGGKIDTNTDNDNTFFLTFDSKRSKEAGEYFFGKCAELCGPSHALMDFKVKPLPSKEFKQWTKAMKNYKHTTDSGLAAQGEELFKEKNCLSCHAVEPNDKRAEAARTAPNLATFGERVKVAGIKDANKENIKAWLKNPDSIKPGNKMTGTYPKLSDAETDALYEYLKGLKAENK	PGPT0004030_1276	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
D1-12_00662	1869	ctaD		Cytochrome c oxidase subunit 1	ATGATGAATACGCTTACAGGACAGCAAAGAAAAAGCTCTTTGCTTTGGGATTATTTGACGACGGTTGACCATAAGAAAATCGCGATTTTATATATGATCGCCGGGGGATTTTTCTTCGTCGTCGGCGGACTTGAGGCCATGCTTATCAGGATTCAGCTCTTGAGGCCGGGGAACGATTTTATGGGTGCGCAGCAGTTTAATGAAATTATGACGATGCACGGCACGACAATGATCTTCCTGGCGGCGATGCCGCTGTTATTCGGGCTGATGAACGCGGTTGTGCCGCTGCAGATCGGGGCGCGTGACGTATCATTCCCATTTTTGAATGCGCTCGGATTTTGGCTGTTTTTCTTCGGAGGCATCTTTTTGAATCTGAGCTGGTTTTTAGGGGGCGCTCCTGATGCAGGATGGACGTCGTACGCGTCACTTGCGCTGAATTCGAAAGGGCACGGCATAGACTTTTTCGTGCTCGGCCTGCAAATATCAGGCTTAGGTACGCTGATTGCGGGGATCAATTTTCTCGCCACGATTATTAATATGAGGGCGCCGGGTTTGACGTATATGAGATTGCCGCTGTTTACGTGGACGACATTTGTGGCGTCGGCACTCATTTTATTCGCATTTCCTCCGCTCACCGTCGGTTTGGCGCTGATGATGCTGGATCGTTTGTTCGGAACGAATTTCTTTAATCCTGAATTGGGCGGCAATACGATAATCTGGGAGCATCTGTTTTGGATTTTCGGGCATCCGGAAGTGTACATTTTAATTCTTCCCGCCTTTGGGATTTTTTCAGAAATCATTCCCGTATTTGCGAGGAAACGTCTGTTCGGTTATTCGTCTATGGTCTTTGCGATCGTGCTGATCGGCTTTCTCGGGTTCATGGTTTGGGTTCACCATATGTTTACGACGGGACTCGGACCGATCGCTAATGCGATATTTGCGGTTGCGACGATGGCGATCGCGGTGCCTACGGGCATTAAAATTTTCAACTGGCTTTTGACCATCTGGGGAGGAAATGTCAAATTCACGACGCCTATGCTGTATGCCGTCGCCTTTATTCCTTCTTTCGTACTCGGAGGAGTCACGGGTGTCATGCTGGCGGCCGCAGCGGCAGATTATCAGTTCCATGATACGTATTTTGTCGTAGCGCATTTCCACTACGTCATTATCGGCGGCGTTGTGTTCGGCATCCTGGCGGGCGTGCATTTCTGGTGGCCGAAAATGTTCGGGAAGGTGCTTCATGAAACGATGGGAAAAATTTCGTTCGTCTTATTTTTTATCGGGTTTCATCTTACCTTCTTCATTCAGCATTTCCTCGGCTTGATGGGAATGCCGCGGCGCGTTTACACATATCTGCCCGGCCAGGGGCTTGATACCGGCAACCTGATCAGTTCAATCGGCGCGTTTTTCATGGCGGGCGCGGCAGTTTTACTCGTCGTCAATATTATTTATACCTCAATAAAGGGGAAATACGTCGGGAACGACCCGTGGCTGGACGGTCGTACGCTTGAATGGGCGGTCTCTTCGCCGCCGCCGGAATATAATTTTAAACAGCTTCCGTTTGTCCGGGGACTTGACCCGCTGTGGATTGAAAAGCAGGCCGGAAATGAAGGGATGGCGCCTGCAGAGCCTGTAGAGGACATTCATATGCCGAACGGCTCCATCATGCCGTTTATCATATCTTTCGGGCTGTTTGTCGCAGCGTTTGGGTTTTTATACCACTCCGATTATTCATGGGGGCTTCCGGTTATCTTCATAGGGCTCGGCATCACATTCTTTACCATGCTGCTTCGCTCTGTGGTCGATGATTACGGCTATCATATTCACAAAGAAGATCTGCCGAATGATGATAAAGGGGTGAAGGCGTAA	MMNTLTGQQRKSSLLWDYLTTVDHKKIAILYMIAGGFFFVVGGLEAMLIRIQLLRPGNDFMGAQQFNEIMTMHGTTMIFLAAMPLLFGLMNAVVPLQIGARDVSFPFLNALGFWLFFFGGIFLNLSWFLGGAPDAGWTSYASLALNSKGHGIDFFVLGLQISGLGTLIAGINFLATIINMRAPGLTYMRLPLFTWTTFVASALILFAFPPLTVGLALMMLDRLFGTNFFNPELGGNTIIWEHLFWIFGHPEVYILILPAFGIFSEIIPVFARKRLFGYSSMVFAIVLIGFLGFMVWVHHMFTTGLGPIANAIFAVATMAIAVPTGIKIFNWLLTIWGGNVKFTTPMLYAVAFIPSFVLGGVTGVMLAAAAADYQFHDTYFVVAHFHYVIIGGVVFGILAGVHFWWPKMFGKVLHETMGKISFVLFFIGFHLTFFIQHFLGLMGMPRRVYTYLPGQGLDTGNLISSIGAFFMAGAAVLLVVNIIYTSIKGKYVGNDPWLDGRTLEWAVSSPPPEYNFKQLPFVRGLDPLWIEKQAGNEGMAPAEPVEDIHMPNGSIMPFIISFGLFVAAFGFLYHSDYSWGLPVIFIGLGITFFTMLLRSVVDDYGYHIHKEDLPNDDKGVKA	PGPT0004025_308	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-12_00663	624	ctaE		Cytochrome c oxidase subunit 3	ATGCAGCTGCAGGAAAAAATGACGGCTGAAACCTTTCCGGCTTCTCCTGAAAAAGCAACGCTGGAGGGGAAAAATAAGTTTTTGGGATTTTGGCTGTTTCTCGGCGGCGAAACGGTTCTGTTCGCCTCGCTATTTGCGACATTTCTTGCTTTACGGGAATCTAAAGCCGGAGGGCCGTCAACGTCTGAGATGTTTGAGCTGCCGATCGTGTTTATCGCGACGATGCTTCTTTTAACGAGCAGCTTAACGAGTGTGTATGCGATGTATCATATGAAAAATTTCTCCTTTAAAAAAATGCAGGTGTGGCTTCTGGTTACCGTATTATTGGGAGCGGGATTTTTAGGGGTAGAAATCTATGAATTTATGCATTACACTCACGAATTCGGCTTTACCATTACAAGCTCTGCGCTCGGCTCAGCGTTTTACACGCTCGTCGGCACACACGGAGCACACGTGGCGTTCGGGCTGTTGTGGATCAGCGCGCTTATGATCCGGAATGCGAAAAGAGGGCTCAGCCTTTATAATGCGCCGAAATATTATGTGGCCAGCTTATATTGGCATTTTATCGATGTCGTGTGGGTCTTTATCTTTACCGTTGTATATTTGATGGGGATGGTGGGATAA	MQLQEKMTAETFPASPEKATLEGKNKFLGFWLFLGGETVLFASLFATFLALRESKAGGPSTSEMFELPIVFIATMLLLTSSLTSVYAMYHMKNFSFKKMQVWLLVTVLLGAGFLGVEIYEFMHYTHEFGFTITSSALGSAFYTLVGTHGAHVAFGLLWISALMIRNAKRGLSLYNAPKYYVASLYWHFIDVVWVFIFTVVYLMGMVG	PGPT0004035_2551	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
D1-12_00664	333	caaD		Cytochrome c oxidase subunit 4B	ATGGACGATAACAAAAACAGAGGGACTGTCAGTACGGATCTCGAATATCGGAAAAAGAAAAATGCCGAGGAGATGAAATATCAGGTCATATCCTTCGGTTTGATGATCGGCCTTACGCTTGTCGCGTTTTTGACGGTGGCTGCTGACGGCATTGCCGGATGGTTTACGATGCCGTTTCTGATCCTGCTTGCGGTCATCCAGGTCATCTTTCAGCTGTTTTACTTTATGCATATGAGCCAGAAGGGGCATGAAGCGCCGTCATTATTTCTGTATTCGGGAATATTTGTCGCGTTTATCACCGTGCTTGCATTTGTCACGATTATTTGGTGGTAA	MDDNKNRGTVSTDLEYRKKKNAEEMKYQVISFGLMIGLTLVAFLTVAADGIAGWFTMPFLILLAVIQVIFQLFYFMHMSQKGHEAPSLFLYSGIFVAFITVLAFVTIIWW	PGPT0004040_513	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277	NA	NA
D1-12_00665	885			hypothetical protein	TTGATTAATTTGGAAATGTTCGGGTTTCGCGCAATGTGGAGCCCGTATCTGTTTTGTATAACTGCCGTGATAACAGGTATTTACTTTTACTGGTGCAGCCGGCATAAAGGACGTGTGGCCGCTAAGGAGAAGGTGCTGTTTGTGCTTTCCGCGCTATTTTTTTACACGGCTGCGGGAAGTCCGGTTGATTTATTGGGCCATGTGATGTTCAGTGCCCATATGACGCAGATGGCGGTTCTGTTTTTAGTCGTACCGCCGCTGTTGATTTCCGGAATTCCCGGCTGGGCATGGAAAAAACTGATCTTCCGTCCTGTCGTAAAGCCGCTGTTTTCGTTCTTTTCAATGCCGCTTATCGCATTAGTGCTGTTTAACGGTATTTTTTCACTGTATCACATCCCGTTTATATTTGATTTCGTCAAAACGGATTCGCTGTATCACACGCTGATGAACGGACTCATCTTTGTAACGGCGTTTTTTATGTGGTGGCCGCTTGTGCATAAGGTGGACGGTCTGCCCCGTCTCAGCGGTTTAATGAAGCTGGGGTATATTATGGCAGACGGGATTCTGTTAACGCCGGCCTGCGCGCTCATTATGTTCAGCGGGGCGCCCATGTATGCCACGTATACAGATCCGGCGGCTTGGGCCGAAGCAATGAAGCTTTGCGTTCCTTTAGATTTGCTGGAGGAGATTCCTTTATCCGGACCGGAGATGTTTAACACGCTGCCTCCTCTGGAAGATCAGCAGCTTGGGGCAGTGCTGATGAAAATCATTCAAGAGGCGGTCTACGGAACATATTTGGCTGTCATCTTTTTTCAGTGGGTCAGAACGGAACGGGAAAAAGATACGCTGTCAGAGCCGCCGTATATCGAGCATACCGTCTCATAA	MINLEMFGFRAMWSPYLFCITAVITGIYFYWCSRHKGRVAAKEKVLFVLSALFFYTAAGSPVDLLGHVMFSAHMTQMAVLFLVVPPLLISGIPGWAWKKLIFRPVVKPLFSFFSMPLIALVLFNGIFSLYHIPFIFDFVKTDSLYHTLMNGLIFVTAFFMWWPLVHKVDGLPRLSGLMKLGYIMADGILLTPACALIMFSGAPMYATYTDPAAWAEAMKLCVPLDLLEEIPLSGPEMFNTLPPLEDQQLGAVLMKIIQEAVYGTYLAVIFFQWVRTEREKDTLSEPPYIEHTVS				NA	NA	NA	NA	NA
D1-12_00666	360			hypothetical protein	TTGAAGTTTGAAAACAGCGGTCTTGAAGGGGTAACAGCGGAGCTCAGCCGCTTGAATGATCTGATGGAAGGTAAAGGGCTCATTCTGGCTGGACAATGGGATTATGAAAGAGTGACTTACGACAAAAAGTTTTCAGTACCTGAGGGGACATTTTATCTGCGGATTCAAGGAACGGCAAAAGAGGGCGATGTCGGCGGCAGCCGGGCCGTGATTCAGCTGAAGGCCCCTCTTTTAGGAAAGCATTATTATCCGCATGGCGTAGAATACGGCAGTGCTGAAGAATTTCCGGAACATGTTGTCACTGAAAGCAAAGCTTTACTGCTTGAATTGGAAGAGTCATTAAAAACAGTGCAAATGTAA	MKFENSGLEGVTAELSRLNDLMEGKGLILAGQWDYERVTYDKKFSVPEGTFYLRIQGTAKEGDVGGSRAVIQLKAPLLGKHYYPHGVEYGSAEEFPEHVVTESKALLLELEESLKTVQM				NA	NA	NA	NA	NA
D1-12_00667	444	hrp1_2	COG0517	Hypoxic response protein 1	ATGACAAAGATCAATAAGCTCATGACGTCAGACTTGCAATATTGTACAGTATTAGATAATGTATATGAAGCTGCGGTGAAGATGAAAGACGCGGATGTCGGCGCCATTCCGATAGTGGATGAAGACGGCGCGACCCTTGTCGGGATCGTGACAGACAGAGATCTCGTATTACGGGGAATTGCTTCAAAAAAGCCGAACTCTCAAAAAATAACCGACGCAATGACAGAGCGGGTTATCAGTGCAGAAGAAGACGCCTCTGTGGAGGAGGTGCTCCATTTGATGGCTGAACATCAGCTCAGAAGAATTCCCGTCACAAAGGATAAAAAACTGGTCGGCATTGTTACGCTCGGCGATCTTTCGTTGGTTGAGCAATCAAATGAGCAAGCAGGCCGGGCGCTGTCTGACATTTCTGAAGACGGCGGTCCGGAGGGGTTTATCCATTAA	MTKINKLMTSDLQYCTVLDNVYEAAVKMKDADVGAIPIVDEDGATLVGIVTDRDLVLRGIASKKPNSQKITDAMTERVISAEEDASVEEVLHLMAEHQLRRIPVTKDKKLVGIVTLGDLSLVEQSNEQAGRALSDISEDGGPEGFIH				NA	NA	NA	NA	NA
D1-12_00668	1041			hypothetical protein	TTGAAAAATATCGCAAGGGCTCTCGTTATCCTTTTGCTTATTTACGGAGCGTATGTTCTGTTTATACAATATGGATCGGCTCCTCAGAAAAAGACGGATCAGGAGGAGCCTCAGGTTTCCAATGAAGAAGAGAGCGGAAAACGGCTGAAAATGCCGTCATCCGGACTGCTTTCTCTCATGGGGAAATCTGCCGCCGATGTGAAAAAGAAACTTGGGGAACCGTCCCGGAAAGATCCTTCTGCCTACGATTACGAGTGGTGGGTGTACAACCAGGGGAAAGACCAATACGTACAAGTCGGTATTTTGAATGATAAAGCCGTGACTTTATACGCTTCGGGAAGCGGCATCAACGCAAAACCGTTTAAGATCGGCGAATCGACGGGCGAAGTTTTTAAAACGACGCAGGTTTCTCCTTTTGTCAATGTGACTGACAAGGGAAACACGTATCGGTTCGAGTTTTCTGAAGAAGATATCAATACCCGTCCCACCGTTAAGATAGGCGGGATGTATGTTCAGCTGTACATGGACAAATTTGACGGGAATCTGTCAAGCATCAGGGCATTTGATGCGGAAACACTTGTGAAACAAAGGCCGTATGAAGTCATGTACAGAGGAAAGCTGACAGAACCCGAGCCAGTTTCTGATGAAAAATGGAACGACATTGAACGAGCGAGTGAGCAGCAGATTCTCGACATTACAAATGTCATCCGCGTGAAACACGGACTGGCAAGGCTGAAATGGGACGAAGGCGCCGCAAAAGTGGCATTCGGCCACAGCAAGGACATGAAGGATAACAAGTATTTCTCTCACGTCTCAAAGAAATACGGGACTCTGAAGGACCGCTTGGAAAAAGGCGATGTGAAATACCGGGAGGCTGGTGAAAATATTGCCTACAACTATGTGGACGGTCCTGCCGCCGTGGAGGGCTGGCTGAACAGCGAAGGCCACAGAAAGGCGCTGTTAAGCCCGGATTATACGCACCTCGGTGTCGGCGTGGACCGGAAGTATTATACGCAAAACTTCATTAAGCCTTGGCAGTAA	MKNIARALVILLLIYGAYVLFIQYGSAPQKKTDQEEPQVSNEEESGKRLKMPSSGLLSLMGKSAADVKKKLGEPSRKDPSAYDYEWWVYNQGKDQYVQVGILNDKAVTLYASGSGINAKPFKIGESTGEVFKTTQVSPFVNVTDKGNTYRFEFSEEDINTRPTVKIGGMYVQLYMDKFDGNLSSIRAFDAETLVKQRPYEVMYRGKLTEPEPVSDEKWNDIERASEQQILDITNVIRVKHGLARLKWDEGAAKVAFGHSKDMKDNKYFSHVSKKYGTLKDRLEKGDVKYREAGENIAYNYVDGPAAVEGWLNSEGHRKALLSPDYTHLGVGVDRKYYTQNFIKPWQ				NA	NA	NA	NA	NA
D1-12_00669	411			hypothetical protein	GTGGCGAATCAGCAATCACGGCAATCAATCGATGATTTTAAACAATTCGTAAAAAAGCATCCCAAACTGATCCAAAATGTTCGCAAGGAACAAAGGAGCTGGCAGGAAGTCTATGAAAATTGGGTTCTTCTGGGCGAGGATGATCCGATATGGGACCCTTTTAAAGACGAGGCCGTTCAGCCTTCTTCCGACGCGGAAACCAAACAGGAACCAGCTGAAAAAAACGATTTCGTTTCAAAAATGGTCACTGCCGTCAAAAAGATGGATATCAACCAAATGAATGAGCAGATCAATAAAATGAGCCAGTCCATTTCATCATTGCAAAGCCTTTTAAGCCAATTTTCGGGGAGCAGCACGAAGCAGCCCCGGCAAGGCTCCGGACAACATCCTTTTTCGTTCAGAAAGGATTAA	MANQQSRQSIDDFKQFVKKHPKLIQNVRKEQRSWQEVYENWVLLGEDDPIWDPFKDEAVQPSSDAETKQEPAEKNDFVSKMVTAVKKMDINQMNEQINKMSQSISSLQSLLSQFSGSSTKQPRQGSGQHPFSFRKD				NA	NA	NA	NA	NA
D1-12_00670	240			hypothetical protein	ATGCGAAAAGAGGTTCAGGAATTCATATCCGCAGATGAGGAACGGAAACGGTTTATACGGCAGCGTCCCGTCTGGTACCGCAGACTTGCGAGAAAACCGGACGATCTCAATTCCTTTCAGCTTGACATGATGAATTTTTATGAAAAGACGATACCGCATCGGGTAAGCCAATTCTCAAACGGGATTCAAATGGCGCAGATGATGATGCAGATGGTTCACGCCATGCGTTCACAGGATTAA	MRKEVQEFISADEERKRFIRQRPVWYRRLARKPDDLNSFQLDMMNFYEKTIPHRVSQFSNGIQMAQMMMQMVHAMRSQD				NA	NA	NA	NA	NA
D1-12_00671	450			hypothetical protein	ATGTATGCAACAATTGAGTCCGTCAAGCTTCAAAGTGAAGCGGAGCAGCTTGCCGGCATGATTCTGCAGTCTGAGACGGCTGAAAATTACCGCGATTGTTACAAGCGTCTCCGTGAAGATGAAGAGGCAGGGCGGATCATTCGTTCTTTTATGAGCGTTAAAGAGCAGTATGAGGATGTGCAGCGCTTTGGCAAATACCATCCTGATTATAGAGAGATTTCCCGCAAAATGAGAGAAATGAAGCGGGAACTGGATTTAAACGATAAGGTGGCCGAATTTAAAAAAGCGGAGACTGAGCTTCAGTCGCTGCTTGACGAGATCAGCATTGAACTCGGAACGGCCGTCTCGGAGCATGTAAAAGTTCCGACGGGGAATCCTTATTTTGACGGCCTGTCATCCTGCGGCGGCGGGTGCGGTTCCGGCGGCGGCTGCGGATGCAAAGTTTCCTGA	MYATIESVKLQSEAEQLAGMILQSETAENYRDCYKRLREDEEAGRIIRSFMSVKEQYEDVQRFGKYHPDYREISRKMREMKRELDLNDKVAEFKKAETELQSLLDEISIELGTAVSEHVKVPTGNPYFDGLSSCGGGCGSGGGCGCKVS				NA	NA	NA	NA	NA
D1-12_00672	276			hypothetical protein	ATGATGGAAAATAAGCGCCAAGGCATAATCGTATATCTGCATTCTTTAAAACACAGCAAAATGCTGAGAAAATTCGGCAACGTTCATTATGTTTCCAAGCGGCTGAAATACGTTGTGCTGTATTGCGATATGGATCTAATCGAAAAAACAATGGAAAAGATTTCTTCTTATTCTTATGTGAAGAAGGTAGAGCCTTCTTATAAACCTTTTTTAAAGCTGGAATTTGAATCAAAGCTTGATAAAGCGAAAGAGTACGATTATAAAATCGGCATATAA	MMENKRQGIIVYLHSLKHSKMLRKFGNVHYVSKRLKYVVLYCDMDLIEKTMEKISSYSYVKKVEPSYKPFLKLEFESKLDKAKEYDYKIGI				NA	NA	NA	NA	NA
D1-12_00674	138			hypothetical protein	ATGGGGAAACGTAAGTCTTCTCCGCGGTTGGCAACAACATCATTCATTGATGCTGTTACACTTAGTCTTGACAGGAATGTGAATATGTATACACGGTTTCACGTTCATTGTTTGAAAGAATGCTTTATGATAAGATAA	MGKRKSSPRLATTSFIDAVTLSLDRNVNMYTRFHVHCLKECFMIR				NA	NA	NA	NA	NA
D1-12_00675	510	rsmD	COG0742	Ribosomal RNA small subunit methyltransferase D	GTGCCGGGCACATCAACAAGGCCGACGACGGATAAAGTAAAAGAGTCTATTTTTAATATGATCGGCCCGTATTTTGACGGAGGAACGGGGCTGGATTTATTTGCGGGGAGCGGCGGTCTCGGGATTGAAGCGCTGTCGCGCGGATTTGACCGCTGTATCTTTGTGGATCGTGATTTCAAAGCCATCCAAACGGTAAAAGCGAATATCAAAGCGCTTGATCTGCTGTCTTCAGCGGAAGTATACCGCAATGATGCAGAGCGGGCTCTCTATGCCGCGGCGAAACGGGAAAAAGGTTTTGACGGAATTTTCTTAGATCCTCCGTATAAGGAGCAAAAGCTGAAAGCGCTTATCGAAATGATTGATGAGCAGAACATGCTGAATGAAGACGGTTTTGTCGTAGCCGAGCATGATAAAGCCGTTGCGCTTCCTGAAGCCGTCGGCGCGCTTTCCGTAACAAGAAGGGAAATTTACGGGCTTACAGGAGTGACGATATACCGAAATAGGGGGTAG	MPGTSTRPTTDKVKESIFNMIGPYFDGGTGLDLFAGSGGLGIEALSRGFDRCIFVDRDFKAIQTVKANIKALDLLSSAEVYRNDAERALYAAAKREKGFDGIFLDPPYKEQKLKALIEMIDEQNMLNEDGFVVAEHDKAVALPEAVGALSVTRREIYGLTGVTIYRNRG				NA	NA	NA	NA	NA
D1-12_00676	483	coaD	COG0669	Phosphopantetheine adenylyltransferase	GTGGCAAGTATAGCTGTATGTCCCGGAAGTTTTGATCCCGTTACCTACGGACATCTGGACATTATCAGACGGGGGGCAAACGTGTTTGAGCAGGTGTACGTATGCGTGCTCAATAATTCTTCTAAGCAGCCGCTGTTTACAGTTGAGGAACGATGTGAGCTGTTAAGAGAAGTGACAAAAGACATACCGAATGTTACGGTCGAGACGTCACAGGGACTGTTAATCGACTATGCGAAAAAAAAGCGGGCGAAGGCGATTATCAGGGGGCTCAGAGCCGTTTCTGACTTCGAATATGAGATGCAGGGGACTTCCGTCAACCGCGTGCTCGACGAATCAATAGAAACTTTTTTTATGATGACGAACAATCAGTACTCTTTTTTAAGTTCAAGCATCGTAAAAGAAGTCGCAAAATATAACGGGCCTGTTTCAGAGTTTGTTCCTCCGGAAGTTGAACAGGCGCTGAAGCAGAAATTTAAAGGATGA	MASIAVCPGSFDPVTYGHLDIIRRGANVFEQVYVCVLNNSSKQPLFTVEERCELLREVTKDIPNVTVETSQGLLIDYAKKKRAKAIIRGLRAVSDFEYEMQGTSVNRVLDESIETFFMMTNNQYSFLSSSIVKEVAKYNGPVSEFVPPEVEQALKQKFKG	PGPT0008825_3059	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
D1-12_00677	1227	ylbJ	COG3314	Sporulation integral membrane protein YlbJ	ATGAATTTGTCTAAGTTTCATACATTTTTGATTTCATTGTTTTTCATTTTTTTGACGGCGACGGTTATTTCACACCCTCAGGCCTCATTCGAAGCCTCCAAAACCGGTCTTTCCATGTGGTGGGAGGTAGTTTTTCCTTCATTGCTTCCGTTTTTTATTCTATCTGAGCTTTTAATCGGATTCGGCATTGTCAAGTTTGTCGGCCTTTTACTCGAACCCTTTATGCGTCCCATTTTCAGAGTGCCGGGGGTCGGCGGATTTGTACTGGCTATGGGCATGGCTTCAGGCAATCCGGCCGGCGCGAAGCTGACTGCACGGCTGCGCCAGGATAAACAAATCTCCAGAGTAGAGGCTGAACGCCTCGTCTCTTTTACCAATTCATCCAATCCGTTATTTATATTCGCTGCTGTGGCAGTCGGCTTTTTTCATAACGCGTCTCTCGGCATTCTGCTGGCATCGGCTCACTATCTCGGAAACATCGCCGTCGGCCTGACGATGCGTTCATACGGACGGAAAGAAGAAGCGGCGTATACCGGTAAAAAGACGATCGCTCTCCCTTCTCTGAAGGAAGCATTTCTGGCCCTCCACAAGGCGCGGCTTTCGGAAAAGCGGCCGCTCGGAAAAATTTTGGGCGACGCCGTCACCTCTTCTGTACAAACCTTGCTGATGGTGGGCGGTTTTATTATATTGTTTTCGGTTTTCAGTCGGTTATTATCAATCGTACAAGTCATGGATGTGCTTTCTGTATTTACAAACGCGCTGCTTTCGCTTTTTCATCTTCCGGCAAATCTGGACATCCCTCTTATCAGCGGGATGTTTGAAATTACACTTGGGAGCAAACTGGTCAGTGAAGCTGATGCCGACTTGCTGCCGAAAGCCATGATTGTGAGTTTTATTCTCGGGTTCAGCGGCCTTTCCGTACAGGCCCAGGTAGCCGGCATTTTATCGGAAACAGATATCCGCTTTAAACCGTTTTTCGCGGCGCGTATCCTTCAGGGCATTTATGCCGCACTCTTTATTCTCTTACTGTGGAAGCCGCTTTACCTTGCATTGGACGAACCTTACCAGTCCGTATTCCTCCCTTTCCGCGATCAGGAAGCGGTATCTGCTGTCGTCAGCGGATGGAATACACTTGTTGAAACCGGACCCGCCATCACGCTGACAGCTCTCGCCGTATACGCATTGATTTATTGTTACAGGCTGTCAGCACGGACAAAAAAAGGATGA	MNLSKFHTFLISLFFIFLTATVISHPQASFEASKTGLSMWWEVVFPSLLPFFILSELLIGFGIVKFVGLLLEPFMRPIFRVPGVGGFVLAMGMASGNPAGAKLTARLRQDKQISRVEAERLVSFTNSSNPLFIFAAVAVGFFHNASLGILLASAHYLGNIAVGLTMRSYGRKEEAAYTGKKTIALPSLKEAFLALHKARLSEKRPLGKILGDAVTSSVQTLLMVGGFIILFSVFSRLLSIVQVMDVLSVFTNALLSLFHLPANLDIPLISGMFEITLGSKLVSEADADLLPKAMIVSFILGFSGLSVQAQVAGILSETDIRFKPFFAARILQGIYAALFILLLWKPLYLALDEPYQSVFLPFRDQEAVSAVVSGWNTLVETGPAITLTALAVYALIYCYRLSARTKKG				NA	NA	NA	NA	NA
D1-12_00678	780			hypothetical protein	TTGGCCAAACCTACAATCGGGTTAGCGTTAGGTTCGGGAGGGGCAAGAGGCATCGCTCATCTCGGAGTGTTATCCAGTTTACATAAGCATCAGATTCCAATTGATATGATTGCCGGCAGCAGCATGGGAGCATTAGTCGGGAGCTTTTATGCGGCCGGGCATGACGTGGCCACGATGAAAAAAGTCGCTAAAGCATTTAAGCGGCGGCTGTACGCGGATTATACGATGCCGAGGCTTGGTTTTTTAAAAGGAGACCGCATCAGGCAGCTCGTTCATGCCTATACGTACGGCAAGCCGATAGAAGAACTGCGGATCCCGCTCGGCATTGTGGCCTGCGACCTTCAGACCGGCGAAAAGCTTGTTTTTACGAAAGGTTCAGTATCCGAAGCCGTCCGAGCGAGCATCAGCATACCGGGCGTTTTCGTCCCGCAAAAAATGAACGGACGTATGTTAGTCGACGGCGCGGTGGTCGACAGAATACCGGTTTCCGCCGTAAAAGATATGGGTGCTGATATCGTCATCGCCTCTGACGTATCCCGGGTGAAAAAAACGGAAAAGGCGGCACATATTTTTGATGTAATCATGCAAAGTATGGATATACTGCAAAATGAATTGGTCCGTCACCAGACCATTGCCGCAGACGTCATGATCCGCCCTTCTCTTGAATCATTCAGCTCAAGTTCTTTTGCCAACATTGATCATATGATCACAGCGGGCGAAGAAGCCGCAGACCGGATGATCGGCCGGATTAAACAAGAAATAGAGAACTGGGAGGGCTAA	MAKPTIGLALGSGGARGIAHLGVLSSLHKHQIPIDMIAGSSMGALVGSFYAAGHDVATMKKVAKAFKRRLYADYTMPRLGFLKGDRIRQLVHAYTYGKPIEELRIPLGIVACDLQTGEKLVFTKGSVSEAVRASISIPGVFVPQKMNGRMLVDGAVVDRIPVSAVKDMGADIVIASDVSRVKKTEKAAHIFDVIMQSMDILQNELVRHQTIAADVMIRPSLESFSSSSFANIDHMITAGEEAADRMIGRIKQEIENWEG				NA	NA	NA	NA	NA
D1-12_00679	1023	ylbL	COG3480	putative protein YlbL	ATGAAAGCAAAACATTTTCGCTGGGTGTTTATCATCCTGATCTTATTAATCGCTGTTACATTTATTAAGCTTCCGTATTACATCACACAGCCGGGAGAAGCATCAGAGCTGAGACCGCTGATTAAGGTGGACGGAGGCTATCCTGAAAAAGGAAGCCTTTCCTTGATGACTGTCAAAGTAGGCCCTGCCAATCCGTATACATATCTTTGGGCGAAAGTGCATCCTTACGATGAAATCGTCCCTGACGAAAGCATAAAAGAAGAGGGCGAATCGGACTCGGATTATATGAAGCGCCAGCTGCAAATGATGAAAAGCTCCCAAGAAAACGCGGTCATTGCCGCTTATCAAAAAGCCGGGAAACAGGTGAAATACTCATTTAACGGCATTTATGCCAGCTCAGTCGTCTCTGACATGCCGGCAAAAGGAAAAATAGAGGTCGGTGATAAAATCATCAGCGCGGACGGGAAAACATACGAATCCGCTGAAAAGCTGATTGATTATATCAGCAGCAAAAAAGCGGGGGAAAAAGTAACGTTTCACATTGAACGGGACACGAAAGAAAAGACCGTTGACATTGTGCTGAAATCATTCCCGGACGACCCGAAAAGAGCGGGAATCGGCGTCGCGTTATATACGGACCGGAACGTGAAAGTGAAGCCGGATCTTCATTTCAGCATTGAAAACATCGGCGGGCCTTCTGCGGGTCTCATGATGTCTTTAGAAATTTACAACCAGCTGACAAAACCTGACGAAACAAAAGGCTATAATATAGCCGGAACGGGGACAATCGACGTGGACGGCAAAGTCGGACCGATCGGCGGAATCGATCAGAAAGTCGTCGCCGCAGACAAAGCGGGAAAAGATATTTTCTTTGCGCCGAATCAAAACGGAGCTGAAAATTCTGATTACAAAAATGCGGTAAAAACGGCGAAAGCAATCAAGTCCGATATGAAGATCGTCCCTGTCGACACCATGCAGGACGCACTTGACTATTTGGATCAGCTGAAAGTAAAAAGCACCTGA	MKAKHFRWVFIILILLIAVTFIKLPYYITQPGEASELRPLIKVDGGYPEKGSLSLMTVKVGPANPYTYLWAKVHPYDEIVPDESIKEEGESDSDYMKRQLQMMKSSQENAVIAAYQKAGKQVKYSFNGIYASSVVSDMPAKGKIEVGDKIISADGKTYESAEKLIDYISSKKAGEKVTFHIERDTKEKTVDIVLKSFPDDPKRAGIGVALYTDRNVKVKPDLHFSIENIGGPSAGLMMSLEIYNQLTKPDETKGYNIAGTGTIDVDGKVGPIGGIDQKVVAADKAGKDIFFAPNQNGAENSDYKNAVKTAKAIKSDMKIVPVDTMQDALDYLDQLKVKST				NA	NA	NA	NA	NA
D1-12_00680	1248	tmcAL	COG1323	tRNA(Met) cytidine acetate ligase	ATGAAAGCAGTCGGCCTGGTTGTTGAATATAATCCCTTTCATAACGGACACCGCTATCATGCGGAACAAGCAAAAATCAAAACGGACAGCAGCGTCGCGGCGGCGGTGATGAGCGGCCCTTTTTTGCAGCGCGGGGAACCGGCCGCCGTCTCAAAGTGGGCCCGGACAAAAATGGCGCTGGAAAACGGCGTGGATATCGTCATTGAGCTCCCTTATATATATGCCGTACAAAAAGCGGAATTATTCGCGCGCGGCAGCGTTTCGCTTCTTCATCATTTAGGATGCAGCAGCTTGTTTTTCGGCAGCGAAAACGGGCGGATCGAACCCTTTATTGAAGCGTCTGAAGCGTTCAGCCGAAAGGAAGATGACTGCAGCCTGATTCTGAAAGAGGAGCTGAAAAAGGGTCTCAGCTATCCTGCCGCCGCCTCAAAAGCTTTTTCACACATATTCAAAGGGCGGGACATGCTCGATTTGTCCAAGCCGAACAATATTCTCGGTTTTCACTACGTTAGAGCGATACACACCTCCGGTTCCGCTATGAAGCCTTATACAACAGCCAGAATCGCTTCCCAATATCATGACGCCGAGCTTCCCGGAGATAACAGCCGGATAGCCAGCGCAACAAGCATCCGGAGAGCGCTGATAGAAAAAGGAACGGCGGCCGCAAAGAGCTTTCTCCCGGAAGCATCTGCGCGTCAGCTGGAGGCATACAGAAATTCATACGGAATATGGCACAGCACGGAAGACTATTTTTCATATGTAAAATACAGCCTCAGCACTCTTTCCGCTGAAGAATTGAGCCGAATCTATGAAGTGGAAGAAGGCCTTGAGCACAGAATTCTGCGCACCATCAGACAAGCCCGATCCTATCGCGAAATGATGGAACGATTGAAAACAAAACGATACACGTGGACGAGGCTGCAGCGGATGAACACGCACATTCTGACACGGACGAAAAAAGAAGACATGCATCGGCTCTTGCAGCCTTCAAGCGCTCCTTATATCCGTCTTCTCGGAATGACGAAAAAAGGACAGGCGTACCTGTCGGCAAAGAAAAAAGAGCTTACCGCACCTCTCGTCAGCAAGCTCTCTTCTTTCTCTCATCCCGCTCTGGATCTGGACATACTGGCGGGACGGGTTTACAGCCTGCCGATAAAAGAACCTGAACGCACATTGTTTGAGAAGCAGGAATTTTCACAAGCCCCGATCCGCTATGATGAAGACGAAAAGCGTTTTTTGAATGCGTAA	MKAVGLVVEYNPFHNGHRYHAEQAKIKTDSSVAAAVMSGPFLQRGEPAAVSKWARTKMALENGVDIVIELPYIYAVQKAELFARGSVSLLHHLGCSSLFFGSENGRIEPFIEASEAFSRKEDDCSLILKEELKKGLSYPAAASKAFSHIFKGRDMLDLSKPNNILGFHYVRAIHTSGSAMKPYTTARIASQYHDAELPGDNSRIASATSIRRALIEKGTAAAKSFLPEASARQLEAYRNSYGIWHSTEDYFSYVKYSLSTLSAEELSRIYEVEEGLEHRILRTIRQARSYREMMERLKTKRYTWTRLQRMNTHILTRTKKEDMHRLLQPSSAPYIRLLGMTKKGQAYLSAKKKELTAPLVSKLSSFSHPALDLDILAGRVYSLPIKEPERTLFEKQEFSQAPIRYDEDEKRFLNA				NA	NA	NA	NA	NA
D1-12_00681	519			hypothetical protein	ATGAAATGGACGATTTATCAGCTTCATCAAATGGCGAAAAAGAGCTTTGAATTTGATGAAACAGTTGAGTTAAATGAGCTGACAAAATTGAATTCTGACATCCGCCGCATTTCTCCTGTCCGGGTGAAGGGTCGCGCGGAGATTGAATCCAAGCAAGTTTCGTTTGACTTTACGATTTCAGGCGAAATGGTTTTGCCGTGCTCAAGAACTTTAGTTGATGTGCCGTATCCATTTACAATCGCGACAAAAGAACTGTTTAGATTTCATAAGTCGGATGATATAGAAGATGAGGACGTTCATATTGCTGAAGACGATATCGTCGACTTAACTCCGATCATAAAAGAAGAGATTCTTTTAGAAATTCCTATGCAAGTCTTTTGTGAAACTGAACAAAAAGAAGGAGCCGCTCCCCAAGTGGGGAAGGATTGGCAAGTGATTTCTGAGGAAGACAAGAAAAATCAAATCGACCCCAGACTTGCGGATCTGAAAAAGCTCTTAACACAAGATGATGAATCTTAA	MKWTIYQLHQMAKKSFEFDETVELNELTKLNSDIRRISPVRVKGRAEIESKQVSFDFTISGEMVLPCSRTLVDVPYPFTIATKELFRFHKSDDIEDEDVHIAEDDIVDLTPIIKEEILLEIPMQVFCETEQKEGAAPQVGKDWQVISEEDKKNQIDPRLADLKKLLTQDDES				NA	NA	NA	NA	NA
D1-12_00682	180	rpmF	COG0333	50S ribosomal protein L32	ATGGCTGTACCTTTTAGAAGAACTTCTAAAATGAAAAAAAGATTGCGCCGTACACATTTCAAACTAAATGTACCTGGTATGACAGAATGCCCGTCATGCGGAGAGATGAAATTGTCTCACCGTGTATGTAAAGCATGCGGATCATACAACGGCAAAGACATAAATGTTAAAAGCAATTAA	MAVPFRRTSKMKKRLRRTHFKLNVPGMTECPSCGEMKLSHRVCKACGSYNGKDINVKSN				NA	NA	NA	NA	NA
D1-12_00683	576	rsfA_1		Prespore-specific transcriptional regulator RsfA	TTGACGATAACGAGACAAGACGCGTGGACGCAAGATGAAGATTTGCTGCTGGCCGAAGTGGTGCTCAGGCATATTCGGGAAGGCGGGACCCAGCTTTCCGCTTTTGAAGAAGTCGGCAGAGCGCTGACGAGAACGGCTGCCGCCTGCGGGTTCAGATGGAATTCTTATGTCAGAAAACAATATCAGTCAGGGATAGAACTGGCGAAAAAACAGCGGAAGGAATTAAGAAAGCAGATCGGGGTGCATTCCGCCAATATGCCGGGAACCGTCAAACAGCCTCCGATCCGCAGGGCGGAAGGAGAAAAAGAGCTGTCCATTGATGATGTCATTTTGTTTCTGCAGCAATTTAAAGAGTCGCCGGCCGCAGCGGATGTGCGTCATGAAAAAGAAAAACTCACAGAACAGCTGACCGCGCTGCAAAAAGAAGTCGAGGATCTGCGTGAGGAAAATGAAAGCTTGAGAAACAAGCTGGAGATGACGGAAGAAGATTATAAAGCGCTAATTGACATTATGGACAGAGCGAGAAGGATGGTCAATTCAAAAGAAGACGACAGAAAATCGGCGCAGAGCCTGTAA	MTITRQDAWTQDEDLLLAEVVLRHIREGGTQLSAFEEVGRALTRTAAACGFRWNSYVRKQYQSGIELAKKQRKELRKQIGVHSANMPGTVKQPPIRRAEGEKELSIDDVILFLQQFKESPAAADVRHEKEKLTEQLTALQKEVEDLREENESLRNKLEMTEEDYKALIDIMDRARRMVNSKEDDRKSAQSL				NA	NA	NA	NA	NA
D1-12_00684	483	ylbP		putative N-acetyltransferase YlbP	GTGTTGAAAATAGAGCGACTGCTCATTAACTTTAAGACACTCGAAGAATTTAAAAGGTTTAAGGAATACGGGATGCAGGAGCTGTCGATGCTTGAAGATCTTCAGGATAATATCATTGAAAATGACAGCACCTCGCCTTTTTACGGGATTTACTTCGGGGATAAACTAGTGGCGAGAATGAGTTTATATCAGGTAAACGGAGGTGCGAATCCGTATTTTGATCAGCGTCAGGACTTTTTGGAACTTTGGAAGCTTGAGGTTCTTCCGGGCTATCAAAATAACGGATACGGAAAAGCGCTTGTTGATTTTGCAAAATCCTTCAGAATGCCGATCAGGACAAATTCACGCATGAAATCAGCAGATTTCTGGGATAAGATGAATTTTGAGCCCGTTAAATATGATATGGCGCGTGATAAAGGAGAAAATCCTTATATCTGGCATCCCGATATGAACGGTGAAATGACATCCGGAGAAACGGCATAA	MLKIERLLINFKTLEEFKRFKEYGMQELSMLEDLQDNIIENDSTSPFYGIYFGDKLVARMSLYQVNGGANPYFDQRQDFLELWKLEVLPGYQNNGYGKALVDFAKSFRMPIRTNSRMKSADFWDKMNFEPVKYDMARDKGENPYIWHPDMNGEMTSGETA				NA	NA	NA	NA	NA
D1-12_00685	921	panE	COG1893	2-dehydropantoate 2-reductase	ATGATAATATGGAAAAATGCAGATATAGGGTGTGACAGTGTGAAAATCGGAATTATCGGCGGCGGAGCGGTAGGCCTTTTATGTGCTTACTACTTATCGTCCCGCCATCAGGTAACGGTCATTACGCGGCGGACGGAGCAGGCTGATGCGATTAACTCAGGCGGTATACGACTTGTGAAAGACGGAATAGAATGTACGGCGGCATGCAGAGCGCAAACGGGCATCACTTCCGGATTCGACCTCTTAATCGCAGCCGTTAAACAGCACCAGCTCAGTGCTGTGCTGCGGGACCTTGAGACGATAAAAGGGACGAATGTGCTGTTTTTGCAAAACGGCATGGGACACATACACGACATGAAAGATTGGCATACGGATCATTCGCTTTATGCCGGCACTGTTGAGCACGGAGCAAAAAAGATATCAGATCATGCCGTTGAACATACGGGAGCGGGAGCCGTAAGATGGAGTGAATTCAGCGCATCCCGGCCGGAAACGCTCAAAAGCATCTTTTCCGGCATGCACCGCGATTTTCCCGTATATGATGAAAACGACTGGTATCGGCTGTTAACGGGAAAACTGATCATAAATGTATGCATCAACCCGTTAACTGCATTGCTGCGCGTGAAAAACGGAGAGCTGTTAAGAAATGACGCTTACAAAAAGTATATGAGAAACGTATTTGAAGAAGCGGAGACAATACTTGGCCTCGCCGATAGAGAAAAAGCGTGGAACAAGGTTTGCGAAGTGTGCAGACTGACGGAAAAAAATCATTCTTCCATGCTCGTCGATATCATGGCAGGCAGGCGGACAGAGGTTGATGCGATTATCGGCTACCTTGTAAAAGAAGCGGAAAGCCGCGGATTGCCGGCCGTTCATCTCACGTTTTTACACCGCAGCATAAAAGCGTTAGAAAGAAACTGA	MIIWKNADIGCDSVKIGIIGGGAVGLLCAYYLSSRHQVTVITRRTEQADAINSGGIRLVKDGIECTAACRAQTGITSGFDLLIAAVKQHQLSAVLRDLETIKGTNVLFLQNGMGHIHDMKDWHTDHSLYAGTVEHGAKKISDHAVEHTGAGAVRWSEFSASRPETLKSIFSGMHRDFPVYDENDWYRLLTGKLIINVCINPLTALLRVKNGELLRNDAYKKYMRNVFEEAETILGLADREKAWNKVCEVCRLTEKNHSSMLVDIMAGRRTEVDAIIGYLVKEAESRGLPAVHLTFLHRSIKALERN	PGPT0008745_3669	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
D1-12_00686	1677	bshC	COG4365	Putative cysteine ligase BshC	ATGCTATACTCATTTCGGAAACCTAACTATTTATTGGAGAAAGGAAGTTCCAGACAGATGCAGCTAACTGAACTTTCCATCAAAAGTCAAAATAAGTTTGTGCAGCACTATATAGATGGAGAAAACATGTCTTCATTTTTTGATTATGATATTCATTCAGAGGACGTATGGCAAAAGCGGCTTCATGACTTGTCTTCGCGGCCGTTTGCCAGAGAGGAATTAGCGGATTATTTATCCTCCTATCACGAAAAATTTCACTCCGCCGCCATGCAGGCCTCCATCGAAAAACTGAGAGATCCAAAAAGCGCAGCGGTAGTAGGCGGCCAGCAGGCCGGTCTTTTAACGGGGCCTCTTTACACCGTACATAAAATTATCTCCATTATCGTACTTGCCAGACAGCAGGAAGAGGCGTTACAGATTCCTGTCGTTCCGATTTTCTGGGTGGCGGGTGAAGATCACGATCTGGAAGAAATCAATTTTGTGCATACGTCAACAGAGAATAAAGGTCCGGTGAAACAGAAACTGCCGCAGTCGTACTGGAAAAAAACATCGGCGGCTAAAACCGAGCTTGATCAGGAAAAATGCGCGGCTTGGATTGATGAAGTGTTCGCTGCTTTTGAGGAAACGGATCACACAAACACACTCCTTCAAAACGTGAAGCGATGTTTACGCTCATCAGAGACATTCACCGACTTTTTTGAGCTGTTGATCGCCGACTTGTTTCAAGAAGAAGGCCTTATTCTGATGAACTCGGGAGATCCGGGGATTAAAAAGCTGGAAACGGGTATGTTTCAGCAGATTTTAAAACACAATCATGAGCTTGCCAAAGCCGTTTCAGACCAGCAGTGTTTTATGCGGGAAGCCGGTTATCACCCGATTATTGAATCGGACAAAGATCAGGCCAATCTGTTTTACGAACACGAGGGAGAGCGTTTCTTAATTGAAAAAGAAAACGGCGTTTTTGTCATTAAGGAGCTTGACCTGAAGTGGACGAACGACGAGCTTCATACCCATATGGAAGAAAAACCGGAATGTTTCAGCAATAACGTTGTGACAAGGCCGCTTATGCAGGAGTTTCTCATCCCGACTCTGGCGTTTATCGCGGGACCGGGGGAGATCAATTATTGGGGTGAGCTGAAGCAGGCTTTCTCATTAATGGGCTTTCGCATGACGCCGGTAGTGCCGAGACTGAACATTACGATTCTTGAGCGCCATATTGAAAAGAAGCTTTCAGAACGGAATATCCCGCTTCAGGAAGCGATCGAACACGGCACCGGACACCTGAAAGACAATTATTTTGAAGAGCAGATTCCGGAAGAGTTTACTTCTGTAATGGAGCAGGCGAAGTCGCAGATTGAAGCTATCCATAAAAGCGCAAGGGACGAAGCGCTGAAGGTCGATTCAAGCCTTGAGCCGCTCTTACAGAAGAATGCCGCCTTCATTCAAGATCAGCTCTTGTTTTTAGAACGGACGGTAACGAAAAGAATTGAAGAAAAAGAAGGCTTTGTGCTGCGTGACTATGAAAAAATCCAAAACAGCATCAGACCGCTCGGCGCTCCGCAGGAACGGATTTGGAATGTGATGTATTATCTGAACCGCTACGGTCCAAAATTCTTCACAACCTTCAAACATCTGCCATTTTCTTTTCAAAACCAACATCAGATTGTCAAACTTTGA	MLYSFRKPNYLLEKGSSRQMQLTELSIKSQNKFVQHYIDGENMSSFFDYDIHSEDVWQKRLHDLSSRPFAREELADYLSSYHEKFHSAAMQASIEKLRDPKSAAVVGGQQAGLLTGPLYTVHKIISIIVLARQQEEALQIPVVPIFWVAGEDHDLEEINFVHTSTENKGPVKQKLPQSYWKKTSAAKTELDQEKCAAWIDEVFAAFEETDHTNTLLQNVKRCLRSSETFTDFFELLIADLFQEEGLILMNSGDPGIKKLETGMFQQILKHNHELAKAVSDQQCFMREAGYHPIIESDKDQANLFYEHEGERFLIEKENGVFVIKELDLKWTNDELHTHMEEKPECFSNNVVTRPLMQEFLIPTLAFIAGPGEINYWGELKQAFSLMGFRMTPVVPRLNITILERHIEKKLSERNIPLQEAIEHGTGHLKDNYFEEQIPEEFTSVMEQAKSQIEAIHKSARDEALKVDSSLEPLLQKNAAFIQDQLLFLERTVTKRIEEKEGFVLRDYEKIQNSIRPLGAPQERIWNVMYYLNRYGPKFFTTFKHLPFSFQNQHQIVKL				NA	NA	NA	NA	NA
D1-12_00687	465	mraZ		Transcriptional regulator MraZ	GTGAGTTTAGGGGAGAAAGTGGGGGTCCTTATCATGTTTATGGGTGAATACCGGCATACTGTTGATGCAAAGGGCCGCATGATCGTACCCGCAAAATTCAGAGAAGGCCTCGGTGAGCAGTTTGTGCTGACCAGAGGACTGGACCAATGCCTTTTCGGCTATCCGATGAATGAATGGAAGCTGATTGAAGAAAAGCTGAAGGCTCTGCCGCTCACCAAAAAAGACGCCCGCGCATTTACCCGATTCTTTTTTTCCGGTGCGACCGAATGCGAACTGGACAAGCAGGGAAGGGTTAATATTGCGTCATCTCTTCTGAATTACGCAAAACTGGAAAAAGAATGTGTTGTCATCGGGGTTTCCAATCGAATTGAATTGTGGAGTAAGGTAATATGGGAACAATACACAGAAGAGCAAGAAGATTCATTCGCTGAAATTGCTGAAAACATGATTGGATTTGATATATAA	MSLGEKVGVLIMFMGEYRHTVDAKGRMIVPAKFREGLGEQFVLTRGLDQCLFGYPMNEWKLIEEKLKALPLTKKDARAFTRFFFSGATECELDKQGRVNIASSLLNYAKLEKECVVIGVSNRIELWSKVIWEQYTEEQEDSFAEIAENMIGFDI				NA	NA	NA	NA	NA
D1-12_00688	936	rsmH_1		Ribosomal RNA small subunit methyltransferase H	ATGTTTCAGCATAAGACAGTACTTCTTCGTGAAACCGTCGACGGTTTAAATATCAAACCGGACGGAACCTATGTGGACTGCACCCTTGGCGGCGCCGGGCACAGTACATATTTATTGCAGCAATTATCGGAAAAAGGACGCTTGATCGCCTTTGACCAAGATGACACAGCACTTGAAAACGCAAAGAAAACATTGTCCGAATACAAAGGACAGCTTATTCTGGTGAAAAGCAACTTTCGTTATTTAAAAGAGTGTTTACATGAACACGGCATTACGAGTGTTGACGGAATTTTATTTGATTTAGGAGTATCCTCTCCGCAGCTTGATACACCGGAACGGGGATTCAGCTATCATCATGACGCACCGCTGGACATGAGGATGGACCAGTCGGCCGCCCTTACGGCGAAAGAAGTCGTAAATGAATGGCGGTATGAGGACCTTGTGAGGATTTTCTTTAAATACGGAGAAGAAAAATTCAGCAAGCAGATCGCCCGAAAAATTGAAGAGGCTAGAGAAAAATCGCCTATTCAAACAACCGGCCAACTGGTCGATCTAATAAAGGACGCGATACCGGCTCCGGCGAGAAGAAGCGGAGGTCATCCGGCCAAACGTGTATTCCAAGCCATTCGAATCGCCGTAAACGACGAGCTTCAAGTATTTGAAGAGGCCCTCTTGCAAGCGATAGAGGTGCTGAAGCCGGGCGGAAGGGTGTCTGTGATCACTTTTCACTCGCTGGAAGACAGAATGTGCAAGACGACATTCAAGGAAAAATCATCACTTCCCGAACTGCCTCCGGGTCTTCCCGTGATACCGGAAGAATTTGAACCGGAATTAAAACTGATTACGAGAAAGCCCATTACGGCATCAAAAGAGGAGCTTGAAGAAAATAACCGCGCCCGGTCAGCGAAGCTCCGCATTGCGGAGAAACGAAAATAA	MFQHKTVLLRETVDGLNIKPDGTYVDCTLGGAGHSTYLLQQLSEKGRLIAFDQDDTALENAKKTLSEYKGQLILVKSNFRYLKECLHEHGITSVDGILFDLGVSSPQLDTPERGFSYHHDAPLDMRMDQSAALTAKEVVNEWRYEDLVRIFFKYGEEKFSKQIARKIEEAREKSPIQTTGQLVDLIKDAIPAPARRSGGHPAKRVFQAIRIAVNDELQVFEEALLQAIEVLKPGGRVSVITFHSLEDRMCKTTFKEKSSLPELPPGLPVIPEEFEPELKLITRKPITASKEELEENNRARSAKLRIAEKRK				NA	NA	NA	NA	NA
D1-12_00689	354	ftsL	COG4839	Cell division protein FtsL	ATGAGCAACTTAGCTTACCAGCAGGAAAAACAACAACGGCCAGTGATAAGTCCCGAAAAAAAGGTGATTGTCAAAAAGAGGGCTTCCATTACACTCGGGGAAAAGGTGCTGCTCGTCCTGTTTGCCATTGCCGTTCTCTCCACATCAATGTTTATCGTATCAAAGGCATACGCGGCGTACCAATCCAATATTGAGGTGCAAAAACTGGAGGAGAAAGTATCTGAGAAGAATAAACAGATCGGTGATCTCGAAAAGACGGCTGCTGACTTAAGCCAGCCGCAGCGCCTGATGGATATCGCCAAAAAGCACGGTTTGAATCTGAAAGATAAAAAAGTGAAAAACATACAGGAATGA	MSNLAYQQEKQQRPVISPEKKVIVKKRASITLGEKVLLVLFAIAVLSTSMFIVSKAYAAYQSNIEVQKLEEKVSEKNKQIGDLEKTAADLSQPQRLMDIAKKHGLNLKDKKVKNIQE				NA	NA	NA	NA	NA
D1-12_00690	2145	pbpB	COG0768	Penicillin-binding protein 2B	ATGCCGAAAAAAAATAAGTTTATGAACAGAGGAGCAGCGATACTCAGTATTTGTTTCGCTCTCTTTTTCTTTGTCATTCTCGGGAGAATGGCGTACATTCAATTAACCGGTAAAGCAAACGGTGTAGAACTTGCAACAAAAGCGACCGAGCAGCACGAAAAAAAGCGGACGATAGAAGCGAGCCGCGGCTCTATTCTTGACCGGAACGGCAAAGTGCTTGCAGAGGACACGGCGACATATAAGCTCATTGCAGTGCTTGATAAAAAGATGACGACCGACAAGAAGCATCCTCAGCATGTCAAAGACAAAGAGAAAACGGCGGAAAAACTGGCGACCGTTATCAATCTTGATAAAAGCAAGATTCTGGACATCTTAAACAGGGATGGCGCGAAGCAGGTGGAATTCGGTTCAGCCGGCCGCGATATCTCTTATGCGAAAAAACAAAAGATCGAAAAAATGAATCTTCCGGGTATTTCTTTCTTAAGAGATACGAAGCGCTACTATCCGAACGGCATATTTTTGTCAAATGTTCTCGGCTATGCCGATGTGAATGAAAAAACAAACGAGATACAAGGCTCTTTAGGGCTTGAAAAAATACTGAATAACTATCTGACGGAACGCGACGGATCCGTCACTTACGAAAGTGATAAATCCGGCTGGAAACTTCCGAACAGCAAAGAAAAAATCACCGCACCTAAAAACGGTGACAATGTATATTTAACCATTGATCAGAAAATTCAAACCTTTTTAGAAGACAGCATGACGAAAGTAGCGGAAAAATATAAACCGAAAAAAATTATGGCGGCTGTCGTAGAACCGAAAACAGGCAAAGTGCTTGCGATGGGGCAGCGTCCGAGTTTCGACCCGAATATCAGAAACGTCACCAATTATTACAACGACTTAGTGTCGTACGCGTATGAACCGGGTTCAACGATGAAGATCTTTACGCTTGCCGCGGCGATTCAGGAAAATGTGTTTTCTGCAAACGAGAAATATAAATCAGGAACATATAAAGTGGGAGGCAAACCTGTTAAAGATTGGAACGGAGGCGCCGGTTGGGGTATGACAAGCTTCCGTGACGGCCTCATGAGGTCATCCAATGTTGCTTTCGCCAAACTGGCCAACGAAAAACTGGGGTTTGACCGGTTTAATGAGTACCTGCACAAATTCGGGCTCTATCAAAAAACAGGGATTGATCTGCCCGGTGAAGTATCAAGTAAAATTAACTACAAATATGATTTTGACAAAGCGTCTACGGCTTACGGCCAAGCATCGGCGATAACGCCGATCCAGCAGCTTCAGGCCGTCACGGCGATTGCCAATAACGGCAAAATGATGAAACCTTACGTCATTGATCATATTGTCGACCCCGATACGAAAAAAGTCGTCAAGCAGACAAAACCAGAGCAAGTAGGCACGCCGATTTCAGCCGATACGGCGAAAAAAGTCCGGAACCTGCTCGGAGAAGTCGTGACGTCAGACATCGGAACGGGAAAACCTTATAAAATTGAAGGATTTGACGTCGCGGGTAAAACGGGAACCGCGCAAATCGCCGGGACGGGCGGATATTTAAAGGGAACGAGCAACTATGTGTTTTCATTCATGGGCATGGCGCCGAAAAATGATCCTAAGCTCGTCATCTATGTAGCCGTGCAGCAGCCGCAATTAAAAGCGGGTCAAAGCAGCTCTGATCCTGTCGCGGAAATCTTTAACCCGACGATGAAAAACAGCCTCCACTACCTGAATATCGAACCGACGGAAAAAACAGATTCCGGTCAGGAAGAAACGAAAAGCCAAAAGATGCCTGACCTGACAGATAAGACGGTCAAGAGCGCTGAGAAGGAAGCGAAAAATGAACATCTCACACCGATTGTCATCGGCAGCGATGTTGCCGTAAAAGAGCAGTATCCGACAGCTGGAGAAGATGTGATCACCAATCAGAAAATCTTCTTAAAAACAGACGGAAAGATGACGATGCCGGATATGTCCGGATGGTCGAGACGGGAAGTGCTTCAATTCAGCAAAGTATCAGGCATTCACATTGATGTGAGCGGTGAAGGTTACGCTTCAAGCCAAAGTGTGAAAAAAGGCAAAGAACTGAAAGAAAATACCGTGATCAAGGTGAAATTTAAAAATCCTGATTAA	MPKKNKFMNRGAAILSICFALFFFVILGRMAYIQLTGKANGVELATKATEQHEKKRTIEASRGSILDRNGKVLAEDTATYKLIAVLDKKMTTDKKHPQHVKDKEKTAEKLATVINLDKSKILDILNRDGAKQVEFGSAGRDISYAKKQKIEKMNLPGISFLRDTKRYYPNGIFLSNVLGYADVNEKTNEIQGSLGLEKILNNYLTERDGSVTYESDKSGWKLPNSKEKITAPKNGDNVYLTIDQKIQTFLEDSMTKVAEKYKPKKIMAAVVEPKTGKVLAMGQRPSFDPNIRNVTNYYNDLVSYAYEPGSTMKIFTLAAAIQENVFSANEKYKSGTYKVGGKPVKDWNGGAGWGMTSFRDGLMRSSNVAFAKLANEKLGFDRFNEYLHKFGLYQKTGIDLPGEVSSKINYKYDFDKASTAYGQASAITPIQQLQAVTAIANNGKMMKPYVIDHIVDPDTKKVVKQTKPEQVGTPISADTAKKVRNLLGEVVTSDIGTGKPYKIEGFDVAGKTGTAQIAGTGGYLKGTSNYVFSFMGMAPKNDPKLVIYVAVQQPQLKAGQSSSDPVAEIFNPTMKNSLHYLNIEPTEKTDSGQEETKSQKMPDLTDKTVKSAEKEAKNEHLTPIVIGSDVAVKEQYPTAGEDVITNQKIFLKTDGKMTMPDMSGWSRREVLQFSKVSGIHIDVSGEGYASSQSVKKGKELKENTVIKVKFKNPD	PGPT0023935_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023935-pbpB-K08724	NA	NA
D1-12_00691	1920	spoVD	COG0768	Stage V sporulation protein D	TTGCGCGTTTCAAATGTAACGGTTCGAAAACGTTTATTACTGGTTTTGCTTTTTGGCGTAATCATTTTTTTGATCATTGACAGCAGATTAGGCTATGTCCAATTTGTGATGGGAGAAAAGCTGACTTCACTGGCTAAGGATTCCTGGAGCCGGAATTTGCCGTTTGAGCCTGAGCGGGGAGAGATTCTTGACCGAAACGGCGTGAAGCTGGCTACTAATAAAAGCGCGCCGACCGTCTTTGTCGTACCGCGCCAGATCCAAAATCCCATAAAAACGGGCAAGCTTCTCGCGTCAGTTTTAAATATGTCGGAAGAGAAGGTCTACAAACACATTACTAAGAAAACCTCCATAGAAAAAATCTCACCCGAGGGTCGGAAAATTTCCAATAAAAAAGCGAAAGAAATCAAAGCGCTCGACTTAAAAGGGGTTTATGTGGCTGAAGACAGCATCCGCCATTATCCGTACGGAAGCTTTTTGTCCCATGTTCTCGGTTTTGCCGGTATTGATAACCAGGGCCTTCTCGGATTGGAGGCTTATTATGATGATGACTTAAAAGGTGTAAAGGGATCTGTGAAATTTTATACGGATGCCAAGGGGAAGAAAATGCCTGATGAAGCGGATGATTACAACCCTCCGAAAGACGGACTTGATATGAAATTGACGATTGATGCCAAGGTTCAGACGATTATAGAAAGGGAGCTCGACAATGCAGCGGCGAAATATAACCCGGACGGAATGATTGCGGTCGCAATGAATCCGAAAAACGGGGAAGTGCTCGGCATGTCAAGCCGTCCTGATTTTGATCCGGCTGACTATCAATCGGTGGATCCGTCCGTTTACAACCGGAACCTGCCGGTATGGAGCACATATGAACCGGGTTCGACCTTTAAGATTATTACGCTTGCGGCGGCTCTCCAAGAGCAAAAAGTAAACTTGCAAAGAGACCACTTTTATGACAAAGGATTTGCCGAGGTCGACGGCGCCCGCCTCCGATGCTGGAAAAAGGGCGGCCACGGTTCGCAATCTTATCTTGAAGTCGTTCAAAATTCCTGCAACCCCGGGTTTGTACAGCTGGGGGAACGGCTCGGAAAACAAAAGCTGTTTCAATATATTAAGGACTTCGGCTTTGGAAAGAAAACAGGCATTGATCTGCAAGGGGAAGGAACGGGGATCTTATTCCCGCTTGACAGAGTCGGACCGGTCGAACAGGCGACAACCGCTTTCGGACAAGGGGTTTCCGTCACGCCGATTCAGCAGGTGGCAGCCGTTTCCGCGGCAATAAACGGCGGAACGCTTTATACTCCGTTTATCGCCAAAGAGTGGGTTGATCCCGTTACGAAAAAAACCGTTAAGAAACAATCGCCGATTGCGAAAAGGCAAGTTATTTCCCAGGAAACGTCAAAGCAGATCAGATATGCTTTAGAAAGCGTCGTCGCTCAGGGAACGGGGCGGAATGCCTTTGTGGAAGGATATCGCGTCGGCGGAAAAACAGGTACCGCACAAAAGGTTAAAGACGGCAAATATCTCGAAAACAACCATATCGTCTCCTTTATCGGTTTTGCGCCGGCTGATGACCCGAGCCTTGTCGTATATGTCGCGGTTGATAATCCGAAAGGCACGATTCAATTCGGGGGAACCGTCGCCGCGCCGATTGTCGGAAATATGATGAGAGACAGTCTGCCTGAGCTCGGCGTCAAACCGCGAAAAAATCAAATCGAGAAAAAATATCAATGGAACGACACAAAAACAATAGAGGTTCCGAATGTTGTAGGGATGTCTGTCTCTGATCTTGAGTCGCTGCTTGTCAATTTGAATATAGACTCCTCAGGAAAAGGAAGCAAAATTGTGAAACAATCACCTGCAGCCGGAACGAAAGTAAAAGAAGGCTCAAAGATCCGTGTTTACTTGAGTGAAGAATGA	MRVSNVTVRKRLLLVLLFGVIIFLIIDSRLGYVQFVMGEKLTSLAKDSWSRNLPFEPERGEILDRNGVKLATNKSAPTVFVVPRQIQNPIKTGKLLASVLNMSEEKVYKHITKKTSIEKISPEGRKISNKKAKEIKALDLKGVYVAEDSIRHYPYGSFLSHVLGFAGIDNQGLLGLEAYYDDDLKGVKGSVKFYTDAKGKKMPDEADDYNPPKDGLDMKLTIDAKVQTIIERELDNAAAKYNPDGMIAVAMNPKNGEVLGMSSRPDFDPADYQSVDPSVYNRNLPVWSTYEPGSTFKIITLAAALQEQKVNLQRDHFYDKGFAEVDGARLRCWKKGGHGSQSYLEVVQNSCNPGFVQLGERLGKQKLFQYIKDFGFGKKTGIDLQGEGTGILFPLDRVGPVEQATTAFGQGVSVTPIQQVAAVSAAINGGTLYTPFIAKEWVDPVTKKTVKKQSPIAKRQVISQETSKQIRYALESVVAQGTGRNAFVEGYRVGGKTGTAQKVKDGKYLENNHIVSFIGFAPADDPSLVVYVAVDNPKGTIQFGGTVAAPIVGNMMRDSLPELGVKPRKNQIEKKYQWNDTKTIEVPNVVGMSVSDLESLLVNLNIDSSGKGSKIVKQSPAAGTKVKEGSKIRVYLSEE	PGPT0024085_439	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024085-spoVD-K08384	NA	NA
D1-12_00692	1473	murE	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGAAACTTACAAAGCTGCTTACATATTTAATGGCCGAACCTGTTCAAAATGACTTTCATGACCCTGACATAACTTCAATTGAGATGGACTCCAGGGAAGTGAGAAAAGGGAGTCTTTTTGTATGTATAAAAGGGTATACGGTAGACGGACATGATTTCGCCCAAAAAGCCGCAGAAAACGGCGCAGCGGCCATCGTTGCCGAGAAAGAGCTTGACGTCGATGTTCCTGTCATTATCGTCCGCCGGTCACAGCGGGCGCTCAGCGTTCTTTCTGACGCGTTTTACGGGCAGCCGACAAAGCAGCTTCAGCTTATCGGCATCACCGGCACAAACGGCAAAACATCAACGACGCACATGGTTGATGAGATTTTCAAAAAAGCGGGAAGGCAGACCGGTTTAATCGGAACGATGTACATTAAAATCGGGGATGAGACATTCCCGGTCAAAAATACAACGCCCGAAAGCGTCACACTGCAAAAAACGTTCAAGAAAATGAATGATGAGCATGTTGACACAGCTATTATGGAAGTGTCTTCTCACGCTCTGTCACTCGGCAGGGTTCACGGCTGCGATTATGATATCGCCGTATTCACGAACCTGACGCAGGACCATTTAGACTATCACAAGACGATGGAAGACTACAGACAGGCTAAAAGCCTCCTGTTTTCCCAGCTGGGCGGCTCCTTTAACCACGAAAAGCCGAAGCGGGCCGTTTTAAACGCAGATGACAAAGCCAGTGCTTATTTTGAAAAAGTGACGGCGGCGCACATCCTTACATACGGAATCGAGAACGATGCCGATGTCATGGCGAAACAAATCGAGATCTCTGCGCAAGGCACAAGCTTTGAACTCGTTACGCCAAAAGGAACAAAGCAGATCACGGTTTCACTCGTCGGCCGCTTCAACGTGTATAACGTACTGGCTGCAGCGGCGACAGCGATCGCAGCGGGACTGCCGTTTGATACGATCGCAAGCGCTCTTGAAGAGCTTCAAGGTGTCAGAGGCCGGTTTGAACTGGTGAATCATAATCAGCCGTTTCCTGTGGTCGTCGATTACGCGCACACGCCTGACAGTCTGGAAAACGTTCTGAATACATGTAAAGACATGACAGAGGGCAAGCTTTTCGTCGTCGTCGGCTGCGGCGGAGACCGGGACAAAACGAAACGCCCGAAAATGGCCGAAATTGCGGTGCGGATTGCCGACGAACCGATTTTTACTTCAGATAACCCGAGAAGCGAGGACCCGCTGGCCATATTAAGAGATATGGAAAGAGGGGTAGAAGGCACCTACTATCACAGTATCGCAAACCGCGAGCAGGCTATCTTTTTTGCCATTGCCAACGCGAAAAAGGGAGATGTGGTTCTGATTGCCGGGAAAGGGCATGAAACCTATCAGCAGATCGGCAATGAAACATTCGACTTTGATGACGCCGAAGTAGCGGGTAGAGCTATTGTTGAGCTGAATAAAAAGTAA	MKLTKLLTYLMAEPVQNDFHDPDITSIEMDSREVRKGSLFVCIKGYTVDGHDFAQKAAENGAAAIVAEKELDVDVPVIIVRRSQRALSVLSDAFYGQPTKQLQLIGITGTNGKTSTTHMVDEIFKKAGRQTGLIGTMYIKIGDETFPVKNTTPESVTLQKTFKKMNDEHVDTAIMEVSSHALSLGRVHGCDYDIAVFTNLTQDHLDYHKTMEDYRQAKSLLFSQLGGSFNHEKPKRAVLNADDKASAYFEKVTAAHILTYGIENDADVMAKQIEISAQGTSFELVTPKGTKQITVSLVGRFNVYNVLAAAATAIAAGLPFDTIASALEELQGVRGRFELVNHNQPFPVVVDYAHTPDSLENVLNTCKDMTEGKLFVVVGCGGDRDKTKRPKMAEIAVRIADEPIFTSDNPRSEDPLAILRDMERGVEGTYYHSIANREQAIFFAIANAKKGDVVLIAGKGHETYQQIGNETFDFDDAEVAGRAIVELNKK	PGPT0024130_2963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
D1-12_00693	975	mraY	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGCTTGAGCAAGTGATTTTATTTACAATAATAATGGGATTTTTAATCAGTGTTCTGATATCTCCGATTCTTATCCCGTTTTTAAGACGTTTAAAATTCGGCCAAAGTATCAGGGAAGAGGGGCCGAAATCACATATGAAAAAATCAGGGACGCCGACGATGGGCGGGGTCATGATTATTGTATCCATCGCCATTACGGCGATTGTCATGACGCAGAAATTTTCGCATCTGAGCGCGGAAATGTTTCTTCTGCTGTTTGTCACGATCGGATACGGCCTGCTCGGCTTTCTGGATGACTATATTAAAGTAGTAATGAAACGGAATCTCGGATTGACGTCGAAGCAGAAATTGATCGGCCAGATCATTATTGCCATTGTATTTTACGGAGTATATCATTATTGCCATTTTTCAACCGGCATCAGGGTGCCGGGCACACATCTGTCAATCGATCTCGGCTGGGGATACTTTATCCTCGTTCTCTTTATGCTTGTCGGAGGTTCAAATGCCGTCAACCTGACAGACGGTCTGGACGGTCTCTTGTCCGGTACCGCGGCTATCGCATTCGGCGCTTTCGCCATCCTTGCGTGGAACCAGTCACAATATGACGTTGCGATTTTCTCGGTTGCCGTTGTCGGCGCCGTTCTCGGTTTTCTTGTATTCAACGCCCATCCCGCCAAGGTATTTATGGGGGATACCGGTTCGCTTGCGCTCGGAGGAGCGATCGTGACCGTTGCCATTCTGACGAAGCTTGAAATTCTGCTCGTCATTATCGGCGGAGTATTTGTTATTGAGACCTTATCTGTTATCTTACAAGTCATCAGCTTTAAAACGACAGGAAAACGAATCTTTAAGATGAGTCCGCTTCACCACCATTACGAATTGGTCGGATGGTCTGAATGGAGAGTTGTCGTCACATTCTGGACTGCGGGACTGCTGCTTGCCGTTTTAGGAATTTACATCGAGGTGTGGTTATAA	MLEQVILFTIIMGFLISVLISPILIPFLRRLKFGQSIREEGPKSHMKKSGTPTMGGVMIIVSIAITAIVMTQKFSHLSAEMFLLLFVTIGYGLLGFLDDYIKVVMKRNLGLTSKQKLIGQIIIAIVFYGVYHYCHFSTGIRVPGTHLSIDLGWGYFILVLFMLVGGSNAVNLTDGLDGLLSGTAAIAFGAFAILAWNQSQYDVAIFSVAVVGAVLGFLVFNAHPAKVFMGDTGSLALGGAIVTVAILTKLEILLVIIGGVFVIETLSVILQVISFKTTGKRIFKMSPLHHHYELVGWSEWRVVVTFWTAGLLLAVLGIYIEVWL	PGPT0024105_3920	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
D1-12_00694	1356	murD		UDP-N-acetylmuramoylalanine--D-glutamate ligase	GTGGAAAACGAACTTTTTTTGCAAAAACAAAACTTTCTGGTCCTCGGACTGGCGAAAAGCGGATATGCGGCTGCGTCGATTCTTCATGAAAAAGGCGTTAACGTCGTCGTGAATGATCAAAAAGCCTTTGAAGAGAACGAACCTGCCCAAAGGCTTGCAGAAAGAGGAATTGAAGTCATCTGCGGTGAGCATCCGACGTCACTTTTTGATCAGCATCACATTACCATTCTGATCAAAAATCCCGGAATCCCGTATGAAAATATCATGGTGGAGGAAGCGCAAAGAAGAGGCATCCCGGTCTGGACGGAAATCGAGCTTGCGTATTATATCACCAATGCAAAATTCATCGGCATTACAGGTTCAAACGGGAAAACAACAACGACGACCCTGATTTATGAAATGCTGAAAGCTGACTCGATAAAGGCGCTGATCGCAGGGAATATCGGCACTGTCGCCAGTGAAGTGGCTTATCATGCTGACGGTGATGAATGGATCGTCACAGAGCTTTCTTCGTTCCAGCTTATGGGGACTCATGCGTTCAGACCTGAAATCGGCCTGATTTTAAATGTATTCGACGCTCATTTGGATTACCATCACAGCCGTGAAAACTATGAAAAAGCCAAGCAGAACGTGTATCTTCATCAGCTTGAGAGTGATACGGCCATCGTGAATCAAAGCGATGAAACAGTCGTGCGGCTTGCCGAAAGCGGAAAAGCCGGCACCGTTCCGTTTTCAGTTCACCAGGAACTGTCAAGCGGCGCATTCATTAAAGACGGAATGCTGATGTTCGGCGATGAAGCGATTCTGCCTGTTGATGACATCGTACTGCCGGGCGCGCACAATTTAGAAAATATATTGGCCGCTGTAGCCGCGGCAAAAACGGCGGGCGCGTCTAATAAAGCGATTCAGAAGGTGCTGACAAGCTTTACCGGTGTCAAACACCGTCTGCAGTATGTAACTGCGATCCAGAATCGTAAATTTTATAATGACAGCAAAGCGACGAATATTTTGGCCACAAGCAAAGCGCTCTCCGCATTCAAAGCACCGGTTATTCTGCTTGCAGGCGGACTGGACCGCGGCAACGGTTTTGACGACCTGAAACCGTATATGGACAATGTCAAAGCGGTCCTGACGTTCGGACAGACAGCGCCGAAGATAGAAAAACTGGGCAATGAGCTGGGAATACAACATGTCAAACGTGTCGATAATGTTGAACAAGCAGTATCTGCGGCGTTTGCGCTCTCAAATGAAGGAGACGTCATCCTTTTGTCACCCGCGTGTGCAAGCTGGGATCAGTTCAAAACATTTGAAGAACGCGGTGACATGTTTATAGATGCCGTGCATATGCTTAAGTAA	MENELFLQKQNFLVLGLAKSGYAAASILHEKGVNVVVNDQKAFEENEPAQRLAERGIEVICGEHPTSLFDQHHITILIKNPGIPYENIMVEEAQRRGIPVWTEIELAYYITNAKFIGITGSNGKTTTTTLIYEMLKADSIKALIAGNIGTVASEVAYHADGDEWIVTELSSFQLMGTHAFRPEIGLILNVFDAHLDYHHSRENYEKAKQNVYLHQLESDTAIVNQSDETVVRLAESGKAGTVPFSVHQELSSGAFIKDGMLMFGDEAILPVDDIVLPGAHNLENILAAVAAAKTAGASNKAIQKVLTSFTGVKHRLQYVTAIQNRKFYNDSKATNILATSKALSAFKAPVILLAGGLDRGNGFDDLKPYMDNVKAVLTFGQTAPKIEKLGNELGIQHVKRVDNVEQAVSAAFALSNEGDVILLSPACASWDQFKTFEERGDMFIDAVHMLK	PGPT0024125_2739	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
D1-12_00695	1026	ftsW_2	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGGTCTACAGTGCAAGTGCGGTATGGGCGGATTATAAATTTGACGACTCGTTTTTCTTCGCGAAACGGCAGCTGCTGTTTGCGGGGATCGGCGTCATTGCCATGTTTTTCATTATGAATGTGGATTATTGGACATGGCGTACATGGTCGAAGCTGCTTCTGATCATTTGTTTTTTTCTGCTTGTGCTTGTGCTGATTCCGGGAGTCGGAATGGTGCGGAACGGTTCAAGAAGCTGGATCGGAGTGGGAGCGTTCAGCATTCAGCCTTCGGAGTTTATGAAACTCGCGATGATTGCGTTTCTGGCTAAATTTCTTTCTGAAAAACAGAAGAATATTACGTCATTCAGACGCGGATTCGTTCCCGCGCTCGGAATCGTGTTTTCTGCATTTATTATTATTATGTGCCAGCCAGACCTGGGAACGGGGACGGTAATGGTGGGCACGTGCATCGTGATGATTTTTGTTTCCGGTGCGCGAATCGCTCATTTTGCGTTTCTCGGACTCATCGGTTTAAGCGGATTTGCGGCACTAGTTCTGTCCGCTCCTTATCGGATTAAACGGATTACCTCTTACTTAAACCCGTGGGAGGATCCGCTTGGAAGCGGATTTCAGATCATTCAGTCGCTCTATGCCGTAGGTCCGGGCGGACTGTTCGGGATGGGGCTGGGTCAAAGCCGGCAAAAGTTTTTTTACCTGCCGGAGCCGCAAACCGATTTCATTTTTGCTATTTTATCTGAGGAACTCGGCTTTATCGGCGGTTCGCTCATATTGCTGCTGTTCAGTATTTTATTATGGCGGGGCGTCAGGATTGCCCTCGGCGCGCCGGATTTATACGGAAGCTTTGTCGCCATCGGTATTATTTCTATGATAGCTATTCAAGTCATGATTAATATCGGCGTTGTGACGGGGCTGATCCCGGTAACAGGAATTACGCTGCCGTTTTTAAGCTACGGAGGCTCATCACTGACGCTGATGCTCGCAGCGGTCGGCGTGCTTTTAAATGTCAGCCGGTACTCGAGGTATTGA	MVYSASAVWADYKFDDSFFFAKRQLLFAGIGVIAMFFIMNVDYWTWRTWSKLLLIICFFLLVLVLIPGVGMVRNGSRSWIGVGAFSIQPSEFMKLAMIAFLAKFLSEKQKNITSFRRGFVPALGIVFSAFIIIMCQPDLGTGTVMVGTCIVMIFVSGARIAHFAFLGLIGLSGFAALVLSAPYRIKRITSYLNPWEDPLGSGFQIIQSLYAVGPGGLFGMGLGQSRQKFFYLPEPQTDFIFAILSEELGFIGGSLILLLFSILLWRGVRIALGAPDLYGSFVAIGIISMIAIQVMINIGVVTGLIPVTGITLPFLSYGGSSLTLMLAAVGVLLNVSRYSRY	PGPT0014810_4584	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
D1-12_00696	1092	murG_1	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGCGTATTGCAGTAAGCGGAGGCGGAACCGGAGGACATATTTATCCGGCCCTGGCCTTTATTAAAGAAGTTCAGCGCCGGCATCCGGATGTGGAATTTTTGTATATCGGAACAGAGAACGGTCTTGAGAAAAAAATTGTTGAACGGGAAAATATTCCGTTTCGCGCCATTGAAATTACAGGTTTCAAACGAAAACTTTCTTTTGAAAATGTAAAAACCGTCATGCGTTTCTTAAAAGGCGTGACGAAAAGCAAATCATATTTAAAAGAGTTTAAACCGGATGCCGTTATCGGTACAGGCGGCTATGTATGCGGTCCGGTTGTATACGCGGCGGCAAAAATGGGGATTCCGACGATCATTCATGAGCAAAACAGCCTGCCCGGCATCACAAATAAGTTTCTCTCGAAATATGTTAATAAGGTGGCAATTTGCTTTGAAGAGGCAAAATCGCATTTTCCTGCTGAAAAAGTTGTGTTTACGGGAAACCCGAGAGCCTCTGAAGTCGTCTCAATTAAGACAGGCCGCTCATTAACTGAGTTCGGGCTGAAAGACAATCAAAAAACGGTGCTCATTTTCGGCGGAAGCAGAGGCGCGGCTCCCATTAACCGTGCCGTTATAGAGATGCAGGAAGAATTGAAAACGAGACCTTACCAAGTCCTTTATATTACCGGGGAAGTGCATTACGAGAAGGTAACGGCTGAGCTGAAAGGCGGAAAAGCCGCTGATAATATGGTGACAAAACCGTTTTTGCACCAAATGCCGGAGTACTTACAATCAATTGATGTCATTGTGGCAAGAGCCGGAGCGACGACGATTGCGGAGATCACCGCTCTCGGCATTCCGAGCGTGCTTATTCCGAGCCCGTATGTGACAGCCAATCACCAGGAGGTCAATGCGAAGGCGCTCAGCCAGCATGACGCTGCAATCGTACTGAAGGAAACCGAGCTCAGCGGAGAAAAACTGATCGCTGCGCTGGACAAAATCGTCATGAATGAAGAAACCTTAAAAGACATGAGTGAGCGGACAAAATCACTCGGTGTTCCGGATGCGGCAGCCAGACTGTACAGTATCATGGAAGACATAAAAAAATAG	MRIAVSGGGTGGHIYPALAFIKEVQRRHPDVEFLYIGTENGLEKKIVERENIPFRAIEITGFKRKLSFENVKTVMRFLKGVTKSKSYLKEFKPDAVIGTGGYVCGPVVYAAAKMGIPTIIHEQNSLPGITNKFLSKYVNKVAICFEEAKSHFPAEKVVFTGNPRASEVVSIKTGRSLTEFGLKDNQKTVLIFGGSRGAAPINRAVIEMQEELKTRPYQVLYITGEVHYEKVTAELKGGKAADNMVTKPFLHQMPEYLQSIDVIVARAGATTIAEITALGIPSVLIPSPYVTANHQEVNAKALSQHDAAIVLKETELSGEKLIAALDKIVMNEETLKDMSERTKSLGVPDAAARLYSIMEDIKK	PGPT0024150_2599	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
D1-12_00697	912	murB	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGGAGAACGTAATTCAGGAATTAAGAGACCGCGAAGTCGGCAAAGTGCTGGAACAAGAACCGCTCGCGAACCATACAACGATGAAAATCGGCGGTCCGGCGGACATTTTGATCATCCCTAACCGTGTGGAAGCGGTCAAAGATATTATGGATATTGTGAAGAAACATGATCTGCCATGGACGGTTATCGGCCGCGGTTCAAATCTGCTCGTGCTTGATGAAGGCATAAGAGGAGTTGTCATCAAACTGGGCGCGGGTCTGGATCATTTGGAGATTGACGGTGATCAAGTGACGGTCGGAGGCGGCTATTCGGTCGTCCGGCTTGCGACTTCCATGAGTAAAAAAGGAATGTCCGGTCTCGAATTTGCAGCGGGCATTCCCGGATCAATCGGCGGAGCCGTCTATATGAATGCCGGGGCGCACGGATCTGATATGAGTGAGATTCTTGTGAAAGCCCGTATCTTATTTGAAGACGGCACAATCGAATGGCTGACAAACGAAGAGATGGATTTCAGCTACAGAACGTCTGTTTTGCAGAAAAAACGCCCCGGCGTCTGTCTCGAGGCAGTTCTTCAGCTTGAGCAGAAGGAACGGGAAGCCATTACGGCGCAAATGCAGCAGAACAAAGATTACAGAAAAAATACTCAGCCGTATTCAAGCCCCTGCGCCGGAAGCATATTCAGAAATCCGCTGCCGAATCATGCCGGAAACCTCGTTGAAAAAGCGGGATTAAAAGGACATCAGATCGGCGGAGCGAAAGTATCCGAAATGCACGGGAATTTTATCGTCAATGCCGGCGGAGCGACTGCCAAGGACGTTCTAGACCTGATTGAGTATGTGAAAAAGACAATCCGTGAGCAGTATGATGTTGACATGCATACAGAAGTTGAAATCATCGGAGGGAATCGTTAA	MENVIQELRDREVGKVLEQEPLANHTTMKIGGPADILIIPNRVEAVKDIMDIVKKHDLPWTVIGRGSNLLVLDEGIRGVVIKLGAGLDHLEIDGDQVTVGGGYSVVRLATSMSKKGMSGLEFAAGIPGSIGGAVYMNAGAHGSDMSEILVKARILFEDGTIEWLTNEEMDFSYRTSVLQKKRPGVCLEAVLQLEQKEREAITAQMQQNKDYRKNTQPYSSPCAGSIFRNPLPNHAGNLVEKAGLKGHQIGGAKVSEMHGNFIVNAGGATAKDVLDLIEYVKKTIREQYDVDMHTEVEIIGGNR	PGPT0024115_3817	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
D1-12_00698	789	divIB	COG1589	Cell division protein DivIB	GTGAACCCAAATCATGAAAGAGAAAAAATCGTAAATATTGAAGAGCGGATTCCGAAAATCAAAGAGCAGCGGAAACAAAAAGCAAACCGCCGGCTGATTTCATTCATTGTGCTTTTTTTTATGATGGTGCTGATCATCGTGTACTTGCAGATGCCGATCAGCAAAGTGTCTTCTGTCACCGTTTCCGGAAACGAAAACGTGTCTGTAAAAGAGATCAACGCGCTTTCTGATATACATAACGGACAAACCGAGTTCTGGAGTCTGAACAAGAAACAAACAGAAGAAAAGATTGAGCAGAATAAGCTGGTGAAAAAGGCGGAACTTTCAAAAGTATTTCCTAACAAAGTCAGCATTCACATTGAAGAATACAAGACGATCGCGTATCTGCAGCGACATGATGTGTATTATGAAGTGCTGGAGAACGGCACTGTGCTGCCGAACGAAGTCACACCGGATGACGCGGGCCCGATTTTGGTTGACTGGACAAACGCGAAAAAGCGGGTCAAAATGGCGGAGCAGCTTGATAAGCTTTCCGGTTCGCTAAAGCAGTCGATTTCTGAAATCTATTATACACCGGTAAAAATGGATCAGGACCGGATCAAGCTGTATATGAACGACGGGTATGTAGTTACCGCTTCTATTAAAACGTTTGCCGGCCGAATGAAGACCTATCCTTCTATCGTTTCCCAGCTGGACGGCGGGAAAAAGGGGATTATCCACTTAGAAGTCGCTACGTATTTTGAAGAATTTAACAAAGGTAAATCCGCCAAGAAAAAAGAAAATGATTAA	MNPNHEREKIVNIEERIPKIKEQRKQKANRRLISFIVLFFMMVLIIVYLQMPISKVSSVTVSGNENVSVKEINALSDIHNGQTEFWSLNKKQTEEKIEQNKLVKKAELSKVFPNKVSIHIEEYKTIAYLQRHDVYYEVLENGTVLPNEVTPDDAGPILVDWTNAKKRVKMAEQLDKLSGSLKQSISEIYYTPVKMDQDRIKLYMNDGYVVTASIKTFAGRMKTYPSIVSQLDGGKKGIIHLEVATYFEEFNKGKSAKKKEND				NA	NA	NA	NA	NA
D1-12_00699	1314	ftsA	COG0849	Cell division protein FtsA	ATGAACAACAATGAACTTTACGTCAGTCTTGACATCGGTACGTCCAATACAAAAGTGATCGTCGGAGAAATGACAGATGATTCCCTTAACATTATCGGAGTGGGAAATGTACCGTCTGAAGGGTTGAAAAAAGGCTCAATCGTTGATATAGATGAAACCGTTCATTCTATAAGAAAAGCGTTTGACCAAGCTGAAAGAATGGTAGGTTTTCCGCTGAAAAAAGCCATTGTCGGCGTTAATGGAAATTATATTCATATTCAAGATACGAACGGCGTTGTCGCTGTTTCCAGTGAAAACAAAGAAATTCACGTTGAAGACGTCCGCAGGGTAATGGAAGCGGCACAGGTCGTGTCAGTTCCGCATGAGCAGCTGATCGTTGACGTCGTTCCTAAACAGTTTATCGTTGACGGAAGAGACGAAATTACCGATCCGAAAAAAATGCTCGGCGTGCGCCTGGAAGTAGAAGGCACGCTGATTACCGGCTCCAAAACGATCTTACATAATTTACTTCGCTGTGTGGAGAGAGCGGGCGTTGAAATTACTGATATCTGCCTGCAGCCGCTTGCGGCCGGTTCGGCGGCTTTGTCAAAAGACGAAAAAAACCTCGGAGTCGCCATGATTGATATCGGAGGCGGCTCGACGACGGTGGCGGTATTTGAACAGGGGCACCTGAAGGAGACAGCCGTCATTCCGCTCGGAGGCGAAAACATCACGAAAGATGTATCGATCGGATTGCGCACTTCCACCGAAGAGGCTGAAAGAGTAAAAAAACAATTCGGACATGCATTCTATGATGAGGCTTCAGAAGATGAAGTATTTGAAGTCACCGTCATAGGAACGAATCAAAAGCAATCTTTTACACAGCAGGAAATTGCCAATATTATTGAAGCAAGAGTGGAAGAGATTCTTGAGATTGCCGCAGCCGAAATTGAGCATATGGGAATTACAGATCTGCCCGGCGGCTTTGTGCTGACCGGCGGACAGGCCGCAATGCCCGGAGTGCTTTCATTGGCACAGGAAGTGCTGAGGCACAATGTAAGGGTCGCAAGCCCGAATTATATCGGTGTAAGAGACCCTCAGTATATGACGGGTGTCGGCTTGATACAATTTGCCTGCCGAAATGCCAGAATTCAGGGAAGAAAAATAGGCTTTCATATGCCGGAAGAAGCCGTGCAGGAAATCGCGGTCTCTCACGAAGAAGAACATCATCAGCGGCCAGAGGCGCAGCAGCGTCCAAAAGCAAAACAAAAAACACAAGCCGAACACAACAAACCGAGCAAAATGAAAAAACTATTAAGCATGTTTTGGGAATAG	MNNNELYVSLDIGTSNTKVIVGEMTDDSLNIIGVGNVPSEGLKKGSIVDIDETVHSIRKAFDQAERMVGFPLKKAIVGVNGNYIHIQDTNGVVAVSSENKEIHVEDVRRVMEAAQVVSVPHEQLIVDVVPKQFIVDGRDEITDPKKMLGVRLEVEGTLITGSKTILHNLLRCVERAGVEITDICLQPLAAGSAALSKDEKNLGVAMIDIGGGSTTVAVFEQGHLKETAVIPLGGENITKDVSIGLRTSTEEAERVKKQFGHAFYDEASEDEVFEVTVIGTNQKQSFTQQEIANIIEARVEEILEIAAAEIEHMGITDLPGGFVLTGGQAAMPGVLSLAQEVLRHNVRVASPNYIGVRDPQYMTGVGLIQFACRNARIQGRKIGFHMPEEAVQEIAVSHEEEHHQRPEAQQRPKAKQKTQAEHNKPSKMKKLLSMFWE				NA	NA	NA	NA	NA
D1-12_00700	1149	ftsZ	COG0206	Cell division protein FtsZ	ATGTTGGATTTCGAAACAAACATAGACGGCTTAGCATCAATTAAAGTAATCGGAGTAGGAGGCGGCGGTAATAACGCGGTCAACCGAATGATTGAAAATGAAGTACAGGGTGTAGAGTACATTGCGGTAAACACGGACGCGCAAGCTCTTAACCTGTCAAAAGCGGAAGTGAAAATGCAGATCGGGGAAAAGCTGACCCGCGGTCTCGGAGCGGGTGCGAATCCGGAAGTGGGCAAAAAAGCCGCTGAAGAAAGTAAGGAACAAATCGAAGAAGCGCTAAAAGGCGCTGACATGGTGTTCGTTACAGCCGGAATGGGAGGCGGTACCGGAACGGGAGCCGCACCGGTTATCGCGCAAATCGCAAAGGACTTAGGCGCTTTGACTGTCGGTGTCGTAACAAGACCGTTTACATTTGAAGGAAGAAAACGTCAGCTGCAGGCTGCAGGCGGTATCACGGCAATGAAAGAAGCCGTTGACACACTGATCGTTATTCCGAATGACCGCATTCTTGAAATTGTCGATAAAAACACACCGATGCTTGAAGCATTCCGTGAAGCTGATAACGTGCTTCGCCAAGGGGTGCAAGGTATCTCTGACCTCATCGCGACGCCTGGTTTAATCAACTTGGACTTTGCCGATGTCAAAACCATCATGTCCAACAAAGGTTCAGCATTGATGGGTATCGGGATCGCTACGGGCGAAAGCCGTGCTGCTGAAGCCGCCAAAAAGGCGATCTCCAGTCCGTTACTGGAAGCGGCAATCGACGGAGCGCAAGGTGTTTTGATGAACATTACGGGAGGTACAAACCTGAGCCTCTACGAAGTGCAGGAAGCAGCCGACATCGTCGCTTCTGCATCTGACCCTGATGTCAACATGATTTTCGGTTCAGTTATCAATGAAAATCTGAAAGATGAAATCGTCGTCACCGTTATTGCGACCGGTTTTATCGAACAGGAAAAAGATGACTCAAAACCGCAGCGCCCGACTTTAAACCAAGGATTGAAGTCTCAAAGCCAAAACGCTGCGAAACGTGAGCCGAAACGAGAAGAAACACAGCATCAAAACACGGCGAACCGCCATACATCACAGCCGGCGGATGATGCCCTCGACATTCCTACATTTTTAAGAAACCGCAACAAACGCGGCTGA	MLDFETNIDGLASIKVIGVGGGGNNAVNRMIENEVQGVEYIAVNTDAQALNLSKAEVKMQIGEKLTRGLGAGANPEVGKKAAEESKEQIEEALKGADMVFVTAGMGGGTGTGAAPVIAQIAKDLGALTVGVVTRPFTFEGRKRQLQAAGGITAMKEAVDTLIVIPNDRILEIVDKNTPMLEAFREADNVLRQGVQGISDLIATPGLINLDFADVKTIMSNKGSALMGIGIATGESRAAEAAKKAISSPLLEAAIDGAQGVLMNITGGTNLSLYEVQEAADIVASASDPDVNMIFGSVINENLKDEIVVTVIATGFIEQEKDDSKPQRPTLNQGLKSQSQNAAKREPKREETQHQNTANRHTSQPADDALDIPTFLRNRNKRG	PGPT0027695_4252	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
D1-12_00701	4296	bpr	COG1404	Bacillopeptidase F	TTGAAGAAAAAAACGAGAAACAGATGGACAGGCTCCGTTTTAAGCGCGATTGTCGTCAGTTCACTGTTGTTTCCGGGTGCAGCCGGAGCGAACAGCACACCGGGGGCAGTTTCTTTCACCAAAGATCTTTCTTCCTCTAAGAGCATTCAGCATAAGATTTCCGATTCAGTCAAGAAGCGTTTTGAAAAAAATGATAAAGTCACGTTTCTTATCAAATTTAAAGAGAAAGCCAATACGAAAAAAGCGGTCAAAGAAGCAGAAAAAAACGCCAAGTCTCAATCGCTTTCCGCAGCAAAAACCGAATATCAAAAGCGGTCAGCCGTCGTTTCTTCTTTAAAACTGGCGGCTCATGATGCGCAGCAGAATCTGAAAACATATTTGGAAAAACAAAAAAAGAAAGGCAAGGCTGATCACATCCATTCCTATTATATTGTCAACGGAATGGCAGTCACTGCTTCGAAAGAGGTAATGGAAAAAGCCGCCTCATTTCCTGAAGTAGAAAAAGTTCTTCCGAATGAAAAACGTCAGCTTACTCAACGACAATCAATAGCTCCTTTTCAAATGAAGAAAAAACAAAAAGAGATCAAAGCAAAGGAAGGCATCGAATGGAATATCAGCCAAATTGATGCGCCGCAGGCCTGGGCCTCAGGATACGACGGAACCGGCACGGTTGTCGCCTCCATTGATACGGGAGTTCAGTGGGATCATCCGGCGCTTAAGGAAAAATACCGGGGTTACGATCCTGCAAATCCCGCAGCGCCGAATCATGAAATGAACTGGTATGATGCCGTGTCCCATAAAGACGCTCCCTACGATGATCTTGAACACGGCACTCATGTAACAGGGACCATGACGGGTTCAGAACCTGACGGCTCAAATCAAATCGGTGTGGCTCCGGGGGCGAAATGGATCGCAGTAAAAGCATTTTCAGATGACGGAGGAACCGATGCCGATATTTTGGATGCCGGTGAATGGGTGCTCGCGCCTAAAGATAAAAACGGCACGCCGCATCCCGAGATGGCGCCGGATGTTGTTAATAATTCCTGGGCAGGCGGTTCGGGAATGGACGAGTGGTACCGCGATATGGTGAATGCGTGGAGAGCGGCAGGGATTTTTCCGGAATTCTCTGCGGGAAATGAAGACTTATTTACACCGGGAGGACCGGGTTCAATCGCGAATCCGGCCAATTATCCTGAAGCATTTGCGACAGGTGCGACTGACATCGACAAGAAACTCGCTGATTTCTCACTTCAAGGCCCCTCACCGTATCATGAAACAAAACCGGACATTTCGGCTCCGGGAGTGAATATCCGTTCTTCGATTCCTGGAGGAACATACGAAGGCGGCTGGGACGGAACTTCAATGGCCGGGCCGCATGTGGCGGCGACGGCGGCTTTGTTAAGGCAGGCAAACGCCTCTATTACGGTCGATGAAATGGAAGACGTTTTGACGCGCACCGCGGAAAAGCTGACAGATTCCGTTTTTCCGGAATCACCGAATAACGGTTACGGCCACGGTCTCGTTAACGCTTTTGATGCCGTTTCTGCCGTAACGGACGGAATCGGAAGCGTAGAAGGCAAGGTCTCTTCTGCGGGCGAAGATCACAATCCGCCCAGCTTTCATCATGAACCGGTCTCAGTGGCTTACAAAGGGGCAAACCTTCCGTTAACGGTTACAGCAGAAGACGATGTAAGCGTAACTGAAGTCATCCTTTCCTATCAGTTTGATGAAGGAGAGTGGAAAACGACAGCCGCCGTTCAAAAAAGCGGTGATGAAAAAAAGGGAACATACCAGGCGGAAATTCCGGATGTAACGGGAAGCAAGATAAGTTATAAATGGACCATAAAAGATTTCGGAGGTCATTCTGTAGAATCTGATACGTACCGGGCTGACGTGAAACCGAGCGTTACGGCGGGATACAAAGAGGATTTTGAATCACAGCCGGCGGGGTGGTCCAGTTACGGGACACATGACCAATGGGAATGGGGTACCCCGGGTTCAGGGCCCGGCACCGCATTTTCCGGAGATAAAGTGTATGCGACGAATCTGTCCGGCCCTTATGCCGATTCAGCCAACATGAATTTGGTGATGCCTCCGATTCAAGTTCCGGAAACAGGACGGCTGTTTTTGCAATTTAAAAGCTGGCACAAGCTCGAAGAATTTTTTGATTACGGGTATGTGTTCGTTCTGCCGGAAGGAAAATCAAATTGGGAGCAGGCGGCCGTTTACAATGGTGACTCCGCAGGATGGAATGATGAAGAGGCTGATTTATCTGCGTATAAAGGCCAAAACATAAAGCTCATGTTTAATATGCAGTCAGACGAAGTACTGAATGAAGACGGATGGTATATCGATGATGTCCGGCTTTCAAGCAGCCCTCTCGGCAAGGCGGCCAAAAAAAATAAACACAAAAGACAAACACCTCCCGGCCACCTGAAGAAAAAAGCCGTCAGTCCGAAACAGGCCAAACCGGCAGTGAAATCACCCGGAAAAAGAGTGAAACGTGAAACAAACCTCCTGCCGCTCAGAGCGCAAATCAGTGTCTCCGAGACGGGGAAATCCGTATATTCCGACCCTGCAAGCGGAAGCTACAGCCTGTCACATAAGGCGGGAAGCTATACGCTGAAAGCCGAGGCTTACGGATTTAAGTCCGCTTCGAAACAAGTTTCTATTCAATCAGACAAAACCGCACAGGCAGACTTTACACTGGAGCAAATGCCGTCCGGCACGCTAAAAGGAACCATCACCAATCAGTCAACAGGCGAACCGGTAAAAGGGGCTGCGCTTTATGTGGCTGAGGATGCCGCAATTGAACCGGCGGTGACAAACGATAAAGGGGAATATTCGCTTAAGGCGTACGAAGGCTCCTACACAATCAAAGTAGCGGCAAAAGGCTTTTACAATAGCGAATTTTCTGTTGACATCAAAGGAGATGCTGAAAAAAACGTCAAGCTTAAGCCGTATGTCGGTTATGAAGGGGAAATTGCCTATGATAACGGGACGGAAGAAGCCGCGCTGTCATATTTTAAAGCCGGCAGCAAATCTGCCGTTAAGATGACGCTTAAAGACGGAAAAGAACACGGTATGCTGACGGGAGGCCTTTTTAAATTTTGGGGCGCCGACTGGCCTGATCCGGGAGGTACCGAATTTCAAGCAGAAGTATATGATGCATCCGGCCCTGATGGAGCTCCGGGCAGCAAAATTGCCGGCCCGTTCCAAGCTGAAGCGCTTCGAAACGGCGAATGGACCAAAGTGGATCTCAGCTCAAAAGGAATCGCGGTCGGAAAGGATTTTTATCTTGTGTTCCGCCAGACGAAACCCGATCCTTATACACCTGCCCTGTCATCTGATGACGGCAGTCCGTACTCGAACAGAAACTGGCAATACCTCGACGGCCGCTGGTCAAAAGCCGATAAATCAGACGGAAACTTTATGATCAGGGCTTTGGTCGACTATGAAGCTTCTGTGCCTGAGATAACCTCGCCTGAAGATCAGTCATTTACAAACAAGAAGTCAATCACGGTGAAGGGAACGGCTTCACCAAAAACCGCTGTCCGTCTTACCAATAACGGTAAAACCGCCGCAGAAACGAAAGCAGATGCAGACGGCAATTTCCAGGCTGATGTCACACTCACTAAAGATGCCAATCGGCTGACAGCGGCATCTGTGACAGACAGCGGGTCAACCGATGAGTCACGCCCTGTCACGGTCATACTGGATGAGGATAAGCCGGATGTGACGATTGACAGTCCGGCAAACGGTGATAAAACAAATAAAGAAGCAGTGACTGTAAAAGGAAAAGTGCACGACGCCCATTTAAAATGGGTAAAGGTGAACGGAAAAAAAGCTGAAGTAAATAACGGTTCTTATCAAGCGAGAACCCTTCTGGAAAACGGCAGCAATGAGATCAAGGTCACGGCCTCAGATGAAGCGGGTAACAAAACAACGAAAAAGACGGTAATCGATGTCAATTACAATGCTCCCGTCATTTCCGGATTGGTTCCCGGAGCGGATAAGGAATTAAAAGCCGGAGAATCAGTGAAAATCGCTTTTTCAAGCGGAAAGAAATTAGACGCTTCCTTCGTGATCCGTCTGCCTCTGACAAACGCCCGGGCAGGGAGCCAAAACGCAACAGAGCTTCCGCTGAGAGAAATTTCTCCGGGACGATATGAGGGTTACTGGACGGCGACTTCTTCCATCAAAGCAAGCGGAGCAAAAATTGACGTTATCGCAAGAGATGACTACGGAAATGAAACGAGACAGACGGCTAAAGGAAAACTTTATATCAATGAGTAA	MKKKTRNRWTGSVLSAIVVSSLLFPGAAGANSTPGAVSFTKDLSSSKSIQHKISDSVKKRFEKNDKVTFLIKFKEKANTKKAVKEAEKNAKSQSLSAAKTEYQKRSAVVSSLKLAAHDAQQNLKTYLEKQKKKGKADHIHSYYIVNGMAVTASKEVMEKAASFPEVEKVLPNEKRQLTQRQSIAPFQMKKKQKEIKAKEGIEWNISQIDAPQAWASGYDGTGTVVASIDTGVQWDHPALKEKYRGYDPANPAAPNHEMNWYDAVSHKDAPYDDLEHGTHVTGTMTGSEPDGSNQIGVAPGAKWIAVKAFSDDGGTDADILDAGEWVLAPKDKNGTPHPEMAPDVVNNSWAGGSGMDEWYRDMVNAWRAAGIFPEFSAGNEDLFTPGGPGSIANPANYPEAFATGATDIDKKLADFSLQGPSPYHETKPDISAPGVNIRSSIPGGTYEGGWDGTSMAGPHVAATAALLRQANASITVDEMEDVLTRTAEKLTDSVFPESPNNGYGHGLVNAFDAVSAVTDGIGSVEGKVSSAGEDHNPPSFHHEPVSVAYKGANLPLTVTAEDDVSVTEVILSYQFDEGEWKTTAAVQKSGDEKKGTYQAEIPDVTGSKISYKWTIKDFGGHSVESDTYRADVKPSVTAGYKEDFESQPAGWSSYGTHDQWEWGTPGSGPGTAFSGDKVYATNLSGPYADSANMNLVMPPIQVPETGRLFLQFKSWHKLEEFFDYGYVFVLPEGKSNWEQAAVYNGDSAGWNDEEADLSAYKGQNIKLMFNMQSDEVLNEDGWYIDDVRLSSSPLGKAAKKNKHKRQTPPGHLKKKAVSPKQAKPAVKSPGKRVKRETNLLPLRAQISVSETGKSVYSDPASGSYSLSHKAGSYTLKAEAYGFKSASKQVSIQSDKTAQADFTLEQMPSGTLKGTITNQSTGEPVKGAALYVAEDAAIEPAVTNDKGEYSLKAYEGSYTIKVAAKGFYNSEFSVDIKGDAEKNVKLKPYVGYEGEIAYDNGTEEAALSYFKAGSKSAVKMTLKDGKEHGMLTGGLFKFWGADWPDPGGTEFQAEVYDASGPDGAPGSKIAGPFQAEALRNGEWTKVDLSSKGIAVGKDFYLVFRQTKPDPYTPALSSDDGSPYSNRNWQYLDGRWSKADKSDGNFMIRALVDYEASVPEITSPEDQSFTNKKSITVKGTASPKTAVRLTNNGKTAAETKADADGNFQADVTLTKDANRLTAASVTDSGSTDESRPVTVILDEDKPDVTIDSPANGDKTNKEAVTVKGKVHDAHLKWVKVNGKKAEVNNGSYQARTLLENGSNEIKVTASDEAGNKTTKKTVIDVNYNAPVISGLVPGADKELKAGESVKIAFSSGKKLDASFVIRLPLTNARAGSQNATELPLREISPGRYEGYWTATSSIKASGAKIDVIARDDYGNETRQTAKGKLYINE	PGPT0020925_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020925-bpr-K13276	NA	NA
D1-12_00702	930	spoIIGA		Sporulation sigma-E factor-processing peptidase	GTGAAAATCTATCTGGATGTCATTTGGCTGTTGAACTTTTGTTTTGATTCTCTTTTGCTTTTATTGACCGCCTTTATTTTAAAACGCCAGGTGAAAAAAAGAAGAGTGGCCGCCGGCGGTTTCATCGGGTCAGCCATTGTGCTTCTGATGTTTACGCCTGTTTCTCCCTTTGTGGAGCATCCGGCGGGAAAAATGGCGTTTTCAGTAGTCATCGTGCTTACGGCTTTTGGCTTTAAACGGTTCCGATACTTTTTTCAAAATTTGTTCGCCTTTTATTTCGCGACTTTTCTCGTCGGCGGGGGAATGATCGGCGTACATTCCCTGCTGCAGACAGAATCAATTGTGCAGCAAGGCGTAATGGTCACAAGCCAGACCGGATTCGGCGACCCGATCAGCTGGATGTTTGTAGTTATCGGATTTCCGGCCATATGGTTTTTTTCGAAAAAGAGAATTGAAGACATCGAGACGAAGTCCATTCAGTACGATGAACTTGTCATGGTGCAGGCGGAATTCAGCGGACAGACAATCCGCGCGAAAGGATTGGTGGATTCCGGGAATCAGCTGTATGATCCGCTGACGAAAACGCCGGTCATGATCCTTTGCATTGACAAATTCGCTCCGATTCTCAGCGAAAAGGAAACGGACCTCATCAAATCCGCCAGTCCGCTTGAAGTGATAGAGCAGCTTGATGATTCGTTCCGCCATGCGGATAAGCTGAGGCTGATTCCGTACAGGGGCGTCGGCCAGGACAATCAATTTTTACTCTGTTTAAAGCCGGATTACGTCACGATTTTAACAAAAGACGAAATGATCGCTTGTGAAAAATGCCTGATCGGCATCAGCACGAAACCATTATCCGCGGACGGTGAATTTGACGGAATCGTTCATCCGAAGATGCTGACAGGGAAGGCTGTAAAACATGTTTCCTGA	MKIYLDVIWLLNFCFDSLLLLLTAFILKRQVKKRRVAAGGFIGSAIVLLMFTPVSPFVEHPAGKMAFSVVIVLTAFGFKRFRYFFQNLFAFYFATFLVGGGMIGVHSLLQTESIVQQGVMVTSQTGFGDPISWMFVVIGFPAIWFFSKKRIEDIETKSIQYDELVMVQAEFSGQTIRAKGLVDSGNQLYDPLTKTPVMILCIDKFAPILSEKETDLIKSASPLEVIEQLDDSFRHADKLRLIPYRGVGQDNQFLLCLKPDYVTILTKDEMIACEKCLIGISTKPLSADGEFDGIVHPKMLTGKAVKHVS	PGPT0024680_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024680-spoIIGA-K06383	NA	NA
D1-12_00703	720	sigE	COG1191	RNA polymerase sigma-E factor	ATGAAAAAACTTAAGCTGCGTCTGACATATTTGTGGTATAAATGGCTGATGAAACTCGGACTGAAAAGCGATGAAGTATATTACATAGGAGGAAGCGAGGCGCTGCCGCCGCCTTTGTCTAAAGAAGAGGAGCAGGTGCTCTTATTAAAGCTGCCGAGCGGGGATCAGGCGGCGCGGGCCATCCTGATTGAGAGAAACTTACGTCTTGTCGTTTACATTGCCCGCAAATTCGAAAACACCGGCATCAATATCGAGGACTTAATCAGCATCGGCACCATCGGTTTGATCAAAGCGGTAAACACTTTTAATCCGGAAAAGAAAATCAAACTCGCCACCTATGCATCGCGATGTATCGAAAACGAAATTTTAATGTACTTGCGCAGAAACAATAAAATCCGTTCAGAGGTATCCTTTGATGAACCGCTGAACATTGATTGGGACGGAAACGAACTGCTGCTTTCGGATGTGCTCGGCACAGATGATGATATTATTACAAAAGACATTGAAGCCAATGTGGATAAAAAACTTCTGAAAAAAGCGCTTGAGCAATTAAACGAAAGAGAAAAGCAGATTATGGAACTGCGTTTCGGGCTTGTCGGAGAAGAAGAAAAAACACAAAAAGATGTAGCCGACATGATGGGGATTTCACAATCTTATATCTCCCGGCTCGAAAAGCGGATTATCAAAAGACTGAGAAAAGAGTTTAACAAAATGGTGTAA	MKKLKLRLTYLWYKWLMKLGLKSDEVYYIGGSEALPPPLSKEEEQVLLLKLPSGDQAARAILIERNLRLVVYIARKFENTGINIEDLISIGTIGLIKAVNTFNPEKKIKLATYASRCIENEILMYLRRNNKIRSEVSFDEPLNIDWDGNELLLSDVLGTDDDIITKDIEANVDKKLLKKALEQLNEREKQIMELRFGLVGEEEKTQKDVADMMGISQSYISRLEKRIIKRLRKEFNKMV	PGPT0014795_1062	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
D1-12_00704	783	sigG	COG1191	RNA polymerase sigma-G factor	GTGTCAAGAAATAAAGTCGAAATTTGCGGGGTGGATACCTCCAAATTACCGGTGCTCAAGAATGAAGAGATGAGAAAGCTGTTTAGGCAATTACAGGATGAGGGCGATGATTCAGCGAGGGAAAAGCTTGTAAACGGCAATCTGCGCCTTGTCTTAAGCGTCATTCAGAGGTTTAACAACAGAGGAGAGTATGTTGATGACTTATTTCAGGTCGGCTGCATCGGACTAATGAAATCCATTGATAATTTTGACCTAAGCCATAATGTTAAGTTTTCAACATACGCTGTACCGATGATCATCGGAGAAATCCGCAGATATTTGCGGGATAATAATCCGATCCGCGTCTCGAGGTCGCTTCGCGATATCGCATATAAAGCGCTTCAAGTAAGAGAGCGGTTAATCAGTGAGACAAGCAGGGAGCCGACAGCAGAGGAAATCGCCAAAGTTCTTGAAGTGCCCCATGAAGAAATTGTGTTTGCCCTTGACGCCATCCAGGATCCGGTTTCACTGTTTGAGCCGATTTATAATGACGGCGGCGATCCGATTTACGTGATGGACCAGATCAGCGATGAGCGCAACAAGGATACACAATGGATTGAGGAGCTGGCTCTGAAAGAAGGCATGAGAAGACTGAACGAACGGGAAAAAATGATTTTGCGAAAGCGCTTTTTCCAAGGGAAAACCCAAATGGAAGTCGCTGAAGAAATCGGCATATCCCAAGCTCAGGTCTCAAGGCTTGAAAAGGCAGCCATTAAACAAATGAATAAGAATATCCATCAATAA	MSRNKVEICGVDTSKLPVLKNEEMRKLFRQLQDEGDDSAREKLVNGNLRLVLSVIQRFNNRGEYVDDLFQVGCIGLMKSIDNFDLSHNVKFSTYAVPMIIGEIRRYLRDNNPIRVSRSLRDIAYKALQVRERLISETSREPTAEEIAKVLEVPHEEIVFALDAIQDPVSLFEPIYNDGGDPIYVMDQISDERNKDTQWIEELALKEGMRRLNEREKMILRKRFFQGKTQMEVAEEIGISQAQVSRLEKAAIKQMNKNIHQ	PGPT0014795_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
D1-12_00705	798	ylmA	COG1119	putative ABC transporter ATP-binding protein YlmA	ATGATTTTACAGCTGGACAGTGTGTCATTAAAAAGAAACGGGAAATGGATTTTGAAAGATATCAACTGGCGCGTCGAGAAAAACGAAAATTGGGTGCTGTACGGATTAAACGGAGCCGGGAAAACGGCTTTGCTGAATATGTTATGCTCTTATTACTTCCCCACTTCAGGAGAGATGCAGGTGCTCGGCCATCAATTCGGCAAAACAGAGCTCGGTGACAGGCTCAGAAGGAAAATCGGCCTTGTTTCGGCAGGTCTTCAGCACAAATTATATGCCGCGGACTCCGCTTTTGAAATCGCCCTCAGCGGCGCGTACGCCTCAATCGGGCTGTACGAAACTCCGAGTGAGCAAGTAAGGGAAAAAGCGATCGGTCTTCTGAAGGATTTGGGCGCCATCAGTTACGCCGACAGACGGTATGAAACATTATCACAAGGGGAAAGACAAAGAGCGCTGATTGCGCGGGCGCTTATGGCTGATCCGGAACTGCTGATTTTGGACGAACCCGTGACGGGTCTTGATTTTATGGCAAGGGAGCAGCTGCTGGACACGATTACGTCGATCGCCGAAAAAGAAAATGCGCCGTCCATCCTTTATGTCACCCATCACGCTGAAGAAATTCTGCCGGTATTTGATCAGGCGCTTCTTTTAAAACAGGGCGAGGTGTTCGCCTCCGGGAAAATCAGGGACATGCTTTCTGACGAGCGGCTTACAGCGTTTTTCGATATGCCTGTCAATGTCTTATGGAACAATGGCCGCCCGTTTTTAACACGTGCAAAAGAGGCATCATCCGTAAAATAA	MILQLDSVSLKRNGKWILKDINWRVEKNENWVLYGLNGAGKTALLNMLCSYYFPTSGEMQVLGHQFGKTELGDRLRRKIGLVSAGLQHKLYAADSAFEIALSGAYASIGLYETPSEQVREKAIGLLKDLGAISYADRRYETLSQGERQRALIARALMADPELLILDEPVTGLDFMAREQLLDTITSIAEKENAPSILYVTHHAEEILPVFDQALLLKQGEVFASGKIRDMLSDERLTAFFDMPVNVLWNNGRPFLTRAKEASSVK	PGPT0003760_3562	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
D1-12_00707	1281	ylmB_1	COG0624	N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine deformylase	ATGCATCAGATTGATATGCTGTTACACCAGGCGGAGAAACGGCGGCACGACTTCATACATATTGCTGAAAGACTGATAGCCTTTCCCACTCCGGCCCCGCCAGCAAGAAATACGGCAGAAGCCCAAAAGTGGGTGGCCGGCTTTTTAAAAGAAACGGGCTGCTCGGTCGATATGTGGGATGTGTATCCGGAAGACCCGAATGTAGTCGGTGTTTTAGAAGGGACAGATTCAAGCAGGCATCAAAGCCTGATTTTAAACGGACACATTGATGTGGCAGAAGCCGGGGGCGAAGACTGGCACTCTGACCCGTTTCAGCCGCTCGTAAAAGACGGCATGCTGATCGGAAGGGGCGCCGCTGATATGAAAGGGGGATTGGCGTGTGTTCTTTTCTCTCTGAAGCTGATCCATGATGCCGGCATTAAGCTTCCGGGCGACCTCATAGTACAGTCTGTAATCGGAGAAGAAGTCGGTGAGGCGGGGACGCTGGAATGCTGCAAACGCGGCTATCACGCGGATTTTGCGGTTGTCGCGGATACGAGCAGCCTGCATATTCAAGGGCAGGGCGGTGTCATCACCGGCTGGATAGAATTGAAAAGCAAACAAACATTTCATGACGGCATGAGGCGCAATATGATTCATGCAGGCGGAGGCACATTCGGAGCGAGCGCCATCGAAAAAATGGCGAAAATCATTGCTGCCTTGGGAGAGCTGGAGCGCCACTGGGCGGTAACGAAAAGCTATCCCGGCTTTGCGCCCGGCACCAATACGATCAACCCCGCCGTCATTGAAGGCGGAAGACACGCAGCGTTTGTCGCCGATGAATGCCGTTTATGGATCACCGTCCACTTTTATCCGAACGAAACGCACGAACAAGCAGCCGCAGAAATCGAAGACTATATTAATCGTGTCGCTGACAGTGATCTGTGGCTCAAAGAAAACAGGCCGGTGTTCAAATGGGGCGGATCTTCGATGATTGAAGACAGAGGAGAGGTGTTCCCGGCGCTGAAAATCGACCCGGACCATCCGGCAGTTTCTGTCTTGGCTGCATCACACTCAGCCGTCAAAAAACAGGAGCCCGTCATTGATGTTTCCCAAACCGTAACAGACGGAGGGTGGCTTTATCATGCCGGGATTCCGAGCGTCATATACGGCCCCGGCGATTTAAAAAACGCCCACTCCGTAAACGAGGAAGTGTCCGTTGATGAGCTTATGGACTATACGAAAATCATGCTGAGATTTATCCTCGGCTGGTGCAGCCGCAAAAAAGATTGCCCGATGTGA	MHQIDMLLHQAEKRRHDFIHIAERLIAFPTPAPPARNTAEAQKWVAGFLKETGCSVDMWDVYPEDPNVVGVLEGTDSSRHQSLILNGHIDVAEAGGEDWHSDPFQPLVKDGMLIGRGAADMKGGLACVLFSLKLIHDAGIKLPGDLIVQSVIGEEVGEAGTLECCKRGYHADFAVVADTSSLHIQGQGGVITGWIELKSKQTFHDGMRRNMIHAGGGTFGASAIEKMAKIIAALGELERHWAVTKSYPGFAPGTNTINPAVIEGGRHAAFVADECRLWITVHFYPNETHEQAAAEIEDYINRVADSDLWLKENRPVFKWGGSSMIEDRGEVFPALKIDPDHPAVSVLAASHSAVKKQEPVIDVSQTVTDGGWLYHAGIPSVIYGPGDLKNAHSVNEEVSVDELMDYTKIMLRFILGWCSRKKDCPM	PGPT0009060_75	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009060-ylmB-K20895	NA	NA
D1-12_00708	252	ylmC	COG1873	putative sporulation protein YlmC	ATGATCAGCATATCTGAATTTCAAATAAAAGATGTGGTAAACGTGTCGAACGGAAAAAAACTCGGAAGCATCGGTGATATTGATATTAACGTGACAACGGGGAAAATTCAGGCGATTATTTTAGGCGGCAGCGGAAAAGTTCTCGGTTTTTTCGGAAAAGAAGAGGAAATGATCATTCCTTGGCGAAATATAGTTAAAATTGGGGAAGATGTCATCTTAGTGCGTGTAAATGAACCAAAAGGGGGAGCGTAA	MISISEFQIKDVVNVSNGKKLGSIGDIDINVTTGKIQAIILGGSGKVLGFFGKEEEMIIPWRNIVKIGEDVILVRVNEPKGGA				NA	NA	NA	NA	NA
D1-12_00709	837		COG1496	Polyphenol oxidase	ATGAATACATATCACCCGTTTAGTCTTACCACCCCCTCGGCACTCATGATAGAAGACTGGAACTGTGTGAATCAGCTTAACACAAAGGTCATCGCCGGATTCACGACGAAAAACGGCGGGGTCAGCAATCCTCCGTATGAGTCATTAAATACCGGATTGCACGTCCGGGACGAAGCTCATGATGTTGTGACAAACCGTGAAGTCATAGCGTCCTTATGCGGTACTGATCTGGATTCCTGGGTGTTCGCCGACCAGACACATGAAAACCGCGTCCGGCGCGTGACAGCCGGGGATAAAGGAAAAGGAGCGAGAGACTATTCTTCCGCATTCCGCGGGACGGACGGGCTCTACACGAAAGATGCGAATCTTTTTTTGGCCCTTTGTTTTGCGGACTGTGTGCCCTTGTATTTTTATGACCCGGTGAAATCCATTATCGGCGCTGCCCATGCCGGATGGAAGGGGACGGTCAAACAAATCGGACGCATCATGACGGAACGCTGGGTAAACGAAGAAGGCTCCCGTTTAACAGATATTCAGGCTGTCATCGGTCCGTCCATCAGCGCGGGAAGCTATACAGTCGACGACCGCGTCATCAATGAAGTGCGGGCGCTGCCTTTTACGGCTGAATCCGCCATATGCGAAACGGAAAAAGGCCAGTATCAGCTTGATTTAAAAGAGGTCAACCGTCTTCTTCTGATACATTGCGGCATTCCGGAAGAAAACATTTCAGTCAGCGGTTTATGCACCGAACGAGAGCGTGAACTATTCTTTTCACACCGCCGCGACAAAGGGAAAACGGGACGCATGATGTCCTTTATCGGAATGAAGGAGGCGTAA	MNTYHPFSLTTPSALMIEDWNCVNQLNTKVIAGFTTKNGGVSNPPYESLNTGLHVRDEAHDVVTNREVIASLCGTDLDSWVFADQTHENRVRRVTAGDKGKGARDYSSAFRGTDGLYTKDANLFLALCFADCVPLYFYDPVKSIIGAAHAGWKGTVKQIGRIMTERWVNEEGSRLTDIQAVIGPSISAGSYTVDDRVINEVRALPFTAESAICETEKGQYQLDLKEVNRLLLIHCGIPEENISVSGLCTERERELFFSHRRDKGKTGRMMSFIGMKEA	PGPT0019965_515	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
D1-12_00710	693	yggS	COG0325	Pyridoxal phosphate homeostasis protein	TTGCGTGTTGCTGATCAATTACGACATATAAACGAAAGAATAAACGAAGCATGTAACAGATCGGGCCGAAGCCCCGAAGATGTTACCGTCATCGCGGTTACAAAATACGTATCAGCCGAAAGGGCTCAAGAGGCCGTTGATGCCGGTATTACAAGTCTGGGAGAAAACCGGGATGCCGAGCTTATCCATAAGCAGGAAGTCATCAAAGGCAGCCCGGAGTGGCACTTTATCGGCAGTCTTCAGTCCAGAAAGGTGAAGGCCGTCGTTGACCGTGTATCTTATATCCATTCCTTAGACAGACTGTCATTGGCAAAAGAGATTGAAAAACGGGCGCAGCATGCGGTTCGCTGTTTTGTGCAGGTGAATACTTCGCTTGAGCCGTCAAAGCACGGTTTGAAAACAGAGGAGGTCATCCCCTTTATCAGAGAGCTTTCTGAGTTTAGAAACATTTCTGTAGAGGGCCTGATGACGATGGCTCCCCTGACAGACGATACAGAAACGATCAGAGCCTGCTTCCGGCAATTGCGTGATCTGAGGGATCAGGTGCAAAAACTGAATCAGACAAACGCACCGTGCCGGGAACTGTCAATGGGCATGTCAAATGACTATGAAATCGCTGTTGAAGAGGGCGCAACTTTTATCAGAATCGGCTCTTCATTAGTCGGAAATGAACCGGGGGGTGTAAACAAATGA	MRVADQLRHINERINEACNRSGRSPEDVTVIAVTKYVSAERAQEAVDAGITSLGENRDAELIHKQEVIKGSPEWHFIGSLQSRKVKAVVDRVSYIHSLDRLSLAKEIEKRAQHAVRCFVQVNTSLEPSKHGLKTEEVIPFIRELSEFRNISVEGLMTMAPLTDDTETIRACFRQLRDLRDQVQKLNQTNAPCRELSMGMSNDYEIAVEEGATFIRIGSSLVGNEPGGVNK				NA	NA	NA	NA	NA
D1-12_00711	459	sepF	COG1799	Cell division protein SepF	ATGAGCATGAAAAATAAACTGAAAAACTTTTTCTCAATGGATGAGGAGGAGTACGAGTACGAATACATTGAAACGGAGCAGGATCATCCGGAAGAGCATGAACAGCAGAAAGATAAACAGCCTGCTTACGCTCAGAAGCCGCAGGGCAAGCAGAACGTAGTAAGCTTGCAAAGTGTTCAGAAATCCTCTAAAGTGGTGTTGAGTGAACCGCGTGTATATGCGGAAGCGCAGGAAATCGCCGATCATTTAAAGAACAGGCGGGCGGTTGTCGTCAATCTGCAGCGCATCCAGCATGATCAGGCGAAAAGAATCGTCGACTTTTTAAGCGGTACCGTCTACGCCATCGGCGGCGACATTCAGAGAATCGGTTCAGATATTTTTCTGTGCACGCCTGATAATGTCGACGTTTCCGGCACGATTTCGGAGCTTATAAATGAAGACGAACATCAGAGGTGGTAA	MSMKNKLKNFFSMDEEEYEYEYIETEQDHPEEHEQQKDKQPAYAQKPQGKQNVVSLQSVQKSSKVVLSEPRVYAEAQEIADHLKNRRAVVVNLQRIQHDQAKRIVDFLSGTVYAIGGDIQRIGSDIFLCTPDNVDVSGTISELINEDEHQRW				NA	NA	NA	NA	NA
D1-12_00712	279			hypothetical protein	ATGATTCTTTATCAAATTTTTTCCGTTCTGAGTTATTTAATTTACATCTACTCGTTTGCCCTGATCATCTATATCTTTATGTCATGGGTGCCGAGTACGAGAGAAACGGCGGTCGGACGGTTTCTCGCAGCGATTTGCGAACCGTATTTAGAGCCGTTCAGAAGGATCATTCCGCCCATTGCCATGCTGGATATATCCCCGATTGTAGCGATTATCGTGCTTCGGTTTGCCACGACGGGACTTTGGGGCCTATACCGCATGATCGCAATGTATACTTGA	MILYQIFSVLSYLIYIYSFALIIYIFMSWVPSTRETAVGRFLAAICEPYLEPFRRIIPPIAMLDISPIVAIIVLRFATTGLWGLYRMIAMYT	PGPT0013730_3034	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
D1-12_00713	771			hypothetical protein	ATGAGCGATATTTACCAGCACTTCAGACAAGACGAGCGGCCTTTTATTGATCAGGTGCTTGAATGGAAACAGATTGTCCTGGACCAGTATCGGATGAAGCTGACTGATTTCTTAGATCCCAGAGAACAGGTGATTGTAAAAGCCGTTATCGGCGACGCCTGCGGTCTTGCGTTTTTCGGAGGATATGACAGAGCTGAGCGCAAACGCGCGATTTTATACCCTGAATATATGGAACCTGAACAGGATGATTTTGAGCTTCGGGCTTTTGACGTTCAATACGCTGAAAAATTCGTCAGCATTGACCACCGCTCTCTTCTCGGATCATTAATGGGGATCGGCTTAAAGCGGCAGAAATACGGCGATCTGATTTTCTCAGAGGAAGCCGTGCAGCTCATCGTCTCTGGTGAAATCGCCGATTTTGTCAGCACTCAGCTGACCAAAGCGGGCAAAGCGCCGGTAAAGCTTGAGAAAATCGAGCTTTCCGCTCTTCACATTCCCGCTTCAGATGTCGAAATAAGGGATGACACGGTTTCTTCATTGCGTCTCGACGCCGTCTGCGCTTCAATGAGCAGGCAATCCCGTCAGAAAGCGCAGGCGCTTGTGAAAAACGGGCTCGTTAAGGTGAATTGGAAAGCCATTGAAGATCCGTCTTATCAGGTTGCTGAAGGGGACATGCTCTCGATTCGCGGCTTCGGACGATGCAGTTTGGCAAAAGTTGACGGAAAAACGAAAAAAGACAAATGGAAAGTTACATTTGAACGGCAAAAATGA	MSDIYQHFRQDERPFIDQVLEWKQIVLDQYRMKLTDFLDPREQVIVKAVIGDACGLAFFGGYDRAERKRAILYPEYMEPEQDDFELRAFDVQYAEKFVSIDHRSLLGSLMGIGLKRQKYGDLIFSEEAVQLIVSGEIADFVSTQLTKAGKAPVKLEKIELSALHIPASDVEIRDDTVSSLRLDAVCASMSRQSRQKAQALVKNGLVKVNWKAIEDPSYQVAEGDMLSIRGFGRCSLAKVDGKTKKDKWKVTFERQK				NA	NA	NA	NA	NA
D1-12_00714	495	divIVA	COG3599	Septum site-determining protein DivIVA	ATGCCATTAACGCCGAATGATATCCATAACAAAACGTTTACAAAAGGTTTTCGCGGATATGATGAAGATGAAGTAAATGAATTTTTAATGCAGGTCAGAAAAGATTACGAAATCGCACTCCGTAAAAAAACGGAGCTTGAGGCGAAAGTGAACGAGCTGGACGAAAAAATCGGCCACTTTGCCAATATCGAAGAAACGCTGAATAAATCAATTCTCGTAGCTCAGGAAGCCGCAGAAGACGTAAAGCGCAACTCGCAGAAAGAAGCGAAGCTGATCGTCCGTGAAGCAGAAAAAAATGCTGATCGCATCATCAATGAGTCGCTTTCCAAATCAAGAAAAATCGCAATGGAAATTGAAGAGCTGAAAAAACAGTCTAAAGTCTTCAGAACGCGTTTCCAAATGCTGATTGAGGCGCAGCTCGACCTGCTGAAGAACGATGATTGGGATCATCTGCTGGAATACGAAGTCGACGCGGTTTTTGAGGAAAAAGAATAA	MPLTPNDIHNKTFTKGFRGYDEDEVNEFLMQVRKDYEIALRKKTELEAKVNELDEKIGHFANIEETLNKSILVAQEAAEDVKRNSQKEAKLIVREAEKNADRIINESLSKSRKIAMEIEELKKQSKVFRTRFQMLIEAQLDLLKNDDWDHLLEYEVDAVFEEKE	PGPT0014805_769	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014805-divIVA-K04074	NA	NA
D1-12_00715	2766	ileS	COG0060	Isoleucine--tRNA ligase	ATGGATTACAAAGATACGCTGTTAATGCCGAAAACAGATTTTCCGATGCGCGGAAATCTGCCGAATCGTGAGCCGGACATGCAAAAAGACTGGGAGGAGCAGGACATTTACCGTCTTGTTCAAGAACGGACGAAAGACCGCCCGAAATTCGTGCTGCATGACGGACCTCCTTATGCAAACGGAGACATCCACATGGGCCATGCCCTGAACAAAATCCTGAAAGACTTCATCGTCCGCTATAAATCAATGAGTGGCTACAACGCACCGTACGTGCCGGGCTGGGATACGCACGGACTGCCGATTGAAACGGCGCTGACGAAAAACAAAAAAGTAAACCGCAAAGAAATGTCAGTAGCGGAATTCCGCAAACTATGCGAAGAGTACGCTTGGAAGCAAATCGAGGGACAGCGTGAGCAATTCAAACGTCTTGGTGTCCGCGGTGACTGGGAAAACCCATACGTGACATTAAAACCGGAATACGAAGCGCAGCAAATCCGCGTATTTGGTGAAATGGCAAAACGAGGCTACATTTACAAAGGCCTTAAACCGGTTAACTGGTCACCTTCAAGTGAGTCTGCTCTGGCTGAAGCCGAGATCGAATATCAAGACAAACGTTCAGCATCTATTTACGTCGCTTTTGGTGTAAAAGACGGAAAAGGCGTTCTTGAAAACGGCGAGCGCATCATCATTTGGACAACAACGCCTTGGACAATTCCGGCGAACCTCGGAATCTCAGTGCACCCTGATCTTGAGTACAGCGTGATTGCAGTAGGTGAAGACCGCTTTGTCGTAGCAAGTGCCTTAGTCGAAAGTGTTGCATCAGCATGCGGATTTGATCAGTATGAAGTGACAAGAACGGTCAAAGGAAAAGACCTTGAGAACATTATCGCTGAACACCCGCTATATGGCAGAGACTCTCTCGTTATGCTTGGTGAACACGTAACAACTGATGCCGGAACAGGCTGTGTTCATACAGCGCCAGGACATGGGGAAGATGACTTTATCATTGGCCAAAAATACGGTTTAGATGTGCTTTGCCCGGTCGATGAAAAAGGTGTAATGACAAGCGAAGCTCCTGGGTTTGAAGGCATGTTCTATGATGATGCAAACAAAGCGATCACACAGCAGCTCGATGAAAAAGGCGCACTTGTGAAGCTTGAATTCATTACTCACTCTTATCCGCATGATTGGAGAACAAAAAAACCAACCATTTTCAGAGCGACAGCGCAATGGTTTGCGTCTATTAAAGATTTCAGATCAGACCTGCTGGATGCCATTAAAGAAACCAAATGGGTTCCTGAATGGGGTGAGCAGCGTTTGCACAACATGGTTCGGGACCGCGGAGACTGGTGTATTTCCAGACAGCGTGCGTGGGGTGTGCCGATTCCGGTATTTTACGCTGAAAACGGAGAACCGATTATTACAGATGAAACCATTGAACATGTTTCTGAATTGTTCAGACAGCACGGATCAAACATTTGGTTTGAAAAAGAAGCAAAGGATCTTCTTCCGGAAGGCTTTACGCATCCTGGCAGCCCGAACGGCACATTTACAAAAGAACAGGATATCATGGATGTTTGGTTTGATTCAGGCTCTTCACATCAAGCAGTGCTTGAAGAACGTGATGACCTCGTTCGCCCGGCTGATTTATACCTAGAGGGATCTGACCAATATCGCGGCTGGTTTAACTCTTCTCTTTCTACAGCAGTAGCCGTAACAGGAAAAGCGCCGTATAAAGGTGTGCTCAGCCATGGGTTCGCACTGGATGGAGAAGGACGCAAGATGAGTAAATCAATCGGTAACGTTGTTGTTCCGGCTAAAGTCATGAAACAGCTTGGTGCCGACATCTTAAGATTATGGGTATCGTCAGTGGATTATCAGGCGGACGTTCGCGTGTCTGACGCCATTCTGAAGCAGGTTGCGGAAGTATACCGGAAAGTCCGCAACACGTTCCGCTTCCTTCACGGCAACCTGTTCGATTTCAATCCAAGTGTCAATGCCGTTGATGTAAAAGATCTCCGCGAAGTGGATCAATATATGCTGATCAAGCTGAATAAGCTGATTGATAAGGTGAAAAAAGCGTACGATGAATATGAATTTGCGGTGGTTTATCACAGCATTCACAATTTCTGTACGATCGAGCTCAGCTCCTTCTATCTTGATTTTGCAAAAGATGTTGTGTACATCGAGCATGCGGATCATCCGGACCGCCGCAGCATGCAGACCGTCTTTTATGAAACGCTGCTGGCGTTAGTGAAGCTGACGGCGCCGATTCTCCCGCATACGGCGGATGAAATGTGGTCTCACTTATCATTTGTTGAAGAAGCAAGCGTGCAGCTGACAGATATGCCGGAAACCATTGCTGTTCCGGACAGTCAAGCGACAGAAGAAAAGTTCGACCGCTTCATGGAGCTTCGAAACGACGTGCTGAAAGCTTTGGAAACAGCCCGTAACGAAAAAATTATCGGAAGATCATTGGAAGCGAGCCTGACTTTGTATCCGAACAAAGAAAACCGCGACCTCTTGTCATCCATTAAAGAAAACATCGCGCAGCTGTTTATCGTCTCAGAACTGACAGTAAAAGACGAAAGTGAAGCGCCTGAAAACGCGCAAAGTTTCACAACAGGAAAAATAACCGTAGAAAAAGCGGAAGGCCAGATGTGTGAACGTTCCCGCGTCATTTCTAAAGATGTCGGAGCCAATCCGAAATATCCGACATTATCACTGCGCAATGCGGAAATCGTTGAAAAATATTATCAAAAATAA	MDYKDTLLMPKTDFPMRGNLPNREPDMQKDWEEQDIYRLVQERTKDRPKFVLHDGPPYANGDIHMGHALNKILKDFIVRYKSMSGYNAPYVPGWDTHGLPIETALTKNKKVNRKEMSVAEFRKLCEEYAWKQIEGQREQFKRLGVRGDWENPYVTLKPEYEAQQIRVFGEMAKRGYIYKGLKPVNWSPSSESALAEAEIEYQDKRSASIYVAFGVKDGKGVLENGERIIIWTTTPWTIPANLGISVHPDLEYSVIAVGEDRFVVASALVESVASACGFDQYEVTRTVKGKDLENIIAEHPLYGRDSLVMLGEHVTTDAGTGCVHTAPGHGEDDFIIGQKYGLDVLCPVDEKGVMTSEAPGFEGMFYDDANKAITQQLDEKGALVKLEFITHSYPHDWRTKKPTIFRATAQWFASIKDFRSDLLDAIKETKWVPEWGEQRLHNMVRDRGDWCISRQRAWGVPIPVFYAENGEPIITDETIEHVSELFRQHGSNIWFEKEAKDLLPEGFTHPGSPNGTFTKEQDIMDVWFDSGSSHQAVLEERDDLVRPADLYLEGSDQYRGWFNSSLSTAVAVTGKAPYKGVLSHGFALDGEGRKMSKSIGNVVVPAKVMKQLGADILRLWVSSVDYQADVRVSDAILKQVAEVYRKVRNTFRFLHGNLFDFNPSVNAVDVKDLREVDQYMLIKLNKLIDKVKKAYDEYEFAVVYHSIHNFCTIELSSFYLDFAKDVVYIEHADHPDRRSMQTVFYETLLALVKLTAPILPHTADEMWSHLSFVEEASVQLTDMPETIAVPDSQATEEKFDRFMELRNDVLKALETARNEKIIGRSLEASLTLYPNKENRDLLSSIKENIAQLFIVSELTVKDESEAPENAQSFTTGKITVEKAEGQMCERSRVISKDVGANPKYPTLSLRNAEIVEKYYQK				NA	NA	NA	NA	NA
D1-12_00716	372			hypothetical protein	ATGAATGATCAACTGACCGCAATCCACACGGAGCTTCTCATGATGAAAGAAGAACTTCAATCAAGATTATTCGAATATTCTTGCTTTCAAATGTCAGCATCTGTTGAACCTTCAATGAACGACCAAGAAGCAACTCTGATCTATCATATAAAAGAAGAACTTCAGGACGTTCTTCTTGCCCTGTCTAAGTTTGAAAACAATACGTACGGTTATTGTGAAAAAACAGGCGCCCCCATTCCGATTGAAAAACTTGCGGTGTTGCCGACGGCCAGAACCGCTGATGATTTTTATTATCCCGCTCAATTTGAAAAGAAAACCCTTCCATATTGGGAACCCGGAGATTATGCATATGATCAGGCGCTGTATGAGTGA	MNDQLTAIHTELLMMKEELQSRLFEYSCFQMSASVEPSMNDQEATLIYHIKEELQDVLLALSKFENNTYGYCEKTGAPIPIEKLAVLPTARTADDFYYPAQFEKKTLPYWEPGDYAYDQALYE	PGPT0014560_2866	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
D1-12_00717	462	lspA	COG0597	Lipoprotein signal peptidase	GTGCTTTATTATCTTATCGCTCTTTTTATTATTATTGCCGACCAATTGACCAAATGGCTTGTCGTCAGCCATATGGAATTGGGACAAAGCATACCTGTCATCAATCAGGTGCTTTATATCACATCTCATCGCAACACGGGAGCGGCGTGGGGGATTTTAGCCGGCCAAATGTGGTTTTTCTACGTCATTACCATCGCCGTGATTATCGGAATCGTTTATTACATACAGCGTTATGCAAAAGGGCAGATGTTACTCGGAATTTCTCTCGGCTTAATGCTGGGCGGTGCGGCCGGAAACTTTATTGACCGGGCGGCGCGCCAGGAAGTGGTGGATTTTATTCATGTCATCATCGTGGATTATCACTATCCGATTTTTAATATCGCGGACTCCTCACTGTGCGTCGGTGTAATACTTTTATTTATTCATATGCTGTTTGACAGCGGGAAAAAGAAGGAGCAATAA	MLYYLIALFIIIADQLTKWLVVSHMELGQSIPVINQVLYITSHRNTGAAWGILAGQMWFFYVITIAVIIGIVYYIQRYAKGQMLLGISLGLMLGGAAGNFIDRAARQEVVDFIHVIIVDYHYPIFNIADSSLCVGVILLFIHMLFDSGKKKEQ	PGPT0004770_4751	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
D1-12_00718	915	rluD_2	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGAATCAATTTGAGATAACCGTTCAGCCTGAACAAAAGAGCGAACGGATTGATAAATTTTTGGCTTCAACGGGAGAAAACTGGTCACGCACTCAAGTGCAGCAGTGGGTAAAAGAGGGACTGGTATCCGTTAATGGCAAATCCGTAAAAGCGAACTACAAAATGCAGCCCGGCGATCAGGTAAACGTCACCATTCCTGAACCGGAAGAACTGGACGTGCTTGCGGAGCCGATGGATTTGGACATTTACTATGAGGATCAGGACGTCTTGGTTGTGAACAAACCGCGGGGCATGGTTGTACACCCGGCGCCCGGCCATGTGACAGGGACGCTTGTAAACGGATTGATGGCTCACTGCAACGACCTTTCCGGCATTAACGGCGTCATGCGCCCGGGAATCGTCCACCGTATTGATAAAGATACTTCCGGTCTGTTAATGGTCGCTAAAAACGATATGGCGCATGAATCACTCGTTAATCAGCTCGTCAATAAAACCGTGACCAGAAAGTACACAGCGGTTGTCCACGGGATGATTTCACATGATGACGGAACGATTGACGCTCCGATCGGGAGAGATAAAAAAGACCGTCAAAGCATGACCGTAACAAGAGAAAGCAGCAAAAACGCAGTTACGCATTTCCACGTGCTTGAGCGTTTTCAAGATTTCACGCTCGTAGAGTGCCGTCTTGAGACCGGAAGAACGCATCAGATCCGTGTTCATATGAAATATATCGGGTTTCCTTTGGCAGGCGATCCGAAATACGGACCGAGAAAAACCGTTGATTTTAACGGTCAGGCGCTTCATGCCGGAATATTAGGTTTTGACCATCCGCGGACGGGCGAATACATGGAGTTTGAAGCGCCCCTTCCTGAAGATATGAAAAAACTCATTGAAGATTTAAGAAATAGCCATTGA	MNQFEITVQPEQKSERIDKFLASTGENWSRTQVQQWVKEGLVSVNGKSVKANYKMQPGDQVNVTIPEPEELDVLAEPMDLDIYYEDQDVLVVNKPRGMVVHPAPGHVTGTLVNGLMAHCNDLSGINGVMRPGIVHRIDKDTSGLLMVAKNDMAHESLVNQLVNKTVTRKYTAVVHGMISHDDGTIDAPIGRDKKDRQSMTVTRESSKNAVTHFHVLERFQDFTLVECRLETGRTHQIRVHMKYIGFPLAGDPKYGPRKTVDFNGQALHAGILGFDHPRTGEYMEFEAPLPEDMKKLIEDLRNSH				NA	NA	NA	NA	NA
D1-12_00720	546	pyrR	COG2065	Bifunctional protein PyrR	GTGAATCAAAAAGCTGTTATTCTCGACGAACAGGCGATCAGGCGGGCGCTGACAAGGATAGCCCATGAAATGATCGAACGGAATAAAGGAATGAATGACTGCATTCTTGTAGGAATTAAAACAAGAGGCATTTATTTAGCGAAGCGGCTGGCCGAGCGGATCGAACAGATTGAAGGGAATCCGGTCACCGTCGGGGAAATCGATATCACCCTTTACCGTGACGATCTCACGAAAAAAACGAGCAATGAAGAGCCGCTTGTAAAAGGCGCGGACATTCCGGCCGATATCACAGACCAAAAGGTCATTGTGGTTGATGATGTGCTTTATACCGGCCGGACGGTGAGAGCTGCGATGGATGCCCTCGTTGATGTCGGGCGGCCGTCATCGATACAGCTTGCCGTGCTTGTCGACAGAGGGCACCGGGAACTGCCGATCAGAGCGGACTATATCGGGAAAAACATTCCGACCTCAAAAGCTGAAAAAGTGATGGTTCAGCTGAGCGAAGTTGATCAGACTGATATGGTCGCCATTTATGAAAATGAATAA	MNQKAVILDEQAIRRALTRIAHEMIERNKGMNDCILVGIKTRGIYLAKRLAERIEQIEGNPVTVGEIDITLYRDDLTKKTSNEEPLVKGADIPADITDQKVIVVDDVLYTGRTVRAAMDALVDVGRPSSIQLAVLVDRGHRELPIRADYIGKNIPTSKAEKVMVQLSEVDQTDMVAIYENE	PGPT0021245_1031	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
D1-12_00722	1311	pyrP		Uracil permease	ATGAGTAAGAAAAAAGTAAACCTAGGAGTCAGGGACGTCCCCAATCCATTGTCCTGGCTGTCATTCAGCCTGCAGCATTTATTCGCCATGTTCGGCTCAACCATACTCGTGCCGAAACTGGTCGGAATGAGCCCGGCAGTGGCGCTTGTCACGAGCGGAATCGGGACACTCGCCTATCTCTTGGTGACAAAAGGCCAGATTCCCGCTTATCTCGGCTCATCATTCGCCTTTATATCACCGATTATCTTGGTGAAGGCGACGGGAGGGCCGGGGGCTGCCATGGTCGGCGCTTTCCTGGCGGGAATTGTGTACGGCCTGATCGCACTTCTCATCAGGCAGCTTGGAACGGGGTGGCTGATGAAGCTGCTGCCCCCGGTGGTCGTCGGGCCGGTCATCATCGTCATCGGCCTCGGACTGGCAAGCACAGCCGTCAATATGGCAATGTATGCTGATCCGAATGCGAAGGAACTCGTCTACAGCTTGAAACATTTCAGTGTAGCCGGCGTCACTTTGGCAATCACCATTATCTGCGCCATCTTTTTACGAGGATTTTTAAGCCTGATTCCGGTATTGATCGGCATTATAGGCGGATATCTGTTTGCGCTGACACAGGGCATCGTCAATTTTCAGCCGGTCATTGATGCAAAGTGGTTCGCCGTTCCTGAATTTATCATCCCTTTCAAAGACTATACGCCGTCAGTGACATTGGGCATTGCGGCTGCGATGGTGCCGGTCGCTTTCGTGACGATGTCAGAACATATCGGCCACCAAATGGTGCTGAGTAAAGTCGTCGGACAGGATTTCATTAAAAAGCCGGGACTGCACCGCTCCATAATGGGGGACAGCGTAGCGACGATTATCGCTTCGTTAATCGGCGGCCCGCCGACGACAACATACGGCGAAAACATCGGTGTACTGGCAATTACGAGAGTTTTCAGCGTTTTTGTCATCGGCGGCGCGGGTGTGATTGCGCTGTGCTTCGGATTTATCGGAAAAGTTTCAGCGCTGATCAGTTCTGTTCCGTCCGCGGTTATGGGAGGCGTTTCCTTCCTGCTCTTCGGAATTATCGCCTCCAGCGGCTTAAGAATGCTGATTGACAACAACATTGATTATGAAAACAAGAGAAATTTAATTATCACGTCCGTCATCCTCGTGATCGGCGTCGGAGGGGCTTTTATTCAAGTATCAAAAGGTGGGTTCCAAATATCCGGCATGGCGCTTGCGGCAATTGTCGGAGTCATCCTGAACCTTATCCTGCCGCATGCAAATGAAGAAGACGCGATTGCATCAGAAAAACAAAATCATATGTAA	MSKKKVNLGVRDVPNPLSWLSFSLQHLFAMFGSTILVPKLVGMSPAVALVTSGIGTLAYLLVTKGQIPAYLGSSFAFISPIILVKATGGPGAAMVGAFLAGIVYGLIALLIRQLGTGWLMKLLPPVVVGPVIIVIGLGLASTAVNMAMYADPNAKELVYSLKHFSVAGVTLAITIICAIFLRGFLSLIPVLIGIIGGYLFALTQGIVNFQPVIDAKWFAVPEFIIPFKDYTPSVTLGIAAAMVPVAFVTMSEHIGHQMVLSKVVGQDFIKKPGLHRSIMGDSVATIIASLIGGPPTTTYGENIGVLAITRVFSVFVIGGAGVIALCFGFIGKVSALISSVPSAVMGGVSFLLFGIIASSGLRMLIDNNIDYENKRNLIITSVILVIGVGGAFIQVSKGGFQISGMALAAIVGVILNLILPHANEEDAIASEKQNHM				NA	NA	NA	NA	NA
D1-12_00724	915	pyrB	COG0540	Aspartate carbamoyltransferase	ATGAATCATTTAACGGCGATGTCTGAACTGAGCACTGCTGAAATTACAGAACTGCTGCGTGAGGCAAAAGCGATAAAAGAGGGAACAGTCCGCCCCGATCTCGCGGGAAAATTTGTTGCGAATCTGTTTTTTGAACCGAGCACGAGAACGCGGTTCAGCTTTGAAGTGGCGGAAAAGAAACTCGGAATGAACGTGCTCAGCTTAGACGATACGAGCACAAGCGTTCAAAAAGGCGAGTCCTTATATGACACGGTCAAAACACTGGAATCAATCGGAGCGGACGCCTGCGTCATCCGGCACAGCACGGATGAATATTACAAAGATCTGACCGGCAGAGTCAATATTCCGATCTTAAACGCCGGCGACGGCTGCGGCCAGCACCCGACTCAGTCATTGCTCGATTTAATGACGATTCAAGAGGAATTTGAGACCTTTCAGGGCCTGACGGTTTCCATTCATGGCGATATCAAACACAGCAGGGTGGCAAGGTCGAATGCCGAGGTGCTGACAAGGCTCGGCGCACGCGTGCTGTTTTCTGGTCCGCCGCAATGGCAGGATGAGAAAAACGCCTTCGGCACCTGTGTTCAGACGGATGAAGCCATACAAGCTTCAGATGTCGTCATGCTGCTCCGCATCCAAAATGAAAGGCATCAGACAGAAGCCGACCAAAAAGGCTACCTGGAAGCATACGGGCTGACCGCAAAGCGGGCGGAGAGCATGAAGCGGCATGCCATCATCATGCATCCCGCACCGGTGAACAGAGGAGTCGAAATTGACACAACATTAGTGGAATGCAGAAAATCAAGAATCTTTAAACAAATGGAAAATGGTGTGTATATCAGAATGGCAGTCTTAAAAAGAGCACTGCAAACCAATGTGAAAAGGGGAGAAGCGGCTTATGTCTTATCTCATTAA	MNHLTAMSELSTAEITELLREAKAIKEGTVRPDLAGKFVANLFFEPSTRTRFSFEVAEKKLGMNVLSLDDTSTSVQKGESLYDTVKTLESIGADACVIRHSTDEYYKDLTGRVNIPILNAGDGCGQHPTQSLLDLMTIQEEFETFQGLTVSIHGDIKHSRVARSNAEVLTRLGARVLFSGPPQWQDEKNAFGTCVQTDEAIQASDVVMLLRIQNERHQTEADQKGYLEAYGLTAKRAESMKRHAIIMHPAPVNRGVEIDTTLVECRKSRIFKQMENGVYIRMAVLKRALQTNVKRGEAAYVLSH	PGPT0021160_4319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
D1-12_00725	1287	pyrC	COG0044	Dihydroorotase	ATGTCTTATCTCATTAAAAACGGCTGGATGTTAAATGAACAGGGAGAAAAAGTGGCACAGGACATCCGGGTAACGGGTGAATTCATTACGGAAACCGGGCTTCTGACAGTGAAAGAAGGAGAAACGGTGATCGACGCTGAGGGACTGTTCGTTTCACCGGGGCTCGTAGACCTTCATGTCCACTTCAGAGAACCGGGCGGCGAGAAAAAAGAAACCATTGAGACGGGCTCTAAAGCCGCGGCGCGGGGCGGCTTTACCACAGTCGCAGCCATGCCGAATACAAGGCCGGTGCCGGATACGAAAGAGCAGATGGAATGGCTGCAAAACCGGATCAAAGAAACCTCATCTGTCAGGGTCCTTCCTTACGCATCCATTACGATCAGACAAACCGGCGAAGAAATGACAGATTTTGAGGCGCTTCATGAAGCGGGCGCATTCGCCTTCACCGATGACGGCGTCGGCGTTCAGACGGCCGGAATGATGTATGAAGCCATGAAACGGGCGGCTTCAATGAATAAAGCGATTGTCGCTCATTGTGAGGATAACTCGCTTATTTACGGAGGAAGCGTGCATGAAGGATCTTTTTCAAAAGCGAACGGCCTGAACGGCATACCTTCCATTTGTGAAGCGGTACATATCGCCCGTGACGTCCTGCTGGCGGAAGCGGCGGACTGCCATTACCATGTGTGTCATATCAGCACGAAAGAATCCGTCAGAGCCGTAAGAGACGCAAAAAAAGCGGGAATCCGCGTGACGGCGGAAGTGTCGCCGCACCACCTGCTGCTTTGTGACGAAGATATCCCGGGACTTGATACCAATTTTAAAATGAATCCGCCGCTTCGCAGCAAAGAGGACAGAGAGGCGCTGATTGAAGGGCTTTTAGACGGTACGATTGATTTCATCGCCACTGACCATGCGCCGCATACAGAAGAAGAGAAAAACACGGATATGAAGCTTGCGCCTTTCGGTATCGTCGGTTTAGAAACAGCCTTTCCGCTTCTGTACACACATTTTGTGAAAAACGGGACGTGGACGCTGAAGCAGCTGGTTGATTTCATGACGGTAAAACCTTGCGAGGCCTTCGGTCTTCCGTACGGAACGCTTGCACCGGGGGCGCCGGCTGACATTACCCTGATTGATCTGGAAAAAGAAGCAGCCATTGACAAAGATACATTTTTATCTAAAGGAAAAAATACGCCATTCAACAAGATGAAGTGCTTCGGCTGGCCTGTTGCAACGATGGCTGCCGGTAAGCTTGCATATGAAGAAGGGAGACTCGTCAAATGA	MSYLIKNGWMLNEQGEKVAQDIRVTGEFITETGLLTVKEGETVIDAEGLFVSPGLVDLHVHFREPGGEKKETIETGSKAAARGGFTTVAAMPNTRPVPDTKEQMEWLQNRIKETSSVRVLPYASITIRQTGEEMTDFEALHEAGAFAFTDDGVGVQTAGMMYEAMKRAASMNKAIVAHCEDNSLIYGGSVHEGSFSKANGLNGIPSICEAVHIARDVLLAEAADCHYHVCHISTKESVRAVRDAKKAGIRVTAEVSPHHLLLCDEDIPGLDTNFKMNPPLRSKEDREALIEGLLDGTIDFIATDHAPHTEEEKNTDMKLAPFGIVGLETAFPLLYTHFVKNGTWTLKQLVDFMTVKPCEAFGLPYGTLAPGAPADITLIDLEKEAAIDKDTFLSKGKNTPFNKMKCFGWPVATMAAGKLAYEEGRLVK	PGPT0021145_2961	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
D1-12_00726	1095	carA_2		Carbamoyl-phosphate synthase small chain	ATGAAAAGAAGACTAGTGCTGGAAAATGGAGCGGTATTTGAGGGTGAAGCATTCGGGAGCCTGGAACATACCGCGGGTGAAGTTGTATTCAACACGGGAATGACCGGTTATCAGGAAATTTTATCAGACCCTTCTTACTGCGGGCAGATCGTGACGCTGACGTATCCTCTGATCGGCAACTACGGAATTAACAGAGATGACTTTGAATCCATCACTCCTTTTGTAAAAGGGCTGATCGTAAAAGAACTGTGCGAGCTGCCTTCCAACTGGCGTTCGGCTTACACGCTTGACGAGTATCTGAAAATGAAAAATATCCCCGGCTTACAAGGGATTGACACGAGAAAGCTCACAAGAATGATCCGCACGGCCGGCGCATTAAAAGGAACGTTTGCTTCAAGTGAGGAGAATGTCGGTGAGGTTCTTGCGAGGCTGAAAGAAACGGAACTGCCGAGAAATCAAGTCGCTCAAGTATCTGCGAAAACGGCATATCCGAGTCCGGGCCGCGGCAAACGCATCGTACTCGTCGATTTCGGTATGAAGCACGGCATTTTAAGAGAGTTAAACAAAAGAAAATGCGATGTCATCGTTGTGCCGTACAATGTAACGGCGGAAGAAGTGCTTCAGCTCAAGCCGGACGGCATCATGCTTTCTAACGGACCCGGAGATCCGAAAGATGTGCCGGAAGCCATTGAAATGATAAAAGGCATACTCGGGAAGGTGCCGTTATTCGGAATCTGCCTCGGCCACCAATTATTTGCGCTGGCATCCGGAGCGGAAACGGAAAAAATGAAATTCGGACACAGGGGTTCCAATCATCCGGTTAAAGAGCTTGCGACAGGGAAAGTCGCTTTAACCGCCCAAAACCACGGATATACAGTTTCTTCAATAGATAAGACAGAGCTTGAAGTGACGCACATTGCGATCAATGATCAAACGATCGAAGGACTCAAGCATAAAACATTGCCGGCATTTACGGTTCAGTACCACCCTGAAGCTTCACCGGGGCCGGAAGACGCCAATCATTTATTTGACAGATTCATTGACTTGATCGAAACAACTGAGAAAGAAGGGGAAGCGGTATGCCAAAACGCGTAG	MKRRLVLENGAVFEGEAFGSLEHTAGEVVFNTGMTGYQEILSDPSYCGQIVTLTYPLIGNYGINRDDFESITPFVKGLIVKELCELPSNWRSAYTLDEYLKMKNIPGLQGIDTRKLTRMIRTAGALKGTFASSEENVGEVLARLKETELPRNQVAQVSAKTAYPSPGRGKRIVLVDFGMKHGILRELNKRKCDVIVVPYNVTAEEVLQLKPDGIMLSNGPGDPKDVPEAIEMIKGILGKVPLFGICLGHQLFALASGAETEKMKFGHRGSNHPVKELATGKVALTAQNHGYTVSSIDKTELEVTHIAINDQTIEGLKHKTLPAFTVQYHPEASPGPEDANHLFDRFIDLIETTEKEGEAVCQNA	PGPT0021155_4225	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
D1-12_00727	3216	carB_2		Carbamoyl-phosphate synthase large chain	ATGCCAAAACGCGTAGATATTAAAAAGATTTTAGTGATCGGATCAGGCCCGATTATTATCGGACAGGCGGCGGAATTTGATTATGCGGGCACACAGGCGTGTCTCGCTTTAAAGGAAGAAGGCTATGAAGTCGTTCTCGTCAACTCGAATCCGGCAACGATTATGACGGATACGGAAATGGCTGATCGGGTATACATAGAGCCGCTGACGCCGGAGTTTCTCACGCGTATTATCAGAAAAGAACGGCCGGACGCCATCCTGCCGACTCTGGGAGGACAGACCGGACTGAATCTTGCCGTCGAGCTGTCTGAACTCGGGGTTCTTGAGGAATGCGGGGTGGAAGTGCTCGGCACAAAGCTGTCCGCCATCCAGCAGGCGGAAGACCGCGACTTATTCCGTACGCTGATGAATGAGCTGAATGAACCGGTGCCGGAAAGTGAGATCATCCGCACTTTACAGGAAGCCGAGGAATTTGTCGGCCGGATCGGGTTTCCGGTTATCGTGCGTCCCGCTTACACTTTAGGCGGAACGGGCGGCGGCATCTGCTCGAATGAAGCAGAACTGAAAGAGATCGTCGAAAACGGATTAAAACTCAGCCCTGTCCATCAGTGCCTTCTGGAAAAAAGCATTGCCGGTTACAAAGAGATCGAATATGAAGTCATGAGAGACAGCAGAGATCACGCGATCGTCGTTTGCAACATGGAAAATATCGATCCGGTCGGCATCCATACGGGCGACAGCATCGTCGTTGCCCCGAGCCAGACTTTGAGCGACCGGGAATATCAGCTTTTGCGCAATGTTTCATTAAAGCTGATCCGCGCGCTCGGCATTGAAGGCGGCTGTAATGTTCAGCTCGCGCTCGATCCCGACAGCTTCCAATATTACATTATCGAAGTGAATCCGCGGGTGAGCCGCTCATCTGCCCTCGCTTCAAAAGCGACGGGTTACCCGATCGCAAAGCTTGCGGCGAAAATCGCAGTCGGGCTTTCTCTTGATGAAATGATGAATCCCGTAACAGGAAAAACATATGCGGCTTTTGAGCCCGCGCTTGACTATGTCGTTTCTAAAATCCCGCGCTGGCCGTTCGACAAATTTGAGTCGGCAAACCGCAGGCTCGGAACGCAAATGAAAGCCACCGGAGAGGTCATGGCCATCGGACGCACCCTTGAAGAATCGCTGTTAAAGGCGGTCCGCTCACTGGAAGCCGATGTCTATCACTTGGAACTGAAGGATGCGGAAGAGATTTCTGACGGACTTTTGGAAAAACGGATCAGAAAAGCCGGGGATGAACGCCTGTTTTATCTTGCTGAAGCGTTCAGAAGAGGCTATACAGTGGAGCAGCTTCATGAGTTTTCCGCAATTGACGTATTCTTTTTGCACAAGCTCTGTAAGCTGGTCGCTTTTGAAACAGAGCTGAAAGCGGAAAAAGGCAGCCTCGCCGTCCTTCAGACAGCGAAGGAACTCGGTTTCTCCGACAAATATATCAGCCGGGAATGGAATATGCCGGAACAAGAGCTGTATCAAATGCGAAAAGAAGCAGACATCAAGCCTGTATATAAAATGGTGGATACATGCGCGGCGGAATTCGAATCAGAAACCCCGTACTTCTACAGCACATATGAGGAAGAGAACGAGTCTGAGGTTACTTCAAGAAAAAGCGTCGTCGTCCTCGGTTCCGGCCCGATCCGTATCGGACAGGGCGTCGAATTTGACTATGCGACCGTTCATTCTGTCTGGGCGATCAAGCAGGCAGGTTATGAAGCGATTATTATCAACAACAACCCTGAGACGGTGTCCACTGATTTCAGCATATCAGACAAACTGTATTTTGAACCGCTGACGGTTGAAGATGTCATGCACATCATCGATTTGGAACAGCCGGAAGGCGTTGTTGTCCAATTCGGCGGCCAGACGGCGATCAATCTTGCGGAAGAATTGAGCGCCCGCGGCGTCAAAATTCTCGGCACATCACTAGAAGATTTAGACCGTGCGGAAGACCGGGATAAGTTCGAGCAGGCGCTTGAGGCGCTGAATGTGCCGCAGCCGCTCGGAAAAACCGCCGTGTCGGTGAACGAAGCGGTCAAAATCGCCGCATCCATCGGCTATCCGGTACTTGTCCGCCCTTCGTATGTGCTCGGCGGCCGGGCGATGGAGATCGTCTATCACGAAGAAGAGCTGCTTCACTATATGAAAAATGCGGTCAAAATCAACCCGCAGCATCCGGTGTTAATCGACCGTTATCTGACGGGGAAAGAAATCGAAGTCGATGCCGTATCTGACGGCGAAACAGTCGTTATTCCGGGAATTATGGAGCATATCGAGCGGGCCGGCGTCCATTCAGGGGATTCAATCGCCGTCTATCCGCCTCAGTCTTTAAGCGAAGACATTAAGAAAAAAATCGAACAATACACTGTAGCCTTGGCAAAAGGCCTTAACATCATCGGGTTGCTGAACATCCAGTTCGTCCTGTCGCAAGGTGAGGTGTATGTGCTTGAGGTAAATCCGCGGTCAAGCAGAACCGTGCCGTTCTTAAGCAAAATCACAAAAATCCCAATGGCGAACCTGGCGACAAAGGTCATCCTCGGTCAAAAGCTTGCTGATTTCGGCTATCAAGAGGGGCTGCAGCCTGAACAGCAGGGGGTATTCGTGAAAGCGCCTGTCTTCTCATTCGCGAAGCTGAGAAGAGTGGATATTACGTTAGGCCCTGAAATGAAGTCGACGGGAGAGGTCATGGGCAAAGATTCAACCCTGGAAAAAGCGCTCTATAAAGCGCTGATTGCTTCTGGCATTCAAATCCCGAACTACGGCTCAGTGCTGTTGACTGTTGCCGATAAAGATAAAGAAGAAGGACTGCTGATCGCCAAGCGGTTCCACGCCATCGGCTATAAAATCTTGGCAACGGAAGGAACGGCGGCTTATTTGAAAGACGCTCAGATTCCGGCTCAGGTCGTCGGAAAAATCGGCGAAGAAGGGAAAAATCTGCTCGATGTCATCAGAAACGGCGAAGCGCAATTTGTCATCAATACGCTGACAAAGGGCAAACAGCCGGCCAGAGACGGCTTCAGAATCCGCCGCGAATCCGTTGAGAACGGAGTCGCCTGCCTGACATCTTTAGATACGGCCGAAGCCATTTTGCGGGTACTGGAAAGCATGACATTCCGGGCGGATCATATGCCTGCATCCGAAACCAATCAAAAGGCGGCAGTCACGATATGA	MPKRVDIKKILVIGSGPIIIGQAAEFDYAGTQACLALKEEGYEVVLVNSNPATIMTDTEMADRVYIEPLTPEFLTRIIRKERPDAILPTLGGQTGLNLAVELSELGVLEECGVEVLGTKLSAIQQAEDRDLFRTLMNELNEPVPESEIIRTLQEAEEFVGRIGFPVIVRPAYTLGGTGGGICSNEAELKEIVENGLKLSPVHQCLLEKSIAGYKEIEYEVMRDSRDHAIVVCNMENIDPVGIHTGDSIVVAPSQTLSDREYQLLRNVSLKLIRALGIEGGCNVQLALDPDSFQYYIIEVNPRVSRSSALASKATGYPIAKLAAKIAVGLSLDEMMNPVTGKTYAAFEPALDYVVSKIPRWPFDKFESANRRLGTQMKATGEVMAIGRTLEESLLKAVRSLEADVYHLELKDAEEISDGLLEKRIRKAGDERLFYLAEAFRRGYTVEQLHEFSAIDVFFLHKLCKLVAFETELKAEKGSLAVLQTAKELGFSDKYISREWNMPEQELYQMRKEADIKPVYKMVDTCAAEFESETPYFYSTYEEENESEVTSRKSVVVLGSGPIRIGQGVEFDYATVHSVWAIKQAGYEAIIINNNPETVSTDFSISDKLYFEPLTVEDVMHIIDLEQPEGVVVQFGGQTAINLAEELSARGVKILGTSLEDLDRAEDRDKFEQALEALNVPQPLGKTAVSVNEAVKIAASIGYPVLVRPSYVLGGRAMEIVYHEEELLHYMKNAVKINPQHPVLIDRYLTGKEIEVDAVSDGETVVIPGIMEHIERAGVHSGDSIAVYPPQSLSEDIKKKIEQYTVALAKGLNIIGLLNIQFVLSQGEVYVLEVNPRSSRTVPFLSKITKIPMANLATKVILGQKLADFGYQEGLQPEQQGVFVKAPVFSFAKLRRVDITLGPEMKSTGEVMGKDSTLEKALYKALIASGIQIPNYGSVLLTVADKDKEEGLLIAKRFHAIGYKILATEGTAAYLKDAQIPAQVVGKIGEEGKNLLDVIRNGEAQFVINTLTKGKQPARDGFRIRRESVENGVACLTSLDTAEAILRVLESMTFRADHMPASETNQKAAVTI	PGPT0021150_3864	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
D1-12_00728	771	pyrK	COG0543	Dihydroorotate dehydrogenase B (NAD(+)), electron transfer subunit	ATGAAAAAAGCGCATTTGACTGTTCAATCCAACTTAGAGATTGCCGACCGGATTTATAAGATGGTGCTGAAAGGAGAGCTTGTCCGGCACCTTACCGAGCCGGGTCAATTTCTTCATCTGAAGGTCAGTGACGCGGTCACGCCGCTATTAAGAAGACCGCTCAGCATTGCGGACGTCAATTTCGCCGCGAATGAAGTATCCGTTATCTACAGAGCTGACGGTGAGGGAACGCGTCTTTTGTCCGGGAAAAAAGAGGGCGGCAGGATAGACGTTCTCGGCCCTCTCGGCAACGGATTCCCCGTCCGGCGGATTGAACCCGGCAAAACCGCGCTGTTAGTCGGAGGCGGAGTCGGGGTTCCGCCTTTGCAGGAACTGTCAAAGCGCCTGACGGAAAAAGGCGTAAACGTCATTCATGTGCTTGGATTTCAATCAGCAAAGGATGTTTTTTACGAACAGGAATGTCGTGCGTACGGAGACACCTATGTGGCGACGGCTGACGGAACATATGGAGAGAAAGGATTTGTCACCGATGTCATCCGTGAAAAGCAGCTCGAATTCGATGTCCTGCTAAGCTGCGGACCGACACCGATGCTGAAAGCTCTGAAGCAGCAGTACAGCCATAAAGAGGTTTATCTTTCGATGGAAGAGCGGATGGGCTGCGGCATCGGGGCCTGCTTCGCCTGCGTGTGCCGCACGGGTGAAAGCGATACATCCTATGTAAAGGTCTGCCTTGACGGGCCGGTATTTAAAGCTGAGGAGGTGGCGCTGTAA	MKKAHLTVQSNLEIADRIYKMVLKGELVRHLTEPGQFLHLKVSDAVTPLLRRPLSIADVNFAANEVSVIYRADGEGTRLLSGKKEGGRIDVLGPLGNGFPVRRIEPGKTALLVGGGVGVPPLQELSKRLTEKGVNVIHVLGFQSAKDVFYEQECRAYGDTYVATADGTYGEKGFVTDVIREKQLEFDVLLSCGPTPMLKALKQQYSHKEVYLSMEERMGCGIGACFACVCRTGESDTSYVKVCLDGPVFKAEEVAL	PGPT0021180_943	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021180-pyrDII-K02823	NA	NA
D1-12_00729	936	pyrD	COG0167	Dihydroorotate dehydrogenase B (NAD(+)), catalytic subunit	ATGTTAGAAGTGAATCTGCCGGGTCTCCAATTGAAAAATCCGATCATCCCCGCTTCCGGATGTTTCGGTTTCGGGAAAGAATATGCCGGATTTTACGATTTATCATGCCTCGGAGGCATTATGATTAAAGCCACGACGAACGAAGCCCGCTTCGGAAATCCGACACCGAGAGTGTCGGAGACAAGCGCGGGAATGCTGAATGCCATCGGACTGCAAAATCCCGGCCTTGAGCATGTGCTCAATCACGAGCTGCCTTGGCTCGAACAATTTGACACGCCGATTATCGCAAATGTCGCCGGTTCTCAGGTGGACGACTATAAAGAAGTGGCCGAGCACATCAGCCAAGCGCCGAATGTGCATGCGCTTGAGCTTAACATTTCATGTCCGAATGTCAAAACGGGGGGGATTGCTTTTGGTACTGATCCCGTCATGGCGGCCGAACTGACAAAAGCGGTGAAAGAAGTTTCCGTAGTGCCTGTGTATGTGAAGCTTTCGCCTAATGTCGCAAACATAACCGAAATTGCCAAAGCGATTGAAGCGGCCGGTGCTGACGGTCTGACGATGATTAATACACTCATCGGGATGAGGCTCGATCTCAAGACGGGACGGCCGATCTTAGCAAATAAAACGGGCGGACTGTCAGGCCCGGCGATCAAACCGGTCGCCATCCGGATGGTATACGAAGTCAGCCAGGCCGTTCAAATCCCGATTATCGGGATGGGCGGCGTTCAGACCGCAGAGGATGCATTAGAATTTCTTCTTGCGGGAGCGAGTGCGGTTGCCGTCGGCACGGCGAACTTCGTCAATCCGTTCGTCTGCCCGGAAATCATAGAACAGCTCCCCCGTGTGCTGCGCCAACACGGCTTTCAATCTGTAAGTGAATGCATCGGAAGGAGCTGGAAACATGAAAAACAACCTGCCCATCATCGCGCTTGA	MLEVNLPGLQLKNPIIPASGCFGFGKEYAGFYDLSCLGGIMIKATTNEARFGNPTPRVSETSAGMLNAIGLQNPGLEHVLNHELPWLEQFDTPIIANVAGSQVDDYKEVAEHISQAPNVHALELNISCPNVKTGGIAFGTDPVMAAELTKAVKEVSVVPVYVKLSPNVANITEIAKAIEAAGADGLTMINTLIGMRLDLKTGRPILANKTGGLSGPAIKPVAIRMVYEVSQAVQIPIIGMGGVQTAEDALEFLLAGASAVAVGTANFVNPFVCPEIIEQLPRVLRQHGFQSVSECIGRSWKHEKQPAHHRA	PGPT0021175_537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021175-pyrDI-K17828	NA	NA
D1-12_00730	720	pyrF	COG0284	Orotidine 5'-phosphate decarboxylase	ATGAAAAACAACCTGCCCATCATCGCGCTTGATTTTGCATCAGGGGAAGAGACTTTAACGTTTTTAGACTTGTTTGAAAAGGAAAGGCTTTTTGTCAAAACGGGGATGGAACTTTTTTATCAGGAAGGCCCCGCCATCATTCACCAATTAAAAGAACGGAACTGTGATATATTTTTAGATTTAAAGCTTCATGATATCCCGACTACGGTCAATAAAGCGATGAGGCGGCTTGCCGGCCTCGGCGTTGATCTCGTCAATGTGCATGCGGCAGGGGGCGCACGCATGATGCGCGCGGCCCTTGAGGGGCTTGAAGAAGGCACGCCGGCAGGCAGAAAACGCCCGTCTTTAATCGCGGTGACTCAGCTGACCAGCACTTCAGAGCAGGTGGCGAAGGAAGAGCTTCTGCTGCATAAGCCGCTGTTAGAAACGGTTGTGCATTACGGCAAAATGGCGGAAGAGTGCGGGCTGGACGGAGTGGTATGTTCGGTACATGAAACAAAAGCCATTTATGAAGCGGTCCGGCCTTCATTTCTGACAGTCACACCGGGCATCCGCATGGCCAGTGACGCAGCTGACGATCAAGTCCGGACGGCGACTCCGTCATTTGCGAAAGAAAACGGGTCGTCAGCCATCGTCGTGGGCCGCTCAATTACAAAAGCGGAAAACCCCGTTAAAGCATATGAAGCAATTAAACTGGAATGGGAGGGCGTTCGCCGATGA	MKNNLPIIALDFASGEETLTFLDLFEKERLFVKTGMELFYQEGPAIIHQLKERNCDIFLDLKLHDIPTTVNKAMRRLAGLGVDLVNVHAAGGARMMRAALEGLEEGTPAGRKRPSLIAVTQLTSTSEQVAKEELLLHKPLLETVVHYGKMAEECGLDGVVCSVHETKAIYEAVRPSFLTVTPGIRMASDAADDQVRTATPSFAKENGSSAIVVGRSITKAENPVKAYEAIKLEWEGVRR	PGPT0014965_2810	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
D1-12_00731	633	pyrE	COG0461	Orotate phosphoribosyltransferase	ATGAAACAGGCTATCGCAAAACATCTATTACACATTGAAGCTGTCTTTTTACGCCCGAATGAGCCGTTTGCGTGGGCGAGCGGCATTTTATCACCGATCTATTGTGACAACCGTCTGACATTGTCGTATCCAAAAGTGAGAAATGATGTGGCGGACGGGCTCGGCAAACTGCTGAAAGAGCATTTCCCCGAGGCGGAGATGATCGCGGGCACTGCAACGGCGGGCATTCCGCATGCTGCGCTTCTCGCAGACCGTACAGGCGCGCCGATGTGCTACGTCAGAAGCAAACCGAAAGCGCACGGCAAAGGAAATCAAATAGAAGGCGCCATTAAGAAAGGACAAAAAACAGTCGTGATTGAAGACTTGATTTCTACCGGGGGCAGCGTGCTTGAAGCTGCGGCGGCCCTTCAAAGAGAGGGCGCGGAAGTCCTCGGCGTCATTTCCATTTTTACATACGGACTGCCGAAAGCAAAAGAAGCCTTTAAAAAAGCGGGTCTTCCTTATTACTCGTTAACGGATTATGACACGCTGATTGAAGTCGCGCTTGCAAACGGAACGATACATTCAGATGACATTGAAAAACTGAAATCATGGAAATTGAATCCCGAGTCAAAAGATTGGTTTAAAAAATAA	MKQAIAKHLLHIEAVFLRPNEPFAWASGILSPIYCDNRLTLSYPKVRNDVADGLGKLLKEHFPEAEMIAGTATAGIPHAALLADRTGAPMCYVRSKPKAHGKGNQIEGAIKKGQKTVVIEDLISTGGSVLEAAAALQREGAEVLGVISIFTYGLPKAKEAFKKAGLPYYSLTDYDTLIEVALANGTIHSDDIEKLKSWKLNPESKDWFKK	PGPT0021200_2567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
D1-12_00733	144			hypothetical protein	ATGACGCCCGGCAACCTGCGTGTATTGCAAGGTGCCGCATCCAGAAAAATGCACAGCATTTTGAAGATAAGGGCTATACCGGGTCACTGTCTTTCATTCCGCTGGATTGAAAGTTTTTTATATGAAAAAAAGATTGAGGGATAA	MTPGNLRVLQGAASRKMHSILKIRAIPGHCLSFRWIESFLYEKKIEG				NA	NA	NA	NA	NA
D1-12_00734	702	cysH	COG0175	Phosphoadenosine phosphosulfate reductase	ATGCTAACGTATGACACATGGGAAGAGCCGGCGATTACATTTCCGGAAGACGATTCCTATAAAGGCGCGCTGTCCGTTTTAAAATGGGCATACGGCCACTACGGAGACCAGCTTGTTTACGCGTGCAGCTTCGGGATTGAGGGCATCGTCCTGATCGATTTAATTTCTAAAGTAAAGAAAGACGCGGAAATCGTGTTTCTTGATACGGGTCTTCACTTTAAAGAAACATATGAAACGATCGAAAAAGTGAAAGAGCGTTACCCGGGGCTGAACATTATCCTGAAAAAGCCAAGCCTTACTCTTGAGGAACAGGCCGAGGCTCACGGAGATAAACTGTGGGAAAGAGAACCGAACCAGTGCTGCTACATCAGAAAAATTCTGCCGTTAAGAGAAGCGCTCGCGGGGCATCCGGCATGGCTGTCCGGTCTTCGCCGGGATCAAGGGCCGAGCCGGGCGAATACGAATTTCCTGAATAAAGACGACAAGTTTCAATCGATTAAAGTATGCCCGCTGATCCATTGGACATGGAAAGACATCTGGAGATATACTTCCAAGCATGAGCTGGATTACAATATCCTCCACGATCAGGGGTATCCGAGCATCGGCTGTGAACCGTGCACTTCACCTGCGTTTACCGCGGAAGATTTGCGGAGCGGCAGATGGAACGGCATGGCGAAAACAGAATGCGGACTGCATGAATAA	MLTYDTWEEPAITFPEDDSYKGALSVLKWAYGHYGDQLVYACSFGIEGIVLIDLISKVKKDAEIVFLDTGLHFKETYETIEKVKERYPGLNIILKKPSLTLEEQAEAHGDKLWEREPNQCCYIRKILPLREALAGHPAWLSGLRRDQGPSRANTNFLNKDDKFQSIKVCPLIHWTWKDIWRYTSKHELDYNILHDQGYPSIGCEPCTSPAFTAEDLRSGRWNGMAKTECGLHE	PGPT0002785_2230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
D1-12_00735	1065	cysP	COG0306	Sulfate permease CysP	ATGGAATTAGCCGCTATTTTATTCTGCCTGTTTTTTGCCATGAATATCGGAGCCAGCGGAGCCGCGGCTTCAATGGGAGTCGCTTACGGGTCCGGCGCCGTTAAAAAGAAAACGTATGCGCTGATCATCTGCGCGGCCGGAGTCCTGTCAGGGGCGGTTATCGGCGGCGGTGAAGTTGTTAAGACGATCAGCGGCGGAATCATTCCCGAACAAACCATTACGCTCACCATTGTCTGCATTATTATCGGATCGGCGGCGCTATCGTTATTCACGGCGAATGTGCTCGGCATTCCGCTGTCGACGAGTGAGGTCACTGTCGGGGCGATTGTCGGTGTCGGCGTCGCGTACAAAGTATTGTTTTTACAGCATCTTTTGGTCATCGTGAGTTTTTGGGTGCTTGTACCGTTTGTCGCGTTCTGTTTCACGTTTCTCGTCTCGAAGGTATTCAGTTCTCTGAATATTCGAGTCATTTCGAATCGGAAACAGAAGATTTTAGGGATTGTGCTGCTGATTGCGGGGTTTTGGGAAGCTTTTTCAGCCGGAATGAATAATGTCGCAAATGCAGTGGGCCCTCTGGTTGCTGCGGGCGTGCTCAGCGTGTCCAAAGGAACGCTGTACGGAGGCATCTTTGTCGCTCTCGGCGCTCTGCTTTTAGGACGTAAAGTGCTTGAAACCAACGGGAAAAAGATTACGAGATTTTCAGCCGGAGAAGGCATACTGCTTTCAGGAACCGGCGCGGGGCTTGTCATTATCAGTTCCGTCTTCGGTCTGCCGGTCCCATTGGCGCAAGTCACATCATCATCAATTATCGGTATCGGAATGGCCAAAAACGGGCCGAACGTTTTTCATAAAGAAGTCGTGAAAACGATGCTCAAAGTATGGGTCGTTTCGCCGTTTTTGTCACTATCGATTTCGTATCTGCTTGTCTCCCTGCTGTTAAAAGGAGATTACTATTCCATCTTTATGATGGCCAGCGTGCTTTTGGCAGCTGGCGGAGCCGCCAGTCTGATGAAAGCCATCCGAAAAGAGAAACGCTCTGTCCATGAACAAGGCGGGGGCATTTAA	MELAAILFCLFFAMNIGASGAAASMGVAYGSGAVKKKTYALIICAAGVLSGAVIGGGEVVKTISGGIIPEQTITLTIVCIIIGSAALSLFTANVLGIPLSTSEVTVGAIVGVGVAYKVLFLQHLLVIVSFWVLVPFVAFCFTFLVSKVFSSLNIRVISNRKQKILGIVLLIAGFWEAFSAGMNNVANAVGPLVAAGVLSVSKGTLYGGIFVALGALLLGRKVLETNGKKITRFSAGEGILLSGTGAGLVIISSVFGLPVPLAQVTSSSIIGIGMAKNGPNVFHKEVVKTMLKVWVVSPFLSLSISYLLVSLLLKGDYYSIFMMASVLLAAGGAASLMKAIRKEKRSVHEQGGGI				NA	NA	NA	NA	NA
D1-12_00736	1149	sat	COG2046	Sulfate adenylyltransferase	ATGAGTTTAGCACCGCACGGAGGAACATTAATTAACCGGGTGAATGAGCAGTATGATCTTACATCCGTCCAAAAAGAAATTGAGCTTGATTTGATTTCGTTCGCTGATTTAGAGCTGATCGGCATCGGGGGGTACAGCCCGATTGAAGGATTTTTCACAGAAAAAGATTACGTGTCAGTCGTTGAAAATATGCGTCTGGCATCCGGGGTTGTCTGGTCCTTGCCGATCACGCTTCCGGTCGATTCAGAAAAAGCGGCTGAGCTTGCCGTCGGCGACACGGTGAAACTGACTTACGGCGGAGAAACATATGGCGTCGTCGACATCGAAGATATTTATACGCCGGATAAACAAAAAGAAGCTGTTCACGTATATAAAACCGATGATGCCGCGCATCCGGGCGTGAAAAAATTATTTTCACGCGGCGATACGTATATCGGCGGGCCGATCACATTAGTTAAAAAAGCGTCAAAGCAGTTTCCCGAGTTTACATTTGAACCTGCCGATACAAGACGAAGCTTCGAAGAAAAGGGCTGGAAAACCATCGTCGGTTTCCAAACGAGAAATCCGGTTCACCGCGCCCACGAATATATCCAAAAAACCGCGCTTGAGACGGTTGACGGCCTGTTTTTGAACCCGCTCGTCGGTGAAACAAAATCAGATGACATTCCGGCGGATGTCAGAATGGAAAGCTACCAGGTGCTGCTCGATCATTATTATCCGAAAGACCGTGTTTTCCTCGGCGTATTTTTGGCGGCAATGCGGTATGCGGGGCCGAGAGAAGCCATTTTCCACGCGCTTGTCCGCAAAAACTACGGCTGCACGCATTTTATCGTCGGCCGCGATCATGCCGGCGTCGGTGATTACTACGGCACATATGAAGCGCAAGAGCTGTTTGATCAATTTACAGCGGATGAACTCGGGATTACACCGATGAAATTCGAGCACAGCTTCTTCTGCCGGAAATGCGGCAACATGGGAACGGCCAAAACATGCCCGCATGACAGAGAAGACCACGTCATTCTGTCAGGAACAAAGGTTAGAGAAATGCTGCGAAGCGGCGTCATGCCGCCGGCGGAATTCAGCCGTCCTGAAGTTGTCGAGGTGTTGATTAAAGGGCTGAAAACGAAAGAAGAAGCAGGCGTTTCTTAA	MSLAPHGGTLINRVNEQYDLTSVQKEIELDLISFADLELIGIGGYSPIEGFFTEKDYVSVVENMRLASGVVWSLPITLPVDSEKAAELAVGDTVKLTYGGETYGVVDIEDIYTPDKQKEAVHVYKTDDAAHPGVKKLFSRGDTYIGGPITLVKKASKQFPEFTFEPADTRRSFEEKGWKTIVGFQTRNPVHRAHEYIQKTALETVDGLFLNPLVGETKSDDIPADVRMESYQVLLDHYYPKDRVFLGVFLAAMRYAGPREAIFHALVRKNYGCTHFIVGRDHAGVGDYYGTYEAQELFDQFTADELGITPMKFEHSFFCRKCGNMGTAKTCPHDREDHVILSGTKVREMLRSGVMPPAEFSRPEVVEVLIKGLKTKEEAGVS	PGPT0002410_1089	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002410-sat|met3-K00958	NA	NA
D1-12_00737	594	cysC	COG0529	putative adenylyl-sulfate kinase	GTGACAAATCGTGATATCGTGTGGCATGAAGCCTCAATAACGAAAGAAGAATACCAGCAGAAAAACAAGCATAAAAGCTCTATCCTCTGGCTGACGGGCTTAAGCGGTTCAGGGAAATCCACGATTGCAAACGCCGCAGCGCGCGAGCTGTTTGAACAAGGCTATCAAGTCATCGTGCTTGATGGTGATAACATCCGCCACGGCTTAAACAAGGACTTAGGTTTTTCCGATGATGACCGCAAGGAAAATATACGCCGAATCGGGGAAGTGGCGAAGCTTTTCGTTCAGCAGGGAACCATCGTCATCACGGCTTTTATTTCTCCGTTCCGTGAGGACAGAGATCAGGTGAGAGAGCTTGTGGCAGAGGGCGAATTTAATGAAATCTATGTGAAATGCGACCTCGATATATGTGAAAAACGCGATCCGAAAGGTTTATATAAAAAAGCAAGAAATGGTGAAATTCCGTTCTTTACGGGGATCGACTCACCGTATGAAGAGCCGAAAGCGCCTGAGCTCGTACTTGATTCAGGCAAATGTGAACGCGAAGAATGCACCGGAAGACTGGTTGACTTTGTGAAAAACAGCTTAGCATAA	MTNRDIVWHEASITKEEYQQKNKHKSSILWLTGLSGSGKSTIANAAARELFEQGYQVIVLDGDNIRHGLNKDLGFSDDDRKENIRRIGEVAKLFVQQGTIVITAFISPFREDRDQVRELVAEGEFNEIYVKCDLDICEKRDPKGLYKKARNGEIPFFTGIDSPYEEPKAPELVLDSGKCEREECTGRLVDFVKNSLA	PGPT0002780_1668	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002780-cysC-K00860	NA	NA
D1-12_00738	774	sumT	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGGGGAAAGTATTTATCGTTGGAGCCGGTCCGGGAGATCCGGACTTATTAACGGTGAAGGCAATGAAAGCCATACAGAAAGCGGATGTTATATTATATGACAGATTGGTAAGCAAAGAGATTTTACAGTATGCCGGAGAAGAAGCGGATCTGATTTACTGCGGCAAGCTCCCGGATTTTCACATTATGAAACAGGATACGATCAACCGTTTCCTTGTGAAGTATGCGAAAAAAGGAAAAACCGTTGTAAGGCTAAAGGGGGGCGACCCGTTTGTTTTCGGCCGCGGAGGCGAAGAAGCGGAGGCTCTCGCGCAAAACGCCATTCCGTTTGAGATCGTTCCCGGCATTACATCAGGAATCGCTGCTGCTGCTTATGCCGGCATTCCCGTGACGCACAGAGAGGCGAGCTCCAATGTCGCATTCGTTACGGGGCATTATAAACAAGAAGACGACTTTGAAGAAAAATGGAAAGCGCTGGCGACGGGCATTGATACGCTGGTGATTTATATGGGAATTAAAAATATCCGGCAGATAGAAAGAATGCTGCTGGAAAACGGCAGAGACGCCGGCACCCCGGCAGCCTTTATTCATTGGGGAACGACGGACAGGCAAAAAACTGTCGTCTGCACCGTCGGCACGCTTTCAGACACAGTGATAAAAGAAGAAATCAAAAACCCGAGCTTAATTGTTATCGGTGATGTCGTCAATTATCACTGCAAACTGGACTGGTATGCATCTGAACAGAAAAATCTGGATTTGAGCGAGGCGTTGTAA	MGKVFIVGAGPGDPDLLTVKAMKAIQKADVILYDRLVSKEILQYAGEEADLIYCGKLPDFHIMKQDTINRFLVKYAKKGKTVVRLKGGDPFVFGRGGEEAEALAQNAIPFEIVPGITSGIAAAAYAGIPVTHREASSNVAFVTGHYKQEDDFEEKWKALATGIDTLVIYMGIKNIRQIERMLLENGRDAGTPAAFIHWGTTDRQKTVVCTVGTLSDTVIKEEIKNPSLIVIGDVVNYHCKLDWYASEQKNLDLSEAL	PGPT0003685_1871	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
D1-12_00739	786	sirB	COG2138	Sirohydrochlorin ferrochelatase	ATGAAGCAGGCGATTTTATACATCGGGCACGGAAGCAGGCTGAAAAAAGCGCAGACAGAGTCGGCGGCGTTTTTAAAAGGGTGCATGCCGCACGCTGACGCTCCCATTCAGGAAATCTGTTTTTTAGAACTGCAGGAACCGTCTATTGAAGCGGGATTTGAAGCATGTGTCAGACAAGGCGCCACTCATATTGCGGCCGTGCCTTTGCTGCTGTTGACCGCTGCCCACGCAAAACAAGACATTCCGGCTGAAATCGCCTGTGCGGCGGCCCTGCATCCCGATATAAAAGTGACATATGGTGTTCCGATCGGAGTGGACGATGAAGTCGTAAAAGCGGTGCATCATCGCATTGAAGATACCGGAGTGCCCATTGAGCAGGCGAAAGTGGTGCTGATCGGAAGAGGAAGCACAGATCCGGCAGTTAAAAACGCAGTCAGTGAGATTGCCGGAAAACTTGAGGCGATTACACCTGTTAAAGAAGTCATCCCTTGTTTTTTAACAGCATGTGACCCGCACTATAAAGAAGTGTTTGCCGGCCTTGAAGAGGATGACGGAGCACCCGTTTTTATCGTTCCATATCTTCTGTTTACCGGGCTTTTAATGACTGAGATTGAACGGGAAGTTCAAAAGCTTCAAACGATCAATCAAAATGTTCATCTCGCTTCATACTTAGGTTTTCACCCGCATATTAAGCAGGCGTTTTTGAACCGTGTGTCAGAAGCTGTTCGAAACCCCGGCGGTCAGTTTGATTTTAAGGGGGGACAGTATGCTGCCTCTGCACATTAA	MKQAILYIGHGSRLKKAQTESAAFLKGCMPHADAPIQEICFLELQEPSIEAGFEACVRQGATHIAAVPLLLLTAAHAKQDIPAEIACAAALHPDIKVTYGVPIGVDDEVVKAVHHRIEDTGVPIEQAKVVLIGRGSTDPAVKNAVSEIAGKLEAITPVKEVIPCFLTACDPHYKEVFAGLEEDDGAPVFIVPYLLFTGLLMTEIEREVQKLQTINQNVHLASYLGFHPHIKQAFLNRVSEAVRNPGGQFDFKGGQYAASAH	PGPT0008500_21	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008500-sirB-K03794	NA	NA
D1-12_00740	489	sirC		Precorrin-2 dehydrogenase	ATGCTGCCTCTGCACATTAATTTAAGCGGAAAAAGAATTATCATCGCGGGCGGAGGCAATGTTGCCTTAAGAAGGCTCAAAACGGTGCTTCCGGAAGGCGCGGATATTACTGTAATCAGTCCCGATGCCCTGCCTGAAATGAAACAGCTGGCGGATGAAGGACGTATCCGCTGGGTTTCCCGTAAAATTGAAATGAAGGATCTCGCGCCCGCTTTTTTCATCATTGCCGCGACAAATGACCGCAGCGTGAATCAGGAGATAGCCGCGAGCGCTTCTGAAACGCAGCTGGTCAATTGTGTAAGCGATGCTGAACAGGGCAGCGTGTATATGCCGAAGATCATCCGCAAAGGGCGCATTCAAGTATCCGTATCAACTAGCGGCGCAAGCCCGGCACATACGAAAAGACTGGCTGAGGACATAGAGCCTCTCATTACTGCTGATTTGGCTGAAGAAGTGGATCGATTATTTGAGAAAAGAAGAAGACCATAA	MLPLHINLSGKRIIIAGGGNVALRRLKTVLPEGADITVISPDALPEMKQLADEGRIRWVSRKIEMKDLAPAFFIIAATNDRSVNQEIAASASETQLVNCVSDAEQGSVYMPKIIRKGRIQVSVSTSGASPAHTKRLAEDIEPLITADLAEEVDRLFEKRRRP				NA	NA	NA	NA	NA
D1-12_00741	1716	rqcH		Rqc2 RqcH	GTGTTTTATATGTCTTTTGATGGCATGTTTACATACGGAATGACACATGAATTAAACAGCCGGATTGCCGGAGGCCGGATCACGAGAGTCCATCAGCCTTTTAAGCACGATGTGATATTCCATATCCGCGCTAACGGAAAAAACCATAAATTATTATTATCGGCGCATCCGAGCTATTCACGGGTGCACATGACGAATCAGGCCTATGAAAATCCGAGCGAGCCGCCGATGTTTTGTACGCTGCTCAGAAAGCATATAGAAGGCGGATTTATTGAGAAAATAGAACAGGCCGGATTAGACCGGATTATGATATTCCGCATAAAAAGCAGAAATGAAATCGGCGACGAAACCGTAAGAACGCTGTATGTTGAAATTATGGGGCGGCACAGCAATATTATCCTGACTGACGGAGAAGGAGCCATCATCGACGGGCTGAAACATTTATCTCCGTCGATGAACAGCTACCGGACCGTTCTGCCGGGCTATGATTACAAGCTTCCTCCCGCTCAGGAAAAAATTTCGCCGCTCGCCGCGGACGAAGAAGACGTTTTGCGTTATCTCAGTTTTCAGGAAGGACGGCTTGACCAGCAGATCGTCAGACATTTCTCCGGTGTTTCTCCGCTGTTTGCAAAAGAAGCCGTTCACAGAGCGGGTCTCGCTAACAAAATAACGCTGCCGAAGACGCTGATTGAAATGTTCCATGCCGTGAAAGATTGCAGGTTTACACCAAACATTACAACAGCCGGCGGAAAGGAATACTTTTATCTCCTGTCTCTCACACATGTAAACGGAGAGGAGCGCACCTTTCACTCACTGAGTGAGCTGTTGGACCGGTTTTATTTCGGCAAGGCGGAACGCGACCGCGTCAAACAGCAGGCTCAGGATCTCGAGCGGTTTGTCGCAAATGAACGGAAAAAGAACGCCAATAAGATAAAAAAGCTGGAAAAGACGCTCGACTACTCAGAGAACGCGAAGGAATTCCAGCTATACGGCGAACTGCTGACGGCGAATTTGTATATGCTGAAAAAAGGTGACAAAGAAGCGGAAGTCATCAATTATTATGATGAAGAAAGTAAAACAGTGACCATCCCTTTAAATCCGAATAAAACACCGTCAGAAAACGCGCAGATGTATTTTACAAAGTATCAAAAGGCGAAGAATTCCGTCGAGGTGGTAAAAGAACAGATCCGTCTGGCCGAGGAGGAAATCGCTTATTTCGATCAGCTGATCCAGCAGCTCTCCTCCGCCTCCACAAAGGATATTCACGAAATAAGGGAAGAGCTTGTGGAAGGCAAATATCTGCGACCGAAACAGCAGCGAGGACAGAAAAAGCAGAAGCAGCACGTTCCTGTTTTGGAGCAATATGAATCTTCACGGGGATTGACGATTCTTGTCGGCAAAAACAATAAACAAAATGAGTACTTAACGACAAAAGCTGCCGCAAGGGATGATTTATGGTTCCACACGAAAGACATTCCCGGTTCCCACGTTGTGATTAAAAGCAGCGATCCGGATGAACAATCCATACTGGAGGCGGCTGCGATCGCCGCTTATTTTTCCAAGGCGAAAGATTCCGGCTCCGTTCCCGTTGATTATACAAAAATCAGACACGTGAAAAAGCCAAACGGCGCAAAGCCCGGATTTGTCACCTATGACAGCCAGCATACCGTATTTGTCACACCTGATGCCGACCTTGTCATACGGCTGAAAAAATAA	MFYMSFDGMFTYGMTHELNSRIAGGRITRVHQPFKHDVIFHIRANGKNHKLLLSAHPSYSRVHMTNQAYENPSEPPMFCTLLRKHIEGGFIEKIEQAGLDRIMIFRIKSRNEIGDETVRTLYVEIMGRHSNIILTDGEGAIIDGLKHLSPSMNSYRTVLPGYDYKLPPAQEKISPLAADEEDVLRYLSFQEGRLDQQIVRHFSGVSPLFAKEAVHRAGLANKITLPKTLIEMFHAVKDCRFTPNITTAGGKEYFYLLSLTHVNGEERTFHSLSELLDRFYFGKAERDRVKQQAQDLERFVANERKKNANKIKKLEKTLDYSENAKEFQLYGELLTANLYMLKKGDKEAEVINYYDEESKTVTIPLNPNKTPSENAQMYFTKYQKAKNSVEVVKEQIRLAEEEIAYFDQLIQQLSSASTKDIHEIREELVEGKYLRPKQQRGQKKQKQHVPVLEQYESSRGLTILVGKNNKQNEYLTTKAAARDDLWFHTKDIPGSHVVIKSSDPDEQSILEAAAIAAYFSKAKDSGSVPVDYTKIRHVKKPNGAKPGFVTYDSQHTVFVTPDADLVIRLKK				NA	NA	NA	NA	NA
D1-12_00742	2673	yloB	COG0474	Calcium-transporting ATPase	ATGAAGTTTCATGAAATGGGACAAACCGATTTGCTGAAAGCAACAAATACGTCCATTAAACAGGGGTTGACCGAAAAAGAGGTGAAAAAACGCCTTGAAAAGCACGGACCGAACGAGCTTCAGGAGGGCAAGAGGACACCGGCGATCGCCGTGTTTTTCGCCCAATTTAAAGATTTTATGGTGCTCGTGCTGCTGGCGGCAACCTTAATATCCGGGTTTTTAGGCGAATATGTAGATGCCGTAGCGATTATGGCGATTGTATTTGTCAATGGGGTTCTCGGTTTTTTTCAAGAGCGGCGGGCGGAAAAGTCTTTACACGCATTAAAAGAGCTGTCAACGCCGTATGTGTCAGCGTTGCGGGACGGGAGCTGGAAGAAAATTCAGTCCAAGGAGCTCGTTCCCGGCGATATCATGAAATTTTCAAGCGGCGACCGGATTGGCGCGGATGTGCGGATCGTTGAAGCGAAAAGCCTTGAAATTGAGGAATCGGCGCTGACCGGGGAATCAATTCCGGTGGTTAAACAAGCTGATAAACTGAGAAAGCCGGATGTTTCGTTAGGCGACATCAGCAATATGGCGTTTATGGGTACGATCGTAACGCGCGGCAGCGGTATCGGCGTCGTCGTCGGTACAGGAATGAATACGGCAATGGGGAAAATCGCCGATATGCTGGAATCCGCCGGCAGCCTTTCAACACCGCTGCAGCGAAGGCTTGAAGAGCTCGGCAAAATTTTAATTATAGTCGCGCTCCTTTTAACGGTATTGGTCGTTGCAGTCGGCGTCTTACAGGGACATGAGCTTTACAGCATGTTTTTGGCCGGGGTGTCATTGGCCGTCGCCGCGATTCCGGAAGGGCTTCCCGCCATTGTTACGGTGGCATTATCAATCGGCGTCCAGCGCATGATCAAACAAAAATCAATTGTCAGAAAGCTCCCGGCGGTTGAAACATTGGGCTGCGCCTCTGTCATTTGTTCTGATAAAACCGGCACGCTGACACAAAACAAAATGACCGTCACCCATATGTGGTCAGGGGGAAAAACATTTAAAGTGTCAGGCATCGGCTATGAGCCGGAGGGCGTTTTCACCCGCGATGAGCGGGAAATCAAGCTGAAAGATGAGAAGATTCTTGAACAGATGCTGGTTTTCGGCGCGTTGTGCAACACATCCGAAATCGCACTGAAAGACGGCCATTATGTACTCGACGGCGATCCGACAGAAGGAGCGCTGCTGACGGCTGCAAGAAAGGGCGGCTATTCAAACGATTGGCTCAGCGGGCAATACCGCGTGGTTGCCGAGTTTCCGTTTGACTCCGTCCGCAAAATGATGACCGTCATTGTAGAGGATAAGGAAAAAAAGCAGTTCGTCATCACTAAAGGAGCGCCCGATGTGCTGATTGACCGCTCGTCACATCTGATGTACGACGCAAGAAGCGCGCCATTTTCAGGAGAAAAGAAAGCAGAAACGGAAGCGGTTCTGAAAGAGCTGGCGTCGCAAGCTTTGCGTACGATCGCGATTGCTTATAAACCGCTTAAGCCCGGAGAAAAGCCGACAATGGAGCAGGCGGAAAAAAATCTGACGATGCTCGGCTTGTCAGGCATGATTGATCCGCCCCGTCCGGAGGTCAGACAGGCGATTAAAGAATGCCGTGAAGCCGGCATTAAAACGGTTATGATCACAGGGGATCACGTCGAAACGGCAAAGGCCATTGCAAAAGATTTGCGTCTTCTTCCGAAAAAGGGGCGTGTGATGGACGGCAAGACGCTGAATGAGCTTACGGAGAAAGAACTTATCGAAACGGTCGATGATGTCTACGTCTTCGCACGCGTGTCGCCTGAACATAAATTGAAAATCGTCAAAGCGTTCCAGGAAAACGGACACGTCGTCGCCATGACGGGAGACGGGGTTAATGACGCTCCGGCCATAAAGCAGGCAGATATCGGTGTTGCCATGGGGGTGACGGGAACGGATGTGGCAAAGGAAGCCTCTTCTCTCATTCTGGTAGATGATAACTTTGCTACGATTAAATCAGCCATAAAAGAGGGACGGAATATCTATGAAAATATAAGAAAATTCGTCCGGTATTTGCTCGCCTCCAACGTCGGTGAAATTTTAGTGATGCTGTTTGCGATGCTTCTCGCTCTGCCGCTGCCGCTCGTTCCGATTCAGATATTGTGGGTGAACTTAGTCACTGACGGGCTGCCGGCGATGGCCCTCGGTATGGATCAGCCGGAAGGAGATCTGATGAGGCGGAAGCCGCGGCATCCGAAAGAAGGAGTGTTTGCGAGAAAACTGGGCTGGAAAGTCGTATCAAGAGGGTTTTTAATCGGAGCCGCAACCATTTTAGCGTTTATCATCGTCTATCACCGCAATCCTGAAAATCTGCCCTACGCACAGACCGTTGCATTCGCGACTCTTGTCCTGGCTCAGCTTATACACGTGTTTGACTGCCGGAGCGAAACGTCTGTTTTCTCCCGGAATCCGTTTGAAAATATCTATCTGCTCGGCGCCATCATTTCTTCTATCTTCCTGATGGTCATCGTCATCTATTATCCGCCGCTGCAGCCGATTTTCAAAACAGTGCCGATTACGCCGGGCGATTGGATGCTGATTATCGGTATGTCGGGCATACCTACTTTTTTGCTGGCGGGTTCACTTTTGACAAGAAAAAAATAA	MKFHEMGQTDLLKATNTSIKQGLTEKEVKKRLEKHGPNELQEGKRTPAIAVFFAQFKDFMVLVLLAATLISGFLGEYVDAVAIMAIVFVNGVLGFFQERRAEKSLHALKELSTPYVSALRDGSWKKIQSKELVPGDIMKFSSGDRIGADVRIVEAKSLEIEESALTGESIPVVKQADKLRKPDVSLGDISNMAFMGTIVTRGSGIGVVVGTGMNTAMGKIADMLESAGSLSTPLQRRLEELGKILIIVALLLTVLVVAVGVLQGHELYSMFLAGVSLAVAAIPEGLPAIVTVALSIGVQRMIKQKSIVRKLPAVETLGCASVICSDKTGTLTQNKMTVTHMWSGGKTFKVSGIGYEPEGVFTRDEREIKLKDEKILEQMLVFGALCNTSEIALKDGHYVLDGDPTEGALLTAARKGGYSNDWLSGQYRVVAEFPFDSVRKMMTVIVEDKEKKQFVITKGAPDVLIDRSSHLMYDARSAPFSGEKKAETEAVLKELASQALRTIAIAYKPLKPGEKPTMEQAEKNLTMLGLSGMIDPPRPEVRQAIKECREAGIKTVMITGDHVETAKAIAKDLRLLPKKGRVMDGKTLNELTEKELIETVDDVYVFARVSPEHKLKIVKAFQENGHVVAMTGDGVNDAPAIKQADIGVAMGVTGTDVAKEASSLILVDDNFATIKSAIKEGRNIYENIRKFVRYLLASNVGEILVMLFAMLLALPLPLVPIQILWVNLVTDGLPAMALGMDQPEGDLMRRKPRHPKEGVFARKLGWKVVSRGFLIGAATILAFIIVYHRNPENLPYAQTVAFATLVLAQLIHVFDCRSETSVFSRNPFENIYLLGAIISSIFLMVIVIYYPPLQPIFKTVPITPGDWMLIIGMSGIPTFLLAGSLLTRKK	PGPT0013990_4001	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
D1-12_00743	885			hypothetical protein	GTGTTTCATATGATACGGAGTATGACAGGCTTCGGCAGCGCAAGCAGCACAAAAGGCGATCTCTCGGCAACCGTTGAATTGAAATCCGTCAATTACCGGTTCAAAGAAGTGAACGCCCGCCTGCCACGGCCTTTGCTATATGTAGAGGATAAGCTGAAACAAACGATATTGCAGCATATACAGCGCGGAAGAGTAGAGCTGTTTCTCACTGTAAACAGTGACGCGCTCATAAAAAGAAGCCTGAACATCGATTGGGAGCTCCTTGATGAATATGTGAGCGCCGCACGCGTCATGAAAGAGCGCTACAGCCTGGCCGCAGAACCCGATGCAATGGATTTCTTTAAATTTGAACATATTGCGCAGATACACGAAGAACAGATGCGTGATGACAAGCTTGAAGAAGTCATCAGGGAAGCCGCTGAGCTGGCTGTAAAGGAACTTTGTGACATGAGGGAAAAAGAAGGACGGCTTTTGGCGGAAGACTGCTTTCTGCACATTGAGCGGCTTGAGACGCTGTCCGAACAGGTGAAAGAGCGCGCTTCGGCCGTTGTTATTCAATACCGCGAGCGTCTTTACGCCCGAATGAAGGAATGGACGGAGGACGCACTCGACGAAAGCAGGCTGATCACGGAATGCGCCATTTTCGCCGACCGTTCTGATATCACGGAAGAAATTACCAGATTGAAGAGCCATTTTGTTCAATTCCGTGATATATTAAAAGAAGGCGGGGCAGTCGGCCGCAAACTTGATTTCCTTGTTCAGGAGCTTAACCGGGAAGCGAACACGATCGGCTCAAAAGCCAATGATCATCAAATCACAAAGCTTGTCGTTGAAATGAAAAGTTCTATTGAAAAATTGAAGGAACAAGTGCAAAATATAGAATAG	MFHMIRSMTGFGSASSTKGDLSATVELKSVNYRFKEVNARLPRPLLYVEDKLKQTILQHIQRGRVELFLTVNSDALIKRSLNIDWELLDEYVSAARVMKERYSLAAEPDAMDFFKFEHIAQIHEEQMRDDKLEEVIREAAELAVKELCDMREKEGRLLAEDCFLHIERLETLSEQVKERASAVVIQYRERLYARMKEWTEDALDESRLITECAIFADRSDITEEITRLKSHFVQFRDILKEGGAVGRKLDFLVQELNREANTIGSKANDHQITKLVVEMKSSIEKLKEQVQNIE				NA	NA	NA	NA	NA
D1-12_00744	270	remA	COG2052	Extracellular matrix regulatory protein A	ATGACGATTAAACTGATTAATATCGGATTTGGCAATATCATCTCCGCCAATCGGATGATTTCGATTGTCAGCCCGGAGTCTGCGCCAATAAAGCGAATGATCCAGGATGCAAGAGACCGCGGAATGCTAATAGACGCTACATACGGACGAAGAACCCGTGCAGTTGTCGTCATGGATAGTGATCACATTATCTTATCTGCCGTCCAGCCTGAGACAGTTGCACACAGACTTTCTGTGAAAGAAGAAATTATGGATGAAGGGCAGGGGTAA	MTIKLINIGFGNIISANRMISIVSPESAPIKRMIQDARDRGMLIDATYGRRTRAVVVMDSDHIILSAVQPETVAHRLSVKEEIMDEGQG				NA	NA	NA	NA	NA
D1-12_00745	615	gmk	COG0194	Guanylate kinase	ATGAAAGAAAGAGGGTTATTAATCGTTCTCTCAGGTCCCTCCGGAGTTGGAAAAGGAACGGTTCGGCAAGCAATATTTTCACAACAGGACACAAAATTTGAATACTCAATTTCAGTCACGACGAGAAACCCGAGAGAGGGCGAGGTCGACGGCGTCGATTATTTCTTTAAATCCAGAGATGAATTCGAACGCATGATTGAAAACAACAAACTGCTTGAGTGGGCGGAATATGTCGGCAACTATTACGGAACGCCCGTTGATTATGTCGAACAGACGCTTCAAGAAGGAAAAGACGTCTTCTTAGAGATTGAAGTGCAGGGCGCGCTCCAAGTGCGGAATGCATTTCCGGAAGGCCTGTTTATCTTCTTAGCGCCGCCGAGTCTTTCTGAACTGAAAAACAGAATCGTGACAAGAGGGACTGAAACCGACGATTTAATCGAAAACAGAATGAATGCCGCAAAAGCTGAAATCGAAATGATGGACGCGTATGATTATGTCGTTGAAAACGACGATATCCAAACGGCTTGCGATAAGATTAACGCAATCGTTCTCGCCGAGCACTTAAAACGTGAACGCGTCGCTCCGAGATATAAGAAAATGCTGGAGGTAGAATAA	MKERGLLIVLSGPSGVGKGTVRQAIFSQQDTKFEYSISVTTRNPREGEVDGVDYFFKSRDEFERMIENNKLLEWAEYVGNYYGTPVDYVEQTLQEGKDVFLEIEVQGALQVRNAFPEGLFIFLAPPSLSELKNRIVTRGTETDDLIENRMNAAKAEIEMMDAYDYVVENDDIQTACDKINAIVLAEHLKRERVAPRYKKMLEVE	PGPT0021475_3345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
D1-12_00746	204	rpoZ		DNA-directed RNA polymerase subunit omega	ATGTTAGATCCGTCAATTGACTCTTTAATGAATAAATTAGATTCTAAATATACGCTGGTGACCGTGTCTGCAAGACGCGCGCGTGAAATGCAGATCAAAAAAGACCAGCAGATTGAACATACCATTTCTCACAAATATGTAGGCAAAGCTTTAGAAGAAATTGACGCGGGCCTGCTTTCGTTTGAAAGAGAAGACAGCGAATAA	MLDPSIDSLMNKLDSKYTLVTVSARRAREMQIKKDQQIEHTISHKYVGKALEEIDAGLLSFEREDSE				NA	NA	NA	NA	NA
D1-12_00747	1221	undec1A		Cysteine/Cysteine sulfinic acid decarboxylase	ATGAAAAACCGAAACATTTTGCTATGCGTAAGCGGAGGAATTGCCGTTTATAAAGCTTCCGCACTCACGAGCAAGCTGGTTCAGGCCGGCGCAAACGTCAAAGTGATTATGACTGAGTCCGCGCGTGAGTTTGTTTCTCCGCTGACATTTCAGGCGCTGAGCCGGAATGAAGTGTATACAGATACATTTAATGAACAAAATCCGAAGGTGATTTCTCATATTGATGCCGCTGACTGGGCGGATTTAATTATTGTCGCGCCCGCTACGGCAAATATCATCGGCAAGCTTGCCAACGGAATTGCTGACGATATGCTCACAACGACGGTGCTGGCGGCTGAGGCCCCGGTCTGGGTGGCGCCTGCGATGAATGTCCATATGTATGATCATCCGGCGGTGAAACGGAACATCTCTGTGCTTTATCACGACGGGGTCCGCTTTATCGAGCCGAGTGAAGGCTATTTGGCATGCGGATATGTCGGCAAAGGAAGGCTGGAGGAGCCGGAGCTTATTGTTGAGCGTGTCAGAGAGCATTTTAAGGAGCCTGAAGACGATGCGCCGCTGAAAGGAAAACATATTGTCATTACGGCCGGTCCGACGCGCGAAGCCGTGGACCCTGTCCGCTTCTTCACAAATAAATCCACCGGCAAAATGGGCTACGCCGCTGCTGAAGCCGCCGTCCGTCTCGGGGCGCGGGTGACGCTGATTTCAGGCCCGGTGTCAATAGAGCCGCCAGTCGGACTGTATCAGTTTCTTCCTGTGCAATCGGCAGCCGATATGAGAGAAGCCGTGCTTTCTGTGTTTGATTCATGCGACATGGTGATTAAGACGGCGGCCGTGGCCGATTTTACGCCGGCGGCTGTTTCTGATCACAAAATGAAGAAGAACGACGGTTCGCTCGTGATCGAATTCAACCGTACGGCAGACATACTGAAAGAACTCGGCGAACGGAAAACACACCAGCTGCTGGTCGGATTTGCGGCTGAAACGCAAGACGTCGAACGCTATGCGCGCAGAAAACTCGAACAGAAAAACCTTGATATGATCGTTGCGAATGATGTGAAAGCGGAAGGGGCCGGATTTGGCACGGATACGAATGTCGTCACCTTCTATTTCCGGGACGGAAGAAAACGGGAGCTTGCGCTTATGTCTAAACTTGACGTTTCCTTTGAAATGCTGAAGGAAATGACCGCTTTGAAAGCCGAGGACCGAAAACCGGTATGA	MKNRNILLCVSGGIAVYKASALTSKLVQAGANVKVIMTESAREFVSPLTFQALSRNEVYTDTFNEQNPKVISHIDAADWADLIIVAPATANIIGKLANGIADDMLTTTVLAAEAPVWVAPAMNVHMYDHPAVKRNISVLYHDGVRFIEPSEGYLACGYVGKGRLEEPELIVERVREHFKEPEDDAPLKGKHIVITAGPTREAVDPVRFFTNKSTGKMGYAAAEAAVRLGARVTLISGPVSIEPPVGLYQFLPVQSAADMREAVLSVFDSCDMVIKTAAVADFTPAAVSDHKMKKNDGSLVIEFNRTADILKELGERKTHQLLVGFAAETQDVERYARRKLEQKNLDMIVANDVKAEGAGFGTDTNVVTFYFRDGRKRELALMSKLDVSFEMLKEMTALKAEDRKPV	PGPT0008815_1776	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
D1-12_00748	2412	priA_1		primosomal protein N'	ATGAATGTAGCAGAAGTCATTGTCGATGTCAGCTCCAAAAACATTGACAGACCCTTTGATTACAAAATTCCCGATCATTTAAAAGGGATGATCGAAGTCGGCATGCGGGTGATTGTCCCGTTTGGCCCGCGCAAGCTTCAAGGATTTGTGACCGGTTTGAAAGATTCGTCTGAATTAAACGGCGGCTCAATGAAGGAAGTCGAGAAGCTTCTTGATTTGACGCCCGTTCTGACTGAGGAACTGATGCAGCTGTCTTCATGGCTTTCTGACAAAACGCTGTCGTTTAAAATCACGGCGCTTCAGGCAATGCTGCCCGCCGCACTGAAGGCGAAGTACGAGAAAGAGCTGAAAGTCGTTGACGAAGAAGCGCTGACACCGGACATCAAACAGCTTTTCAGGAATCAAAAAAGTCTTCTGTACTCGGATATTACCGATGAAAGCATTCTTTCGTCACTTCAGAAATTCGTGCGCAAAGGAAGCATTGATGTCACATATAAAGTCGCCCAAAAAACGAATAAAAAAATGATCCGCATGATCGAAGCGGGGGCAGACAAAGAAGAACTCGCCCGGCACGCAGATTCATTGACAAAGCAGGCTTCTAAACAGCTCGCCGTGCTTACTTATTTTATCGGCGGGGGAGCAAAGATTTCCGCGGCCGAGCTTTGCAAAAAGACCGATTCCAGTTCCGCGACGCTGAAAACGCTTCTTAAAAAGGGGCTTCTTACGGAAAGCTTTGAGGAGGTTTACCGCGATCCTTATCAGGACAGAATGTTCAAAAAAACAGAGCCGCTCTCTCTTACAGAAGAGCAGCAGGCCGCTTTTGAGCCGATTAAACAAGCCGTAGCCGATCATGTCCATCACGTCTTTCTGCTTCACGGCGTCACGGGAAGCGGCAAGACGGAAATTTACCTGCAATCCATTGAAAAAGTGCTGGCAAAAGGACAAGAAGCTATCGTGCTCGTTCCGGAAATCTCGTTGACACCGCAAATGGTCAACCGTTTTAAAGGCCGCTTCGGCTCGCAGGTTGCGGTCATGCACAGCGGATTATCCACAGGTGAAAAATACGATGAATGGCGGAAGATTCAGCGCAAGGAAGTCCGGCTTGTCGTCGGAGCCAGATCGGCCATCTTTGCCCCGTTTGAAAATCTCGGCATGATCATTATTGATGAAGAGCACGAATCTTCCTATAAGCAGGAGGAAATGCCGCGGTATCATGCAAAGGACGTAGCCATCCACCGGGCCGAGCATCACAGCTGTCCGGTCGTCCTCGGGAGCGCCACGCCGACATTGGAATCATTTGCGCGGGCGAAAAAAGGCGTTTATGAGCTGCTTCCGTTAAAACATCGCGTAAATCGCCAGCTCATGCCTGACGTTTCTCTCGTTGATATGAGAGAAGAACTGAGAAACGGCAACAGATCAATGTTTTCAAGAGAGCTGATGGAACAGCTGGAAGAGAAGCTTGCAAAAAAAGAGCAGGCCGTCCTTTTCCTGAATAAACGGGGGTATTCCTCGTTTGTGATGTGCCGGGACTGCGGTTATGTGCCGCAATGTCCGCATTGCGACATTTCAATGACTTATCACCGCTACGGACAAAGGCTGAAATGCCATTACTGCGGCCATGAGGAACCTGTCCCGGGAACATGCCCGGAATGCGGCAGCGAACATATCCGCTTTTTCGGCACGGGCACGCAGCGTGTGGAGGAGGAGCTTACCAAAGTGCTGCCTCAGGCGCGCGTGATCAGGATGGATGTGGACACCACTTCAAGAAAAGGCGCCCATGAAAAACTGTTGTCAGCGTTCGGTGAAGGGAAGGCGGATATCCTGCTCGGTACGCAAATGATCGCAAAAGGGCTTGATTTTCCGAACGTGACGCTCGTCGGAGTATTAAGCGCAGATACGACGCTTCACATCCCTGATTTCAGGGCTGCGGAGAAGACATTCCAGCTGCTGACGCAGGTAAGCGGACGGGCCGGGCGGCATGAAAAGCCGGGAACGGTGGTCATTCAAACGTATACACCGTCTCATTACAGCATTCAGCTGACGAAAACGCACGACTATGAAACTTTTTTTCAGCAGGAAATGGCGCACAGACGGGCCCAGTCATACCCGCCTTATTATTACGTGGCGCTGGTGACCGTTTCTCATGAAGAAGCGGCAAAAGCCGCGGTCACCGCAGAAAAGATTACAAACTATTTAAGAGCGGGATGCGGGCCTGATACGAAAATTCTCGGGCCGGCGGCTTCCCCGATCGCCAGGATCAAAGATAGATATCGCTATCAATGCGTGATAAAATACAGACAGGAAAACGAGTTGCAGATTCAGTTGAAAAAGATACTGGAGCACTATAAACGCGACATTGCGCAAAAGCATGTAATGATTTCAATCGATATGAATCCGTACATGCTGATGTAA	MNVAEVIVDVSSKNIDRPFDYKIPDHLKGMIEVGMRVIVPFGPRKLQGFVTGLKDSSELNGGSMKEVEKLLDLTPVLTEELMQLSSWLSDKTLSFKITALQAMLPAALKAKYEKELKVVDEEALTPDIKQLFRNQKSLLYSDITDESILSSLQKFVRKGSIDVTYKVAQKTNKKMIRMIEAGADKEELARHADSLTKQASKQLAVLTYFIGGGAKISAAELCKKTDSSSATLKTLLKKGLLTESFEEVYRDPYQDRMFKKTEPLSLTEEQQAAFEPIKQAVADHVHHVFLLHGVTGSGKTEIYLQSIEKVLAKGQEAIVLVPEISLTPQMVNRFKGRFGSQVAVMHSGLSTGEKYDEWRKIQRKEVRLVVGARSAIFAPFENLGMIIIDEEHESSYKQEEMPRYHAKDVAIHRAEHHSCPVVLGSATPTLESFARAKKGVYELLPLKHRVNRQLMPDVSLVDMREELRNGNRSMFSRELMEQLEEKLAKKEQAVLFLNKRGYSSFVMCRDCGYVPQCPHCDISMTYHRYGQRLKCHYCGHEEPVPGTCPECGSEHIRFFGTGTQRVEEELTKVLPQARVIRMDVDTTSRKGAHEKLLSAFGEGKADILLGTQMIAKGLDFPNVTLVGVLSADTTLHIPDFRAAEKTFQLLTQVSGRAGRHEKPGTVVIQTYTPSHYSIQLTKTHDYETFFQQEMAHRRAQSYPPYYYVALVTVSHEEAAKAAVTAEKITNYLRAGCGPDTKILGPAASPIARIKDRYRYQCVIKYRQENELQIQLKKILEHYKRDIAQKHVMISIDMNPYMLM				NA	NA	NA	NA	NA
D1-12_00749	483	def1	COG0242	Peptide deformylase 1	TTGGCTGTGAAAAAAATCGTCACACACCCGGCGGAGGTTCTGGAAACACCTGCCGAAGAAGTGACAGTGTTTGATAAAAAATTAAAAAAACTGCTTGATGATATGTACGATACGATGCTCGAAATGGATGGCGTCGGCCTCGCCGCGCCGCAAATCGGCATTTTAAAAAGAGCGGCCGTCGTGGACATCGGTGAAGAAAGCGGCCGGATCGACCTTGTAAATCCGGTTATTCTTGAAAAGAGCGGTGAACAGACCGGAGTCGAGGGCTGCTTAAGCTTTCCCGGGGTTTACGGCGATGTCACCCGCCCGGATTACGTAAAGGTAAAAGCCTATGACCGTAAAGGAAAACCGTTTATTTTAGAAGCGGAGGGTTTTTTGGCCAGAGCCGTTCAGCATGAAATGGATCATTTAGACGGCATTTTATTCACATCAAAAATTACGGCTTACTACACTGAAGAAGAACTGGCAGAAATGGAAGGATGA	MAVKKIVTHPAEVLETPAEEVTVFDKKLKKLLDDMYDTMLEMDGVGLAAPQIGILKRAAVVDIGEESGRIDLVNPVILEKSGEQTGVEGCLSFPGVYGDVTRPDYVKVKAYDRKGKPFILEAEGFLARAVQHEMDHLDGILFTSKITAYYTEEELAEMEG	PGPT0008125_42	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-12_00750	936	fmt	COG0223	Methionyl-tRNA formyltransferase	ATGGGAACGCCCGACTTTTCAGTTCCCGTCCTGCGCACGCTTATTGAAGACGGATATGAAGTGGTTGGTGTCGTTACGCAGCCTGACCGCCCGAAAGGCAGAAAAAAAATCATGACGCCCCCTCCTGTAAAGGCTGAAGCTGAACGTCACGGCATTCCCGTGCTTCAGCCCGAAAAAGTAAGGCTCGAAGAAGAAATAGAAAAAGTGCTCAGCCTGAAGCCGGACCTGATTGTTACGGCGGCATTCGGACAGATCCTCCCCAAGCAGCTGCTGGACGGCCCGAAATACGGCTGTATCAACGTACACGCGTCACTATTGCCTGAATTAAGAGGCGGAGCGCCGATACATTATTCGATTCTCCAAGGCAAGAAGAAAACGGGCGTGACGATCATGTATATGGTTGAAAAGCTTGATGCGGGCGATATGATTTCTAAAATCGAAGTGGAAATTGATGAAACGGATAACGTCGGCACGCTTCACGACAAATTAAGCATAGCGGGGGCAAAGCTTTTGTCAGAGACCGTTCCGAACGTCATTTCCGGGAATATTAAACCGATCAAACAGGACGAATCAAAAGCGACTTACGCGCCTAACATTAAGCGTGAGCAGGAGCTGATTGATTGGGCAAAGCCCGGAGAAGAGATTTACAACCAGATCAGAGGTTTAAACCCTTGGCCTGTCGCCTATACAACTTTGAACGGTCAAAATATTAAAGTATGGGCTTCTGAAAAAGTTGCGGCAAAAACTGAAGCTGCGCCCGGAACAGTCATCCGCACGGAGCAAAACGGCATTGTCGTCGCATCAGGAAACAGCACAGCCCTTTTAATCACTGAGCTGCAGCCGGCGGGAAAAAAACGGATGAAGGGCGAAGATTTTGTAAGAGGCAAAAATGTGCAGCTCGGTGACGTGTTAGGAGAAGCAAATGAAGAAAATTAA	MGTPDFSVPVLRTLIEDGYEVVGVVTQPDRPKGRKKIMTPPPVKAEAERHGIPVLQPEKVRLEEEIEKVLSLKPDLIVTAAFGQILPKQLLDGPKYGCINVHASLLPELRGGAPIHYSILQGKKKTGVTIMYMVEKLDAGDMISKIEVEIDETDNVGTLHDKLSIAGAKLLSETVPNVISGNIKPIKQDESKATYAPNIKREQELIDWAKPGEEIYNQIRGLNPWPVAYTTLNGQNIKVWASEKVAAKTEAAPGTVIRTEQNGIVVASGNSTALLITELQPAGKKRMKGEDFVRGKNVQLGDVLGEANEEN	PGPT0008125_2012	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-12_00751	1344	rsmB	COG0144	Ribosomal RNA small subunit methyltransferase B	ATGAAGAAAATTAATGTCCGGGAGCTCGCCCTCGAAGCGCTTGAGAAGCTTGAGCAAAATCAGGCATACAGCAACCTGCTTCTTACATCGGTTATCAAAACGAACACGCTCAGCGATCAGGACAGAGGGCTGCTGACAGAGCTTGTCTACGGAACGCTGCAAAATAAAATCGCCTTAGACTTTATGCTGAAGCCTTTTATCCGCAAGCCGAATAAGGTGAAGCCGTGGGTGATTCAGCTGCTTCGTCTGTCCGCGTATCAAATGGAGTATTTAGAAAAAATTCCGGATCGCGCCGCCATCCATGAAGCGGTTGAAATCGCCAAAAAACGCGGGCATAAGGGCATTGCGTCCTTTGTCAACGGCATCCTCCGCTCCCTGCAGCGTGAGGGGGCGCCGTCATTCGCTGAAATTGAAGACCCGGTTCTCCGTCTTTCTACAGAGACAAGCCATCCCGAATGGCTCGTAAAAGAGTGGGTCGAGGCGTACGGCTTTGAGGCGGCTGAAAAGATCTGCCGGATTCATCTCATTCCGCCGAAGCAGACGCTCCGTGTCAATCACATAAAGAGCGACAGGGAAACGGTGCTGAATGAGATGGAGAATGCCGGTCTGGAAGCAGAAGCCGGAGACCTTTCTCCTGATGCGATTAAGCTTTTAAAAGGAAGCATCGCGAACACGGCATTTTTCCAAAACGGCCGGGTATCCATACAGGATGAAAGCTCAATGCTTGTCGCGCGGGCGCTGGACCCGAAGCCGGGCGAAACCGTTTTAGACGCATGCGCCGCACCGGGCGGAAAGTCGGCTCACATTGCGGAACTGATGGAGAACGAGGGGAGCCTCACATCGCTTGATCTTCACCGCCATAAAGTGAAGCTGATTAAAGAGGGCGCAGAACGGCTCGGACTTACGATCATCGACGCACAAACGATGGATGCGCGAAAAGCGGGAGAGGCCTTTGGCGCAGAACGGTTTGACCGTATTCTCGTTGATGCCCCTTGCTCAGGTTTCGGCGTCATCAGAAGAAAACCCGATATGAAATATACGAAGACGCCGGAGGACAGCAGACGGCTGTCAGAAATCCAGCTCGGCATTTTAAGGGAAATCGCCCCATTAGTAAAAAAAGGTGGCACACTCGTATACAGTACGTGTACAATGGACCGGACAGAAAATGAAGAAGTTATGCATGCGTTTATACAAGAACACCCTGAGTTTGAACCCGATTTGTCTCTTGAAAAGCGGCTGCCTGAAAAGGCGAGACCCTTTGTTCAGGATGGAAGCCTTCAAATTCTTCCGCATTTTTTCGGAACAGACGGTTTCTTTATTAGCAGCATGAGAAAGAAGGGATAA	MKKINVRELALEALEKLEQNQAYSNLLLTSVIKTNTLSDQDRGLLTELVYGTLQNKIALDFMLKPFIRKPNKVKPWVIQLLRLSAYQMEYLEKIPDRAAIHEAVEIAKKRGHKGIASFVNGILRSLQREGAPSFAEIEDPVLRLSTETSHPEWLVKEWVEAYGFEAAEKICRIHLIPPKQTLRVNHIKSDRETVLNEMENAGLEAEAGDLSPDAIKLLKGSIANTAFFQNGRVSIQDESSMLVARALDPKPGETVLDACAAPGGKSAHIAELMENEGSLTSLDLHRHKVKLIKEGAERLGLTIIDAQTMDARKAGEAFGAERFDRILVDAPCSGFGVIRRKPDMKYTKTPEDSRRLSEIQLGILREIAPLVKKGGTLVYSTCTMDRTENEEVMHAFIQEHPEFEPDLSLEKRLPEKARPFVQDGSLQILPHFFGTDGFFISSMRKKG				NA	NA	NA	NA	NA
D1-12_00752	1092	rlmN		putative dual-specificity RNA methyltransferase RlmN	ATGACACAATTAAAAAAGACAAGCGTACGGAAAGAGCTGCGGACTGAGCAGCCGTCCATTTACTCTTTTGAATTAGATGAAATCAAACAATGGCTGACTGAGAATGGCGAAAAGCCGTTCCGCGCGGCACAGATTTTTGAATGGCTCTATGAAAAGCGGGTTTCTTCATTTGATGAAATGACAAACCTCTCAAAAAGCCTGCGTGAAAAACTCGAGAGCCATTTTGTGCTGACAACGCTGAAAACGGCTGTAAAACAGACATCTCAAGACGGCACGATGAAATTTTTATTTGAGCTTCATGACGGTTATACGATCGAAACGGTTTTAATGAGACACGAGTATGGTAATTCTGTATGTGTAACGACACAGGTCGGCTGCCGGATCGGCTGCACATTTTGCGCGTCAACGCTCGGCGGACTGAAACGGAATCTTGAAGCGGGAGAAATCGTCGCTCAAGTCGTGAAAGTGCAAAAGGCGCTTGATGAAACGGATGAACGCGTCAGCTCAGTCGTGATCATGGGAATCGGAGAGCCGTTTGATAATTTCAATGAAATGCTCGCTTTCTTGAAAATCATTAACCACGATAAAGGGCTGAACATCGGAGCGCGTCATATCACAGTTTCCACCAGCGGAATCATTCCGAAGATTTACGATTTCGCCGATCAAAAAATGCAGATCAATTTCGCGATTTCTCTGCATGCTCCGAATACGGAAATCAGAAGCCGTCTGATGCCGATTAACAAAGCCTATAAGCTTCCTGACCTTATGGAGGCCGTCAAATATTACATCGAGAAAACAGGCAGACGGATCAGCTTTGAATACGGGCTGTTCGGCGGCGTAAATGATCAGGTCGAACATGCAGAAGAGCTTGCAGAACTGTTAAAAGACGTGAAATGCCATGTCAATTTAATTCCGGTAAACTATGTGCCTGAACGGGATTACGTCCGCACACCGAGAGATCAGATTTTCGCATTCGAAAAAACGTTAAAATCCCGCGGTGTAAATGTCACGATCAGAAGAGAGCAAGGCCATGACATTGACGCGGCCTGCGGTCAGCTTCGCGCGAAGGAGCGTCAAGACGAGACGAGGTGA	MTQLKKTSVRKELRTEQPSIYSFELDEIKQWLTENGEKPFRAAQIFEWLYEKRVSSFDEMTNLSKSLREKLESHFVLTTLKTAVKQTSQDGTMKFLFELHDGYTIETVLMRHEYGNSVCVTTQVGCRIGCTFCASTLGGLKRNLEAGEIVAQVVKVQKALDETDERVSSVVIMGIGEPFDNFNEMLAFLKIINHDKGLNIGARHITVSTSGIIPKIYDFADQKMQINFAISLHAPNTEIRSRLMPINKAYKLPDLMEAVKYYIEKTGRRISFEYGLFGGVNDQVEHAEELAELLKDVKCHVNLIPVNYVPERDYVRTPRDQIFAFEKTLKSRGVNVTIRREQGHDIDAACGQLRAKERQDETR				NA	NA	NA	NA	NA
D1-12_00753	762	prpC	COG0631	Protein phosphatase PrpC	TTGATTACAGCCTTGAAAACAGATACAGGTAAAGTCCGCCGGCATAATGAAGATGCGGCGGGCATTTTCACAAAAGAAGACGCGGTGCTTGCGGTTGTCGCCGACGGCATGGGCGGTCATCTTGCCGGAGATGTAGCGAGCAGGATGGCGGTTGCGGCGATGGAAGAGCAGTGGAACCGGACCGAAACGGTTCCTTCTCTGCCGTCTGCTTGCGAGGATTGGCTGAAAGACCGGATTCATGAGGCGAATGTCAAAGTACATGACCACGCTAAAGCGAATGAAGAATGCCGGGGAATGGGCACCACCGTTGTTTGCGCCTTATTCACCGGGAAGTTTGTCACTGTGGCTCATATCGGTGACAGCCGGTGCTACCTGCTTCAAGAGGGGGAATTCACTCAGCTGACTGAGGACCATTCGCTTGTGAATGAGCTGGTCAAGACGGGGGAAATTTCGAAAGAGGACGCCGAGCACCATCCGCGGAAAAATGTATTGACGAGAGCGCTGGGGACAGATGAAACCATCAGTCCCGACGCCCGTTCTTTTGAACTGTCTGACGGCGATCAGCTGCTTTTATGCTCTGACGGACTGTCAAATAAAATAGAAGATCACGAGATCAAACAAATGCTTCAAGCCGAATCTGATCCTCAGGAAAAAGTAGACCTTCTCATCAGCAAAGCGAATCAAAACGGCGGCGAAGATAACATCACGGCTGTGTTGATTGAGTTTTCCGCAGATGCAAAAGAGGGTGAAGACAAGTGCTAA	MITALKTDTGKVRRHNEDAAGIFTKEDAVLAVVADGMGGHLAGDVASRMAVAAMEEQWNRTETVPSLPSACEDWLKDRIHEANVKVHDHAKANEECRGMGTTVVCALFTGKFVTVAHIGDSRCYLLQEGEFTQLTEDHSLVNELVKTGEISKEDAEHHPRKNVLTRALGTDETISPDARSFELSDGDQLLLCSDGLSNKIEDHEIKQMLQAESDPQEKVDLLISKANQNGGEDNITAVLIEFSADAKEGEDKC	PGPT0030420_602	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
D1-12_00754	1944	prkC	COG0515	Serine/threonine-protein kinase PrkC	GTGCTAACCGGCAAGCGGATCAGCGGGCGTTATCATATCCTCCGGCCCATTGGCGGCGGCGGAATGGCAAACGTTTTTTTAGCTGAGGACATCATTCTCGAACGTGAAGTCGCAATTAAAATTCTGCGGTTTGACTTTGTGAATGACATTGATTTTATCAGGCGTTTCAGAAGAGAAGCACAGTCGGCATCAAGCCTCGATCATCCGAATATCGTCAGTATTTACGATATCGGGGAGGAAGGCGATATTTATTACATTGTCATGGAATATGTGGAAGGCATGACATTAAAGGAATACATAACCGCACACGGGCCGCTTCATCCGAAAGAAGCGCTGTCCGTTATGGAGCAGATCGTCTCGGCCATCGCCCATGCCCATCAAAACCATATCGTGCACCGGGATATTAAACCGCACAATATATTGATAGATCATTTAGGGCATATCAAGGTGACGGATTTCGGCATCGCCACAGCGCTTACGTCTACGACAATCACACATACGAATTCTGTGCTAGGCTCGGTTCATTATTTGTCTCCGGAGCAGGCGAGAGGCGGTCTTGCAACGAAAAAATCAGATATTTACGCGCTCGGCATCGTGCTGTTTGAGCTTTTAACAGGTAAAATTCCTTTTGACGGAGAATCAGCCGTCAGCATAGCGCTAAAGCATCTGCAAACAGAAACGCCTTCCGCCAGAAAGTGGAACCCTTCCATTCCGCAGAGCGTCGAAAACATTATTTTAAAGGCAACCGCCAAAGACCCGTTTCACCGCTATGAAAGCGCCGAGGACATGGAAGCGGACATCAGAACGGCTTTTGACGCCGGCAGGCTGAATGAACAAAAATTTTCCGTTCAGGATGATGAGGAAATGACAAAAGCCATTCCCGTTATTACTGACGGCGCAAAAGCCGCGCCTCAGGCGGAAACGCCGGGGGAGACGGACGATAAGGAACAGCAGCCCGCCAAAAAGAAAAAACGGAAATGGCCGTGGGTTTTGCTGTCCGTCTGTTTCATTTTCATTATGGCGGCTGTTCTTGCGGTCACCGTGTTCCCGTCTTTGTTTATGCCTAAAGATGTAAGCGTCCCCGACGTACGGGGCATGAAGTACGAAAAAGCGGAAGCACTGCTTGAAAAGAACGGGCTCCGGGCGGATCCTGATATAACGGACATTGAAGATGACAAAATAGAAGAGGAATTAATGGTCAAAACGGACCCAAAAGCGGGGTCTACCGTTAAAGAAGGCTCTTCTGTAAAACTGTACAAAAGCATCGGAAAACCGAAAACCCAGCTGATCGACGTGAAAGGGCGGCAGATCGGCGACGCAAAAAAAGCGCTGAAGGAAAAAGGCTTCAAACATGTCAATGTTAAAGAAGAGAACGATGACAGCGAGGCCGGCACCGTAATTGATCAGGACCCGTCAGCCGGCACCGACATGGTCGCAAGCGACGATGAAGTCAATCTAACGGTCAGCCTCGGCCCGGCGGACGTTACGCTGAGGGACTTAAAGACTTACAGCAAGGAAGCGGCTTCAGGGTATCTTGAAGATAACGGCCTGCAGCTTGTTGAAAAACAAGCCCATTCAGATGACGTGCCAAAAGGACAAGTCATGAAGCAAGAGCCGGCAGCCGGCACTGCGGTTAAGCCGGGAAGTAATGTTGAAGTGACGTTCTCGCTCGGACCTGAAGAAAAACCGGCGAAAACGGTAAAAGAAAAAATCAGCATTCCTTACGAACCCGAACATGAAGGGGACGAGCTTGAAGTGCAAATCGCCATCGATGATAAGGACCACAGCATCTCTGATACGTATGACTCATTTAAAATAAAAGAGCCGACTGAAAAAACAATTGAACTGAAGATTGATCAGGGACAGAAGGGGTATTACCAAGTGATGGTCGATCATAAAGTCGTCAGCTACAAAACGATTGAATACCCGAAAGATAATGACTGA	MLTGKRISGRYHILRPIGGGGMANVFLAEDIILEREVAIKILRFDFVNDIDFIRRFRREAQSASSLDHPNIVSIYDIGEEGDIYYIVMEYVEGMTLKEYITAHGPLHPKEALSVMEQIVSAIAHAHQNHIVHRDIKPHNILIDHLGHIKVTDFGIATALTSTTITHTNSVLGSVHYLSPEQARGGLATKKSDIYALGIVLFELLTGKIPFDGESAVSIALKHLQTETPSARKWNPSIPQSVENIILKATAKDPFHRYESAEDMEADIRTAFDAGRLNEQKFSVQDDEEMTKAIPVITDGAKAAPQAETPGETDDKEQQPAKKKKRKWPWVLLSVCFIFIMAAVLAVTVFPSLFMPKDVSVPDVRGMKYEKAEALLEKNGLRADPDITDIEDDKIEEELMVKTDPKAGSTVKEGSSVKLYKSIGKPKTQLIDVKGRQIGDAKKALKEKGFKHVNVKEENDDSEAGTVIDQDPSAGTDMVASDDEVNLTVSLGPADVTLRDLKTYSKEAASGYLEDNGLQLVEKQAHSDDVPKGQVMKQEPAAGTAVKPGSNVEVTFSLGPEEKPAKTVKEKISIPYEPEHEGDELEVQIAIDDKDHSISDTYDSFKIKEPTEKTIELKIDQGQKGYYQVMVDHKVVSYKTIEYPKDND				NA	NA	NA	NA	NA
D1-12_00755	891	rsgA	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGCCTGAGGGCAAAATTATAAAAGCGTTAAGCGGATTCTATTATGTCTTGGATGAATCACAGGACAAGATCATTCAATGCAGGGGCCGGGGCATTTTCAGAAAAAATAAAATAACGCCTCTGGTCGGCGATTATGCCGTTTATCAGGCTGAAAATGATAAAGAAGGCTACTTGCTGGAAATCAAAGAACGAACAAACGAGCTGATCAGGCCGCCGATTTCAAATGTCGATCAGGCCGTTCTCGTCTTTTCTGCCGTTCAGCCGGCGTTCAGCACGTCTTTATTGGACCGTTTTCTCGTCCTTGTGGAAGCCAACGGCATTCACCCGATCATCTGCATAACCAAAATAGACTTAGCTGCAGACGGGGAATCGAAAGAGGCGATACTTTCTTACGTGAAAGACTATCAGGGGATCGGTTATGACGTATATGTGACGTCATCAAAAGAAAACAGCGGTTTAACAGGCATTGTGAAACACTTCGAGAACAAAACGACGGTGTTTGCCGGTCAGTCGGGAGTCGGAAAATCTTCGCTTTTAAATGCGATCAGCCCGGAGCTTGAGCTGAAAACAAACGAGATTTCCGCGCATTTGGGACGCGGAAAACATACGACGCGCCATGTGGAGCTCATTCATACATCAGGCGGTCTGGTGGCGGATACTCCGGGGTTCAGTTCGCTTGAATTTACCGGCATTGAGGAAGATGAGCTGGGCAGCACGTTCCCTGAGATCAGAGAAATAAGCGCCTCTTGCAAATTCAGAGGCTGTCTGCATCTTAAGGAGCCGAAATGCGCGGTAAAGCAAGCGGTGGAAGAAGGAGAGATTCAGCCGTACCGCTATGAGCATTACAAAGAATTTATGCAGGAAATAAAAGAGAGAAAGCCGAGGTATTAA	MPEGKIIKALSGFYYVLDESQDKIIQCRGRGIFRKNKITPLVGDYAVYQAENDKEGYLLEIKERTNELIRPPISNVDQAVLVFSAVQPAFSTSLLDRFLVLVEANGIHPIICITKIDLAADGESKEAILSYVKDYQGIGYDVYVTSSKENSGLTGIVKHFENKTTVFAGQSGVGKSSLLNAISPELELKTNEISAHLGRGKHTTRHVELIHTSGGLVADTPGFSSLEFTGIEEDELGSTFPEIREISASCKFRGCLHLKEPKCAVKQAVEEGEIQPYRYEHYKEFMQEIKERKPRY	PGPT0009020_4005	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
D1-12_00756	651	rpe		Ribulose-phosphate 3-epimerase	ATGATTAAGGTTGCGCCATCAATTCTTTCCGCCGATTTTGCTTCACTGGGCGAGGAAATTAAAGACGTGGAAAAAGGAGGGGCGGACTATATCCATATTGATGTCATGGATGGCCATTTCGTCCCTAACATTACAATCGGGCCGCTTATCGTTGAAGCCGTCCGTCCGGTGACTGATCTGCCGCTGGATGTCCATCTTATGATTGAAAACCCGGACCGCTACATACCGGCATTCGCAAAAGCCGGCGCGGACATCCTTTCCGTTCATGCTGAAGCGTGTCCGCATCTTCACCGGACCATTCAATTGATAAAAGAGCAGGGGGTAAAAGCGGGAGTTGTGCTCAATCCGCATACGCCCGTCCAAATGATTGAACATGTGATCGAGGAACTTGACCTTGTGCTGTTAATGACGGTTAACCCCGGTTTTGGCGGCCAGCGCTTCATTCATTCGGTTCTGCCGAAAATCCGTCAGGTCAAACAGCTGGCTGAGGAGAAAGGCCTGTCTGAGCTTTTAATCGAGGTGGACGGAGGCGTTAATAAAGAAACAGCCCCTTTATGCGCTGAAGCGGGCGCCAATCTGCTTGTTGCCGGGTCTGCCGTATATAATCAGCCGGATCGGAAAAAAGCCATCGCTGACATCCGAAACGCGTAA	MIKVAPSILSADFASLGEEIKDVEKGGADYIHIDVMDGHFVPNITIGPLIVEAVRPVTDLPLDVHLMIENPDRYIPAFAKAGADILSVHAEACPHLHRTIQLIKEQGVKAGVVLNPHTPVQMIEHVIEELDLVLLMTVNPGFGGQRFIHSVLPKIRQVKQLAEEKGLSELLIEVDGGVNKETAPLCAEAGANLLVAGSAVYNQPDRKKAIADIRNA	PGPT0017425_4789	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
D1-12_00757	645	thiN	COG1564	Thiamine pyrophosphokinase	ATGAAGACAATCAATATCGTTGCGGGCGGCCCGCGGGAACTTATTCCCGATCTATCCGAATACACAGACGGAGATACGACGTGGGTCGGAGTCGATAAAGGGACGGTTTCTCTTTTGGAAGCCGGAATCATTCCGCAGGAAGCTTTCGGTGATTTTGACAGCATTACGGAAGAGGAGCTCATGCAGATTCAAAAAGCGGCGCCGGCCCTCCATGTGTATCAGGCGGAAAAAGATTATACCGATCTTGAAATCGCCCTTGACTGGGCTTTACAAAAAGAACCGGAAACCATTCGGATGTTCGGTGTGACGGGCGGAAGAGCCGATCACTTTTTAGGGAACATCCAGCTGCTGTATAAAGCCTTACACAAGAATACCGATGTCGAGCTGATCGACCGGCAGAATGACATTCAGATGTTCGGGCCCGGCCGTTATACAATTGAAGAAAAAGCGCGCAGACGCTATATTTCTTTCATTCCGTTTACGGAAGCGGCAGACGGCCTGACACTCGACGGTTTTAAATATCCCCTTGATAATTGTCATATTCCTCTGGGTTCCACACTATGTATTAGTAACGAACTCATTCATTCACGAGGTACTTTTTCGTTTGCAAAAGGCATATTAATAATGGTAAGGAGCGCGGATTAA	MKTINIVAGGPRELIPDLSEYTDGDTTWVGVDKGTVSLLEAGIIPQEAFGDFDSITEEELMQIQKAAPALHVYQAEKDYTDLEIALDWALQKEPETIRMFGVTGGRADHFLGNIQLLYKALHKNTDVELIDRQNDIQMFGPGRYTIEEKARRRYISFIPFTEAADGLTLDGFKYPLDNCHIPLGSTLCISNELIHSRGTFSFAKGILIMVRSAD	PGPT0009035_1341	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009035-thiN|TPK1|THI80-K00949	NA	NA
D1-12_00758	189	rpmB	COG0227	50S ribosomal protein L28	ATGGCACGTAAATGTTTTATTACAGGTAAAAAAACAAAAGCCGGAAACAACCGTTCTCACGCAATGAACGCTTCTAAGCGTACTTGGGGCGCCAACCTTCAAAAGGTCCGCATCCTCGTTGACGGCAAACCTAAAAAAGTGTATGTATCTGCCCGGGCTTTAAAATCCGGTAAAGTTGAGCGTGTATAA	MARKCFITGKKTKAGNNRSHAMNASKRTWGANLQKVRILVDGKPKKVYVSARALKSGKVERV				NA	NA	NA	NA	NA
D1-12_00759	363			putative protein	GTGTCCATTGAAATGAAGACAAAATACGGACAGATTGATATATCCAACGAAGTCATCGCAATGGTTGCCGGAGGCGCTGCCATTGACTGTTACGGAATAGTGGGGATGGCCTCAAAAAACCAGATTAAAGACGGTTTGTCTGAAATCCTCCGGAGAGAGAACTTCGCAAAAGGCGTACATGTCCGTCAGGAAGCCGAACAAATACATATCGACATGTACATTATTGTCAGCTACGGCACTAAAATATCCGAAGTAGCCCACAATGTTCAGACGAAGGTAAAATACACAGTAAATCAAACAATCGGACTTGCAGTTGATTCTGTAAATATTTATGTCCAAGGCGTACGAGTAACGAACCCGTAG	MSIEMKTKYGQIDISNEVIAMVAGGAAIDCYGIVGMASKNQIKDGLSEILRRENFAKGVHVRQEAEQIHIDMYIIVSYGTKISEVAHNVQTKVKYTVNQTIGLAVDSVNIYVQGVRVTNP				NA	NA	NA	NA	NA
D1-12_00760	1668			putative protein	TTGTCTAGACGAAACTTAGATGGGAGAGCTTTTGCGGCAATGATTCTGGCGGGGGCTGAGACATTGTCTCAAAACGCATCCGCGGTGGATGCGCTGAACGTGTTTCCCGTGCCTGACGGCGATACCGGAACAAATATGAATTTATCGATGTCATCCGGTGCAAGAGAGGTAGAGCACATTGACTCACCCGACATCGGCAAAGTCGGCATCGCCCTGTCAAAAGGCCTGCTTATGGGAGCGAGAGGAAACTCAGGGGTGATCTTGTCCCAATTGTTCAGAGGTTTCACAAAGAGCATTGAAAACAAAAACCAAATAGACGCCCAAGAATTTGCCGCAGCACTCCAAGCGGGAGTGGATATGGCATATAAGGCGGTCATGAAACCGGTTGAAGGAACGATTTTAACCGTGGCTAAGGATGCGGCTAAAAAAGCGGTCGCCTCGGCCAAAGAAGAAACCGATATTATTTCGGTCATGGAGGCCGTTATTGAAGAAGCGGAAGCGTCGCTCAACCGCACGCCGGATCTGCTTCCTGTTTTAAAGGACGTCGGTGTCGTTGACAGCGGCGGAAAAGGTCTGCTTTGTGTATATGAAGGCTTTTTGGCTGCTTTAAAAGGAGAGGCCGTACCGAAAAAAGCGGTTCTTCCGGCACTCGATGATATGGTGAATGCCGAGCATCATAAAAGCGCGCAGAGCATGCTGAGTACAGAAGACATTGAATTCGGATTTTGTACGGAAGTGATGGTGAGGCTGGATCAAGATAAACGGACGTTCAAGGAAGAGACGTTCAGAAACGAACTGAGCCGTTTCGGCGATTCACTGCTGGTCGTGGCTGATGATACGCTGGCGAAAGTCCATATTCATGCCGAAGAACCAGGGAACGTGCTCAATCTCGCACAGCGTTACGGCGATTTGATTAAAATTAAAATTGAAAACATGAGGGAACAGCATACTTCAATCATCAGCCAAGAACATGATGAAAAAAAGCCGGCCGGCGTTATGAAAGAAGCCCGCAAGCCTTTTGGCATCGTGACTGTGGCAATGGGAGAGGGCATTTCTGAATTGTTTACGAGCATCGGCGCTTCACACGTAATCGAAGGCGGTCAGACAATGAATCCGAGCACGGAAGATATTGTTGAAGCCGTTCAGTCTGTCAATGCGGAGACGGTTTTCATTCTTCCGAACAATTCCAATATTGTGATGGCTGCCAATCAGGCGGCGAGCGTGGCTGAAGAAAATGTCATTGTCATTCCGGCAAAAACGGTCCCTCAAGGCATGACCGCCCTGCTTGCGTTTAACCCTGACCAGCCGGCTGACGTAAATGAAGCCAATATGCTTGAGGCCATCCGGAATGTGAAAAGCGGACAGGTGACATATTCAGTCAGAGACACCCATATTGACGGCAAAGATATTAAAAAAGGTGATTTTATCGGCATTTTAAACAGTTCAATTATCGGCAGCGCCGAAGATCGGATAAGTGCGGCGAAATTGCTGCTGGATGAAATGATCGGGGAAGAAGATGAAATTGTCACCATCTTGTACGGAGAGGACGCGCCGGAAGAAGAAGCTGAGAAACTCGCTGAGTATATTGCTAGCGTCTGTGAAGATATCGAGGTTGAAATCCATAACGGCAGACAGCCTCTGTATCCATATATATTTGCGGCAGAATAG	MSRRNLDGRAFAAMILAGAETLSQNASAVDALNVFPVPDGDTGTNMNLSMSSGAREVEHIDSPDIGKVGIALSKGLLMGARGNSGVILSQLFRGFTKSIENKNQIDAQEFAAALQAGVDMAYKAVMKPVEGTILTVAKDAAKKAVASAKEETDIISVMEAVIEEAEASLNRTPDLLPVLKDVGVVDSGGKGLLCVYEGFLAALKGEAVPKKAVLPALDDMVNAEHHKSAQSMLSTEDIEFGFCTEVMVRLDQDKRTFKEETFRNELSRFGDSLLVVADDTLAKVHIHAEEPGNVLNLAQRYGDLIKIKIENMREQHTSIISQEHDEKKPAGVMKEARKPFGIVTVAMGEGISELFTSIGASHVIEGGQTMNPSTEDIVEAVQSVNAETVFILPNNSNIVMAANQAASVAEENVIVIPAKTVPQGMTALLAFNPDQPADVNEANMLEAIRNVKSGQVTYSVRDTHIDGKDIKKGDFIGILNSSIIGSAEDRISAAKLLLDEMIGEEDEIVTILYGEDAPEEEAEKLAEYIASVCEDIEVEIHNGRQPLYPYIFAAE				NA	NA	NA	NA	NA
D1-12_00761	663	sdhB		L-serine dehydratase, beta chain	ATGAAGTATAGAAGCGTTTTTGATATTATCGGCCCGGTAATGATCGGTCCGTCCAGTTCACATACCGCAGGCGCCGCCCGGATCGGCAGAGTGGCCAGAAGCCTATTCAGGCGGGAGCCCCGCCGGATCATTGTGTCTTTTTACGGATCATTTGCGGAGACGTATAAGGGTCACGGCACTGATGTCGCGATTATCGGCGGCCTGCTTGATTTTGATACATTTGATGAACGGATTAAAACAGCGATTCAAATTGCGGAAGAGAAGGGCATATATGTAGAGTTCCGTACAGAGGATGCCGTGCCCGTTCATCCGAATACGGCGCGTATCGTCATTTCTGATGATGAGGGAGAGCTTGCCCTTACCGGTATTTCCATCGGCGGCGGAAAAATAGAAATCACGGAGCTCAACGGCTTTGAGCTGCGTCTTTCCGGAAACCATCCGGCTATTTTAGTCGTTCACAATGATAAATTCGGCACGATTGCAGGCGTCGCCAATGTGCTGGCGAAATTCTCCATCAACGTCGGACATATGGAAGTGGCGCGTAAGGACGTCGGCCAGCTAGCGCTGATGACGATTGAGGTCGATCAGAATATTGAAGAAGAAGTGCTTGACGAGCTTTCAACACTTCCTAATATTATACAGGTTACTAAGATAGCTGACTAA	MKYRSVFDIIGPVMIGPSSSHTAGAARIGRVARSLFRREPRRIIVSFYGSFAETYKGHGTDVAIIGGLLDFDTFDERIKTAIQIAEEKGIYVEFRTEDAVPVHPNTARIVISDDEGELALTGISIGGGKIEITELNGFELRLSGNHPAILVVHNDKFGTIAGVANVLAKFSINVGHMEVARKDVGQLALMTIEVDQNIEEEVLDELSTLPNIIQVTKIAD	PGPT0001975_4908	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-12_00762	903	sdhA		L-serine dehydratase, alpha chain	ATGTTTCGTAATGTAAAAGAATTAATAGAAATCACTCAAGAAAAACAAATTCCGATTTCGGAAGTGATGATCACCCAAGAGATGGAAGTGACGCAAAAAACGCGGGAAGAAATCTTTCAAGGAATGGAGCGCAATCTCTCCGTCATGGAAGCAGCTGTTGAAAAAGGGCTGAAGGGCGTCACGAGTCAGACCGGTTTAACAGGAGGGGATGCCGTGAAACTTCAGGCATACATCCAATCGGGAAGAAGCCTGTCGGGCAATCTGATTTTAGACGCCGTTTCTAAAGCTGTCGCGACAAATGAAGTCAATGCGGCCATGGGAACGATCTGCGCTACACCGACCGCCGGTTCTGCGGGGGTTGTGCCGGGAACGTTATTCGCCGTAAAGCATAAGCTGAACCCTACGACAGAACAAATGATCCGTTTTCTGTTTACAGCCGGCGCGTTCGGTTTTGTCGTAGCAAACAATGCGAGTATTTCAGGAGCGGCAGGAGGCTGTCAGGCGGAAGTCGGGTCAGCATCAGGCATGGCAGCGGCTGCGATTGTGGAAATGGCGGGCGGAACGCCTCAGCAATCAGCGGAAGCAATGGCGATTACACTGAAAAATATGCTCGGTCTCGTATGTGACCCGGTCGCCGGATTGGTAGAAGTGCCGTGTGTCAAACGAAACGCAATGGGAGCATCCAACGCAATGATCGCGGCGGATATGGCGCTGGCCGGGATTACAAGCCGCATTCCTTGCGATGAGGTGATTGACGCGATGTACAAAATCGGCCAGACAATGCCGACAGCACTGCGTGAAACGGGACAAGGCGGTTTAGCCGCGACACCGACGGGAAGAGAATTAGAGAAAAAAATTTTCGGAGGAGCGCTGAAATCAAGTGACACACCATCAGCAAACTAG	MFRNVKELIEITQEKQIPISEVMITQEMEVTQKTREEIFQGMERNLSVMEAAVEKGLKGVTSQTGLTGGDAVKLQAYIQSGRSLSGNLILDAVSKAVATNEVNAAMGTICATPTAGSAGVVPGTLFAVKHKLNPTTEQMIRFLFTAGAFGFVVANNASISGAAGGCQAEVGSASGMAAAAIVEMAGGTPQQSAEAMAITLKNMLGLVCDPVAGLVEVPCVKRNAMGASNAMIAADMALAGITSRIPCDEVIDAMYKIGQTMPTALRETGQGGLAATPTGRELEKKIFGGALKSSDTPSAN	PGPT0001975_3480	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-12_00763	2049	recG		ATP-dependent DNA helicase RecG	GTGACACACCATCAGCAAACTAGTATAGCGGAAATTAAGGGCATTGGGCCGGAAACAGAAAAAACATTGCACGAACTTGGTATCTATGACATTTCTGATCTTCTGAATTATTTCCCTTACCGTTATGACGACTATGAGCTGAGGGATTTAGAAGAAGTAAAACATGAAGAAAGAGTGACGGTAGAAGGGAAGGTTCATTCAGAACCTTCTCTTACCTATTACGGCAAAAAACGAAACAGGCTGACATTCAGGGTGCTTGTCGGCAATTATTTAATTACTGCGGTCTGCTTTAACCGTCCCTACTTAAAAAAGAAACTGACGTTAGGTTCAGTCGTCACGATATCCGGGAAATGGGATAAACACAGACAGACCGTTTCCGTGCAGGAATTAAAAAACGGTCCTCATCAAGAAGATAAAAGCATTGAGCCTGTTTATTCCGTTAAAGAAAACGTCACCGTAAAAATGATGAGACGGTTTATTAAGGAAGCGCTGCAGCATCATTTGGACAGTGCGGCCGATCCGCTTCCTGAAAAATTGAGAATCCGCTACAAGCTGCCTGATTACAAACATGCCCTGCAGACGATGCATCAGCCTGAAACGAGGGAATCGTTACAGCAGGCCAGGCGTCGGTTTGTTTACGAGGAATTCTTATTATTTCAGCTGAAAATGCAGGCGTTCCGTAAAGCGGAAAGGGAACAGTCAAAAGGCATCAGCCATGTGTTTCCTGCTGAAAAGCTCGCCGCTTTCACAGACAGTCTGCCGTTTTCGCTCACAACCGCACAGACGCGCGTGCTTCGGGAAATTACCGCTGATATGACATCCCCTTACCGAATGAACCGTCTGCTGCAAGGTGATGTCGGTTCAGGGAAAACAGCCGTCGCCGCCATCGCTTTGTACGCTGCGATTCTGTCGGGGTATCAGGGGGCATTAATGGTGCCGACTGAAATTCTGGCCGAACAGCATGCGGATTCTCTCGTATCGTTGTTTGCAAATGAAGATGTAAATATCGCGCTTTTGACGAGTTCTGTAAAAGGAAAGCGGCGCAGGGAGCTTTTGGAGCGGCTTGCTCTCGGAGAGATTGATATTTTAGTAGGGACCCATGCTTTAATCCAGGACGAAGTGGAATTTAAAGCGCTGAGCCTTGTCATTACGGACGAGCAGCACAGGTTCGGAGTCGAACAGCGCAAAAAACTCAAGAATAAAGGTCAGGATCCGGATGTGCTGTTTATGACAGCCACCCCGATTCCGAGAACGTTGGCCATTACCGTCTTCGGAGAAATGGATGTTTCCGTGATAGATGAAATGCCCGCGGGGCGAAAACAAATCGAAACGTATTGGGTGAAACACGACATGCTGGAGCGGATTTTGGCTTTTATAGAAAAAGAGCTGAAACAGGGAAGGCAAGCCTATATTATCTGCCCGCTCATTGAAGAGTCGGATAAACTGGATGTACAGAATGCGATTGACGTATATAACATGCTGTCTGACGTTTACCGCGGTAAATGGAATGTCGGCCTGATGCACGGGAAGCTCCATTCTGATGAAAAAGATCAGGTGATGAGAGAATTCAGCGCCAATCAATGTCAGGTACTTGTGTCAACAACCGTCGTAGAAGTCGGGGTGAACGTGCCGAATGCGACGATTATGGTCATCTATGACGCCGACCGTTTCGGATTATCTCAGCTTCATCAGCTCCGCGGCCGGGTCGGGCGGGGAGACCACCAATCTTTCTGTATCTTGATGGCCGATCCGAAATCCGAAACCGGGAAGGAACGGATGAGAATCATGTCAGAGACAAACGACGGCTTCGAGCTGTCTGAAAAGGACCTTGAACTGCGCGGCCCCGGGGATTTCTTCGGAAAAAAACAGAGCGGTATGCCCGAGTTCAAGGTGGCGGATATGGTTCATGACTACAGAGCTTTGGAGACGGCCCGCCAGGATGCGGCCAATCTGGTGTCTTCAGAGGCTTTTTGGAAAGATGACGAATACCGCATGCTGCGCGGCCAATTACTTTCAAGCGGCGTCCTAGAAGGGGAGAAATTAAGCTGA	MTHHQQTSIAEIKGIGPETEKTLHELGIYDISDLLNYFPYRYDDYELRDLEEVKHEERVTVEGKVHSEPSLTYYGKKRNRLTFRVLVGNYLITAVCFNRPYLKKKLTLGSVVTISGKWDKHRQTVSVQELKNGPHQEDKSIEPVYSVKENVTVKMMRRFIKEALQHHLDSAADPLPEKLRIRYKLPDYKHALQTMHQPETRESLQQARRRFVYEEFLLFQLKMQAFRKAEREQSKGISHVFPAEKLAAFTDSLPFSLTTAQTRVLREITADMTSPYRMNRLLQGDVGSGKTAVAAIALYAAILSGYQGALMVPTEILAEQHADSLVSLFANEDVNIALLTSSVKGKRRRELLERLALGEIDILVGTHALIQDEVEFKALSLVITDEQHRFGVEQRKKLKNKGQDPDVLFMTATPIPRTLAITVFGEMDVSVIDEMPAGRKQIETYWVKHDMLERILAFIEKELKQGRQAYIICPLIEESDKLDVQNAIDVYNMLSDVYRGKWNVGLMHGKLHSDEKDQVMREFSANQCQVLVSTTVVEVGVNVPNATIMVIYDADRFGLSQLHQLRGRVGRGDHQSFCILMADPKSETGKERMRIMSETNDGFELSEKDLELRGPGDFFGKKQSGMPEFKVADMVHDYRALETARQDAANLVSSEAFWKDDEYRMLRGQLLSSGVLEGEKLS				NA	NA	NA	NA	NA
D1-12_00764	567	fapR	COG2050	Transcription factor FapR	ATGAGAAGAAGCAAGAAAGAACGCCAAAAATTATTGCAGCAGACGATCAAATCGACACCCTTCATCACAGATGAAGAATTAGCGGGGAAATTCGGCGTCAGCATTCAGACGATCCGTTTAGACCGCTTAGAGCTCTCAATACCGGAGCTGAGGGAAAGAATTAAAAACGTGGCAGAACAAACGCTTGATGATGAAGTGAAATCACTGTCTTTAGACGAAGTGATCGGTGAAATTATTGATCTGGAGCTTGACGGCCAGGCCATTTCCATATTAGAAGTAAGACGCGAACATGTCTTCAGCCGCAATCAAATTGCGCGGGGGCATCATTTGTTTGCGCAGGCGAACTCACTCGCCGTAGCCGTCATTGATGATGAGCTGGCGCTGACCGCAAGCGCAAATATCCGCTTTACAAGACAGGTGAAAGAAGGCGAGCGCGTCGTTGCGAAAGCCAAAGTGACGGCAGTCGAAAAAGAAAAAGGCAGAACGGTAGTTGAAGTCAACAGCTATGTGGGAGAAGAAGTCGTGTTCTCCGGCAGCTTTGACATGTACCGTTCAAAACAATCATAA	MRRSKKERQKLLQQTIKSTPFITDEELAGKFGVSIQTIRLDRLELSIPELRERIKNVAEQTLDDEVKSLSLDEVIGEIIDLELDGQAISILEVRREHVFSRNQIARGHHLFAQANSLAVAVIDDELALTASANIRFTRQVKEGERVVAKAKVTAVEKEKGRTVVEVNSYVGEEVVFSGSFDMYRSKQS				NA	NA	NA	NA	NA
D1-12_00765	999	plsX	COG0416	Phosphate acyltransferase	ATGAGAATAGCTGTAGATGCAATGGGAGGCGACAACGCACCCAAAGCTGTTATTGACGGAGTAATGAAGAGTATTGAGGCATTTGACGATCTTCATATTACGCTGGTCGGTGACAAGACAACGATAGAATCACACTTGCCAACAACATCAGACCGCATCACTGTGTTGCACGCCGATGAAGTGATTGAACCGACGGATGAACCGGTCCGCGCCGTACGCAGAAAGAAAAACTCTTCTATGGTGCTGATGGCGCAGGAAGTGGCTGAAAACAGAGCGGACGCCTGCATCTCAGCGGGGAATACAGGCGCACTCATGACAGCGGGACTGTTTATCGTCGGCAGAATTAAAGGAATCGACCGGCCTGCGCTTGCGCCGACGCTTCCGACCGTTTCAGGCGACGGTTTCCTTCTTTTGGACGTGGGAGCCAATGTCGATGCCAAACCGGAGCATCTCGTCCAGTACGGAATTATGGGATCTGTATATGCCCGGCAGGTTCTCGGAATCAGCTCGCCCCGCGTAGGATTGTTAAATGTCGGCACGGAAGAAAAGAAAGGAAACGACCTGACAAAAAAGACGTTTGAATTATTAAAAGAAACAAACGTGAATTTTGTCGGAAACGTTGAGGCGAGAGACTTGCTCGAAGGCGCTGCTGACGTCATCGTCACAGACGGCTTTACGGGCAACGTCACGTTGAAAACATTGGAAGGTTCAGCGTTATCGATTTTCAAAATGTTGAAAGATACACTGACTTCAAGTTTTGTTTCTAAGCTCGCAGCGGGAGTGCTGAAGCCGAAGCTGATGGAAATGAAACTGAAAATGGACTATTCTGAGTACGGCGGGGCGAGTCTTTTCGGTTTGAAAGCGCCCGTCGTTAAAGCGCACGGCTCTTCTGACGCACGCGCTGTTTACCATGCGCTGCGCCAGGCGAGAGAAATGGTCAGCCAAAACGTGGCCGCATTTATAGAAGAAGAAGTAAAAGAAGAAAAAACAGATGAGTAG	MRIAVDAMGGDNAPKAVIDGVMKSIEAFDDLHITLVGDKTTIESHLPTTSDRITVLHADEVIEPTDEPVRAVRRKKNSSMVLMAQEVAENRADACISAGNTGALMTAGLFIVGRIKGIDRPALAPTLPTVSGDGFLLLDVGANVDAKPEHLVQYGIMGSVYARQVLGISSPRVGLLNVGTEEKKGNDLTKKTFELLKETNVNFVGNVEARDLLEGAADVIVTDGFTGNVTLKTLEGSALSIFKMLKDTLTSSFVSKLAAGVLKPKLMEMKLKMDYSEYGGASLFGLKAPVVKAHGSSDARAVYHALRQAREMVSQNVAAFIEEEVKEEKTDE	PGPT0024410_2733	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
D1-12_00766	954	fabD		Malonyl CoA-acyl carrier protein transacylase	ATGAGTAAGATTGCATTTTTATTTCCCGGACAGGGATCACAATATATCGGTATGGGAAAAGACCTGTACGAACGCGAAGAAGCGTCAAAACGTATTTTTGATGAAGCGGATGAAACGCTTGAAACAAAGCTGAGCTCGCTCATTTTTGAAGGTGACGCCGAAGAATTGACCCTTACATACAATGCGCAGCCCGCGCTGTTGACAACGAGCATCGCCGTATTGGAAAAGTTTAAAGAATCCGGCATCACCCCTGATTTCACCGCCGGCCACAGCCTCGGAGAATATTCGGCGCTTGTTGCGGCGGGAGCGATGACATTTAAAGATGCCGTTTACACGGTAAGAAAACGGGGAGAATTCATGAATGAAGCCGTGCCGGCCGGAGAAGGCGCCATGGCAGCTATTCTCGGAATGGATGCAGAGTCCTTGAAAAAGGTAACGGATCAAGTGACGGAAAACGGTCATCTCGTACAGCTTGCAAACCTGAACTGCCCCGGCCAGATCGTAATTTCCGGAACGGCAAAAGGCGTGGAGCTGGCTTCAGAAGAAGCGAAAAACAACGGAGCAAAACGGGCAATCCCATTAGAAGTAAGCGGACCGTTCCATTCTGAATTAATGAAGCCGGCAGCGCAAAAACTCGAGGAGGTGCTCAGCGCCTGTGAGTTGAAAAATGCGGCTGTTCCCGTGATTTCAAACGTTTCGGCTGACGTTATGACAGAAAAAGACGATATCAAGAAAAAACTGATCGAACAGCTGTATTCACCTGTTCGCTTTGAAGAAACCATTAACAAACTGATTGACGAAGGTGTCACGACGTTTGTTGAAATCGGGCCCGGAAAAGTGCTTTCAGGCCTTGTGAAAAAAGTGAACCGCCGCCTTAAAACAATCGCGGTTTCTGACCATGAAACCATCGAACTGGCGATTCAAACGCTGAAGGAGGAGAATCAGGATGCTTAA	MSKIAFLFPGQGSQYIGMGKDLYEREEASKRIFDEADETLETKLSSLIFEGDAEELTLTYNAQPALLTTSIAVLEKFKESGITPDFTAGHSLGEYSALVAAGAMTFKDAVYTVRKRGEFMNEAVPAGEGAMAAILGMDAESLKKVTDQVTENGHLVQLANLNCPGQIVISGTAKGVELASEEAKNNGAKRAIPLEVSGPFHSELMKPAAQKLEEVLSACELKNAAVPVISNVSADVMTEKDDIKKKLIEQLYSPVRFEETINKLIDEGVTTFVEIGPGKVLSGLVKKVNRRLKTIAVSDHETIELAIQTLKEENQDA	PGPT0008350_1280	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
D1-12_00767	741	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCTTAATGAAAAAACAGCAGTGGTAACGGGAGCGTCCCGCGGAATCGGGCGGGCGATCGCGCTTGATCTTGCGAAAAACGGCTGTAACGTAGTAGTCAACTACTCCGGGAATGAAGCGAAAGCGAACGAAGTCGTAGATGAAATCAAATCTTTGGGCCGAAACGCGATCGCGGTAAAAGCCGATGTATCAAATTCCGAAGAAGTACAAAACATGATGAAAGAGGCTGTCGCTGCATTTTCTTCAATCGACATTCTCGTGAACAATGCGGGGATCACAAAAGACAATCTTCTGATGAGAATGAAAGAAAATGAATGGGATGATGTCATTAACATTAACCTAAAAGGTGTATTCAACTGCACGAAAGCCGTTACAAGACAGATGATGAAACAGCGCTCCGGCCGGATTATCAACGTATCATCAATCGTCGGCGTCAGCGGAAACCCCGGCCAGGCGAACTACGTGGCGGCAAAAGCCGGTGTAATCGGCTTAACGAAGTCATCAGCCAAAGAGCTTGCGAGCCGCAATATTACGGTTAATGCCATTGCTCCGGGCTTTATTTCCACGGATATGACGGACAAGCTTTCTAAAGAAGTCCAAGATGAAATGCTGAAGCAGATTCCGCTCGCGCGTTTCGGTGATCCTTCCGATATCAGCAGCGTTGTTACGTTCCTTGCTTCTGAAGGATCGCGTTATATGACGGGCCAAACCCTTCATATTGACGGCGGAATGGTGATGTAA	MLNEKTAVVTGASRGIGRAIALDLAKNGCNVVVNYSGNEAKANEVVDEIKSLGRNAIAVKADVSNSEEVQNMMKEAVAAFSSIDILVNNAGITKDNLLMRMKENEWDDVININLKGVFNCTKAVTRQMMKQRSGRIINVSSIVGVSGNPGQANYVAAKAGVIGLTKSSAKELASRNITVNAIAPGFISTDMTDKLSKEVQDEMLKQIPLARFGDPSDISSVVTFLASEGSRYMTGQTLHIDGGMVM	PGPT0003180_15974	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
D1-12_00768	234	acpA	COG0236	Acyl carrier protein	ATGGCAGATACATTAGAGCGTGTAACGAAAATCATCGTAGACCGCCTTGGCGTTGATGAAGCTGACGTCAAACTTGAAGCTTCTTTCAAGGAAGACTTAGGTGCTGATTCCCTAGATGTAGTTGAGCTTGTTATGGAACTTGAAGACGAGTTTGATATGGAGATTTCTGACGAAGATGCTGAAAAGATTGCAACAGTCGGCGACGCTGTGAACTACATACAAAACCAGCAATAA	MADTLERVTKIIVDRLGVDEADVKLEASFKEDLGADSLDVVELVMELEDEFDMEISDEDAEKIATVGDAVNYIQNQQ	PGPT0011375_6631	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
D1-12_00769	750	rnc	COG0571	Ribonuclease 3	ATGTCAAAACACTCACATTTTAAAGATAAAAAAAAGTTCTATAAAAAAATAGAGCAATTTAAAGAGTTCCAAGAACGGATTTCGGTTCATTTTCAAAACGAGAAACTTTTGTATCAAGCATTTACACATTCATCTTATGTGAATGAGCATCGGAAAAAGCCGTATGAAGACAATGAAAGGCTTGAATTTTTAGGTGACGCTGTTTTGGAACTGACGATCTCCCAATTCTTATTTGCCAAATATCCGGCCATGAGTGAAGGAGATTTGACGAAGCTGAGAGCCGCTATCGTATGCGAGCCGTCACTCGTCTCACTTGCCCATGAATTGTCATTCGGCGATCTTGTTCTCTTGGGAAAAGGAGAAGAAATGACGGGCGGCAGAAAGCGTCCTGCGCTTTTAGCGGATGTGTTTGAAGCGTTTATCGGCGCACTGTATCTGGATCAGGGCCTTGACCCGGTTCAGCAATTCCTGAAAGTGTACGTGTTCCCTAAAATAAACGATGGTGCTTTTTCTCATGTGATGGATTTCAAAAGCCAGCTTCAAGAATTTGTACAGCGGGACGGAAAAGGATCGCTTGAGTACAAAATTCTCAATGAAAAAGGGCCTGCCCACAACCGGGAATTCGAGGCGCTTGTCTCTCTTAAAGGTGAGGCGCTCGGTATCGGGAACGGACGTTCCAAAAAAGAAGCCGAGCAGCATGCGGCACAGGAAGCTCTTGCAAAAATGCAAAAACATCATACGAAACAATAA	MSKHSHFKDKKKFYKKIEQFKEFQERISVHFQNEKLLYQAFTHSSYVNEHRKKPYEDNERLEFLGDAVLELTISQFLFAKYPAMSEGDLTKLRAAIVCEPSLVSLAHELSFGDLVLLGKGEEMTGGRKRPALLADVFEAFIGALYLDQGLDPVQQFLKVYVFPKINDGAFSHVMDFKSQLQEFVQRDGKGSLEYKILNEKGPAHNREFEALVSLKGEALGIGNGRSKKEAEQHAAQEALAKMQKHHTKQ				NA	NA	NA	NA	NA
D1-12_00770	3561	smc_3	COG1196	Chromosome partition protein Smc	ATGTTCCTCAAACGTTTAGACGTTATAGGATTTAAATCATTTGCAGAACGGATATCCGTTGACTTTGTAAAAGGCGTCACGGCCGTTGTCGGTCCGAACGGCAGCGGAAAGAGCAACATTACCGAAGCCATCCGCTGGGTGCTCGGCGAACAATCAGCCCGCTCGCTTCGGGGCGGAAAAATGGAAGATATCATTTTTGCGGGAAGTGATTCGCGCAAGCGGCTGAACCTTGCCGAAGTCACGTTAACGCTTGATAATGAAGATCATTTTCTCCCGATCGATTACCACGAAGTCAGCGTGACGAGACGGGTGTACCGTTCCGGAGAAAGTGAATTTCTCATCAACAATCAGCAGTGCCGCCTGAAAGATATCATTGACTTATTTATGGACTCCGGGCTCGGGAAAGAAGCATTCTCTATTATCAGCCAGGGGAAAGTCGAAGAGATTCTCAGCAGCAAAGCGGAAGACCGCCGCAGTATTTTTGAAGAAGCGGCCGGCGTGCTGAAATATAAAACAAGAAAGAAAAAAGCGGAAAACAAACTGTTTGAGACGCAGGATAACTTAAACAGGGTGGAAGATATTCTCCACGAGCTTGAAGATCAGGTCGAACCGCTGAAAATCCAGGCTTCAATCGCCAAAGACTACTTAGAAAAAAAGAAAGAGCTTGAGCATGTCGAAATCGCCCTTACCGCCTTTGACATCGAACAACTGCACGGCAGATGGTCGGGTTTAAAAGATAAGGTGCAGGCGGCAAAAGAAGAAGAATTGGCGGAATCATCGGCTCTGTCCGCAAAAGAAGCGGTGATAGAAGAGACGAGAGATAAAATCCACGCGCTTGATGAATCCGTCAACGAACTGCAGCAGGTTCTGCTCGTGACAAGTGAAGAGCTGGAAAAGCTGGAAGGCCGGAAAGAAGTGCTGAAAGAGCGCAAAAAAAACGCCGCGCAAAACCGGGAACAGCTTGAGGAATCCGTTACACATTACACGAACAAAGAAGCCGAACTGAAAGCGGACATTGAAAAACAGTCTGCCGTCTATGATAAGCTGCGTGCGGAAGTGAAGCGGTTAAACGCCCAGGTGAAAGAAAAGCAGCAGGCTCTCAGTCTGCATAATGAAAATGTAGAAGACAAAATCGAACAATTAAAAAGCGATTACTTTGAATTGTTAAACAGCCAGGCGTCGATTCGCAACGAGCTGCAGCTTTTAGATGACCAGATGTCCCAATCTGCGGTCCAGCAGGCGAGACTGACCGCAAACAATGAAAAATATCTTGAAGAACGTAACGATATTGCAGTCCGCAAAGCGGCGTGCGAAGAAGAATTGGCCGCCGTTGAAGAGGATATTCACAATCAGGTCGTCCGCTTTCGTGAAGTCCAGACAGCATATGAACAGAAAAAACGCCAATATGATAAGAAAGAATCTGCGCTGTATCAGGCATATCAATTCGTCCAGCAGGCCAGATCCAAAAAAGATATGCTTGAAACGATGCAAGGCGATTTTTCAGGATTTTACCAAGGCGTAAAAGAAGTGCTGAAACAGAAAGAGCAGCTTGGCGGCATCCGCGGCGCCGTTCTCGAACTGATTGCCACCGAACAAAAATATGAAACGGCGATCGAGATTGCACTCGGCGCAGCGGCGCAGCACGTTGTCACAGACGATGAGCAGGCGGCGCGGAAAGCGATTCAATATTTAAAACAGAATTCCTTCGGCCGCGCGACGTTCCTGCCGCTTACGGTTATGAAACCGCGCCAGCTCCAAACCCGTGATGAACAGACGGCTCAGAAGCATCCGTCTTTCCTCGGCACAGCGAGCGGGCTTGTCACATATGATGCGGCATATCGGAATGTTATTCAAAACCTTCTCGGCACCGTGCTGATCACTGAAGATTTAAAAGGCGCGAATGAACTGGCCAAGCTTCTCGGGCACCGCTACCGCATCGTGACGCTTGAGGGCGATGTCGTCAATCCAGGCGGATCAATGACAGGCGGCGCGGTCAAAAAGAAAAACAATTCTCTGCTCGGCAGAAGCCGTGAGCTTGAGACGGTGACTGCGCGGCTTGCCGAAATGGAAGAAAAAACAGCTCTGCTCGAAAAAGAGGTCAAAACGCTGAAGCAGGCCATTCAAGAGCTTGAACATACGCTGAGCGGTCTCCGTGAAGACGGTGAAGCTTTCAGAACAAAGCAGCAGGATGTAAAAGGCAGGCTGTATGAACTCGAAGTCGCTGAAAAGAACATCAATACCCATCTGGAGCTTTACGATCAGGAGAAAGCATCACTGACGGAAAGCAGCCGGGAAAAAGAGACGCGCAAATCAGCTCTGGAAGAACAACTGAGTGAGGCATCCGGCCAGCTGAAAGAGCTTGAGGAAGAGATGGAAAGGCTGACAAAACAAAAGCAGACCCTATCCTCAACAAAAGAAACGCTCTCTCATGAACTGACGGAATGTAAAGTGGCCGCTGCGAAAAAAGAACAGGCGTGCTCGAGTGAAGAAGACAACCTCAAAAGGCTGAAAAAAGAGCTTGAGGAAACGCAGCTCGCTCTGAAAGAAACACGGGAAGATTTAAGCCTCCTGACCTCAGAGATGACGTCCAGCACAAGCGGTGAGGAGCAGCTTGAAGAAGCAGCCCATCACAAGCTTCACGATAAAACGAGAACGATTGAATTGATCGCCAGCCGGCGCGACCAGCGTGTGAAGCTCCAACGGGCTCTTGATACGAACGAACTTGAGCTGAAAGAGATGAAGCGTCTCTACAAGCAAAAAACAGAAATTCTGAAAGATGAAGAGGTAAAACTCGGCCGGATGGAAGTTGAGCTTGATAATCTCTTGCAGTATTTACGCGAGGAATACAGCTTATCCTTTGAAGGGGCAAAAGAACAATATCAGCTCGAACTCGAGCCTGAAGAGGCGAGAAAACGGGTCAAACTGATCAAGCTTTCAATTGAAGAGCTCGGAACGGTCAATCTCGGCAGCATCGATGAATTTGAAAGAGTAAACGAACGGTATCAGTTTTTAACAGAGCAGAAAAATGACCTGACGGAAGCGAAAAACACACTGTTTCAAGTCATTGAAGAAATGGATTCTGAAATGACGAAGCGATTCCATGAAACGTTTATCCAGATCCGTTCTCAATTCAACGACGTGTTCCGTTCTTTATTCGGAGGAGGGCGGGCTGAACTGAAGCTGACTGATCCGAATGATCTTCTTAACTCCGGGGTGGACATTATCGCGCAGCCTCCGGGCAAAAAACTGCAAAACTTAAATCTTTTGTCAGGGGGAGAACGGGCGCTGACTGCCATTGCCCTTTTATTCTCCATTCTGAAAGTAAGGCCCGTGCCGTTCTGCGTCCTTGATGAAGTGGAAGCTGCGCTTGATGAAGCCAATGTATTCAGGTTTGCGCAATATTTAAAAAAATACAGCAGCGACAGCCAGTTTATCGTCATCACCCACAGAAAAGGCACCATGGAAGAAGCGGATGTCCTCTACGGTGTTACGATGCAGGAATCCGGCGTTTCCCGAATGGTTTCGGTCAAACTAGAAGAAACAAAAGAATTCGTTCAGTAA	MFLKRLDVIGFKSFAERISVDFVKGVTAVVGPNGSGKSNITEAIRWVLGEQSARSLRGGKMEDIIFAGSDSRKRLNLAEVTLTLDNEDHFLPIDYHEVSVTRRVYRSGESEFLINNQQCRLKDIIDLFMDSGLGKEAFSIISQGKVEEILSSKAEDRRSIFEEAAGVLKYKTRKKKAENKLFETQDNLNRVEDILHELEDQVEPLKIQASIAKDYLEKKKELEHVEIALTAFDIEQLHGRWSGLKDKVQAAKEEELAESSALSAKEAVIEETRDKIHALDESVNELQQVLLVTSEELEKLEGRKEVLKERKKNAAQNREQLEESVTHYTNKEAELKADIEKQSAVYDKLRAEVKRLNAQVKEKQQALSLHNENVEDKIEQLKSDYFELLNSQASIRNELQLLDDQMSQSAVQQARLTANNEKYLEERNDIAVRKAACEEELAAVEEDIHNQVVRFREVQTAYEQKKRQYDKKESALYQAYQFVQQARSKKDMLETMQGDFSGFYQGVKEVLKQKEQLGGIRGAVLELIATEQKYETAIEIALGAAAQHVVTDDEQAARKAIQYLKQNSFGRATFLPLTVMKPRQLQTRDEQTAQKHPSFLGTASGLVTYDAAYRNVIQNLLGTVLITEDLKGANELAKLLGHRYRIVTLEGDVVNPGGSMTGGAVKKKNNSLLGRSRELETVTARLAEMEEKTALLEKEVKTLKQAIQELEHTLSGLREDGEAFRTKQQDVKGRLYELEVAEKNINTHLELYDQEKASLTESSREKETRKSALEEQLSEASGQLKELEEEMERLTKQKQTLSSTKETLSHELTECKVAAAKKEQACSSEEDNLKRLKKELEETQLALKETREDLSLLTSEMTSSTSGEEQLEEAAHHKLHDKTRTIELIASRRDQRVKLQRALDTNELELKEMKRLYKQKTEILKDEEVKLGRMEVELDNLLQYLREEYSLSFEGAKEQYQLELEPEEARKRVKLIKLSIEELGTVNLGSIDEFERVNERYQFLTEQKNDLTEAKNTLFQVIEEMDSEMTKRFHETFIQIRSQFNDVFRSLFGGGRAELKLTDPNDLLNSGVDIIAQPPGKKLQNLNLLSGGERALTAIALLFSILKVRPVPFCVLDEVEAALDEANVFRFAQYLKKYSSDSQFIVITHRKGTMEEADVLYGVTMQESGVSRMVSVKLEETKEFVQ				NA	NA	NA	NA	NA
D1-12_00771	990	ftsY	COG0552	Signal recognition particle receptor FtsY	ATGAGCTTTTTTAAAAAATTAAAAGAGAAAATCACGAAACAGACAGACTCCGTCTCTGAAAAATTTAAAGATGGTCTTGAAAAAACAAGAAATTCCTTCTCGAATAAAGTGAACGAACTCGTCTCCCGCTACCGGAAAGTCGACGAGGATTTCTTCGAGGAGCTTGAGGAAGTGCTGATTGGCGCTGACGTCGGTTTTACAACCGTCATGGAGCTGATTGATGAGCTCAAAAAAGAAGTGAAGCTGAAAAACATCCAGGATCCTCAGGAAGTGCAGTCCGTCATTTCTGAAAAGCTTGTCGACATTTATAACAGCGGCGACGAACAGATTTCTGAATTAAATATTCAGGACGGGCGCCTGAACGTTATTCTGCTTGTCGGGGTAAACGGCGTCGGAAAAACGACAACGATCGGAAAACTTGCCCATAAGCTGAAGAATGAAGGCAAATCCGTTGTGCTCGCTGCCGGAGACACCTTCAGAGCCGGGGCGATTGAACAGCTTGAAGTGTGGGGGGAGCGTACAGGCGTGCCTGTCATTAAGCAGGCTGCCGGAAGCGACCCTGCGGCGGTTATTTATGATGCCGTACACGCGGCTAAAGCAAGAGGAGCGGATGTGCTGATTTGTGATACGGCCGGCCGCCTTCAGAATAAAGTAAACTTAATGAAAGAGCTTGAAAAAGTCAAACGCGTCATCGAACGCGAAGTGCCTGAGGCTCCGCATGAGGTTCTCCTTGCGCTGGACGCGACGACAGGCCAGAATGCGATGGCGCAGGCGAAAGAATTCTCCAAAGCGACGAATGTGACGGGTATCGCGTTAACGAAGCTTGACGGCACCGCAAAAGGCGGTATCGTCCTGGCGATCCGCAATGAGCTTCACATCCCCGTGAAACTGGTCGGCCTCGGAGAAAAGGTTGACGATCTCCAGCGATTTGATGCAGAATCTTACGTATACGGTCTCTTTTCTGATTTAGTTGAAAAAGCCGAGGATTAA	MSFFKKLKEKITKQTDSVSEKFKDGLEKTRNSFSNKVNELVSRYRKVDEDFFEELEEVLIGADVGFTTVMELIDELKKEVKLKNIQDPQEVQSVISEKLVDIYNSGDEQISELNIQDGRLNVILLVGVNGVGKTTTIGKLAHKLKNEGKSVVLAAGDTFRAGAIEQLEVWGERTGVPVIKQAAGSDPAAVIYDAVHAAKARGADVLICDTAGRLQNKVNLMKELEKVKRVIEREVPEAPHEVLLALDATTGQNAMAQAKEFSKATNVTGIALTKLDGTAKGGIVLAIRNELHIPVKLVGLGEKVDDLQRFDAESYVYGLFSDLVEKAED	PGPT0025740_3727	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
D1-12_00772	834			hypothetical protein	ATGGACGGTTTTATACTCGTTTTTTTATACGCATTGATAGATCGGAATGGAGGGGGGCAATTGTTGGACAAATGGCTGAAAGCTGAATTGGAAAGTAAGATCGGCGCGATAAACCATATGTCGCTGTTGGGTGAACAGGGAGGCACTTCAACCGTTCGAAAAATAGTGACCGGTCAAGACGCATTTCTGCTGAAAAGTTCTTTTCAACAGAAGTATCGGGAATGGTTAATGAGAGAAGCCTTCGTTTTACAAAAACTGACGGAAACTCGTCGTCTGCCTGTTCCTGTTTATTATGGGATGATACAGGAACAGCATGCCAGCCATATCATCATGTCATTTGAGGATGGAATCACCCTGACTTCGGCTTTAAGAAAAGCAAAAGGGAATACTGAAAAGAAAAAGCTGATCAAAAGTTTCGGCCGGTTTCTGCAACGGCTGCATGAAACCGACATGGTCTCTGGTTTACAGCCGGAAACAGACTGGCTCGATTTGCAAATCAAACGAGCCGGAGAATATGTCAAAAAAGGACAGGCTGAAGGAAGTGCAGAGCTTTTGAAGGAATTGGACAGGTACAGGCCTGTTCCTGTTCAGCAGACAATGATTCACGGTGACTGCACGACTGATAATGTGCTGGTGAAAGACGGAGAGGTCTATCTGTTTATCGATACTGCGGGAATATCGGCGGGAGATCCGCGATATGATGAATCATTAGCGATCAGTCATTTTGTCACAAATGAAGCATGCCTCAATGCTTTTTACGAAGGCTATTGCCGCTACCGTGTATCAAAACAAGAATTCGAGTATTTTAACGACGGTCTATATGAATTTTTTTGA	MDGFILVFLYALIDRNGGGQLLDKWLKAELESKIGAINHMSLLGEQGGTSTVRKIVTGQDAFLLKSSFQQKYREWLMREAFVLQKLTETRRLPVPVYYGMIQEQHASHIIMSFEDGITLTSALRKAKGNTEKKKLIKSFGRFLQRLHETDMVSGLQPETDWLDLQIKRAGEYVKKGQAEGSAELLKELDRYRPVPVQQTMIHGDCTTDNVLVKDGEVYLFIDTAGISAGDPRYDESLAISHFVTNEACLNAFYEGYCRYRVSKQEFEYFNDGLYEFF				NA	NA	NA	NA	NA
D1-12_00773	333			hypothetical protein	ATGTCGCTCGAAAAAACGACGAGAATGAACTATTTATTTGACTTCTATCAGTCGTTGCTGACGTCAAAACAAAAGAGCTATATGTCGCTTTATTATCTGGACGATTTCTCCCTTGGTGAAATAGCCGAAGAGTATGACGTTTCAAGGCAAGCCGTTTACGATAACATCAAACGGACTGAAGCGATGCTTGAACAATATGAAGAAAAACTGCTCCTTTTTAAAAAGTTTCAGGAGCGTAAAGAAATGTTTACAAAGCTGAAAGAGCTTGCTTCCGGGTTGCAGGAAGAGGAAAAAATGACGGCTCTGATTGAAGCGCTTGAGAAATTAGATTAG	MSLEKTTRMNYLFDFYQSLLTSKQKSYMSLYYLDDFSLGEIAEEYDVSRQAVYDNIKRTEAMLEQYEEKLLLFKKFQERKEMFTKLKELASGLQEEEKMTALIEALEKLD				NA	NA	NA	NA	NA
D1-12_00774	1341	ffh	COG0541	Signal recognition particle protein	ATGGCATTTGAAGGATTAGCCGACCGACTGCAAAAGACGATTTCAAAAATCCGCGGAAAAGGAAAAGTCAGCGAACAAGACGTAAAAGAGATGATGCGTGAAGTTCGTCTTGCGCTTCTTGAGGCTGACGTTAACTTTAAAGTCGTAAAGGATTTTGTGAAAAAAGTAAGTGAACGGGCTGTCGGACAGGACGTTATGCAGAGTCTGACACCCGGTCAGCAGGTTATTAAAGTCGTAAAAGAAGAGCTTACCGAGCTGATGGGCGGCGAAGAAAGCAAAATTGCCGTCGCCAAACGCCCGCCGACCGTTATTATGATGGTCGGGCTCCAAGGTGCCGGTAAAACGACAACCACGGGGAAGCTTGCCAACCTGCTGCGCAAAAAACATAATCGCAAACCGCTGCTCGTGGCTGCGGATATTTATCGCCCCGCCGCGATTAAACAGCTGGAAACCCTGGGGAAACAGCTTGATATGCCGGTCTTTTCGCTTGGCGATCAGGTCAGCCCGGTGGAAATTGCCAGACAGGCGATTGAAAAAGCGAAGGAAGAGCATCATGATTATGTGATTTTAGATACCGCCGGACGGCTGCACATCGATCATGAACTGATGGATGAGCTCTCCGGCGTAAAGGAAGTCGCAAATCCTGAGGAAATTTTCCTTGTCGTCGACTCAATGACCGGTCAGGATGCGGTAAACGTCGCCAAAAGCTTTAATGACCAGCTCGGTTTAACGGGTGTCATTTTAACAAAGCTTGACGGGGATACCCGCGGAGGTGCGGCGCTTTCTATCCGCGCGGTCACCGAAACGCCGATTAAATTCGCCGGAATGGGAGAAAAGCTCGATGCTCTTGAAGCGTTCCATCCTGAACGGATGGCATCCCGGATTCTCGGAATGGGTGACGTGCTGACGCTGATTGAAAAAGCTCAGGCGACCGTTGATGAAGACAAAGCCAAAGAGCTTGAGCAGAAAATGAGAACGATGAGCTTCACATTGGATGATTTTCTGGAGCAGCTCGGCCAGGTCCGAAACATGGGGCCTCTTGACGAACTGCTGCAAATGATGCCCGGCGCAGGCAAAATGAAAGGCTTAAAAAACATCCAAGTCGATGAAAAACAGCTGAATCATGTGGAAGCGATCATTAAATCAATGACTGTTCTTGAAAAAGAACAGCCGGATATCATTAACGCCAGCCGGCGGAAGCGGATTGCCAAAGGAAGCGGAACATCCGTTCAGGAAGTCAACCGTCTTTTAAAGCAGTTTGAGGAAATGAAAAAAATGATGAAGCAGATGACCAACATGACAAAAGGGAAGAAAAAAGGCTTTAAATTACCTTTTATGTAA	MAFEGLADRLQKTISKIRGKGKVSEQDVKEMMREVRLALLEADVNFKVVKDFVKKVSERAVGQDVMQSLTPGQQVIKVVKEELTELMGGEESKIAVAKRPPTVIMMVGLQGAGKTTTTGKLANLLRKKHNRKPLLVAADIYRPAAIKQLETLGKQLDMPVFSLGDQVSPVEIARQAIEKAKEEHHDYVILDTAGRLHIDHELMDELSGVKEVANPEEIFLVVDSMTGQDAVNVAKSFNDQLGLTGVILTKLDGDTRGGAALSIRAVTETPIKFAGMGEKLDALEAFHPERMASRILGMGDVLTLIEKAQATVDEDKAKELEQKMRTMSFTLDDFLEQLGQVRNMGPLDELLQMMPGAGKMKGLKNIQVDEKQLNHVEAIIKSMTVLEKEQPDIINASRRKRIAKGSGTSVQEVNRLLKQFEEMKKMMKQMTNMTKGKKKGFKLPFM	PGPT0025750_5026	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
D1-12_00775	273	rpsP	COG0228	30S ribosomal protein S16	ATGGCAGTAAAAATTCGTTTAAAACGTATGGGAGCAAAAAAATCTCCTTTCTATCGTATTGTTGTAGCAGATTCTCGTTCACCGCGTGACGGCCGTTTCATCGAAACAGTCGGCACATACAACCCGGTTGCAAAGCCGGCTGAAGTGAAAATCAACGAAGAGCTTGCTCTTAAATGGCTTCAAACAGGAGCTAAACCTTCTGATACAGTCCGCAACTTGTTCTCAAGCCAAGGAATTATGGAAAAATTCCACAACGCTAAACAAGGCAAGTAA	MAVKIRLKRMGAKKSPFYRIVVADSRSPRDGRFIETVGTYNPVAKPAEVKINEELALKWLQTGAKPSDTVRNLFSSQGIMEKFHNAKQGK				NA	NA	NA	NA	NA
D1-12_00776	246			hypothetical protein	ATGACTGATCAGAACTTGGAAGATTTGATTGTCAGCATTGTGGCGCCGCTTGTCGACCATCCGGAAGACATAACGGTCACAAAGGAAGAGACTGATCAAAAGATTGCGCTGCGCTTATCTGTCAATAAGTCAGATACCGGTAAGATTATCGGAAAGCAAGGCCGGACTGCAAGAGCGATTCGAACCGTCGTTTTTGCAGCTGGCGCACAGTCTTCTAAGAAAGTTCAATTTGAAATATTTGACTGA	MTDQNLEDLIVSIVAPLVDHPEDITVTKEETDQKIALRLSVNKSDTGKIIGKQGRTARAIRTVVFAAGAQSSKKVQFEIFD				NA	NA	NA	NA	NA
D1-12_00777	387			hypothetical protein	ATGCAGATTATTCACAGGGTAACCGTTATGCAGGTTCTGACCGAGCAAAGCAAGGAAAAGCTTTTGGCCTCTTTTGCAGAAAAAAAGCAAACGCTTGAACGAGAATGCAGCCAGCTCTATTTTCAGCTTAGAAAACATGAAAAAGATCAGCAGAATCCCGATGTAGCGGAATCTTTTAAAAAAGCCATTGAGAAAAGACAAGACAAAATCAAAATGATCGATTTCCAAATAAGCCAGACAGAGTCGCTCCCGCTTGGAAGCGAAGTGAAGGAAAAGGAGATCGATGCGCTGCTTTCAATCAACGTCGGTGATAACTGGCATGAAAAAACAGCGGCAAATACCATCGTCATAAAAGACGGGGTAGTAATTGAAATCCGCCCGAGGTGA	MQIIHRVTVMQVLTEQSKEKLLASFAEKKQTLERECSQLYFQLRKHEKDQQNPDVAESFKKAIEKRQDKIKMIDFQISQTESLPLGSEVKEKEIDALLSINVGDNWHEKTAANTIVIKDGVVIEIRPR				NA	NA	NA	NA	NA
D1-12_00778	525	rimM		Ribosome maturation factor RimM	ATGACAAACAGATGGTTTAATGTAGGCAAAATTGTAAATACCCACGGCATTAAAGGCGAAGTGCGGGTCATTTCTAAAACGGACTTTGCCGAAGAACGGTACAAGCCCGGCAATACGCTTTATTTGTTTGCGGAAGGGGCTGCGGAACCAATCAAAGTAACGGTCAGCGCCCACAGGCTTCACAAGCAGTTTCACCTGCTGCAATTCAAAGAAATGCCGAGTCTCAATGAAGTTGAACACCTGAGAAACATGGTGATCAAAGTCCCTGAAGAAGACTTGGGAGAGCTTGAAGAAGATGAATTTTATTTTCATGAAATCATCGGCTGCGAGGTTGTGTCAGAAGACGGGGAACTGATCGGCACAGTGAAGGAAATCCTGACGCCCGGGGCTAATGACGTATGGGTGGTTGCAAGAAAAGGCAAAAAAGATGCGCTCATTCCGTATATTGCTTCTGTGGTAAAGGATATTAATATAAATGAGAAGAAAATTAAGATTCAAGTAATGGAAGGGTTAATAGACGAATGA	MTNRWFNVGKIVNTHGIKGEVRVISKTDFAEERYKPGNTLYLFAEGAAEPIKVTVSAHRLHKQFHLLQFKEMPSLNEVEHLRNMVIKVPEEDLGELEEDEFYFHEIIGCEVVSEDGELIGTVKEILTPGANDVWVVARKGKKDALIPYIASVVKDININEKKIKIQVMEGLIDE				NA	NA	NA	NA	NA
D1-12_00779	732	trmD		tRNA (guanine-N(1)-)-methyltransferase	ATGAAAATCGACTTTTTAACACTGTTTCCCGAAATGTTTCAAGGGGTGCTCGGCTCATCCATTCTGCAAAAAGCACAGGAAAAAGAGGCTGTCCGTTTTGACGTCATCAATTTCCGGGCTTTTTCGGATAATAAACACCAAACGGTTGATGATTACCCGTACGGCGGGGGAGCCGGGATGGTGTTAAAGCCGCAGCCCGTATTTGATGCGGTTGAAAAGCTGACAGCCGGTACGGACGCCAAGCCGCGCATTATTCTCGTCTGCCCGCAAGGTGAGCGTTATACGCAGAAGAAAGCCGAGGAGCTGGCGGAAGAGGAACATCTCATGTTTATTTGCGGGCATTATGAAGGGTATGATGAACGGATCCGGGAACATCTTATCACTGATGAAATCTCCATCGGGGATTTTGTGCTGACCGGGGGAGAGCTCCCTGCCATGATGATCGCCGACAGCGTTGTCAGGCTTTTGCCGGGCGTCCTCGGAAAAGAAGCATCCCACGTGGAGGATTCCTTCAGCACGGGGCTTTTAGAGCATCCGCACTATACGAGGCCTGCAGATTATAGAGGCTTAAAAGTGCCTGGGATCCTTTTGTCGGGCAACCATGCCAAAATACAAGAATGGCGCAATAAAGAATCAATCAGAAGAACCTTTTTAAGACGTCCGGATCTTCTTGAAAACTATCCTCTCACTGATGAGCAAAGAAAATGGATTTCCGAGTGGGAAAACGAATAG	MKIDFLTLFPEMFQGVLGSSILQKAQEKEAVRFDVINFRAFSDNKHQTVDDYPYGGGAGMVLKPQPVFDAVEKLTAGTDAKPRIILVCPQGERYTQKKAEELAEEEHLMFICGHYEGYDERIREHLITDEISIGDFVLTGGELPAMMIADSVVRLLPGVLGKEASHVEDSFSTGLLEHPHYTRPADYRGLKVPGILLSGNHAKIQEWRNKESIRRTFLRRPDLLENYPLTDEQRKWISEWENE	PGPT0007595_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-12_00781	348	rplS	COG0335	50S ribosomal protein L19	ATGCAAAAACTAATTCAAGATATCACAAAAGAACAGCTTCGCACTGATCTTCCTGCGTTCCGTCCTGGTGACACTTTACGTGTACACGTAAAAGTTGTTGAGGGTAACCGTGAGCGTATCCAGATCTTCGAAGGTGTTGTGATCAAGCGTCGTGGTGGTGGAATCAGCGAAACGTTCACAGTTCGTAAGATTTCTTACGGTGTTGGCGTTGAACGTACATTCCCTGTACACACACCAAAAATCGCGAAAATCGAAGTTGTACGTTACGGTAAAGTACGTCGCGCTAAGCTTTACTACCTGCGTGAACTTCGCGGAAAAGCGGCTCGTATTAAAGAAATCAGACGATAA	MQKLIQDITKEQLRTDLPAFRPGDTLRVHVKVVEGNRERIQIFEGVVIKRRGGGISETFTVRKISYGVGVERTFPVHTPKIAKIEVVRYGKVRRAKLYYLRELRGKAARIKEIRR				NA	NA	NA	NA	NA
D1-12_00782	849	rbgA	COG1161	Ribosome biogenesis GTPase A	ATGACCATTCAATGGTTCCCGGGCCATATGGCTAAAGCGAGACGGGAAGTAACAGAAAAACTGAAATTAATTGATATCGTATACGAATTGGTAGATGCGAGAATCCCGATGTCATCGAGAAATCCGATGATTGAGGAGATTTTAAAAAATAAGCCGCGCATTATGCTTTTAAATAAAGCCGATAAGGCGGATGCGGCCGTGACTGCCCAGTGGAAGGACCACTTTCAGGAACAGGGCATTCCCTCTCTTTCAATAAACTCCGTTAACGGGCAGGGACTGCATCAAATCGTGCCGTCCTCGAAAGAGCTGCTGAGAGATAAGTTCGATAAAATGAAAGCAAAAGGCATTAGGCCAAGAGCAATCCGCGCATTAATCATCGGCATTCCGAATGTCGGCAAATCTACGCTCATTAACCGGCTGGCCAAGAAAAACATTGCCAAGACGGGAGATAGGCCCGGCATTACCACTTCACAGCAGTGGGTAAAGGTAGGCAAGGAATTAGAGCTGCTCGATACACCGGGAATTTTATGGCCTAAATTTGAAGATGAGCTTGTCGGCTTGCGCCTGGCGATCACCGGGGCGATTAAAGATACGATTATCAACCTGCAGGATGTGGCCGTCTTCGGGCTGCGCTTTCTGGAAGAGCATTATCCCGACCGCTTGAAGGAGCGCTACGGACTTCAGGAAATCCCTGAGGATATCGCCGCTCTTTTCGACGCGATCGGTGAAAAACGCGGCTGTTTGATGGGCGGCGGAATGGTTGACTATGATAAAACAACGGAAGTCATCATTCGGGACATCCGGACGGAAAAATTCGGCAGGCTTTCATTTGAAACACCATCAGAATAA	MTIQWFPGHMAKARREVTEKLKLIDIVYELVDARIPMSSRNPMIEEILKNKPRIMLLNKADKADAAVTAQWKDHFQEQGIPSLSINSVNGQGLHQIVPSSKELLRDKFDKMKAKGIRPRAIRALIIGIPNVGKSTLINRLAKKNIAKTGDRPGITTSQQWVKVGKELELLDTPGILWPKFEDELVGLRLAITGAIKDTIINLQDVAVFGLRFLEEHYPDRLKERYGLQEIPEDIAALFDAIGEKRGCLMGGGMVDYDKTTEVIIRDIRTEKFGRLSFETPSE				NA	NA	NA	NA	NA
D1-12_00783	768	rnhB	COG0164	Ribonuclease HII	GTGAATACATTAACCGTAAAAAGCGTAAAAGAACGCCTGCAAGAGGTCAGGGACGAAAGCGACCCCTTCCTTGCCCAATGTGAGAAAGACCCGAGAAAAAGCGTACAGACGCTTTTAGAGCAATGGCTGAAAAAGCACGCGAAGGAAAAAGCTCTTAAAGAGCAATGGCTGAACATGACGGCATACGAAAGACTGTCATCCAAAAAGGGCTTCCGCCTGATTGCGGGTGTTGACGAAGCCGGAAGAGGGCCGCTTGCCGGACCGGTTGTCGCCGGCGCCGTCATTTTGCCGGCAGAATGCGAGATTCTCGGTCTCACGGACTCGAAGAAATTGTCGGAAAAGAAGCTCGAGGAGTATTACAGCCGGATCACGGAAGAAGCGGCGGCTGTAGGAGTCGGCATTGTCCATGCGGACGTCATTGACCGGATCAACATTTATGAGGCCGCGAGACTGGCGATGGTAAAAGCCGTCAATGCTTTAACGGAAATACCTGATTATCTGCTTGTTGATGCCATGACCCTTCCGCTTGACATTCCGCAGTCATCAGTTATAAAAGGGGATGCCAAAAGCGTGTCAATTGCCGCCGGAGCCTGCATCGCAAAAGTAACGCGGGACCGTCTCATGGCTGAGTACGCCAAAACCTACCCCATGTACGGCTTTGAAAAAAATAAAGGCTACGGAACGAAAGAACATCTTGAAGCTCTTCAGGCATACGGACCGACAACTATTCACCGAAAAACGTTCGCTCCCGTTCAATCTTATTGTTAG	MNTLTVKSVKERLQEVRDESDPFLAQCEKDPRKSVQTLLEQWLKKHAKEKALKEQWLNMTAYERLSSKKGFRLIAGVDEAGRGPLAGPVVAGAVILPAECEILGLTDSKKLSEKKLEEYYSRITEEAAAVGVGIVHADVIDRINIYEAARLAMVKAVNALTEIPDYLLVDAMTLPLDIPQSSVIKGDAKSVSIAAGACIAKVTRDRLMAEYAKTYPMYGFEKNKGYGTKEHLEALQAYGPTTIHRKTFAPVQSYC	PGPT0017710_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
D1-12_00784	1704			hypothetical protein	ATGAACATAAGCGGCGAAATCCAAGCGGCTTTCAGACAGCTGACGGCGGAAATCCCTCCGGACCGGCAAGACGGCGGTAAAGACAGCGGCGCTCAAAGGCTGCTGTTAGGGAAGGTTCTCCGTTTGCTGGACGATCAAAGCGCCCTTATCCAAATCGGCGGCCGGACGATGCAGGGAAAACTTGAAACCGCCCTTCGTCCGCAGGCGTATTACTGGTTTTCTTATGACAAACAGCCGGCGGAAAAAACGGGCCGGCTTCATGTCATTGACCAATTCGAAGGAAGCCCGAAAACCGTTCAGGAAGCGGCGGGAAGACTGTTAAACGCTCTTTCTGTCAAACCAGGCCCTGTGTCTCTGCAGATTGCCGAAACGTTTATGCAGCAGAAGCTGCCGATGACGGAAAACAGCCTCAAAGCTTGCATCCGCTGGGCTGAATCGCTTCCGGCCGCCGAATTGAAAAAAGCGGCGGAAACAATCGTATTTGCGCTGAAACGGGAACTGCCCGCACATCCGGAAGTCTTGTCAGCCATTCATGCCGTTAAATATCCGGTTCCGACCCGTCGCCTCCTCTCAGGACTGCTTCAGGCAATCAATCAGGCTCCGCAATCGGCAAAAGAGCTGTCTGTGCTCAAAGAGGCGGTTTCTGACGTGTTAAACGCGGAAACGGATCTACATGCAGAACGTCTCTTGAAGAAGCTTGCCGAGGCTGCACGCATGCCGACCTCAGAAACCGGGCTGATGGATGAAGGAGAACGGCCGGAATCAAAACAATCACCATTTGTCCGAGAGACTCGTGAAAACGGAAAGGCAGTCTCAAGCCAATCTTCTCCTCCGAGTGCACGGACAGATCCGGAACTTCCTGAAAAAACGGCAAAACAGATTATAGAGAAATTAATGACCTCGGCAGAAAAAACTGAAAACCGTCCCGTAAAAGTAACGGCGGAGATCATTAAGGCTTTCATTTCTCAAGAAAAAACATTTAAAACAGCACCTGTTCTTCTAAACGCACGTCTGACAGAACAGGAGGCGGCTGTTTTCGAAAAAGCCGTTCAGCTCACCGAATTGAAATATGCGGAAAAACATGATGTATTAAGCCTTTTGCAGAAAATCAAAAAAGGACTGGGCACGCGTGATGAATTATCATTCATTACAGCGCTTGAAAAAGGCGTGTCTCCGCAGCCGGAGAAACAAGCGCTGAAAACAGCCCTCCAAGCCGTCCGGACGCTTCAAGAAGCGCCCCAATCCGTTAAACAAGAGGCGGAACCGCTTATTCATAAATTAAACGGCCAGCTGTTTATTGAGCAGCATAACCCTTCTTTTACGCAGATGGTGCTGTCATTTCCGCTGGGTGCGTCCGCGTATGAGAATGACATCACAGTTCTCTTTAAAGGACGGAAGAAGCCGGACGGAAAACTCGATCCGTCACATTGCAGGCTCCTGTTTTTGCTGCATCTTGAAACACTGCAAGAAACCGTTGTGGACTGCATGATTCAGCAAAATGTAATGACCATTACGGTTGAGACTGATTTTGAGCTTCAGGCGGCCATCGACCCTCTCGTACCGGCTTTAAAAGAAGCCGTAAAAGAAACGGGCTTCAGCCTGTCAGGCGTCACGTCTAAAAAACGGCGTCCGAAAGACCAGAGCGCTCTTGTGGAAGAGTTTATAGAAAAAGACGGGGGAAGAAAAGTGGATGTGAAAATATGA	MNISGEIQAAFRQLTAEIPPDRQDGGKDSGAQRLLLGKVLRLLDDQSALIQIGGRTMQGKLETALRPQAYYWFSYDKQPAEKTGRLHVIDQFEGSPKTVQEAAGRLLNALSVKPGPVSLQIAETFMQQKLPMTENSLKACIRWAESLPAAELKKAAETIVFALKRELPAHPEVLSAIHAVKYPVPTRRLLSGLLQAINQAPQSAKELSVLKEAVSDVLNAETDLHAERLLKKLAEAARMPTSETGLMDEGERPESKQSPFVRETRENGKAVSSQSSPPSARTDPELPEKTAKQIIEKLMTSAEKTENRPVKVTAEIIKAFISQEKTFKTAPVLLNARLTEQEAAVFEKAVQLTELKYAEKHDVLSLLQKIKKGLGTRDELSFITALEKGVSPQPEKQALKTALQAVRTLQEAPQSVKQEAEPLIHKLNGQLFIEQHNPSFTQMVLSFPLGASAYENDITVLFKGRKKPDGKLDPSHCRLLFLLHLETLQETVVDCMIQQNVMTITVETDFELQAAIDPLVPALKEAVKETGFSLSGVTSKKRRPKDQSALVEEFIEKDGGRKVDVKI				NA	NA	NA	NA	NA
D1-12_00785	282	flhB_1	COG1377	Flagellar biosynthetic protein FlhB	ATGAAAGAGCAAACGCCGTTAAGAAGAGCTGTCGCCCTGCATTACGACCGGCAGAAAGACCAAGTCCCGAAGGTTGTCGCAACAGGCAGAGGGCACGTGGCGGAAAATATTATAAAAGAAGCTGAGAAGGCTGGGGTCCCCATTCAGGAAGACAGAACCCTTGTCGAATTAATGCGCCATTTGACGGTTGACGATCAGATACCGGAGGCGCTTTATGAAACCGTTGCCGAAATTTTTTCATTTGTTTACAGACTGGACGAAACCCTGAAAAACGAAAAATAA	MKEQTPLRRAVALHYDRQKDQVPKVVATGRGHVAENIIKEAEKAGVPIQEDRTLVELMRHLTVDDQIPEALYETVAEIFSFVYRLDETLKNEK	PGPT0029865_872	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0029865-flhB2-K04061	NA	NA
D1-12_00786	1158	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATATCCATGAGTACCAGGGAAAAGAAGTCCTCAGAAAATACGGGGTGTCTGTTCCTGAAGGTAAAGTGGCTTTTACAGCAGAGGAAGCAGTTGAAAAAGCAGAGAGCCTGTCAAGCTCGGTTTATGTCGTAAAGGCGCAAATCCATGCTGGCGGCCGCGGCAAAGCTGGTGGGGTAAAGATTGCAAAAACAAAAGATGAAGTGAAAGAGTATGCCGAAGAACTGTTAGGCAAGACGCTCGTCACACATCAAACGGGTCCGGACGGACAAGTAATAAAACGCTTACTTATTGAAGAAGGCTGCGATATTAAAAAGGAATACTATGTCGGGCTTGTACTTGACCGCGCTACTTCAAGAATCGTTTTAATGGCGTCTGAAGAAGGCGGAACGGAGATTGAAGAAGTAGCGGAAAAAACACCTGAAAAAATTAAAAAAGCGGTAATTGATCCGGCTGTCGGCCTTCAGGGCTATCAGGCAAGGGAAATTGCATTCGCAATTAACATCCCGAAAGAGCTTGTCGGCAAAGCCGCTAAATTTATGCTCGGTTTATATAAAGCATTTGTTGAGAAGGACTGCTCCATCGCCGAGATCAACCCTCTCGTCGTTACGGGGGACGGAAACGTCATGGCGCTGGATGCTAAGCTGAACTTCGACAGCAATGCGTTATACAGACAAAAAGACATTATGGAATACAGAGATTTAGATGAAGAAGATCCGAAAGAAATCGAAGCGTCAAAATACGATTTAAGCTACATTTCCCTTGATGGAAATATCGGCTGTATGGTAAACGGCGCGGGTCTTGCAATGTCTACAATGGATATCATTAAACACTACGGCGGAGAACCTGCAAACTTCCTTGATGTCGGGGGCGGCGCAACCGCAGAAAAAGTTACGGAAGCTTTTAAAATCATTCTTTCCGATCAAAACGTAAAAGGAATTTTCGTTAATATTTTCGGAGGCATCATGAAGTGTGATGTCATCGCCGAGGGCGTTGTTGAAGCGACGAGACAAGTCGGATTGACATTGCCGCTGGTCGTGCGCCTTGAAGGGACAAACGTAGATTTAGGAAAGAAAATCCTGAATGAATCAGGCTTAAACATCACATCTGCGGAATCAATGGCAGACGGCGCACAGAAAATCGTATCCTTAGTTTAG	MNIHEYQGKEVLRKYGVSVPEGKVAFTAEEAVEKAESLSSSVYVVKAQIHAGGRGKAGGVKIAKTKDEVKEYAEELLGKTLVTHQTGPDGQVIKRLLIEEGCDIKKEYYVGLVLDRATSRIVLMASEEGGTEIEEVAEKTPEKIKKAVIDPAVGLQGYQAREIAFAINIPKELVGKAAKFMLGLYKAFVEKDCSIAEINPLVVTGDGNVMALDAKLNFDSNALYRQKDIMEYRDLDEEDPKEIEASKYDLSYISLDGNIGCMVNGAGLAMSTMDIIKHYGGEPANFLDVGGGATAEKVTEAFKIILSDQNVKGIFVNIFGGIMKCDVIAEGVVEATRQVGLTLPLVVRLEGTNVDLGKKILNESGLNITSAESMADGAQKIVSLV	PGPT0019515_3409	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
D1-12_00787	903	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGAGTGTTTTTATCAATAAAGATACAAGAGTTATTGTACAGGGGATTACAGGTTCTACCGCTTTATTTCATACAAAGCAGATGCTGGAATACGGCACGAATATCGTTGGCGGTGTAACACCTGGAAAAGGCGGAACGGAAGCGGAAGGCGTACCGGTATTCAATACGGTCGCAGAAGCGGTTCATACAACGGGCGCTGATGCGTCAGTTATTTACGTGCCGGCTCCGTTTGCGGCGGACGCAATTATGGAAGCGGTTGACGCGGAAATTGATCTTGTCATTTGTATCACCGAGCACATTCCGGTTTTGGACATGGTGAAAGTGAAGCGCTTTATGGAAGGCAAGAAAACGAGATTAATAGGGCCGAACTGCCCGGGTGTTATTACACCTGAAGAATGCAAGATCGGCATTATGCCGGGATACATTCATAAAAAGGGTCATGTAGGCGTTGTATCCCGTTCAGGAACATTGACATACGAGGCCGTCCATCAGCTTTCAGAAGCCGGCGTAGGCCAATCTACCGCTGTAGGGATCGGCGGCGATCCGGTCAACGGCACGAACTTTATTGACGTGTTAAAAGCGTTCAATGAAGATCCAGAAACACATGCCGTCATCATGATCGGAGAAATCGGCGGCACAGCTGAAGAAGAAGCGGCTGAGTGGGTGAAAGCGAACATGACGAAGCCTGTTGTCGGCTTTATCGGCGGTAAAACCGCGCCTCCGGGAAAACGCATGGGCCATGCGGGCGCCATCATCTCCGGAGGAAAAGGCACGGCAGAAGAAAAAGTCAAAACGATGAACGCCTGCGGAATTGAAGTCGCGGAAACCCCTTCTGTAATGGGTGAAACGCTGATTAAGGTGTTAAAAGAAAAAGGCTTATTTGAAACGTGCAAAACGCACTGA	MSVFINKDTRVIVQGITGSTALFHTKQMLEYGTNIVGGVTPGKGGTEAEGVPVFNTVAEAVHTTGADASVIYVPAPFAADAIMEAVDAEIDLVICITEHIPVLDMVKVKRFMEGKKTRLIGPNCPGVITPEECKIGIMPGYIHKKGHVGVVSRSGTLTYEAVHQLSEAGVGQSTAVGIGGDPVNGTNFIDVLKAFNEDPETHAVIMIGEIGGTAEEEAAEWVKANMTKPVVGFIGGKTAPPGKRMGHAGAIISGGKGTAEEKVKTMNACGIEVAETPSVMGETLIKVLKEKGLFETCKTH	PGPT0001540_471	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
D1-12_00788	981	dprA	COG0758	DNA processing protein DprA	GTGCAAAACGCACTGATCGAAGCAGGGGCAGCCGTAACGGCTGTTCCTGTTTTTGCTGAAAAAAAGAGGAGGTTGCAAGATTTGGATCAAGCATCGCGCTGTTTAATGGTCTGCAGTATTAATCAAATCATTTCCCCGTCTCTTCTATTAAAATGGTGGAAAGCTGATCACTCTCTGTCTTTTTTACCGGATCCGCATCCATTAACTGTTTTATCAGAAGGGAAAACAGCCCCGAAAGCAATTTTTCGGGAAATAGAGCGCAAGGAACCGGAACTTGATGAAGTTCTGTCCGATTACCGCCGCGAAGGCATTACTGTCATTCCGATTTCATCAAGCCGCTATCCAACATGGCTTAAAGCGATTTATGATCCGCCGGCTGTCTTGTATGCAAAAGGGAACACGCTGCTTCTTGAAAAAGGCAGAAAAATCGGGATTGTAGGAACGCGGAAACCGACGGAAGACGGAATAAAAGCGGCTGGGTATCTTTCCGCCAAACTCTCAAAAAAAGGCTGGGTCATTGTAAGCGGGCTTGCATCCGGTATAGACGGATTGTCTCATAAGGCTAGCATCAGGGCAAAAGGGCTTACGATCGGCGTGATAGCCGGCGGATTCCATCATATCTATCCCCGGGAAAATCTCCTGTTAGCAGAATACATGGCTGAACACCATCTCCTACTCTCAGAACATCCTCCTGAAACAAAGCCGAAAAAATGGCACTTTCCGATGAGAAACCGCATAATCAGCGGACTAAGTGAAGGAATTGTGGTCGTACAGGGAAAAGAAAAAAGCGGTTCATTAATCACAGCTTACCAGGCCCTCGATCAAGGCAGAGAGGTATTTGCCGTTCCGGGTTCCATATTTAATCCATATTCCGGAGGACCTATAAAACTCATTCAAGAAGGGGCGAAAGCTGTATTATGCGCAGAGGATATTGACGGAGAGCTGACCGCCCGATGCGTTCAGTATACGGAACCCTTTTGA	MQNALIEAGAAVTAVPVFAEKKRRLQDLDQASRCLMVCSINQIISPSLLLKWWKADHSLSFLPDPHPLTVLSEGKTAPKAIFREIERKEPELDEVLSDYRREGITVIPISSSRYPTWLKAIYDPPAVLYAKGNTLLLEKGRKIGIVGTRKPTEDGIKAAGYLSAKLSKKGWVIVSGLASGIDGLSHKASIRAKGLTIGVIAGGFHHIYPRENLLLAEYMAEHHLLLSEHPPETKPKKWHFPMRNRIISGLSEGIVVVQGKEKSGSLITAYQALDQGREVFAVPGSIFNPYSGGPIKLIQEGAKAVLCAEDIDGELTARCVQYTEPF				NA	NA	NA	NA	NA
D1-12_00789	2076	topA		DNA topoisomerase 1	ATGTCTGATTATCTAGTCATCGTGGAATCGCCGGCAAAGGCGAAAACGATTGAACGTTATTTAGGGAAGAAATATAAAGTCAAAGCTTCAATGGGACATGTCCGGGATCTTCCGAAAAGTCAAATGGGAGTTGACATCGAACAGAACTTTGAACCGAAATATATTACGATCCGCGGAAAAGGCCCTGTTTTAAAAGAATTAAAAACAGCGGCAAAGAAAGCAAAAAAAGTCTATCTCGCGGCCGACCCCGACAGAGAAGGGGAAGCGATTGCATGGCATCTCGCACACAGCCTTGATCTGGATCTCAGCTCGGACTGCCGGGTCGTCTTTAATGAAATAACGAAAGACGCCATTAAAGAATCATTTAAACATCCGCGCATGATTAATATGGATCTTGTCGATGCGCAGCAGGCGCGCCGCATACTAGACAGACTCGTCGGATACAAAATCAGCCCGATTCTTTGGAAAAAAGTAAAAAAAGGCCTCAGTGCGGGCCGTGTGCAATCCGTTGCGCTCCGGCTGATCATCGACCGGGAAAAGGAAATCAACGACTTTAAACCTGAAGAGTACTGGACGATTACCGGCTCATTTTTAAAGGGAAAAGAGACGTTTGAAGCCGGATTTTTCGGGAAAAGCGGCAAAAAGCTTCCTTTAAAAAGCGAAGAAGACGTAAAAGCCGTCCTTGCTCAGCTGAAAGGCAATAAGTATACAGTTGACAAGGTTACGAAAAAAGAGCGCAAACGAAATCCCGCTCTGCCGTTTACAACGTCCACTCTGCAGCAGGAGGCTGCCAGGAAGCTGAATTTCAGAGCGAAGAAAACGATGATGATCGCTCAGCAATTATATGAAGGAATTGATCTCGGCAAAGAAGGGACAGTCGGGCTCATCACGTATATGAGAACGGACTCAACGCGGATTTCCAATACAGCCGTTGAAGAAGCGTCAGCTTTTATTGATCAGGCGTACGGAAAAGAGTACTTAGCGGGAAAACGGAAACCGGCAAAGAAAAATGAAAACGCTCAAGATGCCCACGAAGCGATCCGCCCGACTTCGGTGCTCAGAAAACCTGCCGACTTAAAAGCGGTGCTTGGAAGAGACCAGCTCAGATTATACAAGCTGATTTGGGAGCGCTTTGTTGCAAGCCAGATGGCGCCTGCAGTCCTAGATACGATGAGCGTCGATCTCAGCAATAACGGATTGACATTCCGGGCAAACGGAAGTAAAGTCAAATTCGCCGGCTTCATGAAAGTCTATGTAGAGGGTAAAGACGATCAGCTGGAAGAAAAAGACCGCATGCTTCCGGACCTTAAAGAGGGAGACACGGTTTTATCGAAAGATATTGAGCCTGAGCAGCACTTTACTCAGCCGCCTCCGCGTTATACAGAGGCGCGCCTGGTTAAAACACTTGAAGAACTGGGGATCGGCCGTCCTTCGACATATGCGCCGACTCTTGACACCATCCAGCGCCGCGGTTACGTGGGATTAGACAATAAACGGTTTGTGCCGACTGAGCTTGGGCAGATCGTGCTGGATCTTATCATGGAGTTTTTCCCGGAAATCATCAACGTTGAATTCACGGCTAAAATGGAAAGAGACCTTGACCATGTTGAAGATGGCCAGACAGAATGGGTTCAAATCATTGACAGCTTCTACACCGACTTCGAAAAACGCGTGAAAAAAGCGGAAGCCGAAATGAAAGAAGTGGAAATCGAACCTGAATACGCCGATGAAGATTGTGAGTTATGCGGCTCCCGGATGGTTTATAAAATGGGCCGATACGGCAAATTTATGGCGTGCTCCAACTTCCCTGACTGCCGGAATACAAAACCGATTGTCAAACAAATCGGCGTAAAATGTCCTAAGTGCCATGAAGGAAACATTGTCGAACGAAAATCAAAAAAGAAACGCGTCTTTTACGGCTGTGACCGTTATCCTGAATGCGACTTCGTATCTTGGGACAAACCGATTGAACGAAAATGCCCGAAATGTGAAAATATGCTCGTAGAGAAAAAGCTTAAAAAAGGCATACAAGTCCAATGCGTCGAATGCGATTATAAGGAAGAACCACAGAAGTAG	MSDYLVIVESPAKAKTIERYLGKKYKVKASMGHVRDLPKSQMGVDIEQNFEPKYITIRGKGPVLKELKTAAKKAKKVYLAADPDREGEAIAWHLAHSLDLDLSSDCRVVFNEITKDAIKESFKHPRMINMDLVDAQQARRILDRLVGYKISPILWKKVKKGLSAGRVQSVALRLIIDREKEINDFKPEEYWTITGSFLKGKETFEAGFFGKSGKKLPLKSEEDVKAVLAQLKGNKYTVDKVTKKERKRNPALPFTTSTLQQEAARKLNFRAKKTMMIAQQLYEGIDLGKEGTVGLITYMRTDSTRISNTAVEEASAFIDQAYGKEYLAGKRKPAKKNENAQDAHEAIRPTSVLRKPADLKAVLGRDQLRLYKLIWERFVASQMAPAVLDTMSVDLSNNGLTFRANGSKVKFAGFMKVYVEGKDDQLEEKDRMLPDLKEGDTVLSKDIEPEQHFTQPPPRYTEARLVKTLEELGIGRPSTYAPTLDTIQRRGYVGLDNKRFVPTELGQIVLDLIMEFFPEIINVEFTAKMERDLDHVEDGQTEWVQIIDSFYTDFEKRVKKAEAEMKEVEIEPEYADEDCELCGSRMVYKMGRYGKFMACSNFPDCRNTKPIVKQIGVKCPKCHEGNIVERKSKKKRVFYGCDRYPECDFVSWDKPIERKCPKCENMLVEKKLKKGIQVQCVECDYKEEPQK				NA	NA	NA	NA	NA
D1-12_00790	1308	trmFO	COG1206	Methylenetetrahydrofolate--tRNA-(uracil-5-)-methyltransferase TrmFO	ATGAACCAGCAAACAGTTAATGTAATCGGAGCAGGCCTTGCCGGAAGTGAAGCGGCATGGCAGCTTGCAAAACGAGGAATTCAAGTGAAACTATATGAAATGCGGCCCGTCAGGCAGACGGCAGCCCATCATACTGATAAATTCGCCGAACTGGTATGCAGCAACTCCCTCCGTTCAAATACACTCGCCAATGCGGTAGGCGTATTAAAAGAAGAAATGCGGGCCCTTGACTCGGCAATCATTCAATCTGCTGATAAATGCTCGGTTCCGGCAGGGGGAGCGCTTGCCGTTGACCGTCATGAATTTGCGCAAAGCGTGACGGATCTCGTGAAAAACCATCCGAACGTAACGGTTCTTACTGAGGAAGTAACAGAGATTCTGGAAGGCCCGACGGTTATCGCGACCGGACCGCTTACGTCAGAATCGCTTTCACAGCAGCTGAAAGAGCTCACGGGAGAAGAGTATCTGTATTTTTATGACGCGGCGGCGCCGATTGTCGAAAAAGACAGCCTTGATATGGAGAAAGTGTACTTAAAATCCCGTTATGACAAGGGAGAAGCGGCGTACTTAAACTGCCCGATGACAGAGGAAGAGTTCGACCGTTTCTATGAAGCATTGACGACGGCTGAGACGGTACCTTTAAAAGAATTCGAGAAAGAAATCTTCTTTGAAGGCTGCATGCCGATTGAAGTCATGGCGAAAAGAGGCAAGAAAACGATGCTGTTCGGACCGATGAAACCGGTCGGACTGGAAGATCCGAAAACAGGCAAGCGCCCTTATGCAGTCGTTCAGCTCAGACAGGATGATGCGGCGGGAACGCTTTATAATATTGTAGGTTTTCAGACACATTTAAAATGGGGAGACCAAAAAGAAGTGCTTAAACTGATCCCCGGCCTTGAAAATGTTGATATCGTCAGATACGGCGTCATGCACAGAAACACATTTATCAACTCGCCGAGCCTTTTGAACCCGACATATCAATTTAAACAGCGGAACGATCTGTTTTTCGCGGGCCAAATGACCGGCGTAGAGGGTTATGTTGAATCTGCCGCTTCAGGTCTTGTAGCGGGAATCAATGCCGCCAAACTTGTGCTCGGTCAGGATCTTGTGACATTCCCGCAGGAGACGGCGATCGGAAGCATGGCTCACTACATTACGACGACAAATCAGAAGAACTTCCAGCCGATGAATGCAAACTTCGGCCTCTTAAAAGAATTGCCTGTAAAAATTAAAAACAAAAAAGAACGAAATGAAGAATACGCTAAACGCGCAATTGAGACTATTCAAACTATTTCGAAAACGATATAG	MNQQTVNVIGAGLAGSEAAWQLAKRGIQVKLYEMRPVRQTAAHHTDKFAELVCSNSLRSNTLANAVGVLKEEMRALDSAIIQSADKCSVPAGGALAVDRHEFAQSVTDLVKNHPNVTVLTEEVTEILEGPTVIATGPLTSESLSQQLKELTGEEYLYFYDAAAPIVEKDSLDMEKVYLKSRYDKGEAAYLNCPMTEEEFDRFYEALTTAETVPLKEFEKEIFFEGCMPIEVMAKRGKKTMLFGPMKPVGLEDPKTGKRPYAVVQLRQDDAAGTLYNIVGFQTHLKWGDQKEVLKLIPGLENVDIVRYGVMHRNTFINSPSLLNPTYQFKQRNDLFFAGQMTGVEGYVESAASGLVAGINAAKLVLGQDLVTFPQETAIGSMAHYITTTNQKNFQPMNANFGLLKELPVKIKNKKERNEEYAKRAIETIQTISKTI				NA	NA	NA	NA	NA
D1-12_00791	918	xerC_1	COG4974	Tyrosine recombinase XerC	ATGACTGAGAATGTTAACTTTTTTTTAAAGTTATTCGTTGAATATTTACAAATTGAAAAAAATTATTCACAATATACTATTGTGAATTATGTTAATTCGATTGAAGAATTTGGGATGTTTCTGCATGCTCAAAATATAAATGGAATGAAAGAAGCTGCATATCATGATGTGAGAATATTTTTGACAGAGGCTTATGAAAAAGGCCTGTCAAGAAAAACAATCAGCAAGAAAATTTCAGCTTTGAGAAGCTTCTATAAATTTTTAATGAGGGAAAAGCTTGTTGAAGAGAATCCGTTTCAGCTTGTTCATCTGCCGAAACAAGAGAAACGGATTCCGAAGTTTCTTTATGAAAAAGAACTTGAGGAACTATTCGCTGTTTCAGACAGAAGTCAGCCGTCAGGGATGCGCGATCAGGCCCTGCTTGAGCTTCTTTATGCGACCGGAATGAGGGTCAGTGAGTGCTGTACGCTTACTGTCGGCGATCTTGACCTGTTCATGGATACGGTGCTCGTTCACGGGAAAGGCAAGAAGCAGCGTTATATCCCGTTCGGCTCATATGCCCGTGATGCGCTGGAGCTGTATATCAACAGCGGAAGGCAGTGCCTGCTTGAAAAAGCAAAAGAGCCTCATGATGTGCTGTTTGTCAATCAAAGAGGCGGCCCGCTGACCGCCAGAGGAATCCGGTATATTTTAAGCGGGCTTGTAAAAAAAGCATCCGGCACTTTACATATACACCCGCATATGCTTCGGCACACGTTTGCGACTCATCTGCTGAATGAAGGGGCTGATTTAAGAAGCGTCCAGGAGCTTTTGGGCCATTCCAATCTGTCTTCTACGCAGATATACACGCATGTATCGAAGGAAATGCTGAGAAACACATATATGTCCCACCACCCGAGAGCTTTTAAAGAAAATTAA	MTENVNFFLKLFVEYLQIEKNYSQYTIVNYVNSIEEFGMFLHAQNINGMKEAAYHDVRIFLTEAYEKGLSRKTISKKISALRSFYKFLMREKLVEENPFQLVHLPKQEKRIPKFLYEKELEELFAVSDRSQPSGMRDQALLELLYATGMRVSECCTLTVGDLDLFMDTVLVHGKGKKQRYIPFGSYARDALELYINSGRQCLLEKAKEPHDVLFVNQRGGPLTARGIRYILSGLVKKASGTLHIHPHMLRHTFATHLLNEGADLRSVQELLGHSNLSSTQIYTHVSKEMLRNTYMSHHPRAFKEN	PGPT0021995_2414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
D1-12_00792	546	clpQ	COG5405	ATP-dependent protease subunit ClpQ	ATGTCATCTTTTCATGCGACAACGATTTTTGCCGTCCGGCATAACGGAAAAAGCGCTATGTCAGGAGACGGCCAGGTCACATTCGGTCAGGCTGTAGTCATGAAACATACCGCAAGAAAAGTGAGAAAGCTGTTTAACGGAAAGGTTCTGGCCGGATTTGCGGGATCTGTTGCAGACGCTTTCACACTTTTTGAAATGTTTGAGGCGAAGCTTGAAGAATACAACGGCAATTTAAAACGTGCGTCGGTTGAGCTTGCGAAAGAATGGCGCAGCGATAAAGTGCTGCGCAAGCTGGAAGCCATGCTGATTGTCATGAACCAGGATACCTTGCTTCTCGTATCGGGAACAGGTGAAGTGATTGAGCCGGATGACGGCATTTTGGCAATCGGCTCCGGCGGAAACTACGCCCTGTCAGCAGGAAGAGCGCTGAAAACCTATGCCGGAGAGAATCTGTCCGCCAAAGATATTGCAAAAGCCGCTCTGAAAATCGCGGGCGAGATTTGTGTGTACACAAACGATCAGATCATTTTGGAAGAACTTGAATAG	MSSFHATTIFAVRHNGKSAMSGDGQVTFGQAVVMKHTARKVRKLFNGKVLAGFAGSVADAFTLFEMFEAKLEEYNGNLKRASVELAKEWRSDKVLRKLEAMLIVMNQDTLLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKTYAGENLSAKDIAKAALKIAGEICVYTNDQIILEELE				NA	NA	NA	NA	NA
D1-12_00793	1404	clpY	COG1220	ATP-dependent protease ATPase subunit ClpY	ATGGAAAACAAACCGTTAACACCGAGACAAATCGTAGATCGGTTGGATCAATACATTGTAGGACAGCAGGATGCGAAAAAAGCTGTCGCCGTGGCATTAAGAAACCGCTATCGCAGAAGTCTTCTTGATGAAAAACTGAGAGACGAGATCGTTCCCAAAAACATCCTGATGATGGGCCCGACCGGGGTGGGGAAAACAGAGATCGCCAGACGGATCGCCAAGCTTACCGGTGCGCCATTTATAAAAATTGAAGCGACAAAATTTACAGAAGTCGGCTATGTAGGCAGAGATGTCGAATCAATGGTCAGAGACCTCGTTGAGACATCCGTGCGGCTCATTAAAGAAGAAAAAATCAGCGAAGTGAAAGAACAGGCTGAAGAAAATGCAAACAAACGTATAGTGCGGCTTCTCGTTCCGGGAAAGAAAAAACAAGCGGGTGTGAAAAATCCGTTTGAAATGCTTTTCGGAGGAAGCCAGGCGGCAAATGATGATGAAGCCGACCAGCAGGAAGAAGCAAGCCTTGAAGAAAAAAGAAAACGCATGGCGCATCAGCTCGCATTGGGAGAGCTCGAAGACCATTACGTCTCCGTAGAGGTGGAAGAGCAGCAGCCGTCGATGTTTGACATGCTGCAAGGCTCCGGGATGGAGCAGATGGGCATGAATATGCAGGATGCGCTGAGCAATCTGGTGCCAAAAAAGAAAAAACGCCGCAAAATGACGGTCAGAGAAGCAAGGAAGGTTCTGACCAATGAAGAGGCAGGCAAATTAATCGATATGGATGAAGTCGGCCAAGAGGCCGTGTTAAGAGCTGAAGAGGGCGGCATTATCTTTATTGACGAAATAGATAAAATCGCAAAAAACGGAGGGGCTTCTTCCTCAGCAGATGTATCGAGAGAAGGCGTTCAAAGAGATATCCTTCCGATTGTCGAAGGCTCTACCGTCGTCACGAAATACGGCTCCGTCAAAACAGATCACGTGCTGTTTATCGCAGCCGGGGCATTCCATATGGCCAAACCGTCTGATCTGATTCCGGAGCTGCAGGGCCGCTTTCCGATTCGTGTAGAATTGAGCAAGCTGACGGTAGATGATTTTGTGAAGATTCTCGTCGAACCCGATAACGCGCTGTTAAAACAATATCAGGCTTTATTGCAGACAGAAGGTATATCTCTTGAATTTTCTGACGAAGCTATTCGTAAGATCGCCGAAGTGGCTTATCATGTGAATCAGGATACGGACAACATCGGAGCGAGAAGGCTTCACACGATATTGGAACGTCTCTTGGAAGACCTGTCGTTTGAAGCGCCGGACGTAACGATGGAAAAAGTAGCCATCACGCCGCAATACGTTGAAGAAAAGCTCGGAACGATTGCAAACAACAAAGATCTAAGTCAATTTATATTGTGA	MENKPLTPRQIVDRLDQYIVGQQDAKKAVAVALRNRYRRSLLDEKLRDEIVPKNILMMGPTGVGKTEIARRIAKLTGAPFIKIEATKFTEVGYVGRDVESMVRDLVETSVRLIKEEKISEVKEQAEENANKRIVRLLVPGKKKQAGVKNPFEMLFGGSQAANDDEADQQEEASLEEKRKRMAHQLALGELEDHYVSVEVEEQQPSMFDMLQGSGMEQMGMNMQDALSNLVPKKKKRRKMTVREARKVLTNEEAGKLIDMDEVGQEAVLRAEEGGIIFIDEIDKIAKNGGASSSADVSREGVQRDILPIVEGSTVVTKYGSVKTDHVLFIAAGAFHMAKPSDLIPELQGRFPIRVELSKLTVDDFVKILVEPDNALLKQYQALLQTEGISLEFSDEAIRKIAEVAYHVNQDTDNIGARRLHTILERLLEDLSFEAPDVTMEKVAITPQYVEEKLGTIANNKDLSQFIL				NA	NA	NA	NA	NA
D1-12_00794	780	codY	COG4465	GTP-sensing transcriptional pleiotropic repressor CodY	ATGGCTTTACTACAAAAAACACGAATTATTAACAGCATGCTGCAGGCTGCGGCAGGCAAACCCGTAAACTTTAAAGAAATGGCTGAAACGCTTCGTGACGTCATTGATTCTAATATTTTCGTCGTCAGCCGCAGAGGAAAGCTTTTGGGCTACTCTATTAATCAGCAGATTGAAAATGACCGCATGAAAAAAATGCTTGAAGACCGCCAGTTCCCGGAAGAGTACACGAGAAATCTGTTCAATGTTCCGGAGACGTCTTCAAACCTTGATATCAACAGCGAATACACGGCGTTTCCTGTAGAAAACAGAGACCTGTTCCAAGCGGGCTTAACAACGATCGTGCCGATCATCGGCGGAGGAGAGAGACTGGGCACGCTCATTCTGTCCCGTCTGCAGGATCAATTTGAAGATGATGATCTCATCCTTGCTGAATACGGAGCAACCGTTGTAGGAATGGAGATTTTAAGAGAAAAAGCGGAAGAAATCGAAGAAGAGGCGCGAAGCAAAGCAGTTGTTCAAATGGCGATCAGTTCTCTGTCTTACAGTGAACTTGAAGCGATTGAGCATATCTTTGAAGAGCTTGACGGAAACGAAGGCTTGCTTGTGGCAAGTAAGATTGCGGACCGTGTCGGCATCACGCGTTCAGTCATCGTTAACGCGCTGAGAAAGCTGGAAAGCGCAGGCGTCATTGAATCCAGATCACTGGGAATGAAGGGGACGTACATTAAAGTTCTGAACAACAAATTCCTTATTGAATTGGAAAACCTTAAATCTCATTAA	MALLQKTRIINSMLQAAAGKPVNFKEMAETLRDVIDSNIFVVSRRGKLLGYSINQQIENDRMKKMLEDRQFPEEYTRNLFNVPETSSNLDINSEYTAFPVENRDLFQAGLTTIVPIIGGGERLGTLILSRLQDQFEDDDLILAEYGATVVGMEILREKAEEIEEEARSKAVVQMAISSLSYSELEAIEHIFEELDGNEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGMKGTYIKVLNNKFLIELENLKSH	PGPT0016270_289	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0016270-codY-K03706	NA	NA
D1-12_00795	390	flgB	COG1815	Flagellar basal body rod protein FlgB	TTGGACTTATTTTCTGGAACTATACAAAATCTTGAGAATGCCTTGGGGAGAGCGGACATTAAGCAAAAAGTCTTAACTAATAATATCGCCAATATAGATACACCGAACTATAAGGCAAAAAAAGTCTCTTTCCGAAATTTGTTAGATCAGGAAACATCCAATCTTGAGGCTGTAAAAACCGACTATCGGCACGTTGACTTTACGGGTTCGGGGGACGATTATTCTATCGTGTCCAGCAGTGATACATCGTACCAGCAAAACGGAAACAATGTCGATATCGACAAAGAAATGACAGATTTAGCCGAAAACCAAATTAATTATCAGGCTTTGGTTGAAAGAATGAGCGGCAAATTCAATTCTCTGAAAACCGTCTTGACAGGAGGGAAATAA	MDLFSGTIQNLENALGRADIKQKVLTNNIANIDTPNYKAKKVSFRNLLDQETSNLEAVKTDYRHVDFTGSGDDYSIVSSSDTSYQQNGNNVDIDKEMTDLAENQINYQALVERMSGKFNSLKTVLTGGK	PGPT0015470_1862	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
D1-12_00796	453	flgC	COG1558	Flagellar basal-body rod protein FlgC	ATGAGTGGCTTTCAAAGCTTAAATATTTCGGGTTCCGCTTTAACTGCACAGCGTGTCCGGATGGACGTCGTGTCGTCCAACCTGGCCAATATGGATACAACGAGAGCGAAGCAGGTAAATGGCGAATGGGTGCCTTATAGAAGAAAGCTGGTATCTCTCCAATCCGGAGGCGAATCATTTTCGTCCCTTTTACATTCCAAGATGAACGGAACAGGAAGCGCGGGAAATGGCGTAAAGGTATCTGGTGTTACGGAAGACCCGTCCGCTTTTAATCTCGTTTATGATCCGGAGAATCCTGATGCGAATAAAGACGGATATGTACAAAAACCAAATGTAGACCCATTAAAGGAAATGGTGGATCTTGTCAGCAGCACGAGATCATATGAAGCAAACGTAACTGCATTAAACGCCTCCAAAGGCATGCTTTTGAAGGCCTTAGAAATCGGAAAGTAA	MSGFQSLNISGSALTAQRVRMDVVSSNLANMDTTRAKQVNGEWVPYRRKLVSLQSGGESFSSLLHSKMNGTGSAGNGVKVSGVTEDPSAFNLVYDPENPDANKDGYVQKPNVDPLKEMVDLVSSTRSYEANVTALNASKGMLLKALEIGK	PGPT0015475_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
D1-12_00797	321	fliE		Flagellar hook-basal body complex protein FliE	GTGGTTAACGCTATTACTCCTTTTCAGCTTCAACAAACCCAAAACACTCAAAACGTAACGAATCAATTAAACCAAACTCAAAAAACTGATTCTTCAAACCAAACAAGCTTTTCGGAGCTTTTAAAAAACTCTATTGATTCGTTAAATGAGTCACAAGTGAAATCTGACCAAATAACGAACGAACTGGCTGCAGGAAAGGATGTAAACCTTGACGAGGTCATGATCGCTGCCCAAAAAGCAAATATTTCTCTGACGGCCGCTACCGAATTCCGCAATAAAGCCGTGGAAGCCTATCAGGAGATCATGAGAATGCAGATGTAG	MVNAITPFQLQQTQNTQNVTNQLNQTQKTDSSNQTSFSELLKNSIDSLNESQVKSDQITNELAAGKDVNLDEVMIAAQKANISLTAATEFRNKAVEAYQEIMRMQM	PGPT0015515_1298	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
D1-12_00798	1611			hypothetical protein	ATGAATCGTACTCTAATGCAAATAAAAACCAAAACGGCAGCGTTTTGGAACAACAGATCAAAAACACAGAAGATACTCATGGTAAGCGGCTTGGCCGCATTCATTATTTTACTCATCGTCGTTATTATTTTTACTTCGTCTGAAAAGATGGTGCCTCTTTATAAAGATTTGTCCGCGGAAGAAGCGGGGAAGATTAAAGAAGAGCTCGATACGAAAAAGGTGTCTTCTGAACTTGCTGACGGCGGCACGGTCATTAAGGTTCCTGAGAGCCAAGTGGATTCGCTTAAAGTCCAGCTTGCCGCAGAAGGCCTGCCGAAAACGGGATCAATTGATTATTCGTTTTTCGGACAAAATGCGGGCTTCGGCCTGACGGATAATGAGTTTGACGTTTTAAAGGTTGAGGCGACTCAGACCGAATTGTCAAACCTGATAAATGAAATGGACGGTATTAAAAGCTCGAAGGTCATGATCAATATGCCGAAAGAAGCCGTGTTCGTCGGTGAAGATCAGCCGGCAGCATCCGCTTCAATCGTTTTGCAGATGAAACCGGGCTACTCGCTTGATCAAAACCAGATCAACGGGCTGTACCATCTCGTTTCTAAAAGTGTTCCGAACTTAAAAGAAGATAATATCGTCATAATGGATCAAAATTCTACATATTATGACAAAAGTGAAAGCGGTGCAGGGTCCGTTTCTGACAGTTATGCTTCTCAGCAAGGTATTAAGTCGCAGGTCGAAAAGGACGTTCAAAAACATGTTCAGTCACTGCTCGGCACAATGATGGGGCAGGATAAGGTCGTTGTTTCCGTGACGGCGGATATTGACTTCACGAAGGAAAAACGCACTGAAGACACTGTCGAACCTGTCGATAAAGATAACATGGAAGGCATAGCGGTAAGCGCCGAAAAAGTTGCGGAAACGTATAAAGGCGACGGCGCGGCCAACGGCGGCACGGCCGGAACGGGAAGCAATGACACCGCGAACTATGCCGAGACAAACGGCGGTTCAAACAGCGGCGACTACGAAAAAAGCAGCAATAAAATCAACTATGAAGTCAACCGCATTCATAAAGAAATCGCTGAAAGCCCGTATAAAGTGCGTGATTTAGGCATTCAGGTCATGGTGGAGCCGCCTAATCCGAAAAATGCCGCTTCCTTATCAGCGCAGAGACAGGCTGATATACAGAAGATTTTAGGAACGGTCGTCAGAACGTCTCTTGATAAAAACGAAACGCAAAATCAAAACCTGACAGACAATGATATCAACAATAAAATCGTTGTATCCGTTCAGCCGTTTGACGGAAAAACAAGCCTGAACACAGATTCGGCACAATCTTCAGGTCTTCCGATCTGGGTATACATTACAGGCGGCGTACTGCTTGCGGCCATTATTCTGCTTATTATTCTCCTTATCAGAAAGAAACGCTCACAAGAGGATGAATACGAAGAATATGAATATGAAACACCGCCGGAGCCGGTTCGATTGCCTGATATCAACGAAGAGAAAATTGAAACGGAAGAAACAGTCAGACGAAAACAGCTTGAAAAAATGGCTAAAGAAAAACCGGAAGACTTTGCTAAATTGCTTCGAAGCTGGCTGGACGAGGATTAG	MNRTLMQIKTKTAAFWNNRSKTQKILMVSGLAAFIILLIVVIIFTSSEKMVPLYKDLSAEEAGKIKEELDTKKVSSELADGGTVIKVPESQVDSLKVQLAAEGLPKTGSIDYSFFGQNAGFGLTDNEFDVLKVEATQTELSNLINEMDGIKSSKVMINMPKEAVFVGEDQPAASASIVLQMKPGYSLDQNQINGLYHLVSKSVPNLKEDNIVIMDQNSTYYDKSESGAGSVSDSYASQQGIKSQVEKDVQKHVQSLLGTMMGQDKVVVSVTADIDFTKEKRTEDTVEPVDKDNMEGIAVSAEKVAETYKGDGAANGGTAGTGSNDTANYAETNGGSNSGDYEKSSNKINYEVNRIHKEIAESPYKVRDLGIQVMVEPPNPKNAASLSAQRQADIQKILGTVVRTSLDKNETQNQNLTDNDINNKIVVSVQPFDGKTSLNTDSAQSSGLPIWVYITGGVLLAAIILLIILLIRKKRSQEDEYEEYEYETPPEPVRLPDINEEKIETEETVRRKQLEKMAKEKPEDFAKLLRSWLDED	PGPT0015430_2113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
D1-12_00799	1017	fliG	COG1536	Flagellar motor switch protein FliG	ATGGCGAAACGTGATCAGAACAAGCTTACAGGAAAACAAAAAGCAGCCATCCTCATGATTTCCTTAGGCCTTGATGTATCAGCTTCTGTGTACAAGCATTTGTCTGAAGAAGAAATTGAAAGATTGACACTCGAGATTTCGGGAGTCAGAAGCGTCGATCATCAAAGAAAAGATGAAATCATTGAAGAATTTCATAATATCGCAATCGCTCAGGACTATATTTCACAAGGCGGTTTAAATTACGCCCGCCAAGTGCTTGAAAAAGCGCTCGGAGAAGACAAAGCGGTAAGCATTTTAAACAGGCTCACCTCTTCTTTGCAGGTAAAGCCGTTTGATTTCGCAAGAAAAGCGGAACCCGAACAGATTTTAAATTTCATTCAGCAGGAACATCCGCAAACGATGGCGCTGATTTTATCCTACCTTGACCCGGTGCAGGCCGGACAGATTTTGTCTGAGCTGAACCCGGATGTTCAGGCTGAGGTGGCAAGAAGGATTGCGGTTATGGACAGAACGTCTCCTGAAATCATAAATGAAGTGGAGCGGGTCCTTGAACAAAAGCTGTCCTCCTCCTTTACGCAGGACTATACGCAGACCGGCGGCATAGAAGCCGTTGTTGAAGTGTTAAACGGCGTAGACAGAGGAACGGAAAAAACGATCCTTGATTCATTAGAAATCCAAGATCCTGAGTTGGCGGATGAAATCAAAAAACGGATGTTTGTCTTTGAAGATATTGTCACCCTTGATAACCGTGCGATTCAGCGCGTGATCAGAGACGTTGAAAACGACGACCTCCTGCTTTCATTGAAGGTTGCGAGCGAGGAAGTCAAAGAAATCGTCTTCAGCAATATGTCACAGCGCATGGTTGAAACGTTTAAAGAGGAAATGGAAATTATGGGGCCTGTGCGTTTGCGTGATGTGGAAGAGGCGCAATCAAGAATCGTGGGCGTCGTCCGCAAGCTGGAAGAAGCCGGAGAAATTGTAATCGCGCGAGGCGGAGGAGACGATATTATTGTCTAA	MAKRDQNKLTGKQKAAILMISLGLDVSASVYKHLSEEEIERLTLEISGVRSVDHQRKDEIIEEFHNIAIAQDYISQGGLNYARQVLEKALGEDKAVSILNRLTSSLQVKPFDFARKAEPEQILNFIQQEHPQTMALILSYLDPVQAGQILSELNPDVQAEVARRIAVMDRTSPEIINEVERVLEQKLSSSFTQDYTQTGGIEAVVEVLNGVDRGTEKTILDSLEIQDPELADEIKKRMFVFEDIVTLDNRAIQRVIRDVENDDLLLSLKVASEEVKEIVFSNMSQRMVETFKEEMEIMGPVRLRDVEEAQSRIVGVVRKLEEAGEIVIARGGGDDIIV	PGPT0015400_1175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
D1-12_00800	756			hypothetical protein	TTGTCTAATATCATTAAACAGCAATCATCATTTTCTCCTGAACAAAAACGGCGCAAGCTTTCCTTGCAGGAAGTCAGGAAAACACATTCCCAGCCAGACCGGGAGGAACCCGAAAATCCAGAGGCTCTCATGGCTTTTGCCAAAGCAGAAGCCGACAGGGTGTCTGAAGAAGCGAAAAATCAATTTGAGCACACTCTTCGTCAGATTGAAGAAGAGAAACACCGCTGGGCGGAAGAAAAACAAAGATTGATAGAAGAAGCAAAGGCAGAAGGATATGAAGAAGGCATGGCATTGGGAAAAGCCGAGGCTCAAGCTGAATACGCCAATCTCATCAGCCGGGCCAATGCCGTTATGGAAATGGCGAGACAGTCAGTCGAGGAAAAACTGGAAAGCGCTGAGGAAGAAATCATTGAGCTTTCCGTTGCGCTCGCTAAAAAAGTATGGCGGCAAAAAAGTGATGATAAAGAGGCTTTCCTTCTGCTGGTCAAACAGGTAGTAGCCGAAGTAAAAGATTATGATGACATCTCCATCTATGTGGACCCTGAATATTATGAGACGGTTCATCAGCATATGGACGAAATTCAGCAGCTGTTATACAAAGAATGCAGATTAAGCTTATATGCCGATGAAAAAGCCGCGAAGGGAACGTGCTCGATAGAAACTCCGTTCGGACGTGTCGATGCAGGCATAGATACCCAGCTGATGCAATTAAAGCAAAAACTTTTAACGGCGCTTGAGGCGGGAGCGGAGCAATGA	MSNIIKQQSSFSPEQKRRKLSLQEVRKTHSQPDREEPENPEALMAFAKAEADRVSEEAKNQFEHTLRQIEEEKHRWAEEKQRLIEEAKAEGYEEGMALGKAEAQAEYANLISRANAVMEMARQSVEEKLESAEEEIIELSVALAKKVWRQKSDDKEAFLLLVKQVVAEVKDYDDISIYVDPEYYETVHQHMDEIQQLLYKECRLSLYADEKAAKGTCSIETPFGRVDAGIDTQLMQLKQKLLTALEAGAEQ	PGPT0015335_1102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
D1-12_00801	1317	yscN		putative ATP synthase YscN	ATGAAGACACAGTATTTAATAGACTCAATTGAAACAGCGGATCCGTACAAGCGCTACGGCAAGGTTAAACGGGTCATCGGGCTGATGATTGAATCAAAAGGGCCCGAAAGCTCAATCGGAGATGTTTGTCTCATTTATCCGAAAGGCCATGCGAAAAAAGCGATTAAAGCTGAGGTTGTAGGCTTCCAGGATGAAAACATTCTGTTAATGCCTTATCTGGAAGCGGCCAGCATCGCGCCGGGCAGCATTGTGGAGGCCACTGGCGAGTCGCTCCGCATCAAAGTAGGCGCGGGTTTAATCGGACAAGTTGTCGACGCGTTCGGCGAACCTCTTGACGGCCGGGCGCTTCCGAAAGGTTTGTCCCCCGTTTCGACGGAACAGCCGCCTCCAAACCCGATGAAACGCCCGCCGATACGGGAAAAGATGGGTGTCGGCGTCAGATCGATTGACAGTCTGCTGACGGTAGGAAAAGGGCAGAGAATCGGGATTTTTGCCGGAAGCGGGGTCGGAAAAAGCACCCTGATGGGAATGATCGCGAAGCAGACTGAAGCTGATTTAAACATTATCGCACTCGTCGGTGAACGGGGGCGCGAGGTGCGTGAATTCATCGAGAAGGATTTAGGCGAAGAAGGCCTGAAACGCTCGATCGTCGTAGTCGCGACCTCTGATCAGCCCGCCTTAATGCGTTTGAAAGCGGCGTATACGGCCACCGCCATTGCAGAGTATTTCCGCGATAAAGGCCGGAATGTGATGTTCATGATGGACTCCGTCACGAGGGTCGCGATGGCTCAGCGGGAAATCGGCCTGGCAGCGGGAGAACCGCCGACAACAAAAGGATATACACCTTCCGTGTTCGCTATTTTGCCCCGTTTGCTGGAAAGAACGGGCGCGAATGAACAAGGAACGATAACCGCTTTTTATACGGTTCTCGTTGACGGAGATGATATGAACGAACCGATTGCCGATACGGTGCGCGGAATATTAGACGGGCATATCGTTCTCGATCGGGCGCTTGCCAACAAAGGGCAGTTCCCGGCCGTGAATATCCTGAAAAGCATCAGCAGGGTCATGTCTAATATTTCAGACACATCGCATATAGAGGCGGCCAACAAATTCCGCGATCTTCTGTCAACTTATCAAAACTCTGAAGATCTCATTAATATCGGAGCTTACAAAAGAGGGTCATCAAGAGAAATTGATGAAGCGATTCAGTTTTATCCGCAGCTTATTCAATTTTTAAAACAAGGAACGGAAGAACCTGCTCAATTGGAAGACAGCATTGCGGCATTGACGAGTCTGACAGGAAAAGAGGAATAA	MKTQYLIDSIETADPYKRYGKVKRVIGLMIESKGPESSIGDVCLIYPKGHAKKAIKAEVVGFQDENILLMPYLEAASIAPGSIVEATGESLRIKVGAGLIGQVVDAFGEPLDGRALPKGLSPVSTEQPPPNPMKRPPIREKMGVGVRSIDSLLTVGKGQRIGIFAGSGVGKSTLMGMIAKQTEADLNIIALVGERGREVREFIEKDLGEEGLKRSIVVVATSDQPALMRLKAAYTATAIAEYFRDKGRNVMFMMDSVTRVAMAQREIGLAAGEPPTTKGYTPSVFAILPRLLERTGANEQGTITAFYTVLVDGDDMNEPIADTVRGILDGHIVLDRALANKGQFPAVNILKSISRVMSNISDTSHIEAANKFRDLLSTYQNSEDLINIGAYKRGSSREIDEAIQFYPQLIQFLKQGTEEPAQLEDSIAALTSLTGKEE	PGPT0015340_2136	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
D1-12_00802	444	fliJ	COG2882	Flagellar FliJ protein	GTGGCATACCAATTCAGATTTCAAAAGCTGCTGGAATTAAAAGAAAATGAAAAAGACCAAACATTGACTGAATACAGACAATCGGTTTCTGAATTTGAGACAGTGGCTGAAAAACTATATGAAAATATGAGCAAAAAAGAATTGCTCGAAAAAGACAAAGAATCAAAGCTGAAATGCGGGATGAGCGTTCAGGAAATGAGACATTATCAGCAATTCGTTTCCAATCTTGAGAACACCATCTATCATTATCAAAAGCTTGTCATCATGAAACGAAATGAAATGAATGAGAAGCAGGAACAGCTCACCGAAAAAAACATTGAAGTAAAGAAATTTGAAAAAATGCGGGAAAAACAATTTAACATGTTCGCACTTGAAGACAAAGCTGCAGAGATGAGGGAAATGGACGACATTTCAATCAAGCAGTTTATGATTCAGGGGCATTAG	MAYQFRFQKLLELKENEKDQTLTEYRQSVSEFETVAEKLYENMSKKELLEKDKESKLKCGMSVQEMRHYQQFVSNLENTIYHYQKLVIMKRNEMNEKQEQLTEKNIEVKKFEKMREKQFNMFALEDKAAEMREMDDISIKQFMIQGH	PGPT0015615_998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413	NA	NA
D1-12_00803	615			hypothetical protein	ATGGCCGATAAAGAAAAGAGATCTGGAAAGTTCGGTTCAATCCTGCTTTTTATCATGATCCCGCTAATTTTTCTGATCATCGTCGCAAGCATCATCCTTTGGGCTGCCGGCGTTGATGTGATGAAGCCGATTCAGGAAACAGCCGCTAAAACGCCTGTTTTAAAAGAATTGGTTCCCGAAACGAAAGAAATGAAAAGCGCGGCGGAAAAGCAGAAGGAAGACAGAACGGCTTCTCTTGAAAAGACCATAAAGGAACAAAAAAGTGAAATTAACATTTTGAATAAAGATTTAGACACAAGCAAGTCCGAAATCGATAATCTGAATCAGAAAATCCGTTCACTGAAACAGGAAGCTGAACAGCAGCAGAAAACGAAGACGGATGAAACGAAAAAAGACGCTTCGGATTCAGCCGGAAAAGATAAAATGATCAACATCTATAAAAGTATGGACAGCGGTAAAGCGGCAAGCATTATCGTAAAGCTGAAAGAAAAAGAAGCCCTCGATATTTTAAACGGATTAAGTAAAAAGCAGCTTGCTGAAATCTTGACGAAAATGACTCCTGAACAAGCGGCTAAATATACAGAAAAACTATCCGCTGACGGAAATAAGGAGTGA	MADKEKRSGKFGSILLFIMIPLIFLIIVASIILWAAGVDVMKPIQETAAKTPVLKELVPETKEMKSAAEKQKEDRTASLEKTIKEQKSEINILNKDLDTSKSEIDNLNQKIRSLKQEAEQQQKTKTDETKKDASDSAGKDKMINIYKSMDSGKAASIIVKLKEKEALDILNGLSKKQLAEILTKMTPEQAAKYTEKLSADGNKE				NA	NA	NA	NA	NA
D1-12_00804	1338			hypothetical protein	TTGAAGCTGCTTGAATTAACGGGTAATCGTACGCAGACTGCGCAAAACAGCAATGTGAAGATGAATGTAAACAGCTTAGGTCTATTTCAGAACTGGCTCCTGTCGGAAATCACTTCTCCCCGGCAGCCCGGAGATGAAACAAAAACAAGTGACGCTGAGCTGAATGATGCCCTATCGAAAATCGGTGATTGGCTGAAAGCCGGCCCGGAAGATAAAGAATTGCAGCTAAAACAGCTGCTTGAGGCGGTAAAAGCTCTTGAAGGAAAGCAGACGGCTGAAACAGCTCTTCCTTTATTGAAACAGCTTGCCGAATCTGTTGAAGACATGTTAGCGGGAAAACAGCATGGGGGGAAGCCTGAAACGGATGAGCCGGATTCTTCCGCAAAAGACGGGGATTCCGTCAATGATGCGCTTGAGAAGGGGCTGCTGTTCATTCAAGAAGCCGTATCCCAGCTCTTCACATCTCAGCAGGAACTGCCTGACAGCGCGCAGGCAAAGGCGGTTTACCAGGAAGGCGCCCGTTTATTAGAGGCATTGAAAAAACAAGGTGTCCCGGACCGCGTGATTCAAGACCTGCGGCAGACATTTTTTCCGAAAAACGAATCTGCATCTAAACTTTACTCCATGACAGCCGCTGAGCTGAAGAGCTTTCAAAGCGTCACGGAGCAGCTTGCGGGCCTTTCTCAAAAGGGGACAAAGGATTGGGATATGGCTGAAACTGAGCTGAAAGCTTTTGTGTTATCTCAATCATCTGAATCATCCCAAGAGTCAGCCGGGAAAACAGAACAGCAAAACGGCACGGTTTCTCACGCAAAGGAGCCTGACAGCAAATTGTCTGCACATATACTGTTTTCGGGAACGAGAAGCCTTGCCGGCATTCAGCAAACGTCCGCAGGGGAACAGCAGCCGGCAGAAAATAAACCGTTAACGGATCAGGTCATCAGCGGCTGGAAACAGATGAAATACACGCCTTTCGGGAAAACAACCGGAAGCTTTACGATTCGTCTTAATCCCGAGAACCTCGGATTTGTCACAATTAAGGTGACAAACGAAAACGGGATGTTTCAAAGCAAAATAATCGCATCCAGCCAGTCCGCGAAAGAGCTGCTGGAACAACATCTTCCTCAGCTGAAACAGTCGCTTCCGAATATGGCGGTCCAAGTCGACCGTTTTACAGTCCCGCTTCAAAGCGGGGATCAGCAGCCTGTTTACGGACAGACGGCCGATCACAATAAACAGCAGCATCAGGGACAGAGAGAGCAGAAGAACCAGCAGCAGTCAGGCGATTTCGGAGATATGCTGGAGGAGCTTTCTCTCAATGAAATGGAGGAAGAATAG	MKLLELTGNRTQTAQNSNVKMNVNSLGLFQNWLLSEITSPRQPGDETKTSDAELNDALSKIGDWLKAGPEDKELQLKQLLEAVKALEGKQTAETALPLLKQLAESVEDMLAGKQHGGKPETDEPDSSAKDGDSVNDALEKGLLFIQEAVSQLFTSQQELPDSAQAKAVYQEGARLLEALKKQGVPDRVIQDLRQTFFPKNESASKLYSMTAAELKSFQSVTEQLAGLSQKGTKDWDMAETELKAFVLSQSSESSQESAGKTEQQNGTVSHAKEPDSKLSAHILFSGTRSLAGIQQTSAGEQQPAENKPLTDQVISGWKQMKYTPFGKTTGSFTIRLNPENLGFVTIKVTNENGMFQSKIIASSQSAKELLEQHLPQLKQSLPNMAVQVDRFTVPLQSGDQQPVYGQTADHNKQQHQGQREQKNQQQSGDFGDMLEELSLNEMEEE	PGPT0015520_1336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015520-fliK|motD-K02414	NA	NA
D1-12_00805	441			hypothetical protein	TTGACATCAGTAAACTCGGATTATGCCGCGGCGGGCGCTTCAACCACTTCAAGCGCGAAGAGCACCTCCGCAGTAAACAGCAGCACGAATTTAGGGAAAGACGAATTTCTGAAGATCTTAATGACACAGGTTCAAAACCAGGACCCGCTCAATCCGGTTGATGACAAAGAATTCATCAGCCAGATGGCGACATTTTCTTCATTGGAGCAAATGATGAATATGAATACGACGATGACTAAATTTGTAGAAAATCAAGATCCGTTTACGATGTATGTGAACTGGATCGGCAAAAATGTCACATTCAGCGACAGCGACGGGAAGGATCAGACAAGCCCGGTCAATTCAGTCAAGCATTCAAACGGCAATTACGTGCTCGTGCTTGAAAATGGCAAAGAGGTCAGTCCGTGGAATGTCACGGCCGTCAGCGAAACATCTAAATAA	MTSVNSDYAAAGASTTSSAKSTSAVNSSTNLGKDEFLKILMTQVQNQDPLNPVDDKEFISQMATFSSLEQMMNMNTTMTKFVENQDPFTMYVNWIGKNVTFSDSDGKDQTSPVNSVKHSNGNYVLVLENGKEVSPWNVTAVSETSK	PGPT0015480_2413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
D1-12_00806	777	flgG_1	COG4786	Flagellar basal-body rod protein FlgG	ATGTTACGTTCATTATATTCCGGTATCAGCGGCATGAAAAACTTTCAGACAAAACTAGATGTAATCGGCAATAACATCGCCAACGTCAACACAGTGGGATTTAAGAAAAGCCGCGTTACATTTAAAGATATGATCAGCCAGACAGTCGCCGGCGGTTCAAACGTGACCAATTCAAAACAAATCGGCTTGGGTGCCGCGACTTCTTCCATTGATGTCGTTCATTCAACCGGCGCCCCGCAGGCTACACAGAATAAAACCGACCTAGCCATTGACGGAGACGGCTACTTTCAGATTAATACAGGCGCGGGAATTGTTTACACACGTGCGGGGAATTTCGGAAAGGACAATCAAGGGAACCTTGTTACGACTGATGGGTACTACCTTGAAAAAATCGGCGGCGGCAAAATCAATATTCCGACTGATGCGAAAGATTACAGCATCGGTGCAGACGGAACCGTTACATACACTGATGCAGGGGATGAGGTTCATGATGCCGGACAAATCGGTCTGGTCACGTTCCCTAACAGCGCCGGTCTGGAAAAAATCGGAGGCAACCTTTACAGAGAATCATTAAGTTCAGGAGCTGCGAGCGCAGTCACCACTCCGGGCGAAAACGGCACGGGTAAGCTCTTGGCAGGCTATCTTGAAATGTCAAACGTAGATCTGACAGATGAATTTACCGAAATGATCGTTGCTCAGCGGGGTTTCCAATCAAACTCAAAAATCATTACGACTTCAGATGAAATCCTTCAGGAGCTGGTTAATCTGAAACGGTAA	MLRSLYSGISGMKNFQTKLDVIGNNIANVNTVGFKKSRVTFKDMISQTVAGGSNVTNSKQIGLGAATSSIDVVHSTGAPQATQNKTDLAIDGDGYFQINTGAGIVYTRAGNFGKDNQGNLVTTDGYYLEKIGGGKINIPTDAKDYSIGADGTVTYTDAGDEVHDAGQIGLVTFPNSAGLEKIGGNLYRESLSSGAASAVTTPGENGTGKLLAGYLEMSNVDLTDEFTEMIVAQRGFQSNSKIITTSDEILQELVNLKR	PGPT0015485_3096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
D1-12_00807	420			hypothetical protein	ATGAAGAAAAAATTAGTCATCATTTTGCTGATTATTTTAATTGTCATCGCCGGCCTCGGAACGGCAGCATATTTTGTCGTCAGCGGAAATTCCGGCAAAGATAAAAAGCCGACAATTGACGAAGTCGTTGCAGCCACTGTGTCTGTCGACGATATTACGACAAACTTAAAGTCTGACAGCATCATCCGTATCGGCATCAAGCTTGAAACCGACTCGGCTAAAGCGAAGGAAGAACTTGAAAAACGCGATTTTCAGGTGAAAGACAACATCATTTCCATTTTAGCCGACACAAGCGCCGGAGAGATTGAGGGAGATAAAGGAAGAGAAGCGTTTAAACAATCATTAAAAGAGAAAGTAAACAGCTATCTCCAAGAAGGAAAAGTTCAGAAAGTGTACATTACCTCCTTTAATCTGCAATAA	MKKKLVIILLIILIVIAGLGTAAYFVVSGNSGKDKKPTIDEVVAATVSVDDITTNLKSDSIIRIGIKLETDSAKAKEELEKRDFQVKDNIISILADTSAGEIEGDKGREAFKQSLKEKVNSYLQEGKVQKVYITSFNLQ	PGPT0015525_2614	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
D1-12_00808	999	fliM	COG1868	Flagellar motor switch protein FliM	ATGTCAGGAGAAGTTCTCTCCCAAAATGAAATAGACGCACTGCTTTCCGCCATTTCCACGGGTGAGGCGGATGCGGAAGAGCTGAAAAAGGAAGTAAAAGAGAAAAAAGTAAAGGTATATGATTTTAAACGGGCTCTCAGATTCTCGAAAGATCAGATACGCAGTTTAACCCGGATACATGATAACTTTGCGAGGCTTCTCACAACACACTTTTCCGCCAAGCTCAGAACGTATATTCATATATCCGTCAGCTCAGTTGATCAGGTGCCGTATGAAGAATTTATCCGTTCCATACCGAACATGACGATTTTAAATTTATTCGATGTCCATCCGATGGAAGGCAGAATCATGATGGAGGTTAATCCCACCATCGCATACGCAATGCTTGACCGCGTCATGGGAGGCATCGGCATCACTCATAACAAAGCTGACAGCCTTACGGAAATTGAAACGAATATTATTTCTAACTTATTTGAAAATGCACTGGGCAACTACAAAGAAGCGTGGCAATCGATTGCTGATATTGACCCTGAAATGACTGAATTTGAAGTGAATCCTCAGTTTGTGCAGATGGTTTCCCCAAATGAAACAGTCGTTGTCATTTCTCTCAATACACAGATAGGTGAAATCAGCGGTGTCATTAATCTTTGTATTCCCCATGTCGTACTTGAGCCGATTATCCCTAAGCTTTCCGTACATTATTGGATGCAATCAGACCGGAATGAAGCGAAGCCCGAAGAAACGAAGTTGCTTGAAAAGCGCATCATGACGGCTCAAATTCCCGTTGTGGCTCTCTTGGGCGCTTCTGAACTGACAATAGAAGAATTTTTAAGTTTGGAAGTCGGGGACTGTATAACTCTGGACAAATCAGTGACTGATCCTCTTACTGTATTGGTCGGAAACAAACCGAAGTTTTTAGGGCAGGCCGGCCGGGTGAATCGAAGACAGGCAGTGCAAATTTTAGATCACGACATAAGAGGTGAACAAGATGAACAATAG	MSGEVLSQNEIDALLSAISTGEADAEELKKEVKEKKVKVYDFKRALRFSKDQIRSLTRIHDNFARLLTTHFSAKLRTYIHISVSSVDQVPYEEFIRSIPNMTILNLFDVHPMEGRIMMEVNPTIAYAMLDRVMGGIGITHNKADSLTEIETNIISNLFENALGNYKEAWQSIADIDPEMTEFEVNPQFVQMVSPNETVVVISLNTQIGEISGVINLCIPHVVLEPIIPKLSVHYWMQSDRNEAKPEETKLLEKRIMTAQIPVVALLGASELTIEEFLSLEVGDCITLDKSVTDPLTVLVGNKPKFLGQAGRVNRRQAVQILDHDIRGEQDEQ	PGPT0015405_935	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
D1-12_00809	1137			hypothetical protein	ATGAACAATAGATTATCTCAAGATGAAATCGATGCTCTTCTTAACGGCACAAGCAGTCAATCAGAGGATACAGAACAGCCTCAAGAGGCGAACTTGTCTGAACTTGAGCGCGATGCGATCGGAGAAATCGGGAATATTTCGTTCGGCAGCTCGGCTACGGCGCTGTCCACTCTTTTAAATCAAAAAGTGGACATTACGACGCCGAGTGTGACCGTCATTTCAAAAAGCAAAATCAGTGATGAATTTCCTCATCCGTATGTTGCCATTGAAGTGAACTACACAGAAGGCTTTGACGGCAGCAATTTGCTCGTCGTCGAACAAAGCGACGCGGCCATCATCGCGGATTTGATGATCGGCGGGGACGGCCGGGGCGCCGATCCGTCACTCGGTGAAATCCACCTGAGCGCCGTGCAGGAAGCAATGAATCAAATGATGGGCTCGGCTGCGACGTCAATGTCGACCGTGTTCAGTAAAAAGATTGACATTTCTCCGCCAAGGGTTGAACTTCTGGATGTGACGGAAGAAAAAGGGACCGATAGAATACCTGAGGATGACCTGCTCGTAAAAGTGTCATTCCGTCTGAAAGTCGGTGAATTAATCGATTCGAGCATCATGCAGCTTTATCCGATTACGTTTGCGAAAGATCTGATCGCAGAACTGATGACTGCAGACCAGCATGAGTCAGAGGCCGCAGAAACCGTATCAGAACCTCAGGAAACATACGAAACGCCGCAGCCGGAACCTGCCATGCAGCCGGAGCCGCAGGCAAAACCCGAGCTTCCGAAGAGACAGGGAACCGCAAAAAAAGCTGCTCCTGTTCAAGTCGCTCCGGTAGAATTCCAGGCGTTTGATCATAACGAAGCGGCGCAAGGATCAAGGAATAACCTTGATATGCTGATGGATATTCCGCTTTCCGTTACGGTTGAGCTCGGCAGAACGAAGAGAAGCGTCAAAGAAATCCTTGAACTTTCTGCGGGAAGTATTATTGAGCTTGACAAGCTGGCTGGTGAACCTGTTGACATCTTGGTCAACCAGCGGATCGTGGCAAAAGGCGAGGTCGTCGTCATAGAAGAAAACTTCGGCGTGAGAGTCACTGATATTTTAAGTCAGGCAGACCGCCTTAACAATTTAAAATAA	MNNRLSQDEIDALLNGTSSQSEDTEQPQEANLSELERDAIGEIGNISFGSSATALSTLLNQKVDITTPSVTVISKSKISDEFPHPYVAIEVNYTEGFDGSNLLVVEQSDAAIIADLMIGGDGRGADPSLGEIHLSAVQEAMNQMMGSAATSMSTVFSKKIDISPPRVELLDVTEEKGTDRIPEDDLLVKVSFRLKVGELIDSSIMQLYPITFAKDLIAELMTADQHESEAAETVSEPQETYETPQPEPAMQPEPQAKPELPKRQGTAKKAAPVQVAPVEFQAFDHNEAAQGSRNNLDMLMDIPLSVTVELGRTKRSVKEILELSAGSIIELDKLAGEPVDILVNQRIVAKGEVVVIEENFGVRVTDILSQADRLNNLK	PGPT0015410_380	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
D1-12_00810	363	cheY_1	COG0784	Chemotaxis protein CheY	ATGGCACACAGAATTTTAATTGTAGACGATGCAGCATTTATGAGAATGATGATCAAAGATATTTTAGTGAAGAACGGTTTTGACGTTGTAGCTGAAGCTTCAGACGGAGCGCAGGCGGTCGAAAAATTCAAAGAGCATTCCCCCGACCTTGTGACAATGGATATTACAATGCCTGAAATGGACGGGATTACTGCTTTAAAGGAAATTAAACAAATTGATCCGCAGGCGAAAATCATCATGTGTTCGGCTATGGGCCAGCAGTCAATGGTTATTGACGCAATTCAAGCCGGCGCAAAAGACTTTATCGTGAAACCGTTCCAAGCGGACCGCGTGCTTGAAGCCATTAATAAAACATTAAGCTAA	MAHRILIVDDAAFMRMMIKDILVKNGFDVVAEASDGAQAVEKFKEHSPDLVTMDITMPEMDGITALKEIKQIDPQAKIIMCSAMGQQSMVIDAIQAGAKDFIVKPFQADRVLEAINKTLS	PGPT0015690_4550	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
D1-12_00811	654			hypothetical protein	TTGAAAAAGAGTCATGGTTTACTAGCTTTGATTTGTTGTTTCGTTTTACTCAATGTACATCCGTTCCCTGCTTTTGCGGCGGAGTCTGACAATTCCACCGTCAACGAATGGTTTGACAAACAATCAACAAACAAAACAGAGAAAAAAAGCGATACATCGAAACAAACGGCTGATCAAGAGATAGGGGATGCTTCTGCATCTTCTGTCTCCGCTTTTGATTTTGTAAAGATGATTGGGGCGTTATTATTCGTCATTCTGCTGATCTATGGATTTGTCAAACTGATGAATAGAAGAAACCGTCTGTTGAAGCCGTTTCAATATGTAGAAAATATCGGCGGAACGTCAGTCGGCCAAAACCGTTCCGTGCAGCTGATTAAAGTGGGAAACAGCGTTCTCGTAGTCGGTGTGGGCGAAACGATACAGCTTTTAAAAGAAATTGAAGATGAAAAAGAGCGCGAGGCGATTCTGAGCCAATACGAAGAGTCGATGTCTTCAAAAGTGGAATGGACCAAGCTCGTAAATCCGCGTAAGGATGGAGAAAAAAAGCCGCAAACGATGCTTCCGTCGTTTTCAAAAGCGCTGAAAGAACAGTTGAACGAGCTGAAACAAAGCCGTTCTGAAGGAAAGAAGAAAGGCCCTTATCATCATGAATGA	MKKSHGLLALICCFVLLNVHPFPAFAAESDNSTVNEWFDKQSTNKTEKKSDTSKQTADQEIGDASASSVSAFDFVKMIGALLFVILLIYGFVKLMNRRNRLLKPFQYVENIGGTSVGQNRSVQLIKVGNSVLVVGVGETIQLLKEIEDEKEREAILSQYEESMSSKVEWTKLVNPRKDGEKKPQTMLPSFSKALKEQLNELKQSRSEGKKKGPYHHE	PGPT0015345_295	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015345-fliOZ-K02418	NA	NA
D1-12_00812	666	fliP	COG1338	Flagellar biosynthetic protein FliP	ATGAATGAATTTATTAATCTTTTTAATTCAAGCAGTCCGACCGAAGTCAGCTCCACTGTTAAATTACTGCTGCTTTTGACTGTCTTTTCAGTGGCGCCGGGGATTCTGATTTTGATGACCTGCTTTACGAGAATCGTCATCGTCCTGTCTTTTGTGAGAACCTCACTGGCGACGCAGAACATGCCTCCCAACCAGGTTTTAATCGGCCTTGCGCTGTTCTTGACGTTTTTTATTATGGCGCCGACTTTTTCAGAGATTAATAAGGAAGCCTTAACGCCGCTGATGGACAACAAAATCAGTCTCGATGAAGCATATACAAAAGCCGAGAAGCCGATTAAAGAGTATATGAGCAAGCATACAAGGCAGAAGGATCTGGCGCTGTTTATGAACTATGCCAAGATGAAAAAACCTGAATCGATTCAGGATATTCCTTTGACGACGATGGTGCCCGCTTATGCGATATCAGAACTCAAAACCGCTTTTCAAATGGGCTTTATGATTTTTATTCCGTTTTTAATTATCGATATGGTCGTGGCGAGCGTCTTAATGTCAATGGGAATGATGATGCTTCCGCCGGTTATGATCTCTCTGCCCTTTAAAATATTGCTTTTCGTTTTGGTCGATGGATGGTATTTAATCGTGAAATCTTTGCTTGACAGCTTTTAG	MNEFINLFNSSSPTEVSSTVKLLLLLTVFSVAPGILILMTCFTRIVIVLSFVRTSLATQNMPPNQVLIGLALFLTFFIMAPTFSEINKEALTPLMDNKISLDEAYTKAEKPIKEYMSKHTRQKDLALFMNYAKMKKPESIQDIPLTTMVPAYAISELKTAFQMGFMIFIPFLIIDMVVASVLMSMGMMMLPPVMISLPFKILLFVLVDGWYLIVKSLLDSF	PGPT0015350_2509	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
D1-12_00813	270	fliQ	COG1987	Flagellar biosynthetic protein FliQ	GTGAGTTCAGAATTTGTAATTTCCATGGCGGAAAAAGCCGTATATGTAACACTAATGATCAGTGGGCCGCTGCTTGCGATCGCGCTGATCGTCGGTTTGCTCGTCAGTATCTTTCAAGCGACAACTCAAATACAGGAACAGACGCTTGCGTTCATTCCGAAAATCGTGGCGGTGATGCTTGGACTGATCTTTTTCGGTCCTTGGATGCTGTCGACGATTCTTTCGTTCACAACTGATCTGTTTTCTCATCTGAACCGATTTGCAGGGTAG	MSSEFVISMAEKAVYVTLMISGPLLAIALIVGLLVSIFQATTQIQEQTLAFIPKIVAVMLGLIFFGPWMLSTILSFTTDLFSHLNRFAG	PGPT0015355_1235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
D1-12_00814	780	fliR	COG1684	Flagellar biosynthetic protein FliR	ATGAATTCCATCATTGATTTATTTCCCGCTTTTTTATTGGTCTTTATCAGAATCTCTGCTTTTTTTGTAACGGTGCCGGTGTTCGGACATCGGAATCTGCCGGCGGTTCACCGAATCGGCTTTGCTTTTTTTCTTTCGGTGATCTGCTTCAGCACGCTGAAACATGCGCCGGAAATAGAAATAGGGGAACAGTATATGCTGCTTGTCATAAAAGAGGCCGTTGTGGGCTTGAGCCTCGGGCTGATCGCTTTCATGATGATGACAGCCATTCAGATAGCAGGTTCCTTTATTGATTTTCAGATGGGCTTTTCCATCGCCAATGTCATTGATCCGCAATCAGGAACGCAAAGCCCGCTGATCGGACAATTCGTTTATACGCTTGCGCTGTTATTTATGCTCAGCGTAAACGCCCATTATCTTTTATTGGACGGGATTTATTACAGCTTTCAGTATATCCCGCTTGACCAGGCATTTCCGTCGTTTGGAAATGATCAGTTTGGACTTTTTATCGCAAAAAGCTTCAATGCCATGTTTGTTATCGCTTTTCAAATGTCTGCGCCGGTTGTGGCCAGTCTGTTTTTAGTTGATTTGGCGCTCGGTATTGTAGCGAGAACGGTGCCGCAACTGAATGTTTTCGTTGTCGGGCTTCCTCTGAAAATAGCCGTGAGCTTTATTATGCTGATCGTTTGTATGTCGGTGATGTTTGTCGTCGTCCGCAACGTCTTCAGCCTTACCGTTGAAACCATGCGGAATCTATTGGCATTGGTCGGTGTGACATGA	MNSIIDLFPAFLLVFIRISAFFVTVPVFGHRNLPAVHRIGFAFFLSVICFSTLKHAPEIEIGEQYMLLVIKEAVVGLSLGLIAFMMMTAIQIAGSFIDFQMGFSIANVIDPQSGTQSPLIGQFVYTLALLFMLSVNAHYLLLDGIYYSFQYIPLDQAFPSFGNDQFGLFIAKSFNAMFVIAFQMSAPVVASLFLVDLALGIVARTVPQLNVFVVGLPLKIAVSFIMLIVCMSVMFVVVRNVFSLTVETMRNLLALVGVT	PGPT0015360_1232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
D1-12_00815	1083	flhB_2	COG1377	Flagellar biosynthetic protein FlhB	ATGATGAGACTCAGACTGAATCTGCAATTCTTTGCCGGTGAAAAAACGGAGAAAGCCACTCCGAAAAAACGGAAGGATACAAGAAAGAAAGGACAGGTCGCGAAAAGTACGGATGTGAATACAGCCGTTTCTTTACTGATTATCTTTCTTTCGCTGATCGCGCTCGGTCCTTATATGCGGGACAGGCTGCTGTCCTTTATTAAAACGTTTTATACGAAATCGATAACATTACACCTGTCAGCATCTGCCGTGCATGAACTGTTCGTGGATACGGTGAAAGATATCAGCCTCATCCTCGCGCCGATTATGCTGGTCGCGCTTGTGGCAGGTGTCGTGAGCAATTACATGCAGGTGGGTTTTCTGTTTTCTGCGGAAGTCCTCAAGCCTGACTTGAATAAGCTCAGCCCGCTGAAAGGATTTAAGCGGATTTACAGCATGAGGGCGATTGTTGAACTGGTCAAATCCATTTTGAAGATTACTGTGGTCGGTTTTGCCGCCTTTATGGTGCTCTGGCTTCATTATGGCGATATTCTTCGCCTTCCGCTTTTAACGCCTGCGGAAGTGCTCACTTTCGTTTCTAAGCTCACGCTTTGGATGGGGCTTGCGGGATCAGGGGCTTTAATGCTGCTGGCCGGGCTTGATTATTTATATCAGCGTTTTGACTATGAGAAAAATATCAGAATGTCAAAGCAGGATATAAAAGATGAATACAAAAAATCGGAGGGTGATCCGATAATCAAGTCCAAAATTAAGCAGAAGCAGCGGGAAATGGCGATGAGGCGGATGATGCAGGAAGTGCCGAAAGCGGATGTCATCATTACCAACCCGACCCATTATGCGATAGCTTTAAAATATGATGAAAAGAAAATGGACGCCCCTTACATTGTTGCCAAAGGGGTCGACCATCTCGCATTAAAAATCAGGCAGATCGCCAAAGAACACGATGTCATGACGATTGAAAACAGGCCGCTCGCGCGTGCGTTATATGATCAGGTTGACATTGACCAGGCTGTGCCGGAAGAGTTTTTCAAAGTCATTGCGGAAATTTTGGCTTATGTATATAAAACGAAACAAAAAGTATAG	MMRLRLNLQFFAGEKTEKATPKKRKDTRKKGQVAKSTDVNTAVSLLIIFLSLIALGPYMRDRLLSFIKTFYTKSITLHLSASAVHELFVDTVKDISLILAPIMLVALVAGVVSNYMQVGFLFSAEVLKPDLNKLSPLKGFKRIYSMRAIVELVKSILKITVVGFAAFMVLWLHYGDILRLPLLTPAEVLTFVSKLTLWMGLAGSGALMLLAGLDYLYQRFDYEKNIRMSKQDIKDEYKKSEGDPIIKSKIKQKQREMAMRRMMQEVPKADVIITNPTHYAIALKYDEKKMDAPYIVAKGVDHLALKIRQIAKEHDVMTIENRPLARALYDQVDIDQAVPEEFFKVIAEILAYVYKTKQKV	PGPT0015325_1896	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
D1-12_00816	2034	flhA	COG1298	Flagellar biosynthesis protein FlhA	ATGTCAACAAGAGATTTATCGGTTTTAATAAGTGTTGTCCTCATTGTGGCAATGCTGGTGATTCCATTCCCTCCATGGTTGTTAAGTATTTTGATCATCATTAATATCTCTCTTGCGTTGATCGTGCTTCTCACCACAATGAATATGCAAGAACCGCTGCAATTCTCGATATTCCCGTCATTGCTGCTGTTATTGACGCTGTTTCGGCTTTCGCTCAATGTGTCGACGACACGTTCGATTCTTTCTCACGGAGAAGGGGGAAAGGTTGTTGAGACATTCGGGAATTTCGTTGTCGGCGGAAATGTGCTGGTAGGGCTTGTTGTCTTCATTATCTTGATTATTATTCAGTTTATTGTCATTACAAAAGGCGCCGAGCGGGTATCGGAAGTGGCGGCGAGATTTACGCTCGATGCGATGCCCGGAAAGCAAATGAGTATTGACGCGGATTTAAATGCCGGCATGATTACGGAGCAGGATGCAAAGCACAGACGTGAAAAAGTCGCCCGGGAAGCCGATTTTTACGGCGCCATGGACGGTGCGAGCAAATTCGTCAAAGGGGATGCCATCGCGGGTATCATCATCGTGATGATCAATATTATTTTCGGAATCGTAATCGGCATGCTGCAGCAGGGGATGAGCATACAAGAAGCTGCGTCTCACTTTACAATGCTGACGGTCGGTGACGGTATCGTTTCTCAAATGCCGGCCTTGCTTATTTCAACGGCTACAGGGATTGTCGTGACGAGAGCGGCATCTGAAGGAAACCTCGGTCATGATATTACAGGCCAGCTGTTTGCTTATCCGAAGCTCTTGTATGTAGCCGCGGGAACTGTACTTTTGCTCGGTCTTCTTACACCGATCGGCATTCTGCTGACGGGGCCGATCGCCGGTCTGCTTGCATTCGGCGCTTACATGCTGTCCAAAACGGATAAGCCGAGCGAAGAAGAGGAAGAAATTCTTGAAGAAGAGGCTCAGGCGGATGAACTGAAAAGCCCGGAAAGCGTTGTGCAGCTTTTACATATTGATCCGATTGAATTTGAGTTCGGATACGGACTCGTGCCGCTTGCAGACGCGGGGCAGGGCGGTGATCTTCTTGACCGCATCGTCATGATCAGACGTCAGCTTGCGCTTGAATTGGGACTTGTCATTCCGGTTGTGCGCATCAGGGATAACATCGCGCTCCAGCCGAATGAATACAGATTGAAAATTAAAGGCAATGAAGTCGCTAAAGGAGAGCTCCTGCTGGATCATTACTTAGCGATGTCACCGACGCCTGAAGATGACGTCATTGAAGGAATTGAAACGATTGAACCGTCGTTCGGACTTCCCGCAAAATGGATCAGCGAAGCTGCGAAAGATGAAGCAGACATGCTGGGGTATACAGTTGTTGATCCGGCGTCAGTCGTATCTACGCATATTACAGAAAAAATTAAGCAGCATGCCCATGAACTGGTCGGCAGACAGGAAACAAAGCAGCTGATCGATCATCTGAAGGAAAATTATCCTGTGCTTGTTGAGGAAGTCACGCCAAACCCTCTTTCTGTCGGCGATATTCAAAAGGTGCTTGCCAAATTGCTGAGAGAAAAAGTGTCAATCAGAAACTTGGTGACCATTTTTGAAACTCTTGCCGATTACGGAAGATTAACGACAGATTCAGATCTTTTGACAGAATACGCGAGACAGTCGCTTGCCAAACAAATCACGGCACAATATGCGAGAGAGCATGAAACGCTGAAGGTCATCACATGCTCAGGCCGGGTGGAAAAAGCGATTGCAGACGGGGTACAGCAGACTGAACAGGGCAATTACCTGTCACTCGACCCTGAGGTTTCAGACAGCATCATCCGTTCTGTCGCTAAAGAGGCCGAGCAGCTTTCCATCCGTCAGGAGTCAGCGATTCTTCTTTGCTCGCCTGCTGTCAGAATGTATGTTAAACAGCTGTTAGAACGGTATTTCCCTGATCTTCCGGTTCTTTCTTATAATGAGCTGGAAGCAAATGTTGAAGTACAGAGCATTGGAGTGGTGGATATTTAA	MSTRDLSVLISVVLIVAMLVIPFPPWLLSILIIINISLALIVLLTTMNMQEPLQFSIFPSLLLLLTLFRLSLNVSTTRSILSHGEGGKVVETFGNFVVGGNVLVGLVVFIILIIIQFIVITKGAERVSEVAARFTLDAMPGKQMSIDADLNAGMITEQDAKHRREKVAREADFYGAMDGASKFVKGDAIAGIIIVMINIIFGIVIGMLQQGMSIQEAASHFTMLTVGDGIVSQMPALLISTATGIVVTRAASEGNLGHDITGQLFAYPKLLYVAAGTVLLLGLLTPIGILLTGPIAGLLAFGAYMLSKTDKPSEEEEEILEEEAQADELKSPESVVQLLHIDPIEFEFGYGLVPLADAGQGGDLLDRIVMIRRQLALELGLVIPVVRIRDNIALQPNEYRLKIKGNEVAKGELLLDHYLAMSPTPEDDVIEGIETIEPSFGLPAKWISEAAKDEADMLGYTVVDPASVVSTHITEKIKQHAHELVGRQETKQLIDHLKENYPVLVEEVTPNPLSVGDIQKVLAKLLREKVSIRNLVTIFETLADYGRLTTDSDLLTEYARQSLAKQITAQYAREHETLKVITCSGRVEKAIADGVQQTEQGNYLSLDPEVSDSIIRSVAKEAEQLSIRQESAILLCSPAVRMYVKQLLERYFPDLPVLSYNELEANVEVQSIGVVDI	PGPT0015320_2572	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
D1-12_00817	1092	flhF	COG1419	Flagellar biosynthesis protein FlhF	ATGAAAATAAAAAAATTCACAGCCGCTTCAATGCAGGATGCCGCGAAGCAAATCAAAAAGGAACTCGGCAATGATGCCGTTATTTTACATTCCAAACAAGTAAAGAAACGAAAATGGCTGGGGCTGCGGTCGCAGCAGGCCGTTGAAGTGATAGCGGTTTTAGATCGTGACGTCAGGGAAGCGAGAAAAACGCCGCCGGCTGCCGCTGAAGAAATGAAAAAGACGGAAACGGCGGAGAAAGCTGAGCCTGTTCAGCCGCCGCGTCTTCCGGATCAAAGTATTTCCGGCGAACTGGCGCATTATAAAGAAGTGCTCCCTGAACCATTAAAAAAAGCCGAGAGACTATTGAAGCAAGCTGGGCTTCCTGATCATACGCAAAACGCCGTACTCAGTGAATTGCTCCGTTCTTCAATTGTTTCCGGAGATTTAACTGAAGATAATGTCAGCTCAAAACTGCAGGATTTGTTAGTGAAAAAACTCCCTTCGGAAGACAAGTGGCAGGAAGGGATTCAATCAAAATACGTCGTGCTTTTCGGTTCAACCGGGGCCGGCAAAACGACTACACTTGCGAAACTCGCGGCCTCATCAATGCTGACAGAGCATAAAAAAATTGCCTTTATGACGACGGATACTTACCGGATTGCCGCGGTCGAGCAGCTGAAGACATATGCGGAGCTGCTTCAGGCTCCTCTTGAAGTATGCTATTCAAAGGAAGAATGTCTGAAGGCACTGGAGAAATTCGCTGAATATGACCATGTTTTCATTGATACAGCCGGTAGAAACTTTAAAGAAGAGCAGTATATTACGGAATTACAAGAGATGATTCCGTTTGAATCAGGCTTACAATCCTTTCTCGTATTATCAGCATCTGCAAAATATGAAGATATGAAACAGGTGCTGAAACGTTTTTCCGGTGTGCCGGTCAATCAATTCATTTTCACGAAAACGGATGAAACCGCCTCACTCGGCTCCGTGTTTCAAGTGCTGTCGGAATCAAGAATCGGCGCCGCCTATTTGACAAATGGACAGGATGTGCCTGAGGACATCCTATCGGCTTCACCAAAAGAGTTTGTAAGGATGCTTTTGACATGA	MKIKKFTAASMQDAAKQIKKELGNDAVILHSKQVKKRKWLGLRSQQAVEVIAVLDRDVREARKTPPAAAEEMKKTETAEKAEPVQPPRLPDQSISGELAHYKEVLPEPLKKAERLLKQAGLPDHTQNAVLSELLRSSIVSGDLTEDNVSSKLQDLLVKKLPSEDKWQEGIQSKYVVLFGSTGAGKTTTLAKLAASSMLTEHKKIAFMTTDTYRIAAVEQLKTYAELLQAPLEVCYSKEECLKALEKFAEYDHVFIDTAGRNFKEEQYITELQEMIPFESGLQSFLVLSASAKYEDMKQVLKRFSGVPVNQFIFTKTDETASLGSVFQVLSESRIGAAYLTNGQDVPEDILSASPKEFVRMLLT	PGPT0015550_1573	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404	NA	NA
D1-12_00818	894	ylxH	COG0455	Flagellum site-determining protein YlxH	ATGAAACCCGATCAGGCAGAGTCATTAAGAAGGAAAATGAGAGAGCGGCAAATGATCAAGCCGGAGCTTTATGAGAAAAAAGCGAAGACATTAGCTGTCATCAGCGGTAAAGGCGGCGTCGGAAAATCTAATTTAACATTAAACATGGCAGTTGCCCTGCAGGAAAAAGGAAAAAAAGCACTCATCATTGATCTTGACATCGGAATGGGCAACATTGATGTGCTGATCGGCGCTGCTTCTTCCCGCACCATTATTGATGTGATGGAGAATCGGCACGCATTGGCGCAATCACTGTCCTCCGGTCCGAAAGGCCTTCGGTACATATCCGGAGGAACGGGGCTTGAGGCGATCTATCAAGCTGACGGAGAGAAGTGGGCGGCTTTTATGAATGGTCTTTCCGCTGTATTAAGCGATTTTGATTACGTTCTGTTTGATATGGGAGCGGGACTTTCAAACGAACAGCTGCCGTTTATTTTATCGGCGGAAGACATTCTCGCCGTGACAACGCCTGAGCCGACGGCCATTATGGATGCCTACAGCGCGATCAAACATCTTTTGCTCGCGGATGAACGGCTGACCGTAAACATTGCCGTCAATCGCGCCCGCTCCCAAAAACAGGCGCTGGACACGTACAACCGCCTTTCTCATGCGATTCACACGTTTTTAGGCGCGGAAGTGCGTTTCGCCGGCTCCATACCCGATGACCCGCTAGTAAGTCAAGCCGTCATTGACCAGGTGCCTTTTTTAATAAAAAGTCCTCAAGCAAAAGCCAGCAGGTCCGTCCGTCTTCTGACGGATGTCTTGTTTCAAACGGAAGAAAACAAACCAAGAGAAGAGAAACCGGCATTTATTGAGAGATTATCTTCTTTTTTATTGAGGAGGACTTTACAGTGA	MKPDQAESLRRKMRERQMIKPELYEKKAKTLAVISGKGGVGKSNLTLNMAVALQEKGKKALIIDLDIGMGNIDVLIGAASSRTIIDVMENRHALAQSLSSGPKGLRYISGGTGLEAIYQADGEKWAAFMNGLSAVLSDFDYVLFDMGAGLSNEQLPFILSAEDILAVTTPEPTAIMDAYSAIKHLLLADERLTVNIAVNRARSQKQALDTYNRLSHAIHTFLGAEVRFAGSIPDDPLVSQAVIDQVPFLIKSPQAKASRSVRLLTDVLFQTEENKPREEKPAFIERLSSFLLRRTLQ	PGPT0015555_367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015555-flhG-K04562	NA	NA
D1-12_00819	1068	cheB	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	GTGATTCGTGTGCTTGTCGTTGATGACTCAGCTTTTATGAGAAAGATGATTACCGATTTTCTGGCTGCGGAAGTGCAGATAGAAGTCATCGGGACAGCCAGAAACGGGGAAGAGGCGCTGAAGAAAATAGAGCTTCTCAAACCGGATGTTGTCACGCTTGATATTGAAATGCCGGTCATGAACGGAACGGATACATTGCGGAAGATCATCAGCATATATAAACTTCCCGTAATCATGGTATCGAGCCAGACACAGCAAGGGAAGGACCGAACGATCAACTGTCTGGAAATGGGCGCATTTGATTTTATCACCAAGCCTTCCGGAGCGATTTCACTTGATCTTTATAAAATTAAAGAGCAGCTGATTGAGAGGGTGATTGCAGCCGGGCTGTCCCGCGAACAAAAACCTGAGGCGGCAGTGAAAGAGTCTTCTATCCCGGAACGTCCGGCTTTGGCGGGATTTGAAAGACCGAAAGCAAAATCCGCCAAGCAGGCCGTATTCATCGCGACCTCTACAGGCGGACCGCGGGCTCTGCAAAAGGTGATTCCGAAACTGCCGAAGGATTTAAAGGCGCCTGTATTTGTCGTTCAGCACATGCCTGAAGGCTTCACCGCTTCACTTGCAGACAGACTCAACCATTTGTCAGATATTCAGGTCAAAGAAGCGGAAAACGGTGAAGAAGCGAAAGACGGATGGGTGTACATCGCGCCCGGCGGAAAAAATATGACGGTTGCAGAGGAAGGCGGAAGGCTCCGCATCATTCTTGACGTTCATGATACGGAAAGCCGGCATAAACCGTCAGCCGATTATTTGTTTCGGTCGGCAAGCCGCTTATCCGATTACGAAAAGGTAGCCGTCATTATGACCGGCATGGGTAGCGACGGAACCGAAGGCGTAAAAGAAATGCTCAGAACAGGCGGCGTTAAAACGATTGCGGAATCGGACGAATCCTGTGTTGTGTTCGGAATGCCGAAGTCAGCGATAAAGGCGGGCCTCATTCATGAGATTAAACATGTGGAAGATATCGCGGCATCCATCACCGGATGTGTGAAAAAAGAGAGGGTGTGA	MIRVLVVDDSAFMRKMITDFLAAEVQIEVIGTARNGEEALKKIELLKPDVVTLDIEMPVMNGTDTLRKIISIYKLPVIMVSSQTQQGKDRTINCLEMGAFDFITKPSGAISLDLYKIKEQLIERVIAAGLSREQKPEAAVKESSIPERPALAGFERPKAKSAKQAVFIATSTGGPRALQKVIPKLPKDLKAPVFVVQHMPEGFTASLADRLNHLSDIQVKEAENGEEAKDGWVYIAPGGKNMTVAEEGGRLRIILDVHDTESRHKPSADYLFRSASRLSDYEKVAVIMTGMGSDGTEGVKEMLRTGGVKTIAESDESCVVFGMPKSAIKAGLIHEIKHVEDIAASITGCVKKERV	PGPT0015650_2036	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
D1-12_00820	2019	cheA	COG0643	Chemotaxis protein CheA	TTGGATATGAATCAATATTTAGATGTCTTTATTGATGAAAGTAAAGAGCACTTACAGACATGTAACGAAAAGCTGCTGCTGTTGGAAAAAGATCCGGCAGACCTTCAGCTTGTGCATGACATCTTCAGAGCTGCCCATACGCTGAAAGGCATGAGCGCAACGATGGGATATACAGATCTGGCGCATTTAACCCACCTGATGGAAAATGTGCTGGACGCCATCCGCAACGGAGAAATGCCCGTTACATCAGATTGGCTGGATGTGCTGTTTGAAGCGCTTGATCATCTTGAAGAGATGGTGCAGTCCATTATTGACGGAGGAGACGGCAAACGTGATATTTCTGAAGTGAGTGCGAAGCTCGACGTAAATGCGGTGCATGAGACTGCGGCTTCAGCCGAAACAGCAGAACCGCCGGCTTCAAAACAACAGGCTTCAACTGAATGGAATTATGATGAGTTCGAACGGACTGTTATTGAAGAGGCGGAAGAGCAAGGATTCAGCCGCTATGAAATAACGGTTTCCCTGAATGAAAGCTGCATGCTCAAAGCCGTGCGGGTGTACATGATTTTTGAAAAGCTGAATGAAGCCGGAGAAGTCGCAAAAACGATACCTGCCGCGGAAGTGCTTGAGACGGAAGATTTCGGAACGGATTTTCAGGTGTGTTTCTTGACAAAGCAGCCTGCTGAAGAAATTAAAGAACTCATCAGCGGCATTTCAGAAGTGGAGAATGTCAAAATTTCTGCCGGTGCGCCGTTAAAAACGGCCGAAAAACCGCAAGCGGCTGAACCGGTGAAGGAAGCTCCGGTTAAAAAGGCTGAGAAACAGCCAAAGCCGCAAGCGAAAACGGAAGAACAGCCGAAGCATCACAGCGGCTCGAAAACGATTCGCGTCAACATTGAAAGACTGGATTCTTCAATGAACCTTTTTGAGGAACTTGTCATTGACCGCGGACGTCTTGAGCAGATCGCCAAGGAGCTTGACCACAATGAGCTGACTGAAACCGTTGAACGCCTGACCAGAATCTCGGGCGACCTTCAGTCTATTATTCTTAATATGCGGATGGTGCCGGTAGAAACCGTCTTTAACCGTTTCCCGAGAATGATCCGCCAGCTTCAAAAGGAATTAAACAAGAAAATCGAATTGTCCATCATCGGAGCTGAAACGGAGCTGGACCGTACGGTGATTGATGAAATCGGTGATCCGCTTGTCCATTTAATCAGAAACAGCATCGATCACGGCATTGAATCGCCTGAAGTGCGGGTGAATAAAGGAAAATCGGAATCAGGTCATGTCGTGCTTAAGGCATATCACAGCGGCAATCACGTCTTTATTGAGGTTGAAGATGACGGGGCCGGCTTGAACAGAAAGAAAATTCTTGAAAAAGCGCTCGAACGGAGTGTAATCACCGAACGTGATGCTGAAACGCTTGAAGATAATGAGATTTACGAGCTTATTTTTGCTCCGGGCTTCTCGACTGCCGATCAAATTTCTGACATTTCAGGGCGGGGCGTCGGCCTGGATGTCGTAAAAAATAAACTCGAATCACTCGGGGGCTCTGTCAGTGTCAAATCCGCGGAAGGCCAAGGTTCTCTTTTCAGTATCCAGCTTCCGCTGACACTTTCAATTATATCTGTTCTTCTCATTAAACTGGAAGAAGAGACGTTTGCGATACCGATTTCTTCTATTATAGAGACGGCTGTTATTGATAAGAAAGATATCCTGCAGACGCATGACAGAGAAGTGATTGATTTCAGAGGCCAAATCGTTCCGATCGTCTATCTGAAAAAAGAATTCGGCATTACGGATTCAAAACAGGATGCCGATCAGTTCCATGTAATCGTCGTGAAAAAGGGCGATAAATCCACTGCTTTTGTCGTGGACTCTTTTATCGGACAGCAGGAAGTCGTACTGAAATCACTCGGCGACTATTTGACGAACGTCTTTGCGATTTCCGGCGCTACGATTCTCGGAAACGGAGAAGTGGCGCTGATTATTGATTGTAATGCGCTGATCTACTAA	MDMNQYLDVFIDESKEHLQTCNEKLLLLEKDPADLQLVHDIFRAAHTLKGMSATMGYTDLAHLTHLMENVLDAIRNGEMPVTSDWLDVLFEALDHLEEMVQSIIDGGDGKRDISEVSAKLDVNAVHETAASAETAEPPASKQQASTEWNYDEFERTVIEEAEEQGFSRYEITVSLNESCMLKAVRVYMIFEKLNEAGEVAKTIPAAEVLETEDFGTDFQVCFLTKQPAEEIKELISGISEVENVKISAGAPLKTAEKPQAAEPVKEAPVKKAEKQPKPQAKTEEQPKHHSGSKTIRVNIERLDSSMNLFEELVIDRGRLEQIAKELDHNELTETVERLTRISGDLQSIILNMRMVPVETVFNRFPRMIRQLQKELNKKIELSIIGAETELDRTVIDEIGDPLVHLIRNSIDHGIESPEVRVNKGKSESGHVVLKAYHSGNHVFIEVEDDGAGLNRKKILEKALERSVITERDAETLEDNEIYELIFAPGFSTADQISDISGRGVGLDVVKNKLESLGGSVSVKSAEGQGSLFSIQLPLTLSIISVLLIKLEEETFAIPISSIIETAVIDKKDILQTHDREVIDFRGQIVPIVYLKKEFGITDSKQDADQFHVIVVKKGDKSTAFVVDSFIGQQEVVLKSLGDYLTNVFAISGATILGNGEVALIIDCNALIY	PGPT0015645_3613	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
D1-12_00821	474	cheW	COG0835	Chemotaxis protein CheW	ATGACTGCTGAAATCAAAACAGGTGAAAAAATGATTGTGTTTATGATAAACGGGAAAGAATACGCTATCTCAGTTTCCCAGGTGAAATCAATTGAAAAGTGGCAAAAACCGACGAGGGTCCCGGGTGTGGAATCTTATATCCGCGGCGTTATTAATCTGCGCGGAGTGATTACCCCGGTTCTTGATTTAAGAAAACGTCTGAACCAGCCTGAACAGGACATCACAGAAGAGACTCGGATTATCATCATTTCTTACCGTGACGCTGATGTCGGATGGGTCGTGGATGAGGCCAATGACGTCATCACCGTGCATGAAAATGAAATCGAATCCGCGCCTGAAAGCCAGACAAAGGAAACGGATGTGTGGATTAAACAGATCGTTAAGCAAGATAACAGGCTCCTCAATATTATCGATGCGCATGCGGTGCTGGATAAAGGTGCTTCGGCATCTGCGTCCGGAGAGCCTAATGCTTAA	MTAEIKTGEKMIVFMINGKEYAISVSQVKSIEKWQKPTRVPGVESYIRGVINLRGVITPVLDLRKRLNQPEQDITEETRIIIISYRDADVGWVVDEANDVITVHENEIESAPESQTKETDVWIKQIVKQDNRLLNIIDAHAVLDKGASASASGEPNA	PGPT0015680_3895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
D1-12_00822	630	cheC	COG1776	CheY-P phosphatase CheC	ATGAGTAAGTTTGAAGCGATCAAAGAAGAGCAGATGGATATTTTGCGGGAAGTCGGAAATATCGGGGCGGGTCACTCGGCTTCTGCAATGGCTCAGCTGCTGAACAGAAAGATAGACATGGAAGTGCCGTTTGCGACTTTATTGACATTTGATGAGCTCGCTGATTTTTTCGGCGGGGCTGAAACGCCGGTCGCCAGTATCTTTTTAAGAATGGAAGGCGACATGACCGGCTCTATCTTTCTCATCATGCCTTTTAATCAGGCGGAACAGTTTATCAGAGAGCTGATCGGAAATCCGGATTTTGATATTGACCAGCTGGGCGAAGATCATTTGAGTTCTTCTGCTTTACATGAGTTCGGCAATATTTTAGCAGGTTCCTATTTAACGGCATTGGCTGATTTGACAAAGCTTGAGATTTACCCGAGCGTGCCGGAAATCTCACTTGATATGTTCGGCGCGGTTATCAGTGAAGGGCTGATGGAGCTCAGCCAAGTCGGAGAGCATGCCATTGTCGTGGATACTTCTATTTTTGACCAGGGCAGCCGGCAGGAGCTCAAAGCCCACATGTTTATGCTCCCGGACTATGATTCTTTTGAAAAGCTCTTCGTCTCATTGGGTGCGGCTTTATGA	MSKFEAIKEEQMDILREVGNIGAGHSASAMAQLLNRKIDMEVPFATLLTFDELADFFGGAETPVASIFLRMEGDMTGSIFLIMPFNQAEQFIRELIGNPDFDIDQLGEDHLSSSALHEFGNILAGSYLTALADLTKLEIYPSVPEISLDMFGAVISEGLMELSQVGEHAIVVDTSIFDQGSRQELKAHMFMLPDYDSFEKLFVSLGAAL	PGPT0015660_369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015660-cheC-K03410	NA	NA
D1-12_00823	501	cheD	COG1871	Chemoreceptor glutamine deamidase CheD	ATGAGCCGTGCGGAAGCCGCAGTCGTTAAAGTGGGGATTGCGGATGTTCAAGTCGCGCGTTACCCGGATAAAATCCGGACCTCGGGACTCGGTTCATGCGTGGGGCTGGTTTTATACGATAAAGACAAACAAACGGCAGGACTCGTTCACGTCATGCTGCCGGACTCCGGTTTATCAAAAACGGCGGAGCTCAACCGTGCAAAATACGCGGACACCGCCGTTAAGATGACGATTGATATGCTTTTGAAAGCCGGCTGCCGCAAGTTTGCCCTGAAGGCAAAACTCGCCGGGGGAGCGGAGATGTTTAAGTTTAAAATGACAAATGACCTGATGAAAATCGGTCCGAGGAATGTAGCGGCCATCAAAGAGCAGCTTTCATTGTATAACATTCCGGTCATCAGTGAAGATACGGGCGGCTCAAGCGGCCGGACGATTGAATTTGAGCCAAAGTCCTGCATGCTGCACATTCGAACTGTTAAACAAGGTGAAACAACGATTTAA	MSRAEAAVVKVGIADVQVARYPDKIRTSGLGSCVGLVLYDKDKQTAGLVHVMLPDSGLSKTAELNRAKYADTAVKMTIDMLLKAGCRKFALKAKLAGGAEMFKFKMTNDLMKIGPRNVAAIKEQLSLYNIPVISEDTGGSSGRTIEFEPKSCMLHIRTVKQGETTI	PGPT0015665_1109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411	NA	NA
D1-12_00824	765	sigD	COG1191	RNA polymerase sigma-D factor	ATGCAATCCTTGAATTATGAAGATCAGGTGCTTTGGTCGCGCTGGAAAGAGTGGAAAGATCCTAAAGCCGGTGATGATTTAATGCGCCGTTACATGCCGCTGGTCACATATCATGTCGGCAGAATTTCCGTCGGACTGCCGAAATCGGTGCATAAAGACGATCTAATGAGCCTTGGTATGCTTGGTTTATATGATGCCCTAGAAAAATTTGACCCCGGCCGGGATTTAAAATTTGATACCTATGCCTCGTTTAGAATTCGCGGTGCAATCATCGACGGGCTGCGTAAAGAAGATTGGCTGCCCAGAACTTCACGGGAGAAGACAAAAAAAGTCGAAGCGGCGATCGAAAAACTTGAACAGCGCTACCTTCGGAATGTGACGCCTTCAGAGATCGCAGAAGAGCTGGGGATGACGGAGCAGGACGTAGTATCAACGATGAATGAAGGGTTTTTTGCCAATCTCTTATCAATTGATGAAAAGCTTCACGACCAGGATGACGGTGAGAATATTCAAGTGATGATCAGAGATGACAAAAATGTGCCGCCGGAAGAAAAAATCATGAAGGACGAGCTGATCGCTCAGCTTGCGGGCAAAATTCATGAGCTCTCTGAAAAAGAGCAGCTTGTCGTCAGTTTATTCTATAAAGAAGAACTGACTTTGACCGAAATCGGACAAGTCCTGAACCTTTCGACGTCGCGGATTTCACAGATTCATTCAAAGGCGCTGTTCAAATTAAAGCACCTGCTTGAAAAAGTAATTCAATAA	MQSLNYEDQVLWSRWKEWKDPKAGDDLMRRYMPLVTYHVGRISVGLPKSVHKDDLMSLGMLGLYDALEKFDPGRDLKFDTYASFRIRGAIIDGLRKEDWLPRTSREKTKKVEAAIEKLEQRYLRNVTPSEIAEELGMTEQDVVSTMNEGFFANLLSIDEKLHDQDDGENIQVMIRDDKNVPPEEKIMKDELIAQLAGKIHELSEKEQLVVSLFYKEELTLTEIGQVLNLSTSRISQIHSKALFKLKHLLEKVIQ	PGPT0015610_736	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
D1-12_00825	468			hypothetical protein	ATGTCAACACTATTATGGCTTTTAAGCTTTGTGCTTCACGGCGTACTGCTTTATGCCGTCATTATTCTGTACACGAGGTTTTCAGCCCTCAAGGAGACGGAGCGCCAGCAGAAGAAGATTCTTGAAGAGACGGAAAACACCCTTGCAGCGTTTCTGCTTGAGCTGAAAGAAGAAAATGAAAGACTCGAAGACGCAAAAAGCCGTCAAGCGCCGGACGCAGAAGACGCCGAACCCCGGCCGGAACCGAAAGAAGAGCCTGATATTCCGGACCACATGGAAAAGCTCATCAGTGCAACGGAACGGGCTGAAAGTGACGAAAACAGCGGCGCGCATTCGTTTGAAGAACGTGTTTCAGAATTATATGAACAAGGGCTCACCCCCGCGGAAATTGCCAAACGGATGCAGAGCGGAAAGACAGAAATCGAGCTGTTTTTAAAATTTCGCGGCAAAGCTGTAAAGGATTCTTGA	MSTLLWLLSFVLHGVLLYAVIILYTRFSALKETERQQKKILEETENTLAAFLLELKEENERLEDAKSRQAPDAEDAEPRPEPKEEPDIPDHMEKLISATERAESDENSGAHSFEERVSELYEQGLTPAEIAKRMQSGKTEIELFLKFRGKAVKDS	PGPT0016196_54	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016196-swrB|ylxL-NA	NA	NA
D1-12_00826	741	rpsB	COG0052	30S ribosomal protein S2	ATGTCAGTTATTTCTATGAAACAATTGCTTGAAGCTGGTGTTCACTTCGGCCACCAAACACGCCGCTGGAACCCAAAAATGAAGCGTTACATTTTCACGGAGCGTAACGGAATCTACATCATTGACCTTCAAAAAACAGTGAAAAAAGTAGAGGAAGCTTACAACTTCACGAAAAACCTTGCTGCTGAAGGCGGAAAAATCCTTTTCGTCGGCACAAAAAAACAAGCTCAGGATTCTGTTAAAGAAGAAGCTGTACGCTCTGGCATGTACTATGTCAACCAACGCTGGTTGGGCGGTACACTGACAAACTTCGAAACAATCCAAAAACGCATTAAGCGTCTGAAAGACATCGAGAAAATGCAAGAAAACGGTACATTTGAAGTACTTCCGAAAAAAGAAGTTGTTCAATTGAAAAAAGAATTAGAGCGTCTTGAAAAATTCCTCGGCGGAATTAAAGACATGAAGGATCTTCCTGATGCATTATTCATCATCGATCCTCGCAAAGAGCGCATCGCTGTTGCGGAAGCTCGTAAATTGAACATTCCTATCATCGGAATCGTAGATACAAACTGTGATCCTGATGAAATTGATGTCGTAATCCCTGCAAACGATGACGCAATCCGCGCTGTTAAACTTCTTACTTCTAAAATGGCAGATGCTATTCTTGAAGCGAAGCAAGGCGAAGAAGAAGCGGAAGCTGCTGAAGAGACTGCACCTGAAACAGAAACGACAACTGCGTAA	MSVISMKQLLEAGVHFGHQTRRWNPKMKRYIFTERNGIYIIDLQKTVKKVEEAYNFTKNLAAEGGKILFVGTKKQAQDSVKEEAVRSGMYYVNQRWLGGTLTNFETIQKRIKRLKDIEKMQENGTFEVLPKKEVVQLKKELERLEKFLGGIKDMKDLPDALFIIDPRKERIAVAEARKLNIPIIGIVDTNCDPDEIDVVIPANDDAIRAVKLLTSKMADAILEAKQGEEEAEAAEETAPETETTTA				NA	NA	NA	NA	NA
D1-12_00827	882	tsf	COG0264	Elongation factor Ts	ATGGCTATTACTGCACAGCAGGTAAAAGAACTGCGTCAAAAAACAGGCGCTGGTATGATGGACTGTAAAAAAGCATTGACTGAAACTGACGGAGATATGGACAAAGCAATCGACCTTCTGAGAGAAAAAGGAATTGCGAAAGCGGCTAAAAAAGCTGACCGTATCGCTGCTGAAGGTTCTACTCTTATTAAAACTGACGGCAACAAAGGCGTTATCTTAGAAGTAAACTCTGAAACTGATTTCGTTGCGAAAAACGAAGGCTTCAAAGAGCTTCTGAACACGCTTGCTGACCACCTTCTTGCAAACGCTCCTGCTGATCTTGAAGAAGCAATGGGTCAAAAGATGGAAAACGGTTCTACTGTTGAAGAATACATCACAAGCAACGTTGCTAAAATCGGAGAGAAAATCACTCTTCGCCGTTTTGCTGTTATTTCAAAAGAAGACAGCGAAGCGTTCGGTGCTTACCTTCACATGGGAGGCCGCATCGGCGTATTATCCGTTCTTAGCGGAACAACTGACGAAGATCTTGCAAAAGACATCGCGATGCATGTTGCAGCGGTAAATCCTCGTTACATTTCCCGCGACCAAGTGTCTGAAGAAGAAGCAAACCATGAGCGTCAGATCCTGACTCAGCAAGCTCTTCAAGAAGGCAAACCGGAAAACATCGTAGCTAAAATGGTTGAAGGCCGTCTGAACAAATTCTTCGAAGAAATTTGCTTATTAGACCAAGCTTTCGTTAAAAACCCAGACGAAAAAGTGAAACAAGTTGTGGCTGCGAAAAACGCATCTGTTAAAACTTACGTCCGCTACGAAGTTGGAGAAGGTATTGAAAAACGCCAAGAAAACTTTGCTGAAGAAGTTATGAACCAAGTGAAAAAATAA	MAITAQQVKELRQKTGAGMMDCKKALTETDGDMDKAIDLLREKGIAKAAKKADRIAAEGSTLIKTDGNKGVILEVNSETDFVAKNEGFKELLNTLADHLLANAPADLEEAMGQKMENGSTVEEYITSNVAKIGEKITLRRFAVISKEDSEAFGAYLHMGGRIGVLSVLSGTTDEDLAKDIAMHVAAVNPRYISRDQVSEEEANHERQILTQQALQEGKPENIVAKMVEGRLNKFFEEICLLDQAFVKNPDEKVKQVVAAKNASVKTYVRYEVGEGIEKRQENFAEEVMNQVKK				NA	NA	NA	NA	NA
D1-12_00828	723	pyrH	COG0528	Uridylate kinase	ATGGAAAAACCAAAATACAATCGTATCGTTTTAAAGCTTAGCGGAGAAGCATTGGCAGGAGAGCAGGGAAACGGCATTAATCCGACTGTCATCCAGTCCATCGCTAAACAGGTAAAAGAAATCGCTGAGCTTGACGTCGAAGTGGCCGTAGTCGTAGGCGGCGGCAACTTATGGCGCGGAAAGACAGGCAGTGACTTAGGAATGGACCGCGCGACGGCCGATTATATGGGCATGCTTGCTACTGTCATGAACTCACTTGCCCTGCAGGACAGCCTGGAAACGCTCGGAATTCAGTCCAGAGTGCAGACATCAATTGAAATGCGTCAGGTCGCTGAGCCTTACATCAGAAGAAAAGCCATCCGCCACCTGGAGAAAAAACGCGTTGTTATTTTTGCCGCGGGAACAGGAAACCCTTATTTCTCTACGGACACAACCGCAGCGCTGCGTGCCGCTGAAATCGAAGCGGACGTGATCTTAATGGCGAAAAATAATGTCGACGGTGTGTATAATGCTGATCCGAGAAAAGATGAGTCAGCCGTTAAATACGAAAAATTATCTTATCTCGATGTGTTAAAAGACGGGCTGGAAGTCATGGATTCTACGGCTTCTTCACTATGTATGGATAATGATATTCCGCTGATCGTCTTTTCTATTATGGAAGAAGGAAATATTAAGCGTGCCGTAATCGGCGAATCAATCGGAACGATCGTAAGGGGGAAATAA	MEKPKYNRIVLKLSGEALAGEQGNGINPTVIQSIAKQVKEIAELDVEVAVVVGGGNLWRGKTGSDLGMDRATADYMGMLATVMNSLALQDSLETLGIQSRVQTSIEMRQVAEPYIRRKAIRHLEKKRVVIFAAGTGNPYFSTDTTAALRAAEIEADVILMAKNNVDGVYNADPRKDESAVKYEKLSYLDVLKDGLEVMDSTASSLCMDNDIPLIVFSIMEEGNIKRAVIGESIGTIVRGK	PGPT0021205_1255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
D1-12_00829	558	frr	COG0233	Ribosome-recycling factor	TTGTCAAACGAAGTATTAACACAAACAAAAGAACGCATGGAAAAAGCGGTTGCCGCTTATTCACGCGAATTGGCGTCAGTCCGCGCAGGACGTGCCAACCCATCTCTATTGGATAAAGTGACAGTAGAATACTACGGTGCCCAAACACCTTTAAACCAGCTGTCTTCCATCAATGTGCCTGAAGCGCGTATGCTTGTTGTCACACCGTATGACAAAACGGCAATCGGCGATATTGAAAAAGCGATCCTGAAAGCTGATCTTGGCGTAACGCCGACAAGTGACGGCACAATTATCCGTATCGCGATCCCGGCTTTGACGGAAGAAAGACGTAAAGAACTTGTCAAAGTCGTGAAAAAATACGCGGAAGAAGCGAAAGTAGCAGTCCGTAATGTCCGCCGTGACAGCAACGATGACCTCAAAAAACTTGAGAAAAACGGAGACATTACAGAAGACGAGCTTCGTGCTTCCAGTGAAGACGTTCAAAAGCTGACAGACGAATATGTGTCAAAAATTGACAGTGTCACAAAGGACAAAGAAAAAGAAATCATGGAAGTTTAA	MSNEVLTQTKERMEKAVAAYSRELASVRAGRANPSLLDKVTVEYYGAQTPLNQLSSINVPEARMLVVTPYDKTAIGDIEKAILKADLGVTPTSDGTIIRIAIPALTEERRKELVKVVKKYAEEAKVAVRNVRRDSNDDLKKLEKNGDITEDELRASSEDVQKLTDEYVSKIDSVTKDKEKEIMEV				NA	NA	NA	NA	NA
D1-12_00830	783	uppS		Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGCTCAACATACTCAAAAATTGGAAGAATCAGCAGAATGCGGCTTCCAACTTAGAACGGTATACAAAAGAAGACATACTGAAGGGTGAAATTCCCGCACACATTGCCATTATTATGGACGGAAACGGACGCTGGGCGAAGAAGCGCTCACTCCCTCGGATTGCCGGACATCATGAAGGAATGAAAGTGGTAAAAAGGGTGACAAAGCTCGCAAGTCAGCTCGGCGTTAAAGTTCTGACTCTTTATGCGTTTTCAACGGAGAACTGGAAGCGCCCGAAGATGGAAGTCGACTTTTTGATGAAGCTTCCGGAAGAGTTCCTGAATACGTATCTTCCTGAATTGATAGAGGAAAATGTACAGGTGAAAATTATCGGAGATGAATCCGCGCTCCCTTCTCATACGTACAGGGCGATTGAGAAAGCCGTAAAAGATACAGAACAAAATGACGGTATGATTCTCAATTTCGCTTTGAACTACGGCGGACGCACGGAAATCGTCAATGCGGCAAAAGCACTGGCCGAACAGGTGAAAAGCGGCACGCTGAATATCGAAGACATTGATGAAGCGCTCTTTTCCGGGCATTTAATGACGGAATCAATCCAGGACCCGGAGCTGCTCATCAGAACGAGCGGAGAAATCAGATTGAGCAACTTTATGCTTTGGCAGGTGGCTTACAGTGAATTTGTTTTTACAGATGTCCTGTGGCCCGATTTTAAAGAAGATCACTTTCTGCAGGCAGTGGGAGAATTTCAGCAGCGGGGCCGGAGGTTTGGCGGAATTTAG	MLNILKNWKNQQNAASNLERYTKEDILKGEIPAHIAIIMDGNGRWAKKRSLPRIAGHHEGMKVVKRVTKLASQLGVKVLTLYAFSTENWKRPKMEVDFLMKLPEEFLNTYLPELIEENVQVKIIGDESALPSHTYRAIEKAVKDTEQNDGMILNFALNYGGRTEIVNAAKALAEQVKSGTLNIEDIDEALFSGHLMTESIQDPELLIRTSGEIRLSNFMLWQVAYSEFVFTDVLWPDFKEDHFLQAVGEFQQRGRRFGGI	PGPT0024180_811	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
D1-12_00831	789			hypothetical protein	ATGAAACAAAGATTGTTAACAGGTGTTCTGGCAGCGGCACTATTTTTATTTTTGGTTATTTTCGGAGGATTGCCGTTCACCGTATTTGTTTACGTGATGGGAAGTATAGCGCTTTTTGAGCTTTTGCGGATGAAAAAGCTCAGATTTTTTTCTTTTCCGGGTCTGATCAGCCTCTTGTTGTTATGGCTGTATATGATGCCGGACAAGTATCATTTTTTCGATGCGAAAATGGAAGTAACGATTTTCGCCGTATTGATTCTGCTCAGCTATACGGTGCTCGTGAAAAACACCTTTACGTTTGACGAAGTCGGGTTTATCGTTCTCGCGACGGTATATATCGGACTGTGTTTTCATTATTTTATTGAAATCAGAAACATTGAAACAAACGGGCTTTTGTATATCTTTTATGCCTGCGTTGTCATATGGTCAACGGACTCAGGCGCATATTTCGTCGGAAAGTCGCTCGGGAAGCGGAAGCTGTGGCCCGAAATCAGTCCCAACAAAACAGTGGAAGGGTTTCTCGGCGGTATTGTCATCGCCCTTATTTTTACGGCTGTTTTTCAGCTGTTTGCGCACCTTCCGATTTCATACCCGGTTCTTTTGGTCATCACGCTTGTTCTGTCTGTGTTCGGACAGATCGGGGATTTGGTTGAATCAGCGCTTAAGCGGCACTATGATGTGAAGGATTCGGGAAAAATCCTTCCCGGGCACGGCGGCATTTTAGATCGATTTGACAGCTTTTTGTTTGTCATGCCGTTCTTATACTTTCTGCTTGCGCTTTTTTCATGA	MKQRLLTGVLAAALFLFLVIFGGLPFTVFVYVMGSIALFELLRMKKLRFFSFPGLISLLLLWLYMMPDKYHFFDAKMEVTIFAVLILLSYTVLVKNTFTFDEVGFIVLATVYIGLCFHYFIEIRNIETNGLLYIFYACVVIWSTDSGAYFVGKSLGKRKLWPEISPNKTVEGFLGGIVIALIFTAVFQLFAHLPISYPVLLVITLVLSVFGQIGDLVESALKRHYDVKDSGKILPGHGGILDRFDSFLFVMPFLYFLLALFS	PGPT0007685_5294	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
D1-12_00832	1152	dxr	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	TTGAAGAATATTTGTCTTTTAGGAGCAACAGGATCAATAGGGGAGCAGACGTTAGACGTATTGCGCATGCATCAAGATCAGTTCCGTCTCGTCTCGATGACTTTCGGTAAAAACGCCGAGAAAGCGATCCCGTTGATCAGAACGTTTCAGCCGAAATATGTAGCAGTCGGCGACATGGATACATACCAAAAAGTGAAAGAAGCGTCTTTTTCTCATGAATGCCAAATCGGCATCGGAGAAGAAGGCCTGATTGAAGCGGCAGTCATGGACGAAGTGGATATCGTGGTCAATGCGCTGCTTGGAAGCGTCGGTTTAATCCCGACTTTGAAAGCGATTGAACAGAAAAAAACAATTGCGCTTGCAAATAAGGAAACTCTCGTCACTGCCGGGCATATAGTGAAAGGACACGCAAAACGATACGGTGTTCCTCTTCTTCCGGTCGACAGCGAACATTCCGCTATTTTTCAGGCGCTGCAAGGCGAACAGAGCAAAAATATCGAGCGCCTGATCATTACGGCATCCGGCGGCAGTTTCAGAGATAAAACGCGGCAGGAGCTTGAGTCTGTAACGATTGCCGACGCCCTTAACCACCCGAACTGGTCGATGGGCGCAAAAATTACGATTGACTCGGCTACAATGATGAATAAAGGACTTGAAGTTATTGAGGCGCATTGGCTGTTTGACATTCCGTATGAACAGATTGACGTTGTATTACATAAGGAGAGCATCATTCATTCGATGGTTGAATTTCACGACAGAAGCGTCATCGCCCAGCTCGGAAATCCGGACATGAGGGTGCCGATTCAATATGCGCTGACATATCCAGACCGGCTGCCTCTGCCTGAAACAAAAAGGCTTGAATTATGGGAGATCGGAAGCCTTCATTTTGCGAAAGCTGACTTTGAAAGGTTCCGCTGCTTACAATTTGCCTTTGAATCAGGTAAAATAGGGGGAACGATGCCGACGGTTTTAAATGCGGCCAACGAAGAAGCCGTTGCCGCTTTTCTTGCCGGACGGATTTCATTCTTAGCGATTGAGGACCTGATTGAAAAAGCATTGGACCGCCACAGCGTAATTCAGGATCCGAGTCTTGCGGATATCCAAGAAGTGGACAAAGACACCCGGGGATACGTTAATTCAATACTCACATAA	MKNICLLGATGSIGEQTLDVLRMHQDQFRLVSMTFGKNAEKAIPLIRTFQPKYVAVGDMDTYQKVKEASFSHECQIGIGEEGLIEAAVMDEVDIVVNALLGSVGLIPTLKAIEQKKTIALANKETLVTAGHIVKGHAKRYGVPLLPVDSEHSAIFQALQGEQSKNIERLIITASGGSFRDKTRQELESVTIADALNHPNWSMGAKITIDSATMMNKGLEVIEAHWLFDIPYEQIDVVLHKESIIHSMVEFHDRSVIAQLGNPDMRVPIQYALTYPDRLPLPETKRLELWEIGSLHFAKADFERFRCLQFAFESGKIGGTMPTVLNAANEEAVAAFLAGRISFLAIEDLIEKALDRHSVIQDPSLADIQEVDKDTRGYVNSILT	PGPT0007585_3416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
D1-12_00833	1263	rasP	COG0750	Regulator of sigma-W protease RasP	GTGAATACAGTTATCGCGTTTATTATTATTTTCGGAACGCTCGTTTTTTTCCATGAGCTCGGGCATTTATTGCTCGCCCAAAGAGCGGGAATCCTTTGCCGTGAATTTGCGATCGGCTTCGGCCCTAAAATCTTTTCATTTAAAAAGAATGAAACCGTGTATACGATCAGACTCCTTCCGGTCGGCGGGTTCGTCCGCATGGCCGGTGAAGACCCGGAGATGATCGAAGTCAAACCCGGTTATACCGTCGGGCTTCTTTTTAATAAAGATGACGAAGTGGAAAAAGTCATCATTAATCAAAAGGAAAAATATCCTGACGCTTTAATTATCGAGGTGGAGACGGCTGATCTTGAGCACGAAATGAAGATTACCGGGTACGAGCAGGGGAAAGAAGATGAACTGGCGGGCTTTACTGTCAGTCAGACCTCTTTTTTTATCGTAGACGGAGAAGAAGTGCAGATTGCGCCTTACAATCGACAATTCGGGTCTAAACCCGTATGGAAGCGGATTAAGGCGATTGCTGCCGGTCCGATAATGAACTTCATCTTAGCGTATGTCATTCTCGTCATGCTTGGATTCATTCAAGGCGTGCCTTCGAATCAGCCTGAGCTCGGGAAGCTGACAGACAATGGACGCGCAGCGGCTGCCGGTCTAAAAGAAGGCGACTATATCCAGAGCATTAACGGTGAAAAAATGAGGTCATGGACCGACATCGTGACAGCGGTAAAAGAAAATCCCGGGAAAAAAATCGATGTCGCCGTCAAACGGGACGGCAAATCGTTTCATATCTCGGTTACACCTGAAGCTGTAAAAGATGAAAATAAAAAAACAATCGGCCGCTTCGGCTCTTATGCGCCGACTGAAAAAGGCGCGCTTGCAGCGATCGCCTACGGCGCGACATCTACCGTTGATGTCACAAAAGCGATTCTGACCAATCTGGGCAAAATTGTGACAGGCCAGTTTAAGCTTGATATGCTTTCGGGTCCTGTCGGCATTTATGATATGACGGATCAAGTTGCAAAAACCGGTATTATCAACCTATTCCAGTTTGCGGCGTTTTTAAGCATCAACCTGGGAATCGTCAACCTGCTGCCGATACCGGCGCTTGACGGCGGGCGGCTGCTGTTTTTATTCATTGAAGCAATCCGCGGCAAGCCGATAAACCGTGACAAGGAAGCATTTGTCGTATTTATCGGCGTAGCTTTCTTAATGCTTCTTATGCTGGTTGTCACATGGAACGATATCCAGCGTTTATTCTTATAA	MNTVIAFIIIFGTLVFFHELGHLLLAQRAGILCREFAIGFGPKIFSFKKNETVYTIRLLPVGGFVRMAGEDPEMIEVKPGYTVGLLFNKDDEVEKVIINQKEKYPDALIIEVETADLEHEMKITGYEQGKEDELAGFTVSQTSFFIVDGEEVQIAPYNRQFGSKPVWKRIKAIAAGPIMNFILAYVILVMLGFIQGVPSNQPELGKLTDNGRAAAAGLKEGDYIQSINGEKMRSWTDIVTAVKENPGKKIDVAVKRDGKSFHISVTPEAVKDENKKTIGRFGSYAPTEKGALAAIAYGATSTVDVTKAILTNLGKIVTGQFKLDMLSGPVGIYDMTDQVAKTGIINLFQFAAFLSINLGIVNLLPIPALDGGRLLFLFIEAIRGKPINRDKEAFVVFIGVAFLMLLMLVVTWNDIQRLFL	PGPT0011685_2570	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
D1-12_00834	1695	proS		Proline--tRNA ligase	ATGAGACAAAGTTTGACGCTTATTCCGACCCTGAGAGAAGTGCCGGCTGATGCTGAAGCAAAAAGCCATAAGCTTCTGCTGAGAGCGGGATTTATCAGACAAAATACGAGCGGGGTTTACAGCTACATGCCCCTGGCTTACAGGGTCATTCAAAACATTCAGAAGATCGTGCGTGAAGAAATGGAAAAAATCAACGCGGTGGAAATGCTGATGCCGGCCCTTCAGCAGGCTGAAACATGGCAGGAATCAGGCAGATGGTATACGTACGGGCCTGAATTAATGCGTCTGAAAGACCGCCACGGCCGTGAATTTGCTTTAGGCGCGACACATGAAGAAGTCATTACTTCTCTCGTGCGCGATGAGGTGAAATCTTATAAGCGTCTGCCGCTCACTCTTTACCAGATCCAGTCTAAATTCAGAGATGAAAAACGCCCGCGTTTCGGGTTATTGCGCGGACGCGAATTCATCATGAAAGATGCGTATTCTTTCCATGCTTCTGAAGAAAGTCTGGAGGAAACATACCAAAACATGTACGGCGCATACAGCAGCATTTTCGCACGCTGTGAATTAAACGTCCGTCCCGTTATTGCCGACTCGGGCGCGATGGGCGGAAAAGATACGCATGAATTTATGGCTCTTTCTGAAATAGGGGAAGATACCATCGCTTATTCCGATGGATCCTCTTACGCAGCCAATACAGAAATGGCGGAAGTTGTCATGAACAGCGAGCCGTCAGATGAAACACCCGAGACATTGGAGAAAATTGATACGCCGAATGTCAAAAGCATTGAAGAGCTCGCTTCGTTCTTGCAGATCGAGCCGAGCGCCTGCATCAAATCAATGCTGTTTAAAGCTGATGACCGATTTGTTCTCGTGTTAGTAAGAGGCGATCATGAGGTCAATGACGTGAAAGTGAAAAACCTTCTGAACGCGGAAGTGGTTGAGCTTGCGTCTCATGAAGAAGTAGCGGAGAAACTTGGCACGGAGCCGGGATTTGCGGGGCCGATCGGCGCTGCCGGCGACATTGAGATTTATGCCGACCAAGCCGTGAAAGTAATGGTAAACGCTGTTAGCGGCGCGAATGAAAAAGACCGTCATTACCGAAACGTAAACATCGAACGTGACGCGTCAGTAAAAGCGTATGCCGATCTTCGAATCATTCAGGAAGGCGATCCGTCACCTGACGGAAAAGGCACGATCCGTTTCGCTGAAGGGATTGAGGTCGGACAAGTCTTTAAACTCGGTACGCGTTACTCTGAAGCGATGAATGCGACATACCTTGATGAAAACGGGCGTGCGCAGCCGATGCTGATGGGATGTTACGGAATCGGCGTGTCCAGAACGCTTTCAGCCATCGCTGAACAGCATCACGACGAAAAAGGCTTGATCTGGCCGAAAAGCGTTGCTCCGTATGATCTTCATATTTTGGCGCTGAATATGAAAAACGAAGCGCAAAAAGAGCTTGCTGAACAGCTTTACGGCAAATTCCAGGCGGAAGGTTATGAGGTATTATACGATGACCGCGCTGAACGCGCAGGCGTGAAGTTTGCTGATTCTGATCTGATCGGCCTTCCGATCCGCATTACTGTCGGAAAACGTGCCGACGAAGGCATCGTAGAAGTGAAAATCCGCAAAACCGGTGAATCTGCCGAAGTTTCAGTGGATGAGCTTTCTGAATTTATCAAGACGAAGTAA	MRQSLTLIPTLREVPADAEAKSHKLLLRAGFIRQNTSGVYSYMPLAYRVIQNIQKIVREEMEKINAVEMLMPALQQAETWQESGRWYTYGPELMRLKDRHGREFALGATHEEVITSLVRDEVKSYKRLPLTLYQIQSKFRDEKRPRFGLLRGREFIMKDAYSFHASEESLEETYQNMYGAYSSIFARCELNVRPVIADSGAMGGKDTHEFMALSEIGEDTIAYSDGSSYAANTEMAEVVMNSEPSDETPETLEKIDTPNVKSIEELASFLQIEPSACIKSMLFKADDRFVLVLVRGDHEVNDVKVKNLLNAEVVELASHEEVAEKLGTEPGFAGPIGAAGDIEIYADQAVKVMVNAVSGANEKDRHYRNVNIERDASVKAYADLRIIQEGDPSPDGKGTIRFAEGIEVGQVFKLGTRYSEAMNATYLDENGRAQPMLMGCYGIGVSRTLSAIAEQHHDEKGLIWPKSVAPYDLHILALNMKNEAQKELAEQLYGKFQAEGYEVLYDDRAERAGVKFADSDLIGLPIRITVGKRADEGIVEVKIRKTGESAEVSVDELSEFIKTK				NA	NA	NA	NA	NA
D1-12_00835	4314	polC	COG2176	DNA polymerase III PolC-type	ATGGAACAGTTATCAGTAAACAGAAGACAGTTTCAGATTCTTCTGCAGCAGCTTAATATGACAGATGATACCTTCATGACATACTTTGAAGACGGAGAGATTGATAAACTGACAATCCATAAAGCAGAAAAAGCCTGGCATTTTCAATTTCGCTTTAAGGCTCTTTTGCCGTATCAAATATATGATTCATTCATGATGAGGTTAACACAATCGTTTGCTCACATCGCCCGTGTCACATCGTCTGTTCAGGTCATTGACCCCACAGTGACAGAGGAGCTTGTACAGGATTATTGGACACGCTGTATTGAAGAGCTTGAAGGAACCTCGCCGCCGATGGTGGCTCTTTTGAATCAGCAGAAGCCGAAGCTCAAGGGAAACAAGCTGATCGTGAAAACAAAAACAGATACAGAAGCATCTGCGCTCAAAAATAAATACAGCGCACTGATTCAGCACAGCTATCGCCAATTCGGCTTTCCGGAACTGCAGCTGGATACCGAAATTTTCGTATCTGACCAAGAAGTCCAGAAATTCCGCGAGCAAAAGCTTGCTGAAGATCAGGAGCGGGCGATGCAGGCGCTTATCGAGATGGAGAAGAAGGAAAAAGAGGGCGATGAGGATCAGGCACCGTCCGGACCGCTTGTCATCGGCTATCAAATTAAAGAGAACGAAGAAATCCGGACGCTTGACAGCATCATGGATGAAGAAAGAAGAATTACGGTGCAGGGGTTTGTGTTTGATGCTGAAACACGCGAGCTGAAAAGCGGACGCACGCTCTGCATTTTCAAAATCACGGACTATACAAACAGCATTTTAGTAAAAATGTTCGCCCGAGAAAAAGAAGACGCCGCTTTGATGAAAACGCTGAAAAAAGGCATGTGGGTGAAGGCGCGGGGAAGCATTCAAAACGATACATTCGTCAGAGACCTCGTCATGATTGCAAATGACGTGAATGAAATAAAAGCCAAAACCCGTGAAGACACCGCTCCTGAAGGCGAAAAACGGGTTGAGCTTCATCTGCATTCTCCGATGAGCCAAATGGATGCTGTAACGGGCATCGGAAAGCTTGTCGAACAGGCGAAAAAATGGGGACATGAAGCGATTGCGTTAACTGATCATGCCGTTGTGCAGTCTTTCCCGGATGCCTATTCCGCCGCGAAAAAACACGGCATTAAAATGATTTACGGAATGGAAGCCAATATCGTAGATGACGGCGTTCCGATCGCATACAATCCAGCTCACCGTCTCCTGGAAGAAGACACATACGTCGTCTTTGACGTTGAAACGACAGGTCTGTCCGCAGTGTATGACACCATCATTGAGCTTGCCGCAGTCAAAATAAGAGGCGGAGAAATCATCGATAAATTCGAAGCGTTCGCCAATCCGCACCATCCGCTGTCAGCAACGACGATAGAGCTTACCGGGATTACGGATGACATGGTCCGCGACGCTCCCGATGTCGTTGACGTCGTCCGGGATTTTAAAGAATGGATCGGCGATGACGTGCTTGTGGCTCATAACGCCAGCTTTGATATGGGATTTTTAAATGTGGCGTACAAGCGTCTTTTGAAAACGGAAAAAGCGAAAAATCCGGTCATTGATACGCTGGAACTCGCGCGTTTCCTGTATCCTGAGTTTAAAAATCACCGCTTAAATACGTTATGTAAGAAGTTTGATATCGAATTAACCCAGCATCACCGAGCGGTCTTTGACGCTGAAGCAACGGGCTACCTGCTGTTGAAAATGCTCAAAGATGCCGCTGAAAAAGACATTTTTTATCATGATCAGCTGAATGAGAATATGGGACAATCCAATGCTTATCAAAGATCAAGGCCTTATCACGCTACATTGCTTGCCGTAAATGAGACCGGCCTTAAAAATCTGTTTAAGCTCGTGTCCATTTCTCATATTCAATATTTCTACAGAGTGCCGCGCATTCCGAGGTCGCAGCTTAATAAATACAGAGAAGGTCTGTTAATCGGTTCTGCCTGTGACAGGGGAGAGGTCTTTGAAGGCATGATGCAAAAATCTCCTGAAGAGGTTGAAGATATCGCATCCTTCTATGATTATCTTGAAGTGCAGCCGCCGGAAGTATACAGACACCTTCTGCAGCTTGAGCTCGTCCGGGATGAAAAAGCGCTGAAAGAAATCATCGCCAACATTACGAAGCTCGGAGAAAAATTGAATAAGCCGGTCGTGGCTACGGGAAATGTCCACTATTTAAACGATGAGGATAAAATTTACCGGAAGATCTTAATATCTTCCCAAGGCGGCGCCAACCCGTTAAACAGACACGAACTGCCTAAAGTGCACTTCAGAACGACAGATGAAATGCTGGAGGCTTTCTCCTTCCTCGGTGCGGAAAAAGCGAAAGAAATCGTGGTTGACAATACGCAGAAAGTCGCTTCGATGATCGATGAGATCAAACCGATCAAAGACGATCTGTACACGCCGAAAATTGACGGGGCTGATGAAGAAATCCGTGAAATGAGCTATCAGCGCGCCAGAAGCATTTACGGTGAAGAGCTTCCCGAAATTGTGGAAGCGAGAATAGAAAAAGAATTAAAAAGTATCATCGGCCATGGATTCGCCGTTATTTATCTCATCTCTCATAAGCTTGTAAAACGGTCTCTGGATGACGGTTATCTCGTCGGCTCCCGGGGATCCGTCGGTTCATCGCTTGTGGCGACCTTAACGGAAATCACTGAAGTGAACCCGCTCGCTCCGCACTATGTGTGCCCGAGCTGCCGATATTCCGAATTCTTTAATGACGGATCAGTCGGTTCCGGTTTTGACCTTCCGGATAAAACCTGCCCGTCTTGCGGCACGCCTTTGAAAAAGGACGGACATGATATCCCGTTTGAAACGTTCTTAGGCTTTAAAGGTGACAAAGTACCCGATATCGACTTGAACTTCTCAGGTGAGTATCAGCCGCATGCCCATAACTACACGAAAGTATTGTTCGGTGAAGATAACGTGTATCGCGCGGGAACGATCGGCACCGTCGCGGAAAAGACGGCTTACGGATATGTGAAAGGCTATGCGGGCGATCACAACCTACACATGCGCGGCGCGGAGATCGACCGTCTGGTGCAAGGCTGCACCGGCGTTAAGAGAACGACCGGCCAGCACCCGGGGGGGATTATCGTTGTCCCGGATTACATGGATATTTACGATTTTTCACCGATACAATTCCCGGCAGATGCGACGGGGTCTGAATGGAAAACGACTCATTTTGACTTCCACTCCATTCATGACAACCTGCTGAAGCTTGATATATTGGGGCACGATGATCCGACAGTCATCCGGATGCTTCAGGATTTAAGCGGAATTGATCCGAAGACGATTCCGACAGATGATCCGGAAGTGATGAAGATTTTCCAAGGTACAGAATCGCTAGGCGTCACTGAAGAGCAGATCGGCTGTAAAACGGGGACGCTCGGCATTCCTGAATTCGGGACGCGATTTGTGCGGCAGATGCTTGAGGATACGAAGCCGACGACGTTCTCCGAGCTTGTCCAGATTTCCGGGCTTTCCCACGGAACGGACGTATGGCTCGGCAATGCGCAGGAACTGATACACAACAATACGTGTGAACTGAGCGAAGTGATCGGCTGCCGTGATGACATTATGGTTTACTTGATCTATCAGGGCCTTGAGCCTTCACTGGCCTTTAAAATCATGGAATTCGTCCGTAAAGGCAAAGGCCTGACGCCGGAATGGGAAGAAGAAATGAAAAAGAACAACGTGCCGAACTGGTATATTGATTCATGCAAAAAAATCAAATACATGTTCCCGAAAGCCCACGCCGCCGCATACGTGCTGATGGCGGTGCGGATTGCATACTTTAAAGTGCATCACGCGCTTTTATATTATGCTGCGTATTTTACCGTCCGCGCAGATGACTTTGACATTGATACAATGATTAAAGGCTCGACCGCTATCAGAGCGGTGATGGATGATATCAGCTCTAAAGGGCTTGATGCTTCGCCGAAGGAGAAAAACCTCCTTACCGTGTTAGAGCTTGCTCTTGAAATGTGTGAGCGCGGCTATTCCTTCCAGAAGGTCGATCTATACCGTTCGAGCGCTTCGGAATTTATCATTGACGGCAACAGTCTCATCCCGCCGTTCAACTCAATTCCGGGACTCGGAACCAACGCCGCTCTCAATATTGTGAAAGCGCGGGAAGAAGGGGAGTTCCTTTCAAAAGAAGATCTTCAAAAACGCGGAAAAGTGTCAAAAACCATTTTAGAGTATTTAGACCGTCACGGCTGTCTTGAGTCCCTTCCGGACCAAAATCAGCTGTCTCTGTTTTAA	MEQLSVNRRQFQILLQQLNMTDDTFMTYFEDGEIDKLTIHKAEKAWHFQFRFKALLPYQIYDSFMMRLTQSFAHIARVTSSVQVIDPTVTEELVQDYWTRCIEELEGTSPPMVALLNQQKPKLKGNKLIVKTKTDTEASALKNKYSALIQHSYRQFGFPELQLDTEIFVSDQEVQKFREQKLAEDQERAMQALIEMEKKEKEGDEDQAPSGPLVIGYQIKENEEIRTLDSIMDEERRITVQGFVFDAETRELKSGRTLCIFKITDYTNSILVKMFAREKEDAALMKTLKKGMWVKARGSIQNDTFVRDLVMIANDVNEIKAKTREDTAPEGEKRVELHLHSPMSQMDAVTGIGKLVEQAKKWGHEAIALTDHAVVQSFPDAYSAAKKHGIKMIYGMEANIVDDGVPIAYNPAHRLLEEDTYVVFDVETTGLSAVYDTIIELAAVKIRGGEIIDKFEAFANPHHPLSATTIELTGITDDMVRDAPDVVDVVRDFKEWIGDDVLVAHNASFDMGFLNVAYKRLLKTEKAKNPVIDTLELARFLYPEFKNHRLNTLCKKFDIELTQHHRAVFDAEATGYLLLKMLKDAAEKDIFYHDQLNENMGQSNAYQRSRPYHATLLAVNETGLKNLFKLVSISHIQYFYRVPRIPRSQLNKYREGLLIGSACDRGEVFEGMMQKSPEEVEDIASFYDYLEVQPPEVYRHLLQLELVRDEKALKEIIANITKLGEKLNKPVVATGNVHYLNDEDKIYRKILISSQGGANPLNRHELPKVHFRTTDEMLEAFSFLGAEKAKEIVVDNTQKVASMIDEIKPIKDDLYTPKIDGADEEIREMSYQRARSIYGEELPEIVEARIEKELKSIIGHGFAVIYLISHKLVKRSLDDGYLVGSRGSVGSSLVATLTEITEVNPLAPHYVCPSCRYSEFFNDGSVGSGFDLPDKTCPSCGTPLKKDGHDIPFETFLGFKGDKVPDIDLNFSGEYQPHAHNYTKVLFGEDNVYRAGTIGTVAEKTAYGYVKGYAGDHNLHMRGAEIDRLVQGCTGVKRTTGQHPGGIIVVPDYMDIYDFSPIQFPADATGSEWKTTHFDFHSIHDNLLKLDILGHDDPTVIRMLQDLSGIDPKTIPTDDPEVMKIFQGTESLGVTEEQIGCKTGTLGIPEFGTRFVRQMLEDTKPTTFSELVQISGLSHGTDVWLGNAQELIHNNTCELSEVIGCRDDIMVYLIYQGLEPSLAFKIMEFVRKGKGLTPEWEEEMKKNNVPNWYIDSCKKIKYMFPKAHAAAYVLMAVRIAYFKVHHALLYYAAYFTVRADDFDIDTMIKGSTAIRAVMDDISSKGLDASPKEKNLLTVLELALEMCERGYSFQKVDLYRSSASEFIIDGNSLIPPFNSIPGLGTNAALNIVKAREEGEFLSKEDLQKRGKVSKTILEYLDRHGCLESLPDQNQLSLF				NA	NA	NA	NA	NA
D1-12_00836	471	rimP	COG0779	Ribosome maturation factor RimP	ATGAGCAAAAAAGTGACTGATACCGTTCAAGAAATGGCTCAGCCCATACTGGATGACCTTCAGCTTGAACTCGTAGACATTGAATTTGTCAAAGAGGGTCAAAACTGGTTCCTTCGCGTGTTTATTGATTCCGAGAACGGTGTTGATATTGAGGAGTGCGCCAAAGTCAGCGAAGCGTTAAGCGAAAAGCTGGATGAGGCCGATCCGATCACCCAGAACTACTTTCTTGAAGTATCTTCTCCTGGAGCCGAGCGTCCATTAAAGAAAAAAGCCGACTTCGAAAAATCACTGGGCAAAAATGTGTACATGAAAACGTACGAACCGATTGACGGTTTAAAAGTGTTTGAAGGCAAATTGGCTGAATTTGATGGACAAACTGTTACAATAGAGATGACGGTCAAAACAAGAAAGAAACGGGTCAATATTCCGTATGAAAAAATAGCTAACGCAAGATTAGCTGTAACATTTTAA	MSKKVTDTVQEMAQPILDDLQLELVDIEFVKEGQNWFLRVFIDSENGVDIEECAKVSEALSEKLDEADPITQNYFLEVSSPGAERPLKKKADFEKSLGKNVYMKTYEPIDGLKVFEGKLAEFDGQTVTIEMTVKTRKKRVNIPYEKIANARLAVTF				NA	NA	NA	NA	NA
D1-12_00837	1122	nusA	COG0195	Transcription termination/antitermination protein NusA	ATGAGCAGTGAACTATTAGATGCTCTCACTATTCTTGAAAAAGAAAAAGGCATCAGTAAAGACATTATCATCGAAGCAATTGAAGCTGCCTTAATTTCCGCGTATAAGCGAAATTTTAACCAGGCGCAAAACGTACGGGTCGATCTGAACCGTGAGACGGGCACGATCCGCGTGTTCGCAAGAAAGGATGTCGTAGACGAGGTATACGATTCAAGACTTGAAATCTCGCTTGACGACGCCCAGCACATCCATCCGAACTACCTTGTCGGAGATGTCGTTGAAATAGAAGTAACGCCGAAAGACTTCGGCCGCATTGCTGCGCAGACGGCGAAACAAGTGGTGACGCAGCGTGTCCGTGAAGCTGAGCGCGGCGTGATTTACTCAGAATTTATCGATCGTGAAGAAGACATTATGACGGGAATTGTACAGCGCTTAGACAGCAAGTTTATTTACGTGTCTCTCGGCAAGATTGAAGCGCTGCTGCCCGTCAATGAACAAATGCCGAATGAGAGCTATAAACCGCACGATCGGATTAAAGTATTTATCACAAAAGTCGAAAAAACGACAAAAGGGCCGCAGATCTATGTATCAAGAACGCATCCCGGTCTGTTGAAGCGTCTTTTTGAAATCGAAGTGCCGGAAATTTATGACGGAACGGTCGAACTGAAATCCGTTGCCAGAGAAGCGGGCGACCGCTCTAAAATCTCCGTCCGCACTGATGATCCTGACGTTGATCCGGTCGGTTCATGCGTCGGTCCCAAAGGCCAGCGCGTGCAGGCGATCGTCAATGAACTGAAAGGCGAAAAAATTGATATCGTCAACTGGTCTGATGATCCGGTTGAATTTGTTGCCAATGCGCTCAGCCCGTCTAAAGTGCTGGATGTCATCGTCAGCGAAGAAGAAAAAGCCACGACTGTCATCGTTCCTGATTACCAGCTTTCTCTGGCAATCGGAAAAAGAGGGCAAAACGCCCGCTTAGCTGCGAAACTGACAGGCTGGAAAATCGATATCAAAAGTGAAACGGATGCAAGAGACCTTGGCATCTATCCGAGAGAGCATGAAGAAGATGACGATTTAGAGCCGCTCTTTATGGAGCATGAAACAGCCGAATCGGATGAATAA	MSSELLDALTILEKEKGISKDIIIEAIEAALISAYKRNFNQAQNVRVDLNRETGTIRVFARKDVVDEVYDSRLEISLDDAQHIHPNYLVGDVVEIEVTPKDFGRIAAQTAKQVVTQRVREAERGVIYSEFIDREEDIMTGIVQRLDSKFIYVSLGKIEALLPVNEQMPNESYKPHDRIKVFITKVEKTTKGPQIYVSRTHPGLLKRLFEIEVPEIYDGTVELKSVAREAGDRSKISVRTDDPDVDPVGSCVGPKGQRVQAIVNELKGEKIDIVNWSDDPVEFVANALSPSKVLDVIVSEEEKATTVIVPDYQLSLAIGKRGQNARLAAKLTGWKIDIKSETDARDLGIYPREHEEDDDLEPLFMEHETAESDE				NA	NA	NA	NA	NA
D1-12_00838	276			hypothetical protein	GTGAATAAGCGAAAAAAAATTCCTCTGCGCAAATGCGTGGTAACGGGGGAAATGAAGCCTAAAAAGGAACTGATCCGAATTGTCCGTTCTAAAGAAGGAGAGATTTCAGTCGATCCGACCGGAAAGAAGAACGGGCGGGGTGCCTATATCACCCTTGAGAAAGAATGCATCTTAGCTGCGAAAAAGAAAAACACATTGCAAAATCAATTTCAATCACAAATCGATGACCAGATTTTCGAAGAATTGCTGGAACTGGCGGAAAAGGTGAAAAAATAA	MNKRKKIPLRKCVVTGEMKPKKELIRIVRSKEGEISVDPTGKKNGRGAYITLEKECILAAKKKNTLQNQFQSQIDDQIFEELLELAEKVKK				NA	NA	NA	NA	NA
D1-12_00839	303	rplGA	COG1358	putative ribosomal protein YlxQ	ATGTCTGGAATGGAATGGTTTCCCTTGCTGGGTCTGGCCAATCGAGCTCGTAAGGTCGTGTCGGGCGAGGACTTGGTTATAAAAGAAATTAGAAATGCGCGTGCAAAACTTGTTCTGCTGACAGAAGATGCATCTGCGAATACTGCAAAAAAAGTATCCGATAAATGCAATTATTATAAAGTGCCTTATAAAAAAGTCGAAAGCCGCGCGGATCTCGGCCGCTCTATCGGCAAGGAATCACGTGTCGTTGTCGCCGTCACTGACCAAGGTTTTGCGAATAAGCTGATCAGCTTGCTCGATTAA	MSGMEWFPLLGLANRARKVVSGEDLVIKEIRNARAKLVLLTEDASANTAKKVSDKCNYYKVPYKKVESRADLGRSIGKESRVVVAVTDQGFANKLISLLD				NA	NA	NA	NA	NA
D1-12_00840	2145	infB		Translation initiation factor IF-2	ATGGCTAAAATGAGAGTTTACGAATATGCAAAAGCCATCAATGTTTCAAGCAAGGAAATTTTGACTGCGCTGAAAAACATGGATATAGTAGTAAATAACCATATGGCAATGCTTGAAGAAAAGACCATTAAGCAGCTTGATGCGAAATTTAAAAAAGGCGGCGCCGGCGTTACATCTCAGAAGCCTGCGGAAACGAACAAAAACAAGCCGCAAGGGATTAATCAGCAGCCTGCTGGGAATCAACCAAACAAAATTCGAGACGGAAAGAAGAATGACGTGCAGAATAATCAATTTAACAAAAACAAGAAGAATAACAACAAAAACAAAAACAAACGCAATCATAACAACAAAAATCAGTATCAGCAAAAACCGCTGAAGCCGAAAAAAGAGCTTCCTGAGAAAATTACGTTTTCCGGCTCTTTAACAGTCGGAGCTTTAGCCGAGGAACTGGGCAAAGAGCCGTCTGAACTCATTAAAAAACTGATGCTTCTGGGCGTAATGGCTACCATTAACCAGGAGCTTGACAAAGACACAATCGAACTGATCGCATCTGAATACGGTGTAGAAACAGAAGAAGTGATTGTGCTTGAAGAAACTGAGCTTGAAAAATATGAAGAGGCTGACAAAGAAGAAGATCTTCAAATCCGTCCGCCTGTCGTGACGATCATGGGCCACGTTGACCACGGGAAAACGACCCTCCTTGACAGCATCAGAAAAACAAAAGTTGTTGAAGGAGAAGCCGGCGGAATCACCCAGCATATCGGGGCTTACCAGATCGAAGAAAACGGCAAAAAAATCACGTTCTTAGATACTCCGGGACACGCGGCGTTTACAACAATGCGGGCGCGCGGTGCGGAAGTAACTGATATTACCATTTTAGTCGTAGCGGCCGATGACGGCGTTATGCCGCAGACAGTCGAAGCCATCAACCATGCGAAAGCTGCTGAGGTTCCGATTATCGTTGCCGTGAATAAAGTGGATAAAGAAAGCGCGAACCCTGACCGTGTCATGCAGGAGCTGACTGAATACGGACTCGTTCCTGAAGCATGGGGAGGAGAAACGATTTTCGTTCCTCTGTCCGCTCTTACAGGCAAGGGAATTGACGAGCTTGTCGAAATGATTCTGCTTGTCAGTGAAGTGGAAGAGCTTAAAGCCAATCCGAACCGTCAGGCAAAAGGAACGGTTATTGAAGCTGAGCTCGATAAAGGAAGAGGATCTGTCGCGACACTTCTCGTTCAAACGGGAACATTGAATGTCGGAGATCCGATCGTTGTCGGAAATACATTCGGCCGCGTGCGGGCCATGGTTAATGATCTCGGCCGCCGCGTGAAAACAGCCGGACCGTCCACACCTGTAGAAATCACGGGCTTAAACGACGTACCGCAGGCTGGCGATCAATTCCTCGTCTTTAAAGACGAAAAAACAGCCCGTTCTGTCGGTGAAGCACGCGCTTCCAAGCAACTGGAAGAACAGCGCAGCGACAAAGCGAAGCTGAGCCTCGATGATCTGTTTGAACAAATTAAACAAGGCGATGTCAAAGACATCAACTTAATCGTAAAAGCTGACGTTCAAGGTTCAGCCGAAGCGTTAACAGCCGCTCTTCAAAAAATTGAAGTAGAAGGCGTAAAAGTGAAAATCATTCACACAGGCGTCGGTGCGATTACGGAATCAGACATCATTCTCGCATCTGCTTCAAATGCAATCGTTATCGGGTTTAATGTGCGCCCAGACGGAAATGCTAAGAGCACGGCTGAAGCTGAAAATGTAGATATCCGTCTTCACCGTATCATTTACAAAGTCATCGAAGAAATTGAAGCGGCGATGAAAGGAATGCTTGATCCTGAATACGAAGAAAAAGTCATCGGCCAGGTTGAAGTGCGCCAAACATTCAAAGTGTCGAAAATCGGCACGATTGCCGGCGGATATGTAACAGACGGCCACATTACACGTGACAGCGGACTCCGCCTGATCCGTGACGGCGTGGTCATCTTCGAAGGGGAAGTAGACGTTCTGAAACGCTTCAAAGATGATGTGAAAGAAGTTTCACAAGGATATGAATGTGGTATTACAATTAAGAAATACAATGACATTCGCGAAGGCGACATCCTTGAAGCGTATGTCATGCAGGAAATCGAAAGAAAGTGA	MAKMRVYEYAKAINVSSKEILTALKNMDIVVNNHMAMLEEKTIKQLDAKFKKGGAGVTSQKPAETNKNKPQGINQQPAGNQPNKIRDGKKNDVQNNQFNKNKKNNNKNKNKRNHNNKNQYQQKPLKPKKELPEKITFSGSLTVGALAEELGKEPSELIKKLMLLGVMATINQELDKDTIELIASEYGVETEEVIVLEETELEKYEEADKEEDLQIRPPVVTIMGHVDHGKTTLLDSIRKTKVVEGEAGGITQHIGAYQIEENGKKITFLDTPGHAAFTTMRARGAEVTDITILVVAADDGVMPQTVEAINHAKAAEVPIIVAVNKVDKESANPDRVMQELTEYGLVPEAWGGETIFVPLSALTGKGIDELVEMILLVSEVEELKANPNRQAKGTVIEAELDKGRGSVATLLVQTGTLNVGDPIVVGNTFGRVRAMVNDLGRRVKTAGPSTPVEITGLNDVPQAGDQFLVFKDEKTARSVGEARASKQLEEQRSDKAKLSLDDLFEQIKQGDVKDINLIVKADVQGSAEALTAALQKIEVEGVKVKIIHTGVGAITESDIILASASNAIVIGFNVRPDGNAKSTAEAENVDIRLHRIIYKVIEEIEAAMKGMLDPEYEEKVIGQVEVRQTFKVSKIGTIAGGYVTDGHITRDSGLRLIRDGVVIFEGEVDVLKRFKDDVKEVSQGYECGITIKKYNDIREGDILEAYVMQEIERK				NA	NA	NA	NA	NA
D1-12_00841	279			hypothetical protein	GTGATCGGATTTGCGGAATGTGAATGCATCATTTATGATGCGGGATCATTAAAGGAGAAACGAGCCGTTCTGAAGCGGATTATAACGAGGGTTCAGAATAAGTTCAACGTGTCGGCCGCAGAAATCGGCTATCAGGACACTTGGCAGCGGACCAGCTTCGGAATCGCCGTCGTCTCCTCCTCTCACGTTCAGGCGGAAAAGGAGATCCAGCGCGTACTCGCGTTTATTGACTCCTTTCCCGAAATAGAACGGACGATCACTAGAACAGAGTGGTTTTAA	MIGFAECECIIYDAGSLKEKRAVLKRIITRVQNKFNVSAAEIGYQDTWQRTSFGIAVVSSSHVQAEKEIQRVLAFIDSFPEIERTITRTEWF	PGPT0014535_739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014535-ylxP-K09764	NA	NA
D1-12_00842	354	rbfA		Ribosome-binding factor A	TTGAGTATGAGAGCAAACCGTGTCGGCGAGCAGATGAAAAAAGAGCTCGGGGATATTATCAGCCGAAAGCTGAAAGACCCGAGAATCGGATTTCTCACTGTAACAGACGTACGTGTTTCAGGTGATTTACAAATAGCGAAGGTGTATATCTCCGTTCTCGGCGGAGAGAAAAAGAAAGAGGAGGCGCTGAAAGGGCTTGAGAAAGCGAAAGGATTTATCCGTTCCGAAATCGGCAGCCGAATCAGACTCCGCAAAACGCCTGAGCTTGAATTTGAATTTGATGAATCAATTGAGTACGGCAACCGTATCGAAACATTGATTCACGAACTGCATTCAGATAAACCGTCTGAATAA	MSMRANRVGEQMKKELGDIISRKLKDPRIGFLTVTDVRVSGDLQIAKVYISVLGGEKKKEEALKGLEKAKGFIRSEIGSRIRLRKTPELEFEFDESIEYGNRIETLIHELHSDKPSE				NA	NA	NA	NA	NA
D1-12_00843	930	truB		tRNA pseudouridine synthase B	ATGGTTAACGGAGTTCTCCTTTTACATAAACCGGTCGGCATGACTTCTCACGACTGTGTAATGAAAATAAGAAAACTGTTAAAAACAAAGAAAGTCGGACATACGGGAACGCTTGATCCGGAAGTGTCAGGCGTACTGCCGATCTGTGTCGGACGGGCCACAAAGATCGTTGAGTACGTCACCGACAAGTCAAAAACGTACGATGCTGAGATTACTCTCGGCTTCTCCACATCGACCGAAGACCAGACTGGAGAAACGGTCAGCGTAAAACCTGTCAAGGAGCCGCTGAAAGAAGCGGATATCAAAGCCGTTTTAGACGAACTGAAGGGACCGCAGGAGCAAGTGCCGCCGATGTATTCCGCTGTAAAGGTCAACGGAAAAAAGCTCTATGAATACGCCAGGGCGGGTATTGAAGTGGAGCGGCCGAAGCGGAATATCACGATTGAAGATATCGCGCTCACTTCCCCTGTCACTTATAACGAAGACACAGCATCATTCCGCTTTACAGTCACGTGCTCAAAGGGCACTTACGTCAGAACATTGGCGGTGACAATCGGTGAAAAACTCGGCTATCCCGCGCATATGTCTCATCTCATCCGCACCGCTTCCGGCGATTTCAGCCTTGATGAGTGTTTCACGTTTGAGGAACTTGAACAGCAGGTTTCAGACGGAACGGTTGCAGAGCATACCGTGCCGATTGAAAGAGCGCTCAATCATTTGCCGAAATGGGTCATAAGTGATACATTAGCTAAGAAAGCTGAAAACGGGTCAGTGTTTGACATCCCGGCGGAATTTTCTGCAATGACAGCTGACGCCCGTATAGCGGTCTGTACTGAAGACGGAGAATGTGTGGCCATTTATATGCCGCATCCTTCAAAAAAAGGACTGCTGAAACCGGCTAAAGTGCTCATGCAAAAAAGCGAACAATAA	MVNGVLLLHKPVGMTSHDCVMKIRKLLKTKKVGHTGTLDPEVSGVLPICVGRATKIVEYVTDKSKTYDAEITLGFSTSTEDQTGETVSVKPVKEPLKEADIKAVLDELKGPQEQVPPMYSAVKVNGKKLYEYARAGIEVERPKRNITIEDIALTSPVTYNEDTASFRFTVTCSKGTYVRTLAVTIGEKLGYPAHMSHLIRTASGDFSLDECFTFEELEQQVSDGTVAEHTVPIERALNHLPKWVISDTLAKKAENGSVFDIPAEFSAMTADARIAVCTEDGECVAIYMPHPSKKGLLKPAKVLMQKSEQ				NA	NA	NA	NA	NA
D1-12_00844	942	ribF	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	GTGAAGACGATACATATTTCTCATCCGCATCATTTACAAAAAGAAGAGCAGCCGGCGTCTGTCATGGCGCTCGGCTACTTTGACGGCGTTCATTTGGGACACCGGAAAGTAATCGGAACAGCCAGACAAATTGCCGAAGAAAAAGGCCTGTCGCTGGCCGTTATGACGTTTCATCCTCACCCTTCCCATGTGTTGGGCAGGGACAAAGAGCCAAAGGATCTGATTACGCCGCTTGAAGATAAAATCAGCCAGATCGGACGTTTAGGCGCTGATGTGCTGTATGTCGTAAAGTTTGATGAAGCGTTTGCGGCTCTGTCTCCAAAACAGTTTGCCGAGGAGTATATTTTAGGGTTAAACGCGCGGCACGCTGTGGGAGGCTTCGATTTTACGTACGGAAAATACGGAAAAGGCACGATGGAGACGCTGCCGGACGATTTAAACGGCAAGGCCGGATGCACGACTGTCGAGAAACTGACCGAGCAGGACAGAAAGATCAGCTCTACTTATATCCGGTCAGCGTTGCAGGATGGTGACGTTGAACTTGCGCACACTCTTCTCGGCCAGCCGTATTTTATCCGGGGCACTGTGATTCACGGAGACAAAAGAGGCCGCACCATCGGTTTTCCGACCGCGAATGTCGGCCTGCACAACAGCTATATCGTGCCGCCGACAGGCGTGTATGCAGTGAAAGCCGAAATAAAAGGCGAGGTGTATGAAGGCGTCTGCAACATCGGCTACAAACCGACCTTTTATGAAAAGCGTCCCGATCAGCCGTCAATTGAAGTGCATTTGTTTAATTTTCAGCAGGATGTATACGGAGAAGACGTTAAAATCGAGTGGTACAAACGAATTCGAAGCGAACGGAAGTTTAACGGCATCGATGAACTGACGGCTCAGATCGGGAAAGACAAACAAGAAGCGATCCGTTTTTTCAGCAAATAA	MKTIHISHPHHLQKEEQPASVMALGYFDGVHLGHRKVIGTARQIAEEKGLSLAVMTFHPHPSHVLGRDKEPKDLITPLEDKISQIGRLGADVLYVVKFDEAFAALSPKQFAEEYILGLNARHAVGGFDFTYGKYGKGTMETLPDDLNGKAGCTTVEKLTEQDRKISSTYIRSALQDGDVELAHTLLGQPYFIRGTVIHGDKRGRTIGFPTANVGLHNSYIVPPTGVYAVKAEIKGEVYEGVCNIGYKPTFYEKRPDQPSIEVHLFNFQQDVYGEDVKIEWYKRIRSERKFNGIDELTAQIGKDKQEAIRFFSK	PGPT0008625_2499	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
D1-12_00845	270	rpsO	COG0184	30S ribosomal protein S15	ATGGCAATTACTCAAGAGCGTAAAAATCAACTCATCAGTGAGTTCAAAACACACGAATCTGATACTGGATCTCCAGAAGTTCAGATCGCTATCCTAACAGACTCAATTAACAACTTGAACGAGCATTTGCGTACTCACAAGAAAGATCACCACTCACGTCGCGGTCTTCTTAAAATGGTAGGTAAACGTCGTAATCTTCTTACGTATCTGCGTAATAAAGACGTAACTCGTTACCGTGAGTTAATTAACAAACTAGGCTTACGTCGATAA	MAITQERKNQLISEFKTHESDTGSPEVQIAILTDSINNLNEHLRTHKKDHHSRRGLLKMVGKRRNLLTYLRNKDVTRYRELINKLGLRR				NA	NA	NA	NA	NA
D1-12_00846	2124	pnp_1	COG1185	Polyribonucleotide nucleotidyltransferase	ATGGGACAAGAGAAACATGTCTTTACCATAGATTGGGCCGGCAGACAGCTTACAGTAGAAGCCGGCCAGCTTGCCAAACAGGCAAACGGCGCTGTCATGGTCCGCTACGGCGATACTGCAGTGCTCAGCACAGCAACCGCATCAAAAGAACCGAAACCGCTAGATTTTTTCCCGCTTACCGTTAACTATGAAGAAAGATTATACGCAGTAGGTAAAATTCCGGGCGGTTTTATTAAAAGAGAAGGCCGTCCAAGTGAAAAGGCCGTTTTAGCCAGCCGTCTGATCGACCGTCCGATCCGCCCGCTTTTCGCAGACGGATTCCGTAACGAAGTACAGGTCATCAGCATTGTCATGAGTGTTGATCAGGACTGCTCATCTGAAATGGCTGCAATGTTCGGTTCATCACTCGCTCTTTGCGTTTCCGATATCCCGTTTGAAGGCCCGATCGCGGGTGTGACGGTAGGCCGCATTGACGGGAAATTCGTTATCAATCCGACGGTTGACCAGCTTGAAAAAAGTGATATCAACCTCATCGTTGCAGGCACAAAAGACGCCATCAACATGGTGGAAGCCGGAGCAGATGAAGTTCCTGAAGAAATCATGCTTGAGGCGATTATGTTCGGTCACGAAGAAATTAAGCGCCTGATCGCATTCCAAGAAGAAATCGTCGCAGCAGTCGGCAAAGAAAAAACAGAAATCGAACTGTATGAAATTGACGAAGAGCTCAGCGAAAAAGTAAAAAGCCTTGCGGAGCCGGATCTTCTCAGCGCCATTCAGGTTCACGAAAAACATGCTCGCGAAGACGCGATCAATGAAGTGAAAAATGCAGTTGTCGCGAAATTCGAAGAAGAAGAGCATGATGAAGATACGATTAAAAAAGTGAAACAGACACTGTCTAAACTCGTGAAAAACGAAGTGCGCCGTTTGATCACAGAAGAAAAAGTCCGTCCGGACGGCCGCGGCGTTGATCAAATCCGCCCGCTTTCTTCAGAAGTCGGCCTTCTGCCGAGAACGCATGGCTCCGGGCTGTTTACGAGAGGACAGACGCAGGCGCTCAGCGTTTGTACATTAGGCGCCCTTGGGGACGTTCAGATTCTTGACGGTTTAGGCGTGGAAGAATCAAAACGTTTTATGCATCATTATAACTTCCCGCAGTTCAGCGTAGGGGAGACAGGCCCGATGCGCGGACCGGGACGCCGTGAGATCGGTCACGGCGCTCTTGGAGAGCGTGCGCTTGAGCCGGTCATTCCGAATGAAAAAGACTTCCCGTATACGGTCCGCCTCGTATCCGAAGTGCTTGAATCAAACGGTTCCACTTCACAGGCCAGCATTTGCGCGAGCACGCTTGCCATGATGGACGCAGGTGTTCCGATTAAAGCCCCTGTTGCAGGTATCGCGATGGGACTTGTGAAATCAGGCGAGTACTATACGGTATTAACGGATATTCAAGGGATGGAAGACGCCCTCGGTGACATGGACTTTAAAGTAGCCGGCACGGAAAAAGGCGTGACAGCGCTGCAAATGGACATTAAAATTGAAGGCCTTTCAAGAGAAATTCTTGAAGAAGCGCTTCAGCAGGCGAAAAAAGGAAGAATGGAAATCTTGAACAGCATGCTCAGCACGCTTGGTGAATCAAGAAAAGAACTTTCTCAATATGCGCCGAAAATTTTAACGATGAACATTAATCCGGATAAAATCCGTGACGTTATCGGACCGAGCGGTAAACAAATCAACAAAATCATTGAAGATACCGGTGTTAAAATTGACATTGAACAAGACGGCACCATCTTTATTTCTTCTACTGATGAAAGCAGCAACCAAAAAGCGAAAAAAATCATCGAAGATCTTGTCAGAGAAGTCGAAGTCGGCCAGCTTTACCTCGGTAAAGTCAAACGGATTGAGAAATTCGGCGCTTTCGTTGAAATCTTCAGCGGAAAAGACGGTCTCGTTCACATCTCTGAACTAGCGCTCGAACGGGTCGGCAAGGTTGAGGATGTTGTGAAAATCGGTGACGAAATCCTTGTGAAGGTAACCGAAATTGACAAACAGGGACGAGTGAATCTGTCGCGTAAAGCAGTGCTGCGCGAAGAGAAAGAAAAAGAACAGGAACAACAACAATCTTAA	MGQEKHVFTIDWAGRQLTVEAGQLAKQANGAVMVRYGDTAVLSTATASKEPKPLDFFPLTVNYEERLYAVGKIPGGFIKREGRPSEKAVLASRLIDRPIRPLFADGFRNEVQVISIVMSVDQDCSSEMAAMFGSSLALCVSDIPFEGPIAGVTVGRIDGKFVINPTVDQLEKSDINLIVAGTKDAINMVEAGADEVPEEIMLEAIMFGHEEIKRLIAFQEEIVAAVGKEKTEIELYEIDEELSEKVKSLAEPDLLSAIQVHEKHAREDAINEVKNAVVAKFEEEEHDEDTIKKVKQTLSKLVKNEVRRLITEEKVRPDGRGVDQIRPLSSEVGLLPRTHGSGLFTRGQTQALSVCTLGALGDVQILDGLGVEESKRFMHHYNFPQFSVGETGPMRGPGRREIGHGALGERALEPVIPNEKDFPYTVRLVSEVLESNGSTSQASICASTLAMMDAGVPIKAPVAGIAMGLVKSGEYYTVLTDIQGMEDALGDMDFKVAGTEKGVTALQMDIKIEGLSREILEEALQQAKKGRMEILNSMLSTLGESRKELSQYAPKILTMNINPDKIRDVIGPSGKQINKIIEDTGVKIDIEQDGTIFISSTDESSNQKAKKIIEDLVREVEVGQLYLGKVKRIEKFGAFVEIFSGKDGLVHISELALERVGKVEDVVKIGDEILVKVTEIDKQGRVNLSRKAVLREEKEKEQEQQQS				NA	NA	NA	NA	NA
D1-12_00847	960			hypothetical protein	ATGTTGAAAAAATTCGTGCCGTTTGCCGTTTTTTTATTTCTTTTTTTTGTTTCGTTTGAAATGTTAAAAAATCCGTATACAGTTGATTACATAGACGCAATGAAAAAAGACGCTGTAACTGTGTCAGCATCAAAAGATCCGCTCTATGAAGAATTACTGCAAAAAGCGTCAGAGTATGAAGTGAAGCCGCAAGACGCGCGGATTGATAAAATATGGAAGAGTATACCGGGATATAACGGTTTAAAAGTCAATGTGGAAAAATCCTATAAGCAAATGAAAAAGGACGGAGAATTTCACGAAGACGGCCTTGTCTATGAGCAGGTGAAACCGAAAGTCCATCTTGATTCTCTCGCGCCCGAACCCATTTATAAAGGAAATCCCGACAAACCGATGGTCGCTTTCCTGATAAATGTCGCCTGGGGAAACGAATACGTGGAGCAAATGCTGCCTATTCTGAAGCAGCACCAGGTCAAAGCAACTTTCTTTCTTGAAGGGAAATGGCTGAAAAACAATCAGGAACTTGGGAAAAAAATAGCGGCAGACGGACATGAAATCGGAAATCATTCATACAATCACCCTGATATGAGCAAACTGACTTCAGGAAGCATTTCCGAACAGCTTGACAAAACCAATGCACAAATCAGCGAGACGCTCGGCATGAAGCCGAAATGGTTTGCGCCGCCAAGCGGCAGCTTCAGAAAAGCGGTGGTCGACCTTGCGGCGGAAAAAGGAATGGGCACCATCATGTGGACCGTTGACACCATTGACTGGCAAAAACCGTCTCCGGCTGTTTTACAAACAAGGGTGTTGAGCAAAATACATAACGGAGCCATGATTTTAATGCATCCGACTGATCCGACTGCGAAAAGCCTGGATACACTGATTGCAAAAATCAAAGAAAAAGGCTACGCGCTCGGCTCAGTGTCTGACTTAATGGATGAAAACAGGCTGATGAAGTAG	MLKKFVPFAVFLFLFFVSFEMLKNPYTVDYIDAMKKDAVTVSASKDPLYEELLQKASEYEVKPQDARIDKIWKSIPGYNGLKVNVEKSYKQMKKDGEFHEDGLVYEQVKPKVHLDSLAPEPIYKGNPDKPMVAFLINVAWGNEYVEQMLPILKQHQVKATFFLEGKWLKNNQELGKKIAADGHEIGNHSYNHPDMSKLTSGSISEQLDKTNAQISETLGMKPKWFAPPSGSFRKAVVDLAAEKGMGTIMWTVDTIDWQKPSPAVLQTRVLSKIHNGAMILMHPTDPTAKSLDTLIAKIKEKGYALGSVSDLMDENRLMK	PGPT0018645_1355	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-12_00848	1236		COG0612	putative zinc protease	TTGATAAAACGCTATACATGCCAAAACGGTGTAAGAGTTGTGCTTGAAAATAATCCAACGGTGCGGTCTGTGGCAATCGGCGTCTGGATCGGGACGGGGTCACGTCATGAAACGCCGGAGACAAACGGTATTTCGCACTTTCTTGAGCATATGTTTTTTAAAGGAACAAATACCAGGTCCGCACGGGAAATCGCAGAATCCTTCGATCGGATAGGCGGCCAAGTGAATGCCTTCACTTCAAAAGAATATACGTGCTATTACGCCAAAGTTCTGGATGAGCATGCAAACTACGCACTTGATGTGCTGGCTGATATGTTCTTTCATTCTGCTTTTGACGAAGATGAGCTCAAAAAAGAAAAGAACGTCGTATATGAAGAAATCAAAATGTATGAAGACGCGCCGGATGACATTGTCCACGATCTGCTGAGCAAAGCGACATACGGCAATCATTCGCTCGGCTACCCGATTCTCGGGACGGAGGAAACGCTTTCGTCATTTAACGGCGATTCTCTCAGACAGCATATGGATGACTTTTACACGCCGGACCGCGTCGTCATTTCTGTCGCCGGAAATGTAACAGAACAATTCATTAAAGACGTGGAGAAATGGTTCGGTACATACGAAGCGAAGGGCAAAGCAAGCGGCATCAGCGAGCCTGAGTTTCATTATGAAAAGCTGACCAGAAAAAAAGACACCGAACAGGCGCATCTCTGTCTCGGTTTCAAAGGCCTGAAAGTCGGAGATGCGGACATTTACGATTTGATCGTCTTAAACAACGTGCTGGGCGGAAGCATGAGCAGCCGTCTTTTCCAGGATGTGCGCGAAGATAAAGGACTGGCCTATTCTGTATACAGCTATCACAGTTCCTATGAAGACAGCGGTATGCTGACGATTTACGGAGGCACCGGCGCGAATCAGCTCGGACTTCTGTCTGAAACCATTCAGGAAACGTTATCGGTTCTAAAACGTGACGGTATCACCCCGAAAGAGCTGGAAAACAGCAAAGAGCAAATGAAGGGGAGCTTAATGCTCAGCTTAGAGAGCACAAACAGCAAAATGAGCCGGAACGGGAAAAACGAACTCCTGCTCGGAAAGCATAAGACCATGGATGAAATTATCACTGAATTAAATGCGGTCAGCCTGGAAAGCGTCAACGGCCTCAGCCGCCGCTTATTTACGGATGATTACGCACTATCGCTCATCAGCCCGACCGGCAATATGCCGGCTTCATCTTAA	MIKRYTCQNGVRVVLENNPTVRSVAIGVWIGTGSRHETPETNGISHFLEHMFFKGTNTRSAREIAESFDRIGGQVNAFTSKEYTCYYAKVLDEHANYALDVLADMFFHSAFDEDELKKEKNVVYEEIKMYEDAPDDIVHDLLSKATYGNHSLGYPILGTEETLSSFNGDSLRQHMDDFYTPDRVVISVAGNVTEQFIKDVEKWFGTYEAKGKASGISEPEFHYEKLTRKKDTEQAHLCLGFKGLKVGDADIYDLIVLNNVLGGSMSSRLFQDVREDKGLAYSVYSYHSSYEDSGMLTIYGGTGANQLGLLSETIQETLSVLKRDGITPKELENSKEQMKGSLMLSLESTNSKMSRNGKNELLLGKHKTMDEIITELNAVSLESVNGLSRRLFTDDYALSLISPTGNMPASS				NA	NA	NA	NA	NA
D1-12_00849	258			hypothetical protein	ATGAGGCTCAGTGAACTGTCAGGTAAAGAAATTGTGGACATTAAACGTGCAGAGCGGCTCGGCGTGCTCGGCCAGACCGATTTGGAAATTAATGAACAGGACGGACAAATTACCGCGCTGTTGATACCGACGGTAAAATGGTTCGGATTGCGAAAACAAGGCCACGACATCCGCGTCCCCTGGAACCATATCCAAAAAATCGGGTCAGACATGATCATTTTAGACGTTCCGGGGGAGATCACGCCTCCCGAAGAGTAG	MRLSELSGKEIVDIKRAERLGVLGQTDLEINEQDGQITALLIPTVKWFGLRKQGHDIRVPWNHIQKIGSDMIILDVPGEITPPEE				NA	NA	NA	NA	NA
D1-12_00850	891	dpaA		Dipicolinate synthase subunit A	ATGTTAACCGGATTGACAATTGCGATCATTGGCGGTGACGCAAGACAGCTTGAGATTATAAGAAAGCTGACAGAACAGCATGCCGATATTTATCTTGCAGGGTTTGACCAATTGGATGACGGTTTTACAGGAACCGTCAAATGCAAAATCGATGAGATTCCCTTTCAAAAAATAGACAGTATCATCCTGCCCGTATCGGCAACGACCGGAGAAGGCGTTGTTTCCACGGTTTTTTCAAATGAAGAAGTGGTATTAAAGCAGAGCTATCTTGAGCGGACACCGGAGCATTGCGTCATTTATTCAGGCATCTCCAACGCGTATCTTGAGGGGATCGCCAGCGAAGCGGGCCGCAAACTTGTGAAATTATTTGAACGGGACGATATCGCGATATTCAACTCGATTCCCACTGTTGAAGGAACAATCATGATGGCGATTCAGCATACGGATTATACCATTCACGGATCAAATGTCGCCGTTCTCGGCATGGGGCGCACCGGTATGACGATCGCCCGGACGTTTGCGGCGTTAGGGGCGAAGGTAAAAGTGGGCGCGCGGAGTTCGGCTCATTTGGCCCGTATAACGGAAATGGGGCTTTCTCCTTTTCAACTTGAAGAGCTTACTGAACATGTAAATGATATTGATATCTGCATTAACACCGTACCGAGCTTGATTCTGAATCAAAGCGTTTTATCGCGCATGACGCCGAAGACCTTGATTTTGGATTTAGCATCCCGCCCGGGCGGAACGGATTTCAAATATGCTGAAAAACAAGGCATTAAAGCGCTGCTTGCCCCGGGTCTTCCGGGAATTGTGGCCCCGAAAACAGCCGGACAGATTATTGCGAACGTATTGAGCAAGCTTTTGGCAGACTTAAAGAAAGAGGGGGAATAA	MLTGLTIAIIGGDARQLEIIRKLTEQHADIYLAGFDQLDDGFTGTVKCKIDEIPFQKIDSIILPVSATTGEGVVSTVFSNEEVVLKQSYLERTPEHCVIYSGISNAYLEGIASEAGRKLVKLFERDDIAIFNSIPTVEGTIMMAIQHTDYTIHGSNVAVLGMGRTGMTIARTFAALGAKVKVGARSSAHLARITEMGLSPFQLEELTEHVNDIDICINTVPSLILNQSVLSRMTPKTLILDLASRPGGTDFKYAEKQGIKALLAPGLPGIVAPKTAGQIIANVLSKLLADLKKEGE				NA	NA	NA	NA	NA
D1-12_00851	591	dpaB	COG0452	Dipicolinate synthase subunit B	ATGTCTCTGAAAGGGAAAAGAATCGGATTCGGATTAACCGGCTCGCACTGCACATATGAGGAAGTTTTTCCGCAAATAGAGGCGCTTATCAGTCAAGGAGCTGAAGTCCGGCCGGTCGTGACGTCAACCGTTCAATCGACCGATACCCGCTTTGGGGAGGGGGGAGATTGGGTCAGAAAAATTGAAGAAACAACAGGCTTTGAGGCGATTGATTCCATCGTAAAAGCGGAGCCTCTCGGGCCGAAACTTCCGCTCGACTGCATGGTCATCGCCCCTTTAACCGGAAATTCAATGAGCAAACTCGCAAATGCGATGACTGACAGCCCCGTCCTTATGGCTGCGAAAGCCACGATCCGCAACGGCCGCCCGGTCGTGCTCGGAATTTCGACAAACGACGGACTCGGTTTAAACGGAACGAATTTAATGAGGCTGATGTCCGCAAAAAACATATATTTCATCCCGTTCGGCCAGGATGACCACGTGAAAAAACCGACATCGCTCGTCGCAAGAATGGATCTTCTTCCGATTACGGTAGAAAAAGCTCTTTTGCACCAGCAGGTTCAGCCGGTGCTCGTACACCATCATGAATGA	MSLKGKRIGFGLTGSHCTYEEVFPQIEALISQGAEVRPVVTSTVQSTDTRFGEGGDWVRKIEETTGFEAIDSIVKAEPLGPKLPLDCMVIAPLTGNSMSKLANAMTDSPVLMAAKATIRNGRPVVLGISTNDGLGLNGTNLMRLMSAKNIYFIPFGQDDHVKKPTSLVARMDLLPITVEKALLHQQVQPVLVHHHE				NA	NA	NA	NA	NA
D1-12_00852	1041	asd	COG0136	Aspartate-semialdehyde dehydrogenase	ATGGGAAGAGGATTACACGTAGCAGTTGTCGGAGCGACGGGAGCCGTAGGACAGCAAATGCTGAAAACACTGGAAGACAGAAACTTTGAAATCGAAACACTCACACTACTATCCTCAAAGCGTTCTGCTGGTACGAAAGTAATGTTTAAAGGCGAAGAATATACAGTGCAGGAAGCTGTTCCTGAAAGCTTCGAAGGCGTTCATATCGCGTTATTCAGCGCCGGCGGAAGCGTATCACAAAGCTTGGCGCCTGAGGCTGTAAAACGGGGAGCCATCGTGATTGACAATACCAGCGCATTCCGGATGGACGAAAATACACCGCTCGTGGTGCCTGAGGTGAACGAAGGTGATCTGCACAAACATAACGGCATTATCGCCAACCCTAACTGTTCAACGATTCAGATGGTGGCTGCGCTTGAACCGATCCGCAAAGCGTACGGTTTGAAAAAAGTCATTGTATCTACTTACCAAGCTGTGTCCGGGGCCGGCAATGAAGCGGCGAAAGAATTGTACAGCCAGACAAAGGCGATTTTAAACAATGAACCCGCAGAACCGTCTATTATGCCGGTTAAAGGTGACAAAAAGCATTATCAAATCGCATTTAACGCCATTCCGCAAATTGATAAATTCCAAGACAACGGCTATACGTTTGAGGAAATGAAAATGATTAATGAAACGAAAAAAATCATGCATATGCCGAAGCTGGAAGTGGCTGCGACATGTGTCAGACTGCCGATTGAAACAGGGCACTCAGAATCTGTTTACATTGAGCTTGACCGTGATGACGCAACCGTTGAAGATATGAAACAGCTTTTGAAAGAAGCTCCGGGTGTTACGCTTCAGGATGATCCGGCGGAGCAGCTTTACCCGATGCCTGCTGATTGCGTCGGCAAACGCGATGTATTTGTAGGAAGAATCCGGAAAGATTTGGACAGAGCAAACGGTTTTCATTTGTGGGTTGTTTCTGATAACCTGTTAAAAGGCGCCGCTTGGAACTCAGTCCAAATCGCGGAAAGCCTGCAAAAACTGAACCTCGTATAA	MGRGLHVAVVGATGAVGQQMLKTLEDRNFEIETLTLLSSKRSAGTKVMFKGEEYTVQEAVPESFEGVHIALFSAGGSVSQSLAPEAVKRGAIVIDNTSAFRMDENTPLVVPEVNEGDLHKHNGIIANPNCSTIQMVAALEPIRKAYGLKKVIVSTYQAVSGAGNEAAKELYSQTKAILNNEPAEPSIMPVKGDKKHYQIAFNAIPQIDKFQDNGYTFEEMKMINETKKIMHMPKLEVAATCVRLPIETGHSESVYIELDRDDATVEDMKQLLKEAPGVTLQDDPAEQLYPMPADCVGKRDVFVGRIRKDLDRANGFHLWVVSDNLLKGAAWNSVQIAESLQKLNLV	PGPT0014045_2922	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
D1-12_00853	1215	lysC_1	COG0527	Aspartokinase 2	GTGAAGATCATTGTTCAAAAATTCGGCGGAACATCCGTAAAAGATGACAAAGGCCGCAAGCTTGCGCTAGCACACATTAAAGATGCCATCAGTGAAGGTTATAAAGTTGTCGTTGTCGTATCAGCGATGGGAAGAAAAGGAGACCCGTACGCGACAGATTCTTTAATCGGGCTCCTTTACGGCAGCCAGTCCGACATTTCTCCGAGAGAGCAGGATATGCTTCTGTCTTGCGGAGAAACGATTTCGTCCGTTGTTTTTTCCAGCATGCTGAAGGAAAACGGCATAAAAGCCGCAGCTTTAACAGGAGCCCAAGCCGGCTTTTTAACCAATGCCCAGCATACTGACGCCAAAATTATAGAAATGAAAACAGAGCGGCTTTTCGCTGCACTCGCCAGCCATGACGCTGTCGTTGTCGCAGGATTTCAGGGAGCGACTGAAAAAGGCGACACGACGACGATCGGCAGAGGAGGAAGCGATACTTCAGCAGCGGCGCTCGGCGCGGCGGTAGATGCTGAGTTTATCGACATTTTTACGGACGTGGAAGGCGTTATGACAGCCGATCCGAGAATCGTGGAAAATGCTAAGCCGCTTCCGAACGTCACATATACGGAAATCTGCAACCTTGCCTATCAAGGCGCGAAAGTCATTCATCCGCGCGCGGTGGAAATCGCCATGCAGGCAAAGGTGCCGATCCGCGTGCGCTCCACTTATTCAAAAGACAAAGGCACTTTGGTGACGTCCCATCATTCGTCTAACATCGGCAGCGATGTATTCGAACGGCTGATTACGGGGATCGCCCATGTGAAAGATGTGACGCAATTTAAGGTTCCCGCCAAAATGGGGCAATACAACGTTCAGACTGAAGTCTTTAAAGCAATGGCAAATGCCGGAATCAGCGTAGATTTCTTTAACATTACGCCGAGTGAAATCGTATATACCGTAGCCGGCAGTAAAACGGAAGCCGCGCGCAGCATCTTGGCTGAATTAGGGTATGAGCCGACAGTGACGGAGAGCTGTGCGAAAGTGTCAGCGGTCGGCGCCGGGATAATGGGTGTTCCGGGTGTCACGTCAAAAATCGTCTCCGCACTTTCTGATAAAGGCATTCCGATTCTGCAATCTGCCGACAGCCATACGACGATCTGGGTGCTCGTTCATGAAAAAGATATGGTAACGGCCGTAAATGCGCTGCATGAAGTGTTTGAACTTTCAAAGTAA	MKIIVQKFGGTSVKDDKGRKLALAHIKDAISEGYKVVVVVSAMGRKGDPYATDSLIGLLYGSQSDISPREQDMLLSCGETISSVVFSSMLKENGIKAAALTGAQAGFLTNAQHTDAKIIEMKTERLFAALASHDAVVVAGFQGATEKGDTTTIGRGGSDTSAAALGAAVDAEFIDIFTDVEGVMTADPRIVENAKPLPNVTYTEICNLAYQGAKVIHPRAVEIAMQAKVPIRVRSTYSKDKGTLVTSHHSSNIGSDVFERLITGIAHVKDVTQFKVPAKMGQYNVQTEVFKAMANAGISVDFFNITPSEIVYTVAGSKTEAARSILAELGYEPTVTESCAKVSAVGAGIMGVPGVTSKIVSALSDKGIPILQSADSHTTIWVLVHEKDMVTAVNALHEVFELSK	PGPT0014040_5611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
D1-12_00854	870	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAATGTCGGAAATATATCTACAGCGATGATTACCCCCTTTGACAGTAAAGGGAATGTAGACTTTCAAAAACTGTCTACATTAATCGACTATTTGTTGAAAAACGGCACGGATTCTTTAGTCGTCGCAGGCACGACCGGCGAATCTCCGACACTTTCAACGGAAGAAAAAATTGCACTCTTTGAATTTACAGTCAAAGAAGTGAACGGACGCGTGCCTGTCATTGCGGGTACGGGAAGCAACAATACGAAAGACTCCATTAAACTGACAAAAAAAGCTGAAGAAGCCGGCGTCGATTGCGTTATGCTTGTCACGCCGTATTATAATAAGCCTTCCCAAGAGGGCATGTACCGTCATTTTAAAGCCATTGCGGAAGAAACGTCTCTTCCTGTGATGCTTTACAACGTGCCGGGCAGAACGGTCGCTTCGCTTGCGCCGGAAACGGCCATCAGACTTGCGGAGATTCCGAATATCTCTGCAATTAAAGAAGCGAGCGGCGATCTTGATGCCATTACGAAAATCATTGCCGAAACACCGGAAGATTTTTACGTCTATTCAGGTGATGACGGGTTAACGCTTCCTATTCTCGCAGTCGGCGGAAGAGGAGTCGTGTCAGTGGCCAGCCATATCGTAGGTTCTGACATGCAGCAGATGATTAAAAACTATACGAACGGGCAGACGGCAACCGCGGCACTGATTCATCAGAAGCTTCAGCCGATCATGAAGGAGCTCTTTAAAGCGCCTAATCCGGCTCCGGTCAAAACGGCGCTACAGCTGAAAGGCCTTGATGTCGGATCTGTGCGTCTTCCTCTTATCCCGCTGAATGAAGATGAACGTCTGAGCCTGAGCAGCGTCATCAGCGAACTGTAA	MNVGNISTAMITPFDSKGNVDFQKLSTLIDYLLKNGTDSLVVAGTTGESPTLSTEEKIALFEFTVKEVNGRVPVIAGTGSNNTKDSIKLTKKAEEAGVDCVMLVTPYYNKPSQEGMYRHFKAIAEETSLPVMLYNVPGRTVASLAPETAIRLAEIPNISAIKEASGDLDAITKIIAETPEDFYVYSGDDGLTLPILAVGGRGVVSVASHIVGSDMQQMIKNYTNGQTATAALIHQKLQPIMKELFKAPNPAPVKTALQLKGLDVGSVRLPLIPLNEDERLSLSSVISEL	PGPT0002080_8918	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-12_00855	1701	rnjB	COG0595	Ribonuclease J2	ATGGACGGGTATGAGACTAGGAGGATACAGATTTTGAAAAAGAAAAATACAGAAAACGTCAGAATTATCGCCCTTGGCGGCGTCGGAGAAATTGGGAAGAACCTATATGTCATTGAAATTGACTCAGACATATTTGTAGTGGATGCAGGGCTGATGCACCCTGAAAATGAAATGCTCGGTATTGATGTCGTCATTCCGGATATTTCCTACTTAGTAGAACGGGCTGACCGCGTGAAGGCCATCTTTCTGACACACGGGCACGATGAAAACATCGGAGGCGTCTTTTATTTATTGAACAAGCTGTCGGTGCCGGTATACGGAACGAAGCTTACTCTTGCATTACTGAGAGAAAAACTCAAGCAGTACGGGCATAATCGAAAAGCTGATTTGCGTGAAGTTCACTCTAAATCAGTCATTACATTTGAATCAACGAAAGTATCGTTCTTTAAAACAATTCACAGTATTCCGGATTCAGTGGGAGTCAGCTTCAAAACATCACTTGGCTCTATTGTATGCACGGGAGACTTTAAATTTGACCAGACGCCTGCTTATCACCAATCATGTGATATTGGCGAAATTGCCAAAATCGGAAACAGCGGCGTGCTCGCCCTGCTTTCTGACAGCGCCAATGCGGAGCGCCCGGGGTATACTCCGTCAGAAGCATATGTAAGCGGTGAAATTTCCGATGCGATGAACAGTTCAGAAAACCGTGTCATCATTGCTGTATTCGCGTCTAATATCAACCGGATCCAGCAAGTGATACAGGCTGCCGTCCAGAACGGCCGCAAACTTGCAATCGCCGGAAAAAATCTGCAAAACGTGCTTCAGCTTGGGCGCAAGCTCGGCTATATTGAAGCCGAAGATGAAATGTTTATTCCTGTGCAGGATGTGAAAAAATATCCGAAGCGGGAAGTTGCAATTGTTACAGCCGGAAGCCATGGTGAGCCGCTGGCCGCTCTTACGCGGATGGCCAAGCAGGCGCACAAGCAGCTTAACATTGAAGAAGGAGACACCGTTGTCATTGCATCAACACCGATTCCGGGGCATGAATTGATATATTCCAAAACCGTCAACCTGCTTGCCCGCGCCGGCGCTCAAGTCATTTTCGCCCAAAAACGCGTGCATGTGTCCGGTCACGGTTCGCAGGAAGAATTGAAACTCATGCTTAATTTGCTGAAACCGAAATATTTAATTCCGGTTAACGGTGAATTCAGAATGCAAAAAGCGCATTCCAAAATCGCAGAAGAGATCGGCATGAAACGCAGCGACATTTTCTTGATTGAAAAAGGTGACGTCGTTGAATTCCGCGGTCAGAATGTGAAAATCGGGGATAAAGTCACGTACGGAAACGTTCTGATTGACGGCCTCGGAGTCGGCGACATCGGCAACATCGTGCTGAGAGACCGCCGCTTATTATCACAAGACGGCATTCTCATCGTCGTGATCTCACTCGATAAGCAGAAAAAGAACCTCGTATCAGGTCCTGAGATCATTACGCGCGGTTTCGTGTATGTCAGAGAATCAGAAGGTTTAATTGTACAAGCTACTGAGCTCGTCCGCTCTATCGTGACTGAAGCGACGGAAACATCTGCCGTAGAATGGTCCACGCTGAAACAAGCAATGCGTGATGCGCTGAATCAATTCCTTTATGAAAAAACAAAACGCAAGCCGATGATCATTCCGATCATTATGGAAGTATAA	MDGYETRRIQILKKKNTENVRIIALGGVGEIGKNLYVIEIDSDIFVVDAGLMHPENEMLGIDVVIPDISYLVERADRVKAIFLTHGHDENIGGVFYLLNKLSVPVYGTKLTLALLREKLKQYGHNRKADLREVHSKSVITFESTKVSFFKTIHSIPDSVGVSFKTSLGSIVCTGDFKFDQTPAYHQSCDIGEIAKIGNSGVLALLSDSANAERPGYTPSEAYVSGEISDAMNSSENRVIIAVFASNINRIQQVIQAAVQNGRKLAIAGKNLQNVLQLGRKLGYIEAEDEMFIPVQDVKKYPKREVAIVTAGSHGEPLAALTRMAKQAHKQLNIEEGDTVVIASTPIPGHELIYSKTVNLLARAGAQVIFAQKRVHVSGHGSQEELKLMLNLLKPKYLIPVNGEFRMQKAHSKIAEEIGMKRSDIFLIEKGDVVEFRGQNVKIGDKVTYGNVLIDGLGVGDIGNIVLRDRRLLSQDGILIVVISLDKQKKNLVSGPEIITRGFVYVRESEGLIVQATELVRSIVTEATETSAVEWSTLKQAMRDALNQFLYEKTKRKPMIIPIIMEV				NA	NA	NA	NA	NA
D1-12_00856	726	tepA	COG0740	Translocation-enhancing protein TepA	ATGGAAAACACCGAAGAACAGCAGCCCGAAAAATCAGATGCGAAAGACAGCATTATGAGCAAAATTCAGCAGCTGGGAGAGACATCTCTGCCGCAAATGTCCCAAGATACCAATATTCACTGCCTGACGATCATCGGCCAAATTGAGGGGCACGTCCAGCTCCCGCCGCAAAATAAAACAACCAAATATGAACACGTCATTCCGCAAATCGTCGCGATTGAGCAAAATCCGAAAATCGAAGGACTTCTGATCATCTTAAACACCGTCGGAGGCGATGTGGAAGCGGGGCTTGCGATTGCGGAAATGCTCGCATCCTTATCAAAACCGACCGTCTCAATCGTACTCGGCGGGGGCCACTCGATAGGTGTGCCGATCGCCGTGTCATGTGATCATAGTTTTATCGCGGAGACAGCGACAATGACCATTCACCCCGTTCGGCTTACAGGTCTGGTTATCGGGGTTCCGCAAACGTTTGAATACTTGGATAAAATGCAGGAGCGGGTCGTCAACTTTGTGACCCATCATTCAAATATTTCTGAAGAAAAATTCAAAGAGCTGATGTTTTCAAAAGGAAACTTAACCAGGGACATCGGGACGAACGTAGTCGGGAAAGATGCGGCTGATTACGGATTAATTGATGCCGTGGGCGGCGTCGGACAGGCGATAAAAAAGCTGAATCAGCTGATTGAGGAACGAAAGGGCGAGGAAGGAAGGATGATTCAATGA	MENTEEQQPEKSDAKDSIMSKIQQLGETSLPQMSQDTNIHCLTIIGQIEGHVQLPPQNKTTKYEHVIPQIVAIEQNPKIEGLLIILNTVGGDVEAGLAIAEMLASLSKPTVSIVLGGGHSIGVPIAVSCDHSFIAETATMTIHPVRLTGLVIGVPQTFEYLDKMQERVVNFVTHHSNISEEKFKELMFSKGNLTRDIGTNVVGKDAADYGLIDAVGGVGQAIKKLNQLIEERKGEEGRMIQ	PGPT0014595_944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-12_00857	210			hypothetical protein	ATGATCCTTTATACCGTCATGCCCCAAGAAGTCGTTTATGGTCAGGATATAGAGCAAAGCGTGCATGAACAGGTAGATTACGCCGGCGTGCCGCTGCTAGTTGAGATGAAGGGAAATGAAGCTGAAGTCGTACAGATTTTAAGTACGAACCCGATGGATTTTCTGAATCCGGACATCGCTCCGGGACAAAAAATCAAGCTGAAAATCTAA	MILYTVMPQEVVYGQDIEQSVHEQVDYAGVPLLVEMKGNEAEVVQILSTNPMDFLNPDIAPGQKIKLKI				NA	NA	NA	NA	NA
D1-12_00858	2361	spoIIIE	COG1674	DNA translocase SpoIIIE	GTGGCAAAGAAAAAACGGAAATCTAAAAAGAAACAAGAGAGTAAGCTCAATCTAAAATACGAACTAAGCGGACTGCTCTGTGTTGCAATCTCAATTATTGCTGTTTTGCAGCTCGGCGTTGTGGGACAGACATTTGTGTACTTGTTCCGTTTTTTTGCCGGAGAGTGGTTTATTTTATGCTTAATTGCGCTCTTCCTTCTCGGAATTTCGCTGTTTTGGAAAAAGAAGAGTCCAAGCCTTTTAACGAGAAGAAAGGCAGGGTTGTACTGTATTATCGCCAGTATATTGCTGCTGTCTCACGTGCAGCTCTTTAAAAATCTGTCTCATCACGGGTCGATTCGTTCGGCAAGTGTCATCGGCAACACGTGGGAGCTGTTTATGATTGACATGAAACAGCAGGCTGCTTCCCCTGATTTGGGCGGCGGCATGATCGGCGCGGTACTGTTTGCAGCTTCCCACTTTCTATTTGCATCAACGGGTTCACAAATCATGGCGATCGTGCTGATCTTAATGGGGCTGATTCTTGTAACGGGCCGTTCACTGCAGGAAACGCTCAAAAAGTGGACGAGCCCCGTCGGCCGGTTTATCCGCGGCCAGTGGCAGGCATTTCTTGAGGATATGAAGACGGTCAGAACGAATATGTCTTCGCCGAAAACAAAAACAAAATCGGGCAAAAAACAAAAACGGGTTCAAAAGAAAAAAGAAGAGCCTGAACCGGAGGAAGAGGATGAGGAAATCATTTCGCCGATCATCCATTCAGAGCCGATTATTTCAAGCTTTTCAGACCGTCAGGAAGAGCCCGCCGAACCGCTGATTCCGGAAAAAACGCAGGAGGCTGCACAAGCGGCAAAAGTTGAGCCTTCCGGCGGCGCTCAAGACAGTGGCGAAACGGCTGCGGCTCCGCCGATGACGTTTACAGAGCTTGAAAATAAAGATTATCAAATGCCTTCATTGGACATACTGGCTGACCCGAAACATACAGGCCAGCAGACCGATAAGAAAAACATTTACGAGAATGCAAGAAAACTCGAACGGACTTTTCAAAGCTTCGGCGTAAAGGCGAAAGTGACGCAGGTTCATCTCGGTCCGGCGGTCACAAAATATGAGGTGTATCCGGACGTCGGGGTCAAAGTCAGTAAAATCGTGAATCTGAGCGATGACCTCGCGCTCGCGCTTGCCGCGAAGGATATCCGGATCGAAGCGCCGATTCCGGGCAAATCGGCAATCGGCATCGAGGTGCCCAATGCTGAAGTGGCGATGGTTTCGTTAAAAGAAGTGCTTGAATCCAAGCTCAATGACAAGCCGGACGCGAAGCTTCTGATCGGCTTGGGACGAAATATTTCCGGGGAAGCCGTGCTTGCCGAACTGAACAAAATGCCCCACCTGCTCGTAGCGGGGGCAACGGGAAGCGGAAAAAGCGTCTGTGTCAACGGTATTATTACGAGCATTCTGATGAGGGCTAAACCGCATGAAGTGAAGATGATGATGATTGACCCGAAAATGGTTGAACTGAATGTGTATAACGGCATTCCTCATCTGCTTGCGCCGGTCGTGACAGATCCGAAAAAGGCCTCGCAGGCTTTGAAAAAGGTCGTCAATGAGATGGAGCGCCGCTATGAGCTGTTCTCCCATACGGGTACGAGAAATATAGAAGGCTATAACGACCATATTAAGCGGTCAAATGCCGAAGAAGAAGTCAAGCAGCCTGAGCTGCCATACATCGTCGTCATCGTTGACGAGCTTGCCGATCTGATGATGGTCGCTTCTTCCGACGTGGAAGATTCAATTACGAGACTTTCACAGATGGCGCGAGCGGCGGGAATTCATTTGATTATCGCGACACAGAGGCCTTCAGTCGACGTTATTACCGGTGTTATTAAAGCCAACATCCCGTCAAGAATCGCTTTCAGTGTCTCATCTCAGACCGATTCACGGACGATTTTAGACATGGGCGGCGCTGAAAAGCTTCTGGGGCGCGGAGACATGCTGTTTCTGCCTGTGGGCGCAAATAAGCCGGTGCGTGTGCAAGGGGCATTCTTATCCGATGAAGAGGTTGAGCATGTCGTCGATCATGTCATTACGCAGCAAAAAGCGCAGTATCAAGAAGAGATGATTCCGGAAGAAGTTTCGGAAACACACAGTGAAGTAACGGATGACCTCTATGACGAAGCGGTCGATTTGATTATCGGCATGCAGACGGCATCAGTCTCCATGCTTCAAAGGCGGTTCAGAATCGGATATACGAGAGCTGCCCGTCTGATTGACGCAATGGAGGAACGGGGCGTCGTCGGGCCGTATGAAGGAAGCAAACCGAGGGAAGTACTATTATCTAAGGAACAATATGATGAGCTCTCTTCTTAA	MAKKKRKSKKKQESKLNLKYELSGLLCVAISIIAVLQLGVVGQTFVYLFRFFAGEWFILCLIALFLLGISLFWKKKSPSLLTRRKAGLYCIIASILLLSHVQLFKNLSHHGSIRSASVIGNTWELFMIDMKQQAASPDLGGGMIGAVLFAASHFLFASTGSQIMAIVLILMGLILVTGRSLQETLKKWTSPVGRFIRGQWQAFLEDMKTVRTNMSSPKTKTKSGKKQKRVQKKKEEPEPEEEDEEIISPIIHSEPIISSFSDRQEEPAEPLIPEKTQEAAQAAKVEPSGGAQDSGETAAAPPMTFTELENKDYQMPSLDILADPKHTGQQTDKKNIYENARKLERTFQSFGVKAKVTQVHLGPAVTKYEVYPDVGVKVSKIVNLSDDLALALAAKDIRIEAPIPGKSAIGIEVPNAEVAMVSLKEVLESKLNDKPDAKLLIGLGRNISGEAVLAELNKMPHLLVAGATGSGKSVCVNGIITSILMRAKPHEVKMMMIDPKMVELNVYNGIPHLLAPVVTDPKKASQALKKVVNEMERRYELFSHTGTRNIEGYNDHIKRSNAEEEVKQPELPYIVVIVDELADLMMVASSDVEDSITRLSQMARAAGIHLIIATQRPSVDVITGVIKANIPSRIAFSVSSQTDSRTILDMGGAEKLLGRGDMLFLPVGANKPVRVQGAFLSDEEVEHVVDHVITQQKAQYQEEMIPEEVSETHSEVTDDLYDEAVDLIIGMQTASVSMLQRRFRIGYTRAARLIDAMEERGVVGPYEGSKPREVLLSKEQYDELSS	PGPT0030468_5842	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
D1-12_00859	726	nagR_1	COG2188	HTH-type transcriptional repressor NagR	ATGTCTACAAAAGCTGACAATCGTCACTTGTATCTAAAAGTGATTGAGCGAATCAAAGAGGATATACAAAACGGAATTTACACCGAAAAGGAAAAGCTTCCTTCTGAATTTGAGCTTTCAAAATCAATGGGTGTCAGCCGGGCAACTCTGCGTGAAGCTTTGCGTATCCTTGAAGAGGAGCATGTGATTATCAGAAGGCACGGTGTGGGCACTTTCGTCCATACAAAACCGCTGTTTCTTTCAGGTATTGAACAGCTCAACAGCGTGACGAAAACGATTCAGCAGGCGAACATGGTGCCGGGTACGATTTTTTTGTCGTCTCAGGTCATCACGCCGTCTGATGAAGATATCGCTAGATTCCGGCTTGAGCCTGAGCAGGAGCTTTTTTATTTGGAACGCGTGAGAACGGCAAGCGGCACTCCGGTCGTTTACTGTTTAGATACGATTCCGATGCACATTCTGCCGAATTCTTTCTGTCATGAACAGGAGTCTATTTTTGATCTTTTGGAAAAAAACTCCGGGTCTGTGATCAGCTATGCCGTTGCTGATATCGAACCGATCGGATATCACGATACGATTTCACCGGTTTTGGAATGCGAGCCGGAGACGGCGCTTTTATTGCTGAAGCAAACCCACTATAATCAGAATGATGAACCTGTGCTGTATTCATTAAATTATTTCCGGGCTGATAAGTTCAGTTTTCATGTTGTAAGAAAACGTTTTTAA	MSTKADNRHLYLKVIERIKEDIQNGIYTEKEKLPSEFELSKSMGVSRATLREALRILEEEHVIIRRHGVGTFVHTKPLFLSGIEQLNSVTKTIQQANMVPGTIFLSSQVITPSDEDIARFRLEPEQELFYLERVRTASGTPVVYCLDTIPMHILPNSFCHEQESIFDLLEKNSGSVISYAVADIEPIGYHDTISPVLECEPETALLLLKQTHYNQNDEPVLYSLNYFRADKFSFHVVRKRF				NA	NA	NA	NA	NA
D1-12_00860	1329	ymfD		Bacillibactin exporter	ATGTGTCTGTTTTTTTATTTGCCGTTTCAGTACATACTTTGTTTTCTGCAAGGCACAATAAAACAGGAAACAACCAAGTATAGTGAATGGGTGAATAAGTTGAGTAAGAAGAAAAATGGAACGAAAAATATCATTGCTCTGGCTTCTGTACCGCTCGTGATGACACTCGGGAATTCCATGCTGATTCCTGTGCTTCCGATGATTGAAAAGAAGCTGTCCATATCGTCTTTTCAAGTATCGTTAATTATAACGGTCTATTCGATTGTGGCGATTATTTGTATTCCGATTGCCGGATATCTGTCCGATAAATTCGGAAGAAAAAAGGTTCTTCTGCCTTGTCTTCTCATAGCCGGTGCGGGCGGAGCGCTTGCCGCGATAGCTTCCACCGCGTTCAAGCATCCTTATCCCATTATCTTGGCGGGGCGGGTGCTGCAGGGAATCGGTTCGGCAGGGGCGGCTCCTGTAGTGATGCCGTTTATCGGTGATTTATTCAAAGGGGATGATGAGCGGATTACCGCGGGGCTCGGCGACATTGAGACGTCAAACACAGCCGGGAAAGTAATAAGCCCGATTCTCGGGTCGCTCTTGGCTGCATGGTTTTGGTTTATGCCGTTTTGGTTCATTCCGTTTTTTTCGCTCATCAGTTTTTTTCTCGTATTGTTTTTGGTGGCAAAGCCGGAGGAACAAAAAGAAGCGCCTTCTATTTCCGAATTTGTGAAAAATGTCGGCCGCATATTTAAGCGTGACGGACGCTGGCTCTTTACGGTTTTTATCATCGGCTGCGTGATTATGTTTTTGCTGTTCGGGGTTCTTTTTTATTTATCAGACTCACTGGAGAAGAAATACGGAATTGACGGTGTGGCTAAAGGAGCGCTTTTGGCAATCCCGCTTTTATTTCTATCCGTCAGTTCATATATATCAGGCCGAAAAATCGGAAAAGACCAAGGCAAAATGAAGTTTTGCATCGTTTTCGGAATGAGTGCCGTGACACTGTCGTTTATCGGCCTATGGTGGAATCACAGTTTTTATTTATTATTTATCTTTTTGTGTGTCAGCGGTATCGGTATCGGAATGGCATTGCCGGCTTTAGACGCTGTCATCACAGAAGGCGTAGACAACGAGGAATCGGGAACCATCACCTCATTTTATAACAGCATGCGGTTTATCGGAGTAGCGGCGGGACCGCCGATCTTTGCTGCCCTGATGTCAAATGCAGGCTGGCTGATTTTTATTTTATCCGCTTTTTGCGGCATTGTATCTGTATTTTTAGCGCTGTTAAATATCTCATCACAAGCAAAAGAAAAGAAGGAATCATTAAAGACGGTGTAA	MCLFFYLPFQYILCFLQGTIKQETTKYSEWVNKLSKKKNGTKNIIALASVPLVMTLGNSMLIPVLPMIEKKLSISSFQVSLIITVYSIVAIICIPIAGYLSDKFGRKKVLLPCLLIAGAGGALAAIASTAFKHPYPIILAGRVLQGIGSAGAAPVVMPFIGDLFKGDDERITAGLGDIETSNTAGKVISPILGSLLAAWFWFMPFWFIPFFSLISFFLVLFLVAKPEEQKEAPSISEFVKNVGRIFKRDGRWLFTVFIIGCVIMFLLFGVLFYLSDSLEKKYGIDGVAKGALLAIPLLFLSVSSYISGRKIGKDQGKMKFCIVFGMSAVTLSFIGLWWNHSFYLLFIFLCVSGIGIGMALPALDAVITEGVDNEESGTITSFYNSMRFIGVAAGPPIFAALMSNAGWLIFILSAFCGIVSVFLALLNISSQAKEKKESLKTV	PGPT0003580_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003580-ymfE-K08221	NA	NA
D1-12_00861	456			hypothetical protein	GTGCATGAAGAAAAAGTAAAGCAGCTGATTCAGCGTTATTCCGATGTATACCTGCACGTCTTAAAAAAAATTGACAGTATTATCGCTGAAAAAGTGAACAAAGAACTGACATTGGATCAATATTATATCCTCCGCTATATTATGCTCAATCCCGATTGCAAATCAATTGAACTGGCCGCGGTGTGCCACGTCAATAAAAGCGCCATTACATCGATGACGAACCGCCTGTATGAAAAAGGCTACATCAATAGAGAACGCAGCCAAAGCGACCGCCGGAGCATACTTTTAAATGTCACGGAAAAGGGGACGGAAGTATTTCACCGTGTGGAGCGGCGGATTGAGGAACTCGTCCGTTCATATATTATGTATTTTGATGAAGACGAGGCGGAGATGTTCGTGAATACATATGAAAAATTATATCGATTGATGATGACAGAGGAGGATCAGCAGACATAA	MHEEKVKQLIQRYSDVYLHVLKKIDSIIAEKVNKELTLDQYYILRYIMLNPDCKSIELAAVCHVNKSAITSMTNRLYEKGYINRERSQSDRRSILLNVTEKGTEVFHRVERRIEELVRSYIMYFDEDEAEMFVNTYEKLYRLMMTEEDQQT	PGPT0016185_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-TEMPERATURE_DEPENDENT_REGULATION,PGPT0016185-hosA-K22489	NA	NA
D1-12_00862	3120	smc_4		Chromosome partition protein Smc	ATGAAAAACATTATCCGAGCCCGCTGGATCATCGCCGCGGTATGGGTCGCCGCAACGGTGATATTTATGCTTACAGCGCCTGATATGGCTGAATTGACACGGGAGAAAGGGCAGATTTCCGTACCGGACGGATATTCCTCTTCTTACGCCCATGAATTGCTTGATGAAATGTCTGGTTCAGATGCACCGTCTTCTTCTGCCGTCATCGTATTTCACGAAAAAGGCTTAATGACAGACAAAAAAGATCGTCTGGAAGAAGCCGTCAGCACTTTGTCTGAACATAAAAAAGCGCTTCAGATTAAAACGATGACCTCATACTTCGGGGAGAAAAATGACGACATCAAAAAACAGCTGCTGTCAAAAGACAGACAAACGATGCTCGTTCAGCTGCAGCTTGATACATCCAAAAACGATATCATCGAAATAAAAAATAAAATTGATAAAGAGCTGAAACCGTACGGCGTATCATACGGCATTACAGGCCAATCGCTGATCGACGAAGATGTGTTAAAAAGCTCACAGGACGGCTTGAAAAAGACTGAATATATAACGGTTGCCTTTATCCTGATCGTGCTGATTCTTGTATTTCGGTCAGTGGTCGCTCCGTTTGTGCCGCTTTTATCTGTATTGATATCTTATTTAGTCAGCCAGTCGATTGTCGCATTTTTAGTCGATCAGCTGGATTTTCCGCTCTCAACTTTTACTCAGATTTTTATGGTGGCGATTATGTTCGGAATCGGCACAGACTATTGCATTCTGCTTCTCAGCAGGTTTAAAGAAGAACTGTCGCATGGCGCTGATATAAGAGAAGCGATCGTCGTGACTTACAAAACGGCCGGAAAGACGGTTTTGTACAGCGGCGGTGCGGTGCTGATCGGATTTGCCTGCATCGGATTTGCGACATTTAAGCTGTATCAGTCGGCAGCGGCCGTTGCGGTCGGTGTCGCGGTGCTGCTGCTTGCGCTCATGACGATCGTGCCGTTTTTTATGGCTGTTTTAGGAAAAAGACTGTTTTGGCCTGTTAAGGGCGATATTTCCCATCCTCAAAGCAAAGCATGGGAAACGTCAGGGCGGTTTTCATTTAAAAGGCCGCTCATCAGTCTTGCAATCGTTGCGGTATTCACCGTCCCGCCTATCCTTCTTTACAAAGGGTCGCTATCTTACAACAGTCTTGACGAAATCGGGGATAAATATGAATCCGTCCGCGCGTTTAATACGATTTCAGACGCATTCGGCCCGGGAGAACTTCTTCCGGCCACTGTCGTCATCAAAAATGATGAGACTCTAAATACCGAAAAACACCTGATTGATATCGAAAAAATCAGCAGAGAACTTGAAAAAACAGAGGGTGTAAAAACGGTCAGAAGCGCCACGCGCCCTGCTGGAAACGGATTGAATCAATTATTTGTCACAAATCAGGCAAAGCAGCTTCAAGAAGGGCTTGATAAAGGCAATACAGGACTTGAAAAAATCACGGACGGATTAGGGCATGCCGCAAAGTCGTTAGTTGATTCACAGCCGCAGATCGAAGAGTCGGGGAAAAGCGTCAATCAGCTTATTGACGGAACATTGTCTCTGAAATCCGGGCTTTCTGATATAGGAGAAAACCTGAATAAACTGCAGGCTGGCGTGAACGAGAATAAAGCCGGCGTCGCCCAGATGAGAAAGCAGATTGAAGAGCAAAAACAAATGCTGACTTCACAGCTCAGCCAAAATAGCGGTCTCGCTTCAGAAACGCAAAACGCTTTAAAATTGGTAAAAACCGTCCTGCCGATGAAAGATGAAGCCAGCAGACAGCTTGCCGATTTGAACAAGCAGCTTGCCCGGCTGCCGTTTGCAAAATTGGAAGCGTCAATACCGTCAGTCAAAACCGATCCCTCTTACCAAGAAATCAAATCGGCCTTTACGGGTGTACAGTCAGCCGTTTCCAAGGCAAACGCGGATGCAGAAGCTTTTTCTAAACAGGTCGACAGTCAAAAGGATCATCTGCAGCAAGCGGAAAAACAATTTGCCCGGCTGGCAGCCGCTCAGAAGAAGATTGACACTCAAATTAACGCAATGATCAACGGTTTGACCAGTATTGAAAACGGTCTGCAGCAAGTGTCAGACGGACAGGGGGCTCTCGCAGGACAAATGCCGCGCCTTGAATCGGCGGCAGGACAGCTCGCGGAGGGCCAGAAAAAAATGAAGAGCGGTCTCGGTGATTTTTCTTCCCGGCTCAGCGATCTTTCTTCAGGCCTTAACGACAGTGTAAAAGGGCTTAAGAAAGTATCAAGCGGCATGATGGGGGCGAATGATTACCTGGGTGAGCTTCACAAGGCGTCAGACAAAGAAATGACAGGCTGGTTTGTGCCGAAAGACGCCTTGAAAAACAGTGATTTCACAAGCGTGTTTAATACGTACATGTCAGATGACAGAAAAACGACAGAATTGACTGTCGTTCTTGATAACAATCCTTACTCAAATACGGCCATTCAAGATATTCAAGCGATCAAAGCGAGCGTAAAAAGGGCCATTCCGAACACGGATCTGAAGAATGCTTCCTTCGGCGTTTCGGGAGTCTCCAGCATGAATGCCGATCTGAAGGAAGTATCGGATTCAGACTTCAAACGGACGGCAATGTTTATGCTGGCGGGAATTTTTCTGATTCTCATCGTGATGCTGCGCTCCCTCATTATGCCTGTTTATTTAGTGGCGTCGCTCGTACTGACGTATTTCGCATCCATCGGCGTAACGGAATACATCTTTACACACTTCTTCGGGTATCCGGGCGTAAACTGGGCCGTGCCGTTCTTCGGCTTTGTCATTTTGATGGCTCTTGGCGTGGATTATTCCATCTTTTTAATGGACCGCTTTAATGAGCTGAAAAAAGAAGGAACGGAACCCGCAATGATCAGCAGTATGAAAAATATGGGTTCCGTCATCATTTCTGCGGCGATTATTTTAGCGGGAACCTTTGCGGCCATGCTGCCGTCTGGCGTTCTTTCCTTATTACAGATTGCAACCGTGGTATTAACAGGCCTTCTCATGTACGCAATTGTCGTCCTTCCGTTTTTTGTACCGGTCATGGTGAAAATATTCGGAAGAGCCAACTGGTGGCCTTTCAATTTGAAAAAATAA	MKNIIRARWIIAAVWVAATVIFMLTAPDMAELTREKGQISVPDGYSSSYAHELLDEMSGSDAPSSSAVIVFHEKGLMTDKKDRLEEAVSTLSEHKKALQIKTMTSYFGEKNDDIKKQLLSKDRQTMLVQLQLDTSKNDIIEIKNKIDKELKPYGVSYGITGQSLIDEDVLKSSQDGLKKTEYITVAFILIVLILVFRSVVAPFVPLLSVLISYLVSQSIVAFLVDQLDFPLSTFTQIFMVAIMFGIGTDYCILLLSRFKEELSHGADIREAIVVTYKTAGKTVLYSGGAVLIGFACIGFATFKLYQSAAAVAVGVAVLLLALMTIVPFFMAVLGKRLFWPVKGDISHPQSKAWETSGRFSFKRPLISLAIVAVFTVPPILLYKGSLSYNSLDEIGDKYESVRAFNTISDAFGPGELLPATVVIKNDETLNTEKHLIDIEKISRELEKTEGVKTVRSATRPAGNGLNQLFVTNQAKQLQEGLDKGNTGLEKITDGLGHAAKSLVDSQPQIEESGKSVNQLIDGTLSLKSGLSDIGENLNKLQAGVNENKAGVAQMRKQIEEQKQMLTSQLSQNSGLASETQNALKLVKTVLPMKDEASRQLADLNKQLARLPFAKLEASIPSVKTDPSYQEIKSAFTGVQSAVSKANADAEAFSKQVDSQKDHLQQAEKQFARLAAAQKKIDTQINAMINGLTSIENGLQQVSDGQGALAGQMPRLESAAGQLAEGQKKMKSGLGDFSSRLSDLSSGLNDSVKGLKKVSSGMMGANDYLGELHKASDKEMTGWFVPKDALKNSDFTSVFNTYMSDDRKTTELTVVLDNNPYSNTAIQDIQAIKASVKRAIPNTDLKNASFGVSGVSSMNADLKEVSDSDFKRTAMFMLAGIFLILIVMLRSLIMPVYLVASLVLTYFASIGVTEYIFTHFFGYPGVNWAVPFFGFVILMALGVDYSIFLMDRFNELKKEGTEPAMISSMKNMGSVIISAAIILAGTFAAMLPSGVLSLLQIATVVLTGLLMYAIVVLPFFVPVMVKIFGRANWWPFNLKK				NA	NA	NA	NA	NA
D1-12_00863	1281			hypothetical protein	ATGACTTACGTAAATGAAATGAAGTCAAAGCACGGCGGGATCACCGCCCACATCGTAAAGACCGAGAAATTTAAAACCGTTTCGCTGACGTTTAAAATGCTGGCTCCTTTAACGAAAGAGCTCGTAACAAAAAGGGCGCTGTTTCCGCATGTGCTTCTGCGCGGAACAGAAAGCCGCCCGAAAACCGCTGATCTGCGGTCTTATTTTGATGAGCTGTACGGCACATCCGTTTCAGCTGATCTGACAAAAAAGGGAGAACGTCATGTCATTACGTTCAGACTTGAGATTCCTAATGAAAAGTATCTGAAGGACCGCACACCGTTATTGGAAAAAGGTCTTCAGCTTTTATCAGAGCTTGTCTTTTCGCCCGCTTTGGAAAACGGCGCCTTCCTGCCCCTTTATGTCACGCAGGAAAAACGGACGCTGAAACAGCGGATTCAAGCCGTATATGATGATAAGATGAGATATTCTAATCTGCGTCTCGTTCAGGAAATGTGCAAAAGCGAACCGTATGCCCTTCACGTCAACGGAGAGTTCGATGATGTTGAACACATTACACCGCAAGATTTGTATGAAGCCTATCAAAAAGCCATACGCGAAGATCAGCTGGACCTGTACGTCATCGGCGATGTTGATACAGATCAAGTGAAAACGGCCGTTGATACGTATTTTAAAACGGAAGAACGGGAGCTGCAGCCTTTTGAAAGAAGCGCGGCGAATGAACAGCCCGATCCGAAGGAAGTCATTGATGAAGAGGACGTCAAGCAGGGCAAGCTGAATATCGGATTCCGGACCAATACGACATATACAGATCCGGATTATCCGGCATTGCAGGTGTTTAACGGGCTGTTCGGAGGTTTCTCTCATTCAAAGCTGTTTATAAATGTCCGTGAAAAAGCGAGCCTCGCCTATTATGCAGCCTCAAGGGTGGAAAGCTTCAAAGGGCTTTTGATGGTCATGTCGGGCATTGAGGTGAAAAATTACAAGCAGGCCGTCACCATCATTGAAGAACAGTTTCAGGCTATGCAAAACGGTGACTTTTCAGAAGATGATATCGCCCAAACGAAAGCCGTTATTAAAAATCAAGTATTAGAAACGATTGATACGGCATACGGTTTAGCGGAATTTCTGTATCAGCAGGCCTCGGCCCAAGTAGAGATACCGATCGAAAGGTTCCTTGACAATATCGAGAAAGTGACAAAAGAGGACATTATCAATGTCGGAAAGAACATTAAGCTGGATACGACTTATTTCTTAAAAGGGACGGGGGGAGCATCTTGA	MTYVNEMKSKHGGITAHIVKTEKFKTVSLTFKMLAPLTKELVTKRALFPHVLLRGTESRPKTADLRSYFDELYGTSVSADLTKKGERHVITFRLEIPNEKYLKDRTPLLEKGLQLLSELVFSPALENGAFLPLYVTQEKRTLKQRIQAVYDDKMRYSNLRLVQEMCKSEPYALHVNGEFDDVEHITPQDLYEAYQKAIREDQLDLYVIGDVDTDQVKTAVDTYFKTEERELQPFERSAANEQPDPKEVIDEEDVKQGKLNIGFRTNTTYTDPDYPALQVFNGLFGGFSHSKLFINVREKASLAYYAASRVESFKGLLMVMSGIEVKNYKQAVTIIEEQFQAMQNGDFSEDDIAQTKAVIKNQVLETIDTAYGLAEFLYQQASAQVEIPIERFLDNIEKVTKEDIINVGKNIKLDTTYFLKGTGGAS	PGPT0003177_17	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003177-ymfF-NA	NA	NA
D1-12_00864	1287			hypothetical protein	TTGACTAAACCGATAAACTTCGAACAGCTTCAGGAAACGCTGTATCATGAAAAAATGGCAAACGGCCTTGATGTCTATGTGCTGCCGAAACAGGGCTTTAATAAAACATACGCCGTGTTTACGACAAAGTACGGTTCCATTGACAATCAATTCGTTCCTTTAAATAAGGAAGAAATGGTACACGTCCCTGACGGAATCGCGCATTTTCTGGAGCATAAACTGTTTGAAAAAGCGGACGGCGACGTGTTTCAGGACTTCAGTAAGCAGGGGGCGTCGGCAAATGCCTTTACATCATTTACACGAACCGCTTATCTGTTCTCCAGCACTTCTAATGTGGAGAAAAACCTGGAGACACTCGTGGATTTTGTTCAGGACCCGTATTTCACGGAAAAATCAGTTGAAAAAGAAAAAGGCATCATCGGCCAGGAAATTAATATGTATGATGATAATCCGGATTGGCGGCTGTTTTTCGGCCTTATCGAAAATATGTATAAAGACCACCCCGTGAAAATTGACATTGCCGGAACGGTGGAGAGCATCTCTCATATTACGAAAGATCTGCTGTATGAGTGCTACGAAACGTTTTATCACCCGAGCAATATGCTGCTCTTTATCGTCGGTCCCGCAGATCCTGAAGCGGTCATCAGCCAGGTGCGGAAAAACCAGGAGAAAAAGCCGTTTACAGACCAGCCCGAAATCAAACGTGAAGAAGTTCAGGAGCAGGAAGCGGTTTTCCGCCGGGAGCAGGAGTTAAAAATGAACGTGCAAGGCTCAAAATGTCTTGTCGGCTTAAAGGCGAAAGACCCTTATAAAACGGGGCAGGAGCTGTTGAAGCACGAGCTCAGCATGAACCTCATGCTTGAATGTCTCTTCGGAAAAAGCTCACCGCATTACGGTGACTTGTACGACAAAGGCTACATTGATGAAACCTTCAGCTTTGATTACACGGCTGAATACGGATTCGGTTTTGCCTCTGTCGGAGGAGATACACCGGAGCCGGATAAGCTCGCTGACGAATTAAAACACATGCTGCTTGATGCGGAATCAGCCGTGACTGCGGAAAAACTTGATCTTGCGAGAAAAAAGAAGATCGGGTCATTCTTAAAAGCGCTCAATTCGCCTGAATATATCGCCAACCAATTTACACGCTACGCCTTTTTAGATATGAGTCTGTTTGATGTCGTAACCGTACTGGAGCAGATTACGCTGGAAGACGTAAAGCGGGTCATTAAAGAAGAAATATCAGAAGACAGGCTGACAGTCTGTAAAGTCGTGCCAAAATCATAA	MTKPINFEQLQETLYHEKMANGLDVYVLPKQGFNKTYAVFTTKYGSIDNQFVPLNKEEMVHVPDGIAHFLEHKLFEKADGDVFQDFSKQGASANAFTSFTRTAYLFSSTSNVEKNLETLVDFVQDPYFTEKSVEKEKGIIGQEINMYDDNPDWRLFFGLIENMYKDHPVKIDIAGTVESISHITKDLLYECYETFYHPSNMLLFIVGPADPEAVISQVRKNQEKKPFTDQPEIKREEVQEQEAVFRREQELKMNVQGSKCLVGLKAKDPYKTGQELLKHELSMNLMLECLFGKSSPHYGDLYDKGYIDETFSFDYTAEYGFGFASVGGDTPEPDKLADELKHMLLDAESAVTAEKLDLARKKKIGSFLKALNSPEYIANQFTRYAFLDMSLFDVVTVLEQITLEDVKRVIKEEISEDRLTVCKVVPKS	PGPT0003179_58	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003179-ymfH-NA	NA	NA
D1-12_00865	729	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAACAGACAGCGCTCGTAACCGGAGCAAGCGGCGGAATCGGACAAAGTATAAGTGAAGTCCTCGCAAAAAACGGATATGACGTCCTTTTGCATTATCATTCTAATAAGGAAGCCGCACACAGGCTTGCGGAAAGGCTGAGCGCATCATTCGGCGTAAAAGCCTCCGTTATTCAGGCGGATCTGTCCTCACCGGATGGCGCGGAGACACTCAGCCGTTCCGTTAAGCAGCCTGTGGACGCTCTGATATTAAACAGCGGCAAAAGTCATTTCGGCCTGATTACGGACGTTACGGATGACACGGCGCGGGAGATGGTGCAGCTGCATGTGACGAGTCCGTTTCTTTTGGCGCGTAATCTGGTGCCCGGCATGATCCGGAAAAAAAGCGGGGGCATCGTCGCGATCGGTTCCGTCTGGGGAGAAACCGGCGCATCGTGCGAGGTATTATACAGCATGGTCAAGGGAGCGCAGCATTCGTTCGTCAAAGCGCTTGCCAAAGAGCTTGCTCCGAGCGGCGTCCGCGTGAATGCAGTCTCGCCGGGTGCCGTTGATACAAATATGCTTGATCAGTTCACGTCTGATGAAAAAGAAGCGTTGGCAGAGGAAATTCCCGCGGGCCGGCTGGCAAAGCCGGAGGAAATCGCCGAAGCGGCGGCCTTTTTATTATCGGACAAGGCTTCCTATATTACGGGGCATATATTATCCGTAAACGGCGGCTGGCACTGCTGA	MKQTALVTGASGGIGQSISEVLAKNGYDVLLHYHSNKEAAHRLAERLSASFGVKASVIQADLSSPDGAETLSRSVKQPVDALILNSGKSHFGLITDVTDDTAREMVQLHVTSPFLLARNLVPGMIRKKSGGIVAIGSVWGETGASCEVLYSMVKGAQHSFVKALAKELAPSGVRVNAVSPGAVDTNMLDQFTSDEKEALAEEIPAGRLAKPEEIAEAAAFLLSDKASYITGHILSVNGGWHC	PGPT0003180_20287	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
D1-12_00866	258	yflH_1		putative protein YflH	ATGTCAGTATTAGAAAACTGGGATAATTGGAAGAATTTCCTTGGCGACAGATTGAACTATGCGCAGGAAAAAGGGATGAGTGATGAAACGATCACTGACCTCGCTACAGAAATCGGCGGTTACCTTGCGAACGAAGTCGACTCGAAAAACCATCAGGAAAAAGTGCTTGCTGATCTTTGGAGCGTTGCTTCTGAAGATGAACAGCGCGCCATCGCAAATATGATGGTGAAGCTTGTTGAAAATAACAGCACTCATTAA	MSVLENWDNWKNFLGDRLNYAQEKGMSDETITDLATEIGGYLANEVDSKNHQEKVLADLWSVASEDEQRAIANMMVKLVENNSTH	PGPT0003182_789	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
D1-12_00867	792			hypothetical protein	TTGGCAAAGCTCGAATGGTATTTTGAATATGAAATTCAAGTGAACCGCCCCGGCCTGCTCGGGGATATTTCATCTCTTCTCGGGATGCTGTCAATTAATATTGTCACAATTAACGGTGTCGACCTTTCCAGAAGGGGAATGCTGCTCAGATGCCGGCATATAGATCAAATTAAACGATTGGAATCAATTTTAAAAACAATGGAGACCATTAAAGTAACGAAGCTGAGAGAACCGAGGCTTCGCGACCGTCTCGCAGTCCGCCACGGAAGATACATTCAGCGTGATGCCGATGACAAAAAAACCTTCCGTTTTGAAAGGGACGAGCTCGGTCTTCTGGTTGACTTTATGGCCGAGCTGTTTAAAAAAGAAGGGCACAAACTGATCGGAATCCGTGGAATGCCGAGGGTCGGAAAAACGGAGTCCATCGTTGCGTCAAGCGTTTGTGCCAGCAAAAGATGGCTTTTCGTATCATCAACGCTGCTAAAACAAACGATCCGGAGCCAGCTGGTTGCCGATGAATACAGCACGGAAAACGTGTTTATCCTCGACGGCATCGTTTCGACAAGACGGGGATCTGAGCGCCATCTTCAGCTCGTCAGTGAAATTATGCGGCTTCCGGCGACAAAGGTCGTGGAGCACCCCGATATTTTTGTTCAAAATTCGGAGTATACGCTCGATGATTTCGATTATATTATCGAACTCAGAAATGATCCTGACGAAGTCATTACATATGAACATGCAGAAGAACCGCAAATGTTTGATCAGACCGGTTTTTCAAGCTTTGATTTTTAA	MAKLEWYFEYEIQVNRPGLLGDISSLLGMLSINIVTINGVDLSRRGMLLRCRHIDQIKRLESILKTMETIKVTKLREPRLRDRLAVRHGRYIQRDADDKKTFRFERDELGLLVDFMAELFKKEGHKLIGIRGMPRVGKTESIVASSVCASKRWLFVSSTLLKQTIRSQLVADEYSTENVFILDGIVSTRRGSERHLQLVSEIMRLPATKVVEHPDIFVQNSEYTLDDFDYIIELRNDPDEVITYEHAEEPQMFDQTGFSSFDF	PGPT0003183_13	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003183-ymfK|ymfkn|ymfKc-NA	NA	NA
D1-12_00868	900			hypothetical protein	GTGACAGAATTAGCAATCCGGCTTAAAGAAGCCAGAGAGGAAAAAGGGATGTCATTGGATGAACTCCAGGCGGCGACGAAAATTCAGAAAAGATACTTAACCGCTCTGGAAGAAGGCAATTATGACGTCATTCCCGGCAATTTTTATGTGCGGGCGTTTATCAAGCAATACGCTGAAGCTGTCGGGCTTGATTCAGATCAGTTATTTGAAGAATACAAAAAAGACATCCCTAACACGTACCATGACGATGTGTCGGAAAAAATCTCCGGTCTTGCCATGCAAAGGGAGCTTCCTAAGTCCGCTTCAAAGGCGGCGGAATGGCTTCCGACCGTCCTTGTCGTCATCGGTGTCATTATCGTCATCGCGATCATTTATGCGATTATTCAGCTCGGAATGAGTAAATCCGGGCAGACAGACGGAGACAAAGCCGTCACCCAAAGTGAGAGCAAGTATGAGATTCCTAAGGATTCTGCGCTGAAAAACGACGGCAATACAAATGACGAAGCGCAATCTGACAGCAAGAAAGATAAAAAGGACACAAAAGCATCAGAGCAGAAAAAGAAAGAAAAAAGCAGTGAAAAGACGGAGATCAAAGCGGCCGGAACGGAAGGCTCAGCTTCTTCATACAACGTCTCCGGGGCAGATAAGTATAAGCTTGAACTGATTGCTTCTGACAGCGCATGGATCCGCGTCCGTGATGACAGCGGCGGTTCTTTAAAAGAAGGAACGCTGCAAAAAGGCGAAACCTTTAAAAAAGACGTCACGGATCAAAAGCAGATTGAAATCCGCACGGGCTATGCCCCTAACCTGAAAATTAAAATCAACGGAGAGGTTCTGTCCTATGAACTCAATCCGCATGATGTGATGGCGCAGACCATCACAATCAAGATGAAAAAATAA	MTELAIRLKEAREEKGMSLDELQAATKIQKRYLTALEEGNYDVIPGNFYVRAFIKQYAEAVGLDSDQLFEEYKKDIPNTYHDDVSEKISGLAMQRELPKSASKAAEWLPTVLVVIGVIIVIAIIYAIIQLGMSKSGQTDGDKAVTQSESKYEIPKDSALKNDGNTNDEAQSDSKKDKKDTKASEQKKKEKSSEKTEIKAAGTEGSASSYNVSGADKYKLELIASDSAWIRVRDDSGGSLKEGTLQKGETFKKDVTDQKQIEIRTGYAPNLKIKINGEVLSYELNPHDVMAQTITIKMKK				NA	NA	NA	NA	NA
D1-12_00869	582	pgsA		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGTTTAACTTACCGAATAAAATCACACTGGCAAGAATCGCTTTAATTCCTGTATTTATGATTATCATGCTTGTTCCTTTTCAGTGGGGCAGCGTTCATATAGGGGATGAATCGATTCCGGTAGCGCATCTTACGGGAGCTGTTTTATTCATTATCGCATCAACGACTGACTGGGTGGATGGCTACTACGCCAGAAAACTGAACCTCGTGACAAACTTCGGGAAATTTTTAGATCCGCTGGCTGACAAACTGCTGGTATCCGCGGCATTAATTACGCTTGTGCAGTTTGACCTTGCGCCGGCGTGGATGGTCATCATCATCATCAGCCGCGAATTTGCCGTAACGGGATTAAGACTTGTGCTGGCGGGAACGGGGGAAGTTGTAGCCGCCAATATGCTGGGGAAAATTAAAACATGGGCTCAGATCATCGCTGTTGCCGCGCTTTTGCTGCATAATCTTCCGTTTGAGCTCGTTTCTTTCCCGTTCGGCGATATCGCTTTATGGGTAGCTGTGCTCTTCACAGTCATTTCCGGCTGGGATTATTTTGCGAAGAACTGGGATGCGTTAAAAACATCTAACTAA	MFNLPNKITLARIALIPVFMIIMLVPFQWGSVHIGDESIPVAHLTGAVLFIIASTTDWVDGYYARKLNLVTNFGKFLDPLADKLLVSAALITLVQFDLAPAWMVIIIISREFAVTGLRLVLAGTGEVVAANMLGKIKTWAQIIAVAALLLHNLPFELVSFPFGDIALWVAVLFTVISGWDYFAKNWDALKTSN	PGPT0007705_3151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
D1-12_00870	1251	cinA	COG1058	Putative competence-damage inducible protein	ATGGAAATAGCAAAAAAAGCAGAAATCATTGCAGTCGGCTCGGAGCTTCTGCTCGGCCAGATCGCCAATACGAACGCGCAGTTTATCAGTAAAGAGCTGGCGGAAATCGGTGTAAACGTGTTTTATCATACCGCTGTCGGTGACAATCCGGAGCGGCTTAAGCAAGTCATCCGCATTGCCGAAGAGCGCTCAGACCTGATTATTTTTTCAGGCGGCCTCGGGCCGACCAAGGACGATTTAACGAAAGAAACCATTGCAAACACACTGGGGCGCCCGCTCGTTCTGAATGACGAAGCATTCCGGTCGATCGAAGAATATTTCGTGAAAACAAAACGGACCATGTCGCCGAATAACCGCAAACAGGCGCTCGTCATTGAGGGCTCAGACGTTTTGGCGAATCATTTCGGCATGGCGCCGGGAATGCTTGCAGAGCACGGCTCAAGGCTTTATATGCTGCTTCCCGGGCCGCCGAGCGAGCTGTGTCCGATGTTTGAAAATGAAGCGAAGCCGCTGCTTCTTAAAAAGCTCGGTTCTAATGAGAAAATCGTTTCAACCGTGCTGCGGTTTTTCGGAATCGGTGAATCCCAGCTTGAAGCTGATTTAGAAGATATCATTGATGCGCAGACGAACCCGACGATTGCGCCGCTTGCTGCTGACGGAGAGGTCACGCTGCGTTTAACGGCGAAACATGCTGACGAAAAAGAAACAGAACGGCTTTTAAAAGAAACGGAAGCCGCCATTTTAGAACGTGTCGGTGAATTTTTCTACGGATATGATGATACGTCTCTGGTGAAGGAGCTTTCAAAAGCATGCAGACAAAACAAAATCACGATTTCCTCTGCCGAAAGCTTTACAGGCGGCCTGTTTTCAGAGTGGGTGACTGATTTAAGCGGTGCGTCTCAACTATTTGCAGGGGGCGTTGTCTGTTATTCCGACAGCGTGAAACAGCATGTGCTCGGCGTGAAAGCTGAGACGCTCGCAGAAAGCGGAGCGGTCAGCAAAGAGTGTGCGAAAGAGCTTGCAGCCGGTGTGAGAAAGCTGACCGGAAGCGATATCGGCATCAGCTTTACCGGGGTTGCGGGTCCCGACCCGCAGGAAGGGCATGCTCCCGGCCGCGTCTTTATCGGCATTTCGGCGGAAGGAAAAGAAGAGGTGCACGAATTTAACTTTGCCGGCTCAAGAACCGGAATCAGAAAGCGCGCCGCTAAATACGGCTGCCATCTCATTTTAAAAATGCTGGATCAAAAATAA	MEIAKKAEIIAVGSELLLGQIANTNAQFISKELAEIGVNVFYHTAVGDNPERLKQVIRIAEERSDLIIFSGGLGPTKDDLTKETIANTLGRPLVLNDEAFRSIEEYFVKTKRTMSPNNRKQALVIEGSDVLANHFGMAPGMLAEHGSRLYMLLPGPPSELCPMFENEAKPLLLKKLGSNEKIVSTVLRFFGIGESQLEADLEDIIDAQTNPTIAPLAADGEVTLRLTAKHADEKETERLLKETEAAILERVGEFFYGYDDTSLVKELSKACRQNKITISSAESFTGGLFSEWVTDLSGASQLFAGGVVCYSDSVKQHVLGVKAETLAESGAVSKECAKELAAGVRKLTGSDIGISFTGVAGPDPQEGHAPGRVFIGISAEGKEEVHEFNFAGSRTGIRKRAAKYGCHLILKMLDQK	PGPT0013455_922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013455-pncC-K03742	NA	NA
D1-12_00871	1044	recA	COG0468	Protein RecA	ATGAGTGATCGTCAGGCAGCCTTAGATATGGCTCTTAAGCAAATAGAAAAACAATTCGGCAAAGGTTCCATCATGAAGCTCGGAGAAAAAACAGATACAAGAATTTCAACGGTGCCAAGCGGTTCCCTTGCACTTGATACCGCTCTCGGAATAGGCGGATACCCGCGCGGACGGATTATTGAAGTATACGGACCTGAAAGCTCAGGTAAAACGACTGTAGCGCTTCACGCAATCGCTGAGGTTCAGGAAAAAGGCGGACAGGCAGCATTTATTGATGCTGAGCATGCTCTTGATCCTGTTTACGCGCAAAAGCTCGGTGTCAATATCGAAGAGCTTCTGCTTTCTCAGCCGGATACGGGAGAGCAGGCGCTAGAGATTGCTGAAGCGCTGGTGCGAAGCGGAGCTGTTGATATCGTAGTCGTTGACTCTGTTGCGGCGCTTGTTCCAAAAGCTGAAATTGAAGGTGACATGGGTGATTCACACGTCGGTTTACAGGCGCGTCTCATGTCTCAGGCGCTCCGTAAGCTTTCCGGCGCCATCAATAAATCTAAAACAATCGCAATCTTTATTAACCAGATTCGTGAAAAAGTCGGCGTTATGTTCGGAAATCCGGAGACGACACCGGGGGGCCGCGCGCTGAAATTCTATTCTTCCGTGCGCCTTGAAGTGCGCCGTGCCGAGCAATTAAAGCAGGGCAACGACGTCATGGGGAATAAAACGAGAATTAAAGTCGTAAAAAACAAAGTCGCTCCTCCGTTCCGTACGGCTGAAGTGGACATTATGTACGGTGAAGGAATCTCCAAAGAAGGGGAAATCATCGACCTTGGAACTGAACTGGATATCGTCCAAAAAAGCGGTTCATGGTATTCTTATGAAGAAGAACGCCTCGGCCAGGGCCGTGAAAACGCCAAGCAGTTCTTAAAAGAAAATAAAGACATCATGCTGATGATTCAGGAGCAAATCCGTGAATATTACGGTTTGGACAATAACGGTGTAACGGACAAAGCGGAAGAAGTTCAGGAAGAGATGGAATTAGAAGAATAA	MSDRQAALDMALKQIEKQFGKGSIMKLGEKTDTRISTVPSGSLALDTALGIGGYPRGRIIEVYGPESSGKTTVALHAIAEVQEKGGQAAFIDAEHALDPVYAQKLGVNIEELLLSQPDTGEQALEIAEALVRSGAVDIVVVDSVAALVPKAEIEGDMGDSHVGLQARLMSQALRKLSGAINKSKTIAIFINQIREKVGVMFGNPETTPGGRALKFYSSVRLEVRRAEQLKQGNDVMGNKTRIKVVKNKVAPPFRTAEVDIMYGEGISKEGEIIDLGTELDIVQKSGSWYSYEEERLGQGRENAKQFLKENKDIMLMIQEQIREYYGLDNNGVTDKAEEVQEEMELEE	PGPT0007235_3452	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
D1-12_00872	1182	pbpX	COG1680	Putative penicillin-binding protein PbpX	ATGACGAGCCCCCGCCGCACAAGAATAAATAAAAAAAGAAAGAAGAAGCTGATGAAAACGGGAGGGCTGTTTCTTTTTCTGCTGCTTGTCACTGTTTTTATTATGATCTGGACCGTCACAGCGCATCACCGGGAGAAGGAATCCGTTAAAAGCGCTCCCGCCGCTCAATCTGATACTTCAAAAGACCAGACTCAACAGAAAAAAGAAAAGACGCAAAAAGAGAAAACACCTAAATCAATCGATCACAATAAACAGATCAGCAATTACTTGCAACAGATCGGGTTCAGCGGCACAGCAATGATCGTAAAAGATGGAAAAGTTGTGCTGAAAAAAGGCTTTGGCTATGCGGACCGAAAACAAAAAATTAAAAACAATCCGGAGACATCATATTATATCGGTTCTTCACAAAAAGCGTTAATCGCGACGGCTGTCCTGCAGCTTGAAGAAAAAGGGCTGCTGCAGACGAGTGACCCCGTCAGTACATACTTGCCGAATTTTCCTAACGGCACGCGCATTACATTGAAAAACCTGCTCAATCATACGTCCGGCATAAACGGGCATATTGAGGGTCAGGGACCGATTTCTCCAATTGATTTAATCAAGGATATAGAAAACCGCGGAATTAAACGGCAGCCCGGGGTTTGGGATTACAGGGATTCCAACTATTCAGTGCTTGCTTATATCGTATCTCAGGTCAGCGGGGAGCCTTATGAACAATATATAAAAGAACACGTGTTCAAACCGGCCGGAATGAAGCATGCCGGATTTTACAAAACATTTGCCAAAGCCAAATATCCTGCCGTCGGCTACAAAGTCGATGAGAGCGGCAGTCTTGTAACGCCGCACCTTTTGGACTTATCGCAGCTGTACGGGGCAGGCGACATGTATATGAGCGCTGAAGATCTCTATAAATTTGATAAAGCGATCGTAAACAACACGCTCCTTTCAAAAGCAAGCTTCACAAAAATGTTTACAGCAGGAAGCAGTGCCGCTTACGGCATGGGGTTTTACATTGATCCGGGAAGCTATTCCAATCACGGTGTTATGCCCGGTTACAACATTTTGAACAGCTTCAGCCATTCGGCAAGCAAATATGTCATATTACTGTCAAACATTCAGAATAACGCCAAATTGGGACAGGTAAACAATAGAATTTATCAATTGCTTAACCAGGCGGACTGA	MTSPRRTRINKKRKKKLMKTGGLFLFLLLVTVFIMIWTVTAHHREKESVKSAPAAQSDTSKDQTQQKKEKTQKEKTPKSIDHNKQISNYLQQIGFSGTAMIVKDGKVVLKKGFGYADRKQKIKNNPETSYYIGSSQKALIATAVLQLEEKGLLQTSDPVSTYLPNFPNGTRITLKNLLNHTSGINGHIEGQGPISPIDLIKDIENRGIKRQPGVWDYRDSNYSVLAYIVSQVSGEPYEQYIKEHVFKPAGMKHAGFYKTFAKAKYPAVGYKVDESGSLVTPHLLDLSQLYGAGDMYMSAEDLYKFDKAIVNNTLLSKASFTKMFTAGSSAAYGMGFYIDPGSYSNHGVMPGYNILNSFSHSASKYVILLSNIQNNAKLGQVNNRIYQLLNQAD	PGPT0023445_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023445-fmtA-K22580	NA	NA
D1-12_00873	1560	rny	COG1418	Ribonuclease Y	ATGACCCCAATGACGGTTCTCATCTCCATTTTGCTGACTCTGCTCGGTTTAGTTGTTGGCTACTATGTTCGTAAAACCATTGCCGAAGCAAAGATTGCGGGCGCACGCGGTGCTGCCGAGCAAATCCTTGAAGATGCAAAGCGTGATGCTGAAGCACTGAAAAAAGAAGCTCTGCTTGAAGCAAAGGACGAAATCCATACACTTCGAATAGATGCTGAACAGGAAGTTCGTGAAAGACGAAATGAGCTTCAAAAACAAGAAAACCGTTTACTTCAAAAAGAAGAAAATCTTGACCGTAAACATGAAGGAATTGATAAACGGGAAGCGATGTTGGAGAAGAAAGATCATTCTCTGAATGAACGACAACAACATATTGAAGAGATGGAAAGCAAAGTGGATGAGATGATTCGTATGCAGCAGTCAGAACTCGAACGCATTTCGAGCCTGACACGGGATGAAGCGAAACAAATCATTCTTGACCGGGTTGAAAATGAGCTTTCACATGACATCGCCATCATGACAAAAGAAACCGAAAACCGTGCGAAAGAAGAGGCAGATAAAAAGGCGAAAAACATTCTGTCGCTTGCTTTGCAGCGCTGTGCAGCAGATCATGTTGCCGAAACGACGGTATCGGTCGTCAATCTTCCGAATGATGAGATGAAAGGACGTATCATCGGCCGTGAAGGGCGTAACATTCGTACGCTTGAAACGCTTACAGGTATTGACCTGATTATTGATGACACACCTGAAGCAGTCATTCTTTCCGGATTTGATCCGATCAGACGGGAGACGGCAAGAATCGCTCTTGATAAACTCGTTCAGGATGGCCGTATTCACCCGGCGCGCATTGAAGAAATGGTTGAAAAATCCCGCCGTGAGGTTGATGACTATATCCGGGAAATGGGTGAGCAGACGACGTTTGAAGTCGGCGTTCACGGACTCCACCCGGATCTGATCAAGATCCTCGGCCGGTTGAAATTCCGTACAAGCTACGGGCAGAACGTACTGAAACATTCTATGGAAGTTGCGTTTTTAGCCGGTTTAATGGCTTCCGAGCTTGGAGAAGATGCAAAGCTTGCCAAGCGGGCCGGTCTTCTGCATGACATCGGAAAAGCAATTGACCATGAAGTGGAAGGAAGCCACGTGGAAATCGGAGTGGAGCTTGCGACCAAATATAAAGAGCATCCAGTCGTCATTAACAGTATTGCGTCACACCACGGAGACGAAGAGCCGACTTCCATTATCGCCGTTCTGGTCGCTGCCGCTGATGCACTGTCAGCCGCAAGACCGGGCGCGAGAAGTGAAACGCTCGAAAACTATATCCGCAGACTTGAAAAGCTTGAAGAAATCTCCGAGTCTTACGAAGGTGTTGAAAAATCATTTGCGATTCAGGCCGGCCGTGAAGTTCGCATCATGGTGAAGCCGGACTCCATTAATGATTTAGAAGCCCATCGTTTGGCACGTGATATCCGTAAACGAATTGAGGACGAGCTTGATTATCCGGGCCACATTAAAGTGACCGTAATCAGAGAAACTCGAGCCGTAGAGTATGCAAAATAA	MTPMTVLISILLTLLGLVVGYYVRKTIAEAKIAGARGAAEQILEDAKRDAEALKKEALLEAKDEIHTLRIDAEQEVRERRNELQKQENRLLQKEENLDRKHEGIDKREAMLEKKDHSLNERQQHIEEMESKVDEMIRMQQSELERISSLTRDEAKQIILDRVENELSHDIAIMTKETENRAKEEADKKAKNILSLALQRCAADHVAETTVSVVNLPNDEMKGRIIGREGRNIRTLETLTGIDLIIDDTPEAVILSGFDPIRRETARIALDKLVQDGRIHPARIEEMVEKSRREVDDYIREMGEQTTFEVGVHGLHPDLIKILGRLKFRTSYGQNVLKHSMEVAFLAGLMASELGEDAKLAKRAGLLHDIGKAIDHEVEGSHVEIGVELATKYKEHPVVINSIASHHGDEEPTSIIAVLVAAADALSAARPGARSETLENYIRRLEKLEEISESYEGVEKSFAIQAGREVRIMVKPDSINDLEAHRLARDIRKRIEDELDYPGHIKVTVIRETRAVEYAK				NA	NA	NA	NA	NA
D1-12_00874	795	ymdB	COG1692	2',3'-cyclic-nucleotide 2'-phosphodiesterase	ATGAGAATTTTATTTATCGGAGATGTTGTCGGTTCCCCGGGCCGCGACATGGTAAAAGAATATGTCCCGAAACTGAAAGCGAAACATAAACCGCATTTTACAATTATTAACGGAGAAAATGCAGCACACGGAAAAGGACTGACAGAAAAGATCTACCACAGCCTGATGGAAGCGGGAGCCGATGCCATTACAATGGGAAACCATACGTGGGATAAAAGAGAGATCTTCGACTTTATTGATGATGTGCCGCATCTTGTCCGCCCGGCGAACTTCCCGGAAGGTACACCGGGCAAAGGCATTACCTATATTAAATCGAACGGAAAAGAGCTTGCCGTCATTAATTTACAGGGGCGGACGTTTCTTCCGCCGCTTGATGATCCGTTTGCTAAAGCGGATGAATTAATAGAAGAAGCGAAAAAGCGCACGCCGTACATTTTTATTGATTTTCACGCCGAAGCGACAAGCGAAAAAATTGCGATCGGCTGGTACACAGACGGAAGAGCCTCTGCCGTGGTAGGCACCCATACACACGTGCAAACGGCAGATAACCGCATTTTACCGAAAGGAACGGCATATATTACTGATGTAGGCATGACGGGTCCGTACGACGGAATTCTCGGTATGGACAGAGAAACGGTCATCAAGCGGTTTAAAACCAATCTTCCCGTCCGGTTTACGGTGGCGGAAGGTAAAACTACGCTGAGCGGAGTGCTCATTGACATCGACGATCAAACGAAAAAGGCCGTAAATATCGAACGGATATTAATCAATGATGACCATATGTTCTTTGAATAG	MRILFIGDVVGSPGRDMVKEYVPKLKAKHKPHFTIINGENAAHGKGLTEKIYHSLMEAGADAITMGNHTWDKREIFDFIDDVPHLVRPANFPEGTPGKGITYIKSNGKELAVINLQGRTFLPPLDDPFAKADELIEEAKKRTPYIFIDFHAEATSEKIAIGWYTDGRASAVVGTHTHVQTADNRILPKGTAYITDVGMTGPYDGILGMDRETVIKRFKTNLPVRFTVAEGKTTLSGVLIDIDDQTKKAVNIERILINDDHMFFE	PGPT0021405_691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021405-ymdB-K09769	NA	NA
D1-12_00875	261	spoVS	COG2359	Stage V sporulation protein S	ATGGAAATCTTAAAAGTTTCAGCAAAATCAAGTCCAAATTCAGTAGCAGGCGCGCTTGCCGGTGTATTGAGGGAACGCGGAGCCGCCGAAATTCAAGCAATTGGGGCGGGTGCCTTAAACCAGGCTGTTAAAGCGGTTGCGATTGCCAGAGGCTTTGTCGCGCCAAGCGGCGTAGATTTGATTTGTATTCCGGCTTTTACAGATATACAGATTGACGGAGAAGAAAGAACGGCGATTAAGTTAATCGTCGAACCCCGTTAA	MEILKVSAKSSPNSVAGALAGVLRERGAAEIQAIGAGALNQAVKAVAIARGFVAPSGVDLICIPAFTDIQIDGEERTAIKLIVEPR	PGPT0024850_280	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024850-spoVS-K06416	NA	NA
D1-12_00876	1137	tdh_1	COG1063	L-threonine 3-dehydrogenase	TTGTTTTCATGGAGTGGACACTGGTATTTACCTCCTTTTTATCTCGTGTTACAATCCAGTTATTACAGTGTTTTTTCGAGGAGGAGTGTACATGTTGGGAGGAAAGATGAAAGCTATCGTCAAAATGAAAACGCTTTCGGAGCAACTCTGAAAGAAATTCCCATACCTTCCATTAATGAGAATGAAGTTCTCATTAAAGTACAGGCCGCATCTATATGCGGTACAGATGTGCATATTTATAATTGGGATCAATGGGCGCAGAAACGAATCAAAACACCTCAAGTATTCGGACATGAATTCAGCGGTATCGTAGCGGAAACGGGCAAGCACGTCACAAATGTCAAAATAGGTGACTACGTTTCGGCTGAAACCCACTTCGTCTGCGGTACTTGTGTCCCTTGTTTAACAGGAAAACATCATGTGTGCACCCATACAAAGATCCTCGGCGTAGATACAGCCGGTTCCTTCGCTGAATATGTCAAAGTGCCGGCTCGAAATGTTTGGAAAAATCCCGCTGATATGGACCCCGCCGTCGCTTCTGTTCAAGAGCCGCTTGGCAACGCGGTGCATACGGTGCTGGAAAACAGCCAGCTTGCGGGCGGTTCTGCTGCAATTATCGGTTGCGGACCGATCGGACTGATGGCGGTGGCGGTGGCTAAAGCGGCCGGTGCGTCCCGTATTGCGGCCATTGATAAAAATGATTACAGGCTGGCTCTTGCGAAGAAATTGGGAGCCACGATCACCATTTCAGCTGATAAGGAAGATCCGCTTGAGGTGATCGACACCTTAACAGGCGGAGAAGGGATCGACCTTGTCTGCGAAATGTCAGGCCACCCGGCAGCTATCGCACAAGGATTAAAGATGGCGGCCAACGGGGGAAGGTTCCATATGCTGAGTCTGCCGGAACGTCCGGTGACGGTTGACCTGACAAATGACGTGGTGTTTAAAGGACTTACCGTCCAAGGCATCACAGGCAGAAAAATGTTTGAAACATGGCGGCAGGTATCGCACCTGCTTGAATCCGGCCTTATTGATCTGACGCCGGTGATCACGCATCAGTTTCCGCTTGAAGACTTTGAAAAAGGGTTTGACCTGATGAGAAAGGGCCAGTGCGGCAAAGTCATTTTGATTCCATAA	MFSWSGHWYLPPFYLVLQSSYYSVFSRRSVHVGRKDESYRQNENAFGATLKEIPIPSINENEVLIKVQAASICGTDVHIYNWDQWAQKRIKTPQVFGHEFSGIVAETGKHVTNVKIGDYVSAETHFVCGTCVPCLTGKHHVCTHTKILGVDTAGSFAEYVKVPARNVWKNPADMDPAVASVQEPLGNAVHTVLENSQLAGGSAAIIGCGPIGLMAVAVAKAAGASRIAAIDKNDYRLALAKKLGATITISADKEDPLEVIDTLTGGEGIDLVCEMSGHPAAIAQGLKMAANGGRFHMLSLPERPVTVDLTNDVVFKGLTVQGITGRKMFETWRQVSHLLESGLIDLTPVITHQFPLEDFEKGFDLMRKGQCGKVILIP	PGPT0020460_252	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0020460-tdh-K00060	NA	NA
D1-12_00877	1176		COG0156	8-amino-7-oxononanoate synthase/2-amino-3-ketobutyrate coenzyme A ligase	ATGAAAGAATTTGAATTTCTAAAAGCCGAGCTTGATAAAATGAAAGAAAATAAAACGTGGCAGCAAATGAAACAAATTGAAACGAAGCAGGGTCCGTCGGTGGAAGTCAAAGGGGAAAACGTGATACAGCTTTCATCGAACAATTATCTCGGTTTGACGTCGCATCCAAGGCTTGTCGAAGCGGCCAAACGCGCCGCGGAAGAATTCGGAGCGGGTACGGGGTCCGTCCGGACAATCGCCGGAACATTCACAATGCACAATGAGCTGGAGAAGAAATTGGCAAACTTTAAAAAAACAGAAGCGGCACTTGTTTTTCAATCGGGGTTCACAACGAATCAGGGCGTCCTATCAAGCATTCTTACAAAAGAGGATATCGTGATCTCTGACGAACTGAACCATGCTTCCATCATTGACGGGATCAGGCTCACAAAAGCAGATAAAAAGGTGTACCGCCATGTTGATATGGACGATTTGGAAAGGGTGCTGAAAAAATCGATGAATTACCGCATGCGCCTGATCGTCACCGACGGCGTATTCTCAATGGACGGCAACATCGCTCCTTTGCCTGACATCGTCAAACTTGCAGAGGCGTACGATGCCTTTGTGATGGTCGACGACGCGCATGCTTCCGGCGTACTCGGAAAAAACGGAAGGGGAACGGTTAATCACTTCGGGCTTGACGGAAGAGTCCACATACAGGTGGGCACATTAAGCAAAGCCATCGGAGTGCTTGGCGGTTACGCCGCAGGATCGCAGGTTCTGATCGATTACCTGCGCCATAAAGGGCGCCCTTTCTTATTCAGCACTTCTCATCCGCCTGCGGTAACGGCCGCATGCATAGAGGCCATTGACGTCCTGCTGGAAGAGCCTGAGCATATGGAAAAGCTATGGGAGAACACGGCGTATTTCAAAGACAAACTGGTTCAAATGGGGCTGACCCTCACAAAAAGCGAAACACCGATCGTGCCGATATTAATAGGGGAGGAAGAAAAAGCCCAGGCATTATCAGACCTTTTATTGACCCGCGGCGTGTTTGCACAAAGCATCGTGTATCCGACGGTCGCCCAAGGAAAAGCGAGAATCCGCACCATTATTACGGCGGAGCATACAAAAGAGGAGCTTGACCGGGCACTGGAAGTAATCCGTTCAGCCGCAAAAGAGCTTCAGCTTGTGTAA	MKEFEFLKAELDKMKENKTWQQMKQIETKQGPSVEVKGENVIQLSSNNYLGLTSHPRLVEAAKRAAEEFGAGTGSVRTIAGTFTMHNELEKKLANFKKTEAALVFQSGFTTNQGVLSSILTKEDIVISDELNHASIIDGIRLTKADKKVYRHVDMDDLERVLKKSMNYRMRLIVTDGVFSMDGNIAPLPDIVKLAEAYDAFVMVDDAHASGVLGKNGRGTVNHFGLDGRVHIQVGTLSKAIGVLGGYAAGSQVLIDYLRHKGRPFLFSTSHPPAVTAACIEAIDVLLEEPEHMEKLWENTAYFKDKLVQMGLTLTKSETPIVPILIGEEEKAQALSDLLLTRGVFAQSIVYPTVAQGKARIRTIITAEHTKEELDRALEVIRSAAKELQLV	PGPT0020495_2597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
D1-12_00878	1530	miaB	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGAATGAAAAGCAAAAGCAGGAAAGCGGACAAGTGAATCCGGCGGACAAAAAATCCGAAAAGGATTACAGCAAGTATTTTGAAGCCGTTTATATTCCGCCTTCTTTAAAAGATGCGAAAAAACGGGGCAAAGAATCCGTTCAATATCATAACGATTTTAAAATCTCAGAAGAATTTAAAGGCCTCGGTGAAGGCAGGAAATTTTATATCCGCACGTACGGATGCCAAATGAACGAGCATGATACGGAAGTCATGGCGGGTATTTTTATGGCGCTCGGTTATGAAGCGACAAATTCGGTTGATGACGCGAACGTTATTTTATTAAACACTTGCGCTATCCGGGAAAACGCTGAAAACAAAGTGTTCGGCGAGCTCGGCCATTTAAAGGCGCTCAAAAAAAATAATCCGGACCTGATTCTGGGTGTCTGCGGCTGTATGTCACAGGAAGAATCAGTCGTAAACCGCATCCTTAAGAAGCACCCGTTTGTCGATATGATTTTCGGCACGCACAACATCCACCGTCTGCCGGAACTTTTATCAGAGGCATATTTATCAAAAGAGATGGTCATTGAAGTGTGGTCGAAGGAAGGGGATGTCATTGAAAACCTTCCGAAAGTCCGCAACGGAAAAATTAAAGGCTGGGTCAACATTATGTACGGCTGTGACAAGTTCTGCACATACTGCATCGTACCGTATACCCGCGGAAAAGAACGAAGCCGCCGTCCTGAGGAAATTATCCAGGAAGTCAGAAGACTTGCAAGCGAAGGCTATAAAGAAATCACGCTGCTCGGTCAAAACGTGAATGCGTACGGAAAAGATTTTGAGGATATGACGTACGGTCTCGGTGATTTAATGGACGAACTGCGTAAAATTGATATTCCGAGAATCCGATTCACGACGAGTCATCCGCGTGACTTTGATGATCATCTGATCGAAGTGCTCGCCAAAGGCGGCAACCTTCTTGACCATATCCATCTTCCGGTTCAATCAGGAAGCTCAGCGATGTTAAAAATGATGGCGCGCAAATATGACAGAGAACGCTATCTGGAGCTTGTCGGAAAAATTAAAGCGGCGATGCCGAACGCTTCACTGACGACCGATATTATTGTCGGTTTCCCGAATGAAACCGATGAACAATTTGAAGAAACGCTTTCGTTATATCGAGAAGTGGAATTTGACAGCGCATATACGTTTATTTACTCTCCTCGTGAAGGCACGCCGGCAGCGAAGATGAAAGACAATGTTCCGATGAGGGTCAAGAAAGAACGTCTTCAGCGCCTCAATGATTTGGTGAAAGAAATTTCAGCCAAAAAAATGAAGGAATATGAAGGCAGGACCGTCGAAGTATTAGTTGAGGGAGAAAGCAAAAATAACCCTGACATTCTTGCCGGCTATACGGAAAAAAGCAAGCTCGTCAACTTCAAAGGGCCGAAAGACGCCATCGGCAAGATTGTACGCGTCAAAATCGAACAGGCGAAAACATGGTCGCTTGACGGTGTGATGGCAGGAGAAGCAATCGAGGTGAAATAA	MNEKQKQESGQVNPADKKSEKDYSKYFEAVYIPPSLKDAKKRGKESVQYHNDFKISEEFKGLGEGRKFYIRTYGCQMNEHDTEVMAGIFMALGYEATNSVDDANVILLNTCAIRENAENKVFGELGHLKALKKNNPDLILGVCGCMSQEESVVNRILKKHPFVDMIFGTHNIHRLPELLSEAYLSKEMVIEVWSKEGDVIENLPKVRNGKIKGWVNIMYGCDKFCTYCIVPYTRGKERSRRPEEIIQEVRRLASEGYKEITLLGQNVNAYGKDFEDMTYGLGDLMDELRKIDIPRIRFTTSHPRDFDDHLIEVLAKGGNLLDHIHLPVQSGSSAMLKMMARKYDRERYLELVGKIKAAMPNASLTTDIIVGFPNETDEQFEETLSLYREVEFDSAYTFIYSPREGTPAAKMKDNVPMRVKKERLQRLNDLVKEISAKKMKEYEGRTVEVLVEGESKNNPDILAGYTEKSKLVNFKGPKDAIGKIVRVKIEQAKTWSLDGVMAGEAIEVK	PGPT0007215_601	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
D1-12_00879	432	ymcA	COG4550	putative protein YmcA	ATGACGCTTTACTCTAAGAAAGACATTGTACAGCAGGCTAGGAACCTTGCGAAAATGATTTCTGAAACAGAAGAAGTTGATTTTTTCAAACGCGCTGAGGCGCAGATTAACGAAAATGAAAAAGTCTCCGCGATTATTAATCAGATTAAAACCCTGCAAAAGCAAGCCGTTAACCTGAAGCACTACGAAAAGCTTGAAGCGCTGAAACAAGTGGAAAGTAAAATTGACGCCCTGCAGGAAGAGCTTGAAGGGATTCCGATCATTCAGGAATTCAGAGATTCCCAGATTGAGGTCAATGACCTTCTTCAGCTTGTCGCACATACGATCTCAAATCAGGTGACAAACGAAATCATTACATCTACCGGAGGCAACCTGCTGACGGGAGAAACCGGTTCAAAAGTAAAACATTCGAATAACAGCTGTTCTATTTAA	MTLYSKKDIVQQARNLAKMISETEEVDFFKRAEAQINENEKVSAIINQIKTLQKQAVNLKHYEKLEALKQVESKIDALQEELEGIPIIQEFRDSQIEVNDLLQLVAHTISNQVTNEIITSTGGNLLTGETGSKVKHSNNSCSI	PGPT0026336_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA	NA	NA
D1-12_00880	546	cotE		Spore coat protein E	ATGTCTGAATACAGGGAAATTATTACGAAAGCGGTAGTTGCGAAAGGAAGAAAATTCACCCAATGCACCAACACGATCTCACCTGGAGAAAAACCGTCAAGTATATTGGGCGGCTGGATTATCAACCACAAGTACGATGCCGAAAAGATCGGGAAGACTGTAGAAATTGAAGGGTATTATGATATAAACGTCTGGTACTCTTACGCCGATAATACAAAAACGGAAGTTGTAACCGAGAGAGTAAAGTATGTCGATGTGATTAAACTCAGATACAGAGACACAAATTACTTAGATGACGAACACGAAGTCATTGCCAAAGTGCTGCAGCAGCCGAATTGTCTTGAAGTCACCATTTCTCCTAACGGAAATAAAATCGTGGTTCAGGCAGAGAGAGAATTTTTAGCAGAAGTGGTCGGTGAAACGAAAGTCGTCGTCGAAGTCAATCCTGACTGGGAAGAAGACGATGATGATGATTGGGAAGACGATCTTGATGAAGAATTAGAGGACATTAACCCTGAATTTTTAGTCGGAGATCCTGAAGAATAA	MSEYREIITKAVVAKGRKFTQCTNTISPGEKPSSILGGWIINHKYDAEKIGKTVEIEGYYDINVWYSYADNTKTEVVTERVKYVDVIKLRYRDTNYLDDEHEVIAKVLQQPNCLEVTISPNGNKIVVQAEREFLAEVVGETKVVVEVNPDWEEDDDDDWEDDLDEELEDINPEFLVGDPEE	PGPT0025155_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025155-cotE-K06328	NA	NA
D1-12_00881	2589	mutS	COG0249	DNA mismatch repair protein MutS	ATGATGGCTAGTTACACGCCTATGATACAGCAATACTTGAAGATAAAGGCAGAGCACCAAGATGCCTTTTTATTTTTTCGGCTTGGTGACTTTTATGAAATGTTTTTTGAAGATGCAAAAAAAGCGTCACAAGAGCTTGAAATTACACTGACAAGCAGAGACGGAGGTTCGGCTGATAAAATTCCGATGTGCGGCGTGCCGTATCATTCCGCGGCGGCTTATATTGAACAGCTGATTAAAAAGGGCTATAAAGTGGCGATCTGTGAGCAGACGGAAGATCCGAAGGCGGCTAAAGGCGTTGTGAAAAGAGAAGTCGTCCAGCTGATCACACCGGGAACCGTGATGGATGGAAAAGGCATCCACGAGTCGGAAAACAACTTTATCGCTTCCGTTTCCGAATTCCGTGACGGATACGGTCTCGCTTTATCGGACTTAACGACCGGAGAAAACCTGGCCGTATTTATTGAGCGGATTGAGGATGTCATGTCAGAAATTTACTCAGTCGGCGCAAGGGAAATTGTCGTATCGAGCAAGTTTAACGAACATACAGCTGCTCAGCTGAAAGAACGGTGCGGCGCCACGATTTCCATCGAAGACGGGGAAATAACAGAACGCATTGAAATCGCAAAGCACTTGCCGGGCGAAGAGCTGACAGAGACGTTTATGCGTTTATATACGTATTTGCAGAAAACGCAAAAACGGAGCCTGGATCATCTGCAGCCGGTTCAAGTATATGAATTGGAAGAAGCGATGAAAATTGACCTGTATTCAAAACGGAATCTTGAGCTGACGGAAACGATCCGTTCGAAAAGCAAAAAAGGGTCATTGCTTTGGCTTTTAGACGAGACGAAAACAGCAATGGGCGGCCGGCTTCTCAAACAATGGATTGACCGCCCGCTGATTAGGGCATCCCAAATCGAAGAACGCCAGGAAATGGTCGAGACGCTGATCAATCATCTGTTTGAGCGTGAAGATCTGCGCGAGCGCCTGAAGGAAGTATACGATTTAGAACGTCTGGCGGGCCGGGTCGCATTCGGAAACGTCAACGCAAGGGATTTAATCCAGCTGAAAGAATCTTTAAAACAAGTGCCGAGCATCAAAGAGCTTGTAGGGTCTCTTAACCATAAAAAAGCAAAAGAACGCGCCGGCTTGATTGATCCGTGCGGAGATTTGCTTGACCTGTTAGAAGAAGCCCTTCATGAAAACCCGCCGTTATCGTTAAAAGAAGGCAATTTAATTAAAGACGGCTATCATCAGAAGCTCGATGAGTACCGTGACGCCAGCAAAAACGGTAAAGACTGGATTGCCAGACTGGAGCAGCAGGAACGCGCTTATACGGGCATCCGTTCATTAAAAGTCGGTTTCAATAAAGTGTTCGGCTATTATATTGAAGTCACAAAAGCAAACCTTCATCTGCTTGAAGACGGACGGTATGAGCGGAAGCAGACCCTCACAAACGCCGAACGGTACATTACGCCGGAATTGAAGGAAAAAGAAGCGCTTATTTTAGAAGCGGAAAATAACATCTGCGAGCTGGAATATGAGCTTTTTGCCGGACTGCGTGAAAAGGTGAAACAATTTATTCCGCGTCTGCAGCGTCTTGCCAAACAAATGAGTGAGCTGGACGCACTGCAATGCTTTGCTACGATCAGTGAAAACAGGCATTACACAAAGCCCGTCTTTTCTGATAATGAAGTAAAAGTCATTGAAGGGAGACACCCCGTCGTTGAAAAGGTGATGGACAGTCAAGAATACGTCCCGAACAACTGCCTGATGGGCGATTCGCGGGAAATGCTCCTGATTACGGGTCCGAATATGTCAGGTAAAAGCACGTACATGAGACAGATCGCACTTCTATCGATCATGGCCCAGATCGGCTGTTTTGTGCCCGCAAAAGAAGCGGTTCTGCCGATTTTTGATCAAATCTTCACGAGAATCGGGGCAGCGGATGATTTGATTTCCGGACAAAGCACCTTTATGGTGGAAATGCTGGAAGCGAAAAACGCGATTGTGAACGCCACAAAAGACAGCCTGATCCTGTTTGATGAAATCGGCCGCGGGACATCAACGTACGACGGAATGGCGCTGGCACAGGCGATTATTGAATATGTTCACGATCATATCGGCGCTAAAACACTGTTCAGCACGCATTATCATGAGCTGACGGTGCTTGAAGATAAGCTTCCTCAGCTGAAAAACGTTCATGTGCGCGCAGAGGAATATAACGGAACGGTCGTGTTTCTCCATCAAATCAAAGAAGGAGCCGCAGATAAAAGTTACGGCATTCATGTCGCCCAGCTTGCCGAGCTCCCGGATGATCTGATCAGCCGCGCGCAGGAGATCTTAAAACAGCTTGAGCAGTCAGGAGATAAACCGGAGCTTCCGGCGGTATCTGAGAAAAAGTCCGCCGTCAGAGAAGAACCGGCACAGCTGTCCTTTTTTGCTGACGGTGAAAAAGAACAGAAGGCACCGGCTGTTTCTAATAAAGAAAAACAAGTGCTTGAAGCCTTTAAGTCAATCAATATTCTCGATATGACGCCGCTTGAAGCGATGAACGAAATGTACAAGCTGCAAAAAAAATTAAAATAG	MMASYTPMIQQYLKIKAEHQDAFLFFRLGDFYEMFFEDAKKASQELEITLTSRDGGSADKIPMCGVPYHSAAAYIEQLIKKGYKVAICEQTEDPKAAKGVVKREVVQLITPGTVMDGKGIHESENNFIASVSEFRDGYGLALSDLTTGENLAVFIERIEDVMSEIYSVGAREIVVSSKFNEHTAAQLKERCGATISIEDGEITERIEIAKHLPGEELTETFMRLYTYLQKTQKRSLDHLQPVQVYELEEAMKIDLYSKRNLELTETIRSKSKKGSLLWLLDETKTAMGGRLLKQWIDRPLIRASQIEERQEMVETLINHLFEREDLRERLKEVYDLERLAGRVAFGNVNARDLIQLKESLKQVPSIKELVGSLNHKKAKERAGLIDPCGDLLDLLEEALHENPPLSLKEGNLIKDGYHQKLDEYRDASKNGKDWIARLEQQERAYTGIRSLKVGFNKVFGYYIEVTKANLHLLEDGRYERKQTLTNAERYITPELKEKEALILEAENNICELEYELFAGLREKVKQFIPRLQRLAKQMSELDALQCFATISENRHYTKPVFSDNEVKVIEGRHPVVEKVMDSQEYVPNNCLMGDSREMLLITGPNMSGKSTYMRQIALLSIMAQIGCFVPAKEAVLPIFDQIFTRIGAADDLISGQSTFMVEMLEAKNAIVNATKDSLILFDEIGRGTSTYDGMALAQAIIEYVHDHIGAKTLFSTHYHELTVLEDKLPQLKNVHVRAEEYNGTVVFLHQIKEGAADKSYGIHVAQLAELPDDLISRAQEILKQLEQSGDKPELPAVSEKKSAVREEPAQLSFFADGEKEQKAPAVSNKEKQVLEAFKSINILDMTPLEAMNEMYKLQKKLK				NA	NA	NA	NA	NA
D1-12_00882	1875	mutL	COG0323	DNA mismatch repair protein MutL	TTGGCAAAAGTCATCCAGCTCTCAGATGAACTTTCAAATAAAATAGCGGCCGGCGAGGTAGTCGAACGGCCTGCCTCAGTCGTTAAAGAATTGGTGGAAAACGCCATCGACGCAAACAGTACAGTCATTGAAATCGACATAGAGGAAGCGGGGCTTTCGTCGATTCGGGTGCTCGATAACGGCGAAGGGATGGAAACCGATGATTGCAAGCGGGCTTTCCGCCGCCACGCGACCAGTAAAATCAAAGATGAAAACGACCTGTTCCGGGTGAGAACACTCGGTTTCCGCGGAGAAGCTTTGCCAAGTATCGCGTCTGTTTCTCATCTGGAAATCAAAACGAGCATCGGCGAGGGAGCGGGCACCCATCTCATTCTTCAGGGCGGGAATATCATTTCTGAACAGAAATCCTCCAGCAGAAAAGGAACGGAGATTATCGTTACCAACCTGTTTTTCAATACACCCGCCAGATTGAAATATATGAAAACCGTGCATACGGAGCTCGGCAATATTACGGATGTTGTTAACCGGATCGCTCTTGCGCATCCGGAAGTATCGATCCGTCTCCGTCATCAGGGGAAAAATCTGCTGCAGACAAACGGTAACGGGGACGTGCGCCATGTGCTGGCCGCAATTTACGGGACGGCGGTTGCGAAAAAAATGATACCGCTCCATGTCAGCTCGCTTGATTTTGAAGTCAAGGGCTACATTGCGCTTCCGGAAATCACGCGTGCATCCAGAAACTACATGTCATCTGTCATTAACGGAAGATACATTAAGAATTTCCCGCTTGTAAAAGCGGTGCATGAGGGCTATCACACACTTCTGCCGATCGGCCGCCATCCGATTACGTTTATCGAAATTACGATGGACCCGATTTTGGTCGATGTCAATGTACATCCCTCAAAGCTTGAAGTCCGCCTCAGCAAAGAGACGGAGCTGCATGAGCTGATCCGTGACGGGATAAAGGAAGTGTTTCAAAAGCAGCGGCTTATTCCGAGCGCCCAGCTCCCGAAAAAATCAGCGCCGGCACCGGCCAAAAACGAACAGCAATTTATGACATTCGAGGAAAGCGCGCCTGAGCGGAAACTTCCTGAAAAAACGCCGGAGCCGTCTTACTCACCAATGAAGCTGAGTTCGGTCGTAAAAGAGCCTGAGCCGGTAATAATAGAAGAAGAGATTCTCCCGAATGAAGCGGATCACGAAGTGCCGCCGGAGCTCGGCATGCCGGAAACGGCAGCGCCTGTTTCCGATACTCCGGAACCGGAAGCTGTCTCTGAAGAAATACGTGAAGAAAGAGTTCCGGTGATGTATCCGATCGGCCAAATGCACGGGACATATATTTTAGCCCAAAACGAAAACGGCTTGTATATCATTGACCAGCATGCGGCACAAGAACGGATTAAATACGAATATTTCCGGGAGAAAGTCGGGCAGGTCGAGCCTGAAGTACAGGACATGATCGTGCCGCTCACCTTTCATTACGCGGCAAACGAAGCGCTGATCATTGACCAGCATCAGCATGAGCTTGAAAGTGTCGGAGTGTTTTTAGAAGCATTCGGCACGAACAGCTACATCGTCCGCTGCCATCCGGCCTGGTTTCCAAAAGGGGAAGAAGCTGAACTGATTGAAGAAATCATTCAGCAGGTGCTTGACGCCAAACAGATCGATATTAAGAAACTGCGGGAGGAAGCGGCCATTATGATGAGCTGCAAAGGCTCAATCAAAGCGAACCGCCATTTGCGAAACGATGAAATCAAAGCGCTCTTGGACGACCTGCGCCGAACGACAGACCCGTTCACATGCCCGCACGGCCGGCCGATCATTATCCACCACAGCACGTATGAGATGGAGAAGATGTTTAAGCGTGTGATGTAG	MAKVIQLSDELSNKIAAGEVVERPASVVKELVENAIDANSTVIEIDIEEAGLSSIRVLDNGEGMETDDCKRAFRRHATSKIKDENDLFRVRTLGFRGEALPSIASVSHLEIKTSIGEGAGTHLILQGGNIISEQKSSSRKGTEIIVTNLFFNTPARLKYMKTVHTELGNITDVVNRIALAHPEVSIRLRHQGKNLLQTNGNGDVRHVLAAIYGTAVAKKMIPLHVSSLDFEVKGYIALPEITRASRNYMSSVINGRYIKNFPLVKAVHEGYHTLLPIGRHPITFIEITMDPILVDVNVHPSKLEVRLSKETELHELIRDGIKEVFQKQRLIPSAQLPKKSAPAPAKNEQQFMTFEESAPERKLPEKTPEPSYSPMKLSSVVKEPEPVIIEEEILPNEADHEVPPELGMPETAAPVSDTPEPEAVSEEIREERVPVMYPIGQMHGTYILAQNENGLYIIDQHAAQERIKYEYFREKVGQVEPEVQDMIVPLTFHYAANEALIIDQHQHELESVGVFLEAFGTNSYIVRCHPAWFPKGEEAELIEEIIQQVLDAKQIDIKKLREEAAIMMSCKGSIKANRHLRNDEIKALLDDLRRTTDPFTCPHGRPIIIHHSTYEMEKMFKRVM				NA	NA	NA	NA	NA
D1-12_00883	666			hypothetical protein	ATGTCTAATGGTAATCAATATATTGAAGCAGCTAAAATTGCTGCAGAAACTGCTGCAGATACAGCAACTAAGAACGCTCAAACCACCCTTATAATTACATTAATAAGTGCAGGTATCACACTTATGGGTATTATCATAACTGCGTTGATTACTCACAGGAATGCAAAAAGAAATGCATTAGTTGAAACTATTAGTAAACAAAGAATTGAGTGGGTAAATGACCTAAGAGCGAAGTTTGTTGATTTTAATACTTTGGCGGATCAATACTATCTTGCAGTGAAGATGCTGACGAATGAAACTGATAACGAACCTAAATTTGATTTTACAGAAAAGTACCATTCTTTAGGAAGAACTAAAAATAATATTGAATTGTTATTAAATCCAAGTGAGGTTTTTGCTGGACTTCTAACTAATAATTTAGACGAGGTAGTCAAGTTATTCTTTAAAGATGATTTTAAAATAGAGGATTATGAGGAACTCATAAATTCGGTTGAGTTCTATCAGCAGTTAATTTTGAAATCAGAGTGGAAGAGGGTAAAGACTGAAATAGTTCAAGGACGTGAGTTAACCACAAAAGAAGTAAGGAAAATTTACGAAAAAATTGCGCGAAAGCTTTCAAGACATGGAAATATAGAAACCAGCAATTCCATATTTACAGCATCCTAA	MSNGNQYIEAAKIAAETAADTATKNAQTTLIITLISAGITLMGIIITALITHRNAKRNALVETISKQRIEWVNDLRAKFVDFNTLADQYYLAVKMLTNETDNEPKFDFTEKYHSLGRTKNNIELLLNPSEVFAGLLTNNLDEVVKLFFKDDFKIEDYEELINSVEFYQQLILKSEWKRVKTEIVQGRELTTKEVRKIYEKIARKLSRHGNIETSNSIFTAS				NA	NA	NA	NA	NA
D1-12_00884	510			hypothetical protein	TTGGATAGCAAAGAAGAAAAGTTGATTAAAACGAATTACGAAGTATTTGAAGACTTAAAACGCAGAGTCAGTTTTACACGTAAAGCCAGAATACAAGCATCAAAAAGATTACGAGAGCGTCACGAATTTTTTGAGAAAGTTTCCTATTTTTATTCTTTGTTGGTACTAATTTTCTCTGTGTGGTTTCTAAATATGGGAAATGAAAAAGAAAATCTTGTAGCAACTAAGGTGCTTTTAATATTTTCTCTTTCTTTAACTTTTTTTACGATGTTTCTTAATATCAAAAATTATAAAGAAAGAGCAAGTAGCTTTGAATTGAATTATCAAAACCTAGATGTTTTATTAAATAAAATTGAAAGAAGAGAGTGTGACTCTCAGTCAATAACTGATGAAGAGATCAAAGGCTTACATAGAGAATATGAGAAATTATTGCTTGAAAAGGAGAATCATTTAGATATTGATTACTACTTGAGTGATAAAAAAATCATGAAAAATATTTTTCTAAAATAA	MDSKEEKLIKTNYEVFEDLKRRVSFTRKARIQASKRLRERHEFFEKVSYFYSLLVLIFSVWFLNMGNEKENLVATKVLLIFSLSLTFFTMFLNIKNYKERASSFELNYQNLDVLLNKIERRECDSQSITDEEIKGLHREYEKLLLEKENHLDIDYYLSDKKIMKNIFLK				NA	NA	NA	NA	NA
D1-12_00885	252			hypothetical protein	ATGAAAAAAGCTTTGAAGCCTTGCAATGAACCCGGCTGTCCAAACCTCACACGAGAGGGCTACTGCGAACAGCACAAGCGAACCAAGCCGGCCTATGATCAATACCGGGAGTCTGCTGCCAAACGGGGGTATAACAGCAAGTGGAGGCAGGCGCGCGCTGGCTACCTGTCCAAGCATCCGTTATGTGCTGCCTGCTTGGTGCAAGGCAGAAGAACCCCGGCGACAGTTGTCGATCATATCGTTCCGCATTAA	MKKALKPCNEPGCPNLTREGYCEQHKRTKPAYDQYRESAAKRGYNSKWRQARAGYLSKHPLCAACLVQGRRTPATVVDHIVPH	PGPT0027235_2191	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
D1-12_00886	285			hypothetical protein	ATGTTTCTTTACTATCAAAATGAGTGTTTAGGTAAAATTGAAGGGGTTGCAGTAGAAGGGTCTTGGGCTTATGGCAAGATTATCCCTAATGACAAGATGGAAAACTTCAAGGACTTCTTTAGAGCTGTAGTAGATGAAGATGACCCCTTTGCAATTGAGAAGTTTGACGATAATCTCTTAAACGATGATAATTGGTTTATTGTTGATGACGAGCATAAAAAAGTAGGCATTTCCTTGCCCGGTATCTATGAAGAAGATAACGAAATAAATTGGAGATGGAGATAA	MFLYYQNECLGKIEGVAVEGSWAYGKIIPNDKMENFKDFFRAVVDEDDPFAIEKFDDNLLNDDNWFIVDDEHKKVGISLPGIYEEDNEINWRWR				NA	NA	NA	NA	NA
D1-12_00887	210			hypothetical protein	ATGGAAAATAAAAGAAACGCTGAACCGAGCCCAAAAGCTATAAAAATTCTAACTTGCATCATTCCTATAGTTTTAATAGGACTTATCCTTGTTCTTAAGAATATTAATACCGCAGCAGCAGAAATTTCATTTTATATCGTTGCTGTCGGTGTGGTTCTCTTAGTGGTTTTCAGTTTGATCAAAAACAGAAAAAACCGCAGGAAGAACTAA	MENKRNAEPSPKAIKILTCIIPIVLIGLILVLKNINTAAAEISFYIVAVGVVLLVVFSLIKNRKNRRKN				NA	NA	NA	NA	NA
D1-12_00888	693	baeB	COG0491	putative polyketide biosynthesis zinc-dependent hydrolase BaeB	ATGGGAATGGTGACAATGGATCATACATATGAAGTGCATCAAATCAAAACTTATCACCAGATGTGGTCCAACTATTGTTATATTATCGCAAACCGCTCAAAAAAATCTGCGATAGCGGTGGACCCGTCCTGGGAAATCGATAAAATAACCGATAAACTGCATGAATTGGATGTTGATTTATCAGCTATTTTATTAACACATTCGCATTATGACCATGTAAACTTGGCGGAGCCGCTTCAGCAAATCTATCATTCTGATATATACATGTCGTCGGCGGAAATCGATTTCTATCAATTCCGGTGCAGAAACTTAATAGCGCTTGAAGACGGCCAAACCTTTGCGGCCGGAGGGTTTATCATCAGAAGTATACTGACCCCGGGACATACGGCCGGGGGAATGTGCTATTTGCTATCTGATCATCTTTTTACCGGTGACACCGTGTTTACAGAAGGGTGCGGTATATGTGAGGACAGGGGCAGCTCAGCTGAAGATATGTTTCACAGTATACAGAGGATCAAAGCCTCCATTCCGCCGCATGTGCGTGTGTATCCGGGGCACTCCTTCGGGGAGAAGCCGGGTCAAAAAATGGAGAGTCTTTTGAAAAACAATATTTACTTTCAGATTGAAAAAAAAGAACATTTCGTGAATTTTCGCAACAGAAAAAATCAAAAAGGGCTGTTTCATTTTAAGTAA	MGMVTMDHTYEVHQIKTYHQMWSNYCYIIANRSKKSAIAVDPSWEIDKITDKLHELDVDLSAILLTHSHYDHVNLAEPLQQIYHSDIYMSSAEIDFYQFRCRNLIALEDGQTFAAGGFIIRSILTPGHTAGGMCYLLSDHLFTGDTVFTEGCGICEDRGSSAEDMFHSIQRIKASIPPHVRVYPGHSFGEKPGQKMESLLKNNIYFQIEKKEHFVNFRNRKNQKGLFHFK	PGPT0001770_5106	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
D1-12_00889	870	baeC	COG0331	Polyketide biosynthesis malonyl CoA-acyl carrier protein transacylase BaeC	ATGATCACATACTTATTCCCCGGACAAGGTTCTCAAAAGCAGGGAATGGGGAGCTCATTGTTTGATGAATTTAAAGACTTAACGGAGCAGGCTGATGAAACACTCGGATATTCCATGAAACGGCTTTGTCTTGAGAATCCGTATTCCAATCTTCACAAGACGCAGTTCACTCAGCCTGCTTTATATGTTGTAAACGCGTTAAGCTATTTGAAAAAAATCCAAGACAATGACATAAAGCCGGATTATGTGGCCGGCCACAGTTTGGGAGAATATAATGCGCTGTTTGCAGCAGGTGCTTTTGATTTTATTACCGGCCTGCAGCTTGTCCGTAAAAGAGGCGAATTAATGAGTATGGCCACTGACGGAAAAATGGCCGCTGTTATGGGGTTAACTGCATCTCAAGTGTCAGACGCCCTTCATAAGCACGGATTACATACGATTGATATTGCCAATATGAATTCTCCTCACCAAGTTGTCATATCCGGACGCAAAGAAGACATTGAAAGAGCCAAAAGCGTATTCGAAGGATTAAAAGACGTTACGATGTTTCATCCGTTAAACGTAAGCGGCGCTTTTCACTCGAGATATATGAGTGAAGCAAAACAAGAGTTCGAAAAATTTTTACAGTCATTTCATTTTTCTGCTATATCAATTCCCGTCATTTCTAATGTGCATGCCAGACCTTATGAGCAAGACGGAATCCACTCCGTTCTGGCCGATCAGATCGACCATTCAGTGCGATGGAACGACAGCATCCGCTATCTGCTGGACAAAGGGCGGATGGAATTTGAAGAAGTCGGCCCGGGCCATGTGCTGACAGGACTTATTCACCGCATCAAAAAAGAAACTGAAGCTTCACCCGCCATGTAG	MITYLFPGQGSQKQGMGSSLFDEFKDLTEQADETLGYSMKRLCLENPYSNLHKTQFTQPALYVVNALSYLKKIQDNDIKPDYVAGHSLGEYNALFAAGAFDFITGLQLVRKRGELMSMATDGKMAAVMGLTASQVSDALHKHGLHTIDIANMNSPHQVVISGRKEDIERAKSVFEGLKDVTMFHPLNVSGAFHSRYMSEAKQEFEKFLQSFHFSAISIPVISNVHARPYEQDGIHSVLADQIDHSVRWNDSIRYLLDKGRMEFEEVGPGHVLTGLIHRIKKETEASPAM	PGPT0010115_34	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|MACROLACTIN|DIFFICIDIN_METABOLISM,PGPT0010115-baeC|pksC|mlnA-K15327	NA	NA
D1-12_00890	975	baeD	COG3321	Polyketide biosynthesis acyltransferase BaeD	ATGAACCAGCCAATTGTTTTCATGTTTTCTGGACAGGGTTCCCAATACTATCAAATGGGGAAAGAGCTGTTTGCACATAACGCCGCTTTTCGGCAGAAAATGCTTGACTTGGACGATTTTGCAGTCAGCCGTTTCGGTTACTCTGTCCTTAAAGAGATGTATCATACAGGCAATCGTCTGTCTGATCCATTTGACCGCCTTCTTTTCAGCCATCCTGCCATTTTTATGGCTGAGTACGCACTTGCATATGCTTTGGAGCAAAGAGGCATACGTCCCGATTATGTGATCGGAGCAAGCCTCGGAGAGTATGCAGCGGCCGCTGTGTCGGGCGTGCTGAGCGCCGAGGATGCTTTAGATTGCGTGCTGGAACAGGCCCGAATCGTTACGGAAACTTGCCGTAACGGCAGCATGCTTGCGATACTGGGTGATCCGGCTTTATATCAAGATGATCCGCTGCTCGGCGAACATAGTGAATTGGCATCTGTAAACTATCATTCTCACTTTGTCATCTCAGGAGAGCGGGAGCATATCAAAAGGATCATGGACGATCTGAGAGAAAAGCAGATTGCTCATCAGCTATTGCCGGTATCTTACGGGTTTCACTCAGCGCTGGTTGATCAGGCGGAACAGCCGTACAAGCGCTTTTTAGCTCAGAAATCAATCCGGACTCCGTTTATACCGTACATCTCCAGTGCGACCGGAGAGGCTGAGACCGATATACAAGCGGACTTTTTCTGGGATATCGTAAGAAAGCCGATTCAATTCCGCGAAGCGCTTCAATTCGCAGACAGCCGCCAAAAAGGATTGTATATCGATGCCGGGCCTTCCGGAACATTGGCCGCATTTGCCAAACAGATTCTTCCCGCGGGATCGGCTGAACGCATTCGTGCCATTATGACGCCGTTTCATAAAGAACAAACACATTTGCAGCAAATAGAAGACAGCATTTTATCACCGCCCGGAAGGAGACTGTAA	MNQPIVFMFSGQGSQYYQMGKELFAHNAAFRQKMLDLDDFAVSRFGYSVLKEMYHTGNRLSDPFDRLLFSHPAIFMAEYALAYALEQRGIRPDYVIGASLGEYAAAAVSGVLSAEDALDCVLEQARIVTETCRNGSMLAILGDPALYQDDPLLGEHSELASVNYHSHFVISGEREHIKRIMDDLREKQIAHQLLPVSYGFHSALVDQAEQPYKRFLAQKSIRTPFIPYISSATGEAETDIQADFFWDIVRKPIQFREALQFADSRQKGLYIDAGPSGTLAAFAKQILPAGSAERIRAIMTPFHKEQTHLQQIEDSILSPPGRRL	PGPT0010120_33	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010120-baeD|pksD-K15328	NA	NA
D1-12_00891	2241	baeE	COG0331	Polyketide biosynthesis protein BaeE	ATGATCAGCTTTGTTTTTCCAGGCCAAGGCTCGCAAAAAATCGGGATGGGAGAGGACCTGTTCGGCCGCTATCCTGAATTAACCGCAAAGGCCGATCACATTCTCGGATATTCCATTCAGGAGCTGTGCCGGGACGGAGAACGTCTCAATCAGACTCAGTTCACTCAGCCGGCGCTCTATGTCGTCAATGCCCTCAATTATTTGAAAAAAACAGAAGAAACCGGCTTGAAACCGGATTTTACCGCCGGACACAGTTTGGGCGAATATAACGCGTTATACGCTTCGGGAGCCTTTGATTTTGAAGAAGGCTTACAGCTGGTCAAAAAAAGGGGCGAACTGATGAGCCGCGCAAAAGGAGGCGGCATGGCAGCGGTGATCGGCCTGACTCATGAGCAGGTGACGGATGTTTTAAGAGAAAATCACTTGGATATGATTGATATTGCCAACATGAACACACCGCAGCAAATTGTCATTTCCGGCTATAAAGAAGATATTGAAAAAGCCGCATCCGTTTTTGAAGCCGTAAACGGCGTAAAAATGGTTCACCGCTTAAATGTCAGCGGCGCCTTTCATTCCAGATACATGCTGGAAGCGAAGGAGGAATTTTCACGGTTTATCGAATCTTTCCATTTTAAGCCGCTGTCCATTCCGGTCATTTCAAATGTGACGGCAAGACCCTATGAGCAGAGAGAGCTGAAAGAGACACTCACCGGACAAATAACGGGATCGGTGAACTGGACTGACAGTATCCGTTTCTTAATGGGAAGAAAGAACATGAGCTTTGAGGAAATCGGTCCCGGAAAAGTGCTGACGGGGCTGATTCAAAGAATTACGGCTGAAGCGGATCCGATAACAGATGAAATCAAAGTCCCGGCTGAGACTGGAAAAAGCTCAATTACGGCGGCGTCTTTAGGAAATGAAGAGTTTAAGCGCGATTATCAATTGAAATACGCCTACTTGGCCGGCGGCATGTACCGCGGAATTTCTTCGAAGGAAATGGTCGTCAAACTGGCCGAAAAAGGAATGATGGGCTTTTTCGGAACGGGCGGTTTGAACATCGCGCACGTCGAGGACGCCATTTTGTCAATTCAGCATGAGCTTCGTGACGGCGGTTCCTTCGGCATAAATATTGTACATAACATGAAGCATACAGATTCAGAAGAAAAAATGATTGATCTTTTATTGAAGCATGGGGTTCAGAACTTGGAAGCATCAGCGTTTTTAACGGTTACTCCCGCTTTAGTAAGGTTTCGCGCTAAGGGGTTAAAACGCGGTGCCGGCGGACAAATAATAGCGCGTCAGCGGATTATCGCCAAGCTGTCCCGTCCGGAAGTAGCGGAAGCGTTTCTCAGCCCGGCGCCTGATCACATTCTGCAGAAACTTGCAGCCGAAAACAAAATTACCCCTGAAGAAGCAAGTCTGATGAGAGAAATACCCGTTGCGCATGACATCTGCGTAGAGGCTGATTCAGGCGGCCACACTGACGGCGGAGTTGCTTACAGTCTCATGCCGGCGATCATCCGTTTACGAGATGACATGATGAAAAAATACCGATACGGCAAAACCGTCCGCGTCGGAGCCGCAGGGGGAATCGGAACGCCCGAGGCTGCCATGGCCGCATTTATGCTCGGCGCTGATTTTATTGTGACCGGATCTATTAACCAATGCACCGTTGAGGCAGCGACGAGCGGCCTCGTAAAGGACCTCCTGCAGCAGATGAATGTACAGGATACGGCCTACGCGCCGGCCGGCGATATGTTTGAATCAGGCAGCAAGGTGCAGGTATTAAAGAAAGGGCTGTTCTTTCCGACCCGCGCCTCTAAGCTGCATGAACTGTATCAGCGTCACCGCTCAATTGAAGAAATTGATGAAAAGACACTCAGACAAATAGAAGAGAAGTATTTTAAGGCAAGTGTAAGCAGTATTTATGACAAAGTGAAGGCTCATTATTCGAATGAAGACATTTCAAAAGCCGAACGGAATCCGAAACAGAAAATGGCGCTCATATTCAAATGGTATTTCAGGCAAAGTTCTGCTTCGGCGATTAAAGGAGACCCGGATGCCAAGGTAGACTTCCAGATTCATTGCGGCCCGGCATTAGGCGCCTTTAATCAATGGGTGAAAGGTACGGAGCTTGAGTCCTGGAAAAACCGCCATGCCGATGATATCGGCATGCGGCTTATGGAAGAGACGGCCTCGCTTTTGAATCAGAAGTTAGGTTCATTTTTGCAAACGTGTTGA	MISFVFPGQGSQKIGMGEDLFGRYPELTAKADHILGYSIQELCRDGERLNQTQFTQPALYVVNALNYLKKTEETGLKPDFTAGHSLGEYNALYASGAFDFEEGLQLVKKRGELMSRAKGGGMAAVIGLTHEQVTDVLRENHLDMIDIANMNTPQQIVISGYKEDIEKAASVFEAVNGVKMVHRLNVSGAFHSRYMLEAKEEFSRFIESFHFKPLSIPVISNVTARPYEQRELKETLTGQITGSVNWTDSIRFLMGRKNMSFEEIGPGKVLTGLIQRITAEADPITDEIKVPAETGKSSITAASLGNEEFKRDYQLKYAYLAGGMYRGISSKEMVVKLAEKGMMGFFGTGGLNIAHVEDAILSIQHELRDGGSFGINIVHNMKHTDSEEKMIDLLLKHGVQNLEASAFLTVTPALVRFRAKGLKRGAGGQIIARQRIIAKLSRPEVAEAFLSPAPDHILQKLAAENKITPEEASLMREIPVAHDICVEADSGGHTDGGVAYSLMPAIIRLRDDMMKKYRYGKTVRVGAAGGIGTPEAAMAAFMLGADFIVTGSINQCTVEAATSGLVKDLLQQMNVQDTAYAPAGDMFESGSKVQVLKKGLFFPTRASKLHELYQRHRSIEEIDEKTLRQIEEKYFKASVSSIYDKVKAHYSNEDISKAERNPKQKMALIFKWYFRQSSASAIKGDPDAKVDFQIHCGPALGAFNQWVKGTELESWKNRHADDIGMRLMEETASLLNQKLGSFLQTC	PGPT0010125_137	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010125-baeE|pksE|dfnA-K15329	NA	NA
D1-12_00892	249	acpK	COG0236	Polyketide biosynthesis acyl-carrier-protein AcpK	ATGAGTAAAGAAAAAATCTTTGAATTGCTGCAGAACACAATCTACGAGGTTTTGCCTGATTTAGAAGGCGAACAGCTTTCACAGGAAGACCGGTTAGTTGATCTGGGGGCGGATTCAGTGGACCGCGCCGAAATTATCACGATGATGCTTGAAGAATTATCACTGCAGATCCCGCGTGTTGAGCTGACGGGAGTGTCAAACATCGGCGAATTGGCAGCAAAGCTTTATGAAAAGGTACAGGCTGTCTGA	MSKEKIFELLQNTIYEVLPDLEGEQLSQEDRLVDLGADSVDRAEIITMMLEELSLQIPRVELTGVSNIGELAAKLYEKVQAV	PGPT0010130_51	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010130-acpK|baeF-K15337	NA	NA
D1-12_00893	1263	pksG_1	COG3425	Polyketide biosynthesis 3-hydroxy-3-methylglutaryl-ACP synthase PksG	ATGGCGGCTGCCGGAATAGAAGCGATAAATGTGTTTGGCGGGACAGCATACCTTGATGTCATGCAGCTGGCGGAGTACAGAAACTTAGACCCTGCCAGATTTGAGAATTTACTGATGAAAGAAAAAGCGGTGGCGCTTCCGTACGAAGACCCCGTCACATTCGGCGTTAACGCGGCAAAGCCGATTATCGACCGATTGACAGAGGCTGAAAAAGACAGAATCGAGCTGCTGATTACCTGCTCGGAGTCCGGCATCGACTTCGGAAAATCACTCAGTACATATATTCATGATTACTTAGGCCTCAACCGGAACTGCCGTTTATTTGAACTGAAGCAAGCCTGTTATTCAGGAACGGCGGGTTTGCAGATGGCGCTTAACTTTATTTTGTCGCAGACATCTCCCGGAGCGAAGGCGCTTGTCGTCGCGACGGATATTTCCCGGTTTTTAATTGCCGAAGGCGGCGATGCGTTAAGCGAGGATTGGTCTTACGCAGAACCGAGCGCCGGAGCGGGTGCCGTCGCCTTATTGATCGGTGAAAATCCAATCGTATTTCAGGCGGATGCGGGCGCCAACGGCTATTACGGCTATGAGGTGATGGATACATGCCGTCCGATCCCGGACAGTGAAGCCGGTGACGCCGACTTGTCATTGATGTCTTATCTCGATTGCTGTGAACAGACTTTTCGCGAGTACAAAAACCGTGTGCCGGGCGCTGACTACAAAGAGACGTTTCACTATCTTGCCTTCCATACACCGTTTGGCGGCATGGTCAAAGGGGCCCACCGGACGATGATGCGCAAGCTTGCAAAAGCGAAAAACGCTGAAATTGAACAGGATTTTCAAACCAGAGTAGAGCCGGGGCTCCGCTACTGCCAAAGAGTCGGAAACATTATGGGAGCAGCCTCTTTACTGGCTCTTGCAAGCACGATTGACCAAGGGGCATTCGACACTTCTAAGCGGATCGGCTGTTTTTCGTACGGCTCCGGGTGCTGTTCAGAATTTTACAGCGGCGTTGTGACGCCTGAAGGACAAACGCGGCAGCATTCTTTCAAAATAGAAGAGCACCTGAACAACAGGTACAGGCTGTCCATGGAGGAGTATGAAGAATTGTTTAAAGGCAGCGGTCTGGTGAAGTTCGGAACCCGGAATGTCAAATTGGATATGAATATGATTCCGAACATTTTAGACCATCATGCCGGAAGCCCTCGTTTGTATTTGGAAGAAATCACGGAATTTCATCGGAAATACAGGTGGATATCGTGA	MAAAGIEAINVFGGTAYLDVMQLAEYRNLDPARFENLLMKEKAVALPYEDPVTFGVNAAKPIIDRLTEAEKDRIELLITCSESGIDFGKSLSTYIHDYLGLNRNCRLFELKQACYSGTAGLQMALNFILSQTSPGAKALVVATDISRFLIAEGGDALSEDWSYAEPSAGAGAVALLIGENPIVFQADAGANGYYGYEVMDTCRPIPDSEAGDADLSLMSYLDCCEQTFREYKNRVPGADYKETFHYLAFHTPFGGMVKGAHRTMMRKLAKAKNAEIEQDFQTRVEPGLRYCQRVGNIMGAASLLALASTIDQGAFDTSKRIGCFSYGSGCCSEFYSGVVTPEGQTRQHSFKIEEHLNNRYRLSMEEYEELFKGSGLVKFGTRNVKLDMNMIPNILDHHAGSPRLYLEEITEFHRKYRWIS	PGPT0010135_16	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010135-baeG|pksG|dfnL-K15311	NA	NA
D1-12_00894	774	pksH	COG1024	putative polyketide biosynthesis enoyl-CoA hydratase PksH	GTGACCTATGAAACGATAAACGTCCGTTTTCAGCAAAATGTCTGCTTCATCACCTTTGATCGGCCTGAAGCCAACAATACGATTAATGAGCGTTTAGTGGAGGAATGCCTGCACGTTCTTTCTGAATGTGAAGACTCCGTGACCTCCGTAGTGCTTGAAGGGCAGCCGGAGGTATTTTGTTTCGGGGCGGATTTTGATGAGATGTACCGGAAAATGAGGCAGGGAATGCAGCATGCTGAATCGCAGGAGCCGCTTTACCGTTTGTGGCTGGCATTAAAATCCGGGCCGTACATCACAATCGCCCGCGTCCGCGGAAAAGTAAATGCGGGAGGTGTCGGTTTTGCCGCCGCGTGCGATATCGTCATTGCAGAGGAGAGTGCTTCGTTCAGTTTATCTGAACTGTTATTCGGACTTTATCCGGCCTGCGTTCTGCCGTTTTTAATTCAAAGAATCGGATTTCAAAAGGCGCATTATATGACGATTATGACAAAGCCCGTGCCGGCACGCCAGGCGCTTGAATGGGGACTTTGTGACGTATGCGTCCCGGACTCAGCAACAGAGCTGAGAAAGCATTTGCTGCGTCTTCGCCCGCTGTCGAAAAAAGCAGTCATCCGCTATAAAAAATACATGGATTCCTTAAACGACCTTGTTCATCGTTCGAAATCCATTGCTTTAGCCGAAAATCAAGCGATGTTTTCAGATCCGGATAACCAATCAGCCATCACCCGTTATGCAGAAACGGGACGGCTTCCTTGGGAAACGGAGAACAGTTAG	MTYETINVRFQQNVCFITFDRPEANNTINERLVEECLHVLSECEDSVTSVVLEGQPEVFCFGADFDEMYRKMRQGMQHAESQEPLYRLWLALKSGPYITIARVRGKVNAGGVGFAAACDIVIAEESASFSLSELLFGLYPACVLPFLIQRIGFQKAHYMTIMTKPVPARQALEWGLCDVCVPDSATELRKHLLRLRPLSKKAVIRYKKYMDSLNDLVHRSKSIALAENQAMFSDPDNQSAITRYAETGRLPWETENS	PGPT0010140_59	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010140-baeH|pksH-K15312	NA	NA
D1-12_00895	750	pksI_1	COG1024	Putative polyketide biosynthesis enoyl-CoA isomerase PksI	ATGCCGAACACCGCAGTTGAACTGCTCGAAATTGAACCGGATATTATCCAAGTGACAATGCAGGATAAAGCCCATAAAAACGCCTTCTCCAAAGAACTGACGGATGGATTGATGGAAGCGTTCACCCGTATAAAAAAATCGTCAGTCTATAAAGCTGTGATTTTAACAGGATACGGCCATTACTTTGCTTCCGGAGGCACACAGGAAGGCCTGCTCAGGATTCAGCAGGGCATCACGAAGTTTACGGAAGACCGCATGTACTCTTTGGCGCTGGAATGTGATATTCCCGTCATTTCCGCCATGCAGGGCCACGGAATCGGAGGCGGGTTTGTCATGGGGCTTTTCAGTGATTTTGTCATTTTAAGCAAAGAAAGCGTGTATACCGCAAACTTTATGAAATACGGTTTCACCCCCGGAATGGGCGCTACCTTTATCGTTCCGGAGAAGCTTGGGGCAAGCCTCGGCCATGAAATGCTGTTAAACGGCGGCCACTACCGCGGCGGTGACCTGGAGAAAAGAGGGGTGCCTTTTCCGGTGCTTCCGCGGCAGGAAGTACTAGACTATGCGCAGGAATTGGCCCGTGAGCTTGCGGAAAAACCGAGAAACTCTTTAATTACATTGAAAAGGCACTTGGTGACGCCGTTTCGCGAGCAGCTTCCGGCCGTCATTGAGAAGGAGTTAATCATGCACGATGAGACGTTTCATGATGATGAAGTGAAAAAACGAATCACGACGATGTACGGAGTATAA	MPNTAVELLEIEPDIIQVTMQDKAHKNAFSKELTDGLMEAFTRIKKSSVYKAVILTGYGHYFASGGTQEGLLRIQQGITKFTEDRMYSLALECDIPVISAMQGHGIGGGFVMGLFSDFVILSKESVYTANFMKYGFTPGMGATFIVPEKLGASLGHEMLLNGGHYRGGDLEKRGVPFPVLPRQEVLDYAQELARELAEKPRNSLITLKRHLVTPFREQLPAVIEKELIMHDETFHDDEVKKRITTMYGV	PGPT0010145_34	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010145-baeI|pksI|dfnM-K15313	NA	NA
D1-12_00896	14952	pksJ_1	COG0318	Polyketide synthase PksJ	ATGAAAAGTGATATGAAGGCAAGCGGGTTACTCAAGCCATCTGTCAGCTATGGAAAATCATTGCGGCTTTCAGCGGATCAGCCGATGACGATTCCTGAAGTCCTGCACAAAACCGCCGCGGCAGCGGGAGATCAAAAGGGCATCACATATATTCAGCCTGACGGCACCAAAGTGTACCAGACTTACAGCGGCCTGAAAAAGATCGCTCTTTCGATTGTGAAAGGGCTCCGCCAATCAGGAGTGAAGGCTCAGGATGAAGTCATATTACAGCTCAGTGACAATTCCCAGCTGATTCCTGCTTTTTGGGGCTGTGTTTTTTTAGGAGCGATCCCGGTTCCGCTTGCGGCCGCTCCGGCTTATACAGAAATGAACAGCGGGACGCAAAAACTAAAAGACGCCTGGATGCTGTTGAATCAGCCGTATGTCATCACAAGCCGTGACGTGCTGCCGGAGATGACTGAATGGGCGGAGGAGCAGGAGCTTTCCGGGTTTTGCGCTTTGGCGGCAGAAGATCTCAGTGCGCACGAAATGGATACGGACTGTCATCATCCCCGTCCGGAAGATTTGGCGATGCTGCTTTTGACCTCGGGAAGCACGGGCACGCCGAAAGCCGTGATGCTCAGCCATGAAAACATCGTCTGCATGGTCAAAGGAAATATTCAGATGCAGGGCTATACAAGTGAGGATGTCACGTTTAACTGGATGCCTTTTGACCATGTCGGCGGCATCGGAATGCTTCATCTGCGTGATGTTTATCTCGGATGTGAGGAAATCAACATACCGAGCGAATCCATTTTGATGGACCCTTTAAAATGGCTCGACCTGATTGATCATTACCGCGCTTCGGTCACGTGGGCCCCCAACTTTGCCTTTGGACTGCTTGCCGATTTTGCAGAAGAGATTCAAACGCGGAAATGGGACTTATCTTCCATGCGTTACATGCTGAACGGCGGGGAGGCCGCGGTTGCGAAAGTCGGACGCAGAATTATGGAGCTTTTAGAGCCGCACGGTCTGCCGGCTAATGCCATCCGTCCCGCATGGGGAATGTCCGAAACGTCTTCGGGCGTTATTTTCTCAGATGAGTTTACATTGGAAAACACGAGTGACGACGATCGTTTCGTCGAGATCGGTCTGCCGATCCCGGGATTTAATATGAGAATTACGGATGACCGCAATCAAGTGGTGGAGGAAGGAGAAATCGGCCGCTTCCAAGTGTCCGGTCTGACTGTAACGAGCGGATATTATGAGCGCCCGGACTTAAATGACAGTGTCTTTACAGAAGACGGCTGGTTTGAAACGGGAGATCTCGGATTTCTGCGTGAAGGCCGCCTGACGATAACGGGGCGCACGAAAGATGCCATCATTATCAACGGTGTGAATTATTACAGCCACGCCATTGAATCAGCCGTTGAGGAATTGCCGGAAATTGAAACGTCTTATACAGCGGCATGCGCCGTCCGGCCGAATCAAAGCACGACAGATGAGCTGGCGATTTTCTTTGTGACATCTGTTCCGTTGGATAAGAGCCGCATGACGAAGCTTCTTCATCACATTCACCAGCACGTGACACAGAGAATCGGCGTTACCCCTGATTATCTGCTTCCGGTCGCAAAAGAAGACATTCCTAAGACGGCGATCGGGAAAATCCAGCGCACTCAGCTGAAACATTCATTTGAACAAGGGCAATTTGATTCATTACATAATAACAGACAAGAAGGCGGCAATTCAGACACGGCTTCTGCAGAGAAAGAAATTGAACGGGATTTTATCCGTTTTCTGAAAGAGGAACTTTCCATCGCGGATGAGCTCGTTGATCCAAATACGCCGTTTCAAAGTCTTGGCGTCAATTCCATCAAGATGATGAAACTCGCCAGATCAATTGAAAAAACGTATCACATCCGGCTGACGGCAAGAGAGCTGCACAAAAACCCGACGATTGGCGCTTTAGCGGCTTATACTGCAGAAAAAGCGGCAAACATGTCAGCGGAGCATCATTCCCAAAAAGCCGAACCGCCGGCAGAACGGGAGAGACGGCAAATGGCGCCAGCGCTTTCAGAAGTCCAAAAAGGGCTGTGGACATTGCAAAAATTGTCGCCTGAAACGACTGCATACCATGTCCCGCTCTGTTTCCGATTCACATCCGGAATCGACAAAGAGAAACTGAAACAGGCGTTTCAGTTCGTATTAAAGCAGCATCCGATGCTCAAAAGCGCCGTGAATGAAACAGACGGCGGGTTATATTTCATAGAAGCGGCAGATCCTTTTGTATTCTCGGAAGAAGATATTTCTGACGTCAATGAATCACAAATATCCGCTCTGATACGGAAAAAAGTGAAAGAGCCGTTTGTCAAAGAAGGCGGGCCTTTGCTGCGCGTGCAGCTGCTTTCAAAATCCGCCGAGGAACATTATCTTTTGACGGTCATTCACCACATCGTGTTTGACGGCATTTCATCCATTACATTTATTCACAGTCTGCTGGATCATTATCAGGCGCTGCTGGAGGGAAAAGAAGAGTTTACGGCCGCCGCTCCCGGGATTCATCCCGATTTCGCAACTTGGGAAAAGCGGTATTTAGCGGGTGAAGAAAGCAAAGCTGCCCGCGCTTACTGGATGAAACAGCTCGGGGGCGATCTGCCTGACCTTCAGTTTCCGCCGATGCGCACGGACAGCAGTGTTCCGGAGTTTACAGAAGATACGCTGACACGTCGTCTTCCCGAACGGCTGCTGAATAATATAACGGCGTTTGCCGCATCCCGTTCGATTCATTTGTCTACCGTCATGCTGAGCTGTTACATGGTGCTTTTAAGCAAATATACGGATAAGGAAGATGTTGTGACAGGCATGCCTGCAATGGTCAGACCCGAAGAACGCTTTGACGGAGTGGTCGGCCATTTCCTCAACATGCTTCCCATACGGAGCAGAGCCGGACGAAAAGAAACATTTGCTGACTTTGTTCAAAAGGTGCAGGATGCCGTTCTGGACGGACTGGATCACTCATTTTATCCGTTTCCGAAAATGGTGCGTGATGTGCATGCGAAACCCCGGCAGAACGGTTCGCCTGTTTTCAGCAATGCTTTTTTCTATCAGAACTTTCTGCAGCATTCAAGCTATCAATCGATGCTTGATGAATACAAGGGATTCTCCTGTGAGTTTGTAAAAGACATTCATCAGGAGGGGGAATATGATCTTGTATTTGAAATGTGGGAAGAAGCATCAGGCATGGATCTTACGATTAAATACAGCACCGAATTATTCGACGAAGCAGGGGCGGCCAGGCTTTTCAGCCAATTTGTACAGGCTGCTGAAGCTTTGACGGCGAATCCGGATATGCCGCTTGAGAACGTTTCTCTCATGACAAAAAGAGAGGAGCACATGATTCTTAAGACTTGGAATGAGACAAGCCGTGAATATCCGGATGCCTGCTTCCATGAATTATTCGAACGTCAGGCGGCAGAAACGCCGGACGCTTGTGCGGTCGTGTATGAACAGCAAAAGCTGACGTACCGTGAGCTTGATGAAAAAAGCACGAAGCTGGCGCTCTATTTGCAGGCGCACGGTGCAGGCCCTGATGATCTCATCGGCATTTATACAGACCGTTCATTGCATATGGCTGTCGGCCTTCTCGGCATTTTAAAAGCCGGGGGAGCGTATGTGCCGCTTGATCCTTCTTATCCCGCTGACAGATTGGAATATATGATCACCGACAGCAGGATTTCAATGTGCCTGACGACAGCTGATTTAGAGCACTCTTTGAACTGGGGAGGCGTGCAGACAACTGCCATTGACCGCGATTGGTCTCATATTGAAAGTACAGCCGCGGAAAGAACGTCGCTGAAGCGGTTAGTGACACCTGACGATCTGGCGTATGTCATTTACACGTCGGGCAGCACGGGCAAACCAAAAGGTGTCATGATTCCGCACCGGGCGCTGACCAACTTCTTAATCTCGATGGCGCATGAACCGGGGCTTTCGTCCGAAGACAAACTGCTTGCCGTCACGACATATTGCTTTGACATCGCGGCACTGGAGCTGTACCTTCCTTTAATCAAAGGAGCGGAGTGCAACATCTGTAAGACAGAAGTCACAAAAGACGCACGAAAGCTGAAAGAGCTGATTCAAGAGTACAAACCGACGATCATGCAGGCGACGCCGTTTACGTGGAAAATGCTCTTTCATTCCGGATGGTCAAATGAAGAAAAAGTGAAAATCCTTTGCGGCGGAGAGGCGCTCAGCGAACAATTGAAGCAGCAGTTTCTCGATACGAAAAGTGAGGCTTGGAATATGTTCGGGCCGACAGAGACGACAATCTGGTCCGCGGTGCAGCGTATAACGGAAAATGAGAGTGCGCTTACGATCGGACGCCCGATCGCCAATACCCGCGTGTATATTATGGATTCCGGTCTCAACCCTGTTTTAGAAGGGGTGCCGGGAGAACTTTGTATTGCGGGAGACGGATTGGCAAGAGGGTATTTCAACAAGCCTGAGCTGACAGATAAAGCTTTCGTCAGCCACCGGCTCGAACTGGGATCAAAGCTTTATAAAACAGGCGATATGGCGCGTTTTCTTCCCGGCGGCCGCATTGAATACATGGGACGGATGGACACCCAAGTCAAAATCCGCGGCTACCGGATTGAACCCGGAGATATTGAGAGCCGGCTGAATGCCCATCCGGCCGTACAGGAAAGCGTAGTGGTTGTGAACAATCACTCCGGAAATGAGAAGCTTTGCGCGTTTTATATCCTGAAAAACGGAGAGCCGCTTCCATCTGCAAAGGAATTGCGCAATCATTTGAAACAAGCGCTGCCGGCCTATATGACGCCAGCTTCTTTTATCCGTCTTGAAGAGCTGCCGCTCACACCGAACGGAAAAGTGGACCGCAAGCTTCTTGCTGCCCGCGATCTGACGGAAAAGCAGCCGGACACACAAACATTTTCATCATCTCATATCCAGCAGGCGGTACTGGCGATTTGGCAGGATGTATTGAAAAGCAAAGATATAGAGCTTGATGACCGCTTTTTTGATGCGGGGGGAGATTCGCTTCTTGCCGTGACTGTCACTGAGCGGATGACGCAGGAACTGGATTGTGAATTCAGTGTAACGGAGCTGTTTGAATACGCGACGGTAAAAGACATCAGCCGGTACATCACTGAACAAAAACCGAAAGAAGCCGTTTTGGCTCCTGTGCCGCAAAAGAAAGTGAATACAGTAGACCGGGAACACCCGGCGGGAGAATTTCCCGATTATTACGAGGACAGCCTTGCGGTTATCGGTATATCCTGTGAGTTTCCGGGAGCGAAAGACCATTATGAATTTTGGAATAACATCAAAGAAGGCAAAGAAAGCATCACCTTCTTTTCAAAAGAAGAGCTCCGCCGATCCGGTATTTCTGAAGAACTGGCTGATCATCCCGGCTTCGTTCCGGCTAAATCAGTTTTAGAGGGGAAAGAAATGTTTGATCCCGGTTTCTTCGGCTTTTCACCGAAAGATGCGGAGTATATGGACCCTCAGCTGAGAATGCTTTTGCTCCATTCATGGAAGGCAATCGAGGATGCGGGATATATCTCCAAAGAAATTCCGGAAACAAGCGTGTATATGTCTGCCAGCACTAACTCTTACCGCAGCCTGCTGCCGGAGGAGACGACAGCACAGCTGGAAACGCCGGATGGCTACGTGTCATGGGTGCTTGCCCAAAGCGGTACGATTCCGACGATGATTTCTCATAAACTCGGGTTGAAAGGGCCGAGCTATTTTGTCCATGCCAACTGCTCATCTTCGTTAATCGGCCTGCATTCGGCTTTTCAAAGCCTGCAGTCCGGCGAAGCCAAGTACGCCCTTGTCGGCGGTGCGACCCTTCATACGGAATCAAGCGCCGGATATGTTCATCAGCCGGGGCTGAATTTTTCAAGCGACGGGCATATTAAAGCGTTTGACGCGGCTGCTGACGGAATGATCGGCGGTGAAGGAGCCGGCGCCGTGCTCTTGAAAAAAGCGTCTGATGCCGTTAAAGACGGCGACCATATTTATGCGCTGCTGCGCGGAATCGGCGTCAATAACGACGGAGCGGATAAGGTCGGATTTTATGCGCCGAGCGTCAAAGGACAGGCTGAGGTCATTCAGAAGGTCATTGATCAGACGGGCATCCATCCCGAAACGATCGCGTACGTCGAAGCTCACGGCACAGGAACAAAACTCGGCGATCCGATCGAACTGTCCGCACTTCAATCGGTGTACGGCCGATATACAGATAAAAAACAATACTGCGGCATCGGTTCAGTCAAAACAAATCTCGGGCATTTGGATACAGCGGCCGGAATGGCGGGCTGCATCAAGGTTGTCATGAGCTTATATCATCAGGAAATCGCGCCGAGCATCAATTACAAAGAGCCGAACCCGAATCTTCATTTAGAAGACTCTCCGTTTTACGTAGCGGAAGAAAAGAAAGAGTTAACCCGTGAGAACAGAGCGCACCGCATGGCTTTAAGCTCTTTCGGTCTTGGCGGAACAAACACACACGCGATTTTTGAACAATATCCGGATGCATCTGAGGCAGCAGACGCTGCCGGTCCGTTCATCATTCCGTTGTCTGCCAGAAAAAAAGATCGTCTGAAGGAGTACGCAAAACAGCTGCTGGCTTTTCTGGAAAGAAAAACGGACGCCGACCTCGCTGATCTTGCCTACACGTTCCAAGTCGGAAGGGAAGCGATGGAAGAGCGCGCGGCCTTTATCACAAGCGGCACTGCGGAGCTGAAGCGGCAGCTTGCCGATTTTATCAATGATAAGCCGGCTGTAACAGGCTGCTTCAGAGGAGAAAAACAGCAGGCGAAAGATATTGCCTGGCTTTCTGATGATGATGACAGCGCTGAACTCATTGAGAAATGGCTTGCGAAAGGAAAAGGACCGAAGCTCTGTGAAATGTGGAGTAAAGGTGTCGCCATCAATTGGCACAAGCTTTACAAAGACAAGCATCCGAAACGAATCAGCGTGCCGGTCTACCCGTTTGCAAAGGAGCCGTACTGGCCGAAAAAAGCAGAAAAGAAAACATCTGCCGCACACACCGGAGTCTCAGTTTTACACCCGCTCGTGCAGCAAAATACGTCAGATTTAACCCTTCAGCGGTTCAGCTCACGGTTTACAGGCTCAGAATTTTTCCTGAAGGATCATGTGATCAGGGAAAAAGCTGTGCTGCCGGGAGCGGCATATTTGGAAATGTCTTATGAAGCGGTAAAACGGGCGCTTGGCGGCTTATTAAAAGACCAAGACAGAATAACGCTCCATCATACCGTCTGGATGAAGCCGATCGTCGTTCACGAACAAGAGCGCCAGGTCCATATTGCGCTGTTCCCTGAAGAGGACGGCATCATCTCATATGACATTTACAGCATAAACGCTGACGATGAAGAAGTGCTGCACAGCCAAGGGCGTGCCGAAATCATAAAGGCTAAACGAGAGCCTGAGAGAGACCTTTCTGCCATACAAAACAGATGCACAGCGGACATTCTTGATCCGGCGGTCTTTTATCGGGAAGGCCGGAGCAGGGGGATGTTCCACGGAAAAGCCTTCCAAGGCATTAAGTCCGCCTTTATCGGCGAGAAAGAAGTGCTTTCGGACATACAGCTTCCGGATTCTGTTTCTCATACGAACGGACAATTTACGCTTCATCCGAGCATCATTGATTCGGCTATTCAGACGGCGACGATCTGCATTATGCAGGAGTTTTCCGGACAAAAACTGATTCTGCCGTTTGCGCTGGAATATCTTGAAGTCGTCAAAGCATGCACGCCGATTATGCGGGCGCATGCACGCTTCAATGAAGGATATCAAACCGGTGATTCCGTGCAGAAAGCCGACATTGACCTGTTCGACGAAACAGGAGCGCTTTGCGTGAAGGTGAGAGGATTCTCTACGAGAGTGCTTGAAGGCGATGCAGAATCGGCTCAGCGGCTATCAGGCTCGGAAAAGGTCTTGTTTGCACCGGTCTGGAAAGAAGCTGCCGCATCCGAGAAAGCTTCTGTCCATGCTGATGAGCATTTGATCATACTTTGTGAAGATGCCTGCCGTATAAAAGATGAAGCGGCATCCGGCCTGAAAGACGCCGAACTGCTGATTGCAGAAGGTGAGGGTGAAACAGCCGCTGAACGCTTCCAAAGCTACGCGCAGACAATCGCCGAACACATCCGGCGGATCATCAGCGAAAAAAGGCAGGGCCGCATTCTGATTCAGACCGTTATTTCAGCAGACGGCAGCCAGCAATTGTTTGCGGGGTTAACAGGTTTGTTAAAAACAGCCGAGCTGGAATACGGAAAACTTGACTGTCAGCTCATCGAAATGGAATCAATCGGTGAAATGCCGGCTGTCGCTCAAAAACTGAAAAACGACAGTCATCGGCCGCATGATAAACATATCCGTTATAAAGGAGACAAACGGTATGTGAAGGCTTGGGAAGAAGTGCATCCCGCAGGGGGCGGCACCGTCTGGAAGGACGAAGGCGTATATCTGATTACCGGAGGGACAGGAAGCCTGGGGTTGATGTTCGCAAAAGAAATCGCAGGTCGCGTTAAACACCCGAAAATCATTCTGACCGGCCGCTCAAATCTGACAGAAGCCAAACAGCGTGAGCTTGCTATGCTTCAGCACTCGGGCGCAAATGTCGTCTACAAAAAGCTGAATGCGGCAGACCGGCGGGAAAATGAAGCGCTGATAAAAGAGATTACGGCGGATTTCGGAAAGCTTAACGGAATTATTCACGCTGCGGGAGTGATACAAGACCGCTTCCTGCTGCAAAAAACGAAGGAAGAGTTCAGGGAAGTGCTTGATCCGAAAGTGATCGGAACCGCTTATTTAGATGAAGCCAGCAAAGACTGCAATCTTGACTTTTTCGTATTGTTCTCCAGTGTTTCCGGCATTCTCGGCAATATCGGGCAGGCTGATTATGCCGCAGGCAACGCGTTTATGGATGCGTACGCCGCTTACAGGCAATCCCTTACGGAGAATGGCCTGCGGCACGGAAAAACGGTCGCCTTTAACTGGACGCTGTGGAAAGATGGCGGTATGCAGGCGGGAGACGAGACGGAGAGAATGATGAAAAAAGCTTTCGGCATGGTTCCGCTTCAAAAGGCGTCAGGCCTGGCTGCTTTTTATGAAGGAATGGCTCAGGAAAAGCCGCAGCTTTTAGCAGCTGAAGGACACGCAGCAAAATTAAAACAGTCGTTCCTATCCGTTTCTGAAACTGAAAAGCCGCAGGTGGAGAAAATAGAGCCTGTATCCGCCGTTTCGGGAGACAAATGGCACGGTGCGCTTATCCGATTGGTCAGTTCAATTTTAAAAGTCGGCCAAGACGAGATTGATATTGATACGGAACTGAGTGAATACGGTTTTGATTCGGTATCCTTTACCGTCTTTACGAATCAATTAAATGAAGCGTATCAGCTGGAACTGGCGCCGACGATCTTCTTCGAACACGGGACGATCCGCAGTTTAGCAGAGTATTTGACGGATGAGGCAGAAGCCGGCCTTCCTTCTCAGCCGGAAGAAAAACACGATGCAGAAGAATCTCTTCAAACGCTTCAGACCGCTTTGACAGACATGGTAAGCGGCATTTTAAAAGTAGACCGTGAGGACATTGAGACAGATACGGAATTGAGTGAATACGGTTTTGATTCCGTATCCTTTACCGTCTTTACGAATCAATTAAATGAAGCGTATCAGCTGGAGCTGGCGCCGACGATTTTCTTTGAGTACGGAACGATCAGCGGTCTCGCCGGATATTTGGCAAAAGAGCATCCGGGCCGTTTCGGCGAAAAGAAGAAAGAGTCTCCGAAAAAAGAGCAGCCAAAAGCCCAAAAATCGAAAATGCAGCGGAAAAAGCGCTTCGCAACGGTAATGAACGCTGCGGCAGCGACACAAGAGCCGCGCCGCTTGGATACGGTTGCCATTGTCGGAATCAGCGGCCGATTCCCGGGCGCGAAGGATATAGAGGAATTTTGGCGCAATTTGAAAGAAGGAAAGGATTCGATCACAACCATTCCGAAAGAACGCTGGGATTGGCAAGCGTTTGATGGCGACCCGAATCTTGAAGGGAACAAAACGAATATCAAGTGGGGCGGCTTTATCGACGGAATAGCTGAATTTGATCCGCTGTTCTTTGGGATTTCACCGCGGGAAGCCCAATATTTAGATCCGCAGCAGCGGCTGTTATTGACTTATGCATGGCTGGCGATAGAAGATGCGGGCTGTAAGCCGGAAAGCCTTTCCGGCACAAATACGGGCGTCTTTATCGGCACCGGAAATACCGGTTATAAAGATTTGTTCACAAGGGCAGGTCTTGCGCCGGAAGGACATGCGGCGACAGGCAGCATGATTCCTTCCATAGGTCCGAACCGTTTGAGCTATTTGTTAAATCTTCACGGGCCAAGTGAGCCGATTGAAACGGCATGTTCAAGCTCGCTTGTGGCGATTCACCGGGCGGTATCCGCTATAGAAAACGGAGAATGCGACATGGCGATTGCCGGGGGAATCAACACGATTCTGACGGAAGAAGCGCATATCAGCTACAGCAAAGCAGGCATGCTCAGCAAAGACGGAAAATGCAAAACCTTCTCCAAAGATGCCAACGGGTATGTCAGAGGAGAAGGCGCGGGAATTCTGATGCTGAAGAAACTGACAGATGCAGAACGTGACGGCAATCCGATTTACGGCGTGATCCGCGGTACGGCTGAAAACCACGGCGGCCGGGCGAATACGTTAACCTCGCCGAATCCGAAACTGCAGGCTGATTTATTGGTGAAAGCATACCGGAAAGCGGGAGTGGACCCGAGCACCGTCACTTATATTGAAGCGCACGGTACAGGAACGGAATTGGGCGACCCGATTGAAATAAACGGTTTGAAAGCGGCGTTTCACGAGCTGGCGAAAACAAATCAAGAGCCTGAAGTCTTCGGTCACCGCTGCGGCATCGGTTCGGTCAAAAGCAATATCGGCCATTTAGAGCTTGCCGCGGGAGTATCAGGCGTCATGAAAGTGCTTTTGCAAATGAAGCACAAAACGCTGGTGAAAAGCCTGCATTGCGAGACGATCAATCCGTACATTCAGCTCGATGACAGTCCTTTCTACATCGTGCGGGAAAATCAGGAATGGACGGCAGCAAAAGATAGAAACGGAAATGCCATTCCGCGCCGGGCCGGGGTCAGCTCATTTGGCATCGGCGGGGTCAACGCCCATATCGTCATTGAAGAGTATGTCCCGAAAGCAGCCGCTCAGCCTGAGCACAGCCCGGAAAATCCGGCAATCATCGTTTTGTCCGCCAAATCAAAAGAAAAACTGTTTGAACAGGCGCGGCAGCTGCAAAAAGCGATCCGTCAAACGCCGTATACAGATCAAGACTTGGCGGGCGTCGCTTATACGCTGCAAACCGGAAGGGACGAAATGGAAGAGCGCTTGGCCATTCTTGCAGCGACGATGGCGGAATTGGAAACAAAGCTGGAAGCATTTACGAAAAATGAGAAAAACATTGCCGGGCTGTATACCGGCCAGTCTCACCGCAATAAAGATACGTTTGCCTTGTTCACCGCAGATGAAGATATGGACATCGTCATTGACGCCTGGATTAAAAAAGGAAAATTCGCTAAGCTGGCAGAGGTATGGGTGAAAGGCGGCGTATTGAATTGGAACCGGCTGTATGAAAAGGGTACGCCGCGTTTACTCAGTCTTCCGTCTTATCCGTTCGCAAAAGACACGTATTGGGTGCCTGAGAATCCTGACAAAAAGAAGGTCCATACAGAGGAACGGATGAAACGTATTCTGACGAAACAATGGGAACCGAGCCCGCTCGAACTGGGTGAACCGTGCGCACGTTCCGTTGCGATTTTGACAGGCGGGGACACGATCAATCTCGCAGAAGAGATCGCAGCGCATATGCCGAATCACCGTATCATCACAGGATCAGACCTTGCCGGTGAATATGACTGGCAGGCGTTTGGCGGCGTCATCGACCTTCTCGGCGCAGCGAAAGAAGAAGCTTCTGAAGATATGACCGGTATCAAATGGCTTCAGCAATTGATTGAGCATGGGCATAAAGAAGGGATGACACTGCTTTGTGTCACGAAAGACCTTGAGTCATTAAATAAAGAGGCCAATCAAACAACAGGAGCAAAACGGGCCGGTCTGTACAGAATGCTGGCGTGCGAGTACGGTCATCTGTCTTCAAGGCATCTCGACCTTGAAGGAGGGCTTTCTGATGACAAACTGGCGAAGCAGATTGCCGATGAGTTTCATGCCCGCACTGATGACGCGGAAGTTTGCCGGAGGAACGGCTTGCGTTACCGCGCTGTATTAAGCGGCTCAGAAAACATGGATATGAAAGGCGAGAGAATTGATTTTCCGGACAACCATGTGCTTCTGATCACCGGGGGGACGAGGGGGATCGGCCTTTTATGCGCACGCCATTTTGCCGAACATTACGGAGTGAAAAAACTGGTGCTTACAGGCCGTGAGACCCTTCCGCCGCGAAGTGAGTGGACGGGCGGACTGAATGGGGTGACGGCTTCTGTAAAAGCGAAAATTGAAGCTGTTCTCGACTTGGAATCCAAAGGTGTACAAGTGAAGGTTTTGTCAGTCCCGTTAGCTGATGAAGCCGGGCTGAGACAGGAACTGAGTCAGATAAAACAGACGCTCGGACCTATCGGCGGCGTGATTCACTGCGCGGGTGTGACCGATAAAGAGACGCTCGCATTCATCAGAAAAACCGATGAAGACATACAGCGCGTGCTCGAGCCGAAAGTAGACGGGCTTCAGGCGTTATACAGTGTGCTCAGCGAAGAGCCGCTGAAGTTTTTCGTCTTGTTCTCTTCCGTGTCAGCTGCGATACCGGCGCTTTCGGCAGGACAGGCCGACTATGCCATGGCCAATGCGTATATGGACTATTTTGCAAACTCATACAAAGAGCAGCTGCCGATCGTAAGCATTCAGTGGCCGAACTGGAAAGAAACCGGAATGGGCGAAGTAACAAACAAAGCTTATAAAGAGAGCGGGCTATACAGCATCACGAATGCAGAAGGATTACAGCTCCTTGACGGCATACTTCTTGAATCAGCAAGGGGCCCGGTGCTGCCGGCCGTTCTGAATCCTGAGCTGTGGAAGCCGGAGCGATTCCTGCGGCGGAGCAGGCAGGATCAGCCAATAAGTCCGGCTATGGTAAAACCGGCGGAAAAAAACGCTGACACTGCCGCAGACAACGCTCAATTAACAAGGAAAACAGAAGAATGGCTGATAGAATTATTTTCTGAAGAGCTGCGGATTGACCAGGATCAGCTTGAGACAGACGTATTATTCCAAGATTACGGAGTGGACTCCATTATCCTTGCTCAGCTTCTGCAGCGGATCAACCGGAATCTCTCGGCATCGCTTGACCCGTCCATTCTGTATGAATATCCGACGATTCAATCTTTCGCAAATTGGCTTCTCGAAGGATATACAGAAGTTTTGTCAGAACGGTTTGATTTGGCGGCGGAGCCTGTTATGAAGAAGCCGGCTGAGCCGGTGATTGAAACACAAGCCGTTAAGGTGCAAGAAGAGGCGGCCGGAAAACAGATTCACCGGGAAGATATCGCGGTCGTCGGCATGTCCTGCCGGTTTCCGGGGGCGGCTTCCTTAGAGGCGTACTGGTCGCTTTTGGCTGAAGGCCGTTCGGCTATCGGTCCTGTTCCGGCTGAGCGATGGGGGTTGAAGACGCCTTATTACGCGGGAATGCTTGATGGAATTCATCAATTTGATCCGGACTTCTTTTTACTGGCAGAAGAAGATGTAAAGGCAATGGACCCTCAAGCTTTGGCCGCTCTGGAAGAATGCCTTAACCTGTGGTATCACGCTGGCTATACGCCGGATGAGATAAAGGGAGAAGCAATAGGTGTGTATCTCGGCGGACGCAGCCGTCACAAACCGGGTGAAGAGAAACTGCTGGATGCGAAAAACCCGATCGTCGCGCTGGGCCAGAATTATTTGGCCGCAAATCTCTCTCAATATTTTGATATGCGCGGCCCGAGTGTTGTCCTCGATACGGCTTGTTCTTCTGCTTTAGTCGGCATGAATATGGCCGTGCAGGCTCTTGTAACAGGAGAAATAAAAGCGGCCGTCGTCGGCGGCGTGAGCCTATTTGAATCAGAAGAAACCCATAAATTATTTGAACAGCGCGGCATATTAAGTAAAGCGCAATCGTTCCATGTATTTGACGAACGCGCCGATGGAGTCGTGCTGGGCGAGGGTGTCGGAATGGTTCTTTTAAAAACCGTGTCTCAGGCGATTGAAGACGGAGATTCTATTTATGCCGTAGTGAAGGCGGCATCCGTCAATAATGACGGAAGAACGGCAGGCCCGGCTACGCCGAGTCTGGAAGCGCAAAAATCCGTCATGAAGACGGCTCTTGAAAAAAGCGGAAAACAGCCGGAAGACATTACTCATATTGAAGCGAACGGTTCAGGCACGGTCGTGACGGATCTGTTAGAACTGAAGGCCATTCAATCCGTCTACCGTTCAAAAGACGCCGGCCCGCTCGGAATCGGATCTGTGAAACCGAACATCGGGCACCCGCTTTGCGCGGAAGGAATTGCAAGTTTCATAAAAGTTGTTCTCATGCTGAAAGAAAAGAGCTTTATCCCGTTTTTATCAGGCGAGCATGAAAATACACATTTTGATAGAGAAAAGGCCAATATTCAGTTCAGCCGCACTCTGGCAGACTGGCCGTCACCAATACCGGCGGCAGGAATTAACTGTTTTGCCGACGGCGGAACAAACGCCCACGTCATTGTGGAAGCGTGGCAGGAAGACGAAGGGCGCCCAATCAAGCGCCATCCTTTAACACCGCCTGCATTAAATAAGCGGCTGATTTCGCCGGACAGCAAAGAAGAAACGAACGAAAAAGCTGCGGCAAACATCTGGAATACCTATGAAGTGGAGGTTTAA	MKSDMKASGLLKPSVSYGKSLRLSADQPMTIPEVLHKTAAAAGDQKGITYIQPDGTKVYQTYSGLKKIALSIVKGLRQSGVKAQDEVILQLSDNSQLIPAFWGCVFLGAIPVPLAAAPAYTEMNSGTQKLKDAWMLLNQPYVITSRDVLPEMTEWAEEQELSGFCALAAEDLSAHEMDTDCHHPRPEDLAMLLLTSGSTGTPKAVMLSHENIVCMVKGNIQMQGYTSEDVTFNWMPFDHVGGIGMLHLRDVYLGCEEINIPSESILMDPLKWLDLIDHYRASVTWAPNFAFGLLADFAEEIQTRKWDLSSMRYMLNGGEAAVAKVGRRIMELLEPHGLPANAIRPAWGMSETSSGVIFSDEFTLENTSDDDRFVEIGLPIPGFNMRITDDRNQVVEEGEIGRFQVSGLTVTSGYYERPDLNDSVFTEDGWFETGDLGFLREGRLTITGRTKDAIIINGVNYYSHAIESAVEELPEIETSYTAACAVRPNQSTTDELAIFFVTSVPLDKSRMTKLLHHIHQHVTQRIGVTPDYLLPVAKEDIPKTAIGKIQRTQLKHSFEQGQFDSLHNNRQEGGNSDTASAEKEIERDFIRFLKEELSIADELVDPNTPFQSLGVNSIKMMKLARSIEKTYHIRLTARELHKNPTIGALAAYTAEKAANMSAEHHSQKAEPPAERERRQMAPALSEVQKGLWTLQKLSPETTAYHVPLCFRFTSGIDKEKLKQAFQFVLKQHPMLKSAVNETDGGLYFIEAADPFVFSEEDISDVNESQISALIRKKVKEPFVKEGGPLLRVQLLSKSAEEHYLLTVIHHIVFDGISSITFIHSLLDHYQALLEGKEEFTAAAPGIHPDFATWEKRYLAGEESKAARAYWMKQLGGDLPDLQFPPMRTDSSVPEFTEDTLTRRLPERLLNNITAFAASRSIHLSTVMLSCYMVLLSKYTDKEDVVTGMPAMVRPEERFDGVVGHFLNMLPIRSRAGRKETFADFVQKVQDAVLDGLDHSFYPFPKMVRDVHAKPRQNGSPVFSNAFFYQNFLQHSSYQSMLDEYKGFSCEFVKDIHQEGEYDLVFEMWEEASGMDLTIKYSTELFDEAGAARLFSQFVQAAEALTANPDMPLENVSLMTKREEHMILKTWNETSREYPDACFHELFERQAAETPDACAVVYEQQKLTYRELDEKSTKLALYLQAHGAGPDDLIGIYTDRSLHMAVGLLGILKAGGAYVPLDPSYPADRLEYMITDSRISMCLTTADLEHSLNWGGVQTTAIDRDWSHIESTAAERTSLKRLVTPDDLAYVIYTSGSTGKPKGVMIPHRALTNFLISMAHEPGLSSEDKLLAVTTYCFDIAALELYLPLIKGAECNICKTEVTKDARKLKELIQEYKPTIMQATPFTWKMLFHSGWSNEEKVKILCGGEALSEQLKQQFLDTKSEAWNMFGPTETTIWSAVQRITENESALTIGRPIANTRVYIMDSGLNPVLEGVPGELCIAGDGLARGYFNKPELTDKAFVSHRLELGSKLYKTGDMARFLPGGRIEYMGRMDTQVKIRGYRIEPGDIESRLNAHPAVQESVVVVNNHSGNEKLCAFYILKNGEPLPSAKELRNHLKQALPAYMTPASFIRLEELPLTPNGKVDRKLLAARDLTEKQPDTQTFSSSHIQQAVLAIWQDVLKSKDIELDDRFFDAGGDSLLAVTVTERMTQELDCEFSVTELFEYATVKDISRYITEQKPKEAVLAPVPQKKVNTVDREHPAGEFPDYYEDSLAVIGISCEFPGAKDHYEFWNNIKEGKESITFFSKEELRRSGISEELADHPGFVPAKSVLEGKEMFDPGFFGFSPKDAEYMDPQLRMLLLHSWKAIEDAGYISKEIPETSVYMSASTNSYRSLLPEETTAQLETPDGYVSWVLAQSGTIPTMISHKLGLKGPSYFVHANCSSSLIGLHSAFQSLQSGEAKYALVGGATLHTESSAGYVHQPGLNFSSDGHIKAFDAAADGMIGGEGAGAVLLKKASDAVKDGDHIYALLRGIGVNNDGADKVGFYAPSVKGQAEVIQKVIDQTGIHPETIAYVEAHGTGTKLGDPIELSALQSVYGRYTDKKQYCGIGSVKTNLGHLDTAAGMAGCIKVVMSLYHQEIAPSINYKEPNPNLHLEDSPFYVAEEKKELTRENRAHRMALSSFGLGGTNTHAIFEQYPDASEAADAAGPFIIPLSARKKDRLKEYAKQLLAFLERKTDADLADLAYTFQVGREAMEERAAFITSGTAELKRQLADFINDKPAVTGCFRGEKQQAKDIAWLSDDDDSAELIEKWLAKGKGPKLCEMWSKGVAINWHKLYKDKHPKRISVPVYPFAKEPYWPKKAEKKTSAAHTGVSVLHPLVQQNTSDLTLQRFSSRFTGSEFFLKDHVIREKAVLPGAAYLEMSYEAVKRALGGLLKDQDRITLHHTVWMKPIVVHEQERQVHIALFPEEDGIISYDIYSINADDEEVLHSQGRAEIIKAKREPERDLSAIQNRCTADILDPAVFYREGRSRGMFHGKAFQGIKSAFIGEKEVLSDIQLPDSVSHTNGQFTLHPSIIDSAIQTATICIMQEFSGQKLILPFALEYLEVVKACTPIMRAHARFNEGYQTGDSVQKADIDLFDETGALCVKVRGFSTRVLEGDAESAQRLSGSEKVLFAPVWKEAAASEKASVHADEHLIILCEDACRIKDEAASGLKDAELLIAEGEGETAAERFQSYAQTIAEHIRRIISEKRQGRILIQTVISADGSQQLFAGLTGLLKTAELEYGKLDCQLIEMESIGEMPAVAQKLKNDSHRPHDKHIRYKGDKRYVKAWEEVHPAGGGTVWKDEGVYLITGGTGSLGLMFAKEIAGRVKHPKIILTGRSNLTEAKQRELAMLQHSGANVVYKKLNAADRRENEALIKEITADFGKLNGIIHAAGVIQDRFLLQKTKEEFREVLDPKVIGTAYLDEASKDCNLDFFVLFSSVSGILGNIGQADYAAGNAFMDAYAAYRQSLTENGLRHGKTVAFNWTLWKDGGMQAGDETERMMKKAFGMVPLQKASGLAAFYEGMAQEKPQLLAAEGHAAKLKQSFLSVSETEKPQVEKIEPVSAVSGDKWHGALIRLVSSILKVGQDEIDIDTELSEYGFDSVSFTVFTNQLNEAYQLELAPTIFFEHGTIRSLAEYLTDEAEAGLPSQPEEKHDAEESLQTLQTALTDMVSGILKVDREDIETDTELSEYGFDSVSFTVFTNQLNEAYQLELAPTIFFEYGTISGLAGYLAKEHPGRFGEKKKESPKKEQPKAQKSKMQRKKRFATVMNAAAATQEPRRLDTVAIVGISGRFPGAKDIEEFWRNLKEGKDSITTIPKERWDWQAFDGDPNLEGNKTNIKWGGFIDGIAEFDPLFFGISPREAQYLDPQQRLLLTYAWLAIEDAGCKPESLSGTNTGVFIGTGNTGYKDLFTRAGLAPEGHAATGSMIPSIGPNRLSYLLNLHGPSEPIETACSSSLVAIHRAVSAIENGECDMAIAGGINTILTEEAHISYSKAGMLSKDGKCKTFSKDANGYVRGEGAGILMLKKLTDAERDGNPIYGVIRGTAENHGGRANTLTSPNPKLQADLLVKAYRKAGVDPSTVTYIEAHGTGTELGDPIEINGLKAAFHELAKTNQEPEVFGHRCGIGSVKSNIGHLELAAGVSGVMKVLLQMKHKTLVKSLHCETINPYIQLDDSPFYIVRENQEWTAAKDRNGNAIPRRAGVSSFGIGGVNAHIVIEEYVPKAAAQPEHSPENPAIIVLSAKSKEKLFEQARQLQKAIRQTPYTDQDLAGVAYTLQTGRDEMEERLAILAATMAELETKLEAFTKNEKNIAGLYTGQSHRNKDTFALFTADEDMDIVIDAWIKKGKFAKLAEVWVKGGVLNWNRLYEKGTPRLLSLPSYPFAKDTYWVPENPDKKKVHTEERMKRILTKQWEPSPLELGEPCARSVAILTGGDTINLAEEIAAHMPNHRIITGSDLAGEYDWQAFGGVIDLLGAAKEEASEDMTGIKWLQQLIEHGHKEGMTLLCVTKDLESLNKEANQTTGAKRAGLYRMLACEYGHLSSRHLDLEGGLSDDKLAKQIADEFHARTDDAEVCRRNGLRYRAVLSGSENMDMKGERIDFPDNHVLLITGGTRGIGLLCARHFAEHYGVKKLVLTGRETLPPRSEWTGGLNGVTASVKAKIEAVLDLESKGVQVKVLSVPLADEAGLRQELSQIKQTLGPIGGVIHCAGVTDKETLAFIRKTDEDIQRVLEPKVDGLQALYSVLSEEPLKFFVLFSSVSAAIPALSAGQADYAMANAYMDYFANSYKEQLPIVSIQWPNWKETGMGEVTNKAYKESGLYSITNAEGLQLLDGILLESARGPVLPAVLNPELWKPERFLRRSRQDQPISPAMVKPAEKNADTAADNAQLTRKTEEWLIELFSEELRIDQDQLETDVLFQDYGVDSIILAQLLQRINRNLSASLDPSILYEYPTIQSFANWLLEGYTEVLSERFDLAAEPVMKKPAEPVIETQAVKVQEEAAGKQIHREDIAVVGMSCRFPGAASLEAYWSLLAEGRSAIGPVPAERWGLKTPYYAGMLDGIHQFDPDFFLLAEEDVKAMDPQALAALEECLNLWYHAGYTPDEIKGEAIGVYLGGRSRHKPGEEKLLDAKNPIVALGQNYLAANLSQYFDMRGPSVVLDTACSSALVGMNMAVQALVTGEIKAAVVGGVSLFESEETHKLFEQRGILSKAQSFHVFDERADGVVLGEGVGMVLLKTVSQAIEDGDSIYAVVKAASVNNDGRTAGPATPSLEAQKSVMKTALEKSGKQPEDITHIEANGSGTVVTDLLELKAIQSVYRSKDAGPLGIGSVKPNIGHPLCAEGIASFIKVVLMLKEKSFIPFLSGEHENTHFDREKANIQFSRTLADWPSPIPAAGINCFADGGTNAHVIVEAWQEDEGRPIKRHPLTPPALNKRLISPDSKEETNEKAAANIWNTYEVEV	PGPT0010150_39	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010150-baeJ|pksJ|dfnH-K13611	NA	NA
D1-12_00897	13410	pksL	COG3321	Polyketide synthase PksL	GTGAAGAACTTCAATAAGCAAATCACTTTATCGCTGAAAAATCCGTTTATTTTACATCATGACGTTTACGGACAAAAAGTCCTTCCGGGATTGGCTTATATTGATATGTTTTATCAGATTTTCAAAGAGCGCGGCTATTCATACGACGGGCTTCAGCTGCGCCATTTATCCATATATCAGCCGCTTATTGCGAAAGAAGACAGCGCCGTCAAGCTTACGGTTGAATGTACAAAGGTAAAAGAAGGGCGCTGGAAACTTACCGTAAAAGGGGCTGAGGTCAGCGGCGGACGAGTCCAGCCGGAAGAACGCATTTACGTCAAAGCGGAAATGCACGAGACGGGACCCGCAGTTTTCAGTGACACGATTGATCTTGACTCTGTCAAACGCGAGGCGGAACGCACCATCGATTTAAATGAGCTGTATGCACAATGCAGAAGCCAGGAATTGGTTCACAGCGGATATATGAAAGCAGAAGGAGAAGTGTTTGAGGAGCGGGACGGCGTCACCTTTGATGTATCGCTCGGAAAAGACGCGATGGGACAGGCCGGGGGGTTTTTGTTCCATCCGACTCTTCTTGACGGAAGCGGCGTCGGCGCAAACCTATTGATCTCATCGCTGTTAAATGGGGAAAAGAGGCTGTTTCTGCCTCTTTTCTACGAATCTTTTACAGCTTCCGAACCTTTGCAGGCCGGCTGCATCACGAGAATCAAACGTTCGTCGCTTCGGCAGGAAAAGGAGCTCATTTACATTACAATGGAGTTTTTTAACGCTTCCGGCCGGAAAGTAGCCGAGCTGAAAGATTTCACAAGCAAGCTCGTGCGGGATGCCGAGCTGATCAATACAGACCGTAAGCCTGCTGAGAAGTCTCCTGAAAAAGCCGGTTTACCGGAAGTTGCGGCATCGCTTGAAGGCGGACACCCGCATGAGGAAGCAGAGCGGTATGTCATGAATCTGATGGCGGAAAAAATCGGCAAGCCGCTTGAACAGATTGATTCTCAAGTCGGCTACTATGAAATGGGGCTGACATCGTCCGGATTGCTTGATGTCGTCGAAACGATCAGCGAAAAAATCGGCGAAACCCTTTCTCCGACTTTGCTGTTTGAATATACGACAGCAGCAGAGCTGGCAGCTTTCCTGACTGAGCAGTACGAGAGCCATTTCAGCGCGCCTCCGGCAAAAATGGAGAAGCCGGTTGAGCCGCAAACAGAGAGAAGACGGAAAAGCAGTGTTCCGCAAGATGAAGATATCGCCATTATCGGCATGGCCGGCCGCTATCCGCAGGCCGAAAATATTCATGAATTCTGGGAAAACCTGAAAGAAGGAAAAAACTGTGTCACCGAAATTCCGGAGTCTCGCTGGGACTGGCGCCGGTTTGAAAATGTAAAGTCGCCTTCCGGAAAGAGCATTTCAAAATGGGGCGGATTTATTGATGATCCGGATTGCTTTGATCCCCAATTTTTCCGGATTACGCCGCGGGAAGCTGAAACAATGGACCCTCAGGAACGGCTGTTTTTACAAACATGCTGGGAAACGATTGAGGATGCCGGATATACGCCGAAGTCGCTCGCAGAGGCGCGCGGACGGAATAAGAGACAGCGCGTTGGCGTCTTCGCAGGGGTGATGCATAAGGATTATACGTTGGTCGGGGCTGAAGCTTCTTCTGAAGATCATGTATTCCCGCTTTCTCTTAATTATGCGCAAATCGCAAACAGAGTTTCATATTTTTGCAATTTTCACGGGCCGAGCATGGCGGTCGATACGGTCTGTTCATCTTCGCTGACTGCGGTTCACCTTGCTGCGGAAAGCATTCGGCGCGGGGAATGTGAATCGGCAGTTGCCGGAGGCGTCAACTTGTCGCTGCATCCGAATAAATATCTGACATACGGTTTATGGGACATGTTTTCAACAGACGGGGTTTGTCATACATTCGGGAAAGACGGAGACGGCTATGTACCGGCTGAAGGAATCGGTGCCGTTTTATTAAAACCGCTGCGAGAGGCGGTAAAAGACGGAGACCGGATTTATGCGGTGATAAAGGGCAGTGCCGTCAATCACGTGGGGACAGTGAGCGGAATTTCCGTGCCGAGCCCTGTCGCGCAGGCCGATTTGATTGAAGAATGCCTGGACAAAGCGGGCATCGATCCGCGCACGGTCAGTTATATTGAGGCGCACGGGACGGGAACTTCTCTCGGCGATCCGATTGAGGTTCAAGGCCTTGTCAAGGCGTTCCGGCAGTACACACAGGACAAACAGTTCTGTTCGATCGGATCAGTGAAGTCCAATATCGGCCATGCGGAATCGGCGGCGGGCATCAGCGGCTTAAGCAAGGTTGCCCTGCAGCTTCACCATAAAACTTTGGTGCCGTCTCTTCATTCCGAGGAGCTGAATCCGTATTTAGATTTTGAACAATCACCGTTTTACGTCCAGCATCATACCGAAGAATGGCATCAGCCCTCAGTGACGGAAAACGGAAATGAGACCGTATATCCCCGGCGTGCAGGCATCAGTTCTTTCGGGGCGACAGGTTCAAACGTGCATCTCATTCTGGAGGAATTTATCCCTGAAGAATCACACGGAACAGTGGCTGAACCGGCAGAAGAACAGACATTCATTTTTCCGGTTTCAGCCCGGAATGAAGAACGGCTAAAAGAGTATGTTGCGAAGCTGTCTGCATTTATTCATCCCGGCCTGCCGCTTGAGGATGCGGCGTATACACTTCAGATCGGCCGTGAACAGATGGAGGAGCGGGTTGCGTTTACCGCTCAGAATATGACACAGCTCAAAGAGCGGCTGAAGGGCTTTCTGGCGGGTAAAACGGTCAGCGGGTGCTGGCGGAACCGAGCCGATAAAAGCAAACAGGCAGAGCTTGCTCCGGACTTGATACATAAATGGCTTTCTTCCGGGAGTCTGGGGATGATTGCCGAAAAGTGGGCCGGCGGAGGAACGATGGATTGGAATCTCTTGTACGGTGAAAACAAACCGAATCGGATCAGCCTGCCGACATATCCGTTTGAAAAAATCCGGTATTGGGTGCCGAAGGCGGAGAAAAGAGAATCGCTGCCGCAAAAAAGGGCAGGCATGCTGCATCCGCTCCTTCGTGAAAATGTATCAAACATGTCAGGCGTCCGTTTTCGGTCCTCTTTTAGCGGCGGAGAATTTTTCCTGAAAGATCACGTCGTCAAAAACGAGCGGACGTTACCGGGCGCGGCTTATCTGGAAATGGTTCGGGCGGCCGTGGAACACGCGGCAGAAACGAAGGAAGAAGGAACAGTCCGGCTGAAACATGTCGTATGGATACGTCCGTTTACAGCGGCGGATGAGTCCGCAGAACTGTATCTCCGCCTTTATGACGAAGAAAATGGGGAGATGGGATTTACGGTTTACAGTGAATCGGCTTCCTCGGAAGAAGAGCCCGTTCTCTATGCGCAAGGAAGCGCGGCATTTGTCCGAGCGGGCGAACCGGCCAAAATCGAGATTGACAAATTAAGAGAGTCACGCCGTCTGATCACACCTGACGCTTGCTATCAGGCATACAAACAGATGGGGATTGAATACGGGGATGCTCACAAAGCGGTCACGGAAATCTATGCAAACGACAGCAAAGTGCTCGCAAAGCTCTCACTCCCGTCATCTATTTCTCATACAAAAGATCAGTTTGTCCTCCATCCGAGCCTTTTGGATGCGGCCTTCCACGCGACAATCGGGTTAATGCTTGACAGAGACGGGACTGACATACGGCCGATGCTGCCGTTTGCTCTCGAACAGATCGATGTGTTGAAAAGCTGTAAAAGTGATATGTGGGTATCCATTGCGTACAGCGGCGAAAGCAAGCCTGAAGATGCTGTGCAGAAGCTGGATATTGATTTGTGTGACGAACAAGGCAATGTATGTGTGAAAATGACTGGTTATTCCGCACGGGAAATTGAAACGGATAAAACAGATACACTATTTTTTGAACACGTATGGGAAGAGAAGGCCGCTGTACATGAAAAAGCGCCGATCCATTTCAAAGCCCGTCACGTGATGATATCTGACCGGTTTACGGACCAAATGAACAGCATACAGACAGACTTCAGCTGTCATGTGCTCCGTGATCAGCATAAGAGTGAAGACGAACGGTTTGAAGCTTGTGCGCTTCAGGCGTTCGAAGAAGTGAAGAAAATCCTCGCTTCAAATTCCGGCGGGCGCGAGCTCATTCAGATTGTCGTGCCTCAAGAAGCGGATACGCAGCTCCTTTGCGGCTTAACGGGGCTTTTGAAAACAGCGGCGCTTGAAAACCCGAACCTGACCGGCCAGCTGATTGAAGCGGAACCGGACGTCAAGGCAGACACGCTGTCCCGATATGTAAAAGAATGCAGCGCTCATCCTGATGACAAGCATATTCGCTATGAAAACGGCAAGCGCTATACGGCACAATGGCAGGAAATAGGGCTGGAACAGTTCGGCGCCGAAAAGCCGTGGAAGGATAAAGGTGTTTATCTGATCACAGGCGGTGCTGGCGGACTCGGATTTTTATTCGCCAAAGAAATCGCCCGGCATGCAAAAGACGCCGTTCTTATTTTAACGGGGCGTTCTCTGTTGGATAACCGTAAAAAAACCCAGCTTCAAGAACTGTCCGATCTCGGCGCGCAAGCTGTGTACAAACAAACGGACATGACGGAAAAACAAGAAGTTCAATCGCTCACAGCGGACATCTGTCGGCAGTACGGCGGATTAAACGGTATCATACACAGCGCCGGAACGATAAAAGACAACTATATTCTGAAAAAGCACAAAGATGAGATCCGTGATGTACTGGCGCCGAAAGTCTCCGGACTGGTTCATCTGGATGAAGCGGCAAAGGACATTGAGCTGGATTTTCTGATTCTTTTCTCTTCCGGAGCCGGAAGCGCCGGAAGCGCGGGTCAGGCTGATTATGCGATGGCCAATGCGTTTATGAACGCCTTCAGTGAAAAAAGAAACCGTAAAAAAGCCCGAAATGAACGCTATGGACACACCCTTTCAATCTGCTGGCCGCTTTGGAAAGACGGCGGCATGACGGTTGATGCTGAAACGGAAGCCATGCTGACAAAAGAAAGCGGCATGGTCCCTATGCAAACAGAAAACGGCATTCAGGCTTTGTACCGCGGGTGGGCGGCAAACACATCCCAAGTCATGGTGACGGAAGGCTACGCCGCAAAAATCCGGGCGTTTCTGAAAAAATCAGCGGATCAGCCGGATAAGGGCAGCGAAACCGAAGAAACGGCAGGTCTTACAGCGGGCGGAGAGAACATGCTTGCAGAAAAAACGGAGCATTTCTTGAAACAAGTGCTTTCGGAAGTGACCAAACTTCCTGTCGGCAAAATTGACGCCAAGGCGCCTATGGAAGATTACGGTATTGATTCGATTATGATTATGCATTTGACGGGCCGGCTGGAAAAGAGCTTCGGTTCATTGTCAAAAACATTGTTTTTCGAGTATCAGAATATCGAATCGCTGGCGCAGTATTTTATGAAAGCACACCGGGACACGCTGCTGGAAGTGACCGAGATGAAAACAGAAGAAACCCCTGCAGCCAAACCGGCGCTGTCTGAGAAAGCGAAAGTAAAGCCCGTTTTCAAACGGAATGAAGGCAAAAAAGGCTTTGCGCAAGTCCGTCTAGACACGCGGGAAAATCCAGTGACGGAGCGTGAAGATATCGCGATTATCGGTATGTCAGGACGATATCCGCAGGCCGAAAATCTTCAGGAATTTTGGAAGAACTTGAGTGAAGGCACTGACTGCATAACCGAAATTCCAAACGATCGCTGGGATCACAGTCTTTATTACGACGCTGATAAAGATAAAGAAGGCAAGACGTACGGAAAATGGGGAGGATTTTTGAAAGACGTGGACAAATTTGATCCGCAATTCTTCTCTATTTCGCCCCGGGATGCAAAATTGATGGACCCGCAGGAGCGGTTATTCCTGCAGTGTGTCTACGAAACGATGGAAGATGCCGGTTACACGCGCAAAAAGCTCACGGAAAAATCGGGTGATTTGCTTGGCGCCAATGTCGGTGTTTACGTCGGCGTCATGTATGAGGAATATCAGCTTTACGGAGCAGAAGAACAGGCGCGCGGAAAATCGCTTGCGCTGACCGGAAATCCGTCATCAATTGCGAACAGGGCTTCCTATGTATTCGGTTTTAACGGCCCGAGCATGGCTCTGGATACGATGTGCTCTTCTTCTTTAACAGCCATTCATCTGGCATGCCAAAGCTTGCGGAACGGGGAATGCGAAGCAGCATTTGCCGGGGGCGTCAATGTATCCGTTCATCCGAATAAATATTTGATGCTCGGCCAGAACAGATTTTTATCAAGCAAAGGCAGATGTGAAAGTTTCGGAGAAGGCGGGGACGGTTATGTGCCCGGTGAAGGAGTGGGAGCCGTACTCCTTAAGCCGCTTTCTAAAGCAAAAGCGGACGGTGATCATATTTACGGTCTGATCAAAGGAACGGCCGTGAACCATGATGGAAAAACAAACGGGTATTCCGTACCGAATCCGAACGCCCAAGCCGCGGTGATCAAACAGGCGTTAAAAGACGCGGGAACCGATCCGAGGGCGGTCAGCTACATCGAAGCCCACGGCACCGGAACTTCACTCGGCGATCCGATTGAAATCACGGGTCTGACAAAAGCCTTTTCAGAACAAACACAAGATAAACAATTTTGTGCCATCGGCTCAGCGAAATCCAATATCGGGCACTGTGAAAGCGCGGCGGGCATCGCGGGTCTGACGAAGGTGCTCCTGCAAATGAAACATAAGCAGCTTGCACCGTCACTGCATTCCCGGACGCTTAACCCGAATATTGATTTTCTCGCTACGCCGTTTAAAGTGCAGCAGACGCTTGAAGAGTGGAAAAGACCGGTCATAAATGAAAACGGAATAAATAAAGAATTGCCGAGAACCGCGGGGCTTTCCTCATTCGGAGCCGGCGGCGTCAACGCTCATATCGTCATCGAAGAATATTCCGCTGATGAGGATAAGGAGACGGCTTTTGCCGCGCCTCATCCGTCGATGATCGTCCTTTCCGCGAAAAATGAGAAACGGCTTCAAAAACGGGCGGAACGTCTTCTTGATGCACTGCGGAGCGGGCGTTACCGGGAAGCGGATCTGAGCCGGATCGCATACACGCTTCAAATCGGCCGTGAACCGATGGAAGAGCGTCTCGGAATGATTGTCAGCAATTTGCGCGAGCTTGAAGAGAAGCTTGACGAATTTACGGGCGGCAAGGAGTCAATTGACCAGCTCTACCGCGGACAAGTCAAACAGAATAAAGACACGATGGCGCTGTTTGCGGCTGATGAGGACATGGAAAAAACCATTGAGGCATGGCTTGAAAAAGGCAAAGCCGCAAAGGTATTAGAGCTTTGGGTGAAGGGCCTTCCGCTGAATTGGGATAAGTTGTATCAAATGGGCAGACCGCAAAAAATCAGTCTCCCGGCCTACCCGTTTGCAAAAGACCGTTATTGGATCGACATATCAGCAGATGCAGCTGTCAAAAAACCGGCCGAAACACAGTCTGCGCCGATCGCACCGGCGGCCGCACCCGAACCGGTCATTGAAGTAACAACTCTTCATGAGGAGACTGCCAAAGAAAAACCGTCAAACATTTCATTGCAGCCTTTGAGCGGCGCGAAACCGAAAATAACCCAGTCTGTTTCCCGTCCGGCGGTTTCCGCTGAGAAAGTAAGTGCCGTATTGACCGAAAGTTTGGCAGACATTTTATATATGGATGCCGACGATATCGACGCAGACGACACATTTATTGATATCGGCATGGATTCAATTACCGGTCTTGAATGGATAAAGGCTGTTAATAAAACGTACGGCACGTCCCTTACGGTGACGAAAGTATATGATTATCCGACAATTCGCCAGTTTGCGGCTTTCTTGCAAAAAAAGCTCGGGACAGAACCGATCCTTGAGGAAGCAACCGAACCGCAGAAAACAGAGGCCGTGAAAAAACCGTCAAACATACTGCTGCAGCCTTTAAACGCTCATAAGCAGCATGTGATACAAGCAGAAGCGGATATTCTGGAGGCGATGTCTGAAACGGCAGCTTCCGCCGAACCGGAAGAACCGATTGAAGCGGTGCATGACGAGTTATCAAAAGCACTGGCTGATGTATTGTACATGGAGCGGCATGAAGTAGATATTGATGAGGCCTTTATTGACTTGGGTATGGATTCGATTACCGGTCTTGAATGGATAAAGGCCGTCAATAAACGGTACGGCACGGACTGTAACGTAACGAAAGTGTATGATTATCCGACAATCCGCCAATTTGCCGATTTTCTGCGTACGCAGCCGTCCGTCCGCGGAAGAAAAAAACAGGCGGTTCCCGTACGTCCAAAGCCGCTTACGCAGCAACACGCCCTGCAGAAGAAAACACCTGCCGAGCCTGAGAGATTAACGGTTCAAAAGGAACCTGAACCGGTGCAGGCCAAACGGGAGCCTAAAGACGAGATAGCGGACGCGATAGCCATCGTCGGCATGTCGGGCAAGTACCCGGATGCGCCGGACCTAAAGACGTATTGGGACAACTTAGCCCGTGCGAAAAATGCCATTCGCGACATCCCGCTTTCCCGCTGGGATGTAGACAAATACTATGATCCGGCCTTAAACAAGAAGGGCAAAGTATACTGCAGATCAATCGGTATGCTTGACGGCATTGAAGAATTTGATCCGCTGTTCTTTAATATTTCTCCGTCTGAAGCGGAACTTATGGACCCGCAGCACCGGATATTTTTACAGGAAGGTTTTAAAGCCTTTGAAGATGCGGGTTACAGCTCAAAAGAATTAAACGGGAAAAATTGCGGCGTTTATTTGGGGATTATGAACAATGAATACGGCATGATGTTAAACAAACATCAGACAGGAGGAAGCGCGACGGGCAACAGTTTCAGCATCGCGGCGGCCCGCCTGCCTTATTATCTCAATTTGAAAGGGCCGGCCATTCCGGTTGATACGGCATGCTCTTCATCTCTCGTCGGGACTCATTTGGCGCGTCAGGCGCTGTTGAATCATGAAATTGACATGGCGCTTGTCGGCGGCGTGACCTTGTATTTAACGCCTGAATCATACATCAGCATGTGTGAAGCCGGAATGCTGTCTCCTGACGGCCAATGTAAAGCATTTGATAACAGTGCGAACGGATTTGTGCCCGGCGAAGGCGCGGGGGCGCTCGTTTTGAAGAGGCTGAAAGATGCGGAAGCCGATCAAGACCATATTTACGGAGTCATTATCGGATCTGGAATTAACCAGGACGGAAAAACCAACGGCATTACCGCACCAAGCGCGAAAAGCCAAATGGATTTAGAGCGCCAAGTGTATGAAGCGCACAACATCCACCCTGAGAGCATCACCTATGCGGAAATGCACGGCACCGGCACAAAGCAGGGGGATCCGGTTGAATTAGAAGCCCTGTCTTCTGTATTTAAGGAAAAAACGGACCGCAAACAATTTTGCGCCATCGGTTCGGTTAAATCGAATATTGGGCATACGTCGGCGGCGGCAGGTGTAGCAAGCGTCCAGAAGGTTCTGCTGTCGATGAAGCATCAGCAGCTTGTGCCGACCCTTCATTTCAGCACGCCGAATGAACATTTTGATTTCGATGACTCGCCTTTATTTGTCAATACCGAACTCAAACCTTGGGAAACAGGCGGAGCACCGCGGCGGGCCTGTGTCAGCTCATTCGGCTACAGCGGCACAAACGCTCATCTCGTTATCGAAGAGTATCAGCCGAAAGACAGGGGAAGCCGTAAGTCTGATGAGACAAACATTTTTGTGCTGTCGGCGAAAAAAGCGCCGCAGGTAAAAACCTATGCCGAGTCTGTGATCGAATTTGCAAAAGCCAATCAGAATATCAATCTTTCAGATATGGCGTACACGCTTCAAACCGGGCGTGATGCGATGGATTACCGTCTTGCGGTTACAGCCGGTTCGAGAGAAGAACTGATCAGCCGTTTAACCGATTTTGTAAACGGAAATACGGGTGAAGGGATATATGAAGCCCATATCAAAACGGCTAAAAAAGAACTCAAAGCATTTGAAACGGACGATGATCTGAAGCAGCTTGTCAGGTCATGGTTCGATAAGAAAAAATACGCCAAAATAGCGGAATTGTGGGCCAAAGGCCTTCAGATGGACTGGGAAAGACTCTATCAAGGCGAAAAACCCCGCAGAATCAGTCTTCCGGCTTACCCATTTGCGAAGGAGCCGTACTGGCTGCCTGAGCCGAAAGCCGCATCGCAGGAAACAGAAGACCGGCGCGAGGCTGTGCTTTTAGAAAAGCAATGGGTTCCGTGTGAGATCGATTCGGCCGGTGAGAAAAGCGGCAGGACGGTCATGATTCTGGCTGATGAAAGAACAGCGGAGCTAGCCGAAGAGACTGCGAAGCATTTCACTGACTCGTTCATTCTCCCGGTCGATTCTGCTGATACTGCAGCTAGCGATTGGAATCACATAGATGGCGCAATCGATCTGACGGGATGCGGAGACGAAGACCCTTCACTGAAAGGGATCAGCCGGCTCCAGACTCTGATTGATACAAGCCGCCGGCAAGCGCGGCCGCTGACGCTGCTATATGTAACAAAAGGATTGGAGCCATTTCAGCAGAAAACGATTCATCTTGCAGGAGCGGCAAAAAGCGGCCTGTACAGAATGCTTCAAAATGAGTATCAAAACGTGACGTCAAGACACATGGATGCCGATACAGATACGGATCAGCAGACGCTTGCCAAACAGATTGCAGATGAATTTTCGGCGGACAGCACAGAACCGGAAATCTGCCGCCGAAACGGACAGAGATACCGTGCTTTATTCAGGGAGATTCCAAGCGGGAAGCGGGCAGAACATAAGCCCGCACCGTTTCCTGAAGACCATGTGCTTTTCATTACCGGAGGCACGAGGGGACTGGGTCTCTTATGCGCCCGCCATTTCACAGAAAAACACGGCGTGAAAAAAGTAGTGCTGACAGGCAGGGAGCCGATTCCTCCCCGCCATGAACGGTCAGCCGTTAATACGAGGCTGAAAGAGAAGATACGGGCGATTGAAGAGATTGAAGCAAAAGGAGTGCAAGTGGCGGTGATCAGTCTGAAATTGTCTGATCATGATGCGGCGGCAGCGGAAATTGAAACGATCCGGCGCACGATGGGACCGATCGGCGGCGTCATTCACTGTGCGGGATCGGTTAATTCAGTAAATCCGGCGTTTATCAGAAAGACTGCCGACGATATACAAGAAGTGCTGGAACCGAAAGTCGCAGGGCTTCAAACATTAAGCAGCCTTTTCACAAATGATCCTTTGCAATTTTTTGTCTTATTTTCTTCAGTATCTGCAGTCGTTCCGGCGCTCGCGGCGGGACAGTCGGATTATGCGATGGCAAATGCGTACATGGATTATTTCGCGGCGGCTCATCAGCATCAATATCCGTTAGTCAGCATTCAATGGCCGAACTGGAAGGAAACCGGATTGGGTGAAGTCCGCACAGAAAGCCTGAAGCAAACCGGGCTGCTGGGACTGTCCAACGCGGAAGGCCTTGACTTGCTGGACCGCATTTTATCTGAAAACATCCGCCCGTCCGTTCTGCCGGCTATCATTGATCGGAGCGAATGGCATCCTGACAGGCTGCTCTGTCTAGAGAAAACACAAAAAGCCGTAATAACCGGCAAAGCCGCGGAAAAACATTCAGACAGAGAACTGCTTCTTGATACGAAGGCGTGGCTTGTGAAATTGTTTTCCGATGAGCTGAAAATCGCTCCGGAAGAACTGGAAACAGACGAACCGTTTCAGGATTACGGGGTTGATTCGATCATTTTAGCGCAGCTTTTACAGCAAATGAATCAAGCGCTCAAAGAGGACTTAGACCCATCTGTTTTATATGAACATCCGACGATTGACGCGTTTGCCGAATGGCTTGTATCCAATGGGCAGCCGCTGCTTGCAGAAAGAGAGGAACCTGATACAGAAATCTTGGTTCCGGCTGCCGTACAAACGGTTCACACTGAACAAAAGCGTGATGCCGTAACTGAAGACATTGCCGTCGTCGGAATGAGCTGCCGTTTTCCGGGAGCGGAATCGTTAGACCAATATTGGGACTTGCTGAGAAGCGGCAGGTCCGCAATCGGCTCCGTCCCGGCGGAACGTTTCGGATATGCAAATCAATACGTTGCGGGATTGATTGACAATATGGATCACTTTGATTCCGAATTCTTTTTCATTCCGGAAAACGACGCGAAAGCGATGGACCCTCAGGCGTTGGCGGTGTTGGAAGAGAGCTTGAAACTTTGGTGCCATGCCGGCTATACCCGTGAAGAAATCAAGGGCATAGAAGCCGGTGTGTATATCGGAGGCCGCAGCCAGCATCAGCCTGATCCTGAAAGTCTTGCGAATACCCGCAACCCGATCGTTGTTGGCGGGCAGAATTATTTAGCGGCAAACGTTTCGCAATTTTTTGATCTGCGCGGGCCGAGCATCGTGCTTGATACGGCTTGTTCATCGGCTTTGACAGGAATGAACATGGCCGTTCAGGCACTGAGAAGCGGCGATATCAAAGCGGCGGTAGTTGGCGGCGTCAGCCTGCTGAACACGGATGCGGCGCACCGGATGTTCCAAGAGCGCGGACTGTTAAACGAAAAACCGGCATTTCACGTATTTGACAAGCGTTCAGGCGGAGTTGTCCTCGGTGAAGGCGTCGGCATGGTGCTGTTAAAAACAGTAAGCCAGGCGCAAAAAGACGGCGACACGATACACGCAGTCATTAAGGCCGCCGCCATGAACAATGACGGCAGAACGGCAGGCCCGTCAGCCCCTAATATGCAGGCGCAAAAAGACGTTATGCAAAGCGCGCTTTTCAAAAGCGGCAAAAAGCCGGAAGACATCACTTATATCGAAGCAAACGGATCGGGTTCCGCGGTGACTGATTTGCTTGAGCTGAAGGCGATTCAATCCGTATACCGCTCAGGTCAGCATGTTCCGCTCGGCATCGGGTCAATTAAGCCGAACATCGGGCATCCGCTTTGCGCAGAAGGCATCGCTAGCTTCATTAAAGTCGTATTAATGCTGAAGCATAAACAAACGGTTCCGTTTCTCTCAGGAGACGAACCGATGCCGCATTTTGATATAACAAAGACAGATTTTCACTTTCATAAAACAGCTGGCGAATGGGATGCAGCCAGACCGTCAGCATCCATCAACTGCTTTGCCGACGGCGGAACGAACGCCCACGTCATTCTGGAAGCTTGGGAAGAAAAAGATACCCGAATGAAAAGAAAGCCGCTGCCGGTACCGTCATTAAGACGTAAGGCTCTGGTAAAAGAACCTGACGTACGAGCGGAGAAACAAGAGCTTCCTGCGAAAAAAATGTTTTGGAAAGCATTTAAATGA	MKNFNKQITLSLKNPFILHHDVYGQKVLPGLAYIDMFYQIFKERGYSYDGLQLRHLSIYQPLIAKEDSAVKLTVECTKVKEGRWKLTVKGAEVSGGRVQPEERIYVKAEMHETGPAVFSDTIDLDSVKREAERTIDLNELYAQCRSQELVHSGYMKAEGEVFEERDGVTFDVSLGKDAMGQAGGFLFHPTLLDGSGVGANLLISSLLNGEKRLFLPLFYESFTASEPLQAGCITRIKRSSLRQEKELIYITMEFFNASGRKVAELKDFTSKLVRDAELINTDRKPAEKSPEKAGLPEVAASLEGGHPHEEAERYVMNLMAEKIGKPLEQIDSQVGYYEMGLTSSGLLDVVETISEKIGETLSPTLLFEYTTAAELAAFLTEQYESHFSAPPAKMEKPVEPQTERRRKSSVPQDEDIAIIGMAGRYPQAENIHEFWENLKEGKNCVTEIPESRWDWRRFENVKSPSGKSISKWGGFIDDPDCFDPQFFRITPREAETMDPQERLFLQTCWETIEDAGYTPKSLAEARGRNKRQRVGVFAGVMHKDYTLVGAEASSEDHVFPLSLNYAQIANRVSYFCNFHGPSMAVDTVCSSSLTAVHLAAESIRRGECESAVAGGVNLSLHPNKYLTYGLWDMFSTDGVCHTFGKDGDGYVPAEGIGAVLLKPLREAVKDGDRIYAVIKGSAVNHVGTVSGISVPSPVAQADLIEECLDKAGIDPRTVSYIEAHGTGTSLGDPIEVQGLVKAFRQYTQDKQFCSIGSVKSNIGHAESAAGISGLSKVALQLHHKTLVPSLHSEELNPYLDFEQSPFYVQHHTEEWHQPSVTENGNETVYPRRAGISSFGATGSNVHLILEEFIPEESHGTVAEPAEEQTFIFPVSARNEERLKEYVAKLSAFIHPGLPLEDAAYTLQIGREQMEERVAFTAQNMTQLKERLKGFLAGKTVSGCWRNRADKSKQAELAPDLIHKWLSSGSLGMIAEKWAGGGTMDWNLLYGENKPNRISLPTYPFEKIRYWVPKAEKRESLPQKRAGMLHPLLRENVSNMSGVRFRSSFSGGEFFLKDHVVKNERTLPGAAYLEMVRAAVEHAAETKEEGTVRLKHVVWIRPFTAADESAELYLRLYDEENGEMGFTVYSESASSEEEPVLYAQGSAAFVRAGEPAKIEIDKLRESRRLITPDACYQAYKQMGIEYGDAHKAVTEIYANDSKVLAKLSLPSSISHTKDQFVLHPSLLDAAFHATIGLMLDRDGTDIRPMLPFALEQIDVLKSCKSDMWVSIAYSGESKPEDAVQKLDIDLCDEQGNVCVKMTGYSAREIETDKTDTLFFEHVWEEKAAVHEKAPIHFKARHVMISDRFTDQMNSIQTDFSCHVLRDQHKSEDERFEACALQAFEEVKKILASNSGGRELIQIVVPQEADTQLLCGLTGLLKTAALENPNLTGQLIEAEPDVKADTLSRYVKECSAHPDDKHIRYENGKRYTAQWQEIGLEQFGAEKPWKDKGVYLITGGAGGLGFLFAKEIARHAKDAVLILTGRSLLDNRKKTQLQELSDLGAQAVYKQTDMTEKQEVQSLTADICRQYGGLNGIIHSAGTIKDNYILKKHKDEIRDVLAPKVSGLVHLDEAAKDIELDFLILFSSGAGSAGSAGQADYAMANAFMNAFSEKRNRKKARNERYGHTLSICWPLWKDGGMTVDAETEAMLTKESGMVPMQTENGIQALYRGWAANTSQVMVTEGYAAKIRAFLKKSADQPDKGSETEETAGLTAGGENMLAEKTEHFLKQVLSEVTKLPVGKIDAKAPMEDYGIDSIMIMHLTGRLEKSFGSLSKTLFFEYQNIESLAQYFMKAHRDTLLEVTEMKTEETPAAKPALSEKAKVKPVFKRNEGKKGFAQVRLDTRENPVTEREDIAIIGMSGRYPQAENLQEFWKNLSEGTDCITEIPNDRWDHSLYYDADKDKEGKTYGKWGGFLKDVDKFDPQFFSISPRDAKLMDPQERLFLQCVYETMEDAGYTRKKLTEKSGDLLGANVGVYVGVMYEEYQLYGAEEQARGKSLALTGNPSSIANRASYVFGFNGPSMALDTMCSSSLTAIHLACQSLRNGECEAAFAGGVNVSVHPNKYLMLGQNRFLSSKGRCESFGEGGDGYVPGEGVGAVLLKPLSKAKADGDHIYGLIKGTAVNHDGKTNGYSVPNPNAQAAVIKQALKDAGTDPRAVSYIEAHGTGTSLGDPIEITGLTKAFSEQTQDKQFCAIGSAKSNIGHCESAAGIAGLTKVLLQMKHKQLAPSLHSRTLNPNIDFLATPFKVQQTLEEWKRPVINENGINKELPRTAGLSSFGAGGVNAHIVIEEYSADEDKETAFAAPHPSMIVLSAKNEKRLQKRAERLLDALRSGRYREADLSRIAYTLQIGREPMEERLGMIVSNLRELEEKLDEFTGGKESIDQLYRGQVKQNKDTMALFAADEDMEKTIEAWLEKGKAAKVLELWVKGLPLNWDKLYQMGRPQKISLPAYPFAKDRYWIDISADAAVKKPAETQSAPIAPAAAPEPVIEVTTLHEETAKEKPSNISLQPLSGAKPKITQSVSRPAVSAEKVSAVLTESLADILYMDADDIDADDTFIDIGMDSITGLEWIKAVNKTYGTSLTVTKVYDYPTIRQFAAFLQKKLGTEPILEEATEPQKTEAVKKPSNILLQPLNAHKQHVIQAEADILEAMSETAASAEPEEPIEAVHDELSKALADVLYMERHEVDIDEAFIDLGMDSITGLEWIKAVNKRYGTDCNVTKVYDYPTIRQFADFLRTQPSVRGRKKQAVPVRPKPLTQQHALQKKTPAEPERLTVQKEPEPVQAKREPKDEIADAIAIVGMSGKYPDAPDLKTYWDNLARAKNAIRDIPLSRWDVDKYYDPALNKKGKVYCRSIGMLDGIEEFDPLFFNISPSEAELMDPQHRIFLQEGFKAFEDAGYSSKELNGKNCGVYLGIMNNEYGMMLNKHQTGGSATGNSFSIAAARLPYYLNLKGPAIPVDTACSSSLVGTHLARQALLNHEIDMALVGGVTLYLTPESYISMCEAGMLSPDGQCKAFDNSANGFVPGEGAGALVLKRLKDAEADQDHIYGVIIGSGINQDGKTNGITAPSAKSQMDLERQVYEAHNIHPESITYAEMHGTGTKQGDPVELEALSSVFKEKTDRKQFCAIGSVKSNIGHTSAAAGVASVQKVLLSMKHQQLVPTLHFSTPNEHFDFDDSPLFVNTELKPWETGGAPRRACVSSFGYSGTNAHLVIEEYQPKDRGSRKSDETNIFVLSAKKAPQVKTYAESVIEFAKANQNINLSDMAYTLQTGRDAMDYRLAVTAGSREELISRLTDFVNGNTGEGIYEAHIKTAKKELKAFETDDDLKQLVRSWFDKKKYAKIAELWAKGLQMDWERLYQGEKPRRISLPAYPFAKEPYWLPEPKAASQETEDRREAVLLEKQWVPCEIDSAGEKSGRTVMILADERTAELAEETAKHFTDSFILPVDSADTAASDWNHIDGAIDLTGCGDEDPSLKGISRLQTLIDTSRRQARPLTLLYVTKGLEPFQQKTIHLAGAAKSGLYRMLQNEYQNVTSRHMDADTDTDQQTLAKQIADEFSADSTEPEICRRNGQRYRALFREIPSGKRAEHKPAPFPEDHVLFITGGTRGLGLLCARHFTEKHGVKKVVLTGREPIPPRHERSAVNTRLKEKIRAIEEIEAKGVQVAVISLKLSDHDAAAAEIETIRRTMGPIGGVIHCAGSVNSVNPAFIRKTADDIQEVLEPKVAGLQTLSSLFTNDPLQFFVLFSSVSAVVPALAAGQSDYAMANAYMDYFAAAHQHQYPLVSIQWPNWKETGLGEVRTESLKQTGLLGLSNAEGLDLLDRILSENIRPSVLPAIIDRSEWHPDRLLCLEKTQKAVITGKAAEKHSDRELLLDTKAWLVKLFSDELKIAPEELETDEPFQDYGVDSIILAQLLQQMNQALKEDLDPSVLYEHPTIDAFAEWLVSNGQPLLAEREEPDTEILVPAAVQTVHTEQKRDAVTEDIAVVGMSCRFPGAESLDQYWDLLRSGRSAIGSVPAERFGYANQYVAGLIDNMDHFDSEFFFIPENDAKAMDPQALAVLEESLKLWCHAGYTREEIKGIEAGVYIGGRSQHQPDPESLANTRNPIVVGGQNYLAANVSQFFDLRGPSIVLDTACSSALTGMNMAVQALRSGDIKAAVVGGVSLLNTDAAHRMFQERGLLNEKPAFHVFDKRSGGVVLGEGVGMVLLKTVSQAQKDGDTIHAVIKAAAMNNDGRTAGPSAPNMQAQKDVMQSALFKSGKKPEDITYIEANGSGSAVTDLLELKAIQSVYRSGQHVPLGIGSIKPNIGHPLCAEGIASFIKVVLMLKHKQTVPFLSGDEPMPHFDITKTDFHFHKTAGEWDAARPSASINCFADGGTNAHVILEAWEEKDTRMKRKPLPVPSLRRKALVKEPDVRAEKQELPAKKMFWKAFK	PGPT0010155_56	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010155-baeL|pksL-K13612	NA	NA
D1-12_00898	10536	pksM		Polyketide synthase PksM	ATGATATCGGAAAAAATCAATATCTCACTGGATCATCCCATCATGAAGGGCCATATGGTCTTTGGTGAAGCGGTATTGCCCGGTCTTGCTTATATCGATTTGATTTATCAGGTTTTTCAGGAACACGGTTATGTATACAATGAGCTCGAATTGAAGCACGTTACGATTTATCAGCCTTTAACCGTCAGTGAAACGGCTGCAATCATTCTGACCATTCAATGTTCTGATAGCGGAGATGGAAAGTGGCTCATCTCCCTTTCGGGGCAGAAACAGCAAGGTGATGAGCTGTCAGACAATATACAATATGCGACGGCTGAAATGGTGAAAAGAGACGCTGTCACATTTGACGAAACCATTGATTTCGGCGATGTGAAGCAGTCAGCCAGGTCTCTGAATCTTGATGACATGTATAACCGCTGTCTGGATCATGACTTGGTTCATTCCGGGATGATGAAATCGAACGGACGATTGTACGAAACAGAAGGCGGCATGCTGGCTGAGCTTTCTTGCGAAGAAGGAAAAGATTTCTTTTTATTCCATCCGGCCCTTTTGGATGCGAGCGGAATCGGGGCGAGCGGTTTGCTTTCTGAAACAAACCGGCTTCACCTGCCTTTATATTATGAATCGTTCACGGCCGCCGACAGGCTGCAATCAGAGTGCACGGCGCGTATCGCCGCTTCCGGCGTCCGTCAGGAAAAAGAACTCACAACGATGACGATCGAGTACTTCAGCCGATCCGGACAAAAGGTGGCGGAGCTTAAAAACATTACGGGAAAAGCGGTTCGGCTCGAAGAAGACGCGAATACAGCCGAACAGAATCAACAGGCTGCAGCTGAGACGGAAAGCGCAGATGAAAAAGACATCATTCTGTTTTTAAAGAAGCTTTTGGCTGATAAGCTTGGTCAGCCTTGGGAGACGCTGGACGTTCTTGCAGGCTACTATGAGCTTGGGCTGGATTCATCTTCTTTGCTTGAGATTGTACAGGATATCAGTAAAAAGACGGGTGCGGACCTCGCGCCCACTCTTCTCTTTGAATATACAAATATAAAAGAACTCGCAGCCTTTTTGAAAAAGACCGTTTCATTTGAATGTGCGGAACGTGCAGCCGAACCATCACGGTCTGAAGCTGAAGCACCGGACGCGCCAGAACATCATAAAAACACCGGAGACATCGCGATTATCGGAATGGCCGGCCGCTATCCGAAAGCGAAAAGTGTGGAGGAGTTTTGGGAAAACCTGAAGGCAGGCACGGATTGTATCACTGAAGTTCCGAAGTCCCGATGGGATTGGCAAACATATAAAAACGTAACGTCCCCGTCAGGAAAAACAGTATCAAAATGGGGCGGTTTCATTGACGATGCCGACTGCTTTGATCCGCAGTTTTTCAGAATCTCACCGCGTGAGGCGGAAACGATGGACCCGCAGGAGCGCCTGTTTTTAGAAACATGCTGGGAAACGATTGAAGATGCGGGGTATACGCCTGAAACGCTGGGAAATAAAGGGGAGAAACAGCATCCGATCGGCGTATTTGCAGGGGTGATGCATAAAGATTATTCCTTAATCGGCGCAGAACAATTATCTGAAACTGATCCTTTTCCGGTTTCACTGAATTATGCGCAGATCGCCAACAGAGTGTCCTATTATTGTGATTTCCACGGGCCGAGCATCGCGGTGGATACCGTTTGTTCCTCATCATTGACCGCCGTTCATCTGGCCATTGAAAGCATCCGCCGTGGCGAATGTGAAGCCGCGCTTGCGGGAGGGGTGAACTTGTCGCTGCACCCGGCGAAATATCTCAGCTACGGAAGCGTGGGCATGCACTCAAGTGACGGCCGTTGCCGTACATTCGGCGAGGGCGGGGACGGCTACGTTTCCGGAGAAGGAGTCGGTGCGGTCTTGCTCAAGCCGCTGGAAAAAGCCGAACAAGACGGCGACCGCATTTACGCGGTCATTAAAGGAAGCGCCGTTAACCACGTAGGGAAAGTAAGCGGAATTACCGTCCCGAGTCCTGCTGCACAGGCAGAAGTCATTAAGGCCTGTCTGAAAAAAGCAGGTATCAGCCCGCGGACCGTCAGTTATGTGGAAGCCCATGGCACGGGTACTTCGTTAGGAGACCCGATTGAAATTGAAGGTCTGTCAAAAGCGTTCAGCCAAGGGACGCAGGATCAGCAATTTTGTTCCATCGGTTCGGTCAAATCAAATATCGGCCACGCAGAATCAGCGGCGGGGATCAGCGGGTTAACAAAAGCGGCGCTGCAGCTTCATCACAAAACGCTTGTCAAATCACTGCATTCTGCGGAATTAAATCCTTACCTGAAATTTGAGGGATCTCCTTTTTACGTACAGCAGCAGACTGCTCCGTGGAAGCAGCCGGCAGCCGAAGAAAACGGAAAAGTCACACATTATCCGCGCCGGGCCGGACTCAGTTCCTTCGGTGCATCAGGTTCGAATGCCCATATCATTTTAGAAGAATACATTCAGCCTGAACAAAAAGCGCCTGCACCTGAGAACGATGCAGCAAAACTCATCCCGCTGTCAGCAAGAAATAAAGACAGGCTTCTGGCCTATGCGGAAAAACTAGCCCGATCGCTTTCAGAAAAGACGGTGCTGTCTGAACTGGCTTATACTCTTCAGACAGGACGTGAAGCAATGGAGGAGAGAGCTGTCTTCCTTGTAAATGACACCCGCGACTTGAAAGAAAAGCTGAATGATTTCGTAAAAGGAAACGAAAACATCCCCGGTCTTTGGCGCGGACAAGCCGAGCTGCCGGAACTGAGCGAACCCGCTCCTGAGACGGATGATCCGATACGGCTTGCCGAGTTATGGGCAGAAGGGAAAATAATAGATTGGAATAAGCTGTACGGTTCATATAAACCGCGTAAAACAAGCGTTCCGACGTATCCGTTTGCAAAAGAACGCTATTGGATTCCGCAGCAGAAAAAACAGGAGAAAAGCCCGTCAGGCACAGTGCTGCATCCGCTTTTACAAGAAAATACGTCAGATTTTTCGCAGCAGCGCTTCACGTCTCTTTTTACCGGAGATGAATTTTTCCTATCTGACCATGTCGTCAACGGACAAAAAATACTGCCGGGTGTCGCCTATTTGGAAATGGCCGCAGAGGCGGTCAAAAAGGCCGCTGCCGTGACGGAAAAAGACCATAGCGTCACACTCAGGCAGGTTGTTTGGGTCCGTCCGGTCATAATTGAAGACAAGCCGAAAGAAATACATATCGCCCTTTACCCAGAAGATAATGGTGAGATTACCTATGAAATATACAGTGAGGCAGAAAACGGCGAAGATCCGGTTATTCACAGCCAGGGTGAAGCGGTCATTACCGAACCGGGCAGCGCCCAGATAGATATTGAGTCTGTCAAAGCTTCCTGCAATTTAGGAATCGTGACTGCGGAAGAATGTTACGGTGCTTTTGAGAAGATCGGTCTGGATTACGGAGAGGCATACAGGGGCGTACAGCAGTTGCTGCTTGGAGAAGACCGATTATTGGCCCGTATTTCACTCCCGGCTGCCGTACATGACAAAAAAGAACAGTATACGCTTCACCCGAGTATGATGGACGCCGCTTTTCACGCTTCCGTCGGTCTGCTTGTCCGCTCAATACATGACGATGCAGACAGCCACGAGCTTTCTTTGCCGTTTGCGATGCAGGAAGTGGAAGTGTTCAGACCGTGTCCTGAACATATCTGGTCATATATCCGGTACACAGAAGGAAGCAAAGCAGATGACAGCGTAAGAAAATTTGACATTGATATGTGTGATGATGCCGGTACGGTTTATGTCCGGATGAAAGGCGCGTCCGTCCGGGCGCTTGACACAGGCCAAACAGCGGGCGGAGAAACCTCGGAGGCGCCTGTCGGCCATACGATGCTGATTCCGGCTTGGGAGCCTGTTGCGCTTGAAAAAGCCGGGGAAGCAGCGGTGGATAAGCAGACGGCAGTATTCAGCGGAACGGATTCGAGACATACGCGCATAAAAGAACATCTGCCGAACGCTTCCTATTATCCGATCAGAAGCACGGATGATATCGCATCTCTTACGCACATGCTTGAAGGACAAAAAGAACTGGAGCAAATCATTTGGCTTGCTCCGCAGGCTGAGAGTGCGGACACCCTCAAGGAACAGGAAAGGAACGTTCTTCATGTGTTCAAGCTGATGAAAGCATTACTTGCCTTAGGGTACGGAGAAAAACGTTTGGACTGGTGCATCGTCACAGCAAATGCCCAGCCGTTTTCGGATCAAGACAGCGCCGACCCGTCACAAGCCGCAGTCAGCGGACTTGCCGGAACAATGGCGAAAGAATATCCGCATTGGCATATCCGCATGATTGACACAGAAACGGACGGCAGCTGGCCGATCGAAGAGGCGCTCAGTCTTTCTGCCGGGAAAAACGGTCAAATTTGGGCGTACCGCAATCAACAGCTGTTTGAGCGGCAGCTGATACCGCTTGACAATATGCCGAAAAACGGCACGCTCTACCAAACAGGCGGGGTTTATGCCGTGATCGGAGGCGCCGGATATCTTGGCGAGGCATGGAGTGAATACATGATCCGCCGCTACAAAGCACGCATCATTTGGATCGGAAGAAGCACACTGAATGATTCCATACAGGCGAAACTCGACCGGCTCAGCGCATTCGGCCCGGCGCCTGAATATGTTTCCGCCGATGCCGCCGACAGTTCTTCCTTAGAGCGGGCTTATCAGTTCATAAAAGAGCGCCACACAAAAATGAACGGAATCATCCACTCGGCAATGGATCTGTCTGAGCAAAGCTTAAATAATATGAAGACAGAAGAGTTCAAATCGGTGCTGCGGGCAAAAGCCGATGTAAGTGTGTCCATGGCGGAGGTATTTGGACGGGAGCCGCTTGACTTTGCGCTCTTCTTCTCCTCGCTTGTGGCATTTATCCATAACGTGAAACAAAGCCATTATGCCGCAGGATGCGCTTTCAGTGACGCATTTGCGAAGGAACTTGATCAGACATGGAATTGTCCGGTCAAAGTGATGAACTGGGGCTATTGGGGCAACAGCGAAGCGGCTGAAGACGGTGATTTTATTCAGCTGATGGATCAGATCGGATTGGGATTGATCGAACCGGACGCTGCAATGGAGGCGCTTGAAACCCTTATGACGCTGCCGATTGATCAGGCGGCCTTCATTCATACGACCAAACCGGTCGCAGTCGAAGGGATGAATGAAAGAGAAAAGATTTCCGTTTATCCGCCTCAGCCGCTTGTCTTTTCACAACAGCCGAAGGTCGCTCCGCCCGGCGCACGTCTTGTTAGAGAGGCTGACCATCAGGAGCTCGATGATTTTCTGTATCAGCTTTTGATCGCCCAGCTTAAAGAAGCAGACTTGCTGACGCCGCAAAGCCTTAAAGCGTATGAGCCCGAACACGAATACTTTAAAAAATGGCTCAATCAAACGATCGCTTTCCTTCTGGAACATGGCTATCTGGAAGGGAATGCGGATTCATATAAACTGTCGGCGCGAGCCGAAAACACAACCGCCTCGCTATGGCAAAAATGGGAGCGGGAAAAAGAGGAATGGCTCAATAACGCCAATACAAAAGCGATGACTGTTTTAGCCGAGACGATGCTTAAAGCACTGCCGGACATTCTGCGGGAAGAAGTGCCGGCGACAGACATCATGTTCCCGCACTCTTCAATGGAACTTGTTGAAGGAATTTATAAGCGCAACCAAGTCGCGGATTACTTTAACAGCGCCCTGTCAGATACATTAATGGCTTATGTGAAAGAAAACATCAGCAAACATTCAAAAGCCGAGATCCGCATCCTGGAAATCGGAGCGGGCACAGGCGGCACAAGCGCAGGCATATTTGAAAAGCTTAGGCCGTATCAAAACCATATAAAGGAATACTGTTACACCGATGTATCGAAAGCTTTTCTCGTGCATGCGGAGACGGAATACGGCAAACGGAATCCTTATCTGACGTATCAGCTTTTCAACGCAGAAGCGCCGCTTGCCGGCCAGGACATAGAGCCGGGCGCATACGACATCGTCGTTGCGGCCAATGTGCTCCACGCGACGAAAGACATCCGCCAGACGCTGAGAAACGCCAAAGCCGTTTTAAAAGACAACGGTTTGCTGCTCTTAAATGAAATGGCGGGAAACAGCCTGTTCCCGCATATTACTTTCGGACTGCTTGAAGGCTGGTGGCTGCATGAAGATTCCGCCCTTCGTATTCCGGGGTGCCCGGGCTTGTATCCGGAAAGCTGGAAGCGCGTGTTAGAAAGTGAAGGCTGGCATTCTGTCTTCTTCCCGGCGGAAGCGGCACATGAATTAAGCCATCAGATTATAGCGGCAACAAGCAACGGCATTGTTCGCCAAAAAACGTTTCAAACAAAGACCGGAAAACGGACCGCTCAGCCAAAAGCAGTACATGCGCCGGAACTTCAGGCGCAAACAACGGTGCAAAAAGGCGACACGTCTTTAACAGAAAAAAGCACCGAGTACTTGAAAACGTTAATCGGAGAAACATTAAAAATTCCGCCGGCTCAAATTGATCCGAAAGCGCCGCTTGAAAAATACGGAATTGATTCTATCGTCGTCGTACAGCTGACAAACGCGTTACGAAATGTATTGGACCAAGTCAGCAGCACTTTATTTTTTGAATATCAGACGATTGAGGCGCTCGTCGCTCACTTAATCAAAACGAAAAAAGACGCGATGATCAAACTGACGGGACAAACGCCTGTTCAGGAAGAACGGAAGGCATCACCAGAACCGCAGGCTGTACAGCCGGCTAAGCCGCTTCGCACTGACTGGCGGCGGAGGGAAAAACGGGCAGCCAAAGAGACGGTCCGGCAAAGTTCGGTTCGCGACGTGGCCATCATCGGTGTTTCAGGACGCTACCCGCAGGCAAAAACAGCGGCTGAGCTTTGGGCTAATATTAAAAAAGGAAAAAACTGCATAGAAGAAATCCCGCGGGAACGCTGGAACTGGCAGGATTACTACGATGAAGAGAAAGGTAAAGAAGGCTCTATTTATACGAAATGGGGCGGCTTCATTGAGGATATGGACAAGTTTGATCCGCTGTTCTTTCAGATTTCTCCTTTGGAAGCAGAGCGAATGGACCCGCAGGAGCGATTATTTTTAGAAACGGCGTATGCGAGTATCGAGGATGCCGGCTATACGCCTGACAACCTGTGCCAAAGCAGAAAAATCGGTGTTTTTGCCGGCGCGATGAACAAAAACTACCCGACAGGCTACGGCTACTGGTCCATTGCCAACAGGGTATCTTACCTTTTTGATTTCCAAGGGCCGAGCATTGCCGTTGATACAGCCTGCTCCTCTTCTTTGACGGCCATTCATCTGGCGCTTGAGAGCATATACAGCGGTTCAAGCGAATGCGCGATTGCCGGGGGTGTAAACATAGTGACCGACCCGATCCATTATATGAATCTGTCAGTCATGAACATGCTTTCCGCAAGCGACACGTGCAAATCGTTCGGAGACCGCGCGGATGGTTTTGTCGACGGAGAAGGGGTGGGCGCGGTCGTATTAAAGCCGTTAGACCGAGCGATTGCCGACAACGATCACATTTACGGTGTGATTAAAGGAAGCACCATTAACAGCGGAGGCAAAACGAACGGATACACGGTTCCGAATCCGAATGCGCAGGCCGCCTTAATAAAAGAAGCTTTCGAAAGGGCAAACGTTCCGGCGCGCACCGTCAGTTATATTGAAGCCCACGGTACGGGCACCGCATTAGGAGATCCGATTGAAATCGCCGGATTAACGAAAGCATTTGAAGAGGATACAACAGACAAACAGTTTTGCGCCATCGGCTCCGCAAAATCAAATATCGGCCATTGTGAAAGCGCCGCGGGCATTGCGGGTCTGACAAAAATACTATTCCAGCTCAAAGACCGCCAAATTGCACCGTCCCTGCACGCGGAACAGCTGAATCCGAATATTGATTTCGCGTATACGCCGTTTGCCGTTCAGCAGGAGCTCGGTGAGTGGAAACGTCCCGTCATCGGCGGCAGAGAGCTTCCGAGAAGGGCGGGGTTAAGCAGCTTCGGCGCGGGAGGAGCAAACGCCCACCTCGTCATAGAAGAATATACGGCAGACAAAGAGCCTGATGAAACGCCGGCAGATCAGTCCGCCATCATCGTCCTGTCCGCGAAAAACAGCGAACGGCTCACTGAAAAAGCAAAACAGCTCAGAGACGCCATCCGTGAAAAAAGATACAGCGGCAGCGACCTTATGAGCATAGCCTTTACTCTCCAGACTGGCCGGGTGCCGATGGAAGAGCGTCTCGGCTTTATCGTTCATTCACTTCATGAACTTGAGGAAAAACTGAATGGATTTATCGCCGGACAAAACAGCGCCGGACTGCACCGTGACGGCACGGAAGAAAACAAACGGATGCTTGCCGTATTTTCGGCGGATGATGATATGGAAACAATCATAGACGCTTGGATCAGCAAACGGAAATATTCTAAGCTGCTTGAGCTTTGGGTAAAAGGATTGGACATCGATTGGGCGAAATTATACGGAGACCGTCCTCCGGCCCGCATCAGCCTGCCTGCTTATCCGTTTGCGAAAGAACGCTTCTGGCATCAGCAGCCTGTACAAAGCAAGGCCGCGCCCGTTAACGCGCCGGCTGACGAAAATGATCCGGCGGAACAATTTGAAGTAATGACTTTTAGAGAAGTTCTTAAAGAACAGGCTCTGCCGGCAGCCGGAGAAAAGCAAGTCAAAACGGTGATTTCTTTCTTATCTGATCAGAAGAAGCAGCAGGAAGCCGTCTCTGTGGTCAAATCGTATGACAGTGACATTGACGTTATTTTTATCGCTCAGGGAGACCGGTATGAGGCTCTGTCCGCCGGCCGCTGCCAAGTGGTGCGGGAAGATCCACAATCATATGTGAACGCTTTTGCGGATATTCAAAAAGAGTACGGTGAGGCTTCTGCCATTTTGTATTTATGGGCGCTTGAAGATAAAAGCTGCATCGAAGATTATTCATGTATCGTCCATATTCTCAAAGCAATGGCTGAGACCGGTCTGCAGCCGGAAAGGCTGTTATTGGCGGGGGAATATGCATCCGGTCTGGAAAGGTGCTACTTGGAATCATGGATCGGCTTTGAGCGTTCGCTCGGCATTGTTCTCCCGAAAACAAGTGTTACCGGCCACTTCAGAAAAGCCGGTGCGGCCATAACGGACTGGATGAGAACCATTTGGGACGAGCTGAAAGCTGAAACAGACCATACTGTTTTCTTGGAAGAGGGAAAACGATATGTCTATCACACCGAACCAACCGGACTAACGAAAGAAAACAGCAGGATCAGAACCGGCGGAACATATCTCATTACAGGCGGATTAGGAGGGCTCGGCTACTTATTTGCCCGCCATCTCGCCCGGAACTACCAGGCAAATGTCATTCTCACGGGGCGGTCGCCGATCAATGAAGAAAAGAAAGAAAAAATGAAAGACCTGGAAAATCTCGGTGCGGGTGTTCTTTACGCCGAAGCCGATGTTTGTGATCCGATCGGAATGGGCGACTGCATCAAGCGCGCGAAAGAACGATTCGGAGCCATTCACGGCGTCATTCATGCGGCGGGCATCGAAAGCAGAACATCCGTCTTTGAAAATGAAATCGGGAATTTCCGCAGTACGCTTGAACCGAAAATAAACGGAAGCCTGCTTCTTGACGAGTGGCTGAAAAACGAAACGCCTGATTTCATCTGCTACTTTTCATCCACATCGGCTGTTTTAGGGGATTTCGGCTGCTGTGATTACGCGGTCGCGAACAGGTTCCAAATGGCGTATGCCCGCTATAAAAACGAACAATCCGAAAGCGGAAACGCTTTTGTCATAAACTGGCCGGTCTGGAAAAACGGCGGAATGGCCGTCGGCGGTGAAGAGACGACGGGCATGTACTTGAAATCAAGCGGCCAGCGCCTTTTAGAAACAGATGAAGGCATTGAGCTTTTTGAGCGCATCATTTCTCAAGACAACACCCAGTGCCTTGTCATTGCCGGCGAGAGAAGCCGTGCCGAACGATTTTTAGGCATACGGCGGGACGATTCATCAAAACCGGATGCGCTTTTGGAAACCGTGAGCCGCCGCATCCCGGAAGAAAGCGCGGAAAAACGGCTCGAAGCGGATTTGAAAGAGCTGATACACAGTCTGCTGAAAATATCCAAAGATAAACTCGTCCTGCATAAAAACTGGGCGGAATTCGGATTTGATTCCATCTATTTAGCCAAATTTGCCGCTCTTTTGTCGAGTCATTACGGCATTGAAGTCACTCCGGCGTTATTTTACAGCTATGCCACGCTCGGAGACGTCATCAGCTATTACCTGACAGAACATAAAGAAGCGATCGAAACGTTTTACCGAACGGAAGAAACCGAAACAGAAATCGCCGCTCCGGATAACAAGGAGTATACGGATCAGGAGATCATCGCCATGATGAAACAGGTCTCTGAGGGGACATTAGATTTTAAAAGAGTGCAAGACATCATAGAAGGGAGTAAGACCTATGAATCATAA	MISEKINISLDHPIMKGHMVFGEAVLPGLAYIDLIYQVFQEHGYVYNELELKHVTIYQPLTVSETAAIILTIQCSDSGDGKWLISLSGQKQQGDELSDNIQYATAEMVKRDAVTFDETIDFGDVKQSARSLNLDDMYNRCLDHDLVHSGMMKSNGRLYETEGGMLAELSCEEGKDFFLFHPALLDASGIGASGLLSETNRLHLPLYYESFTAADRLQSECTARIAASGVRQEKELTTMTIEYFSRSGQKVAELKNITGKAVRLEEDANTAEQNQQAAAETESADEKDIILFLKKLLADKLGQPWETLDVLAGYYELGLDSSSLLEIVQDISKKTGADLAPTLLFEYTNIKELAAFLKKTVSFECAERAAEPSRSEAEAPDAPEHHKNTGDIAIIGMAGRYPKAKSVEEFWENLKAGTDCITEVPKSRWDWQTYKNVTSPSGKTVSKWGGFIDDADCFDPQFFRISPREAETMDPQERLFLETCWETIEDAGYTPETLGNKGEKQHPIGVFAGVMHKDYSLIGAEQLSETDPFPVSLNYAQIANRVSYYCDFHGPSIAVDTVCSSSLTAVHLAIESIRRGECEAALAGGVNLSLHPAKYLSYGSVGMHSSDGRCRTFGEGGDGYVSGEGVGAVLLKPLEKAEQDGDRIYAVIKGSAVNHVGKVSGITVPSPAAQAEVIKACLKKAGISPRTVSYVEAHGTGTSLGDPIEIEGLSKAFSQGTQDQQFCSIGSVKSNIGHAESAAGISGLTKAALQLHHKTLVKSLHSAELNPYLKFEGSPFYVQQQTAPWKQPAAEENGKVTHYPRRAGLSSFGASGSNAHIILEEYIQPEQKAPAPENDAAKLIPLSARNKDRLLAYAEKLARSLSEKTVLSELAYTLQTGREAMEERAVFLVNDTRDLKEKLNDFVKGNENIPGLWRGQAELPELSEPAPETDDPIRLAELWAEGKIIDWNKLYGSYKPRKTSVPTYPFAKERYWIPQQKKQEKSPSGTVLHPLLQENTSDFSQQRFTSLFTGDEFFLSDHVVNGQKILPGVAYLEMAAEAVKKAAAVTEKDHSVTLRQVVWVRPVIIEDKPKEIHIALYPEDNGEITYEIYSEAENGEDPVIHSQGEAVITEPGSAQIDIESVKASCNLGIVTAEECYGAFEKIGLDYGEAYRGVQQLLLGEDRLLARISLPAAVHDKKEQYTLHPSMMDAAFHASVGLLVRSIHDDADSHELSLPFAMQEVEVFRPCPEHIWSYIRYTEGSKADDSVRKFDIDMCDDAGTVYVRMKGASVRALDTGQTAGGETSEAPVGHTMLIPAWEPVALEKAGEAAVDKQTAVFSGTDSRHTRIKEHLPNASYYPIRSTDDIASLTHMLEGQKELEQIIWLAPQAESADTLKEQERNVLHVFKLMKALLALGYGEKRLDWCIVTANAQPFSDQDSADPSQAAVSGLAGTMAKEYPHWHIRMIDTETDGSWPIEEALSLSAGKNGQIWAYRNQQLFERQLIPLDNMPKNGTLYQTGGVYAVIGGAGYLGEAWSEYMIRRYKARIIWIGRSTLNDSIQAKLDRLSAFGPAPEYVSADAADSSSLERAYQFIKERHTKMNGIIHSAMDLSEQSLNNMKTEEFKSVLRAKADVSVSMAEVFGREPLDFALFFSSLVAFIHNVKQSHYAAGCAFSDAFAKELDQTWNCPVKVMNWGYWGNSEAAEDGDFIQLMDQIGLGLIEPDAAMEALETLMTLPIDQAAFIHTTKPVAVEGMNEREKISVYPPQPLVFSQQPKVAPPGARLVREADHQELDDFLYQLLIAQLKEADLLTPQSLKAYEPEHEYFKKWLNQTIAFLLEHGYLEGNADSYKLSARAENTTASLWQKWEREKEEWLNNANTKAMTVLAETMLKALPDILREEVPATDIMFPHSSMELVEGIYKRNQVADYFNSALSDTLMAYVKENISKHSKAEIRILEIGAGTGGTSAGIFEKLRPYQNHIKEYCYTDVSKAFLVHAETEYGKRNPYLTYQLFNAEAPLAGQDIEPGAYDIVVAANVLHATKDIRQTLRNAKAVLKDNGLLLLNEMAGNSLFPHITFGLLEGWWLHEDSALRIPGCPGLYPESWKRVLESEGWHSVFFPAEAAHELSHQIIAATSNGIVRQKTFQTKTGKRTAQPKAVHAPELQAQTTVQKGDTSLTEKSTEYLKTLIGETLKIPPAQIDPKAPLEKYGIDSIVVVQLTNALRNVLDQVSSTLFFEYQTIEALVAHLIKTKKDAMIKLTGQTPVQEERKASPEPQAVQPAKPLRTDWRRREKRAAKETVRQSSVRDVAIIGVSGRYPQAKTAAELWANIKKGKNCIEEIPRERWNWQDYYDEEKGKEGSIYTKWGGFIEDMDKFDPLFFQISPLEAERMDPQERLFLETAYASIEDAGYTPDNLCQSRKIGVFAGAMNKNYPTGYGYWSIANRVSYLFDFQGPSIAVDTACSSSLTAIHLALESIYSGSSECAIAGGVNIVTDPIHYMNLSVMNMLSASDTCKSFGDRADGFVDGEGVGAVVLKPLDRAIADNDHIYGVIKGSTINSGGKTNGYTVPNPNAQAALIKEAFERANVPARTVSYIEAHGTGTALGDPIEIAGLTKAFEEDTTDKQFCAIGSAKSNIGHCESAAGIAGLTKILFQLKDRQIAPSLHAEQLNPNIDFAYTPFAVQQELGEWKRPVIGGRELPRRAGLSSFGAGGANAHLVIEEYTADKEPDETPADQSAIIVLSAKNSERLTEKAKQLRDAIREKRYSGSDLMSIAFTLQTGRVPMEERLGFIVHSLHELEEKLNGFIAGQNSAGLHRDGTEENKRMLAVFSADDDMETIIDAWISKRKYSKLLELWVKGLDIDWAKLYGDRPPARISLPAYPFAKERFWHQQPVQSKAAPVNAPADENDPAEQFEVMTFREVLKEQALPAAGEKQVKTVISFLSDQKKQQEAVSVVKSYDSDIDVIFIAQGDRYEALSAGRCQVVREDPQSYVNAFADIQKEYGEASAILYLWALEDKSCIEDYSCIVHILKAMAETGLQPERLLLAGEYASGLERCYLESWIGFERSLGIVLPKTSVTGHFRKAGAAITDWMRTIWDELKAETDHTVFLEEGKRYVYHTEPTGLTKENSRIRTGGTYLITGGLGGLGYLFARHLARNYQANVILTGRSPINEEKKEKMKDLENLGAGVLYAEADVCDPIGMGDCIKRAKERFGAIHGVIHAAGIESRTSVFENEIGNFRSTLEPKINGSLLLDEWLKNETPDFICYFSSTSAVLGDFGCCDYAVANRFQMAYARYKNEQSESGNAFVINWPVWKNGGMAVGGEETTGMYLKSSGQRLLETDEGIELFERIISQDNTQCLVIAGERSRAERFLGIRRDDSSKPDALLETVSRRIPEESAEKRLEADLKELIHSLLKISKDKLVLHKNWAEFGFDSIYLAKFAALLSSHYGIEVTPALFYSYATLGDVISYYLTEHKEAIETFYRTEETETEIAAPDNKEYTDQEIIAMMKQVSEGTLDFKRVQDIIEGSKTYES	PGPT0010160_67	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010160-baeM|pksM|dfnI|dfnD|dfnF-K13613	NA	NA
D1-12_00899	16302	pksN_2	COG1020	Polyketide synthase PksN	ATGAATCATAAAGAACTTCTCGATGCCTACAGATCAGGAACGCTCACCATCGCTGAAGTAGAACAAAAGCTTCAGGCTTTCAAGCGGACAACTGCAAAACGTCCGCTTTCTGAAGGCCAGAAAGGTTTGTGGATGCTTCAGAAAATGTTTCCGGAGATGAGCGCATATAACATTCCGTTATGCTTTCGTTTTCAAAAGCTGGATGTCGAGACATTCAAAAACGCCCTTTTGTCCGTGCAGCGCCAGCACCCTATTTTGACCAGTGTGATAAAAGAGGAAAACGGCCTTCCGTATCAGATAGAAGATACGGATCGGCATTTTCCGATTGAAGAAATGGATCTTTCCGAATTAAGCGGGCGTGACGCTCTTTCGTTTATTAAAGAAAAAGCAAAAGAACCGTTCTCGCTTGAAACCGGGCCGCTCCTGCGTGTTCAAGTATTCCGGCGGGCGAAGCGGGAGCCGATTGTGTTAATTACCATTCACCATATCATTTTTGACGGCGTCTCTCTTATGACGTTTATGTCGGCGCTGCTGGACGCTTATGTAAAAGCAAGTGAAGGCAAAGAACCTGTCATGCTTCAGCAGGCCGCAGATTATCATGACTTTGTGAAATGGGAAAAAGAGCTGCTGGAAAGCGAAGCGGGAAAAACGCATCTGTCTTATTGGAAAAAGCAGCTAAAAGGACCGCTGCCGGTGCTTGAGCTTCCGTCGGATTATCCGAGATCATCGGTTCAAACTTGCAGGGGGCAGGCGTATCAGCGCTTGCTTCCTGATGAACTGAACCGGCAGATTAAAGTTTGCGCCCAAAAAAATAATGTCAATGAATCCGTTGTGTATCTCGCTATTTTCAAAGGACTGCTCTATCAATATACGAATCAGGAAGATGTCATCGTCGGCATGCCGACGATGGGGCGTTCTGAGGCTCAATTTGAATCTGTCATCGGATACTTTATTAATATGATCGCGGTCAGAAGCAGGGAGACGGGCGCCAAATCTTTTACGTCGTTTTTGAAGGAGCTGCAGCTGACACTGGCAGAAGGGCTGGACCATGCCGCGTATCCGTTTCCCGCGCTTGTCAAAGAATTGAAGACGGAACGCTCGCCTGCGGTGTCGCCTGTTTTTCAAACCGCGTTTTTCTATCAAAACTTCTTCCGCACAGAAGGAGCGGAAAAGCTGGCGGAACTATATCAATCACTCGGCATTGAAATGATAGAAGACATTCATCAGGAAGGCGAATTTGAGCTTGCGCTTGAAGTCTATAAAAAAGAAACGGGAACCGTCCTGCAATTTCTGTACAACCCGGATGTCTACAGCCCTTCTTTCATCGAACGAATGGCGGAGCATTATATGAAACTGGCAGAAAAGGTGCTTTCTGATCCGGAGATCGCTTTTGAAGCATGTTCCGGCCTGCTTAATCAAAAACGTGAAGCAAGCCGTTCATCCCATCAGCCGAATGAGCGCTGCATTCATGAAGTGTTTGCAGAAAAAGCCGGACGCCACCCTGACAGAGAAGCCGTCACATTCGGTGAAAACAGTCTTACATATCGCGAATTAGATGAACGAAGCACGGCGCTCGCTGTGTACCTGCAAGAAAAGGGCGTCACACCGGAATGCCCGGTCGGCATTTGTACGGAGCGTTCTTTTGAGATGGTCATCGGCATCCTCGCCATTTTAAAAGCGGGAGGCGCGTATGTGACGCTGGACCCGGCTTTTCCAAACGAACGGATGGCGCACGTGTTGACTGACAGCGGCGTTTCGATCGTATTAACGCAAGCAAAGACGCGCGGCATGATTGAACAGTTGGCCATCGGCGGTGTGAGCACGGTGGAAATTGAAAACAGCGGACGTTCTGTCAGCGGGGCAAAACTGACGCCGCGTTCAAAACCGCATCATCTCGCTTATATTCTATATACGTCCGGAAGCACGGGAAAACCGAAAGGCGTCATGGTTGAGCACAGAGCCATCATGAATACGCTGCAGTTTTTGGAAGCTGAGTATCCGGTCGCACAAGAGGATGCCTATTTGTTAAAAACGAATTACGTATTTGACGTTTCGATTTCTGAATTATTCGGCTGGTTTATCGGAAACGGACGGCTTGTCATTTTGCCGCCTGGTGCAGAAAAAAATCCGCAGCTTTGCATGGAATACATCCAAACCCACCAGGTCACGCATCTGAATTTTGCGCCCGCCGTGTTTAATGTATTTCTGGAAACGGTAAAGCGGCATACGGCATTTACAGAAGACGGCCCTGTGAAATATGTGATGGTGGCCGGTGAGGCGTTTCCGAAAGATTTAGTTAAAAAGTCAGTTTCCATCTTCAAACATGCCAGAATTGAAAACATATACGGCCCGACGGAAACATCCATTTATGCCGCTTACTACAGCTGCGGCCAAAAGGAAATCACAAGCAGGAATACGCCGATCGGGAAACCGATTCACAATACGCGGCTTTATATCGTCGATGAAAAGCTCAGCCCCGTCCCTGACGGTGTGGCCGGGGAGCTTTGCGTGGCCGGCGCCGGTCTGGCCAGAGGTTATTACAATCAGCCTGAGCTGACGGCGGCATCATTTATTGATAATCCGTTTAGTGAAGGAGAAAAACTTTACAAAACAGGTGATTTGGCCAGATGGCTGCCTGACGGAAATATAGAATATGCCGGCCGGATTGACAGTCAGGTGAAAATCCGCGGCTTCCGCATCGAATTGGGAGCGATTGAAACGAAATTGAGCGAACATCCGGATATCCTTGATCAGGCGGTAGTTGTTCAGGAAAAGAACGGACATAAAAAGCTGATTGCTTATTATACGGCCCGCGCCGGTCATACGGCAGATGAAAAAGCGCTCCGCAACCATCTTTTATCGAGTCTGCCGGATTATATGGCGCCTGCCCATTTTATCCGTCTGGATGCGCTGCCGTTAACACCGAGCGGAAAAGTGAACCGCAAAGACCTAAAACAGCGCAAGGTAATCGTTCACCGGTCTGAAAAGACGGGCAGACTGCCGTTATCAGAAGCGGAAGCGAAAGTGACCGCAATATGGGAAGACCTGCTGAATACGGCGGGCATCAAAATCGAAGACGGCTTTTTCGATGTGGGAGGCGACTCGCTTCTGGCTGTTGCGGCGGCAGAACGCATTAAACAGGAGCTGGAATGCGATTTTACCGTCACGGATTTATTCGAACACTCTACTATTCAGGCGATCAGCCGATTTATTGTTGAAACAAAACAGGCGGCTGAATCAGAGGTGTCCGGCCGAGATGAAAGAGAAAAAGAACATACACCGCAAAACGGGATGCCGTCTTACTTTGAAGACAGTGTGGCGATAGTGGGGATTTCCTGCCAGTTCCCCGGCGCGAAAAATCATCATGAGTTTTGGAAGCAGTTAAGAGAAGGAAAAGAAAGCGTCCGTTTCTACTCGAAAGAAGAACTTCGGGAAGCCGGTGTGCCTGAGGATTTGATCGAAAATCCCGACTATGTGCCGGCATTATCGACGATAGAAGGAAAAGATCTCTTTGACCCTGAGTTCTTTCACATTTCTCCGAAAGACGCAGAATTTATGGATCCTCAGCTGCGGCTTCTGCTGCTTCATTCTTGGAAAGCCGTCGAGGACGCGGGATATGTATCGAAAGAGATTCCGAAGACAAGCGTATATATGTCGGCAAGCAATAATTCGTATCGGTCGCTTTTGCCGGAAAAAACGACAGAAGGCCATGAATCTCCCGACGGCTATGTGTCATGGGTGTTAGCGCAGAGCGGCACGATTCCGACGATGGTTTCCCATAAGCTCGGATTAAAAGGGCCAAGCTATTTCGTTCATTCCAATTGCTCATCATCATTAGTCGGTCTTTATTCAGCCTACAAAAGCATAACGAGCGGAGAATCGGAATACGCGCTCGTCGGCGGAGCAACTCTGCATGCAGCGACCGGCATCGGCTATGTGCACCAAAACGGATTGAATTTTTCAAGCGACGGGCATGTCAAGGCATTTGACGCTTCAGCCGACGGTATGGCGGGCGGAGAAGGAGCGGCCGTCATTCTGCTGAAAAAGGCGTCACAAGCCGTTCAGGACGGAGATCACATATACGCCATGCTCAGAGGCATCGGTCTGAACAATGACGGAGCGGATAAAGTCGGTTTTTACGCACCGAGTGTAAAAGGCCAGACTGACGTCATCCAGCATGTTTTAGACAGCACGAATATTCACCCGGAGACGATTTCCTATATCGAAGCGCACGGCACAGGAACGACATTGGGTGATCCGATTGAAATGTCCGCGCTGCAGCAAGTGTATAAACGTTACACGGACCGGGAGCAGTATTGCGGGATCGGCTCCGTAAAAACGAATATCGGACATTTGGATACAGCAGCAGGTCTGGCCGGGTGCATCAAAGTCGCCATGAGTTTATATCACCGGGAGTTGGCGCCTACCATTAATTACACCTCACCGAATCCGAATATCAAATTCAGCGGTTCGCCGTTTTATGTGGCGGATAAGCGAAAACCGCTTCCGGAGAGAGAGACGCCGCACCGCGCAGCGTTAAGCTCATTCGGACTCGGAGGAACAAACGCACACGCCATTTTTGAACAGTACGAAAACAAAACGATCAGCGGATCAAAGGACGGACAGCCGCCTTTTATCGTTCCGCTGTCAGCGAGAAATAAGCAGCGTCTTACTGCCTATGCATCTTGTTTATCCGGCTTTCTGGATGAAGCCGAAAACGATGTTTCCTTGCATGATCTGGCATTTACGTATCAGACCGGACGTGAAGCGATGGAAGAGAGAGCCGTTTTTATCAGTCATGATCGTCACGATTTGAAGCGTCAGCTGCAGGATTTTATCAACGGCAATGACCAAAACATCTTACGGGGCGAAAAAGTGAGAAGCAGAGAAGTGTCAGCTCAGGAGATGGAAGAGCTTGCGTCATGTCAGACACGGGATGAAAAGCTGAAAGCACTCGCGGCGCTCTGGGTTGAAGGAGCGCGTGTCGATTGGGGCTTATTGTATCAGGATTCCGCGCCGCGAAGAATCAGTGCGCCGACCTACCCGTTCGCAGAGGAGCGCTTCTGGCCGGAGGAAACTGTGAAGCAAACGGATACCAAACTTTTGCATCCGCTGGTACATCAGAATACATCCGTCTTGCAGGAGCAGCGGTTCAGTTCGGAATTCACGGGAAAAGAGTATTTTATTGCCGAGCATATCATTAAAGGAATGGCGATCGTGCCGGCTGCCGTTACTCTTGAGATGGCACGGGCCGCGGCGGAGAAAAGCATCGGCGGGGCAACAGAGGAATCTCTGGGCCTGCGCTTAAAGAATATCGTATGGGTCCGCCCGGTGATAGCCGATCAGGAGGCTGTCCGTGTCCATATCCGACTTTATGAAGAAGAGGACGGACAGATTCATTACAGAATGTACGGGGGTAACGATTCTATCGGTGAAGAAGCTCCTCTTTATAATCAGGGCATCGCTGAAATCATCCGGAAGGAACCGGAGGAAGCGGCGGATATTGAGCAGCTGAAGCGCCGGTGCACACAGGGAACAATCGAATCTCAAGCGTTTTACAAAGGAATGATCGGTGCTGATTACGGGCCCGGATACAAAGGGGTGCAGCTTGTATACAAAGGCGAAGACCGGCTGCTTGCTAAATTGAAGCTTCCTGAATCCGTCTCTCATACAAAAGCTGATTATATCCTTCATCCGAGTATGATGGACGGTGCGCTTCAGGCCGCCGAATATTTGCAAAACGTGACGAGAGCGCTGCTTACAGAAAGCGGGGAACCATTCAAAGCCGCATTGCCGTTTGCTTTAGAGGAGCTGGACGTTCTGAATCCGTGCGCTGATGATATGTGGGTGCACGTCACATTCAGTGCGAACAATAAAGCCGGCGATCCTATCCAAAAAGCCGATATTGATCTATATGACAATAACGGCGGGCTTTGTGTGCGGATGAGAGGTTTCTCAACGCGGATCATGGAAGAAAACACGGGTGCCGGCATTTCGGTCAGCCGTACGGACACATTGCTCGCTGAACCGGTCTGGAAAGAGCAGCCGGAACCGGCGGCCCACGAGCCTTCGTATGAAGAGCATATCATTTTCCTTTGTGAGTACGATGAAGCTGTAAAACAGGCCGTGGAAGCAAAGCTTGAACATGCAAGCGTCATTATCTTGGACGATCGTCCCGCATCTATTGCAGAGCGGTATCATTCTTATGCGGGTCAGATGTTTGACCATATCAAAACCATAATGAAAAGCAAGCCGATGGGCCGCGTTCTTCTTCAGGCTGTTACGCGGTCAGCAGGCTTACAGCAGGTGTTCTCAGGCATTACCGGACTCTTCAAAACCGCATGCCTTGAACATTCCAAGCTGATCTGTCAAATGATCGAAGCCGAGGAGGAAGAAAGTGCTGAAGGCATAGCGGAAAAAGCGTCCGAAAACCGTATGCATGCCGAAAGCGTCCATGTGAAATATGAAAACGGCAAGCGCTTTGCCGCTGGTTGGGGAGAAATGGATATACCTCGAGCGGAGCCGGACATTCCGTGGAAAGACGAAGGCGTTTATCTCATTACAGGAGGTGCGGGAGGTTTAGGTCTGATCTTTGCAAAAGAGATCGCAAACCGTACAAAAGATGCCGTCATCATACTAACCGGCCGGTCCGCTCTCAGAGAAAAGCAGAAAGACATGCTGGAAACAGTACGTGCTGCCGGCGCTTCTGTTTTCTACGAGCAGACCGATGTCACGGACGAAGCAGAAGTATACCGATTGATCCGCAATATCCGCAAACGGCACGGCAGGCTGGACGGGATTGTTCACAGTGCCGGCATTATAAAAGACAACTACATGGTGAAGAAGACGGCAGAGGAATACCAAGATGTTCTCGCTCCGAAAGTGAAGGGCCTTGTGTATCTTGATGAAGCGTCACAACATGAGAAATTAGATGTCTTTATTGTCTTCTCATCCTTATCAGGTGTGCTTGGAAGCGTCGGCCAGGCTGATTATGCGTCTGCAAATGTCTTTATGGAGATGTATGCCGAGTACCGCCGTTCTTTACAAGCCGCAGGACAAAGATACGGAAAGACGCTTTCTGTCAGCTGGCCGTTATGGAAAGAAGGCGGAATGCAGGCAGGAAAGCAGACGGAAGATATGCTGATGCAGGAGGCGGGAATCGCACCGCTCGGCACAGATGCCGGCATCAAGGCTTTATATCAAGGCTTGATGAGCGGGACAGCCCGGATGACGGTTCTTGAAGGAGATGTGAAACACATGAAAGCAAAACTGTTCCGCAAAGAGAATGATCATCCGGAAACAGAGACCGGCGTACGTCATGACATTGATGCTGACAGCCTGCTTGAAAAAGTGAAGCATCTGTTAAAACAGCAGACGGCCTCATTGTTAAAAGTAAACATTGACAAAATTGATCCTCATGAAGAAATGACAAAATACGGGCTGGATTCTATCTCGATGACTGAGTTTACGAACCAGTTAAACAAAACGTACCGGCTTACGTTAACGCCGACGATTTTCTTTGATCATCCGACAATCCATGAATTTGCCGTTCATTTAATCAGTGAATACGAAGAGGAATTTGCCGGACGGTTTGCGGTAAATACAAAAACGGTTCAATCGGCAAGACCGGTAAAAGAGACTCAAATCACGCGCCCGGCCGTTAAGCGACGCCGCACTCTGCCTGAGACACTTCCGCAGACAGTGCAGCGGGACCAAGGGCCGGAACCGATCGCAATCGTAGGCATCAGCGGGATTTTCCCGATGGCAGAAGACATTGAAGCTTACTGGCAGAACCTGAAAGAAGGCAAAGACTGCATGACCGAGATTCCGAAAGACCGCTGGGACTGGCGGGACTATTACGGGGATCCCGCAAAAGAAGCCAATAAAACAAACGTCAACCAAGGCGGGTTTATTGACGGAATTGCTGAATTTGATCCATTGTTTTTCGGGATTTCACCGCGGGAAGCGGAGCAAATGGACCCTCAGCAGCGCCTCTTGCTGACGTATGCGTGGAAAGCGATTGAAGATGCCGGATATGCGTCAAAGAGTCTCTCAGGCACAAAGACAGGTGTGTTTATCGGGACCGGAAACACCGGCTACGGTTCTCTTTTAGCCAATGCCGATGCGGCGATTGAAGGGTCATCCGCGGCGAATACAAGTCCGTCTGTCGGACCGAACCGTGTCAGCTATACGCTCAATCTGCACGGGCCGAGCGAACCGATTGATACCGCCTGCTCAAGCTCACTCGTTGCCATACACCATGCCGTTTCTTCAATTGAAGAAGGGACGTGCGACATGGCTTTGGCAGGAGGAATCAATACGATTGTTCTTCCGGATGTGTATATCAGTTTTGACAAAGCGGGCGCGCTGAGTAAAGAAGGAAGATGCAAAACGTTCTCCGATCAGGCTGACGGTTTTGCCCATGGTGAAGGAGCCGGGCTCTTTTTCCTCAAAAAGCTGAAAGCCGCTGAGGAGGATGGGGACCATATTTACGGCGTCATTAAAGGAAGCGCGGTGAATCACGGCGGCCGTGCGGCATCTTTAACAACGCCTAACCCGAAACAACAGGCGGAAGTTATTAAAGCCGCATATAAAAAAGCGGGCATTGATCCGAAAACAGTCTCTTATATCGAAGCGCACGGCACCGGAACAGAACTGGGAGATCCCGTTGAAATTAACGGCCTGAAACAAGCGTTCAGCTCGTTTGCAGACGGAAAAGAGAAAGCGGCCGGCTATTGCGGCTTAGGGTCGGTCAAAACGAATATCGGCCACTTATCCCTTGCCGCGGGAGCAGCGGGCATTATTAAAATTTTGCTGCAGATGAAGCATCGGACATTAGTCAAAAGTCTCCACTGTGAGACGGTAAATCCGTATATTCAGCTTGAAGACAGTCCGTTTTACCTGGTGCGGGAGACGATGGAATGGAAGACGCAGACGGACGAACGCGGAAACGAACAGCCGCGCCGCGCGGGCATCAGCTCATTCGGCATCGGAGGCGTAAATGCCCACGTCGTCATCGAAGAATACATTCCAGAAGACAGAGAGGAAGCAGATGATTCTCATATCGACCCATGTCTTTTCGTTCTGTCCGCCAAAAATGAAAAACGCCTGAAAGAGCAGGCAAAACAGCTGAAACGTGCGCTTACTGAAAAACGGTACGATCATTCCAGCCTCGTTTCTATGGCATATACTCTCCAAATCGGAAGGGACGCCATGGAAGAACGCCTGGCGGTTATTGCCGGATCCGCAGAAGAACTGCAGGAAAAACTGTCACAGTTTATCACTGGAGATAAGCATGCGGATTTGTACAGAGGAAGAATAGACAAAGGCACGCTGCAAATGCTGACGGAAGATGAAGAAATTCAAGAAGCCGTTGAAAAATGGATGGCCCGCGGCAAATACGCGAAGCTGCTTGAATTGTGGGTCAAAGGGCTGAACGTCGATTGGGCGAAGCTGTATGGAGACCGGCCGCCTAAACGTATGAGCCTGCCGTCGTATCCTTTTGCAAAAGACCGTTATTGGGCGGCGAAACATACCGGAAAACACGAAAAAACAAAAACTGTATCTGCCGGAAAACAAGACGCGCTTCATCCGCTTCTGCACAGAAATACTTCAAACCTTGCAGAACAGCGGTTCAGTTCAATCTATACAGGGGAAGAATTTTACCTTGCGGACCATGTTGTAAAAGGCGTGCCGATTTTACCGGGAGTGGCACATCTTGAAATGGCGCGCGCAGCAATGGAACAGGCATCTGAAGTTCCGGCCGGACAAGGAAGCGTCAAGCTTAAGAATACGGTTTGGGTGCGGCCGATCACCATTGAAGACGAGCCGGTTCATGTCAACATCCGTCTCATTCCTGAAACGGCAAATGACGTTCAATTCGACATTTACAGCGGCCGGGAAACAGATCAGCCGTCCGTTTACAGCCAAGGGGCAGTATCAGTCCGCCCTGACGCAAAGGCACCGGTCATTGATCTCCAAAAGCTGAGATCACAATCCGCCGAGACATCGTTTTCTGCAGATGAAGTGTACGATATGTACCGCAAAATCGGTTTTGATTACGGCCCGGCTTTCCGGGGTGTCAAAGCGATTTATACAGGTGGTGATTTCGTATTGGGCAGACTGTCACTTGATGCGGCTTGTGCGGACACGGTACAGGAGTATGTCATGCATCCGGGCTTAATGGACTCTGCATTGCAGGCATCAAGCATATTAACCGGAACAAATGATGAAAAACTGATGCTTCCGTTTGCGGTTCAGGAGCTTGAAGTATTCAGCGCATGCGCTGCCGAGATGTGGGTTTACGCCACACTTTCTGAAGACCACAAAACCGGCCAGATTGAAAAACGCGATCTTGATATTTGTGATGAAAACGGCAAGGTGTGCGTAAGGCTGAAAGGTTTGTCATTCAGAACGGCTGAAAAAGAACCTGAGAAAAAAGAAAAAGCTCCGGAAACGCTCATGCTTGAGCCGGTATGGACCCGAAGCGATGAAACCGCCGTTCAAACGGAACCGGTTTTTGCCCGGCATATCGTGTTGCTTTGTGACACAGACGCAGGATTGAAACAAGCCGTTGAAGCCGCGGGAGCTGAATGTATTGAAATGACCTCCCAGCACGGGAAAGCGGCGGCGCGCTTCCGTGATTATACAGGACGGATATTGGAGACGCTGCAAAAACTGCTGAAGGAAGAGACGGATGGAGACGTCCTCATCCAGACGGTTCTCTCTAAAACAGATAAGCATCAGCTGCTCTCAGGGATTTCAGCTCTGTTAAAAACAGCCGGCCTGGAACATAAAAAACTGAAAACCCAGCTGATTGAAATAGAACCGGCGGAAAACGGAAGAATCACAGACATCATCAGAGAAAATAAAACACGGGCTGATGACAGCCATATCAAATATGAAAACGGCATCCGATACAGCGCAGATGTCAAAGAAACGGCCGTGTCCGGCGGCAAAATACGCATTCCGTGGAACGACGGAGGCATTTATCTCATTACCGGAGGAGCCGGGGGCTTAGGCTTTATTTTCGCGAAAGAAATCGCCCGCAAAGTCAAAGAGCCGACACTGATTTTGACAGGCCGTTCCGCTTTAAGCGAGAAACAGCGGATGCAGCTGCAATCGCTTGAATCAACCGGAGCAAAAGCGGAATACAAGCAGGCTGACGTAACAAACGCTCAAACTGCGGCAGACCTGGTCAAAACAATTGAGACGGAATATGGCGGCCTTCACGGCATCATTCATAGCGCGGGTGTGATGAAAGATCAGTATATCGCAAAGAAAACAACCGAAGAGTTTTACAGTGTATTGGCTCCTAAAACGGACGGATTTGTCAACCTTGATGAAGCAACCGAGCATTTAGCGCTGGACTTTTTCATTGTTTTCTCATCCATTTCCGGCGTCACCGGGAATGCGGGACAGGCGGATTATGCGGCGGCAAACGCATTTATGGACAGCTATGCGGCATACCGCAACGCACTGGTTACCGCAATGTACCGCCACGGTCACACATTGTCGGTCAATTGGCCGCTTTGGAAAGACGGCGGAATGCAAGTCAATGAAGAAATGGCGAAGCTCACCGAAAAAAGAACCGGTGTAACGCCGATGCGCACTGAAACCGGAATAGAAGCTCTTTACAAAGCATGGAGCACGGGGAAAACAAGCGTGCTCGTCATGGAAGGAAACCGCGCCGTAATGCGGGAAAAGCTGCTTCAAAAGACTCCTGCAGCCGCTTTTGCACCGGTTAAGAAAACGGATGAAACGGCTGTGCCGAAAGACCTGACGGCAAAACTTCAGGAATTGCTGGCAAAAGAGGTTTCCGGGCTTCTGAAAATAAACATTGAAGAAATCGATATCGAATTGGAGTTTAATCAATACGGATTTGATTCCATTACGCTGACGGAATTCGCCAACAAGCTGAATGACACTTATCAGCTTGATCTGACACCGACCGTATTTTTTGAATATGCGACGATTCAAGCCTTAGCGCATCATTTAGCAGAAGACTATCAAACACAATTTGCCGGCAGCACACAGCCGAAAGAAGAAAAACAAAGCAGCGTAACTGATGATGGCGGTATCAGACTGGCAGGGAACAAACGATTTGCAAAAACTGCCGTACAGCCTGTTCAGACGGCGGCTGAACATAAGCCGGAACCGATCGCTATTGTCGGCATGAGCGGAGTGTTTCCGAAGGCCGCAAATATTGATGAGTATTGGCGCAACTTAGAAGAGGGAAAAGATTGTATAACAGAGGTGCCGGCGGATCGCTGGGACTGGCGTGAGTATTACGGTGACCCGCTTAATGAAGCCAATAAAACAAATGTAAAGTGGGGCGGATTTATTGACGGAGTTGCGGATTTTGATCCGCTGTTCTTCGGAATTTCACCGCTGGAAGCCGAACAGATGGATCCCCAGCAGCGCTTGTTAATGATGTATGCGTGGAAGGCGATAGAAGATGCGGGATATTCCGCTAAAAGCCTTTCCGGCACGAAAACAGGCCTGTATATCGGCACGGGGAATACCGGATACGGCTCACTGTTTTCCGACCTGGATATCGGCGGTGCGTCAGCCGCAAATATGAGTCCGTCAGCGGGGCCGAACCGCGTCAGCTATATGCTTAATCTGCACGGGCCGAGTGAACCGATCGACACGGCTTGTTCCAGCTCGCTGGTCGCGATTCATCACGCCGTATGCGCCATTGAAAACGGGAACTGCGATATGGCGATCGCCGGCGGCGTGAATACCGTCGTCACTCCGCAAGGCCACATCGCTTATGACAAAGCGGGTGCGCTGAGCAAAGAAGGGAAATGTAAAACATTCTCCGACAGGGCGGACGGATTTGCTGTCAGTGAAGGTGCCGGAATTCTGTTTTTGAAAAAGCTGTCAGAAGCGGAAAAAGCGGGCGATCATATCTACGGCGTCATTAAAGGCAGCGCGGTCAATCACGGCGGACGCGCGAACTCCTTGACGACACCGAACCCGAAAGCCCAGGCGGAAGTCGTCAGAACGGCTTATGACAAAGCAGGCATTGATCCGAGAACCGTCACTTATATAGAAGCGCACGGAACCGGAACGGAGCTTGGCGATCCGGTCGAAATCAACGGCCTGAAATCCGCCTTTCAAAAGCTGTACGAAAAAACAGGCGATTCCGCCGTTTACGCGAGTCACTGCGGTCTGGGATCGGCCAAAACCAATATCGGCCACCTGTCACTGGCAGCCGGTGTCGCGGGTGTGATCAAAGTGCTGATGCAGATGAAGCATAAAACACTTGCAAAAAGCCTCCACAGCGAGGTCATCAACCCATATATCAAGCTGAAAGACAGTCCGTTTTACATCGTACAGGAAAAAAGAGAATGGACGGCATTAAAGGACGAAAACGGCAATCATCTGCCGCGCCGTGCGGGAATCAGTTCTTTCGGCATCGGCGGCGTAAACGCCCATGTCGTCATTGAAGAATATATCCCGAAGGAAGAAAGAAAAACAGCTGTTTTCACACACCCTCAAATCTTTGTGCTGTCGGCCAAAGAAGAAGAGCGTCTGCAGGAACAGGCGCAGCAGCTGGCGCAAGCTCCTTTTACGGATGCGGATCTTGCCGGTGTTGCTTACACGCTTCAGCAGGGACGGGATGCGATGGAAGAAAGAGCGGCCATTATCGCTTCCTCGGCCGAAGAACTGCGGGACAAGCTAAAGAGCTGTGCGAAAGGACGTTATGGTATAGCGGGCATTTATAAAGGAAAAGCGGGTAAAACCTCCCTGAAATCCATTCTGGCAGGCGCAAACAGCGAAGCGGATATCGAAGAGCTGATAAGCCGCCGAGAGAATGATAAGCTTGCGGAATTATGGGTGCAGGGCGCGGATATCAAATGGGACGGCTTATATTCAGATATCAAGCCCCAACGGATGAGTCTTCCTGCTTACCCGTTTGCGAAAGAGCGGTACTGGATCACGGACAATCGGCCGAAAGCAGAGAAACCGCAAGCTGTGCCGACGTCGCGGGTGCTGCACCCGCTGCTTCACGAAAATGTATCAGATTTAACAGAGCAGCGGTACCGATCCGAATTTACGGGACAAGAGACGATTTTCACCGATCATCTTATTAAAGGCAAGCCGGTTATGCCGGGCGTCGCCTACTTGGAAATGGCTAGGGCGGCGGTTGCTCAGGCAGTCAAAGGGCAAAAGGAACGTCCGTCTGTCACCCGCCTGAAAAACATCGTTTGGGTTCGGCCGATCGAAGCGGGAAACCGCCCGATTGAAGCGCAAATCAGCCTGAACCCGAGGGAAAACGGTGAAATCGTGTATGACATTTACACGGATTCACAAACAGAAGCAAGCGGCAGGCAGATACACTGTCAGGGGGCTGCCGGCATTCTCAGCGCCGGGGAGGCTCCGCACCGTGATATAGGCGCACTGAAAGCTCAATGCGGCCTCAGTATACTGACTTCTGAACAGTGTTACGGCTTATTCAGCAAAATCGGCATTGACTACGGTCCAGCACAACAAGGAATTCAGCACATTCATATCGGAAGCAATCAAGCATTAGCTGAGCTCCGGCTGCCTTCCTTCCTCGAAGAAACGGCAGATCAATACGTTCTTCACCCGTGTATGCTTGATTCAGCTTTGCAAGCGACAATCGGTCTGAAGCTGCACGCAGATGATAACCAGCTGTCACTGCCGTTCGCCCTTGAAGAACTGGACATTTTCAGTCCGTGCACGACAAGCATGTGGGCGTATGTCAGCTCCCGAGGAACGGATGAAAAAATACAGCGGCTGGACATTGACTTATGCGATGAGACCGGCCGGGTCTGTGTCAGAATTAAAGGGATTTCTTCCAGAATGATGGAAGGCCCCGCGCCGGAAACATCATTAAATGGAGCAAACCTTCTGGCTCCGGTGTGGGATCTCGCGGAATTCCGTGATCAAAGCCCGGCATATAAGACGGAAGAGGTTGTCTTTATCGCGGGGGATGAGGAAAGCGCGGTTTTTCAATTGCATCATCCTTCTGCGAAACGGCTTCATATCACCCCGGAGGATGAAATAGAGGCTGTTGCGGCTGAACTGAAAGCAACAGGGTCTTTCGGGCATATCGTATGGATCGCTCCTTTTCACAGCGCTGATGACATGGTAAAAGCTCAGGATGCGGGCGTCATCCAGATGTACAGAGTGATTAAGGCCATGCTTGCTTTAGGATATGGAGGCAAGCGAATCAGCTTGACTGCAGTCACAATAAAAACACAGTCCGTACAGCCGGCGGACATTATTGATCCGGCTCATGCAGGCATTCACGGTTTGGTCGGCTCGCTCGCAAAAGAGTATCCGAACTGGCAAACAAGGCTGATTGATGCCGGATGTCCGGAAGATGTTTCAAAGGCGGAGCTGTTCTCAGCGCCGTTTGATGAGCAAGGCAATACATGGGCGTACCGGAACAATCACTGGTACAAACAGCGCCTTATTCCTGTACAGCAGCCGGTGTCAAGCCGGCCCGCTTACCAACAAGGCGGCGTTTATGTCGTCATCGGCGGCGCGGGGGGCATCGGCGAGGCATGGAGCGAATATGCCGTGAAAACATATCAGGCGCGAGTCGTTTGGATCGGCAGACGAAAACATAACAGCGCCATCCAGGAAAAAATCGACAGACTCAGCCAATTCGGCCCGGCGCCGATTTATATTGAAGCTGACGCGGCAAATCCGAATGAGCTCACACGGGCGTATGAAACGATCAAACGCACGCACCCGCAAATTAACGGAATCATCCATTCCGCAATTGTTTTAGAGGATCAGAGCCTGAAAAATATGCCGGAAAGCCGTTTTAAAAGCGTGCTCGCTGCAAAAGTCAATGTCAGCGTGAATATGGCCCGCGTGTTCCAAAATGAGCCGCTGGACTTTGCTTTGTTCTTCTCATCTGTTCAATCATTTGCACGAGCGGCCGGACAAAGCAATTATGCTGCCGGGTGCAGTTTCAAAGATGCCTTTGCCGCTCATTTGGCTCAAGTCCGGCCGTATTCGGCGGCAGTGATGAATTGGAGCTATTGGGGCAGTGTCGGAATCGTATCATCTGCCGAATATCAAGAACGGATGAAACAGGCGGGAGTCGGATCAATTGAAGCGCCCGAAGCAATGGCGGCGCTTGAACGATTGCTCGGCGGCCCATTGAATCAGTTCGTCATGATGAAACAGGCGGAAGAGCCGGAGGAAAAACCGGAAGAAATGATAGAAGTATACCCTGAACATCACGGCTCGGCGATGCAAAAACTGCGAAGCTATCAGCCTAAAGTAACAAGACATGTACAACAATTGAGTTAA	MNHKELLDAYRSGTLTIAEVEQKLQAFKRTTAKRPLSEGQKGLWMLQKMFPEMSAYNIPLCFRFQKLDVETFKNALLSVQRQHPILTSVIKEENGLPYQIEDTDRHFPIEEMDLSELSGRDALSFIKEKAKEPFSLETGPLLRVQVFRRAKREPIVLITIHHIIFDGVSLMTFMSALLDAYVKASEGKEPVMLQQAADYHDFVKWEKELLESEAGKTHLSYWKKQLKGPLPVLELPSDYPRSSVQTCRGQAYQRLLPDELNRQIKVCAQKNNVNESVVYLAIFKGLLYQYTNQEDVIVGMPTMGRSEAQFESVIGYFINMIAVRSRETGAKSFTSFLKELQLTLAEGLDHAAYPFPALVKELKTERSPAVSPVFQTAFFYQNFFRTEGAEKLAELYQSLGIEMIEDIHQEGEFELALEVYKKETGTVLQFLYNPDVYSPSFIERMAEHYMKLAEKVLSDPEIAFEACSGLLNQKREASRSSHQPNERCIHEVFAEKAGRHPDREAVTFGENSLTYRELDERSTALAVYLQEKGVTPECPVGICTERSFEMVIGILAILKAGGAYVTLDPAFPNERMAHVLTDSGVSIVLTQAKTRGMIEQLAIGGVSTVEIENSGRSVSGAKLTPRSKPHHLAYILYTSGSTGKPKGVMVEHRAIMNTLQFLEAEYPVAQEDAYLLKTNYVFDVSISELFGWFIGNGRLVILPPGAEKNPQLCMEYIQTHQVTHLNFAPAVFNVFLETVKRHTAFTEDGPVKYVMVAGEAFPKDLVKKSVSIFKHARIENIYGPTETSIYAAYYSCGQKEITSRNTPIGKPIHNTRLYIVDEKLSPVPDGVAGELCVAGAGLARGYYNQPELTAASFIDNPFSEGEKLYKTGDLARWLPDGNIEYAGRIDSQVKIRGFRIELGAIETKLSEHPDILDQAVVVQEKNGHKKLIAYYTARAGHTADEKALRNHLLSSLPDYMAPAHFIRLDALPLTPSGKVNRKDLKQRKVIVHRSEKTGRLPLSEAEAKVTAIWEDLLNTAGIKIEDGFFDVGGDSLLAVAAAERIKQELECDFTVTDLFEHSTIQAISRFIVETKQAAESEVSGRDEREKEHTPQNGMPSYFEDSVAIVGISCQFPGAKNHHEFWKQLREGKESVRFYSKEELREAGVPEDLIENPDYVPALSTIEGKDLFDPEFFHISPKDAEFMDPQLRLLLLHSWKAVEDAGYVSKEIPKTSVYMSASNNSYRSLLPEKTTEGHESPDGYVSWVLAQSGTIPTMVSHKLGLKGPSYFVHSNCSSSLVGLYSAYKSITSGESEYALVGGATLHAATGIGYVHQNGLNFSSDGHVKAFDASADGMAGGEGAAVILLKKASQAVQDGDHIYAMLRGIGLNNDGADKVGFYAPSVKGQTDVIQHVLDSTNIHPETISYIEAHGTGTTLGDPIEMSALQQVYKRYTDREQYCGIGSVKTNIGHLDTAAGLAGCIKVAMSLYHRELAPTINYTSPNPNIKFSGSPFYVADKRKPLPERETPHRAALSSFGLGGTNAHAIFEQYENKTISGSKDGQPPFIVPLSARNKQRLTAYASCLSGFLDEAENDVSLHDLAFTYQTGREAMEERAVFISHDRHDLKRQLQDFINGNDQNILRGEKVRSREVSAQEMEELASCQTRDEKLKALAALWVEGARVDWGLLYQDSAPRRISAPTYPFAEERFWPEETVKQTDTKLLHPLVHQNTSVLQEQRFSSEFTGKEYFIAEHIIKGMAIVPAAVTLEMARAAAEKSIGGATEESLGLRLKNIVWVRPVIADQEAVRVHIRLYEEEDGQIHYRMYGGNDSIGEEAPLYNQGIAEIIRKEPEEAADIEQLKRRCTQGTIESQAFYKGMIGADYGPGYKGVQLVYKGEDRLLAKLKLPESVSHTKADYILHPSMMDGALQAAEYLQNVTRALLTESGEPFKAALPFALEELDVLNPCADDMWVHVTFSANNKAGDPIQKADIDLYDNNGGLCVRMRGFSTRIMEENTGAGISVSRTDTLLAEPVWKEQPEPAAHEPSYEEHIIFLCEYDEAVKQAVEAKLEHASVIILDDRPASIAERYHSYAGQMFDHIKTIMKSKPMGRVLLQAVTRSAGLQQVFSGITGLFKTACLEHSKLICQMIEAEEEESAEGIAEKASENRMHAESVHVKYENGKRFAAGWGEMDIPRAEPDIPWKDEGVYLITGGAGGLGLIFAKEIANRTKDAVIILTGRSALREKQKDMLETVRAAGASVFYEQTDVTDEAEVYRLIRNIRKRHGRLDGIVHSAGIIKDNYMVKKTAEEYQDVLAPKVKGLVYLDEASQHEKLDVFIVFSSLSGVLGSVGQADYASANVFMEMYAEYRRSLQAAGQRYGKTLSVSWPLWKEGGMQAGKQTEDMLMQEAGIAPLGTDAGIKALYQGLMSGTARMTVLEGDVKHMKAKLFRKENDHPETETGVRHDIDADSLLEKVKHLLKQQTASLLKVNIDKIDPHEEMTKYGLDSISMTEFTNQLNKTYRLTLTPTIFFDHPTIHEFAVHLISEYEEEFAGRFAVNTKTVQSARPVKETQITRPAVKRRRTLPETLPQTVQRDQGPEPIAIVGISGIFPMAEDIEAYWQNLKEGKDCMTEIPKDRWDWRDYYGDPAKEANKTNVNQGGFIDGIAEFDPLFFGISPREAEQMDPQQRLLLTYAWKAIEDAGYASKSLSGTKTGVFIGTGNTGYGSLLANADAAIEGSSAANTSPSVGPNRVSYTLNLHGPSEPIDTACSSSLVAIHHAVSSIEEGTCDMALAGGINTIVLPDVYISFDKAGALSKEGRCKTFSDQADGFAHGEGAGLFFLKKLKAAEEDGDHIYGVIKGSAVNHGGRAASLTTPNPKQQAEVIKAAYKKAGIDPKTVSYIEAHGTGTELGDPVEINGLKQAFSSFADGKEKAAGYCGLGSVKTNIGHLSLAAGAAGIIKILLQMKHRTLVKSLHCETVNPYIQLEDSPFYLVRETMEWKTQTDERGNEQPRRAGISSFGIGGVNAHVVIEEYIPEDREEADDSHIDPCLFVLSAKNEKRLKEQAKQLKRALTEKRYDHSSLVSMAYTLQIGRDAMEERLAVIAGSAEELQEKLSQFITGDKHADLYRGRIDKGTLQMLTEDEEIQEAVEKWMARGKYAKLLELWVKGLNVDWAKLYGDRPPKRMSLPSYPFAKDRYWAAKHTGKHEKTKTVSAGKQDALHPLLHRNTSNLAEQRFSSIYTGEEFYLADHVVKGVPILPGVAHLEMARAAMEQASEVPAGQGSVKLKNTVWVRPITIEDEPVHVNIRLIPETANDVQFDIYSGRETDQPSVYSQGAVSVRPDAKAPVIDLQKLRSQSAETSFSADEVYDMYRKIGFDYGPAFRGVKAIYTGGDFVLGRLSLDAACADTVQEYVMHPGLMDSALQASSILTGTNDEKLMLPFAVQELEVFSACAAEMWVYATLSEDHKTGQIEKRDLDICDENGKVCVRLKGLSFRTAEKEPEKKEKAPETLMLEPVWTRSDETAVQTEPVFARHIVLLCDTDAGLKQAVEAAGAECIEMTSQHGKAAARFRDYTGRILETLQKLLKEETDGDVLIQTVLSKTDKHQLLSGISALLKTAGLEHKKLKTQLIEIEPAENGRITDIIRENKTRADDSHIKYENGIRYSADVKETAVSGGKIRIPWNDGGIYLITGGAGGLGFIFAKEIARKVKEPTLILTGRSALSEKQRMQLQSLESTGAKAEYKQADVTNAQTAADLVKTIETEYGGLHGIIHSAGVMKDQYIAKKTTEEFYSVLAPKTDGFVNLDEATEHLALDFFIVFSSISGVTGNAGQADYAAANAFMDSYAAYRNALVTAMYRHGHTLSVNWPLWKDGGMQVNEEMAKLTEKRTGVTPMRTETGIEALYKAWSTGKTSVLVMEGNRAVMREKLLQKTPAAAFAPVKKTDETAVPKDLTAKLQELLAKEVSGLLKINIEEIDIELEFNQYGFDSITLTEFANKLNDTYQLDLTPTVFFEYATIQALAHHLAEDYQTQFAGSTQPKEEKQSSVTDDGGIRLAGNKRFAKTAVQPVQTAAEHKPEPIAIVGMSGVFPKAANIDEYWRNLEEGKDCITEVPADRWDWREYYGDPLNEANKTNVKWGGFIDGVADFDPLFFGISPLEAEQMDPQQRLLMMYAWKAIEDAGYSAKSLSGTKTGLYIGTGNTGYGSLFSDLDIGGASAANMSPSAGPNRVSYMLNLHGPSEPIDTACSSSLVAIHHAVCAIENGNCDMAIAGGVNTVVTPQGHIAYDKAGALSKEGKCKTFSDRADGFAVSEGAGILFLKKLSEAEKAGDHIYGVIKGSAVNHGGRANSLTTPNPKAQAEVVRTAYDKAGIDPRTVTYIEAHGTGTELGDPVEINGLKSAFQKLYEKTGDSAVYASHCGLGSAKTNIGHLSLAAGVAGVIKVLMQMKHKTLAKSLHSEVINPYIKLKDSPFYIVQEKREWTALKDENGNHLPRRAGISSFGIGGVNAHVVIEEYIPKEERKTAVFTHPQIFVLSAKEEERLQEQAQQLAQAPFTDADLAGVAYTLQQGRDAMEERAAIIASSAEELRDKLKSCAKGRYGIAGIYKGKAGKTSLKSILAGANSEADIEELISRRENDKLAELWVQGADIKWDGLYSDIKPQRMSLPAYPFAKERYWITDNRPKAEKPQAVPTSRVLHPLLHENVSDLTEQRYRSEFTGQETIFTDHLIKGKPVMPGVAYLEMARAAVAQAVKGQKERPSVTRLKNIVWVRPIEAGNRPIEAQISLNPRENGEIVYDIYTDSQTEASGRQIHCQGAAGILSAGEAPHRDIGALKAQCGLSILTSEQCYGLFSKIGIDYGPAQQGIQHIHIGSNQALAELRLPSFLEETADQYVLHPCMLDSALQATIGLKLHADDNQLSLPFALEELDIFSPCTTSMWAYVSSRGTDEKIQRLDIDLCDETGRVCVRIKGISSRMMEGPAPETSLNGANLLAPVWDLAEFRDQSPAYKTEEVVFIAGDEESAVFQLHHPSAKRLHITPEDEIEAVAAELKATGSFGHIVWIAPFHSADDMVKAQDAGVIQMYRVIKAMLALGYGGKRISLTAVTIKTQSVQPADIIDPAHAGIHGLVGSLAKEYPNWQTRLIDAGCPEDVSKAELFSAPFDEQGNTWAYRNNHWYKQRLIPVQQPVSSRPAYQQGGVYVVIGGAGGIGEAWSEYAVKTYQARVVWIGRRKHNSAIQEKIDRLSQFGPAPIYIEADAANPNELTRAYETIKRTHPQINGIIHSAIVLEDQSLKNMPESRFKSVLAAKVNVSVNMARVFQNEPLDFALFFSSVQSFARAAGQSNYAAGCSFKDAFAAHLAQVRPYSAAVMNWSYWGSVGIVSSAEYQERMKQAGVGSIEAPEAMAALERLLGGPLNQFVMMKQAEEPEEKPEEMIEVYPEHHGSAMQKLRSYQPKVTRHVQQLS	PGPT0010165_94	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|MACROLACTIN|DIFFICIDIN_METABOLISM,PGPT0010165-baeN|pksN|mlnB|mlnD|dfnG-K13614	NA	NA
D1-12_00900	7458	pksR	COG3319	Polyketide synthase PksR	TTGCAAAACACTGAAGATCTTCTTTACAAACTATTGGCAGGCCAGCTGAAATCTGTCGGATTTTTTACGGAAAACGAAACGCAGCCTGTCATGCAGGGGTTTTACGGCAGGTGGCTGGAAGAAAGCATCTCCATCTTGGTGCAAAAAGGCTTTTTGAAACAGTCTGGCAGTACGTATGTGTTAACGGGTCCGATAGAGCGTGCGGACGTTCTGTGGCAAGAATGGGATGAAAAGAAAGCTCCTTTACTCAAGGACAGCAGCAAACAGGCGATGATCACCTTAGTGGAGACCGCTCTCAGAGCTTTGCCGGATATTTTATCCGGCAGAGTTTCTGCCACTGATGTTCTGTTTCCTGATTCCTCAATGGAATTGGTTGAAGGAATCTATAAAAACAATGAAACGGCAGACTACTTTAATGAGGTGCTCGCTGACACATTGACGGCTTTCATTGAAGAACGCCTGAAAGAAGACCCGAACGCGGAAATCCGGATATTAGAGATCGGAGCGGGGACGGGCGGGACGAGCGCGGCCGTTTTCAAAAGATTAAAAGAGGTCAAACCTCATGTGAAAGAATATTGCTACACCGATCTGTCAAAGGCCTTTTTCATGCATGCTGAAAAAGAATACGGTCCCGACAATCCGTATTTGACTTATAAGCGGTTTAATGTGGAAGAGCCCCCGGCTTTGCAGGGTATAGAGGCGGGTGCATATGACGCGGTAATTGCGGCAAATGTGCTTCACGCGACAAAAAATATTCGGCGGACACTTCGCAATGCCAAAGCGGTGCTTAAAAAGAATGGGATTTTGCTATTAAATGAGATCAGCAGCCATTCGGTTTATTCTCATCTGACATTCGGTCTTTTGGAAGGCTGGTGGCTGTATGAAGACGCCAAACTGCGTATTCCCGGATGCCCGGGGCTGTATCCTGAAGCGTGGCAGTCTGCGCTGGAAAGCGAGGGATATCGGTACGTTACATTTATGGCGGAATCGTCACATCACCTCGGCCAGCAGATCGTGGCGGCAGAAAGCGACGGCGTCATCAGGCAAAAGCAGCCGGACGCGACGGCGGTTGAAGAAATTGCGGCTTCCAAAGAGCCGGCTGATTTCACAGAACCGTCTTTCTCAGTCACAGACCGGACTGTGCATTTCATAAAAGAAACGTTAGCCAAGTCCATAAAGCTTGCTCCCGAGCGCATTCAGCCGGAAACCAGCTTTGAAAAATACGGCATCGACTCCATTTTGCAGGTGAATTTTATCCGTGAACTGGAAACATTGACGGGCGAGCTGCCGAAAACGGTCTTATTTGAACACACGAATACGAAAGAACTTGCCGAGTATTTGCTGGAAACTTACCCGGATAAGCTGCAACAGGCATTCGGAGCCGAACAAGCGCCTCCTGAAACAAAGCATCCGGAACCTGCAATGAATGAACCGGTGCCGCTTGTCACGGAAACGCGGCGGTTTATCACTGAACAAATAGAGCCAAAAGCGCCAAAGCCGGAAACAGAAACCGTCACCGTTAATCGTTCTGATCGTGACGACATTGCCATTATCGGCATCAGCGGCCGCTATCCCGAGTCTGAAACCCTCGATGAGCTGTGGGAGCATTTAAAAGCCGGAGACAGCTGTATTACGGAAGCTCCGGAAAACAGATGGAAATCCGGTCTTCTGAAAACAATGGCAAAAGAAACACGAAAAGAAGAACGCAAAACACGGTACGGCGGATTTCTGCAGCATATTGACGCTTTTGACCATCACTTGTTTGACATCCGGGAAGACCATGTGATGGAGATGACGCCTGAGCTCCGTCTAAGCTTAGAAACCGTATGGGAAACATTTGAAAACGGCGGTTACTCGTTAGAAAGAGTAAACGAATGGCAGGAATCAGACAGCGGCATCGGTGTATTTATGGGAAGTATGTACAATCAATATTTCTGGAATATCCCGTCGTTGGAAAAAGCTGCGCTCAGCTCTAACGGAGGGGATTGGCATATCGCCAACCGCATTTCCCACTTTTTCAATTTAACGGGCCCGAGCATGGGCGTTACGACCGCATGCTCCAGCTCACTGAGCGCCATTCATCTCGCCTGTGAAAGCCTGAAGCTTAACAGCTGTTCCATGGCGATTGCCGGAGGGGTCAATCTCACGCTTGAACCGTCTAAATATGATGCGCTCGAACGGGCGAATTTGCTTGAACAGGGAAGTGAAAGCAAAAGCTTCGGAACCGGCACGGGCCTGATGCCGGGAGAAGGAGTCGGGGCGGTTCTCTTGAAGCCGCTCTCCAAAGCGGTTGCCGACAAAGACCATATTTACGGGGTCATTAAAAGCAGCGCGTTGTGCCATAGCGGCGGAAGGCAGATGTACACGGCTCCGGATCCGAAACAGCAGGCGAAGCTCATGGCGGCTTCCATCGACAAGGCCGGAATCAATCCGGAAACAATCAGTTATGTTGAATCAGCGGCAAACGGCTCTGTATTGGGAGATCCGATTGAGGTCATTGCCCTGACAAATGCGTTCACGCAATATACTGATAAAAAACGATTTTGCGCGCTTGGATCCGTCAAGTCAAATCTCGGGCATTTAGAGGCGGCCTCCGGCATGTCCCAGCTCGCGAAAGTGCTGCTGCAAATGGAGCGGGAAACATTAGTTCCGACCATTAATGCAAAACCGCAAAATCCGAATATCGCGCTTGAACAAACGGCCTTTTACCTGCAGGAGAAAACCGAGTATTGGGAGCGTATAAGGGATGCCGAGACGGGAGACATCATACCGCGGAGAAGCATGATCAATTCCTTCGGGGCAGGCGGGGCATATGCAAATCTCATCGTAGAAGAATATATCAGCCCGAATTCCGATCAGGCCCGTCACGGCGATGAGGAATACATTTTCCCTGTGTCAGCGAAAACAAAATGGAGTTTTGAAGCCTATCTTGAGAGACTGGCGGCCTTCTTAGAAAAGACGCCATCTCTTCATCCGGCCGCCATCGCATCCGCGCTGCAAAAAAGAACGCATCATTCGGAGTATCGGGCGGCATTTACGGCTTCCTCCGTTCTGGAACTGCTGGAAAAGCTGGCCGCTTACCGCATGGATCAGCGGAATCTCAATTTCTCCGATTCTGATATTGGCCGGCGTGCGCGGCAATGGGAAAAAGGAGAGAATATCGCGTTTGATCAGTTGCAGCAGGAGCACGCCGTTCATCTGCCGGCCTACGCTTTTGACCACGGGACTTCTTTTCAATTCGGTGAATCAGAAAACGCTGCCGGCGTTCAGGCGGTATACAGTGATGACGATCCATACGTGAAAGGGCATCAATTCAGCGGAGAACCGGTACTCGTCGGCGCTACATATAACAGTCTGGCAGTCGATCGTTTTTGTGATCTTTTTCCTGAAGCGGAAGGAGGACAAATTAAAAAACTGAATTACGTCAGCCCCATTACCGTAAAAAAAGGCGATCGCATCGAGCTGAAAACAGAATCGAAACAAAACGGGGATGGATTTGAACTGAGCATAATGCACCGCAGCCTCACGTCTCCCGGTTGGAGCATAGCGGCGTATGCCGAGTGCAGCCCGTATCCGTTTCAAAAGCAGCACGCGGATCTGGCGGCCATTCAGCGCTCTTACCGGGAAGTGGGCCGGATAGATGAGTTATACGGAGACGGAACGGGAACCGTCGTGTGGGGAGAAGAATTTAAAACGATCACCCGCCTGTACAAAGGCACTGATGCCGTTTTAGCAAAAGTGAACCTGAACAATAGCGACTCACAACAAGCGCATCATTATGCCGTAAATCCGTTCATCGCCAACAGTGCTTACTTGGCCTCGCTTTCTTTATTGGACCAAACGGAGGCGGAAAGCTATCTGCCGTTCGGCATTAATTCCGTCACCTTCAGCAGCCCGGAAGATCTTACCGATTGCTGGCTGCACATCAAGCTGGCCAAACAAACGGGGGAAATGATTCTGATTAACGCAGATGTCATCAGCAGCCGATCGGAAGTGGTGATGCGTTTTGAAGGCTATGCCCTGAAACGGTTCCGCCCGAAAACCGAACAGATGAATCATCCGGCCCGAACGGCTGTTAAGAATGCGGGAGCACCGATTTCTGCCGGCAGTCTGACAGATGATATCCGCAGCTACGTCCTTGGCAAGCTCGCCAAGATGATGGATGAACCCGCGCCATCTCTCCCGTCTGACGCGAATATCATGGAATTGGGACTTGATTCAGCGAGCCTGATCGGGCTGACAAAAGAGATCGGCCAAGAGGCGGACATCGATGTGAATCCAACATTGTTTTTCGAGTATCCGACCGCGGAGGAGCTGACCCGCCACTTCGCGTCAGCATATAAGAGCAAGTTTTCTCAACTGCTTGCCGATCATAAGCATTCAGAAGAGGTCAGGGTCACGGAAGCAGAAGAGCGCACTTTACCGAAGAAACAGCATCCGCCTTGTGATAACGCCGATATCAAGCAAGGAATCGCGATTATCGGTATGTCAGCTCAGTTTCCGCAATCCCCGGATATCCAGTCTTTTTGGGAGCACATCGTAAACGGGGATCACTGTATTACCGAAATTCCGGCGGACCGCTGGGACTGGCGCCGTTACGCCGGTGATGAGAATGACACGAGTCTCAGATGGGGCGGTTTTATTGACGGTGTCGGCGAATTTGACCCGCTCTTTTTCGGAATTTCCCCTAAAGAGGCATCACAAATGGGGCCGGAGCAATTTCTGCTTTTGATGCATACATGGAAGGCAATGGAGGATGCGGGCCTGACAAATAAGGCGTTATCAAGCAGACCGACAGGCGTTTTCGTTGCCGCGGGCAACAGCGATCCGAACAATGGAACAGCCATCCCGTCCATCATTCCGAACAGAATATCATATGCCTTGAATTTACAAGGACCGAGTGAATATTACGAGGCTGCCTGCACGTCAACGCTGGTGGCATTGCACAGGGCGGTTCAATCAATCCGTCATAACGAATGTGAGCAGGCTGTCGTGGGGGCCGCCAATATTCTGCAATCGCCGAAGGGCTTTATCGGTTTTGACTCAATGGGATATTTAAGCAAAAACGGCCGGGCGAAATCGTTCCAAAAAGATGCCGATGGCTTTGTCAGAAGCGAAGGGGCGGGCGTGATCATCATCAAACCGCTTGAGGCGGCAATTGAAGACGGCGATCATATTCACATGGTCATTAAAGGAACAGGAGTGTCTCACGGCGGTAAAGGCATGTCGCTTCACGCACCGAATCCGGCGGGAATGAAGGCCGCGATGAAAAAAGCGTACGAAGACACCGATGTTGATCCGCAAACCGTCACTTATATTGAAGCGCACGGCATTGCCTCCGAAATGGCAGATGCGCTGGAGTTTAATGCAATCAAAGCGGGTTACGGCGAGTCTGCAAATCAAGGGGAAAGCGCGCCTTGTTATATCAGCACCGTGAAACCTTGCATCGGGCACGGCGAACTCGCTTCCGGACTGGCCGCCCTTATAAAAGCGGCGATGGCCATGAAGCATCATACCATCCCGGGCATTCCCGGATTTACAGCTGCAAATGAGCAAATGGCCATTCAGAAAAGCCGCTTCCGTTTCACCGAAGACAATCAGGAATGGACACAGCTCACCGACCATATGGGCAGACCGATTCCGCGCCGGGCCGCAATTAACAGCTATGGCTTCGGCGGCATGAATGCGCATGTCGTCTTGGAACAGTACAGCCCGAGCCATAAAGACAAAGAATCTGCGTGTGAACCGCAGCTTATCGTGCTTTCTGCTAAGAGCGAAGGACGTCTTAAGGCGGCCGCAGGTCAGCTGGCTGATTTTGTGCAAACTGGAGATACTCCGTCATTGCGGGATATTGCTTATACGCTTCAGACCGGCCGTGAGGCGATGAACTGCCGCCTGGCACTCGTTGCCCGCAATCAAGATGAATTGCTGGAAAAACTGAAAGAGTACAGAGCATTTTCCGAAGAAAGCAATGGAATGAAAAGCTTCTTTACAGGCAGTCAGCAGACTGGATCAGGAGATATCGGCGTTTTACTGGAAGGGACTCTCGGTACAGTCGTCACGGAGACGCTGTTGGCTGAAAACAATCTGGAAAAACTTGCATTTTGCTGGGTGAAAGGTGCGGATATACCGTGGGACAGACTCCACCAAGGCAAATCTGTTCAAAGAGTGCCGCTTCCGACATATCCTTTTGAAAACCATAAGTATTGGAACGGCGGTCAGTCAGAAGACATCAGCCTTGCACCGGTATCACAGAATCCTCAGATCCGCTGCGAGAGCGCGGCTGACATTGTGGCAGACATTTTGGGGATGGAGCCAGCGGAAATGGATCAAAATAAGCCGCTGACTGAATACGGCTTCGATTCAATCTCCTCTATTCAGCTGTTGAAGAAACTTGAGGACGGAGACAGCCGCATCAGTCTGGAGGCTCTTCAGAAATGCAGCACTGTTCAGGAGATTAGCATGCTGTTAAAAACGAACCAATCGCAGGAGGCGGGCCGAAATTTTCCAGAACTCGTCAAGCTGAATGATAGAGAAAAAGGCCGTCCTGTTTTTTGGTTTCACGGCGGAACGGGAGGCGTTGAAGCATACCAGCCATTCGCCAAAAAGAGTCAGCGACCTTTTTACGGCATACAGGCAAGAGGTTTGACAGGGAAAGAGCCGCTGCAAGGAATCGAAGAGACGGCCGCTTCTTATATGAGAATCATCCAAGCGGTACAGCCGAAAGGGCCTTATGACCTCGGCGGATATTCCTTGGGCGGAATGCTTGCATATGAAACCGCGCGCCTCTTGCAGGAGGAAGGTCATACGGTAAAAAGCGCCGTCATGATCGACACCCCGTACAGTGAAAAATGGAAAGAAAGAAAACCATCTGTTAAGTCGGTCATGCTGCAAACGATCAATACGATGCTTACAGCATATCTTAAGCCTGAAAACCTTGAAGAGGCATTAATCAGCAGAGAAGACATTACCGTCCAGGCTGAGGAAGAAGAAGTATTGAAAGAATTGACCGGCCTTGCCAAAAAGCGCGGTCTGCCAAAATCCGAAGAAGCGATCCGGATGCAGCTGGAGCAAATGATGAAGACACAGCTCGCTTACGGAATGGAAGAGTATGACATGAAGCCGCTGCCTCATCCGGAAGCGCTGCAATGCTACTACTTCCGTAATAAAAGCGGTTTGTTCCTCGGAGATCTTGAACGTTATCTGACAGCAGAGGAAGAACAAATCCCGTTAGACCATGATGCGTATTGGAAAGAATGGGAACGCCAGATGAAACAGTTTCACCTGCTGGACGTTCACTCTTCCAATCATGTCACAATGCTGTCGGAACCAAAGCCGCAAAACGCCATTAAGGCATTCTGCGAAAAACTGTACGCAAACAAAGGAACGATCAGCGCAAATTTCCTTAAATCTTTCAGAAAAAAGCTGGACGAAACAAATGAGCTGGTAAAACGGTAA	MQNTEDLLYKLLAGQLKSVGFFTENETQPVMQGFYGRWLEESISILVQKGFLKQSGSTYVLTGPIERADVLWQEWDEKKAPLLKDSSKQAMITLVETALRALPDILSGRVSATDVLFPDSSMELVEGIYKNNETADYFNEVLADTLTAFIEERLKEDPNAEIRILEIGAGTGGTSAAVFKRLKEVKPHVKEYCYTDLSKAFFMHAEKEYGPDNPYLTYKRFNVEEPPALQGIEAGAYDAVIAANVLHATKNIRRTLRNAKAVLKKNGILLLNEISSHSVYSHLTFGLLEGWWLYEDAKLRIPGCPGLYPEAWQSALESEGYRYVTFMAESSHHLGQQIVAAESDGVIRQKQPDATAVEEIAASKEPADFTEPSFSVTDRTVHFIKETLAKSIKLAPERIQPETSFEKYGIDSILQVNFIRELETLTGELPKTVLFEHTNTKELAEYLLETYPDKLQQAFGAEQAPPETKHPEPAMNEPVPLVTETRRFITEQIEPKAPKPETETVTVNRSDRDDIAIIGISGRYPESETLDELWEHLKAGDSCITEAPENRWKSGLLKTMAKETRKEERKTRYGGFLQHIDAFDHHLFDIREDHVMEMTPELRLSLETVWETFENGGYSLERVNEWQESDSGIGVFMGSMYNQYFWNIPSLEKAALSSNGGDWHIANRISHFFNLTGPSMGVTTACSSSLSAIHLACESLKLNSCSMAIAGGVNLTLEPSKYDALERANLLEQGSESKSFGTGTGLMPGEGVGAVLLKPLSKAVADKDHIYGVIKSSALCHSGGRQMYTAPDPKQQAKLMAASIDKAGINPETISYVESAANGSVLGDPIEVIALTNAFTQYTDKKRFCALGSVKSNLGHLEAASGMSQLAKVLLQMERETLVPTINAKPQNPNIALEQTAFYLQEKTEYWERIRDAETGDIIPRRSMINSFGAGGAYANLIVEEYISPNSDQARHGDEEYIFPVSAKTKWSFEAYLERLAAFLEKTPSLHPAAIASALQKRTHHSEYRAAFTASSVLELLEKLAAYRMDQRNLNFSDSDIGRRARQWEKGENIAFDQLQQEHAVHLPAYAFDHGTSFQFGESENAAGVQAVYSDDDPYVKGHQFSGEPVLVGATYNSLAVDRFCDLFPEAEGGQIKKLNYVSPITVKKGDRIELKTESKQNGDGFELSIMHRSLTSPGWSIAAYAECSPYPFQKQHADLAAIQRSYREVGRIDELYGDGTGTVVWGEEFKTITRLYKGTDAVLAKVNLNNSDSQQAHHYAVNPFIANSAYLASLSLLDQTEAESYLPFGINSVTFSSPEDLTDCWLHIKLAKQTGEMILINADVISSRSEVVMRFEGYALKRFRPKTEQMNHPARTAVKNAGAPISAGSLTDDIRSYVLGKLAKMMDEPAPSLPSDANIMELGLDSASLIGLTKEIGQEADIDVNPTLFFEYPTAEELTRHFASAYKSKFSQLLADHKHSEEVRVTEAEERTLPKKQHPPCDNADIKQGIAIIGMSAQFPQSPDIQSFWEHIVNGDHCITEIPADRWDWRRYAGDENDTSLRWGGFIDGVGEFDPLFFGISPKEASQMGPEQFLLLMHTWKAMEDAGLTNKALSSRPTGVFVAAGNSDPNNGTAIPSIIPNRISYALNLQGPSEYYEAACTSTLVALHRAVQSIRHNECEQAVVGAANILQSPKGFIGFDSMGYLSKNGRAKSFQKDADGFVRSEGAGVIIIKPLEAAIEDGDHIHMVIKGTGVSHGGKGMSLHAPNPAGMKAAMKKAYEDTDVDPQTVTYIEAHGIASEMADALEFNAIKAGYGESANQGESAPCYISTVKPCIGHGELASGLAALIKAAMAMKHHTIPGIPGFTAANEQMAIQKSRFRFTEDNQEWTQLTDHMGRPIPRRAAINSYGFGGMNAHVVLEQYSPSHKDKESACEPQLIVLSAKSEGRLKAAAGQLADFVQTGDTPSLRDIAYTLQTGREAMNCRLALVARNQDELLEKLKEYRAFSEESNGMKSFFTGSQQTGSGDIGVLLEGTLGTVVTETLLAENNLEKLAFCWVKGADIPWDRLHQGKSVQRVPLPTYPFENHKYWNGGQSEDISLAPVSQNPQIRCESAADIVADILGMEPAEMDQNKPLTEYGFDSISSIQLLKKLEDGDSRISLEALQKCSTVQEISMLLKTNQSQEAGRNFPELVKLNDREKGRPVFWFHGGTGGVEAYQPFAKKSQRPFYGIQARGLTGKEPLQGIEETAASYMRIIQAVQPKGPYDLGGYSLGGMLAYETARLLQEEGHTVKSAVMIDTPYSEKWKERKPSVKSVMLQTINTMLTAYLKPENLEEALISREDITVQAEEEEVLKELTGLAKKRGLPKSEEAIRMQLEQMMKTQLAYGMEEYDMKPLPHPEALQCYYFRNKSGLFLGDLERYLTAEEEQIPLDHDAYWKEWERQMKQFHLLDVHSSNHVTMLSEPKPQNAIKAFCEKLYANKGTISANFLKSFRKKLDETNELVKR	PGPT0010170_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010170-baeR|pksR|dfnJ-K13615	NA	NA
D1-12_00901	1212	pksS	COG2124	Polyketide biosynthesis cytochrome P450 PksS	ATGGAAAAAACAATGTTTCACCCACACTCACCCGAGTTTCACGAAAACCCTTTTGCGGTTTTAAGCAGATTCAGAGAGCAGGACCCCATACATAAATTCGAACTGCAGCGTTTCGGAGGCACCTTTCCGGCTTGGCTCATCACGCGTTATGATGATTGTATGGCGTTTTTAAAAGACGGCAGAATTACGAGAGATGTAAAACGGGTCATGCCGAAGGAGCTGATCGCGAAGCTGAATGTCAGTGAAGATATCGATTTTGTCTCAGAGCATATGCTGGCAAAAGACCCTCCGGATCATTCACGTCTTCGATCTTTGGTGCATCAGGGGTTCACTCCCCGGATGATTGAGCAGCTTCGCACCGGGATAGAGCAGATCACAGAAGAGCTGCTGGATGAAATGGAAACAAAAGCAGACCCTGATATCATGAGAGATTTCGCCGCACCGCTTCCGTTTATCGTCATTTCCGAACTGCTCGGGATTCCGAAAGAGGACCGCGCCAAATTTCAAGTGTGGACAAACGCAATGGTCGACACGTCAGAAAGCGGACAAGATGCGACCAACCAGGCTCTCAAAGAATTTAAACAATATATGAAAACACTGATCGAAGAAAAAAGAAAACATCCGGCTGAAGATCTGACAAGCAAGCTTATTTACGCTGAAGAGGACGGCCAAAAGCTGAGTGAATCAGAGCTGTATTCCATGCTGTTTTTGTTAGTCGTTGCCGGGCTTGAAACAACGGTTAACCTTCTCGGCTCCGGCACCCTGGCGCTTCTTCTGCACAAAGACCAGATGGAGAAGATAAAGCGGCAGCCCGAAGATATCCAGACGGCAGTCGAAGAGCTTTTGCGTTATACCTCTCCCGTCATCATGATGGCGAATCGATGGGCGATTGAAGATTTCACTTATAAAGATGTTTCTATTAAAAAAGGTGATATGATATTTATCGGCATCGGTTCAGCCAATCGGGACCCGGAATATTTTGATGATCCTGATACATTAAATATAGCGAGAACACCGAACCGTCATATTTCTTTTGGATTCGGCATTCATTTTTGTCTCGGGGCTCCGCTCGCCCGGATGGAAGCATCCATTGCCTTTACCGCGCTTTTAAAACGGTTTCCGAATATAGAGCTGAAAGGCGCGCCCGAGGATGTAACATGGAGAAAAAATGTGTTTTTGAGAGGGCTTGAAACATTGCCTGTCAGATTTTAA	MEKTMFHPHSPEFHENPFAVLSRFREQDPIHKFELQRFGGTFPAWLITRYDDCMAFLKDGRITRDVKRVMPKELIAKLNVSEDIDFVSEHMLAKDPPDHSRLRSLVHQGFTPRMIEQLRTGIEQITEELLDEMETKADPDIMRDFAAPLPFIVISELLGIPKEDRAKFQVWTNAMVDTSESGQDATNQALKEFKQYMKTLIEEKRKHPAEDLTSKLIYAEEDGQKLSESELYSMLFLLVVAGLETTVNLLGSGTLALLLHKDQMEKIKRQPEDIQTAVEELLRYTSPVIMMANRWAIEDFTYKDVSIKKGDMIFIGIGSANRDPEYFDDPDTLNIARTPNRHISFGFGIHFCLGAPLARMEASIAFTALLKRFPNIELKGAPEDVTWRKNVFLRGLETLPVRF	PGPT0010175_20	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010175-baeS|pksS-K15468	NA	NA
D1-12_00902	435	nucB		Sporulation-specific extracellular nuclease	ATGAATGCGTTTATGAAATGGGCGGCAAGTCTGCTTTTGGTGATCTCTCTTCAGGTCGGCCTTACGGGCGACGGCATCCATTCGGACAGTGCTGCTCGTGCCGCATCCCGATACGATCAGGTGCTGTATTTCCCGCTGTCAAAATATCCGGAGACGGGAAATCATATAAAAGACGCCATTTCGGCAGGTCATTCTGAGATTTGTACAATTGATCGGGGCGGAGCGGAGAATAGAAGGAAAGAATCATTGAAAGGAATTCCGACAAAGCCCGGGTTTGACCGTGATGAATGGCCCATGGCAGTCTGCACAGAAGGCGGGGCGGGGGCTGATATCAGATATGTAACCCCGTCGGATAACCGCGGGGCCGGTTCATGGGTTGGAAATCAAATGAGCGGATACTCCGACGGCACGAGAGTACTATTTATCGTTCAGTAG	MNAFMKWAASLLLVISLQVGLTGDGIHSDSAARAASRYDQVLYFPLSKYPETGNHIKDAISAGHSEICTIDRGGAENRRKESLKGIPTKPGFDRDEWPMAVCTEGGAGADIRYVTPSDNRGAGSWVGNQMSGYSDGTRVLFIVQ				NA	NA	NA	NA	NA
D1-12_00903	717			hypothetical protein	ATGAGAAAGGATTGGATCACATTGACAGTGACTACATACCGAAATATTGCACTTTTACTTCTTTGTTTAACAGCGGGAATTGTGGATGTGATCGGTTATTTAAGCCTGGGACATATCTTTACCGCCAATATGACGGGGAACATCGTTCTGTTCGGCCTGGCGATCGGCAACTCATGGCACCTTGCCGTACTCAAATCATTAACCTCGTTAATCGGATTTATTGCCGGCGTTATTGCCGCGGCCCTGCTTGTGGGCAATAAAAAGAAATCATTCTGGCCCTCTGCGGTAACTGCCGCTTTAGCTATTGAAGGAGCTGTTTTGCTGCTGTTTGCTTTGTTCTCCTGCTTTTTTGCAGATGCCATTTCTGTTTATGTGCTGATTATGCTGCTCAGCTTCGCAATGGGAATGCAGACGACAGCCGCGAGAAAACTTGGTGTAGCGGGGATTTCCACGACCGTATTAACGGGAACGCTCGCTAATTTTTTTGAAGATCTCACCGCAAGGTTTTACAAAGCGGACAAGCGGAAGCAGTTTACGAGAGATGCTGTTTTGCGCGCGCTTGCCTTGGTTCTGTATTGCTTTGGGGCGGTCATCGGCGCTTTTGCCGAACCGGATTATAAGTTTGCCGTGATCTGGCTTCCGATTATCATTATTTTAGGCATTATGCTTTGCGCATTCACGATGTTCCACGGATATTCTGAAGAAAAAAACCAATAA	MRKDWITLTVTTYRNIALLLLCLTAGIVDVIGYLSLGHIFTANMTGNIVLFGLAIGNSWHLAVLKSLTSLIGFIAGVIAAALLVGNKKKSFWPSAVTAALAIEGAVLLLFALFSCFFADAISVYVLIMLLSFAMGMQTTAARKLGVAGISTTVLTGTLANFFEDLTARFYKADKRKQFTRDAVLRALALVLYCFGAVIGAFAEPDYKFAVIWLPIIIILGIMLCAFTMFHGYSEEKNQ				NA	NA	NA	NA	NA
D1-12_00904	363			hypothetical protein	ATGGCACTTACAAACACCGAATTGTCTGAATGGCTGCAAAAACAGATCGGACAAACGCTTGATATCAGAAAAGGAGAGCTGACAGACAGCCGAAACGAGATTTCTGACATGGACCAGATCATGCTTCACCTTGATGATGTTCTCGTCCGCCGGACAAACCATCCCGATGACTATGTAGCGGACGAAGAGCTCGTCTTAAAAGGGCACGGCACAACCTATACGGAGGAAGGAAATGTCCCGCTTCCTCAAGATGCGTATGAAATCCCTCTGCTCGGCGATATTACCATCCAAAAGGAGCAAGACGGATTAAAGGTACATACAGATCGGGCCGTGTATACAATCGGGACCCGGAAAGAGCAATAA	MALTNTELSEWLQKQIGQTLDIRKGELTDSRNEISDMDQIMLHLDDVLVRRTNHPDDYVADEELVLKGHGTTYTEEGNVPLPQDAYEIPLLGDITIQKEQDGLKVHTDRAVYTIGTRKEQ	PGPT0014324_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014324-ymzB-NA	NA	NA
D1-12_00905	1329	aprX	COG1404	Serine protease AprX	ATGTTTGGTTACTCAATGGTACAAATGGTGCGGTCAAATGCTCATAAGCTGGACTGGCCGCTCAGAGAAAACGTATTACAGTTATATAAACCTTTCAAATGGACACCTTGCTTTTTGCACAAGTTTTTCGAAAAAAAGGTAAAAAACAGAAAGAAAATGTCAGTCATCATTGAATTTGAAGAGGGCTGTCATGAATCCGGTTTTCACAGCACAGGACAGGTCTTATCAAAAGAAAAACGCTGCACCATAAAAAAGCAGTTTCAAACAATCAATTGCTGCAGCGCCGAAGTCACTCCGTCCGCCCTTCACATGCTTCTTTCGCAATGCCGGGATATCCGTAAAATCTATTTAAACCGTGAAGTAAAAGCGCTCCTTGATACGGCAGCTGAATCGTCTCATGCAAAAGAAGTGACCCGTAACGGCACCGTATTAACAGGAAAAGGCGTAACCGTCGCCGTTATTGATACCGGAATCTATCAGCATCCCGATTTAGAAGGCAGAGTTATCGGATTTGCGGACTTCGTCAACCAAAAGACAGAACCGTATGACGACAACGGGCACGGCACCCATTGCGCCGGTGATATTGCAAGCAGCGGCGCTTCATCTTCCGGTAAATATCAGGGGCCGGCGCCGGAAGCCGATCTGATCGGAGTCAAGGTTTTAAACAAATCAGGATCAGGAACCTTGGCTGATATCATTGAAGGTGTGGAATGGTGCATACAATATAATAAAGAACACACGAAGAATCCGATCAGAATCATCAGCATGTCACTGGGCGGAGATGCGCTCAGATATGATAAAGAAACGGACGATCCGCTCGTCAAGGCCGTTGAAGAGGCATGGAATGAAGGAATCGTCGTCTGCGTCGCCGCGGGCAACTCCGGTCCGGAAGCTCAAACGATTTCAAGCCCCGGTGTCAGCGAGAAGGTCATCACGGTAGGCGCCTATGATGACAATAATACGGCCGGCAATGAGGACGATACGGTCGCTTCATTCTCAAGCCGCGGCCCGACGGTGTACGGAAAAGAGAAGCCTGACATTCTTGCGCCCGGGGTCGATATCGTATCTCTCCGTTCTCCGCGTTCATATCTTGACAAATTACAGAAATCAAACCGGGTAGGCTCCTTGTATTTCAGTCTGTCGGGCACGTCCATGGCCACTCCGATCTGTGCTGGCATTGCCGCCTTAATCCTTCAGCAGAACCCGCAGCTTTCGCCTGACGAAGTGAAAACACTGATCAAACAAAGTCCGGATCAATGGACAAATGAAGATCCGAACATTTACGGAGCGGGCGCAGTAAACGCTGAAAACGCCGTGCCGAAAGAGTAA	MFGYSMVQMVRSNAHKLDWPLRENVLQLYKPFKWTPCFLHKFFEKKVKNRKKMSVIIEFEEGCHESGFHSTGQVLSKEKRCTIKKQFQTINCCSAEVTPSALHMLLSQCRDIRKIYLNREVKALLDTAAESSHAKEVTRNGTVLTGKGVTVAVIDTGIYQHPDLEGRVIGFADFVNQKTEPYDDNGHGTHCAGDIASSGASSSGKYQGPAPEADLIGVKVLNKSGSGTLADIIEGVEWCIQYNKEHTKNPIRIISMSLGGDALRYDKETDDPLVKAVEEAWNEGIVVCVAAGNSGPEAQTISSPGVSEKVITVGAYDDNNTAGNEDDTVASFSSRGPTVYGKEKPDILAPGVDIVSLRSPRSYLDKLQKSNRVGSLYFSLSGTSMATPICAGIAALILQQNPQLSPDEVKTLIKQSPDQWTNEDPNIYGAGAVNAENAVPKE				NA	NA	NA	NA	NA
D1-12_00906	234			hypothetical protein	ATGAACATAATATTGAGACATTCCTTGGAAAAACAGCTTCCGATTGATATTATATATATGAAAAAAGACGGCTCCATTTCAAAACGGACCATTATTATAAAAAAAGGGGATGAGCGGGCTGTAACGGCATTTTGCTGTACAAAAAGGCAGATGAGAACTTTTTTGACGGGCTCCATTCTGTCCTGCGCATTTGCTTCGGGAGGCGGATATTCATTTTTAAAAGCGTATTCTTGA	MNIILRHSLEKQLPIDIIYMKKDGSISKRTIIIKKGDERAVTAFCCTKRQMRTFLTGSILSCAFASGGGYSFLKAYS				NA	NA	NA	NA	NA
D1-12_00907	708			hypothetical protein	ATGAAAAGAATTTTACTTAATGTCATCATTATCGTAGCAATGGTCTTACTAATAAGATGTGCTCATTATGCGTCAGACCCTGATCCCTCGAATTCTTCTGATACATACACAGATTTTAAAGATCTGGCTGAACACGAAGACCCCGATGATTATCATATATCGTACAATAAGCGAAAGGGGAGCCCCGTATTGATCATGTCGCCGCACGGAGGGAGAATTGAGGGCGGGGTGAGCGAGATCGTCCGCTCTTTCAGGGATGATTATTCAACCTACCTGTTTGAGGGATTAAAAGCGCATGATAACCAGACTCTTCATATTACGAGCACCAAGTTCGATGAGCCTTCAGCAGTCGAAAGCATTAAGCAGCACCATTATGTTATCGCAGTTCACGGTTATAAAGGCGACGAGAAAAATACTCTTGTCGGAGGAAGCGACCGGAAGCGGGCGAAAAAATTGGTGAGAGCTCTCGAACGAAACGGATTTTCTGCAGAATTGGCAACCTCAAAAACCGGTCTGGCCGGGGTTGACACCGAAAATATCAATAACCAGGCGCAAACCGGGCTGAGCATACAGCTTGAGATCAGCAGAAAACAGCGGGAAGCGTTTTTTGATAATTTTGATTACCGCGAAAGGGAATTCACAAAAACGGAGGAATTTTACCGGTTTGTCCGTACGATAAAAAGAGTGATCAATCAAGAGTATTCGTGA	MKRILLNVIIIVAMVLLIRCAHYASDPDPSNSSDTYTDFKDLAEHEDPDDYHISYNKRKGSPVLIMSPHGGRIEGGVSEIVRSFRDDYSTYLFEGLKAHDNQTLHITSTKFDEPSAVESIKQHHYVIAVHGYKGDEKNTLVGGSDRKRAKKLVRALERNGFSAELATSKTGLAGVDTENINNQAQTGLSIQLEISRKQREAFFDNFDYREREFTKTEEFYRFVRTIKRVINQEYS				NA	NA	NA	NA	NA
D1-12_00908	453			hypothetical protein	TTGGCAAAACATCACTTCTATTTAAAAGCAAATTGGCCCGGAAATCGGAATGACGTCGGCGATATTAAAAGCGGCCGGCTGGAAACGGCTGTGTCCATTCCTAAGGAAATGGACGGACCCGGAGAAGGCACAAATCCTGATGAAATGCTGCTTGGAGCGGCCGCGACCTGTTATATTATAACGCTTGCGGCGATGATGGAAAGAAGCGGCCTGGATAAAGAAGATCTACATATGGAATCTGAAGGAATTGTAGACGTCACGAATGGTGTGTTCACGTACCAGAAAATCATTCACCGCCCGTTTATATTATTAAAGCCGGATGCAGCCGAAACGGATTTTACGCTCGCCAGGAAGTTAGCGCAAAAAGCGGAGTCCTCATGTATGATTTCACGAGCGGTCCAAGGAAACGTGGAGATGGAGCTTGAGGTTGAAGTAAAAGCTGCCCGCGCTTGA	MAKHHFYLKANWPGNRNDVGDIKSGRLETAVSIPKEMDGPGEGTNPDEMLLGAAATCYIITLAAMMERSGLDKEDLHMESEGIVDVTNGVFTYQKIIHRPFILLKPDAAETDFTLARKLAQKAESSCMISRAVQGNVEMELEVEVKAARA				NA	NA	NA	NA	NA
D1-12_00909	354	ebrB		Multidrug resistance protein EbrB	ATGAAAGGATTACTCTGCCTGGCATTAGCCATTGTATCAGAAGTGTTCGGGAGCACGATGCTGAAGCTGTCGGACGGTTTTACGCACCTGTGGCCCGCTCTCGGCGTCATTGCCGGAATCGGAGCCTCTTTTATGTTTTTGAGCTTCTCATTGAAAAGCCTTGATTTATCCGCCGCATACGCGACATGGTCAGGTGTCGGCACCGCTTTAACGGCAATTGTCGGCTTTTTTGTTTTTAAGGAGGCCATGACAGTCAAAATGATGATCGGGCTTGTTTTGGTCATCACGGGCGTCATCCTGCTGAACCGTTCCAAGTCCCAAAAAGCTAAAAAAAATCAAACGGCCCGGAGCTGA	MKGLLCLALAIVSEVFGSTMLKLSDGFTHLWPALGVIAGIGASFMFLSFSLKSLDLSAAYATWSGVGTALTAIVGFFVFKEAMTVKMMIGLVLVITGVILLNRSKSQKAKKNQTARS	PGPT0029020_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029020-ebrB-K11815	NA	NA
D1-12_00910	333	ebrA		Multidrug resistance protein EbrA	ATGAGAGGGGGATTTGATATGATTCTGGGTTATATCTTCCTCACAATTGCTATTTTATCAGAGTCAATCGGCGCGGCCATGCTGAAAGTCTCCCGCGGATTTACGCGGTTTTTGCCGAGCGCGCTTGTAGTGGCAGGCTATTCATTGGCCTTTTATATGCTTTCACTGACACTGAATCTCATTCCGCTCAGCTTATCCTATGCAACATGGAGCGGAGCCGGAACGGTGCTTGCATCCATTATCGGAGCGAAATGGTTTCATGAAAAACTGGACAAGCAGGCCGTCATCGGACTCTTTTTCTTATTGGCCGGTGTCATTTTGATGAATTGGTAG	MRGGFDMILGYIFLTIAILSESIGAAMLKVSRGFTRFLPSALVVAGYSLAFYMLSLTLNLIPLSLSYATWSGAGTVLASIIGAKWFHEKLDKQAVIGLFFLLAGVILMNW	PGPT0029015_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029015-ebrA-K11814	NA	NA
D1-12_00911	291			hypothetical protein	ATGAATGAAGAATACACATACGCAGTAGATAGTGATATGAGACCGTTTGGGCGGCCTGGATTTGGGTTCGGACGGCCGGGCTTCGGATTCGGACGGCCCGGATTCGGATTTGGATTCGGACGGCCGGGTTTTGGATTTGGCCGGCCTTGGTTTGGTTATGGATTCGGACGGCCGTTTGGTTTTTACGGCGGACCGTTTTTCGGAGGGCTTGTCGGGGGGCTTGTCGGAAGCGCTTTATTCAATCCGTACTTGTACGGGGGTTACGGCTACGGCTATCCGTATTTCTATTGA	MNEEYTYAVDSDMRPFGRPGFGFGRPGFGFGRPGFGFGFGRPGFGFGRPWFGYGFGRPFGFYGGPFFGGLVGGLVGSALFNPYLYGGYGYGYPYFY				NA	NA	NA	NA	NA
D1-12_00912	405			hypothetical protein	GTGGGTCTGTATCAGTCCGATTGGTCAAAAAAACCTCCGCACACACACGCATACCGGGCGGTTACGGATGTTGTGCAGGGGCATTACCATTTGATCGAAGGCTTTTCGCAGCCGGAGAACGGCAGCAATACAGATGAGCATACACATTTCTATACGGGCATCACCTCGTTTGAAAACGGCCATTTTCATAGGTATTACGGCATTTCCGGCCCTGCCATCCCGAGGGTTGACGGAACACATTACCATGAGCTTTCAGAGACCACCTTTGCCGCCTACAATGAGCCGATTCAGATCCAGCACGGCGGCGTCGTTTACGATCCGCGGGAGGAAGGACGGAAAACGCACCGCCATACACTCAAAGGAAAAACGAGAGAGGTTGTCGGAAACGAGCCGATCGGGTGGTAG	MGLYQSDWSKKPPHTHAYRAVTDVVQGHYHLIEGFSQPENGSNTDEHTHFYTGITSFENGHFHRYYGISGPAIPRVDGTHYHELSETTFAAYNEPIQIQHGGVVYDPREEGRKTHRHTLKGKTREVVGNEPIGW				NA	NA	NA	NA	NA
D1-12_00913	945	miaA	COG0324	tRNA dimethylallyltransferase	TTGAAAAATAAAAAACAGCCTGTCGTCATACTCGTCGGACCGACGGCAGTCGGAAAAACAAAACTAAGCATCGGACTCGCGAAAATGCTGAATGCGGAAATCATCAGCGGAGATTCCATGCAGGTATATAAAGGGATGGACATCGGAACGGCCAAAGTCACCGAAGAAGAGACAGAAGGCGTGCCGCATCACCTGATTGATATTTTGGAGCCGTCCGACACTTTTTCAACGGCGGATTATCAAAAAATGGTGAGAGGAAAAATCACCGAGATTGCCGATAGAGGAAAGCTGCCGATGATTGTCGGGGGGACGGGTCTGTACATTCAGTCCGTGCTGTATGACTATACGTTCACGGAAAACTCCGGCGACCCTGTATTCCGGGAGCACATGGAGAAACTGGCAGCTGAAGAAGGGGCGGAAGCGCTTCATGCCAAGCTTGCGGCAGCCGACCCGGAAGCGGCGGCAGCCATTCATCAAAACAATACGCGAAGAGTCATCCGCGCGCTCGAAATCCTGCATGTATCGGGAAAAACAATGTCAGAGCATCTTAAAACCCAAAAACGGGAGCTGCTTTACAATGCGATTCTTATCGGTCTTACAATGGACAGAGAAGTGCTGTACGGCCGGATTAACGAGCGCGTTGACCTGATGCTGGAAACCGGCCTTCTTGACGAAGTAAAGCGGCTGTATGATATGAATATCCGGGACAGCCAATCGATTCAGGCGATCGGCTATAAAGAGCTGTATGAATATCTTGATGGAAAAGTGCCGTTCCCTCAGGCTGTGGAGCAATTAAAACAAAATTCTAGGCGATATGCGAAACGCCAGCTGACCTGGTTTCGCAATAAAATGCCCGTTTCATGGACAGATATGACGCCGCCTGTTGATATTGAGCAGAAAAAAAAGGAAATTTTCGAGTGCATAGCAGGAAAACTGGAAATTTAA	MKNKKQPVVILVGPTAVGKTKLSIGLAKMLNAEIISGDSMQVYKGMDIGTAKVTEEETEGVPHHLIDILEPSDTFSTADYQKMVRGKITEIADRGKLPMIVGGTGLYIQSVLYDYTFTENSGDPVFREHMEKLAAEEGAEALHAKLAAADPEAAAAIHQNNTRRVIRALEILHVSGKTMSEHLKTQKRELLYNAILIGLTMDREVLYGRINERVDLMLETGLLDEVKRLYDMNIRDSQSIQAIGYKELYEYLDGKVPFPQAVEQLKQNSRRYAKRQLTWFRNKMPVSWTDMTPPVDIEQKKKEIFECIAGKLEI	PGPT0007210_2565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
D1-12_00914	222	hfq	COG1923	RNA-binding protein Hfq	ATGAAACCGATTAATATTCAAGATCAGTTTTTGAATCAAATCCGAAAAGACAATACGTTCGTCACGGTGTTTTTACTCAACGGCTTCCAGCTTCGCGGCCAGGTAAAAGGCTTTGACAACTTTACCGTTTTGCTCGAAACGGAGGGGAAGCAGCAGCTTATTTATAAACATGCCATCTCCACGTTCGCCCCGCAAAAAAACGTCCAGCTTGAGCTTGAATAG	MKPINIQDQFLNQIRKDNTFVTVFLLNGFQLRGQVKGFDNFTVLLETEGKQQLIYKHAISTFAPQKNVQLELE	PGPT0025560_1987	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
D1-12_00915	276	ymzC		putative protein YmzC	GTGTTCGAAAGTGAAAATGAACTGAGAAGAATCAGGATTACGCTCGTTTGGATCGCTGTTTTTTTGCTGTTTGGAGCTTGCAGCAATCATGAGACGGTGGTGACGGATGATGACGGCGGCTTGGCGGATACCGAACCGCAGACAGAAGGCATGGTGCAGCTGGAACATAATCGTTTCGGCATCGTTGAGGACGGTTACTTAAAAATATACCGCTATGATGAAAAAACGAATAAAATCGAACTGAAAAAAGAAACGGCGCTGGATGAGCTTGAATAA	MFESENELRRIRITLVWIAVFLLFGACSNHETVVTDDDGGLADTEPQTEGMVQLEHNRFGIVEDGYLKIYRYDEKTNKIELKKETALDELE				NA	NA	NA	NA	NA
D1-12_00916	216			hypothetical protein	TTGAAACACAAGGTGATAATCAACCATTGGGAAGAAACTTGTGAAGATGATTCCTGCTATGAATATGGAACCAGCATCATCGTTGACGGCAAAGAACTGATCAGAGAGGCTTCCATCACAAGCGCTCTGAAAGCCGTGCTGAAAGAAATCGGTGCTGATGTGGAGATTGAAGAAACCGTTGAAAGCGAAAAAAAATGTGATTCTTACAAAAAATAA	MKHKVIINHWEETCEDDSCYEYGTSIIVDGKELIREASITSALKAVLKEIGADVEIEETVESEKKCDSYKK				NA	NA	NA	NA	NA
D1-12_00917	393	nrdI	COG1780	Protein NrdI	ATGGTTCAAATCATATTTGATTCAAAGACAGGGAATGTTCAGCGTTTTGTGAATAAAACAGACTTTCAGCTGATCCGCAAGGTGGACGAAACGGACCACGTGGACACTCCGTTTGTTTTGGTCACCTACACGACAAACTTCGGCCAGGTACCGGCATCAACACAATCATTTCTCGAAAAATACGCCCATCTCTTATTAGGAGTCGCTGCGAGCGGCAACAAAGTATGGGGCGATAACTTTGCAAAAAGCGCCGATACCATTTCAAGACAATATCAGGTGCCGATCTTGCACAAATTTGAACTCAGCGGCACATCTAAAGACGTTGAATTGTTTACTCAGGAGGTAGAAAGACTTGTCACAAAATCAAGTGCCAAAATGGATCCAGTTAAATAA	MVQIIFDSKTGNVQRFVNKTDFQLIRKVDETDHVDTPFVLVTYTTNFGQVPASTQSFLEKYAHLLLGVAASGNKVWGDNFAKSADTISRQYQVPILHKFELSGTSKDVELFTQEVERLVTKSSAKMDPVK				NA	NA	NA	NA	NA
D1-12_00918	2103	nrdE	COG0209	Ribonucleoside-diphosphate reductase subunit alpha	TTGTCACAAAATCAAGTGCCAAAATGGATCCAGTTAAATAACGAAATCATGATCCAACAAGATGGAAAATTCCAGTTTGATAAAGATAAAGAGGCTGTACATAGCTATTTTGTTGACTATATCAATCAAAACACAGTTTACTTTCACGATTTAAAAGAGAAGCTGGATTATTTGATTGAAAACCAATACTACGAAGAGGAATTCTTAAGCCTTTACTCTTTTGAAGACATTAAAGAAGTGTTTAAGACAGCTTACGCAAAGAAGTTTCGTTTTCCTTCCTTCATGAGTGCGTTTAAATTTTATAATGACTATGCTTTGAAAACGAATGACAAGAAAAGAATTCTCGAGCGTTATGAGGACCGAATCTCAATCGTCGCGCTGTTCTTCGCAAACGGCGACACTGAGAAAGCAAAAGAATATGTAAACCTGATGATCAACCAGGAATATCAGCCGAGTACACCGACATTTTTGAATGCCGGCAGAAAACGCCGCGGAGAACTGGTGAGCTGCTTCTTGCTCGAAGTCAATGATTCCTTAAACGATATTTCACGGGCGATCGATATTTCCATGCAGCTGTCTAAATTGGGCGGCGGGGTTTCTCTTAATCTGTCCAAGCTTCGCGCGAAAGGCGAAGCGATTAAAGATGTTGAAAACGCCACAAAAGGTGTTGTAGGCGTCATGAAGCTTCTTGATAATGCGTTCCGTTACGCTGACCAAATGGGCCAAAGACAAGGCTCAGGCGCGGCGTATTTAAATATTTTCCACCGCGATATCAATGATTTTCTTGATACGAAAAAGATTTCTGCGGATGAAGATGTGCGCGTCAAAACGCTTTCTATCGGTGTCGTCATTCCGGATAAGTTCGTTGAGCTTGCGCGTGAGGATAAAGCGGCTTATGTATTCTATCCGCATACGATTTATAAAGAATACGGCCAGCATATGGACGAAATGGACATGACGGCGATGTATGAAGAGCTTGTCGACAACCCGCGTGTCAAAAAAGAAAAAGTGAATGCGCGCAAATTGCTTGAAAAGCTTGCCGTTCTCCGTTCTGAGTCAGGTTATCCGTACATTATGTTCCAGGATAACGTAAACAAAGAGCACGCGAATAACCACGTATCAAAAGTGAAATTCTCGAACCTTTGCTCTGAAGTGCTTCAGGCGTCACAGGTTTCGGCTTACACAGATTATGACGAGGAAGACGAAATCGGCTTGGACATTTCCTGCAACCTTGGTTCATTAAATATACTGAATGTCATGAAACATAAATCGATTGAGCGCACGGTGAAACTCGCGACGGATTCCCTGACTCATGTATCTGAGACGACGGATATCCGCAACGCGCCGGCAGTCAGACGCGCGAACAAAGCGATGAAGTCAATCGGTTTAGGCGCCATGAACCTTCACGGCTACCTGGCCCAAAACGGCATCGCGTATGAAAGCCCGGAAGCAAGAGATTTTGCGAATACGTTCTTTATGATGGTGAACTTTTATTCCATCCAGCGTTCAGCTGAGCTTGCGAAAGAAAAAGGCGAAACGTTTGAGCATTATGAAGGCTCCACTTATGCAACGGGAGAATATTTCAATAAATACATCGAAAAAGAGTTCTCACCGGCATACGAAAAAATCGCTGCGCTCTTTGAAGGCATGCACATTCCGACAATCGAAGACTGGAAAGAGCTGAAGGCGTTTGTCGCTGAAAACGGCATGTACCACAGCTACAGACTGTGCATCGCGCCGACAGGCTCCATTTCCTACGTCCAATCCAGCACGGCGTCCGTTATGCCGATCATGGAACGGATCGAAGAAAGAACATACGGAAATTCAAAAACGTATTACCCGATGCCGGGGTTAGCGTCTAATAACTGGTTCTTCTACAAAGAAGCTTATGATATGGACATGTTCAAAGTGGTGGATATGATCGCGACAATCCAGCAGCATATCGATCAGGGAATCAGCTTTACCCTGTTTTTGAAAGATACGATGACAACTCGTGATCTGAACCGTATTGATCTGTATGCCCACCATAGAGGCATCAAAACCATTTACTATGCAAGAACGAAAGATACCGGGCAGGACAGCTGTCTTTCTTGTGTCGTTTGA	MSQNQVPKWIQLNNEIMIQQDGKFQFDKDKEAVHSYFVDYINQNTVYFHDLKEKLDYLIENQYYEEEFLSLYSFEDIKEVFKTAYAKKFRFPSFMSAFKFYNDYALKTNDKKRILERYEDRISIVALFFANGDTEKAKEYVNLMINQEYQPSTPTFLNAGRKRRGELVSCFLLEVNDSLNDISRAIDISMQLSKLGGGVSLNLSKLRAKGEAIKDVENATKGVVGVMKLLDNAFRYADQMGQRQGSGAAYLNIFHRDINDFLDTKKISADEDVRVKTLSIGVVIPDKFVELAREDKAAYVFYPHTIYKEYGQHMDEMDMTAMYEELVDNPRVKKEKVNARKLLEKLAVLRSESGYPYIMFQDNVNKEHANNHVSKVKFSNLCSEVLQASQVSAYTDYDEEDEIGLDISCNLGSLNILNVMKHKSIERTVKLATDSLTHVSETTDIRNAPAVRRANKAMKSIGLGAMNLHGYLAQNGIAYESPEARDFANTFFMMVNFYSIQRSAELAKEKGETFEHYEGSTYATGEYFNKYIEKEFSPAYEKIAALFEGMHIPTIEDWKELKAFVAENGMYHSYRLCIAPTGSISYVQSSTASVMPIMERIEERTYGNSKTYYPMPGLASNNWFFYKEAYDMDMFKVVDMIATIQQHIDQGISFTLFLKDTMTTRDLNRIDLYAHHRGIKTIYYARTKDTGQDSCLSCVV	PGPT0021340_5919	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
D1-12_00919	990	nrdF	COG0208	Ribonucleoside-diphosphate reductase subunit beta	GTGACAAAAATTTATGACGCAGCAAACTGGTCAAAGCATGAAGATGATTTCACCCAAATGTTTTACAACCAAAACGTAAAGCAGTTTTGGCTTCCGGAAGAGATCGCATTAAACGGCGATCTTCTCACTTGGAAGTATTTGGGTAAAAATGAGCAGGATACGTACATGAAGGTGCTCGCCGGCCTGACACTGCTTGATACAGAGCAGGGGAACACGGGCATGCCGATTGTGGCCGAGCACGTCGAAGGCCATCAGCGAAAAGCGGTTCTTAATTTCATGGCGATGATGGAAAACGCGGTGCACGCAAAATCATATTCAAATATTTTTATGACGCTTGCTCCGACTGAAACGATTAATGAAGTATTTGAATGGGTTAAACAAAATAAATATTTGCAGAAAAAAGCGCAATTGATTGTCGGGCTTTACAAAGCCATTCAAAAAGATGATGAAATTTCACTGTTCAAAGCGATGGTTGCTTCCGTCTATCTGGAAAGCTTCCTTTTCTACAGCGGTTTCTATTATCCGTTATATTTCTACGGACAAGGAAAACTGATGCAAAGCGGTGAGATCATTAACCTGATCCTTCGTGACGAAGCGATTCACGGCGTGTATGTCGGTCTCCTTGCTCAGGAAATTTATAATAAACAGACAGAAGAGAAAAAAGCAGAGCTTCGTGAATTTGCGATTGACCTTCTGAATCAGTTATATGAAAATGAGCTTGAATATACAGAGGACTTGTACGATCAAGTCGGACTCTCACACGATGTAAAGAAATTCATCCGCTATAACGCCAATAAAGCTTTGATGAACTTAGGGTTCGATCCTTACTTTGAAGAAGAGGATATTAATCCGATCGTATTAAACGGATTAAACACCAAAACAAAATCACATGATTTCTTCTCCATGAAAGGGAACGGCTACAAAAAGGCGACGGTAGAACCGATTAAGGACGAAGATTTTTATTTTGGCCAAGATGAAGAGCAGATATAA	MTKIYDAANWSKHEDDFTQMFYNQNVKQFWLPEEIALNGDLLTWKYLGKNEQDTYMKVLAGLTLLDTEQGNTGMPIVAEHVEGHQRKAVLNFMAMMENAVHAKSYSNIFMTLAPTETINEVFEWVKQNKYLQKKAQLIVGLYKAIQKDDEISLFKAMVASVYLESFLFYSGFYYPLYFYGQGKLMQSGEIINLILRDEAIHGVYVGLLAQEIYNKQTEEKKAELREFAIDLLNQLYENELEYTEDLYDQVGLSHDVKKFIRYNANKALMNLGFDPYFEEEDINPIVLNGLNTKTKSHDFFSMKGNGYKKATVEPIKDEDFYFGQDEEQI	PGPT0021345_2745	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
D1-12_00920	621			hypothetical protein	ATGAATAAAATGGATGAAATCATCTTGGCTGCACCGCGGAGTGACGTCTTTCAAAACGAAATGCTGACATTTCAGGGAGTCAACAGCGAGGATGAACGTATCGTAAACATTATGGCTCAAATTGAGGCGCATTTTTTTGAAATCAGAAGAGGCGACGCGGAAGAGGACCCGCGATTTAAACAGCCGATTCCGTATGTCGTCATCCGCCGCGATGATGAGGTGTTTGTGTATGAACGGCTCGCGGGCGGAGGGGAATCGCGCCTCCATAATAAGCTTTCTCTCGGTTTCGGCGGACACATGAACCCTATGGAAGGGGCGGCTTCATTTTCGGAAGTGCTGAAACAGAATACCAACCGGGAGCTGGCGGAAGAACTGTACATTCGCGAGGAGGACAAACAAAACATTGTCACACTCGGCCTGATCAATGATGATGAAAACGATGTAGGGAAGGTGCATATCGGCATCCTTTCTGCGCTCCAGTTAGCGTCTGCGGCACAAGTCGAAGTGAAAGAAAAAGATCAAATCGCCGGGCGCTGGATGAAACTGAGCGAACTGAAAGAGGAAAATGTGTATCAGCGTCTTGAAGCTTGGTCTCAGTTTGTCGCCGATATACTTCAATAA	MNKMDEIILAAPRSDVFQNEMLTFQGVNSEDERIVNIMAQIEAHFFEIRRGDAEEDPRFKQPIPYVVIRRDDEVFVYERLAGGGESRLHNKLSLGFGGHMNPMEGAASFSEVLKQNTNRELAEELYIREEDKQNIVTLGLINDDENDVGKVHIGILSALQLASAAQVEVKEKDQIAGRWMKLSELKEENVYQRLEAWSQFVADILQ				NA	NA	NA	NA	NA
D1-12_00921	759	cwlC	COG0860	Sporulation-specific N-acetylmuramoyl-L-alanine amidase	ATGGTTAAAATTTTTATAGACCCCGGTCATGGCGGAACTGATTCAGGTGCAACCGGAAACGGACTTCAGGAAAAAGCGGTCACGCTGGAGATCGCGCTGGCTTTGCGCACGATTCTGACGAATGAGTATGAAGGAGTTTCTGTCACGATGAGCAGGACAAGCGATAAGACGGTCAGCCTGACGGAAAGAACGGATGCCGCCAACAGCTGGGGCGCAGATTATTTTTTATCCATTCATATTAACTCAGGAGGCGGAACCGGATTCGAAAGCTATATTTACCCCGGTGTCGGAGCGCCGACCTCGACTTACCAATCAGCCGTCCACACGCAAGTGATTCAAGCATCAGGTTTTAATGACCGAGGAAAAAAAACAGCTAACTTCCATGTGCTGCGGGAGACAAGTATGCCGGCGATTTTGACGGAGAATGGTTTTGTTGATACGTCAGCTGATGCAAACAAACTGAAAACAGCCAGTTTTATTGAAAGCCTTGCAAGAGGACATGCCAAGGGCTTGGAGCAAGCTTTCGGTCTAAAAAAAAAGGCTGACTTATATAAAGTGCAAATCGGTGCATTCAAAGTGAAAGCAAATGCTGATGCGCTTGCCGCCGATGCGGTGTCTAAAGGTTTTGACGCGATTGTGCTTCCAAAAGGCGGCTTATTTAAAGTGCAGATCGGCGCATTCTCTTCCAAAGATAATGCTGAAGCGTTGGCAGCACGGGCCGAAAAAGCCGGATTTGATGCCTTCATTGTGCAAGACTAA	MVKIFIDPGHGGTDSGATGNGLQEKAVTLEIALALRTILTNEYEGVSVTMSRTSDKTVSLTERTDAANSWGADYFLSIHINSGGGTGFESYIYPGVGAPTSTYQSAVHTQVIQASGFNDRGKKTANFHVLRETSMPAILTENGFVDTSADANKLKTASFIESLARGHAKGLEQAFGLKKKADLYKVQIGAFKVKANADALAADAVSKGFDAIVLPKGGLFKVQIGAFSSKDNAEALAARAEKAGFDAFIVQD	PGPT0024160_6350	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
D1-12_00922	969	spoVK	COG0464	Stage V sporulation protein K	ATGTTGGAGCGCGCTGTAACCTATAAAAATAACGGACAAATTAACATTATTCTTAATGGCCAAAAGCAAGTGCTGACAAATGCGGAAGCTGAGGCGGAATATCAGGCCGCCCTGCAAAAAAATGAAGCCAAGCACAGCATTCTGAAAGAAATTGAAAAAGAAATGAACACATTAGTGGGTATGGAAGAAATGAAACGCAACATTAAAGAAATTTACGCGTGGATATTCGTCAACCAAAAACGGGCCGAACAAGGGCTGAAAGTCGGAAAACAAGCTCTTCATATGATGTTCAAAGGGAACCCCGGCACCGGGAAAACCACCGTCGCGAGACTGATCGGCAAGCTTTTCTTCGAAATGAACGTGCTTTCCAAAGGACATCTGATCGAAGCGGAACGTGCCGATCTGGTCGGTGAATACATCGGACACACGGCGCAAAAAACGAGAGATCTGATTAAAAAATCGCTCGGGGGCATTTTATTCATTGATGAAGCATACTCACTTGCAAGGGGCGGAGAGAAGGATTTCGGTAAAGAGGCGATTGATACGCTTGTCAAGCATATGGAAGACAAACAGCATGAATTTATTCTGATCCTGGCAGGGTACTCGAGAGAAATGACACATTTCCTGTCATTAAATCCCGGCCTGCAATCGCGTTTCCCTATCAGCATCGACTTTCCGGATTACTCTGTCACTCAGCTGATGGACATCGCAAAGCGCATGATAGCAGAGCGTGAGTATCAATTAAGCCAGGAAGCCGAGTGGAAGTTAAAAGATTACTTAATGACAGTGAAAAGCACGACAAGCCCCATTAAATTCAGCAACGGGCGCTTTGTCAGAAACGTGATTGAAAAATCGATCCGCGCTCAGGCCATGAGACTTTTAATGGGAGACCAATATTTAAAAAACGATTTAATGACGATCAAGAGCCAGGATTTACTTATAAAAGATGAGGCGGCAGCTCACGAATAG	MLERAVTYKNNGQINIILNGQKQVLTNAEAEAEYQAALQKNEAKHSILKEIEKEMNTLVGMEEMKRNIKEIYAWIFVNQKRAEQGLKVGKQALHMMFKGNPGTGKTTVARLIGKLFFEMNVLSKGHLIEAERADLVGEYIGHTAQKTRDLIKKSLGGILFIDEAYSLARGGEKDFGKEAIDTLVKHMEDKQHEFILILAGYSREMTHFLSLNPGLQSRFPISIDFPDYSVTQLMDIAKRMIAEREYQLSQEAEWKLKDYLMTVKSTTSPIKFSNGRFVRNVIEKSIRAQAMRLLMGDQYLKNDLMTIKSQDLLIKDEAAAHE	PGPT0024835_188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024835-spoVK-K06413	NA	NA
D1-12_00923	1263	hflX	COG2262	GTPase HflX	TTGAACGAACAGGAAGGAAAAAAAGAAACGGTCATTTTGGTCGGCTGCCAGCTTCCGCACATGACAGATGAGCACTTTGAACATTCCATGGAAGAGCTTGCTTCATTGACAAAAACGGCTGACGGAACGGTGCTGACCCGGATTACGCAAAAACGGAACAGAGCGGATGCTGCTACATATATAGGCAAGGGGAAAGTAGACGAGCTGAAGGCGCTGTGTGAAGAGCTTGAAGCGGATCTGGTCATTTTTAATGATGAACTGTCACCGAGCCAGCTTAAATCACTCGCCACTGCAATTGAAGCGAAGATCATCGACCGCACGCAGCTTATTTTGGATATTTTCGCAAAAAGGGCGAAGACGAGAGAAGGAAAGCTTCAGATCGAATTGGCCCAGCTTCAATACGCGCTGCCGCGTCTGAGCGGACAAGGAATCAATCTCTCAAGACAAGGCGGCGGAATCGGGACGAGAGGGCCCGGTGAGACAAAGCTTGAAACAGACCGGCGCCACATTAGAAACCGCATACACGAAATTAACGTGCAGCTTTCAACGGTTATCCGCCACAGAAGCCGTTATCGGGAGAGACGAAAAAAGAACGGCGTGCTTCAGGCTGCACTCGTCGGGTATACCAATGCCGGAAAATCAACATGGTTCAATCAATTAACGAGCTCAGACAGCTATGAAGAAGATCTGCTGTTTGCAACACTTGATCCGATGACGAGAAAGATGGCGCTCCCAAGCGGCTACAGCATCCTTTTGTCTGATACGGTCGGCTTCATTCAGGATCTGCCGACGACGCTGATTGCCGCTTTCCGCTCAACACTTGAGGAAGTGAAGGAAGCAGACTTGATCATTCATGTCATTGATTCATCCAATGAAGATTATGCCGGGCATGAACAGACTGTCCTCGGTCTGTTAAAAGAGCTTGAGGCAGATGATATTCCGGTGCTGACCGCTTATAACAAACGTGATGAGACACTTCCTGACTTCATCCCGACAGCGGGAGAAGGCCACATCATGATCAGCGCCAGAATCGCCGGGGATGAAGCAAAACTAAAAGCGGAAATCGAAGCTTATTTGCGCCGGGAGCTGATGACGCCGTATGAAGTTCATATGCCTGCCGCCGAAGGCAAATTGATGTCACGCATCAAATCAGAGACCATGATCGACAGCCTTTATTTTAATGAAGAAAATGAACGCTACGAAGTCTCAGGTTATGTACAGGAAGAACAAAGCATACTCGGAGAACTGAAGAAATTCATGTAA	MNEQEGKKETVILVGCQLPHMTDEHFEHSMEELASLTKTADGTVLTRITQKRNRADAATYIGKGKVDELKALCEELEADLVIFNDELSPSQLKSLATAIEAKIIDRTQLILDIFAKRAKTREGKLQIELAQLQYALPRLSGQGINLSRQGGGIGTRGPGETKLETDRRHIRNRIHEINVQLSTVIRHRSRYRERRKKNGVLQAALVGYTNAGKSTWFNQLTSSDSYEEDLLFATLDPMTRKMALPSGYSILLSDTVGFIQDLPTTLIAAFRSTLEEVKEADLIIHVIDSSNEDYAGHEQTVLGLLKELEADDIPVLTAYNKRDETLPDFIPTAGEGHIMISARIAGDEAKLKAEIEAYLRRELMTPYEVHMPAAEGKLMSRIKSETMIDSLYFNEENERYEVSGYVQEEQSILGELKKFM	PGPT0007245_3535	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
D1-12_00924	1266			hypothetical protein	ATGTTTGACACACTGACCCACGGCGCTCTTTTACAAAAAACCGCCGAAGAAACAGAAGCGGAAATCTCCGCCGTTCATAAAAGAATAGAAGAAATCAGTGAACGGAATGAATGGAGAGTCCTGCAAAGCTACAGAAAACATAAAGTAAGCGATACGCATTTTACGCCTTCAACGGGATACGGTTATGACGATATCGGACGAGATACACTGGAGAAGATCTATGCTGATGTGTTCGGAGGAGAGGCGGGACTCGTGCGGCCGCAAATCATTTCCGGAACGCATGCGATTTCAATCGCGCTCTTCGGTGTGCTGAGACCCGGGGACGAATTGCTTTATATTACAGGCAAGCCTTACGATACACTCGAGGAAATCGTCGGAGTAAGAGGCGGGGAGTATTCAGGCTCGCTTAAGGAATTTCAAATCGGATACAATGCAGTCGATTTAACATCAGAAGGCAGAGTGGACTTTGAAGCGGTCCGGGCTGCAATCCGGCCGAATACAAAAGTGATCGGCATCCAGCGTTCAAAAGGATATGCGAATCGTCCGTCTTTCAGAATAAATGAAATTGAAGAGATGATTCGTTTCGTAAAGGAAATCAAAGAAGATGTCATTGTTTTTGTGGACAATTGCTACGGAGAATTTGCAGAAGAGCGGGAACCCTGCCACGTCGGAGCGGATCTTATGGCCGGCTCCCTGATTAAAAACCCGGGCGGCGGCCTTGCTAAAACGGGCGGCTATCTTGTAGGGAAAGCCAAGTGGATTGAGGCCTGCTCTTACCGGATGACCTCCCCGGGAATCGGAAGTGAAGCCGGGGCTTCGCTTTATTCACTGCAGGAAATGTATCAAGGTTTCTTTCTCGCTCCGCATGTAGTGGCACAAAGCTTGAAGGGAGCGGTATTTACCGCCCGTTTTCTTGAAAAGCTCGGCTTTACGTCAAACCCTGCATGGAATGCGCCGAGAACGGATCTGATTCAATCAGTTGAGTTTCAGGACCCTGATAAGATGATTGCTTTTTGCCAGGCGATACAATATGCTTCACCGATTAATGCGCATGTGACGCCTTATCCGAGCTATATGCCGGGATATGAAGACGATGTCATTATGGCAGCGGGCACTTTCGTACAGGGAGCAAGCATTGAATTATCAGCAGATGGACCTATCAGACCGCCTTATGTGGCGTATGTCCAAGGAGGATTAACCTACGCGCACGTGAAAAATGCGATTTGCAGCGCCGTAAATGCTTTAATGGAAAAAGAGCTGATCTAG	MFDTLTHGALLQKTAEETEAEISAVHKRIEEISERNEWRVLQSYRKHKVSDTHFTPSTGYGYDDIGRDTLEKIYADVFGGEAGLVRPQIISGTHAISIALFGVLRPGDELLYITGKPYDTLEEIVGVRGGEYSGSLKEFQIGYNAVDLTSEGRVDFEAVRAAIRPNTKVIGIQRSKGYANRPSFRINEIEEMIRFVKEIKEDVIVFVDNCYGEFAEEREPCHVGADLMAGSLIKNPGGGLAKTGGYLVGKAKWIEACSYRMTSPGIGSEAGASLYSLQEMYQGFFLAPHVVAQSLKGAVFTARFLEKLGFTSNPAWNAPRTDLIQSVEFQDPDKMIAFCQAIQYASPINAHVTPYPSYMPGYEDDVIMAAGTFVQGASIELSADGPIRPPYVAYVQGGLTYAHVKNAICSAVNALMEKELI				NA	NA	NA	NA	NA
D1-12_00925	405	glnR	COG0789	HTH-type transcriptional regulator GlnR	ATGAGTGATAACATTCGCCGCTCAATGCCTTTATTTCCAATTGGGATTGTCATGCAGTTAACAGAACTTTCTGCCCGGCAAATTCGATATTATGAGGAAAATGGATTGATATTTCCAGCGAGAAGCGAAGGAAATAGACGATTATTTTCATTCCATGATGTAGATAAACTGTTAGAAATCAAAAATCTGATTGAACAAGGCGTCAATATGGCGGGGATCAAACAAATTCTGGATAAGGCATCTGCCGAACCGGAAGAAAAATCCGAAAAAACCGCCAAACCGATGAAGCACGATCTGTCTGATGACGAACTCAGAAAGCTTCTGAAAAACGAACTGATGCAGGCAGGCCGTTTCCAGCGGGGAAATACTTTCCGCCAAGGTGACATGTCCCGATTCTTTCATTAA	MSDNIRRSMPLFPIGIVMQLTELSARQIRYYEENGLIFPARSEGNRRLFSFHDVDKLLEIKNLIEQGVNMAGIKQILDKASAEPEEKSEKTAKPMKHDLSDDELRKLLKNELMQAGRFQRGNTFRQGDMSRFFH	PGPT0001015_89	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0001015-glnR-K03713	NA	NA
D1-12_00926	1335	glnA	COG0174	Glutamine synthetase	ATGGCAAAGTACACAAGAGAAGACATCGTAAAATTAGTAAATGAGGAAAACGTAAAGTATATCCGCCTTCAGTTCACAGACATTCTTGGAACGATTAAAAACGTGGAAATTCCTGTGAGCCAGCTTGAAAAAGCACTTGATAATAAATGCATGTTCGACGGTTCTTCCATCGAAGGTTTCGTCCGTATCGAAGAGTCTGATATGTACTTATATCCTGATCTGAACACATTTGTAATCTTCCCATGGACTGCTGAAAAAGGTAAAGTAGCACGCTTCATCTGTGACATTTACAATCCGGACGGCACGCCGTTCGAAGGTGACCCGCGTAACAACCTCAAACGGATTCTGAAAGAAATGAAAGAACTCGGTTTCAGCGATTTCAATCTTGGACCTGAGCCTGAATTCTTCCTGTTTAAATTAGATGAAAAAGGCGAACCGACGCTTGAATTGAACGATAAAGGCGGATACTTCGACCTGGCTCCGACTGACTTGGGAGAAAACTGCCGCCGCGATATCGTGCTTGAGCTTGAAGAAATGGGCTTTGAAATCGAAGCATCTCACCATGAAGTTGCTCCGGGTCAGCACGAAATCGATTTTAAATATGCCGGTGCCATCCGTTCTTGTGACGACATCCAAACTTTCAAACTGGTTGTCAAAACGATCGCCCGCAAACACGGTCTGCATGCGACATTCATGCCAAAACCGCTGTTCGGCGTAAACGGTTCCGGTATGCACTGCAACCTATCACTCTTTAAAGATAGCGTTAACGCATTCTTTGATAAAGACGCTGATCTTCAGCTGAGTGAAACAGCAAAACATTTCATTGCCGGTATCGTAAAACACGCGACAAGCTTTACGGCTGTTACAAACCCGACAGTGAACTCTTACAAACGCCTTGTTCCGGGCTATGAAGCACCTTGCTACGTGGCATGGAGCGCGCAAAACAGAAGCCCGCTGATCCGTATCCCGGCTTCCCGCGGCATCAGCACGCGTGTTGAAGTCCGCAGCGTAGACCCGGCGGCAAACCCGTACCTGGCGTTAAGCGTATTGCTTGCAGCAGGCCTTGACGGAATCAAAAACAAACTTGAAGCACCGGCTCCGATTGACCGTAACATCTACGTCATGAGCAAAGAAGAGCGCATGGAAAACGGCATCGTAGATCTTCCGGCGACACTGGCGGAAGCTCTCGACGAATTCAAATCAAACGAAGTCATGGTTGCAGCGCTCGGCGAGCACCTGTTCGAACACTTCATCGAAGCAAAAGAAATCGAATGGGATATGTTCCGCACACAGGTTCATCCGTGGGAGCGCGAACAGTATATGTCTCAGTATTAA	MAKYTREDIVKLVNEENVKYIRLQFTDILGTIKNVEIPVSQLEKALDNKCMFDGSSIEGFVRIEESDMYLYPDLNTFVIFPWTAEKGKVARFICDIYNPDGTPFEGDPRNNLKRILKEMKELGFSDFNLGPEPEFFLFKLDEKGEPTLELNDKGGYFDLAPTDLGENCRRDIVLELEEMGFEIEASHHEVAPGQHEIDFKYAGAIRSCDDIQTFKLVVKTIARKHGLHATFMPKPLFGVNGSGMHCNLSLFKDSVNAFFDKDADLQLSETAKHFIAGIVKHATSFTAVTNPTVNSYKRLVPGYEAPCYVAWSAQNRSPLIRIPASRGISTRVEVRSVDPAANPYLALSVLLAAGLDGIKNKLEAPAPIDRNIYVMSKEERMENGIVDLPATLAEALDEFKSNEVMVAALGEHLFEHFIEAKEIEWDMFRTQVHPWEREQYMSQY	PGPT0000645_8273	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
D1-12_00927	1005	gabR_1	COG1167	HTH-type transcriptional regulatory protein GabR	ATGATACATCAACTTCTGCGTTTGGGTATGATATTCCTGAAGGACGTCCTTGAATTAAGGCAAGTTTTATCACGTTATTTAGCGAAAACACGAGGTGTGGATTGTCATCCAGAACAAATTGTGATTACTTCTGGTGCAACTCAAGCTTTAACGCTTGTTTCTAAATTACTCTTATCTCCGAATGACATGGTGATAATTGAAGACCCAATAACGAATGATATTCAAACCATTTTTAAAACTCCAGGTTCTTCCCTTTACCCTATACCCGTTGATGAATATGGTATGAAGTCATCTTTGCTGCCATTAAATAAAAGTCCGAAGTTTGTCTTTATCACCCCTTCACATCAGTTCCCGTTAGGAGGAACGTTACCGATTCAAAGACGAATTCAATTGATTAACTATTCGAGAAAAACAAATTGTTATCTTGTTGAAGATGATTATGACAGTGAGTTTCGATATGAAGGTCCACCTGTAAGTTCATTACAAGGATTGGATCCAGAACGAGTGTTATACATTGGTTCGTTTAGTAAAATCTTATCACCAGCCCTTAGAATGGGATATTTAATACTTCCTTCACATCTTATTGAAAAATGCCGCAGGCTTAAATGGTTTTCGGATCTGCATACCCCTTCCTTAGATCAGATTATCCTTGCACGTTTTATTGATGAAGGTTATTTGGAACGACATATTACCAAGATGAAAAAGATTTATAAAAAACGGAGAGATTTTCTTATTCACTGTATTAAAACAACATTTTCGAATGAGGTTAATATTTTTGGTTATTCGACAGGATTGCACCTAATTGTTGAATTGAAAGACTTCGATTTTTCAAAAGAATCACTTAAACAAATCGAACAATCAGGAGTTAAAGTATACCCGGTAGAAGGTCATACAATTGAAAAAGGAAAACATCATAATCAAATTATTTTGGGTTATGGGCATCTGAATAATGAAGAAATAAAAGAAGGCGTCACCAGACTGTATGAAGCAATATACAAATGTTAA	MIHQLLRLGMIFLKDVLELRQVLSRYLAKTRGVDCHPEQIVITSGATQALTLVSKLLLSPNDMVIIEDPITNDIQTIFKTPGSSLYPIPVDEYGMKSSLLPLNKSPKFVFITPSHQFPLGGTLPIQRRIQLINYSRKTNCYLVEDDYDSEFRYEGPPVSSLQGLDPERVLYIGSFSKILSPALRMGYLILPSHLIEKCRRLKWFSDLHTPSLDQIILARFIDEGYLERHITKMKKIYKKRRDFLIHCIKTTFSNEVNIFGYSTGLHLIVELKDFDFSKESLKQIEQSGVKVYPVEGHTIEKGKHHNQIILGYGHLNNEEIKEGVTRLYEAIYKC	PGPT0016790_3758	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
D1-12_00928	453			hypothetical protein	ATGCTTTGGATACCCATTGATCGATCGTTGGATATACCTTTAATAAGACAAGTTTATCAGCAAATACGGGAACGAATTTTAAATGGCGGCTTACAATCAGGAGAGAAACTACCATCTACACGTGAACTATCTTCTGAGTTAAAAGTGTCTAGGAATGTGATTTTAGAAGCTTATGATCAATTATCGTCTGAAGGGTTTTTAGTTTCACGGATGGGTGCAGGGACATTTGTTGCAAAAGGGACTTTTTTAGAACAAAATAAAAAGATGCCTTTATTTTATTCTTTAAATTGGGATGAGGATAAAAACAAAAATAAGCACATCATCAACTTTCGTTCGGGGATACCCGCATTGGATTTATTTCCGCGTAAGACATGGGCAAAATTGTCTCACGCCGTATGGAATGATACATCAACTTCTGCGTTTGGGTATGATATTCCTGAAGGACGTCCTTGA	MLWIPIDRSLDIPLIRQVYQQIRERILNGGLQSGEKLPSTRELSSELKVSRNVILEAYDQLSSEGFLVSRMGAGTFVAKGTFLEQNKKMPLFYSLNWDEDKNKNKHIINFRSGIPALDLFPRKTWAKLSHAVWNDTSTSAFGYDIPEGRP	PGPT0016790_3743	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
D1-12_00929	960		COG0506	Proline dehydrogenase	ATGATTAGTCCAGAAGTCCAATTCGCCCAAGAACTTAAATCGATTGCACGAAATAAACATATTAAATCCTACATTCAACAATCCAATGAACTCTATCCCTTATTATTACAAGCTGCACAACGATTTGTCACCGGGGAACATAGGCAGGATGGGATTGTAACTGCAAAAGAACTAATCCTAAGAGGTTATTCTATTTCAATGGAATACATAGGGGAAAATACAACTGATTTAGAAGAATGCCGAAAAGCAAAAAATGAGTTTTTGAATCTTATTGAAGAAATGGGTTCTCTGTCTATGAAGCAAACTGTCTCGCTTGATTTATCACATATCGGGTTATCTGTGGATTCAGAAACAGCTTATATTCATTTGCTGGAGGTAGCCGAGAAAGCAAATTTGTACGGGATTACACTTATGATAAGCATGGAAGAATCATCGAAAACAAATGACATTCTTGATATCTATAAAAAAACAACGGAGAAGTACCCTAATGTTGGGATAACGATACAGGCTCACTTATACCGATCTAACAATGATATTCAGGAACTCGTTCATTATCCTGGGAAGGTACGAGTTGTCAAAGGAGCTTATCAAGAATCTGTCGATATTTCTATGCCCAGATCAAAGGAATTAAATAACCGTTATCTTAAACTTGTACAACATGTAATACAAGCTAATCACTCAGTATCCATAGCTACACATGATGAGATGCTTATTCAAGAAATGGAACACCGACAATATTTTAATCATCCCCGCGTAGAAATGGAAATGCTCTACGGAATCCGTCCCGATTTGTTAAGGAATTTAAAAAGTAAAGGGTACAACTGTAAAGCATATTTGACTTACGGAAAAGAGTGGTACTTGTATTTATGCCATCGAATAGCTGAATATCCGGAAAATTTATTTGGTGTAGTAACGGATATGATCAATCCATCTTTATCAGAGAGAAGTAAACTGTATTGA	MISPEVQFAQELKSIARNKHIKSYIQQSNELYPLLLQAAQRFVTGEHRQDGIVTAKELILRGYSISMEYIGENTTDLEECRKAKNEFLNLIEEMGSLSMKQTVSLDLSHIGLSVDSETAYIHLLEVAEKANLYGITLMISMEESSKTNDILDIYKKTTEKYPNVGITIQAHLYRSNNDIQELVHYPGKVRVVKGAYQESVDISMPRSKELNNRYLKLVQHVIQANHSVSIATHDEMLIQEMEHRQYFNHPRVEMEMLYGIRPDLLRNLKSKGYNCKAYLTYGKEWYLYLCHRIAEYPENLFGVVTDMINPSLSERSKLY				NA	NA	NA	NA	NA
D1-12_00930	549			hypothetical protein	GTGAAAAAGCTCTTCAAGGTTTTTTTATTTATTTTTATAGGTACTGCTTTTTTAGTTTTTAATGGTTGGCATCTCTTTAATTCCTTTGGCGCTCCGGAATATTATCAAAAAAACAACATTTCTTCTTCTGATATTGCAAAATTTCAAAGAAATTTCAATATACATTTTCCAGAAAAAACCCGCTTTATAAAAGCAGAAGAATATCTAACGAGTCTAGGAGGCGATGATTCGATAAAACTTTATATTTCTGTGCCTTCTAATCTAATAAAACAATTATTTGCTGATTATTCTTCCCTACCCATTCATTATAATGATACAAACTTCATTGATTACGGGGTGAATATTACAAAATCCAAGGGCAGCGATACATATATCACACTTCAAACAGCAGATGACAAAGGATATATATTTGATATAAAAAAAGACCCTGAGTGGAGTTATAAGGGTGTCACAGGAACTCAATATCTCACCACTACTATTTTGTATAATGCTCTGTTTATTTTAATCATATATGTCTGTAACAAAATGTATAGAAAACATAAATCTTAA	MKKLFKVFLFIFIGTAFLVFNGWHLFNSFGAPEYYQKNNISSSDIAKFQRNFNIHFPEKTRFIKAEEYLTSLGGDDSIKLYISVPSNLIKQLFADYSSLPIHYNDTNFIDYGVNITKSKGSDTYITLQTADDKGYIFDIKKDPEWSYKGVTGTQYLTTTILYNALFILIIYVCNKMYRKHKS				NA	NA	NA	NA	NA
D1-12_00931	348			hypothetical protein	TTGAGTCAAGATTTAAAGATCATACTCACACCCAAAGCTGATACATCTTCAAAAGCTGTCGAACAGTTAAATCAGCAAATTAAATCTTTAGAGAAAAAGCTTAATTCCCTTAATTTAAAGACCAATATTGATGCTTCTGCTTTATTGACACTTACCAAAAACATCTCAAATGCTTCAATCAAACAGTTAAAGAAAGCACAACGGTTACCAGAAATGCTGATGGCACTGTTAATAAGCAACAAATTAAATACCTATCCCCTTTCTTTCTTTTATTTTGAAGGGGGACTCTATCTTATTATTGGTTTACAAAAATCAAAACAAGAATATGTTACAATTCTTAAGAGGTGA	MSQDLKIILTPKADTSSKAVEQLNQQIKSLEKKLNSLNLKTNIDASALLTLTKNISNASIKQLKKAQRLPEMLMALLISNKLNTYPLSFFYFEGGLYLIIGLQKSKQEYVTILKR				NA	NA	NA	NA	NA
D1-12_00932	627			hypothetical protein	ATGATATGGGCTATCATTCTAATTTTAATTGTCGGCTCTTTCATTATTATTGGGGTTTTAGCATCGGATAAGCAAAAAGAAATAGATAAAAAAAGGGCAAACGAGATTGAGATGGTTGGGAACTTCCCTTCTAATTGCAAGTCGATTATTAATCCAGATAAAAATGCAAAGCTTACATTGATTGAACCGGAAGATAAATTTATGATTCACAAATTCAATCAATATGGAACACTTGAAGAAACAATTATCCCCTTTGAAAAAATCATTGAAGCCGAGGTTTCAATTGATGATAGTACAATTACAAAAGTGTCCAAAGGAAGTCAAATAACAGGCGCTGTTGTAGGTGGATTAGCCGCAGGCAGTATTGGAGCTTTAGTTGGCGGGCTGACTTCCAATAAGACAGAAACAAAGTATTTCAAAAAAATTGATTTGAAATTAAAGCTCGATGATTTCTCCTCCCCTATTTACAGATTTAATTTCCTGCCGAGTAAAGATGAATTTGGACTAGAGAATGTTAAAGGGTTTAAACAGGATGATCCAAAAGTTAAGGATGCTTTATCAAATGCTGAAATATGGCAAGGGATTATGGAGATAGCAATACGGAAAGCAAACAAAGTCGCTCAATAA	MIWAIILILIVGSFIIIGVLASDKQKEIDKKRANEIEMVGNFPSNCKSIINPDKNAKLTLIEPEDKFMIHKFNQYGTLEETIIPFEKIIEAEVSIDDSTITKVSKGSQITGAVVGGLAAGSIGALVGGLTSNKTETKYFKKIDLKLKLDDFSSPIYRFNFLPSKDEFGLENVKGFKQDDPKVKDALSNAEIWQGIMEIAIRKANKVAQ				NA	NA	NA	NA	NA
D1-12_00933	459			hypothetical protein	TTGGACAATGAAGCATATTACAAAAAATATTTGGAAGAGAGCTTAATTAAATTAAGAAGTTCAGAACTTATAGAATTTATTAAAAGAGAATTTCCAGAAGAAGTGGAATATGATCATGATCTTCACCGAAAAAAAATTGAAGTGCTGAAAACATTATCTAAAACAGACTTATCGGCTGCGATAGCCCGACTGGCTAGAATTCAACGGAAATTTGACCATACCAAATTATGGACTGTTGCCGCTGTACTTATTGGTACAATGCTTGTTGTTTTACAAATCTTATTTAAAGTAAACCTTGCAAAAATTACAGACGAAAACTATATAAATTTTTTATTGTACGGTATTGTTGCTATGATAATAAGTAAGATTATATATAATTCTGCCAGAAAGGATATTAAAATTTCAAATACAGCAGCTTATTTTAAAGATTTGCTCGAAGAGCTTAAGTCAGATAAATAA	MDNEAYYKKYLEESLIKLRSSELIEFIKREFPEEVEYDHDLHRKKIEVLKTLSKTDLSAAIARLARIQRKFDHTKLWTVAAVLIGTMLVVLQILFKVNLAKITDENYINFLLYGIVAMIISKIIYNSARKDIKISNTAAYFKDLLEELKSDK				NA	NA	NA	NA	NA
D1-12_00934	255			hypothetical protein	ATGAGTCTCTTCAATCCTCACCAAAGTTCAATTGAGAAAATGCAACAGCAAATTGATGAATTGGCCGAAGCTGTTGCTGAATTAACTAGGCTGCTTGATACTAAAGCAGATAAGAATCAATTCGGGTCTAAACAGATTGATGAATCCAAAATCAGTGATGGTAAAGTTCTTGTTTACAACGCAAGCACCGGTAAACTTGAATACGGAAAGATTAAGAAAAGCCTGTTGGGAGACATATCAATTGATTTGCTTTAG	MSLFNPHQSSIEKMQQQIDELAEAVAELTRLLDTKADKNQFGSKQIDESKISDGKVLVYNASTGKLEYGKIKKSLLGDISIDLL				NA	NA	NA	NA	NA
D1-12_00935	243			hypothetical protein	ATGGCTCACAAAGTTCTTGGAAAAGGAAAAGGCGAAGGAAAACCCCTCGACTACATGATTAACACAGAAGCTCTGGAATATTTGAAGCTTTGGCATGAACAACGGGGATATGACCATGAATATCTATTTACTACACAGTACGGTGGTCAACCAAGACAAATGTCAGAGGGTTGGGCTGACTATTTTTGTTCTGATGTTCTTTCTGATATCCTCGGCCGCCGCATTAACCCTCACCTCTTTTAA	MAHKVLGKGKGEGKPLDYMINTEALEYLKLWHEQRGYDHEYLFTTQYGGQPRQMSEGWADYFCSDVLSDILGRRINPHLF				NA	NA	NA	NA	NA
D1-12_00936	1392	xylP_1		Isoprimeverose transporter	ATGCTCAGTGAAAATGTAAAGAAGATCAGCATGGTTGAAAAAGTTGGATATGCGTCTGGAGATTTTGCTTGTAATTTAATTTATGCAACAGTGTCTACGTATCTTTTGTTCTTTTATACAGATGTTTTTGGTTTATCGGCAGCAGCAGCCGGTACGATGTTTTTAGTGGTTAGAATCATCGACGCTCTCGCTGATCCTTTTATCGGAACAATAGTTGACAGAACAAATAGCAGGTTTGGCCGCTTTAGACCGTATCTTTTATTCGGAGCTTTTCCCTTTGTCATATTGGCAATACTCTGTTTTACAACCCCGGATTTTTCGGATATGGGGAAATTAATATATGCCTATATCACCTATGTCGGCTTGTCGCTTACATACACCATGATAAACGTGCCATATGGCGCGTTAACATCTGCAATGACCAGAAATAATCAAGAAGTTGTTAGTATAACGTCTGTCCGTATGTTATTTGCGAATCTTGGGGGACTTGTCGTTGCATTTTTTGTTCCCTTACTGGCTGCTTATTTAAGCGATACTTCCGGCAGCGAATCTCTTGGCTGGCAGCTAACCATGGGTATTATGGGAGTTATAGGCGGGTGCCTTTTAATCTTTTGTTTTAAAAGCACAAAAGAGCGTGTCACGCTTCAAAAATCCGAAGAAAAAATTAAATTTTCGGATATATTTGAGCAATTTCGTGTGAATCGGCCTCTAGTTGTATTAAGTATTTTCTTTATTATTATTTTTGGAGTGAATTCAATCAGTAATTCGGTTGGCATCTATTACGTAACATATAATTTAGAAAGAGCGGATTTAGTGAAGTGGTACGGTTTGTTGGGAAGTTTGCCTGCTTTGGTCATTTTACCGTTTATTCCAAAGCTTCATCAATTATTAGGGAAGAAGAAATTACTAAACTATGCATTATTACTGAATATGATCGGCCTCTTAGCTTTACTTTTCGTTCCGTCAAGTAATGTATTCCTCATACTTTCCTTTCGATTACTGGCCGCTGCCGGAAGTCTCACTGCCGGGGGATATATGTGGGCGCTTATTCCTGAAACAATAGAATATGGAGAGTATAAGACCGGGAAAAGAATGGGCGGTCTCATATACGCTATTATCGGATTTTTCTTTAAATTCGGTATGGCTTTGGGAGGGGTTGTACCGGGTTTGGTTCTAGATCAGTTTGGATATGTGGCAAATCAGGTGCAAACGCCGGAGGCATTGACGGGAATTTTAATTACAACAACCATTATTCCCGTGTTCTTACTGGTTCTGGCCATGATTGATATTAATTTCTATAACTTAGATGAGAAAAAATATAAAAGCATGGTTCGAGAATTAGAGAATAGAGACAAAGTTTATTTGGATCATATTGACGATTTCAAAGCTTAA	MLSENVKKISMVEKVGYASGDFACNLIYATVSTYLLFFYTDVFGLSAAAAGTMFLVVRIIDALADPFIGTIVDRTNSRFGRFRPYLLFGAFPFVILAILCFTTPDFSDMGKLIYAYITYVGLSLTYTMINVPYGALTSAMTRNNQEVVSITSVRMLFANLGGLVVAFFVPLLAAYLSDTSGSESLGWQLTMGIMGVIGGCLLIFCFKSTKERVTLQKSEEKIKFSDIFEQFRVNRPLVVLSIFFIIIFGVNSISNSVGIYYVTYNLERADLVKWYGLLGSLPALVILPFIPKLHQLLGKKKLLNYALLLNMIGLLALLFVPSSNVFLILSFRLLAAAGSLTAGGYMWALIPETIEYGEYKTGKRMGGLIYAIIGFFFKFGMALGGVVPGLVLDQFGYVANQVQTPEALTGILITTTIIPVFLLVLAMIDINFYNLDEKKYKSMVRELENRDKVYLDHIDDFKA	PGPT0014410_1683	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-CAPSULAR_COLANIC_ACID_BIOSYNTHESIS,PGPT0014410-TC_GPH|yihO|xynP-K03292	NA	NA
D1-12_00937	1602	xynB	COG3507	Beta-xylosidase	ATGAAGATTATCAATCCAGTACTTAAAGGATTCAACCCCGATCCGAGTATTTGCAGGGTTGGAGAGGATTATTATATCGCTGTATCTACATTTGAGTGGTTTCCGGGAGTCCAGATACACCACTCAAAAGATTTAGTCAATTGGCACTTAGTTGCACATCCATTACAGAGAGTATCGCAATTAGACATGAAAGGAAATCCTAATTCAGGCGGGGTCTGGGCGCCATGTTTAAGTTACAGTGACGGAAAGTTTTGGCTGATCTATACGGATGTTAAGGTCGTAGATGGCGCCTGGAAAGATTGTCACAATTATTTAGTGACTTGTGACACGATTAATGGTGAGTGGGGGGAGCCGATACCATTAAACAGCTCGGGTTTTGATGCTTCTTTGTTCCATGATACGGATGGAAAAAAATATTTATTAAATATGTTATGGGATCAGCGTATTGATCGGCACTCCTTTGGAGGCATTGTCATGCAGGAATATTCTGATAAGGAGCAAAAACTAATCGGTAAACCGAAAGTGATATTTAAAGGAACTGAAAGAAAGCTGACAGAAGCGCCGCACCTTTACCGTATCGGGAACTATTATTATTTATTAACCGCAGAAGGAGGAACGCGGTTCGAACATGCTGCTACAATTGCCCGTTCTGCAAATATTGAGGGTCCATATGAAGTTCATCCTGATAATCCTATCTTAACGTCATGGCATACGCCGGAAAATCCGCTGCAAAAATGCGGACATGCATCCATTGTACAAACACATACAGGTGAGTGGTATTTAGCTCATTTAACGGGACGTCCCATTCATCCGGACAATGATTCAATTTTTCAGCAGAGAGGATATTGTCCTCTAGGCAGAGAAACAGCTATTCAAAAGCTCTATTGGAAAGATGAATGGCCTTATGTAGCAGGCGGAAAAGAAGGGAGCTTGGAGGTGGATGCGCCTTCTATACCCGAAACCATGTTTGAAGCAACGTACCCGGAAGTTGATGAATTTGAGGATGCAACATTAAATATTAATTTTCAAACGTTAAGAATTCCGTTTACGGAGAAATTAGGATCATTAACTCAAGTGCCAAATCATTTACGATTATACGGCCGTGAATCCTTAACTTCGACATTTACTCAGGCATTTGTAGCCAGACGCTGGCAAAGTCTCCATTTTGAAGCCGAAACGGCTGTTGCGTTTTATCCGGAACATTTTCAGCAAGCCGCTGGATTGGTGAACTATTACAATACAGAGAACTGGACGGCTCTTCAAGTCACGTATGATGAAGAACTTGGCCGTATTCTTGAATTAACGATATGTGATAACTTCTCTTTTTCAAAACCGTTAAAAAATAAAATTGTGATTCCTCGTGAAGTCAAGTATGTCTATTTAAAAGTGAATATTGAAAACGAAAAATATTATTATTTCTATTCATTTAACAACGAAGATTGGCACAAAATTGACATTGCATTGGAATCGAAAAAATTATCAGATGATTACATCCGCGGTGGGGGATTCTTTACAGGAGCTTTTGTGGGGATGCAATGCCAAGATACGAGCGGTCATCATATTCCGGCCGACTTCAGATATTTTCGTTATAAAGAAAAATAA	MKIINPVLKGFNPDPSICRVGEDYYIAVSTFEWFPGVQIHHSKDLVNWHLVAHPLQRVSQLDMKGNPNSGGVWAPCLSYSDGKFWLIYTDVKVVDGAWKDCHNYLVTCDTINGEWGEPIPLNSSGFDASLFHDTDGKKYLLNMLWDQRIDRHSFGGIVMQEYSDKEQKLIGKPKVIFKGTERKLTEAPHLYRIGNYYYLLTAEGGTRFEHAATIARSANIEGPYEVHPDNPILTSWHTPENPLQKCGHASIVQTHTGEWYLAHLTGRPIHPDNDSIFQQRGYCPLGRETAIQKLYWKDEWPYVAGGKEGSLEVDAPSIPETMFEATYPEVDEFEDATLNINFQTLRIPFTEKLGSLTQVPNHLRLYGRESLTSTFTQAFVARRWQSLHFEAETAVAFYPEHFQQAAGLVNYYNTENWTALQVTYDEELGRILELTICDNFSFSKPLKNKIVIPREVKYVYLKVNIENEKYYYFYSFNNEDWHKIDIALESKKLSDDYIRGGGFFTGAFVGMQCQDTSGHHIPADFRYFRYKEK	PGPT0018665_1245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-XYLOSIDASE,PGPT0018665-xynB-K01198	NA	NA
D1-12_00938	1155	nagC	COG1940	N-acetylglucosamine repressor	GTGGATATCGCTGATCAAGCCTTTGTCAAAAAAGTTAACCAAAAGTTATTACTAAACGAAATACTTAAGAATTCTCCTATTTCAAGAGCAAAATTATCTGAAATGACCGGATTAAATAAATCAACTGTTTCGTCACAGGTAAACACTTTAATGAAAGAAAACCTCGTATTTGAAATAGGTCAGGGACAATCCAGCGGCGGCAGAAGACCTGTCATGCTTGTTTTTAATAAAAAAGCAGGATACTCCGTAGGAATAGATGTTGGCGTGGATTATGTTAATGGCATTTTAACAGATCTTGAAGGGACGATCGTCCTTGATCAACACCATCATTTGGAATGCAATTCTCCAGAAATCACTAAAGATATTTTAATTGAGATGATTCATCACTTTATTGCAAATATGCCGCAATCTCCATACGGGCTTATTGGTATAGGTATTTGCGTGCCTGGACTCATTGATAAAGATCAAAAAATTGTTTTCACTCCGAACTCCAACTGGAGAGATATTGACTTAAAATCTTTCATCCGAGAGAAGTTCAATGTGCCCGTTTTTATTGAAAATGAGGCAAATGCCGGCGCATATGGAGAAAAAGTATTTGGTGCGGCAAAAAATCACGATAACATGATTTATGCAAGTATCGGTACAGGAATAGGAATCGGAGTTATAATCAACAATCATTTATATAGAGGGGTTGGCGGATTTTCTGGAGAAATGGGACATATGACAATAGACTTTAAGGGTCCTAAATGCAGCTGCGGAAACCGAGGCTGCTGGGAATTGTATGCTTCAGAGAAGGCTTTATTAACATCTCTTCAGACGAAAGAGAAAAAAGTGTCCAGCCAAGATATCATAGACCTCGCCCATCTGAATGATGTTGGAACTTTACAGGCATTACAGAATTTTGGTTTCTATTTAGGAATAGGCCTGACCAATATTTTAAATACATTTAATCCGCAAGCCATCATTTTAAGAAACAGCATCATTGAATCGCATCCTATGGTTTTACATTCAATTAAAGGTGAAGTGTCATCCAGGGTTTATTCCCAACTAGACAATAGCTATGAATTATTACCATCTATCCTAGGAAAAAATGCACCCGCTTTAGGAATGTCCTCTATTGTGATTGATCATTTTCTCGACATGGTTCATAACTGA	MDIADQAFVKKVNQKLLLNEILKNSPISRAKLSEMTGLNKSTVSSQVNTLMKENLVFEIGQGQSSGGRRPVMLVFNKKAGYSVGIDVGVDYVNGILTDLEGTIVLDQHHHLECNSPEITKDILIEMIHHFIANMPQSPYGLIGIGICVPGLIDKDQKIVFTPNSNWRDIDLKSFIREKFNVPVFIENEANAGAYGEKVFGAAKNHDNMIYASIGTGIGIGVIINNHLYRGVGGFSGEMGHMTIDFKGPKCSCGNRGCWELYASEKALLTSLQTKEKKVSSQDIIDLAHLNDVGTLQALQNFGFYLGIGLTNILNTFNPQAIILRNSIIESHPMVLHSIKGEVSSRVYSQLDNSYELLPSILGKNAPALGMSSIVIDHFLDMVHN	PGPT0018870_501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018870-nagC-K02565	NA	NA
D1-12_00939	1335	xylA		Xylose isomerase	ATGGCTCACTCTCATTCCGGTTCAGTCAACTATTTTGAAAGCGTAAACAAAGTGATTTACGAAGGGAAAGAATCCACGAATCCTTTAGCATTTAAATACTATAATTCTCAAGAAGTAATTGGCGGAAAAACGATGAAAGAGCATTTGCGATTTTCTATTGCCTATTGGCATACATTTACCGCTGACGGAACAGACATTTTTGGCGCAGCTACGATGCAGAGACCGTGGGATCACTATAAAGGCATGGATCTGGCGAGAGCGAGGGTAGATGCAGCGTTTGAGCTGTTTGAAAAACTGGATGCGCCATTTTTTGCTTTTCATGACCGGGATATCGCACCGGAAGGAAGTACGTTAAAAGAGACAAATCAAAATCTGGATATAATCGTGGACATGATAAAAGACTACATGAGAACCAGCGGCGTTAAGTTATTATGGAATACTGCAAACATGTTTACGAATCCCCGTTTCGTCCATGGTGCGGCGACTTCTTGTAATGCAGATGTATTTGCGTATGCCGCAGCCCAAGTAAAAAAAGGATTAGAAACAGCAAAAGAGCTTGGCGCGGAGAACTATGTATTTTGGGGCGGACGTGAAGGGTACGAAACTTTGTTAAATACCGATTTAAAATTTGAGCTTGATAATATGGCCAGATTTATGCATATGGCAGTGGATTATGCGAAGGAAATCGGGTATACAGGGCAGTTTTTGATTGAACCAAAACCAAAAGAGCCGACCACCCATCAATATGATACGGACGCAGCAACAACCATTGCCTTTTTAAAGCAATATGGCTTAGACAATCATTTTAAATTAAATCTCGAAGCCAATCATGCCACATTAGCCGGGCATACATTCGAACATGAATTACGCATGGCGAGAGTGCATGGCCTTCTTGGCTCTGTTGACGCGAATCAGGGTGATCCGCTTTTAGGCTGGGACACAGATGAATTTCCGACAGATTTATATTCTGCGACATTAGCAATGTACGAAATCCTGCAAAATGGCGGTCTTGGAAGCGGCGGATTAAACTTTGACGCAAAGGTCAGGAGATCTTCTTTTGAGCCTGATGATTTACTATATGCCCATGTTGCAGGGATGGATACATTTGCAAGAGGGTTGAAAGCCGCCCACAAATTAATCGAAGATCGTGTGTTTGAAGATGTGATTCAACACCGTTACCGCAGCTTTACTGAAGGGATTGGTCTTGAAATTGCAGAAGGAAGAGCTGATTTTAAGACACTTGAGCAATATGCGCTAAACAAGCCAATTAAAAACGAATCAGGGAGACAGGAGCGGTTAAAAGCGATATTAAATCAATACATTTTACAGGTATAA	MAHSHSGSVNYFESVNKVIYEGKESTNPLAFKYYNSQEVIGGKTMKEHLRFSIAYWHTFTADGTDIFGAATMQRPWDHYKGMDLARARVDAAFELFEKLDAPFFAFHDRDIAPEGSTLKETNQNLDIIVDMIKDYMRTSGVKLLWNTANMFTNPRFVHGAATSCNADVFAYAAAQVKKGLETAKELGAENYVFWGGREGYETLLNTDLKFELDNMARFMHMAVDYAKEIGYTGQFLIEPKPKEPTTHQYDTDAATTIAFLKQYGLDNHFKLNLEANHATLAGHTFEHELRMARVHGLLGSVDANQGDPLLGWDTDEFPTDLYSATLAMYEILQNGGLGSGGLNFDAKVRRSSFEPDDLLYAHVAGMDTFARGLKAAHKLIEDRVFEDVIQHRYRSFTEGIGLEIAEGRADFKTLEQYALNKPIKNESGRQERLKAILNQYILQV	PGPT0017550_299	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
D1-12_00940	129			hypothetical protein	ATGAAAAAAGAAGCTCCAGATCCCGCTGTGAAAAAAATGCAGGCAGCCAAGTTCCCGGAATTGCCCGTCATGAAGTTACTGTTATGGCGGGTCATTTCAATGGGGATCTATTTAGAGAGGAAGGAGTGA	MKKEAPDPAVKKMQAAKFPELPVMKLLLWRVISMGIYLERKE				NA	NA	NA	NA	NA
D1-12_00941	1500	xylB_1	COG1070	Xylulose kinase	ATGAAGTATGTCATTGGAATAGACCTTGGAACGAGTGCCGTTAAAACCATTTTAGTCAATCAAAACGGCAAGGTTTGTGCAGAAACGTCCAAAAGTTACCCGCTCATCCAAGAGAAGGCGGGATATAGTGAGCAAAATCCTGAAGACTGGGTGCAGCAAACAATTGAAGCATTGGCTGAATTGATTTCGATATCCAACGTTCAAGCCGGGGATATTGACGGGATTAGCTATTCAGGACAAATGCATGGGTTAGTACTGCTTGACCAAGATCGGCGGGTGCTGCGTCATGCGATTCTTTGGAATGATACCAGAACGACGCCTCAATGTAACAGGATTACCGAGACATTTGGCGATCATCTGCTTGATATCACAAAAAACCGTGTCCTTGAAGGGTTTACATTACCTAAAATGTTATGGGTGAAGGAACATGAGCCTGAACTTTTTCACAAAACCGCTGTTTTTTTGCTTCCGAAAGACTATGTGAGATTCCGCATGACTGGCGCCATTCACACCGAATACTCCGATGCGGCGGGAACGTTACTTTTACATATGACCCGCAAAGAGTGGAGCGATGAGATTTGCAATCAATTTGGTATTTCAGCGGAAATTTGTCCTCCGCTTGTTGAATCCCATGACTGTGTAGGATCGCTGCTTCCGAGCGTTGCGGCGGAGACTGGGCTGTTGGAAAAAACAAAAGTGTACGCCGGGGGAGCAGATAATGCTTGCGGTGCTGTCGGAGCCGGTATTCTTTCTTCCGGAAAAACGTTATGCAGCATTGGGACGTCAGGAGTCATACTTTCCTGTGAAGAAGACAAAGAAAGAGATTTTAAAGGGAAAGTGCACTTTTTTAATCATGGAAAAAAGGATTCATTTTATACGATGGGGGTCACGCTCGCTGCAGGGTACAGCTTGGACTGGTTTAAAAAAACGTTTGCGCCAAACGAATCGTTTGAACAATTATTGCGGGGAGTGGAATCTGTTCCGATAGGAGCAAATGGACTGCTGTACACTCCTTACTTAGTCGGTGAAAGAACGCCGCATGCTGATTCATCTATTCGGGGAAGCTTGATCGGAATGGACGGAGCCCATAAAAGAGAGCACTTTTTGAGGGCGATAATGGAAGGCATCACATTCTCTTTATATGAATCAATTGAGCTATTCCGCGAAGCGGGAAAATCAGTTGATACGGTTGTCTCTATTGGCGGGGGAGCTAAAAATGAAACGTGGCTTCAAATGCAAGCTGATATTTTCAATACGAGGGTGGTTAAGTTAGAAAATGAACAAGGTCCCGCCATGGGGGCTGCGATGTTAGCTGCCTTCGGAAGCGGGTGGTTTGACTCTCTTGAAGAATGTGCAGAGCAGTTCATTCATGAAGCAGCTGCATTTTATCCAAAAGAACAAAATGTTCAAAAATATAAAACACTATTCGAGTTGTATAAGAACATTTACGTTCACACAAAAGATCTCAATACAGCTTTAAAGAGCTTTAGACAAAAATGA	MKYVIGIDLGTSAVKTILVNQNGKVCAETSKSYPLIQEKAGYSEQNPEDWVQQTIEALAELISISNVQAGDIDGISYSGQMHGLVLLDQDRRVLRHAILWNDTRTTPQCNRITETFGDHLLDITKNRVLEGFTLPKMLWVKEHEPELFHKTAVFLLPKDYVRFRMTGAIHTEYSDAAGTLLLHMTRKEWSDEICNQFGISAEICPPLVESHDCVGSLLPSVAAETGLLEKTKVYAGGADNACGAVGAGILSSGKTLCSIGTSGVILSCEEDKERDFKGKVHFFNHGKKDSFYTMGVTLAAGYSLDWFKKTFAPNESFEQLLRGVESVPIGANGLLYTPYLVGERTPHADSSIRGSLIGMDGAHKREHFLRAIMEGITFSLYESIELFREAGKSVDTVVSIGGGAKNETWLQMQADIFNTRVVKLENEQGPAMGAAMLAAFGSGWFDSLEECAEQFIHEAAAFYPKEQNVQKYKTLFELYKNIYVHTKDLNTALKSFRQK	PGPT0017535_1452	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
D1-12_00943	2598	rphC		rifamycin-inactivating phosphotransferase RphC	ATGAGTTCTTTGGTTCTCGGCATTCACGAAATTGAAAAAACACAGCCTTTGCTCGTTGGAGGAAAAGGGTTACATTTAGGGGAATTATCAAAAATTCAAGGAATACAAGTACCGGAAGGATTTTGTGTCACAACCGCAGGATATCAAAAAGCCATTGAACAAAATGAAACATTACAAGCGCTGTTGGATCAACTGACCATGCTGAAAGTGGAGAATCGGGATCAAATTGGTGAAGTCAGCAAAAAAATCCGGCAAACCATTATGGAAACAGAAATTCCTTCAGATGTAGTCAAAGCAGTTGCTTGCCATCTCTCCCGGTTCGGCGAAGAACATGCCTATGCCGTACGTTCCAGTGCGACAGCTGAGGATTTACCGCATGCCTCTTTTGCCGGTCAACAAGACACCTATTTAAATATTACCGGCGTCGATGCGATCTTGAAGCATATCAGTAAATGTTGGGCGTCTCTATTTACGGATCGCGCGGTCATTTACCGTATGCAAAATGGATTTGATCACAGCCAAGTTTATTTATCCGTTATCATCCAAAGGATGGTGTTCCCTCAGGCTTCGGGAATTTTATTTACCGCTGATCCGATAACCGGAAACCGAAAGCTGCTATCCATCGATGCCGGTTTTGGACTTGGTGAAGCACTTGTCTCCGGCTTAGTCTCTGCCGATTGTTATAAAGTACAGGACGGGCAAATCGTCGATAAGAGAATAGAAACTAAAAAATTGGCTATCTATGGACGAAAAGAAGGCGGAACAGAAACACAGGAGATCGCTCTTGATCAGCAAAAGATTCAAACACTGACTGATGAACAAATTTTACAGCTGGCACGTATCGGGAGACAGATCGAAGCTCATTTCGGCCAGCCGCAAGATATCGAATGGTGTTTGGACCGCGATACTTTTTATATTGTTCAAAGTCGTCCGATCACAACGTTATACCCCGTTCCTGAAGCGAACGATCAAGAAAATCACGTCTATATCTCTGTTGGTCATCAGCAAATGATGACGGATCCCATAAAACCCCTTGGATTGTCTTTTTTTCTGTTGACGACTGCTGCACCCATGCGTCAAGCCGGCGGAAGGCTATTCGTTGATGTCACACATCAACTGGCATCTCCTAATGTCAGAGAAGTTTTCTTAAAAGGCATGGGGCAGCACGATCCGCTCTTAAAAGACGCACTTATGACCATAATAGAGCGAGATGATTTCATTAAGCCGGTACCTGATAAAACGGCACCGATTCCCGGCAAAGGCAATGCAGATATGCCGGAACAAGCTGAAAACGATCCGGCAATTGTTTCTGATTTGATTAAGAGCAGTCAGGCATCGATAGAAGAGTTAAAACAAAACATCCAGACGAAATCAGGATCTGATTTATTTCGTTTTATTTTGGAAGATATCCAGGAATTAAAGAAGATTCTATTTAACCCGAAAAGTTCGGTGTTGATTCGAACTGCAATGGATGCTTCATCATGGATTAACGAAAAAATGAACGAGTGGTTAGGTGAAAAAAACGCAGCAGATACGCTTTCTCAATCTGTACCCCATAATATTACCTCAGAAATGGGGCTTGCGCTATTGGACGTCGCCGATGTGATCCGCCCTTATCCAGAAGTAATTGCCTATTTAGAGAATGTAAAAGATGATCACTTTTTGGATGGGCTGGTGACGTTTGAAGGCGGGCGGGAAACCCGTGACGCTATCTATGCTTATCTCAGCAAGTACGGAATGCGATGTGCCGGAGAAATTGATATGACAAGAACTCGATGGAGCGAAAAACCAACTGCACTTGTCCCTATGATTCTTAATAATCTCAAAAACTTTGAGCCAAATGCCAGCCAGCGGAAATTTGAGCAAGGGCGGCAGGAGGCGTTGAAGAAAGAACAAGAGTTATTAGACCGATTGAAGCAATTACCGGATGGTGAACAAAAAGCCAAAGAAACCAAACGAATGATCCGCATCATCCGGAACTTCAGCGGGTTCAGAGAATATCCAAAATACGGCATGATCAGCCGCTACTTCGTTTATAAGCAGGCTTTACTGAAAGAAGCCGAACAACTCGCAGAAGCGGGCGTTATTCATGAAAAAGAAGACATATACTATCTCACTTTTGAAGAACTTCAGGAAGTCGTACGCACACATAAATTGGATTACCAAATCATCAGCACACGAAAAGGCGAGTACAAAGTATATGAAAAACTATCTCCGCCGCGTGTTATCACATCTGACGGTGAAATCGTTACAGGCGAGTACAAACGAGAAAATCTCCCGGCCGGTGCGATTGCAGGGCTGCCCGTTTCCTCGGGAGTCATAGAAGGGCGGGCACGGGTTATTTTAAACATGGAAGATGCCGATTTGGAAGATGGAGATATATTAGTTACCTCCTATACTGATCCCAGCTGGACGCCATTGTTTGTATCCATAAAAGGCCTGGTCACTGAAGTTGGCGGACTGATGACCCATGGAGCGGTTATCGCGCGTGAATACGGCTTACCTGCAGTTGTTGGAGTTGAAAATGCAACCCAATTGATAAAAGATGGGCAGCGAATCCGCGTTCATGGAACAGAAGGCTCTATTGAAATATTATAA	MSSLVLGIHEIEKTQPLLVGGKGLHLGELSKIQGIQVPEGFCVTTAGYQKAIEQNETLQALLDQLTMLKVENRDQIGEVSKKIRQTIMETEIPSDVVKAVACHLSRFGEEHAYAVRSSATAEDLPHASFAGQQDTYLNITGVDAILKHISKCWASLFTDRAVIYRMQNGFDHSQVYLSVIIQRMVFPQASGILFTADPITGNRKLLSIDAGFGLGEALVSGLVSADCYKVQDGQIVDKRIETKKLAIYGRKEGGTETQEIALDQQKIQTLTDEQILQLARIGRQIEAHFGQPQDIEWCLDRDTFYIVQSRPITTLYPVPEANDQENHVYISVGHQQMMTDPIKPLGLSFFLLTTAAPMRQAGGRLFVDVTHQLASPNVREVFLKGMGQHDPLLKDALMTIIERDDFIKPVPDKTAPIPGKGNADMPEQAENDPAIVSDLIKSSQASIEELKQNIQTKSGSDLFRFILEDIQELKKILFNPKSSVLIRTAMDASSWINEKMNEWLGEKNAADTLSQSVPHNITSEMGLALLDVADVIRPYPEVIAYLENVKDDHFLDGLVTFEGGRETRDAIYAYLSKYGMRCAGEIDMTRTRWSEKPTALVPMILNNLKNFEPNASQRKFEQGRQEALKKEQELLDRLKQLPDGEQKAKETKRMIRIIRNFSGFREYPKYGMISRYFVYKQALLKEAEQLAEAGVIHEKEDIYYLTFEELQEVVRTHKLDYQIISTRKGEYKVYEKLSPPRVITSDGEIVTGEYKRENLPAGAIAGLPVSSGVIEGRARVILNMEDADLEDGDILVTSYTDPSWTPLFVSIKGLVTEVGGLMTHGAVIAREYGLPAVVGVENATQLIKDGQRIRVHGTEGSIEIL				NA	NA	NA	NA	NA
D1-12_00944	99			hypothetical protein	ATGGGGAACTACGGTGGAAATTACGGTGGAAGCTCTTTCGTATTGATCGTTGTGCTGTTCATTTTGTTAATCATTGTAGGTGCTGCATTCCTTTTCTAG	MGNYGGNYGGSSFVLIVVLFILLIIVGAAFLF	PGPT0024985_363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
D1-12_00945	300			hypothetical protein	ATGGCCAAACACGCAATAAAACTGTGTATGAAATTGGTGATCATGAAGTTACTTCATCATGCAGAGCCACATACGAAGAGGTACAGGGAAATTATAGTTAACGAAAATATTCATCATTTCCCGGGCAAGCGCAGTATACGACAAATCAAAACAAATCACAAAGGGACGGAAGGAACGATACAAGGAGGCTGCTTGCGGGTTTGTGATGTAGATAAAGTTATAGGCAACGATGACCGGGGCGGCTGCGGATCAACTGAAACGAAGTATATTCCCAAGCAAAGGAGTATTTCTTTAACGTGA	MAKHAIKLCMKLVIMKLLHHAEPHTKRYREIIVNENIHHFPGKRSIRQIKTNHKGTEGTIQGGCLRVCDVDKVIGNDDRGGCGSTETKYIPKQRSISLT				NA	NA	NA	NA	NA
D1-12_00946	186			hypothetical protein	ATGGGATTAAAAAATTTCTTTAATACTGAGTTAAAATGCTCTATCTGCGGAAAAACATTAAAATCAGGGGATGAGATAACAGCTTATCTTACACTTCCGAGTGAGAAGAAGATGCCTGTGGGGAGAATGGACAAAGTGTTAAGCAAACACTCTGATAAGGTCTGCTGTAAAAAGTGCAGTGAGTAG	MGLKNFFNTELKCSICGKTLKSGDEITAYLTLPSEKKMPVGRMDKVLSKHSDKVCCKKCSE				NA	NA	NA	NA	NA
D1-12_00947	168			hypothetical protein	ATGAGTCTTATCATTTTAGCATCCATGCTTTTATGGGGTGCAGTGATCCACGAGCTAAACAAACCTTCAAAAAAACAAAGTAAACGAAAAATGATCCCTTTGGTATCCCTCAGTTCTTTATCTACTTTAATCATCACAATTTCGCTTTTTTCTCATTTAATTGGTTGA	MSLIILASMLLWGAVIHELNKPSKKQSKRKMIPLVSLSSLSTLIITISLFSHLIG				NA	NA	NA	NA	NA
D1-12_00948	915			hypothetical protein	TTGAAATTAGAACGTTTGTTATCAATCATATTCAAGCTCTTACATAATGAAATTTTATCTGCTTCCAGTTTAGCTGATGAATTTCAAGTATCAACGCGGACAATTTATAGAGACATCGAAGCGATTTGTGCAGCTGGAATACCAGTCGTTTCATACCAAGGGGCTAACGGCGGTTTTGGGATAATGAGAGGATACAAATTTGATAAAAGTTTAATCGGTTCTCATGATGTATTGAATTTAATTACAGTATTAAGCAGTTTGTCGAGTGTTTTTGAAGATAAGGAAGTTGAACACACGATAGATAGATTAAAATCTCTGGATACAAGCGAAAGCAGCAGGACTTTGTATGTTAACTTGGAAAGCCTTACAACAAAACCGAATTCATTAATCCGGCTGCGAAAAGCTATACAGGAAAAAAAGGCAGTACGCTTTGATTATGTCAGTAATAAAAATGAATTTACATCACGTGAAGCAGAACCTATCCACCTTCATTATAAGTTTCGTAATTGGTATGTATATGGCTTCTGCAGAGAACGTCAAGATGATAGAGAATTTAGAGTATCACGTATGATGAATATAACGCTTACTCAAGAAGAGTTTTTGCGCAGTCACAAAGTGAAAGATGAACCATCTTATTCAGAATCCGACCTGGGAGGATTTGCGGATGTAGTCATTTGGGTTAATCCTAATTCCATAGCTAAAGTATTAGATCAATTTCAGAACGCTTCAAAAGTCATGAACAGAGATGGAAGTATGACGTTTACAATCTCTGTGTATCGGCCTCAGCATGCCGGATGGCTTAAATCAATTCTTTTAAGCTTTGGCAGTGGCGCTAAAATTATAAAACCGGTGGAACTTCAATCAATTTTAATGGATGAAGCTGAAAAAATAATGAAAATTTATAAAGATGTATGA	MKLERLLSIIFKLLHNEILSASSLADEFQVSTRTIYRDIEAICAAGIPVVSYQGANGGFGIMRGYKFDKSLIGSHDVLNLITVLSSLSSVFEDKEVEHTIDRLKSLDTSESSRTLYVNLESLTTKPNSLIRLRKAIQEKKAVRFDYVSNKNEFTSREAEPIHLHYKFRNWYVYGFCRERQDDREFRVSRMMNITLTQEEFLRSHKVKDEPSYSESDLGGFADVVIWVNPNSIAKVLDQFQNASKVMNRDGSMTFTISVYRPQHAGWLKSILLSFGSGAKIIKPVELQSILMDEAEKIMKIYKDV				NA	NA	NA	NA	NA
D1-12_00949	501			hypothetical protein	ATGAACCATGCGAAAAATATGTATCAGTACCATGTTTGGGCGAATAAAGCGTTATTAGAAAGAATAAAGGAATTACCAAGTAATGTCCTTTATGAAGAGGTTCACAGTTCATATCCTACAATTGCTCAAACGTTCAGTCACATCTGCGCGGTGGATGTTATGTGGTTGCAAGTACTTAAAGGAATAGACATGCAGGAAGCATTGGAAGCTTCTATGGGTTATTCAGAAAGGGCTCATTTATATTCTGCAGATGAATTTGCGGCGTCTTATGAAGAACTGGCTTCACAGTTTGAAGAATGGATGAATAGCCAAACAGATTTAGAACAAAAAATGAACTTAAATAATCCTTGGTTAGGTTACAGAGAAACTGCTTACTCAGAAATTTTATTCCATGTTGCCAATCACGGAACTTATCATCGGGGCAGCATAACAACTATGTTAAGACAGCAGGGCTACGCTTCGGCAATGACTGACCTTGCATTATATTGGTATCAGGGTTAG	MNHAKNMYQYHVWANKALLERIKELPSNVLYEEVHSSYPTIAQTFSHICAVDVMWLQVLKGIDMQEALEASMGYSERAHLYSADEFAASYEELASQFEEWMNSQTDLEQKMNLNNPWLGYRETAYSEILFHVANHGTYHRGSITTMLRQQGYASAMTDLALYWYQG				NA	NA	NA	NA	NA
D1-12_00950	1017	adh		Alcohol dehydrogenase	TTGAAAGCAGTAGTAGCAACAAAAGACAAAAGTATAGCGATCGTACAAAAAGAATTACGTCCTTTGCGACATGGTGAAGCCAAAGTTAAGATGGAATACTGCGGTGTATGTCATACTGACTTACATGTTAAAAATGCTGATTTCGGGGATGTTACAGGCGTCACTTTAGGTCATGAGGGAATCGGCATTGTAACTGAGATTGGTGAAGGTGTAACAAGCCTGAAAAAGGGCGACCGCGTCTCTATTGCCTGGATGTTTGAAAGCTGCGGCTGCTGTGAATATTGCCTAACTGGCCGTGAAACCTTGTGCCGGGATGTAAAAAATGCCGGCTATACAGTTGACGGCGCAATGGCTGAAGAAGCAATCGTAGCGGTTGATTATGCAATAAAGGTGCCGGAAAATTTAGATCCTGCAGCAGCAAGCAGCATTACTTGTGCAGGTGTAACAACTTATAAAGCGGTTAAAGTCAGTGAAATTAAACCAGGTCAATGGATCGGTGTATTTGGAGTCGGCGGTTTAGGCAACTTGGCTGTTCAATATGCAAAAAATGTCTTTAACGCTAAAGTAATTGCTTTCGACATTAGCGATGAAAAATTGAATTTTGCTAAGAGCTTAGGCGCTGATGCGGTTGTAAACAGTTTAAACGAAGACCCCGTCGCTAAAGCAAAAGAAGTGACTAACGATTCAGGGCTTGATGCTGTGGTCATCACGGCTGTCTCTAAAACCCCTTTCAATCAAGCGATTGATGTTGTAAAAGCAGGAGCCCGTGTAGTCGCTGTCGGTTTACCGGTGGACAAAATGGATTTAGATATTCCCCGTCTCGTGTTAGATGGGATTCAGGTAGTAGGTTCATTAGTAGGTACCAGAGAAGATTTGAAGGAAGCTTTTCAATTTGCCGCAGACGGTAAAGTTGTACCTAAAGTGACAAAGCGCCCGATTGAAGATGTGAATGATATTTTTGAAGAAATGGAGCAAGGTAAAGTGACCGGCCGCATGGTTATCGATTTTACTTCCTAA	MKAVVATKDKSIAIVQKELRPLRHGEAKVKMEYCGVCHTDLHVKNADFGDVTGVTLGHEGIGIVTEIGEGVTSLKKGDRVSIAWMFESCGCCEYCLTGRETLCRDVKNAGYTVDGAMAEEAIVAVDYAIKVPENLDPAAASSITCAGVTTYKAVKVSEIKPGQWIGVFGVGGLGNLAVQYAKNVFNAKVIAFDISDEKLNFAKSLGADAVVNSLNEDPVAKAKEVTNDSGLDAVVITAVSKTPFNQAIDVVKAGARVVAVGLPVDKMDLDIPRLVLDGIQVVGSLVGTREDLKEAFQFAADGKVVPKVTKRPIEDVNDIFEEMEQGKVTGRMVIDFTS	PGPT0006365_2075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
D1-12_00951	273			hypothetical protein	TTGACAATCACCGGCTCACTAAGTTTGCGCCCTTTATCAGCTTATATCGGAAACAATGTAAGTGTCGGACATGATGCTCTCATTCATGGCCCTCTTGGAAATCACACGTTCATCGGTTTTAAGGCAATCGTATACAATGCAATTATAGGAAAAGGATCATTTATTTCATACAATGCTGTTATCACAAATGGTGTACGAATTGCACCGAATCGGTTCGTTCCTCCAGGTGCCGACATAGATACACAAAAAAATCTGACAGACTCAGACGAGTGA	MTITGSLSLRPLSAYIGNNVSVGHDALIHGPLGNHTFIGFKAIVYNAIIGKGSFISYNAVITNGVRIAPNRFVPPGADIDTQKNLTDSDE	PGPT0003020_380	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-12_00952	123			hypothetical protein	ATGGGCTGTTTTTATCAAGCGGCAGGCAAACCATTTTACAAACAAATTCCTCAAGCGGTTTTTATAACCGAAGAAATCAGTGCTTTGGATAAACGCTGTAAGAAAGACTTTCTGTTTAAATAA	MGCFYQAAGKPFYKQIPQAVFITEEISALDKRCKKDFLFK				NA	NA	NA	NA	NA
D1-12_00953	204			hypothetical protein	ATGAATGGTATAGAATTCTTAGAATCTGTGTCGCGACTTGGACAACTCATTTTGGTGTTTTCCTGCTACGCCGTTTATTGGAAATTGGGTAAAACGAAAAGGGAGCGAAGACTTACAAAATTCGAAGCTTTGCTTAGGTTCTTTGTAATGTTTGGTCTATCTGCATGGGGGCTGTCGTTTCTTGCTTTGAATTTGTGGTCATAA	MNGIEFLESVSRLGQLILVFSCYAVYWKLGKTKRERRLTKFEALLRFFVMFGLSAWGLSFLALNLWS				NA	NA	NA	NA	NA
D1-12_00954	429			hypothetical protein	ATGTATTTTGATAAAAAGCAGGTGAACTATATGGAAGCAGCGTCTTGGAGCAAAAGTCAAAGCTGTACCTACACATTGGCTTTTTCAAGTTTGTCGTATGGTTTGATCTTCGGGCTATATATGTTTGTATACTCGGGTTTTGTGCCATTTGCATTGGTTACTGTGGTTATCATTGCTTTTTACGCATTCATTACTTACCTTTTGTTTGCTGTTCCTGTGCAACTATGGCTAAGAAAGAAGCCTAAAAAGTTTAGTTTGGTTCATCTTTTCATTTATACAGCAGTCGCTTTTTTAGCTGTGTTCTTGTTCTGGTACATAGATAATCCGCCAATTGATTTCTCAGTTTTTAGAACTTTCATTTATTACATAATGAGCATTGTTGCTGCGTTCATATATTGGTTCTGGGACTCTATATTTCTGAGAAATTAA	MYFDKKQVNYMEAASWSKSQSCTYTLAFSSLSYGLIFGLYMFVYSGFVPFALVTVVIIAFYAFITYLLFAVPVQLWLRKKPKKFSLVHLFIYTAVAFLAVFLFWYIDNPPIDFSVFRTFIYYIMSIVAAFIYWFWDSIFLRN				NA	NA	NA	NA	NA
D1-12_00955	756			hypothetical protein	ATGGAATACATTGAGTTGACTAGGGACAATATTGATGACAATCATATTTGCTGTGCATTAGGTACGAAACAATATGAGGATGCGGTAAATGAAAAGAAGAGCTGGCTCAAAGATCGAATGAGTGATGGTTTGGTGTTCTATCGCCTAAACGAGCGGGCAAAAGTTTTTATTGAATATTTACCTGCAGAAGAAGCATGGGTTCCGGTAAGCGCACCTAATTTTATGTTTATTAATTGTCTTTGGGTCTCAGGTAAATATAAGAATAACGGGCATGCGAAACACTTGTTAGAAAGATGTGTGTCAGATGCAAAATCCCGCGGTATGGATGGGATAGTTCATATAGTGGGGAAGAAAAAACTCCCTTATTTAAGTGATAAGCATTTCTTCGAGCATATGGGATTTGCTGTGCAAGATGAAGCAGAACCCTATTTTCAGTTGGTGTCACTGACGTGGAATGAACATGCACATCCTCCTGTATTTAAAAAACAGGTGAAAAGTAATTCCGTTAATGATGAGGGAATCACAATATTTTATACATCTCAATGCCCATTTGCAGTCGGATTGTTAAAGGATGTAAAGGAACTGACTGAAAAGAAAGGACTTCATTTTCAGGCCCGGCGAATAACGTCAAAAGATATGGCGCAAAAATCCCCGGCAGTTTGGACGACTTTCAGCGTGTTTTATAATGGGACATTTCTCACTCATGAGATGATGAGCGTGAATAAGTTTGAAAAAATACTCAATAGCTTAATTTAA	MEYIELTRDNIDDNHICCALGTKQYEDAVNEKKSWLKDRMSDGLVFYRLNERAKVFIEYLPAEEAWVPVSAPNFMFINCLWVSGKYKNNGHAKHLLERCVSDAKSRGMDGIVHIVGKKKLPYLSDKHFFEHMGFAVQDEAEPYFQLVSLTWNEHAHPPVFKKQVKSNSVNDEGITIFYTSQCPFAVGLLKDVKELTEKKGLHFQARRITSKDMAQKSPAVWTTFSVFYNGTFLTHEMMSVNKFEKILNSLI				NA	NA	NA	NA	NA
D1-12_00956	378	yokI_2		putative ribonuclease YokI	ATGAAAGTATTTGAAGCATCTTCGTTCATTTCAGCAGCGGAAAAGCGGGCAAAAGAATATGATCAGGTTAGAGAACAATTTATCAATCTCAGAAAAGCGTTTCAGGAAATGGCTGACTTAGACGACAGTGAGTTTTCAGGCAAAGGCGCCGACAATATCAAAGCCTTTTTCCAGGACCACGCCAGCGTCACGGACAGCTGGCTTGATCTGATCGATATGAAGATTGCTTTTCTTAACAGTATTTCAGGAAAAGTAGCTGATGCCGGATTAGCCGATTCGTTTGTGGAAGAGTCATTTTTAGAACATGAGTTGATTCATGCGAAGAATACATCACAAGCTATCATGCAAGAGCAGCGGAATGAAATGGGATATTCTTAA	MKVFEASSFISAAEKRAKEYDQVREQFINLRKAFQEMADLDDSEFSGKGADNIKAFFQDHASVTDSWLDLIDMKIAFLNSISGKVADAGLADSFVEESFLEHELIHAKNTSQAIMQEQRNEMGYS	PGPT0027630_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_00957	1440	yobL_1		Ribonuclease YobL	ATGAAATGGGATATTCTTAATGAGATAAGTGATATTGTTCATCTTGATGTTTTCTCTACAGAGGATGTCGATCAAAAGCTGGATTCAGCAGACAAGAAACGGGACAATACCATACACAAGCTCGGAAAGCTCGATCATGATCTAACGAAGGAATATGCAGAAACCGAGGCAAATGAACATTTCATTCAGGCAGATTTTCAACAGCTCCAAAACGCAACAGGCCAAGGGAAAAATGCAACACCACTTCACTATAACGCTAAAGCTTACAGGGAAAGTGACATACATAAGAAAAAAGGCGAGATTACAAGACACTCAGACGCTTATCTGACGATTAAGAAGGAAGAAGCGAAAGAGCGGGAAATCAAGGATCTCAAGAAAAAGCTCGCCGACGGTGTGACCGATCCGGATGAATATTTGGAAATGGCGAAGAAGATCGGGTACGAGAACCTTGACCCTTCTCAACAGCAATATGTCATTCAGCTTGAACAAGCACAACAGCTGAAAGAAGCCGGAGAAGTGACTTGGGATATATTAAAAGGAGCCGGTGTCGGCCTTTATGATGTCGGGAAAGACACGGTAACCGGTCTATGGGACTTCATAACCGATCCGGGGGAAACGCTGTCAGCACTGGGGAATGCAGTACTTCATCCTGTTAAAACATATGATGCTGTTAAAGCGGCAATTGAAGAGTCGTATCAAAAGGATATGGTGAACGGAGATGCTTACTCCAGATCAAGATGGGTGACATATGCGGTCGGTTCAGTGGCTGTGGCTGTCGTCGGAACAAAAGGCGCAGGAGCCGTTAACAAAGCTGATGCGGCGGGGAAGGTCATAAACAAGGCAGGACAGGCAGGTCAGAAAATTAAGGACATTAAGATTTCAGATTTGCTTCCTTATAACTCTAAGTATGATCTTGCTCTGGCTGATAACGTACCATACAATGTGGTTAACAGCCAAAACCTTAAAAATGGACTTTTGTCCAATGCAAAGAAATTGGATGAAAGCAGAAAGCCATTTACTGGTCAGAAAGTAAATGTCCCTTGGTTAAATAAAGAGAAGTATGAGGCCTATGAAATAGACGGCAAGGTAAAAGTTAAAGGAGAGCCTAGAGATGTAAGCCGTAGAGTATACACAATGAAAGATATTGAGCTTAATCAAAAAAATCGTAAAGGCTTTACGAATCTTCAACTGATGAAAAATGGTAATGCTCCTTTTGCTAAAGATGGCACGCAAATAAATTTACATCACTTAATTCAAGAAGAGCCTGGTACTATGCTGGAGATACCTGAAAGCTGGCATAATAAGTACAGTGATGTTTTGCATGGATTAAAAGGGAATGGACAGAGTTTTAGAAATGCTCCTGTGCTTGATAAACAATATAAAAGTTTCAGAAGAAGGTATTGGAGATGGAGAGCTCAGCAATTTGAGAATCAAGAATAA	MKWDILNEISDIVHLDVFSTEDVDQKLDSADKKRDNTIHKLGKLDHDLTKEYAETEANEHFIQADFQQLQNATGQGKNATPLHYNAKAYRESDIHKKKGEITRHSDAYLTIKKEEAKEREIKDLKKKLADGVTDPDEYLEMAKKIGYENLDPSQQQYVIQLEQAQQLKEAGEVTWDILKGAGVGLYDVGKDTVTGLWDFITDPGETLSALGNAVLHPVKTYDAVKAAIEESYQKDMVNGDAYSRSRWVTYAVGSVAVAVVGTKGAGAVNKADAAGKVINKAGQAGQKIKDIKISDLLPYNSKYDLALADNVPYNVVNSQNLKNGLLSNAKKLDESRKPFTGQKVNVPWLNKEKYEAYEIDGKVKVKGEPRDVSRRVYTMKDIELNQKNRKGFTNLQLMKNGNAPFAKDGTQINLHHLIQEEPGTMLEIPESWHNKYSDVLHGLKGNGQSFRNAPVLDKQYKSFRRRYWRWRAQQFENQE	PGPT0027630_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_00958	459	yobK_1		Antitoxin YobK	ATGGATTATTCGAAAATAAAAACTTTCTTTGATGAAAATAAAGAAAATTCAATTCTCACGGGGGGAGTCACTGAAGATCAGATTAGAGAAATAGAAGAGGATCTCAATGTAACTCTTCCAGACAGCTATAAATGGTTTTTAACTGAGTATGGTTCAGGGGGAGCATATGGAACAATGATTCTCGGATATGACTCTCACGGCGCTGAAGTTGTCGAACAGACTAATGAATATAAAAAATATTATAACCTTTCCGATGGTCTTGTAGTGATCGAATATGTAGATGAATTTTCTTATTGTCTTGACACTAACAAGTTGAAAAATGGTGAATGCCCTGTCATTCTTTGGGACAACCAAGAGGGATATGGTAAACAAGTTGGTAGTACATTCCTTGAGTTTTTAATAGAAGAACTTGAAGAAGCGAAAGACGACTGGGTCGATGATGAGGACTGGGACGATTAA	MDYSKIKTFFDENKENSILTGGVTEDQIREIEEDLNVTLPDSYKWFLTEYGSGGAYGTMILGYDSHGAEVVEQTNEYKKYYNLSDGLVVIEYVDEFSYCLDTNKLKNGECPVILWDNQEGYGKQVGSTFLEFLIEELEEAKDDWVDDEDWDD	PGPT0027635_95	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027635-antitoxin_yobK-K21488	NA	NA
D1-12_00959	327			hypothetical protein	ATGAGCTTCACTAAGATCGAACAAAAGTTGAAAGAGTTTACGATTGATGCTAGCACAGATCCTAGCATTAATACAAATGAACAACTCAAAGAGCTTGAAATGAACATAGGAAATCAATTACCTTCCGACTATAAGGATTTTTTGAAGGGATATGGAGGCTGTTATTTAGAAAGTAAAAAAACAACAGATGAGATTGAGTATGACGTTTGCTACAAACCTATAGAGAAAGATCCTTGGATGGGCAAGGAAGATGATACACAATTATTAGAGAACTTCTATGGTTTAGCTAACGATCATAACAGTCTCCAAGAAGCAATCAATACTTAA	MSFTKIEQKLKEFTIDASTDPSINTNEQLKELEMNIGNQLPSDYKDFLKGYGGCYLESKKTTDEIEYDVCYKPIEKDPWMGKEDDTQLLENFYGLANDHNSLQEAINT				NA	NA	NA	NA	NA
D1-12_00960	195	yolA_1		SPbeta prophage-derived uncharacterized protein YolA	ATGGGCTCAAATTCAACCGTCATTAAAGCCAAAGGCGGAAGGAATTTGTTATACAAAGGTGAAGCAAACATATACAAATATGATGCTATACTTGGGCAAAACAGGGTAGTGATAGACATTGAAGTTACAATGAACGAACTTCCTTCAAATGAGATTCAAGTTGAAGGACTTGGAAAAAATGAAAATCATTTATAG	MGSNSTVIKAKGGRNLLYKGEANIYKYDAILGQNRVVIDIEVTMNELPSNEIQVEGLGKNENHL				NA	NA	NA	NA	NA
D1-12_00961	291			hypothetical protein	TTGAAATCAAATTTAGTTTCGTTTCTATTAGCATTGTCAGGATTTATATTCAGTATTTATATGCAGTCAATGGCTTACTGGAGCAATGACTCTATGTTGTGGTATTGGGTCGGTGCGGTTTTGTCGTATCTATTTGCTGCAGGATCAGTGGTTACTCTGATTCTTAACAAAAACAAAGACTCAATTCTAACAATAAGTTGTCTCTTTTTAATGATTGTAACCGTTATGCTTATTTTAGTCACAACTTTTTGGACGACTTTTATCATTATTGCATGGCAATCTGGGATGTGA	MKSNLVSFLLALSGFIFSIYMQSMAYWSNDSMLWYWVGAVLSYLFAAGSVVTLILNKNKDSILTISCLFLMIVTVMLILVTTFWTTFIIIAWQSGM				NA	NA	NA	NA	NA
D1-12_00962	480			hypothetical protein	ATGAAAAAACGTAAAGTCATTAAAACATTGCTGGTTATTATCACTGTTCTCATAATAGCAGCCGGATGTGCACTGTTTTCTTTAATTTCAGGAGAAAAAGTTAAATATATCGGCTATAGCCAAAGCAAGACGTGGGAAGCGTCAATCGAAAAATCAGGCAAGACCTCTATCGGCCCTAACTATTTCTTGAATTTGTATTACAGAGGTAATAAAGTGAATGAAAAGAACACGGTGATTAAGAGATTAACATTATTTGTTGACGGCCGGAAATATGGTGAAGATAAAGACTATCATCTTTCAGAATACACCGGAGAGAAATTAGAAGGCGGCGGAACGGGAGAAGACCATATTCAGACGTTTGAATATATGCCGGAAAATGAAGTGATCGGTCATGAAATCACTGTTGAAGCAGTATGGAAAACCGATCATGAGTCCTATTCAGAAAAATTCAACCTGAAAAGAACGCATTGGTATGACTGA	MKKRKVIKTLLVIITVLIIAAGCALFSLISGEKVKYIGYSQSKTWEASIEKSGKTSIGPNYFLNLYYRGNKVNEKNTVIKRLTLFVDGRKYGEDKDYHLSEYTGEKLEGGGTGEDHIQTFEYMPENEVIGHEITVEAVWKTDHESYSEKFNLKRTHWYD				NA	NA	NA	NA	NA
D1-12_00963	621			hypothetical protein	ATGAAAATAAATGATTATCTGAAGGAAAGGTTCCCGACTTTAAAATTAGTGCCCGGCATTTATCATCAATGGGATGTGGGAATTCATTTTTCTCTCGGCGGCAATATGTATCAATTTAATGAAAGCGGTGCTTTGAATCTTGAGTATTTTCAGCTTGTTCATCATCAAACCGCCGCACTTTTCAATGAGCTGTTTGAACATAGCGATGACTTGTTTCTTGTTGCAAACGTGTATAAGCACAAAACTCAAGGTAATTACGCGAGAAAATTAAAGGTTTATCAGCCGTTTCTGAAGTGTAAGGATGATTTATATCGGATTCAAGTGAAGACCTGTCCATGCCCGGTCGAAGAAGAATATGAAATGCAGCAGTTTTCTTTATTATGTAAACGGAAAGATCTGCGTATCCCCCAATTACTTAAGGCAGCCGTCCACGAAGATTTTCCGCTGAAGCCAAGGTTCGGGGGCTGTTCCGTTGGATATCCTGATGTTTTCTTTGTGAATATGACAAAAGATATTATTTTCTTTCTGTATGATGACAGAGGGTGTGAAGTCATTGCTCTTGATGCCGGAAGAATACGAAAGCTTTATAATCAATATCACGATTGGATTGAATTGGACTGA	MKINDYLKERFPTLKLVPGIYHQWDVGIHFSLGGNMYQFNESGALNLEYFQLVHHQTAALFNELFEHSDDLFLVANVYKHKTQGNYARKLKVYQPFLKCKDDLYRIQVKTCPCPVEEEYEMQQFSLLCKRKDLRIPQLLKAAVHEDFPLKPRFGGCSVGYPDVFFVNMTKDIIFFLYDDRGCEVIALDAGRIRKLYNQYHDWIELD				NA	NA	NA	NA	NA
D1-12_00964	1074	tgnB	COG2141	Flavin-dependent trigonelline monooxygenase, oxygenase component	GTGAGGGCTGAACAACGTGATTGTATGGAAATTGGAATTTATTCATTTGCAGAATTATATCCCGATCCTCTGACAGGGAAAACAGTCAGCGCAAAGCAGCGGATAGATGAATTGATGAAGCTGGCGAAATTGGCTGACGACGCAGGGCTTGATGTATTCGGTGTAGGCGAGCATCATCGTCTTGATTATGCGGTATCTTCGCCGCCGGCCATCTTATCAGCGATTTCACAGATCACTGAAAATATTAAGCTGACCAGTGCCACGACTGTATTATCCACCGCAGATCCCGTCCGTTTATTTGAGGATTTTGCAACGCTTGATCTGATTTCAGACGGCCGGGCGGAAATCATTGCGGGACGGGGCGCATTTTTAGACTCGTTTCCTCTTTTCGGTTATGACGTAGGCCATTATAAAGAACTGTTTGAAGAACACATTGACCTTTTTTTAAAATTAAATTCCGGGGAAGAATCGGTTACCTGGAAAGGACGTTACCGGCCGCCGCTGCGCGAGGCAGAAATTTCTCCTCGGCCTTTTCGCGGAAGCATTCCGCTATGGTTAGGTGTTTCGGGGACTCCGGAAAGCGCAGAACGGGCCGGGCGGGCCGGTGCGGGTTTGGCATTAGCTGTACTGAGCGGTGATCCGGTGTCATCTAAGCCGCTTGTTGACAAATACCGGGAAGCGGCTTCTAAAGCCGGTCATCCTCCGGAAAATGTGAAGGTTGCCGTAAGCGGACATATGTTCATTTCAAAAACGAATGAACAGGCAATACAAGAATTTTACCCGTATCATTCAAATTACTGGTCTCATGTTCATTCATATCACGGGATCGATGAGCCTTTAACGAAGGAAGATTTTGAACGGGCGTCCGGAAAAGAAACAGCTTTATTTGTGGGAAGCTCACAGCAGATCATTGAAAAAATCATGCATCAATACGAGTTATTCGGACATCAGCGATTTCTCGCGCAAATCGATATAGGAGGTATGCCGTTTAAAAAAGCCGCGGAAAACATCGAACGATTAGCAGCGGAAGTAGCACCGGTTATCCGAAAAGAAACCGGCAAATCCAGCGAATGA	MRAEQRDCMEIGIYSFAELYPDPLTGKTVSAKQRIDELMKLAKLADDAGLDVFGVGEHHRLDYAVSSPPAILSAISQITENIKLTSATTVLSTADPVRLFEDFATLDLISDGRAEIIAGRGAFLDSFPLFGYDVGHYKELFEEHIDLFLKLNSGEESVTWKGRYRPPLREAEISPRPFRGSIPLWLGVSGTPESAERAGRAGAGLALAVLSGDPVSSKPLVDKYREAASKAGHPPENVKVAVSGHMFISKTNEQAIQEFYPYHSNYWSHVHSYHGIDEPLTKEDFERASGKETALFVGSSQQIIEKIMHQYELFGHQRFLAQIDIGGMPFKKAAENIERLAAEVAPVIRKETGKSSE				NA	NA	NA	NA	NA
D1-12_00965	621	gbpA	COG3397	GlcNAc-binding protein A	ATGAAGGGTTTAGTCAAAGCTGCAGTTTTAACTGTTACTCTTGGTATTGGAGGCGCTTTCTATTCAAGTGATGCATCTGCGCACGGGTATATAAAAGAGCCCGTCAGCAGAGCGTACATGGGGGCATTAGAGAAACAAACATTGGGCTGGACGGCCGCTGCGCAGAAATATGGCTCCGTCATTGATAATCCTCAGTCTGTAGAAGGGCCGAAAGGGTTTCCGGCTGCAGGTCCGCCGGATGGAAGAATTGCGTCTGCAAATGGGGGATCGGGACAAATTGACTTCGGTTTAGACAAGCAGACTGCAGATTATTGGGTAAAACAAAACATCCGCGGCGGTTTTAACACCTTTACTTGGTACTACACGGCCCCTCATGCGACATCAAAGTGGCACTATTATATCACCAAGAAAAACTGGAATCCGAATAAACCTTTGTCAAGAGATGAATTCGAATTAATCGGAACGGTAAACCACGACGGTTCCAAGGCAGATACGAATCTGACTCATAAGATTTTTGTGCCGACTGATCGAAGCGGGTATCATGTCATTTTAGGGGTATGGGACGTTGCGGATACTTCCAATGCCTTCTATAACGTCATCGATGTAAACCTTACACAATAA	MKGLVKAAVLTVTLGIGGAFYSSDASAHGYIKEPVSRAYMGALEKQTLGWTAAAQKYGSVIDNPQSVEGPKGFPAAGPPDGRIASANGGSGQIDFGLDKQTADYWVKQNIRGGFNTFTWYYTAPHATSKWHYYITKKNWNPNKPLSRDEFELIGTVNHDGSKADTNLTHKIFVPTDRSGYHVILGVWDVADTSNAFYNVIDVNLTQ				NA	NA	NA	NA	NA
D1-12_00966	99			hypothetical protein	ATGGGATTCTCAGGTGGTTATGGTAGCTCCTTTGCGTTAATCGTGGTGCTATTCATTTTATTAATCATCGTTGGGGCTTCTTTCCTCGGCGGTTATTAA	MGFSGGYGSSFALIVVLFILLIIVGASFLGGY	PGPT0024985_359	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
D1-12_00967	540			IS1595 family transposase ISSpgl1	ATGCTTCCTGTAATAGAAACGGACAGACTTATTCTTAGAGAAGTTGAAAAGAAAGATACAAAGCAAATATTTGCTTGTTTTTCAAATACAAATGTAACACGCTATTATGGTTTGGAACCTTTTGATTCAATGGAACAGGCTGAAAAAATGATTGGCTGGTTTAAAGATCAATATCATGATAAAAAGGGAATGCGATGGGGAATCGAGAGGAAAGATGCGAAGGGAATAATCGGAACTATTGGTTTTAACTCTTGGGTGCCCAAGCATAAGCGGGCGGAGATCGGTTATGAGATTCATCCGAATTATTGGAGGAATGGCTATGCTTTTGAAGCGTTGGAGAATGTTCTTTCTTTTGGGTTTGAAAAGCTTGGGCTGCATCGTATAGGCGCTGTTGTTTTCATTGAGAATGCAGCGTCTCATCAATTACTGATAAAGGCGGGGTTTCAATCTGAAGGAATTTTGAGAAGATATATGTATCAAAACGGACTGCTCCATGATACACGTGTATATTCTATACTGAATGAGATCGTTAACGAATAA	MLPVIETDRLILREVEKKDTKQIFACFSNTNVTRYYGLEPFDSMEQAEKMIGWFKDQYHDKKGMRWGIERKDAKGIIGTIGFNSWVPKHKRAEIGYEIHPNYWRNGYAFEALENVLSFGFEKLGLHRIGAVVFIENAASHQLLIKAGFQSEGILRRYMYQNGLLHDTRVYSILNEIVNE				NA	NA	NA	NA	NA
D1-12_00968	372			hypothetical protein	TTGAAAGAAACGATTCCGATAATCACTAACAAGATGATGAACACCAATATGCTCCACAACATTATTTTTAAAGACTTTGACATGGCATACCCTCACTTTGAAAGACTTTACCGGGGCTGCGATCGGAGCCCGCACTTCAAGTATAGTCGTTATAACGGTGAAAAATGTGCAGTATCCCGTTATCAAAATAAAAACTTGCGGGCGCTGCCGCAAGTTTTCTCCGTATTAAGGTCTGTGGAATTCAATATGCTGATTATCACGATCGAACCACCCTCTGAATGCCCAATTGATCCAGCCCCCGTCCCCTTTGTTATCGAAGGACCCGTCTTCGAAGACCCAGATTCCGTAAGTAATGCCGTCATAAACGGCTGA	MKETIPIITNKMMNTNMLHNIIFKDFDMAYPHFERLYRGCDRSPHFKYSRYNGEKCAVSRYQNKNLRALPQVFSVLRSVEFNMLIITIEPPSECPIDPAPVPFVIEGPVFEDPDSVSNAVING				NA	NA	NA	NA	NA
D1-12_00969	537	yvgO_1		Stress response protein YvgO	ATGAAAATCGCCAGAACGATAGTCGGATCATGCTTAGCTTTATCTCTAACAATTCCTTTCACAGCCAGTGCCTCAGCAGCCAGTCAGTCTGAACACGCAAACGCGCCTCACGTTTCACCCGTTGCAAATCCGTTAGAAAATAAATTATCCCAAACAGCAGACCAAAACGTAAAAGCAGCAGGTGTTGATGCTGGGCTGAACGTAAACGTAGATGTTCTCGGAATCTCAGATCGCATTGCTGAAGCGGTTAAGTCAGATCAAAACCGAACCGGCTGGGTAAAAAATGTTATGGAAACAACATTTTACGCATCAGGACAGAAGTACAACGTCATGGTGTTCAATTTAAATCAAGAATATGAAGACCGCTTTAACGGCGTTCAGTTTTACGGATCAGCCGTTTATGACGGCATTACTTACGGAATCTGGGTCTTCGAAGACGGGTCCTTCGATAACAAAGGGGACGGGGGCTGGATCAATTGGGCATTCAGAGGGTGGTTCGATCGTGATAATCAGCATATTGAATTCCACAGACCTTAA	MKIARTIVGSCLALSLTIPFTASASAASQSEHANAPHVSPVANPLENKLSQTADQNVKAAGVDAGLNVNVDVLGISDRIAEAVKSDQNRTGWVKNVMETTFYASGQKYNVMVFNLNQEYEDRFNGVQFYGSAVYDGITYGIWVFEDGSFDNKGDGGWINWAFRGWFDRDNQHIEFHRP				NA	NA	NA	NA	NA
D1-12_00970	174			hypothetical protein	ATGGATATGGGTATGGATATGGGTATGGATATGGGTATGGATATGAACGGACATTATGATCACCACCCAAAGCAGCCTAAACAAAAAAAGAAGAAACAAGATAAAAAGCATCTTGATTATGATTACATCGTTGTTTATAAAAGAAAATGCAAAAAATGTAAAAAATGCTGCTAA	MDMGMDMGMDMGMDMNGHYDHHPKQPKQKKKKQDKKHLDYDYIVVYKRKCKKCKKCC				NA	NA	NA	NA	NA
D1-12_00971	2418			hypothetical protein	ATGGTTCAATTTAAAAACTTTCCTGATCCGTCTTTAAACGCCCCATTGCAGTCTCGCCCTGCACAGCCCTCTGAATTGGAGCATCTCAAAGCAAGGATGCAGAATTTTATTAAGCATTCCGCAACGGATGATAATCTTGAGATCGCAGATGCCCGGGTGACGGCGGAAGGAATGGTCACCTCACTTTTAAAAGAACGGCTTGATACAGAATACGAAATGCTTATGAATAAAATCACCCGGGAAGTGAATGTGGAGGACTACGGAGCGGTCCCTGACGGCCGGGACAATACGGAAGCCTTTCGGAGAGCGATCGGGAACGGCCGGGTCAAAGTAAATGTCCCCGCAGGAGAATTTTTGGTTCAAGGGATAAAACTCCCCTCATGGACTACCATTTCCGGTGAGGGACAGGGGATTACCGTGCTTAAGCTTCATGAGGACACTCCCGCATACGAATGGGTCATTACTAACGATGATTACGATAATGGAAACCGTAATATTTTTGTCCAGAACATGACTTTAGACTGGAATCCTGATCGTCAATGCGGGGTCAGGAACCCCGGAGGACAGTTTTCCAGCTGTTTAACGTTTGCTAATGTGCAATACGGCTGGATTAAGAATGTTGAAACGGTTAACGCGGGTCTCCATGGTATTGATATTACATCTCCGACTTACGATCATTTGCCTGAAACAGAATGGACGAAAGACGGCTGCCGATATATATGGATTGATAACTGTGTGGCATACGGCGCCGGAGACGACGGCATTACCACCCATTACAGCGAGTATATTTTCATTTCCAACTGCCATTCCGGAAACCCCCGCGGCACAGAGCATGCTGAGGGCAGCGCAAACTCGAACGGCATTGAAATTGACGACGGCTCTAAACATGTATGGCTTTTAAATAACTATACGAGCGGAAATATCCGCGGGATTGAGGTAAAGGCGCACAGCCTCTGGCCGGCTTCTCAAAATGTTCATATTATCGGTCATGTTTCGTATCGTGATGTACGTTCATTTGATATTCGTCATATCGGCCATCATCAGGCCTCAGACCCCGAAAGCACGACGGCTTATGATGTTACTTTAACCGATTGCACCGCGATTGAACCGGTATTTAATGCTCTCTATGACGGTGTGACCCCGAGGGCGCTGGTCATCTCTGCCTATAAAAACGTTAATGTAAACGGATTCACAGCTATTGGTGATCCCTCATACGACTATGGCGGGAATCCAGTCGTGGCTCTTCAATACCGCAGTCAAAATATTACGATTAACGGCATTAAAATACGCGGCTTTACACAAGCCGGTGTTGACATCAATATATCCGGCGGATCAAATAAAACCGATTATGTTAAAATTTCAAATTTTGATATATACAAGTCTTCTCCTAAAGGCATCTCAATCGGCGGAGGCCAATATAACGTAAATATTATGAACGGTACGATGATCGGAGACGGCGGTTCGGTCGGAATTACGTCCCCTAACAGTCAGGCCGTCATTCTCGGGGTGCAAGCGGAAGGTTACAGCGCGGCCGCATCTATAAAAGGACAGACTTATGAGCAGATCCCCGTCAATTTAAAGGGAGGCGCACAGCTCGCGACCAGCTCCGGTTTTGCATTCAACCCGACAAGCGCCGTTATTGCGGGAACAGGCGATATTACGGCCAGAGGTGACAGAAATGCGATCATCAGCTCTTCCGGAGGTTCAAGTTCTGAAGGTTCAAGGGCATTTATCGCCGCTTCAAACAATGTCCATATAACGGGCAGCAAAGTCTCCAGAACGATTCTGTCATCAGAAAGCATTACATTGGAAGAACCATACACGGTTGCCGGAGGGCATCAGTCCATCAAATGGAAACTGGATTCAGCGGGCGGCCACGGTACGTTCGCCGGAGCTGTCACCTCTTCCCTGTCAGGGTATGGAGAATATTTTGAAAGTGTAACCGGCCAGACAATTCCCGCCGGGACGATCGTCACAGTGAAAGGCGAAAAAATTGAATTGGCTCACGTCGGAGATTACATGCTCGGCGTCATTTCAGAAACAGCCGCTTTTATCTCAGGAGCCGCAAGCTTCGGATGGCAAAGCCGCTTTTTGACAAACGAGTTCGGCGGTTTCATATACGAAAATGTGACTGACGAAGAAACAGGAGAAACGGTACGCGTGCCGAAACAAAACCCAGACTGCAGTCCGGCTCTTGAAGCTGACTATGAAGCACGCGCGGCCAGAGACGAATGGCACATTGTCGGACTCAACGGCCGGCATTACGTACGGGTCGACGGTACGGTCAGCCCGGGAGATTATATCACGGCTCATAACGGAATCGGGACTAAAGCCGCAGAAGGCTGGAAGGTATTGAAACTGACGGCCTTATACAGTTCTGAAAAAGGGTACGGCATTGCAATTGCGGTTATCAAATAG	MVQFKNFPDPSLNAPLQSRPAQPSELEHLKARMQNFIKHSATDDNLEIADARVTAEGMVTSLLKERLDTEYEMLMNKITREVNVEDYGAVPDGRDNTEAFRRAIGNGRVKVNVPAGEFLVQGIKLPSWTTISGEGQGITVLKLHEDTPAYEWVITNDDYDNGNRNIFVQNMTLDWNPDRQCGVRNPGGQFSSCLTFANVQYGWIKNVETVNAGLHGIDITSPTYDHLPETEWTKDGCRYIWIDNCVAYGAGDDGITTHYSEYIFISNCHSGNPRGTEHAEGSANSNGIEIDDGSKHVWLLNNYTSGNIRGIEVKAHSLWPASQNVHIIGHVSYRDVRSFDIRHIGHHQASDPESTTAYDVTLTDCTAIEPVFNALYDGVTPRALVISAYKNVNVNGFTAIGDPSYDYGGNPVVALQYRSQNITINGIKIRGFTQAGVDINISGGSNKTDYVKISNFDIYKSSPKGISIGGGQYNVNIMNGTMIGDGGSVGITSPNSQAVILGVQAEGYSAAASIKGQTYEQIPVNLKGGAQLATSSGFAFNPTSAVIAGTGDITARGDRNAIISSSGGSSSEGSRAFIAASNNVHITGSKVSRTILSSESITLEEPYTVAGGHQSIKWKLDSAGGHGTFAGAVTSSLSGYGEYFESVTGQTIPAGTIVTVKGEKIELAHVGDYMLGVISETAAFISGAASFGWQSRFLTNEFGGFIYENVTDEETGETVRVPKQNPDCSPALEADYEARAARDEWHIVGLNGRHYVRVDGTVSPGDYITAHNGIGTKAAEGWKVLKLTALYSSEKGYGIAIAVIK				NA	NA	NA	NA	NA
D1-12_00972	435	yncF	COG0756	putative deoxyuridine 5'-triphosphate nucleotidohydrolase YncF	ATGACTTTACAAATCAAAATTAAATATTCAGATGATACGCAAACGAGAATCAGTAAAATTGAACAGGGCGATTGGATTGATCTGCGGGCAGCTGAAGATATCACAATCAAAAAAGGTGAATTCAAACTTATCCCGCTTGGAGTTGCGATGGAACTGCCGGAAGGATATGAGGCCCATGTCGTACCGCGTTCAAGTACATATAAGCATTTCGGTATCATTCAGACAAATTCAATGGGAGTCATTGATGAATCATATAAAGGCGACAATGACTTTTGGTTTTTTCCTGCATTCGCACTTCGGGATACCGACATTTCCAAGGGGGAGCGGATCTGCCAATTCAGAATCATGAAGAAAATGCCTGAAGTGGAGCTGATCGAAGTAGACAAGCTCGGGAACAATGACCGCGGCGGACTGGGATCAACAGGCACGAAATAA	MTLQIKIKYSDDTQTRISKIEQGDWIDLRAAEDITIKKGEFKLIPLGVAMELPEGYEAHVVPRSSTYKHFGIIQTNSMGVIDESYKGDNDFWFFPAFALRDTDISKGERICQFRIMKKMPEVELIEVDKLGNNDRGGLGSTGTK	PGPT0021355_4234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
D1-12_00973	825			hypothetical protein	ATGGCAAAAAGGGTTATAAGAGTAGACCGTAAAGCAGCTGGCAAAGAGGCAGAGCAGAAGAAACCGTCCAAAGTCACCCTGTTCTGCCGTTCGCTTCAAAGGCTGAAGCATTTGTATTGTAACATAAACATACAAATGCCATCAATAACCAAAAAAGGAATTTTAGTTTTGATTTTACCGTTTTTGCTTCTGCCGTTCTTTCGGGCTAATGCCGCTTCAGATATTTACGGCAGTTTCGAGGAATTAAAGCTGAATGAAGATCCTTCCGATTTTTCCATTTCAACGCGAGAGCATAACCCTTCTGTCCTCATATTAGCTATACACGGCGGAGGCATAGAGCCGGGGACCAGTGAGTTAGCCAGAGAAATTGCCGAAAACCGGAGTTTATATTTATTTGAAGGGTTAAAATCAGCCGGTAATGCGGCTCTGCATTTGACAAGTTCGCATTTCGATGAACCTAAGGCCGTGCAAATGGTGAAAGAGCACTCTAATGTCATTTCATTGCACGGTTACGGCAGTGATGATAAAAAGATAAAAATCGGCGGTACAGACAGAGAACGGGCCGAACTTTTGACCGATGTGCTGAAACGGCACGGGTATCCTGCCGTTCTTCTCGGCATAAATGATAAATATGCAGGCGTCAGTCCGAACAACCTTGCCAATCAATCTTCATCCGGATTGAGTATTCAAATCGAAATGAGCACCGGCTTCAGAAAATCACTATTTGACACTTTTACGCTGAAAAGCAGAGCATCCACACAAAACGGGACCTTTTATCAATTCACAAAAACGATTTCTGATTTTATCAGTGACAATTATGAATAA	MAKRVIRVDRKAAGKEAEQKKPSKVTLFCRSLQRLKHLYCNINIQMPSITKKGILVLILPFLLLPFFRANAASDIYGSFEELKLNEDPSDFSISTREHNPSVLILAIHGGGIEPGTSELAREIAENRSLYLFEGLKSAGNAALHLTSSHFDEPKAVQMVKEHSNVISLHGYGSDDKKIKIGGTDRERAELLTDVLKRHGYPAVLLGINDKYAGVSPNNLANQSSSGLSIQIEMSTGFRKSLFDTFTLKSRASTQNGTFYQFTKTISDFISDNYE				NA	NA	NA	NA	NA
D1-12_00974	150			hypothetical protein	ATGAAAGTGATGATCGGGTCTATCATTCTTCTTGTCATCATCGGATTCGGTTTATGGCTGATGCTTAGTCCAATCTTTAAACAAGTGGGAAGCAGAGCCAAAAAATTCAAAAAGTCATGGGAGGAAGAAGATCAGTATGAGCGAAAATAA	MKVMIGSIILLVIIGFGLWLMLSPIFKQVGSRAKKFKKSWEEEDQYERK				NA	NA	NA	NA	NA
D1-12_00975	831			hypothetical protein	ATGAGCGAAAATAAGCGCGGAAACACAAAAAAAATTCTCGGCGGTGTGATTATAGGTGCAGCCCTTTTAATTGCGGGCGTTACAGCGTCACTATTCATTGAAAAAATACCGAACGGTTATGTCGGGGTTGTATACTCACCGAATGGCGGGGTAAAATCCGACACATTGGACCAAGGCTGGCACTTAGTCGGTTTATTTAATAAAGTAACGGAATATCCGGTGCGTATGCAGACAGTGAATAATGAAAATATAAAAGTGGCAACCTCAGACGGTAAAAATATAGAAATGGATATCGCTTACAACTATGTCGTGCAGCCTGATAAAGTAGTCGATCTGTTTAACAAATTCGGCGCGGTAAACGTTGAAACGATTGAAAATACATATTTAAAAACAAGGCTGTGGGATGCGGCGCGAAAATCAATCAGCAAATACTCGGTTATTGACACATACGGGCAAAAATCTGCAGAAGCCGCTGCCGATGTTCAAAAGAGATTTGCTGATGATATGAAGAGTCTTGGATTTTTAATTGATGATCTGACGCTTGGCGTACCGAAGCCGGATAAAGCCACACAGGAAGCCATCGATGCAAGGGTGAAATCTTCACAGGAACTTGAACGGACACAAACTGAAATTAAAATAGCCGAAGCCGAAGCGAAAAAGAAAAAAATTGAAGCGGAAGGGATCGCTGATTATAACGAAATCATAAAGAAATCAATGTCCGATGAAATGATCAAATATAAATGGATTGAAAAATGGGACGGAAAAACGCCGAAAGCGACAGGCACAGACTCACTGCTGCAGCTGCCGCTGGACGATCAGAAGCAAAAATAA	MSENKRGNTKKILGGVIIGAALLIAGVTASLFIEKIPNGYVGVVYSPNGGVKSDTLDQGWHLVGLFNKVTEYPVRMQTVNNENIKVATSDGKNIEMDIAYNYVVQPDKVVDLFNKFGAVNVETIENTYLKTRLWDAARKSISKYSVIDTYGQKSAEAAADVQKRFADDMKSLGFLIDDLTLGVPKPDKATQEAIDARVKSSQELERTQTEIKIAEAEAKKKKIEAEGIADYNEIIKKSMSDEMIKYKWIEKWDGKTPKATGTDSLLQLPLDDQKQK				NA	NA	NA	NA	NA
D1-12_00976	450			hypothetical protein	ATGAAACACGTAATTGCTTTCGCTTCTAAAACGGCGCTCACACTTGCTTTACTGTACATTGTTCTGGATCTTATGTACCAAGTAACCTTTTTAAACGTTCTGTTTATTACAGTGATCTTAAGTTTAATCACTTATTTTGCGGGTGATTGCATGATTCTGCCGAGAACAAGCAATTTCACAGCCGTTGCAGCTGATTTCGGAATTTCATTCATTGTATTATGGATATTCCTTATGAACATTGGCGGATTTAATGTCTCGCCTGCCGCGGCATCGGTTATCTCTGCACTTTGCATTTCTGTTTTCGAGGCATTTTTTCACCGGTATTTGCAGCAATATGTACTTCCCGAAGATTATCAGGACACAACAGAGACGGATAGCACGCTATGGAGCTATCAAACCGAGGCGTCTGAAGAATTAGTGCCGGAAAAAGACCCTCAGGAAAAAACATAA	MKHVIAFASKTALTLALLYIVLDLMYQVTFLNVLFITVILSLITYFAGDCMILPRTSNFTAVAADFGISFIVLWIFLMNIGGFNVSPAAASVISALCISVFEAFFHRYLQQYVLPEDYQDTTETDSTLWSYQTEASEELVPEKDPQEKT				NA	NA	NA	NA	NA
D1-12_00978	621	lexA	COG1974	LexA repressor	ATGACGAAGCTATCAAAAAGGCAGCTTGATATCCTGCGTTTTATTAAAGAAGAGGTAAAAACGAAAGGATATCCGCCTTCTGTAAGAGAGATAGGAGAAGCAGTAGGACTGGCTTCCAGTTCAACCGTGCACGGCCATTTGGCGCGGCTGGAGACAAAAGGCCTGATCAGACGGGACCCTACTAAACCGAGAGCGATTGAGGTATTGGATGAAGAAGAAGTCCAAATTCCGAAAAGCCAGGTCGTAAACGTTCCGGTCATCGGGAAAGTGACGGCGGGTATTCCGATTACGGCTGTTGAAAATATCGACGAGTATTTTCCGCTTCCTGACCGGATGGTTCCTCCGGGCGAACATGTCTTTATGTTAGAAATCATGGGAGAAAGTATGATTGACGCCGGCATTTTTGACAAAGATTACGTCATCGTCAAACAGCAGAACACGGCCAATAACGGAGAAATCGTCGTAGCTATGACCGAAGATGATGAAGCGACGGTTAAGCGCTTCTATAAAGAAGACAATTATGTGCGGCTGCAGCCGGAAAATCCGACGATGGAGCCGATTATCCTGCAAAACGTAAGCATTTTGGGGAAAGTTATCGGCGTATTCAGAGCCGTACATTAA	MTKLSKRQLDILRFIKEEVKTKGYPPSVREIGEAVGLASSSTVHGHLARLETKGLIRRDPTKPRAIEVLDEEEVQIPKSQVVNVPVIGKVTAGIPITAVENIDEYFPLPDRMVPPGEHVFMLEIMGESMIDAGIFDKDYVIVKQQNTANNGEIVVAMTEDDEATVKRFYKEDNYVRLQPENPTMEPIILQNVSILGKVIGVFRAVH	PGPT0014895_2746	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
D1-12_00979	312	yneA	COG1388	Cell division suppressor protein YneA	ATGGCGAAAGAATCTATTATATTTGTCGGACTGTTTACTGCGATTTTAAGTGCCGCTATTTTACTTGTCTCATGTGCGGGAAATGATCAGTCCCTCAGCCAATATGTTAAAATAAAGGTTCAGGACGGCGATACACTCTGGTCACTTGCGGATCATGTAGCAGAAAAGAAACACATTAATAAAGAAGATTTCATTGAGTGGGTGACGGAGAATAACCATCTCCAAACTGCTGATATAAAGCCCGGAGACGAACTTATTCTTCCGGTTAAGAAGAAGCATCCGGCCGTATATCAGCTGGCCATTGTCAATTAG	MAKESIIFVGLFTAILSAAILLVSCAGNDQSLSQYVKIKVQDGDTLWSLADHVAEKKHINKEDFIEWVTENNHLQTADIKPGDELILPVKKKHPAVYQLAIVN				NA	NA	NA	NA	NA
D1-12_00980	651	yneB	COG1961	Resolvase YneB	ATGAAGGCGCTCATTTATGCCCGCGTAAGCACAAACAAAGAACAGCAGCAAACGTCATTAAAAAGACAGGAAGAGGAGCTCAGTGAGATCGCTGCTGCAAACGGCATGGAAGTCGTGAAAGTCATTTCTGAGAAAGCCAGCGGTTACGAAATGGACCGCGACGGAGTATTTGAAATGCTTGATGAAATTAAAAAATCACATATTGACGCGATATTGGTGCAGGACGAAACGAGATTGGGAAGAGGAAACGCCAAGATTGCGCTTTTGCATTGCATTTACAGGGAGAACGTAAAGATATATACGACGGCTCATAAAGGTGAACTGGAGCTTTCCGAAGCTGATACGATGGTACTTGAAATCGTCAGTATTGTTGAGGAATATCAAAGGAAAATTCACAATATGAAAATCCGGCGGGGAATGAAAAGAGCCGTGAAAAACGGTTACAAACCTGAACGGAATCTGAAAAACAGGCATGAAAACAGCGGAAAAGAAAAAAAAGAGGTTCCGGTTTCGGAAATTATCAGGCTGAGAGCCAACAAGCTTACCTTTGCAGAAATCGCAGCGACCTTAAGAGGATTCGGCTATGATGTGTCCAAAGCCACGGTTCACCGGCGGTTTCAGGAATATACCGCAGACACAGAAGGCAGCTGA	MKALIYARVSTNKEQQQTSLKRQEEELSEIAAANGMEVVKVISEKASGYEMDRDGVFEMLDEIKKSHIDAILVQDETRLGRGNAKIALLHCIYRENVKIYTTAHKGELELSEADTMVLEIVSIVEEYQRKIHNMKIRRGMKRAVKNGYKPERNLKNRHENSGKEKKEVPVSEIIRLRANKLTFAEIAATLRGFGYDVSKATVHRRFQEYTADTEGS				NA	NA	NA	NA	NA
D1-12_00981	234			hypothetical protein	ATGATTTCTAAAGAAAAAATCGCAAGAATTAACGAATTGGCTCAAAAAGCTAAATCAAACACAATAACGGATGAGGAAAAAGCTGAACAGCAAAAGCTTCGCCAGGAATATTTGAAAGGATTCCGCTCCTCAATGAAAAATACGTTAAAGAGCGTAAAAGTGATTGATCCGGAAGGCAACGATGTCACCCCTGAAAAATTAAAAAGAGAACAACAGAAAAATAATCTTCATTAA	MISKEKIARINELAQKAKSNTITDEEKAEQQKLRQEYLKGFRSSMKNTLKSVKVIDPEGNDVTPEKLKREQQKNNLH				NA	NA	NA	NA	NA
D1-12_00982	2004	tkt		Transketolase	ATGGATACAATTGAAAAGAAATCAGTTGCCACCATTCGTACACTATCTATAGACGCAATTGAAAAAGCGAATTCCGGACATCCGGGCATGCCGATGGGAGCCGCTCCGATGGCATATACATTGTGGACGAAATTTATGAATGTAAATCCGCAGAATCCGGGCTGGTTTAACCGCGACCGCTTTGTTTTATCAGCAGGCCACGGTTCAATGCTTTTATACAGCATGCTGCATTTAAGCGGATATGACCTCAGCATTGAAGACTTGAAACAGTTCCGTCAATGGGGAAGCAAAACACCGGGACATCCGGAGTTCGGGCACACAGCCGGAGTAGACGCTACGACCGGGCCGCTTGGACAGGGTATTGCAATGGCAGTGGGAATGGCAATTGCAGAACGCCATCTGGCTGAGACATATAACCGTGATTCATTCAACGTAGTTGATCATTATACATACAGTATTTGCGGAGACGGCGATTTAATGGAAGGCATTTCTTCCGAAGCAGCTTCTCTTGCAGGCCATCTTGAATTAGGCCGTCTGATCGTATTATACGATTCTAATGACATTTCCTTAGACGGCGATTTAGACCGTTCTTTCTCTGAAAATGTAAAGCAGCGTTTTGAAGCAATGAACTGGGAAGTTCTTTATGTTGAGGACGGAAACAACATCGCTGAATTGACGGCTGCAATTGAAAAAGCGCGCCAGAATGATAAAAAACCGACATTGATCGAAGTGAAAACGACAATCGGTTTCGGTTCTCCAAACCGCGCGGGCACATCCGGCGTTCACGGCGCTCCGTTAGGACAAGAAGAGAGCAAGCTGACAAAAGAAGCGTATGCTTGGACGTTTGAAGAAGATTTTTATGTTCCGGAAGAAGTATACGGGCATTTCAATCAAGCTGTAAAAGAAGCCGGCTCGAAAAAAGAACAGGAATGGAATGAACTGTTCGCGGCTTATAAAGAAAAATATCCTGAGCTTGCTGAACAGCTGTCACTCGGCATGAAAGGCGAGCTTCCTAAAGACTGGGATCAGGAAGTTCCCGTTTATGAAAAAGGCAGCAGCCTTGCTTCCCGTGCATCTTCAGGTGAGGTGCTGAACGGGATCGCCAAGAAAATTCCTTTCTTTGTCGGGGGATCTGCTGACCTTGCGGGTTCAAATAAAACGACAATCAAAAATGGAGGAGACTTCACGGCAAAAGACTACGCCGGGAAAAACTTCTGGTTCGGTGTCCGTGAATTTGCGATGGGCGCTGCATTAAACGGAATGGCGCTTCACGGCGGCCTCCGCGTATTCGGCGGCACATTCTTTGTGTTCTCTGATTATTTAAGACCTGCCATTCGTCTGGCGTCATTGATGGGTCTTCCCGTCACTTATGTATTCACACATGACAGTATTGCCGTAGGAGAGGACGGGCCGACTCACGAACCGATTGAGCAGCTTGCTTCTTTACGCGCACTTCCTAACCTTTCTGTGATCAGACCTGCTGACGGAAATGAAACCGCAGCTGCATGGAAGGTTGCCGTTCAAAGCCAAGATCATCCGACAGCTCTTGTATTGACACGCCAAAACCTGCCGACGATTGATCAGCAGGCTGAAGAAGCGTATGCGGGCGTGGATAAAGGGGCTTATATCGTTTCCAAAGCCCAAACAGAATCACCGGCCGCTCTTCTTTTAGCGACAGGTTCTGAAGTCGGACTTGCGATCGAAGCTCAAGCGAAACTGGCTGAAGAAAACATTCACGTATCTGTAGTCAGCATGCCGAGCTGGGACCGCTTTGAAAAACAATCGGCCGAGTACAAAAACAGCGTGCTTCCTCCGAATGTGACGAAACGTCTTGCGATCGAAATGGGTTCAAGCTTCGGATGGGGCAAATTTACCGGTCTTGAAGGAGACGTTCTCGCAATTGACCGTTTCGGTGCTTCAGCTCCGGGAGAAACAATTATGAAAGAATACGGGTTTACTGCAGAAAACGTGGTTGACCGCGTGAAAAAACTTTTAAACAAATAA	MDTIEKKSVATIRTLSIDAIEKANSGHPGMPMGAAPMAYTLWTKFMNVNPQNPGWFNRDRFVLSAGHGSMLLYSMLHLSGYDLSIEDLKQFRQWGSKTPGHPEFGHTAGVDATTGPLGQGIAMAVGMAIAERHLAETYNRDSFNVVDHYTYSICGDGDLMEGISSEAASLAGHLELGRLIVLYDSNDISLDGDLDRSFSENVKQRFEAMNWEVLYVEDGNNIAELTAAIEKARQNDKKPTLIEVKTTIGFGSPNRAGTSGVHGAPLGQEESKLTKEAYAWTFEEDFYVPEEVYGHFNQAVKEAGSKKEQEWNELFAAYKEKYPELAEQLSLGMKGELPKDWDQEVPVYEKGSSLASRASSGEVLNGIAKKIPFFVGGSADLAGSNKTTIKNGGDFTAKDYAGKNFWFGVREFAMGAALNGMALHGGLRVFGGTFFVFSDYLRPAIRLASLMGLPVTYVFTHDSIAVGEDGPTHEPIEQLASLRALPNLSVIRPADGNETAAAWKVAVQSQDHPTALVLTRQNLPTIDQQAEEAYAGVDKGAYIVSKAQTESPAALLLATGSEVGLAIEAQAKLAEENIHVSVVSMPSWDRFEKQSAEYKNSVLPPNVTKRLAIEMGSSFGWGKFTGLEGDVLAIDRFGASAPGETIMKEYGFTAENVVDRVKKLLNK	PGPT0011200_2831	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
D1-12_00983	447	sirA		Sporulation inhibitor of replication protein SirA	ATGGAACGTCATTACTATACGCACCTGATAAAGGATGAGTTTGCGAACCACTACTTCGGGCGGGAAACGGCTATGTTTGAGTTGTTTCGAGACTATCATTGGACAGATCTGACACCCCAGGAGTATCAAATGACAGAAAAGCAAGTTCAATATATAACGGAACCGATTCCGGTGATACATATGCATCAGCGTCTCCAGCTGCATTTAAACCGAATGAGTTACAGCCGTTTGGATTCCATTTACCGGCTTACACTGCCCGGAGAAAAGGGCCGCGCCACCTTCATGATGAAAGACAGTTTAATTGAGATTGCGGCTTCGGGAGATTATGAGGCGGAAACGATTTTCTTTGAGATTCTGCGTAAAATCAGCCCCTGTTTTCTTGCAATGGATTTCAAGACACGGCGCTACGGGTGGTTAAATCCGGTCAGAGAAAGAAATTTTGTCTAA	MERHYYTHLIKDEFANHYFGRETAMFELFRDYHWTDLTPQEYQMTEKQVQYITEPIPVIHMHQRLQLHLNRMSYSRLDSIYRLTLPGEKGRATFMMKDSLIEIAASGDYEAETIFFEILRKISPCFLAMDFKTRRYGWLNPVRERNFV				NA	NA	NA	NA	NA
D1-12_00984	219			hypothetical protein	ATGACTTTATGGGTTGGCATCCTAGTGGGCGTTGTCGCATTGCTCATAGGTGTTGCACTCGGGTTTTTTATTGCTCGTAAATATATGATGAGCTATTTGAAAAAGAATCCGCCTATTAATGAACAAATGTTACGCATGATGATGATGCAAATGGGAATGAAACCTTCTCAAAAGAAAATTAATCAAATGATGAAAGCCATGAATAATCAAGCGAAATAA	MTLWVGILVGVVALLIGVALGFFIARKYMMSYLKKNPPINEQMLRMMMMQMGMKPSQKKINQMMKAMNNQAK				NA	NA	NA	NA	NA
D1-12_00985	174	ynzD		Aspartyl-phosphate phosphatase YnzD	GTGATTAGAGAGCATCTATTAAATGAAATTGAAAAAAAACGGGCAGAGCTGCTTAAAATCGTCATGACAAACGGAATGACATCAAACATTACGATAGAACTCAGCCAGGAGCTTGACCACCTTCTCATACAATATCAAAAAGAACTGCACACCGGCAGTTGGGGTGAAACATGA	MIREHLLNEIEKKRAELLKIVMTNGMTSNITIELSQELDHLLIQYQKELHTGSWGET	PGPT0024640_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024640-spo0E-K06376	NA	NA
D1-12_00986	705			hypothetical protein	GTGAGTTTTAATTACTTTCTGACGTTTGGGGCCGGATTTCTGTCTTTCATTTCTCCATGCTGTCTGCCGTTGTACCCCGCCTTTTTATCTTACATAACTGGTGTCAGTATGGACGAGGTGAAAACAGAAAAGGTGATGCTGCAAAAGCGCGGCCTCGTGCATACACTTTGTTTTTTGCTTGGTTTCTCCGTGATTTTTATCGCATTGGGATATGGAACTTCATTTATCGGCAGTTTTTTCACCCAATATCATGAAGCGATCCGCCAGTTTGGCGCTATCATGCTGATCCTTTTCGGGCTGATTACTGCCGGTGTGTTTCAGCCGAAATTCATGATGAAAGAGCGGCGCATTCACTTTAAACGCCGTCCGGAGGGGTTTATCGGTTCGGTTCTGATCGGTCTTGCGTTTGCAGCCGGCTGGTCGCCGTGCAGCGGGCCCATTTTAGGAGCGGTATTTTCGCTGGCCAATACAAATCCTTCTTCAGCAGTGCCGTATATGTTTTTATATGTTCTCGGATTTGCGATTCCTTTTCTTGTTCTTTCATTTTTTATTACCAGAATGAATTGGATTCGCAAGCATCAGCTGCTTATCATGAAAATCGGCGGCATTCTTATGATTCTGATCGGGGTTATGCTGTTTTTTAACTGGATGAGCTACATTCTGATCGTTCTGTCAAATCTTTTCGGAGGATTTACGGGTCTGTAA	MSFNYFLTFGAGFLSFISPCCLPLYPAFLSYITGVSMDEVKTEKVMLQKRGLVHTLCFLLGFSVIFIALGYGTSFIGSFFTQYHEAIRQFGAIMLILFGLITAGVFQPKFMMKERRIHFKRRPEGFIGSVLIGLAFAAGWSPCSGPILGAVFSLANTNPSSAVPYMFLYVLGFAIPFLVLSFFITRMNWIRKHQLLIMKIGGILMILIGVMLFFNWMSYILIVLSNLFGGFTGL				NA	NA	NA	NA	NA
D1-12_00987	363	cheY_2	COG0784	Chemotaxis protein CheY	ATGACACGAGTTTTAGTTGTAGATGACGCCAAGTTCATGAGGGTGAAAATCAGAGAGATTCTGGAATCGGCGAATTACACAGTGGCCGGGGAAGCGGCTGACGGTGAGGAAGCTCTGGCAGTATATCAAAAAATCCGTCCCGACCTGGTGACAATGGATATTACCATGCCGGTCAAAAACGGTATACAGGCGCTGCAGGATATTTTAGCTTTTGACCCGAAAGCCCGGATCATCATGTGCACCGCCATGCGGCAGCAGCGGATCGTTCTGGAAGCGATTGAATTAGGCGCTAAAGACTTTATCGTTAAACCGTTTGAAGCATCTAAAGTGCTGGAAGCCGTAGGGCGGGTAACGGGAACGTAA	MTRVLVVDDAKFMRVKIREILESANYTVAGEAADGEEALAVYQKIRPDLVTMDITMPVKNGIQALQDILAFDPKARIIMCTAMRQQRIVLEAIELGAKDFIVKPFEASKVLEAVGRVTGT	PGPT0015690_4738	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
D1-12_00988	483			hypothetical protein	ATGATGATTATAATTTCATCCGTTATTGCAGCGGCCATGGCAATTTCCGTGATGATCGTCAGGATTAAATCCTCCGACAAGCCCGCTTCACCTAAAAAAATAATTCTCCCGCCGATTTTCATGAGTACGGGAGCGCTTATGTTCCTTTTTCCGATTTTCAGAGTGACGGGCGAAGAATTTTTGGAGGCCATTACGCTGGGCGTAATCTTCTCTATTTTTCTGATTAAAACATCTAAATTTGAGATTAAAAATAATGAGATCTATTTAAAACGGTCAAAAGCGTTTGTGTTTATCCTGATTGGTTTGCTGGTTATCAGAATCGCTATGAAATCCATTTTGAGCACGACGATTGATTACGGAGCTTTAAGCGGGATGTTTTGGATTCTTGCTTTCGGAATGATTGTCCCGTGGCGCATCGCGATGTTTTTGTCTTACCGCAAACTTTCGAATGAACTGAAGACCGCTGATATTCAGATGAATTAA	MMIIISSVIAAAMAISVMIVRIKSSDKPASPKKIILPPIFMSTGALMFLFPIFRVTGEEFLEAITLGVIFSIFLIKTSKFEIKNNEIYLKRSKAFVFILIGLLVIRIAMKSILSTTIDYGALSGMFWILAFGMIVPWRIAMFLSYRKLSNELKTADIQMN				NA	NA	NA	NA	NA
D1-12_00989	429			hypothetical protein	ATGCTGGAAGGCTGGTTTATGTGGTTTATTTTATTTTGGGTCATCGTGATGATCGGATTGCTGTCTATCGGCGGGTTTTTTATGTTTCGAAAATTTTTAAAACGCTTACCGAAAGAAGACGGCCGGTCAGAACTGGATTGGCAGGACTATTATATTGAAAAAAGCAGGCACTTATGGAATGAGGGTGACAAGGCGTTTTTGGATGAACTGGTCGCCCCCGTGCCGGAGCTCTTCCGGGATGTAGCCAAAGCGAAAATCGCCGGAAAAATCGGTGAACTTTCCTTAGCGGAGGAAGCTGAACAAATAAACCGTGATTTAATCATCAGAGGTTACATACTGGCCACTCCTAAGCGTGATCATCAATTTTTAAAAAAGCATCTCCGTGAAAAACAGATTGATCTTACTCCTTATCAAGCCCTGCTCAAATAA	MLEGWFMWFILFWVIVMIGLLSIGGFFMFRKFLKRLPKEDGRSELDWQDYYIEKSRHLWNEGDKAFLDELVAPVPELFRDVAKAKIAGKIGELSLAEEAEQINRDLIIRGYILATPKRDHQFLKKHLREKQIDLTPYQALLK				NA	NA	NA	NA	NA
D1-12_00990	372	cotM	COG0071	Spore coat protein M	ATGAATCACTCAAAAAACGCTGAAGAATTTGATGATACGGAAGAATGGCTGCGGCAGTTTTACGAGGACCCGTATGCTTGGTATGACGAGACGCTGCCGATCGATCTATATGAAACAAGCCGTCAATATATCATTGAAGCCGACCTGACGGCGCTGAAGCAGGTGCAAGCGATAACCGTCACTCTTTCGGGAAATGAGTTTATGCTCTCTGTTAAAACGCTTGAACGGACGTTAAACAAACAAATGATGCTTCCTTTTTATCTGAACGACAAACATATTTTCACTGATTTCACCAACCATATTCTGACCGTCTCCATGAACAAGGAGCCAAATGAGACTCCTGCCTCTTTTTCCTTTCAATTTCCTCTATAA	MNHSKNAEEFDDTEEWLRQFYEDPYAWYDETLPIDLYETSRQYIIEADLTALKQVQAITVTLSGNEFMLSVKTLERTLNKQMMLPFYLNDKHIFTDFTNHILTVSMNKEPNETPASFSFQFPL	PGPT0025190_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025190-cotM-K06335	NA	NA
D1-12_00991	147	sspP		Small, acid-soluble spore protein P	ATGACAAATAAAAATACGAGTAAAGATATGCATAAAAATGCTCCGAAGGGCCATAACCCCGGCCAGCCGGAACCGCTGAGCGGAAGCAAAAAAGTGAAAAACCGCAACCATACAAGACAAAAACATAATACAAGCCACGATATGTAA	MTNKNTSKDMHKNAPKGHNPGQPEPLSGSKKVKNRNHTRQKHNTSHDM	PGPT0024935_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024935-sspP|cotL-K06433	NA	NA
D1-12_00992	147	sspO		Small, acid-soluble spore protein O	ATGGTAAAACGGAAAGCCAATCATGTGATTAACGGCATGAATGATGCGAAAAGCCAAGGCAAAGGCGCGGGTTATATAGAAAATGACCAGCTCGTCCTGACGGAAGAAGAACGGCAGAACAATAAAAAAAGAAAAACAAACCAATAG	MVKRKANHVINGMNDAKSQGKGAGYIENDQLVLTEEERQNNKKRKTNQ	PGPT0024930_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024930-sspO|cotK-K06432	NA	NA
D1-12_00993	2727	citB	COG1048	Aconitate/2-methylaconitate hydratase	ATGACAAATCAGCAAAAAGTCGCAACACAAGACGTTTTCCAAGCAAGAAAAACATTTTCTTCAAATGGGAAAACATACAACTACTATTCATTAAAAGCATTGGAAGACGCAGGGGTCGGCAATGTTTCAAAACTTCCTTATTCTATTAAGGTTCTTTTGGAATCTGTTTTGCGTCAGGTAGACGGACGTGTCATTACAAAAGAACATGTTGAAAATTTAGCAAGATGGGGTACTGCTGAATTAAAAGATATCGATGTGCCGTTTAAACCGTCACGGGTTATTCTACAGGACTTTACCGGCGTTCCGGCCGTAGTTGACCTGGCATCTTTAAGAAAAGCCATGGCCTCTGTCGGCGGAGACCCTGATAAAATCAATCCTGAAATTCCGGTTGACTTGGTCATTGACCACTCCGTACAAGTCGACAAAGCCGGTACGGAAGACGCGTTAGCCATTAATATGGACTTAGAATTCGAAAGAAATGCAGAACGTTATAAATTTTTAAGCTGGGCAAAGAAAGCGTTTAACAATTATCAGGCTGTTCCGCCTGCAACAGGTATCGTTCACCAGGTAAACCTTGAGTTTTTGGCAAGTGTCGTTCATACGAAAGAGGAAGACGGAGAACTTGTGACATATCCTGATACATTGGTGGGAACAGATTCCCATACAACAATGATTAACGGAATCGGCGTCCTCGGCTGGGGTGTCGGCGGTATTGAGGCGGAAGCGGGAATGCTCGGCCAGCCTTCATATTTCCCTGTTCCTGAGGTCATCGGCGCGAAACTTGTCGGAAAATTGCCTAACGGAACGACGGCGACTGACTTGGCGCTGAAAGTCACTCAAGTGCTGCGCGAAAAAGGCGTAGTCAATAAATTTGTTGAATTCTTCGGTCCTGGTGTTGCTGAGCTTCCGCTTGCGGATCGTGCGACTATTGCCAATATGGCGCCGGAATACGGAGCGACTTGCGGATTCTTCCCGGTTGACGAGGAAGCACTTTCTTACCTGCGTCTGACCGGCCGTGAAGAAGAGCAGATCGATATTGTGGAAGCATACTGCCGCAACAATGGTTTATTCTATACGCCTGACGCGGAAGAGCCGATTTTTACAGACGTTGTGGAAATTGATCTGTCAAAAATCGAAGCGAACCTTTCAGGACCGAAACGTCCGCAGGATTTAATCCCGCTTTCCGTTATGCAGGAAACGTTTAAAAAACATCTTGTCAGCCCGGCCGGCAACCAAGGATTCGGAGCGGATGCTGCTGAAGAGAACAAAGAAATTTCATTTAAACTTAACAGCGGCGAAGATGCGGTTATGAAAACAGGGGCGATTGCAATCGCTGCTATTACAAGCTGTACGAATACATCAAACCCTTATGTATTAATCGGTGCCGGATTGGTAGCCAAAAAAGCGGTAGAATTAGGCTTGAAAGTGCCGAATTATGTTAAAACGTCACTTGCACCGGGGTCTAAGGTTGTTACTGGATACTTAGTCAACTCAGGCCTGCTTCCTTACATGAAGGAGCTCGGCTTTAACCTCGTAGGGTATGGCTGTACGACATGTATCGGGAACTCCGGCCCGCTTTCTCCAGAGATTGAAGAAGCGGTTGCTAAAAATGATCTCTTGATCACTTCTGTCTTGTCGGGTAACAGAAACTTTGAAGGCCGGATCCATCCGCTTGTCAAAGGAAACTACCTTGCGTCACCTCCGCTTGTTGTCGCATACGCATTAGCAGGCACTGTGAATATCAACCTGAAAACGGATCCGATCGGTGTCGGAAATGACGGACAAAATGTTTATTTCGATGACATCTGGCCGTCCATGGATGAAATCAATTCTCTCGTCAAACAGACTGTTACGCCGGAATTATTCCGCAAAGAGTATGAAACGGTATTTGACGACAACCAGCGCTGGAACGAAATCGAAACGACGGATGAAGCGCTGTATAAGTGGGATCAGGATTCCACTTACATTCAAAACCCGCCGTTCTTTGAGGAAATGTCTGTAGAGCCGGGAAAAGTTGAGCCTTTAAGAGGACTTCGCGTTGTCGGCAAATTCGGCGATTCCGTGACGACTGACCACATTTCTCCGGCCGGAGCGATCGGAAAAGACACACCGGCGGGCAAATACCTGCAGGAAAAAGGCGTTTCTCCTCGTGACTTTAACTCTTACGGCTCACGCCGCGGAAACCATGAAGTCATGATGAGAGGAACATTCGCCAATATCCGCATTAAAAACCAAATCGCACCGGGTACAGAAGGCGGATACACAACACATTGGCCTACCGGGAAAGTGACATCTATTTATGATGCCTGCATGCGGTATAAAGAAGATAAAACGGGTCTTGTCGTCCTGGCCGGAAAAGATTACGGAATGGGCTCTTCACGTGACTGGGCTGCAAAAGGAACAAACCTGCTCGGCATCAGAACAGTCATTGCCGAAAGCTTTGAAAGAATTCACAGAAGCAACCTCGTCTTCATGGGTGTGCTGCCGCTTCAGTTCAAACAGGGTGAAAACGCGGATACACTCGGCTTAACCGGTAAGGAAGTCATCGAGGTGGATGTTGATGAATCTGTACGTCCGCGCGACTTGCTGACTGTCAGAGCAATCAGTGAAGACGGTACGGTAAAAACATTTGAAGTTGTTGTCCGTTTTGACAGTGAAGTGGAAATTGATTACTATCGCCACGGCGGCATTTTACAAATGGTGCTTCGCGATAAAATGAAACAGTAG	MTNQQKVATQDVFQARKTFSSNGKTYNYYSLKALEDAGVGNVSKLPYSIKVLLESVLRQVDGRVITKEHVENLARWGTAELKDIDVPFKPSRVILQDFTGVPAVVDLASLRKAMASVGGDPDKINPEIPVDLVIDHSVQVDKAGTEDALAINMDLEFERNAERYKFLSWAKKAFNNYQAVPPATGIVHQVNLEFLASVVHTKEEDGELVTYPDTLVGTDSHTTMINGIGVLGWGVGGIEAEAGMLGQPSYFPVPEVIGAKLVGKLPNGTTATDLALKVTQVLREKGVVNKFVEFFGPGVAELPLADRATIANMAPEYGATCGFFPVDEEALSYLRLTGREEEQIDIVEAYCRNNGLFYTPDAEEPIFTDVVEIDLSKIEANLSGPKRPQDLIPLSVMQETFKKHLVSPAGNQGFGADAAEENKEISFKLNSGEDAVMKTGAIAIAAITSCTNTSNPYVLIGAGLVAKKAVELGLKVPNYVKTSLAPGSKVVTGYLVNSGLLPYMKELGFNLVGYGCTTCIGNSGPLSPEIEEAVAKNDLLITSVLSGNRNFEGRIHPLVKGNYLASPPLVVAYALAGTVNINLKTDPIGVGNDGQNVYFDDIWPSMDEINSLVKQTVTPELFRKEYETVFDDNQRWNEIETTDEALYKWDQDSTYIQNPPFFEEMSVEPGKVEPLRGLRVVGKFGDSVTTDHISPAGAIGKDTPAGKYLQEKGVSPRDFNSYGSRRGNHEVMMRGTFANIRIKNQIAPGTEGGYTTHWPTGKVTSIYDACMRYKEDKTGLVVLAGKDYGMGSSRDWAAKGTNLLGIRTVIAESFERIHRSNLVFMGVLPLQFKQGENADTLGLTGKEVIEVDVDESVRPRDLLTVRAISEDGTVKTFEVVVRFDSEVEIDYYRHGGILQMVLRDKMKQ	PGPT0001465_1202	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
D1-12_00994	510	resA_1	COG0526	Thiol-disulfide oxidoreductase ResA	ATGCTTGCGAAATGGCTGGGCGGAATATTACTTATCGGGTTGTTAGTGTATGCGGGCTGGAACATTTATTCTGTACAAAAAAGTCCGAAAGAAGGGACAGAAGAAGGGATGAAAGCCCCTGACTTTACACTTGATACATTGTCAGGAAAAAGCATCTCCCTTTCTGATTATAAAGGAAAAAAAGTGCTCCTCAATTTCTGGGCGACGTGGTGCAAGCCGTGCCGAATGGAAATGCCCGATATGCAGGAGCTGCAGAAAGAATATCCTGATATTGCGGTAGCAGCCGTTAATTTTACGTCCTCTGAAAAAAATATACAGGCTGTGAAATCATTTGCTGATCATTATCAGCTGACATTTCCTATTCTGATTGACAAAAGCGGAATTAACGGAGATTTCAACGTGCTTTCTTATCCGACAACATACATATTAGACGAAAAAGGAACCATTCAGCACATTCGCGTAGGCACGATGACAAAAAAAGAAATGAAAGAAAAACTGGATCTCAAATAG	MLAKWLGGILLIGLLVYAGWNIYSVQKSPKEGTEEGMKAPDFTLDTLSGKSISLSDYKGKKVLLNFWATWCKPCRMEMPDMQELQKEYPDIAVAAVNFTSSEKNIQAVKSFADHYQLTFPILIDKSGINGDFNVLSYPTTYILDEKGTIQHIRVGTMTKKEMKEKLDLK				NA	NA	NA	NA	NA
D1-12_00995	147	sspN		Small, acid-soluble spore protein N	ATGGGCATAAACAAGAAAGACGGCCAGCCGCAATACGCTCCGAGCCACTTAGGGACAAAACCCGTTAAATATAAACGCAACAAAGGGGAAAAGTTTCATGACAAGTCAAACGGACATCCGATTGTCATGCAGACGAAAGGCGAATAA	MGINKKDGQPQYAPSHLGTKPVKYKRNKGEKFHDKSNGHPIVMQTKGE	PGPT0024925_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024925-sspN-K06431	NA	NA
D1-12_00996	243	tlp		Small, acid-soluble spore protein Tlp	ATGACAAACAATTATCAAAAACCGAATCCGGATGACCGTTCCGATAACGTTGAAAAGCTGCAGGATATGGTGCAGAATACAATTGAAAATATAGAAGAAGCCAAAGAATCAATGGAATTTGCGACAGATGAGGAAAGACAGCGCATTCAAGAGAAGAATGCCAGACGCAATGAAAGCATTGAATCGTTCCGCAGTGAAATCCAGGATGAATCGGCTGCAAGAGAAAACGGCTATCAATCATAA	MTNNYQKPNPDDRSDNVEKLQDMVQNTIENIEEAKESMEFATDEERQRIQEKNARRNESIESFRSEIQDESAARENGYQS	PGPT0024940_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024940-tlp-K06434	NA	NA
D1-12_00997	417			1,4-dihydroxy-2-naphthoyl-CoA hydrolase	TTGCATGTGTCAAAAAAAGAAATAGAAGTGCGTTATGCGGAAACAGATCAAATGGGCATCGTCTATCATGCCAATTACTTAGTCTGGATGGAGGTCGGCAGAACGGCGCTGATTAAGGAACTCGGATTCCTTTACAAGGATATGGAAGATAGAGGTGTGCTGTCCCCTGTATTGGATATCAGCATTTCTTATAAAAAGCCGCTCCGCTACGGAGAAACGGCTGTCGTACATACTTGGATTGAAGAATATAACGGATTTAAAACCGTTTACGGCTACCACATCTATAATCCGGATCAAGAACTTGCCATCAAAGCGACATCCTCTCATATATGCGTTGATAAAGAGAGCTTCAAACCGATTCAGTTTCGCAAGGCTTTTCCTGATTGGCATGCCGCTTACGAAAAGGCAAAAAAATAA	MHVSKKEIEVRYAETDQMGIVYHANYLVWMEVGRTALIKELGFLYKDMEDRGVLSPVLDISISYKKPLRYGETAVVHTWIEEYNGFKTVYGYHIYNPDQELAIKATSSHICVDKESFKPIQFRKAFPDWHAAYEKAKK	PGPT0001850_6539	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-12_00998	300			hypothetical protein	ATGGCATTTGGAATTACGCGTAAGGAACTGGAAAGATGGAAGCGGGATGTATCGGAAGGGAAAATCGCTTTTTTAACGCATTACTGGCTGGACGACCGCTTTCCGGAGGCTAAGACCGTGACGAAGGCCGGTTCAAGCGATCTCAATAAACTGATCAGATGGGGAGCGGAGTACGGGCTGAAGCCGGAGTGGATTCACCATAAAAATGAATTTCCCCACTTTGACCTGCTCGGTGATACGCAAAGAAGCATATTAGAAAAAGAACATCTGACTGATCATCTCAAAAGGTTCAGGCTGTAA	MAFGITRKELERWKRDVSEGKIAFLTHYWLDDRFPEAKTVTKAGSSDLNKLIRWGAEYGLKPEWIHHKNEFPHFDLLGDTQRSILEKEHLTDHLKRFRL	PGPT0013445_463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
D1-12_00999	288			putative protein	ATGAACATGAAAGTAACGAAAGGCGCGCTGGATTGGTACAAAGAAGAGCTCGATCTGGAAACAGGCGACCATGTCCGCTTCTTTGTCCGTTACGGGGGATGCAGCAACGTTCAGAAAGGCTTTTCTCTCGGCATTTTAAAAGACCGGCCGATGAACATCGGCACCAGCACGGAAGTTGAAGGCATTACCTTTTTTATTGAAGAAAGCGACTTATGGTACTTTGATAATCACGATTTGTCAGTCACATATTCAGATCAGGCAGAAGAGCCGGTATTTGATTATGTGTAA	MNMKVTKGALDWYKEELDLETGDHVRFFVRYGGCSNVQKGFSLGILKDRPMNIGTSTEVEGITFFIEESDLWYFDNHDLSVTYSDQAEEPVFDYV				NA	NA	NA	NA	NA
D1-12_01000	582	plsY	COG0344	Glycerol-3-phosphate acyltransferase	ATGTTGATTGCTTTATTGATTATTTTGGCCTATGTAATAGGCAGCATCCCGTCAGGTTTAATCGTAGGCAAACTTGCGAAAGGGATCGATATTAGAGAACACGGAAGCGGCAATTTGGGCGCCACAAATGCTTTTCGCACGCTTGGCGTTAAAGCGGGATCTGTTGTCATCGCAGCCGATATTTTAAAAGGCACCTTGGCCGCGGCGCTCCCATATTTGCTGCACGTCCCCATTCATCCTCTTCTCGCAGGGGTGGCAGCAGTGATCGGCCATGTATTCCCCGTGTTCGCAAAGTTTAAGGGAGGCAAAGCCGTAGCCACATCAGGGGGCGTCCTGCTGTTTTATGCTCCGCTGTTATTCGTTACGATGGTTGCAGTATTTTTCGTATTTTTATTCCTTACGAAATTTGTTTCTCTGTCTTCAATGTTAACAGGGATTTATACGATTATTTACTGTCTGTTTGTAAAAGACCCTTATTTATTAATCGTAGTGACGCTCTTGACCGCGTTTGTTATCTACAGACACAGGGCAAACATCAAACGGATTATAAACAAAACAGAACCGAAGATCAAATGGTTTTGA	MLIALLIILAYVIGSIPSGLIVGKLAKGIDIREHGSGNLGATNAFRTLGVKAGSVVIAADILKGTLAAALPYLLHVPIHPLLAGVAAVIGHVFPVFAKFKGGKAVATSGGVLLFYAPLLFVTMVAVFFVFLFLTKFVSLSSMLTGIYTIIYCLFVKDPYLLIVVTLLTAFVIYRHRANIKRIINKTEPKIKWF	PGPT0024375_3471	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
D1-12_01001	408	yccU	COG1832	putative protein YccU	ATGCAAAATCCTTCAAAATCAGAGATTAAAGAAATTCTGGACCGGAGCAAACGGATCGCAGTCGTCGGGCTGTCAGACCGTCCCGACCGGACTTCTTACATGGTTTCCAAAGCGATGCAGGATGAAGGGTATGAAATTATTCCCGTCAATCCAACGATTGATGAGGCGCTTGGCGTTAAAGCCGTCGCTTCATTAAAAGACGTGGAAGGACCGATTGATATCGTGAATGTGTTCAGACGCTCTGAGCAGCTTCCCGGCGTCGCTGAAGAATTTTTACAGACGGACGCTCCCGTTTTTTGGGCGCAGCAGGGTCTTGCAAATGAAGAAGCGTATCGCATGATTACAGACAAAGGACGGACGGCTGTTATGGATTTATGTATAAAAGTCGCCCGCGCTGTTATAAAATAG	MQNPSKSEIKEILDRSKRIAVVGLSDRPDRTSYMVSKAMQDEGYEIIPVNPTIDEALGVKAVASLKDVEGPIDIVNVFRRSEQLPGVAEEFLQTDAPVFWAQQGLANEEAYRMITDKGRTAVMDLCIKVARAVIK	PGPT0013060_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-12_01002	1968	parE	COG0187	DNA topoisomerase 4 subunit B	TTGGCTAGAAAACAGCAATTTGATTACAACGAAGATGCCATACAGGTGCTTGAAGGCCTGGAAGCCGTCAGAAAACGACCGGGAATGTACATCGGTTCGACGGACGCACGAGGCCTGCACCATCTGGTATATGAGATCGTCGACAATTCCGTCGATGAAGTTCTTGCCGGCTACGGAGATCATATTATCGTAACGATACATAAGGACAACAGCATCTCCGTACAGGACAGAGGACGCGGAATGCCGACCGGGATGCATAAGCTCGGAAAGCCGACGCCGGAAGTTATTTTCACCGTGCTGCATGCCGGGGGGAAATTCGGACAGGGCGGCTATAAAACAAGCGGCGGTCTGCATGGTGTCGGCGCATCTGTCGTAAACGCGTTATCGGAGTGGCTGACAGTTACTATTGAGCGTGACGGATATGTTTATAAACAGCGGTTTGAAAACGGCGGCAAGCCCGTGACTTCACTTGAAAAAATCGGAACCACCAAAAAAACGGGAACGCTTACCCATTTTAAACCTGATCCGTCAATGTTCAGCGCAACGGTTTATAATTTTGACACGCTGTCAGAACGTCTGCGCGAATCGGCTTTCTTGTTAAAAGGTTTGAAAATAGAATTAATTGATGAACGGAACGGCGTAAAAGAAGTATTTTATTATGAGAACGGAATTGAAGCATTTGTCGCTTATTTAAACGAGGAAAAAGACGCTTTATGCGAAGTGGTTTCCTTTGAAGGCGAGCATCATGACATTGAAGTCGATTTCGCGTTTCAGTTTAATGACGGGTATTCAGAAAATATGCTGTCATTCGTTAATAACGTCAGAACAAAGGACGGCGGCACCCACGAATCAGGAGCCAAAACGGCAATGACAAGAGCGTTTAACGAGTATGCGCGAAAGGTCGCCCTTTTAAAAGAGAAAGACAAGAACCTTGAAGGCGCCGATATCAGGGAAGGTTTGTCCGCAATCATTTCCGTGCGTATCCCGGAGGAACTGCTGCAATTTGAAGGCCAGACGAAAGGGAAGCTTGGCACAAGTGAGGCGAGATCCGCCGCGGATGCCGTCATTTCCGAGAATCTTGCTTATTTCCTGGAAGAAAACCGCGATACGGCGACCCTGCTTGTCAAAAAAGCGATTAAAGCAAGCCAGGCCCGTGAAGCGGCCCGTAAAGCGAGAGAAGAAGCGAGAAGCGGCAAAAAGCGAAAAAAATCAGAAGCGACGCTGAGCGGAAAACTCACACCGGCCGGTTCCAGAAATCCGGCGAAGAATGAATTGTATCTGGTGGAGGGAGACTCTGCGGGAGGTTCTGCAAAACAGGGAAGAGACCGGAAATTCCAAGCCGTGCTGCCCCTTCGCGGAAAGGTCATCAACACAGAGAAAGCAAAGCTTGCAGACATCTTCAAAAATGAAGAAATCAATACGATTATTCATGCGATCGGAGGCGGTGTCGGCGCAGATTTTGATATAGACGACATCAACTATGACAAGATCATCATCATGACGGACGCGGATACCGACGGCGCGCACATTCAAGTCTTGCTGTTAACGTTTTTCTACCGCTATATGAAACCTTTAATCGAGCACGGAAAAGTCTTCATCGCCCTTCCGCCTCTTTACAAAGTGAGCAAAGGGAGCGGTAAGAAAGAGATTATTGAATATGCCTGGTCCGACGAAGAAATGGACGGCGTTTTAAAGAAAGTCGGCAAAGGATATACCATCCAGCGCTATAAAGGTCTGGGAGAAATGAACGCAGACCAGCTCTGGGAAACGACGATGAATCCCGAATCGCGAACGCTCGTCAGAGTCAAGATCGACGATGCGGCACGGGTAGAGCGCCGTGTAACGACATTAATGGGAGACAAAGTAGAACCGAGAAGAAAATGGATTGAAAAGAATGTTGCCTTCGGATTAGATGAGGAAAGCAATATTTTAGAAAATGAAAACTTGTCGGTCGCTGAGGAGGTTTAA	MARKQQFDYNEDAIQVLEGLEAVRKRPGMYIGSTDARGLHHLVYEIVDNSVDEVLAGYGDHIIVTIHKDNSISVQDRGRGMPTGMHKLGKPTPEVIFTVLHAGGKFGQGGYKTSGGLHGVGASVVNALSEWLTVTIERDGYVYKQRFENGGKPVTSLEKIGTTKKTGTLTHFKPDPSMFSATVYNFDTLSERLRESAFLLKGLKIELIDERNGVKEVFYYENGIEAFVAYLNEEKDALCEVVSFEGEHHDIEVDFAFQFNDGYSENMLSFVNNVRTKDGGTHESGAKTAMTRAFNEYARKVALLKEKDKNLEGADIREGLSAIISVRIPEELLQFEGQTKGKLGTSEARSAADAVISENLAYFLEENRDTATLLVKKAIKASQAREAARKAREEARSGKKRKKSEATLSGKLTPAGSRNPAKNELYLVEGDSAGGSAKQGRDRKFQAVLPLRGKVINTEKAKLADIFKNEEINTIIHAIGGGVGADFDIDDINYDKIIIMTDADTDGAHIQVLLLTFFYRYMKPLIEHGKVFIALPPLYKVSKGSGKKEIIEYAWSDEEMDGVLKKVGKGYTIQRYKGLGEMNADQLWETTMNPESRTLVRVKIDDAARVERRVTTLMGDKVEPRRKWIEKNVAFGLDEESNILENENLSVAEEV	PGPT0027710_1194	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
D1-12_01003	2424	parC		DNA topoisomerase 4 subunit A	GTGGCACAGCCAGAATTATTTCATGATTTACCGTTAGAAGAAGTAATCGGCGACCGTTTCGGACGCTACAGTAAATACATTATTCAAGACAGGGCGCTGCCCGACGCTCGTGACGGTTTAAAGCCGGTGCAGCGGAGAATTTTATACGCCATGCACGCAGACGGAAATACATTCGATAAAAATTTCCGTAAAGCGGCGAAAACGGTCGGAAACGTTATCGGTAATTATCATCCGCACGGTGACAGCTCCGTTTATGAAGCGATGGTGCGGATGAGCCAGGATTGGAAAGTGCGGAATGTGCTGATTGAGATGCACGGCAACAATGGAAGCATTGACGGTGATCCGCCGGCTGCCATGCGTTATACGGAAGCGAGATTATCTTCTATCGCGTCAGAGCTTTTGCGTGATATTGATAAAAATACGGTTGAATTCGTTCCGAACTTTGATGACACTAGTAAAGAACCGGTTGTTTTGCCAGCCATGTTCCCTAACTTGCTTGTCAACGGATCAACCGGGATTTCGGCGGGCTATGCGACTGATATTCCCCCTCATCATCTGGGTGAGGTCATTGATGCCGTCATTAAACGGATTGAATCTCCGGATTGCACCGTCGATGACTTGATGCAGGTGATTAAAGGGCCTGACTTTCCGACAGGAGGCATTATTCAAGGAGTCGACGGCATTCGGAAGGCTTATGAAACCGGGAAAGGCAAAATTATTATCCGCGGCAAGGCTGAAGTGGAATCCGTAAGAGGCGGACGGGAGCAGATCGTCATTACAGAAATTCCGTTTGAAGTAAACAAAGCCAATCTCGTAAAGAAAATGGACGAATACCGCATAGACAAAAAAGTCGAAGGCATTTCTGAAGTCCGGGATGAAACTGACCGCACGGGGCTTCGGGTGGTCGTTGAGTTAAAGAAAGAAGCCGATGCAAAAGGCATCTTGAATTTCTTATATAAAAACACTGATCTGCAGACAACATATAACTTTAATATGGTCGCCATACATAACCGCCGGCCGATGCTGATGAGTCTTACAGCCATCCTGGATGCGTATATTTCCCACCAGAAGGAAGTAGTGACAAACCGCTCCGTCTTTGAATTGCAAAAAGCAAAAGAGCGGCATCACATCGTTGAAGGACTGATGAAGGCACTGTCTGTGTTAGATGAGGTCATAGCGGTCATCCGGGCAAGCAGCGACAAGAAAGATGCGAAACAAAACTTAATGTCTAAATTCGCATTTACGGAGCCGCAGGCTGAAGCGATCGTATCCTTGCAGCTGTATCGTCTGACAAACACGGATATTACGGCGCTAAAAGAGGAAGCGGAAGAGCTCAGCAAGAAAATTCAGGAGCTCGAAGCCATTTTAAGTCATGATAAAAAGCTGTTAAAAGTCATTACAAGCAGCCTGAAAAAAATGAAAAAGACCTATGCTGACAGCAGACGGTCTGTCATTGAAGAAAAGATTGAGGAAATTAAAATCAATCTTGAAGTCATGGTAGCCTCTGAGGACGTATATGTGACAGTCACAAAAGACGGCTATGTAAAACGAACAAGCCAGCGGTCATTTGCCGCTTCTAACGGTCAGGATTTCGGTATGAAGGATACTGACAGGCTGATTCACCAATTTGAAATGAATACAACGGATGTTCTCCTGCTCTTTACCAATAAGGGAAGCTATGTTTATTGTCCGGTTCACCAGCTTCCTGATATCAGGTGGAAAGACATGGGGCAGCACGTAACGAACATCATCACGATTGACCGTGATGAAACCATCGTGAAAGCTATACCGGTAAAAGAGTTTGATCCATCTTCATATTTATTGTTTATGACGAAAAACGGCATGGTGAAAAGAACTGAAATGACGCATTACAAAGCGCAGCGTTACTCGAAAGCGCTTGTTGCCCTTAATCTGAAAGGGGACGACGAGCTGATTGATGTTCATGTCACAGACGGCGGCAGCCAGCTGTTTATCGCCACCCGCCTCGGGTACGGTTTATGGTTCGGTGAAGATGAAGTAAATGTAGTCGGTGCCCGTGCGGCCGGCGTAAAGGGTATAAATTTAAAAGACGGTGATACCGTCGTATCAGGACAAATCCTGCATGAGACAGATTCGCTTATCCTTGTCACACAGCGGGGAGCAATCAAGCGGATGAACCTATCTGAATTCGAAAAAACATCCAGGGCGAAGCGCGGTGTCGTTATGCTGCGTGAGCTTAAAAAGAACCCGCATCGCGCAGTCGGCGTATTCGCGTGCGCTTTGGCCGACATGATCGCTGCGGAAACAGAAAAAGGCGAGAGAATCGAAATCGCCGTGAAGTCCTTGCGGGCGAATGACCGATACAGCAACGGTTCCTTCTTTACCGATGAAGATGAGACAGGGCCGGTAACAGATGTATGGCGTATCCCCGCGTCTGATGTTTAA	MAQPELFHDLPLEEVIGDRFGRYSKYIIQDRALPDARDGLKPVQRRILYAMHADGNTFDKNFRKAAKTVGNVIGNYHPHGDSSVYEAMVRMSQDWKVRNVLIEMHGNNGSIDGDPPAAMRYTEARLSSIASELLRDIDKNTVEFVPNFDDTSKEPVVLPAMFPNLLVNGSTGISAGYATDIPPHHLGEVIDAVIKRIESPDCTVDDLMQVIKGPDFPTGGIIQGVDGIRKAYETGKGKIIIRGKAEVESVRGGREQIVITEIPFEVNKANLVKKMDEYRIDKKVEGISEVRDETDRTGLRVVVELKKEADAKGILNFLYKNTDLQTTYNFNMVAIHNRRPMLMSLTAILDAYISHQKEVVTNRSVFELQKAKERHHIVEGLMKALSVLDEVIAVIRASSDKKDAKQNLMSKFAFTEPQAEAIVSLQLYRLTNTDITALKEEAEELSKKIQELEAILSHDKKLLKVITSSLKKMKKTYADSRRSVIEEKIEEIKINLEVMVASEDVYVTVTKDGYVKRTSQRSFAASNGQDFGMKDTDRLIHQFEMNTTDVLLLFTNKGSYVYCPVHQLPDIRWKDMGQHVTNIITIDRDETIVKAIPVKEFDPSSYLLFMTKNGMVKRTEMTHYKAQRYSKALVALNLKGDDELIDVHVTDGGSQLFIATRLGYGLWFGEDEVNVVGARAAGVKGINLKDGDTVVSGQILHETDSLILVTQRGAIKRMNLSEFEKTSRAKRGVVMLRELKKNPHRAVGVFACALADMIAAETEKGERIEIAVKSLRANDRYSNGSFFTDEDETGPVTDVWRIPASDV	PGPT0027705_1075	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
D1-12_01004	126			hypothetical protein	ATGTTGTTTATCTTACGAATGGTGATTTTAGGGTTGTTTTCATTCACTGCATTGAATTTATTTGTATGGCAGGGAATCGAAGTCATTCACGCTATCACTGACTTATTCGGCAGCCATGAAAGCTAA	MLFILRMVILGLFSFTALNLFVWQGIEVIHAITDLFGSHES				NA	NA	NA	NA	NA
D1-12_01005	354			hypothetical protein	TTGAAAAAAATCTTGTTTTTAAAAGCTTCTATTTTATTTTTAGCGATTGCAAGCTTTCATTTGCTCTCCATTCCCCATGCGTTTGATACTGCTCATCATTTTAAAGCGGTAGCCGACCAGCAGGAAATGCACGAAATGAAGGCCGGCCAAAATGCTGATGATGAGAAAAAATCGCTGACGGGCTCATATATCTTGACGGCGCTTTTTGCCGCTTCTGTCTCACTGATCGTGATATCAGACAGGAGACGCCCCGCTTCCCGGAGAAGACAGCGAAAGAAAAGCTTTTTAATCGCTAAATTTTATCAGTCCTCGTATTTCGATGAGCTTCATGTTCAACATCGCCTATCTATGTAA	MKKILFLKASILFLAIASFHLLSIPHAFDTAHHFKAVADQQEMHEMKAGQNADDEKKSLTGSYILTALFAASVSLIVISDRRRPASRRRQRKKSFLIAKFYQSSYFDELHVQHRLSM				NA	NA	NA	NA	NA
D1-12_01006	1419	alsT_1	COG1115	Amino-acid carrier protein AlsT	ATGGAGGCTTTCATCAGTGAAATCATAAATGTTCCAAATGATTTTATTTGGAAGTATCTTGTTTATATTTTAGTCGGGATCGGATTGTACTTTACGTTCCGTTTTCGCTTTATTCAATTCCAATACTTTATTGAAATGTTTAGAATCGTCGGGGAGAAGCCGCAAGGAAATAAAGGAGTGTCTTCAATGCAGGCATTCTTTATCTCAGCCGCTTCTCGTGTCGGAACCGGAAACTTGACCGGCGTCGCGCTGGCGATTGCAACAGGCGGTCCCGGCGCAGTATTTTGGATGTGGATCGTAGCGATTGTCGGTATGGCTTCCAGCTTTGTGGAAAGCACCTTGGCGCAGCTGTATAAAGTGCGTTCCGGTGACGAATTCCGCGGCGGTCCGGCATATTACATGGCAAAGGGACTGGGCGCCCGCTGGCTCGGTATTTTATTCGCCGTATTGATTACCGTTTCTTTCGGACTTATCTTTAACGCCGTGCAGTCAAATACGATTTCTGTCGCGTTTGACGAAGCATTCCATGTGAATAAAACAGTTATCGCAATCATTTTAGCGGTATTAACGGCTTTCATTATATTCGGCGGTCTGAAACGTGTTGTTTCCGTCTCGCAATTAATCGTTCCGGTCATGGCGGGTATGTATATTCTGATCGCGCTGTATGTCGTGATTGTAAATATTACAGCGGTACCTGAGCTGTTTGTTACGATTGTGAAAAATGCGTTCGGTCTTGAACAGATCGTCGGCGGAAGCTTAGGAAGCATCATTATTATCGGTGCGCAGCGCGGCCTGTTTTCAAACGAAGCGGGTATGGGAAGCGCGCCGAATGCCGCAGCGGCTGCACATGTGTCGCATCCGGCTAAGCAGGGATTAATTCAGACGCTCGGCGTGTTTTTTGATACATTTATCGTTTGTACATCGACTGCCTTTATCATTTTATTGTACAGCTTTACGCCTAAAGGAGACGGCATTCAAGTGACGCAAGCCGCACTGCAGCACCACCTCGGCGGATGGGCGCCGACATTTATTGCGATTGCGATGTTTTTATTCGCATTCAGTTCTGTCGTCGGCAACTATTACTATGGTGAAACGAATATTGAATTTATTAAAACAAGCAAAACATGGCTTAATATTTACCGCGTATTCGTCGTAGTGATGGTGGTATACGGATGTTTGGCTGACTTCCAGATCGTCTGGGACATGGCAAACTTGTTTATGGGACTCTTGGCTCTCATTAACTTAGTGGCAATCTTATTGCTGAGTAATGTAGCCTACAAGATCTATAAGGATTATGCCGCTCAGCGCAAAAAAGGTCTTGATCCCGTATTCAAAGCCGAGAATACTCCGGAGCTCAGGCATATTGAAACATGGGCGGAAGAAGAAGGTACAAGCCCCGAACGTAAGACTGCTAACTGA	MEAFISEIINVPNDFIWKYLVYILVGIGLYFTFRFRFIQFQYFIEMFRIVGEKPQGNKGVSSMQAFFISAASRVGTGNLTGVALAIATGGPGAVFWMWIVAIVGMASSFVESTLAQLYKVRSGDEFRGGPAYYMAKGLGARWLGILFAVLITVSFGLIFNAVQSNTISVAFDEAFHVNKTVIAIILAVLTAFIIFGGLKRVVSVSQLIVPVMAGMYILIALYVVIVNITAVPELFVTIVKNAFGLEQIVGGSLGSIIIIGAQRGLFSNEAGMGSAPNAAAAAHVSHPAKQGLIQTLGVFFDTFIVCTSTAFIILLYSFTPKGDGIQVTQAALQHHLGGWAPTFIAIAMFLFAFSSVVGNYYYGETNIEFIKTSKTWLNIYRVFVVVMVVYGCLADFQIVWDMANLFMGLLALINLVAILLLSNVAYKIYKDYAAQRKKGLDPVFKAENTPELRHIETWAEEEGTSPERKTAN	PGPT0014405_2810	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
D1-12_01007	957	kdgK		2-dehydro-3-deoxygluconokinase	GTGGCTTCTGATTATGGCATTTTTACGATCGGTGATGCGATGATCACCTTAAATCCCGCAAGCACAGGGCCTTTGCGTTTTGTTACCCATTTTGAACGAAAAGCAGGAGGAGCTGAACTGAATTTTGCGATTGCATGCGCCAGATTGAATCTGCACTCAAAGTGGGTCAGCAGGCTGGGGAAGGATGAGTTCGGCAGAGTGATTTATCAGTTTGCCAAAGGAGAAGGAATTGATGTGACTGACGTCTCCTATGTTGAAGGCTTTCCTACATCTTTAAATGTCAAAGAGATCAGAAATGACGGTTCAGGCAAGACGTTTTATTACCGTTTCAATTCACCAATTCTAACTCTTGCACCGGAAGATATAACAGAGAATATGTTTGCCGGCATTCACATCGTTCATCTTACCGGCGTGTTCCTCGCGCTTGATAAGAAAAACCTTGAAATTGCTGAAAGGGTGCTTTCCATCGCCAAAGCAAGGGGGATTCCCGTATCTTTTGATCCGAATATCAGGCTGAAGCTGTGGACGATTGAGGAGGCGCGTGCGGCATTTCATCAAATCTTTCCGCATACTGATATTCTTCTGGCGGGCCGGGACGAAATGAAACAGCTGACAGGTCTAAGGGAAAATGAGGCATTAGCCCGGTTTGCAGAGACCTATTCAATCAGTCAGCTTGTCATAAAAGACGGTGAAGCAGGTTCTGCGCTGTATCATGATCATAAGTGGGTTCACAAAGAGGCTTTCCCGGTTGCGCCTGTTGACACGGTAGGAGCGGGTGACGGCTTTAATGCCGGTTACCTGTACGGTTATCTGCATGGTTTTGAACCGGAAAAACGTCTGGAGCTTGCCAATGCGGTCGGTGCGCTCGTCACCACAGTTTCCGGTGACAATGAAGGGCTTCCCTATCTAGAAGAGGTTCTGTCATTTGTAAACAAAGAGACTGTGATTGAACGTTAG	MASDYGIFTIGDAMITLNPASTGPLRFVTHFERKAGGAELNFAIACARLNLHSKWVSRLGKDEFGRVIYQFAKGEGIDVTDVSYVEGFPTSLNVKEIRNDGSGKTFYYRFNSPILTLAPEDITENMFAGIHIVHLTGVFLALDKKNLEIAERVLSIAKARGIPVSFDPNIRLKLWTIEEARAAFHQIFPHTDILLAGRDEMKQLTGLRENEALARFAETYSISQLVIKDGEAGSALYHDHKWVHKEAFPVAPVDTVGAGDGFNAGYLYGYLHGFEPEKRLELANAVGALVTTVSGDNEGLPYLEEVLSFVNKETVIER	PGPT0018060_1956	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
D1-12_01008	1020	yjmD	COG1063	putative zinc-type alcohol dehydrogenase-like protein YjmD	ATGAAAGCGGTTCTAGTACGGAAAGCTTTTGATCTGGTGGTGACGGAATGTGAGAAACCGTCTGTTGTCCACGCGGATGATGTTCTTGTCAAGGTGAAGCGGGTCGGAATTTGCGGATCAGATTTGCATATTTATCATGGGACAAATCCGTTAGCGTCCCTGCCGAGAGTAATCGGTCATGAAGTCACAGGGGAAGTCGCAAAGACCGGTTCTCTTGTCCGGCGTTTCAAGCCGGGTGACCGCGTAGTGATTGAACCGATATCTTATTGCGGAACATGCTATGCCTGCCGGAAAGGACGTCCGAACGTCTGCAAAGCGCTTTCGGTGTTCGGCGTTCATGAAGATGGCGGAATGCGGGAATATATCGTGCTTCCGGAAAAGCAGCTGCATGCCGTTTCGCCCGATCTGCCCTGGGAGGAAGCGGTCATGGCAGAACCATATACGATCGGCGCCCAGGCCGTTTGGAGAGGCAGAGTCGAGAAGGAAGATACCGTTTTGATTCAGGGGGCGGGGCCGATCGGAATCTGCATATTAAAAATGGCAAAGCTCAAAGGCGCTTCCGTCATGATAACCGACCTGAATGATGAACGCTTGGCATTCGCTGAAAAAAACGGTGCGGACGTTACCGTCAACGCGCAAAAAGAAGATCCCGTTTTGCGGGTGAACGAATGGACAAAAAATGAAGGCGCCAATGTCGTCATTGATGCCGTCTGTCTCCCCTCAACGTTTGAAACGTCCATTGACGCGGTGTCTCCGGCCGGTCATGTGGTTGTGCTTGGTTTTGATGAGAGGACTGCCGGCATTTCTCAGCTTCCGATCACAAAAAAGGAAGTCACGATAACCGGTTCAAGATTGCAGACGAATCAGTTTCCGTGCATTACAGACTTACTGAATAAAGGCCTGTTAACGCACGGCGGTCTTATTACACATACATTTTCAGCAGATGACGTCCATCAAGCATTTCAGTTGATCGAACAGCACCCGGGCAAGGTGGGAAAAGCAATCATTACGTTTGATTAA	MKAVLVRKAFDLVVTECEKPSVVHADDVLVKVKRVGICGSDLHIYHGTNPLASLPRVIGHEVTGEVAKTGSLVRRFKPGDRVVIEPISYCGTCYACRKGRPNVCKALSVFGVHEDGGMREYIVLPEKQLHAVSPDLPWEEAVMAEPYTIGAQAVWRGRVEKEDTVLIQGAGPIGICILKMAKLKGASVMITDLNDERLAFAEKNGADVTVNAQKEDPVLRVNEWTKNEGANVVIDAVCLPSTFETSIDAVSPAGHVVVLGFDERTAGISQLPITKKEVTITGSRLQTNQFPCITDLLNKGLLTHGGLITHTFSADDVHQAFQLIEQHPGKVGKAIITFD	PGPT0018265_116	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
D1-12_01009	636	kdgA	COG0800	KHG/KDPG aldolase	ATGCTGCCTAAGTACGCTATTTACGAAAAACTTCTGCATGCACAAGTGGTGGCTGTCATAAGGGGACAAAACAGCCAAGAGGCGCTTGAAGTTTCAAAAGCGGCCATTTCAGGAGGTATCAGCGCCATTGAGCTTACATACACAACTCCTGAAGTGGAAGATGTCTTTAAGGAACTCCGGCATCAAGATATTCTTCTTGGAGCCGGCTCTGTAATGGATACAGAAACGGCGAGACACGCCATTTTATCAGGCGCCTCATTTATCGTCAGCTCTCATTTTGTAAAAGAGATAGCATCTCTATGCAACCAGTACAGCGTACCGTATCTTCCGGGATGCATGAGCGTGTCTGATATGGCTTTGGCGCTCGAAGCCGGATGTGATGTGGTAAAGCTGTTCCCCGCTAATTCGTTTGACCCTTCATTTATCAAGTCGGTCAACGGTCCTCTGCCGAATGTCCGCATTATGCCGACCGGGGGCATCTCATTAAACAGCATGAATGACTGGCTCTCTGCCGGAGCGGTCGCGGTCGGTGTGGGAAGCGACTTGACAAAAGCATATCAAAAGGGCGGCTATGAAGCTGCCGTATCCCTCAGCAAAGAATACGTCTGCCGAAAAAACGAATATACGGGGGTGTAA	MLPKYAIYEKLLHAQVVAVIRGQNSQEALEVSKAAISGGISAIELTYTTPEVEDVFKELRHQDILLGAGSVMDTETARHAILSGASFIVSSHFVKEIASLCNQYSVPYLPGCMSVSDMALALEAGCDVVKLFPANSFDPSFIKSVNGPLPNVRIMPTGGISLNSMNDWLSAGAVAVGVGSDLTKAYQKGGYEAAVSLSKEYVCRKNEYTGV	PGPT0002060_2600	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
D1-12_01010	1077	uxuA	COG1312	Mannonate dehydratase	ATGAATATCACGTTTCGCTGGTATGGCCAAGGTAATGATACGGTGACTCTTGAACATGTCAGACAAATTCCCGGGGTCAAAGGCATCGTCTGGGCTCTTCACCAGAAGCCCGCGGGCGAAGTATGGGAAAAGGAGGACATTGAAGCGGAAGTCAGAGTCATTCAATCCTATGGGTTTCATGCAGAGGTCGTGGAAAGCGTGAATGTTCATGAAGCCATTAAACTCGGTCATGAAGAACGCGGACAATATATTGAGCACTATAAACAGACCATTCGCAATCTGTCCGAATTCGGTGTGAAAGTCATCTGTTACAATTTCATGCCGATATTTGACTGGACGCGTACCGATATGTTCCGCGCGCTGGAGGATGGGTCAACCGCACTGTTTTTTGAAAAAGCGAAAGTGGAAAGTCTATCTCCGGAGGAACTGATCCGCACGGTTGAAGAATCTTCTGATTTGACGCTTCCCGGGTGGGAGCCGGAGAAAATGGCCCGGATCAAGGAACTGTTTGAGGCCTATCAAACGGTTGATGAAAAACAGCTTTGGGCCAATCTTGAGTTCTTTTTACATGAAATTCTTCCTGTAGCGGAGGAACACGGCATTCAAATGGCCATTCATCCGGATGATCCGCCCTGGTCAATTTTTGGCCTGCCCCGTATTATCACCGGTGAGAAAAGTTATGAAAAGCTGCGAGAGATTTCACATTCACCCGCCAACTGTATTACGTTATGCACGGGTTCGATGGGAGCGGATCCCGCCAATGATATGGTGAAGATCGCCAAACACTATGCGGGAGCTGCGCCGTTTGCCCATATACGAAATGTGAAAATCTGCGATAACGGTGATTTTACGGAAACTTCGCATCTTACCAGTGATGGGTCCATTGATATTACCGGTGTGGTAAAAGAATTGTACGGCCAAGACTATAAAGGATATGTACGGCCTGATCACGGCCGTCATATCTGGGGCGAACAATGCCGGCCGGGTTATGGTTTATATGATCGCGCCTTAGGAATTATGTACTTGAACGGACTGTGGGATGCGTTCTCGTCTCATGAGAAAGGGGTGAAGAGATGA	MNITFRWYGQGNDTVTLEHVRQIPGVKGIVWALHQKPAGEVWEKEDIEAEVRVIQSYGFHAEVVESVNVHEAIKLGHEERGQYIEHYKQTIRNLSEFGVKVICYNFMPIFDWTRTDMFRALEDGSTALFFEKAKVESLSPEELIRTVEESSDLTLPGWEPEKMARIKELFEAYQTVDEKQLWANLEFFLHEILPVAEEHGIQMAIHPDDPPWSIFGLPRIITGEKSYEKLREISHSPANCITLCTGSMGADPANDMVKIAKHYAGAAPFAHIRNVKICDNGDFTETSHLTSDGSIDITGVVKELYGQDYKGYVRPDHGRHIWGEQCRPGYGLYDRALGIMYLNGLWDAFSSHEKGVKR	PGPT0018270_1189	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
D1-12_01011	837	uxuB	COG1028	putative oxidoreductase UxuB	ATGAGACCGATTCATGAATGTTTATCAGGAAGAACCGCTGTCATAACAGGCGGGAGCGGTGTTCTCTGTTCAGCAATGGCAAAGGAGCTTTCACGGCAGGGGATGAAAATTGCGATCGTCAGCCGGAATGCTGATAAAGCAGAGCGTGCGGCGGGCGAGATTGCTGACGCTGGAGGAACCGCGGTTTCTGTACCGGCTGATGTTTCAGCCCGTGATTCGCTTGAAAAGGCAAAAGACGAGATTATCAGCCGGTTCGGTTCTGTCAATCTTTTAATTAACGGAGCCGGGGGAAATCACCCTGATGCGATCACTGCCAGTGAGACGTATGAAGAGGATGAGCAGGGCACATCATTTTTTGATATGGACGAAACGGGGTTTTCCAGCGTTTTTTCAACCAACTTTACCGGTGCATTTCTGGCATCGCAAGTGTTTGGAAAAGACCTTTTGAAGGCGGAATGTCCCGCGATTATTAATATTTCTTCTATGAGTGCGTATACACCGATGACAAAGGTGCCTGCCTACAGCGCGGCCAAGGCGGCGATTCAGAATTTTACGATGTGGATGGCTGTTCATTTCGCAAAAAAAGGGCTGCGGGTGAATGCCATCGCTCCGGGTTTCTTTTTGACAGCGCAAAACCGTGAGTTGTTATTACAGGAAGATGGAAGTCTGACAGACCGATCCAATAAGATTATGGCACATACACCGATGAAACGTTTCGGGAAACCGGAAGACCTTCTGGGAACGCTCCTGTGGCTTTCGGATGATTCATGCTCAGGCTTTGTCACAGGGGTCACCGTTCCCGTCGACGGAGGTTTTATGGCTTATTCCGGAGTGTGA	MRPIHECLSGRTAVITGGSGVLCSAMAKELSRQGMKIAIVSRNADKAERAAGEIADAGGTAVSVPADVSARDSLEKAKDEIISRFGSVNLLINGAGGNHPDAITASETYEEDEQGTSFFDMDETGFSSVFSTNFTGAFLASQVFGKDLLKAECPAIINISSMSAYTPMTKVPAYSAAKAAIQNFTMWMAVHFAKKGLRVNAIAPGFFLTAQNRELLLQEDGSLTDRSNKIMAHTPMKRFGKPEDLLGTLLWLSDDSCSGFVTGVTVPVDGGFMAYSGV	PGPT0018270_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018270-uxuA-K01686	NA	NA
D1-12_01012	1002	kdgR	COG1609	HTH-type transcriptional regulator KdgR	ATGAAAACCATTACAATTTCTGATGTGGCGAAATATGCAAACGTATCTAAAAGCACCGTATCTCAATTTTTAAATCAGCGCTATGACTATATGAGCGAGAAAACGAAACAAAAAATAGAAGCGGCCATTCAAGAGCTGAACTATCAGCCGAATTTCGTCGCCCGCAGCTTAAAACAGAAATCAACATTTACAGTAGGTGTGGTGGTGGCTAATATTCTTCACACCTTTTCCACTCAGGTCATCAGGGCGGTGGAAGACTATTTTCATGAACAAGGATTTCATATTATTGTCTGCAATGCGGATGATGAACCGGAAAAAGAAAAGAAATATATTGAAATGCTGCGGGCCAAGCAGGTGGACGGAATTATTATTTTTCCGACGGGCGAAAATCTCTCTTTATATGAAAAGATGAAACGCGATACGTTTCCGGTCGTGTTTATGGACAGAACCATTGAAGAACTCGGGATTCCGACAGTGATGCTTGATAATCATCATGCAGCCGGTCTTGCCGTTGACCGGTTTATCGAAAGCGGCATAAAGAGAATCGCGATTATTACGACGTCCATTATTCGGGAAATCAGTCCGAGGGTAGAAAGGATTGAAGGGTATAAGAAGGCGCTTGACCGCCACGGAATGTTGGTGCGGAACGAATATATCAAAACAGCCGATGCGGCTGATATTTCCAATGTTTTGTCAGAGCTGTTCTCACTTCAGGAGCCTCCGAAAGCGATATTGGCGGCAAACGATATCGTTCTTGTTGAGGTGCTGAAGTATATGAAGGAGCATGATATGACAATTCCGGATAAGGCAGCCGTCATCGGAATTGATGAAGTTCCTTTTGCGGGTTTTTTTACTCCTCCGATTACGACGATCGTTCAGCCTGCGGCAGAAATGGCGCGAAAAGCGGGAAGCCTTCTTCTTCGCCAGATACAAGAAAAAGATGGCGGTGAAAAACGGATTCACCGCTATAAACCGGCGCTGCTCGTAAGGCAATCCGGATAA	MKTITISDVAKYANVSKSTVSQFLNQRYDYMSEKTKQKIEAAIQELNYQPNFVARSLKQKSTFTVGVVVANILHTFSTQVIRAVEDYFHEQGFHIIVCNADDEPEKEKKYIEMLRAKQVDGIIIFPTGENLSLYEKMKRDTFPVVFMDRTIEELGIPTVMLDNHHAAGLAVDRFIESGIKRIAIITTSIIREISPRVERIEGYKKALDRHGMLVRNEYIKTADAADISNVLSELFSLQEPPKAILAANDIVLVEVLKYMKEHDMTIPDKAAVIGIDEVPFAGFFTPPITTIVQPAAEMARKAGSLLLRQIQEKDGGEKRIHRYKPALLVRQSG				NA	NA	NA	NA	NA
D1-12_01013	1272	exuT		Hexuronate transporter	ATGTTCTCAAAGGATAGATTCCCTATTATTCTTCTTTTATTTTCAGCCGGGGTGATTAACTATTTAGACCGCTCAGCGCTGTCTATTGCAGCGCCGTTCATACAGCAGGATCTCACATTGTCAGCAACCCAAATGGGGCTAATTTTCAGCAGTTTCTCTGTCGGATACGCTGTGTTTAACTTTCTCGGCGGTGTTGCATCTGACCGGTACGGGGCTAAATTGACATTGTGTACGGCGATGATCGTTTGGTCTCTTTTCAGCGGAGCGGTTGCGCTTGCTTTCGGATTTGTAAGTCTTTTGATTATCCGTGTTTTATTCGGTATGGGGGAGGGGCCGCTGTCGGCTGCCATAAGCAAAATGGTCAACAATTGGTTTCCTCCGTCTCAGCGCGCCACGGTCATCGGCCTGACAAACAGCGGAACGCCGCTCGGCGGAGCGATCTCCGGCCCGATTGTCGGGATGATTGCTGTGGCGTTCAGCTGGAAGGTTTCCTTTGTCCTGATCATGATCATCGGTTTAGTCTGGGCGCTCATCTGGTTTAAATTTGTCAAAGAACGGCCGGCGCCGACGGAAGACGTCCCGGCAATGAAAGCAGCGATTCAATCGCATGAGCAGCATATCCCGATGACCTTTTATTTGAAACAAAAAACGGTTCTCTTCACGGCTTTTGCCTTTTTCGCCTACAACTACATTTTATTTTTCTTCTTAACATGGTTTCCGAGCTATCTGGTGAAAGAACGCGGTTTAAGTGTTGAATTTATGAGCGTGGTGACTGTTATCCCCTGGATTCTTGGATTTATCGGTTTGGCGGCAGGCGGAATGATTTCTGATTATGTATTCAAAAAAACCGCCGGAAAAGGGGTTTTGTTCTCACGGAAAGTCATTCTTGTCACTTGTCTGTTCGCTTCCGCTGTACTGATCGGATTTGCCGGACTTGTTACCACTACCGTAAGTGCCGTTATTCTCGTTGCTTTATCAGTCTTCTTTTTATATATAACGGGCTCTATCTATTGGGCGGTCATTCATGATGTGGTTGATCAAAGGAATGTCGGGTCAGTCGGCGGCTTTATGCATTTTCTTGCAAACACGGCCGGTATTATCGGGCCTGCTTTAACCGGCTTTATCGCGGACAAAAGCGGATCATTCTCGGGGGCGTTTTTGCTTGCAGGCGGATTAGCCGTTTTGGCCTCGGCTGCGGTAATCCGTTTCGTGCGCCCGATTATCATTCAAACCGCTTCTGAAGATAAAAAAGACACGATACCTTATTCGTAA	MFSKDRFPIILLLFSAGVINYLDRSALSIAAPFIQQDLTLSATQMGLIFSSFSVGYAVFNFLGGVASDRYGAKLTLCTAMIVWSLFSGAVALAFGFVSLLIIRVLFGMGEGPLSAAISKMVNNWFPPSQRATVIGLTNSGTPLGGAISGPIVGMIAVAFSWKVSFVLIMIIGLVWALIWFKFVKERPAPTEDVPAMKAAIQSHEQHIPMTFYLKQKTVLFTAFAFFAYNYILFFFLTWFPSYLVKERGLSVEFMSVVTVIPWILGFIGLAAGGMISDYVFKKTAGKGVLFSRKVILVTCLFASAVLIGFAGLVTTTVSAVILVALSVFFLYITGSIYWAVIHDVVDQRNVGSVGGFMHFLANTAGIIGPALTGFIADKSGSFSGAFLLAGGLAVLASAAVIRFVRPIIIQTASEDKKDTIPYS	PGPT0017205_1524	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_HEXURONATE_TRANSPORT,PGPT0017205-exuT-K08191	NA	NA
D1-12_01014	816			hypothetical protein	ATGAAACAGAAGCCGATATATGTCGAAATCAATATTGCATCTGATATAGAAACGCTTTGGGAATATACGCAAAACCCGCATCTTCATAAGGAATGGGATCTGCGTTTTTCTGACATTACATATCTTCATAGGCTGCCATATGAACCGCAGAGATTTCTATATGAAACACGAATCGGTTTTGGGCTGAAGGTATCCGGCACAGGCGAATCAATAGGTGACATAAGGCCTCGCTCGTCAGAAAGAGTGTCTTCGCTCGCTTTTGTCTCTGATCATCCGCTGTCACTTATAAAAGAAGGCAGGGGCTACTGGAAGTATATAGAGCGGGATAACGGACAAGCCTCATTTTTGACTCAATATCAATATGAAACGGCCCGCGGTCTGCCGGGAAGTTGGATAGACCGTTTTTTATTTCGTCCTCTGCTAAGCTGGGCTACCGCATGGAGCTTTGATGCGTTGCGGCTTTGGATAGAACAAAACAGACATCCGAAGATATCAGTCCGTTTCGGATTTGTCTATGTCTGTATGTGTCTCATATTCAGTCTGTATTGGTTTTTTCAAGGCTTTCATGATGGCTGTGCCGATGCAGAGATCGTGAGGGGAGCCCTGGAGACAGGGTTAGGGGTATTATGGCTGCTTCCCATGCGGAGAAAGTGGCTGATTCACGCCGGGCAGTCAGCCTTCTTTTGTGTAACGGCACTGTTATATTCCGGTGACGGATTCTTGATCTCATTAGGAGTCCTTACGATAGCCGGCATGATTCTTAAGCTCAAGCTGCCGAGCGCCTGGCATACAAAACGAAAGAGAGAAGTGAAATGA	MKQKPIYVEINIASDIETLWEYTQNPHLHKEWDLRFSDITYLHRLPYEPQRFLYETRIGFGLKVSGTGESIGDIRPRSSERVSSLAFVSDHPLSLIKEGRGYWKYIERDNGQASFLTQYQYETARGLPGSWIDRFLFRPLLSWATAWSFDALRLWIEQNRHPKISVRFGFVYVCMCLIFSLYWFFQGFHDGCADAEIVRGALETGLGVLWLLPMRRKWLIHAGQSAFFCVTALLYSGDGFLISLGVLTIAGMILKLKLPSAWHTKRKREVK				NA	NA	NA	NA	NA
D1-12_01015	609			hypothetical protein	ATGACGGATTCAATGTATGAAAAAGCGATTACTCATTATCAATCACTGCACCCGATGCTGCAGAAACGGTACAGATTTGACGGATCACGCACGTTTTGCGGAGAAGGCGTTATGACAGAAATAAAGGGAGGTTCTTTTCTTGTCAGAATGCTTTTAAAGACAGGTGTTTTTTTCAGATGTTTTTTCTCAGAGAGGGGAAACGATATCCCTTTCACTATCGAAAACAAAAACAGGCAAAATGGCGTGGAATGGAATCGTACCTTTTTCTTTAAAGGCAAAACGCGTTTTTTTGATGCGGTCATGGAATATGATGAGCGGGAAAACAGAATTCTTGATTACTTCGGCAAACCTCACATCCTACTGTCTGAACTGCATTTAGAAGCGTCTTCAGACGGAGGGCTTGTTATTACATCCGGAAGGCAGTGGCTCCTGATAGGCGGAAAGAAAATCCCGATTCCGGCATGGATGTGCGGCAGTTCAACCGTTTATGAGGCTTATGATGAGGAAATGAATTGCTTCAGCATAAAGGTTCATGTGAACAATCGGATACTCGGCACGCTTTTCTCTTACCGGGGGACTTTCCGGGAAACAGAGGGAGAAACATGCTGA	MTDSMYEKAITHYQSLHPMLQKRYRFDGSRTFCGEGVMTEIKGGSFLVRMLLKTGVFFRCFFSERGNDIPFTIENKNRQNGVEWNRTFFFKGKTRFFDAVMEYDERENRILDYFGKPHILLSELHLEASSDGGLVITSGRQWLLIGGKKIPIPAWMCGSSTVYEAYDEEMNCFSIKVHVNNRILGTLFSYRGTFRETEGETC				NA	NA	NA	NA	NA
D1-12_01016	1629			hypothetical protein	ATGCTGAAGCGTCATCTTATGATAAGCGTGATTTGCTTTTTGGGATTTGCGGCGGCTGAAGCTCCGCATATATCAGCTGCTGAGACGTTTGTTTTATTTTCCGTACTTTTTTTCGTTCCTGCTGTATTCGATTTTGCTTTTCGGCCGTCAAAGACCTTAGAGAATGTGTTGTTACGGAGTTATCCTGTTGCCGCTATATGTGCGGTGCTTGCGCTTGTCACAGACTTCAGTTTTTTTGCCTTTGTGTGGCTCATTTATACGCTTGGGCTGGCACTGTATGCTGTCCGGCGGCTGATGAAAACAAATATTCACAGAACAGAAGAGATATCTGTTATGGCGGGTTTCATTTATTTGGCCGGGGGCGGATTCTGGTTCTTCGCATATGTCCTTGAGATTCCCGTCATGAATTTCGGCCCGCTTATCGTTCTGCTGACGGCGGTGCACTTTCACTATTCCGCTTTCCTCATTCCGATCTTTAACGGATTGCTCGGCAGGATCATACGGGAGAAACGCGAACTTTACCAGTGGAGTACGGTCATTATTTTGATTTCGCCGATCCTTATTGCCTTGGGGATTACATTTTCAAAGACACTTGATGTGATTGCTGTCGCTCTGTATCTGGCGGGTCTGTATGTAAATGCATATCTCGTCTTTAAGGCGCCGTTTGTTACGAAAACAGGCAGGGTCTTGATCAGGAGTTCATCGGCTGTGTTAATGATCACAATTGCTTTTTCTTTGATATATTCGTACGGTGTCTACCGCGAGGAGGCAACGCTCACGATCAGCCAGATGATTTGGATTCACGGGGCCGTCAATGCATTCGGCGTTATCCTGCCGGCTTTGGCGGGGTGGAAGTTGGAAAATCCGAGACCGTTTGATGAGGACAGTGAAAGAACATTCAGCCGTATTTACGGGAAGAGAACGATAGGCAAAGAATTTTTGACAGATATTCATGCAGCAAATGACATCCATTATAACGGCCTTCTGGATCAGCTGAGAGAACTGCATTCTGAAGACTTTTCAACTGAAAAACTGGCGCCGGCCGTTATTTCCTTTTATGAAGAGACAATTGATTATGACATCATGGCAAAAGTGACGTGGAGCAGATGGTTTCGTCCGTTCGCGCGCGTGTACGAGCCGTTCAGCAGAAGAGCGGGGCAGATTCACCTATCCATGAATCCGGATTGGTATATTATGCACAGTGATATTATAGGAGTTGACTCTGACAAAGACGGCAGAAAAAATGTCCGTGCGTGGATCAGAACAAATGAAAAGCAGGAAACCGTTTTTACTGCGCTGTATTCAGCGTACAGGTCAAAAGGGGAAGGATACATGAATATCTCTCTTCCGCTGCCGTACGGCCAAATGACGGGCATTTTAAAACCTTATGCGCGTAAGCAGAATCTTGTTTTGACAAGCAGACGGCGAAAAAGCGGAGCGGGTGATGAAGGGATTTATCTGCAGACGAAATGGGGGGCGTGTCATCTTCCGCTGGCAGAGACATTTCTTATTTCAGCCCAGAGCGAAACAAGCCTGAAGGCCGTTCATCATATGTGGCTGTTCGGACTGAAATTTTTAACTGTGCATTATCGGATCACTCATGCTTCCGCAGGTAACCGAAGCAAATAA	MLKRHLMISVICFLGFAAAEAPHISAAETFVLFSVLFFVPAVFDFAFRPSKTLENVLLRSYPVAAICAVLALVTDFSFFAFVWLIYTLGLALYAVRRLMKTNIHRTEEISVMAGFIYLAGGGFWFFAYVLEIPVMNFGPLIVLLTAVHFHYSAFLIPIFNGLLGRIIREKRELYQWSTVIILISPILIALGITFSKTLDVIAVALYLAGLYVNAYLVFKAPFVTKTGRVLIRSSSAVLMITIAFSLIYSYGVYREEATLTISQMIWIHGAVNAFGVILPALAGWKLENPRPFDEDSERTFSRIYGKRTIGKEFLTDIHAANDIHYNGLLDQLRELHSEDFSTEKLAPAVISFYEETIDYDIMAKVTWSRWFRPFARVYEPFSRRAGQIHLSMNPDWYIMHSDIIGVDSDKDGRKNVRAWIRTNEKQETVFTALYSAYRSKGEGYMNISLPLPYGQMTGILKPYARKQNLVLTSRRRKSGAGDEGIYLQTKWGACHLPLAETFLISAQSETSLKAVHHMWLFGLKFLTVHYRITHASAGNRSK				NA	NA	NA	NA	NA
D1-12_01017	630			hypothetical protein	ATGTTGTCAGTGAATGAGGATGGGACGCGGCATTTTTGGATCGGGAGCGGCCTCGGTCTTTGCCTGTCTTTCATGATTCGCGAAATGAAAACGACCGCAATGTTTGGCTTCACAACGGCGAGAAAGAAATCAGCTTGTTGTCTTTTCGTTTATGACTATGCACGCACTGGCTTTGCTAGTGATAAGAACTTTAGTTCGCAGGTGCGGAAACAGGTAACATTAAAGCTGTTTTATTTACTCACAGCCGTTTTTATTTTTATCATTCCTTTTACCGTCAGCCCGCTGGCGCTTTATCTGGTTCAGGTTTTAATAGGTTTTTCACTCGGCATTATTTTTCCTTTGCTGCTTGGAATGTCGATTGAGTCTGTTTCGGCAGACATGAGAGCAACATCGACGGGGCATACCAGGCGCTTTATGAACTCGGTATTTTCGGAGGACCTTTGGCCGAGGGATTTTTTAATGATTGGCTGGGGCTCAGAGCCGGATTTTATTTTGCAGGGGTGCTCGGGCTGGCGGCTGTCATACTTGCTTATATGTGGGGAGCCGATGCGAAAAAATCGTTGGAGTATTACCAGACATGATTTTATTTTTGTGTACGCTTTCAAAAAAGAAGAGATCTTATTCGGATAA	MLSVNEDGTRHFWIGSGLGLCLSFMIREMKTTAMFGFTTARKKSACCLFVYDYARTGFASDKNFSSQVRKQVTLKLFYLLTAVFIFIIPFTVSPLALYLVQVLIGFSLGIIFPLLLGMSIESVSADMRATSTGHTRRFMNSVFSEDLWPRDFLMIGWGSEPDFILQGCSGWRLSYLLICGEPMRKNRWSITRHDFIFVYAFKKEEILFG				NA	NA	NA	NA	NA
D1-12_01018	270			hypothetical protein	ATGTTAAAAAGTAAAATTAAAAAAATAGCCGGTGTGGCTGTAATTGCTGGAGCATTATTAGTTTCTGTGTCGCCAGCAAAAGCAGAAACTCTTCCGGGATTGATCTGGGTCATGGACAAATATACTGACGCTTTTAAATTCGACATGTTTATTAAAAACGGAAATGAAAAATGGGTTTATGTTTACACAAGATTATCCGATGGCAAAGTTGATGTGGAAGAAGTAAAGTGTGAAACAATTTATAAAGATCGATGCTATGTAAAGCAGTAA	MLKSKIKKIAGVAVIAGALLVSVSPAKAETLPGLIWVMDKYTDAFKFDMFIKNGNEKWVYVYTRLSDGKVDVEEVKCETIYKDRCYVKQ				NA	NA	NA	NA	NA
D1-12_01019	573			hypothetical protein	ATGGGTTATAGGAATGGAAATTATGCTGCTTTCTATGTCAGTGAACCGTTTAGTGAAAGTAGTTTAGGGGCTAATGCAACCAAGGATTTTGTGTCGTATAACATGTTAAGAGCATGGAAAGGAAAAGATAATAACTACCCATTTAATGACTCCCACGATAAAACATACAATGTACGGGACGGTAGTGATTGGGAGAAAACATTAAAGCCAAGATTAAGAAAAAGATTAGATCAATCAAAAAATATAATCTTTTTTTTAAGTAAGCATACTGAAAACAGCAAAGCTTTGCGAGAAGAAATTGATTACGGTATTAATGTGAAGGGGCTACCAGTTATCGTTGTATACCCTGAACTTTCCGAAAAGAGTGACATCATCGACTGCACTACAAAGGTTTTCAGATCAGAAGTGGTGAATTTATGGAGTCGAGTCCCTGTTTTTAAAGACTCTATGCTAAAGGTACCAACTATTCATATTCCTTATAAAAAAGACCAAATTAAAAAAGCTTTAGAGAACAAAGATTTTATGATTAATTCAAAGATTTCTGCAGGTTCGGTTTATTTTTATCCATGTTAA	MGYRNGNYAAFYVSEPFSESSLGANATKDFVSYNMLRAWKGKDNNYPFNDSHDKTYNVRDGSDWEKTLKPRLRKRLDQSKNIIFFLSKHTENSKALREEIDYGINVKGLPVIVVYPELSEKSDIIDCTTKVFRSEVVNLWSRVPVFKDSMLKVPTIHIPYKKDQIKKALENKDFMINSKISAGSVYFYPC				NA	NA	NA	NA	NA
D1-12_01020	849			hypothetical protein	ATGTGGAAGTTTAAAGAATTAATAAGAGATAAGACATTTAGAAGGTGGGCTCTGAGTATAATTCTGACTATTCCAACTAGTGTGAGTACATTCATTTCATTTCTAGACTTGGATGCTCGTTGTAGATTAATTATTTTACTTATATTAGTAGGGTTGTCGCTAGTCATAATAATTGTTCAATTCATTAGACTACTTTTTATGAATAATATCACTCTTAATCTCAATGGTTCCGAAGTTGAAATTAAAAAAGGTGATATTTTTGAAGTGCCAAGAAATAATTATAAAGTCATTGCATTTAATGAGTATTTTGACACTCAAGTAGATGACGTAATAATCGCCCGCGAAACATTAAATGGTCAATATATAAAGCGTTATTATTCACATCAAGATATCACTGAGTTGGATCAGAAAATTAAAGATGACGTAAAACTTAAAATTGAAGAAAAAAATGTTGAAAGACCTTTTGGAGGAAAAACAACACGTTACAGCTTGGGATCAGTCTTTAAAGATATGGATTTTTTTCTAGTTGCTTTTTCGAAGTTTGATAGGGAAAATCGTGCCCAATTAAAACTAAATGAATATGCAAGCTGCATGCTTAATGTATGGAATGAAATCAATACATTACATGCAAGCAAAGAAGTGTTTATCCCCTTATTAGGTTCTGGAATAACAAGACATGTGGATTCTGATGTTGGAGTCAATGAACTATTACATATAATGTTGTGGACATTTCAGATCAGTAAAGTAAAGTTTAGAGAACCAGCCAAAGTTACAATTCTTTTGTACAAAAATGATCACAAGAAGATCAATTTTTATAAGTTAAAGGAGTTTGAGAAGAATGGGTTATAG	MWKFKELIRDKTFRRWALSIILTIPTSVSTFISFLDLDARCRLIILLILVGLSLVIIIVQFIRLLFMNNITLNLNGSEVEIKKGDIFEVPRNNYKVIAFNEYFDTQVDDVIIARETLNGQYIKRYYSHQDITELDQKIKDDVKLKIEEKNVERPFGGKTTRYSLGSVFKDMDFFLVAFSKFDRENRAQLKLNEYASCMLNVWNEINTLHASKEVFIPLLGSGITRHVDSDVGVNELLHIMLWTFQISKVKFREPAKVTILLYKNDHKKINFYKLKEFEKNGL				NA	NA	NA	NA	NA
D1-12_01021	1500	eglS	COG2730	Endoglucanase	ATGAAACGGTCAATTTCTATTTTTATTACGTGTTTATTGATTACGGTATTGACAATGGGCGGCTTGCAGGCTTCGCCGGCATCTGCAGCAGGGACAAAAACGCCAGTAGCCAAGAATGGGCAGCTTAGCATAAAAGGAACACAGCTCGTAAACCGGGACGGCAAAGCGGTACAATTGAAAGGGATCAGTTCACATGGATTGCAATGGTATGGCGATTTTGTCAATAAAGACAGCTTAAAATGGCTGAGAGACGATTGGGGCATAACCGTTTTCCGCGCGGCGATGTATACCGCAGATGGCGGTTATATTGACAACCCGTCCGTGAAAAATAAAGTAAAAGAAGCGGTTGAAGCGGCAAAAGAACTTGGGATATATGTCATCATTGACTGGCATATCTTAAATGACGGCAACCCAAACCAAAATAAAGAGAAGGCAAAAGAATTTTTTAAGGAAATGTCAAGTCTTTACGGAAACACGCCAAACGTCATTTATGAAATTGCAAACGAACCAAACGGTGATGTGAACTGGAAGCGTGATATTAAACCGTATGCGGAAGAAGTGATTTCCGTTATCCGCAAAAATGATCCAGACAACATCATCATTGTCGGAACCGGTACATGGAGCCAAGATGTGAATGATGCAGCCGATGACCAGCTAAAAGATGCAAACGTCATGTACGCGCTTCATTTTTATGCCGGCACACACGGCCAATCTTTACGGGATAAAGCAAACTATGCACTCAGCAAAGGAGCGCCTATTTTCGTGACGGAATGGGGAACAAGCGACGCGTCTGGAAATGGCGGTGTATTCCTTGACCAGTCGCGGGAATGGCTGAATTATCTCGACAGCAAAAACATCAGCTGGGTGAACTGGAATCTTTCTGATAAGCAGGAATCATCTTCGGCTTTAAAGCCGGGAGCATCTAAAACAGGCGGCTGGCCGCTTACAGATTTAACTGCTTCAGGAACATTCGTAAGAGAAAACATTCGCGGCAGCAAAGATTCAACGAAGGATGCCCCTGAAACGCCAGCACAAGATAATCCCGCACAGGAAAAAGGCATTTCCGTACAATACAAAGCAGGGGATGGGAGTGTGAACAGCAACCAAATCCGCCCGCAGCTTCACATAAAAAATAACGGCAATGCGACGGTTGATTTAAAAGATGTCACTGCCCGTTACTGGTATAACGCGAAAAACAAAGGCCAAAACTATGACTGTGACTACGCGCAGATTGGATGCGGCAATCTGATCCACAAATTTGTGACGCTGCATAAACCTAAGCAAGGTGCAGATACCTATCTGGAACTGGGGTTTAAAACAGGAACGCTGTCACCGGGAGCAAGCACAGGGAATATTCAGCTTCGTCTTCACAATGATGACTGGAGCAATTATGCACAAAGCGGCGATTATTCCTTTTTCCAATCAAATACATTTAAAACAACGAAAAAAATCACATTATATCATCAAGGAAAACTGATTTGGGGTACAGAACCCAATTAG	MKRSISIFITCLLITVLTMGGLQASPASAAGTKTPVAKNGQLSIKGTQLVNRDGKAVQLKGISSHGLQWYGDFVNKDSLKWLRDDWGITVFRAAMYTADGGYIDNPSVKNKVKEAVEAAKELGIYVIIDWHILNDGNPNQNKEKAKEFFKEMSSLYGNTPNVIYEIANEPNGDVNWKRDIKPYAEEVISVIRKNDPDNIIIVGTGTWSQDVNDAADDQLKDANVMYALHFYAGTHGQSLRDKANYALSKGAPIFVTEWGTSDASGNGGVFLDQSREWLNYLDSKNISWVNWNLSDKQESSSALKPGASKTGGWPLTDLTASGTFVRENIRGSKDSTKDAPETPAQDNPAQEKGISVQYKAGDGSVNSNQIRPQLHIKNNGNATVDLKDVTARYWYNAKNKGQNYDCDYAQIGCGNLIHKFVTLHKPKQGADTYLELGFKTGTLSPGASTGNIQLRLHNDDWSNYAQSGDYSFFQSNTFKTTKKITLYHQGKLIWGTEPN	PGPT0018620_3210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
D1-12_01022	312			hypothetical protein	TTGAGAGAAAATAAAATTTTGTCTTCATTATGTTACTTCAGTATATTTTTTGCACCGTTTCTGTTTCCGATTATCATCTATTTCTTAAGCCAGGACGATGTGAAAGATCATGCGAAAAAATCTTTATGGACGCATCTGATTCCTTATTTGATTTTTGGAATTGGCATCATCGCTTCAGGTTTACTTGGTATGAATGATATCAGACATGCCGGGCCTTTCCTGCTTGCGACTTATGCTGTTACATTCCTTGTGGCGATCTATTTTTTCATTTGGAACATTGTCAAAGGAATCAAAGTGTTTTCGGAACAATAG	MRENKILSSLCYFSIFFAPFLFPIIIYFLSQDDVKDHAKKSLWTHLIPYLIFGIGIIASGLLGMNDIRHAGPFLLATYAVTFLVAIYFFIWNIVKGIKVFSEQ				NA	NA	NA	NA	NA
D1-12_01023	1401	sasA_2		Adaptive-response sensory-kinase SasA	ATGAATTGGCGATTAACAGGCAGATACATGGTATCTGTCATCATAGTGACCATCATTACAGTCTTCATTAATTTATTTATTTTTATGTTTTGGCTCGTGTTCCAGGCGAACACCCAACATGACGAAGAAAGTACACCGGAAACTTTCACAAGATCATTCCGGCAATATGTCACATTATCGAACAATGGTATCACAGTAAACAAAGAGGGCCAAAAAGCTTTAAAAGAGCAGAATGCATGGATTCAAATATTAGATGAAAACGGACAGGATGTTTATCATGATAGAGAACCTAAAGGACTGAAGAAAAAATATACACCTATTGAAATTGTAAATTTACATAAATATAAGGATGAACAATTATTGTCAACCATTTACGCCGGCGGAAAAAAAGTAAACGGCAAGGAGTACAGTTACTTTATAGGGCTTAAAAATCCCTCTCTCGGAAAATTTGTCCTCTCATATGATACCAAGGAATTTGTGACGAAGTTCAATGCAGGAACCATCATATTATTATCAATAGATGCATTAATCGCGTTACTCATTGGCTATCTATTCAGCCGGCAGCTCACAAAACCGCTCGGCCGTGTCATTCAAGGAATCCAGCGGTTAGCTAATGGAGATTATACGATCAAAATGAAATCCAAAGGCATTTATAAAGATGTGTTCTATAATGTCAATCACTTATCGAAACAACTATCTTTAAGCAAAAAAGAAAAAGATAAATTAGAGCAAATGCGTGAAGAGTGGATCAGTCATATTTCTCATGACATTAAAACACCATTAGCATCTATTCAAGGCTATGCAGAAATCATCAAAGATCCGAATTATCATCTCACAGTTGAGCAGATCAGAGATTACGCCCGGATCATTGAGAGTAAATCCCTCTATATGAAAGATGTGATGGAAGATTTAAATTTAACGACAAGGCTGAAAAACAACGATGTGATGTTAAATAAAGAACGGGTAAACCTTGTATCGCTTCTGCGGGAAACGTTAATTGATATTTTAAACGATTCCAGATATGCGGATAAGTCCATTGAGCTTCAAACGAACCTGGAAAAGCTGATGCTGAACCTTGATGCGATATTGATTCGTAGAGCGGTCACGAATCTCATTTTAAATGCCCTCGTTCACAATGATCCCGATGTGAAGATCGTTGTACAGCTTGAACAAAAAGAACGAACTCATGTGACAATTAAGGACAACGGCAAAGGGATAGAAGAAGAGGAGCTGGAAAAAGTGTTTGATCGCTATTACAGGGGGACAAATACAGGAACGACGCATGCAGGCTCTGGTCTTGGAATGGCCATAGCAAAGGATATTATCCAAAAGCACGGAGGGGACATCACCATTCACAGCACCGCGGGAGAAGGGACAACGATAGATATACAATTATCATAA	MNWRLTGRYMVSVIIVTIITVFINLFIFMFWLVFQANTQHDEESTPETFTRSFRQYVTLSNNGITVNKEGQKALKEQNAWIQILDENGQDVYHDREPKGLKKKYTPIEIVNLHKYKDEQLLSTIYAGGKKVNGKEYSYFIGLKNPSLGKFVLSYDTKEFVTKFNAGTIILLSIDALIALLIGYLFSRQLTKPLGRVIQGIQRLANGDYTIKMKSKGIYKDVFYNVNHLSKQLSLSKKEKDKLEQMREEWISHISHDIKTPLASIQGYAEIIKDPNYHLTVEQIRDYARIIESKSLYMKDVMEDLNLTTRLKNNDVMLNKERVNLVSLLRETLIDILNDSRYADKSIELQTNLEKLMLNLDAILIRRAVTNLILNALVHNDPDVKIVVQLEQKERTHVTIKDNGKGIEEEELEKVFDRYYRGTNTGTTHAGSGLGMAIAKDIIQKHGGDITIHSTAGEGTTIDIQLS				NA	NA	NA	NA	NA
D1-12_01024	708	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGTCACGGCTTCATAGCAAAGTATTAATCATAGACGATGAAAAAGAAATTTTGGAACTGATCAAAACCGTATTAATAAGAGAAGGCATTGATCGCGTAGTGACCGCTTCAACTGCCCGTGACGGATTGGCTCAATTTCATCAAGAAAATCCCGATCTTGTGATATTGGATATCATGCTGCCAGACGGTGAAGGCTATGATATCTGCAAGCAAATAAGGGACATTTCACACATTCCTATTATCTTTTTGTCTGCAAAGGGGGAGGAAACGGATAAAATTGTAGGACTTGCCATCGGCGGGGACGACTACATTACAAAACCTTTCAGCCCTAAAGAAGTCGCATACCGGGTCAAAGCGCAGCTGAGACGGGTCTCTTACTTACAGCCTTCTCAAACCGGAACCGTGATAAAAAAGGGGCCATTTGAATTAAACCAACAACAAGCCGAGCTCACCAAAAATGGAGCGGCTATTGAGTTAACACCTAAAGAACTTATGCTTATGACCTATTTTCTGCAGCATCCCAATCGGGTGATCAGTAAAGAAACACTCTATCAAGCTGTATGGGGAGAAGACTTTTTCGGTTCTGACAACACGGTGATGGTTCATATACGCAGGCTCCGTGAGAAAATAGAAACTGTCCCATCAAAACCAGACTTTCTCGTCACTGTGAAAGGGTTAGGCTACAAATTTGTTGTAAAGGATGCGTAA	MSRLHSKVLIIDDEKEILELIKTVLIREGIDRVVTASTARDGLAQFHQENPDLVILDIMLPDGEGYDICKQIRDISHIPIIFLSAKGEETDKIVGLAIGGDDYITKPFSPKEVAYRVKAQLRRVSYLQPSQTGTVIKKGPFELNQQQAELTKNGAAIELTPKELMLMTYFLQHPNRVISKETLYQAVWGEDFFGSDNTVMVHIRRLREKIETVPSKPDFLVTVKGLGYKFVVKDA	PGPT0013765_441	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
D1-12_01025	1272	xynC		Glucuronoxylanase XynC	ATGATGTCGAGCGTAAAAAAACCAATTTGTGTGTTATTGGTATGTTTCACAATGCTGTCCGTCATATTCATAGGACCGGGAGTTACTGAAGTTTCAGCAGCGAGTGATGTAACAGTTAATATATCTGCAGATAGACAAGTGATTCGCGGTTTTGGAGGAATGAACCACCCGGCTTGGATTGGAGATTTGACTGCGCCTCAACGGGAGACCGCTTTTGGCAATGGACAGAATCAGTTAGGTTTTTCGGTCTTAAGAATTCATGTAGATGAAAATAGAAACAATTGGTACAAGGAAGTGGAGACTGCAAAGAGTGCGATCAAACATGGAGCAATCGTTTTTGCTTCCCCTTGGAATCCGCCAAACGATATGGTTGAGACTTTCAATCATAATGGTGACACATCAGCTAAGCGGCTGAGATACGATAAGTACGCCGCATACGCGCAGCATCTTAACGATTTCGTTAATTTCATGAAGAGTAATGGTGTGAATCTGTATGCGATTTCTATGCAGAACGAGCCTGATTACGCTCACGAATGGACATGGTGGACGCCCCAAGAAATCCTGCGTTTCATGAGAGAGAATGCCGGTTCCATTAATGCCCGTGTGATTGCGCCGGAATCATTTCAATACCTGAAAAATATATCGGACCCCATTTTGAACGATCCGCAGGCGCTTAGGAATATGGATATCCTCGGAACCCACCTGTACGGCACTCAGGTCAGTCAGTTTCCTTATCCTCTTTTCAAACAAAAAGGAGCGGGGAAGGACCTTTGGATGACGGAAGTATACTATCCGAACAGTGATAACAACTCGGCAGATCGATGGCCTGAGGCTTTAGGTGTTTCAGAGCATATTCATCATTCAATGGTAGAGGGAGATTTTCAAGCTTATGTGTGGTGGTACATCCGCAGATCATACGGCCCTATGAAAGAAGATGGGATGATCAGCAAACGCGGATACAATATGGCTCATTTCTCAAAATTTGTGCGCCCTGGCTATGTAAGGATTGATGCAACGAAAAATCCTGAACCGAATGTTTACGTGTCAGCCTATAAAGGAGACAATAAAGTCGTGATTGTTGCCATTAATAAAAATAACACAGGGGTCAACCAAAACTTCGTGTTGCAGAATGGGTCTGCTTCGCAAGTATCCAGATGGATCACGAGCAGCAGCAGCAATCTTCAACCTGGAACGGATCTCAAAGTAACGGATAATCATTTTTGGGCCCATCTGCCGGCTCAAAGCGTGACAACATTTGTTGTAAAACGTTAG	MMSSVKKPICVLLVCFTMLSVIFIGPGVTEVSAASDVTVNISADRQVIRGFGGMNHPAWIGDLTAPQRETAFGNGQNQLGFSVLRIHVDENRNNWYKEVETAKSAIKHGAIVFASPWNPPNDMVETFNHNGDTSAKRLRYDKYAAYAQHLNDFVNFMKSNGVNLYAISMQNEPDYAHEWTWWTPQEILRFMRENAGSINARVIAPESFQYLKNISDPILNDPQALRNMDILGTHLYGTQVSQFPYPLFKQKGAGKDLWMTEVYYPNSDNNSADRWPEALGVSEHIHHSMVEGDFQAYVWWYIRRSYGPMKEDGMISKRGYNMAHFSKFVRPGYVRIDATKNPEPNVYVSAYKGDNKVVIVAINKNNTGVNQNFVLQNGSASQVSRWITSSSSNLQPGTDLKVTDNHFWAHLPAQSVTTFVVKR	PGPT0018640_108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-XYLANASE,PGPT0018640-xynC-K15924	NA	NA
D1-12_01026	1536	xynD		Arabinoxylan arabinofuranohydrolase	ATGAAAAAGTGCAGCGTATGTTTATTGATTCTTGCTTTATTATTGAGCTGTTTACCTGGGGAATATGCGAATGCGGTAAGCACTCCAATTGCAAAACATGCCGGGAATTCAAATCCGCTTATCGACCATCATCTGGGCGCAGATCCGTTTGCGCTGACCTATAACGGAAGAGTCTATATCTATATGTCAAGCGATGACTATGAATATAATAGCGACGGCACGATTAAGGATAATTCATTTGCCAATTTGAATAAAATATCCGTCATATCTTCAGCGGATATGGTGAACTGGACAGATCACGGAGCGATTCCCGCAGCGGGTGCCAATGGGGCGAATGGCGGCCGGGGGATTGCCAAATGGGCAGGAGCATCATGGGCCCCGTCAGCCGCGGTGAAAAAGATCAATGGTAAGGATAAATTTTTCCTTTATTTCGCAAACGGCGGCGGAGGTATCGGGGTTCTCACCGCAGACAGCCCGACCGGCCCATGGACAGATCCGATCGGAAAAGCGCTGGTAACGCCAAATACGCCAGGAATGTCCGGTGTTGTATGGCTTTTTGATCCGGCAGTATTCGTAGATGATGACGGTACCGGTTACCTATATGCCGGCGGAGGCGTTCCGGGCGGTTCAAATCCCGCACAGGGGCAATGGGCCAATCCTAAAACAGCAAGAGTCATGAAATTAGGGCCTGATATGACGAGTGTTGCCGGAAGTGCATCGACCATTGATGCGCCTTTTATGTTTGAAGATTCGGGAATGCATAAGTATAACGGAAAATATTACTATTCCTATTGTATCAATTTCGGGGGCGCTCACCCGGCCGATAAACCTCCAGGTGAGATTGGCTATATGACCAGCTCAAGTCCTATGGATTCTTTTTCGTATAGAGGGCACTTTCTGAAAAATCCGAGAGCATTTTTCGGAGGCGGCGGGAACAATCACCATGCTGTTTTCAATTTTAAAAACGAGTGGTATGTGGTGTATCATACTCAAACTGTCAGCTCCGCTCTTTACGGGGCCGGCAAAGGATACCGTTCTCCCCATATTAATAAGCTTGTGCATAATCCAGATGGCTCCCTGCAAGAGGTAGCGGCAAATTTTGCAGGTGTCAAACAGCTATCCAACTTGAATCCGTATCACCGGGTAGAAGCGGAAACGTTTGCCTGGAACGGACGGATTTTGACAGAGGCATCCTCAGCACCCGGCGGGCCGGTCAATAATCAACATGTCACAAACATTCATAACGGAGACTGGATTGCTGTTGGAAATGCAGACTTCGGGTCAGGCGGTGCCAGGACGTTTAAAGCAAATGTAGCGTCCGCTCTTGGCGGAAGAATAGAAGTGCGACTAGACAGTGCAAACGGTAAGCTTGTCGGAACCTTGAATGTCCCTTCCACAGGCGGAACGCAATCCTGGAGAGAAATAGAAACTGCGGTAAGCGGCGCATCCGGTGTTCACAACGTATTCTTTGTATTTACCGGAACTGGTACAGGAAACTTGTTTAATGTTGATTACTGGCAGTTTACACAAAGATAA	MKKCSVCLLILALLLSCLPGEYANAVSTPIAKHAGNSNPLIDHHLGADPFALTYNGRVYIYMSSDDYEYNSDGTIKDNSFANLNKISVISSADMVNWTDHGAIPAAGANGANGGRGIAKWAGASWAPSAAVKKINGKDKFFLYFANGGGGIGVLTADSPTGPWTDPIGKALVTPNTPGMSGVVWLFDPAVFVDDDGTGYLYAGGGVPGGSNPAQGQWANPKTARVMKLGPDMTSVAGSASTIDAPFMFEDSGMHKYNGKYYYSYCINFGGAHPADKPPGEIGYMTSSSPMDSFSYRGHFLKNPRAFFGGGGNNHHAVFNFKNEWYVVYHTQTVSSALYGAGKGYRSPHINKLVHNPDGSLQEVAANFAGVKQLSNLNPYHRVEAETFAWNGRILTEASSAPGGPVNNQHVTNIHNGDWIAVGNADFGSGGARTFKANVASALGGRIEVRLDSANGKLVGTLNVPSTGGTQSWREIETAVSGASGVHNVFFVFTGTGTGNLFNVDYWQFTQR	PGPT0019095_200	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0019095-xynD-K15921	NA	NA
D1-12_01027	7860	lgrD		Linear gramicidin synthase subunit D	ATGTCAGAATTTAAGCAACAGGAGTTGTTCTGGAGCAGCATGTTCGATGCGGAAGATCGTCCCAGTGCAATCCCTTCGTTTCAAATGTCGGACTCAACAATAGAGCACGATGCGTCGAGTGCACCCAACCGTATTCACAGTTCATTGAGCTCCGATGTATCCCTGCGCATCATGAAGATGACGAATAAATCGCCAATGGCCGTTTATATGGTTCTCCTGGTCGGAATCGAGTGTCTTTTATACAAATATACGGGGGAAGAGGGCGTTATTGTAGGTGTTCCGACCTTTGAAGACGAAACCGATGAAGACCTTCGTTTAGATCAAGTCATGTTAATCAAACAAAACATAAATGCGGACGGCACATTTAAATCCATATTTAATGAATTCAAGCATACGCTGAACGGAGCCATCTTACATCAGCACGTTCCTTTCGATAAAATGGCCGGTCCATTAAATCTGAACTACGATTCAAATCATTTGCCAATGATCCACACGATCGTATCACTAGATCAGCTTCACCCCATTCGTTTTATAGAAACGGCCGCTGCTGATACGTTATTTCAGTTTTCCATAGAAAATGATTCGATTCATTTAAAGTTAACTTATAATGAACAAGCTTATGATCGCCAGTATATGATGCAAGTGATCGAACATGTAAACCGGATTTTTTCGATTTTGTTATTCCAACCCGACCTTATGATCCGCCAGCTTAATATTCTGTCAGACTCAGAGACAAATCAACTCATCGCCTATAATCAAACGGCTGCAGAGTATCCAAGAGAAAAAACGATTCATCAATTTTTGGAGGAACAAGCGGGACGTACCCCTGATCAAACGGCTGTTGTCTACGAGGATAGCCGTCTGACGTACCGTGAATTGAATGAAAGGGCGAATCAACTCGCTCGGACACTGCAATCTGAAGGCGTGCAGCCGGATCAGCCGGTCGGGATTATGGCCGAACGCTCCCTGGATATGATTGTAGGGATCTTCGGGATCTTGAAAGCCGGCGGGGCGTATGTACCGATTGACCCGGGCTATCCCGAGGAACGGGTTCGATACATATTGGAGGATTCGGATACGAAGTTGTTACTCGTGCAGAATCAATCGCAAGAGAGAGTACCTTTTACGGGAAAAGTGCTGGATATGAAAGATCCGCAAAACTTTTGTGAAGACGGGTCGAATGTAGAGCCGGCTGCTGGTCCGGATCATCTGGCCTATGTTATTTATACATCGGGTTCAACGGGCAAGCCGAAAGGGGTTATGGTTGAGCACCGGTCGGTCATCAATCGGCTGGTGTGGATGCAGGAAAAATACCCTCTCGATGAGCGGGATGCGATTCTGCAAAAAACTGCGATCACCTTTGATGTATCAGTGTGGGAACTGTTCTGGTGGACGATGGCAGGTTCTAAACTGGTGCTGCTGCCAAGCGGAGGAGAAAAGAATCCCGAGCTGATTTTAGATACAATTGCACAAAAAGGTGTCAGCACAATGCATTTTGTACCGGCGATGCTGCATGCCTTCCTGGAATCCATGGATCAGAAGCCAAGCGGGATGTTGAAACAAAAATTAGCGTCATTAAGACATGTGTTTGCAAGCGGGGAGGCTTTGAAGCCTGTACATGTCGCAGGCTTCAAACGCATCATCACGTCGGTGAGCCAGGCTCAAATCATCAACTTGTACGGACCGACTGAGGCAACAATTGATGTATCATACTTTGATTGCCAGACGGAAGAAACGTATGCATCGATTCCGATAGGCAAACCGATTTCCAACATTCAATTGTATATATTACATGCTGATTTGGAACATATGCAGCCGACCGGTGTAGCGGGAGAACTGTGCATAGCGGGCGATGGGCTTGCAAGGGGCTACTTGAATCGTCCCGAACTGACGGCCGAGAAGTTTGTAAACCATCCGATTGCAGCAGGAGAACGGATATACCGGACGGGAGACTTGGCAAGATGGCTGCCGGACGGCAATATCGAGTATTTGGGCCGGATTGATCACCAGGTGAAAATCCGCGGTTACCGCATTGAAATCGGCGAAGTCGAAGGCGCTTTTTTTCAGCTGCCGGCGATCAAAGAAGCCATCGTTATCGCCCGGGAAATCGATGGGGAAACATCCTTGTGCGCCTATTATACCGCACAACATGCTTTAACTGCAGGCGAGCTCCGTGAAGAGCTGTCCCGGCAGCTTCCATCCTATATGATACCTGCTTATTTCGTTCAGCTGGAAGAGATGCCGCTTACTTTCAACGGAAAAATAGACCGTAAATCCCTTCCTTCTCCAAGAGAGAATCTTACAGGCATGAACTATGAAGCTCCTCGAACAGAACTGGAAAACATACTGGCCGCGGTGTGGGAGTCGGTCTTAGGCTTAGAACGGGTCGGAATCTCAGATCATTTCTTCGAATTGGGGGGCGATTCCATTAAGTCGATTCAAGTGTCCTCAAGATTATACCAAGCCGGGTATAAGTTTGAAATCAAACACTTGTTTAAATACCCAACGATCTCCGAGCTTGTTCCATACGTAGAGCCGGTAACCCGAATCGCAGAACAAGGAGAAATTAAAGGCCGGGCGCTGCTGACACCGATTCAGCATTGGTTTTTTGACCAGAAATACCCGGAATTACACCATTATAATCAAGCGGTTATGCTTTATTGGAAAGAGGGACTGAATGAATCAAAGCTTCGGGACGTCATGAAGAAGATCACAGAGCATCACGATGCTTTGCGCATGGTCTATGTTCCGACAGAAGATGGATATGAAGCCCGAAATCGGGGGATCGAAGAAGGTGATCTGTTCAGCCTTGAAGTGATCTCATTACGCGAAGAAAAAAATGTGTCCCAGACGATAGAAACCATTTCCAATGAGATTCAGCAATCCATTCAATTAGCCGAAGGACCGCTCATGAAACTAGGATTGTTCCGGTGTCAAGAGGGAGATCATTTGCTGATTGCGGTTCATCATCTGGTCATCGACGGCGTATCGTGGAGGATTTTACTTGAGGATATAGCGGCAGCTTATGAGCAGCTCCAAAACGGCGAAGCGATCCGGCTTCCGAAGAAAACGGACTCTTACCTGTTATGGGCTGAACAGTTGAATCGTTATGCAGAAAGTCAGGAATTCGAAGCGGAAAATCAATACTGGTTCAGACAGAAACATAATCCGCAGCATACATTGCCAAAGGACAATGAACAGGAGATCGGTCTGGCCAAAGACCGGGAAACGGTCATCGTTCAATGGACCGTTGAGGAAACCGAACGTTTATTAAAAAACGCTCACCGGGCTTATTCGACCGATATGAACGATTTATTACTGACCGGTCTGGGAATTGCTATTCATCGTTGGACCGGATATGAAGACATTCTCATTGATCTTGAAGGACACGGCAGAGAGTCTATCATTCCGGATCTCGATATTTCGCGTACGGTGGGATGGTTCACAAGCCTATATCCGGTTTCGCTTCAAATCAAAGCTGATCAGGATATCCCGCAGCGGATTAAAACAGTGAAAGAAAATTTGCGTCAGATCCCCCAAAAAGGAATAGGTTACGGCCTGATCAAATATTTGTCCGATCACCCGAAGGCACATGAATGGACCAGACATCCGGAAATACGTTTCAATTATTTGGGTCAATTTGATCAAGATGTCCGGAACGGCAAGATGGAAGTATCCCCTTACTCAAGCGGGAAAACAGCCAGTGACAATCGTCCCTTGACCTATACACTTGATATCAACGGCATGATTTCAGACGGCCGATTGTCGCTGGCCATCAGCTATTGCGGCAAACAATATCAGAGAGAAACAATGGAAGCCTGTGCCGATCTCTTAAAAAACAGCCTGCAGCAAGTCATCGCACATTGTGATGCTCAAGATCAAATTCACCTGACGCCAAGCGACATTTCGTTAAAAGGTATAACGATCGGTGAATTGGATCAATTTGTGCAGCAGACGAGTCATCTCGGTGACATTGAAAATATATACCCATTAACCCCGATGCAGAAAGGAATGTTGTTCCACAGCTTGATCGATTCGGCTTCCGAAGCTTACTTTGAACAAGCCGCTTTTGATCTGAAAGGATTCTTGGATATCGATGCATTCAGGATGAGTTTGGCACATCTGGCCGAAAAATATGACATTCTTCGGACTCTTTTTTATACAGAATGGAAAGATCAGCCTTTGCAGATTGTATTCCGGCAAAAGCCGATTGAAACGGACGTTGAAGATATTCGCAGCATGAACAGTCACCAGCGCAGCGAGTTTATTGCCGATTTTGCTAGAAGAGATAAGGCGCGGGGATTCAATCTCACCCAGGATGCTTTAATGCGCGTATCGATCCTGCGGACAGAGGAAGACCAAGCGCGATTGATATGGAGCTTTCATCATATTTTAATGGACGGCTGGTGTTTGCCTCTTGTTACGAAAGAAGTGTTTGAAACCTATTATGCGATACTCGAGCAAAGGCAGCCGAAGCGGGGAGCCGTCACTCCATACAGCCGATATATCGAATGGCTGGATCAACAAGACCACAAGCAGGCGTCAGCCTATTGGCGTAACTATTTAGAAGGTTATGAAGGGCAAACTGTTTTGTTACAAGAACAATCTTCCGGCCGGGCGAAAGGATACGAAAAAGGTGAGCATGAGTTTCGTTTAGGAAAGCGGCTCACAGACGAAATAAAACGGGCCGCAAGCCGCCAGCAAGTCACCGTCAATACATGGATACAAACCGCATGGGGCTTATTGCTGCAAAGATACAACGGGAGTCAGGATGTCGTCTTCGGCACGGTCGTATCCGGCAGACCGGCAGAAATTCCGGGAATTGAAACCATGGTCGGTTTATTTATCAATACCATTCCCGTACGTATTCATACGCAGCCTGAAATGACAGCTGCACAAGTATTGAAAATGAATCAGGAGCGGGCACTGGCTTCTCAAAAATATGATACATTTCCGCTGTATGACATTCAGGCTCAAACTGAGCAAAAGCAGCAGTTGATCAATCATATTATGGTATTTGAGAATTACCCGGTTGAGAAACAAATAGAACATATGAAGCAGGATGACAACGCATTAGACATTCTCGATTTTCATATGGAAGAACATACTCATTACGATTTTACTTTTATAGTGATGCCAGATGGAGAAATTGACATTCGTTTTGTATACAATCGCGATGTTTTTGATCAAGCAAGTGTCGAACGGATGCAGACGCATTTCATGCAAATCATGAAGCAAATGGCGGACGATCAGGACATTCGCGTTCAAGACCTTGATATCGTAACAGCGGATGAGCGATCGCTCCTGATAGATAAGTTCAACGATACGGCGGCCGAGTATCCAAAGGAAAAGACGATTCATCAATTGTTTGAAGAACAAGCGGAGCGAACGCCGGAGCACGTGGCGATTGTTTTTGAAGATAAGAAGCTGACGTATCGGGTAGTAAATGAACGCGCCAATCAGCTGGCCCGAACCTTGGTTGCCAAAGGACTTCAGGCCGAGGAGCTTGTCGGCATTATGGCGGAACGTTCACCGGAGATGGTGATAGGCATCCTTGCTATTTTGAAAGCCGGGGGCGTTTATGTACCGATCGATCCGGATTATCCGAAAGAACGCATCCATTATATGCTTGAGGATTCTAACGTCTCTATCTTATTATTGCAGCATCATCTTCTGGAAGATACCGATTATCAAAGTCATACTGTCTTCCTTGACGATCCGTCATCATACGGCGCCGAATCATCTAATCTCAATCTGAACGTGATGCCAAATCAATTAGCCTACGTTATTTATACATCAGGAACAACAGGGAATCCGAAAGGCACGCTCATTGAACATAAAAACGTGGTTCGTCTGTTATTTAACAACAAAAATGTTTTTGATTTTAACGCATCGGACACTTGGACTTTGTTTCATTCCTTCTGCTTTGATTTTTCAGTATGGGAAATGTACGGAGCGCTGCTGTATGGGGGCAAATTAGTGATTGTTCCGAAACAAATAGCAAAAAACCCGGAAAGGTATTTGCAATTGTTAAAATCGGAAGCTGTGACCATTTTAAATCAAACGCCGAGTTATTTCTATCAACTGATGCAGGAGGAGAGAGAAGATCCCGAATCCAATTTAAACATCCGAAAAATCATATTTGGCGGAGAGGCGTTAAATCCATCCTTCTTGAAAGACTGGAAGCTTAAATATCCTTTAACCCAATTAATCAATATGTACGGCATCACCGAAACCACCGTTCATGTCACATATAAAGAAATCACGGAACGGGAAATCGACGAGGGCAGAAGCAACATCGGACAACCTATTCCTACTCTGCAAGCGTATATTTTGGACGAATATCAGCGCATTCAGGTAATGGGCATACCGGGCGAGCTCTATGTGGCAGGAGAGGGACTGGCCAGAGGATATTTGAACCGCCCGGAATTAACGGCTGAGAAATTTGTTGAACACCCGTTTGCCGCAGGCGAAAAAATGTACAAAACGGGAGATGTCGCCCGGTGGCTGCCTGACGGCAATATCGAGTATTTGGGAAGAATTGATCATCAGGTGAAAATCCGGGGCTACCGGATTGAAATTGGCGAGGTCGAAGCGGCTTTATTGCAACTGGAATCTGTCAAAGAATCGGTCGTCATCGCGATTGAAGAAGAGGGCTCAAAGCAGCTGTGCGCCTACTTGTCAGGAGACGATTCATTAAATACGGCGCAGCTGAAGCGTCATTTACTGAACAAACTGCCCGCTTATATGATACCGGCTTACTTTGTACAAATGGAGAAGATGCCGATAACCGCAAATGGAAAAATCGATCGAAAAGCTTTGCCGGCTCCTGAGGGAAATAGGCTCACCGGAACCGAATACGAAGCGCCCGGAACGTTAATTGAAAAGCAGCTGGCCGAGATATGGAAGAACATTTTAGCACTCAGCGACCCGGGAATTAAAGATAACTTCTTTGACGTTGGCGGCCATTCGCTCAAAGTATTGCAAGTTATTCATCAAATCAACGACCGTATGGGAATCAAAATGCATTATCAAGCCGTATACGATTTTCCTACCATCGAAACAATGGCACGCGCCATTCAAGCGGCAGTTTTCGAGTCCAAGACGGATAACGTATTCGTCAAGATGAATCAGAACGGTTCAATCCCTGTGTTCTGTTTCCCGCCTTTAATCGGGTACGGGCTGGTCTATAATGAAATGGCGAAAAGACTTGACGGCCGCTGCACCGTCTATGCCGCTGATTTCCTAGAAGAGCCGTCTTACGAGCAAGAGATCGTTGACCGGTATGCAGAAAGCATGATAGGCATTCAGGAACAAGGGCCCTTTGTTTTACTCGGTTACTCCTCGGGATCGAATTTGGCTTTTGAGGTTGCCAAAGCCTTGGAGAAGCGCGGACGCATCGTATCGGACATTATGATGCTTGATTCTAAAAGAGCCGTTTCGGTGAATTATTTTTCGGAAGAGGAAACCGAAGAGATCATTCATCGGAATCTGGATATCATTCCGGATTATTATAGAGAATTATTAACCATTCCTTCCATTAAGGATAAAATCAGAAGCTATCTCACATATCACAATAAACTGATCAATTCCGGCGCGGTGAACGCCAACATTCATCATTTTCAATGCGGCGAGTTGACCGATAGAGAATGGACGCAATCAACCGCACAGCATTACCTTGAGTACAAATTAAAAGGAGACCATGTGACGATCTTTGACCCTCACAATATCGAAGAAAATACCGATGCAATTCGATCTATTATCAAAAGAATTGAAGAACGGCATCATCACGGACTTGTTCTTGAAGAACAACTGTCAATAGGATCGTTTGCCGGCGACACGAAGTTTGACAAAATGTAA	MSEFKQQELFWSSMFDAEDRPSAIPSFQMSDSTIEHDASSAPNRIHSSLSSDVSLRIMKMTNKSPMAVYMVLLVGIECLLYKYTGEEGVIVGVPTFEDETDEDLRLDQVMLIKQNINADGTFKSIFNEFKHTLNGAILHQHVPFDKMAGPLNLNYDSNHLPMIHTIVSLDQLHPIRFIETAAADTLFQFSIENDSIHLKLTYNEQAYDRQYMMQVIEHVNRIFSILLFQPDLMIRQLNILSDSETNQLIAYNQTAAEYPREKTIHQFLEEQAGRTPDQTAVVYEDSRLTYRELNERANQLARTLQSEGVQPDQPVGIMAERSLDMIVGIFGILKAGGAYVPIDPGYPEERVRYILEDSDTKLLLVQNQSQERVPFTGKVLDMKDPQNFCEDGSNVEPAAGPDHLAYVIYTSGSTGKPKGVMVEHRSVINRLVWMQEKYPLDERDAILQKTAITFDVSVWELFWWTMAGSKLVLLPSGGEKNPELILDTIAQKGVSTMHFVPAMLHAFLESMDQKPSGMLKQKLASLRHVFASGEALKPVHVAGFKRIITSVSQAQIINLYGPTEATIDVSYFDCQTEETYASIPIGKPISNIQLYILHADLEHMQPTGVAGELCIAGDGLARGYLNRPELTAEKFVNHPIAAGERIYRTGDLARWLPDGNIEYLGRIDHQVKIRGYRIEIGEVEGAFFQLPAIKEAIVIAREIDGETSLCAYYTAQHALTAGELREELSRQLPSYMIPAYFVQLEEMPLTFNGKIDRKSLPSPRENLTGMNYEAPRTELENILAAVWESVLGLERVGISDHFFELGGDSIKSIQVSSRLYQAGYKFEIKHLFKYPTISELVPYVEPVTRIAEQGEIKGRALLTPIQHWFFDQKYPELHHYNQAVMLYWKEGLNESKLRDVMKKITEHHDALRMVYVPTEDGYEARNRGIEEGDLFSLEVISLREEKNVSQTIETISNEIQQSIQLAEGPLMKLGLFRCQEGDHLLIAVHHLVIDGVSWRILLEDIAAAYEQLQNGEAIRLPKKTDSYLLWAEQLNRYAESQEFEAENQYWFRQKHNPQHTLPKDNEQEIGLAKDRETVIVQWTVEETERLLKNAHRAYSTDMNDLLLTGLGIAIHRWTGYEDILIDLEGHGRESIIPDLDISRTVGWFTSLYPVSLQIKADQDIPQRIKTVKENLRQIPQKGIGYGLIKYLSDHPKAHEWTRHPEIRFNYLGQFDQDVRNGKMEVSPYSSGKTASDNRPLTYTLDINGMISDGRLSLAISYCGKQYQRETMEACADLLKNSLQQVIAHCDAQDQIHLTPSDISLKGITIGELDQFVQQTSHLGDIENIYPLTPMQKGMLFHSLIDSASEAYFEQAAFDLKGFLDIDAFRMSLAHLAEKYDILRTLFYTEWKDQPLQIVFRQKPIETDVEDIRSMNSHQRSEFIADFARRDKARGFNLTQDALMRVSILRTEEDQARLIWSFHHILMDGWCLPLVTKEVFETYYAILEQRQPKRGAVTPYSRYIEWLDQQDHKQASAYWRNYLEGYEGQTVLLQEQSSGRAKGYEKGEHEFRLGKRLTDEIKRAASRQQVTVNTWIQTAWGLLLQRYNGSQDVVFGTVVSGRPAEIPGIETMVGLFINTIPVRIHTQPEMTAAQVLKMNQERALASQKYDTFPLYDIQAQTEQKQQLINHIMVFENYPVEKQIEHMKQDDNALDILDFHMEEHTHYDFTFIVMPDGEIDIRFVYNRDVFDQASVERMQTHFMQIMKQMADDQDIRVQDLDIVTADERSLLIDKFNDTAAEYPKEKTIHQLFEEQAERTPEHVAIVFEDKKLTYRVVNERANQLARTLVAKGLQAEELVGIMAERSPEMVIGILAILKAGGVYVPIDPDYPKERIHYMLEDSNVSILLLQHHLLEDTDYQSHTVFLDDPSSYGAESSNLNLNVMPNQLAYVIYTSGTTGNPKGTLIEHKNVVRLLFNNKNVFDFNASDTWTLFHSFCFDFSVWEMYGALLYGGKLVIVPKQIAKNPERYLQLLKSEAVTILNQTPSYFYQLMQEEREDPESNLNIRKIIFGGEALNPSFLKDWKLKYPLTQLINMYGITETTVHVTYKEITEREIDEGRSNIGQPIPTLQAYILDEYQRIQVMGIPGELYVAGEGLARGYLNRPELTAEKFVEHPFAAGEKMYKTGDVARWLPDGNIEYLGRIDHQVKIRGYRIEIGEVEAALLQLESVKESVVIAIEEEGSKQLCAYLSGDDSLNTAQLKRHLLNKLPAYMIPAYFVQMEKMPITANGKIDRKALPAPEGNRLTGTEYEAPGTLIEKQLAEIWKNILALSDPGIKDNFFDVGGHSLKVLQVIHQINDRMGIKMHYQAVYDFPTIETMARAIQAAVFESKTDNVFVKMNQNGSIPVFCFPPLIGYGLVYNEMAKRLDGRCTVYAADFLEEPSYEQEIVDRYAESMIGIQEQGPFVLLGYSSGSNLAFEVAKALEKRGRIVSDIMMLDSKRAVSVNYFSEEETEEIIHRNLDIIPDYYRELLTIPSIKDKIRSYLTYHNKLINSGAVNANIHHFQCGELTDREWTQSTAQHYLEYKLKGDHVTIFDPHNIEENTDAIRSIIKRIEERHHHGLVLEEQLSIGSFAGDTKFDKM	PGPT0012295_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012295-ituC|mycC|bmyC-K15663	NA	NA
D1-12_01028	16119	dltA_1		D-alanine--D-alanyl carrier protein ligase	ATGTCGGTATTTAAAAACCAAGAAACGTACTGGGAAAACCTGTTTGATGAAGAAGACGGCCTAAGCGCATTCCCTTACTTTAAAGCAGCGGATAAAGCATCGTTGGCCCGTACCGGCTACCAGGAAAAATGCATCTGCCGTTCCTTATCTCCGGAAGTATCTCAAAGAATCATGACAATGGCGAATCATTCCGATATGGCCGCCTATCTGATTTTATTGGCGGGTATTGAATGCTTGTTGTATAAATATACGGATCAAACGAGCCTGATTCTTGGCATTCCGACGGTATCGAAGCAAAAAGCCGACCAGTCAGCCGTTAACAACATTGTCCTCTTAAAAAATACGCTTTCAAACGAGAGCACATTTAAAACCGTATTCGGGCAGCTGAAAGAAGCCGTTAATGATTCTCTGAAAAATCAAAACCTGCCGTTTAGAAAAATGGTCCGGCATCTGAGCGTGCAATACAATGACGAGCATATGCCTTTGATTCATACCGTCGTTTCGCTTAACGAAATTCATTCCTTGCAATTTAAAGAAGATACTGCAGCCGATACGCTGTTTCACTTTGATTTGGAGAACAACGGGATTCATTTGAAGCTTTTTTATAACGGCAATCTGTACGATGAGCACTATATCAATCAAATTGTATCCCATTTGGATCAGCTGCTGTCTGTGATCCTGTTTCAGCCTCAAGCCGCGATCCATACGGCAGAGATCTTACCGGAAGCGGAAAAACAGAAGCTATTGTTTGATTTTAACGACACCGTCAGAGATTTCTCCGGGAGCAGAACAGTCTATCAATTATTTGAAGAGCAGGCAGAAAGAACGCCTGAGCATACGGCCGTCAAGTTTAAAAACGACCATTTGACGTACAGGGAACTGAATGAGAAGGCGAACCGTTTGGCAAGAACATTGCGTAATTGCGGGGTTCAACCCGATACGTTAGTCGCCATTCTCGCTGATCGTTCATTAGAGATGATCGTATCCATTATAGCCGTTTGGAAGGCAGGGGGCGCTTATGTGCCCCTGGATCCTGACTATCCAAAAGAGCGGCTTCAATATTTGCTTCATGATGCGGATGCAGACGTTCTCCTTGTTCAGCATCATTTAAAAAACAGTCTCGCCTTTGACGGACCGGTGATCGATTTGAATGATGAAACATCATACCATGCCGATTGCTCATTGTTATCACCAGTAGCGGAACACAGCCATTTAGCCTATGTCATTTATACGTCGGGTACTACAGGAAAGCCGAAAGGGGTCATGGTTGAACACGGCGGCATTGTAAACTCGCTCCAATGGAAGAAGGCGTTTTTTAAGCATTCTCCGGCGGATCGCGTGCTTGTCTTGTACCCGTATGTTTTTGATGCGTTCATTTTAAATTTCTTCGGCCCGCTCATCTCGGGAGCAACTTTGCACCTTTTGCCTAATGAAGAGAATAAAGAAACTTTCGCCATTCAAAATGCCATAAAACAAGAGAGAATTACTCATTTCTCAACTTCTCCCCGTCTTCTGAAAACGATGATCGAACAGATGAACAGAGAGGATTTCATCCATGTTCAGCATGTTGTTGTAGGCGGTGAGCAGCTGGAAACAGATACAGTTGAGAAGCTGCATTCTCTGCAGCCTCGCATTCGGATCAATAATGAATACGGACCGACAGAAAACAGCGTGGTATCTACATTTCACCCTGTTCAGTCCGCTGATGAACAGATCACAATCGGCAGCCCGGTGGCCAACCATCAAGCTTATATTTTAGGAGCGCACCATCAAATCCAGCCGATCGGCGTACCGGGAGAGCTGTATGTCGGAGGAGCGGGAGTGGCCCGCGGCTACCTCAATCGGCCTGAATTGACGGAGGAAAAATTTGTGGAGCATCTGCATGTCCCTGGTCAAAAGATGTATAAAACGGGGGATCTCGCCAGATGGATGCCAGATGGACGGATTGAATATTTAGGGCGGATTGATCATCAAGTGAAAATTCGCGGCTACCGGATTGAGATCGGCGAGGTAGAGGCAGCCATGTTCAATCTGGAAAACGTTCGTGAAGCCGCAGTCGTCGCGCGGGAAGACGCAGACGGGGCCAAACAATTGTATGCCTATTATGTCGGCGAGCCTTCTCTGACCGCTGCGCAGTTCAGAGAAGACTTATCCCGGGAACTGCCGAATTATATGATTCCCTCCCGTTTTATCCCTTTGGAACGCATTCCGCTCACTTCCAATGGAAAGATTGATCTGAAAGCTTTGCCTGCTGCTGACGAAAATACGCGGACGGAAAACGAATACATACCCCCGCGGAACACAATAGAAGAACTGCTGGCGTCCATCTGGCAAGAAGTATTAGGGGCAGAACGTATAGGAATTCTGGATAATTTCTTTGATTTTGGCGGAGATTCGATTAAATCAATTCAGGTGTCATCCAGATTGTATCAAGCCGGATACAAGGTTGATATGAAGCATTTGTTTAAACACCCCTCGATTGCTGAACTTAGTCAGTTTGTAGCGCCGGTCAGCAGGGTGGCTGATCAAGGAGAAGTGAATGGCGGAACCAAGCTGACCCCGATACAGCATTGGTTTTTTGAGCAAAAAATGCCGCATGCACACCATTACAATCAGGCCGTCATGTTATATTCGGCGGAAGGCTTTCAAGAGGCTCCGCTTCGCCGGACGATGGAACGGATCGCGTCGCATCACGATGCCTTGAGGATGATTTTTGAAAAAACGCCGGATGGATACGCTCCGCGAATTACAGGAACAGATGAAAGTGAACTATACCATCTGGAAGTGATGAATTATAAAGGGGAAACCGAACCGGCTCAAGCGATTGCCGATAAAGCGAATGAGATTCAAAGCAGCATGGTATTAGACAAAGGGCCATTGATGAAGCTCGGTTTGTTCCAATGTCCGGACGGAGATCATTTGCTGATTGCAATTCATCATTTGCTGATTGACGGAGTATCCTGGCGTATTTTACTCGAAGATTTTGCAAGCGGTTATGAACAGGCAGAACGCGGACAAACGATCCAGCTCCCGCAAAAAACAGATTCGTTTCCATTCTGGGCCGATCAATTGTCCAAATATGCGGCGGAAACCGATATGGAAGAGGAGATTGCGTATTGGACTGAGCTTTCAAGTATAAAGCCTCAGCCATTGCCTAAGGACACTATCAGCGAAAGATCGTTATTAAGAGACAGCGAAGAAGTGACGATTCAATGGACAAAAGAGGAAACGGAGCAATTATTAAAACATGCGAACCGCGCCTACAACACGGATATCAACGATCTGCTGCTGACTTCGTTAGGGCTGGCTGTTCACAAGTGGACAGGCACGGAAGACATTGTCGTGAATTTGGAAGGCCACGGGAGAGAACCGATTATTCCGGATGCTGACATTTCCCGCACGATAGGATGGTTCACAAGCCAGTACCCTGTCGTCCTGAGGATGGAAGCCGGAAAAAACCTGTCGCAGCGGATCAAGATCGTAAAAGAAGGGCTGCGCCGTATCCCTGACAAAGGAATGAATTACAGCATCATCAAATATATATCCGGGCATCCGGAAGCCGACAGCCTGCGGCTGAATCCGGAGATATCGTTTAACTATTTGGGACAATTTGACCAAGACCTGAAGCATCAGGCTTTGCGCATCTCGCCTTTTTCCACAGGGTTATCAATGAACGAAAACCAAGAGAGAACGGCCGTGCTTGATTTGAACGGCATGATTGCCGAAGGGACATTATCACTGACACTGAGCTACAGCAGCAAACAATACGAAAGATCTACTATGGCGCAATTTGCCCGGGGGTTGAAAGAAAGTCTGCAAGAAGTCATTGCACATTGCGTAAGCCGGAAGCAGACTTCTCTCACACCAAGTGACATCCTGTTAAAAGACATCTCAATCGACGAACTGGAACAGCTTTTGGAGCAGACGCGTGAATTAGGCGAAGCGGAAAATATTTATCCATTAACGCCGATGCAGAAGGGCATGCTGTTTCACAGCTTATTTGATCCGAATTCAGGTGCTTATTTTCAGCAAACGATGTTTGATCTGCATGGAGATCTGGAGATTGATTCATTTTCAAAAAGCTTGGACGGCTTATCGCAAAAATATGACATTTTCCGCACGAATTTTTACAGAGGCTGGAAGGATCAGCCGCTCCAAATCATATTCAAAACGAAAAAAATCGGTTTTCAATTCAATGACTTACGAGAGATGAAGGAATCACAAAAAGAAGCGATGATTCAGCAGTATGCCAGAGAAGATAAGATGCGGGGGTTCGACTTAGAAAAAGGCGCGTTAATGCGGTTATTCATCCTTCGTACGGATGAAAAAACATACCGTTTTATCTGGAGTTTCCACCATATTTTGATGGACGGCTGGTGCCTGCCGCTGATTACAAAAGAAATATTCGAGAATTACTTTGCCTTGCTTCAGCAAAAGCAGCCTGAACAATCATCAATTACTCCGTACAGTCAATATATTGAATGGCTTGGCCGGCAAGATGCGAAAGAGGCCACGGCTTATTGGGATCAGTACTTGGAGGGATATGAGGAGCAAACCGGCCTTCCTAAGGATCACCATGCAGCGGAAGACGGACGATACGTTCCTGAAAAAGTGACGTGTGACATAAGCTCCGATCTCACTTCGAAAATGAAGCGGACGGCAGGCAAGCATCATGTCACGCTGAACACGCTGCTGCAGACGGCATGGGCGGTTTTGCTGCAGAAATATAACCGAAGCCGGGACGTTGTGTTTGGAAGTGTTGTATCCGGAAGACCTGCTGGAATTCCAAACGTGGAAACCATGATCGGCTTATTCATTAACACCATTCCCGTCCGGTTCCGATGTGAAGCCGGGACAACGTTTGCCGGGCTTATGAAAGAGGCGCAGGAAAGGGCAGTAGCGTCTCAACAATTTGAGACGCACCCGCTGTACGATATTCAAGCGCGTACAACGCAAAAGCAAGATTTAATTACACATTTAATGATATTCGAAAATTATCCGGTTGATCAGTATATGGAAAGTATAGGCCGCCAGAACGGAACATCCATCAAAATTTCCAACGTACAAATGGAAGAACAGACCAACTACGATTTTAATTTGACCGTTATACCGGGCGACGAGATGAACATCTCTTTTGAATACAATGCAAATGTGTATGATCGGGCAAGCATAGAGCGGGTTCGGGAACATTTCATGCAAATCCTGCATCAAGTCGTGACAGATGCGGATATCCGGGTGGATCAAGCGGAATTGTTAACGGAAGGCGAAAGAAAAACCCTTCTGCAGACGCTTAACGACACGGCCGCGCCGTTTCCGCAGACGCCGGTTCATCAATTATTTGAAGAGCAGTCGCAGCGTACGCCCGATCAAGCAGCCGTCATTGATAAGGATAGGCAGCTCACGTACGGAGAGCTCAATAAGCGGGCCAACCGCCTGGCGCGAACGTTAAGAGCGAAAGGAGTGCAGACGGATCAGCCTGTAGCCATCATCACAAGAAACAGCATCGAATCGGTGGTCGGAATCCTTGCCGTTTTAAAATCAGGCGGAGCCTATGTCCCTATAGATCCGGAATATCCGCAAGACCGCATCCGGTATATGCTGGATGACTCCCAAGCCGGAATCGTTTTAATGCAGCGGGACGTCAGGAAACAGCTTGCCTATGAAGGCGTCACGGTTTTACTTGATGATGAAAGTTCTTATCACCAAGATGGCTCTGACCTTGCTCCGATAAATGATGCGAGCCATTTGGCATATGTCATTTATACGTCAGGTTCCACAGGCCGGCCCAAAGGCGTACTAATCGAGCACCGAGGCTTGTCCAATTATATTTGGTGGGCGAAAGAGGTTTATGTAAAAGGCGAGAAAGCCAACTTCCCATTGTATTCGTCAATTTCTTTTGATCTGACGGTGACTTCTATTTTCATGCCGCTTGTCACAGGCAATGCAATCATCGTCTATGACGGAGAGGATAAAACAGCTCTGCTTGAATCGATTGTGCGGGACCCGAGGGTGGATATCATTAAATTGACCCCGGCCCATTTGCAGGTTTTGAAAGAAATGAACATTGCCGATCAAACGGCTGTCCGTAGAATGATTGTGGGCGGGGAAAACTTAAGCACCCGGTTAGCCCGCAGCATTCATGAACAGTTCGAGGGCCGGATTGAAATATGCAATGAGTACGGACCGACGGAAACCGTTGTCGGCTGCATGATTTACCGTTACGATGCCGCAAAGGACAGGCGGGAATCGGTACCGATCGGAACCGCTGCGGCAAACACGAGCATTTACGTTCTTGATGAAAATATGAAACCCGCACCGATCGGTGTCCCGGGAGAAATCTATATCAGCGGCGCCGGTGTGGCAAGAGGATATTTGAACCGTCCCGAATTAACGGCAGAGAAATTTGTCGATGACCCGTTTGAGCCCGGAGCGAAGATGTATAAGACCGGAGATTTGGCGAAGTGGCTGGCGGACGGAAACATTGAATATGCGGGCAGAATAGATGAACAAGTGAAAATCAGAGGCTATCGTATCGAATTAGGCGAGATCGAGGCGGCACTGCTTCAAGAAGAAGCGATCAAGGAAGCTGTCGTTACAGCCAGAGAGGACGTCCACGGATTTAAACAATTGTGTGCATATTACGTGAGCGGCGGACAAACAACGGCAGCCCGGCTCCGGAAACAATTGTCTCAAACCCTTGCAAGTTATATGGTTCCGGCTTATTTTATCGAGCTTGATGAAATGCCTTTAACTTCTAACGGAAAAATAAACAAAAAAGGGCTGCCTGCTCCGGATTTCGAGCTGCAGGACAGAGCAGAGTATAAAGCTCCCCGAACAAAAGCGGAAGAAATATTAGTTTCTGCCTGGGAATCGGTATTAGGCGCTGAAAACGTCAGTATTCTTGATAATTTCTTTGACCTTGGCGGAGATTCCATTAAATCCATTCAAGTATCCTCCAGATTAAATCAGCAAGGATACAAAATGGAAATCAAAGACTTGTTTCAATATGCAACAATTGCAGAATTGAGTCCGCATATCAAGCAGAATCTGCGTATAGCCGATCAAGGTGAAGTCAAAGGAAAAGTCAGCCTGACTCCTATTCAGCATTGGTTCTTTGATCACATAACGACAGATCAGCATTATTACAATCAAGCCGTCATGCTGCATGCGCCGGAAGGTTTTCAGGAAACGCAGCTTCGTCAAACCCTGCAAAAGCTTGCTGAACATCACGATGCGCTCCGCATGACGTTCCGGACTACAGAAAATGGCTGTGAGGCACAGAATGAAGAAATCGCCCAAAGCGGACTGTACCGCTTAGAAGTCCTGAATCTGAAAGAAGATTCCGATCCGGGACGGACAATTGAAGCCAAGGCTGATGAGATACAAAGCAGTATGCGTTTAAGTGATGGGCCGTTAATGAAAGCCGGGTTGTTTCAATGCGCAAATGGAGATCATCTGCTCATTGCCATCCATCATTTGATTATAGACGGGATTTCATGGCGCATCTTACTGGAAGATATCGTTAGCGGCTACAAGCAAGCCGAGAACGGGCGAGTGATTCAACTGCCGCAAAAAACAGACTCTTTCCAATTATGGGCTAAGAGACTGTCAGAATACGCGCAAAGTGAAACCATAAAACAAGAACAGGAATATTGGACAAAGATCGAACAAACCGAAGTCAAACCGCTGCCTAAAGATTTTCATGAAACCCATACAACTGCAAAAGACAGTGAAACAGCAGCTGTGGAATGGACGAAAGAGGAAACGGAGCTCTTATTAAAACAAGCGAATCGCGCTTATAACACGGAAATAAACGATTTGCTCTTAACTTCTCTGGGTCTTTCCATATCGCATTGGTCAGGACTGGAACAAATTCCGATTCATTTAGAGGGACACGGCCGAGAACAGATTATACAGGATATAGATATCTCCCGCACGGCCGGGTGGTTTACAAGTCTGTATCCGGTTGTGCTGCACGCGCAGCCGGGCAAAGAAATCTCTGATTATATCAAGACGACCAAAGAAGGATTGCGTCAAATTCCGCATAAAGGGATCGGATATGGAATAGCAAGGTACTTAAGCGGCGGAATGCCATCGAAACTCAATCCTGAGATCAGCTTTAACTACCTGGGACAGTTTGACCAAGATTTACAGCAGCATGGGGTTCAATTATCTTCTTATTCTTGCGGTTCAGACTCAAGCGGAAATCAAGAAAGACCGTATGTATTGAATATAAACGGAATGATCACCGAGGGCCGGCTGAAGCTTACGATCAGCTACAGCAGCAAACAGTACGCAAAAGAAACGATCATGCGGTTATCGGAAACGATTCAAAGCCGCCTGCGGACCATCATTACGCATTGCGTTCATAAAGAACAATCGGAACTGACGCCAAGCGATATTTTGTTAAAAGGCATGTCCATTGACGAATTGGATCAGCTCCTCATTCAACTGCCGCATGCAGGTGAGGTTGAAAACGTGTATCCGCTCACTCCGATGCAGAAAGGAATGCTCTTCCACAGCCTGCTGGACGAGGCCTCAAGTTCTTATTTTGAACAAGCATCGTTCGATTTGCAGGGAGAGTTAAAGATTGATTGGTTTAAAGCAAGCCTTGAACGATTATTTGAAACATACGCCGTGCTCAGAACCCGTTTTTACAGCGGCTGGAACGATACTCCTTTACAAATTGTCTATAAAACGCAAACACCGCAAATTCATTTTGCAGATTTGCGTGATAGAGAGGAGCACCTGAGAGAGGATGCAATCGCAGCCTATCAAAGAGAAGATAAGGCAAAAGGATTTGACTTGGCTCAGGATCGGCTGATGCGCATAGCGATTTTCCGTATGGAAGACCGCAAATATCATTTGATTTGGAGCTTCCATCATATTGTGATGGATGGCTGGTGCCTGTCTCTTATCACGAAGGAAGTGTTTGATCATTATAGCGCCTTACAGGAAGGCAGGGAACCAGAACCGTCATCGGCAGCTCCTTACAGCGACTATATCGAGTGGCTTGACCGCCAAGATCAGGGAGCGGCAAAGCGGTACTGGAGCGGGTATCTTGAAGGATATAAAGGTGAAACCACGCTTCTTCATAAAATAGAGCAGCATGAACAAAAAGAATACGCCTATGCCAATGTGATCTGCCGATTTAATCACGAACAGACAAAACAATTACAGCAGATCGCAAATCAGCATCAGGTTACATTAAATACGTTGATCCAAACGTTATGGGCAGTTTTATTACAGAAATACAGCGGGTCCGCAGACGTTGTCTTCGGCAGTGTTGTGTCGGGAAGGCCGGCGGAAATTCCTGATGTGGAACAGATGATCGGCCTGTTCATCAATACCATTCCGGTTCGCATCCGCTGCGATGAAGACAGCACTTTTGCTGATACGATGCAAATGGTTCAACAAAACGCGCTGGCTTCCCAATCGTACGATACCTATCCTTTATACGAAATTCAGGCCCAAACGGAACAAAAGCAAAACTTAATTGATCATATCATGATCTTTGAAAATTATCCGATAGGGCAGCAAGTCGAAGAGGGTCATGATGCTGCGGATTTAAATATCGTGAATTTCCATATAGAAGAACATACTCATTACGATTTTAATGTAGTTGTCATCCCTGGCGAACAACTCACCATTCATTTTGATTTCAACCAAAATGAATATGGACAATCAGAGGCAGAGCGGATTCGCGGACATTTTGAACAGCTCATTCACCAAATTTTGCAGCAGCCGTCTGTCAAAATAGAAGAAATGGAACTTCTGACGCAGCAAGAAAAAGAACAGCTGCACAGCCGTTTTCAGTCTAACGAAATGCATTACCCACGTGAACAAACGATTCATCAGCTGTTCGAGGAACAAGCACTCCGGACGCCGGACCATGAGGCGGTTATATTCGAGGAGCAGCGTATGACTTACCTTGAGTTAAATGAACGGGCCAATCAACTAGCACGCACTTTACGAGCTGAAGGCCTACAGGCCGACCAGCTTGTTGCGATCATGGCTGAGCGTTCTCTAGAAATGATGGTCGGGATTTATGCAATCCTGAAAGCGGGAGGCGCTTATGTGCCAATCGACCCGGATTACCCGGAGGAACGCATCCGCTACATCCTTGAAGATTCAGGAGCGACCCTGCTGCTGTCACAGCGTCACGTGAAAGAACGGGTTGCTTTTGCAGGAACGGTCATCGATCTCGATGATACTTCCGTTTATGATGATGACGTTTCTAACTTGGAGCCGCTGTCCGGTGCGGGCGATAGGGCATATGTAATTTACACGTCCGGATCGACCGGCAAGCCCAAGGGGGTTATGGTTGAACATCGTCCGGTTATAAACCGGTTGATGTGGATGCAAAAGGCTTATCCGATCGGCTGCGGCGATACGATTTTACAAAAGACAGCGATCACCTTCGACGTCTCGGTATGGGAGCTGTTCTGGTGGGCTTTGACCGGTGCGAAGGTGTGCCTGCTTCCGCTCGGCGGAGAGAAAGACCCTGAGGTGATTTGGAACACAATAGAAGAGCAAAGTATCACGACAATGCATTTCGTCCCGGCGATGCTGCACGCCTTCCTGAAGTTTGCGGAAACACAGACGGCGAGCGGACAGACAAGCAAGCTGCGTACGTTGCGGCAAGTGTTTGCAAGCGGCGAGGCATTAATGCCGGCACATACGGCAAGATTTCATCGCCTTATTACGCCTGTGAACGGTGCCCGACTGATCAACCTGTACGGCCCGACGGAAGCAACGGTCGATGTCTCGTACTTTAACTGCGAAGCGAACCAAGCGTATGCATCAGTACCGATCGGCAAGCCGATCTCGAATATACAGCTGTATATGATGGCACCGGGATCAATGCGTCTACAGCCAGTCGGAGTACCGGGAGAGCTTTGCATCGCAGGCGACGGACTGGCGAGGGGGTACCTGAACCGTCCGGAGCTGACTGCGGAGAAGTTCGTGGATCATCCGTTCGAACCCGGCAAACGGATGTACCGGACGGGCGATCTGGCGAGATGGCTGCCGGACGGTAACATCGAATATTTGGGACGGATCGATCATCAGGTGAAAATTCGAGGATACAGGATCGAACTCGGCGAGGTGGAAGCTCAGCTCTTAAAGATAGGGTCGGTACAGGAAGCAGTAGTCACCGCTCTTGAAGACGGAGAAAAGCAGCTATGCGCATACTTTTCAGCGAACACCGAGCTGATGGTGAGCGAGCTGCGAATAGCGCTGTCGCAGGAACTGCCGGGGTATATGATCCCGTCGTACTTTATCCAACTGGAGCGTTTGCCGTTAACGGCAAACGGAAAAGTCGACCGCAAAGCATTGCCGGCACCAGAAGGAGGCGTGCAAACGGGGGGCGAATACGTTGCTCCCCGTACAGCGGCGGAAGCGCAGCTGGCGCATATCTGGAAAGAGGTGCTTGGACTTCCGCGTATCGGCGTGAAAGACAATTTCTTCGACATCGGCGGTCACTCGCTGCGGGCAACGACGCTGACGGCGAAGCTGCACAAAGAGATGGGGGTCAGCCTGCCGCTGCGGGAAGTGTTCCGATCGCCAACAATTGAAGAAATGGCAGAAACGATTACCGGAATGAAACACACAGCATATACATCTATCCCGACCGTTGAAGCAAAAGAATACTATGCCGTCTCCTCGGCGCAGAAACGGCTGTACATTTTGAATCAGCTGAAAGGCGGAGAGCTGAGCTACAACATGCCGAGTGTCATGAGAGCCGATGGAGCTCTGGATCGGGAACTTGTCGAGAAGGCGATCCGCAAGCTGATTCAGCGCCATGAAACGCTGCGTACCGGCTTTGAACTGATAGATGGAGAACCGGTGCAGCGGATCTATGACGACGTCCCATTTGCAGTGGAATTCACTCAAGCGAAAGAAGAACAGGCGGAAGCCCTCGTTCATGGGTTTGTGCGGGCATTTGACTTGGAGAAAGCGCCGCTGCTGCGGGTAGGACTGATCGAGCTTGCAAAAGACCGCCATTTGCTGCTGTTTGACATGCATCATATCATTTCAGACGGCGTATCTATCAAGAATTTGATTGAAGAGTTCGTTTCATTATATGAAGGAAAAGAATTGCCGCCATTGCGGATTCAGTATAAAGATTATGCGGCGTGGCAGCTGTCGGATATGCAAAGCGAACGGATGAAGAAACAGGAAGCGTACTGGCTGGATATGTTCAGCGGAGAGGTTCCGGTGCTGGATATGCCAACCGACTACGGAAGACCGGCTGCGCGGAGCTTTGAAGGAGGACAAATCGAGTTTGTCATCGGACCGGAGTTGACGGAACAGCTGAAAGGCTTGGCGGTGAAGAGCGAAAGCACGCTGTACATGGTGCTGCTGGCTGCTTATACGACCATGCTGGCCAAATACAGCGGGCAAGAAGACATCGTAGTAGGCAGCCCGATTGCCGGAAGAACCCATTCGGATTTGGAAAGCTTAATCGGCATGTTCGTGGGCACACTGGCGATACGAACGAATCCGGTCGGGGAAAAAACATTCCGGGAGTACGTGCAGGAAGTCAAAGAGCATACATTAAAAGCGTACGAAAACCAGGAGTATCCATTCGACGAACTGGTGGACAAGCTGAATGTGTCCCGGGATTTCAGCCGCCATCCGCTGTTTGACACGATGTTCATATGGCAAAACACAGAACGGGGAGAATTGAGCCTCGATGATGTGCGTTTTACCCCTTATCCGGACAACCATGCGATGGCGAAGTTCGACCTGACGTTCCAAGCGGCAGAAAATGAAGACGGAATTACAGGTATGATCAGTTACGCGGCGGCGCTGTACAAGCAGGAAACTGCGGAACGCATGGCAAAGCACTTTATCCAATTGATCGAGGCGATTGCGAATGATCCGCAGGCGCCGCTTTCATCGCTGGAGATGATCACCGCGAAGGAGAAAGAGCAGATTGTGGAGAGATGGGGTCAACCGGCGATAGACTGCCCACGGGACAAAACAATTCACCAATTGTTCGAGGAGCAGGCGGAGCGCACGCCGGAACATACGGCCGCAGTTTACGAGAAAAGCCGATTCACATACCGTGAGCTGAATGAGCGGGCCAACCGCCTGGCGCGGATTTTAAGAAGCGAAGGCGTGCAGCCTGACCAGCCTGTGGGTATTCTGGCAGAACGTTCTCTGGAAATGATCGTGGGGATTATGGCGATCCTGAAAGCCGGGGGCGCGTATGTGCCGATGGATCCGGACAGCCCGCAGGAACGCATCCGCTATATTCTGGAGGATTCAGGAGCAAAGGTTCTGCTGGCACAGCCCCATTTACAAGATCGTGTATCCTTTGCCGGAGAGATTTTACTGCTGAATGACGAACGAATGAACAGCGGGGACGGCTCGAATCTGGTGACGGCAGCCGGACCGGATCACTTGGCGTATGTGATCTACACATCAGGCACAACCGGCAAGCCAAAAGGCACGCTGATTGAGCATCGCCAGGTCCTTCATTTGATGGAGGGGCTCCGCGGACAAGTGTACGGTGCTTATGATTCGGGATTGCGTGTGTCTCTGTTGGCACCGTACTATTTCGACGCATCGGTCAAGCAAATTTTCGCGGCACTGTTAGGGGGACATGCACTGTATATCGTCCCTAAAGCATCAGTATCAGACGGTTATGCCTTGTCAAACTATTATCGCACCCACCGCATTGACGTAACAGACGGAACACCGTCACATTTGCAATTGCTTATCGCTGCAGACAGCCTTCATGGGGTAACGATCCGGCACATGCTTATTGGAGGAGAGGCGCTCCCGCAGGCGACGGCGGCGCAATTGCTTGAATTGTTTGCTTCGAACGGGTCATCAATGCCGCTCATAACCAATGTATACGGTCCGACGGAAACCTGTGTGGATGCATCGGTCTTTCATATCGTACCGGGGACATTGGCATCCGCTGACGACGGCGGTTACGTGCCGATCGGCAAGCCGCTGGGCAACAACCGTGTGTATATTGTTGATTCCCATGATCGGATGCTGCCTATAGGTGTAAAGGGTGAGCTGTGCATCGCCGGAGACGGAGTAGGACGAGGGTATCTGAACTTGCCTGAATTAACGGGCGAAAAGTTTGTGGCCGATCCGTTTGTAATCGGAGAGCGGATGTATAAAACAGGCGATCTTGCCCGTTACCTGCCGGATGGAAACATTGAATATGCCGGAAGAAAGGATCATCAGGTCAAAATTCGCGGTTACCGGATCGAACTTGGCGAGGTGGAAGCCGCTCTTCTCAACATCGAGCATGTACAAGAAGCGGTGATCCTGGCCAGAGAAAATGCAGAGGGGCAAAGCGATTTGTATGCCTATTATACAGGGGAGAAGTCACTGCCGATCAATCAGCTTAAAGAAAAACTCTCCGATCAAATACCAGGCTACATGGTTCCTTCATACTTGATGCAGCTGGAGCAAATGCCGTTAACCTCCAATGGAAAAGTGAATCGCAGCGCGTTACCGCTGCCTGAAGCAGGCTTGCAGACCGGGATTGACTATGTTGCTCCAAGGACAAAACCGGAAGAGCAGCTGGTTCACATCTGGAAAGAAGTATTGAAGGTAGAACAAGTCGGCGTCAAAGATAACTTTTTCGATCTCGGCGGGCATTCGTTACGGGGGATGACGCTCGTTACCAAGATCCATAAGCAATTCGACAAAAGCATTTCATTGAGAGAAGTGTTTCAATACCCGACGATTGAAGAAATGGCGAGGGTCATTGCAGGCGCGGAAACCAGCGGACCGGATGAAATCCCTGTTGCAGAAGCCAAAGATGTTTATCCTGTATCTTCTGTACAAAAGATGGTTTACCTGTCTACACAAATTGAAGGCGGAGAACTAAGTTACAACATGCCGGGGATTTTGACATTGGAAGGCAGGATCGACATGAATCGTTTACAATCTGCGTTCCAAAGTCTGATCCAGCGCCATGAATCGCTACAAACCGGATTTGAAATGGTCCGCGGAGAGCTGGTGCAGGTGATCAAGCCGCAGGCGGATTTCTCTATAGAAAGGTACAAAGCAGCTGATGAGCAGGTCGAGGAGCTGTTCCGCAATTTCGTGCGGCCTTTCGATCTCAGTCAGGCTCCATTGCTTCGGGCCGGACTCATCGAATTAGAACAGGACAGACATGTTTTCATGTTTGACATGCATCATATCGTTTCAGACGGCGCTTCTATGAATATTTTTGTTGAAGAACTGATTCAATTGTATGACGGCAAAGAATTAACCCCGCTCCGGATTCAATACAAAGATTACACTGTATGGCAGCAGCAGGCGGAGCAGAGGGAACGCATCAAGAGGCAGGAGAACTATTGGCTGAACGTATTTCATGAGGAACTCCCGCCATTTGAGCTGCCGAAAGATTTTGCCAGACCGCGAATTCGAAGATTTGAAGGCAAGCGATACAATTTCGCTCTCGATGAGACCGTGGTCCAGGGGATAAAACAGATGGAAGAATTGACCGGATCGACCGCTTACATGATCTTGCTGTCAGCCTATAACATACTGCTGGCCAAATACAGCGGTCAGGAAGATATCGTCGTCGGTACGCCTATTGCGGGAAGAATGCATGAAGATTTACAGCATATTATCGGGATGTTTGTGAATACGCTGGCCATCCGTACGGCCCCGGCTGGAGAAAAGACCTTTATGGACTATGTAACGGAAACAAAAGAAACGATGCTGAAAGCTTATGAAAATCAAGAATATCCTTTTGAAGAATTAGTTGAGAAAATGGGAGTGAAACGGGACTTAAGCCGTAATCCGTTATTCGATACGATGTTTGTTCTGCAAAATACGGAACAAACGGATATCGAATTGGACTCTCTCGCGGTGAGACCATATGAACAAACAAATACGGCGGCCAAATTTGATTTGCAGCTGACCTTCGTGATGAATCCGCACGAGATACAAGGAAGCTTTGAGTACTGCACGAAGCTGTTCAAACAGAAAACCATCGCTACGCTGAGCAAGGATTACGCCATGATTCTGTCGGCGATCATAAAAGACCCATCGATTCCTTTAAAAGAAATTCAATTAAGTGAGAAAGTAAACAAAAGTGAACACTTTGCAAGCGAAATCGAATTGAATTTCTAA	MSVFKNQETYWENLFDEEDGLSAFPYFKAADKASLARTGYQEKCICRSLSPEVSQRIMTMANHSDMAAYLILLAGIECLLYKYTDQTSLILGIPTVSKQKADQSAVNNIVLLKNTLSNESTFKTVFGQLKEAVNDSLKNQNLPFRKMVRHLSVQYNDEHMPLIHTVVSLNEIHSLQFKEDTAADTLFHFDLENNGIHLKLFYNGNLYDEHYINQIVSHLDQLLSVILFQPQAAIHTAEILPEAEKQKLLFDFNDTVRDFSGSRTVYQLFEEQAERTPEHTAVKFKNDHLTYRELNEKANRLARTLRNCGVQPDTLVAILADRSLEMIVSIIAVWKAGGAYVPLDPDYPKERLQYLLHDADADVLLVQHHLKNSLAFDGPVIDLNDETSYHADCSLLSPVAEHSHLAYVIYTSGTTGKPKGVMVEHGGIVNSLQWKKAFFKHSPADRVLVLYPYVFDAFILNFFGPLISGATLHLLPNEENKETFAIQNAIKQERITHFSTSPRLLKTMIEQMNREDFIHVQHVVVGGEQLETDTVEKLHSLQPRIRINNEYGPTENSVVSTFHPVQSADEQITIGSPVANHQAYILGAHHQIQPIGVPGELYVGGAGVARGYLNRPELTEEKFVEHLHVPGQKMYKTGDLARWMPDGRIEYLGRIDHQVKIRGYRIEIGEVEAAMFNLENVREAAVVAREDADGAKQLYAYYVGEPSLTAAQFREDLSRELPNYMIPSRFIPLERIPLTSNGKIDLKALPAADENTRTENEYIPPRNTIEELLASIWQEVLGAERIGILDNFFDFGGDSIKSIQVSSRLYQAGYKVDMKHLFKHPSIAELSQFVAPVSRVADQGEVNGGTKLTPIQHWFFEQKMPHAHHYNQAVMLYSAEGFQEAPLRRTMERIASHHDALRMIFEKTPDGYAPRITGTDESELYHLEVMNYKGETEPAQAIADKANEIQSSMVLDKGPLMKLGLFQCPDGDHLLIAIHHLLIDGVSWRILLEDFASGYEQAERGQTIQLPQKTDSFPFWADQLSKYAAETDMEEEIAYWTELSSIKPQPLPKDTISERSLLRDSEEVTIQWTKEETEQLLKHANRAYNTDINDLLLTSLGLAVHKWTGTEDIVVNLEGHGREPIIPDADISRTIGWFTSQYPVVLRMEAGKNLSQRIKIVKEGLRRIPDKGMNYSIIKYISGHPEADSLRLNPEISFNYLGQFDQDLKHQALRISPFSTGLSMNENQERTAVLDLNGMIAEGTLSLTLSYSSKQYERSTMAQFARGLKESLQEVIAHCVSRKQTSLTPSDILLKDISIDELEQLLEQTRELGEAENIYPLTPMQKGMLFHSLFDPNSGAYFQQTMFDLHGDLEIDSFSKSLDGLSQKYDIFRTNFYRGWKDQPLQIIFKTKKIGFQFNDLREMKESQKEAMIQQYAREDKMRGFDLEKGALMRLFILRTDEKTYRFIWSFHHILMDGWCLPLITKEIFENYFALLQQKQPEQSSITPYSQYIEWLGRQDAKEATAYWDQYLEGYEEQTGLPKDHHAAEDGRYVPEKVTCDISSDLTSKMKRTAGKHHVTLNTLLQTAWAVLLQKYNRSRDVVFGSVVSGRPAGIPNVETMIGLFINTIPVRFRCEAGTTFAGLMKEAQERAVASQQFETHPLYDIQARTTQKQDLITHLMIFENYPVDQYMESIGRQNGTSIKISNVQMEEQTNYDFNLTVIPGDEMNISFEYNANVYDRASIERVREHFMQILHQVVTDADIRVDQAELLTEGERKTLLQTLNDTAAPFPQTPVHQLFEEQSQRTPDQAAVIDKDRQLTYGELNKRANRLARTLRAKGVQTDQPVAIITRNSIESVVGILAVLKSGGAYVPIDPEYPQDRIRYMLDDSQAGIVLMQRDVRKQLAYEGVTVLLDDESSYHQDGSDLAPINDASHLAYVIYTSGSTGRPKGVLIEHRGLSNYIWWAKEVYVKGEKANFPLYSSISFDLTVTSIFMPLVTGNAIIVYDGEDKTALLESIVRDPRVDIIKLTPAHLQVLKEMNIADQTAVRRMIVGGENLSTRLARSIHEQFEGRIEICNEYGPTETVVGCMIYRYDAAKDRRESVPIGTAAANTSIYVLDENMKPAPIGVPGEIYISGAGVARGYLNRPELTAEKFVDDPFEPGAKMYKTGDLAKWLADGNIEYAGRIDEQVKIRGYRIELGEIEAALLQEEAIKEAVVTAREDVHGFKQLCAYYVSGGQTTAARLRKQLSQTLASYMVPAYFIELDEMPLTSNGKINKKGLPAPDFELQDRAEYKAPRTKAEEILVSAWESVLGAENVSILDNFFDLGGDSIKSIQVSSRLNQQGYKMEIKDLFQYATIAELSPHIKQNLRIADQGEVKGKVSLTPIQHWFFDHITTDQHYYNQAVMLHAPEGFQETQLRQTLQKLAEHHDALRMTFRTTENGCEAQNEEIAQSGLYRLEVLNLKEDSDPGRTIEAKADEIQSSMRLSDGPLMKAGLFQCANGDHLLIAIHHLIIDGISWRILLEDIVSGYKQAENGRVIQLPQKTDSFQLWAKRLSEYAQSETIKQEQEYWTKIEQTEVKPLPKDFHETHTTAKDSETAAVEWTKEETELLLKQANRAYNTEINDLLLTSLGLSISHWSGLEQIPIHLEGHGREQIIQDIDISRTAGWFTSLYPVVLHAQPGKEISDYIKTTKEGLRQIPHKGIGYGIARYLSGGMPSKLNPEISFNYLGQFDQDLQQHGVQLSSYSCGSDSSGNQERPYVLNINGMITEGRLKLTISYSSKQYAKETIMRLSETIQSRLRTIITHCVHKEQSELTPSDILLKGMSIDELDQLLIQLPHAGEVENVYPLTPMQKGMLFHSLLDEASSSYFEQASFDLQGELKIDWFKASLERLFETYAVLRTRFYSGWNDTPLQIVYKTQTPQIHFADLRDREEHLREDAIAAYQREDKAKGFDLAQDRLMRIAIFRMEDRKYHLIWSFHHIVMDGWCLSLITKEVFDHYSALQEGREPEPSSAAPYSDYIEWLDRQDQGAAKRYWSGYLEGYKGETTLLHKIEQHEQKEYAYANVICRFNHEQTKQLQQIANQHQVTLNTLIQTLWAVLLQKYSGSADVVFGSVVSGRPAEIPDVEQMIGLFINTIPVRIRCDEDSTFADTMQMVQQNALASQSYDTYPLYEIQAQTEQKQNLIDHIMIFENYPIGQQVEEGHDAADLNIVNFHIEEHTHYDFNVVVIPGEQLTIHFDFNQNEYGQSEAERIRGHFEQLIHQILQQPSVKIEEMELLTQQEKEQLHSRFQSNEMHYPREQTIHQLFEEQALRTPDHEAVIFEEQRMTYLELNERANQLARTLRAEGLQADQLVAIMAERSLEMMVGIYAILKAGGAYVPIDPDYPEERIRYILEDSGATLLLSQRHVKERVAFAGTVIDLDDTSVYDDDVSNLEPLSGAGDRAYVIYTSGSTGKPKGVMVEHRPVINRLMWMQKAYPIGCGDTILQKTAITFDVSVWELFWWALTGAKVCLLPLGGEKDPEVIWNTIEEQSITTMHFVPAMLHAFLKFAETQTASGQTSKLRTLRQVFASGEALMPAHTARFHRLITPVNGARLINLYGPTEATVDVSYFNCEANQAYASVPIGKPISNIQLYMMAPGSMRLQPVGVPGELCIAGDGLARGYLNRPELTAEKFVDHPFEPGKRMYRTGDLARWLPDGNIEYLGRIDHQVKIRGYRIELGEVEAQLLKIGSVQEAVVTALEDGEKQLCAYFSANTELMVSELRIALSQELPGYMIPSYFIQLERLPLTANGKVDRKALPAPEGGVQTGGEYVAPRTAAEAQLAHIWKEVLGLPRIGVKDNFFDIGGHSLRATTLTAKLHKEMGVSLPLREVFRSPTIEEMAETITGMKHTAYTSIPTVEAKEYYAVSSAQKRLYILNQLKGGELSYNMPSVMRADGALDRELVEKAIRKLIQRHETLRTGFELIDGEPVQRIYDDVPFAVEFTQAKEEQAEALVHGFVRAFDLEKAPLLRVGLIELAKDRHLLLFDMHHIISDGVSIKNLIEEFVSLYEGKELPPLRIQYKDYAAWQLSDMQSERMKKQEAYWLDMFSGEVPVLDMPTDYGRPAARSFEGGQIEFVIGPELTEQLKGLAVKSESTLYMVLLAAYTTMLAKYSGQEDIVVGSPIAGRTHSDLESLIGMFVGTLAIRTNPVGEKTFREYVQEVKEHTLKAYENQEYPFDELVDKLNVSRDFSRHPLFDTMFIWQNTERGELSLDDVRFTPYPDNHAMAKFDLTFQAAENEDGITGMISYAAALYKQETAERMAKHFIQLIEAIANDPQAPLSSLEMITAKEKEQIVERWGQPAIDCPRDKTIHQLFEEQAERTPEHTAAVYEKSRFTYRELNERANRLARILRSEGVQPDQPVGILAERSLEMIVGIMAILKAGGAYVPMDPDSPQERIRYILEDSGAKVLLAQPHLQDRVSFAGEILLLNDERMNSGDGSNLVTAAGPDHLAYVIYTSGTTGKPKGTLIEHRQVLHLMEGLRGQVYGAYDSGLRVSLLAPYYFDASVKQIFAALLGGHALYIVPKASVSDGYALSNYYRTHRIDVTDGTPSHLQLLIAADSLHGVTIRHMLIGGEALPQATAAQLLELFASNGSSMPLITNVYGPTETCVDASVFHIVPGTLASADDGGYVPIGKPLGNNRVYIVDSHDRMLPIGVKGELCIAGDGVGRGYLNLPELTGEKFVADPFVIGERMYKTGDLARYLPDGNIEYAGRKDHQVKIRGYRIELGEVEAALLNIEHVQEAVILARENAEGQSDLYAYYTGEKSLPINQLKEKLSDQIPGYMVPSYLMQLEQMPLTSNGKVNRSALPLPEAGLQTGIDYVAPRTKPEEQLVHIWKEVLKVEQVGVKDNFFDLGGHSLRGMTLVTKIHKQFDKSISLREVFQYPTIEEMARVIAGAETSGPDEIPVAEAKDVYPVSSVQKMVYLSTQIEGGELSYNMPGILTLEGRIDMNRLQSAFQSLIQRHESLQTGFEMVRGELVQVIKPQADFSIERYKAADEQVEELFRNFVRPFDLSQAPLLRAGLIELEQDRHVFMFDMHHIVSDGASMNIFVEELIQLYDGKELTPLRIQYKDYTVWQQQAEQRERIKRQENYWLNVFHEELPPFELPKDFARPRIRRFEGKRYNFALDETVVQGIKQMEELTGSTAYMILLSAYNILLAKYSGQEDIVVGTPIAGRMHEDLQHIIGMFVNTLAIRTAPAGEKTFMDYVTETKETMLKAYENQEYPFEELVEKMGVKRDLSRNPLFDTMFVLQNTEQTDIELDSLAVRPYEQTNTAAKFDLQLTFVMNPHEIQGSFEYCTKLFKQKTIATLSKDYAMILSAIIKDPSIPLKEIQLSEKVNKSEHFASEIELNF	PGPT0012290_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012290-ituB|mycB|bmyB-K15662	NA	NA
D1-12_01029	11949	dltA_2		D-alanine--D-alanyl carrier protein ligase	ATGTATACCAGTCAATTCCAAACCTTAGTAGATGTCATTCGGGAAAGAAGCAATATCTCTGATCGCGGGATCCGTTTTATCGAATCCGATAAAAACGAGACGGTTGTCTCTTATCGCCAATTGTTTGAAGAGGCGCAAGGGTATCTTGGCTATTTACAGCATCTCGGCATTAAGCCGAAGCAGGAAATTGTATTTCAAATCCAAGAAAACAAATCATTTGTCGTTGCTTTTTGGGCTTGTATATTAGGAGGAATGATCCCGGTTCCGGTCAGTATCGGAGAAGATGATGACCATAAACTGAAGGTCTGGCGCATTTGGAATATATTAAATCATCCCTTTCTGATTGCCTCTGAAAAAGTATTGGACAAAATAAAGAAATACGCTGCAGAACACGATTTACAGGATTTCCATCATCAATTAAACGAAAAATCTGACGTCATTCAAGATCAAACCTACGATTACCCCGCTTCATTTTATGAACCTGATGCGGATGAACTCGCCTTTATCCAATTTTCTTCCGGATCGACAGGAGATCCAAAAGGAGTCATGTTAACGCATCACAACTTAATACATAACACGTGTGCCATTGGGACTGCCCTACACGTTCATTCGAAAGACTCTTTCTTATCATGGATGCCCTTAACGCATGATATGGGGCTCATCGCCTGCCACCTTGTTCCCTTCATAACCGGAATCAATCAAAATCTGATGCCTACAGAGTTATTTATTCGCAGACCTATTCTTTGGATGAAAAAAGCTCATGAACATAAAGCCAGTATTCTATCCTCTCCTAATTTCGGATACAACTACTTCCTTAAATTTCTGAAAAACGAACCAGACTGGGATTTATCCCACATCAAGGTCATCGCAAACGGTGCAGAACCGATATTGCCGGAGCTCTGTGACGAATTTTTGAAAAGATGCGCAGCATTCAATCTGAAAAGATCCGCCATTTTGAATGTTTACGGTTTAGCGGAAGCGTCGGTCGGCGCAGCATTCTCTAAATTAGGTGAAGAATTCGTTCCCGTTTATTTGCATCGTGACTATTTAAATCTTGGTGAAAGAGCTGTAAAAGTCAGCAAAGAGGACCAACATTGCGCTTCATTCGTCGAGGTGGGACAACCTATTGACTATTGTCAGCTTCGGATCTCCGATGAAACAAATGAAAGAGTAGAAGACGGAATCATCGGCCATATCCACATCAAAGGAGACAATGTGACGCAAGGGTATTATAACAACCCAGAGAGTACGGAAAAAGCGCTGACTTCTGACGGCTGGGTAAAAACGGGAGACCTCGGATTCATTAGTGAAAGGGGTAACTTAGTCGTAACCGGAAGAGAAAAGGACATTATTTTCGTGAACGGAAAAAATATCTACCCGCACGATATTGAACGGGTCGCGATTGAAATGGAAGAGGTTGACTTAGGAAGGGTTGCCGCCTGCGGTGTATATGATCAAAAGACGCAAAGCGGAGAAATTGTGCTCTTTGTTGTTTACAAAAAATCACCTGAAAAATTCGCACCGCTTGTCAAAGAGATAAAAAAGCATTTGTACAAGCGGGGCGGCTGGAGCATAAAAGAAGTCCTTCCGATCCGAAAACTCCCTAAAACAACCAGCGGAAAGGTTAAACGCTACGAACTTGCCAGACAGTATGAGGCAGGGAATTTTTCAACAGAGTCTGCCGCCATCAATGAATGTTTGGAGAGCAGTCCGGAAACATCCGGACAGACACCCATTCATGAGATAGAAACGGAATTGCTGTCTATCTTTTCCGATGTGCTCAACGGGAAAAAGGTTCACCTCGCTGACAGTTATTTTGATATGGGAGCAAATTCATTACAGTTATCGCAGATTGCCGAGCGCATAGAACAGAAATTCGGACGCGAGCTTGCCGTTTCAGATCTCTTTACGTATCCTTCTATCACTGATTTAGCGGCATATCTGTCTGAAAGCCGGGCTGAAATCAAGCAGGACGCGGCAGCGAAACCAAGCCATGTGACACCGAAAGATATCGCCATTATCGGGATGTCGCTCAATGTCCCGGGAGCGTCAACGAAAAGTGATTTTTGGAATCTGCTTGAAAAAGGTGAGCACAGCATTCGAGAATACCCCGAATCCCGGCTGAAAGATGCGGCGGATTATTTAAAATCCATCCAAAGCGAGTTCAATGAGAGTCAGTTTGTGAAGGGCGGCTATTTAGATGAAATCGACCGCTTTGATTATTCGTTCTTCGGTTTAGCCCCTAAAGCGGCTCAGTTTATGGACCCTAACCAAAGACTGTTTTTGCAGTCTGCATGGCATGCGATTGAAGATGCGGGCTATGCCGGCGGCAGCATGAACGGGAGCCGTGTCGGGGTATATGCGGGGTACTCGAAGGTGGGCTACGATTATGAACGTCTCCTTTCTGCGAATTATCCGGAGGAACTTCATCAATATATCGTGGGCAATCTCCCTTCCGTGCTAGCCAGCCGAATCGCTTATTTCTTAAATTTAAAAGGGCCGGCGGTCACAGTGGATACGGCATGCTCCTCATCGCTTGCCGCCGTTCATATGGCATGTAAATCTTTAATGTCCGGCGATTGTGAAATGGCTCTTGCCGGCGGTATCCGGACATCGCTCTTGCCGATCTGTATCGGACTTGATATGGAATCTTCGGACGGGTACACGAAAACGTTCAGCAAAGATTCAGACGGCACGGGCACAGGTGAAGGCGCCGCCGCAGTCCTGCTAAAACCTTTGCAGGAGGCTGTTCGCGACGGAGACCATATTTACGGCGTAATCAAGGGAAGCGCGATGAATCAAGACGGAACAACCGCCGGGATTACAGCACCGAATCCGGCAGCTCAGACTGAGGTCATTGAGACGGCTTGGAAAGACGCGGGCATTGCTCCTGAAACACTATCTTTCATCGAAGCGCATGGCACCGGAACGAAGCTCGGCGATCCGGTTGAATTTAACGGGCTTTGTAAAGCGTTTGAAAAGTATACGGCAAAAAAACAATTTTGTGCGATTGGTTCTGTTAAATCGAACATCGGTCATTTGTTTGAAGCGGCAGGCATCGTCGGGCTGATCAAATCTGTCCTCATGCTGAATCACAAGAAAAATCCGCCGTTAGCGCACTTTAATGAACCTAATCCGCTCATTCATTTTCACTCATCACCATTTTATGTAAATCAGGAAGTTTCGGAGTTCACATCGGGTGATGAGCCGCTGCGAGGCGGAGTCAGCTCATTTGGCTTTAGCGGAACGAACGCTCATGTGGTACTGGAAGAATATATTTCTCAAAGTGAGTATGCGCCCGAGGATGAACATGGGCCGCACCTATTTGTTTTATCCGCTCATACTGAAAAATCACTCTATGAACTCGCACAGCAGTACCGGCAATATGTATCGGATGACAGCCAAGCTTCATTAAAGTCCATTTGTTATACAGCCAGTACGGGCAGGGCTCATTTGGATCATAGCATTGCCATGATTGTATCCGGTAAACAAGAACTATCGGATAAGCTGACCCGCCTGATTCAGGGAGACAGAAACCTTCCCGGTGTATACATCGGTTACAAGAATATGAAGGAAATGCTGCCTGCTCATAAAGAAGAGCTGAATCAACAAGCAGCCGCTCTGATTAAGCAGCGTTTACGTACGCAAGATGAACGGATCACATGGCTGCATCGCGCAGCCGAATTATTTGTGCAAGGAGCCGTTATCGATTGGCGCGCGCTTTATTCCGGTGAAACTGTACAAAAGACGCCATTGCCCCTGTATCCGTTTGAACGGAGCCGATGCTGGGCTGAAGCTGACCAATTGCGCTTAAACGAGGGCGAAAAGAAAGGAGGAGCAGCATTGAATATCAATCAATCGAAAGCGCACATTGAATCCTTCTTGAAAACTGTAATCAGCAATGCTTCGGGGATCAGAGCGGAGGAACTCGATCTGAATGCTCATTTTATCGGGCTCGGAATGGATTCTATCATGCTGTCACAGGTCAAAAAAGCCATCGCGGACGAATTTGGGGTAGACATCCCGATGGATCGTTTTTTTGATACGTTGACCAACCTTCAAAGTGTCATAGATTACTTGGCTGATACCGTTCCATCGTCCTTTGCATCCGCTCCGCCTCAAGAGAATGTTCCGGCGCAGGAAAAACAGGTCATTTCAGAAGCGCAGCCTGAATCGGATCGCAGAGATGGTCATCAAGAGTATACGCTCGAAAAAATAATCGCATCTCAGAATCAATTAATTCAGGATGCCTTGCAAGCTCAATTAAATAGCTTTAATTTGCTGAGAAACAGCGGACATCATTCCGACGAGAAAGAATACGCTAAAGCGCAAGAGAAATCAATTCCTTCTGTCAAGCAGGGGCCTCCGACCGTCAATGCAGAACAGAAAGCGGCTCAAGAAGCGAAACCCTATGTTCCTTTCCAGCCTCAGAACCTGAATGATCAGGGACACTATACCGCACGGCAAAAACAATACTTAGAAGATTTCATCAAGAAATACGCAGATAAAACGAAAGGTTCCAAACAATATACGGACAACACCCGATTTGCTCATGCAAACAACCGCAATTTGTCCAGCTTCCGTTCGTATTGGAAAGAAATCGTATACCCGATTATCGCCGAACGTTCTGACGGTTCTAAAATGTGGGATATTGACGGAAATGAATATATCGATATCACCATGGGATTCGGGGTTAACCTTTTCGGGCATCATCCTTCCTTTATTACACAGGTTATCGATGATTCAACCCGTTCATCATTGCCTCCGCTGGGCCCGATGTCAGATGTCGCCGGTGAAGTTGCCGACCGGATCCGCACATGTACCGGAGTGGAAAGGGTCGCTTTCTATAATTCCGGAACAGAGGCCGTCATGGTTGCCCTGCGTTTGGCGCGGGCGGCAACAGGAAGAAAGAAAGTCGTGGCGTTCTCAGGATCTTATCACGGGACGTTTGACGGCGTATTAGGGGTTGCTGGCACAAAAGGCGGGGCTGCGTCTGCGAATCCGCTGGCTCCGGGCATATTGCAGAGCTTTATGGATGATTTGATTATTTTACATTACAACAATCCCGATTCGCTGGATGTGATCCGCAGTCTTGGTGATGAATTGGCAGCCGTACTGGTGGAACCGGTACAAAGCCGCAGACCGGATTTGCAGCCGCAGGCATTTTTGAAAGAATTGCGGGCGATCACGCGGCAATCCGGAACAGCTCTGATTATGGATGAAATTATTACCGGATTTCGGATCGGTCTCGGCGGCGCACAGGAATGGTTCGGCATTCAGGCTGATTTAGTGACCTACGGAAAAATCATCGGCGGCGGACAGCCGTTAGGGGTAGTTGCCGGAAAAGCTGAGTTCATGAATGCGATCGACGGGGGTACCTGGCAGTATGGGGACGATTCCTACCCGCAAGACGAGGCGAAACGCACGTTTGTGGCCGGCACCTTCAATACTCACCCGCTTACCATGAGGATGTCATTAGCCGTCCTTCGCCATTTACAAACCGAAGGAGAACATCTGTATGAGCAGCTTAATCAAAAAACAGCCTACCTGGTCGATGAGCTGAATCGCTGCTTCGAACAAGCGCAAGTGCCTATCCGCATGGTTCGATTCGGTTCTTTATTCCGGTTTGTCTCATCGCTTGATAATGACTTGTTCTTTTACCATCTCAACTATAAAGGGGTCTATGTATGGGAGGGACGCAACTGCTTCTTGTCTGCGGCGCATACCACGGATGATATCGAAAATATTATTCAAGCGGTGAAAGACACGGTGGAGGATCTTCGCCGAGGCGGATTTATTCCGGAAGGTCCGGATTCCCCTGATGGCGGAAGCCGTAAAAAGTCCGGGACGCGCGAGCTTTCACCTGAACAAAAGCAGTTGGTTATGGCATCCCATTACGGGAATGAAGCTTCCGCCGCTTTAAACCAGTCCATTATGCTGAAAGTGAAGGGCGAACTGCAGCATACACCATTAAAACAAGCCGTCCGGCATATCGTTGACCGTCATGAAGCTTTACGTACGGTGATTCATCCCGATGACGAGGTACAGCAAGTGCAGGAACGGATGAATATAGATATACCTGTCATTGATTTTACCGGCCTCCCGCATGAACATCGGGGGCCGGAAATCCAAAAATGGCTGACAGAAGATGCCAAGCGGCCGTTTCATTTCCATGAACAAAAGCCTTTGTTTAGAATCCATGTGCTTACATCGGCTCACAATGAACATCTGATTGTGCTCACGTTCCATCATATCATTGCCGATGGATGGTCAATCGCCGTTTTTGTTCAAGAACTGGAGAGCAACTACGCGGCAATAGTACAAGGAAAACCGATTTCGCCGAAAGAGGCAGATGTTTCGTTTCGCCAATACTTAGACTGGCAGCAGGCACAGATTGACAGCGGCCATTATGAAGAAGGGGTCCGTTATTGGCGGCGTCATTTCTCTGAACCGATACAGCAGCCAATTCTGCCAAGCACAGCTTCTGTCCGTTATCCGAACGGGTATGAGGGAGACCGGTGTACCGTCAGGCTTGGACGGCCATTGAGCGAGGCTTTAAGGTCATTAAGCATTCAGATGAAAAATAGCGTATTTGTGACGATGCTGGGCGCATTTCATCTTTTTCTGCACCGGCTTACCAAACAGTCAGGCCTTGTGATCGGGATCCCCGCAGCAGGTCAATCGCATATGAAACAGCATGCTCTGATTGGAAATTGCGTCAATATGATTCCGGTGAAGAACACGTCTTCTTCAGAAAGCACTTTATCCGGTTATCTTGGCAATATGAAAGAAAGCGTGAATCTTGCAATGCGGCACCAAGCCGTCCCGATGACATTGGTGGCCAGAGAGCTTCCGCACGATCAAGTGCCGGATATGCGTATTATCTTTAATTTAGACAGGCCTTTTCGAAAGCTGCATTTCGGAAAGGCGGAGGCGGAGCCCGTTGCATACCCGGTAAAATGCACCCTGTACGATTTATTTCTTAACATAACTGACGCGCATCAAGAATATGTTCTTGATTTCGACTTTAATACGAACGTCATCAGTCCGGAAATCATGAAAAAGTGGGGAGCGGGTTTTACAAAATTGCTGCAAAAAATGGTTGAGGGAGATTCAATCCCTCTTGGCGCCATGATGATGTTTTCCGATGAAGAACAGCATGATTTACAAGCACTTTACGCCGAACACCAGAAGCGGGTCTCTTCAATAGGAAGCAATACGGCAAATTTTACTGAAGTCTATGAGGCGCCGGTAAATGAAACGGAGCGGCAGCTGGCGCGGATTTGGGAGGAACTTTTCGGCCTTGAACGGGTCGGCAGATCAGATCGCTTCCTGGCTCTGGGAGGAAACTCACTCCAGGCGACGCTTATGCTTTCCAAAGTTCAGAAGACATTTCATCAAAAGGTTTCCATCGGACAATTTTTTAATCACCAGACTGTTAAGGAATTAGCACGTTTCATTCAGAACGAAACGAAAGTCGTGCACCTCCCGATGAAGGCTGCCGAGAAAAAAGCGTATTACCCGACATCGCCGGCGCAGCAAAGAGTATATTTCCTGCACCAACTGGAACCGGATCAGCTGGCGCAAAATATGTTCGGCCACATCTCAATAACAGGGAAGTACGATGAGCAAGCCCTGATCTCATCTCTTCAACAAGTGATGCAGCGGCACGAAGCGTTTCGCACGTATTTCGACATTATAGATGGCGATATCGTTCAGAAACTTGAAAACGAAGTTGATTTTAACGTTCATGTCCGGACAATGAGCCGGGACGAATTTGATGCCTATTCAGAAGGGTTTGTAAAACCGTTCCGCCTGGACCAAGCTCCGTTAGTTCGTGCGGAGCTGATCAAGATTGAAAACGAGCAGGCAGAACTGCTCATCGATATGCATCATATCATTTCGGACGGTTATTCCGTCAACATCCTTACAAATGAATTGCTGGCTTTATATCATCAGAAACCATTACCGGACATTGAATTTGAATATAAAGATTTCGCAGAATGGCAAAACCAACGGCTGAATGACGATGCCATGAAGCGGCAGGAGACATATTGGCTGGAACAATTTCAAGACGAAATTCCCATCCTTGACCTGCCGACAGACGGTTCAAAAGCGGCAGAACGGTCTTCTGAGGGACAGCGTGTGACATGCTCCTTACAGCCGGATGTCATCCGTTCGCTTCAAGACTTGGCACAAAAGGCGGAAACGACTCTCTATACGGTGCTTCTGGCCGCCTATAATGTGCTGCTTCATAAATATACAGGACAAGAAGACATTGTCGTTGGCACGCCTGCATCAGGAAGAAATCATCCGGATATCGAAAAGATCATCGGTATTTTCATACAAACCATTGGAATCCGGACGAAGCCGCACGCCAATAGAACGTTTACGGATTATCTGGAAGAAGTAAAGCGGCAGACGCTTGACGCTTTCGAAAACCAAGACTATCCATTCGACCGGCTTGTGGAAAAATTAAATGTACAGCGGGAAACAACCGGAAAGTCTCTGTTTAACACGATGTTTGTGTTTCAAAACATTGAATTTCATGAAATCCGGCACAATGAATGTACATTTAAAGTGAAAGAACGAAATCCAGGGGTCTCTTTATATGATTTGATGCTCACGATCGAAGATGCCGGTCAACAGATAGAGATGCATTTTGATTATAAACCGGGACGATTCACAAAAGACACCATTGAACAGATCACCAGACACTATACCGGCATTTTAAACAGCCTTGTTGAGCAGCCGGAGATGACATTGTCTTCCGTTCCTATGCTGTCTGAAACCGAACGGCATCAACTGCTGACGGAGTGTAATGGCACAAAGACGCCGTATCCGCATAAGGAAACGGTATATCGGTGGTTTGAAATGCAGGCGGAACAGAGTCCCGATCATGAAGCCGTTATTTTTGGCAATGAGCGGTATACGTACAGACAGCTCAATGAACGGGCGAACCGATTGGCGCGGACGTTACGGACAAAAGGCGTACAAGCGGATCAATTCGTTGCCATCATCTGCCCGCATCGGATCGAGCTGATTGTCGGAATTTTGGCTGTTCTGAAAGCAGGCGGCGCATACGTGCCCATTGATCCTGAATATCCGGAAGATCGGATTCAATATATGCTGAGAGATTCAAGAGCGGAGGTTGTGTTGACACAGCGCAGCCTGCTGGATCAATTACCGTATGATGGCGACATTGTGCTTTTGGATGAGGAAAACTCATACCATGAGGATCACTCGAATCTTGAATCGGGCAGCGATGCGCATGATTTGGCCTACATGATCTATACGTCAGGTTCCACGGGAAATCCAAAAGGTGTACTCATTGAGCATCAGGGGCTGGCTAATTATATTTGGTGGGCGAAAGAGGTTTATGTAAGAGGTGAGAAAACCAACTTCCCATTATACTCTTCCATCTCTTTCGATCTGACTGTGACCTCGATATTTACACCGCTGGTTACGGGAAATACCATCATTGTCTTTGCCGGCGAAGATAAAAGCGCTGTGCTTTCAGAGATTATGCGGGACTCAAGAATAGACATGATCAAATTGACTCCGGCACATCTGCACGTTATCAAGGAGATGAACATCGCTGGCGGCACCGCAATACGGAAAATGATTGTCGGCGGAGAAAATTTAAGCACCCGTCTGGCCAAAAGTGTCAGCGAGCAGTTTAAAGGCCGGCTGGACATTTTCAATGAATACGGACCGACGGAAGCTGTCGTCGGATGTATGATTTATCACTTCGACGCAGAACGGGACAAGCGGGAATTTGTCCCGATCGGCACTCCGGCTGCCAACACGGATATTTATGTGGCCGATGCAAGCAGAAACCTGGTTCCGTTCGGGGTAATCGGCGAAATATATATCAGCGGACCGGGTGTTGCCAGAGGGTATTGGAACCGCCCGGATTTAACGGCAGAGAAATTTGTTGAAAACCCGTATGTCCCGGGAGCGAAGATGTACAAATCAGGGGATTTGGCTAAGCGATTGAAGGACGGAAATCTTGTATATATTGGGCGCGTTGATGAACAGGTCAAAATCAGGGGACACCGAATCGAGCTTGGTGAAATTGAAGCGGCAATGCATAACGCGGAAGCGGTGCAAAAAGCCGCGGTTACAGTGAAAGAAGAAGAAGACGGCTTAAAACAATTATGCGCGTATTACGTAAGCGACAAGCCTATAGCGGCTGCGCAGCTTAGGGAACAATTGTCATCGCAGCTTCCGGACTACATGGTTCCGTCCTATTTTGTCCATCTGGAGCATATGCCGTTAACATCCAACGGGAAAATAAACCGTAAGGCACTGCCTGCACCAGAAGCGAGTCTGCAGCAGACAGCTGAATATGTTCCGCCGGGTAATGAGACGGAGTCCAAACTGACAGATTTATGGAAGGAAGTGCTCGGAATAAGCCATGCGGGGATCAAACATAATTTCTTTGATCTCGGAGGCAACTCCATCCGAGCTGCTGCCTTAGCCGCCAGAATTCACAAAGAGCTGGATGTGAATCTGTCTCTCAAAGACATATTCAAGTTTCCTACCATTGAACAATTGGCTGACAAGGCGTTACACATGGACAAAAATCGATATGTACCGATTCCGGCTGCAAAGGAAATGCCATATTATCCGGTTTCTTCAGCTCAGAGGCGGATGTATTTGTTAAGTCACACAGAAGGCGGCGAGCTGACTTACAATATGACGGGTGCCATGAATGTGGAAGGGACGATCGATCCCGAACGGTTAAACGCCGCTTTCCGAAAATTAATCGCGCGTCATGAAGCGTTGCGGACCAGCTTTGATTTATATGAAGGCGAGCCGGCACAGCGTATTCATCAGAACGTCGACTTTACGATAGAACGAATTCAAGCAAGCGAAGAAGAAGCGGAAGACCGTGTGCTTGATTTCATCAAAGCGTTTGACTTAGCCAAACCGCCCCTGATGCGGGCCGGACTGATTGAAATTGAACCTGCGCGGCACGTGCTTGTGGTTGATATGCATCATATCATTTCTGACGGCGTGTCCGTCAATATTCTGATGAAAGATTTAAGCCGAATCTACGAGGGGAACGAACCGGACCCGCTCTCTATTCAATATAAAGACTTTGCAGTTTGGCAGCAATCGGACATTCAGAAACGGAACATCAAGAGCCAGGAAGCGTATTGGCTGGATCAGTTTCACGGTGATATTCCTGTACTGGATATGCCTGCGGATTATGAGCGGCCTGCCATACGCGATTACGAAGGCGAATCATTTGAATTTCTTATACCCGAACACTTGAAACAGCGTTTAAGCCAAATGGAAGAAGACACAGGAGCAACACTGTATATGATTTTATTGGCAGCCTATACGATTCTTTTATCCAAATACAGCGGACAAGAAGATATTATCGTAGGAACGCCATCTGCCGGGCGGACTCATTTGGATGTAGAGCCGGTCGTGGGAATGTTCGTCAATACGTTAGTCATTCGCAATCACCCGGCGGGCCGTAAAACATTTGATGCCTACTTAAACGAAGTAAAAGAAAACATGCTGAACGCCTATAAAAATCAAGACTATCCATTGGAAGAATTAATTCAGCATCTGCATCTTCCAAAAGATTCAAGCCGTAATCCTTTATTCGATACGATGTTTGTGCTGCAAAATCTTGATCATGCTGAATTGACTTTCGATTCCCTTCAACTCAAGCCGTATCCATTTCATCATCCGGTTGCCAAATTCGATTTGACCTTGTCGATTCAGGCGGACCGCGACAACTATCACGGACTGTTTGAATATTCGAAAAAACTGTTTAAGAAAAGCAGAATCGAGGTTTTATCAAACGACTACTTACACATCCTATCGGCGATTTTGGAACAGCCTAGCATTCTAATCGAACATATCGGATTGAGCGGCAGCAATGAGGAAGAAGAGAACGCGCTTGATTCTATTCAATTGAACTTTTAG	MYTSQFQTLVDVIRERSNISDRGIRFIESDKNETVVSYRQLFEEAQGYLGYLQHLGIKPKQEIVFQIQENKSFVVAFWACILGGMIPVPVSIGEDDDHKLKVWRIWNILNHPFLIASEKVLDKIKKYAAEHDLQDFHHQLNEKSDVIQDQTYDYPASFYEPDADELAFIQFSSGSTGDPKGVMLTHHNLIHNTCAIGTALHVHSKDSFLSWMPLTHDMGLIACHLVPFITGINQNLMPTELFIRRPILWMKKAHEHKASILSSPNFGYNYFLKFLKNEPDWDLSHIKVIANGAEPILPELCDEFLKRCAAFNLKRSAILNVYGLAEASVGAAFSKLGEEFVPVYLHRDYLNLGERAVKVSKEDQHCASFVEVGQPIDYCQLRISDETNERVEDGIIGHIHIKGDNVTQGYYNNPESTEKALTSDGWVKTGDLGFISERGNLVVTGREKDIIFVNGKNIYPHDIERVAIEMEEVDLGRVAACGVYDQKTQSGEIVLFVVYKKSPEKFAPLVKEIKKHLYKRGGWSIKEVLPIRKLPKTTSGKVKRYELARQYEAGNFSTESAAINECLESSPETSGQTPIHEIETELLSIFSDVLNGKKVHLADSYFDMGANSLQLSQIAERIEQKFGRELAVSDLFTYPSITDLAAYLSESRAEIKQDAAAKPSHVTPKDIAIIGMSLNVPGASTKSDFWNLLEKGEHSIREYPESRLKDAADYLKSIQSEFNESQFVKGGYLDEIDRFDYSFFGLAPKAAQFMDPNQRLFLQSAWHAIEDAGYAGGSMNGSRVGVYAGYSKVGYDYERLLSANYPEELHQYIVGNLPSVLASRIAYFLNLKGPAVTVDTACSSSLAAVHMACKSLMSGDCEMALAGGIRTSLLPICIGLDMESSDGYTKTFSKDSDGTGTGEGAAAVLLKPLQEAVRDGDHIYGVIKGSAMNQDGTTAGITAPNPAAQTEVIETAWKDAGIAPETLSFIEAHGTGTKLGDPVEFNGLCKAFEKYTAKKQFCAIGSVKSNIGHLFEAAGIVGLIKSVLMLNHKKNPPLAHFNEPNPLIHFHSSPFYVNQEVSEFTSGDEPLRGGVSSFGFSGTNAHVVLEEYISQSEYAPEDEHGPHLFVLSAHTEKSLYELAQQYRQYVSDDSQASLKSICYTASTGRAHLDHSIAMIVSGKQELSDKLTRLIQGDRNLPGVYIGYKNMKEMLPAHKEELNQQAAALIKQRLRTQDERITWLHRAAELFVQGAVIDWRALYSGETVQKTPLPLYPFERSRCWAEADQLRLNEGEKKGGAALNINQSKAHIESFLKTVISNASGIRAEELDLNAHFIGLGMDSIMLSQVKKAIADEFGVDIPMDRFFDTLTNLQSVIDYLADTVPSSFASAPPQENVPAQEKQVISEAQPESDRRDGHQEYTLEKIIASQNQLIQDALQAQLNSFNLLRNSGHHSDEKEYAKAQEKSIPSVKQGPPTVNAEQKAAQEAKPYVPFQPQNLNDQGHYTARQKQYLEDFIKKYADKTKGSKQYTDNTRFAHANNRNLSSFRSYWKEIVYPIIAERSDGSKMWDIDGNEYIDITMGFGVNLFGHHPSFITQVIDDSTRSSLPPLGPMSDVAGEVADRIRTCTGVERVAFYNSGTEAVMVALRLARAATGRKKVVAFSGSYHGTFDGVLGVAGTKGGAASANPLAPGILQSFMDDLIILHYNNPDSLDVIRSLGDELAAVLVEPVQSRRPDLQPQAFLKELRAITRQSGTALIMDEIITGFRIGLGGAQEWFGIQADLVTYGKIIGGGQPLGVVAGKAEFMNAIDGGTWQYGDDSYPQDEAKRTFVAGTFNTHPLTMRMSLAVLRHLQTEGEHLYEQLNQKTAYLVDELNRCFEQAQVPIRMVRFGSLFRFVSSLDNDLFFYHLNYKGVYVWEGRNCFLSAAHTTDDIENIIQAVKDTVEDLRRGGFIPEGPDSPDGGSRKKSGTRELSPEQKQLVMASHYGNEASAALNQSIMLKVKGELQHTPLKQAVRHIVDRHEALRTVIHPDDEVQQVQERMNIDIPVIDFTGLPHEHRGPEIQKWLTEDAKRPFHFHEQKPLFRIHVLTSAHNEHLIVLTFHHIIADGWSIAVFVQELESNYAAIVQGKPISPKEADVSFRQYLDWQQAQIDSGHYEEGVRYWRRHFSEPIQQPILPSTASVRYPNGYEGDRCTVRLGRPLSEALRSLSIQMKNSVFVTMLGAFHLFLHRLTKQSGLVIGIPAAGQSHMKQHALIGNCVNMIPVKNTSSSESTLSGYLGNMKESVNLAMRHQAVPMTLVARELPHDQVPDMRIIFNLDRPFRKLHFGKAEAEPVAYPVKCTLYDLFLNITDAHQEYVLDFDFNTNVISPEIMKKWGAGFTKLLQKMVEGDSIPLGAMMMFSDEEQHDLQALYAEHQKRVSSIGSNTANFTEVYEAPVNETERQLARIWEELFGLERVGRSDRFLALGGNSLQATLMLSKVQKTFHQKVSIGQFFNHQTVKELARFIQNETKVVHLPMKAAEKKAYYPTSPAQQRVYFLHQLEPDQLAQNMFGHISITGKYDEQALISSLQQVMQRHEAFRTYFDIIDGDIVQKLENEVDFNVHVRTMSRDEFDAYSEGFVKPFRLDQAPLVRAELIKIENEQAELLIDMHHIISDGYSVNILTNELLALYHQKPLPDIEFEYKDFAEWQNQRLNDDAMKRQETYWLEQFQDEIPILDLPTDGSKAAERSSEGQRVTCSLQPDVIRSLQDLAQKAETTLYTVLLAAYNVLLHKYTGQEDIVVGTPASGRNHPDIEKIIGIFIQTIGIRTKPHANRTFTDYLEEVKRQTLDAFENQDYPFDRLVEKLNVQRETTGKSLFNTMFVFQNIEFHEIRHNECTFKVKERNPGVSLYDLMLTIEDAGQQIEMHFDYKPGRFTKDTIEQITRHYTGILNSLVEQPEMTLSSVPMLSETERHQLLTECNGTKTPYPHKETVYRWFEMQAEQSPDHEAVIFGNERYTYRQLNERANRLARTLRTKGVQADQFVAIICPHRIELIVGILAVLKAGGAYVPIDPEYPEDRIQYMLRDSRAEVVLTQRSLLDQLPYDGDIVLLDEENSYHEDHSNLESGSDAHDLAYMIYTSGSTGNPKGVLIEHQGLANYIWWAKEVYVRGEKTNFPLYSSISFDLTVTSIFTPLVTGNTIIVFAGEDKSAVLSEIMRDSRIDMIKLTPAHLHVIKEMNIAGGTAIRKMIVGGENLSTRLAKSVSEQFKGRLDIFNEYGPTEAVVGCMIYHFDAERDKREFVPIGTPAANTDIYVADASRNLVPFGVIGEIYISGPGVARGYWNRPDLTAEKFVENPYVPGAKMYKSGDLAKRLKDGNLVYIGRVDEQVKIRGHRIELGEIEAAMHNAEAVQKAAVTVKEEEDGLKQLCAYYVSDKPIAAAQLREQLSSQLPDYMVPSYFVHLEHMPLTSNGKINRKALPAPEASLQQTAEYVPPGNETESKLTDLWKEVLGISHAGIKHNFFDLGGNSIRAAALAARIHKELDVNLSLKDIFKFPTIEQLADKALHMDKNRYVPIPAAKEMPYYPVSSAQRRMYLLSHTEGGELTYNMTGAMNVEGTIDPERLNAAFRKLIARHEALRTSFDLYEGEPAQRIHQNVDFTIERIQASEEEAEDRVLDFIKAFDLAKPPLMRAGLIEIEPARHVLVVDMHHIISDGVSVNILMKDLSRIYEGNEPDPLSIQYKDFAVWQQSDIQKRNIKSQEAYWLDQFHGDIPVLDMPADYERPAIRDYEGESFEFLIPEHLKQRLSQMEEDTGATLYMILLAAYTILLSKYSGQEDIIVGTPSAGRTHLDVEPVVGMFVNTLVIRNHPAGRKTFDAYLNEVKENMLNAYKNQDYPLEELIQHLHLPKDSSRNPLFDTMFVLQNLDHAELTFDSLQLKPYPFHHPVAKFDLTLSIQADRDNYHGLFEYSKKLFKKSRIEVLSNDYLHILSAILEQPSILIEHIGLSGSNEEEENALDSIQLNF	PGPT0012285_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012285-ituA|mycA|bmyA|nrsA|pksM1-K15661	NA	NA
D1-12_01030	1203	fenF		Malonyl CoA-acyl carrier protein transacylase	ATGAACAATCTTGCCTTTTTATTTCCTGGACAAGGGTCTCAATTTGTAGGAATGGGCAAACAATTTTGGAATGATTTTGTGCTCGCAAAGAGATTGTTTGAAGAAGCGAGCGATGCGATCTCCTTGGATGTAAAAAAACTGTGTTTTAACGGAGATATGAATGAATTGACAAAGACAATGAACGCGCAGCCCGCTATTTTAACGGTCAGTGTGATTGCTTTTCAAGTGTATATGCAGGAAATAGGGGTGGAGCCCCGCTTCCTGGCAGGCCATAGCTTAGGCGAATATTCAGCGCTTGTCTGTGCCGGCGCCCTTTCTTTTCAGGATGCCGTTACACTTGTAAGGGAGCGGGGAATTCTTATGCAAAATGCGGATCCCCATCAGCAGGGGACGATGGCCGCCGTGACACAGCTCTCTCTCCAAACGTTGCAGGAAATATGTTCGAAAGTATCGACGGAAGACTTTCCGGCAGGTGTAGCCTGCATGAATTCAGAACAGCAGCATGTGATTTCCGGACACCGGCAAGCTGTGGAACGTGTCATCAAGATGGCGGAGGAAAAGGGTGCGGCATACACTTATTTGAATGTCAGTGCGCCTTTTCACAGTTCGATGATACGATCAGCCTCCGAACAATTCCAGACTGTTTTACACCGGTATTCTTTCCGGGATGCCGCATGGCCGATCATTTCAAATGTCACCGCGCGCCCTTACAGCAGCGGAAATTCGATCAGCGAACATCTCAAGCAGCACATGACGATGCCGGTTAGATGGACAGAATCGATGCATTATTTGCTTTTACATGGAGTCACAGAAGTTATCGAAATGGGTCCGAACAATGTCTTAGCCGGGCTGCTGAGAAAAACAACGAATCACATTGTACCTTATCCCTTAGGACAGACATCTGATGTTCCCCCGCTTTCCAATTCAGCGGAAAGAAAGAAACATATTGTCCATTTACGCAAAAAACAACTGAATAAATTGATGATTCAATCCGTCATTGCGCGAAATTACAACAAGGATTCAGCGGCTTATTCCAATATGACGACGCCATTATTTACGCAAATCCAAGAGCTGAAAGAGAGAATGAAAAGGCATGAAGACGTGCTTTCAGAACAAGAACTCGAACATTCGATCCATTTATGCAAATTAATTTGCGAGGCTAAACAGCTTCCGGATTGGGAAGAATTGCGGATTTTAAAATAA	MNNLAFLFPGQGSQFVGMGKQFWNDFVLAKRLFEEASDAISLDVKKLCFNGDMNELTKTMNAQPAILTVSVIAFQVYMQEIGVEPRFLAGHSLGEYSALVCAGALSFQDAVTLVRERGILMQNADPHQQGTMAAVTQLSLQTLQEICSKVSTEDFPAGVACMNSEQQHVISGHRQAVERVIKMAEEKGAAYTYLNVSAPFHSSMIRSASEQFQTVLHRYSFRDAAWPIISNVTARPYSSGNSISEHLKQHMTMPVRWTESMHYLLLHGVTEVIEMGPNNVLAGLLRKTTNHIVPYPLGQTSDVPPLSNSAERKKHIVHLRKKQLNKLMIQSVIARNYNKDSAAYSNMTTPLFTQIQELKERMKRHEDVLSEQELEHSIHLCKLICEAKQLPDWEELRILK	PGPT0008350_288	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
D1-12_01031	786	bdhA		D-beta-hydroxybutyrate dehydrogenase	ATGCATTCATTGCTTATTGAAAAAACAGCCGTTGTAACAGGAGCAGCCGGAGGAATCGGGCTTGAAATCGCAAAAGAATTCGCCCGTGAAGGAGCAGCCGTCATCATCTCTGATATAAACGAACAAGCGGGGAAAGAAGCGGCGGCAAGACTGAAAGAAGAAGGCTGTGAAGCAGTCAGCATCACATGCGATGTAACAAATGAAAGACAAGTGGCCGATATGCTGCAGACGGTTGAGAAACAATTCGGACGTCTCGATATCCTTGTGAATAATGCGGGCATTCAGCATGTTGCGCCCATCGAGGAATTTCCCACCGAACAGTTTGAACGGCTCATTCGTCTCATGCTGACTGCGCCATTTATTGCAATGAAGCATGCATTTCCCATTATGAAAAAACAGCAATTCGGTCGAATCATTAATATGGCGTCTGTCAACGGACTGATCGGTTTTCACGGGAAAGCGGCATATAACAGCGCCAAGCACGGCGTCATCGGTTTAACGAAAGTCGGCGCACTTGAAGGCGCGGCTGACGGCATTACCGTCAATGCGCTTTGTCCGGGATATGTGGACACTCAGCTTGTCCGCAATCAGTTAAAGGACATTTCCGCAACAAGGAATGGACCGTACGAACGGGTGCTTGAGGACGTCATCTTTCCGCTCGTTCCCCAACAACGGCTGCTGTCAGTGAAAGAAATCGCTGATTACGCCGTATTTTTGGCCAGCGACAAAGCAAAAGGGGTCACAGGTCAGGCCGTAGTCATGGATGGCGGGTATACCGCTCAATAG	MHSLLIEKTAVVTGAAGGIGLEIAKEFAREGAAVIISDINEQAGKEAAARLKEEGCEAVSITCDVTNERQVADMLQTVEKQFGRLDILVNNAGIQHVAPIEEFPTEQFERLIRLMLTAPFIAMKHAFPIMKKQQFGRIINMASVNGLIGFHGKAAYNSAKHGVIGLTKVGALEGAADGITVNALCPGYVDTQLVRNQLKDISATRNGPYERVLEDVIFPLVPQQRLLSVKEIADYAVFLASDKAKGVTGQAVVMDGGYTAQ	PGPT0008310_1253	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
D1-12_01032	663	scoB_1	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGAGAGATAGCAGAAAACGAATGATCAAACGGGCTGTAAAAGAAATTAAGGACGGAATGAATGTGAACTTGGGGATAGGGATGCCGACGCTTGTAGCCAATGAGATACCGAATGATTATAACGTCCTGCTTCAGTCTGAAAACGGCTTGCTCGGGATCGGGCCTTATCCGGCGGAAGGAACGGAGGACCCCGATCTGATCAACGCGGGAAAAGAAACCATCACCGAAGTAAAGGGAGCCTCGTATTTTGACAGTGCCGAATCCTTTGCCATGATTCGCGGCGGCCACATTGATGTAGCGATCCTCGGCGGGATGGAAGTGTCCGAACGGGGAGATTTGGCGAACTGGATGATCCCAGGAAAAATGATCAAAGGAATGGGCGGCGCCATGGACTTGGTCCACGGAGCAAAACGGATTATTGTCATTATGGAGCACGTTAATAAATATGGGGAATCTAAAGTGAGAACGGAATGTACGCTGCCTTTAACCGGCAGGCAGGTGGTCGATCGGCTGATCACAGATTTGGCTGTATTCGATTTTCATGATGGCCGTATGACGCTCACCGAACTGCAGGAAGGTGTAACAATGGAGGAGGTCTTTGAGAAAACAGAAGGTCATTTTACTGTCAGCCAGTCGTTAAAAGACGGGGTCAGACCAAAATAA	MRDSRKRMIKRAVKEIKDGMNVNLGIGMPTLVANEIPNDYNVLLQSENGLLGIGPYPAEGTEDPDLINAGKETITEVKGASYFDSAESFAMIRGGHIDVAILGGMEVSERGDLANWMIPGKMIKGMGGAMDLVHGAKRIIVIMEHVNKYGESKVRTECTLPLTGRQVVDRLITDLAVFDFHDGRMTLTELQEGVTMEEVFEKTEGHFTVSQSLKDGVRPK	PGPT0008330_80	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
D1-12_01033	684	scoA	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGGACTCTTATCAAGATGCTGCTGCACTGATCAAGGACGGAGACACCCTCATCGCAGGAGGCTTCGGCCTGTGCGGCATTCCGGAACAATTAATTCTCGCGATCAGGGACAGCGGCGTAAAAAACTTGACCGTTGTCAGTAATAACTGCGGTGTTGATGATTGGGGGTTAGGCCTCTTGCTTGCAAACCGGCAGATCAAAAAAATGGTCGCATCCTATGTGGGAGAAAACAAAACCTTTGAACGGCAGTTTTTAAGCGGAGAGCTGGAAGTCGAATTGGTGCCCCAAGGAACGCTCGCAGAAAGAATTCGCGCGGGAGGGGCGGGCATTCCGGCGTTTTACACACCTGCGGGCGTCGGAACATCAGTAGCCGAGGGAAAAGAACATAAGACATTTGACGGACGCACCTATCTTCTGGAGAAGGGAATTACAGGGAACACCGCCATCGTAAAGGCCTGGAAAGCCGATCCTCTGGGCAACCTGATGTTCAGAAAGACGGCGAGAAATTTCAATCCGCTCGCTGCAATGGCAGGCAAAGTGACGATTGCAGAGGCTGAAGAAATCGTCGATGCCGGAGAGCTTGATCCGGATCAAATTCATACGCCGGGTATTTTTGTGCAGCACGTGCTGCTCGGCGGGATTCATGAAAAACGGATTGAGCGCCGCACCGTCCGGCAAGCATGA	MDSYQDAAALIKDGDTLIAGGFGLCGIPEQLILAIRDSGVKNLTVVSNNCGVDDWGLGLLLANRQIKKMVASYVGENKTFERQFLSGELEVELVPQGTLAERIRAGGAGIPAFYTPAGVGTSVAEGKEHKTFDGRTYLLEKGITGNTAIVKAWKADPLGNLMFRKTARNFNPLAAMAGKVTIAEAEEIVDAGELDPDQIHTPGIFVQHVLLGGIHEKRIERRTVRQA	PGPT0008325_1222	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
D1-12_01034	1446			hypothetical protein	GTGGACATTGTTATTATTTTATTGGCATTAGGCATGCTGATGTTTGCGGCTTACCGGGGCTTTTCAGTCATTTTATTCGCCCCGATTTGCGCGCTGTTTGCTGTGCTCCTGACAGATCCAAGCTTCGTACTTCCTTTCTTCTCGAATATATTTATGGAGAAGATGGTAGGATTTATTAAGCTGTATTTTCCCGTATTTCTTTTAGGGGCCGTTTTTGGCAAGGTTGTTGAAATATCCGGCCTCGCCGAGTCGATTGCAAAAACAATCGTCAAGCTTGTGGGAGCAAAAAGAGCCATTCTCGCCATCGTCTTAATGGGTGCGATTTTAACGTACAGCGGCGTCAGTCTCTTCGTAGCGGTGTTTGCCATTTATCCGTTTGCTAAAAACCTATTTATGAAAGCTGATATTCCCAAGCGTCTGATACCCGGTACGATTGCATTGGGCGCCTTTACATTTACAATGGATGCGCTTCCCGGCACACCGCAAATTCAAAATGTCATTCCGACAGCATTTTTTAAAACAAACATTTATGCCGCTCCCTGGCTCGGACTGATTGGTGCAGCATTTGTGCTTACGGCCGGAATGATTTATTTAGAATCCCGGCGCAAAAAAGCGGCCAATGCCGGAGAAGGCTATGCTGGATTTCAATCTGAAGTTTCCGCTGCAGAGGAATCCTCAGGTCTGGCTAATGAAAAACATACGCCTGTTTTACCTCGGGAGGCAGAATCCAGCCCCGCGCGGCAAGTGCTCGCCTTTGTTCCGCTTATCCTTGTGGGAGTCATGAACAAATGCTTCACGATGTGGCTCCCGCATTGGTACCCTGACGGATTTGATTTTGCGCCGCTCGGTTTAGAAGCGTTCGGGAAGATTGACCTTTCCTCTGTCACTGCGATCTGGTCAGTAGAACTCGCACTGTTCATCGGAATCATGACAACGATTTTGTTCGATTGGAAAAAAGTCCTCTTCAATTTGAAAGAAGGACTGAATGAGGGCATCGGGGGCGCCTTGCTGGCGTCGATGAATACAGGAGCCGAATACGGATTTGGCGGCATCATTGCGGCGCTTCCCGGCTTTAAAATGGTCAGCAGCGGCATATCGCAGACGTTTACTGATCCGCTCGTCAACGGAGCGGTGACGACCACTGCGCTTGCCGGGATTACAGGATCGGCATCAGGAGGAATGGGCATCGCTTTAAGCACGATGTCAGCAGCGTATACAGAAGCAATCAATACATTCCACATCCCGCCGGAGGTCATGCACCGGGTAATTTCGATGGCCTCCGGCGGGATGGACACTCTTCCGCATAATGGCGCCGTCATTACGCTGCTCGCGGTCACCGGGTTGACCCACCGCCAATCTTACAGGGATATCTTTGCCATTACCGTCATTAAAACAGCCGCTGTGTTTGTCATCATCGCCATTTACAGTCTGACGGGCCTTGTGTAG	MDIVIILLALGMLMFAAYRGFSVILFAPICALFAVLLTDPSFVLPFFSNIFMEKMVGFIKLYFPVFLLGAVFGKVVEISGLAESIAKTIVKLVGAKRAILAIVLMGAILTYSGVSLFVAVFAIYPFAKNLFMKADIPKRLIPGTIALGAFTFTMDALPGTPQIQNVIPTAFFKTNIYAAPWLGLIGAAFVLTAGMIYLESRRKKAANAGEGYAGFQSEVSAAEESSGLANEKHTPVLPREAESSPARQVLAFVPLILVGVMNKCFTMWLPHWYPDGFDFAPLGLEAFGKIDLSSVTAIWSVELALFIGIMTTILFDWKKVLFNLKEGLNEGIGGALLASMNTGAEYGFGGIIAALPGFKMVSSGISQTFTDPLVNGAVTTTALAGITGSASGGMGIALSTMSAAYTEAINTFHIPPEVMHRVISMASGGMDTLPHNGAVITLLAVTGLTHRQSYRDIFAITVIKTAAVFVIIAIYSLTGLV				NA	NA	NA	NA	NA
D1-12_01035	1197	bioI	COG2124	Biotin biosynthesis cytochrome P450	ATGACGGCGGGCCTATCGATTGCACATCCGTCTCTCCATGCGGATTCGGATTTTTGGAATGACCCTTACCCGTTTTATGAAAAACTGCGATCCATTGATCCTGTTTATAAAGGGACCGTATTAAAATATCCGGGCTGGTATGTCACCGGGTACAAAGAGGCGGCAGCGATTCTGAAAGACACCCGATTTAAAAACCGCATTCCTCTTCCGGAAGCTTCAACGAAATATCAAAATCTATCGCATATCCAGCACGATATGCTGTTATTTAAAAATCAATCAGACCATAAGCGGATGCGGATGCTTATCGGTAAAGAATTTACCGCAAAGACGGCGGAATCACTTCGCCCTTGTATAAAAGAAACGGTTCATGACTTGTTGGATCAAGTCCAAATCAAAAAAAACGCTGACCTTGTTTCAGAGTTTGCCTTTCCATTGGCAAGCCTTATCATTGCGGAGATACTCGGAGTGCCGAAAGAGGAGAGATATCAATTCAGACAATGGACGGCAGACGTCATTCAGGCCATTGATCTTACCCGATCAAGAAAGACGTTAGTCAGAGCCAGCGACACCGCAGGCAGGCTGACGTCATACTTCAGAGATTTGATTCACAAGCGGAAAGCTCACCCTCAGCAAGACTTGATCAGCAGGTTTATTATGGAGGAACAGCTTTCAAAAGAGGAAGTGCTCGCGACATGTATCTTACTTGTCATAGCCGGACACGAGACGACGGTAAACCTCATGTGCAACGGTGTGTTTACTTTATTGAAACACCCTGAACAGCTTAGCGCACTGAGAGAAAACCCCTCGCTTATTGAAACTGCAGTTGAGGAATGTTTGCGCTACGACAGCCCCGCGCAGCTGACGGCACGCACCGCTTCAGAAGACTGTGAAATAAATGGGAAGACCATAAAAAAAGGAGAGCAGGTATATATCCTTTTAGGAGCAGCCAATCGCGATCCAAGCATATTCGATCAACCTCACAAAATGGATATCCAAAGAAGGCCGAATCCGCATCTTGCATTCGGAAAGAACGCCCATTTTTGTATAGGCTCCTCATTAGCGCGTATCGAAGCACAAATTGCAATTCTCACACTGTTTGAGCGGATGCCTAAGCTTCGGCTGGCCGCACACCGCCTTGAATACCGCAAGCTCATTGGTTTTAGGTCGCTCAAAGAGCTTCCGGTTGTCATTGGCTGA	MTAGLSIAHPSLHADSDFWNDPYPFYEKLRSIDPVYKGTVLKYPGWYVTGYKEAAAILKDTRFKNRIPLPEASTKYQNLSHIQHDMLLFKNQSDHKRMRMLIGKEFTAKTAESLRPCIKETVHDLLDQVQIKKNADLVSEFAFPLASLIIAEILGVPKEERYQFRQWTADVIQAIDLTRSRKTLVRASDTAGRLTSYFRDLIHKRKAHPQQDLISRFIMEEQLSKEEVLATCILLVIAGHETTVNLMCNGVFTLLKHPEQLSALRENPSLIETAVEECLRYDSPAQLTARTASEDCEINGKTIKKGEQVYILLGAANRDPSIFDQPHKMDIQRRPNPHLAFGKNAHFCIGSSLARIEAQIAILTLFERMPKLRLAAHRLEYRKLIGFRSLKELPVVIG	PGPT0022085_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022085-bioI|CYP107H-K16593	NA	NA
D1-12_01036	1020	bioB		Biotin synthase	ATGAATCAATGGATGGATCTTGCAGAGAGAGTGCTGGACGGGGCGGAAGTAACGAATCAAGAAGCGCTGGCCATTTTAAATTGTCCTGATGAGGATCTTTTATTGCTGATGCATGCCGCTTTTCATATCAGAAAACGATTTTACGGAAAAAAAGTAAAGCTGAATATGATTATGAATGCAAAATCAGGCCTGTGTCCGGAAAATTGCGGGTACTGTTCACAATCTTCAATATCAAAAGCGCCGATCGAGTCTTATCGGATGGTGGATAAGCATATATTGCTGAAGGGGGCAAAACGCGCCCACGACCTGAATATAGGGACATACTGTATCGTCGCCAGCGGGCGGGGACCGTCAAACAGAGAAGTAGATCAAGTTGTTGATGCTGTCAAAGAAATTAAAGAAACGTACGGTTTAAAAATCTGCGCATGCCTCGGTCTGCTGAAGCCGGAACAGGCAGAGCGGCTGAAACAGGCAGGAGTAGACCGGTACAATCATAACATCAATACATCACAAAGGAATCACTCAAACATTACGACCTCCCACACGTATGACGACAGGGTCAACACAGTGGAAACGGCGAAACAATCGGGGATGTCACCTTGTTCTGGTGTCATCGTCGGCATGAAAGAGACGAAACAGGACGTCATTGATATGGCGAACAGCTTAAAAGCGCTTGACGCCGACAGCATCCCGGTTAATTTTCTGCATGCGATTGACGGAACTCCGTTAGAAGGGGTAAGCGAATTACATCCGGTGTATTGCCTGAAAGTGCTCGCCTTGTTCCGTTTTATCAATCCGTCAAAAGAAATCCGTATCTCAGGAGGCCGGGAAGTCAACCTTCGTTCGCTGCAGCCGCTGGGACTTTATGCCGCAAATTCGATTTTCGTCGGAGATTACTTAACGACAGCAGGGCAGCAAGAAACAGAGGATCATCAAATGCTCCATGATTTAGGTTTTGAAGTCGAATCCGTTGAAGAAATGAAAGCCGGCCTGCAATCCGCCTGCAATACGGAGGTATAA	MNQWMDLAERVLDGAEVTNQEALAILNCPDEDLLLLMHAAFHIRKRFYGKKVKLNMIMNAKSGLCPENCGYCSQSSISKAPIESYRMVDKHILLKGAKRAHDLNIGTYCIVASGRGPSNREVDQVVDAVKEIKETYGLKICACLGLLKPEQAERLKQAGVDRYNHNINTSQRNHSNITTSHTYDDRVNTVETAKQSGMSPCSGVIVGMKETKQDVIDMANSLKALDADSIPVNFLHAIDGTPLEGVSELHPVYCLKVLALFRFINPSKEIRISGGREVNLRSLQPLGLYAANSIFVGDYLTTAGQQETEDHQMLHDLGFEVESVEEMKAGLQSACNTEV	PGPT0022120_2338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
D1-12_01037	702	bioD1	COG0132	ATP-dependent dethiobiotin synthetase BioD 1	ATGAGAAGTTTTTTTGTCACAGGAACAGATACCGGCGTCGGAAAAACCATCGTTTCTTGCGGACTTGCCGCGGCATTCCGGCAGAAACAGGCGGATATCGGAGTGTTTAAGCCGTTTTTAAGCGGCGTGCCGCGGACTCATCCGGAAAGTGACACCTCGCTGTTGAAAGACATGTCACAAACCGCACTGTCTCATGAAAAAATTACGCCATTTGAATGGAAAGAGCCGCTTGCGCCGTACACGGCCGCCATGCTTGAGGGGAAATCCGTGAGTATGGATGAAGTCATGGCCCACTGGAGTAAGATCAAAAATCGTCATGAGTGTTTCATCATCGAGGGGGCAGGCGGCATTTCCGTCCCGCTTGGTGAAAATTACTTAGTCAGTGATCTGATAAAAGCCTTGGAATTGCCGGCAGTGATTGTCACCAGGCCTGATCTCGGAACCATCAACCACACATATTTAACCGTTGAATATGCGAAAAACATGGGGATAGAGGTTCTCGGCATTATTATCAACGGCGTAAGGAGCAGGCCGGGGCTGGACGAAAAGACGAACCCGAGCATGATTGAAACATTATGCAAAGTTCCGATTTTGGGAATCACACCGAAGCTGGATCACGTTTCACCGGAAAACATTCAACACATGATTGAGAAACATATAGATGTTTCCTCTTTCATGAATCTGACACAAATGGGGAGATAA	MRSFFVTGTDTGVGKTIVSCGLAAAFRQKQADIGVFKPFLSGVPRTHPESDTSLLKDMSQTALSHEKITPFEWKEPLAPYTAAMLEGKSVSMDEVMAHWSKIKNRHECFIIEGAGGISVPLGENYLVSDLIKALELPAVIVTRPDLGTINHTYLTVEYAKNMGIEVLGIIINGVRSRPGLDEKTNPSMIETLCKVPILGITPKLDHVSPENIQHMIEKHIDVSSFMNLTQMGR	PGPT0022115_1027	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
D1-12_01038	1161	bioF	COG0156	8-amino-7-oxononanoate synthase 2	GTGGATTTTGACGGATGGCTCCTCGGAAGGCTCGATGCGGTGAAAAGAGACGGGCTGTATCGGACGCTGCGAACACAGGAAACCGCTCTTAAAACCAAGGGGCAAAAGCGGCAGACCTGGGCGTCCAATGACTATTTAGGTCTGTCAAAAGATGAACGGCTGATCACAGCCGCGCAAACAGCGCTGAGCCGGTTCGGAGCGGGAAGCGGCGGCTCACGGTTAACGACAGGAAATACTGTGTGGCACGAAAAACTTGAACAAACAATCTCGGATTTTAAACAGACGGAAGCGTCTTTATTGTTTTCAAGCGGTTACTTGGCGAATATCGGCGTGCTTGCCTCACTGCCTCAAAAAGGCGATGTCATTTTAAGCGATCAACTGAACCATGCGAGCATTGTTGATGGCTGCCGTTTATCAAAAGCGGAAACCATCGTGTACCGCCATATTGATATGGATGATCTTGAGAAAAAACTTGCCTCCGTCCAGACGCGGAACCGCCGCTTTATCGTCACAGACGGCGTTTTCAGCATGGACGGCACCATCGCGCCTCTTGACCGCATAATGGCGCTTGCAAATCAGTACCAGGCATTTGTGATAGCAGATGACGCGCATGCAACCGGTGTACTCGGAGAAAACGGCGGAGGAACCAGTGACTATTTCGGTGTTTGTCCTGATGTTGTCATCGGCACATTAAGCAAAGCAGTCGGAACGGAAGGCGGTTTTGCCGCGGGATCAAACATTTTCATTGATTTTTTGCTGAATCAGGCGAGGACGTTTATTTTTCAGACGGCCCTCCCGCCGTCAATTTGTGCAGCTTCGCATACGGCACTTGACATCATATCAGATATGCACGATACGCGCCGTGAGCTGCAGTCGTCTGTCAAAACGATAAAAACGCGTCTGGCCGATATGGGCTTTACCGTAAGAGGCGGAGATACACCGATTATCCCCGTTATCATCGGTGATGCAAAAACAGCGGTTTCAGCCGCTGCGCTGCTGGAGAAAAAGGGAATCTGCGCCCCGGCCATCCGCCCGCCCGCCGTTCCGGAAGGCGAAAGCAGAATCAGGCTGACCGTTACGGCGGATCGCAGCTTACAGGACATAGACGAGCTGACAGAAGCATTTGATTCCATTAGAAAAGAGCTGAATATAAACAAATGA	MDFDGWLLGRLDAVKRDGLYRTLRTQETALKTKGQKRQTWASNDYLGLSKDERLITAAQTALSRFGAGSGGSRLTTGNTVWHEKLEQTISDFKQTEASLLFSSGYLANIGVLASLPQKGDVILSDQLNHASIVDGCRLSKAETIVYRHIDMDDLEKKLASVQTRNRRFIVTDGVFSMDGTIAPLDRIMALANQYQAFVIADDAHATGVLGENGGGTSDYFGVCPDVVIGTLSKAVGTEGGFAAGSNIFIDFLLNQARTFIFQTALPPSICAASHTALDIISDMHDTRRELQSSVKTIKTRLADMGFTVRGGDTPIIPVIIGDAKTAVSAAALLEKKGICAPAIRPPAVPEGESRIRLTVTADRSLQDIDELTEAFDSIRKELNINK	PGPT0022095_2498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
D1-12_01039	1347	bioK	COG0161	L-Lysine--8-amino-7-oxononanoate transaminase	ATGAAACAATCAATGATTGAAAAAAGCAAACAGCATCTTTGGCTGCCTTTCACACAAATGAAAGATTACGATGAAGATCCGTTAATCATTGAAAGCGGAAACGGGATCATGCTGAAAGACATCAGCGGCAAAGAATATTATGACGGCTTTTCTTCAGTATGGCTCAATGTACACGGCCACCGCAAAAAAGAAATGGATGAAGCGATTCAAAAACAGCTTGAAAAAATCGCTCATTCGACTTTGCTGGGTATGACGAACGTTCCCGCAACAGAACTTGCAGAAATGCTGACGGGCATCACACCGGAAAAGCTGACACGCGTTTTTTACTCCGACAGCGGAGCGGAAGCAATGGAAATCGCTCTGAAAATGGCCTTTCAATACTGGAAAAACGTAGGGAGACCTAAGAAGCAGACGTTTATTTCGATGCAGAACGGCTATCACGGCGATACGATCGGAGCCGTCAGCGTCGGCTCCATTGAACTCTTCCACCATGTGTACGGCCCGCTGATGTTTGAAAGCTACAAAGCCCCGATTCCTTATGTATACAGATCTGAAAGCGGTGACCCCGTACAGTGCCGGGATGAATGCCTTCACGCGCTCGAACAGCTGCTTGCAAAGCACCACGAAGAGATTGCCGCACTTACGATTGAATCGATGGTGCAAGGCGCATCCGGGATGATCGTCATGCCTGAAGGCTTTCTGGCAGGCGTACGAAAGCTGTGTACGGCATATGATGTGTTAATGATCGTTGACGAAGTGGCGACGGGGTTCGGCCGCACCGGAAAAATGTTTGCCTGTGAGCATGAAAACGTCCAGCCGGACTTGATGGCGGCAGGGAAAGGCATTACGGGAGGCTATTTGCCGATCGCTGTGACGTTTGCCACAGAAGCCATTTATGAAGCCTTCTACGATGACTACGACAAAATGAAAACATTTTTCCACGGCCATTCCTATACAGGAAATCAGCTTGGCTGTGCCGCGGCAATTGAAAATCTGCGTTTATTCGAATCAGAGCGCATCGTTGAACGAGTCGCCGAAAAATCAAAAACGGCTGCGAAATTTCTTCATGATCTGAAGCAGCTTCCTCATGTCGGCGATGTCCGCCAGCTCGGTTTGATGTGCGGCATAGAGCTTGTGCAGGATAAGGGGACAAAACAGCCTTATCCGCCTGAAAAGCGGATGGGCTACAAGGTGTCCTTGAAAATGAGAGAGCTGGGTATGCTGACACGGCCGCTCGGAGACATCATCGCCTTTCTGCCACCGCTCGCCAGCACAACCGACCAGTTACAAGCCATGATATCCATTATGAAAGAAGCGATAGCCGAGGTGACCGGCCGTGGATTTTGA	MKQSMIEKSKQHLWLPFTQMKDYDEDPLIIESGNGIMLKDISGKEYYDGFSSVWLNVHGHRKKEMDEAIQKQLEKIAHSTLLGMTNVPATELAEMLTGITPEKLTRVFYSDSGAEAMEIALKMAFQYWKNVGRPKKQTFISMQNGYHGDTIGAVSVGSIELFHHVYGPLMFESYKAPIPYVYRSESGDPVQCRDECLHALEQLLAKHHEEIAALTIESMVQGASGMIVMPEGFLAGVRKLCTAYDVLMIVDEVATGFGRTGKMFACEHENVQPDLMAAGKGITGGYLPIAVTFATEAIYEAFYDDYDKMKTFFHGHSYTGNQLGCAAAIENLRLFESERIVERVAEKSKTAAKFLHDLKQLPHVGDVRQLGLMCGIELVQDKGTKQPYPPEKRMGYKVSLKMRELGMLTRPLGDIIAFLPPLASTTDQLQAMISIMKEAIAEVTGRGF	PGPT0022110_72	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022110-bioA|bioK-K19563	NA	NA
D1-12_01040	771	bioW	COG1424	6-carboxyhexanoate--CoA ligase	ATGCGGGAAGAGACCTATTACAGCGTCAGAATGAGAGCTTCCCGAAACGCCCCTCATGAGCAGGGCGGAAAACACATTTCCGGCGGAGAACGGCTCATCACTTACAGCGGTTTACAGGAAGCGGTAGATGGCTTATTACATAAAGGCTTCTCACACTCAAGAGGGATACCTGATTTTATGCAGATTCAGCTTGAAAGCGTTCATGAACCGATCGAAACGATCCGCCCTTTGCCGGTTGCCCTCCATCAAACAGACACGCCGGAAAAAGGACAAGCAATCGCCCGCAAGCTTCTGCAAAAGGCGGGGATTCCTCCGCACATGATCGAGAAAGCGTACAAAAACATTGCGGAATATGCAGAAGCAAGAGGAGCGGTCCTGTTTGATATCCGGGCAGGAAAACGTATTGACTGCAGAGGAAATAGAGGTGTGCGGGTATCCCGAGTGGATTGGCCGTCACCTGATTTTCAAAAATGGGCTTTTACTCACAACATGCCGGAAAATTCACGAATAAAAGAAGCACATGCCATCGCGGCAAAAGTTTGCGCACATCCGGGAATTATTGCCGAATTGTGCTGGTCAGATGACCCTGATTACATAACAGGCTACGTTGCCGCAAAGAAGCTGGGATATCAGCGGATTGCCAAGATGAAGAATGCCGGAGATGAAAGCGGATGCCGGGTTTTCTTTACTGATGGCTCCATAGATGCGGAGAGCTGTATCCATTTTTTAGAGAAGCAGCCTGTATTCATTCAGCGGGAGGAGAACATATGA	MREETYYSVRMRASRNAPHEQGGKHISGGERLITYSGLQEAVDGLLHKGFSHSRGIPDFMQIQLESVHEPIETIRPLPVALHQTDTPEKGQAIARKLLQKAGIPPHMIEKAYKNIAEYAEARGAVLFDIRAGKRIDCRGNRGVRVSRVDWPSPDFQKWAFTHNMPENSRIKEAHAIAAKVCAHPGIIAELCWSDDPDYITGYVAAKKLGYQRIAKMKNAGDESGCRVFFTDGSIDAESCIHFLEKQPVFIQREENI	PGPT0022090_65	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022090-bioW-K01906	NA	NA
D1-12_01041	408			hypothetical protein	ATGCTGAAAGAAAAAGTAAAGACAGCAGGCCGTTTTTGCACCGTGGGCGCCGGCAATACGCTGATCGATTTTGGTGTCTTCTTTCTTCTCACCGCTTGCCTTGTCCCCTATCTGCCGGCGCAGATCTGCTCCTATTCGGCAGGGATCATCAACAGCTATGTGTGGAACCGGAAGTGGACGTTTCGTGTAAAACACAAGGCTGACGGGAAAGAGATCGTGCGCTTTCTCATCATTAATCTTGCAGCGTCGGGAATCACCTTTTTGCTGCTGTACGCGTTTCAAAAAGGCGGCTGTTCGCTTTTGGTGAGTAAGCTCGCCGCCACTATCGGCGGAATGATGATGAATTTTATCGGAAACCGAATCTGGGTATTTGGAGATTCGCAGAAAAACATACAGGATCAGGAGTGA	MLKEKVKTAGRFCTVGAGNTLIDFGVFFLLTACLVPYLPAQICSYSAGIINSYVWNRKWTFRVKHKADGKEIVRFLIINLAASGITFLLLYAFQKGGCSLLVSKLAATIGGMMMNFIGNRIWVFGDSQKNIQDQE				NA	NA	NA	NA	NA
D1-12_01042	894	gtaB_1		UTP--glucose-1-phosphate uridylyltransferase	ATGAGAAAAAAAGTGAGAAAAGCGGTCATCCCCGCAGCGGGTTTAGGAACGAGATTTCTGCCGGCGACAAAGGCGCAGCCGAAAGAAATGCTGCCGATCGTCGACAAACCGGCAATCCAATATATTGTCGAAGAGGCCGCAGCGTCAGGAATTGAAGATATACTGATTATTACAGGGAGAAACAAACGCTCGATTGAAGATCATTTTGACCGGTCGGCGGAGTTGGAATTCAATCTTGAGGAAAAAGGCAAGTCAGAGACGCTGAAGGAAATGCAGCGGATTGCCGATTTGGCCAATATTCATTACATCCGTCAGAAAGAACCGCTCGGACTAGGCCATGCAGTGCTGTGTGCGGAGCATTTTATCGGAGATGAGCCTTTTGCCGTTCTCTTAGGTGATGATATTATGGTATCTGACACTCCCGCTCTTTTACAGCTCATAGACGTCTATAACCAACACGGCACAGAAACGATCGGCGTACAGCCCGTCGATCCTGCTGATGTCAGCAAATATGGTATTATACAGACGGGGCGGCAGAGCGGTCATGTGTACCGGGTTGAGGATCTGATTGAGAAACCGGCTGTTGAAAAGGCACCCTCTCATATTGCCGTGATGGGCCGCTACATATTAACCCCTGCCATTTTTAAAACGCTGAAGACGATCGGAAGAGGCGCGGGCAACGAAATCCAATTGACAGACGCGCTGCGCGAAATATGCCGCACCCGAAGCATTTACGCGCGGGAGCTTGAAGGAAGCCGGTTTGATATAGGAGATAAGTTCGGCTGTTTTAAGGCCGGCACGGAGATCGGGCTTCTGCGGGAAGAAATGAGACCGAAACTTTTAGCTTATTTAGAAGAGGTGTTAAAAAGAGAATCTGAAGAAATCGTGCGTTAA	MRKKVRKAVIPAAGLGTRFLPATKAQPKEMLPIVDKPAIQYIVEEAAASGIEDILIITGRNKRSIEDHFDRSAELEFNLEEKGKSETLKEMQRIADLANIHYIRQKEPLGLGHAVLCAEHFIGDEPFAVLLGDDIMVSDTPALLQLIDVYNQHGTETIGVQPVDPADVSKYGIIQTGRQSGHVYRVEDLIEKPAVEKAPSHIAVMGRYILTPAIFKTLKTIGRGAGNEIQLTDALREICRTRSIYARELEGSRFDIGDKFGCFKAGTEIGLLREEMRPKLLAYLEEVLKRESEEIVR	PGPT0014875_2770	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
D1-12_01043	591			hypothetical protein	GTGGGCAATTTTATTAGTGAAATATTATCCTGGCTGACAAGTATGGGCTATTTAGGGATTGCGCTCGGATTAATGATCGAAATCATTCCGAGTGAAATCGTTCTGGCTTACGGAGGCTATATGGTGTCAGAAGGCACGATCAGCTTTATCGGCGCCATTGTCGCCGGTGTGATCGGGGGAACGATCGCGCAGTGCTTTATATACTGGATCGCCCGTTATGGGGGACGGCCGTTTTTGGACAAGTACGGCAAGTACTTACTTCTGAAAAAGCATCATGTTGATGTTGCGGAAAACTGGTTTCGCCGTTACGGCGCCGGCGTTGTGTTCTCAGCGCGGTTTATCCCGGTCGTCAGACATGCGATTTCCATCCCGGCCGGCCTTGCGAAAATGCCTCTTTCCAAGTTTGTCATATTGACGACGCTTGCCATTATTCCGTGGTCTGTCATTTTCGTTTATCTCGGGTATCAGCTCGGGGGACAGTGGAAAGACGTAGACAGCTATGCCGGAATGTATACAACTCCGATCATTATATTGGCTCTCGTATTTATTGTTGTTTATTTTGTTGTGAAGAAAATGAGATCAAGACTGTGA	MGNFISEILSWLTSMGYLGIALGLMIEIIPSEIVLAYGGYMVSEGTISFIGAIVAGVIGGTIAQCFIYWIARYGGRPFLDKYGKYLLLKKHHVDVAENWFRRYGAGVVFSARFIPVVRHAISIPAGLAKMPLSKFVILTTLAIIPWSVIFVYLGYQLGGQWKDVDSYAGMYTTPIIILALVFIVVYFVVKKMRSRL				NA	NA	NA	NA	NA
D1-12_01044	1530		COG4799	Methylmalonyl-CoA carboxyltransferase 12S subunit	ATGGATTACGAAAAAGAACGGCAGACACGCAGCAAAACGATTGAAAAGGGAGGAGCCGCGAAATATCACGCAAGCAACGAAAAGAAGGGAAAACTTTTTGTAAGAGACAGGCTGAAGCTTTTATTCGATGACGGCATATCCGTTGAAGACGCTTTTTTCGCCGAGTGCATGTCAGACGGACTGCCGGCTGACGGGGTCGTTACCGGGATCGGAACCATCGGCGGCAGAACCGTTTGTGTGATGGCAAACGACTCAACCGTAAAGGCGGGCTCGTGGGGCGCGAAAACGGTGGAAAAAATCATCCGCATTCAGGAGACGGCGGAAAAGCTTCAGTGTCCGCTCTTGTACTTAGTCGATTCCGCAGGTGCGAGAATTACGGATCAGGTCGACATGTTCCCGGGCAGAAGGGGAGCCGGCCGCATCTTTTATAATCAAGTAAAGCTGTCGGGCCGCATTCCGCAAATCTGTTTATTGTTCGGTCCTTCCGCTGCGGGCGGCGCTTACATTCCGGCCTTTTGCGACATTGTCATTATGGTCGAAGGCAATGCATCCATGTACTTAGGTTCCCCGCGCATGGCAGAAATGGTGATCGGCGAGAAAGTATCGCTTGAAGAAATGGGCGGCGCCCGTATGCATTGTTCCGTATCAGGCTGCGGTGATCTCCTTGCCCCGACGGAACAGGAAGCAATCATGATGGCGCAGACATATCTCAGCTACTTTCCGGCAAATTATACTGAAAAAGCGCCAGTCAACAAATCTAAGAACCCGAAAGCTTTTGAAAAACCGCTCTCAGATGTCATCCCGGCACATCAAAACGCACCGTTCAACATGATGGATTTAATTGAACGTGTCATTGATGAAGACTCGTTTTTTGAGATTAAACCGTTATTTGCGCAGGAATTAATAACGGGGCTCGCGAGAATTCACGGACAGCCGGTCGGCATTATCGCCAATCAGCCGCGTGTCAAAGGCGGAGTTTTATTTCTCGATTCGGCGGATAAAGCCGCAAAATTTATCGCTTTGTGCGACGCATTCCATATTCCGCTTCTGTTTTTAGCAGACATTCCCGGATTCATGATCGGAACGAAGGTTGAGCAGGCGGGCATCATCAGGCATGGCGCAAAAATGATCTCCGCAATGGCGGAAGCGACTGTTCCTAAGCTTTCCGTTATCGTCAGAAAAGCCTACGGTGCCGGATTATACGCGATGGCGGGGCCTGCTTTTGAACCGGACTGCTGTTTAGCGCTTCCGACTGCGCAAATTGCCGTAATGGGTCCTGAAGCAGCGGTGAATGCGGTCTACGCAAACAAAATCAGCGAGCTGGCCCCTGAAGAAAGGCCGGCTTTTATTCAAGAAAAGCGTGATGAATATAAGGAAGACATTAACCTTTACCGGCTTGCCTCTGAAATGGTGATTGACGGCATTGTTCCTGCTGATTCCTTGCGGGAAGAACTCAATAAACGCCTCACTGCTTACATGTCCAAACAACTGACATTCACACACCGGAAACACCCCGTATACCCGGTATAA	MDYEKERQTRSKTIEKGGAAKYHASNEKKGKLFVRDRLKLLFDDGISVEDAFFAECMSDGLPADGVVTGIGTIGGRTVCVMANDSTVKAGSWGAKTVEKIIRIQETAEKLQCPLLYLVDSAGARITDQVDMFPGRRGAGRIFYNQVKLSGRIPQICLLFGPSAAGGAYIPAFCDIVIMVEGNASMYLGSPRMAEMVIGEKVSLEEMGGARMHCSVSGCGDLLAPTEQEAIMMAQTYLSYFPANYTEKAPVNKSKNPKAFEKPLSDVIPAHQNAPFNMMDLIERVIDEDSFFEIKPLFAQELITGLARIHGQPVGIIANQPRVKGGVLFLDSADKAAKFIALCDAFHIPLLFLADIPGFMIGTKVEQAGIIRHGAKMISAMAEATVPKLSVIVRKAYGAGLYAMAGPAFEPDCCLALPTAQIAVMGPEAAVNAVYANKISELAPEERPAFIQEKRDEYKEDINLYRLASEMVIDGIVPADSLREELNKRLTAYMSKQLTFTHRKHPVYPV	PGPT0002300_637	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002300-mmdA-K01604	NA	NA
D1-12_01045	780	crt	COG1024	Short-chain-enoyl-CoA hydratase	ATGGGAGATTGCGTCTTGTATTCCGTCTGTCAAGAAACAATCGGTCTGATCACGCTGAACCGCCCGCATGCGGCCAACTCGCTGTCTTCAGAAATGATTGATCATTTACAGCGTGTGATTGAAGACATCAAAAACTCGCCATCCATTCGTTGTGTCATTCTCACCGGCACCGGGAACACATTTTGCGCCGGTGCTGATTTAAAAGAAAGAGCGGGGATGGACCATGAACAAGTCAAACAAAGCGTCAGGCGTATCGGTGAAACGGCCGCATCCATTGAAGCTCTCCCGCAGCCGGTCATTGCAGCGCTGAACGGAACCGCTGTCGGAGGAGGCCTTGAACTCGCTCTCGCCTGTGATATCAGAACAGCCGTCAGCCGGGCGGGCCTCGGCCTTCCTGAAACAGGGCTTGCGATCATTCCCGGAGCGGGCGGAACGCAGAGACTGCCCCGGCTTATCGGCCCCGGCGCGGCAAAAGAATTGATCTATACCGGCCGAAGGCTTTCTGCCGAAGAGGGAAAAGACATGAAGCTGATCGAGCATGTTTGTGAAGCCGATGAACTTATGGAAAAAGCAAAAGCACTGGCCGGCCGCATCGCCGCTAATGGGCCGATCGCCGTCAGACAAGCAAAATCCGCGATAAACAAGGGTCTGGAGACAGATCTCAATACAGGGCTCGAAATCGAACGAAAAGCATATGAACAAGTCATCCCCACACTTGACAGAGAAGAGGGCCTGCGCGCTTTTAAAGAAAAAAGACCCCCTGAATACAAAGGAAAATAA	MGDCVLYSVCQETIGLITLNRPHAANSLSSEMIDHLQRVIEDIKNSPSIRCVILTGTGNTFCAGADLKERAGMDHEQVKQSVRRIGETAASIEALPQPVIAALNGTAVGGGLELALACDIRTAVSRAGLGLPETGLAIIPGAGGTQRLPRLIGPGAAKELIYTGRRLSAEEGKDMKLIEHVCEADELMEKAKALAGRIAANGPIAVRQAKSAINKGLETDLNTGLEIERKAYEQVIPTLDREEGLRAFKEKRPPEYKGK	PGPT0001860_5538	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
D1-12_01046	900	yngG	COG0119	Hydroxymethylglutaryl-CoA lyase YngG	ATGAACTGTCCGAAACATGTCCGCATCAATGAAGTAGGACCGCGTGACGGCTTGCAGAATGAATCGGCGTGGGTGGATACAGAAGATAAGATTGAGTGGATCAATATGCTTTCAAAAACAGGCCTTCCCTATATCGAAGTGACATCATTCGTGCATCCGAGATGGATTCCGGCTCTTCGTGACAGCCTGGACGTCGCAAAAGGCATTGCCAGATCTGAACATACGGTCTACGCGGCTCTCGTTCCGAACCTCATCGGGCTGGAGCATGCGGCAGAAGGCGGAATCGATCAGGCATGTGTATTTTTATCTGCAAGCGAAACCCATAACCAAAAAAACGTAAACAAACCGATTGACCGGACCGTTCAAGAGCTCAGGCGGGTTATTACTGAAGCAAAAGCTGAAAAAATGGCGACGAGAGCTTATCTGTCCACTGTGTTCGGCTGTCCGTACGAACAGAACGTGCCGGTCGAACAAGTCATCCGCCTGTCAGACACCCTGCTCGAAATGGGTGTTGATGAAATATCGCTCGGCGACACGATCGGCGCGGCAAACCCCTTGCAGGTCATAGCCGTGCTTGAAGCCCTTTTGCCGAGAATTCCCGCCTCAAAAATCGCACTCCATTTCCATGATACAAGAGGAACGGCTCTAGCGAATATCATTCCCGCTCTTGATATGGGCATCACATCCTTTGATACTTCCTCAGGCGGGCTTGGCGGCTGCCCGTACGCCCCTGGATCAGCAGGCAACGCTGCCACAGAAGACGTCATTTATATGCTCGAACAAATGGGGATTGATACCGGGACGGACATGAATAAACTTCTTTATGCCGCCGGCTGGATCGCGGATAAAATAGGCAAAGACCTGCCAAGCAGAAACCTGCAGGCATTCAGAACGAAATGA	MNCPKHVRINEVGPRDGLQNESAWVDTEDKIEWINMLSKTGLPYIEVTSFVHPRWIPALRDSLDVAKGIARSEHTVYAALVPNLIGLEHAAEGGIDQACVFLSASETHNQKNVNKPIDRTVQELRRVITEAKAEKMATRAYLSTVFGCPYEQNVPVEQVIRLSDTLLEMGVDEISLGDTIGAANPLQVIAVLEALLPRIPASKIALHFHDTRGTALANIIPALDMGITSFDTSSGGLGGCPYAPGSAGNAATEDVIYMLEQMGIDTGTDMNKLLYAAGWIADKIGKDLPSRNLQAFRTK	PGPT0008315_2940	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
D1-12_01047	213	yngHB	COG0511	Biotin/lipoyl attachment protein	ATGAGCGTCATAAAAATTCAGATGGCGGGAAACCTGTGGAAAATTCATGTGAAGCCGGGTGATGTCATTGAAGAAGGACAGGAAGTGGCCATCTTGGAATCTATGAAAATGGAAATTCCGATTATCGCTGATGCAGCGGGTACGGTGAAAGAAGTGAAAAAATCAGAAGGTGATTTCACTGATGAAGGAGAGGTCCTGATTGAACTTCAATAA	MSVIKIQMAGNLWKIHVKPGDVIEEGQEVAILESMKMEIPIIADAAGTVKEVKKSEGDFTDEGEVLIELQ	PGPT0001700_4566	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
D1-12_01048	1350	cfiB	COG0439	2-oxoglutarate carboxylase small subunit	TTGTTTAAAAAAGTCCTGATTGCCAACAGAGGAGAAATCGCCTTAAGAATTATCCGCACCTGCAAACGTCTCGGCATCCCCTCGGCAGCTGTGTATTCAGAAGCCGACCGGGACGCGCTGCATGTAAAAGCTGCTGATGAGGCCTATCCGATCGGTAAATCGAGAGTAAATGAAAGCTATTTACATATCGACAGAATCATAGAAGCCGCTAAATCCGCCGGAGCGGACGCCATTCATCCGGGCTACGGGCTGCTGTCAGAAAACAGCCTGTTCGCCGAACGCTGCCGGAAGGAACAAATCACATTTATCGGTCCGCCCGGTGATATCATCGCCAAGATGGGCAGCAAGATAGAAGCCCGAAAAACGATGCAAAAAGCAAAGGTCCGGATCGTTCCCGGTGTTTCAGAGCCATTGCCCGATGTTCACTCCGCCTTAGCCGAAGCCCGTGCCATCGGTTTTCCGGTCATGCTGAAAGCGTCCGCAGGCGGCGGCGGAATCGGCATGCAGATCGTACATTCAGAAGAAGAGCTGGCCAAAGCGTTCGAAGGCAATCAAAAGCGGGCCGCGTCCTTTTTCGGAGACGGCGCAATGTACATGGAAAAGGTCATTGAAAATGCCCGTCATATTGAAATTCAGATACTCGCAGATTCTTTCGGCAACACCGTTCATCTGTTTGAACGTGACTGTTCAGTCCAAAGGCGCCACCAAAAAGTGATAGAAGAAGCGCCGTCGCCGTTTGTTGACGATGAATTAAGACAAAGACTCGGTGAAACCGCCGTTAAAGCCGCTAAATCGATCGGCTACCAAAATGCAGGCACAATAGAATTTCTCGTCGACCAAAAGAAACAAATCTATTTTTTAGAGATGAACACCAGACTGCAGGTGGAGCATCCGGTGACAGAAGAAATTACAGGACTGGATCTTGTGGAAGAACAGCTGAAAATTGCCGCTGGGCAGGCGCTGACTTTCTCGCAGAAAGATATCAACCACCGCGGTCATGCAATAGAAGTGCGGATCTATGCGGAAGATCCGGTCACCTTTTACCCGTCACCCGGTACCATCTCGTCTTTTTCCGTTTTAAGACACCCGTCAGTGCGACACGAATGCGCCGTCGAAAAGGGAAGCGTCATTTCTCCGTTTTACGATCCGATGATTGCCAAAATGATCGTCACGGCGAATACGAGAAAACAAGCCATTGAACAACTGAAAACCGCCCTTGGCGAATATCATGTAGAAGGGATTAAAACCAACATTCCGCTGCTGACAAAAATTGCCCATTCAGAAGCGTTTGAAAAGGGTGAGGCGACAACCGGCTTTTTACAAACAATGAACGAGGGGGCGTCAAAATGA	MFKKVLIANRGEIALRIIRTCKRLGIPSAAVYSEADRDALHVKAADEAYPIGKSRVNESYLHIDRIIEAAKSAGADAIHPGYGLLSENSLFAERCRKEQITFIGPPGDIIAKMGSKIEARKTMQKAKVRIVPGVSEPLPDVHSALAEARAIGFPVMLKASAGGGGIGMQIVHSEEELAKAFEGNQKRAASFFGDGAMYMEKVIENARHIEIQILADSFGNTVHLFERDCSVQRRHQKVIEEAPSPFVDDELRQRLGETAVKAAKSIGYQNAGTIEFLVDQKKQIYFLEMNTRLQVEHPVTEEITGLDLVEEQLKIAAGQALTFSQKDINHRGHAIEVRIYAEDPVTFYPSPGTISSFSVLRHPSVRHECAVEKGSVISPFYDPMIAKMIVTANTRKQAIEQLKTALGEYHVEGIKTNIPLLTKIAHSEAFEKGEATTGFLQTMNEGASK	PGPT0001705_2983	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
D1-12_01049	1641	fadD3	COG0318	3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase	ATGGCTGAACTTATCCATTTAACAGCCGGAAAGCTGCTTGAGCGGACCGCGAAGCTTTTTCCGGATCATGAAGCGGTTGTTTACCCTGAGCGCGGCCTTCGTTATACGTATGCCGAGTTTGACCGGTTATGCCGGCAAACCGCAAAAGGGCTGATGAAGCTGGGAGTTGAAAAAGGAGATCATGTGGCCATATGGGCATCGAACATTCCGGAATGGCTCGCGGCGCAATTTGCAACGGCGAAAATCGGCGCCGTTCTGGTCACCATTAATACAAATTTTCAAATCGCAGAGCTCGATTACCTGCTGGCACATTCAGATGTCTCGTCCCTGATAATCATGGATTCCTACCGGCAGACATCTTATGTTGAGATGGTGAATAAGCTGATTCCGGAGCTGAAAACTTGTGAGCGCGGCAGGCTGCGTTCGAAACGTTATCCATTTTTACGGACGGTGTTATATATCGGTGATAAAAGCCCGCCCGGGATGCACCGTTGGGATTCTTTGCTGAAGGATGCCGAGTCTGTAACGGATGCAGAGCTTGACGGAAGGATGGACAGCCTGGAAAAGGGTGATTGCATTCATATGCAATATACATCAGGTACGACCGGATTTCCGAAAGGCGTCATGCTCTCACATTTTAATATCGTAAATAACGCGGCCAATATCGCAGAATGCATGAAGCTTACTTCATGTGACCGTTTATGTATTCCCGTGCCGTTTTTCCACTGCTTTGGGTGTGTGCTCGGCGTGCTGGCATGTGTTTCCGCGGGTGCGGCGATGATTCCGATCGAACAGTTTTCTCCGCCGGCCGTTCTGAAAACGGTGGAGAAAGAAGCCTGCACGGCTCTGCACGGTGTACCGACGATGTTTATCGCCCTCCTAAATGACAGCCATTTTTCTGAATATGATCTTTCCCACGTCCGAACCGGGATTATGGCAGGCTCGCCATGCCCGGCGGAAGTCATGAGAGAAGTGATCGGCAAAATGGGGATGACCGACATTACAATTGCCTACGGACAGACCGAAGCATCACCTGTTATTACGCAGACAAGAACGGATGATTCATTTGAAAGAAGAGTGGAAACAGCGGGGCGCGCGCTTCCCCATATCGAAGTCAGAATCGTTCGGCCCGGAACATCCCAAGAAGCCGCCCGGGGCGAACAAGGAGAGCTCTGCACCCGCGGATATCATGTCATGAAAGGCTATTATAAAAATCAAGAAGCGACCGAAGAAGCGATAGACAAAGACGGCTGGCTGCATACCGGTGATTTAGCGGTCATGGACGATGACGGATACTGCAAAATCACGGGCCGTCTGAAAGACATGCTGATCAGGGGCGGCGAAAATATCTATCCGCGCGAGATTGAGGAAATGTTATATCGGCATCCCGCGGTAGCAGACGTTCAGGTCGTCGGCGTGCCTGATCCGAAATACGGAGAAGAGGCCGCGGCGTGGATCAGGCTCAAAGACGGACAAACCGCTTCCGCAGAAGACATCAGAGCCTTTTGCAAAGAACATATCGCCCGCTATAAAGTCCCCAGGTATGTTTTGTTTACAGATGAATATCCAATGACAGCCTCCGGAAAAATTCAGAAATTCAAGCTGCGGGAAAAAACGATTGAAGAGCTCAAGTTAACTTAA	MAELIHLTAGKLLERTAKLFPDHEAVVYPERGLRYTYAEFDRLCRQTAKGLMKLGVEKGDHVAIWASNIPEWLAAQFATAKIGAVLVTINTNFQIAELDYLLAHSDVSSLIIMDSYRQTSYVEMVNKLIPELKTCERGRLRSKRYPFLRTVLYIGDKSPPGMHRWDSLLKDAESVTDAELDGRMDSLEKGDCIHMQYTSGTTGFPKGVMLSHFNIVNNAANIAECMKLTSCDRLCIPVPFFHCFGCVLGVLACVSAGAAMIPIEQFSPPAVLKTVEKEACTALHGVPTMFIALLNDSHFSEYDLSHVRTGIMAGSPCPAEVMREVIGKMGMTDITIAYGQTEASPVITQTRTDDSFERRVETAGRALPHIEVRIVRPGTSQEAARGEQGELCTRGYHVMKGYYKNQEATEEAIDKDGWLHTGDLAVMDDDGYCKITGRLKDMLIRGGENIYPREIEEMLYRHPAVADVQVVGVPDPKYGEEAAAWIRLKDGQTASAEDIRAFCKEHIARYKVPRYVLFTDEYPMTASGKIQKFKLREKTIEELKLT	PGPT0008380_11925	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-12_01050	1143	bcd	COG1960	Acyl-CoA dehydrogenase, short-chain specific	ATGAATTTTCAACTGACAAAAGAACAGCAGATGGTGCGCGAAATGGTCAGAGATTTCGCCAAAAATGAAATTGCCCCGAAAGCCCATGAGGTTGATCAATCAGCCGTCTTCCCGATAGACACATTTAAAAAAATAGGCGAACTCGGGCTGCTCGGAATTCCGTTTCCGGAAGAATACGGCGGGGCGGGCGGTGATACCATTTCATATGCAGCAGCGGTCGAAGAAATCGGAAAAGCCTGCGGCAGCACGGGGCTGAGCTACGCGGCAGCCGTGTCACTCGGCGCAAGCCCATTATACTATTTCGGTACTGAACAGCAAAAGCAAGAACATCTTATTCCGCTTGCTTCGGGAAAAGCGCTCGGATCATTCGGGCTGACAGAGCCGAATGCCGGTTCAGATGCCGGCGGCACCCAGACAAAAGCCGAGAAAAAGGGCGATGACTATGTGATAAACGGAGAGAAATGCTGGATCACAAACGCAAATTACGCCCGCACGGTCATTGTCACCGCCGTTACGGGAAAAAACTCCGCCGGAAAACCGATCATTTCAGCTCTCATCGTCCCCACAGACACACCGGGATTTACGATCACAAATCCGTACGACAAGATGGGTGTGAGAGGGTCGGATACGGCCGAGCTTGTGCTTGAGGATGTCAGGGTGCCTGCCGATAACCTGCTCGGTGATCCTGAAAAAGGTTTTAAACAATTTTTATATACATTAGACGGCGGGCGGATCTCGATTGCGGCACTGGCTGTCGGTATCGCTCAAGGCGCGCTGGAGGCGTCGCTGTCATATGCGAAGGAACGCAAGCAGTTCGGCAGTCCGATATCGTCATTTCAAGCCATTCAATTTAAGCTGGCCGATATGGCGATGGAAATTGACCTTGCCAGACAGATGGTGCTTAAAGCGGCATGGCTGAAGGATCAAAACCTGCCATTTACGAAAGAAGCGGCATTCGCCAAGCTTTATGCTTCAGAAATGGCCGTCAGAACGTGCCTTCAGGCCATCCAAATTCATGGCGGTTCCGGTTATATGAAGGAATGCGGTGTCGAACGTATGCTTCGTGACGCAAAGCTGATGGAGATTGGCGAAGGAACGTCAGAAATTCAAAGAATGGTCATCGCAAGACAGCTTTTGAAGTGA	MNFQLTKEQQMVREMVRDFAKNEIAPKAHEVDQSAVFPIDTFKKIGELGLLGIPFPEEYGGAGGDTISYAAAVEEIGKACGSTGLSYAAAVSLGASPLYYFGTEQQKQEHLIPLASGKALGSFGLTEPNAGSDAGGTQTKAEKKGDDYVINGEKCWITNANYARTVIVTAVTGKNSAGKPIISALIVPTDTPGFTITNPYDKMGVRGSDTAELVLEDVRVPADNLLGDPEKGFKQFLYTLDGGRISIAALAVGIAQGALEASLSYAKERKQFGSPISSFQAIQFKLADMAMEIDLARQMVLKAAWLKDQNLPFTKEAAFAKLYASEMAVRTCLQAIQIHGGSGYMKECGVERMLRDAKLMEIGEGTSEIQRMVIARQLLK	PGPT0002285_547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-12_01051	1539			hypothetical protein	ATGAAAAGCTGCCGTTTTAGCATGATATGGTTTTTGGCCGTTATACTGACAGCCGGCATCTTTACATTCTCAGCATCCGCACAAGCAAGCGGCACTCAGCCGGAGAGAGAAATGAGAGCCGTCTGGATCGCGTCTGTCACCAATATCGACTGGCCCTCTAAAAAAGGGCTGTCACCGGAAGAGCAAAAAAGAGAATACAGTAAGCTGCTGGATGACGTTCAGGAGATGGGAATGAACGCCGTTATCGTCCAAATTAAGCCTGCGGCTGATGCTTTTTATCCATCAGATTACGGGCCTTGGTCAGAGTATCTGACAGGAACACAAGGCAAAAATCCCGGCTACGATCCGCTTGCTTTTTTAGTTGAAGAGACACATAAACGGAATCTTGAATTTCACGCTTGGTTCAATCCTTACCGGATCACGATGAATCATACAAATTTGAATGCGCTTTCAGATGATCATCCCGCGCGTTCCCATCCGGACTGGGTCGCTGCATACGGAAAACAGCTGTACTATAATCCGGGCATTCCGGAAGTAAGACAATTTATAACGGATGGAATCAAAGAGGTGGTCAGCCGTTATGACATTGATGCGGTTCATATGGATGATTATTTTTATCCTTATAAAATTGCCGGACAGGAATTCCCCGATCAGGCGGAATACGAACGGTACGGAAAAGCTCACTTTGCATCAGTTGATGACTGGCGCAGGGATAACGTCAACCGGCTTGTAAAAGAAATCAACCAAACCATCAAACGAGAAAAACCTTATGTCAAATTCGGAATCAGCCCGTTCGGCGTATGGAGAAATGCCGCAGATGACCCGACAGGCTCCGAAACGGCCGCAGGGGTGCGGAACTACGATGATTTATATGCTGATACGAGAGAATGGATCCAAAAAGGATACATTGATTACATCGCACCGCAAATTTACTGGAGCATCGGATTTAAAGCGGCGGCATATGACGTCTTAGCGGATTGGTGGGGAAAAGAAGTGAACAATCGGCCGGTGCATTTATATATCGGGCAGGCAGCTTATAAAATCAACAACAATGCTGATCCGGCCTGGGCCGACCCGGGGGAATACGGAAGACAGATTGCTCTTAACAGGGGATCAGCATGGATAAAAGGCAGCATGCATTTCAGTTTAAAGGATTTAAACCGTAATCCGCTCGATGTGAAAAACCGTTTGATCAAAGACATGTACAGCCGGCCCGCATTAATTCCCGAGATGCCTTGGCTCGGACATTCCGCTTTAAAAAAACCGGCTGTCAAACGGGCGGAGAAGAATGCTTCAGGCCATACACTCTATATTGAAGATGCGAAATCCAACGGTGAAAAAACGGCTTATTACGCCATTTACCGCGCAGAAAAGGGAAAGCAGCCTTATTTAGTGGATACAGTCAGAAAAATATCGTCACGGACGCAAACATTTTCAGATACTGATATTCGAGCGGAAGAAGCCTGTACCTATATCGTTACTTCCGTTGACAGGCTACACCATGAGAGCCGTCCCTCCGCAAAACGGACGGTTAAATAG	MKSCRFSMIWFLAVILTAGIFTFSASAQASGTQPEREMRAVWIASVTNIDWPSKKGLSPEEQKREYSKLLDDVQEMGMNAVIVQIKPAADAFYPSDYGPWSEYLTGTQGKNPGYDPLAFLVEETHKRNLEFHAWFNPYRITMNHTNLNALSDDHPARSHPDWVAAYGKQLYYNPGIPEVRQFITDGIKEVVSRYDIDAVHMDDYFYPYKIAGQEFPDQAEYERYGKAHFASVDDWRRDNVNRLVKEINQTIKREKPYVKFGISPFGVWRNAADDPTGSETAAGVRNYDDLYADTREWIQKGYIDYIAPQIYWSIGFKAAAYDVLADWWGKEVNNRPVHLYIGQAAYKINNNADPAWADPGEYGRQIALNRGSAWIKGSMHFSLKDLNRNPLDVKNRLIKDMYSRPALIPEMPWLGHSALKKPAVKRAEKNASGHTLYIEDAKSNGEKTAYYAIYRAEKGKQPYLVDTVRKISSRTQTFSDTDIRAEEACTYIVTSVDRLHHESRPSAKRTVK				NA	NA	NA	NA	NA
D1-12_01052	381			hypothetical protein	ATGACGAACCTATCTTGGCTTACGTATGTAATGATTATTCTTGCCAGCTACCGGCTGACCCATTTGATCGTATTTGATAAGATTACGGAATTCATAAGAAAACCCTTTATAAAGCAAGAAAAAACCGTCGATCAAAACGGGCGCGCCGTCCAAAAAAAAGTCCCTTCCTCCGCATTCGGTTATATGCTGCAATGTTATTGGTGTGCGGGTGTCTGGTGCGCCATATTGATCGGCATCTGCTACTTGGTCTGGCCCCGCTATGCACATCCGGTTATTTTCATTTTATCCATCGCCGGAGCGCAGGCCATTCTTGAAACTTGTGTCGGCGTCGGAACGAAGATCATTGACGTGCTCGCCGCCATGAAACATAAAAAGTCCTGA	MTNLSWLTYVMIILASYRLTHLIVFDKITEFIRKPFIKQEKTVDQNGRAVQKKVPSSAFGYMLQCYWCAGVWCAILIGICYLVWPRYAHPVIFILSIAGAQAILETCVGVGTKIIDVLAAMKHKKS				NA	NA	NA	NA	NA
D1-12_01053	3804	ppsE	COG3319	Plipastatin synthase subunit E	ATGGACAAAACGAAAAATATCCAAAATATTTATCCCCTCAGCCGAATGCAGGAAGGAATGCTTTTTCATTCCTTTCTGCAAAAGGAGGGGGCTGCATATATCGAGCAATCCGGCTTCACCATAAAAGGCCGGCTTCGTCCGGAATTGTTTGAGCAAAGCGTACAGTCTGTCATCAGCCGCCACGATATTTTCAGAACGGTTTTTTTACCTCATGTCGCTCAGCTGAACGGCCCCCGCCAAGTTGTGCTGCGTGAGCGGGAATTCCGGCTGCACCGCGAAGATCTTACACATTTGGACGAAGCCGGACAGAGCGCTTATTTACAGCGATTTAAGGAACGTGACCGCTTAAAAGGCTTTGACTTGCAAAAGGATATGCTGATGCGTGTTTCTTTGTTTAAAACGGCAGACGAGGAATATGTATGCGTCTGGAGCCACCATCACATCCTTATGGACGGCTGGTGCCTCGGCATCGTCCTTCAGGAATTCATGCATATGTACCGGGCGATTGAATCAGGCTCACCCGTCACACTGGCGCCCGCAAAGCCTTACAGCACTTATATTACATGGCTGACTGATCAGGACAAAGACGCGGCTTCTGAGTATTGGAAAGGATATTTAGCAGGCTGCGAGACACCATCAGGACTCCCGAAAATATCGGCCCGTCCTCAGGAAAAAGGCTACCGTAAGAAAGAGCTGCTGTTTTCTTTAGATCAAAATCTGACAGACAGGCTGAAAACCATCGCCAAAGAAGAGGGCGCTACGCTCGCGGTTCTTATGCAGACTGTATGGGGCCTGATGCTGCAGAGCTACAACCGGAAGGACGATGCCGTATTCGGCGCCGTCGTATCAGGGCGGCCTTCCGTCATTGACGGCGTGGAAAGCATGATCGGGCTATTTATCAATACCGTGCCGGTACGCATTAAAACGGGTGATGAAAGCTTTAGAGAACTGCTGGGCCGCTGCCAGAAAGAAATGCTTGACTCAGAGGCGTTCAGCTATCATCCGCTTGCTGACATCCAATCTCAGACTGAGCTGAAACAGGATTTAATCGACCATATCATCGTGTTTGAAAATTATCCGATTCAGCAGCAGATGAAAGACGCGGAAAAGGAATCGGATGCACCGTTCCGGATCGGGAATGTCAACGTGTCGGAACAATCGGGCTACGATTTTAACCTCATCATAGCGCCCGGCGATGAGCTGCTCATCAAATTCAGCTACAATGCGAACGTTTATGACGAAGTATGGATAGAGAGCGTAAAAGGACACTTGGAAGAAGCTCTGCGCGGCGCCGCCTTCAATCCCGATGTTCCCGCTGATCGGCTACCGATGCTCGGACAAAAGGAAAAATCAAGAATAATCGGCGAATTTAATGACACGAAAACAACTTATGAAAGAGACGAAAGCATCATCAGCCTGTTCAGCCGACAGGTGAAGAAAACCCCGGACCATCAGGCGCTTCACGCCGGCGGGCTGACGATGACGTACCGGGAGCTCGATGAACGGTCAACTGCATTCGCCCGCACCCTGCTGGAAAACGGTTTGGCGCCAAAGGGAATTGCCGGGATTCTGGCCGAACGCTCACCGGAATTTATCATCGCTGTTCTCGCTGTATTGAAAGCGGGAGGGACGTACCTTCCTCTTGATGCAGAACTGCCAACCGACAGGATCGCCGATATGCTCACTGAGAGCGGAGCACAGCTGTTAACGGTGCAAAAAGGGATTGAGACTGACTTTGACTTTTCTCACATCATCTCTATCCCGGCTGCCGCAGAGAAACAAACCGCTGATGCAGGAAAACTGAATACCGATACAGCACCTGATGACCTTGCCTATATTATGTATACATCCGGTTCAACAGGAAAACCGAAGGGCGTGATGATTTCCAACCGAAACGTCGTATCGCTCGTGTCAAACAGCAATTACACGTCGGCCGGCATGACGGACCGTCTCATTCTGACAGGGTCCATCGGTTTCGACGCAGTGACGTTTGAAATCTTCGGAGCGCTTTTGAACGGGGCCTGTCTTCATGTGGTTGACCGCTCGACAATGCTTGCCCCTGAGAGGTTCGGCAATTATCTTTCTTCCAACCGGATTACGATTTTGTTTTTGACGACGGCGCTCTTTAACCAGTTTGCCCAGGCAGATCCGGAGATGTTTTCCGGATTGCACACCTTATATGTCGGCGGAGAAGCATTGTCCCCGGCGCTCATCAATAAGGTCAGACACCGCTGTCCGAATCTCAGCCTTTATAACATATACGGACCGACGGAAAATACGACATTTTCTACCTTTTACGAAATCAGGCACGATTTTTCTCAGCCGATCCCAATCGGAAAACCGATCAGCAATTCAACCGCATATATCATTGATAAAAATGGCGGACTTGCGCCGATCGGCGTGCCCGGTGAGCTTTGTGTCGGCGGTGACGGGGTTGCCAAAGGCTATTTAAACAGGCCTGACTTAACAAGTGAAGCGTTTGTCAGCCATCCGGTTCATCCTGAAGAAAAGATCTACAAAACAGGCGACTTGGCACACTGGCTGCCTGATGGAAGCATCGGATACATCAGCCGTATTGACCGTCAATTCAAGATTCGCGGGAAGCGGATCGAGCCGGCCGAAATTGAAGCGCGCTTGACTGAAATAGATGGAATCAGGGAATCGGCAGTCATCGTAGCAAAAGAAGGACAAGAAGCAATCCTTTGTGCGTATTATACGGGCGCGCATGTTGAAGAAAAAACCATTCGATCTCTATTGGCCAGGTCGCTTCCCGACTATATGATTCCTCAGTATGTGATTAAGCTTGACCGTATGCCGCTTACCGCAAACGGCAAAGTGGACCGCCGCGGGCTGCCTGCGCCAGAACGGAAAAAAACGTTATCAAAAGCCGTTCCGCCACGAAACTGGGTGGAGCGTGAGCTGATCGACATCTGGACGCCGATCCTCGGCTGCGGGGAGCTGGGCATACAGGATGACTTCTTTGAGCTGGGCGGCCATTCATTGAAAGCATTGCAAGTGATTCATCAGCTGAAGACCAGGCAGCAGATGGATGTGCCGATTGAAATGATATTTGAATATCCGACAATTGAACAATTGGCTGAAAAGCTGTATTCAAACACACTGTCAGAAGCTGCAGAGCAGCATATCAGCAGACTGAACCAGCCGAAAGGCCGCAATCTTTTCTGTTTTCCGCCTATCTCAGGTTTCGGCATTTTCTTTAAAGATCTTGCGGCGGCATTAAACGAACGGGCTGCTGTGTACGGTTTTAACTTTATTGAAGAAGACAGCAGAATGGAACAATACATTGATAAAATGCTGGAAATCCAGCCGGAAGGCCCTTATATCCTCTTCGGATATTCGGCAGGCGGCAATACGGCATTCGAGGCGGCAAAAGCGATGGAAAAGCTCGGCTTAGAAATCAGTGACGTCATTATCGCAGACGCGTACAGAAAGCTTGACGCACTGCCGCCGCAGCCAACAAACGCAACAGCCGACAACGTCCCGGAAGCCGTCAGAGAAGCAGTCATCAAAAAGACAGAGCGCTATCAAACGTACTGGGCGGAACTGATAAATGACGGCCAAATCGCGGCCAACCTCCATTTTATCGAGGCCGGCATAAAGGAAGAACACAGTGATAAGACCGAGCCGATGAAATGGGAAGGCGCCACAACGGGACTCTATCAGGAATATCAAGGCGGGGGCGCCCATAAAGATATGTTTGAACCCGCCTTTGCACAGCAAAATGCTGAGGTCATACTGGACATCATTGCAAACAGCGGAAGACGCTTGGCGCGGAATCTGTAA	MDKTKNIQNIYPLSRMQEGMLFHSFLQKEGAAYIEQSGFTIKGRLRPELFEQSVQSVISRHDIFRTVFLPHVAQLNGPRQVVLREREFRLHREDLTHLDEAGQSAYLQRFKERDRLKGFDLQKDMLMRVSLFKTADEEYVCVWSHHHILMDGWCLGIVLQEFMHMYRAIESGSPVTLAPAKPYSTYITWLTDQDKDAASEYWKGYLAGCETPSGLPKISARPQEKGYRKKELLFSLDQNLTDRLKTIAKEEGATLAVLMQTVWGLMLQSYNRKDDAVFGAVVSGRPSVIDGVESMIGLFINTVPVRIKTGDESFRELLGRCQKEMLDSEAFSYHPLADIQSQTELKQDLIDHIIVFENYPIQQQMKDAEKESDAPFRIGNVNVSEQSGYDFNLIIAPGDELLIKFSYNANVYDEVWIESVKGHLEEALRGAAFNPDVPADRLPMLGQKEKSRIIGEFNDTKTTYERDESIISLFSRQVKKTPDHQALHAGGLTMTYRELDERSTAFARTLLENGLAPKGIAGILAERSPEFIIAVLAVLKAGGTYLPLDAELPTDRIADMLTESGAQLLTVQKGIETDFDFSHIISIPAAAEKQTADAGKLNTDTAPDDLAYIMYTSGSTGKPKGVMISNRNVVSLVSNSNYTSAGMTDRLILTGSIGFDAVTFEIFGALLNGACLHVVDRSTMLAPERFGNYLSSNRITILFLTTALFNQFAQADPEMFSGLHTLYVGGEALSPALINKVRHRCPNLSLYNIYGPTENTTFSTFYEIRHDFSQPIPIGKPISNSTAYIIDKNGGLAPIGVPGELCVGGDGVAKGYLNRPDLTSEAFVSHPVHPEEKIYKTGDLAHWLPDGSIGYISRIDRQFKIRGKRIEPAEIEARLTEIDGIRESAVIVAKEGQEAILCAYYTGAHVEEKTIRSLLARSLPDYMIPQYVIKLDRMPLTANGKVDRRGLPAPERKKTLSKAVPPRNWVERELIDIWTPILGCGELGIQDDFFELGGHSLKALQVIHQLKTRQQMDVPIEMIFEYPTIEQLAEKLYSNTLSEAAEQHISRLNQPKGRNLFCFPPISGFGIFFKDLAAALNERAAVYGFNFIEEDSRMEQYIDKMLEIQPEGPYILFGYSAGGNTAFEAAKAMEKLGLEISDVIIADAYRKLDALPPQPTNATADNVPEAVREAVIKKTERYQTYWAELINDGQIAANLHFIEAGIKEEHSDKTEPMKWEGATTGLYQEYQGGGAHKDMFEPAFAQQNAEVILDIIANSGRRLARNL	PGPT0012320_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-FENGYCIN|PLIPASTATIN_METABOLISM,PGPT0012320-ppsE|fenB-K15668	NA	NA
D1-12_01054	3330	ppsD	COG0318	Plipastatin synthase subunit D	ATGACGATGCTTGAACACATTGTCCGTGAACCGGAAACTTCTTTACAAGCGATCAGCATGCTGACTGCTCCGGAACGGGACCGGATTCTTTCGGACTTTAACGGCATGGCGGATCAACAGCTGCCTGAAAAAACAGTTCATGAACTGTTCATCACCCAGGCGCGAAAAACACCGGATGCGGCAGCCCTTATCAGCAGGGAAACTTTAATCACATATAAAGAATTAGATGAATGGTCGAATAAAATCGCCAGAGCTCTGCAAAAACGGCAGATCGGACCGGATGCCGCCGTCGGCATTGTGATACCAAGATCACCGGAACAAGTCGCGGCAGTCTTCGGGGTTTGGAAAGCCGGGGGCGCCTACGTCCCGATAGATCCTGAATATCCGGAGGAACGCAAGCAATATATCATCTCAGACAGCGGCACAGCGCTTCTCCTTACCGTACACGGCGCAATAGATCAAGTGCCTGATCATTTTAAAGGTGAAGTGCTCGCACTGGAGGATATCCAAGAACAAGACGCATCACCGGTTCAGTCATTATCAGCACCGGAAGATTTGGCTTACATCATTTACACGTCCGGGACGACAGGCAGGCCGAAAGGGGTTATGGTCGAACATCGTTCCGTCAGCCAAACCCTTCAATGGCGGAGCGGATTTTATGATCTGAATGAGAAAGATACGATTCTTCAGCTCTTTTCATTTTCATTTGACGGTTTTGTAACAAGTATGTTCACACCGCTGATTTCCGGTGCGAAAGCGGCCGTTTTAGCCGAAGATGAAGCAAGAGATATTCTTGCTATTAAACACTATCTTGCATCTTACCGCATCACTCACATGATCATTGTACCCGTGCTGTATCGCACACTGCTTGACGTACTGGAGCCGGGTGATGCCGAGTCTCTCCGGATTGTCACATTAGCGGGAGAAGCCGTCGACCAAAACGTTATCAGCCGCAGTTTATCAGTTTGTCCACACACTGAGCTTGCCAATGAGTACGGCCCGACGGAAAACAGCGTCGCCACTACAGCGGCAAGACATATAGAACAAAGTGAGAACATTACGATCGGCCGTCCGATTGAGCATTCACACGTTTATATTTTAAACGGGGATCACCCGCAGCCGATCGGTGTAACGGGAGAACTTTGCATTTCGGGTTCCGGCCTTGCAAGAGGATACCGCAATCTTCCTAAGCAAACGGCTCAAGCCTTTGTCCAAGACCCGTTCCGGAAGAACCGGCGCATGTACCGCACGGGCGACCTGGCAAAATGGCTGCCGGACGGCACGCTGCAATATATCGGCCGAATGGACGAGCAAGTCAAAATCAGAGGCTACCGGGTGGAACTGAAAGAAATTGAATCCGCCTTAACAGGCATAAAAGGTGTCAAAGAAGCAGCCGTCACCGCTCTGCCCGCATCAGCAGGCCAAACGGAACTATGCGCTTATATCGTGACAGAAGAAGGAACAGAAAGTGAAACCGTGCAGCAGGCGCTCAGAAATGAAATGCCCGCTTATATGGTGCCGGCGTTCTTTGAAACACTTGAAGCCCTGCCTGTCACACCGAACGGGAAGCTTGACCGCCGCGCGCTTCCTGAGCCGCGGAAAAAAGCGCACACCGGACGGGCATTTACCGAGCCTGAAAGCGACATGGAAAAAGAGCTTTCCGCGATTTGGAGCGAAGTGCTCGGGACTGAAAATATTGCCGCGGATCAATCATTTTTTGAACTGGGCGGCGATTCCATCAAAGCCCTGCAAGTATCAGCCCGATTACATCAGGCAGGAAAACAGATCGCCGTAAAAGATATTTTCAGCCGGCCGACAATTAGAGAGCTGGCGCCTTATGTCCGTACAGAGCGGCAGCCGGTCAGCCAAGCTCCTGCAGAAGGAGAAGTGAAGTGGTCGCCGGTTCACAAATGGTTCTTCACACAAGACATGAAGGAAGCAAACCATTTTAACCAGTCCGTCATGCTGACGAGAACAAATTCAATAGATGAAGAGGCCCTGAGGAAAACGTTAAAAGCCATTACCGTTCATCATGATGCCTTGCGCCTTGTCTGCAAAAAAGACGAAGAGAAAGGTCTTCTCCTCTTCAACAGACCGGCTGACCTCGCAGATGAGCAGCTTTACAGCCTGACCATTTTAGAAACGGAAGGCGATGAGCATGAGAAGGAACGTTTTGTAAAACGCCGCGTCGCAGAGCTTCAGAGAAACATGGATTTGGAGAACGGGCCGCTTGTACAGGCGGGGCTGTTCCGCTCCGAAGCAGAAGATTACTTGTTTCTGACGGTCCATCATCTCGCTGTCGACGGGATATCATGGCGGATTTTATTGGAAGACTTGGCTTCTGCTTATGAGCAGGCCGTCTCTGGACAGGAAATCAAACTCCCTCCGAAAACCATGTCATTCAAAACATATACGGAGCAGCTGGCCGATTATGCCGAAAGCAGACAGCTTCTTCAGCAGGCGGAGTATTGGCGGGAGATTGAACACTATGAAACAGAAAGTCTTCCTTACGAGCAGGCAGATTTATCTCAAACTCCTGCAAAAAAACGGAACACGGTATCCTTCACTCTGACAGAAAGTGAAACGGACGCCCTGTTGAAAGATGTGCACAGCGCCTACAATACGGATACGCAAGATGTGCTTTTGGCTTCCGCCGTGCTTGCCGTTCAAAAGTGGTCGCCGCGGCACGCTTTGAAAATCGCCCTTGAAGGACACGGACGCCAATCGGAGCAGGCAGGTGCGGACATCAGCAGGACGGTGGGGTGGTTCACTTCCATTTACCCGGTGCTTTTCCGGAGCGGAGTTTATGAACCTCATGAAGAATATGAAATTCGCACATTGAAAACCGTCAAAGACACATTGCGGCGCATTCCGGATAAAGGGAACGGATACGGCGTCCTCAAATATTTAACACCGCCGAAGCTTGCCGGGATGACTTTCGGGAAAGCACCGGAGATCAGCTTTAATTATCTCGGACAATTCGATGCGCCCGGCGGGAATCCGGCAGAAACGGAACAGCCTGACGCGTTTCAGTTTTCTCCTTTGGGAGGCGGAGATGATGTGACAGATACATGGAAACGGGAGCAGTCACTTGAAATCAGCGCGATTGCGGCAAAAGGCCGGATGACCGTCAGCATTTCCTATGAAACGGAGCGCTTCCGGCAAGATACGATCGAACGGCTGTCCGAAAGCTGCCGGTATTATCTCCTGAAACTGTCGGAACACTGCCTCAGCAAAACCGATACGGAGAAGACCGTCAGTGACTTTGATGATCGGGAGCTGACTGAGGAAGCATTGCAGGATATTGCCGACTTACTCAGCTTCCACTAA	MTMLEHIVREPETSLQAISMLTAPERDRILSDFNGMADQQLPEKTVHELFITQARKTPDAAALISRETLITYKELDEWSNKIARALQKRQIGPDAAVGIVIPRSPEQVAAVFGVWKAGGAYVPIDPEYPEERKQYIISDSGTALLLTVHGAIDQVPDHFKGEVLALEDIQEQDASPVQSLSAPEDLAYIIYTSGTTGRPKGVMVEHRSVSQTLQWRSGFYDLNEKDTILQLFSFSFDGFVTSMFTPLISGAKAAVLAEDEARDILAIKHYLASYRITHMIIVPVLYRTLLDVLEPGDAESLRIVTLAGEAVDQNVISRSLSVCPHTELANEYGPTENSVATTAARHIEQSENITIGRPIEHSHVYILNGDHPQPIGVTGELCISGSGLARGYRNLPKQTAQAFVQDPFRKNRRMYRTGDLAKWLPDGTLQYIGRMDEQVKIRGYRVELKEIESALTGIKGVKEAAVTALPASAGQTELCAYIVTEEGTESETVQQALRNEMPAYMVPAFFETLEALPVTPNGKLDRRALPEPRKKAHTGRAFTEPESDMEKELSAIWSEVLGTENIAADQSFFELGGDSIKALQVSARLHQAGKQIAVKDIFSRPTIRELAPYVRTERQPVSQAPAEGEVKWSPVHKWFFTQDMKEANHFNQSVMLTRTNSIDEEALRKTLKAITVHHDALRLVCKKDEEKGLLLFNRPADLADEQLYSLTILETEGDEHEKERFVKRRVAELQRNMDLENGPLVQAGLFRSEAEDYLFLTVHHLAVDGISWRILLEDLASAYEQAVSGQEIKLPPKTMSFKTYTEQLADYAESRQLLQQAEYWREIEHYETESLPYEQADLSQTPAKKRNTVSFTLTESETDALLKDVHSAYNTDTQDVLLASAVLAVQKWSPRHALKIALEGHGRQSEQAGADISRTVGWFTSIYPVLFRSGVYEPHEEYEIRTLKTVKDTLRRIPDKGNGYGVLKYLTPPKLAGMTFGKAPEISFNYLGQFDAPGGNPAETEQPDAFQFSPLGGGDDVTDTWKREQSLEISAIAAKGRMTVSISYETERFRQDTIERLSESCRYYLLKLSEHCLSKTDTEKTVSDFDDRELTEEALQDIADLLSFH	PGPT0012315_14	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-FENGYCIN|PLIPASTATIN_METABOLISM,PGPT0012315-ppsD|fenA-K15667	NA	NA
D1-12_01055	3687	ppsA	COG1020	Plipastatin synthase subunit A	TTGAAGAACACTGTTTATTCTTTAACTCACGCCCAAAGAAGAGTCTGGTTTACAGAGCTGCTCGAGCCGGGCACAAGTATCTGCAATCTCGCGGCGTGCGTCAAATTCAGGGGGGACATCGATTTTGACGTACTGCGCCATGCTTTAGATTTTTCTATCTCGCAAAATGATTCACTCAGGTTTCAACTGACAGAAGGGGACGGATCAGAACCCCAGCTGTATCTGGCGGGGCATCGGCCGATTTCTCTAGAGACTGTTGATTTTACTCATACTGATCAGGCAGACCGGGACGCATGGATTGACACGCAGACCCGTGTTCCGTTCAAGCTGTTTCATTCACCTCTGTATCAATTTACTCTGCTTGTCATGTCAGACGAAGAAGTTTGGCTTTATTCAAAATTTCACCATATTATCATGGACGGCATCTCGCTCAACCTGCTCGGCAACCAGCTCATTGATATCTACCAAAAGATCATGCGGGGCGAGGATTTAGCTGAACATCACAGACCTTCCTATCTCAGCTACATGGAAAAAGAACAGCAATACTTACAGTCTTCCCGTTTTCAAAAAGACCGTTCATTTTGGACTGAAACATACCGAACCGTTCCGGAACACCTTTCACTGGCGGAACGAACCTCTCATCTTAGACAAAGCACTGCGGCTTCCAGAGATACAATCACTCTTTCTCACTCCTTAGAACAATCTATCCGGCGTTTTTGCAAAGAAAATAATATCAGCATCATCTCTCTGTTTATGGCTTCGTTATACATATGCATCAGCCGTCTGACGGCTAAAAAGGATATTGCCATCGGCACTTATTACGGAAACCGGGGCTCCAGGCTCGAAAAGGATATGCTCGGCATGTTCGTCAGCACACTGCCGATCAGAATGACGGCAGATCCTGATGCGGAGTTCCTGTCCTTTGTCCGCAGCGTAGGAAAAGAGCAGCTGTCTGTTATGCGGCACCAGAAATATCCTTACAATCTTTTTGTGAATGAATTAAGGCAGACTCATCACGACCTGCAAAATATCATCGGGATTTCGATGCAATACCAGCCTCTCGCGTGGCGTCAGGCAGAAGGTTTCGATTATGAAACGGCGATGTTTTTCAGCGGACATACGGCAAATGAGCTGTCCATTTTAATTAAGGAGCGGACAGATACGGGATTGATTGAGCTGAATTTTGATTATCAATCCGCTTTATTTACTAAAACATCGATTAAACGAATTCAAACTCATTTGCTGACGATCGTTGAAAATGCCGTTAGAAATCCAAACCAGCTGATTCGGCATATTGATATGGCGGATGAAAATGAAAAGAAACGGGTGTTAACTGCGTTTAACCGTACAGAAGCGGTTGAACCGCCGGCTCCGACGCTTCACGGGCTGTTCACCCGCCGCGCCGCGCTTTCGCCGCATCGTCCGGCGCTCCGTTTTCCGGGCGGTATGCTGACGTACGCTGAGCTCGATCAGTACACAGACAGGCTCGCCGTTTGGCTCCGCCAAAAAGGCGTCCGCAAAGAAAGCATGGTCGGCGTACTCGCTGAACGCTCGCCGGAGATGGTGGTTTCTGTGCTTGCCGTGTTAAAAGCGGGCGGCGCCTATGTGCCGCTTGACCCGGAGTATCCTGAGGACAGGCTGCGCTATATGCTCAATGACTGTGCCGCTTGTCTTCTGCTTGCACAGCCGGGATTATCCGTTCCCGATTTTTCCGGAGAAACGCTAGAAGTGTCTCTTTCTGCTCTGACAAGTGAGACGGAGACAGGGGATGTCTCTGAAGAAGCGGATGCTGATTCGCTCGCTTATATCATTTATACGTCCGGTTCGACGGGAACACCGAAGGGAGTGGCTGTTGAACACCGTCAAGCCGCCGCCTTTTTATCAGGGATGCAAGGGCAGTTCCCGTTAACGGAAGAGGACATCATCGTGCTGAAATCATCCTTTTCATTCGATGCTTCCATCTGGCAATTGTTTTGGTGGACGATGTCCGGCGCTTCCGTGTATCTGCTTCCTGCCGGATGGGAGAAAGATCCTGTGCGGATGATTGAAGCGTTTGCCTCAGAAAAGGTGACGACCGCGCATTTTATTCCGGCGATGGTCAACAGCTTTTTAGACGCGCTGGAAACAGAGCCTGCAGAAACAAGAACACGCCTCGGCAGAACACTGACACGCGTGTTTGCCGGAGGGGAAGCTCTTTCCCCGCTTACGGCTGCCCGGTTTGCCGATCTGTTGCCGGAGACCATGCTTATTCACGGCTACGGGCCGACAGAAGCGACGGTTGATGCGGCGTTTTACGTCTGTGACCGAAAACGGGACAGCGGACGGACAAGGCTTCCGATCGGAAAACCCGTTCCTGGTGCCCGTCTGTATGTATTAGATAGCGGAGGAACCATCCAGCCTGCGGGTGTGGCAGGAGAGCTTTACATCGCAGGGACAGGGGTGGCCCGGGGCTATCTGAACCGGCCTGAGCTGACGGAGGAGCGTTTTCTCGATGATCCGTTTTATCCGGGCGAGCGCATGTATCAGACGGGCGATATCGCACGCTGGACAGAAGATGGCCTTGTCGAATGGCTCGGCCGTTCAGACGGACAAGTGAAAGTCCGAGGCTACCGGATTGAACCGGGGGAAATCGAAGCGGCGATCCGGCGCATCGACGGCATTCGTGAGGCGGCAGTCACCGCCCGGACCGAACACGGCGAAACCGCGCTTTATGCCTATATCGAAGGACGGGAAAGCGATGACGTGCGGGCGGAGCTTGCGGCACGCCTTCCTGCCTACATGATGCCGGCTCAGTTTATAGAGATGAGCGAATGGCCGGTCACGCCGAGCGGAAAGCTTGACCGCCGCGCGCTGCCGGCTCCCGACGGAGCGGCAGACAGACAGGCGTACACCGCCCCGCGGAACGTCACGGAAATGAAGCTTTGCGCCCTCTGGGAAGAGGTGCTGAAAAACGGCCCCGTCGGCATCCGGGATCACTTTTTTGAGCGGGGCGGCCATTCGTTAAAAGCGACGGCTCTCGTCTCCCGCATCGCCAAAGAGTTCGGTGTTCAGGTGCCGTTACAGGACATCTTCGCCCGGCCGACGGTGGAAGAGCTCGCTTCGGTCATTCAGGACTTGGAAGAGAGCCCGTATGAAGCGATTCAGCCTGCGCAAAAACAGGACACCTACCCGGTGTCTTCAGCGCAGAAACGGATGTATGTGCTCCAACAGCTTGAAGACGGCGGTGTCGGCTACAATATGCCGGCTGTGCTGGAACTGACGGGCCCGCTTGACTGCGGCCGGCTGGAGGAGACGTTCCGGCAGCTTGTGGAGCGGCATGAGTCGCTCAGAACGTCCTTTGAAACGGGGCCTGACGGCGAACCGGTGCAGCGCATCCATGACAGCGTGCCGTTTCAGCTCGATGAGGCCGAGTCACCTGACGCATTCGTCCGGCCGTTTTGTCTGGAGGAAGCGCCGCTCTTCCGTGCGGCCCTCGTGAAAGAATCGGATGAACGTCATCTTTTATTAACGGATATGCATCATATTATTTCTGACGGTGTGTCCGTCAACACCTTGATTAAAGAATTCGGCGAGCTGTACGCAGCCGTTCGCTTGCGCCGATGCGCCTTCAATATAAAGACTATGCCGTCTGGCAGCGGTCGTTTCAGGAGAAAGAAGGATATCAGAAGCAGGAAGCGTATTGGCTGA	MKNTVYSLTHAQRRVWFTELLEPGTSICNLAACVKFRGDIDFDVLRHALDFSISQNDSLRFQLTEGDGSEPQLYLAGHRPISLETVDFTHTDQADRDAWIDTQTRVPFKLFHSPLYQFTLLVMSDEEVWLYSKFHHIIMDGISLNLLGNQLIDIYQKIMRGEDLAEHHRPSYLSYMEKEQQYLQSSRFQKDRSFWTETYRTVPEHLSLAERTSHLRQSTAASRDTITLSHSLEQSIRRFCKENNISIISLFMASLYICISRLTAKKDIAIGTYYGNRGSRLEKDMLGMFVSTLPIRMTADPDAEFLSFVRSVGKEQLSVMRHQKYPYNLFVNELRQTHHDLQNIIGISMQYQPLAWRQAEGFDYETAMFFSGHTANELSILIKERTDTGLIELNFDYQSALFTKTSIKRIQTHLLTIVENAVRNPNQLIRHIDMADENEKKRVLTAFNRTEAVEPPAPTLHGLFTRRAALSPHRPALRFPGGMLTYAELDQYTDRLAVWLRQKGVRKESMVGVLAERSPEMVVSVLAVLKAGGAYVPLDPEYPEDRLRYMLNDCAACLLLAQPGLSVPDFSGETLEVSLSALTSETETGDVSEEADADSLAYIIYTSGSTGTPKGVAVEHRQAAAFLSGMQGQFPLTEEDIIVLKSSFSFDASIWQLFWWTMSGASVYLLPAGWEKDPVRMIEAFASEKVTTAHFIPAMVNSFLDALETEPAETRTRLGRTLTRVFAGGEALSPLTAARFADLLPETMLIHGYGPTEATVDAAFYVCDRKRDSGRTRLPIGKPVPGARLYVLDSGGTIQPAGVAGELYIAGTGVARGYLNRPELTEERFLDDPFYPGERMYQTGDIARWTEDGLVEWLGRSDGQVKVRGYRIEPGEIEAAIRRIDGIREAAVTARTEHGETALYAYIEGRESDDVRAELAARLPAYMMPAQFIEMSEWPVTPSGKLDRRALPAPDGAADRQAYTAPRNVTEMKLCALWEEVLKNGPVGIRDHFFERGGHSLKATALVSRIAKEFGVQVPLQDIFARPTVEELASVIQDLEESPYEAIQPAQKQDTYPVSSAQKRMYVLQQLEDGGVGYNMPAVLELTGPLDCGRLEETFRQLVERHESLRTSFETGPDGEPVQRIHDSVPFQLDEAESPDAFVRPFCLEEAPLFRAALVKESDERHLLLTDMHHIISDGVSVNTLIKEFGELYAAVRLRRCAFNIKTMPSGSGRFRRKKDIRSRKRIG	PGPT0012300_17	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-FENGYCIN|PLIPASTATIN_METABOLISM,PGPT0012300-ppsA|fenC-K15664	NA	NA
D1-12_01056	1476	dacC	COG2027	D-alanyl-D-alanine carboxypeptidase DacC	TTGAAAATATATGTGAAACGCTTGAGCGCGGTGATTCTGCTTTTGATCATTGCCGCAGTTCCTTATATTGATGATGCGGCTAAGGCGGCTGAACAAAAAAATACTTTGCAAAAAGAGCTGGAACACATTCTGGATGAAGAACCTGCTTTAAAGGGGGCTTCAGCGGGCGTCAGTGTCCGGTCAGCAAAAACAGGGGAGGTGCTGTTCGGCAGCCGGGAAGATATGCGGCTGAGGCCTGCATCACTGATGAAGCTGCTGACGGCATCTGCGGCGCTTTCCGTTCTCGGAGAAGATTACACCTTTAAGACAGAAGTACGGGCAGACGGCGCCGTGAAAGGAAAACAGCTGCGCGGAAACCTTTATCTCAGGGGAAAAGGCGATCCGACCCTATTGGGTTCTGATTTTGAGAAGATGGCTAAACAGGTCAAAGCCAGAGGCATCCATGTCATTAAAGGAGATCTGGTCGGGGATGACTCGTGGTATGACGATACCAGGTATTCAGTTGATCTTCCGTGGAGCGATGAAGGCCAATATTATGGTGCGCAAGTATCAGCTCTTACCGCTTCCCCAAATGAGGATTATGATACCGGAACGGTGATTGCGGAAATCAGCCCGGCAAAACAGCCCGGTAAAAAGCCGCGCATTTCGATTTCTCCCCATACGGACGTCGTTCGTGTGAAAAATGAAGTGAAAACCGTCGCTTCTGATGAAAAGAAAGAATTGACGGTTGAACGGGAGCACGGTGGCAATGTGATTACGATAAAGGGAACCATACCTGCCGGCTCGGCACAGGCAAGAGAATGGGCGGCGGTGTGGGATCCGTCGTCCTATGCTTTAGATTTATGGAAACAAGCGCTTACTAAACAGGGTATAACTGTAAAAGGGAAAATCAGAACAGGGCGAATGCCGCACCGCACCCAACTTGTCACATCACGGACATCCATGCCTCTTTCAGAATTATTGATCCCGTTTATGAAACTGAGCAACAACGGGCACGCCGAAATTCTGATCAAGGAAATGGGAAAAGTGAAAAAAGGAGAGGGCAGCTGGGAAAAGGGCTTGGACGTGATGAAATCGGAGCTCAAATCGTTCGGGCTGAATCCGGATGAATTGATTGCAAGAGACGGATCCGGCGTTTCTCATATTAACGGCATATCCGCCGGCCAAATCGGAGAGCTTTTGTATGCGGTTCAGAAAGAAAAGTGGTACCCGGCTTTCCTTCGGTCGCTCCCTGTCGCCGGCGCAAGCGACAGAATGACGGGAGGAACCCTTCGGAACCGGCTGAAGGGCACCCCGGCGGAGGGCAAAATTAAAGCGAAAACCGGGTCACTAACATCAGTCAGTTCGATTGCCGGCTATGCAGACACAAAAACAGGAGATACGCTTATTTTTTCCGTGCTTCAAAACGGGCTGCTTGACGAAGATGACGGAAAAGACATTGAAGACAAAATTGCAGTCGTGCTGGCAAATCAATAA	MKIYVKRLSAVILLLIIAAVPYIDDAAKAAEQKNTLQKELEHILDEEPALKGASAGVSVRSAKTGEVLFGSREDMRLRPASLMKLLTASAALSVLGEDYTFKTEVRADGAVKGKQLRGNLYLRGKGDPTLLGSDFEKMAKQVKARGIHVIKGDLVGDDSWYDDTRYSVDLPWSDEGQYYGAQVSALTASPNEDYDTGTVIAEISPAKQPGKKPRISISPHTDVVRVKNEVKTVASDEKKELTVEREHGGNVITIKGTIPAGSAQAREWAAVWDPSSYALDLWKQALTKQGITVKGKIRTGRMPHRTQLVTSRTSMPLSELLIPFMKLSNNGHAEILIKEMGKVKKGEGSWEKGLDVMKSELKSFGLNPDELIARDGSGVSHINGISAGQIGELLYAVQKEKWYPAFLRSLPVAGASDRMTGGTLRNRLKGTPAEGKIKAKTGSLTSVSSIAGYADTKTGDTLIFSVLQNGLLDEDDGKDIEDKIAVVLANQ	PGPT0024035_919	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
D1-12_01057	975	galM	COG2017	Aldose 1-epimerase	GTGCTTATGACGATTGAACATACGACTTATTTAGGGGTTTCAGCCATAAAAGCGGAGACTGATCAGGCTGAATGCATCATTGTGCCGGAGTGGGGATCAAATGTCATATCGCTTCGGGATAAAAGAACCGGTATGCGGCTTCTCAGAGAACCGGAAACTGCGGAGCAATTCCGCGCAAAACCGATGCTGTACGGCATTCCCGTTTTATTCCCGCCGAACCGGATTACGGACGGGACGTTTCGTTTTGACGGCCGCGCGTATCAATTCGAGATAAACGAAGAGGATAAACATAATCATATTCACGGCTTTCTTCACAATCAGCATTGGAAAGCGGCGGCAGCGAAAGAAGAGGGGGATGGAATGACAGTCGAAACAGAAATTGATCTTTCAAAGATTCCCCGTGTTCATAAACAATTTCCGCACGATGTCATTGTCCGGATGACCTATACATTAAAAGACAATGTGTTTACGCAGCGGGCGCTGATTACCAACAATGGAACGGAGGCTTTTCCTTGGGGGCTCGGCTATCATTCCACATTTGTTTTCAATGAAGAGCGATCCCGTCTTTTTCTGACGGCTGACCGCATGTGGGAATTAAATGAACGTTTCGTGCCGACGGGCCGTTTATTGGATGTGCCTGATAAAGAAGCGTTCCGTCATGGGATGTCTTTGAAAAATAAACAGTTTGACGATGTTTTTCTTTCTTCCGGACGGAACGGCGGCAATAACGAAGCTGTTATTTCTCATCCGGATGAGAAATTATCCGTTTTGTATCAGGCAGACACGTCTTTCAAGCATTGGGTGGTATATAACGGTGACGGAAAGCAGGGGTTTGTCAGTCTTGAGCCTTATACTTCCGTTACAGATGCATTTAATCTGAATCAGCCTGCATCACTGACAGGGCTTCAGATTCTGAAACCGGGCGAAGAAGCGCCTGCGTCATCCAGGATCACCATTTTGCATGACGAAGAATAG	MLMTIEHTTYLGVSAIKAETDQAECIIVPEWGSNVISLRDKRTGMRLLREPETAEQFRAKPMLYGIPVLFPPNRITDGTFRFDGRAYQFEINEEDKHNHIHGFLHNQHWKAAAAKEEGDGMTVETEIDLSKIPRVHKQFPHDVIVRMTYTLKDNVFTQRALITNNGTEAFPWGLGYHSTFVFNEERSRLFLTADRMWELNERFVPTGRLLDVPDKEAFRHGMSLKNKQFDDVFLSSGRNGGNNEAVISHPDEKLSVLYQADTSFKHWVVYNGDGKQGFVSLEPYTSVTDAFNLNQPASLTGLQILKPGEEAPASSRITILHDEE	PGPT0017825_4182	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
D1-12_01058	1389	mepA		Multidrug export protein MepA	ATGGAAGTACAAGATCATTTAGAAACAGCGGAAGGCCGCGGCCAGTCTGTCTGGCGATCGATGTCACTGTTTTTAGTGCCGCTGCTTTTAAGCAATGTATTGCAATCTGTCGGCCAATTGGTCGGAATGGTATTTGTCGGAAGGTGGCTCGGAGTTGATGCGCTTGCCGCCGTATCGTCTTTTTTTCCGCTGTTTTTTCTGCTGATCTCCTTTACGATCGGAATCGGTTCGGGAAGTTCCATTTTGATCGGGCAGGCTTACGGCGCGAAAAACGAAGAGAGGATGAAGGCGATTGTCGGCACTACACTGACTTTTACCTTTATGCTCGGTGTTGTTCTGGCAGTTGTCGGCAGTGTGTTTACGCTTGATATTCTGCGGCTGATGGGAACGCCGGAAAACGTAATAGATGTCAGTGTCCGATATGCGCGCATTTTGTTTTGCGCAATGCCGCTGATGTTTTTATATTTTGCGTATACGACATTTTTACGCGGAACGGGAGATTCAAAGACCCCGTTTTATACGTTAATCGTCAGTACAGTCATAAACATCGGGCTCTTGCCCTTATTGATTCTCGGGCTTTTCGGACTTCCGAAGTTCGGCATTTACGGTTCGGCGTATGCAACCGTGATTTCAAACATCGTGACATTTATCGTACTCATGGTTTATTTACGGAAAAGAAAACATCCATTGGCATTTGACCGGACTGCGCTCCGTTCTCTTAAAATGGACAAAAAGCTGCTCGCGCTTTTACTCCGTCTCGGTATTCCGTCGAGCATCAATATGATTCTCGTGTCACTTTCTGAAATTGCGGTCATTTCATTTGTCAATCATTACGGATCAAACGCGACGGCTGCTTACGGGGTCGTCAACCAAGTGGCGAGTTATGTGCAGATGCCGGCGGTAAGCCTCGGTATCGCCGTTTCAATTTTTGCCGCCCAATCCATTGGCGCCAATCAATTCGGCCGGCTGAAACAGGTCATCAAAGTCGGCATCGGCCTGAATTATTTGATCGGCGGGGTGTTGATCCTGCTGATTTACACCTTCTCCCGGCAGATACTGGCTTTGTTTTTAACAGATCAGGATACACTCCACATTGCCCGCAATCTGATTATGATTACCCTTTGGAGCTATTTGATTTTCGGTCACGCTCAGATCGTTTCAGCAACAATGCGGGCGAGCGGTACGGTGTTATGGCCGACGATTATCAGCATTTTTGCGATTTGGGGAATTGAAGTGCCTGTGGCCTTTATTCTTTCTCATTATACGAATCTCGGCATTCTCGGCATTTGGGTCGGTTATCCGGCGGCTTTTGTCGTCAGCCTGCTGCTGCAATACGGATATTACCGGTTTGTATGGAAGAAAAAACAGATTACCCGGCTGATTCAATAA	MEVQDHLETAEGRGQSVWRSMSLFLVPLLLSNVLQSVGQLVGMVFVGRWLGVDALAAVSSFFPLFFLLISFTIGIGSGSSILIGQAYGAKNEERMKAIVGTTLTFTFMLGVVLAVVGSVFTLDILRLMGTPENVIDVSVRYARILFCAMPLMFLYFAYTTFLRGTGDSKTPFYTLIVSTVINIGLLPLLILGLFGLPKFGIYGSAYATVISNIVTFIVLMVYLRKRKHPLAFDRTALRSLKMDKKLLALLLRLGIPSSINMILVSLSEIAVISFVNHYGSNATAAYGVVNQVASYVQMPAVSLGIAVSIFAAQSIGANQFGRLKQVIKVGIGLNYLIGGVLILLIYTFSRQILALFLTDQDTLHIARNLIMITLWSYLIFGHAQIVSATMRASGTVLWPTIISIFAIWGIEVPVAFILSHYTNLGILGIWVGYPAAFVVSLLLQYGYYRFVWKKKQITRLIQ				NA	NA	NA	NA	NA
D1-12_01059	543	yoeB		putative protein YoeB	ATGAAAAAATGGCTATTATTCCTCACTACTATTACATTGATTCTGTCACTGGGCACTGCGGCGACCGCAAAAAATGCACCTAATGACCTTACACAAAAACAAGCGCTTCAGCTGGCCCTGTCAGCGAGAGAACATTTCTGGAACACAATGAGCGGCGGTTCGCTTAAATCAAACGCAAATTGCACTTCTGAACCGTTTGAATATCAAAATCTGCAATATGTATTTATGTGCAAAGACCTCGGAACAAAAGCGAAAGCCGTAAAATATCTGACACCCGCTTTTACAAAGCAAGCGATTGACAAAGGGCTCAAAGATTACCACTTCACTGTAAAAGACGGCAAATTGGCTGTTCCGGTCGGCGACGGAGATAACCTCCTGAATTGGAAAAAAGCAAAAATGACTCTTCTTTCTAAAAAAGGAAGCGCTCAAACATACCGCTTCACTGTACCGACTCTTGACGGTTCTCCGTCAGCAAAACGCGATGTAACATTCGTAAAAGAAAACAACGTTTGGAAAGTCAATCAATTTGATGCTGTCATATAA	MKKWLLFLTTITLILSLGTAATAKNAPNDLTQKQALQLALSAREHFWNTMSGGSLKSNANCTSEPFEYQNLQYVFMCKDLGTKAKAVKYLTPAFTKQAIDKGLKDYHFTVKDGKLAVPVGDGDNLLNWKKAKMTLLSKKGSAQTYRFTVPTLDGSPSAKRDVTFVKENNVWKVNQFDAVI				NA	NA	NA	NA	NA
D1-12_01061	546	xerC_2		Tyrosine recombinase XerC	ATGCATATCGTACAGCCGATCCGAAGTTTGGAGAAGATCCAGGAAGTCAAACAGTATTTAATGAAAAAAAGTGATCGTGATTATTTTTTATTTATTTTCGGCATGAACAGCGCACTGCGGATTTCAGATGTTCTGCCGCTTCGCGTGAGGGATGTAAGGAACAAAGACCATGTGTGGGCAACCGAAAGCAAAACGAGAAAGAAAAGAAAAATTCTGATACTGGAGTCTTTAAAGGCCGACATATACGCTTATACAAAAGACATGAAAGAGGATGACTATTTGTTTAAATCGAAACGGACGAATAAGCCCATATCCCGGATTCAGGCATACAGAATATTAAAGGAAGCGGCTGCCGCTTGCGGGTTGGAGGAAATCGGGACGCATACGCTTAGAAAGACGTTCGGGTATCATTTTTATCAGAGGACAAAAGACATTGCTGAACTGCAGAGGATTTTGAATCATTCTTCTCCGTCTATTACAATGCGTTATATCGGAATAGATGAAGATACGACGAGAGCCGCCTATAAAGTGTTCGGAGGGCTGTAG	MHIVQPIRSLEKIQEVKQYLMKKSDRDYFLFIFGMNSALRISDVLPLRVRDVRNKDHVWATESKTRKKRKILILESLKADIYAYTKDMKEDDYLFKSKRTNKPISRIQAYRILKEAAAACGLEEIGTHTLRKTFGYHFYQRTKDIAELQRILNHSSPSITMRYIGIDEDTTRAAYKVFGGL				NA	NA	NA	NA	NA
D1-12_01062	231			hypothetical protein	ATGTATTTAACGATCAAAGAGACAGCTGAGTTTACCAGTCTTCCTGAAGAATATGTGCACAATCTTGTTTTGACGAATAAAATAAGAGCCGTCCATGACGGACAGCAATATTTAATCAACAAGGAACAATTTCAAACACATCTCGAGCAGCTGGAAAAATATAAGGAAATGATTCAAGAGTTTTTAAATGAGCCGCTTCCTGAGGACATTGATGTAAAAGATGAAGATTAG	MYLTIKETAEFTSLPEEYVHNLVLTNKIRAVHDGQQYLINKEQFQTHLEQLEKYKEMIQEFLNEPLPEDIDVKDED	PGPT0017735_3743	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
D1-12_01063	1776	ggt	COG0405	Glutathione hydrolase proenzyme	ATGAAAAAGAAAAAGTTTATGAATCTCTGTTTTATCGTTCTGCTCAGTACTTTGCTCGCGGCCGGAAGCATCCCTTATCACGCTCAGGCTAAGAAACACCCGTTTTCCTATGACGACTACAAACAGGTAGATGTCGGCAAAGACGGCATGGTTGCCACCGCCCATCCTCTCGCTTCACAAATCGGTGCCGACGTGCTGAAAAAAGGCGGCAATGCAATTGACGCCGCGGTTGCCATTCAATTCGCATTAAACGTAACTGAACCTATGATGTCAGGAATCGGCGGCGGCGGATTTATGATGGTTTATGATGCGAAGACGAAAGACACCACCATTATCGACAGCAGGGAACGCGCACCGGCAGGCGCAACACCGGATATGTTCCTTGACGAAAACGGCAAAGCCATTCCTTTCTCCGAACGCGTTACGAAAGGGACTGCAGTCGGTGTTCCGGGAACATTAAAAGGACTTGAAAAAGCGCTAGACAAATGGGGCACACGCTCCATGAAACAACTCATCACCCCTTCCATTAAACTTGCCTCAAAAGGCTTTCCGATCGATTCGGTTTTAGCTGATGCCATCTCAGATTATAAAGACAAATTATCACACACTGCTGCAAAAGACGTGTTTCTTCCGAACGGAGAACCTCTGAAAGAAGGAGACACACTCATCCAAAAAGACTTAGCCAAAACATTTACAGCTATTAAGTACAAAGGCACAAAAGCATTCTATGACGGTGCATTCTCCAAAAAGCTTGCAGAAACAGTGCAGGAATTCGGCGGCTCAATGACAGAAAAAGACATTAAAAACTTCAATGTGACGATTGACGAACCGATCTGGGGAGATTACCAGGGCTATCATATCGCAACTGCTCCTCCTCCAAGCTCGGGCGGTGTTTTCCTGTTGCAAATGCTGAACCTCCTGGATGATTTTAAGCTTTCTCAATATGATATCCGTTCTTGGCAAAAATATCAGCTTCTCGCAGAAACGATGCATTTGGCTTATGCTGACCGCGCCGCATTTGCCGGGGACCCAGAATTCGTCAACGTCCCTCTCAAAGGTCTCTTGAATCCAGATTATATCAATGCCCGCAGACAGCTGATAGATATTGATAAAGTCAATAAAAAACCGAAAGCCGGCGATCCTTGGGCCTATCAGGAAGGTTCTGCAAACTATAAACAAGTGGAGCAGCCGACTGACAAACAGGAAGGTCAAACGACTCACTTCACGGTAACCGACCGCTTCGGCAATGTCGTATCTTATACGACAACAATTGAACAGCTGTTCGGTTCCGGCATTATGGTTCCCGGATACGGCGTTGTGCTGAATAATGAGTTAACAGACTTCGATGCGGTGCCTGGCGGCGCAAATGAAGTGCAGCCGAATAAACGTCCGCTCAGCAGCATGACTCCGACTATTTTATTCAAAAATAACGAACCTGTCCTGACTGTCGGCTCCCCCGGCGGAGCAACGATTATTTCTTCCGTCCTGCAAACGATCCTGAACAAAGTTGAGTACGGCATGGATCTGAAAGCGGCAGTCGAAGAGCCGAGAATTTACACAAACAGCATGACATCCTATCGATATGAAAAAGGAGTGCCGGAAGAAGCCCGCACAAAACTGAACGAAATGGGGCATAAATTCGGCAGCAGCCCGGTTGATATCGGTAATGTGCAAAGCATCCTGATCGACCGTGAAAACGGCACCTTCACCGGAGTCGCCGACTCAAGCCGAAACGGAGCCGCAATCGGCGTAAACTTGAAAAATTATAAAAAATAA	MKKKKFMNLCFIVLLSTLLAAGSIPYHAQAKKHPFSYDDYKQVDVGKDGMVATAHPLASQIGADVLKKGGNAIDAAVAIQFALNVTEPMMSGIGGGGFMMVYDAKTKDTTIIDSRERAPAGATPDMFLDENGKAIPFSERVTKGTAVGVPGTLKGLEKALDKWGTRSMKQLITPSIKLASKGFPIDSVLADAISDYKDKLSHTAAKDVFLPNGEPLKEGDTLIQKDLAKTFTAIKYKGTKAFYDGAFSKKLAETVQEFGGSMTEKDIKNFNVTIDEPIWGDYQGYHIATAPPPSSGGVFLLQMLNLLDDFKLSQYDIRSWQKYQLLAETMHLAYADRAAFAGDPEFVNVPLKGLLNPDYINARRQLIDIDKVNKKPKAGDPWAYQEGSANYKQVEQPTDKQEGQTTHFTVTDRFGNVVSYTTTIEQLFGSGIMVPGYGVVLNNELTDFDAVPGGANEVQPNKRPLSSMTPTILFKNNEPVLTVGSPGGATIISSVLQTILNKVEYGMDLKAAVEEPRIYTNSMTSYRYEKGVPEEARTKLNEMGHKFGSSPVDIGNVQSILIDRENGTFTGVADSSRNGAAIGVNLKNYKK	PGPT0002935_1851	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-12_01064	1176	pbuE_1	COG2814	Purine efflux pump PbuE	GTGCAAAATACCTGGAAGATTTACATTTTGGCAATTATCAGTTTTTTAGTGGGGACGTCTGAATATGTGATATCCGGGATGCTTGATAAAATTGCAGGGTCCTTGGGAGTTACTGTGGCAGCGGCAGGGCAGCTGATTACAATTTTTTCACTTGTTTATGCAATCGGAACGCCTGTCATGATGGCCCTTACAGCAAAACTGGACAGAAGGAAGCTCATGATCTATGCTCTTGGATTGTTTGTAATCGGAAATATCATTTCTTTCCTTGTGCAGGGATTCGGCTTATTTGCGGGAGCGCGGGTGATTATGGCGCTTGGAGCAGGAACCGTGGTGGTCACCGCGCTTACGATCGCAGCAAAAATCGCTCCCCCGGGAAAACAGGCAAGTTCTCTCGCAACCGTCATTATGGGGTTTACGGCGGCGCTCATTATCGGTGTTCCGATCGGAAGAACCGTGTCTGAAGCTTTCGGCTGGAAGGTGGTTTTCGCCGGAATTGCGGCAATCGGAATCATTGCCATGCTTATTATACGTTTCGCGCTGCCTGAGATAAAAGGAGATAAACCGGTGCCGCTCATTCAGCAATTTTCTCTTTTGAAGAAACGAAAGGTGGCTGTCGGGCTGGCCATTACGTTTTTTTGGCTCGGAGGCTATTCGGTTGCGTATACGTACCTTTCTCCGTATTTACTGAACGTCACTCATATCGGCAGCGGAATACTGAGTACATTGCTGCTTATTTTCGGTGTTGCAAGTCTTGCCGGTTCTAAAGCAGGCGGTTTCAGCGCAGACAAATGGGGGGCGCGTATGACATTAACCGGCGGAATGGCGCTTCATGCTATCATGCTCATGTTATTGCCGTTTGTCACACATTCTGCTTTCGGAGCGGCGGCAGTGCTTATTTTTTGGTCCTTCGCCGCCTGGTCATCTGGGCCTGCTCAGCAGTATCATTTGGCAACGATGGAGCCTGAATCATCGGGTGTATTACTTGGCCTCAACCAGTCTGTGATGCAGCTGGCTATGGCAGCCGGGGCGGGCATCGGGGGCATTGTTGTCACTCATCTGTCTCTTGCGTCAGTGACATGGATCGGATCAGCGGGTGTTGTCATCGCGATGTGCGGCGTGCTTTCGCTTGCATCATTAACGTCTGAAAAAACCTCATCTGAATACAGTGCAGAATAA	MQNTWKIYILAIISFLVGTSEYVISGMLDKIAGSLGVTVAAAGQLITIFSLVYAIGTPVMMALTAKLDRRKLMIYALGLFVIGNIISFLVQGFGLFAGARVIMALGAGTVVVTALTIAAKIAPPGKQASSLATVIMGFTAALIIGVPIGRTVSEAFGWKVVFAGIAAIGIIAMLIIRFALPEIKGDKPVPLIQQFSLLKKRKVAVGLAITFFWLGGYSVAYTYLSPYLLNVTHIGSGILSTLLLIFGVASLAGSKAGGFSADKWGARMTLTGGMALHAIMLMLLPFVTHSAFGAAAVLIFWSFAAWSSGPAQQYHLATMEPESSGVLLGLNQSVMQLAMAAGAGIGGIVVTHLSLASVTWIGSAGVVIAMCGVLSLASLTSEKTSSEYSAE				NA	NA	NA	NA	NA
D1-12_01065	303	hlyU	COG0640	Transcriptional activator HlyU	ATGAAACCTATTGATGTTTTTAAAGCGTTGTCTAATGAGTCACGGCTTGAGATTTTACAATGGCTGAAAGAGCCGGACCGTCACTTCGCCCCGCATGATGGCATTGATATGAATGAGATCGGAGTATGTGTCAGCCAGATCACCGATAAGCTTCAGATGACACAGTCAACGGCGTCTCAATATCTTTCCATTCTTCAGCGGGCGGGCCTTATCCAAACAAAACGGATTGGCAAATACACCTATTATAAAAGAGATGAAGAAGCGATAAAGGCGATGGCCGATTATTTTCAGCGCGAAATGTAG	MKPIDVFKALSNESRLEILQWLKEPDRHFAPHDGIDMNEIGVCVSQITDKLQMTQSTASQYLSILQRAGLIQTKRIGKYTYYKRDEEAIKAMADYFQREM				NA	NA	NA	NA	NA
D1-12_01066	282			hypothetical protein	GTGTACGCCAATTTTTTTCGTTCTGGTTTTTCTCAGAAGAAAGCGGGTATCCGGGCTGAGCTCGATCAGCGCGATGAAAAACTCGGCTATAAAATCAGAGAAGCACAAATGAAAAAAATACCGTATATTGCTGTTGTGGGAGATCAAGAGTGCCGCCATCAATCTGTACATGTACGGCAATACGGGCGGGAAGACACATTTGAAGAGAATGTGAGTGATTTTATGTCCCGGATCATAAGAGAGGCAAAACAAAAAATAGAGATTGAAGAAAAACAACATTGA	MYANFFRSGFSQKKAGIRAELDQRDEKLGYKIREAQMKKIPYIAVVGDQECRHQSVHVRQYGREDTFEENVSDFMSRIIREAKQKIEIEEKQH				NA	NA	NA	NA	NA
D1-12_01067	867	yofA	COG0583	HTH-type transcriptional regulator YofA	ATGGAAAGCGGAGACTTAAAGATTTTTCAGGCTGTCGCCCGCAAAGGAAGTATTTCAAAGGCGGCAGAAAGCCTGCATTATGTTCAATCAAATGTGACAAACCGGATTCAGCAGCTGGAACGGCAATTGCAAACACAGCTTTTTTACCGCACAAATCGGGGGATGACGCTGACGCCCGCAGGTGAAAACTTATTAAAAGACGCAGACAGAATCCTTCAATTGCTGCATGAGGCGCAAAAAACGGCGCAAGAGGCAGGCGATCCGAACGGCCCGCTTCGAATCGTTTCTCTTGAAACGGCGGCAGCCGTCCATCTCCCTCAATTTTTCACGGAGTATTGCAGCCGTTACGCGAAAGTACAGCTGTCTCTGTCAACCGGTGATACACATACCTTAGTGCAGCGCGTCTTACACTATGAGCTGGACGGCGCTTTTGTTTATGGACCGGTCGAATACGAAGATCTTGAGCAAGTCGCTGTATTTCAAGAAGAATTGGTCTTGGTCTCAAATAAGCGGGAAGGCAGTTTGCAAGACTTGTTGCGAGATCCGATTCTGTATTTTGCCGCGGGCTGTTCGCACCGCCGCAAAATAAAAAACATACTGAAAGAAGAGGCAGTGCCCGCATATAAAATCATTGAATTCGGTACGTTGGAAGCCATTATTGGGGCGGTGCAGGCGGGGATGGGGGTTTCCTTTCTGCCTGCATCAGCCGTCCGTTATTTTCAAAACAGGAAAAATCTTTTTCTTCATGAGCTCCCTGAACATTTTCGGAATATGAATATATCATTCATCTACCGGAGTGATTTATTTTTGACATCGGCGTTTGAAGAACTGCTGAATGGATTAAAAGCACTACCGAACGGAAGATGA	MESGDLKIFQAVARKGSISKAAESLHYVQSNVTNRIQQLERQLQTQLFYRTNRGMTLTPAGENLLKDADRILQLLHEAQKTAQEAGDPNGPLRIVSLETAAAVHLPQFFTEYCSRYAKVQLSLSTGDTHTLVQRVLHYELDGAFVYGPVEYEDLEQVAVFQEELVLVSNKREGSLQDLLRDPILYFAAGCSHRRKIKNILKEEAVPAYKIIEFGTLEAIIGAVQAGMGVSFLPASAVRYFQNRKNLFLHELPEHFRNMNISFIYRSDLFLTSAFEELLNGLKALPNGR				NA	NA	NA	NA	NA
D1-12_01068	981	ccr	COG0604	Crotonyl-CoA carboxylase/reductase	ATGAATGCTCTTATCATACACGAAAATGGCTTTGATTTCAGGCAGGCACCTGACAAACGGCCGGGAAACGGCGAAGTAAAAATAAAGCTGAAAACAGCCGGATTAAACCATCGTGATTTGTTTTTAATGAAAAACCACAAAACCGGAAACCATGAATTTACTCTCGGTTCAGACGGCGCGGGAATCGTAACCGAAATAGGACATGGCGTCCGGTCTCATTTACTGCATGCAGAAGTCATCATCAACCCGGTGCTGAATTGGAAGACTGTTGAGGACGTACCAGCCGTCCCTGATATTTTAGGAGGTCCGAGCGACGGAACATTTTCACCTTATGTCATTGTTCCTGCGGAAAATGCCGTTTTAAAACCGGAACACCTGACTTGGGAGGAAGCGGGCGTGCTGCCGTTATCAGCATTAACCGCTTATCGCGCCTTATTTACAAAAGGACAATTAAAAAAAGGCGAACACCTTATCCTTCCGGGCATCGGAAGCGGCGTGGCAACATATGCCTTATTAATGGCAAAAGCTATCGGAGCGACAGTCAGCGTCACTTCCCGCAGCGAAAACAAAAAACAAACCGCACTGTCATACGGTGCAGACCGGGCGATTGACAGCTACGGTGACTGGAATGAGGCGCTGAATGGCGAAAAAGCAGATATCATACTTGACGGTGTAGGCCCCGCCTTGTTTCAACACTATCTTGACATTATGAAACCGAATGGCCGGATCGTAACATTTGGCGCCAGTTCAGGCGATCAGCTCGGATTTCCTATTCGTTCGCTGTTTTTTCCGCAGATTCATATTCTCGGTACATCAATGGGAAGCAATGAGGAATTCGCGGATATTCTGGAATTGATAAACCGCTGCGGCATCCGTCCCATTATCGACCGCATGTACCCTCTCAGTGAAGCAGCTGCCGCTTTTAACAGAATGCGGGAAGGACGGCAGTTCGGCAATATCGGCTTTCGTATAGATGTCTAA	MNALIIHENGFDFRQAPDKRPGNGEVKIKLKTAGLNHRDLFLMKNHKTGNHEFTLGSDGAGIVTEIGHGVRSHLLHAEVIINPVLNWKTVEDVPAVPDILGGPSDGTFSPYVIVPAENAVLKPEHLTWEEAGVLPLSALTAYRALFTKGQLKKGEHLILPGIGSGVATYALLMAKAIGATVSVTSRSENKKQTALSYGADRAIDSYGDWNEALNGEKADIILDGVGPALFQHYLDIMKPNGRIVTFGASSGDQLGFPIRSLFFPQIHILGTSMGSNEEFADILELINRCGIRPIIDRMYPLSEAAAAFNRMREGRQFGNIGFRIDV				NA	NA	NA	NA	NA
D1-12_01069	711			hypothetical protein	ATGGAATTTTGTTTTACAGGGTGGAGAGATTATTTTCGTAGAAATCAATCAGCAGTCAAGGAACTGAACTGTAAATATGATCAGCTTTCTGAAACTGAGCGCCGCGTTATTTGTTCTTCAGTTCAGCAGTTTCAAATCGGCGAAAGTTCAGAAGGTCTGTTTTTGATAGCTGCTGCAAAACGTTTCTTAAAGGATTGTGCTGACAAAAGTTATCTGGAAGCGCTGATTTTATTTATTCAGGAAGAACAAAGGCATGCGGGTGAATTGGAAATATTCATGAACCGGCACAATATCCCAAAGCTGAAAAAGCATTGGGTTGATCAAATCTTCCGCAGACTGAGACGATTTGCAAGCCTTGAGCAGTCGATCACGGTGCTGCTGACGGCGGAAATCATCGCCGCCGTTTATTATGACGCCTTAAAAAACGTGACGGGCTCTGTGTGTCTGCGATCAATTTGCGGGCAGATTTTAATTGATGAAGAAAAACATATTGAATTTCAAGCGGAAGCACTGCACAAGTTCGGCCGGCGCCGCTTAAAGATCACCAATACGTGTGCTGTGTTTTCCCGCTTTATTTTATTGACGGGCACTTTACCCGTCGTGTGGCTCTATCATCGAAAAGTTTTAAAAGCCGGGGGTAAACACTTTTTTGTTTATTTGAAAGAAGCCTATCAAGAGTATGTCAGAGCGGAAAAACTCATAAACAAATAA	MEFCFTGWRDYFRRNQSAVKELNCKYDQLSETERRVICSSVQQFQIGESSEGLFLIAAAKRFLKDCADKSYLEALILFIQEEQRHAGELEIFMNRHNIPKLKKHWVDQIFRRLRRFASLEQSITVLLTAEIIAAVYYDALKNVTGSVCLRSICGQILIDEEKHIEFQAEALHKFGRRRLKITNTCAVFSRFILLTGTLPVVWLYHRKVLKAGGKHFFVYLKEAYQEYVRAEKLINK				NA	NA	NA	NA	NA
D1-12_01070	1482	gltB	COG0493	Glutamate synthase [NADPH] small chain	ATGGGGAAACCAACTGGATTCATGGAAGAAAAACGAGAAAAACCGGCTGAGCGGGACCCTCTCACTCGCTTAAAGGATTGGAAAGAGTATTCGGCTCCATTTTCAGATGAAGCGTCAAAGCGGCAGGGGGCGCGGTGTATGGATTGCGGCACACCGTTTTGCCAAATCGGCGCTGATATCAACGGTTTTACGTCCGGCTGCCCGATTTATAATCTGATACCGGAGTGGAATGACCTCGTCTATCGGGGGCGCTGGAAAGAAGCCTTGGAGCGTCTTCTGAAAACGAATAACTTTCCTGAATTCACAGGGCGGGTCTGTCCCGCTCCTTGTGAAGGATCTTGTACGCTGGCCATTTCAGATCCGGCTGTTTCAATTAAAAACATCGAGCGGACGATCATTGACAAAGGTTTTGAAAATGGATGGATACAGCCGAGAATTCCAGCGAAACGCACAGGTAAAAAAGTCGCTGTCGTCGGTTCAGGCCCGGCAGGTTTGGCAAGCGCTGATCAGCTGAACCAAGCCGGTCATTCCGTAACGGTCTATGAGCGTGCTGACAGAGCCGGCGGCCTGCTGATGTACGGCATTCCGAGCATGAAGCTTGAGAAAAATGTCGTCGAACGCCGTATTAAGCTTTTGACGCAGGAAGGTATAGATTTTGTAACAAATACTGAAATCGGCGTTGACATAACGGCAGATGAGCTGAAAGAACAATTTGATGCCGTCATTTTGTGCACAGGCGCCCAAAAGCAGCGCAATCTGCTGATTGAAGGCCGGGAAGCAAAAGGCGTCCATTATGCGATGGACTATTTAACACTGGCGACGAAAAGCTATTTAGATTCCAACTTCAAAGACAAACAATTTATAGACGCTAAAGGGAAAGACGTCATTGTGATCGGCGGAGGAGACACAGGAGCTGACTGCGTGGCAACCGCGCTGCGCCAAAAAGCGCGCAGCGTGCATCAGTTCGGGAAACATCCTAAACTTCCTCAAACGCGCACGAACGACAATATGTGGCCTGAACAGCCGCACGTCTTTACCCTTGAATACGCCTATGAAGAAGCGCAGGCAAAGTTCGGCAAAGACCCGAGAGAATATTCAATTCAGACGACAAAAATGGTGGCCGATAAGCAGGGCCGCTTACAAGAGATTCAAACCATTCAAATGGAAAAAGTCAGAAACGAATTCGGAAAGTATGAATTTCATGAACTGCCCGGTACAGAAAAAGTATGGCCTGCTCAGCTGGTGTTCATCGCCATCGGTTTTGAAGGGACAGAACAGCCATTATTGAAACAGTTCGGTGTCGATTCGGCAAATCATAAAATTCAGGCGGCATATGGGGATTATAAAACGAATGTTGACGGTGTTTTCGCCGCAGGGGATGCGAGAAGGGGCCAAAGCCTGATTGTATGGGCGATTAATGAAGGCCGGGAAGCAGCGCGCGAAGTCGACAGTTATTTAATGGGGAGCACTGTTTTACCGTAA	MGKPTGFMEEKREKPAERDPLTRLKDWKEYSAPFSDEASKRQGARCMDCGTPFCQIGADINGFTSGCPIYNLIPEWNDLVYRGRWKEALERLLKTNNFPEFTGRVCPAPCEGSCTLAISDPAVSIKNIERTIIDKGFENGWIQPRIPAKRTGKKVAVVGSGPAGLASADQLNQAGHSVTVYERADRAGGLLMYGIPSMKLEKNVVERRIKLLTQEGIDFVTNTEIGVDITADELKEQFDAVILCTGAQKQRNLLIEGREAKGVHYAMDYLTLATKSYLDSNFKDKQFIDAKGKDVIVIGGGDTGADCVATALRQKARSVHQFGKHPKLPQTRTNDNMWPEQPHVFTLEYAYEEAQAKFGKDPREYSIQTTKMVADKQGRLQEIQTIQMEKVRNEFGKYEFHELPGTEKVWPAQLVFIAIGFEGTEQPLLKQFGVDSANHKIQAAYGDYKTNVDGVFAAGDARRGQSLIVWAINEGREAAREVDSYLMGSTVLP	PGPT0000640_859	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
D1-12_01071	4560	gltA	COG0067	Glutamate synthase [NADPH] large chain	ATGACTTACAATCAAATGCCGAAAGCACAAGGTCTCTACCGTCCGGAATTTGAGCACGATGCATGCGGAATCGGCTTGTATGCCCATTTAAAAGGGAAACCTTCACATGACATTGTCAAAAAAGGACTGAAGATGCTTTGCCAGCTGGATCACAGAGGAGGACAGGGCAGTGATCCGAATACGGGTGACGGCGCCGGCCTGATGGTTCAGATCCCTGATGCTTTTTTTAAGAAAGAGTGCGGAGAAATGAAGCTGCCGGAAAAAGGCCGTTACGGGGTAGGAATGGTCTTTTTCTCGCAAAATGAAGAGGAAAGAAAAAAGATCGAAAAACAGGTGAATGCATTCATTGAGCAGGAAGGACAGATTGTTCTCGGCTGGAGAACCGTCCCTGTAAATGTCGGAAAAATCGGAACAGTGGCACAAAGCACTTGCCCGTATGTGCGTCAAGTATTTATCGGAGCCGCAAACGATTTGAAAGACAGCCTTGCTTTTGAACGCAAACTGTATGTTATCCGGAAGCAGGCGGAAAATTGGGGCGTTCAAGAACAGCTTGATTTTTACTTCGCAAGCTTGTCAAGCCAGACTATTGTTTATAAAGGGTTGTTAACGCCTGAGCAGGTTGACGCTTTTTATTTGGATTTGCAGGATGAAACCTTCGTATCTGCATTTTCACTCGTGCATTCAAGATTCAGCACAAATACCTTTCCTACTTGGGAACGTGCCCATCCGAACCGCTATCTGATTCATAACGGAGAAATCAATACGCTTCGGGGCAACATCAATTGGATGAGAGCGAGGGAGCAGCAGTTCGTTTCAGAAAGCTTCGGAGACGATCTTCACAAAGTGCTGCCGATTTTAAATGCTGAGGGCAGTGACTCATCCATTCTTGATAATGCGTTTGAATTTTTCGTGATGGCGGGGCGGAAACCGGCACATACGGCAATGATGCTGATTCCGGAACCATGGACGGAAAACACTCACATGTCTAAAGCGAAACGGGCTTTTTATGAATATCACAGCTCTTTAATGGAGCCGTGGGACGGGCCGACCGCCATTTCGTTTACGGACGGAAAACAAATCGGCGCCATCCTTGACCGTAACGGCCTGCGTCCGGCACGTTACTATGTGACAAAAGATGATCATATTATTTTCTCATCTGAGGTCGGCGTTATTGAAGTGGAGCAGGAGAACATTCTTCATAAAAAACGTCTGGAGCCCGGAAAAATGCTGCTCATTGACTTAGAGGAAGGCCGGATTATTTCAGATGAAGAAGTAAAAACAGAAATCGCCAATGAATTCCCGTATCAAAAATGGCTTGAAGAAGAATTGGTTCAAGTGAATCCTGACCCGGAAATCCGGGAAGAGGAACAATTCGATGATCTTCTCGTCCGTCAAAAAGCGTTTGGCTATACGTATGAAGATATCCAGAAATATTTAATTCCTGTTATTAAAGAAGGAAAGGACCCGCTCGGCTCTATGGGAAATGATTCGCCGCTCGCCGTTTTATCCGATCGCGCCCAATCACTGTTTCATTACTTTAAACAGCTGTTTGCGCAAGTCACAAACCCGCCGATTGACGCGATCCGCGAGCAGCTTGTGACCTCTACGGTGACATGGCTTGGGGCTGAAGGCGATCTGCTGCATCCGAGTGAAAGAAATGCACGCCGCATAAAATTGTATACTCCTGTATTATCAAACGAACAGTTTTATGCGCTGAAAACACTTGTGCACCCTGACATTAAGAGCCAGAACATCCGCACGCTGTTTTCCGATGACCTGGAAAAAGGCCTGAAGGATTTGTTTCAGCAAGCGGAAAAAGCGATCAAGGAAGGCGTATCTCTGTTAATTTTATCTGACAGGGCAATGAGTAGGGAATTGACGCCGATTCCGCCGCTTTTGGCCGTCAGTGCGCTGCATCAGCATTTGATCCGTCAAGGCCTGCGAACAAAAGCAAGCATTATCGTTGAATCCGGGGAAGCGCGTGAAGTTCATCACTTTGCGGCTCTCATCGGGTATGGTGCCGATGCTGTCAATCCGTATTTGACTTATGCTACGTATAAGCAGGAAATCGATGAAGGCCGGCTTGATATTCCGTATGAAGAAGCTGTCAGCAAATACGGAAAGAGCGTAACAGAAGGCGTCGTGAAAGTGATGTCAAAAATGGGGATTTCAACTGTGCAAAGTTACAGGGGCGCCCAAATTTTTGAAGCGGTCGGCATCGGTGAAGACGTTATCGCCAAATACTTTACCGGTACTGCATCTCAGCTTGGCGGAATCGATATTGAGACGATTGCGCAAGAAGCGAAACAGCGCCACCAAGCGGCGTACAAGGATGATTACAGCCAAACTCTTGATCCGGGAAGTGAATTTCAATGGCGGAACGGAGGAGAGCACCACGCTTTCAACCCGAAAACCATCCATACGCTGCAATGGGCCTGCCGAAAAAATGATTACAGCCTGTTTAAGCAGTACTCTCAAGCAGCGGATGAAGAACGAATCGGATTTTTACGCAATCTGTTCGCCTTCAAAGAAGACCGCAAGCCTTTAAAATTAGAGGAAGTTGAATCAGCTGCGTCCATCGTGAAACGTTTTAAAACAGGAGCGATGTCATTCGGTTCATTAAGCAAGGAAGCCCATGAGGCTTTAGCGATAGCGATGAACAGGCTTGGCGGAAAAAGCAACAGCGGAGAAGGCGGCGAGGATCCGAAACGTTTCGTTCCGGATGAAAATGGAGACGACAGAAGAAGTGCGATTAAACAGATCGCTTCCGGCCGTTTCGGCGTAAAGAGCCATTATCTCGTCAATGCGGATGAATTGCAGATCAAAATGGCGCAAGGGGCGAAGCCGGGAGAAGGCGGTCAGCTTCCGGGGAACAAAGTATATCCTTGGGTCGCGGATGTCCGCGGTTCTACACCAGGTGTAGGGCTGATCTCACCGCCTCCTCACCATGATATTTATTCAATTGAAGATTTGGCGCAGCTGATCCATGATTTAAAAAATGCAAATCGAAGCGCGCGAATAAGCGTCAAGCTCGTGTCAAAAGCCGGTGTCGGCACGATTGCGGCCGGTGTGGCAAAAGGCACTGCGGATGTCATCGTCATCAGCGGCTACGATGGCGGAACGGGCGCATCGCCGAAAACGAGTATTAAACATACTGGTCTTCCGTGGGAGCTTGGTCTTGCAGAAGCTCACCAAACGCTGATGCTGAACGGTTTACGGGATCGCGTGGTATTGGAAACGGACGGTAAGCTGATGACAGGCCGAGATGTCGTGATGGCCGCCTTGCTCGGTGCGGAGGAATTCGGCTTTGCTACAGCGCCGCTTGTCGTTCTCGGCTGCGTCATGATGCGCGCCTGCCATTTAGATACATGTCCAGTAGGTGTCGCGACGCAAAATCCGGAGCTCCGCAAAAAATTCATGGGCGATCCTGACCATATCGTAAATTACATGCTGTTTGTCGCAGAAGAAGTGCGTGAATATATGGCACAGTTAGGCTTTAAGACGCTTGATGAAATGATCGGACGGACAGACGTTCTTCATGTCAGTGAACGTGCGAAAGCGCATTGGAAAGCGGGACAGCTTGATTTATCCACACTGCTGTACCAACCTGAAGGCGTACGCACTTTCCGTACGGCGCAAAACCATAAAATCGACGAGTCGCTTGATATGACGGTTATTCTTCCGGCGGTGCAGGCTGCAATTGAAGCCGGTCAGGAAGCGGAAGCTGAAATCAAGATCAATAATACAAGTCGCGTAGCCGGAACCGTGACGGGAAGTGAAATTTCTAAACGCTACGGAGCGGAAGGCCTGCCGGATGATACGATCAGACTTCATTTTACCGGATCAGCCGGACAGAGTTTCGGAGCATTTGTCCCTAAAGGGATGACGCTTCATTTGAACGGGGATTCAAATGACTACGTAGGCAAAGGGCTTTCAGGCGGAAAAATCATCGTGAAAGCGCCTGATGCCTTCAATTGTGAAACACACGATAACGTTATTATCGGGAACGTCGCATTTTACGGAGCAACAAGCGGGGAAGCGTACATTAACGGGCGCGCCGGTGAACGTTTTGCAGTCCGTAACAGCGGAGTCAATGTCGTTGTAGAAGGTATCGGAGACCACGGCTGTGAATACATGACAGGCGGCCGGGTTGTCGTCCTCGGCGAAGTCGGCAAAAACTTCGGGGCGGGAATGTCAGGCGGTATCGCATACGTCCTGAGTGATGATGCCAAAGCATTTAAACGCAAATGCAACATGGAAATGATTTCATTTGAAAAGCTGACGGATGAGGCTGAGATCAAAGAAGTGCAAGAAATGGTCAAACGGCACGCGGCGCTGACAAACAGCAAAAAAGCCGCAGATCTCCTGGACAATTGGGAAAAAGCCGCAGAAACCTTTATCAAAGTCATTCCGAAAAACTATAAACAAATGCTCCTCAGCATCGAAGAACAAAAAGCGGCGGGTTTATCAGAAGAAGACGCAATTATGTATGCTTTTGAAGCCAATACAAAGGTCCTCCAAACGCCTGCGAAAGATCAAAAACAAGCGGTAGTACAGTAA	MTYNQMPKAQGLYRPEFEHDACGIGLYAHLKGKPSHDIVKKGLKMLCQLDHRGGQGSDPNTGDGAGLMVQIPDAFFKKECGEMKLPEKGRYGVGMVFFSQNEEERKKIEKQVNAFIEQEGQIVLGWRTVPVNVGKIGTVAQSTCPYVRQVFIGAANDLKDSLAFERKLYVIRKQAENWGVQEQLDFYFASLSSQTIVYKGLLTPEQVDAFYLDLQDETFVSAFSLVHSRFSTNTFPTWERAHPNRYLIHNGEINTLRGNINWMRAREQQFVSESFGDDLHKVLPILNAEGSDSSILDNAFEFFVMAGRKPAHTAMMLIPEPWTENTHMSKAKRAFYEYHSSLMEPWDGPTAISFTDGKQIGAILDRNGLRPARYYVTKDDHIIFSSEVGVIEVEQENILHKKRLEPGKMLLIDLEEGRIISDEEVKTEIANEFPYQKWLEEELVQVNPDPEIREEEQFDDLLVRQKAFGYTYEDIQKYLIPVIKEGKDPLGSMGNDSPLAVLSDRAQSLFHYFKQLFAQVTNPPIDAIREQLVTSTVTWLGAEGDLLHPSERNARRIKLYTPVLSNEQFYALKTLVHPDIKSQNIRTLFSDDLEKGLKDLFQQAEKAIKEGVSLLILSDRAMSRELTPIPPLLAVSALHQHLIRQGLRTKASIIVESGEAREVHHFAALIGYGADAVNPYLTYATYKQEIDEGRLDIPYEEAVSKYGKSVTEGVVKVMSKMGISTVQSYRGAQIFEAVGIGEDVIAKYFTGTASQLGGIDIETIAQEAKQRHQAAYKDDYSQTLDPGSEFQWRNGGEHHAFNPKTIHTLQWACRKNDYSLFKQYSQAADEERIGFLRNLFAFKEDRKPLKLEEVESAASIVKRFKTGAMSFGSLSKEAHEALAIAMNRLGGKSNSGEGGEDPKRFVPDENGDDRRSAIKQIASGRFGVKSHYLVNADELQIKMAQGAKPGEGGQLPGNKVYPWVADVRGSTPGVGLISPPPHHDIYSIEDLAQLIHDLKNANRSARISVKLVSKAGVGTIAAGVAKGTADVIVISGYDGGTGASPKTSIKHTGLPWELGLAEAHQTLMLNGLRDRVVLETDGKLMTGRDVVMAALLGAEEFGFATAPLVVLGCVMMRACHLDTCPVGVATQNPELRKKFMGDPDHIVNYMLFVAEEVREYMAQLGFKTLDEMIGRTDVLHVSERAKAHWKAGQLDLSTLLYQPEGVRTFRTAQNHKIDESLDMTVILPAVQAAIEAGQEAEAEIKINNTSRVAGTVTGSEISKRYGAEGLPDDTIRLHFTGSAGQSFGAFVPKGMTLHLNGDSNDYVGKGLSGGKIIVKAPDAFNCETHDNVIIGNVAFYGATSGEAYINGRAGERFAVRNSGVNVVVEGIGDHGCEYMTGGRVVVLGEVGKNFGAGMSGGIAYVLSDDAKAFKRKCNMEMISFEKLTDEAEIKEVQEMVKRHAALTNSKKAADLLDNWEKAAETFIKVIPKNYKQMLLSIEEQKAAGLSEEDAIMYAFEANTKVLQTPAKDQKQAVVQ	PGPT0000635_1627	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
D1-12_01072	912	gltC_1		HTH-type transcriptional regulator GltC	GTGAACGCAATGGAATTACGCCAGCTTCGGTATTTTATGGAGGTAGCAGAACGGGAACATGTGTCAGAAGCGGCTGATCATCTGCATGTCGCACAATCCGCTATCAGCCGGCAGATTGCAAATCTTGAAGAAGAGCTGAAAGTCACTTTATTTGAACGGGAAGGCAGAAATATTAAATTAACGCCGATCGGCAAACAATTTTTAGAACATGTTAAAACCGCGATGAAAGCAATTGATTATGCGAAGGAACAAATTGATGAATATCTTGATCCGAATCGCGGAACCGTCAAAATAGGATTTCCGACGAGCCTTGCAAGCCAGCTTTTGCCGACTGTGATTTCGGCGTTTAAAGAGGAATACCCGAACGTTGAGTTTTTGCTCCGCCAGGGTTCTTATAAGTTTTTAATCGAAGCGGTAAGAAACAGGGATATAGATGCTGCGCTGCTCGGCCCCGTTCCGACGGAATTCCCCGACATAACAGGCAATATCTTATTCACGGAAAAGATTTACGCGCTTGTACCGCTGCACCACCCGCTTGCCAAACAGAAAAATATTCATTTAATTGATCTTCGCGGCGACCAATTTGTTTTATTTCCTGAAGGATTTATTCTCCGCAATATGGCAATTGACGCTTGCAGACAGGCCGGCTTTGCGCCGCTTGTATCGACGGAAGGCGAGGATTTAGATGCCATTAAAGGATTAGTCTCCGCGGGGATGGGAGTTACTTTATTACCCGAAAGCACCTTTGCAGAAACCACACCCCGGTTCACGGTCAAAATTCCGATTGAATTTCCTCAAGTGAAGCGCACCGTAGGCATTATTAAACCAAAAGGAAGAGAACTGGCTCCGTCTGCAAATGATTTCTATCATTTTGTCATTCAATTTTTCTCCAAACTTGAACAATATCAATAA	MNAMELRQLRYFMEVAEREHVSEAADHLHVAQSAISRQIANLEEELKVTLFEREGRNIKLTPIGKQFLEHVKTAMKAIDYAKEQIDEYLDPNRGTVKIGFPTSLASQLLPTVISAFKEEYPNVEFLLRQGSYKFLIEAVRNRDIDAALLGPVPTEFPDITGNILFTEKIYALVPLHHPLAKQKNIHLIDLRGDQFVLFPEGFILRNMAIDACRQAGFAPLVSTEGEDLDAIKGLVSAGMGVTLLPESTFAETTPRFTVKIPIEFPQVKRTVGIIKPKGRELAPSANDFYHFVIQFFSKLEQYQ				NA	NA	NA	NA	NA
D1-12_01073	1119	proB_2	COG0263	Glutamate 5-kinase 1	GTGACGTCTCGGACGAAGATCAAAAGAGTCGCGGTGAAAATCGGCAGCAGCTCACTGACGAGCCTGCACGGGGAAATCAGCAGAAGAAAGCTGGAAGCATTGGTGGATCAAATCGCACAGCTGAAAGACAGCGGCTATGAAGTGATTTTAGTATCTTCCGGCGCAGTGGCGGCAGGTTATCGGAAGCTCGGATTTATTCAGAAACCGGAAAGCCTCCCTGAAAAACAGGCTTCTGCTTCCATCGGGCAGGGATTATTAATGGAGGCTTATTCAAAGCTGTTTTTAGCGCACGGTTATGTCGCATCACAAATATTAATTACAAGAAGCGACTTTTCCGATGAATACCGCTACCATAATGTGCGCAATACGATGAACGTCCTTTTGGAACGGGGCATTATTCCGATTATTAATGAAAATGACACGGTCACAGTCAACCGGCTGAAATTCGGAGATAACGATACACTCGCAGCGAAGGTGGCAGGTTTAATTGATGCCGACATGCTTGTGATTTTATCAGACATTGACGGTTTATATGATGATAATCCGCGCAGCAACCCGAAAGCGAAAAGAATCAGACATGTAAGTGACATTACCCCGGAAATAGAAGCGAGCGCGGGAGATGCCGGGAGTGAAATGGGAACCGGCGGAATGCGTTCGAAACTGGATGCTTTTAAAATTGTGATGGCCTCCGGTATTAAAGGCTTTCTCGGGCAGGCTAACATTCCGGACATTCTGCTTCAAGCGGTAGATGAGGCGGCTGAAGGAACTTATTTTGAAGCGGAAGGAACCCTGCCGTTAAACCACAAAGAACAATGGCTTGCGTTTAATTCCGGTCCAGAAGGTGAAATTGTGATGGAAAAAGAAAGCAGCCGTGATGTCGCGAACGGAAATATGGAGCTGTCACCGCAGGACATCGAGCAGATTAAGGGCAGATTCAGCTGCGGAGCGGTTGTCAGGCTGCTTGATCAGCAGGGAGAAGAGCTCGGACTCGGCATCGTCAACTATTCCTCAGCCCAGCTGAAGACATTTAAAGAAACGCCGCATAAACAGGCCGATCAATCAGTCATTGATCCGGAAGCATTTGTCTGTCACGTTGAACTATCCATTCCGATCGGCTGA	MTSRTKIKRVAVKIGSSSLTSLHGEISRRKLEALVDQIAQLKDSGYEVILVSSGAVAAGYRKLGFIQKPESLPEKQASASIGQGLLMEAYSKLFLAHGYVASQILITRSDFSDEYRYHNVRNTMNVLLERGIIPIINENDTVTVNRLKFGDNDTLAAKVAGLIDADMLVILSDIDGLYDDNPRSNPKAKRIRHVSDITPEIEASAGDAGSEMGTGGMRSKLDAFKIVMASGIKGFLGQANIPDILLQAVDEAAEGTYFEAEGTLPLNHKEQWLAFNSGPEGEIVMEKESSRDVANGNMELSPQDIEQIKGRFSCGAVVRLLDQQGEELGLGIVNYSSAQLKTFKETPHKQADQSVIDPEAFVCHVELSIPIG	PGPT0014220_2051	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
D1-12_01074	798	proC_1	COG0345	Pyrroline-5-carboxylate reductase	ATGGCTGAAGGAATGATATCAGGCATAGTCCGCGCAAAAAAAATTCCCAACCAAAACATCTGCGTGACAAACCGCCGCAATACAGAGCGACTCGCTGAATTGGAACATCAATACGGAATTCAAGGCATTGCTTTTGACAGCATGAAAACCGAAGACATTGATGTCTTTATTTTAGCCATGAAACCGAAGGATGCTGAAATCGCTCTTGCTACGCTGAAACGGCGTATTCAACCTCATCAAATCATCCTGTCTGTTCTGGCAGGCATAACAACCTCATTTATACAACAATCATTACATGACCGTCAGCCAGTTGTAAGAGTGATGCCGAACACATCCAGCATGATCGGCGAATCGGCAACAGCTGCGGCTTTCGGAGACCATGTTTCTTACGGTTCAGCAAAAACCGCTCTATCCCTTTTGGAATGCCTCGGGGAAGTGTACGTGATCAAAGAAGATCAGATGGACATTTTCACCGGCATCGCAGGCAGCGGACCGGCGTACTTTTATTATTTAATGGAGTTTATTGAAAAAGCAGGTGAAGAAGCCGGCTTAGACAAACGGCTGTCCCGCAAAATCGGCGCGCAAACGTTATTGGGCGCCGCTAAAATGCTGATGGAAACGGGTGAAAAACCGGATGTGCTTCGGGAAAACATCACCTCTCCAAACGGCACGACGGAAGCCGGCCTCGATGCGCTCAGGTCAGAAGGCGGCGGAGAAGCCATTGCCAAAGCCATTAAACACGCGACCGAACGTTCTATTGAGATCAGCAAAACAATTGAAAAAACGGCAGCACTATAA	MAEGMISGIVRAKKIPNQNICVTNRRNTERLAELEHQYGIQGIAFDSMKTEDIDVFILAMKPKDAEIALATLKRRIQPHQIILSVLAGITTSFIQQSLHDRQPVVRVMPNTSSMIGESATAAAFGDHVSYGSAKTALSLLECLGEVYVIKEDQMDIFTGIAGSGPAYFYYLMEFIEKAGEEAGLDKRLSRKIGAQTLLGAAKMLMETGEKPDVLRENITSPNGTTEAGLDALRSEGGGEAIAKAIKHATERSIEISKTIEKTAAL	PGPT0014225_1006	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
D1-12_01075	378	rtp		Replication termination protein	GTGCACATATTGAAAGAAGAAAAAAGAAGTTCAACCGGTTTTTTAGTGAAACAAAGAGCTTTTTTAAAGCTTTACATGATTACAATGACAGAGCAGGAACGGCTTTACGGACTGAAGCTTCTCGAGGTGCTGCGTTCGGAATTTAAACCCATCGGTTTTAAGCCGAATCATACCGAGGTGTACCGTTCACTTCACGAACTTTTGGATGACGGGATTTTAAAGCAAGTGAAAGTGAAAAAAGAGGGAGCCAAACTCCAGGAAGTCGTTCTCTATCAATTTAAAGACTATGAAGCTGCGAAGCTTTACAAAAAACAGCTGAAGACAGAGCTTGACCGCTGCAAAAAGCTGATAGAAAAAGCCATTTCAGATAATTTTTAA	MHILKEEKRSSTGFLVKQRAFLKLYMITMTEQERLYGLKLLEVLRSEFKPIGFKPNHTEVYRSLHELLDDGILKQVKVKKEGAKLQEVVLYQFKDYEAAKLYKKQLKTELDRCKKLIEKAISDNF				NA	NA	NA	NA	NA
D1-12_01076	726	ucpA		Oxidoreductase UcpA	GTGAAAGACGTGGAAAGCTTACAAAACAAAACGGCTCTTATCACGGGTGCGGGCAGAGGAATCGGCCGCGCCGCCGCTATCGCTTTAGCCAAAGAAGGAGTCAATATCGGTTTAATCGGCCGCACAGAAGCAAATGTCGAAAAGGTTGCGGAAGAAGTGAGAGCCCTTGGTGTAAAGGCATCATTCGCTGCTGCCGATGTAAAAAACCAAAAAGAGGTTGAGCAAGCCGTCTCCTCTATTAAAGAAGAACTCGGTGAGATTGACATCTTGATTAACAATGCCGGAATCAGCAAATTCGGCGGATTTTTGGATCTTACGCCTGAAGAGTGGGAAGACATCATTCAAGTTAATGTAATGGGTGTATACCACGTGACACGCGCCGTTCTTCCTGAAATGATTGAGAGAAAATCAGGAGATATCATTAATATTTCTTCTACGGCGGGCCAAAGAGGCGCCGCGGCGACAAGTGCGTACAGCGCTTCTAAATTTGCCGTTCTCGGTCTGACCGAATCTCTCATGCAGGAAGTCAGAAAACACAATATCCGTGTCAGCGCAATGACTCCGAGCACGGTTGCCAGCGACATGTCTATTGAATTAAATCTGACAGACGGCAATCCGGAAAAAGTCATGCAGCCTGAGGATCTTGCAGAATATATGGTTGCTCAATTGAAATTACATCCGCGCATTTTCATCAAAACTGCCGGTTTGTGGTCAACGAATCCTTAA	MKDVESLQNKTALITGAGRGIGRAAAIALAKEGVNIGLIGRTEANVEKVAEEVRALGVKASFAAADVKNQKEVEQAVSSIKEELGEIDILINNAGISKFGGFLDLTPEEWEDIIQVNVMGVYHVTRAVLPEMIERKSGDIINISSTAGQRGAAATSAYSASKFAVLGLTESLMQEVRKHNIRVSAMTPSTVASDMSIELNLTDGNPEKVMQPEDLAEYMVAQLKLHPRIFIKTAGLWSTNP	PGPT0003180_20747	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
D1-12_01077	306			hypothetical protein	ATGATCATCATTTTGTATATCAGTGCTGCCGTTGCGGCTGCCGCATTAATTTATGCAGCCGTATCCGCCGTGCATTTTAAAAGAAACACAGCGCCTGATATAAAGAAAATTAACGCCGCGACAGCGTCCATGCAGACGGCCGTTGATGAAATCAAAACAGAAACCGATCTGTTATCGCAAAAGCAAAAAGAACTGCAGGAAGATTTTCTCACTAAAAAAACAGCCGTGCAAACGACGGCGGCCGAAGTTAAAGGAACGCCTCACGTCTTAAAAATGCTCTGGAACGCCGGTAAAAGTGATGTATGA	MIIILYISAAVAAAALIYAAVSAVHFKRNTAPDIKKINAATASMQTAVDEIKTETDLLSQKQKELQEDFLTKKTAVQTTAAEVKGTPHVLKMLWNAGKSDV				NA	NA	NA	NA	NA
D1-12_01078	762			hypothetical protein	ATGATTTGCGATCGTGAGCGGCTTGCGCGTTTTTTGCAGCAGCTTAAATCACCATCTTCTTCGGGAGGGTTTACAAAATCGGATTTGCTGACTCCGGCTTTCCATTTAGCCAAGGACGGAGATCTGGATTTGTATTATTCGCCTCATAATGAATATATTAACCCTCATGCAGTCGTTGCCATTTCCGGAATCACACCCGGTTTTTTTCAAATGCAGCTGGCTTACAAAAAAGCGGCACAGCTTTTAAAAAATGGCGAAACTCTTGAAACGATAGCGTATGAAACAAAAAAAGCGGCCGGACTTTCCGGTTCAATGAGACAGAACATCATCGAAATGCTTAATGAATGCGGTCTGCCGGCCGCGCTTCACGTTGAGGATTCATCCCGATTATTTGATTCAAAACGGGAGCTTCTTCATACAACGTCCGTTATCAAACACCCTGTTTTTTATAAACAGAAAAACTATACGGGACATCGGCCGGCAATCAGCAGATCAGCTCTTCTCAGCCGTTACGCGCTGACATGTTTTCCGGATGAAATAGAAATGATAGAAAAGGACATTCTGCTTATCCCTCTCGGTAAAGCAGCAGAATCAGCCTGCCGCATGCTGAAGAAGAACGGCAGAATGGGTCATGCGGTCATTCTGGAAGGCTTCCCGCATCCGTCCGGAGCAAACGGACATCGTTTCAAACAATTTCACGAAAACAAACAATCGTTACGTGAACAAATTCAGCGCTTTGCCGGGTTTCTTCAGCAGCTGTAA	MICDRERLARFLQQLKSPSSSGGFTKSDLLTPAFHLAKDGDLDLYYSPHNEYINPHAVVAISGITPGFFQMQLAYKKAAQLLKNGETLETIAYETKKAAGLSGSMRQNIIEMLNECGLPAALHVEDSSRLFDSKRELLHTTSVIKHPVFYKQKNYTGHRPAISRSALLSRYALTCFPDEIEMIEKDILLIPLGKAAESACRMLKKNGRMGHAVILEGFPHPSGANGHRFKQFHENKQSLREQIQRFAGFLQQL				NA	NA	NA	NA	NA
D1-12_01079	1248	yoaB	COG0477	Putative transporter YoaB	ATGCTTAATAAAATAGGAATTCCGAAACAGCTCGCCTGGGGATTTTTGGGAATTGTGCTGTTTATGATGGGGGACGGCCTTGAACAAGGCTGGCTCAGCCCGTTTTTAGTTGAAAACGGCTTGACGGTACAGCAATCAGCATCCCTGTTTACGGTTTACGGTATTTCTCTCGCTGTGGCGTCTTGGTTTTCAGGGGTCTGCCTCGAAGCCTTCGGCGCAAAGCGGACGATGTTTATGGGGCTGTTGTTTTACGTGATCGGAACAGCCGCGTTTATCGCATACGGATTTGAAAATCTTAATTTGCCGGTGATGTATGTCACGTATTTTATTAAAGGGCTGGGTTATCCGCTGTTTGCCTATTCATTTTTGACATGGGTGATTTACCGGTCGCCGAAAAACAGGCTCAGTACGGCGGTCGGCTGGTTCTGGATTGCATATTGCTGCGGGATGTTTGTATTCGGTGCTTGGTATTCAAGCTGGGCCATCAAATCCTTCGGCTATTTGAATACACTGTGGAGTTCAATTTTCTGGGTCTGCCTCGGCGCGTTTTTTGCTTTGATTTTAAATAGGGACCGCTTTGAAAAGAAAAAGGCAGATAAGCGGGAAAAGGCGCAGGAATTAATGAAGGGAATCACCATCCTTGCTGTAAATCCGCGCGTGCTCTCTGGGGGGATCATTCGGATCATTAACAGCATCGGAACATACGGATTTCCGGTATTCCTCCCGATGCATATGGCGCAGCACGGCATTTCTACAAATGTATGGCTTCAAATTTGGGGAACGATCTTTCTCGGAAATATCGTCTTTAACTTAATCTTCGGCGCAGTCGGCGATGCCTTCGGCTGGAAAAAGACTGTCATGTGGTTCGGGGGAGTGGGCTGCGGCATTTTTACTCTTTTATTATATTATGCACCTGTTGTATCACATGGGAACTTGCTTTTCGTCAGCATTGTCGGTTTTATATGGGGAGGGCTCCTCGCCGGGTTCGTTCCGGTCGGGGCTATCGTGCCGACGGCGGCCGGCAGCGATAAAGGTGCTGCCATGTCTGTGTTAAATCTGGCTGCGGGACTGTCGGCATTTGTCGGCCCCGCGCTTGCCTGGGCGTTCATCGGACTTGTCGGCGCACAAGGCGTTGTATGGATTTTCGCAGCGCTCTATTTCGTAAGTGCAATCTTGACAAATCAAATCAAAATACCTGAAGAGAAAACGGCAAAACACAATAAAGCATTGCCTGAATACGCTTCTTAA	MLNKIGIPKQLAWGFLGIVLFMMGDGLEQGWLSPFLVENGLTVQQSASLFTVYGISLAVASWFSGVCLEAFGAKRTMFMGLLFYVIGTAAFIAYGFENLNLPVMYVTYFIKGLGYPLFAYSFLTWVIYRSPKNRLSTAVGWFWIAYCCGMFVFGAWYSSWAIKSFGYLNTLWSSIFWVCLGAFFALILNRDRFEKKKADKREKAQELMKGITILAVNPRVLSGGIIRIINSIGTYGFPVFLPMHMAQHGISTNVWLQIWGTIFLGNIVFNLIFGAVGDAFGWKKTVMWFGGVGCGIFTLLLYYAPVVSHGNLLFVSIVGFIWGGLLAGFVPVGAIVPTAAGSDKGAAMSVLNLAAGLSAFVGPALAWAFIGLVGAQGVVWIFAALYFVSAILTNQIKIPEEKTAKHNKALPEYAS	PGPT0015024_39	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015024-csbX-NA	NA	NA
D1-12_01080	1467	yoaC	COG1070	Putative sugar kinase YoaC	ATGGCTGAACAAAAAGGCTACCTTGTATTTGACATCGGAACGGGGAATGCGCGAGTCGCGGTCGTGACAGCCGGCGGTGAAGTGACCGCGCTTGAAAGGGAAGACATTGAATATGTGACGGATCCGCTTTATCCGGACGGACGATATTTCTCACCGGAAGGGTTATGGACGCAAATCAGCGCTATGGCAAGGAAGGTTATTGCCAAAAGCCCTCATATTACATTAATCGGAATCACCTCAACAAGCCAGAGGCAGGGAATTGTTCTGATCAATAAAGATAAAAAGGCATTTCTCGGTCTGCCCAACATTGATAACAGAGGCCGTGAATGGGAAGACGGGATTGATGCAAAAGAAGAAGTGCATCAGCAAACCGGACGTCTTCCGAGCGCTTTATTTTCCGCCATGAAACTTGTCGGATTAAAAGCTAGACAGCCGTCTTTATGGAAAGAAGTGAAGTACATCACAAGCATCAGTGACTGGGTGACATTTGAGCTGAGCGGTATTTTAAGCTATGAACCGTCACAGGCTGCTGAAACACTGCTGTTTGACGTAAGGAAAAAGGCGTGGTCAGAGACATTATGCAACATCTTCGGTGTGCCTTCTGCCATTCTTCCTTCACTCGTCCGATCTGGGACGGTTGTCGGAATGTTAACGTTTAAGAAAACGGCGGTTCTCGGTCTTTCTGAAAGAGTGCCTGTGATTGCAGGCGGGGGAGACACACAGCTTGCCATCAAAAGTGCAGATGCAAAGCCGGGAGATATCGTCATCGTATCCGGCACGACGACGCCGATTATAAAGATAACAGCTGAGACCGGAACTGAAAGTTTAAAGAATGCATGGCTGAATTGCCATACAGAAGAAGGTCAATGGCTCCTTGAAACGAATCCGGGTGTAACAGGACTCAATTATCAAAAATTAAAATCCATTTTTTATCCGAATGAATCCTACGGCGTCATGGAACGGGAAATCGCAAGTCTGCCGAAACATGATCATGCTTGTATTTCTGCGTTAGGCTCCTATTTATCGCCAGAGAAAAACGCACTGGCAAAAGGCGGATTTATTTTTGACGCTCCGCTGTCTCAAAACTTAAGCAGAGCCCATTTTGTCAAAGCCGCACTGCTGGAAATCGCTTTTTCAATCAAATGGAACTATGAGGCGTTAACAGAGGTGGCTTCCTTTTCACAAGATTATGTGAAGGTGTGCGGCGGCGGTTTCCAAAGTGATGCTTTGACGCAGTTTCTTGCTAACCTTCTCCAAAAGAAAATCTATAAGAGAGAGGGGTTCAGCCAGGCATCCGCAATGGGAGCGGCAATGATTTGCAACGAAGCTCTCGGTGTGAAAGCAGAGCTTTCGAGCCGCACAAAGGTAATTGAGCCGGAAGCGGATCAGACGGATCTCTTCCTATATGAAGAATGGAAACATACGCAAGAATTATTTACTCATTTTCAGCCGGCGGTGAAAGCCTGA	MAEQKGYLVFDIGTGNARVAVVTAGGEVTALEREDIEYVTDPLYPDGRYFSPEGLWTQISAMARKVIAKSPHITLIGITSTSQRQGIVLINKDKKAFLGLPNIDNRGREWEDGIDAKEEVHQQTGRLPSALFSAMKLVGLKARQPSLWKEVKYITSISDWVTFELSGILSYEPSQAAETLLFDVRKKAWSETLCNIFGVPSAILPSLVRSGTVVGMLTFKKTAVLGLSERVPVIAGGGDTQLAIKSADAKPGDIVIVSGTTTPIIKITAETGTESLKNAWLNCHTEEGQWLLETNPGVTGLNYQKLKSIFYPNESYGVMEREIASLPKHDHACISALGSYLSPEKNALAKGGFIFDAPLSQNLSRAHFVKAALLEIAFSIKWNYEALTEVASFSQDYVKVCGGGFQSDALTQFLANLLQKKIYKREGFSQASAMGAAMICNEALGVKAELSSRTKVIEPEADQTDLFLYEEWKHTQELFTHFQPAVKA	PGPT0025520_292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_PERCIPITATION|SIGNALLING,PGPT0025520-lsrK-K11216	NA	NA
D1-12_01081	1017	yoaD	COG0111	Putative 2-hydroxyacid dehydrogenase YoaD	ATGACGGTTTTAATTACCGCACCATATCACGACGAGGGGCTGAAGGAGCTGACTGAGCTGTTCGGCCGGACTGTGCACCGGCCGTGGAAGAAGCACGGCCGGGCCTATCGGGAAGATGAATTGATCCGAATGATTCAAGAGACAAACGCGTCGGGGCTTATTACTGAACTTGATGAGGTGTCTGAGCGTGTTATTGACATATTGCCCGATACCGCTTTTATCGGTGTCTGCCGAGGAATGCCGTCTAATGTGAATATTGCGGCGGCGACTAAAAGAAAAATCCCCGTTTTCTTTACACCGGCCCGCAATGCCCAGGCTGTTGCTGAAATGTTTATCGGAAATGTGATTTCATTTTTGCGTCATACGTATTCTTCACATCAGTGGCTGAAGGACGGGAAGTGGAATGGTGATTATTTGCAGGCTTACGTCAAATTCAGAGGAAATGAGCTGACGGGGAAAACAGTCGGTATTATCGGTTTCGGAGCTGTCGGACAGAGAATCGCCCGGCTATTGGCCGCTTTTGACTGCAAGGTGCTTTACTATGACCCATTTGTCCGTCATGAAAACCGGGAGTATGAAAAAACGACGATTGAACGGGTATTTTCTGAAAGTGATATTGTTTCCGTTCACTTGCCGCGCACAGAAGAAACCATCGGCCTTATCGGCGCCCGGCACTTTCAATTGATGAAACAGGAAGCTGTTTTTGTCAATACGTCAAGAACGGCGGTTACAGACAGGGAAGAGCTGCTGCGGGTGCTGAAAGAACGGCGGATTAAGGGAGCGATCCTTGACGTGTTTTATCACGAACCGCCTGAATCTTCTGATTATGAATTGATCTCTTTGCCGAATGTGTTAGCGACTCCCCATTTAGCGGGCGCAACGTTTGAAGTGGAGGATCATCATGTGAAGGTTTTAAATGGAGCGCTTTTCAAATGGAAACAAGATCAAACCTGTTCAATACGTGAACTTTATAACAAAAGAGAACTTGAAACGGAAGGAGGAGGCTGTAATGGCTGA	MTVLITAPYHDEGLKELTELFGRTVHRPWKKHGRAYREDELIRMIQETNASGLITELDEVSERVIDILPDTAFIGVCRGMPSNVNIAAATKRKIPVFFTPARNAQAVAEMFIGNVISFLRHTYSSHQWLKDGKWNGDYLQAYVKFRGNELTGKTVGIIGFGAVGQRIARLLAAFDCKVLYYDPFVRHENREYEKTTIERVFSESDIVSVHLPRTEETIGLIGARHFQLMKQEAVFVNTSRTAVTDREELLRVLKERRIKGAILDVFYHEPPESSDYELISLPNVLATPHLAGATFEVEDHHVKVLNGALFKWKQDQTCSIRELYNKRELETEGGGCNG	PGPT0009155_5331	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-12_01083	2109	dmsA	COG0243	Dimethyl sulfoxide reductase DmsA	ATGAATTCTGCTGCAACACAGCCGAACGGGGTATTTAAGTCGGTATGCTCACTAGACTGTCCCGATCAATGCGGCTTGCTTGTGACAAAAAAAGACGGAAAAATCGTTAACATTCAGGGAGACCCCGATCACCCGGTCACATCAGGGAATATTTGCAACAAAGTCAGACACATGGCTGAGCGTATTTATGATGAGAAGCGCGTAACCGTTCCGTTAAAACGGATCGGTAAAAAAGGTGAAGCCGCGTTTGCGCCTATTTCCTGGAAGGAAGCGATCAATACGATCAGTGCGCGCTGGAAAGAGCTTATTGCCGAAGAAGGAGAGGAAAGCATTCTTCCGTACAGCTTTTACGGCAATATGGGAAAACTGGCGGCAGAGGGAATGGACCGCCGTTTTTTCCATCGTCTGGGAGCGAGTCATCTCGAACGGACGATCTGCAGCAAAGCCGGTTCTGAAGGCTATAACTATACAATGGGTGAAGGAGCGGGTACTGATCCGGAGGAGACCATACATGCAAAGCTCTTTATTTTTTGGGGGATCAATGCCGTCAGCACGAATATGCATCAAGTCATGATTGCTCAAAAAGCCCGGAAAAAAGGAGCTAAAATTGTCGTTATCGATGTACATAAGAACCAAACCGGCCGGCTTGCCGATTGGTTTATTTCCATTCGCCCCGGCACAGATGCCGCACTCGCCCTCGGTATCATGCATGTCTTATTCGACGAAAACCTTCACGATGAAGCATTTCTCACAGAATACACCGAAGGCAGTGACGAATTAAAAGCGCATGTTAAACACTATGATCCGGAAACGGTTTCTGCTATTACAGGCGTTAAAGCCGACGATATCAGACGTCTTGCGAGAATGTACGGGGAAACCTCCCCTTCCCTTATCAGGATCGGAAACGGCATTCAGCACCATGACAACGGCGGAATGATCGTCCGCACCGTCGCCTGCCTTCCGGCTGTTACAGGACAGTGGCTCAACACCGGAGGAGGCGCAATCAAGCACAACAGCGCGGTATTAAACTATAACAGACAAGCGCTCCAGCGGCCTGATCTGCTTTACGGCAGGAAGCCGCGATCATTTAATATGAACAGGCTCGGAAGCGTTCTTTTAGAAACAAAACCGCCCGTACGCTCCCTGTTTATTTACGGTACGAATCCTGCAGTGGTTGCGCCGGAAGCGAATAAAGTCAGAAAAGGCCTGCTGCGGGAGGATTTATTTACAGTCGTTCACGATCTATTTTTAACGGAAACCGCCAAATATGCGGATATCGTGCTCCCTGCTGCATCCGCATTTGAAAACACAGATTTTTACACGTCTTACTGGCATCATTTTATTCAGCTGCAAAAACCGGTGATCGAACCCTACGGGGACAGCAAATCGAATACGGAAGTGTTCCGTTGGCTTGCCGGAGCAATGGGATTTACCGAGCAGGAGCTTCAGGATTCCGATGAAGAGTTGATCAGACAGGCGCTGGACTTTCCCGACAATCCGTATATCGAGGATATTGATTACGAAGCGCTCTCACGCCATTCCTTCATGAAAGCCAAACGGAAAAAACCGCTTTTTCCGGGAAAGCTCAAGACACCGAGCGGAAGAATTGAATTATATTCGGAAAAGATGAAACAGGACGGTTATCCGGCGCTGCCGACACACATCCCTCTTGAGAGCGATGATGATTTTCCGCTTTTATTTGTCCCGGGACCGAATCATAATTTTTTAAATTCAACATTTTCGAATAATGAAAAACACGTAAAATTAGAAAAAGCGCCAAAGCTTTTTATTCATACAGAGGATGCTGTACGCCGGAACATAGAAGACGGGGAAACCGTTAGAGTTTGGAATCACCGCGGCGAGTGTGAATTAACAGCTTCGGTCGGCGAACAGGTGCTTCCCGGCGTTGCAGTCAGCCAAGGTCTTTGGGCCGATATGGATGATAAAAAACAGCTTGTCAACTCGCTCACGCCCGATCGGCTGGCGGATATGGGCGGAGGCGCTGTTTTCTTCTCCGGAAAGGTGCAGGTGGAAAAGCTCAGCAATAAACGCCGGGCGGTTTTGATGAAGGCTGAATCCTTTCAGCCGGCTTCACCGTATAAAAAGTGA	MNSAATQPNGVFKSVCSLDCPDQCGLLVTKKDGKIVNIQGDPDHPVTSGNICNKVRHMAERIYDEKRVTVPLKRIGKKGEAAFAPISWKEAINTISARWKELIAEEGEESILPYSFYGNMGKLAAEGMDRRFFHRLGASHLERTICSKAGSEGYNYTMGEGAGTDPEETIHAKLFIFWGINAVSTNMHQVMIAQKARKKGAKIVVIDVHKNQTGRLADWFISIRPGTDAALALGIMHVLFDENLHDEAFLTEYTEGSDELKAHVKHYDPETVSAITGVKADDIRRLARMYGETSPSLIRIGNGIQHHDNGGMIVRTVACLPAVTGQWLNTGGGAIKHNSAVLNYNRQALQRPDLLYGRKPRSFNMNRLGSVLLETKPPVRSLFIYGTNPAVVAPEANKVRKGLLREDLFTVVHDLFLTETAKYADIVLPAASAFENTDFYTSYWHHFIQLQKPVIEPYGDSKSNTEVFRWLAGAMGFTEQELQDSDEELIRQALDFPDNPYIEDIDYEALSRHSFMKAKRKKPLFPGKLKTPSGRIELYSEKMKQDGYPALPTHIPLESDDDFPLLFVPGPNHNFLNSTFSNNEKHVKLEKAPKLFIHTEDAVRRNIEDGETVRVWNHRGECELTASVGEQVLPGVAVSQGLWADMDDKKQLVNSLTPDRLADMGGGAVFFSGKVQVEKLSNKRRAVLMKAESFQPASPYKK				NA	NA	NA	NA	NA
D1-12_01084	285			hypothetical protein	ATGGATATCATTACCGGCATCGGAATCGCTTTAGCCGGATATTTCATCGGAGACGGATTGAAAAACTTTAAATCACCTGATCCTCATGAACACACTGACCACATTCTCATTAAAGAAAAAGATCTGCACTTCTATATTGGTTATTATTTAGGAGTTACGAAGGAAGAAGCAAAACAAATCGTGCCCGACACCTCTGACATTCCGCATATCACGAGAAACGGAAAGCGGTATGTGCAGAAGAATACATTAAGAGAATGGCTGACTTCTATGCTGGAAAAAGAATAA	MDIITGIGIALAGYFIGDGLKNFKSPDPHEHTDHILIKEKDLHFYIGYYLGVTKEEAKQIVPDTSDIPHITRNGKRYVQKNTLREWLTSMLEKE				NA	NA	NA	NA	NA
D1-12_01085	315			hypothetical protein	ATGTCACAGGCAGTCGGAGTGTTTACAAAAGGGGAAATAAGTATAATAAATGCGAAAAGGGCATTAATCCAAAGTGAGAAGGTGTTTGACATGCAGAAAGTGAACTGGTCAGAACAGTATGAATGGTTCAATAAACAGGATAAAAAAGACGGGCGTTTAATGGCGCTCCTTCGTCATGAGCTTACATATGAGGAAGTCATACGGTTATATAAGAAAGGGTTTTATTTGAAATCTAAAGAAGGGGATGTTTCGTTAAGTAAGAACGATATCTGTCGTATGTTTGGGGTTGAAGAGAGGCAGGGCGGCGTATCTTGA	MSQAVGVFTKGEISIINAKRALIQSEKVFDMQKVNWSEQYEWFNKQDKKDGRLMALLRHELTYEEVIRLYKKGFYLKSKEGDVSLSKNDICRMFGVEERQGGVS				NA	NA	NA	NA	NA
D1-12_01086	579			hypothetical protein	ATGGATATTAATTTACTAATGAAGGAACTGCATGTTATGCAACAAAGTTACGCATCATTATTTTCGGTTGTCAATAAAGTGCAGGCTCGGGGGGACGAATACTTAGAACTGTTGACTTCCCGACAGCACATGACTCTTATTGCTATTGCCCATTTACCGACGGAAGATACCACACTTATGAATATCGCTAAAAAGCTGGGCACAACAAAACAAACCGCTAACAAATTAATTTCAAGCCTCGCGAAAAAAGGATATGTTCACACTGTGCCAAGCAAACTGGATAAACGTGCAATCAATATTGAGATTACCGCTGAAGGAAAAAAAGCGTTAATTTCCTGTTCAGAAAAATCCACCTATTTTTTAGCGGATATGTTTCAAGACTTCACAACTGATGAAATTGAAACATTCTGGAGGCTATTGCAAAAACTTTATCGTTTTGATGGTGAAGAACAGGATGGTTTTGAAGAAAAAGCACATTTAAAAGTTGAAGATCAGGCACAATTCATCTCAGATGACTATGAAGAAAAAATCATGGCTGAATTTTCAAAACGGCGATATGGGGGTGCAGACGATGAATAA	MDINLLMKELHVMQQSYASLFSVVNKVQARGDEYLELLTSRQHMTLIAIAHLPTEDTTLMNIAKKLGTTKQTANKLISSLAKKGYVHTVPSKLDKRAINIEITAEGKKALISCSEKSTYFLADMFQDFTTDEIETFWRLLQKLYRFDGEEQDGFEEKAHLKVEDQAQFISDDYEEKIMAEFSKRRYGGADDE				NA	NA	NA	NA	NA
D1-12_01087	282			hypothetical protein	ATGAATAATATGCTTTATCGAAAAGTAAAAGAAACAGAGGATAAGATGAAGGAAAAATGCTATGAGCTGAAAGATAAAATTGATCAATTTATTTCTCATGCTAAATATAAAATTCATTGCAAACGTAAACTGGACCGAGCCGGCAATTATATATCAATTGCCATCGGACTCTTTATCCTAACTGCCTCATGGCTGACCGCAACACAATGGCTGCTTTGGATAGGCGCGGCGAGTATTTTGAGTAATGCCTGTTTGCTCATTATAAAGCCTGTTAAAAATTGA	MNNMLYRKVKETEDKMKEKCYELKDKIDQFISHAKYKIHCKRKLDRAGNYISIAIGLFILTASWLTATQWLLWIGAASILSNACLLIIKPVKN				NA	NA	NA	NA	NA
D1-12_01088	459	yobK_2		Antitoxin YobK	ATGATTTATTCAAAGGTTGAAAACTTTATTAATGAAAACAAGCAAAATGCTATATTCACAGAGGGTGCAAGCCATGAAAACATAACTCGCATTGAAGAAATCCTCCAATGCGAACTTCCTATTAGCTATAAATGGTTCTTAGAAAAATACGGTGCTGGTGGTTTATTCGGGGTTTTAGTTTTAGGCTATAACTTCGATCATGCGTCAGTTGCAGATAAAACCAAAGAATATAAACAACATTATGGACTTGCTGATGGTCTTGTTGTCATAGAAGATGTTGATTTTTTTGCTTACTGTCTAGATACGAATAAAATGAAAGACGGAGAATGCCCTGTAGTGGAATGGGATAGGATAATTGGCTATCAAGATATCGCTGCAGAAAGCTTTATCGAATTTTTTTATAATAAGATTCAGGAAGCGAAAGATGACTGGGAAGAAGATGAAGACTGGGACGATTAA	MIYSKVENFINENKQNAIFTEGASHENITRIEEILQCELPISYKWFLEKYGAGGLFGVLVLGYNFDHASVADKTKEYKQHYGLADGLVVIEDVDFFAYCLDTNKMKDGECPVVEWDRIIGYQDIAAESFIEFFYNKIQEAKDDWEEDEDWDD	PGPT0027635_83	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027635-antitoxin_yobK-K21488	NA	NA
D1-12_01089	1803	yobL_2		Ribonuclease YobL	ATGAAAGTATTTGAAGCAGCCTCGTTCATTTCAGCCGCAGAAAAGCGGGCTAAACAATACGATCAGATTAGAGAACAATTTATCAATCTCAGAAAAGCGTTTCAGGGAATGGCTGACTTAGACGACAGTGAGTTTTCAGGCAAAGGCGCCGACAATATCAAAGCCTTTTTCCAGGACCACGCCAGCGTCACGGACAGCTGGCTTGATCTGATCGATATGAAGATTGCGTTTCTTAACAGTATTTCAGGAAAAGTAGCTGATGCCGGATTGGCCGATTCGTTTGTGGAAGAGTCATTTTTAGAACACGAGCTGATTCATGCGAAGAATAAATCAAAAGCTATCATGCAGGAGCAACGAAATGAAATGAGGGATATTCTTAACGAGATAAGTGATATTGTCCATCTTGATGTTTTCTCTACAGAAGATGTCGATCAAAAGCTGGAATCAGCAGACAAGAAACGGGACAATACCATACACACGCTCGGAAAGCTCGATCATGATCTAACGAAAGAATACGCAGAAACCGAGGCAAATGAACATTTCATTCAGGCAGATTTTCAGCAGCTCCAAAATGCTACAGGCAAAGGGGAAAATGTAACACCACTTCACTATAACGCCAAGGCGTACAGAGAAAGTGACATACATAAGAAAAAAGGCGAGATTGCAAGACACTCAGACACATATTTAACGTTTAAGAAGGAAGAAGCGAAAGAGCGGGAAATCAAGGATCTAAAGAAAAAGCTCGCTGACGGTGTGACCGATCCGGATGAATATTTGGAAATTGCGAAGAAGATCGGCTATGAAAACCTTGAACCTTCCCAACAGCAATATGTCATTCAGCTTGAACAAGCAAAACAGATGGAAGAAGCCGGAGAAGTGACTTGGGATATTTTAAAAGGAGCCGGCGTTGGTTTATATGATGTCGGGAAAGACACGGTGACCGGTCTATGGGACTTCATAACCGATCCGGGGGAAACGCTGTCAGCACTGGGGAATGCAGTACTTCATCCTGTTAAAACATATGATGCTGTTAAAGCGGCAATTGAAGAGTCGTATCAAAAGGATATGGTGAACGGAGATGCTTACTCCAGATCAAGATGGGTGACATATGCGGTCGGTTCAGTGGCTGTGGCTGTCGTCGGAACAAAAGGCGCAGGAGCCGTTAACAAAGCTGATGCGGCGGGGAAGGTCATAAACAAGGCAGGACAGGCAGGGAAGAAAATTAAAGACGTTAAACTTCCAGAACTGCTCCCTTATAACTCAAAATATGATCTTGCTCTGGCCGATAACGTACCATACAATGTGGTTGACAGCCAAAACCTTAAAAATGAACTTTTGACCAATGCAAAGAAAATCCCGGATGGAACGAGAAAGCCGTTTACTGGTCAAGAAATAAACCTTCCTTGGTTAAATAAAGAAAAGTATGGTGCCTTTGAGGTTAAGGGCAAGGTAAAAGCAAAGGGAAAAGTTAAAGACATAAGCCGCAGAGTGTATACTATGAAAGATATTGATATGAACCAAAAAACAGAATTTGGCGTAACAAATCTTCAGCTTATGAAAAACGGTAATGCTCCTTATGCAAAAGATGGCACACAGATTAATTTACATCACTTGATTCAAGAAGAACCTGGCCCAATGCTTGAAATCCCAAACAGTTTACATACAAAATATAGTGATGTTATTCATAAGCTTAAGACTGATGGTGAAAGTTTTAGAAATGATAAGGTTTTAAAAGCACAATATGAAAGCTTTCGAAAGAGATATTGGAAGTGGAGAGCGAAACAATTTGAGAATGAGAATTGA	MKVFEAASFISAAEKRAKQYDQIREQFINLRKAFQGMADLDDSEFSGKGADNIKAFFQDHASVTDSWLDLIDMKIAFLNSISGKVADAGLADSFVEESFLEHELIHAKNKSKAIMQEQRNEMRDILNEISDIVHLDVFSTEDVDQKLESADKKRDNTIHTLGKLDHDLTKEYAETEANEHFIQADFQQLQNATGKGENVTPLHYNAKAYRESDIHKKKGEIARHSDTYLTFKKEEAKEREIKDLKKKLADGVTDPDEYLEIAKKIGYENLEPSQQQYVIQLEQAKQMEEAGEVTWDILKGAGVGLYDVGKDTVTGLWDFITDPGETLSALGNAVLHPVKTYDAVKAAIEESYQKDMVNGDAYSRSRWVTYAVGSVAVAVVGTKGAGAVNKADAAGKVINKAGQAGKKIKDVKLPELLPYNSKYDLALADNVPYNVVDSQNLKNELLTNAKKIPDGTRKPFTGQEINLPWLNKEKYGAFEVKGKVKAKGKVKDISRRVYTMKDIDMNQKTEFGVTNLQLMKNGNAPYAKDGTQINLHHLIQEEPGPMLEIPNSLHTKYSDVIHKLKTDGESFRNDKVLKAQYESFRKRYWKWRAKQFENEN	PGPT0027630_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_01091	333	csaA	COG0073	putative chaperone CsaA	ATGGCAGTCATCGAAGATTTTATCAAGCTTGATCTTAGAATAGGAACGGTCGTAAAAGCGGAAGTATTCCCGGAAGCAAAGGTGCCGGCCATTAAGATGACAATAGATTTCGGCGAAGAGATCGGCATGAAACAATCAAGCGCCCAGATTACAAAACGGTACGAACCGGGTGATCTGACGGGCAGACAGGTTACCGCTATTGTCAACTTTCCGCCGCGGCGGATCGCCGGATTTAAGTCAGAAGTTCTCGTTCTCGGCGGCATCCCGGAAAAAGGAGATGTTGTCCTGCTTACGCCAGAGCAGACAGTACCGAACGGAACGAAAATCGGATAA	MAVIEDFIKLDLRIGTVVKAEVFPEAKVPAIKMTIDFGEEIGMKQSSAQITKRYEPGDLTGRQVTAIVNFPPRRIAGFKSEVLVLGGIPEKGDVVLLTPEQTVPNGTKIG				NA	NA	NA	NA	NA
D1-12_01092	711	rhaR_1		HTH-type transcriptional activator RhaR	ATGGATTCATTACAACATATCATTTGTGAGCGGCGCACCTATTCACATATTTTTGATTCTCATGCACACACATACTGCCAAATGCTCTTTCCGCTCGAAGGACAGCTGGACCTGGAGACAGAAAGACGTGAAATCAGATTAAAACCTGATCAAATGCTGTATATTCCGCCCGGGCATGAACATCGGTTCCGTTCTTTGGAGCGAAATGAATGTCTTGTTCTCGACATACCGGCATTTTTTTTCAAAGGTTCCTTTGACCCCGGCGTTCTGAATAAGCTTGATCCTTTTTGGACATCGATTCGGTTTCTGCTGACAGAAGAGACAAAGCAGCAGTCGGCTCATTCATTGAGTCTGCTTGCAGAATATATTGCTGGAAAGATACAAGAAAACCGTACGAATAATTCAATTGCGTATATCCGCCGAAATCTCTCAAAGACTTTTACAATTAAAGAGCTCGCCGCAATGGAACATTACCACCCGGCGTATTATTCCGACTGGTTTAAAAAGCAGACGGGAAAAAGCCCGCAAGCTTATATTGCTGAGCTCCGTATGAAGAAAGCGGAACAAATGCTTATTGAAACAAAATGCCGGCTGACAGACATCAGTCAGGAGGTCGGCTTTCAAAATTTGTCTTCCTTCACCAGATGGTTTGTCAGACATAAGGGAATAACGCCGCGCGTCTTCCGAAACACCTTTCAATCTGATAAATAA	MDSLQHIICERRTYSHIFDSHAHTYCQMLFPLEGQLDLETERREIRLKPDQMLYIPPGHEHRFRSLERNECLVLDIPAFFFKGSFDPGVLNKLDPFWTSIRFLLTEETKQQSAHSLSLLAEYIAGKIQENRTNNSIAYIRRNLSKTFTIKELAAMEHYHPAYYSDWFKKQTGKSPQAYIAELRMKKAEQMLIETKCRLTDISQEVGFQNLSSFTRWFVRHKGITPRVFRNTFQSDK				NA	NA	NA	NA	NA
D1-12_01093	567			hypothetical protein	ATGTCACCGAGAGTCGGAATGAGCCTTGACATGATATTGAGAGCCGTAGCAGGCATCGCTGACGAAAAAGGGCTGAACGAAGTGACGCTTGCGGCTGTTGCAAAGTCCTTAAACGTAAAACCGCCTTCCCTTTACAATTTTGTCAATGGCCTTCAAGGAATTAAAACAGAGCTGGCTGTCTCCGGTTTAACTATGTTATATGAAAAAATGGCGGCCTCTGCAGAAGGACTGACGGGCGAAACGGCTTTGCTTGCTCTTGCCGATGCCTATATCAATTTCGCCGAAGCCAATCCCGGATTATATGACGCAACATTTCAAAAGATAAAAGACGGCCGGATTGAGAATCTGTCAAGCCTGCTTGTAGAGCTTGTTGTCAGGCAGCTGACAGCGAACGGTTATGCACAGTCTGACACTGCGATTCATGCTGCGAGAGGACTGAGGAGCCTTCTTCACGGATTTGCCGTGTTGAGAAAACAGAGTGCATTTGAATTAACCGAATCAATTAAGGAAAGCCGGAAGTTTGCAGTTGTTGCTTTCCTAAGAGGTTTGCAGGAGAGGGAACAATAA	MSPRVGMSLDMILRAVAGIADEKGLNEVTLAAVAKSLNVKPPSLYNFVNGLQGIKTELAVSGLTMLYEKMAASAEGLTGETALLALADAYINFAEANPGLYDATFQKIKDGRIENLSSLLVELVVRQLTANGYAQSDTAIHAARGLRSLLHGFAVLRKQSAFELTESIKESRKFAVVAFLRGLQEREQ				NA	NA	NA	NA	NA
D1-12_01094	720	gloB_1		Hydroxyacylglutathione hydrolase	ATGAGAATCTTACAATACGGAACCGTTTGGCAGTTGACTTTTTTTCCAGCGCTTTTCCCGGTGAATTGTTATTTGGTTGAAGAAGAAGAAGGAGTAACCCTGATTGACGCCGGACTGCCTAACAGTCATAAAGGAATTAAACAAGCATTGCGGCAGCTTGGGAAGCCGCTGAATGACATATTACTCACCCACGCGCACGGGGATCACATCGGTTCGCTTGACTCATTAGCTGCGGAATTTCCGGATGCTTCCGTCTGTATTTCTGAGCGGGATTCTTTCTTGCTGAAAGGTGACACTTCTTTATTTGAGCATGAAGCACAAACGCCGATAAAGGGGGGAGTGCCGAAAAATGTTCAGACCGAACCTGATCGCCTGCTGAAAGGCGGCGAGCGGATCGGATCTTTACTTGTCATTCCCGCTCCCGGTCATACGCCGGGAAGCCTCGCTTTTAAAGATATGAGAAATGATATGCTGATCGTCGGAGATGCCTTTCAAGTACGGGGAGGCCTTGCTGTTTCTGGGAAGCTGAAATGGAAATTTCCGTTTCCGGCTTTTGCTACGTGGAATAAAGAAGAAGCTGTAAAAACAGCAAGAACGCTTATCGCTCATCAACCAAGCAGTCTGGCCGCCGGACATGGAAATGTTCTCTGCAATCCCGTTGAAATGATGGCTGAGGCTGCTGAGGAAGCCGAACGAAGCCTGCCGGGAGGCCGATCATAA	MRILQYGTVWQLTFFPALFPVNCYLVEEEEGVTLIDAGLPNSHKGIKQALRQLGKPLNDILLTHAHGDHIGSLDSLAAEFPDASVCISERDSFLLKGDTSLFEHEAQTPIKGGVPKNVQTEPDRLLKGGERIGSLLVIPAPGHTPGSLAFKDMRNDMLIVGDAFQVRGGLAVSGKLKWKFPFPAFATWNKEEAVKTARTLIAHQPSSLAAGHGNVLCNPVEMMAEAAEEAERSLPGGRS				NA	NA	NA	NA	NA
D1-12_01095	522			Protein csk22	ATGCATATCACACTTCAAAGCATCTGCCCTGTCTTAATGATTGCCTTTTTCCTGTATAAAAAGGTGAAACGGTCTGTCGGCTTTCAGCCTTTGAAACCCCGCTGGCTTTATACCAGAATGATTTTGTTTTCATTGCTGGCCGCAGCTCTGGCGTTTTTCAGCATCACACACCCGGCTTTATACGGCCATCTTATATTCGGCACTTTTTGCGGCTGGCTTCTGGTCCTGTTTGCCAAACGGAACATTTCTTTTGAAGAACGCCGCGGAAAAATGTATTTTCGCACTCACCTATGGATTGAACTTATTCTATTAACGTTATTCCTATCGAGATTTGTTTATCGCGTTATTGAAATTTACCGGGTCACAGCGGACTTTACCCATCCGGAGGCATACAGCCAAACGGTCGGGGCCGATCCGCTGACCATCAGTATCTTTTATTTCATCGCAGTGTATTACAGCGGCTTCTCTTTTTATGTTTTAAAAACGAGCAGAGACCAAACCAATAACAGTCAGTACGGCTGA	MHITLQSICPVLMIAFFLYKKVKRSVGFQPLKPRWLYTRMILFSLLAAALAFFSITHPALYGHLIFGTFCGWLLVLFAKRNISFEERRGKMYFRTHLWIELILLTLFLSRFVYRVIEIYRVTADFTHPEAYSQTVGADPLTISIFYFIAVYYSGFSFYVLKTSRDQTNNSQYG	PGPT0024949_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024949-yobW-NA	NA	NA
D1-12_01096	333	czrA	COG0640	HTH-type transcriptional repressor CzrA	ATGACTGAATTTCACGAATCCGGAAACACGAATGACCCCGCTGTCGATTTAGATGAGGAAACTTTATTTTTGGTTGCCCAGACTTTTAAGGCGCTGTCTGATCCGACCAGAATCAGAATTCTCCATTTGCTGTCACAGGGTGAGCACGCGGTAAATGATATCGCAGAAAAGCTGAATTTGCTGCAGTCTACCGTTTCTCATCAGCTGCGTTTTCTTAAAAATCTGCGCCTCGTCAAATCACGCAGAGAAGGAACATCCATCTATTATTCTCCTGAGGATGAACATGTGTTAGATGTGCTTCAGCAAATGATTCACCATACGCGGCACGATTAA	MTEFHESGNTNDPAVDLDEETLFLVAQTFKALSDPTRIRILHLLSQGEHAVNDIAEKLNLLQSTVSHQLRFLKNLRLVKSRREGTSIYYSPEDEHVLDVLQQMIHHTRHD	PGPT0004305_107	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004305-czrA|yozA-K22043	NA	NA
D1-12_01097	666			hypothetical protein	GTGGAGAAAAAGAAAAAAGGCTGTTTCGCTGCCGCGGGTCTTATGATGATATGTGTTTTTGTCATGGTTTCCTTCTTCCTCATTCTGTTATTTTCAAATAATGAATTGCTCAAAAGTCTTCCGTTTGATGTCAAACCGATCGTACTTGAACGGCTGACAGATTACAAACCGCTTGTTGAAGACGAGCTGGATGAAAAAGGACTCACCAAATATACATCGCTTGTACTCGGCATGATATATCAGGAGTCAAAAGGAAGAGGAAATGATCCCATGCAGTCTTCAGAATCTCTGGGTTTAAAGCGAAATGAGATTAAAAACCCTCAAACCAGTATCAAACAGGGAATCAAACAATTCACTCTCATGTACCAAACAGGCAAGAAAAAAGGCGTAGACTTGGATACGATTATACAAAGCTACAACATGGGAGCCGGCTATATTGATTTTGTGGCTGAACATGGAGGATCGCATACTGAGGAACTGGCAAAACAATACTCCGAGCAGCAGGTCAAAAAGAATCCGAAACTTTACACTTGCGGAGGGAACAAAGACAATTTCCGTTATCCCTACTGCTATGGTGATTACACGTACGCAGAAAAAGTAAAAGCAAAAACAAAAACCGTTGAACAATCCTTAAATGTAACAACACTTGAAACGCTTGAAGAGTAA	MEKKKKGCFAAAGLMMICVFVMVSFFLILLFSNNELLKSLPFDVKPIVLERLTDYKPLVEDELDEKGLTKYTSLVLGMIYQESKGRGNDPMQSSESLGLKRNEIKNPQTSIKQGIKQFTLMYQTGKKKGVDLDTIIQSYNMGAGYIDFVAEHGGSHTEELAKQYSEQQVKKNPKLYTCGGNKDNFRYPYCYGDYTYAEKVKAKTKTVEQSLNVTTLETLEE	PGPT0023801_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0023801-yocA-NA	NA	NA
D1-12_01098	537			hypothetical protein	ATGAATCAGACAGAAAACAAACCTAAAAGTTATACCGGTATCGTGCTGACATTGACCGTTCTGATCAACGGGTTAATTGCGGTACTGTTTTTTATGCCGAAATCAGGTCAGGTCAGCATTGCCAATATTCATATTCTGCCGATGTTAAATGCCATTTTTAACAGCTTCACGTTTATCTTTTTGCTGGCAGCGCTCTTTATGATTAAGCAAAAAAACATTCAAGCGCATAAACGTTTTATTTTAGCGGCGTTTACGACGACTTTGCTGTTTTTGATCTGCTATGTCGTGTACCACTCGATAGCTGAGAATACTTTATTCGGCGGCCACGGCATCATGCGCGGGATTTACTTCTTTATTTTAATTACGCATATTTGCCTTTCCTTCATCATCGTGCCGCTTGCGCTGTTTACGCTGATCAGAGGATTCAGTATGCAGGTGGAGCGCCACAAAAAAATCGCCAGATGGACGATGCCGCTCTGGCTGTATGTCAGTCTGACGGGCGTCATTGTATACTTAATGATATCGCCGTATTATTAA	MNQTENKPKSYTGIVLTLTVLINGLIAVLFFMPKSGQVSIANIHILPMLNAIFNSFTFIFLLAALFMIKQKNIQAHKRFILAAFTTTLLFLICYVVYHSIAENTLFGGHGIMRGIYFFILITHICLSFIIVPLALFTLIRGFSMQVERHKKIARWTMPLWLYVSLTGVIVYLMISPYY	PGPT0024520_421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024520-yozB_-K08976	NA	NA
D1-12_01099	783			hypothetical protein	ATGGCAATTGACTCACTCATCGGCAAATTGAAGTACGTAATGACGGAATCTCCTGATAAAATGCTTTCCTTATATGTAAATACGGATATGAGAAATCCGGATCAGCAGGGGGGAGAGTGGAAAATCGCCTTGAAAACCGGTTTTCGGAGATTAAAAGAGTATCTGTCTGCCAGTGATCCGGAAGAAGAAAAATCTCTCGTCCGCATCATGGAACGTGTCTATCAATATATCGATGGGCTTGGTAAAGAGATGCCGCGAAGTCTCGTATTTTTTGCATCGGGAGAAGGCGGTATTTGGGAGACGATTGAATTGCAGGTGCCTGTCGAAACACGATTTTATTGGGAAGAAACGGCTGTCCTTGATCAATTAGAACTTCTCCGTGAACAATTTCCGAGCACGGCTTTTATTCTCACCCAGCAGAATGAAGTGAAGATCATAGAAACCGTACTCGGAAAAATTGAAGGGGTGGAGCATTATCAATACGACGTCATCAATGAATCGTGGAAACCGCAGGATGTAAGCGGAAGCTCCGCCTCAATGGACGAAGACGCCGCCAAAGCCCACGTCGAAGAAAACCAAAACAGGCTGTATAAACGATTGGCTTCAAATCTTGATCAAAAGGCCGCTTCACACCAATGGGAGCGTCTCGTAATCGCAGGGGACAAAGAAACAGCCGATATTCTCGATCAGCATATGAATAAACCGATAGATCGGATCATTCCAAAAAATCTGTTGAATGAAAACGAGCATAAGGTGATAGAAGAACTGTTGAAGGAAGCATAA	MAIDSLIGKLKYVMTESPDKMLSLYVNTDMRNPDQQGGEWKIALKTGFRRLKEYLSASDPEEEKSLVRIMERVYQYIDGLGKEMPRSLVFFASGEGGIWETIELQVPVETRFYWEETAVLDQLELLREQFPSTAFILTQQNEVKIIETVLGKIEGVEHYQYDVINESWKPQDVSGSSASMDEDAAKAHVEENQNRLYKRLASNLDQKAASHQWERLVIAGDKETADILDQHMNKPIDRIIPKNLLNENEHKVIEELLKEA	PGPT0015033_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015033-yocB-NA	NA	NA
D1-12_01100	498			hypothetical protein	TTGTTTACTGCAGAAGAAAGAGATCAGAAAGAGCTGGAAAAAGAGCTTCATAAACTTGAATTTCAGATTTTCAGAATGCGGGAAAATCTGATAGATGTATCAAAAGACGCGCGAGTGCTTGGTATTGATCAATCGAACAATGACGATTGGATCATTGTTTCCTCGATTGATGATGGCCAAACATGTAAGATTATGCTGACTGATTGTGAATCAGCCTACCGGGGAAGAGGCTGTTTTTCACTGATCGCCTCTTATTATGACAATGCCATTCATATCGGGGACATTAAAGGCCCGCCGAACCACGGCTACGGCTCGATCTGCATGAAATTTTTAAAACATATCGCCAGAGAGCAGAATATCCCGAAAGTGACGGGCGACATCGCTAAGCGTGATTGGGATCATGTCGACAGACTCGTTCATTTTTATGAAAAGCATCAATTTGATGTCTGGATTGACAATGATACGCAATCAGGCGGCATTAAATGGGTCGACTTGTAA	MFTAEERDQKELEKELHKLEFQIFRMRENLIDVSKDARVLGIDQSNNDDWIIVSSIDDGQTCKIMLTDCESAYRGRGCFSLIASYYDNAIHIGDIKGPPNHGYGSICMKFLKHIAREQNIPKVTGDIAKRDWDHVDRLVHFYEKHQFDVWIDNDTQSGGIKWVDL	PGPT0007785_1050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441	NA	NA
D1-12_01101	978	mccF		Microcin C7 self-immunity protein MccF	TTGTATCCGGAAAAATTGAAAAAAGGTGACGGCATTCGTATTGTGTCTCCGGCCACAAGCATGTCCGTTATGTCAGATGAAAATATAAATGCCGCAAAGTCAAAATTGGAGGAGCTCGGCTTTCGTGTCTCTTTTTCAGAGCATGCGAAAGAAATAAATGAATTTGATTCATCATCCATTGAATCGCGTGTACAGGATCTGCACGAAGCTTTCGCTGATCCTGACATCAAAGCGATTTTGACGACACTCGGCGGGTTCCAATCAAATCAGCTGCTTCGCTATCTTGATTATGAAAACATCAAGCGGCATCCGAAAATCCTTTGCGGCTATTCAGATATTACCGCTCTCGGCCATGCCATATATCAAAAAACCGGCCTTATTACATATTCCGGTCCCCATTTTTCTTCATTTGCCATGAAAAAAGGGCTGGACTATACGATTAACTCTTTCTTGGCCTGCTGTGCTTCTGACAACCCGTATGAGATAAAGCCTTCATCCGAGTGGAGTGATGATAAATGGTATTTGAACCAGGAGGACAGACGTTTTTATCGGAATCCGGGACCGCTCGTTATTCAACCCGGATATGCGGAAGGAACACTGATCGGAGGAAATCTATGCACGCTGAATCTTCTGCAGGGCACGGAATACTTTCCGGAGATGGAACAAGTGATTCTGTTTATAGAAGATGATCATATGTCGGACATTCATATGTTTGACCGGGATTTGCAGTCACTCATCCACCTTCCCGCTTTTTCAGCTGTGAAGGGAATTGTCATCGGACGTTTCCAGCATGCTTCAAATGTGTCTGAGGAGGCTCTCTGTGCCGTCATCCGTACAAAAGAAGAACTGTCATCCATGCCTGTTATCGCAAATGCTGATTTCGGCCATACCTCCCCTTTGATGACATTCCCGATCGGAGGAACATGCAGAATAGAAGCCGGCTCAGAAGGCGTAAGGATATGGATCGATCGGCATTAA	MYPEKLKKGDGIRIVSPATSMSVMSDENINAAKSKLEELGFRVSFSEHAKEINEFDSSSIESRVQDLHEAFADPDIKAILTTLGGFQSNQLLRYLDYENIKRHPKILCGYSDITALGHAIYQKTGLITYSGPHFSSFAMKKGLDYTINSFLACCASDNPYEIKPSSEWSDDKWYLNQEDRRFYRNPGPLVIQPGYAEGTLIGGNLCTLNLLQGTEYFPEMEQVILFIEDDHMSDIHMFDRDLQSLIHLPAFSAVKGIVIGRFQHASNVSEEALCAVIRTKEELSSMPVIANADFGHTSPLMTFPIGGTCRIEAGSEGVRIWIDRH	PGPT0023815_936	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
D1-12_01102	402			hypothetical protein	ATGAATCTGATGGAGCCGGAATTTATATGTTTATGGAATGCCTTCACAGAATCACCGGTGTTTCAAGCATGTATCTGTACCGCTTTGGCCATTGTGATCGTTATCGGACTGTCTATGCCGGCTGTCAGGCTGTTTCAGGCGCTTGACAGAGGGAGAGGAAGGCCAGCCGTTATTGAAAAGGTGAGACGTACTGGTGTGATGAAGAATGGCAGGCACGAGCTTGTGCTTATTTTAAACGTAAAAAACCAAGACGGAACGCATGATAAACGTGAACTGACACATGCCGTATATAATGAAGAGATCAGCCGTTTTTATGAAGGAGCTTCCGTATGGGTGACGGCAGCGGCTGGCGGACGAATTATGATCGCTCCGCGCACGCCGCGGCATAAGGCGTCAAAATAA	MNLMEPEFICLWNAFTESPVFQACICTALAIVIVIGLSMPAVRLFQALDRGRGRPAVIEKVRRTGVMKNGRHELVLILNVKNQDGTHDKRELTHAVYNEEISRFYEGASVWVTAAAGGRIMIAPRTPRHKASK				NA	NA	NA	NA	NA
D1-12_01103	870	yocH	COG1388	Cell wall-binding protein YocH	ATGAAGAAGACGATTATGTCCTTTGTCGCAGTTGCAGCAATTTCAACAACTGCATTTGGAGCTCACGCTTCTGCTAAAGAAATCACGGTGCAAAAGGGTGACACGCTCTGGGGGATCTCGCAAAAAAACGGAGTGAACCTAAAGGACTTAAAAGAATGGAATCAGTTATCTTCTGATTTAATCATTGAAGGAGAGAAACTGACTATTTCTTCAGTAGAAACAACCACATCTGGGCAGTACACAGTGAAGCAGGGCGACAGCCTCTGGAAAATTGCTCAGAAATTCGGAACATCAGTCGGCAATCTGAAAAGCTTGAATAACTTGCAATCAGATATAATTTACGCAGGCACAACGTTAAATGTGAAAGGTCAGGCTCAGGCTGCACAGCCGGCTCAAGAAGCCAGCCAGCCGCAAACTGAACAAAAACCAGCTGCTGAGACAGAACAGCCGAAACAAGAAGCTGTCAAAAACGAGCAGCCTAAACAAGAACCTGTTCAAGAACAACAACCTAAACAAGAAGCGAAGGCTGTCGAAGCAAAACAGCAGCCTGTTCAATCAAATACAAACCAACAAGAGCCTAAAAAGCAGCTGACAATGACTGCAACTGCTTACTCTGCTAACGACGGCGGCATTTCCGGTGTAACGGCAACCGGTGTTGACTTAAACAAAAACCCTGATGCAAAAGTCATCGCGGTAGACCCTAGTGTCATTCCGCTTGGCTCTAAGGTTTATGTTGAAGGTTACGGAGTGGCAACAGCAGCAGATACAGGCGGCGCAATTAAAGGAAATAAAATTGACGTATTTGTTGCAAAGAAAAGTGACGCTAACAACTGGGGCGTCAGAACAGTAAATGTTAAAGTATTAGACTAG	MKKTIMSFVAVAAISTTAFGAHASAKEITVQKGDTLWGISQKNGVNLKDLKEWNQLSSDLIIEGEKLTISSVETTTSGQYTVKQGDSLWKIAQKFGTSVGNLKSLNNLQSDIIYAGTTLNVKGQAQAAQPAQEASQPQTEQKPAAETEQPKQEAVKNEQPKQEPVQEQQPKQEAKAVEAKQQPVQSNTNQQEPKKQLTMTATAYSANDGGISGVTATGVDLNKNPDAKVIAVDPSVIPLGSKVYVEGYGVATAADTGGAIKGNKIDVFVAKKSDANNWGVRTVNVKVLD	PGPT0019120_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019120-sle1|yocH-K22409	NA	NA
D1-12_01104	1779	recQ	COG0514	ATP-dependent DNA helicase RecQ	ATGCTGGATAAAGCCCAATCCCTTCTGGCGCATTATTTTGGTTACGACAGTCTACGCGCGGGCCAAAAGCAGGCGATACAATCAGTTGCAGAGGAGAGAAAAAACACGGTCTGCATTATGCCGACGGGGGGCGGAAAATCAATCTGCTATCAGATTCCCGCACTGCTGTTTGAAGGAACCACAATCGTTATTTCCCCTCTTATTTCCTTAATGAAAGATCAAGTCGACGCGCTTGAAGAAGCGGGTATCGCGGCAGCTTATATTAACAGCACCCAGACAAGCCGTGACATTCATGAGCGCCTGACCGGTTTGAAACAAGGGGCTTACCGGCTCTTTTACATTACACCGGAGCGTTTGACTTCTTCTGAATTCATTCACATCCTGCAGAATATTACGGTTCCTCTTGTCGCCATTGACGAAGCTCACTGTATATCGCAATGGGGACATGATTTCAGGCCGAGTTACCGGAATATCGAAATCCTTTTTAATGAATTAAAAGAACCGCCCGTCATCATCGCATTAACGGCGACGGCTACGCCTGAGGTTCATGATGATATCTGCAAGCAGCTTCATATTAAGAAAGAACAAACTGTATATACCGGTTTTGCCAGAGAGAATTTAACGTTTAAAGTAGTAAAGGGCGAAAACAAAGACCGGTTTATCGAGCGGTATCTGGAAAAAAATAAACACGAAGCCGGCATTATATATACAGCGACAAGAAAAGAAACCGACCGTTTATATGAGAAATTAAAGCGCAGCGGCATCAATGCCGGCCGTTATCACGGCGGATTGGCGGATGATGACAGAAAAGACCAGCAGGAGCGGTTTCTTAACGATCAGATACAAGTGATGGTAGCTACGTCCGCTTTCGGAATGGGAATCGATAAGAGCAACATCAGGTTCGTTTTGCACGCGCAGATTCCGAAAGATATGGAGAGCTATTACCAGGAAGCCGGACGGGCCGGGCGCGATGGTCTTAACAGCGAGTGTGTGCTCTTATTTTCGCCGCAGGATATTATGGTGCAGCGTTTTTTAATAGACCAATCGGCCGCCGGAGAAGAAAAACAAAAGCAGGATCTCAAAAAACTGAGACAGATGGTGGATTACTGTCATACGGAAGATTGCCTGCAGCGGTTTATTCTGAAGTATTTCGGCGAGAATGAGGCGGAAGCTTGCGAAGCATGCGGCAATTGCACTGATACAAGGACCGCCCATGACGTCACAAAAGAAGCGCAGATGGTATTGTCATGCATCATCAGAATGAATGAGCGCTTCGGAAAAACGATGGTGGCGCAGGTGCTTAGCGGCTCAAAAAATAAAAAAGTGCTGGAAAACGGCTTCAGCAGCCTGTCCACTTACGGCATTATGAAGCATCAATCCGCAGCGGAAATCAGTGATTTTATCGAATTCCTTATTTCAGATGAATATATCAGAATGGCAGACGGCACATTTCCGACGCTTATGGTTACCCAAAAAGGCAGGGACGTTCTGCTCGGAAAAAGCGCAATCTCGAGAAAAGAAGCCTTACAGGCCGCTGCCGTTACTGAAAATGATGAATTATTTGAGCTTCTCCGGCGTCTCCGCAAAGGGATTGCAGCTGAACAGGGTGTGCCTCCATTTGTCGTGTTCTCGGATCAGACGTTAAAAGAAATGTCAGCGAAACTTCCGAAAACGGATCAGGATCTTCTTTCCGTAAAAGGGGTCGGGGAACAAAAAAGATTGAAATACGGAGCGGTTTTTTTAGAAGAAATCCGAAATTATGTAAGAGAAACAGAGTGA	MLDKAQSLLAHYFGYDSLRAGQKQAIQSVAEERKNTVCIMPTGGGKSICYQIPALLFEGTTIVISPLISLMKDQVDALEEAGIAAAYINSTQTSRDIHERLTGLKQGAYRLFYITPERLTSSEFIHILQNITVPLVAIDEAHCISQWGHDFRPSYRNIEILFNELKEPPVIIALTATATPEVHDDICKQLHIKKEQTVYTGFARENLTFKVVKGENKDRFIERYLEKNKHEAGIIYTATRKETDRLYEKLKRSGINAGRYHGGLADDDRKDQQERFLNDQIQVMVATSAFGMGIDKSNIRFVLHAQIPKDMESYYQEAGRAGRDGLNSECVLLFSPQDIMVQRFLIDQSAAGEEKQKQDLKKLRQMVDYCHTEDCLQRFILKYFGENEAEACEACGNCTDTRTAHDVTKEAQMVLSCIIRMNERFGKTMVAQVLSGSKNKKVLENGFSSLSTYGIMKHQSAAEISDFIEFLISDEYIRMADGTFPTLMVTQKGRDVLLGKSAISRKEALQAAAVTENDELFELLRRLRKGIAAEQGVPPFVVFSDQTLKEMSAKLPKTDQDLLSVKGVGEQKRLKYGAVFLEEIRNYVRETE				NA	NA	NA	NA	NA
D1-12_01106	627	azoR1	COG1182	FMN-dependent NADH-azoreductase 1	ATGTCTCAAGTATTATTTGTAAAATCAAGTGACCGTACGGCTGAAGAAGGCGTATCCGTAAAATTATACGAAGCGTTTCTGGCTGCTTATAAAGAAAACAATCCGAATGATGAAGTGATCGAACTTGATCTTCATAAAGAAAACCTTCCTTACCTCGGAAGAGATATGATTAACGGAACATTCAAAGCTTCAAAAGGAATTGAAATGACAGACGAAGAGAAAAAACAAGCGTCAACTGCTGACATTTACTTAAATCAATTCGTCAAAGCTGACAAAGTCGTGTTTGCATTCCCACTTTGGAACTTCACAGTGCCTGCTGTGCTTCATACTTATGTTGATTACCTGTCTCGCGCAGGAGTTACTTTCACATACACGCCTGAAGGCCCTAAAGGTCTGATGGGAGATAAAAAAGTAGCGCTCTTAAACGCACGCGGCGGCGTATATTCTGAAGGACCGATGGCATCTCTTGAAATGTCATTAAACTTCATGAAAACCGTTCTCGGTTTCTGGGGTGTCCAAGATCTTCATACTGTTGTCGTTGAAGGCCATAATGCTGCACCGGATAACGCTCAAGCGATCATTGAAAAAGGACTGCAAGAAGCGAAAGATCTGGCTGCAAAATTCTAA	MSQVLFVKSSDRTAEEGVSVKLYEAFLAAYKENNPNDEVIELDLHKENLPYLGRDMINGTFKASKGIEMTDEEKKQASTADIYLNQFVKADKVVFAFPLWNFTVPAVLHTYVDYLSRAGVTFTYTPEGPKGLMGDKKVALLNARGGVYSEGPMASLEMSLNFMKTVLGFWGVQDLHTVVVEGHNAAPDNAQAIIEKGLQEAKDLAAKF	PGPT0006790_1295	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
D1-12_01107	102			hypothetical protein	ATGTACCTGTTTTTTTATTCCATAAAAAATCTCAGAATCGAAATAAAATCATTGACTTTATATAAAAAAGAAAGTAACATACTATTTGTAAGTAAATATTAA	MYLFFYSIKNLRIEIKSLTLYKKESNILFVSKY				NA	NA	NA	NA	NA
D1-12_01108	492	yocK	COG1734	General stress protein 16O	ATGTCATTATCAAAAGAACAGCAGGACAGCCTTTATCATAAATTAATCGATTTAAAGGAAAGTCTTCAGGGAGAATCAAAAGAAAATCATTCAATGAGCGAAGACACAGGAGAACTGTCGAACGGAGTAGATAATCACTTAGCTGATCACGGAAGCATTTATTTGGACAGAGTCACGAATCAGACGCTGGACGGTGTCGATCAGAATCTTTTAGATGAGGTGCACGCCGCGCTTGAACGAATGGATAAAGGAACATACGGGATTTGCGAGAAAACGGGAAAAGAAATTCCTTATGAAAGACTTGAAGCTGTGCCGTACGCCAGAATGACCGTCGAAGCGCAGCGAGAAACAGAAGGGGATGTGAAAACAGACGCTCCGTCATATGAAAGGGAATTTCACGAGCAGGTGAAAGACCTCTCAAATAAAGAAACCGTTGATCAAAAAAGCTCACAAACTTACGAAATCCTGGATCGCGAGCAGGATTCACAATAA	MSLSKEQQDSLYHKLIDLKESLQGESKENHSMSEDTGELSNGVDNHLADHGSIYLDRVTNQTLDGVDQNLLDEVHAALERMDKGTYGICEKTGKEIPYERLEAVPYARMTVEAQRETEGDVKTDAPSYEREFHEQVKDLSNKETVDQKSSQTYEILDREQDSQ	PGPT0014560_257	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
D1-12_01109	348			hypothetical protein	GTGTGTGAAGAAGAATTAGACCGGCTTAAGAAAGTGGAACAACAGCTTGATGAGCTTCAGGATAAGTGTCATTTTGAGCCGCAAACGGTTGAAGGGGAAAAAACATATGTCCATATTGAGCATGTCAAAGTGGACAAGGTTGAATACAATATTGATTTTGAAAAGCTGAGTATAGAAGAGCTGAGCGGTATGCTGAATATCGGCGCCACTTACCATACACCGGTGCACAGGCTCAAACAAGCCTGCGCTGAAGAATGTCGGGACAACCCGCAAAATGATGCTGCGAAAGAAAAAAGCCAGACAAAGCAGCAGACACCCAATGTCACCATCAGGGGAAGAAAGCATTGA	MCEEELDRLKKVEQQLDELQDKCHFEPQTVEGEKTYVHIEHVKVDKVEYNIDFEKLSIEELSGMLNIGATYHTPVHRLKQACAEECRDNPQNDAAKEKSQTKQQTPNVTIRGRKH				NA	NA	NA	NA	NA
D1-12_01110	234			hypothetical protein	ATGATGTTTTTTCCATCCGTTATCAACTTTGAGTATATAAAAATGAACGGAATCAGCGGCGGAGCAGCTTTTAACACCGGCTCTTCCGTTATGGTGAGAAACACAGCAGCCAATAAAAGAAATGAAGGGTACGGTGAACAAAACGGTGATTGCACCGTTGTCGTCATCCCTATCATGAGTATCGATGATTCAGATCTGATAGATGGCACAGCAAACAAGATCAGCCTTCGATAA	MMFFPSVINFEYIKMNGISGGAAFNTGSSVMVRNTAANKRNEGYGEQNGDCTVVVIPIMSIDDSDLIDGTANKISLR	PGPT0030855_3	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-UNKOWN_FUNCTIONS	PUTATIVE-PERMEASSE_ACTIVITY,PGPT0030855-yocN-NA
D1-12_01111	483	yocM	COG0071	Salt stress-responsive protein YocM	ATGGATTTCGATAAGATGAAGCAATGGATGGAAATGGCGCAAAACATGTCCGGCGGCGACTTTTGGAAAAACGTTTTTGATGATGAACAACTGAAATCATTTCAAAACGGCCATTCTCATTTTCCCTTTCAACAGGGAGATGGGCAAATGAGAAGAAATGAGGATGCTTTTCCTCTTATAGATATTGTGGAAACCCATGATGAGCTCCAATTTTTGCTGTATCTGCCCGGCTACCGGAAACAAGATGTTCAGCTGCTGTCCTACGGAGAATATATCGTCGTAAAAGGCACGAGAAAATCCTTTTTTAATGAACAGGATTTTAAACAGAAGACCGGAAAATACGGCGATTTTGAAAAAAAACTCGACCTTCCGCATTCCGCTCAGGGAACGAAGGGAATGCAGGCGGTATTCAAAGACGGGATTTTATATATATCGATTGCTAAACATCTGGGGGATGCAAGCCAGATCATTATCGAAGGCTGA	MDFDKMKQWMEMAQNMSGGDFWKNVFDDEQLKSFQNGHSHFPFQQGDGQMRRNEDAFPLIDIVETHDELQFLLYLPGYRKQDVQLLSYGEYIVVKGTRKSFFNEQDFKQKTGKYGDFEKKLDLPHSAQGTKGMQAVFKDGILYISIAKHLGDASQIIIEG	PGPT0014635_1479	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-12_01112	273			hypothetical protein	GTGGTTCAACCAACTCCATATATCAATATTAATATTTTCATGTTGAAAATTAATTCCTTTGAAAATGCTTCAGCGGTGAATGTCGGACAAAATTTACTGGCGGAATGGCAGAATTCTGATAAAAAGAATCAGGGATACGGACAGAACTTCGGAGATGCAAGCGGCTTCATCGGCACGAACGGCAAAGTGGATGACCGGGATCAAATTGATTCTCCATCTGCCTTTGAGTCTGCATGCGATAAAATCCCTGCCGGAAAAGGAGGCCCATTATGA	MVQPTPYININIFMLKINSFENASAVNVGQNLLAEWQNSDKKNQGYGQNFGDASGFIGTNGKVDDRDQIDSPSAFESACDKIPAGKGGPL				NA	NA	NA	NA	NA
D1-12_01113	234			hypothetical protein	ATGATGTTTTCGCTAGTTTTGGTAAATGTAGGGGGCTTTAAAGTAAATGCAGTCGACCGCGGTTCTTCCATTACGATCGGCCCGTATCAGCAAATCGATTATTTTTTATCCAATAAGATCAACTACGGATTCGGTGAAGAAAATGGTGATTTGGCGCCGATTTATATCCCCATCAGTTCTATTGCTGATCCGGATCTCATTGATTCGAACTCCGGAAAAACAAGCATTATATAA	MMFSLVLVNVGGFKVNAVDRGSSITIGPYQQIDYFLSNKINYGFGEENGDLAPIYIPISSIADPDLIDSNSGKTSII	PGPT0030855_4	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-UNKOWN_FUNCTIONS	PUTATIVE-PERMEASSE_ACTIVITY,PGPT0030855-yocN-NA
D1-12_01114	345			hypothetical protein	TTGGGAATTTTTTCTGTCAGCAGATCAACCGACACAAAAAAGCTGGAGGCTTTGCTCGTTGAGGGAGAACGGATCGAAACGATTTATAAACTGCGGGTTGACCAAATATGCTTTACGAATAAACGAGTGATTTTCTTTGATAATAAAATGTTCTCCAAAAAGAAAGTGCGCGTATTTCTTCCATATAAAACAATTGAAAGCTTCGCCATTCAAGAAGCAGGGATGTTTGATCCCGATACCGGGCTTGTATTAATGACAAGGGGAAAAACTTTCGAATTGGAATTTGCAAAAGAAACGGACTTGACTGAGGTTCAAGCCATCTTAACAAAATACTTATGCAGTTAA	MGIFSVSRSTDTKKLEALLVEGERIETIYKLRVDQICFTNKRVIFFDNKMFSKKKVRVFLPYKTIESFAIQEAGMFDPDTGLVLMTRGKTFELEFAKETDLTEVQAILTKYLCS				NA	NA	NA	NA	NA
D1-12_01115	141			hypothetical protein	ATGAAAAAAACAGAGCAAGACAAACAAAATAAAACATCAGATCAGCTTCAGCAAGTGCAACCTGAAGAAGGCACCGACACGACGATGGAACAAATTTCAGATACCTATAAAGAAGGAACAATTGAAGATACGGATCGTTGA	MKKTEQDKQNKTSDQLQQVQPEEGTDTTMEQISDTYKEGTIEDTDR				NA	NA	NA	NA	NA
D1-12_01116	204			hypothetical protein	ATGATTCATAATAATTGGCAGACAAAAGAAAGCGTCAAAAAGGTCAAATGCGTACATACAGATGCGAAAAAATACATTGTCAAAAATGTGCTGACGCCGGGTAAAGAGTATGAAGTCAAAAATGAAACAGAAGAATTCATTTTTGTTGTAGACAATACAAACAAAGTCGGAGGCTTCTACAAAGAGTATTTTGAAGAAGTTTAA	MIHNNWQTKESVKKVKCVHTDAKKYIVKNVLTPGKEYEVKNETEEFIFVVDNTNKVGGFYKEYFEEV				NA	NA	NA	NA	NA
D1-12_01117	1488	styD		Phenylacetaldehyde dehydrogenase	ATGAGTTCTTTAACGATGCAGATCACAAAAAGGCTGGAAACATTTTTACAGGGCACGAAGAAGCTTTATATTGACGGAAAATTTGTTCCGAGCGCTTCAGGATCAACATTTGTCACACCGAATCCGGCAACCGGGGAAACGCTGATGACGCTTTACGAGGCACAGTCAGAAGACATTGACAGTGCAGTGAAAGCGGCACGCAAAGCCTTTGATCACGGCGAATGGCGCACTATGCCGGCCGCTTCCAGAAGCAGGCTGATGTATAAGCTTGCCGATTTAATGGAAGAGCACAAAACGGAACTCGCGCAGCTTGAAACACTTGATAATGGAAAACCGATTAATGAAACGACGAATGGGGATATCCCGCTCGCAATTGAGCATATGCGTTATTATGCCGGGTGGTCTACAAAGATAACCGGACAAACGATTCCGGTCGCCGGCTCATATTTTAATTACACCCGCCATGAGCCTGTCGGCGTCGTGGGGCAGATCATCCCTTGGAACTTCCCGCTCCTTATGGCGATGTGGAAAATGGGCGCCGCCCTTGCCACAGGCTGCACAATCGTTTTGAAACCGGCGGAGCAGACACCGCTGACTGCCCTCTATTTAGCGGAATTAATAGATCAGGCGGGCTTCCCTGACGGCGTCATCAATATTGTCCCAGGGTTCGGCGAAACGGCCGGGGAAGCGCTGACCAACCATGACGATGTCGATAAACTCGCTTTTACCGGTTCTACACAAATCGGCAAAAAAATCATGGAAAAAGCCGCAAAAAAAATTAAACGCGTGACACTGGAGCTTGGCGGAAAGTCACCTAACATCATTTTGCCTGACGCCAATTTGAAGAAAGCCATTCCCGGCGCTTTAAACGGGGTCATGTTTAATCAGGGGCAGGTATGCTGCGCAGGCTCCCGTGTCTTCATTCACAAAGACAAATATGATGAGGTCGTCAGCGAAATGGTTTCATATGCGAAATCGCTTCAGCAAGGCGCCGGCCTTCACCAGGATACACAAATCGGCCCGCTCGTCAGTCAGGAACAGCATGAGCGCGTGCTTTCATATATTGAAAAAGGAAAAGCGGAAGGAGCCAAAGCTGTCGCGGGCGGCAGCTGCCCGTTTGAAGAAGGGTATTTTGTCTCCCCGACTGTATTTGCGGATGTGGATGACAGCATGACCATCGCAAAAGAAGAAATTTTCGGCCCGGTTTTAGCCGCCATTCCGTATGATACGGTAGATGAAGTGATTGAGCGGGCGAACCGCTCGGAATACGGCCTTGCAGCCGGACTTTGGACTGAGAATGTGAAAAACGCCCATTACATTGCTGACCGTCTCCAAGCCGGCACCGTTTGGGTCAACTGCTACAATGTTTTCGATGCGGCATCTCCTTTCGGCGGCTATAAGCAATCCGGCCTCGGGCGGGAAATGGGCTCTTACGCTCTGGATAATTATACAGAAGTGAAAAGCGTCTGGATCAATCTGGAAGATTAA	MSSLTMQITKRLETFLQGTKKLYIDGKFVPSASGSTFVTPNPATGETLMTLYEAQSEDIDSAVKAARKAFDHGEWRTMPAASRSRLMYKLADLMEEHKTELAQLETLDNGKPINETTNGDIPLAIEHMRYYAGWSTKITGQTIPVAGSYFNYTRHEPVGVVGQIIPWNFPLLMAMWKMGAALATGCTIVLKPAEQTPLTALYLAELIDQAGFPDGVINIVPGFGETAGEALTNHDDVDKLAFTGSTQIGKKIMEKAAKKIKRVTLELGGKSPNIILPDANLKKAIPGALNGVMFNQGQVCCAGSRVFIHKDKYDEVVSEMVSYAKSLQQGAGLHQDTQIGPLVSQEQHERVLSYIEKGKAEGAKAVAGGSCPFEEGYFVSPTVFADVDDSMTIAKEEIFGPVLAAIPYDTVDEVIERANRSEYGLAAGLWTENVKNAHYIADRLQAGTVWVNCYNVFDAASPFGGYKQSGLGREMGSYALDNYTEVKSVWINLED	PGPT0006875_3988	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-12_01118	1884	sqhC	COG1657	Sporulenol synthase	GTGAGCACAATTCATGAAAACGTCAGAAGCCGCCAAAAGAAAACCATCTCCCTATTAAGAGAAACGCAAAATGCGGACGGCTCATGGTCATTTTGTTTTGAAGGACCGATTTTGACAAACGCCTTTCTGATCCTCCTCCTCACTTCTCTTGGAGACAATGATAAAGAACTGATCGCTGAGCTTGCAGAAGGCATTCGCGCTAAACAGCGCCCGGACGGAACTTTTGCCAACTATCCTGATGACCGGAAAGGAAATGTGACCGCCACTGTACAGGGCTATGCCGGCTTGCTGGCTTCCGGTTTATATAGCCGTTCTGAGGCGCATATGATTCAGGCCGAACGCTTTATCATCTCAAATGGCGGCTTGCGCAACGTACACTTCATGACAAAGTGGATGCTTGCGGCAAACGGCCTTTATCCATGGCCCGCGCTGCATCTGCCATTATCTTTCTTAGTCATTCCCCCATCCTTCCCGCTGCATTTTTACCAGTTCAGTACATACGCCCGTATTCATTTTGTACCGATGGCCGTGACACTTAACAAAAGATTTTCGCTGAAAAATCCCAACGTTCCGTCTCTCGCGCATTTAGATCGGCATATGACTAAAAATCCGTTTACATGGCTTCGTTCCGATCAGGATGAGAACAGAGACCTCTCTTCTCTTTTCGCGCACTGGAAGCGGCTTTTGCAGATTCCTGCCGCTTTTCACCAGCTCGGTCTGCGTACGGCCAAAACGTATATGCTTGACCGGATTGAAGAAGACGGCACATTATACAGCTATGCGAGCGCCACTATTTTTATGGTGTACGGCCTGCTCGCTCTCGGTGTATCGCGCCACTCCCCCGTTATTAAAAAAGCGCTTGCCGGCACGAAAGCTTTGCTCACGTCTTGCGGCAATATACCGTACCTGGAAAATTCAACGTCGACCGTTTGGGATACGGCGCTTCTCAGCTATGCGCTTATGAAAAGCGGCATCCCAGATAACGATCAGATGATAACCAGCGCCGCCCGGTTTCTGCGTGAACGGCAGCAGACTAAAGTCGCTGATTGGGCCGTTCACAACCCGCATGCTGAACCGGGAGGATGGGGTTTTTCAAACATCAATACAAATAATCCTGATTGTGATGACACAGCCGCAGTGCTCAAAGCCATTCCGCGAAAACTTTATCCCGCCTCATGGGAACGCGGACTGAGCTGGCTTTTGTCCATGCAAAACAGTGACGGCGGCTTCTCTGCTTTTGAGAAAAATGTCAATCATCCGCTGGTCCGCCTGCTGCCGCTGGAATCGGCTGAGGAAGCTGCCATCGATCCTTCAACAAGCGACTTAACCGGACGGGTGCTGCACTGTTTAGGAGAAGCGGGGCTTTCTTCTGATCACCCTCAGATTGAAAAAGCCGTCCAATGGCTGATCCGCCATCAAGAAGAGAACGGATCGTGGTACGGCAGATGGGGTGTCTGCTATATTTACGGCACATGGGCGGCGCTGACAGGGATGAATGCTTGCGGCGTGAGCCAAAACCACCCGGCCGTGAAAAAAGCGATCCGCTGGCTGAAGTCCATTCAAAACGAGGACGGAAGCTGGGGGGAATCCTGTAAAAGTGCAGAAGAGAAAACCTATGTTCCGCTTTCTTACGGGACGCTTATACAGACGGCTTGGGCGGCCGAAGCTTTGCTGCAATACGAAAAACCTCATCATCAAGCCGTCACAAAAGGCATATCTTTTCTTATTGAAAACCGGCATTACGAAGGAGCCGCTTTCAGCTATCCGACCGGAATCGGCCTGCCGAAACAGTTTTACATCAGGTATCACAGCTACCCGTATGTGTTTTCTTTGCTTGCGCTCAGCACTTTTATGAAAATGAGTGAAAAGGAGGAAGAAAAATGA	MSTIHENVRSRQKKTISLLRETQNADGSWSFCFEGPILTNAFLILLLTSLGDNDKELIAELAEGIRAKQRPDGTFANYPDDRKGNVTATVQGYAGLLASGLYSRSEAHMIQAERFIISNGGLRNVHFMTKWMLAANGLYPWPALHLPLSFLVIPPSFPLHFYQFSTYARIHFVPMAVTLNKRFSLKNPNVPSLAHLDRHMTKNPFTWLRSDQDENRDLSSLFAHWKRLLQIPAAFHQLGLRTAKTYMLDRIEEDGTLYSYASATIFMVYGLLALGVSRHSPVIKKALAGTKALLTSCGNIPYLENSTSTVWDTALLSYALMKSGIPDNDQMITSAARFLRERQQTKVADWAVHNPHAEPGGWGFSNINTNNPDCDDTAAVLKAIPRKLYPASWERGLSWLLSMQNSDGGFSAFEKNVNHPLVRLLPLESAEEAAIDPSTSDLTGRVLHCLGEAGLSSDHPQIEKAVQWLIRHQEENGSWYGRWGVCYIYGTWAALTGMNACGVSQNHPAVKKAIRWLKSIQNEDGSWGESCKSAEEKTYVPLSYGTLIQTAWAAEALLQYEKPHHQAVTKGISFLIENRHYEGAAFSYPTGIGLPKQFYIRYHSYPYVFSLLALSTFMKMSEKEEEK	PGPT0007620_71	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007620-sphC-K18115	NA	NA
D1-12_01119	846			hypothetical protein	ATGAAACGGCACGCTTATCAAACCGAGATGCTGAATTGGTGTGAAACCTTGAAGGAACAAGTCATTCAGCAAGGTCGGTTCGATCGCTTCGCGGCACAAATCGACCGGATTTTTCACACCCTTCAGGATGATGGATTAACGGAGGCGGAATGGTACGAACAGGCATCAGCACTTTACCGGGACATTACTGAACCCGAAGAGCCGGATGAGCGCAGAGCCTATGTGCCAATCGGCAAGCATGTCCTCCCTAAACTGCCTTACAGTTATTCCGCACTGGAACCGTATATTTCAAGAGAGATTATGAAACTCCACCATACAAAACACCATCAGAGCTATGTTGACGGTCTGAATAAAGCAGAACTGGAGCTCAAAAAAGCGAGACAGACGAAACAGTACGACTTAGTGGCACATTGGAAGCGGCAATTGGCGTTTCACGGCGCGGGCCATTATTTACACAGTATTTTCTGGTTTTCGATGAATCCAAACGGAAAAAGACGGCCGACGGGTGCACTCTTTCAAATGATTGATGTGTCATTCGGAAGCTATTCCGCTTTTAAAGAGCAATTTTCTCAAGCGGCGAAAAAAGTCGAAGGAGTCGGCTGGGCTATCCTAGTCTGGGCGCCGCGCGCCGGGCGGCTGGAGATTTTGGCCGCTGAGAAGCATCAGCTCTACAGCCAGTGGGACGTCATTCCTTTGCTTCCGCTGGATGTGTGGGAACACGCTTATTATTTACAATATAAAAACGACCGCGCGGCTTACGTGGATCAATGGTGGAATGTCGTTGATTGGCGGGAGGCGGAGAAACGGTTCGAGCAAGCGCACCGCGTGATATGGCCGCTTTATTAA	MKRHAYQTEMLNWCETLKEQVIQQGRFDRFAAQIDRIFHTLQDDGLTEAEWYEQASALYRDITEPEEPDERRAYVPIGKHVLPKLPYSYSALEPYISREIMKLHHTKHHQSYVDGLNKAELELKKARQTKQYDLVAHWKRQLAFHGAGHYLHSIFWFSMNPNGKRRPTGALFQMIDVSFGSYSAFKEQFSQAAKKVEGVGWAILVWAPRAGRLEILAAEKHQLYSQWDVIPLLPLDVWEHAYYLQYKNDRAAYVDQWWNVVDWREAEKRFEQAHRVIWPLY	PGPT0004190_417	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
D1-12_01120	1338			hypothetical protein	GTGAAAGAAGCTAATCAATGGTCATCTAAGCTGGGATTTATTTTAGCTACGGCCGGCTCTGCAATCGGGCTCGGCGCAATATGGAAGTTCCCTTACGTAGCGGGAACCAGCGGAGGCGGCGCTTTTCTGCTTGTTTTTATTTTATTTACTGTTTTAATCGGACTGCCGCTTTTGCTTGCTGAATTTATTATCGGCAGAAAAACACAAAAAAATGCCGTTGAATCCTATAAGGCGCTCGCGCCGGGGAAAAAGTGGCACTGGATCGGATATCTCGGAATCATTACGTGTTTTATTCTATTATCCTTCTACAGCGTAGTGGGGGGATGGATATTAATCTACATTATAAAAGGCTTTACAGGCGGTTTATCGCTTTCTTCGGGATTTGATACGTTATTTATCGATACCATTTCAAATCCTTATGCAGCGGTTTTCGGTCAGCTGCTGTTTATCGTGCTGACGATTTTAGTTGTGGCAAAAGGGGTGAGCAGCGGCATCGAAAAGGTAAGCCAGGTGCTGATGCCGGCTCTGTTTATTCTGTTTATTCTTTTAATGATCCGCTCCGTTACGCTGCATGATGCAGCGAAGGGATTAAAATTCTTCTTCATGCCTGATTTTGGCGCGATGGATGCCAATACCATTTTATATGCGATGGGACAATCATTTTTCTCGTTAAGCGTCGGAGTGTCCGTAATGGTTACATACAGCGCATATTTAGAAAAAGAAGAAAATATTGTTCAATCCGCCGTATCGGTGACGGTATTAAATGTCCTTGTTGCTGTGATGGCGGGAGTGGCGATTTTTCCGGCGGTGTTTGCATTCGGCCTCAAGCCGGATCAAGGCCCGCAGCTTTTATTTAACGTGCTGCCGACCGTCTTTAACCAAATGCCGTTGGGCATCGTGTTTTTACTCGCCTTTTTGCTGCTGTTTTTATTTGCGACGCTGACATCGGCTTTTTCAATGCTTGAAATTTTAGTTGCTGTTTTGTCAAAAGGCGATTCGGCAAAACGGAAGCGGTATGCATGGATCGGGGGACTTGCTATATTTATTGTCGGGGTCCCTTCGGCGCTGTCGTACGGAATTTTGAGTGATGTTTCTCTTTTTCACCGCAGTATTTTTGACGCTGCGGATTTTCTGGTCAGCAATGTCTTAATGCCGCTGGGCGCGCTTTTAATTGCCGTTTTCGTACCGCTGAAAATTCCGAAACAGATGTTGTTTGACGAACTGAAAAGCGGTTCCGGTATAAAACGAAAATGGTTTGCAGTCTGGCTCCTATTAATCCGTTATGTGGCTCCTGTAGCCATTATTATCGTTTTTCTGCACGTGCTTGGTATTTTTTAA	MKEANQWSSKLGFILATAGSAIGLGAIWKFPYVAGTSGGGAFLLVFILFTVLIGLPLLLAEFIIGRKTQKNAVESYKALAPGKKWHWIGYLGIITCFILLSFYSVVGGWILIYIIKGFTGGLSLSSGFDTLFIDTISNPYAAVFGQLLFIVLTILVVAKGVSSGIEKVSQVLMPALFILFILLMIRSVTLHDAAKGLKFFFMPDFGAMDANTILYAMGQSFFSLSVGVSVMVTYSAYLEKEENIVQSAVSVTVLNVLVAVMAGVAIFPAVFAFGLKPDQGPQLLFNVLPTVFNQMPLGIVFLLAFLLLFLFATLTSAFSMLEILVAVLSKGDSAKRKRYAWIGGLAIFIVGVPSALSYGILSDVSLFHRSIFDAADFLVSNVLMPLGALLIAVFVPLKIPKQMLFDELKSGSGIKRKWFAVWLLLIRYVAPVAIIIVFLHVLGIF	PGPT0013950_2630	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
D1-12_01121	972	panS	COG0385	Pantothenate precursors transporter PanS	ATGGAATGGCTGAAAAAAATAAGCGGGTTTGCGGGCCAAACCTTTGGCTTGTGGGTTATCGTCTTTGCCGGTTTAGGATTCGCCTGCCCTGATTTGTTTTCTTGGATCAGTTCTTATATGACGATTTTCCTTGGTATTATTATGTTTGGGATGGGGCTTACTCTTCAAGCAGACGATTTTAAAGAATTAATCAGAAAGCCTTGGCATGTCGTGATCGGAGTCGCTGCCCAGTTTACGATTATGCCGCTTACGGCTTTCTGTTTATCAATCGGGCTCCGCCTCCCCGCAGAAATCGCCGCGGGCGTCATTCTGGTCGGATGCTGTCCGGGCGGTACGGCATCAAACGTCATGACATTTTTGGCGAAAGGCAATACGGCGCTTTCTGTTGCGGTCACCACGATCTCAACATTGCTTGCTCCTATTGTAACGCCGGCACTTATTATGCTGTTTGCGAAAGAGTGGCTCCCCGTTTCTTTCGGCTCACTGTTTGTTTCCATAATGCAAGCCGTGCTTTTGCCGATCGTCCTCGGGGTGATTGTGAAGCTGTTCTTCAAAAAACAGGTCGGACAAGCCGTGCACGCGCTTCCTCTCGTGTCGGTAATCGGCATCGTAGCGATTGTATCCTCTGTCGTCAGCGTAAATCGTGAGCATCTGCTTCAATCAGGACTGCTGATTGTGTCTGTCGTCATCTTACATAACGGAATCGGATATTTGTTAGGATTCCTGACTGCAAAGCTGTTCAAAATGGATTATGCTTCACAAAAAGCGATTGCGATCGAAGTCGGAATGCAAAACTCCGGACTGGGCGCAGCGCTTGCGACAGCGCATTTCTCCCCTTTGTCAGCCGTGCCGAGCGCAATTTTCAGCATATGGCACAATCTGTCGGGGTCTGTTCTTGCCACCTACTGGTCTAAGAAAAAAGAGAAAAACAGCGCCGAGGTAGAAGAAACGGCAAAGATTCCGTTTTCATAA	MEWLKKISGFAGQTFGLWVIVFAGLGFACPDLFSWISSYMTIFLGIIMFGMGLTLQADDFKELIRKPWHVVIGVAAQFTIMPLTAFCLSIGLRLPAEIAAGVILVGCCPGGTASNVMTFLAKGNTALSVAVTTISTLLAPIVTPALIMLFAKEWLPVSFGSLFVSIMQAVLLPIVLGVIVKLFFKKQVGQAVHALPLVSVIGIVAIVSSVVSVNREHLLQSGLLIVSVVILHNGIGYLLGFLTAKLFKMDYASQKAIAIEVGMQNSGLGAALATAHFSPLSAVPSAIFSIWHNLSGSVLATYWSKKKEKNSAEVEETAKIPFS	PGPT0013890_1095	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
D1-12_01122	747	yflN_1	COG0491	putative metallo-hydrolase YflN	ATGCAAAGCTGTTATCCGCTTGAGATCGAATTTGAATATAATGAAGAATTGCATTCTATCACTCCGGTTCTTCTGCAAGACGAACATGACACGATATTAATAGACTGCGGATATCCCGGTTTTACAAACCATCTTCAACATGCTGCCGCCCGGCATGGAATGTCGCTTCATTCATTGACAAAAATTATTGTAACGCATCACGACATAGACCATATCGGCTCACTCGCTGCATTATACCGTTTGCATCCGGATGTCAGCGTGACAGCACATGAGCGTGAAGCGCCGTATATTGATGGCTCTAAAAAATCTTTACGGCTTGAGCAGGCTGAATCAACGTTTTGTTCATTGCCAGAGGATGCAAAGCCTTATGCAAAACAGTTCATCCGCTCGCTTCAATCAGTCGAATCGGCTCCAGTTCACCGGACAGTTACTGACGGCGAGCTGCTGCCTTGGTGCGGAGGCATTCGCGTTGTAGCCACGCCGGGTCATACACCCGGCCATATCAGTCTTTATCTGCCTGCCGAAAAAACAATGGTCACAGGTGATGCGGTCGTCATTGAAGACGGAAAGCTGAACCTTGCTAATCCTAGCTATACGTTACATATGGATGATGCGGTCCGTTCTGTGCGGCGGCTGCTCGATTACGATATCCGCCAATTGATTTGTTATCATGGAGGTCTATTTCAGGGGGATGTGAAAAAAGCGCTTTTGCGTCTGTTTCGTGATCTGCAGAATAAAAAAGGATAG	MQSCYPLEIEFEYNEELHSITPVLLQDEHDTILIDCGYPGFTNHLQHAAARHGMSLHSLTKIIVTHHDIDHIGSLAALYRLHPDVSVTAHEREAPYIDGSKKSLRLEQAESTFCSLPEDAKPYAKQFIRSLQSVESAPVHRTVTDGELLPWCGGIRVVATPGHTPGHISLYLPAEKTMVTGDAVVIEDGKLNLANPSYTLHMDDAVRSVRRLLDYDIRQLICYHGGLFQGDVKKALLRLFRDLQNKKG				NA	NA	NA	NA	NA
D1-12_01123	1248	odhB		Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGGCGGAAATTAAGGTACCTGAATTAGCAGAATCAATCTCAGAAGGAACGATAGCCCAATGGTTAAAGCAGCCCGGTGATTATGTAGAACAGGGTGAGTACTTGCTTGAACTGGAGACGGACAAAGTAAATGTTGAATTGACAGCAGAAGAATCGGGTGTTCTAAAAGAGGTATTGAAAGATTCGGGTGATACCGTCCAAGTAGGAGAAATTATCGGTACCATTACAGAAGGCGCTGGCGAAAGTTCTGCACCCGCCCCTTCAGAAAGTGCTCCAGCCAATGAACAAACGAAAGAGGAAGCAAAAGCTGAACCTGCTGCACAAGAAGTCAGCCAGGAAGCACAATCAGAAGCGAAATCCAGAACGATAGCGTCTCCGGCTGCACGCAAGCTGGCAAGGGAAAAAGGGATTGATCTATCACAAATTCCGACGGGGGACCCGCTCGGCCGCGTGCGCAAACAAGATGTGGAAGCTTATGAAAAACCGGCTTCAAAACCTGCGGCACAGCCGAAACAGCAGGCTCAAAAAACACAGCAAAGCTTTGACAAACCTGTCGAAGTGCAAAAAATGTCCCGCCGCAGACAGACGATCGCGAAACGATTGGTTGAAGTGCAGCAGACTTCTGCGATGCTGACTACATTTAACGAAGTTGACATGACGGCCGTTATGAATCTAAGAAAACGCCGTAAAGACCAATTCCTTGAGCAAAACGATGTAAAACTCGGTTTCATGTCGTTCTTTACAAAAGCCGTCGTGGCTGCATTGAAAAAATTCCCGCTCCTTAACGCTGAAATTCAAGGCGATGAGCTGATCGTGAAAAAATTCTATGACATCGGTATCGCTGTCGCGGCTGAAGAAGGGCTTGTCGTCCCAGTCGTGCGTGACGCTGACCGCCTGACGTTTGCCGGCATTGAAAGAGAGATCGGCGAACTTGCGAAAAAAGCGCGAAACAATAAATTAACATTAGGTGAGCTGCAAGGAGGCTCCTTCACGATCACAAACGGAGGTACATTCGGATCGCTTATGTCAACACCGATCCTAAACAGCCCTCAGGTTGGGATCTTAGGTATGCACAAAATTCAGCTGCGCCCAGTAGCGATTGATGCGGAGCGCTCTGAAAACCGTCCGATGATGTACATCGCTTTATCATATGATCACAGAATTGTAGATGGTAAAGAAGCGGTCGGATTCCTCGTCACCATTAAAAACCTGCTTGAAGATCCGGAACAGCTGTTGCTGGAAGGATAA	MAEIKVPELAESISEGTIAQWLKQPGDYVEQGEYLLELETDKVNVELTAEESGVLKEVLKDSGDTVQVGEIIGTITEGAGESSAPAPSESAPANEQTKEEAKAEPAAQEVSQEAQSEAKSRTIASPAARKLAREKGIDLSQIPTGDPLGRVRKQDVEAYEKPASKPAAQPKQQAQKTQQSFDKPVEVQKMSRRRQTIAKRLVEVQQTSAMLTTFNEVDMTAVMNLRKRRKDQFLEQNDVKLGFMSFFTKAVVAALKKFPLLNAEIQGDELIVKKFYDIGIAVAAEEGLVVPVVRDADRLTFAGIEREIGELAKKARNNKLTLGELQGGSFTITNGGTFGSLMSTPILNSPQVGILGMHKIQLRPVAIDAERSENRPMMYIALSYDHRIVDGKEAVGFLVTIKNLLEDPEQLLLEG	PGPT0001535_2142	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
D1-12_01124	2835	odhA		2-oxoglutarate dehydrogenase E1 component	ATGTTTCAAAATAATATGAAACAAAGAATGAATTGGGAAGATTTTTACGGACCGAACCTCGGCTACGCACTGGAGCTGTACGACCAATATGCTGAAGATCCAGACAGCATTGATCCGGATCTGAAAGACATGTTTGACGAACTCGGCGCTCCGCCAAGCCAAATAAAAGAGGCATCGGGAACAAAGGAACAGGGACGCGTCACCGCAGATCTGATTCAAAAGATCGCAGCAGCAGTTAAACTTGCAGAAGATATTCGAACCTATGGCCATCTGAACGCTTCCGTCAATCCGCTCAGAAAGGATCCGAAAAAGAGCGAGCTCTTTCCGTTATCCGAGTACGGGCTTACAGAAGAAGAAATGAAAGCAATACCCGCGTCTGTCATCTGTAAAGACGCACCTGCCAATATAACAAACGGCTTAGAAGCCATCCAGCATTTACGCAATACCTATAAAAGAACCATCTCCTTCGAGTTTGACCATGTGCATGATTTCGAAGAGCGCGCATGGATTACAAAAATGGTCGAATCCGGAGAACTGTTCCGGAAAAATTCACCGGAAAAACTGTCAGCCGTTTTAGAAAGACTGACGGAAGTAGAAGGATTTGAACAATTTTTACACCGGACATTCGTCGGTCAGAAGCGTTTCTCAATTGAGGGATTAGACGCGCTTGTGCCGGTTCTTGACGACATTATCGCCCAGTCTGTGAAAGCGGGCACAACCAATGTCAATATCGGGATGGCGCACAGAGGCCGTTTAAATGTGCTTGCGCATGTGCTCGGCAAACCGTATGAGATTATTTTCTCAGAATTCCAGCACGCGCCGAATAAAGACCTTGTGCCGTCTGAAGGATCGACCGGCATCAGCTACGGCTGGACGGGCGATGTAAAATATCACCTCGGTGCAGACAGACAGCTTCAGGATGCTGAAACCAAAAGCGCGCGGATTACGCTTGCAAATAACCCGAGCCACTTGGAATTCATCAATCCGATTGTTGAAGGAAGCACGCGGGCGGCACAGGAAACAAGAACGCAAAAGGGGTACCCGGTTCAAGACGAAACAAAATCGCTCGCCATTTTAATTCACGGTGACGCAGCGTTTCCGGGAGAAGGCATTGTCGCCGAGACGCTGAACTTAAGCTCTCTGAAAGGCTATCAGGTCGGCGGGGCCATTCATATCATCGCCAATAATATGATCGGCTTTACAACAGAAAGCGATGAATCACGGTCCACGAAATATGCCAGTGATTTGGCGAAGGGCTACGAAATCCCGATCGTTCACGTCAACGCGGATGATCCGGAAGCATGCCTGTCAGCCGTTAAATTTGCGGTTGAATACCGGAAGCGGTTCAATAAAGATTTCTTAATCGATTTAATCGGGTACAGACGGTACGGCCACAATGAAATGGATGAGCCGTCAACGACACAGCCGATGCTGTATGACGCCGTCAGAAAACACCCGACTGTCAAGCGGATCTTTGCGGAAAAACTCGTAAGTGAAGGACTGATCAGCGAGGAAAAAGCGCAAAACATCGAAACGGCAGTGACAAAACGTATTGAAGACGCCTATAAAAAGGTGCCCGCCAAAAAAGAAGACGCCGTACGGGAAATTGAATTGCCGGAACCGGTGTCCAACGGTTTTCCAGACGTTGACACAGCCATTGATTTTGATGTTCTCCGCAAGCTGAACGGCGAACTTATCAACTGGCCGGAATCTTTTAACGTGTTCGGCAAGCTGAAAAGAATTCTGGAAAGACGTGCAAAAGCGTTTGATGATGACCGTAAAGTTGAATGGTCATTGGCTGAATCACTTGCGTTTGCTTCCATTTTGAAAGACGGCACGCCGATCCGGCTGACCGGACAGGATTCAGAGCGCGGAACGTTCGCTCAAAGAAACCTTGTGCTGCATGACAGCGAAACAGGAGAAGAATTTGTTGCCCTCCATCACTTAGACGACTGCGCTGCTTCATTTACGGTGCATAACAGCCCGCTCTCTGAAGGATCGGTTCTCGGCTTTGAATATGGATACAACGTGTATTCGCCTGAAACGCTTGTGATGTGGGAGGCGCAGTACGGGGACTTTGCCAATGCGGCTCAAGTCTATTTTGATCAATTCATATCTGCAGGACGGGCAAAATGGGGACAAAAATCAGGCCTGGTCATGCTGCTGCCTCACGGTTACGAAGGGCAGGGCCCTGAACACTCCAGCGGCCGCGTCGAGCGGTTCCTGCAGCTGGCGGCGGAAAACAACTGGACGGTGGCCAACCTGACAAGTGCGGCTCAGTATTTCCACATTTTAAGAAGACAAGCGAAAATGCTGCTTCGTGAGGAAATCCGCCCGCTTGTGATCATGACGCCAAAGAGCCTGCTGCGCAACCCGAATACGGTATCTGAAGTGCAGGAACTGAGCGAAAGCCGATTCAAGCCTGTCTATGAGCAGTCCGGACTTTCCCATGCTTACGAAAAAGTGACTCGCGTCGTATTATCAAGCGGAAAAGTGTCAATTGATATCAGCGATCACTTCAACAAAATGGAAGGCGATAAGGATTGGCTTCATATTGCCAGAATCGAACAGCTGTATCCGTTCCCGGCAAAAGATACGAAGGAGCTTTTCGCCAAACTGCCGAACCTGCAAGAGATCGTTTGGGTTCAGGAAGAGCCGCAGAACATGGGGGCATGGAGTTATATCAGCCCGTATCTGACGGAAATCGCGCCAAAAGGAGTAAATGTCCAATACATCGGCCGAAGAAGACGATCCAGTCCCGCAGAAGGAGATCCGACAGTCCACAAAAAAGAACAGGAACGCATTGTATCTGATAGCTTGACTCGCAAAAACTAA	MFQNNMKQRMNWEDFYGPNLGYALELYDQYAEDPDSIDPDLKDMFDELGAPPSQIKEASGTKEQGRVTADLIQKIAAAVKLAEDIRTYGHLNASVNPLRKDPKKSELFPLSEYGLTEEEMKAIPASVICKDAPANITNGLEAIQHLRNTYKRTISFEFDHVHDFEERAWITKMVESGELFRKNSPEKLSAVLERLTEVEGFEQFLHRTFVGQKRFSIEGLDALVPVLDDIIAQSVKAGTTNVNIGMAHRGRLNVLAHVLGKPYEIIFSEFQHAPNKDLVPSEGSTGISYGWTGDVKYHLGADRQLQDAETKSARITLANNPSHLEFINPIVEGSTRAAQETRTQKGYPVQDETKSLAILIHGDAAFPGEGIVAETLNLSSLKGYQVGGAIHIIANNMIGFTTESDESRSTKYASDLAKGYEIPIVHVNADDPEACLSAVKFAVEYRKRFNKDFLIDLIGYRRYGHNEMDEPSTTQPMLYDAVRKHPTVKRIFAEKLVSEGLISEEKAQNIETAVTKRIEDAYKKVPAKKEDAVREIELPEPVSNGFPDVDTAIDFDVLRKLNGELINWPESFNVFGKLKRILERRAKAFDDDRKVEWSLAESLAFASILKDGTPIRLTGQDSERGTFAQRNLVLHDSETGEEFVALHHLDDCAASFTVHNSPLSEGSVLGFEYGYNVYSPETLVMWEAQYGDFANAAQVYFDQFISAGRAKWGQKSGLVMLLPHGYEGQGPEHSSGRVERFLQLAAENNWTVANLTSAAQYFHILRRQAKMLLREEIRPLVIMTPKSLLRNPNTVSEVQELSESRFKPVYEQSGLSHAYEKVTRVVLSSGKVSIDISDHFNKMEGDKDWLHIARIEQLYPFPAKDTKELFAKLPNLQEIVWVQEEPQNMGAWSYISPYLTEIAPKGVNVQYIGRRRRSSPAEGDPTVHKKEQERIVSDSLTRKN	PGPT0001530_2134	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
D1-12_01125	1917			hypothetical protein	ATGAAGTTTATCAAATTTAACGACAGCACGATTGATTCGTTTTTGTTCATGATGCTGACTGATCTGGCCAAAACACTGACCAGAAGCAGTGAAGTTGAAGTGGAATACGGCGTGCAGTCTTACTACAATCCCTTTGAAAAGAAAATTTACATGAGCCACTTTTGGAAAGACCGCTCAGCCGGGGATATGGAAGCCGGCCTGAAAAGCGATGTCTATTTGCGCGCTGTCGGAACACGCAGCAGCTCATTTCGGGAATTTGCGGGGTTTTTAAATGACGTTCACCGGCACTTTACCCGCCAAAGCTTTGCCAAGCAGCTGTTTATGCTGCTTGAGGATATCAGAATTGAAGAGCTGATCAAAAAAGAACGGCCGGGAACGAAACGTGTTTTTCAGAAGCGGAGGGAGATGTACAGGAAATATTTCACGACGCAGCTGACATTGAATTTAGAACGGAGCATTTTCACCGACGCTTTGTATTGCGCGATGTTTGTCAAGCTGACGGCTGAGTCTCCGCTTGAAGGCATTCCTTCCATGCATGAACATATTGATATGATGATACCGTATATTGAACGTCAGCTCATCCGGGTGTATGAGGCGGATTCTACGGAACAAATCGCAAGAATAACGGAAGACCTCATGGAAGGCCTTGATGAAGTGCTTGAGAAAGATATGCTGAACACGTACTTTTTTCTGCCGGAACTTGATTACGAAAAAGCGGCTGAAGAGCCTTTATTCGAAAGCGTAAAAAAAGCGCCTTCGTTAAGTGACGATCTCACGCTCCCTGAGTCTTCCGACGGAGATGAAGAAATCCTTGAAGAGAAAATGAATACGTGGCACCGGGAAACCGAAGCGCCGTCAAAAAGTTTCCTTCAATTTGATATTGAGCACGGCGCGAAATCAGATCTTGGGAAAGACGCGGCCAGAGAAGGCGATGACGGTGACCAGGCGCTCGGCTCCGTTCAAGGCTCCGCGCGTCAGACGAAAAGAGAGAATTACTCCAAACTGGAAGCGCTTGAATCCATTCAGGATGAACATGAAGGCACGGGGCTGGCTGACGGAAAAGAAAATAAATTTGCCTTCCCGGTTTATCAAACGCCTCATAAAGCGTCTCCTGAAGAGGAGCAGTCTTATAAAGAACAGGCAAAAACGATAGAATCATATCAAAAACGCCTGAAGCAGATGATACAAAAAACACTTGAGCACAAAAAAACGCTCCCGCGGACCGACCTTCACGCAGGCCGGCTGAATCGCAAACTGATCCGTTATTTTACGGAGCGGAACCCGCGCCTTTTCTATAAAAAGCAGGACCCATCTTCAGACATTGACGCCGTTTTTACATTGCTTGTCGATTGTTCGGCCAGCATGTTCGACAAAATGGATGAAACAAAAAGAGGGATCGTTCTTTTTCATGAAGCCTTGAAATCAGTGTCCGTACCGCACCAGATCGTCGGATTTTGGGAGGATACAAACGAAGCGACCGAAACGAGCCAGCCGAATTTCTTCAATACCGTCATTCCGTTTGAAGAGTCGCTGCTGCAGGCGGCGGGTCCGCTGATCATGCAGCTTGCGCCTGAAGAAGATAACAGAGACGGGTACGCCATCAGACAAATGACGAAACAGCTGATGCGGCGGAGTGAGGCGCAAAAATTTTTAATCGTGTTTTCAGACGGAGAGCCGGCAGCATTCGGATACGAACAAAACGGCATCGTCGATACGAGCGAGGCTGTCATCGAAGCGAGAAAAAAAGGGATAGAAGTCATAAATGTTTTTCTGTCCAATACTGCGATAGAAGAATCACAGATGAAAACCATTCAGGATATGTACGGAAAGTACAGTATTTTTGTTCCGGATGTCGATCAGCTGCCCGATGTGCTGTATCCGCTCTTGAAAAAACTGCTTCATAAAAGCATAGGATAG	MKFIKFNDSTIDSFLFMMLTDLAKTLTRSSEVEVEYGVQSYYNPFEKKIYMSHFWKDRSAGDMEAGLKSDVYLRAVGTRSSSFREFAGFLNDVHRHFTRQSFAKQLFMLLEDIRIEELIKKERPGTKRVFQKRREMYRKYFTTQLTLNLERSIFTDALYCAMFVKLTAESPLEGIPSMHEHIDMMIPYIERQLIRVYEADSTEQIARITEDLMEGLDEVLEKDMLNTYFFLPELDYEKAAEEPLFESVKKAPSLSDDLTLPESSDGDEEILEEKMNTWHRETEAPSKSFLQFDIEHGAKSDLGKDAAREGDDGDQALGSVQGSARQTKRENYSKLEALESIQDEHEGTGLADGKENKFAFPVYQTPHKASPEEEQSYKEQAKTIESYQKRLKQMIQKTLEHKKTLPRTDLHAGRLNRKLIRYFTERNPRLFYKKQDPSSDIDAVFTLLVDCSASMFDKMDETKRGIVLFHEALKSVSVPHQIVGFWEDTNEATETSQPNFFNTVIPFEESLLQAAGPLIMQLAPEEDNRDGYAIRQMTKQLMRRSEAQKFLIVFSDGEPAAFGYEQNGIVDTSEAVIEARKKGIEVINVFLSNTAIEESQMKTIQDMYGKYSIFVPDVDQLPDVLYPLLKKLLHKSIG				NA	NA	NA	NA	NA
D1-12_01126	891			hypothetical protein	ATGACTTCAGAATTACAGCACCTATCACTTCCGGAAGATATACAAAACAAACTGCAGGCTTATCAAAATCATCCCGTTTCCCAAGAATTCCGGGATTTAATCGGATCATCAGGCTATGAGGCCGAAGATAAAGCGATTGTATTCGATGCCGTCATCGCTTTGACAATGGGAAAAAATATCTTATTAAAAGGACCGACGGGCTCAGGGAAAACAAAATTGGCGGAAACGCTTTCGAACTATTTTCATAAACCGATGCACAGCGTCAACTGCTCCGTAGACCTTGATGCAGAAGCGCTTGTCGGCTATAAAACGATTGAAAATGAACAGGGACAGGCGACAATTGAATTCGTTCCCGGACCTGTAACAACCGCAATGAACGAGGGACATTTTTTATACATTGACGAAATCAATATGGCAAAGCCTGAAACCCTTCCGATTCTAAACGGCGTGCTTGATTACAGAAAAATGATGACAAATCCCTTTACAGGAGAAGTGATTAAGGCAAGCGAAGGATTCGGTGTTATCGCCGCGATTAATGAAGGCTACGTCGGCACCGTTCCGCTGAACGAAGCCCTTAAAAACCGTTTTGTCATCATTGATGTTCCGTATATTAAAGGAAGCCTCCTGAAACAGGTGCTGACCTCTCAGTCTGTCTTAAAAGATGAGAAATTAATTGAACGCTTTATGACGCTGTCTTCTGATTTAATCGCACAAGCGCATAACGGACAAGTGTCAGAAGAAGCGGCGTCCATCAGGGCTCTCATTGATACGTGCGACTTGGCTGCGTACATCCCGCCGAAACGGGCGATTGAAAGAGGCATCGTAGAAAAACTTGACGACGACAGGGAAAAAGCCGCTGTCAGAAATATTGCAGAAACGCTGTTCGAATGA	MTSELQHLSLPEDIQNKLQAYQNHPVSQEFRDLIGSSGYEAEDKAIVFDAVIALTMGKNILLKGPTGSGKTKLAETLSNYFHKPMHSVNCSVDLDAEALVGYKTIENEQGQATIEFVPGPVTTAMNEGHFLYIDEINMAKPETLPILNGVLDYRKMMTNPFTGEVIKASEGFGVIAAINEGYVGTVPLNEALKNRFVIIDVPYIKGSLLKQVLTSQSVLKDEKLIERFMTLSSDLIAQAHNGQVSEEAASIRALIDTCDLAAYIPPKRAIERGIVEKLDDDREKAAVRNIAETLFE	PGPT0000370_175	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000370-norQ-K04748	NA	NA
D1-12_01127	591	yojM	COG2032	Superoxide dismutase-like protein YojM	ATGCATCGTCTCTTGCTTTTTCTCATGCTCGCATCAATTACGCTTTGCGGCTGCGGGGGGAGGCCCGCTCCTGTTCCGCCCAAAAAACATGAGGAAAGCCGCGCATTGGAAGCATCTGCATACCGTGAGCATGGCGGACTCATCAATCAAAACGGAAAAACGATCGGATATATCGAAGTGAGGGAATCTGATGATGAAGGGTCAGACATTCATATATCAGCGGGGCATCTGCCGCCCGGCGCTTCTCTCGGATTTCATATTTATGAAAAAGGGACATGTCAGGCACCTGATTTCGAATCAGCCGGGGGACCGTTCAACCCTTTGAACAAAGAACACGGCTTCAACAATCCGATGGGTCATCACGCCGGGGATCTCCCCAATCTTGAAGTGGGGGCTGACGGTAAAGTGGATGTCATTATGAATGCGCCGCAAACTTCATTAAAAGAAGGGAGCAGACTCAGCCTGCTCGACCGGGACGGAAGCGCGTTCGTCATTCATGAACATACGGACGATTATTTAACAAACCCAAGCGGAAATTCCGGAGCCAGAATCGCCTGCGCTCCCCTGACAAAAAGCGCCCGCAGGGAATGA	MHRLLLFLMLASITLCGCGGRPAPVPPKKHEESRALEASAYREHGGLINQNGKTIGYIEVRESDDEGSDIHISAGHLPPGASLGFHIYEKGTCQAPDFESAGGPFNPLNKEHGFNNPMGHHAGDLPNLEVGADGKVDVIMNAPQTSLKEGSRLSLLDRDGSAFVIHEHTDDYLTNPSGNSGARIACAPLTKSARRE	PGPT0013181_818	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
D1-12_01128	1239	cwlS	COG0791	D-gamma-glutamyl-meso-diaminopimelic acid endopeptidase CwlS	ATGAAGAAAAAAATCGCAGCCGGTCTGGCTGTATCTGCAGTAATGACTTCAACCTTCGCCGTGCATCCCGCTGAAGCAAAAACCATTCAAGTAAAAAGCGGCGACTCTCTTTGGAAGCTTTCCCGGCAATATCATACAAGTATTTCAGCCCTGCAGGCGGAAAATAAACTGAAATCAACGATACTCCACCCAGGACAGCGGCTGCACATTCCTGACGGCAGCGGCACACATAAAACGGGTCAAAAAGGAAAACGAAGCACGGGTGCTTACACAGTTACATACGGAGACTCATTATGGGTGATCGCAAAAAAATACAAAATGAGCGTTTCTGAGCTGAGAAGCCTGAACCGTTTGAGTTCAGATGTCATCTATCCCGGCCAGAAACTGAAAATTAAAGGGTCTGCCGGCGGCACGGACGGAGGCGGCAGACAGACAAAGCCTGATAAAGGCGCATCAGGGACTTACACTGTGAAGCCGGGTGACTCGCTGTGGAAAATCGCCAATCAAACCGGCGTCACCATCGCCGAACTGAAAAAGCTGAATCAATTAACATCAGACATGCTGTATCCGAATCAAGTGTTAAAGATCAAAGGTTCACATAACGGAAACAGCGGCACAACACCGCCATCTCATTCAAACCCTTCTGAGAAGCCATCCACTTACAAAGTAAAAGCAGGCGATTCCCTCTGGAAAATTGCTAATCGGTTCGGCATCACCGCTCAGCTCATCAGAGAAAAAAATAAATTGACAACTGATGTGCTTCAAATCGGACAAGTTCTGGTGATTAACGGAACGGGAAAAACAGAAGATCCTGTGCGGCAGCCGGATAACAAACCGGCAAAGCCAAACAAGCCGAATACTCCCGAACCTCCGGTGACAGGGTCAAAGATTGACAGAATGATAGGCGAGGCGAAAAAACATGTCGGCGTGCCTTACCGCTGGGGAGGCAATACGCCTGCGGGCTTCGATTGCAGCGGTTACATCTATTACCTTTTAAATAAGGTAACCTCTGTTTCCCGTCTGAGCACGGCCGGATATTGGAATACGATGAAACATATCAGCCAGCCGTCAGCAGGCGACTTTGTCTTCTTTACGACATATAAAGCGGGCCCTTCTCATATGGGAATGTATTTGGGCGGAGGAGATTTTATTCACGCAAGCTCCTCCGGGGTTGAAGTTTCAAACTTAAGCAATCCGTATTGGAAAAAAGCGTATTTAGGAGCGCGCAGTTATTTTTAA	MKKKIAAGLAVSAVMTSTFAVHPAEAKTIQVKSGDSLWKLSRQYHTSISALQAENKLKSTILHPGQRLHIPDGSGTHKTGQKGKRSTGAYTVTYGDSLWVIAKKYKMSVSELRSLNRLSSDVIYPGQKLKIKGSAGGTDGGGRQTKPDKGASGTYTVKPGDSLWKIANQTGVTIAELKKLNQLTSDMLYPNQVLKIKGSHNGNSGTTPPSHSNPSEKPSTYKVKAGDSLWKIANRFGITAQLIREKNKLTTDVLQIGQVLVINGTGKTEDPVRQPDNKPAKPNKPNTPEPPVTGSKIDRMIGEAKKHVGVPYRWGGNTPAGFDCSGYIYYLLNKVTSVSRLSTAGYWNTMKHISQPSAGDFVFFTTYKAGPSHMGMYLGGGDFIHASSSGVEVSNLSNPYWKKAYLGARSYF	PGPT0024000_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0024000-cwlS-K19220	NA	NA
D1-12_01129	1212	oleD_2		Oleandomycin glycosyltransferase	ATGGCAAATGTATTGATGATCGGCTTTCCGGGAGAAGGCCATATCAATCCGTCTTTAGGAGTCGTAAAAGAACTGAAGGCAAAAGGGGAACATGTCGTATATTACGGCGTGAAGGAATATGAGAACAAAATCGCGTCAAGCGGAGCGGAATTCCGTGAATATGAAGATTTCCGAAAAGATGAATTCGGAAAAAACGCAACGGGTGATGAACAGCGGGACGCTACCGAGTTTTTACTATTAATGATTGAGACTTCCAAAAAAGCCGCTCTCCGTATTCTTGAAGAAGTAAAGGATGAATCCTACGACTACATCCTGTATGATCATCATTTTCTGGCAGGAAGGCTCGTGAGAAACCAGCTGAAACTGCCGGCATATTCACTTTGTACGACATTTGCAATGAATGAAGCATTTATTAAAGAAGTGTTTTCAAATACAAACCTTGTATCAGAGGAATCATCTCATTATCCGGCTTATACCGAAGCGGTCAGCCGGCTCAATGAAGAATTCAGCGCAGACATTAAAACGCCGTATGATATTTTCTCAAATGACGGCAGAAAAACCATCGTGTTTACTTCAAGAGCGTTTCAGCCGAAAGAAGAAGAGTTTGGCGAATCTTATCTCTTTGTCGGTCCGTCCATAACCGAAAGGGCGGCGGCTCAAGATTTCCCGTTTGAACAGCTTGAAGGAGAAAACGTCCTGTTTATTTCCATGGGCACGATTTTTAACAATCAGAAGGAATTGTTTAATAAATGCTTAAAAGCGGCCAGAAACTTTAACGGAAAAGCCGTCATGTCAATCGGCAAACATCTTGATCCGGCGGAGCTTGATGAAATTCCTGAGAATGTCATTGTAAAGCCTTATGTTCCGCAGCTTGAGATCCTGAAGAGAGCGGACTTATTTATCACTCACGGCGGAATGAACAGTACGAGCGAAGGGCTTTACTACAAAACCCCGATGATCGTCATTCCGATGGGCGCAGATCAGTTCGCCGTCGGAAGCCAAGTGGAAAACACGGGCGCGGGCAAGATGTTTAAAAAAGAAGATGTAACAGCCGAACTGCTCACTGAAGCAATAAAAGAATTGAGCGAAAATCCTGAATATCAGACAAAAGCTTCTGAAATCGGAGAATCCCTGAAAGCGGCCGGCGGAGCACAGCGTGCAGCGGAATTGATAGCAGAAGACGTGAAAACTGCCGAGACCCGGGTTCTGTAA	MANVLMIGFPGEGHINPSLGVVKELKAKGEHVVYYGVKEYENKIASSGAEFREYEDFRKDEFGKNATGDEQRDATEFLLLMIETSKKAALRILEEVKDESYDYILYDHHFLAGRLVRNQLKLPAYSLCTTFAMNEAFIKEVFSNTNLVSEESSHYPAYTEAVSRLNEEFSADIKTPYDIFSNDGRKTIVFTSRAFQPKEEEFGESYLFVGPSITERAAAQDFPFEQLEGENVLFISMGTIFNNQKELFNKCLKAARNFNGKAVMSIGKHLDPAELDEIPENVIVKPYVPQLEILKRADLFITHGGMNSTSEGLYYKTPMIVIPMGADQFAVGSQVENTGAGKMFKKEDVTAELLTEAIKELSENPEYQTKASEIGESLKAAGGAQRAAELIAEDVKTAETRVL				NA	NA	NA	NA	NA
D1-12_01130	627	cdaS	COG1624	Cyclic di-AMP synthase CdaS	ATGCGCCACACTCAAATGACGGAAAGCGCGTTTACCGCTGCCGTTCAAACGTATTTGAAACAAATTACAGAGGATGCCGGAATGATACTGCGGACATTGGATGAAAAAGACCAATGCCTTCTTTGCGAATTAGATGAACTGGGACATACGTTTCAGGAAATGCAGGCTGTCGCTTCGTCGTTTTACCTGCAGTCATATATCGAACATTTTACGCCTTCCTATACAGAGCTGGCGAGGGCCGTGCAGCATCTGGCGGAAGAAAAACACGGAGCGCTGATTGTGATTGAACGTGCAGATCCGCTGGACGGAATAATACAAAAAGGGACCAGCCTGCATGCCGAGATCAGTTCAGCTTTAATTGAGAGTATTTTTTATCCCGGCAATCCGCTTCACGACGGAGCCGTATTGGTCAGAGAAAACCGGGTTGTATCAGCAGCCAATGTGCTTCCGCTCACAACAAAACATGTCGATCTCAAATACGGGACGCGCCACAGGGCCGCGATGGGACTTTCGGCCGTGACTGATGCACTCGTGCTCGTTGTTTCAGAAGAAACGGGAAAAATGTCCTTTGCTAAAGACGGCGGACTGTATCCGCTTGTTTCGCCGCGGGCGCTTCATACGAAATAA	MRHTQMTESAFTAAVQTYLKQITEDAGMILRTLDEKDQCLLCELDELGHTFQEMQAVASSFYLQSYIEHFTPSYTELARAVQHLAEEKHGALIVIERADPLDGIIQKGTSLHAEISSALIESIFYPGNPLHDGAVLVRENRVVSAANVLPLTTKHVDLKYGTRHRAAMGLSAVTDALVLVVSEETGKMSFAKDGGLYPLVSPRALHTK				NA	NA	NA	NA	NA
D1-12_01131	111			hypothetical protein	ATGGAATTCGCACGGCTGATGCAATATATCTGCACCTTTTTAGGGGTCATTTCACTTTCATTCATTTATGCCAAGATGTTTAAAAAGCCGAAATCGGACAAAAAAGAGTAG	MEFARLMQYICTFLGVISLSFIYAKMFKKPKSDKKE				NA	NA	NA	NA	NA
D1-12_01132	1362	norM	COG0534	Multidrug resistance protein NorM	TTGAGAGAAACGAACACGATCGGCCAAAAGGTCAGACAGCTGTTACATATCTTCATTCCGATTTTAATCACACAGGCGGGCCTTTCCCTGATCACCTTTTTGGATACGGTGATGTCAGGGAAAGTGAGCGCTGCCGATTTAGCCGGGGTTGCAATCGGTTCAAGCCTGTGGACGCCGGTTTATACGGGCCTTGCAGGAATATTAATGGCCGTTACGCCCGTTGTTTCGCAGCTGTTTGGAGCCGGCAGACAAAAGGAAGTGCCGTTTTCCGTCATCCAGGCCGTTTATGTAGCGGCCGTTCTCAGTGCGGCGGTTATCCTGATCGGCTTTTTCACCGTTGATATGATCTTGGGACATTTGGGCCTGGAACCTCGTGTCCGGACGATCGCAAAACACTTTTTAGGCTTTTTATCCCTCGGTATTTTTCCTTTGTTTGTGTACACCGTTTTGCGCTCGTTTATTGATGCACTCGGCAAAACGCGAGTCACAATGCTTATTACGCTTTGCTCATTGCCTATTAATTTTGTTTTAAATTATGTATTTATTTTCGGGAAATTCAACATGCCGGCATTGGGCGGAGTCGGTGCGGGGCTCGCTTCTGCCCTGACTTACTGGTGTATTTGCGCCATCAGCTTTTTTATCGTCTGCAGATTTGAGCCGTTTGCCGGGTACTCTGTATTTCGGAAACTGTACCGTTTTTCTCCGTCTGAATGCAGAAAACTTTTGAAAATCGGTTTACCTATCGGTTTTGCGGTATTTTTTGAAACGAGCATTTTTGCGGCTGTCACACTGCTTATGAGCCATTTTCAGACGGTGACGATTGCAGCCCACCAGGCGGCAATGAATTTTGCCTCCCTCTTGTATATGCTGCCGCTCAGCGTATCCATGGCCATGACCATTTTAGTCGGCTTTGAAGCAGGCGCAAATCGCTATAGAGATGCCCGCTCATACAGCTATATCGGGATCGTGATGGCGCTTAGTTTTTCTTTATGCACGGCGGCTTTCATTTTACTGTTCAGGCCGCAAATCGCCGGAATGTATACATCAGATCCGGCGGTGCTCATGTTGACGCAGCACTTTTTAATCTATGCGCTGTTTTTCCAGCTTTCTGATGCCGTAGCAGCTCCGATACAAGGCGCTCTGAGAGGATATAAGGATGTCAACTATACACTCGGCGCGGCTTTTGTTTCGTATTGGATTATCGGGCTTCCGCTCGGTTACGCAGTCGGCACTTATACGGGCCTCGGGGCATACGGCTACTGGATCGGGTTAATTGCAGGACTTGCCGCAGGAGCTGTCGGTTTATTCTTCAGACTGATGAAACTGCAAAAGCGTTATGTGAAAAAAATGATGATTTTATAA	MRETNTIGQKVRQLLHIFIPILITQAGLSLITFLDTVMSGKVSAADLAGVAIGSSLWTPVYTGLAGILMAVTPVVSQLFGAGRQKEVPFSVIQAVYVAAVLSAAVILIGFFTVDMILGHLGLEPRVRTIAKHFLGFLSLGIFPLFVYTVLRSFIDALGKTRVTMLITLCSLPINFVLNYVFIFGKFNMPALGGVGAGLASALTYWCICAISFFIVCRFEPFAGYSVFRKLYRFSPSECRKLLKIGLPIGFAVFFETSIFAAVTLLMSHFQTVTIAAHQAAMNFASLLYMLPLSVSMAMTILVGFEAGANRYRDARSYSYIGIVMALSFSLCTAAFILLFRPQIAGMYTSDPAVLMLTQHFLIYALFFQLSDAVAAPIQGALRGYKDVNYTLGAAFVSYWIIGLPLGYAVGTYTGLGAYGYWIGLIAGLAAGAVGLFFRLMKLQKRYVKKMMIL	PGPT0029115_8012	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
D1-12_01133	849	rsbRC	COG1366	RsbT co-antagonist protein RsbRC	ATGCCAAAACATAAACTGCTGTACGATTATTTAACTGAACGGGCGGAGGACATCAGTCAGACATGGTTTGATACGCTTCATGAAACGGATCCTGATTCTGTTTATGCTTCTACTGACCCGGCTGTACTCACAAATCTGAAAAAACAAAATCTGGCGTTTAATTATCAGCTCAATCGGATTTTTTCTGAAGAGAAGGAAGTATATACAGCGGCCTTGGAAAAGTGGGCGTTTAAAGCCGCACGGGATAAAGAACATTTAAAAACTCCCATCCATTATATTATTCGCGAGTTTATCAGAGTTCGTGATTTGTATGTCGGCCATGTCAAGCAGTTTACCAGACTTCATTCGGACACCGTGACAGAAGAAGATGCCGAAGATATATTCCATACGCTGATCAAATCGTTTGATGTGGTCATTCATATTTTCATAGAGGAAATGTATAAAAACACAAACATTCAGCTTGAAGCGCAAAAAGAATTGATCACCGAGCTGAGCTCGCCGGTAATTGTGCTTTTTGACAATGTCGGACTGCTGCCGCTGATCGGGGATATTGACACGGCAAGAGCCAAAATGATTTTGGAGAATACGCTGCACCAGTGTTCAGAGAAGCGCATCACGCAGCTGTACATTGATTTATCAGGTGTAGCCATGATTGATACGATGGTTGCCCAACAGCTTTTCACCTTAATTGAATCACTCGGAATGCTCGGCGTGAAAGCGACATTATCCGGAATCCGTCCTGAAATCGCCCAAACCGCGGTGCAGCTCGGACTGAGTTTTTCAAATTTATCAATACGGTCTTCGCTTGCGGAAGCGATCGCTTCCGATCTGACACAAAAAAAGGGATAA	MPKHKLLYDYLTERAEDISQTWFDTLHETDPDSVYASTDPAVLTNLKKQNLAFNYQLNRIFSEEKEVYTAALEKWAFKAARDKEHLKTPIHYIIREFIRVRDLYVGHVKQFTRLHSDTVTEEDAEDIFHTLIKSFDVVIHIFIEEMYKNTNIQLEAQKELITELSSPVIVLFDNVGLLPLIGDIDTARAKMILENTLHQCSEKRITQLYIDLSGVAMIDTMVAQQLFTLIESLGMLGVKATLSGIRPEIAQTAVQLGLSFSNLSIRSSLAEAIASDLTQKKG	PGPT0014945_855	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
D1-12_01134	666	bshB2	COG2120	putative N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 2	ATGAAAGAACATGTACTCGTCATCCTGCCTCACCCTGATGATGAATCATACGGAGTGGCAGGGCTGATTGCTTTACACAGACAAAAAGATATTCCCGTTACGTATGCATGCGCAACGCTTGGCGAAATGGGCCGAAACATGGGAGACCCTTTTTTCGCGAACCGTGAAACACTGCCGCTGTTAAGAAAGCAAGAGCTGATTGACGCATGCAAAGCAATGGACGTTACTGACCTGAGAATGCTCGGGCTTCGTGATAAAACACTTGAATTTGAAGAAGACGAGTGGCTCGCGGATATGATGGAAGAGATTATCGACGATGTAAAACCGAGTCTGATTGTCACATTCTATCCGGAACACGGCGTCCATCCGGATCATGATGCATGCGGCGAAGCGGTCATCAGAGCGCTTTACAGAAAGAAAAAAGAGGACCGCCCGCGCACGCTTTGCATGGCAATCACCCGCAACAGGGAGGAAGCCGTCGGCAAGCCTGATGTCATTCTTGATATTAAAGAGGTTGCCGATATTAAAATGAATGCCTTAAAAGCGCACCGCACCCAAACGGAAGGCATGCTGAGAGAGCTGGAAGAAAAAATAAAAAATAACGAGCCGGTTCTTCAGACATGGTTTGAAGAAGAAGTGTATTGGACATATCCGTGGAAAGACTGA	MKEHVLVILPHPDDESYGVAGLIALHRQKDIPVTYACATLGEMGRNMGDPFFANRETLPLLRKQELIDACKAMDVTDLRMLGLRDKTLEFEEDEWLADMMEEIIDDVKPSLIVTFYPEHGVHPDHDACGEAVIRALYRKKKEDRPRTLCMAITRNREEAVGKPDVILDIKEVADIKMNALKAHRTQTEGMLRELEEKIKNNEPVLQTWFEEEVYWTYPWKD	PGPT0019575_252	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
D1-12_01135	351	yojF		putative protein YojF	ATGAAAGCGATCATAAAAGAAGATGTGCAAACTTCTTTAGAGCGATATGCCGATCGTCCTGTATATATCCATTTGGAAACAACGACCGGTTCTTATTCAGCGCATCTGAATGAGAAAAACATGACGGTTGTAGCCTATATACGCAATGCAAAAGTGACGTACCATCAGGCGAAAATCAAAGGAAACGGCCCGTACCGCGTCGGTTTGAAAACAGAAGAGGGCTGGATTTACGCAGAAGGTCTGACTGAGTATACAGTAGATGACGAAGACCGTCTGTTAATGGCAGGGCATCTGCCGGGCGGAAAATTGGCGATTTCGCTTCAAATCAGCGAAAAGCCGTTTACAGTTTAA	MKAIIKEDVQTSLERYADRPVYIHLETTTGSYSAHLNEKNMTVVAYIRNAKVTYHQAKIKGNGPYRVGLKTEEGWIYAEGLTEYTVDDEDRLLMAGHLPGGKLAISLQISEKPFTV				NA	NA	NA	NA	NA
D1-12_01136	279			hypothetical protein	ATGGGCACTGATAAAGACATAGCAAAAGCCTATCAGACACTGTGGAATAACCGCACTCTCCCGGCTTCAACTCTTGAAGAAGCGGAGAAGGCAATTGATCTTGAACTGCTTGATCAAAGAACACATCCGAGGCTCCGGAAGTCACCCGAGGAAAAGTTTGCTCTGGCGGTGCAGCGAATTGTAGATTCCCGGCTGCGGCCGATTGAGAAATATGAATTGGTTGAACTACATACGAAGCGTTTGCAATTTTTAAAAGAAGAAAGAGGGGAGCAGCTATGA	MGTDKDIAKAYQTLWNNRTLPASTLEEAEKAIDLELLDQRTHPRLRKSPEEKFALAVQRIVDSRLRPIEKYELVELHTKRLQFLKEERGEQL				NA	NA	NA	NA	NA
D1-12_01137	897	rarD	COG2962	Protein RarD	GTGCAAGGGAATAACGCAAGAAAAGGAATCATTTATACCGCTTGTTCTTTCGCCATGTGGGGGCTGTTTCCGGTCTATTGGAAACTTCTTGAACAAATACCCGCATTGGACATTTTAGCTCACCGGATTTTATGGTCATTTGTTTTCATGTGTGTGCTTTTAACTGTGCTTAAGAAGTGGAAAACCGGATGGCGTGAACTGCGTCTTTTGAAATCGGAAGGGGGCCTGCTGGCGCTTTTTTTCGCTTCCGTTTTAATTTCCGTTAATTGGTTTGTGTACATATGGGCCGTCAATCACGGCTTTTTGCTTGAAGCAAGTCTCGGGTACTACATTAATCCGCTCGTTTCCGTTCTTTTGGGCATCCTATTCTTAAAAGAAAAGCTTAACAAGATGCAAACAGCAGCCGTTTCTATTGCCGGGGCGGCCGTGATCATATCTGCGTTTCAATATGGCGCGGTTCCTTATATCGCATTGCTGCTTGCATTCAGCTTCGGCCTGTACGGCTTATGTAAAAAAAGAACCCGCATGTCCAGCACGATCGGACTGACGCTGGAGACGCTTTTGATTACCCCGGCTGCACTTATTTATTTAGGATATACAGCTGACGGGAGCACTTCCGGGTCCTTGGGGGCAGGAACATGGGCGCTCCTATTTTTCGCAGGCGTATTTACGGCCCTGCCGCTGTTACTGTTTGCAGAGGGGGCAAAGCGTCTGCTGCTGTATCAAGTCGGCATTTTGCAATATATAGCGCCGACCATTACCCTTATGCTCGGCGTATTTGTGTATCATGAACCATTTTCCGGGCAAAAAGCGTTTACCTTCATTTGTATATGGGCAGCATTGCTTTTGTTTACCTTTTCACAGATCAAATGGAAGCGGCCGATAAAAAGCCGCTAA	MQGNNARKGIIYTACSFAMWGLFPVYWKLLEQIPALDILAHRILWSFVFMCVLLTVLKKWKTGWRELRLLKSEGGLLALFFASVLISVNWFVYIWAVNHGFLLEASLGYYINPLVSVLLGILFLKEKLNKMQTAAVSIAGAAVIISAFQYGAVPYIALLLAFSFGLYGLCKKRTRMSSTIGLTLETLLITPAALIYLGYTADGSTSGSLGAGTWALLFFAGVFTALPLLLFAEGAKRLLLYQVGILQYIAPTITLMLGVFVYHEPFSGQKAFTFICIWAALLLFTFSQIKWKRPIKSR	PGPT0003906_1904	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
D1-12_01138	465	gerT		Spore germination protein GerT	GTGTTTGATTGGAACAGATATTTTCCCTTCCAAAATCAGTTCTCTAAAGAAACGTTTAAAAATGCTGATCCGAAAGATGTCGAGACATATGTCAACCGAGTGATGGAAAGCGTATTCGGCGCCGGTTATGCCGGACAGTTCCCTTTTCGCGACCCAATGTCCAAAAAGGCCGATCCGGTCGAAGCGGAACCGCCCAAGCCGGAAATTGACCTTTTTGAAACATCCGATCATGTTTTTGCGAAAATTCCCGCAGAACAAGAGGAACTCGACCGTATCAGGATTAAGCACACGTCACACAGCCTCGTTGTAGAGAACAGCAGTCTGGGAGAAGGAAAAAAAGAAATCGTACTTCCGAGCCTCGTCAAACGGAAAGGAACAAAAGCAGTCTATAAAGACGGGATGATTGAAGTTATGTTTTCAAAACAGGAAGACTACAATCTATCGGAAGTGGAGATTTTAAGATAA	MFDWNRYFPFQNQFSKETFKNADPKDVETYVNRVMESVFGAGYAGQFPFRDPMSKKADPVEAEPPKPEIDLFETSDHVFAKIPAEQEELDRIRIKHTSHSLVVENSSLGEGKKEIVLPSLVKRKGTKAVYKDGMIEVMFSKQEDYNLSEVEILR	PGPT0014635_3856	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-12_01139	240			hypothetical protein	ATGTACCCTCGTCATGCATTGTATCGCGGGAATTTCGGTCCTGCCGGATTTCCGGCGAGAAGTCCTTTTTTGTTCGGCGCTCCTTTATTCGGCGGATTTTTAGGCGGTCTTCTCGGAGGCGTAATTGCCACAGGTTTTACAAGACCCCGCTATCCGTACGGGTTCGCCGGTTACGGATACGGAGGCGTCCCATACGGCGGTTTCGGTCCGGGAGCCGGCGGTTATCCGCCATTTTATTAA	MYPRHALYRGNFGPAGFPARSPFLFGAPLFGGFLGGLLGGVIATGFTRPRYPYGFAGYGYGGVPYGGFGPGAGGYPPFY				NA	NA	NA	NA	NA
D1-12_01140	390			hypothetical protein	ATGCCATTACTTCGTTTTGACGTTATTGAAGGCCGGGATGACGCAGCATTAAAAAAATTACTGGATACCGCCCATTACGCCATGGTTAAAGCTTTTGACGTCCCTGTAACGGACCGTTATCAGATCGTTCACCAGCATCGGCCTCATGAGCTTATCATTGAAGATACCGGGCTCGGTTTCAAAAGAAGCAAAGATCTTGTCATCATCAGCATTGTCAGCAAAGCGCGCACCGAACATCAAAAAGAAACGTTATATCAACTGATGGCTGATCAGCTTAAAACAGAATGCGGCATATCACCCGAAGACGTCATGATTTCCATTACAGAAAACGGGAACGCCGATTGGAGCTTCGGGCTTGGTGAGGCTCAGTTTTTAACCGGGAAACTGTAA	MPLLRFDVIEGRDDAALKKLLDTAHYAMVKAFDVPVTDRYQIVHQHRPHELIIEDTGLGFKRSKDLVIISIVSKARTEHQKETLYQLMADQLKTECGISPEDVMISITENGNADWSFGLGEAQFLTGKL				NA	NA	NA	NA	NA
D1-12_01141	321			hypothetical protein	ATGTTGGTTAGTGAGTTGTACCCTTGTTTGATATGCGGATTTAAAGGATTAGAAACAAGTCCCGTTTATAACGGCGAATATCAAAAAACATTTGATATTTGCCCCTGCTGCGGGTTTGAATTCGGCTACAGCGAGGACCATGACGTAAGCTTAGGGTTTATTGTAACGCCTGATCATTTAATTGAAGCGGCATTTCAGTTATACCGGAAACAGTGGATTGAGGGAGGAATGAAACTATTTTCTCCAAATGATGTTCCGGCGGAATGTAAAAATGATCATTTCCTTACATTCGATGCTTTATTAAAGCAATTAAAAGGCTGA	MLVSELYPCLICGFKGLETSPVYNGEYQKTFDICPCCGFEFGYSEDHDVSLGFIVTPDHLIEAAFQLYRKQWIEGGMKLFSPNDVPAECKNDHFLTFDALLKQLKG				NA	NA	NA	NA	NA
D1-12_01142	330	yodB_1	COG1733	HTH-type transcriptional regulator YodB	ATGTGTCCTAAAATGGAATCCGCTTTTTCTCTTTTGGGAAAGCGCTGGAACGGCCTCATTATCCATGTACTGATGGACGGGCCGAAACGATTTAAAGATATGACCGAAACGATACCGACAATCAGCCAAAAAATGCTCGCGGAGCGGCTCAAAGAGCTGGAACAAAATGAAATCGTCGAGCGTCAGGTGCTGCCTGAAACACCTGTCAAAGTCATTTATAAACTGACTGATAAAGGCATGGCCCTGCAAGCCGTTTTTCAGGAAATGCAAAAATGGGCAGACAGTTTTTGCGAGCCCGGGGGATCTGCCAACGACACATGTGATGAATAA	MCPKMESAFSLLGKRWNGLIIHVLMDGPKRFKDMTETIPTISQKMLAERLKELEQNEIVERQVLPETPVKVIYKLTDKGMALQAVFQEMQKWADSFCEPGGSANDTCDE	PGPT0028512_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028512-yodB-NA	NA	NA
D1-12_01143	609	yodC_1	COG0778	Putative NAD(P)H nitroreductase YodC	ATGACATCCGTATTAGACGTTTTAAAGGAACGCGCATCTGTTAAAGAATACGATAAAGACGCGGTCATTACAAAAGAGGAATTAACAGAACTCCTTGAAATCACAACGCAAGCGCCTTCCGCCTGGAACCTTCAGCATTGGCATTTTCAAGTCTTTCACAGTGATGAAGCAAAAGCTGCCCTGCTTCCGGTTGCTTTTAATCAAAAACAGATTATTGATTCATCAGCAGTTATTGCCGTATTAGGCGATTTAAAAGCAAATGAAAATGGTGAAGACGTTTATGCTGAACTGGCTGAGCAAGGCAATATCACAGAAGAGATTAAACAAACGCTTTTAGGCCAGATTAACGGCGCATACCAAAATGATCAGTTTGCCCGTGATTCAGCATTTTTAAACGCTTCTTTAGCAGCGATGCAGCTGATGCTTGCCGCTAAAGCAAAAGGCTACGACACTTGCGCGATCGGCGGATTCAATAAAGAGCAATTCGTTAAGGAATTCGACGTGAGCGAGCGTTTCGTGCCCGTCATGCTGATTTCAATCGGCAAAGCCGTTAAGCCGGCGCATAAAAGCAACCGGCTGCCTGTATCTAAAGTGTCAACTTGGCTGTAA	MTSVLDVLKERASVKEYDKDAVITKEELTELLEITTQAPSAWNLQHWHFQVFHSDEAKAALLPVAFNQKQIIDSSAVIAVLGDLKANENGEDVYAELAEQGNITEEIKQTLLGQINGAYQNDQFARDSAFLNASLAAMQLMLAAKAKGYDTCAIGGFNKEQFVKEFDVSERFVPVMLISIGKAVKPAHKSNRLPVSKVSTWL	PGPT0028511_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
D1-12_01144	603	mhqD	COG0400	Putative hydrolase MhqD	ATGAAACATGTGTTTGAACAGGGAACGTCAGAGAATGTTCTGCTGCTTTTGCACGGAACGGGGGGAAATGAACATGATCTTCTGTCGCTCGGACGTTTTATCGATCCGAAAGCAAGTTTGCTCGGGGTCAGAGGATCAGTGTCGGAAAACGGCATGCCCCGTTTTTTTAAGCGGCTGAAAGAAGGCGTATTTGACGAGAAAGATTTAATTGAACGGACGGAAGAATTAAAGAATTTTATTGATGAAGCGGCGCAAATGTACGGATTCAGCAGAGAAAACGTGATTGCTGCCGGCTATTCAAACGGCGCCAATATTGCAGCAAGTCTTTTGTTTCATTATAAAGATGTACTGAAAGGAGCGGTTCTGCATCATCCGATGGTGCCGATACGCGGAGTGAAGCTGCCTGATATGGAAGGGCTGCCTGTGTTTATCGGTGCGGGAAAACGCGATCCCCTATGTACAAAAGAAGAATCGGAGGAGCTTTATCAGTATCTGACAGATGCTCATGCATCCGTTTCTCTTGTTTGGCAGGAGGGCGGTCATCAGCTCACACAGCAGGAAGCAGAGCAGGCGAGAACCTGGTACAGTGAGCGATTCCTATAA	MKHVFEQGTSENVLLLLHGTGGNEHDLLSLGRFIDPKASLLGVRGSVSENGMPRFFKRLKEGVFDEKDLIERTEELKNFIDEAAQMYGFSRENVIAAGYSNGANIAASLLFHYKDVLKGAVLHHPMVPIRGVKLPDMEGLPVFIGAGKRDPLCTKEESEELYQYLTDAHASVSLVWQEGGHQLTQQEAEQARTWYSERFL	PGPT0028515_3442	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
D1-12_01145	924	mhqE	COG0346	Putative ring-cleaving dioxygenase MhqE	TTGAATACACAAGGATTGCACCATGTTACCGCATTTGCAAAAGATCCTGCTGAAAATCTTCGGTTTTATACTGAAGTGCTGGGTTTGCGGCTCGTTAAAAAAACCGTTAATTTTGACGACCCGGCCACTTACCACTTTTATTTCGGCAACCAAAACGGAGAGCCAGGCACGATCATTACATTTTTTCCTTTTCAGGGAAGCCGCCCGGGAACCGTGGGAAAAGGGCAGACCGGAAGAATTTATTTCTCCGTGCCGAAAGGAGCACTCGCATTTTGGAAGCGCCGGCTTGAAGAAAACGGCTTGAATGTAAAAGAACAGATCATGCTGTCTGAACAAGTGCTTCTCTTTAATGATACAGAAGACCTGCCGCTTGCCATAATGGAAGATGAAAGAAGCGGACAGAGTGAATGGACGCCTTCGGGCATTACTGAAAAAGAAGCGATCACAGGCATGAGAGGTGTTCTTTTGTACTCGTACCGTCCTGAAGCAACCATTCAATTTCTCATAGAACGCTTCGGTTATTCAAAGACAGGAGAAGAAAATCAGATTGTCAGGCTGCAATCGGAGGCCCGGATCGGACATATTATAGATGTTGATCTCGCGCCGAAAGAAGCAGGTATCGGCGGTTACGGGACAGTCCATCATGTCGCTTTCCGCACTACCGAAAAAGAGCAGGCGGAGTGGAAGGACATTCTTGCTGCTTCTCATCTTGCTTCATCTGACATTCTTGACAGGTCTTACTTTACTTCAATCTATTTCAGAGAAAGCGGCGGCATTTTATTTGAAATGGCAACCGATGAACCGGGCTTTATGACGGATGAATCCTTTGAAAATCTCGGAACAGAGCTGAAGCTTCCGGAATGGCTGGAAGAGCATCGCAGCCAGATTACAGCTGTTCTGCCCAAAATGGAGAAAGGAGAATGA	MNTQGLHHVTAFAKDPAENLRFYTEVLGLRLVKKTVNFDDPATYHFYFGNQNGEPGTIITFFPFQGSRPGTVGKGQTGRIYFSVPKGALAFWKRRLEENGLNVKEQIMLSEQVLLFNDTEDLPLAIMEDERSGQSEWTPSGITEKEAITGMRGVLLYSYRPEATIQFLIERFGYSKTGEENQIVRLQSEARIGHIIDVDLAPKEAGIGGYGTVHHVAFRTTEKEQAEWKDILAASHLASSDILDRSYFTSIYFRESGGILFEMATDEPGFMTDESFENLGTELKLPEWLEEHRSQITAVLPKMEKGE	PGPT0028510_1556	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
D1-12_01146	201			hypothetical protein	ATGGTCAGAAAAGCACTAATTTTCGTTCTCATCTTAATCCCTTTCAGCCAGCTGGCCCTGCTGTCAGTCTCTAATCGGGTTCATCCGATCATTATCGGGCTGCCTTTTTTTCATTTCTGGCTGCTTTTATGGATCGCAGTCACTCCATTATGTTCGTTTCTTATTTATAGGCTGCAGAAGAAACAAGGAGGACTGGACTGA	MVRKALIFVLILIPFSQLALLSVSNRVHPIIIGLPFFHFWLLLWIAVTPLCSFLIYRLQKKQGGLD				NA	NA	NA	NA	NA
D1-12_01147	1491	yodF_2	COG0591	putative symporter YodF	ATGCCCGCAAATATAACAGCATTGATCATTACAGCCGTCATCGTTTTAACCGTTGTCTGCATCGGCTTTATAGCCGGGAGAGACAAATCATCACGCACTTCTGTTGAGGAATGGTCTGTCGGCGGCAGACGGTTCGGGGGGCTCCTCGTCTGGTTTTTAGTCGGCGCGGATCTTTATACGGCTTATACGTTTTTAGGCTTAACAAGCACAGCCTACACAGGGGGAAGCGTTGCTTTTTTTGCAATCCCGTATTCTGTTTTGGCGTATTTTATCGCTTATTTCTTTCTGCCGAAGCTGTGGAAAGTGGCAAAAATACACAAATTAACGACACTTGCCGATTATGCCCGTGAGCGTTTTGACAGTAAACTTTTGGCCAGTCTTGTCGCGATTGTCGGCGTTCTTATGCTCATTCCTTATATTTGTCTCCAGTTGAGCGGAATTCAAGATACGCTTCAGGTGGCCGGAACGGGTGTCATTAATGTCAATATGGTCGTCATCATCTCTTTTATTCTTGTAGCGCTGTATACTTTTTTCAGCGGAATTAAAGGGCCGACGTTTACGGCGATTATTAAAGACATTCTCGTGTGGGTGATTATGCTGTTTATGGTCGTCTCACTCCCGCTGATCCATTTTCACGGCTGGACGCCGATGATTCACACTTTGGCTGAAAAAGCGCCGCAAATGCTGACGATCCCGGACTCGGGGCCGAAAGGAATTCCTTGGTTTATCACAGCTTCCATCGTATCTGCGCTGGCGCTCTTTATGTGGGCGCATGCGGCAACCGGCGTATTTACGGCAAAAAGCGCAGATGCCGTCCGCAAAAACAGCATGTTTCTGCCGCTTTATAATATTGTTTTGATTCTTGTTATTTTTCTCGGCTTTATCGCGTTTCTTGTCCTGCCGGAAGATACCAATCCGCGGCTCGCTTTATTGAAGCTGATTCAAACGTCTTACGGCGGGGTCGCGCAGGGCTTTGCTTACTCCACGATTGCCCTTGCGTCATTGATTCCCTGCTCTATCATGGCCATCGGAGCATCAAACTTATTTGCGAATAACTTATATCGGGATTTGATTCACCCGAATGTGTCACCAAGCAAGCTGACGATGATCACCCGTTCAATGGTATTTGTCGTCATCGGGCTCGCGCTTTTATTCGGCATGCTGTTCCCGACTGCGCTCGTTACCCTTCAGCTTCTCGGTGTTTCCGGCATGGTTCAGATCTTTCCGGCTATCGCCGTCAGTCTGTTTTGGAAGAATCAAACGAAAGAAGCGACAATTATCGGTCTTCTCGTCGGTCTTATCGTGACATTCACGGTAAATATCACCCAATCCGCCCACGGTATATATGAAGGCTTTTGGGGTTTGACCGCTAACATGGCAGCCGTTATTATCCTTAACCCGTTTTTTGTAAAAAAAGCGGCTTCAAACGCCGTCAAAGACGGTTTATTCAATAAAGCGCCTTCTGATCAACTGAACCAAAAAGGCGCTTAA	MPANITALIITAVIVLTVVCIGFIAGRDKSSRTSVEEWSVGGRRFGGLLVWFLVGADLYTAYTFLGLTSTAYTGGSVAFFAIPYSVLAYFIAYFFLPKLWKVAKIHKLTTLADYARERFDSKLLASLVAIVGVLMLIPYICLQLSGIQDTLQVAGTGVINVNMVVIISFILVALYTFFSGIKGPTFTAIIKDILVWVIMLFMVVSLPLIHFHGWTPMIHTLAEKAPQMLTIPDSGPKGIPWFITASIVSALALFMWAHAATGVFTAKSADAVRKNSMFLPLYNIVLILVIFLGFIAFLVLPEDTNPRLALLKLIQTSYGGVAQGFAYSTIALASLIPCSIMAIGASNLFANNLYRDLIHPNVSPSKLTMITRSMVFVVIGLALLFGMLFPTALVTLQLLGVSGMVQIFPAIAVSLFWKNQTKEATIIGLLVGLIVTFTVNITQSAHGIYEGFWGLTANMAAVIILNPFFVKKAASNAVKDGLFNKAPSDQLNQKGA	PGPT0013955_3753	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
D1-12_01148	1476			hypothetical protein	ATGTTTTTTAAAAAAGGTCTGCACATGACGCTGGTTTTTCTTATGTTTTTCTTTTTCATATCAAGCAGCATGACCGAAGTGTATGCGGCTGATCGGAAGGCTTCAGACAAAAACAAAGTAAGGGTGTGGTTCAGTTCTGAAAAAGATCCGGCTTCCCGTACGTGGTATGACGGGCCGCAGGAAGTGAAATACGCCTTAGACGAACAAACACCGCTTACATTGACAAAAAAGAAGGCTTCTGACACCGCCGCCGTGTATATTGATCCGTCGCGCCGCTATCAAAGTGTGTTAGGCGTAGGATCGTCCCTGGAAGAATCCACAATCCATAATTTATCAAAAATGACACCCGCAAAAAGAAAAGAAGTGCTGAAAAAACTGGTTGATCCCAAAGATGGTATCGGCATGGACGTTATGCGCATAACAATCGGGACATCTGATTTTACGGCACAGGAATTTTATACGTATGATGATATGCCTGAAGGCCAAACAGATCCTAAGCTCCGTCATTTCTCGATCCAAAAGGATATTGATTTACACATTACAGCAACCATCAAGGAAGCGCTGGCGATAAATCCGGAACTGAAAATCATTGCTTCACCGTGGAGCCCGCCGGCTTGGATGAAAACGAATGAAAACCTTAAGCGGGGAAAGCTGAAAGATAAATATATCGGCGAACTGGCCGTTTACTTCCGCAAATTTATTGAGGCGTACGAAAAGCAAGGAATTCCGATTTATGCCATGACCCTTCAAAATGAACCTTTGCTGGAAATCGACTATCCGAGCATGTATATGTCGCCGTCTCAGCAGCGCAAACTGGCACTGGCCTTAAAAAAAGAAATGAAAAAACACGTAATTGACACGAAAATTTGGATTTATGATCACAATGCGAGCGGGGCGTGGAACTATATTCCGCCGATTTTAGATGATAAAAAAGGAAACCGGGCGGCAGACGGCATCGCTTTTCACGATTATGACGGTGACCTTTCCGTCATGTCGGAGATCGGAAAGAGATATCCTGATCAATCTATTCACTTAACGGAGCGGTCTGTCTGGGGGACGGCAGGGGCGGACCGGATCGCGCAGTATTTCCGCAACGGCGCGTCGAGCTACAATGCGTGGGTGACGATGCTCGACAGTCAAATCAAGACGCATCATTGGATAGGCACCCCAGACCCGACGCTGTTTATTCAGGATGCTAAAAACCCTGACCGCTATTGGAATATCCCGATCTTTCATATGACAGGCAACTTTTCAAAATTTATCGACCGGGGAGCAAAGCGGATAGAAAGTAATTACGGCTCCAAAAACACAGTCTCGAATGTATCGTTCCTTAATCCTGATCAATCCATTGTGACAGTCGTAATCAACCAGACATCCGCCGACCAAAAATTCCATGTCGTTTCAGAAAATCGGCAGTTTGAAGCCGTCATCCCGGCTAAAACCGTGGCTACCTACAAATGGAAGCAAAAAAAGTAA	MFFKKGLHMTLVFLMFFFFISSSMTEVYAADRKASDKNKVRVWFSSEKDPASRTWYDGPQEVKYALDEQTPLTLTKKKASDTAAVYIDPSRRYQSVLGVGSSLEESTIHNLSKMTPAKRKEVLKKLVDPKDGIGMDVMRITIGTSDFTAQEFYTYDDMPEGQTDPKLRHFSIQKDIDLHITATIKEALAINPELKIIASPWSPPAWMKTNENLKRGKLKDKYIGELAVYFRKFIEAYEKQGIPIYAMTLQNEPLLEIDYPSMYMSPSQQRKLALALKKEMKKHVIDTKIWIYDHNASGAWNYIPPILDDKKGNRAADGIAFHDYDGDLSVMSEIGKRYPDQSIHLTERSVWGTAGADRIAQYFRNGASSYNAWVTMLDSQIKTHHWIGTPDPTLFIQDAKNPDRYWNIPIFHMTGNFSKFIDRGAKRIESNYGSKNTVSNVSFLNPDQSIVTVVINQTSADQKFHVVSENRQFEAVIPAKTVATYKWKQKK	PGPT0018770_708	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCCOSYLCERAMIDASE,PGPT0018770-srfJ|xynC-K01201	NA	NA
D1-12_01149	984	bglA_1	COG2723	Aryl-phospho-beta-D-glucosidase BglA	GTGAAATTCGCTGAAGTGTGTTTTGAACGCTATAAACATAAGGTGAAGTATTGGATGACGTTTAACGAAATCAATAATAAGATGGATGTGAATAATCCGATCTTTTTATGGACGAACTCAGGCGTCGCCGTCAAAGAAAACGAAAACGCAAAAGAAGTCATGTATCAGGCCGGCCATCACGAACTGCTGGCAAGCGCATTGGCTGTTTCGAAGGGAAGAGAAATCAATCCCGAGTTCAGGATCGGCGCGATGGTATCACATGTTCCGATTTACCCGTACTCATCTCACCCCGATGATGTGATGCTGGCTGAAGAAACGATGAGACAGCGTTTTTTCTTCCCGGACGTGCAGGTTCGCGGATATTATCCAAGCTATGCGTTAAAAGAATTTGAAAGAGAAGGCTATCAGATACACTTTGAAGACGGTGATGAAGAGATTTTGAAAAACGGCCGGGTGGACTATCTCGGATTCAGCTATTACATGTCTACAACCGTAAAAAGTGATGTATCAAACGATAATACCGGGGATGTCGTAAACGGAGGATTGCCAAACGGCGTGGACAATCCTTATATTACAGCGAGTGATTGGGGCTGGGCGATTGACCCGACCGGTTTACGGTACACATTAAACCGCTTATACGACCGCTACCAGATTCCATTATTTATCGTGGAAAACGGATTCGGCGCCATCGACACATTAGAAGAGGACGGTTCAATTCATGACGCAGCAAGAATTGAATATTTATCGTCACATATAAAAGCTTTGAAAAAAGCAATCACATATGATGGTGTGGATGTAATGGGCTATACACCATGGGGAATTATTGATATCGTGTCATTTACAACCGGAGAAATGAAAAAACGCTACGGCATGATTTATGTTGATCGGGATAATGAAGGCAACGGTTCAATGAGGCGGCTTAAGAAAGACTCATTTGAATGGTATAAAAAAGTGATTGAAACAAACGGCTCATATGTATCCTAA	MKFAEVCFERYKHKVKYWMTFNEINNKMDVNNPIFLWTNSGVAVKENENAKEVMYQAGHHELLASALAVSKGREINPEFRIGAMVSHVPIYPYSSHPDDVMLAEETMRQRFFFPDVQVRGYYPSYALKEFEREGYQIHFEDGDEEILKNGRVDYLGFSYYMSTTVKSDVSNDNTGDVVNGGLPNGVDNPYITASDWGWAIDPTGLRYTLNRLYDRYQIPLFIVENGFGAIDTLEEDGSIHDAARIEYLSSHIKALKKAITYDGVDVMGYTPWGIIDIVSFTTGEMKKRYGMIYVDRDNEGNGSMRRLKKDSFEWYKKVIETNGSYVS	PGPT0019255_1034	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
D1-12_01150	462	bglA_2	COG2723	Aryl-phospho-beta-D-glucosidase BglA	ATGGGGACATTTCCAAAAGATTTTTTATGGGGAGGCGCTCTCGCCGCCCACCAATTTGAAGGGGGATGGAATAAAGGCGGCAAGGGGCCGAGTGTAGTGGACGTCATGACGGCAGGCGCGCATGGTGTGCCCCGGAAAATAACAGATACAATTGAAGAGCGGGAATTTTATCCGAATCATGAAGCGATCGATTTTTATCATCGTTATAAAGAGGACATCGCATTATTCAGCGAGCTGGGTCTGAAATGTTTAAGAACGTCCATCGGCTGGAGCAGAATTTTTCCTAAAGGTGATGAAGCGGAGCCCAATGAGGAAGGATTGGCTTTTTACGACCGGGTGTTTGATGAATTGCTGAAACATGGGATTGAACCGGTAATCACGCTGTCACATTTTGAGATGCCGCTGCATTTGGCGAGGGAATACGGCGGTTTCAGAAAAGAAAAACAGTCGGATTTTTTGTGA	MGTFPKDFLWGGALAAHQFEGGWNKGGKGPSVVDVMTAGAHGVPRKITDTIEEREFYPNHEAIDFYHRYKEDIALFSELGLKCLRTSIGWSRIFPKGDEAEPNEEGLAFYDRVFDELLKHGIEPVITLSHFEMPLHLAREYGGFRKEKQSDFL	PGPT0019255_1034	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
D1-12_01151	726	yydK	COG2188	putative HTH-type transcriptional regulator YydK	ATGTTAAAATACCAGCAAATCGCGATAGATATTGAAAAATACATAGAAGAACATCAGCTGCAGCAAGGGGATAAACTGCCTGTGCTGCAAACCTTAATGACCCGGTTTAACGTGAGCAAAAGCACGATCACCAAGTCCTTGGATTTATTAGAAAAAAAGGGGATTGTGTTTCAAGTGAGGGGAAGCGGCATTTTTGTCAGACGGAATAAAAGAAAAGGGTATATCAGTCTGCTTTCTAATCAGGGATTTAAAGAATCACTTGAAGATTTTAATGTCACTTCCAAATTATTAGCGCTGGAAGTGAGAAAACCCACGCCTGAGGCTGCCCAAAATCTGAATATGCCGCCTGACGGCGACGTGTATTATGTTAAGCGAATCAGATATATTGACGGGCTGACATTGTGTATCGAAGAGTCATTTTACAACAAATCGATTATTACGTATTTGAATAAAGAGATCGTGGCAGAATCAATATTTGATTATATTAGAGAAGGTCTCGGGTTAAAGCGCGGTTTTTCAGATTTATATCTGTACGCGGGGATGTTAAATGAGGAAGAAGCGGAGTACTTAGGTCTGTTTACAGGAGCGCCTAAGCTTTGCGTTGAAACGATTTTTCATTTAACCAACGGCCAGCCGTTTGACTACTCAAAAGTCACCTATCACTATGAGCAATCACAGTTTTTCATTCAGGCGAACAGCCACCTTTTTGAACAGGAAACGACATAA	MLKYQQIAIDIEKYIEEHQLQQGDKLPVLQTLMTRFNVSKSTITKSLDLLEKKGIVFQVRGSGIFVRRNKRKGYISLLSNQGFKESLEDFNVTSKLLALEVRKPTPEAAQNLNMPPDGDVYYVKRIRYIDGLTLCIEESFYNKSIITYLNKEIVAESIFDYIREGLGLKRGFSDLYLYAGMLNEEEAEYLGLFTGAPKLCVETIFHLTNGQPFDYSKVTYHYEQSQFFIQANSHLFEQETT				NA	NA	NA	NA	NA
D1-12_01152	1404	ctpA	COG0793	Carboxy-terminal processing protease CtpA	TTGAAGCGGCAATTTAAACTGTTTTTTATTATATTGATCACCGCGGTCGCAGCCTCGGCGCTTACGCTGTTTATCACGGGCAATACGACCATCTTCGGACAAGGCTCGGCTGCTTTGACGAACAGCAAATTTGAGAAATTCAATAAAGCCTACGAGCAGATTAAAAGTGATTACTATCAAAAAACAGATGACAGCAAATTAGTAGACGGAGCGATAAAAGGCATGATCAGTTCCCTGGATGATCCATATTCTTCTTATATGGACCCGCAGGAAGGAAAGTCTTTTGAAGAAACAATTTCCGCTTCGTTTGAAGGCATCGGCGCACAAGTGGAAGAAAAGGACGGCAGCATCCTGATCGTATCGCCGATTAAAGGGTCACCCGCGGAAAAAGCGGGGGTTAAACCGAATGACCAGATCTTGAAGGTCAACGGCAAAAGCGTTAAAGGCCTTAATGTAAACGAAGCCGTCGCATTAATCCGCGGCAAAAAGGGAACAAACGTCAAGCTCGTGCTGCACAGAGCGGGTGTCGGCGATCTGAACCTGTCGATCAAACGTGACACCATCCCAGTTGAAACGGTGTACTCTGAAATGAAAAAAGGAGACATCGGCGAAATCCAAATCACATCCTTCTCCGAATCGACGGCAAAAGAGCTGAATTCAGCCATTGACAGCCTTGAAAAACAAGGAGCGAAAGGATACATTCTCGATTTAAGGGGCAACCCGGGCGGCCTGATGGATGAAGCCATCAAAATGAGCAACATGTTTATCGATAAAGGGAAAAATATCATGCAGGTCGAATACAAAGACGGCACGAAAGAGGTCATGAAAGCGACGAAAGAGCGCAAAGTGACAAAACCGACAGTCGTCCTCGTCAATGACGGCACCGCGAGCGCCGCGGAAATCATGTCGGCTGCGCTGCATGAATCATCGGGCATTCCGCTGATCGGCGAGAAAACGTTCGGAAAAGGAACCGTGCAGACGGCAAAAGATTACAGCGACGGTTCTACCGTTAAACTGACAATCGCTAAATGGCTGACAGCGGACGGAGAGTGGATTCATAAAAAAGGCATCAAACCGCAATATCAGGTTAAGCTTCCTGAATATGCGAACCTGCCGTATTTAGATGCGAAAAAAACATACAAATACGGGGATTCCGGAACCACCGTCACCAATGCGCAAAAAATGCTGAAAGCGCTGGGGTACAGCGTGAAAGTAAACGGCACGTATGATAAAGCATTTGAACAAGCCGTTAAACAATTCCAAGCAAAAGAGAAACTGAAACAAACAGGCATTGTAACGGGAGACACAACGGCAAAATTGATGACGGATCTGCAAAAACAGCTTGCGGACAACGATACACAAATGAAAAAAGCCGTTGAAACATTAAATAAGAATATGAAATAG	MKRQFKLFFIILITAVAASALTLFITGNTTIFGQGSAALTNSKFEKFNKAYEQIKSDYYQKTDDSKLVDGAIKGMISSLDDPYSSYMDPQEGKSFEETISASFEGIGAQVEEKDGSILIVSPIKGSPAEKAGVKPNDQILKVNGKSVKGLNVNEAVALIRGKKGTNVKLVLHRAGVGDLNLSIKRDTIPVETVYSEMKKGDIGEIQITSFSESTAKELNSAIDSLEKQGAKGYILDLRGNPGGLMDEAIKMSNMFIDKGKNIMQVEYKDGTKEVMKATKERKVTKPTVVLVNDGTASAAEIMSAALHESSGIPLIGEKTFGKGTVQTAKDYSDGSTVKLTIAKWLTADGEWIHKKGIKPQYQVKLPEYANLPYLDAKKTYKYGDSGTTVTNAQKMLKALGYSVKVNGTYDKAFEQAVKQFQAKEKLKQTGIVTGDTTAKLMTDLQKQLADNDTQMKKAVETLNKNMK	PGPT0015095_4429	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
D1-12_01153	702	COQ5_1		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	TTGAGCAAATATTTAGATATGCTGTCCTTATTCGGAGTCGGAGGGGCTCACCCCGGCGGACTCGCTTTTTCCAAAACCGTTCTCACAAAAGCGGCTCCTCCTCCTGGCGAACCGATTCTTGACGCCGGCTGCGGAACGGGACAGACGGCCGCTTATCTCGGCCACCTGCTGTATCCCGTCACCTGTGTTGATAAGGACCCCCTTATGCTTGAAAAAGCAGCAAAACGATTTGCCGCTGAAGGCTTAACCATTCCGGGCTATTTGGCGGAGCTTGAGCGGCTTCCGTTTGCTGAAAATCAATTTTCCGCCGTTCTTTCCGAATCAGTTCTCACCTTTTCAAATCTTGATTCATCGCTGTCTGAAATCCTGCGGGTCCTTAAACCCGGGGGTATGCTGATCGGCATTGAAGCTGCTTTACAAAAGCCCATGCCGGAAAACGCCATCACGCAGATAAAAGACTTCTACGGTTTTACCGTATTGCAGGATGAAACGGCATGGAAACAGAGATTGCTTCAGCAAGGCTTTCAGAAAGCGGATTTCATTCCCGCTGTCTATGAAAACAATGCGCAGGAGCCGACTACAGAAATGGATTTATCGCCCGTTATTCAGCCGGTTCACTACGATACGCTGACGGCTCATTACGAGCTTATGCAGACGTACCGTGAATATATGGGACACTGCGCTTTTGTCGCTTACAAGTAA	MSKYLDMLSLFGVGGAHPGGLAFSKTVLTKAAPPPGEPILDAGCGTGQTAAYLGHLLYPVTCVDKDPLMLEKAAKRFAAEGLTIPGYLAELERLPFAENQFSAVLSESVLTFSNLDSSLSEILRVLKPGGMLIGIEAALQKPMPENAITQIKDFYGFTVLQDETAWKQRLLQQGFQKADFIPAVYENNAQEPTTEMDLSPVIQPVHYDTLTAHYELMQTYREYMGHCAFVAYK				NA	NA	NA	NA	NA
D1-12_01154	261			hypothetical protein	ATGCAAAACTATTATCATCTTTGCCGGCAGCACCAGGGAAAAGTAGCAAGAATTACAGAACGAAACGGCAGAGTCCACGTCGGAAGAATCGTACGGGTGACTAATAGCAAAGTGTATATCGCCCCTGTCGGCGGCCGTCACAGAGGATACGGGTTCGGCTATTGGGGAGGCTGGGGAGGCTGGGGAGGCTGGGGAGCAGCCTACGGTATCGGCCTTGGTTTAATTACCGGATTTGCGCTTGGAGGTTTACTCTTCTGGTAA	MQNYYHLCRQHQGKVARITERNGRVHVGRIVRVTNSKVYIAPVGGRHRGYGFGYWGGWGGWGGWGAAYGIGLGLITGFALGGLLFW				NA	NA	NA	NA	NA
D1-12_01155	819	yodJ	COG1876	Putative carboxypeptidase YodJ	ATGAAGAAATCCACTAAATGGTTCTCGCTCGCTGCCGCTCTCAGCGTAACCGCAATCGTGGGAACCGGCTGCAGCATTTCAGGCGGCGACAGCCACAAGGACACAAAAACAGCAGCTGAAACAAAACAATCAGATGACACATCAAGCAAAAAAACAACGAAGACAGAAAACAGCGATTTTGTATTGGAGAGCAAATATTTTAATGACATTAAAGAAGTGAACGGGCTTGAGACCATTCAAAACCCGACAAATACACTTGCGCTCGTGAATAAGACATACACGCTGCCGGGAGATTATAAACCGAATGATCTCGTGATCCCGAAAGTCGAATTTTCTTTTACTGAGAAAATCGAGAAACGATATATCCGCAAACCTGCCGCCGATGCTTTGGCGGAACTATTCAGCGCCGGGAAAAAAGAAGGTTATGACCTGGTTGCCGTTTCAGGATACCGCTCTTATGACAGACAGAAAGTTATTTTCGATAATGAAGTCAGTCTGAAAGGTGAAAAAAAGGCCAAAGAAGCCGTCGCATATCCGGGGCAAAGCGAACACCAGACGGGGCTTGCCATGGACATTTCCAGCAAAAGCAACGGATATGAGCTGAATGAAGCGTTCGGAAACACGGCGGACGGCAAATGGGTGAAAGACCATGCGTATGAATACGGCTTTATCATCCGCTATCCTAAAGGCAAAGAAAATGTCACAAAGTATGAGTATGAACCATGGCATTTACGCTATGTAGGCAAAAAAGCGGCAAAAGCCATCCATGACCATCAATTAACGCTTGAAGAATATTTTAATGAAGTAAAGAAAGTGTAA	MKKSTKWFSLAAALSVTAIVGTGCSISGGDSHKDTKTAAETKQSDDTSSKKTTKTENSDFVLESKYFNDIKEVNGLETIQNPTNTLALVNKTYTLPGDYKPNDLVIPKVEFSFTEKIEKRYIRKPAADALAELFSAGKKEGYDLVAVSGYRSYDRQKVIFDNEVSLKGEKKAKEAVAYPGQSEHQTGLAMDISSKSNGYELNEAFGNTADGKWVKDHAYEYGFIIRYPKGKENVTKYEYEPWHLRYVGKKAAKAIHDHQLTLEEYFNEVKKV	PGPT0024055_715	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024055-vanY|yodJ-K07260	NA	NA
D1-12_01156	699	deoD	COG0813	Purine nucleoside phosphorylase DeoD-type	ATGAGTGTACATATAAACGCAGAAAAAGGCCAAATTGCGGATACAGTGCTTTTGCCGGGAGATCCGCTCCGAGCGAAATTTATTGCGGAAACTTATCTTGAAAATGTGGAATGCTATAATGAAGTCAGAGGAATGTACGGATTTACGGGTACATATAACGGCAAAAAAGTATCAGTCCAAGGCACAGGCATGGGTGTTCCGTCTATCTCTATTTATGTGAATGAACTGATTCAAAGCTATGATGTTCAAAACTTAATCAGAGTCGGCTCATGCGGAGCCATCCGTAATGACGTGAAGGTGCGTGACGTGATTTTGGCTATGACGTCTTCAACGGATTCACAGATGAACCGTGTCGCCTTCGGCAGTGTAGATTATGCTCCTTGCGCAGACTTCGAACTGCTTCATAAAGCGTACCAGGAAGCGCAAAAAAACAATCTTCCCGTAGCGGTCGGGAGCGTATTCACCGCCGATCAGTTTTACAATGAAGACTCCCAAATCGAAAAGCTTGCCAGATACGGCGTGCTCGGCGTAGAGATGGAAACGACTGCTTTATATACGCTTGCCGCTAAATACGGCAAAAAAGCGCTGTCTATCCTGACTGTAAGCGATCACGTATTAACGGGAGAAGAAACAACGGCAGAAGAGCGTCAAACGACTTTTCATGATATGATTAAACTGGCGCTGCATACTGTATCGTAA	MSVHINAEKGQIADTVLLPGDPLRAKFIAETYLENVECYNEVRGMYGFTGTYNGKKVSVQGTGMGVPSISIYVNELIQSYDVQNLIRVGSCGAIRNDVKVRDVILAMTSSTDSQMNRVAFGSVDYAPCADFELLHKAYQEAQKNNLPVAVGSVFTADQFYNEDSQIEKLARYGVLGVEMETTALYTLAAKYGKKALSILTVSDHVLTGEETTAEERQTTFHDMIKLALHTVS	PGPT0013385_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784	NA	NA
D1-12_01157	126			hypothetical protein	ATGGGCAAAAAACAGCGCAACCGGGTGACCGGCCAGAAAAAGAACAATCATGTGCCCGTTTCAGACGTCATTGCAGCTGATGAAGCGCATGGAAAAGAGCATTCCGCCGCTAAACGGAAGCCTTAA	MGKKQRNRVTGQKKNNHVPVSDVIAADEAHGKEHSAAKRKP				NA	NA	NA	NA	NA
D1-12_01158	321			hypothetical protein	ATGCTGTTATCGCTGCCCGTGTTTAAAAAAAAGACTTGCGCCTATGATGTGACGATTTTTCAAACACCCCGCTACGGCGAGAAAAAGGGATACAGGGTCGTCTATCGGACAGAGCTGGCCGCTGACAATCATCAAGACGCACTGGAAAGGGCATTTTCTGTTTTTAATGTGCCTGATACGGTCCCAAACGACTATCAAGCCAGATTCATAGCGACCGGAGATGTCATACTCATAGACGAAGGAAGAAAAGGAAAGACCTATTACAGGCTTAACCCTGCGGGATGGAGCAAAATTAACCGGCTGCTCGTCCAGCCGAGGTAA	MLLSLPVFKKKTCAYDVTIFQTPRYGEKKGYRVVYRTELAADNHQDALERAFSVFNVPDTVPNDYQARFIATGDVILIDEGRKGKTYYRLNPAGWSKINRLLVQPR				NA	NA	NA	NA	NA
D1-12_01159	612	pgpB	COG0671	Phosphatidylglycerophosphatase B	TTGTACAAGCCAGCAAGTCTTTTCGCATTGTTTATTCTGCTCGCAGCAGCGATCCGGATAGAAGCCGTCCGGGCTTTTGATGAGCGTGTGATAGAAGCGGCTGTCAGGATCAGGTCTGCCTGGCTGAATGAATTGATGTTATGGATAACGGAGCTCGGCACGACCGCGGTGCTTTTGCCGCTTCTTCTTTTGACAGGCGCGGCTCTGTATATGTACAAAAAAACGCCGGATGTTGTTTTTTTGCCGCTTCTCTTTCTCATTGAACGGATTGTAAACATAAAAATAAAAGAATTGATTGAAAGAGCCAGACCCGCTTTTGAACCGCTCGTCCATGAAACCTCATACAGTTTTCCGAGCGGCCACTCCATGAATTCGGCAGTGATGTATCCCGTCATCGCTTACTTTTTGATTAAGCATGTTCCGTTTTTTACGAAAAGAAAACGGGCCGTCACCGTCTTTACCGGAGTTCTCGTCATTCTGATCGGACTCAGCAGAATTTATTTAGGCGCGCATTTTCCGACGGATGTCCTTGCCGGATTCAGTCTCGGACTTTGCCTCGTTTCGCTTTTTGCGCTCTTTGACGAAAAGTATCATCCGTTTCGACAAAAATAG	MYKPASLFALFILLAAAIRIEAVRAFDERVIEAAVRIRSAWLNELMLWITELGTTAVLLPLLLLTGAALYMYKKTPDVVFLPLLFLIERIVNIKIKELIERARPAFEPLVHETSYSFPSGHSMNSAVMYPVIAYFLIKHVPFFTKRKRAVTVFTGVLVILIGLSRIYLGAHFPTDVLAGFSLGLCLVSLFALFDEKYHPFRQK				NA	NA	NA	NA	NA
D1-12_01160	174			hypothetical protein	ATGAAAGAAATAGATCTTGTGATTGACACAGAAGAAATAGCTGATTATTTTTACAGTCAGCTTGCTATGCGCGGGTACATACCGAGTGAAGAGGAAATCTTCGAAATAGCCGACATCACCTTTGATTATTTATTAGAAAAATGTATGATAGACGAAGAGCTTGATGAAGACTGA	MKEIDLVIDTEEIADYFYSQLAMRGYIPSEEEIFEIADITFDYLLEKCMIDEELDED				NA	NA	NA	NA	NA
D1-12_01161	144			hypothetical protein	ATGATGACGAAAATGATGGCTTTTTTGGACGGAGATGGATTTGATATCGTATTGGAAAAAGTGCTGAAAGGAATGTCGTTTGTAATCTTTGCCGGCTGTCTGCCCTGGTTTTTATATGTCACCGTCCGTTTTTTTGCCGGCTAG	MMTKMMAFLDGDGFDIVLEKVLKGMSFVIFAGCLPWFLYVTVRFFAG				NA	NA	NA	NA	NA
D1-12_01162	681			hypothetical protein	ATGAAGCCAGATAAACCGAAATTTCAAGTGGGAGACATCGTGGTCGTCGTGATGTACGGAACCGTCGGCACCATTACGAAGGTTCATCAAATTGATAAACATTATCTTTACGAAGTCAATCATAATGAAGTGCTTTATTTTGAATCGTCCATCCAGCTTTATAAAGATTATGAGGGCGTGATCGTCGATATGGAGAAATTGGATATTGAATATGAATTTCTGATCGGCGACGTCGTATATGTAAAGGACTACGGAAAAGAATTATTCCGTGTCATCGGCCACAGAACTGAAATATGGAGATATTTAGAGGATGGCTGGGAGGATATTATTTATGAGCTGACTCGGCTGAAAGACGGAGAGTGGCTTGAAACGGAGGAAGAGGATCTCACGCTGGTTCTGAGAAAATATGAAATGGATCAGTTTGTGCATCAGCTGCTGTTTGTCCACTATGTTGGGGAAGCATCTCATGAGATCGGCGAGGATACCGTCGCGTCTGCTCTTCTTCAGTTTGAAGGCGATGCTGATGATCCCGATACCCTGCATGTGCTGGCGGTATCGATTGTAGATGAGCTGCTTGATATTTATAACGATTATAAGATTCTTTATCATTTGTTCGGTGACGAAGAATATAAAGATATGATGAATTTTGTGCTGGAAAGCCTGCGGGAGCATTTCAGCTAG	MKPDKPKFQVGDIVVVVMYGTVGTITKVHQIDKHYLYEVNHNEVLYFESSIQLYKDYEGVIVDMEKLDIEYEFLIGDVVYVKDYGKELFRVIGHRTEIWRYLEDGWEDIIYELTRLKDGEWLETEEEDLTLVLRKYEMDQFVHQLLFVHYVGEASHEIGEDTVASALLQFEGDADDPDTLHVLAVSIVDELLDIYNDYKILYHLFGDEEYKDMMNFVLESLREHFS				NA	NA	NA	NA	NA
D1-12_01163	225			hypothetical protein	ATGAAATCCTTTTATCACTATTTGATGAAATACAGGCATCCCAAACCGCAGGACGCAATCAGCCGGTTTGCGAATCAGGCATACGAAGATCACGGCTTTCCGAAAACGTCAAGCGATTATCACGAGCTCAGTTCTTATTTAGAACTGAGCGCCGACTATTTAGAAACGATGGCGACATTTGATGAAGCTTGGGAAAAATATGAGACCGAGGTGCATCACGCCTGA	MKSFYHYLMKYRHPKPQDAISRFANQAYEDHGFPKTSSDYHELSSYLELSADYLETMATFDEAWEKYETEVHHA				NA	NA	NA	NA	NA
D1-12_01164	279			hypothetical protein	GTGAAGCCATGCGAGTGGTGCGGCAATCAGAAGGCGTCAGCTTGTCAGGCGGCTGTGTACTGGGAGCTTCCTGACGGTACGAGGGCCATAGAAATTACAGAAACACCTGCATTCGCCTGTTCCTCCTGCGGTATGACTTATCAGGAGGAAGCGGTCATAGCAGAAATCGAAAATCAGCTCTTTTTAGTCAATGCAAAAAAATTACCGGAAACACTCACATATCAAGAGCTGATGGAGACAGAACGGATCTTGAAACGGAATTATTTTGACTTCTCCTAG	MKPCEWCGNQKASACQAAVYWELPDGTRAIEITETPAFACSSCGMTYQEEAVIAEIENQLFLVNAKKLPETLTYQELMETERILKRNYFDFS				NA	NA	NA	NA	NA
D1-12_01165	1422	kamA	COG1509	L-lysine 2,3-aminomutase	TTGACAAACAAATGGTTTCAGCCAAAGCGTCATTGGAAGGAGATTGAATTGTGGAAAGATGTGCCGGAAGAAAAGTGGAATGATTGGCTGTGGCAGCTCACCCATACTGTAAGAACCGTCGATGACCTGAAAAAAGTCATTCATTTGACCGAAGAGGAAGAAGAAGGCGTCAGGATGTCTGTAAAAACCATTCCCCTGAACATTACGCCTTATTATGCTTCTTTAATGGATCCCGATAACCCGAGATGTCCGATCCGCATGCAGTCCGTGCCGCTGTCAGAAGAAATGCACAAAACGAAATATGACCTTGAAGATCCGCTGTTTGAAGATGAAGATTCACCGGTTCCCGGTCTTACGCACCGCTATCCCGACCGCGTTCTTTTTCTGGTGACAAATCAATGCTCGATGTATTGCCGATACTGCACAAGAAGGCGTTTTTCCGGACAGATCGGAATGGGGGTGCCGAAAAAACAGCTTGATGCGGCAATCGCTTACATCCGGGAAACGCCGGAAATCCGTGACTGCCTGATTTCCGGCGGAGACGGGCTTTTAATCAACGATCAGATTCTGGAATATATTTTGAAAAACCTGCGTGACATTCCCCACCTTGAAATTATCCGGATCGGAACGAGAGCGCCCGTCGTATTTCCGCAGCGGATAACGGATAACCTTTGTCAGATTTTGAAAAAATATCATCCGGTCTGGCTGAACACTCATTTTAATACGAGCATCGAACTGACGGAAGAATCGGTTGCGGCGTGTGAAAAGCTCGTTAACGCAGGTGTTCCGGTCGGTAACCAGGCCGTTATTTTAGCAGGCATTAACGATTCGGTGCCGATTATGAAAAAACTCATGCATGATTTAGTGAAAATCCGCGTGCGTCCGTATTATATTTACCAATGTGATTTGTCAGAGGGAATCGGCCATTTCAGAGCGCCTGTGTCGAAAGGGCTGGAAATCATTGAAGGACTGAGGGGCCACACAACGGGCTTTGCCGTGCCGACCTTTGTCGTCGACGCCCCGGGCGGAGGCGGTAAAATCGCCCTGCAGCCGAACTACTTGCTCTCCCAAAGTCCGGAGAAAGTTGTGATCAGAAACTTCGAAGGGGTGATTACATCTTATCCCGAGCCGGAAAACTATATCCCGAATCAAGCCGACGACTATTTTGAATCTGTTTTTCCGGGAACGATGGCCAAACAAGAGCCGGTCGGACTGAGCGCCATTTTCGCGGACAAAGAGGTTTCGTTCACACCGGAAAATGTATCGAGGATCGACAGGAGGAAAACGTTTACATCAAACCCTGATCATGAAACGCTGAAAGACCGCAGGGAAAAGAGAGATGAATTGAAAGAAAAGAAATTTATTGCACAGCAAAAGAAAGAGCAAAAAGCAGGATCGGAAGTCGGAGGTGAATCGCCGTGA	MTNKWFQPKRHWKEIELWKDVPEEKWNDWLWQLTHTVRTVDDLKKVIHLTEEEEEGVRMSVKTIPLNITPYYASLMDPDNPRCPIRMQSVPLSEEMHKTKYDLEDPLFEDEDSPVPGLTHRYPDRVLFLVTNQCSMYCRYCTRRRFSGQIGMGVPKKQLDAAIAYIRETPEIRDCLISGGDGLLINDQILEYILKNLRDIPHLEIIRIGTRAPVVFPQRITDNLCQILKKYHPVWLNTHFNTSIELTEESVAACEKLVNAGVPVGNQAVILAGINDSVPIMKKLMHDLVKIRVRPYYIYQCDLSEGIGHFRAPVSKGLEIIEGLRGHTTGFAVPTFVVDAPGGGGKIALQPNYLLSQSPEKVVIRNFEGVITSYPEPENYIPNQADDYFESVFPGTMAKQEPVGLSAIFADKEVSFTPENVSRIDRRKTFTSNPDHETLKDRREKRDELKEKKFIAQQKKEQKAGSEVGGESP	PGPT0014370_182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0014370-ablA-K01843	NA	NA
D1-12_01166	867	yodP		N-acetyltransferase YodP	GTGACGGAGCTGATAAAGGAACTGAGGGCTGAAAAGGGGGCGGCTGAGATTGATGCAGACCGTTTCAATGAGCGGCTCAGAGTCATTCGTTATGACGGGCAGATTACGGCGCTTATTCCGGCCGTTTTGGCAGAAGCAAAGCAAGAAGGAGCCCAAAAGGTAATTTTCTTTGCTAAGCGCGGCGATGAGCCGGAATTTGTCAAGCATCTTTTTATTGTTGAGGGTGTCATAGACGGGTATTACAACGGGCATGAGGCTGTTGTGATGGTGCGCTATTTATCAGAGGAACGGAGACGGTCAGATTCATATGTATCAGAAGATTCGACTGTTGACCGTTTATATGAGACACCGCAGCGGGGACTGACTCAGACTGAAAGCGCGCTGATGTTCAGAAAAGCGGACGAAGATGATGCAGACCGCTTATCGCACTTATATAAACATGTTTTTCTTACCTATCCGACTCCTGTCTTTAATCCCCTTTATATTAAAAAAACAATGAGAGAAAACACCATCTATTATGCCGCATTTGATCAGGATCGTCTCATTGGGGCGGCAAGCGCAGATATCAATCCGGTATTGGGGCACGCTGAAATGACCGATTGCGCGGTTCTGTCAGATTACAGGGGGAACTCCGTAACAGCACACTTGTTTAAAGCGTTGGAGCAGGAACTCGCTGGCCGGGGAATCATTCATCTTTTTTCCTTGGCCCGTGCAGCGTCTTACGGGATGAATGCCGTTTTGTACCATGCGGGATACGGCTACAGAGGCAGGCTTGTGAACAACTGCCGCATTTCAGAAGGGCTCGAAAATATGAATATATGGTGCAAGACTTTACGTTTGGCCATTCATAAGGAGGAATTCGTTTGA	MTELIKELRAEKGAAEIDADRFNERLRVIRYDGQITALIPAVLAEAKQEGAQKVIFFAKRGDEPEFVKHLFIVEGVIDGYYNGHEAVVMVRYLSEERRRSDSYVSEDSTVDRLYETPQRGLTQTESALMFRKADEDDADRLSHLYKHVFLTYPTPVFNPLYIKKTMRENTIYYAAFDQDRLIGAASADINPVLGHAEMTDCAVLSDYRGNSVTAHLFKALEQELAGRGIIHLFSLARAASYGMNAVLYHAGYGYRGRLVNNCRISEGLENMNIWCKTLRLAIHKEEFV				NA	NA	NA	NA	NA
D1-12_01167	1302	ylmB_2	COG0624	N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine deformylase	ATGGATCAATTAGAAAAGAAAGTCACTGAGTGGGCGGAAGAAAACACAGCAAAAGCGGTAAGCTTGCTGAAACGGCTGATCGGGGAAAAAAGCACGTTCGGCCATGAATTTAACGCACAGGCAGTCGTTTTAGAAAAACTGAGACAGTTTGACATGGATATTGATGTATGGGAGCCGAGTGTCAAACATTTGAAAGAGCATCCTTATTTTGTATCGGAACGCGAAAATTTCCATGAAAGCCCGAATATCACAGCCGTAAAAAAAGGGGCCGGGGGCGGAAGATCACTGATACTGAACGGACATATTGATGTTGTCCCGGAAGGAAATCCCGCCGCATGGACGTATGAACCGTTTACCGCTGTTGAAAAGGACGGCAAAGTTTACGGCCGCGGTTCAACGGATATGAAGGGCGGCAATACAGCCCTCTTGTTTGCGTTAGAAGCGCTTGAAGCCTGCGGGATTACGTTAAAAGGAGATGTTCTGTTTCAAAGTGTCGTAGATGAAGAGTGCGGCGGCGCGGGAACGCTGTCGGCTGTTATGAGGGGCTACAAGGCTGACGGGGCGCTTATTCCGGAACCGACTAATTTAAAGCTGTTTGTTAAGCAGCAAGGATCTATGTGGTTCCGCATTACGGTAAGAGGATTGTCCGCACACGGCGGCACCCGCTATGAAGGGGTGAGCGCCATTGAAAAAAGCCTGCATGTCATCACAGCCCTTAAAGAGCTTGAACACGTCCGCAACGCCCGTATCACAGACCCGCTTTATCGGGACGTTCCGATTCCGGTTCCCATTAATATCGGCACCGTCCAAGGGGGAACGTGGCCATCATCGGTAGCTGACCGTGTGGTGATAGAAGGCAGGTGCGGAATAGCGCCGAATGAAACGCCGGAAGCAGTAAAAGAAGAACTGGCAAGCTGGCTGAAAGATTTGGAGTACCGGGATGAATGGTTTAAACACCACCCCGCGGAAATAGAATGGTTTGGGGCTCAGTGGCTTCCGAATGATCTCCCGGATGAGCATCCGCTGATTTCCGCTCTGGAATCTTCTTTTGAGAAAATGAAAGGGGCAAAACCGGTTCGTGAAGCGTCCCCGTGGGGAACGGACGGAGGGCTTTTGCAGCACGCGGGACAGACGCCGGTCATCGTCTTCGGTCCGGGAGAAGTCAAGGCGGCGCATCAGGCGAATGAATACATTGAAATCCGGGCGTTAATCGATGCCGTCAAAATCATTTCTCTTTTTATGATGGAATGGTGCGGGGTGGCAGATGGGGGTGACGGAGCTGATAAAGGAACTGAGGGCTGA	MDQLEKKVTEWAEENTAKAVSLLKRLIGEKSTFGHEFNAQAVVLEKLRQFDMDIDVWEPSVKHLKEHPYFVSERENFHESPNITAVKKGAGGGRSLILNGHIDVVPEGNPAAWTYEPFTAVEKDGKVYGRGSTDMKGGNTALLFALEALEACGITLKGDVLFQSVVDEECGGAGTLSAVMRGYKADGALIPEPTNLKLFVKQQGSMWFRITVRGLSAHGGTRYEGVSAIEKSLHVITALKELEHVRNARITDPLYRDVPIPVPINIGTVQGGTWPSSVADRVVIEGRCGIAPNETPEAVKEELASWLKDLEYRDEWFKHHPAEIEWFGAQWLPNDLPDEHPLISALESSFEKMKGAKPVREASPWGTDGGLLQHAGQTPVIVFGPGEVKAAHQANEYIEIRALIDAVKIISLFMMEWCGVADGGDGADKGTEG	PGPT0014254_326	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
D1-12_01168	696	scoB_2	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGGCTTGGGAATAGCGGAAAGAGAGAGTATTGCGAGGCGGGCCGCCAGTGAAGTTACCTCAGGAATGATCGTCAACTTGGGGATCGGCATTCCTTCTTTAGTGCCGAATTTTCTGCCGGACGGCATGGAGGTAATGCTGCAGGCGGAAAACGGCGTCCTGGGGATCGGCGGAAGTCCGGAGCGCGGAGAAGAGGATGAGCTTTTATGCAATGCGGCCGGATTTCCTGTCAGTACAGTTAAGGGTGCTTCCTATTTTGATTCAGCTCTGTCTTTTGCCATGATCAGAAAAGGGCTGATAGATATTACCATTTTAGGCGCGCTCCAAGTCAGCAGGACAGGTGATCTCGCCAATTGGCTCGTGCCGGGGAAAAAAGTGCCCGGAATGGGCGGGGCGATGGAGCTTGCCCAAGGCGCGAAAAAAGTGGTTGTCGTCATGAGCCACACCGATCAGAAAGGCCGGCCGAAGCTGGTCGAAAGCTGTTCGTTGCCGCTTACAGCAGCGAGCTGTGCAGATCTCATCATTACAGAGAAAGCCGTCATCAGCATAGATGATGGGGCTTTTGTTCTTGAGGAACTGCTGAATGGCACGACCATAGACGATGTCATTCAAACAACGGATGCCGAAATCAGATTGGGAGAATGTTTTCTTAAAAGGGGGTCTGTCCATGGATCAATTAGAAAAGAAAGTCACTGA	MGLGIAERESIARRAASEVTSGMIVNLGIGIPSLVPNFLPDGMEVMLQAENGVLGIGGSPERGEEDELLCNAAGFPVSTVKGASYFDSALSFAMIRKGLIDITILGALQVSRTGDLANWLVPGKKVPGMGGAMELAQGAKKVVVVMSHTDQKGRPKLVESCSLPLTAASCADLIITEKAVISIDDGAFVLEELLNGTTIDDVIQTTDAEIRLGECFLKRGSVHGSIRKESH	PGPT0021750_12	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021750-atoA-K01035	NA	NA
D1-12_01169	690	atoD	COG1788	Acetate CoA-transferase subunit alpha	ATGTCTATTTTTCATAAAAAAACCGATATTCATGAAGCAATTGCCGATGTCAAGGACGAATCTGTCATCATGTTCGGCGGTTTTGGGGGAGTGGGTTCACCTCCGTCATTAATCGAAGCGATTTTGGAAAGCGGCGTTAAAGAGCTGACCGTCATCTGCAATGATGCCGGATTTCCGGAAATCGGCATCGGCCCGCTTATCGTTCATAAACGGGTAAAAAGGCTGATCGCTTCCCATATCGGCTCAAATCCTGTCGCGGGCAGGCAAATGACTGACGGAGCGCTTGAGGTGGAATTTTCGCCGCAAGGGACGCTTGCTGAACGGATTCGCGCAGGCGGAGCGGGGCTAGGCGGTATTTTAACTGATATCGGCATTGATAACGCAACCGTTTGTGAAAACAAAGAAACCGTAACGATTGACGGAAAGTCCTATTTAGTTGAAAAAGCGCTGACGGCTGATTTCGCTTTTGTGTCCGCACATACTGCTGATGAATTTGGGAATCTGACGTTTGACAAAACGGCGCGCAACATGAACCCTCTGATGGCTGCGGCGGCCGAAAGAACATTTGCTGAGGCTGCAGAGATTGTGCCTGCCGGCGAACTTGACAGCGAGCATATTGTAACGCCGGGCGTTTTCGTGGAGGGTGTCGTGCAAAGTGAAGGAGTGAAGTGGAGATGGGCTTGGGAATAG	MSIFHKKTDIHEAIADVKDESVIMFGGFGGVGSPPSLIEAILESGVKELTVICNDAGFPEIGIGPLIVHKRVKRLIASHIGSNPVAGRQMTDGALEVEFSPQGTLAERIRAGGAGLGGILTDIGIDNATVCENKETVTIDGKSYLVEKALTADFAFVSAHTADEFGNLTFDKTARNMNPLMAAAAERTFAEAAEIVPAGELDSEHIVTPGVFVEGVVQSEGVKWRWAWE	PGPT0021755_127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021755-atoD-K01034	NA	NA
D1-12_01170	1332	spuC	COG0161	Putrescine--pyruvate aminotransferase	ATGGGGAGCTATTTAATCAAACCGGAGCTTGACGGGAATTATCCGTCAGTCAGTCATGGAAAGGGATCATATGTGTATGATCAGGAGGGGAACAAGTATCTTGACGGAGCATCGGGGGCGGTCACTTGCAATATCGGCCACGGCACGGAGGATATTATACAAGCTTTAAAAGAGCAGCTTGACTCCGTTTCGTTTGTGTATCGCTCGCAATTCACCAGTACTCCGGCAGAAGAACTGGCTTTATTCCTGGCCGATCATCTGCCGGGCGGGCTGAATTGGTCATTTTTTGTAAACAGCGGCTCAGAGGCAGTCGAAACAGCGATGAAAATAGCCGTTCAATATTGGCAGGAAAAAGGGCAATACCAAAAATCCGTCTTTCTATCAAGATGGGGCAGTTATCACGGTATTACTTTGGGAGCGCTTTCATTATCAGGATTCTACGAACGGAGATACCGCTTCACCCAACTGCTTGAACGGTTTCCGGCCGTTTCAGCGCCTAATATGTATCGTTCTGAGCTGCAGGGAGAGGAATTTGTGAAGGCTGCGGCGGCTGAACTGGAAACGGCTGTTCAGCGGGTCGGTTCCTCATTTATCGCGGGATTTGTCGCAGAACCGATTGTCGGAGCAGCCGGGGCGGCCATCACTCCGCCGGCAGATTATTATGAAGCGCTTGAGGATGTCTGCCGCAGGCACGGTATTTTGTTTATCGCGGATGAAGTCATGACGGGGCTCGGGAGAACAGGGCGGATGCTTGCTTCTGAGCATTGGAGGATCGCACCTGATATCGCGGTGCTCGGAAAAGGGTTAGGCGCCGGTTACGCTCCGATAGCGGCAGCTGTTGCGTCTGATGACATCGTTGAAACGATCAAGCGGGGCTCCGGGGTCATTATGAGCGGACATACGTACAGTGCCAACCCATACTGTGCAAGAGCGGCGCTTGAAGTGCTTCGCTATGTTAAGAAACACGAGCTGCTTCGGCAGTCAGAGGAGAAAGGCGTAATGCTGAAACGGAAATTAGAAGAAATCAAAGAGCGCAGCGGGGTGATTGGGGATGTCCGCGGTAAAGGCCTCCTGATCGGGGTTGAATTCGTTAAGGATAAAACGACGAAGGACGTTTTTTCGAAAAAACAGGCCTTCACCGAAAAAATCATTAAAGCGGCAAAAAAACGGGGCCTGCTTATTTACCCTGCAAAGCCCGGTATTGACAGCGGGGAAGGAGACGCCGTCATCATCGCCCCGCCGTTCACGATTTCATATGCTGAGCTGGATGAGCTGTCAGATCTATTTTCCCAGGCCGCAGAAGAAGTTGAAAAAATGATGAAGAAGGATTGA	MGSYLIKPELDGNYPSVSHGKGSYVYDQEGNKYLDGASGAVTCNIGHGTEDIIQALKEQLDSVSFVYRSQFTSTPAEELALFLADHLPGGLNWSFFVNSGSEAVETAMKIAVQYWQEKGQYQKSVFLSRWGSYHGITLGALSLSGFYERRYRFTQLLERFPAVSAPNMYRSELQGEEFVKAAAAELETAVQRVGSSFIAGFVAEPIVGAAGAAITPPADYYEALEDVCRRHGILFIADEVMTGLGRTGRMLASEHWRIAPDIAVLGKGLGAGYAPIAAAVASDDIVETIKRGSGVIMSGHTYSANPYCARAALEVLRYVKKHELLRQSEEKGVMLKRKLEEIKERSGVIGDVRGKGLLIGVEFVKDKTTKDVFSKKQAFTEKIIKAAKKRGLLIYPAKPGIDSGEGDAVIIAPPFTISYAELDELSDLFSQAAEEVEKMMKKD	PGPT0007136_1	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-ABSCISIC_ACID_DEGRADATION	PHYTOHORMONE-AUXINE|INDOLE‐3‐ACETIC_ACID|IAA_METABOLISM	PHYTOHORMONE-IAA_RELATED_TRYPTOPHAN_PATHWAY,PGPT0007136-yodT-NA	NA	NA
D1-12_01171	447	sbmC		DNA gyrase inhibitor	GTGGACATAACGATTGAAGAATTACCTGAATCAAGAATTGCTTATTTCCGAAACGTCGGAGAGTATGGCGGAAAGCAAAACAAAGAACTGATGGAGTCATTTAAAAACTGGGCGCAATTGAATGGTCTGCTTGATCATTATGTCATTTTAGGAATTCCGCAAGATCATCCGAATCGTACTCCTAAAGAGAAATGCCGCTATGATGTTTGTCTTGTTATCAATCAAGACCATGTGCCTGAACCAGCCCGGATCGGTACATTTTCCGGAGGGAAGTACGCTGTTTTCTTGCTTGATCATACAAAAGAGGCAGTCAGTGGATTTTGGAACACTGTTTTTTCTGAGATCGAAAAAAATAATTTATCAATCAGAGAACAGCCTATTATCGAAAGGTATACTTTACAAAAGGTGAATCATCATTTGTGTGAAATATTGATTCCCATACAGTAA	MDITIEELPESRIAYFRNVGEYGGKQNKELMESFKNWAQLNGLLDHYVILGIPQDHPNRTPKEKCRYDVCLVINQDHVPEPARIGTFSGGKYAVFLLDHTKEAVSGFWNTVFSEIEKNNLSIREQPIIERYTLQKVNHHLCEILIPIQ				NA	NA	NA	NA	NA
D1-12_01172	147			hypothetical protein	ATGTACGGATACGGATATGGCTACGGCTGCGGCAGTTTTGGCTATGGTTACGGGCACGGCGGCTGCGGAGGCGGAACCAGCACTTTTGTGCTGATTGTGGTATTGTTTATTTTATTAATCATCGTCGGTGCGGCTTTTATTTGTTAG	MYGYGYGYGCGSFGYGYGHGGCGGGTSTFVLIVVLFILLIIVGAAFIC				NA	NA	NA	NA	NA
D1-12_01173	780			hypothetical protein	ATGACCGATCAATTTGATAAAACCGAGAAGCAGTATATAGAGCTTACTTCCGGCATTCAGAGGTTCGAGCATTTCAGTGTATATACGGACCCTTTTTTGCCGCAGATTTTTTCGCATAACTTTATTCAGCTGCACCATACATTTCCGTTAGACAAACTCCTGCCGTTTTTTTCGTCCGTTCCGGGCATGCTTCAAGCCAATTATATTCATGTGAAAGCGGCTCCGGAGCACACGTTTCCGCTTCTTCTGAAACAAACTCTGGTAAAGCAGGGCTGCGTAGTGGAAGATGAGCTGTTTTTTGCAAGGAAACTGGAAAATGGGGACCTGCAGGCCGGACACCCGCTCACTGCTTGGGGAACGGAAAAAAGCCTCGCCGACGGGTCGTCTATTATGAACATCTATGATGCCCTTTACATTGGCGAGGCGGCGGCCGAACAAAAGCTTGAGCGGAAATATCCTTTGTATAAGGACGGAACGGTTATGCTTGTCGTGTGCTACAGCGATGCCTCACAAACGATTCCGATCGGCTGCGGAGAGCTTTTCATCAACAAAGCAGATAAAACCGCAAAAATAGAAGAAGTCGCAATTCTGGATCAATTCCAACGAAAAGGCTACGGATCGATATTGATGAATGAGCTGATGGCGGCGGCAAAGCTGAACGGCATGGAAACCGTATACCTTGTGACGTCCGGGATGGACGGTGTAAACCGCTTTTATGAAAAACTCGGCTTCAAAAGATTTCGGCGCGTGCATACAATTTTTCATTATTTTCTTACATAG	MTDQFDKTEKQYIELTSGIQRFEHFSVYTDPFLPQIFSHNFIQLHHTFPLDKLLPFFSSVPGMLQANYIHVKAAPEHTFPLLLKQTLVKQGCVVEDELFFARKLENGDLQAGHPLTAWGTEKSLADGSSIMNIYDALYIGEAAAEQKLERKYPLYKDGTVMLVVCYSDASQTIPIGCGELFINKADKTAKIEEVAILDQFQRKGYGSILMNELMAAAKLNGMETVYLVTSGMDGVNRFYEKLGFKRFRRVHTIFHYFLT	PGPT0024861_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024861-cgeE-K06323	NA	NA
D1-12_01174	1272			hypothetical protein	ATGGAAAAGAAGATCTCAATTATCTTAACGAGTTACAACAAACCGGATCTTGTGAAACAGGCGATTGAAAGTGTTTTGCATCAGACCTACAGCAATTGGGAGCTGTTTGTGATGGATGATCATTCAAATGAAGAAACTTCGGCTGCCATCAGTACGTATATAAAAGATCCTCGCATATATTATGACAACAGTTTTATCAATCCTGCCGAACGGCTGAAGTCGACCCGGTATGCCGTTTTGATTAATGATGCGCTTTCACGGGCTAAAGGCGAATACATCACTTATTTGACAGACGACACCGTATTTCATCCGGATAGGCTCAGCCGCATGGCGGAAGTTCTTAATCAATGCAGCGGGTTTGATGCCGTCTATTCCAGCCAGAAGGTGATACATGTAAACGGGCGCGGAACAGAACAATTCCACTTCTATCGTTTTGCTGAAGAGGTGCTTGATCAGGCCGCTTTTCTCGTTGATCACTGTTCGGTGATGCACCGGAGATCATTGCTTGAGCGTGTGAAAGAGAAGTTCGGCAGCTTTTGGGACGAAGATGTTATGCATTGGAATCACGGAGACTCTGTTTTTTGGAGCAGGCTCAACACATTTACATCATTTCTGCCGATAAAAGAAGTGTTGGATACGACCTATAAAACACCCCACTCATTTCAGAACACGTATCAATCGCTTCCGTCTGTCCTGATCGACGGGTCCTTTGTAAAGGGGACGGATCAGAAAGTATATCAGCTTGACCGAAATAAAAGGAAGCCTGTAAACGAGCGCTGGCATACGTTATATGAAGGGCGAACCGTCGTCATTCCGGATCCGTTTTTATTTCAATATGAGGAAGAGAACTCCGTCAGTATTCCGAATTTTCAGCTCGTCAGGGATCAGTTTCATGTTTATTTTATAGAAGACGGGGAGAAAAGGCTGGTTGATCATAGCGCATTTCGCTTTTACCGATTTAAACGGCATGACATCCCGGCTTTAGAACGGGACGAAATACAAGCGTTTCCGGACGGTCCGCCGATCAGCCGGGGGACATCGGGCTGTATTCAACATCTGCCCGGGAGAATGCTGTTTCGCATTGAACGGGAATTTTATGTTTATTTGAGAGGGGTTCTCCATCCGATCAGTCATGACGTAGCGAAACGCTTTTTTGCGAATCAGAAGGCGATACCCATTTCCTTTCAGCAAATTAAACAATTACCAATTGGAATGCCGTTCTATCCGGTGTACGATGAAATTATGAGAAATCTCAATATAACAAAAGGTTGA	MEKKISIILTSYNKPDLVKQAIESVLHQTYSNWELFVMDDHSNEETSAAISTYIKDPRIYYDNSFINPAERLKSTRYAVLINDALSRAKGEYITYLTDDTVFHPDRLSRMAEVLNQCSGFDAVYSSQKVIHVNGRGTEQFHFYRFAEEVLDQAAFLVDHCSVMHRRSLLERVKEKFGSFWDEDVMHWNHGDSVFWSRLNTFTSFLPIKEVLDTTYKTPHSFQNTYQSLPSVLIDGSFVKGTDQKVYQLDRNKRKPVNERWHTLYEGRTVVIPDPFLFQYEEENSVSIPNFQLVRDQFHVYFIEDGEKRLVDHSAFRFYRFKRHDIPALERDEIQAFPDGPPISRGTSGCIQHLPGRMLFRIEREFYVYLRGVLHPISHDVAKRFFANQKAIPISFQQIKQLPIGMPFYPVYDEIMRNLNITKG	PGPT0024859_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024859-cgeD-K06322	NA	NA
D1-12_01175	300			hypothetical protein	TTGGATTCAGAAGAAACTGTAAAACACGGGGGTTTTGAGGAGGAATTTCAGCTCGTACTGCTTCTTCTTCTTTTGTTATCCCGTCAGCCGTCCGGAGATCATTCAGATTTGCGGCGTCAGCTTGTAATGGCAAAAGAGCTTGGGGTTCCTGTATCACGCGTCAATCTGATTAACGGCAGCACACTGCAAAACGTAATTGTCAAAGAAGTGCTGTCAGATTTGGCCGTTTTTCAAAATCCGCTCAATAATACGAGATCAAACGTCGCGATTTCAAGCATCGTCAGCTGGGGTGCTTTTTAA	MDSEETVKHGGFEEEFQLVLLLLLLLSRQPSGDHSDLRRQLVMAKELGVPVSRVNLINGSTLQNVIVKEVLSDLAVFQNPLNNTRSNVAISSIVSWGAF	PGPT0024858_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024858-cgeC-K06321	NA	NA
D1-12_01176	432			hypothetical protein	ATGAGCGAGGATCGTTTGGAGCTTAAAAAGGAGTTATTGAAAACTCTTTTAGCCCCTGTATTTGACAACAGCGCTTTATCTGGCGGCACAGATGGAGGAGATAATGTGGAAAACAAAGTAAAAGATTTATTGGAATCGGCAATTGATGCAAAAGTAGATGAAGCAGCGGCGAAAGACAGTCTCAGCGCACAATCTGTATTGGGAAGCGGTATTTCATTAGCGGCGAGATGGATTTTTGCAAGAATTCAGCCCGGCACTGTCATCAGCATTGTGATGGATTCAGGAGACATGATCGGCCCGGTTCAATTTGTTGCCTTTGACGAAATTCACGGAATCGTTTTTGTTACGCAGGAAAATTCCGTTACACCGGCAGGCTCTGCTACAACATTGCTTGACGTCGACAAAGTTGAAAGTGTCACGTTCACTTCGTAA	MSEDRLELKKELLKTLLAPVFDNSALSGGTDGGDNVENKVKDLLESAIDAKVDEAAAKDSLSAQSVLGSGISLAARWIFARIQPGTVISIVMDSGDMIGPVQFVAFDEIHGIVFVTQENSVTPAGSATTLLDVDKVESVTFTS	PGPT0024856_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024856-cgeA-K06319	NA	NA
D1-12_01177	957			hypothetical protein	ATGAACGTTTTATATATCCGTTCAGGATATAAAGGCATATACACGTATTTTGACCGCTGGATCGAGGAAGGCTTTTTACAGTCTTCCGTCCGCTTTTTTTCTGTTTCTGAGTTTGAGGAAGATACCATCCGCAGTATACGGGCATTCAAACCAGACATCAGTCTGATGATGACGGGAGACCGTATTCCGTCTGAATGGCTTCAATGGCTGAAGACAGAACAGATTCCCGTTTATCTATGGATGACGGAGGATCCTTTTTATTTCGATGTGAGCATGACAATCGCCCCTTTCGCCGATGCCGTTTTGACGATAGAACAAAACGCGCTTGATGCTTACCGGCAAATGGGCTTACAGCACGTATATTATGTCCCGATCCCCGTTAATCAGCGGCTTTTTAAGAAACAACCTGCTGAAGCCTCTCTTCACACAAATCTGCTTCTGATCGGATACCCTTACCCGAACCGCGTTGAACTGGTGAAAGCAGCGGCGAAGCTTCCGTATACGCTTCGTATTATCGGGAAGGGATGGCGCAGACATCTGCCTAAAAAAATCGCCAGGCAGCAAAATGTGCTCGTAATGGATGAATGGATTGAACCCGAACATGCCGCATTATATTACAACAGCGCAGACGTGGTCTTAAACCCTCACCGTTCTTATCGGTTTGCGCTCAATCAGAACGGACGCGGCATCGAAAATATCAGTTTAAATACGAGGAGCTTAGACATTGCGGCTTGTCAGGCCTTTCAGCTGACAGACCTTTCTTCCGCGCCCCCGTTTTCATCCTTTGTTTCTTACAGCGGGCTTGCGGATTTTGCGGATAAGATCCATTTTTATATGACAAACCCGGGTGAACGTAAACAAATCGCGGCGCTTAATTACCAAGAGACAGTACCGGCGTACACGTATGACCGGCTGCCGGCTGTGCTTGCGGCTATCCGTTCCAGGACTTTCTCATGA	MNVLYIRSGYKGIYTYFDRWIEEGFLQSSVRFFSVSEFEEDTIRSIRAFKPDISLMMTGDRIPSEWLQWLKTEQIPVYLWMTEDPFYFDVSMTIAPFADAVLTIEQNALDAYRQMGLQHVYYVPIPVNQRLFKKQPAEASLHTNLLLIGYPYPNRVELVKAAAKLPYTLRIIGKGWRRHLPKKIARQQNVLVMDEWIEPEHAALYYNSADVVLNPHRSYRFALNQNGRGIENISLNTRSLDIAACQAFQLTDLSSAPPFSSFVSYSGLADFADKIHFYMTNPGERKQIAALNYQETVPAYTYDRLPAVLAAIRSRTFS	PGPT0024857_486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024857-cgeB-K06320	NA	NA
D1-12_01178	1152	phy		3-phytase	ATGAATCATTCAAAAAAACTTTTGTTAACCGCGGCAGCCGGATTGATGCTCACATGCGGTGCGGTTTCTTCCCAGGCCAAGCATAAGCTGTCTGATCCTTATCACTTTACCGTGAATGCGGCGGCGGAAACGGAGCCGGTTGATACAGCCGGTGATGCAGCTGATGATCCTGCGATTTGGCTGGACCCCAAGAATCCTCAGAACAGCAAATTGATCACAACCAATAAAAAATCAGGCTTAGTCGTGTACAGCCTAGAGGGAAAGACGCTTCATTCCTATCATACCGGGAAGCTGAACAATGTTGATATCCGCTATGATTTTCCGTTGAACGGAAAAAAAGTCGATATTGCGGCGGCATCCAATCGGTCTGAAGGAAAGAATACCATTGAGATTTACGCCATTGACGGGAAAAACGGCACATTACAAAGCATTACAGATCCAGACCGCCCGATTGCATCAGCAATTGATGAAGTATACGGTTTCAGCTTGTACCACAGTCAAAAAACAGGAAAATATTACGCGATGGTGACAGGGAAAGAAGGCGAATTTGAACAATACGAATTAAATGCGGATAAAAATGGATACATATCCGGCAAAAAGGTAAGGGCGTTTAAAATGAATTCTCAGACAGAAGGGATGGCAGCAGACGATGAATACGGCAGTCTTTATATCGCAGAAGAAGATGAGGCCATCTGGAAGTTCAGCGCTGAGCCGGACGGCGGCAGTAACGGAACGGTTATCGATCGTGCCGACGGCAGGCATTTAACCCCTGATATTGAAGGACTGACGATTTACTACGCTGCTGACGGGAAAGGTTATCTGCTTGCATCAAGCCAGGGTAACAGCAGCTACGCGATTTATGAAAGACAGGGACAGAACAAATATGTTGCGGACTTTCAGATAACAGACGGGCCTGAAACAGACGGCACAAGCGATACAGACGGAATTGACGTTCTGGGTTTCGGGCTGGGGCCTGAATATCCGTTCGGCCTTTTTGTCGCACAGGATGGAGAAAATATAGATCACGGCCAAAAAGTGAATCAAAATTTTAAAATGGTGCCTTGGGAAAGAATCGCCGATAAAATCGGCTTTCACCCGCAGGTCAATAAACAGGTTGACCCGAGAAAACTGACTGACAGAAGCGGAAAATAA	MNHSKKLLLTAAAGLMLTCGAVSSQAKHKLSDPYHFTVNAAAETEPVDTAGDAADDPAIWLDPKNPQNSKLITTNKKSGLVVYSLEGKTLHSYHTGKLNNVDIRYDFPLNGKKVDIAAASNRSEGKNTIEIYAIDGKNGTLQSITDPDRPIASAIDEVYGFSLYHSQKTGKYYAMVTGKEGEFEQYELNADKNGYISGKKVRAFKMNSQTEGMAADDEYGSLYIAEEDEAIWKFSAEPDGGSNGTVIDRADGRHLTPDIEGLTIYYAADGKGYLLASSQGNSSYAIYERQGQNKYVADFQITDGPETDGTSDTDGIDVLGFGLGPEYPFGLFVAQDGENIDHGQKVNQNFKMVPWERIADKIGFHPQVNKQVDPRKLTDRSGK	PGPT0002580_326	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083	NA	NA
D1-12_01179	426	capD	COG1086	UDP-glucose 4-epimerase	ATGCCTAAACAGCAAGCAGTAGAGCTACAACCGTTTTTTCACGATAAAACTGTTCTCGTCACAGGCGGGACAGGATCAATCGGAAGCCAAATAGTAAAACGCCTTTTGCTCTTAACCCCTAAAGAAGTCATTGTGTTCAGCAAAGATGACAGTAAACAATATGTAATGAAACAAAAATACGCGGATGAACAAAGACTGTCGTTTGTGCTCGGCGATGTTCGTGACTACAGAAGAGTCAACCAAGTGATGAAAGGTGTTGATATTGTCTTTCACACAGCTGCGCTGAAGCAGGTTCCGACATGTGAGGATAATCCCTTTGAAGCCATTCAAACCAACCTTATCGGCGGACAAAATGTCGCAGAAGCCGCTTTGCTGCAAGAGGTGACGCATGTGATTAATATCAGTACCGATAAAGCCGTTTATTAA	MPKQQAVELQPFFHDKTVLVTGGTGSIGSQIVKRLLLLTPKEVIVFSKDDSKQYVMKQKYADEQRLSFVLGDVRDYRRVNQVMKGVDIVFHTAALKQVPTCEDNPFEAIQTNLIGGQNVAEAALLQEVTHVINISTDKAVY	PGPT0030485_4506	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
D1-12_01180	177			hypothetical protein	TTGGAACCTTACCAACGTTATGAGGAATTAAAGAAGAAAACAATAAAGGTTGTCCATAAAGATAATTACAGTATCCGCTATATAGATCAGGATGAAGCGAGTAATGACTTAGATGAATTTTATAAACAATTTGCTCAGCATTTATTGGAGGCTGCTTTGGAAAGGAGTGCAGAGTAG	MEPYQRYEELKKKTIKVVHKDNYSIRYIDQDEASNDLDEFYKQFAQHLLEAALERSAE				NA	NA	NA	NA	NA
D1-12_01181	207			hypothetical protein	ATGTCAAGAACACATTTTGAATTACTGGGCACCTTGAATAAAGCCAGCATTCCCATATTTATATGCGAAGAGATCGGTACTGAACGCTGGATAAAGAAAAAAGTTAACCATACATTTGAACAAGCTTGCGAGGCTTTGATAAAGAAAGAACAGTCAAGAGACGAACCATTACATACATATAATACTCCTGTGAAAGCGGGGGTGTAG	MSRTHFELLGTLNKASIPIFICEEIGTERWIKKKVNHTFEQACEALIKKEQSRDEPLHTYNTPVKAGV				NA	NA	NA	NA	NA
D1-12_01182	258	yobA		putative protein YobA	ATGGTCGGCTATGTCATTTTAAAAGGAGAGAATCAAGCAATTCTCATACCTAATGAAAAAGCTGATGTTAAAGACTATGAAAATCTTAGTGAAAAAGAGATTATTGAAAAGTATAGATCGGATATAGTTTTACTGGGACTTAGTGAACTTAACAATAAAGATGACTTGAGCAAAGGACAAAAAATTCGTATTTGGTATAAAAAATTAAATGAATCTTCACCTCCAAAAACAAACATCTCAAAGTTTGAAAGTATTTAG	MVGYVILKGENQAILIPNEKADVKDYENLSEKEIIEKYRSDIVLLGLSELNNKDDLSKGQKIRIWYKKLNESSPPKTNISKFESI				NA	NA	NA	NA	NA
D1-12_01183	258			hypothetical protein	TTGAAAAACGATCAGAAAATAACACTAAACTCTTCTTTTGCGTTATCCACTCTTATTGTCTTACTTATTGCATTGTACCCGTCCTATTCTTCTTGGTTTGTCACAATATTCTTTTTAGGGTTTGCACTAATTTACACATTTGAAAAAAAGAGCAAATCTTCAAAACTAATTGCTAGTGCTTGCCATATCAAGATTCTTTCTTTTCATGCTGCTCTTTTCCTTGGCCTCAATTTTTTAAAATTTAAATTACGATTTTAA	MKNDQKITLNSSFALSTLIVLLIALYPSYSSWFVTIFFLGFALIYTFEKKSKSSKLIASACHIKILSFHAALFLGLNFLKFKLRF				NA	NA	NA	NA	NA
D1-12_01184	375			hypothetical protein	TTGAACAAAATAATCGGAATGACCGGATTAATTATCTCCTTACTTGTGCAAGGGTTTTCAGCAAGTGATTCATTGACTCATAAGATCGCCATGGCTTGTCTATTTTTGTTCTTATTGGTTTATAATTTTAACCATACTAAGGAGTTCTCTAAAAAGTCTCTGGCGATTATAGGCGCTTCCTTTATTGTGCTAATGCTTGGTATTTATCAATTGCTCTCTTTTACTGGTGATTACTTTGAAAGTCGCGGTTTAAATTTTGGATTTATCCTCTTACTTGAAATTGTTTTAGTTATTGGATTAGTGACTGCTGCACTGAGTTTAATTAAGCATATTGCAGACCGCTTAAGGAAAACACCTGATGGTAAAGAGCGTTGA	MNKIIGMTGLIISLLVQGFSASDSLTHKIAMACLFLFLLVYNFNHTKEFSKKSLAIIGASFIVLMLGIYQLLSFTGDYFESRGLNFGFILLLEIVLVIGLVTAALSLIKHIADRLRKTPDGKER				NA	NA	NA	NA	NA
D1-12_01185	453			hypothetical protein	ATGAAACGATTTACCTTGGTTATACCTTTATTGGCTGCTGTTATCGCCTCTCCAACTCAAATGAAAGCAAGTCCAATGCCTTGTACTGCAGTACTCGAACCGGTGAATCAAAAACTGAAAAATGCGAAGGGCGCGGCACTAATCTATAAAGTGCAGTTATACCCGCCAAGTGCTGCAAGAACGAATATGAGTATTCTTGCTGTCCACCTTCCTCAACCATCTTATTATGGAAGCTACGACGGTTATGAAGGATTTGCCGCCAAAACAGGGGAAATCAGTTGGCGATTTAAACTATATCCGACTCCCGAGGAAGAGAGCCCTAATTGGGCTGGAAGGATTGATTCCATATCAGCTGAAATGACAAATGTTAAAGTGCAAGTACGCCTTTCAAATTCTAAGACACAAAAGTTGGGGCCGAGTGTATTAACAAACAATATTCAATCTTGCTATTAG	MKRFTLVIPLLAAVIASPTQMKASPMPCTAVLEPVNQKLKNAKGAALIYKVQLYPPSAARTNMSILAVHLPQPSYYGSYDGYEGFAAKTGEISWRFKLYPTPEEESPNWAGRIDSISAEMTNVKVQVRLSNSKTQKLGPSVLTNNIQSCY				NA	NA	NA	NA	NA
D1-12_01186	1116	rapG		Response regulator aspartate phosphatase G	ATGAGCAAGATCGCTTCAGAAGTTGTCGCTACTACACTGAATGATTGGTACATTGCTATAAAGAAACAAAAGGTAAATGAGTCAATAAAATATTACTCAGAGATAAAAAGCCTGTTCGATGACATGGAAGAAGATCAAGAAGTTCTTGCATATTACAGTTTATTAGAAGAAAGACACAAAATGTTGCTACATTCTTCACGCGGAGAGCCATTACAAAAGCACACTTATTTCACTGAAGAGAATGAAAATTTCATAAAAAGAACGAACGATAAATTGGAATATAACTTTTATTTATTTGAAGCAATGTACGAGGCATACAACAAAAATTATGATCGAGCAATTAACTTATATGGATTAGCTGAGAAAAAGCTTGCAGAAATTCCGGATGAAATTGAAGCAGCTGAATTCTACTCCAAGGTCTCCTACTTATACACTCTTGTTAAACAAAGCATTGTGGCACAACACTATATCAAGAATGCAATTGCAATATATAAGCGACACCCTGACTATAAATGCAAACTGGCAACTTCAACAATGATTGCGGCTGCAAACTATTCCGATATGAAACGGTTTGAAGAGTCAGAAACATATTATTTAGAAGCAATAGACATTGCACAAGAAACAAAGGATGAATATTTGGAAGCTCAGTTATATCACAACCTTAGTATCGTGTATTCTGATTGGGACAAACCTGATAAGTGCATTAAATCTCTCGAAAAAGCTATTGGAAATGAATCTTGGATGAATTCAAATTATTATATAAATTCTTTATTCATGATGATTAAGGAGCTATTTAAAATTGACGAAAAAATGAAAGCCATTAATTTTTACAATAAAGCACAGGAAAGACTCATATTAATGGAGAATAAGGTATACGAAGCCAAAATTAGCATCCTATACAACCTATATTGTGGTGAATTAAAAAACAACTTCAATAATTGCATCCGTTACATTGAGTTTTTAAAACAACAAAATGACCTTGAAAGTGTAGATGAATTGTCCTACATAGCTGCAAAAAGGTTTGAATCAATAGGTGCTTTTGAAGAAGCAACAAGCTTTTTCAATGAAAAAATTTGGGCTGAACAGAAAATGAATCAGGTGGAGGGAATCTTATGA	MSKIASEVVATTLNDWYIAIKKQKVNESIKYYSEIKSLFDDMEEDQEVLAYYSLLEERHKMLLHSSRGEPLQKHTYFTEENENFIKRTNDKLEYNFYLFEAMYEAYNKNYDRAINLYGLAEKKLAEIPDEIEAAEFYSKVSYLYTLVKQSIVAQHYIKNAIAIYKRHPDYKCKLATSTMIAAANYSDMKRFEESETYYLEAIDIAQETKDEYLEAQLYHNLSIVYSDWDKPDKCIKSLEKAIGNESWMNSNYYINSLFMMIKELFKIDEKMKAINFYNKAQERLILMENKVYEAKISILYNLYCGELKNNFNNCIRYIEFLKQQNDLESVDELSYIAAKRFESIGAFEEATSFFNEKIWAEQKMNQVEGIL	PGPT0025785_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025785-rapK-K06369	NA	NA
D1-12_01187	123			hypothetical protein	ATGAAAAAAATTATGCTTTGCGTATCTATTTTAACTGTAATTTTAAGTGGAGTAGCTTTAACGCAATTGAGTACTGATTCACCATCTAACATCCAGGTAGCTGAAAGGCCAGTCGGAGGTTAA	MKKIMLCVSILTVILSGVALTQLSTDSPSNIQVAERPVGG	PGPT0025700_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_BIOSYNTHESIS,PGPT0025700-phrK-K06358	NA	NA
D1-12_01188	276			hypothetical protein	ATGAAAAAGTCTTATGTTTTATATGGGATTTCAGGAGTTCTAGTTGGTGCAATAGTTATATTGTTGATCAATGCATTCTTTATAAATAAAGGTGAACACTCTGTAAGTACTTCTAAAATTAATCCAACCGAGGATAAAATCTTTTTTATCTATTCAAATCCACTCATCAAAAAAGCGTACTCATATCCACATCACAAGGAGAAAAATTCAATAAACGACCGGATATACCATATATCCAGAAAAAAACCCCCTCTTCAGACGATATCGTCTTGTTAG	MKKSYVLYGISGVLVGAIVILLINAFFINKGEHSVSTSKINPTEDKIFFIYSNPLIKKAYSYPHHKEKNSINDRIYHISRKKPPLQTISSC				NA	NA	NA	NA	NA
D1-12_01189	735			hypothetical protein	TTGTTAGCTGAACATGAACCATATTATTACACATTAAAAAACAACACCATTAAAGAACATAAATTATCCAATCCATTTGCTTTTTGGTATCAAGGAGAAGATATTTCTGTAAAAGCCTATAATGTCGACACCAATGGAAATGAACTGAAAGTAAATGATAAAAAGTTCAATAAAAAATACAGCCTGACTTTGCCCTCCCTCGTAACCATGGGAGAAAGCGATGATAAGTATATTTACGTCATTCAAGGAATGTCTTTGTACGTCATTGATAGAAAAACAGAAGAGATTAAAACGATTGGATTAGCTTCCTATGGAGATGTATTTGATCACTCTGAAAAATATGTTGTGGCTAGCTCAGAACATGAACTAACTGTAATCGAAAAAGGATCATGGAAATCAAAATTCATAAAATATCCTGATGATCTCGAACAAGCGGACGCTGTGTATTACGACAAAAAAAGCGGTAAATTTTACGTTACATATATTAATAAATCCGGATACGCCTGCTTACTTGAGTACGATCAAGATTTTTCTTTTGAAAAATTCGATTTACAATTTCCGTATATGAATGCAAAGTTTAAAGATCAAAAACTTTATGTGATTTCACAAGAGGAAAACAAAAAAGGCATTGGTGGCTATATGGGGATTTTTGATATCCGTACTAAAAAGAAACTTAATGAATTTGATTTGCCTGAAGAAGAAACAAAAGTGCAGGACTTTATGGTTTTAGATTAA	MLAEHEPYYYTLKNNTIKEHKLSNPFAFWYQGEDISVKAYNVDTNGNELKVNDKKFNKKYSLTLPSLVTMGESDDKYIYVIQGMSLYVIDRKTEEIKTIGLASYGDVFDHSEKYVVASSEHELTVIEKGSWKSKFIKYPDDLEQADAVYYDKKSGKFYVTYINKSGYACLLEYDQDFSFEKFDLQFPYMNAKFKDQKLYVISQEENKKGIGGYMGIFDIRTKKKLNEFDLPEEETKVQDFMVLD				NA	NA	NA	NA	NA
D1-12_01190	360			hypothetical protein	ATGGAAGGTCTAAATAACTCTTACAATATCACGAAAGATCCGAAATTTTTAGCGTTTTGCAGTTTAGCGACAGAAGGTGCAGGAATTAGTTCGAATCAGCAATGTTCAATTGGTTTTAATGAATTCAAAGAAGCGCTGGAGAATGGCAAAGTAGTTGATAATAAAAACCTTAAAAGCAGTTCAGAGTTAAATCACCAGTTTGATTACTGGAAGTCCAGAATAACTGGGGGACGAGCTGTAACTGAAACTGATAATCAAGTGTTAGATATAATCAAACAAGCATACAATCTTGGAATGGTTACGAAAGATAATATGCTTTTGAGAAATCAAGCCATTAACGCGTATAAAACATCTATTTAA	MEGLNNSYNITKDPKFLAFCSLATEGAGISSNQQCSIGFNEFKEALENGKVVDNKNLKSSSELNHQFDYWKSRITGGRAVTETDNQVLDIIKQAYNLGMVTKDNMLLRNQAINAYKTSI				NA	NA	NA	NA	NA
D1-12_01191	192	yolA_2		SPbeta prophage-derived uncharacterized protein YolA	TTGTTATACAAAGGTGAAGCGAACATATACAAATATGACCCTATACTTGGACAAAACAAAGTTGTGATAGGATGGGACAAATACATTGAAATTCCAATGAACGAACTTGCTTCAAATGAGATTCAAGTTGAAGGGCTTGGGAAAAACATGAAAATCATTTACAGCAACGTTGTAAAATTCGAGAGAGGGTGA	MLYKGEANIYKYDPILGQNKVVIGWDKYIEIPMNELASNEIQVEGLGKNMKIIYSNVVKFERG				NA	NA	NA	NA	NA
D1-12_01192	459	yobK_3		Antitoxin YobK	ATGACTTATCATGAAATTGAAGAATTTATTAAAGAAAACGCTGAAGATGATGATTTTACAGGCGGAATAAGTGAAGAAAAAATCAAAGAGATACAAAATCGTTTAAATGTAAAACTTCCCGAGAGTTATAAGTGGTTTTTAAATAAATATGGCTCCGGTGGAATTTACGGGGTAAATATACTTGGCCATGGGAAAGTTTCTGCAAGGGTTGTTACAGTTACTGAGGAATATAGAACTCATTATAATTTAAGTGACGGTATTGTCGTTATAGAAGATGTAGATGAATTCTCTTATTGCCTCGATACAAACAAAATGGAAAACGATGAATGTCCAGTAATAGTTTGGGCAAATGAAGCCGGTTATGGTGACAAGGTTGCAGATAACTTTCTGCAATTTTTCTTGGAAGAGCTTGAAGAAGCAAAAGAAAATTGGGAAGAGGACGAAGATTGGGACGATTAA	MTYHEIEEFIKENAEDDDFTGGISEEKIKEIQNRLNVKLPESYKWFLNKYGSGGIYGVNILGHGKVSARVVTVTEEYRTHYNLSDGIVVIEDVDEFSYCLDTNKMENDECPVIVWANEAGYGDKVADNFLQFFLEELEEAKENWEEDEDWDD	PGPT0027635_75	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027635-antitoxin_yobK-K21488	NA	NA
D1-12_01193	1122	yobL_3		Ribonuclease YobL	TTGACGATTAAAAAGGAAGAAGCGAAGGAGCGGGAAATCAAGGATCTGAAGAAAAAGCTGGCCGCTGGTGTCACCGATCCGGATGAATATTTGGAAATTGCGAAGAAGATCGGCTATGAAAACCTTGAATCTTCCCAGCGGCAGTATGTGACGCAGCTTGAACAAGCAAAACAGATGGAAGAAGCCGGAGAAGTGACTTGGGATATTTTAAAAGGAGCCGGCGTTGGTTTATATGATGTCGGGAAAGACACGGTAACCGGTCTATGGGACTTCATAACCGATCCGGGGGAAACGCTGTCAGCACTGGGGAATGCAGTACTTCATCCTGTTAAAACATATGATGCTGTTAAAGCGGCAATTGAAGAGTCGTATCAAAAGGATATGGTGAACGGAGATGCTTACTCCAGATCAAGATGGGTGACATATGCAATTGGTTCAGCAGCTGTGGCTGTCGTCGGAACAAAAGGCGCAGGAGCCGTTAACAAAGCTGATGTGGCGGGGAAGGTTATAAATAAGGCAGGACAGGCAGGGAAGAAAATTAAAGACGTTAAACTTCCAGATCTGCTTCCTTATAACTCTAAGTATGACCTTGCTCTGACCGATAACGTACCATACAATGTGGTTGACAGCCAAAACCTTAAAAATGAACTATTAACTAATGCGAAGAAATTAGATGAGAGCAGAAAGCCATTTACAGGTAAGGAATTAACTCTCCCTTGGCTAAATAAAGAGAAGTATGGCGCCTTTGAAGTTAAAGGGAAGGTAAAAGCTTCGGGTAAAACTAAAGATGTAAGTCGAAGAGTGTACACGTTGAAAGATATTGATATAAACAAAGTTGATGCTGAAAGCGGAAAAACAAATTTACAACTTATGAAAAAAGGTGACGCTCCTTTTGCTAATGATGGCACAAAAATCAACTTACATCATTTAATTCAAGAAGAGCCAGGAACGATGGTGGAAATTCCAGCTTCTGTTCATCAAAATAATAAAAAAGTTCTTCATGGATTGAAAAAAGGTGGGGAAAGTTTTAGAAATGACAGGGAGTTGCGGAATCAGTATAAAAGCTTCCAACGAAGATATTGGAAATGGAGAGCGAGCCAATTTGAGAAAGGAGAAATGTAA	MTIKKEEAKEREIKDLKKKLAAGVTDPDEYLEIAKKIGYENLESSQRQYVTQLEQAKQMEEAGEVTWDILKGAGVGLYDVGKDTVTGLWDFITDPGETLSALGNAVLHPVKTYDAVKAAIEESYQKDMVNGDAYSRSRWVTYAIGSAAVAVVGTKGAGAVNKADVAGKVINKAGQAGKKIKDVKLPDLLPYNSKYDLALTDNVPYNVVDSQNLKNELLTNAKKLDESRKPFTGKELTLPWLNKEKYGAFEVKGKVKASGKTKDVSRRVYTLKDIDINKVDAESGKTNLQLMKKGDAPFANDGTKINLHHLIQEEPGTMVEIPASVHQNNKKVLHGLKKGGESFRNDRELRNQYKSFQRRYWKWRASQFEKGEM	PGPT0027630_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_01194	144			hypothetical protein	ATGGATGATGTTCGGAAGGGGAAACCGATTAAACGAATATGCAGGCGTAAACTTCGTGATTTCGGTGAATTAGACATAAAAGATAAATTACTGAATAAGTCCTTCGCTCTCCAAGGTGTTATACATTACTCGCAGTGTTTTTAA	MDDVRKGKPIKRICRRKLRDFGELDIKDKLLNKSFALQGVIHYSQCF				NA	NA	NA	NA	NA
D1-12_01195	138			hypothetical protein	ATGGTCTCTTTCTTTGTTGAAAAGCCTTATCAAGAAGGGGATATTGTACGTGTGCCGAGGAGCCATGACGGATATACTGGAGAACCTGAAGCTATTAAATCCGATAAAACTGCCAGAAAAGATCAAAGACCGATTTAA	MVSFFVEKPYQEGDIVRVPRSHDGYTGEPEAIKSDKTARKDQRPI				NA	NA	NA	NA	NA
D1-12_01196	105			hypothetical protein	ATGGATTTACTTAATTTACATTATATCTACAATTATAGGAGCTGCTGGGTTCATAAGTTTAGCAACTACGTTTACAATTTAGAAGGGTATAACGAGAAAGGATAG	MDLLNLHYIYNYRSCWVHKFSNYVYNLEGYNEKG				NA	NA	NA	NA	NA
D1-12_01197	813			hypothetical protein	ATGGATGAAATAAAGCAAATAGGCTACCAAGATTTTTTTGATGTAATAAAAAACGAAAAATTTGATGTGGGTTCATTTAAAGAGTTTGTCAATTCCTTATACGGGGAGACAAATTTTCTTGATTATAAGGAGAAGATAATTGAAGAATTTAAATTAGCAAAGCTTCTCCTTGCAATGGCGAATTCAGGTGGAGGAATGATTGTTTTTGGTATTGAAGATAAAGAATATAAGCCAGTTGGGCTACAATTAGATGACAACTTTGATAAAACAGTTTTTGAGAAGAAATTGAGGAATTATGTACCTGATGAGCTTAAGTTTTTTTCTCAACTTTTAAAATACTCCGACGAAGATGTTTACGGTGATTTGAAAGGAAAAGCTTTTTTGGTTGTATACATTCCAAAGCAATTGAGATACATTCCATTCTTAGCAAAGAAAGAAACAACAGGAATCAAAGTAAACAGAATTTATGTAAGAAGAAACACGTCTGTTGAAGAGGCAAACAGCCATGAAATAGAGGAAATGGTCAAAAAACGAGTTCATAGTACGTATCACGATCTTTCATCGTTAACTTTGAATGAGCATATAGAACAATTGAGATGTTTATATGGGAATATTAATAAATATAACAACAAAAGTTATGCTTTTACATCTCTCGCACAAACATTTGCAGCACAGCTTTACACTAATAGAAAAAATCCACATTATCCGGCTGAATCTTTTGATAAGTTTATAGCAACAATGATTGATAAAAAGAAAAGAAGAATTGAAGGTATTTTGGAAGTAGCAGAGCAATTAAATATTTGGAGAAATTAG	MDEIKQIGYQDFFDVIKNEKFDVGSFKEFVNSLYGETNFLDYKEKIIEEFKLAKLLLAMANSGGGMIVFGIEDKEYKPVGLQLDDNFDKTVFEKKLRNYVPDELKFFSQLLKYSDEDVYGDLKGKAFLVVYIPKQLRYIPFLAKKETTGIKVNRIYVRRNTSVEEANSHEIEEMVKKRVHSTYHDLSSLTLNEHIEQLRCLYGNINKYNNKSYAFTSLAQTFAAQLYTNRKNPHYPAESFDKFIATMIDKKKRRIEGILEVAEQLNIWRN				NA	NA	NA	NA	NA
D1-12_01198	780			hypothetical protein	ATGGGGTTTAAATTTAGAAAAAGTGTTAAAATTGCTCCAGGAGTTAAACTGAACATTAACTCAAAAAGTGTCGGCATCAGTGCCGGTGTTAAAGGGGCACGTATATCAACAAACACTAAAGGTAGAACCACAACCACTGTAGGAATTCCAGGTACGGGTATTTCTTATAGTAATACCGTGAATTCTAAAAGGTCTAAAAATAAAACAATATCTTCAGATCAGGCAAGAGTTCAAGCTACTTCATTCCAAAACCCTATTCAGGAAGTCTATAGTTCCTTGAGTAAAAAATATAAAAAACCATCTAAAGATCTTCAAAAAATATTTAGTCATGCAGCCAATCGAATAAATCAAGATCAAATAGTGACTTTCGTTAGAGGGAATCTAAATGGTTTCATGGGAAATGCCGGCGTTCTTTTTGCAATGCCAGATAGGTTATTGCATTATGGTGATAAATATGCAAAGTACGAGATTGTGGAATTTGATTATAATCTGATTGATCATGTAAAAGTTAAAAGTGGGCTAACGGGTTATAAACTAATCTTTGATTATGCCGGGAAAGAAATTTCAGTTTCAACAATTGATGAAGGAAGCATTGACGAAATTTTCGCATATATCCAAGAAAAGATAGCAGAGCAATCAAATCAAAATATGAATGATGTGTCTTTTTCAAGCTCGAATGTCCCTGAACAAATTAGACAATTTGCTGAGCTTAGGGATCAAGGAATAATAACCGAAGAAGAGTTCGCGAAGAAAAAAGAGCAACTGCTTGATATTAACTAA	MGFKFRKSVKIAPGVKLNINSKSVGISAGVKGARISTNTKGRTTTTVGIPGTGISYSNTVNSKRSKNKTISSDQARVQATSFQNPIQEVYSSLSKKYKKPSKDLQKIFSHAANRINQDQIVTFVRGNLNGFMGNAGVLFAMPDRLLHYGDKYAKYEIVEFDYNLIDHVKVKSGLTGYKLIFDYAGKEISVSTIDEGSIDEIFAYIQEKIAEQSNQNMNDVSFSSSNVPEQIRQFAELRDQGIITEEEFAKKKEQLLDIN				NA	NA	NA	NA	NA
D1-12_01199	141			hypothetical protein	ATGCCGGTTATAGATAACTTTTTTGTTATTCAATTTGAAAATGATGATTACTTCAAGTCATTTAAATTAGAAGGCAGTGGTTATATAGTATCTAAGGGGATCATGTCGCTTCTAAGTTTACTACAATGTCAGAAGCTTTAG	MPVIDNFFVIQFENDDYFKSFKLEGSGYIVSKGIMSLLSLLQCQKL				NA	NA	NA	NA	NA
D1-12_01200	252			hypothetical protein	TTGATTGGAATAGCATATTTCTTAATACTCTGGCTTGGTGTTGGCTTTCTAACGGGATTTAAGGCCTTATTTGTTGATCAGGTTTATGATGAAGAGTTTAAGCAGGAACTGATTGATTCATTTCCACCAGGTATGGAGCAAAATATGATTGAACTGTTCTTTAAGAATAAAATAAATATCATGGTGTTTTACATATTGATTGGATTGCTGCCACTGGCCATAAAAATTGCTGGTCTTTTGAAGAGGAGTTAG	MIGIAYFLILWLGVGFLTGFKALFVDQVYDEEFKQELIDSFPPGMEQNMIELFFKNKINIMVFYILIGLLPLAIKIAGLLKRS				NA	NA	NA	NA	NA
D1-12_01201	225			hypothetical protein	ATGATTAAGGTTTACACAATAGGTCATGAGATACCAGAAAAGATTAAGTCCTACATCACTGAATGGAATTATTGGTCTTGGATTTCTGCATCAAATAGTGAAAAGGGCAATAAAAGTGCAAAGCGGCTTATTGAAAAGATTGAATCGGATCCAGACAAAATTGCGGAATATAAAACTGAAGACGGAATTGAAGTATATGTAAGCTACATGAATCCAGTGAAATAA	MIKVYTIGHEIPEKIKSYITEWNYWSWISASNSEKGNKSAKRLIEKIESDPDKIAEYKTEDGIEVYVSYMNPVK				NA	NA	NA	NA	NA
D1-12_01202	231			hypothetical protein	ATGTTAAAGGCTTCAAAAATTTTCATTTCATTTATGGCATTACTACTAGCCGTGTATTCCCTGTTTAATCAAAGTGGAATCCTGTTATTTTCTCTTCAGGTATTAGTTGCAGTTCTTTTTATCATAGTCGGGTTGGAATTACTTTCAAAGAAGCAAAAGAGCTATGGATATATCTTCTTTGGAACATCTGTCTTAATACTTACCGTGAACATTATCAAATTCATGATTTAA	MLKASKIFISFMALLLAVYSLFNQSGILLFSLQVLVAVLFIIVGLELLSKKQKSYGYIFFGTSVLILTVNIIKFMI				NA	NA	NA	NA	NA
D1-12_01203	294			hypothetical protein	ATGAACAATAAAGCGCTTATTAAAAAAAATATTGTTGAAAGTATATTTTTTGCTTTTGATGAATCTGGGACAAGAATGGGAGACGCATGCGTTTACACCTCTTATCTAACAAAGGATTTATTAAAAGACAAATATAATATTAATGCAAAATTAAAAGCAGGATCAGTTAGAATTCCATCATTACAAGTTCATTACAAGTGGAATCCTCCATTTGAATTCCATATGTGGGCATTTCTATACGGCGAGATAATAGACATCGCAGCCTCTAAGATAACAGAAAGAGAAAAATTTTAA	MNNKALIKKNIVESIFFAFDESGTRMGDACVYTSYLTKDLLKDKYNINAKLKAGSVRIPSLQVHYKWNPPFEFHMWAFLYGEIIDIAASKITEREKF				NA	NA	NA	NA	NA
D1-12_01204	438			hypothetical protein	ATGAAAAAGTTAATCGTTCTGACCTTAATTTGTATTGGTTTTATATTGAGTTTTAACACACCAAGTGCTGAGGCGAAGCTTACATTAGACTACAAAAACGTGAATTTTCACATGAGTGAGGATTCAGAGAGTTTTTCAATGGCAGATTATTTTGATCGGACTTATGATCGCACTTGGCTCTTCTACAAATTCACAATTAGCAATGCTGAGGGGTGTACTCTAAATATGAAAATCAGTAGGATAACTCTTGCTGGCTGGGTATTCCCACGTAGTGAAAAGCAGTTTGTAGGGAACTATGCCGACTATACTGCTGCAGATCGAGTAGAGGGAGATGCAAATCGTAATCATGTGTTAGAGATTACAAAGAATCCAGGCTGCGGAGATGTGTGGATTAAAGGTATTTATGGATTTGAACATGAAGATTCATTTGATTGGTAA	MKKLIVLTLICIGFILSFNTPSAEAKLTLDYKNVNFHMSEDSESFSMADYFDRTYDRTWLFYKFTISNAEGCTLNMKISRITLAGWVFPRSEKQFVGNYADYTAADRVEGDANRNHVLEITKNPGCGDVWIKGIYGFEHEDSFDW				NA	NA	NA	NA	NA
D1-12_01205	840			hypothetical protein	GTGCGTAATTTTTGGGAAGCAACTGAGGAAGATCCTTATAAACTTGATAGTGTAACTGAAGAGATGATCAAACATACCGAGAACAGGTTAAATATCATTCTACCTGAGTCGTACAAGATGCTTATACTTGAACAAAATGGAGGGATGATAAATTATAATGCATTCCCCACAACTGTTCAAAATTCATGGGCAGAAGATCACATTGAGTTTGATTACCTACTAGGGCTAGGTGAAGACCCAGGGATACTAGACAGTTCATACCTAATAAAGGAATGGGATTTACCTGAAAATGTGCTCCTTATCCATGGAGACGGACATACTTGGGTAGCAATGGATTATCGAGAAACAAACTCAAACCCTTCAATTCACTACTTCGATGTGGAGATTGATCAGGATTTCAAATTAGCAAAATCGTTTGATGAATTTTTGTCAAAACTGTATACGCATCATTACGATATGGACACTGAAATAGCTAACAATGAAGGCTCAGAAATTCAAAATGCCTCATTGAGTAATTCTGAGTCAATAACAAGTAAAGAGGTTGCAACAATATTAAAAGAAAAGAACCCTTTGGATATTTATAAGGTGGCATACTACCCCATAAAAGACACAAATGACCTAGAATGGGTCATAAATCAGATTAAAGAGTCATCATATATCTTAAACGAAGAACAAGCTTTTGAGCTAGCAGATTTGCTAATGACAATAGCTACAACGTATGATAACCATATTAAAACAACAATTTTTAAAAACCGTATTGAAGAAATTATAGCCAACTTAAGCGAACAAAAGAATGAAGATGTGGACAATATTTTGACACAAATCAAAGATTTTCTTTAA	MRNFWEATEEDPYKLDSVTEEMIKHTENRLNIILPESYKMLILEQNGGMINYNAFPTTVQNSWAEDHIEFDYLLGLGEDPGILDSSYLIKEWDLPENVLLIHGDGHTWVAMDYRETNSNPSIHYFDVEIDQDFKLAKSFDEFLSKLYTHHYDMDTEIANNEGSEIQNASLSNSESITSKEVATILKEKNPLDIYKVAYYPIKDTNDLEWVINQIKESSYILNEEQAFELADLLMTIATTYDNHIKTTIFKNRIEEIIANLSEQKNEDVDNILTQIKDFL				NA	NA	NA	NA	NA
D1-12_01206	246			hypothetical protein	ATGAAAAATTTAACAAGAATTATGAGTCTTGTTCTGCCACTGCTTCTATTTACCTCATTCGTTCTTCCTAACTTTGCAGAAGCACACACAACAAACAGCAAAGAAAATCATAGTCCAGACATGGTACATACCCCCACTGCTGATATTTCAGATGATGAAGCTGGCTATGAAGAAAAAAACTATGAAGACTATTCAGATGTAATAGAAGATCCTTATTATTCGGATTTAGCTAATGCCCCCGTTTGA	MKNLTRIMSLVLPLLLFTSFVLPNFAEAHTTNSKENHSPDMVHTPTADISDDEAGYEEKNYEDYSDVIEDPYYSDLANAPV				NA	NA	NA	NA	NA
D1-12_01207	597			hypothetical protein	ATGAGCTTCACTAAGATCAAACAAAAGTTGAAAGAGTTTTCAATTGATGCAAAAACAGATCCCAGCATTAATACAAATGAACAACTCAAAGAGATTGAAATGAACATAGGCGATCAATTACCTTTAGATTATAAGGACTTTTTGAAGAAATATGGAGGCTGTTATTTAGAAAGTAAAAAAACAACAGATGAAGTTGAGTACGACGTTTGCTACAAACCTATAGAGAAAGATCCTTGGATGGGTAAGGACGATGATACACAATTGTTAGAGAATTTTTATGGTTTAGCAAACGATCATAACAGTCTTCAGAAAGCAATCGATACATATTCTGATCGTTTTCCTAGAAATATTATTCCTATCGCAAGCTCCGCAGGCGGGAATGAAATCTGCATGGATATCGATAATGAAAAGATATTGTTTTGGGATCATGAATTAAGTCACCCCGATAAAGACTTTTTCCTTATTGCCAACTCTTTTGAAGAGTTTATCCTAAGATTAGTAGATGAACCAATTGAAACTGATGATAATGACAGTGATGTGGAAATTGAGATTTTAGACAATGACTTTGGAAAATTGCTCTTTGGTAAGGACAACTAA	MSFTKIKQKLKEFSIDAKTDPSINTNEQLKEIEMNIGDQLPLDYKDFLKKYGGCYLESKKTTDEVEYDVCYKPIEKDPWMGKDDDTQLLENFYGLANDHNSLQKAIDTYSDRFPRNIIPIASSAGGNEICMDIDNEKILFWDHELSHPDKDFFLIANSFEEFILRLVDEPIETDDNDSDVEIEILDNDFGKLLFGKDN				NA	NA	NA	NA	NA
D1-12_01208	459			hypothetical protein	ATGTGGGTAAATTTATTAGAGAAAACTCGAAAAACTGAAGCGAAGTATGGAGATGAATTAAATTCTCCTGTTACAGACAAAGAATTAAGCAATTTTAATGAAGTAGTATTAGGCAAGTTCCCTATAAATGAAATTCCTTCAGGATATAAAAAATTTCTTCAAACCGTTAACGGATTAGATTTTAATGGCTTGGTAATCTATGGGCTGGATAAAGTATTTTTAGAAGAAGAAAATGATGAAGAAGTTTATGGTTTTATTGAAACAAATGAACAATGGCACGAAAATGACGAACCGAAAAAATACCTGTTTTTTGGTGATTCAGATACAGCTTGGTATTGCTTGGATGTGATTGAGAATGAATATTTGGAGCTTGATAAACCCTCTGGAACGTTGATGAACAAATTTGATGATTTTAACACCATGCTAGCTGATGCATTGAAAGTTAGCTTAGACAACTAA	MWVNLLEKTRKTEAKYGDELNSPVTDKELSNFNEVVLGKFPINEIPSGYKKFLQTVNGLDFNGLVIYGLDKVFLEEENDEEVYGFIETNEQWHENDEPKKYLFFGDSDTAWYCLDVIENEYLELDKPSGTLMNKFDDFNTMLADALKVSLDN				NA	NA	NA	NA	NA
D1-12_01209	462	yobK_4		Antitoxin YobK	ATGGAACTATACACGCAAGTGGAACAGTTTTTAAATGATAATGCAAAAGAAAGAGATTTCACAGGAGGAATTGGAGAAGACAAAATATCTAAAATAGAACAAGATCTTAAAGTGAAACTTCCGGAGAGCTATAAATGGTTTCTGCGGAACTATGGTTCTGGGGGAGTTTATGGAATTGATATTCTAGGTTATGATTTTGGAGGCCCATCAGTTGTTGAATATACCAACGAGTATCAAGAACACTATAACTTAACCGAAGGTCTTGTTGTAATAGAGGATGTTGATTACTTTGCATATTGTCTAGATACCAACAAGATGAAAAATAAAGAATGTCCTGTATTTACGTGGGATAGAGTAATTGGTTACCAAGAAGTCGTTTCGGATAATTTCATTGAATTTTTCTTTGATAAGCTCCAAAGAATGAAAGAAAACTGGGAAGAAGATGAAGACTGGGACGATTAA	MELYTQVEQFLNDNAKERDFTGGIGEDKISKIEQDLKVKLPESYKWFLRNYGSGGVYGIDILGYDFGGPSVVEYTNEYQEHYNLTEGLVVIEDVDYFAYCLDTNKMKNKECPVFTWDRVIGYQEVVSDNFIEFFFDKLQRMKENWEEDEDWDD	PGPT0027635_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027635-antitoxin_yobK-K21488	NA	NA
D1-12_01210	1764	yobL_4		Ribonuclease YobL	ATGAAAGTATTTGAAGCAGCCTCGTTCATTTCAGCCGCAGAAAAGCGGGCAAAAGAATATGATCAGATTAGAGAACAATTTATCAATCTCAGAAAAGCGTTTCAGGGAATGGCTGACTTAGACGACAGTGAGTTTTCAGGCAAAGGCGCAGAAAATATTAAAGCATTCTTTCAAGATCACGCCGGTGTCACAGACAGCTGGCTTGATCTGATCGATATGAAAATTGCTTTTCTTAACAGTATTTCTGGAAAAGTAGCTGTTGCCGGATTGGCCGATTCGTTTGTGGAAGAGTCTTTTTTAGAACACGAGCTGATTCATGCGAAGAATAAATCAAAAGCCATCATGCAGGAGCAACGGAATGAACTGAGGGATATTCTTAATGAGATAAGCGATATCATTCATCTTGATGTTTTCTCGACAGAGGACGTCGATCAAAAGCTGGACTCAGCAGACAAGAAACGAGACAATACCATACACAAGCTCGGAAAGCTCGATTACGATCTAACGAAAGAATACGCAGAAACCGAAGCGAATGAGCATTTCATCCAAGCTGACTTTCAACAGCTTCAAAATGCTACAGGCAAAGGGAAAAATGCAACACCACTCCACTATAACGCTAAGGCGTACAGAGAAAGCGACATACATAAGAAAAAAGGCGATATTGAAAAACGTACTGAAGCTTATTTGACGATTAAGAAGAAGGAAGAAAAAGAGCGAGAGATTGAAAAACTGAAAGAAAGACTAAAGAATTATGATTATGCAGATGCCGATGAATTCTATTCAATGGCCAAAACAATTGGGTATGAAAATCTGACAGCAGAACAACAAAGATATTTCACACAGATTGAAAACACACGTGAGCTAATGGCTGGAGCCAAAGGTACTGTTACAGCTCTTTATGATATGACAGCTGAAACATTAGACTATATGGCACACAATCATCCTGTCGACATGCTTATTAATTCTGCAGTTGCAGTTTATCACTATGATTCCACGCTTAATTCAATTAAAGATGCAATAATAACCTCCTATATTAGAGACGTAAAGAACGGAGACGCAGAATCAACGGCTCATTGGATTACATGTGCAGCAGTCAACATCTTCGCTTTAAAAGGTGCTGGTTCAGTTGCTAAAATAGGAGTGAAAACAGCTGGAAAAGCTGCAGTCAAAAAAGTGTCTAAAAAACTTGATGAAACTCCTGATCCACTAACAGCAATTAAACCGTTTGTCATGCGAGAAGATGTTGTTGTAGCAGGTGGTGTGCCGTATAATGTCATCAATGGTGTGAGCGCAAAAGACAGGCTGCTTCAGCTTGCTAAAAAATTAGATGAAACAAGAAAGCCATTTACTGGTCAGAAAGTAAATGTCCCTTGGTTAAATAAAGAAAAGTATGGTGCTTATGAGGTTAAGGGCAAGGTGAGAGTAAAAGGAAATATCAAAGATGTAAGCCGAAGAGTTTATACAATGAAAGATATCGATATTAATCAAAAAGATCGTAAAGGTCGAACAAATCTTGAATTAATGAAAGACGGTAAGGCACCTCAAGCCAAAGACGGCACAAAAATCAATTTGCACCATTTAATTCAGGAGGAACCTGGAAATATGGTTGAAATTCCAAACAGTTTACACACAAAATATAGTGAGGTCATACATAAACTTAAAACTGATGGAGAGGGTTTTAGAAATAATCCAGAATTGAAAGTTCAATATGAATATTTTAGAGCGAGATATTGGAAATGGAGAGCCACTCAATATACAGAGTAA	MKVFEAASFISAAEKRAKEYDQIREQFINLRKAFQGMADLDDSEFSGKGAENIKAFFQDHAGVTDSWLDLIDMKIAFLNSISGKVAVAGLADSFVEESFLEHELIHAKNKSKAIMQEQRNELRDILNEISDIIHLDVFSTEDVDQKLDSADKKRDNTIHKLGKLDYDLTKEYAETEANEHFIQADFQQLQNATGKGKNATPLHYNAKAYRESDIHKKKGDIEKRTEAYLTIKKKEEKEREIEKLKERLKNYDYADADEFYSMAKTIGYENLTAEQQRYFTQIENTRELMAGAKGTVTALYDMTAETLDYMAHNHPVDMLINSAVAVYHYDSTLNSIKDAIITSYIRDVKNGDAESTAHWITCAAVNIFALKGAGSVAKIGVKTAGKAAVKKVSKKLDETPDPLTAIKPFVMREDVVVAGGVPYNVINGVSAKDRLLQLAKKLDETRKPFTGQKVNVPWLNKEKYGAYEVKGKVRVKGNIKDVSRRVYTMKDIDINQKDRKGRTNLELMKDGKAPQAKDGTKINLHHLIQEEPGNMVEIPNSLHTKYSEVIHKLKTDGEGFRNNPELKVQYEYFRARYWKWRATQYTE	PGPT0027630_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_01211	534			hypothetical protein	ATGGCAGAAGGGAAGTTAATTCACATGACTCTTAATGGAATAAAGGATGCTGTTTCTAAATACGGAACTTTTCCTATGTTCCAACATGGGGGACATGTCATGGAAGATGCTGCTTTTCAATTCAGAGATCCGGCCAGTCCTCAAGAAATTAACAGCTTAGAAAAAAAGCTAGGGGTAACTTTGCCTAATGATTATAAAGAGTTCCTATTCAGTCACAATGGAATGGAAATGTTTAATGGTGTTGAACTTCTCAGCACTGAAGGGATAATTGAATTTAATGAAGTTCAAGACTTCCCTAAGGGATATGTCCTAATTGGGTATCATTATGATGGCAGGTATGTTGTTGACACAAACAAATCAAATAAGGGATTAGGATATATGATGTATCTAGATTCAATTGATGACATTGAAGATGCGGTATATTTAGACTCTAACTTTGAGATATGGTTTGACATGTTGGTAGCATCAAATGGAACTAAATACTGGGAAGTGAAGCCGGAAATTCAAGGGTATTATAAATATGTCTCAGAATAG	MAEGKLIHMTLNGIKDAVSKYGTFPMFQHGGHVMEDAAFQFRDPASPQEINSLEKKLGVTLPNDYKEFLFSHNGMEMFNGVELLSTEGIIEFNEVQDFPKGYVLIGYHYDGRYVVDTNKSNKGLGYMMYLDSIDDIEDAVYLDSNFEIWFDMLVASNGTKYWEVKPEIQGYYKYVSE				NA	NA	NA	NA	NA
D1-12_01212	966	yokF	COG1525	SPbeta prophage-derived endonuclease YokF	TTGAAGAAATGGCTGTTAGGTATTGGCGCATTATCTCTAAGCTTTTCTTTGGCTGCGTGTGGATCTGATTCTGCTTCTACAGATAAAACAGATTCAGATAAATCTAAAACAACGCAGCAAGAAGAAAAGGATGCAAAAGAGACAAAGGCAGACACTCAACCAAACGACAAAAGCAATAATGACAACAATGAAAAAGCCGAAAATGCTTCAAAGAAGGATTCGTCGGATAAAAAGGCGTCTGACAAAAAGAAAAAGCTGGTCGATGTAACACTTAACAGAACAGTTGATGGGAATACAATTAAAGTTAACTATAAAGGCGAAGTCAAAACTGTTCGTTATTTACTTGTTGACACGCCTAAAACTAAGAAGCCAAACTCTTGCGTAAAACCATATGGTGAGGATGCTTCAGCAAGAAACAAACAGCTGGTTAACAAGGGAAAACTTCAACTGGAGTTTGATAAAGGAGATCGTACAGACAAGTATGGCAGAATGCTGGCTTACGTTTATGCAGATGGCAAATCAGTACAAGAAACACTGCTTAAAGAAGGATTAGCACGAGTAGCTTATGTATATGAGCCAAACACGAAGTATTTAGACACATATAAGAAAGATGAGCAAGTTGCGAAAGATAAAGACTTGAAGATTTGGAGTAAGAATGGATATGCGACCGATAAAGGATTTAATGGCTGCGTAACGAAACCGAAGAAATCAGTAAGTGTATCTAAGCCGGCTCAAAAGTCAGTTGCAACACACCAATCCGAGACACATAAATCGAACTCAAGCAGTTCAGCATCAAGCAGCTCTTCTAACTCTGCACAAGCCTCCCCTTCTGCCGGAGGAATAGAACACTTTGCAAACTGCACAGAGCTGAGAAAGAAATATCCGCATGGCGTACCAAGCACTCACCCTGCTTATACATCTAAAATGGATCGGGATAATGACAACTTTGCATGTGAGAAGAATTAA	MKKWLLGIGALSLSFSLAACGSDSASTDKTDSDKSKTTQQEEKDAKETKADTQPNDKSNNDNNEKAENASKKDSSDKKASDKKKKLVDVTLNRTVDGNTIKVNYKGEVKTVRYLLVDTPKTKKPNSCVKPYGEDASARNKQLVNKGKLQLEFDKGDRTDKYGRMLAYVYADGKSVQETLLKEGLARVAYVYEPNTKYLDTYKKDEQVAKDKDLKIWSKNGYATDKGFNGCVTKPKKSVSVSKPAQKSVATHQSETHKSNSSSSASSSSSNSAQASPSAGGIEHFANCTELRKKYPHGVPSTHPAYTSKMDRDNDNFACEKN				NA	NA	NA	NA	NA
D1-12_01213	321			hypothetical protein	ATGACTGGAAATCGTTTTGTAGACTGGTGTAACGAAAATAACCTAAATTCTGAAGACGAAACTTTTCTCGTCCAGTTGTCAGGTGCATTTTGTAATTATGAAAATGATAAAGCGAAAGAAATGAATAAACAACTATTCATTAACCGATACGGTGAAGAGCTTGGAATTAGCTCCATTAAAGGAGATAATCGATCAGAATATGAAGAAATTATTCGTACTTATGAAAAGAATAATTACAAACAGAACGAAATTAATATAGATGAACTGCTGCAGGCATTATTTGAGACAGAGATGATGTTATCTTTAAAAGAAAAGTTTTGA	MTGNRFVDWCNENNLNSEDETFLVQLSGAFCNYENDKAKEMNKQLFINRYGEELGISSIKGDNRSEYEEIIRTYEKNNYKQNEINIDELLQALFETEMMLSLKEKF				NA	NA	NA	NA	NA
D1-12_01214	633			hypothetical protein	ATGTTAGTATTTTATGGTATTGTGGTCAATGTGTTGAACAATAAAATTAGGGATAAAGGAGAGTTCAAATTGAAAAGTCTATTTGCTAAAATTCTTTTGATGTTGCTTGCAGCCGTTATAGCCATCCCTACTGTTGGAGCTTCGGCCTCAGAAGTGCAAAAAGCGAGTGTTTCTAAACAGGACGTGCAATTTACTTATAATCCTACCGAGCTTCAAAAACTAGCTAAAGAATACTCAGTCCCGTCAGTAAAAGAAAAAGGCATTTTAGATGCTGCTGAAGAATTAAAAGGTCTCGAAAATGGTAACTCACAAGATCAAATGAGTACTATGGGAGCTAAAAGCGCCGCAGCTAAAGAAGCGATTAAGGTTATTAGAGGACTAGCGAATAATGCTTGGGCAAAAGACATTTTAGGTACAATGTTTGGAAAGTCCACGGTAAACAAGATTATTAAAAACACAAACAAAATTTGTAAGGTTCTCGAAGATATAACCGGGGCTCCTAAAGAGGTTGCTGCTATGGCAAGAAAACAAATTCCACCAGCTATTAAAGGTGCAGTTGGCGCAGGAGTTGCTGAAACAATTGGCATGGCAGTAGAATATATCATCCTTGCTGCAGATTATCTTGTTCTTTAA	MLVFYGIVVNVLNNKIRDKGEFKLKSLFAKILLMLLAAVIAIPTVGASASEVQKASVSKQDVQFTYNPTELQKLAKEYSVPSVKEKGILDAAEELKGLENGNSQDQMSTMGAKSAAAKEAIKVIRGLANNAWAKDILGTMFGKSTVNKIIKNTNKICKVLEDITGAPKEVAAMARKQIPPAIKGAVGAGVAETIGMAVEYIILAADYLVL				NA	NA	NA	NA	NA
D1-12_01215	1668			hypothetical protein	TTGGAGTTAAAAAACATCGTTCATTCTTACAACATTACAAATATTTTGGGTTATCTCAGACGCTCTCGTCAGGATATGGAGCGGGAAAAAAGAACAGGCGAAGATACGCTAACAGAACAAAATGAACTCATGAATAAAATACTGAAGTCGATTGAAATCCCCTATGAATTAAAAATGGAAATCGGGTCAGGAGAAAGCATTGAGGGCCGCCCTGTTTTTAAAGAATGTCTTAAAGACCTCGAGGAAGGCAAGTACCAGGCAATTGCTGTTAAAGAAATAACAAGACTCAGCCGCGGGAGCTACAGCGATGCGGGACAAATTGTTAACCTTCTTCAAAGCAAGCGATTGATTATCATTACACCATATAAAGTTTATGACCCTCGAAATCCTGCAGACATGCGTCAAATTCGTTTTGAATTGTTTATGGCCAGAGAAGAATTTGAAATGACCAGAGAGCGTATGACAGGCGCTAAATACACATATGCGGCACAAGGGAAATGGATTTCCGGACTAGCGCCTTATGGATACCGGTTAAACAAAAAAACATCCAAACTAGTCCCAGTCGAAGAAAAAGCAAAAGTCGTTCAACTCATCTTTAACATCTTTTTAAATGGGTTGAATGGAAAAGATTATAGTTATACAGCGATTGCTTCTCACTTAACAAAATTACAAATACCGACTCCATCAGGAAAAAAGCGCTGGAATCAATACACAATTAAAGCAATTCTGCAAAACGAAGCGTATATCGGAACTGTTAAATATAAGGTTAGAGAAAAAACAAAAGACGGTAAACGAACAATTAGACCTGAAAAGGAACAAATTGTAGTATCGTATGCACATGTCCCTATAATAGATCAAGAACAATTTCAACAATCACAAGAGAAAATTGCAAACAAAGTCCCCCTGCTGCCTAATAAAAATGCATTGGAATTAAGTGAATTGGCAGGCGTATGCACTTGTTCTAAGTGCGGTGAACCATTATCTAAATACGAAACTAGGAGAACGCGAGAAAACAAAAACGGCACGAAAAGTGTGTATCACGTTAAATCACTCACTTGCAAAAAGAATAAATGCACTTATGTGAGATATAACGATGTTGAAAATGCCATTCTGGATTACCTCTCTTCTTTAAGCAACTTAGATAATAAGACTTTAACAAAACATATCATTTCAATGATTTCTAAATACGAAGACGTAAATAGTAATGTGAAAACAAAGAAGCAAATGTCTGAACATCTCTCACAAAAAGAACAAGAGTTAAAAAACAAAGAGAATTTTATCTTTGAAAAATATGAGAGCGGCATTTACACTGATGAACTTTTTTTGAAAAGAAAAGCTGTTTTAGATGAAGAATTTAAAGAACTCCAGATTGCCAAGCATGAGCTCAATGGAACTCAAGAAGCGAAATCAGAAATAGACAGTAATACAGTCAGAAACAACATAAATAAGATAATTGATCAATATCACATTGAATCAAGCACAGAGAAAAAGAACGCGCTATTAAGAATGGTCTTTAAAGATGTTATCGTTACTATGACACAAAAAAGAAAAGGGCCAAATCCGGCTCAGTTTGAAATCACCCCTATCCTGAGGTTTAATTTTTCGTTTTCGACCTCACCGTCACTGATAGTCCCTCAAAATACAGTAAATATCTTAAAAAACCGATAA	MELKNIVHSYNITNILGYLRRSRQDMEREKRTGEDTLTEQNELMNKILKSIEIPYELKMEIGSGESIEGRPVFKECLKDLEEGKYQAIAVKEITRLSRGSYSDAGQIVNLLQSKRLIIITPYKVYDPRNPADMRQIRFELFMAREEFEMTRERMTGAKYTYAAQGKWISGLAPYGYRLNKKTSKLVPVEEKAKVVQLIFNIFLNGLNGKDYSYTAIASHLTKLQIPTPSGKKRWNQYTIKAILQNEAYIGTVKYKVREKTKDGKRTIRPEKEQIVVSYAHVPIIDQEQFQQSQEKIANKVPLLPNKNALELSELAGVCTCSKCGEPLSKYETRRTRENKNGTKSVYHVKSLTCKKNKCTYVRYNDVENAILDYLSSLSNLDNKTLTKHIISMISKYEDVNSNVKTKKQMSEHLSQKEQELKNKENFIFEKYESGIYTDELFLKRKAVLDEEFKELQIAKHELNGTQEAKSEIDSNTVRNNINKIIDQYHIESSTEKKNALLRMVFKDVIVTMTQKRKGPNPAQFEITPILRFNFSFSTSPSLIVPQNTVNILKNR				NA	NA	NA	NA	NA
D1-12_01216	576			hypothetical protein	TTGTTGTCCGAGAAGCTGTTTCATCAGGCAAATCATCATGTTCAAAACCGCGGTACGGTGTTTTGTTCGGTCCGCTTCGGCAATGTGCTCGGTTCACGCGGTTCCGTTATTCCTATTTTATTTGAGCAGTTGATGGCAGGCGGCCCGCTCACCATTACGGATAAAAACATGACGAGGTTTTTTATGTCGATTGATGACGCTGCAACGCTCACCCTGCAATCTGCGGCGATCACAAAGGGCGGAGAAACGTTTATTTTTAAAATGGAGTCCCTGAGGCTCGAAGAACTGCTTCACGGGTTTGAAGAATATGCGTTCCGGCACGGATTGCCGCGCCCCGCCGCTGTTGAAGTGGGAAAACGCCCCGGTGAGAAGCTTCATGAAGAACTGACCTCTCCTCATGAGACGGAATCTTTATATGAATGGGGCAATCTTTACGCAATACTGCCGGAACCCGCCAAACATCCGGAATTTCGGAAGGTCAATCTCCCCAGATATCAATCCGATCAGGCGCCGCTCATCACAAAAGACACAATCGTAAAGATTATTGAACGATTACATGAAGAAAAAAAAACATAG	MLSEKLFHQANHHVQNRGTVFCSVRFGNVLGSRGSVIPILFEQLMAGGPLTITDKNMTRFFMSIDDAATLTLQSAAITKGGETFIFKMESLRLEELLHGFEEYAFRHGLPRPAAVEVGKRPGEKLHEELTSPHETESLYEWGNLYAILPEPAKHPEFRKVNLPRYQSDQAPLITKDTIVKIIERLHEEKKT				NA	NA	NA	NA	NA
D1-12_01217	435	msrB	COG0229	Peptide methionine sulfoxide reductase MsrB	ATGGCTTTTAATAAAGAAGAAAAAATCAAATCATTAAACCGCATGCAATATGAAGTCACGCAAAATAACGGAACGGAGCCGCCGTTTCAAAATGAATTCTGGGATCACAAAGAAGAGGGGCTGTATGTTGATATCGTATCGGGAAAGCCCTTGTTTACTTCTCTGGATAAATTTGATTCTCATTGCGGCTGGCCCAGTTTTACAAAACCGATTGAGGAAGAAGAGGTTGACGAAAAACTGGACACAAGCCACGGGATGATCCGGACGGAAGTGAGAAGCAAAACAGCTGATTCCCACTTAGGCCACGTATTTAATGACGGTCCGGGGCCAAGCGGTCTCCGTTATTGCATTAACTCTGCGGCACTCCGGTTTATTCCGAAAGACAAGCTGAAGGAAGAGGGCTATGAAGCCTGTCTGCATTTATTTGAAAAATAG	MAFNKEEKIKSLNRMQYEVTQNNGTEPPFQNEFWDHKEEGLYVDIVSGKPLFTSLDKFDSHCGWPSFTKPIEEEEVDEKLDTSHGMIRTEVRSKTADSHLGHVFNDGPGPSGLRYCINSAALRFIPKDKLKEEGYEACLHLFEK	PGPT0013070_2042	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
D1-12_01218	534	msrA	COG0225	Peptide methionine sulfoxide reductase MsrA	ATGTCAGAAAAAAAAGAAATCGCCACATTTGCAGGCGGCTGTTTTTGGTGCATGGTGAAGCCGTTTGACGAACAGCCCGGAATTGAAAAGGTGGTGTCCGGCTATACAGGAGGCCATACTGAGAATCCGACTTACGAAGAAGTGTGCAGTGAAACGACCGGACACAGAGAAGCCGTTCAAATCACATTCCAACCTGACATTTATCCGTATGAAAAGCTTGTCGAGCTGTTTTGGCAGCAGATCGACCCGACTGATGCAGGCGGCCAGTTTGCAGACCGCGGAAGTTCATATCGGGCGGCGATATATTACCATAACGATGAACAAAAACAAATCGCTGAAGCCTCAAAAAAACAGCTTGAAGAAAGCGGCATATTTAAAAAGCCGATCGTGACAGACATTTTAAAGGCTGAGCCTTTTTATGAAGCGGAAGGCTATCATCAGCACTTTTATAAGAAAAATCCTGATCATTACGGGCGCTACCGTGTAGGTTCCGGACGTCAAGGCTTTCTGGATGAGCATTGGAGGGACAGATAA	MSEKKEIATFAGGCFWCMVKPFDEQPGIEKVVSGYTGGHTENPTYEEVCSETTGHREAVQITFQPDIYPYEKLVELFWQQIDPTDAGGQFADRGSSYRAAIYYHNDEQKQIAEASKKQLEESGIFKKPIVTDILKAEPFYEAEGYHQHFYKKNPDHYGRYRVGSGRQGFLDEHWRDR	PGPT0013065_4515	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
D1-12_01219	405			hypothetical protein	ATGTATGATATGGAAGCTTTGCTTCGAAAAGTGTTTAAACAAATCAGAAATGAAGTTAATGAAATTCTAGATAAAGAGCTGTCCAGGAACGAATTCACCATTTTGCGGATTCTCAGTGAACAAGGGCCTAAAAAAGTAACGGAATTCGCCCCTATTCTTGAGGTCTCCGCAAGCCACATTACCGCAGTGACCGACGCTTTAGTAGAAAAGGAATGGATCACCCGCATCCGTTCTAAAGAGGACAGGCGAATTATCAGAATCCATATTACGGAAGCCGGGGAGAAAATTGTCGATCATTTCAACCAGAAAAAAACAGAATACTTTTTTAAACGGTTTGACTGCTACTCTGATGAAGAGCTTGCAACGTTAATCAAACTGTTCAGCAAGCTAGACAAAAAACGCTGA	MYDMEALLRKVFKQIRNEVNEILDKELSRNEFTILRILSEQGPKKVTEFAPILEVSASHITAVTDALVEKEWITRIRSKEDRRIIRIHITEAGEKIVDHFNQKKTEYFFKRFDCYSDEELATLIKLFSKLDKKR				NA	NA	NA	NA	NA
D1-12_01220	567			hypothetical protein	ATGATGAAAAAGTGGAAATCGCTGTTTTTTGTTCTTCTCGCACTCAATGTGATTGCCGCCGCGGTAATTGTGACATTATTGGTTATGCCGGGAGAGCAGGCGAAAATACAAGATCAGACAAAAAGTGAGTACGGCTTTCATATCACGAGCTCGAAAGAATCTCTTGCCAGGTTTGTGAATGCGTACTTAAAAGAGAAGGCATCGAATCAGCTTGACTACAAAGTGGACATCAATAACGATGTGCACGTGGCAGGTAAAATCAAAGCATTCTCAACCTCCATTAACGCGGTCGTCACTTTTGAACCGTCCGTACAGGAGAACGGAGATGTGATTTTGAAAGTGACGAAATTTTCATTAGGCGAATTAAGTCTGCCGATCAGCTTTGTGCTGAATTATATGGACAGCTTTTATGAACTCCCGTCATTTGTGCACGTTCATTCCGGGGATAAAAGCATCGAGATCCGTCTGTCGGAAATGCCTTTAGACAACGGCATGTATGTAAAAGCGGATAAAATCAATCTCGACACGGATGAAATTGAATTTTCCTATTATCATCCGAAACAATAA	MMKKWKSLFFVLLALNVIAAAVIVTLLVMPGEQAKIQDQTKSEYGFHITSSKESLARFVNAYLKEKASNQLDYKVDINNDVHVAGKIKAFSTSINAVVTFEPSVQENGDVILKVTKFSLGELSLPISFVLNYMDSFYELPSFVHVHSGDKSIEIRLSEMPLDNGMYVKADKINLDTDEIEFSYYHPKQ				NA	NA	NA	NA	NA
D1-12_01221	756	lipC_1	COG2755	Spore germination lipase LipC	TTGAAGCTGCGAATGTTCTCATTGATCGCCGGACTGGCTTTGCTTTTATCAGCATGTTCTGTCCAGCGCACCGGTTCTGACGCTGAAGAACCGAAAACGAAAGATCATATTGTCATAGCTGCGGTCGGTGATTCATTGACTGAAGGAGTAGGAGATCCTGACGGTTCAGGATACGTCGGCAGGGCAGCGGAGTCTCTTAAGAAAAAGGGACATGTGAAAACGGTAGATATTAAAAATTATGCGGTGCAGGGGGACAAAACGTCGGACCTGCTGGAAAAGCTTGATAATAAAAAAGTTCAGAAATCATTAAAGAGCGCCGACTATATCTTTTTTACCATCGGCGGCAATGACTTAATGAAGGTGCTCCGCCAGAATATGATGCAGCTGACGGTTCAGCCGTTCCAAAAGGAAGAGAAACCTTTTGAAAAACGATTCAAGGCGATCGTTTCAAAAATCCGCAAATATAATGAAAACGCAGAGCTGGTGTATGTCAGCATGTATAACCCATTCACGTTTACGCTGCCTGAATTAAAAGAAATTAATGGGGTTGTAACGGATTGGAACAAGATCGCCGCAAAAGAGCTGGAAAAAGATCCCCACGCCGCCGCGGTGAATGTTGAAGACTTGTTCAGTCAAAAAAGCGGCAGCAGACGGATTTCAAAGGATGATGATTTTCATCCGAACGCAAAAGGGTATGCACTTATCGCCGATCGATTGTACGGCATCATTGAAAAACAAGGGTTACCAGCAGAATAG	MKLRMFSLIAGLALLLSACSVQRTGSDAEEPKTKDHIVIAAVGDSLTEGVGDPDGSGYVGRAAESLKKKGHVKTVDIKNYAVQGDKTSDLLEKLDNKKVQKSLKSADYIFFTIGGNDLMKVLRQNMMQLTVQPFQKEEKPFEKRFKAIVSKIRKYNENAELVYVSMYNPFTFTLPELKEINGVVTDWNKIAAKELEKDPHAAAVNVEDLFSQKSGSRRISKDDDFHPNAKGYALIADRLYGIIEKQGLPAE				NA	NA	NA	NA	NA
D1-12_01222	582	ypmQ	COG1999	SCO1 protein	ATGAAAAAAATGAAAATCTTCGCTGCCGTCTTTTGTTTGCTGCTCTTGTGCGCCTGCGGGGGGAAAACGATAAAAGACCCGCTGAACTATCAGATTGAGTCGTTTTCATATCAAAACCAAGACGGAAAAACAGTGTCACTGAAAAGCCTGAAGGGGCATGTCTGGATTGCCGACTTTATGTTTACAAATTGTAATACGGTCTGTCCGCCGATGACGGCCCACATGACCGAACTGCAAAAAAAACTGAAGGCTGAGAACCTGGACGTGCGGATTGTGTCGTTCAGTGTAGATCCTGAAAATGATAAGCCGAAACAGCTGAAAGCATTTGCTTCCAAATATCCGCTTTCGCTTCGCAACTGGGATTTTCTGACCGGTTACAGCCAAAAGGACATTGAAGATTTTGCGCTGAACAGCTTTAAAGCAATCGTCAAAAAGCCGGAGGGAGAGGATCAGGTCATACATCAAACTTCTTTTTATTTAGTCGGACCTGACGGCAAGGTGCTTAAAGATTATGACGGTGTGCAGAAAGTTCCGTATGATGATATCCTGTCAGATGTCAAAGCGGCTGAGGAGCTCAAGTAA	MKKMKIFAAVFCLLLLCACGGKTIKDPLNYQIESFSYQNQDGKTVSLKSLKGHVWIADFMFTNCNTVCPPMTAHMTELQKKLKAENLDVRIVSFSVDPENDKPKQLKAFASKYPLSLRNWDFLTGYSQKDIEDFALNSFKAIVKKPEGEDQVIHQTSFYLVGPDGKVLKDYDGVQKVPYDDILSDVKAAEELK				NA	NA	NA	NA	NA
D1-12_01223	252			hypothetical protein	TTGTTACTCAAAAGCCTAGAGTTCAAACGACAGGACGGGATTCAGGTAAAAGTGACAGAAATACCGGTTGTCACGGAAGGTGAACATTATTTTTTTCAAATTCATCAGCACCTTGAGCTTTATTTGAGAGAAGTTTTTGCTTCACAAAGTGTGAGAACAGTGTATTCATTCCGACAATATGTCAAGCGCCGTATGAAGTGGAAAGATTACGAGGCCGTTTTCAACCAAGAGATTTTAAAACATAACGCTTAA	MLLKSLEFKRQDGIQVKVTEIPVVTEGEHYFFQIHQHLELYLREVFASQSVRTVYSFRQYVKRRMKWKDYEAVFNQEILKHNA				NA	NA	NA	NA	NA
D1-12_01224	1269	ilvA	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGAAACCGTTGCTTAAAGAAGACTCTCTCATCCAGGTAAAAGACATTTTAAAAGCGCACCAAAACGTAAAGGACGTTGTGATACATACGCCTTTGCAGAGGAATGACAGACTTTCTGAGAGGTATGGCTGCAATATCTATTTGAAAAGAGAAGACCTGCAGGTGGTCAGATCATTTAAGCTCAGAGGGGCTTATAATAAAATGAGGCAGCTCTCAAAAGAGCAGACTGAAAACGGAATTGTATGCGCAAGTGCGGGAAACCATGCGCAGGGGGTTGCGTTTTCATGCAAACACCTCGGCATTCATGGCAAGATTTTTATGCCGTCAACCACACCGAGACAGAAAGTATCCCAAGTGGAACTGTTCGGAAAAGAATTTGTTGAAATCATATTGACGGGTGACACTTTCGATGATGCGTATAAGAGTTCTGCGGAATGCTGTGAAAAAGAAAACCGCACGTTTATCCATCCGTTTGACGATCCCGATGTCATGGCCGGACAGGGAACGGCTGCCATCGAAATTTTAAATGACATTGACGTTGAACCGCATTTTCTTTTTGCAAGCGTAGGGGGAGGAGGACTCCTGTCCGGGCTCGGCACGTACATGAAAAACATCTCGCCGGATACAAAAATCATAGCGGTAGAGCCGAAGGGCGCAGCCTCCTATTTTGAATCGAAAAAAGCCGGACAAGTGGTTGAACTTGAGAAAATTGATAAATTTGTCGATGGGGCGGCCGTAAAAAAAATCGGCGCCGAAACCTTTCAAACGCTCGAAACCGTCGTCGATGACGTTGTGCTTGTCCCGGAAGGAAAAGTGTGCAGCACGATTCTCGAATTATATAATCAATGCGCCATCGTAGCGGAGCCGGCGGGTGCATTGTCCGTATCAGCACTTGATCTGTACAAGGAAGAGATTAAAGGAAAAAACGTCATCTGCATGGTCAGCGGAGGGAATAACGACATCGGCAGAATGCAGGAGATGAAGGAGCGCTCGATGATTTATGAGGGGCTGCAGCATTATTTTATCGTTAATTTCCCGCAAAGGGCGGGAGCGCTTCGCGAATACCTTGATGAAGTGCTCGGGCCTGATGATGACATCACCCGGTTTGAATACACGAAAAAAAATAACAAAAGCAGCGGCCCCGCATTGGTCGGCATTGAGCTCAAGCATCGGGAAGATTACGGCGCGCTCATTGCCCGGATGAATCAAAAAGGATTTCATTACGTAGAGGTGAATAAAGATCAGGATCTGTTCCACCTGTTAATCTGA	MKPLLKEDSLIQVKDILKAHQNVKDVVIHTPLQRNDRLSERYGCNIYLKREDLQVVRSFKLRGAYNKMRQLSKEQTENGIVCASAGNHAQGVAFSCKHLGIHGKIFMPSTTPRQKVSQVELFGKEFVEIILTGDTFDDAYKSSAECCEKENRTFIHPFDDPDVMAGQGTAAIEILNDIDVEPHFLFASVGGGGLLSGLGTYMKNISPDTKIIAVEPKGAASYFESKKAGQVVELEKIDKFVDGAAVKKIGAETFQTLETVVDDVVLVPEGKVCSTILELYNQCAIVAEPAGALSVSALDLYKEEIKGKNVICMVSGGNNDIGRMQEMKERSMIYEGLQHYFIVNFPQRAGALREYLDEVLGPDDDITRFEYTKKNNKSSGPALVGIELKHREDYGALIARMNQKGFHYVEVNKDQDLFHLLI	PGPT0001960_2607	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
D1-12_01225	993	norR_1		Anaerobic nitric oxide reductase transcription regulator NorR	ATGAGTGTAATTGAACAAACTGATTCTTTTTATCAACTAGCCGGCGAACATCACACCTTTTCACAAGCGAAACGATTGGCCTCGCAATTTGCCTTATCTGATTTGCCGGTCTTCATAACAGGTGAAGTCGGAACCGGAAAAAAACAAATGGCCAGAGCGATCCACCATAAATCCCGCAGAAACAGCGAACTATTTATTACCGTTCACTGCAGCCAAAGCGAAGAGCGGCTCGAGTATGAACTGTTCGGCGCTGAAGGCGCATTAAACAGGGCCCGCCGCGGAACATTATTCTTATATGAAATCGGAGACATGCCGCTCTCGGTACAGGCCCGCCTTCTTTCCGAGCTGGACGCCGGGCTTTCCGCCCGCATCATTGCAAGCAGCACGGCGGATCTTGGCGATACCGGCGCGGAAAATACGTTCAGCCAAGATTTATTTTACAGGCTTCACGTGTTATGCCTTCCGCTCCCTGCTTTATCTGAACGAAAAAGCGATATACCGCTTCTTCTGCAGCATATGCTGACAGCCACGGGGCAGCATGTTCATATCGATCCGTCCGTTTATCCGCTGTTTGAGCGGCACACCTTTAACGGCAACATCAGAGAACTTCAAAATGCGGCGTACTATATGGCCGCGGCAGCATCCGGCAGCACGATTTATCCCGATGATGTCCCGCCGTATATCAAAAACAGCCAGAAAGCGAAAACAGCTAAGAAAAAAGAAAAACGGCTGACATTGATGGAGAAAGAAGAGTTTTTGTTTATTTTGGAATCAATTAAAGACTTAAATACAAAGGGCGAACCCGCCAGCAGACGGAGCATATCCGAATTAAGCGAAAACAGCACAATGACATTATCGCCCCAGCAGGTCAGAAACAGGCTTGATTACTTAGAAAAGATGAACTATGTGACAAAAGGCCGAGGACGCGCAGGAACAAAAATTACATTAGAAGGGTTGAGCTTTTTGCAGTCACTGCAAAAACAAATCCTTTAA	MSVIEQTDSFYQLAGEHHTFSQAKRLASQFALSDLPVFITGEVGTGKKQMARAIHHKSRRNSELFITVHCSQSEERLEYELFGAEGALNRARRGTLFLYEIGDMPLSVQARLLSELDAGLSARIIASSTADLGDTGAENTFSQDLFYRLHVLCLPLPALSERKSDIPLLLQHMLTATGQHVHIDPSVYPLFERHTFNGNIRELQNAAYYMAAAASGSTIYPDDVPPYIKNSQKAKTAKKKEKRLTLMEKEEFLFILESIKDLNTKGEPASRRSISELSENSTMTLSPQQVRNRLDYLEKMNYVTKGRGRAGTKITLEGLSFLQSLQKQIL	PGPT0021745_1204	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021745-atoC-K07714	NA	NA
D1-12_01226	639			hypothetical protein	TTGTTCACAATAAAAGAAGAAATCGCAAATGCCGTCACACACGGAATCGGTGTATTGCTGTCGATTCCGGCGCTTATTTTTCTCATTATCTTCGCGGTGAAATACGGCTCGCCGACAGACATCGTCAGCTTTTCAATCTTCGGCGCTTCAATGCTGCTGCTGTATCTCAGCTCGACTCTTTTGCACAGCATTCAGCATAAAAAAACGAAAGACATTCTTGAGATTGTGGATCATTCCGCGATATACGTATTAATAGCCGGAACATATACGCCATTTTTATTAGGACCCCTTAAAGGGGCGCTCGGTCTGACCCTTTTAATTATTGTTTGGTCGCTTGCCATCGGAGGCATCGTGTTTAAAATCTTTTTCGTGAAGCGGTTTATCATTTTTTCAACGCTTGTCTATTTAATGATGGGCTGGCTGATCATCGTCGCCATTAAACCGCTGTACGCTTCGCTGTCAGGCCCCGGTTTCGGCCTTCTTCTTTTCGGCGGCTTATTGTATTCCGCCGGCACAATATTTTATATTTGGAGAAAGGTTCCGTATCATCACGCCATTTGGCACAGTTTTGTTTTAGGCGGCAGCGCCTCGATGTTTTTCTGTATTTTGTTTTATTGCGTCAAAGTTCCCTTTATCTGA	MFTIKEEIANAVTHGIGVLLSIPALIFLIIFAVKYGSPTDIVSFSIFGASMLLLYLSSTLLHSIQHKKTKDILEIVDHSAIYVLIAGTYTPFLLGPLKGALGLTLLIIVWSLAIGGIVFKIFFVKRFIIFSTLVYLMMGWLIIVAIKPLYASLSGPGFGLLLFGGLLYSAGTIFYIWRKVPYHHAIWHSFVLGGSASMFFCILFYCVKVPFI				NA	NA	NA	NA	NA
D1-12_01227	624			hypothetical protein	TTGATTCGTTACGGCTGCCTTGTGATGTACGTTGTATTTATGTTCATGAAAAATATTCAGGAATATATCAATCAAAAAGAGCTTGACCCGCGGCTTTCTTTTCAAAAACAGATGAGGCTGGTGTATGAGCGGCCGAAAGCCTTTATGAGAGGCTGCATTGACGTGTCGGGATCGGCAATCGGCATTCATCATGATCAGCCGATACCGGACGGCCCCGTATTGTATGTGCATCCCAGATTGCGCCCGGCTGATCTTCTTCTGCTTGCGGGACATCTTGAAGAGCCGGCTGGTTTTATCGCTGGCGAGAAAGCTTTCCGGATGCCGTTTCTCGGAAATTGGCTGCGGCTGATGGGTGTCATTTGTGACGGAGACAGCCGGGACGCAGTGTTTCAGGAGGCGGAAGTCCGTCTGCAAAAAGGGCAAAGTCTGATTCTGTCCGAAGACGGCAAAATCAATCCGGAGGAACTGGCTCTTCGTTTCGATCTCCCGATTGTGCCTGTCAGCACTTCGGGAACAGACCGCTTGCTGCGGGGCAGATTACTGAAACGGCTGAAACCGGCTGACATTGAATTACATATAAAGCCCGCTTATTATCCGGCCGGTCAGAAACGGCTCCGTGCATAA	MIRYGCLVMYVVFMFMKNIQEYINQKELDPRLSFQKQMRLVYERPKAFMRGCIDVSGSAIGIHHDQPIPDGPVLYVHPRLRPADLLLLAGHLEEPAGFIAGEKAFRMPFLGNWLRLMGVICDGDSRDAVFQEAEVRLQKGQSLILSEDGKINPEELALRFDLPIVPVSTSGTDRLLRGRLLKRLKPADIELHIKPAYYPAGQKRLRA	PGPT0024380_6573	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-12_01228	486			IS1595 family transposase ISSsu9	ATGATTTCGTTTATTTTTGCGATGGATGAAAACCGGCTGATCGGAAAAGATAACGATCTGCCTTGGCACCTTCCCGATGATCTCGCATATTTCAAAAAAGTGACGACGGGTCACACCATTGTAATGGGGCGGAAAACGTTTGAATCAATCGGACGCCCGCTTCCGAACCGGCGTAACATCGTTGTAACCTCACGGGACGAATCTTCATTCCCGGGCTGTATTACCGCCGACTCGGCTGAGGAAGTGCTCAAGCTGATCCCGGCCGATGAAGAATGCTTTGTGATCGGCGGCGCCCAGCTGTACAGTGCGCTCTTTCCTTATGCGGACAGACTTTACATGACAAAAATTCACCATGTCTTTGAAGGAGACCGTTTTTTTCCGGAATTTAATGAAGCTGAATGGGAATTGACATCCCGCAAACAGGGAGTAAAAGATGAAAAAAACCCTTACGATTATGAGTACCTTGTATACGAGAAAAAGAATTGA	MISFIFAMDENRLIGKDNDLPWHLPDDLAYFKKVTTGHTIVMGRKTFESIGRPLPNRRNIVVTSRDESSFPGCITADSAEEVLKLIPADEECFVIGGAQLYSALFPYADRLYMTKIHHVFEGDRFFPEFNEAEWELTSRKQGVKDEKNPYDYEYLVYEKKN	PGPT0007945_3289	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
D1-12_01229	795	thyA2	COG0207	Thymidylate synthase 2	ATGAAACAATATAAAGATTTATGCCGTCATGTGTTAGAAAACGGAGAAAAAAAAGGAGACCGTACGGGAACGGGTACGATCAGCACGTTCGGCTACCAAATGCGGTTTAACCTTCAGGAAGGTTTCCCGATGCTTACGACGAAAAAGCTCCATTTTAAATCCATCGCGCATGAGCTGCTTTGGTTTTTAAAAGGAGATACGAATGTCCGCTACCTTCAGGAAAACGGAGTCCGCATCTGGAACGAATGGGCGGATGAAAACGGAGAACTCGGACCGGTTTACGGTTCTCAATGGCGTTCATGGCGCGGAGCGGACGGCGAGACCATTGATCAAATCTCCCGGCTGATTCACGACATCAAGACAAACCCGAATTCCAGACGTTTAATCGTCAGCGCTTGGAATGTCGGCGAAATTGATCATATGGCGCTTCCGCCTTGCCACTGCCTGTTTCAGTTTTATGTCGCGGACGGAAAACTGTCGTGTCAGCTTTATCAGCGCTCAGCGGATGTCTTTCTCGGCGTGCCGTTCAATATTGCGTCTTATGCGCTTTTAACAATGATGATCGCGCATGTGACGGGACTTGAACCGGGTGAGTTTGTTCATACATTCGGAGACGTCCACATTTACCAAAACCATGTGGAGCAGGTGAATTTGCAGCTGACAAGGGATGTCCGTCCGCTGCCGAAACTGCGGTTTGCGCGAAATGTTGATTCTATTTTTGATTTTACGTTTGAAGACTTTATCATTGAGGATTATGACCCGCATCCGCACATCAAAGGAGCTGTCAGCGTATGA	MKQYKDLCRHVLENGEKKGDRTGTGTISTFGYQMRFNLQEGFPMLTTKKLHFKSIAHELLWFLKGDTNVRYLQENGVRIWNEWADENGELGPVYGSQWRSWRGADGETIDQISRLIHDIKTNPNSRRLIVSAWNVGEIDHMALPPCHCLFQFYVADGKLSCQLYQRSADVFLGVPFNIASYALLTMMIAHVTGLEPGEFVHTFGDVHIYQNHVEQVNLQLTRDVRPLPKLRFARNVDSIFDFTFEDFIIEDYDPHPHIKGAVSV	PGPT0008145_2651	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
D1-12_01230	609			hypothetical protein	ATGAAATTGTGGATGAAAAAGACCCTTGTGGTTCTGTTTACCATTGTAACGTTCGGTCTCGTGTCTCCTCCGGCTGCTTTGATGACAGACAAGCCTTCAGGACAGTCGAGCAGTCTTGAGCAGAATGATTACACCGCTTTTTATGATGAACATGCCCTGCCGGGAGAAGAGAAGGCAGGGCGGGAGCCTGAATTACTGTTTCAATCGTATCAGCAGCAGCTTCTCGGTGATGCTGAAAATCAATCATTTTTAAAATTCGGCAGCAAAATCTCTCCGGTCATTGAAGATGATTACAGAAGTGAAATTCTGCCGAAAATCGAAGATGTGATCACAGGACATTTAGCCAAGTTTCAAGATGATGAAGCGTATCAGGATGTGGTTATTTCCAGTAAACCGTCGGCCGGAAAAACCGAAAAAATTTTTCATGTGTATAACAGGCTGACGGGTGAAGACCTTTTAAGGTTTCACGTCCGCCGGGACCATCCTCCGCAAGACGGCTACTGGTTTAATTTTCATTACCATACCGCTGAAGACGGATTTCAATCACATCATGAGCTCGGCAGCATTTACTGGGACCGCAATACGCCGCCTGACTGGATGAGCGTGTAA	MKLWMKKTLVVLFTIVTFGLVSPPAALMTDKPSGQSSSLEQNDYTAFYDEHALPGEEKAGREPELLFQSYQQQLLGDAENQSFLKFGSKISPVIEDDYRSEILPKIEDVITGHLAKFQDDEAYQDVVISSKPSAGKTEKIFHVYNRLTGEDLLRFHVRRDHPPQDGYWFNFHYHTAEDGFQSHHELGSIYWDRNTPPDWMSV				NA	NA	NA	NA	NA
D1-12_01231	771	rsmJ		Ribosomal RNA small subunit methyltransferase J	ATGATCACAACGAGTTACAGACCAAGCGAATATACGATACACACAGCGCAGTCACTCAGTGTCAGGCTGGGTGACACTTACTGCAGCCGCAATAAACAGCCCATTGAAAAAATGCTGGAACGAGCGGCTGGCGATCTTTTAGTCATCGGAAAGGAACGGTTCGAACTTTACACGAAGCAAGGGGAGAAGTTCTTTTTTCACCCGAATACAGCGATGTTCCGTGCAAAGCGGTTTTTGAGAGGGGAAGCCGAGCCGTTGTTAAAAGCAGCCAGATTACGCGAGGGGGATTCCTTTTTAGATTGTACGCTCGGCCTGGCATCTGATGCGATTTTGGCAAGCCTGGCAGTCGGAAAAAGCGGACAAGTTATCGGCCTGGAGAAAAACAAGCTTGTCTCATTGCTTGTTGAAACAGGACTTCAAACGTGGGAAACCGGAATGGAGCAGCTCCAAACCGCCATGAAACGCATTCAGGTCAAACATGCCGACTGCGCCGATTATTTGCGGGAGCTTCCTGATTCATCGGTAGATGTCATTTATTTTGACCCGATGTTTCACGAACCTGTTGAAACGTCAGACGGCATTGCACCGCTCCGCGCGCTGGCAGAAGAGGGTTTTAACGAAGAGTGCATCACGCAAGCCGTCCGGGCGGCGAAAAAATGCGTAGTGCTTAAAGACCATTGGAAAAGCCCGCGGTTTGAACGATACGGCTTCAAGGTGCTGAAAAGAAAGACGGCGCTTTTCCACTTCGGTGTCATCCATGTAAGCTCATGA	MITTSYRPSEYTIHTAQSLSVRLGDTYCSRNKQPIEKMLERAAGDLLVIGKERFELYTKQGEKFFFHPNTAMFRAKRFLRGEAEPLLKAARLREGDSFLDCTLGLASDAILASLAVGKSGQVIGLEKNKLVSLLVETGLQTWETGMEQLQTAMKRIQVKHADCADYLRELPDSSVDVIYFDPMFHEPVETSDGIAPLRALAEEGFNEECITQAVRAAKKCVVLKDHWKSPRFERYGFKVLKRKTALFHFGVIHVSS				NA	NA	NA	NA	NA
D1-12_01232	435			hypothetical protein	ATGTCAATGGCTTATGAAGAATATATGCGCCAGCTGGTCGTGCCGATGCGCCGTGAGCTGACGGGTGCGGGTTTTCAGGAATTAACGACTGCTGAAGAAGTAGAAAGTTTTATGGAACAGGCAGAGGGCACGACATTGGTCGTTGTCAACTCCGTGTGCGGCTGTGCAGCCGGTCTTGCCCGTCCGGCTGCGACTCAGGCTGTTTTACAGCATGAAAAAGCGCCTGACCATACGGTTACCGTATTTGCCGGTCAAGATAAAGACGCAACTGCAAAAATGCGTGAATATTTTACGGGGCAGGAACCTTCCTCGCCATCAATGGCGCTGTTAAAAGGGAAAGAGGTCGTTCATTTTATTCCCCGCCACGAAATTGAAGGGCATGACATGGAGGAGATTATGAAAAATCTGACGGATGCCTTCGATGCGCACTGCTGA	MSMAYEEYMRQLVVPMRRELTGAGFQELTTAEEVESFMEQAEGTTLVVVNSVCGCAAGLARPAATQAVLQHEKAPDHTVTVFAGQDKDATAKMREYFTGQEPSSPSMALLKGKEVVHFIPRHEIEGHDMEEIMKNLTDAFDAHC	PGPT0014657_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0014657-bmrU-NA	NA	NA
D1-12_01233	1677	ilvD	COG0129	Dihydroxy-acid dehydratase	ATGGCAGAATTACGCAGCAACATGATCACACAGGGAATTGACAGAGCGCCGCACCGCAGCCTTCTTCGCGCTGCCGGCGTAAAAGAAGAAGACTTCGGCAAGCCGTTTATCGCGGTCTGTAATTCATACATCGATATCGTTCCCGGGCATGTTCACCTGCAGGAATTTGGAAAAATCGTAAAAGAAGCAATCAGGGAAGCGGGCGGTGTGCCTTTTGAATTTAACACGATCGGAGTAGATGACGGAATCGCGATGGGGCATATCGGCATGAGATATTCGCTGCCGAGCCGCGAAATCATTGCCGATTCAGTTGAAACAGTCGTCTCGGCGCACTGGTTTGACGGAATGGTCTGCATTCCGAACTGCGACAAAATTACGCCGGGAATGCTGATGGCGGCTATGCGGATTAATATTCCGACCATTTTTGTCAGCGGGGGGCCGATGGCAGCCGGCCGTACAAGCGACGGCCGCAAAATTTCGCTTTCTTCAGTATTTGAAGGCGTCGGCGCATATCAAGCCGGGAAAATCGGTGAAAGCGACCTGCAGGAGCTGGAACAGTTCGGCTGCCCGACATGCGGATCTTGTTCGGGCATGTTTACGGCAAACTCCATGAACTGTCTGTCTGAAGCGCTCGGTCTGGCGCTTCCGGGCAACGGAACAATTCTAGCAACTTCACCGGAGAGAAGAGAGTTTGTGAGAAAATCAGCGGCCCAATTGATGGAGACCATCAAAAAAGACATTAAGCCGCGCGATATCGTCACCGAAAAAGCGATTGACAACGCGTTTGCGTTAGACATGGCTCTCGGCGGCTCAACCAACACGGTGCTTCATACGCTTGCGCTTGCCAATGAAGCTGGGGTTGAGTACTCTTTAGAACGCATTAACGAAGTGGCTGAACGAGTGCCTCACTTATCGAAATTGGCGCCGGCCTCGGACGTCTTCATTGAAGATCTGCACGAAGCGGGCGGAGTCTCGGCGGCCCTTAATGAATTGGCGAAAAAAGAAGGGGCGCTTCATCTTGACGCGCTGACTGTAACAGGCCGCACACTCGGAGAAACAATTGCGGGTCATGAAGTAAAGGATTATGACGTGATTCATCCGCTTGACAATCCGTTTACCGAAAAAGGCGGTTTGGCCGTCCTGTTTGGGAATCTGGCTCCGGACGGCGCCATTATCAAAACAGGCGGTGTACAGGACGGGATTACAAGACATGAAGGTCCCGCTGTCGTCTTTGATTCCCAGGATGCCGCGCTTGAAGGCATTATAAACCGCAAAGTAAAAGAAGGAGATGTTGTCATTATCCGTTATGAAGGGCCAAAGGGCGGCCCGGGCATGCCGGAGATGCTTGCTCCGACGTCTCAGATTGTCGGAATGGGGCTTGGCCCGAAAGTGGCGCTTATTACAGACGGCCGTTTTTCAGGAGCGTCCCGGGGCCTTTCAATCGGGCACGTATCGCCTGAAGCGGCTGAAGGCGGCCCGCTCGCATTCGTAGAAAACGGCGACCATGTCATCGTTGACATAGAAAAACGGATTTTGGACGTACAAGTGCCTGAAGAAGAATGGGAAAAACGCAAGGCCGAATGGAAAGGCTTCGAGCCGAAAGTAAAAACAGGATATCTGGCCCGGTATTCCAAACTCGTAACAAGCGCCAATACAGGCGGAATCATGAAAATATAA	MAELRSNMITQGIDRAPHRSLLRAAGVKEEDFGKPFIAVCNSYIDIVPGHVHLQEFGKIVKEAIREAGGVPFEFNTIGVDDGIAMGHIGMRYSLPSREIIADSVETVVSAHWFDGMVCIPNCDKITPGMLMAAMRINIPTIFVSGGPMAAGRTSDGRKISLSSVFEGVGAYQAGKIGESDLQELEQFGCPTCGSCSGMFTANSMNCLSEALGLALPGNGTILATSPERREFVRKSAAQLMETIKKDIKPRDIVTEKAIDNAFALDMALGGSTNTVLHTLALANEAGVEYSLERINEVAERVPHLSKLAPASDVFIEDLHEAGGVSAALNELAKKEGALHLDALTVTGRTLGETIAGHEVKDYDVIHPLDNPFTEKGGLAVLFGNLAPDGAIIKTGGVQDGITRHEGPAVVFDSQDAALEGIINRKVKEGDVVIIRYEGPKGGPGMPEMLAPTSQIVGMGLGPKVALITDGRFSGASRGLSIGHVSPEAAEGGPLAFVENGDHVIVDIEKRILDVQVPEEEWEKRKAEWKGFEPKVKTGYLARYSKLVTSANTGGIMKI	PGPT0001875_4624	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
D1-12_01234	1134			hypothetical protein	ATGAAGATTAAATCAATAGAACCGACGCCGAGTCCGAACACGATGAAAGTGATTTTGACTGAAGAGCTTCCGGCAGGGAAAAGCAACAATTACAAGCCCGATCAGGCAGATGATGCTCCGGCTGTCGTACGTGATATTTTAAACATTGAAGGAGTAAAGGGCGTTTATCACGTTGCCGATTTCCTGGCTGTGGAGAGAAACGCCCGTTTTGACTGGAAGGAAATTCTGCCTCAGGTCCGTTCCGCTTTCGGAATGGAACATACGGAGCAGTCTGAGAGCCGTTCTGAACAGGAATCGTTCGGTGAAGTGAAGGTTTTCGTACAAATGTTCAGCGGAATCCCGATGCAGGTCAAATTGACGGACGGCGAACGTGAAGAACGCTTCGGCCTTCCGGAACGTTTCCAAGAAGCCATTTTAAAGCTGCGTTCCGAAGCTTCAAATGTCGTATTTGAGCGGGCTTGGAAAGAACAAGGTGTGCGCTTCGGAGATTTTACCGAAATCGGACATGATGTCACAGAAGAGCTTCAGGCCGCCTACAGTGATGAACGGCTCAAACGTCTGACAGAAGCAGCCGCACAGCAAAAGGGTGAGGCCAAACCGGCAGTGCAGCGGAAAGCTTATAAAGTGACATTGGAGATGCTCGATGATGAAGACTGGAAACAGCGCTATGCCCATCTTGAGCAAATGGATCCGGATGAAGACGATTTACCAGTATTGGAAAAGGCGCTGCATGATCCGAAGACTTCGATCAGAAGACAAGCCGTCGTTTATTTGGGAATGATCGAAAAGCCGTCTGTGCTTCCGCTGTTATACAAAGCGCTTGAAGACAAAACGGTGACGGTCAGAAGGACGGCGGGTGACTGTCTGTCGGATCTCGGCGATGCGAGCGCCATCCCGGCCATGATGAAATCGCTCAGTGACTCAAGCAAGCTCGTGCGCTGGCGCGCGGCCATGTTTTTATATGAAGTCGGCGATGAAAGCGCGCTGGAAGCATTAAAAGCGGCGGAAGACGATCCGGAATTCGAAGTCAGCCTGCAAGTCAAAATGGCGATTGAACGGATTGAGCACGGAGAAGAGGCGAAAGGTTCAGTCTGGAAACAGATGACTGAAAGCAGAAAAAAAGAACAGTTATAA	MKIKSIEPTPSPNTMKVILTEELPAGKSNNYKPDQADDAPAVVRDILNIEGVKGVYHVADFLAVERNARFDWKEILPQVRSAFGMEHTEQSESRSEQESFGEVKVFVQMFSGIPMQVKLTDGEREERFGLPERFQEAILKLRSEASNVVFERAWKEQGVRFGDFTEIGHDVTEELQAAYSDERLKRLTEAAAQQKGEAKPAVQRKAYKVTLEMLDDEDWKQRYAHLEQMDPDEDDLPVLEKALHDPKTSIRRQAVVYLGMIEKPSVLPLLYKALEDKTVTVRRTAGDCLSDLGDASAIPAMMKSLSDSSKLVRWRAAMFLYEVGDESALEALKAAEDDPEFEVSLQVKMAIERIEHGEEAKGSVWKQMTESRKKEQL				NA	NA	NA	NA	NA
D1-12_01235	609	yedJ	COG1418	putative protein YedJ	GTGAACGAAAAAGAGCAGCTGGAAAGCGTCAGGAATTGGGTCAGAGAAAAGCTTATCAATGAACGAACGGGCCATGACTGGCTTCATATTTCCCGGGTCGCAACACTTTCTGTTTATATGGCAAAAGAAGAAGGCGCCGACTTATTTATCACTGAGACGGCTGCGCTGGTTCATGATCTGATTGACGCCAAGCTCGAAAAAAGCGAAAGGCTGACGGCAGGCGAAGTGACAGAACGGCTGGCTGCTTTCAACATCGCGGATGGCCCCATTCAGGAGATTACGGATATTATCACGAGAATGTCATTCAGACACAGGGAACTGCTGAAAAAGCGGCCGCTTTCATTGGAGGGGAAAGTTGTTCAGGATGCAGACATGCTTGATGCGATCGGCGCAGCGGGCATCGGCAGGGCTTTTATGTTTGCCGGGGCGAAGGGTCATCCGATGTACGGAACTCAAACAAGTGTGCTGGCCCATATAGAGGATAAATTAATCAAGCTTAAAGGCTTAATGAATACAAAAACGGGGGCCGGTTTAGCAGAGGAGCGGCATCAATTTCTTTTACAGTTCGCCGCCCGTATCCAAAAAGAGGCCGGCATTTGCAAAAGCTAA	MNEKEQLESVRNWVREKLINERTGHDWLHISRVATLSVYMAKEEGADLFITETAALVHDLIDAKLEKSERLTAGEVTERLAAFNIADGPIQEITDIITRMSFRHRELLKKRPLSLEGKVVQDADMLDAIGAAGIGRAFMFAGAKGHPMYGTQTSVLAHIEDKLIKLKGLMNTKTGAGLAEERHQFLLQFAARIQKEAGICKS				NA	NA	NA	NA	NA
D1-12_01236	483	bsaA		Glutathione peroxidase BsaA	ATGACAATTTACGATATAAACGTACGGACCATAACAGGCGAAGACATGACACTATCGGCTTACAGAGGCAAGGTGATGATCATTGTGAATACAGCAAGCAAATGCGGGTTCACATCCCAGCTCAAGCAGCTTCAGGAGCTCTATGATACATATCGGGAGGAAGGTCTTGAAATATTAGGATTTCCCTGCAACCAATTCATGAACCAAGAACCTGGAAACGAAGCGGAAATTCAAGAGTTCTGTGTGAAAAACTACGGGGTCACATTCCCGATGTTTGCGAAAGTTGATGTCAATGGAGCAGACGCTCATCCTCTCTTCACATATCTGACGGAACAGGCGAAGGGGATGCTCGGCACAAAAGCGGTCAAATGGAATTTCACTAAGTTTATCGTGGACCGAAACGGTGAAGTCACCGGGCGTTTTTCACCGAACGTCAACCCAAAAGAGCTTGAAGATACGGTGCAGAAGCTTTTGGCCCGATAA	MTIYDINVRTITGEDMTLSAYRGKVMIIVNTASKCGFTSQLKQLQELYDTYREEGLEILGFPCNQFMNQEPGNEAEIQEFCVKNYGVTFPMFAKVDVNGADAHPLFTYLTEQAKGMLGTKAVKWNFTKFIVDRNGEVTGRFSPNVNPKELEDTVQKLLAR	PGPT0013115_4465	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
D1-12_01237	909	metAA		Homoserine O-acetyltransferase	ATGTTGCCTATTAATATACCAAATCACCTGCCCGCTAAGCAGGTGCTTGAAAGTGAACACATCTTTGTAATGGATGAAAGCCGGGCTTTTCATCAGGATATCCGGCCGCAGAAGATCGTGATTTTAAATCTGATGCCGAAAAAAATCCAAACGGAAACCCAGCTCCTCAGGATGCTTGGGAATTCACCTTTACAAGTTCACTTTACGTTCTTAATTCCGAGCACACATACTCCAAAAAATACGGCAAGGCAGCATCTGGATGAATTTTATACGGATTTTTCCAGCATCCGCCACAAACGGTTTGACGGAATGATTATTACCGGGGCTCCGATTGAGCACCTGCCGTTTGAAGATGTTTCTTACTGGGAAGAATTGAAGGAAATCATGGAATGGAGCAAAACGAACGTCACTTCAACACTCCATATCTGCTGGGGCGCTCAAGCCGGTTTATACTATCATTACGGCATTGAGAAAGTGGAGCTGCCGAAAAAAATCTTCGGTGTGTTTGAGCATACCGTTCTTAAAAAACATGAGAGATTGGTAAGAGGATTTGACGAGCTATACTATGTGCCCCACTCACGGCATACAGATATTAATACGGAGCAGCTGCAATCGGCTTCGGATCTGGATGTGCTCAGCGTTTCAGAGGAAGCGGGGGTCTGTTTAATCGTTTCAAAAGACGAAAAACAGATTTTCTTAACCGGTCATCCGGAATATGATACCGATACGCTACTTCAGGAGTATGAGAGAGACATAGAGAGAAATCTTTCAAACGTAGAAGCTCCTAAGCACTATTTTGCGCCCGGCGGGAAAGAACCTGTTAACCGTTGGAAAGCTCATGCAACGTTATTGTTTATGAATTGGCTGAATTATTACGTATATCAGGAAACCCCGTATGAATGGGATTAA	MLPINIPNHLPAKQVLESEHIFVMDESRAFHQDIRPQKIVILNLMPKKIQTETQLLRMLGNSPLQVHFTFLIPSTHTPKNTARQHLDEFYTDFSSIRHKRFDGMIITGAPIEHLPFEDVSYWEELKEIMEWSKTNVTSTLHICWGAQAGLYYHYGIEKVELPKKIFGVFEHTVLKKHERLVRGFDELYYVPHSRHTDINTEQLQSASDLDVLSVSEEAGVCLIVSKDEKQIFLTGHPEYDTDTLLQEYERDIERNLSNVEAPKHYFAPGGKEPVNRWKAHATLLFMNWLNYYVYQETPYEWD				NA	NA	NA	NA	NA
D1-12_01238	1143	ugtP	COG0707	Processive diacylglycerol beta-glucosyltransferase	TTGAATACCAATAAAAAAGTATTAATTTTGACTGCAAATTACGGAAACGGGCATGTTCAAGTGGCCAAAACGCTCTACGAACAATGTCTGCGTCTCGGCTTAGATGTGACGGTTTCCAATTTGTATCAAGAGTCAAATCCGATTGTTTCAGAGGTTACTCAATACCTTTATTTAAAAAGCTTCTCAATCGGAAAACAGTTTTATCGTTTGTTTTATTACGGAGTTGACAAAATCTATAATAAACGCAAATTCAATATTTATTTTAAAATGGGAAATAAACGTTTAGGCCAGCTCGTCGAAGAGCATAAGCCGGACATTATTATCAATACATTTCCGATGATTGTCGTACCGGAATACAGACGGAGAACCGGAAAAGTGATCCCGACGTTCAACGTTATGACCGATTTCTGCCTTCACAAAATCTGGGTTCATGAAAATGTTGATAAATATTATGTCGCCACAGATTACGTGAAGGAAAAACTGATTGAAATCGGCACTCACCCGAACAACGTAAAGATTACGGGCATTCCCATCAGGCCTCAATTCGAGGAATCGATGCCGAAAGAGCCGATTTACAAAAAATACAATCTCTCTCCCGACAAAAAAGTTCTTCTTATTATGGCGGGAGCGCATGGTGTGCTGAAAAACGTAAAAGAACTGTGCGAAAATCTCGTTCATGACGATCAGGTGCAGGTTGTGGTGGTATGCGGCAAAAACAGCTCGCTGAAAGAATCCCTCAGCAGCTTGGAAGGTGACAATGCCGACCGGCTGAAAGTGCTGGGCTATGTAGAAAGAATTGACGAGCTGTTCCGTATTACGGACTGCATGATCACGAAACCGGGCGGCATCACACTGACGGAAGCGACGGCGATCGGAGTACCCGTTATTTTGTACAAACCGGTTCCCGGACAGGAAAAAGAAAATGCCATTTTCTTTGAAGATCGCGGTGCGGCTGTCGTGGTCAACCGCCACGAAGAAATTTTAGAGTCTGTCACCTCCCTTCTTGCGGATGAGGAGAAGCTGAACCGGATGAAGGACAATATTAAAAGCCTTCACCTCCCCAACTCTTCTGAAGTCATTTTGCAGGACATTATAAAAGAATCTGAAATGATGGCCGGGAAGGCGGATATGGCATTATCGTAA	MNTNKKVLILTANYGNGHVQVAKTLYEQCLRLGLDVTVSNLYQESNPIVSEVTQYLYLKSFSIGKQFYRLFYYGVDKIYNKRKFNIYFKMGNKRLGQLVEEHKPDIIINTFPMIVVPEYRRRTGKVIPTFNVMTDFCLHKIWVHENVDKYYVATDYVKEKLIEIGTHPNNVKITGIPIRPQFEESMPKEPIYKKYNLSPDKKVLLIMAGAHGVLKNVKELCENLVHDDQVQVVVVCGKNSSLKESLSSLEGDNADRLKVLGYVERIDELFRITDCMITKPGGITLTEATAIGVPVILYKPVPGQEKENAIFFEDRGAAVVVNRHEEILESVTSLLADEEKLNRMKDNIKSLHLPNSSEVILQDIIKESEMMAGKADMALS	PGPT0023400_463	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023400-ugtP-K03429	NA	NA
D1-12_01239	201	cspD	COG1278	Cold shock protein CspD	ATGCAAAACGGTAAAGTAAAATGGTTCAACAACGAAAAAGGATTCGGCTTCATCGAAGTTGAAGGCGGAGACGACGTATTTGTTCACTTCACTGCTATCGAAGGAGAAGGATACAAATCATTAGAAGAAGGACAAGAAGTTTCTTTTGAAATTGTCGAAGGTAATCGTGGACCTCAAGCTTCTAATGTTGTAAAACTCTAA	MQNGKVKWFNNEKGFGFIEVEGGDDVFVHFTAIEGEGYKSLEEGQEVSFEIVEGNRGPQASNVVKL	PGPT0014675_8664	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-12_01240	183	degR		Regulatory protein DegR	GTGAATGATAAAGATTTAAAAACAATCCTTCAGCAGACATTTAAAGAAATATACGGTGATTTGGGAAGTTTAGCGGAAATGGCAAAAAAAGGAATGCCGTCAATGGAGAAACAAATTGAAGAAATCGAGCAGCGCTGCAAGCAGAATCTTGTCGCCATCGAGATTCAGACGGCAATCAAATAG	MNDKDLKTILQQTFKEIYGDLGSLAEMAKKGMPSMEKQIEEIEQRCKQNLVAIEIQTAIK				NA	NA	NA	NA	NA
D1-12_01241	258			hypothetical protein	ATGGACTCTGAATTTTTTCCAAACGGACTGACGGATAAACGCCAGCTTGAATTAGCGGTGGAAACGGCCCAGAAAACAACGGGAGCGGCTACCCGGGGCCAAAATTCAACTTTGGTGGAATCTGCGCACCAGGCGATTCAGGATGCCAGAACGATGTCACAATCCAGTGAACTGCAGGCTCTCGACCAGGATTTTCTGCAAAAGCAGCGAATGCTTCTCGACGATTGCCAGCATCAGCTCGATGAATTCGAAAAATAA	MDSEFFPNGLTDKRQLELAVETAQKTTGAATRGQNSTLVESAHQAIQDARTMSQSSELQALDQDFLQKQRMLLDDCQHQLDEFEK				NA	NA	NA	NA	NA
D1-12_01242	183			hypothetical protein	TTGGATAAAAAAAGCATTTATAAAGAATTGACAGAGCTTCAGGATGAATATTGCAAAGACTGTTTCGTAAAAAAGCATTTCCGCAAAGAGTTTGGAAAAACGCACGCTCATTCTTTCTGCATCAACCAATGCACGGTGGGGGAGAAGCTGAAGGCCTACGGCAAGGTGCTGACAAATCAATAA	MDKKSIYKELTELQDEYCKDCFVKKHFRKEFGKTHAHSFCINQCTVGEKLKAYGKVLTNQ				NA	NA	NA	NA	NA
D1-12_01243	672			hypothetical protein	ATGAATCTTAAGCCGTATATCGAAATAGAAGCAAAAGGAACAGGCCCTGTCGCGTTTTTTTCCGAAGATTGGCTGACCGTTCCGAAAGCGCGCATGCTTGCAAGAGAAGTCAGCCGCTTTCCTTATATAAAAGACATTTATTTTGAGGATGAAAAAGGCGCGAGCTGGACGCTTAAAGAATTAGAAAAGCTTACTGAAGAGCTTGCGCACGAACCTGACGACATTACAGTGTATTTCGACGGCGGCTTTGACAAAACAAGCGGACGCGCCGGACTCGGAATTGTCGTGTATTATTCTCTCGGCGGCAAGCGGCACCGCATACGGAAAAACAAAAGCTTAACGCTTCAGACGAACAATGAGGCGGAATATGCCGCTTTGTACGAAGCGCTTAAGGAAGTGCAGGAACTTGGCGCAAGCAGAAATTCAATCACGATAAGAGGGGATTCCCTCGTCGTTTTACATCAGCTTGACGGCAGCTGGCCGTGTTATGATGAAACGCAAAACGAATGGCTGGATAAAATTGAAGCGCTGCTCGAATCCTTAAAGCTGACACCGACATATGAAGCCGTAAACAGAAAGGAAAATCAAGAAGCGGATGACCTTGCCAGAAAAATTCTCTCGGACCGGCAGATTGAAAGCCGCATAACATTAGAAGGTAACGGAGATGACTGA	MNLKPYIEIEAKGTGPVAFFSEDWLTVPKARMLAREVSRFPYIKDIYFEDEKGASWTLKELEKLTEELAHEPDDITVYFDGGFDKTSGRAGLGIVVYYSLGGKRHRIRKNKSLTLQTNNEAEYAALYEALKEVQELGASRNSITIRGDSLVVLHQLDGSWPCYDETQNEWLDKIEALLESLKLTPTYEAVNRKENQEADDLARKILSDRQIESRITLEGNGDD				NA	NA	NA	NA	NA
D1-12_01244	681			queuosine precursor transporter	TTGTTTAACGATGTGTTATGGATCTTATTTGCGGTCATTCATTTTATCATTGTTCTTCTGTTTTATAAAGGATTTGGCAAAACGGGCCTATTCGTATGGATCGGTTTCGCCACGGTGTGCGCCAACTTGCAGGTTGTCAAAACAGTCGAGCTGTTCGGACTTACGGCGACACTGGGAAATATCATGTACGGCACCGTTTTCTTCGCAACGGATGTGCTGAATGAAAAATACGGTCCCAGGGAAGCGCGCAAAGCCGTCTGGCTCGGGTTTTCCACTCTGCTCGCTTTGACATGCGCCATGCAGGGGGCTCTTTTATATAAACCGGCTGCGTCAGATATCGCACAGCCGGCCCTTGAGACGATTTTCGGTTTTCTGCCGCGTGTTGCGCTCGGAAGCCTCTTGGCTTTTATTTTCAGCCAAACGATAGATGTTTATGTATATTCAGCCATTCGGAGAATCTTTCCTTCAGACAGGCTTCTCTGGCTCAGAAACAGCGGAAGCACGGCGCTCAGCCAGCTGCTGGATACATTTATCTTCACTGCCGTGGCCTTTATCGGCGTTTATTCCGCGGGAGTATGGTTCAGCATCTTCATTTCAACTTACCTGATTAAATTTGCGGTATCACTCATTTCTGTCCCTTATGCGTATGCGGCAAAACGAATGACACCGAATGGAGAGTGA	MFNDVLWILFAVIHFIIVLLFYKGFGKTGLFVWIGFATVCANLQVVKTVELFGLTATLGNIMYGTVFFATDVLNEKYGPREARKAVWLGFSTLLALTCAMQGALLYKPAASDIAQPALETIFGFLPRVALGSLLAFIFSQTIDVYVYSAIRRIFPSDRLLWLRNSGSTALSQLLDTFIFTAVAFIGVYSAGVWFSIFISTYLIKFAVSLISVPYAYAAKRMTPNGE				NA	NA	NA	NA	NA
D1-12_01245	396	rnhA	COG0328	14.7 kDa ribonuclease H-like protein	ATGATGCCCGCTGAAATTTATGTAGACGGTGCAAGCGCCGGAAACCCGGGTCCGTCCGGTATCGGTATTTTTATTAAACATGACGGGAAAACAGAATCTTTCTCAATTCCGATCGGCGACCATTCAAATCAGGAAGCTGAATTTCTCGCTTTAATTGAAGGAATGAAGCTGTGTGCCGCCCGCGGATTTGAGTCCGTGTCATTCCGGACGGATTCGGATATCGTGGAGCGGGCCGCAGATCTTGAAGCGGTTAAAAACAAGGCTTTCCAGCCGTTTGTGGACGAAATCATCCGCTTAAAGGCCGGATTTCCATTGTTTTTCATTAAGTGGATTCCCGGCAGACAAAACCAAACAGCCGATCAGCTCGCAAAAAAAGCGATTCGGCTGAATAAATAA	MMPAEIYVDGASAGNPGPSGIGIFIKHDGKTESFSIPIGDHSNQEAEFLALIEGMKLCAARGFESVSFRTDSDIVERAADLEAVKNKAFQPFVDEIIRLKAGFPLFFIKWIPGRQNQTADQLAKKAIRLNK				NA	NA	NA	NA	NA
D1-12_01246	129	sspL		Small, acid-soluble spore protein L	ATGAGAAAAGAAAATAAAGGCCGGCTGACCGGGGGCGTGAATCCTCAGGGAAATATGGAAGGAAACGCGCATAAAGACCCGAAATCAGCCCTTGAAAACAACGCAAAAAAAAGCAATACAAAACGCTAG	MRKENKGRLTGGVNPQGNMEGNAHKDPKSALENNAKKSNTKR	PGPT0024915_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024915-sspL-K06429	NA	NA
D1-12_01247	888	ypcP	COG0258	5'-3' exonuclease	ATGAATAATAAATTACTGCTCGTTGACGGCATGGCGCTTTTGTTCCGCTCGTTTTTCGCGACGGCCGTTCATCGCAATTTTATGATAAATGAAAACGGAATTCCCACAAACGGCGTCAACGGTTTTTTAAAGCATCTTATTACGGCGGTTGATACGTTTCAGCCCACACATGTCGTCTGCTGCTGGGATATGGGAAGCAAAACGTACCGCAATGATTTGTTTCAAGATTATAAGGCCAACAGAAGCGAACCGCCGCTAGAGCTTATTCCGCAATTTGATCTAGCGAAAGAAGCAGCGCGAGAGCTCGGTTTTTTAAACATCGGCATAAAAGGCTATGAGGCGGATGACTGTATCGGTACGCTTTCTGCCCTATTTTCCGGGGAAGCGGAAATTACGATTGTAACGGGTGATAAAGATCTGCTTCAATTGCTGAATCATCAAGTTCAAGTAGCGCTGCTGCAAAAGGGTATCGGCAATTATAAGGTATATACAGATGAGATATTCAGAGAAGAAACGGGAGTTCCGCCAAAAGCGCTGATTGACATTAAGGCGCTGATGGGAGACACGAGCGATAACTATCCAGGAGTTAAAGGGATCGGGGAAAAAACGGCGTACAAGCTGATCCGTGAATATCAAAACATAGACCGGTTATTAGAAAGCCTCGCTCTCTTGCCGAAGGGCCAGCAAACGAAAATTCAGCAAAGCCTGAAAGAATTGGAGCTGTCAAGGCAGCTTGCTGAAATACATTGCGAGGTGCCGTTAGTCTGTACGCTTGAAGAAGCACTTTTTTCATTGAAGATGGAAGAAGCATCCTTAATGCTCAGACGCCATCAGATAAAAGGAATTGAAAGAATGCTCGAAAAGCTGAACGCCAGAGAGATCAGCTGA	MNNKLLLVDGMALLFRSFFATAVHRNFMINENGIPTNGVNGFLKHLITAVDTFQPTHVVCCWDMGSKTYRNDLFQDYKANRSEPPLELIPQFDLAKEAARELGFLNIGIKGYEADDCIGTLSALFSGEAEITIVTGDKDLLQLLNHQVQVALLQKGIGNYKVYTDEIFREETGVPPKALIDIKALMGDTSDNYPGVKGIGEKTAYKLIREYQNIDRLLESLALLPKGQQTKIQQSLKELELSRQLAEIHCEVPLVCTLEEALFSLKMEEASLMLRRHQIKGIERMLEKLNAREIS				NA	NA	NA	NA	NA
D1-12_01248	144			hypothetical protein	ATGGGCAGAACAAAACTGGGAAACAGAAATGCTCAGCAGAATAACAATGCCAAAAAGAAAAAAGGCTTCGGACAGAAATTTGATTCTTATGCCGGCCGTGAAGCTGAAAAGCTGATAGCAAGCAATAAAAGACACGGTGAATAA	MGRTKLGNRNAQQNNNAKKKKGFGQKFDSYAGREAEKLIASNKRHGE				NA	NA	NA	NA	NA
D1-12_01249	258			hypothetical protein	ATGTCAGAAGTCCATAAAGCAATTTCAGCACATTCCGCAAAACAGCATCAGCACGTTAAAACATTTGTACAGCTTGATTATGAGCGTGAACAGGCCATTGAAGAAGCCATTGTAAAATGCAGACAGAATAAACCGTTCACGACAGATGCCATCAATGGCATCACCGCAAAAATGAACCAGCTGGCGAAAAAGGGCATCGTGCCGCAAAGACGATTCGTAAGTGAAGAGATGGTGAAAGAATTCGTCAGCAGACAGTAA	MSEVHKAISAHSAKQHQHVKTFVQLDYEREQAIEEAIVKCRQNKPFTTDAINGITAKMNQLAKKGIVPQRRFVSEEMVKEFVSRQ				NA	NA	NA	NA	NA
D1-12_01250	3582	der_1		GTPase Der	ATGACAGAAGAAGAACGCCATAACAGGGAGATTTTCAGCAGAACGGGTGCCTTATACGCACAATTTTTGGATCATCAGGATAAAAAACGGGCCGATCAGCTCGCGGCCATTATGAAAAAAGCGGCTGATGAAGAGGTTTATATCGCGTTTACCGGGCATTATTCGGCCGGAAAGTCCTCTTTATTAAACACATTGCTCGGTGAAGACATACTGCCGACAAGCCCGATTCCCACAAGCGCCAACCTCGTTGTCATCCGGCACGGTGAAGATAAAGTCGTGCTTCATACGACGGACGGGGCTTATGCAGAAATTAAAGGAAGTTACGATAAAGAACAAGTGCAGCAATTCTGTAAAGATGGTGAGCAAATTGAGACGGTGGAAGTCTATGCCGGCTTTAAGGAGTCAGAGCCTTATGCGGCCTACATCGACACACCGGGAATTGATTCGACGGACGAAGCGCATTTTTTATCTGCGTCTTCGGTTCTCCATCAGGCTGACGCTTTATTTTACGTCGTTCATTATAATCACGTTCATTCAGAAGAAAATATGATGTTTCTCAGTTCCATCAAAGACCGTATTCCGAATTTGTTTCTGATCGTCAACCAAATTGACAGGCATGATGAAACTGAAACGAAGTTTGAAGCGTACCGCAGGCAGGTGGAAGATATGCTTGAAGACGCGGGAATACCGAAAGAATCGCTTTTCTTTACGTCTGTCACTGAGCCTGACCATCCTTTAAACGGCATGGAACAGCTGAAAAAACATCTGCAGAAGCTGAAACAGCAGGCAAAAACAAATTTATGGTCCTTAACGGAGAGAAAAGTCGCACACTTAGTCACAGAGCATACAGAGATGCTCGTAAAAGAAGATAAAAACGGCAGCGGAGAGCAGTTTGACAAACAAGAAGCACTTGTCCGTTCTGTTGAAGATGAGCTTAAAAAAGCCGTTCAACAGGCTGAAACAGCAGAGAAAGACATCAGAAAAGACGTGCAGAACATATTGCAAAACGCTAATCTGACACCCTTTGAGATGAGGGAGCTTGCATCTGCTTATATTGAATCACAGCAGCCCTCATTTAAAACCGGATTATTCTTTTCAAAAGCGAAAACGGCTTCGGAAAAAGAAAGAAGGCGTGCTGAATTTTTTGCCGATATTAAAAAAAGAACGGAAGGGGAAGCGGATTGGCATATTATCGACACATTTACGAAAGCGGCCAAGCGGTATGAAGCGGATTCAGACGAACTGATCAGGAAAATCCAGGCGTACTGCACACCGCTTTCTGATGATATCACCGCTCAGGCCCTTAAGCAGGGAGCGGCCTTTTCATCTGAATACGTATTAACTTATACGAAAGACCTCGCTGAAATGATCAGAAGGGAAGCCAAAAGACAGACAGCGGAACTCATTGAGGAGCTGACCGCTTATGTTCAGACAAAAAACGGACCGCTTATTGAGAACTTGAAAAACCGGCTCGAAAAAGAAAAGAAAATAAGGGATGAGCTCGCGCAATCGGCAAAAGAAGAACGCAATGCCTTGGAAAAAGCAGCCCGAGTCCGCGCTTTGTGGGAAGAAGAATTGACCTGTGATACGGGAAGCGGCGACTGGTATACGCGAAAAAAACGCCTTGCAAAAGCGCCCGTACAAAAAGAGAAACCAAAAGAGGCTGTACGGCATGAAGTAAGCAAGCCCGAAAAAAATGCGATGAAGGAACTTCCTATAAAAGAGCAGACTGATCGGTTCTATGAGCTTGCCGGGATTCTTGAATCCTCAAGCATATTAGGAAAACAGGCAGAAGCCTTTCGAAGCAGGATTGAGCGGCTTGAAAACCGCCAGTTTACCTTGGCGTTATTCGGCGGATTCAGTTCCGGTAAATCATCATTTGCAAATGCGCTTGTCGGTGAATACGTGCTTCCGTCATCTCCGACGCCCACAACGGCTACGATCAACAAAATAACGAAACCGCAAGACGGCAAACCGCATAAATCTGCGGAAATCGTTTTTAAAACGGAGGAGGAACTGGACGCTGAAATGCTTCAGCTGACTGAGCTGAAAGATGCTGATGTAAAAGGGCGTTCACTGAAAGAGAGATGGAATTATGCCATTAAAAAGGGAAAAGTTCCCGATGAACTTATCCCGGTGATTCAGACGATGCTGCAGGCGTTTGATACGTACGAAGTACAGATCCGTCAAAGGCTGACACTGACTGTGCCGGTTGAAGATTTAAAACCGTACGCAGCCGAAGAAAAAACGGCCTGCTGCGTAAAAGAAGTCACCGTGTATTATGATTCGCCTCTCACGCAAAAAGGCATCACCATTGTTGATACGCCGGGAGCAAGCAGTATCAATAAGCGCCATACGGAACTTGCCTTTCAATATATAAAAGATGCTGACGCGTTCTTTTATATGACGTACTATCAGCATTCTTTTTCAAAAGGAGACAGGTCTTTTCTGAAGAAACTCGGCCTCGTCAAAGAATCATTCGGCATGGATAAAATGTTTTTTGTCATTAACGCCGCCGATCTGGCCAAAACAGAAAGCGAGCTGGAAATCGTCAAAGACTATGTCCGCTCAGAACTCTCAAAAGAGGGAATTAACCGGCCGAAATTATATCATGTCTCAAGTAAAGAAGAGCTTGCGGGTAAAAAAGCAGCTTTTTATAACAGGTTCTCTGATGTAAGAACCGGGCTTGAGCACTTTATTGAGGAAGATGTAATGAAGGCCAGCTGCGCCCAGCTGAAAACAGAGGCGGACAAATTGTGCGAGATGGTGGAACAGCTTCACGAATCTCTTCACCAGTCGGCGGAAGAAAAAGAGAAAAAGAAACAGCGTCTGGAGTCTTCCTATGAAAAAGCTCTCGCTGACATTTCAAAGCGCCGTACGTCTGAGGTCATCATTCGAAAAGTGATGAAAGATACGGAAGAACAGCTCTATCACATTAAACATCGCCTGACGTTTTATGCGAATGATATGCTGAAAACCGCCTTCCATCCGGGCCTTCAAAACGGCGATTGGAAACAAAATATATCAGCGGCGCTGAATGAAGCGCTCAAGGAATTCCGTTTTGAATATATTCAAGAGCTGAAAACGCTCGATATCCGGATGACCGGTTTTATTGAGCGCCATATGACTGAGGAATGGATGGAAAACTGTCAGAAGAAGCTTATGGAAGACGGAGATTTCTCCATTTATGTGAGCGGTGAAAACGAATTTGCCGTTCAGCTGAAAGAGGTCGCTCCGGTCATTGACGTCTCGGCATTCTCACATCACGTAAAGGAAGTTAAATCGCCGAAGCAGTTTTTTGAACAGAACGGAAAAACAGCGTTTGTAGAAGGGCTCAGGCTCAGCCTGCAAAAAGTGACAGAAAAGTGGCTTGAGCAGGAGAAAGAAAGCCTTTCAGAGCGATATACTGAGCAGGTGCGACGTCTGCAAGAAGACATGGCGGATAAAAGCCTGTCCCAGATCCGCGAGCAGCGGGACACTTATTTACAAGGTCTTGCGGAAAATACGAGTGCGAGGGAGATTGAACACCTTTACGAAGCCGAAAAAGCATGGAAAAAGAAAGATGAAATGCTGAAAATTTAA	MTEEERHNREIFSRTGALYAQFLDHQDKKRADQLAAIMKKAADEEVYIAFTGHYSAGKSSLLNTLLGEDILPTSPIPTSANLVVIRHGEDKVVLHTTDGAYAEIKGSYDKEQVQQFCKDGEQIETVEVYAGFKESEPYAAYIDTPGIDSTDEAHFLSASSVLHQADALFYVVHYNHVHSEENMMFLSSIKDRIPNLFLIVNQIDRHDETETKFEAYRRQVEDMLEDAGIPKESLFFTSVTEPDHPLNGMEQLKKHLQKLKQQAKTNLWSLTERKVAHLVTEHTEMLVKEDKNGSGEQFDKQEALVRSVEDELKKAVQQAETAEKDIRKDVQNILQNANLTPFEMRELASAYIESQQPSFKTGLFFSKAKTASEKERRRAEFFADIKKRTEGEADWHIIDTFTKAAKRYEADSDELIRKIQAYCTPLSDDITAQALKQGAAFSSEYVLTYTKDLAEMIRREAKRQTAELIEELTAYVQTKNGPLIENLKNRLEKEKKIRDELAQSAKEERNALEKAARVRALWEEELTCDTGSGDWYTRKKRLAKAPVQKEKPKEAVRHEVSKPEKNAMKELPIKEQTDRFYELAGILESSSILGKQAEAFRSRIERLENRQFTLALFGGFSSGKSSFANALVGEYVLPSSPTPTTATINKITKPQDGKPHKSAEIVFKTEEELDAEMLQLTELKDADVKGRSLKERWNYAIKKGKVPDELIPVIQTMLQAFDTYEVQIRQRLTLTVPVEDLKPYAAEEKTACCVKEVTVYYDSPLTQKGITIVDTPGASSINKRHTELAFQYIKDADAFFYMTYYQHSFSKGDRSFLKKLGLVKESFGMDKMFFVINAADLAKTESELEIVKDYVRSELSKEGINRPKLYHVSSKEELAGKKAAFYNRFSDVRTGLEHFIEEDVMKASCAQLKTEADKLCEMVEQLHESLHQSAEEKEKKKQRLESSYEKALADISKRRTSEVIIRKVMKDTEEQLYHIKHRLTFYANDMLKTAFHPGLQNGDWKQNISAALNEALKEFRFEYIQELKTLDIRMTGFIERHMTEEWMENCQKKLMEDGDFSIYVSGENEFAVQLKEVAPVIDVSAFSHHVKEVKSPKQFFEQNGKTAFVEGLRLSLQKVTEKWLEQEKESLSERYTEQVRRLQEDMADKSLSQIREQRDTYLQGLAENTSAREIEHLYEAEKAWKKKDEMLKI				NA	NA	NA	NA	NA
D1-12_01251	507			hypothetical protein	ATGTTTTGGCTGTTTATCATGCTGCTTGCGGCCCAGCGGATTGCGGAGATGATCGTGGCCCGGCGCAATGAGCAAAAGGTGAAAAAGCAAGGCGCAGTCGAATACGGAGAAGGACATTATCCCTTTCTCGTCCTGATGCACGTGCTCTTTTTTGTCTCTCTTACAGCTGAGGTGGCGGCGTTTCAAAAAACGCTTTCTCCAAGGTGGGCCGCCATTATATGTATCATTTTATTTGTACAGGGGATCAGGTATTGGGCGCTATTATCATTAGGACGGTATTGGAATACGAAAATCCTTGTCGTGCCGGATGCGGAGCTTGTCAGAAAGGGGCCGTACAGGTGGATGAAACACCCGAACTACGCGGTCGTCATCTTAGAATTTATTTTTCTGCCGCTGTTATACGGAGCGTATTGGACACTGTTTCTCTTTTCGATTCTCAATGCCTGCATGCTCACTGTGAGGATTCGCGCCGAAGAGAAAGCGCTAGAAGAAAACACCGCAAAATAG	MFWLFIMLLAAQRIAEMIVARRNEQKVKKQGAVEYGEGHYPFLVLMHVLFFVSLTAEVAAFQKTLSPRWAAIICIILFVQGIRYWALLSLGRYWNTKILVVPDAELVRKGPYRWMKHPNYAVVILEFIFLPLLYGAYWTLFLFSILNACMLTVRIRAEEKALEENTAK	PGPT0011295_326	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY	ANTIPROTISTAL-ALKYLRESORCINOL|ALKYLPYRONE_BIOSYNTHESIS,PGPT0011295-bpsB|srsB-K16168	NA	NA
D1-12_01252	1101		COG3424	Alpha-pyrone synthesis polyketide synthase-like Pks11	ATGGCATATGTGTTATCTGTCGGAACGAGCATTCCGAAGTATCATGTCTCGCAAGAAACGGCGGCGGATTTTGCGAGAGGGATGTTTGCCGATTCATTTAAGGATATTGACCGGCTGTTAAAAGCCTTTCAAAACGGCGAAATTGAATCAAGGCAGTTTGTCCGGCCGATTGAATGGTATAAAACGGCACGGTGTTTTTCAGAAAAAAACCGGCTGTATACGGAAGAAACCGTCAAGCACAGTGCGGATGCGGCACTTGATTGTTTAACAAACCCGGATTGTTTAACAAATCCCTTTCCGTATGAAAAAGTGGATGCGATCTTTTTTATTTCCAGCACCGGGCTTTCGACACCCAGCATTGAAGCGAAAGTGATGAATCAGCTTCCGTTTTCTGCGAAAACAAAACGGATACCGATCTGGGGTTTAGGATGCGCGGGCGGAGCGGCCGGCCTGTCCAGGGCATACGAATACTGCCGCGCGTATCCTGAAGCATACGTGCTTGTCATCGCGGCTGAACTCTGCAGCTTAACGTTTCAGCCGAACGACAAGTCAAAAAGCAACTTAATCGGAACTTCCCTGTTTGCGGACGGAATTGCCGCAGTACTAATCGGAGGAGAAAAGGCGAACCGAAACGACGTCAAACAGCCGCTTCTTCCGCGGATATTCGCCACTCAATCGGTGATGATGCCGGATGCGGAAGATGTGATGGGCTGGGAATTCACGGACAGCGGTTTTCAAGTCATTTTTTCAAGAGATATTCCCACCCTGGTTTCACAGTGGCTGAAGGACAATGTTGATGAATTTTTATTTGAATATGGTGTCAGTCCTCACGACATTAAAACCTTTCTTGCCCATCCAGGCGGGAAAAAGGTCATTGACGCCTATTTAACGAGTCTTTCAATGGACACTGGGCAGCTTGCGGCATCTCGGAAGGTGCTGCAAAAACACGGGAACATGTCTTCCGCAACTATTTTTCATGTGATAAAAGAACAGTTGCTCCACGGACGGCAGAAAGAAAACGAAAAAGGGCTGATCGGCGCTCTCGGGCCGGGATTTTCGTCTGAGCTTTTGCTGTTCAGCTGGGAAAAGGGGGCTTCTTAA	MAYVLSVGTSIPKYHVSQETAADFARGMFADSFKDIDRLLKAFQNGEIESRQFVRPIEWYKTARCFSEKNRLYTEETVKHSADAALDCLTNPDCLTNPFPYEKVDAIFFISSTGLSTPSIEAKVMNQLPFSAKTKRIPIWGLGCAGGAAGLSRAYEYCRAYPEAYVLVIAAELCSLTFQPNDKSKSNLIGTSLFADGIAAVLIGGEKANRNDVKQPLLPRIFATQSVMMPDAEDVMGWEFTDSGFQVIFSRDIPTLVSQWLKDNVDEFLFEYGVSPHDIKTFLAHPGGKKVIDAYLTSLSMDTGQLAASRKVLQKHGNMSSATIFHVIKEQLLHGRQKENEKGLIGALGPGFSSELLLFSWEKGAS	PGPT0011290_79	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY	ANTIPROTISTAL-ALKYLRESORCINOL|ALKYLPYRONE_BIOSYNTHESIS,PGPT0011290-bpsA|srsA|-K16167	NA	NA
D1-12_01253	609			hypothetical protein	ATGCTGAAGCCTGTCATTCTTAAAGGGTCACTCGTTCAGTTAGAGCCGCTGGCGATTGATCACACTCAGGCACTCTGTGACGCTGCTTCTGAAAATAGGACGACTTACGCTTACACCCATGTTCCTGACGGAATCGAAGAAACAAAGCGTTATATTGAGCGGGCGCTTTCCGATTATGAAAAAGGACTTGCATTGCCATTTGCAGTACGGAGTCTTGAAACAGACCGAATCGTCGGAAGCACGAGGTTTATGGATGCGGAAGTGCTTACGCGGCCGGCAGATGCAGCTCCGGAAGTGTGTGAGATCGGCAGCACATGGTATGCCTCTGCCGTGCAGCGGACCGGTGTCAATACGGAATGTAAACTTCTGATGCTGACTCATGCGTTTGACGTGTGGCAAGCTGTCAGGGTGACACTGAAAACCGATGTTCGCAATCAGCGCTCACGGACTGCGATTTTGCGGATCGGAGCCCAATTTGAAGGGATCCGCCGCGCACACATTCCGGCTGTCGACGTCGGCCTCAGAGATACTGCCTACTACTCCATCCTTCGGGAGGAATGGCCTTATATCCGGCAAAACCTTTCTGGCCGGCTCGCAGCATATAACTGA	MLKPVILKGSLVQLEPLAIDHTQALCDAASENRTTYAYTHVPDGIEETKRYIERALSDYEKGLALPFAVRSLETDRIVGSTRFMDAEVLTRPADAAPEVCEIGSTWYASAVQRTGVNTECKLLMLTHAFDVWQAVRVTLKTDVRNQRSRTAILRIGAQFEGIRRAHIPAVDVGLRDTAYYSILREEWPYIRQNLSGRLAAYN	PGPT0017630_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-12_01254	309	atl	COG3695	DNA base-flipping protein	ATGACATTTACGGCACGGGCGGTAGCCATTATCAAACAGATACCTGAAGGAAAAGTGATGACGTATGGTCAAATTGCCGGTCTTGCGGGAAGTCCGCGGGGAGCGAGGCAGGTTGTGCGGATTCTTCACTCCATGAGTAAAAAGCATCATCTTCCTTGGCACAGGGTCATCAATGCAAAGGGCGAAATCGGATTGAGAGATGAAGAGATGTTTTCAGTACAGAAGCTGTCTCTTGAAGCTGAGGGGGTAGCGGTCACGTCAGACGGCCGGATCGATCTCAATTTATACGTCCATGATCCGAATATGTAA	MTFTARAVAIIKQIPEGKVMTYGQIAGLAGSPRGARQVVRILHSMSKKHHLPWHRVINAKGEIGLRDEEMFSVQKLSLEAEGVAVTSDGRIDLNLYVHDPNM				NA	NA	NA	NA	NA
D1-12_01255	264			hypothetical protein	ATGAAAATGAAAAAAACTTTAGCCGGCTCAGCCCTATCACTCGCTTTACTCTGTTCTGCCGCCCCTGCTTTTGCCGCAGGTCCTGCTGATACACCTTCTGCAGAAAGTAAAACGAAGGAAGTATCTGCTTTGGCGACGTTCATACTTAATGGTTCTGGCCCTGATTATCCTACTTCAATTTACCGGAATGGAATCACCTATTATTTAGACAACATCACCTTCCATGGTGCTGATGGCACTTGGACAGCCGTCTACAAAAGCTGA	MKMKKTLAGSALSLALLCSAAPAFAAGPADTPSAESKTKEVSALATFILNGSGPDYPTSIYRNGITYYLDNITFHGADGTWTAVYKS				NA	NA	NA	NA	NA
D1-12_01256	564	rutB		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGGCAGAAAAGAAAAAAGCTTTAATCATTGTGGATGTACAAAAAGCCTTTGATGATAAAAAGTGGGGAGACCGAAATAACGTAAAGGCGGAAGAAAATATCAGCAAAATACTGAAATTATGGAGAGAAAAAGGATGGACAGTCATATACATACAACATATTTCTGATAAACCTGGTTCTTTATTTTATCCAAAAAATGAGGGGGTTGCTATAAAGGAAATCGTTAAACCTATGGATAAAGAAGTCATTATAACCAAGAAAGTAAACAGCAGCTTTATTGGTACTAATCTGGAAGAGCTTTTAAAAGCAAATGATATAACAACTGTCGTAATCACTGGCTTGACTACACCGCACTGTGTTTCAACAACCACAAGGATGAGCGGTAATTTAGGATTTGATACATACCTGATTTCAGATGCAACAGCAGCCTTTGGAATGAGAGACCAAAATGATACATATTATGATGCAGAGACTATTCACAATATATCTCTGGCAACATTGCATGATGAATTCGCCACAATATTAACGACTGATCAATTAATCAATGATTTTATAGCCGGCTGA	MAEKKKALIIVDVQKAFDDKKWGDRNNVKAEENISKILKLWREKGWTVIYIQHISDKPGSLFYPKNEGVAIKEIVKPMDKEVIITKKVNSSFIGTNLEELLKANDITTVVITGLTTPHCVSTTTRMSGNLGFDTYLISDATAAFGMRDQNDTYYDAETIHNISLATLHDEFATILTTDQLINDFIAG				NA	NA	NA	NA	NA
D1-12_01257	276			hypothetical protein	ATGAAATTGAAAAAGGTTTTAACTGGTTCTGCCTTGTCTCTCGCTTTACTCGTTTCCGCTGCCCCTGCTTTTGCATCCAGCCCTGGCAATACAAATAGCGACTCAACTCAAACAAAAATTTCGACACAAGCGACCAAAGATTCTTTTACAATGGATTACCTTCATAGATGGGATATCCCAAATACAACTGTTAAGAATGGTGTTACTTATTACCTTAAGAAAGTAGAGATAATCGAAGGGTTCTATCGAGCAACTTTTGAAGGATGGATTAATTAA	MKLKKVLTGSALSLALLVSAAPAFASSPGNTNSDSTQTKISTQATKDSFTMDYLHRWDIPNTTVKNGVTYYLKKVEIIEGFYRATFEGWIN				NA	NA	NA	NA	NA
D1-12_01258	1305	pucK	COG2233	Uric acid permease PucK	ATGAAAAACGGCTATGCCAAAACACTTTCCCTCGGTATCCAACATGTGCTTGCCATGTATGCCGGCGCCGTCGTCGTTCCTTTAATTGTAGGAGCGGCATTGGGACTGAACGCAGAACAGCTGACATATCTCGTATCAATTGATATTTTTATGTGCGGGGCGGCTACGCTGCTTCAAGTATGGAGAAATAAATTTTTCGGTATCGGCTTGCCCGTTGTGCTCGGCTGTACGTTCACCGCGGTAGCGCCGATTATTTCCATCGGTAAGGAGTACGGGATTTCAGCCATTTACGGAAGCATTTTGGCATCGGGTCTGCTTGTCATTCTGCTGTCGTTTTTCTTCGGTAAGCTCGTATCGTTTTTCCCGCCTGTCGTAACCGGATCTGTCGTGACGATTATCGGGATGACCTTAATGCCGGTCGCGATGAATCATATTGCCGGCGGGGAAGGCAGCAAGGATTTCGGTGATCCGGCTAACCTTGCCCTCGGATTTACGGTGCTCGTCATCATCGTGCTGCTTTATCGGTTTACAAAAGGATTTTTGAAATCCATTTCGATTTTAATCGGCATTGTCATCGGGACGGCCATCGCATATTTTATGGGAAAAGTGCAATTTGACAATGTGGCGAATGCTGACGCCATTCAAATGATTAAACCGTTTTATTTCGGGACGCCGACATTTCATGCGGCACCGATTATTACGATGTCCATCGTTGCCATTGTCAGCCTTGTTGAGTCAACCGGCGTCTATTTCGCTCTCGGTGACCTGACAAACCGGCGCCTGTCTGAACGTGATTTAGCAAAAGGCTACCGTGCGGAAGGCCTGGCGGTATTCATCAGCGGCATTTTTAATGCTTTTCCGTACACGGCTTATTCCCAAAACGTCGGCCTCGTGCAGCTGACGGGAATTAAGAAAAACGCGGTCATCGGTGTCACGGGCGCACTTTTAATGCTCTTCGGCCTTTTTCCGAAAATCGCAGCCTTCACGACCATCATCCCGTCTTCGGTGCTGGGAGGCGCGATGGTGGCCATGTTCGGCATGGTCATTTCCTACGGCATTAAAATGCTCAGTCAAATTGACTTTAAAAAGCAGGAAAATCTTCTGATCGTCGCGTGTTCGGTCGGATTGGGACTCGGTGTAACCGTCGTTCCCGATATGTTTAAGCACCTGCCGTCTTACTTAAATCTGCTGACCACAAACGGAATCGTCGCCGGAAGCTTTACCGCCGTGATTTTGAATATTGTTTATAACATGATTCCTAAAACGAAAAAAACCCTTGATGTGACAAGGGTTCAAGAGGGTTAG	MKNGYAKTLSLGIQHVLAMYAGAVVVPLIVGAALGLNAEQLTYLVSIDIFMCGAATLLQVWRNKFFGIGLPVVLGCTFTAVAPIISIGKEYGISAIYGSILASGLLVILLSFFFGKLVSFFPPVVTGSVVTIIGMTLMPVAMNHIAGGEGSKDFGDPANLALGFTVLVIIVLLYRFTKGFLKSISILIGIVIGTAIAYFMGKVQFDNVANADAIQMIKPFYFGTPTFHAAPIITMSIVAIVSLVESTGVYFALGDLTNRRLSERDLAKGYRAEGLAVFISGIFNAFPYTAYSQNVGLVQLTGIKKNAVIGVTGALLMLFGLFPKIAAFTTIIPSSVLGGAMVAMFGMVISYGIKMLSQIDFKKQENLLIVACSVGLGLGVTVVPDMFKHLPSYLNLLTTNGIVAGSFTAVILNIVYNMIPKTKKTLDVTRVQEG	PGPT0007330_283	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
D1-12_01259	585	xpt	COG0503	Xanthine phosphoribosyltransferase	GTGGAAGCATTAAAACGAAAAATAGCAGAAGACGGAATTGTTCTTTCTGATCAAGTGCTGAAAGTGGATTCTTTTTTAAACCATCAAATTGATCCGGTTCTCATGCAGCAGATCGGCCGGGAATTTGCGCGCCGTTTTGAAAAAGACGAGATAACCAAAATCGTCACAATTGAATCTTCGGGCATTGCCCCTGCGGTGATGGCCGGCCTTGAACTCGGCGTTCCCGTCATCTTTGCGAGAAAAAGGAAGTCTCTCACATTAACGGATGATCTGCTGACGGCATCCGTCTATTCTTTCACGAAAAAAACAGAAAGTCAGATTGCAATCTCCGGAAATCATCTGTCGAAAGAAGACCGCGTGTTAATCATTGACGACTTTTTAGCGAACGGACAGGCGGCAGAAGGACTTTTATCCATCGTAAAACAAGCAGGCGCAGCGGTTTGCGGGATCGGAATCGTCATTGAAAAGTCATTTCAGCCGGGAAGAGATGAGCTGGTGAAAAAAGGATGCCGGGTCGAATCACTGGCGAGAATTCAATCGCTTGAAGACGGAAAAGTGACATTTGTACAGGAGGTCCGTTCATGA	MEALKRKIAEDGIVLSDQVLKVDSFLNHQIDPVLMQQIGREFARRFEKDEITKIVTIESSGIAPAVMAGLELGVPVIFARKRKSLTLTDDLLTASVYSFTKKTESQIAISGNHLSKEDRVLIIDDFLANGQAAEGLLSIVKQAGAAVCGIGIVIEKSFQPGRDELVKKGCRVESLARIQSLEDGKVTFVQEVRS	PGPT0007305_250	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816	NA	NA
D1-12_01261	1503	ypwA	COG2317	Carboxypeptidase 1	ATGGATTTACATACATATGAAAAAGAGTTTTTTGATCTGTTAAAAAGAGTATCCCACTATGTCGAAGCCATTGCACTTATGCATTGGGACTTAAGAACGGGAGCCCCGAAAAAAGGCTCTGATGATCGGGCGGAAAGCATCGGACAGCTTTCGGCTGACGTTTTTCAAATCCAGACATCCGACCGGATGAAAGAGCTGATCGACATCCTTCTCGCGCATGCAGAAGAGCTCTCTGAAGATACAGTGAAAGCGGCGGAACTTGCGAAAAAAGATTATGATCATAATAAAAAAATTCCTGAAGATGAGTATAAAGAATATGTCATTTTAACATCAAAAGCTGAAACGGCTTGGGAGGATGCAAAGGCTGCCTCTGATTTCTCTATGTTTGCTCCGTACCTTGAGAAGCTGATTGATTTTAATAAGCGGTTTATTTCGTATTGGGGCTATGAAGATCATCCGTACAACGCATTGCTCGATATTTTCGAACCGGGTGTTACGGTAAAGGTGCTGGATCAGCTGTTTTCTGAATTGAAGGAAGCGATCATTCCGCTTATCAAAAAAGTGACGGAATCCGGCAATAAACCGGACACTTCCTTTATAACGAAAACGTTTCCGAAAGAACAACAAAGAGACCTCTCCTTGTATTTCTTAAAAGAGTTCGGGTATGATTTTGACGGCGGCCGCCTGGACGAGACGGTGCATCCGTTTGCGACGACAATCAACCGGGGCGATGTACGGGTGACGACCAGATATGACGAAAACGATTTCCGTACGGCAATTTTCGGAACGATTCATGAATGCGGGCATGCGATCTACGAGCAGAATATTGACGAAGCACTGAGCGGAACGAACTTATCTGACGGTGCATCCATGGGAATTCATGAATCCCAATCGTTATTTTATGAAAACTTTATCGCCAGAAATCAACATTTCTGGACCGCCTATTATGAAAAAATGGTTGAGGCTTCGCCTGATCAATTTCAAGATGTGAAAAGAGAAGATTTTGTACGCGCTGTCAACGAGGCGAAACCGACCTTTATCCGAATTGAAGCCGATGAGCTGACATATCCGCTTCATATTATTATCCGTTATGAAATTGAAAAAGCGATCTTCAGTAATGAAGTGACAGTGGAAGAACTGCCTGCATTGTGGAATCAAAAATATCATGATTATTTAGGCATTACACCGCCATCTGACGCAAAAGGCATTTTGCAGGACGTACATTGGGCGGGCGGCGATTTCGGCTATTTCCCTTCCTATGCGCTAGGATATATGTATGCGGCACAGCTGAAGCATACCATGCTTGACGATCTGCCTGAATTTGATCAATTAATAGAACGGGGCGACTTTGAGCCGATCAAACAATGGCTGACAGAAAAGGTTCATCAGCACGGAAGACGCAAAATGCCGCTTGACATCATAAAAGATGCAACGGGAGAAGAGCTGAACGTTCAATATCTCATTGAGTATCTCGTCGGCAAATATTCAAATTTATATTTATAA	MDLHTYEKEFFDLLKRVSHYVEAIALMHWDLRTGAPKKGSDDRAESIGQLSADVFQIQTSDRMKELIDILLAHAEELSEDTVKAAELAKKDYDHNKKIPEDEYKEYVILTSKAETAWEDAKAASDFSMFAPYLEKLIDFNKRFISYWGYEDHPYNALLDIFEPGVTVKVLDQLFSELKEAIIPLIKKVTESGNKPDTSFITKTFPKEQQRDLSLYFLKEFGYDFDGGRLDETVHPFATTINRGDVRVTTRYDENDFRTAIFGTIHECGHAIYEQNIDEALSGTNLSDGASMGIHESQSLFYENFIARNQHFWTAYYEKMVEASPDQFQDVKREDFVRAVNEAKPTFIRIEADELTYPLHIIIRYEIEKAIFSNEVTVEELPALWNQKYHDYLGITPPSDAKGILQDVHWAGGDFGYFPSYALGYMYAAQLKHTMLDDLPEFDQLIERGDFEPIKQWLTEKVHQHGRRKMPLDIIKDATGEELNVQYLIEYLVGKYSNLYL				NA	NA	NA	NA	NA
D1-12_01262	1920	yoaA	COG1199	putative ATP-dependent DNA helicase YoaA	GTGACAACATCACGTTTGCCTTTTGCTTTAACAAAAGAAAAGAATTTTTACGAAGAATTGAACAATTGGATTGGTGACGTGTTTTACGATATCCTTCCCGAGAAAGGCTTTGACCTTCGGGATGAGCAGGTATTTATGGCGTTTCAGCTTGAACGGGCATTTAAAGAGAAAAAGGTCATGTTCGCTGAGGCAGGAGTCGGTACGGGGAAAACGCTGGTGTATCTGCTGTTTGCCATCAGCTATGCCAGATATACGGGTAAACCGGCCATTATCGCATGCGCCGATGAAACGTTAATTGAACAGCTTGTCAAAAAAGAAGGCGACATTTCCAAGCTGACAGAACATTTGGATCTGCAGATTGATACACGGCTGTCCAAATCCCATGAGCAGTATCTGTGTCTGAAAAAGCTTGAGAAAACAATGCAGCGTTCTGATGATGAAAAGTGGCTGGATCTTTATGAGTCGCTGCCTTCATTCGTACACGAATCACAAGCGATGCAGCGCTTTTATCCGTACGGCGACCGCAAACAGTACGCTGATTTGACGAATGAAGAGTGGGCAGGCGTCAGCTATGATTCCTTCCAAGATTGTTTAACTTGTGATATGAGACATAGATGCGGTTTAACACTTTCAAGAGATCATTACAGAAAATCAACGGATCTGATTGTTTGCTCCCATGATTTCTACATGGAGCATGTATGGACGGAAGAATCACGTAAAAGGGAAGGACAGCTGCCGCTTTTGCCGGATCACAGCGCCGTCGTGTTTGATGAAGGACATCTGCTGGAATTCGCCGCGCAAAAAGCGTTAACCTATCGCGTGAAGCAGTCGACGCTCGAGCTGTTTTTAGAGCGTCTGCTTCAAAATGACATCAGAGAGGAATTCGCCGAACTGATTGAAGATGCCCTTGCCGCAAACGATGAGTTTTTCTATGTGCTGTCAGAGGAATCGAAGGAAATCGCCGGCTCTCACCGATTGGACATCCAAAACGACCAGCGCGTTAAGCGTGCGGCTGACGAACTGTGCCGTCTGCTCGATAAAATCGGCGAGGCGCTCGTATTTGAATCGGAAATGTATACGATTGATAAGTACGAGCTGTCAGTTGTAGAAGAATACGTCGAACAAATGGCATATTCGCTGTCGCTGTATCAGAAGGATGCCATCAGCTGGCTTGAAACGCGGGATACAGACTCAACGTTTGTCGTTATGCCGAGAACTGTAGCCGAAGTGCTGGGAGAAAAGGTCTTTTCTAAAAAGATTCCTTATATCTTCTCATCGGCCACTCTTTCTGAGGGCGGTTCATTTGATTATATCGCTGACAGCCTCGGAATCCGTGATCCTTTATCATTCACCGTTGAATCTCCGTACGATTACGAGGAGCAAATGTCTGTTGCGCTTCACGGTGACATGACGTCTGAGCAGAAAACAGCCGAAACGATTGAAACCATTAAGGAGAATGAAGGACGCACCCTCGTTCTTTTCCCTTCCTTTGAAGACATGAAAGAATTTAAAGAACAGGCTGCCGCGTGGGAGCTGCCGTATCCGATATACTACGAAGGTGACGAAGAGATCAGCAGTCTGGTCGAAAAGTTCCAGCGGGATGAAGAATCCGTGCTTTGTTCCGTCCACTTATGGGAAGGTCTTGACATTCCCGGTGACTCGCTCCGGAATGTGACCATTTGGGCATTGCCGTATCCGCCTCATGATCCGGTGTTTACCGCAAAGCGGAACGGAGCGAAAAAAGATCCGTTTGAGGAAGTTGATCTGCCATACATGCTCTTGAGAGTCAGGCAGGGAATCGGCCGCCTTATCCGTTCTAATCAGGACAGCGGAACCATATCCATTTATGCGGGCGGAGAAAGTGAACGGGTCCTGGCCGAAGTCAAAAAGGTTTTGCCTGTTACACCGAAAATTGTATAA	MTTSRLPFALTKEKNFYEELNNWIGDVFYDILPEKGFDLRDEQVFMAFQLERAFKEKKVMFAEAGVGTGKTLVYLLFAISYARYTGKPAIIACADETLIEQLVKKEGDISKLTEHLDLQIDTRLSKSHEQYLCLKKLEKTMQRSDDEKWLDLYESLPSFVHESQAMQRFYPYGDRKQYADLTNEEWAGVSYDSFQDCLTCDMRHRCGLTLSRDHYRKSTDLIVCSHDFYMEHVWTEESRKREGQLPLLPDHSAVVFDEGHLLEFAAQKALTYRVKQSTLELFLERLLQNDIREEFAELIEDALAANDEFFYVLSEESKEIAGSHRLDIQNDQRVKRAADELCRLLDKIGEALVFESEMYTIDKYELSVVEEYVEQMAYSLSLYQKDAISWLETRDTDSTFVVMPRTVAEVLGEKVFSKKIPYIFSSATLSEGGSFDYIADSLGIRDPLSFTVESPYDYEEQMSVALHGDMTSEQKTAETIETIKENEGRTLVLFPSFEDMKEFKEQAAAWELPYPIYYEGDEEISSLVEKFQRDEESVLCSVHLWEGLDIPGDSLRNVTIWALPYPPHDPVFTAKRNGAKKDPFEEVDLPYMLLRVRQGIGRLIRSNQDSGTISIYAGGESERVLAEVKKVLPVTPKIV				NA	NA	NA	NA	NA
D1-12_01263	192			hypothetical protein	ATGCTGAACAGCGAGCACTTCAGTAAAATACAAAAGGCGTTAGACGCAACTGCTTTCCGGCTGGAGGAAGCCGGAGCGGAGTTCGGTCCTTCCGCCATGACACACGCACAGGAAGAACTTGAAAATGCGGTAAAACATACACATTCAACAGACCATCCGTTCCTATGTACACATATCATTAATCGGAAATGA	MLNSEHFSKIQKALDATAFRLEEAGAEFGPSAMTHAQEELENAVKHTHSTDHPFLCTHIINRK				NA	NA	NA	NA	NA
D1-12_01264	153			hypothetical protein	ATGAGTTATAAAGATCGATTAGATCAGCATTCTGAATTGTTTCATCACAATTGGACGCGGCCGAAACGCTCTAAATCACAAGTGAACGGCCACACCGAAATGTCCCAGACCAACATTATTTTACGGAGCAACGCAAAAGCGCACCGCTGGTAA	MSYKDRLDQHSELFHHNWTRPKRSKSQVNGHTEMSQTNIILRSNAKAHRW				NA	NA	NA	NA	NA
D1-12_01265	1167	rlmL	COG0116	Ribosomal RNA large subunit methyltransferase K/L	ATGAAGAAGTACACACTAATAGCGACGGCGCCGATGGGAATCGAAGCGATCGTCGCCAAAGAAGTGCGTGATTTAGGTTATGAATGCAAAGTAGACAACGGAAAAGTCATTTTTGAAGGAGATGCGCTTGCGATCTGCCGCGCTAACTTATGGCTGCGGACGGCTGACCGCATCAAAGTACAGGTCGCCGAGTTTCAGGCGAAAACGTTTGATGAGCTGTTTGAAAAAACAAAAGCGATTGACTGGCGCGCGTACATTCCGGAAAACGCCAAGTTCCCCGTTATCGGAAAATCCGTGAAATCAGTGCTTGCCAGTGTGCCTGACTGCCAGCGGATCGTCAAAAAGGCGATAGCGGAAAAGCTGAAACTGCAATCAGGAAAACAAAATGAATGGATTGAAGAAACGGGACCCGAGTATAAGGTGGAGATTTCCCTTTTAAAAGATAAAGCCGTACTTACACTGGATTCATCAGGAACAGGCCTTCACAAACGGGGATACAGGGTTGATCAGGGAGGAGCTCCGATTAAAGAGACGCTCGCTGCCGCGTTAATTCAGTTAACCAACTGGACACCCGACCGTCCGTTCGTCGATCCGTTCTGCGGTTCCGGCACGATCGCCATTGAAGCCGCTTTAATCGGACAAAACATTGCTCCCGGTTTTAACCGTGATTTTGTTTCAGAAGACTGGGAATGGATCGGAAAAGAACTGTGGGACAAGGCGCGTCTTGAAGTGGAGGAAAAGGCGAACTATGATCAGCCGCTGCAGATTTTTGCCAGTGATGTGGATCACCGGATGGTAAACATCGCCAAAGAAAACGCAGAAGAAGCGGGACTTGGTGACCTGATCGAATGCAAGCAAATGCGGGTGCAGGATTTTACGACAAAACTCGAATTCGGAGTAATCGTCGGAAACCCTCCGTACGGCGAACGTCTCGGCGAAAAAAGAGAAGTCGAGCAGATGTATAAAGAAATGGGCCGGGCATTTGAATCTCTTGATACATGGTCTGTCTACATGTTAACGTCAAATGAACAATTTGAAGAGGCCTACGGGAGAAAAGCAACCAAAAAACGGAAGCTCTTTAACGGTTTTATCAAAACGGATTATTATCAGTACTGGGCTAAAGTGCGGCCGCAGCGGAAAAAGCCGCAACAAAGAGAAGACGCCTGA	MKKYTLIATAPMGIEAIVAKEVRDLGYECKVDNGKVIFEGDALAICRANLWLRTADRIKVQVAEFQAKTFDELFEKTKAIDWRAYIPENAKFPVIGKSVKSVLASVPDCQRIVKKAIAEKLKLQSGKQNEWIEETGPEYKVEISLLKDKAVLTLDSSGTGLHKRGYRVDQGGAPIKETLAAALIQLTNWTPDRPFVDPFCGSGTIAIEAALIGQNIAPGFNRDFVSEDWEWIGKELWDKARLEVEEKANYDQPLQIFASDVDHRMVNIAKENAEEAGLGDLIECKQMRVQDFTTKLEFGVIVGNPPYGERLGEKREVEQMYKEMGRAFESLDTWSVYMLTSNEQFEEAYGRKATKKRKLFNGFIKTDYYQYWAKVRPQRKKPQQREDA				NA	NA	NA	NA	NA
D1-12_01267	300	gpsB	COG3599	Cell cycle protein GpsB	ATGCTTGCTGATAAAGTAAAGCTTTCTGCGAAAGACATTTTGGAAAAAGAATTTAAAACAGGCGTTAGAGGTTACAGACAAGAAGACGTTGACAAATTTTTAGATATGATTATTAAGGATTATGAAACCTTTCATCAAGAAATTGAAGAACTGCAGCAAGAAAATCTGCAGCTGAAAAAACAGCTTGAAGAAGCAAGTAAAAAACAGCCGGTGCAGTCCAATACGACCAACTTTGACATTCTGAAAAGGCTGTCCAACCTTGAGAAACATGTATTCGGCAGCAAACTTTATGACGAATAA	MLADKVKLSAKDILEKEFKTGVRGYRQEDVDKFLDMIIKDYETFHQEIEELQQENLQLKKQLEEASKKQPVQSNTTNFDILKRLSNLEKHVFGSKLYDE	PGPT0014806_192	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
D1-12_01268	549			hypothetical protein	TTGAAAGTATTAGCCGTAACAGGATACAAGCCGTTTGAACTCGGGATTTTTAAACAGGATGACCGGGCGCTTGTTTATATAAAAAAGGCGATAGAAACGAGACTCAGAAGCTTTATTGACGAAGGCTTGGAATGGATTCTCATATCCGGACAGCTGGGGACTGAGCTTTGGGCGGCAGAAACGGCGTACGATCTCAGAGAAGAGTATCCGGAATTAAAGGTTGCCGTTATCACGCCTTTCTACGGCCAGGAGGAAAAGTGGAAGGAGCCGAATAAAGAAATGTATGAAGCGGTGCTTGCTCAGGCAGATTATGAGGAGAGCCTGACGCATCGGCCGTACGAAAGTCCGCTCCAATTCCGGCAGAAAAACGCGTTCTTTATTGAAAAGTCAGATGCGCTTTTGCTTTTATATGATCCTGAAATGGAAGGATCGCCGAAATATATGCTGCAGCAGGCAGAAAAACGCCGTGAAACAGACGGATATCCGATTTATTCGATTACGATGGATGATCTCCGTGCCGCCGTTGAAGAAGAAGATTTCTTTACATAA	MKVLAVTGYKPFELGIFKQDDRALVYIKKAIETRLRSFIDEGLEWILISGQLGTELWAAETAYDLREEYPELKVAVITPFYGQEEKWKEPNKEMYEAVLAQADYEESLTHRPYESPLQFRQKNAFFIEKSDALLLLYDPEMEGSPKYMLQQAEKRRETDGYPIYSITMDDLRAAVEEEDFFT				NA	NA	NA	NA	NA
D1-12_01269	237			hypothetical protein	ATGTTTCATCATCATTGTTGCAGACCAAACGTGATGCCGCCGATTGTCCATCCGACTCATTGCTGTGAACACCATTGTTTTTCTAACACAGTTGTGCCGCATATTCATCCGCAACATACAACTAACGTAAATCACCACAACTTTGAGCACGTTCATTACTATCCGCACACTTTTTCAAATGTTGACCCGACAACTCACCAGCATTTTCAGTGCGGAAGCCCTTGCTGCGATCATTAG	MFHHHCCRPNVMPPIVHPTHCCEHHCFSNTVVPHIHPQHTTNVNHHNFEHVHYYPHTFSNVDPTTHQHFQCGSPCCDH	PGPT0025150_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025150-cotD-K06327	NA	NA
D1-12_01270	96			hypothetical protein	ATGTATAAAGGTGTTTTTTACTTGTTCTTTGTCGTGGTTTTTTTGATTGCGTTTGTGTTTTCGAATTTTAAAGACAGCTTGCTGACGCACTTTTAA	MYKGVFYLFFVVVFLIAFVFSNFKDSLLTHF				NA	NA	NA	NA	NA
D1-12_01271	1239			hypothetical protein	ATGTCCTTGAAAAATAAATTAAAGCGGATGAAAAACCACCTGAATGTGCCGGAAGCTGAAAAAAAGCCGGCAGCTTCACAACTTTCGGTCCCGGATATTCAAGTCCCATTTAGAGAAGAATGGGAGGCATTCGGAGTGAAGCCTTTCTTTTTTGAGGATGAATACTGTCTTATCCGCGAAACCGTCTATCCGCTTTCGCACCGTCACGGACGGTACAGCTTCAGTGAACTTGATGACGTCATGGCATTATGGAATAAAGGCGGTTTGACACATACTTTATCAGCAGAAGGATACGAAAAAAGCCAGCTGTTCTTCTTTGATACTGAAACGACCGGCCTCGGCGGCGGGGCCGGCAATATGATCTTTTTGCTCGGTCATGCAAGAGTGTATGAAGACCGTGTCGCGGTTAAACAGCATCTGCTTCCTAAACCGGGAAACGAGACGGCTCTTTACAAAAGCTTTTTAAGTGAGGTTGACATTACGTCTCTTGTTACGTATAACGGAAAAGCCTTTGACTGGCCGCAGGTAAAAACTAGGCATACATTGCTGCGGGACAGGCTTCCGAAACTTCCTGACTTCGGACACTTTGATCTTCTGCACGGAGCGAGACGGCTTTGGAAACATAAATTAGAGCGTGTATCGCTTTCGGCGGTTGAAAATGAAGAGCTTGCTTTTAAAAGGGACGAAGACACCCCTGGTTATTTGGCGCCGATGCTGTATTTTCAATTTTTAAAGGCGGAGGACCCGGCTCTTTTAAAGGGAGTGCTCTCGCATAATGAACAAGATGTGCTTTCTCTCATCGCTCTTTACATCCATATGTCAAAAAAGATTTTTGCATCTTCTGATCAGACGTCAGAACGTCAGGAAGCATACGCCATGGCGAAATGGTTTATCGCTCATAAAGAAACCGATCGGGCTGTTTCACAGCTGGAAGCGCTGCAAGGCAAAGCCTTTGAAGATTCAGATCGGGCCCTTTTTGACTTAGCAATGCTTTATAAAAAACAAAACCGCAGGCAAGACGCCGTGCCCCTTTGGGAGAAACTGACGGGCTCTGATCTTCACATATGCAGACACCAATCAGCGGTAGAGCTGGCGATCTATTTTGAGCATCACGCAAAAGATTACAAAAAAGCTCTGCAGGCCGCGCAGCAGGCGGCAGAAGACGAGGAAATATCGGAAAAAGAAGCCGAGAAGCTCCATGTGAGAATTGCCCGGCTCAAGAGGAAATATTCCTCTTGA	MSLKNKLKRMKNHLNVPEAEKKPAASQLSVPDIQVPFREEWEAFGVKPFFFEDEYCLIRETVYPLSHRHGRYSFSELDDVMALWNKGGLTHTLSAEGYEKSQLFFFDTETTGLGGGAGNMIFLLGHARVYEDRVAVKQHLLPKPGNETALYKSFLSEVDITSLVTYNGKAFDWPQVKTRHTLLRDRLPKLPDFGHFDLLHGARRLWKHKLERVSLSAVENEELAFKRDEDTPGYLAPMLYFQFLKAEDPALLKGVLSHNEQDVLSLIALYIHMSKKIFASSDQTSERQEAYAMAKWFIAHKETDRAVSQLEALQGKAFEDSDRALFDLAMLYKKQNRRQDAVPLWEKLTGSDLHICRHQSAVELAIYFEHHAKDYKKALQAAQQAAEDEEISEKEAEKLHVRIARLKRKYSS				NA	NA	NA	NA	NA
D1-12_01272	2247	dbpA_1		ATP-dependent RNA helicase DbpA	ATGAAGAAAAAATCACTGAGCGAACTGATACAGGAATTAAAAAATCATGAAAATATTGTGCATTGGCATGAAGAGGAACCGCGGGAGGCGAAAACCATGCCGATGCCGGAGCAAGTAGATCCGAACATTCGGGCGGCTCTCGAAAAGAGGGGGATCGAGCGGCTCTTTACACATCAATACTCCGCTTTTCAGACGGTTCAAAACGGAGAAAGCATTGTGGCTGTCACACCGACGGCCTCCGGAAAAACACTGTGCTATAATCTTCCGGTTCTTCAGTCTATCGCGGAAGATGCCTCAAGCCGCGCGCTTTATTTATTTCCGACAAAGGCGCTCGCACAGGATCAAAAAAGCGAGCTGAACGAAATCATAGACGAGACGGGCATGGACATTAAAAGCTTCACCTATGACGGAGATACGTCTCCGGCCATCAGGCAGAAAGTCAGAAAAGCCGGGCATATTGTGATCACAAATCCCGATATGCTTCATTCAGCCATTCTTCCCCACCATACAAAATGGGTGAGTCTGTTTGAAAACCTGAAATATATCGTCATTGATGAATTACATACGTATCGCGGCGTATTCGGCAGCCATGTGGCGAACGTCATCCGCCGTTTAATGAGAATCTGCGCTTTTTACGGAAGCAAGCCGTCATTTATCTGCACATCCGCCACAATCGCCAATCCGATGGAATTGGCGGAGCAGCTGACGGGAAAATCAGTGCGCCTGATTGACGACAACGGCGCCCCGGCCGGAAGAAAGCATTTTGCTTTTTACAACCCTCCGATTATAAATAAACCGCTGCATATTCGAAAAAGCGCCACCGTGGAAGTGAACGAACTTGCCAAAACTTTTTTGAAAAATAAGATCCAGACGATTGTTTTTGCAAGAAGCCGTGTGCGGGTTGAAATTATTTTAAGCCACATTCAGGAGATCGTAAAAAAGGAAATCGGCGCGAAGTCTGTCAGAGGTTATCGCGGCGGATATCTTCCGAAAGAAAGAAGAGATATAGAGCGGGGGTTAAGAGACGGCAGCATTCTCGGGGTTGTCAGCACAAACGCGCTGGAGCTTGGCGTTGATATCGGCCAGCTTCAGGTCTGCGTGATGACGGGGTACCCGGGCAGTGTCGCGAGCGCATGGCAGCAGGCGGGCCGGGCCGGACGGCGGCAGGGAGAGGCGCTTATCGTGATGGTGGCGAACTCTGATCCGATTGACCAATATATTGTGCGCCATCCTGATTATTTCTTTAAACGCTCGCCTGAATCTGCAAGGATTAATCCTGATAATCTCATTATATTGGTCGATCACCTGAAATGCGCTGCGTATGAGCTGCCTTTCAGAGCCGATGAAACATTCGGAGAAAATGATGCAAGAGACATTCTCGAGTATTTAGAAGAAGAAGGGGTGCTTCACGAAAACCGCGAACGCTATCACTGGGCGAGCGAATCTTTTCCCGCCTCCAACATCAGTCTCCGTTCGGCGTCACAGGAAAACGTGGTCATCGTTGACCGGTCAGAGACGGCTGATGTAAAAATCATCGGAGAAATGGACCGTTTCAGCGCGATGACGCTTCTTCATGATGAAGCGATTTATCTTCATGAAGGGGTGCAGTACCAGGTTGAAAAGCTTGATTGGGACCATAAAAAAGCGTACGTGCGAAAGGTCGATGTCGAATATTATACAGATGCCAATTTAGCGGTGCAGCTGAAAGTGCTGGACATTGACAGAACGGACAGCAGAAAGAAAACGGCCTTACATTTCGGCGATGTAACCGTGAACGCACTTCCGACAATATTTAAAAAAATTAAAATGACGACATTTGAAAATATAGGATCAGGGCCGATTCATCTTCCAGAAGAAGAACTGCATACCAGTGCTGCCTGGCTTGAATTGAAAGAGACGGATTCGGAGATCGGCGAAAAAACGCTTGAACAGCTGCTTTTAGGCATTGCCCACGTCCTGCAGCATATCGTGCCTGTATACGTCATGTGCGACCGAAATGACGTGCATGTCGTGCCGCAAATCAAAGCCGCACATACCGGACTTCCGACAATCTTTCTGTATGATCATTATCCGGGCGGAATCGGACTTGCTGATGAAGTATATAAGCGATTTGATGAAATCAATGAAGGGGCTGAGCGCCTGATCAGACAATGTCCATGTCAAGACGGATGTCCTTCCTGCATCGGCTCCGAAATAGAAGGAATAGATGCAAAGAAAGCGATACTCCGGCTCTTGAATTACGTGTAA	MKKKSLSELIQELKNHENIVHWHEEEPREAKTMPMPEQVDPNIRAALEKRGIERLFTHQYSAFQTVQNGESIVAVTPTASGKTLCYNLPVLQSIAEDASSRALYLFPTKALAQDQKSELNEIIDETGMDIKSFTYDGDTSPAIRQKVRKAGHIVITNPDMLHSAILPHHTKWVSLFENLKYIVIDELHTYRGVFGSHVANVIRRLMRICAFYGSKPSFICTSATIANPMELAEQLTGKSVRLIDDNGAPAGRKHFAFYNPPIINKPLHIRKSATVEVNELAKTFLKNKIQTIVFARSRVRVEIILSHIQEIVKKEIGAKSVRGYRGGYLPKERRDIERGLRDGSILGVVSTNALELGVDIGQLQVCVMTGYPGSVASAWQQAGRAGRRQGEALIVMVANSDPIDQYIVRHPDYFFKRSPESARINPDNLIILVDHLKCAAYELPFRADETFGENDARDILEYLEEEGVLHENRERYHWASESFPASNISLRSASQENVVIVDRSETADVKIIGEMDRFSAMTLLHDEAIYLHEGVQYQVEKLDWDHKKAYVRKVDVEYYTDANLAVQLKVLDIDRTDSRKKTALHFGDVTVNALPTIFKKIKMTTFENIGSGPIHLPEEELHTSAAWLELKETDSEIGEKTLEQLLLGIAHVLQHIVPVYVMCDRNDVHVVPQIKAAHTGLPTIFLYDHYPGGIGLADEVYKRFDEINEGAERLIRQCPCQDGCPSCIGSEIEGIDAKKAILRLLNYV				NA	NA	NA	NA	NA
D1-12_01273	507	crr		PTS system glucose-specific EIIA component	TTGCTGAAAAAATTATTTGGATTGGGAGACAGCCGGAAAAAGCCGGCCGAAGAAGTGATTTTTTCTCCGGCTGACGGAGCGGTGATGGATTTGGCTTCAGTGCCGGATCCTGTATTTTCACAAAAAATGATGGGGGATGGGATCGCCGTCGAGCCTGCAAACGGAGACATTGTTTCACCGGTTGAGGGAGAAGTGATTCAGCTGTTCCATACAAAACATGCTGTCGGCATCCGCACCCTTTCCGGAGCGGAACTTTTGATACATGTCGGCTTGGATACCGTCAATATGAACGGTGAAGGCTTTGAAGCGCATGTAAAAGAAGGCGACAAAGTGAAAACAGGCGATCTGCTTTTAACGTGCCGGCTGGATTTAATAAAAGAAAAAGCAAGCAGCACCGTCATCCCTATGGTGATTATGAATGGCGATGCCGCAGAACCTTTGCAATTTGCAGGCGCAAATGAAGCGAAAAAAGGACAAACAGAGCTTTTTACGATAAAAATGAAGTAG	MLKKLFGLGDSRKKPAEEVIFSPADGAVMDLASVPDPVFSQKMMGDGIAVEPANGDIVSPVEGEVIQLFHTKHAVGIRTLSGAELLIHVGLDTVNMNGEGFEAHVKEGDKVKTGDLLLTCRLDLIKEKASSTVIPMVIMNGDAAEPLQFAGANEAKKGQTELFTIKMK	PGPT0014090_403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0014090-crr-K02777	NA	NA
D1-12_01274	414			hypothetical protein	ATGGATCAATCACAAAACGATAAACTTGATCCGCAAAGAAATGAGGACATCATCAGCCATGCGATGGACCAATTTTTTCACTCAGGTCCCTTCGCAGAATTGATGCAGGGTTTTCAACACCTTGTCAATTCGGCTTTTACTGAAGCGCAAGTGACGATTGACGTCAGAGAAGAGCCGACGGGCCTCGCGGTTGATATCAGCGTTCCCGAGACATTCCGTGACGGGGATATGCTGGTGGAAACGAAAGGGTGCTACCTTCACGTTACAATCCGCTACGATCATAAACAGGCTCATTCATCCCACGTGTCTTCAAGCATGACAAGAACCGTTGTCCTCCCGTATAAGGTGAGTGAAGAAGATATGGAAACATCCTGGAATGAACAGACGCTTACCCTCTTTTTCCCTAAAAAATAA	MDQSQNDKLDPQRNEDIISHAMDQFFHSGPFAELMQGFQHLVNSAFTEAQVTIDVREEPTGLAVDISVPETFRDGDMLVETKGCYLHVTIRYDHKQAHSSHVSSSMTRTVVLPYKVSEEDMETSWNEQTLTLFFPKK				NA	NA	NA	NA	NA
D1-12_01275	468			hypothetical protein	ATGCAATGGAGAGCGCAGCCCTATCAAAATATGTACCAGCAGCCGGCGGGATATTTCTACCCGCAGCAGATACAGCCGCTGCAGCAGCCGAGTCCGCAGCAGATACAGCCATTACAACAGCCGAGTCCGCAGCAGATACAGCCATTGCAGCCGCCGCCATATCATCAGCAAGGGCAGTACCCGCAGCAATTTTATCCGAATCAGGAATACGGTCATGTGCAGCAGCCGTTTGCTCCCCCTCCTCCTCAGGCAGCCATGCCCGGGGGGCAGCCGGGGTTTGTGAATCCTTACCCCGTTCCCAGACCGAATCAGCAGCAGTCTTCCCAATTCTCAGGCATACTCTCCCAGTTTAAAAAAACGAACGGACAGTTTGACTTTAATAAAATGATAGATACAACGGGGCAGATGGTAAGCGCCGTAAATCAGGTCGGATCGCTGGTGAAAGGCCTCACCAATATCTTCAAATAA	MQWRAQPYQNMYQQPAGYFYPQQIQPLQQPSPQQIQPLQQPSPQQIQPLQPPPYHQQGQYPQQFYPNQEYGHVQQPFAPPPPQAAMPGGQPGFVNPYPVPRPNQQQSSQFSGILSQFKKTNGQFDFNKMIDTTGQMVSAVNQVGSLVKGLTNIFK				NA	NA	NA	NA	NA
D1-12_01276	183			hypothetical protein	ATGAACGTATCATACTTAAGAAAGCGTTTTGCTGAAGTGAAAAAATATGAAACAGATTGTGCAGATAAACTGATGGACTTTGCAAAATTCCTCTATATTCAAGGCCATCTCACCGCAACCGAATTTCGAAACAGTATGAAGGTTCTCGAAGCAAGTGGAGCAGAAAACCCGGCGTATGAATAA	MNVSYLRKRFAEVKKYETDCADKLMDFAKFLYIQGHLTATEFRNSMKVLEASGAENPAYE				NA	NA	NA	NA	NA
D1-12_01277	369	yppE		putative protein YppE	TTGCAGACACAGTCGTTATTGGAGCTGACAGAACAAATGATAAAGGCGGTTCTTGAAGCCGAAAAAAGGTATCAGGATGGAAAAGAGTCAGGCCGTTCATATGATTTTTTTGAGACTATTAAACCCGATGTTGAAAAAAGAGACCGGCTTTGCGCGCTTTGGACTAAAGCAGCGCTTGCGTTTATTCAGGAAAACCGTCCGAAATACGTTCATCACGCACAGATTCAGGCCGTTACAGAAAATTTCGGAGAGCTGATGCTCCAATCATATGTTCATCATATTCATAAAAAAAGATACAGAGATTTAACTGAATCTGTTTTATATACGCTTCGTATATTAAGGGATGAAATTGAAAAAGAAGGCAGCTGA	MQTQSLLELTEQMIKAVLEAEKRYQDGKESGRSYDFFETIKPDVEKRDRLCALWTKAALAFIQENRPKYVHHAQIQAVTENFGELMLQSYVHHIHKKRYRDLTESVLYTLRILRDEIEKEGS				NA	NA	NA	NA	NA
D1-12_01278	246			hypothetical protein	ATGTCTGTTTACACGAGCAAGGCTGATATTCTCCGTCTGCTTTCTGATATTGAAATCCGGATTTCTGCTGCTGAAAAAACGCTTACCCAGGCAGTCAGATCCTGTCAGGCGGAAGCTGAAGAAATCAGACAGGAGAAACTTTCCCGCCTTGAGGAAGAGGCGCGGGAGCTTCATGTTTGTATTGATGACCTGTTTTTGGCTGACCGGCGTAAAAAGGATTTGCCGAGAGCCTGCCGGATCAGCTGA	MSVYTSKADILRLLSDIEIRISAAEKTLTQAVRSCQAEAEEIRQEKLSRLEEEARELHVCIDDLFLADRRKKDLPRACRIS				NA	NA	NA	NA	NA
D1-12_01279	105	sspM		Small, acid-soluble spore protein M	ATGAAAACGAGACCGAAAAATGCAGGTAAACAGCAAAAAACCGAAGCAAAAACGACTGATACGCTTGATAAAAAATTAGGCGGCCCAAACCGCCCTTCCACGTAA	MKTRPKNAGKQQKTEAKTTDTLDKKLGGPNRPST	PGPT0024920_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024920-sspM-K06430	NA	NA
D1-12_01280	963			hypothetical protein	ATGAACGTGCATAAACGACAGACCGTAACCGCCATTCTTCGCCTGATCGAAAAAGAGACGAAAATAAAAAATGCCGATAATATTTCCCGGACGAATGCCTATAAAGCATATTATGACCGCCATCCTGAGATCAAGTGGCCGCTTTTGGCATCCTTTGTGTCCCGCAATGCGGGCTGGTCGATGACTGATCTAAGAGGCATCCTTTATCAGGAGGGTCTTGACAGCAGTCAGAAAAACTGGTTTTTCCTTTCGTATGAAAGGGCGAATTGGCTGATTTTTTCTGATGCCTATCCTCAGCTTCTGGTCTACCAGTGGTCAAAACAAATCGGCGAACCTCTTTTCCGTCATCTTCCTCATTTCCGCGTCTCGGCTTTTATGCAGGAAGAATGGTTCCGCTTTTGGCGTGACGGAGATACGGAACGGCTCATGTATGCTCTTATTATAAATGAACAAAACACTATCCAAGCACCTATTATACAAAATCCTTCGTTTAAAAAGAATGTTTTTGGCACGATTCCTTTTTATTTAAGTGATTGGTTTCACTTTAATACGGTGGTATTCCCTTCATGTGACGGACATTTATACGGAATTTCCGTCAAACGGTTTTCGAAAACCGAAGAAAGAATTACGCTCGGGAAACAGCTGGCCCGCCTTCTGTTCAGTCCTGATCTGCACGCTTCTTTTTACCGTTTTCTTGATACCGTTCCTCATACCGGTTCGCGCTTTGATATGGAGAAAATGATCGGCATCAAAAAAAGAACATCACCGATGCTGAGGACAACCTATCCCATTGTTGCCCACCCATTAGACGGCGAAAGGGCGGATTGGTTTCAAAAAAGGTTAAGAAAAGGGGCTTTCTTACAGGAGAAAATGCCGAAACAGCTTGAACTGACGGACTGGTACTTCCAAAAAAGACGGGAGCTCCATGCGCTCTTCGCGGTGAAAGAGTGGCTGAAGAAATGA	MNVHKRQTVTAILRLIEKETKIKNADNISRTNAYKAYYDRHPEIKWPLLASFVSRNAGWSMTDLRGILYQEGLDSSQKNWFFLSYERANWLIFSDAYPQLLVYQWSKQIGEPLFRHLPHFRVSAFMQEEWFRFWRDGDTERLMYALIINEQNTIQAPIIQNPSFKKNVFGTIPFYLSDWFHFNTVVFPSCDGHLYGISVKRFSKTEERITLGKQLARLLFSPDLHASFYRFLDTVPHTGSRFDMEKMIGIKKRTSPMLRTTYPIVAHPLDGERADWFQKRLRKGAFLQEKMPKQLELTDWYFQKRRELHALFAVKEWLKK				NA	NA	NA	NA	NA
D1-12_01281	609	recU	COG3331	Holliday junction resolvase RecU	GTGATTCGGTACCCGAATGGAAAAACTTTTCAGCCGAACAAAACGGTTTCATCCCAAAACAGCCAGAAACGGTCCCATTCATACAGTAATCGCGGCATGACCCTCGAAGACGACCTGAATGAAACGAATAAGTATTATCTGGCTAACCAAATTGCTGTCATTCACAAAAAGCCGACACCCGTCCAGATTGTAAACGTCCACTATCCGAAAAGAAGCGCCGCAGTCATTAAGGAAGCTTATTTTAAACAGTCTTCAACAACTGACTACAACGGCATTTATAAAGGACGCTACATTGATTTTGAGGCAAAAGAAACAAAAAACAAAACGGCATTTCCCCTGCAGAATTTTCATGATCATCAGATTGAACATATGAAGCAGGTGGTCAGGCAAGACGGCATTTGTTTTGTTATTATATCCGCTTTCGGAAAGGTTTATTTCCTCGAAGCCGACAAGCTGTTTGTCTTTTGGGACAGAAAGGAGAACAATGGCAGAAAATCGATTCGCAAAGACGAATTAGAAGATGCTTCCTTTCCGATTTCCCTTGGATACTCACCGAGAATTGATTATATTAGTATTATTGAACAGCTTTATTTTTCGCAGGAACAGTAG	MIRYPNGKTFQPNKTVSSQNSQKRSHSYSNRGMTLEDDLNETNKYYLANQIAVIHKKPTPVQIVNVHYPKRSAAVIKEAYFKQSSTTDYNGIYKGRYIDFEAKETKNKTAFPLQNFHDHQIEHMKQVVRQDGICFVIISAFGKVYFLEADKLFVFWDRKENNGRKSIRKDELEDASFPISLGYSPRIDYISIIEQLYFSQEQ				NA	NA	NA	NA	NA
D1-12_01282	2784	ponA	COG0744	Penicillin-binding protein 1A/1B	ATGTCAGATCAATTTATGAGCCGTGAAGAACGCCGTAAGGCAAGGCAGACGAAAAGCACTAAGCCCTCTTCACCGAAAAAAGGCAAGAAACAGCGTAAAGGCGGTTTATTCAAAAAGATTGTGCTGTCCTTGGTTATTCTGTTTGTCCTTGGCATAGTCGGCGGAGCGGCGGCATTTGCCGTTTTGGTTTCCGGCGCGCCCTCTTTGGACGAAGCAAAGCTGAAAACGCCTTACTCTTCAACGATTTACGATAAAAACGGCAAAGAAATCGCGGAAGTGGGCGGCGAAAAACGAACCTACGTCCCGATTAAGGATATACCCGATGTTGTGAAAGAAGCATTTATCGCAACTGAAGACGCCCGTTTTTATAAGCACCACGGTATAGACCCGATCCGGATCGGAGGCGCCTTGGTCGCCAACTTTACGGATGGATTCGGTTCAGAGGGAGGAAGCACAATCACCCAGCAGGTTGTGAAAAACTCGCTTTTGACCCATCAGAAAACGATTAAACGGAAAGCACAGGAAGTGTGGCTTTCACTGCAGCTGGAGCGCCATTATTCTAAAGATGAAATCTTAGAAATGTATTTAAACAGAATTTATTTCTCACCGCGCGCCTATGGCGTCGGTAAAGCGGCTGAAGAATTCTTCGGCGTAAAAGATTTGAGCAAGCTTACGGTTGAACAGGCGGCGACGCTTGCCGGAATGCCGCAAAGCCCGACCGGATATAACCCGGTTAAAAATCCGAAGGCTTCCGAAAAACGCCGAAACATTGTTCTCAGCTTAATGGAAAAGCAAGGATTCATTTCAAATTCTGAATACCAAAAAGCGAAGAAAGTGTCCATGAAAGATGAAGGCGTCGTCAGCCAAAAGGAATACGATAAAAAGGACACAAATAAATACAGCGCTTTTGTCGAAGAAGTTATGAAAGAAATTGAGACAAAAGAAAAGAAAGACGTCGATATTTCAACTGACGGACTGAAAATTTATACGACTCTTGATACGAAAGCACAAGATTATCTTGATCAATTGATGAACGGCGACACAGCCGGATTTACCGAAGGCATGCAGGGCGGCGTCACGCTCCTTGATACGACAAACGGAGAAATCCGCGCTATCGGAGCAGGACGGAACAGAACTGCCGGGGGATTCAATTATGCAACACAAGGTAAAACCCAGCCCGGTTCAACGATAAAACCGATTCTGGATTACGGCCCGGTCATTGAAAATAAAAAATGGTCGACGTATGAGCAGATTGATGATTCGGCTTATACGTACTCTGACGGCACACCGATTCACGACTACGACAATAAATACAGAAATATGATATCAATGCGAGAGGCCCTCTCAGACTCGCGTAATATTCCGGCTCTGAAAGCATATCAAGCAGCCGGTAAAGATAATGCCGTCGACTTCGCAAATGACTTAGGACTAGGATTAAACAAAGAGAGTGTAACCGAATCTTATTCGATCGGAGGATTTGGTCAGGATAACCGCGGTGTATCTACTATGACAATGGCGGGCGCCTACAGCGCTTTCGGAAATAACGGAACGTACAATGAACCGCATGCGGTCACATCGATTGAATTTAATGACGGCACTAAGCTTGATTTAACACCGAAACCGAAAAGTGCTATGAGCGATTACACGGCATTCATGATTACCGATATGCTCAAAACAGTCGTGCAGTCAGGAACAGGCAGACTAGCTCAAGTACCGAACGTGGAAGTCGCCGGTAAAACGGGTACGACCAACTTTACTAAAGAGGATATTCAAAAATATAATATCGCACAAGGCGGAGTCCCAGACTCATGGTTTGTCGGATACACCCCTCAATATACAGCGGCGGTTTGGACCGGAGTTGAGTCTGGCAACAAAGCAGGAAAGAAATCACTGTCTGTTGCTGACCAGCAAGTCGCAAAACGGATTTTCCAAAAGCTGATCTCATACGTTGATGACGGTAAAGGAAGCTTTAAGCAGCCTGACAGCGTCGTCAAAGAAACGGTTGAGAAAGGCTCGAATCCTGCCGCTTTAGCCGGACCGAATACACCGGATGATAAAAAAGTGACGGAGTACTTCGTGAAAGGAACGCAGCCAACTGCCGTTTCTAAAACGTACACGAAAGAAAAAGCCGATAAACCGACAGGATTGCAAGTGAAATACGACAAAGATAAAAAATCATTAACCTTAAGCTGGAATTATGAAGGTGATGCAACATTCAATGTCAAACAATCCGTTGACGGCGGAAGCTACATTGACATTCAAAACAGTTCGGCAAAAGAAGCCGTCGTCTCAGATGTCACACCAGGCTCCACATACAGCTTCCAGGTGACAGCGGAAAACGATGACGGAAAAAGCGATACGGCATCAGCATCTTTCAAAGTCCCGAAAGATGAAGAAGACGATGCAGATAAAGATAAAGCGACTGACGATGAACAGAAGTCTGATGAAGATAAAGATAAAGACAAGACGCAAACCGATGATTCAAACACAGATGACAATCAAACAGATACGTCAGACGGATCGGATCAAACACCAACTGATGACTCAGATAAAAATCAGGATCAATCCGATAAGGATCAAACGGATGACAACAATCAGAATCAGCCCGGTAACGGGACGGATAACAACGGACAGCAAGATAACGGCTCTGATAATGATTCTGATTCCGGTTCAGACGGCACAAATAAACCTGACAGCGGTCAAACGGACAAAAACCAAGACTCATCTTCAAATATCAACGGGCAGTCCAATTCGTCAACCATCCAGTCAAATTCCGCTCATTAG	MSDQFMSREERRKARQTKSTKPSSPKKGKKQRKGGLFKKIVLSLVILFVLGIVGGAAAFAVLVSGAPSLDEAKLKTPYSSTIYDKNGKEIAEVGGEKRTYVPIKDIPDVVKEAFIATEDARFYKHHGIDPIRIGGALVANFTDGFGSEGGSTITQQVVKNSLLTHQKTIKRKAQEVWLSLQLERHYSKDEILEMYLNRIYFSPRAYGVGKAAEEFFGVKDLSKLTVEQAATLAGMPQSPTGYNPVKNPKASEKRRNIVLSLMEKQGFISNSEYQKAKKVSMKDEGVVSQKEYDKKDTNKYSAFVEEVMKEIETKEKKDVDISTDGLKIYTTLDTKAQDYLDQLMNGDTAGFTEGMQGGVTLLDTTNGEIRAIGAGRNRTAGGFNYATQGKTQPGSTIKPILDYGPVIENKKWSTYEQIDDSAYTYSDGTPIHDYDNKYRNMISMREALSDSRNIPALKAYQAAGKDNAVDFANDLGLGLNKESVTESYSIGGFGQDNRGVSTMTMAGAYSAFGNNGTYNEPHAVTSIEFNDGTKLDLTPKPKSAMSDYTAFMITDMLKTVVQSGTGRLAQVPNVEVAGKTGTTNFTKEDIQKYNIAQGGVPDSWFVGYTPQYTAAVWTGVESGNKAGKKSLSVADQQVAKRIFQKLISYVDDGKGSFKQPDSVVKETVEKGSNPAALAGPNTPDDKKVTEYFVKGTQPTAVSKTYTKEKADKPTGLQVKYDKDKKSLTLSWNYEGDATFNVKQSVDGGSYIDIQNSSAKEAVVSDVTPGSTYSFQVTAENDDGKSDTASASFKVPKDEEDDADKDKATDDEQKSDEDKDKDKTQTDDSNTDDNQTDTSDGSDQTPTDDSDKNQDQSDKDQTDDNNQNQPGNGTDNNGQQDNGSDNDSDSGSDGTNKPDSGQTDKNQDSSSNINGQSNSSTIQSNSAH	PGPT0023875_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
D1-12_01283	492	ypoC		putative protein YpoC	GTGACGGCGATTGACATTCTGGCAGGCTATGAAACATACCTGCGCAGCCTTACGGACTTGGAAAGCCACGAGATCAAAACGGCGCTGCGCCGCCATCCGCTGTATATGGATTTCAGCGGTCAGCCAACAGTGCAGCCATGGAGGGAAAGGGGCGAATATGTCCCGTTTCTGTTTCAGATTTGGAACGAAACGAAAGAAACGCTGCTTCCCGTTTTTCAAACAAGAAAATCGAGATGTGATCAAAATGACATGCTGAAGGGAATTGCCTGTCTGATTGCCGCTTTTCACTGGACGGCAGGGGAGCGGGTTACATCACTCGACTGGACTGTGCTTGAAACAAAACATTTTCCCGCCGAACCGATCAATTGGGCGGAGCGAATGGCGTTTATTTTAACGAAACCGACTCAATTTCACTCGTTTATTCAGCTGGATGAATTGATGACGGAGATGAAGAAACAATATCATAAATATGAAGCCATGAACAAATGTTAA	MTAIDILAGYETYLRSLTDLESHEIKTALRRHPLYMDFSGQPTVQPWRERGEYVPFLFQIWNETKETLLPVFQTRKSRCDQNDMLKGIACLIAAFHWTAGERVTSLDWTVLETKHFPAEPINWAERMAFILTKPTQFHSFIQLDELMTEMKKQYHKYEAMNKC				NA	NA	NA	NA	NA
D1-12_01284	660	nth	COG0177	Endonuclease III	GTGTTAAATTTAAAGCAGATTGAATATTGTCTTGAAAAAATCGGCGATATGTTTCCGCACGCAGAATGTGAACTTGTCCATTCAAATCCTTTCGAATTGGTTGTGGCAGTCGCATTATCCGCGCAATGTACGGATGCTCTCGTCAACAGAGTGACAAAAACGCTATTTCAAAAATATAAACGGCCCGAAGATTATCTTGCCGTATCGCTGGAAGAACTCCAGCAGGATATTAAATCAATCGGCCTGTACCGTAATAAAGCCAAAAATATTCAAAAGCTGAGCAAAATGATCATCGAAGAGTACGGCGGAGAAGTGCCGAAAGACCGGGATGAGCTTGTGAATCTGCCGGGTGTCGGACGGAAAACGGCAAATGTGGTCGTGTCTGTTGCTTTCGGCGTACCTGCGATTGCAGTAGACACTCATGTGGAGCGGGTCTCTAAACGGCTCGGTATCTGCCGCTGGAAGGACTCTGTTTTGGAAGTAGAGAAAACATTAATGAAAAAAGTGCCGAAAGAGGATTGGTCTGTTACGCACCACAGATTAATATTTTTCGGCAGGTATCATTGTAAAGCGCAATCTCCCCGCTGTGCGGAATGTCCTTTGCTTCCGCTATGCAGAGAAGGGCAGAAGCGTGACAAAAAAGGGCTGGTGAAACGGTGA	MLNLKQIEYCLEKIGDMFPHAECELVHSNPFELVVAVALSAQCTDALVNRVTKTLFQKYKRPEDYLAVSLEELQQDIKSIGLYRNKAKNIQKLSKMIIEEYGGEVPKDRDELVNLPGVGRKTANVVVSVAFGVPAIAVDTHVERVSKRLGICRWKDSVLEVEKTLMKKVPKEDWSVTHHRLIFFGRYHCKAQSPRCAECPLLPLCREGQKRDKKGLVKR	PGPT0013735_3149	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
D1-12_01285	699	dnaD	COG3935	DNA replication protein DnaD	ATGAAAAAACAGCAATTTATAGATATGCAGGAACTCGGCATTTCAAGCATTCCCAACCTGCTGCTGACACATTACCGGCAGCTTGGGCTGAATGAAACCGAATTGATCCTGCTTTTGAAGATTAAAATGCATTTGGAAAAAGGCTCTTATTTTCCGACGCCGTTTGAACTTCAATCAGGCATGTCCATCTCTGCTGAAGAATGTACAAGCTGCCTGAGAATGTTTATTCAAAAAGGTTTTCTGTTTATTGAAGAATGTGAAGACCATAACGGTATAAAGTTTGAAAAATATTCTCTGCAGCCGTTATGGGCGAAGCTGTATGATTACATGCAGCATTCACAAAACGAAACGCAGGAAAGAACGTCAGAAAGAGAACAAAAAAGCCTGTATACCATCTTTGAAGAAGAGTTCGGAAGACCGCTGTCGCCGCTTGAATGCGAGACGCTGGCCATATGGCAGGATCAGGATCAGCATGATGCGATTCTGATTAAACACGCCTTAAAAGAAGCCGTTTTATCGGGGAAACTCAGTTTTCGCTATATTGACCGGATTTTATTTGAATGGAAAAAGAACGGCTTCAAAACGGTTGAGCAGGCGAAGGCGCACAGCCAAAAATTCCGGCGTGTTCAAACGAAACAAAATGATCCGCAAAAAGAGTATACGAGGCAGGTGCCTTTTTACAATTGGCTGGAACAATAA	MKKQQFIDMQELGISSIPNLLLTHYRQLGLNETELILLLKIKMHLEKGSYFPTPFELQSGMSISAEECTSCLRMFIQKGFLFIEECEDHNGIKFEKYSLQPLWAKLYDYMQHSQNETQERTSEREQKSLYTIFEEEFGRPLSPLECETLAIWQDQDQHDAILIKHALKEAVLSGKLSFRYIDRILFEWKKNGFKTVEQAKAHSQKFRRVQTKQNDPQKEYTRQVPFYNWLEQ				NA	NA	NA	NA	NA
D1-12_01286	1293	asnS		Asparagine--tRNA ligase	TTGAAAACAACAATCAACCAAGTGTATAAACACACAGGCGAGGAAGTAACGATTGGAGCTTGGGTCGCTAATAAACGCTCAAGCGGTAAAATCGCATTTTTACAGCTGAGAGACGGTACCGGCTTCATTCAGGGAGTTGTCGTCAAAGCTGAAGTAGAAGAAGACATCTTCCAAATCGCGAAATCAGTGACGCAGGAAACGTCACTTTATGTAAAAGGAATTGTGAAAGAGGACGAGCGTTCACCGCTTGGCTATGAGCTTGCTGTTACATCCATTGAAGTCATTCACGAAGCGACTGATTATCCGATTACGCCTAAAGAGCACGGTACGGAATTCTTAATGGATCACAGACATTTATGGCTCCGTTCGAAACGCCAGCACGCAATTATGAAAATCCGCAACGAAATCATCCGTGCGACTTATGAATTTTTCAACAAAGAAGGCTTCGTGAAAGTTGATCCGCCGATTTTGACGGGAAGCGCTCCGGAAGGCACGACTGAGCTGTTCGCGACGAAATATTTTGATGAAGATGCCTTCCTGTCTCAAAGCGGCCAGCTGTATATGGAAGCAGCTGCAATGGCGCTCGGAAAAGTATTCTCTTTCGGACCGACGTTCAGAGCGGAAAAATCGAAAACGAAACGCCATCTCATCGAATTCTGGATGATTGAGCCTGAAATGGCATTTGTTGAATTTGAAGAAAACCTTGAAGTTCAGGAGAATTATGTTGCATACATCGTGCAAAGCGTGCTGGAACATTGTAAGATCGAGCTGAACACATTAGGAAGAGACACATCGAAGCTTGAACAAATCAAAGCGCCATTCCCGCGCATTACGTACGATAAAGCGATCGAATTCCTGAAAGAAAAAGGCTTTGACGATATTGAGTGGGGAGATGACTTCGGTGCGCCGCATGAAACAGCGATCGCAGAAAGCTATGACAAACCGGTGTTTATCACTCATTATCCGACGTCATTAAAACCGTTTTATATGCAGCCTGCCAAAGATCGTGACGATGTCGTGTTATGTGCCGACTTAATCGCTCCGGAAGGCTACGGGGAAATCATCGGCGGTTCAGAACGCGTTCATGATATGGATTTATTGGAAGAAAGATTAAAAGAACACGGTCTGGATTCAGATGCTTACAAATGGTATGCTGAACTCAGACAATACGGTTCTGTTCCGCACTCCGGCTTCGGCCTTGGACTTGAGCGGACAGTGGCTTGGATCAGCGGAGCGCCTCACGTGCGTGAAACGATTCCGTTCCCGAGACTTCTGAACCGTCTGTATCCGTAA	MKTTINQVYKHTGEEVTIGAWVANKRSSGKIAFLQLRDGTGFIQGVVVKAEVEEDIFQIAKSVTQETSLYVKGIVKEDERSPLGYELAVTSIEVIHEATDYPITPKEHGTEFLMDHRHLWLRSKRQHAIMKIRNEIIRATYEFFNKEGFVKVDPPILTGSAPEGTTELFATKYFDEDAFLSQSGQLYMEAAAMALGKVFSFGPTFRAEKSKTKRHLIEFWMIEPEMAFVEFEENLEVQENYVAYIVQSVLEHCKIELNTLGRDTSKLEQIKAPFPRITYDKAIEFLKEKGFDDIEWGDDFGAPHETAIAESYDKPVFITHYPTSLKPFYMQPAKDRDDVVLCADLIAPEGYGEIIGGSERVHDMDLLEERLKEHGLDSDAYKWYAELRQYGSVPHSGFGLGLERTVAWISGAPHVRETIPFPRLLNRLYP				NA	NA	NA	NA	NA
D1-12_01287	1182			Aspartate aminotransferase	TTGAAATTGGCAAAAAGAGTATCCGCATTAACACCGTCTGCAACACTTGCAATTACTGCAAAAGCGAAAGAACTGAAAGCAGAAGGCCATGATGTCATCGGCCTCGGAGCAGGAGAACCGGATTTTAATACGCCTCAGCACATTATAGATGCCGCGGTGCGTTCCATGAATGAAGGCCACACAAAATATACGCCTTCAGGCGGTCTGCCGGCGCTGAAAGACAGTATCGCAAAAAAATTCAAAAACGATCAGGGGATTGAATATAAGCCGTCAGAAATCATTGTCTGCACCGGAGCGAAACACGCTCTGTATACATTATTTCAGGTCATTCTTGATGAAGGGGACGAAGTGATTATACCGACTCCTTACTGGGTCAGCTACCCTGAGCAGGTGAAACTGGCAGGGGGGCGTCCCGTCTATGCAGAAGGGCTGGAATCCAATCAGTTTAAAATTTCACCGGAGCAGCTGAAGCAGGCTATCACCGAGAAAACAAAAGCGCTCATTATCAATTCACCGAGCAACCCGACAGGTGTTATGTATACGAAAGAAGAGCTTGCGGAACTCGGAAAAGTGTGTCTGGAGCATGGCATTCTGATCGTTTCTGACGAGATTTATGAGAAGCTTACATACGGAGGAAAAAAACACGTCTCAATCGCACAGCTTTCAGATGAATTGAAAGAGCAGACGATCATCATTAACGGCGTGTCGAAATCTCACAGCATGACGGGCTGGAGGATCGGCTATGCGGCGGGTTCGGAGACGATTATTAAAGCGATGACGAGCCTTGCGAGCCACAGCACATCAAATCCGACGTCCATCGCTCAATACGGCGCCATTGCGGCCTATAACGGTCCGGCTGAGCCGCTGGAAGAGATGAGACAGGCATTTGAGCACAGACTGAACACCATTTACGCTCAGCTCAGTGAAATTCCCGGATTCACCTGTGTCAAGCCTGAAGGGGCGTTTTACTTGTTCCCTAACGCCAAAGCGGCCGCAGAAAACTGCGGATTCAAAGATGTCGATGAATACGTCAAGGCGCTTCTGGAAGAAGAAAAAGTCGCCATCGTGCCGGGCTCGGGCTTCGGCTCACCGGACAACGTCCGTTTATCTTACGCAACGTCACTTGATCTTTTAGAAGAAGCGGTCGAAAGAATCCGCCGCTTCACGGAAAAACACAGCTGA	MKLAKRVSALTPSATLAITAKAKELKAEGHDVIGLGAGEPDFNTPQHIIDAAVRSMNEGHTKYTPSGGLPALKDSIAKKFKNDQGIEYKPSEIIVCTGAKHALYTLFQVILDEGDEVIIPTPYWVSYPEQVKLAGGRPVYAEGLESNQFKISPEQLKQAITEKTKALIINSPSNPTGVMYTKEELAELGKVCLEHGILIVSDEIYEKLTYGGKKHVSIAQLSDELKEQTIIINGVSKSHSMTGWRIGYAAGSETIIKAMTSLASHSTSNPTSIAQYGAIAAYNGPAEPLEEMRQAFEHRLNTIYAQLSEIPGFTCVKPEGAFYLFPNAKAAAENCGFKDVDEYVKALLEEEKVAIVPGSGFGSPDNVRLSYATSLDLLEEAVERIRRFTEKHS	PGPT0020110_3496	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-12_01288	486	ypmB	COG5353	putative protein YpmB	ATGAGAAAAAAAGCATTAATATTTACAGCCGTATTTGGTATTATTTTTTTAGCAGTTCTTTTATTTTCGGCCAGCATTTTTAAATCTGCAATGGCTCAAAAAGAAGAAGGCCACGAAACAGCTGCCGCAGCGGCTAAAGAAAAAACGGATCTGACAGATGCTGAGAAAGTGGAGACCTTTGTCGGCAAACAGAAATATTATGTTGTTACCGGAACGGATAAACATGGAAAAGATGTGTATGTATGGGTTCCGGCCGACAAAAAAGCAAAAATTCTCTCAAAAAAAGCCAGTGACGGCATTTCAAGCGGCAAGGCTGCCAAGATCGTTCGGGACGAAGGGCTTGTTTCCAAGCTGAATGGCGTTCACCCGGCGAGAGAAAACAATGTTCCGTTATGGGAAGTGACCTATATCAACAAAAGCGGGCAGTATAGCTTTAGCTATGTGGACTTTACAAGCGGCAAGATTCTCAAAAACATCACACCGTGA	MRKKALIFTAVFGIIFLAVLLFSASIFKSAMAQKEEGHETAAAAAKEKTDLTDAEKVETFVGKQKYYVVTGTDKHGKDVYVWVPADKKAKILSKKASDGISSGKAAKIVRDEGLVSKLNGVHPARENNVPLWEVTYINKSGQYSFSYVDFTSGKILKNITP				NA	NA	NA	NA	NA
D1-12_01289	171			hypothetical protein	ATGGAAAGCAAAATTGAAATTCTGTCAACGATTAATGTGGAGCATTCAGATGATTTATATAAAATCGTCGATACATTAAACCGGACTTTGAAACGGGACAATCTGATGTTCGGCCTTGCGCTCGACGAAGAAAATCAAAATGAAGCGGTCTTCACCATTTATCGTACATAG	MESKIEILSTINVEHSDDLYKIVDTLNRTLKRDNLMFGLALDEENQNEAVFTIYRT				NA	NA	NA	NA	NA
D1-12_01290	2787	dinG		3'-5' exonuclease DinG	ATGAACAAACAACGGTTCGTTGTCATAGATGTCGAAACAACAGGAAATTCGCCGAAAAAGGGCGATAAAATCATTCAAATCGCAGCGGTTGTCATTGAAAATGGACAAATAACTGAGCGGTTTTCAAAATATATCAATCCGAATCAGGTCATCCCGCCGTTTATTGAACAGCTGACGGGAATTTCGTCCGGAATGGTTGAAAATGAACTGCCGTTTGAAGCGGTCGCAGAGGAGATTTTTCATCTGCTTGACGGCGCGTATTTTGTTGCCCACAATATTCATTTCGACCTCGGATTTGTCCGGCATGAACTGAGCGAAGCGGGCTATGAGCTGCCGGATTGTGAAGTGCTTGATACGGTTGAGCTTTCGCGTATTGTTTTCCCGGGGTTTGAAGGATATAAGCTCGGTGAGTTGTGCGCGGAGCTGAATATTGTTCATGACCGCCCTCACCGCGCAGACAGCGATGCGGAGGTTACGGGACTGGTCTTTTTAGACATTTTACATAAATTGAAACATTTGCCTTTACCGACGTTAAAGCAGCTTAGAAGGCTTTCACAGCATTTTATCAGCGATTTGACGCTGCTTTTGGATTCTTTTATACATGAAAGCAGGCCGGCGGAAGAAAAGAGCTGCATTCCATACGCCTCTTTTTCAATTAAAGAGCCCGAACACATTCCGGTTTCCCGTCCGGTGAATGCGGCCATTGACCTTGAAAAGTGGAACGAAGAAAAAGAACAGATCTTATCCGATATCATCCCCCGCTATGAAAAGCGGAAAGGGCAGCTTTCGATGATGGATGAAGTGCTCGGCGCCTTCCGCAATCGGGAGCATGCGCTGATTGAAGCGGCACCCGGCATCGGAAAAACGATCGGTTATCTCGTTCCGGCTGTTTTATTTGCCAAAGCGGAACAAACTCCCGTGATTATCAGCACGTACTCTACTCTTTTGCAGCAGCAGATCATGTCTAAAGATCTTCCGCTTTTGGAGCGTATGTTTCCTTGGCCGGTCAAAGCCGCTATTTTAAAAGGGAAATCACATTATCTGTGCCTGCCTAAGTTTGAACATATTCTGCATGAGGAAGATGACAACTATGATGCGGTTTTGACGAAAGCACAGCTTCTCGTCTGGCTGACGGAGACTGAAACGGGCGACGCCGCTGAGCTGAATCTTCCATCAGGCGGCAGATTGCTGTGGGAGCGCATGGCTTACGATGAGAATTCTTTTTTGAAAAAAGGGAAGGACTCGGCTGCCGGGTTTTATGAACGGGCTAAAGAAAAAGCACAGGCTGCAGATCTGATTATCACAAACCATGCTTTGCTGTTTTCAGATCAAAGCAGTGAAACGAAAAAACTGCCTGCAAGCGGAACGGTCATCATTGATGAAGCGCATCATTTCGAACGCGCTGCCAGCGAGCACCTCGGGAAGAGAGCTTCATACATCGGACTGCACACAAAGCTCAGCCGAATCGGAACCTTAAAGGAACACGGACTGTTAAAGCGGATGAGAAAACTGTTTTATACGTATGAACTGCCGGCGGAAAGTTTTTTTGACGCCGATGAGTGGATGAAGCATATTCAATCGGAAAGCGACGCATTTTTCAGTTCAGTGCATTCTTTTGTCAAACGAAGAAAACCTAAAGACGATCTGAACCGTCTCGTCTATAGTCTCAATCATAAAAGCCAGGATAAAGGGTTTCACATGATAACGGACGGAGCGGAGCGGCTTTGTGCGATGCTGGATCAGCTGCTTGACATGTTTTCAGTACAGGAGAAACTGTTACATCAAAAGCTTGAACAGATGAAAAGCGGAGCGGCTTTTTTAGCGGCTGAATATGTAAAGTGTATCAGGGGGCTGAAAGAATATCGCGATACGTTCAGCAGGCTGCTGTTTGAAAATGATGAGAAAGAAGCAGTTTGGGTTGAAATTGACGCGAAAGGCGCAAAAAATGCCGTCAGCATCTATGCGCAGCCTTTGGAGCCCGGTGAAATGCTGGCAGACCAGTTTTTCGCCCGCAAAAAAAGCGTTGTGCTCACATCAGCGACCTTAATGGTGGAGCAGTCTTTTCAATTTATGATTGAAAGGCTCGGACTTGCGGATTTTTATCCGCGCACCAAAAGCATCCCGTCTCCTTTTTCTTACGATGATCAGATGAACGTCATCATTCCGAAAGAGATGAAATCCGTTAAATATGACGGGGAGCGGGAAGTCATTGAGCATATTGCCAAGTATGCGGAAATCATGTCAAAGGGAAAACAGCCGAAGATCCTTGTCCTGTTTACGTCTCATGATATGCTGAAAAAAGTGTATCAGGAACTGAAACTCAGTATGGAGATCTCAGGCATTCAGCTTCTCGCCCAAGGTATTTCGGGCGGGAGTCCCGGTAAATTAATGAAAACCTTTAAAACGGCAAGCCGGGCGATTTTGCTCGGGACGAATCATTTCTGGGAAGGCGTTGATTTTCCGGGGGATGAATTGTCAACTGTCATGATCGCAAGACTTCCTTTCAGGGCGCCTGACAATCCGCTTCACGCCGCAAAATGCGAATTTGCCAAGAAGCAGGGGAAAAATCCGTTTCAGACGATTTCCCTGCCTGAGGCTGTGTTAACGTTCAGACAGGGGATCGGGCGCCTGCTCCGTACGGCGGGAGACAAGGGAACAATCGTTCTTTTAGATCAGCGTGTAAAGACGGCGGGTTACGGACGGCTGTTTCTTGAAGCGCTCCCGACTTCATCTCTTTTGGAGCTGACGGATGCCGAACTCGGGGCTTATGTCAGCCAAACGGAATAA	MNKQRFVVIDVETTGNSPKKGDKIIQIAAVVIENGQITERFSKYINPNQVIPPFIEQLTGISSGMVENELPFEAVAEEIFHLLDGAYFVAHNIHFDLGFVRHELSEAGYELPDCEVLDTVELSRIVFPGFEGYKLGELCAELNIVHDRPHRADSDAEVTGLVFLDILHKLKHLPLPTLKQLRRLSQHFISDLTLLLDSFIHESRPAEEKSCIPYASFSIKEPEHIPVSRPVNAAIDLEKWNEEKEQILSDIIPRYEKRKGQLSMMDEVLGAFRNREHALIEAAPGIGKTIGYLVPAVLFAKAEQTPVIISTYSTLLQQQIMSKDLPLLERMFPWPVKAAILKGKSHYLCLPKFEHILHEEDDNYDAVLTKAQLLVWLTETETGDAAELNLPSGGRLLWERMAYDENSFLKKGKDSAAGFYERAKEKAQAADLIITNHALLFSDQSSETKKLPASGTVIIDEAHHFERAASEHLGKRASYIGLHTKLSRIGTLKEHGLLKRMRKLFYTYELPAESFFDADEWMKHIQSESDAFFSSVHSFVKRRKPKDDLNRLVYSLNHKSQDKGFHMITDGAERLCAMLDQLLDMFSVQEKLLHQKLEQMKSGAAFLAAEYVKCIRGLKEYRDTFSRLLFENDEKEAVWVEIDAKGAKNAVSIYAQPLEPGEMLADQFFARKKSVVLTSATLMVEQSFQFMIERLGLADFYPRTKSIPSPFSYDDQMNVIIPKEMKSVKYDGEREVIEHIAKYAEIMSKGKQPKILVLFTSHDMLKKVYQELKLSMEISGIQLLAQGISGGSPGKLMKTFKTASRAILLGTNHFWEGVDFPGDELSTVMIARLPFRAPDNPLHAAKCEFAKKQGKNPFQTISLPEAVLTFRQGIGRLLRTAGDKGTIVLLDQRVKTAGYGRLFLEALPTSSLLELTDAELGAYVSQTE				NA	NA	NA	NA	NA
D1-12_01291	384	panD	COG0853	Aspartate 1-decarboxylase	ATGTACCGCACTATGATGGCCGGAAAACTGCACCGCGCTACCGTGACGGAAGCCAATTTAAACTATGTCGGCAGTATTACGATTGATGAAGATCTTTTAGATGCCGTCGGAATGCTCGCTAATGAAAAAGTTCAGATTGTGAATAATAACAACGGAGCGAGACTTGAAACGTATATTATTCCCGGTAAGCGGGGGAGCGGCGTCATCTGTTTAAACGGAGCTGCCGCCCGTCTCGTCCAAGAAGGAGATAAAGTCATTATTATTTCTTATCAAATGATGTCTGATCAGGAAGCAAAAAGCCATCAGCCGAAGGTGGCCGTACTGGATGATCAAAATAAAATCGAGCAGATGCTGGGCCAGGAGCCGGCACACACGATTTTGTAA	MYRTMMAGKLHRATVTEANLNYVGSITIDEDLLDAVGMLANEKVQIVNNNNGARLETYIIPGKRGSGVICLNGAAARLVQEGDKVIIISYQMMSDQEAKSHQPKVAVLDDQNKIEQMLGQEPAHTIL	PGPT0008890_645	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
D1-12_01292	861	panC		Pantothenate synthetase	ATGAAACAACTGACAGAAACTCAACAGCTGAAAGAATTAATTGCACAATACCGCTCAGAAGGCCGGACGATCGGATTCGTCCCGACAATGGGTTTTCTTCATGAAGGACATCTGACGCTGGTTGAAAAAGCAAGCAAAGAAAACGATATTGTCGTGATGAGCATCTTTGTCAATCCGACTCAATTCGGACCGGGCGAGGATTACGAAGCATATCCGCGGGATTTAAAGCGCGATGCCCGGCTTGCAGAACAGGCGGGGGCAAATGTTTTGTTTACGCCGTCTCCAAGTGACATGTATAAAGGCGAGCAAAATGTTGCCGTGCAAGTGAAAAGGAGAACTGACGTGTTGTGCGGCGCCTCCCGCGTCGGCCATTTTGACGGAGTGGCCACTGTGCTGACGAAGTTTTTCAATCTCGTTAAACCGACCCGCGCCTACTTCGGCCTGAAAGATGCCCAGCAGGCAGCGGTTGTGGACGGATTGATTGAGGATTTCTTTATGGATATCGAATTGGTTGCAGTGGACACGGTCAGAGAAGAAGACGGACTTGCCAAAAGCTCTCGCAACGTCTATCTGACTGAGCAGGAACGCAAAGAAGCGCCGATGATCTATAAAGCATTGCAGCAAGGTGCCGAACTGATCAAAGACGGTGAAAGAAATCCGGAAACCGTCATAAAAACCGTCACCGATATCATCGAAAACACAAGCGGCGTCATTGATTATGCCGAACTGTACGCTTATCCGGAGCTGACTCCGCTTAAAACATTAAACGGCAAGGTCATTCTGGCCTGCGCCGTCCAATTTTCTAAAGCCAGACTGATTGATAATATCATTATTGATATTGATGAATGGGAGAGATCATAA	MKQLTETQQLKELIAQYRSEGRTIGFVPTMGFLHEGHLTLVEKASKENDIVVMSIFVNPTQFGPGEDYEAYPRDLKRDARLAEQAGANVLFTPSPSDMYKGEQNVAVQVKRRTDVLCGASRVGHFDGVATVLTKFFNLVKPTRAYFGLKDAQQAAVVDGLIEDFFMDIELVAVDTVREEDGLAKSSRNVYLTEQERKEAPMIYKALQQGAELIKDGERNPETVIKTVTDIIENTSGVIDYAELYAYPELTPLKTLNGKVILACAVQFSKARLIDNIIIDIDEWERS	PGPT0008750_1472	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
D1-12_01293	834	panB		3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGAAAACAAAACTGGATTTCATGAAAATGAAGGAAAACGGAGAGCCGATCGTGATGCTCACCGCTTACGATTATCCGCAGGCAAAGCTTGCGGAACAGGCGGGAGTCGACATGATTTTAGTCGGGGATTCGCTCGGAATGGTCGTGCTCGGACTCGATTCAACAGTCGGCGTAACGGTCAGTGACATGATTCACCATACAAAAGCGGTAAAACGCGGTGCGAAAAATACGTTTATCGTAACTGACATGCCGTTTATGTCTTACCACCTTTCAAAAGAGGATACATTGAAAAACGCCGCGGCCATTATTCAGGAAAGCGGCGCGGACGCGTTAAAGCTGGAAGGCGGAGACGGCGTTTTCGAATCCATCCGCGCGCTGACTCTCGGCGGAATTCCCGTCGTCAGCCATTTAGGCCTCACACCGCAGTCTGTCGGCGTATTAGGCGGATATAAAGTGCAGGGAAAAGATGAGCAAAGCGCGAAAAAGCTCATTGAAGACAGCATCAAATGCGAGCAGGCGGGAGCGATGATGCTCGTGCTTGAATGCGTGCCTGCTGAACTGACTGCTAAAATAAAAGAAGAAGTATCCATTCCCGTCATCGGAATCGGAGCCGGTTCAAAAGCGGACGGCCAAGTCCTTGTCTATCATGACGTCGTCGGCCACGGCGTGGACAGAACACCGAAGTTCGTGAAGCAATACGCCAAAATCGACGGCACGATTGAGTCGGCCCTCAGCGGTTATGTCCGTGATGTGAAAGAACGGGTTTTCCCGGAAGAAAAGCATTCCTTTCAGATAAACCAAACTGTGCTGCAAGGCTTGTACGGAGGAAAGTAA	MKTKLDFMKMKENGEPIVMLTAYDYPQAKLAEQAGVDMILVGDSLGMVVLGLDSTVGVTVSDMIHHTKAVKRGAKNTFIVTDMPFMSYHLSKEDTLKNAAAIIQESGADALKLEGGDGVFESIRALTLGGIPVVSHLGLTPQSVGVLGGYKVQGKDEQSAKKLIEDSIKCEQAGAMMLVLECVPAELTAKIKEEVSIPVIGIGAGSKADGQVLVYHDVVGHGVDRTPKFVKQYAKIDGTIESALSGYVRDVKERVFPEEKHSFQINQTVLQGLYGGK	PGPT0008740_1665	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
D1-12_01295	978	birA	COG0340	Bifunctional ligase/repressor BirA	ATGGGATCAACATTAAGAACCCGATTAATTGATTTATTTTCTGAGGCGGGTGACGGCTTTATCTCCGGGCAGAAAATAAGTGACGCGCTCGGCTGCTCGAGAACCGCCGTTTGGAAACATATAGAGGAGCTCCGCAAAGAGGGCTATGAGGTTGAGGCGGTCAGACGAAAAGGGTACAGGCTCATTAAAAAACCGGGGAAACTCAGTGAATCCGAAATCCGTTTCGGGCTGAAAACAGAGGTTTTGGGCAAACAGCTTCATTACCGGGACGTCCTCCCGTCCACCCAAAAAACCGCTCATGAACTTGCCAATGACGGTGCGCCGGAAGGGACGCTCGTAGTCGCCGATAAACAAACGGCAGGCAGAGGAAGAATGGCCAGAGTGTGGCATTCACAGGAGGGAAACGGGATTTGGATGAGCCTCATTCTGAGACCCGACGTTCCTTTGCAAAAAACGCCGCAGCTCACCCTGTTATCCGCCGTTGCGGTCGTTCAGGCCATCGAGGCTTTTACAGGTATACAGCCCGCCATTAAATGGCCGAATGATTTAATGATTCACGGCAAAAAAGCCGTCGGGATTTTAACTGAGCTGCAGGCGGAAGAAAACCATGTCCGTTCGGTTATTCTCGGGATCGGCATCAACGTGAACCAGCAGGAAGCCGATTTTCCCGGCGAGCTTCAGGACATTGCGACAAGCCTCAGCATGGAAGCCGGCGAAAAAATTGACAGAGCGGGTCTGATACAAGAGATTTTGCTGACTTTTGAAAAACGCTATCAGGATTATTTGAAGCACGGCTTTACACCGATCAAGCTGTTATGGGAAAGCTATGCGGTCGGACTGGGGAACGAGCTCAGAGCGAGAACGCTGCAAGGGACGTTTTACGGGAAATCGCTCGGCATTGATGATGAGGGAGTTCTTCTCTTGGAAACGAGAGACGGTATAAAGAAGATCTATTCTGCCGATATTGAGCTCAATTAA	MGSTLRTRLIDLFSEAGDGFISGQKISDALGCSRTAVWKHIEELRKEGYEVEAVRRKGYRLIKKPGKLSESEIRFGLKTEVLGKQLHYRDVLPSTQKTAHELANDGAPEGTLVVADKQTAGRGRMARVWHSQEGNGIWMSLILRPDVPLQKTPQLTLLSAVAVVQAIEAFTGIQPAIKWPNDLMIHGKKAVGILTELQAEENHVRSVILGIGINVNQQEADFPGELQDIATSLSMEAGEKIDRAGLIQEILLTFEKRYQDYLKHGFTPIKLLWESYAVGLGNELRARTLQGTFYGKSLGIDDEGVLLLETRDGIKKIYSADIELN	PGPT0022055_859	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
D1-12_01296	1191	cca		CCA-adding enzyme	ATGGAACAGGAATTTGTCAAAGCCCTCCCCATCCTTCATCATCTGATGAAGGCGGGCCATCAGGCGTACTTTGTCGGGGGAGCCGTCAGAGACAGCTATATGAAACGGAAAATAGGTGATGTGGACATCGCAACCAGCGCTTCGCCGAATGAGGTGGAGCGCCTCTTTAAGCGGACTGTCGATGTAGGAAAAGAGCACGGCACCGTAATCGTCTTGTGGGAAGATGAAACCTATGAAGTCACCACTTTTCGCGCCGAATCAGAATATAAGGACTACCGGCGCCCCGAAGCTGTGCGGTTCATTACTTCTTTATCAGAAGACTTAAAGCGGAGAGACTTAACGATAAATGCGATGGCGATGTCTGCCGAGGGAGAGCTGCTTGATTATTTCGGAGGCGCGCATGATATCGGTCAAAAGCTGATCCGTACGGTGGGTAATCCTGAAGACCGTTTTCGGGAAGACGCTCTGCGGATGATGAGAGCCGTCCGCTTTATGAGTCAGCTCGGCTTTCTGTTAGAAAAAGAAACAAGAGAGGCCGTCATAAAAGACAGGGAGCTTTTGGCACATGTATCAGTAGAACGAAAGACCGTCGAATTTGAAAAGCTGCTGCAGGGCGCTTCCTCACAAGAAGCGATCCAAACGATGGTGCAAACAGGTCTGATACAAGAGCTGCCCGGCCTTTCCGGTTATGAGCAGCAAATGCTTGAAGCGAGCGGGTTTCCGTTTTCTTCTTTAGATGCACGCGAAGAACGCTGGGCAGCGCTGTTATTGTTTCTCGGTCTTTGTCCGAAAAGCGCCGAGGCGTTTTTAAAACAATGGAAACTGCCGGGAAAAGTCATAAAAAAAGCGGTGCAGATCATAAGCGTTTATCCGGCGCAGCTGGAAGCGGAAGCGATGTACCGGGCGGGAGAGGCGCTGTTTTCAGCCGTTAAAATCGGGATGCTGAAAAAGCATAAGACGATTGATGAACAAAAGCTGAAAGAGGTTCAGAGCCTGTATGAGCAGCTGCCGATCAAAAGCCTTCGAGACCTCGACATTTCAGGCGCTGATCTGATGGAGCTCAGAAACCGCCGTGCGGGTAAATGGGTGGCCGAAGAACTTCGCCGGATTGAAGAAGCGGTATTGGCAGGGAAGCTCCCTAACCGAAAACATGACATAAAGGAGTGGCTCGCATCATGGGATCAACATTAA	MEQEFVKALPILHHLMKAGHQAYFVGGAVRDSYMKRKIGDVDIATSASPNEVERLFKRTVDVGKEHGTVIVLWEDETYEVTTFRAESEYKDYRRPEAVRFITSLSEDLKRRDLTINAMAMSAEGELLDYFGGAHDIGQKLIRTVGNPEDRFREDALRMMRAVRFMSQLGFLLEKETREAVIKDRELLAHVSVERKTVEFEKLLQGASSQEAIQTMVQTGLIQELPGLSGYEQQMLEASGFPFSSLDAREERWAALLLFLGLCPKSAEAFLKQWKLPGKVIKKAVQIISVYPAQLEAEAMYRAGEALFSAVKIGMLKKHKTIDEQKLKEVQSLYEQLPIKSLRDLDISGADLMELRNRRAGKWVAEELRRIEEAVLAGKLPNRKHDIKEWLASWDQH				NA	NA	NA	NA	NA
D1-12_01297	1134	bshA	COG0438	N-acetyl-alpha-D-glucosaminyl L-malate synthase	ATGAGACCATTAAAAATAGGGATTACATGCTACCCGAGTGTCGGAGGCTCGGGTATTATTGCGACGGAACTCGGCAAGCTGCTTGCGGAAAAAGGGCACCAGGTTCATTTCATCACATCAAGCATCCCGTTCAGATTAAATACATATCATCCGAATATTCATTTTCATGAGGTGGAAGTCAACCAATACGCGGTATTTAAATATCCGCCTTATGACCTTACGCTGGCGAGCAAAATCGCCGAGGTTGCCGCGAGGGAAAATCTTGATATCATTCACGCGCATTATGCGCTGCCGCATGCGGTATGCGCTTATCTCGCCAAGCAGATGCTCAAGCGTGACATCGGCATCGTGACGACGCTTCACGGTACGGACATCACCGTTTTAGGATATGATCCGTCATTAAAAGATTTAATCCGTTTTGCCATCGAAGCGTCCGACAGAGTGACGGCGGTATCAACCGCGCTTGCCGGAGAAACATATGACCTAATCAAGCCGGATAAAAAAATTGAGACCATCTACAACTTTATTGATGAACGTGTTTATCTTAAGAAAAATACAGAGAGTATAAAAGAGAAACATGGCATTTTGCCGGATGAAAAGGTCGTCATCCATGTTTCGAACTTCAGAAAAGTAAAACGTGTTAAAGATGTCATCCGCGTTTTCCGTAATATCGCAGCCAACACAAAGGCGAAGCTTCTGCTTGTCGGCGACGGGCCGGAAAAGTGCGTCGCTTGGCAGCTTGTCGAAAAATACGGACTGCAGGATCAAGTGCTGCTCCTCGGAAATCAGGACAGGGTGGAAGAGCTGTATTCCATCAGCGACCTTAAACTTCTTCTGTCTGAAAAAGAAAGTTTCGGACTCGTCCTCCTTGAAGCGATGGCCTGCGGCGTGCCGTGCATCGGAACAAATATCGGCGGAATCCCGGAAGTGATTAAAGATCAAGTAAGCGGTTTTCTGGTGGAAGTCGGCGATATTCAGGCGGCATCTGAAAAAGCGCTTGCCGTTTTAGAAGATAAACAGCTCAGCAAACGATTGACTGATCATGCGCTGAAAATGGTGGAGACCGCCTTTTCTTCGCAAAGAATCGTCAGTCAGTATGAACGGATTTATGACGAATTGGCAGGACCGGAGTGA	MRPLKIGITCYPSVGGSGIIATELGKLLAEKGHQVHFITSSIPFRLNTYHPNIHFHEVEVNQYAVFKYPPYDLTLASKIAEVAARENLDIIHAHYALPHAVCAYLAKQMLKRDIGIVTTLHGTDITVLGYDPSLKDLIRFAIEASDRVTAVSTALAGETYDLIKPDKKIETIYNFIDERVYLKKNTESIKEKHGILPDEKVVIHVSNFRKVKRVKDVIRVFRNIAANTKAKLLLVGDGPEKCVAWQLVEKYGLQDQVLLLGNQDRVEELYSISDLKLLLSEKESFGLVLLEAMACGVPCIGTNIGGIPEVIKDQVSGFLVEVGDIQAASEKALAVLEDKQLSKRLTDHALKMVETAFSSQRIVSQYERIYDELAGPE	PGPT0019565_1081	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019565-bshA-K00754	NA	NA
D1-12_01298	714	bshB1_1	COG2120	N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1	ATGTCTGAACACGTTGATATTCTGGCGTTCGGCGCCCATAGTGATGATGTCGAGATCGGTATGGGCGGCACGATCGCAAAATTTACGGCTCAAGGAAAAACCGCGGTGATATGCGATTTGACCGAGGCCGAACTATCATCTAACGGAACGGTAGGGATAAGAAAAGAAGAAGCGGCAAAGGCGGCCCGAATTCTTGGCGTAAAAGAGAGAATCCAGCTTACGCTTCCCGACCGCGGGCTTTTGAAAAGTGAGGACGGCATCCGCCGGATTGTCAGTGTCATCAGAGCCTGCCGGCCGAAAACCGTTTTCATGCCTTATCCGAAAGACCGTCATCCTGACCACGGCAATGCGGCGGCTTTGGTCGAAGAAGCGGTGTTCTCGGCAGGAATTCATAAATACAGAGATCACCAGGAACTGCCGGCTCATAAGGCTCAGCGCGTATACTATTATATGATCAACGGGTTTCACCGTCCGGACTTTGTAATCGACATAACGGAAACCATCGATCTGAAAAAAGAAAGCCTGCACGCCTATCAAAGCCAGTTTATTCCTACGGCGCAGTCAGTGAACACACCGCTGACCAACGGTTATATCGAAATGGTGGAAGCGCGGGAAAGACTGTATGGCAAAGAAGCCGGGACGGGGTATGCCGAAGGCTTCTTTTCAAAACAGCTTCCCGTTTTGAATGATGATGTTTTTGGGGGTGGACAATGA	MSEHVDILAFGAHSDDVEIGMGGTIAKFTAQGKTAVICDLTEAELSSNGTVGIRKEEAAKAARILGVKERIQLTLPDRGLLKSEDGIRRIVSVIRACRPKTVFMPYPKDRHPDHGNAAALVEEAVFSAGIHKYRDHQELPAHKAQRVYYYMINGFHRPDFVIDITETIDLKKESLHAYQSQFIPTAQSVNTPLTNGYIEMVEARERLYGKEAGTGYAEGFFSKQLPVLNDDVFGGGQ	PGPT0019570_611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
D1-12_01299	414	mgsA	COG1803	Methylglyoxal synthase	ATGAAAATTGCTTTGATTGCTCACGATAAAAAAAAGCAGGATATGGTTCAGTTTACGACCGCATATAAAGATATACTGAGCCATCATGAGTTATACGCGACAGGTACGACGGGCCTGAAAATCCAGGAAGCGACCGGATTGTCTGTTGAACGTTTTCAATCCGGCCCGCTCGGCGGAGATCAGCAAATCGGCGCATTGATTGCAGCAAATGCCCTGGATCTCGTCATTTTTCTGCGCGATCCGTTAACTGCGCAGCCTCACGAACCGGATGTCTCGGCGCTGATCCGGTTGTGTGACGTATACGCGATCCCGCTCGCCACAAATATGGGAACAGCGGAAATCCTCGTCCGGACGCTGGATGGCGGGGCATTTGATTTCCGCAATCTTGTGCGCGGAGGAGAGCCGAATGTCTGA	MKIALIAHDKKKQDMVQFTTAYKDILSHHELYATGTTGLKIQEATGLSVERFQSGPLGGDQQIGALIAANALDLVIFLRDPLTAQPHEPDVSALIRLCDVYAIPLATNMGTAEILVRTLDGGAFDFRNLVRGGEPNV	PGPT0001780_948	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
D1-12_01300	804	dapB	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGTCAAATGAAACCATTAAAGTCGTCATTGCCGGACCGAGAGGCAGAATGGGCCAGGAGGCCGTAAAACTTGCCGTCCGCACGCCTCATTTTGAGCTTGTCGGCGCCATTGACCATACATACGATCAGCAAACATTGCGGGAAGTGATGTCAGCTGATTCAGACGCTCTTATTTATACGGATATCCGCGCATGTTTCCAAGAAACAAAACCGGATGTGCTGATCGATTTGACAACGCCTGAAATCGGCAAAAAACATACGAAAGCCGCTCTTGAACACGGCGTCCGCCCCGTTGTGGGAACGACCGGATTTTCTGAAGCGGATTTAGAGGAGCTTCAAGCCTTGACTGAAGAAAAAGGAATCGGCGCCATCATCGCTCCGAACTTTGCATTAGGCGCGGTGCTGATGATGAAGTTCTCACAAATGGCCGCCAACTATTTTGAAGATGTAGAAATCATTGAGCTTCATCATGATCAAAAGCTGGATGCCCCGAGCGGAACGGCGCTGAAAACAGCGGAAATGATCTCAAGCGTCCGTACAGAAAAGCAGCAGGGCCATCCTGATGAAAAAGAAATTCTGCCGGGCGCCCGCGGTGCTGAATTAAACGGCATCCGCCTTCACAGCGTGCGTCTGCCGGGCCTTATCGCCCACCAGGAAGTCATGTTCGGCATGGACGGCCAGACGCTGAAACTGCGCCATGACTCCTATAACCGGGCTTCCTTTATGTCAGGAGTGAAGCTGTCAGTGGAGCAAGTGATGAAAATCGACCAGCTTGTATACGGACTCGAAAATATTATCGACTGA	MSNETIKVVIAGPRGRMGQEAVKLAVRTPHFELVGAIDHTYDQQTLREVMSADSDALIYTDIRACFQETKPDVLIDLTTPEIGKKHTKAALEHGVRPVVGTTGFSEADLEELQALTEEKGIGAIIAPNFALGAVLMMKFSQMAANYFEDVEIIELHHDQKLDAPSGTALKTAEMISSVRTEKQQGHPDEKEILPGARGAELNGIRLHSVRLPGLIAHQEVMFGMDGQTLKLRHDSYNRASFMSGVKLSVEQVMKIDQLVYGLENIID				NA	NA	NA	NA	NA
D1-12_01301	336	ypjD	COG1694	putative protein YpjD	GTGAGTGACAAAACGATGAAAGACTTACAAGCTGAGGTCGATGAATATATCGGCCAATTCAAAGAAGGCTATTTCAGCCCGCTTGCCATGATGGCCCGTCTCACGGAAGAACTGGGCGAACTTGCAAGAGAAGTCAACCATTATTATGGTGAAAAGCCGAAGAAAACGACGGAAAATGAGAAAAGCATGGAAGAGGAAATGGGTGATGTGCTGTTCGTCCTGATCTGCCTCGCCAACTCCCTTGATATTTCATTGGAGGAAGCTCATAACCGCGTCATGCATAAATTTAATACACGTGATAAAGACCGCTGGACTAGAAAAGAAGAAGGAAAGTAG	MSDKTMKDLQAEVDEYIGQFKEGYFSPLAMMARLTEELGELAREVNHYYGEKPKKTTENEKSMEEEMGDVLFVLICLANSLDISLEEAHNRVMHKFNTRDKDRWTRKEEGK	PGPT0012850_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
D1-12_01302	873			hypothetical protein	ATGCTTGGAGAAATCAGAATCAAAAACATTTGCTTTATTTTAATCGGCGCCGCTGTTTTTTCATTCGGACTGGTTCACTTTAATATGCAGAACAATTTGGCGGAAGGCGGATTTACCGGCATTACGCTGCTTTTATATGCGTTATTCCACATCAGCCCTTCTATTTCCAACCTGGTATTGAACATTCCTATCTTTTTCATCGGCTGGCGTATGCTCGGCCGGACGATGTTTGTCTATACCCTGATCGGCACCGTCTCTCTTTCTGTTTTTCTGAGTGTTTTTCAGCGCTACGAAATTCATATGCCGCTGTCCCATGATTTAGCGCTGGCCGCCTTGTTCGCCGGTGTATTTATCGGCGCGGGTCTCGGCATTATTTTTAAATACGGCGGCACGACGGGCGGGGTCGATATCATCGCCAGGCTGATCAACAAATTTTTCGGAATCCCGATGGGCCGGACGATGTTTGCCTTTGACGCCTGTGTCATTCTTCTTTCTTTGTTTACGTATCTTTCTTACAAGGAAGCGATGTACACGCTTGTAGCCGTTTTTGTCGCTGCGAGATTGATTGATTTTATACAGGAAGGCGGCTATGCCGCAAAAGGGGCAACGATTATTTCTTCGAAAAACGATTTGATCCAGCAAAAAATCATTGAAGAGATGGAGCGCGGCGTCACCGTTTTGAAAGGACAGGGATCATATACAAAAGAAGACAGGGACGTTCTTTACTGCGTCGTTCCGAAAAACGAAATTGTGCTTTTGAAAAGCGTCATCACTTCCGTTGACCCGCACGCCTTTGTTGCAGTAAGCGACGTCCATGATGTGCTCGGCGAAGGATTTACGCTTGATGAAAATAAAAATCCGATCAGACGATAA	MLGEIRIKNICFILIGAAVFSFGLVHFNMQNNLAEGGFTGITLLLYALFHISPSISNLVLNIPIFFIGWRMLGRTMFVYTLIGTVSLSVFLSVFQRYEIHMPLSHDLALAALFAGVFIGAGLGIIFKYGGTTGGVDIIARLINKFFGIPMGRTMFAFDACVILLSLFTYLSYKEAMYTLVAVFVAARLIDFIQEGGYAAKGATIISSKNDLIQQKIIEEMERGVTVLKGQGSYTKEDRDVLYCVVPKNEIVLLKSVITSVDPHAFVAVSDVHDVLGEGFTLDENKNPIRR				NA	NA	NA	NA	NA
D1-12_01303	1176	oxdC_1	COG2140	Oxalate decarboxylase OxdC	GTGAAAAAACTCATCCAGCAATTGGCTTCAAAACACCTCCCGCAGCCGATCAGAGGCAGAAAAGGGGCGACTGACGAAGGACCGCGAAACCTCCCGCGTGACTTCCAGAATCCTGACATGCTCGTTCCGCCTTCAACGGATGCAGGAACGGTTCAAAATTTGAAATTCTCATTTTCTGATACGCATATGAGGCTTGAAGACGGAGGATGGTCCAGAGAGGTGACGGTCAGGGAACTGCCGGTATCCAAAAACATCGCGGCGGTGAACATGAGACTGAAGCCGGGAGCTGTGCGGGAGCTTCATTGGCATAAAGAAGCCGAATGGGGATATGTGATTAACGGAGGAGTCCGTTTAACTGCGGTCGATCAAAATGGGCGGAATTTTATTGATAATGTCAGTGAAGGGGATCTGTGGTATTTTCCTTCCGGCATTCCTCATTCCATTCAAGGATTAGAGCAGGGAAGTGAGTTTTTGCTCGTCTTTGATGACGGCTCTTTTTCAGAAAACAGCACCTTTTCAGTAACGGACTGGTTTGCCCATACCCCGCGCAGCGTGCTGGAGGCGAACTTCGGTGTTCCCGGATATGAGTTGGCTTATATTCACAAGAAAGAGCGTTACATGTTCCAGTTGGAACCTCCTCCACCTATCGAGCAGGCAGCAGTTTCTTCCCCGGAAGGCACCGTTTTGGAGCCGTTCAGCTACAAGCTTTCCCGGCAGGAGCCCCTTGTTACCAGCGGGGGAAGAGTAAAGATTGTCGATTCAAAAACGTTTAAGGTGTCAAAAACGATTGCCGCAGCTCTTGTGGAGGTCGAACCCGGGGGCATGAGAGAATTGCATTGGCATCCGAATACGGACGAGTGGCAGTATTATCTTTCAGGAGAAGCGAAAATGACGGTGTTTGCGGCGGAAGGAAGAGCGCGGACATTTAACTATCAAGCGGGTGACGTAGGATATGTTCCTTTTGCAATGGGACATTATGTTCAGAATACCGGTGACACCGTGCTTCGCTTTCTGGAAATCTTCAAAAGCGACCGTTTCGAAGACGTCTCTTTAAACCAATGGCTGGCACTGACGCCGCAGCGCTTCGTCGAGCAGACGCTCAATGTCAGTCCGGCATTCGCCCGCCGATTGAAAAAGAAAAAATCACCGGTTGTCAAATGGAAACACGAACAGTAA	MKKLIQQLASKHLPQPIRGRKGATDEGPRNLPRDFQNPDMLVPPSTDAGTVQNLKFSFSDTHMRLEDGGWSREVTVRELPVSKNIAAVNMRLKPGAVRELHWHKEAEWGYVINGGVRLTAVDQNGRNFIDNVSEGDLWYFPSGIPHSIQGLEQGSEFLLVFDDGSFSENSTFSVTDWFAHTPRSVLEANFGVPGYELAYIHKKERYMFQLEPPPPIEQAAVSSPEGTVLEPFSYKLSRQEPLVTSGGRVKIVDSKTFKVSKTIAAALVEVEPGGMRELHWHPNTDEWQYYLSGEAKMTVFAAEGRARTFNYQAGDVGYVPFAMGHYVQNTGDTVLRFLEIFKSDRFEDVSLNQWLALTPQRFVEQTLNVSPAFARRLKKKKSPVVKWKHEQ				NA	NA	NA	NA	NA
D1-12_01304	783			hypothetical protein	ATGAAACGAAAGCTGACGATCTGTCTTTTACTTGCTCTTATGTGTTTCATCACAACTGCCAAAGCTGAAGATGAGGGCGGTCTCAAGGAACTGAACGACCTTTCGGATACCGTTTTCCAAATGACGCGGCATTCGCAGTATGATGAGGCTCTGCAAGTGCTTGGCTACTTTAAGAAAAAAATGACACACGTAAACTCACTGAACGGCGCCGAAGTCAGGCAGGTGACTCTGGGTTTCAATGATTTAGTGCGCGTTCTGAAACAGGCAGACGCCTCAGATAACGAAAAAATCCGGGCAGCCGCCCAGTTCAGGTTGGTAATGGATGCGATGGAAGACCACTCCGATCCGCTGTGGGGTTCGCTTGAAAGACCGATTATGGCGACATTCAGCGCCTTAAAAGAAGATGTCAGCGGAAACGGAAGTGAAAATTTCAATGAAAAGTGGAATGAATTTATATCATTATATGATTTAATTTATCCCAGCCTGACAATGGATGTGTCGGCCGGCCAGCTTGATACGGTGGCGAAACATATCGAGGTAATTGAGCAGGAAGGGTTTCAGCAGATGACAAAAGGAACAAAGCTTGAGCGTCTGACGCTCCTGCAGCAGGATTTAAAGCGGGTTTTTGACAAGGTGGAGCGGGATGACGCTGATCCTTCGCTGCTCTGGGTCATTCTGACAACAGGCGGTATCATTATTACTGCGCTGACATATGTCGGCTACCGAAAATACAGAGCGGAAAAAAAGAAAGAGAAAAAGCGTGAGTATCCTAAGTCTAAATAA	MKRKLTICLLLALMCFITTAKAEDEGGLKELNDLSDTVFQMTRHSQYDEALQVLGYFKKKMTHVNSLNGAEVRQVTLGFNDLVRVLKQADASDNEKIRAAAQFRLVMDAMEDHSDPLWGSLERPIMATFSALKEDVSGNGSENFNEKWNEFISLYDLIYPSLTMDVSAGQLDTVAKHIEVIEQEGFQQMTKGTKLERLTLLQQDLKRVFDKVERDDADPSLLWVILTTGGIIITALTYVGYRKYRAEKKKEKKREYPKSK				NA	NA	NA	NA	NA
D1-12_01305	633			hypothetical protein	TTGCATGATACATACTTTTACGGACTGAGAGTTGATGGTATGAGGTGGATTTCTTATCTTTTAGGGTTGCGCGGCATGCTTCTGCTTGTTCTTGCCGTTAATTTTATCGGTACGGTGTACGGCTATTATTGGTATGTGCCTCAGCTTGCGGACACGCCGTTCCGATTTCTGATATTTGTGCCTGACAGCCCGACGGCGACGTTTTTCTTCCTGTTCGTGCTTCTGGCATTTCTCATGGGAAGAAACGCGCCGCTGTTTGAAGCGCTGGCTCTTGTAACCCTTGTAAAATACGGGCTGTGGGCGGTCGGAATGAATGTCTTTGTGTTGGCCAAAATGGGGCAGATGCCTTGGGAAGGGTACATGCTGATTGCTTCACATTTTGCCATGGCCGTTCAAGGCGTTTTATACAGCCCGTATTTTCGGTTCCGGTTATGGCATCTTGCCGCTGCCGCTGTTTGGACGCTTCATAATGATGTCATTGATTATCTTTTCGGCATGATGCCCCGCTACTCAATGCTCAATGACTATATGCAAGAGATCGGCTATGCTACATTCTGGCTGAGCATATTTTCACTCGGCCTTGCATACTATTTGGTGATTTCCAAAAGACGGATAAAGCTTGACTTACACTGA	MHDTYFYGLRVDGMRWISYLLGLRGMLLLVLAVNFIGTVYGYYWYVPQLADTPFRFLIFVPDSPTATFFFLFVLLAFLMGRNAPLFEALALVTLVKYGLWAVGMNVFVLAKMGQMPWEGYMLIASHFAMAVQGVLYSPYFRFRLWHLAAAAVWTLHNDVIDYLFGMMPRYSMLNDYMQEIGYATFWLSIFSLGLAYYLVISKRRIKLDLH				NA	NA	NA	NA	NA
D1-12_01306	768	petD		Cytochrome b6-f complex subunit 4	ATGCACCGGGGGAAAGGAATGAAGTTTGTAGGAGATTCAAGGATACCGGCTGAAAAAAAACCGAATATACCGAAAGACTATTCAGAGTATCCTGGAAAGACAGAGGCGTTTTGGCCGAACTTCCTGCTGAAAGAATGGATGGTCGGGGCCGTTTTCCTCGTCGGATTTCTCGTTTTAACGATTGTGCACGAGCCGCCTTTAGAACGGGTGGCGGACCCGACGGATACAGGGTATATTCCGCTGCCGGATTGGTATTTTCTATTTTTATACCAGCTATTAAAATATGAATATGCCGCAGGGAGCTACACCGTTATCGGCGCGATGATTATACCGGGTCTTGCCTTCGGGTCGCTGCTTTTGGCTCCGTTTCTCGACAGGGGGTCTGAAAGAAGGCCGTGGAAGCGTCCGGTTGCGGTCGGGATGATGCTTTTGGCGCTTTGTGCTACGGTCTTTTTAACGTGGCAGTCAGTCGCGACGCATGACTGGGCGAAGGCGGAGGAGCAAGGGAAAATCAAAAAAGAAGCCGCCATTGATACTGAATCAGACGGTTATAAGGTATTTAAAGAACAAGGCTGTATTTCCTGTCACGGGGATAATCTTCAAGGCGGAAGCGCCGGTCCGTCCCTGGTCGATAACGGGCTGAGCCCGGAAGAAATTAAAAAAATCGCCGTCAAAGGGAAAGGACAGATGCCAGCCGGTATTTTTAAAGGGAATGACAAACAGCTTGATCAGCTGGCGAAGTTCATTTCTGAAACGACAGCGAAATAA	MHRGKGMKFVGDSRIPAEKKPNIPKDYSEYPGKTEAFWPNFLLKEWMVGAVFLVGFLVLTIVHEPPLERVADPTDTGYIPLPDWYFLFLYQLLKYEYAAGSYTVIGAMIIPGLAFGSLLLAPFLDRGSERRPWKRPVAVGMMLLALCATVFLTWQSVATHDWAKAEEQGKIKKEAAIDTESDGYKVFKEQGCISCHGDNLQGGSAGPSLVDNGLSPEEIKKIAVKGKGQMPAGIFKGNDKQLDQLAKFISETTAK				NA	NA	NA	NA	NA
D1-12_01307	675	qcrB	COG1290	Menaquinol-cytochrome c reductase cytochrome b subunit	ATGCTGAATAAAATTTATGACTGGGTGGATGAACGTCTCGATATTACGCCGATGTGGCGGGATATCGCCGACCATGAAGTGCCGGAACATGTAAATCCCGCTCACCATTTCTCGGCTTTTGTCTATTGTTTCGGCGGTTTGACGTTTTTTGTAACCGTTATCCAAGTGCTGTCCGGGATGTTTTTAACGATGTATTATGTGCCGGATATAAAAAACGCGTGGGAATCCGTGTATTATTTGCAGAATGAAGTCGCTTTCGGGCAGATTGTAAGGGGTATGCACCATTGGGGCGCAAGTTTAGTCATTGTGATGATGTTTTTACATACGCTGCGGGTTTTCTTTCAGGGAGCTTATAAAAAGCCTCGGGAATTGAACTGGATCGTCGGTGTTCTGATCTTTTTTGTGATGCTCGGTCTCGGTTTTACAGGGTATCTGCTTCCGTGGGATATGAAGGCGCTGTTTGCGACAAAGGTAGGTCTTCAGATTGCGGAGGCGACGCCATTGATCGGAGCGCAGGTGAAAACTCTTCTTGCCGGCCACCACGATATTGTCGGCGCCCAAACGCTGACGAGATTTTTTGCGATTCACGTATTTTTTCTCCCTGCCGCTTTGTTTGCGCTCATGGGCGCCCACTTTGTCATGATCCGCAAGCAGGGAATTTCAGGACCGCTTTAA	MLNKIYDWVDERLDITPMWRDIADHEVPEHVNPAHHFSAFVYCFGGLTFFVTVIQVLSGMFLTMYYVPDIKNAWESVYYLQNEVAFGQIVRGMHHWGASLVIVMMFLHTLRVFFQGAYKKPRELNWIVGVLIFFVMLGLGFTGYLLPWDMKALFATKVGLQIAEATPLIGAQVKTLLAGHHDIVGAQTLTRFFAIHVFFLPAALFALMGAHFVMIRKQGISGPL	PGPT0030840_498	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
D1-12_01308	504	petC_2		Cytochrome b6-f complex iron-sulfur subunit	ATGGGCGGAAAACAAGATATATCAAGAAGACAATTTTTAAACTATGCGCTCACCGGCGTGGGGGGATTTATGGCCGCCAGTGCGCTTATGCCCATGGTCCGTTTTGCGCTGGACCCGGTATTAAAACCGACGGGAGATCAAAAAATGGTGCAGGTTGTCAGTGTGGATGAGCTGACGAAGGAGCCGAAGCGGTTTGACTTTAAAATTCATCAAGTCGACGCCTGGTACGAATCGGAAGAATCCAGGTCAGCCTGGGTTTACAAGCACGGGGATGAAATTATAGCGCTTTCTCCGATCTGTAAACATTTGGGCTGCACCGTAAACTGGAACAATGATCCTAAAAATCCGAACAAATTCTTTTGTCCCTGCCATTACGGGCTGTATGAAAAAGACGGCACGAACGTTCCGGGCACGCCGCCGCTCGCGCCTCTTGACCGTTATGAGCAAAAAGTAAAGGACGGCTTTTTGTATCTTGGAAAAGCAAAGCCTAGGGGGGAAGGGTGA	MGGKQDISRRQFLNYALTGVGGFMAASALMPMVRFALDPVLKPTGDQKMVQVVSVDELTKEPKRFDFKIHQVDAWYESEESRSAWVYKHGDEIIALSPICKHLGCTVNWNNDPKNPNKFFCPCHYGLYEKDGTNVPGTPPLAPLDRYEQKVKDGFLYLGKAKPRGEG				NA	NA	NA	NA	NA
D1-12_01309	447			hypothetical protein	ATGAGATGGAGGGCCGCTGATGCCGATGCCTATTTACAATCTGCGGATTACATTGATACCGCTGTCATTCCGTTAATTTCCATAACATCTTCAGGAGGCTTAAAAGAGGCCGTTGAACAGGGGGAAAGCACCCAATTGCTTTCTGAAGAGCTTGAGCGCCAATTGAAGGGACGGGTATATTTATTCCCCTCTTATACATATGTTGATATAGATCAATCACAAATCGCCCTGCTTCAAAAACTCAAAGAAGAGGTGATGACCAACTTCCGGCACGCCTTGTTCCTGACGGCAGACGAAAAATGGAAGGATTCTGAAATAGAGTCTGATGTCATATACATACCTGCCGTTCCGTTTGAACATATGAAAGACTCTTTAAAGAGAAAAATAGCGGATGACAAGTGCGGAGAAATTTTGAACGTTTTGTTACAGAAGTGGAACAATTCTTAA	MRWRAADADAYLQSADYIDTAVIPLISITSSGGLKEAVEQGESTQLLSEELERQLKGRVYLFPSYTYVDIDQSQIALLQKLKEEVMTNFRHALFLTADEKWKDSEIESDVIYIPAVPFEHMKDSLKRKIADDKCGEILNVLLQKWNNS				NA	NA	NA	NA	NA
D1-12_01310	540			hypothetical protein	ATGCAGACCCCTGTTTCTGTCAATGAAAAAAAGGATTTTATCCGTTGGTTTTTAAATCATTATCAGCTTAAACGCCGGGAGTGCGTCTGGATTTTAAATTATTTAATGAGTCATGATTCATTAATGGAAAAAGTCCATTTTGTAGAACAAGCCGAATTTTGCCCGCGAGGCATTATCATGTCTACTCATTGCGTTGATGAGGTGCCGTTTAGGTTTTACAAAGAAAATGTCATGACTACGGACGCGGAAAAATCTTTTCACGACATCCGGTTAAATAAACAGCAGGATTTATTTATCCAGCTGAATTTCCGTTCGGCCTACAGCTCACCGGAATATGCCGCTGTTCTTGAATCAAATCCGCATCTGCCGAAAGACCTGTTTGAAAATAAACAGGATCAGGGGATGGCTGAAAAAATATTAGAACATGCCATTTCCACTTTCCAGCGGGAAAAGCTGCTTAAAGATATCGACGAGGCGCTGGACCGCCACGACAAAGAAACATTTGAAAAGCTTTCCCGCCAATTGAATCAGCTCACATAA	MQTPVSVNEKKDFIRWFLNHYQLKRRECVWILNYLMSHDSLMEKVHFVEQAEFCPRGIIMSTHCVDEVPFRFYKENVMTTDAEKSFHDIRLNKQQDLFIQLNFRSAYSSPEYAAVLESNPHLPKDLFENKQDQGMAEKILEHAISTFQREKLLKDIDEALDRHDKETFEKLSRQLNQLT				NA	NA	NA	NA	NA
D1-12_01311	1272	bepA		Beta-barrel assembly-enhancing protease	TTGAATACATTGATTCAAGAAGCCATAAAATTAGTTGAAGCAGGTGAAACCGAAAAGGGACTCAAAGCGCTTTCAAAAGCTGAAACGCAGCTTCATGACGAAGACAAAGCCATTGCAGCCCAGCTCTACTATGAATGGGGAAACGCCGAAAAAGCGTTAGCGCTGATCAGTGATCTGCATGACCTTTATCCGGATGAGTCTGAGCTGACGAATTTTTACGCCGAATTGTTAATAGATATTGATGAAGAAGAAAAAGCTCTTGAGGTGCTGGAGACGATTTCTCCGGAAGACCCGTCTTACGCGGAAAGCCTTCTTTTAATGGCTGATCTGTATCAGATGCAGGGCTTATTTGAAGTAAGTGAGCAAAAGCTGTTACAGGCGAAAGCGATGTTACAAGATGAACCTGTTATTGATTTCGCTCTGGGGGAATTATACTTCACTCAGGGGTCATACGCAAAAGCCGTTCCGTACTATGAAGAGACGGCAAAAGAACGGCACGAAATCGGCGGCGTAAATGTTCATCAGAGGCTGGCTGAGTCATTGAGCGCGGCGGGTGAATTTGAGGAAGCGATTTCATGGTATGAAAAAGCGGCGGCAGAACATACAGAACCGAATACGATTTTCGGGTACGGGTTCACAGCCTATCAGGCGGGAATGGTCAAAACAGCCATCAAGCAGCTGTCTGATTTAAAAGGGCTTGATCCTTCCTATTCATCGCTTTATATGCCGCTTGCAAAAAGCTATGAGGCAGAAGGCATGTATGAAGATGCATTAAAAACCGCTAAAGAAGGTATTACTTACGATGAATACAATAAAGAGCTTTTTCTCTATGCGGCGAAAATGGCGTTAAAGCTCGGCAACGAAGAGGAAGGCAAAAAGCTTCTTCAGGAAGCACTGGCGCTCGATCCGGGTTACGTGGAAGCGCTCCATACGCTTTTAGCCGTCTATCATAAAGAAGAAAGCTTTGAAGAGATTATTGATCTGATTCAGGAAGTCCGCGGCTACGGAGAAGAAGATCCGAAATACAATTGGTATTTGGCGGGTGCCTATACAGGCCTTGAGCAATACGCTGAAGCGAAAAAAAGCTTCGAAGCTGCGTATCTCCATTATCAGGATGATCGGGATTTCTTATATGAATACGCTCACTTCTTATTGGAAGAGGGTCTCCAGAAAGAAGCGCTGCCGCTTTTAAAACAAGTGCTTTCAATGGATGGAACAAACGAAGAGCTTGAAGAAACAATCTTACGGATAGAGGATGAATTTTTAAGATAA	MNTLIQEAIKLVEAGETEKGLKALSKAETQLHDEDKAIAAQLYYEWGNAEKALALISDLHDLYPDESELTNFYAELLIDIDEEEKALEVLETISPEDPSYAESLLLMADLYQMQGLFEVSEQKLLQAKAMLQDEPVIDFALGELYFTQGSYAKAVPYYEETAKERHEIGGVNVHQRLAESLSAAGEFEEAISWYEKAAAEHTEPNTIFGYGFTAYQAGMVKTAIKQLSDLKGLDPSYSSLYMPLAKSYEAEGMYEDALKTAKEGITYDEYNKELFLYAAKMALKLGNEEEGKKLLQEALALDPGYVEALHTLLAVYHKEESFEEIIDLIQEVRGYGEEDPKYNWYLAGAYTGLEQYAEAKKSFEAAYLHYQDDRDFLYEYAHFLLEEGLQKEALPLLKQVLSMDGTNEELEETILRIEDEFLR				NA	NA	NA	NA	NA
D1-12_01312	1287	aroA1	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase 1	TTGAAAAGAGAAAAAGTGACGTCTTTAAACGGTGAAATTCATATTCCGGGGGATAAATCCATCTCCCACCGTTCTGTTATGTTCGGAGCGCTTGCGGAAGGAACGACAACGGTAAAAAACTTTTTGCCCGGAGCCGATTGTCTGAGCACCATTGCCTGCTTCAGAAAAATGGGTGTCTCCATTGAACAAAACGGAAGTGATGTAACGATATACGGGAAGGGCATTGACGCACTTAGTGAGCCTGACAGCCTTCTTGATGTCGGAAATTCCGGCACGACCATCCGCCTGATGCTCGGCATTTTAGCCGGACGCCCATTTCACAGTACGGTAGCGGGGGACGAAAGCATTGCAAAGCGCCCGATGAAGAGGGTGACAGAGCCTTTAAAACAGATGGGAGCCGCGATTGACGGAAGAGCGGACGGAGGATTTACGCCTTTATCCGTAAGAGGCGGACAATTGAAAGGCATTGATTACGTCTCCCCTGTTGCAAGCGCGCAGATCAAATCCGCCGTGCTGCTTGCCGGATTGCAGGCTGAAGGGACGACAACCGTCACTGAGCCTCATAAATCAAGAGACCATACGGAACGGATGCTGAACGCTTTTGGCGCCAAGCTTGCGGAAACGGAGACGAGCGCTTCCGTAACGGGCGGTCAGAAGCTTCGGGGGGCTGATATTTTCGTGCCCGGCGATATTTCTTCAGCAGCCTTTTTCCTCGCGGCAGGTGCTGTCGTTCCCGGAAGCCGGATTGTGCTGAAAAATGTCGGCCTGAATCCGACACGCACGGGAATGATTGATGTCTTAAAGCAAATGGGGGCTTCACTTGAAGTGATTCCTTCAGAAGCGGACAGCGCGGAGCCTTACGGAGACCTGGTTATTGAAACTTCAGATCTGAAAGCGGCAGAAATCGGCGGAGAAATCATTCCCCGTTTAATTGACGAGATCCCGATTATCGCCCTTTTGGCAACGCAGGCTGAAGGCACAACTGTCATTAAAGACGCTGCGGAGCTGAAGGTGAAGGAAACGAACCGGATCGACACCGTCGTATCAGAGCTCCGGAAAATCGGTGCAGACATTGAACCGACTGAAGACGGCATGAAAATACACGGCAATAAAACGCTTGCGGGCGGAGCCGATGTGTCAAGCCACGGCGACCACCGCATCGGCATGATGCTCGGTATCGCTTCATGCCTGACAGAAGAGCCGATTGACATCCGTGATACTGAGGCGATCCATGTCTCATATCCGTCATTTTTTGAGCATTTAGATCAATTAGCCAAAAAAGCCTGA	MKREKVTSLNGEIHIPGDKSISHRSVMFGALAEGTTTVKNFLPGADCLSTIACFRKMGVSIEQNGSDVTIYGKGIDALSEPDSLLDVGNSGTTIRLMLGILAGRPFHSTVAGDESIAKRPMKRVTEPLKQMGAAIDGRADGGFTPLSVRGGQLKGIDYVSPVASAQIKSAVLLAGLQAEGTTTVTEPHKSRDHTERMLNAFGAKLAETETSASVTGGQKLRGADIFVPGDISSAAFFLAAGAVVPGSRIVLKNVGLNPTRTGMIDVLKQMGASLEVIPSEADSAEPYGDLVIETSDLKAAEIGGEIIPRLIDEIPIIALLATQAEGTTVIKDAAELKVKETNRIDTVVSELRKIGADIEPTEDGMKIHGNKTLAGGADVSSHGDHRIGMMLGIASCLTEEPIDIRDTEAIHVSYPSFFEHLDQLAKKA	PGPT0012850_3482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
D1-12_01313	1107			hypothetical protein	ATGAAGGATACTATATTGCTTGCGGGGATCGGGCTGATCGGCGGATCGATCGCATTGGCCATCAAAAAGGAGCATCCGCATAAACGGATTATCGGTGTGGATATTTCGGAAGAACAGCTCACTGCCGCGCTGAAGCTCGGAATTATTGACGAGCGGGCCGGCTCATTTACGGAAGGGGCGCAGCAAGCGTCTGTTGTCATTATCGCCACGCCTGTCGCCCAAACGCTGAAAATGCTCGATGTGCTGGCCGCATCAGACATCACCCATGAACTCCTGATTACGGATGTCGGCAGCACGAAACAGAAAGTCGTCAGCTACGCCGACAAAGTGCTTCCGGCTCACTATCAATTTGTCGGCGGCCATCCGATGGCGGGATCTCATAAATCCGGGGCCGCTGCCGCGAAAGAATTTTTATTCGAAAATGCGTTTTACATTTTAACACCCGGAAAATCAACTTCTAAAGAGTCAGTAACGCATCTGAAGGAACTTTTGAAAGCGGCAAACGCCCACTTTGTGGAGATGACTCCCGAGGAGCATGACGGCGTAACGAGCGTCATCAGCCATTTCCCTCATATCGTTGCTGCAAGCCTCGTACATCAGGCTCATCATGCTGAAGAAGATTATCCGTTTTTGAAACGTTTCGCAGCCGGCGGTTTTCGGGACATCACCAGGATCGCCTCAAGCAGTCCGGCGATGTGGAGGGACATACTTCTTCATAACAAAGATAAACTGCTTGACCGCTTCAAAGAATGGAAATGGGAGATTGACACGATCGAATCTTATGTAGAAAATGAAGATGCGGACAGCCTGTTCGGATATTTTAAAAAAGCGAAAGATTATCGCGACGGTCTGCCGCTCCGTCAAAAAGGAGCGATCCCGTCCTTTTATGACCTTTATGTCGATGTTCCCGATCATCCGGGGGTTATTTCGGAAATTACGGCGATATTGGCAGAAGAAAAAATCAGTATCACCAACATCCGCATTATCGAAACAAGAGAAGATATTAACGGAATTCTCAGAATCAGTTTCCAGACTGATGATGACAGGAAGCGGGCGGAAACCTGCATTCAATCCCGCGCTAAATATGACACATTTTACGCTGACTGA	MKDTILLAGIGLIGGSIALAIKKEHPHKRIIGVDISEEQLTAALKLGIIDERAGSFTEGAQQASVVIIATPVAQTLKMLDVLAASDITHELLITDVGSTKQKVVSYADKVLPAHYQFVGGHPMAGSHKSGAAAAKEFLFENAFYILTPGKSTSKESVTHLKELLKAANAHFVEMTPEEHDGVTSVISHFPHIVAASLVHQAHHAEEDYPFLKRFAAGGFRDITRIASSSPAMWRDILLHNKDKLLDRFKEWKWEIDTIESYVENEDADSLFGYFKKAKDYRDGLPLRQKGAIPSFYDLYVDVPDHPGVISEITAILAEEKISITNIRIIETREDINGILRISFQTDDDRKRAETCIQSRAKYDTFYAD	PGPT0012870_200	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
D1-12_01314	1083	hisC_1	COG0079	Histidinol-phosphate aminotransferase	TTGCAGATTAAAGAACAGCTGCGGCAGCTGAAACCGTATCAGCCGGGCAAACCAATAGAAGAAGTGAAAATGGAATACGGGCTTGAGAAAGTAGTAAAACTCGCTTCTAACGAAAATCCGTTCGGCTGTTCACAGGCCGCTAAAGATGCGCTGCATCAGGAGATTGAGCAGCTTGCGCTGTATCCCGACGGTTACAGTGCCGCTTTGAGAACGCGGCTCAGTGAGCATCTGCAGGTCAGTGAATCTTCGATCATTTTCGGCAACGGCTCTGATGAGCTAGTGCAGATTATCTGCCGTTCTTTATTAAATGATCAGGCAAACACGATTACCGCCGCCCCGACTTTCCCGCAATACAGACACAATGCGGTGATTGAAGGCGCTGAGGTGCGCGAGGTGCCGCTCCGCAGTGACGGCGCTCATGATTTGGACCGGATGCTGGAAGCAATTGACGGCGAGACGAAAGTCATATGGGTATGCAACCCCAATAATCCGACAGGGACATATACTTCTGAGCAAGAGCTAATTGCCTTTTTAAACAGAGTTCCCGAGCATATACTCGTTGTACTTGATGAAGCGTACTACGAGTATGTCACGGCGGAAGATTACCCAGAAAGCATTCCGCTTTTAAAGCAATATGCGAATGTCATGATCCTCCGCACCTTCTCTAAAGCGTACGGACTTGCCGCGCTGCGTGTCGGATACGGCATTGCGGACGAAGCGCTGATCCGCCAGATTGAACCGGCGAGAGAGCCGTTCAATACGAGCAGAATCGGTCAGGCTTCGGCACTGGCAGCGCTTGATGACCAGATATTTATTCGGGAATGCGTCGAGAAAAATAAAGCAGGCCTTAAGCAGTATTATGATTTTGCAGAAACTCACGGATTAACTTGTTATCCTTCACAAACCAACTTTGTGCTCATTGATTTTAACCGCCCGGCGGATGAACTGTTCCAAGCCCTGTTGGAAAAAGGATATATCGTCCGCTCAGGACAGGCGCTCGGATTTCCGACAGCGTTAAGGATTACGGTCGGTACGAAAGAGCAGAATGAGGAAATTCTCACAATTTTAGCTGCAATATTATAA	MQIKEQLRQLKPYQPGKPIEEVKMEYGLEKVVKLASNENPFGCSQAAKDALHQEIEQLALYPDGYSAALRTRLSEHLQVSESSIIFGNGSDELVQIICRSLLNDQANTITAAPTFPQYRHNAVIEGAEVREVPLRSDGAHDLDRMLEAIDGETKVIWVCNPNNPTGTYTSEQELIAFLNRVPEHILVVLDEAYYEYVTAEDYPESIPLLKQYANVMILRTFSKAYGLAALRVGYGIADEALIRQIEPAREPFNTSRIGQASALAALDDQIFIRECVEKNKAGLKQYYDFAETHGLTCYPSQTNFVLIDFNRPADELFQALLEKGYIVRSGQALGFPTALRITVGTKEQNEEILTILAAIL	PGPT0020305_4964	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-12_01315	798	trpA	COG0159	Tryptophan synthase alpha chain	ATGTTTAATCTGCGAGATTCTGAAAAATTATTTATCCCTTTTATTACAGCTGGCGATCCGCTTCCTGACATTTCTGTTGAGCTGGCAATATCATTGCAGAATGCAGGCGCTTCTGCCCTTGAAATCGGCGTACCTTACACAGATCCGCTCGCGGACGGACCCGTCATACAACGGGCTTCAAAACGGGCTCTGGAAAACGGAATGAATATCGTAAAAGCAATTGAACTTGGCGGCAAAATGAAAAAAAACGGCGTTCATATTCCAATTATCCTCTTTACGTATTATAATCCTGTGTTACAATTAGAAAAAGAATACTTTTTCGCTTTACTGCGGGAAAACGACATAGACGGTCTGCTTGTACCCGACCTTCCATTAGAGGAAAGCGCCCTTTTGCAAATGACATGCAAAAAGGAGAACATCGCTTATATCTCACTGGTTGCGCCGACAAGTGAAGACCGTTTGAAAATAATTACTGAACAGGCCTGCGGCTTTGTGTATTGTGTATCCTCTTTAGGAGTGACGGGCGTACGCAGCGAATTCGATCCGTCTGTATACTCTTTCATTCGTAAGGTGAAAGAATTCAGCTCTGTTCCGGTGGCGGTCGGTTTTGGCATTTCAAACCGCAAACAGGTTGACAGGATGAATGAAATATCTGACGGTGTCGTTGTCGGCAGCGCGCTTGTCAAAAAAGTTGAAGAGCTTAAAACAAAGCTTGTGAATCCCGGCACAAGAGCTGATGCGCTTCTTGAATTTGAAGAATACGCAAAGACGTTCGGACGACTGTACAGTGTAAAATGA	MFNLRDSEKLFIPFITAGDPLPDISVELAISLQNAGASALEIGVPYTDPLADGPVIQRASKRALENGMNIVKAIELGGKMKKNGVHIPIILFTYYNPVLQLEKEYFFALLRENDIDGLLVPDLPLEESALLQMTCKKENIAYISLVAPTSEDRLKIITEQACGFVYCVSSLGVTGVRSEFDPSVYSFIRKVKEFSSVPVAVGFGISNRKQVDRMNEISDGVVVGSALVKKVEELKTKLVNPGTRADALLEFEEYAKTFGRLYSVK	PGPT0007070_3137	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
D1-12_01316	1203	trpB	COG0133	Tryptophan synthase beta chain	ATGTATCCATATCCAAATGAAATCGGAAGATACGGCGAATTCGGCGGCAAATTTGTCCCTGAAACATTGATGCGGCCCCTTGAGGAAATCGAAACGGCTTTCACAGAATTAAAGAATGATCCCGTTTTTCATGCCGAATATAAAAAGCTATTGTTTGATTACTCCGGAAGACCGACCGCATTAACGTTCGCAGACAGGGTGTCAGAGTATTTGGGAGGGGCGAAAATCTATCTGAAAAGAGAAGATTTAAACCATACCGGCTCTCATAAAATTAACAACGCGCTAGGCCAGATTCTGCTTGCCAAAAAGATGGGCAAAACGAAAATCATCGCCGAAACCGGTGCGGGACAGCACGGTGTGGCTGCCGCGACAGCCGCCGCAAAATTCGGTTTTAAGTGTACAGTTTTTATGGGTGAAGAAGACGTTGCGCGCCAGTCGCTGAACGTATTCCGGATGAAACTGCTCGGTGCGGAAGTGGTGCCGGTCACAAGCGGCAACGGCACGCTGAAAGATGCGACGAATGAGGCAATCAGGTATTGGGTCCAGCATTGTGAAGATCATTTCTACCTTATCGGTTCTGTAGTGGGGCCGCACCCGTATCCGTATATCGTTCGCGAATTCCAGAAAATCATCGGCGAGGAAGCGAAAGAACAGCTCCGCCGGGTTGAAGGAACGCTCCCGGATAAGGTTGTTGCATGTGTCGGCGGCGGAAGCAATGCGATGGGCATTTTTCAGGCCTTTTTAGACGAAGATACTGAGCTGATCGGCGCCGAGGCGGCCGGAAAAGGAATTGATACGCCGCTGCATGCGGCAACGATCGCAAAAGGGACGCTCGGGGTGATTCACGGTTCAATGACCTATTTAATACAAGATGAATACGGGCAGATTATCGAACCGTATTCCATTTCAGCAGGCCTTGATTACCCGGGGATCGGCCCTGAGCACGCCTATCTGCATAAAAGCGGCCGTGTAACGTACGAAAGCGTGACAGACGATGAAGCGATTGCCGCGTTACGTCTGCTTTCTGAAACAGAAGGTATTCTTCCGGCTATTGAATCTGCCCACGCCCTGGCAAAAGCGTTTGAAATGGCAAAAGACATGGATAAAGATAAAATCATTCTCGTCAGTTTATCGGGAAGAGGAGATAAAGACGTTCATACGCTGATGAATGTTTTGGAAAACGGGGTGGAGACACATGTTTAA	MYPYPNEIGRYGEFGGKFVPETLMRPLEEIETAFTELKNDPVFHAEYKKLLFDYSGRPTALTFADRVSEYLGGAKIYLKREDLNHTGSHKINNALGQILLAKKMGKTKIIAETGAGQHGVAAATAAAKFGFKCTVFMGEEDVARQSLNVFRMKLLGAEVVPVTSGNGTLKDATNEAIRYWVQHCEDHFYLIGSVVGPHPYPYIVREFQKIIGEEAKEQLRRVEGTLPDKVVACVGGGSNAMGIFQAFLDEDTELIGAEAAGKGIDTPLHAATIAKGTLGVIHGSMTYLIQDEYGQIIEPYSISAGLDYPGIGPEHAYLHKSGRVTYESVTDDEAIAALRLLSETEGILPAIESAHALAKAFEMAKDMDKDKIILVSLSGRGDKDVHTLMNVLENGVETHV	PGPT0007075_2994	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
D1-12_01317	654	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGAAAAAGCCTGAGTTAAAGTACTGCGGAATACGATCGAAGCGTGATTATGAACTTGCGGCAGCTTCAGAAGCGGATTATCTGGGATTTATTTTTGCCGCAAGCAAACGGAGAGTAACGCCGGATGAGATCCGGAAATGGAAAGAGCAGGTCCGGACAGACAAGAAACATGTCGGAGTATTTGTAAATGAAACGATAGAAAACATCGCGCAAATCGCCTCTGATCTGGCACTTGACGTCATCCAGCTTCACGGTGATGAATCGCCTGAGGATGCCCGCCGCCTCCGTTCGCTTGTGCGCTCGGAAATATGGAAAGCGCTCCATCACGGGGAAGGGACGCTCCGTCAGATGGCTCAATTTGCACCTGCTGTCGACGGCTATGTCATTGATTCTTCAGTAAAAGGAATGAGAGGCGGCACGGGAATCGCGTTTTCATGGGCCCGTGTCCCCTTGTACCGAAAGCAGGCTCAAAATGCAAACAAGCGCTGTTTTATCGCGGGCGGCGTTAATCCTGAAACGATTACAGGCTTACTGAGATCGCGTCCGTGCGGTATAGATCTTGCCAGCGGAATTGAAAAAAACGGACACAAGGATCAAACACTGATCCGGCTTTTAGAAGAAAGGATGAATCACTATGTATCCATATCCAAATGA	MKKPELKYCGIRSKRDYELAAASEADYLGFIFAASKRRVTPDEIRKWKEQVRTDKKHVGVFVNETIENIAQIASDLALDVIQLHGDESPEDARRLRSLVRSEIWKALHHGEGTLRQMAQFAPAVDGYVIDSSVKGMRGGTGIAFSWARVPLYRKQAQNANKRCFIAGGVNPETITGLLRSRPCGIDLASGIEKNGHKDQTLIRLLEERMNHYVSISK	PGPT0007115_1472	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
D1-12_01318	753	trpC		Indole-3-glycerol phosphate synthase	ATGCTTGATCAAATCATTCAGCAGAAAAAAGAAGAAATCAAATCCATCGTGCTGCCGGAAACCTGTCAAATTGAACGGAGATCCTTTAAAAAAGCGCTCCTGAACCCGAACCGTTTTATCGGGCTGATTGCCGAAGTGAAAAAAGCTTCGCCGTCTAAAGGATTGATTAAAGAGCATTTTGTTCCGGAAACGATTGCGGCGGATTATGAAGCGGCTAAAGCCGACGCCCTTTCAGTTCTCACGGATACCCGTTTTTTTCAGGGGAGAAATCAATTTCTGACAGATGTTAAACAAACCGTGTCTCTTCCCGTGCTGAGAAAAGATTTTATTATTGATTCCCTTCAGGTGGAGGAATCGTTCAGGATCGGCGCCGATGCCATTTTGCTGATCGGGGAAGCGCTGGAACCTTCAGAGCTTCATGAGCTTTATCTGGAAGCCCGCGAGAAGGGCATGGACGTTCTCGTTGAAGTCCATGATGAAACTGTGCTTGAACGGATTTTACAAGTGTTTCAGCCGGACATTCTCGGCATAAACAACCGGGACTTAAAAACGTTCCGTACTTCTGTTTCGCAAACGGAAAAAATAGCGCAGCTTGTACCGGACGGCTGCCTGCTGGTCAGCGAAAGCGGCATCGGTTCTTTGGCTGACCTGCAATTCGTCAACAAGCACGGGGCGCAGGCTGTATTGGCCGGAGAATCCTTAATGAGAGAGGATTCGCAGCAAAAAGCGATCCGCGGACTGTTCGGGGAGTGA	MLDQIIQQKKEEIKSIVLPETCQIERRSFKKALLNPNRFIGLIAEVKKASPSKGLIKEHFVPETIAADYEAAKADALSVLTDTRFFQGRNQFLTDVKQTVSLPVLRKDFIIDSLQVEESFRIGADAILLIGEALEPSELHELYLEAREKGMDVLVEVHDETVLERILQVFQPDILGINNRDLKTFRTSVSQTEKIAQLVPDGCLLVSESGIGSLADLQFVNKHGAQAVLAGESLMREDSQQKAIRGLFGE	PGPT0007080_3914	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
D1-12_01319	1017	trpD	COG0547	Anthranilate phosphoribosyltransferase	ATGAACAAATTTCTGCAATCGTGCGTTAAGGGCCGTACGCTGAAAATCGGAGAAGCCGAAAAGCTGATGGAGATGATGATGAACGGGGACATGTCGCAGTCTGAGATCGGCGGGATTTTATCGGTATTAGCCCACCGGGGTGAAACGGCGGAGGAGCTTGCCGGATTTGTAAAAGTGATGCGGGCGCGGGCACAGACATCAGGTGGCTTGGCGGATGTCGTTGATACGTGCGGAACAGGCGGAGACGGGATTTCTACGTTTAACATATCCACGGCAGCGGCGATTACAGCTTCTGCCGCCGGAGCTAAAGTTGCCAAGCACGGAAATCGCTCCGTTTCGTCTAAAAGCGGCAGCGCGGATGTGCTGGAAAAACTGGGTGTTTCCATTCAAGCCACACCAGACAGCGTTAAACGCAGCATTGAAATGAAACAAATGGGGTTTTTGTTTGCGCCGCTGTTTCATTCGTCAATGAAGCACGTCGCCGCCGCAAGAAAAGAGCTTGGCTTCCGAACCGTATTTAATCTGCTGGGCCCGCTCAGCAACCCGCTGCAGGTGAAGCGGCAGGTGATCGGCGTCTATTCATTTGATAAAGCGCGCCTGATGGCAAGCGCTCTGGAACAATTTGATGTCAGACACGTCATGCTTGTGTCGGCCCGTGACGGATTAGATGAACTGTCCATCACAGCACCGACCGATATCATTGAACTGAAAAACGGTGAACGTCTGGAATATTCCGTTTCACCTGAACAATTCGGTTTTGCAGAAGGTTCATTGAAGGATATTCAAGTGAGTTCATCGGAAGAAAGCGCGCTCCTCATTCAGAATATTTTTGCAAATAAAGCTCCGTCATCCGCTCTGCATATTACCGCCTTAAATGCGGGCGCGGCCATTTATACGGCAGGTCTTGCAAACGATCTGAAAGAAGGAACGAAAACCGCCTTAGAAGCGATTCAAAACGGAGATGCCAAAAGGCAGCTCGAACGTCTGAAACAGAAAGAGGAAGAAATGTATGCTTGA	MNKFLQSCVKGRTLKIGEAEKLMEMMMNGDMSQSEIGGILSVLAHRGETAEELAGFVKVMRARAQTSGGLADVVDTCGTGGDGISTFNISTAAAITASAAGAKVAKHGNRSVSSKSGSADVLEKLGVSIQATPDSVKRSIEMKQMGFLFAPLFHSSMKHVAAARKELGFRTVFNLLGPLSNPLQVKRQVIGVYSFDKARLMASALEQFDVRHVMLVSARDGLDELSITAPTDIIELKNGERLEYSVSPEQFGFAEGSLKDIQVSSSEESALLIQNIFANKAPSSALHITALNAGAAIYTAGLANDLKEGTKTALEAIQNGDAKRQLERLKQKEEEMYA	PGPT0007090_3153	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
D1-12_01320	1548	trpE	COG0147	Anthranilate synthase component 1	ATGAATTTACAATCGGATGTTTCTTTATTTTTAAAGGACAGTCTGACACACCGCACCATTCCAATCGCAGAGACTTTTACGGTCGACACGATCACACCCATTCAGATGGTTGAAAAACTGGACAGAAACATTACGTATCTTTTAGAAAGCAAGGATGAGTCGTCAAGCTGGTCGAGATACTCTTTTATCGGCCTCGATCCTTTTATCACCATTAAAGAGAGTCATAACACATTCACTGCCGCTGATCCAAATGGGCATACGCTGTTTGAAGCGGGAGAATTAAAAGCCGTGCTTGACTGGATGAATGAGAGCTTCCGCATTAAAACACCCGAGCTTGATATCCCATTTTCGGGAGGGGCTGTCGGTTATCTGAGCTATGACATGATTCCTTTGATTGAGCCTTCCGTGCCAAGCCACGCGAAAGAAACAGATTTCGAAAAATGCATGCTGTTTGTCTGCCGGAAAATCATCGCGTACGACCACGAAACGAAACAAGTGCATTTCATTCAATATGCGGAGCTTAACGGTCGGGAGACGGAGGAAGAAAAGCGGGCCGTTTTTAAAGAAAATTGCGCCGAGCTTCGTAAGCTTATCGGTATTTTGACAGAATCGAAAGATATGAAAGAGCCGTTTTTTTCTAAAGAAACGTTTGACACGCCAAGTTTTGCCGATGTGACATCCAATTATACGAAAGAAGAGTTTATGGCCGGCGTCAATAAACTGAAAGAATATATAAAAGCGGGAGACATTTTTCAAGGGGTGCTTTCGCAAAAGTTTGACATTCCGGTATCCAGACATTCATTTGAGCTGTACAGGGTGCTCCGCATCATCAATCCTTCACCCTATATGTACTATATCAAACTGCCTGACAGAGACATTGTCGGGAGTTCGCCTGAACGTCTGATCCGCGTGCATGACAGGCACCTGGAAATTCATCCGATTGCCGGAACGAGAAGAAGGGGCGCCGGAAAAAAAGAAGATGAACGCCTGAAAAAAGAGCTGATGAATGACGAAAAAGAAAAAGCTGAACATTACATGCTCGTCGATCTTGCGCGCAATGACATCGGCAGAGTTGCGGAGTACGGTTCCGTAGCCGTTCCGGAATTCACAAAGGTCGTTTCTTTTTCACATGTGATGCACATCATCTCTGTTGTAACCGGCCGTTTAAAACAGGGCGTCCATCCCGTTGACGCGCTGATGTCGGCATTCCCGGCAGGAACACTCACGGGCGCTCCGAAAATCCGCGCGATGCAGCTTTTAAATGAATTAGAACCGACTTCCAGAGAAACCTACGGCGGATGTATCGCTTATATCGGATTTGACGGGTCAATTGATTCGTGTATTACCATCCGCACCATGAGTGTCAAAAACGGTACGGCGTCGGTGCAGGCGGGCGCGGGAATAGTCGCCGATTCCGTCCCGGAAGCCGAATATGAAGAAAGCTGTAACAAAGCGGGGGCGCTTTTAAAAACGATTCAAATCGCAGAAGACATCTTTTCTGGCGGGGAGGAGAAGACGGATGAACAAATTTCTGCAATCGTGCGTTAA	MNLQSDVSLFLKDSLTHRTIPIAETFTVDTITPIQMVEKLDRNITYLLESKDESSSWSRYSFIGLDPFITIKESHNTFTAADPNGHTLFEAGELKAVLDWMNESFRIKTPELDIPFSGGAVGYLSYDMIPLIEPSVPSHAKETDFEKCMLFVCRKIIAYDHETKQVHFIQYAELNGRETEEEKRAVFKENCAELRKLIGILTESKDMKEPFFSKETFDTPSFADVTSNYTKEEFMAGVNKLKEYIKAGDIFQGVLSQKFDIPVSRHSFELYRVLRIINPSPYMYYIKLPDRDIVGSSPERLIRVHDRHLEIHPIAGTRRRGAGKKEDERLKKELMNDEKEKAEHYMLVDLARNDIGRVAEYGSVAVPEFTKVVSFSHVMHIISVVTGRLKQGVHPVDALMSAFPAGTLTGAPKIRAMQLLNELEPTSRETYGGCIAYIGFDGSIDSCITIRTMSVKNGTASVQAGAGIVADSVPEAEYEESCNKAGALLKTIQIAEDIFSGGEEKTDEQISAIVR	PGPT0007095_1572	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
D1-12_01322	384	aroH	COG4401	Chorismate mutase AroH	ATGATGATACGCGGCATTCGCGGAGCAACAACGGTGGAACAAGACACCGAACAAGAAATTTTAGAAAAAACACAGCAGCTGCTTGAAAAAATCATTGAACAAAATGGATGCAAGCCGGAAGACGTTGTGCAGATCCTGATATCCGCCACGCCTGATATCCATTCCGTATTTCCGGCAAAAGCGGTCCGCCGCCTTTCCGGGTGGCAGTACGTCCCGGTGACGTGCATGCAGGAAATGGATGTCACCGGCGCTCTGCAAAAGTGTATCCGTGTCCTGATGACGGTTCAGACGGATACGCCTCAGGATGAAATCAAGCATGTCTATTTAGAAAAAGCCGTTGTGTTAAGGCCGGATTTATCATTGACAAAAAATACTGACATGTAA	MMIRGIRGATTVEQDTEQEILEKTQQLLEKIIEQNGCKPEDVVQILISATPDIHSVFPAKAVRRLSGWQYVPVTCMQEMDVTGALQKCIRVLMTVQTDTPQDEIKHVYLEKAVVLRPDLSLTKNTDM	PGPT0021220_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
D1-12_01323	1089	aroB		3-dehydroquinate synthase	ATGAAAGAGCTTGAGGTTCGGACAGCTTCCTCCGCATATCCCGTGTATATCGGTGAAGGCATAAGGAAACAGGCCGCTGCCCTTTTGTCTTCACTGAACAGGCCGCTGACAAAGATCCTTCTCGTCATCGATGCTGAAGTTGACCGGCTATACGGTGATGAGATGTTCCGGCTTTTAAACGAAACATGGCCCGTGAAAAAAGTGATCGTTCCAAGCGGAGAAGAAGCGAAGTCTCTGAAAGAGTATGAACGGATTCAAACGGAAGCGATCGCTTTCCATATGGACCGCTCCTCATGTATGATCGCCTTCGGAGGCGGCGTGACGGGTGATTTGGCCGGCTTTTGCGCAGCAACTTTTATGCGCGGAATTGATTTCATTCAAATGCCGACGACACTGCTTGCCCATGACAGCGCGGTCGGCGGCAAGGTGGCCGTCAACCATAAACTCGGAAAGAACTTAATCGGCGCGTTTTATCAGCCGAAAGCGGTGATTTACGATACGGAGCTACTGAAAACCCTGCCGGAACAAGAGCTGAGATCGGGTATGGCTGAAGTGATCAAACACGCGTTTATCGCCGATCATGCTTTTTTAGAAAAACTTCTCACGTTTGACACGTTGCAAGGACTGACAAGCGCTGAGCTGAATGAAATGATTTATAAAGGAATTTCAATCAAATCGGCCGTCGTGCGTGAGGACGAAAAGGAAGAGGGGATAAGAGCTTTTCTGAATTTCGGCCATACGCTCGGCCATGCCGTTGAGGCGGAATACGGCTACGGCCGGATTACACATGGAGATGCGGTCGCCCTCGGCATGCAGTTTGCCCTTTACGTGAGTGAACAGGTTGCTGGATGCAAGATGAACAGAAAAGAACTCACGCAATGGCTGATTGGGCTCGGCTACCCGGGAAGCATCAGACAAGATATTGAAACGCCGGTTCTCTCCGCCCGGATGATGAATGATAAAAAAACGCGCGGAGGCATGACACAGTTCATCGTGTTAAAGGAATTAGGCGAAGCGCGGGACTGCATGCTTTCAAAAGATGAGCTCGAAAATTTGCTGAACAAATGGCGAATGGAGGAAACAGCATGA	MKELEVRTASSAYPVYIGEGIRKQAAALLSSLNRPLTKILLVIDAEVDRLYGDEMFRLLNETWPVKKVIVPSGEEAKSLKEYERIQTEAIAFHMDRSSCMIAFGGGVTGDLAGFCAATFMRGIDFIQMPTTLLAHDSAVGGKVAVNHKLGKNLIGAFYQPKAVIYDTELLKTLPEQELRSGMAEVIKHAFIADHAFLEKLLTFDTLQGLTSAELNEMIYKGISIKSAVVREDEKEEGIRAFLNFGHTLGHAVEAEYGYGRITHGDAVALGMQFALYVSEQVAGCKMNRKELTQWLIGLGYPGSIRQDIETPVLSARMMNDKKTRGGMTQFIVLKELGEARDCMLSKDELENLLNKWRMEETA	PGPT0012865_2473	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
D1-12_01324	1173	aroC	COG0082	Chorismate synthase	ATGAGATACTTAACAGCCGGAGAATCACACGGTCCGCAGCTGACGACAATTATAGAAGGTGTGCCTGCGGGGCTTTATATAACTGAAGAAGACATTAATTTTGAGCTTGCCAGACGTCAAAAAGGGCACGGCCGCGGACGCCGCATGCAGATTGAAACGGACAGAGCGAAGATCACAAGCGGCGTGCGGCATGCCCGGACACTCGGTTCACCCATCGCGCTCGTTGTAGAAAATAAAGATTGGACCCACTGGACAAAAATCATGGGCGCCGCACCGATTACAGAAGAAGAAGAAAGTGAAATGAAACGCCAGATTTCAAGACCGAGACCGGGACACGCAGATTTGAACGGTGCTATTAAGTATAATCACCGCGATATGAGAAATGTGTTAGAACGATCTTCCGCGCGTGAGACAACGGTTCGCGTGGCTGCCGGAGCCGTCGCTAAAAAGATTTTAGCGGAGCTTGGCATTAAAGTCGCCGGGCATGTCCTGCAAATCGGCAGCGTAAAAGCAGAGAAAACCGATTACACATCCATTGAGGATCTCAAACGGGTAACGGAAGAATCACCGGTCAGATGCTACGATGAAGAAGCTGGCCGTCAAATGATGGCAGCCATTGATGAAGCGAAGGCAAACGGCGACTCGATCGGCGGAATCGTTGAAGTGATCGTCGAAGGTATGCCGGTCGGTGTCGGAAGCTATGTCCACTATGACCGTAAGCTGGACAGCAAGCTCGCTGCTGCCGTTCTGTCGATTAACGCGTTTAAAGGCGTAGAGTTCGGCATCGGTTTTGAAGCGGCCGGTAAAAACGGCAGTGAAGTTCATGATGAAATCGTATGGGATGAAGAGAAAGGCTATACACGCGCCACAAACAGGCTCGGAGGATTAGAAGGCGGTATGACGACGGGAATGCCGATTGTCGTCCGCGGCGTTATGAAACCGATCCCTACTTTGTACAAGCCGCTGAAAAGCGTCGACATTGAAACGAAAGAACCGTTTACAGCGAGCATTGAACGTTCAGACAGCTGCGCGGTTCCGGCAGCAAGTGTAGTGGCTGAAGCAGCAGTGGCCTGGGAAATCGCAAATGCCGTCGTCGAACAATTCGGGCTTGACCAGATCGACCGCATTAAAGAAAATGTTGAAAACATGAAAAAACTATCGAGGGAATTCTGA	MRYLTAGESHGPQLTTIIEGVPAGLYITEEDINFELARRQKGHGRGRRMQIETDRAKITSGVRHARTLGSPIALVVENKDWTHWTKIMGAAPITEEEESEMKRQISRPRPGHADLNGAIKYNHRDMRNVLERSSARETTVRVAAGAVAKKILAELGIKVAGHVLQIGSVKAEKTDYTSIEDLKRVTEESPVRCYDEEAGRQMMAAIDEAKANGDSIGGIVEVIVEGMPVGVGSYVHYDRKLDSKLAAAVLSINAFKGVEFGIGFEAAGKNGSEVHDEIVWDEEKGYTRATNRLGGLEGGMTTGMPIVVRGVMKPIPTLYKPLKSVDIETKEPFTASIERSDSCAVPAASVVAEAAVAWEIANAVVEQFGLDQIDRIKENVENMKKLSREF	PGPT0012875_1213	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
D1-12_01325	912	cheR		Chemotaxis protein methyltransferase	ATGAAAGACAGAGGCTGCGCCGCCCTGTCTTTTCGTTTCTCACAAATCAGCCCGCGGGCTGATTTTTTTATTGAAATCGTACAATTTCGACAGAAAACAGGCTATACTAGGACAAAAGACAGCGAGATTGGGAGAGAAGCAATGGAGCCTTACGACATTTTTATCACCAAGTGGAAACAAATAACCGGCGTTGATTTATCTTTATACAAAGAAGCACAGATGAAAAGGCGGCTGACGTCCCTTTATGAAAAGAAGGGGTTCAGAGATTTTCAGGAATTTGCCGCCGCTTTGGAAAAGGACAAGCTTTTATTAAACGAAACATTGGACAGAATGACGATCAATGTTTCTGAATTTTACCGAAATTATAAACGGTGGGAAGTTCTTGAAACCTCAATTCTTCCGTTAATAAAGCATAACAAACCGTTAAAAATATGGAGTGCGGCCTGTTCAACGGGAGAGGAGCCCTATACTTTGGCTATGATTCTCAATCAGCAGACGGGACTGGCCGGATTTGATATATTGGCGACAGATATTGATGAAAAGGCGCTAAGCAAAGCCAAGCGGGGCATCTATCAGGAACGCTCGCTGCAAGAGGTGCCGGCTTCCGTGAAAAGCCGTTATTTCACCAAGCAGGCTGACAGCAGCTATCAAGTAAAACAAGAGATTCAGAAAAACATCCGGTTTAAGCGGCACAACCTGCTTGCCGACAGCTATGAACAGGATTTTGACCTGATCGTCTGCCGCAACGTCTTTATTTATTTTACTGAAAAAGCAAAAGAAGAGCTGTATGTGAAAATGGCGGGCAGTCTGAAAAAGAACGGAATTCTGTTTGTCGGCAGTACAGAACAAATTTTCAGCCCGGAAAAATTCGGCCTTGAGAGCACTGATACATTTTTTTATCAAAAAAGATAG	MKDRGCAALSFRFSQISPRADFFIEIVQFRQKTGYTRTKDSEIGREAMEPYDIFITKWKQITGVDLSLYKEAQMKRRLTSLYEKKGFRDFQEFAAALEKDKLLLNETLDRMTINVSEFYRNYKRWEVLETSILPLIKHNKPLKIWSAACSTGEEPYTLAMILNQQTGLAGFDILATDIDEKALSKAKRGIYQERSLQEVPASVKSRYFTKQADSSYQVKQEIQKNIRFKRHNLLADSYEQDFDLIVCRNVFIYFTEKAKEELYVKMAGSLKKNGILFVGSTEQIFSPEKFGLESTDTFFYQKR	PGPT0015670_560	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
D1-12_01326	447	ndk	COG0105	Nucleoside diphosphate kinase	ATGGAAAAAACTTTTATCATGGTAAAACCGGACGGCGTACAGCGCCAGCTGATCGGAGAGATTTTATCCAGATTTGAGCGTAAGGGCTTACAATTGGCAGGAGCCAAGCTAATGCAAGTTTCAGAACAGATGGCTGAAAACCATTATGCTGAACATAAAGGGAAGCCGTTTTTCGGCGAGCTTGTGGAATTCATTACATCAGGACCCGTATTTGCAATGGTATGGGAAGGGGAAAATGTAGTAGAGATCACAAGACAGCTGATCGGAAAAACGAACCCGAAAGATGCACTGCCGGGCACGATCCGCGGTGACTACGGCATGTTTGTCGGCAAAAATATCATTCACGGTTCAGACTCCTTAGAAAGCGCTGAGCGGGAAATTCACATTTTCTTTAAACAGGAAGAGCTTGTACCGTATCAAAAATTAATGGCCGACTGGGTGTACTAA	MEKTFIMVKPDGVQRQLIGEILSRFERKGLQLAGAKLMQVSEQMAENHYAEHKGKPFFGELVEFITSGPVFAMVWEGENVVEITRQLIGKTNPKDALPGTIRGDYGMFVGKNIIHGSDSLESAEREIHIFFKQEELVPYQKLMADWVY	PGPT0021210_2387	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
D1-12_01327	1050	hepT	COG0142	Heptaprenyl diphosphate synthase component 2	ATGTCAAATACCATTCGTTTACCGGCGGAGTGGCCGCTACGCATATCGGTTGGAAATGATGAATATACAGATGTTTGGGTGAATGATATGAAATTTAAAATGGCCTATTCTTTTTTAAATGACGATATTGATGTGATCGAAAGGGAGCTTGAGCAAACGGTGCGGTCAGACTATCCCTTGCTGAGTGAAGCCGGGCTCCATCTGCTCCAGGCGGGAGGCAAGAGGATCCGCCCCGTTTTCGTATTGCTTTCCGGCATGTTCGGCGACTATGACATTAATAAAATAAAATATGTTGCGGTGACGCTGGAAATGATTCATATGGCGTCCCTCGTGCATGACGACGTCATTGATGACGCCGAGCTGCGGAGGGGAAAACCGACCATCAAAGCCAAGTGGGACAACCGCATCGCCATGTATACCGGTGATTATATGCTAGCGGGCTCACTTGAGATGATGACGAGATTGGATGAGCCGAAAGCCCACCGGATCCTGTCCAAAACCATCGTAGAAGTATGCCTCGGAGAAATTGAACAGATCAGAGATAAATACAATATGGAGCAAAACCTCAGAACCTATTTGCGCCGCATCAAACGGAAAACGGCTCTTCTCATTGCCGTCAGCTGCCAGCTCGGCGCCATCGCTTCGGGAGCTGATGAGAAGATTCACAAAGCATTATATTGGTTCGGTTATTACGTGGGCATGTCCTATCAGATTATTGACGACATTCTTGATTTCACTTCAACGGAAGAGGAACTGGGAAAACCGGTCGGAGGGGATCTGCTGCAAGGAAATGTCACTCTGCCCGTTTTGTACGCGCTCCGTCAGCCTGAATTGAAAAATCAGCTGAAATTAATTAACAGTGAAACAACACAGGAGCAGCTCGCCCCCATTATTGAAAATATTAAACGCACAGACGCGATTGAAAAATCAATGGCCGTCAGTGACAGGTACTTAAAAAAAGCGTTTGAAAAACTGAATACACTGCCGAGAGGACGTGCGCGCTCATCATTGGCCGCCATCGCCAAATATATCGGCAAACGGAAATTTTAA	MSNTIRLPAEWPLRISVGNDEYTDVWVNDMKFKMAYSFLNDDIDVIERELEQTVRSDYPLLSEAGLHLLQAGGKRIRPVFVLLSGMFGDYDINKIKYVAVTLEMIHMASLVHDDVIDDAELRRGKPTIKAKWDNRIAMYTGDYMLAGSLEMMTRLDEPKAHRILSKTIVEVCLGEIEQIRDKYNMEQNLRTYLRRIKRKTALLIAVSCQLGAIASGADEKIHKALYWFGYYVGMSYQIIDDILDFTSTEEELGKPVGGDLLQGNVTLPVLYALRQPELKNQLKLINSETTQEQLAPIIENIKRTDAIEKSMAVSDRYLKKAFEKLNTLPRGRARSSLAAIAKYIGKRKF	PGPT0025040_179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
D1-12_01328	702	menG	COG2226	Demethylmenaquinone methyltransferase	ATGCAGGAGTCAAAAGAACAGCGCGTACACGGCGTGTTTGAAAAAATCTATAAAAATTATGACCAAATGAACTCTGTTATCAGTTTTCAGCAGCATAAAAAATGGCGCGATAAAACGATGCAGATCATGAATGTAAAAGAAGGCGCAAAAGCGCTTGATGTCTGCTGCGGAACGGCTGACTGGACGATTGCCCTCGCAGAAGCGGCCGGAAAAAGCGGCGAAATCAAAGGACTGGATTTCAGCAAAAATATGCTGAGCATCGGTGAGAAAAAAGTGAAAGAGGGCGGTTACAGCCAAATTGAGCTTTTGCACGGAAATGCGATGGAGCTTCCTTTCGCTGATGATTCTTTTGATTTTGTCACCATCGGCTTCGGGCTGCGAAACGTTCCCGACTATCTGACCGTGCTGAAAGAAATGCGGCGGGTCGTCAAACCGGGCGGGCAGGTCGTATGTCTGGAAACATCCCAGCCGGAAATGTTCGGATTCAGACAGGCATATTTTCTTTATTTTAAATACATCATGCCTTTCTTCGGAAAAATGTTTGCGAAGAGCTATAAAGAATATTCTTGGCTTCAAGAATCGGCAAGAGAATTTCCCGGTATGAAAGAACTTGCGCGTCTGTTTGAAGAAGCGGGCCTGACGAATGTCAAATACCATTCGTTTACCGGCGGAGTGGCCGCTACGCATATCGGTTGGAAATGA	MQESKEQRVHGVFEKIYKNYDQMNSVISFQQHKKWRDKTMQIMNVKEGAKALDVCCGTADWTIALAEAAGKSGEIKGLDFSKNMLSIGEKKVKEGGYSQIELLHGNAMELPFADDSFDFVTIGFGLRNVPDYLTVLKEMRRVVKPGGQVVCLETSQPEMFGFRQAYFLYFKYIMPFFGKMFAKSYKEYSWLQESAREFPGMKELARLFEEAGLTNVKYHSFTGGVAATHIGWK	PGPT0009535_3303	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
D1-12_01329	765	hepS		Heptaprenyl diphosphate synthase component 1	GTGATATTTTTGCAAGACATCTACGGAACTTTAGCGAATCTAAATACGAAATTAAAACAAAAGCTGTCTCATCCTTATTTAGCGAAACATATTTCTGCGCCTAAAATCGATGAGGATAAGCTTCTTCTTTTTCACGCTTTGTTTGAAGAGGCGGACATTAAGAACAATGACAGAGAAAATTACATAGTAACTGCGATGCTTGTCCAAAGCGCCCTTGATACCCACGATGAAGTGACAACAGCCAGAGCGTTAAAGCGAGACGAAAATAAAAACCGGCAGCTCACCGTGCTTGCCGGCGACTATTTCAGCGGACTGTATTATTCGCTTTTATCTGAAATGAAGGATATCTATATGATACGGACGCTCGCTACGGCAATTAAAGAAATCAATGAGCATAAAATCCGTCTGTACGATCGGTCTGTCAATGACTTGAATCAATTGATCGAAAGCATGGCGATTGTGGAAGCGGCCCTGTTTCACAGAGTGTCAGACCACTTTAATCTTCCGCGCTGGAAAGAGCTGGCGAGTGATTTTTTTGTATATAAGCGGCTGATGAACGGCAATGCTATATTTCTCGATGTCATCGGCAATATTGTAAAGTCAGGGAAATCAAAGGCTGACATAATGGAAGATAGCTTCCGAAAGGCAAAGCAAAGCATTGAAACGCTGCTGCCGCTCAATTCACCAATCCAAAACCTAATGCTGAACCGGCTTACGGCGATCAGCCGGGACAAAACATATCATCAGAAAGTGGAAGAAGGGTAA	MIFLQDIYGTLANLNTKLKQKLSHPYLAKHISAPKIDEDKLLLFHALFEEADIKNNDRENYIVTAMLVQSALDTHDEVTTARALKRDENKNRQLTVLAGDYFSGLYYSLLSEMKDIYMIRTLATAIKEINEHKIRLYDRSVNDLNQLIESMAIVEAALFHRVSDHFNLPRWKELASDFFVYKRLMNGNAIFLDVIGNIVKSGKSKADIMEDSFRKAKQSIETLLPLNSPIQNLMLNRLTAISRDKTYHQKVEEG	PGPT0007531_199	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007531-hepST-K00805	NA	NA
D1-12_01330	228	mtrB		Transcription attenuation protein MtrB	ATGAATTCAAAGCATTCAAGTGATTTTGTCGTCATTAAAGCGGTCGAGGACGGCGTGAACGTCATCGGTTTAACGAGAGGAACGGATACGAAATTTCACCATTCCGAAAAACTGGACAAAGGCGAAGTAATTATCGCTCAGTTTACTGAGCATACCTCTGCCATCAAAGTGAGAGGCAACGCCCTCATCCAGACCGCTTACGGAGAAATGAACAGCGAAAAAAAATAA	MNSKHSSDFVVIKAVEDGVNVIGLTRGTDTKFHHSEKLDKGEVIIAQFTEHTSAIKVRGNALIQTAYGEMNSEKK				NA	NA	NA	NA	NA
D1-12_01331	573	folE	COG0302	GTP cyclohydrolase 1	ATGAAAGAAGTTAATAAAGAACAGATTGAACAGGCGGTTCGCCAGATTTTAGAGGCGATTGGAGAAGACCCGGACCGGGAAGGGCTTTTAGATACGCCGAAACGCGTGGCAAAAATGTACGCGGAAGTATTCTCGGGATTAAATGAAGACCCGAAAGAACACTTTAAAACCGTTTTCGGAGAAGACCATGAGGAGCTTGTTCTTGTAAAAGATATCGCGTTTCATTCCATGTGTGAACATCACCTTGTTCCTTTTTACGGAAAAGCGCATATTGCCTACATTCCGCGCGGCGGCAAAGTGACGGGCCTGAGTAAATTGGCGCGGGCGGTGGAAGCCGTCTCAAAACGCCCGCAGCTGCAGGAGCGCATCACTTCAACGATTGCAGAAAGCATCGTAGAGACCTTAGATCCCCACGGCGTCATGGTTGTCGTCGAAGCTGAGCATATGTGCATGACGATGAGGGGCGTAAGAAAGCCGGGTGCAAAAACAGTGACTTCCGCTGTAAGAGGTATTTTTAAAGATGACGCAGCGGCGCGTTCCGAAGTGTTAGAACATATTAAACGTGCGGATTAA	MKEVNKEQIEQAVRQILEAIGEDPDREGLLDTPKRVAKMYAEVFSGLNEDPKEHFKTVFGEDHEELVLVKDIAFHSMCEHHLVPFYGKAHIAYIPRGGKVTGLSKLARAVEAVSKRPQLQERITSTIAESIVETLDPHGVMVVVEAEHMCMTMRGVRKPGAKTVTSAVRGIFKDDAAARSEVLEHIKRAD	PGPT0007875_3807	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
D1-12_01332	279	hupA	COG0776	DNA-binding protein HU 1	ATGAACAAGACAGAACTAATCAATGCGGTTGCTGAAGCAAGCGAATTGTCTAAAAAAGACGCTACAAAAGCAGTTGATTCTGTTTTTGATACGATTTTAGATGCACTTAAAAACGGTGATAAAATCCAACTGATCGGTTTCGGTAACTTTGAGGTGCGCGAGCGCTCTGCACGTAAAGGACGTAACCCGCAAACAGGTGAAGAAATCGAAATCCCTGCAAGCAAGGTACCTGCTTTCAAACCAGGTAAAGCTCTTAAAGACGCTGTTGCAGGAAAATAA	MNKTELINAVAEASELSKKDATKAVDSVFDTILDALKNGDKIQLIGFGNFEVRERSARKGRNPQTGEEIEIPASKVPAFKPGKALKDAVAGK				NA	NA	NA	NA	NA
D1-12_01333	1479	spoIVA		Stage IV sporulation protein A	TTGGAAAAGGTCGATATTTTCAAGGATATCGCTGAACGAACAGGGGGCGATATATACTTAGGAGTCGTTGGCGCTGTCCGTACAGGGAAATCTACATTCATTAAAAAATTTATGGAGCTCGTGGTGCTCCCGAATATCAGCAATGAGGCCGATCGAGCGCGGGCGCAGGATGAGCTTCCGCAAAGCGCAGCAGGAAAAACGATAATGACCACAGAACCAAAATTTGTCCCGAATCAAGCCATGTCCGTTCATGTCGCGGAAGGACTTGATGTCAACATCCGGCTTGTGGATTGTGTGGGATATACGGTTCCCGGGGCGAAGGGATATGAGGATGAAAACGGCCCGAGAATGATCAATACACCTTGGTACGAAGAACCGATTCCCTTTCATGAGGCAGCGGAAATCGGTACGAGAAAAGTCATCCAGGAACACTCCACAATCGGGGTCGTCATTACGACAGACGGCTCAATCGGCGATATTGCGCGGGGCGATTACGTGGAAGCGGAAGAAAGAGTCATCGACGAGCTGAAGGAAGTCGGCAAACCGTTTATTATGGTCATCAACTCGGTAAAACCGTACCACCCGGAAACAGAAGCGCTCAGAGCTGAATTAAGCGCGAAATATGATATTCCCGTCCTCGCCATGAGTGTTGAAAGCATGCGGGAAACAGATGTGTTAAGCGTCCTCAGAGAAGCGCTTTACGAGTTCCCTGTGCTGGAAGTCAATGTCAACCTTCCGAGCTGGGTCATGGTGCTGAAGGAAAATCACTGGCTCAGAGAGAGCTACCAGGAATCAGTGAAAGAAACCGTAAAAGATATTAAACGCCTGCGCGATGTCGACCGGGTTGTCGGCCACTTCAGTGAATTTGAGTTTATTGAAAGCGCCGGTCTGGCCGGAATCGAACTTGGCCAGGGTGTCGCAGAAATTGATTTGTATGCGCCGGATCATTTATATGACCAGATTTTAAAAGAAGTGGTCGGCGTTGAAATCCGCGGGAAAGACCACCTGCTTGAATTAATGCAGGACTTCGCCCACGCGAAAAAAGAATATGATCAGGTATCAGATGCGCTGAAAATGGTGAAACAGACCGGCTACGGCATTGCCGCCCCGGCCTTAACCGATATGAGCCTTGATGAACCGGAAATCATCAGACAGGGATCAAGGTTCGGAGTAAGGCTCAAAGCGGTCGCTCCGTCCATTCATATGATCAAAGTGGATGTGGAAAGTGAATTCGCGCCGATCATCGGGACGGAAAAACAAAGTGAAGAACTTGTCCGCTACTTAATGCAGGACTTTGAAGATGATCCGCTTTCTATCTGGAACTCCGATATTTTCGGCAGATCATTGAGCTCTATCGTAAGAGAAGGAATCTCCGCAAAACTGTCACTCATGCCGGAAAATGCGAGATATAAACTGAAAGAAACGCTGGAGAGAATTATTAACGAAGGCTCAGGCGGCCTGATCGCCATTATTTTGTAA	MEKVDIFKDIAERTGGDIYLGVVGAVRTGKSTFIKKFMELVVLPNISNEADRARAQDELPQSAAGKTIMTTEPKFVPNQAMSVHVAEGLDVNIRLVDCVGYTVPGAKGYEDENGPRMINTPWYEEPIPFHEAAEIGTRKVIQEHSTIGVVITTDGSIGDIARGDYVEAEERVIDELKEVGKPFIMVINSVKPYHPETEALRAELSAKYDIPVLAMSVESMRETDVLSVLREALYEFPVLEVNVNLPSWVMVLKENHWLRESYQESVKETVKDIKRLRDVDRVVGHFSEFEFIESAGLAGIELGQGVAEIDLYAPDHLYDQILKEVVGVEIRGKDHLLELMQDFAHAKKEYDQVSDALKMVKQTGYGIAAPALTDMSLDEPEIIRQGSRFGVRLKAVAPSIHMIKVDVESEFAPIIGTEKQSEELVRYLMQDFEDDPLSIWNSDIFGRSLSSIVREGISAKLSLMPENARYKLKETLERIINEGSGGLIAIIL	PGPT0024770_262	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024770-spoIVA-K06398	NA	NA
D1-12_01334	735			hypothetical protein	ATGCATAAGTTTAAAATGGCCGTCATAACGGCAATGGCGGTGCTTCTGCTGTCCGGCTGTCTGTACCCTGAAGCGGAAAAAACTGAAAATAAAGTATCTTACAAACATCAGCTTCAGCAGGTGCAAGCGGCAGTGGATGAATTTAAAAAGGCGAACGGCGGACTTCTGCCGATTCAGACAAAAGATATGAAAACACCGCTCTATCAAAAATATCCGATAGATTTTAAGCGGCTCGCGCCCAGATACATAGAGGAGCCGCCGGCCTCAGCTTATGAAAGCGGAGGAATGTACCAATACGTGCTTGTCGACGTGGAAAATAAGCCGACCGTCAAGCTGGTCGATCTCCAAATGGCGGAAGCAATCCGCGACATGAAGCTGCGTGTCAAAATGTATCAGGAAAAGCATACATATCCTCCCTATGAGGACGCCGTTTCAAAAGGGCTGTTCACTTTAAATAAAAAAAAGCTCGGCATGAAAGACTCTCCTTCAGTCAAAAGTCCGGTTTCAGGCACGTCTCTGCCGCTTTTAATCGGCGCTGACGGAGAAATCTATGCCGACTATCGCGTCGATCTAGCCCGCTGCCTGAAGGAAAACAAAAAGAAAATCAAACCGGGCGCGGAAATTCAGGATATTTTATGGAAAGAGACTCCTTTCGTCCCGGCCTTTTCAGTCACATACACCGTAAATGAAAAACAGGAACCCGTTTTTTTAGAAAGTCAAACGAAACAGGAATGA	MHKFKMAVITAMAVLLLSGCLYPEAEKTENKVSYKHQLQQVQAAVDEFKKANGGLLPIQTKDMKTPLYQKYPIDFKRLAPRYIEEPPASAYESGGMYQYVLVDVENKPTVKLVDLQMAEAIRDMKLRVKMYQEKHTYPPYEDAVSKGLFTLNKKKLGMKDSPSVKSPVSGTSLPLLIGADGEIYADYRVDLARCLKENKKKIKPGAEIQDILWKETPFVPAFSVTYTVNEKQEPVFLESQTKQE				NA	NA	NA	NA	NA
D1-12_01335	204			hypothetical protein	GTGAGTGTGGCATTGATGAAAATGTGGTTTGCGCTTGGTGCTATGGGATTAATGTTTGTTGCGGTGGCCTCTATTTATGTCAGCAGGTACAAAGTGAAAAACAAACTGATAAAAGCAGCGGTTTCTTCACTCGCTTATGCCTGCATGGTCATCTCGGGATTGATCGTGTTAATGGTCGTTTTCAGCGGGCCTGTCAATGAATAA	MSVALMKMWFALGAMGLMFVAVASIYVSRYKVKNKLIKAAVSSLAYACMVISGLIVLMVVFSGPVNE				NA	NA	NA	NA	NA
D1-12_01336	1038	gpsA	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGAAAAAAGTGGCAATGCTTGGAGCGGGAAGCTGGGGCACTGCACTTTCTTTAGTGCTGGCTGATAACGGACATCAAGTTATGATGTGGGGACACCGTGCCGAATTGATCGATCAAATCAACGACCTGCATGAAAACAAAGATTACCTGCCGGGGGTGGAGCTATCAAGTTCTATCATCGGTACAGCTGATTTAAACGAGGCTTTAAAAGGAGCGGACTTCATCATTGTGGCAGTTCCGACAAAAGCCATTCGGGAAGTGCTGAAAAAGGCTCTGCCGTACATCCCGAAACAATCGATTTTTGTTCATGTCAGCAAGGGAATTGAGCCGGATTCGCTTCTCCGTATTTCAGAATTAATGGAAGAGGAGCTGCCTGAGGAGTACAGAAAAGACATCGTCGTGCTTTCAGGGCCGAGCCACGCTGAGGAAGTCGGATTAAGACACCCGACGACTGTTACATCATCTTCAAAAAATATCAAGGCTGCAGAAGCGGTTCAGGATTTATTCATGAACCAGCATTTCCGCGTCTATACCAATCCGGATATGATCGGTGTTGAAATAGGGGGAGCGTTAAAGAATATCATCGCTCTTGCAGCGGGGATTACAGACGGATTGGGATACGGAGATAATGCAAAAGCGGCCTTAATCACCCGAGGTCTTGCTGAAATCGCCAGACTCGGCACAAAGATGGGCGGAAATCCGCTCACCTTTTCCGGCCTGACCGGCGTAGGCGATTTGATCGTGACGTGTACAAGCGTTCATTCCCGAAACTGGCGCGCCGGCAACCTGCTCGGCAAAGGATATAAGCTGGAAGCTGTCCTGGATAAGATGGGGATGGTTGTTGAAGGCGTGCGGACGACGAAAGCTGCGTATCAGCTGTCTCAAAAATACCAAGTGAAAATGCCGATCACAGAGGCGCTTCACCAAGTATTATTTAACGGGCAGAAGGTAGAAACGGCCGTAGAATCCTTAATGGCCAGAGTGAAAACCCATGAGATGGAAGACTTGGTCAACACATTCGAAAACCGGGTGAAGTGA	MKKVAMLGAGSWGTALSLVLADNGHQVMMWGHRAELIDQINDLHENKDYLPGVELSSSIIGTADLNEALKGADFIIVAVPTKAIREVLKKALPYIPKQSIFVHVSKGIEPDSLLRISELMEEELPEEYRKDIVVLSGPSHAEEVGLRHPTTVTSSSKNIKAAEAVQDLFMNQHFRVYTNPDMIGVEIGGALKNIIALAAGITDGLGYGDNAKAALITRGLAEIARLGTKMGGNPLTFSGLTGVGDLIVTCTSVHSRNWRAGNLLGKGYKLEAVLDKMGMVVEGVRTTKAAYQLSQKYQVKMPITEALHQVLFNGQKVETAVESLMARVKTHEMEDLVNTFENRVK	PGPT0024330_716	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
D1-12_01337	1311	der_2	COG1160	GTPase Der	ATGGGTAAACCTGTCGTAGCCATTGTCGGAAGACCGAATGTGGGAAAATCCACAATCTTTAACCGGATTGCGGGTGAAAGAATTTCAATAGTAGAAGATACCCCCGGAGTGACGCGGGACCGGATATACAGTTCGGCGGAATGGCTGAATTATGATTTTAACCTGATTGATACGGGCGGAATTGATATCGGAGACGAACCGTTTCTGACACAGATCCGCCAGCAGGCTGAAATCGCCATGGACGAGGCTGATGTGATCATCTTTATGGTGAACGGCCGCGAAGGTGTGACGTCTGCTGATGAAGAAGTGGCAAAAATACTGTACCGGACAAAAAAACCGGTCGTATTAGCCGTTAATAAATTAGATAATACCGAAATGAGAGCGAACATCTATGACTTTTATGCGCTCGGCTTTGGAGAACCGTATCCGATTTCGGGCACACACGGTTTAGGATTGGGAGATTTGCTCGATGCTTGTGCCGAGCATTTTAAAAACATTCCGGAGACGAAGTACAGTGATGATGTCGTTCAATTCTGCCTGATCGGCCGCCCGAATGTCGGAAAATCATCCCTTGTCAATGCGATGCTCGGCGAAGAGCGGGTTATCGTGAGCAACGTAGCCGGAACGACTAGAGACGCTGTGGATACGGCGTTCACCTACAATCAGCAGGAATTTGTAATCGTTGACACGGCGGGAATGAGAAAAAAGGGTAAAGTATATGAAACAACAGAAAAATACAGTGTGCTTCGGGCGTTAAAAGCCATTGACCGCTCAGACGTCGTCGGGGTTGTGCTGAATGCAGAAGAAGGCATCCTTGAGCAGGACAAGCGGATCGCCGGATACGCCCATGAAGCCGGGAAAGCCGTCGTCATTATCGTAAACAAATGGGATGCCGTTGATAAAGACGAGCGCACGATGAAAGAATTTGAACAGAATATTCGGGAACATTTCCAATTTCTTGATTATGCGCCGGTGCTGTTTATGTCGGCACTGACGACAAAGCGGATTCATACACTCATGCCTGCGATTATTAAAGCGAGTGAAAACCACTCTCTCCGCGTGCAGACAAATGTCTTAAATGATGTCATCATGGATGCGGTCGCCATGAATCCGACTCCGACGCACAACGGCTCCCGTCTGAAAATTTATTATGCGACTCAAGTCGCTGTTAAGCCGCCGAGCTTCGTTGTTTTTGTCAACGATCCGGAACTGATGCATTTTTCTTATGAACGCTTTTTAGAAAACCGAATCCGGGACGCTTTCGGATTTGAAGGTACGCCAATTAAAATATTTGCAAGAGCAAGAAAATAA	MGKPVVAIVGRPNVGKSTIFNRIAGERISIVEDTPGVTRDRIYSSAEWLNYDFNLIDTGGIDIGDEPFLTQIRQQAEIAMDEADVIIFMVNGREGVTSADEEVAKILYRTKKPVVLAVNKLDNTEMRANIYDFYALGFGEPYPISGTHGLGLGDLLDACAEHFKNIPETKYSDDVVQFCLIGRPNVGKSSLVNAMLGEERVIVSNVAGTTRDAVDTAFTYNQQEFVIVDTAGMRKKGKVYETTEKYSVLRALKAIDRSDVVGVVLNAEEGILEQDKRIAGYAHEAGKAVVIIVNKWDAVDKDERTMKEFEQNIREHFQFLDYAPVLFMSALTTKRIHTLMPAIIKASENHSLRVQTNVLNDVIMDAVAMNPTPTHNGSRLKIYYATQVAVKPPSFVVFVNDPELMHFSYERFLENRIRDAFGFEGTPIKIFARARK				NA	NA	NA	NA	NA
D1-12_01338	603			hypothetical protein	ATGGAACCGTTTTATTATTACTGGTCAATGTGGTTTTTATGGATACTTGCGACTTTTATTTTTGCCAAGACGAAAAGCCGTTTTTACGTATCAGTCTTTATTTTGACTAATATGATGGCAAGCATACATCAGATTACGGCTTATTTTACGCTGAATGCGGCATATGTCATGTTTTTTACTGCGGCATTTGTTTATGCGGGAAGCCTCGGCATGCATAAACGGCTCCGTAATATTGTGATTCATCTGACGGCGGCTGCGGCGTACGGCTTTATTTTTCTTTTTGCATTATATGATCCTGTTTGGTTTATCATAAAACCTGAATGGGCGGCGGTTATACTGCTTACCGTTATTACGCTTTCCGTTGAGGGGCGGTTCCCTGAGAGGCTTTGTCTTTTTGTTCTCGGCATGTGCCAGGGGGAGCTATTGTATGCTGCGGTCATCCGCAATATTGCGGGTGCGGCAGCCGTCGGTGATTATAAATGGCTTTCAGGCTGTTCGGCGGGAGTGATTCTGCTCGTCGGGCTGACTACATATGAACAGCTTGCGGCGCGCATCAGCCAAAAAAGCAAAAAGCAGGGCAAAGGAGCGACAAAAATGTCTTGA	MEPFYYYWSMWFLWILATFIFAKTKSRFYVSVFILTNMMASIHQITAYFTLNAAYVMFFTAAFVYAGSLGMHKRLRNIVIHLTAAAAYGFIFLFALYDPVWFIIKPEWAAVILLTVITLSVEGRFPERLCLFVLGMCQGELLYAAVIRNIAGAAAVGDYKWLSGCSAGVILLVGLTTYEQLAARISQKSKKQGKGATKMS				NA	NA	NA	NA	NA
D1-12_01339	132			hypothetical protein	ATGGGAAAAGACAGACAGGAGAAAAAACTGAAAGCCTCCCGACGAGTGGAATCTGATCGCGATGATTCGATTCACCATAAAGGAGCGACAAGCCTTGAGCAAAACGGGGAATTCCGAAAAAGAAAATCGTAA	MGKDRQEKKLKASRRVESDRDDSIHHKGATSLEQNGEFRKRKS				NA	NA	NA	NA	NA
D1-12_01340	1050	fni	COG1304	Isopentenyl-diphosphate delta-isomerase	GTGACACGAGCAGAACGAAAAAGAGAACATATAAATCATGCGCTGTCTACCGGCCAAAACCGGGAAACGGGGCTTGATGATATTACGTTTGTTCATGTCAGCCTACCGAACCTAGCATTGGAAAAAGTGGATATATCAACGAAAATCGGCGGACTCACAAGCAGTTCGCCGATTTTTATCAATGCGATGACAGGCGGCGGCGGACAGCTTACATACGAAATTAACAGATCGCTGGCAAGAGCTGCGCGCAAAGCCGGCATGCCGCTGGCTGTCGGTTCGCAAATGTCAGCTTTAAAAGATCCCTCCGAACGGTATTCTTACGAGATCGTCAGAAAAGAGAATCCGGACGGGCTGATATTTGCCAATTTAGGCAGCGAGGCGGATGCCGAGCAGGCGAAAAGGGCAGTTGATATGATTCAAGCAGATGCCCTCCAGATACATTTAAATGTGATTCAGGAGATCGTCATGCCAGAGGGTGACAGAAGCTTTACTGGTGCTCTCGGCCGTATTGAGCGGATTGCGGCGGAAACGGGAGTGCCCGTTTTTGTCAAAGAAGTCGGCTTCGGAATGAGCAAGGAATCGGCACGGCAGTTATTTGATGCCGGCGCAGCAGCAGTTGATGCCGGCGGATACGGCGGTACAAATTTCTCTAAGATCGAAAATATGCGCAGAGAGAAGGCGCTTCAATTTTTTAATACGTGGGGAATTTCCACTGCCGCAAGCTTAGCGGAAATCCACTCGCTCTCCGCTGATCAATCAATTATCGCATCCGGCGGGCTGCAAAGTGCCCTGGATGTCGCCAAATCGATTGCCCTCGGCGCTTCCAGCGCGGGAATGGCGGGCACTTTCCTGAAAGCTCTCACTTCTAAAGGAGAAGAGGGTCTGTTTGACGAGATGACGGCGCTTTTACAAGAGCTGAAAATGATTATGACCGCCCTCGGATGCCAATCGGTTGCCCAATTGCAAAAGGCGCCTTTGGTCATAAAAGGTGACACACATCACTGGCTTTCTGAACGGGGAATTGACACATCACGTTTCAGCAGACGTTAA	MTRAERKREHINHALSTGQNRETGLDDITFVHVSLPNLALEKVDISTKIGGLTSSSPIFINAMTGGGGQLTYEINRSLARAARKAGMPLAVGSQMSALKDPSERYSYEIVRKENPDGLIFANLGSEADAEQAKRAVDMIQADALQIHLNVIQEIVMPEGDRSFTGALGRIERIAAETGVPVFVKEVGFGMSKESARQLFDAGAAAVDAGGYGGTNFSKIENMRREKALQFFNTWGISTAASLAEIHSLSADQSIIASGGLQSALDVAKSIALGASSAGMAGTFLKALTSKGEEGLFDEMTALLQELKMIMTALGCQSVAQLQKAPLVIKGDTHHWLSERGIDTSRFSRR	PGPT0007530_722	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
D1-12_01341	1149	ypfD	COG0539	30S ribosomal protein S1	ATGACAGAGGAAATGAATCAAATTGATGTTCAAGTGCCAGAGGTTGGAGATGTAGTAAAAGGGATTGTGACAAAGGTAGAGGACAAGCATGTAGATGTCGAAATCGTCAATGTCAAACAGTCCGGAATCATTCCAATCAGTGAATTATCAAGTCTTCATGTAGAGAAAGCATCGGATGTCGTAAAAGTTGACGATGAGCTTGACCTGAAAGTAACAAAAGTGGAAGACGATGCTTTGATTTTATCTAAACGTGCCGTTGATGCTGACCGCGCTTGGGAAGACCTTGAAAAAAAATTCGACACAAAAGAAGTGTTTGAAGCTGAAGTGAAAGATGTGGTGAAAGGCGGTCTCGTCGTTGATATCGGCGTTCGCGGCTTCATTCCCGCATCACTTGTCGAAGCTCATTTCGTCGAGGATTTCACTGACTATAAAGGGAAAACCCTCTCTCTTATCGTCGTTGAACTCGACCGTGATAAAAACCGGGTGATTCTGTCACACCGGGCTGTAGTTGAAAAAGAACAGACAGCCAAAAAGCATGATTTTCTCCAAACGCTTGAGGTTGGAAGCGTGCTTGAAGGAAAAGTGCAGCGTCTGACTGATTTCGGCGCATTTGTCGACATCGGCGGAATTGACGGGCTTGTTCATATTTCGCAGCTGTCTCATTCACACGTCGAAAAACCGTCTGACGTGGTGGAAGAAGGTCAGGACGTAAAAGTGAAAGTACTGTCCGTAGACCGCGATAACGAGCGTATTTCTTTATCTATTAAAGAAACGCTGCCGGGACCTTGGAGCCAGATCGGCGAAAAGGTAAAACAGGGAGATGTGCTTGAAGGAAAAGTGCAGCGCCTTGTAAGCTTCGGCGCCTTCGTTGAAATTCTTCCGGGCGTGGAAGGACTTGTGCACATTTCGCAAATTTCCAATAAACATATCGGAACGCCGCATGAAGTGCTTGAAGAAGGACAGACTGTTAAAGTGAAAGTGCTTGACGTGAACGAAAGCGAAGAGCGCATTTCCTTAAGCATGCGTGAGCTTGAAGAAGCGCCGAAAGCCGATCAGGAGGACTTCCGCCAATACCAGGCGAAAGAAGAGCCGAGCACCGGCTTCCAGCTTGGCGATTTAATCGGAGACAAGCTTAATAAATTAAAATAA	MTEEMNQIDVQVPEVGDVVKGIVTKVEDKHVDVEIVNVKQSGIIPISELSSLHVEKASDVVKVDDELDLKVTKVEDDALILSKRAVDADRAWEDLEKKFDTKEVFEAEVKDVVKGGLVVDIGVRGFIPASLVEAHFVEDFTDYKGKTLSLIVVELDRDKNRVILSHRAVVEKEQTAKKHDFLQTLEVGSVLEGKVQRLTDFGAFVDIGGIDGLVHISQLSHSHVEKPSDVVEEGQDVKVKVLSVDRDNERISLSIKETLPGPWSQIGEKVKQGDVLEGKVQRLVSFGAFVEILPGVEGLVHISQISNKHIGTPHEVLEEGQTVKVKVLDVNESEERISLSMRELEEAPKADQEDFRQYQAKEEPSTGFQLGDLIGDKLNKLK	PGPT0007615_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
D1-12_01342	675	cmk	COG0283	Cytidylate kinase	ATGGACAAGAAATTATCAATTGCGATCGACGGGCCGGCCGCTGCCGGAAAAAGCACCGTTGCTAAAATAGTGGCTGAGAAAAAATCATATGTGTACATTGATACAGGAGCGATGTATCGTGCCATTACATATACGGCGCTCAAGCAGAATGCCGATTTAACCGATGAAGCCGCGCTTACAGAGCTGCTGAAGCATACGGAAATTGAGCTTGTATCCGCTCCGGAAGGACAAATCGTTCTGGTAAACGGAGAAGATGTGACAGAAGAAATCCGAAAAGACGAAGTCAGCAACCAAGTATCAATCGCCGCCAAGCATAAAGGCGTCAGAGAAGAAATGGTCAAAAGACAGCAGCAGCTCGGAGAAAAAGGCGGTGTCGTCATGGACGGCCGTGATATCGGTACTCACGTGTTGCCTGATGCCGAAGTGAAAATTTTTCTGCTCGCGTCCGTAGAGGAAAGAGCGAAGCGCCGATATGAAGAGAATAAGAAAAAAGGCTATGACGTGAATTACGAGACGCTCATTGAAGAAATTGCCAGACGCGACAAACTCGATTCAGAGAGGGAAGTTTCCCCGCTGCGCAAAGCGGAAGACGCGATTGAAATCGATACGACGTCACTAAGCATTGCCGAAGTCGCAGGAAAAATTCTGGAGATCGTCGATCAGAAATCACGTTAA	MDKKLSIAIDGPAAAGKSTVAKIVAEKKSYVYIDTGAMYRAITYTALKQNADLTDEAALTELLKHTEIELVSAPEGQIVLVNGEDVTEEIRKDEVSNQVSIAAKHKGVREEMVKRQQQLGEKGGVVMDGRDIGTHVLPDAEVKIFLLASVEERAKRRYEENKKKGYDVNYETLIEEIARRDKLDSEREVSPLRKAEDAIEIDTTSLSIAEVAGKILEIVDQKSR	PGPT0021220_2491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
D1-12_01343	177			hypothetical protein	ATGAAAACGTTTGAACGTCTGCTGATCAAATTGGTCTGCATTCAGCTTATCATTTTGGGCGCGGTGCAGTTTTTGCTTCATTATCAGCCTATTGAACCTTATATTTCGAAAGCTGTGAAATATGAGGGAGTTGATAAAATGGAGAAAAAAGAATGGATTGAAACGGTAAAGCGGTAA	MKTFERLLIKLVCIQLIILGAVQFLLHYQPIEPYISKAVKYEGVDKMEKKEWIETVKR				NA	NA	NA	NA	NA
D1-12_01344	657	ypfA	COG5581	putative protein YpfA	ATGATAGCTGTCGGAGATTATATTTGGATTGAATACATAGAGAACAATGAGCCCAAAAAAGCGAGGAGCAAAGCAGTAAGCGTTGAAAACGGCGAACTGCACATCTCATATCCCGTCGATCTGGATTCGGGACGGACGGTCTTTTTGCATAAAGGATTGGAAATAACAGCGGAATTTATGGGGAATGGCCAAGTGCCGTATCAATTTAAAAGCATAATCAAAGGAAAGAAAAAAGACCCCATCCCGATGATCGGATTGGACATCCCCCCTCAGGAGGAAATGAAGCGGATTCAAAGACGCCGATACGTCCGTGCAGACGCAGTATTGGATGTATCCGTCAAAATGGAAGCGAAAAAAACCGCTTTCCAAACGGTTTCCTCTAATATCAGCGCCGGCGGAATCGCTGTTGTGATGCCTGAGCATATTTCCGCGGAACCAGGTGAAAAGCTGTATGTCTCATTTTCTCTTCCCGGCAAGGAAAATACGGCGGATATTATTGCCGAGGCTGTTATCCAGCGGATTTTTTATGATGAAAAGGCGGATAAACAAAAAATGACGCTTGAATTTGCAGAAATCGCTCCCGCTTCGCAGCAGCTTTTACTCCAATATTGTATGCGCGCGCAGCTGCAGCAGAGAAGAAACAGTCTGTCGGAATAA	MIAVGDYIWIEYIENNEPKKARSKAVSVENGELHISYPVDLDSGRTVFLHKGLEITAEFMGNGQVPYQFKSIIKGKKKDPIPMIGLDIPPQEEMKRIQRRRYVRADAVLDVSVKMEAKKTAFQTVSSNISAGGIAVVMPEHISAEPGEKLYVSFSLPGKENTADIIAEAVIQRIFYDEKADKQKMTLEFAEIAPASQQLLLQYCMRAQLQQRRNSLSE				NA	NA	NA	NA	NA
D1-12_01345	1350	ypeB		Sporulation protein YpeB	ATGATTAGAGGAATCATTATCGCTGTTCTCGGTGTCGCGATCGCCGCAACCGGATATTGGGGATATAAAGAGCATCAGGAAAAAGATGCGGTCCTTCTGCATGCGGAAAATAATTATCAGAGGGCTTTTCATGAATTGACGTACCATGTAGATCAGCTTCACGACAAAATCGGGACGACGCTTGCGATGAACAGTAAAAAATCTCTGTCTCCGGCGCTCATTGATGTATGGAGAATAACATCTGAAGCTCATAACAATGTGAGCCAGCTGCCGCTGACTCTCATGCCTTTTAATAAAACGGAGGAGTTTTTATCCAACATAGGAGATTTCAGCTATAAAACATCCGTCCGGGATTTAGATCAAAAACCGCTTGATAAGAAAGAATATACAACACTGAACAGCCTGTACAAACAGGCGGAGAACATTCAAAACCAGCTCCGCAGCGTTCAGCATCTCGTCATGAGCAAAAATTTACGGTGGATGGATGTTGAGATGGCACTCGCCTCTGACAAAAAACAAAGCGATAATACGATCGTCGACAGCTTTAAAACAGTCGAAAAAAATGTAGGCGCTTTTTCTGAAGACAGCATCAGCCCCACATTTACGGGAGCAAATACAGAACGAAAAGGTTTTACGCATCTGAAAGGAAAACAAATTACGGAAAAAGAAGCGGTCAAAATCGCACAACGGTTTGCGCCTGATCATAATTATTCAATTAAAGTGGTCAAAAGCGGCAGGAAGACGAATCGGGACGTATACAGCATCCGCATGAAAGACGCCGACAACAAGTCTTTTATCTATATGGATATTACCCAAAAAGGCGGACATCCGGTCTATTTGATTCAAAAACGGGCCGTGAAGAAACAAAAGATCAGCCTCAATGAAGCATCTAACCGGGCCGTCGCGTTTTTAAAGAAAAATGGATATGAAACAAAAGGCCTCGAAATTGATGAAAGCGCGCAATATAATAACATCGGCGTCTTTTCTTTTATCCCCGTGGAGAAAAATGTCCGCATTTATCCGGAAGCCATCCGAATGAAAGTGGCGCTGGATGATGGTGAAGTCGTCGGTTTTTCCGCGCGTGATTACCTGGCGGCGCACCGCACGAGAACGATTCCGGCTCCCGCTTTGTCAGCTGATGAAGCGAAAGCGAAGCTGAATAAAAATGTTGAAGTGCGGGAGACCCGGCAGGCGCTGATCACAAATGAACTCGGTCAGGAAGTGCTTTGCTATGAAATGCTCGGAACGATCGGGAAAGACACGTATCAAATGTTCATTAATGCGGACGACGGAAAAGAGGAAAAAATAGAAAAGTTAAAAAGTGCAGAACCTATATATAAAGACCTATAA	MIRGIIIAVLGVAIAATGYWGYKEHQEKDAVLLHAENNYQRAFHELTYHVDQLHDKIGTTLAMNSKKSLSPALIDVWRITSEAHNNVSQLPLTLMPFNKTEEFLSNIGDFSYKTSVRDLDQKPLDKKEYTTLNSLYKQAENIQNQLRSVQHLVMSKNLRWMDVEMALASDKKQSDNTIVDSFKTVEKNVGAFSEDSISPTFTGANTERKGFTHLKGKQITEKEAVKIAQRFAPDHNYSIKVVKSGRKTNRDVYSIRMKDADNKSFIYMDITQKGGHPVYLIQKRAVKKQKISLNEASNRAVAFLKKNGYETKGLEIDESAQYNNIGVFSFIPVEKNVRIYPEAIRMKVALDDGEVVGFSARDYLAAHRTRTIPAPALSADEAKAKLNKNVEVRETRQALITNELGQEVLCYEMLGTIGKDTYQMFINADDGKEEKIEKLKSAEPIYKDL	PGPT0025130_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025130-ypeB-K06313	NA	NA
D1-12_01346	870	sleB	COG3409	Spore cortex-lytic enzyme	ATGAAGTGCAAAGGAGCCTTTATGGCATGTCTCATTCTATTTTCTTTCGCCGCCGCTTTCTTCGATCATCATGAAACGGTTCATGCGTTTTCAAATCAAGTGATTCAAAGAGGCGCGACGGGTGATGATGTTATAGAATTGCAGGCCCGTCTTCAATATAACGGATTTTATAACGGGAAAATCGATGGAGTTTACGGCTGGACCACATACTGGGCCGTGAGAAATTTTCAGGAGAAATTCGGCATGAAGCCGGTTGACGGCCTCGTCGGCGCGAAAACCAAACAGGTGCTGATTTCTAAATCAAAATATTACCGTGAATATGTAATGGAGCAGATCCAAAAAGGGAATACGTTCACTCATTATGGCAACGTCCCATTGGAAAACCAAACAAAACCGAGAGCCGGAACGCAGAAGCCGGCGGGAACGAATAAGTCTGCTCAAAAACCGCAAAACAATACAGGCGGCCAGTCAAATCAAAAGCAAAATACGACAGCGGCCAATATGCCTGGCGGTTTCTCAAACAACGACATCAATCTTCTGGCACAGGCTGTGTACGGGGAAGCGCGCGGTGAGCCGTTTGAAGGGCAGGTTGCCATCGCCGCGGTTATTTTAAACCGTATTAAAAGCCCGTTATTTCCGAATACGGTGGCCGGCGTCATTTTCGAACCGCTCGCGTTTACCGCTGTTGCCGACGGCCAAATATATATGCAGCCGAATGAAAGAGCAAAAGAAGCGGTTCTTGATGCAATCAACGGCTGGGACCCTTCTGAAAACGCGATTTATTATTTCAATCCTGATACGGCGACAAGCAAATGGATTTGGGGACGTCCGCAGATAAAAAGAATCGGAAAACACATTTTCTGTGAGTAA	MKCKGAFMACLILFSFAAAFFDHHETVHAFSNQVIQRGATGDDVIELQARLQYNGFYNGKIDGVYGWTTYWAVRNFQEKFGMKPVDGLVGAKTKQVLISKSKYYREYVMEQIQKGNTFTHYGNVPLENQTKPRAGTQKPAGTNKSAQKPQNNTGGQSNQKQNTTAANMPGGFSNNDINLLAQAVYGEARGEPFEGQVAIAAVILNRIKSPLFPNTVAGVIFEPLAFTAVADGQIYMQPNERAKEAVLDAINGWDPSENAIYYFNPDTATSKWIWGRPQIKRIGKHIFCE				NA	NA	NA	NA	NA
D1-12_01347	657	prsW	COG2339	Protease PrsW	ATGTTTGCAATCATCTCTGCAGGAATTGCTCCCGGCATTGCGCTGTTAAGCTATTTTTATTTAAAAGATCAGTATGACAATGAACCCGTACATATGGTGCTGAGGTCTTTTTTTCTCGGGGTTGTCCTTGTGTTTCCGACCATGTTTATCCAATATGTTCTTGAAAAAGAGCATGTGGGGGGAGGAAGCTTTTTCGTTTCGTTTTTGTCTTCGGGATTTCTGGAAGAATCGGTGAAATGGTTCGTTCTGATGATCAGTGTGTATCCGCATGCTCATTTTGATGAGCATTATGACGGAATCGTTTACGGGGCCAGTGTGTCTTTAGGATTTGCCACGCTTGAAAATATTCTGTATCTATTCGGCCACGGCGTTGAGCATGCTTTCATCAGGGCGCTTCTGCCGGTCTCCTGCCATGCGCTGATCGGAGTGATTATGGGATTTTATCTCGGAAAAGCCCGCTTTTCGCAGAAAAAAGCCCGTGTCAAATGGCTTGTGATTTCGCTGGCCGTGCCTTCATGTCTGCACGGTTCTTACGATTTTATTCTTACCGCCCTCAATCATTGGGTATATTATATGCTGCCGTTTATGCTGTTTTTATGGTGGTTCGGGCTGCGAAAGGCAAAAAAAGCACGCTCCGTCAATATGATCCAAGTGTGA	MFAIISAGIAPGIALLSYFYLKDQYDNEPVHMVLRSFFLGVVLVFPTMFIQYVLEKEHVGGGSFFVSFLSSGFLEESVKWFVLMISVYPHAHFDEHYDGIVYGASVSLGFATLENILYLFGHGVEHAFIRALLPVSCHALIGVIMGFYLGKARFSQKKARVKWLVISLAVPSCLHGSYDFILTALNHWVYYMLPFMLFLWWFGLRKAKKARSVNMIQV				NA	NA	NA	NA	NA
D1-12_01348	984		COG0492	Ferredoxin--NADP reductase	ATGACAGAAGAAAAAGCAATTATAATAGGCGGAGGTCCTTGCGGATTATCGGCGGCTATACATCTGAAGCAAATTGGCGTGAACGCGCTTGTGATCGAAAAAGGGAATGTCGTAAACAGCATTTATAACTATCCGACCCACCAAACTTTTTTCAGTTCAAGTGAAAAATTGGAGATCGGCGATGTTGCCTTTATTACGGAAAACAGAAAACCGGTCCGAATACAGGCTCTCTCTTACTACAGAGAGGTCGTCAGAAGAAAAGAGCTGCGCGTAAACGCCTTTGAAACAGTGGAGCGCGTAACGAAACAGGAAGACGGCCGTTTTCTTGTAGAAACATCAAAAGACCGCTACCTCACTCCGTTTTGTATCATTGCGACAGGATATTATGATCATCCGAATTATATGAACATCCCGGGTGAAGGGCTTCCTAAGGTATTTCATTACTTTAAAGAAGGCCATCCTTATTTTGATAAAGATGTTGCTGTGATCGGCGGGAAAAACTCAAGTGTGGACGCGGCTTTGGAACTGGTGAAGTCCGGTGCGCGCGTCACGGTGCTCTACAGAGGACATGAGTACTCCCCGAGCATCAAGCCGTGGATTCTGCCTGAGTTTGAGGCCCTTGTCAGAAACGGCACAATCCGGATGGAATTCGGCGCTTGTCTTGAAGAAGTGACGGAAGATGAAATCATTTTCCGCTCCGGCCGAAATGAGACGGTCCGGCTGAAAAACGATTTCGTATTTGCCATGACGGGATACCATCCCGATCACGGTTTCCTCGAAAAAATCGGTGTGCGGATTGATGCTGAATCAGGCCGGCCGTTTTTCCGGGAAGAAACGATGGAAACAAATGTTGACGGTGTTTTTATCGCCGGAGTCATTGCGGCTGGAAATAACGCCAATGAAATTTTTATCGAGAACGGCCGTTTTCACGGCGGCTTGATCGCAAACGAAATATCAAAACGGCTGGGTAGAGAGAGCATATGA	MTEEKAIIIGGGPCGLSAAIHLKQIGVNALVIEKGNVVNSIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRIQALSYYREVVRRKELRVNAFETVERVTKQEDGRFLVETSKDRYLTPFCIIATGYYDHPNYMNIPGEGLPKVFHYFKEGHPYFDKDVAVIGGKNSSVDAALELVKSGARVTVLYRGHEYSPSIKPWILPEFEALVRNGTIRMEFGACLEEVTEDEIIFRSGRNETVRLKNDFVFAMTGYHPDHGFLEKIGVRIDAESGRPFFREETMETNVDGVFIAGVIAAGNNANEIFIENGRFHGGLIANEISKRLGRESI	PGPT0013060_3589	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-12_01349	1275	gudB	COG0334	Cryptic catabolic NAD-specific glutamate dehydrogenase GudB	ATGGCAGCCGATCGATTCACCGGTCATAATGAAGAAGACAAACATGATGTATTAAAATCAACCCAAACCGTAATACATAAAGCTCTGGAAAAATTGGGGTATCCAGAAGAAGTGTATGAACTGCTGAAAGAGCCGCTCAGATTATTAACGGTTAAAATTCCTGTTCGGATGGATGACGGGTCTGTGAAAATATTTACAGGCTATCGTGCGCAGCACAATGATTCCGTAGGTCCGACAAAAGGCGGCATTCGTTTTCACCCGAATGTAACTGAAAAAGAGGTGAAAGCACTTTCCATCTGGATGAGTTTAAAATGCGGAATTATTGATCTTCCTTATGGCGGTGGTAAAGGCGGAATTGTTTGTGATCCGAGAAATATGTCATTCAGAGAGCTTGAAAGGCTGAGCAGGGGATATGTCAGAGCAATCAGTCAGATTGTCGGACCGACTAAAGACGTCCCGGCACCTGACGTATTTACAAACTCGCAGATTATGGCTTGGATGATGGATGAATATTCAAGAATTGATGAATTTAACTCACCCGGCTTTATTACGGGAAAACCGCTTGTACTCGGCGGGTCCCACGGCAGGGAATCAGCTACGGCAAAAGGCGTTACCATCTGTATAAAAGAAGCGGCCAAGAAAAAAGGTCTCGATATTCAGAACGCGCGCGTCGTCGTACAAGGTTTCGGAAATGCGGGCAGCTATCTGGCCAAGTTTATGCATGACGCCGGCGCGAAAGTTGTCGGAATTTCTGACGCGTACGGAGGCCTTTACGATCCGGACGGTCTTGATATTGATTATCTGCTTGACCGCAGAGACAGCTTCGGAACGGTGACGAAGCTTTTCAATGACACCATTACGAATCAGGAGCTGCTTGAGCTGGACTGTGATATACTTGTCCCGGCGGCGATCGAAAACCAAATTACAGAAGAAAACGCTGACCGCATCAAAGCGAAAATCGTTGTAGAAGCGGCAAACGGACCGACGACACTGGAAGGAACGAAAATCCTGACAGACAAAGGAACGCTGCTGGTTCCCGATGTTCTGGCGAGCGCCGGCGGTGTAACGGTTTCTTATTTCGAATGGGTTCAAAACAACCAAGGCTTCTACTGGAGTGAAGAAGAAGTCGAGGAAAAACTGGAAAATATGATGATAAAATCGTTTAATAATATTTATGAAATGTCCCAAAACCGCCGGATTGACATGAGGCTTGCGGCTTACATGGTCGGCGTGCGGAAAATGGCTGAGGCTTCGCGTTTCAGAGGCTGGATATAA	MAADRFTGHNEEDKHDVLKSTQTVIHKALEKLGYPEEVYELLKEPLRLLTVKIPVRMDDGSVKIFTGYRAQHNDSVGPTKGGIRFHPNVTEKEVKALSIWMSLKCGIIDLPYGGGKGGIVCDPRNMSFRELERLSRGYVRAISQIVGPTKDVPAPDVFTNSQIMAWMMDEYSRIDEFNSPGFITGKPLVLGGSHGRESATAKGVTICIKEAAKKKGLDIQNARVVVQGFGNAGSYLAKFMHDAGAKVVGISDAYGGLYDPDGLDIDYLLDRRDSFGTVTKLFNDTITNQELLELDCDILVPAAIENQITEENADRIKAKIVVEAANGPTTLEGTKILTDKGTLLVPDVLASAGGVTVSYFEWVQNNQGFYWSEEEVEEKLENMMIKSFNNIYEMSQNRRIDMRLAAYMVGVRKMAEASRFRGWI	PGPT0020205_228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0020205-gudB|rocG-K00260	NA	NA
D1-12_01350	585	mecB	COG4862	Adapter protein MecA 2	ATGCGGCTTGAGCGTCTGAACTATAATAAGATTAAAATCTTTTTAACCCTCGACGATTTGACTGATCGGGGACTGACAAAAGAAGACCTCTGGAAGGACTCGTTTAAAGTCCACCAGTTATTTAAAGATATGATGAATGAAGCAAATACAGAGCTCGGCTTTGAAGCGAATGGTCCGATCGCGGTGGAAGTATATTCTCTTCAGGCACAAGGCATGGTTGTGATTGTAACGAAAAATCATGACGCGGACGCAGAAGATGACGAATATGACGATGATTATATCGAGATGCAGGTCAAACTTGACGAAAGCCCGGATATTATTTATCAGTTCCATTCGTTTGAAGATATCATTCAGCTTGCCGGAAGCCTTCACCGAATCGGGATTACCGGCGGCACCGTCTACCACTATGAGAACCAATACTATGTAAGCCTTGAAGACCTCGGCTCCCGTTCCGCCGAAGGCGTCATCGCGGTGCTGGCTGAATACGGACACCCGGCGACGATTACGATTTACAGACTCCATGAGTACGGAAAACTCATCATGGACGGCAATGCTGTGGAGACCATCCAGAAACATTTTTCATAA	MRLERLNYNKIKIFLTLDDLTDRGLTKEDLWKDSFKVHQLFKDMMNEANTELGFEANGPIAVEVYSLQAQGMVVIVTKNHDADAEDDEYDDDYIEMQVKLDESPDIIYQFHSFEDIIQLAGSLHRIGITGGTVYHYENQYYVSLEDLGSRSAEGVIAVLAEYGHPATITIYRLHEYGKLIMDGNAVETIQKHFS				NA	NA	NA	NA	NA
D1-12_01351	789	ypbG	COG1408	putative protein YpbG	ATGAAGCTTACAGCGGGAATTCTCGGCTCATTGGCGGGAGCGGCTGCGGTTATGGCTGCCGTTATGTACAAAACGGCAAACGGCAGCCATCTGAAAACACATACATTTACGCTTGATAAAATGAAGGGGATGAAGCCGCTCACCATCTTCTTTATATCTGACGTGCACCGCCGTTTAATTGATGAAAAGCTTCTCCGCGAAGCGGCAGTTCATAAGCCGGATGCCGTTTTGCTCGGCGGTGATTTGGCGGAGGGCGGAGTTCCTTACGCCAGAATTGAAGAAAACATCAAACGTCTGACGGCTCTTGCGCCTGTCATGTATGTGTGGGGAAATAACGATTACGAGGTCAGCCAGCAAAAACTGCTCTCTCTTTTACGGGCATATAAAGTGATCCCGCTGAGAAATGAATCGGTTCAGTTTGCTTATAAAGGGGAAACCGTTACGATCTGCGGGGTGGATGATATCAGGATGATGATGGATGATTACGAATCTGCAATCAGATATACGGATGCTGACAAAGTAAACCTCCTGCTTTGCCATAACCCGGACATCCATGAGCAGATGAGGGAGTCAGACGGGATTGACGCTGTGTTCAGCGGCCATACGCATGGCGGCCAAATCCGTTTCGGCCGGTTCGGGCCGTACGAATTGGGCGGGACGGGAACGGTAAAAAAAGCGCATTACCTGATCAGCAACGGCTACGGGACGACAAAAGTTCCGCTGAGGCTCGGGGCGAAACCGGAGACGCATATGATTACGCTGTGCGGACCGGATGAGCCGTCTTCCTGA	MKLTAGILGSLAGAAAVMAAVMYKTANGSHLKTHTFTLDKMKGMKPLTIFFISDVHRRLIDEKLLREAAVHKPDAVLLGGDLAEGGVPYARIEENIKRLTALAPVMYVWGNNDYEVSQQKLLSLLRAYKVIPLRNESVQFAYKGETVTICGVDDIRMMMDDYESAIRYTDADKVNLLLCHNPDIHEQMRESDGIDAVFSGHTHGGQIRFGRFGPYELGGTGTVKKAHYLISNGYGTTKVPLRLGAKPETHMITLCGPDEPSS	PGPT0022365_4054	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
D1-12_01352	459			hypothetical protein	ATGGATTCTTTATGGAAGCAATTAGACCGATTTGCTGACGGACCGACGAAACAAATGCTTCAGGCGCTGGTGAAACGGAAATTAAAATACGAAAATTATGCCGCACAATGCCGAAGATGGCAGTGGGCGTCCCTCGTTTGTTTTTCCCTGATGTGCATACTGCTGATGTTTAAAAGCTTTAATGCCCCCCAAGCCTCTCCGCAGCTGATTCTGCAGGAAATATTAGGCCATACGGTTTACTTGTGCTGGATTATGGCTTCCGCTTTTGCGTATTGCACTTCTTATTATTTTAAAAAAAAGGAAGAAAAAGCTGAGGGTGAATTTCATAAACTGAGATGTGAAATTATCCAAAAAAGCACGGATTTATGGCCCCAGCCTGAAAAATGGAGGGCGAGAGAATCTGTTTTTCACTTGATGAAACATCGGTATGATATCAATCTTTATTTTGAAAGCAAATAA	MDSLWKQLDRFADGPTKQMLQALVKRKLKYENYAAQCRRWQWASLVCFSLMCILLMFKSFNAPQASPQLILQEILGHTVYLCWIMASAFAYCTSYYFKKKEEKAEGEFHKLRCEIIQKSTDLWPQPEKWRARESVFHLMKHRYDINLYFESK				NA	NA	NA	NA	NA
D1-12_01353	759			hypothetical protein	ATGACGGAAATGTCAAGAGTTGAAAGAAGAAAAGCTCAGCTGCGTGCCGAGCAGCAGGTTGCCGCGGCCGCGGATGAACAAATTGAATATCTTGAAGACAGCCTCCCGACAAGACAATCTGTAAAAGAGGAGCGTAAAAAAAAGGAAGAGCAGGTGAAGGAAAAAACCAAAACAAAAACGCCGCTGTTCACTTTTCTGACCGTCCTGTTCATTATCGTAACAATCGGTGTCTTTTTCGGTCTTCTTTATATGACGAACAGCAGCAGATTTGACCCGAAGGACTATGAAGATGTCTTCATAGACCACAGTGAAAGCGCGCCTGCCGTTATTCCGAAAGGCGCTCAGAAAGAAACGTCAGAAACCGCTCTTTTAGAACAACCGAAAAAAAAGTCTGACGACAAAGATAAGAAAGAAGCGGCTGCACCTGAAAAAACAAAAGAAAAACCAAGTGAAAAAACGGAAACGCCCTCAGAAAAACAAGTAAAGTCGACAGACACCGATTACGCGGAGACAAAACAGCAGTCTCCGCCGGCTGTCCGTGAAAAAGCGGCTCCGGCTGCCGCGAGTGATCAAGCCGGGACTGTCCCCAAAAAAGTGCGGACCGTACAGCATACTGTACAGCCGAAAGAAACGCTTTACCGCATTTCAATGAAATATTATAAAAGCCGGGCGGGCGAAGAAAAAATCCGCAGCTACAACGGATTAAACGGAAACGACGTGTACACCGGCCAGGTTCTGAACATTCCGCTGTCTGATTAA	MTEMSRVERRKAQLRAEQQVAAAADEQIEYLEDSLPTRQSVKEERKKKEEQVKEKTKTKTPLFTFLTVLFIIVTIGVFFGLLYMTNSSRFDPKDYEDVFIDHSESAPAVIPKGAQKETSETALLEQPKKKSDDKDKKEAAAPEKTKEKPSEKTETPSEKQVKSTDTDYAETKQQSPPAVREKAAPAAASDQAGTVPKKVRTVQHTVQPKETLYRISMKYYKSRAGEEKIRSYNGLNGNDVYTGQVLNIPLSD				NA	NA	NA	NA	NA
D1-12_01354	555			hypothetical protein	ATGCAGCTGTATGCCACCCAATTGCTCATATTGGCGGTTTCAGCTGTTATTGGCTTTTTCTTTTTCACCGACATTCACGATTTTTTAAAGCTGTGGCATATACGTGACGATAATATCATATGGTACGGTGTAACTCTTGCCGTCCTTGTCATTTTTGCCGATCTTGCGGTGATGAAATGGTGTCCTTCGCATTTATATGATGACGGCGGCATTAATGTATTGCTTTTTAAGAACAGGCCGGTTTTGCACATTTTGTTTTTGACGCTTCTCATTTCGTTCAGCGAAGAGATTTTGTTCAGAGGCGTTCTGCAGACACATATCGGCTTATGGGCCGCCAGCTTCATTTTTACCGTGCTTCATTTCAGATACTTGGCGAAGTGGCTTCTGTTTATGATGGTTGCGGGCATCAGTCTTTTGCTGGGGCTTATCTACGAATGGACCGGTAATTTATTCGTTCCGGTTACAGCGCATTTTATTATTGATGCGGTATTTGCCTGTCAGATCCGTTTTCAATATGTTAGGAGGGGTTTGCATGACGGAAATGTCAAGAGTTGA	MQLYATQLLILAVSAVIGFFFFTDIHDFLKLWHIRDDNIIWYGVTLAVLVIFADLAVMKWCPSHLYDDGGINVLLFKNRPVLHILFLTLLISFSEEILFRGVLQTHIGLWAASFIFTVLHFRYLAKWLLFMMVAGISLLLGLIYEWTGNLFVPVTAHFIIDAVFACQIRFQYVRRGLHDGNVKS				NA	NA	NA	NA	NA
D1-12_01355	1419	dbpA_2		ATP-dependent RNA helicase DbpA	ATGACTAGCGTGCTCCAAAAAAAAGATACGATCGCCATGCTTCCGACCGGCGGGGGAAAATCATTATGCTATCAGCTCCCGGGTTACATGATGGACGGGCTGGTGCTGATTATTTCACCGCTTCTTTCATTAATGGAAGATCAGGTGCAGCAGCTGAAAGCGAAAGGAGAAAAGCGGGTTGTGGCATTAAACAGCATGCTGAATTCCGCAGAGCGGCATTTTATCCTCAGCAACATCAGCCGGTATAAATTTCTCTATATGTCTCCCGAAGCCCTTTCTTCACCTTATGTGCTGAACCGTTTGAAAAATGTCCCGGTCAGTTTATTTGTTATTGATGAGGCTCATTGCATATCAGAATGGGGACATGATTTCAGGCCTGATTATTCGAAGCTCGGGCCTTTCAGGCAGGCACTCGGAAAGCCGCCTGTATTGGCGCTGACCGCAACAGCGACAAAAGAAACGCTCAGAGACGTGACGGATGTACTCGGACTTGAGCATGCGGTGCGTCATCTTTATTCAGTCAACCGGCCGAATATTCTCCTGGCGGCAGAACATTTGGCGGATAATGCCGAGAAAATAAGCAGGCTCACGGAGCTTGCCGAAAAGCTTGAAGGCCCGGGTATCATATATTGTCCGACCAGAAAATGGGCGGAAGAGCTTGCGGCTGAGCTGAATGAAAAAACGGGAAAGCGGACGGATTATTATCACGGCGGAATGGATACAGGGGACAGAATCTTGATCCAGCAGCAATTTATCCATAACCAGCTTGATTGCATCTGCTGTACCAATGCGTTCGGCATGGGTGTGGATAAGTCAGACATCCGCTTTGTCATTCACTTTTATCCTCCCCAAACGGCCGAGGCCTTTATGCAGGAAATCGGCAGAGCGGGACGCGACGGCAGCCCGAGTGTCAGTATTTTGCTGAGGGCGCCCGGCGATACCGAGCTTCAGCAGCAGATTATTCAGACGGAAAGCCTGTCTGATTATGACCTGGGAGCCATTCTGGCCGTCATACGGGATGCCGGTACGGGTGATGAGCGAAAGCTTCGGGACGTTCTGATCAATAAGGGCGTCCAGGAAACACAGGCGCGAACGGCCGTCCATCTGTATCTGCAAGGAAAAACCACAAAAGAGCAGCTGCAGGAAGAACTGACATACCGCGTGGAAAAGAAGCTGCGTAAAATGAATCGTTTTTCGGCGTTATTAGAGCGGAAAGAATGTATAAGAGAAGCGCTACTGTCTTATTTTGATGAACCGTATGAGCCTGAAGGTCAAACCGGACAATGCTGCAGCAGCTGCGGACTTGATCTGGCTCCGTACGAGCAAAAAGGAGAACGTAAAAACATGGAACGGTTTGAAGATTGGAAGCTGGAATTAGGCCGGATTTTCGGTTCAGAGTCTGCGGGTGAGTTCAGCTGA	MTSVLQKKDTIAMLPTGGGKSLCYQLPGYMMDGLVLIISPLLSLMEDQVQQLKAKGEKRVVALNSMLNSAERHFILSNISRYKFLYMSPEALSSPYVLNRLKNVPVSLFVIDEAHCISEWGHDFRPDYSKLGPFRQALGKPPVLALTATATKETLRDVTDVLGLEHAVRHLYSVNRPNILLAAEHLADNAEKISRLTELAEKLEGPGIIYCPTRKWAEELAAELNEKTGKRTDYYHGGMDTGDRILIQQQFIHNQLDCICCTNAFGMGVDKSDIRFVIHFYPPQTAEAFMQEIGRAGRDGSPSVSILLRAPGDTELQQQIIQTESLSDYDLGAILAVIRDAGTGDERKLRDVLINKGVQETQARTAVHLYLQGKTTKEQLQEELTYRVEKKLRKMNRFSALLERKECIREALLSYFDEPYEPEGQTGQCCSSCGLDLAPYEQKGERKNMERFEDWKLELGRIFGSESAGEFS				NA	NA	NA	NA	NA
D1-12_01356	1059			hypothetical protein	TTGGCGATAAACTACTTTGATACCGTGGTTCTCGACTGTCTGGACAAAATAGACGGCGAACGGACTCCGAGTGCTGTGTTTCATTTATTAAAAGGAAAAAAGTCGTCTCAAACCATTCAGGATGCCGGCTTATTTCAGATCGCTAAATATTTCGGCATGGCTTCACAGTGTGAACGCGGCGATATTACGGCTTCTTTGCATAAACTCACCGAGAACTCATACATTACAGCCGGAAAAGAAGAGGGAACGTGGAAAGTGACTGCGCGCGGCGTTCAAAGGCTTGAACGGGCGTTTGCCGAGCGGCCTTGGCCGAAGGACTGCCACGGCGCGAATTATCAAACGCCTGCTGGCACCCTGTGGAGGCGGCTTTCCCTGCTCATTCAAGTCCTGTCAAACAAAGAGCATCAATGCAGTCAATATATCCCGGTTACCAACGATGTGCAGACGCTGAGATGGATCAAACGGTTCATGCGGAAAAACAGAGATGCTAAAGAGCTTTCCGTCCAAATGCATGACGCGCTGTTTCAGCTTCTGCAAGGCGTAAGTGAACGGCAGGCGCTTATTTTTGTCTATTCTTTAACTTCATTCAACAGAATCGGCAAAACGAATAAGCAGCTCGCTCTCCAGCTGAACGAAGATGAATGGTATGTGTCCGTCCAGTTTTGGGGAGCGGTACATTATGTTATTCAATCGCTTCCGCAATGTGCATATCCCGCTCTGCGCGAGCTGCTGTCCGATCTGCAGGCGGAAAGCGCGCTGACACAGTCTGCCAGAAAAACCTTTGAGCTGTTGGAAAAAGGGTTTCCGATTGAACGGATCGCCGCGGTCAGAAATTTAAAAACCGCCACAATCGAAGATCATATCGTAGAAATATCATTGCACCAACCTGCATTTTTTATAGAACAGTATCTTTCTGAAGAGGAACAGCGTATGATAACGGCATTTGCAAAACAGCATCAAACGAATAAAATTAAACGGATTCGCGAAGGAATGCAGATGCGCTTCAGCTATTTTCAGATCAGGCTGGCGCTGGCAAAGACGGTGAATCAGCATGACTGA	MAINYFDTVVLDCLDKIDGERTPSAVFHLLKGKKSSQTIQDAGLFQIAKYFGMASQCERGDITASLHKLTENSYITAGKEEGTWKVTARGVQRLERAFAERPWPKDCHGANYQTPAGTLWRRLSLLIQVLSNKEHQCSQYIPVTNDVQTLRWIKRFMRKNRDAKELSVQMHDALFQLLQGVSERQALIFVYSLTSFNRIGKTNKQLALQLNEDEWYVSVQFWGAVHYVIQSLPQCAYPALRELLSDLQAESALTQSARKTFELLEKGFPIERIAAVRNLKTATIEDHIVEISLHQPAFFIEQYLSEEEQRMITAFAKQHQTNKIKRIREGMQMRFSYFQIRLALAKTVNQHD				NA	NA	NA	NA	NA
D1-12_01357	249	fer	COG1141	Ferredoxin	ATGGCAAAGTACACAATTGTAGATAAAGATACGTGTATTGCATGCGGCGCCTGCGGAGCTGCGGCACCAGACATTTATGATTATGATGATGAAGGCATTGCGTTCGTTACGCTTGACGAAAATAAAGGCGTCGTCGAAGTTCCGGAAGTTCTGGAAGAAGATATGATTGACGCATTTGAAGGATGCCCTACTGATTCAATCAAAGTTGCGGATGAACCGTTCGAAGGCGACCCGCTGAAATACGAATAA	MAKYTIVDKDTCIACGACGAAAPDIYDYDDEGIAFVTLDENKGVVEVPEVLEEDMIDAFEGCPTDSIKVADEPFEGDPLKYE	PGPT0007360_493	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_METABOLISM	PHYTOHORMONE-GIBBERELLINS_BIOSYNTHESIS,PGPT0007360-Uncharacterized_P450_system_3Fe_4S_ferredoxin-K05337	NA	NA
D1-12_01358	573	fmnP	COG3601	Riboflavin transporter FmnP	GTGAAAGTAAAAAAATTAGTTGTCATCAGTATGCTTAGCAGTATTGCTTTTGTGCTTATGCTGTTAAATTTCCCGTTTCCGGGTCTGCCGGATTACTTGAAAATTGATTTCAGTGACGTTCCTGCAATTATCGCCATTTTGGTTTACGGGCCTGCGGCGGGGATTGCGGTTGAAGCGATTAAAAATATTCTGCAGTATATCATTCAAGGAAGCATGGCCGGCGTGCCTGTCGGGCAGGCAGCCAATTTTATCGCGGGAACGCTGTTTATTCTGCCGACAGCGTTTATGTTTAAAAAGCTCAATTCTGCAAAAGGTCTTGCGGTGAGCCTTCTGGCCGGAACCGCGGCGATGACCGTGCTGATGAGTATTTTGAACTATATTCTTATCCTGCCCGCGTATACTTGGTTTTTACATTCACCGGCACTGTCAAACAGCCAGTTAAAAACGGCGGTTGTCGCAGGAATTCTGCCGTTTAACATTGTAAAAGGCATTATCATCACCATCGTCTTTACGTTCATCTTTACGAAGCTGAAACCTTGGATTGAACAAAAACGCAGCATCCAAACACAATAA	MKVKKLVVISMLSSIAFVLMLLNFPFPGLPDYLKIDFSDVPAIIAILVYGPAAGIAVEAIKNILQYIIQGSMAGVPVGQAANFIAGTLFILPTAFMFKKLNSAKGLAVSLLAGTAAMTVLMSILNYILILPAYTWFLHSPALSNSQLKTAVVAGILPFNIVKGIIITIVFTFIFTKLKPWIEQKRSIQTQ				NA	NA	NA	NA	NA
D1-12_01360	1578	serA	COG0111	D-3-phosphoglycerate dehydrogenase	ATGTTTCGAGTTTTGGTCTCAGATAAGATGAGCAATGACGGCTTAAAGCCGCTGATGGAATCAGACTTTATAGAAATTGTTCAAAAAAACGTCGCGGATGCAGAAGATGAATTACATACCTTTGATGCCCTGTTAGTCCGCAGTGCCACGAAAGTAACCGAAGATTTGTTTAAAAAAATGACTTCTTTAAAAATCGTCGGCAGAGCCGGTGTCGGCGTAGACAACATCGACATCGATGAGGCCACAAAACATGGAGTTATCGTGATAAACGCGCCGAATGGAAACACCATTTCAACGGCAGAGCATACATTCGCGATGATTTCTTCATTAATGAGACACATTCCGCAAGCCAATATCTCAGTAAAATCAAGAGAATGGAACCGGACGGCTTTTGTCGGGGCGGAGCTCTACGGAAAGACTTTAGGCATTGTCGGTCTGGGCCGGATCGGAAGCGAGATTGCCCAGCGCGCCAGAGCGTTCGGTATGACGGTTCATGTATTCGATCCTTTCTTAACCGAAGAGAGAGCCGGCAAAATCGGCGTAAACAGCCGGACATTCGAAGAAGTGCTTGAAAGCGCGGATATCATTACCGTCCACACGCCTTTAACAAAGGAAACAAAAGGACTGCTTAACAGAGAAACCATTGCCAAAACGAAAAAAGGCGTCCGCCTTATCAACTGCGCAAGAGGCGGAATTATTGATGAAGCTGCGCTTTTGGAAGCGCTGGAAAGCGGCCATGTCGCAGGCGCTGCCCTTGACGTGTTTGAAGTGGAACCGCCAGTTGAATCAAAGCTTCCCGACCATCCGCTGGTGATCGCCACACCTCACTTAGGCGCTTCAACGAAAGAAGCACAGCTGAATGTCGCGGCACAGGTTTCTGAAGAAGTGCTGCAGTTTGCAAAAGGTCTGCCTGTCATGTCAGCGATCAATCTGCCTGCGATGACGAAAGATGAATTCAAAAAAATCCAGCCTTATCACCAAATTGCCGATAAAATCGGAAGTCTCGTGTCACAATGTATGAAGGAACCCGTCAAAGATGTTGCGATTCAATATGAAGGCACCATCGCCAAACTTGAAACATCATTTATTACAAAAAGCCTGCTGTCCGGTTTCTTAAAACCGCGTGTAGACTCAACGGTCAATGAAGTGAACGCCGGCGGTGTAGCAAAAGAACGCGGAATCAGCTTCAGCGAGAAGATTTCCTCCAATGAATCAGGATATGATAACTGCATCAGCGTAAAAGTAACCGGAGACCGGAGCACATTTACGTTAACGGCTACGTATATCCCTCACTTCGGTGAACGAATCGTTGAACTGAACGGCTTTAATATTGACTTAAATCCTGCCGGCCACCTCGTTTATATCCAGCACCAGGATACGACTGGTGTAATCGGACGCGTCGGACGCATCCTCGGCGATAACGATATCAATATCGCTACCATGCAGGTAGGCCGTAAAGAAAAAGGCGGAGAAGCCATTATGATGCTTTCTTTTGATAAACATTTAGATGATAAAGTCGTCAATGAGCTGACTTCAGTTCAGGATATTGTTTCCGTTAAACTGATTGACCTTCCGTAA	MFRVLVSDKMSNDGLKPLMESDFIEIVQKNVADAEDELHTFDALLVRSATKVTEDLFKKMTSLKIVGRAGVGVDNIDIDEATKHGVIVINAPNGNTISTAEHTFAMISSLMRHIPQANISVKSREWNRTAFVGAELYGKTLGIVGLGRIGSEIAQRARAFGMTVHVFDPFLTEERAGKIGVNSRTFEEVLESADIITVHTPLTKETKGLLNRETIAKTKKGVRLINCARGGIIDEAALLEALESGHVAGAALDVFEVEPPVESKLPDHPLVIATPHLGASTKEAQLNVAAQVSEEVLQFAKGLPVMSAINLPAMTKDEFKKIQPYHQIADKIGSLVSQCMKEPVKDVAIQYEGTIAKLETSFITKSLLSGFLKPRVDSTVNEVNAGGVAKERGISFSEKISSNESGYDNCISVKVTGDRSTFTLTATYIPHFGERIVELNGFNIDLNPAGHLVYIQHQDTTGVIGRVGRILGDNDINIATMQVGRKEKGGEAIMMLSFDKHLDDKVVNELTSVQDIVSVKLIDLP	PGPT0009155_2419	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-12_01361	1101	rsiX		Anti-sigma-X factor RsiX	ATGAAGTCATATTGGAACGAAGAAAGAGTAGAGGAGTTGTTAAGACAACTTCCGGCGGTTAGAGATCATCGTTCACCCGAGGCCATTTACCGGAATATTGAAACGGGTAAACCGTACAGGAAAAAGCCGGCCCGAAGCTGGATCGGCCCCGCCGCAGCCGGCGTCTGCGCATTGTGCATCGCTCTGATTATATCTCCTCACCTGATGACAAACAAATCTTCCGGTGATCTGACCGCTGACAGCCGCCAGACTGAAAAAGCCAGTCAGTCAGCTTCTGTCAAGCCGCCGGATCAGAAGACGTTCGTCGTCTCAAACCAAAACAAAAACAATTACATTACTTTGGCATTTGCCGATTCAGAAACATCCGCCGTCATTCCGGTCAGTTTTGAAAAAAAGAAGCCGGATGAATCGGTATCAGAGGCTTTATCCGAAGCGGAAAACCTAGAAGTGCCCGAATCCTTCCTTTCTGTGCCGAACCTTTTGGACGGTGTGCAGGTAACGGCGGATAAGAAGGATTTGCTTGTGCAGGTAAACGGACGGCTTTCTATCGAATCAGTTGCCGATGCTGACTTATTGAAAAAGATGCTGAAAGAGACTTTGACATGGAGTCCTTACGAGCGGATTAAATTGAAAAAGGTTCAAAACGGAGCCGGACAGGATTTTTATAAATCTTACGGCATTTCCGCTGAGATGTCCGTACATAAACAGACAAACCGGGCGTATTTTTCTTACAGCGACAGTCTGGGACAAGAGTATCTCATCCCGTCTGAACAAACCTATTATTCAGTATATCAGGCTATTGACGGGATGAAGACAACAGACGGAGGCTCACAGACCGCGAGCATTATAGAAGCAGGTGCGATTGCATCGGTATCGGAAAGGGAAGACGGCGAGCAGCTGCGGATTCAATTGTCCGAAAAACATAAGGTTGATGATTCGCTGGAAGGGATTTTAATGATCGAAGGGCTTCTGTTAACCGCGAAGGAATTCGGTTATTCTGAGGTGCTGTTCACACATGCGCATACAAAGAAAATCGGTAATTATGATGTGACAAAACCTATCGCTGTGCCTGCCGCGCCTAATCCGCTTCCAAGCCATTAA	MKSYWNEERVEELLRQLPAVRDHRSPEAIYRNIETGKPYRKKPARSWIGPAAAGVCALCIALIISPHLMTNKSSGDLTADSRQTEKASQSASVKPPDQKTFVVSNQNKNNYITLAFADSETSAVIPVSFEKKKPDESVSEALSEAENLEVPESFLSVPNLLDGVQVTADKKDLLVQVNGRLSIESVADADLLKKMLKETLTWSPYERIKLKKVQNGAGQDFYKSYGISAEMSVHKQTNRAYFSYSDSLGQEYLIPSEQTYYSVYQAIDGMKTTDGGSQTASIIEAGAIASVSEREDGEQLRIQLSEKHKVDDSLEGILMIEGLLLTAKEFGYSEVLFTHAHTKKIGNYDVTKPIAVPAAPNPLPSH				NA	NA	NA	NA	NA
D1-12_01362	585	sigX	COG1595	ECF RNA polymerase sigma factor SigX	ATGGAAGAAACCTTTCAGATATTATATGATGCATACCATCAAGATTTATATCAATTTTTATTTTATATGGTAAAAGATAAGTCGCAGGCTGAAGATTTGGCGCAGGAAGTGTATATCCGCGTCTTGAATTCCTATCATACATTTGAAGGAAGAAGCAGTGAAAAAACATGGCTGTTGTCCATCGCACGCCATGTGGCGATTGACTGGTTCCGCAAGCAGCAGACGATCAGACAGCGTATTATGGGTACGTTTGATTGGGATACACAAGATGTCAGAGATCAGCATTTGCTTCCGGACGAACTCGCCGTACAGCATGAAAACGTCCGGGAAATTTATACCGCGCTTGATCATTGCACCATTGATCAAAGAGCTGTTATTATCTTGAGATTTATTCAGGGATATTCCATTCAGGAAACAGCCGCCGCTCTCCGCTTCTCGGAAAGCAAAGTCAAAACGACCCAACACAGAGGGCTCAAAATACTTCGGAAACAGATGGAGCTTTTGAGGGAGGAGCTAATGGATGATGAAGTCATATTGGAACGAAGAAAGAGTAGAGGAGTTGTTAAGACAACTTCCGGCGGTTAG	MEETFQILYDAYHQDLYQFLFYMVKDKSQAEDLAQEVYIRVLNSYHTFEGRSSEKTWLLSIARHVAIDWFRKQQTIRQRIMGTFDWDTQDVRDQHLLPDELAVQHENVREIYTALDHCTIDQRAVIILRFIQGYSIQETAAALRFSESKVKTTQHRGLKILRKQMELLREELMDDEVILERRKSRGVVKTTSGG	PGPT0014960_6267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-12_01363	1788	resE		Sensor histidine kinase ResE	ATGAAGTTTTGGAAAAGCGTAGTAGGTAAGCTTTGGTTTACCATTCTTTCACTCGTGTTAATTGTTTTATTTATTTTAACGGTGCTGCTTCTGGAATTTATAGAAAATTACCACGTTGAAGAAGCGGAAAAAGATTTAACGCAGCTTGCCGATAAAATTGCGGTCATAATAGAAAATCATGAAGACCAGCCGCTTGCCAGATCCATCACGTGGGAACTGGCGGACAATTTAACGAGCATCGCGATCATTCAGGATGATAAGCATGTCTGGTATTCGCCCAATGACGATAATCATTTATCCTCTATTACATTAGAGCAGATCAAACATGACCGGGATCTGCACAAGGCGCTGACAGACCGCAAAAAAGTAAGCAAACGTGCGGTGCCCAACAATGCCGGTTCGGATAACGAACGGCTGATCGTCGGAGTGCCGTATGAAAAAGACGGCAAAAAAGGCATGGTCTTTTTATCCCAATCGCTGCTTGCCGTCAAAGATACGACGAAACATACAACCCGCTATATTTTTCTTGCGGCGGGCATTGCCATCGTCCTGACAACGTTTTTCGCGTTCTTTTTATCCAGCAGGGTGACATATCCCCTTCGGAAAATGCGGGAAGGCGCCCAAGACTTGGCGAAAGGAAAGTTTGATACAAAAATTCCGATTCTGACCCAAGATGAAATCGGGGAACTGGCTATTGCCTTTAATCAGATGGGACGGCAGCTCAATTTCCATATTAACGCGCTGAATCAGGAAAAAGAACAGCTGTCCAATATTTTAAGCAGTATGGCAGACGGTGTCATTACCATTAATATCGACGGCACCATTTTGGTGACCAACCCGCCGGCCGAACGTTTTCTGCAGGCATGGTATTATGAGCAGAACATGAACATTAAAGAAGGAGACAACCTTCCCCCTGAAGCAAAAGAGCTATTTCAAAATGCAGTGAACACGGAAAAAGAGCAAATGATTGAAATGACGCTTCAAGGAAGGTCATGGGTTTTATTGATGTCGCCTCTTTATGCGGAATCACACGTCCGCGGCGCCGTGGCCGTGCTCCGTGATATGACCGAAGAGCGCAGGCTCGATAAATTGCGTGAAGACTTCATTGCCAATGTCAGTCATGAGCTCAGAACCCCGATTTCTATGCTGCAGGGATACAGCGAAGCAATAGTGGACGACATTGCAAGCACCGAAGAGGAGAAAAAAGAAATCGCGCAGATCATTTATGATGAATCTCTTCGCATGGGCCGGCTCGTCAATGATTTGCTGGATTTGGCCAGAATGGAATCCGGACATACGGGCCTGCACTATGAAACGGTAAACCTGCATGAATTTCTGGAGAAGATCTCCCGCAAATTTTCCGGGGTAGCGAAGGAAAAAGGCGTTTCGCTCACAGAAGACATCTCGGTGTCTCAGCCGGAGTGTGTCTTTGACGAAGATAAAATGGAACAGGTGTTTACCAACCTTATAGATAATGCGCTGCGCCACACGGAGTCAGGCGGAAGCGTTCATATCGCGGCTCAGACCGTAAAAGACGGACTGAAAATCGATATCAAAGATTCCGGCTCGGGAATACCGGAAGAGGACCTGCCTTTTATTTTTGAACGTTTTTATAAAGCGGACAAAGCAAGAACAAGAGGCAGGGCGGGAACCGGACTCGGACTCGCCATCGTAAAAAATATCGTGGAAGCCCACGGCGGTTCAATTGCGGTTCACAGCAGCATCGATAAAGGGACGACGTTTACATTTTATATTCCGACAAAAGTGCAGGATGACGTCGGAAATTGA	MKFWKSVVGKLWFTILSLVLIVLFILTVLLLEFIENYHVEEAEKDLTQLADKIAVIIENHEDQPLARSITWELADNLTSIAIIQDDKHVWYSPNDDNHLSSITLEQIKHDRDLHKALTDRKKVSKRAVPNNAGSDNERLIVGVPYEKDGKKGMVFLSQSLLAVKDTTKHTTRYIFLAAGIAIVLTTFFAFFLSSRVTYPLRKMREGAQDLAKGKFDTKIPILTQDEIGELAIAFNQMGRQLNFHINALNQEKEQLSNILSSMADGVITINIDGTILVTNPPAERFLQAWYYEQNMNIKEGDNLPPEAKELFQNAVNTEKEQMIEMTLQGRSWVLLMSPLYAESHVRGAVAVLRDMTEERRLDKLREDFIANVSHELRTPISMLQGYSEAIVDDIASTEEEKKEIAQIIYDESLRMGRLVNDLLDLARMESGHTGLHYETVNLHEFLEKISRKFSGVAKEKGVSLTEDISVSQPECVFDEDKMEQVFTNLIDNALRHTESGGSVHIAAQTVKDGLKIDIKDSGSGIPEEDLPFIFERFYKADKARTRGRAGTGLGLAIVKNIVEAHGGSIAVHSSIDKGTTFTFYIPTKVQDDVGN	PGPT0026265_114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026265-resE-K07651	NA	NA
D1-12_01364	723	srrA_1	COG0745	Transcriptional regulatory protein SrrA	ATGGATCAAACAAATGAAACTAAAATATTAGTAGTAGATGATGAAGCCAGAATTCGACGCCTTTTAAGAATGTACCTTGAACGGGAAAACTATGTGATTGAAGAAGCGGAAAACGGCGACGAGGCCATTAAAATGGGGCTGGCATCAGATTATGATCTGGTGCTCTTGGATTTAATGATGCCGGGAACGGACGGAATCGAAGTATGCCGGCAGCTCAGAGAAAAAAAAGCGACGCCGATTATCATGCTGACGGCAAAAGGGGAAGAAGCCAACCGCGTCCAGGGGTTTGAAGCGGGTACGGACGATTATATCGTCAAGCCTTTCAGCCCGAGAGAAGTGGTGCTTCGGGTAAAGGCGCTTTTAAGAAGGGCTTCCCAAACATCTTATCTGACAGCCAATACCCCGACAAAAAATGTGCTCGTCTTTTCGCATCTATCTATTGATCACGATGCTCACAGGGTGACTGCCGACGGCACAGAGGTGAGCCTGACGCCGAAGGAATATGAACTGCTGTACTTCCTGGCGAAAACACCGGACAAAGTGTACGACAGGGAAAAGCTTTTAAAAGAAGTGTGGCAGTATGAATTTTTCGGAGACCTCAGAACGGTGGACACCCATGTCAAACGGCTCCGTGAAAAATTAAATAAAGTATCCCCGGGAGCGGCGAAAAAAATCGTCACCGTATGGGGAGTCGGATACAAATTTGAGGTAGGCGCTGAATGA	MDQTNETKILVVDDEARIRRLLRMYLERENYVIEEAENGDEAIKMGLASDYDLVLLDLMMPGTDGIEVCRQLREKKATPIIMLTAKGEEANRVQGFEAGTDDYIVKPFSPREVVLRVKALLRRASQTSYLTANTPTKNVLVFSHLSIDHDAHRVTADGTEVSLTPKEYELLYFLAKTPDKVYDREKLLKEVWQYEFFGDLRTVDTHVKRLREKLNKVSPGAAKKIVTVWGVGYKFEVGAE	PGPT0013765_748	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
D1-12_01365	1176	ccsA_1		Cytochrome c biogenesis protein CcsA	ATGGCGGAGCTGAGCGCAAATTTTCTTTATGCTGCCTTTTTGATTTATTTAATTGCCGTCCCGGTTTTCGGCGGCGCCATCCGGGGAACAAAAGGTGCTAAGGACGGTAAGGGCCGCTGGTCGGCTATCGGAATCACGTTAACCATTTTCGGATTTCTTTGTCATCTAGGCTACTTCATTGCGAGATGGTCAGCAAGCGGACATGCGCCTGTCAGCAATATGTTTGAATTTACGACGTCATTCGGCATGATGCTTGTTCTCGCTTTTATTATTATTTACTTTATTTACAGACTGCCTTCATTAGGCATGTTCACATTGTCTATCGCGCTTTTGCTTATCGCATATGCAAGCATGTTTCCGACAGACATCACGCCGCTTATTCCGTCACTGCAGAGCAATTGGCTGTACATTCACGTCACAACGGCGGCGCTCGGGCAGGCGATTCTTGCGATCAGTTTTGTAGCCGGCGTCATATTCCTGTTAAAGCATGTCGACCAATCCAGACCGGGCAAAAAAACGTTCTGGCTTGAAGTCATCATGTTTATACTCGTGACGACCGTGGCATTTATCGCCGTCACGTCGGCATTCCGGCTGGCTGACTACAAAGCTGAATTTAATTGGGTGGATAAAAAAGAGGCCAAAAGCGTCATGATATATGATATGCCTGCGCTTGTCGGCCCGCATGACGGAGAACTGCTTACGGAAGGCGCAATGAAGCCGCTTATTGAGCTTCCGGCCATTTTTTCAGGCAGAAAGGTCAATACGGTGATCTGGTCGTTTGGCGCAGGTCTCGTTTTATACGGTGCGCTCAGGCTGATATTCAGAAAGAGAATCAGCGCTCTTATCAGCCCGCTCGTCAAAAATGTGAATCTGGACTTGGTCGATGAAGTCGGCTACCGCGCTGTTTCTATCGGTTTTCCGGTATTCACACTCGGCGCGCTTGTGTTTGCGATGATTTGGGCGCAGCTTGCATGGACGCGTTTTTGGGGCTGGGACCCGAAAGAAGTATGGGCGCTGATCACCTTTTTATTTTACGCAGCGTATTTGCACTTGCGGCTGTCAAGAGGCTGGCATGGCGAAAAGTCCGCGTGGCTTGCCGTCATCGGCTTCGCCATTATTATGTTTAACTTGATTTTTGTGAATCTCGTGCTTGCCGGACTTCATTCGTACGCATAG	MAELSANFLYAAFLIYLIAVPVFGGAIRGTKGAKDGKGRWSAIGITLTIFGFLCHLGYFIARWSASGHAPVSNMFEFTTSFGMMLVLAFIIIYFIYRLPSLGMFTLSIALLLIAYASMFPTDITPLIPSLQSNWLYIHVTTAALGQAILAISFVAGVIFLLKHVDQSRPGKKTFWLEVIMFILVTTVAFIAVTSAFRLADYKAEFNWVDKKEAKSVMIYDMPALVGPHDGELLTEGAMKPLIELPAIFSGRKVNTVIWSFGAGLVLYGALRLIFRKRISALISPLVKNVNLDLVDEVGYRAVSIGFPVFTLGALVFAMIWAQLAWTRFWGWDPKEVWALITFLFYAAYLHLRLSRGWHGEKSAWLAVIGFAIIMFNLIFVNLVLAGLHSYA				NA	NA	NA	NA	NA
D1-12_01366	1629	ccsB		Cytochrome c biogenesis protein CcsB	ATGAAAAAGGTCAAATGTGAATGCGGGCACGTGAATCCAGCAGGGACGGTTTTGTGCGAGTCGTGCGGGAAGCCGCTTGATGATCAAAAATCGCCGCTTGCGGATATGCGGTACGACGGCAGCGCAAGGCGTTCGCAAACATATAACAAAACAATCGTAGATAAGGTATGGAACTTCTTTTCTTCCGTAAAAGTCGGAATATGGCTGATCGTCATTACTCTGGCGGCGTCTGCTTTCGGCACGGTTTTTCCGCAGGAAGCTTATCTGCCGCCGGGCGCCCAGCCGGATACATATTATGAACAGCAGTACGGCATAATCGGTCAACTGTATTATCTGCTGGGATTTCATCAGCTGTACGGCTCATGGTGGTATATGCTCCTGATCGCATCCATTGGCATATCACTGGTCATCTGCAGCCTGGATCGGGTGATTCCTTTGTACAGGGCACTGAAAAATCAAGGAGTTCGGCGGAATCCGGTCTTTTTGAAGAGGCAGCGTCTATACAGCCGGACAGAAACCGAGCTGAGCGGGGATGCGGCTGATAGCCTCAGAACACGATTGAAAAAAAAGCATTATAGAGTGCGAGAACAAGAGGGAAGCATTCTGGCGGAAAAAGGCCGTTTTTCAAGGTGGGGGCCCTACGTCAATCATATCGGCCTGATCATTTTTCTGATCGGAGCCATGCTGAGATTTGTACCCGGTATGTATGTCGATGAAACGCTCTGGGTCCGTGAAGGCGAAACCGCCCAGATCCCCGGCACTGACGGCAAGTATTACTTAAAAAACAATCGGTTCACGATGCAGACATATAACAAAGACACTGAGAAAAAAGTATTCGCCGACGCCATTGACAGAGCCGGAAACGGCAAAGTCGCCAAATCCTTCACAACGGACGCGGTTTTGTACAAGAGGGAAGGCGACATTGTATTCGGTGAAAAGCCGAAGCTTAAAAGAGTCAAAGAAAACAATATCCGCGTCAATGAACCGCTGCGCTTTGACTCCTATTCTGTGTATCAGGTGGACTATAAAGAAAACCAGCTCGATCAGATGGTATTTCAGCTGATCGACCAAAAAACAAAACAGTCATTCGGCAAACTGAAGATCAATCTTCTTGATCCCGACACGGACTATGATCTTGGTAACGGTTACAAAGTGCAGATCGCCAGTTATCTTCCTGATTTTTATTTTAACAAGGACGGAGAACCGAGCACGAAAACGAAGGTTCCTAACAATCCGGCTTTTGTCTTTAAAATCACGGCTCCTGACAAGCCGAAAGGGGAGAAAAGTTTTGTTGCGATTCAGCAGACTGTTGAAGGTTCCGAAAGTAACAAGTACAAATTAAAATTCGACCATGTGGAAACGAAAAACATTACAGGACTCACCGTCAGAAAAGACTTAACCTTATGGGTGCTTGCCGTCGGCGGCGCGATCTTTATGATCGGCGTCATTCAAGGAATGTACTGGCAGCACAGAAGGATCTGGATCAAAACAGGTGATCATGAAGTGCTTGTGGCGGGACATACGAACAAAAACTGGTTCGGTCTGAAAAAAGATATCGAATTTGTTCTTAGCGGGACCGGGATTCAAGAGCCGGCCGATCAAAAAGAATTGGCCAAAAATCAGGCCTAG	MKKVKCECGHVNPAGTVLCESCGKPLDDQKSPLADMRYDGSARRSQTYNKTIVDKVWNFFSSVKVGIWLIVITLAASAFGTVFPQEAYLPPGAQPDTYYEQQYGIIGQLYYLLGFHQLYGSWWYMLLIASIGISLVICSLDRVIPLYRALKNQGVRRNPVFLKRQRLYSRTETELSGDAADSLRTRLKKKHYRVREQEGSILAEKGRFSRWGPYVNHIGLIIFLIGAMLRFVPGMYVDETLWVREGETAQIPGTDGKYYLKNNRFTMQTYNKDTEKKVFADAIDRAGNGKVAKSFTTDAVLYKREGDIVFGEKPKLKRVKENNIRVNEPLRFDSYSVYQVDYKENQLDQMVFQLIDQKTKQSFGKLKINLLDPDTDYDLGNGYKVQIASYLPDFYFNKDGEPSTKTKVPNNPAFVFKITAPDKPKGEKSFVAIQQTVEGSESNKYKLKFDHVETKNITGLTVRKDLTLWVLAVGGAIFMIGVIQGMYWQHRRIWIKTGDHEVLVAGHTNKNWFGLKKDIEFVLSGTGIQEPADQKELAKNQA				NA	NA	NA	NA	NA
D1-12_01367	540	resA_2		Thiol-disulfide oxidoreductase ResA	ATGAACAAAAAACGGCGGCGTTTATTCATTCGGACCGGCATCCTTCTCATCTTACTCTGCGCGCTCGGATATACCATCTATAATGCCGTATACACAAACGGTGAGCGTATATCTGAGGGGTCCAAAGCCCCGAATTTCGCGCTGAAAGATACAGAGGGCAGACTCATAGAACTGAGTCAGTTAAAAGGAAAAGGTGTTTTTCTGAATTTCTGGGGAACGTGGTGCGAGCCGTGCAAGAAGGAATTTCCCTACATGGAGAATCAATACAAGCATTTTAAAGACCTCGGTGTCGAGGTGGTTGCGGTAAATGTCGGCGAATCAAAAATTGCAGTACATAATTTTATGAAAACATACGGCGTCAATTTCCCGGTTGCGCTCGATACTGACCGGCAAGTGCTGGACGCGTACGGCGTATCACCTATTCCGACGACATTTTTGATCAATCCCGACGGAAACGTTGTGAAAGTGGTGACCGGCACGATGACAGAACGCATGGTTCATGACTATATGAATTTAATTAAGCCGGAGGCGTCTTCATGA	MNKKRRRLFIRTGILLILLCALGYTIYNAVYTNGERISEGSKAPNFALKDTEGRLIELSQLKGKGVFLNFWGTWCEPCKKEFPYMENQYKHFKDLGVEVVAVNVGESKIAVHNFMKTYGVNFPVALDTDRQVLDAYGVSPIPTTFLINPDGNVVKVVTGTMTERMVHDYMNLIKPEASS				NA	NA	NA	NA	NA
D1-12_01368	735	rluB	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGGAAAGACTGCAAAAAGTTATTGCTCATGCCGGCGTGGCATCACGCAGAAAGGCGGAAGAGCTGATAAAAGAAGGAAAAGTAAAGGTGAATGGAAAAGTAATAACAGAGCTCGGCGTAAAAGTGACCGGTTCTGATCAGATTGAAGTAAACGGATTAAAGGTGGAGCGGGAAGAACCCGTGTACTTTCTGCTTTATAAACCGAGAGGAGTGATCTCAGCAGCTGATGACGACAAAGGGCGGAAAGTGGTGACCGACTTTTTCAAAGAAGTGCCGCAGCGCATTTATCCGATCGGCAGGCTTGATTATGATACGAGCGGACTTTTATTGCTGACAAATGACGGCGAGTTTGCCAACAAACTCATGCATCCGAAATACGAAATTGATAAGACATACGTCGCCAAAGTGAAGGGGATTCCTTCCAAGGAACTTCTGAGAAAGCTTGAGCGCGGCATTCAGCTTGAAGAAGGCAAGACGGCGCCGGCCAGAGCGAAAATGCTTTCCCTGGACAAAAGAAAGCAGACGAGCATCATTCAGCTGACGATTCATGAAGGCCGGAACAGACAGGTCCGCCGCATGTTCGAGGCGATCGGTCATGACGTGCTGAAACTAAAACGTGAAGAATACGCATTTTTAGATTTAAGAGGCCTGCGCACAGGAGACGCAAGAGAATTGTCGCCGCATGAGGTGAAAAGGCTGCGGGCTTTAGCTGAACACGGTAAAAACGCTTTCTAA	MERLQKVIAHAGVASRRKAEELIKEGKVKVNGKVITELGVKVTGSDQIEVNGLKVEREEPVYFLLYKPRGVISAADDDKGRKVVTDFFKEVPQRIYPIGRLDYDTSGLLLLTNDGEFANKLMHPKYEIDKTYVAKVKGIPSKELLRKLERGIQLEEGKTAPARAKMLSLDKRKQTSIIQLTIHEGRNRQVRRMFEAIGHDVLKLKREEYAFLDLRGLRTGDARELSPHEVKRLRALAEHGKNAF	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
D1-12_01369	537	spmB		Spore maturation protein B	ATGGAAATGGTGAATTGGCTGTCTTTAGCCATGATTCCGATTATTATCGCCGGTATATTGATATACGGCACGGTCAAAAAAGTGCCGACGTATGAATCATTCGTTGAAGGCGGAAAAGAAGGAATTGAGATTGCGTTTTCCATCATTCCGTATTTGGTCGGGATGCTGGTGGCGATTACCGTATTCCGGGCCTCGGGCGCGCTGGATTTTGTCATGGGGCTGTGCAAGCCTTTCTTTACAGCGATCGGCATTCCCGCAGAAGTCGTGCCGCTTGCTCTGATCCGCCCGATTTCGGGGACGGCGGCGCTCGGCATGACGACAGATCTGATCGCCGTGTACGGGCCTGATTCATTTATCGGCAGGCTGGCCTCGGTCATGCAGGGATCGACTGACACGACGCTGTATGTCCTGACGGTGTATTTCGGGGCGGTCGGCATCAAAAAAATGGGGGATGCTTTAAAGGTTGGTCTTCTTGCTGATTTGATCGGGGTGGTTGCATCAATCATCATAGTTACGTTATTATTTGGAAGCGCCTGA	MEMVNWLSLAMIPIIIAGILIYGTVKKVPTYESFVEGGKEGIEIAFSIIPYLVGMLVAITVFRASGALDFVMGLCKPFFTAIGIPAEVVPLALIRPISGTAALGMTTDLIAVYGPDSFIGRLASVMQGSTDTTLYVLTVYFGAVGIKKMGDALKVGLLADLIGVVASIIIVTLLFGSA				NA	NA	NA	NA	NA
D1-12_01370	591	spmA	COG2715	Spore maturation protein A	ATGGTCAATTTAATCTGGGTATGTCTGACGGTAATCGGACTTGTCTTTGCGATGTTTAACGGTACCTTGCAGGATGTGAATGAAGCCGTTTTTAAAGGAGCGAAAGAAGCGGTTACGATCTCGTTCGGATTAATGAGCGTTCTCGTGTTCTGGCTCGGCCTGATGAAAATAGCCGAGCAGTCCGGCCTTTTGGATATATTCAGCAGAATGTGCCGCCCGTTTATTTCTAAGATGTTTCCCGATATTCCCCCTGATCATCCGGCGATGGGATACATCTTATCAAATCTCATGGCAAACTTTTTCGGACTGGGAAATGCGGCGACACCGCTCGGCATTAAAGCCATGGAGCAGATGAAAAAGCTGAATGGAGGTAAGTCTGAGGCCAGCCGTTCCATGATTACCTTTTTGGCGGTAAATACTTCGAGTATTACATTGATACCGACAACCGTCATTGCCGTGCGCATGGCTTACTCGGCGAAATCACCGACCGATATCGTCGGGCCGACCATCTTAGCGACTTTAATTTCGGGAATCGGCGCGATTTTCATTGACCGCTACTTCTGGTACCGCCGCAAAAGAAAAGGGAGGTAA	MVNLIWVCLTVIGLVFAMFNGTLQDVNEAVFKGAKEAVTISFGLMSVLVFWLGLMKIAEQSGLLDIFSRMCRPFISKMFPDIPPDHPAMGYILSNLMANFFGLGNAATPLGIKAMEQMKKLNGGKSEASRSMITFLAVNTSSITLIPTTVIAVRMAYSAKSPTDIVGPTILATLISGIGAIFIDRYFWYRRKRKGR				NA	NA	NA	NA	NA
D1-12_01371	1152	dacB	COG1686	D-alanyl-D-alanine carboxypeptidase DacB	ATGCGCTTTCTCAAAAAAGCTGCCGTATTTCTTTTGACTTTTGTTATTCTTTTTTCCATTACAGACGGCAATACGGCACATGCCCAAATACATGTCAGCGCAAAAAGCGCGATTATAATCGACGGAGCATCTGGCCGGGTGTTATTCGCCAAGGATGAACATCATAAGCGGCGGATTGCAAGCATTACGAAAATCATGACGGCGGTGCTGGCGATTGAATCAGGGAAGATGGAAGAGACCGTGACGGTTTCTCCGAATGCCGTAAAAACGGAAGGCTCAGCCATTTATCTTCAGCCGGGACAAAAAGTAAAGCTGAAAGATCTCGTATACGGGCTTATGCTGAGATCAGGAAATGACGCCGCTGCGGCAATAGCGGAATATGTCGGCGGTAGCCTTGACGGTTTTGTATTTATGATGAACAAAAAAGCCGAGCAAATCGGGATGGAAAATACAAAATTTCAAAATCCGCACGGGCTGGACGACCATGAAAATTTATATTCAACGGCGTATGACATGGCGCTTTTGACTAAATACGCGATGAAAATCAAGGAATACCGGACCGTTTCAGGCACAAAAGTGTATAAGGCGGAAACGATGGACCGGGTATGGAAAAATAAAAACAAGCTTCTGACTGGGCTCTACCGTTACAGCACAGGCGGAAAAACGGGTTACACAAAAATCGCGAAACGGACGCTCGTCTCGACGGCCTCAAAAGACGGTACGGATCTCATCGCGGTCACCATAAATGATCCGGATGACTGGGATGACCATATGAATATGTTTAATTATGTCTTTGATCACTATAAAACCTATGTCGTCGCTAAAAAAGGCGGCATTCCGAAGCTGAAAAAGACGTTTTACGGAAAGCGCGCTTTTATTGCCCGGGATGTCAAATATTTGTTAAAAGAGGATGAAATCGACGATGTAAAAATCAGCACAACCTTAATAAAACCGAAAAAAGCCTGGAAAAAGGACGCCTCTCTCATTCCTGATGTCGTCGGCCGGATGACTGTTATGCATGATGGGAAAGTGATCGCCAAGATCCCCGTCTATTATGAAAATGAGCGCCATAAAAAACCGAAAAAGCATTTCATTGAGACGTTTACGAGCCTGTTTATGAGCGCGGCGGGCGGTTCGTCATGGTCAATTTAA	MRFLKKAAVFLLTFVILFSITDGNTAHAQIHVSAKSAIIIDGASGRVLFAKDEHHKRRIASITKIMTAVLAIESGKMEETVTVSPNAVKTEGSAIYLQPGQKVKLKDLVYGLMLRSGNDAAAAIAEYVGGSLDGFVFMMNKKAEQIGMENTKFQNPHGLDDHENLYSTAYDMALLTKYAMKIKEYRTVSGTKVYKAETMDRVWKNKNKLLTGLYRYSTGGKTGYTKIAKRTLVSTASKDGTDLIAVTINDPDDWDDHMNMFNYVFDHYKTYVVAKKGGIPKLKKTFYGKRAFIARDVKYLLKEDEIDDVKISTTLIKPKKAWKKDASLIPDVVGRMTVMHDGKVIAKIPVYYENERHKKPKKHFIETFTSLFMSAAGGSSWSI	PGPT0024040_4799	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
D1-12_01372	486			hypothetical protein	ATGGGAAATTCGATTGTGAGGGCCCATACTGAAGAAACTGGTGAATTTTTAGCCGAGGTTGTCACGATGGTCAGCAAATATTTAAATCATACAACATTGCCGGAGATGCGGGCTCAAGGAGAGGCGGATGAGGCATACTGCCGCGACGTGCTCAGTGTGCTGAGGAGGATGACCGTCTTTTGCGAAGGCGCCCAGGAAGCCTGCCGCCGGCTCTTAATGCAGGAGCCGTTTCATGAGGTGAGAGCGGAAAAAACGCTGTATAAAGTGTATCATCAGTGCGTGGAAGAATTTTTCATGCCGAAAAAGGATACATGGTACGAAAACAGCCGCGCCGCTTATACAGGCCAAAGCGCGATTGAATTCTACCAGCAAGTGCCGGATTCGCTGCGGAGCCTTCTGCTTTCGCTCAGCAGTGAATTTCTGCGCATGCGGGAAGAATTGGCGCAATATGAAGCATCAGGCTCAAATATGGCATCAGTCAGATAA	MGNSIVRAHTEETGEFLAEVVTMVSKYLNHTTLPEMRAQGEADEAYCRDVLSVLRRMTVFCEGAQEACRRLLMQEPFHEVRAEKTLYKVYHQCVEEFFMPKKDTWYENSRAAYTGQSAIEFYQQVPDSLRSLLLSLSSEFLRMREELAQYEASGSNMASVR				NA	NA	NA	NA	NA
D1-12_01373	594	scpB	COG1386	Segregation and condensation protein B	ATGGCGCTTGATATCGTGAATTGGAAAGCGATTGTGGAAGCCCTGCTGTATGCGGCGGGTGATGAAGGGCTGACCAAAAAGCAATTGGTGACGGTGCTTGAAATAGAAGAAGCGGAACTGGCCGGAATCATGGAAGAAGTGGCCGCTCAGTACAAGGAAGATGACAGGGGCATCGAGCTAACCGAATATGCGGATACGTATATGCTTGGAACGAAAAAAGAATTCGTGCCTTATTTGAAAAAACTAATTGAAGTGCCGTCAAAAGGGCTGTCACAGGCTTCTTTGGAAGTGCTGGCGATCGTTTCGTACAAGCAGCCGATCACACGGGCGGAAATTGAAGATATCCGGGGCGTGAAGTCTGAGCGGATTCTGCACAGCCTCGTGTCAAAAGCGCTGCTGTGTGAGGTGGGCCGCGCCGACGGTCCCGGCCGGGCGATTTTATACGGCACGACACCGGTATTTCTTGAACAATTCGGCTTAAAAACATTGGAGGAGCTCCCGCCGCTTCCTGAAAATGCGGAGGAAGACGTTCTCCAGGAGGAAGCCGATTTATTCTTTGAAAACTTCAACCAAACTTTTGAGGATATTAAATAA	MALDIVNWKAIVEALLYAAGDEGLTKKQLVTVLEIEEAELAGIMEEVAAQYKEDDRGIELTEYADTYMLGTKKEFVPYLKKLIEVPSKGLSQASLEVLAIVSYKQPITRAEIEDIRGVKSERILHSLVSKALLCEVGRADGPGRAILYGTTPVFLEQFGLKTLEELPPLPENAEEDVLQEEADLFFENFNQTFEDIK				NA	NA	NA	NA	NA
D1-12_01374	756	scpA	COG1354	Segregation and condensation protein A	ATGGTAGAATATCAAGTGAAAATTGATACGTTTGAAGGCCCATTGGACCTGCTGCTTCATCTGATTAACCGTCTTGAAATCGACATATACGACATACCCGTGGCAACCATTACTGAACAATATTTATTATATGTACATACAATGCAAGAGCTTGAACTTGATGTCGCCAGTGAATATCTGGTCATGGCGGCGACGCTTCTCAGCATTAAAAGCAGAATGCTGCTTCCGAAACAAGAAGAAGAGCTGTTTGAAGACGAAATGCTTGAAGAAGAAGACCCTCGGGACGAGCTGATTGAAAAACTGATTGAGTATAGAAAGTATAAAACCGCTGCGAAGGATTTAAAAGAGCGGGAAGAAGAAAGACAAAAGTCATTTACAAAGCCGCCGAGTGATTTAAGTGAGTATGCAAAAGAAATCAAACAGACCGAGCATAAACTGTCGGTGACCGTTTATGACATGATCGGCGCGTTTCAAAAGGTGCTTCAGCGTAAAAAAATCACGCGGCCGAAAGAAACGACCATTACAAGACAGGAAATACCGATTGAAGACAGAATGAACGAAATCGTAAAAAGCTTAAAAACGGCGGGGAGAAGAATAAACTTCACGGAGCTTTTTCCTTCTCGGCAAAAGGACCATCTCGTCGTGACGTTTTTAGCAGTCCTGGAACTGATGAAAAATCAGCAGATTATCATTGAACAGGAAGAAAACTTTTCAGATATATACATTACGGGGAGTGAATCCATTCATGGCGCTTGA	MVEYQVKIDTFEGPLDLLLHLINRLEIDIYDIPVATITEQYLLYVHTMQELELDVASEYLVMAATLLSIKSRMLLPKQEEELFEDEMLEEEDPRDELIEKLIEYRKYKTAAKDLKEREEERQKSFTKPPSDLSEYAKEIKQTEHKLSVTVYDMIGAFQKVLQRKKITRPKETTITRQEIPIEDRMNEIVKSLKTAGRRINFTELFPSRQKDHLVVTFLAVLELMKNQQIIIEQEENFSDIYITGSESIHGA				NA	NA	NA	NA	NA
D1-12_01375	90			hypothetical protein	ATGAGCGGAGCTTGTTTCGGCGGAGGTTTTGCATTAATTGTCGTTCTGTTTATTTTGCTCGTTGTCGTAGGAGCATCTTACATCTGCTAG	MSGACFGGGFALIVVLFILLVVVGASYIC	PGPT0024985_423	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
D1-12_01376	522			hypothetical protein	TTGTATCCTAAAGCTTATATCGGCTTTTTGGCCGAATTTCACGCATCAAGAGATTATTTTGAGTGTCATGAACTGTTAGAGGAATATTGGAAAGAAAGCCCGGCTGAAAAGCGGAGCATTCATTGGGTCGGCCTGATTCAGCTTGCCGTCGCTCTGTATCACCAGCGCAGGGGAAATGAAGCCGGGGCGAAACGGCTGATTGCCAACAGCTTACGTATTCTCCGGTCTGAAAAGCAGGCGGTCTGTTCTCTCGGGCTCAGCCATCCGAAGCTGATTGAGCTGATAGAAACGCTGTCAGACGATATAGAAGCGGGCCTGCCTTACAGAAGTGTTATGCTTCCGATTACAGATGAAGCCCTGAAAGAAGCATGTCTTGCCGAATGCCGCCGAAAGGGCTATACATGGGGGCAAGACGGCGTATCAGATACCTTTCTTATCCATAAACACCGCCTGCGGGACAGGACGGATGTCATTAAGGAACGCGAACGGGAAATTGAGAGAAGAAAAAAAAGCAGAGGCTGA	MYPKAYIGFLAEFHASRDYFECHELLEEYWKESPAEKRSIHWVGLIQLAVALYHQRRGNEAGAKRLIANSLRILRSEKQAVCSLGLSHPKLIELIETLSDDIEAGLPYRSVMLPITDEALKEACLAECRRKGYTWGQDGVSDTFLIHKHRLRDRTDVIKEREREIERRKKSRG				NA	NA	NA	NA	NA
D1-12_01377	375	ribT		Protein RibT	ATGTTAATTCGTTATAAAAAATCGTTTGAAAAGATTGCGATGGGTCTTCTGTCATTTATGCCGAATGAAAAAGATCTCAAGCAGCTTCAGCAGACAATAAAGGACTATGAAACGGATACTGGCCGCCAGCTCTTTCTATGGAAAGAGGATGAAGATATCGTCGGAGCGATCGGAGTCGAAAAAAAGGACTCAGAGGTTGAAATCCGGCATATCAGCGTGAATCCTTCTCACCGCCATCAAGGAATCGGAAAGCAAATGATGGACGCCTTAAAACGTCTGTTCAAAACGGAGGCACTCGTTCCGAATGAATTAACGCAAAGCTTTTTTGAACGCTGTCAACATCAAAAAGATCAGGATATCTCTTATAATAACTGA	MLIRYKKSFEKIAMGLLSFMPNEKDLKQLQQTIKDYETDTGRQLFLWKEDEDIVGAIGVEKKDSEVEIRHISVNPSHRHQGIGKQMMDALKRLFKTEALVPNELTQSFFERCQHQKDQDISYNN	PGPT0008530_51	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008530-ribT-K02859	NA	NA
D1-12_01378	465	ribH	COG0054	6,7-dimethyl-8-ribityllumazine synthase	ATGAATATCATACAAGGAAACCTAGTAGGAACAGGACTCAAAATCGGAATCGTCGTCGGCAGATTTAATGAATTTATAACGAGCAAGCTGTTAAGCGGAGCGGAAGACACGCTGCTTCGCCACGGTGTAGAATCAAACGACATTGACGTCGCTTGGGTGCCGGGAGCGTTTGAAATCCCGTTTGCGGCAAAGAAAATGGCGGAAACGAAAAAATACGATGCCGTCATTACGCTCGGCACGGTTATCAGAGGAGCGACAACGCATTATGACTATGTCTGCAATGAAGCGGCAAAAGGCATCGCCCAGGCGGGAACGGCGACGGGCGTCCCGGTTATCTTCGGCATCGTGACGACTGAAACCATTGAGCAGGCCATCGAACGAGCCGGAACAAAAGCCGGAAATAAGGGAGCGGATTGCGCAGTATCTGCCATTGAAATGGCAAATTTAAACCGCTCATTTGAATAA	MNIIQGNLVGTGLKIGIVVGRFNEFITSKLLSGAEDTLLRHGVESNDIDVAWVPGAFEIPFAAKKMAETKKYDAVITLGTVIRGATTHYDYVCNEAAKGIAQAGTATGVPVIFGIVTTETIEQAIERAGTKAGNKGADCAVSAIEMANLNRSFE	PGPT0008605_3483	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
D1-12_01379	1197	ribBA	COG0108	Riboflavin biosynthesis protein RibBA	ATGTTTCATCCGATAGAAGAGGCGTTAGAGGCGCTGAAAAAAGGTGAAGTCATCATTGTTGTCGATGATGAAGACAGAGAAAACGAAGGAGATTTCGTAGCGCTGGCTGAGCATGCCACGCCGGAAGTGGTTAATTTTATGGCGACCCATGGGAGAGGCCTGATCTGCACGCCGCTGTCTGAAGAGATCGCCGGCCGGCTGGATCTTCACCCGATGGTCGATCATAATACGGACTCACATGAGACCGCGTTTACGGTCAGTATTGACCACAGGCTGACAAAAACGGGCATCAGCGCGCAGGAACGATCCTTTACCATTCAGGCGCTGTTGAACGAAGAATCTGTGTCTGACGATTTTCAGCGTCCGGGCCACATTTTCCCCTTAATCGCAAAAAAAGGAGGCGTCCTGAAGCGGGCCGGCCATACGGAAGCAGCCGTTGACCTTGCAAAAGCCTGCGGATCTCAGGGAGCGGGCGTCATTTGTGAAATTATGAATGAAGACGGCACAATGGCCAGAGTGCCGGAGTTAGCCGAAATCGCCGAACGCCACCAGCTGAAAATGATTACGATAAAAGACTTAATAGAGTACCGTTACAACATTACGACACTTGTGAACAGAGAAGTTGATATTACGCTGCCGACTGACTTCGGCACGTTTAGAGTTTACGGATATACAAACGAGGTTGACGGAAAAGAACATCTCGCCTTTGTCATGGGGGAAGTTCCGTTTAACAGCGAACCCGTTCTTGTCAGAGTGCACTCAGAATGCCTGACGGGCGATGTGTTTGCATCCCATCGCTGTGATTGCGGACCTCAGCTTCATGCCGCGCTTGCGCAAATTGCTGAAGAAGGCCGCGGCGTTCTATTGTATTTGCGCCAGGAAGGCAGAGGAATCGGTTTAATCAATAAGCTGAAGGCGTACCGATTGCAGGAACAAGGGTACGACACGGTTGAAGCGAACGAAGCGCTCGGCTTTCTGCCTGATCTGCGCAACTACGGCATCGGCGCCCAGATTCTCCGCGACTTAGGGGTTCAGCATATGAAACTTTTAACCAATAACCCCCGGAAAATCGCCGGCCTCGAAGGATACGGTCTCAGCATTTCAGAACGGGTGCCGCTTCAAATGGAAGCGAGTGAGCATAACAAACAGTATTTACAGACCAAAATGAAAAAACTTGGACATCTGCTTCATTTCTAA	MFHPIEEALEALKKGEVIIVVDDEDRENEGDFVALAEHATPEVVNFMATHGRGLICTPLSEEIAGRLDLHPMVDHNTDSHETAFTVSIDHRLTKTGISAQERSFTIQALLNEESVSDDFQRPGHIFPLIAKKGGVLKRAGHTEAAVDLAKACGSQGAGVICEIMNEDGTMARVPELAEIAERHQLKMITIKDLIEYRYNITTLVNREVDITLPTDFGTFRVYGYTNEVDGKEHLAFVMGEVPFNSEPVLVRVHSECLTGDVFASHRCDCGPQLHAALAQIAEEGRGVLLYLRQEGRGIGLINKLKAYRLQEQGYDTVEANEALGFLPDLRNYGIGAQILRDLGVQHMKLLTNNPRKIAGLEGYGLSISERVPLQMEASEHNKQYLQTKMKKLGHLLHF	PGPT0007990_2178	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
D1-12_01380	648	ribE	COG0307	Riboflavin synthase	ATGTTTACAGGAATCGTTGAAGAAACAGGCACGATCCAAGCAATCAAAAAGACAGGCCTTTCCATGGCATTAACCATCACCGCTTCAAAAGTGACAAGTGATGTGAAACTTGGCGACAGCATTGCGGTAAACGGCATCTGCCTGACCGTAACCGGATTTTCTGACAATCAATTTACGGTTGATGTTATGCCGGAAACAGTGAAAGCCACTTCGCTGAACGGCTTGTCAAAAGGCAGTAAAGTAAACCTGGAAAGAGCGATGTCCGCCAACGGACGGTTCGGCGGCCACTTTGTATCAGGGCATGTGGACGGAACGGCGGAAATTACGCGGATCGAGAAAAAAAGCAACGCGGTCTATTACGATTTAAAACTGTCGCCGGAATTGACAAAAACGCTCGTATTGAAAGGTTCAATTACGGTAGACGGCGTGAGCCTGACGATTTTCGGTCTATCAGACGAAAGCGTGACGGTATCCATCATTCCGCATACCATCTCAGAAACGATTTTTCAGACGAAAACAGTCGGATCGACCGTAAATATTGAGTGTGACATGATCGGTAAATACTTATACCGCTTTTTGCACAAAACAGAACAAACGAAAAGCAATCAAACTATCACGGAAGCCTTTTTAAGCGAGAACGGCTTTTAG	MFTGIVEETGTIQAIKKTGLSMALTITASKVTSDVKLGDSIAVNGICLTVTGFSDNQFTVDVMPETVKATSLNGLSKGSKVNLERAMSANGRFGGHFVSGHVDGTAEITRIEKKSNAVYYDLKLSPELTKTLVLKGSITVDGVSLTIFGLSDESVTVSIIPHTISETIFQTKTVGSTVNIECDMIGKYLYRFLHKTEQTKSNQTITEAFLSENGF	PGPT0008610_705	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
D1-12_01381	1116	ribD	COG0117	Riboflavin biosynthesis protein RibD	ATGGATGAATATTATATGAATACGGCAATAGAACTTGCCAGACGCGGTGAAGGACAGACACAGTCCAATCCTCTTGTCGGCGCTGTCGTCGTCAAAAACGAACAGATCGTCGGAATGGGCGCCCATTTGCAATACGGAGAAGCGCATGCCGAGGTTCACGCGATTAATATGGCCGGCAGACACGCAAAAGGCGCCGATTTGTATGTGACGCTGGAGCCTTGCAGCCATTACGGAAAAACACCGCCATGCGCCGAACTGATAATAAAGTCGGGGATAAAAAGGGTGTTCATTGCTGTGAAAGATCCGAATCCGCTTGTAGCCGGAAAAGGCATCGGAATGCTGGAAGCAGCGGGCATCGAAGTGAAAACCGGACTTCTCAGGCAGCAGGCAGAAGAGCTGAATAAAATGTTTCTTCACTTCATGCGGACCGGACTTCCGTATGTCACCTTGAAAGCGGCCGCGAGCCTTGACGGGAAAACAGCGACCGAAACCGGTGAAAGCAAATGGATTACATCAGAGGCGGCAAGGCTTGATGCCCAGCAATACAGGAAATCGCACCAAAGCATTCTTGTCGGAGCAGGCACAGTCAAAGCCGATAATCCGAGCCTGACCTGCAGGCTTCCTGATGCGGTGAAGCAGCCGGTCAGAGTGATTCTCGATACAAAGCTGACCATTCCTGAAACGGCAAATGTGCTCACTGACGGCGCTGCGCCGACATGGATATTTACGGCCAAAGATGCAGACGTGCAAAAGAAAGACCGGCTGACCGCACTCGGAATAAAAGTTTTTCCGCTGGAAACAGACCGCATTCACATCCCTGAGGTGCTCAGTATTCTCGCTGAAAACGGCATAATGTCCGTTTATGTGGAAGGCGGAGCATCCGTACACGGAAGTTTTGTCAAGGAAGGCTGTTTCCAAGAGCTTCATTTCTATTTCGCCCCTAAATTAATCGGAGGAACGCTTGCTCCCAGCTTGATCTCCGGTGAAGGTTTTCAATCAATGAAAGATGTCCCCCATTTGCAATTCACACAAATCACCCAAATCGGGCCGGATATAAAACTGACGGCCATACCTAAAGATGGAAAGGATGGTGACGATGTTTACAGGAATCGTTGA	MDEYYMNTAIELARRGEGQTQSNPLVGAVVVKNEQIVGMGAHLQYGEAHAEVHAINMAGRHAKGADLYVTLEPCSHYGKTPPCAELIIKSGIKRVFIAVKDPNPLVAGKGIGMLEAAGIEVKTGLLRQQAEELNKMFLHFMRTGLPYVTLKAAASLDGKTATETGESKWITSEAARLDAQQYRKSHQSILVGAGTVKADNPSLTCRLPDAVKQPVRVILDTKLTIPETANVLTDGAAPTWIFTAKDADVQKKDRLTALGIKVFPLETDRIHIPEVLSILAENGIMSVYVEGGASVHGSFVKEGCFQELHFYFAPKLIGGTLAPSLISGEGFQSMKDVPHLQFTQITQIGPDIKLTAIPKDGKDGDDVYRNR	PGPT0008555_1613	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
D1-12_01383	345			hypothetical protein	ATGGGAAGAATTAAAACAAAAGCAGCCATTTTACTTGTACTGCTGCTGTTATTAGCGGGCGGTTATATGGTCATAAACGATATTGAACTGAAAGACGTGCCGACTGCAATCGGACAAACCCTGTCCCAGGAAAAAGAAGAATATACAGTCAAAACATATAAAATTACGAAAATCGAAGGAACTGAGTATCACGGTACGGCAGCGAACGGCACAAAAATTATTTTTAACGGCGACAAGCTGAAGCAGGATCTCTCCGATGTGAAAAAAGGTGATAAGATTAAAGCGTACTTCAGCAAATCAAACCGGATTGACGGCTTATTGAAGGTCGTCAAAGTGAACGAATAA	MGRIKTKAAILLVLLLLLAGGYMVINDIELKDVPTAIGQTLSQEKEEYTVKTYKITKIEGTEYHGTAANGTKIIFNGDKLKQDLSDVKKGDKIKAYFSKSNRIDGLLKVVKVNE				NA	NA	NA	NA	NA
D1-12_01384	561	sipS	COG0681	Signal peptidase I S	TTGAAATCAGAAAAAGAAAAAACTTCTAAAAAAAGCGCCGTACTTGATTGGGCGAAAGCCATTATCATCGCTGTCGTTCTGGCACTGCTCATCCGAAACTTTTTATTTGCCCCTTATCTCGTTGATGGAAGATCAATGGATCCGACGCTGCATGACCGCGAGAGAATCTTTGTCAATATGACGGTCAAATACATAAGCGACTTCAAACGCGGCCAGATCGTCGTGCTGAACGGAGAAAATGAGCACTATGTCAAACGGATTATCGGACTTCCCGGCGACACGGTGCAAATGAAAAACGATCAGCTGTATATCAACGGCAAAAAAGTGTCCGAACCGTATTTAGCGGCAAACAAGAACAAGGCGAAGCAAGGCGGCTTTGACCGGCTGACAGAAGACTTCGGCCCGGTGAAAGTGCCGGACGACAAATATTTCGTCATGGGTGATAACCGCAGAGAATCTATGGACAGCCGCAACGGCCTCGGTCTTTTTACGAAAAAACAAATAGCGGGCACATCAAAATTCGTCTTCTTCCCGTTTAACGAAATTCGCAAGACGAAATAA	MKSEKEKTSKKSAVLDWAKAIIIAVVLALLIRNFLFAPYLVDGRSMDPTLHDRERIFVNMTVKYISDFKRGQIVVLNGENEHYVKRIIGLPGDTVQMKNDQLYINGKKVSEPYLAANKNKAKQGGFDRLTEDFGPVKVPDDKYFVMGDNRRESMDSRNGLGLFTKKQIAGTSKFVFFPFNEIRKTK				NA	NA	NA	NA	NA
D1-12_01385	492			hypothetical protein	TTGGTTCAATTGGCAACCGTTTTATTTGTCATTATCATTCTCGCACTTATGATTTGGTTCAGGGTGAAAAAGGGAAACAGACCGATTAAAGGCGGCGGCTTCGGCATCATTCTCCCGCTTTTGATTATCGCCGTCATTTTCACATTCAGTATCAGCCAGCTCATGAATATCCCGGGAAAGCCGTTTCATTTTCCCGCTCTTTGGGAGCTCGCCATCGCCGGACTGTTAGGCGCGGTATTCGGTGTCATCATGCTGTCGCAAACCGCCTATGAAATCCGGGAAGACGGCTTTGTCTACTCCAAGCGGAATAAAAACTTTAAATATGTCATTATCGCGATTATTGCGATCCGTATCGCGCTCAGCCAATATTTCAAAAACATTGACGCGGCGGAATTCGCCGTTTTAACGATGGAGCTTGCTTTTGTGTATTTGTGCATTTGGCGGATCGGAAGTTTCGTGAAATACCGTAAAATCAGCAGATCCGGCTTATAA	MVQLATVLFVIIILALMIWFRVKKGNRPIKGGGFGIILPLLIIAVIFTFSISQLMNIPGKPFHFPALWELAIAGLLGAVFGVIMLSQTAYEIREDGFVYSKRNKNFKYVIIAIIAIRIALSQYFKNIDAAEFAVLTMELAFVYLCIWRIGSFVKYRKISRSGL				NA	NA	NA	NA	NA
D1-12_01386	432	ppiB	COG0652	Peptidyl-prolyl cis-trans isomerase B	ATGAAAACTGGTTACATCGAAATGGAAAACGGCAGCAGAATCGAATTTGAACTTTATCCGAATGAAGCGCCTAATACAGTCGCTAACTTTGAAAATCTGGCGAATACGGGCTTTTATGACGGCGTTATTTTCCACCGCGTGATTCCGGGCTTTGTCAGCCAAGGCGGAGATCCGACTGGGACAGGCATGGGCGGAAGCGGAAAAACGATCAAATGTGAAACAGAAGGCAATCCGCATAAACACGAAGCCGGTTCTTTATCAATGGCGCATGCCGGTAAAGACACGGGTTCAAGCCAATTCTTCATCGTACATGAGCCGCAGCCGCATTTAAACGGCGTTCATACTGTATTCGGAAAAGTGACAAGCGGTTTAGAGCATGCGAAAAACATGTCTAACGGAGACAAAATGAAAGAAATCCGTGTAGAAGGATAA	MKTGYIEMENGSRIEFELYPNEAPNTVANFENLANTGFYDGVIFHRVIPGFVSQGGDPTGTGMGGSGKTIKCETEGNPHKHEAGSLSMAHAGKDTGSSQFFIVHEPQPHLNGVHTVFGKVTSGLEHAKNMSNGDKMKEIRVEG	PGPT0015111_4331	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
D1-12_01387	900	ypuA	COG4086	putative protein YpuA	TTGAAAAAAATGTGGATTGGATTGCTGGCGGCGGCCGTTGTATTGTGCACAATACCGAAAATCAGCCTGGCCGATGCCGCAGTCGGAGATGTCATCGTCACACTGGGGGCGGATCTGTCAAACGAAAACCGTCAGAAAGTGCTTGACGAATTAAATGTCCCTGATAACGCGACAAAAGTGACGGTCACTAATAAAGAAGAACATGAATATCTGGGAAAATATATATCGAACGCCCAAATCGGCACAAGAGCCATCTCTTCGTCATCCATCACGGTGGCAAAGAAAGGGTCCGGGCTTGACGTTAAGACCCATAATATCGATTCCATTACGGATGAAATGTACTTAAACGCCCTGATGACAGCAGGAGTGAAAGATGCGAAAGTATACGTGACGGCGCCGTTTGAGGTATCAGGCACCGCAGCATTAACGGGAATCATCAAGGCATATGAAGTCTCATCAGACAAAGCGATTTCAGAAGATGTAAAACAGGTCGCCAACCAAGAGCTTGTCACCACTTCAAATCTCGGGGATAAAATCGGGGATAAAAACGCCTCCGCGCTTATCGCAAACATTAAAGATGATTTCGCGAAAAACGGTGTGCCCGATACAAAAGAAGGAATCGAGAAAAAGGTCGATGATGCGGCTTCAAACCTTAATATTACACTGACTGACGCTCAAAAAGACCAGCTCGTTTCATTGTTTAATAAAATGAAAAATGCAAAGATTGATTGGGGCCAAGTCGGCAGCCAGCTCGATAAGGCAAAAGACAAAATCACGAAGTTCATTCAATCCGATGAAGGCAAAAGCTTTGTTCAAAAAGTTATTGATTTCTTCGCTTCGATTTGGAATGCGATCGTGTCTGTATTTACAGGAGACAGCGGATCAAGTTCTGACAGCTGA	MKKMWIGLLAAAVVLCTIPKISLADAAVGDVIVTLGADLSNENRQKVLDELNVPDNATKVTVTNKEEHEYLGKYISNAQIGTRAISSSSITVAKKGSGLDVKTHNIDSITDEMYLNALMTAGVKDAKVYVTAPFEVSGTAALTGIIKAYEVSSDKAISEDVKQVANQELVTTSNLGDKIGDKNASALIANIKDDFAKNGVPDTKEGIEKKVDDAASNLNITLTDAQKDQLVSLFNKMKNAKIDWGQVGSQLDKAKDKITKFIQSDEGKSFVQKVIDFFASIWNAIVSVFTGDSGSSSDS				NA	NA	NA	NA	NA
D1-12_01388	1320	lysA	COG0019	Diaminopimelate decarboxylase	TTGTTCTTACATGGCACAAGCAGACAAAACAAACTAGGTCATTTGGAAATCGGAGGTGTGGACGCGCTGTATTTAGCGGAGCATTACGGCACGCCTCTTTATGTTTACGATGTGGCTTTAATACGTGAGCGCGCTAAAAGCTTTAAACAGGCATTCATTGACGCGGATTTAAAGGCGCAGGTCGCGTACGCAAGCAAGGCGTTTTCTTCCGTTGCGATGATACAGCTCGCTGAACAGGAGGGGCTCTCATTGGACGTTGTATCCGGCGGAGAGCTGTTTACGGCGGTTGCGGCTGGTTTTCCGGCTGACAGGATTCATTTTCACGGCAATAACAAAAGCGAAGAAGAGTTGAAAATGGCGCTCGATCATCAAATCGGCTGCATCGTCGTGGATAATTTTTATGAAATCTCCTTACTCGCGGAACTGTGCCGCAAATCAGGGCGCACAATGGATGTTCTTCTGCGGATCACTCCGGGGGTAGAGGCGCATACGCATGATTATATTACGACGGGACAGGAAGATTCCAAATTCGGTTTTGATCTGCATAACGGGCAAATAGAAAAGGCGATTGAACAAGTATTACAGTCGGACCATATCCGCCTTCTCGGCGTTCACTGCCACATCGGATCGCAAATTTTTGATACGGCGGGCTTTGTGCTGGCCGCAGAAAAAATCTTTGCAAAACTGAATGAATGGAGAGAATCATTCGGCTTTGTCTCTGAAGTGCTGAATTTAGGGGGAGGCTTCGGCATCCGCTACACGGAGGAGGATGAACCTCTTCATCCCGCCGTTTATGTGGAAAAAATTATCGAAGCGGTAAAAGAAAACGCAGCGCTGCACGCTTTTGACATTCCGGAGATCTGGATTGAACCGGGACGCTCGCTCGTCGGAGACGCCGGAACGACGCTTTATACCATCGGTTCGCAAAAAGAAGTGCCCGGCACCCGTAAATATGCAGCGGTTGACGGGGGCATGAGCGATAATATCCGTCCTGCGCTGTATCAGGCGAAATATGAAGCCGTATCGGCAAACAGAATCGGAGAACACCACGATAAAACGGTATCCATCGCGGGCAAGTGCTGTGAAAGCGGGGATATGCTCATTTGGGATATAGACCTTCCGGAAGTGAAAGAAGGCGATCTTCTAGCCGTTTTCTGCACGGGAGCATACGGATACAGCATGGCTAACAACTACAACCGCATTCCGCGTCCCGCCGTCGTTTTTGTGGAAGACGGCGAAGCGCATCTTGTCATTAGAAGGGAAACTTATGAAGACATTGTAAAACTGGATCTGCCATTTAAGACGGGGGTCAAACAATAA	MFLHGTSRQNKLGHLEIGGVDALYLAEHYGTPLYVYDVALIRERAKSFKQAFIDADLKAQVAYASKAFSSVAMIQLAEQEGLSLDVVSGGELFTAVAAGFPADRIHFHGNNKSEEELKMALDHQIGCIVVDNFYEISLLAELCRKSGRTMDVLLRITPGVEAHTHDYITTGQEDSKFGFDLHNGQIEKAIEQVLQSDHIRLLGVHCHIGSQIFDTAGFVLAAEKIFAKLNEWRESFGFVSEVLNLGGGFGIRYTEEDEPLHPAVYVEKIIEAVKENAALHAFDIPEIWIEPGRSLVGDAGTTLYTIGSQKEVPGTRKYAAVDGGMSDNIRPALYQAKYEAVSANRIGEHHDKTVSIAGKCCESGDMLIWDIDLPEVKEGDLLAVFCTGAYGYSMANNYNRIPRPAVVFVEDGEAHLVIRRETYEDIVKLDLPFKTGVKQ				NA	NA	NA	NA	NA
D1-12_01389	1482	gerXA		Spore germination protein XA	ATGCCGGAAAAACCGGAAAACATGATCAAGGTGTACCGGGATCCTAGAAAAAATGAACAATTTTTTAAAGACCGCGTCGGTATGGGAACGAGCTATGATGTCGGCGTCCGCAAAGTTCGAGTATTAGACCGGGAAGTCCAGATTTACTTTGTCAACGGATTAACCGATACTTTGTTTATCATTCATTTAATGGAACAGCTCGTCGACGTCAATAATTATGACGAAAATGCGGATGAAGCGATTGACGTTGTTGAAAACAGGCTTGTCAATCAGCAGGTCCAAAAAGTCAAAACGCTCGACGAAGCAACGGATCAAGTGCTTTCCGGACTTGTCGCCGTTATCGTTGAAGGCGCGGGCTTCGCTTTCGTCGTCGACGTCAGAAGTTACCCCGGACGCACACCTGAAGAACCGGATACGGAAAAGGTCGTCCGCGGGGCAAGAGACGGTTTTATCGAAAATATCGTCATTAATACAGCATTGATCAGAAGACGAATCAGGGACGAAAGGCTCCGCGTCAAAATTACGAAAGTCGGCGAGCGCTCTAAGACCGATCTTGCGATTGTGTATATAGAAGACATCGCGGACCCGGACCTTGTCAGCATCGTCGAAAACGAAGTGAATGCGATTGACATTGACGGATTGACGATGGCTGATAAAACGGTGGAGGAATTCATCGTCAAACAGGGCTACAACCCGTTTCCGATGGTCAGATACACGGAGCGGCCGGATGTGGCCGCCAATCACATTTTAGAAGGGCACGTCATCATCGTCGTTGATACGTCACCGAGCGTGATCATAACGCCGACCACGATTTTTCACCATGTTCAGCATGCGGAAGAATACAGGCAGGCGCCTTCAGTGGGAACATTTTTAAGATGGATCAGGTTCTTCGGTATTATCGCTTCAACTGTTCTGCTTCCGATCTGGTTCCTCTTTGTTCTTGAACCGTCTCTTCTGCCTGAAAGATTGGATTTTATCGGTTTAAATAAAAATACGCATATCCCGATCATTCTGCAAATCTTTTTGGCCGATTTGGGGATTGAGTTTCTCAGGATGGCCGCGATCCATACGCCGACCGCTTTATCCACCGCCATGGGTCTGATTGCGGCGGTGCTGATCGGTCAAATCGCCATAGCGGTGGGGCTGTTTTCAGCAGAAGTGATTCTGTACGTATCGATCGCCGCCATCGGATCATTTACGACGCCGAGCTATGAGCTCAGCCTCGCCAATAAAATGATACGCCTCATCTTAATGGTGCTCGTGGCCATTTTCCAAGTGAAAGGCTTTGTGATAGGTTTTACATTGCTGCTGATCATAATGGCGAATATCCGCTCGTTTCATACGCCGTATTTATGGCCGTTTTTACCGTTTAACGGTAAGGCGCTGTGGCAGGTGCTCGTCCGGACGACAGTGCCGGGAGCGAAAGTCAGACCGAGCATTGTTCACCCGAAAGACCGTCAAAGACAGCCAAGCGGTTCATAA	MPEKPENMIKVYRDPRKNEQFFKDRVGMGTSYDVGVRKVRVLDREVQIYFVNGLTDTLFIIHLMEQLVDVNNYDENADEAIDVVENRLVNQQVQKVKTLDEATDQVLSGLVAVIVEGAGFAFVVDVRSYPGRTPEEPDTEKVVRGARDGFIENIVINTALIRRRIRDERLRVKITKVGERSKTDLAIVYIEDIADPDLVSIVENEVNAIDIDGLTMADKTVEEFIVKQGYNPFPMVRYTERPDVAANHILEGHVIIVVDTSPSVIITPTTIFHHVQHAEEYRQAPSVGTFLRWIRFFGIIASTVLLPIWFLFVLEPSLLPERLDFIGLNKNTHIPIILQIFLADLGIEFLRMAAIHTPTALSTAMGLIAAVLIGQIAIAVGLFSAEVILYVSIAAIGSFTTPSYELSLANKMIRLILMVLVAIFQVKGFVIGFTLLLIIMANIRSFHTPYLWPFLPFNGKALWQVLVRTTVPGAKVRPSIVHPKDRQRQPSGS	PGPT0024820_122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024820-spoVAF-K06408	NA	NA
D1-12_01390	606			hypothetical protein	ATGACGAAACGGAAGGTCATTCTTGTGACAGACGGGGACGTATACGCCGCCAAAACAATTGAATATGCCGCGGAACAAGCAGGCGGACGGTGTATTTCCCAATCAAAAGGCAATCCGTCAACGAGAAGCGGCCCCGAACTTGTTCAGCTGATTAAAGCCGCGCCGAATGACCCGGTGTTTGTCATGTTTGACGATTCAGGCCTGCAAGGGGAAGGGCCGGGCGAAACGGCGCTGAAATATGTCGCCTCACATCAGGACATTGAAGTGCTGGGGGTGATTGCGGTCGCTTCTAAGACCCATCAGGCTGAATGGACGAAAGTCGATGTCTCCATTGACCGTGATGGAGAAGTGACGGAGTTTGGCGTCGATAAAACCGGAATGAGAGAAATGGACGAGCACAGAATGAACGGAGATACGGTGTATTGTCTGGATAAATTGGACGTTCCCCTCATTGTGGGAATCGGCGACATAGGAAAGATGGGGAGAAAAGATGACATATCCAAAGGCTCGCCGATTACGATGAAGGCGGTCGAATTCATTTTAGAAAGGAGCGAAAGCCATGCCGGAAAAACCGGAAAACATGATCAAGGTGTACCGGGATCCTAG	MTKRKVILVTDGDVYAAKTIEYAAEQAGGRCISQSKGNPSTRSGPELVQLIKAAPNDPVFVMFDDSGLQGEGPGETALKYVASHQDIEVLGVIAVASKTHQAEWTKVDVSIDRDGEVTEFGVDKTGMREMDEHRMNGDTVYCLDKLDVPLIVGIGDIGKMGRKDDISKGSPITMKAVEFILERSESHAGKTGKHDQGVPGS	PGPT0024815_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407	NA	NA
D1-12_01391	351			hypothetical protein	ATGGAATATCTGTTGGCTTTTGTTTGCGGGGGAATCATATGCATTATCGGTCAGCTGCTGCTTGACATTTTTAAACTGACACCCGCCCATGTAATGACAACTTTTGTCGTCATCGGCGCCTTGTTAGATGGGTTCGGAATATATGACAAATTTATCGAATTCGCGGGCGCGGGCGCGACGGTTCCCATCGTCAGCTTCGGTCACAGCTTATTGCACGGCGCCATGCATCAAGCTCACGAGCATGGATTTATCGGGATCGCCATGGGGATTTTTGAACTTACTTCCGCCGGTATATCTTCAGCGATTTTATTCGCATTTCTTGTAGCCGTTATTTTTAAACCGAAAGGATAA	MEYLLAFVCGGIICIIGQLLLDIFKLTPAHVMTTFVVIGALLDGFGIYDKFIEFAGAGATVPIVSFGHSLLHGAMHQAHEHGFIGIAMGIFELTSAGISSAILFAFLVAVIFKPKG	PGPT0024815_503	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407	NA	NA
D1-12_01392	1017	spoVAD		Stage V sporulation protein AD	ATGAAATTGACCGGAAAGCAAACCTGGGTATTTGAAAACCCGTTATTTGTAAATGCGGCGGGGACGGCAGCCGGACCGAAAGAAAAAGACGGCCCGCTCGGTTCGCTGTTTGATAAGACATACGATGAAATGCATTGCAATCAGAAAAACTGGGAAATGGCGGAACGTCAGTTAATGGAAGATGCCATCAACTCCGCTTTGCAAAAACAGAATTTGAAAAAGAGCGATATTGATTTGTTGCTCGCGGGGGATCTTTTAAATCAAAATGTGACCGCCAACTACGTCGCCAGACATCTGAAAATTCCGTTCCTCTGTCTGTTCGGCGCCTGTTCGACATCAATGGAAACGATTGCGGTCGCATCCGCGCTCATTGACGGCGGTTTTGCGAACCGGGCGATCGCAGCCACGAGCAGCCATAACGCGACGGCAGAACGGCAATTCCGCAATCCGACGGAGTATGGCGGGCAAAAACCGGATACCGCCACTTCAACAGTCACGGGGGGCGGGGCGGTCATCATCAGCCAAAACCCTTCTGATATCAAGATTACAAGCGCAACAGTGGGAAAAGTAAGCGACCTCGGGATTACGGACCCGTTCGATATGGGATCCGCCATGGCGCCCGCCGCTGCCGACACAATCAAACAGCACCTGCAGGACTTAAACCGCACGGCGGATGATTATGATCTGATTTTAACGGGAGACCTTTCAGGCGTCGGCTCGCCGATCGTGAAAGATTTGCTCAAAGAAGAAGGCTATCCCGCCGGAACGAAACACGATGACTGCGGTCTTCTCATCTATACGCCGGACCAGCAGGTGTTTGCGGGCGGAAGCGGCTGCGCCTGCTCCGCGCTTGTTACGTACACACATATTTTTAATCAATTAAAAGCAGGGACTCTAAACAGGGTACTCGTTGTCGCGACAGGAGCGCTTTTAAGTCCGACAATGATCCAGCAGAAGGAAACCATTCCGACCATCGCGCACGGTGTGGTATTTGAGCGGGCGGGAGGTGCATCATAA	MKLTGKQTWVFENPLFVNAAGTAAGPKEKDGPLGSLFDKTYDEMHCNQKNWEMAERQLMEDAINSALQKQNLKKSDIDLLLAGDLLNQNVTANYVARHLKIPFLCLFGACSTSMETIAVASALIDGGFANRAIAATSSHNATAERQFRNPTEYGGQKPDTATSTVTGGGAVIISQNPSDIKITSATVGKVSDLGITDPFDMGSAMAPAAADTIKQHLQDLNRTADDYDLILTGDLSGVGSPIVKDLLKEEGYPAGTKHDDCGLLIYTPDQQVFAGGSGCACSALVTYTHIFNQLKAGTLNRVLVVATGALLSPTMIQQKETIPTIAHGVVFERAGGAS	PGPT0024810_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024810-spoVAD-K06406	NA	NA
D1-12_01393	453			hypothetical protein	GTGACAAACTTAAAAGAAAATTACAAAACAAAAGTGAAAGACTATCAGCCGAAACCGCCATATGTTTGGAATTGCGTCAAAGCCTTTCTGATCGGCGGTTTGATCTGTCTGATCGGGCAGGCTCTTCAAGACTTTTACATCCACTTTTTTAATTTTAATGAAAAAACTGCGGGCAACCCGACGTCCGCCACTCTTATTTTAATTTCCGCCCTTTTGACCGGATTCGGCATTTATGACAGACTCGGGCAGTTTGCCGGAGCGGGTTCAGCCGTGCCGGTGACGGGTTTTGCAAACAGTATGACAAGCGCGGCTCTGGAACACAGAAGTGAAGGACTCGTGCTCGGAGTAGCGACAAACATGTTTAAATTGGCGGGAAACGTCATTGTATTCGGCGTCGTGGCAGCCTATATCGTAGGCCTGATACGGTTTGCTTGTGAAAAACTGTTTTCGTAG	MTNLKENYKTKVKDYQPKPPYVWNCVKAFLIGGLICLIGQALQDFYIHFFNFNEKTAGNPTSATLILISALLTGFGIYDRLGQFAGAGSAVPVTGFANSMTSAALEHRSEGLVLGVATNMFKLAGNVIVFGVVAAYIVGLIRFACEKLFS	PGPT0024805_395	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024805-spoVAC-K06405	NA	NA
D1-12_01394	372			hypothetical protein	GTGGGGGCAGGCTTTGTGGCTTTTTTAACCGTTATGGGAATCGTCCCCCGCCTTATGCAGCTGACAAAAACAATGCGCTTTGTACAGGCCTACGAAGGAGCTGTTATTTCAGGAGCTGTGTTCGGCGGCTGGGAAACCTTAAATATGAATCATTTTTTTTTATCTGAATGGCTGGCCGTTCCGGTCGGGCTTTTGGCCGGCATGTTTGTCGGCATGCTGGCCGCCGCGCTTACAGAAGTGCTGAATGTGCTTCCCATTCTTGCCAAACGGATCGGCTTCGGCAGCAAAATCATCATATTGCTGATGGCCATTGTGTTCGGCAAAATAGCCGGCTCTTTATTTCATTGGCTGTATTTTATCCATCATTCATAA	MGAGFVAFLTVMGIVPRLMQLTKTMRFVQAYEGAVISGAVFGGWETLNMNHFFLSEWLAVPVGLLAGMFVGMLAAALTEVLNVLPILAKRIGFGSKIIILLMAIVFGKIAGSLFHWLYFIHHS	PGPT0024800_229	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024800-spoVAB-K06404	NA	NA
D1-12_01395	621			hypothetical protein	ATGGAAAGACGAATATTTCTCAGACTTCGCCACCGCGTGAAGGCTCATACCGGAGATATCATCACAATCGGCGACGCCGCGCAGATCGCGGGACAGCAAAAGCTGAAAAAAAAACTGTCGGCACTGCCGCTGTATAAGGTCACGAAAAAAGACAAAAATATCGTCGTGCTGGACATTATAAAAGTGCTGAAAACCATTCATACCGCTTTTCCTGCGCTTGATGTACAGACCGTCGGCGGCGCTGAAACGATAGTGGAAATCCATTACCAGAAAAAGCGGCTGTCAGCCGTTTTGTTCGTCGGTGTCTGGCTCCTGCTTTTTATCGGTTCATGTCTTGCCATTATGAATTTTCATGAAGATGTCAGTATGAGAGAAGTTCATATCGCCTTATATGAAATCATAACGGGCGAACGGAATGAATACCCGTATCTGCTTCAGATTCCATACAGCATCGGCCTCGGTCTCGGTATGATCGTCTTTTTTAATCACATCTTCAAAAAACGCCTGAATGAAGAGCCAAGCCCGCTGGAAGTCGAGATGTTTAATTATCAGCTTGATCTCGATCATTATGTCGCAATGCACGAAAATGAAGAGACGATGAAAGATCTGCATGATCGTTAG	MERRIFLRLRHRVKAHTGDIITIGDAAQIAGQQKLKKKLSALPLYKVTKKDKNIVVLDIIKVLKTIHTAFPALDVQTVGGAETIVEIHYQKKRLSAVLFVGVWLLLFIGSCLAIMNFHEDVSMREVHIALYEIITGERNEYPYLLQIPYSIGLGLGMIVFFNHIFKKRLNEEPSPLEVEMFNYQLDLDHYVAMHENEETMKDLHDR	PGPT0024795_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024795-spoVAA-K06403	NA	NA
D1-12_01396	768	sigF	COG1191	RNA polymerase sigma-F factor	ATGGATGTGGAGGTTAAGAAAAACAGCAAAAACGCGCAGCTCAAGGACCATGAAGTCAAAGAATTGATCAAAAAGAGCCAAGAGGGCGACCAGCAGGCAAGAGACCTCCTCATAGAAAAAAACATGCGTCTTGTGTGGTCCGTCGTTCAAAGGTTTTTAAACAGAGGCTATGAGCCGGACGATCTGTTTCAGATCGGCTGTATCGGATTGTTAAAATCCGTTGATAAATTCGATTTGTCCTATGATGTCCGTTTTTCAACTTATGCCGTGCCGATGATTATCGGAGAAATCCAGCGCTTCATCCGCGATGACGGAACCGTCAAAGTATCAAGATCTTTAAAAGAGCTCGGCAATAAAATACGCCGGGCGAAAGATGAACTGTCAAAAACATACGGAAGAGTGCCGACCGTCCAGGAAATCGCGGACCATTTAGAAATTGATGCGGAGGATGTGGTGCTTGCGCAGGAAGCGGTGCGGGCGCCTTCATCCATTCATGAGACCGTGTATGAAAATGACGGAGACCCGATCACCCTGCTTGATCAGATCGCCGATCATTCAGAAGAGAAGTGGTTTGACAAAATCGCCCTCAAGGAAGCGATCAGTGATTTGGAAGAACGGGAAAAACTCATTGTCTATCTGAGATATTATAAAGATCAGACACAGTCGGAGGTAGCCGAACGGCTCGGGATTTCCCAAGTCCAGGTATCGAGGCTGGAGAAAAAAATATTAAAGCAGATTAAAGTGCAGATGGATCATACGGAAAGCTGA	MDVEVKKNSKNAQLKDHEVKELIKKSQEGDQQARDLLIEKNMRLVWSVVQRFLNRGYEPDDLFQIGCIGLLKSVDKFDLSYDVRFSTYAVPMIIGEIQRFIRDDGTVKVSRSLKELGNKIRRAKDELSKTYGRVPTVQEIADHLEIDAEDVVLAQEAVRAPSSIHETVYENDGDPITLLDQIADHSEEKWFDKIALKEAISDLEEREKLIVYLRYYKDQTQSEVAERLGISQVQVSRLEKKILKQIKVQMDHTES	PGPT0014795_472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
D1-12_01397	441	spoIIAB	COG2172	Anti-sigma F factor	ATGAAAAACGAGATGCATCTTGAATTTTCAGCCCTCAGTCAGAACGAATCGTTTGCGCGCGTAACAGTTGCTTCTTTTATCGCACAGCTCGACCCGACGATGGATGAGCTGACGGAAATCAAGACCGTCGTATCAGAAGCGGTAACAAACGCGATCATCCACGGCTATGAAGAAAACTGCGACGGAAAGGTGTACATCTCCGTTACGCTGGAGGATCATGTCGTCTATCTGACCATACGTGACGAAGGCCTCGGGATCACGGATCTTGAGGAAGCGCGCCAGCCGCTCTTTACGACAAAACCCGAGCTTGAGCGCTCCGGAATGGGCTTTACCATTATGGAAAACTTCATGGATGATGTCACGATTGATTCCTCGCCGGAGATGGGAACGACGATACGCTTAACAAAACACCTATCAAAAAGCAAAGCGCTTTGTAATTAA	MKNEMHLEFSALSQNESFARVTVASFIAQLDPTMDELTEIKTVVSEAVTNAIIHGYEENCDGKVYISVTLEDHVVYLTIRDEGLGITDLEEARQPLFTTKPELERSGMGFTIMENFMDDVTIDSSPEMGTTIRLTKHLSKSKALCN	PGPT0024660_208	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024660-spoIIAB-K06379	NA	NA
D1-12_01398	354	spoIIAA	COG1366	Anti-sigma F factor antagonist	ATGAGCCTTGGAATTGACTTTCATGTCAAAGAATCCGTGCTTTGTATTCGATTAACAGGTGAACTCGACCATCATACGGCAGAATCATTAAAACAAAAGGTTACTGAATCGCTGGAGGCTGACGGCATCCGTCACATCGTGCTGAACCTTGAAGATCTTACCTTCATGGACAGCTCCGGCCTCGGCGTGATTTTAGGGCGTTATAAACAAATTAAACAGCTCGGCGGAGAAATGGTCGTGTGCGCGATTTCGCCCGCGGTGAGACGTCTGTTTGACATGTCCGGCCTGTTTAAAATCATCAGGTTCGAACAATCAGAACAAAAAGCGCTTTTAACGTTGGGGGTGGCATCATGA	MSLGIDFHVKESVLCIRLTGELDHHTAESLKQKVTESLEADGIRHIVLNLEDLTFMDSSGLGVILGRYKQIKQLGGEMVVCAISPAVRRLFDMSGLFKIIRFEQSEQKALLTLGVAS	PGPT0024655_174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024655-spoIIAA-K06378	NA	NA
D1-12_01399	1170	dacF	COG1686	D-alanyl-D-alanine carboxypeptidase DacF	ATGAAACGTCTTATATCCACTTTGTTGATTGGCATTTTATTAACGGCATCAGCACCGTCCGCTTTTGCAAAGCCGGACGGAAAACATACATCGGAGCTCGCTCATGAAGCCAAAAGCGCCGTGCTGATTGAACGCGATACGGGAAGCATTCTTTATAACAAGAACAGCCGGGAGCGTCTGGCGCCGGCAAGCATGACAAAAATCATGACCATGCTTTTAATCATGGAAGCGCTTGACAAAGGGAAAATAAAGATGAGCGATAAAGTCAGGACGAGTGAACATGCTGCGTCCATGGGCGGATCACAGATTTTCCTTGAACCCGGAGAAGAAATGACGGTAAAAGAAATGCTCAAAGGAATTGCGATAGCTTCCGGAAATGACGCATCTGTCGCAATGGCGGAGTATATCGCCGGTTCAGAAGAGGATTTCGTCAGCCGGATGAACAAAAAAGCAAAAGAATTGGGATTGAAAGATACCTCCTTCAAAAACCCGACGGGACTGCCCGAAAAAGACCATTACAGCTCTGCTTATGACATGGCGAAAATGGCGAAGGAATTATTAAAGTATGATAAAATCACTCAATTTACAGGAACGTATGAGGATTATTTAAGAGAAAATACAGACAAAAAGTTCTGGCTCGTCAATACAAACCGGCTGATCAAATTTTATCCGGGTGTAGACGGCGTGAAGACGGGCTTTACAGGCGAAGCGAAGTATTGTTTAACCGCCACCGCTAAAAAAGGAAATATGAGGGTCATTGCTGTCGTTTTCGGAGCCAGCACTCCGAAAGAAAGAAACGCCCAAGTGACCAAAATGCTTGATTACGCCTTCAGCCAGTTCAAAACACACCCGCTGTACAAACGGGATCAAATCGTCGGAACGGTAAAAGTAAAAAAAGGAAAACAGAAACTGGTTAAGCTGACCACATCTGAGCCGATTTCTCTTCTGGCCAAAAAGGGAGAGAACATGGACAAAGTAAAAAAAGAAGTGAAAATCAACGGCAATGTAACGGCTCCGGTTAAAAAAGGAGAGGTGCTCGGCAGCCTCGTTCTGAAAAAAGACGGAAAGGTGCTCGTTGAAAGCCCGGTCACGGCAAAAGACGACATGGAAAAAGCGGGTTTTCTCACTTTTCTGAAGCGCACGATGGGAGATTGGACAAAATTTAAATAA	MKRLISTLLIGILLTASAPSAFAKPDGKHTSELAHEAKSAVLIERDTGSILYNKNSRERLAPASMTKIMTMLLIMEALDKGKIKMSDKVRTSEHAASMGGSQIFLEPGEEMTVKEMLKGIAIASGNDASVAMAEYIAGSEEDFVSRMNKKAKELGLKDTSFKNPTGLPEKDHYSSAYDMAKMAKELLKYDKITQFTGTYEDYLRENTDKKFWLVNTNRLIKFYPGVDGVKTGFTGEAKYCLTATAKKGNMRVIAVVFGASTPKERNAQVTKMLDYAFSQFKTHPLYKRDQIVGTVKVKKGKQKLVKLTTSEPISLLAKKGENMDKVKKEVKINGNVTAPVKKGEVLGSLVLKKDGKVLVESPVTAKDDMEKAGFLTFLKRTMGDWTKFK	PGPT0024040_3939	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
D1-12_01400	819	punA	COG0005	Purine nucleoside phosphorylase 1	TTGAAACAAAAGATCGAACGTGCTGCTGCATTTATTAAAGAACACGTGAAAGAAACACCAAAGATCGGTCTGATTTTAGGGTCAGGGCTCGGCGTATTGGCCGATGAAATTGAAGGAGCTGTCAAGCTTACATATGAAACGATCCCTGATTTTCCGGTCTCAACGGTAGAAGGCCATGCCGGCCAGCTTGTGATGGGAACGCTTGAAGGCGTGCAGGTCATCGCGATGCAGGGCCGCTTTCATTACTATGAAGGCTACTCAATGGATCAGGTCACATTTCCCGTCCGCGTGATGAAGGCGCTCGGCGTTGAATCTCTTGTCGTGACGAACGCAGCCGGCGGTATCAACACTGAATTCCGCGCCGGCGATCTGATGATCATTACAGACCACATCAACTTTACGGGCACCAACCCGTTAATCGGGCCGAACGAAGCTGAATTCGGACCGAGATTCCCGGACATGTCAGAAGCCTATGACAAAGAGCTGTCAAGCTTGGCTGAAAAAACGGCCGATGAGCTGGGCATTCCTGTTCAAAAAGGGGTGTATACAGCTGTTACGGGGCCGTCTTACGAAACGCCTGCTGAGGTTCGGTTTTTAAGAACGATGGGTTCTGACGCTGTCGGCATGTCGACCGTGCCGGAAGTCATCGTCGCCAACCACGCGGGGATGCGCGTGCTCGGCATCTCATGCATTTCCAACGCAGCGGCAGGTATTCTTGACCAGCCGTTATCCCATGAAGAAGTAATGGAAATGACGGAAAAAGTAAAAGGCGGCTTTTTGAAGCTTGTAAAAGCCGTAGTCGCACGATCTCAAAAATAA	MKQKIERAAAFIKEHVKETPKIGLILGSGLGVLADEIEGAVKLTYETIPDFPVSTVEGHAGQLVMGTLEGVQVIAMQGRFHYYEGYSMDQVTFPVRVMKALGVESLVVTNAAGGINTEFRAGDLMIITDHINFTGTNPLIGPNEAEFGPRFPDMSEAYDKELSSLAEKTADELGIPVQKGVYTAVTGPSYETPAEVRFLRTMGSDAVGMSTVPEVIVANHAGMRVLGISCISNAAAGILDQPLSHEEVMEMTEKVKGGFLKLVKAVVARSQK	PGPT0013380_1449	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
D1-12_01401	1185	deoB	COG1015	Phosphopentomutase	ATGTCTGAATACAAATATAACCGGGTATTTTTGATCGTAATGGATTCTGTCGGAATCGGTGAAGCGCCGGACGCCGCCGATTTTAATGATATAGGCGCAAATACGCTCGGACACATCGCAGAGCACATGAACGGCTTACATATGCCCCATATGGCGCAGCTCGGTCTCGGACTGATCGGAGACATTAAGGGCGTGGAAAAAACGGAGCACCCTCTTGCGTACTACGGAAAAATGCAGGAGGCGTCAAACGGGAAAGATACGATGACGGGGCACTGGGAGATTATGGGCCTCTACATTGAAAAACCGTTTAAAGTGTTCCCGGAAGGATTTCCGGATGAACTTCTTCAGGAACTTGAGCGGCGTTCAGGACGGAAAATCATCGGAAATAAGCCGGCTTCAGGCACGGCGATTCTGGACGAGCTCGGAAAAGAACATATGGAAACGGGTGCGCTGATCGTTTATACATCAGCAGATTCCGTGCTGCAGATTGCGGCTCACGAAGATGTCGTTCCGCTTGACGAGCTGTACAGCATCTGTGAAACGGCAAGAGAACTGACGCTTGATCCGAAGTACATGGTCGGCCGGATTATCGCAAGACCGTTCGTCGGAGAACCGGGCAGCTTCAAACGCACGCCGAACCGTCATGATTATGCGCTCAAACCGTTCGGACGCACGGTAATGAACGGAATGAAAGACAGCGGATTAGACGTCATTTCCATCGGCAAAATTTCTGATATTTATGACGGAGAAGGCATTACATCTTCCCGCCGCACGGTATCTAATATGGACGGCATGGACAAAGTGATTGAAACGCTCGGTGAAGAGTTTACGGGCCTGAGCTTTGCCAACCTCGTTGATTTTGACGCGCTGTACGGACACCGCCGCGATCCGGAAGGGTACGGAAAAGCGCTCGAGGAATTCGACGCGAGGCTTCCGGAAGTGTTTGAAAAAATGAAAGAAGACGATCTGCTTATCATCACTGCGGATCACGGCAATGATCCTGTCCATCACGGCACGGATCACACGCGGGAGTATGTGCCGCTTCTTGTTTACAGCAAAAAGCACAAACACACTGAACAGCTGCCGCTTGCGGATACATTTGCCGATATCGGCGCAACCATTGCGGATAATTTCAAAACGGAAAAGCCGGAATACGGAAAAAGCTTTTTATCAAGATTACAGTAG	MSEYKYNRVFLIVMDSVGIGEAPDAADFNDIGANTLGHIAEHMNGLHMPHMAQLGLGLIGDIKGVEKTEHPLAYYGKMQEASNGKDTMTGHWEIMGLYIEKPFKVFPEGFPDELLQELERRSGRKIIGNKPASGTAILDELGKEHMETGALIVYTSADSVLQIAAHEDVVPLDELYSICETARELTLDPKYMVGRIIARPFVGEPGSFKRTPNRHDYALKPFGRTVMNGMKDSGLDVISIGKISDIYDGEGITSSRRTVSNMDGMDKVIETLGEEFTGLSFANLVDFDALYGHRRDPEGYGKALEEFDARLPEVFEKMKEDDLLIITADHGNDPVHHGTDHTREYVPLLVYSKKHKHTEQLPLADTFADIGATIADNFKTEKPEYGKSFLSRLQ	PGPT0017440_999	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839	NA	NA
D1-12_01402	891	xerD		Tyrosine recombinase XerD	GTGAAGGATCAAATTAAGGATTTCATCCATTACGTGAGGGTTGAAAGAGGGCTGTCCCAAAATACGATGATGTCCTATGAGCGTGATCTGAAAAGTTATTCTCTCTTCTTAACTGAAAGCCTTCAGATCACTTCATGGAATGATGTGACCCGTCTTCATATTATTCAATATTTAAAGCATATAAAGGACTCCGGGAAATCCGGCAAGACGTCTGCCAGGCATTTGGCGTCAATCCGGTCTTTTCATCAATTTCTGTTAAGGGAAAAAGCCGCGGATAAAGATCCTTCGGTACATATTGAAACACAAAAAACAGAGCGGACGCTTCCGAAAGTATTGGCGCTTCACGAAGTTGAGCGGTTATTGGACACGCCTAAGCTTGACAGCCCGTTCGGTCTCAGGGATAAAGCCATGCTTGAACTGCTGTACGCGACCGGCATCAGGGTCAGCGAGATGATCGAGCTGAAATTATCCGACGTCCATTTGACGATGGGATTTGTCCGCTGCTTCGGAAAAGGGCGGAAAGAGCGGATTGTGCCGATTGGTGAAGCCGCTTCTCATGCGATAGAAGCGTACATTGAAAAAGCCAGAGGGAAATTATTAAAGAAAAACGTAACCGAAGCGCTTTTTCTGAATCATCACGGCAGGCAGATCAGCCGTCAGGGATTCTGGAAAAACCTGAAAAAAATCGCCCTTGAAGCGGGGATTAAAAAAGAGCTGACACCGCACACGCTCCGGCACTCCTTTGCAACGCACCTGCTCGAAAACGGGGCGGATCTGCGCGCCGTGCAGGAGATGCTCGGACATGCCGATATTTCCACGACGCAAATTTATACGCATGTGACGAAAACAAGGCTGAAGGACGTGTACAAACAGTATCATCCGCGCGCTTAG	MKDQIKDFIHYVRVERGLSQNTMMSYERDLKSYSLFLTESLQITSWNDVTRLHIIQYLKHIKDSGKSGKTSARHLASIRSFHQFLLREKAADKDPSVHIETQKTERTLPKVLALHEVERLLDTPKLDSPFGLRDKAMLELLYATGIRVSEMIELKLSDVHLTMGFVRCFGKGRKERIVPIGEAASHAIEAYIEKARGKLLKKNVTEALFLNHHGRQISRQGFWKNLKKIALEAGIKKELTPHTLRHSFATHLLENGADLRAVQEMLGHADISTTQIYTHVTKTRLKDVYKQYHPRA	PGPT0022000_6670	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
D1-12_01403	228			hypothetical protein	ATGGGCAGATTCTTAAAAACAGCCGCGGATACGATCAAAGTGTTTATACTGTTCACAGGTTTTACCGCGCTGTTCTATTATGCTATGATATGGGTGAATTCAGAGTATGAAAACTATCATCGGTACGATAAACCGGAAGGCTCCGCCGTCAAAGTGGCCAAAACGGAACATGAGGAGAAAGACGGCTGGTTCGGCCGATTGATCTTTTTTTACCAAAACGGGGAGTAG	MGRFLKTAADTIKVFILFTGFTALFYYAMIWVNSEYENYHRYDKPEGSAVKVAKTEHEEKDGWFGRLIFFYQNGE				NA	NA	NA	NA	NA
D1-12_01404	450	fur	COG0735	Ferric uptake regulation protein	ATGGAAAACCGTATTGATCGAATTAAAAAGCAGCTGCACTCGTCAAGCTACAAGCTTACGCCACAGCGGGAAGCAACGGTAAGAGTGCTGCTTGAAAACGAAGAAGACCATTTAAGCGCAGAAGATGTATACCTCCTCGTAAAAGAGAAATCTCCTGAAATTGGTCTCGCTACAGTATACCGTACATTAGAATTATTAACAGAATTAAAAGTCGTTGATAAAATTAACTTCGGGGACGGCGTATCCCGCTACGACCTTCGCAAAGAAGGCGCGGCTCACTTTCATCACCATTTGGTGTGCATGGAGTGCGGAGCCGTCGATGAAATTGAAGAAGATCTGCTTGAAGACGTTGAAGAAGTGATTGAACGTGATTGGAAATTTAAAATTAAAGATCATAGATTGACTTTTCACGGAATCTGCCACCGCTGCCGCGGGGATGAAACAGAGTAA	MENRIDRIKKQLHSSSYKLTPQREATVRVLLENEEDHLSAEDVYLLVKEKSPEIGLATVYRTLELLTELKVVDKINFGDGVSRYDLRKEGAAHFHHHLVCMECGAVDEIEEDLLEDVEEVIERDWKFKIKDHRLTFHGICHRCRGDETE	PGPT0003880_821	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
D1-12_01405	645	spoIIM	COG1300	Stage II sporulation protein M	ATGAGAAAACAATCGTACAAAGAACTGTTTTTTCGCCATGTAAAGGATCATCTGTCACTTTATATATTTGTGTTTGTCTTGTTTTTGATGGGGGTCATTTTCGGGGCGATCATCGTCAACAGCATGACCATCACGCAGAAAGAAGATCTGTATTACTATTTAAGCAAGTTTTTCGGACAGCTGTCTGACGGAAAACATGCCGGCGCTTCAGAAATGTTTTGGCAGGCCGTCTTTCATGATGTAAAATATTTGGGGCTGATGTGGATTCTCGGTATTTCCGTGATCGGTCTTCCGGTTATTTTCATTATGGTGTTCTTAAAAGGAATCGTCGTCGGCTTCACGGTCGGTTTTTTAGTGAATCAAATGGGGATGAACGGGTTTTTCCTGTCATTTATTTCGGTTCTGCCGCAAAACATCGTTCTCATTCCGGCATACCTTATCATGGGGACATGCTCCATCGCTTTTTCCCTGAAATTGATCCGGCAGCTGTTTGTCAAACGCAGCCTTCATGACGCGCCGATCCAATGGTTCGGACGCTACGCCTTCGTGCTGATTCTCATCGTTTTCTTCTCGGTCATCGCTTCGCTGCTCGAGGCGTACGTGTCTCCGCTGTTTATGGAAAAGCTGTCATCACGCATATTTTAG	MRKQSYKELFFRHVKDHLSLYIFVFVLFLMGVIFGAIIVNSMTITQKEDLYYYLSKFFGQLSDGKHAGASEMFWQAVFHDVKYLGLMWILGISVIGLPVIFIMVFLKGIVVGFTVGFLVNQMGMNGFFLSFISVLPQNIVLIPAYLIMGTCSIAFSLKLIRQLFVKRSLHDAPIQWFGRYAFVLILIVFFSVIASLLEAYVSPLFMEKLSSRIF	PGPT0024685_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
D1-12_01406	228			hypothetical protein	ATGGCGAAGAGCAAAACGAAAAAAATGCGGGAGCATCTCAAAAGAAACGGGATGCGTGACGCAGTCCTGTCAAGGGGGACGGCGCCGTCTTTCAGCACCCATGAAAGAGTGACGAAAACCAAAAAAGACAGGCTTGAAAGAATAAAGCATAAAAAAAGGAACCCCTATGATCACCGGAGTGATGACGGGGGTTCTTTTTTTATGCCGGAATCTCGCGCCTTTCTATGA	MAKSKTKKMREHLKRNGMRDAVLSRGTAPSFSTHERVTKTKKDRLERIKHKKRNPYDHRSDDGGSFFMPESRAFL				NA	NA	NA	NA	NA
D1-12_01407	291			hypothetical protein	GTGGATTATTTTCCGCTGATCCATACAAATATTTGGGATGCTGTGATCGGCGTGCCGGTCGTCTTATGCGTTACACAGCTGATCAAAGTGTTCTGCCGGGTTCCGGGCATATTCGTTCCCACGATTGCCCTTGCTGCCGGAAATGTTGTGTCTATCGTTTTCGGTCATCATGAACACGTGTATGCGGGGATTTTTATGGGGTTTTTTTACGGATACGCCGCAATGGGGAGCTATTCATCTGCCAAAACGTCTCTGCGCGCTTACCGGTCGAAACATGAGCCGTATTCATGA	MDYFPLIHTNIWDAVIGVPVVLCVTQLIKVFCRVPGIFVPTIALAAGNVVSIVFGHHEHVYAGIFMGFFYGYAAMGSYSSAKTSLRAYRSKHEPYS				NA	NA	NA	NA	NA
D1-12_01408	1314			NAD-dependent malic enzyme	ATGATTACAAAGCATATGATTCGGACGTTAATGATTGAAACGCCGACTGTTCCCGGAAATCTCGGAAAAGTGGCAACCGCCATCGGAGTGATGGGCGGAGATATCGGGGAAGTTGAAACCGTTAAAGTCGGCCCGAACTACACAATGCGCAACATTACGGTGCAGGCTGAAAATGAAGAGCAGCTGCAGGAAATCATTCAAGCCATTGAAGCTCTCGGTGAAGGCATCCGGCTTCATACAGTCTCAGATGAAGTGCTCTCTGCTCATGAAGGCGGCAAAATTCAGATGAAAAGCAAAATGCCGATCCGGACATTGGCTGAGCTTGGCCGTGTTTATACGCCGGGCGTCGCCGATGTGTGCAGACTGATCGAAAACGAGCCTGAAAAAGCATCCATCTATACGACAATCAGCAATTCTGTCGCCATTGTCACCGACGGCACGGCGATTCTCGGCCTCGGCAATATCGGCTCTGTCGCCGGAATGCCCGTAATGGAAGGGAAAGCCGCGCTTTTTGACCAGCTGGCGGGTATCAGCGGAATTCCGATTTTGCTCGATACCTCTGATCCGGAAGAAATCATTCGCACGGTAAAACATATTTCTCCGGGGTTCAGCGGAATTCTGCTTGAAGATATCGGTTCGCCCCACTGCTTTGACATTGAAGACCGCCTGAAAGAAGAACTGGACATTCCGGTTATGCACGATGACCAGCACGGCACGGCGGTCGTCACGCTCGCCGCCGCCATTTCCGCTTGTAAAAGCGCCGGTCTTGATTTAAAAGAAGCGAAGGTCGGTCAGATCGGTCTCGGCGCGGCAGGCGTCGCCATCTGCCGCATGTTTATGGCATACGGAGTCAAAGCGGTCTGCGGAACGGACAAGTCAGAAGACGCAATGAACCGCCTCGCTCAGTACGGAGGTCAGCCGCTTGGAAGCATCAAAGAATTAATGGACACGTGTGACATTGTGATCAGCACCACAGGAGTTCCGGGTCTCATTAAAAAAGAGGATGTCAGAAAAGGACACGTCATTCTGGCTTTATCTAATCCGAAGCCGGAGATTGAACCGGAAGAGGCATTACAAGCCGGAGCCGCTTATGCAGCTGACGGCCGTTCAGTCAATAATGTTCTCGGCTTCCCGGGGATTTTCCGCGGCGCGCTGAACGCCAAAAGCAAGAAAATCGACCATGAAATGCTTGTGGCGGCCGCAGAAGCCATCGCCTCTTGCACAAAACACGGCGATCTCGTGCCTCAGCCTTTGGATGCGGACGTGCATCAGGCCGTATCAGCAGCCGTGGAACGGGCCGCGGCAGGAAAATAA	MITKHMIRTLMIETPTVPGNLGKVATAIGVMGGDIGEVETVKVGPNYTMRNITVQAENEEQLQEIIQAIEALGEGIRLHTVSDEVLSAHEGGKIQMKSKMPIRTLAELGRVYTPGVADVCRLIENEPEKASIYTTISNSVAIVTDGTAILGLGNIGSVAGMPVMEGKAALFDQLAGISGIPILLDTSDPEEIIRTVKHISPGFSGILLEDIGSPHCFDIEDRLKEELDIPVMHDDQHGTAVVTLAAAISACKSAGLDLKEAKVGQIGLGAAGVAICRMFMAYGVKAVCGTDKSEDAMNRLAQYGGQPLGSIKELMDTCDIVISTTGVPGLIKKEDVRKGHVILALSNPKPEIEPEEALQAGAAYAADGRSVNNVLGFPGIFRGALNAKSKKIDHEMLVAAAEAIASCTKHGDLVPQPLDADVHQAVSAAVERAAAGK	PGPT0001350_2075	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001350-maeA|sfcA|ywkA-K00027	NA	NA
D1-12_01409	1407	mleN	COG1757	Malate-2H(+)/Na(+)-lactate antiporter	GTGAAAGAGGTCAGATTGCCAAATTTATTGGAAATAATTATCTTATTATTCGGGTTTTTAGCACTTGTCTTATCGTTCACAGTGTTTTTAGACCTGCCGATCCAGCTAGCTCTATTAATATCCTGGTTTTTCGCTATTATTCTCGGAGTCAGGCTGGGATATTCATATAAAGACTTGCAGGATTCGATTGTCACCGGGATATCAAACGGTCTTGAAGCGGTATTGATTCTCGTTTCGGTCGGTGCACTCATCGGGACATGGATTGCCGGCGGCGTTGTGCCGACGTTAATTTATTATGGTTTAGAGTTTATTAATCCTCATGTTTTCCTTCTGGCTACACTGGTTATTTGTTCCGTTATGTCCGTTGCGACCGGAACGTCGTGGGGAACCGTGGGAACCGCGGGGATCGCCATGATTGCTATCGGAGAGGGAATGGGTATACCGCTTCCGATCGTAGCGGGAGCCGTTTTGTCCGGCGCTTACTTCGGAGACAAGCTTTCACCGCTGTCTGACAGTACAGTGCTTGCCTCCACGCTTTCTAAGGTGGATGTGCTGTCACACGTCAGAGCGATGATGTATCTGTCAATTCCGTCCTATATTATTACGGCCATTCTATTTACCGTAACGGGATTTATATACGGCGGAAAAAATATTGATCTCGACAAAGTGGAATTTTTAAAATCTTCATTGCAGAAAACGTTTGACATTCATATATGGATGCTCATTCCGGCTGTTGTCGTCGTTGTCCTTCTGATTTTGAAAAAGCCGTCTATGCCCGTTATCGTCATCGGTGCTTTGCTTGGCGCAATCTGGGCTTCCGTCTTTCAGGGAATGAATTTTGCCAGTGCCATCGCGACTGCTTATAATGGTTTTTCCATAAAAACGGACGTCGAATTTTTAAACGGCCTGTTAAACCGCGGAGGCATTACCGGTATGCTAGATACGTTAGTCGTTATCCTGTTCGGTCTTGGTTTTGGAGGAATTCTTGAGAAGCTCGGCGTATTAAAAGTGATTGTCTCAACTTTTGAGAAAAAGCTGACCACACCGGGAAATGTGACGCTTTCGACATTGATCGTCGCCCTTTTAGGAAACATTTTCGGCTGTGCGATGTACGTGTCATTGATTCTGACGCCGAAAATCATGGAGAACAGTTATGATAAACTGAAACTTGACAGAAGAGTTTTATCCCGGAACGCAGAGGTGGGCGGCACGCTTACTTCAGGGATGGTGCCGTGGTCTGATAACGGCATCTATATGGCCGGCATTCTCGGCGTATCCACATTTTCTTATCTGCCGTTCATGTGGCTCAGTTTTGTATCTATCGGACTGGCAATATTGTACGGATACACGGGGAAATTCATTTGGTACACGAAAGAAAAATCCTTGCAATCTCAAAAGTTGGGTTAG	MKEVRLPNLLEIIILLFGFLALVLSFTVFLDLPIQLALLISWFFAIILGVRLGYSYKDLQDSIVTGISNGLEAVLILVSVGALIGTWIAGGVVPTLIYYGLEFINPHVFLLATLVICSVMSVATGTSWGTVGTAGIAMIAIGEGMGIPLPIVAGAVLSGAYFGDKLSPLSDSTVLASTLSKVDVLSHVRAMMYLSIPSYIITAILFTVTGFIYGGKNIDLDKVEFLKSSLQKTFDIHIWMLIPAVVVVVLLILKKPSMPVIVIGALLGAIWASVFQGMNFASAIATAYNGFSIKTDVEFLNGLLNRGGITGMLDTLVVILFGLGFGGILEKLGVLKVIVSTFEKKLTTPGNVTLSTLIVALLGNIFGCAMYVSLILTPKIMENSYDKLKLDRRVLSRNAEVGGTLTSGMVPWSDNGIYMAGILGVSTFSYLPFMWLSFVSIGLAILYGYTGKFIWYTKEKSLQSQKLG	PGPT0013945_971	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
D1-12_01410	1428	aspA	COG1027	Aspartate ammonia-lyase	ATGACAAACGCGCAAAAAGAATATCGTCAGGAAAAAGATTTCCTCGGAGAAAAACAAATTGAAGCTGATGTGTATTACGGAATACAAACGCTGCGCGCGAAAGAAAACTTTCCGATTACCGGATACCGCATCCACGAAGAAATGATTAATGCGCTCGCCATCGTCAAAAAAGCGGCGGCGCTTGCCAACATGGATGTAAAACGGCTGTATGAAGGAATCGGGAATGCGATTGTACAGGCCGCAGATGAAATTCTTGAGGGAAAATGGCATGACCAATTTATCGTCGATCCGATCCAAGGGGGAGCCGGAACGTCCATGAACATGAATGCCAACGAAGTAATCGGCAACAGGGCTCTTGAAATCATGGGGCATAAAAAAGGTGAATACATTCACCTCAGCCCGAACACACACGTCAACATGTCACAATCGACGAACGACGTGTTCCCGACGGCAATCCATATTTCAACCTTGAAACTTTTGGATAAGCTCCTTGATACGATGGCGCATATGCTCAGTGTCTTTAAAGATAAAGCGAAACAATTTGATTCTGTCATTAAAATGGGGCGCACACACCTTCAGGACGCTGTGCCGATCCGTCTCGGACAGGAATTTGAAGCATACAGCCGCGTGCTTGAGCGTGACATAAAGCGAATTAAACAATCCCGCCAGCATCTGTATGAAGTAAACATGGGGGCAACGGCCGTAGGTACGGGGCTTAACGCCGATCCGCGCTACATAGAACAGGTTGTGAAGCACCTCGCTGACATCAGCGGACTGCCGCTTGTCGGCGCCGGCCATTTGGTTGACGCCACACAAAACACTGATGCGTATACGGAAGTTTCAGCCGCGTTGAAAGTATGCATGATGAACATGTCGAAAATCGCCAACGATCTGCGCTTAATGGCTTCAGGTCCGCGCGCGGGACTTGCGGAAATTTCACTGCCCGCCCGTCAGCCGGGATCATCCATTATGCCTGGGAAAGTCAACCCTGTAATGGCAGAGCTGATCAACCAAATCGCCTTCCAGGTCATCGGGAATGACAATACGATCTGCCTCGCTTCAGAAGCGGGCCAGCTGGAGCTTAACGTAATGGAGCCGGTACTTGTATTTAACCTGCTTCAATCCATCAGCATCATGAATAACGGTTTCCGCTCATTCACCGATCATTGTCTGGCGGGAATTGAAGCCAACGAAAAACGTCTGAAGCAATACGTGGAAAAAAGCGTCGGCGTCATTACAGCGGTCAATCCGCACCTCGGGTATGAAGCGGCTGCGCGAATTGCCCGTGAAGCCATCATGACGGGGCAATCTGTAAGAGATCTTTGCCTTCAAAATGATGTACTGACAGAAGAAGAATTGGATATCATTTTGAATCCGTATGAAATGACAAAACCGGGAATTGCCGGAAAAGATCTATTAGAAAAATAA	MTNAQKEYRQEKDFLGEKQIEADVYYGIQTLRAKENFPITGYRIHEEMINALAIVKKAAALANMDVKRLYEGIGNAIVQAADEILEGKWHDQFIVDPIQGGAGTSMNMNANEVIGNRALEIMGHKKGEYIHLSPNTHVNMSQSTNDVFPTAIHISTLKLLDKLLDTMAHMLSVFKDKAKQFDSVIKMGRTHLQDAVPIRLGQEFEAYSRVLERDIKRIKQSRQHLYEVNMGATAVGTGLNADPRYIEQVVKHLADISGLPLVGAGHLVDATQNTDAYTEVSAALKVCMMNMSKIANDLRLMASGPRAGLAEISLPARQPGSSIMPGKVNPVMAELINQIAFQVIGNDNTICLASEAGQLELNVMEPVLVFNLLQSISIMNNGFRSFTDHCLAGIEANEKRLKQYVEKSVGVITAVNPHLGYEAAARIAREAIMTGQSVRDLCLQNDVLTEEELDIILNPYEMTKPGIAGKDLLEK	PGPT0020125_967	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
D1-12_01411	990	ansA	COG0252	L-asparaginase 1	ATGAAAAAATTATTGCTGTTAACAACCGGAGGAACAATCGCCTCAGTCGAAGGAGAAAACGGGCTTGCACCCGGGGTGAAAGCAGACGAATTGTTAACCTACGTATCAAAACTTGATAACGATTACACGATGGAGACCCATTCGTTAATGAACATCGACAGCACAAATATGCAGCCTGAATACTGGGCCGAAATCGCAAATGCTGTCAAAGAAAAGTATGACGCATATGACGGGTTCGTCATTACGCACGGAACAGACACAATGGCTTATACATCAGCGGCACTGTCTTATATGCTTCAGCATGCTGATAAACCGATCGTCATTACGGGTTCGCAAATCCCGATTACATTTCAAAAAACCGATGCCAAAAAAAATATCACGGACGCGATCCGCTTCGCATGTGAAGGGGTGGGCGGCGTATACGTCGTATTTGACGGCAGAGTCATTCAAGGCACACGCGCCATTAAATTAAGAACGAAAAGCTATGATGCATTTGAGAGCATTAACTATCCGTATATCGCGTTTATTACCGAAAACGGAATTGAATATAACAAACAAGTGCACATGCCAAAAGACGATGCTTTTACGGTCAATACTTCACTTTGCACGGACGTGTGCCTGCTCAAGCTCCACCCGGGGCTGAAACCGGAAATGTTTGACGCATTAAAGGGCATGTACAAAGGAATCGTCATTGAAAGCTACGGCAGCGGCGGCGTGCCGTTTGAAGGAAGAGACATTCTCGCCAAAGTCAATGAAATGATTGAAAGCGGCATTGTCGTCGTCATTACGACACAATGTCTTGAAGAAGGAGAGGACATGAGCGTCTATGAAGTCGGTCGAAGAGTCAATCAAGATCTCATTATCCGCTCCAGAAATATGAACACGGAAGCCATCGTGCCGAAATTAATGTGGGCGCTCGGCCAGTCTCACAACTTGGCTGAAGTCAAAAACATTATGGAGACACCGATCGCAGACGACGTTGTACTGTAA	MKKLLLLTTGGTIASVEGENGLAPGVKADELLTYVSKLDNDYTMETHSLMNIDSTNMQPEYWAEIANAVKEKYDAYDGFVITHGTDTMAYTSAALSYMLQHADKPIVITGSQIPITFQKTDAKKNITDAIRFACEGVGGVYVVFDGRVIQGTRAIKLRTKSYDAFESINYPYIAFITENGIEYNKQVHMPKDDAFTVNTSLCTDVCLLKLHPGLKPEMFDALKGMYKGIVIESYGSGGVPFEGRDILAKVNEMIESGIVVVITTQCLEEGEDMSVYEVGRRVNQDLIIRSRNMNTEAIVPKLMWALGQSHNLAEVKNIMETPIADDVVL	PGPT0020180_2078	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
D1-12_01412	354			hypothetical protein	ATGAATTTAGATCGTTTAACTGAACTGAGAAAAAAGAAAAATTGGTCTCTTCAATATACGGCTGACCGTCTCGGCATCGCCAAAAGCACGTACGCCGGGTATGAATCAGGATACCGGCGTCCGTCATTCGAGGCGTTGGGCACGCTTGCCGATCTGTTTGACACGACGTGCGACGATTTACTGGGGCGCACTGAAAAAAAAGCGGAGCCGTTTACCCAGATCATCGAATTAACAAACGCCGCACAAGGCCGCGGCACACTGACCGTTGACGGACAGCCGCTGAATCAGGATGAAATCATCGAATTGATTGCGTTTGTCCGCACGAAAAAGAAGGTGCAGGAGGAGCTCCGCTAA	MNLDRLTELRKKKNWSLQYTADRLGIAKSTYAGYESGYRRPSFEALGTLADLFDTTCDDLLGRTEKKAEPFTQIIELTNAAQGRGTLTVDGQPLNQDEIIELIAFVRTKKKVQEELR				NA	NA	NA	NA	NA
D1-12_01413	1164			hypothetical protein	ATGAAAACCATCTATGCGGATCTGCATATTCATATCGGCCGCACCCATACGGGAAAACCGGTCAAAATCACCGGGGCCAAAACGTTGACGCTGCACCGGATTTTAGAAGAAGCCAGTGAGGGGAAGGGAATTGAACTATTGGGCATCATCGACTGCCATTCCCCGGAAGTCATAGAAGAAATCGAGCGCGGAATTGATGAAGGCGGATACCGTGAGCTGAAAGAAGGCGGCATCCGGTATCGGAATACGACGCTTCTGTTGGGCAGTGAGCTTGAAATCTATGATCACACATGCCGCGGGCCGATTCACGTTCTCGTCTTTATGCCGTCTCTTGCCGAAATGAAGATGTTTTCTGAGTGGCTCGCAAAAAGGCTTAAAAATATCCATCTCAGTTCCCAGCGCATTTATGAAACCGGTTTGAATCTTCAGAGGAAAACAAAGGAATTGGGCGGGCTGTTTATTCCCGCCCATATGTTCACCCCGCATAAAAGCCTGTACGGAAAAGGGGTCAGATCTTCTTTGACAGAAGTTTTCGACCCGGCGCTCATTGATGCGGCGGAACTCGGGTTAAGCTGCGACACCGACATGGCTTCGCGGGTAACAGAACTTGATCCGTATACATTTTTAACAAATTCTGATGCGCATTCCTTAGGAAAAATCGGCAGAGAATATAATGAAATGCTTCTTAAAGAGGCGAATTTCACGGAATTTTCGCTGGCTTTAAAAGGGAAGGACGGAAGAAAAATCACGGCGAATTACGGGCTGAACCCGAAGCTCGGGAAGTATTACCGGACGGCTTGCGACCGCTGCGGCAGCCAGGTTGAAAAAGGAGCTTCCGCATGTCCGGAGTGCGGGGGGAAAACAATGACAAAAGGGGTCAGTGAACGGCTGGAGGAACTGAGCGGCCCGAAAAAAAGCCGCGTGCCGCGGCCGCCGTATATTCATCAAATTCCGCTGCAGTTCATTCCCGGCGTCGGGCCGAAAACGTTAGAAAAACTGAAGCGGGCCTTCGGGACGGAGATGGCGATTCTACATCAGGCGCAAGAAGAGGAATTGGCGCGTGTCGTCCAGCCTAAAATAGCGGCTGTCATTCATAAAGCGCGCACCGGGCAGCTTGTCCTTGAGGCCGGGGGCGGAGGGACGTACGGCCGAATCAAGCCGTAA	MKTIYADLHIHIGRTHTGKPVKITGAKTLTLHRILEEASEGKGIELLGIIDCHSPEVIEEIERGIDEGGYRELKEGGIRYRNTTLLLGSELEIYDHTCRGPIHVLVFMPSLAEMKMFSEWLAKRLKNIHLSSQRIYETGLNLQRKTKELGGLFIPAHMFTPHKSLYGKGVRSSLTEVFDPALIDAAELGLSCDTDMASRVTELDPYTFLTNSDAHSLGKIGREYNEMLLKEANFTEFSLALKGKDGRKITANYGLNPKLGKYYRTACDRCGSQVEKGASACPECGGKTMTKGVSERLEELSGPKKSRVPRPPYIHQIPLQFIPGVGPKTLEKLKRAFGTEMAILHQAQEEELARVVQPKIAAVIHKARTGQLVLEAGGGGTYGRIKP				NA	NA	NA	NA	NA
D1-12_01414	558	nudF	COG0494	ADP-ribose pyrophosphatase	ATGATGAAACATTTAGAAGAAAAAACACTTGCGAAAAAAAAGCTGTATGACGGGAAAGTCATAGATCTTTACTTAGAGGATGTAGAGCTCCCGAACGGAAAAACAAGCAAGCGGGAAATCGTCAAACATCCGGGAGCGGTGGCCGTACTTGCGGTGACCGAGGAAGGAAAAATCATTTTGGTGAACCAGTTCAGAAAGCCGCTGGAACGGACAATCGTTGAAATTCCGGCCGGGAAGCTTGAAAAGGGAGAAGAGCCGGAACATACGGCGTTAAGAGAGCTCGAGGAAGAAACGGGATATACGGCGGAAACCTTGACGAAAATCACCGCTTTTTATACATCACCCGGGTTTGCTGATGAAATCGTGCATCTCTTTCTTGCGGAAGGGCTTTCGCCGCTGGAAGAAAAACGAGAGCTGGATGAGGATGAATTTGTCGAAGTCATGCAGGTCACGCTTGAAGAGGCCGTGAAGCTGATTGAATCCCGCAGGGTGTATGACGCAAAAACGGCGTACGCGATTCAGTATCTCCAGCTGAAAGAAGCGCTGAAGGAAAAATGA	MMKHLEEKTLAKKKLYDGKVIDLYLEDVELPNGKTSKREIVKHPGAVAVLAVTEEGKIILVNQFRKPLERTIVEIPAGKLEKGEEPEHTALRELEEETGYTAETLTKITAFYTSPGFADEIVHLFLAEGLSPLEEKRELDEDEFVEVMQVTLEEAVKLIESRRVYDAKTAYAIQYLQLKEALKEK	PGPT0021525_2226	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
D1-12_01415	123	mciZ		Cell division inhibitor MciZ	TTGAAGGTGTACCGGAAGGATAAGAGTATCGTATTGGTCGGAAAGGCGTGGGAAGTGCGGGCTAAACTGAAAGAATACGGACGGACATTCCGCTATGTCGGAGATTGGATCACCGGGCCTTAA	MKVYRKDKSIVLVGKAWEVRAKLKEYGRTFRYVGDWITGP				NA	NA	NA	NA	NA
D1-12_01416	921	yajO	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAGAAAACGCACACTGGGACATTCTGATTTAGAAATAAGCGAAATCGGGCTCGGCTGTATGTCGCTGGGTACGGATAAAGCTAAAGCGCTGTCTATTTTGGATGAAGCGATCGAGCTTGGAATCAATTATTTAGATACCGCTGATCTTTATGATTTCGGCAGAAATGAGGAAATTGTCGGGGAGGCCGTCAAAAACCGCAGGCACGACATCATTTTAGCCACGAAAGCCGGAAACCGCTGGAATGATGATAAAGACGGCTGGCATTGGGACGCTTCCAAAGGATACATAAAAGAAGCGGTCAAAAACAGCCTGCGCCGGCTGAAAACGGACTATATCGACCTTTATCAGCTGCATGGCGGCACGATGGAAGACCATATTGACGAAACGATCGAAGCATTTGAGGACTTAAAACAGGAAGGTGTCATCCGGTATTACGGCATTTCCTCGATTCGTCCGAATGTTATTAAAGAATATGTGAAAAAATCAACTATCACCAGCGTTATGATGCAATACAGCCTGCTGGACCGGCGTCCCGAGGAGTGGCTTCCCCTTTTAGAGGAGAACGGAATCAGCGTAGTCGCAAGAGGGCCTGTCGCTAAAGGGCTTCTTACGGAAAAACCGCTTGATCAAGCGGCCGCAAGCGTAAAAGAGAACGGCTATTTAACATATTCTTTTGCAGAACTGGCAGAAACCAAAAAAGCGATCAGCGCTGCCGCACCTGACTTGAGCATGACGGAGCTTTCTCTTCAATACTTGCTGTCACAGCCGGCCGTCGCTTCTGTCATCACCGGAGCCAGCTCACTTGAGCAGCTGAGAGAAAACTGTTCGGCTGCAGAGGCCCGTCGTTTAAGCAGCCAGGAAATCAAAGCCCTGCAATATCATACAAAACGGGACGTATACGAAGCCCATCGTTCTTAA	MRKRTLGHSDLEISEIGLGCMSLGTDKAKALSILDEAIELGINYLDTADLYDFGRNEEIVGEAVKNRRHDIILATKAGNRWNDDKDGWHWDASKGYIKEAVKNSLRRLKTDYIDLYQLHGGTMEDHIDETIEAFEDLKQEGVIRYYGISSIRPNVIKEYVKKSTITSVMMQYSLLDRRPEEWLPLLEENGISVVARGPVAKGLLTEKPLDQAAASVKENGYLTYSFAELAETKKAISAAAPDLSMTELSLQYLLSQPAVASVITGASSLEQLRENCSAAEARRLSSQEIKALQYHTKRDVYEAHRS	PGPT0017540_1434	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
D1-12_01417	228			hypothetical protein	ATGATGAAAAAGCAGCTGCCTAAAGAAAAACACAGCTTAAAAGACGATCTGGAGGAAGATCTGAAGGCCAGGCTTTTGCAAATGAAAAGTGAGCTGAAGGAAGAAGACGAGAAAAAGCAGGCGCAGCAAAAGGCGGAACAAATCAGAAAACGAAAAGAAAAAGAAAAACATAAAAGCTTTGAAGAGCTGCTGAATGAAAGCAGTCTCGATTGGCACAAATATAAATAA	MMKKQLPKEKHSLKDDLEEDLKARLLQMKSELKEEDEKKQAQQKAEQIRKRKEKEKHKSFEELLNESSLDWHKYK				NA	NA	NA	NA	NA
D1-12_01418	915			hypothetical protein	GTGAAAAAATGGCTGGCGGTGTTCGGTTCGGCTTGCGCAGTCTTTTTGGCTGCCGGATTCGCTTTTACGAATCTGATTATGTTTATGAAGAAAAAGACGGATGAAGATATCATGAAAAAAGAAACGGCGGACGGGTATGATAGATTTGATTCCTTTCAGGCCATGGAAAAAGAAGAGGCCGTCATCCTGTCACGCCACGGGTATGAGATCAAAGGCTTTTACGTCGCCCCGCATCATACGGCAAACACCATGATTATTTGTCACGGCGTTACCGTAAATTCGTTCAATTCATTGAAATACATGGATTTATTTTTAGATTTAGGCTGGAATGTGCTCGTATATGACCACCGCGGGCACGGAAAAAGCGGCGGCAGAACGACGAGCTACGGCTATTTTGAAAAAGATGATTTGGAAGAAGCCGTGAATTGGGTGAGACACAAAACCGGAGACGGCGGTCAAATCGGCATCCACGGGGAATCGATGGGAGCGGTGACGGCCTTATTATACGCGGGCGGGCATCAGGATGAAAACGGCGCTGATTTTTATATTGCGGACTGTCCGTTCGCAAGCTTTCGCGATCAGCTCGCCTACAGGCTGAAGCGGGAGTTCCGGCTGCCTCCGTGGCCGCTTCTGCCTTTGGCTGATTTCTTTTTGCGGATGAGAGAAGGATACCGTATCCGTGATGTATCTCCTCTATCGGTTATCAGCCGAATCCGGCAGCCCGTGCTGTTTATTCACAGTAAGGAAGATGATTATATACCTCCCGCTTCTTCCGAATTGCTGCACCGCAGAAAACGCGGCCCTAAGATGCTCTATCTGGCCGAATCGGGCGGGCATGCCATGTCGTACACCAAAAATCCGGAGAGCTACCGCAAAGCCGTTCAAACCTTTTTAGATACCATGACGCAAACGTAA	MKKWLAVFGSACAVFLAAGFAFTNLIMFMKKKTDEDIMKKETADGYDRFDSFQAMEKEEAVILSRHGYEIKGFYVAPHHTANTMIICHGVTVNSFNSLKYMDLFLDLGWNVLVYDHRGHGKSGGRTTSYGYFEKDDLEEAVNWVRHKTGDGGQIGIHGESMGAVTALLYAGGHQDENGADFYIADCPFASFRDQLAYRLKREFRLPPWPLLPLADFFLRMREGYRIRDVSPLSVISRIRQPVLFIHSKEDDYIPPASSELLHRRKRGPKMLYLAESGGHAMSYTKNPESYRKAVQTFLDTMTQT				NA	NA	NA	NA	NA
D1-12_01419	240			hypothetical protein	GTGAATCAAAAGCTGAAAGCCATTAAACAGACGGCACAGCATAAAACGTGGGTATCCTTTTTGAACAACAACCATCCGTACAGTCTGCTGCACTGGTCCATCGGAGGCGCTGAATCCGTTCAGAAGGATGTCTGGCTGCTTCAGGATGAGATGACCTTCAAAGCGCAGGAGTTTACGACAATCGACCTCGCCATTGACTGGATCGGAGAAAATATGGACGGGATTACCGACGTTTTATGA	MNQKLKAIKQTAQHKTWVSFLNNNHPYSLLHWSIGGAESVQKDVWLLQDEMTFKAQEFTTIDLAIDWIGENMDGITDVL				NA	NA	NA	NA	NA
D1-12_01420	363			hypothetical protein	ATGCAAATACATGTGACGGATGCGGCGAAACACACACTTCAGCAGGCGATGGACGCCAACCCGGGGAAAAAAGCGCAGCTCCGCTATGACGCAGAAGGCTGCGGGTGCGCGGTGAGCGGCGTGCCGGCGATCTGGCTGGCGGACGAATTAACGGGACAATGCGAAGCTATTGAAACCAACGGACTTCCGCTTTACATCCAGACCTCACAAAAAGTGTTTTTTGACGAGGAAATGACAATCGATTACAATGAAAAGGCAAAAACGCTCGTCTTAAAAAGCCCGGCAGAGATGCTGAGCCCGAGAATGAGCATATTAGTAAAGCAGGGAGAAACGGAAAGTGAATCAAAAGCTGAAAGCCATTAA	MQIHVTDAAKHTLQQAMDANPGKKAQLRYDAEGCGCAVSGVPAIWLADELTGQCEAIETNGLPLYIQTSQKVFFDEEMTIDYNEKAKTLVLKSPAEMLSPRMSILVKQGETESESKAESH				NA	NA	NA	NA	NA
D1-12_01421	969			hypothetical protein	TTGATTACATTTTTACAGCATACACAAGAACAGACCGCGCGGGAAATTGCGGCGGTTCAGCGCTGCTCTTATCAAAAAGAAGCCGAGCTGATCGGTTTTTTCGGCATTCCCGCCCTGCATGAAACACCCGATGATATACAGCGGTCACGGGAGACGTTTGCCGGTTTCAAGGAAAAAGATCAGCTTGCAGGCGTCATTTCGTATGAAAAAAGGGGATATGACCTTGTCATATGCAGGCTGACGGTGCATCCGTCCGGCTTTCGGAAAGGGATCGGACGGGCGCTTCTTCAATTTGTGATAGACGAGAACCGGGACGCTCAAAAAATAGAGGCGGCTACCGCCAGCCAAAACGTTCCGGCAGTCTCTCTCTATTTAAAAACCGGGTTCACGGAAGCCGGACAGATTGAGACGCCGGAAGGGCTGACCCTCTCGTTTTTTCATCTTTATCCGAAGAGGAAAGCGGAAGTTGTTCCGTACAAGCCGGAATGGAAAGAAATGTTTGAAAGAGAGAAGGCGGACTTGATCCGAATCTTCGGCCCAGCACTTCATTCTGTCAGCCACATCGGCAGCACCTCCATCCCGCAGATGGCCGCCAAACCCGTCATCGATATACTGGCGGAGGTCAAAGATATTTTGGATGCCGACCGATTCAGTCCGCAGCTGGAAGCACTCGGCTATGAGGCGAAAGGGGAAAACGGGATAGAGGGCCGGCGTTTCTTTCAAAAAGGCGGCAGCAAGCGCACGCACCACGTTCACATATACGAAACAGGCCATCCGGACGTGAAGCGTCATCTGCTGTTCCGGGATTACCTCACTGCAAAGCCTGAAAAAGCGGCTCAATACATGGAACTGAAACGGCACCTCGCTGAGACATACCCATACGATACGGCAAAGTATAGTGAAGGGAAAAATGACTGGATCAAGGCGGCTGAACAAGAGGCAAAGGACTGGGAGAGCGGGCTGCTGTAA	MITFLQHTQEQTAREIAAVQRCSYQKEAELIGFFGIPALHETPDDIQRSRETFAGFKEKDQLAGVISYEKRGYDLVICRLTVHPSGFRKGIGRALLQFVIDENRDAQKIEAATASQNVPAVSLYLKTGFTEAGQIETPEGLTLSFFHLYPKRKAEVVPYKPEWKEMFEREKADLIRIFGPALHSVSHIGSTSIPQMAAKPVIDILAEVKDILDADRFSPQLEALGYEAKGENGIEGRRFFQKGGSKRTHHVHIYETGHPDVKRHLLFRDYLTAKPEKAAQYMELKRHLAETYPYDTAKYSEGKNDWIKAAEQEAKDWESGLL				NA	NA	NA	NA	NA
D1-12_01422	345	yqjZ	COG2329	putative protein YqjZ	ATGGGTTTTTTAGCTAACACGCCCAAACCGCCCTATTATGCGGTCATTTTTTCATCAATAAAGGGAAAATATGATAAGGAATATGAACATACGGCAGAGCGCATGATGAATTTGGCAGGCGGACAGCCGGGATTTTTAGGCGCGGAAAGCGTTCGGGAGGAAAACGGCTGCGGCATCACGGTTTCCTACTGGGACAGCCTGGAGGCGATTAAAAGGTGGAAAGATCATACGGACCACCAGGCGGCAAAACAAAAAGGAAAAAGCGCCTGGTATGAAGTGTACGCGGTCCGCATTACGAAGACGGAGTCACAGCGGATGTTTGCGTCAAAAGGGGCGGAAGATTGA	MGFLANTPKPPYYAVIFSSIKGKYDKEYEHTAERMMNLAGGQPGFLGAESVREENGCGITVSYWDSLEAIKRWKDHTDHQAAKQKGKSAWYEVYAVRITKTESQRMFASKGAED				NA	NA	NA	NA	NA
D1-12_01423	471	yqjY		putative protein YqjY	ATGGATATTCGAACAATTACCTCTGAAGACTATGAAATGGTTACGTCTGTTTTGAATGAATGGTGGGGCGGCAGGCAGATGAAAGCCAAACTGCCGCGCTTGTTTTTTGAACATTTTCAGGACACAAGCTTTATCACGTACGGGCCGGAGGGAATGACCGGTTTTTTAATCGGTTTTCAGTCACAATCAGACCCTGAGACAGCCTACATTCATTTTTCGGGTGTGCATCCGGATTTCAGAAAAATGCAAATTGGAAAACAGCTCTACGACCGATTTATGGAGACGGTGAAGAAAAGGGGCTGCACAAAAGTCAATTGCGTGACGGCGCCTATCAATAAAGTATCAATCGCTTATCATACAAAATTAGGCTTTGAAGTTGAAAAAGGAACCAAAACCGTAAACGGAATCCCTGTTTTTGCGAATTATGACGGTCCGGGAGAAGACAGGATTCTGTTTGTGAAATATATGTAG	MDIRTITSEDYEMVTSVLNEWWGGRQMKAKLPRLFFEHFQDTSFITYGPEGMTGFLIGFQSQSDPETAYIHFSGVHPDFRKMQIGKQLYDRFMETVKKRGCTKVNCVTAPINKVSIAYHTKLGFEVEKGTKTVNGIPVFANYDGPGEDRILFVKYM				NA	NA	NA	NA	NA
D1-12_01424	1227	dinB_1	COG0389	DNA polymerase IV	ATGGCTGATATTCTTCTTGTTGATATGCAATCGTTTTATGCGTCTGTGGAAAAAGCGGAAGCGCCTCATCTCAAAAGCCGTCCCGTGATTGTCTCGGGAGATCCCGAAAGACGCAGCGGCGTCGTGCTTGCGGCTTGTCCGCTCGCCAAACGATACGGCGTAAAAAATGCCGAACGGCTGTGGGAAGCGCAGGCCAAATGTCCCGACGCCGTTATTGTCCGTCCGCGGATGCAGCGGTATATTGATGTATCCGTCATGATTACCGAACTGTTTGAACGGTATACCGATCTTGTAGAACCCTACTCCATCGATGAGCAGTTTCTCGACGTGACCGGAAGCAGGCGGCTGTTCGGTGATCCTTTTACAATTGCCAAAAGCATTCAGCAAGCGATTATGCGTGAATTCGGAATTTATGCCCGTGTCGGCATCGGGCCGAATAAGGCGCTCGCGAAAATGGCTTGCGACCATTTTGCCAAAAAAAACGCATCCGGCATCCACAGATTGGATATGTCAAATATCAGGCAGGATCTGTGGCCGCTGCCGGTCGGAAAATTATTCGGCATCGGAAAACGGATGGAGCATCATTTAAGACGGATGGGCATCAGCACAATCGGCGGGCTTGCCGGGCACCCAGCCGAACTGCTGAAAAAACGCTGGGGCATTAACGGCGAATTGCTTCAGCGGACAGCCCGCGGCATCGATCCCTCTCCGGTCACCGTCAACACGCACAGCCGGCAAAAAGCGATCGGCCATAACATGACCCTCCCGAGAGACTACAGCCGCTTTGAGGATATTAAAGTCGTGCTGCTGGAGTTAAGCGAAGAAGTGGCCCGCCGCGCCCGTTTCAAACAATATATCGGCCATACGGTTTCGGTCAGCATCAGAGGCGCTGATTTTGAATTCCCTTCAGGTTTTCACAGACAGAGAAAGCTGGTGTCTCCGACTAATTTCGGAATGGATATTTTTAAAGCGGCGGTCAAGCTCTTCAAAGAGCATTGGAACGGTGAGCCCGTCCGCAGCGCCGGCGTCTCCCTTTCCCAGCTGGAGCCTTGTGATTATGTTCAGCTGAGCCTGTTCGATGCCCAGGAAAAAAAGATCAGTCTCGGCAAAGTATTGGATGATATTCATGAGCGGTACGGCCCTGCGTCGCTCCTCCATGCCGCTTCACTGACAGAGGCCGGCCAAGCCTTTCACCGGGCTGAAAAAATCGGCGGGCATTACAAATAA	MADILLVDMQSFYASVEKAEAPHLKSRPVIVSGDPERRSGVVLAACPLAKRYGVKNAERLWEAQAKCPDAVIVRPRMQRYIDVSVMITELFERYTDLVEPYSIDEQFLDVTGSRRLFGDPFTIAKSIQQAIMREFGIYARVGIGPNKALAKMACDHFAKKNASGIHRLDMSNIRQDLWPLPVGKLFGIGKRMEHHLRRMGISTIGGLAGHPAELLKKRWGINGELLQRTARGIDPSPVTVNTHSRQKAIGHNMTLPRDYSRFEDIKVVLLELSEEVARRARFKQYIGHTVSVSIRGADFEFPSGFHRQRKLVSPTNFGMDIFKAAVKLFKEHWNGEPVRSAGVSLSQLEPCDYVQLSLFDAQEKKISLGKVLDDIHERYGPASLLHAASLTEAGQAFHRAEKIGGHYK	PGPT0014881_1833	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
D1-12_01425	345			hypothetical protein	ATGAATCCGAACAAATTAACACCCGGGTATAATGTCATGTGGGAATCAAGCCGGATGATGCTGCCCGAACATCGGGAGCAGCTGCTTGCGAAAAAACGAAAAGAACGGGAATTCCGGCCTCCGGAACTGAGCGAAGAGCAACTGAACGACATGAACCGCATCATTGCGGCGTCAATTGAAGAAGACAGGGCCATTTCGGTCACCTACGCTTCCGCACACGGCCCCCGCCGCTTTTGGGGCTGGGTAAAACAAGTGATGCATGACGAAAAACGTTTAAAAATCATAAACGATGAAGATGCGTTAACGCTGCCGTTTCATCGTATTCTCTCAGCTGAATTGGAATAA	MNPNKLTPGYNVMWESSRMMLPEHREQLLAKKRKEREFRPPELSEEQLNDMNRIIAASIEEDRAISVTYASAHGPRRFWGWVKQVMHDEKRLKIINDEDALTLPFHRILSAELE				NA	NA	NA	NA	NA
D1-12_01426	210			hypothetical protein	ATGATGGATCAATTTATAGAAAAAATGCTGGGACAAGCCCTCCGCCAGTATGGACGGAATGTGTCGACAGATCCGCTGAGCCCCTATGAAAAACAGAGTTTAAAAAAAGCTTTAGAAGAAAGAAGGAATGAAGAACCCGATGAGGATCTCCATGCCCATGTAGAAGATATTATCTACGATTACGTCACCAATCAGGGGCAGTTTTCCTGA	MMDQFIEKMLGQALRQYGRNVSTDPLSPYEKQSLKKALEERRNEEPDEDLHAHVEDIIYDYVTNQGQFS				NA	NA	NA	NA	NA
D1-12_01427	1071			hypothetical protein	ATGCCTGTCGGGCCTTATTTCAGGATCGGCTATGCCGTTCTTCTGTTATTTCTCATCATTTATCTCGGAACATTAATAGACTTTTTGTTCCAGCCTGTTGTGATTACGGTTAAAACCTTGTTTCCGCCTATTGTATTATCGGGCGTCCTTTACTATTTGTGCCGCCCGCTCGTCAGAGTGCTGCATGCGAAATTAAAGCTGCCCGAAGGAATCGCGATTTTAGCGATTTATGCGGGAACAGCCGGCCTTTTTGTCCTCTTCCTTTATACGGCGGGCCCTGCCGTTCAAAAACAGTTTACAGCCTTCACAGATCATATTCCGGAGCTTTCCGCAAAAGCTGAAAATTGGATCGGGCATCTTCAGGACAGCAAATGGTTTTCCCGGCTTCAGCATGGGGATTCCTTTAAAAAATTAGCAGACAAAGCCGCAAATTATTCCGGTTCAATCGCTGATTCTCTCAGCAGCCTGGCCGGTACGGCTGCCAATGCCGCCATCACCGCAGCCATTATTCCGTTTGCGCTGTATTACATGTTAAAAGAAGGACACAAAGCCCCCCGGCGACTGCTGCGGCTTCTTCCGGAAAAACATCAAAAAGAAGGAAAACAAATCCTTCGGGACATGGATGAAGCTCTCAGTTCATACATACAAGGACAGCTGCTCGTCAGTTTTTGTGTCGGCGTTCTCGTCACAATCGGCTATTTTATAATCGGGCTCGATTATCCGCTCGTTCTGGGCGCGTTCGCCATGGTGACAAACCTGATTCCGTTTATCGGGCCTTGGATCGGCACATTTCCCGGAGTCATTGTCGGATTGTTCGATTCACCGACCGAGGCGGTGCTGGTGATTACGGTCGTCGTCATTGTCCAGCAGCTTGAAAGCCAGCTGATTTCCCCGCAAATTATGGGACGGAAGCTGGACATTCACCCGCTGACCATTATTTTTCTTCTGCTTGCCGCCGGCAAATTCTCAGGAATTGCCGGGATGCTGCTGGCCATTCCGGGATATGCGGCCGCAAAAGTGGTCATAAGCCACATGCAGAAACTATTCATTCTCAGAAAAACACAAAGCTAG	MPVGPYFRIGYAVLLLFLIIYLGTLIDFLFQPVVITVKTLFPPIVLSGVLYYLCRPLVRVLHAKLKLPEGIAILAIYAGTAGLFVLFLYTAGPAVQKQFTAFTDHIPELSAKAENWIGHLQDSKWFSRLQHGDSFKKLADKAANYSGSIADSLSSLAGTAANAAITAAIIPFALYYMLKEGHKAPRRLLRLLPEKHQKEGKQILRDMDEALSSYIQGQLLVSFCVGVLVTIGYFIIGLDYPLVLGAFAMVTNLIPFIGPWIGTFPGVIVGLFDSPTEAVLVITVVVIVQQLESQLISPQIMGRKLDIHPLTIIFLLLAAGKFSGIAGMLLAIPGYAAAKVVISHMQKLFILRKTQS				NA	NA	NA	NA	NA
D1-12_01428	168			hypothetical protein	ATGAACATCGGTGATATCATTTTTCAATTGATTTCATTTATTGCAACCGCGGTTTTCCTGTTTGCCGTGATATACGTATTCAGAAGCTTGAACAAGCGCCGCATACAATTGGACAGAATCGAAAAGAAACTCGACGCGCTGCGCGAAGAAAAAAACGAAAAGTTATAG	MNIGDIIFQLISFIATAVFLFAVIYVFRSLNKRRIQLDRIEKKLDALREEKNEKL				NA	NA	NA	NA	NA
D1-12_01429	393			Tn3 family transposase ISAau4	ATGATACATCATATTGAGTTGTATGTATCTGACTTGAAAGCCTCCGCCCGGTTTTGGGGATGGTTTTTAGGTGAGCTCGGTTATAGGGAATTTCAAAATTGGGACTCCGGCATCAGCTGGAAAAACGCAGGATTTTATGTTGTGCTTGTACAGACAGAGGAGCGTTTTTTAACACCGGAGTACCACAGATGCCGGGTCGGGCTGAACCATCTGGCTTTTCATGCTGCATCAAGAGAGCAGGTTGACGAGATGACAGAAAAGCTGATTGCCAGAGGATGCCCCGTGCTTTACAGGGACCGCCATCCATATGCAGGCGGAAGCGCGCATTACGCCGTATACACGGAGGACCCGGATCGGATAAAAGTGGAGCTCGTTGCTCCTGCTTCTGAATGA	MIHHIELYVSDLKASARFWGWFLGELGYREFQNWDSGISWKNAGFYVVLVQTEERFLTPEYHRCRVGLNHLAFHAASREQVDEMTEKLIARGCPVLYRDRHPYAGGSAHYAVYTEDPDRIKVELVAPASE				NA	NA	NA	NA	NA
D1-12_01430	960	coaA	COG1072	Pantothenate kinase	GTGAAAAGTAAAGAATTGAACTTACATACATTGTATACGCAGCACAGCCGCGAGTCGTGGGCCGGATTCGGCGGCCACCTTTCCATTGCCGTTTCAGAGGAAGAAGCCAAGGCCGTAGAAGGGCTGAATGACTACCTGTCGGTGGAAGAAGTAGAAACGATTTACATTCCGCTTGTGCGCCTGCTCCATCTTCATGTCACGTCTGCCGCAAGACGGAATCAGCATGTCAATGTGTTTCTGAAGCATCCGCATTCAGCGAAAATCCCGTTTATCATCGGAATCGCGGGCAGCGTCGCCGTCGGCAAAAGCACGACGGCGAGAATTTTGCAAAAGCTTCTTTCCCGTCTGCCGGACAGGCCGAAGGTGAGCCTGGTGACAACCGACGGTTTCTTGTATCCGACGGCGGAATTAAAAAGAAAAAACCTTCTGTCCAGAAAGGGATTCCCGGAAAGCTACGACGTGAAAGCGCTGCTTGAATTTCTGAACGATATAAAGTCAGGGAAAGAGAGAGTGGAGGCGCCCGTATACTCCCATCTTACGTATGACAGGGAAGAGGGCGCCGTCGAGGTTGTCGAAGGTGCGGATATCGTTATTATCGAAGGAATCAATGTCCTGCAGTCGCCGACATTAGAGGACGACAGGGAAGATCCGCGGATTTTTGTATCGGATTTCTTTGATTTTTCGATCTATGTGGATGCCGAAGAAAGCCGGATTTTCACGTGGTATTTGGAGCGTTTCCGCCTCTTAAGAGAAACCGCTTTTCAGGATCCGGCTTCTTATTTTCATAAATTTAAGGATTTGTCTGATGCAGAAGCGGATACCATGGCCGCCTCCATTTGGGAGAGCGTCAACCGTCCGAATCTGTATGAAAATATCCTGCCGACAAAATTCAGATCGGATTTGATTTTGAGAAAAGGTGATGGCCATAAAGTTGAAGAGGTGCTGGTAAGGCGGGTGTGA	MKSKELNLHTLYTQHSRESWAGFGGHLSIAVSEEEAKAVEGLNDYLSVEEVETIYIPLVRLLHLHVTSAARRNQHVNVFLKHPHSAKIPFIIGIAGSVAVGKSTTARILQKLLSRLPDRPKVSLVTTDGFLYPTAELKRKNLLSRKGFPESYDVKALLEFLNDIKSGKERVEAPVYSHLTYDREEGAVEVVEGADIVIIEGINVLQSPTLEDDREDPRIFVSDFFDFSIYVDAEESRIFTWYLERFRLLRETAFQDPASYFHKFKDLSDAEADTMAASIWESVNRPNLYENILPTKFRSDLILRKGDGHKVEEVLVRRV	PGPT0008770_452	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008770-coaA-K00867	NA	NA
D1-12_01431	1350	dsdA	COG3048	D-serine dehydratase	ATGTCCGACCGGGATATACACAAGACATTGATGGCAGAGCCTTTCGTCAGGCAAATGGCGGAGGCGCGTGAAGTATTTTGGATCAACCCGCATAAAACCGATGATCCAGTAAAGCATGGTGCTGAATGGAAACAGGAGATTGCCGAAGCGGAAGAAAGGCTGCGCCGGTTTGCGCCTTATATCGCATCGGCTTTTCCGGAGACGGAAGCGGAGGGAGGCCTCATTGAATCTCCGCTTATCTTGATTAATGAAATGAAGAAGCATCTGGAACACAGCGCCGCTCAGGCTTTCCCCGGGCGTCTGCTTTTGAAATGCGACGACGAACTTCCGATTTCCGGTTCCATTAAAGCGCGCGGCGGGATTTACGAAGTGCTGAAGCATGCCGAAGATCTCGCGGTGAAAGCGGGAATGCTCTCAGCAGACGACGATTACAGCATATTGACTGAAGAACGGTTTACCGCTTTTTTCTCAAAATACTCTATAGCCGTCGGCTCTACGGGCAATTTAGGTCTGAGTATCGGCATAATCGGCGCGAAGCTCGGCTTTTGTGTGACCATTCATATGTCCAGTGACGCAAAGCAGTGGAAAAAGGAGCTGCTCCGGGAAAAGGGGGTTCGCGTCATCGAATATGAAGCAGACTACAGTCTGGCTGTCAAAGAGGGGCGCATGCAGGCGAAGCAGGACCCTTATTGTTATTTTATTGATGATGAGCATTCCCGGGATCTGTTTTTGGGGTATGCCGTTGCGGGAAGCCGTGTGAAAAAGCAGCTCGATCAAATGAACATAAAGCCTGATGCAGATGAACCGCTTTTCGTTTATTTGCCGTGCGGGGTCGGAGGAGGCCCGGGCGGCGTCGCGCTTGCGCTAAAGCTGATCTATGGCGAGCATGTCCATATTTTTTTCGGTGAGCCGACGCATTCACCGTGTATGCTGTTAGGACTGTTTTCCGGCTTGCATGACGGAATCAGCGTGCAGGATATCGGTCTTGATAATCAAACGGCCGCCGACGGACTCGCGGTGGGAAGGCCGTCCGGACTGGCCGGCCCTCTGATGGAACCTATACTCAGCGGCTGCTATACCGCCGATGACGGCACGCTTTTTTCGCTGCTTTATCAATTAAGGGCGGCCGAGAATAAGAGCCTTGAACCCTCTGCACTCGCCGGACTGGCCGGAGCCGTCAAGTTTGTCCAGACCGAAGCCGGAAACCGTTATATAAAAGAACGGGGGCTTGAGATGGAAAATGCCGTGCACCTTGTGTGGAGCACCGGCGGAAGCATGGTTCCGGAGGAGGAAATGGAAGAGTACAGCCGGATCGGTTCCTCATTTGTGAAAAAAATGGGCAGACAGTGA	MSDRDIHKTLMAEPFVRQMAEAREVFWINPHKTDDPVKHGAEWKQEIAEAEERLRRFAPYIASAFPETEAEGGLIESPLILINEMKKHLEHSAAQAFPGRLLLKCDDELPISGSIKARGGIYEVLKHAEDLAVKAGMLSADDDYSILTEERFTAFFSKYSIAVGSTGNLGLSIGIIGAKLGFCVTIHMSSDAKQWKKELLREKGVRVIEYEADYSLAVKEGRMQAKQDPYCYFIDDEHSRDLFLGYAVAGSRVKKQLDQMNIKPDADEPLFVYLPCGVGGGPGGVALALKLIYGEHVHIFFGEPTHSPCMLLGLFSGLHDGISVQDIGLDNQTAADGLAVGRPSGLAGPLMEPILSGCYTADDGTLFSLLYQLRAAENKSLEPSALAGLAGAVKFVQTEAGNRYIKERGLEMENAVHLVWSTGGSMVPEEEMEEYSRIGSSFVKKMGRQ	PGPT0001970_143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0001970-dsdA-K01753	NA	NA
D1-12_01432	777			putative oxidoreductase	ATGGGCAGATTAACGGATAAGCGGATTTGGATCACCGGAGCATCCGGCGGACTCGGAGAACGGCTTGCATATTCCTGCGCGGCAGAAGGAGCTCATGTTTTTTTATCCGCGAGGCGGGAGGACCGCTTGCAGGAAGTGAAAAAGACGATTACCGCGCGCGGCGGGCAGTGTGATGTCATTCCGTTTGACGTCCGGCATGCAGAAGAGGCTGAAAACGTAAGGCGTTTGATCGGTCATGTTGACGTATTAATCAACAACGCCGGCTTCGGCATTTTTGAAACGGCCGCTGATTCATCTTTGGATGATATGAAGGCAATGTTTGAAGTCAACGTCTTCGGATTAATCGCCTGTACGAAGGCCTGTCTTCCTGTGATGCTTCATGCGAAAAGCGGCCATATTATCAATATCGCCTCACAGGCCGGCAAATTGGCGACGCCGAAATCAAGCCTTTATTCTGCAACGAAGCACGCCGTGTTAGGGTATTCCAATGCGTTGCGGCTTGAGCTGGCCGGTACGGGTGTAGCTGTGACAACGGTTAATCCCGGTCCGATCAAAACAGACTTCTTTACAATTGCAGATAAAGAGGGCGGTTATGTGAAAAGCGTCGGCAGATGGATGCTTGATGCCGACCATGTGGCAGAGCGCATTACATCCGTGATTCTGACGGATAAACGGGAAATGAATCTTCCGCGATGGATGAGCCTCGGGACGAAGCTGTATCAGCTTTTCCCATCGTTTACAGAAAAACTGGCCGGCCGCGCATTAAAGAAAAAGTAA	MGRLTDKRIWITGASGGLGERLAYSCAAEGAHVFLSARREDRLQEVKKTITARGGQCDVIPFDVRHAEEAENVRRLIGHVDVLINNAGFGIFETAADSSLDDMKAMFEVNVFGLIACTKACLPVMLHAKSGHIINIASQAGKLATPKSSLYSATKHAVLGYSNALRLELAGTGVAVTTVNPGPIKTDFFTIADKEGGYVKSVGRWMLDADHVAERITSVILTDKREMNLPRWMSLGTKLYQLFPSFTEKLAGRALKKK	PGPT0030485_3357	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
D1-12_01433	960	gloB_2		Hydroxyacylglutathione hydrolase	ATGGCAGCGAGAAAGATCATTCCGATACGTGTGCCGACTCCGTTTGCAGTCGGCGACGTTATCGTTTATTTAATAAAAGATGAAGCCTTAACCCTTATTGATTGCGGCCCGAATACAAAGGAAGCGGCTGAATCGCTCTCATTGCAGCTTAAGGAACACGGGGTTTCTGCGGCGGATATAGAACAGGTGGTGCTCACTCATCATCACGCAGATCATTCAGGTCTGCTGCACCTTTTTTCTGAGGATACGGAAGTAATAGGGCATCCGCTGAATGACAGGTACATTACTCAGGATCAGTCGTATATCGCCCGGCAGGAGGACTTTTTCCTGTCGCTTATGACTGAAATGGACGTTCCCCTGACGCCTGAAGACATACATAAAACAGTTAAGCTGTCATACTTATTTTCTGCAAACCGTCCGTTAACGAAAACAGTGGGAGAAGGCGGAAAAATTGACGGGCTTAACGGCTGGACGGTGCTCGAAATCCCGGGCCATGCCGCTTCTCACATTGCGCTCTACCATGAAAAAAGCGGTGAAATGTTCAGCGGCGATCTGCTTTTGTCCAACAGCTCCACCAATCCGATTCTGGAAGCTCCGGAAAAGGGGGGCGTGCGCGCGGCCCCGATGCTCGACTACTTGAACTCAATGAAGCGGCTGTATGACTTAAACCCGTCCTTATTATATCCGGGACACGGCGATCTGTTGACAGACGTAAAGCCTGCTTTTGACAGGCGGCTTGAAAAACAGAGAAACCGGTCGGAATATGTGCTGCGCCTGTTGTCAGAGGATACGCTGACGGCTTTCCAGGTATGCCGGCGGCTGTTTCCGGCTGTTTATGAAAATGAAATGTTTTTAACGATGTCAGAAACGATCGGCCATCTTGACGTGCTGGCCGCCGAAGGGAAGGCTGTATCCTTTCAGTCGGGGAACACTCTGATGTTTAAAGCTGTGAAGGGGTGA	MAARKIIPIRVPTPFAVGDVIVYLIKDEALTLIDCGPNTKEAAESLSLQLKEHGVSAADIEQVVLTHHHADHSGLLHLFSEDTEVIGHPLNDRYITQDQSYIARQEDFFLSLMTEMDVPLTPEDIHKTVKLSYLFSANRPLTKTVGEGGKIDGLNGWTVLEIPGHAASHIALYHEKSGEMFSGDLLLSNSSTNPILEAPEKGGVRAAPMLDYLNSMKRLYDLNPSLLYPGHGDLLTDVKPAFDRRLEKQRNRSEYVLRLLSEDTLTAFQVCRRLFPAVYENEMFLTMSETIGHLDVLAAEGKAVSFQSGNTLMFKAVKG				NA	NA	NA	NA	NA
D1-12_01434	840	proC_2	COG0345	Pyrroline-5-carboxylate reductase	ATGAAGAAAATCGGTTTTATCGGGGCCGGATCAATGGCGGAAGCAATGGTGAACGGACTGCTGCAAAGCGGAATGACAGCCCCCGGACATATATATATGACAAACCGCTCAAATGACAGCCGGCTTGAAGAGCTCCAAAAAACGTACGGAGTGAAACCGTGCCGGGATAAAGAAGAGTTTTTCAGCAATACCGACATTATCGTTCTCGCCTTTAAACCGAAAGATGCGGCAGAAAGCATTGAGAACATTCGCGAATACGTGAAAGATCAGCTTGTGATTTCTGTCATCGCAGGGCTGACGATTCACACGATTCAGCAATATTTCGGCAGAAAGCTCACCATCATCCGGGCGATGCCGAATACATCCGCGGCCATTCAGCAATCGGCGACCGGTTTTTCCGCAAGCTCCGAGGCGAGTGAAGCTGAAATCCGGACGGCAAAAGAGCTTCTGGAAACAATCGGAGAAGCGACGCGCTTTGAAGAAAAACACCTTGATGCCGTCACAGCCATTGCCGGAAGCGGTCCCGCCTATGTGTATCGGTATGTCGAAGCAATGGAAAAGGCCGCCCTTCAAGCCGGCCTGCCGGAAGAAACGGCAAAAGAGCTGATTTTACAAACCATGGCCGGGGCGACGGAAATGCTCAGAACAAGCAGCAAACGGCCTGAACGCCTGCGCAAGGAAATCACAAGCCCGGGCGGCACGACTGAAGCAGGCCTTCGCGCATTAGACGAGCGCCGCTTTGAAGAAGCCATCATGCACTGCATCGCAGAAACCGCAGCCCGGAGCGCCGAAATTAAAGAACAATTCGCAGGCTCCGTTCTGCAAAAGACGGACCAGTGA	MKKIGFIGAGSMAEAMVNGLLQSGMTAPGHIYMTNRSNDSRLEELQKTYGVKPCRDKEEFFSNTDIIVLAFKPKDAAESIENIREYVKDQLVISVIAGLTIHTIQQYFGRKLTIIRAMPNTSAAIQQSATGFSASSEASEAEIRTAKELLETIGEATRFEEKHLDAVTAIAGSGPAYVYRYVEAMEKAALQAGLPEETAKELILQTMAGATEMLRTSSKRPERLRKEITSPGGTTEAGLRALDERRFEEAIMHCIAETAARSAEIKEQFAGSVLQKTDQ	PGPT0014225_1252	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
D1-12_01435	747	pksI_2	COG1024	Putative polyketide biosynthesis enoyl-CoA isomerase PksI	ATGAATCCAATGATTGATGTACAGGAAACAGAACCGGGCATTGTGCAGGTCACAATGCAGGATACGGCCGGGAAAAACGGGCTGTCAGAAGAGTTTGTCAGAGAGCTGCACCGGGTATTCCAAGACATCAATGCCCATCCGTCCTATAAAACCGTCCTTCTGACGGGTTACGGAAATTATTTCTGCACGGGAGGAACGCAGGAGGGGCTTTTGACCATTCAGAGCGGAAAGCTCCAATTTACAGATTTAAAGCTTCACAGTCTTTTATTGGATTGCAGGATTCCCGTGATTTCTGCCATGCAGGGGCATGCGATCGGAGCCGGCTTTACGATCGGTCTGAGCTCGGATTTCGTGATTTTAAGCAGGGAGAGTTTTTATTCTTGTAATTATATGAAGTACGGATTTACACCGGGAATGGGCGCGACGTATATTGTGCCTGAAAAACTGGGAATTGTCCTCGGGGAAGAAATGCTGTTTACGGCTGCGAACTTCAGCGGCGCCGCTCTGGAAAAACGGGGAGTTCCGTTTGAAGTGCTGCCGAAAAAAGACGCCCTTCAAAGAGGCCGCGAATTAGCCCGGCTGCTGGCGGATAAACCGAGAGCCTCACTGGTTGCGCTGAAAACCAATGTGACCGCACGGATCAAAAGAGAGCTGACAAAAGCGGTTGAGGAAGAGGTGAACATGCACGAAGCCACATTCCATCTTCCAGAAGTAAAAGAGAGAATCAGCCGCTTATACGGCAGTTAA	MNPMIDVQETEPGIVQVTMQDTAGKNGLSEEFVRELHRVFQDINAHPSYKTVLLTGYGNYFCTGGTQEGLLTIQSGKLQFTDLKLHSLLLDCRIPVISAMQGHAIGAGFTIGLSSDFVILSRESFYSCNYMKYGFTPGMGATYIVPEKLGIVLGEEMLFTAANFSGAALEKRGVPFEVLPKKDALQRGRELARLLADKPRASLVALKTNVTARIKRELTKAVEEEVNMHEATFHLPEVKERISRLYGS	PGPT0010145_75	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010145-baeI|pksI|dfnM-K15313	NA	NA
D1-12_01436	1248	pksG_2	COG3425	Polyketide biosynthesis 3-hydroxy-3-methylglutaryl-ACP synthase PksG	ATGAATGTAGGAATCGAAGCAATGAACGTGTTTGGCGGAACCGCGTATGTAGACGTCATGGAGCTTGCGGAACATCGGAACTTGGATAAAAAAAGGTTTGAGAACCTGCTGATGAAAGAAAAAGTGGTGGCGCTTCCGTTTGAAGATCCGATTACGTTCGCCGTAAATGCCGCAAAACCGATTATCGACTCTCTGTCAGAAGAGGAACGGAATCAGATTGAAATGGTCATCACCTGTACGGAATCCGGGATTGATTTTGGCAAATCCATCAGTACATACGTCCATGATTATTTGCAGCTGAAGCGGAATTGCCGGTTATTTGAGGTGAAACAGGCTTGCTATTCTTTAACGGCCGGGTTTCAAATGGGCGTGAATTTCATCTTATCGCAAACATCGCCGGGAGCGAAAGCGCTCATCATCGGAACGGATATTTCCCGCTTTTTAGTGGCTGAAGGCGGTGACGCGTTGACGGAGGAATGGTCCTATGCCGAACCGAGTGCGGGGGCGGGAGCTGTGGCGCTTTTAGTCAGCAGCACCCCTCATGTCTTTTTGCTTGATCAAGGCGCAAGCGGGTATTACGGGTATGAAGTCATGGATACCTGCCGCCCGATTCCGGATAGTGAAGCGGGGGATGCTGATCTGTCGCTCATGTCTTATTTGGACTGCTGTGAAAAATCATTTCAGGAATACCGAAAGCGTGTGAGCGGGGCGGATTATAAGAATACATTTCAATACCTTTCTTTTCATACTCCGTTTGGCGGAATGGTAAAAGGAGCGCATCGGACGATGATGAGAAAATTGGCAAAGGCTAAGCCGCAAGACATTGAAGCGGATTTTCAGCAACGCGTGCTGCCTGGGATTCAATACTGTCAGCGCGTCGGCAACATCATGGGGGCCACCGTATTTTTATCTCTTGCCAGCACGATTGATAACGGCTCTTTTGAAACGCCGAAACGCGTGGGCTGTTTTTCATACGGTTCGGGCTGCTGCTCTGAATTTTACAGCGGTGTCGTTATGCCGCAAAGCCGGACGCGGCAGAATCAATTTCAGATCAGCCGGCATTTGGATGAACGCGTCCGTTTATCGATGGCTGATTATGACCGGCTGCTGCAAGACAGCGGCATCGTAAAATTCGGCACAAGAAATGCCGCGCCAGCAGCAGACATCCCGAATGCGCATCAAGGAAAAACACGATTGGTGCTGACTGAAATAAAAGAGTTTCACAGAAAGTATGAATGGACGACTTAA	MNVGIEAMNVFGGTAYVDVMELAEHRNLDKKRFENLLMKEKVVALPFEDPITFAVNAAKPIIDSLSEEERNQIEMVITCTESGIDFGKSISTYVHDYLQLKRNCRLFEVKQACYSLTAGFQMGVNFILSQTSPGAKALIIGTDISRFLVAEGGDALTEEWSYAEPSAGAGAVALLVSSTPHVFLLDQGASGYYGYEVMDTCRPIPDSEAGDADLSLMSYLDCCEKSFQEYRKRVSGADYKNTFQYLSFHTPFGGMVKGAHRTMMRKLAKAKPQDIEADFQQRVLPGIQYCQRVGNIMGATVFLSLASTIDNGSFETPKRVGCFSYGSGCCSEFYSGVVMPQSRTRQNQFQISRHLDERVRLSMADYDRLLQDSGIVKFGTRNAAPAADIPNAHQGKTRLVLTEIKEFHRKYEWTT	PGPT0010135_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010135-baeG|pksG|dfnL-K15311	NA	NA
D1-12_01437	1155	yjiB_3	COG2124	Putative cytochrome P450 YjiB	ATGACCAGTTTAACAAAAATCAGACAGCAGCAGCCGTACAAGTGGTACCAAACGATGAGAGAAACCTCTCCCGTTCATTACAATGAAAAGGAAGATTGCTGGGAAATCTTCACCTATGATGAAGTGAAGCGGGTGATTTCTGACTACAGTCATTTTTCTTCCGATCATAAATACTTAAGTGCGGACAAACAGGAAAAAATGATCCGGCATATTAACAAAGACAGCCTTTTGAAAATGGACCCGCCTGAACACACCGTCTTCAGAAAATTGGTCAATCAGCCGTTCATGCCGAAATCGGTTGAGTCTCTTGCACCGCGTATAGCCGCTATCGCTGATGACCTGCTTCAGGCCGTCCGTTCAAAAGGCAGGATGGACATTATTGAAGATTACGCATTTCCGCTTCCGATTATCGTGATCGCAGAGCTTTTAGGATTCCCTCCGAAAGACAGGGATATCTTTAAAAGCTGGGTCGACCAAAGCCAGAATGTAAAAGATGAAAAGAAAATGAATGAAGTGCAAAAGCAGATGATCGGATACTTCATGCAGTTTATTTTACAGCGGAGAAAACAGCCGCAAAATGATTTAATCAGCCATTTAATTTCAGCTGATTTAGACGGAGAGCCGCTGTCAGACAAGCAATTAATCGGTTTTTGCGGCTTGTTGATCGTCGCGGGGCACGTAACGACGGAAAATGTGATCGGAAATTCATTTCTCAGTCTCAAGGAGTTCCCGCACATTCTGCCCCGGCTGCTTGAAAATAAGGCGCTCCTTCCTGACTTTATTGAGGAAGTCATCCGCCTCAGACCTTCCATTCAGCGGGTAACCCGCTACACTGCGGTTGAGAGCGAGATTGGCGGAAAAACGATTCCGGCCGGAGAAAAAGTGTATGCGTGGATTGGATCGGCGAACAGAGATGAAAAGAAGTTTAGAAATGCCGATCAGATTGACTTGGGACGAAAGCCGAATCAGCATCTGTCATTCGGTCAGGGCAGCCATTATTGTTTAGGAGCGCCGCTGGCCCGGCTTGAAGCGAAAATCGCGCTTTCCCACTTTTTTGAACAGATGCCCGCATGGCGTTTTACTGAGGATCAAGAGCCGAATCTGGTTCCGAGCCCTGTATTTCACGGCGTTGACAGGCTGCTTGTTGAGTTTTGA	MTSLTKIRQQQPYKWYQTMRETSPVHYNEKEDCWEIFTYDEVKRVISDYSHFSSDHKYLSADKQEKMIRHINKDSLLKMDPPEHTVFRKLVNQPFMPKSVESLAPRIAAIADDLLQAVRSKGRMDIIEDYAFPLPIIVIAELLGFPPKDRDIFKSWVDQSQNVKDEKKMNEVQKQMIGYFMQFILQRRKQPQNDLISHLISADLDGEPLSDKQLIGFCGLLIVAGHVTTENVIGNSFLSLKEFPHILPRLLENKALLPDFIEEVIRLRPSIQRVTRYTAVESEIGGKTIPAGEKVYAWIGSANRDEKKFRNADQIDLGRKPNQHLSFGQGSHYCLGAPLARLEAKIALSHFFEQMPAWRFTEDQEPNLVPSPVFHGVDRLLVEF	PGPT0010119_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010119-baeB-NA	NA	NA
D1-12_01438	6216	tdh_2		L-threonine 3-dehydrogenase	ATGAACAGCCTTCTTTGCAAACTGCTCTTTTACCAATTACAGTCAATCGGGTTTTTCAGCGAGCCTGTCACCACAGCTTCAGCATCCATGCGGAGCGCCGGTGTGATCGGCACATACGGCAGATGGCTGGAAGAAAGCCTGAATCTATTAAAAGAAAACGGATATATCGCGTATGACGGATACACGGTCACCCTCCTCACGGATCAGCGCCCGGACGGCCGCACAGTCTGGAATGAGTGGGATGCCCATAAACGCCTGCTTCCCAATGGGGAGCTTGCGCAAGCTGAATTGGCCGAGGCGACGATAAAAGCGATGCCTTCTATTTTAAAAGGAGAACGTCCGGCTACGGATATCGTATTTCCCGATTCATCAATGCGGCTCGTTGAAGGTGTTTATAAGCATAATCCTGTCGCGGATTATTTTAATGAAGTGTTGGCAGATTCCGCGGCCGCTTACCTGAAAGCTTATCTTACAGAACACCCCGATGCCCGCATCAGGCTGATAGAAGTAGGGGCCGGGACGGGCGGAACGAGCGCCATGCTGTTTACAAAACTGCAACCATTTGCAAAACAGATTGCGGAATATTGTTATACTGACGTTTCTAAAGCTTTTTTAATGCATGCCGAACAGGAATACGGACCTGATGTGCCGTATTTGACAACAGCCTTGTTTAATGCGGAGGAGCCTTGCGAATCACAAAATATCAAAACGGGTGTTTACGATATTGTCATCGCCGCCAATGTGCTTCACGCCACAAAAAATATCGGTTTGACACTTCGCCGTCTGAAAGCGCTCCTGAAATACAACGGGATGATTCTGATAAACGAAATCAGCGATCGTTCTGTTTTTACCCATTTAACCTTCGGGCTGCTTGACGGGTGGTGGTCCTATGAGGATGCTGAGCTTCGGATTCCGGGAAGTCCCGGCTTATATCCAAAATCATGGGAGTGTGTGCTGCATTCGGAAGGATACAGAGCGGTTTGTTTCCCTGCTGAAACGGCTCATGATTTAGGTCAGCAGATTATCGCAGCTGAGAGTGACGGACTCGTCCGGATGCAAGGGATCAGAGACGGCAGAAAGCCATACGCCGCCCCAGCCGAAGTTTTCCGAAAGCCCGCGCAGCCTGTTTCCCGCAGCCGCGCGCCAGAGGAGCATCAAGCTGTAAAGGCTGATGGGGAATCGGTCGCTTCCCATGTCCGCTCTGTCATCAAAACAAGTATTGCCGATGTATTAAAAATGAAAGAAGAGGATATTCAGGAAGAACTGAATTTCTCTGAATACGGCATTGATTCCATTTTGGCCGTCAATGTGATTAACGAGATGAATAAGCGATTGAATCTTACACTGCAGACAACGATTTTATTTGATTACTATCATGTGAAACTGCTGACCGGTTATATCTCGGCAGAATATGAAACCATCATAGCCTCATCTCTGGAGACCGAAAGAGCGAAAATCCGCCCGGCGCTTCAAGAAGAACGGCCTGCTGAAAAACCTCTGCAGACGGAAAGAAAGGAAACCGGTTATCAGAAACCGAAACAAGAACGTATGCCGCCTTCTTTTGCAAAGTCCGGTGACTCGGGAATGTTCCGGGTTGTGATTGACCGTCCGGGCGGCATTGAAGATCTGATGATTGCCCGCAGTGAAGTGCCCGAGACAAAAGATGACGAAGTTCAAATAGCCGTCCGCGCCTTTTCTTTAAATTTCGGAGACTTGCTTTGTGTCAGAGGGCTGTACCCGACGATGCCGCCTTATCCGTTCACTCCGGGATTTGAAGCAAGCGGCGTCGTGATCAAGACAGGGAGGCATGTAACATCCGTCATTCCAGGTGATGAAGTGATTGTCGGCATGGGAGAGGAATTTGGATCTCAGGCGAATCTCATCACATGTAAAGAACACCAAGTCTATCATAAACCGGCCCGGCTGACCTTTGAAGAAGCATGCGCTCTTCCCACCGTGGCGGTGACAATGATAGACGCCTTCCGGAAAGCCGGACTTAAAAAAGGCGAAAAAATATTAATTCAGACCGCGACGGGAGGAACGGGGCTGATCGCGGTGCAAATGGCTCGGCATATCGGCGCGGAAATATATGCCACGGCCGGATCACAGAAAAAAATTGAGTATTTGCATTCGCTCGGGGTCCACAATACCATTTGCTATTTAGAAGAAGATTTTGAAACAGAAATCATGCGAATGACCGGCGGCCGTGGGGTGGATGTTGTCATTAATACCCTGGCCGGTGATGCCATGCAAAAAGGAATGAATTGCCTGGCGCCGGGCGGAAGATATATCGAAATTGCCATGACTGCGCTGAAATCCGCTAAATCAGTCGACTTGTCCGTCCTTCATAACAATCAATCGTTTCACAGCGTGGATTTGCGGAAGCTGTCCCTTCAAAATCCGGATCAGGTCAAGGACTATCAATTGGAACTGCAGCGGCTGGCGGAAGAGGGAGTCATTCAGCCTGTCATCTCAAAAATCTTTTCCTTTGAAGACATAAAAGAAGCGTATCACTGTCTGGATGACCGCGGAAATATCGGGAAAATCGTCATCAGCGTTTCTGAGCCGTATCAAATGACGTACCGCCCCGAACAAAAGGATCCGGCCGATACAGTAAAATCAGCAGCTGTGTTACCTGAAAAAGAACCGATCGCGATTATCGGGATGAGCGGGCGGTTTGCTGAATCGGAGAATGTCCATGAGTTTTGGGAACACTTAGCCGCCGGACGGGATCTGATTAAAAAAGCAGACAGATGGGATGTCTCTGACAGCCAATGCCAGTATGGCAGTTTTATAGAGGACATTGAATGTTTTGACCCCGTTTTCTTTCATATATCGGGACGTGAAGCGACCTATATGGACCCTCAGCAGCGGCTGTTTTTGGAAGAATCATGGAAAGCGCTTGAAGATGCGGGATATGCGGGAGACTCGGTAAGAGGCCGGGAATGCGGCGTGTATGCCGGCTCCTGCGGCGGAGATTACCAGGCCATTTTTAAACAGCAGGGGCCCGCGCAGGCGTTTTGGGGCAATCATAATTCCGTCACTCCGGCAAGGATCGCCTATCACCTTAATTTACAAGGTCCGGCGATCACTGTTGATACAGCATGTTCCAGTTCGCTGACAGCCATTCATTTGGCATGTCAGGGGCTTTGGACGAAAGAAACGGAAATGGCGGTGGCGGGCGGGGTTTTCATTCAATCCACTCCCGCTTTTTATCAGTCGTCAAATAAGGCGAATATGCTGTCACCGACCGGACGCTGCCATACGTTTGATCAAAGCGCGGACGGGTTCGTGCCGGGTGAAGGCGTGGGAGCGGTGGTGCTGAAACGTCTTAGCGACGCCGTTAGTGACGGAGATCATGTGTACGGCGTCATAAAAGGCTCTGCAATGAATCAGGACGGCGCTACAAACGGAATCACCGCTCCAAGCGCGCTATCTCAAGAACGATTGGAACGGCATGTCTATGACACTTTTCACATTGATCCGGAAACCATTCAAATGGTGGAAGCTCACGGAACGGGCACTGCACTGGGCGACCCGATCGAATTCGGCGCCTTAACGCGCGCTTTCCGCCGCTATACGGATAAAAAAGGATATTGCGTCATCGGCTCTGTGAAAACCAATCTCGGGCATGCCGCTGCGGCCGCGGGGATGGCCGGACTGTTTAAAATCCTGCTGTCGCTGAAGCATCGGCAGATTCCGGCTTCCCTGCATTTTCACCAAGCCAATCAGCATATTCAATTTGCGGACAGCCCGTTTTTTGTGAATGACAAGCTGATACCGTGGGAACGGAACCCGGATGCACCGCGCAGAGCCGCCATCAGTTCATTCGGATTCAGCGGAACAAATGCCCATCTTGTGATTGAAGAGGCGCCGCAAACCGTGCGCCGGTCACCGACAAAACCGGCCTGCCTCATTCCTTTATCTGCGCGGACGGAGCGTCAGCTGGAAATTCAGGCAGAACGCCTGCTGGATTCACTCAGCAAGAACAAAGACAGCGATCTGGGAAATATAGGTTATACGCTCCTGCTTGGCAGAAAGCATTTACATCACCGGTTTGCCTGTATCGTAAGCAGTGCGGACGAACTGAAGCGGGTATTATCGGAGTGGCTTGTAAAAAGAGAGCTTCCGGGTGTGTTTGTGTCCAATTTGAAGGACCAGAAGCCGGCAGAAGAAGCCGGAATGAAAACATTCGGAATGGAATGCATTGAACAGTGCCGCTCGGCGGCTTCGCCAGCACAGTACAGAGAAAGCCTGGCACATATCGCTGACCTTTTTTGCAGAGGGTATGATCTTCCTTTTACACGGCTTTTTGACGGAGGGCAATATTATAAAACGCCGCTGCCTGCCTACCCGTTTTTAAAAGAAAGGTATTGGGCGGCTGATGTAAACAGTTCTTTACCAGGCCAGGCCATGAAAAAGTCTGAAACGCAAACCGTTCTCCCGTCTTCGCCGCAGCCTGAACATGAAGGGCTGATTTCTCTGAGTCCTTTAACTGAGATCGAAATGACAGCGTTTGAACCGGAGACATTGCAAAAACCGATCGTGTTACAGCCTTTGGATGGTACTTTTTCTGTCCGGCAGCCAGAAAAAGCCGTTTTCGAAGACAATAGAACATTGCTTGAAGAATTGAGGATAAGCCTGGCAGATATTTTATTTTTGTCACCGGAAGATATTGATGCTGATGAGACTTTCATCGACATGGGGCTTGACTCCATTATCGGGGTTGAATGGATACAAACAGTAAATAAAACGCACCACACTGAGATTACTGCCAATAAGGTGTATGAACACCCGACGCTTAAGGAGCTTGCGGAATATATAGCGGGGCAAATAAAGAAACCCGAGTATGCTGAAGCGGAGGAAACAGCGGTACGTCCGCAAATCCCGGAAGCAGAAACTCCCCTTGCCGGCATCGCTGACGGCACTTTGCGCAAAGAGCTCAAAGAAAGCCTTGCAGACATCCTGTTTCTGAAGCCGGAAGATATTGATGAGCATGAGGCATTCATTGATATGGGGCTGGATTCTATTATCGGTGTGGAATGGGTTCAGTCCATTAATAAAGCCTATCAAGCGTCTATTACGGCAAATCTGGTCTATGAATATCCGACAATCGCAACATTAGCCGGGTATCTGACCGGTTCTGTCCAAAAAGACACCGAGGAAGTACATGAGGAACATACGAAACAAAACGATATATCAGAAGAGACAGATGATCAAGAACCGCCCGAGCTGATCTGTCTTAACCCGGGTGGAAAGGGAAGACCGATTTTCTGGTTTCATTCCGCGCTGGGGGCAGTGGAGCTGTACCAGCCTGTTGCCGAACGGACCGGGCGTCCTTTTTACGGAATTCAGGCAAGAGGATGGATGACAGACCGGGAACCGATCCGCGGCATTAAAAACATGGCCGAATATTACGTTAAGCTCATACGTACCGTGCAGCCCCGGGGTCCTTACGATGTAGGCGGCTATTCATTAGGGGGCATGCTCGCTTATGAAGTCACCCGGCAATTGCAGCTGGCTGGAGAAACCGTTGAGTCAATCGTCATGCTCGACTCCTTTGACTCGGCGGGTGCGCGGGAAATAAACATTCCTGATGAATTATTTGATAAAAATATGATGCTGCAGACGGTGAACATGGCTTTATTTGCACCAATCTATCAATATCCGGAACGCATTTCTGAAACCTTGATTCATCGTGATGAACTAGATGCCGATCTTCATGAAGACATATTTTTAGAGCAATTAATCGCAAAAGCCAAACAGCGGGGGTTAACGAAGACGGACGCGTTGGTGAAAAATCTGATCAGGCAGAATATAAATGTTCAGGACGCTTACGAAATCACTGATTACGAACTCCTGCCGCTTCCAGATCCGAACGGGGTGACATGCTATTATTTCCGAAATAAAAACGGTATTTTCTTGGGTGAGCTTGATCCGTATTTTACGATCAGGGCTGATATTTTATCCGCTGATTTCGTCAACTATTGGAGCCAGTGGGAAGAGCATATGACAAACATCGCCATCATGGATGTGGCGGTATCCAACCATATGACGTTATTGGCTGAAGACAGCGCAGCCGAAACGATTTCTGAATTTTGCGGCGTTTTATATTCGGCAGACGGAATGACAGAACACAGCTTCCTGCAGCTGCAGGAAAAGATACTGAACGTGCATGGTGAGATGCTGAAGCAGCCCGCCAAAACAAGACCGTAA	MNSLLCKLLFYQLQSIGFFSEPVTTASASMRSAGVIGTYGRWLEESLNLLKENGYIAYDGYTVTLLTDQRPDGRTVWNEWDAHKRLLPNGELAQAELAEATIKAMPSILKGERPATDIVFPDSSMRLVEGVYKHNPVADYFNEVLADSAAAYLKAYLTEHPDARIRLIEVGAGTGGTSAMLFTKLQPFAKQIAEYCYTDVSKAFLMHAEQEYGPDVPYLTTALFNAEEPCESQNIKTGVYDIVIAANVLHATKNIGLTLRRLKALLKYNGMILINEISDRSVFTHLTFGLLDGWWSYEDAELRIPGSPGLYPKSWECVLHSEGYRAVCFPAETAHDLGQQIIAAESDGLVRMQGIRDGRKPYAAPAEVFRKPAQPVSRSRAPEEHQAVKADGESVASHVRSVIKTSIADVLKMKEEDIQEELNFSEYGIDSILAVNVINEMNKRLNLTLQTTILFDYYHVKLLTGYISAEYETIIASSLETERAKIRPALQEERPAEKPLQTERKETGYQKPKQERMPPSFAKSGDSGMFRVVIDRPGGIEDLMIARSEVPETKDDEVQIAVRAFSLNFGDLLCVRGLYPTMPPYPFTPGFEASGVVIKTGRHVTSVIPGDEVIVGMGEEFGSQANLITCKEHQVYHKPARLTFEEACALPTVAVTMIDAFRKAGLKKGEKILIQTATGGTGLIAVQMARHIGAEIYATAGSQKKIEYLHSLGVHNTICYLEEDFETEIMRMTGGRGVDVVINTLAGDAMQKGMNCLAPGGRYIEIAMTALKSAKSVDLSVLHNNQSFHSVDLRKLSLQNPDQVKDYQLELQRLAEEGVIQPVISKIFSFEDIKEAYHCLDDRGNIGKIVISVSEPYQMTYRPEQKDPADTVKSAAVLPEKEPIAIIGMSGRFAESENVHEFWEHLAAGRDLIKKADRWDVSDSQCQYGSFIEDIECFDPVFFHISGREATYMDPQQRLFLEESWKALEDAGYAGDSVRGRECGVYAGSCGGDYQAIFKQQGPAQAFWGNHNSVTPARIAYHLNLQGPAITVDTACSSSLTAIHLACQGLWTKETEMAVAGGVFIQSTPAFYQSSNKANMLSPTGRCHTFDQSADGFVPGEGVGAVVLKRLSDAVSDGDHVYGVIKGSAMNQDGATNGITAPSALSQERLERHVYDTFHIDPETIQMVEAHGTGTALGDPIEFGALTRAFRRYTDKKGYCVIGSVKTNLGHAAAAAGMAGLFKILLSLKHRQIPASLHFHQANQHIQFADSPFFVNDKLIPWERNPDAPRRAAISSFGFSGTNAHLVIEEAPQTVRRSPTKPACLIPLSARTERQLEIQAERLLDSLSKNKDSDLGNIGYTLLLGRKHLHHRFACIVSSADELKRVLSEWLVKRELPGVFVSNLKDQKPAEEAGMKTFGMECIEQCRSAASPAQYRESLAHIADLFCRGYDLPFTRLFDGGQYYKTPLPAYPFLKERYWAADVNSSLPGQAMKKSETQTVLPSSPQPEHEGLISLSPLTEIEMTAFEPETLQKPIVLQPLDGTFSVRQPEKAVFEDNRTLLEELRISLADILFLSPEDIDADETFIDMGLDSIIGVEWIQTVNKTHHTEITANKVYEHPTLKELAEYIAGQIKKPEYAEAEETAVRPQIPEAETPLAGIADGTLRKELKESLADILFLKPEDIDEHEAFIDMGLDSIIGVEWVQSINKAYQASITANLVYEYPTIATLAGYLTGSVQKDTEEVHEEHTKQNDISEETDDQEPPELICLNPGGKGRPIFWFHSALGAVELYQPVAERTGRPFYGIQARGWMTDREPIRGIKNMAEYYVKLIRTVQPRGPYDVGGYSLGGMLAYEVTRQLQLAGETVESIVMLDSFDSAGAREINIPDELFDKNMMLQTVNMALFAPIYQYPERISETLIHRDELDADLHEDIFLEQLIAKAKQRGLTKTDALVKNLIRQNINVQDAYEITDYELLPLPDPNGVTCYYFRNKNGIFLGELDPYFTIRADILSADFVNYWSQWEEHMTNIAIMDVAVSNHMTLLAEDSAAETISEFCGVLYSADGMTEHSFLQLQEKILNVHGEMLKQPAKTRP	PGPT0010170_33	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010170-baeR|pksR|dfnJ-K13615	NA	NA
D1-12_01439	6153			hypothetical protein	ATGAAAAAAACAGTGAATCTGCGCCTGACGGCAGAACATCCCATTATGAAAAACCATCTTGTTCACGGAGAATCTGTCATGCCCGGTCTGGCTTATATTGATATGCTGTATCAGCTGGCAAAGCAAAGCCTTGATCTTTCATTCCGTTCCATCTGTCTGAAACGGGTGACCATTTATCATCCTTTATCAGTGAAGCGGTCAGAGCGGCTTGATGTGAGTGTCATATTCAGTAAAGAAAAGGAGTTCTGGACAGCCTCGATTTGCGGGGCGGATTCCGGGACGGTTTTCTTATCAGCGGAGGTGCATGAAGGAGTCTTTTCATCAGATAAGCGCCTTGACGCGGAAGAGAAAAAACAAGTTGCGCTTCCATCAGTCTCTTTGCATACGGTTTACGAAGACGCGAGAAGCCGCGGACTGTCGCATGACGGACTGATGAAGCCGGAGGGAGAGATCTATGCAAATGAAGAGGAATGTTTCCTTGATATTCGGCAGTCTGATTCATGCCAGGAAAATCTCCCCGGCGCTCTCTTTCATCCCGCGCTGATGGACGGTGCCGCCATGGCCTCCGGCGTATTGCAGACAGCTGCAGGCGCCGGTTTGTTTTTACCGATTTATTATGATTCGTTTATTGCCGCTGAGACCGTTACGGAGCGCTGTTACGCGGTGATTTCGAAAAAGTCCGGTACGCCTTCTGAAATGGTGAAAATGGATATTGACTTTTACAACCTCAGCGGTGCGCATATTGCTTCACTGCTCGGCCTGACAGCCAAAAAGGTGCGGACAGACCGGCAGCTGATACCAGGCGTTCAGCAGATGGAGGAAACCTTATACCGCATTTTCTCAACATACGTAGGCCGTCCTGTCACAAGAAATGATGCGCACACCGTGTTTTTTGAATTAGGTCTTGAATCGTCACAGCTTCTGGCCATTATTAAAGACATCGAAGAGGCGTTTGATCTGCGGCTGAATCCGACTCTTTTATTTGAATGCAGCAGCATATCCGAACTGCTTGAAGACATAAAAACAAAAGGAACAGATGAATCATCCGGCCTTGTCGCGAATGCAGCACCGGTCTCTGAAACGCAATCAGGCAGTCAGACATTTACTTTCTATGAACATGAAGCATTCCTTCAGGATCATCTGGTTTTCGGCAAACCGGCACTGATGGGTGTAGTGTATCCGTGTCTGGTGCTTGAAGCATCCGGAGCGTCTCATTCCGGCACGTATCCCGCCGGGCTGAAAGATATCCGTTTTACGGGCGGGCCCGTCACGCTGGAGCCGGGAGAGGCCGCACAGATTGACATTTCATTTGCGGCAGAAAAGAGTGCCGAACGCTTTACCGCAAGCTGCACTGTCTCCGGTAAAGAAAGCCGGAAGACGTGTGCCGAAGGAGAAATAAGCAGAGGTATAGAGACACCCGTAAAAAAATCATATGACGTTGAACAAATGAAGGCGCATGCACAAAAGGTAGCACCGGATGTTATTTCCCGTCTGTACGATTCGGTTGCCGACTTCACGATAGGCCCGATGCTGAAAACGGTAACGGCGGGATACAAAATGAGTGAGAGCTCCTTTTTATTGCAGCTGGACTTATCAGGGAAAAAAGAGAAAGGCGATCTGCATCACTTTGCATTTGACCCGCTTATATTGAATTCATGTTATATGTCGCTCGGTGAAGAAGAATTGCAGCTGAAAAAGCGGATTCACATTCCGCTCATGATTGAGAGGCTGACGCTTTACGGACCTGTCATGTCTGATACCGTCTATGTGGTGAATACAATCAAACATAAAAAAGACGGATTTCTCTCATTTGACGCCGCAGTCCTCAGCCATACCGGAGAACAGCTGGCGGAATTGAAAAACGCGTCTGTGAAAGAAGTGCTTCAGCCAAATCGGCTTGAAAATGCGTCTTTTGCCCCGTCCGGGAATCAAAGCCGTCAGAAAACGAAAGGAAACCCGCTGGATATTGCCATTGTCGGAATTTCCGGCAAGTATCCGCAGGCCGATGATATCGATGCGTTTTGGGAAAATCTCAAACAAGGAAAGGATTGTATTACCGAAATTCCGAAAGACCGCTGGAAATGGGAACATTACTTTTCCGAGGACCGTACGGCGCCGGGAGCGATTTACAGTAAATGGGGCGGATTCATTGACGGGATCGCCGATTTTGATCCTGAGTTCTTTAAGATTTCCCCCCGTGAAGCGGAACACCTTGATCCTCAGGAACGGCTGTTTTTAATGCATGCGTGGATGGCGATGGAGGATGCGGGATATACGAGGACATCACCTGAACTGGGCCGTCAGGTAGGTGTGTATGCCGGAGTCATGTATCAGGAATACCCGTTATTCGCGGCTGAAGCGGGAGTGAAAGGACGGCATATCGGGCTCCCCGGCGGGATTTCATCCATTGCTAACCGTGTCTCCTATTTTTGCGATTTTCAAGGGCCGAGCATTTCGGTCGATACGATGTGTTCGGGTTCGCTGACTTCATTGTACATGGCGTGCCGGGATCTGCGGGATCATCGGATTCGCGCGGCGCTTGCCGGCGGAGTGAATCTCACCGTTCATCCTAACAAGTACTTCATGCTGAGCCAGGGGCAGTTCATCTCATCTAAAGGACACTGCGGGAGTTTCGGCGCCGGGGGTGACGGCTATATTCCGGCAGAAGGGGTCGGGGTGCTGCTTCTTAAACGTTTAGAAGACGCCGTACAAGACGGAGATCGGATTTACGGCGTCATTAAAGGAGCTGCCATTAATCACGGCGGGAGAGCGAGCGGTTACACCGTACCGAACCCCAAGGCGCAAAGCGAAGTCATTTCTCAAGCTTTACAGGAGGCGGGGGTATCGCCGGGCCAGATCAGCTATGTAGAAGCGCACGGGACAGGGACGAAATTAGGCGATCCGATTGAAATCCGGGCTTTAACCGATGCATTCGGTGATGTTCCTGAAACATGTCTCATCGGGTCTGTCAAATCAAATATCGGACATGGGGAATCGGCAGCAGGCATCGCCGCTGTCACAAAAGTGCTGCTGCAGATGAAGCACAAACAAATCGCCCCATCTTTGCATGCGGATGTTTTAAATCCGAATATCCAATTTGACGAAGGTCCGTTTTCCGTCTGCCGGGAATTAACAGATTGGAAACGGATTGCAGCAGACGGAGCAGAACAGCCGCTCAGGGCGGGGATCAGCAGCTTTGGTGCGGGCGGTTCTAACGCGCATATCATTATTGAAGAATATGAGGCTCCTGTAAAACAAGCAATCAGCAGCCAAGAGCCGGCTGTCATTCTGCTGTCTGCGAAAAATGGGGAGCGTCTGACAGAATATGCGGAGCGCCTTCTTGCTTTTCTTCAAAAGAAGCATACGGATAAGCCGGACTTATTTGATGTCGCGTACACTTTACAAGCGGGGCGGGAAGCGATGGATGAGCGGCTGGCTTTCATTGCGGACTCTCTTAAGGAGCTGGAGGACAAGCTCAGATCGTACTTGGAAAATGAAAACGCACCGCATCTTTACAGGGGGCGGGCGAAGCGAAATCATGAGACCGTGGCTGTGTTTGAATCTGATGAAGATTTGCAGGAAGCCATGGGCAAATGGCTGAAAAAGAGAAAGTACGGTCATTTGCTGAACATGTGGGTGCAGGGAGTCGATGTGGACTGGAACTTGTTATATTCGGGACAAAAACCCCGGAGAATCAGCCTTCCCGCCTATCCGTTTGCAAAGGTCAGATGCTGGATTCAAGATGAAGCCGAGGCGGTTTCAAAACGGGATGACGGCAAAACGGTGATCCATCCGCTGCTTCATGAAAACACCTCCGATCTGTGGGAGCTGAAATTCACATCCGTATTTACCGGACGGGAATTCTTTTTCACTGATCACACAGTCAATGGGGAGAAAGTGCTCCCGGGAGCCGCCGTGATCGAAATGGCCAGGGCGGCCGTTGAGCGTGCCGCATACGCTGTGCCGGACGGACGTAAAGGACTGTATTTGAAAGATCTCATATGGATGAGGCCTGTTGTTCATAAGGGGACGGATGTAGAAGTCCATATCAGCCTTATCCTTAAGGAAAATGAAGACATTGAATTTACGATTTACAGCCTATCGGAAGAACCCGGGGGAGAACGGATTATATACAGTAAAGGCACCGCGGTATCAGGAGAGATAGCAGCGGTTCCGTCAGTTCACTTAGAGGGCTGGCTGTCCGGGTGCAGCCAATCGGTTATGACGTCTGATGAGGTTTATCAGGCTTTCCGGCATGCGGGTATGATATACGGGCCGAGCCATCAAGGAATTGATCAGCTGATGATCGGAGAGAGGGGCGCTGCAGCCCGGCTGTCGCTGCCGGAAACGGCAGACAGTACCGCCGATCAGTTTGTCATCCACCCGAGTCTTCTAGATGCCGCGTTTCAGGCGTCACTGGGTGCCGGTTCAGATACTGCCGGAGACACTCCGATGCTGCCGTTTTCCCTGAGGCAGGCAGAAATATTTCAGCCGACTCAGAAAACGATGTGGGCGCTTGTCCGCAAACAGAGCGATCGGTCAGATAACGGAGCGCTGACGCTGGATATTGATTTATGTGATGCAAACGGCGCTGTTTGTATGAGATTGACAGGCTTCTCCTGCCGGGCTGTCCGGCAGACAAACCAAACCGAAAGCAAGCGGCAGGAAGTTCAGACAGCGATGCTTGCCCCTGTTTGGGACAAAACTTTCTTTTCCATAGAAGAAAATCAAGCGGTTGATCAGGAACAATTGCTGATTATCGGAAAGCCGGGAAATACCATAAAGGCTGCTGCAAAAATGTGGCCCCGCGCCCATCTGGCGGAGACGCCGGATCATTCAAGCGAGCAAACATTACGTGAATTGACAGCCGGGTATCAGGATATCCGCCATTTCTTATGGATTGCGCCGGATCGTTTCGCACCTGCATCCGTCAGTCAGGAAATGCTTGATGAGCAGGAGAATGGGGTGATTCAATGTTTCCGTTTCATCAAAGCGCTGCTGTCACTCGGGTATGGAAACCGAAACATCAGCTTTACGGCGGTCACCCGGCAGACACAGTCCGTGTATCCGGGTGATCTGCCGCAGCCTGAGCATGCAGGCGTACACGGGTTGATCGGTTCATTGGCAAAAGAATATCCGAACTGGGACATCAGGCTGATTGATGCAGAAGAAGGCAGTGATTCGTCTGAGATGAAAAACATCTGGCGCCTTCCTCCAGATCCGGACGGAAATGCTGCCGCGTACCGTAACGGAGCTTGGCACAAGCAAAAAACAGTCCGGGTGCTGACAAGTTCCGCTCCGCGTATGTCGTACAGAGAAGGCGGCGTTTATGCTGTCATCGGCGGAGCGGGCGGCATCGGAGAAGCATGGAGCAAATACATGATCACCCGTTACAAGGCACGGATGATATGGATCGGCAGGCGGCCGAAGGATCAGGAGATTCAGAGCAAAATAGACAGGCTGGCGCTATCAGGCCCCGCGCCGCATTATATACAGGCTGATGCTCAAGATGCCGCAGCGCTTAAAGCGGCCGTCCGTTCCGTAAGAGAGCAATACGGCAATATAACGGGAGTCATCCATTCCGCGATAACGCTTGCCGACAAAAGTATGGCGAATATGGATGAAGCTTCTTTCAGAAACGCTTTTTCAGCTAAGGTGAATACGAGCGTCCGAATGATTGAAGCTTTTAAGGGAGAACCGCTTGATTTTGTGCTGTTTTTCTCATCCGTTAATTCTTTCACAAAAAATGCCGGGCAAAGCAACTATGCGGCAGGGTGTACATTTCAAGACGCCTTTGCCCGCCATATCGCTTCCTTGCTTGATTGTGAAGTGAAAGTCATGAATTGGGGATATTGGGGCAGTCTGGGCGTTGTATCAGACCCGTCTTACAGAAAACGGATGGAGGCGTCAGGGATCGGTTCTATTGAACCCGATGAAGCAATGGAGGCGCTGGAAGTCTTACTATCAGAACCGTTCAGCCAAGCGGCATTCATTAAAGCTGCTCCGCACGGCTTAGCCGCGCTGACGGATCAAGATGCAATATCGGTTGTATCCGGCCCGAAGCCTTCATTTATGGAAAGCGTCAAGCGGCAAAATCCGGATCGGAATGAACGGCTTGAGACTTTAAAACGAGAAATGGAGTTGCGCATATGA	MKKTVNLRLTAEHPIMKNHLVHGESVMPGLAYIDMLYQLAKQSLDLSFRSICLKRVTIYHPLSVKRSERLDVSVIFSKEKEFWTASICGADSGTVFLSAEVHEGVFSSDKRLDAEEKKQVALPSVSLHTVYEDARSRGLSHDGLMKPEGEIYANEEECFLDIRQSDSCQENLPGALFHPALMDGAAMASGVLQTAAGAGLFLPIYYDSFIAAETVTERCYAVISKKSGTPSEMVKMDIDFYNLSGAHIASLLGLTAKKVRTDRQLIPGVQQMEETLYRIFSTYVGRPVTRNDAHTVFFELGLESSQLLAIIKDIEEAFDLRLNPTLLFECSSISELLEDIKTKGTDESSGLVANAAPVSETQSGSQTFTFYEHEAFLQDHLVFGKPALMGVVYPCLVLEASGASHSGTYPAGLKDIRFTGGPVTLEPGEAAQIDISFAAEKSAERFTASCTVSGKESRKTCAEGEISRGIETPVKKSYDVEQMKAHAQKVAPDVISRLYDSVADFTIGPMLKTVTAGYKMSESSFLLQLDLSGKKEKGDLHHFAFDPLILNSCYMSLGEEELQLKKRIHIPLMIERLTLYGPVMSDTVYVVNTIKHKKDGFLSFDAAVLSHTGEQLAELKNASVKEVLQPNRLENASFAPSGNQSRQKTKGNPLDIAIVGISGKYPQADDIDAFWENLKQGKDCITEIPKDRWKWEHYFSEDRTAPGAIYSKWGGFIDGIADFDPEFFKISPREAEHLDPQERLFLMHAWMAMEDAGYTRTSPELGRQVGVYAGVMYQEYPLFAAEAGVKGRHIGLPGGISSIANRVSYFCDFQGPSISVDTMCSGSLTSLYMACRDLRDHRIRAALAGGVNLTVHPNKYFMLSQGQFISSKGHCGSFGAGGDGYIPAEGVGVLLLKRLEDAVQDGDRIYGVIKGAAINHGGRASGYTVPNPKAQSEVISQALQEAGVSPGQISYVEAHGTGTKLGDPIEIRALTDAFGDVPETCLIGSVKSNIGHGESAAGIAAVTKVLLQMKHKQIAPSLHADVLNPNIQFDEGPFSVCRELTDWKRIAADGAEQPLRAGISSFGAGGSNAHIIIEEYEAPVKQAISSQEPAVILLSAKNGERLTEYAERLLAFLQKKHTDKPDLFDVAYTLQAGREAMDERLAFIADSLKELEDKLRSYLENENAPHLYRGRAKRNHETVAVFESDEDLQEAMGKWLKKRKYGHLLNMWVQGVDVDWNLLYSGQKPRRISLPAYPFAKVRCWIQDEAEAVSKRDDGKTVIHPLLHENTSDLWELKFTSVFTGREFFFTDHTVNGEKVLPGAAVIEMARAAVERAAYAVPDGRKGLYLKDLIWMRPVVHKGTDVEVHISLILKENEDIEFTIYSLSEEPGGERIIYSKGTAVSGEIAAVPSVHLEGWLSGCSQSVMTSDEVYQAFRHAGMIYGPSHQGIDQLMIGERGAAARLSLPETADSTADQFVIHPSLLDAAFQASLGAGSDTAGDTPMLPFSLRQAEIFQPTQKTMWALVRKQSDRSDNGALTLDIDLCDANGAVCMRLTGFSCRAVRQTNQTESKRQEVQTAMLAPVWDKTFFSIEENQAVDQEQLLIIGKPGNTIKAAAKMWPRAHLAETPDHSSEQTLRELTAGYQDIRHFLWIAPDRFAPASVSQEMLDEQENGVIQCFRFIKALLSLGYGNRNISFTAVTRQTQSVYPGDLPQPEHAGVHGLIGSLAKEYPNWDIRLIDAEEGSDSSEMKNIWRLPPDPDGNAAAYRNGAWHKQKTVRVLTSSAPRMSYREGGVYAVIGGAGGIGEAWSKYMITRYKARMIWIGRRPKDQEIQSKIDRLALSGPAPHYIQADAQDAAALKAAVRSVREQYGNITGVIHSAITLADKSMANMDEASFRNAFSAKVNTSVRMIEAFKGEPLDFVLFFSSVNSFTKNAGQSNYAAGCTFQDAFARHIASLLDCEVKVMNWGYWGSLGVVSDPSYRKRMEASGIGSIEPDEAMEALEVLLSEPFSQAAFIKAAPHGLAALTDQDAISVVSGPKPSFMESVKRQNPDRNERLETLKREMELRI	PGPT0010160_116	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010160-baeM|pksM|dfnI|dfnD|dfnF-K13613	NA	NA
D1-12_01440	7719	acpP_3		Acyl carrier protein	TTGGCAGTTGCCACCGATCAAGTCAAAACGTTCCTGCAGAAAATCAGCCATACGAATTATATCGTCCGGGATCATCGCGTTCATCAAATCCGCGTCCTCCCGGGCGTGACTTTAATAGATATGCTGTATCGGCTCGCCGCCGGGTATCTCGGTGAACGGCCTATAGAATTAAGACAGATTATTTTTAAGCAGCCTGTTGTAACATCTGAAGAGTTTGATAAACACCTGTATGTTACCTTTACGCCGGCGCGTGACAGCTGGAAAGTTGAGATCACAAGCGAAAAAGCAAAAAACGGCACACCGCTTGGCGGAAACCGGGATGAGAATATGGAATGCCAGCTTTATTTGCAAGAAGACACGCCCCGGGCAAAAGAACTGAATATTGAAGCGTTCATGAAAAACGCAAGCCGAAAATGGGACATGCATGACATTTACGGAATTGCAAGAAGAAGCCATATTGAGCATGGCGAGTTTATGAAAAATGAAGGGGCCGTTTATCAGCTTCAGGATAAAGAAGAATTAATGGAGCTCACTCTGAGTGATTTGGCTGAAGGATTCCGGGAGAAATTTAAGGCGCATCCGGCTTTTTTAGATGCGTCTACCCTTGCCGGCTCTTCCTTTGCATTGTCGGCCCAAAAGCAAAATGACACACCTTATATTCCTTTTATGATCAATCGTTTTTGCATGTATCAGCCGTTTCCGAAAACGATTTACACTTATTCTGCGAAAAACAGCCGCACTGAAAGCGGCGTATCAGCCAGCGAACCTGATGTTTATTCGGCCGACTTCACGATTTACGACAGGGCAGGGAACGTATTGGCCGAATGTGAGAAACTGACAGTGAAAAGGGTCAGACAAGCGAATATGATTACCCATCTGATAGACAAAGAGAAGCCGCCTCAGCAGAACAGAAGCGGCCGTGGAGAGCCCGAAAGTCCTGTGGCCGCAGAAGACGTGTCTGAACAGCAAACGCCGGAACAAAACATGGTGACTTACATAAAGTCGGAAATCGCCAGGCTGATCAATCGTCCGGCACAGGATATTGATGTGCGGAAAGGCTTTTATGATATGGGGCTTGACTCGGCGCATTTGCTGAAGCTTGTAAAGATACTAGAGCAGACTTTTCAGCAGCAGTTTTATCCGACACTGCTTTTTGAATATTCATCTGTCCGCCGCCTTGCGGATTACCTTATCAATGAAGCGGGCTGTGTGCTGAAAGATTCGGCCGAAGAACGGCATACATCAGACGCTGACATTGCTGATGAGGTTCTGTTTTTTGAACCCGCCTGGAAAGATCAGCCGCTGGAAACGGCGGTGCAGAACGGGCAAAAACACACCCGTCATCTCATTATCGCTGCCGATGCAGGACCCCGTCTCACCGGTGAACTCGGCACATATTGCCCGGAAGCGGAAGTGATAGAACTGAAAAGGGAGCATGAGGCTGCAGATGAGCAGTTTGGAGCAGATGCCGAGCGCATATTTCGTATGCTCAAACGGGAACTGACAGACCATCCGAAAGAACATACATTGATTCAGCTTGTATGCGCCGTTGAGAATGGAGCGGCATTGTCTTCCGCTCTCGGGGCTATGCTGAAAACGGCACATCTGGAAAATCCGGTTCTTCGCACTCAGGTGATCACCTTCTGTGACAAGAATGAGAGATTGCCAAGTGAGACGGCCGCAATCATTAGAACAGAAGCAGACTGCTCTTATGCAGGCTGCACAGACATTCGGTATAAAGACAATATGCGGCAGATCAGATTGTTCGAACGTATTGAGAAACTGGACGGGCAGACACAGTCTCCTTGGAAACAAAACGGCGTATATGTCATTACAGGAGGCCTCGGCGGTCTTGGATTTCTGCTTGCCCGTCACCTTGCAGAAAAAGAAAAAGTGAAGCTCGCACTCATCGGCCGTTCGCCGCAACAGTCTGAGAAGATCAGCAGACTGAAAGCATTGGGCGCAGAAGTTCTTTACGTTCAAGCGGACATCGGCAGCAAAGTCGAAACAGAGCGGGCATTTGCTCAGATTACAGAAACCTTCGGCCGGCTGACGGGTATTTTTCATTGCGCCGGTGTTTTAAAAGATCAATTTATCATCCAAAAAGACAGTTCTGACTTGAAGCAGGTGTTCCTGCCGAAAATCAGCGGCCTGATTCATGCGGACGAAGCTTCACGGCATGAACCGCTTGAATTTTTCGCCGTTTTTTCCTCATTCTCGGCGTTGGCCGGAAATGCGGGCCAGACAGATTATGCCGCAGCGAACGCTTTTATGGATGAATATATGAAATATCGCGATTGCAAAGCGGAAAAAGGCGAACGGAACGGGGCTTCTATGACGATCAACTGGCCGCTTTGGGAAGATGGCGGCATGCAGGTTGACAGCTTAATGAAAGAGATCATGAATGATGCAACAGGCACCAGCCCGCTACCGGCCGGGGAAGGGATGGCTTCACTTGAATATATGCTGCGACTCGGCAAGCTGCAATCCGTTATTTTATACGGGAAAGAGCCGGCTGTAACTGAAAGCATGGGCCGATTGGGTCCAAAGGGAGACAAGAACGGATCTTCATTATCCAACGCAGCTGTCAAGAGAAGAAGCCGAAAACAAGAGAGACATACAGAAGAGCATGATATTGCGGTAATCGGATTGGCGGGAAGATACCCGCAGTCGGGAAGCATTGATGAATTTTACCAAAATCTGCGCTCAGGTAAAGACTGCATTACGACAATGCCGAAAGACAGATGGAAAGGTTATTCTTTCTCATATGAAGCAGATCAGTTCTACCGTTACGGAGGATTTTTGGATCGCATAGACAGCTTTGACCCGCTGTTTTTCAATCTGACTCCGCGCCAGGCTGAAATGATGGACCCGCAGGCGCGACTGTTTTTAGAGACGGCTTGGGAAGCTTGTGAAGATGCCGGTTTTTATCAGGACAGAACGGCGCGCGGGCCATCTTCACAAAAGAGAAAACGCGTCGGGGTATTCGCAGGTGTGTTTTGGAGCCATTATGAGCTGTTCGGCGCTGAAATTACACAACGGGGCACACCGCTGTCTATGGGCGTGACGCCTGCCTCTGTTCCGAATATCGTGTCTCACTGCCTGAACTTTACAGGGCCGTCAATGGCTGTTGATACGATGTGCTCTTCTTCGCTCACATCCATACATTTGGCATGTGAAAGCATTAAAAGGGGGGAGTGCGAATTCGCCATTGCCGGCGGTGTGAATGCGGTCACACACCCGCATAAATATGCGTTTTTGGCGAATGCCGGATTTCTGTCTTCAGAAGGCGTCTGCAAAAGCTTCGCCGACGGCGGTGACGGTTATGTGCCGGGAGAAGGCGTCGGCGCGGTGTTACTGACAACCGTTCAAGAAGCGGAAAGAATGGGCTGTCCGATATATGGCGTCATAAAAGGCTCCGCTTTAAACCATGTCGGAAAAACATCCGGTTTGACCGTGCCTGATCCGGCATCACAGGCGGAAGTCATTACAGATTCTTTTCAGAGTGCCGGCGTTGATCCGGAGACATTGAGCTATATTGAAGCCCACGGAACAGGCACGTCTTTGGGTGATCCGATTGAAATTGAAGGGCTGAGCCGCGCATTCCGCAAATGGACAAACAAGAAGCGTTTTTGCGCCATCGGCTCTGCCAAATCAAATATCGGCCATTTAGAAGGAGCCGCCGGGATCGCCGGATTAGCAAAGGTGCTTTTGCAGCTGAAGCATGGAGAAATCTTTCCGTCATTGCACGCGGACACGCTGAATCCCCATATTCCGTTTCCGGACACACCGTTTTATGTGGCGGACCGGCTGGAAGAATGGGAACGGCCGTCACATTCTGACCAGCCGAGAAGAGCGGGTTTAAGTTCTTTTGGCGCCAGCGGGAGCAATGCCCATTTTGTCATAGAAGAATATCTGCCGCCGCAGGCTGAAAAGCAATCAGTAAGTATACGGGAAGACGAGCCGGTTCTGTTTCTGCTTTCGGCCAAAAATGAAGAACGCCTATTAGAATATGTCAAACGGTATGACCGCTTTTTACGGGAAAAAGAAGTCAACCTTAAAGACCTGGCCTACACGCTTCAAGCTGGCAGAGAAGCGATGCCTGAACGGCTGGCATTTATCGTTACTTCCGTTTGCGGTCTGCAAGCGAAACTGAAGGATGTGCTTGAACGGAAAACAGAAATTGAAGGATGTTTCCGCGGACGTGCTCAAGATGATATTTCATCAAGTGGAATGGCCGAGCTGCTGAAAAACAAGCAATATTCCAGATTGCTCACTGAGTGGGCAAAAGGAGCCGCCGTTGACTGGAGCCTGTTATACGAAGGAGAGAAGCCGAAACGGGTCAGCCTTCCTGTATATCCGTTCGCGAAGGAGCGGTATTGGGTGCCTGTGCCTGCGGATATCCGGAAACAGACAGACGAACCGGCGGAAAACCAAAAGATCATTCTTCAAAAAGACTGGAAGCAGCAAGATCCGGCGGAATCTGAAGCACTATCAGGAACAGTAATGATACTTGCAACGGATAAGACGCGCCGATTGGCCGATGCTCTTTTTAAAGGAAACGGCCATATTGAAACGATCTGCTTCATCCATCAGGCAAAAGACGGCGCCGATTATTACGCCGCCGCATCGGGGCGAAACCTTTACGGCAGAGTGCGGGAGTCTCTTCAAAACAAACAGATACTCGGGGTCGTCGACATAACCGCATATGATGCGGAATATGAACGGCAGGAAGAGATAGAACACGGAAAGCTTGCCTTTTTACAGCAGGCTCTTGAATCATTCCGTCATAGCGGCGCTGTGTTCAGCCAAGTGACACACCGCCTCCAGCCTTTCAAGGAAAGTAAACCTCTGATGCAAGGGGCGAAAACGGCGGGGCTGTACCGAATGCTGGGCGCTGAGTATGCCAACATTCATTCTTTTACGATAGATAGCGATTGTGCGATTGAGCATACAGAAGAATTAAGCAGACAGATTGAGACTGAATTTTTACAGCCGCGGGCCAAAAGCGGCAGTGAATGCTGCTACAGGCTGAATCGCCGTTATGTGCCGTTTCTGAAGCAGGGTATGAATGTTTCGGCGGCGCCTGAGCTTTCCTATTCGTCTGATGATGTGCTGTTAATAACGGGCGGATCGCGCGGGATCGGCGCAATTGCGGCAGAGCATGCCGTTTCACGCGGATGCAGGAAACTGGTCATCATGGGGCGGGAGCCGCTTCCCGATTCCTCAGAGTGGGCAGACATGAAAAAGGACGGCATTCTCCCGGAAAAAGCCGAGCGGATGCAGAGGTTAGCCGAGCGGGGCGCGGAGATCCGTTATTACAGCGTTTCTCTTACGGATCAAAAGGGGCTCCGGAACATGACGGACAGCATCCGCGGCACGATGGGACCGATTACCGGCGTTTTTCATTGCGCGGGTGCAATGGGAGAACACCCCGCTTTTTATAACAAAACCGAAACTGAAATCGAAAGCGTTTGCGCGCCGAAAGTAACAGGGCTTCGCGGTCTCTATGAAGCCGTTCAGAATGAGCCGCTGTCGTTTTTTATTTTGTTCTCATCCGTTTCGGGTCTGATCCCTTCGCTTGCTGCGGGGCAAAGTGACTACGCGATGGCTAATTCATTTATGGACTCTTTTGCAAATCATCAAGCAGGTATAGGAAACGTGTTTGTTAAAGCCGTTCAATGGCCCGTCTGGAAAGAAACCGGCATGGCTGAAGGCCTGCCGGAAACACCTGCTTATCAAAAATCAGGACTTTCCAGGCTGTCTGCCGAAGACGGACTGAAGTTTTTAGATTACATCATATTAAACGGACAAAGCTGCGGAATTCCTTGTGTTCCAGAAGACAGTGAGGCTGATTTTGGTGATCTTCTGAAGGTGAAGAAAGCTGAAGCTCCCGTGAAAAAAAGCACTGCCGGTGACCAAAAGGTGAAGGATACGATTCGTCAATGGGTGCGCACCGTCTTCAGTGAAGAACTGAAAATGACGGATGAGCAGATAAAAGATGATATGCCGTTTGATGAATACGGGATTGACTCAATACTCTTTGCGGAATTGGTTCAATCACTGCAAAAACGGATCAGCATAAAGTTAATACCGTCCTTAATGCTTCAATATCAAACGATTACAGAAATGGTTGACTATTTCGCAGCGCATCATGAAGCCGATTTTGTGACAAAAGAAAATGGTTTCGTTCAAGACAGGGACGTACAGCTTGATTTAACCGCTGCTGCTGAAGAGAGAACATCCATGAAGCCGAAAGCGGATACCGAAGACGATATTGCCGTCGTCGGCATGTCCTGCCGTTTTCCGGGGGCGGGCGGAACGGATGCTTTTTGGGAGCTGCTGATGAAAGGAAACACCGCCATCCGGCCTGTCCCCGCATCGCGCTGGCATACAACAGCGCATACAAAGGATTATGCGGGGTGGATTGATGATATCGACATGTTTGATGCGGGATTTTTCGGCATCTCTGAAAAAGACGCGGCAATTATGGACCCGCAGGCGCGGATCATATTAGAAGAAGCGGTTCATTCCGTTTATGATGCCGGGTACGGCCAAAAGGATTTATCGGGCCGGAAAGTCGGCGTGTACATCGGCGGCAGGGCGCAGCCTTCAGCCGGTATGGAACATATCTTGCAGGCGCCTAACCCGATTTTGGGGGCGGGACAAAACTATTTGGCGGCCAACATTTCACGATTTTTGAATGTCACAGGGCCGAGCCTTGTCGTGGATACAGCGTGTTCCTCAGGGCTGATCGGGCTGTCCTTTGCAAAAGACGCCCTTTTGGCCGGAAGGATTGACGCGGCCTTAGTCGGTTCGGTGAGTCTGCTCTTATCTCCGTCCGCGCACCGGTTATTCGGAGCACGCCACATTTTAAATGAGAACGGCGTGTTTCATATATTCGACCGTGAATCAGCAGGAGAAGTGCTCGGAGAAGGAGCGGGGGCGGTTTTTATCAAACGATTGAGCGATGCGGTGCGGGACGGAGACCGTATTTACGGCGTCATAAAAGCCGTCTCGGTAAACAATGACGGCCGGACGCTCGGTCCCGGTTCACCGAATATAAGAGCGCAGAGAGACGCCATTCAAACTGCGCTTGACATGGCGGAAAAGTCGCCCGAAGACATTGGATATATAGAAGTGAACGGAGGCGGTTCCCCAATCGTTGATTCGGTGGAAATCAAGGCGCTCTCAGATGTCTATCAGCTGAACCGGAAAACGCTTCTGCCCTGCCGGATCGGATCGGTGAAACCGAATGTAGGACATTTGCTTCTGTCTTCAGGTCTTGCGGGCTTCATCCGATGTGTGCTGAGCGTCTATCATAAGCGGATTCCGCCTTTCTTATCAGCGCGTGAGCCATTTGAACATTATGACTTTGAAGCGTCGCGTATTCATTTTAATCGTGAACCCGTTGATTGGCATTCAGAGAAGAAACCCCGCGTCGCAGCTCAGAGTTCATTTCCTGACGGCGGGACAAATGCTCATATCCTCGTTGAAGAATACAGAGGTGAAAGGCAGCGGGAACATTACCGGGCGCTTCAGCCGCCGGAATTCAGAAAAAAACACTACCCCCTTTTGGGCGGCTGGAACAGCACGGAGAGTGAAACGGAAAAAACAAGTAATGAAAAAACAGACATTGCGGATCTTTTAAAGAAATATGAGAAAAAAGCAGAGACAAGCACTGCGCCTGCAGACTCGTTTTGGCAGGTGACAACGTGA	MAVATDQVKTFLQKISHTNYIVRDHRVHQIRVLPGVTLIDMLYRLAAGYLGERPIELRQIIFKQPVVTSEEFDKHLYVTFTPARDSWKVEITSEKAKNGTPLGGNRDENMECQLYLQEDTPRAKELNIEAFMKNASRKWDMHDIYGIARRSHIEHGEFMKNEGAVYQLQDKEELMELTLSDLAEGFREKFKAHPAFLDASTLAGSSFALSAQKQNDTPYIPFMINRFCMYQPFPKTIYTYSAKNSRTESGVSASEPDVYSADFTIYDRAGNVLAECEKLTVKRVRQANMITHLIDKEKPPQQNRSGRGEPESPVAAEDVSEQQTPEQNMVTYIKSEIARLINRPAQDIDVRKGFYDMGLDSAHLLKLVKILEQTFQQQFYPTLLFEYSSVRRLADYLINEAGCVLKDSAEERHTSDADIADEVLFFEPAWKDQPLETAVQNGQKHTRHLIIAADAGPRLTGELGTYCPEAEVIELKREHEAADEQFGADAERIFRMLKRELTDHPKEHTLIQLVCAVENGAALSSALGAMLKTAHLENPVLRTQVITFCDKNERLPSETAAIIRTEADCSYAGCTDIRYKDNMRQIRLFERIEKLDGQTQSPWKQNGVYVITGGLGGLGFLLARHLAEKEKVKLALIGRSPQQSEKISRLKALGAEVLYVQADIGSKVETERAFAQITETFGRLTGIFHCAGVLKDQFIIQKDSSDLKQVFLPKISGLIHADEASRHEPLEFFAVFSSFSALAGNAGQTDYAAANAFMDEYMKYRDCKAEKGERNGASMTINWPLWEDGGMQVDSLMKEIMNDATGTSPLPAGEGMASLEYMLRLGKLQSVILYGKEPAVTESMGRLGPKGDKNGSSLSNAAVKRRSRKQERHTEEHDIAVIGLAGRYPQSGSIDEFYQNLRSGKDCITTMPKDRWKGYSFSYEADQFYRYGGFLDRIDSFDPLFFNLTPRQAEMMDPQARLFLETAWEACEDAGFYQDRTARGPSSQKRKRVGVFAGVFWSHYELFGAEITQRGTPLSMGVTPASVPNIVSHCLNFTGPSMAVDTMCSSSLTSIHLACESIKRGECEFAIAGGVNAVTHPHKYAFLANAGFLSSEGVCKSFADGGDGYVPGEGVGAVLLTTVQEAERMGCPIYGVIKGSALNHVGKTSGLTVPDPASQAEVITDSFQSAGVDPETLSYIEAHGTGTSLGDPIEIEGLSRAFRKWTNKKRFCAIGSAKSNIGHLEGAAGIAGLAKVLLQLKHGEIFPSLHADTLNPHIPFPDTPFYVADRLEEWERPSHSDQPRRAGLSSFGASGSNAHFVIEEYLPPQAEKQSVSIREDEPVLFLLSAKNEERLLEYVKRYDRFLREKEVNLKDLAYTLQAGREAMPERLAFIVTSVCGLQAKLKDVLERKTEIEGCFRGRAQDDISSSGMAELLKNKQYSRLLTEWAKGAAVDWSLLYEGEKPKRVSLPVYPFAKERYWVPVPADIRKQTDEPAENQKIILQKDWKQQDPAESEALSGTVMILATDKTRRLADALFKGNGHIETICFIHQAKDGADYYAAASGRNLYGRVRESLQNKQILGVVDITAYDAEYERQEEIEHGKLAFLQQALESFRHSGAVFSQVTHRLQPFKESKPLMQGAKTAGLYRMLGAEYANIHSFTIDSDCAIEHTEELSRQIETEFLQPRAKSGSECCYRLNRRYVPFLKQGMNVSAAPELSYSSDDVLLITGGSRGIGAIAAEHAVSRGCRKLVIMGREPLPDSSEWADMKKDGILPEKAERMQRLAERGAEIRYYSVSLTDQKGLRNMTDSIRGTMGPITGVFHCAGAMGEHPAFYNKTETEIESVCAPKVTGLRGLYEAVQNEPLSFFILFSSVSGLIPSLAAGQSDYAMANSFMDSFANHQAGIGNVFVKAVQWPVWKETGMAEGLPETPAYQKSGLSRLSAEDGLKFLDYIILNGQSCGIPCVPEDSEADFGDLLKVKKAEAPVKKSTAGDQKVKDTIRQWVRTVFSEELKMTDEQIKDDMPFDEYGIDSILFAELVQSLQKRISIKLIPSLMLQYQTITEMVDYFAAHHEADFVTKENGFVQDRDVQLDLTAAAEERTSMKPKADTEDDIAVVGMSCRFPGAGGTDAFWELLMKGNTAIRPVPASRWHTTAHTKDYAGWIDDIDMFDAGFFGISEKDAAIMDPQARIILEEAVHSVYDAGYGQKDLSGRKVGVYIGGRAQPSAGMEHILQAPNPILGAGQNYLAANISRFLNVTGPSLVVDTACSSGLIGLSFAKDALLAGRIDAALVGSVSLLLSPSAHRLFGARHILNENGVFHIFDRESAGEVLGEGAGAVFIKRLSDAVRDGDRIYGVIKAVSVNNDGRTLGPGSPNIRAQRDAIQTALDMAEKSPEDIGYIEVNGGGSPIVDSVEIKALSDVYQLNRKTLLPCRIGSVKPNVGHLLLSSGLAGFIRCVLSVYHKRIPPFLSAREPFEHYDFEASRIHFNREPVDWHSEKKPRVAAQSSFPDGGTNAHILVEEYRGERQREHYRALQPPEFRKKHYPLLGGWNSTESETEKTSNEKTDIADLLKKYEKKAETSTAPADSFWQVTT	PGPT0010150_103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010150-baeJ|pksJ|dfnH-K13611	NA	NA
D1-12_01441	15612	fadA_2		3-ketoacyl-CoA thiolase	TTGGGTAAGGGAGACAAACAAAAAGACCGTACACAGTTATCCTTAAGAACAGAAATAAGCAATCAAATGAAAGAATTGAATCGGCTTTTGCTGCAAGTGCTGCGGGTGACGCTGCGTTCAATGGGTCTGACCGGCGAAGCGCCGGCGGCTTCCTGTCTGCCTTTATATGAACGCTGGCTGGAAGAAAGCATCCGTCTTTTAGACAGCGATTTTAAAAGCGGTGAAACGGCCGCGGTTTGGGAAGAGTGGCATAAGAAGAAAAACGAATGGCTGAAAGATTCGGATATGAAAGCGCAGGTTCTGCTGGCGGATACCGTCATTCAAGCTTTGCCTGACATTTTAACAGGCAAAATAAAAGCCACTGACGTGATGTTTCCCGATTCTTCAATGGAGCTTGTTGAAGGAATCTATAAGCATAACATTCTCGCTGATTATTACAACGATGTGCTGGCAAATGAAGCGTGTATGTATGTGGAAAATGTAATGAAAAACAATCCTGATGCAAACATCCGTCTGCTGGAGATCGGAGCGGGCACCGGCGGAACGAGCAGCACACTGTTTAAAAAGCTCCGCCCCTATCAAAACCATATTCAGGAATACTGTTATACCGACTTGTCAAAAGCTTTTTTAATGCATGCCGAAAAGGAATACGGCGCGGACAATCCGTATTTGACGTATCAGCTGTTTAATGTGGAGCAGCCTGCGGCGGGCCAGGGATTACATCTGCGAACCTACGATATCGCTATTGCCGCAAACGTGCTGCATGCCACCAAAAATATCCGGAAAACCTTACGGACGGCAAAAGCCGTATTGAAAAAGGACGGTTTGCTGCTCGTTAATGAACTGGGCGGGCATACGCCGTTTACACATGTTACATTCGGCTTATTAGAGGGCTGGTGGCTGTACGAAGACGAGGCGCTGCGGATTCCGGGGTGCCCCGGTCTTTATCCGGAAACATGGAAATCCGTTTTAATGGCTGAAGGTTTTCATTCCATTCAATTTCCGGCTGAAAACGAACGTCTGCACACCCAGCAGATTATCACGGCGAAAAGCAACGGAGTCATCAGGCAGAGCAGGGAAGCTTACACCGCGCAAAAGCGCCAATCAAACGTACCGCAAACATCCTCTGATCGTCAGCTCCCCATCAAACAAGCGGGAGAGGGGCTTTCGGAAAAGACAGCGGCTTTTCTGATAAAGGCTGCGGCAAACGTATTAAAAATGCCGGCAGAAGAGATAAATCCGCTGGCTCCTCTGGATGAATACGGCATTGACTCTATTCTGATCGTTCAGCTGACGAATGAGCTGCGGGATCTCGTCCCTGATATCAGCAGCACGCTGTTTTTTGAATACCGGACGATAGAAGAGCTTGCCGCATTCTTGGCTGAAACGAAGGAGCGCGAACTGCATGCGCAATTTTCTGAAGAAGTCCGTCATACTGAAGCGGCATCATCCGGCTCTTTGCTTGAAAAAAGCACAGAGTATCTGAAACAGATCGTCAGCGCCATCTTAAAGATGCCGATTGAGGACGTTCAAGCCCATACGCCCCTTGAAGAATACGGAATCGATTCCATCTTAATCGTACAGCTGACTAACCGCGTGCGGGAAGACATACCTGATATCAGCAGCACTTTGTTCTTCGAGTATCCGACAATCGGCGGATTAGCGGAATATCTCGTCAGCTCAAGACAGGATGATATGGCTGGGATTTTCAAGACAAATAAAGAAGCCGAAAAGGCGCCGCACACATTACAGAAAAAGCAAAGCCGCAAAAAAAGCGCCGGATTGGCGAAGCGCCAAGCGGCATCTTTTTCTGAAAAAGCGCCGCCCGCTTCCGAACCGCCGTCAAAACACCTTGAAGTGGCCATTGTCGGTCTTGCCGGACGGTATCCCGGAGCTGAAAATGTTAATGAGTTCTGGGAACGGTTAAAGACCGGTGAACACGGAATCACCGAAATTCCGAAAGACCGCTGGGATTGGCGGGACTACTATGATGAGACAAAAGGTAAGGAAGGCCGGATGTATACAAAGTGGGGCGGCTTTTTAACAGATATTGATAAATTTGATCCGCTGTTTTTTAAAATCTCCCCGAAAGAAGCGGAGCGCATGGACCCGCAGGAGAGACTGTTTCTGGAAACCGCTTATGCGGCCCTTGAGGATGCCGGATATACCCCTGATTCACTATGCGCCGGTAAAAAGGTTGGTGTCTTTGCGGGTGTCATGAACGGCAACTATCCGACAGGGGCCCACTACCACTTTATCCCGAACCGCGTATCCTATGTGTTTGATTTTCACGGTCCGAGCATCGCGGTCGATACCGCATGCTCCTCATCCTTAACCGCTATTCATCTCGCCGCAGAAAGCATCAGAACAGGTGCATCTGAATGCGCAATTGCCGGCGGCGTAAACCTGATTACAGATCCGGTTCATTATATCGGACTTTCTTCTATGAGAATGCTGTCACCGTCAAATGCGTGCAAAGCGTTCGGTGATAAGGCTGACGGGTTTGTTGACGGAGAGGGCGTCGGCTGTATCGTGTTAAAGCCGTTGAAAAAGGCTGTTGAAGATCATGATCATATATACGGTGTCATTAAAGGAAGCGCTCTGAACGCCGGCGGCAAAACGAACGGGTTCACCGTTCCGAATCCGAATGCACAAGGAGAAGTGATCGCAGAGGCGATGGAGCGGGCAGGGATTGATCCGAGAGCGATCAGCTATCTGGAAGCCCACGGCACCGGCACTTCCTTGGGAGATCCGATTGAAATCGCAGGGTTAACCAAGGCTTTCCGACGCTACACGGATGCAAAGCAATTTTGTTCCATCGGTTCTGTTAAATCCAATATCGGACACCTGGAAAGTGCGGCGGGCATTGCTGCGGTCACCAAAATTCTTCTTCAGATGAAAAACGGATATCTGGTGCCGTCGCTGCATTCAAAGCAGCTGAACCCGGAAATTGATTTTGAAACTTCTCCTTTTATCGTGCAGCAGGAAACGGCGGAATGGAGACGGCCGGTCATAGAATCTGAAGGAGTAACACGGGAATATCCGAGACTCGCGGGTACATCTTCTTTCGGAGCGGGCGGTGCAAATGCCCACCTGCTGATAGAAGAGTATGAACCGGCTGAAATGACTTCGACAGACACCGGCCGTCCGGCGCTTTTTGTTTTATCGGCAAAAGATAAAGACCGCTTGCGCGAGCGGGCTCTGTTGCTGTCGGATGCCGCCGGAAACGGAACAATTACAGATGCGAACCTGCTTGACGCGGCATTTACCCTTCAAGTCGGCAGGGTCCCGATGGAAGAACGGCTGGCGATGACAGTGGGCTCTGTTTCTGAATTGGAACAGAAGCTGACTGCTTTTCTGAATCATGCTGGTTCCGTAAGCGGGGTGTTTACAGGCCGGGGTGATAGTGCTGTCACAAAGACGGCAGGCACAGTCAGTGATTGGACGGAAAAACGTCAATTTGACAGTCTTTTGAATGCCTGGGTTCACGGGACGCCCGTCGATTGGGCATCTTTATATAAAGGCGCGCTGCCGCATCGTATCAGTCTGCCGTCTTATCCATTTGCAAAAGAAAGCTACTGGATGAAGCGGGAAGAACCAAAAACAGGAACAACTGAATATGTGCATCCTTTTCTGCATGAAAATACGTCAACCTTGGCGGAGCAAAGCTATCATACTTCTTTTACAGGCCGGGAACACGTTTTCCACGATGTGAGAGGGGAGCGGGTTCTGTCGGCAGCCGTTTATTTAGAAATGGCGCTTGCGGCTTATCATCATGCGGCGGACAGCTCTGAAGAAAAAGAGATATGGATCCGAACGGCGGCATGGACTGACCCGATTACCGGCGGACATCACGGTGCGGGCGTCAATCTCTCCCTTCTGTCTGAAGACGAGGAAGGCATCCATTATGAAATATACAGTGACGAAGAGAAGCTGCATCATTATGGAATCATCGGACAAGGGAACATACAGCCATCCCGCGTGCTGGATATTGCCTCCTTACAAAAAGACTGCCGCCCGCTGTCATTTGATTATGAAACACCAGGCACATCAGGTGTAACGATCAGTAAGGAGTTCCGCACCGTTGAAAAGCTTTATGCGGGAGAAAATGCGGTTTGGGCGAAGCTTGCTCTCACAGATGAAAGCGGTCGTAATCCGGGATATCATCTGCCGCCGGAATTTCTGGACGCAGCTTTTCATGTCCTGGCAAAAACGGAGCCGTCAGTCCATATCGTGCCTGAAGCGGTTGAAGAACTGCGCGTCATGCGTCCGTGCTCATCCGGCATGTGGATGTATATTAATAAAAAGAATCAAACCGGCTGTAACATTCAATTTTGTGACGAAACCGGCACTGTCTGCGCAGAAATCAAAGGGATAAGAATGAGACACCCGTCTCAGCAGGATCACGGGCAAGAGGAACAATCCGAGATGATGATATTTGAAGAAATGTGGACGCAGCAGCCTCTGAAGAAATCCATTCATGAAGAGCTGAAAACGGTCATCTGTTTTCTTACGGGAGAAGCTGCCAGAAAGCATGCTTATCAGTCTTTACAATCCCTTTATCCGGGAGCTGGCGTGTTTTTTATTTCACAGGGTGAGGAAACTCAAAAGCTTTCAAACACGCATTATCAAATTAAAATCACTGACGGACAAGCATATCAAGAAACGTTTCGGCATATTGAAACGGCTGCAGGCAAGGCGGATGCCGTTTTGTATGGATGGCCGCTTGAAGATGAAAAGGCCGTGAAAGACTATTCCATTCTGTATCATGTGATCCGCACAGCTGCTTCTTTGCGTTCTAAACCGAGGCGAATCCTTCTTTCCGCTCAGTGCGGGACCGATACCGATATCAGTTACGCCGAGTCATGGATCGGGCTGGAACGGTCGCTGAAACTGATCCTGCCGGAGACGGATACGGCCGCGGTTTATTTTGAACAAAAAGGACCGTTTGAAAAACTGATCCATAACGTATGTGAAGAGCTTCACAGCGAGTCGTTCCGCAGTGTCATGTACAGTGGGGAAATTCGTCACGTCATGGAAATGAAGCAGACGGATATTGCCCCTGTTGAGAAGCGTGTGATAAAAAGCGGGAAAACGTACTTGATTACCGGCGGATGCGGGGGATTAGGCTTGTTATTTGCCGGATATTTTGCTGAAAAAGGACCGGTTACGCTCATTTTGACGGGGAGATCAGCGGCAGGCGGCCCGGTGCTGAACAAGATAAAGAGATTGGAAGAATCAGGCGCCAAGGTGTTTTACGTGCAGGCGGATGCCGCAGATCAGGCTCAGATGGAGAAAGGTTTGCAAGAAGCGAAAGAGAAAGGATGCGGGCCGATTCACGGTGTCATTCACGCTGCAGGTCTTCAAGGCACTGAAAGCATTCTGGAGAAAGATCTGCAAACCTTTCAGCAAGTCTTATCGCCAAAAGCGGACGGCACCGCGGTGTTAGATCAGGTTCTGTCACGGGAGCCGCTTGACTTCTTCTGTTGTTTCTCTTCTTCTTCAGCGATTTTAGGAGACTTCGGTTCTTGTGACTACGCGATGGGGAACCGCTTCCAAATGGCTTTTGTCCGTCATCGGGATAAACTTGTGAGCCTCGGACTCAGAAGCGGCAAGTCACTTGCAATCAATTGGCCGCTTTGGAAAGAAGGGGGAATGCATGTCGGCACGGCGGAAAGCACCGATATGTATTTAAAATCAAGCGGACAGCGTTATTTATACACAGAGGAAGGACTCGAAGCTTTTGAGACATTGTTAGTCCAGCCGTCCAGCCAGTATCTCGTCCTGGCCGGTTTTCCGTCGAGGGCCAAACGCTTCCTGCAGATAGATCAAGGCGAACGGCCGATTTCGGGTTCTGTAAACAGGAACGTCCCGTTTTCAGGAAGGCGGAGTGAAATGAAAGGCTTCACGCTGGAAGAATGCGTAAGCTGGGATGTGAAAGAACTGGCGGCGGGGCTTTTGAAAATAGACAAGAACAGACTGACGGACGCTGACAATCTGGCTGATTTCGGCTTTGATTCTATCAGTTTGGCGGAATTCGCCTCTTCTTTGTCCGCTCATTACGGAATTGAAGTGACACCGGCCCTGTTTTTCGGACATTCCACACTGGAGAAGGTCGTCCGCTATTTTCTGACGGAACACAAGTTCGTCATGGAGCATGTCTATGAAGAAAAGAAACCTGAATCCGCAGATCAATCTGTCTTTGAAAAGGCAGGAACGGAAAAGCGAAAGAAGCAGAGGGGAAGAAATAAGCTGAATGCCGGAACCGAGGGCAGTCAGGCAGCTGATTCCATTGCCATTATCGGCATGAGCGGCCGATTTCCTCAGGCGCGCACGGCGGACGAGCTGTGGGACATTCTGTTTCAGGAAAAGGATGTTGTCGCACCGGTCGCAAAAAAAGGCTTCACAAGTTCAAAATGGAAACTTGGCGCTGTACCGGGGGCGGACGAATTCGACCCTTTATTTTTTGAAATATCGCCGAGGGAAGCTGAAACGATGGATCCGAAACAGCGGCTGCTTCTTCAGGAAGCGTGGAGGGCCCTTGAGGACGCCGGCTACGGCGCCAGTCATATCAGGCAGCAGACGATCGGTATGTTTGTGGGGGCGGAAGAAGGAGATTATCACCTTTTAACACGGGACAAAGGCAATGTCACGTCTCATCATAACGGTATTTTGGCGGCGCGGCTGGCTTATCACTTGAATTTATCCGGTCCTGTGATGGCGATAAATACAGCATGTTCTTCGGGGCTCGTTTCTGTCCATCAGGCGGTATTAAGCCTGCAGAATAAAGAGTGCACAACAGCTGTTGCGGCCGGGGTGAATATCATGAATACCCCGGACTTTTTTGAAACGATAGATAAAGCCGGAATGCTGTCGGAAAACGGGAAATGCTTCGCGTTTGATAAAAGGGCTGACGGCATGGTACCGGGGGAAGCGGCCGCGGCGGTTGTTCTGAAGCCGCTGAGAGAGGCGGAAGCGGATGGTGATCCGATTTACGGGGTGATTCGGGCGAGCGGCATCAATTATGATGGGAAAACAAACGGAATTACCGCTCCGAGCGGCGTTGCGCAGACCCGGCTGCTTACTTCCGTTTATGACCGGGGGCGTATCAACCCTGAAGATATCGAATATATCGTCACACACGGCACAGGTACAAAACTCGGTGATCCGGTGGAAATTAACGCGCTTTATGACGCATTTTTTGCCTATACAAACGAAGAAGCATTTTGCGCGCTCACATCAATTAAAACCAATATCGGCCACACGTTTGCCGCGTCAGGCATTGTCAGTTTGATCAGTCTTTTACAGGCGTTCTCCCGTGAAATGATTCCCGCCAGTCTGCATTGCAGCGGGGAAAACCGCTATATCAACTGGGAGAAGAGTCCTTTTTATGTGAATAAAACGGGTAAAGCGTGGCCTTCTCTGCCGGGTAAAAACCGAATGGGGGCAGTCAGCGCATTCGGGATGAGCGGAACAAATGCCCATATTGTTATGGAAAGCTATAAGCGCAATGCTTCACCTCATCGTGATGCCCCTGCATATTTACTTACTTTGTCTGCAAAAACAGAGGAGGCCCTTCAGGAAAAAATCGAAGATATGATCACTTGGGCGGAAAATGGCGGACTGAAAGAAAATGATCTGGCCCAGCTCAGCTATACGTTGTTAAAAGGACGGCATCACTTTAACCATCGCGCCGCCATCGTAGTGCAAGATGCTGATGACGCAGTGTATGTATGGAAGCAGGCAAAGCTTAATGAACATCATCCTTATGTGTTTTCGGGAAAAGTACCGCAGCACTTTGCAGGGCGTCAGCATATTCAGGAGCACATAATAGAAGTGCTCGGCAAGTGCAGCGCCTCATATTCTGACCATAGAAAATATCAGGAGCTGTTATGCGTGCTGGCAGATTTTTATTGTCAAGGTTATGAAATCGAAGGGGACTTGCTTTATGGCGGACCTTTGCCGCGAATCGGCAATTTGCCGGGCTACCCGTTTGCCAGACAGACGTATTGGGCGTCCGATCGTCTTCAGAGAGAGCTTGAAAGCCGGAATTCAGCTGAACGTGAAAAGCTCCACCCGCTGCTCCATACGAATACATCGACCTTTACCGCCCAGCGTTTTACTTCTGTTTTTTCAGGGCATGAACCGTTTTTTGCCGATCATATCGTCAATGGAAAACCGGTGCTTCCGGGCGCAGCTGCTTTAGAAATGGCCCGGGCCGCCGTTACACTTGCCGCTGAAGACTTGCCCGGCGGGAAAACGGGTGTCCGGCTCAAACAGATCGTTTGGCTCCGGCCGGTGACGGCGCTTTCTGAAGGGGTTACGCTTCATGTAAAGCTTCAGCCGGAAGAAAACGGAGACATCGCTTTTGAAGCGTATGCCGAAGGAGAAGAGCCGCTTGTCTTTTTCCAGGGAAAGGCCGTGCTCGAAGAGACGGAGCGTGCTCCTGTTCTCGATGTGGAAGCGGTTCAGGCGCGCTGCGGCGGCCGGCGCATGTCAAAGGCTGAGTGCTATGAAGCGTTCGACAGCCTCGGCATCACCTACGGACCGTCTCATCAGGCGCTTGACGCCGTCTATGCCGGAAACGGAGAAGTGCTCGCAAAGCTCACTCTTCCGCCGTCCGCCCGCGAGGAAAAGGAGCCGTTCATCCTGCATCCAAGCATGCTGGACGCCGCCCTTCAGGCTTCTATCGGTCTCGTGGTCTCAGACGGTTCCGCGTCCGGACGGCCGTTTCTGCCGTTTGCCCTCCGGGATATGCAGGTGTTTTCTGCGTGCCGTGAGACGATGTGGGCGGTGCTTTCCTCAGCGGAAGGCGCCTATCATATTGAGCTGTGTGATGAAAACGGTGCGGTATGTGTCCGATTGACGGGGCTCACCGCCCGTTTTCTGGAAGAGGACACGGAGGAAAAACCGCTCTTGCTTCAGCCAAAGTGGCAGGAATCACCGCCGGATGAAGGCGGCGGACAAGAAGAGTCTTTCAGATACGTGACGCTGTATGGCGGAATGAACGCTGAGGACATAAGCGGCGCCGTATGTGCGGCTGACGGCGAAGGTCCGATTGAAGACCGTTATGACGCCTGCGCGGCGGAGCTGTCAGCGATCGTCACGCGTCTTATCAAAGAAAAACAGAAGAAAAAAACGCTGATCCAGCTTCTTGTCCCCGACAGGGGGGAAGACAATGTATTGGCGGGGCTGGCCGCTTTCCTGAAAACGGCTCACCTTGAACATCCGAAGCTGTACGGCCAAGTCATCCAAGCCGATCCGGACGAGTCAGCATCATCGCTTCTTGCCAAGCTGAAAGAAAACCGGGCGCATCCTGAACAAGCGGAAATCCGTTATGAAGACGGCAAACGTCTCGTCAGAAACTGGCGTCATCTGCCGGCCCCTCAAAGCGGCGCCGTTCCGTGGAAAGACGAAGGGGTTTACCTCCTCACCGGGGGAGCGGGCGGCATCGGACTGATTTTCGCTGAAGAAATAGCCTCCCGCGTCAAAAACGCCGTCCTCGTTTTAACGGGGAGGACGGAAGCGCTTGATGAAGACCGCTCCGCCCGCTTACGGCGCTTGGCAGCGACGGGTGCCCGTGTACTGTATAAACCGGTTGACGTGACAGACAGGGCGGCGGTCACCGCCCTCGTCCGCGGCATACAGGAGGAGCACGGAACACTCGACGGGATTATTCACGGCGCCGGCGTGATCGCTGACAATTACATTTTGAACCAGACAGAAAACGAACGGAAGACCGTCATGGCGCCGAAAGTGAAAGGGCTTATCAATCTTGATGAAGCAGCGAAAGATGTGCGGCTGGACTTTTTCATTCTGTTTTCTTCCTTGGCGGGAGGCATGGGAAATCCGGGGCAGGCCGGTTATGCGGCAGCCAACGCATTTATGGATGTTTATGCAGCCCGCCGGAACCATCTCGTGCGGGACAACGAGCGGAGCGGGAAGACCCTGTCTGTCAACTGGCCGCTTTGGGAAGAAGGCGGTATGCGCGTGGACAAAGAGACCGAACGGCTGATGTACGAACAGACCGGAATGAAAGCCATGCGATCGGCCTCAGGCATCCAAGCGCTTTACGCCGCTTTTGCCTCCGGAGAACACCAGGTCATGGTGGCAGAGGGCGACGAAAAACGGATTCGCAGCCATATTTTCGATCTGGGCGAAGAACAAAGCGCCGCCGGAAAAGCTCCGGCAGTGGCAGATGCAAGAGATCTGAAAGATCAGGTGCAAGAGAAACTAAAGCGGCATGTATCAGATCTTTTAAAGGTAAGCATGAAAGATATTGAGGCTGACAGCGAACTGACGGAATACGGATTTGATTCGATCATTTTCACTGAATTTACAAATCTATTAAATCGGTCTTATCAGCTTGAGCTCAGCCCGACTATCTTCTTTGAATTTCCGACATTGCGCAAACTGAGCGGCTATTTGATATCTGAATGGAAAGAAGCATTCAGCGGCTTAGAAAGAGAGAGTTTAAAAACCGCTCCAAAAGCCGGAATAAGAAAAGCTGAAGCTCCGGCGGCCGTTCATGTCAAGCGGGAAACGCCTGTATCCGTAAAAGGAAAATCAGAAGAAAAAACCGAACCGATAGCCATTATCGGAATCAGCGGTATTTTTCCGCAGGCGAAAGACATAGATGAATTCTGGACTCGTTTACAAAAAGGGGAGCATTGCATTACAGAAATTCCACGAGATCGCTGGGATTGGCGCGAATATTACGGCGATCCGGCAGCGGATGCAAATAAAACGTCAATAAAATGGGGCGGTTTTATAGATGGAATCGCCGGGTTTGACCCGCTGTTTTTCGGGATATCTCCGAAAGAAGCTGAAATGATGGATCCTCAGCAGCGTCTATTAATGATGTATGTGTGGAAAGCCATTGAAGATGCGGGGTACTCAGCAAAACGGATTGCCGGAACAAAAACCGGCATTTTCACCGGCACATTGGGAAGCGGATTTCAAACCTTAATCAATAAGGCGGGTCTTCCTGTCGAGGGGTATACGATGACCGGAATCGTGCCGTCCGTCGGGCCGAACCGGATGAGTTATTTTCTTGATATCCACGGGCCGAGCGAGCCGGTAGAAACCGCTTGTTCAAGCTCTTTAGTCGCCATTCACCGCGCGGTAAAAGCCATTGAAACGGGAGATTGTGATATGGCGGTCGCAGGGGGCGTCAACACGATCGTCACGCCTGAAGGGCATATCGGCTTTCAAAAAGCAGGCATGCTCAGTGAAGACGGGCGCTGCAAAACATTTTCTGATCAGGCTGACGGTTATGTCAGAGGAGAAGGTGCCGGCATGATTGTCTTGAAAAAGCTTTCAGAGGCAGAGCATGACAGGGATCACATCTACGGCCTCATCCGCGGAACAGCGGAAAATCACGGCGGACGCTCAGCGTCGCTTACCGCGCCGAATCCGCAGGCTCAGACGGATGTGCTGAAAAGCGCTTATCAAAAAGCCGGTATTCACCCGTCAACGATCACTTATATAGAAGCGCACGGAACAGGAACGGCACTCGGAGACCCGATTGAAATCAATGCATTGAAAAAAGCTTTCCAAACAGACGGGGCTCCGGGCGGATATTGCGGGATAGGCTCAGTGAAGACAAATATCGGACATTTGGAGCTCGCGGCAGGCATTGCGGGCGTTATCAAAGTATTGATGCAGCTGAAACATCGGACGCTCGCCAAAAGTCTGCATTGCGAGAACATCAATCCCCATATCAAATTGAAGGACAGCCCGTTTTACATTGTGACAGAAACAAAGGAGTGGGAAGCGCTGCGTGATGAAAACGGCCGGGTCCTGCCCCGCCGGGCGGGTGTAAGCTCATTCGGTTTCGGAGGCGTCAATGCGCATATCGTTATTGAAGAATACATGGGCAGAAGTGAGACGGAACAGCAGGAAACCCGTGAGAAAGCGTCATCTCTTTTTGTTTTGTCAGCTAAAAATGAAGAGCGGCTGAAAGAAAGAGCGCGTCTCCTTCGCGATTTTATCCAAAACGGATCATTCCGCCATATCGATCTTGCAGATGCCGCATACACACTGCAGACCGGACGGGATGCGATGGAAGCGAGGCTGGGAATCATTGCAGGCTCCGCAGAGGAACTGACTGAAAAACTGAACGCGTTTCTGTTGGGAAAAAACAGCGAAGATATCATCAGCGGCCGTAAAAAACGCGAGAATAACACGATTTCCATGTTCTCAGACGATGAAGATGCCGCTGACCTCGTCAGCGCCTGGCTTGAGAAAAAGAAATACAAGAAAGTGCTGCGGCTCTGGGCAAACGGATTTGACACGGATTGGGAGCAGCTGTATACGGACAGTAAGCCGCGCCGCATCAGCCTGCCCTCCTATCCGTTCAGAGCAGACCGCTATTGGGTGCCGAAACGGGAGCAGCTGCCGCTTTCGAATCAAAAAACAGTAGTATTGCAGAAAACATGGGAGCCTTGCGAGGCAGTGTCTTCATCCGAGCCATTCAGCAAAATAGCGCTCATCGTCTCTGAAGATACAAAAGACCTTGCCGCCGAGGTGAAAAAACAGCTGAATGATGCTGACATTGTGCAGGAAAATCAGCTCATCTCTTTCTTACAGGATGCGAATGCGGCCGTCTATTCGGGGTTTATTGACTTCACCGGCTGCGGCTCCCGACAAAAGCGGCAGGACATCAGCTGGGTGGCATCGCTGCAGCAGCTGATTGAATACGGCCGCGGACAAGAAAACATGAAAATGCTTTATCTTACAAAAGGGCTTGAATCCTTCAAAAATAAGGCGGCCGCTATGCATGGTATTGAAAAAGCGGGGCTTTATCGCATGATGCGGCATGAATACAGCCATATTCTCACCTGTCACGCCGATATTGATCCTGAAGAGCCGCTGGAGCAGACAGCTGCTTTTATTAAACAAGAAATTGAATCAGACTTAACGGAATCTGCTGTTTGCTATAGGGAGGGCATGCGCTTCAGCTATGTTCTTCGGCAGACTGATCAGATTGAACCTGAAGCCGTGCAAACAGACCGGACTGTGTTTCCAAAAGACGCCGTCCTGATGATAACCGGAGGAACGCGCGGTCTCGGCGCTTTATGCGCCAAGCATTTCGTTTCAGTGTACGGTGTGAAGAAACTGCTTTTGACAGGCAGAAAGGAGCTGCCGTCGAAAACCGAGTGGGATCTTGAGCAAACAGACCCTGTCGTTTCGGAAAAAATACAGCTTATCCGGCAGCTGGAATCACAAGGCGTAAAAGTGTGCGTCTCAGCAGTTGATCTGACGGATAAGCAGGCCGTCGGACGGCTTATAAAAGAGGTAACCTCAACGCTCGGACCTGTCGGAGGCATTCTGCATTGCGCAGGAATTGCAGACCGTGAAAACCCTGCTTTTCTCCGCAAATCCAAAGACAGTATCGCGCGGGTGCTCGCCCCGAAAGCAGACGGCCTTCACAGTCTGTATGAGAGTGTAAAGGATGGTGCGCCGGCATTTTTCGTCCTGTTTTCATCTGTCTCGGCAGCCGTCCCGATTCTTGCGGCGGGACAGAGCGATTATGCGATGGCGAATTCTTACATGGACTATTTTGCAGAAAACAATGAGAGCGGCATCATCAGCATACAATGGCCGGCATGGGATGAGACGGGCATGAGCAGGGATACAAAAAGCGGGATTTATGAGCAAACGGGATTGCTGCGGCACTCTGACGCAGAAGGTCTCAAGATGCTTGATTACATTTTAAGAGAAAGACCCGGAGCTGTCGTGCTGCCGGCACAAGTGAAACATGATTGGGACATCAAAGCGCTGGAAAACGCCAAGCCAGCCGCCCATAAAGGAATGAAAGCAGCTTCCAAACCTCCTGAAACAAAAAAACGGGACCATAACCGGACTGATATTCAATCTTGGCTGAGGTCGCTTTTGGCAAAAGAGCTGAGTATCGATGAAACGCATATGGATATCGATGTGCCTTTTCAGGAATACGGAATGGATTCTATCTTTCTGGCGCAAGTGCTGACAAAGATTGATCAAAAACTGCCATCCGTTTCAATTGATCCGACTGTCCTTCTAGAGCATCCTACCATTGAACAGCTCGCGGATTATTTAGCCGCACATTGTCCGGAAGCTTTTTCGGCAGATGCAGCAGTTTCCGCGGAGAAGGTCCCTTTGCAGAAGACGCCGAAACGGAGCAAAAAAACGGCAGATAAGCCCGGGAAACGGGGAAAGGTTGCGATCATCGGCATGGCCTGCCATTTTCCGAAAGCGGGGGATATAAAAGAATTTTGGAAGAATCTCCGCAGCGGAACGGATGCCGTCACTGAAGTTCCGCCGGACAGATGGGACACCGGGGAACACTATCAGCCGGGTGAATATCAAGAAGGAAAAAGCATCAGTAAATGGGGCGGTTTTATACACGATATTGACCAATTTGACCCGGAGTATTTTAATATTTCAGAAACGCTGGCACCGATGATAGACCCGCTGCAAAGGCAGTGGCTCGAGGTGAGCGCGGAAGCTTTGGCCGATGCCGGTTATCAAAAAGAGGATCTCTGGGGCCGCCGTATCGGCGTTTTTGCCGGTGCAAGGGCAGGTGCGTTTCATCAGAAATTTCAATATTTGCAAAAAGACGCGATTATTGGCGCGGGGCAAAATTTTATTACCGCACACATGGCGCACATTTATAACTTTACAGGGCCCAACCTGGTCGTGGATACAGCTTGCTCCAGTTCGCTTACGGCAATTCATTTGGCCGTACAGGCTATTCAAAATGGAGAAGCGGAAGCGGCCTTTGCGGGCGGGGTTGACATTTTGCTTGATGAAAAACCTTTTCTCACAATGAGCGCGGCGAGAATCTTATCGCCAAATGGCCGTTCAAAATCTTTCGATGCCGGTGCGGACGGAACAGGAATCGGAGAGGGCTGCGGTGTGCTGATGCTGAAGCCGCTCGAAAAAGCGATAGAAGACGAAGATAAAATATACGGCGTTATTGACGGCTCTGCGATTAATAACGACGGCAGCACAATGGGCGTGACGACGCCGAATCCCCGGGCGCAGCAGGACTTGATTGAGCAGGCGGTTCAATCAGCGGAAATCGAGCCGGACACCATGACATACGTAGAGATGCACGGAACCGGTACATTGATCGGCGACCCGATTGAATTAAAAGGATTAACCAATGTCTTGTCTGCTTATTCCGATGAAAAACAATTTTGCGGTGTAGGAAGCGTCAAAAGCAATATCGGCCACTTGCTGAGTGCGGCGGGCGCGGCGGGAATCATCAAAGTTTTGCTGGCGATTGCCAATGAAGAACTGCCGCCGACTTTGCATTGCCATAAACCGAACCCCCGCTTTCAATTTAATGATTCGCCGCTTTATCCTGTGCTTGAGCTGAAGCGGTGGGACGGAAAAAAAGAGATACTCAGGGCCGGGGTCAGCGCGTTCGGTTTGGGCGGGAATAATGCCCATATCATTGTCAGCAACGAAGGAATACCGAAAGAGCGAAAAGCGGCCATGGAACCGAAAGGCGGCCAGACAGTATACCGAAAACAGCGGTATTGGCCTGAAAAAGCACAGTTGCCCGAAGCGGAAGTAAATGAGGCGGGCACAGAAGCAATGTTTGAAATAAGCGAGGTGTGA	MGKGDKQKDRTQLSLRTEISNQMKELNRLLLQVLRVTLRSMGLTGEAPAASCLPLYERWLEESIRLLDSDFKSGETAAVWEEWHKKKNEWLKDSDMKAQVLLADTVIQALPDILTGKIKATDVMFPDSSMELVEGIYKHNILADYYNDVLANEACMYVENVMKNNPDANIRLLEIGAGTGGTSSTLFKKLRPYQNHIQEYCYTDLSKAFLMHAEKEYGADNPYLTYQLFNVEQPAAGQGLHLRTYDIAIAANVLHATKNIRKTLRTAKAVLKKDGLLLVNELGGHTPFTHVTFGLLEGWWLYEDEALRIPGCPGLYPETWKSVLMAEGFHSIQFPAENERLHTQQIITAKSNGVIRQSREAYTAQKRQSNVPQTSSDRQLPIKQAGEGLSEKTAAFLIKAAANVLKMPAEEINPLAPLDEYGIDSILIVQLTNELRDLVPDISSTLFFEYRTIEELAAFLAETKERELHAQFSEEVRHTEAASSGSLLEKSTEYLKQIVSAILKMPIEDVQAHTPLEEYGIDSILIVQLTNRVREDIPDISSTLFFEYPTIGGLAEYLVSSRQDDMAGIFKTNKEAEKAPHTLQKKQSRKKSAGLAKRQAASFSEKAPPASEPPSKHLEVAIVGLAGRYPGAENVNEFWERLKTGEHGITEIPKDRWDWRDYYDETKGKEGRMYTKWGGFLTDIDKFDPLFFKISPKEAERMDPQERLFLETAYAALEDAGYTPDSLCAGKKVGVFAGVMNGNYPTGAHYHFIPNRVSYVFDFHGPSIAVDTACSSSLTAIHLAAESIRTGASECAIAGGVNLITDPVHYIGLSSMRMLSPSNACKAFGDKADGFVDGEGVGCIVLKPLKKAVEDHDHIYGVIKGSALNAGGKTNGFTVPNPNAQGEVIAEAMERAGIDPRAISYLEAHGTGTSLGDPIEIAGLTKAFRRYTDAKQFCSIGSVKSNIGHLESAAGIAAVTKILLQMKNGYLVPSLHSKQLNPEIDFETSPFIVQQETAEWRRPVIESEGVTREYPRLAGTSSFGAGGANAHLLIEEYEPAEMTSTDTGRPALFVLSAKDKDRLRERALLLSDAAGNGTITDANLLDAAFTLQVGRVPMEERLAMTVGSVSELEQKLTAFLNHAGSVSGVFTGRGDSAVTKTAGTVSDWTEKRQFDSLLNAWVHGTPVDWASLYKGALPHRISLPSYPFAKESYWMKREEPKTGTTEYVHPFLHENTSTLAEQSYHTSFTGREHVFHDVRGERVLSAAVYLEMALAAYHHAADSSEEKEIWIRTAAWTDPITGGHHGAGVNLSLLSEDEEGIHYEIYSDEEKLHHYGIIGQGNIQPSRVLDIASLQKDCRPLSFDYETPGTSGVTISKEFRTVEKLYAGENAVWAKLALTDESGRNPGYHLPPEFLDAAFHVLAKTEPSVHIVPEAVEELRVMRPCSSGMWMYINKKNQTGCNIQFCDETGTVCAEIKGIRMRHPSQQDHGQEEQSEMMIFEEMWTQQPLKKSIHEELKTVICFLTGEAARKHAYQSLQSLYPGAGVFFISQGEETQKLSNTHYQIKITDGQAYQETFRHIETAAGKADAVLYGWPLEDEKAVKDYSILYHVIRTAASLRSKPRRILLSAQCGTDTDISYAESWIGLERSLKLILPETDTAAVYFEQKGPFEKLIHNVCEELHSESFRSVMYSGEIRHVMEMKQTDIAPVEKRVIKSGKTYLITGGCGGLGLLFAGYFAEKGPVTLILTGRSAAGGPVLNKIKRLEESGAKVFYVQADAADQAQMEKGLQEAKEKGCGPIHGVIHAAGLQGTESILEKDLQTFQQVLSPKADGTAVLDQVLSREPLDFFCCFSSSSAILGDFGSCDYAMGNRFQMAFVRHRDKLVSLGLRSGKSLAINWPLWKEGGMHVGTAESTDMYLKSSGQRYLYTEEGLEAFETLLVQPSSQYLVLAGFPSRAKRFLQIDQGERPISGSVNRNVPFSGRRSEMKGFTLEECVSWDVKELAAGLLKIDKNRLTDADNLADFGFDSISLAEFASSLSAHYGIEVTPALFFGHSTLEKVVRYFLTEHKFVMEHVYEEKKPESADQSVFEKAGTEKRKKQRGRNKLNAGTEGSQAADSIAIIGMSGRFPQARTADELWDILFQEKDVVAPVAKKGFTSSKWKLGAVPGADEFDPLFFEISPREAETMDPKQRLLLQEAWRALEDAGYGASHIRQQTIGMFVGAEEGDYHLLTRDKGNVTSHHNGILAARLAYHLNLSGPVMAINTACSSGLVSVHQAVLSLQNKECTTAVAAGVNIMNTPDFFETIDKAGMLSENGKCFAFDKRADGMVPGEAAAAVVLKPLREAEADGDPIYGVIRASGINYDGKTNGITAPSGVAQTRLLTSVYDRGRINPEDIEYIVTHGTGTKLGDPVEINALYDAFFAYTNEEAFCALTSIKTNIGHTFAASGIVSLISLLQAFSREMIPASLHCSGENRYINWEKSPFYVNKTGKAWPSLPGKNRMGAVSAFGMSGTNAHIVMESYKRNASPHRDAPAYLLTLSAKTEEALQEKIEDMITWAENGGLKENDLAQLSYTLLKGRHHFNHRAAIVVQDADDAVYVWKQAKLNEHHPYVFSGKVPQHFAGRQHIQEHIIEVLGKCSASYSDHRKYQELLCVLADFYCQGYEIEGDLLYGGPLPRIGNLPGYPFARQTYWASDRLQRELESRNSAEREKLHPLLHTNTSTFTAQRFTSVFSGHEPFFADHIVNGKPVLPGAAALEMARAAVTLAAEDLPGGKTGVRLKQIVWLRPVTALSEGVTLHVKLQPEENGDIAFEAYAEGEEPLVFFQGKAVLEETERAPVLDVEAVQARCGGRRMSKAECYEAFDSLGITYGPSHQALDAVYAGNGEVLAKLTLPPSAREEKEPFILHPSMLDAALQASIGLVVSDGSASGRPFLPFALRDMQVFSACRETMWAVLSSAEGAYHIELCDENGAVCVRLTGLTARFLEEDTEEKPLLLQPKWQESPPDEGGGQEESFRYVTLYGGMNAEDISGAVCAADGEGPIEDRYDACAAELSAIVTRLIKEKQKKKTLIQLLVPDRGEDNVLAGLAAFLKTAHLEHPKLYGQVIQADPDESASSLLAKLKENRAHPEQAEIRYEDGKRLVRNWRHLPAPQSGAVPWKDEGVYLLTGGAGGIGLIFAEEIASRVKNAVLVLTGRTEALDEDRSARLRRLAATGARVLYKPVDVTDRAAVTALVRGIQEEHGTLDGIIHGAGVIADNYILNQTENERKTVMAPKVKGLINLDEAAKDVRLDFFILFSSLAGGMGNPGQAGYAAANAFMDVYAARRNHLVRDNERSGKTLSVNWPLWEEGGMRVDKETERLMYEQTGMKAMRSASGIQALYAAFASGEHQVMVAEGDEKRIRSHIFDLGEEQSAAGKAPAVADARDLKDQVQEKLKRHVSDLLKVSMKDIEADSELTEYGFDSIIFTEFTNLLNRSYQLELSPTIFFEFPTLRKLSGYLISEWKEAFSGLERESLKTAPKAGIRKAEAPAAVHVKRETPVSVKGKSEEKTEPIAIIGISGIFPQAKDIDEFWTRLQKGEHCITEIPRDRWDWREYYGDPAADANKTSIKWGGFIDGIAGFDPLFFGISPKEAEMMDPQQRLLMMYVWKAIEDAGYSAKRIAGTKTGIFTGTLGSGFQTLINKAGLPVEGYTMTGIVPSVGPNRMSYFLDIHGPSEPVETACSSSLVAIHRAVKAIETGDCDMAVAGGVNTIVTPEGHIGFQKAGMLSEDGRCKTFSDQADGYVRGEGAGMIVLKKLSEAEHDRDHIYGLIRGTAENHGGRSASLTAPNPQAQTDVLKSAYQKAGIHPSTITYIEAHGTGTALGDPIEINALKKAFQTDGAPGGYCGIGSVKTNIGHLELAAGIAGVIKVLMQLKHRTLAKSLHCENINPHIKLKDSPFYIVTETKEWEALRDENGRVLPRRAGVSSFGFGGVNAHIVIEEYMGRSETEQQETREKASSLFVLSAKNEERLKERARLLRDFIQNGSFRHIDLADAAYTLQTGRDAMEARLGIIAGSAEELTEKLNAFLLGKNSEDIISGRKKRENNTISMFSDDEDAADLVSAWLEKKKYKKVLRLWANGFDTDWEQLYTDSKPRRISLPSYPFRADRYWVPKREQLPLSNQKTVVLQKTWEPCEAVSSSEPFSKIALIVSEDTKDLAAEVKKQLNDADIVQENQLISFLQDANAAVYSGFIDFTGCGSRQKRQDISWVASLQQLIEYGRGQENMKMLYLTKGLESFKNKAAAMHGIEKAGLYRMMRHEYSHILTCHADIDPEEPLEQTAAFIKQEIESDLTESAVCYREGMRFSYVLRQTDQIEPEAVQTDRTVFPKDAVLMITGGTRGLGALCAKHFVSVYGVKKLLLTGRKELPSKTEWDLEQTDPVVSEKIQLIRQLESQGVKVCVSAVDLTDKQAVGRLIKEVTSTLGPVGGILHCAGIADRENPAFLRKSKDSIARVLAPKADGLHSLYESVKDGAPAFFVLFSSVSAAVPILAAGQSDYAMANSYMDYFAENNESGIISIQWPAWDETGMSRDTKSGIYEQTGLLRHSDAEGLKMLDYILRERPGAVVLPAQVKHDWDIKALENAKPAAHKGMKAASKPPETKKRDHNRTDIQSWLRSLLAKELSIDETHMDIDVPFQEYGMDSIFLAQVLTKIDQKLPSVSIDPTVLLEHPTIEQLADYLAAHCPEAFSADAAVSAEKVPLQKTPKRSKKTADKPGKRGKVAIIGMACHFPKAGDIKEFWKNLRSGTDAVTEVPPDRWDTGEHYQPGEYQEGKSISKWGGFIHDIDQFDPEYFNISETLAPMIDPLQRQWLEVSAEALADAGYQKEDLWGRRIGVFAGARAGAFHQKFQYLQKDAIIGAGQNFITAHMAHIYNFTGPNLVVDTACSSSLTAIHLAVQAIQNGEAEAAFAGGVDILLDEKPFLTMSAARILSPNGRSKSFDAGADGTGIGEGCGVLMLKPLEKAIEDEDKIYGVIDGSAINNDGSTMGVTTPNPRAQQDLIEQAVQSAEIEPDTMTYVEMHGTGTLIGDPIELKGLTNVLSAYSDEKQFCGVGSVKSNIGHLLSAAGAAGIIKVLLAIANEELPPTLHCHKPNPRFQFNDSPLYPVLELKRWDGKKEILRAGVSAFGLGGNNAHIIVSNEGIPKERKAAMEPKGGQTVYRKQRYWPEKAQLPEAEVNEAGTEAMFEISEV	PGPT0010165_120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|MACROLACTIN|DIFFICIDIN_METABOLISM,PGPT0010165-baeN|pksN|mlnB|mlnD|dfnG-K13614	NA	NA
D1-12_01442	5727			hypothetical protein	ATGCAAGAGCAGCTTCTTATTAACAATCAGCATCCCGTTCTGAAACATCATAAAGCCTATGGAAAGGAACTGCTGCCGGGTCTGGCTTATATTGACCTGATCTATCAGACTTTCAGAGAAAACGGTTTTTTTCATGCCGGCCTTGAACTCAGGCACTTATCGATTTTTCACCCTTTAGCTCCTGAACAGGGAGAATCAATCCTGCTTTCCGTTGACTGTACAGAGAACGGCGAAGAGCAGTGGAAGGTAGAGGTGAAAGGGCAAAAACAAGGTGACGAAGCAGCAGAGACAAAGGTATATGCCGCGGCGCAAATGCATTCCGTCAAGCCCGCCGGCTTCCAAGAGAGCGTCCGGATGGATGCCGTAAAACAAACGGCGGCAGAAATACCGCTTGAGGACATTTACACGGAATGCAGGGATCAAGAACTGGTTCATTCAGGAATGATGAAAGGCTGCGGAAGCGTCTACCAAACTGAAAAAGAGATTTATATTGATCTGTCGGTGCAAAAGGATCAGCTGGAACATGCAGAAGAGGCGATGTTTCATCCCGCATTGATAGATGCGAGCAGTATCGGCTCCAATGTATATCTCGCTCCTTTGACGAGGGAGGAGGGGCAATTATTTCTGCCGCTGTTTTATGAATCGTTTTATTGCGCCGAATTGCTGCAGACAACATGTATCACCAAGATAAAAAAAGAATCCGTCACCCGTAAGAAAGATCTCGTTTACGTGACAATGGAGTTTTTCAATGAGGAAGGCAGAAAAGTCGGCGAACTGAAAAACTTCGCCAATAAACTGGTGAGGGACCCGGAACTGATCAATCAGAAACGGCAAAAGAAAGAACCTGACGGGCGGAATGCCGTCCCGGCCCCGCAAGCGGAACCGGCGCCTTCTGAGCCCCGCCGTGCGGAGGCTTCCGCCGTCCTTACTGAACAGTGCATCCTTTATTTAAAAGAATTGCTTGCCGCCCGATTGAACAAACCTGTGAAAGAGATTGACCCGGATATCGGCTACTATGAAATGGGGCTGGATTCTCCGGGGCTGTTGGACATGGTGAAGGAAATTGAACAAAAAATCGGAACGCAGCTACTGCCGACGCTGTTATTTGAATACACGACAATCGCGGAATTGGCGGGGTATTTGTGCGAACATTACGGAGCCGGTTTCGGCCATGCTCAAAGCGGGCATTCAAGTGCTGAGCCTTTGCCCCGGGAAAAAAAGAGGACGACCCAAATCCGCGTGAAAAAGTCGGCGTCAGCCGGAACGCAGAATGGAGATATTGCGATCGTCGGGATGGCGGGACGGTACCCCGGCGCCAAAAATCTTCGTGAATTTTGGACAAATCTAAAAAATGGAGAAAACAGCGTAACGGAAGTGCCTCGTTCCCGCTGGGATACGAGGACATATGAGCATTTGCGATCGCCGTCCGGCAAGCCGATTTCCAAATGGGGCGGTTTTATAGACGATCCGGATTGTTTTGACGCAAAATTTTTCCGGATTTCTCCGCGGGAGGCAGAAGCTAAAGATCCGCAAGAACGATTGTTTTTAGAAACATGCTGGGAAACGATTGAGGATGCGGGCTACACCCCGGAAACAATCGTTCAGCCGAAAGGGCCGAATAAGAGAATGAACGTCGGTGTGTTTGCCGGGGTGATGCATATGGATTATTCTCTCGCCGGCGCTGAAGCTGCGGCCAAAGGGCTAGTCTTTCCTTATCCCTTGAACTATGCGCCGATCGCAAACCGTGTTTCATATTTTTGCAATTTTCACGGGCCGAGCATGGCGGTTGACACGGTGTGTTCGTCATCTTTGACGGCCGTCCATATGGCGGCGGAAAGTCTGAGACGCGGTGAATGTGAAGCAGCTCTTGCCGGAGGCGTCAATTTATCATTGCACCCGACAAAATATATCACATACGGCTTGATGGATATGCATTCGAGTGACGGACTGTGCCGCACGTTCGGCGAAGGAGGCACAGGCTATGTCTCAGCTGACGGCATCGGGGCCGTGCTGCTGAAGCCGCTTCACAAGGCCGAAGAAGATAAAGATCATATTTATGCGGTGATAAAAGGCAGCGCCGTCAATCACGTGGGGACAGTCAGCGGGATTACCGTGCCGAGCCCCGTGGCGCAGGGGGATATGATAGCTGAATGTCTTGAAAAGACGGGGATCGATCCCCGGACGATTTCTTATGTGGAAGCGCACGGAACCGGAACTTCTTTAGGAGATCCGATTGAAATACAAGGTCTTGTTAAAGCTTACCGCACGTTTACGGAGGATCGGCAATTTTGTGCGATCGGTTCCGTTAAATCGAATATCGGACATGCGGAATCAGCCGCCGGGATCAGCGGGCTTCATAAAACGGTTTTGCAGCTGTTTCACAAAACGCTTGTCCCTTCTTTACACTCAGAGACGATTAATCCGTATCTCCGTTTAGAGGACTCGCCATTTTACGTGCAGCAAAAAACCGAGCCATGGAAAAGGCCGGCGTATACAGAGAACGGCCGTGAACATGCCTGCCCGAGACGCGCAGGCATCAGTTCATTCGGGGCGACGGGTTCAAACGTTCATCTCATTTTAGAAGAGTACAGGCCTAAAAACCCCGGCATTACGGAGAATCAAGAGAGACCGTATATCGTGCCTCTGTCAGCGAAAAATCCGGAGCGGCTGAAGGAATACGCTGCCCGCCTGCTGATGTTTCTCAAAGATAAAGCGCTTGAAGGAAGCGGTCCGCTTCCTGACAAAATAGATACAATGCAAAATCAGCTGGAAAATGCGTTGCGAGGTGTTCTGGCCGAAGTTCTGCATGTTGCGGCCGGCTCGGTAGATGATGAACAGGATTGGAAGGAATTCGGCTTGGATGTCATGCAGCTGACACAGTTTTCTGAGCTGATGACGGATCAATACGGGCTGGCAATAGACATGACTGATCTCATACAGCATACTTCCGTCCGGACTTTAGCAGAATGTCTTACAAACGATGAGAAACATAAGAATATTCTTTCCGGTCTTTTCGGTCAGTCCGGCTTAGATAAGCAGCCTGATGAATCTTTTTCCCTGCTGTCACTGGCGTATACGCTGCAAACGGGACGGCTGGCAATGGAAGAGCGGCTTGTTTTTTTAGTGAACGATCAAGCAGACCTGATCAGGAAATTAACTGAATTTACAGAACAAAAACGGCAGATTGACGGCTGCTTTCAAGGGCGGTCTGACAGCGGAACGGAAATCAGGGGTTTCCTGAATGATGATCAGGATACGGAGGAGCTGATCCGAAAATGGATGGACAGCGGCACTTACAAAAAACTTGCGGAGCTGTGGTCAAAAGGATTTGAGATAGACTGGACGCGGCTGTATCAGGAGGAGAAACCGCGCAGGATGAGTCTGCCGACGTATCCGTTTGCAAAGGAACGATATTGGATACCGGAGCCCGATCATCCCGTCACTTCCGTAAATACAGAAAGCAGGCTTCACCCGCTGCTTCACCGCAATACATCAGATTTGCTAGAACAAAAATTCAGTACGATACTGAACGGAGATGAATTCTTCTTAGCCGATCATATCGTCCGAAACAAGCGTGTTCTCCCCGGGGCGGCTTATCTTGAAATGGCGAGAGCCGCGGCTGAACTGGCTGCCGCGCCGTTAGCCGCTGAATACACGGCTAAAACCGGCATTTCGCTGCGGTATATCAGCTGGATACGCCAGGCCGTTCACAAAAAAGAGACGCTGCGTATGACGACAGGGCTTTCTTTGGAGGATAACGGCAATGTTTCATTTCAAGTGTACAGCAATGAAAATGATTCAGACATTTATTGTGAAGGCAGTGCTGTGATTGAGCCGCTGTCTGAGGCGCCGGTTTTGCATATTGAACAGCTGAAAGCGCGATGCCGCAAAAAAGTGCTGTCAAAAGAAGACTGCTACGTGGCGTTTGCAAAGACGGAAATTGTATACGGACCTTCACATCAAGGAATTGATCACATTTATTGCGGGGAAAAAGAAGCCTTGGCTAAATTGGTGCTCCCTGCTTCCGTTTCTGATGAGGCTGAACAGTTTGTGCTCCATCCTAGTCTGATAGATTCCGCTTTTCAGGCGGCCATCGGCGTTATGAATGAAGATCAAGCGGGTTATCCGGAGCAGCCGTTAATGCCTTTTGAATTGCATGAACTGACCGTTTTTCATCCGTGCAGGCCAAACATGTGGGCTGCCGTGTTTGTGACGCATGAAACACCGGCCGTGCGAAGAATGGACATTGATATATGTGATGAACGCGGCAATGTGTGTGTAAGGATAAAAGGATTTTCTGCCCGGATGGCCGAAAGTGAACCGGCCGTTACCGATAATAAGCAATACGATCTCCCGGGTAACCTTACCGGAGCCGTCAAACTGATGCAGGTATGGGACGCGGAACCGATAGACAACCAAACCGGCTTCCCCATTTCTGAAGCAAAAGCGGTCATCATAGGCGGTACAGACGGGCAGGCGGACGCGGTTTTACGATTGTTTCCTAAAGCTGTGCGATTTGATATCGGCCAAAGTGCTTCCGTTGAAGTGATATCTGATCGGCTCCGCCGTCTCGGTGAAATTCAGCATATGGTCTGGTTTGCCCCTCAGCCGGCTGATTCTGACAGCCATGATCAAAAAAGCGGGGTGCTGCAAATTTTCAGAGCGGCCAAAGCTCTTATCGGTCTCGGGTATGGAAAAGAGCAGCTCGGGATGACGGTGATTACGCACCAAGCACAGCCTATTACCCAATATGATGAGGTGCGTCCCGCTCATTCCAGTGTGCACGGTTTCGTCGGGTCTCTCGCTAAAGAACATCCGAGCTGGCACATCCGTCTCGCCGATCTTGAAGACGGGGGGGATTTCCCCGCAGAAGACATATTCAGCCTGCCCCGCGACCGTACGGGTAAAGCATGGGTGCGCAGACATCAGGAATGGTACCGGCCTCAATTGCTTCCGGTCCAAAGCGGGCCGTCTGAAAGTGTTCCTTACCGCTATGGAGGCGTATATGTCATCATCGGCGGTGCGGGAGGCATCGGCGAGGTTTGGACAGATTATATGGTGACGACGTATAAAGCCCGAGTCGTCTGGATCGGGAGGCGGCCGCTGGACAGCCGGATACGCCAAAAAATAGACCGGTACCGGCCATCAGGCCCGGCTCCCGAATATATAGCCGCAGATGCTTCTGATCTTCCATCGCTTCAGCGCGCCTATGAACAGATTAAAAACACATACGGCACCATCAGCGGCGTCGTTCATTCAGCGATGGTATTTGCGAATGAAAGCGTAAAAGATATGGAAGAATCACAGTTTCACGCCGGCCTTGCGGCGAAAGTGGATATTTCCGTCAACATTGCCGAAGTATTTGCGAAAGAGTCTTTGGACTTTATTCTCTTTTTCTCTTCGGTTATTTCATATATTAAGAATCCGAATCAAAGCCATTATGCGGCGGGATGCGCATTTAAAGACGCATTTGCCCATGAGCTTTCCGGACGGCTGTCATGCCGGGTCAAAGTGATGAACTGGGGTTATTGGGAGCGGGCTGACAATCACATTTCTGAAGAGTTTGACAGACTGAGTGCAATCGGTCTCGGGCTGATCAGCCGGGCGGAAGGGATGCAGGCGCTGGAAACTCTGCTGACGCAGCCGATCTCCCGCATGGGGCTGATGAAGCTGACCAAGCCGATTCCGATCGAGGGAATGAACCCTCATGAATTTGTGACTATCTGA	MQEQLLINNQHPVLKHHKAYGKELLPGLAYIDLIYQTFRENGFFHAGLELRHLSIFHPLAPEQGESILLSVDCTENGEEQWKVEVKGQKQGDEAAETKVYAAAQMHSVKPAGFQESVRMDAVKQTAAEIPLEDIYTECRDQELVHSGMMKGCGSVYQTEKEIYIDLSVQKDQLEHAEEAMFHPALIDASSIGSNVYLAPLTREEGQLFLPLFYESFYCAELLQTTCITKIKKESVTRKKDLVYVTMEFFNEEGRKVGELKNFANKLVRDPELINQKRQKKEPDGRNAVPAPQAEPAPSEPRRAEASAVLTEQCILYLKELLAARLNKPVKEIDPDIGYYEMGLDSPGLLDMVKEIEQKIGTQLLPTLLFEYTTIAELAGYLCEHYGAGFGHAQSGHSSAEPLPREKKRTTQIRVKKSASAGTQNGDIAIVGMAGRYPGAKNLREFWTNLKNGENSVTEVPRSRWDTRTYEHLRSPSGKPISKWGGFIDDPDCFDAKFFRISPREAEAKDPQERLFLETCWETIEDAGYTPETIVQPKGPNKRMNVGVFAGVMHMDYSLAGAEAAAKGLVFPYPLNYAPIANRVSYFCNFHGPSMAVDTVCSSSLTAVHMAAESLRRGECEAALAGGVNLSLHPTKYITYGLMDMHSSDGLCRTFGEGGTGYVSADGIGAVLLKPLHKAEEDKDHIYAVIKGSAVNHVGTVSGITVPSPVAQGDMIAECLEKTGIDPRTISYVEAHGTGTSLGDPIEIQGLVKAYRTFTEDRQFCAIGSVKSNIGHAESAAGISGLHKTVLQLFHKTLVPSLHSETINPYLRLEDSPFYVQQKTEPWKRPAYTENGREHACPRRAGISSFGATGSNVHLILEEYRPKNPGITENQERPYIVPLSAKNPERLKEYAARLLMFLKDKALEGSGPLPDKIDTMQNQLENALRGVLAEVLHVAAGSVDDEQDWKEFGLDVMQLTQFSELMTDQYGLAIDMTDLIQHTSVRTLAECLTNDEKHKNILSGLFGQSGLDKQPDESFSLLSLAYTLQTGRLAMEERLVFLVNDQADLIRKLTEFTEQKRQIDGCFQGRSDSGTEIRGFLNDDQDTEELIRKWMDSGTYKKLAELWSKGFEIDWTRLYQEEKPRRMSLPTYPFAKERYWIPEPDHPVTSVNTESRLHPLLHRNTSDLLEQKFSTILNGDEFFLADHIVRNKRVLPGAAYLEMARAAAELAAAPLAAEYTAKTGISLRYISWIRQAVHKKETLRMTTGLSLEDNGNVSFQVYSNENDSDIYCEGSAVIEPLSEAPVLHIEQLKARCRKKVLSKEDCYVAFAKTEIVYGPSHQGIDHIYCGEKEALAKLVLPASVSDEAEQFVLHPSLIDSAFQAAIGVMNEDQAGYPEQPLMPFELHELTVFHPCRPNMWAAVFVTHETPAVRRMDIDICDERGNVCVRIKGFSARMAESEPAVTDNKQYDLPGNLTGAVKLMQVWDAEPIDNQTGFPISEAKAVIIGGTDGQADAVLRLFPKAVRFDIGQSASVEVISDRLRRLGEIQHMVWFAPQPADSDSHDQKSGVLQIFRAAKALIGLGYGKEQLGMTVITHQAQPITQYDEVRPAHSSVHGFVGSLAKEHPSWHIRLADLEDGGDFPAEDIFSLPRDRTGKAWVRRHQEWYRPQLLPVQSGPSESVPYRYGGVYVIIGGAGGIGEVWTDYMVTTYKARVVWIGRRPLDSRIRQKIDRYRPSGPAPEYIAADASDLPSLQRAYEQIKNTYGTISGVVHSAMVFANESVKDMEESQFHAGLAAKVDISVNIAEVFAKESLDFILFFSSVISYIKNPNQSHYAAGCAFKDAFAHELSGRLSCRVKVMNWGYWERADNHISEEFDRLSAIGLGLISRAEGMQALETLLTQPISRMGLMKLTKPIPIEGMNPHEFVTI	PGPT0010160_125	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010160-baeM|pksM|dfnI|dfnD|dfnF-K13613	NA	NA
D1-12_01443	6297	pksJ_2	COG0318	Polyketide synthase PksJ	ATGAAAGAGTTTCTGCACCGGGTTTTTTCTGACGTCAAAAATAAAAAAATGACAAAACAGGATGCGATCGGCATTTTGCGCGATTATGATATGCGGATGGGACTTCGCCAAGCGGATTCCCTTCATCCGCTTGCTCAGCAGCATATTTCCGATGAAACGGGACTGGGATTCTCGGCAGCTTTCAGCGGCCGGGAATTTTTTCTCGCTGATGTTTCTTTACAGCGTAAAAAGCTTATGCCCGGAGAACTTCTTTTGGAAATGGCGAGAGCTGCGGCTGTTTTGACAGTAAAGGAGACTGAGGCTGTCCGGCTGACACATATCGTGTGGTCAAAGCCCATTCTGACTGAGGCTGAGCCGTTCCATATCGAAATCAGGCTGATACCCGAAAAGGGTGAAGCCAAAAGGTTTGAGATTTATAATCCATTTTCTTCCGATTACAGTTATCATGATGTGTACAGCCAAGGGACGATTCAGCCAGTTGATGCTGCGCCCGGCATGCTGGATATCAGCCGCTTGAAGGAAAACAGCGGCTTCCTGATGGATCAGCAGCAAATTGAAGCCATCACTCAGAACGATACCGTTCAATACAGTGAGCACATGAAAGGAATTGAGCGTATTTACGCTTCAGCAGGACGGATGCTGGCAGATATATCAATTCCATTGACAGACCAAAAAGAATCCGCCCGATTCGGCCTCCCTCCCTGTGTGATGCAAAGTGTGACAGAGGCATGCGCGCTGCTTGGCGGCAAAGAATATAAAACGCTCGCCCCGGTTTCTTTGGACGAGCTTTTGTTTTATGAATCTTGTCCTGACAAGGTATGGGCCGAGATACAAGAAAAGGCGGGGAGTTTTTATATTGATTTATGTGACGAAGAAGGAAAAATATGGGCTTCCCTGTCGGGGTTGAAGCTGCAGCCTGTCATCAAGACGGGCGCTTCCGGAAAAATCAGTGCCGAACACCGCAGTGAACATTTGTATGAACAAACGCTTCTTCAGCTCAAAACGCTTTTTGCCCTGACTACAAAAATTGCTGTTTCCAACATAGATACTGAAGAGCCGCTGGAAACCTACGGAATCGACTCAGTCACTGTGACGAAATTGAATCGCGAATTGTCTCTGCTTTTCGGTGACCTTTCCAAAACGGTTTTTTACGAATATAAGACACTGGGCTCCCTGGCAGCTCACTTTGTCACGGATTATCCAAAAGAATGCCGAAAATGGACAAATGATGATGAGCACCGTTCAGGCATATCAGAACAGGTTTTGGCAAATGAAGATTTTCCGGTGCTTCCGTCGTTTATCAAGCGAAAGAAACGGCCTTCTTTTTCCAATGAGAACCAGACAAAAGAAGGGATTGCGATTATCGGAGTCAGCGGACGTTATCCGCAAGCTGAAACACTTGAAGCGTACTGGGATAACTTAGCAGCCGGAAAAGACTGTGTGACGGAAATTCCCGAAGAGCGCTGGGAAAAGGACAAGTACTACAACCCTGATCCCGAAGCGGCCGTGAAAGAAGGGAAAAGTTACAGTAAGCGGGGCGGGTTTCTGAAAGATGCCGCTTTCTTTGATCCGCTGTTTTTTCAAATTTCACCCCGTGATGCTTTGAATATGGACCCGCAGGAGCGTCTCTTTATTGAAATGTGCTGGCAGGTGATGGAGGATGCCGGTTATACGAAGGAACAGCTTGAGAATCTATATAACGGCCGGGTCGGCGTTTTTGCGGGCATTACGAAAAACGGGTACGGAATGTACTGGAAAAACGGCGGCGCCCTGCAGCCGAAAACGTCGTTCAGTTCAGCGGCCAACAGAGTTTCCTATTTTCTTAATCTGAAAGGGCCGAGCATGCCGGTCGACACGATGTGCTCGTCTTCGCTGACTGCAATTCATGAAGCGTGTGAAAACATCCTTCGCGGCGAATGCGACATGGCGATTGCCGGCGGTGTGAATGTGTATACGCATCCTTCGGCTTATGCGGAGCTCAGCGCCTATCGAATGCTTTCAAAAGACGGAACGTGTAAAAGTTTCGGTGAAGGCGGGGACGGATTTGTTCCCGGGGAAGGCGTCGGGGCCGTGCTGTTAAAGCCGCTGTCAAAAGCGATAGCTGATAAGGACCGTATTTACGGGGTGATTCGCGGCACTCATATCAATCACGGCGGCAGAACAAACGGGTATACAGTGCCGAGTCCGAGCGCCCAGGCTGACGTGATTTCCGGCGCGCTTGAAAAATCAGGAATACATCCGCGGATGATCAGCTGTATCGAAGCCCACGGCACGGGCACTGAACTCGGAGATCCGATCGAAATTGACGGTTTGACCCGCGCATTTCAAACGAAAACGTCAGATAAAGGCTTTTGCGCCATCAGCTCAGTTAAATCCAATATCGGGCATTTGGAAGCGGCGGCAGGCATTGCCGGTGTAACGAAACTGCTGCTCCAGTTTCAAAAACGAAAGCTTGCCCCCTCATTACATTGCCGAAAATTGAATCCGAATATTGCATTTGACCGGACGCCGTTTGTGGTGCAGCGTGAATTGGCAGACTGGAAGCGGCCGGTCATTGAGGAAAACGGAGCGCAAAAGGAGATTCCGAGAATCGCGGGAATCTCTTCTTTTGGCGCGGGCGGGGCAAATGCCCACATATTGATAGAAGAATATATTGAACCTGATAGGGAGATTTCTGAGCCATTCACAGATGAAGATCCCGCAGTCATTTTATTATCCGCCAAACAGGAGGCCAGCCTGAAGCAGCGGGCGCAGCAGCTTCTTCAAGCGATCAGAAAAAATGACGTCACAGACCGCAGCCTCCGGGATGCGGCTTACACCCTTCAAACCGGAAGAGAAGCGATGGAAGAACGTGCGGCATTTATTGTGACGTCGACAGAGCAGTTAGCGGAAAAACTGCAGCGTTTTATTGACGGCGGGACAGACGGCTGCTTCAGAGGGAAAAGCAAACAGTATAAAGACATTCTAGCCGTTTTTAAGGATGAAGATATGCAGGAAGCCGTCCGTAAATGGATGAAACGAAAAAAATTCGCGAAGCTTCTGGAACTTTGGGTAAAAGGGCTGAAGATTGATTGGTCAGAGCTTTATAACGGCAGCCTGCCGCATCGCATCAGCCTTCCCGGTTATCCATTTATAAAGGATCGGTATTGGCCGGACGATGCAGCGCCGGACAATGTTCGTGATGCTGAAACACATTCTGAAACATTTCGTGAAATCCGCTTTTTACAGAAAAGCTGGGCAGAAAGCAGCAGTGTTCCGGTTAAGGAAGTGCGGGGCGTCATCGGAATAGCCGCCGATCACCAGACAGGAAATTTGGCCGTTGAGCTGTCCCGTTATTTCCCCGAGTCTGAAATCATTGACGCTGCATCACCGGAAATATCCGGGGACGCGGCCCGGTTTGGCGGTCTGATTGATGTGACCGGATGCGGGACGGAAATCAATCATGATGACGGCTGGATTCATCGTCTGCAGTCTCTCATTGACAACAGAAACCGCGGCCGAAAGCTTCAGCTGCTTTGTGTGACAAAGGGGCTTGAACCTTTTGCAAATGAAACGATAAATCTCTCAGGTGCAAAAAAGGCCGGATTGTACCGGATGCTCCAAAGTGAGTATAAGGATATTCGCTCGCGGCATATGGATGCAGAACAGACTGCCGAAGATCCTGAGCTGGCAAACCAGATCGCAGAGGAGTTTTTTCGCGATTCTGAAGACATCGAAGTGTGTTACCGAAACGGTGTGCGCTATCACGCGCGGTTAAAGGAAACAAACAGCTTAGCAGAAAAAGAATTTTCATTTCCGAAAGACCATGTGCTCTGGATCACCGGAGGAACCCGGGGACTCGGATATTTATTCGCCCGGCATTTTGCCGAACGATACGGAGTCACGAAACTCGTGCTTACCGGAAAAGAAACAATGCCTCCGAAAGCGGAGTGGGATGATCATGTCAAACGGAATTCCCCGTTTTCCGATAAAGTGAGAAGAATCAGAGAGCTCGAACAAAAAGGTGTCCGAACGGAAGTGCTGTCTGTATCTTCCGGCCCTGAATATGAGCAGGCCGTCAGCCGGGTGAAAGAGAAGATGGGGCCGATAGGAGGCGTGATACACGCGGCGGGAGCCGTAGATCTCGATCATCCGGCCTTTATCCGCAAAACGAGAGAACAGATGATGACCGTGCTTGAGCCTAAAACAGACGGACTGGACCTTTTGTATCAAGCGCTGCACAAGGAGCCTCTCCGGTTTTTTGCGCTGTTTTCTTCAGTGTCCGGCGTGATGCCGGAATTAGGAGCGGGACAAAGCGATTATGCCATGGCTAACGCCTATATGGATTATTTTGCGGCCGCAAAAGGTTTTCCGGTGCTGAGCATCCAATGGCCGAGCTGGAAAGAAACGGGTATGGGCGAATCAAAAAGCCGGGCCTATCTGAAAAGCGGTTTAAAGAGCATCACTGACAGAGAAGGGCTGAGCCTGTTTGATGCCATTATGGCAGGCGATTGCGGGTCTGTTATTATGCCGGCCGTCATTCACCCGGAAAAATGGGAGCCTGGCCGTCTGCTGCTTTCATCCGGCCTTACCGAAACAAAGAAGCAGGAACAGGCCGATACAGAAAGCGTTGAGGAGTGGCTGACGGGCATTTGCTGCCGGGAATTAAGACTGGAGCCGTCAAGATTTGAATCTGATACACCGTTTCAAGATTACGGAGCCGATTCCATCATGCTTGCCCAAGTGTCCAGAGCGATCGGAAAGAGGATCAAAGCTGACCTTGACCCGGCGGTGCTGTATGAATACCCTACGGTTGCTGCGCTGGCCGGATGGCTTGAAACAGCATATCCGGAAATCAAAGCTGCCGTTTCAAAACCGGTTCAGCCTGTAATCCCGGACGTTCCCAAACAAACGGCAGCCGCTGTCATTCAGCCTTCTGGCGGTGCAGCGGCGCAAGATATCGCTGTTGTCGGAATGTCCTGCCGTTTTCCGGGAGCTGAATCAATTGAAGCTTATTGGAAGCTGCTGTCTGAAGGAACGTCAGCCATTCAAAGGGTGCCGAAAGAGCGCTGGAAAACGGAGAAGGCGGATTATGCGGGCCTTTTAAAAAATGTAACGCATTTTGACCCGGAGTTTTTCCTTATTCCCGAAGAAGACATCAAGGCAATGGATATCCAGTCCTTTCTTTTATTAGAAGAGGCGCTTCATCTGTTCAGAGACAGCGGTTACTCGTTACAAGAAATGAAAGGCAGGTCAGCCGGTGTCTATTTAGGAGGACGCGGGGGCAGTATGCCTGACGAAAACCGTCTGAAGCATGCAAAAAATCCGATAGTCGCCGCCGGCCCGAATTACTTAGCGGCCAATCTTTCTCAGTTCTTTGATTTGAAGGGGCCGAGTCTTGTTTTGGATACGGCCTGTTCTTCAGCGCTTGTCGGTATGAATATGGCGATACAGGCGCTTTCTTGCGGTGAAATCGACTCAGCGGTGGTCGGGGGAGTCAGTCTGCTGGAATCCGGTCAAACCCACCGGATGTTCGAACTCCGCAATTTGTTAAGTGAAGAGCCTGCGTTTCATATTTTTGACCGCCGCACCGGCGGCATCGTATTGGGAGAAGGCGTCGGAATGGTGTATTTAAAAACAGCGGCCCAGGCTGTAAAAGACGGGGACCGGATTCATGCGGTCATTAAAGGCATTTCCGTAAACAATGACGGCAGAACCGCGGGGCCTGCCACACCGAATATACAGGCGCAGAAAGAAGTGATGGCCAAGGCGCTTGCCAAAAGCGGCAGAAAAGCGGAGGATATCAGCTACATTGAAGCAAACGGTTCTGGCTCTGAAGTAACGGATCTTTTGGAGCTGAGGGCGATTGAAGCGGTATACCGTATGCAAAACAGCGCGCCTTGCGAATTGGGGTCGATGAAGCCGAATATCGGACACCCGTTATGTGCTGAAGGGATTGCCGGTTTCATTAAAACAGTGCTTATGCTCTCGCGCCGAAAACGTGTGCCTTTCCTTTCCGGCAAAGAGCCGATGACGCATTACGATCTGTCCGCCTCGCCGTTTTATTTTTCGCACGCGCTGCGTGAATGGACGGATTCACCGCGGATTGCCGCCGTCAGCAGCTTCGCTGACGGAGGGACGAATGCCCATGTCATAGTGGAAGCCTGGGAGCAAGAGGCGTATACCCCGGTCAGAAAGCCTTTGCCGAGACAGGAATTAAAACGCCGGCCGATTCGTCCGGACAAAGCCGAAAGCCTGCATGAAAACGCACATAAGTCCCGTCCGAATACGTTTTGGAAACAAATGAAGACTTACTGA	MKEFLHRVFSDVKNKKMTKQDAIGILRDYDMRMGLRQADSLHPLAQQHISDETGLGFSAAFSGREFFLADVSLQRKKLMPGELLLEMARAAAVLTVKETEAVRLTHIVWSKPILTEAEPFHIEIRLIPEKGEAKRFEIYNPFSSDYSYHDVYSQGTIQPVDAAPGMLDISRLKENSGFLMDQQQIEAITQNDTVQYSEHMKGIERIYASAGRMLADISIPLTDQKESARFGLPPCVMQSVTEACALLGGKEYKTLAPVSLDELLFYESCPDKVWAEIQEKAGSFYIDLCDEEGKIWASLSGLKLQPVIKTGASGKISAEHRSEHLYEQTLLQLKTLFALTTKIAVSNIDTEEPLETYGIDSVTVTKLNRELSLLFGDLSKTVFYEYKTLGSLAAHFVTDYPKECRKWTNDDEHRSGISEQVLANEDFPVLPSFIKRKKRPSFSNENQTKEGIAIIGVSGRYPQAETLEAYWDNLAAGKDCVTEIPEERWEKDKYYNPDPEAAVKEGKSYSKRGGFLKDAAFFDPLFFQISPRDALNMDPQERLFIEMCWQVMEDAGYTKEQLENLYNGRVGVFAGITKNGYGMYWKNGGALQPKTSFSSAANRVSYFLNLKGPSMPVDTMCSSSLTAIHEACENILRGECDMAIAGGVNVYTHPSAYAELSAYRMLSKDGTCKSFGEGGDGFVPGEGVGAVLLKPLSKAIADKDRIYGVIRGTHINHGGRTNGYTVPSPSAQADVISGALEKSGIHPRMISCIEAHGTGTELGDPIEIDGLTRAFQTKTSDKGFCAISSVKSNIGHLEAAAGIAGVTKLLLQFQKRKLAPSLHCRKLNPNIAFDRTPFVVQRELADWKRPVIEENGAQKEIPRIAGISSFGAGGANAHILIEEYIEPDREISEPFTDEDPAVILLSAKQEASLKQRAQQLLQAIRKNDVTDRSLRDAAYTLQTGREAMEERAAFIVTSTEQLAEKLQRFIDGGTDGCFRGKSKQYKDILAVFKDEDMQEAVRKWMKRKKFAKLLELWVKGLKIDWSELYNGSLPHRISLPGYPFIKDRYWPDDAAPDNVRDAETHSETFREIRFLQKSWAESSSVPVKEVRGVIGIAADHQTGNLAVELSRYFPESEIIDAASPEISGDAARFGGLIDVTGCGTEINHDDGWIHRLQSLIDNRNRGRKLQLLCVTKGLEPFANETINLSGAKKAGLYRMLQSEYKDIRSRHMDAEQTAEDPELANQIAEEFFRDSEDIEVCYRNGVRYHARLKETNSLAEKEFSFPKDHVLWITGGTRGLGYLFARHFAERYGVTKLVLTGKETMPPKAEWDDHVKRNSPFSDKVRRIRELEQKGVRTEVLSVSSGPEYEQAVSRVKEKMGPIGGVIHAAGAVDLDHPAFIRKTREQMMTVLEPKTDGLDLLYQALHKEPLRFFALFSSVSGVMPELGAGQSDYAMANAYMDYFAAAKGFPVLSIQWPSWKETGMGESKSRAYLKSGLKSITDREGLSLFDAIMAGDCGSVIMPAVIHPEKWEPGRLLLSSGLTETKKQEQADTESVEEWLTGICCRELRLEPSRFESDTPFQDYGADSIMLAQVSRAIGKRIKADLDPAVLYEYPTVAALAGWLETAYPEIKAAVSKPVQPVIPDVPKQTAAAVIQPSGGAAAQDIAVVGMSCRFPGAESIEAYWKLLSEGTSAIQRVPKERWKTEKADYAGLLKNVTHFDPEFFLIPEEDIKAMDIQSFLLLEEALHLFRDSGYSLQEMKGRSAGVYLGGRGGSMPDENRLKHAKNPIVAAGPNYLAANLSQFFDLKGPSLVLDTACSSALVGMNMAIQALSCGEIDSAVVGGVSLLESGQTHRMFELRNLLSEEPAFHIFDRRTGGIVLGEGVGMVYLKTAAQAVKDGDRIHAVIKGISVNNDGRTAGPATPNIQAQKEVMAKALAKSGRKAEDISYIEANGSGSEVTDLLELRAIEAVYRMQNSAPCELGSMKPNIGHPLCAEGIAGFIKTVLMLSRRKRVPFLSGKEPMTHYDLSASPFYFSHALREWTDSPRIAAVSSFADGGTNAHVIVEAWEQEAYTPVRKPLPRQELKRRPIRPDKAESLHENAHKSRPNTFWKQMKTY	PGPT0010173_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-DIFFICIDIN_METABOLISM,PGPT0010173-dfnE-NA	NA	NA
D1-12_01444	12591	fadA_3		3-ketoacyl-CoA thiolase	ATGAAATGTATTAACGAATTTTTAAGAACGGTAATAGCGGAAAAGCTGGGTGCCGAGGTGACCGAAGCAGAAGATAAAACCGCTTTTTTTACTCTTGGCGTGACGTCTCTCATCAGTGAAGAAATCATGACCATATTGCATAAAGAATTTACCGGCCTTTCTGAAACGCTGCTGTTTGAATATCCGAACATTGAGAAATTGAGTGAGTTTTTAAGTGCGCAGAAACGAAATCCCGAAAGCGTTCTTGAATTCAAAGAAACGGAGCCTGATACGGGAAGCCGGCAGGAAGAAGTGCTTCCTGTACAGGCGGCTGAAAAGGTGCCCGAACCGGGAACGGACAGGAGTTCTGATATTGCGGTTATCGGAATGAGCGGGACGTTTCCGAAAGCGGAAAACCAGCATGATTTTTGGAACAATTTAATGGAAAATAAAGATTGTGTCTCCGAAATCCCTGAGGACAGATGGGACAGCTCTTATTACTCGGAAGAGAAAACGGCAGAATACGCGTCATACAGTAAATGGGGAGGTTTTATTGATCGTCCGGATCGATTTGACCCGCTGTTTTTTTCTGTTTCCCCGTGGGAAGCTGATTTAATGGACCCTCAGCAAAAATTGTATGTCACGTGCTGCTGGGAAGCGATGGAGGATGCCGGTTACGGGAACCCGGCGGCGAGGCCGACGGATCAAATCGGTGTATTCGCTGGAGTGACCTGGAATGAATATTCATTAATTGCACACGAAGAAGGTTTCCTCAAAGATCAGTATAAAGGCCCCGGCTCCTTATATTGGGGCATTCCGAACCGGGTTTCTTATTTCCTTGATCTCCATGGGCCGAGCATCGCTGTTGATACGGCGTGTTCTTCATCGCTTGTCGCCGTCCATCAGGCTTGTCAGGCCATTATGTCGGGCGACTGTGAAATGGCGCTGGCCGGAGGCGTCAACCTCAGCTTACATCCGCAAAAATACATGTTTTTAAGCCAATCGCATTTTCTGTCTTCTGAAGGAAAATGCCGCAGTTTCGGTGAAGGCGGAGACGGTTACGTGCCCGGCGAAGGCGCGGGAGCCGTTTTATTAAAACCATTGAAAAAAGCGATTGCGGACAAAGACCACATCTACGGTGTCATTAAGGGGTCCGCCACTAATCACGGCGGCAAAACGACCGGGTATACGGTGCCGAATCCGGAAGCGCACCGGGACCTGATTTTATCCGCTCTAAACAGAGCCGCGGTAAGTCCGGCGGATATCAGCTACATTGAAGCTCACGGAACCGGCACGGCGCTCGGCGATCCGATTGAGATACGCGGCCTGTCTATGGCATTTGATAAACAGACCGATGAGAAAAATGACTGCGGAATCGGCTCGGTGAAATCCAATATCGGACATTTGGAAGCGGCTGCAGGGATCGCCGGTTTAATCAAGGTGCTTTTAAGCATGAAACATGAAACGCTTCCCGCCAGTCTGCACTCCGCGGAACTGAACCGCAAGATTTCTTTTTCTGATTCGCCATTTTATGTCGTCCGAAACAACCGGCCGTGGCCGGCTGAAGGAGATAAACCGAGAATCGCCGCAATCAGTTCATTCGGCGCAGGAGGCTCTAATGCCCATCTGATCGTAGGTGCTTATCAGCCAAAACGGCAAGCGGACAAGAATACTGAGCAAAAACCGCATGCTGTCGTATTAAGCGCACATTCCGAACAGCAGCTGAAAGAATATGCCGGGAAATTAAGCTCCTTTCTTGCCCGATTGGAAAACCTGCCTTCTGCCGGCGGATACAGTCTGGAAAATATCGCTGCCACCCTATTGTCAGGCAGAGAGCCTTTCTCCTTCCGGCTTGCTGTCATTGCATCATCCCTTTCTGAGCTGAAACAGCGATTGGACGGATTTGTAAGCGGTCACAGAGACGAAAGGCATATTTACTTCGGAAAAGCGTCACCCGGGCGGCCGGACGTTTCAGGCCAATCCGTTTCAGATCCTGAGAAATTTGCCGCGCTGTGGGTGAAAGGTCTTCAAGGTTGCAAAAAGCCGGAAACGCCGTATCAGAAAGTTCCGCTTCCTACGTACCCGTTTTTAAAGGAAACGTCCTGGCTGACCGATCAAAAAAAGCGGTATACAAAAAAGCCCCAAAATACCAAAAGGCGTGAAGCGCTGCATCCTCTGCTTGATGAGAATATTTCATCCGCCCGGAAAGGGACGTTTCAAAAGATATTTTCCAAGGATGAATATTTCTTTAAAGATCATTTAGTGAACGAAAAATATGTGCTTCCCGGAGTCTGTCATCTGGAAATGGCGGCATACGGCGCGGGATTGTGGGGAGAACGCCCGGTCGTCTCTCTTCAAAATGTGTGGTACATGGAACCGATTGTGACAGGGACAGACCCAAGATCCGTCATGATAGAGTTTGAAGCGGAAAAAGAGCGTATAAGCTATGTCATTAAGGAAAAAGGAGCGGCCGGCACTCTCTTTTCGCAAGGAGAAGTGATTTGTAAAGAAAAAGGAGCGCCTTTTGAGGCCCAGGTCTTTCAGCTCCCGGCGTTATTTTCGCAGAGAACGGAGCCGAAAGACATCTATCACTCGTTCTCTGAGGCGGGAATCGTGCAAAAGGACAGTTTTCAGGTCATCCGCGAATTTTCTTATACAGAAAGGAAAGCACTGGCCAAATTAACGCTCCCGTCACACTTGGAAGCCGATTTTAAACAGTACATCCTGCACCCGTCCTTAATGGATGGCGCTGTTCAAACCGCAATGGCGCATGTGCTGCAATTTCAAAAAGAGCCTGCGCTTATCGTACCGTTTTCCTTCGGAGAAATACAGCTGCTTAAACCGTTAGCGAAAACCGTATTTGTGCATGCGGAGGTAAAAGCGGCCTCCGTTCACCAATTTGATTTGCATATTTGTGATGAGCGCGGCGTGCTGCTGGCGGCAGTGAAAGATTTTATCATAAAAGAGGTGCAGGAAAGCGCCGGGTTTAACCAAAAAGCCGGCGTCACGCCGAAGAAAAGCCGTGAAACGGAATTGCTTATGACACCGGTTTGGAACACCGTCACCATTCCGGAAACCGACATGTCTTTCATGCGTGAAGAAAAAATAATCGTCATCGGGGCCGGGCCGGATGTTCAGCAGGCTTTGAAAGAGATGTATTCCGATGTCCGTTTTCCGGACATCACTTCTTTGGACAGCGCGGAACAAATGGCTGAAACATTGAAAGCGCAAGGTTCTTTTCAACACATGATATGGGCGGCGCCGGATCATCCCATTCCATCCGTTTATGATGCGGATACGGCCGAGGGACAGGAGCACGGGGTCATGCAGCTTTTCCGGCTGATAAAAGCGCTTCTGTTTCTGAATTTTGACACGGAACAACTATCATTGACAATCTGCACGTTTCAAGCACAGCCGATTCATGAACATGATGAGGTCAATCCGAGTCATGCAAGCATACACGGATTAGCGGGATCGCTCGCAAAAGAATACACCAATTGGAGCATCCGGCTTCTTGATTTGGAATCTCAAAGGGGAGACCGGCATCTTCCCCATGTCTTCTCTTTACCGGCGGACCCCGAGGGAAATCCGTGGGTCTTTCGCGCAGGTCAGTGGCACCGACAGCAATTGGCCGTCTGCCGGCCTCATGCAGATGAGCCTTCATTATACCGGCACGGCGGGGTTTATGTGATTATCGGCGGAGCAGGCGGAATAGGAGAAGTATGGACTGAATATATGATTCAGACCTATCAGGCGAAAATTGTCTGGATCGGGAGACGGAAAAAAGATACACAGATTGAAAGAAAGCTGAAAAGACTTGCAGCTTTAGGTCCCGCACCGCAATATTTCAGCGCGGATGCCGCGGATTATGACTCTCTCAAACGGGCGTATGACACCATTGTGAAGGAAAATGGAAAGGTCCGCGGAATCATTCATTCCGCCATCGTGTTATCAGACCGAAGTTTTGCCAATATGGAAGAGGATCAGTTCCGCGCTTCACTTTCTGCAAAAACTGATGTGAGCTTGCAGATTGCCCGGGTAGCTGAAGGGGAGCCCCTGGATTTCTTGCTGTTTTTCTCTTCGATGATGTCGTTTCAAAAAGCGCCGGGACAGAGCAATTATGCCGCCGGGTGCACGTTTAAAGACGCTTTTGCTAAGCGGATCTCACAAAAAGCGCCGTATGCCGTAAAAGTTGTCAATTGGGGCTTTTGGGGAAGTGTCGGCGTTGTCGCTTCAGAACAATACCGGAAACGGATGGAGCGGGACGGAATCGCTTCTATTGAGGCGCCCGAAGCGATGAAAACGCTGGAAACCCTGCTTTCCGGACCTTATGACCAGCTGGCGCTGATCAAAACGACAGATCCGGTTTTTATGAAAGATGATCTGAAAGAACAAGTAACGGTTTATCCGGAAAAGATTCCTTCCGCACTCGGACAATTAGCGGTTAACATCACGCAGAATGACGAAGCTGAGCGGGTAAAAGCATCAAGTGTCATGAGCTGCATGAGGGAGATGGAGTCCCTCATTGAAAAAATACTTGTATCAACCCTTTATGAGATGGGCGCAAGGCTTGATGAGACTTTGCCGTTATTTCAATCGGCTGCCGGCATAACGGAACAATACAGCAGATGGCTGAAAGAAAGTTTTGTCTTCCTTAATAAATTAGCGCTTGCTCAGGAAAAAACGGATTTAGGGGAGGTGTGGGAGGAATGGGAGCGGAAAAAAGAGACTTGGCTGCGCCAGAAAGACATGAGGGCGCATGTCAGATTGGCAGAAGAGACATTGCGTGTGCTTCCAGACATTTTAACCGGTAAGCTTCCGGCAACGGAAGTGATGTTCCCTGACTCCTCCTTCCGTCTTGTGGAAGGTATTTACCGCAATAATATCATTTCTGATTTTTTCAATGACAAGCTTGCTGACACATTGATTGCAGTTCTGCGGGAACGTCTGGAAAAAGACCCGCAGGCGAAAATCCGCATTTTAGAAATCGGAGCCGGAACGGGCGGGACGAGCGCCGCGGTCATGAGAAAATTGAAACCGTATGAAGCGCATATTGCCGAATATTGTTTCACGGATATTTCTAAAGCATTTCTTTTACATGCAGAAGACATATTCGGTCCGGAATATCCTTATGTCACTTATAAAATATTCAACGCTGAGCAGCCGGTATCAACAGAAGCGCCGGACATCGGCACGTATGACGCGGTGATCGCGACCAATGTGCTTCATGCGACAAAAAATATCCGCTCTACGCTGCGCCATGCGAAAGCAATGCTGCAAAAAAACGGCCAGCTGTTTATAAATGAGATCAACAGCCGCACCATATTCAACCATGTGACGTTCGGCCTTCTTGAAGGCTGGTGGCTGTATGAGGATCATGATTTACGGATTCCGGGCTGTCCGGGGGTTGAGCCGGCCGGCTGGGCGGAAGCGCTTTCGCTTGAAGGGTTCGTCCATCCTCTGTTTCCAGCTGAAGCCGCACACGACTTAGGCCAGCAGATTATAGCGGCTGAAAGTGACGGAACGGTCAGGCTTGCCCTCCCGCAGGCGTCAGAAGAGAAGCCGGAGCGCCGTCCGTATGACGCAGATGGTCTTTCGGATGATACTTTGCATTTCAGCCTGAGAGAAAAAAGCGTTGAACTGATGAAGAAGGTAATCGGTGAAGCGCTTAAAGTGCCGGCGCATCGTCTTTTATCCCATGAACCTTTAACCGCATACGGATTGGATTCCATACTGGTCGTCAGACTGACCAACGCGTTAAAAGACGTCTTCGGTTCTGTCAGCAGCACTTTGTTTTTTGAATATCAAACCATTGATGAGCTTGCTGATTACTTTCTGTCTTCCCGTAAAGAAGCGCTCGAGCGGCAATTCGGGAATGGACCGGCTCATCCCGAAAACGCCGGACGGGTGCAGGCTCCCGCAGAAAGCGCCGCGCCGATTCCAAACGTAAGAGAACGGGGCATCACATATCTGACGGAATTAATAGGAAAAACGCTGAAGATTCCGAGCGGGAGAATGGATCCGTCGGTTTCCTTAACCGCATACGGTTTGGATTCTATTCTGGTCGTCCGGCTCACAAATGCCTTTCGTAACGTGTTTGACCAAATGACCAGCACCCTCTTTTTTGAATATCAGACGATAGAAGAAATCGCGGATTACCTGCTTCTTTCTCAGCGGGGAGCATTTATGAAAGCGATGGGTGTGCGTGAGGAGCAGCTGTCTGATCACACAGATAATCTGAATGTAAAACAAAACAAGATTCCTCAAAACGAGGAAGGCAGCAGGACGAACGGAGATCCCTATATCCGGGATATCGCTGTCATCGGTCTGTCAGGCCGGTATCCGGGCGCCGATCACGTTGATGAGCTGTGGGAAAATGTAAAAGCCGGCAGGCATTCTATTACTGAAGTGCCGAAAGATCGCTGGGACTGGAAAACGTTTTATAACGAGGAACGCGGAAAATGGGGGTCCATTTATTCAAAATGGGGCGGTTTTCTCGATGACATTGATACATTTGATCCGCTGTTTTTCCGTATATCTCCCGCGGAAGCTGAAAGGATGGATCCGCAGGAAAGGTTGTTTCTGCAGACTGCTTATTCAAGCATTGAAGATGCGGGGTACACCCCGGCCGCGCTTTGTGACAGCCGGAAAATCGGAGTCTTTGTCGGTGTGATGAACAGCAATTACCCGACAGTCCCCAGCGACTGGTCTATCGCAAACAGAGTATCGTTTTTGTTCAACTTCCAAGGGCCGAGTATGGCTGTGGATACAGCATGCTCTTCTTCTTTAACAGCTGTCCATCTCGCTATAGAAAGCCTGCGGAGCGGAATGAGTGAAACAGCGATTGCCGGCGGAGTCAATCTTATCGTTGATCCGGCCCACTATGAGCGGCTGTCCGCTTTTTCAATGCTGTCTCCCGGTGATAAATGCAAATCTTTCGGAGACAGTGCGGACGGTTTTGTTGACGGTGAAGGAGTAGGGGCGATTGTGTTAAAGCCGCTTGCTCAAGCGGAGAAAGACGGCGATCATATTTACGGCGTTATCAAAGGAAGCATGCTGAACGCAGCAGGCAGGACAAACGCTTATATGGTGCCGAATCCGAAAGCGCAGTTTGATCTGATCGCAGAGACGTTGAAACGGACAGACATTCACCCGAGAACGGTCAGTTACTTGGAAGCCCACGGAACGGGCACTGCGCTCGGTGATCCGATTGAAATCGACGGGTTAACGAAAGCTTTTCGCCTGACAACAGAAGACCGGCAGTTTTGTTCCATCGGTTCCATTAAATCAAATATCGGACATTTAGAAAGCGCTGCCGGGATTGCGGGGATCACCAAACTGCTTTTGCAATTGAAACATAAGAGGATTGCCCCTTCATTGCATGCGGCGGAATTGAATCCGAATATTGAGTTTGAGCACACTCCGTTTTTCGTACAGCAAAAAGAAACGGAATGGAAACGACCTGTCTTGAATATCACGGGTGAAATGAAGGAATATCCGAGAATTGCCGGCATTTCCTCGTTTGGAGCAGGAGGTTCAAACGCGCATGTCATCATTCAGGAATATGTGCCGTCTGACAGCCTGAAACCAATGGAAACCGCAGCTGTTTCTCCGCAAAAACCGGCTGTTATTATTTTATCAGCGCGAAATGAGCAGCAATTGACAGAGCGCGCCCGCCAGCTTCTGGATGATCTCATAAGAAAAAAACGTTCTGACGGGGATTTGGCCAAGATCGCTTACACGCTTCAGGCGGGAAGAGAACCGATGGCTGAGCGGCTTGCATTTACGGCCGAGTCGATAGAAGAACTGAAAATGAAGCTTATGAGTTTCTCAAACGATCATAATATCGACCATGCTCATATCTGGCGGGGCAGGACAGCCAAACATCATTCATTGGCGGCTTCGCTCACTTCTGATGAAGATATGGCGCTTACCATAAATGCCTGGCTGAAAAAAGGGAAATACGGAAAGCTGCTTGACCTTTGGGTTAAAGGACTTGACGTCGATTGGTCAGTTCTTTATCAGCGCAGCCCGGGCCGCATCAGTCTCCCGGCCTACCCTTTTGCCAAAGACCGATATTGGGTCACAAAAGCTGATGTGTCACTTGACAAAACAGGCTCAGCGGAAAGTGAGAAAGCAGCCAGACTTCACCCGCTGCTCCATGCGAATACATCGACCTTTACCGCCCAGCGCTTTACTTCTGTTTTTTCAGGGCATGAACCGTTTTTTGCGGATCATATCGTCAATGGAAAACCGGTGCTTCCGGGCGCAGCTGCTTTAGAAATGGCCCGGGCCGCCGTTACACTTGCCGCTGAAGACTTGCCCGGCGGGAAAACGGGTGTCCGGCTCAAACAGATCGTTTGGCTCCGGCCGGTGACGGCGCTTTCTGAAGGGGTTACGCTTCATGTAAAGCTTCAGCCGGAAGAAAACGGAGACATCGCTTTTGAAGCGTATGCCGAAGGAGAAGAGCCGCTTGTCTTTTTCCAGGGAAAGGCCGTGCTCGAAGAGACGGAGCGTGCTCCTGTTCTCGATGTGGAAGCGGTTCAGGCGCGCTGCGGCGGCCGTCACTTGACAAAGGCTGAGTGCTATGAAGCATTCGACAGCCTCGGCATCACCTACGGACCGTCTCATCAGGCGCTTGACGCCGTCTATGCCGGAAGCGGAGAAGTGCTCGCAAAGCTCACTCTTCCGCCGTCCGCCCGCGAAGAAAAGGAGCCGTTCATCCTGCATCCAAGCATGCTGGACGCCGCCCTTCAGGCTTCTATCGGTCTCGTGCTCTCAGACGGTTCTGCGTCCGGACGGCCGTTCCTGCCGTTTGCCCTCCGGGATATGCAGGTGTTTTCTGCGTGCCGTGAGACGATGTGGGCGGTGCTTTCCTCAGAGGACGGCGCCTATCATATTGAGCTGTGTAATGAAAACGGTGCGGTATGTGTCCGATTGACGGGGCTCACCGCCCGTTTTCTGGAAGAGGAAACGGAGGAAAAACCGCTCTTGCTTCAGCCGGAGTGGCGGGAATCACCGCCGGATGAAGGCGGCGGACAAGAAGCGTCTTTCAGATACGTGAGGCTGTATGGCGGAATGAACGCTGAGGACATAAGCGGCGCCGTATGTGCGGCTGACGGCGAAGGTCCGATTGAAGACCGTTATGACGCCTGCGCGGCGGAGCTGTCAGCGATCGTCAAGCGTCTTATCAAAGAAAAACAGAAGAAAAAAACGCTGATCCAGCTTCTTGTCCCCGACAGGGGGGAAGACAATGTATTGGCAGGGCTGGCCGCTTTCCTGAAAACAGCTCACCTTGAACATCCGAAGCTGTACGGCCAAGTCATCCAAGCCGATCCGGACGAGTCAGCATCATCGCTTCTTGCCAAGCTGAAAGAAAATCGGGCGCATCCTGAACAAGCGGAAATCCGTTATGAAGCCGGCAAACGTCTCGTCAGAAACTGGCGTCATCTGCCGGCCCCTCAAAGCGGTACCGTTCCGTGGAAAGACGAAGGGGTCTACCTCCTCACCGGGGGAGCGGGCGGCATCGGACTGATTTTCGCTGAAGAAATAGCCTCCCGCGTCAAAAACGCCGTCCTCGTTTTAACGGGGAGGACGGAAGCGCTTGATGAAGACCGCTCCGCCCGCTTACGGCGCTTGGAAGCGTCGGGTGCCCGCGTACTGTATCAACCAGTAGATGTGACAGACAGGGCGGCGGTCACCGCCCTCGTCCGCGGCATACAGGAGGAGCACGGAACACTCGACGGGATCATTCACGGCGCAGGCGTGATCGCTGACAATTACATTCTGAACCAGACAGAAAACGAACGGAAGACCGTCATGGCGCCGAAGGTGAAAGGGCTTATCAATCTTGATGAAGTAGCGAAAGATGTGCGGCTGGACTTTTTCATCCTGTTTTCTTCCTTGGCGGGAGGAGTGGGAAATCCGGGGCAGGCCAGTTATGCGTCAGCCAACGCATTTATGGATGTTTATGCAGCCCGCCGAAACCGTCTCGTGCGGGACAACAAGCGGAGCGGGCAGACCCTGTCCGTTAACTGGCCGCTTTGGGAAGAAGGCGGTATGCGCGTGGACAAAGAGACAGAGCTTCTGATGTATGAACAGACCGGAATGAAAGCCATGCGATCGGCCTCAGGCATCCAAGCGCTTTACGCCGCTTTTGCCTCCGGAGAACACCAGGTCATGGTGGCAGAAGGCAACGAAAAACGGATTCGAAAAAACCTGATGCCTGAAGCGCCGGAACCGTCCCGTAGCATTCATGTGTCAAGGAAGACGCACGTCCATCTGCCGAATAAAGTACAAGCAGAACTCAAACATATGATATCAGGCATTCTGAAGGTGAAAGAAGACGAGATAGATGCTGAATCAGAGATGAGAGATTATGGCTTTGATTCGGTTTCATTCACGCAGTTTGCAAATGAACTAAATAAAACGTATGGGCTTGAACTGACACCGGCCGTGTTTTTTGAATACCCGACAGTCTTTAGTTTTGCCCAATACTTGCTGACGGAACATCCGGATACATTCGGCTCACAGGCAGAAACAGAAACGGAGAAACCGGTTGTGCGTAAAAAAATGAAGACGGAGCCATTCTCGATTCCGTCCCGCCTTCCTAAAACAAAAACCGCAGCTGCACCTGAGCCCGTGGCGATAATCGGAATCAGCTGTGCATTTCCAATGGCTGAAAATCCGGAAATGTTTTGGGAGAATTTAGCCGGAGAAAAGGACTGCATTTCTGAAATACCGCCGGAGCGCTGGGACTGGAGACAGTATTACGGAGATCCGCAGAAAGATAAAAATGCGAGCAATGTAAAGTGGGGCGGCTTCATTGATGAAACCGCTCAATTTGATCCTTTATTTTTCGGTATTTCTCCGCATGAAGCCGAAATGATGGATCCTCAGCAAAGACTTTTAATGATGCATGTATGGAAAGCGATTGAAGATGCCGGCTGCTCTGCCAAAAGCCTCTCAGGTACAAATACAGGCATTTTTGCAGGCACGACAAACAGCGGTTACGCCCAGGAAGCTTCAAAGTTCCATATAGAGATTGAGGGTTCTTCCGCCGCCGGAACGGTTCCGTCAATCGGTCCGAACCGCATGAGCTATTTTCTGAATATACATGGGCCGAGCGAACCGATTGAAACCGCCTGTTCAAGCTCATTGGTCGCTGTTCACCGTGCGGTCAGGGCAATTCAGGCCGGAGACTGCGGCATCGCGATTGCAGGAGGCGTCAATGCCATTGTGTCGCCGGATATGCATATCAGCTTTAATAAAGCGGGAATGCTCAGTGAAGACGGGCGCTGCAAAACATTTTCCGATCAAGCGGACGGGTATGTCAGAGCTGAAGGTGCCGGCATGATTGTTTTGAAAACATTATCCGCTGCGGAACGTGACGGCGACCGTATTTATGCCGTTATTCGCGGAACGGCGGAAAATCATGGCGGACGGGCGGCTTCCCTTACATCGCCGAATCCGAAAGCACAGACAGAAGTCATGATAAAAGCGTATCAGCAAGCGAACATCGACCCCCGTACAGTGAGTTATATTGAAGCCCACGGCACGGGAACGGCGCTCGGAGATCCGATAGAAATCAACGGACTCAAAGCGGCTTTTGCAGCGCTTTATCAGAAAGCCGGAGTAACGGCGCCCGATCAGCCTCATTGCGGCCTCGGTTCCGTCAAAACGAATATCGGCCACACAGAGCTTGCCGCCGGCATGGCCGGGCTTTTAAAAATTATTTTGCAGATGCAGCACAAAACGCTCATTAAAAGTCTGCATTGTGAAACCGTTAATCCGTATATCAGCCTCGACGGCAGCCCGTTTTATTTCGTCCGCGACACTCAGCCGTGGAAAGCGGCGACTGATGATAGCGGAAATGAACTGCCGCGGAGAGCGGGTGTCAGCTCGTTCGGATTTGGCGGTGTCAATGCTCATGTCGTGCTCGAAGAATATGTTTCTCCTGTTGAAGAGAAACAATGGACGGCCGGTGAACTTCAGCCGTCCTTATTCATTCTCTCGGCAAAGACGGCGGAACAGCTGAAGGAACGTGCGGAACAGCTGCGCAGATATTTGGAAAAGTCACATTCAGCTGACGGAGCTCTTGCGGGTATCGCTTATACGCTTCAGCTTGGCCGGGATGAAATGGAAGAGCGCCTTGCCGTCATTGCTGAAACAAAAGAAGAGCTTACGAACGCGCTGAATGATTTCCTCAGCGGCAAGGAGACGGGGCAGAATTTCTTTACAGGCCGGAACAAAGCGATGAAACAGCTGTTTACAGAGATGACGGACAACGCAGAAATGAGCGGGACCGTAGATCAATGGATGGAAGCAGGAAAGTATGCAATGCTTGCAAAATTATGGGTGCAAGGTTTACATGTCGACTGGAATAAATTATATCCGGACGAAAGGCCAAAAAAAGTCAGCCTGCCCGTCTATCCTTTTGCGAAAACACATTGCTGGATACCGCACAGAGCGCAGCATATAAGGCACCGGGAGACTTACGAGACTGATATGCCCCCGTTTGAGACTTATGAGCGCCTGCTTGATGAATTGGAGAGAAACGAAATAAGCATAGAAGCCGCTGTAAAAAGAACGATCGGTTTTTACAGGGATTAG	MKCINEFLRTVIAEKLGAEVTEAEDKTAFFTLGVTSLISEEIMTILHKEFTGLSETLLFEYPNIEKLSEFLSAQKRNPESVLEFKETEPDTGSRQEEVLPVQAAEKVPEPGTDRSSDIAVIGMSGTFPKAENQHDFWNNLMENKDCVSEIPEDRWDSSYYSEEKTAEYASYSKWGGFIDRPDRFDPLFFSVSPWEADLMDPQQKLYVTCCWEAMEDAGYGNPAARPTDQIGVFAGVTWNEYSLIAHEEGFLKDQYKGPGSLYWGIPNRVSYFLDLHGPSIAVDTACSSSLVAVHQACQAIMSGDCEMALAGGVNLSLHPQKYMFLSQSHFLSSEGKCRSFGEGGDGYVPGEGAGAVLLKPLKKAIADKDHIYGVIKGSATNHGGKTTGYTVPNPEAHRDLILSALNRAAVSPADISYIEAHGTGTALGDPIEIRGLSMAFDKQTDEKNDCGIGSVKSNIGHLEAAAGIAGLIKVLLSMKHETLPASLHSAELNRKISFSDSPFYVVRNNRPWPAEGDKPRIAAISSFGAGGSNAHLIVGAYQPKRQADKNTEQKPHAVVLSAHSEQQLKEYAGKLSSFLARLENLPSAGGYSLENIAATLLSGREPFSFRLAVIASSLSELKQRLDGFVSGHRDERHIYFGKASPGRPDVSGQSVSDPEKFAALWVKGLQGCKKPETPYQKVPLPTYPFLKETSWLTDQKKRYTKKPQNTKRREALHPLLDENISSARKGTFQKIFSKDEYFFKDHLVNEKYVLPGVCHLEMAAYGAGLWGERPVVSLQNVWYMEPIVTGTDPRSVMIEFEAEKERISYVIKEKGAAGTLFSQGEVICKEKGAPFEAQVFQLPALFSQRTEPKDIYHSFSEAGIVQKDSFQVIREFSYTERKALAKLTLPSHLEADFKQYILHPSLMDGAVQTAMAHVLQFQKEPALIVPFSFGEIQLLKPLAKTVFVHAEVKAASVHQFDLHICDERGVLLAAVKDFIIKEVQESAGFNQKAGVTPKKSRETELLMTPVWNTVTIPETDMSFMREEKIIVIGAGPDVQQALKEMYSDVRFPDITSLDSAEQMAETLKAQGSFQHMIWAAPDHPIPSVYDADTAEGQEHGVMQLFRLIKALLFLNFDTEQLSLTICTFQAQPIHEHDEVNPSHASIHGLAGSLAKEYTNWSIRLLDLESQRGDRHLPHVFSLPADPEGNPWVFRAGQWHRQQLAVCRPHADEPSLYRHGGVYVIIGGAGGIGEVWTEYMIQTYQAKIVWIGRRKKDTQIERKLKRLAALGPAPQYFSADAADYDSLKRAYDTIVKENGKVRGIIHSAIVLSDRSFANMEEDQFRASLSAKTDVSLQIARVAEGEPLDFLLFFSSMMSFQKAPGQSNYAAGCTFKDAFAKRISQKAPYAVKVVNWGFWGSVGVVASEQYRKRMERDGIASIEAPEAMKTLETLLSGPYDQLALIKTTDPVFMKDDLKEQVTVYPEKIPSALGQLAVNITQNDEAERVKASSVMSCMREMESLIEKILVSTLYEMGARLDETLPLFQSAAGITEQYSRWLKESFVFLNKLALAQEKTDLGEVWEEWERKKETWLRQKDMRAHVRLAEETLRVLPDILTGKLPATEVMFPDSSFRLVEGIYRNNIISDFFNDKLADTLIAVLRERLEKDPQAKIRILEIGAGTGGTSAAVMRKLKPYEAHIAEYCFTDISKAFLLHAEDIFGPEYPYVTYKIFNAEQPVSTEAPDIGTYDAVIATNVLHATKNIRSTLRHAKAMLQKNGQLFINEINSRTIFNHVTFGLLEGWWLYEDHDLRIPGCPGVEPAGWAEALSLEGFVHPLFPAEAAHDLGQQIIAAESDGTVRLALPQASEEKPERRPYDADGLSDDTLHFSLREKSVELMKKVIGEALKVPAHRLLSHEPLTAYGLDSILVVRLTNALKDVFGSVSSTLFFEYQTIDELADYFLSSRKEALERQFGNGPAHPENAGRVQAPAESAAPIPNVRERGITYLTELIGKTLKIPSGRMDPSVSLTAYGLDSILVVRLTNAFRNVFDQMTSTLFFEYQTIEEIADYLLLSQRGAFMKAMGVREEQLSDHTDNLNVKQNKIPQNEEGSRTNGDPYIRDIAVIGLSGRYPGADHVDELWENVKAGRHSITEVPKDRWDWKTFYNEERGKWGSIYSKWGGFLDDIDTFDPLFFRISPAEAERMDPQERLFLQTAYSSIEDAGYTPAALCDSRKIGVFVGVMNSNYPTVPSDWSIANRVSFLFNFQGPSMAVDTACSSSLTAVHLAIESLRSGMSETAIAGGVNLIVDPAHYERLSAFSMLSPGDKCKSFGDSADGFVDGEGVGAIVLKPLAQAEKDGDHIYGVIKGSMLNAAGRTNAYMVPNPKAQFDLIAETLKRTDIHPRTVSYLEAHGTGTALGDPIEIDGLTKAFRLTTEDRQFCSIGSIKSNIGHLESAAGIAGITKLLLQLKHKRIAPSLHAAELNPNIEFEHTPFFVQQKETEWKRPVLNITGEMKEYPRIAGISSFGAGGSNAHVIIQEYVPSDSLKPMETAAVSPQKPAVIILSARNEQQLTERARQLLDDLIRKKRSDGDLAKIAYTLQAGREPMAERLAFTAESIEELKMKLMSFSNDHNIDHAHIWRGRTAKHHSLAASLTSDEDMALTINAWLKKGKYGKLLDLWVKGLDVDWSVLYQRSPGRISLPAYPFAKDRYWVTKADVSLDKTGSAESEKAARLHPLLHANTSTFTAQRFTSVFSGHEPFFADHIVNGKPVLPGAAALEMARAAVTLAAEDLPGGKTGVRLKQIVWLRPVTALSEGVTLHVKLQPEENGDIAFEAYAEGEEPLVFFQGKAVLEETERAPVLDVEAVQARCGGRHLTKAECYEAFDSLGITYGPSHQALDAVYAGSGEVLAKLTLPPSAREEKEPFILHPSMLDAALQASIGLVLSDGSASGRPFLPFALRDMQVFSACRETMWAVLSSEDGAYHIELCNENGAVCVRLTGLTARFLEEETEEKPLLLQPEWRESPPDEGGGQEASFRYVRLYGGMNAEDISGAVCAADGEGPIEDRYDACAAELSAIVKRLIKEKQKKKTLIQLLVPDRGEDNVLAGLAAFLKTAHLEHPKLYGQVIQADPDESASSLLAKLKENRAHPEQAEIRYEAGKRLVRNWRHLPAPQSGTVPWKDEGVYLLTGGAGGIGLIFAEEIASRVKNAVLVLTGRTEALDEDRSARLRRLEASGARVLYQPVDVTDRAAVTALVRGIQEEHGTLDGIIHGAGVIADNYILNQTENERKTVMAPKVKGLINLDEVAKDVRLDFFILFSSLAGGVGNPGQASYASANAFMDVYAARRNRLVRDNKRSGQTLSVNWPLWEEGGMRVDKETELLMYEQTGMKAMRSASGIQALYAAFASGEHQVMVAEGNEKRIRKNLMPEAPEPSRSIHVSRKTHVHLPNKVQAELKHMISGILKVKEDEIDAESEMRDYGFDSVSFTQFANELNKTYGLELTPAVFFEYPTVFSFAQYLLTEHPDTFGSQAETETEKPVVRKKMKTEPFSIPSRLPKTKTAAAPEPVAIIGISCAFPMAENPEMFWENLAGEKDCISEIPPERWDWRQYYGDPQKDKNASNVKWGGFIDETAQFDPLFFGISPHEAEMMDPQQRLLMMHVWKAIEDAGCSAKSLSGTNTGIFAGTTNSGYAQEASKFHIEIEGSSAAGTVPSIGPNRMSYFLNIHGPSEPIETACSSSLVAVHRAVRAIQAGDCGIAIAGGVNAIVSPDMHISFNKAGMLSEDGRCKTFSDQADGYVRAEGAGMIVLKTLSAAERDGDRIYAVIRGTAENHGGRAASLTSPNPKAQTEVMIKAYQQANIDPRTVSYIEAHGTGTALGDPIEINGLKAAFAALYQKAGVTAPDQPHCGLGSVKTNIGHTELAAGMAGLLKIILQMQHKTLIKSLHCETVNPYISLDGSPFYFVRDTQPWKAATDDSGNELPRRAGVSSFGFGGVNAHVVLEEYVSPVEEKQWTAGELQPSLFILSAKTAEQLKERAEQLRRYLEKSHSADGALAGIAYTLQLGRDEMEERLAVIAETKEELTNALNDFLSGKETGQNFFTGRNKAMKQLFTEMTDNAEMSGTVDQWMEAGKYAMLAKLWVQGLHVDWNKLYPDERPKKVSLPVYPFAKTHCWIPHRAQHIRHRETYETDMPPFETYERLLDELERNEISIEAAVKRTIGFYRD	PGPT0010160_41	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010160-baeM|pksM|dfnI|dfnD|dfnF-K13613	NA	NA
D1-12_01445	738	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAATAACGGAAAAGTAGCGGTCGTCAGCGGAGGAAGCCGGGGGCTGGGAAAAGCGATTGTACAGACGCTTTTGGATGAGGATTACAAAGTAGCCGCTTTCAGCCGCAGTGAATCTGATTTTATTAACACATTGAGAGAGAGTGAAAAGTACCGCGGCCGCTTTTATTGGGAAGCGGCGGATGCGGCGGATGCCGCCGCCATGAAACAGTTTGTTCTTCAAGTATACCGCAAGTTTTCCAGAATAGACGGCTTGGTCAATAACGCCGGTTTGAACCTTGATCAGCTTCTGCCCCTGACCAATGATGAAGACATTGACCGCATCCTCAATCTGAATATCGGCTCAGTCATCAAGCTGACCCGAAACGTTTCCCGGGTCATGCTGAAACAAAATTCCGGATCAATCGTTAACATAAGCTCCATTATCGGCTCAAGAGGATTTAAAGGCACTTCAGTCTACAGCGCATCCAAAGCGGCTCTTGACGGCTTGACGCGAAGCCTGGCCAGGGAGCTCGGGTCTAAAGGAATCCGTGTCAATTCACTTGCGCCCGGTTTTGTGGACACCGATATGACGAAAAATATGCCGGAAAAACAAAAATCGCAGATTATCAGAAGGACGCCGATGGGACGTTTAGGCGAAACAGACGATATGACCGGACTCGTTCGTTTCCTGCTTTCTCCTGAATCGTCCTTTATGACCGGACAGACAATGGCGATAGACGGCGGATTAACTTGTTAA	MNNGKVAVVSGGSRGLGKAIVQTLLDEDYKVAAFSRSESDFINTLRESEKYRGRFYWEAADAADAAAMKQFVLQVYRKFSRIDGLVNNAGLNLDQLLPLTNDEDIDRILNLNIGSVIKLTRNVSRVMLKQNSGSIVNISSIIGSRGFKGTSVYSASKAALDGLTRSLARELGSKGIRVNSLAPGFVDTDMTKNMPEKQKSQIIRRTPMGRLGETDDMTGLVRFLLSPESSFMTGQTMAIDGGLTC	PGPT0003180_17260	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
D1-12_01446	1365	menE_1	COG0318	2-succinylbenzoate--CoA ligase	ATGAAAACAGAAAGCGGGGGAGATATCAGCTGGGTGACTGATAAGCTTAGGGAAACGCAAGACAGTGAGTTTCTCATTTTTAAAGGGCAGACTTTTACGTATGATGATTTGCTGACACGAATCAGCTTTTTTCAGAAAGAGCTTGAACAAAACGGAATACGTGAAGGAGAATGTGTGGCGCTTATCGGGGATTATTCCCCGAACGCCATTTTTTTGCTGATGACGCTTTTGTTAAACCGAAATATCGTTGTCCCTCTCAGTAATGAGTCAAGGGAAAAGCATCTCGATATGTTTGAAGACGCGAAAGTGAATCAAATCATTGAAATAAATGAAAATGACAGCTGGACGCTTCGTGAAGGTTCTGAAAGCGCCGCTCACCCTCTGCTTGATGATCTGCGCGAGAGAGGGGAGTCAGGCATTATTATTTTCACATCGGGAACCTCCGGCAAAAGCAAAGCATCCGTGTTAAGCGCCGGCCGGCTGCTTGAAAAATATAAAACGGCGAAGAGAAAACCGCTGCGTACACTTATTTTTCTGAAATTGGATCATATAGGCGGCATTAATACGCTGTTTGCGATTCTGTTTAACGGGGGGACGATCGTCACATCAGACAGCAGAACGCCGGAGTCCGTTTATCAGGCGGTCGACAAACATGCTGTCCAAGTGCTCCCCGCCACCCCGACCTTTTTAAACATGCTGCTGATGTCCAAGGCGGATGCCGGATATAACCTCTCTTCACTCCGGCTGATCACTTACGGCACAGAGCCGATGCCCCAATCAACGCTGCGCGGCATCCACCGGCTGTTTCCGGATGTACGGCTGAAACAAACATACGGATTAACTGAACTGGGTATATTCTCAACGAAATCAAAAGACAGCCAATCCACTTGGATGAAAGTGGGCGGTGCCGGAACAGAGACCAAAATTACCGGAGGCACGCTTTGGGTCCGTTCTGAGTCGGCGATGCTCGGCTATTTAAACGCACCGTCACCTTTCGATGAAGACGGCTGGTACGACACCGGTGACCAGGTGGAAACAGACGGCGAATATATAAGAATTCTCGGAAGAAAGAGTGAAATCATTAATGTGGGCGGAGAGAAAGTGTTTCCGGCAGAGGTGGAAAGCGTCTTTCTGGAGATACCGAATGTCCGGGATGTTCTCATAACGGGCAGAAAAAATCCGATTACGGGCGAGATTGTCGCGGCAGAGGCCGTGCTTGAAAAAGAGGAAGATATCAAATCTTTCAGAAAGCGGGCCGTAGCTCATTGCAGACAGAAGCTGCAGCCATATCAGATACCGCAGATCATCTCTGTTACAGATCGGAAACTGTCTAATGATCGATTTAAAAAAATAAGAAACGTGTAA	MKTESGGDISWVTDKLRETQDSEFLIFKGQTFTYDDLLTRISFFQKELEQNGIREGECVALIGDYSPNAIFLLMTLLLNRNIVVPLSNESREKHLDMFEDAKVNQIIEINENDSWTLREGSESAAHPLLDDLRERGESGIIIFTSGTSGKSKASVLSAGRLLEKYKTAKRKPLRTLIFLKLDHIGGINTLFAILFNGGTIVTSDSRTPESVYQAVDKHAVQVLPATPTFLNMLLMSKADAGYNLSSLRLITYGTEPMPQSTLRGIHRLFPDVRLKQTYGLTELGIFSTKSKDSQSTWMKVGGAGTETKITGGTLWVRSESAMLGYLNAPSPFDEDGWYDTGDQVETDGEYIRILGRKSEIINVGGEKVFPAEVESVFLEIPNVRDVLITGRKNPITGEIVAAEAVLEKEEDIKSFRKRAVAHCRQKLQPYQIPQIISVTDRKLSNDRFKKIRNV	PGPT0010174_56	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-DIFFICIDIN_METABOLISM,PGPT0010174-dfnB-NA	NA	NA
D1-12_01447	273			hypothetical protein	ATGGAACAAACCAAGGAAATGAAGCAGATCATCGCTCAAATCATTCAGGACATTCAAGAACAGCAGTCATATCGGGCCGTCGAAGCGGGAGATGATGTGAGAGTCATAGAGGATCTGGGCTTCTCATCACTGGATATCGCTCAATTAGTCGCACAGATGGAGATGGAAACCGGAGTAGATCCTTTTTCCCAAGGAGAAACGATTTCCAGCATTACAACCGTCGGCAGCATTTGTGATATTTATCAAAAATATATGGACAGTGCTCAATCATGA	MEQTKEMKQIIAQIIQDIQEQQSYRAVEAGDDVRVIEDLGFSSLDIAQLVAQMEMETGVDPFSQGETISSITTVGSICDIYQKYMDSAQS	PGPT0010178_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-DIFFICIDIN_METABOLISM,PGPT0010178-dfnX-NA	NA	NA
D1-12_01448	981			hypothetical protein	ATGCTGATTGAAAATCATGAATTAACGATGAGCCATGTCGGGTTAGGGAATTTGAATGAGTACGCGCTGCTGCTGTTATTCGGCAACGCACACAGTCACCATTTAACGGACGGAACGGGATTCCGGCCTGATCAGATGGCCGATCACCAAGGGCTGATTTTGTATCCGGCTTATTTTATGACACATCTCAAAGTTCCTTCAGATAAGCCTCTTGATCAGTACCGATTATGGGACGAGGTTTCCGTCGGAGTCGATATCTCCCGGTTTGGAGAAACCATATTAGAATCTGATTATTTGTTCGGGCCGAAAGGAGCGGTCAGCTCTGATAAAAGCGAGTGGGACCGGGGACGGTTTCCTTCTATGAAAGCCAATAGTTTAATTGTCGTCGACGTCACACAAACAGAAGGTTCGACCCGAAAAGTCTCAGCGCCTAAGGCTGAATGCATTGCGGAACTTTCTAAGCTAGCCAAGCCGCCTTACGCGCTGATGCGGTCAAAGAAAATCAGAACGGACGCCTTCGGTATGAAGCCGGGCAATCTCAAAACAGCAGACCCCGTTTCATATCGGGTTCCTGTTGATCAGGATGCTGCGCCGGGGCATGCCATGGTGTTTGCGAAATTCAGCAAGATAATGGATGCGGCGGAATTTGAATGGATGACGCGCCGGTCGAAGCCGGGTTTTCCGGTTTCAATCGCGCGGCATTTATTTTTGCTTGAAAGAGAGACGTATTATTACGGAAATTGTTTTGCAGATGAAGAGCTTGATATTTATATGACGGGACACATTGAAGAATGCGATCCCGACTTTCACGGTGAGTCCCTCGGTATGATCTCAGTGGCGAAAATCAGCTATCAGATTGAAGTCTATATGAAAAGAAATCATACATTGCTGGCCATTTCCAAGGTGGATAAGCTGCTGGCGGTGCCGACCTCTTCACAAGATCATATTCCGGATTATAAACGGGTCATCAGGAGTTTATAA	MLIENHELTMSHVGLGNLNEYALLLLFGNAHSHHLTDGTGFRPDQMADHQGLILYPAYFMTHLKVPSDKPLDQYRLWDEVSVGVDISRFGETILESDYLFGPKGAVSSDKSEWDRGRFPSMKANSLIVVDVTQTEGSTRKVSAPKAECIAELSKLAKPPYALMRSKKIRTDAFGMKPGNLKTADPVSYRVPVDQDAAPGHAMVFAKFSKIMDAAEFEWMTRRSKPGFPVSIARHLFLLERETYYYGNCFADEELDIYMTGHIEECDPDFHGESLGMISVAKISYQIEVYMKRNHTLLAISKVDKLLAVPTSSQDHIPDYKRVIRSL	PGPT0010179_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-DIFFICIDIN_METABOLISM,PGPT0010179-dfnY-NA	NA	NA
D1-12_01449	2259	pksE_2	COG0331	Polyketide biosynthesis protein PksE	ATGCTTACGTTTGTGTTCCCGGGGCAGGGTTCTCAATTTAAAGGAATGGGAGCCGGACTGTTTGATGAATTTCAAGATCTGACACGTCAGGCTGATGACATATTAGGCTACTCTATAGAAGAATTGTGTCTGGAGGATCCGAATCACCAGCTGGGGAAAACGCAATTTACCCAGCCGGCGTTATATACGGTGAGTGCACTCAGTTATTTAAAGAAAATGAAAGAGTCCGGCAGAGAGCCTGATTACGCCGCAGGGCACAGTTTAGGAGAATATAATGCGTTATTTGCGGCCGGCTGCTTTGATTTTGAGACCGGTTTGCAGCTTGTTAAAAAAAGAGGGGAGCTCATGAGCAAGGCAGCTCCCGGAGGCATGGCGGCGGTTTTGGGGTTTACGGCTGAACAAGTAAAAGAGGTTCTATCCGATTATCATCTGACCGGCATTGATATCGCTAACCACAATTCACCTTCGCAAATTGTGATCGCCGGAACGAAACAAGACATTGAAAAAGCGGGCCCCGTCTTTGAAAAAGCCGGCGTGAGAATGTACCTTCCTTTAAATGTGAGCGGCGCCTTCCATTCCCGCTATATGAAAGATGCTGAAAAAGAGTTCGCGGATTATTTAGAAGAAACGGCGTTTTTGCCTCTTCGTTTTCCGGTGATCTCAAATCTTCATGCCGCACCTTATAAGAATGATGAAATCAAAACAAATCTGACTTTGCAAATGACCAATCAGGTAAAGTGGACGGACACGATACGCCGTCTGATGGGACTTGAAAATAATGAAATTGTAGAAGTCGGGCCCGGGGAAGTGCTGACAAAACTGACGCGTCAGATTAAAAAAGATGCCGTCCCATTACCTATGCCGAAAGAAGAGTCTGATACTGCTGATGTTAAAGCATCGGCAGCTGATTCGCAAAAAACGGCGGGAATGAGATTAGGGAACGAAGATTTTAAAAAAGATTATAACATCCAATATGCTTACATGACGGGCTCCATGTACAGGGGAATTGCTTCGGAACAGATGGTCATTAAAGCGGCAAAAGCGGGAATGCTGGGCTTTTTCGGAACGGGCGGATTGAGTATCGAACGGATCGGACAGGCCATCGGAACCATCCGGTCTGCACTGCGGCAAGGGGAAACATTCGGAATGAATCTTCTTCATCATATGATGTCACCTGACAAGGAAGTCAGAATGATAGATTTATATTTGAAAAACGGCATTCATCTTATTGAAGCATCGGCATTTATGGGCATAACCCCCGCTCTCGTGATATACAGGGCAAAGGGATTAAGCAGGAATCATGACGGGTCGGTGTCAGTTCAAAACAGAATCATCGCGAAAGTATCCCGGCCTGAAGTCGCTGAGGCCTTTCTAAGTCCGGCTCCGGCTCATGTGCTGGAAAGACTTGTGTCTGACAATCGGCTGACAGCCGGGGAAGCGGCGCTTGCAAAAGAAATTCCGATGGCTGATGACATTTGCGTTGAAGCGGATTCAGGAGGGCATACCGACCAAGGGATTCCGTATACATTAATGCCTGCCATGATCAGACTCAGAGACCGCATGATGGAGAAGCACGGTTATGCGAAAAAAGTAAGAATCGGCGCAGCCGGGGGCATCGGCACTCCGGAAGCGGCTGCTGCGGCGTTTCTGCTCGGCGCCGAATTTATCGGAACCGGTTCTATTAATCAATGCACGGTCGAAGCCGGGACAAGTGATTCAGTGAAAGATCTGCTTCAGGAAGCGAACGTGCAGGATACGTCATACGCTCCCGCGGGAGATATGTTTGAAGCGGGAGCAAGGGTGCAGGTGCTGAAAAAAGGCCTGTTTTTCCCGGCAAGAGCCAATAAACTCTTTGACTTGTACAGACAATACAATTCTTTAGATGAAATAGATGAAAAAACGAAAACATTAATTGAAGAAAAGTATTTCCAGCGCAGTTTTGAAGAAGTGTATGAGCAGTTGAAACGTGATAAATCTCCTGAACAGATCGCCAAAGCCGAACAGAATCCGAAACACAAAATGGCGATGGTATTTAAATGGTATTTTTCTCATACGACAAGGCTCGCTCTGGAAGGAAAAAGCGAAAGTAAAATAGATTACCAAATTCATTGCGGCCCTGCGCTCGGCGCGTTTAATCAATGGGTGAAAGGAACCCCGCTTGAAAATTGGAGAAACAGGCATGTCGATCTGATCGGCAAACAGCTCATGGAAGAAACAGCCGGCCTTCTTGCGCAAAGGCTGGAATCGATTACAGGCTGA	MLTFVFPGQGSQFKGMGAGLFDEFQDLTRQADDILGYSIEELCLEDPNHQLGKTQFTQPALYTVSALSYLKKMKESGREPDYAAGHSLGEYNALFAAGCFDFETGLQLVKKRGELMSKAAPGGMAAVLGFTAEQVKEVLSDYHLTGIDIANHNSPSQIVIAGTKQDIEKAGPVFEKAGVRMYLPLNVSGAFHSRYMKDAEKEFADYLEETAFLPLRFPVISNLHAAPYKNDEIKTNLTLQMTNQVKWTDTIRRLMGLENNEIVEVGPGEVLTKLTRQIKKDAVPLPMPKEESDTADVKASAADSQKTAGMRLGNEDFKKDYNIQYAYMTGSMYRGIASEQMVIKAAKAGMLGFFGTGGLSIERIGQAIGTIRSALRQGETFGMNLLHHMMSPDKEVRMIDLYLKNGIHLIEASAFMGITPALVIYRAKGLSRNHDGSVSVQNRIIAKVSRPEVAEAFLSPAPAHVLERLVSDNRLTAGEAALAKEIPMADDICVEADSGGHTDQGIPYTLMPAMIRLRDRMMEKHGYAKKVRIGAAGGIGTPEAAAAAFLLGAEFIGTGSINQCTVEAGTSDSVKDLLQEANVQDTSYAPAGDMFEAGARVQVLKKGLFFPARANKLFDLYRQYNSLDEIDEKTKTLIEEKYFQRSFEEVYEQLKRDKSPEQIAKAEQNPKHKMAMVFKWYFSHTTRLALEGKSESKIDYQIHCGPALGAFNQWVKGTPLENWRNRHVDLIGKQLMEETAGLLAQRLESITG	PGPT0010125_126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE|DIFFICIDIN_METABOLISM,PGPT0010125-baeE|pksE|dfnA-K15329	NA	NA
D1-12_01450	531	nusG_1	COG0250	Transcription termination/antitermination protein NusG	ATGAAATGGTACGCACTTTTTGTAGAGTCCGGAAAAGAAGAAGCAGTTCAAAAATTTCTGCGTCTGCAGTTTGATGAGCAGGCTCTCTACTCAATCATACCCAAGAAAAAAGTCACAGAACGAAAAGCCGGAATCAAATACGAGGCACTCAAAAAGATGTTTCCGGGATATGTGCTGTTTAAAACGAAGATGACAGAGCGGACATTTCATAAAATCAAAGAACTCCCCATTTCATGCAGAATCGTGAATAACGGCGCATATTATTCCAAAGAGCGTAAAACCTATTTCACGACAATTAAGGATGAAGAAATCCTCCCTATTATCAGGCTGATCGGAGAAGGAGACACTGTAGATTATTCAAAAGTCTATATTGAAAATTCAAAAGTAACCGTTGCCTCAGGGCCTCTTAAAGGAATGGAAGGCATTATTAAAAAGATCGATAAAAGGAAAAGACGCGCCAAAATCTGCCTGTCTTTTATGGGACTGGACAAAATGGTCAACGTCGGAATTGAAGTGCTCTCCAAACCCTAG	MKWYALFVESGKEEAVQKFLRLQFDEQALYSIIPKKKVTERKAGIKYEALKKMFPGYVLFKTKMTERTFHKIKELPISCRIVNNGAYYSKERKTYFTTIKDEEILPIIRLIGEGDTVDYSKVYIENSKVTVASGPLKGMEGIIKKIDKRKRRAKICLSFMGLDKMVNVGIEVLSKP				NA	NA	NA	NA	NA
D1-12_01451	879	argP		HTH-type transcriptional regulator ArgP	TTGGATTTAAAGAAGCATTTAGCCTTTATTAAAACGGTTGAAAGCGGCAGCCTGACCCAAGCCGCTGCCATATTGAATTACACACAGCCGAACATCAGCCAAATGATCAGTAAATTAGAGGAAGAGTACGGTTTTCCGCTTTTGATCAGACAGCGGCATGGAGTGAGGCCGACCGCAAATGGCTTGAAAGTGTTACATATTATGAAGGAAATTCAAAAAAACTATGAAAAACTGTCTGAAACCGTTGATAATATTAATGGGTTAGAAAGAGGGGAAGTCCGGCTCGGCACTGTTACGAGCGTGGCTGTAAAATGGCTGCCGAAAATTTTGAGGGAATTTAATGAGCTGTATCCTTCCATTAAGGTGCATTTGTTTGAAGGAAATTCTACTGAACTGGAAGAATGGCTGAAAGATGACCGGATTGATGCGGCGATCGGGACATCCCACAGCGAGAAGTGGCATTTTTACCCGTTGGCAGAGGACCCGATTGTAGCGGTGATGAGCCCGCAGCATGAGTTGGCGCAATGTGAAACGGTTCCGTTACATGTCATGGAGTCCGTCAAATGTATCGTGCCTTATCCGGAGACACATTTTGATGTGCTGAAAGTGCTGAAGGAAGAAAAGATCACGCCGCGGGTCGCTTATCAAATCAGAGGGGATGAAGCGATTATTGCAATGGTGCGGAACAATCTGGGGATCAGCATCTTGCCGCAGCTTTTGGTGAATGATTGTGATGTGCTCATCAAACGGTTCGACCGGTATGTCTCCAGGCAGCTCGGCATTTTGACAGCTCATGCAAAGGAGACGCAGACACCTTCTGTCCAGAAACTGATTCAATGCATACAAGAATGGGTTGCGGTCCATCAGGCTTCTGTCTGA	MDLKKHLAFIKTVESGSLTQAAAILNYTQPNISQMISKLEEEYGFPLLIRQRHGVRPTANGLKVLHIMKEIQKNYEKLSETVDNINGLERGEVRLGTVTSVAVKWLPKILREFNELYPSIKVHLFEGNSTELEEWLKDDRIDAAIGTSHSEKWHFYPLAEDPIVAVMSPQHELAQCETVPLHVMESVKCIVPYPETHFDVLKVLKEEKITPRVAYQIRGDEAIIAMVRNNLGISILPQLLVNDCDVLIKRFDRYVSRQLGILTAHAKETQTPSVQKLIQCIQEWVAVHQASV				NA	NA	NA	NA	NA
D1-12_01452	324			hypothetical protein	ATGAGTTTTCTCATTCAATTTTTTATCGGCGGCACTGTTATGGTGGCCGCCGCGTATTTAAGCAAATCGAAATACTTATTTTTATCCGGCGTTATTACATTGCTGCCAATCATGACGCTACTGAATATTCACTTGCAGCTGAAAAATATGAGCCCCGACGATTTCAGAGCCGCTCAAAAAAACGGAATATTCGGTGCCTTCGGCGCGGTGATCTTCATCAGCAGTATTTTCATCCTGACAAACTGGTTCAAAGGAGGCCACGCAGTCATCGGTGCGTTTCTCATCTATATTTGCTATATGATCGGCTGTAAATGCCTGTTATGA	MSFLIQFFIGGTVMVAAAYLSKSKYLFLSGVITLLPIMTLLNIHLQLKNMSPDDFRAAQKNGIFGAFGAVIFISSIFILTNWFKGGHAVIGAFLIYICYMIGCKCLL				NA	NA	NA	NA	NA
D1-12_01453	1017	namA	COG1902	NADPH dehydrogenase	ATGGCCAGAAAATTATTCACACCATGGACCGTTAAAGATGTAACGATCAAAAACCGTATTGTTATGGCACCGATGTGCATGTATTCCTCACATGAGAAGGACGGAAAACTGCAGCCTTTTCATATGGCGCACTATATATCGCGTGCAATCGGCCAGGTCGGCCTGATTATCGTGGAAGCGACAGCCGTTAATCCGCAGGGGCGCATTTCCGATCAGGATTTAGGCATTTGGAGCGATGATCATATCGAAGGTTTTGCCAAACTGACGGAACAAGTGAAAGCGCAAGGATCTAAAATCGGCATTCAGCTTGCGCACGCCGGACGTAAAGCTGAGCTTGAGGGAGACATTTACGCTCCGTCAGCCATTCCGTTCGATGAGCAGTCCAAAACACCGGCTGAAATGACGACAGAACAAATTAAAGAAACCATTCAGGAATTCAAACAGGCAGCGGCGCGCGCGAAAGAAGCCGGCTTTGACATTATTGAACTTCATGCGGCACACGGCTACTTAATGCACGAATTTTTGTCCCCTCTGTCCAATCACCGTACAGACGAATACGGAGGCTCACATGAAAATCGCTACCGCTTCTTAGGCGAGACCATTGAAGCCGTCAAGGAAGTCTGGGACGGCCCGTTATTTGTCCGTATTTCTGCATCGGATTATACAGACAAAGGGCTGGACATTGCGGATCATATCGGTTTTGCGAAGTGGATGAAAGAACAGGGAGTCGACCTCATTGATTGCAGCTCAGGCGCACTCGTTCAAGCTGATATTAACGTCTTCCCAGGCTACCAAGTGAGCTTTGCGGAGAAAATCCGTGAACAGGCCGAAATCGCAACAGGCGCCGTCGGTTTGATAACGACGGGAACAATGGCGGAAGAAATTCTGCAAAACAACCGCGCTGACCTTATTTTTGTCGCGAGAGAACTTCTGCGCGATCCGCACTTTGCAAGGAGTGCAGCGAAGCAGCTGAATACTGAAATACCGTCACCGGTTCAATACGACAGAGCATGGTGA	MARKLFTPWTVKDVTIKNRIVMAPMCMYSSHEKDGKLQPFHMAHYISRAIGQVGLIIVEATAVNPQGRISDQDLGIWSDDHIEGFAKLTEQVKAQGSKIGIQLAHAGRKAELEGDIYAPSAIPFDEQSKTPAEMTTEQIKETIQEFKQAAARAKEAGFDIIELHAAHGYLMHEFLSPLSNHRTDEYGGSHENRYRFLGETIEAVKEVWDGPLFVRISASDYTDKGLDIADHIGFAKWMKEQGVDLIDCSSGALVQADINVFPGYQVSFAEKIREQAEIATGAVGLITTGTMAEEILQNNRADLIFVARELLRDPHFARSAAKQLNTEIPSPVQYDRAW	PGPT0005575_429	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0005575-namA-K09461	NA	NA
D1-12_01454	774	rutD_2		Putative aminoacrylate hydrolase RutD	ATGAAAGCAGCATGGATGGAAAGGACATATCTGATTGACGGGTGTCCGTTTTATACGAAACACCGTAAAGGCGCCGGCGAAGTGACGATCGTCTTTGAAGCCGGCTACGGCACTTCTTCTGAAACATGGACATCATTACTCGCTGACATAGATGAAGAATTTGGGGTTTTCACATATGACAGAGCCGGAATCGGCAAAAGCGGACAAAGCCGAAACAAGAGAACGGCGGACCACATGGTACAGGAATTAAACGCTCTTCTTCTGAAGGCCGGCGTCAAGCCTCCTTATCTTGTCGTCTCGCATTCATACGGCGCGATTATCAGCAGACTTTGGGCGAGCCGGAACCGCCGGGATATTCTCGGGATGGTGATGCTTGATCCGGTTTCTGAGGATCAGGAGACGAAAGTGCTTCCGCTTCTTCCCGAAGAAATGAAAGCCGCCTATTTGAAACAGTTCATATTGGAAGGATCACACGCGGAATTTTTGACGAGCCTTCGTCAGATCAAGCATCAGCAGATTCATTTCGGCGATATGCCGCTGTTGATTTTATCATCGGGAGAGCGGGATGAGCACTTAAAGCACGCTCATGAACAATGGGTGAAACTGCACAGAAGCATGCTTGATGTCTCTTATCAAAGCGGATGGATTCAGGCCAAAAACAGTTCTCATGCCATTCACCACGATGAACCGCACATCGTCCACCTTGCCATTTATGATGTTTGGTGCGCGGTGCGCCAGCAAATGAATGCTCCTGCCTATCAGGCGGTAAACTGA	MKAAWMERTYLIDGCPFYTKHRKGAGEVTIVFEAGYGTSSETWTSLLADIDEEFGVFTYDRAGIGKSGQSRNKRTADHMVQELNALLLKAGVKPPYLVVSHSYGAIISRLWASRNRRDILGMVMLDPVSEDQETKVLPLLPEEMKAAYLKQFILEGSHAEFLTSLRQIKHQQIHFGDMPLLILSSGERDEHLKHAHEQWVKLHRSMLDVSYQSGWIQAKNSSHAIHHDEPHIVHLAIYDVWCAVRQQMNAPAYQAVN	PGPT0014528_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014528-yqjL-NA	NA	NA
D1-12_01455	927	rnz	COG1234	Ribonuclease Z	GTGGAATTATTATTTTTAGGGACGGGGGCCGGCATGCCGGCAAAGACGAGAAACGTAACGTCCGTCGCGCTGAAGCTTCTTGAAGAAAGGCGTTCCGTATGGCTGTTTGATTGCGGAGAAGCCACTCAGCATCAGATATTACATACAACAATCAAACCGAGGAAAATTGAAAAGATTTTCATCACCCACCTTCACGGCGACCATGTTTACGGTCTTCCGGGTCTGTTGGGGAGCCGTTCATTTCAGGGCGGTGAAGAAGAGCTGACGATTTACGGGCCAAAAGGCATTAAAGCCTTTATCGAAACAAGCCTGAACGTGACGGCGACTCATCTGACGTATCCTCTTACCGTACATGAAATCGAAGAGGGGACGGTTTTTGAAGATGAGCACTTCATTGTTACCGCAGCATCCGTCATTCACGGTGTGGAAGCGTTCGGCTACCGGGTTCAGGAAAAGGATATTCCCGGCGCATTGCAGGCCGGCAGATTGAAAGAAATGAATATCCCGCCCGGACCCGTCTATCAGAAACTCAAAAAAGGCGAAACGGTCACACTTGACGATGGCAGAATCATTAATGGGCGGGATTTTCTGGAATCCCCGAAAAAAGGGAGAATCGTCGCTTTTTCCGGGGATACGAGGGCATCAGAGCGGGTAACGGAGCTTGCGCGCAATGCGGATGTGCTTGTTCATGAAGCGACGTTTGCCAAGGAAGATGCAAAGCTCGCACATAATTATTATCACGCGACCACAGAACAGGCTGCGCAAACGGCAAAAAAAGCAGGCGCCAAACAGCTGATCTTAACTCATATCAGCGCAAGGTATCAGGGTGAATCGCCGATAGAGTGTCTCGAACATGAGGCGAAAGCGGTATTTGAGAACAGTAAGATCGCATTTGACTTCATGGAGGTCACTGTGGAGCGGTCTTAA	MELLFLGTGAGMPAKTRNVTSVALKLLEERRSVWLFDCGEATQHQILHTTIKPRKIEKIFITHLHGDHVYGLPGLLGSRSFQGGEEELTIYGPKGIKAFIETSLNVTATHLTYPLTVHEIEEGTVFEDEHFIVTAASVIHGVEAFGYRVQEKDIPGALQAGRLKEMNIPPGPVYQKLKKGETVTLDDGRIINGRDFLESPKKGRIVAFSGDTRASERVTELARNADVLVHEATFAKEDAKLAHNYYHATTEQAAQTAKKAGAKQLILTHISARYQGESPIECLEHEAKAVFENSKIAFDFMEVTVERS				NA	NA	NA	NA	NA
D1-12_01456	1470	zwf	COG0364	Glucose-6-phosphate 1-dehydrogenase	GTGAAAACAAACGACAAACCAAAAGCAGTAATTGTAATATTTGGTGCCACAGGGGATTTGGCAAAACGAAAACTTTACCCATCCATTCACCGTTTATATAAAAATGGTCAAATTGGTGAAGAGTTTGCAGTTGTAGGTGTTGGAAGAAGACCTTGGTCAAACGAGGACCTCCGGGAAACGGTTAAAACGTCTGTTTCTTCTGCCGGGCAAAAAGACATAGACGATTTCACATCTCATTTTTATTACCATCCGTTTGATGTAACGAATCCGGGTTCCTATCAGGAGCTGAATGTCCTGCTTGATCAGCTTGAACATACATATGAAATCCCGAACAACAGAATGTTTTACTTGGCGATGGCTCCTGAGTTTTTCGGCACGATCGCAAAATCACTTAAAAACGAAGGTGTCACAGCGACAAATGGCTGGTCCCGTCTCGTCATTGAAAAACCGTTCGGCCATGATCTGCCGAGTGCGAAAGAGCTTAACAAAGAAATACGCGAAGCTTTCACGGAAGATCAAATTTACCGGATCGACCATTACTTAGGCAAACAAATGGTTCAAAATATCGAAGTCATCCGGTTTGCAAATGCGCTGTTTGAGCCGCTGTGGAATAACCGCTACATCTCAAACATCCAGATTACATCAAGTGAGGATCTCGGCGTTGAAGATCGCGCGAGATATTATGAAAAATCAGGCGCACTCCGTGATATGGTTCAAAACCATATTTTACAAATGGTCGCTCTCTTGGCAATGGAACCGCCGATTAAACTGAACACGGAAGAAATCCGCAGCGAAAAAGTGAAGGTGCTGAGAGCTCTCCGCCCTGTCGCTCCAAACGAAGTGAGTGACTACTTCGTCCGCGGACAATACCAAGCGGGAAAGATTGACGGAAACGCTGTACCGAGCTATACAGATGAACAAAATGTAGCACCGGATTCCAATACGGAAACATTCGTGTCCGGAAAGCTGTTAATCGATAACTTCCGCTGGGCCGGCGTTCCGTTTTATATCCGCACAGGGAAACGGATGAAAGAAAAATCAACGAAAATCGTCGTTCAATTTAAAGACATTCCGATGAACCTTTATTACGGCAATGAAACGAATGTAAATCCGAACCTGCTTGTCATCCATATTCAGCCGGATGAAGGCATCACACTATATCTGAACGCTAAAAAATTAGGCGGAGCCGCTCATGCTCAGCCGATTAAGCTGGATTACTGCAGCAACTGCAGTGATGAAATGAACACACCGGAAGCCTATGAAAAATTAATCCATGACTGTCTGCTCGGTGATGCGACAAACTTTGCCCATTGGGACGAAGTGGCGCTTTCCTGGAATTTCGTCGATGCGATTTCCGAAACGTGGGCAGCCGACAAAACCCTTTCTCCGAATTATGAAGCCGGGTCAATGGGACCGAAAGCTTCGGACGATCTTCTTGAAAAAGACGGCCTCCACTGGTGGAATATATAA	MKTNDKPKAVIVIFGATGDLAKRKLYPSIHRLYKNGQIGEEFAVVGVGRRPWSNEDLRETVKTSVSSAGQKDIDDFTSHFYYHPFDVTNPGSYQELNVLLDQLEHTYEIPNNRMFYLAMAPEFFGTIAKSLKNEGVTATNGWSRLVIEKPFGHDLPSAKELNKEIREAFTEDQIYRIDHYLGKQMVQNIEVIRFANALFEPLWNNRYISNIQITSSEDLGVEDRARYYEKSGALRDMVQNHILQMVALLAMEPPIKLNTEEIRSEKVKVLRALRPVAPNEVSDYFVRGQYQAGKIDGNAVPSYTDEQNVAPDSNTETFVSGKLLIDNFRWAGVPFYIRTGKRMKEKSTKIVVQFKDIPMNLYYGNETNVNPNLLVIHIQPDEGITLYLNAKKLGGAAHAQPIKLDYCSNCSDEMNTPEAYEKLIHDCLLGDATNFAHWDEVALSWNFVDAISETWAADKTLSPNYEAGSMGPKASDDLLEKDGLHWWNI	PGPT0017380_3985	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-12_01457	1410	gndA	COG0362	6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating	ATGTCAAAACAACAAATCGGAGTTATCGGTCTTGCGGTAATGGGTAAAAATCTGGCTCTTAACATCGAAAGCCGGGGATTTTCTGTGTCTGTATACAACAGATCAAGCAGCAAAACGGAAGAGTTTTTAGAAGAGGCAAAAGGCAAAAATGTTGTCGGTACATACAGCATTGAGGAGTTTGTCCAGTCTCTTGAAACACCCCGTAAAATTTTATTAATGGTTAAAGCGGGAACTGCAACGGATGCGACGATTCAATCTCTTCTTCCTCATCTGGAAAAAGACGATATTTTAATTGACGGCGGAAATACATACTATAAAGATACACAGCGCCGGAACAAAGAGCTTGCCGAAAGCGGCATTCACTTTATCGGAACGGGTGTATCAGGCGGTGAAGAGGGAGCGCTGAAAGGGCCTTCTATTATGCCAGGCGGCCAAAAGGAAGCGCACGAACTCGTGAAACCGATTCTAGAAGCCATTTCTGCTAAAGTGGACGGAGAAGCTTGTACGACATACATCGGCCCGGACGGAGCGGGGCACTATGTAAAAATGGTGCACAACGGTATCGAATACGGTGACATGCAACTGATCTCTGAGTCATATTTCATTCTGAAACAGGTGCTCGGATTGTCTGCCGAAGAGCTTCACGAAGTATTCGCTGAGTGGAACAAAGGAGAGCTTGACAGCTATCTGATCGAAATCACGGCTGACATTTTCACTAAAAAAGATGAAGAAACGGGCAAACCGCTTGTTGACGTCATCCTTGATAAAGCAGGCCAAAAAGGAACGGGTAAATGGACAAGCCAAAGTGCTCTTGACTTAGGCGTTCCGCTTCCGATTATCACTGAATCTGTTTTTGCGCGTTTCATTTCCGCAATGAAAGAAGAGCGTGTGAAAGCAAGCGGCCTTCTGTCCGGACCGGACGTTAAGCCGGTCACTGAAAATAAAGAAGAGCTGATTGAAGCGGTCAGAAAAGCGCTCTTCATGAGTAAAATCTGTTCTTACGCACAAGGCTTCGCCCAAATGAAAGCCGCGTCTGAAGAATATAACTGGGATCTGAAATACGGTGAAATTGCAATGATCTTCCGCGGCGGCTGTATCATCCGCGCGGCGTTCCTGCAAAAGATCAAAGACGCATATGACCGTGAACCGGAGCTTGACAACCTGCTGTTAGACAGCTACTTCAAAAACATTGCAGAAAGCTACCAAGGCGCCCTTCGCCAAGTGATTTCACTTGCCGTAGCCCAAGGCGTGCCGGTACCTTCGTTCTCAAGCGCACTTGCGTATTACGACAGCTACCGTACGGCAGTGCTTCCTGCAAACTTGATTCAAGCGCAGCGTGATTACTTCGGCGCGCATACGTATGAACGCACAGATAAAGAAGGCATTTTCCATACTGAATGGATGAAGTAA	MSKQQIGVIGLAVMGKNLALNIESRGFSVSVYNRSSSKTEEFLEEAKGKNVVGTYSIEEFVQSLETPRKILLMVKAGTATDATIQSLLPHLEKDDILIDGGNTYYKDTQRRNKELAESGIHFIGTGVSGGEEGALKGPSIMPGGQKEAHELVKPILEAISAKVDGEACTTYIGPDGAGHYVKMVHNGIEYGDMQLISESYFILKQVLGLSAEELHEVFAEWNKGELDSYLIEITADIFTKKDEETGKPLVDVILDKAGQKGTGKWTSQSALDLGVPLPIITESVFARFISAMKEERVKASGLLSGPDVKPVTENKEELIEAVRKALFMSKICSYAQGFAQMKAASEEYNWDLKYGEIAMIFRGGCIIRAAFLQKIKDAYDREPELDNLLLDSYFKNIAESYQGALRQVISLAVAQGVPVPSFSSALAYYDSYRTAVLPANLIQAQRDYFGAHTYERTDKEGIFHTEWMK	PGPT0017385_2729	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
D1-12_01458	1245	dinB_2	COG0389	DNA polymerase IV	GTGGCCGGAAAAGGGAGAATTATATTTCATATCGATATGAACAGTTTTTATGCCTCCGTAGAAATGGCGTATGATCCGTCTTTAAGAGGAAAACCTATCGCCGTTGCCGGAAACGTGAAGGAACGGAAAGGAATCATCGTCACCTGCAGCTACGAAGCGAGAGCGCGGGGCGTAAAGACCACCATGCCGGTGTGGCGGGCAAAACGCCTCTGTCCGGAACTCATCGTCGTGCCTCCGAATTTTGACCGCTACCGGAGTTCGTCAAAAGAAATGTTCAGCATTCTGAGGGAGTATACGGATTTAGTCGAGCCTGTTTCTATTGATGAAGGATACATGGATATTACGGACACACCGCACAGACACAGGGCGTATGAGACAGCCGAAGACATTCAGGCGAGACTGCAAAAAGAGCTTTTGCTTCCGTCAAGCATCGGCATCGCCCCGAATAAATTTCTCGCCAAAATGGCGTCTGACATGAAAAAACCGCTCGGCATCACCATTTTAAGAAAAAGAGAGCTGCCGGACGTCTTATGGCCTCTTCCGATTGAAGAGATGCACGGTATAGGAACGAAAACTGCGGAAAAAATAAAAACGCTCGGCATCAAAACGATCGGTGATTTGGCAAAAGGAGATGAACATGCGCTGAAAACGCTTCTCGGCATAAACGGCCCGAGGCTGAAGGATAAAGCGAACGGCATCCATCCTGCAGAAGTCAATCCCGAGCGGATTTATGAATTTAAAAGCGTCGGCAACTCATCCACCCTGTCGCATGATTCGGCTGACTGGGATGAATTAACGGGCGTGTTTGACCGGCTCGCGCTGTCTGTGAGCGAACGGCTCCAGCGTAAGGAGGTCATGGCCTGCCGGCTGTTCATCATGATTCGGTATGCGGATTGGAAAACGGTCACAAGAAGCATGACCCTCAGCAATCCGGCTGATCAGAAAAAAGACATCATGGAAGCGGCGATGGAACTGTTTGAAAAGCACTGGAACCAAAATCCGGTAAGGCTTCTCGGCATCACCGGGACGGAACTGGTTGAAAAACAGCAGGCGTATAAACAGCTTGATCTGTTTTCATTCAAGGAGGACGCAAAGGATGAGCCGATTTTTCAGATGATGAACGAGCTGAATGAAAAATACGGCCAAAACCTGATCAGAAAAGGCGCCGTTATAAAAAAAGAAGAAAGCAAAACAAGGGGAACGAGCTTTAACAGAGACTTTTTTCAGGATGAAAAGAAAAGGTGA	MAGKGRIIFHIDMNSFYASVEMAYDPSLRGKPIAVAGNVKERKGIIVTCSYEARARGVKTTMPVWRAKRLCPELIVVPPNFDRYRSSSKEMFSILREYTDLVEPVSIDEGYMDITDTPHRHRAYETAEDIQARLQKELLLPSSIGIAPNKFLAKMASDMKKPLGITILRKRELPDVLWPLPIEEMHGIGTKTAEKIKTLGIKTIGDLAKGDEHALKTLLGINGPRLKDKANGIHPAEVNPERIYEFKSVGNSSTLSHDSADWDELTGVFDRLALSVSERLQRKEVMACRLFIMIRYADWKTVTRSMTLSNPADQKKDIMEAAMELFEKHWNQNPVRLLGITGTELVEKQQAYKQLDLFSFKEDAKDEPIFQMMNELNEKYGQNLIRKGAVIKKEESKTRGTSFNRDFFQDEKKR	PGPT0014881_1522	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
D1-12_01459	282	mifM		Membrane protein insertion and folding monitor	ATGATTCTTGAGTCAATGAATGACTTTTTATTTTTAGTCGATTTTTTCACAATTATTCTTCCCGCTCTGACCGCGATCGGCATCGCTTTTCTTTTGCGTGAGCGCCGCGCAGGCGAGCATTGGAGAACGAAACGAATAGATGAACATCAAGCAGTCGTTCAGCTGAACCGAACAGACTTTCTTATTATTATATATCATCGCATTACAACTTGGATACGTAAAGTCATCCGCATGAATTCACCGGCGAATGATGATGAAGATGTCAGCTTCCTCCTTTTATAA	MILESMNDFLFLVDFFTIILPALTAIGIAFLLRERRAGEHWRTKRIDEHQAVVQLNRTDFLIIIYHRITTWIRKVIRMNSPANDDEDVSFLLL				NA	NA	NA	NA	NA
D1-12_01460	837	misCB	COG0706	Membrane protein insertase MisCB	TTGTCTAAAACATATCAAAAATGGATCGCATTCGGATTATTTTTTATCGTACTGTGCACAGGCCGCTCGGCTTTTGCGGCGACATCTCAGACTCAGACGGGAGGCCTCGGGAATATCGGTTTTTTCCACGATTACCTGATCGAGCCGTTTTCGGCACTTTTAAAAGGTGTGGCGGGCCTGTTCCACGGTGAGTACGGACTGTCGATTATTCTGGTGACGATTATCGTCCGGATCGTTGTATTGCCTTTGTTTGTGAACCAATTTAAGAAACAGCGGGTGTTCCAGGAAAAAATGGCTGTGATCAAACCGCAGGTCGACAGCATTCAGGCTAAAATGAAACAAACGAAAGATGCGGAAAAACAAAAAGAACTGCAAATGGAAATGATGAAGCTTTACCGTGAGCACAATCTGAATCCGATGGCAATGGGATGTCTTCCGATGCTGGTGCAATTCCCGATTTTGATCGGTTTTTATTACGCCATCCGCTCAACGCCGGAAATCGCTTCACACTCATTTCTGTGGTTCAGCTTAGGGCATTCAGATATTCTTGTATCACTGTGCGCGGGGGCCATGTATTTCTTACAGGCTTATATTTCCCAAAAATTAAACGAGAAATATTCACCGGCTGCTCAAAATCCGGCCACGATGCAGTCAGCAAAAATCATGGTCTTTATTTTCCCTGTCATGATGACCATTTTTTCACTTAACGTACCGGCTGCGCTGCCGCTTTACTGGTTTACAAGCGGACTGTTTTTGACAGTGCAGAATGTACTTTTACAGCAGACGCATCATAAAAAGAAACAAGCTGCGGCTCAGGCGGAGCCCGCCAAATCATAA	MSKTYQKWIAFGLFFIVLCTGRSAFAATSQTQTGGLGNIGFFHDYLIEPFSALLKGVAGLFHGEYGLSIILVTIIVRIVVLPLFVNQFKKQRVFQEKMAVIKPQVDSIQAKMKQTKDAEKQKELQMEMMKLYREHNLNPMAMGCLPMLVQFPILIGFYYAIRSTPEIASHSFLWFSLGHSDILVSLCAGAMYFLQAYISQKLNEKYSPAAQNPATMQSAKIMVFIFPVMMTIFSLNVPAALPLYWFTSGLFLTVQNVLLQQTHHKKKQAAAQAEPAKS	PGPT0024530_5653	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
D1-12_01461	1116	pepT_1	COG2195	Peptidase T	ATGGTAAACGAAAAACGTCTGCTTGAAGAATTTCTTGAACTCGTTCAAATTGATTCAGAGACAAAACATGAAGCGGAAATCAGCAAGGTGCTCAAACAAAAATTCACTGATTTAGGGTTGAGCGTAAAAGAAGATGATACAAAAGAAGTGACGGGGCATGGAGCCGGCAACTTAATCTGTACGTTAAAGGGCACAAAAGATGCGGATACGATTTATTTCACATCGCACATGGACACGGTTGTCCCGGGCAAAGGCGTTAAGCCGATTGTGGAAGACGGCTATGTAAAATCCGACGGCACGACGATTCTCGGCGCTGATGATAAGACGGGACTTGCCGCAATGTTTGAAGCCATTAAAGTGCTGAAAGAACAAAACATCGAGCACGGCACCATTGAATTCATTATCACGGCCGGAGAAGAATCGGGATTAGTCGGGGCAAAAGCAATGGATCGTTCAGACATTACCGCGAAATACGGTTTTGCGCTTGATTCAGACGGAAAAGTCGGCAACATTATTGTAGCCGCGCCGACACAAGCGAAAGTGAGAGCAACCATTTTCGGGAAAACGGCTCATGCGGGAGTAGAACCGGAAAAAGGCATCTCCGCGATTACAATCGCGTCAAAAGCGATCTCTAAAATGCCGCTCGGCCGTATTGATAAAGAAACAACGGCTAATATCGGACGTTTCGAAGGCGGCACGCAAACCAATATCGTCTGCGACCAGGTTGATATTCTGGCTGAAGCGCGTTCATTAGTGCCTGAAAAAATGGAAGCGCAAGTGCAGAAAATGAAAGAAGCTTTCGAATCTGCTGCAGCTGAGATGGGAGGCCGCGCGGAAGTGGACATCGCGGTCATGTATCCGGGTTTCAAATATCAGGACGGCGATCAGGTTGTGGAAGTCGCGAAAAAAGCGGCGGCAAAAATCGGCCGGCCGAGCGAACTTCAGACAAGCGGCGGCGGAAGTGACGCAAACGTCATTGCCGGCCACGGCATTCCGACAGTCAACCTGTCAGTAGGCTATGAACAAATCCATACGAAAAATGAAAAAATGCCGATTGAAGAGCTCGTCAAAACGGCGGAAATGGTCGTTGCCATTATCGAAACAGCGGCCAACTAA	MVNEKRLLEEFLELVQIDSETKHEAEISKVLKQKFTDLGLSVKEDDTKEVTGHGAGNLICTLKGTKDADTIYFTSHMDTVVPGKGVKPIVEDGYVKSDGTTILGADDKTGLAAMFEAIKVLKEQNIEHGTIEFIITAGEESGLVGAKAMDRSDITAKYGFALDSDGKVGNIIVAAPTQAKVRATIFGKTAHAGVEPEKGISAITIASKAISKMPLGRIDKETTANIGRFEGGTQTNIVCDQVDILAEARSLVPEKMEAQVQKMKEAFESAAAEMGGRAEVDIAVMYPGFKYQDGDQVVEVAKKAAAKIGRPSELQTSGGGSDANVIAGHGIPTVNLSVGYEQIHTKNEKMPIEELVKTAEMVVAIIETAAN	PGPT0020915_2767	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020915-pepT-K01258	NA	NA
D1-12_01462	1524	pccB	COG4799	Propionyl-CoA carboxylase beta chain	ATGAGCATGAGTGATCATATCAGACACTTAAACGAAAGACGTTCCTTTTTAACAAACGGCGGCGGAGCGGAAAAAAATGAAAAACAGCACAAAAAAGGCAAGCTGACGGCAAGAGAAAGAATTGACTATTTATTGGACGAAGACAGTTTTTCAGAGCTGCAGACGTTTGCCAAGAGCCGCATGCCCGGGTGCCGGAATGCTCCGGGAGACGGAGTCGTTACCGGATACGGCACAATTGACGGACGGCCCGTGTATTTGTTTGCCCATGACTTTACCGTACTCGGCGGGACGCTCGGCGAGACACATGCGGAAAAAATCGCGGCGGTGATGGATCTGGCGGCGAAAAACAAAACCCCGATCATCGGGCTGAACGACTCAGGTGGTGCGAGAATTCAAGAGGGTGTGGTATCATTAAATGGATACGGTCATATCTTTAGGCGCAACGTCCTTTACTCGGGAGTGATTCCGCAAATTTCTGTCATCCTTGGGCCGTGTGCCGGCGGTGCTGTTTATTCACCCGCATTGACGGATTTTGTGATTATGGCGGAACATACGTCGCACATGTTTATTACAGGCCCGAAAGTCATTGAACAGGTTACGGGTGAACAGATTGACGCGGAAAGTTTAGGCGGTGCGGGAATACATAATGTGATAAGCGGAAGTGCCCACTATTCCGCACGAACGGAAAAAGAGGCTCTTTCCGCTGTGAAAACCCTGCTTTCTTATCTCCCGCACGGCGGACAGACGGCATTGCCCGTTAAAAAGGAAGACGCCAGACCGTTATTAAATACCCTCGTTCCCGCGGACAGTTCGAAACCTTACGATGTGTTACAGGTAATAAAAGAGCTGGCGGATGACGGAACGTTTTTTGACATTCAGCCGTATTTTGCCAAAAACATTGTTGTCGGTTTTCTGAAACTCGGACGGCGTACAGTCGGTGTTGTCGCAAACCAGCCGAAACACTTGGCGGGGAGCCTCACGATTGATGCCGCTGACAAAGCGTCGAGATTCATCCGTTTTTGCGACGCGTTTCATATTCCGTTATTGACAATCGCTGATGTTCCGGGATTTCTCCCGGGCTTTCAGCAGGAACATGCGGGAATCATCCGTCACGGAGCAAAATTGCTGTATGCTTTTGCCGAAGCGACGGTGCCGAAAGTGACGCTCATCATCAGAAAAGCTTACGGAGGCGCCTATGTCGCCATGAATTCGAAAGGGCTCGGGGCAGATCTTGTATTCGCCTGGCCCAATGCGGAAATCGCCGTGATGGGAGCGGAAGGCGCGGCGTCGATTTTATACAGCAGAGACATACAGGCTTCTGACGACCCGGAGAAAACGAAGCGCGAAAAAAAAGCCATATACGAAAAGGAAAACGCCGGTCCGTATAAAGCGGCGGCCTGCGGAATGGTGGATGATATCATCCGGCCGGAAGACTCGAGGAAAAAATTGATTCAGGCATTTGACATGCTTGCGCATAAGGAAGAGGAAAGACCGAAAAAAAAGCACGGTAATATACCGCTTTAA	MSMSDHIRHLNERRSFLTNGGGAEKNEKQHKKGKLTARERIDYLLDEDSFSELQTFAKSRMPGCRNAPGDGVVTGYGTIDGRPVYLFAHDFTVLGGTLGETHAEKIAAVMDLAAKNKTPIIGLNDSGGARIQEGVVSLNGYGHIFRRNVLYSGVIPQISVILGPCAGGAVYSPALTDFVIMAEHTSHMFITGPKVIEQVTGEQIDAESLGGAGIHNVISGSAHYSARTEKEALSAVKTLLSYLPHGGQTALPVKKEDARPLLNTLVPADSSKPYDVLQVIKELADDGTFFDIQPYFAKNIVVGFLKLGRRTVGVVANQPKHLAGSLTIDAADKASRFIRFCDAFHIPLLTIADVPGFLPGFQQEHAGIIRHGAKLLYAFAEATVPKVTLIIRKAYGGAYVAMNSKGLGADLVFAWPNAEIAVMGAEGAASILYSRDIQASDDPEKTKREKKAIYEKENAGPYKAAACGMVDDIIRPEDSRKKLIQAFDMLAHKEEERPKKKHGNIPL	PGPT0001712_2003	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0001712-pccB-K01966	NA	NA
D1-12_01463	429	epi	COG0346	Ethylmalonyl-CoA/methylmalonyl-CoA epimerase	ATGAAAAAACTTGATCATGTCGGCATTGCCGTCAGCTCTATTGATGCCGCGAGAGGATTTTACGAACGGATGCTCGGGTTTACGTATATGGGAGACGAGCTGGTAAGCGGCCAAAATGTGAGAGTTGCTTTTTTAGAAGCGGGAGGCACAAAGCTTGAGCTGATTGAGCCGCTGTCGGACGCGTCTCCCGTCAGCTTTTTTTTACAGAAAAGAGGCGAAGGACTGCATCATTTGGCATTCCGCTGCGCCGATATGAAGGAAACGATCAAGGAGCTTGAATCATGCCGCATGACTTTGATCCATCATGAACCGCAAAACGGCGCGGGCGGGAAGAAGATCGCATTTCTCTCTCCAAAAGAGGCGAACGGGGTCCTGATTGAGCTTTGTGAAACAATTGAAAAAGGAGAAACTCAAGATGAGCATGAGTGA	MKKLDHVGIAVSSIDAARGFYERMLGFTYMGDELVSGQNVRVAFLEAGGTKLELIEPLSDASPVSFFLQKRGEGLHHLAFRCADMKETIKELESCRMTLIHHEPQNGAGGKKIAFLSPKEANGVLIELCETIEKGETQDEHE	PGPT0013300_3217	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
D1-12_01464	96			hypothetical protein	ATGTCTCAAAAATTTATGAAAAGCGCCGTCATCGTCATTTTGGGCGTATTTATACTTTCAACCCTCCTCTCAGGCATTATGATGTATTTGCGGTAA	MSQKFMKSAVIVILGVFILSTLLSGIMMYLR				NA	NA	NA	NA	NA
D1-12_01465	531			hypothetical protein	ATGCGATTTTTTTTATTGTCAGCCGCCCTGCTGCTGTCTCCGCTTTGGCCGCTTGGCGCAAACCCTTTGCCGGGTGACCCTTATATTATCGTCAATAAAGCCACAAATGCGCTTGCTGTTGTGAAGGATAACCGAATAGAAGGCATTTATCAGGTGGCGACGGGAAAAACGGATGATTTGACGCCTGAAGGAGAATTTACGATAACGGTCAAAGCCGTCAATCCGTATTACCGGAAGAAAAATGTAAAGGGAGGCGCGCCGGAAAACCCGCTCGGCGTCCGCTGGATCGGTTTTGACGCGAAAGGCACCGACGGCAGGATATACGGCATTCACGGAACAAACAGAGAAGAGCTGATCGGGGGGTTTGTATCGAACGGCTGCATCCGTATGAAAAACCGGGATGTCATCCGTATTTTCCGGATTATCCCTCCCGGAACGAAAGTATTGATTACAAAAGAAAACCGCTCATTCGAGGACATTGCAATAGAGCGGAAAGCCCTCATAAAAAAGCAGGAAACCCCCTTGCAATGA	MRFFLLSAALLLSPLWPLGANPLPGDPYIIVNKATNALAVVKDNRIEGIYQVATGKTDDLTPEGEFTITVKAVNPYYRKKNVKGGAPENPLGVRWIGFDAKGTDGRIYGIHGTNREELIGGFVSNGCIRMKNRDVIRIFRIIPPGTKVLITKENRSFEDIAIERKALIKKQETPLQ				NA	NA	NA	NA	NA
D1-12_01466	954			hypothetical protein	ATGTTTAAAATCGGTTACCGCACACTAAAGACCGCACTTGGAACGGCGCTGGCCATTTATTTAGCCCAGCTGTTGCATCTGCAAAACTTCGCATCCGCAGGAATCATCACCATATTGTGCATCCAGATTACGCAAAAGCGGTCGCTTCAGGCCTCGTGGGCCCGATTTGCCGCCTGTTTATTGGCGATCGTCTTTTCATATGTCTTTTTCGGGCTGATCGGCTATTATCCGTTTGCGATCGGAATATTGCTAGTGCTGTTCATTCCGACTACAGTCGTTTTAAAAATAAACGAAGGGATCGTCACCAGCTCAGTAATCATTCTTCATTTATATATGTCCGGCGGCATTACGATGGCGTTTATCTGGAATGAGTTCCAGCTGATCACCGTAGGTATCGGCGTCGCGCTGTTAATGAATCTGTATATGCCGAGCCTCGACAGAAAACTCGCGGCGTACCGGAAAAAAATCGAGGACAACTTTTCCGTCATCTTCGCCGAAATCGAACGGTATTTGTTAACTGGTGAGCAAGATTGGTCGGGGAAGGAAATACCGGAGACGCATCAGATGATTCAAGAGGCGAAAAACCTCGCCTATCGGGACGTGCAGAATCATATTTTGCGCCATGAAAATCTTTACTATCATTATTTTAAGATGAGACAGAAACAATTTGAAATCATTGAACGGCTACTGCCGAAGATTACCTCTATTTCAATAACGGTGGAGCAGGGCAAAATAATCGCCCATTTCATCCGTGAATTAAGGGAAGCCATTCATCCCGGCAATACCGCTCATAAATTTTTAAAAAGACTTGCAGAAATGAGAACGGAATTTGAAGAAATGCCGCTCCCGGCAACGCGCGAGGAGTTTGAAGCGCGGGCGGCTTTGTTCCACCTCCTCGGTGAGATGGAACAATATCTCGTGATTAAAAGTTATTTCAAAGGCATAAAGCTGTAA	MFKIGYRTLKTALGTALAIYLAQLLHLQNFASAGIITILCIQITQKRSLQASWARFAACLLAIVFSYVFFGLIGYYPFAIGILLVLFIPTTVVLKINEGIVTSSVIILHLYMSGGITMAFIWNEFQLITVGIGVALLMNLYMPSLDRKLAAYRKKIEDNFSVIFAEIERYLLTGEQDWSGKEIPETHQMIQEAKNLAYRDVQNHILRHENLYYHYFKMRQKQFEIIERLLPKITSISITVEQGKIIAHFIRELREAIHPGNTAHKFLKRLAEMRTEFEEMPLPATREEFEARAALFHLLGEMEQYLVIKSYFKGIKL				NA	NA	NA	NA	NA
D1-12_01467	723	artM	COG1126	Arginine transport ATP-binding protein ArtM	ATGATTAAGGTCGACAACCTGTCAAAATCATTCGGGAAACATGAAGTACTGAAAAACATTTCAACACAGATCGAAGAAGGGGAAGTCGTCGCTGTCATCGGCCCTTCAGGTTCCGGCAAATCAACGTTTCTGCGCTGCTTAAATCTGCTGGAAACCCCGAGCGGCGGAACGATTGCCATTAAAGAAAACGAAATTACCGCAGCTAAAACGAATAAACTGAAAGTGCGGGAAAATATCGGCATGGTATTTCAGCATTTTCATTTGTTTCCTCATAAAACGGTGCTTGAAAATATCACATACGCGCCGGTCAGCGTGAAGAAAGAGTCTAAAAAGGAGGCGGAGGAAAAGGCGTGCGCTCTCCTTGAAAAAGTCGGACTGCTTGACAAACGGAACGACTATCCGAACCGTTTGTCAGGCGGACAGAAGCAGCGGGTCGCCATCGCGCGGGCGCTTGCCATGAATCCTGACATCATGCTGTTTGATGAACCGACCTCGGCTCTTGACCCGGAAATGGTCAAAGAAGTTCTTGAGGTGATGAAAGAGCTTGCGCAGACGGGCATGACAATGGTGATCGTAACGCACGAAATGGGATTTGCCAAAGAAGTCGCAGACCGCGTATTATTTATGGATGAAGGGACGATCGTGGAAGACGGGCACCCGGAAGAATTTTTTCTTTCTCCGAAGTCAAAAAGAGCACAGGACTTTTTAGAAAAAATATTATAA	MIKVDNLSKSFGKHEVLKNISTQIEEGEVVAVIGPSGSGKSTFLRCLNLLETPSGGTIAIKENEITAAKTNKLKVRENIGMVFQHFHLFPHKTVLENITYAPVSVKKESKKEAEEKACALLEKVGLLDKRNDYPNRLSGGQKQRVAIARALAMNPDIMLFDEPTSALDPEMVKEVLEVMKELAQTGMTMVIVTHEMGFAKEVADRVLFMDEGTIVEDGHPEEFFLSPKSKRAQDFLEKIL	PGPT0020555_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020555-artR|artM-K23060	NA	NA
D1-12_01468	660	artQ	COG0765	Arginine transport system permease protein ArtQ	ATGAATTTGGATTTCTCAGCGACAATCCCCCAAATTCCTTTTATATTGGAAGGCCTTGCGGTCACATTGAAAATTGTGCTCGTTTCAGCGGTCATCGGTCTTGTATTAGGAATCGTGCTCAGCTTATTTAAAATCAGCACGATCAGTCCGCTGAAATGGATTGCGGATTTTTATACTTCGATATTCCGCGGCACGCCGCTCGTGCTGCAGCTGATGATCATCTATTTCGGCATGCCGCAGCTCCTCGGCTTTCAGATCGATCAATTTTGGGCGGCAGTCACCGCATTATCGCTCAATTCAGCCGCTTACGTCTCTGAAATTATCAGAGCGGGAATCAACGCAATTGACAAAGGACAAAAAGAGGCTGCCGTCGCTCTCGGCGTGCCGTACGGAAAAATGATGAAAGATCTGCTGCTGCCGCAGGCGTTTAAAAACATTTCTCCGGCTATTATTAACGAATTAATCACCTTAACGAAAGAATCGGCGATCGTCACAGTTATCGGTCTCGGCGACATTATGAGACGGGCCTACCAGTCCGGCGCCGCAACATACAACTATTTAGAACCTCTTATTGTGGCGGGCTTAATCTATTACGTGCTCGTTTTGATCTTAGCATTCATCGGAAAAGGCGTAGAAAGGAAGCTGAAAGCCAATGATTAA	MNLDFSATIPQIPFILEGLAVTLKIVLVSAVIGLVLGIVLSLFKISTISPLKWIADFYTSIFRGTPLVLQLMIIYFGMPQLLGFQIDQFWAAVTALSLNSAAYVSEIIRAGINAIDKGQKEAAVALGVPYGKMMKDLLLPQAFKNISPAIINELITLTKESAIVTVIGLGDIMRRAYQSGAATYNYLEPLIVAGLIYYVLVLILAFIGKGVERKLKAND	PGPT0020550_524	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020550-artQ-K17077	NA	NA
D1-12_01469	768	artP	COG0834	Arginine-binding extracellular protein ArtP	ATGAAGAAATGGCTGTTGGTATTAGCTGCCGCATGTATCACCTTTGCGCTGTCCGCCTGCGGATCAGGCAATTCAGGATCAGAGGGCGGAAAGAACAAGCTGATTATGGGTACATCGGCTGACTATAAACCATTTGAATATAAAGACGGCGATCAGATCACCGGGTTTGACGTTGATCTGGCGAAAGCTCTGGGCAAAAAGACCGGCTATGACGTTGAGGTGCAGGACATGGACTTCAACAGCCTGATTACAGCCTTGAAGTCCAAGCAGGTAGATATGATTTTATCTGGAATGACACCTACGCCGGAACGGAAAAAGCAAGTTGATTTTTCTGATATTTATTATACTGCTAACAATATGATTGTTACGAAAAAGGGAAGCAGCATTAAATCCCTGAATGATCTGAAAGGCAAAACCGTCGGTGTGCAGCTCGGCTCCATTCAAGAGGAAAAAGGCAAGAAGCTCGCTTCGAAATACGGTTTTCAGCTCGAAGACCGCAACCGGATCTCAGATTTAACCGAAGAGATCAAATCCGGGCGTTTTGATGCCGCGATTATCGAAGACATCGTAGCACAAGGCTATTTCAGTTCAAATCAAGATCTGCAGGGCTTTGCGTCAGCAGATGCGAAATCAGACGAATCGGGCTCCGCGATTGCGTTCCGCAAAGACAGTGATCTGACAGCGAAGTTTAACAAAGCGCTGAAAGAAATGGAGAAAAACGGAGAAATCGAAAAACTGAAGAAAAAATGGTTCACCAACGAGAAATAA	MKKWLLVLAAACITFALSACGSGNSGSEGGKNKLIMGTSADYKPFEYKDGDQITGFDVDLAKALGKKTGYDVEVQDMDFNSLITALKSKQVDMILSGMTPTPERKKQVDFSDIYYTANNMIVTKKGSSIKSLNDLKGKTVGVQLGSIQEEKGKKLASKYGFQLEDRNRISDLTEEIKSGRFDAAIIEDIVAQGYFSSNQDLQGFASADAKSDESGSAIAFRKDSDLTAKFNKALKEMEKNGEIEKLKKKWFTNEK	PGPT0020560_616	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020560-artP|artI-K23059	NA	NA
D1-12_01470	438			hypothetical protein	TTGAATATGGATTTTAATTTATTTATGAATGATGTCGTGCGTCAAGCCCGCCAGGAAATCACGGCTGCCGGGTATACAGAGCTGAAAACCGCTGAGGAAGTGGACGAAGCGCTTTCGAAAAAAGGAACGACACTCGTTATGGTCAACTCTGTGTGCGGATGCGCAGGCGGTATTGCACGGCCTGCCGCGTACCATTCCGTACATTACGATAAACGACCGGATCAGCTTGTGACGGTATTTGCCGGACAGGATAAAGAAGCGACAGCCAAAGCGAGAGAATACTTTGAAGGCTATCCGCCGTCCTCTCCGTCATTTGCCATTTTAAAAGACGGGAAAATCATGAAAATGGTGGAACGCCATGAAATTGAAGGCCATGAGCCGATGGCCGTCGTCACAAAACTGCAGGAAGCATTTGAAGAATATTGTGAAGAAGTATAA	MNMDFNLFMNDVVRQARQEITAAGYTELKTAEEVDEALSKKGTTLVMVNSVCGCAGGIARPAAYHSVHYDKRPDQLVTVFAGQDKEATAKAREYFEGYPPSSPSFAILKDGKIMKMVERHEIEGHEPMAVVTKLQEAFEEYCEEV	PGPT0014657_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0014657-bmrU-NA	NA	NA
D1-12_01471	897	bmrU	COG1597	Putative lipid kinase BmrU	ATGAGCCAACGGAAAGCAGTATTAATTTATAACGGAAACGCCGGACAAAAACAGATTGATAAAACGCTCGGCACGGTCGTCCCCATTTTGGCCCAGTCAGCTGACGAACTTTTGATTAAACCGACCAAACATCAGGATGATGCCCGTCAGTATTGTGAAAATCTCGACAGTTCAGTTGACCATTTATATATTTTAGGCGGGGACGGCACTGTGCATCAATGCATCAACAGCATCAGCAAGCTTGATCACAGACCCGCTGTCGGCATTTTGCCGGGAGGAACGTGCAACGATTTCTCCCGGGCGCTCGGCATCCCGCAAAACCTTCAAAAGGCCGCTGAAGCGCTCGCGGCCGGACATAAACAGATGATTGACGTCTGTAAAACGGATGACGGCTATTTTCTGAACTTCTGGGGCATCGGATTGATCACCGAAGCATCAAGCCATATCAATGAAACTGAAAAAGCATGGCTTGGTAAAATCAGCTACTTCACGAGCGCCTTGCGGACGATGACAAGCGCGAACCCGTTTCCTGTCAAATTGACGATTGACGGCGAGGTGAAAGAAGACGAAGCCGTAATGGTGCTTGTCATGAACGGGCATTATATCGGGACAAACAGAGTTCCCCTGCCTGATGCCAGCCTCCGGGACGGCTTAGCCGATGTGTTAATCTGCCGCAACACAAGCCTTGCCGCGTTGCGGGAGCTGATGACGATGGAGCAGGGTTCATTTGATGATTTCAAAGGAGAGCTGTCCTATATTCAGGCCTCCAGGATTGAAATCGAAACCGGACGTGAGATGGACGCGGATACAGATGGCGAGGTATACGGAACAACACCTTGTACGATCGAAGTGAAAAAACATCATCTCACTATGCTTGTTCCCGAGGATTCACAATGA	MSQRKAVLIYNGNAGQKQIDKTLGTVVPILAQSADELLIKPTKHQDDARQYCENLDSSVDHLYILGGDGTVHQCINSISKLDHRPAVGILPGGTCNDFSRALGIPQNLQKAAEALAAGHKQMIDVCKTDDGYFLNFWGIGLITEASSHINETEKAWLGKISYFTSALRTMTSANPFPVKLTIDGEVKEDEAVMVLVMNGHYIGTNRVPLPDASLRDGLADVLICRNTSLAALRELMTMEQGSFDDFKGELSYIQASRIEIETGREMDADTDGEVYGTTPCTIEVKKHHLTMLVPEDSQ	PGPT0014657_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0014657-bmrU-NA	NA	NA
D1-12_01472	1263	pdhC_2		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGGCGATTGAACAAATGGCTATGCCTCAGCTCGGAGAGAGCGTGACGGAAGGGACGATCAGCAAGTGGCTGGTATCCCCCGGTGATCAAGTGAATAAATATGACCCCATCGCGGAGGTCATGACGGATAAAGTGAATGCGGAGGTGCCGTCTTCTTTTACCGGTACGATTACAGAACTTGTAGGAGAAGAAGGCCAGACTCTTGCAGTCGGCGAGATTATCTGCAAAATTGAAACAGAAGAAACGGAAACCGAAGAGGCGCCGAAGCGGGAAGAAGAGCAGAATACCCCTTCAGACACCGGTGCAAACCGTCAAGGTAAAGATCAGTCAAATAAAGCGCGTTATTCGCCGGCCGTGCTCAGATTAGCGGGGGAACACGGCATTCAGCTTGAAGAAGTTGAAGGAACGGGTGCAGGCGGAAGAATTACGCGAAAAGACATTCAAAAGATCATTGATTCGGGAATGAAGCAGAAATCGGAAGCACCGGCGCCGGCTGCTGTTCAAACAACGCAACAAGCGCCGAAACAACAGCAAAAACAAGCACCGGCACCCGCTCTGTCAGCCGGTGATATTGAAATTCCGGTTACAGGCGTCAGAAAAGCCATCGCCGCCAATATGCATAAAAGCAAAACAGAAATTCCGCATGCCTGGACGATGATGGAAGTCGACGTCACGAACATGACGGCGTACAGAAACAGCATTAAAGACTCATTTAAACAAAAAGAAGGCTTCAATTTAACGTTTTTCGCTTTCTTTGTAAAAGCGGCGGCGCAGGCTCTCAAAGAGTTCCCGCAGATGAACAGTATGTGGGCGGGAGACAAAATCGTCCAAAAGAAAGACATCAACATCTCCATTGCCGTTGCCACGGAAGATTCGCTGTTTGTTCCGGTTATTAAGCATGCTGATGAAAAAACGATTAAAGGCATAGCCAGAGAAATAACGGACCTTGCGAAAAAAGTGAGAAACGGAAAACTTACCGCGGAAGATATGCAGGGCGGCACATTTACCGTCAATAACACGGGATCTTTCGGCTCAGTTCAATCTATGGGCATTATCAACCATCCGCAGGCGGCGATTCTTCAGGTAGAATCTATCGTCAAACGACCGGTTGTCATGAATAACGGGATGATCGCCGTTCGTGATATGGTTAATCTTTGCCTGTCTTTAGATCACAGAGTGCTCGACGGGCTCGTGTGCGGCCGATTCCTCGGACGCGTCAAAGAGATCTTAGAAAACATTGATGAACATACGTCAGTATATTAA	MAIEQMAMPQLGESVTEGTISKWLVSPGDQVNKYDPIAEVMTDKVNAEVPSSFTGTITELVGEEGQTLAVGEIICKIETEETETEEAPKREEEQNTPSDTGANRQGKDQSNKARYSPAVLRLAGEHGIQLEEVEGTGAGGRITRKDIQKIIDSGMKQKSEAPAPAAVQTTQQAPKQQQKQAPAPALSAGDIEIPVTGVRKAIAANMHKSKTEIPHAWTMMEVDVTNMTAYRNSIKDSFKQKEGFNLTFFAFFVKAAAQALKEFPQMNSMWAGDKIVQKKDINISIAVATEDSLFVPVIKHADEKTIKGIAREITDLAKKVRNGKLTAEDMQGGTFTVNNTGSFGSVQSMGIINHPQAAILQVESIVKRPVVMNNGMIAVRDMVNLCLSLDHRVLDGLVCGRFLGRVKEILENIDEHTSVY	PGPT0001535_1016	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
D1-12_01473	984	bfmBAB	COG0022	2-oxoisovalerate dehydrogenase subunit beta	ATGTCTGTAATGTCTTATATTGACAGTATTAATGCAGCAATGAAAGAAGAAATGGAAAGAGATCCGCGCGTTTTTGTTCTCGGGGAAGACGTCGGGAGAAAAGGCGGCGTGTTTAAAGCAACGGCGGGTCTCTATGAACAGTTCGGAGAAGAGCGGGTGATGGATACGCCGCTTGCTGAATCAGCGATTGCCGGTGTCGGGATCGGCGCCGCGATGTACGGCATGCGCCCGATTGCCGAGATGCAGTTTGCCGATTTCATTCTGCCTGCGGTCAACCAAATCATTTCAGAAGCGGCAAAAATACGCTACCGTTCAAACAATGATTGGAGCTGTCCGATGGTCATCAGAGCGCCTTACGGCGGCGGCGTGCACGGCGCGTTGTATCATTCCCAATCTGTGGAGGCCATTTTTGCCAACCAGCCGGGCCTTAAAATTGTCATGCCTTCAACTCCTTATGACGCAAAAGGGCTGTTGAAAGCTGCAGTCCGTGACGAAGATCCGGTGCTGTTTTTCGAACATAAGAGGGCGTACCGCCTGATTAAAGGCGAAGTCCCTGCGGATGATTACGTCCTTCCGATCGGAAAGGCGGATGTAAAACGCGAAGGCAGCGACATTACTGTCATTACGTACGGATTATGCGTCCATTTTGCTCTGCAGGCTGCCGAGCGTCTTGAAAAAGACGGAATTTCCACGCACGTATTAGACTTGCGTACGGTTTATCCGTTAGATAAAGAAGCCATCATTGAAGCTGCTTCTAAAACGGGAAAAGTATTGCTGATCACGGAAGATACGAAAGAAGGCGGTATTATGAGCGAGGTCGCCGCCATTATTTCAGAAAACTGCTTATTTGATTTAGACGCGCCGATCAAGCGGCTTGCAGGTCCTGACGTTCCGGCAATGCCTTATGCGCCGACAATGGAAAAATACTTCATGATGAATCCTGACAAAGCAGAAGCCGCGATGAGAGAATTAGCGGAGTTTTAA	MSVMSYIDSINAAMKEEMERDPRVFVLGEDVGRKGGVFKATAGLYEQFGEERVMDTPLAESAIAGVGIGAAMYGMRPIAEMQFADFILPAVNQIISEAAKIRYRSNNDWSCPMVIRAPYGGGVHGALYHSQSVEAIFANQPGLKIVMPSTPYDAKGLLKAAVRDEDPVLFFEHKRAYRLIKGEVPADDYVLPIGKADVKREGSDITVITYGLCVHFALQAAERLEKDGISTHVLDLRTVYPLDKEAIIEAASKTGKVLLITEDTKEGGIMSEVAAIISENCLFDLDAPIKRLAGPDVPAMPYAPTMEKYFMMNPDKAEAAMRELAEF	PGPT0008862_1661	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
D1-12_01474	993	bfmBAA	COG1071	2-oxoisovalerate dehydrogenase subunit alpha	ATGACTACAAACCGCCATCAAGCATTAGGGCTCTCTGACGAAGAAGCCGTTGAAATGTATAGAACCATGCTGTTAGCCAGAAAAATCGACGAAAGAATGTGGCTCTTAAACCGCTCGGGCAAAATTCCGTTCGTTGTTTCATGTCAAGGACAGGAAGCGGCACAAGTAGGCGCGGCCTATGCCTTAAACCGTGATACCGACTATGTACTTCCTTACTACAGAGATATAGGGGTTGTGCTTGCATTCGGTATGACTGCAAAGGATTTGATGATGTCGGGTTTTGCGAAAGCGGCTGACCCGAACTCAGGCGGAAGGCAGATGCCGGGCCACTTCGGGCAAAAGGAAAACAGAATCGTAACGGGCTCATCCCCTGTTACGACGCAGGTTCCTCATGCAGTCGGAATCGCGCTTGCGGGACGCATGGATAAAAAGGATATCGTCTCTTTTGTTACCTTTGGAGAAGGATCTTCCAACCAGGGGGATTTTCACGAAGGGGCAAACTTTGCCGCCGTGTATAAACTGCCGGTCATTTTCATGTGTGAAAACAATAAGTATGCCATTTCTGTCCCGTATGACAAACAGGTGGCGTGCGAGAAAATATCCGACCGGGCGGCAGGCTACGGCATGCCGGGAGTCACTGTTGACGGAAACGACCTGCTGGAAGTTTACCGGGCCGTAAAAGAAGCGCGCGAACGGGCGTCTAAAGGCGAAGGCCCTACATTAATAGAAACGGTTTCCTACCGTTTGACGCCGCATTCCAGTGATGACGATGACAGCAGCTACAGAGAACGCGAAGAAGTAGAAGAAGCGAAGAAACAAGATCCGCTTCTTTTATACAAAGCATACTTGCAAGAAGCCGGGCTTCTAGGTGAAGAAGAAGAAAAGACCATGCTGGATGACATCATGGCTATCGTAAACGAAGCGACAGACGAAGCGGAGAAAGCGCCATACGCATCTCCTGAATCAACGCTTGATCACGTTTATGCGAAGTAG	MTTNRHQALGLSDEEAVEMYRTMLLARKIDERMWLLNRSGKIPFVVSCQGQEAAQVGAAYALNRDTDYVLPYYRDIGVVLAFGMTAKDLMMSGFAKAADPNSGGRQMPGHFGQKENRIVTGSSPVTTQVPHAVGIALAGRMDKKDIVSFVTFGEGSSNQGDFHEGANFAAVYKLPVIFMCENNKYAISVPYDKQVACEKISDRAAGYGMPGVTVDGNDLLEVYRAVKEARERASKGEGPTLIETVSYRLTPHSSDDDDSSYREREEVEEAKKQDPLLLYKAYLQEAGLLGEEEEKTMLDDIMAIVNEATDEAEKAPYASPESTLDHVYAK	PGPT0008861_2656	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-12_01475	1422	lpd	COG1249	Dihydrolipoyl dehydrogenase	ATGGCGACTGAGTATGATGTGGTCATTCTGGGCGGCGGCACGGGCGGTTATGTAGCCGCCATCAGAGCGGCCCAGCTCGGCTTAAAAACGGCCGTTGTAGAAAAAGAAAAGCTCGGCGGAACATGCCTGCATAAAGGATGTATTCCGAGTAAAGCGCTGTTAAGAAGCGCGGAAGTGTACCGAACCGCAAAGGAAGCGGCAGCATTCGGCATTGAAACGGAAGGTGTCTCCCTCCGCTTTGACAGCGTGCAAAAACGAAAGCAGGGAATCGTTGACCGGCTGGCCGGCGGTGTCGCCCACTTGATGAAAAAGGGGAAGATTGATGTATTCAACGGGTACGGACGTATGCTCGGCCCTTCCATCTTCTCACCTCTTCCCGGTACGGTTTCCGTCGAATACGCAAATGGTGAAGAAAACGACATGCTGATACCGAAACAATTGATTATCGCAACCGGTTCAAGGCCGAAAATGCTGCCGGGTTTAGAAGCAGACGGTACATATATTCTGACATCAGATGAAGCGTTAGAGCTTGAACGTCTGCCCCAATCCATGATGATCGTCGGCGGCGGTGTCATCGGAATTGAATGGGCATCCATGCTGAACGATTTCGGCGTCAATATCACTGTGATTGAATATGCGGACCGCATTTTGCCGACGGAAGACCGTGATATTTCAAGCGAGATGGAAAAACTGTTAACGAAAAAAGGAATTAAGATCGTGAAGGGTGCGAAAGTGCTTCCGGATACATTGGAAAAAGCGGACGGCGTTTCAATTGCCGCTGAAAAGAATGGAAAAAAAGAAACGTATCACGCGGAACAAATGCTTATTTCCATCGGCCGCCAGCCGAACATTGAAGGGATCGGCCTTGAAAACACGGACATTGAAGCGGAAAACGGTTCTATCATCGTGAACGAAGCCGGGCAGACGAAGGAATCGCACATTTATGCGATCGGTGATGTTGTCGGCGGGCTGCAGCTTGCGCATGTGGCCTCCCGTGAGGGCATCATTGCCGTTGAGCATATGGCGGGTCTTAATCCGGCTCCGCTTGATGCCGCTCTTGTGCCGAAATGTATTTATTCAAATCCGGAAGCGGCGAGCGTCGGTCTGACAGAAGAGGAAGCTCTTCGAAAAGGGCATGAACTGAAGATCGGGAAGTTTCCGTTCATGGCGATCGGAAAGGCTCTTGTATACGGAGAAAGCGACGGCTTTGTCAAAATCGTCGCCGATCGGAATACAGATGATATTCTCGGTGTTCATATGATCGGCCCGCACGTCACCGATATGATCTCTGAAGCGGGGCTTGCCAAGGTGCTCGACGCGACGCCTTGGGAAATTGGCCAGTCCATACATCCGCATCCGTCGCTGTCAGAAGCGATTGGAGAAGCTGCGTTAGCCGCAGACGGAAACGCGATTCATTTTTAA	MATEYDVVILGGGTGGYVAAIRAAQLGLKTAVVEKEKLGGTCLHKGCIPSKALLRSAEVYRTAKEAAAFGIETEGVSLRFDSVQKRKQGIVDRLAGGVAHLMKKGKIDVFNGYGRMLGPSIFSPLPGTVSVEYANGEENDMLIPKQLIIATGSRPKMLPGLEADGTYILTSDEALELERLPQSMMIVGGGVIGIEWASMLNDFGVNITVIEYADRILPTEDRDISSEMEKLLTKKGIKIVKGAKVLPDTLEKADGVSIAAEKNGKKETYHAEQMLISIGRQPNIEGIGLENTDIEAENGSIIVNEAGQTKESHIYAIGDVVGGLQLAHVASREGIIAVEHMAGLNPAPLDAALVPKCIYSNPEAASVGLTEEEALRKGHELKIGKFPFMAIGKALVYGESDGFVKIVADRNTDDILGVHMIGPHVTDMISEAGLAKVLDATPWEIGQSIHPHPSLSEAIGEAALAADGNAIHF	PGPT0001380_4036	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
D1-12_01476	1110	buk2	COG3426	Butyrate kinase 2	ATGTTCGAAAAGGAAAAACGCATTCTCATTCTGAATCCAGGCTCAACATCAACGAAAATCGGTGTCTTTCACAATGAACGCTGTATCTTTGAAAAGACGCTGCGGCATCCCGAAGAAGAGCTGAAAACATTTAACAGCATTATCGACCAATACGAATTTCGAAAAATAAGCATTCTTGAGTCTTTACACGAACAGGGCATCAACATTTCAAAGTTCGATGCCGTTTGTGCCAGAGGAGGCCTGCTCAGACCGATTGAGGGCGGCACATATGAAGTGAATGACGCCATGATCACTGATTTGAAAAACGGCTACAACGGCCAGCATGCTTCTAATCTGGGCGGAATTATTGCCAGGGAAATAGCTGACGGATTAAATATCCCCGCGTATATCGTCGATCCGGTCGTGGTGGATGAGATGACTCCGCTCGCTAAAGTATCAGGAATGCCTGAAATCAAGCGGAAAAGCATTTTCCATGCTTTGAACCAAAAAGCTGTTGCCCGTCAGGCGGCGGCGTCCCTCGGCAAACGGTATGAACAGATGAAGATGATCGTCACTCATATGGGCGGCGGCACCACAGTCGGTGTCCATGATTGCGGACGGGTGACGGATGTCAACAACGGGCTTCACGGAGAAGGACCCTTCAGCCCGGAGCGCGCGGGAACCGTTCCGGCGGGTGATTTGGTGGAGATGTGTTTTTCCGGCAAGTATTCAAAAGCCGATATGATGAAAAAACTTGTCGGCACGGGCGGACTCTCCGGCTACCTGGGGACAACGGACGCGGTCAAAGTGGAAAAACGCATTCAGGCCGGAGTTGAAAACGCGCGTCTCATTTATGACGCCATGGCTTATCAAGTAGCAAAAGAAATCGGGGCGGCAAGCGCCGTTTTAAAAGGAAAAGTAGACATTATCGTCCTGACGGGCGGATTGGCGTACGGGAAAAGTTTCGTATCCGCTATCAGATCGTACATAGATTGGATTTCGGATGTACTGGTGTACCCGGGAGAAAATGAACTGCAATCTCTCGCGCAAGGCGCGCTTCGGGTTTTAGCCGGTGAGGAGCAGTCAAAGCAATATCAGATCGGCGAAGGAGTGAAAACAAATGGCGACTGA	MFEKEKRILILNPGSTSTKIGVFHNERCIFEKTLRHPEEELKTFNSIIDQYEFRKISILESLHEQGINISKFDAVCARGGLLRPIEGGTYEVNDAMITDLKNGYNGQHASNLGGIIAREIADGLNIPAYIVDPVVVDEMTPLAKVSGMPEIKRKSIFHALNQKAVARQAAASLGKRYEQMKMIVTHMGGGTTVGVHDCGRVTDVNNGLHGEGPFSPERAGTVPAGDLVEMCFSGKYSKADMMKKLVGTGGLSGYLGTTDAVKVEKRIQAGVENARLIYDAMAYQVAKEIGAASAVLKGKVDIIVLTGGLAYGKSFVSAIRSYIDWISDVLVYPGENELQSLAQGALRVLAGEEQSKQYQIGEGVKTNGD	PGPT0001815_50	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001815-buk-K00929	NA	NA
D1-12_01477	1095	ldh_1	COG0334	Leucine dehydrogenase	ATGGAAATTTTTAAATATATGGAGACTTATGATTACGAACAATTGGTATTCTGCCAAGATGAACAATCCGGATTAAAAGCGATCATCGCGATTCATGATACGACGCTCGGCCCTGCACTCGGCGGAACAAGAATGTGGACATATGACAGTGAAGAAGCGGCGATTGAAGATGCACTAAGACTCGCAAAAGGCATGACTTATAAAAATGCGGCTGCCGGTTTAAACTTAGGCGGCGGGAAAACCGTTATTATCGGAGACCCGCGCAAAGATAAAAATGAAGAAATGTTCCGCGCGTTCGGCCGGTACATCCAAGGCTTAAACGGAAGGTATATTACGGCGGAAGACGTCGGCACCACCGTGGAAGATATGGACATCATTCATGATGAAACAGACTATGTAACCGGAATTTCTCCGGCATTCGGTTCATCAGGAAATCCGTCCCCGGTTACGGCGTACGGCGTCTATAAAGGGATGAAAGCCGCAGCGAAAGCGGCGTTTGGCACTGATTCACTGGAAGGTAAAACAATTGCCGTGCAAGGCGTGGGAAATGTGGCTTACAATCTATGCCGCCACCTTCACGAAGAAGGCGCTTCTTTAATCGTAACGGATATCAATAAAGAATCTGTTAAACGTGCCGTTGAGGACTTCGGCGCCCGCGCAGTTGATCCCGACGACATTTACTCACAGGCGTGCGATATTTATGCCCCATGTGCTCTCGGCGCCGTCATTAACGATGACACGATTAAACAGCTGAAGGCGAAAGTCATTGCGGGAGCGGCCAATAACCAGCTGAAAGAAACACGTCACGGCGATACCATTCATGAAATGGGAATCGTGTACGCTCCGGATTATGTCATCAATGCAGGCGGCGTCATCAATGTAGCCGATGAGCTCTACGGCTACAATGCTGAGCGGGCTTTGAAGAAGGTTGAGGGCATCTATGCAAACATTGAGCGGGTGCTCGATATTTCCGCGCGTGACGGCATTCCGACATACTTAGCGGCTGACCGTTTGGCTGAGGAACGAATTGAGCGCATGCGCCGTTCAAGAAGCCAGTTTCTGCAAAACGGCCAAAGTATATTAAGCAGACGATAG	MEIFKYMETYDYEQLVFCQDEQSGLKAIIAIHDTTLGPALGGTRMWTYDSEEAAIEDALRLAKGMTYKNAAAGLNLGGGKTVIIGDPRKDKNEEMFRAFGRYIQGLNGRYITAEDVGTTVEDMDIIHDETDYVTGISPAFGSSGNPSPVTAYGVYKGMKAAAKAAFGTDSLEGKTIAVQGVGNVAYNLCRHLHEEGASLIVTDINKESVKRAVEDFGARAVDPDDIYSQACDIYAPCALGAVINDDTIKQLKAKVIAGAANNQLKETRHGDTIHEMGIVYAPDYVINAGGVINVADELYGYNAERALKKVEGIYANIERVLDISARDGIPTYLAADRLAEERIERMRRSRSQFLQNGQSILSRR	PGPT0020320_358	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
D1-12_01478	894	pta_1	COG0280	Phosphate acetyltransferase	ATGAAGCTGAGAGACCTAGTTGAAAAAGCCGCGGCAAAAAACGCAAAAACCATTGCAGTGGCCCACGCAGCAGATAAAGAAGTGATCCAGGCCGTCAAAATGGCGGCAGAACACTTGTCGGCACGATTTTTACTGACGGGTGACAGCGGAAAGCTGAAAGAGCTTCTGGCAAATGAGCCGAAGTTCAATGCTGAAATCATCCACGCCGATTCACCCGAAGAATCTGCGGCAAAAGCAGTGCGCGCAGTGCGTGAACAAGAGGCGGACATTTTAATGAAAGGGAATCTCCCGAGCTCAACTCTTCTGAAATCGGTTTTAAACCGCCATGAAGGGCTTCGTTCAAAAAGGGTGTTATCACATGTAGCCGTTTTTGAGGTGCCGGACTATGACCGGCTGATGTATGTGACTGATTCAGCGCTGAACATTGCCCCGTCTCTTGAAGAGCTCGGGCATATTCTGCAAAATGCGGTTCATGTCGCACATTCAGTAGGGAACCCTATGCCGAAAGCCGCAGTCCTTGCCGCTATTGAAACGGTTAATCCGAAAATGGAGGCGACGCTGAACGCGGCTGCGATCGCCCAGATGTGCAACAGAGGACAGATTACCGGCTGCATTGCGGACGGACCGCTTGCTTTGGATAATGCCGTATCCCAAGCGGCTGCGCTGCAAAAAGGGATTTCCGGAAGCGTAGCGGGCCAGGCGGATATTCTCTTGGTTCCTTCAATCGAGGCCGGAAATATGCTTTATAAGTCAATGATTTATTTTGCGAAAGCAAATGTTGCTGCCGTCATCGCCGGTGCAAAAGCGCCGATCGCATTAACGAGCAGAGCGGATACCGCAGAAAATAAACTGTATTCAATTGCGCTTGCGATTTGCGCATCACAAGAACAGTAG	MKLRDLVEKAAAKNAKTIAVAHAADKEVIQAVKMAAEHLSARFLLTGDSGKLKELLANEPKFNAEIIHADSPEESAAKAVRAVREQEADILMKGNLPSSTLLKSVLNRHEGLRSKRVLSHVAVFEVPDYDRLMYVTDSALNIAPSLEELGHILQNAVHVAHSVGNPMPKAAVLAAIETVNPKMEATLNAAAIAQMCNRGQITGCIADGPLALDNAVSQAAALQKGISGSVAGQADILLVPSIEAGNMLYKSMIYFAKANVAAVIAGAKAPIALTSRADTAENKLYSIALAICASQEQ	PGPT0001810_346	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001810-ptb-K00634	NA	NA
D1-12_01479	2070	norR_2		Anaerobic nitric oxide reductase transcription regulator NorR	ATGCAGAAGGTGCTGATTATAGGTGCTGGTAAAGGAGGCACGGCGCTCCTACAGATTTTGATGAAAACAAAGCTGATCCGGATTATTGCGGTGGTTGATCAAGATCCGGAGGCGCAAGGGCTGCAAGAAGCCCGGAAATATGGAATTGCAACCTCATCAGATTGGAAACCTTACATAACCGAAGATATAGATATTATCATCCATACAACAGGCGATAAAGCGGTCATGGATGAGCTGCTCCATGAGAAAAAAGAACAAACCATCGTCATGCCGGGAAAATTGGCGTACATGGTGTTTCAGCTGATGGAGGAAAAACAGCAGCTTATCCAAATGCTCAAGTCGCAGACGTATAAGCATGACCGGATTTTTAATTCAACGCACGACGGCATGATTTTTATAGACGTCAACGAAACGATCATTTTATTTAATCAGATGGCAGAAAAAATGGTCGGCCAAAAACGGGAGGATGTCATCGGCCGCCAAATTAAAGACGTAGTGCCGAACACAAAGCTGCCGCGGATTCTGGAAACGAGAGAGCCGGAATATAACCAGAAGCAGCTTCTCGGAAAGCACTTGCAGATTGTCACGACAAGACTGCCGATCATTGATGAAGGCGGAAAACTTCTCGGCGCGTTATGCGTGTTTAAAGACATCACCGACGCAGTTGAACTGGCGGAAGAGGTTACGAACTTAAAACAAATCCGCACCATGCTTGAAGCGATTATTCAATCCTCAGACGAGGCCATTTCCGTCGTTGATGAAAACGGCATCGGAATGTTAATCAACAAAGCGTATACAAAAATGACCGGGCTGTCAGAAAGCGAAGTCATCGGAAAACCCGCTTCCACCGATATCTCAGAAGGGGAAAGCATGCACCTGAAAGTATTGGGGACAAGGCGGCCCGTGCGGGGTGTGAGGATGAAGGTCGGCCCCAATAAAAAGGATGTTATCGTAAATGTTGCCCCCGTTATTGTGGACGGTATTTTAAAAGGCAGCGTCGGCGTCATTCACGATGTGTCAGAAATTAAAACGCTGACTGCTGAGCTGAATCGGGCGCGCCAGATCATCCGCACGCTTGAAGCGAAATACACGTTTGACGACATTATCGGCACGAGTGAACAAATGCTGGTCGCCCTTGAACAGGCGAAGCTCGGGGCGAAAACGCCGGCGACGATTCTGCTGCGGGGAGAATCCGGCACAGGAAAAGAACTTTTCGCCCACGCCATCCATAATGAAAGCGACCGAAAATACAATAAATTCATCCGGGTCAATTGTGCGACCCTGTCTGAATCCCTGCTAGAATCCGAGCTTTTCGGCTATGAGGAAGGCGCGTTTACGGGCGCGAGGCGCGGGGGCAAAAAAGGACTTTTTGAGGAAGCGAATAACGGCAGCATTTTCTTAGATGAAATCGGAGAGCTGACCCAAAGCACCCAGGCAAAGCTGCTCAGAGTTCTGCAGGAAAAAGAAATTATCAGAGTCGGCGGCGCTAAAGCGATTTCTGTCAATGTCAGAATTATCGCAGCGACAAACGTCAACATCGAAAAGGCCATGGCCGAAGGCGCGTTCCGTGAAGACCTGTATTACCGGATTAACCGCTATCCGATCTCAATCCCGCCGCTTCGGCAGCGCAAAGAAGATATTGAAGCGCTGAGCATTCGGCTCATTGAAAAAATCAATCAGGATTACGGCCGCAATGTAAAGGGGCTCGCGCCGAACGCGCTGCGTGCTTTATCAGCCTACAGCTGGCCGGGAAACGTCCGGGAGCTTGAAAATGTTCTCGGACGGGCAATGATATTTTTAGAGCCGCACATGGAACGGATCGAACAGCAGCATCTGCCTGTTTTTGAATCAGAGCTGAATGAAAAAAACGGCACCCAAAGTGATTTTCCGGATGTGGAAGGGGAAAAGCTGTCTCAGGCTGTTGAAAAATTTGAAGCGCACGTCATTCAAAAAACACTTGAAAAGCATAAATTCAACCGAACCAAAACGGCAAAAGCGCTTGGTGTCAGCATTCGGAATCTGTACTACAAAATGGACAAGTACGGCCTTGCAAATGACGGCATGCAATAA	MQKVLIIGAGKGGTALLQILMKTKLIRIIAVVDQDPEAQGLQEARKYGIATSSDWKPYITEDIDIIIHTTGDKAVMDELLHEKKEQTIVMPGKLAYMVFQLMEEKQQLIQMLKSQTYKHDRIFNSTHDGMIFIDVNETIILFNQMAEKMVGQKREDVIGRQIKDVVPNTKLPRILETREPEYNQKQLLGKHLQIVTTRLPIIDEGGKLLGALCVFKDITDAVELAEEVTNLKQIRTMLEAIIQSSDEAISVVDENGIGMLINKAYTKMTGLSESEVIGKPASTDISEGESMHLKVLGTRRPVRGVRMKVGPNKKDVIVNVAPVIVDGILKGSVGVIHDVSEIKTLTAELNRARQIIRTLEAKYTFDDIIGTSEQMLVALEQAKLGAKTPATILLRGESGTGKELFAHAIHNESDRKYNKFIRVNCATLSESLLESELFGYEEGAFTGARRGGKKGLFEEANNGSIFLDEIGELTQSTQAKLLRVLQEKEIIRVGGAKAISVNVRIIAATNVNIEKAMAEGAFREDLYYRINRYPISIPPLRQRKEDIEALSIRLIEKINQDYGRNVKGLAPNALRALSAYSWPGNVRELENVLGRAMIFLEPHMERIEQQHLPVFESELNEKNGTQSDFPDVEGEKLSQAVEKFEAHVIQKTLEKHKFNRTKTAKALGVSIRNLYYKMDKYGLANDGMQ	PGPT0001030_2335	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001030-acoR-K21405	NA	NA
D1-12_01480	243			hypothetical protein	ATGAGCCGGCTTGTTGCGCTTTTGATTTTGGTCCTCCCCGGCGCTGTCGCGGCGCTCGGCATTAAGCTGATGAGAGATGCATTATTCGGGCATGTGTTTTCCCCGTTTCCGTCCCTTTTTCTTCAGGGGGCGGCCGGTTTGGCGTTTTTTTTGTTCGGCCTTTATGTTCTGGCCGGGTTTATTTTGTACAGAGATCGGAAACGCAATCAAGTCAGCCCGCGGTTCAGGAAAAAAAAGCTGTAA	MSRLVALLILVLPGAVAALGIKLMRDALFGHVFSPFPSLFLQGAAGLAFFLFGLYVLAGFILYRDRKRNQVSPRFRKKKL				NA	NA	NA	NA	NA
D1-12_01481	906	mmgF	COG2513	2-methylisocitrate lyase	ATGACGTGGATCGTCAGCGAGCAGTCGTCTCAAGAGGAGCTTGCAGAGCGGTTCCGTACGCTGATGGCAGCGCCGGATCTATTGCAGATCCCCGGCGCTCACGATGCGATGGCCGCTCTTATCGCCAAGAAAACGGGGTTTTCGGCTCTTTATTTATCAGGCGCGGCTTACACGGCGAGCAGAGGGCTGCCCGATTTAGGGATCATCACGTCGGCGGAAATGGCTGAACGGGTTAAAGATCTGGTCCGCTCGTCTGATCTGCCCGTCCTTGTCGATATTGACACGGGTTTCGGAGGAGTGCTGAATGCCGCCCGGACGGCGAAAGAAATGTATGAAGCGCGCGCGGCCGCCGTCCAGATGGAGGATCAGCGCCTGCCGAAAAAATGCGGACATCTGAATGGGAAGCAGCTCGTGCCGATTGAAGAAATGGCGCAAAAAATCCAAGCGGTCAAGCGGGCCGCGCCGACCCTTCTTGTTGTTGCGAGAACAGACGCCAGACAGCAGGAAGGGCTGGAGGGGGCATTAACAAGGGCGTCCGCTTATATAAAAGCGGGTGCTGACGCTGTTTTTCCGGAAGCGCTCCAATCCGAAAGTGAATTCAGAGCGTTTTCCAAACAAATCAGTGTGCCGATTCTCGCTAACATGACTGAATTCGGAAAAACGCCGTATTACAGTGCTGATGAATTTTCCGATATGGGCTGTCAGATGGTCATTTACCCGGTCACGTCACTCAGAACGGCGGCCAAGGCTTTTGAGCGTATTTTCCGCCTTCTGAAAGAAGAAGGCTCGCAAAAAGAGGGGCTTTCAGATATGCAGACGAGAAAAGAATTATATGAAACGATCGCTTACGATGACTATGAAGAACTGGATCAATCCATTGCCAAAACGATACTGCCGGACGACTGA	MTWIVSEQSSQEELAERFRTLMAAPDLLQIPGAHDAMAALIAKKTGFSALYLSGAAYTASRGLPDLGIITSAEMAERVKDLVRSSDLPVLVDIDTGFGGVLNAARTAKEMYEARAAAVQMEDQRLPKKCGHLNGKQLVPIEEMAQKIQAVKRAAPTLLVVARTDARQQEGLEGALTRASAYIKAGADAVFPEALQSESEFRAFSKQISVPILANMTEFGKTPYYSADEFSDMGCQMVIYPVTSLRTAAKAFERIFRLLKEEGSQKEGLSDMQTRKELYETIAYDDYEELDQSIAKTILPDD	PGPT0001555_420	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
D1-12_01482	1428	mmgE	COG2079	Citrate/2-methylcitrate dehydratase	ATGACAGAACCCCGCCGAATGGACGCTGTAATCGAAGAGATTTCTGACTACGTGCTCCATCAGGAGATTGACAGTTCAGAAGCATTCACTACGGCAGGACATGTGCTTCTTGATACGATAGGCTGCGGAATTTTGGCGCTCAGCTATCCCGAATGTACAAAGCTGCTCGGCCCGATTGTCCCGGGAACCTCCGTGCCCAACGGCAGCAGAGTCCCGGGCACGCCTTTTGTTTTAGACCCTGTCACGGCTGCTTTTAATATCGGCTGTATCAACAGGTGGCTCGATTATAATGATACGTGGCTTGCTGCGGAATGGGGTCATCCGTCTGACAATCTCGGAGGCATATTGGCTTGTGCGGATTATATATCCAGAGTGCGGATTTCAGAAGGGAAAGAACCGCTTATCGTGCGCGATGTGCTTTGCGCAATGATCAAAGCGCACGAAATTCAAGGAATTCTCGCTTTGGAAAACAGCTTAAACAGAGTGGGGCTTGACCATGTGCTGTTTGTGAAAGTGGCGACTGCGGCTGTTTGCGCACAAATGCTGGGCGGCTCAAGAGAGGAAATCAATAACGCCGTATCTCACGCTTGGATTGATAATTCAAGCCTCAGAACGTATCGTCATGCGCCGAACACCGGATCACGCAAATCATGGGCGGCCGGCGACGCGACGAGCAGAGGCGTATATTTGGCCCTTATGGCGCAAAAAGGTGAAATGGGGTACCCGACGGCTCTGACCGCATCTGGGTGGGGATTTCAAGACGTACTGTTTAACCGGCAGGAAATGAAGCTTGCCCGCCCGCTTGGGTCCTATGTGATGGAGAATGTTTTATTTAAAGTATCCTACCCGGCTGAATTTCACGCCCAGACAGCGGCGGAATGCGCGGTCCGGCTTCATCCGGAGGTGAAAGACCGCATTGAAGACATTGATAGGATCACGATTATGACCCATGAGTCGGCAATCCGGATTATCGATAAAAAAGGGCCGCTTCACAATCCGGCTGACCGGGATCACTGCCTCCAGTATATTACGGCAATCGGGCTGCTTTTCGGAGATATCACGGCGGATCATTATGAAGAGGAAACGGCGTCTGACCCGCGAATTGATACATTGCGGAGCAAAATGGAGGTGACGGAACACAAAGCGTACTCAAAAGATTACTTAGACCCGAATAAGCGATCCATATCAAATGCCGTACAGGTGCATTTTACAGACGGCACGGCTACGGGACGGATTGAATGTGAATACCCGCTCGGACACCGGTTCCGCAGAAAAGAAGCCGTTCCGAAGATTCTTGCCAAGTTTTCAGCAAACATCAGCACTCATTTTTCATTGAAGCAGCAGCGAAAAATCGAAGAGGCCTGCGAACATAGCGGCCGAATGCAGAAGCTCAGCGTTAGTGAATTTATGGACTTATTTCTCGTATAA	MTEPRRMDAVIEEISDYVLHQEIDSSEAFTTAGHVLLDTIGCGILALSYPECTKLLGPIVPGTSVPNGSRVPGTPFVLDPVTAAFNIGCINRWLDYNDTWLAAEWGHPSDNLGGILACADYISRVRISEGKEPLIVRDVLCAMIKAHEIQGILALENSLNRVGLDHVLFVKVATAAVCAQMLGGSREEINNAVSHAWIDNSSLRTYRHAPNTGSRKSWAAGDATSRGVYLALMAQKGEMGYPTALTASGWGFQDVLFNRQEMKLARPLGSYVMENVLFKVSYPAEFHAQTAAECAVRLHPEVKDRIEDIDRITIMTHESAIRIIDKKGPLHNPADRDHCLQYITAIGLLFGDITADHYEEETASDPRIDTLRSKMEVTEHKAYSKDYLDPNKRSISNAVQVHFTDGTATGRIECEYPLGHRFRRKEAVPKILAKFSANISTHFSLKQQRKIEEACEHSGRMQKLSVSEFMDLFLV	PGPT0001470_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001470-acnB-K01682	NA	NA
D1-12_01483	1098	mmgD	COG0372	Citrate/2-methylcitrate synthase	ATGGAATCTTATTCTCCCGGTTTAGATGGCGTCATTGCGGTGGAAACGGGGATTTCTTTCCTGGATACACAGCAGGGCAGTATTTTAATCAAAGGCCACGATCTGATTGAGCTTTCTAAAACGGCCGGCTATATGGACATTGTTCATCTCTTATTGGAAGACAGACTTCCTGATGCGAAAGAGAAGGCGGCGCTTGAAGAAGACGTTCGGCGCGGCGGACATCTTCCCGAGGAAATCTTGCACATATGCCGTCTGCTGCCCGAACATACTCACCCGATGGACGGACTGAGGACGGGTTTGTCCGCCCTTGGAGGCTTTGACAAGGACATCGATGACCGTTCATCTTCCGTAAATCAGCACCGCGTACGCGGACTGATAGGCAAAATGCCGAATCTGACGGTCAACAGCTATCGAGTCATCAACGGGCTGGAGCCTTTGGCGCCGGTCGGAACCTTATCATACAGCGCAAACTTTTTATATATGATTACCGGAAAAACGCCGTCATCTTTGGAAGAAGAAATCTTCGACCGGTCGCTTCTTTTATACAGTGAGCATGAATTGCCGAACTCAACGTTTACGGCCCGTGTCATTGCTTCGACGCAATCGGATATTTACGGCGCGCTGACCGGAGCCGTCGCCTCGCTTAAAGGAAACCTTCACGGCGGCGCGAACGAAGCGGTTATGTACATGCTTGAAGAAGCGAAGGATACAGACGGGTTTACACAATTGTTAACTCAAAAACTCGCAAACAAAGAAAAAATCATGGGCTTCGGCCACCGTGTCTACATGAAAAAAATGGACCCGAGGGCGCTCATGATGAAAGAAGCGTTAAAAAAGCTGTCTGATCTTTCAGGTGATTTCCGTCTTTATAATATGTGTGAAGCCGGTGAAACCGTCATGAGGGAGAAAAAAGGCCTTTATCCGAATTTAGATTACTACGCAGCGCCGGTCTATTACATGCTTGGCATCCCGATCCCGCTGTACACGCCTATATTCTTCAGCGCACGGACGGTCGGACTGTGCGCCCACGTTATTGAACAGCACAGCCGAAACCGGCTTTTCCGCCCGCGTGTCCGCTATACCGGAGCGCGCCTGTAA	MESYSPGLDGVIAVETGISFLDTQQGSILIKGHDLIELSKTAGYMDIVHLLLEDRLPDAKEKAALEEDVRRGGHLPEEILHICRLLPEHTHPMDGLRTGLSALGGFDKDIDDRSSSVNQHRVRGLIGKMPNLTVNSYRVINGLEPLAPVGTLSYSANFLYMITGKTPSSLEEEIFDRSLLLYSEHELPNSTFTARVIASTQSDIYGALTGAVASLKGNLHGGANEAVMYMLEEAKDTDGFTQLLTQKLANKEKIMGFGHRVYMKKMDPRALMMKEALKKLSDLSGDFRLYNMCEAGETVMREKKGLYPNLDYYAAPVYYMLGIPIPLYTPIFFSARTVGLCAHVIEQHSRNRLFRPRVRYTGARL	PGPT0001455_6473	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
D1-12_01484	1134	mmgC	COG1960	Acyl-CoA dehydrogenase	ATGCATTTTACAGAAGAGCACATCATGATGAGAAAAATGGTGCGTGATTTTGCCCGCAAGGAAATCGCGCCGGTGGTTGAGCTCATGGAATCAACAGATGAATTTCCGGAGCGGCTGATTAAAAAAATGGGCGAAGCGGGATTGATGGGCATTCCCGTCCCGGAAGCTTACGGCGGGGCGGGTGCTGATACAACATCTTACATTTTAGCGATTCATGAAATATCAAAAGTCAGCGCGGCCGTCGGCGTCATTTTATCCGTCCACACATCGGTAGGGACAATCCCGATTTTGCATTTCGGGACAGAAGCCCAAAAACAAACGTATATTCCGAAGCTGGCAGCGGGCGAATATATTGGGGCGTTTGCGCTTACTGAGCCTCAATCCGGATCTGATGCGGGAAGCCTGAAAACAACGGCCGTGCGAAAAGGCGGTTCATATATTCTGAACGGTTCAAAAATCTTTATTACAAACGGCGGAGCGGCAGATCTGTATCTGACATTCGCCATAACCGATCCGGGTAAGGGGAGAAAGGGGATTTCCGCGTTTATCGTTGAAAAAAACACACCCGGTTTTTCTGTCGGAAAAAAAGAAAAAAAGCTCGGATTGTTAGGTTCCAATACTGTCGAATTGCAGTTTGACCAAGCGGAAATTCCGATTGAAAACCGGCTCGGCGAAGAGGGCGAGGGCTTTTCAATCGCCATGAAAAACCTTGACGTCGGACGGATCGGCATAGCGGCTCAGGCGCTCGGGATTATCGAAGCGGCGCTCGGCTGCTCGGTGGAGTACGCCAAAACCCGCAGCCAGTTCGGCAGACCCATCGCTTCGAATCAGGCCGTTTCATTTAAATTATCTGACATGGCGACGAATGCGGAAGCTGCCAAATTATTGGTCTATCATGCTGCTGATCTGTATCAGCGAGGGCTTCCGTGCGGAAAAGAAGCATCTATGGCGAAGCAATTCGCGTCCGATGCGGCGATGAAAGCGGCGGTGGAGGCTGTGCAGATTCACGGCGGCTACGGCTATATGAAAGAATATCCCGCGGAGCGTTTATTTCGGGATGCGAAAGTCACGCAAATCTATGAAGGAACCAATGAGATTCAAAGGCTGATTATTTCTAAGTATCTTCTTCAATAA	MHFTEEHIMMRKMVRDFARKEIAPVVELMESTDEFPERLIKKMGEAGLMGIPVPEAYGGAGADTTSYILAIHEISKVSAAVGVILSVHTSVGTIPILHFGTEAQKQTYIPKLAAGEYIGAFALTEPQSGSDAGSLKTTAVRKGGSYILNGSKIFITNGGAADLYLTFAITDPGKGRKGISAFIVEKNTPGFSVGKKEKKLGLLGSNTVELQFDQAEIPIENRLGEEGEGFSIAMKNLDVGRIGIAAQALGIIEAALGCSVEYAKTRSQFGRPIASNQAVSFKLSDMATNAEAAKLLVYHAADLYQRGLPCGKEASMAKQFASDAAMKAAVEAVQIHGGYGYMKEYPAERLFRDAKVTQIYEGTNEIQRLIISKYLLQ	PGPT0002285_460	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-12_01485	852	mmgB	COG1250	putative 3-hydroxybutyryl-CoA dehydrogenase	ATGAAGATGAAAACAATCATGGTCGCAGGTGCCGGTCAGATGGGAGCAGGCATCGCTCAGACGGCTGCAGAAGCCGGGTTTGCCGTCAAGTTATACGATTGGGAGCCGGAAACGGTAAAAAAGGGTCTTCACCGCATAAAGGCAAACCTGGAGAAAGAGCAGGCAAAAGGACGGAAGTCACAGCAGGAGACAGATGCCGTTTTCAGCCGTATTTCTCCGGCAGAGCTCAGAGAAGCGGGAGATGCTGATTTTGTAATTGAAGCCATTGCCGAAAACAAAAAAGCAAAAGCGGAATTGTTTGACACACTAGATAAAATCTGTCCCCCTCATGCCGTATTGGCAAGCAATACGTCTTCTCTTCCCATTACGGAGCTTGCCGCGGCCACAAAAAGGCCTGAAAAAGTAATCGGCATGCATTTTATGAATCCGGTTCCTGTCATGGAGCTTGTCGAAGTCATCAGAGGCCTCGCCACATCGGAAGAAACGGCGGAAACAGTAAAGGAGCTTGCCGTCCGGATGAATAAAACCCCTGTCGAAGTCAATGACTTCCCGGGCTTTATATCTAATCGCATATTAATGCCGATGATTAACGAAGCCGTTTATTGCCTTTACGAAGGAGCAGCTTCAAAGGAAGCGATTGATGAGGTGATGAAGCTCGGCATGCGGCATCCGATGGGTCCTTTAACATTAGCTGACTTCATCGGTCTGGATACGTGCCTTTCCATTATGGAGGTTCTCTATGCGGGGCTCGGAGATCCGAAATACCGCCCATGCCCTCTGCTCAGAAAATATGTCAGCGCCGGCTGGCTCGGCAAAAAAAGCGGGCGCGGTTTTTATGAGTACGGCAGATGA	MKMKTIMVAGAGQMGAGIAQTAAEAGFAVKLYDWEPETVKKGLHRIKANLEKEQAKGRKSQQETDAVFSRISPAELREAGDADFVIEAIAENKKAKAELFDTLDKICPPHAVLASNTSSLPITELAAATKRPEKVIGMHFMNPVPVMELVEVIRGLATSEETAETVKELAVRMNKTPVEVNDFPGFISNRILMPMINEAVYCLYEGAASKEAIDEVMKLGMRHPMGPLTLADFIGLDTCLSIMEVLYAGLGDPKYRPCPLLRKYVSAGWLGKKSGRGFYEYGR	PGPT0006075_2089	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
D1-12_01486	1182	mmgA	COG0183	Acetyl-CoA acetyltransferase	GTGGGAAAAACGGTTATCGTCAGTGCGGCAAGAACGCCGTTCGGAAAATTCGGCGGCGCATTAAAAGAGGTAAAGGCAGCCGAGCTTGGCGGCATTGCCATAAAAGAAGCAATGAAGCGCGCCGCTATCAGTGAAAGCGAAGCGGAAGGAGCGGTGATAGGAATGGTCGTCCAGGCGGGTGCCGGGCAGATTCCGGCACGGCAGGCTGCAAGATATGCCGGGCTTCCATGGTCCGTTCCGGCTGAAACCATTAATAAGGTCTGTGCATCAGGGCTCAGGGCCGTTACCATCTGTGATCAAATGATCCGGGCGAAAGATGCGGACGTGCTGATTGCAGGCGGAATGGAAAGCATGAGCAACATTCCGTACGCCATTCCGGCCGGCCGCTGGGGTGTGAGGATGGGGGACGGGGTTTTTCAGGATTTAATGGTTCATGACGGGCTCACCTGTGCGTTCGACCAGGTGCATATGGCTGTCCACGGAAGCACTGCGGCCAAAAAGTACGGCATTTCCCGGGATGAACAGGATCATTATGCTCTTTTGAGTCAGAAACGCGCGGCTGAGGCGGCTGAAGCGGGCAAATTGCGTGAAGAAATCGTTCCCGTCACCTGGACCGGCAAAAAGGGCAAACAGCATACTGTTGAAGCGGATGAGGGGCTGCGCCCTGATACAAGCCTTGAGCAGCTCGCAGCGCTCAAGCCAATTTTTACAGCCGACGGAACGGTTACAGCCGGAAACGCTCCCGGTGTAAATGACGGGGCCGGAGCATTTGTGCTGATGTCAGAGGAAAAAGCCGCAAAGCAGCATGTCAGGCCGCTCGCAGCGATACTTGGCTTTGCGTCAGTCGGACTGGAAGCGTCCGAGCTGGCAAGCGCGCCGGGAGAGGCCATCAGCCGGCTCTTGACAAAAACCGGACTGTCCGTTGACGATATTGATTTGTTTGAAGTAAATGAAGCATTTGCGTCCGTGGTGCTCGTGAGTGAAAAAATAGCCGGGTTCAGCCGGGAGAAAGTGAATGTAAACGGAGGGGCAATCGCGTTCGGCCACCCGATCGGCGCAAGCGGAGCGAGAATCATCATGAGTTTAATATACGAATTAAAGCGTCGCGGAGGAGGTTTAGGCATAGCGGCTATATGCAGCGGAGCGGCTCAAGGAGATGCCGTCCTGCTGGAGGTGTACTGA	MGKTVIVSAARTPFGKFGGALKEVKAAELGGIAIKEAMKRAAISESEAEGAVIGMVVQAGAGQIPARQAARYAGLPWSVPAETINKVCASGLRAVTICDQMIRAKDADVLIAGGMESMSNIPYAIPAGRWGVRMGDGVFQDLMVHDGLTCAFDQVHMAVHGSTAAKKYGISRDEQDHYALLSQKRAAEAAEAGKLREEIVPVTWTGKKGKQHTVEADEGLRPDTSLEQLAALKPIFTADGTVTAGNAPGVNDGAGAFVLMSEEKAAKQHVRPLAAILGFASVGLEASELASAPGEAISRLLTKTGLSVDDIDLFEVNEAFASVVLVSEKIAGFSREKVNVNGGAIAFGHPIGASGARIIMSLIYELKRRGGGLGIAAICSGAAQGDAVLLEVY	PGPT0008320_8633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-12_01487	738	glpQ_2	COG0584	Glycerophosphodiester phosphodiesterase	ATGACGAATATTTTTGCCCACCGGGGGGCGTCGGGCGACTGCCCGGAAAATACGATGCCCGCGTTCAAAAAAGCGATTGAGGACGGGGCTGACGGAATTGAACTTGATGTACAGATGACAAAAGACGGCCGGATCGTGGTCATTCACGATGAAACCCTCGACCGCACGACGTCTTTGAAAGGATTTGTGAAAGATACGGCGTATGACAAAATCAGAACCGCCGATGCCGCCGGAAAATGGAAAGATGCTTTTAAAGGTGTCAGAATTCCGCTTTTGTCAGATGTGCTGCGTTTTGCGGAACGTGCTGATTTTCTGATAAACATTGAGCTGAAAAACAGTGTATTCCGTTACGAAGGAATGGAAGAAGAAGTGATCAAAAAAGTCAGATATTACGGACTGGAAAAGCGCGTTATTTTTTCTTCATTTAATCATGAGAGTCTCGCGGTTTGCCACGCCCTTGCGCCTGAAATTGAACGGGCGGTGCTGACAATGGATGTGCTGTACCGGCCTGAACGGTATCTTGCCGCCATTCCCGCTTCGGGTTATCATCCGAAGCTCGGTACGCCTGCGGTCAGCGCTGAAGTGATCAAACATCTTGCAAAACACCAAGCGGCGCTCCGTCCGTTCACCGTCAATCGTCCTGAGGATATGAAGCAGATGATGAAAGCGGGGATAGACGCAATTTTTACCGATTATCCAAAGCTGGCTGTTTCTATAAAAGAAGAATGCCGCCGCTGA	MTNIFAHRGASGDCPENTMPAFKKAIEDGADGIELDVQMTKDGRIVVIHDETLDRTTSLKGFVKDTAYDKIRTADAAGKWKDAFKGVRIPLLSDVLRFAERADFLINIELKNSVFRYEGMEEEVIKKVRYYGLEKRVIFSSFNHESLAVCHALAPEIERAVLTMDVLYRPERYLAAIPASGYHPKLGTPAVSAEVIKHLAKHQAALRPFTVNRPEDMKQMMKAGIDAIFTDYPKLAVSIKEECRR	PGPT0018470_7199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-12_01488	627	lytC_1	COG0860	N-acetylmuramoyl-L-alanine amidase LytC	GTGGGTTTACTGACAAAAAGCGCTGCTGCCTTCGGTGCCGCTCTGCTTCTGCTTGCGCCGTCTGCTTATGCAGCTGAACCTTTGCAAGGGAAAACCATTTATATCGATGCCGGACATGGCGGAGAAGACAGCGGGGCCGGCGGAAATGGACTGCTTGAGAAAAACATCAATTTAGCGGTGTCAAACAAGGTGATCGCCAAATTGGAGACAGAAGGCGCAAAACCTGTAGCTTCAAGGACTGACGATACTTTTTTACGTTTGGACGAGCGGGTGGCGAAAGCAAGCGCCAGCCAATCCGATTTATTCGTCAGCCTCCATACGAATTCAGCCGTATCAACGGCATCGGGCACGGAAACGTATTTTAATTCGACATATGAAGGCGCAGACAGCGAAAGGCTTGCTTCCGACATCCAGCAGCAGCTTGTCACGTCTTTAGGGATGAGGGACAGGGGCGTAAAAGAAGCTCCTTTTTATGTCATTACATATTCAAAGATGCCGAGTGTGCTGGCTGAATTAGGTTTTATCACAAATCCTCAAGATGCGGACAAGCTGAAAAGCGATAACGGACAAGAGCACGCCGCGGACGCCGTTGTAAACGGAATCGAAACCTATTACAGCGGCCGGTAA	MGLLTKSAAAFGAALLLLAPSAYAAEPLQGKTIYIDAGHGGEDSGAGGNGLLEKNINLAVSNKVIAKLETEGAKPVASRTDDTFLRLDERVAKASASQSDLFVSLHTNSAVSTASGTETYFNSTYEGADSERLASDIQQQLVTSLGMRDRGVKEAPFYVITYSKMPSVLAELGFITNPQDADKLKSDNGQEHAADAVVNGIETYYSGR	PGPT0024160_7420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
D1-12_01489	294			hypothetical protein	GTGAAGTCTGTCATACTTCTGATCTTCACCGCATGGCTGTTATCAGGCTGCGAGTATACCGCGGAGGCTGATGCGGCGCCGTCATTTACACAGGAAGGAACATTTATAAAAGCGGCCGGAAACGATACAATCGCGGTCGAAATTGACGGAGAAAGGCAAGAGGTGAAGGTGCCTTTCGCCAAGCGGTTTGAATGTCAGTCTCTGCCTGAACATACGGCGGTGCAAATCACCTATAAAAAAGAGAGCAACGGACAATTACGGCTTGAGGAACTGAAAAAAGAAACAGATATGTGA	MKSVILLIFTAWLLSGCEYTAEADAAPSFTQEGTFIKAAGNDTIAVEIDGERQEVKVPFAKRFECQSLPEHTAVQITYKKESNGQLRLEELKKETDM				NA	NA	NA	NA	NA
D1-12_01490	624	ytaF_1		putative sporulation protein YtaF	ATGGCTTGGTTATTGATTTTAGGTTTGGCAGTGTCCTCGAGCATTGATAATTTAGGAGTGGGGATGTCATACGGCATCAGAAAAATCAAAATATCGCATGCGTCGAATATGATGATCGCTTTTATCTGTTTTGTATTCAGTTATATCGGAATTTATTTCGGCAAATGGATTTCAGCCGTTTTACCGGGCTTTCTTCCTGTATTGCTGGCGGCGTTTATTTTATCTGTCATCGGTATCCGCATCATTCTGCTGGCTGTGCCGAGAAAAACAGCGCGTGTTGGCGCGTCAGGAAAAAAAGGCCGTTTTGCCGGTCTGCTGCAAAATCCGGAGGCAGCGGATGCCGACGGTTCGGGAGAAATCGGTATATTGGAATCCATGGTTCTCGGGGTGGCCGTATCCGCAAATGCGCTGACCAACGGATTAAGCGCGGGGTTGATCGGGCTTTCTCCCGCTGCCATTTCCATCACTGCGGCGGTCGGAAGCTTTTTGACCATATGGGTCGGCTGCTCGCTTGGAAAAAAAGCCGCATCATTGCGCATCGGTTCTTTTCACGTCGGACAGTTCAGCACGGTGCTGAGCGGAGTGATTATTCTCATCATTGCCGCCAATACGCTGCTCTTTTAA	MAWLLILGLAVSSSIDNLGVGMSYGIRKIKISHASNMMIAFICFVFSYIGIYFGKWISAVLPGFLPVLLAAFILSVIGIRIILLAVPRKTARVGASGKKGRFAGLLQNPEAADADGSGEIGILESMVLGVAVSANALTNGLSAGLIGLSPAAISITAAVGSFLTIWVGCSLGKKAASLRIGSFHVGQFSTVLSGVIILIIAANTLLF				NA	NA	NA	NA	NA
D1-12_01491	633			hypothetical protein	TTGACAGAAAATAAAAATAAGACACTGGGGCCCCTTTTAAAATCACTGCTTGATAAGCACTCGCTCTCCATGAGAAAACTCGGCGCCTTAACAAACATTGATACGGCCACCATCTCCCGGATTATAAACGGCAAGCAGAAGGCCAATTTAAAGCATCTTCAGGAATTTTCAAAACATCTCCGCACCCCGCTGGAGGAATTGCTTGAGGCGTCAGGCATAGACATCGGCCATGAAAAAGAAGCTGCGCCGCAAGACCCGATGCACGCGATTCAGGATATGCTGAATATGGCCGAGATGTTTGATCAGCCTTTTTCCCGGGAGCAAATTGAGCGCGAACTGACCAGATATGAACAATATGCCAAAACCCAGCAGGGCCATCGCCTGATTTGCGATGAGTTTCAAAAGAAAATGGACAATGAAGAAAGCGTCGGCCCTTTTATTGATCATTTGAAAAACATGCATCATCAGTATATGGATGAATCAACACCGGCTGAAGACCGCGCGATTCTCGGGAGCGCGCTGCTGTATTATATTTTAGCGACCGACGTCATTCCGGATTACATGTTTCCGATCGGCTACCTGGATGATGCCATCGCCGTTCAAATCGCTTTGAACCGGCTGAAAAAAAAGTAA	MTENKNKTLGPLLKSLLDKHSLSMRKLGALTNIDTATISRIINGKQKANLKHLQEFSKHLRTPLEELLEASGIDIGHEKEAAPQDPMHAIQDMLNMAEMFDQPFSREQIERELTRYEQYAKTQQGHRLICDEFQKKMDNEESVGPFIDHLKNMHHQYMDESTPAEDRAILGSALLYYILATDVIPDYMFPIGYLDDAIAVQIALNRLKKK				NA	NA	NA	NA	NA
D1-12_01492	96			hypothetical protein	ATGGACAGCAACACAGTTGTGGCAGTGTGCGCTCTGTTAAGTGTTGTGATTCAGATCGGAACGATATTCGCCGCAGGAAAGTGGAAAAAAGAATAA	MDSNTVVAVCALLSVVIQIGTIFAAGKWKKE				NA	NA	NA	NA	NA
D1-12_01493	1119			putative oxidoreductase	ATGAAGCAAACTTATAAACCGCTGTTTGAACCTTTTACGTTCGAAAGCGGCGTCACCATACCAAACCGTATTTCAGTCGCACCCATGACACACTATTCATCAAATGATGACGGAACGATTTCCGACCGTGAATTAAGCTACATTACTCCCCGTTCAAAAGAAATGGGCATGGTCATTACGGCATGTGCAAACGTAACGCCAGACGGCAAAGCGTTTCCAGGCCAGCCCGGCATCTATGATGATTCTCACATTCCCGGCTTGAAAAAACTCGCTCAGGCGATCCAGTCTCAAGGAGCGAAAGCCGTTGTGCAGATTCACCACGGAGGATTGGAATGCCCTCCTGAACTCGTGCCAAACAACGACGTCGTCAGTCCGAGCGGCTCAGAAGAAGACGGGAGACAAACGTCCCGGGCTCTCACCGAACAAGAAATTGAGCACATCGTGAAAGCATTCGGCGAAGCGACACGCAGAGCGATTGAAGCCGGCTTTGACGGTGTTGAAATTCACGGGGCAAACGGGTACCTGATTCACCAATTTTATTCACCGAAAACAAACCGGCGCACAGACCGCTGGGGCGGAAGCGATGAAAAGCGCCTTGCGTTCCCGCTTGCAGTCGTTAACGCTGTCAAACAGGCAATTGATACACACGCTGAAAATCCATTCGTTCTCGGCTACCGCCTGTCACCGGAAGAGCCGGAAACACCGGGGCTTACAATGAAAGAAACATTCATGCTCGCCGACGCGCTTGCGGAAGAGAACTTGGATTATCTGCATATTTCACTGATGGATGTCAATTCCAAAGCCCGCCGCGGGGCGGATACTTCACGGACCCGGATGGACTTATTAAACGAACGCGTCGGCCATAAAGTGCCGCTGATGGCCGTCGGTTCCATCTATACCGCGGACGAAGCGCTTGCCGTATTAGAAAGCGGAATTCCGCTGGTGGCTCTGGGACGTGTCATTTTGATTAACCCCGAATGGGCGGTGCTGGTCAAAGAAGGCCGCGAACAGGAAATCGAAAAAGCCATTCAAGCATCTGAAATTGAGAAATACCGACTTCCTGAACCGTTATGGGAAATGATTCAGAATACAGGCGGCTGGGTGCCGTTTGAAAAGTAG	MKQTYKPLFEPFTFESGVTIPNRISVAPMTHYSSNDDGTISDRELSYITPRSKEMGMVITACANVTPDGKAFPGQPGIYDDSHIPGLKKLAQAIQSQGAKAVVQIHHGGLECPPELVPNNDVVSPSGSEEDGRQTSRALTEQEIEHIVKAFGEATRRAIEAGFDGVEIHGANGYLIHQFYSPKTNRRTDRWGGSDEKRLAFPLAVVNAVKQAIDTHAENPFVLGYRLSPEEPETPGLTMKETFMLADALAEENLDYLHISLMDVNSKARRGADTSRTRMDLLNERVGHKVPLMAVGSIYTADEALAVLESGIPLVALGRVILINPEWAVLVKEGREQEIEKAIQASEIEKYRLPEPLWEMIQNTGGWVPFEK	PGPT0001115_143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001115-frdA-K00244	NA	NA
D1-12_01494	216			hypothetical protein	ATGATGGCTGGTTTCCCTATTACGATTAACAGTCTTTCCGGAAACGGGGTTGTCAATGTCGGCGGTGCGTTTTCGATAAGTCCTTTAACCGTATCAAAAACCGTCTACGGCTCAGGAGGGGGAAATACAGGTATGGTCCTGCAAATGAATCAATCCAGCACATCTCAATCTTCAAACTCTCAATACTCTGATCAAAATGTAACGAAAACATTATGA	MMAGFPITINSLSGNGVVNVGGAFSISPLTVSKTVYGSGGGNTGMVLQMNQSSTSQSSNSQYSDQNVTKTL	PGPT0025090_117	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304	NA	NA
D1-12_01495	213	gerPF_2		putative spore germination protein GerPF	ATGAGCGGTTGCCCGATTACGATAAACAACGTATCAGGAAACGGAGTTGTCAATGTTGGCGGCGCCATATCCATCAGTCCGCTGACTGCATCAAAAACCGTTTTCGGTGCCGGAGGGGGAAATATCGGCATTGTCATTCAAAACAATGCTGTAAGCCAGTCCAAAATGTTTGAACATCAATTTTCAGATCAGAATATTGTAAAGTCATTGTAA	MSGCPITINNVSGNGVVNVGGAISISPLTASKTVFGAGGGNIGIVIQNNAVSQSKMFEHQFSDQNIVKSL	PGPT0025090_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304	NA	NA
D1-12_01496	1182	alr2	COG0787	Alanine racemase 2	ATGAAAAAACTTTGCCGGGAAGTTTGGATTGAAGTTGACCTTGATGCGATAAAAAAGAACGTACGGGCGATCCGCCGCCATATTCCGAATACGTCTAAAATTATGGCCGTCGTAAAAGCGAACGCTTATGGCCACGGGTCTGTGGAAGTAGCGCGGCAGGCACTGGAAAGCGGGGCGAGCGAGCTCGCTGTCGCCAGCGTCGAAGAGGGAATTGTGTTACGGAGAGCGGGAATTACGGCACCTATTCTTGTGCTCGGCTTCACAGCTCTCAGCTGTGTGAAAAAATCTGCCGTTTGGAACATAACATTATCAGCGTTTCAGGTCAGCTGGATCAAAAAAGCGAATCGGATATTGGAAAAAGAAGCAGATTCGAAACGGCTGTCCATTCATATCAATGTGGATACCGGAATGGGCCGGCTGGGTGTGCGTACGGAAGAAGAACTTTTAGCAGTGGTGAAAGCACTCAAGTCGAGTACATACCTATCATGGGATGGCATCTTTACACATTTTTCAACAGCGGATGAACCGGACACTGAGCTGACGATGCTGCAGCATGAAAAGTTTATCAGCTTTCTCAGCTTTTTAAAAAATCAAGACATTACGCTGCCTACCGTGCATATGTGCAATACAGCCGCCGCTATCGCCTTCCCGGAATTCAGCGCCGACATGATCCGTTTAGGCATTGGGTTATATGGTTTATATCCGTCCGCCTCGATAAAGGAACTGAACCTCGTGGATCTCACACCCGCACTAAGTTTAAAGGCGCGTATCGCTTATGTGAAAGCCATGGTGACAGATCCCCGAACCGTCAGTTATGGCGCCACATATATTGCCGAACCGGGTGAAATCATCGCGACGATTCCGATCGGCTATGCTGACGGTTACTCCCGCGCCCTGTCCAACCGCGGGTTTATTCTGCACCGCGGCAGACGGGTGCCGGTGGCGGGGAGAGTGACAATGGATATGATCATGGTCAGTTTAGGTGAGAATGAGGGCAAACAAGGAGAAGAAGTCGTCATCTACGGTAAACAACAAGGAGCCGAGATTTCCGTTGATGAAATTGCCGAAATGCTCGGTACGATCAGCTACGAAGTCCTATCTGTGTTAAGCCGCCGCGTCCCCCGCTTTTATTTCAGAGACGGCAAAATCATTAAAATATCAGCTCCGGTATTATACGTGTAG	MKKLCREVWIEVDLDAIKKNVRAIRRHIPNTSKIMAVVKANAYGHGSVEVARQALESGASELAVASVEEGIVLRRAGITAPILVLGFTALSCVKKSAVWNITLSAFQVSWIKKANRILEKEADSKRLSIHINVDTGMGRLGVRTEEELLAVVKALKSSTYLSWDGIFTHFSTADEPDTELTMLQHEKFISFLSFLKNQDITLPTVHMCNTAAAIAFPEFSADMIRLGIGLYGLYPSASIKELNLVDLTPALSLKARIAYVKAMVTDPRTVSYGATYIAEPGEIIATIPIGYADGYSRALSNRGFILHRGRRVPVAGRVTMDMIMVSLGENEGKQGEEVVIYGKQQGAEISVDEIAEMLGTISYEVLSVLSRRVPRFYFRDGKIIKISAPVLYV	PGPT0020040_885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
D1-12_01497	303			hypothetical protein	TTGGTTAAATTTATTCAATACGTTGGATTTGCTATACTTGCAGTAGGTATTATCGCGTTTTTGTATCTTGGATTCGGCTTGAAAACATATACACCGGGCTTATCGGAAGGCTATATGTATGCCGAACCGCACCCGCTACGGTGGATTTACGCCACGGCTTCCTTTTTAGGATCGGCTTTCTTTGGCAGCGTGCTGATCGGGCTGTCTCGTATTTTACATCATAAGGAATCCGAATCTAGTTACATTCGAGAAATACAAAACGATCTCCGCCTGATGAAAGCGCGCGAGGGAATTACGAAATGA	MVKFIQYVGFAILAVGIIAFLYLGFGLKTYTPGLSEGYMYAEPHPLRWIYATASFLGSAFFGSVLIGLSRILHHKESESSYIREIQNDLRLMKAREGITK				NA	NA	NA	NA	NA
D1-12_01498	2826			hypothetical protein	ATGGCCGGAGCAACAGTCGGAGAAATCCGGGCGCGTCTCGAATTAGATATGTCAAACTGGACGCGCAGACATCAGCAAGCGCGAAATGACATGACGAGAATGGGACGATCAGCCGAAAACTTGTCGAAGCAAATGGGCCTCATCCAAAAGGCTTCGCTTGCGGTCGGAGGCGCAGTCGTGGCCGGCATCGGCGTTTCCGTCAAAAAGGCGGCTGACTTCGAGGAGGCCATGTCGCGAGTTAAAGCGATCAGCGGCGCGACCGGTCAGGACTTCGAAGACCTGAAGAACATTGCGGCTAAGATGGGCGCCGAAACTAAATATACAGCGGTAGAGGCGGCCGAGGGTCTTCAATACCTCGCGATGGCGGGTTTCAGCGTAAAAGCGCAAGTCGGATCGTTGCCGGCCGTGCTTAACTTGGCTGCGGCTTCAGGCGAAGGACTCGGACGTTCAGCGGATATCGTTTCGAACATCATGACCGGCTTCGGCATTAAAGCGGAAGACTCCGGGCACGCCGTTGACGTACTCGTAAAAGCGATGACGACGGCCAACACGGATCTGCCGCAATTAGGTGATGCAATGAAATTCGTCGCCCCTGTCGCGCACTCTCTCGGATATTCAATCGAAGATACTGCGACTGCCGTTGCGAAAATGTCAGACGCCGGTATTCAGGGATCGATGGCGGGTACGGCGCTTCGTGCGTCACTCTTGCATCTTACGAATCCGGTAGGCCAGTCGGCCAAGGCGATGAAAAAGTACGGCATCGAAGTAAAGGACGCTCACGGAAATCTAAAGCCGATACCGGAACTCGTCGGCCATATTTCGAAGCAATTCGAAGGGATGACGTCGGCACAGAAAACGGCCGCGGCGGCACAGCTTGTCGGAGTTGAAGCGGCTTCCGGATTCGTTACGCTCTTGGGCGTCGGAGAAAAGGGACTGCGCAACTACTCGAAGACATTGAAAGAAGCCGGAGGGACTGCGGACAAAGTAGCGAAAACGCAGATGGATAACCTCAAAGGGTCATTCGAACAGTTTACGTCTGCGCTCGACGGCCTCGGAATCGCGATCGGTAACGAGTTTTTACCTACTTTCCGAAAAATTGTCGAAACCGGTACGAAAGTGGTCGAGTTCCTTAGCGAACTAAATCCGGGGATCATTACGACGGGCCTCGAAATGGCGGGCGCGGCGGCAGCGGTGGCGCTGGCTGCGTCGTCCATGATGAAACTCGGAATCGCAGTGCGCGGTTTGTTCGTTGCGATGGGGCCGGCCGGATGGGTGATTACCGGGCTCTCGATACTTGGCGGCCTATTAGCCGGTGTCAAGTCCGGTTATGACGAAATGAATACCGTGAGCTTAGAATCGGCTGAAGCTAAGCAGAAGGAAGTTGAATCGCTTAACGATTTATCTGCGGAGTTTGAAAAACTTCAGACTAAGACGAAATTGACTGCGGATGAATTTGCGTATTATCTCGATTTGAACGACCGAATTAAAGCGGAAACGGATTCCGACGCAATTAAGCGTATGAAGGAAGAGCAGGAAGGACTGCGTAAGAAATCCGGACTGACAAACAGTGAATTTGATCGCTATCTGTCGCTTAACGACAAGGTTTTAGAGAAGGCACCGCAAACAAGCGCTGCGATCACCGATCAAGGTAATGCGTTCGCGAAAAATACTAAGGCGTTAAAGCGGCTGACTGAGGAAAAGGCGGAAGATCTGCGGCTTGATCTGGAAAAGCAGAAAAACCTCGCAAATAAAAATTATGAAGACAACCTAAGTAAGCAGAAGCAGCTTACAGGAGAAATAAAAGACCTGACAAAAGAGCGACACAAAAGCGAGAGTGAGGTAGCAGATCAGCTTGCTCTAATTGAAAAAACTGAAGGGAATATAAGAGACGCTAAACTCGAAGGAAACACGAAAGAAGTAGCTTCACAAGAGACTGTCCTTGAAGTTCAGAAAGGGACCTTAAAGACTCTAAGAAGCCAATTAGACACCAGCTTACAGAAAATTTCAGCTAAAAAGACCGAGCTTGGTAAGGTGAATGAAGAATTATCTAAGCTGGATACTATTCGTCAGAAAATGATCGACCTTGAGCTCCGGCAAGTTGGATTAACCGCGAAAAAGGGCGAAGGTGTTAAGGTACTCAACGAAGAAATCGGCCGTCTACAGGCTGCAAGAGCAAACCTTGTCAATAACACCAATGCGGCGGACAGAAAGAAGAAGAAATATAAGGATGCCGTAAAAGCGATCGACGACGAAATAGCTAACCTCCGGACTGCTAAGGGGCGCGTTCAAGATATCACCGAAGAAGCACAACGGATGAACAGCGAGCTTGGCAAAGATGTAAACAAAAAAGTTCTAGTCACGTATAATACGGCCGGCGAAGAGATTAAGATTTCGAAGAAAACGTTTAAGAAAACGCACGGTCACGGAGGTCAGGAAGTAGCCTACCACACGGGCGGCGTCATCGGCCTTGGTCAGATCAATAAACTTCATATCGGCGGCCTCGCGTCTCAATTCGCTAACCCGATGAGCCACGAAGTCGATATCCGGGCCCTACGAAACGAAATGGTGCTTACTGAAGCGCAACAGGCGAACCTTATGCGGATGATAGACGCAGGGCATACGACGAGCCTCGGAGGAGATTCCGGCTTATCTTCGGATATGCTGAAGGCATTACGGGGAATAGAAAGGGCCACCATCAGTAGTTCGAATAATCCGGTTTATGTACAAGTAGATGGCTACACAATTGCAAAGGCTTCCTATCCTCATATTGATCGGCTGATACACGATGACATCGATATGGGTAGGTTACTCGACGGAAGGTTCTAG	MAGATVGEIRARLELDMSNWTRRHQQARNDMTRMGRSAENLSKQMGLIQKASLAVGGAVVAGIGVSVKKAADFEEAMSRVKAISGATGQDFEDLKNIAAKMGAETKYTAVEAAEGLQYLAMAGFSVKAQVGSLPAVLNLAAASGEGLGRSADIVSNIMTGFGIKAEDSGHAVDVLVKAMTTANTDLPQLGDAMKFVAPVAHSLGYSIEDTATAVAKMSDAGIQGSMAGTALRASLLHLTNPVGQSAKAMKKYGIEVKDAHGNLKPIPELVGHISKQFEGMTSAQKTAAAAQLVGVEAASGFVTLLGVGEKGLRNYSKTLKEAGGTADKVAKTQMDNLKGSFEQFTSALDGLGIAIGNEFLPTFRKIVETGTKVVEFLSELNPGIITTGLEMAGAAAAVALAASSMMKLGIAVRGLFVAMGPAGWVITGLSILGGLLAGVKSGYDEMNTVSLESAEAKQKEVESLNDLSAEFEKLQTKTKLTADEFAYYLDLNDRIKAETDSDAIKRMKEEQEGLRKKSGLTNSEFDRYLSLNDKVLEKAPQTSAAITDQGNAFAKNTKALKRLTEEKAEDLRLDLEKQKNLANKNYEDNLSKQKQLTGEIKDLTKERHKSESEVADQLALIEKTEGNIRDAKLEGNTKEVASQETVLEVQKGTLKTLRSQLDTSLQKISAKKTELGKVNEELSKLDTIRQKMIDLELRQVGLTAKKGEGVKVLNEEIGRLQAARANLVNNTNAADRKKKKYKDAVKAIDDEIANLRTAKGRVQDITEEAQRMNSELGKDVNKKVLVTYNTAGEEIKISKKTFKKTHGHGGQEVAYHTGGVIGLGQINKLHIGGLASQFANPMSHEVDIRALRNEMVLTEAQQANLMRMIDAGHTTSLGGDSGLSSDMLKALRGIERATISSSNNPVYVQVDGYTIAKASYPHIDRLIHDDIDMGRLLDGRF				NA	NA	NA	NA	NA
D1-12_01499	258			hypothetical protein	ATGGGCGCCCTTTTATTTTACCTAAAAGGAGCGAATGAAATGGGAGAAGTAATTCCTTTTGTAACGAAAGAAGAAATGGATAGAATCATCGATTCTGTGTGTATTTTCGAATGGGTAGCAGAAAAAGTTTTACAGGGCGAGATAGACTTCACCAAAGAGCAAGAAGCGAAAATTGTTGAAGCATCCGAAGTCCTAGGCCAATGCAGCGAAGAAGAACTTTTGCTCTACTTTAATCGCCCGAAAGACGGTGATAAATAA	MGALLFYLKGANEMGEVIPFVTKEEMDRIIDSVCIFEWVAEKVLQGEIDFTKEQEAKIVEASEVLGQCSEEELLLYFNRPKDGDK				NA	NA	NA	NA	NA
D1-12_01500	708			hypothetical protein	ATGAATAAATTTGAAAAAATGAGCCAGAGTTACGCGCAAATGGAACAAATTCGTGAATCAGTCAAAGGCTTGGTTAGGGAGGCTAAACAGGGCTTTGAGAAGCGCGAAACGGAGATACTTCAAGACGTTACCCTTACACATGTAGGCCAAAAACAGCAGCTAGATAAAGTACGCGGTCAATATTTAAACCAACTATTAGGGCAACTCCAGAGTGCTAAAAAGGAATTCGATAAGACTTCCGATAGTACGGTCGCTTTTGCGGATGAAATCCTTCTCGCCGCGCCCGAAAAACCGTCCGCAGCAGTAGAAGCGGAATTTGAGCGACGTCTTACCGCCCTTAAAACGGATACTGTACTGGCGGCAAATACTAAATCAGGATTGAGTAAACTAGAAGCTTTCGTCAACACGATTGATAATCCGTATTTTGCTCGGAAAATGATGGCTGAGTTTCCGGCGTTGGCAGCCTCTTTTGTTAATAAAGACGTATCAAGCCAACTAAAGCTCGGCCATATAAATACGAAGCTGACAAATGTGGCGTCTACCGAAGACCAAAAACAAGCTCAACAGATTAAGGAGTCCGCATTGAGTAAAAAAGATCAGCCACTTATTCCGGAATATGATCAGTATTATAATGTTGCGACTAAAACGTTCGGCCATCAGGTGGCTGACTATCTCCGTAATCCAGAAGCGTATTCCAGCCAAGAGTAA	MNKFEKMSQSYAQMEQIRESVKGLVREAKQGFEKRETEILQDVTLTHVGQKQQLDKVRGQYLNQLLGQLQSAKKEFDKTSDSTVAFADEILLAAPEKPSAAVEAEFERRLTALKTDTVLAANTKSGLSKLEAFVNTIDNPYFARKMMAEFPALAASFVNKDVSSQLKLGHINTKLTNVASTEDQKQAQQIKESALSKKDQPLIPEYDQYYNVATKTFGHQVADYLRNPEAYSSQE				NA	NA	NA	NA	NA
D1-12_01501	654			hypothetical protein	ATGAAATTTAAGTATTCAAGTGAGCTCAAAGAAAAATTATCGGAGCTTGAGGGCCTAGAGGAGCAGAAGAAAAAAGCACTCGAAAGGCTTCAGGAACACGATGAAAAGTTAGCGAAGGAGCTTCAAAAGGCTGAGGAAGATTTGAAAGCGGCCACAATGGAACTAGCGCTCGACGCATCTTCAACAAAGAGAACGAAAGAGCGTAAGGCGAGGGAAACCGTTGCATCGCTGCGGCTGGAAGTTTCGGGCGGATACGAGAGGAAAACGTCCGTTAAGCAGGCGCACGAACAAAAGATACACGCGGTGAAAGAAGAGATCCTCCGGAAGTTATCAGATGAAGTAATCGCACATAAGAGCAAATATGAGCAGGCAGCGCTTGACCGTGTACGTAAAGCTAAGATGGAATACTTAGAAGCCGCAGCCAGTTACCACGATTTAATTGATATCCAATGCCGACAAACATACTTCGATATAGGACGACAGATAGGCGAAGCGCAATTCGCTACCTATGACGGGCTATTCGAAAGGTACAAACCGAGAATTTACGTCACAGAGCCAACCTTCACTTATAGACCTAACGGGACAAACCCATACGGGATCATTGAGCCAGAAATACACCGGGCATGGTTAAAAGGGGAAATCCCCGCTGAATAA	MKFKYSSELKEKLSELEGLEEQKKKALERLQEHDEKLAKELQKAEEDLKAATMELALDASSTKRTKERKARETVASLRLEVSGGYERKTSVKQAHEQKIHAVKEEILRKLSDEVIAHKSKYEQAALDRVRKAKMEYLEAAASYHDLIDIQCRQTYFDIGRQIGEAQFATYDGLFERYKPRIYVTEPTFTYRPNGTNPYGIIEPEIHRAWLKGEIPAE				NA	NA	NA	NA	NA
D1-12_01502	483			hypothetical protein	ATGAAGCATACACTCTATCTCGCGAAGGTGGGCGACGAGAAACGGGCGGCCTACGCTTACATCGTTACAAATTACAGGGGCATACAGTCCGCCGACCATTTCATCACTGCGGGCAAGCACAGGCACGACGGCCGGCTGACCGATCATATCGCTTTTCAGCGCGCTTTACGAGCTGCATCGGCTTTAGCGGGCGTTGTCGACCTAACGATCGTCTTTGACCACTCGCTCATTGACTTGGCATTCGAAATGGTCGAGGTTGAGCGTCCGAAATACCCAACCATCTATCAGAATTCTGTACGTTTGACCGGCCGGTTCCAGTCGCATGAATTTGCGTCGACAGATTTTAACGAAACGGGAGCGTGTCCGGAAGAAGTTTCCGTAATGGATGATGCGATGGAGCTTTTGGCTGATTGCCGGACGTTTAAGGGGCGTTTATTACTGCTGAAAAATTGCCTTTTCAACAATAAAATTATCATTTCTTAG	MKHTLYLAKVGDEKRAAYAYIVTNYRGIQSADHFITAGKHRHDGRLTDHIAFQRALRAASALAGVVDLTIVFDHSLIDLAFEMVEVERPKYPTIYQNSVRLTGRFQSHEFASTDFNETGACPEEVSVMDDAMELLADCRTFKGRLLLLKNCLFNNKIIIS				NA	NA	NA	NA	NA
D1-12_01503	369			hypothetical protein	ATGTATTGCGTATCAAGAATGACCGAGTTTTGGGGTAGTTACGGAGAATCAGGCGGCTCATACATCCGAGAGGCAAAAGGCGGGAGCTTTACGGGGTTGCTGCCCGGCCGCATCGCACTTATCGAACTGGATACGGAAAGAGGAACCTATATTGTAACGGGTCGCGATGGCGGAATCATAGCGATGTCGACCATCAAGAGGAATCAGAAGGCCAATGACACCGACTTCCGGCGTGTACTCCTCGAAGCGGCCACCGATGCCGCAATACACTTCGGCGCCAAGAATGCGTTTGTGCTACGCGGATCGGAAAGAGTGCCGTTAGATGCGTATGAAGCGGAATTATTTGCGGAAGAGAAGGCGGACATATGA	MYCVSRMTEFWGSYGESGGSYIREAKGGSFTGLLPGRIALIELDTERGTYIVTGRDGGIIAMSTIKRNQKANDTDFRRVLLEAATDAAIHFGAKNAFVLRGSERVPLDAYEAELFAEEKADI				NA	NA	NA	NA	NA
D1-12_01504	201			hypothetical protein	TTGTATGAGGTTTTCATCTATGTAAAACCCGAAGAAGTGCTCACGGTAGACGTGGAAACGGGTGAAATTTTGCGGCGTGTGACCGGCTGTCATCGAGATTTACTAGTTTCACAGGCTATTCTTTACAGTCAAAGTGTCGATGAATTACCGAAAATCGTTTATCAAAAGGAGGATTCCGCATGTATTGCGTATCAAGAATGA	MYEVFIYVKPEEVLTVDVETGEILRRVTGCHRDLLVSQAILYSQSVDELPKIVYQKEDSACIAYQE				NA	NA	NA	NA	NA
D1-12_01505	213			hypothetical protein	GTGAATGAGCTTTGGAAGCTGGATAAAGGGTGGATCGCCGGATATACGGAGGACAAAGAGCTCATACGACGCGTGAAGCGACATAAGAAGGACTGGAAGATTATTGCGGATTACATCAAGTACGGCCGGCTGATCGGCGTACACTTCAAAATACCGATTGAGCAGCGGCGGCCGGCGGAAAGAATGTTCGATACGAGGTTATCAAATTCTTAA	MNELWKLDKGWIAGYTEDKELIRRVKRHKKDWKIIADYIKYGRLIGVHFKIPIEQRRPAERMFDTRLSNS				NA	NA	NA	NA	NA
D1-12_01506	228			hypothetical protein	GTGCTAACTGAGACTTCACTGTATCAAATTCGAAAAGTTTATCGGCTATCGCAATATGACGTCGCCAAGATTACCGGGGTGTCTGTGCCAATGGTTTCCATGATCGAATCCGGCCACCGTCGGCTTCCTGAAAAGGTCGCTAATCGATTTACGGAAGCGTTACAGCTCACTCCGGAGAAGATTATCAAACTAGTTCAGTTCTACGAGGAAACGGAGGTGCCTCGGTGA	MLTETSLYQIRKVYRLSQYDVAKITGVSVPMVSMIESGHRRLPEKVANRFTEALQLTPEKIIKLVQFYEETEVPR				NA	NA	NA	NA	NA
D1-12_01507	495			hypothetical protein	TTGGGGCAGCCGAAAAATATCAGCCAAAATTTTAAAAACCCAGGAGAAGGAGCCGTCGAATTTGCGATAGGGTTTGTCAAAAATAAAACGAGAGCAGAAGCTCTGCCGATAATAAAGCGTTTGCTTCAAGGTGACGTACACGACGCGGGTGACAAGCGGATAAAACGATGCGCGTACTGCGGCTACTACTATAGGGATCAAACAAAGCCAAATAACAGCAAGACGTGCTCACAGTTCTGTAAAACAGATCTGGATACTTTAAGAAGAAAGAAGAAAAACGCAGATAAGGCGTTACTTACTTCGGATAAGTCGTTGAAGAAAATGGAAAAACTTTACGTGTGGTGGTTGGATTATCCTTTTTGGATTAGTGAGCGAGAAATGATAAACCGGTCTTGGAAGCACGAGAAGCCCGTAACCAGCGAAAAGTTGGCGATACATGACGCTGCTAAACAGAGAGATAAGGAGTTCGGTGGCAAGCGGGCCCCAAAACGTTAG	MGQPKNISQNFKNPGEGAVEFAIGFVKNKTRAEALPIIKRLLQGDVHDAGDKRIKRCAYCGYYYRDQTKPNNSKTCSQFCKTDLDTLRRKKKNADKALLTSDKSLKKMEKLYVWWLDYPFWISEREMINRSWKHEKPVTSEKLAIHDAAKQRDKEFGGKRAPKR				NA	NA	NA	NA	NA
D1-12_01508	177			hypothetical protein	GTGGACGTACGCCCGACAAAAGCTGTACTGAGTATGAAAATTGCACGGTGCTTAATAAAGAAAGGGTACGAGCTGATTGATATAGAGCCGAGTATAAAATATAAGGAAAAACTTGTGTTCATCTTCAAAAACACGCCGCAACTAGATGAGGAATTCAAAGCATTCAGTAGAAAATAA	MDVRPTKAVLSMKIARCLIKKGYELIDIEPSIKYKEKLVFIFKNTPQLDEEFKAFSRK				NA	NA	NA	NA	NA
D1-12_01509	1200			hypothetical protein	ATGAACATAACAGTAATTGACTCGATAATGGGAAGCGGAAAAACAACGTGGGCTATCGATTACATGAACAAGGCTCCCGCTGACCAGAAGTTCATTTACATTACGCCATTCCTTAACGAAGTAGATCGTATTAAAGAGTGCGTCACCGGCAGGAAGATGTACGAACCCAATAATCGGAACGGAGAGGGATCGAAGCTCCGGTCATTAAAGGAATTAATCGCGGATGGGTACGACATATCGTCTACGCATGCTCTCTTCAGATCGGCCGATGATGAATTGATCTCTTTGATTGAAGAAGAGGACTATACACTGATTTTGGATGAGGTCATGAATGTGGTTGAGCGGGCCGAGATCGGGAAGGCGGATATATCTGCGCTCATGACAAGTGGGCTAATAAAAATCGAGAAAGACTCGAACCGTGTCGTCTGGATAGATAGCGGATACGATTCTGGAAGATTCAATGATATTAAGATGCTGGCCAACGCGGGGAACCTCTATAAGTTTGGCGAGGGAATGTTGGTATGGACTTTTCCGCCCCACGTCTTCAAAGCGTTCAGCACTACGTATGTTATGACGTACTTATTCGACGCGCAGATACAAAGATGCTATTTTGACCTTTTCGATATACCTTACTCAAAGCAGTCTTTAAATGGTGGGGAATTAGTGACTTATGATCGGCTAACCGAGAAGCGCGAAGATGTTTACAATCTCATAAACTTGTATGAAGGCCCTTTAAATAATATTGGGGAGTCTAGGAACGCACTAAGTTCGAACAGACTTAAAAACTATTCTCCGAGTGTCATAAAAGAGATAAAAAACAACCTTAATAACTACCTAAGAAACATCATGGGGGCAAAAGGAAAGGAAATCCTTTGGACTACTTTAAAACAGAAAAGAGATTCGCTGAAGGGTCCGGGGTTTACAAAAAGTTTCGTAGAATGGAATATCAGGGCCACCAATGAATATTCGGATAGGTCAGTGCTTGCGTTTATGTATAACCGGTTTATTCGGCCGGAAGAAAAGAAGTTTTTTGAGGGGCAGGGGCGAAACATCACTGTGGACGACGACCTGCTCGCGGTTTCTGACTTACTTCAGTGGGTTTGGAGGTCACGTATCAGAAACGGGCAGCCCATCAGCCTATACTTACCTTCTTCGCGAATGCGTTCGTTGTTGGAAGCGTGGGCTTCTTACGAAATTTGA	MNITVIDSIMGSGKTTWAIDYMNKAPADQKFIYITPFLNEVDRIKECVTGRKMYEPNNRNGEGSKLRSLKELIADGYDISSTHALFRSADDELISLIEEEDYTLILDEVMNVVERAEIGKADISALMTSGLIKIEKDSNRVVWIDSGYDSGRFNDIKMLANAGNLYKFGEGMLVWTFPPHVFKAFSTTYVMTYLFDAQIQRCYFDLFDIPYSKQSLNGGELVTYDRLTEKREDVYNLINLYEGPLNNIGESRNALSSNRLKNYSPSVIKEIKNNLNNYLRNIMGAKGKEILWTTLKQKRDSLKGPGFTKSFVEWNIRATNEYSDRSVLAFMYNRFIRPEEKKFFEGQGRNITVDDDLLAVSDLLQWVWRSRIRNGQPISLYLPSSRMRSLLEAWASYEI				NA	NA	NA	NA	NA
D1-12_01510	201			hypothetical protein	GTGTATAAAGTAGGCGAAACTGTGCGTTATTGGGGCGTTAAGGTGGACGCCCTGACGTGGTTGTCGGCCGAAGCCATGATCGGTAAGATAATCGGCTGGCAGCAGGAAGAGCGGATCTATAAGATCGAGGGACAGTCGGGAACCGTTCACGATGTTCCAGAAAAGTTAATTGATCGAGGTTCCGCAATAAAAGCCGGTTAA	MYKVGETVRYWGVKVDALTWLSAEAMIGKIIGWQQEERIYKIEGQSGTVHDVPEKLIDRGSAIKAG				NA	NA	NA	NA	NA
D1-12_01511	342			hypothetical protein	ATGAGCCAGTTCCAACCACAGAAGGTGCATCTGGTCCGACACGGATCGGCGGATTTTCCCTATAAAGAAACCCACGACGCCTATTTAATCGCAGCGGATACGGTAGCATTGTGCGACTATGATGCGTGGGGCGGCGGCAGGTTTGCGTTTTACGACACGGGCGGCCTAACGCAAAAGAATGACGGATACCACTTGTACGACGATGCGCACCCGGAATCGTTCTCATTTGAATTCGCTAAGGCTACGGCGGCTCTAAAGAAGCTCGACGGCCGCGAAATAGCAGATATGAGTGTCGCGCAGTTCATGCGGATGTTTTTCACGGGAGGAGAAAAACGTGTATAA	MSQFQPQKVHLVRHGSADFPYKETHDAYLIAADTVALCDYDAWGGGRFAFYDTGGLTQKNDGYHLYDDAHPESFSFEFAKATAALKKLDGREIADMSVAQFMRMFFTGGEKRV				NA	NA	NA	NA	NA
D1-12_01512	201			hypothetical protein	ATGCAAGTTCGTTATGCACGCACAATTGTCGGATGGTTTAACGTGTATCCGGCAGGAGCTGACCGTTATGTCAATTTGAAGCCGGAGGACTTTTTCGCTCTTTTACCGCAAGTATCTCAGTGGGCACGTTCTGGTTGCGGAGAAATTAGTGTTGCTGCAGCATTTGAACTTTTTGGTGAGCAGGAGGAGCAACCGGCATGA	MQVRYARTIVGWFNVYPAGADRYVNLKPEDFFALLPQVSQWARSGCGEISVAAAFELFGEQEEQPA				NA	NA	NA	NA	NA
D1-12_01513	321			hypothetical protein	ATGGAAAAAGTAAAAGTAAATCATCTTTGGTTGGTCGAGGACGGGAAGCGTTTTGAAGAAGAAATTGACGCAGTTAATATCGGGAATGGTCACGTAATCACCATGACAAATGCTGAGGAAAACGAGCAACTAGTCTGCCTCTACTCACTGTATGAAGGCTTAAACGGACCAGAGATTGGATGGTCTTCGGAAGTTCACGAAGACCTAGCGTATACGGTGTCGGAAAGCGGATCTGTTCCGAGCTTAGAGGAGATCGCCGCCATGTCAGCGGTCGAGCTTATGCTGTTCTTAGCCGGTAAATATCGAAAGGAGGCGGCGTAA	MEKVKVNHLWLVEDGKRFEEEIDAVNIGNGHVITMTNAEENEQLVCLYSLYEGLNGPEIGWSSEVHEDLAYTVSESGSVPSLEEIAAMSAVELMLFLAGKYRKEAA				NA	NA	NA	NA	NA
D1-12_01514	543			hypothetical protein	ATGAATAAATACAGTGTTTCTAAACCAGCGGTAAAAAATGCGGCAGATCGTCTCGGTCTTACAAAAACGCAAGCACAGAACATATTGCCGAAATATGCTCAAGGCGCAGCGTTCGTTTGGTCGCTCGAATCAACAAGCGGCAGCCAAGCGGTATATGACAACTACAAAGAAAAAGTCCGTCTTGTTATAGCTGAGAATGGCACCGTCTTGGACGTTTTCCCCGTTGATTACGCGCTACAGTCACCGCACAACTTATCGGAAGAAGTACGTCAATCGCTTAAGGATTCGACTAAAAAGACCCTGTTTGCGAGAAGAGACGAGATTCACCGCAAGTGGTGCGAAGCTGAACTCGCTTTCCACAAAAATAGTTACGAAATCGCTAAAGTGCGCTTCGAATTAATTGACGCAAGCGTCGAAGAAGCCGCGACGTTAAACAGTCGTTTAGCGAACCTTTGCACAGATAATAAGCGACTGCACGAAGATAGATCAGCATTCAGAAAAGAACGGACTGAATTAGAGCGTGCTCTTGTACCTTATATCTAA	MNKYSVSKPAVKNAADRLGLTKTQAQNILPKYAQGAAFVWSLESTSGSQAVYDNYKEKVRLVIAENGTVLDVFPVDYALQSPHNLSEEVRQSLKDSTKKTLFARRDEIHRKWCEAELAFHKNSYEIAKVRFELIDASVEEAATLNSRLANLCTDNKRLHEDRSAFRKERTELERALVPYI				NA	NA	NA	NA	NA
D1-12_01515	162			hypothetical protein	ATGACGGAAAAGTTTAGTCCTAAGAAGGTGAAACTTCACTGGCACGGAGTCGCTTTTGGTACGAGGCTGCCGATACATGAGGTATCTGACGCCTGGTTAATGAGGCACGACATCATCGGAAAATATATGGGAGTCGATGAACTCAGATGCGGATATTTCTAA	MTEKFSPKKVKLHWHGVAFGTRLPIHEVSDAWLMRHDIIGKYMGVDELRCGYF				NA	NA	NA	NA	NA
D1-12_01516	201			hypothetical protein	ATGAACATTTACTATAGAAAAACTGTTGTTGGTTGGTGGAATATTTATCCGGCAGGCTCGGTCACAAAGTTCGTAAATCTTTCACCAGAGGAATTCTTTACGCTATTGCCTCAAGTATCCCGAAAAGCAGTTGCTGGTTGCACAGAAATCAAGCCCGTGTTAGCACGAGAATTATTCGGTGAGGAGGTGCAGTCGGCATGA	MNIYYRKTVVGWWNIYPAGSVTKFVNLSPEEFFTLLPQVSRKAVAGCTEIKPVLARELFGEEVQSA				NA	NA	NA	NA	NA
D1-12_01517	237			hypothetical protein	ATGCCTTTTGAATTTAAGTTGAACGATATACTGGACGAGCTAAGAATTACAAAAAACAAACTAGCTGTTGAAGCAAAAGTAAGGCCGGCAACCATCGGGGATCTTTGCGAAGGGAAAACCAAACGGATAGAACTCGAAACAATCGAGAAAATCTTATATGTATTAAATAATCTCTCACCAACTAAGACATACACCATCGATGACATTATTCTTTACAACTTGGATATTGAGGACTGA	MPFEFKLNDILDELRITKNKLAVEAKVRPATIGDLCEGKTKRIELETIEKILYVLNNLSPTKTYTIDDIILYNLDIED				NA	NA	NA	NA	NA
D1-12_01518	189			hypothetical protein	ATGTTATTTGAAGGCGAAAAACAAGAATGGCTACTCTTTAAGGAGAGGGATCTATCGGTTAGAGTTTTTGAAGGCAATAATACATACGAAGCATACGCGACAATAGCAGGCAAAGGCACGCATGTAGCTCGCGGACTAGAAAAATGGTCCACGATATCCGACGCAATCAAAGGTATTATTCAAAAATAA	MLFEGEKQEWLLFKERDLSVRVFEGNNTYEAYATIAGKGTHVARGLEKWSTISDAIKGIIQK				NA	NA	NA	NA	NA
D1-12_01519	750			hypothetical protein	TTGGATACTATTATTAAACAAATAACAGGTGTCTTTGATGGAGATCCGGTATCAACTTTAGTAGCAACTTCGATATTTATAGTATCAATTTGGTTATACAAACAAATTAAAGATGGTGAGAATTCAGAATTAAAATCGTACAAAGATCTTATTAAGCGTTCTGAAGAAGCCTGTGCCGATATTTTAAGACATGCAGAACTAGCACTCGGAAAAGAAATCAGTGACTCAGAGTTTTATGCTACAGTTAGTGGGTACCTCTCAACTTTAGATCAGGACACCTCTATTGAATTCCAAAATTCGCTTTCTAAGAATACACGCTCAATTAGCGAGTTTAAATTGATTGCTCTAAACAATTTAAATAGACTTAAAAAAGAACACTGTCCATCAAAACCTACAAAAATCGGGGATCAATTTTCCAATTTTATAGGAGACTTATTGATAATATTTAAACCTGTATGGAAGACGGCAATTATTTTGTATTTCATTTTATTTGGAATAGTCTATACTACCACTCTAACGGATGCCGCAGCATTTTTCTGTACAATATCTCTTATAATGATGGTTGTAGGATTAGTTTTTAATTTCTTTGATAAAAGAATTTCTTTCAAAATATTTTTATTATGCCTAGTTATTTTAATAACCTTGTTTTTAATTTCATTTATTGTTCATAATATTATAATCTCAGTTATTCTAATTATTTTAATTTATATCATTATTACACTTATCATGAGGAAATATATTAATAATTGA	MDTIIKQITGVFDGDPVSTLVATSIFIVSIWLYKQIKDGENSELKSYKDLIKRSEEACADILRHAELALGKEISDSEFYATVSGYLSTLDQDTSIEFQNSLSKNTRSISEFKLIALNNLNRLKKEHCPSKPTKIGDQFSNFIGDLLIIFKPVWKTAIILYFILFGIVYTTTLTDAAAFFCTISLIMMVVGLVFNFFDKRISFKIFLLCLVILITLFLISFIVHNIIISVILIILIYIIITLIMRKYINN				NA	NA	NA	NA	NA
D1-12_01520	774			hypothetical protein	ATGTCCCAACTCGAAGCAAATGTTAACGATAGTAATCAAATGGTTCTTATCGAAAGTAGAACTATGAGAGACGAGCATGTATACCGTGATGATGTATTAGAAAAAGTTAAAGTTGTCCCTTCTCTTCCTGACACCTTAGAAGTTACCTTCGAAATGGCCGCAGAGTATTACAATGTGCCATATGCCACAATCAAAACAGCAATTTCAAGGAACCGAGCCGAGTTTAACCAGTACGGTGAGCTACGAATCTTAAAAGGAAAAGCATTGAAAGAATTCAAAAGCATGTTTCAAGATGAAACGCTCTTTAAGGGTGCAAGCTCTTTAAACTTGTTAACTAGAAGAGGATTACTTAGGCTCGGAATGATTCTAACTGAGTCTGAAGTCGCAGCATCTGTTCGAAATTACCTCTTAAATATTGAGGAAAGGTCGGACATAAAACTTCGGGAATGGGCAGTAGAACGCGAGATATCCAAAAGAGAAAGACGCCGACTGACAGACTCGATACAATCCTTTTACGAAGGCCCTTCGATGAAAGGGCATGAATATAAAAACTTCACTAATCTTGTATATAAAGTGATTTTTGACTGTAATGCGACTAGGCTTAGAGAAACGTATGAACTTGAGAAAACTGAACCATTGCGAGACTCATTGACTACCGAAGATCTCAAAAAAGTCGTTGAAGTCGAGCAAATCATAGCCTCTTATATCCGGATGGGAAAAGAATATAACGATATCCGCGACGAACTCCTAAATAAAAAAGAAAGGTTTCAATGA	MSQLEANVNDSNQMVLIESRTMRDEHVYRDDVLEKVKVVPSLPDTLEVTFEMAAEYYNVPYATIKTAISRNRAEFNQYGELRILKGKALKEFKSMFQDETLFKGASSLNLLTRRGLLRLGMILTESEVAASVRNYLLNIEERSDIKLREWAVEREISKRERRRLTDSIQSFYEGPSMKGHEYKNFTNLVYKVIFDCNATRLRETYELEKTEPLRDSLTTEDLKKVVEVEQIIASYIRMGKEYNDIRDELLNKKERFQ				NA	NA	NA	NA	NA
D1-12_01521	297			hypothetical protein	ATGGCAAATGCTGTGGATGCAATTAAAACGAAGCGAGACATTAACCGTATGAAGAACGCACTGAACGGGCGTGACAAGGACATGTTTGTTTTCGGTGTGTCGTTGGGGCTACGTATCTCGGACTTATTAACGCTGAAGAACGGCGATCTTCGCGGACAAACGCATTTAAAGTTACGGGAAGGGAAAACGGGGAAGATGCGGCCGATAAAGCTATCGAAGTATAGGGGCCGCAGTAACCAGCCGTGCCTACCGAGGGCGGCCGCCCCGAACTCATGGGGTGGCGGCATGTTACGCTAG	MANAVDAIKTKRDINRMKNALNGRDKDMFVFGVSLGLRISDLLTLKNGDLRGQTHLKLREGKTGKMRPIKLSKYRGRSNQPCLPRAAAPNSWGGGMLR				NA	NA	NA	NA	NA
D1-12_01522	717			hypothetical protein	ATGTATACGAAAGAAGCCTCTAAAATGGCGTCGTTCCGGTCAGTGGACGAGCTTAACGTCGCCATCCGTACGCACATATACCGAAATAAATCTGATCTAACGCCTGCCGCAATCGAGGTTCTAAAGGTGTTGTCTCGTCATGCCGTCAAAACGCCGGGCGTGGCGTACCTGAAGCTCGCCTCTATCGCGGAATTAATCGGCCGGCACCGCGTAACAGTTATTCGGGCGATTAAGCGTTTAGTCGATCTCGGAATCATCCGCAAGGAAATCAAATACCGGCCAGTATCCGGCGGCAACGGCGCCAATATGTACGTCATCCAGCCGGCGGCCGATGTTACTCCGTCTGTGTTACCCCGCCAAGAAGCCGAAAAGCCAACGGAGGCAAAGCCGGAAGCGCCGGAACGGGAAAACGAAGCTGTTATTTCTCAAAGCAAATTAAAGTTCTTACAGAATACGTATGCTGCGTTTAAGTCTGCGGTCAATACGTTTGTCAGCGATCGGAAATTAACGAGCAAGCTGTACGGCATATACCTTGCGCATACGTCGTATTTAAAAGGCGTGTATGCTGCCGATATTCTTCAAGGAATCGGACTGGAAGCCGTTCGTCAAACGTTTATAGCGACTAAACGGAAGACTATCCGCAACTTGGCTGGCTATTATAATGGCGTACTGGACCGGATGCTCGACCGGCTATTTGCTGCGCGATTTGACGATTAG	MYTKEASKMASFRSVDELNVAIRTHIYRNKSDLTPAAIEVLKVLSRHAVKTPGVAYLKLASIAELIGRHRVTVIRAIKRLVDLGIIRKEIKYRPVSGGNGANMYVIQPAADVTPSVLPRQEAEKPTEAKPEAPERENEAVISQSKLKFLQNTYAAFKSAVNTFVSDRKLTSKLYGIYLAHTSYLKGVYAADILQGIGLEAVRQTFIATKRKTIRNLAGYYNGVLDRMLDRLFAARFDD				NA	NA	NA	NA	NA
D1-12_01523	975	xerC_3		Tyrosine recombinase XerC	ATGTTTAATGAGTTTGATTTTCAAATCGATAATTTTATGATGTACTGCGATTCAAAAAACCTCTCACGCAAAACAAAGAAAAGCTACGAGCAGACCCTGCGTCTTTTTTCGATTTATCTTCGCAAAGAGCATACAATTACTGATCCGCGGGAAGTAAAACCGGTTCATATTCGAAGTTATATAAAATACTTGAAATTGCGCGGAAAGTATACGGTAGTTATTAACACAGGTAGCACGCATCTAAATAACCCGGAGGGAAGGAGCGACCATTCGAAGCAAATCAGCGACACTACAGTGGGCAATTACATTAGAAATATAAAGGTGTTTTTTAACTTTTTGAAAAGTGAGCATGAAATAGGCACAAGCCCAGCTTCTACTATTGCAAATATTAAACCAGACAGAAAGAAGAAAAAGTTGCTTTCTCTGACACAGATTAAGCAGTTATTAAACTCGTTTGATACTACGAAATTTCATGGTTATAGAAATTGGGTAACTGTTAGAACGCTCCTAGATACTGGGATGCGGATAGGGGAATGCTTGGGTTTAAGACCTGATGATTTGGATTTTAGGGCACGAGCAATTTTAATTACTAATCCAAAAAATAGAAAGGAACGCTATGCCTTTATATCTGACAAGCTCTCAAAAGACTTGAGAAGATGGCTTCAGTACAGGGATCGATATAGCGATAGCGAGTATTTATTTCCGACTACAAGAGGAAATAAACAAGATGTCACAACATTTGAGAAGGTATTGAAAAAAGCAGGCGAGGAAGTAAACATTGAAGTAACACCACATCAATTAAGGAACAATTTTGCAAAGTATTACTTACTAAATGGTGGAGATTATGTGACACTCTCACGTATATTAGGCCACTCGAGTGTTGAGGTCACACAAAAAGCTTATTTAGACTTCACAGAGGATGAGATAGCGAAAAAATATCAAAAACATTCACCGTTAAATAATTTTAATTTATAA	MFNEFDFQIDNFMMYCDSKNLSRKTKKSYEQTLRLFSIYLRKEHTITDPREVKPVHIRSYIKYLKLRGKYTVVINTGSTHLNNPEGRSDHSKQISDTTVGNYIRNIKVFFNFLKSEHEIGTSPASTIANIKPDRKKKKLLSLTQIKQLLNSFDTTKFHGYRNWVTVRTLLDTGMRIGECLGLRPDDLDFRARAILITNPKNRKERYAFISDKLSKDLRRWLQYRDRYSDSEYLFPTTRGNKQDVTTFEKVLKKAGEEVNIEVTPHQLRNNFAKYYLLNGGDYVTLSRILGHSSVEVTQKAYLDFTEDEIAKKYQKHSPLNNFNL	PGPT0022000_2638	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
D1-12_01524	801	spo0A_1	COG0784	Stage 0 sporulation protein A	GTGGAGAAAATTAAAGTTTGTGTTGCTGATGATAATCGAGAGCTTGTAAGCCTGTTGAGTGAATATATAGAGGGACAGGATGATATGGAAGTGATCGGCGTTGCTTATAACGGACAGGAATGTCTTTCTTTGTTTAAAGATAAGAATCCCGATGTGCTCGTTTTAGACATTATCATGCCGCATCTGGACGGACTTGCGGTTTTGGAGCGTCTGCGGGAATCAGAGCTCGAGAAGCAGCCGAACGTCATCATGCTGACGGCATTCGGTCAGGAAGACGTTACGAAAAAAGCCGTCGATTTAGGCGCGTCCTATTTCATCCTGAAGCCGTTTGATATGGAAAACCTTGTCGGCCATATCCGCCAGGTAAGCGGAAATGTCAGCAGTGTCACACACCGTGCGCCGTCCGCGCAAAGCAGCATTATCCGCAGCCAGCCGGAGCCGAAGCGGAAAAATCTCGATGCCAGCATTACAAGCATTATCCATGAGATCGGTGTGCCTGCCCATATCAAAGGCTATCTTTATTTGCGGGAAGCCATTTCCATGGTGTATAACGATATTGAACTCCTCGGCAGCATCACAAAAGTCCTTTATCCCGACATCGCCAAAAAATTCAACACGACCGCAAGCCGTGTAGAACGGGCCATCCGCCACGCCATTGAAGTCGCATGGAGCAGGGGAAATATTGATTCCATTTCTTCACTGTTCGGATATACGGTAAGCATGACAAAAGCAAAACCAACCAATTCAGAATTCATCGCGATGGTTGCTGACAAGCTGAGATTGGAGCATAAAGCTTCGTAA	MEKIKVCVADDNRELVSLLSEYIEGQDDMEVIGVAYNGQECLSLFKDKNPDVLVLDIIMPHLDGLAVLERLRESELEKQPNVIMLTAFGQEDVTKKAVDLGASYFILKPFDMENLVGHIRQVSGNVSSVTHRAPSAQSSIIRSQPEPKRKNLDASITSIIHEIGVPAHIKGYLYLREAISMVYNDIELLGSITKVLYPDIAKKFNTTASRVERAIRHAIEVAWSRGNIDSISSLFGYTVSMTKAKPTNSEFIAMVADKLRLEHKAS	PGPT0014750_216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014750-spo0A-K07699	NA	NA
D1-12_01525	1281	spoIVB	COG0750	SpoIVB peptidase	ATGCACGATAACATGAGGAAAGCAATAGGTGTAATTCTCCTTGTTTCTTTACTAAGTGTAGGCTTTTTTAAGCCGTTTAAAGAATATTTACTGATACCGTCAGAAATGAGCGTCTTTGAAAACCAGACACAAGCCGTTCCGGTCAATGCATCAATAAGCGCTGAAAAGGGCGAATTATCAGAAGCCTTTACGCTGAAAGAAGAGCACGGCCATGCAAACATAACAGGGCAAACACAAGGCCGGTCAGAAGTAGTATATGATCTTGCCGGGTTTCCCATTAAAAAAACGAAAGTGCGTGTCCTTCCAGAATTGAAGGTCATTCCGGGTGGACAGTCCATCGGTGTAAAACTGCATTCAGTCGGTGTTTTGGTCGTCGGCTTTCACCAGGTGATGACAAAGGATGGGAAAAAGTCTCCGGGAGAACAAGCGGGAATTGAATCTGGCGACATCATTATTAAAATGAACGGACATAAAATTGAAAAAATGAGCGATATCGCCCCGTTTATTCAAAAAGCGGGCAAAACCGGTGAATCTTTGGATTTATTGGTGAAACGCGATAAGCAAAAAATCAAAACAAAGCTGATTCCGACAAAGGACGAAGCCGAGGGGAAATATCGAATCGGCCTTTATATCCGCGATTCGGCAGCCGGCATCGGCACCATGACATTTTTTGAACCGAAAACAAAAAAATACGGCGCATTGGGCCACGTCATCTCTGATATGGATACAAAAAAACCGATTGTTGTAGAAGACGGAGAAATCGTCCGTTCAACTGTAACATCGATTGAAAAAGGAAAAGGCGGCAATCCCGGCGAAAAACTGGCAAGGTTTTCGTCAGAACGGAAAACGATCGGCGATATTAACCGCAACAGCCCGTTCGGCATTTTCGGGACATTGCATCAGCCGATTAAAAACAACATTTCCGACAAAGCGCTTCCGATTGCTTTGTCAAATGAAGTGAAAAAAGGACCTGCGCAAATGCTGACGGTTATTGAAAACGATAAAGTAGAGAAATTTGATATTGAAATCGTCAGCACCACGCCGCAAAAATTCCCGGCGACAAAGGGAATGGTGTTGAAAGTGACAGATCCGAAACTGCTGAAAAGAACCGGCGGAATCGTTCAGGGGATGAGCGGAAGCCCGATCATCCAGAACGGAAAGGTCGTCGGAGCCGTAACCCACGTATTTGTCAATGATCCGACAAGCGGCTACGGCGTTCATATCGAATGGATGCTGCCTGAAGCGGGTGTTGATGTTTACGGGAAAGACAAAGCAAGCTGA	MHDNMRKAIGVILLVSLLSVGFFKPFKEYLLIPSEMSVFENQTQAVPVNASISAEKGELSEAFTLKEEHGHANITGQTQGRSEVVYDLAGFPIKKTKVRVLPELKVIPGGQSIGVKLHSVGVLVVGFHQVMTKDGKKSPGEQAGIESGDIIIKMNGHKIEKMSDIAPFIQKAGKTGESLDLLVKRDKQKIKTKLIPTKDEAEGKYRIGLYIRDSAAGIGTMTFFEPKTKKYGALGHVISDMDTKKPIVVEDGEIVRSTVTSIEKGKGGNPGEKLARFSSERKTIGDINRNSPFGIFGTLHQPIKNNISDKALPIALSNEVKKGPAQMLTVIENDKVEKFDIEIVSTTPQKFPATKGMVLKVTDPKLLKRTGGIVQGMSGSPIIQNGKVVGAVTHVFVNDPTSGYGVHIEWMLPEAGVDVYGKDKAS	PGPT0024775_232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024775-spoIVB-K06399	NA	NA
D1-12_01526	1731	recN	COG0497	DNA repair protein RecN	TTGTTAGCTGAACTATCAATAAAAAACTTTGCCATTATAGAGGAACTGACGATTTCGTTTGAGCGGGGGCTCACCGTCCTGACGGGAGAAACAGGGGCCGGCAAGTCAATTATTATAGACGCCGTTTCCCTATTAGTCGGCGGCCGCGGCTCGTCTGAATTTGTCCGTTACGGTGAAACAAAGGCCGAGCTTGAAGGACTGTTTCTATTGGACAGCGGTCATCCCGTGTTTGAAGTATGCCGTGAGCAGGGAATAGACGCATCTGACGACATGATTGTCATGAGAAGGGACATCAATGCCGGAGGAAAAAGCGTCTGCCGTGTCAACGGAAAATTAGTGACGATTGCGGCTTTAAGGGAAATCGGCAGACTTTTATTAGATATTCACGGACAGCATGATAACCAGCTGTTAATGGAAGATGACAAACACTTGGAGCTTTTGGACAGGTTTGCGGGCGCTGAGGCCGAATCCGCGCTTCAGGCTTACCATGAAGGCTATGAGCGTTATATGAAGCTGCTCAAAAAAGTGAAGAAGCTGTCAGAAAGCGAGCAGGAAATGGCGCATCGGTTAGACCTGATTCAATTTCAGCTTGAAGAAATCGAGTCGGCGAAGCTTGAATTGAATGAAGACGAGCTTCTACAGGAAGAGCGGAAGCAGATATCCAACTTTGAAAAAATTTATGAATCATTGCAAAACGCCTATAATGCGCTCCGCAGCGAGCAGGGTGGGCTTGACTGGGTCGGAATGGCCTCTGCCCAGCTTGAAGATATTTCGGATATCAATGAACCGCTGCAAAAGCTGTCTGAAAGTGTGTCAAGTTCCTATTATCTGCTGGAGGATGCCACCTTTCAGATGCGCAATCTGTTAGATGATCTGGAATATGACCCGGAACGGCTGAATTTTATTGAAACCCGTTTAAACGAGATTAAACAGCTGAAGCGCAAATACGGAGCGACGGTAGAAGACATTTTGGAATACGGCTCCAAAATAGAAGAGGAAATCGATCAAATCGAGAACCGCGACAGCCACCTTGAAGCGCTGAAGAAGGAACTGGAGTCGGTCGGCAAAGATGTGGCCGTAGAAGCCGCCAATTTATCAAAAATCAGAAAAGCTTGGGCTAAGAAACTGGCGGAAGCGATTCATCAGGAATTAAAAAGTCTGTATATGGGCAAATCAACGTTTGATACGGAATTTCTCGTGAAAACCGATCCGTCAGCCAGTGAAGCACCGGTTGTCAACGGGCAGCCCGTGCAGCTTACCCAAAAGGGGATTGACCTTGTGAAGTTTTTAATTTCAACAAACACCGGTGAGCCTTTAAAACCGCTGTCAAAGGTCGCTTCCGGAGGCGAGCTTTCACGGGTGATGCTGGCGATGAAGAGTATTTTTTCTTCCCAGCAGGATGTCACCTCCATCATCTTTGACGAAGTGGACACCGGTGTAAGCGGGCGGGTTGCCCAAGCCATCGCGGAAAAAATCCATAAAGTATCGACCGGTTCACAGGTGCTCTGCATTACACACCTGCCGCAGGTTGCCGCCATGGCGGATACGCACCTTCTGATCGCAAAAGAATTCAAAGACGGCCGGACGACAACGCATGTCACGCCGCTTTCCAAACAGGACAAGGTAGCGGAAATCGGCCGCATGATTGCGGGCGTTGAAGTGACCGATCTGACAAAACGGCATGCACAAGAGCTTTTAAAACAGGCCGGACAGGTAAAAACGACAGGATAA	MLAELSIKNFAIIEELTISFERGLTVLTGETGAGKSIIIDAVSLLVGGRGSSEFVRYGETKAELEGLFLLDSGHPVFEVCREQGIDASDDMIVMRRDINAGGKSVCRVNGKLVTIAALREIGRLLLDIHGQHDNQLLMEDDKHLELLDRFAGAEAESALQAYHEGYERYMKLLKKVKKLSESEQEMAHRLDLIQFQLEEIESAKLELNEDELLQEERKQISNFEKIYESLQNAYNALRSEQGGLDWVGMASAQLEDISDINEPLQKLSESVSSSYYLLEDATFQMRNLLDDLEYDPERLNFIETRLNEIKQLKRKYGATVEDILEYGSKIEEEIDQIENRDSHLEALKKELESVGKDVAVEAANLSKIRKAWAKKLAEAIHQELKSLYMGKSTFDTEFLVKTDPSASEAPVVNGQPVQLTQKGIDLVKFLISTNTGEPLKPLSKVASGGELSRVMLAMKSIFSSQQDVTSIIFDEVDTGVSGRVAQAIAEKIHKVSTGSQVLCITHLPQVAAMADTHLLIAKEFKDGRTTTHVTPLSKQDKVAEIGRMIAGVEVTDLTKRHAQELLKQAGQVKTTG				NA	NA	NA	NA	NA
D1-12_01527	450	argR	COG1438	Arginine repressor	ATGACAAAAGGCCAAAGGCATATAAAAATCAGAGAGCTTATTACAAGCCATGACATTGAAACACAGGATGACTTAGTTGACATGCTGAGAGAAGAAGGGTATAAGGTAACCCAGGCGACTGTTTCCAGAGACATTAAAGAGCTGCATCTCGTAAAGGTGCCGACGAATAACGGCTCCTATAAATACAGCCTGCCGGCGGATCAGCGGTTCAATCCGCTGTCAAAACTGAAGCGTTCATTAATGGATGCGTTCGTAAAAATTGACTCAGCAAGTCATATGATCGTATTAAAAACGATGCCGGGGAATGCTCAGGCAATCGGCGCTCTGATGGATAATCTCGAATGGGAAGAAATCATGGGAACGATCTGCGGAGATGACACGATCTTAATCATCTGCAGGACGCCTGAAGATACGGAAGGCGTACAAAGCCGTCTTTTGGAGCTGCTGTAG	MTKGQRHIKIRELITSHDIETQDDLVDMLREEGYKVTQATVSRDIKELHLVKVPTNNGSYKYSLPADQRFNPLSKLKRSLMDAFVKIDSASHMIVLKTMPGNAQAIGALMDNLEWEEIMGTICGDDTILIICRTPEDTEGVQSRLLELL	PGPT0020105_1854	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
D1-12_01528	846	tlyA	COG1189	Hemolysin A	ATGACAGCAAAAAAAGAACGATTAGATGTACTTCTTGTAGAAAAAGGCCTTGCGGAAACGCGGGAAAAAGCGAAACGCGCCATTATGGCGGGCATCGTATACTCAAATGAAAACCGATTGGACAAACCGGGTGAAAAAATCGCCCGGGATCTTCCGTTAACGGTAAAAGGAAACCCTCTTAAATACGTCAGCAGAGGCGGATTAAAGCTTGAAAAAGCCCTGGAAGTGTTTCCTGTCTCGGTAAAAGGCAAAACGATGATTGACATCGGCTCGTCTACAGGGGGATTCACGGATTGCGCCCTCCAAAACGGAGCTGAGCGGTCCTACGCAGTGGATGTCGGCTATAATCAGCTTGCTTGGAAGCTCAGACAGGACGAGAGGGTCGTCGTCATGGAACGGACGAATTTCCGCTATTCTGAGCCTTCCGATTTCACAGAGGGTTTGCCGGAATTTGCGACAATCGATGTTTCTTTCATCTCACTCCGCCTCATTCTGCCGGTTTTAAAAACGCTGCTTGTACCGGGGAGCGATTGTATCGCACTGGTGAAGCCGCAATTTGAAGCTGGACGGGAATCCGTCGGAAAAAAAGGCATTGTCAGAGATCCAGACGTTCATACTGACGTTCTCCGCCGCATGAATCAATTTGCCGCTTCTGAAGGATATACAGTGAAAGGACTGTCCTTCTCACCGATTACAGGGGGAGACGGCAATATTGAGTTTCTGCTTCATTTGGAATGGGGCGGAGAAGACGGAAACGGCGCTGAACTGCCGGAAGAAGACATTCTCCGTACAGTCCGCGAAGCACATGAAACATTAAAAGCCAAAAAGACAGATGTACCGGAATAA	MTAKKERLDVLLVEKGLAETREKAKRAIMAGIVYSNENRLDKPGEKIARDLPLTVKGNPLKYVSRGGLKLEKALEVFPVSVKGKTMIDIGSSTGGFTDCALQNGAERSYAVDVGYNQLAWKLRQDERVVVMERTNFRYSEPSDFTEGLPEFATIDVSFISLRLILPVLKTLLVPGSDCIALVKPQFEAGRESVGKKGIVRDPDVHTDVLRRMNQFAASEGYTVKGLSFSPITGGDGNIEFLLHLEWGGEDGNGAELPEEDILRTVREAHETLKAKKTDVPE				NA	NA	NA	NA	NA
D1-12_01529	1902	dxs	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	TTGGATCTTTTATCAATACAGGACCCGTCATTTCTTAAAAAGATGTCAATTGAAGAGCTGGAAGAGCTGAGTGAGGAGATCCGCAATTTCCTCATCACATCGCTGTCTGCCTCTGGCGGCCATATCGGGCCGAACCTCGGGGTTGTCGAGCTGACAATTGCGCTTCACAAAGAATTTGACAGTCCGAAAGATAAATTTTTATGGGATGTCGGACATCAGTCCTATGTTCATAAACTGTTAACCGGACGCGGCAAGGAGTTTGAAACCTTGCGCCAATATAAAGGGCTTTGCGGTTTCCCGAAACGCAGCGAAAGCGAACATGACGTATGGGAAACAGGCCACAGCTCAACCTCGCTCTCAGGCGCGATGGGAATGGCTGCCGCCCGTGATATTAAAGGATCGAAGGAATATATCATCCCGATTATCGGAGACGGCGCTTTAACCGGAGGAATGGCGCTTGAAGCGCTGAACCATATCGGTGATGAGAAAAAAGACATGATCGTCATCCTGAATGATAATGAGATGAGCATTGCGCCGAATGTCGGGGCGATTCATTCTATGCTTGGCCGGCTTCGGACTGCCGGCAAATATCAATGGGTAAAAGACGAGCTTGAATATTTATTTAAGCGCATCCCGGCCGTCGGCGGAAAATTGGCCGCCACAGCGGAACGGATAAAAGACAGTTTGAAATATATGCTTGTGTCAGGCATGTTTTTTGAAGAGCTGGGCTTTACGTATTTAGGCCCGGTTGACGGTCATTCCTACCACGAACTGTTTGAAAACCTGCAATACGCCAAAAAAACGAAAGGCCCTGTCCTGTTACATGTCATTACGAAAAAGGGCAAAGGCTATAAACCGGCTGAGACCGACACAATCGGCACATGGCACGGAACGGGTCCGTATAAAATCAATACGGGTGATTTCGTCAAGCCGAAAGCCGCGGCGCCTTCATGGAGCGGACTTGTCAGCGGCACCGTGCAGGAGCTGGCGCGTGAGGATGACAGAATTGTCGCGATTACACCGGCCATGCCGGTCGGCTCTAAACTGGAAGGGTTTGCGAAAGAATTTCCTGAACGCATGTTTGATGTCGGAATCGCAGAACAGCATGCGGCGACGATGGCGGCTGGAATGGCGCTCCAAGGCATGAAGCCGTTTCTTGCGATTTATTCGACCTTTTTGCAGCGGGCGTACGATCAGGTCGTCCATGACATCTGCCGTCAAAACGCGAATGTATTTATCGGCATTGACCGCGCCGGTTTGGTCGGCGCTGACGGGGAGACGCATCAAGGCGTCTTTGACATCGCCTTTTTGCGGCATATACCAAATCTCGTTTTAATGATGCCGAAGGATGAAAATGAAGGCCGCCATATGGTCAATACAGCCCTTTCCTACGAGGAAGGTCCGATTGCGATGCGCTTCCCGCGCGGAAACGGACTCGGCGTAAAGATGGATAAAGAGCTGAAAACCATTCCGATCGGAACATGGGAAGTGCTCCGTCCCGGAAAAGACGCGGTCATTTTAACATTCGGTACGACCATTGAAATGGCGCTGGAAGCGGCTGAAGAACTGCAAAAAGAAGGCCTGTCCGTGCGTGTCGTGAATGCGCGGTTCATAAAACCGATTGATCAACAAATGATGAAGGCCATTCTTAATGATGGTCTGCCGATTTTAACGATAGAAGAAGCCGTGCTTGAAGGCGGATTCGGCAGCACGATTCTCGAATTCGCTCATGACCTCGGCATGTATCATACACCGATTGACAGAATGGGCATCCCAGACCGGTTTATTGAACACGGCAGCGTAACCGCCCTGCTTGAAGAAATCGGTCTCACGAAGGCTGAGGTTATGAACCGGATCAAACTGCTGATGCCGCCGAAGACACATAAAGGAATTGGATCATGA	MDLLSIQDPSFLKKMSIEELEELSEEIRNFLITSLSASGGHIGPNLGVVELTIALHKEFDSPKDKFLWDVGHQSYVHKLLTGRGKEFETLRQYKGLCGFPKRSESEHDVWETGHSSTSLSGAMGMAAARDIKGSKEYIIPIIGDGALTGGMALEALNHIGDEKKDMIVILNDNEMSIAPNVGAIHSMLGRLRTAGKYQWVKDELEYLFKRIPAVGGKLAATAERIKDSLKYMLVSGMFFEELGFTYLGPVDGHSYHELFENLQYAKKTKGPVLLHVITKKGKGYKPAETDTIGTWHGTGPYKINTGDFVKPKAAAPSWSGLVSGTVQELAREDDRIVAITPAMPVGSKLEGFAKEFPERMFDVGIAEQHAATMAAGMALQGMKPFLAIYSTFLQRAYDQVVHDICRQNANVFIGIDRAGLVGADGETHQGVFDIAFLRHIPNLVLMMPKDENEGRHMVNTALSYEEGPIAMRFPRGNGLGVKMDKELKTIPIGTWEVLRPGKDAVILTFGTTIEMALEAAEELQKEGLSVRVVNARFIKPIDQQMMKAILNDGLPILTIEEAVLEGGFGSTILEFAHDLGMYHTPIDRMGIPDRFIEHGSVTALLEEIGLTKAEVMNRIKLLMPPKTHKGIGS	PGPT0008960_2710	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
D1-12_01530	891			Farnesyl diphosphate synthase	GTGACAAATAAACTGGACGCATTTTTAGCATCGCGCAAACAACTGATTGAACAGCAGCTTTCTTTATATACAGAACGGCTTGCGATGCCGGAAACCCTCAAAAAATCTATGCTGTATTCTTTGGAAGCGGGCGGAAAGAGGCTGCGCCCCCTCGTCGTCTTAGCCGTTCTGAATGCTTACGGAAAAGATGAAAAAGACGGGATTCCGGTTGGGTGTGCTGTCGAAATGATTCATACGTATTCTTTAATCCATGATGATCTTCCTTGCATGGACGATGATGATCTGCGCCGGGGAAAGCCCACAAACCATAAAGTCTTCGGAGAAGCGGCGGCCGTATTGGCCGGAGACGGGCTTCTGACAGAAAGCTTTAAATTGATCACATCCCACGTGTCTGAGGCGGTTTCAGCAGAAAAACGCCTCCGTCTCGTCGATGAGCTGATCAGTGCGGCAGGAACGGAAGGAATGGTCGGCGGGCAGGCTGCCGACATGGAAGCGGAACAAAAGCGGATAACGCTTGAGGAGCTGGAATCCATCCACGAGCGGAAAACGGCCAAGCTCCTCGGTTTTTCCGTGACGGCGGGCGCCATTTTGGCAGATGCGCCGGAGGATGAAGTCGAAAAGCTCCGTTTGTTCAGCAGCCATATTGGCATCGGATTTCAAATCAGAGACGACATCCTTGATATTGAAGGGCATGAGGAGAGGATCGGCAAACCGGTCGGCTCAGACACATCGAACGAAAAATCAACGTATCCGTCGCTTTTAACGCTTGAAGGCGCGAAAGAAAAGCTTGCGTATCATATCAGCGAGGCGAAACAGATTATCAGCGGCCTTTCTCTTCAGAAAGAACTGCTGCATGACCTCTGTGATTTAATCGCGGCGAGAGATCATTAA	MTNKLDAFLASRKQLIEQQLSLYTERLAMPETLKKSMLYSLEAGGKRLRPLVVLAVLNAYGKDEKDGIPVGCAVEMIHTYSLIHDDLPCMDDDDLRRGKPTNHKVFGEAAAVLAGDGLLTESFKLITSHVSEAVSAEKRLRLVDELISAAGTEGMVGGQAADMEAEQKRITLEELESIHERKTAKLLGFSVTAGAILADAPEDEVEKLRLFSSHIGIGFQIRDDILDIEGHEERIGKPVGSDTSNEKSTYPSLLTLEGAKEKLAYHISEAKQIISGLSLQKELLHDLCDLIAARDH	PGPT0007560_1822	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789	NA	NA
D1-12_01531	255	xseB	COG1722	Exodeoxyribonuclease 7 small subunit	ATGACAGAAACCAAAAAAAGTGAAGAGCTGACATTTGAAGAGGCGATGAAAGGCCTTGAAGGCATTGTGGCAAAGCTTGAAGAAGGAGACGTGCCGCTGGAGCAGGCGATTAATTATTTTCAGGAAGGGATGGCCCTTTCAAAAATGTGCCATGAAAAGCTTCAGCATGTCGAAAAGCAAATGGACTTTATTTTAAAAGATAACGGAGAACTTGCACCTTTCAGCGTTCAGGAGGAAGACGAAGGTGACAAATAA	MTETKKSEELTFEEAMKGLEGIVAKLEEGDVPLEQAINYFQEGMALSKMCHEKLQHVEKQMDFILKDNGELAPFSVQEEDEGDK				NA	NA	NA	NA	NA
D1-12_01532	1347	xseA	COG1570	Exodeoxyribonuclease 7 large subunit	GTGAGTGAAGCGGCATATGTCACGGTTTCCGCGCTGACCAAATACATTAAAAGAAAATTCGATGTGGACCCTCATCTTGAAGACATTTGGATTAAGGGTGAGCTCTCCAATGTTAAAATTCATACGAGAGGCCACATTTATTTTACATTAAAAGATGAGCATGCCCGCATGCAGGCCGTCATGTTTCAGAGGCAAAGTTCGAGGCTTGCGTTTAAGCCCGAAGACGGAATGAAGGTCATCGTAAGAGGCGGTATCTCCGTCTATGAACCGAGCGGAAGCTATCAGCTGTACGCGAAAGAAATGCAGCCGGACGGTGTGGGGGCGCTCTACTTAGCATATGAAGAATTAAAGAAAAAACTTGCCGGCGAAGGGTTGTTTGATGACCGGCATAAGCAGGCCATCCCCGCTTTTCCGGCTACGATCGGGGTCGTCACGTCACCGACGGGAGCAGCCGTCAGAGACGTCATTACCACACTCAAAAGAAGATACCCCCTTGTGAAAGTCATTGTGCTTCCCGCGCTCGTTCAAGGTGAAAATGCCAGCAGATCGATTGTGAAGCGCATTGAAGAAGCCAATGCACAAAAAATGTGTGACGTCCTGATCGTCGGAAGGGGAGGGGGTTCGATCGAAGAATTGTGGGCATTTAACGAAGAAATCGTGGCCCGGGCGATTTTTGCTTCCGCCATTCCGATTATATCAGCCGTCGGACATGAAACAGATTTTACAATCAGTGATTTCGTCGCGGATATCCGGGCGGCAACGCCGACAGGAGCGGCAGAAATCGCCGTCCCCCACACGACGGACTTAATGGAACGGACAAAAACGGCGGAAGTCCGCCTGACAAGAGCGATGCAGCAGCATATCAGCAAGAAAAAAGAACGGGTTCAATCGCTCCAGTCATCCTACGCGTTCCGTTTTCCGAAACGATTGTATACCCAAAAGGAACAGCAGTTTGACCTTTTGTATCAGCAGTTCCAATCACAGCTCACAGGGCTTACGGACAGGAAACAAAGGCAGCTGGAGCGGAATACGTACAGATTAACGGCGCTCCACCCTGAAACCCAGCTGAAACAGGCGAAAAAACGGTACGAGGAGCGCTCAAATCAGCTCGCCCGAAGCATGAATGTCCAGCTGAAGCAGCTTCATTCGCAGTTTCAGACGGTTCTTGGTAAACTGAATGCATTAAGTCCCCTTCAGGTGATGGAGAGAGGATACAGTCTGGCCTATAAAGACAAAGAGCTGATCAAAAGCGTTGATCAAGTGGAACAAAATGATACGCTTGAAGTAAAGATGACAGACGGCGTTCTGACGTGTGAAGTATTGCAAAAGAGAGGCGAACGAAAATGA	MSEAAYVTVSALTKYIKRKFDVDPHLEDIWIKGELSNVKIHTRGHIYFTLKDEHARMQAVMFQRQSSRLAFKPEDGMKVIVRGGISVYEPSGSYQLYAKEMQPDGVGALYLAYEELKKKLAGEGLFDDRHKQAIPAFPATIGVVTSPTGAAVRDVITTLKRRYPLVKVIVLPALVQGENASRSIVKRIEEANAQKMCDVLIVGRGGGSIEELWAFNEEIVARAIFASAIPIISAVGHETDFTISDFVADIRAATPTGAAEIAVPHTTDLMERTKTAEVRLTRAMQQHISKKKERVQSLQSSYAFRFPKRLYTQKEQQFDLLYQQFQSQLTGLTDRKQRQLERNTYRLTALHPETQLKQAKKRYEERSNQLARSMNVQLKQLHSQFQTVLGKLNALSPLQVMERGYSLAYKDKELIKSVDQVEQNDTLEVKMTDGVLTCEVLQKRGERK				NA	NA	NA	NA	NA
D1-12_01533	852	folD	COG0190	Bifunctional protein FolD protein	ATGACTGCAACAATCATCGACGGAAAAGAAACGGCTAAAGAAAAACGCGAACAATTGGCAAAAGAAGTAGAAGAGCTGAAAGCACAAGGCGTAGTGCCTGGCTTGGCGGTCATTTTAATCGGAGACGATCCCGCTTCTGTTTCATATGTGACAGGCAAGAAAAAAGCCGCTGAAACAATGGGAATGAAATTTAAGCTTGACCGCTTTGACTCAAGCTTAACCGAGGCGGAGCTTTTAACAGTGATTGATCAGTATAATCAAAATCCGGAATTCCACGGCATTCTCGTCCAGCTGCCGCTCCCGGATCATATTTCTGAAAAAGCCGTAATCGAGCGGATCTCCCCTGATAAGGATGTTGACGGTTTCCACCCTCTCAACGTCGGGAAAATGCTGCTTGGCGAAGATACATTTCTTCCATGCACGCCGCACGGAATTGTCGAGTTACTGAAAAAGACGAACGTAGATCTTTCCGGCAAAGAAGTTGTTGTAGTCGGACGAAGCAATATTGTCGGTAAACCGGTCGGCCAGCTGCTGCTGAACGAAAACGCGACCGTCACATATTGCCATTCCCGCACGAAAAATATGTCTGAGCATACGAAAAAAGCAGATATTCTTGTGGTAGCGGTCGGTAAAGCGAACTTCATCAAAGCCGATCAAATCAAAGAGGGCGCCATTGTCATTGATGTCGGCGTCAACCGTCTCGAAAGCGGAAAACTCTGCGGAGACGTTCAGTTTGATGAAGCGAAAGAAAAAGCATCTTTCATTACGCCGGTGCCGGGCGGAGTAGGTCCGATGACCATCACAATGCTTGCGCATAATACTGTTAAATCTGCCAGACGTACGTTATCATAG	MTATIIDGKETAKEKREQLAKEVEELKAQGVVPGLAVILIGDDPASVSYVTGKKKAAETMGMKFKLDRFDSSLTEAELLTVIDQYNQNPEFHGILVQLPLPDHISEKAVIERISPDKDVDGFHPLNVGKMLLGEDTFLPCTPHGIVELLKKTNVDLSGKEVVVVGRSNIVGKPVGQLLLNENATVTYCHSRTKNMSEHTKKADILVVAVGKANFIKADQIKEGAIVIDVGVNRLESGKLCGDVQFDEAKEKASFITPVPGGVGPMTITMLAHNTVKSARRTLS	PGPT0008075_4364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
D1-12_01534	393	nusB		Transcription antitermination protein NusB	ATGAAAAGAAGAACAGCTAGAGAAAAAGCTTTGCAGGCACTTTTTCAGATTGATGTCAGCGATATTGCACCGAACGATGCCATTGAGCACGCGCTTGATGGTGAAAAAACAGATGCCTTCTTTGAACAGCTGGTGTACGGAGTGATCGAACATCAGGTCCAGCTTGATGAAATGATTTCCGGCCATCTCGTCAATTGGAAGCTTGACCGGATTGCAAACGTAGACCGCGCGATCCTGCGTCTGGCGGTGTATGAAATGGTTTATTCTGACGACATTCCTGCTAACGTGTCATTAAACGAAGCAATCGAGCTGGCAAAACGGTTCGGCGACGATAAAGCTGCAAAATTCGTAAACGGGGTTCTTTCTAACATTAAAACTGATATCGAATCATAG	MKRRTAREKALQALFQIDVSDIAPNDAIEHALDGEKTDAFFEQLVYGVIEHQVQLDEMISGHLVNWKLDRIANVDRAILRLAVYEMVYSDDIPANVSLNEAIELAKRFGDDKAAKFVNGVLSNIKTDIES				NA	NA	NA	NA	NA
D1-12_01535	408			hypothetical protein	ATGGAAGACAACAGTGTGCTTAAAATGGATCATGATGAGGCTCATTTAGGCAAGGTTGAAATTGCTCCTGAGGTCATTGAAGTCATTGCCGGCATCGCCGCTTCCGAAGTTGAAGGAGTTGCTGAAATGCGCGGCAATTTCGCCACGGGCGTCGTAGAACGCTTCGGCAAAATCAATCACGGCAAAGGCGTAAAGGTCGATTTAGCCGATGACGGGATTACCATCGACGTCTATTGCGTCGTTCAATTCGGGATCTCGATCCCGAAAGTGGCGGCAAGCGTTCAGGAGAATATCCGCCAAACCTTATTAAACATGACGTCTCTGACCATTAATGAAATCAATATTCATATCGTCGGCATTCAATTTGACACGAAAGCCCAAGAAGTCGAAATCGACGAAGAAATGTAA	MEDNSVLKMDHDEAHLGKVEIAPEVIEVIAGIAASEVEGVAEMRGNFATGVVERFGKINHGKGVKVDLADDGITIDVYCVVQFGISIPKVAASVQENIRQTLLNMTSLTINEINIHIVGIQFDTKAQEVEIDEEM				NA	NA	NA	NA	NA
D1-12_01536	1353	accC	COG0439	Biotin carboxylase	ATGATTAAAAAGCTATTGATCGCCAACCGAGGAGAAATCGCCGTCAGAATCATCCGGGCCTGCAAAGAGCTGGGCATTGAAACTGTAGCCGTTTATTCTGAGGCAGATAAAGACGCCCTGCATGTCCAAATGGCCGATGAGGCTTTTTGTATCGGGCCGAAAACATCAAAAGAAAGCTATTTAAATGTAACGAACATCGTCAGCGTCGCAAAGCTGACCGGCACGGATGCGATTCATCCGGGATACGGGTTTTTAGCTGAAAACGCCGACTTTGCCGAGCTGTGCGAGGAATTAAACGTAACGTTTGTCGGCCCTACGGCTGACGCCATTTCAAAAATGGGAACAAAAGATATCGCGCGCGACACGATGCAGCTGGCGGGCGTGCCGATTGTGCCCGGTTCAAAAGGAATCATAAAAAATACGGAAGAAGCGGTTTCGCTTGCAGGTGAAATTGGGTATCCTGTCATTATAAAAGCCACTGCGGGCGGAGGCGGAAAAGGCATCCGGGTCGCACGCACAGAAGAAGAACTGATCAAAGGCATTGAGATTACCCAGCAGGAAGCCGCTACGGCATTCGGAAATCCGGGTGTGTACATCGAGAAGTACATCGAAGATTTCCGCCATGTTGAAATTCAGGTGCTTGCGGATAATTACGGAAACACGATCCATCTCGGAGAGCGTGACTGTTCTATCCAAAGACGTCTGCAAAAACTTCTTGAAGAGTCACCGTCACCTGCGCTTGATTCTGAAATCAGGGAGCAGATGGGCGAAGCAGCGGTAAAAGCAGCTAAGGCCGTCGGTTACACGGGAGCCGGCACAGTAGAATTCATCTATGACTACAGAGAACAGCGCTACTACTTCATGGAAATGAACACGCGTATTCAAGTAGAGCACCCTGTCACAGAAATGGTGACGGGAACGGATCTGATCAAAGAACAGATCAAAGTGGCATCCGGACAGGAGCTTTCGCTCAGACAGGAAGACGTTGAATTTAACGGCTGGGCGATTGAATGCCGCATCAACGCTGAAAATCCTGCGAAAAACTTCATGCCTTCACCCGGTAAAATTAACATGTACCTGCCGCCGGGCGGACTTGGCGTGCGCGTGGATTCAGCCGCATATCCCGGCTACTCGATCCCGCCGTACTATGACAGTATGATTGCTAAAGTCATCACATACGGAACAACGCGTGATGAGGCAGTCGCACGGATGAAACGCGCGCTGAGCGAATTCGTGATTGAAGGTATTGAAACGACGATTCCGTTCCATTTGAAACTGCTTGAACACGAAACATTTGTCAGCGGAGAGTTTAATACAAAGTTTTTAGAAACATATGATGTAATGGGCTCATAA	MIKKLLIANRGEIAVRIIRACKELGIETVAVYSEADKDALHVQMADEAFCIGPKTSKESYLNVTNIVSVAKLTGTDAIHPGYGFLAENADFAELCEELNVTFVGPTADAISKMGTKDIARDTMQLAGVPIVPGSKGIIKNTEEAVSLAGEIGYPVIIKATAGGGGKGIRVARTEEELIKGIEITQQEAATAFGNPGVYIEKYIEDFRHVEIQVLADNYGNTIHLGERDCSIQRRLQKLLEESPSPALDSEIREQMGEAAVKAAKAVGYTGAGTVEFIYDYREQRYYFMEMNTRIQVEHPVTEMVTGTDLIKEQIKVASGQELSLRQEDVEFNGWAIECRINAENPAKNFMPSPGKINMYLPPGGLGVRVDSAAYPGYSIPPYYDSMIAKVITYGTTRDEAVARMKRALSEFVIEGIETTIPFHLKLLEHETFVSGEFNTKFLETYDVMGS	PGPT0001705_2198	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
D1-12_01537	480	accB	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGTTAAAAATCAACGAAATTCATGAACTGATAAAAAGAATCGATGAATCTTCCATCGACGAATTTGTTTACGAAATTGAAGGCGTAAGCCTCAAACTGAAAAAAAATGAAGCGCCGGCAGTGAATGTAACGGGACAAGCCCAAGCCGTTCCCGCCGCTTACGCACCTGCTCCGCAGGCTGCAAAACCGGAAGCGCGTGAAGCCGCTCCTGCTCAGGAAGCGCCGAAACAAGACGAAAACCTGCACAAAATTACGTCTCCGATGGTCGGAACGTTTTATGCTTCTTCATCGCCGGAAGCCGGCCCTTACGTAAACCAAGGTTCAAAAGTGAGCGAAAATACAGTTGTTTGTATCGTAGAAGCAATGAAACTCTTTAACGAGATTGAAGCCGAAGTAAAAGGAGAAATCGTTGAAGTGTTAGTTGAAAACGGCCAGCTGGTCGAATACGGACAACCTCTATTTCTTGTAAAAGCTGAGTAA	MLKINEIHELIKRIDESSIDEFVYEIEGVSLKLKKNEAPAVNVTGQAQAVPAAYAPAPQAAKPEAREAAPAQEAPKQDENLHKITSPMVGTFYASSSPEAGPYVNQGSKVSENTVVCIVEAMKLFNEIEAEVKGEIVEVLVENGQLVEYGQPLFLVKAE	PGPT0001700_1612	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
D1-12_01538	651	spoIIIAH		Stage III sporulation protein AH	ATGCTGAAAAAACAAACGGTTTGGCTTTTAACAATGCTCAGTCTCGTCGTGGTATTAAGTGTTTATTATATTATGTCGCCGGAAAGCAAAAATGCCGTGCAGATGAAAAGCGAAAAAAGCAGCGGAGAAGTCGCCACTGAAAAAACGCCGGCTCCTGAAACGAAAGATAAGAGCGGAAGCGGTACGGAAAAAGAAGACGGCACAAAAGGAACGAAAGATTCTAAAGGCACAAAAGAGGATAAAGAAACATCAGCCGAAGCATCGGACAAAGACGGATCGGTCGCCACAGAAACAGCTGATGAAAACTTATTTACCGCATACCGTATGGAACTTGAAGACGCGAGAAGCAAAGAAAGGGAACAGTTAAACAGCATTGTTTCAAGCGATGATGCGACCGCAAAGGAAAAAAGCGAAGCCTACGATAAAATGACGGCGCTGAGCAATGCTGAAGGGACGGAAAAACAGCTGGAAACGCTGATTAAAACACAAGGCTACAAAGATGCGCTCGTGGATGCTGAAGGAGACAAAATCAACATTACCGTCATGTCTGACAAACATTCAAACGCAAAAGCTTCCGCTATCATTGACCTGGTGGAAAAAGAAATCAAGACGATGAAAGACGTCGCCGTCACGTTTGAACCGACAAAGTAA	MLKKQTVWLLTMLSLVVVLSVYYIMSPESKNAVQMKSEKSSGEVATEKTPAPETKDKSGSGTEKEDGTKGTKDSKGTKEDKETSAEASDKDGSVATETADENLFTAYRMELEDARSKEREQLNSIVSSDDATAKEKSEAYDKMTALSNAEGTEKQLETLIKTQGYKDALVDAEGDKINITVMSDKHSNAKASAIIDLVEKEIKTMKDVAVTFEPTK	PGPT0024755_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024755-spoIIIAH-K06397	NA	NA
D1-12_01539	693			hypothetical protein	ATGAATAAAAACGGACTATGGACCATACTCAAAAAACAGCTGATGATCGGACAGGCGAAAGACGGAGAAAAACCAAAACTGACAAAATATCATTACTTTCTGTTCGTGTTTGTGCTCGGGGTATCTTTTATGCTGGTCAGCCAGCTGTTCTCTTCACCGGAGAAAACCGGGAAGGACCAAACGGCTCAGACCGTCATGTCCGGCCGAACGGAAGACAAAAGCGGGCAAAAAAGCGCACCCGTTTTTAAGGCATCGAAAGACGGCAGCGCAAAAACCACGATCGATGATTACGAAAGAGACTATGAAAACCAGCTGAAAGAAATCCTTGAAACGATTATCGGCGTGGAGGATGTCTCAATTGTCGTAAACGTAGACGCAACATCTTTGAAAGTGTTTGAGAAAAATAAAACGAAAAAAGACACCACCACTGAAGAAACCGATAAAGAAGGCGGCAAAAGAAGCGTAACCGATCAAACCTCTGAAGAACAAATTGTCATGATTCGAAACGGGGACCAGGAAACCCCGGTCGTCGTCCAGACGAAAAAGCCCGATATCCGCGGTGTACTCGTTGTCGCTCAGGGAGTGGACAACGTTCAAATAAAAAAAACCATCATTGATGCCGTCACAAGGGTGCTCGATGTTCCGAGCTATCGTGTAGCGGTTGCCCCTAAAAAAATCAAGGAGGATTCATAA	MNKNGLWTILKKQLMIGQAKDGEKPKLTKYHYFLFVFVLGVSFMLVSQLFSSPEKTGKDQTAQTVMSGRTEDKSGQKSAPVFKASKDGSAKTTIDDYERDYENQLKEILETIIGVEDVSIVVNVDATSLKVFEKNKTKKDTTTEETDKEGGKRSVTDQTSEEQIVMIRNGDQETPVVVQTKKPDIRGVLVVAQGVDNVQIKKTIIDAVTRVLDVPSYRVAVAPKKIKEDS	PGPT0024750_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024750-spoIIIAG-K06396	NA	NA
D1-12_01540	621	spoIIIAF		Stage III sporulation protein AF	ATGAGCTTTTTAACAGAATGGCTGACAAGCATTATTTTATTTATCTTATTCGCCATCGTCATCGACATGCTGCTGCCCAGCTCCAGTATGCAAAAATACGCAAAGATGGTTGTCAGCCTGCTGTTAATCATTGTCATGCTCAACCCGATATTCAAACTTTTCAAAACAGACCCGGAAATCATCTTCGATTATTTGACAAAACAAGAGCAATCTCAATCCGCTGATATAAAAAATCAAATCAAATCAGAAAAAAAAGAAATACAAGCATCAAACCGCGCATATGTTTTAGAAGAAATGGCTGTCCAACTAAAAAAGAAAGCGGAGGAGATGTTCAGTCATGACGAATACAAAATAGACGACATCCGCCTTACAGCGGAAGAACAGGTTCGTTCAGAAGAAGATGTAAAAACGATCAGCGTGTATATGGCCCCATCTTCTGAAAAAACCGTGCAAACCGTCGCACCGATCGACATCCGCACAGACCGCAAATACGAACCGGAAGGCGCAGCCGACAAAAAAGAGGCCGCAGACATCAAAGAAAAACTTGCGGATATATGGGAAATCGGCAGTGAGAAAATTACGGTTTATATGGAAGGCGGGGAGAAAAACGGCCATGAATAA	MSFLTEWLTSIILFILFAIVIDMLLPSSSMQKYAKMVVSLLLIIVMLNPIFKLFKTDPEIIFDYLTKQEQSQSADIKNQIKSEKKEIQASNRAYVLEEMAVQLKKKAEEMFSHDEYKIDDIRLTAEEQVRSEEDVKTISVYMAPSSEKTVQTVAPIDIRTDRKYEPEGAADKKEAADIKEKLADIWEIGSEKITVYMEGGEKNGHE	PGPT0024745_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024745-spoIIIAF-K06395	NA	NA
D1-12_01541	1209	spoIIIAE		Stage III sporulation protein AE	ATGAAGCGCTTTCGGTGGGCGGGAGCTTTTTTGTTCATCCTCTTATTTTTTCAGTCTGAATGTGTACAAGCTGCCGGAACAGACGGTGCGTCGCAGGAAACCGCAGTTCACCAAGAATCCGCTGATGAAGTGGCGAAAAAGCAGGCCGAAGCGCTGAAAACAGAAGGCATCGGAAAGTTTTGGGACGACATCATGACAGAATACGGCGGTCTTCTGCCTGAAAGCCAAAAGGGAAGCATCATCGACTTTATTAACGGAGAAAAAACGTTCTCACCGGAGGCATGGCTGAAGGCTTTATTTTCATACTTGTTTCATGAAGTGCTCGCAAACGGAAAGCTTCTGGGAACTTTGATTCTTCTCACCATTTTTTGTGTCATTCTGCAGCTCCTGCAAAATGCGTTCCAGCAGAGCACCGTCAGCAAAGTGGCTTATGCAATCGTCTACATGGTGCTGATTATTCTCGCTTTAAACAGCTTTCATGTTGCTGTCAATTATGCCAGTGAAGCGATCCAGACGATGACAAGCTTCATTCTCGCGCTTATCCCGCTTTTACTCGCGCTTTTGGCGTCTTCCGGGGGAGCCGTCTCCGCAGCTTTTTTTCACCCCGTTATTTTATTTCTGATGAATACGAGCGGCCTTCTCATTCAAAACATTGTCATGCCGCTTATCTTCCTGTCAGCGATTTTAAGCATCGTCAGCACGATGACGGATCAATATAAAGTCACGCAGCTTGCCAATCTGCTCAGAAATATCGCGATCGGCGCGCTTGCCGTATTCCTCACCGTGTTTCTCGGCGTCATCTCCGTACAGGGGGCTTCGGCTGCCGTGACGGACGGGATTACGCTCAGGACTGCAAAATTTATAACAGGCAATTTTATTCCCGTGCTCGGCCGGATGTTTACGGATGCGACGGATACGGTCATCAGCGCCTCGCTCCTATTAAAAAACACCGTGGGAATCCTCGGAGTCGGAATTTTGATCTGCATCTCCGCGTTTCCGGCGATCAAAGTGCTCTCGCTCGCTTTTATTTATAAGCTCGCGGCCGCTATTCTGCAGCCGCTCGGAGGCGGGCCCGTCATTACGTGCCTCGGCGTCATCAGCAGAAGCGTACTGTATATTTTCGCGGCGCTCGCCATCGTCTCTCTCATGTTTTTCCTCAGCATCACAGTCATTATTACAGCAGGCAACCTCACCATGATGATGAAATAA	MKRFRWAGAFLFILLFFQSECVQAAGTDGASQETAVHQESADEVAKKQAEALKTEGIGKFWDDIMTEYGGLLPESQKGSIIDFINGEKTFSPEAWLKALFSYLFHEVLANGKLLGTLILLTIFCVILQLLQNAFQQSTVSKVAYAIVYMVLIILALNSFHVAVNYASEAIQTMTSFILALIPLLLALLASSGGAVSAAFFHPVILFLMNTSGLLIQNIVMPLIFLSAILSIVSTMTDQYKVTQLANLLRNIAIGALAVFLTVFLGVISVQGASAAVTDGITLRTAKFITGNFIPVLGRMFTDATDTVISASLLLKNTVGILGVGILICISAFPAIKVLSLAFIYKLAAAILQPLGGGPVITCLGVISRSVLYIFAALAIVSLMFFLSITVIITAGNLTMMMK	PGPT0024740_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024740-spoIIIAE-K06394	NA	NA
D1-12_01542	450			hypothetical protein	ATGACCTGTTCAAAAAGATCAAAGCTGTGTTTCTATTCCAAGGATAGGGGGGGCTTACAGATTGAGATTGTTCAAATTGTAGGTTTAGGCCTGATCGCCACATTTCTCTCCCTGATCGTAAAAGAACAGAAACCGACTTTCGCGTTTATGATTGTCGTCTTCAGCGGCTGCGTGATCTTTCTTTATCTCGTCGACCAGATTTACGACATTATCAGAATGATAGAAAAAATAGCCGTCAATGCAAATGTCAATATGGTCTATGTGGAAACCATTTTAAAAATTATCGGCATCGCCTACATCGCTGAATTCGGAGCGCAGCTTACAAAGGATGCGGGCCAGGGAGCGATTGCTTCGAAAATAGAGCTGGCCGGAAAAATTTTGATACTGGTAATGGCCGTGCCGATACTCACCGTCATTATTGAAACGATTCTCGGACTTATTCCTTCTTGA	MTCSKRSKLCFYSKDRGGLQIEIVQIVGLGLIATFLSLIVKEQKPTFAFMIVVFSGCVIFLYLVDQIYDIIRMIEKIAVNANVNMVYVETILKIIGIAYIAEFGAQLTKDAGQGAIASKIELAGKILILVMAVPILTVIIETILGLIPS	PGPT0024735_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024735-spoIIIAD-K06393	NA	NA
D1-12_01543	207			hypothetical protein	ATGGGAGTCGACGTAAATGTCATTTTTCAAATCGCCGGAGTCGGTATCGTGGTTGCGTTTCTGCACACCATACTTGACCAAATGGGAAAAAAAGAATACGCCCAGTGGGTGACGCTGCTTGGCTTTATCTATATTTTATTTATGGTGGCGACGATTGTCGATGACCTGTTCAAAAAGATCAAAGCTGTGTTTCTATTCCAAGGATAG	MGVDVNVIFQIAGVGIVVAFLHTILDQMGKKEYAQWVTLLGFIYILFMVATIVDDLFKKIKAVFLFQG	PGPT0024730_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024730-spoIIIAC-K06392	NA	NA
D1-12_01544	516	spoIIIAB		Stage III sporulation protein AB	ATGCTGAAGCTTTTGGGTGCCGTGTTCATTCTGACGGCGACGACATGGACGGGATTTGAGATCGCCAAAATGTATATTGAAAGGCCGCGGCAGATCCGTCAGCTGCGCGCGGCGCTCCAATCGCTTGAAGCGGAAATCATGTTCGGGCATACACCGCTGCATACCGCCTCGGGACAAATTGCCGCACAGCTTTCCAAACCTGTATCGTTATTGTTTCAAGCTTTCAGCAGAAGGCTTGAGCAGGGAAGCGATTCCGCCAAAACGGCTTGGGAACAGAGCTTGAAACATAACTGGTCTTCCATGGCGATGAAAAAAAGCGAATATGATGTGCTGAAGCAATTCGGAGAGACGCTCGGGCTCCATGACCGTGTTTCTCAGCAGAAACATATCAAGCTTGCGCTTACACATTTGGAAGCGGCGGAAGCGGATGCCGGACGGGCGCAGGCGAAAAATGAAAAAATGGTGAAAAGCTTAGGATTTTTAGCCGGACTGTTACTCATTCTTCTATTGATGTAA	MLKLLGAVFILTATTWTGFEIAKMYIERPRQIRQLRAALQSLEAEIMFGHTPLHTASGQIAAQLSKPVSLLFQAFSRRLEQGSDSAKTAWEQSLKHNWSSMAMKKSEYDVLKQFGETLGLHDRVSQQKHIKLALTHLEAAEADAGRAQAKNEKMVKSLGFLAGLLLILLLM	PGPT0024725_239	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024725-spoIIIAB-K06391	NA	NA
D1-12_01545	924			hypothetical protein	TTGAATGAGATTACAGAGGTTCTCCCTGAATTATTGAGAGATGCCATCTCCGCCGTGCCCGAAGAAGCGAGGCGGGATACAGAAGAAATCAGAATCCGCGTCGACAGGCCGGTTGAACTGATCCAAAAAGGACAACCTTTGTATTTGTCATATGTCTGTACGGCCGGCGACGCACAGCTGATCCTCAGCCGGCTCAGCAATTACAGTATGTACACGCTGGAAGAAGAGCTGAAAAAAGGATACATCACAATCAGAGGAGGCCACCGTGTGGGGCTGGCCGGAAGAGTCATCGTCGAAAACGGAGCCGTCAAAGGACTCCGGGATATTACTTCTTTTAATATCCGAATCGCCCGGGAGAAGCTTGGGATCGCAGAACCGCTCATTCCTTTCTTATGGAAAGAAAACTGGCTGAACACGCTGATCATCGGTCCCCCGCAAACGGGGAAAACGACCTTGCTTCGTGATTTGGCCCGGCTTTCCAGCACCGGATCAAAACGCATTCCTGCAAAAAAAACAGGTATCGTAGATGAACGGTCGGAAATTGCCGGCTGCCTGCGGGGCATTCCCCAGCACAGTTTCGGCCGCAGAATCGATGTCCTTGATGCCTGTCCGAAGGCGGAAGGGCTGATGATGATGATCCGCTCTATGAGTCCTGATGTCATAATTGTGGATGAAATCGGGAGAATGGAAGACTCACAAGCGCTGCTGGAGGCGCTCCATGCGGGCGTATCCGTTATCGTATCTGCGCACGGGTGGGACATGAAAGACTTGGTAAAGAGGCCGTCGCTGAAAATGCTGTGGGAGGAAAACGTGTTTGACCGGTATGTGGAGCTGTCAAGACGCCGCGGTCCGGGAACGATCAGCAGGATGTACGGAAAGGACGGAGAACCGGTTCCGCATGCTGAAAGCGTGATGACATGCTGA	MNEITEVLPELLRDAISAVPEEARRDTEEIRIRVDRPVELIQKGQPLYLSYVCTAGDAQLILSRLSNYSMYTLEEELKKGYITIRGGHRVGLAGRVIVENGAVKGLRDITSFNIRIAREKLGIAEPLIPFLWKENWLNTLIIGPPQTGKTTLLRDLARLSSTGSKRIPAKKTGIVDERSEIAGCLRGIPQHSFGRRIDVLDACPKAEGLMMMIRSMSPDVIIVDEIGRMEDSQALLEALHAGVSVIVSAHGWDMKDLVKRPSLKMLWEENVFDRYVELSRRRGPGTISRMYGKDGEPVPHAESVMTC	PGPT0024720_304	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024720-spoIIIAA-K06390	NA	NA
D1-12_01546	282			hypothetical protein	ATGAAATTTTTGTTTGGTTCAATCAATTCTACTGTTTTAACGATGGCCGGTTTACGAGTTTTGTCCTCGCTCATTGAATTATCGGCCGCTATTATCATGCTTTTGACAAACGACATCAGAAAGGCAGTTGTGGTGAATAGTATTTTGGCAATCGTCGGCCCGCTGATCTTTATCATCACAATGACGATCGGCATTTATCAGATTGCCGGACAGCTCTCATATGCAAAATTAATATTGATTTTTGCGGGAGTGGTGCTGATTTTGGCCGGTGTGCATAAATAG	MKFLFGSINSTVLTMAGLRVLSSLIELSAAIIMLLTNDIRKAVVVNSILAIVGPLIFIITMTIGIYQIAGQLSYAKLILIFAGVVLILAGVHK				NA	NA	NA	NA	NA
D1-12_01547	558	efp		Elongation factor P	ATGATTTCAGTTAACGATTTTCGTACAGGACTAACGATTGAAGTAGACGGCGGCATTTGGCGCGTCGTTGACTTCCAGCACGTAAAGCCGGGAAAAGGAGCGGCATTTGTCCGTTCTAAATTGCGTAACCTGCGCACGGGCGCTATTCAGGAGAAAACATTCCGTGCAGGTGAAAAAGTTGCGAAAGCGCAAATCGAAACAAAAACGATGCAGTATCTTTATGCCAACGGCGATCAGCACGTGTTCATGGATACAAGCTCATATGAACAGCTTGAATTGAATGAAAACCAAATCGAAGAAGAATTAAAATACCTTCTGGAAAATATGTCTGTGCACATCATGATGTATCAGTCTGAAACGCTCGGTATTGAACTGCCGAACACAGTTGAACTGAAAGTTGTTGAAACAGAGCCGGGAATTAAAGGCGACACGGCGTCAGGCGGCACAAAACCTGCCAAAACGGAAACAGGTCTTGTCGTAAACGTACCGTTCTTCGTGAACGAAGGCGATACGCTAGTTGTAAATACATCAGACGGTTCTTACGTGTCAAGAGCGTAG	MISVNDFRTGLTIEVDGGIWRVVDFQHVKPGKGAAFVRSKLRNLRTGAIQEKTFRAGEKVAKAQIETKTMQYLYANGDQHVFMDTSSYEQLELNENQIEEELKYLLENMSVHIMMYQSETLGIELPNTVELKVVETEPGIKGDTASGGTKPAKTETGLVVNVPFFVNEGDTLVVNTSDGSYVSRA	PGPT0016205_4056	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
D1-12_01548	1062	ypdF	COG0006	Aminopeptidase YpdF	ATGAAACTTGAGAAATTGCGAAATCTTTTCGGTCAGCTGGATATAGACGGAATGTTGGTGACAAGCTCCGCCAATCTGCAGTATATGACGGGATTTACGGGTTCGTCAGGCCTTGTGGTCATATCGAAAGAACGTGCGGCATTTATCACGGATTTCCGTTACACCGAGCAGGCGAAGACGCAAGTGAAGGGTTTTGACATTATCGAGCACGGCGGAAGCTTAATCCAAACGGCTGCGGATACGATTCTTGAGTACGGCATTAAAAAACTCGGCTTCGAGCAAAACAGCATGACGTACGGAACATATGCATCCTATCAAGCGGTGCTGCAGGAAGCGGAGATGATTCCCGTCGCGGATTCCGTTGAAAAGTTGCGCTTGATTAAGTCAAGTGAAGAGATTAAGATATTAGAGGAAGCTGCGAAGATTGCGGATGATGCGTTTGAACATATTCTGACGTTTATCAAACCGGGCATCTCAGAGATTTCAGTTGCAAACGAGCTTGAATTTTATATGAGACGTCAAGGAGCGGACGGCTCTTCCTTTGATATGATCGTCGCCTCGGGAGTCAGATCCAGCCTTCCCCACGGAGTGGCAAGCGACAAATTGATTGAAAAGGGAGACTTGGTCACGCTCGATTTCGGCGCTTATTATAAAGGCTATTGTTCTGATATCACACGCACCGTCGCGGTCGGAGAGCCAAGTGATAAACTGAAAGAGATTTATCAGGTCGTATACGATGCCCAAGCGCTTGGTGTCCTGCATATTAAACCCGGCATGACGGGGAAAGAAGCGGACGCTCTGACGAGGGATCACATCACCGCGAAAGGCTACGGACAGTATTTCGGCCATTCGACAGGACACGGGTTCGGGATGGAAGTCCATGAATCACCGGGGCTGTCTTTCAGGTCATCGGCCGTTCTTGAGCCGGGCATGGCGGTAACGGTTGAGCCGGGCATATACATACCGGAAGTTGGGGGCGCAAGAATCGAAGATGATATCATCATCACTGAGGACGGCAACCGGACAATTACGCATTCCCCTAAAGAATTAATTATTTTGTGA	MKLEKLRNLFGQLDIDGMLVTSSANLQYMTGFTGSSGLVVISKERAAFITDFRYTEQAKTQVKGFDIIEHGGSLIQTAADTILEYGIKKLGFEQNSMTYGTYASYQAVLQEAEMIPVADSVEKLRLIKSSEEIKILEEAAKIADDAFEHILTFIKPGISEISVANELEFYMRRQGADGSSFDMIVASGVRSSLPHGVASDKLIEKGDLVTLDFGAYYKGYCSDITRTVAVGEPSDKLKEIYQVVYDAQALGVLHIKPGMTGKEADALTRDHITAKGYGQYFGHSTGHGFGMEVHESPGLSFRSSAVLEPGMAVTVEPGIYIPEVGGARIEDDIIITEDGNRTITHSPKELIIL	PGPT0006770_6739	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
D1-12_01549	531			hypothetical protein	ATGACAAGCGAAAAACATTCAGAACAGGAAGAAAAAAAGAAGCGGGATGATGATCAGCAGCCTGTTTCATTTACCGGCAGAATTTGCGGTATCGGATTTGCCGGCGGTGTATTTTGGAGTTTGATCGGCTATCTCGGGTATGTCTTTCATTTTTCAGAGATCAGCCCCAACATGATTCTTCAGCCGTTTATGATCGGAGAATGGAAAAAACAATGGCTCGGCACGATGGTCAGCATCGTTGTCATCGGATTCATTTCAATTGCCGGGGCGTTTATTTATTTCGTCTGCCTGAAGCGTTTTAAAACGATGTGGCCGGGGATGGTGTACGGCGTCATTTTATGGTGTGCGGTTTTTTTCTTATTCAATCCGATTTTCGAAGATGTGAAATCCATCACTGAATTGAAATCAGATACAATCGTGACGACGCTTTGCCTTTACATTCTGTACGGTTTGTTTGTCGGCTACTCAATTTCCTTCAACTACAATGAACTTACGTCAGACAAGCTTGCAAGGGCGCTCGGCAACAAGTGA	MTSEKHSEQEEKKKRDDDQQPVSFTGRICGIGFAGGVFWSLIGYLGYVFHFSEISPNMILQPFMIGEWKKQWLGTMVSIVVIGFISIAGAFIYFVCLKRFKTMWPGMVYGVILWCAVFFLFNPIFEDVKSITELKSDTIVTTLCLYILYGLFVGYSISFNYNELTSDKLARALGNK				NA	NA	NA	NA	NA
D1-12_01550	957			hypothetical protein	ATGTCCAAACAAAAAACGCCCCCTGCATACGGCGGGCAGGCTGTTGTTGAAGGGGTCATGTTCGGCGGCAGAAAAAATTATGTTACCGCCATCCGCAGGAATGACGGAAGCATTGATTTTTTCAAGCTTCCGAGAGTGCCGAACGCCAAGCTTTCGGCTTTAAAAAAGATTCCTTTTTTGCGGGGAATCGTCGCCATCATTGAGGCGAGCGCCAACGGCACAAAGCATTTAAACTTTTCCAGCGAACGTTACGGGCTTGATCCTCAAGATGACGCCAAGCTGGAGCAGGAAAATAAGAAAGGTTCGGGCTTATCGATGTTTTTCAGCCTGGCGGTGATCGGCGTTCTGTCGTTTTTGTTTAGTAAATTCGTTTTCACGCTCGTCCCGGTCTTCTTAGCGGAGCTTGTAAGGCCCGTCTTTTCCTCAGACGCCGCGCAGATCGGAATCGAAAGTCTGTTTAAGCTTATTCTGCTTCTCGGCTACATTTATTTTTTATCAATGACGCCGTTAATTAAAAGAGTGTTTCAATATCATGGAGCCGAACATAAGGTCATAAACTGTTATGAACAGAATTTGCCAATTACAATAGAAAATGTTCAGAAACAGTCACGGCTTCATTACCGTTGCGGTTCAAGCTTTATTTTATTTACGATCATTGTCGGCATGTTCGTCTATTTACTCGTTCCGACAGATCCGCTTTGGGTGCGGATTTTAGACAGGATTGCGCTTATACCGGTCGTTCTCGGCATCTCCTTTGAAGTGCTCCAGCTGACGAACAGAGTGCGGAATATCCCCGTTTTGAAAGTGCTCGGTTATCCCGGCCTGTGGCTGCAGCTTTTAACGACAAAGGAACCGGCGGATGACCAGGTCGAGGTTGCCATAGAAAGCTTTAACGAGCTTCTCAGACTGGAAGACATTTCAGAACAGAGCGAAAAACCGTCTCACAACGTAATTTGA	MSKQKTPPAYGGQAVVEGVMFGGRKNYVTAIRRNDGSIDFFKLPRVPNAKLSALKKIPFLRGIVAIIEASANGTKHLNFSSERYGLDPQDDAKLEQENKKGSGLSMFFSLAVIGVLSFLFSKFVFTLVPVFLAELVRPVFSSDAAQIGIESLFKLILLLGYIYFLSMTPLIKRVFQYHGAEHKVINCYEQNLPITIENVQKQSRLHYRCGSSFILFTIIVGMFVYLLVPTDPLWVRILDRIALIPVVLGISFEVLQLTNRVRNIPVLKVLGYPGLWLQLLTTKEPADDQVEVAIESFNELLRLEDISEQSEKPSHNVI	PGPT0015034_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015034-yqhQ-NA	NA	NA
D1-12_01551	396			hypothetical protein	ATGAATCATCGTGTACAACCTTTTTTTGCTGTATTGATAGCGCTTGGCGCATTCGGTTTCATTTATGCGGCGGTAACCAACCCCGGGCAGATGATTTCAAGAGCGATCACCGTTATTATCGCAGGCATCATTATTTATTTTATCGTGAGGACGGTCCTGAACCGCCGCACCGGCCGTGACGGAACCGCTTTCAGAAAAGCGGCCAGACAATCGCGGCTCCGAATGAAGGAGCAAAAAGCGAAGCACCGCGCCGGACACAGAGGCCGGGTCAGCCATTTGCGGAGCGTGCCGAGCAGCAGCAGACCGAAGCCGATGATTCTTAAGAAAAAAAGCCAGACCCAGCTTACCGTCATAGAAGGCAAAAAGAATAAAAAGAAAAACAGAGCGCTTTTTTAA	MNHRVQPFFAVLIALGAFGFIYAAVTNPGQMISRAITVIIAGIIIYFIVRTVLNRRTGRDGTAFRKAARQSRLRMKEQKAKHRAGHRGRVSHLRSVPSSSRPKPMILKKKSQTQLTVIEGKKNKKKNRALF				NA	NA	NA	NA	NA
D1-12_01552	876			hypothetical protein	ATGCAGATTGACGGCGTATTTTCGGGCGGGGGGATAAAAGGGGTGGCGCTTGCCGGCGCTTATGAAGCGCTGGAAGAAAAGGGCTTTCGCTTTGAAAGGCTCGCCGGAACAAGCGCCGGCGCAATTATTGCCGCATTTATCGCTGCGGGCTATACGAGCAGAGAGGTTCATTCCATCATAGATGAGGTGGACGGAAGGCAATTGCTTGATCAGAGATACTCATTCCTCCCGCTGAAAATCCTGCAGTGGGTGTCGATATATTGGCGCCTCGGACTATACAGAGGCGATATGCTGGAAAAATGGATTGCGGATAAATTAAAAGCGAAGGGCATCATCGCGTTCGGCGATTTGAAAAAAGGTTCGCTCCGTCTCATCGCTTCAGATCTGACGAACGGAACGATGATCGTGCTTCCTGACGATCTTCCCCGCTACGGATTAAATCCGGAGATGTTCCCGGTTGCCAGAGCCGTCAGAATGAGCTGCAGCATTCCTTATTTTTTTGAACCGATAAAACTGAAGACCGAAAAAGGCACCTCGACGGTCGTTGACGGCGGCGTGTTAAGCAATTTCCCGATTTGGCTGTATTCAAAAGAACGCAAACGGCCGGTCATCGGAATTTCACTTTCGCCCAACGAAAAAGAGCGCCCGAAAAAATCAATCCGCAACGCTTTTGAGCTGTTCGGGGCTTTGTTTGAAACGATGAAAGACGCTCATGATGCCAGGCATATCGCGACAAAGTACGAACAGAATATTATTTTTATTCCGGTGGAACATGTGATGGCGACGGAGTTTCATCTCACACCGCAAAAAAAACTAGCTCTCATTGAGCTAGGAAAAAGCAGAACAGAGCAATTTTTGAAGCAATGGAGCTATTAA	MQIDGVFSGGGIKGVALAGAYEALEEKGFRFERLAGTSAGAIIAAFIAAGYTSREVHSIIDEVDGRQLLDQRYSFLPLKILQWVSIYWRLGLYRGDMLEKWIADKLKAKGIIAFGDLKKGSLRLIASDLTNGTMIVLPDDLPRYGLNPEMFPVARAVRMSCSIPYFFEPIKLKTEKGTSTVVDGGVLSNFPIWLYSKERKRPVIGISLSPNEKERPKKSIRNAFELFGALFETMKDAHDARHIATKYEQNIIFIPVEHVMATEFHLTPQKKLALIELGKSRTEQFLKQWSY				NA	NA	NA	NA	NA
D1-12_01553	429	mntR	COG1321	HTH-type transcriptional regulator MntR	ATGACAACACCAAGTATGGAAGATTATATTGAACAGATTTATATGCTGATAGAAGAAAAAGGATATGCACGGGTTTCTGATATCGCGGAAGCTTTGGCAGTCCACCCCTCCTCTGTAACGAAAATGGTTCAAAAACTAGATAAAGACGAGTATTTGATTTATGAAAAATATCGCGGGCTCGTATTGACGTCAAAAGGCAAAAAGATCGGCAAACGGCTCGTATACAGACACGAATTGCTTGAGCAGTTTTTAAGAATCATTGGTGTTGATGAAGAGAAGATTTACAATGATGTTGAAGGAATCGAACATCATCTGAGCTGGAACAGCATTGACCGCATCGGCGACCTCGTTCAGTATTTCGAAGATGACGAAAGCCGGAAAAAAGAATTGAAATCCGTACAGAAAAAAACCGAAAATCCCGGTGAATAA	MTTPSMEDYIEQIYMLIEEKGYARVSDIAEALAVHPSSVTKMVQKLDKDEYLIYEKYRGLVLTSKGKKIGKRLVYRHELLEQFLRIIGVDEEKIYNDVEGIEHHLSWNSIDRIGDLVQYFEDDESRKKELKSVQKKTENPGE	PGPT0003895_227	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003895-mntR|dtxR|ideR|sirR|troR-K11924	NA	NA
D1-12_01554	837	lipM	COG0095	Octanoyltransferase LipM	ATGGAAAAAGAAACATGGCGGTTTATTGACTCAGGGAATGAAAGCCCGGCATTTAACATGGCGCTGGATGAAGCGCTTTTATATTGGCACAGCCAAAAAAAAATTCCTCCGGTGATCCGTTTTTACGGCTGGAATCCGGCAACTTTGTCTGTCGGGTATTTTCAAAATATTAAGAAGGAAATTAACTTTGACGCAGTACATAAACACGGCCTCGGGTTTGTCAGAAGACCGACAGGCGGACGGGGTGTTCTGCATGATAAAGAATTGACATACAGCGTAATCGTTTCAGAGGATCACCCGGAAATGCCGGCCACGGTGACAGAGGCGTACCGGGTGATTTCAGAAGGTATTCTGCAGGGATTCAGAAACCTTGGACTTGATGCCTGCTTTGCGATTCCCCGAACGGAGAAAGAAAAAGAAAGCTTGAAAAATCCGCGCTCGTCCGTCTGCTTTGATGCGCCTTCGTGGTATGAACTGGTCGTCGAAGGACGGAAAGTTGCCGGAAGCGCACAGACACGCCAAAAAGGCGTCATTCTTCAGCACGGTTCCATCCTGCTTGACATTGATGAAGATAAGCTGTTTGATCTGTTTTTATATCCGAGCGACAGAGTCCGTGAGCGCATGCAGCGGAATTTCAAAAACAAAGCGGTAGCCATCAACGCCTTAGCGCCGAAACGGGTAACGATGGATGAGGCCAGAATCGCTTTTAAAGCCGGTTTTGAGGAAGGGCTGAACATTCATCTTGAGCCTTACACACTCACGTCTGAAGAGCTTGCATTTGTCAATGAGCTGGCTGAGACGAAATACGCGTCTGATGAATGGAATTATAAGCGCTGA	MEKETWRFIDSGNESPAFNMALDEALLYWHSQKKIPPVIRFYGWNPATLSVGYFQNIKKEINFDAVHKHGLGFVRRPTGGRGVLHDKELTYSVIVSEDHPEMPATVTEAYRVISEGILQGFRNLGLDACFAIPRTEKEKESLKNPRSSVCFDAPSWYELVVEGRKVAGSAQTRQKGVILQHGSILLDIDEDKLFDLFLYPSDRVRERMQRNFKNKAVAINALAPKRVTMDEARIAFKAGFEEGLNIHLEPYTLTSEELAFVNELAETKYASDEWNYKR	PGPT0003930_52	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003930-lipM-K23734	NA	NA
D1-12_01555	381	glpE		Thiosulfate sulfurtransferase GlpE	TTGTCTAATATGATTGCTTTAATTATTGTTGCGGCGTTTATCGTTTATATGATCGTGTCGTATTTTTACCAGCAGCGTTTAATGAAAACACTTACGGAAGAGGAATTCCGCGCGGGCTACAGAAAAGCGCAGCTGATTGACGTCCGTGAGCCGAATGAATTTGAAGGCGGCCATATTCTCGGCGCGCGCAACATTCCGCTGTCACAGCTGAAACAGCGCAAAAGTGAAATCCGTCCTGATAAACCCGTTTATCTGTACTGCCAAAACAATGTCCGCAGCGGACGCGCGGCACAGACGCTCCGCAAACACGGCTGTAAAGATATTTACAACCTGAAAGGCGGATTTAAAAAATGGGGCGGAAAAATTAAAGCAAAAAACTAA	MSNMIALIIVAAFIVYMIVSYFYQQRLMKTLTEEEFRAGYRKAQLIDVREPNEFEGGHILGARNIPLSQLKQRKSEIRPDKPVYLYCQNNVRSGRAAQTLRKHGCKDIYNLKGGFKKWGGKIKAKN				NA	NA	NA	NA	NA
D1-12_01556	1476	gcvPB		putative glycine dehydrogenase (decarboxylating) subunit 2	ATGAATAATCAAGATCAGGCGCTTATTTTTGAAATGTCCCGCGAAGGGCGTATCGGTTACAGCCTTCCGGAGCTTGATGTGCCGGAAACAGAGCTTGAAAGTCTTCTTCCCGGTGACTATATCCGCGATGAAGACGCAAAGCTGCCGGAAGTATCAGAGCTCGATATTATGCGGCATTATACCGCTCTTTCTAAGAGGAACCACGGAGTTGATTCAGGCTTTTATCCGCTCGGCTCTTGTACGATGAAATACAATCCGAAATTAAATGAAAAAATTGCCCGGATCGCAGGTTTTTCCGCTATTCATCCGCTTCAGGACGAGGACACGGTTCAGGGGGCGCTTGAGCTTTTATACGATTTAAGCGAACACTTGGAGGAGATTACGGGCATGGACGAGGTGACGCTGCAGCCTGCGGCGGGCGCTCACGGCGAATGGACCGGTCTGATGATGATCCGCGCCTATCACGAAGCGCGGGGAGACTTCGGACGGACGAAGGTGATTGTCCCTGATTCAGCCCACGGCACGAATCCGGCATCCGCCACGGTCGCCGGTTTTGAAACGATTACCGTCAAGTCAAATGAGCACGGGCTGGTTGACATTGAAGATTTGAAAAGAGCGGTAAATGAAGAAACAGCGGCGCTGATGCTGACGAATCCGAACACCCTCGGGTTATTTGAGGAAAACATTACGGAAATGGCTGAAATCGTCCATCAGGCCGGCGGAAAGCTTTATTATGACGGAGCGAATTTAAATGCCGTTTTAAGTAAAGCAAGACCGGGAGATATGGGATTTGACGTCGTTCACCTTAATCTGCATAAAACATTTACCGGGCCGCACGGCGGGGGAGGACCTGGCTCAGGGCCGGTCGGCGTAAAAAAAGAATTCATTCCGTATCTGCCGAAACCCGTTCTCACGAAAAAAGAGGGCCGTTTGACTTTTGACTATGACCGGCCGCAGTCGATCGGGCGCGTAAAACCTTATTACGGTAACTTCGGCATTAATGTCAGAGCCTACACGTATATCCGGTCCATGGGGCCTGACGGCTTAAAAGCTGTGACCGAAAACGCGGTTTTAAATGCAAATTATATGATGAGAAGACTCGCGCCTTATTATGATCTCCCGTATGACCGTCATTGCAAGCATGAATTTGTGTTATCGGGTAGAAGGCAGAAAAAGCTCGGCGTACGAACGCTTGATATTGCCAAACGGCTTTTGGATTTCGGCTATCATCCGCCGACTGTGTATTTTCCTCTCAATGTTGAAGAAAGCATCATGATCGAACCGACGGAAACGGAATCAAAGGAAACGCTTGATGCGTTTATAGATGCCATGATTCAAATTGCGCGGGAAGCGGAGGAATCGCCTGAAATCGTTCAGGAGGCGCCGCATACAACAGTTGTCAAAAGAATGGATGAAACCAAGGCGGCAAGAAAGCCGGTTTTAAAGTACGAACATACACCTGACGTCAGCCGCTGA	MNNQDQALIFEMSREGRIGYSLPELDVPETELESLLPGDYIRDEDAKLPEVSELDIMRHYTALSKRNHGVDSGFYPLGSCTMKYNPKLNEKIARIAGFSAIHPLQDEDTVQGALELLYDLSEHLEEITGMDEVTLQPAAGAHGEWTGLMMIRAYHEARGDFGRTKVIVPDSAHGTNPASATVAGFETITVKSNEHGLVDIEDLKRAVNEETAALMLTNPNTLGLFEENITEMAEIVHQAGGKLYYDGANLNAVLSKARPGDMGFDVVHLNLHKTFTGPHGGGGPGSGPVGVKKEFIPYLPKPVLTKKEGRLTFDYDRPQSIGRVKPYYGNFGINVRAYTYIRSMGPDGLKAVTENAVLNANYMMRRLAPYYDLPYDRHCKHEFVLSGRRQKKLGVRTLDIAKRLLDFGYHPPTVYFPLNVEESIMIEPTETESKETLDAFIDAMIQIAREAEESPEIVQEAPHTTVVKRMDETKAARKPVLKYEHTPDVSR	PGPT0020490_508	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020490-gcvPB-K00283	NA	NA
D1-12_01557	1347	gcvPA		putative glycine dehydrogenase (decarboxylating) subunit 1	ATGAAGCATCGATATTTGCCCGCGACAGAACAGGATAAAAAAGAAATGCTGAAAGCCATCGGCGCAGAAACAATTGATGAACTGTTTGCCGATATTCCGGAAAATGTACGGTTTCAAAAAGACTACCGCATTAAACAAGCAAAGTCAGAAACTGAGCTGACGAGAGAGCTGACAAAGCTTGCGGCGAAAAATAAAGACGCTGTTACATATGCATCTTTTCTGGGTGCAGGAGTGTACGATCACTACCAGCCGGTTATCGTCGATCATGTGATATCCCGATCAGAGTTTTACACGGCATATACGCCTTATCAGCCTGAAATCTCACAAGGAGAGCTGCAGGCGATTTTTGAATTTCAAACGATGATCTGTGAATTAACGGGAATGGATATCGCAAACTCCTCTATGTACGATGGGGGAACGGCGCTGGCGGAAGCGGCGATGCTTGCGTCGGGCCATACGAAAAAGAAAAAAATCGTCATTTCCGCAGCCGTTCATCCGGAATCACGGGATGTTTTGAAAACATACGCAAAGGGCCAATATATTGAGGTTGTAGAGGTTCCCGCGAAAAACGGCGTCACAGATCTTGAAGCATTGGAACATGCCGTTTGTGATGAAACGGCCGCCGTGATCGTCCAGTATCCGAACTTCTTCGGACAAATCGAGCCGTTAAAGGACATTGAGCCGCTCGCACATAAAGGAAACAGCCAGCTGATTGTTTCTTCAAACCCGCTCGCGCTCGGTATTTTGACACCGCCCGGGGCATGCGGAGCTGATATCGTCGTCGGGGACGCGCAGCCTTTCGGCATACCTGCGGCGTTCGGCGGCCCGCATTGCGGCTATTTTGCAGTAACGAAAAAACTGATGAGAAAGGTGCCGGGCCGGCTTGTCGGCCAAACGGAAGATGAAAACGGGCGAAGAGGCTTTGTTCTCACTCTTCAGGCGCGCGAGCAGCATATCAGAAGAGACAAAGCCACGTCTAACATTTGCTCAAATCAGGCGCTGAATGCTTTAGCGGCTTCAGTCGCGATGACGGCGCTCGGAAAAAACGGCGTCAAAGACATGGCCCGCCAAAATATATTGAAAGCTGATTACGCGAGACGCCAAGCGGAAAAAGCCGGCTTGCACGTAGCATTTGACGGCCCGATATTTAATGAATTTGCCGTCAGGCTGAATCTTCCCGTCAAGGAAGCAAACCGGCGGCTCCTGCAAGACGGCATAATCGGCGGATATGATTTAGGCCTTGCGTATCCGGAACTGAATCAGCATATGCTCATTGCCGTCACAGAGCTGAGAACAAAAGAACAGATCGATTCGCTTATTGCGGGATTGGGGGATCAACATGAATAA	MKHRYLPATEQDKKEMLKAIGAETIDELFADIPENVRFQKDYRIKQAKSETELTRELTKLAAKNKDAVTYASFLGAGVYDHYQPVIVDHVISRSEFYTAYTPYQPEISQGELQAIFEFQTMICELTGMDIANSSMYDGGTALAEAAMLASGHTKKKKIVISAAVHPESRDVLKTYAKGQYIEVVEVPAKNGVTDLEALEHAVCDETAAVIVQYPNFFGQIEPLKDIEPLAHKGNSQLIVSSNPLALGILTPPGACGADIVVGDAQPFGIPAAFGGPHCGYFAVTKKLMRKVPGRLVGQTEDENGRRGFVLTLQAREQHIRRDKATSNICSNQALNALAASVAMTALGKNGVKDMARQNILKADYARRQAEKAGLHVAFDGPIFNEFAVRLNLPVKEANRRLLQDGIIGGYDLGLAYPELNQHMLIAVTELRTKEQIDSLIAGLGDQHE	PGPT0020485_749	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020485-gcvPA-K00282	NA	NA
D1-12_01558	1101	gcvT	COG0404	Aminomethyltransferase	ATGCTGAAACGAACACCGCTTTATGACGTGTATAAAGAATACGGCGGAAAAACGATTGATTTTGGAGGATGGGAGCTGCCGGTTCAATTTTCTTCTATTAAAGAGGAGCATGAAGCCGTCCGCACAAAAGCGGGCCTGTTTGATGTGTCTCATATGGGGGAAGTTGAAGTATCCGGTAAAGACGCCCTGTCTTTTCTGCAAAAAATGATGACAAATGACGTTGCCGATTTAAAGCCGGGAAACGCGCTCTATACCGCCATGTGTTATCCTGACGGCGGTACGGTGGATGACTTGCTGATCTATCAGAAAAGCGAGAGCTGCTATCTGCTCGTGATTAACGCGTCCAATATTGAAAAAGACATCGCTTGGCTGACGGAACATGCAGAAGGCGATGTCACGCTGACGAATCAGTCTGACGGGATTTCACTGCTTGCCGTTCAGGGGCCGAATGCTCAGTCGGTTCTTGCGAAGCTGACTGAATGTGATTTGTCCTCCTTAAAGCCGTTTACGTTTATTGATGGGGCGGACGTTGCCGGACGACAAGTCCTGCTTTCAAGAACAGGCTATACCGGTGAAGACGGGTTTGAGTTATATTGCCGCAATGAAGATGCAGTTCATCTATTTAAGGAGATACTTGCAGCGGGAGAGTATGAAGGTCTCGTTCCGTGCGGCCTCGGCGCCCGTGATACGCTGAGATTTGAAGCGAAGCTTGCTTTATACGGTCAGGAATTGACGAAAGATATTACACCGATTGAAGCCGGAATCGGATTTGCCGTGAAACACAAGAAAGATTCCGATTTTTTCGGGAAGTCTGTATTGCGCGAACAGAAAGAAAAAGGAGCCCCGCGAAAGCTGGTCGGACTTGAGATGATTGAAAAAGGGATTCCGAGACACGGGTACGCCGTGAAAAAAGACGGTGTTCCGATCGGTGAAGTCACGACAGGCACGCAATCTCCGACTTTAAAGAAAAATATCGGCCTTGCCTTAATCAAAACGGAATTCAGTGAAGTCGGAACGGAAGTAGAAGTGGAAATCCGTAAAAAAACGGTAAAAGCGAAGATTGTCCGCACACCGTTTTATAAACGTCCAAAACAGAGCTGA	MLKRTPLYDVYKEYGGKTIDFGGWELPVQFSSIKEEHEAVRTKAGLFDVSHMGEVEVSGKDALSFLQKMMTNDVADLKPGNALYTAMCYPDGGTVDDLLIYQKSESCYLLVINASNIEKDIAWLTEHAEGDVTLTNQSDGISLLAVQGPNAQSVLAKLTECDLSSLKPFTFIDGADVAGRQVLLSRTGYTGEDGFELYCRNEDAVHLFKEILAAGEYEGLVPCGLGARDTLRFEAKLALYGQELTKDITPIEAGIGFAVKHKKDSDFFGKSVLREQKEKGAPRKLVGLEMIEKGIPRHGYAVKKDGVPIGEVTTGTQSPTLKKNIGLALIKTEFSEVGTEVEVEIRKKTVKAKIVRTPFYKRPKQS	PGPT0008130_2838	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
D1-12_01560	1671	rapA_2		RNA polymerase-associated protein RapA	ATGACAGCAGAGATCATATTTGATGCAAACTGGCCGGGAGAGTTTTCTGAGCGGCTGAAAACGGACGGTCCCTGGTCAAATTGGGAGATGTACAAACTGTCGGCTGAAGTCCAGCAGACCCTTGCCATTCCTGAATTTGAAGGATTGAGGGCTCCTTTATACCTGCCCGATTTCACTCCGCTTCCCCATCAGCTTGAAGTCGCGCAGAAAGTCGTTGAAAAAATGAACGGCAAGGCGATTTTAGCTGATGAAGTGGGGCTCGGAAAAACGGTGGAAGCGGGCCTGATTTTAAAAGAATACATGATTCGCGGGCTGGCCAAAAAAATCCTGATTCTTGTGCCGGCATCACTCGTTTCCCAGTGGGTCAAAGAGCTTCAGGAGAAGTTTTTGATACCCGCTGTTGAACAGAAGAAAAGCTATGTGTGGGAACAGTGCGATATCGTCGTTTCTTCTATTGATACGGCCAAACGCTCGCCTCACAAGGACATTGTGCTTTCTATTCCGTATGATCTCGTCATTATTGACGAGGCGCACAAGCTCAAAAACAGCAAAACGAAAAATTATGAATTTGCGAGAAGTCTTGTGAAGAAATACTGCCTGCTTCTGACGGCGACGCCGATTCAAAACCGGATCGAAGAAATCTTCAATTTAGTGTCACTGTTAAAGCCCGGCCATTTAGGAAATGAAAGCGGATTTCAAGAAACCTTCAATCAGAAGGACGGGATTGACGCTCATGAGCATTTGAAAGAGCTCGTCAATAAGGTGATGATCCGCAACACGCGGAGCGACACCGGCCTTACATGGACGAAGCGCCACGTGGAAACAGTGCCGATCACCTTTTCACCGACGGAACAGGCGCTTTACGATGACATTGCCGCACTGAAAAACGGCACGGAAAAGCCCGCAAGCGCATTTTCCATTATGACGCTGCAAAGAGAGTGCTGTTCAAGCAGGGAAGCCGTGTATATGACGCTCAAAAAAATGCTTGACCAAAAAGACAAACATGCGCCCGCATTCGATGACCAGACGATCGCTAATTTAATGGACCGCATCAATCAAGTCACGCAAAACTCAAAAGCAATTCAAGTTGTTGACTTGATCCAAAAGATTAATGATAAAGTCATTATTTTTACTGAATACAGGGCGACACAGATTTACCTGCAATGGTTCCTTCAGCAGAACGGCATAAGCTCCGTTCCGTTCAGAGGCGGATTTAAACGCGGAAAAAAAGACTGGATGAAGGATCTCTTCCGCGGCAAAGTGCAGGTGCTGATCGCTACAGAAGCCGGAGGCGAGGGGATCAACCTGCAATTCTGCAACCATATTATCAATTATGACCTCCCGTGGAACCCGATGCGGCTTGAACAAAGAATCGGAAGGATTCACAGACTCGGTCAGGAAAGAGATGTCCATATCTACAATATGGCGACAAAACATACGGTGGAAGAGCATATCTTAAAACTTCTGTATGACAAAATTCATTTATTTGAAAATGTCGTCGGAGAATTAGATGACATTTTAACAAAAATCAAAGTGAGCAATTTTGAAGACCATTTGCATGATATTTTATGCCATTCGCTGACAGAGGATGAAATGAGAATCAAAATGGACAATCTCACCTCTTTTCTGTCGTACGGTACGGACAAGCCCGCCAGAAAAAAAGGATCTTAA	MTAEIIFDANWPGEFSERLKTDGPWSNWEMYKLSAEVQQTLAIPEFEGLRAPLYLPDFTPLPHQLEVAQKVVEKMNGKAILADEVGLGKTVEAGLILKEYMIRGLAKKILILVPASLVSQWVKELQEKFLIPAVEQKKSYVWEQCDIVVSSIDTAKRSPHKDIVLSIPYDLVIIDEAHKLKNSKTKNYEFARSLVKKYCLLLTATPIQNRIEEIFNLVSLLKPGHLGNESGFQETFNQKDGIDAHEHLKELVNKVMIRNTRSDTGLTWTKRHVETVPITFSPTEQALYDDIAALKNGTEKPASAFSIMTLQRECCSSREAVYMTLKKMLDQKDKHAPAFDDQTIANLMDRINQVTQNSKAIQVVDLIQKINDKVIIFTEYRATQIYLQWFLQQNGISSVPFRGGFKRGKKDWMKDLFRGKVQVLIATEAGGEGINLQFCNHIINYDLPWNPMRLEQRIGRIHRLGQERDVHIYNMATKHTVEEHILKLLYDKIHLFENVVGELDDILTKIKVSNFEDHLHDILCHSLTEDEMRIKMDNLTSFLSYGTDKPARKKGS				NA	NA	NA	NA	NA
D1-12_01561	795			hypothetical protein	ATGAGACAGCAGGAGGTTCACGAATTTTTACTGCGCTTTTTTGAAGCGAACCACTGTCCGATTACAGAACACGGGCCGGGTTTTATGACGGTTCAGTTGACGGTCGAGATGGACAAACAAATTATGAACCGCCCGTTTTATTGGCTTTGGCGTGAAAAAACGGGCGGCGAACCGAACCCGATGAAGATCACGTTCATCACTGATAAAGAAACGGCTCCGGAGGATATGGACGGCGAATTTATTTACTTTGGAGCCCCGCGCCTCTTTCAAATCTTTCAAGCAGTTAAACAAAATGGGAGATTTACAAGAATATATGAGAAAATTGTATCAGCCGGAGCCAGAGTGCCGCTTCAGCCCTGGCTGGGATTAAATGTAGTGATTTCATACCAATCCGACATGAAAAAAGACAGACTTTTGTCTTTAGGCCTGCATCTTGTTTCTGGAACAATTATAGAAGGGTTTCAGCAGAAGCTTGCACCGCTTCCGCTGACCTCGCAAATATCAGACTATTGCTTTACCATATCGCCGATGATTAAGCCGGAAAGCGGGATTAAAAGGATGGAGCATTACTTAAAAGACGCTGCCGCCAAAGAGCCATCAGACTGGGCTGACAGCGCGATCGCCAGATGGAAAAAGGACCTCAGGCTGCTCGATCAGTTTTATGAGCAGACAGAGGAAAAACCTGAGGAATATCATTTGGAAAAACAAGCGCTGAAAGCCTTATATCAGCCGAAAATTCACATTCAGATTGAAAACGGCGGTTTATTTTTCCTGCAAAGTAATTTTTCTGGATAA	MRQQEVHEFLLRFFEANHCPITEHGPGFMTVQLTVEMDKQIMNRPFYWLWREKTGGEPNPMKITFITDKETAPEDMDGEFIYFGAPRLFQIFQAVKQNGRFTRIYEKIVSAGARVPLQPWLGLNVVISYQSDMKKDRLLSLGLHLVSGTIIEGFQQKLAPLPLTSQISDYCFTISPMIKPESGIKRMEHYLKDAAAKEPSDWADSAIARWKKDLRLLDQFYEQTEEKPEEYHLEKQALKALYQPKIHIQIENGGLFFLQSNFSG				NA	NA	NA	NA	NA
D1-12_01562	174	sinI		Protein SinI	ATGAAAAATGCAAAAACAGAATTTTCACAATTAGATAAGGAATGGGTTGAGCTGATATTAGAAGCCCAAAAAGCAAATATCAGCCTAGAAGAAATACGCAAATACCTGCTTTCGAATAAAAAGTCTTCTCAACATATCCAGGCAGCCAGAAGTCATACCGTAAATCCTTTCTGA	MKNAKTEFSQLDKEWVELILEAQKANISLEEIRKYLLSNKKSSQHIQAARSHTVNPF	PGPT0026295_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026295-sinI-K06372	NA	NA
D1-12_01563	342	sinR	COG1396	HTH-type transcriptional regulator SinR	ATGACATTGATTGGCCAGCGTATTAAACAATACCGAAAAGAAAAAGGCTACTCACTATCAGAACTAGCTGAAAAAGCTGGGGTAGCGAAGTCTTATTTAAGCTCAATAGAACGAAATTTACAGACGAACCCCTCCATTCAATTTCTCGAAAAAGTCTCCGCTGTTCTGGACGTCTCGGTTCATACTTTACTTGATGAAAAACATGAAACCGAATACGATGGTCAATTAGATAGTGAATGGGAGAAATTAGTTCGCGATGCAATGACATCCGGGGTATCAAAAAAACAATTTCGTGAATTTTTAGATTATCAAAAATGGAGAAAAGCGCAAAAAGAGGAGTAG	MTLIGQRIKQYRKEKGYSLSELAEKAGVAKSYLSSIERNLQTNPSIQFLEKVSAVLDVSVHTLLDEKHETEYDGQLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKAQKEE	PGPT0014755_48	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014755-sinR-K19449	NA	NA
D1-12_01564	786	tasA		Major biofilm matrix component	ATGGGTATGAAAAAGAAATTAAGCTTGGGCGTTGCCTCAGCCGCACTCGGTTTAGCATTAGTAGGAGGAGGCACATGGGCCGCATTTAATGATGTGAAGTCGACGGACGCTACATTTGCGTCAGGAACACTTGATTTATCGGCTAAAGAACAATCAGCCAATGTCAATTTGTCAAACTTAAAACCAGGCGATAAATTGACGAAAGATTTCGAATTCAGAAACAACGGTTCACTTGCCATTAAAGAAGTGCTGATGGCTTTGAATTTTACTGACTTTAAAGGAGCAAAGAAAGGAAATGAATCTGCGGAGGATTTCCTCAGCCAGTTTGAAATTACGGTTCTGACAGTCGGTAAAGAAGGGGGCAACGGCTATCCTAAAAATATCATTTTGAAGGCGGCCAGCCTGAAAGACTTATACTTAATGTCAACAAAACAGGATAAAGCAGCTGCCGAAGCGATCAGCAAGCACATTGATCCGAAATTCCTGAGTGAGAGCGGAAAAGTCAATGTAGCAACCATTAACGGCAAAACAGCTCCTGAGTACGACGGAGTTCCGAAAACGCCTGCTGATTATGACCAGGTGAGAATGGAAATCCAATTTAAAAATGACACCGCAAAAACTGCGGACGGATTAAGTGTGCAAAACAAGTTCCAAGGCAATGCGATTTCTCTTCAATTCTCTTTTGAAGCAACGCAATGGAACGGCTTGACCATTACGAAAGATCATACGGATAAAGACGGTTACGTCAAGGAAAATGAAAAGGCTCACAGTGAGGATAAAAACTAA	MGMKKKLSLGVASAALGLALVGGGTWAAFNDVKSTDATFASGTLDLSAKEQSANVNLSNLKPGDKLTKDFEFRNNGSLAIKEVLMALNFTDFKGAKKGNESAEDFLSQFEITVLTVGKEGGNGYPKNIILKAASLKDLYLMSTKQDKAAAEAISKHIDPKFLSESGKVNVATINGKTAPEYDGVPKTPADYDQVRMEIQFKNDTAKTADGLSVQNKFQGNAISLQFSFEATQWNGLTITKDHTDKDGYVKENEKAHSEDKN	PGPT0025195_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SPORULATION_RELATED_FUNCTION,PGPT0025195-cotN|tasA-K06336	NA	NA
D1-12_01565	585	sipW	COG0681	Signal peptidase I W	ATGAAAAAAACGCTGAAACTGATCAGTAATATTTTGTATGCCGTCATCTTCAGCTTGATTATTGTGCTGACGTTAACGGTGATTTCGACCCGGGCTTCCGGGGGTGAGCCGGCCATTTTCGGCTATACGCTGAAATCCGTGCTGTCGGGTTCAATGGACCCGGAATTTAAGACGGGTTCGCTCATAGCGGTAAAGAAAATTTCTGACGTGAATGACTTAAAAAAAGGGGATGTGATCACCTTTACGCAAGATGACGGAACAGCCGTCACACACAGAATAATCGGGATCACAAAAAAGGACGGGAACCTGCTGTTTGAGACAAAAGGGGACCATAATGCCGCCCCGGATGCCGCACCCGTTCAAGCTGAAAAAGTGGCGGCCCAGTATACGGGATATCAGCTTCCGTATGCCGGATATGTCATACATTTGGCCAGCCAGCCGATCGGAACGGCGATTCTGTTAATCGTTCCCGGCGTCATGCTTTTGATTTACTCAATAACAGTCATTGTCAGCGCCCTCCGCGATATTGAGCGGAAAACGAAAGCGCTGGAAGAACATGCGAAAAAGGGAACCATCTCCACATGA	MKKTLKLISNILYAVIFSLIIVLTLTVISTRASGGEPAIFGYTLKSVLSGSMDPEFKTGSLIAVKKISDVNDLKKGDVITFTQDDGTAVTHRIIGITKKDGNLLFETKGDHNAAPDAAPVQAEKVAAQYTGYQLPYAGYVIHLASQPIGTAILLIVPGVMLLIYSITVIVSALRDIERKTKALEEHAKKGTIST	PGPT0026405_748	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SPORULATION_RELATED_FUNCTION,PGPT0026405-sipW-K13280	NA	NA
D1-12_01566	672	tapA		TasA anchoring/assembly protein	ATGTTCCGATTGTTGCGAATGGAAAAAAAGGGCAAGGTGAGATGGCGGATGATGCTATTTTTACGGCTTTCGTTCATTTTTTGCCTGTCCGTGATGATATGTGCTCAGTTCACAGGTGATACAAGTTCCTCCTTCAATGATGTGAAAAGCTTCAGTCTCCCGGTTCAAACGTGCGGAGATTTTCAATATACGGATGACGATTGCCGTTATGACGAACGCTGGGATCAAAGTGATTTACATATAACAAATCAAACTGATACGTCAGGCACTGTGTGTGCGCCGCTTCAGCTCTATGCCGAGCTGGAGAATAAGGGAAAAGAGCGGACTGTTTCTGACTGGAAATGGGAGCTCCATAAAATCGCTTCTCAGCAGCAGCCTTTACGAAACGGCAATGTTGTGGATAAAGGGCTTATTACTGATAAAAAAAGCAAAACGATTTATAAAATTGAGTCAAAGCGGTCTTTGCAGCCGGGCATATACGCATTCAAGGTTTACAAGCCTGAAGGGTACCCGGCCGACGAAGAAAAATTTGAGTGGTCAAAACCGATGAAACTCGTCAAATGCCGGGAACAGGCGACCGTTTCCGATCTAAAGAAAACGGAGAAAGAGCCGGCTGAGCCGGTAAAAGAAAGCGGGGAAGAACATGAAAAAAACGCTGAAACTGATCAGTAA	MFRLLRMEKKGKVRWRMMLFLRLSFIFCLSVMICAQFTGDTSSSFNDVKSFSLPVQTCGDFQYTDDDCRYDERWDQSDLHITNQTDTSGTVCAPLQLYAELENKGKERTVSDWKWELHKIASQQQPLRNGNVVDKGLITDKKSKTIYKIESKRSLQPGIYAFKVYKPEGYPADEEKFEWSKPMKLVKCREQATVSDLKKTEKEPAEPVKESGEEHEKNAETDQ	PGPT0026400_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-AMYLOID_FIBRES_RELATED_FUNCTION,PGPT0026400-tapA|yqxM-K19433	NA	NA
D1-12_01567	330	yqzG		putative protein YqzG	ATGATGATCAAACAAAGTCTGATTTGCCTTTCTCTTCTTGTTTTCGGGGTTTCAGGAACAGCTCAGGCGGAAACGGTGCCTTATTATGCTGTTCACCATAAATCAAAATGGGAAAAGTTAGCAGAAAAAGAAGCTAAAAAAAGATATCCGCTCGCCCAAACGTTATTTATTCAAAAGGTGTGGGATCGGAAAAGAACGGACGAAGCAGTCAAGCAATACCACTTGACATTGCGGGATGGCGCAAAAGAATTTGGTGTGTTTGTTACGATTTCTTTTAATCCCTACAGCCAAAAAGTAAATAAAATTGCCGTCATTGAGGAATACCAATAA	MMIKQSLICLSLLVFGVSGTAQAETVPYYAVHHKSKWEKLAEKEAKKRYPLAQTLFIQKVWDRKRTDEAVKQYHLTLRDGAKEFGVFVTISFNPYSQKVNKIAVIEEYQ				NA	NA	NA	NA	NA
D1-12_01568	180			hypothetical protein	GTGAAAACAAATGATTATGTAAAATATATGACTGAGCAATTCGTTAAATATTTCGATACGCCGAAACAGGAACGGAGAGAGCGAAAAGAAGTGCGGAAAGAAAAGAAAGTGCCGGCTTCTCAGCACTGGTTCGGAATATTGCCGTACAGTTTTAAGCTGTGGATGCAACGGAAAAAATAA	MKTNDYVKYMTEQFVKYFDTPKQERRERKEVRKEKKVPASQHWFGILPYSFKLWMQRKK				NA	NA	NA	NA	NA
D1-12_01569	378	comGG		ComG operon protein 7	ATGTACAAATCTGACGGTTTTATATATCCCGCGGTTCTGTTTGTTTCTGCCGCAGTTTTACTTGTCATCAGCTATACTTCATCTGATTTCATCACCCGAAAAACATTTGCAAAAGAGGCCGGGGAGTACTGGATCGGAGAGAACCTGCTCCAAAACGGCGCGCTGCTGTCAAGCCGCCATATGACACAGGGACAAAAGGGCCAAACTGGTACACAGCGTTTTCCGTACGGCACCGTTTCTTTTCACATCACCGGGAGTGATCGAAGGGAAACGGTTCAGGTTACAATTCAGGCGGAAACCACGACAGGCACGAGACGGGAGGCTCACCTTTTGTTCGATCAGAAGAAGAAACAGCTGATTCAATGGACGGAAGTATAA	MYKSDGFIYPAVLFVSAAVLLVISYTSSDFITRKTFAKEAGEYWIGENLLQNGALLSSRHMTQGQKGQTGTQRFPYGTVSFHITGSDRRETVQVTIQAETTTGTRREAHLLFDQKKKQLIQWTEV				NA	NA	NA	NA	NA
D1-12_01570	396			hypothetical protein	TTGGCAGTCTGTCTTTTCCTATCAGGCACCCTGGGCCCGATTTTACATCTGTTCTTATCAAACCGGACCGATAACGGCGGATTAGACAGCCGGGAGCATCAAATTGCCGTTCAGCAGATCATGAACGAATGTAAACAGGCTGAGACTGTGAAGCCGGCGGACGGCGGACGGGCGTTAGCATGCCGGAAAACAGGAGGCGAAGAAGTGCGTTTTGAAATTTATCATAAGATGATAAGGAAAAGAGTAAACGGAAAAGGCCACGTGCCGATCCTGCAAAACGCGGCATCATTAACGGCTGATGTGAAAAATGGCCTGCTCTTATTAGAGATCTCAAGCGTTACAGGTAAAAAGAATCAGGCGGTCATTCCGGTTTACAGCTCTTTTAAAGGTGATTAA	MAVCLFLSGTLGPILHLFLSNRTDNGGLDSREHQIAVQQIMNECKQAETVKPADGGRALACRKTGGEEVRFEIYHKMIRKRVNGKGHVPILQNAASLTADVKNGLLLLEISSVTGKKNQAVIPVYSSFKGD	PGPT0029465_338	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029465-comGF-K02248	NA	NA
D1-12_01571	321			hypothetical protein	ATGTCCATGCTAAACGGAAATAAGGGGTTCTCTACTATTGAAACGCTATCAGCAATGGCCATTTGGCTGTTCCTTATGACGTCTATCATTCCGGTCTGGACGGGCATGCTGACAGATGGCCTGAAAATAGAAGATCGCCAGGAAGCGTACCAGCTTCTTCAGAAACATATCAGCACTTATATGATGACCGGAAAAAAGCCGCCGTCTCCCGGTGTGAAGTGGAAGGAGGATGGTGAGTATTACAAAGTGTGTGCGGCTGACCCCGGCGAAAAAGAAATGTGCCTCAGCATTCTCAAAACAGACTGGCTTTACGCTTCTTAA	MSMLNGNKGFSTIETLSAMAIWLFLMTSIIPVWTGMLTDGLKIEDRQEAYQLLQKHISTYMMTGKKPPSPGVKWKEDGEYYKVCAADPGEKEMCLSILKTDWLYAS	PGPT0029460_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029460-comGE-K02247	NA	NA
D1-12_01572	438			hypothetical protein	TTGAACAATAACAGGCGGACAGAAAATGGGTTTACCCTTCTTGAAAGCCTGATTGTGTTAAGCCTGGCGTCCGTCCTGCTGACGGTTTTGTTCACGACGGTTCCGCCGGTCTGCACCCACCTTGCCGTGCGGCAAAAAACAGAACAGCTCCAAAAAGATATTCAGCTTGCTCAGGAAACGGCTATCGCAGAACATAAAAGAACAAAAATCACTTTTCTTCCAAAAGAGCATAAATACAAACTGCAGTCAGGCGGAAGGATTGTCGAGCGTTCTTTTGATTCGCTTCACATTACGCTTGTGACTTTACCGGAGAGCCTTGAATTTAACGAAAAAGGCCATCCGAATTCGGGAGGAAAGATACAATTGAAGAGCGCCGGGTTCACCTATGAGATCACAGTTTACTTAGGGAGCGGAAATGTCCATGCTAAACGGAAATAA	MNNNRRTENGFTLLESLIVLSLASVLLTVLFTTVPPVCTHLAVRQKTEQLQKDIQLAQETAIAEHKRTKITFLPKEHKYKLQSGGRIVERSFDSLHITLVTLPESLEFNEKGHPNSGGKIQLKSAGFTYEITVYLGSGNVHAKRK	PGPT0029455_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029455-comGD-K02246	NA	NA
D1-12_01573	267	comGC	COG4537	ComG operon protein 3	ATGCTGATTGTTTTATTTATCGTTTCCATTCTGCTTTTAATCACCATTCCTAACGTTACAAAACATAATCAAAGCATTCAGCGTAAAGGCTGTGAAGGACTGCAGAATATGGTGAAAGCCCAAGTGACGGCGTACGAAATCGACCATGAAGGTAAAATGCCGGATATGAACGATTTACAATCAGAGGGGTATATCAAAAAGAATACAGCCTGCCCGAATGGTAAACAGATCTTAATTAGTGGCGGAGAAGTTACAGTTGAACAATAA	MLIVLFIVSILLLITIPNVTKHNQSIQRKGCEGLQNMVKAQVTAYEIDHEGKMPDMNDLQSEGYIKKNTACPNGKQILISGGEVTVEQ	PGPT0029450_371	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029450-comGC-K02245	NA	NA
D1-12_01574	1038	epsF_1	COG1459	Type II secretion system protein F	ATGAAGCGGATTAAACGAACCTGGCCGTTGAAGGATCAAGCGGCTTTTTTGAAAAGGCTCGGTGAAATGACGGAAAAAGGATACAGTCTGATTGAAGGGCTCAGACTGCTGAAACTCCAGCTGCATAAACGTCAGCTTGCAGAGCTGACGGACGGAATCCGACGGCTGAGGGAAGGTGATGCGTTTTACCAAGTGCTTGAGGCACTGTCTTTTCACAAAGAAGCCGTCTCTATCTGCTATTTCGCGGAGAAACACGGGGAATTGCCGGGGGCGATGAAACAAAGCGGCGAATTATTACAGAGAAAGCTCATGCAAACGAATCAAATCAAAAAAATGCTCCGGTATCCGATGTTTTTAATTTCTTCCGTCTGTGTCATGTTTTATATCCTGCAAAGTTTAATCATTCCGCAGTTTTCTGGGATTTATCAATCAATGAATATGAATACATCCGGTGCGACTGCTTTCATCTTTGCATTTTTTCGGCATTTTCATGAAGCCTGCGCACTGGCGCTGTCCGCCGCTTTCTGCTTGTTTTTGTACGTTTGGTTCTTATGTAAGAAAAAATCCCCGCAAGATAAAATGCTGATTGTTGTGAAAATCCCCCTATTAGGAAAAGCGGCCGTTCTTTTTAACAGCTACTTTTTCTCTTTACAGCTCAGCAGTCTTCTGAAATCCGGCCTTTCTATCTATGACAGCTTAACAGCTTTTAAAGAACAATCTTTTCTGCCTTTTTATCGTGAAGAAGCAGAGATGCTCATTACACGTCTGAAAGCCGGAGAAACCATAGAATCCGCTCTTTCCGGGCATCCGTGTTATGAAAAAGACCTTGCGGCTGCAGTCTGCCACGGGCAGGCAAACGGCCTGCTTCACCGCGAACTTTATACGTACAGCCAGTTTATGATGGAGCGTCTTGAACAAAACGCGGCGAAGTATACCGGCATTCTCCAGCCTGTCATTTACGGTGTTGTGGCCGGTATGATTTTAATTGTCTACATGTCAATGCTGATGCCGATGTACCAGATGATGAACCAAATGTAA	MKRIKRTWPLKDQAAFLKRLGEMTEKGYSLIEGLRLLKLQLHKRQLAELTDGIRRLREGDAFYQVLEALSFHKEAVSICYFAEKHGELPGAMKQSGELLQRKLMQTNQIKKMLRYPMFLISSVCVMFYILQSLIIPQFSGIYQSMNMNTSGATAFIFAFFRHFHEACALALSAAFCLFLYVWFLCKKKSPQDKMLIVVKIPLLGKAAVLFNSYFFSLQLSSLLKSGLSIYDSLTAFKEQSFLPFYREEAEMLITRLKAGETIESALSGHPCYEKDLAAAVCHGQANGLLHRELYTYSQFMMERLEQNAAKYTGILQPVIYGVVAGMILIVYMSMLMPMYQMMNQM	PGPT0029445_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029445-comGB-K02244	NA	NA
D1-12_01575	1071	comGA	COG2804	ComG operon protein 1	GTGAAAAATATTGAAACATACAGCAGGAACATCATAAACGAGGCCTATACGGCAAGGGCTTCAGATATACACATTGTGCCGAGAGAAAGGGATGCTTTCATTCATTTTCGCATCGGCCATGCTCTTGTGAAAAAAAGAGTCTTAAAAAAAGAGGAATGTGTAAGGCTTATTTCTCATTTCAAGTTTTTATCGGCCATGGATATAGGAGAAAGACGAAAGCCGCAAAACGGGTCATTGTCTCTGCCGCTTCCGACAGAAACCGTTCATTTGAGAATGTCAACCTTGCCGACAATGAATGATGAAAGTCTTGTCATCAGGCTTTTGCCTAAGCAGCAGATTCCCCCTCTGGATAAACTGTCCTTATTTCGGGGGGCAGGCGCCGCATTATTGTCCTTTCTGAAGCATTCGCACGGCCTGCTTCTGTTTACCGGCCCGACCGGATCTGGAAAAACGACCACTCTTTACTCGCTTGTCAACTATGCAAAACGGCATTTCAACCGGCGGATTGTCACGCTTGAAGACCCCGTAGAAACAAGAGATGAGGATGTGCTGCAAGTTCAGGTGAATGAAAAAGCCGGAGTCACATATTCCGCCGGTTTAAAAGCGATTTTAAGACATGATCCCGATATGATCATCTTAGGGGAAATCAGGGATGCCGAGACGGCTGAAATCGCAGTCCGCGCCGCCATGACGGGGCACCTCGTTCTTTCAAGCCTGCATACAAGAGATGCTAAGGGCGCCATATACAGGCTGCTGGAGTTCGGCGTGAACATGACAGAAATTGAACAAACCGTCATTGCCATTGCCGCTCAGCGTCTGGTTGATTTAACATGTCCGTTCTGCAAAGAGGAAAACTGTTCCGTGTACTGCCGGATGTACAGGCAGACACGCCGTGCGGGCATTTATGAACTGCTCTACGGGAAAAACCTCACCCAATGCTTTCAGGAAGCAAAGGGAGAGCACGCCAATTTTCAATATCAGACGCTCCGCAGGCTGATCAGAAAAGGAATCGCTCTCGGCTATGTCACGACCGACAATTACGATCGGTGGGTGTATCATGAAGCGGATTAA	MKNIETYSRNIINEAYTARASDIHIVPRERDAFIHFRIGHALVKKRVLKKEECVRLISHFKFLSAMDIGERRKPQNGSLSLPLPTETVHLRMSTLPTMNDESLVIRLLPKQQIPPLDKLSLFRGAGAALLSFLKHSHGLLLFTGPTGSGKTTTLYSLVNYAKRHFNRRIVTLEDPVETRDEDVLQVQVNEKAGVTYSAGLKAILRHDPDMIILGEIRDAETAEIAVRAAMTGHLVLSSLHTRDAKGAIYRLLEFGVNMTEIEQTVIAIAAQRLVDLTCPFCKEENCSVYCRMYRQTRRAGIYELLYGKNLTQCFQEAKGEHANFQYQTLRRLIRKGIALGYVTTDNYDRWVYHEAD	PGPT0029440_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029440-comGA-K02243	NA	NA
D1-12_01576	951	corA_1	COG0598	Magnesium transport protein CorA	ATGAAGGTACATTCGAGTGCGGACTGGCTGTGGTACCAGCTCGGTCCGCATGAAAAAACGGAAGCGAAAAAAATGATCCATCACAATCACTGGCCGCAATGCGAAAAGTGGTTTGAACATGAAAATCATATAAACTTTCTGCGCTCAGATACAAATGATCAGAATAATGAAGCGGTTTTCGGTTCTTTAATCTATCATCAAGGATTAGATGATGAAAAAAACCATACCGTATTTCACTTTTATATTACGAGAGACTTCTTTTTTACAATTAATTTTGATTTTTCGCTGCTGCGCGGTGTAAAAGAAAAGCATGCCACACAGCAGATTCAAACCTGTGAAAATCCGATTGAAGGCTTTTTTGTTTTACTGGGAGAGCTGATGAATTCCTATCTGATCGGACTGGATGAATTTGAAGTCAAGCAGCGGACGCTGAAATGGCAGATTCATGATGACAACAGCAAAGGAATCTTGGAAAATGTGCATAAACTGCGCCATGAGCTGTTCATTTGGAAAGGTCTTACACTGGGGGCTAAAAAAGTAGAAATGGCTTTAAAAGAAGCTTTTCTTCCGAAAAATGACAGGCAGAAAGATTACCTCAGAGCTCATCAAAAGATGGAAAGAGGAATTACATATATCAATGAGTTTGATCAGGAATTGAGCAATCTGCTGCACGCCGAGGAAGTCATTACCTCCCAAAGAGGAAATGAAATTGTGAAAGCCTTGACGATCTTTACAACACTCTTTACACCGATGACGGCGCTTGGAGCTCTCTGGGGGATGAACTTTGATAACATGCCGGAGCTTCATTGGAAATATGCGTATATCTGTTCCATCGTGCTCATTATTGTATCAACCCTGCTGATTTATATTTATCTGCGGCACAAAGGCTGGACAGGGGACATTTTGAGGGAGCATCAAAAAAAATATTTGCGGAAAGAAAAGAAACGCTAA	MKVHSSADWLWYQLGPHEKTEAKKMIHHNHWPQCEKWFEHENHINFLRSDTNDQNNEAVFGSLIYHQGLDDEKNHTVFHFYITRDFFFTINFDFSLLRGVKEKHATQQIQTCENPIEGFFVLLGELMNSYLIGLDEFEVKQRTLKWQIHDDNSKGILENVHKLRHELFIWKGLTLGAKKVEMALKEAFLPKNDRQKDYLRAHQKMERGITYINEFDQELSNLLHAEEVITSQRGNEIVKALTIFTTLFTPMTALGALWGMNFDNMPELHWKYAYICSIVLIIVSTLLIYIYLRHKGWTGDILREHQKKYLRKEKKR	PGPT0014010_3824	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
D1-12_01577	1302			hypothetical protein	TTGTATATCATCAAACTATCTGCCATCGTACTATTTATTTTATTAACGGCGTGTTTTGTCGCCATAGAGTTTTCAATCGTTAAAGCAAGGCGCTCCCGCATTAATCAGCTTATTGAGGAAGATGTAAAAGGAGCAAAAGCAGCCAAGCATGTCATTACACACCTTGATGAATATTTATCGGCGTGCCAATTGGGTATCACCGTCACCGCTTTGGGAATCGGCTGGCTGGGTGAACCGACAGTCAAAGCAATGCTTCGGCCGTTATTTTTAAAGACCGGAGTTCACGAAGCGGTTGCCCAAGTCCTGTCATTGATCATCGCCTTTCTGCTGGTTACATATGTGAATGTCGTCATCGGCGAACTCGCCCCGAAAAGTTTTGCTATCCAAAAAGCCGAGCGGATTACACTTTTGTCTGCCAGACCGATGATTTTGTTTTATAAGTTAATGTTTCCGTTCATCTGGCTGCTCAATCATTCCGCCCGCCTGATTACAGCCATGTTCGGCTTGAAGCCTGCTTCCGAACATGAAATGGCTTATACGGAAGAGGAATTGCGGGTGCTCCTTGCCGAAAGCTATCGAAGCGGCATGATTAAAAAAAGCGAGCTCCATTACGTAAATAACATTTTTACATTTGATAAGCGCACTGCCAAAGAAATTATGGTGCCCCGGAATGAAATGGTGAGCCTGCCGTTAGACAGCGGATCGGGACATATGCTCCGGGACATTATCAAAACAAATAAATATACCCGGTATCCCGTAGTAAAAGGAGATAAAGATCATGTAGTCGGCATCATCAATATAAAAGAAGTTTTATTCAGATTCCTGTCAGAAGGAGCGGCGTTTACAAAACACGAACTCAGCCCTTACATCCAGCCGGCGATCCACGTGATTGAGACGATTCCGATTTATCAATTATTCGTTAAAATGCAGCGGGAACACGCCCATATGGCCATTCTCATTGATGAGTACGGCGGAACTGCGGGATTAGTAACGGCGGAAGATATCATTGAAGAGATCGTCGGCGAAATCCGCGACGAATTTGATACGGACGAAACACCTTCCGTTCAAAAGCTTGGGAAGAACCGCTATCTCCTGAACGCCAAATTGCTGATCAGTGACGTCAATGATGTACTCGGAACAGAGATTACGGCTGATCAAGTCGATACACTCGGGGGCTGGTTTCTTACTCAGCATATTGACGCGAAGCCCGGGAGCACCATTGATTTTGAAGGCTACACATTTACGGTAAAAGAAATCGACAGCCATCATATCATTACGATTGAAGCTGACAAAGCTGAATAG	MYIIKLSAIVLFILLTACFVAIEFSIVKARRSRINQLIEEDVKGAKAAKHVITHLDEYLSACQLGITVTALGIGWLGEPTVKAMLRPLFLKTGVHEAVAQVLSLIIAFLLVTYVNVVIGELAPKSFAIQKAERITLLSARPMILFYKLMFPFIWLLNHSARLITAMFGLKPASEHEMAYTEEELRVLLAESYRSGMIKKSELHYVNNIFTFDKRTAKEIMVPRNEMVSLPLDSGSGHMLRDIIKTNKYTRYPVVKGDKDHVVGIINIKEVLFRFLSEGAAFTKHELSPYIQPAIHVIETIPIYQLFVKMQREHAHMAILIDEYGGTAGLVTAEDIIEEIVGEIRDEFDTDETPSVQKLGKNRYLLNAKLLISDVNDVLGTEITADQVDTLGGWFLTQHIDAKPGSTIDFEGYTFTVKEIDSHHIITIEADKAE	PGPT0014013_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014013-yrkA-NA	NA	NA
D1-12_01578	831	rsbRD_1		RsbT co-antagonist protein RsbRD	GTGAAACATTTGAACGAAACATTATCTCGAACCTTAATTGAAGAATCAGGTGAAATCACACGCCAGTGGCTGCTCATACCAAAATCGGGGCGGCCTTCAGATGATCAGAAAGCGGAAATGCAGCACCGTCTGTTAATTGAAATCGTTGCCGGCATTCTATCGGAAAAAGACGGCGGGGAAGAGGAGCTGACAAAATGGGCGCTTCAGTTCGCAAGGGACCGGGCCGTCCATGAAGTACCGGTCTATGAAAGCGTCACGAGCTTTAAAGAATTCCGGAGATTGGTCTGGAACCGCATACAGACATGCTGTGAAAAAATGTCTGAGAAGCCTGGGGCGAATGCGGTATTCCATTGGGGAGAGAAGCTGAACAAAGCAATTGACCATATGATTGAAGTATTTACAGAGGAATATTATAAAGTGACGGTTACACAATTAAACGCCCAAAAAGAAATGATTAACGAACTAAGCGCGCCGATTATGCCGATTGCCGACGGTATTGGAATTTTGCCGCTCGTCGGCGAAATTGACACCTACCGGGCAAAAATGATTTTGGAATCGGTGCTTGATCAATGTTCCTCGCTCCGGCTTTCTTATTTATTTTTAGATATATCAGGTGTGCCGATTGTGGATACGATGGTCGCTTATCAGATTTTTAAAGTGATTGACAGCACAAAACTTCTTGGCATAGAAACGACAATCTCAGGCATCAGGCCGGAAATCGCGCAGACCGTCGTGAAGCTCGGCATCGATTTTTCTCAGGTGAAAACGGAGCAGAGTCTGGCGAAAGCGCTGGCAAAAAACGGATTTATCGTAAAAGAATCATTAAGATGA	MKHLNETLSRTLIEESGEITRQWLLIPKSGRPSDDQKAEMQHRLLIEIVAGILSEKDGGEEELTKWALQFARDRAVHEVPVYESVTSFKEFRRLVWNRIQTCCEKMSEKPGANAVFHWGEKLNKAIDHMIEVFTEEYYKVTVTQLNAQKEMINELSAPIMPIADGIGILPLVGEIDTYRAKMILESVLDQCSSLRLSYLFLDISGVPIVDTMVAYQIFKVIDSTKLLGIETTISGIRPEIAQTVVKLGIDFSQVKTEQSLAKALAKNGFIVKESLR	PGPT0014945_1148	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
D1-12_01580	381	mgsR_1	COG1393	Regulatory protein MgsR	ATGAAAGAACTTATTTTTTATTCATACCCGAGCTGCACATCATGCCGAAAAACGAAACATTGGTTAAAAGCCCACAATGTTGACTTTCAAGAGCGCCATCTATTCAGGGAGACACCGACAATTGATGAATTGAAGCAGATCTTATCATTAACGACCGAAGGAATTGATGAAATATTGGCGACGAGAAGCCAAACATTTAAAAACCTCAACCTGAACATTGAAGAAATGACTGTAAATGAAGTGCTGAAGCTTTTGACTGAGAAGCCGAAACTGCTGCGGCGTCCGATTCTGATCGATCGCAATAAGCTCGTTATCGGATACAATCCGGGAGAACTGATGAAGCTGACGAAGAAAAAAACGGTACATCAATCTGTATCATAA	MKELIFYSYPSCTSCRKTKHWLKAHNVDFQERHLFRETPTIDELKQILSLTTEGIDEILATRSQTFKNLNLNIEEMTVNEVLKLLTEKPKLLRRPILIDRNKLVIGYNPGELMKLTKKKTVHQSVS	PGPT0004720_1216	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
D1-12_01581	246			hypothetical protein	ATGAATCGCATGTTCCGGGTGTTAGGATTTTGGACGGGGATATTTGCAGTCATGTTTTTTTTAGGGGGCATGAAAGACGCTTCTCTTTTGTTTTTTGGACAGACGATCTTTTTCGTATTTCTTTCTTATTTGAATCTGACTGAGCGGATGTATATTTATATTTTCGGAGCTTACTTAACCGTATTTTTCGCCGGATTTACATATTACTCAATTTTTATTATGACACCGGGCGGCGGAACCCACTGA	MNRMFRVLGFWTGIFAVMFFLGGMKDASLLFFGQTIFFVFLSYLNLTERMYIYIFGAYLTVFFAGFTYYSIFIMTPGGGTH				NA	NA	NA	NA	NA
D1-12_01582	639			putative metallo-hydrolase	GTGAAATGGAGACGAATGCCGGCCGGTCCGATTCAGGCAAACGCGTATTTTCTCGTCAGTGAGGATCAGTCCTGTCTTATTTTTGATCCGGGCGGGGAAGCGGACAAAATCAACAATTACGTAAAAGAAAACAATCTGAAGCCGCTGGCCATCTTACTGACGCACGCTCATTTTGACCATATCGGCGCGCTTGACGAAGTAAGAGACAGATGGGATGTTCCCGTATATCTTCACAAAAATGAAGAAAAGTGGCTGGAGGACTCTTCCTTAAACGGATCAGGCATATTGCGGGGCATCGCCGTAACGGCACGGCCCGCCGAACGGCTGATTGAAGGCGACGGCATTTTGGACATCGGGCCTTTCCATTTGGAGACATTGTTTACGCCGGGACATTCACCGGGAAGCGTTTCTTATTATGTGAAGGACGCGGATCTGGTGATTTCAGGTGATGTGCTCTTTCAGGGAGGCATCGGCCGCACTGATTTACACGGCGGAAGTCAGGACGTATTGCTTGAATCCATTCATCAAAAACTGCTCACGCTTCCCGGACATACACTTGTATTAAGCGGGCATGGGCCGGAAACGGATATCCAGACAGAGCAGGAGCGAAACCCGTTTATTAATGGTTTTTCACTGTAA	MKWRRMPAGPIQANAYFLVSEDQSCLIFDPGGEADKINNYVKENNLKPLAILLTHAHFDHIGALDEVRDRWDVPVYLHKNEEKWLEDSSLNGSGILRGIAVTARPAERLIEGDGILDIGPFHLETLFTPGHSPGSVSYYVKDADLVISGDVLFQGGIGRTDLHGGSQDVLLESIHQKLLTLPGHTLVLSGHGPETDIQTEQERNPFINGFSL	PGPT0001770_6947	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
D1-12_01583	174			hypothetical protein	ATGTTACTTGTTGTAATCTTCGGCCTTGTCGCATTATTAGCTGTATTAGGAGTCCTGCGGGCTGTCAGACAGAGAAATATCCTGGGATTTTTGTTAGCCGCCGCCACGCTGGGCGTGTTTGGCTGGTTTACCGTAATGACCGTTGTAACCAGCGGCTATCCGACTGCACATTAA	MLLVVIFGLVALLAVLGVLRAVRQRNILGFLLAAATLGVFGWFTVMTVVTSGYPTAH				NA	NA	NA	NA	NA
D1-12_01584	315			hypothetical protein	ATGGCAATTGCAGATGTGACAATCATTCCGATCGGAACAAAAACACCGAGCGTCAGTGAGTATGTAGCGGATGTGCAAAACATTTTGGAGGGTTACAAAGCTGCCGGCAAAATCAAATTTCAGCTCACGCCGATGAACACGTTGATTGAAGGTGAGCTGAGCGACTTATTCGCAGTCATTCAGGACATTCACGAAGCTCCGTTCCAAAAAGGGCTGCACAGAGTGGCGACAAATATCCGCATTGATGACAGACGTGATAAAGAAACAACGCTGGAGAGCAAAATCAAAAGTGTCAGCAAACATTTGCAGCAATAA	MAIADVTIIPIGTKTPSVSEYVADVQNILEGYKAAGKIKFQLTPMNTLIEGELSDLFAVIQDIHEAPFQKGLHRVATNIRIDDRRDKETTLESKIKSVSKHLQQ				NA	NA	NA	NA	NA
D1-12_01585	1038			hypothetical protein	GTGAGATACTTGGTTTGTGTTCTGCTGTCCGCATTCGTTCTGTGTTTAGCGGCCTGTGAACCATCTCATCAGCAGCAAGACACAGGCGTTTCGGCAAAATCAGCAGAACAGAAAATCGTTCCGCTCAGTAAAAAGGAAGCGGAGAAAACGGAAGGATGGCTGGATAACAGAACGATTCTGTATACAGCACATCATCAGCTGATGAAATATGATCTTTTCAGCGGAAAATCCGAACGGCTCTATGAAACAAAGGGCCATATTGTCAATGTAAAGATCAGCTGGAAAAAACAGCTGATTCTCGTACAGGTGACAAGCAGCGGTCAGACTGAGCTTGTGCTTATGAACAAGCAGGGGAAAAGACTTTATCACAAAGCCTTTAACTCTTATGAGCTGGAGACGGCTTGGAATCCGTATGACCCGTATCAAATGATGATTACCGTTTTTACTGAAACATGGGACTTCACAGCCTATACGGCCGATATGAACAACGGCATTTTAAAAAAGAGTCCCGTTCAGGCCCCTTTTGTCCATTGGACCTCCACTGATGAATTCCAATATATCAAGCAAGGGAAAACGGAGGAAGAGGGTCCTTTATATTCTTATGACTTGCAGACAAAAAAAGAAAAAAGAGTGCTTCATCACGTCATCTGGGCCGATTCCCGCCCGGGCATGACGATTGCCGTCAGACAAACGGATCAATCGGACGGAGACGGCGAGTTCCTTTTCCAAAAGCCGGCATCCGTGACACACCGATTTCCTCTCCAAGAAAAGTATAAGAGCTTTGCGCCGATGGAATATGATTACGATCAGACACACAAGCGGTTTTACATATTTAAGCCTGAAGGCCGCTCTTACAATCTGATCAGCTTTGACTTAGGAGACGAACGGGAGCGGACGGTGCTCAAAAACACGGAAATGGAGCCGATTCAGATCTCTCCGAACGGGGAATACGCTTTATACGGCTTTACGTATGACCGTCTGATTTCACTGAAAACAGGCATGACAGAACCAATCATAACAAATGAAAAAGGAGTTTGA	MRYLVCVLLSAFVLCLAACEPSHQQQDTGVSAKSAEQKIVPLSKKEAEKTEGWLDNRTILYTAHHQLMKYDLFSGKSERLYETKGHIVNVKISWKKQLILVQVTSSGQTELVLMNKQGKRLYHKAFNSYELETAWNPYDPYQMMITVFTETWDFTAYTADMNNGILKKSPVQAPFVHWTSTDEFQYIKQGKTEEEGPLYSYDLQTKKEKRVLHHVIWADSRPGMTIAVRQTDQSDGDGEFLFQKPASVTHRFPLQEKYKSFAPMEYDYDQTHKRFYIFKPEGRSYNLISFDLGDERERTVLKNTEMEPIQISPNGEYALYGFTYDRLISLKTGMTEPIITNEKGV				NA	NA	NA	NA	NA
D1-12_01586	1128			hypothetical protein	ATGGCGGGAATTCGTGTCAAACCTGAATTGAAACAGCATATGAAAGATATCGCAAAGGTGCTTTCAATTGATGAAAAACTGTTGAAAGCCGCTGATAAAACGGCGGAAAACGATGAATTGTTTTGTCCCGGCTTTGCCGTGAGCGGGCAGTCAGAGGGTCCGCCGCTTGAGACGCTGAGCGGGCTTTCGCGATACATTCGGCGCTGTGAAAGGATTCTTTCCGCTGATCAATGGGTGAAGGAAGAAAAGGTGTACGGCTCCGAATCGGTTTATGAAGAAATTGAGAAAATAACGGATGTCTTTCCGTTTGTCACGTGCCGTAAAATCGGCAGTTCCGTATTGGGAAAGCCGCTTTATGAGCTGAAAATAGGTGCGGATACGGCCGAAAGAAAAGTCCATGTAAACGCCTCATTTCATGCCAATGAATGGATCACCACCTCGGTCGCGCTTAAATGGTGTAAAGAATATTGCGCGGCATTATGCGAAAATAAAACCGTTTTCGGGCACTCTGCGCTTGATATATTCAGCCGGACATCATTGTCATTCGTTCCGCTCGTAAATCCCGACGGTGTTGATCTCGTACTTTCCGGATGTGAAGATTTATCAGAAAAAAATGAATTTCTTCATCAATTAAATGAGCACCGCCCGGATTTCCGCGAATGGAAGGCGAATATAAACGGTGTGGATTTAAATAAACATTTCCCATCCAATTGGGATATTGAACAGAGGCGCAAACCGAAAGCCCCTTCATACCGTGATTTTCCGGGGACGGCGCCGCTCACTGAACCGGAGGCGCAGGCGATGCACCGGCTGATAACGGAGCAGCCGCCTGACAGGCTGATCGCGCTTCATACGCAGGGAGAAGAGATTTATTGGGGATACGAAGGATGTGAACCGGAGCAATCATCCCGGATGATTCGGGAGTTTGAAGCGATAAGCGGAAACTGCTATCAAGGCGTTAAAACCATTGACAGCCATGCCGGTTTTAGGGATTGGTTTATACAGCAGTATGGAAAAGAGGGCTATACCATTGAGCTCGGGAAGGGAAAAAACCCTTTGCCTTTTCATCAGTTTGCTGCTATTTATCAAGCGACGGAAGGTATTTTGTGGAGGTCGCTTGTTTTTTGA	MAGIRVKPELKQHMKDIAKVLSIDEKLLKAADKTAENDELFCPGFAVSGQSEGPPLETLSGLSRYIRRCERILSADQWVKEEKVYGSESVYEEIEKITDVFPFVTCRKIGSSVLGKPLYELKIGADTAERKVHVNASFHANEWITTSVALKWCKEYCAALCENKTVFGHSALDIFSRTSLSFVPLVNPDGVDLVLSGCEDLSEKNEFLHQLNEHRPDFREWKANINGVDLNKHFPSNWDIEQRRKPKAPSYRDFPGTAPLTEPEAQAMHRLITEQPPDRLIALHTQGEEIYWGYEGCEPEQSSRMIREFEAISGNCYQGVKTIDSHAGFRDWFIQQYGKEGYTIELGKGKNPLPFHQFAAIYQATEGILWRSLVF				NA	NA	NA	NA	NA
D1-12_01587	963	glcK	COG1940	Glucokinase	ATGGAAGATACATGGTTTGCGGGGATTGATCTTGGCGGAACAACCATCAAGCTGGCCTTTATCAACATGTACGGTGAAATTCAGCATAAATGGGAAGTTCCGACCGATAAATCAGGAAATACAATTACGGTCACGATCGCCAAAGCGCTTGACCAGAAGCTGGAAGAACTGAACAAGCCGAAACGGATCGTAAAATGGATCGGAATGGGAGCGCCCGGACCCGTGGAAATGGCGACGGGAATGGTCTATGAGACGACAAATATGGGGTGGAAAAACTATCCGCTGAAAGACCATCTCGAGGCGGAAACGGGTATTCCGGCCGTCATTGAAAACGATGCCAATATCGCGGCGCTCGGAGAAATGTGGAAGGGTGCAGGTGACGGGGCCAAAGATGTCATTTTAGTGACGCTCGGAACCGGAGTCGGCGGAGGCATCATCGTCAACGGAGAAATCGTTCACGGTAAAAACGGGGCCGGCGGAGAAATCGGTCATATTTGCAGTATTCCGGAAGGAGGAGCTCCGTGCAACTGCGGAAAATCCGGCTGCATCGAAACGATTGCGTCCGCAACAGGCATCGTCCGCATCGCGAAAGAAAAGCTTGCGGCGGTTTCCGACTCTTCGCTCTTACAAGTGGATGATCTGACGGCACGTGACGTGTTCGAAGCGGCTAAACAGCAGGATAAGACAGCGCTTGAAGTCGTCGATTATGTCGCAAAACATTTAGGCCTCGTGCTCGGAAACCTGGCAAGCGCCATGAACCCGACGAAAATCGTGCTCGGCGGAGGGGTCTCTAAAGCGGGTGAAATCCTGCGGTCAAAAGTGGAAGAGACCTTCAAAATCACCGCGTTCCCGCGTTCTGCGGAAGCGGCCGATATTTCGATCGCGGCACTTGGAAATGACGCCGGAGTCATCGGCGGGGCGTGGATTGCCAAAAATGAATGGCTCAAACATCAAAACTGCTGA	MEDTWFAGIDLGGTTIKLAFINMYGEIQHKWEVPTDKSGNTITVTIAKALDQKLEELNKPKRIVKWIGMGAPGPVEMATGMVYETTNMGWKNYPLKDHLEAETGIPAVIENDANIAALGEMWKGAGDGAKDVILVTLGTGVGGGIIVNGEIVHGKNGAGGEIGHICSIPEGGAPCNCGKSGCIETIASATGIVRIAKEKLAAVSDSSLLQVDDLTARDVFEAAKQQDKTALEVVDYVAKHLGLVLGNLASAMNPTKIVLGGGVSKAGEILRSKVEETFKITAFPRSAEAADISIAALGNDAGVIGGAWIAKNEWLKHQNC				NA	NA	NA	NA	NA
D1-12_01588	210	yqgQ	COG4483	putative protein YqgQ	ATGGTGAAGAAGATGAATTCATTTTATGACGTGCAGCAGCTGTTTAAGTCATTCGGACATATCGTTTATTTCGGTGACAGACAAGCCGAAATTGACTTTATGAAAGATGAATTAAAGGAAATGTACTTGTCAAACGTGATTGAAAGAGAATTATGGCAAAAAGCCGCCGGAGTTCTTCAGAGAGAATCGGAGCGGATCAAAGGCAGATAA	MVKKMNSFYDVQQLFKSFGHIVYFGDRQAEIDFMKDELKEMYLSNVIERELWQKAAGVLQRESERIKGR				NA	NA	NA	NA	NA
D1-12_01589	1260	nhaC_1	COG1757	Na(+)/H(+) antiporter NhaC	ATGCCGCTGTTCTTTTGCGTCATTATTCTGTCTCTGGCAGGTTTGTGGCTCGGTTTCTCGTGGGACAGTCTTGAAAAAGGAATTGTCAGCGGATTGAAAAACGGTGTGCAGCCGATTATCGTGCTGGCTTTGATCGGTGTACTGATCGGCGCCTGGATGTACAGCGGCGCCATTCCCACCGTCACCGTTTACGCTTTGTCAATTATACAGCCGAGTCAGCTGCTTTTGACCGCATTATTTTCCTGCATGATTATCAGCACGCTTGTCGGCTCAAGTCTGACAACTGTCAGTACAATCGGCGTCGCGCTGTTAGGGGTAGCAAGCGCGGCGGGAGTTCCGCTCGAATGGACGGCGGGAGCAGTCATTTGCGGGGCTTGTTTCGGTGATAAAATGTCACCGATGTCCGACACGACAAATTTTGCCGCCGGAATTGGCGAAATTCCGATTTTTAAGCATATTCGCCATATGATGGGCACTACCGTTCCGGCACTGCTGATCACGATTGTTCTTTTTTATATTCTCGGTTCATCGGTTTCAATAAATGCCGCTTCAACGCAAAATATTGAGGCGGTCATTTCCGGAATGAAAGAGGCCGTGCACGTTACGCCTTGGTCGCTTCTTTCACCTCTGTTGGTGATCATTTTAGCTGTGAGACGGGTTTCCGTGATTCCGGTGCTTACCGCCGGTATTATTTCCGCAGGGCTTCTGACTGCTGTTTTTATTCCTGACAGCAGCATTCAAGGATTTATATCCGCCCTGCAAAGCGGGACGGAGTTTAAAACCGGCGACCAGGCTGTGGCCAGCATTATCAACAGAGGCGGGCTCCAATCGATGATGGGATCAGTCTCTCTGATCATGATCGCCTTTGCGCTCGGCGGCCTGATGGAAAAAACGGGCCTGATCGCGGCGCTGCTTCAAGGATTGATAAAAGGCGTGCATACGAAAGGACGTCTTGTCATGGCGACCGTCTTCTCAAGTATAGGCGTAAACCTTGCGACAGGTGAGCAGTATTTGTCGATCTTAATTCCGGGCCAATCTTATAAACCTTTATATGACAAGCTCAGCATTAAGCGGATTCACCTTGCGCGGTCGCTTGAGGACGGCGGAACATTGATCAACCCGCTGATTCCCTGGGGAGTAAGCGGCGCTTTTATGGCAAGCGCATTAGGGGTTTCCGTCATCGACTACCTGCCGTTTACCTTTTTCCTGTACATTTCTCCTATGATCTCAATTCTGCTCGGTTTCCTGAAAAAAAGCTGA	MPLFFCVIILSLAGLWLGFSWDSLEKGIVSGLKNGVQPIIVLALIGVLIGAWMYSGAIPTVTVYALSIIQPSQLLLTALFSCMIISTLVGSSLTTVSTIGVALLGVASAAGVPLEWTAGAVICGACFGDKMSPMSDTTNFAAGIGEIPIFKHIRHMMGTTVPALLITIVLFYILGSSVSINAASTQNIEAVISGMKEAVHVTPWSLLSPLLVIILAVRRVSVIPVLTAGIISAGLLTAVFIPDSSIQGFISALQSGTEFKTGDQAVASIINRGGLQSMMGSVSLIMIAFALGGLMEKTGLIAALLQGLIKGVHTKGRLVMATVFSSIGVNLATGEQYLSILIPGQSYKPLYDKLSIKRIHLARSLEDGGTLINPLIPWGVSGAFMASALGVSVIDYLPFTFFLYISPMISILLGFLKKS	PGPT0013945_1498	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
D1-12_01590	174			hypothetical protein	ATGAAAAAAATGTTGATCTACTCATTATGCGCCGTATCTGTTTTAGCCGTTTACCAAAACCGCTACCGTCTGATGAACAGCGTGCTCAGCCAGCCGGGGATCAGACGGTCATTCATTCATTTCTTTTTAAAAATACCGTTTATCAGAAATAAATTCATTCAGCAGGCATTTTAA	MKKMLIYSLCAVSVLAVYQNRYRLMNSVLSQPGIRRSFIHFFLKIPFIRNKFIQQAF				NA	NA	NA	NA	NA
D1-12_01591	555	yqgN	COG0212	putative protein YqgN	GTGAAAGCACAAATCAGAACCGATATAAAAGCAAAGCTTTCTGACATGACAGAAAGTGAATGGGAGAAAAAATGCCGCAGCATGCGTGAAACGCTGTTTTCTTTAAAAGAATGGAAACAGGCCCGCGTGATCGCCGTTACCATCTCGACACGCCTGGAAATTCCGACACGGCCGATTATTGAACAGGCCTGGAAAGAGAAAAAACAAGTCTGTATCCCAAAATGCTTTCCGCAGACGGGAGCGATGGAGTTCCGTACATTTTCTGCGTATGATCAGCTGGAAACCGTATATGCGGGCCTCAGTGAACCGATCGAGAGCCTGACGGAAAAAGCCGCCCAAAAAGACATTGACCTTGTGATTGTGCCCGGCGTGGCTTTTGACCGGGAAGGCTTCAGAATCGGATACGGCGGAGGATATTATGATCGGTACCTCTCCGGTTATAAAGGCCGTACCGTGTCGCTTCTCTTTGACTGCCAGCTGACAGACCGCATTCCCCGCATGCCCCACGATATTCCGGTCGATATGATCGTGACTGAATCTGAAACCATCGCTTAA	MKAQIRTDIKAKLSDMTESEWEKKCRSMRETLFSLKEWKQARVIAVTISTRLEIPTRPIIEQAWKEKKQVCIPKCFPQTGAMEFRTFSAYDQLETVYAGLSEPIESLTEKAAQKDIDLVIVPGVAFDREGFRIGYGGGYYDRYLSGYKGRTVSLLFDCQLTDRIPRMPHDIPVDMIVTESETIA	PGPT0008170_4831	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
D1-12_01592	150	rpmGA	COG0267	50S ribosomal protein L33 1	ATGCGCGTTAATATTACTTTGGCTTGCACTGAATGTGGTGAGCGTAACTATATTTCTAAAAAGAACAAACGCAACAATCCGGACCGCGTTGAATTTAAAAAATATTGCCCACGTGATAAAAAATCTACGTTACACCGTGAAACAAAATAA	MRVNITLACTECGERNYISKKNKRNNPDRVEFKKYCPRDKKSTLHRETK				NA	NA	NA	NA	NA
D1-12_01593	354			hypothetical protein	GTGGAAATTGCTATTATTGCGTTGTTTATCGTCAGTATAGCGCTTATTGCATTCTCATATTCTCAAAGAGATCCGATGAAAGACGTGGAACAGGAGCTTGAAACGCTTCAGCTTTCCGCCATGCAGGAAATTTACAAGTTGAAAAAGAAAATGACGGTGCTTGAAGAAGAATTGCTGGAAACCAACCTCGTGATCCGCAAAGCCAAAAGCAGCGGCATTAACCAAAAAATCGCCAAACAAATCATTTCAAAATATAACAACGGAATGTCTGCGGAAGCCATCGCAAAAGCGGAGCACGTGTCTGTCGAGGACGTCAATACCATTATTAAAGATAATGAGAAGGTGCTCGTATGA	MEIAIIALFIVSIALIAFSYSQRDPMKDVEQELETLQLSAMQEIYKLKKKMTVLEEELLETNLVIRKAKSSGINQKIAKQIISKYNNGMSAEAIAKAEHVSVEDVNTIIKDNEKVLV				NA	NA	NA	NA	NA
D1-12_01594	465	mltG_1		Endolytic murein transglycosylase	ATGACAAAACGGGGCATTCAGGCTTTTGCAGCAGGCATGATTTTAGCGACGGCCGTTCTCGCCGCTGTCTTCTATTTGACTGACCATGACCAGGCAGCCGCCGTTAAAACCGAAAAAACAGCATTGACAGAAAAAGAAGTAAACAGCTACCTCGACGATCAGCAAAAAGTCTCCGTCAACCGGGATGACTATCAAAAACTTCTTGATTCTAAAGAAAAATCGTTAAACAACGACCAAAACACAGACGACAAAAAGAAAAAAGTAACATACAAACTGACGATTAAAAACGGAATGAGCACTGCTGATGTGTCATCCATTCTTGAAAAAGAAGGGATTATTCCTTCAGCGAAGGACTTTAATGATTACGTCATTGACGCAGGCTACCATAAAGAAATCCGCGCCGGCCATTTCAAAGTCGACTCAGATATGAGCTTTAAAAAAATCGTCAAAACATTAACCCGCTAA	MTKRGIQAFAAGMILATAVLAAVFYLTDHDQAAAVKTEKTALTEKEVNSYLDDQQKVSVNRDDYQKLLDSKEKSLNNDQNTDDKKKKVTYKLTIKNGMSTADVSSILEKEGIIPSAKDFNDYVIDAGYHKEIRAGHFKVDSDMSFKKIVKTLTR				NA	NA	NA	NA	NA
D1-12_01595	783	pstB3_2	COG1117	Phosphate import ATP-binding protein PstB 3	GTGAGCCTTGTGAAGGAAGCGGTGCACACACAGAATTTATTTGATATTCACGGCATGAACGTATGGTACGGAGCCCATCAGGCTTTAAAAGACATTACGATCGGTTTTGAGGAGCGGAAGGTAACTGCGATCATCGGTCCGTCCGGCTGCGGGAAATCCACTTTTATTAAAACATTAAACTTAATGCTGCAAATGGCTCCGAATGTCAAAGTGACAGGCGACATGATCTATAACGGGCGCAATCTGCTGAAAGAAAAGACGGATGCGGCAGAATTAAGAAAACAAATCGGTATGGTGTTTCAAAAAGGAAATCCGTTTCCGCAGTCAATATTTGAGAATGTCGTGTACGGTCCGAGAATTCACGGCGAAAAAAATAAAAAGAAACTGCTTGAAATCGCCGAGGAATCTTTAAAGGCAGCTGCGCTCTGGGATGAAGTGAAAGATCGCCTTCACCACCAGGCGCTTTCACTGTCAGGCGGTCAGCAGCAGCGGCTGTGCATCGCAAGGGCGCTCGCCACCAAACCGGACGTCCTTCTGATGGATGAACCGACGTCCGCTCTCGACCCCGTATCCACACGGAAAATAGAAGAGCTGATTTTGACATTGAAAGAAAAGTATACAATCGTCATTGTGACGCACAACATGCAGCAGGCTGCGAGGGTCTCTGATCAAACCGCGTTTTTCTATATGGGCGAACTGGTAGAGTGGGGGGATACGGACAAAATATTTTCTCAGCCGGATCATCAAAAAACACATGATTATATCACCGGAAAATTCGGATGA	MSLVKEAVHTQNLFDIHGMNVWYGAHQALKDITIGFEERKVTAIIGPSGCGKSTFIKTLNLMLQMAPNVKVTGDMIYNGRNLLKEKTDAAELRKQIGMVFQKGNPFPQSIFENVVYGPRIHGEKNKKKLLEIAEESLKAAALWDEVKDRLHHQALSLSGGQQQRLCIARALATKPDVLLMDEPTSALDPVSTRKIEELILTLKEKYTIVIVTHNMQQAARVSDQTAFFYMGELVEWGDTDKIFSQPDHQKTHDYITGKFG	PGPT0002615_2797	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
D1-12_01596	807	pstB3_3	COG1117	Phosphate import ATP-binding protein PstB 3	ATGATTGATCACATCATCAGGGAACATGCGGAACAGACAAAGCGTTCGCCGGAGTCTTCAATTTTGGAAGTGAAGCATTTATCAATTTATTACGGTGACAAACAAGCGGTTAAAGATGTAAACATGGATATTGAAAAACATGCGGTGACGGCTCTGATCGGTCCGTCCGGCTGCGGGAAATCAACATTTTTGAGACAGATTAACAGAATGAACGATGCCATTCCTTCGGCAAGAAGCGAGGGAGAGATCCTTTATGAAGGGCTGAATATTTTGGGAGAAGCGATTAATGTCGTGTCTCTCAGACGGGAGATCGGTATGGTGTTTCAAAAACCGAATCCGTTCCCGAAATCCATTTACAATAACATCACACATGCGCTGAAGTATGCGGGGGAACGCAGGAAAGCCGTTTTGGATGATGCGGTCGAGGAAAGCTTAACGAAGGCTGCGCTTTGGGATGAAGTCAAAGACCGGCTTCATTCATCGGCTCTTTCGTTATCAGGCGGCCAGCAGCAGCGCCTTTGCATCGCCCGTACGCTTGCGATGAAACCTGCCGTGCTTCTTTTAGATGAACCGGCTTCAGCTCTGGACCCTATTTCAAACGCCAGAATCGAGACGCTTTTGACAGAACTGAAAAAAGATTATTCGATTATTATCGTTACGCATAACATGCAGCAGGCGCTGAGGGTGTCTGACCGAACGGCTTTCTTTTTAAACGGGGAAGTGGTGGAATACGGGCAGACAGAACAAATTTTTACGAGTCCTAAAGCGCAAAAGACAGATGACTACATTAACGGAAAGTTCGGATAG	MIDHIIREHAEQTKRSPESSILEVKHLSIYYGDKQAVKDVNMDIEKHAVTALIGPSGCGKSTFLRQINRMNDAIPSARSEGEILYEGLNILGEAINVVSLRREIGMVFQKPNPFPKSIYNNITHALKYAGERRKAVLDDAVEESLTKAALWDEVKDRLHSSALSLSGGQQQRLCIARTLAMKPAVLLLDEPASALDPISNARIETLLTELKKDYSIIIVTHNMQQALRVSDRTAFFLNGEVVEYGQTEQIFTSPKAQKTDDYINGKFG	PGPT0002615_2010	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
D1-12_01597	885	pstA	COG0581	Phosphate transport system permease protein PstA	ATGAACCGGAAAATAACGGATAAATTGGCCACCGGTGTATTCGGGTTATGCGCCGCTGTAATCGCGGCGATTTTGGCAGGATTGTTTTTGTACATTCTTATTCACGGCGTCTCTGAAATCTCCTTGCATTTTCTTACGTCAAAATCGAGCGCCATTGCGTCAGGCGGCGGAATACGGGATCAGCTTTTTAACTCCTTTTACATTCTGTTTATCACCATGCTGATCACGATACCGCTTGGTGTGGGGGGCGGCGTCTTTATGGCTGAATATGCGCCCCAAAATAAAATCACTGATTTTATCAGAACGTGTATTGAGGTGCTGTCTTCGCTTCCGTCCATTGTCATCGGGATGTTCGGCATGCTGATGTTTGTCAACCTGACCGGATGGGGCTACACGATTATCGGAGGCGCGCTCGCATTAACGGTCTTTAACCTTCCCGTTATGGTCCGGGTGACAGAAGGCGCGCTCACTGCAGTTCCTAAGGAGCTGAAAGAAGCTTCTCTCGCTTTAGGCGTATCGAGATGGCATACCGTCAAAACGGTGCTGATTCCGAGTGCGATTCCTTCGATTTTAACCGGAGCCATTCTCGCATCAGGAAGAGTATTCGGAGAAGCAGCCGCATTGTTATTTACAGCAGGACTGACAACGCCGCGGCTGAACTTTACGGATTTGAACCCGTTTTCTGAATCATCTCCTTTCAACATTTTCAGGCCGGCTGAGACGCTGGCGGTTCATATATGGAGTGTCAATACGCAGGGAATCATCCCTGACGCCGAAGCGATTGCAAACGGCGGCTCGGCGGTGCTGGTGATTTCGGTGCTCTTGTTTAACCTTTGTGCAAGATGGCTCGGATCTGTCATTTATAAAAAGCTTACGGCAAATTAA	MNRKITDKLATGVFGLCAAVIAAILAGLFLYILIHGVSEISLHFLTSKSSAIASGGGIRDQLFNSFYILFITMLITIPLGVGGGVFMAEYAPQNKITDFIRTCIEVLSSLPSIVIGMFGMLMFVNLTGWGYTIIGGALALTVFNLPVMVRVTEGALTAVPKELKEASLALGVSRWHTVKTVLIPSAIPSILTGAILASGRVFGEAAALLFTAGLTTPRLNFTDLNPFSESSPFNIFRPAETLAVHIWSVNTQGIIPDAEAIANGGSAVLVISVLLFNLCARWLGSVIYKKLTAN	PGPT0002610_3601	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
D1-12_01598	930			hypothetical protein	ATGATAAATCACAGAGAAAAAGAGTCTGTAAGCGAACGCTTAATAAGCTCAAAACAAAACAGGCAATTGGATGAAGTCCGCGGAAGGGTGATTGTGTCTGTGTGTGCCGCGATTATCATTGCGGCATCAGCGGCGATCACAATTTTTCTCGGCATAAAGGGGCTGCAATCTTTTTTTGTAAATGGTGTAAGCCCGATTGAGTTCTTAACAAGTCTGAATTGGAATCCAACCCAGGCAAAACCTGAGTTCGGCGCGCTGCCTTTTATTTTCGGATCATTTGCGGTCACGGTTCTGTCCGCTTTGATCGCAGCGCCCCTCGGTATTGCGGGTGCCGTGTTTATGACGGAAATTGCGCCGACTTGGGGAAAAAAGGTGCTGCAGCCGGTAATTGAGCTGCTTGTCGGCATTCCGTCCGTCGTTTATGGATTCATAGGTCTTACAGTATTGGTTCCGTTTATCGGCTCTTTTAAATCAAGCGGAACGGGTCACAGCCTTCTGGCGGGGACGATCGTACTCTCGGTAATGATTCTGCCGACTGTTACATCGATTTCCGCTGATGCGCTTGCGTCACTTCCGAAACACCTTCGCGACGGTTCATATGCGCTTGGTGCGACGAGGTGGCAGACAATCAGAAAGGTGCTTATCCCGGCGGCGTTTCCGACATTGCTGACCGCTGTCGTGCTCGGGATGGCAAGAGCGTTCGGAGAAGCACTCGCCGTACAGATGGTTATCGGAAATACAAAGCTTCTGCCGGAAAGCCTGCTTGATACGGCGGGAACATTAACGACGATTATTACGTTAAACATGGGCCATACCACATACGGCAGTATTGAAAATAATACGTTATGGTCTATGGGGCTTGTTCTTCTCATCATGTCGTTTCTGTTTATATTGCTCATACGCTACTTGTCATCTAGGAGGAAAGTGTAA	MINHREKESVSERLISSKQNRQLDEVRGRVIVSVCAAIIIAASAAITIFLGIKGLQSFFVNGVSPIEFLTSLNWNPTQAKPEFGALPFIFGSFAVTVLSALIAAPLGIAGAVFMTEIAPTWGKKVLQPVIELLVGIPSVVYGFIGLTVLVPFIGSFKSSGTGHSLLAGTIVLSVMILPTVTSISADALASLPKHLRDGSYALGATRWQTIRKVLIPAAFPTLLTAVVLGMARAFGEALAVQMVIGNTKLLPESLLDTAGTLTTIITLNMGHTTYGSIENNTLWSMGLVLLIMSFLFILLIRYLSSRRKV	PGPT0002620_3863	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
D1-12_01599	903	pstS1	COG0226	Phosphate-binding protein PstS 1	ATGAAAAAAAACAAATGGATGCTTATGCTTCTGATGGCTGCTGTTATGATTGTTGCTGCAGCATGCGGAAATGCAAAGGAAAGCGGCAAGACAGACAGTCAATCTGCAAGTGAGGATAAAAAAGCATCAGGTTCTTTAACCATTTCTGGTTCATCAGCCATGCAGCCGTTAGTACTGGCAGCGGCGGAAAAGTTTATGGAAAAGCATCCGGATGCTGATGTGCAGGTGCAAGCGGGAGGTTCAGGAACAGGTCTTTCGCAAGTGTCTGAAGGGGCAGTGCAAATCGGCAACTCAGATGTCTTTGCTGAAGAAAAAGAAGGCATTGATGCAAAAGCCCTAAAAGACCACCGAGTAGCGGTAGTGGCGATGGCGGCTGCGGTCAACCCCGGTGCGGGCGTAAAGGATATAACCAAAAAACAGCTGACAGACGTCTTTACAGGTAAAATTAAAAACTGGAAAGAGCTTGGCGGTAAAGATCAAAAAATTACACTCGTGAACCGTCCTGATTCATCAGGAACACGCGCTACGTTCGTCAAATATGCGCTTGACGGAGCAGATCCTGCTGAGGGCATTACAGAGGATTCCTCCAATACAGTCAAAAAAATCATTGCGGAAACGCCGGGAGCTATCGGTTATCTGGCATTCTCTTATATAAACGATGACAAAGTAACGCCTTTATCGATCGGAGGCATCAAACCGGAAGAGAAAAACGTCGTCACAGGCGAGTATCCGATTTGGGCTTACGAGCACTCTTATACGAAAGGTGAAGCGTCAGGCCTTACAAAAACGTTTCTTGACTATATGAACAGCGATGAAGTACAGAAAAGTATCGTAAAAGATCAAGGCTACATTCCGATCTCTGATATGAAAGTCACACGTGACGCAAACGGCAAGCAAAGCTGA	MKKNKWMLMLLMAAVMIVAAACGNAKESGKTDSQSASEDKKASGSLTISGSSAMQPLVLAAAEKFMEKHPDADVQVQAGGSGTGLSQVSEGAVQIGNSDVFAEEKEGIDAKALKDHRVAVVAMAAAVNPGAGVKDITKKQLTDVFTGKIKNWKELGGKDQKITLVNRPDSSGTRATFVKYALDGADPAEGITEDSSNTVKKIIAETPGAIGYLAFSYINDDKVTPLSIGGIKPEEKNVVTGEYPIWAYEHSYTKGEASGLTKTFLDYMNSDEVQKSIVKDQGYIPISDMKVTRDANGKQS	PGPT0002625_5872	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
D1-12_01600	2148	pbpH_2	COG0768	Penicillin-binding protein H	ATGAGGAGAAATAAAAAGAAAATAGCTGTAAACAAAGAAAAGAAAAAATCACTGCCAATCCGGCTTAATTTTTTGTTTTTGGTTGCGTTTCTTATTTTCACTTGGATTATCGTCGAGCTTGGCATCAAGCAGATCGTTCAGGGTGATGATTATAAAAACGCCGCTAATAAGCAAGAGGAGTCTGATGTCAGCACGGCGGTTCCGAGAGGGAAAATATACGACCGGAACCTAAATCCCATCGTAACGAATAAAGCATTAAATGCGATTACATATACACGTTCAGCCTCAACCACCCAGGCGCAGCGTTTAAAAATCGCAAAAAAACTGTCGGGTATGATTAAGGTAAGCACCAAAAAGGTGACTGAGCGGGATAAAAAAGACTATTGGATGTTAACAAGGCCTGATGAAGCGAAAAAACTGATTACGGCCGAAGAAAACCAAAAAGCTGAAGACAAAAAACTGTCTGACGATGATTTATATCAGCTTCAGCTGAAACGCATCACAGACAAACAGCTGAATGAGCTCACTTCAAAAGACATGCAGATCCTTGCGATCAAAAGACAGATGGATTCAGGATACTCCCTGACGCCTCAATACATCAAAAATGAAGGCGTGTCGGCAAAAGAAATGGCCGTCGTCAGCGAACATTTAGATGAACTGCCGGGGGTTGACGTGACGTCTGACTGGGAACGGTCTTATCCAAATAAAGGGTTGTTAAAATCAGTTCTCGGCAGTGTCTCGAGCTCCAATGAGGGACTTCCTTCAAATCTTCTTGAGCATTATTTGTCACTCGGCTACAGCAGGAATGACAGAGTAGGAAAAAGTTATTTAGAGTATCAATATGAAAATCTGCTGCAGGGCCAAAAAGAGAAAGTGAGAAATGTGACAGATTCCTCTGGAAACGTAACAGATACAGAAACGGTATCAAAAGGTAAAGCCGGGGATGATTTAGTGCTTACTATAGATACCGAATTGCAAAAAGACGTTGAAAAAATTATTGAGAAAAATTTAAGGGCTGCAAAGGCAAGACCGAGTACACAGTTGCTTGACAGAGCATTTGTCGTAATGATGGATCCCCGTAATGGAGAAGTGCTTACAATGGCGGGTAAACAGATTAAACAAGTAGACGGCAAATATAAAATTGACGATTATGCACTAGGAACAATGACTTCCTCTTACAACATGGGCTCAGCTGTAAAAGGGGCAACACTGTTAACAGGTTATCAAACAGGTGCTATTAAAATCGGAAATATATTTACGGATGAAGTTTTAAATATTAAAGGCTCTCCTCCTAAAAAATCGGTAAGTGTAATGGGGCCAATAAATGATTTAACTGCACTTGAGCGTTCATCTAACGTTTATATGTTCAAAACGGCAATTGCAATTGGTAAGGGTAAATATATATCAGGACATTCACTGCCGCTTGATTACAGCGCATTTGATAAATTTCGTTATTACTTCAGTGAATTCGGTTTAGGGGTAAAAACAGGAATTGATCTGCCTAACGAAGCTACAGGATATGTGGGAACTAAAAGGCAGTCAGGTTTCTTGCTTGATTTTGCGATTGGCCAATATGACACATACACTCCGCTTCAAATGGCTCAGTATGTATCGACCATTGCTAATGGTGGCTATCGTATGAAGCCCCAAGTCGTGAAAGAAGTAAGAAAACCTTCAAAAAAAGGTATCGGGGCCGTCGTTGAATCTGTTAATCCGGAAGTGATGAACCGTCTTGATATGACGGAAAGTGAAATTAAACGTGTTCAACAAGGTTTTAAACTTGTTATGAATGGAGCTCAAGGGACTGCGAGAGCAAATTTTGCTAATAAAAGTTATAACCCTGCCGGTAAAACTGGAACAGCACAAGCTTTCTATGACGGACCTATAAAATCAAGAACTGGTGCTTATACTTATAACACAACCTTGGTGGCTTATGCTCCTGCAGATCATCCTGAAGTTGCTATTTCGGTAGTGGTTCCATGGGCTTATGAAGATTATAATGACAGGTATTCTATAACTAACGACATAGGGGAAGCAGCTCTGGACAAATACTTTGAGCTGAAAAAGAAACAAGAAGATAATAATACGAAGCAGAAAAACGAAGATAAAATTCAGGAAGACGCTGAAAACGGCAATACAAACAACTAA	MRRNKKKIAVNKEKKKSLPIRLNFLFLVAFLIFTWIIVELGIKQIVQGDDYKNAANKQEESDVSTAVPRGKIYDRNLNPIVTNKALNAITYTRSASTTQAQRLKIAKKLSGMIKVSTKKVTERDKKDYWMLTRPDEAKKLITAEENQKAEDKKLSDDDLYQLQLKRITDKQLNELTSKDMQILAIKRQMDSGYSLTPQYIKNEGVSAKEMAVVSEHLDELPGVDVTSDWERSYPNKGLLKSVLGSVSSSNEGLPSNLLEHYLSLGYSRNDRVGKSYLEYQYENLLQGQKEKVRNVTDSSGNVTDTETVSKGKAGDDLVLTIDTELQKDVEKIIEKNLRAAKARPSTQLLDRAFVVMMDPRNGEVLTMAGKQIKQVDGKYKIDDYALGTMTSSYNMGSAVKGATLLTGYQTGAIKIGNIFTDEVLNIKGSPPKKSVSVMGPINDLTALERSSNVYMFKTAIAIGKGKYISGHSLPLDYSAFDKFRYYFSEFGLGVKTGIDLPNEATGYVGTKRQSGFLLDFAIGQYDTYTPLQMAQYVSTIANGGYRMKPQVVKEVRKPSKKGIGAVVESVNPEVMNRLDMTESEIKRVQQGFKLVMNGAQGTARANFANKSYNPAGKTGTAQAFYDGPIKSRTGAYTYNTTLVAYAPADHPEVAISVVVPWAYEDYNDRYSITNDIGEAALDKYFELKKKQEDNNTKQKNEDKIQEDAENGNTNN	PGPT0023930_158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465	NA	NA
D1-12_01601	1290			hypothetical protein	ATGAGCAAAATAAAAAAAATTATCGGCGACATCGAAATAAATAAAGGGCTGCTGCTGTTATTGACGATTGGCGGCCTTTACTCATTGGGCATCGCGCTGTCAAATACATTTGTCAACGTGTATTTGTGGAAGCAGTCTGGAAAATTTATTGATTTGGCCATATACAATTTGTCGGTCGTAACGATGCAGCCGGTTACCTTTCTGCTGGCTGGCCGGCTGGCTAAAAAAATTGACAGGGTGTTTATTCTCAGGTTCGGCGTTATCTTTTTGGCTGCTTTTTATTTAAGTGTGCTGCTTGCCGGAGAAACTGCGGCTTCCCGTCTCGTTTTGATAGGGGCCGTGCTCGGAGTTGGATACGGCTTTTACTGGCTGGCTTTTAATGTGCTGACTTTCGAAATCACGGAACCGGAAACGAGAGATTTTTTTAACGGGTTTTTAGGCATTTTGTCTTCATCGGCGGGCATGATCGGTCCGATTGTAGCCGGATATGTCATTTCAAGACTTGAAAACAATACGGGTTATACAATCATTTTCAGCCTGTCGCTCGGTTTATTTGCCCTTGCCGTGGTCATGAGCTTTTTTCTGAAGCGGAGGGAGTCGAAAGGCCGGTTTATGCTGAAAAAAGTTTTTGATGAGCGCCACACGAATCTGAATTGGCGCCGGATTACCAACGCGCACTTTTTTCAAGGCTTGAGAGAAGGGATTTTTGTTTTTTTAATCAGCGTATTTGTATTCATTGCGACAAACAGTGAGCTGGCGCTCGGAACATTCGGCCTCGTCAATTCCGCGGTTTCTTTTTTTGCCTATTATTTTGCATCAAGGCTCATCAAAAAAAGAGCGCGGAAAAAGGCGATTCTTATCGGCGGATTGATCTTGTACGGCGCTCTGTTTCTCATTATTTTTAAAATGAGCTTCACGACGCTCCTTTTGTACGGAGTGTTTATTGCGATCGGCTATCCAGTTCTGCTCGTGCCGTATGTCTCGCTTACATATGATGTGATAGGCCGGGCGCGGCTTGCCAGAAAAGCCAGAATTGAATACATTGTGCTCAGGGAGTTATTTTTAAATGCGGGCCGGATCGTTTCCATCCTTTGTTTCCTTGTAATCGTTACATTATTCAAGGAAAAAGTGGGGATACCGGCGGCGCTCGTGCTGCTCGGAGCCGGGCATCCGCTGATTTATTACTTTATAAAAGACATCAAACTGGATACGGAAACTTCTGATGAAACAGTAGAAGAAGACCGACAAAAACAGGCGGCGGAACCGAATTTTATAAAAGGAGAAAGATAA	MSKIKKIIGDIEINKGLLLLLTIGGLYSLGIALSNTFVNVYLWKQSGKFIDLAIYNLSVVTMQPVTFLLAGRLAKKIDRVFILRFGVIFLAAFYLSVLLAGETAASRLVLIGAVLGVGYGFYWLAFNVLTFEITEPETRDFFNGFLGILSSSAGMIGPIVAGYVISRLENNTGYTIIFSLSLGLFALAVVMSFFLKRRESKGRFMLKKVFDERHTNLNWRRITNAHFFQGLREGIFVFLISVFVFIATNSELALGTFGLVNSAVSFFAYYFASRLIKKRARKKAILIGGLILYGALFLIIFKMSFTTLLLYGVFIAIGYPVLLVPYVSLTYDVIGRARLARKARIEYIVLRELFLNAGRIVSILCFLVIVTLFKEKVGIPAALVLLGAGHPLIYYFIKDIKLDTETSDETVEEDRQKQAAEPNFIKGER				NA	NA	NA	NA	NA
D1-12_01602	606	sodA	COG0605	Superoxide dismutase [Mn]	ATGGCTTACAAACTTCCAGAATTGCCTTACGCTTATGATGCTTTAGAACCTCATATCGATAAGGAAACGATGACGATTCATCATACGAAGCACCATAACACATACGTGACAAACCTCAACAAAGCGATCGAAGGATCAGCGCTTGCAGAGAAATCTGTAGATGAGCTTGTTGCTGATTTGAACGCAGTGCCGGAGGACATCCGCACAGCTGTCCGCAACAATGGCGGCGGACATGCCAACCACTCTTTATTCTGGACTCTTTTATCTCCGAACGGCGGAGGCGAACCGACTGGTGAGCTTGCTGAAGAGATCAAAAGCACGTTCGGAAGCTTCGATCAATTTAAAGAAAAATTCGCCGCAGCAGCTGCCGGCCGTTTCGGTTCAGGCTGGGCTTGGCTTGTTGTAAACAACGGCAAACTTGAAATTACAAGCACGCCAAACCAAGATTCACCGCTTTCAGAGGGTAAAACGCCTGTCCTCGGTCTTGATGTTTGGGAGCATGCGTACTACCTGAACTACCAAAACCGCCGTCCTGATTACATTTCAGCTTTCTGGAATGTTGTGAACTGGGATGAAGTTGCCCGTCTTTACAGCGAAGCAAAATAA	MAYKLPELPYAYDALEPHIDKETMTIHHTKHHNTYVTNLNKAIEGSALAEKSVDELVADLNAVPEDIRTAVRNNGGGHANHSLFWTLLSPNGGGEPTGELAEEIKSTFGSFDQFKEKFAAAAAGRFGSGWAWLVVNNGKLEITSTPNQDSPLSEGKTPVLGLDVWEHAYYLNYQNRRPDYISAFWNVVNWDEVARLYSEAK	PGPT0004190_4387	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
D1-12_01603	483			hypothetical protein	ATGAGTGTTTTGTATTGGCTGATTATCATTGCGGTCTTCGTCATTGCTTTTATCGGGCTTGTATATCCGGTGATTCCAAGCGTTATTTTTATTGTGGCCGGTTTTCTTCTCTACGGATTTTTGTTTTCCTTCAGTCCTTATTCTTACCTGTTTTGGCTCATTGAGGCGGTATTTGCGGCCGTTTTATTTGCAGCTGATTATGTGTCAAATTTACTTGGCGTTAAAAGGTACGGAGGAAGCAGGGCGGCAATCTGGGGAAGCACGATCGGATTGTTGATCGGGCCCTTCGTTATTCCCGTGGCAGGCATTATAATAGGCCCGTTTATCGGTGCTGTCTGCGCTGAGGTGTTTGTTCATCAAAAGGATATCAAGTCCGCGGCAAAAGTGGGGCTCGGCTCGTTAATCGGCTTTTTAACAAGCGTGGCGGCAAAAGGCGTCATTCAGCTCTTTATGATCGGATATTTCTTATGGACGGTGCTTTAG	MSVLYWLIIIAVFVIAFIGLVYPVIPSVIFIVAGFLLYGFLFSFSPYSYLFWLIEAVFAAVLFAADYVSNLLGVKRYGGSRAAIWGSTIGLLIGPFVIPVAGIIIGPFIGAVCAEVFVHQKDIKSAAKVGLGSLIGFLTSVAAKGVIQLFMIGYFLWTVL				NA	NA	NA	NA	NA
D1-12_01604	765			hypothetical protein	ATGTTGAACATATTTACGGCTTTATTGAAAAGTACATACTCTCCGGCAGATATTGCAAAAACACGGTTTCAGGGGATAGGAAAAGCGATCCTTTATGTATTTTTGCTGTCTGTCCTTTTTACGCTGCCAAGCGCTTATTACCTTTGCTCCGGCACCGTAAACTCAATGAACGGTTTCAAAACCGTGTTAAAGAAAGATTTCCCTGATTTCAGCATTTCAAACGGAGAATTGCAGACGAAAGCATCCGCCTCTAAGGAAACGGAAGCGAACGGGTTCGTCATCGTGTTTGATCCCACAGATGCTTACGGCGCTAAACAAATAGCGGCGAAACAAAATGCGATCGGCATTTTGAAAAATAAAATGGTGCTTGCTGTAGACGGACAGGCGACAGAAATGAATTATTCGCTGATGCCTGCTGATATCACAAAAAAAGAAATCATATCAGCATTAAACCAAAATAAAACGATGATCGTCACCGTCCTGTCCGTTCTGCTGTTCATCATGACAGCGGCCGGAAAATTCATTGAAGTATCATTTCTCGCCGTCATCGGCCTGATATTGAAAAATGCGCAAAGAAAGACATTGAATTACCAGCAGCTCTGGAAGCTTTCGGCTTATTCCATTACACTTTCGACCATATTCTTTACGATCATGCGCGCGCTTGTTATTACGGTGCCGAGTGAATTTTTAGTGAATTGGTTTGTAAACTTTATCATCCTTTTCCTCGTCTTAAAAGAGATACCGCCAAGAAAAACAGCTGTGTAA	MLNIFTALLKSTYSPADIAKTRFQGIGKAILYVFLLSVLFTLPSAYYLCSGTVNSMNGFKTVLKKDFPDFSISNGELQTKASASKETEANGFVIVFDPTDAYGAKQIAAKQNAIGILKNKMVLAVDGQATEMNYSLMPADITKKEIISALNQNKTMIVTVLSVLLFIMTAAGKFIEVSFLAVIGLILKNAQRKTLNYQQLWKLSAYSITLSTIFFTIMRALVITVPSEFLVNWFVNFIILFLVLKEIPPRKTAV				NA	NA	NA	NA	NA
D1-12_01605	303			hypothetical protein	ATGAAGCGGCTTACTTTTGTATTCGGCAGTTTATTTGTGATATTCATTATCTTTTACGATCTTAAAATCGGCACGATCCCTTCTCAAGACCTTCCGGCATACGCAGCGGCGGCGCAGCCAGCCCAACAGGAAGCTTCATACAGAACGGTTACGGTCAAAAAAGGCGATACGGTGATGTCGATAGTCGGCGCACATAAAGCGCCAGATGATATTGCACAAGATTTTGAAGCGCTGAATCCGAATGTAAAAGCAAACGCCATTCAGGCAGGCACCGCTTATAAATTCCCCGTCTACCGCAATTAA	MKRLTFVFGSLFVIFIIFYDLKIGTIPSQDLPAYAAAAQPAQQEASYRTVTVKKGDTVMSIVGAHKAPDDIAQDFEALNPNVKANAIQAGTAYKFPVYRN				NA	NA	NA	NA	NA
D1-12_01606	1128	ispG	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	GTGAGTGAAATCACACATCGTACAAAAACGCGTCCCGTCAAAGTGGGACCTTTAACAATAGGCGGAAATAACGAAGTCGTCATTCAGAGTATGACGACGACCAAAACACACGACGTAGAAGCAACAGTTGCGGAAATCAACCGTTTAGCCGAAGCCGGCTGCCAAATTGTCCGGGTGGCATGTCCGGACGAACGCGCCGCTAACGCGATTGCCGACATCAAAAAACAAATTTCCATCCCTCTCGTTGTCGATATTCATTTTGACTACAAGCTTGCATTAAAAGCAATTGAGGGCGGCGCCGACAAAATCAGAATCAACCCGGGTAACATCGGCCGCCGCGAAAAAGTGGAAGCCGTCGTAAAAGCGGCGAAAGAAAAAGGAATTCCGATCCGGATCGGCGTAAACGCGGGTTCTTTGGAAAAACGCATTTTAGAAAAATACGGCTATCCGACTGCTGACGGAATGGTTGAGAGTGCGCTTCATCATATCAAAATCTTGGAAGACCTTGACTTTCATGACATCATCGTCAGCATGAAAGCGTCTGACGTCAATCTAGCCATAGAAGCATACGAAAAAGCGTCAAAAGCATTTGATTATCCGCTCCACCTCGGAATTACAGAATCGGGCACGCTGTTTGCCGGAACGGTAAAAAGCGCGGCCGGACTCGGAGCGATTTTAAGCAAAGGAATCGGAAACACGCTCCGGATCTCTCTGAGCGCCGACCCGGTTGAAGAAGTAAAAGTAGCCAGAGAACTGCTGAAATCATTCGGTCTTGCTTCAAACGCGGCTACGCTTATTTCATGCCCGACATGCGGACGGATCGAAATTGATCTTATCAGCATCGCAAATGAAGTGGAAGAATATATTTCTAAAGTCAAAGCGCCGATTAAAGTAGCCGTTCTCGGATGCGCCGTTAACGGACCGGGTGAAGCAAGAGAAGCCGATATCGGGATTGCCGGCGCGCGCGGCGAAGGACTTCTTTTCCGCAAAGGCCAAATCGTCCGCAAAGTCCCTGAAGAAACCATGGTCGATGAGCTCAAAAAAGAAATCGACAAGCTGGCAGAAGAACACTATGCAAAGCTTGAAGCAGAAAAAGCAAAAGCAGAACAAGAAACACAAAAAGCTTGA	MSEITHRTKTRPVKVGPLTIGGNNEVVIQSMTTTKTHDVEATVAEINRLAEAGCQIVRVACPDERAANAIADIKKQISIPLVVDIHFDYKLALKAIEGGADKIRINPGNIGRREKVEAVVKAAKEKGIPIRIGVNAGSLEKRILEKYGYPTADGMVESALHHIKILEDLDFHDIIVSMKASDVNLAIEAYEKASKAFDYPLHLGITESGTLFAGTVKSAAGLGAILSKGIGNTLRISLSADPVEEVKVARELLKSFGLASNAATLISCPTCGRIEIDLISIANEVEEYISKVKAPIKVAVLGCAVNGPGEAREADIGIAGARGEGLLFRKGQIVRKVPEETMVDELKKEIDKLAEEHYAKLEAEKAKAEQETQKA	PGPT0007580_2506	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
D1-12_01607	372			hypothetical protein	GTGGCATACGATTACGAAAATCGAAAAGGCAACGATTACTATGTAGATCATGGATCGGAAGGAACCGATATCACGCGTGATGTTTATTCAGAAGAAACAGCGGCCGAAATCTCAGAGCCATATCGTGCTTCTGACCGGGCAGCAGACCGTGATGATAATCGGGACGGAGTAAGTGAAGGCCGGGGGATAGGGTATGCAGCATTGGCTATTTCTATCATTTCCCTGTTTGTGCTCCCTGTTTTATTAGGGGCATGCGGCATTATCGTCGGCTATATCGCCAGAAGAAGAGGAGCAGGCGCTTTAGGCGGATGGGCGATGGGAATCGGTATTGTTTCCCTTGTGCTTGGCATCTTCATTACACCGTTTTTTTAA	MAYDYENRKGNDYYVDHGSEGTDITRDVYSEETAAEISEPYRASDRAADRDDNRDGVSEGRGIGYAALAISIISLFVLPVLLGACGIIVGYIARRRGAGALGGWAMGIGIVSLVLGIFITPFF				NA	NA	NA	NA	NA
D1-12_01608	582		COG5663	Nucleotidase	ATGTTACGGTTAGGTATAGATATTGACGGCACAGTTACGGCACAGGATACATTTGTCCCTTATTTAAACCGCTCATTTCATCTTTCCATTACCTTGGATGATATGACTGATTATGATCTGACGAAGCTTTTGAACATTACAGACGAGGAATTTTGGGAATGGATGAACGTTCATGAAGCAGCCATATATAAAGAAGCGAAGCTCGCGGAATTTGCCAAGCAGGCACTGGACGGACTGAAAGAAGAGCACCGCCTTATCTACATTACGGCAAGACGCGGCCACTTAGAAGATGTTACGCTGGACTGGTTTGCAAACCGGGACATTCATTACGATCACATTGAGCTTGTCGGAGGCCATCACAAAGTGGAAGCCGTCAAAAAACACGGCATTGATTTATTTTTCGAAGATCACCACGGCAACGCGACAATGATCGCAAAAGAAGCAGGCATTCCGGTTATCCTTTTTAACTCCCCATATAATCAGCTCCCCATCGATTCCAATATTATCAGGGTGAAGAATTGGCTTGAAGCCGTCGCCTGGATTAATAAAAACAAACACAGCTTTCAGCATGTTAAAAGCTGA	MLRLGIDIDGTVTAQDTFVPYLNRSFHLSITLDDMTDYDLTKLLNITDEEFWEWMNVHEAAIYKEAKLAEFAKQALDGLKEEHRLIYITARRGHLEDVTLDWFANRDIHYDHIELVGGHHKVEAVKKHGIDLFFEDHHGNATMIAKEAGIPVILFNSPYNQLPIDSNIIRVKNWLEAVAWINKNKHSFQHVKS				NA	NA	NA	NA	NA
D1-12_01609	411	zur	COG0735	Zinc-specific metallo-regulatory protein	ATGAACGTACAAGAAGCGTTGAACCTGCTGAAAGAAAAAGGGTATAAATATACGAGTAAGCGAGAAGACATGCTGCAGCTTTTTGCTGATTCTGATAAATATCTGACCGCCAAAAACGTGCTTGCCGCATTAAATGACGACTATCCGGGTCTGAGCTTTGATACCATATACAGAAATCTTTCGTTATATGAAGAACTCGGCATTTTGGAAACAACGGAGCTTTCCGGAGAAAAACTGTTCCGTTTTACATGCTCTTATACCCATCATCATCACCATTTTATCTGTTTAACCTGCGGGAAAACGAAGGAAATTGAGTCCTGTCCGATGGATAAGCTGCACGATGATTTGGAAGGGTATGAAATCAGCGGCCATAAGTTTGAAATTTACGGCACCTGTCCGGCGTGCCGATAA	MNVQEALNLLKEKGYKYTSKREDMLQLFADSDKYLTAKNVLAALNDDYPGLSFDTIYRNLSLYEELGILETTELSGEKLFRFTCSYTHHHHHFICLTCGKTKEIESCPMDKLHDDLEGYEISGHKFEIYGTCPACR	PGPT0004295_379	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004295-zurR|zur-K02076	NA	NA
D1-12_01610	882			hypothetical protein	ATGACCCCAAATAAACAGCACAAAAGAGAATCATTTTTACACTTTATCTTCAGGGTCATCATGATTCTGATCGGGGCGGGTTCAGCCGCCGTAAGTATTGAATTGTTTCTGGTCCCTAATAATTTTATCGACGGAGGCATTATCGGTGTTTCATTAATTTTAGACCACCTCTTTATGTCCAATCCCCTCCTCAATTTCGCCTTATTCGTTGTGTTACTCAACATTCCATTTATGATTTTCGGATATAAATATATCGGAAAAACATTTCTCATCTCTACTGTTATCGGAATTGTCGGTTTAGCGCTGATTGAATCCTCCTTGCACCATGTGGAGGCCATTACGACCCAGCCTATTTTGGCGACGGTATTCGGCGGGCTTTTGCTCGGTTTCGGGGTAGGCCTTGTCATCCGAAACGGAGGCTCGATGGACGGTACTGAAATACTCGGTATCCTTCTCACAAAAAAGCTGCCCTTCTCAGTCGGAGAATTCGTTATGCTCATCAATGTGTTTATTTTTATTTGGGCCGGTTTTGTGTTCGGTCCGGAGCAGGCGATGTATTCTTTCATGACTTATTATATTGCCATGAAAACGATTGACGCCGTCATTCAGGGTCTCGATGAAACAAAAGCGGTCATTATTGTGGCAGATCAGTATGCGGAAATTTCAGACGCAATCTTGCACCGGCTTGGAAGGGGAACCACCAAGCTTCAGGGAAAAGGCGGATATACGGATGAATCCAAAGAAGTCATTTACGCGGTCGTGACAAGGCTTGAAGTGACTAAATTGAAATCCATTGTGTTTGAAATTGATAAAAACGCCTTTATTACGATCATGAATACCCATGAAACGAGGGGCGGTAAGTTCAAAACCGCGATTCACTAG	MTPNKQHKRESFLHFIFRVIMILIGAGSAAVSIELFLVPNNFIDGGIIGVSLILDHLFMSNPLLNFALFVVLLNIPFMIFGYKYIGKTFLISTVIGIVGLALIESSLHHVEAITTQPILATVFGGLLLGFGVGLVIRNGGSMDGTEILGILLTKKLPFSVGEFVMLINVFIFIWAGFVFGPEQAMYSFMTYYIAMKTIDAVIQGLDETKAVIIVADQYAEISDAILHRLGRGTTKLQGKGGYTDESKEVIYAVVTRLEVTKLKSIVFEIDKNAFITIMNTHETRGGKFKTAIH				NA	NA	NA	NA	NA
D1-12_01611	255			hypothetical protein	ATGATTTTAATACAAAGAATTATTTTGCAGCGGCTCAATCAAGTCACTGCGGACGATCTTCTGAAATATTCCAAGCAATACGGAATCAGCATTACGAGAAGTCAAGCGGCTGAGGTAGCGGCTCTGATGCACGGAAAAAACATCAATATTTTTGATGAACAGGAGCGGCTGCGCCTGCTGAAAAAAGTGGAAACGATAACCTCAAAAGAAACGGCTCGGAAAGTTGACGAACTTTTCAATCAATTCTCAGGATAA	MILIQRIILQRLNQVTADDLLKYSKQYGISITRSQAAEVAALMHGKNINIFDEQERLRLLKKVETITSKETARKVDELFNQFSG				NA	NA	NA	NA	NA
D1-12_01612	894	nfo	COG0648	putative endonuclease 4	TTGCTGAAAATAGGTTCACACGTCTCAATGAGCGGAAAACATATGCTCCTTGCCGCAAGCAAGGAAGCTGTTTCGTACGGGGCGAATACATTTATGATCTATACGGGCGCTCCCCAAAACACGCGCCGCAAAAAAATTGAAGACTTGAATATTGAAGCGGGCCGCGCCCATATGAAGGAAAACGGCATCGACGAGATTGTCGTGCATGCGCCGTACATCATTAACATCGGAAATACGACAAATCCGGCAACGTTTGAGCTGGGCGTTGATTTTCTGCGTTCTGAAATTGAAAGAACGGCAGCGATCGGCGCGAAACAAATCGTGCTTCATCCAGGAGCGCATGTCGGAGCCGGGGCTGAGACGGGCATCAAAAAAATCATTGAAGGTTTAAACGAAGTGATTGTTCCCGGTCAAAACGTGCAGATTGCGCTGGAAACAATGGCGGGCAAAGGATCAGAATGCGGAAGAAGCTTTGAAGAGCTGGCCGAGATCATTGCGGGAGTCACGCATAATGAACATCTATCCGTCTGCTTTGACACTTGCCACACCCATGACGCCGGGTATGATGTCGCTAATGATTTTGACGGTGTTCTTAACGAGTTTGATAAAATCGTCGGCATCGATCGGATAAAAGTCCTTCATGTTAACGACAGTAAAAATATTAAAGGCGCCCGGAAAGACCGCCATGAAAATATCGGCTTCGGAGAGATCGGTTTTGACGCTCTGCAGTACATCGTTCATCACGAGCAGCTTGCCGATATTCCGAAAATCCTCGAAACCCCGTATGTAGGCGAAGACAAGAAAAATAAGAAGCCGCCGTACCGTTTTGAAATCGAAATGCTGAAAGAAAAGCAGTTTGATCAGGAGCTTCTTGAAAAAATATCAGCTCAATAA	MLKIGSHVSMSGKHMLLAASKEAVSYGANTFMIYTGAPQNTRRKKIEDLNIEAGRAHMKENGIDEIVVHAPYIINIGNTTNPATFELGVDFLRSEIERTAAIGAKQIVLHPGAHVGAGAETGIKKIIEGLNEVIVPGQNVQIALETMAGKGSECGRSFEELAEIIAGVTHNEHLSVCFDTCHTHDAGYDVANDFDGVLNEFDKIVGIDRIKVLHVNDSKNIKGARKDRHENIGFGEIGFDALQYIVHHEQLADIPKILETPYVGEDKKNKKPPYRFEIEMLKEKQFDQELLEKISAQ				NA	NA	NA	NA	NA
D1-12_01613	1317	cshB	COG0513	DEAD-box ATP-dependent RNA helicase CshB	ATGAAAGAAACTAAATTTGATGGATACAACTTAAAACCGTTTATTATAGATGCAGTTCACCGCCTTGGTTTTTATGAACCGACAGATATTCAAAAGCGTCTGATACCTGCCGTACTGAAAAACGAAAGCGTGATCGGGCAGTCCCAGACGGGGACGGGGAAAACCCACGCCTATTTATTGCCAATTTTGAATCAGATTGATCCGGGTTCTGATACGGTACAGGCTGTTATCACGGCGCCGACGAGAGAGCTTGCCAATCAGATTCATCAGGAAGCGCTCAAAATCACACAGGGTGCGGAAGATGAGCCGATCCGGACAAAATGCTTCATCGGCGGGACGGACAAGCAAAAATCAATTGATAAGCTGAAAACACAGCCTCATCTCGTCGTCGGAACGCCGGGCCGGATCGCGGATCTGATTAAGGCGCAGGCATTGAACGTCTATAAAGCGCAGTCTCTCGTCATTGACGAAGCTGATCTGATGCTTGACATGGGCTTTTTAGAAGACGTTGATTTCATCGGATCGCGTATGCCGGAAGAACTTCAGATGCTAGTGTTCTCAGCTACGATTCCGGAAAAGCTGAAGCCGTTTTTGAAAAAGTATATGGAAAATCCGAAGTACGCGCATGTTGAGCCGAAAAGAATCACAGCCGAAAAGATTGAACATGTTTTGGTTCCTTCTAAACAGCGTGATAAAGACAAACTGCTTTTTGATATGATGTCTCATCTGAACCCTTATCTGGGCATTGTGTTTGCAAATACGAAAAACACGGCTGACCATATTGCGAAATATCTGACTGAAAAGGGCATGAGGATCGGTCTTCTGCACGGGGGATTAACGCCGCGTGAGCGTAAGAAGGTAATGAAGCAGATTAATGATCTGGAATTCACTTATGTCATTGCGACAGACCTTGCGGCAAGAGGAATTGACATTAAAGGCGTAAGCCACGTCATCAACTATGAGCTTCCGGACGATCTGGATTTTTATGTTCACCGCGTCGGTAGAACTGCACGCGCCGGTTCATCAGGTCAAGCACTGACCATTTATGAGCTTTCTGACGAAGATGCGCTCGTAAGACTCGAAAAGATGGGTATTGTGTTTGACTATGCGGAGCTTGTAAACGGCGAATGGAAGAAAGGCGATGACCGCCACCGCCGCAAAAAACGCAAAAAATCGGAGAATGAGGCCGACCAAATGGCGAAGCGCCTCGTGAAAAAACCGAAAAAAGTGAAGCCGGGCTATAAAAAGAAAATGAGCTACGAAATGGAAAAGATAAAAAGAAAGCAGAGAAGAAACAAATCTAACAAAGGAAAGTAG	MKETKFDGYNLKPFIIDAVHRLGFYEPTDIQKRLIPAVLKNESVIGQSQTGTGKTHAYLLPILNQIDPGSDTVQAVITAPTRELANQIHQEALKITQGAEDEPIRTKCFIGGTDKQKSIDKLKTQPHLVVGTPGRIADLIKAQALNVYKAQSLVIDEADLMLDMGFLEDVDFIGSRMPEELQMLVFSATIPEKLKPFLKKYMENPKYAHVEPKRITAEKIEHVLVPSKQRDKDKLLFDMMSHLNPYLGIVFANTKNTADHIAKYLTEKGMRIGLLHGGLTPRERKKVMKQINDLEFTYVIATDLAARGIDIKGVSHVINYELPDDLDFYVHRVGRTARAGSSGQALTIYELSDEDALVRLEKMGIVFDYAELVNGEWKKGDDRHRRKKRKKSENEADQMAKRLVKKPKKVKPGYKKKMSYEMEKIKRKQRRNKSNKGK				NA	NA	NA	NA	NA
D1-12_01614	675			hypothetical protein	ATGTTTCCACAGCAGCCGATGAGAAATATGGCGCAGCAGGGCCGGCCGTTTATGAATCCGCGTATGATGATGGGAGGAAGACCGTCATTGCCGGGCCGGCAGCTTTTCCCTCAGCAGCAGATTGCCGGAGCGGGCCTGAGAAACGCAGGCACGGGCGGCGGAGGGGGCTTAAAAGGGATGCTTTCCCGTTTTTTACCCGGTTCAGGAGGAGGAAGCGCTGCCGCGTCGGCACCGGCGGCGGCCAGCGGAGGAGCAGGTGCAGGACTGCAGGGAATACAGAACCTGGCAAGTCCGGCATCCCTGTCGAGCATGCTCGGCAATGTTCAGAAGGTGCTCGGCGTGGCGCAGCAGGTTACGCCGATGATCCAGCAGTACGGTCCTTTAGTACGGAGTCTGCCCGCCATGATGAAGCTTTACAGCCAATTAAGCAGCAGTGATGACGAGAATGAATCTGACGAGACGAAAGAAACAGACGAACAGGACAAAAAGGATGAAGCTGAAAAAACAGATGAAACAGAAGATGAAAACAAATCAGACGCCTCATCCAAAACATCAAAGAAGACGTCTGAAAAAGCATCCGCTTCAAAAGAAAAAGACGCCGCACAGGCAGACTCAGCGGAACAGCCGCGTCCAAAAAGAACATCGGGCAGATCAAAGCCGAAATTATATATTTAA	MFPQQPMRNMAQQGRPFMNPRMMMGGRPSLPGRQLFPQQQIAGAGLRNAGTGGGGGLKGMLSRFLPGSGGGSAAASAPAAASGGAGAGLQGIQNLASPASLSSMLGNVQKVLGVAQQVTPMIQQYGPLVRSLPAMMKLYSQLSSSDDENESDETKETDEQDKKDEAEKTDETEDENKSDASSKTSKKTSEKASASKEKDAAQADSAEQPRPKRTSGRSKPKLYI				NA	NA	NA	NA	NA
D1-12_01615	945	ispH	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	TTGAACGTTATCAAAATATCGCCGCGCGGCTACTGTTACGGCGTTGTTGATGCCATGGTCATAGCTAAAAACGCGTCACTCGATAAAACACTGCCAAGACCTATATATATACTCGGAATGATTGTTCATAATAAGCATGTCACAGATGCGTTTGAGGAAGACGGCATTTACACGCTTGACGGCACAAACCGTCTGGAGATTTTAAAGCAGGTGGAAAAAGGAACCGTTATTTTCACGGCTCACGGGGTATCTCCGGAAGTAAGAAAAGTCGCTGAGGAAAAAGGGCTCGTTACGATTGACGCCACATGCCCGGACGTCACGAAAACACATGACTTAATCCGGAAAGTAAAAGCTGAAGGCTATCACGTCATATACATCGGCAAAAAAGGCCACCCCGAGCCTGAAGGAGCCGTCGGCGTCGCTCCTGAAATCGTTCATCTCGTTGAAACAGAGGAAGACGTGAGAAATCTCGATATTCAGGCTGAGAAATTAATCGTTACAAACCAAACGACAATGTCCCAGTGGGACGTCCACGATATTATGGAATCAGTCAAAGAAAAGTACCCGTACGTGGAATACCATCAGGAAATCTGCCTGGCCACACAGGTTCGTCAAGAAGCTGTATCAGAGCAGGCAAAAAAAGCGGACTTAACCATTGTTGTCGGTGATCCGAAAAGCAATAACTCCAACAGACTGGCGCAAGTGTCAGAAGAAATCGCCGGAACAAAAGCCTACCGAATCGGAGACATCAGTGAACTGAAGCTCGAATGGCTGAAAGACGTCAATACCGTCGCCATTACCGCAGGCGCATCAACACCGACACCGATTACAAAGGAAGTCATCCGCTTTTTAGAGCAGTTTGACCACAACGATGAATCGACATGGCAGCTTGAACACAGTGTGCCGCTTAAAAAAATCCTTCCGAAAGTAAAAATAAAAAACTGA	MNVIKISPRGYCYGVVDAMVIAKNASLDKTLPRPIYILGMIVHNKHVTDAFEEDGIYTLDGTNRLEILKQVEKGTVIFTAHGVSPEVRKVAEEKGLVTIDATCPDVTKTHDLIRKVKAEGYHVIYIGKKGHPEPEGAVGVAPEIVHLVETEEDVRNLDIQAEKLIVTNQTTMSQWDVHDIMESVKEKYPYVEYHQEICLATQVRQEAVSEQAKKADLTIVVGDPKSNNSNRLAQVSEEIAGTKAYRIGDISELKLEWLKDVNTVAITAGASTPTPITKEVIRFLEQFDHNDESTWQLEHSVPLKKILPKVKIKN	PGPT0007615_1462	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
D1-12_01616	1122		COG0327	GTP cyclohydrolase 1 type 2	ATGCCTAAACATGTGAACGGACAGGAAATCATCCAGCTGTTTGAACAATTTTCACCGAAGGCTTTTGCGGTGGAAGGAGACAAAATCGGCCTGCAGATCGGTACATTGAATAAGCCGGTGAAAAATGTCATGGTGACACTGGATGTTCTGGAACAAACGGTAGATGAAGCCATTGAGAAAAAAGTTGACTTAATTATCGCCCACCATCCGCCGATTTTTCGGCCGCTTAAACAGATCACCACTGATCAGCCTGGCGGAAGACTGATTGAGAAATGTATAAAGCATGATATTGCCGTATATGCGGCTCATACGAATCTTGATGTAGCGGACGGCGGTGTTAATGACCTGCTTGCCGAAGCTCTCGGTCTGACAGACACAGAAGTGCTCGTCCCGACATATTCGGACCCGCTGAAAAAGCTTGCCGTATATGTTCCGAAAGACTATGAAGAAGCTGTAAGAACCGCACTCGGCAACGCCGGAGCGGGACATATCGGCAATTACAGCCATTGCGCGTTCTCCTCTGAGGGAATCGGCAGCTTTAAGCCGCTGGACGGGGCAGAACCGTTTATCGGGCAGACGGGAGAACTGGAGCTCGTCCATGAAGTGAGACTTGAGACCGTTTTTCCGGCAAGTATGGAGAAAACCGTCGTAAAAGCGCTGAAAAAAAGCCATCCGTATGAAGAAGTGGCATATGATATTTATCCGGTGGAGCAGTCTCCGCTTGAAAAAGGGTTCGGCCGCATCGGAAAACTTCAGCAAGACATGACGCTTGAAGAGTTTGCTCTGTTTGTGAAAGAAAAGTTTGACGTTAACGGAGTCCGGATGGTCGGAGAGCGAAACAGCAAGGTGAAAAAAGTCGCGGTTCTTGGCGGTGACGGAAATAAATATATTTATCAGGCAAAGCGGAAGGGTGCAGATGTTTACGTGACGGGCGATCTTTATTTCCATGTAGCGCATGATGCGATGATGATGGGATTAAACGTTGTGGACCCTGGGCATTATGCTGAAAAGATCATGAGAAAAGGCACGGCTGAGAAGCTTACGGCAATGGCCGGAGAGAAAAACTATGACGTGCGCATTTTCGCTTCCGAAACAGATACAAACCCATTTACCTTCTTATAA	MPKHVNGQEIIQLFEQFSPKAFAVEGDKIGLQIGTLNKPVKNVMVTLDVLEQTVDEAIEKKVDLIIAHHPPIFRPLKQITTDQPGGRLIEKCIKHDIAVYAAHTNLDVADGGVNDLLAEALGLTDTEVLVPTYSDPLKKLAVYVPKDYEEAVRTALGNAGAGHIGNYSHCAFSSEGIGSFKPLDGAEPFIGQTGELELVHEVRLETVFPASMEKTVVKALKKSHPYEEVAYDIYPVEQSPLEKGFGRIGKLQQDMTLEEFALFVKEKFDVNGVRMVGERNSKVKKVAVLGGDGNKYIYQAKRKGADVYVTGDLYFHVAHDAMMMGLNVVDPGHYAEKIMRKGTAEKLTAMAGEKNYDVRIFASETDTNPFTFL				NA	NA	NA	NA	NA
D1-12_01617	756	trmK	COG2384	tRNA (adenine(22)-N(1))-methyltransferase	ATGATAGTAAAGGAAAAAGAACCTGAGAAAAGTTGTGATATTGTGAATGAAATGAAGTTATCTAAAAGATTGCAGTCTGTGGCGGAATATATCCCTCCGGGTGCCCTGGTTGCTGATATCGGGTCGGACCACGCGTATCTTCCTTGCTATGCCGTTTTGAATCATTTGGCAAGCCGGGCAATCGCCGGTGAAATTACAGACGGGCCGTATCTATCCGCCAAACAGCAGGTGGAAAAACTGGACTTAAGCACTCTTATCTCCGTAAGGAAAGGTGACGGGCTGAGCGTCCTTGAAAAAGGAGAAGCCGGCGCCATTACAATCGCCGGCATGGGCGGAGCACTGATCGCTCATATTTTGGAATCGGGGAAAACGAAATTGACGGGGCGTGAACGGCTGATTCTGCAGCCGAATATTCATGCCGTTCATATAAGAGAGTGGCTGTATCAGGAAGGCTATGAACTGCTTGATGAAGTGATTCTCGAAGAAGACGGAAAGTGTTATGAAATCCTCGTTGCGGAAACTGGCGACCGTGATGCGCCTTATCGGGACGTGCCGATGGCTGCCGGAATGCTTGCGGGTCCGTTTTTATTAAAAGAGAGGAATGAAGTGTTTCTTCGGAAATGGAGCCAGGAACTTAAGCATACTGAACAAATTTATGAACAGATCAGCCGCAGCGCAAAGCATGAAAATCATGAAAAATTAGCTGAATTGAAAGAGCGGATCTCTCTGCTGAAGGAGGTAATCGGACATGCCTAA	MIVKEKEPEKSCDIVNEMKLSKRLQSVAEYIPPGALVADIGSDHAYLPCYAVLNHLASRAIAGEITDGPYLSAKQQVEKLDLSTLISVRKGDGLSVLEKGEAGAITIAGMGGALIAHILESGKTKLTGRERLILQPNIHAVHIREWLYQEGYELLDEVILEEDGKCYEILVAETGDRDAPYRDVPMAAGMLAGPFLLKERNEVFLRKWSQELKHTEQIYEQISRSAKHENHEKLAELKERISLLKEVIGHA				NA	NA	NA	NA	NA
D1-12_01618	363	cccA	COG2010	Cytochrome c-550	ATGAAGTGGAATCCGCTGATTCCTTTTTTGCTCATTGCAGTGCTGGGAATAGGGCTGACTTTCTTTTTAGCTGTAAAAGGCAACGGAGATGCGCATCAGATCGCAAGCGGCGGTGAAAGCAAAAATGCCGAGAAGGAAACTGCAAACGCTTCACCTGAAGAGATTTATAAAGCGAACTGCATCACCTGTCACGGGGAAAACTATGAAGGTGTGTCAGGGCCGAACTTAAAAGGCGTCGGCAAAAGAAAAGATGTCGCTGAGATTAAAACAAAAATTGAAAAAGGCGGCAACGGGATGCCCGCGGGCCTTGTGCCGGCCGAAAAGCTGGATGACATGGCAAAATGGGTTTCTGACATTAAATAA	MKWNPLIPFLLIAVLGIGLTFFLAVKGNGDAHQIASGGESKNAEKETANASPEEIYKANCITCHGENYEGVSGPNLKGVGKRKDVAEIKTKIEKGGNGMPAGLVPAEKLDDMAKWVSDIK	PGPT0006870_26	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
D1-12_01619	1122	sigA	COG0568	RNA polymerase sigma factor SigA	ATGGCTGATAAACAAACCCACGAAACAGAAACAGAACTTACATTAGACCAGGTAAAAGAACAGCTTACTGAAACTGGAAAAAAACGTGGCGTTTTAACATATGAAGAAATTGCTGAACGCATGTCCAGCTTTGAAATTGAATCAGACCAAATGGATGAGTATTATGAATTTTTAGGAGAACAAGGTGTTGAATTAATTAGTGAAAATGAAGAAACGGAAGATCCTAATATTCAACAGCTTGCCAAAGCCGAAGAAGAATTTGACCTTAATGACCTCAGCGTACCGCCTGGCGTAAAGATCAATGATCCAGTCCGCATGTACCTTAAGGAAATCGGACGGGTAAATCTTCTTTCTGCTAAAGAAGAAATCACCTACGCTCAAAAAATTGAAGAGGGTGACGAGGAATCTAAACGCAGACTGGCTGAAGCAAACCTTCGTTTAGTTGTCAGCATTGCTAAACGGTATGTCGGCCGCGGCATGCTTTTCTTAGACTTGATCCAAGAAGGAAACATGGGTCTCATGAAAGCCGTCGAGAAGTTTGACTACCGTAAAGGATATAAATTCAGTACGTATGCGACTTGGTGGATCAGACAGGCGATTACACGCGCCATCGCTGACCAGGCGAGAACAATCCGTATCCCGGTTCACATGGTGGAAACCATCAACAAATTAATCCGGGTGCAGCGTCAGCTTCTTCAGGATCTTGGCAGAGAGCCGACACCGGAAGAGATTGCTGAAGACATGGATCTTACGCCTGAAAAAGTCCGTGAAATATTAAAAATTGCTCAAGAGCCTGTTTCTTTAGAAACGCCGATCGGTGAAGAAGACGACTCACATCTCGGTGACTTCATCGAAGACCAGGAAGCGACATCTCCGTCGGATCATGCGGCATATGAGCTTTTAAAAGAACAGCTGGAAGATGTGCTGGATACGTTGACAGATCGTGAAGAAAACGTGCTGCGTCTCCGTTTCGGTCTGGATGACGGACGCACAAGAACTTTGGAAGAAGTCGGCAAAGTGTTTGGAGTAACGAGAGAGCGTATTCGCCAAATTGAAGCAAAAGCGCTTCGCAAATTGAGACATCCGAGCAGAAGCAAACGTCTGAAGGATTTTCTCGAATAG	MADKQTHETETELTLDQVKEQLTETGKKRGVLTYEEIAERMSSFEIESDQMDEYYEFLGEQGVELISENEETEDPNIQQLAKAEEEFDLNDLSVPPGVKINDPVRMYLKEIGRVNLLSAKEEITYAQKIEEGDEESKRRLAEANLRLVVSIAKRYVGRGMLFLDLIQEGNMGLMKAVEKFDYRKGYKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINKLIRVQRQLLQDLGREPTPEEIAEDMDLTPEKVREILKIAQEPVSLETPIGEEDDSHLGDFIEDQEATSPSDHAAYELLKEQLEDVLDTLTDREENVLRLRFGLDDGRTRTLEEVGKVFGVTRERIRQIEAKALRKLRHPSRSKRLKDFLE	PGPT0014685_1189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
D1-12_01620	1812	dnaG	COG0358	DNA primase	ATGGGAAACCGCATACCAGATGAAGTAGTTAATCAGGTGCAGCAGTCAGCAGACATTGTTGAAGTCATAGGTGATTATGTCCAATTGAAAAAGCAAGGCCGCAACTACTTTGGGCTCTGTCCGTTTCACGGAGAAAACACGCCCTCGTTTTCCGTCTCCAGCGATAAGCAGATCTTTCATTGCTTCGGATGCGGTGCGGGCGGGAACGTTTTCTCTTTCTTACGGCAGATGGAAGGCTATTCATTTACGGAAGCTGTTTCTCACCTTGCGGATAAATATCAGATTGATTTCCCTGATGATATAACGATTCACTCTGCATCCAGGCCGGAATCTTCCGGAGAGCAGAAGATGGCGGAAGCCCACGAGCTTCTGAAGAAATTTTACCATCATTTGCTAATAAATACAAAGGAAGGCCAGGAAGCGTTAGATTACCTTTTATCAAGGGGTTTTACGAAAGAGCTCATAGATGAGTTTGAAATCGGCTACGCGCTGGATTCCTGGGATTTCATGACGAAATTCTTGAAAAAGCGCGGTTTTGAGGAAGAACTGATGGAAAAAGCGGGTCTGCTGATCAGAAGGGAAGACGGCAGCGGGTATTTTGACCGTTTCAGAAACAGAATTATGTTTCCCATTCATGATCACCACGGAGCCGTGGCGGCTTTTTCAGGAAGGGCGCTCGGAAGCCAGCAGCCGAAATATATGAACAGCCCGGAAACGCCGCTGTTTCATAAATCTAAGCTTCTGTATAACTTTCATAAGGCGCGCCTGCCGATCAGGAAAGAGGAGAGAGCCGTTCTGTTTGAAGGCTTCGCTGACGTCATATCCGCCGTCAGCTCAGGCGTAAAAGAAAGTATCGCCACAATGGGGACGTCGCTCACCGAAGAACATGTGAAAATCCTCAGGAGAAATGTTCAGGAGGTCATTCTCTGTTACGATTCGGATAAAGCCGGGTACGAAGCTACGCTGAAAGCGGCCGGCCTGCTCCAGAAAGCCGATTGTAAGGTAAGAGTAAGCATGCTGCCTGACGGGCTTGATCCTGATGATTATATCAGAACCCGGGGCGGAGAAAAATTCCGGACCGATATCATTGATGCAAGCGTTACGGTCATGGCTTTTAAAATGCAATATTTCCGCAAAGGGAAAAACTTATCTGACGAAGGAGACCGGCTCGCTTACATGAAAGAAGTGCTGAAAGAAATCAGCGCTCTTTCCGGGTCGCTTGAGCAGGAAATGTATGTGAAGCAGCTCGCCTCGGAATTTTCTCTTTCGGTAGAATCTTTGACGGAACAGCTTTCCATCTACGCCAGACAAAACGCCCCCGGCGACAAAAACGCTGAACCGCAGACAAGACGGGCCCGGGTGACGACAAAAGCGAAACGGCGCCGTCTCCGTCCCGCCTATGAGAACGCGGAAAGACTTCTGCTCGCTCATATGCTGAGAGACCGAAACGTCATAAAGAAAGTGATTGAGCGTGTCGGCTTTGAATTTAACATTGACGGACATCGTGCGCTGGCAGCATACCTGTACGCTGTTTATGAAGAGGGTGCTGACATGACGCCGCAGCATCTTATGGCGAGAATGCAGGATGAGGAAATCAGCCAGCTGCTTTCAGATATAGGGATGCTCCAAGTAAACGAGGAGCTCTCAGAGGCCGAGTTATCCGATTACGTAAAAAAAGTGTTGGATCACCGAAAATGGTCAATGATAAAGGAAAAAGAAGCAGAAAGAGCGGATGCGGAGAGGCAGAAAGACTTCGTGAAAGCTGCGTCTCTGGCTCAAGAAATTGTTGCATTGAACCGATCATTAAAGTAA	MGNRIPDEVVNQVQQSADIVEVIGDYVQLKKQGRNYFGLCPFHGENTPSFSVSSDKQIFHCFGCGAGGNVFSFLRQMEGYSFTEAVSHLADKYQIDFPDDITIHSASRPESSGEQKMAEAHELLKKFYHHLLINTKEGQEALDYLLSRGFTKELIDEFEIGYALDSWDFMTKFLKKRGFEEELMEKAGLLIRREDGSGYFDRFRNRIMFPIHDHHGAVAAFSGRALGSQQPKYMNSPETPLFHKSKLLYNFHKARLPIRKEERAVLFEGFADVISAVSSGVKESIATMGTSLTEEHVKILRRNVQEVILCYDSDKAGYEATLKAAGLLQKADCKVRVSMLPDGLDPDDYIRTRGGEKFRTDIIDASVTVMAFKMQYFRKGKNLSDEGDRLAYMKEVLKEISALSGSLEQEMYVKQLASEFSLSVESLTEQLSIYARQNAPGDKNAEPQTRRARVTTKAKRRRLRPAYENAERLLLAHMLRDRNVIKKVIERVGFEFNIDGHRALAAYLYAVYEEGADMTPQHLMARMQDEEISQLLSDIGMLQVNEELSEAELSDYVKKVLDHRKWSMIKEKEAERADAERQKDFVKAASLAQEIVALNRSLK				NA	NA	NA	NA	NA
D1-12_01621	507			hypothetical protein	ATGGAGGGATGGAGAATTAGTCTTCTAAATGAAAAAGAAAAGACGATTTTTGTCGATGCAGACGCATGCCCCGTAAAAGAGGAAATAATGCTCATTGCATCGCAATTCAGCGTTCGGGTTATTTTCGTCGCATCATTTGAACACTACCAGCTTTCCAGAAGCAAAGACGAGAACTGGGTATACGTTGATCCTCATAAAGAAGCGGCGGATTTATATATCGCAAACCATGTGAGATCGGGAGACGTCGTAGTCACGCAGGATATCGGTTTAGCCTCTCTTTTGCTGAACAGAAATATTGCCGTCTTATCGGAAAGGGGCCGTTCTTATACTGAAGACACGATTGACTTCGCTCTGATGAGCCGTCATATGTCAGGCAAAATGAGAAGAAGCGGCATTCATTCCAAAGGACCTAAAAAATTAAATAAAGAAGATCGGAATCGATTTGTTACCCTGCTTAAAAAAATCCTGTCGAATGATGAAGGGATTTCAAATCAAAACATCGAATAA	MEGWRISLLNEKEKTIFVDADACPVKEEIMLIASQFSVRVIFVASFEHYQLSRSKDENWVYVDPHKEAADLYIANHVRSGDVVVTQDIGLASLLLNRNIAVLSERGRSYTEDTIDFALMSRHMSGKMRRSGIHSKGPKKLNKEDRNRFVTLLKKILSNDEGISNQNIE				NA	NA	NA	NA	NA
D1-12_01622	813	yqfL	COG1806	Putative pyruvate, phosphate dikinase regulatory protein	ATGGACAATCGCATCATTTATGTAGTATCAGACTCAGTCGGAGAAACCGCCGAACTCGTTGTAAAAGCCTCGCTCAGCCAGTTTAACGGCTCAGCCGATGATACGCATATCAGAAGAATACCTTATGTGGAAGATATCGGCACCATTAATGAAGTCGTGTCTCTCGCCAAAGCGGACGGCGGCATTATTTGTTTTACGCTCGTTGTTCCTGAAATGCGCAAATACCTGGTTGAACAAGCTGAAAAAGCGAATGTGCTGTATTACGATATTATCGGTCCGCTCATCGATAAAATGGAATCGGCTTACGGTCTGACCGCCAAATATGAACCGGGCCGCGTCCGCCAGCTTGATGAAGATTATTTCAAAAAGGTCGAGGCGATCGAGTTTGCCGTCAAATATGACGATGGCAGAGATCCAAGAGGCATTTTAAAAGCCGATATCATCCTGCTCGGAGTATCCAGAACGTCTAAAACCCCATTATCACAATATCTTGCCCATAAGCGTCTGAAAGTGGCCAATGTGCCGATCGTTCCTGAGGTCGATCCGCCGGAAGAACTGTTCAGCGTTGATCCGAAAAAATGCATCGGCTTAAAGATCAGCCCTGATAAACTGAACCATATACGAAAAGAACGGTTAAAATCTCTCGGCTTAAATGACAAAGCCATTTACGCCAATATCAACAGAATTAAAGAAGAGCTGGAGTATTTTGAGAAAATCGTGGACCGGATCGGCTGCCAAGTCGTTGACGTTTCGAATAAAGCGGTCGAGGAAACAGCGAACATCATTCATCATCTCAAAACAAAGGGCCGATAA	MDNRIIYVVSDSVGETAELVVKASLSQFNGSADDTHIRRIPYVEDIGTINEVVSLAKADGGIICFTLVVPEMRKYLVEQAEKANVLYYDIIGPLIDKMESAYGLTAKYEPGRVRQLDEDYFKKVEAIEFAVKYDDGRDPRGILKADIILLGVSRTSKTPLSQYLAHKRLKVANVPIVPEVDPPEELFSVDPKKCIGLKISPDKLNHIRKERLKSLGLNDKAIYANINRIKEELEYFEKIVDRIGCQVVDVSNKAVEETANIIHHLKTKGR				NA	NA	NA	NA	NA
D1-12_01623	642	ccpN	COG0517	Transcriptional repressor CcpN	GTGGTGAGTACGATCGAATTAAATAAACGGCAAGAACAAATTTTACAGATTGTAAAGGAAAACGGCCCGATTACCGGCGAGCATATCGCAGAACAGCTCAATTTAACGAGGGCCACGCTGCGGCCGGACTTGGCCATACTCACCATGTCAGGCTTCTTAGAGGCCCGTCCGCGGGTCGGTTATTTTTATACGGGGAAAACGGGAAATCAGCTGCTTGCGGATAAACTGAAAAAGCTGCAAGTGAAAGATTTTCAATCGATCCCTGTTGTCATCAATGAAAATGTCTCGGTATACGATGCCATCTGCACCATGTTTTTAGAAGATGTCGGCACGTTATTTGTCGTAGATCGTGATGCTGTCTTAGTCGGTGTGCTGTCACGCAAAGATTTGCTGCGGGCGAGCATCGGCCAGCAGGAACTTGCCTCAATACCGGTTCATATTATCATGACAAGAATGCCGAATATCGCCGTCTGCCGGCGTGATGATTATGTGATGGACATCGCCAAGTATTTAATTGAAAAACAGATCGATGCCCTGCCCGTTATTAAAGATACGGATAAAGGCTTTGAGGTCATCGGCCGGTTTACCAAAACGAATATGACTAAGATACTTGTCAGTTTATCAGAAAATGAAATCATATAA	MVSTIELNKRQEQILQIVKENGPITGEHIAEQLNLTRATLRPDLAILTMSGFLEARPRVGYFYTGKTGNQLLADKLKKLQVKDFQSIPVVINENVSVYDAICTMFLEDVGTLFVVDRDAVLVGVLSRKDLLRASIGQQELASIPVHIIMTRMPNIAVCRRDDYVMDIAKYLIEKQIDALPVIKDTDKGFEVIGRFTKTNMTKILVSLSENEII				NA	NA	NA	NA	NA
D1-12_01624	2040	glyS	COG0751	Glycine--tRNA ligase beta subunit	ATGAGTAAACAAGACTTGCTTTTAGAGATCGGACTCGAGGAAATGCCGGCGCGGTTTTTACATGACAGCATGGTGCAGCTCGGTGAAAAGCTGACCGGCTGGCTGGCTGAAAAAAATATCGCCCATGGCGAAGTGAAACTTTTTAATACGCCGAGACGTCTGGCAGTATATATAAAAGACGTAGCAGAAAAACAGGCTGATATTCAGGAAGAAGCAAAAGGCCCTGCGAAAAAAATCGCTCTGGATGCTGACGGAAACTGGACAAAAGCCGCTATCGGATTTTCAAAAGGCCAAGGCGCCGGAGTGGATGACCTGTATATAAAAGATGTAAACGGCACGGAATATGTCTTCGTTCAAAAATTCCAGGCGGGACAAGAGACGAAGACACTTTTACCGCAGCTGGAAAATTTGATTGCCGGAATGCATTTTCCGAAAAACATGCGCTGGGGCACGCAGGATCTGCGCTATATCCGTCCGATCAAATGGATTGCCGCCCTCTTTGGAAAAGACGTCATTCCGTTTGAAATCACAAATGTCGAGACGGGCCGGAACACGCAGGGACACCGCTTTCTCGGCCAAGAAGTATCTGTTGATACGCCGGCATCATACGAAAAACTGCTGAAAGAACAAAGCGTCATTGCTGACCCGAAAGAACGCAAACAAATGATCCAAAGCCAGCTGGACGCGCTTGCGGCCGAGAAGAAATGGAACATTCCGATCGATGAGGACCTGCTGAACGAAGTCAACCATCTGGTGGAATACCCGACGGCGCTTTACGGATCTTTTGAATCCGAGTTTCTTTCTATCCCTGAAGAAGTGCTTGTGACAACAATGAAAGAGCATCAGCGCTACTTCCCGGTAAAAGATGAAAACGGGAATCTGCTGCCTCATTTTATTACGGTAAGAAACGGGAACAGCCATGCAATTGAAAATGTTGCCCGCGGAAACGAGAAAGTGCTGAGAGCAAGGCTTTCAGATGCTGCGTTCTTCTACAAAGAAGACCAAAAGCTGAACATTGATGAAAACGTGAAGAAACTGGAAAATATCGTTTTCCATGAAGAGCTCGGCTCCCTTGGAGATAAAGTAAGAAGAGTGGCCGCCATTGCGGGCAAACTTGCCGTCCGCCTGAAAGCGGATGAACAGACGCAAAAACTTGTGAAGCGCGCCGCAGAGATTTCTAAATTTGACCTGGTTACACATATGATCTATGAGTTCCCTGAGCTTCAAGGCGTAATGGGAGAAAAATATGCGCGCATGCTCGGTGAAGATGATGCCGTCGCTGCCGCTGTCAATGAGCACTATATGCCGAGAGCGGCCGGGGGAGAAGTGCCTTCAACCTTTACCGGCGCGGTCGTGGCGTTAGCTGATAAACTGGATACGATTGCTTCCTTCTTCAGCATTGACGTAATTCCGACAGGTTCTCAGGATCCGTACGGATTGCGCCGTCAGGCAAGCGGCATCGTTTCCATTCTGATCGACCGCAATTGGGACATTTCGTTTAAAGAGCTTCTGTCATTGACAGAAACGGAAAAAGAAAATGAGCTCCTCGATTTCTTTACACAGCGTCTGAAATACGTCTTAAACACTGAAGACATCCGTCATGACGTTATTGAAGCCGTTCTGGACAGCACAGAGCTTGAGCCGTATGCAGCCGTTCATAAGGCAAGAGTGCTTGAGAAGCACCTCGGCGCACCCGGCTTTAAAGAAACGGCTGAATCACTCGGCCGGGTTATCTCTATCAGCAAAAAAGGCGAGAGCCGGGATATCAAGCCGGATCTGTTTGAAAATGAACAGGAGGAAAAGCTGTTTGACGCTTATCAAAAAACAAAAGACAGTGTCGCGGAAAGCTTTGCCTCCAAAAACTATGAACAGGCGCTTGATGTGCTCAGCGGATTAAAGGAGCCGATTGAAGACTACTTTAATCACACGATGGTAAATGCGGACGATGAAGCATTAAAAACCAACCGTTTAGCGCAAATGACCGCTCTTGCAGATGTGATCAAGTCTTTTGCTAATATGAATCATCTTATTGTAAAATAA	MSKQDLLLEIGLEEMPARFLHDSMVQLGEKLTGWLAEKNIAHGEVKLFNTPRRLAVYIKDVAEKQADIQEEAKGPAKKIALDADGNWTKAAIGFSKGQGAGVDDLYIKDVNGTEYVFVQKFQAGQETKTLLPQLENLIAGMHFPKNMRWGTQDLRYIRPIKWIAALFGKDVIPFEITNVETGRNTQGHRFLGQEVSVDTPASYEKLLKEQSVIADPKERKQMIQSQLDALAAEKKWNIPIDEDLLNEVNHLVEYPTALYGSFESEFLSIPEEVLVTTMKEHQRYFPVKDENGNLLPHFITVRNGNSHAIENVARGNEKVLRARLSDAAFFYKEDQKLNIDENVKKLENIVFHEELGSLGDKVRRVAAIAGKLAVRLKADEQTQKLVKRAAEISKFDLVTHMIYEFPELQGVMGEKYARMLGEDDAVAAAVNEHYMPRAAGGEVPSTFTGAVVALADKLDTIASFFSIDVIPTGSQDPYGLRRQASGIVSILIDRNWDISFKELLSLTETEKENELLDFFTQRLKYVLNTEDIRHDVIEAVLDSTELEPYAAVHKARVLEKHLGAPGFKETAESLGRVISISKKGESRDIKPDLFENEQEEKLFDAYQKTKDSVAESFASKNYEQALDVLSGLKEPIEDYFNHTMVNADDEALKTNRLAQMTALADVIKSFANMNHLIVK				NA	NA	NA	NA	NA
D1-12_01625	888	glyQ	COG0752	Glycine--tRNA ligase alpha subunit	ATGAACATTCAAGATATGATTTTAACCTTGCAGAAGCACTGGTCGAATGAAGGCTGTGTGCTCATGCAGTCGTATGATGTGGAGAAAGGCGCAGGCACAATGAGCCCGTATACATTTTTACGAAGCATCGGGCCGGAACCGTGGAGAGTGGCTTACGTTGAGCCGTCCAGACGGCCTGCGGACGGACGGTACGGTGAAAACCCGAACAGGCTCTATCAGCATCACCAATTCCAAGTCATTATCAAGCCGTCGCCTGATAACATTCAAGAGCTTTACCTTGATTCATTGCGTGCGCTCGGCATTGACCCGCTTGAACATGATATCCGTTTCGTAGAAGACAACTGGGAAAACCCGTCTTTAGGCTGTGCAGGTCTCGGCTGGGAAGTATGGCTTGACGGGATGGAAATTACTCAGTTTACATACTTCCAGCAGGTGGGCGGAATTGAATGTAAACCGGTATCCGTTGAGATCACGTATGGTATTGAACGTCTCGCGTCATATATTCAGGACAAAGAAAACGTCTTTGATCTTGAATGGACGTCAGGATTTACTGTGAAAGATTTATTTATGATGGCTGAATATGAGCATTCCGTTTATACTTTTGAAACATCTGACGTGGATATGCTTTTCCATTTGTTCAGCACCTATGAAAAAGAAGCGATCAGACAAATGGATAACGGGCTCGTGCATCCGGCCTATGATTATGTGCTGAAATGCTCTCACACATTTAATCTGCTCGATGCAAAAGGCGCGATCTCGGTGACAGAGCGGACGGGTTATATCGGCCGTGTCCGCAACTTAGCGAGAAAAGTGGCAAAAACGTATTATGAAGAACGGGAAAAATTAGGGTTCCCAATGCTTAAAGAGGAGGGCTCTTCCCATGAGTAA	MNIQDMILTLQKHWSNEGCVLMQSYDVEKGAGTMSPYTFLRSIGPEPWRVAYVEPSRRPADGRYGENPNRLYQHHQFQVIIKPSPDNIQELYLDSLRALGIDPLEHDIRFVEDNWENPSLGCAGLGWEVWLDGMEITQFTYFQQVGGIECKPVSVEITYGIERLASYIQDKENVFDLEWTSGFTVKDLFMMAEYEHSVYTFETSDVDMLFHLFSTYEKEAIRQMDNGLVHPAYDYVLKCSHTFNLLDAKGAISVTERTGYIGRVRNLARKVAKTYYEEREKLGFPMLKEEGSSHE				NA	NA	NA	NA	NA
D1-12_01626	768	recO	COG1381	DNA repair protein RecO	ATGCTGACTAAATGTGAAGGAATCGTGCTCCGTACGAATGACTACGGGGAGACGAATAAAATCGTGACATTGCTGACGAGGGAACACGGCAAAATCGGCGTCATGGCAAGGGGCGCCAGGAAGTCAGCCAGCCGGCTGTCAGCAGTCAGCCAGCCGTTTTTGTACGGGTCATTTTTAATGCAAAGAACATCCGGACTCGGCACGCTCCAGCAGGGTGAAATGATTCTCAGCATGAGAACGATCAGAGAAGATTTATTTTTGACGGCGTATGCCGCTTTTATCGCTGAACTCACTGACAAAGGAACGGAAGAGAAGAAACCGAACCCCTATTTATTCGAATTGATTCTCGAATCCTTTAAGAGGCTGAATGACGGGACTGACCCGGACGTGATCACCTTCATCGTGCAGATGAAAATGCTCGGCGTCATGGGGCTGTATCCGGAGCTGAATCATTGTGTCCACTGCAAAAGCGGGGAAGGGACGTTTCATTTTTCGATAAGAGATAACGGGTTTATCTGCCACCGCTGCTTTGAAAAGGATCCGTACAGAGTTCCGATTTCGCCGCAAACGGCAAGGCTGCTAAGGCTTTTTTATTACTTTGATATCGGAAGGCTCGGCAGCGTCTCGTTAAAACAGGAAACCAAAAACGAAATTAAACGGGTCATTGATCTGTATTACGAGGAATACTCAGGACTTTATTTAAAGTCAAAACGGTTTTTAGATCAGATGGAAAGCATGAAGAACCTTTTGGATGAAAACAAAAGTTGA	MLTKCEGIVLRTNDYGETNKIVTLLTREHGKIGVMARGARKSASRLSAVSQPFLYGSFLMQRTSGLGTLQQGEMILSMRTIREDLFLTAYAAFIAELTDKGTEEKKPNPYLFELILESFKRLNDGTDPDVITFIVQMKMLGVMGLYPELNHCVHCKSGEGTFHFSIRDNGFICHRCFEKDPYRVPISPQTARLLRLFYYFDIGRLGSVSLKQETKNEIKRVIDLYYEEYSGLYLKSKRFLDQMESMKNLLDENKS				NA	NA	NA	NA	NA
D1-12_01627	144			hypothetical protein	GTGTTGAATTTTACCTGGAACGTATTTTCTCAAACAGGAAGTGTTGATACGTACCTTCTTTTTAAAGAACTGGAAAAAGAGAACCTGGAAAGACCCGAAGAACCGGAAGATGAGCTAGCCCGAATTGATTTTCCAATTTTGTAA	MLNFTWNVFSQTGSVDTYLLFKELEKENLERPEEPEDELARIDFPIL				NA	NA	NA	NA	NA
D1-12_01628	906	era	COG1159	GTPase Era	ATGACGAACGAAAGCTTTAAATCAGGATTTGTATCTATCATCGGAAGGCCGAATGTAGGGAAGTCTACCTTTTTAAACAGGGTCATCGGTCAAAAGATCGCCATCATGAGCGACAAACCCCAGACGACAAGAAATAAAGTCCAAGGGGTGCTGACAACCGGCACGTCGCAGACCATTTTTATTGATACACCGGGCATTCACAAACCAAAGCACAAGCTTGGCGACTTTATGATGAAAGTGGCCCAGAATACGCTGAAAGAAGTTGACTTGGTGTTATTTATGATTAACGCCGAAGAAGGGTACGGAAAAGGCGACGAGTTTATCATTGAAAAGCTCGGACAGACGTCCACGCCGGTCTTTCTGATCGTAAACAAAATTGATAAGATCCACCCCGACCAGCTGCTTCTTTTAATTGATGAGTACCGTACGCGCTATCCGTTTAAGGAAATCGTGCCGATCTCAGCTTTGGAAGGGAACAACGTCGAAACCCTTCTCGCGCAGATTGAAGCGTATTTACCGGAAGGGCCTCAGTTCTATCCGAGCGATCAGGTGACTGACCATCCCGAGCGGTTCATTATTTCTGAACTGATCAGGGAAAAGGTGCTCCATCTGACAAGGGAAGAAGTGCCGCACAGCATCGCTGTCGCTATCGAGTCCATTAAAGGGCAGGAAAACGGCTCTGTCCATGTCGCCGCCACGATTGTGGTCGAGCGGGATTCTCAAAAAGGCATCGTCATCGGCAAAAAAGGAGCGCTTCTGAAAGAAGTCGGCAAAAGAGCGCGGGCTGATATTGAAGCTCTTTTGGGCTCACGCGTTTACCTGGAATTATGGGTGAAGGTGCAGAAGGACTGGCGGAATAAAATGTCTCAGCTGCGTGATTTCGGCTTCAAAGAGGATGAATATTAA	MTNESFKSGFVSIIGRPNVGKSTFLNRVIGQKIAIMSDKPQTTRNKVQGVLTTGTSQTIFIDTPGIHKPKHKLGDFMMKVAQNTLKEVDLVLFMINAEEGYGKGDEFIIEKLGQTSTPVFLIVNKIDKIHPDQLLLLIDEYRTRYPFKEIVPISALEGNNVETLLAQIEAYLPEGPQFYPSDQVTDHPERFIISELIREKVLHLTREEVPHSIAVAIESIKGQENGSVHVAATIVVERDSQKGIVIGKKGALLKEVGKRARADIEALLGSRVYLELWVKVQKDWRNKMSQLRDFGFKEDEY				NA	NA	NA	NA	NA
D1-12_01629	411	cdd	COG0295	Cytidine deaminase	ATGAACAGACAAGAATTGATTGCAGAAGCATTAAAAGCGCGGGACACAGCGTATGTGCCGTATTCAAATTTCAGAGTGGGAGCCGCTCTTCTTACCAAAGACGGAAAAGTGTACAGAGGCTGCAACATTGAAAATGCGGCATACAGCATGTGCAACTGTGCTGAACGCACGGCGATATTCAAAGCTGTTTCCGAGGGGGATACGGAATTTGCGATGCTCGCCGTGGCTGCGGATACTCCGGGACCGGTTTCGCCGTGCGGAGCCTGCAGACAAGTAATTTCCGAGCTGTGCTCAAAGGATATGCTTGTTATTCTGACCAACTTACAAGGACAAATAAAAGAAATGACTGCGGAAGAATTATTGCCGGGCGCATTTTCATCGGAGGATTTACATGACGAACGAAAGCTTTAA	MNRQELIAEALKARDTAYVPYSNFRVGAALLTKDGKVYRGCNIENAAYSMCNCAERTAIFKAVSEGDTEFAMLAVAADTPGPVSPCGACRQVISELCSKDMLVILTNLQGQIKEMTAEELLPGAFSSEDLHDERKL	PGPT0021360_2491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
D1-12_01630	381	dgkA	COG0818	Undecaprenol kinase	ATGAGTATGGACTCACGAGATCATAAAAACGAGTGGAGCAGGTTCCTGAAGAGCTTTGTCCATGCATGGAGGGGAATCTGGAAAACGGCGCGGTCAGAGCGGAATTTTCAATTTCATATTACCGCGGCCTGCGCCGTTATCGTTTGCGGTTTTCTCACCGGGCTGAGCACAGCCGAATGGGCCGTTGTTTTGGTGCTGATCGGAGGGATGCTTGCTTTGGAGCTTTTAAATACGGCGATAGAGCATGTTGTGGATTTAGTTACCGATCAGTATCACCCGCTCGCAAAAGCGGCAAAGGACGCGGCCGCCGGAGCCGTTTGCGTCTTTGCCGTGATATCGTGTATCATTGGTTTACTCATCTTCTTGCCGAAGATATGTTAG	MSMDSRDHKNEWSRFLKSFVHAWRGIWKTARSERNFQFHITAACAVIVCGFLTGLSTAEWAVVLVLIGGMLALELLNTAIEHVVDLVTDQYHPLAKAAKDAAAGAVCVFAVISCIIGLLIFLPKIC	PGPT0024175_342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024175-dgkA-K00887	NA	NA
D1-12_01631	474	ybeY	COG0319	Endoribonuclease YbeY	ATGGGTTTACTCATAGATATTGTTGATGAAACGAACAGCGTCTCAGCTGATGCGCTCCAAGAAGTGGAGAAGCTGCTCCAATTCGCGGCGGAAAAAGAAGGCGTTCAGGATCAGGCTGAAGTATCGGTCACGATTGTGACAAATGAAGAAATCAGAGAAATCAACAGAGACTACCGGGGAAAAGACACTCCGACTGACGTCATTTCGTTTGCGCTTGAAGAAGAAGGCGAGGACGAGGTTGAAATCGTAGGCGCCGACATGCCGCCTGTTTTAGGAGATATTATCATCAGCGCAGACAGAACGAAAGAGCAGGCGGAAGAGTACGGCCATTCGTTTATGAGAGAGCTCGGTTTTCTGGCCGTCCACGGCTTTTTGCATTTGCTTGGCTATGATCACTTGACAAAAGAAGAAGAGGAAGAAATGTTTTCAAAGCAAAAGGATTTGCTGGATGAGTATGGACTCACGAGATCATAA	MGLLIDIVDETNSVSADALQEVEKLLQFAAEKEGVQDQAEVSVTIVTNEEIREINRDYRGKDTPTDVISFALEEEGEDEVEIVGADMPPVLGDIIISADRTKEQAEEYGHSFMRELGFLAVHGFLHLLGYDHLTKEEEEEMFSKQKDLLDEYGLTRS	PGPT0021360_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
D1-12_01632	2133	pgpH		Cyclic-di-AMP phosphodiesterase PgpH	TTGAAAAAGAAGGGAAAGGGCAAAAGCGCCCGGGAACGGTTCCGCAGTTTCAGACATGCCCGCTCAGCCCATGTGCTGCTGTACCTGCTGCTTTCAGCGATCATGTTTGGTTTGCTCTTTATTCATGTAAAACCTGAATCACTTAATTTGGATTTGTTTGCAGTCAGTGATAAGACGATTTACGCGCCCGCCACAGTGGAAGATCAGCAGGCGACGGAATCGAAAAAGCAGGCGGCCGAAGATGCGGTGGAAGATCAATACACTCTGAAAAAAGGCTATACCGACAACCGGCTTGACCTGATTACTTCCATTTTTGACAGCATCGGCGAAGTGAAAAAAGATGCGGAAAAAGACAAAAAGTCACCTTCGGAAAAATCACTGGTAAAATCGGTGAAAAACAAGCTGACACAGGATGTCAATGAATCCGTCTCGGAAGATGCCATTAAATCGCTTCTCCATGCAAACAATGAAGATTTCTCATTTGTGAGGGATTCCGTCATTACCGCGGTGAATACGGTGATGAGCAGTGAAATTCCTTCTGAAAAGCTTGCCGAAGCGAAGGATAAGGTCGCAAAAGAGCTGAAAAGCGCTTCTGTGCCGTCAAAATATTTAGCGGCTGCGACTGAAATCGGAAAATACGCGGTCATCCCGAATTACGTGTTTGATCCGAAAGCGACGGATGAAAAACGCCAGGAAGCGTCAGACAGCGTCCAGCCGGTACAGATCAAACAAGGACAGGTTCTCGTGGAAGAGAATGATCTGATCGACCGGGAAGTATACAGGAAGCTCGAACTGACGGGGCTTTTGAATAATTCCAACCTGTTAAAACCGATCAGCGGTCTCCTTCTGATGATCGGGCTGTTTATTGCCACGCTTGTCTACTATTTTGAGAAACAGCAGCAGGAGCTTAAGCTGAAAAATAAATCTCTTTTGCTGTTTTCTATCATTACAACGCTTATTCTCGTCATTATGGAAGTCGTCAGTCTCTTTCAGAAGATTGAATACACCAATATCGGCTATCTTGTGCCGATCGCCGCCGGCGCGATTTTAATCAGGCTGCTGCTCAATGAAAGGCTCGCCATTTTAGGAAGCATCATTCTGGCGATCTGCGGCAGTATGATGTTTAATCAGGGTGTGACGGGAACATTTAATTACGTCATCGGCATTTACTATTTAATCAGCAGCATTTCAGGCATTCTGTTTTTGGGAAAACATAATGCGAGATCAAAAATATTGCAGGCGGGACTGTTCGTCTCATTTATTAATATGATTATCGTGCTGTCGCTTTTATTAATACAAAATACGGCGCTGTCACCGGTTGAAATCGGAACGCTGATGCTGATGGGGGCCGTCTCGGGACTTGCTTCATCCGTTCTGATTATCGGTCTGATGCCGTTTTTTGAGACGGGATTCGGCATTCTTTCAACGATGAGACTGATTGAACTGTCTAATCCGAATCATCCCCTGCTTCGAAAGATTTTAACGGAAACACCCGGTACATATCATCACAGCGTCATGGTGGCAAATCTGTCGGAAGCGGCTTGTGAAGCCGTAGGGGCAAACGGTCTTTTAGCACGGGTCGGAGCGTATTATCACGATCTCGGCAAAACGAAACGTCCGCAATATTTTATTGAAAATCAGATGAATATGGATAATCCGCATGACAAGCTGTCTCCGCAGCTCAGCAAAAATATCATTATCGCACATACGACAGACGGTGCGAATATGCTCAGAAGCTATAAGTTTCCGAAAGAGCTCGTGGATATCGCGGAGCAGCATCACGGAACGTCCCTTTTGAAATTCTTTTATTATAAAGCGAAAGAAAAGGGCGACCAGATTACTGAGAAAGAGTTCCGCTACCCGGGGCCGAAGCCGCAATCGAAAGAAGCGGCTATTATCTCAGTGGCCGACAGCGTTGAAGCCGCCGTCCGTTCCATGCATAATCCCAATCCCGAGCGGATCGAAAAACTGGTGCGGGGAATTATATCCGATAAGCTTCAGGACGGACAATTCTCAGAATGTGATCTCACGTTCCGAGAACTGGATACGATCGCAAAAACACTATGTGCGACGTTAAAAGGAATTTTCCACTCCCGGATTGAATATCCGGAGGCTACGAAGAAGGTGAAATAA	MKKKGKGKSARERFRSFRHARSAHVLLYLLLSAIMFGLLFIHVKPESLNLDLFAVSDKTIYAPATVEDQQATESKKQAAEDAVEDQYTLKKGYTDNRLDLITSIFDSIGEVKKDAEKDKKSPSEKSLVKSVKNKLTQDVNESVSEDAIKSLLHANNEDFSFVRDSVITAVNTVMSSEIPSEKLAEAKDKVAKELKSASVPSKYLAAATEIGKYAVIPNYVFDPKATDEKRQEASDSVQPVQIKQGQVLVEENDLIDREVYRKLELTGLLNNSNLLKPISGLLLMIGLFIATLVYYFEKQQQELKLKNKSLLLFSIITTLILVIMEVVSLFQKIEYTNIGYLVPIAAGAILIRLLLNERLAILGSIILAICGSMMFNQGVTGTFNYVIGIYYLISSISGILFLGKHNARSKILQAGLFVSFINMIIVLSLLLIQNTALSPVEIGTLMLMGAVSGLASSVLIIGLMPFFETGFGILSTMRLIELSNPNHPLLRKILTETPGTYHHSVMVANLSEAACEAVGANGLLARVGAYYHDLGKTKRPQYFIENQMNMDNPHDKLSPQLSKNIIIAHTTDGANMLRSYKFPKELVDIAEQHHGTSLLKFFYYKAKEKGDQITEKEFRYPGPKPQSKEAAIISVADSVEAAVRSMHNPNPERIEKLVRGIISDKLQDGQFSECDLTFRELDTIAKTLCATLKGIFHSRIEYPEATKKVK				NA	NA	NA	NA	NA
D1-12_01633	960		COG1702	PhoH-like protein	ATGGCAGAACATTTACTTGCGATTAATCACAAACTGAAAAGCCCGGACGAAGCACTTTCTTTGTTCGGCAGCCAAGATGCTTTTTTACATTTAATGGAGAAGGATCTGGGCATTAGCCTCATCACACGCGGTGAAACCATTTACGTTTCCGGGAATGATGAAACATTTGAGATCGCTGACAGATTATTGGGCTCGCTCCTTACTTTAATTCGCAAGGGGATCGAGATTTCGGAACGTGATGTGCTGTATGCCGTGAAAATGGCAAAAAAAGATGAACTGGACTATTTTGAAAGCATGTATGAAGAGGAAATAACGAAAACGGCAAAAGGCAAACCGATCCGTGTCAAAACCATCGGCCAAAGAGAATATGTGGCGGCGATGAAGAAAAACGACATGGTGTTCGGCATCGGGCCGGCGGGAACCGGCAAAACTTATTTGGCGGTCGTAAAAGCGGTGCATGCTTTAAAAAACGGCCACATTAAAAAAATCATTTTAACAAGACCCGCTGTGGAAGCCGGCGAGAGCCTCGGCTTTCTGCCCGGAGATTTAAAGGAAAAAGTAGATCCTTATCTGCGCCCGCTGTATGACGCGCTCCATGATGTGCTCGGAAGCGATCATACTGAGCGTCTTATGGAAAGAGGGGTTATCGAAATCGCCCCGCTTGCCTATATGAGAGGGCGGACGCTTGACGACGCGTATGTGATTCTTGATGAAGCCCAGAATACCACTCCCGCTCAAATGAAAATGTTTTTGACGAGATTGGGTTTTGGCTCTAAAATGATCATTACGGGCGACGTAAGCCAAATTGACCTGCCGAAAGGCGTCACATCGGGACTTGCAGTAGCGAAGGACATGCTGAAGGACGTAAACGGCATCTCCGTGATTGAACTTGACCAGACAGATGTGGTCAGGCATCCGCTTGTTGCAAAAATTATTGAAGCTTATGATAAGCAAAAGTAA	MAEHLLAINHKLKSPDEALSLFGSQDAFLHLMEKDLGISLITRGETIYVSGNDETFEIADRLLGSLLTLIRKGIEISERDVLYAVKMAKKDELDYFESMYEEEITKTAKGKPIRVKTIGQREYVAAMKKNDMVFGIGPAGTGKTYLAVVKAVHALKNGHIKKIILTRPAVEAGESLGFLPGDLKEKVDPYLRPLYDALHDVLGSDHTERLMERGVIEIAPLAYMRGRTLDDAYVILDEAQNTTPAQMKMFLTRLGFGSKMIITGDVSQIDLPKGVTSGLAVAKDMLKDVNGISVIELDQTDVVRHPLVAKIIEAYDKQK	PGPT0002700_3444	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
D1-12_01634	1185			hypothetical protein	GTGAAAAACAAATGGCTGTCATTTTTTTCGGGTAAAGTCCAAGTAGAAGTCAAAGGAAAAGGGATTGAACGGCTGCTGAATGAATGCACGAGAAACGGAATCGCCATCTTTGCGGTGAAAAAAAAGCAAGACTGTGTCCTGCTGATGATTCAGCTTCAGGATGTACATGCTTTCAGAAGAGTCATCAGAAAACATGAATGCAAAGCAAGCTTTACAAAAAGAAAGGGTCTTCCCTTTCTGCTTCTCAAATCAAAATTAAACCTGGGCTTCACTGCGGGATTTGTGATATTTTTTGTTATATTGTTTCTTTTGTCCAACATGATTTGGGAAATTGATATTAAAGGGGCCAAGCCCGAAACCGAGCATCAGATGGTAAAGCACCTTGAAGAAATCGGTGTGAAAAAAGGCCGTTTGCAATTTTTAATGATGACGCCGGAGAAAATTCAAAAATCATTAACAAACGGTATCGATAATATTACGTGGGTCGGTGTGGAATTGAACGGGACAGCCCTTCATATGAAAGTGGTCGAAAAAAACGAACCGACAAAAGAAAAGTACGTGAGCCCCCGTCATATCGTTGCCAAAAAGAAGGCGGTCATCAAAAGGATGTTCGTGCAAAAGGGGCAGCCGATGGCTTTTGTGAACGATCATGTTGACAAAGGACAGCTCCTCGTCTCAGGACTGATCGGAAATGAAGACCGGAAAGTCGCCTCAAAAGCGGAAATTTACGGAGAAACATGGTACAAGTCAGAAGTAACCGTGCCTCTTGAAACATCATTTACGCTATATACGGGTAAAGTAAGGACGAAGCACAAGCTGTCTTTCGGATCATGGGGCGTGCCTTTTTGGGGCTTTGAATTTAATGAGAAGCCGCTGAAACAGCCGAAAACAGAGGAAGAAAAGCATCCGTTTCAATTTCTGGGGATGAAGCTTCCGGTTTCTTACGTTCAAGAACAGACAAGAGAAAGTGAAACATCCGTGCGGACTTATACGAAAGGCGAAGCTGTTCAGGCCGGTATCAAAATGGGAAGACAAGATGTAGAAAAGCGATTAAACGGCAGCGGAGAGGTGGAAAGTGAAAAAGTTTTGCACCAATCCGTTGAGAATGGTAAAGTAAAGTTGATTATTCTCTACCAAGTTATAGAAGATATCGTTCAAACCACACCTATTGTTCAGGGAGACTAA	MKNKWLSFFSGKVQVEVKGKGIERLLNECTRNGIAIFAVKKKQDCVLLMIQLQDVHAFRRVIRKHECKASFTKRKGLPFLLLKSKLNLGFTAGFVIFFVILFLLSNMIWEIDIKGAKPETEHQMVKHLEEIGVKKGRLQFLMMTPEKIQKSLTNGIDNITWVGVELNGTALHMKVVEKNEPTKEKYVSPRHIVAKKKAVIKRMFVQKGQPMAFVNDHVDKGQLLVSGLIGNEDRKVASKAEIYGETWYKSEVTVPLETSFTLYTGKVRTKHKLSFGSWGVPFWGFEFNEKPLKQPKTEEEKHPFQFLGMKLPVSYVQEQTRESETSVRTYTKGEAVQAGIKMGRQDVEKRLNGSGEVESEKVLHQSVENGKVKLIILYQVIEDIVQTTPIVQGD	PGPT0024760_305	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024760-yqfD-K06438	NA	NA
D1-12_01635	282			hypothetical protein	ATGGGGCAAAGAAAGAATCGTGTAAAGGCATGGCTGACAAGAGCATTGGAAATTCCCCCGGACGTTATGATGGATCTGCCTCGTATTACGATGGTCGGCAGACTTCATATCTACATAGAGAATCACAGAGGCCTCCTGCTGTTCAGCGAAGAAGAAGTCAGGCTGATGCTCAAGCAGGGGCAATGTATCATATCAGGAAAAAACTTGGTCATTAAGGCAATCCTTCCTGAGGAAATTCTTTTGGAAGGCACGATAGATCACGTACGATATGTCGATTCATAA	MGQRKNRVKAWLTRALEIPPDVMMDLPRITMVGRLHIYIENHRGLLLFSEEEVRLMLKQGQCIISGKNLVIKAILPEEILLEGTIDHVRYVDS	PGPT0024990_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024990-yabP-NA	NA	NA
D1-12_01636	435			hypothetical protein	ATGCACGAGATTCTGACAAATCCGCTCGTCATTGCCGCCGTCATCGGCATTATATCGGCAATATTCGGCAAGAAAAACAAAGATGAAAAACGTCCGCCGGGTACACGTCCCGGAAATCAGGCAAAAAAGCAGGATCAAAAACAGCCGCAGAAAGAGCATAAGCCGGAAGCGGAAGAATTGCCTGCCGTTTCAAAAGAGAACCCTTTTGAGCAAAAAAGAAGGGAAGCTGAAAAGCGCCTAGCGGAGACGGAGCAGATGTTTAACGGGCTTGAACATAAGCTGACATCCGCACGCGCACGAAACGCGTCTCTGAAGAAATCAGCCCTCAAAATAAATAAAGAAACTGCGGTCCAAGGCATTATATTCAGTGAGGTTTTGGGTCCGCCCCGTGCAAAAAAACCGCACCGGACCATGCGGAACATCGGTAAAAAATAA	MHEILTNPLVIAAVIGIISAIFGKKNKDEKRPPGTRPGNQAKKQDQKQPQKEHKPEAEELPAVSKENPFEQKRREAEKRLAETEQMFNGLEHKLTSARARNASLKKSALKINKETAVQGIIFSEVLGPPRAKKPHRTMRNIGKK				NA	NA	NA	NA	NA
D1-12_01637	993			hypothetical protein	ATGGAACTGTCAAGTTTGGCGATTTTAGCATTAGTTGCTGCTGCCATTATTGTGTTAGCCATATTCTTCACCTTTGTACCGGTGATGCTATGGATTTCGGCGCTTGCGGCAGGAGTCAGAATCAGCATTTTCACTTTGGTCGGGATGAGGCTGCGGCGCGTCATACCAAGCCGCGTTGTCAATCCGTTAATTAAAGCGCATAAAGCCGGCCTATCCGCAACAACAAATCAGCTCGAAAGCCATTATCTGGCCGGAGGTAATGTCGACAGGGTGGTCAATGCCCTGATTGCGGCACAGCGTGCCAATATTGAACTGACATTTGAACGCTGCGCAGCCATTGACCTGGCTGGGCGTGACGTATTGGAAGCCGTACAGATGAGCGTCAATCCGAAGGTCATTGAAACACCGTTTATCGCGGGTGTCGCCATGGACGGAATTGAAGTAAAAGCAAAAGCCAGAATCACGGTAAGAGCCAATATTGAGCGCCTTGTCGGAGGAGCGGGAGAAGAGACGGTTGTCGCCCGTGTCGGAGAAGGGATTGTCTCGACAATCGGTTCTTCACACAATCATAAAAAAGTGCTTGAAAATCCTGATATGATTTCGCAGACCGTACTTGGCAAAGGGCTGGATTCAGGCACCGCATTTGAAATTCTTTCGATTGACATCGCCGACGTTGATATCGGCAAAAACATCGGAGCGATTCTTCAGACGGATCAGGCAGAAGCAGACAAAAACATTGCGCAGGCCAAAGCCGAAGAGCGCCGCGCCATGGCGGTCGCCCAAGAGCAGGAAATGCGCGCTCGCGTAGAAGAAATGCGTGCAAAAGTCGTGGAAGCAGAAGCCGAAGTGCCGCTTGCGATGGCAGAAGCGTTGCGTGAAGGAAACATCGGCGTCATGGACTATATGAACATAAAAAATATCGACGCGGATACGGACATGAGGGATTCTATCGGCAAGCTGACGAATGACCAGCAAGATGAAGACCAACAATAA	MELSSLAILALVAAAIIVLAIFFTFVPVMLWISALAAGVRISIFTLVGMRLRRVIPSRVVNPLIKAHKAGLSATTNQLESHYLAGGNVDRVVNALIAAQRANIELTFERCAAIDLAGRDVLEAVQMSVNPKVIETPFIAGVAMDGIEVKAKARITVRANIERLVGGAGEETVVARVGEGIVSTIGSSHNHKKVLENPDMISQTVLGKGLDSGTAFEILSIDIADVDIGKNIGAILQTDQAEADKNIAQAKAEERRAMAVAQEQEMRARVEEMRAKVVEAEAEVPLAMAEALREGNIGVMDYMNIKNIDADTDMRDSIGKLTNDQQDEDQQ				NA	NA	NA	NA	NA
D1-12_01638	1317			hypothetical protein	TTGTTCCGAAAAAAAACCGGAATTGCTGTTGCTCTATTGGGCTTATTTGTATTATCTTTATTAGGGGTTCAATTGAACGCGAAAGCTGATCATCCATCGGTTTATGTCATCCCGGTTGAGAAAAATGTCGAACAGGGGCTCGCCTCTTTTTTATCGCGTTCTTTCAAAGAAGCGAAGGAGTCCGGCGCGTCACACATTATTCTTGACATCAATACACCGGGAGGCGCCGTTCAATCAGCCTTGGATATTGCGGATATCATCGGCCGCGCGGATGTGCCTGTTACCGCTTACGTTAATAAACGGGCGCTTTCTGCCGGAGCGTATATAGCGCTTCAGGCAGATGAAATCTATATGGCGCCGGGCGGAAAAATGGGTGCCGCAGCCATCATCGACGGAAAAGGAAACGCGGCAGACAAAAAGGCTCAATCACTGTGGCATGCAGAAATGGAGGACGCAGCGGTTAAAAACAACCGAAATCCGAAATATGCGCTGGCCATGGCTGACCCCGCCATCAACGCAAAGGAAGCGGGCGCCCCAAAGGGAAAACTGCTGACACTGACAGCTGAAAAAGCCAAGGAAGTCGGATATTCGGAGGGCACGGTTTCAGACCTTGATGCTTTATATACAAAGCTCGGTTTTGACAAAGCGGATGTTCACCATGCAAAAGAAGGTTTCGTCGGCAAACTGGGCAGATGGCTGACAAATCCGTTTGTTGTCCCCGTCTTATTAACGCTTGCTTTGCTTGGTTTGACCATTGAATTGTTCTCGCCGGGCCTCGGGATACCGGGTGCTGTCGGACTGACGGCCATGCTGCTGTTTTTTACCGGGCATATCGCTGCCGGATTCGCCGGCTATGACAGCGTATTCTTATTTTGCGCGGGCTTGGTTTTTATCCTTTTAGAGATATTTCTGCCCGGAGGCATAATCGGTCTTATCGGTATTGCAGGCGTCATAGCGAGCCTCTTTCTCGCTGCGGGCAGCTTTACTGTAATGGCGGTTTCTCTCTTGATCGCCTTTGCTGTATCTATTACAGCCTTTATCATATTAACAAGGGTGTTGGGGAAACGAATGAAATTCTTTAAAAAATTAATATTAACTGATTCAACAAGCACGGAGAGCGGTTATGTTTCAAATCAGAACCGGACGGAGCTGTTGGGAAAAGTCGGCGTTACCGCTACAGCCCTCAGACCGTCAGGCACCGTCATTATTGATGATGAACGTCTGGATGTCGTCTCGGAAGGATCATTCACTGAAAAAGACAGACAGGTGAAAGTAGTGAAAGCGGAAGGCTCACGCATTGTCGTGAGAGAAATATAG	MFRKKTGIAVALLGLFVLSLLGVQLNAKADHPSVYVIPVEKNVEQGLASFLSRSFKEAKESGASHIILDINTPGGAVQSALDIADIIGRADVPVTAYVNKRALSAGAYIALQADEIYMAPGGKMGAAAIIDGKGNAADKKAQSLWHAEMEDAAVKNNRNPKYALAMADPAINAKEAGAPKGKLLTLTAEKAKEVGYSEGTVSDLDALYTKLGFDKADVHHAKEGFVGKLGRWLTNPFVVPVLLTLALLGLTIELFSPGLGIPGAVGLTAMLLFFTGHIAAGFAGYDSVFLFCAGLVFILLEIFLPGGIIGLIGIAGVIASLFLAAGSFTVMAVSLLIAFAVSITAFIILTRVLGKRMKFFKKLILTDSTSTESGYVSNQNRTELLGKVGVTATALRPSGTVIIDDERLDVVSEGSFTEKDRQVKVVKAEGSRIVVREI				NA	NA	NA	NA	NA
D1-12_01639	447	yqeY	COG1610	putative protein YqeY	ATGAGTCTTCTTGAGCGACTTAACCAAGATATGAAGCTGTATATGAAAAGCCGTGAGAAAGACAAACTGACTGTCGTTCGAATGGTGAAAGCTTCACTTCAAAACGAAGCAATTAAGCTTAAGAAAGACAGTTTGACCGAGGATGAGGAACTTACTGTCCTATCTCGTGAACTTAAGCAACGTAAAGACTCCCTCCATGAATTTTCAAACGCTAATCGTTTAGATTTAGTAGATAAAGTTCAAAAAGAGCTGGACATTTTAGAAGTTTATTTACCGAAGCAGCTTTCTGAAGAAGAGCTGCAGACAATCGTAAATGAAACCATCACTGAAGTCGGTGCGAGCTCCAAAGCGGACATGGGCAAAGTGATGAGTGCTATTATGCCTAAAGTAAAAGGTAAAGCTGACGGCAGCGTAATTAACAGACTTGTCAGCAGTCAATTATCTTAA	MSLLERLNQDMKLYMKSREKDKLTVVRMVKASLQNEAIKLKKDSLTEDEELTVLSRELKQRKDSLHEFSNANRLDLVDKVQKELDILEVYLPKQLSEEELQTIVNETITEVGASSKADMGKVMSAIMPKVKGKADGSVINRLVSSQLS	PGPT0030490_1834	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
D1-12_01640	174	rpsU	COG0828	30S ribosomal protein S21	ATGTCAAAAACGGTCGTTAGAAAAAACGAATCGCTTGAAGATGCTCTTCGTCGCTTCAAACGCAGTGTATCAAAGACAGGTACTTTGCAAGAAGCAAGAAAGCGCGAATTTTATGAAAAACCTAGCGTAAAGCGCAAGAAAAAGTCAGAAGCTGCTAGAAAACGCAAATTCTAA	MSKTVVRKNESLEDALRRFKRSVSKTGTLQEARKREFYEKPSVKRKKKSEAARKRKF				NA	NA	NA	NA	NA
D1-12_01641	936			hypothetical protein	GTGTTTCATTTGATGATACTGATTCTCTTTACCGCACTTATCCTGATTTTTTTACTCGGAATGAGCCTGCTCAGGCAGGGGCTGATCGCATTAACGTATTCAAAAATTGAGAAGAGCCTGCTCTTATTTACCGACCACCCTTTGAAAGCTTTTCTCATAAGCATCATATTCACTGGTTTTCTTCAGAGCAGCTCAGCCTTCATGGTCATTGTCATCGGCTTTGTCAGCGCAGGCGCTTTATCTTTTAAACGGACCATTCCGATGATTCTCGGCACGAATGTCGGCTCCACGTTTACGACGGAGTTTTTAGCCATAAAGATGGATGTGCTCATTTGGGTGCTTTTTATCGGAGGCCTTGTGTTTATCCTCATCCGTAAATATCCGTTCAGGCAGATCGGCATAAGCTTCCTCGGTCTCGGCATCATCTTTTTTTGCATCACATGCTTCAGCCGGCTCGCCGTTCCGCTGACAGAAATGAAGGCGGGGGCGGAGGTTTTGCGCCATGTGAATGATTCGAGCTGGTCCGCTCTTTTTATCGGTATGATATTGACGGCAATCATTCATTCAAGCTCCGTCTGCATCGGCATTTTGATGAGTTTTATGAACGAAGGGGTGATCGGCATTGAACAAGCGGTCAGCGTCGTTCTGGGATCTAATATCGGGACATGCGTCACGGCCGTCATGGCTGCTGTTTCAGGCGGTTATGCCGCCAGACAGACCGCCGGTGCTCACGTTGTGTTTAATATTCTCGGCGTGCTGCTCGTATTTCCCTTCCTGTCCGCATCAGCAGGTTTTACGGAGCGCCTGTCTGATGATCCCGCGCAGATGATTGCGCATTTCAGCCTGTTATTTAACGTAGTCACCGCCCTATTGTTTCTGCCGTTCACACATTTGTTTTACCGGCTGATTGACAGGCTGATTCCTCCGAAACCGTAA	MFHLMILILFTALILIFLLGMSLLRQGLIALTYSKIEKSLLLFTDHPLKAFLISIIFTGFLQSSSAFMVIVIGFVSAGALSFKRTIPMILGTNVGSTFTTEFLAIKMDVLIWVLFIGGLVFILIRKYPFRQIGISFLGLGIIFFCITCFSRLAVPLTEMKAGAEVLRHVNDSSWSALFIGMILTAIIHSSSVCIGILMSFMNEGVIGIEQAVSVVLGSNIGTCVTAVMAAVSGGYAARQTAGAHVVFNILGVLLVFPFLSASAGFTERLSDDPAQMIAHFSLLFNVVTALLFLPFTHLFYRLIDRLIPPKP	PGPT0002650_2242	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
D1-12_01642	1356	mtaB	COG0621	Threonylcarbamoyladenosine tRNA methylthiotransferase MtaB	ATGGCAACTGTTGCTTTTCATACCCTTGGCTGCAAGGTCAACCATTATGAAACAGAAGCAATCTGGCAGCTGTTTAAAGATGCGGGTTATGAACGAAAAGAATTCGAACAGACAGCAGATGTATATGTCATTAATACATGTACGGTAACAAACACGGGAGATAAAAAAAGCCGTCAAGTCATCAGACGGGCGATCCGCCAAAATCCTGACGGCGTCATCTGCGTAACAGGGTGCTATGCGCAAACCTCTCCGGCAGAAATTATGGCCATCCCGGGTGTTGACATCGTCGTCGGCACGCAGGATCGTGAAAAAATGCTCGGTTACATTGAGCAGTACAGGGAAGAGCGCCAGCCGATCAACGGCGTCGGCAATATTATGAAAGCACGCGTGTTTGAAGAGCTGGATGTTCCCGCTTTTACTGACCGCACAAGAGCGTCGTTAAAAATCCAAGAGGGCTGCAACAACTTCTGTACGTTCTGCATTATCCCTTGGGCGCGCGGCCTGCTTCGTTCCCGCGATCCGGAAGAAGTCATTAAACAGGCGCAGCAGCTGGTGGATGCCGGCTATAAAGAAATCGTCCTGACGGGGATTCATACGGGCGGCTACGGCGAAGATATGAAAGATTATAATTTCGCCAAGCTTCTCCGCGAGCTTGATACACGTGTAGAAGGACTGAAGCGGATCAGAATTTCATCTATTGAAGCAAGCCAAATCACTGATGAAGTGATTGAAGTGCTGGATGCGTCTGATAAAATCGTCCGCCACCTTCATATCCCGATTCAGTCAGGATCAAACACCGTTCTGAAACGGATGAGACGCAAATATACGATGGAATTTTTCGCGGACCGTTTAAATAAGCTGAAAGAAGCGCTGCCGGGTCTGGCCGTCACATCTGATGTCATCGTCGGTTTCCCGGGTGAAACGGAAGAAGAATTTATGGAAACATACCGGTTCATTAAAGAACATAAGTTTTCAGAGCTTCACGTATTCCCTTACAGCAAACGCACCGGAACACCTGCGGCCAGAATGGAAGACCAGGTTGACGAGAACGTGAAAAACGAACGGGTGCATAAGCTGATCGCGCTGTCTGACCAGCTTGCAAAAGAATACGCCTCCGATTATGAAGGAGAGGTTCTGGAAATCATTCCGGAAGAGGCGTTTAAAGAGTCTGATGAAGACGGCATGTTCGTCGGCTATACGGACAATTACATGAAAGTCGTCTTCAAAGGCACGGAGGATGTAATCGGCAAACTTGTCAAAGTCAAAATTCAAAAAGCGGGCTATCCGTATAACGAAGGACAATTCGTCCGTGTCGTTGAGGATGAAATGACCCGGAACATGCGCATGTCTTCATAA	MATVAFHTLGCKVNHYETEAIWQLFKDAGYERKEFEQTADVYVINTCTVTNTGDKKSRQVIRRAIRQNPDGVICVTGCYAQTSPAEIMAIPGVDIVVGTQDREKMLGYIEQYREERQPINGVGNIMKARVFEELDVPAFTDRTRASLKIQEGCNNFCTFCIIPWARGLLRSRDPEEVIKQAQQLVDAGYKEIVLTGIHTGGYGEDMKDYNFAKLLRELDTRVEGLKRIRISSIEASQITDEVIEVLDASDKIVRHLHIPIQSGSNTVLKRMRRKYTMEFFADRLNKLKEALPGLAVTSDVIVGFPGETEEEFMETYRFIKEHKFSELHVFPYSKRTGTPAARMEDQVDENVKNERVHKLIALSDQLAKEYASDYEGEVLEIIPEEAFKESDEDGMFVGYTDNYMKVVFKGTEDVIGKLVKVKIQKAGYPYNEGQFVRVVEDEMTRNMRMSS				NA	NA	NA	NA	NA
D1-12_01643	771	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCAACGATATTTTATCGAGCTCACGAAGCAGGAGATGGACGAAACTCCTGATTTTCAAATCACGGGGGAAGACGTCCACCATATAGCGAACGTCATGAGAATGAGTGCGGGAGACCGGATTATCTGCTGTTCGAAAGACGGCCATGAAGCGTTATGCCTGCTTAAAGAGGTTTCTAAAGATCATATATCATGCAGCATTGCTGAGTGGACGGGTGAAAACCGTGAACTGCCTTTGAAGATCAGGATCGCAAGCGGCCTCCCGAAAGGCGATAAGCTTGAATGGATTATCCAAAAAGGGACCGAGCTGGGGGCAAGTATGTTCATCCCTTTTCAAGGCGCCAGATCCGTCGTTAAGCTTGACGACAAAAAGGCAAAGAAAAAACGGGAGAGATGGGCGAAAATCGCGAAGGAAGCGGCGGAGCAATCGTACCGCAATGAAATTCCCGAAGTGAAAACCGTTTATACGTTCCGGCAGCTGCTTGAAATGGCGGAGAATGTCGATAAATGTGTCGTTGCATACGAGGAGTCATCAAAGCAGGGAGAAACGGGCGCTTTCGCCGCGGAGCTCAAAAGCCTTCCGCAAGGTTCGTCTCTTTTAATCGTATTCGGCCCTGAAGGCGGTCTGACTGAGTCTGAAGTTCATCAGCTTTCAGAAAAAGGCGCCGTCTTATGCGGCCTCGGACCGAGAATTTTACGGACTGAAACTGCGCCTCTTTACGCGTTAAGCGCAGTTTCCTATCATACAGAGTTATTAAGAGGTGATCAGTAA	MQRYFIELTKQEMDETPDFQITGEDVHHIANVMRMSAGDRIICCSKDGHEALCLLKEVSKDHISCSIAEWTGENRELPLKIRIASGLPKGDKLEWIIQKGTELGASMFIPFQGARSVVKLDDKKAKKKRERWAKIAKEAAEQSYRNEIPEVKTVYTFRQLLEMAENVDKCVVAYEESSKQGETGAFAAELKSLPQGSSLLIVFGPEGGLTESEVHQLSEKGAVLCGLGPRILRTETAPLYALSAVSYHTELLRGDQ				NA	NA	NA	NA	NA
D1-12_01644	936	prmA	COG2264	Ribosomal protein L11 methyltransferase	TTGAAATGGTCCGAAATCAGCATTCACACAACACATGAAGCGGTCGAACCCATCTCAAATATTTTGCATGAAGCTGGTGCGAGCGGGGTTGTCATCGAAGATCCGCTTGATTTAATGAAAGAGCGTGAGAATGTTTACGGGGAAATCTACCAGCTCGACCCCAATGATTACCCCGATGAGGGTGTCATTGTCAAAGCGTATCTGCCGATCAACAGTTTCCTCGGCGAAACGGTGGACGGCATTAAAGAGACGATTAACAATCTGCTTTTGTACGACATTGATTTGGGCAGAAACAAAATCACCATTTCTGAAGTTAATGAAGAAGAATGGGCGACAGCTTGGAAAAAGTATTATCATCCTGTGAAAATTTCTGAAAAGTTCACGATCGTTCCCACATGGGAAACGTATACACCTGTTCATACAGATGAACTGATTATCGAAATGGACCCGGGTATGGCATTCGGTACGGGAACGCATCCGACAACGGTTTTATGCATTCAGGCGCTTGAGCGTATCGTTCAAAAAGGCGACCGTATCATTGATGTCGGCACCGGTTCAGGAATTTTAAGCATCGCGGCCGCCATGCTTGAGGCCGAATCGGTTCATGCGTATGACCTTGATCCGGTCGCTGTTGAAAGCGCGCGTCTGAATCTGAAATTGAACAAAGTGAGTGATACGGCCGAAGTGAAGCAGAACAATTTGTTAGACGGCATCACGGGCGAACATGATGTCATTGTCGCAAATATTTTGGCGGAAGTGATTCTCCGCTTTACATCACAGGCGTACGACCTGCTCAAAGACGGAGGCCATTTTATTACTTCAGGCATTATCGGCCAGAAAAAACAGGAAGTAAAAGAAGCGTTGGAAAAAGCCGGCTTTACCATCATAGAAATTCTGTCTATGGAAGATTGGGTCAGCATCATCGCGAAAAAATAA	MKWSEISIHTTHEAVEPISNILHEAGASGVVIEDPLDLMKERENVYGEIYQLDPNDYPDEGVIVKAYLPINSFLGETVDGIKETINNLLLYDIDLGRNKITISEVNEEEWATAWKKYYHPVKISEKFTIVPTWETYTPVHTDELIIEMDPGMAFGTGTHPTTVLCIQALERIVQKGDRIIDVGTGSGILSIAAAMLEAESVHAYDLDPVAVESARLNLKLNKVSDTAEVKQNNLLDGITGEHDVIVANILAEVILRFTSQAYDLLKDGGHFITSGIIGQKKQEVKEALEKAGFTIIEILSMEDWVSIIAKK				NA	NA	NA	NA	NA
D1-12_01645	1128	dnaJ		Chaperone protein DnaJ	ATGAGTAAGCGTGATTACTATGAAGTGCTTGGGGTAAGTAAGAGCGCTTCAAAGGATGAAATCAAAAAAGCCTATCGGAAGCTTTCAAAAAAATATCATCCTGATATCAATAAAGAATCCGGAGCAGATGAAAAATTCAAAGAGGTAAAAGAAGCGTACGAAGCGCTCTCAGACGACCAAAAACGCGCTCAATATGACCAATTCGGCCATACAGACCCTAACCAGGGATTCGGCGGCGGTTTCGGAGGCGGCGGAGACTTCGGCGGCTTCGGTTTCGATGACATCTTCTCAAGCATCTTCGGAGGCGGCACGAGACGCCGTGACCCGAATGCGCCGCGGCAAGGCGCGGATCTGCAGTATACAATGACCCTGTCATTTGAAGACGCGGCTTTCGGAAAAGAAACGATCATTGAAATTCCGCGCGAAGAGAATTGCGAAACATGTAAAGGGTCTGGCGCGAAGCCGGGAACAAAGCCGGATACGTGCTCGCACTGCGGAGGTTCAGGCCAGCTGAACGTCGAACAGAACACGCCGTTTGGCAAAGTGGTTAACCGAAGAGTCTGCCACCACTGTGAAGGAACAGGAAAAATCATCAAAAACAAGTGTTCTGACTGCGGCGGCACGGGCAAAGTGAAAAAACGGAAAAAAATCAATGTCACGATTCCTGCCGGTGTGGACGACGGACAGCAGCTGCGCGTTCCGGGCCAAGGTGAACCGGGCGTAAACGGAGGGCCGGCGGGAGATCTGTTTGTCGTATTCCATGTGCGCGCCCACGAGTTCTTTGAGCGCGACGGAGACGATATTTATTGCGAAATGCCGTTAACGTTTGCCCAAGCGGCACTCGGAGACGAAGTGGAAGTGCCGACGCTTCACGGAAAAGTGAAATTGAAAATACCTGCCGGCACACAAACCGGCACGAAATTCAGATTAAGAGGCAAAGGCGTTCAGAACGTCCGGGGCTACGGACAAGGCGACCAGCACATTGTCGTCCGCGTCGTCACACCGACGAATCTGACAGATAAACAAAAAGACATCATCCGCGAATTCGCTGAAGTCAGCGGAAACCTGCCGGATGAACAAGAAATGAGTTTCTTTGACAAAGTAAAACGCGCATTTAAAGGCGAGTAA	MSKRDYYEVLGVSKSASKDEIKKAYRKLSKKYHPDINKESGADEKFKEVKEAYEALSDDQKRAQYDQFGHTDPNQGFGGGFGGGGDFGGFGFDDIFSSIFGGGTRRRDPNAPRQGADLQYTMTLSFEDAAFGKETIIEIPREENCETCKGSGAKPGTKPDTCSHCGGSGQLNVEQNTPFGKVVNRRVCHHCEGTGKIIKNKCSDCGGTGKVKKRKKINVTIPAGVDDGQQLRVPGQGEPGVNGGPAGDLFVVFHVRAHEFFERDGDDIYCEMPLTFAQAALGDEVEVPTLHGKVKLKIPAGTQTGTKFRLRGKGVQNVRGYGQGDQHIVVRVVTPTNLTDKQKDIIREFAEVSGNLPDEQEMSFFDKVKRAFKGE	PGPT0014545_4423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
D1-12_01647	1839	dnaK	COG0443	Chaperone protein DnaK	GTGAGTAAAGTAATCGGAATTGACTTGGGTACGACAAACTCATGTGTGGCAGTGCTTGAAGGCGGAGAGCCTACAGTCATCGCCAACGCTGAAGGAAACCGTACGACTCCGTCAGTCGTTGCATTTAAAAACGGCGAGCGCCAAGTAGGGGAAGTGGCGAAACGCCAATCAATCACAAATCCTAACACAATCATGTCTGTTAAACGCCATATGGGTACTGACTATAAAGTGGAAATCGAAGGAAAAGACTACACGCCTCAAGAAGTGTCAGCTATTATCCTTCAGCATCTGAAAGCATATGCTGAAAGCTACCTCGGCGAAACAGTTTCAAAAGCCGTTATCACGGTTCCTGCATACTTCAACGATGCAGAGCGCCAAGCGACAAAAGATGCCGGTAAAATCGCCGGTCTTGAAGTAGAGCGTATTATCAACGAGCCGACTGCAGCAGCGCTTGCATACGGACTTGATAAAACGGACGAAGACCAAACAATTCTTGTTTACGACCTTGGCGGCGGTACGTTTGATGTATCTGTTCTTGAACTTGGCGACGGCGTGTTTGAAGTCCGTTCAACTGCCGGTGACAACCGTCTTGGCGGGGACGACTTTGACCAAGTCATCATCGATCATCTCGTAGCAGAATTCAAAAAAGAAAACGGCATTGATCTTTCAAAAGACAAAATGGCGCTTCAGCGTTTGAAAGATGCGGCTGAGAAAGCGAAAAAAGATCTTTCCGGCGTATCATCCACACAAATTTCTTTACCGTTTATCACGGCGGGAGAAGCAGGTCCGCTTCACCTTGAGCTGACACTGACCCGCGCTAAATTCGAAGAGCTTTCCGCTCACCTTGTTGAGCGCACAATGGCTCCTGTCCGTCAGGCTCTTCAAGATGCGGATCTTTCTGCAAGCGAAATCGACAAAGTTATCCTTGTCGGCGGATCAACACGTATTCCTGCCGTACAGGAAGCAATCAAAAAAGAAACGGGTAAAGAAGCGCATAAAGGCGTAAACCCTGATGAAGTTGTAGCGCTGGGTGCAGCGATTCAAGGCGGCGTCATCACGGGAGACGTAAAAGACGTTGTTCTTCTTGACGTTACACCGCTTTCTCTCGGTATTGAAACAATGGGCGGCGTGTTCACGAAACTGATCGACCGCAACACGACAATTCCGACGAGCAAGTCTCAAGTATTCTCAACCGCTGCTGACAACCAAACGGCTGTTGACATTCACGTGCTTCAAGGTGAGCGCCCGATGTCTGCCGACAACAAAACGCTCGGCCGCTTCCAGCTTACTGATATCCCGCCGGCACCGCGCGGCGTACCGCAAATCGAAGTTTCTTTCGATATTGACAAAAACGGTATCGTAAACGTAAGAGCGAAAGACTTAGGCACAGGAAAAGAACAAAACATTACTATCAAATCTTCTTCAGGTCTTTCTGATGATGAGATCGAACGCATGGTAAAAGAAGCGGAAGAAAACGCTGACGCTGATGCGAAGAGAAAAGAAGAAATCGAAGTCCGCAACGAAGCTGACCAGCTTGTGTTCCAAACGGAAAAAACATTAAAAGATCTGGAAGGCAAAGTGGACGAAGAGCAAGTGAAAAAAGCAAACGACGCGAAAGACGCGCTGAAAGCCGCTATCGAGAAAAACGAAATTGAAGACATCAAAGCGAAAAAAGATGAGCTTCAAACAATCGTTCAAGAGCTTTCTATGAAGCTTTATGAAGAAGCTGCAAAAGCGCAGCAGGCTGAAGGCGGAGCAAACGCTGAAGGCAAAAAAGCGGACGACAACGTTGTCGATGCGGAATACGAAGAAGTAAATGACGACGAAACGAAAAAATAA	MSKVIGIDLGTTNSCVAVLEGGEPTVIANAEGNRTTPSVVAFKNGERQVGEVAKRQSITNPNTIMSVKRHMGTDYKVEIEGKDYTPQEVSAIILQHLKAYAESYLGETVSKAVITVPAYFNDAERQATKDAGKIAGLEVERIINEPTAAALAYGLDKTDEDQTILVYDLGGGTFDVSVLELGDGVFEVRSTAGDNRLGGDDFDQVIIDHLVAEFKKENGIDLSKDKMALQRLKDAAEKAKKDLSGVSSTQISLPFITAGEAGPLHLELTLTRAKFEELSAHLVERTMAPVRQALQDADLSASEIDKVILVGGSTRIPAVQEAIKKETGKEAHKGVNPDEVVALGAAIQGGVITGDVKDVVLLDVTPLSLGIETMGGVFTKLIDRNTTIPTSKSQVFSTAADNQTAVDIHVLQGERPMSADNKTLGRFQLTDIPPAPRGVPQIEVSFDIDKNGIVNVRAKDLGTGKEQNITIKSSSGLSDDEIERMVKEAEENADADAKRKEEIEVRNEADQLVFQTEKTLKDLEGKVDEEQVKKANDAKDALKAAIEKNEIEDIKAKKDELQTIVQELSMKLYEEAAKAQQAEGGANAEGKKADDNVVDAEYEEVNDDETKK	PGPT0014555_5718	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
D1-12_01648	576	grpE	COG0576	Protein GrpE	ATGTCAGAAGAAAAACAAACCGCAGAACAGGTTGAAGCAGCAGAACAAGAAGAAGTGACAGAACAGGCAGAACAAGCCGCTTCACAAGAGCAGCATGAAGAAACGGCAGGTCAGGAAGAAGCCCTTCAGCACCAAATTGATGAATTGCAGGGTTTGCTTGATGAAAAAGAAAACAAGCTTTTGCGTGTTCAAGCAGACTTTGAAAACTATAAACGACGCAGCCGCCTTGAAATGGAAGCTGCCCAGAAATACCGTTCTCAAAACGTCGTAACGGAAATCCTTCCGGCTCTCGACAACTTTGAACGGGCGTTACAGGTAGAAGCTGAAAGCGAGCAGACAAAAAGCTTGCTGCAAGGTATGGAAATGGTCCGCCGCCAGCTGATGGACGCACTTGAAAAAGAAGGCGTTGAAGCCATCGAAGCTGTCGGTCAGGAATTTGATCCGAACCTTCACCAAGCCGTCATGCAGGTGGAAGATGAAAACTTCGGCAGCAATATTGTTATCGAAGAACTGCAAAAAGGCTACAAACTGAAGGATCGCGTCATCCGTCCTTCAATGGTAAAAGTGAATCAATAA	MSEEKQTAEQVEAAEQEEVTEQAEQAASQEQHEETAGQEEALQHQIDELQGLLDEKENKLLRVQADFENYKRRSRLEMEAAQKYRSQNVVTEILPALDNFERALQVEAESEQTKSLLQGMEMVRRQLMDALEKEGVEAIEAVGQEFDPNLHQAVMQVEDENFGSNIVIEELQKGYKLKDRVIRPSMVKVNQ	PGPT0014650_4214	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
D1-12_01649	1032	hrcA	COG1420	Heat-inducible transcription repressor HrcA	ATGTTAACAAATCGTCAGCTGTTGATCCTGCAAGTAATAATTAATGATTTTATACAATCAGCGCAGCCTGTAGGATCAAGAACTCTTTCAAAAAAAGACGAGATTACATTCAGCTCTGCAACGATCAGAAACGAGATGGCTGACTTGGAGGAATTGGGCTTTATTGAAAAAACCCATTCATCCTCAGGACGGATTCCGTCGGAAAAAGGGTACAGGTATTATGTCGATCATTTGCTGTCACCCGTCAAGCTGACAAAAACCGATCTGGATTTAATTCACTCGATATTTAAAGAAAAAATCTTCGAGCTGGAAAAAACAGTCCAAAAATCAGCGCAAATCCTGTCCGACCTGACAAACTACACATCGATTGTCCTCGGGCCGACGCTGAGCGAGAACTATCTTAAACAGATTCAAATCGTTCCGATCCAGCCGGATAAGGCGGTCGCCATCCTCGTCACGAACACGGGGCATGTCGAAAACCGCACCATCAATTTCCCGGCTAAAGTGGATTTGGCCGATATTGAAAAACTGGTCAATATATTAAACGATCGATTAGCGGGCGTGCCGATGGACGAACTGAATGAGCGCATTTTTAAAGAGGTTGTTACATATTTAAGGCAGCATATCGCCAACTATGACAGCATACTTGAATCGCTCCGCTCCACATTCCATCCGGCGGCCCACGTTGAGAAATTGTTTTTCGGCGGAAAGATCAACATGCTGAATCAGCCGGAGTTCCATGATATTGAAAGGGTCCGCTCGCTCTTATCTTTAATTGAAAAAGAGCAGGATGTTCTGAAGCTGTTTCAGTCATCAAAAGCCGGGATTTCAATCAAAATCGGGAAAGAAAACGACTACGAAGAAATGGAAAACTGCAGCTTAATCACGGCCACTTATACAGTTGATACGAAACAGATCGGATCAATCGCGATTATCGGGCCGACGCGCATGGATTATTCAAGAGTCGTCAGCCTGCTGCAGCACGTGACTTCGGACTTGTCAAAAGCATTCACAAGTTTGTATGATGAATAA	MLTNRQLLILQVIINDFIQSAQPVGSRTLSKKDEITFSSATIRNEMADLEELGFIEKTHSSSGRIPSEKGYRYYVDHLLSPVKLTKTDLDLIHSIFKEKIFELEKTVQKSAQILSDLTNYTSIVLGPTLSENYLKQIQIVPIQPDKAVAILVTNTGHVENRTINFPAKVDLADIEKLVNILNDRLAGVPMDELNERIFKEVVTYLRQHIANYDSILESLRSTFHPAAHVEKLFFGGKINMLNQPEFHDIERVRSLLSLIEKEQDVLKLFQSSKAGISIKIGKENDYEEMENCSLITATYTVDTKQIGSIAIIGPTRMDYSRVVSLLQHVTSDLSKAFTSLYDE				NA	NA	NA	NA	NA
D1-12_01650	1140	hemW	COG0635	Heme chaperone HemW	ATGAAATCAGCTTATATTCATATCCCGTTTTGTGAGCATATCTGCCACTATTGCGATTTCAATAAATATTTTATTCAGAGCCAGCCTGTCGATGAGTACTTAAACTCACTCGAAAAGGAAATGATAAATACAATAGAACGGACGGGACGCCCTGATCTCCGTACGATTTTTATCGGGGGAGGCACGCCGACATCGCTCTCACCCGTCCAGCTGGAAAAATTGATGGATTCCATTCACCGCGTGCTGAAGCCTTCTGACGGACTCATAGAATTTGCCGCGGAAGCGAATCCGGATGATTTGTCCCCGGAAAAATTAAAAATCATGAAAAATGCCGGTGTCAACCGGCTGAGCTTCGGTGTTCAAACCTTTGAAGATGAGCTTTTACAAAAAATCGGCAGAGTGCATAAACAAAAGGACGTATTCACTTCCTTTGAACGTGCGAGGGCTCTCGGCTTCGACAACATCAGTCTCGATTTGATGTTCGGCCTGCCGGGTCAGACGCTGGCCGATCTTGACAATTCCGTCAAAACGGCTTTGTCTCTTGATGCGGAGCACTATTCCGTTTACTCGCTGATCGTAGAGCCGAAAACGGTGTTTTATAATTTAATGCAAAAAGGCCGCCTGCATCTCCCGGCGCAAGAACAAGAGGCCGAGATGTATGAAACGGTCATGAGGCAGATGAGTGAAGCGGGCATCCGTCAATACGAGATCAGTAACTTTGCAAAGCCAGGATACGAGTCACAGCATAATCTGACGTATTGGAGCAATGAAGCGTATTTCGGTTTTGGCGCAGGCGCTCACGGGTATATCAGCGGCACGCGCACCGTCAACGCCGGGCCTGTGAAACATTATATTCAGCTCGTCGAAGAAAAGGGGCTGCCTTACCGTGATACGCACGAGGTGACACGGGAGGAGCAGATTGAAGAAGAAATGTTCCTCGGTCTCAGAAAAATGTCCGGCGTACAAAAGCAAGCTTTTCTCGATAAATTCGGACGCTCGGTCGACGAACTGTTTCCCGATGTTCTCAAAGATTTAACCGAAAAAGGCCTGATCTGTGACACGGAAGAATCGGTTGCATTAACGCATGAGGGCAAATTATTAGGAAATGAGGTTTTTGGCGCTTTTTTGGGTGAGTTATAA	MKSAYIHIPFCEHICHYCDFNKYFIQSQPVDEYLNSLEKEMINTIERTGRPDLRTIFIGGGTPTSLSPVQLEKLMDSIHRVLKPSDGLIEFAAEANPDDLSPEKLKIMKNAGVNRLSFGVQTFEDELLQKIGRVHKQKDVFTSFERARALGFDNISLDLMFGLPGQTLADLDNSVKTALSLDAEHYSVYSLIVEPKTVFYNLMQKGRLHLPAQEQEAEMYETVMRQMSEAGIRQYEISNFAKPGYESQHNLTYWSNEAYFGFGAGAHGYISGTRTVNAGPVKHYIQLVEEKGLPYRDTHEVTREEQIEEEMFLGLRKMSGVQKQAFLDKFGRSVDELFPDVLKDLTEKGLICDTEESVALTHEGKLLGNEVFGAFLGEL	PGPT0003200_3183	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
D1-12_01651	1836	lepA		Elongation factor 4	GTGACAGATAAAGAAAAGCGTTTAGAGAGGCAGTCAAGAATCCGGAATTTCTCCATCATCGCCCACATAGACCACGGCAAATCGACCTTGGCGGATCGGATTTTAGAAAAAACATCGGCGATCACCCAGCGGGAAATGAAAGAACAATTGCTTGATTCAATGGACCTTGAACGCGAACGGGGAATTACCATCAAATTAAATTCCGTTCAGCTGAAATACAAAGCAAAAGACGGAGAAGAATATATATTCCATCTCATCGACACGCCCGGACACGTCGACTTTACATATGAAGTATCGCGAAGCCTGGCTGCCTGTGAAGGCGCGATTCTCGTTGTTGATGCGGCTCAGGGAATAGAAGCGCAGACATTGGCGAACGTCTATCTGGCGCTTGATAATGATCTTGAGATTCTTCCTGTCATTAATAAAATCGATCTTCCGAGCGCAGAGCCAGAACGTGTGCGTCAAGAGGTTGAGGACGTTATCGGCCTTGACGCTTCAGACGCCGTCCTCGCTTCAGCGAAAGCGGGCATCGGCATCGAAGACATTTTAGAGCAGATCGTAGAAAAAGTGCCGGCTCCTGCGGGAGATCCGGAAGCTCCGCTGAAAGCGCTCATCTTTGACTCGCTTTATGACGCGTACCGCGGAGTCGTCGCGTATATCAGAGTCGTAGAAGGAACGGTCAAACCGGGCCAGAAAATTAAAATGATGGCAACCGGAAAAGAGTTTGAAGTGACAGAAGTCGGTGTGTTCACGCCGAAAGCAACTCCGACAGATGAACTGACCGTCGGCGATGTCGGCTTTTTAACTGCTGCGATCAAAAATGTCGGTGACACACGCGTCGGTGACACGATAACAAGCGCGGCCAATCAGGCTGCCGAAGCATTGCCTGGATATCGTAAGCTGAACCCGATGGTGTATTGCGGTTTGTATCCGATCGATACGGCCAAATACAACGATTTAAGGGAAGCTCTTGAGAAGCTTGAACTGAATGACTCATCGCTTCAATATGAAGCAGAGACATCCCAAGCGCTCGGATTCGGTTTCCGCTGCGGATTTTTAGGTATGCTTCACATGGAAATCATTCAGGAGCGGATTGAGCGTGAGTTTAAAATCGACCTGATCACAACGGCACCGAGTGTTATCTATGATGTGTATATGACAGACGGCGAAAAGGTTGTTGTCGACAACCCGTCCAACATGCCTGACCCGCAAAAGATCGAAAGAATCGAGGAGCCGTATGTAAAAGCGACAATGATGGTGCCGAACGATTATGTCGGTGCGGTGATGGAGCTTTGCCAAGGAAAACGCGGCAATTTTATCGACATGCAATATTTAGACGCAAATCGTGTCAGCATTGTCTATGACATGCCATTAGCGGAAATCGTCTATGAGTTTTTTGATCAGCTGAAATCAAGCACAAAAGGCTACGCGTCCTTTGATTACGAACTGATCGGCTACAAACCGTCTAAACTTGTCAAGATGGACATTATGCTGAACGGAGAAAAAATCGACGCGCTGTCATTTATCGTGCATCGCGATTACGCGTACGAACGCGGAAAAGTAATTGTGGAAAAACTGAAAGAGCTTATTCCGCGCCAGCACTTTGAAGTACCGATTCAAGCAGCGATCGGACAGAAAATCGTGGCCCGCTCGACCATTAAGGCCATGCGGAAAAACGTCCTTGCAAAATGTTACGGAGGAGACATCTCGCGGAAACGGAAGCTTCTTGAAAAACAAAAAGAAGGAAAACGCCGGATGAAGCAGGTCGGCTCAGTAGAAGTGCCGCAGGAAGCGTTTATGGCCGTTCTTAAAATGGATGACAGCCCGAAAAAATAA	MTDKEKRLERQSRIRNFSIIAHIDHGKSTLADRILEKTSAITQREMKEQLLDSMDLERERGITIKLNSVQLKYKAKDGEEYIFHLIDTPGHVDFTYEVSRSLAACEGAILVVDAAQGIEAQTLANVYLALDNDLEILPVINKIDLPSAEPERVRQEVEDVIGLDASDAVLASAKAGIGIEDILEQIVEKVPAPAGDPEAPLKALIFDSLYDAYRGVVAYIRVVEGTVKPGQKIKMMATGKEFEVTEVGVFTPKATPTDELTVGDVGFLTAAIKNVGDTRVGDTITSAANQAAEALPGYRKLNPMVYCGLYPIDTAKYNDLREALEKLELNDSSLQYEAETSQALGFGFRCGFLGMLHMEIIQERIEREFKIDLITTAPSVIYDVYMTDGEKVVVDNPSNMPDPQKIERIEEPYVKATMMVPNDYVGAVMELCQGKRGNFIDMQYLDANRVSIVYDMPLAEIVYEFFDQLKSSTKGYASFDYELIGYKPSKLVKMDIMLNGEKIDALSFIVHRDYAYERGKVIVEKLKELIPRQHFEVPIQAAIGQKIVARSTIKAMRKNVLAKCYGGDISRKRKLLEKQKEGKRRMKQVGSVEVPQEAFMAVLKMDDSPKK	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
D1-12_01652	339			hypothetical protein	ATGATCCGTTTTACCGGCAAATGCCTGCTGATCGCCATTGTCATGTTTTTCGGCGTTTTGTTCGGCATGCAGCAGGCAAACAGCGGAATGCTTGATATGAAAGGATACAAAGATCCCTCCTTAAAAGGAGCATTCACGCTCGGCGGCGGAGAAGGACAGGAAAAAGAAGCTTCCATTTTGGGACAAACCGTTACGGCGAAAGATCTGGAAGAAAAACAAAAACAGCTGGAACAGGCGGAAACCTTCAACCTGTTTTCAAAAGCCGGAGAAACCCTTTCAAATACCGTGACGGACTCGGCGCAGGCGATGTATGAGTGGGTTTCGAAACTGAACCGTTAG	MIRFTGKCLLIAIVMFFGVLFGMQQANSGMLDMKGYKDPSLKGAFTLGGGEGQEKEASILGQTVTAKDLEEKQKQLEQAETFNLFSKAGETLSNTVTDSAQAMYEWVSKLNR				NA	NA	NA	NA	NA
D1-12_01653	1194			hypothetical protein	ATGAGAAAAAAACGCAGAAACCGTCAAATTGTCGTTGCAGTAAACGGTGGAAATGCGCTCAAGGGCATGTTTTTGTTTATGACAAGCCTTATCGTTATTTTCGTATTATCGGGTGTGCTCACATCGCTTCGCCCTGAACTGAGGCTTTCTTCGGATTCTCTTCACGGAATTGCCGGAGAACTTCCGGGTGACGCGTTTGCACACCTCCTCGGTATGGAAAATCATTATTTCGCCTCAGAGCTTCCTGAAAAAGACTCTTTTCAGCTGTCCCGGCTTTCCTTAAAACTGGCGACAAGTATTAATATGGAAGACCCGCGGAGTTTCTTGGGACGTGAGCTGCCGGGATTTGCCCAATACGATACGGAGATCCTTCTGGCGGGGCAGGGGACGGATTATACGAATATGCCTGCTGAATCTCCGCCGCCGTCGAAGGTGATGGAAAAAGAAAAAGAAGTGAACCTGGCAGAAATCGAAAACAAAACGAAAAAAGAAGAAACGGCGCCGCCGAAACATTCAACAGGCAGCAAAAAAGTCGTTTTTATTTACCACACTCATAATACCGAATCCTATCTTCCTCTGTTAAAGGGGGAAACAAATCCGGATAACGCCCGCCATTCGAAGGCCAATGTCACGCTTGTCGGAGATATGTTCGGAAAAGCGCTTGAAGCGCAAGGTGTAGGAGCGGCCGTAGATAAAACCGACATTCAGGCCCGCCTGAACAAAGACGGCTTAAATTATGCGCGAAGCTATGACGAATCAAGGCCGGTCGTAAAAAGCGCGCTCGCCAAAAATAAAAACCTGCAATATACCATAGACATTCACCGGGATTCCCGCCGCAAGAAAAATACGACAGCCGACATTAAAGGAAAAAGCTATGCCAGAGTCGCCATCGTCGTCGGCAAAAAAAGCGCTAATTTTGAAGAAAACTATAAACTCGCAAGTGAACTTCATAAGCTGATGGAGAAAAAATACCCCGGCTTAAGCGTCGGTGTTTTATCAAAAGGCTCTCCGGGAGATAATGGAGTATACAACCAAGATTTAAACGATCGGTCGCTTCTGCTGGAATTCGGGGGCGTGGATAACAATCTTGAAGAACTGAGGCGCGCATCAGATGCCGTGGCCGATGTGTTCAGCGAACTGTACTGGGATGCAGAAAAGGTCAGTTCGCAATCAGGAGAGAAGAAAAAACAATAG	MRKKRRNRQIVVAVNGGNALKGMFLFMTSLIVIFVLSGVLTSLRPELRLSSDSLHGIAGELPGDAFAHLLGMENHYFASELPEKDSFQLSRLSLKLATSINMEDPRSFLGRELPGFAQYDTEILLAGQGTDYTNMPAESPPPSKVMEKEKEVNLAEIENKTKKEETAPPKHSTGSKKVVFIYHTHNTESYLPLLKGETNPDNARHSKANVTLVGDMFGKALEAQGVGAAVDKTDIQARLNKDGLNYARSYDESRPVVKSALAKNKNLQYTIDIHRDSRRKKNTTADIKGKSYARVAIVVGKKSANFEENYKLASELHKLMEKKYPGLSVGVLSKGSPGDNGVYNQDLNDRSLLLEFGGVDNNLEELRRASDAVADVFSELYWDAEKVSSQSGEKKKQ	PGPT0024690_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024690-spoIIP-K06385	NA	NA
D1-12_01654	1107	gpr		Germination protease	GTGAAAAACAACGAACTGGATGTCAATCAATTTCTGATACGGACGGATTTAGCGGTAGAAACGAAACAGGCGGTAAAAGACGGACAAGCCGGTCAGAAAAAAGAAATAAACGGGTTTATTGAAAAAGAACGCGACAAGGGCGGCATTAAAGTCAGAACCGTCGATATTACCAAAGAAGGCGCCGAGCTATCGGGGAAAAAGCAGGGGCGCTATGTCACGATCGAGGCGCAAGGGGTTCGGGAACACGACTCCGAGATGCAGGAAAAAGTAACGGAAGTGTTTGCCGAGGAATTTTCCGCCTATCTGTCGGCATTAAAGATTCCAAAGGATGCAAGCTGTTTGATCGTCGGTCTCGGCAACTGGAATGTGACGCCGGATGCGCTCGGCCCTCTCGTGACCGAAAACCTTCTTGTGACAAGGCATCTGTTCAGGCTTCAGCCGGAAAACGTGCAGGAAGGGTACAGGCCGGTCAGCGCGCTCGCTCCCGGTGTGATGGGATTAACGGGAATTGAAACGAGCGATATTATTCAAGGTGTGATCAAAGAATCAAAGCCGGATTTTGTGATTGCGGTAGACGCTCTTGCGGCAAGAGCCGTTGAAAGGGTGAACACGACCATCCAATTTTCTGATACGGGCATTCACCCGGGATCAGGCGTCGGCAATAAGAGAAAAGAATTAAGCAAGGAGACGCTCGGCATCCCCGTCATCGCAATCGGGGTACCGACTGTCGTTGATGCGGTTACGATCGCGAGCGATACGGTGGATTATATATTAAAGCATTTCGGCAGAGAGATGAAAGATGACAGCCCGTCAAGATCTCTGGTGCCCGCCGGAATGAACTTCGGCAAAAAGAAGGTGCTGACAGACGAAGACCTTCCCGGAGAAAAAGAACGCCAATCCTTTCTCGGTATTGTCGGCACACTGGACGAAAACGAAAAACGCCAGCTGATTCACGAAGTGCTCTCTCCGCTCGGCCATAATCTGATGGTCACGCCGAAGGAGATTGACACTTTTATTGATGATATGGCGAACGTGCTTGCAAACGGGTTAAACACCGCCCTTCATGAAAAAGTGTCACAAGATAACAAAGGCTCTTATAATCATTAA	MKNNELDVNQFLIRTDLAVETKQAVKDGQAGQKKEINGFIEKERDKGGIKVRTVDITKEGAELSGKKQGRYVTIEAQGVREHDSEMQEKVTEVFAEEFSAYLSALKIPKDASCLIVGLGNWNVTPDALGPLVTENLLVTRHLFRLQPENVQEGYRPVSALAPGVMGLTGIETSDIIQGVIKESKPDFVIAVDALAARAVERVNTTIQFSDTGIHPGSGVGNKRKELSKETLGIPVIAIGVPTVVDAVTIASDTVDYILKHFGREMKDDSPSRSLVPAGMNFGKKKVLTDEDLPGEKERQSFLGIVGTLDENEKRQLIHEVLSPLGHNLMVTPKEIDTFIDDMANVLANGLNTALHEKVSQDNKGSYNH				NA	NA	NA	NA	NA
D1-12_01655	267	rpsT	COG0268	30S ribosomal protein S20	ATGCCAAACATTAAATCAGCGATTAAACGTACAAAAACAAACAACGAACGCCGCGCTCATAACGCGACAATCAAATCTGCTATGCGTACTGCAATCAAACAAGTTGAAGCTTCTGTTGCTAACAACGAAGCGGATAAAGCGAAAACTGCTCTTTCTGAAGCAGCGAAACGCATTGATAAAGCAGTGAAAACAGGTCTTGTACACAAAAATGCCGCAGCTCGATACAAATCTAGACTTGCGAAACAAGTGAACGGACTTTCTGCATAA	MPNIKSAIKRTKTNNERRAHNATIKSAMRTAIKQVEASVANNEADKAKTALSEAAKRIDKAVKTGLVHKNAAARYKSRLAKQVNGLSA				NA	NA	NA	NA	NA
D1-12_01656	1023	yqeN	COG1466	putative protein YqeN	ATGGTATTTGATGTTTGGAAAGCCCTGAAAAAAGGGGATGTCCGCTCCGTTTATTGCTTATACGGAAAAGAAACGTATCTGCTCCAAGAGACTGTCAGCCGGATCAGACAAGCTGTCGTTGATGAGGAGACTAAAGATTTTAACCTGTCTGTTTTTGATCTTGAAGAGGATCCGCTTGACCAGGCCATAACCGATGCGGAAACGTTTCCGTTTATGGGAGAGAAGCGGCTGGTTATCGTAAAAAATCCGTCTTTTTTAACAGGGGAAAAAAAGAAAGAAAAAATAGAGCATAATACAAGCGCTTTGGAGACTTACCTGAAGGAGCCTGCGCCTTATACGGTCTTTGTGATTGTGGCTCCGTATGAAAAGCTGGACGAACGGAAAAAGCTGACGAAAGCGCTGAAGCAAAAAGCCCTTATGATTGAAGCTAAGGAGCTGAATGCAAAGGAGACGACTGATTTTACGATTAATCTGGCGAAATCCGAAAATAAAACGATGGATACAGAAGCTGCTGAGCATTTGGTTCTGCTTGCAAACGGCCATCTGTCTTCCATATATCAGGAAATACAAAAACTCTCCGCCTACACCGGTGACAGACATGAGATCACGCTTGAAGATGTCCGGGAGCTTGTCGCAAGAAGTTTGGAGCAGAATATTTTTGAGCTGATCAACAAAATCGTGAACCGAAAACGGACGGAAAGTCTTCAAATATTTTATGATCTTTTAAAACAAAACGAAGAACCGATCAAAATTATGGCGCTGATCGCCAACCAATTCCGTCTGATTATGCAGACGAAGTATTTTGCAGGACAAGGATACGGCCAAAAGCAAATCGCTTCCAACTTAAAGGTGCACCCCTTCCGGGTAAAGCTGGCGATGGATCAGGCGAGGCTTTTTTCTGAAGAAGAGCTGCGGCGTATTATAGAAAGACTCGCAGTGATGGATTATGAAATGAAAACGGGGAAAAAGGACAAGCAGCTCTTGCTGGAGCTCTTTCTCCTTGAGCTTCTCCGGACTGAATGA	MVFDVWKALKKGDVRSVYCLYGKETYLLQETVSRIRQAVVDEETKDFNLSVFDLEEDPLDQAITDAETFPFMGEKRLVIVKNPSFLTGEKKKEKIEHNTSALETYLKEPAPYTVFVIVAPYEKLDERKKLTKALKQKALMIEAKELNAKETTDFTINLAKSENKTMDTEAAEHLVLLANGHLSSIYQEIQKLSAYTGDRHEITLEDVRELVARSLEQNIFELINKIVNRKRTESLQIFYDLLKQNEEPIKIMALIANQFRLIMQTKYFAGQGYGQKQIASNLKVHPFRVKLAMDQARLFSEEELRRIIERLAVMDYEMKTGKKDKQLLLELFLLELLRTE				NA	NA	NA	NA	NA
D1-12_01657	2352	comEC	COG0658	ComE operon protein 3	ATGAAATATAAATACCTTCTTCTGCCTCTGGCGGCGGTTTCTGCAACTGCGGGAATTGCCGCCGCTCATGTCTTCTGGGTTCTGCTCCTTTTTCTTCTGTATCTTCTCTTTATTATTGTAAAAACAAAGCAGCATGCTCCGGTTATTGTCTGCCTCGTTTCTTTTTGTCTTTATTTCTTTCTTTATACGGTTTGTGACGCTGCGAATGTAACGCGGTATCAGGCCGGCAGTTATACTGAACAGGCCGTCATCACTAACATTCCGAAGGTTGACGGAGCGAAAATGTCAGCCGTTATCCGTACACATGACAAGGAAAAATGGACGGCTTCGTACAAAATCCGGTCTCTTGAGGAAAAGAGACTCATTGAACAGCTTGAACCGGGGATGCGCTGCACGTTTACAGGTTCTCTGGAGCAGCCTGCACATGCGACGGTTCCCGGAGGTTTTGATTATAAGGAATATCTTTACTCTCAGCAGATTCACTGGTTATTTTCCGTGACTTCCATTCAGCAGTGTGAAAAATCCAAACAGCCGCTGTTTAAACTGCTGAACATCAGAAAAAATTTGATTTCGATCATTCGGAATCACGTGCCTGAATCTTCCGCCGGAATTGTTGAAGCGCTGACCTTAGGTGAAAGATTTTCTATAGAGGACGATATACTGAGTGCATATCAAAATTTGGGAGTCGTTCATTTAATGGCGATTTCCGGAATGCATGTCGGTCTTATTACGGCGGGATTATTTTATGCTCTGATCAGAATCGGGCTGACAAGAGAAAAGGCGGGGATGTTGCTGCTGCTGTTTTTGCCGGTATATACGCTGCTGAGCGGTGCCGCCCCATCCGTATTGCGCGCATCCCTCATGCTGGGATTTTATATCGCCGGAACTCTTGTTAAACGTGGCATTCATTCCTCTGCTGCATTGTCTCTGTCTTATCTGCTGCTCCTGCTGTTTAATCCTTACCTCCTTTGGCAGGCGGGCTTCCAGCTTTCCTTTGCGGTAAGCGCCTCTTTAATTCTGTCATCCTCCATTTTAAAGAAAGCAGGGAAAAGCAGACTTGCCGGGCTTGCGATGGCTTCATTCATTGCAGAGCTCAGCTCACTTCCGTTTCTTCTCTATCATTTTCAGCAAATTTCACTTGTCAGTTTTCCGATGAACATGGTGATGGTGCCATTTTATACGTTATTTGTCATTCCGGTTTCTGTCATCGGCTTCCTTCTTCTTTTGCTTTCAAGGCAGGTGGGAGAATGTTTGTTTGATATGTTTGACCTTGTGATGAAGCCTGTGCATGATTTCATTACATATGCGGCATCCGTTGATTTATTTACTATGATTGTGTCAAAGCCTGACTTTCTTTCCCTTCTTCTGCTTGCGGTTTCCGTTTTTACGCTTTTTGCGGCTTTGGAAAAGGGAGGTTTTTTAAAACTCAGGAAATCGGCTCTTTTTTTCTGCGCGGTTTTGGCTTATTTAATATGCCGTCCGTATTTCAGTCCATGGGGAGAAGCGGATATGCTTGATATCGGGCAGGGAGACTCGCTGTTTATAAGCGCGCCGCACCGCAAAGGGACCGTAATGGTTGATACAGGGGGAGTGATTGCTTATCCCGGAGAATCATGGAAAGAAAAACGCCACCCGTATTCTATCGGCGAGAAGGTTTTGATTCCGTTTTTAAACGGAAAAGGGGTGAAAAAGCTGGATGCGCTGATTTTAACCCATGCGGATCAGGATCACATCGGAGAAGCCGGAGTGTTAATCAAAAATCATAGAGTCAAACGGTTAATTGTCCCCGTGGGATTCGTAAAAGAACCGAAGGATCAGAACATATTAAAAATGGCGAAAGAAAACAACATTCCCGTTGCCGAAGCAAAGCGGGGCGACACCATTACAGCGGGTGATCTTCAGTTTCAGGTGCTGTCTCCGGAGTCATCTGACGGAAAGAGTAAAAATGATTCGTCACTGGTGCTTTGGACGGTTTTAGGCGGAGTGAGCTGGCTTTTGACGGGAGATTTAGAATCGGACGGCGAAACAGAAGTGCTGAAAACGTATCCGAAACTGAAGGCTGATATATTGAAGGCGGGTCATCACGGCAGCAAAAGCTCAACGAGTGAAGCCTTTTTGAAACAGCTTCAGCCGGAAGCAGCGCTGATTTCAGCAGGAAAAGAGAATCGATACCATCATCCGCATGAAGAAGTGCTGGATCGTTTGAAGGCGTACTCTGTCAATGTGCTTCGCACCGATATCAGCGGAACGATTCAATACAGATTTGAAAAAGGCGCCGGAACGTTTTCCGTCTTCCCTCCATATGATATAGAAGAAACCAGGGTGCAAGAAGTAAAAAAGACTGCCGATTGA	MKYKYLLLPLAAVSATAGIAAAHVFWVLLLFLLYLLFIIVKTKQHAPVIVCLVSFCLYFFLYTVCDAANVTRYQAGSYTEQAVITNIPKVDGAKMSAVIRTHDKEKWTASYKIRSLEEKRLIEQLEPGMRCTFTGSLEQPAHATVPGGFDYKEYLYSQQIHWLFSVTSIQQCEKSKQPLFKLLNIRKNLISIIRNHVPESSAGIVEALTLGERFSIEDDILSAYQNLGVVHLMAISGMHVGLITAGLFYALIRIGLTREKAGMLLLLFLPVYTLLSGAAPSVLRASLMLGFYIAGTLVKRGIHSSAALSLSYLLLLLFNPYLLWQAGFQLSFAVSASLILSSSILKKAGKSRLAGLAMASFIAELSSLPFLLYHFQQISLVSFPMNMVMVPFYTLFVIPVSVIGFLLLLLSRQVGECLFDMFDLVMKPVHDFITYAASVDLFTMIVSKPDFLSLLLLAVSVFTLFAALEKGGFLKLRKSALFFCAVLAYLICRPYFSPWGEADMLDIGQGDSLFISAPHRKGTVMVDTGGVIAYPGESWKEKRHPYSIGEKVLIPFLNGKGVKKLDALILTHADQDHIGEAGVLIKNHRVKRLIVPVGFVKEPKDQNILKMAKENNIPVAEAKRGDTITAGDLQFQVLSPESSDGKSKNDSSLVLWTVLGGVSWLLTGDLESDGETEVLKTYPKLKADILKAGHHGSKSSTSEAFLKQLQPEAALISAGKENRYHHPHEEVLDRLKAYSVNVLRTDISGTIQYRFEKGAGTFSVFPPYDIEETRVQEVKKTAD	PGPT0029415_1255	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
D1-12_01658	570	tadA_1		tRNA-specific adenosine deaminase	GTGGAACGAATCTCATGGAATCAATATTTTATGGCGCAAAGCCATTTGCTGGCGCTGAGAAGCACATGTCCGAGACTGTCAGTCGGGGCAACCGTAGTCAGAGACAAGCGGATGATCGCCGGCGGATACAACGGCTCAATTGCCGGAGGCGTCCATTGCGCTGATGAAGGATGCCTTTTAATAGATAATCATTGCCAGCGGACCATACATGCAGAGATGAATGCGATTCTGCAATGTTCTAAGTTCGGTGTTCCGACGGAGGGCGCCGAAATTTATGTGACGCATTATCCTTGTATTCAATGCTGTAAATCAATTATTCAGGCAGGTATCAAAACGGTTTATTATGCCGAAGATTACAAAACACAGCCTTATGCAAAAGAGCTGTTCAGCCAAGCCGGAGTCAAGGTGGAGCAGGTCGAACTTGATGAAATGATCATCGATCTGAAAAACCGCGAAAAATTGTCTTTTGTAGCAGGTCTGATTCAGCAATTATCTGATGCGGGGGTTAAGGCAGATGAACTGAAAAAAATTCATGAACAGGCCAATGAGCTGTTTACCAGTTACGTATAA	MERISWNQYFMAQSHLLALRSTCPRLSVGATVVRDKRMIAGGYNGSIAGGVHCADEGCLLIDNHCQRTIHAEMNAILQCSKFGVPTEGAEIYVTHYPCIQCCKSIIQAGIKTVYYAEDYKTQPYAKELFSQAGVKVEQVELDEMIIDLKNREKLSFVAGLIQQLSDAGVKADELKKIHEQANELFTSYV	PGPT0021380_501	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0021380-comEB|tadA-K01493	NA	NA
D1-12_01659	615	comEA	COG1555	ComE operon protein 1	ATGACGAAAGCGATGATGACGGAGCGGCTGCGGCGGAACCTGAAAATTCTGGGCGCTTGTCTTGCTGCAGGAGCGGTTTTTATCTGTATTTGGCTGTTTCGTTCTGAAAAGGAAGAGCCGGTCAAACAGCAGTCCGTGCTCGGCCAAACAGCCTCAGCATCCGTCGCGGACAAAAAAGACACCGCAGACGATAAGATTATGATTGATGTGAAAGGCGCGGTCCGAAATCCCGGCGTGTATGAAATGGAAGCGGGAGACAGAGTGACGCAAGCCATTGAAAAAGCCGGCGGCCTGAAGAAAAAGGCGGATGAATTGAATGTTAATTTAGCAGAGCAGCTGCAGGACGGGACGATTGTTTATATTCCGAGTGAAGGCGAAGAGGAGAATCGCCCGAAAACAACAGCGGGTGAAAAGGAGAATGCAGCTGTCAATATCAATACGGCATCTCTGGACGAACTTCAGGCGGTTTCCGGGGTGGGGCAGAAAAAAGCGGAAGCGATTATCGCCTACCGAGAAGAAAACGGACGGTTTCAGACTGCTGAAGATTTGATGAATGTATCAGGCTTTGGAGAAAAGTCATTTGAGCGGATAAAAACTTCCATTACGGTAAAGTGA	MTKAMMTERLRRNLKILGACLAAGAVFICIWLFRSEKEEPVKQQSVLGQTASASVADKKDTADDKIMIDVKGAVRNPGVYEMEAGDRVTQAIEKAGGLKKKADELNVNLAEQLQDGTIVYIPSEGEEENRPKTTAGEKENAAVNINTASLDELQAVSGVGQKKAEAIIAYREENGRFQTAEDLMNVSGFGEKSFERIKTSITVK	PGPT0029410_1484	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
D1-12_01660	822	proC_3		Pyrroline-5-carboxylate reductase	TTGAAAATAGGCTTTATCGGCACCGGAAACATGGGAACGATCCTGATTGAATCGTTTATCGAATCAAACGCTGCCGATCCCTCACATATCACCATCACAAACAGAACAATCGAAAAAGCATTAAAACTAAAAGAACGTTTCAGAGGCATCCATGTCACCGAGGATCAGGAAAAGCTCGTACAGGAAAATGAAATAATATTCATTTGTGTAAAACCGCTGGATATATATCCTTTGCTGAAGAAACTCACACCGCATTTACGGAAAGATCACATTTTAATCTCCATTACCAGTCCCGTTCAGACGGATCAGATTGAACATACGGTTCCGTGTCAGACGGCCCGCGTCATTCCGAGCATTACGAACCGCGCCTTGGCCGGCGTCTCGCTTGTTACGTTCGGCAAAAGCTGCAGCGAGTCTGCAAAAGTGGATATTGAAACGCTGTTCACTCATATCTCAAAACCTGTAGAAATCAGCAGCGGCATTACAAGAGTGGCGTCAGACATTGTCAGCTGCGGGCCCGCTTTTATGAGTTATCTCGTTCAGCGCTTTATTGACGCGGCAGTGGAAGAAACGGGCATCACCAAAGAAGAAGCAGTAATTATGTCGACGGAAATGCTTGTCGGTCTCGGAAAGCTTCTTGAAACAGGGCATTACACGCTTCCCGCCTTGCAGGAAAAAGTATGCGTAAAAGGCGGCGTCACCGGAGAAGGACTGAAGGCTCTCGAAAGCGGTGTTCAGGATATGTTCAACCGTGTCTTTCAGCGTACACATGACAAATACGATGAAGATATATCGTTAGTGAAGAAGCAATTTCACGTGTAA	MKIGFIGTGNMGTILIESFIESNAADPSHITITNRTIEKALKLKERFRGIHVTEDQEKLVQENEIIFICVKPLDIYPLLKKLTPHLRKDHILISITSPVQTDQIEHTVPCQTARVIPSITNRALAGVSLVTFGKSCSESAKVDIETLFTHISKPVEISSGITRVASDIVSCGPAFMSYLVQRFIDAAVEETGITKEEAVIMSTEMLVGLGKLLETGHYTLPALQEKVCVKGGVTGEGLKALESGVQDMFNRVFQRTHDKYDEDISLVKKQFHV	PGPT0029420_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029420-comER-K02239	NA	NA
D1-12_01661	738	cypM		Cypemycin N-terminal methyltransferase	ATGATTTACCAAGGCTTCGCCGGCGTATATGACGAGTTAATGTCACATGCGCCGTATGATGAATGGGCGGGCTGGATCGAAGCGTCTCTTCCGGAAAAGGGAAGGGTGCTTGATCTTGCCTGCGGAACCGGAGAAATATCCATCAGGCTTGCTGAAAAAGGCTGCGAAGTCACGGGGATTGATTTGAGTGAAGATATGCTGAGCTGTGCCCAGCAGAAAAAAACGGGAAAGCCGATTCTTTTTCTCCAGCAGGATATGAGAGAGCTTTCCGGTTTTGAAGAACAGTTTGATGCTGTAGTCATCTGCTGTGATTCCCTAAATTACTTAAAAACGAAAAATGATGTCTTAAGCACCTTCAAAAGTGTTTTTCAAGTTTTGAAGGAGGGCGGCCTGCTTCTGTTTGACGTCCATTCCCCATTTAAAATGACGGAGCTTTTTCCGGACAGCACCCATGCGGATCAGGATGAGCAGATCAGCTATATCTGGCAAAGCTTTGCCGGCGATGAAGAGCTTTCTGTCATCCATGATATGTCCTTTTTCGTATGGAACGGACAATCTTATGACCGCTATGACGAGACGCATGAGCAAAAAACATTTTACATTGAAGAATATGAACAAATGCTTGCAGAGACCGGATTTGAACTGAAGAAGGTGACGGCTGATTTTACAGACCGGCCTCCTTCAACAGAGTCTGAACGTCTTTTCTTCACGGCAGGCAAACCAAAAACCATCGTTTAA	MIYQGFAGVYDELMSHAPYDEWAGWIEASLPEKGRVLDLACGTGEISIRLAEKGCEVTGIDLSEDMLSCAQQKKTGKPILFLQQDMRELSGFEEQFDAVVICCDSLNYLKTKNDVLSTFKSVFQVLKEGGLLLFDVHSPFKMTELFPDSTHADQDEQISYIWQSFAGDEELSVIHDMSFFVWNGQSYDRYDETHEQKTFYIEEYEQMLAETGFELKKVTADFTDRPPSTESERLFFTAGKPKTIV				NA	NA	NA	NA	NA
D1-12_01662	357	rsfS	COG0799	Ribosomal silencing factor RsfS	ATGAATCAAGCTTCCGTATTAAAAATCGCGGCAAAAGCATGCGACGATAAACGTGCAGAAGATATTTTAGCGCTGGACATGGAAGGAATCTCACTTATAGCGGATTACTTTTTAATCTGCCACGGGAATTCTGATAAGCAGGTTCAGGCAATTGCGCGTGAAATTAAAGATCAGGCAGAAGAAAACGGCATTGATGTCAAAAAGATGGAAGGGTTTGATGAGGCCCGCTGGATTTTAGTTGATCTCGGCGACGTCATTGTCCACGTTTTCCATAAAGATGAAAGAAGCTACTACAATCTTGAAAAGCTATGGGGCGACGCGCCGCTCGCAGAGCTTGAGCTCGGCTTGAACTCATGA	MNQASVLKIAAKACDDKRAEDILALDMEGISLIADYFLICHGNSDKQVQAIAREIKDQAEENGIDVKKMEGFDEARWILVDLGDVIVHVFHKDERSYYNLEKLWGDAPLAELELGLNS				NA	NA	NA	NA	NA
D1-12_01663	561			hypothetical protein	ATGAATCGTGAGGAAGCACTTGCCTGCGTCAAAGAGCAGCTGACCGAGCATCGCTACATCCACACAATCGGCGTGACAGATACGGCGGTTATTCTCGCAGGCCGGTTCGGAGCAGACCCGAAAAAAGCGGAAATGGCGGCTATTTTTCATGATTATGCGAAATTCCGGCCGAAAGAAGAAATGAAGCAGATCATCGTGCGGGAAAAAATGCCGGCTGAGCTCTTGGATTACAATGCCGAGCTGTGGCATGCCCCTGTGGGAGCGTATCTGGCTGAGAAAGAAGCGGGGATCACTGATCCTGAGATCTTGGATGCAATCCGCTATCACACGTCAGGGCGTCCCGGAATGACCCTTTTAGACAAAGTCATTTACGTTGCGGATTACATTGAACCCGGCCGCCATTTTCCCGGAGTGGAAGAGGTGCGCCGTCTGGCGGAAACAGATCTGAACGAAGCGCTCATACAAGCAATGAAAAATACAATGATATTTCTGATGAAAAAAAACCAGCCGGTCTTTCCGGAGACGTTTGCAACCTATAACTGGCTGGTGTCTCAAAATTGA	MNREEALACVKEQLTEHRYIHTIGVTDTAVILAGRFGADPKKAEMAAIFHDYAKFRPKEEMKQIIVREKMPAELLDYNAELWHAPVGAYLAEKEAGITDPEILDAIRYHTSGRPGMTLLDKVIYVADYIEPGRHFPGVEEVRRLAETDLNEALIQAMKNTMIFLMKKNQPVFPETFATYNWLVSQN	PGPT0013435_23	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
D1-12_01664	570	nadD	COG1057	Nicotinate-nucleotide adenylyltransferase	ATGAAGAAAATCGGAATATTCGGGGGCACATTTGACCCACCGCACAACGGACATCTTCTGATGGCTAATGAAGTCCTTCATCAGGCGGAGCTCGATGAAATTTGGTTTATGCCAAATAAAATCCCTCCGCATAAGCAGAATGGAGACTTTACAGACAGCCGGCACCGGGTGGAGATGCTGAAGCTTGCCATCAGCTCGAATTCCGGCTTTAAGCTTGAGCTTGCGGAAATGGACCGGAAAGGCCCTTCTTATACCTATGATACCGTCCGTTTACTGAAGGAGCGGCACCCGAACGACAAGCTTTTCTTTATTATCGGGGCGGATATGATTGAATATCTGCCGAAATGGTACAAACTGGACGAACTGCTCACGCTCATTCAATTTATCGGAGTGCGGCGCCCGGGGTATCATATTGAGACCCCGTACCCGCTGCTTTTTGCCGACGTTCCGGAATTTGACGTTTCGTCAACGATGCTGAGAGAACGTCTCAAAGCAAAAAAGCCGACGCAATACTTAATGCCGGATAAAGTGAGGCAGTATATAGAGGAGAATGATTTATATGAATCGTGA	MKKIGIFGGTFDPPHNGHLLMANEVLHQAELDEIWFMPNKIPPHKQNGDFTDSRHRVEMLKLAISSNSGFKLELAEMDRKGPSYTYDTVRLLKERHPNDKLFFIIGADMIEYLPKWYKLDELLTLIQFIGVRRPGYHIETPYPLLFADVPEFDVSSTMLRERLKAKKPTQYLMPDKVRQYIEENDLYES	PGPT0013435_3893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
D1-12_01665	291		COG1534	RNA-binding protein	ATGTTAACAGGAAAACAAAAACGGTTTTTGCGTTCAAAAGCGCATCACTTAACGCCTATTTTTCAAGTGGGAAAAGGCGGAGTCAACGAAAACATGGTGAAACAGATTGCCGAGGCTTTAGAAGCAAGAGAGCTGATTAAAGTCAGCGTGCTTCAAAACTGCGAAGACGATAAAAATGATGTCGCAGAAGCCCTTGTGAAAGGCAGCCGCTCACAATTGGTGCAGACGATCGGAAATACGATCGTACTGTATAAGGAATCAAAGGAAAATAAACAAATCGAGCTTCCGTAA	MLTGKQKRFLRSKAHHLTPIFQVGKGGVNENMVKQIAEALEARELIKVSVLQNCEDDKNDVAEALVKGSRSQLVQTIGNTIVLYKESKENKQIELP				NA	NA	NA	NA	NA
D1-12_01666	843	aroE_1	COG0169	Shikimate dehydrogenase (NADP(+))	ATGAAACAATTGTACGGAGTAATCGGAAATCCGATCGGGCATTCAATGTCACCCGATATTCATAACGCGGCTTTGCAAGATAAAAACATCAACGGGCAGTATTTTGCGTTTCAGGTGGAACCTCATCATCTCAAGGACGCCGTTAACGGAATCAAGGCGCTTGGCATCTGCGGAGTGAACGTCACAGTCCCGCATAAAGTCGCGATCATGGAGCATCTGGATGAAATACATGAAAGCGCGAAAGTACTCGGGGCCGTAAATACCGTCAAAAGAGAGGGAGACAGGCTCATCGGGTATAATACTGACGGAGATGGGTTTTATAAATCCTTAGTCAAAGTATTGGACAAACCGATATCAGAGCTCTCCATCCTCATGATTGGGGCGGGAGGAGCGGCAAGAGCGATTTTTACAACGATCGTCCGCAGAGAGCCGAAACAATTTGACGTTTGCAACCGCACGCCGGAAAAAGCAGAAAGTCTGATTGCGGCTGCTCCCTCTTTTCAGCAGAAACGCGCCCTTACTTTAAAAGAAGCTGAAAATCAGCTTGAACAATATGACGTCATTATTCATACAACATCTGTCGGCATGTATCCGAAAACGGATGCCGTGCCGCTCTCATTGGAACGGGCCAAAACGGGCGCCATCGTTTGTGATATTGTATACAACCCGATTCAAACGGCGTTCTTAAAAGAAGCTGAAAAAAGAGGTTTAACAACCCTTGACGGTGTCGGCATGTTTGTGGAACAGGCCGCACTGTCTTTCAAGCTGTGGACGGAACAAGAGCCTGACAGCGGCTTAATGAGAGCGATTGTTGAAGGAAAACTAGGAGGAACACAATGTTAA	MKQLYGVIGNPIGHSMSPDIHNAALQDKNINGQYFAFQVEPHHLKDAVNGIKALGICGVNVTVPHKVAIMEHLDEIHESAKVLGAVNTVKREGDRLIGYNTDGDGFYKSLVKVLDKPISELSILMIGAGGAARAIFTTIVRREPKQFDVCNRTPEKAESLIAAAPSFQQKRALTLKEAENQLEQYDVIIHTTSVGMYPKTDAVPLSLERAKTGAIVCDIVYNPIQTAFLKEAEKRGLTTLDGVGMFVEQAALSFKLWTEQEPDSGLMRAIVEGKLGGTQC	PGPT0012890_2516	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
D1-12_01667	1101	yqeH	COG1161	putative protein YqeH	ATGGAAAAGGTTGTTTGCATCGGCTGCGGAGTAGCGATCCAGACCGAGGATAAACAAGGTCTTGGATACGCGCCAAAGGCATCGCTCACGAAAGAGAATGTCATCTGCCAGCGCTGTTTCAGACTGAAAAATTACAATGAAATTCAAGATGTTTCATTGACGGATGATGACTTTTTAAATATCTTGCACACAATCGGCGATACTGACTCTCTTATTGTCAAAGTCGTTGATATTTTTGATTTTAACGGAAGCTGGATAAACGGGCTGAACCGCTTTGTCGGCGGTAATCCGATTATTCTTGTCGGTAATAAGGCCGATATCCTGCCGAAATCCGTAAAACGGGAACGCCTCGTTCAATGGATGAAACGCGAAGCGAAAGAATACGGCTTAAAACCCCTTGATGTCTTTTTAATCAGCGCTTCCCGCGGACAAGGGATGAAGGAAGTCATTGACGCCATTGAACATTATCGCGAAGGCCGCGATGTGTATGTGGTGGGCTGTACCAATGTCGGCAAATCCACATTTATCAACCGGATTATTAAAGAGGTCTCAGGGGAAGAGAATATTATTACCACCTCTCAATTTCCGGGCACGACGCTTGATGCGATTGAAATCCCGCTTGATGACGGATCTGCGCTTTATGATACGCCGGGAATCATTAACCATCACCAGATGGCGCATTACGTGGACAAGCGTGACTTAAAGGTGCTGACACCGAAAAAAGAACTGAAGCCGCGCACTTTTCAGCTGAATGAAAAACAAACGCTTTATTTCGGCGGGCTTGCCCGGTTTGACTATGTATCAGGCGATAAAACGGCGTTTGTCTGCTATATGCCGAATGAATTGATGATTCACAGAACAAAGCTTGAAAATGCTGATGCCTTATACGAAAAGCATGCGGGAGAACTGCTTACCCCGCCCGGAAAAGATCATTTGGATGAATTTCCGGAGCTTACGCCTCACACGTTTACGATTAAAGAAGGAAAGACGGATATCGTTTTTTCCGGTCTCGGCTGGGTCACGGTGCAGCAAGCAGATAAAAAAATAACGGCATACGCTCCGAAAGGCGTACACGTATTTGTCCGTCGTTCATTAATATAG	MEKVVCIGCGVAIQTEDKQGLGYAPKASLTKENVICQRCFRLKNYNEIQDVSLTDDDFLNILHTIGDTDSLIVKVVDIFDFNGSWINGLNRFVGGNPIILVGNKADILPKSVKRERLVQWMKREAKEYGLKPLDVFLISASRGQGMKEVIDAIEHYREGRDVYVVGCTNVGKSTFINRIIKEVSGEENIITTSQFPGTTLDAIEIPLDDGSALYDTPGIINHHQMAHYVDKRDLKVLTPKKELKPRTFQLNEKQTLYFGGLARFDYVSGDKTAFVCYMPNELMIHRTKLENADALYEKHAGELLTPPGKDHLDEFPELTPHTFTIKEGKTDIVFSGLGWVTVQQADKKITAYAPKGVHVFVRRSLI				NA	NA	NA	NA	NA
D1-12_01668	519			hypothetical protein	TTGTTAAAAAAGTTTTTTTTACCTGACGAATTTGTGAAAAATATATTTCATATCACACCGGAAAAGCTCAAAGAACGCAATGTGAAAGGGATTATTACAGACCTTGACAACACGCTTGTGGAGTGGGACAGACCGAGTGCGACACCTCGATTGATCGAGTGGTTTGAAGAAATGAAGGAGCACGGCATTAAAGTCACGATCGTCTCCAATAATAATGAACGAAGAGTGAAATTATTCTCGGAGCCGCTTGGCATACCGTTTATTTATAAGGCAAGAAAACCGATGGGACGCGCCTTTAAAAGAGCCGTCAGCAGCATGGATCTGAAAAAAGAAGACTGTGTGGTCATCGGCGATCAGCTGCTTACTGATGTTCTCGGCGGAAACAGAAACGGGTATCATACGATCCTCGTCGTGCCTGTCGCTTCCTCTGACGGAGTCATGACGCGCTTTAACCGCCGGATTGAACGGAGAATATTGAGTTCTTTGAAACGTAAAGGCCATATTCAGTGGGAGGATTAG	MLKKFFLPDEFVKNIFHITPEKLKERNVKGIITDLDNTLVEWDRPSATPRLIEWFEEMKEHGIKVTIVSNNNERRVKLFSEPLGIPFIYKARKPMGRAFKRAVSSMDLKKEDCVVIGDQLLTDVLGGNRNGYHTILVVPVASSDGVMTRFNRRIERRILSSLKRKGHIQWED				NA	NA	NA	NA	NA
D1-12_01669	135			hypothetical protein	ATGAACCGCGGTTTCCCTCTGCAATATCCTGTATGCCCGCCTCCTCGGGTGAATGCGGGGTACTGGTACGCATTTTTTGTTGTGCTGCTCGTCGTCATTCTCGTCCTGGGCGGTCTGTATTGGTTCAATATATAG	MNRGFPLQYPVCPPPRVNAGYWYAFFVVLLVVILVLGGLYWFNI				NA	NA	NA	NA	NA
D1-12_01670	747			hypothetical protein	TTGGGGGGAGAGAAAATGAAGTTTGCTGTTCTTTTTATTACGATAATCTGTCTGTTATCAGGGTGCGCCGCGGGCAAAGAGAAAAGTGTTGTCACGTTCGGCGACAGCAATACGCGCGGTTCCAACTGGGATTATCGTGATTATCCGAAGGCGCAGCAGTGGGTAAACATGTTAAAAACAGCGGAACGCGGCCGTCTTACGGTTATAAATGCGGGAATAGGCGGCCAGACGACTGAGGATGCGCGCCTGCGCTTTCAAAGCGACGTGCTGGACCGTAAGCCCCAATATTTATTTATCATGTTCGGAACAAATGATGCGGGCATTTTGACGGGCGATCAGCCGCGGGTATCAAAGAAACGGTTTAAAGAAAACCTGACTTATTTCATAAACGAAAGCAGAAATCACGGCATAAAGCCGATTTTAATGACGTGCATCCCGGTTATAGAAGGAAACGGAACGCATCATCTCTATTACTATTCGAGATATAAAGCCTCAGCCTTTAAAGAAAAAGGCGGCGCGAGAAAATGGCATAATTCCTATAACGGCGTTACGAGGCAGGTTGCAGCTGAGTTGAAAGTGCCGCTGGTGGATAACTGGAAACACTTTATACGCGCGGACGGCGGCAAAGATACAGACCAGGCGCTGATCCAATCCGGACTGATAGATCCCTCCGGAAATCATATGACGCCAAAAGGCGCCAGAATCTTAATTGAAGGCATAAAAAATGGGCGGGTTTTGGAACGCTGA	MGGEKMKFAVLFITIICLLSGCAAGKEKSVVTFGDSNTRGSNWDYRDYPKAQQWVNMLKTAERGRLTVINAGIGGQTTEDARLRFQSDVLDRKPQYLFIMFGTNDAGILTGDQPRVSKKRFKENLTYFINESRNHGIKPILMTCIPVIEGNGTHHLYYYSRYKASAFKEKGGARKWHNSYNGVTRQVAAELKVPLVDNWKHFIRADGGKDTDQALIQSGLIDPSGNHMTPKGARILIEGIKNGRVLER				NA	NA	NA	NA	NA
D1-12_01671	735		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	TTGAGATGCTTTCATCTGATCATCATGATATGCATCCTCACGAGTCTCACTGCCGTGTCCGCCGATGCGAAATCTTTAAAAAGAAGTGACATGGAGAAGACGGGAAACGTGTACTGGGATATAAGGTCTGAAAAAAAGAAACTATCTTTAACCTTCGATGACGGCCCCCATCCTGTCTATACGGAGGCAGTGTTAGACGTGCTGAAACAGCACAATGTGAAAGCAACCTTTTTTTGTGTCGGGAGCCGTATAGACAAATACCCCATAACGGCAAAACGCATCGTTGAAGAAGGGCATGAAATCGGCAACCATACGATGAACCATGTTTATTTTCACCGTCTGAAACGCAAAGACATTTTACAAGAGCTTCACAGCTCAGCGCATCATATCACATCGCTGCAGCCGGCAGGGGACAAGTTATTCCGCCCGCCGGGAGGGTCGCTGAATCATACGGCTTTCAAAAGCATCTTAAAAGAGGGCTATCATATCATCATGTGGTCATGGAACCAAGATCCGAGGGACTGGAAAAGGCCCGGGAAAGGAAAAATCGTCAGGCACGTTGTTTCACATGCCAGAGATGGAGATATCGTTCTTCTGCATGACGGCGGAGGAAACCGGCGCCAGACGGTTGAGGCTTTGAAAGAAATCATTCCCAAGCTGAAAAAGCAGGGCTACACGTTTGTTAAGGTTTCGGATTTGATCGGACAGGATTCGGGCCCTTTTCATATCCAGTAA	MRCFHLIIMICILTSLTAVSADAKSLKRSDMEKTGNVYWDIRSEKKKLSLTFDDGPHPVYTEAVLDVLKQHNVKATFFCVGSRIDKYPITAKRIVEEGHEIGNHTMNHVYFHRLKRKDILQELHSSAHHITSLQPAGDKLFRPPGGSLNHTAFKSILKEGYHIIMWSWNQDPRDWKRPGKGKIVRHVVSHARDGDIVLLHDGGGNRRQTVEALKEIIPKLKKQGYTFVKVSDLIGQDSGPFHIQ	PGPT0018645_3869	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-12_01672	627			hypothetical protein	ATGATAAAAAAGGGATTCAGTCTTGCCGTTATCATTGCTGTCGTGATGATCGGCTTTATGCAAAAAGACGTCTGGCTCAGCATGATTCGCGCGGGGGGCATGTACGCCGTGCTTATGAGTATCCTGCTGGTCGCAGCTGACGTATTTTTTCCGATTGTTCCATTCGCCATTATCGCGGCCTTAAACGGAGCTGTTTTCGGGATTGTAAACGGGGTGTGGATTACATTGTCAGGTGCGATGCTCGGAACAATGGCATTGTTTTTTCTCGTCCGGTACGGATTCAGAGACTGGGCCAGAAAAAAGCTGCTGGCTTACCCGGCCGCGGCCCAATATGAAGATTCATTTCATCAGCACGCGTTTACGGCGGTGCTTTTCGGACGGCTGATTCCGATTATACCGTCGCTTGCCATGAATACCGTCTGCGGGCTGAGTCATATCCGATGGCCGATCTTTTTTTCTGCGTCGGTGCTCGGCAAAATTCCGAACATTGTGATCGTGACCGTCGCAGGCGCTTCATTTACAAGCAACAAACTGCTGTCTTTCGGGATTTACGGAATGTATATGCTCGTCTTAATGGCGGTCATTTATAAGAAGTTTCCCGGCCTTTTAAAAACAACGAAAAAATGA	MIKKGFSLAVIIAVVMIGFMQKDVWLSMIRAGGMYAVLMSILLVAADVFFPIVPFAIIAALNGAVFGIVNGVWITLSGAMLGTMALFFLVRYGFRDWARKKLLAYPAAAQYEDSFHQHAFTAVLFGRLIPIIPSLAMNTVCGLSHIRWPIFFSASVLGKIPNIVIVTVAGASFTSNKLLSFGIYGMYMLVLMAVIYKKFPGLLKTTKK				NA	NA	NA	NA	NA
D1-12_01673	1257			hypothetical protein	ATGAAAAACCTGAAGTCTTGGCGGTACCCGATGTTTCTGTTAACCGGAATCGGGATAGCAAATATTGGTGAATGGATTTATTTTTTGTCTCTTAATCTTATTGTCTTAAAAGAAACGGGGTCTGCTTTTGCGGTTTCCATCCTTTATTTAATCAGGCCTGCGGCTGTTTTGATGACAAATGGGTGGGCGGGCAGCATCATCGACCGGTGCAACAAACGGAATATGATGATGTCGCTTGATTTCATCCGGGCTGCATTCATTGCCGTTCTGCCGCTGATGTTTACTGCACGGTCTTTATTTTCCGTTTATTGTATTGTATTTTTGATTCAAATGGCCAATGCGATGTTTCGTCCGTGTTCCATGGCGTATGTGACGATGCTTATCCCGGCTGAAAGGAGAAAACGATTCAATTCACTAAGGGCTTTGTCGGAATCAGGGGCTTTTCTCCTCGGTCCGGCTGCGGCCGGGCTGCTTTTTATCGCCGGCACGCCGATTTTTGCGATTTGGGTGAATGCGGCGGCTTTAGTGCTGTCCGGGTTCATCACGATGATGCTGCCGAACCTTGAAAATGAGCCTCACGTACATTCTCCCAGTCAGAAGCTTTCTTTGGCAGTGTACAAAGAAGATTGGAAGCTCGTCTATCGCTTCAGCCGAACGGCGCGAAACGTCATGATCATTTATTTTTTATTCAGTCTGGTCATGACCGTTATGCCATCCGCGCTTGATTCGCTTGAAGCCGCTTTTGCAAAAGAGGTTCTTCAGCTGACTGATGCCGATTACGGTTTTCTCGTCAGTGTCTCAGGGGCAGGCATTATTGCGGGGGCGCTTGTCAATGTGTTCTTTAATAAAAAAATGCCGGCTTCTTTATTGATGGGAATAGGCTCTTTATTCACAGCGGCCGGATATATGATTTATGCTTTTTCTGACGTTTTTTGGACGGCTGCTTTCGGATTTTTCCTTCTCGCTTTTTTTCTGGCATTTGCCAATACAGGCTTTCTGACGTTTTATCAAAAGAATGTTCCGGTGGACATCATGGGGAGAGTGGGGAGCTTTTATTCATTAGTCGAAGCTGTCTTCATTATAGTGGTAACGGCGGTTTTCGGAGCGGCTTCTGTCAGTTCGTCCGTCCGCGGCATCGTCATCGCAGGCGCTGCTGTTATGCTGGCGTTGGCAGCCGTTTTATGCTCGTTCTTATTTGCGGCCGCAAAAAGGAGGACTCCTGATGTATTTCAAGCGGATCAATGTAAACAAACATAA	MKNLKSWRYPMFLLTGIGIANIGEWIYFLSLNLIVLKETGSAFAVSILYLIRPAAVLMTNGWAGSIIDRCNKRNMMMSLDFIRAAFIAVLPLMFTARSLFSVYCIVFLIQMANAMFRPCSMAYVTMLIPAERRKRFNSLRALSESGAFLLGPAAAGLLFIAGTPIFAIWVNAAALVLSGFITMMLPNLENEPHVHSPSQKLSLAVYKEDWKLVYRFSRTARNVMIIYFLFSLVMTVMPSALDSLEAAFAKEVLQLTDADYGFLVSVSGAGIIAGALVNVFFNKKMPASLLMGIGSLFTAAGYMIYAFSDVFWTAAFGFFLLAFFLAFANTGFLTFYQKNVPVDIMGRVGSFYSLVEAVFIIVVTAVFGAASVSSSVRGIVIAGAAVMLALAAVLCSFLFAAAKRRTPDVFQADQCKQT	PGPT0027965_1040	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
D1-12_01674	723	sigK	COG1191	RNA polymerase sigma-K factor	GTGACAGGTGTTTTTGCAGCGCTCGGGTTTATTGTGAAAGAACTTGTGTTTTTAGTATCATACGTGAAAAATAATGCCTTTCCACAACCGCTCTCAAATAATGAGGAGAAAAAATACTTAGACCTTATGGCTGAAGGAGATGAACACGCCCGCAACATGCTGATCGAACATAATCTCCGTTTAGTCGCCCATATTGTGAAAAAATTCGAAAACACGGGAGAGGACGCAGAAGATCTGATCTCCATCGGTACAATCGGGCTGATCAAAGGAATTGAAAGCTATTCAGCCGGAAAAGGCACGAAGCTTGCCACATATGCCGCACGATGTATTGAAAATGAGATTTTAATGCACCTGCGCGCATTGAAAAAAACGAAAAAAGACGTCTCCCTTCATGATCCGATCGGCCAGGATAAAGAAGGGAATGAAATAAGCCTGATCGATGTCCTCAAGTCGGAAAGCGAAGATGTGATCGACACCATTCAGCTCAACATGGAACTTGAAAAGGTCAAAAAATATATCGACATTTTAGACGACCGCGAAAAAGAAGTCATCGTCGGCCGCTTCGGGCTTGATCTAAAAAAAGAAAAAACGCAGCGCGAGATCGCAAAGGAGCTCGGCATTTCAAGGAGTTACGTGTCGCGGATTGAAAAACGCGCATTGATGAAAATGTTTCATGAGTTTTACCGGGCGGAGAAGGAGAAGCGGAAGAAGAAGGGAAAGTGA	MTGVFAALGFIVKELVFLVSYVKNNAFPQPLSNNEEKKYLDLMAEGDEHARNMLIEHNLRLVAHIVKKFENTGEDAEDLISIGTIGLIKGIESYSAGKGTKLATYAARCIENEILMHLRALKKTKKDVSLHDPIGQDKEGNEISLIDVLKSESEDVIDTIQLNMELEKVKKYIDILDDREKEVIVGRFGLDLKKEKTQREIAKELGISRSYVSRIEKRALMKMFHEFYRAEKEKRKKKGK	PGPT0014795_965	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
D1-12_01675	843			hypothetical protein	ATGATAAAGTCTTTTTTAATGTTGGGGCAGTCGAATATGGCGGGCCGTGGATTTTTGAATGAAGTAGACCCTATCTATAATGAAAAAATAAAAATGCTGCGCAATGGACAGTGGCAGATGATGACAGAGCCGATTAATTACGACCGTCCGGTTTCCGGCGTTGGCCTGGCGGCATCTTTTGCAGATGCATGGTCGAAAGCTCATCCCGATGAAGAAATTGGCTTGATCCCCTGTGCGGAAGGCGGCAGTTCATTGAATGACTGGCATCCGGAAGGCATCCTTTTTCAGCATGCTTTGTCCGAAGCCCGCTTCGCCCTCCAGTCCAGTCAAATTTGTGGAATCCTTTGGCACCAAGGTGAGAGTGACAGTTATCGTTCGCTGCATGAAACTTATTACGAGAAATTAACTCTTATCATCGAAACGCTAAGAAACGAGTTGAAACTTGATGAGGTACCGTTGATTATTGGAGGGCTTGGTGACTTTCTTGGGAAGACCGGTTTTGGACAGCACGCGACTGAATTTCGACAGGTTAATGAACAATTGCTGCGTTTTGCTAATGAACAACAGAATTGTTATTTTGTTACTGCGGCAGGTCTGACTGCGAATCCTGATGGCATTCATTTAGACGCAGCTTCACAACGCAAATTCGGTTACCGCTATTTCGAGGCTTTTTCGAAAAAGCACCATATCCTGAAACCCATTTCGGGAGAGGAGCAATCACTGAAAGTGAATGGTGGCTATTCTAAAACAGAACAGATTTACCTTCATAGTATGGATTTGGCTTCGGGTAAAATCACGTACGCGGAATTTGAGGCGCGGATGGCGAAGGTGATGAAACCATGA	MIKSFLMLGQSNMAGRGFLNEVDPIYNEKIKMLRNGQWQMMTEPINYDRPVSGVGLAASFADAWSKAHPDEEIGLIPCAEGGSSLNDWHPEGILFQHALSEARFALQSSQICGILWHQGESDSYRSLHETYYEKLTLIIETLRNELKLDEVPLIIGGLGDFLGKTGFGQHATEFRQVNEQLLRFANEQQNCYFVTAAGLTANPDGIHLDAASQRKFGYRYFEAFSKKHHILKPISGEEQSLKVNGGYSKTEQIYLHSMDLASGKITYAEFEARMAKVMKP				NA	NA	NA	NA	NA
D1-12_01676	528			hypothetical protein	ATGATTCCCTTACTTATCCTTGGCTTGCTCATCCAAAACCCCGGAGCTCACGGCTATGAACTTCTGGCTTTAATGGAAAAACGTCATTACAAATACATTGTTAACTTCACGAAAGGTTCATTTTATTACAATCTGCAGCAACTTGAAGAAAAGTGTTTGATTGAACAGATTCAGCAGAAACCCTCAACCAGCGGGCGTGAAATCCGTAACTTTAAAGTCACAGATTCGGGAAAGGCAGAATTCGAAAAATTAATGATCAAATACGGCACCAAATCGGAATATGTGAACCTGCCATTTTATGGGGCGTTACTCTTTGCCGATGAATTCGACAAAAATAAATTACTGGATCTGATCCAATCACAAATCGATCAGACTAAAACTCGAATCGAGCTTCTTGATGAATACCTGTCCATCACTCAAGAAATTCCCGGCACAATCAATTACTTTCGCCGCATGAATGAAAATTCCCGTTCACATCACTTGGTTAATTTAGAGTGGTTCGAAAAATTGAAAGCAGAAATAGAGTGA	MIPLLILGLLIQNPGAHGYELLALMEKRHYKYIVNFTKGSFYYNLQQLEEKCLIEQIQQKPSTSGREIRNFKVTDSGKAEFEKLMIKYGTKSEYVNLPFYGALLFADEFDKNKLLDLIQSQIDQTKTRIELLDEYLSITQEIPGTINYFRRMNENSRSHHLVNLEWFEKLKAEIE				NA	NA	NA	NA	NA
D1-12_01677	873	rhaR_2		HTH-type transcriptional activator RhaR	ATGGATTCGCTTAAAAGGATGAACAGCGCATTAACGTATATTGAAGAAAACCTCACGAACGATATTGATTTCAAAGAAGCAGCAAGGCTTGCTTTCTGCTCTGAATATCATTTTAAAAGGATGTTTTCCTTCCTTACAGGTATTTCATTATCGGAATATATTCGCCGCAGACGTCTTACTCTTGCAGCTTTTGAACTTAAAGACAGCAGCGTAAAGGTGATTGATCTTGCAATAAAATACGGTTATCACTCACCAGATTCTTTTGCACGAGCATTTCAAAATTTGCATGGCATAAGACCATCAGAAGCTAAACATAATGGCCATTCACTTAAAGCTTATCCGCGAATGACCTTCCAGTTATCAATCAAAGGAGGAAATGAAATGAACTATCGCATTGAAGAAAAAGAGGCATTTCGCATCGTCGGCATTAAAAAAAGAGTCCCTATTTTGTTTAAAGGCGTGAATCCTGACATTGCATCGATGTGGGAAAGTTTAGATGAAGCAGCAATCAATCAACTAAAAGAGCTTTCTAATGTAGCGCCTGTAGGACTCATTAGTGCATCCACGAACTTTTCTGAAGGCCGGACAGAGGAAACAGGAGAGCTTGATCACTATATTGGCGCAGCCACAACGAAACATTGCCCAAATCACCTATCACAGCTTGAAGTCCCTGCCTCAACATGGGCTGTATTCGAAGCAGCCGGATCATTTCCGGATGCACTGCAGGAAGTATGGGGGCGGATTTATTCCGAATGGTTTCCATCGTCACATTATGAACAAATTGAAGGCCCAGAAATCCTGTGGAACGAGCATAAAGATGTAACATCGCCATCTTTTAAAAGTGAAATTTGGATCCCCATTTCAAAAAAGTAA	MDSLKRMNSALTYIEENLTNDIDFKEAARLAFCSEYHFKRMFSFLTGISLSEYIRRRRLTLAAFELKDSSVKVIDLAIKYGYHSPDSFARAFQNLHGIRPSEAKHNGHSLKAYPRMTFQLSIKGGNEMNYRIEEKEAFRIVGIKKRVPILFKGVNPDIASMWESLDEAAINQLKELSNVAPVGLISASTNFSEGRTEETGELDHYIGAATTKHCPNHLSQLEVPASTWAVFEAAGSFPDALQEVWGRIYSEWFPSSHYEQIEGPEILWNEHKDVTSPSFKSEIWIPISKK				NA	NA	NA	NA	NA
D1-12_01678	900	gltR_1	COG0583	HTH-type transcriptional regulator GltR	ATGGAAATACGGCACTTAAAAACATTTATAACAATTGTGGAAAAGGGAGGATTTACAAAGGCAGCTGAATATTTGGGTTATGCCCAATCGACCATAACTTCACATATTAAAGATATTGAGCAAGAAATAGGAAAACCGTTATTTAATCGTTTTGGGAAGAAAATGCTGTTAACTGAAGCGGGGGAACTTTTGTTTCCTTATGCAAACGAAATGATCAGGATATCTGAAAAAGTAAAACAAATACAATCCAACGATGAACCGATGGGGACTCTCGTTATTGGTGCTCCGGAATCTTTAACGGTTTACCGTTTACCTCCAATTATTCACGAATTCAAAAAGCTCTTTCCTAAAGTGAAAATAACATTGAAATCATCGACATGCTGGGAATTAAAAAACGATCTCCGAACTGGGAAGGTGGATTTAGCGTTTCTTTTGGAGTACGAACAAGAGGAAGCTGATTTATATATAGAAAAATTGATAACTGAACCAATGATCTTGATATTCCCTAAAAAGCATAGGTTGCAAAATACTCCATTTGATGATTTTTATTTTTCACCTGATGAAGTGATTTTATATACAGAACATGGGTGCAGCTACCGTACTTACTTTGAAGAGTATATGAAACACCAAGGACCGGTTTCGGAGAATACCTTTGAATTCTGGAGTGTAGAGGCAATTAAGCAGTGTGTGATGTGCGGATTAGGAATTTCGTTATTACCGTTGATCACTGTACAAAAAGAGTTGAAAGAAAACAAATTAAGTGGATTGATTTTGAATGAAACACGTATTTTAACGCAGATGGCTTATCATAAAAAAAGATGGCATTCCTTAGCGATGGCTGAATTTATAAATATCGTAAAAAAACATGCGGAATTATGGAAAAGAACTCAGACTTTATAG	MEIRHLKTFITIVEKGGFTKAAEYLGYAQSTITSHIKDIEQEIGKPLFNRFGKKMLLTEAGELLFPYANEMIRISEKVKQIQSNDEPMGTLVIGAPESLTVYRLPPIIHEFKKLFPKVKITLKSSTCWELKNDLRTGKVDLAFLLEYEQEEADLYIEKLITEPMILIFPKKHRLQNTPFDDFYFSPDEVILYTEHGCSYRTYFEEYMKHQGPVSENTFEFWSVEAIKQCVMCGLGISLLPLITVQKELKENKLSGLILNETRILTQMAYHKKRWHSLAMAEFINIVKKHAELWKRTQTL				NA	NA	NA	NA	NA
D1-12_01679	1269	yjeH	COG0531	L-methionine/branched-chain amino acid exporter YjeH	ATGGAATGGAAAGTGAGAGAAAGAAAACTCGGCCCCGTACTTTTAAGCGGATTAATTGTTGGTCCTATTTTAGGATCGGGAATTATATTGCTTCCACCAATCATTTATGGTAAGGCTGGAGATTATGCCATACTAGCATGGTTTATAATGATGATCATTAGTTTTCTATTTGCTTCATTGTTTGGAAAATTGAGTGTTTTATTTCCGAATGAATCTGGTGTTGCGCATACAGTCGAACTTGCATTTGGACAACATATAAAACAATTAACTTCTGTATTTTTTATTATTGCGGGCAGTGTGGGGCCAGTTGCCGTTCTCATGACAGCCAGTCAATACCTAAAGGCTTTGTTCAAAAGTAATGGTTGGCCGCTAGAGACATATGGAATCATTCTGATGATGATTTGTTTATTCGTTCTATTATTGAATATCTCTTCTGTAGGAAAAGTGTCATTTATGTTCTCCACAATTGCCACAGCAATATTGTTAAGTGGCGGAATTAGTTCAATTCCCTTTATGAGGGATAAAGCTTTTATTAAAACACCATTTCATCTTGATGATTTTGGTAATAGTATTCTATTACTTTTTTGGGCTCTAGTTGGTTGGGAAATTATAGGTAATTATAGTTTGGATGTCAAAAACAGAAAAAGAACGATTCCCCAAGCAATAGTAATAAGCTCAGTGGTCATCACAACGGTTTGTATTGTTGTAGCTGCTTCTTATCAATGGATTGATTTACATCACACACACACATTAACGATTATTTTAATTCCATTGCTTGGAACGTTTGCTTCACCGACAATGGCTTTCATCACAACAATATTATGTATGAGCACATATTTATTGGTTACTGGCGGAGTATCACGTCTAATAGCCTCAGAGAATAAAAAAACAACCTTGATTTCTTTCCGCTCCAAAACAAACATACCAATTGGAGCCATAGGCTTATTAACATTAATTCATACAATCGTTTTTATTCTTTTATTTATAAACTTCATTAATGTTGAACAAATTGTCGGCATAGCAAATGCTTTCTTTATTAGTAATGCGATTTGCGGTATTTTGTCTGCATATAAACTGCTACCTGGTAAGTTTTCAAAGAGTTTATCATTAATGCTTATTATCAGCTTTTTAATTATCCTTTCTTTCTCATCAATATGGGTTTTATTAATGCTTGCCCTTATAACTGCTTTTTATTTGATCCGACACTTTATTTGGATGCGTCAATTAAAGAAACCCGCTACTAATTCTCAAGACAAATTACGATTTTAA	MEWKVRERKLGPVLLSGLIVGPILGSGIILLPPIIYGKAGDYAILAWFIMMIISFLFASLFGKLSVLFPNESGVAHTVELAFGQHIKQLTSVFFIIAGSVGPVAVLMTASQYLKALFKSNGWPLETYGIILMMICLFVLLLNISSVGKVSFMFSTIATAILLSGGISSIPFMRDKAFIKTPFHLDDFGNSILLLFWALVGWEIIGNYSLDVKNRKRTIPQAIVISSVVITTVCIVVAASYQWIDLHHTHTLTIILIPLLGTFASPTMAFITTILCMSTYLLVTGGVSRLIASENKKTTLISFRSKTNIPIGAIGLLTLIHTIVFILLFINFINVEQIVGIANAFFISNAICGILSAYKLLPGKFSKSLSLMLIISFLIILSFSSIWVLLMLALITAFYLIRHFIWMRQLKKPATNSQDKLRF				NA	NA	NA	NA	NA
D1-12_01680	417	psiE		Protein PsiE	ATGAGATTTTCCAACAATTTTAAAAAGGCGCCTTACCTGTTACAAGCGCTTCTCAATGTCTGTCTGTTCTTCCTGGCGATAGCCTTAAGCGGACTTCTGATCAGCGAGACATGGTACATCGTGCAATTCGTATACAAGTCACTGTTCAACAAAGTGGACAGCTATTATGAGATGCTTGGGGAACTGCTTATATTCTTCATGTACTTTGAGTTCATTGCTTTGATTATCAAATACTTCAAATCAGACTTTCATTTCCCGCTTCGCTACTTTATTTATATTGGCATCACGGCTGTCATTCGTTTGATTATCATCGATCATGATCAGGCGATCTCAACGTTCTGGTGGGCGATGGCCATTCTTGCAATGATTTGTGCATTCTTTATTGTCAATAGACGAAATTCTGTTGTTGAACATTAA	MRFSNNFKKAPYLLQALLNVCLFFLAIALSGLLISETWYIVQFVYKSLFNKVDSYYEMLGELLIFFMYFEFIALIIKYFKSDFHFPLRYFIYIGITAVIRLIIIDHDQAISTFWWAMAILAMICAFFIVNRRNSVVEH	PGPT0015090_332	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0015090-psiE|yjbA-K13256	NA	NA
D1-12_01681	1299			hypothetical protein	TTGGCACATCGTAAATTTACGCTAACCAAAAAACTGGCTTTGCTGATCATGGTTGCTGCGATTGTGAGCGGTGTGATCTTTCTGACGTTGCAAAAGATCACAGATGATCTGATCGAGGGATACCTGAGTTCGGATGAGTATTACCACAAGGAGTCAGCGAGATACATTCAAAAATTCAGTCAGTACGTTTCAGAAAATGAGTTGTCTACATCGGATAGAAAAGCGTTTGGCGAGTGGGTCAAAAAAGAAAATTATATTAACCTCACCATATTCAAGGATCAGGAGCTGCAATATGATTCCGTTTATTCTGAATCGGATTATGGAAAGGAAAAGCTGACTCAGTATGCTCAAAATCATTCACATCCGGTCAAGTTCAGCGATGGTGAAGGACGAGTCATTATCGACGGTTTCTACTCTTCCCGATATTATGATCTGGCCTTTACTTTGGATTTGCTCGGTGCAACCCTCATCTTTTTAATCATTGTTCTCTTGGGCATTCGCCAAAGTCTTCGCTACCTTAAAACGCTTCACCAAGAGATTCATATTCTTGAAGGGGGCCAGCTGGACTACGAGATGACGATAAAAGGGCATGATGAATTAGCGATGATTGCAAAGAGCATTGAGGATCTGCGGAAAGCTTTCCTGGATAAACTTAAAGCTATCGAGGAATTGCAAGCTGAGAGCCGCAGCCTGGTTACCGAAATGTCGCACGATATGCGCACACCGCTGACGTCGCTGATCATGAATCTGGAGTTTGCCAAAAAAGAGGGAGGCGAAGCGGGTTCCAACAAAGATCGGTATGTAGCCAATGCTTATGGTAAAGCACTGCAATTAAAAAGCTTGTCTGACAATCTGTTTGCGTATTTCCTGCTGGACAAGGAATATGAGGCCGATCTGGAGACCGTTGCAGTGAAAGAAGTGATCTACGATCTAATATCAGATCAGATTGCTATCCTTCATCAGGAGCATTTCCGGGTCCATATTTCAGGCGAGCTGCCGGAAACCTATATTAACGTGAATTTGGAGGAGCTTGGGCGTGTATTTGATAATGTGTTGTCAAACTTATTTAAATACGCAGATCCGGAAGAAGAAATCAGCATCACGTTTATATCGGATCAAGAAATATTTGAGATTCATGTTAGCAATACGATTAAACTTGCGGATGTAACACCGGACAGCAACGGACTCGGTGAAAGAAGCATTGCGCGAATGATGTCCCGCATGCAGGGGCAGTTTCACAGTATACAAAAGAATTCCAAGTACTGCATCGTGCTGCGATTTTGGAACAGAAAGATGTAG	MAHRKFTLTKKLALLIMVAAIVSGVIFLTLQKITDDLIEGYLSSDEYYHKESARYIQKFSQYVSENELSTSDRKAFGEWVKKENYINLTIFKDQELQYDSVYSESDYGKEKLTQYAQNHSHPVKFSDGEGRVIIDGFYSSRYYDLAFTLDLLGATLIFLIIVLLGIRQSLRYLKTLHQEIHILEGGQLDYEMTIKGHDELAMIAKSIEDLRKAFLDKLKAIEELQAESRSLVTEMSHDMRTPLTSLIMNLEFAKKEGGEAGSNKDRYVANAYGKALQLKSLSDNLFAYFLLDKEYEADLETVAVKEVIYDLISDQIAILHQEHFRVHISGELPETYINVNLEELGRVFDNVLSNLFKYADPEEEISITFISDQEIFEIHVSNTIKLADVTPDSNGLGERSIARMMSRMQGQFHSIQKNSKYCIVLRFWNRKM				NA	NA	NA	NA	NA
D1-12_01682	696	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGACCCATCGAATATTAGTCGTAGAGGATGATCATGATATTGGTGATCTTTTGGAGGAATCCCTTACGCGTGCAGGATACGAGGTGCTAAGAGCCAAGGATGGGCAGCGAGCATTGCAACTTGTGAATGATTCGCTCGATTTGGTTATTTTGGATATTATGATGCCAGGCATTTCGGGAATCGAAACCTGTCAGCACATCAGGAAAACCTCTAACGTTCCAATTCTGTTTCTGACGGCCAGATCGAGTACACTCGATAAAACTGAGGGATTACTCGCCGGCGGCGATGATTATATGACTAAACCCTTCTCGGAAGAGGAACTTCACGCCAGAGTGATTGCTCAATTACGCAGATATACAATCTATCAGGAAAAGAAGGAACAGGAAGAAACATTTCTTATCGGGGGCAAACTGAGAGTGAGCGAAGAATTTAATGAGGTTTGGAAAGAGGAGCAGCAAATCAAGCTGTCAGATCTGGAATATCGTATCCTGAAACTGCTGATGAGCAAACGCAACAAAATATTTTCTGCTCAAAATATATATGAGAGTGTGTGGGGACAGCCTTACTTTTACTGTTCCAACAATACGGTGATGGTGCATATTCGGAAGCTGCGCTCCAAAATTGAGGATGATCCGGCACGTCCGGTTTATATAAAAACTGAATGGGGAAGAGGATATCGATTTGGCACATCGTAA	MTHRILVVEDDHDIGDLLEESLTRAGYEVLRAKDGQRALQLVNDSLDLVILDIMMPGISGIETCQHIRKTSNVPILFLTARSSTLDKTEGLLAGGDDYMTKPFSEEELHARVIAQLRRYTIYQEKKEQEETFLIGGKLRVSEEFNEVWKEEQQIKLSDLEYRILKLLMSKRNKIFSAQNIYESVWGQPYFYCSNNTVMVHIRKLRSKIEDDPARPVYIKTEWGRGYRFGTS	PGPT0028485_96	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028485-vanRC|vanRE|vanRG-K18349	NA	NA
D1-12_01683	1218			hypothetical protein	ATGATTGTACAAAACGAAGGACGCGGGCAACCGGTAAGTCTGCGGGAACGGGTTCATTTTCTGGACATCGTACGTGGATTTGCCTTGCTTGGCATTATTATTGTCAACTATTTCCTGATCGCAGATTCAGTAAAGGGATTCGAAATGGCCTCCGATGACGTACTGCACAATCTGGTTTCCTGGTTTGCCGAAGGGAAATTCGTTACATTATTCTCCTTCTTGTTCGGAGTTGGGTTTATGATCTTTATGGATCGAGCCGCGCAGAAGGTAGATAGTCCCAACAAGCTGTTTGCCCGTAGGTTATCTATCCTGTTGGGATTTGGCATTTTGCACATCACATTTGTTTGGGTCGGTGACATATTGACCTTTTACGCCGTAAGCGGCTTCCTGTTACTCGCCTTCTATAAACGCACGGCCAAAACGGTGCTTAGATGGATTATCGCACTTATCGTGTTTCAATTCCTGACTCCTGTTTTCACAATGTTGTACAATGTCATCAATACTGCTGGGTCAAAAAACCCGAATTTTTCAGAGTTTACTTTGTTTAGCCACACAACCCTTACTTACATGGAATCCATCAGCACTCGGTGGACAGATATGGTCACGATGGCGGCTGGCTCTTTCTCTATGATCTATTCCATGTTTCTCATGTTTCTGCTGGGCGTGTACTTTGTTAAGATGGAATTTTTCAAAGACATGGAAGCGAAAAAGTTCATATGGAAGCGTATCTGGATCATTAGCACAATCGCTTTTCTAATAACACAAAGCAGTATATTACTAGACATGTTTAATCTTTCTGAGAATATGCTGTGGAAGGACATTTCCTCTGTCTTGGGTCAAAATGGCGGCTTAACCGGAAGTATGTTTTATATGAGCACTTTTGCAATGCTGTTTCTGTACGTTCCTCAGCTGCGAGGCCCTATGATGATATTCACCAAAGTCGGACGGATGTCATTGACCTGTTATCTGCTTCACTCTATCATTGGAACAGTTCTGTTCCTCCGGTACGGATTCGGGCTTGCGGATCATATTCAATCCGCCGGCACGTTCATGTTCAGTCTGGCCGTGTACTTCGTGCTTATGAGCTTTAGTACATTGTGGTTGAAACGGTTTAGGTACGGTCCGATGGAATTAGTATGGCGCAAGCTGACGTACGGCAAAGTAAACGGGAATCCCAAAGCAACTCCGCTGCATTCGGAAAAATCTATTCAGAAATAA	MIVQNEGRGQPVSLRERVHFLDIVRGFALLGIIIVNYFLIADSVKGFEMASDDVLHNLVSWFAEGKFVTLFSFLFGVGFMIFMDRAAQKVDSPNKLFARRLSILLGFGILHITFVWVGDILTFYAVSGFLLLAFYKRTAKTVLRWIIALIVFQFLTPVFTMLYNVINTAGSKNPNFSEFTLFSHTTLTYMESISTRWTDMVTMAAGSFSMIYSMFLMFLLGVYFVKMEFFKDMEAKKFIWKRIWIISTIAFLITQSSILLDMFNLSENMLWKDISSVLGQNGGLTGSMFYMSTFAMLFLYVPQLRGPMMIFTKVGRMSLTCYLLHSIIGTVLFLRYGFGLADHIQSAGTFMFSLAVYFVLMSFSTLWLKRFRYGPMELVWRKLTYGKVNGNPKATPLHSEKSIQK				NA	NA	NA	NA	NA
D1-12_01684	168			hypothetical protein	ATGCAGCTTGTTTTCCAAGGAAACAAAGAAAAAGACATCATACAAAAAGACAGGAGAAAGCTTTTGAAGTATTTTAACGCCAAATTTACCGCGGAAGAAAAAGCGGCAGAGCAGCTGGAATGTTTTACTGAACGACTGAACTCGTTATTTCAGCAACTGAAGGAGTGA	MQLVFQGNKEKDIIQKDRRKLLKYFNAKFTAEEKAAEQLECFTERLNSLFQQLKE				NA	NA	NA	NA	NA
D1-12_01685	558			hypothetical protein	ATGAAAACAAAAAAGGAACCAAAAGTTATTCTGGAACCAGCAAAGGAATCTGATCTGCCAGAATTCCAAAAAAAATTACAAGAAGCCTTTGCGATCGCCGTGATTGAAACGTTCGGTGATTGCGAAGATGGACCGATTCCATCGGACAATGATGTTCAGGAGTCTTTCGACGCTCCCGGAGCAGTCGTTTATCATATTCTTCGGGATGGTAAGAAGGTAGGTGGTGCAGTAGTACGTATCAACAGCGAAACACATCATAATTCGCTAGATTTATTCTATGTATCTCCAGAACATCACAGCCAGGGGATTGGTCTTTCTGCTTGGAAAGCCATAGAAGCACAGTATCCGGATACTGTGCTTTGGGAAACCGTGACACCTTATTTTGAAAAGCGAAATATCAACTTCTATGTGAATAAGTGCGGATTCCATATCGTAGAGTTCTACAATGAATATCACTCTGATCCGCATATGCATCGCAATGGACGCGAAGATGACAAGTCCCTGCCGGATGATGATGACTTTTTCAGATTTGTAAAGTTTATGAAAAAAAAGGACTAA	MKTKKEPKVILEPAKESDLPEFQKKLQEAFAIAVIETFGDCEDGPIPSDNDVQESFDAPGAVVYHILRDGKKVGGAVVRINSETHHNSLDLFYVSPEHHSQGIGLSAWKAIEAQYPDTVLWETVTPYFEKRNINFYVNKCGFHIVEFYNEYHSDPHMHRNGREDDKSLPDDDDFFRFVKFMKKKD				NA	NA	NA	NA	NA
D1-12_01686	537			hypothetical protein	ATGAAAAATAAGATTCACATATTGGGAGCCTCCGGAGTCGGAACGTCAACATTGGGTGTTGCATTATCAAAGCATTTGCCGCATACGCATCTTGATACTGATGATTACTATTGGACAGATAAATTCACTAAAAAAAGAGAAATCCCTGAAAGAAGAAAGTTGCTTAAAAAAGACTTGACAATAAATGAGAAATGGATTCTTTCTGGCGCAGTGTGCCGCTGGGGCGATGATCTAAAAAGTTATTTTGACCTTGTCATCTTCTTATGGATTCCGCAGGATATACGGCTTGAGAGATTAAGGCATAGGGAATTTCAGCGTTATGGAAACGAAGTGTTAGCCGGCGGCAGTAAATATGAACAATCAAAAACATTTTTAGAGTGGGCTTCTTTATATGATCATGCCGGAATGGAAGTTAGAAGCAAAGCTTTACACGAACATTGGATGGCAGATTTATCTTGTCCATTGTTAAAAATTGAAGGAGATTACTCAGTCAATGAAAGAGTTGATCGTGTCTTGGATTATCTGAATTCTAATTAA	MKNKIHILGASGVGTSTLGVALSKHLPHTHLDTDDYYWTDKFTKKREIPERRKLLKKDLTINEKWILSGAVCRWGDDLKSYFDLVIFLWIPQDIRLERLRHREFQRYGNEVLAGGSKYEQSKTFLEWASLYDHAGMEVRSKALHEHWMADLSCPLLKIEGDYSVNERVDRVLDYLNSN				NA	NA	NA	NA	NA
D1-12_01687	219			hypothetical protein	GTGAATTACATTTATAAGAAAAAGGAAAAGAAAAATGGAAATTGTATCATTTCAATCAGAGATAAATGGGAGAACGCACTTATTGAGTTTGAACAAAAAAATAATCAAATTGAGATCATGATCAATTACCGTAACGAGAAAACAACCAAGTTTTCACTGCCAATCGAGACTTTTGAAAAAGTGTATGAGGATATTAAAATAGGCCGGAGAGAAAGTTAA	MNYIYKKKEKKNGNCIISIRDKWENALIEFEQKNNQIEIMINYRNEKTTKFSLPIETFEKVYEDIKIGRRES	PGPT0028670_90	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
D1-12_01688	1377	ribZ_1		Riboflavin transporter RibZ	GTGAATACGCCTTATTCACAGTCAGCTTTACGGCACAACCAAGTGTTCATTTGGCTTTGTGTTCTGTCATTTTTCAGCGTATTAAATGAAATGGTTTTGAACGTCTCGTTACCTGATATCGCCAACGATTTTCATAAACTGCCAGCGAGTGCAAACTGGGTGAACACGGCCTTTATGTTAACCTTTTCCATCGGAACTGCTCTGTATGGGAAGTTATCAGATCAGCTGGGCATCAAAAAACTGCTCCTATTTGGAATTATGGTAAATGGCTTCGGATCGATCATTGGATTTGTCGGACACTCTTTCTTTCCTGTACTCATTCTGGCCCGATTTATTCAAGGGGCTGGTGCAGCCGCATTCCCGGCTCTTGTGATGGTTGCAGTAGTACGCTATATTCCGAAAGAAAACAGGGGTAAAGCATTTGGTCTGATCGGTTCGCTGGTGGCAATGGGGGAAGGTGTCGGACCAGCTATTGGCGGAATGATCGCTCATTATATTCACTGGTCATATTTGCTGCTTATTCCGACAGCAACAGTTATCACCGTTCCATTCCTGATGAAACTGCTGGAAAAGGAAGAAAGAGTCAGCGGGCGCTTTGATATGACGGGGATTATATTAATGTCTGCAGGCATCGTATTTTTTCTGCTGTTTACAACTTCATATAGAATGTCTTTTCTGATCATCAGTATTCTAGCTTTCCTGATATTTGTGAGACATATTAGGAAAACTCAAGATCCCTTTGTTGACCCTGCACTGGGGAAAAATGTTTTGTTTATGATGGGCGTCCTTTGCGGAGGCCTGATCTTCGGCACTGCTGCAGGATTTGTGTCTATGGTTCCTTATATGATGAAAGATGTTCACCATTTAAGTACTGCGGCAATTGGAAGCGGGATTATGTTCCCCGGGACGATGAGCGTCATCATCTTCGGTTACATTGGAGGATTGCTTGTTGATCGGAAAGGTTCTTTGTATGTGCTGACCATTGGGATTGTATTGATGTCTTCCAGCTTTTTAATCGCTGCCTTTTTCATAGATGCGGCACCTTGGCTCATGACCGTTATAATCGTTTTTGTTTTTGGGGGGCTCTCCTTCACAAAAACGGTTATATCTACAATTGTGTCTGGCAGTTTGAAACAAAAGGAAGCCGGCGCCGGAATGAGTCTGCTTAATTTTACGAGCTTTTTATCAGAGGGAACGGGAATTTCGATTGCAGGCGGTTTATTATCGATCCGCTTGCTGAATCAAAGGCTGCTGCCTGTTAACGCTGATCATTCCGCTTATTTGTACAGTAATATGCTCATTCTTTTTGCAGGAATCGTTGTTATGAGCTGGCTGGTAACCGTGAATGTCTATAAACGTTCGCGAAGAAATGACTAA	MNTPYSQSALRHNQVFIWLCVLSFFSVLNEMVLNVSLPDIANDFHKLPASANWVNTAFMLTFSIGTALYGKLSDQLGIKKLLLFGIMVNGFGSIIGFVGHSFFPVLILARFIQGAGAAAFPALVMVAVVRYIPKENRGKAFGLIGSLVAMGEGVGPAIGGMIAHYIHWSYLLLIPTATVITVPFLMKLLEKEERVSGRFDMTGIILMSAGIVFFLLFTTSYRMSFLIISILAFLIFVRHIRKTQDPFVDPALGKNVLFMMGVLCGGLIFGTAAGFVSMVPYMMKDVHHLSTAAIGSGIMFPGTMSVIIFGYIGGLLVDRKGSLYVLTIGIVLMSSSFLIAAFFIDAAPWLMTVIIVFVFGGLSFTKTVISTIVSGSLKQKEAGAGMSLLNFTSFLSEGTGISIAGGLLSIRLLNQRLLPVNADHSAYLYSNMLILFAGIVVMSWLVTVNVYKRSRRND	PGPT0027880_208	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027880-tetB-K08168	NA	NA
D1-12_01689	525	satA		Streptothricin acetyltransferase A	ATGATGATAACTAAAATGACTCGTTTCAATATGAAAGACTTCAATAAACCAAACGAACCTTTCGTTGTTTCAGGGAGAATCATCCCTTCATTTGAAAACAATGTTTGGACATATACAGAGGAGAAATTTGCTGAACCTTATGTCAAAAAATATGACGATGATGACATTGATGTCAGTTATATTGAAGAAGAGGATAAAGTTGTCTTTTTTTATTACGCAGAGAACGACTGTGTCGGCCGGAGTAAGCTTCGTTCTAATTGGAATGGATACGCACTGATTGAAGACATTGCCGTTGCAAAAGATTATAGAAAAAGTGGTGTCGGGACGGCTTTATTACATAAAGCGATTGAGTGGGCAAAGGAGAATCATTTATGCGGTCTTATGCTTGAAACACAAGATATTAATGTTTCAGCTTGTCATTTTTATGCCAAAAATAACTTTGTCATAGGAGCGGTCGATACAATGCTTTATTCCAATTTTTCAACAGCAAATGAAATTGCGGTTTTTTGGTACTGTAAATTTTAA	MMITKMTRFNMKDFNKPNEPFVVSGRIIPSFENNVWTYTEEKFAEPYVKKYDDDDIDVSYIEEEDKVVFFYYAENDCVGRSKLRSNWNGYALIEDIAVAKDYRKSGVGTALLHKAIEWAKENHLCGLMLETQDINVSACHFYAKNNFVIGAVDTMLYSNFSTANEIAVFWYCKF	PGPT0028670_65	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
D1-12_01690	501			hypothetical protein	ATGTTTCAAACCTTAGACCATTTTTTGAAATCTTGGGAATTCGAAGCCGATGCGACACAAAAACTGCTGAATCATCTGACTGATGAATCACTTAAACAAGAAATCACTTCACAACATTGGACTTTAGGCCGTATTGCATGGCATACTGTCGCGGCGATTCACATCATTACCTCAAACACAGATTTAACGTTTCATGCTCCTGCTGAAGATTATCCTGTTCCTGCGTCGGCGCGGTTTATTGCTGAGAGTTATCATCAAGCCAGTAATGCATTTGTGCAGGCGTTAAAAACGCAATGGACTGACGATACACTTCAAGAATGTGTCAACTTTATTGGTCAGCAAATGCCGAATGGTTCACTTTTGATGTTTTTAATTCAACATCAAAACCATCATCGAGGACAAATGACTGTCCTTATGAGACAAGCAGGTTTACCTGTTCCGGGTATTTATGGTCCGGCAAAAGAGGAATGGACAACATTTGGTTTGGAAGCTCCGAAATAG	MFQTLDHFLKSWEFEADATQKLLNHLTDESLKQEITSQHWTLGRIAWHTVAAIHIITSNTDLTFHAPAEDYPVPASARFIAESYHQASNAFVQALKTQWTDDTLQECVNFIGQQMPNGSLLMFLIQHQNHHRGQMTVLMRQAGLPVPGIYGPAKEEWTTFGLEAPK				NA	NA	NA	NA	NA
D1-12_01691	285			hypothetical protein	TTGAAATTGGGAGGTGTTTGTATTAGCCCGCTGTTGAGTCCCGCGTATATCATTCTCATTTTTCTTCCGGCAGCTTCTTTTCTGTTAGGGGTTTTAGGATATTTCATCTTCAAAAAAGTATGGATGATGGTTGTTATTGTATTCATTTTGTCCTTGATATTTATGTTTATTGTAATAGGTGCCGAACCGACATTTTTCATTTGGGTGGCTATGATGACGGGGAGCTGTTTTATCTCCGGTTCAATCACTAAGACGATATGGACTTTTGCAAAGCGAAAATATTAG	MKLGGVCISPLLSPAYIILIFLPAASFLLGVLGYFIFKKVWMMVVIVFILSLIFMFIVIGAEPTFFIWVAMMTGSCFISGSITKTIWTFAKRKY				NA	NA	NA	NA	NA
D1-12_01692	804	ybjI_1	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YbjI	ATGATTAAATTAGTGATTACGGATTTAGACGGCACATTTTTAAATAATCAAGGCGATTTTGACAGAACGTTATTTGAAAAGACAAAAAGAGTAATGGAGGAACAGCATGTCGCTTTCGCCATCTGCACCGGGAAACAGTGTGAAAGGGTGGAAGCCTTATTCGGAGAAGACGCGAAAGATTTTTGGATTTTAGGAGACAGTGCTGCACGTATGAAAAAGAACGGCAAGTTCGTATATGAATCTTTAATCAGCAATAAAGCCGGACTGTCAATTATAGGCGCTTTAGAAAAAATCAGCTGCGGGCACACCATTATCGCGTGCACAAAAAAAGGCGCGATCGTAAAAGAAAATCTGTCTGAAAGTGAAATGAAATATGTAAATGCCTCTTATGCACATGTAACGAAAATAACTGATTTTACTGAGATAAAAGACGATTTTATCAAGATTACGGTTCATGACCCCGACGCCAACTGTCCGGAAACGAGAGAAAAGCTGCATGAATTTTTTCACCAATTATATATCGTAGCATCAGAAGATGCCTGGATGGACATATCAAATATCGGAATACATAAAGGATCAACAGTACAAGAACTGCAGCGATTATTAGGGGTTTCGGCAGATGAAACAATGGCATTCGGAGACGGCCGCAATGACAAAGAATTGATGGAAGCGGCATCCTACAGCTTTGCGGTTAAGAACGCCATTGACGAAATAAAAGATGCGGCGCACTTTGTCATCAAATCAAATGACGAAAGCAGCGTCATGCACACGATTATGAGAATATTAGCGCTGCAAAAACAATGA	MIKLVITDLDGTFLNNQGDFDRTLFEKTKRVMEEQHVAFAICTGKQCERVEALFGEDAKDFWILGDSAARMKKNGKFVYESLISNKAGLSIIGALEKISCGHTIIACTKKGAIVKENLSESEMKYVNASYAHVTKITDFTEIKDDFIKITVHDPDANCPETREKLHEFFHQLYIVASEDAWMDISNIGIHKGSTVQELQRLLGVSADETMAFGDGRNDKELMEAASYSFAVKNAIDEIKDAAHFVIKSNDESSVMHTIMRILALQKQ				NA	NA	NA	NA	NA
D1-12_01693	813	ybjI_2	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YbjI	ATGAGTATCAAACTGATAGCGGTTGATATGGACGGAACGTTTTTGAATGATGAAATGGCATATAACAAAGAGCGTTTTATGAATCAGTATCGTGAATTAAAAGCGCGAGGAATTAAATTTGCCGTAGCAAGCGGAAACCAATATGCGCAGCTTACATCCTTCTTTCCGGAAATCAAAAGTGAAATCGCTTTCGTTGCCGAGAATGGCGCTTTCGTCGTGAATGCCGGAGAAGAATTATTCGCGGGTAACATGTCTGAAGACACTATAAAAGCAGTAATCCGTGCTTTAGAGCAGTATGAGGTGAAAAACGTCATTGTCTGCGGAAAAAAAAGCGCGTATATTCATGAAAATGCCAGTGAAGATGAATATCTGCATGCCAGTAAGTATTATTATGTGTTAAAAAGGGTGCCGCATTTTGAAAACATCGATGATGACATTTTAAAATTTTCCATCAGCTTTCCCGCCGAACATTGTTCCGCACTTCTGAGCCATTTAAAAAACGCAATCGGGTCTTTCGTCACGCCTGTATCAAGCGGGCACGGTGACATAGATCTGATCATACCGGGGCTTCATAAAGCAAGCGGGATTAGGCTTCTCCAGAAACAATGGGGGATAAATGATGAAGAATGCGCGGCCTTCGGAGACAGCGGCAATGATTTGGAGATGGTGTCCGCCGTGAAATACGGAGTCGCCATGGATAATGCGCAGGAAAGCATTAAACAGGCCGCAGCGCATATCACGCAATCAAACAATGAGGAAGGGGTCTTAAACGCGATTGATTCCATTCTCAAATGTGAAAAACCCTTTGTCTGA	MSIKLIAVDMDGTFLNDEMAYNKERFMNQYRELKARGIKFAVASGNQYAQLTSFFPEIKSEIAFVAENGAFVVNAGEELFAGNMSEDTIKAVIRALEQYEVKNVIVCGKKSAYIHENASEDEYLHASKYYYVLKRVPHFENIDDDILKFSISFPAEHCSALLSHLKNAIGSFVTPVSSGHGDIDLIIPGLHKASGIRLLQKQWGINDEECAAFGDSGNDLEMVSAVKYGVAMDNAQESIKQAAAHITQSNNEEGVLNAIDSILKCEKPFV	PGPT0008580_205	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008580-ybjI-K20861	NA	NA
D1-12_01694	726	ybbH_1	COG1737	putative HTH-type transcriptional regulator YbbH	ATGTTCACACACGAAATGATTGCTTCATTTAATGAGCTTGAAACTTCTTTATACAACTACATCTCCCAAAACAGCGAGAAAGTCGTCTATATGCGAATCCGTGAATTGGCAAATGAAACCCATGTATCGACGGCTTCTATTTTACGTTTCTGCAAAAAAATAAACTGTGAAGGGTTTTCGGAGTTTAAGGTGAAGCTGAAAATGTATACGGAGGCAAATAAAAAAACGATTTTAAAGAGTCCTCATCATTCCGTTGCCGAATTTTTTGAAAGAACAGTAAGCGGAGGCATGGAAGAAAAGCTGAAGGAAGCAGCAGCCCTTGCGGCCGATGCAGAAAGCGTCATTTTTATCGGAGTGGGAAGTTCAGGAATCCTCGCCGAATACGGAGCCAGATATTTTTCGTGCTTAGGGAAACTTTCAATGTATATTAAAGATCCTTACTTTCCGGCCCATTCCCATTTCCGTCATAACAGCATCACGATCGCATTATCGGTTTCAGGTGAAGGAGATTCTACGGTGACTCATCTGAATCAGCTGAAACAAGAAGGCAGCCGGGTCATCAGTATTACAAATCATAAACATTCAACCATTGCCAAAATGTCCGATGTGAATATTTCATATTACGTGACGGAAGAATGGGTTGAAAATGCGAATGTCACCACCCAAATCCCCGCTATGTACATACTTGAATCGATGGCTCGGGAGATATACAAATTGAGAGAATAA	MFTHEMIASFNELETSLYNYISQNSEKVVYMRIRELANETHVSTASILRFCKKINCEGFSEFKVKLKMYTEANKKTILKSPHHSVAEFFERTVSGGMEEKLKEAAALAADAESVIFIGVGSSGILAEYGARYFSCLGKLSMYIKDPYFPAHSHFRHNSITIALSVSGEGDSTVTHLNQLKQEGSRVISITNHKHSTIAKMSDVNISYYVTEEWVENANVTTQIPAMYILESMAREIYKLRE				NA	NA	NA	NA	NA
D1-12_01695	948	manA	COG1482	Mannose-6-phosphate isomerase ManA	ATGTCTACTGAACCGATATTTTTCAATCCGGTTTTCAAAGAAAGAATTTGGGGAGGCGCCGCCCTGCGTGATTTTCACTATAATATTCCGTCCGAGCGGACAGGGGAGTGCTGGGCCTTCGCCGCTCATCAAAATGGACAGAGCACAGTTCGAAACGGCATGTATAAAGGATGTACGCTCGGTGAATTGTGGGAGCATCACAGAGATTTATTCGGAAACCTTGAAGGAGACCGTTTTCCTCTTCTTACAAAAATTTTGGATGCGGACCAAGACCTGTCCGTTCAGGTGCATCCGAATGATGACTTTGCCAAAATGCATGAAAACGGGGAACTTGGAAAAACCGAATGCTGGTATATCATTGATTGTGCAAAAGATGCGGAGATCATTTTCGGCCACAACGCAACTACAAAAGAAGAACTGATATCCATGATTAAGCACGGAGAATGGGACGGGCTCCTGAACAGAGTTAAGGTAAAGCCGGGAGATTTCTTCTTTGTTCCAAGCGGCACCGTTCACGCGATTGGAAAGAGCACACTTATTTTAGAGACGCAGCAAAATTCAGATACGACTTACAGATTGTATGACTACGGAAGAAAAGATGCGGACGGCAGGATGCGCGAGCTCCATTTGGAAAAAAGTATAGAAGTGATAGACGTTCCATCTGTCCGTGAACGGCCGACCGTTCACTATAAACAAACAGATGATCTGCTTGCGGCTATTTTAATAGAATGTCCTTATTTTTCAGTCGAAAAGTGGGATGTAAAAGGTGAAGCAAATCTATTCCAGCATCAGCCCTTCCTTCTTGTCAGCGTGATCGAAGGAGACGGAATAATGATTGCAGGCGGGCATGAATATCCCTTTAGAAAAGGAGATCATATTCTCCTGCCTTCCGGTTTGGGAGAATATAAACTGGCCGGCCATGCAAATTGTATTGTGTCTCATCTGTGA	MSTEPIFFNPVFKERIWGGAALRDFHYNIPSERTGECWAFAAHQNGQSTVRNGMYKGCTLGELWEHHRDLFGNLEGDRFPLLTKILDADQDLSVQVHPNDDFAKMHENGELGKTECWYIIDCAKDAEIIFGHNATTKEELISMIKHGEWDGLLNRVKVKPGDFFFVPSGTVHAIGKSTLILETQQNSDTTYRLYDYGRKDADGRMRELHLEKSIEVIDVPSVRERPTVHYKQTDDLLAAILIECPYFSVEKWDVKGEANLFQHQPFLLVSVIEGDGIMIAGGHEYPFRKGDHILLPSGLGEYKLAGHANCIVSHL	PGPT0017860_2847	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
D1-12_01696	1959	manP	COG1299	PTS system mannose-specific EIIBCA component	ATGAAACTGTTAGCGATTACATCATGTCCGAACGGCATTGCCCATACGTATATGGCTGCTGAAAATTTACAAAAAGCAGCCGGCAGATTAGGCGTTGAGATCAAAGTGGAAACCCAGGGCGGAATCGGGGTGGAAAATAGGCTGACCGAAGAGGAAATCCGGGAAGCGGACGCAATCATTATCGCGGCGGACCGTTCGGTGAACAAAGACCGATTCGCGGGAAAAAAGCTGCTGGCCGTCGGGGTTCAGGAAGGCATCCGCAAACCGGAAGAATTAATTCAAAAAGCGCTTAGCGGTGAAGTGCCGGTCTATCAATCTGCTTCAAAAGCTGAATCCGCAAGTCAGCAGGGCAAAAAACAAAACCCGATTTACCGTCATTTAATGAACGGCGTTTCTTTTATGGTTCCTTTCATTGTCGTCGGCGGATTATTGATAGCGGTTGCATTGACGCTTGGAGGAGAAAAAACACCAAAGGGCTTAGTCATTCCGGACGAGTCTTTTTGGAAAACGATTGAACAGATCGGCAGTGCTTCTTTTTCATTCATGATCCCGATTTTAGCCGGGTACATCGCGTTCAGCATCGCTGATAAGCCGGGTCTTGTCCCCGGAATGATCGGCGGATATATTGCGGCATCCGGCAGCTTTTACGACAGTGCAAGCGGCGCAGGATTTCTTGGAGGAATCATTGCGGGATTTTTGGCGGGATATGCGGCGCTTGGAATCAAAAAATGTAAAGTTCCTAAAGCAATACAGCCGATTATGCCGATCATTATTATTCCGGTGTTTGCCTCACTGATCGTCGGTTTGGCGTTTGTATTTCTGATCGGCGCCCCCGTCGCTCATATTTTCGCATCATTAACGGTTTGGCTTGCGGGAATGAAAGGTTCGAGCTCAATTCTCCTGGCATTGATTTTAGGAGCGATGATCTCCTTTGATATGGGAGGACCCGTAAACAAGGTGGCCTTTCTTTTCGGATCGGCAATGATCGGAGAAGGAAATTATGAAATTATGGGCCCGATTGCCGTTTCCATTTGTATACCGCCGATAGGGCTTGGGATTGCGACGTTTTTAGGAAAAAGAAAATTCGCCGCCGCAGAAAGAGAAATGGGAAAAGCATCATTTACGATGGGCCTTTTCGGTATCACGGAAGGAGCCATTCCATTTGCGGCCCAAGACCCCCTTCGAGTGATCCCGAGTATTATGGCGGGTTCTATGACCGGCTCGGTGATAGCAATGATCGGCCATGTGGGGGACAGAGTGGCACACGGCGGCCCCATCGTTGCTGTACTTGGAGCAGTAGATCATGTACTGATGTTTTTTATCGCTGTAACAGCAGGCTCTCTTGTCACCGCTCTGTTGGTTAATGTACTGAAGAAAGATATGGCGAAATCCCCCGCGCCCGGCGAGGTGCTGCCGTCTGCTGCACCAAATGAAGCTGCAGCGGCAAAAGAAACAAAGGAACCATCTCAGGCTGACAGCCGAAAAGCCGGGATGACCGAAATCAAAAAACTGACTGACATTATCAGTACGGACTTGATTGAACCGCATTTATCCGGCGAAACGAGGGATGACATTATCGATGAAATGATCGAGAAAATGTCCCGTCAAGGTATGCTGCTGTCTGACAGCGGATTTAAGCAGGCCATTTTGAGCCGGGAACAGCAGGGAACCACGGCGATAGGTATGAATATCGCCATTCCGCACGGAAAGTCTGAAGCCGTCAAAACGCCGGGTGTCGCATTCGGAATAAGACGTTCGGGTGTTGACTGGAACAGCCTTGATGGTTCTGATGCAAAACTGATTTTTATGATTGCCGTACCGAAGGAAAGCGGCGGAAATCAGCATCTGAAAATATTGCAGATGTTATCCCGAAAACTGATGGATGACAGCTATCGGGAAAGGCTGCTCTCCGTTCAGACAAAAGAAGAGGCGTATGAGCTTCTGGAAGAAATCGAATAA	MKLLAITSCPNGIAHTYMAAENLQKAAGRLGVEIKVETQGGIGVENRLTEEEIREADAIIIAADRSVNKDRFAGKKLLAVGVQEGIRKPEELIQKALSGEVPVYQSASKAESASQQGKKQNPIYRHLMNGVSFMVPFIVVGGLLIAVALTLGGEKTPKGLVIPDESFWKTIEQIGSASFSFMIPILAGYIAFSIADKPGLVPGMIGGYIAASGSFYDSASGAGFLGGIIAGFLAGYAALGIKKCKVPKAIQPIMPIIIIPVFASLIVGLAFVFLIGAPVAHIFASLTVWLAGMKGSSSILLALILGAMISFDMGGPVNKVAFLFGSAMIGEGNYEIMGPIAVSICIPPIGLGIATFLGKRKFAAAEREMGKASFTMGLFGITEGAIPFAAQDPLRVIPSIMAGSMTGSVIAMIGHVGDRVAHGGPIVAVLGAVDHVLMFFIAVTAGSLVTALLVNVLKKDMAKSPAPGEVLPSAAPNEAAAAKETKEPSQADSRKAGMTEIKKLTDIISTDLIEPHLSGETRDDIIDEMIEKMSRQGMLLSDSGFKQAILSREQQGTTAIGMNIAIPHGKSEAVKTPGVAFGIRRSGVDWNSLDGSDAKLIFMIAVPKESGGNQHLKILQMLSRKLMDDSYRERLLSVQTKEEAYELLEEIE	PGPT0017120_676	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
D1-12_01697	1953	manR	COG1762	Transcriptional regulator ManR	ATGAAATACATGAATTCAAGGCAGAAAAAGATTTTGTATCTGTTGTTATCTGAACCTGATGACTACTTAGTTGTGCAAGATTTCGCAGACAGGGTCCGCTGTTCTGAAAAAACGATCAGGAATGATTTGAAAACGATTGAAGATTTCCTGAATGAACATGCTCAAGCTCAGCTGATCCGCAAACCGGGATTAGGCGTCTATTTACATATATCTGAACAGGAAAGGTCACAGTTAAGCCGGCAAATTTATAATGAGCACTTTACGTGCAGGCACAAGACCGATGAAGAAAGAATACTTCACATCGCTTATGATTTATTAATGAATTCAAAGCCCGTTTCCGCAAAAGAAATTGCCGCACAGCATTTTGTAAACAGAGCTTCCATTAAAAAGGATGTAAGTGCGGTTGAAGAGTGGCTGAAGCGATTTGATCTCACGCTGGTTTCTAAACAGCGGCTCGGCTTAAAGATTGAAGGGGACGAAAAAAACAAAAGAAAAGCATTGGCGCGAATTTCAGATTTGATTGATAATATGGAGTTTACAAGCCAATTTATAAAAAGTAAGTTTTTAAGTCATGAAGCGGATTTTGTGAGAAAAGAAATCAAGTTATTACAAAAAAACCATTCTATCTATTTTACGGATGAAACATTTGAAAGTTTGCTGCTGCATACATTGCTGACGATCCGCCGTATCAAAATGAAACAGCCGGTCGCCATTTCTGCAAGACAGCTGGAAGCAGTAAAAAAGAAGAAAGAATATGAATGGACACTGGCTTGTTTAAAACGGCTTGAGCCGGTATTTGCCATCCGGTTTCCTGAGGAAGAAGCCGTCTATTTAACTTTACATATAATAGGCGGGAAAGTCCGCTATCCATCGCAGCAAGAAAAGAAGCTTGATCTTGAAGATTCTGAGCTTTCCAAAGTCGTCAGGCATTTGATCAATCGTGTTTCAAAACTGCAAATGCTGGATTTTCATAAAGACCAGGAACTGATCAACGGATTGAACATTCATCTCGATCCGGTGTTGAAGCGGCTGAGCTATGATCTCTCTGTTTCAAACCCCATGCTTCGCGACATCAAAAAAATGTACCCTTATTTGTTTCATCTTATCATTGACGTTTTAGAAGACATCAATCAAACATTTGATCTCTGTATTCCTGAAGAAGAGGCGGCCTATTTGACGCTGCATTTTCAGGCAGCGATCGAACGGCTGCGCCGAAGCAGTCATAACCCTAAAAGGACGATCATCGTCTGCCATATGGGCATTGGCATGTCGCAATTGCTGCGGACTAAAATTGAACGCAAATTTCATCACATTACGGTAAAAGAATGTATCGCAAAAGCGGAGCTGACAGAGTATATCAAAAAGCATAAAGATATAGATTTCGTCATTTCTACGATAGGGCTTGGAAATGTAACGATCCCTCATATTGTCGTATCACCGCTTTTGGAGCCTGCTGATGAAAAGAAGCTCAGCGCATTTATGCAACAGCTTGATACATCGCACCGCCGGGAGCAAAAAACGTTTAAAATGCTGAACGATACGACTCCGTTTCTCGTTTTTTTACAGCAAGAGACAGAGCACCGTTATCAGGTCATTGAAAAGCTGGCGCAGGCTTTGTATGAAAAAGGCTATGTAGAAAAAGAGTATGGCATCCATGCAGTAATGAGAGAAAAAATGTCGGCGACAAATATCGGGGCGGGTATTGCCATCCCTCACGCGAACTCTAAATATATCAAACAATCAGCCATTGCAATCGCCACCTTAAAAGAGCCGATTGAGTGGGGGACGGAAAAGGTGTCGCTCGTTTTTATGCTTGCCGTCAAACACGAAGATCAAAACAAGGTAAAGCAATTATTCAGTGAGCTTTCCTATCTTAGCGAGCAGCCGGCATTTATTCAAAAACTGACGGAAGAAAAAAATGTGATGACGTTTTTATCGTATTTAAACTATTAA	MKYMNSRQKKILYLLLSEPDDYLVVQDFADRVRCSEKTIRNDLKTIEDFLNEHAQAQLIRKPGLGVYLHISEQERSQLSRQIYNEHFTCRHKTDEERILHIAYDLLMNSKPVSAKEIAAQHFVNRASIKKDVSAVEEWLKRFDLTLVSKQRLGLKIEGDEKNKRKALARISDLIDNMEFTSQFIKSKFLSHEADFVRKEIKLLQKNHSIYFTDETFESLLLHTLLTIRRIKMKQPVAISARQLEAVKKKKEYEWTLACLKRLEPVFAIRFPEEEAVYLTLHIIGGKVRYPSQQEKKLDLEDSELSKVVRHLINRVSKLQMLDFHKDQELINGLNIHLDPVLKRLSYDLSVSNPMLRDIKKMYPYLFHLIIDVLEDINQTFDLCIPEEEAAYLTLHFQAAIERLRRSSHNPKRTIIVCHMGIGMSQLLRTKIERKFHHITVKECIAKAELTEYIKKHKDIDFVISTIGLGNVTIPHIVVSPLLEPADEKKLSAFMQQLDTSHRREQKTFKMLNDTTPFLVFLQQETEHRYQVIEKLAQALYEKGYVEKEYGIHAVMREKMSATNIGAGIAIPHANSKYIKQSAIAIATLKEPIEWGTEKVSLVFMLAVKHEDQNKVKQLFSELSYLSEQPAFIQKLTEEKNVMTFLSYLNY				NA	NA	NA	NA	NA
D1-12_01698	918		COG2220	putative protein	ATGAAAAAAAGATATGAAAACTTGAATGGCGTGAAGAATGAACATGGATTCAGGGACATGTTGAAATGGATGAAAGAACGAAGAGAGAAAAGTAAAGACTTAAGCGAGAACATTCCGAAAGCGGTCACTAGGGATGTCCGTGATGTTGCCGTCAATCGGACGGAAACCGCCATAACATGGATCGGCCATTCTTCATTTCTGATCCAAATACAGGGGCTTAACATAATGACCGACCCTGTATGGGCGCGGCGGATGGGTTTTCAAAAACGGCTGACAGAGCCGGGATATGAATTGAGCGAACTGCCCGACATTGATGCCGTGCTCATTTCACACGGGCATTATGACCATCTTGATTTTCCGAGCATAAAAAAACTGAGAGGAAACCCGGATTTTTACGTGCCTGCGGGACTGAAAAAGCTGTTCAACAAAAAAGGCCGCAAAAAGGTCCATGAAATGAATTGGTGGGATCGTTTTGAGATGCGGGGGGTGAATATATCATTTGTTCCGGCCCAGCACTGGACACGGAGAACGCTTTGGGATACCAATACCTCTCATTGGGGAGGCTGGGTCATAGAAAGCGAAAACGGCGAGTCCATCTATTTTGCAGGAGATACAGGCTATTTTGAAGGCTTTAAAGAAATCGGAGAGAGGTTTCGTATTAAGGCGGCTCTGATGCCGATCGGAGCATACGAACCGGAATGGTTTATGCAAGTGTCACATATCAATCCGGAAGACGCCGTGAAAGCGTTTTTGGAGCTGAAGGCTGACAGCTTCATTCCGATGCATTACGGGGCATTCCGGCTTGCTGATGATACAGGCCCGGAAGCATTAAGCAGACTGCACGGCGAGTGGAACCGGCTTGCATTACCTCCTGAAAACCTGAAAGCATTAGCGCTTGGCGAAACATTTTGGCTGTAA	MKKRYENLNGVKNEHGFRDMLKWMKERREKSKDLSENIPKAVTRDVRDVAVNRTETAITWIGHSSFLIQIQGLNIMTDPVWARRMGFQKRLTEPGYELSELPDIDAVLISHGHYDHLDFPSIKKLRGNPDFYVPAGLKKLFNKKGRKKVHEMNWWDRFEMRGVNISFVPAQHWTRRTLWDTNTSHWGGWVIESENGESIYFAGDTGYFEGFKEIGERFRIKAALMPIGAYEPEWFMQVSHINPEDAVKAFLELKADSFIPMHYGAFRLADDTGPEALSRLHGEWNRLALPPENLKALALGETFWL				NA	NA	NA	NA	NA
D1-12_01699	483	ybaK	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGGCGAAAAAAACAGTGAAAACAAATGCTGTCCGTATCATTGAGCAGCAAAACATTCCCTATGAGCTATTAGGTTACAAAACAGAAGGGGGACAGCCCGCAGACGGTCTTTCCGTTTCACAAAAAATCGGATACTCTGCCGAATATGTTTATAAAACCTTAGTGGCATCTGCAGGAACTGATCGTTATTACGTCTTTGTCGTTCCCGTTGCAAAAGAACTGAATCTGAAAAAGGCTGCGAAGGCGGCAGGTGAGAAGAAAATAGAAATGATTGCCATGAAGGACCTTTTGGGAGTGACCGGCTATATACGCGGCGGCTGCTCTCCGATCGGAATGAAAAAAAGGTTTCCGACTTTTATTGATAGATCCGCTGAAACACTGGGGTTTATGATTGTCAGTGCGGGGAAAATCGGAATGCAGCTTAAAGTAGCGCCTCAAGATTTAGCCGAAGCAAGCGGAGCGGTATTTACAGACATTGTATAA	MAKKTVKTNAVRIIEQQNIPYELLGYKTEGGQPADGLSVSQKIGYSAEYVYKTLVASAGTDRYYVFVVPVAKELNLKKAAKAAGEKKIEMIAMKDLLGVTGYIRGGCSPIGMKKRFPTFIDRSAETLGFMIVSAGKIGMQLKVAPQDLAEASGAVFTDIV				NA	NA	NA	NA	NA
D1-12_01700	885	gltC_2		HTH-type transcriptional regulator GltC	ATGGAGCTTCATCAAATTGACAACTTCATTGCGGCGGCAACTCATCAGCATTTCACAAATGCGGCAAAAGAAAGGATGATTTCTCAGCCGGCATTAAGCCGATCGATTATCAGGCTCGAAGAAGAATTAGGCGCGCCGTTATTTTACAGAGAGACAAAAGCCGTCCGGCTGACAAGGCACGGAGAGCAGTTCTTAATAAAAGCAAAACAAGCGAGACGAGCTTTAAATGAAGGCGTTGAACAAGTGAAAAAAAATATGAGCCTGGAACACGGCGAAATATCTGTATCTTTTCTTCATACGCTCGGGCTGCGCTTGATGCCTCAGCTGATTGCCGAATTTAAAAAGCTATACCCAAACGTGACCTTCCGGCTTTATCAAGGTGCAAATGAAACGCTTCGCAAAATGGTGGAAACGGGAGATGCGGATATCTGTCTCAGCTCCCCGCCGCTTCCAAGCGAGCTTTTACAATGGACAGTGCTGGAGAAAGAGCCTCTTTATGCGGTGCTTCCTGAGAACCACCCGCTTGCAGGAAATAAAAGCATTCAAATGAAAGAGATGCAGGACGAGGATTTTGTCGGATTTAAACCGGGATACGGGCTGAGGTATATGTTTGATCTGATGTGCCGGGATTTGAATATACACCCGCATCTCGCATTTGAAGGAGAGGAAGTGTCAACCATATTAGGGCTGACCGCCGCGGGTCTTGGGGCTGCAGTTCTGCCGAAAACCGCGGAGCATTCATACTTTCCGGTCGTTTTTCTCCCGGTTGCAGATTACCAATGCGAACGCACCATAGCGTTAGCCCAGTTAAAAAACCATGCTCTCTCTCCTGCTGCTGAGCGTTTTAAACAGTTTGCACTTGAGTATTACAAAGGACGCAACTGA	MELHQIDNFIAAATHQHFTNAAKERMISQPALSRSIIRLEEELGAPLFYRETKAVRLTRHGEQFLIKAKQARRALNEGVEQVKKNMSLEHGEISVSFLHTLGLRLMPQLIAEFKKLYPNVTFRLYQGANETLRKMVETGDADICLSSPPLPSELLQWTVLEKEPLYAVLPENHPLAGNKSIQMKEMQDEDFVGFKPGYGLRYMFDLMCRDLNIHPHLAFEGEEVSTILGLTAAGLGAAVLPKTAEHSYFPVVFLPVADYQCERTIALAQLKNHALSPAAERFKQFALEYYKGRN				NA	NA	NA	NA	NA
D1-12_01701	1209	ynfM		Inner membrane transport protein YnfM	ATGACGTTTATTCAGCCTCATACAAAGGCTTACAGAAAGGCCAGCTTGGCTCTGTTTATCAGCGGCTTTGTGACATTCGCCACGCTTTACACGACACAGCCGCTTATGCCTTTGTTTTCGGAAGAGTTTCATATTTCCGCTGCGGCTGCCAGCTTAACTTTATCCATCTCAACAGCCGTTTTGGCATTTTCATTATTGGCCGCCGCTTCGTTGTCTGACGGATTCGGCAGAAAAAAATTAATGGTGCTGTCGTTAACAGCTACTTCTGTTTTAGGTCTATTAACAGCGTTCAGTCCGGCTTTTCCGGCGCTTTTGGCGATGAGGGGGCTGCTCGGTATTTTTCTGGCGGGCGTTCCTGCTGTCGCTATGACATATGTAGGCGAGGAGTTTGATCCGAAGGGCCTCGGGAAAATGATGGGCTTATATATCAGCGGCACAAGCATCGGGGGAATGAGCGGCAGGCTGTTAACGGGGCTTCTGACTGATGTATTCGGCTGGCGGCCGGCGCTTGCCATTATCGGCATTCTTTCTATTGTATTAAGCTATTTGTTTTGGCGTTTTCTTCCGGCTCCGCGCCATTCATCTCAGCGGCATGCGGGCGTAAAAGCGGCATGTAAGGAATACGGAGCGGTTCTACACCGCAAACGGCTGCTTTTGTTAATATCTCTGGGATTTATATTAATGGGGAGTTTTGTGACATTGTATAATTATATCGGCTTTCATTTAATGGCGGCTCCTTATCATTTGTCGCAGACTGTGATCGGTTTTATTTTTATTGTCTATCTCGCGGGAACGTTCAGCTCTGTCTATATGGGGAAAAAAGCGGACCTTTTCGGAAGTTCAAAAATGATTAAGATTGCGATTTTTGTTATGCTGGCCGGTGCAGCGGTGACACTTTTGCCCCAGCTTGCCCTTAAAATCGCGGGGATTGCCGTCTTTACCTTCGGCTTTTTCGGCGCACATTCGATCGCAAGCGCCTGGGTCGGCCGCGCAGCCGGTGATCAGCGCGCGCAAGCCTCTTCATTATATCTGCTTGCATACTATATCGGGTCAAGCGTGGCCGGGTCTTGCGGCGGTTTCTTTTGGACGCATTTTCATTGGATCGGTATCATTTCATTTATTTCGGTTTTGCTATTGCTGTCTTATCCGGTTTTATTTCTGGCGGAATTCAGAAAAAAGGGACATAGCCGCCTGCATGTAAATCAATAA	MTFIQPHTKAYRKASLALFISGFVTFATLYTTQPLMPLFSEEFHISAAAASLTLSISTAVLAFSLLAAASLSDGFGRKKLMVLSLTATSVLGLLTAFSPAFPALLAMRGLLGIFLAGVPAVAMTYVGEEFDPKGLGKMMGLYISGTSIGGMSGRLLTGLLTDVFGWRPALAIIGILSIVLSYLFWRFLPAPRHSSQRHAGVKAACKEYGAVLHRKRLLLLISLGFILMGSFVTLYNYIGFHLMAAPYHLSQTVIGFIFIVYLAGTFSSVYMGKKADLFGSSKMIKIAIFVMLAGAAVTLLPQLALKIAGIAVFTFGFFGAHSIASAWVGRAAGDQRAQASSLYLLAYYIGSSVAGSCGGFFWTHFHWIGIISFISVLLLLSYPVLFLAEFRKKGHSRLHVNQ	PGPT0017201_1408	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
D1-12_01703	3162	cypB	COG0369	Bifunctional cytochrome P450/NADPH--P450 reductase 2	ATGAAACAGCTAAGCGCTATACCGCAGCCGAAAACATACGGACCTCTGAAAAATCTCCCTCACTTGGAAAAAGAAAAACTGTCACAATCGCTCTGGAAAATTGCCGAAGAATACGGCCCGATCTTTCGTTTTGAATTTCCGAGCTCTATCGGGGTCTTCGTCTCAGGCCGCGAGCTCGCGGCAGAAGTCTGTGATGAAAAGCGATTTGATAAAAACCTCAGCAAAGCCTTGCTGAAAGTCCGTGAGTTTGGCGGTGACGGACTATTTACGAGCTGGACTCACGAAAAGAATTGGCAGAAAGCGCATCGGATTTTATTGCCGAGCTTCAGCCAGAAGGCGATGAAAGGCTATCATTCAATGATGCTTGATATTGCCATGCAGCTCGTGCAGAAGTGGAGCAGATTAAATCCGAATGAAGAAATTGACGTTGCCGAAGATATGACGCGCCTGACGCTGGATACAATCGGCCTGTGCGGATTTCATTACCGCTTTAACAGCTTTTACCGCGACACACAGCATCCTTTTATCACAAGTATGCTTCGCGCGCTGCAGGAGGCAATGCGCCAATCGCAGAGACACAGCCTGCAGGACAAGCTGATGATCAAAACGAGACATCAGTTCCAGCAGGATATTGAAGTGATGAATGAACTCGTAGACCGGATTATTGCTGAGCGGAGGGAAAATCCGGATGAGAATCTGTCTGATCTTTTAGCATTGATGCTTGAAGCGAAAGATCCTGTAACGGGTGAAAGGCTGGATGATGAGAATATCCGCTATCAAATCATTACCTTTTTGATCGCGGGGCATGAAACCACAAGCGGACTGCTTTCATTCGCGATTTACTGCCTGCTGAAAAATAAAGATAAATTGAAAAAAGCCGTTCAGGAAGCCGAGCGGGTGCTGACGGGAGAGACACCTGAATATAAGCAGATTCAGCAGCTGACATATATCCGCATGGTGCTGAACGAGACTTTGCGGCTGTATCCGACTGCCCCGGCATTTTCCCTGTACGCGAAAGAAGATACGGTTCTCGGCGGGAAATATCCGATTGCGAAGGGACAGCCGGTGACGATTCTGACTCCGCAGCTGCATCGGGATAAAAGCGCGTGGGGAGAAGATGCCGAGTTATTCCGTCCGGAAAGGTTCAGCGATCCCGCGGCAATTCCGGCTGATGCGTATAAGCCGTTCGGAAACGGACAGCGCGCATGCATCGGGATGCAGTTTGCCCTGCAGGAAGCGACAATGGTGCTCGGCCTTGTCCTTAAACACTTTGAACTGATTGATCATACTGATTATGAGCTTACGATTAAAGAAGCTTTAACCATTAAGCCCGGTGATTTTAAAATCCGTGTGAAAAACAAGGATGTGTCCAATCAGCAGTCCGCACAAAACCATAAAGCTGAAGGCAGCGGTCACAAAGAAGAAACGACAGAAATCCCGTCCCACGGAACGCCGCTTCTCATTCTTTACGGTTCAAATTTGGGAACTGCGGAAGGAATCGCGGAAGAGCTGGCTGACATCGGCAGAAGCAAAGGATTTTCAACTGAAACCGGCCCGCTCGATGATTATACGGGGAAACTGCCTGTAAAAGGCGCAGTCGTTATTGTGACGGCTTCTTATAACGGGGCGCCGCCTGATAACGCAGCGGGCTTTGTGAAATGGATGGAAACCCTTGAAGATCAGGAATTAAAGGGTGTTTCTTACGCTGTCTTCGGCTGCGGAGACCGCAACTGGGCCGCCACTTACCAGAGGATCCCCCGCCTGATAGACAAAGTGCTTGAAGAAAAAGGGGCAAAACGGCTGACTTCTATCGGGGAGGGCGACAATGCCGATGATTTTGAGTACAGTCAGGAAGCCTGGGAAGACTCATTCTGGAAGGACATCATGAAGACTTTTCATATAGAGGCCGCTCCAAAACAGGCAAACAAATCACAGTTATCAATCGAATACGTAAGTGAAGCAGCCGAGACGCCGATTGCCAAAACGTACAAAGCATTTGAGGCGGAAGTCATCACAAACAAAGAGCTTCATACCGAAAGCAGCAAGCGTTCAGTCCGGCATATTGAGCTGCGTCTCCCGAAAACCGAAACGTATCGGGAAGGAGACCATCTCGGGGTGCTTCCGCAAAACAGCGGGGAACTGATCAGCCGTGTCATTCGCCGATTCGGTCTTGATCCGAACCAGCACTTTAAGATCAAGGGCCGGCAGCTGCCTCATCTGCCGATGGACCGGCCGGTTAATGCGCCGGAGCTTTTGGCGTCATATGTAGAGCTGCAGGAACCGGCAACGAGAGCCCAGCTTCGCGAACTTGCCGCCCATACCGTGTGCCCGCCGCACCAAAAAGAATTGGAGCATCTTTATTCTGACGATGCGGCATATAAAGAAAACGTGCTGAAAAAACGAATGACCATGCTGGACCTGCTGGAAGATTATCCGGCTTGTGAACTGCCGTTTGAGCGCTTTTTAGAACTTCTGCCGTCCTTAAAGACGCGCTATTATTCAATCTCAAGCTCACCGAAGGCAAACAAAAGGGAGCTCAGTATCACGGTCGGCGTTGTGACGGCTCCGGCGTGGAGCGGCCGGGGAGAATACAGGGGCGTGGCTTCGAACTATTTAGCCGGATTACAAAATGGCGATTCTGCCGTCTGTTTCATCCGCTCGCCGCAGTCGGGTTTCGCATTGCCTGAAAATACGAAAACGCCTCTCATTATGATCGGAGCAGGCACCGGAATTGCACCGTTCAGGGGATTTATCCAGGCGCGGGCAGCAGAAAAAATGTCCGGTAACAGCCTGGGCGAAGCTCATTTATACTTCGGCTGCAGACATCCTGAAGAAGACGATCTGTACAAAGATGAATTCGACCATGCGGAGAAAAACGGCCTTGTCACCGTGCATCGGGCGTATTCCAGATTAGATCAGGACTGTAAAGTTTACGTACAGGATGTCCTGCTTCGCGAGGCTGCACAGATTATTGCGCTTCTTGACCAAGGCGGCCATCTCTATATATGCGGAGACGGAAGCAAAATGGCTCCGGCTGTCGAAAATGTACTGCTTCAGGCGTATGAAAAGGTGCATAACACTGATTCAAAAGTTTCCTTGAATTGGCTTGAACAGCTGCAGGCGGAAGGAAGATATGCGAAAGATGTTTGGGCAGGTGTGTAA	MKQLSAIPQPKTYGPLKNLPHLEKEKLSQSLWKIAEEYGPIFRFEFPSSIGVFVSGRELAAEVCDEKRFDKNLSKALLKVREFGGDGLFTSWTHEKNWQKAHRILLPSFSQKAMKGYHSMMLDIAMQLVQKWSRLNPNEEIDVAEDMTRLTLDTIGLCGFHYRFNSFYRDTQHPFITSMLRALQEAMRQSQRHSLQDKLMIKTRHQFQQDIEVMNELVDRIIAERRENPDENLSDLLALMLEAKDPVTGERLDDENIRYQIITFLIAGHETTSGLLSFAIYCLLKNKDKLKKAVQEAERVLTGETPEYKQIQQLTYIRMVLNETLRLYPTAPAFSLYAKEDTVLGGKYPIAKGQPVTILTPQLHRDKSAWGEDAELFRPERFSDPAAIPADAYKPFGNGQRACIGMQFALQEATMVLGLVLKHFELIDHTDYELTIKEALTIKPGDFKIRVKNKDVSNQQSAQNHKAEGSGHKEETTEIPSHGTPLLILYGSNLGTAEGIAEELADIGRSKGFSTETGPLDDYTGKLPVKGAVVIVTASYNGAPPDNAAGFVKWMETLEDQELKGVSYAVFGCGDRNWAATYQRIPRLIDKVLEEKGAKRLTSIGEGDNADDFEYSQEAWEDSFWKDIMKTFHIEAAPKQANKSQLSIEYVSEAAETPIAKTYKAFEAEVITNKELHTESSKRSVRHIELRLPKTETYREGDHLGVLPQNSGELISRVIRRFGLDPNQHFKIKGRQLPHLPMDRPVNAPELLASYVELQEPATRAQLRELAAHTVCPPHQKELEHLYSDDAAYKENVLKKRMTMLDLLEDYPACELPFERFLELLPSLKTRYYSISSSPKANKRELSITVGVVTAPAWSGRGEYRGVASNYLAGLQNGDSAVCFIRSPQSGFALPENTKTPLIMIGAGTGIAPFRGFIQARAAEKMSGNSLGEAHLYFGCRHPEEDDLYKDEFDHAEKNGLVTVHRAYSRLDQDCKVYVQDVLLREAAQIIALLDQGGHLYICGDGSKMAPAVENVLLQAYEKVHNTDSKVSLNWLEQLQAEGRYAKDVWAGV	PGPT0006740_368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0006740-cpxB-K14338	NA	NA
D1-12_01704	567	bm3R1		HTH-type transcriptional repressor Bm3R1	ATGACAGCTTCAAACAAGGTTGAACTCATTATGAAAGCGTCGCTTACTTTGTTTACAGATAGAGGATTTGACGCCACGACGATTCCGATGATTGCCGCTCAGGCCGATGTCGGAACCGGCACAATCTACCGTTACTTTGACAGTAAAGAGACACTTGTGAACGTACTGTATCAGGAAAGTGCGCAGCGTTTTATGAAAAAAGTCAAAACGGACTTTCAAGGGATATCTGTAAGAGAAGGGTTTCATCACCTGTTTTATTGTCTGATTGATTTTACGAAGGAAAGTGAGTATGCATTGTTTTTTCTTGAAACGAATAAGGACGCCTACTTTCTGAATGAAACGAGCCGTAAGCTTCTTGATGAAATAACACAGATGCTTGACGTCTTTTTTCAGCGCGGCAAGTCTGAAGGTGTGCTCCGCAATCTGCCGTCCAATGTGCTGATGGCGCTGCTGCTCGGGGCATATCTCAAACTCTATCAGCTTATCCGGACGGGAAGCGTCGAAATAACAAAACCGTTTCTGAAAGAATTGGAACAATGTTCTTGGGATGCCATCAGAACTCATTAA	MTASNKVELIMKASLTLFTDRGFDATTIPMIAAQADVGTGTIYRYFDSKETLVNVLYQESAQRFMKKVKTDFQGISVREGFHHLFYCLIDFTKESEYALFFLETNKDAYFLNETSRKLLDEITQMLDVFFQRGKSEGVLRNLPSNVLMALLLGAYLKLYQLIRTGSVEITKPFLKELEQCSWDAIRTH				NA	NA	NA	NA	NA
D1-12_01705	540	yrhH	COG0500	Putative methyltransferase YrhH	ATGTTGCAACATACATCTTCAGCATTAAAACGAATGCGCGCGAAATACTTTGCTGCATCAGAACCGGCAGAGTCAGTCATTCAGCAAATCTTGATGGACATACAGGAATACGACCGCATTTTGGAAATCGGGACCGGAAACGGCTCAATGTTTAAACAAATCATCGGACAGCTTGAAAAGGGCAGTCTTAAAAGCATAGAAACATCGAAACGTAAAATACGGAAAACACAGCGCGCAAACCGTTCGGTTATAAAAGCCGGGCTCGGAAACATTCAGCAGGGGAGGCCTGAAAACTTACCGTTCCGCGATCGCAGCTTTCATAAAGTTTTCTCATTACATACTGCTGAAACAGTCAGCGATTACCGGACAGCATGTAAAGAAGTGTACCGCGTTCTTCAAATTGACGGATGTTTCTATATGGTTTTGAAACCTTCGCGGATGAGTGAGAAGGATGTGATTGAGGTGCTCTATGATCAGCATTTCAGAGACATTTCAGTTGTCAGCAGAGATTCATTCCATTTTATTACTGCCATTAAATAG	MLQHTSSALKRMRAKYFAASEPAESVIQQILMDIQEYDRILEIGTGNGSMFKQIIGQLEKGSLKSIETSKRKIRKTQRANRSVIKAGLGNIQQGRPENLPFRDRSFHKVFSLHTAETVSDYRTACKEVYRVLQIDGCFYMVLKPSRMSEKDVIEVLYDQHFRDISVVSRDSFHFITAIK				NA	NA	NA	NA	NA
D1-12_01706	141			hypothetical protein	ATGACCATTAATCTTTTCTTTTTAACACTGACCATTTCAAAGCGTTTTAAAAGTGCGGAAGAGTATGAACGAGAACAGCAGGTCGAAGAGTTTTATAATGAAGCGAAAGAACGACAGCTGAAACATTTTTATATGAACTGA	MTINLFFLTLTISKRFKSAEEYEREQQVEEFYNEAKERQLKHFYMN				NA	NA	NA	NA	NA
D1-12_01707	801	focA	COG2116	putative formate transporter 1	ATGGCTTTTCGTAAACCGGACGAAATAGCGGAGCTTGCGGTCGAATCAGGGGTAAAAAAGGTGCATTCACCGCTTTCAGCACTGATTGTATTAGGATTTTTGGGAGGAGCGTTTATCGCACTCGGTTATTTGCTTGATATCCGTGTCATCGGCGACCTTCCGAAAGAATGGGGAAGCCTGTCGAGTTTAATCGGGGCGTCCGTGTTTCCCATCGGATTGGTGCTCGTCGTTCTTGCCGGCGCGGAGCTGATTACGGGAAATATGATGTCGGTATCTATGGCGCTGTTTTCCAGAAGAATATCCGCCGGTGCATTAGTGAAAAATTGGGTGATCGTGACGTTGATGAATCTTGTCGGCGCACTGTTTGTCGCTTACTTTTTCGGACATGTTGTCGGATTAACCGAAACAGGACCTTACTTGGAAAAAACGATTGCGGTCGCACAAGGCAAATTGGATATGCCGTTTGGAAAAGTCATTGTTTCGGCGATCGGCTGTAACTGGCTTGTCTGTTTGGCCGTCTGGCTTTCTTTCGGCGCAGAAGACGGAGCCGGAAAAATCGCGGGTATATGGTTTCCGATTATGGCGTTTGTCGCAATTGGTTTTCAGCACGTTGTAGCCAATATGTTTATCATCCCGGCTGCGATATTTGCAGGCTCTTTTTCGTGGGGTGATCTGATTGGCAATCTCATTCCGGCCTTTATCGGGAATGTAATCGGCGGGGCAGTGTTTGTCGGCCTTATTTATTTTATTGCATATTCAAAAAAAGATCAGAAAAAGCAAGGGATGAAAAGAGTTTCCTGA	MAFRKPDEIAELAVESGVKKVHSPLSALIVLGFLGGAFIALGYLLDIRVIGDLPKEWGSLSSLIGASVFPIGLVLVVLAGAELITGNMMSVSMALFSRRISAGALVKNWVIVTLMNLVGALFVAYFFGHVVGLTETGPYLEKTIAVAQGKLDMPFGKVIVSAIGCNWLVCLAVWLSFGAEDGAGKIAGIWFPIMAFVAIGFQHVVANMFIIPAAIFAGSFSWGDLIGNLIPAFIGNVIGGAVFVGLIYFIAYSKKDQKKQGMKRVS	PGPT0017240_516	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
D1-12_01708	369			hypothetical protein	ATGTCTAAAAAAATTCATGAATTTAACGATATTATCCGGAAATTGCGCAAAGAATTATTTGGAAAGGGGCCGGAACGAATTCACACCGTTTTTGTGGATAACATGGCGGTATCAACGCTTTACGGCAATCTAAGCGCAAGTGAGCAGTTTATCGCACGCACGCCTGAAGGAAGAGAAATGGTTCATGCGGCGCGGACCAGCTTAATTCAGGAACTGTATTCAAAACAAACGCCTGACGGAATGGAAGAGCTCATCGGAGCAAAGCTCGTGCATCTGTTTTCAGACATCAAGATCGAAGAGAATATTGCGGTGTCTGTATTTGTCTTTGACCGAACCATTGAAGAGCGCAGTGAAGAAATCAAAAGCTGA	MSKKIHEFNDIIRKLRKELFGKGPERIHTVFVDNMAVSTLYGNLSASEQFIARTPEGREMVHAARTSLIQELYSKQTPDGMEELIGAKLVHLFSDIKIEENIAVSVFVFDRTIEERSEEIKS				NA	NA	NA	NA	NA
D1-12_01709	2988			Putative formate dehydrogenase	GTGCATGGCTTTTTTTCGAGTTTAAAAGATGGAGGGGAATTGGAAGTGACAGACGTTCAGTCTATCCGTGTCAAAATTGACGGCACGGAGTATGAAGCACCAGAGGGGTCAAAGATTTTAGATATTTTAAACCAAAACGGCATTGAGATTCCGCAAATATGCCATGTACCGGAAGTAGATCCGATTCAAACATGTGACACCTGTATTGTTGAAGTAAATGGGAAATTGCAGCGCTCTTGTTCCACGGCTGCAGAAAACGGGATGTCCATCTCGCTTACGTCGGGAAGGGTAAAAGAGGCTCAGACAGAGGCCATGGACCGCCTGCTCGAGAATCACCTGCTTTACTGTACGGTATGCGATAACAACAACGGCAACTGCACACTGCATAATACAGCGGAAATGATGGGAATTGAGCATCAGAAATATCCGTATACGCCGAAAGATGATTCAAAGTGCGCGGTTGATATGTCTCACCCGTTTTACCGCTATGATCCGAACCAATGCATCGCCTGCGGCCAATGTGTGGAAGTGTGTCAAAACCTTCAGGTGAATGAGACTCTTTCAATTGATTGGGAGCGCGACCGCCCGCGGGTCATTTGGGATGAAGGCGTCGCCATTAATGAATCTTCCTGCGTCAGCTGCGGCCAGTGTGTCACTGTCTGTCCTTGTAACGCACTGATGGAAAAATCAATGCTCGGCCAAGCCGGATTTATGACAGGAATAAAAGAAGATGTCATGGAACCGATGATTGATTTAGTGAAAAATGTTGAACCCGACTATACAAGCATCTTCGCCGTGTCAGAAGTGGAAGCGGCTATGCGCGATAAACGGACGAAAAAAACAAAAACAGTCTGCACGTTCTGCGGCGTCGGATGCTCTTTTGAAGTATGGACAAAAGGCCGTGACATCCTTAAAATTCAGCCTGTTTCCGATGCTCCGGTTAACGCGATTTCCACTTGTGTGAAAGGGAAATTCGGCTGGGACTTCGTGAATTCGGAAGAACGGATTACAAAACCGCTCATCCGGAAAAACGGCGCATTTGTTGAATCGTCATGGGAAGAAGCCCTTGACCTTGTCGCTTCAAGACTCGGTTCGATCAAGGCCGAACACGGAAATGGTTCTGTCGGCTTTATTTCTTCTTCTAAAATTACGAATGAAGACAACTACGTCATTCAAAAATTGGCACGCCAAGTATTTGAAACCAACAACGTGGATAACTGTTCACGCTACTGCCAGTCACCGGCAACGGACGGCTTATTCCGCACAGTCGGAATGGGCGGTGACGCCGGCACAATTAAAGATATCGCAAAAGCGGGCCTCGTGCTCATCGTCGGCGCCAATCCGGCAGAAGGACATCCGGTTCTGGCCACACGCGTGAAACGCGCCCATAAGCTGCACGGACAAAAATTAATTGTTGCCGATCTGCGCAGAAATGAAATGGCTGAACGGTCCGACCTCTTTATCAGCCCGAAACAAGGGACTGACCAAGTCTGGCTCATGGCAGTGACAAAATATATGATTGACCAAGGCTGGCACGATCAAGCGTTTATTGATGAGAATGTCAACTACTTTGAAGATTATAAAGAAACGCTGAAAAAGTATACATTAGAATATGCGGAGCGCATCACCGGACTTTCTCAGGATACGATCATCCGCATTGCCGAAATGATTCGTGATGCAGACGGCACCTGTGTTCTTTGGGGCATGGGCGTTACCCAGAATACAGGCGGCTCTGATACATCAGCGGCGATTTCCAATCTGCTGCTTGCCACAGGAAACTACCGCCGCCCGGGCGCCGGAGCCTATCCGCTGCGGGGACATAACAACGTTCAAGGCGCTTGCGATATGGGAACTCTTCCAGGCTGGCTTCCGGGGTATCAGCATATTACCGATGATGCGGCACGCGCTAAATTCGAAAAAGCTTACGGTGTTGAAATTGACGGCAAGCCGGGTCTTGATAATATTGAAATGCTCCATGCGATTGAAGAAGGAAACATGAAAGCCATGTATCTCGTCGGTGAAGATATGGCGCTCGTCGATTCAAACGCCAACCATGTTCATGACATTTTATCCAGCCTTGATTTCTTTGTTGTGCAGGATATTTTCCTTTCAAGAACGGCGCAATACGCGGATGTCATCCTGCCTGCAGTTCCATCTCTTGAAAAAGACGGAACATTTACAAACACAGAGCGTCGTGTGCAAAGATTGTATCAGGCGCTTCCGACACTAGGCGATGCCAAACCCGACTGGTGGATTATTCAGGAAGTCGCCAATCGTTTAGGCGCTGATTGGAATTACACGCATCCAAGCGACATTTTCTCAGAAATGGCAAGCCTTTCTCCGCTGTTCGGAAAAGCAAGCTACGACGTTCTTAGCGGCTGGAACAGCTTCCTGTGGGGAAGCTTTACGGGAGAAAGCACTCCGCTTCTTTATGAAGACGGCTTTAACTTCCCGGACAAAAAAGCCCGTTTTGCGCTGAGCGATTGGGTGGAGCCTGCCGTATTCCCTGAAGAATATGACCTGCATATTAACAACGGACGGATGCTTGAACATTTCCACGAAGGAAACATGACAAACAAATCGAAGGGCATTCAGTCTAAAGTGCCGGATGTATTTGTTGAAGTATCGCCGGAGCTCGCGGCTGAACGCGGAATTTGCGACGGAACAATGATCCGGCTCGTCTCTCCTTTTGGGGCGGTTAAATTGAATGCGCTTGTGACAGACCGTGTCCGCGCAAATGAGCTTTATCTGCCGATGAACTCTACAGATAAAGATTCTGCGATTAATTTCCTGACCGGGCCTGCGTATGATTCACGGACACATACACCTGCCTATAAACAGACAAAAGTCCGCATGGAAGTGCTCGGTTCCTGTGATACACCGCCGCTTCCGAAAACGAATCCGCGGAACAAAAAACGTCATCCGCAAAACGGTGTGGAAGCTCAGCGAAAATGGAACCGTCCGGGCTATGTGCACCTAACTGATTAA	MHGFFSSLKDGGELEVTDVQSIRVKIDGTEYEAPEGSKILDILNQNGIEIPQICHVPEVDPIQTCDTCIVEVNGKLQRSCSTAAENGMSISLTSGRVKEAQTEAMDRLLENHLLYCTVCDNNNGNCTLHNTAEMMGIEHQKYPYTPKDDSKCAVDMSHPFYRYDPNQCIACGQCVEVCQNLQVNETLSIDWERDRPRVIWDEGVAINESSCVSCGQCVTVCPCNALMEKSMLGQAGFMTGIKEDVMEPMIDLVKNVEPDYTSIFAVSEVEAAMRDKRTKKTKTVCTFCGVGCSFEVWTKGRDILKIQPVSDAPVNAISTCVKGKFGWDFVNSEERITKPLIRKNGAFVESSWEEALDLVASRLGSIKAEHGNGSVGFISSSKITNEDNYVIQKLARQVFETNNVDNCSRYCQSPATDGLFRTVGMGGDAGTIKDIAKAGLVLIVGANPAEGHPVLATRVKRAHKLHGQKLIVADLRRNEMAERSDLFISPKQGTDQVWLMAVTKYMIDQGWHDQAFIDENVNYFEDYKETLKKYTLEYAERITGLSQDTIIRIAEMIRDADGTCVLWGMGVTQNTGGSDTSAAISNLLLATGNYRRPGAGAYPLRGHNNVQGACDMGTLPGWLPGYQHITDDAARAKFEKAYGVEIDGKPGLDNIEMLHAIEEGNMKAMYLVGEDMALVDSNANHVHDILSSLDFFVVQDIFLSRTAQYADVILPAVPSLEKDGTFTNTERRVQRLYQALPTLGDAKPDWWIIQEVANRLGADWNYTHPSDIFSEMASLSPLFGKASYDVLSGWNSFLWGSFTGESTPLLYEDGFNFPDKKARFALSDWVEPAVFPEEYDLHINNGRMLEHFHEGNMTNKSKGIQSKVPDVFVEVSPELAAERGICDGTMIRLVSPFGAVKLNALVTDRVRANELYLPMNSTDKDSAINFLTGPAYDSRTHTPAYKQTKVRMEVLGSCDTPPLPKTNPRNKKRHPQNGVEAQRKWNRPGYVHLTD	PGPT0019635_657	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
D1-12_01710	492			hypothetical protein	ATGGCAAGCCCAATTACTGAAATTCAAAAAGAAACGAAAACAGAGGAACAGCTGAAAGCTGAAAAACTGGAAGAACTGAAGACGCTTCTCGCAGAAAATGAAGAAGCCGTCGCGAAAACGATGTCTATTATGGCAGAGCTGAATGGCTTGGGCATTTTTGATGCCGCCGGCTATATGCTCCAGGCAAAAGAGGAGATTGCCAAAATCGCACTCGGACAGATTTCCCGGGAACCTGTCACCAATCTTCTGAATACGATGATGGCCGCGGGAGGCGCGCTGTCAAAAGCTGATCCCGAATTTATGGGCAGACTTTTAGAAAGCGCCATGGCCGGTACGGAACAGGCGCAAAGATTTTTAAAAGAGGACAGGAAAGTCAGTATGTTTGAACTGATGAAAGCCGTCGGTGATCCTGATATTAACCGCGCGCTCGGCTTCGGGCTGCAGTTTTTAAAAGGAATGGGAAAAGAATTACGCGAAACCCCGTCTGAATAA	MASPITEIQKETKTEEQLKAEKLEELKTLLAENEEAVAKTMSIMAELNGLGIFDAAGYMLQAKEEIAKIALGQISREPVTNLLNTMMAAGGALSKADPEFMGRLLESAMAGTEQAQRFLKEDRKVSMFELMKAVGDPDINRALGFGLQFLKGMGKELRETPSE				NA	NA	NA	NA	NA
D1-12_01711	231			hypothetical protein	ATGGAGAAGAAAAGACTGAAATCATTAATAGAAGATTTTAAGCATTACGCATTTATTCTGCTTGCAGTCAGCACCTTCATTTATATCGGCGCGGTTCTTCCCGGACAAGGGCTGACTGCGGGCCAGAAAATGCTGATGTTTGTAACGGATTGTGTATTTTTAGCGGGCGCTTATTTCTGCGTTGACCGTTCACTTATTTATAAAAAGAGGCTGGAAGAGGCCGATGAATAA	MEKKRLKSLIEDFKHYAFILLAVSTFIYIGAVLPGQGLTAGQKMLMFVTDCVFLAGAYFCVDRSLIYKKRLEEADE				NA	NA	NA	NA	NA
D1-12_01712	1143	mccB	COG0626	Cystathionine gamma-lyase	ATGAAGAAAAAAACGCTGATGGTGCACGGAGGAATTACGGGAGATGAAAAAACAGGAGCGGTTTCCGTACCGATTTATCAAGTAAGCACGTACCGGCAGCCGAAAGCGGGCGAGCACACGGGTTATGAATATTCAAGAACGGCCAATCCGACGCGGACGGCGCTTGAAAGCTTAATTGCGGAGCTTGAAGGCGGCGCGGCGGGATATGCGTTCGGCTCAGGCATGGCTGCGATTACTGCCGTCATGATGCTGTTTGACAGCGGCGATCATGTTATTTTGACGGATGATGTATACGGCGGCACTTACCGCGTGATGACAGGCGTGCTGAACCGCTTCGGCATTGAAGCGGACTTTGTCGATACGAGCAGTGAAGAAAAAGTCCAAAAAGCCATCCGTCCGAATACGAAAGCCATTTATATCGAAACACCGACAAACCCGCTATTGAAAGTGACTGACCTCAAACTGATGTCTGACATCGCAAAAGAAGCGGGCGTATTGCTTATCGTCGATAATACGTTTTACACGCCGTATTTTCAGCAGCCGCTCAGCTTCGGCGCGGACATCGTGCTGCACAGCGCGACAAAATATCTCGGCGGCCACAGTGATGTCGTCGGCGGCTTAGTCGTCACGGCTGATAAAGAGCTCGGTGAAAAGCTTCATTACGTGCAAAACTCAACAGGCGGCGTTTTAGGACCGCAGGATTCATGGCTCTTAATGAGAGGCATTAAAACACTGGGACTCAGAATGGATGCCATCAATCACAGCGCCGGGAAAATCGCCGAGCTGCTTGAAGCGCATGATGCCGTTCAGACGCTCTACTATCCGGGATCTGCGAAACATCCGGGCCATGAGCTGACAAAAGCGCAAAGCTCCGGTTTCGGCGGAATGATTTCCTTTGATGTCGGCAGCAGCGAACGCGTCGACGCGTTTTTAGAAAAATTGAACCTGTTTACGATCGCGGAAAGTTTAGGAGCGGTTGAAAGCTTAATCTCCGTGCCGTCCAGAATGACGCACGCTTCGATCCCGCGCGACCGCCGGCTTGCGCTTGGCATTACCGACGGGCTCGTGCGGATCTCAGTCGGTATTGAGGATACTGAGGATTTAACGGCGGATGTGAAACAGGCGCTTGATTCACTTTTATAA	MKKKTLMVHGGITGDEKTGAVSVPIYQVSTYRQPKAGEHTGYEYSRTANPTRTALESLIAELEGGAAGYAFGSGMAAITAVMMLFDSGDHVILTDDVYGGTYRVMTGVLNRFGIEADFVDTSSEEKVQKAIRPNTKAIYIETPTNPLLKVTDLKLMSDIAKEAGVLLIVDNTFYTPYFQQPLSFGADIVLHSATKYLGGHSDVVGGLVVTADKELGEKLHYVQNSTGGVLGPQDSWLLMRGIKTLGLRMDAINHSAGKIAELLEAHDAVQTLYYPGSAKHPGHELTKAQSSGFGGMISFDVGSSERVDAFLEKLNLFTIAESLGAVESLISVPSRMTHASIPRDRRLALGITDGLVRISVGIEDTEDLTADVKQALDSLL	PGPT0001985_116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001985-mccB-K17217	NA	NA
D1-12_01713	924	mccA	COG0031	O-acetylserine dependent cystathionine beta-synthase	TTGAACGTGATAACAGATATTACAGAACTGATCGGAAATACACCGCTGCTCCGTCTCAATCATTTTGATATACCGGAGGGAACAGCGGTTTATGCTAAGCTTGAGATGATGAATCCGGGCGGAAGCATTAAAGACAGGCTGGGCGGGATGCTCATTGAAGATGCGCTTCGCACGGGAAAGGTGAAACCGGGCGGCGTTATCATTGAGGCGACTGCCGGAAACACCGGGATCGGACTCGCTCTGTGCGCCAGAAAGCATCAGCTTCGCGCCGTTTTTTGCGTCCCGGAGCATTTCAGCAGAGAAAAGCAGCAAATTATGAAAGCTCTCGGAGCGGACATCGTGCATACGACGAGAGAAGAAGGCATGCAGGGAGCCATCCGAAAAGCGCTTGAACTGGAGAGAGAGATTAATAATTCTTATGCCGTTCTGCAATTTAAAAACCGAGTAAATCCATTGACTTACTACAAAACGATCGGACCCGAAATATGGAACGCACTCGGCGGGGATATCCACGCTTTTGTCGCAGGAGCGGGTTCCGGCGGCACCTTTGCCGGTACGGCAGCTTATTTAAAGGAGAAAAATCCTGCCGTCAAAACGGTGATCGTTGAACCGGAAGGCTCGATCCTGAACGGAGGAGAGCCGCATGCCCATAAAACGGAAGGCATCGGCATGGAGTTTATCCCGGATTATATGGACGAGAACCATTTTGACGCCATTTACACGGTGGAAGACGATACGGCGTTTTCGCTTGTCAGAGAAGCGGCCGAGAAAGAAGGCCTCTTAATAGGAAGCTCTTCAGGGGCGGCTCTTTATGCAGCGCTTGAAGAAGCGAAAAAAGCGCCCGCCGGATCAAATATCGTCACCATTTTCCCTGACGGCAGCGATCGATATATAAGCAAAAACATTTTTCAAGGAGGTCAGTAA	MNVITDITELIGNTPLLRLNHFDIPEGTAVYAKLEMMNPGGSIKDRLGGMLIEDALRTGKVKPGGVIIEATAGNTGIGLALCARKHQLRAVFCVPEHFSREKQQIMKALGADIVHTTREEGMQGAIRKALELEREINNSYAVLQFKNRVNPLTYYKTIGPEIWNALGGDIHAFVAGAGSGGTFAGTAAYLKEKNPAVKTVIVEPEGSILNGGEPHAHKTEGIGMEFIPDYMDENHFDAIYTVEDDTAFSLVREAAEKEGLLIGSSSGAALYAALEEAKKAPAGSNIVTIFPDGSDRYISKNIFQGGQ	PGPT0002810_5916	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
D1-12_01714	696	mtnN	COG0775	5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGAAACTGGCAGTCATCGGAGCAATGGAAGAGGAAGTTACGATTTTAAGAAGCAAACTGAAAGACGCAAAACAAGAGATGATCGCTCACTGTGAGTTTACAACTGGCAGCTATGAAGGCGTCGAAGTCATCTTGCTGAAATCGGGTATCGGGAAAGTCAACGCCGCGATCAGCACGACGCTTCTGCTTGACCGTTTCAAACCTGATTATGTGATTAACACAGGCTCAGCGGGCGGTTTTCATCATACATTGAATGTAGGCGACGTCGTCATCTCAACAGATGTCCGCCATCATGACGTGGATGTGACGGCGTTTGACTATGAATACGGACAGGTGCCGGGTCTTCCGGCAGCATACAAAGCTGATGAAAAGCTGATCAGCATTACTGAGGAAGCGGTTTCTGAACTGAACGGCATTCAAGTCGCCAAAGGCACAATCGCTACGGGAGATTCTTTTATGAATGATCCGAAGCGGGTTGAAGACGTACGCGCCAAATTTGCGGATTTGTACGCGGTTGAAATGGAAGCTGCGGCTGTCGCACAGGTGTGCCACCAGTTCAAAACGCCTTTTGTTGTCATCAGAGCTTTATCTGATATTGCCGGAAAAGAATCTGACGTTTCATTTGATAAATTTTTAGAACAGGCTGCCGTTCATTCAACTGAGCTTGTCCTGAATGTCATCAAACGAATTCACTAA	MKLAVIGAMEEEVTILRSKLKDAKQEMIAHCEFTTGSYEGVEVILLKSGIGKVNAAISTTLLLDRFKPDYVINTGSAGGFHHTLNVGDVVISTDVRHHDVDVTAFDYEYGQVPGLPAAYKADEKLISITEEAVSELNGIQVAKGTIATGDSFMNDPKRVEDVRAKFADLYAVEMEAAAVAQVCHQFKTPFVVIRALSDIAGKESDVSFDKFLEQAAVHSTELVLNVIKRIH	PGPT0014320_1809	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_BIOSYNTHESIS,PGPT0014320-mtnN|pfs|yadA-K01243	NA	NA
D1-12_01715	642	yrrT		putative methyltransferase YrrT	ATGGGCCGTGAATTTATTCCTTTATTTGAAGATTGGGCAGCGACTTATGACGCCACAGTGCACGGGGCTGACAAACAATATGCTGCTGTTTTTAAAGGATATGACAACATTCTTGACAGCATTGTCGCACTTTCAGGTTCAAACGTTTTAGAGTTCGGACCGGGAACGGGGAATTTAACGGCGAAATTAGCCGCCGCGAACAAAAAGGTGTTTGGTGTAGAACCGTCTCCGTCAATGAGAAAACTGGCGGCTGACAAGCTTTCTGACAAAGCCGTGTTCAGTGACGGAGATTTTCTGGAGTTTCCCGCTCCGCCTTTTCAAATAGATACCATCGTCAGCTCGTACGCCTTTCATCATTTAACCGATGAAGAAAAGCGAACGGCTGTAAAGCAGTATGGCGCAATCCTTCAGAAGCATGATAAAATAGTGTTTGCCGATACTGTCTTTAAAGATCATGAAGCTTATGATGAAGCCATTCAAAAAGCAAGCCGAAAGGGCTATCATCAATTAGCGGACGATTTAAAGACGGAACATTATCCGACACTCGCGACAATGAAAAACATCTTTTCAGAAGAGGGATTTGCCGCGCGGTTTACGCAGCAAAATGACTTTGTCTGGATAATGGAGGCGATTAAACGGTAA	MGREFIPLFEDWAATYDATVHGADKQYAAVFKGYDNILDSIVALSGSNVLEFGPGTGNLTAKLAAANKKVFGVEPSPSMRKLAADKLSDKAVFSDGDFLEFPAPPFQIDTIVSSYAFHHLTDEEKRTAVKQYGAILQKHDKIVFADTVFKDHEAYDEAIQKASRKGYHQLADDLKTEHYPTLATMKNIFSEEGFAARFTQQNDFVWIMEAIKR	PGPT0002810_20	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
D1-12_01716	204			hypothetical protein	ATGAATTTTCAATTGGATTTAATCAAAGATAAAGTAGAATTTTTCGAAGCGGCATCTTTGCAGGAGCTTGAAAAGAAAATAAACGTTCAGATTGAAAACAACCAGGCGATTATGCTTCGCGTCCGTTCCGTATCCCATCAGGTGACGGCCGTTGACGGCAGAATCCTTTACAGTGCGTCGGTGCATTTTTCAGCTGACGTATGA	MNFQLDLIKDKVEFFEAASLQELEKKINVQIENNQAIMLRVRSVSHQVTAVDGRILYSASVHFSADV				NA	NA	NA	NA	NA
D1-12_01717	717			hypothetical protein	TTGAGCAATAAACAATCTCGTTTTGAAAACCGTGATAAGCGCAGAAAAGCAAATATGGTGCTTAACATTTTAATTGCTATCGTATCTATTCTCATTGTCGTCGTTGCAGTCAGCCTCTTCATCAACAGTCCGTCGAGCGACGTGAGCGAAAAAGCGGACACGAGCCAGAAGCAGGAAACACCTGCATCAGGCAAGACGAAGCAGACATCCGATGAAGACATAAAAGACAGCAAAAAAGATAAGGCATCAGACGATGACAAAAAAGATAAACAGGATAAGGACACATCTGATTCATCTTCAGACTCTGACAGCAAAAAAGACGATGATTCATCGAAAAGTGATGACAGCAGCAAAAATGACTCTGATTCAAGCGATCCTTTTAAAGGAGCAAAAATAACAGAGGGCGGCTCATCAAGCGAAGTCGAGAAAACAATTGTTAACCCAAAATGGAAAGCGGTCGGCACAAAGCAGACGGGAGAACATGCGGCGACGTATGACTCAAGCTCTGAAGACTGGTCCGAAATGCTTGACGCCATCTCTTACGCAACAGGCGTGTCAAAAGATCACATGACAGTGCTGTGGCTCGGAAACAATGGAAGCCCGCAAGATGCGAAGGGTAAAGTTTTAGACAAAACGAACGGCAAAAAGTATCAGGTCACCATCACTTGGAAAGACAAAAAAGGCTGGAAGCCGACAAAAGTAGAAACCTTAAAATAA	MSNKQSRFENRDKRRKANMVLNILIAIVSILIVVVAVSLFINSPSSDVSEKADTSQKQETPASGKTKQTSDEDIKDSKKDKASDDDKKDKQDKDTSDSSSDSDSKKDDDSSKSDDSSKNDSDSSDPFKGAKITEGGSSSEVEKTIVNPKWKAVGTKQTGEHAATYDSSSEDWSEMLDAISYATGVSKDHMTVLWLGNNGSPQDAKGKVLDKTNGKKYQVTITWKDKKGWKPTKVETLK				NA	NA	NA	NA	NA
D1-12_01718	1755	pbpI	COG0768	Penicillin-binding protein 4B	ATGATCGTATCAAAAAGGCTGAAAACGGCCGTGATTTGTTTTCTGCTCGTGTTTTTCTTTCTGCTTGCAAGGCTGGCTGAAATTCAGCTTTTTTTTACAGAATCTTTTTCAAAATCCAATATTAATCTGATTCAGGAAAGCGTCAAGCAGCGGACGGAAGAAGTCCTTATTTCAGACGGCCGCGGCTCTTTTCTTGATCGGAACGGCAAAGAGCTGACCGGAAAAAAGCAGCCTGCCGTCATACTGTTTCCCTTTCTCGTGACGCAGGATTGGCCGGTTGAACGGGTATCAGACATTCTCGGAATGAAACAGGGGGAGCTCAGGCAGCTGCTCACGGAAGCAAAAAAACCGGTGATCCTGAACAGCAGAAAAATAAAACATTTGACGAAACAATCCGTGGCAAATATCAATTCTTTGAAATATCCCGGCATTTACGGCGTATATATGAAAGACAGCAAAGAAACAAACATAGCCGCTCATCTGTTGGGCGCGACAAACCAGGACCCTGAGCTTTTGAAAAAGAAATACCCCGGGAGGAAGGAACTGCCGATCACGGCAAAAATCGGGACAAGCGGGATGGAGCGGACGTTTGATGAGTTTTTACTGGCGGATCAGGATACAAAACTTTTGTATCATGTCGACGGAAGGGGAAACCCTTTATTCGGAATGGACGTCAAATATACGGCTGAAGCAAACGCGTTTTATCCGCTGCAAGTCAAAACCTCCATCGACCGCAATATTCAAGAAGCAATGGAAGATGTATTGAAAGACCGCGGGTTAAAAAAGGGGGGAGCCGTCCTTTTAGACATTGAAAAAAGCAGTGTGCTCGGAATGGTATCAAAGCCTGACGCCGACATGTCAAAGCAGCAGACACTGCAAAATTACATGCTGACGCCGATTTATCCGGGATCAGTGTTTAAAACGGTGATCGCCGCAGCCGCAATAGAACAAAACGAAGTGAAGCCGGGCACATCCTTTAACTGCAATCTCAACCTGTACGGAGAGCCGGGGGATGACAAAGGCACGCTCAGTTTTGGAGAAAGCTTTGCCCAAAGCTGCAATTATACGTTTACAAGTCTTGCGGAAAAATTGATCAAAAAAGATGATTCCGTTATTGAAAACATGGCGGAAAAACTAGGTCTCACACAGCGGGCGGGCTGGGAAGGCAAGCTGTACCGGGAAGACGGATTCAGGCAGCTGTATAATGAAAAAAGCGGGGTCATTTGGGGAGATGACAAAGACAAAACCGTAAAAAAAGCCGTCGCACAGACGGCGATCGGGCAAAAAAACGTGAAAGTCACGCCTCTTGAAGTCGCCAATATGATGGCGGCGATCGCGCGCGGCGGTGAAAAGAAACAAGTCAAAATCGCGGACAAAATTGAATACAAAAACAAAACGACGATGGCGTCATTCAAAGATCAGCCGTTAAAAGGGGAAAACATCGACAAATATACGGCGCAGCAGCTTCAAAAAATTCTCAGAGAAGTCGTCACCTCACCGAAAGGAACCGGCCGAAGGTTTCAGGATCTGCCGTATGAGATAGCAGGCAAATCGGGAACGGCCCAGACGGGAATGTTTACAAAAGAAAAACAGACGCTTTACCACAAATGGTTTGCGGGATACTTTCCCGCGGATAAGCCGAAATACGCTCTCGTGGTGCTGCACATGGACACGCCGGGGGATAAGGCTCTGACAAATACAGTGTTTTATGATATTGTTAAAAAGGTACATGAAAATGAAACAAATCAGACATAG	MIVSKRLKTAVICFLLVFFFLLARLAEIQLFFTESFSKSNINLIQESVKQRTEEVLISDGRGSFLDRNGKELTGKKQPAVILFPFLVTQDWPVERVSDILGMKQGELRQLLTEAKKPVILNSRKIKHLTKQSVANINSLKYPGIYGVYMKDSKETNIAAHLLGATNQDPELLKKKYPGRKELPITAKIGTSGMERTFDEFLLADQDTKLLYHVDGRGNPLFGMDVKYTAEANAFYPLQVKTSIDRNIQEAMEDVLKDRGLKKGGAVLLDIEKSSVLGMVSKPDADMSKQQTLQNYMLTPIYPGSVFKTVIAAAAIEQNEVKPGTSFNCNLNLYGEPGDDKGTLSFGESFAQSCNYTFTSLAEKLIKKDDSVIENMAEKLGLTQRAGWEGKLYREDGFRQLYNEKSGVIWGDDKDKTVKKAVAQTAIGQKNVKVTPLEVANMMAAIARGGEKKQVKIADKIEYKNKTTMASFKDQPLKGENIDKYTAQQLQKILREVVTSPKGTGRRFQDLPYEIAGKSGTAQTGMFTKEKQTLYHKWFAGYFPADKPKYALVVLHMDTPGDKALTNTVFYDIVKKVHENETNQT	PGPT0023965_139	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023965-pbpI-K21468	NA	NA
D1-12_01719	474	greA	COG0782	Transcription elongation factor GreA	ATGGCACAAGAAAAAGTTTTTCCGATGACTCACGAAGGAAAACAAAAACTTGAACAAGAATTAGAGCAATTGAAAACGGTTAAACGTAAAGAAGTAGTAGAACGCATTAAAATCGCAAGAGGCTTCGGAGATCTGTCAGAGAACTCTGAGTATGATTCCGCAAAAGAAGAACAGGCATTTGTGGAAGGGCGCATCACGACGCTTGAAAACATGATCCGCAATGCGAAAATCATCGAGGATGACGGCGGTTCAAATGTAGTCGGTTTGGGAAAAACCGTATCATTCATCGAATTGCCGGACGGTGAAGAAGAATCTTACACGATTGTCGGAAGCGCTGAAGCTGATCCGTTTGAAGGAAAAATCTCAAACGACTCGCCAATCGCAAAAAGCCTGCTCGGCAGAAAAGTGGACGAAGAAGTGACAGTTCAGACGCCGGGCGGAGAAATGCTCGTGAAAATTGTGAAAATTTCATAA	MAQEKVFPMTHEGKQKLEQELEQLKTVKRKEVVERIKIARGFGDLSENSEYDSAKEEQAFVEGRITTLENMIRNAKIIEDDGGSNVVGLGKTVSFIELPDGEEESYTIVGSAEADPFEGKISNDSPIAKSLLGRKVDEEVTVQTPGGEMLVKIVKIS	PGPT0030495_3289	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
D1-12_01720	636	udk		Uridine kinase	ATGGGTAAGAGTCCTGTAGTTATAGGCATCGCAGGAGGTTCCGGATCAGGAAAAACAAGCGTCACCCGTTCCATATATGAACAGTTTAAAGGACACTCGATTTTAATGATCCAGCAAGACCTTTATTATAAAGACCAAAGCCATCTTCCGTTTGAAGAAAGGCTGAACACAAACTATGATCACCCGCTCGCATTTGATAATGACTATTTAATCGAGCATATTCAAGAGCTTTTGAATTACCGGCCGATAGAAAAGCCGATTTATGATTATAAACTGCATACGCGTTCTGAGGAAACCATTCCGGTTGAGCCGAAGGATGTCATTATTCTGGAAGGCATTCTCGTTCTCGAAGATAAAAGACTTCGCGACCTCATGGATATGAAACTTTATGTCGACACGGACGCGGATCTCCGTATCATCAGACGGATTATGAGAGATATTAACGAAAGAGGCCGTTCAATCGATTCTGTCATTGAGCAGTATGTGTCCGTCGTCAGACCGATGCACAATCAGTTTGTTGAACCGACGAAACGCTACGCGGACATCATTATTCCGGAAGGCGGACAAAACCACGTCGCAATTGATCTGATGGTCACGAAGATTCAAACGATCCTTGAACAAAATGCAATTTTGTAA	MGKSPVVIGIAGGSGSGKTSVTRSIYEQFKGHSILMIQQDLYYKDQSHLPFEERLNTNYDHPLAFDNDYLIEHIQELLNYRPIEKPIYDYKLHTRSEETIPVEPKDVIILEGILVLEDKRLRDLMDMKLYVDTDADLRIIRRIMRDINERGRSIDSVIEQYVSVVRPMHNQFVEPTKRYADIIIPEGGQNHVAIDLMVTKIQTILEQNAIL	PGPT0021230_3047	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
D1-12_01721	1269			hypothetical protein	ATGACAGCCGTAAATCAAACCATTTCCAAAGTCGTAAACGGAAAACGCGTCATTACGAAAAAACCTGAACTCCTTGCTCCGGCAGGAAACCTTGAAAAATTAAAAATTGCCGTTCATTACGGAGCGGACGCGGTTTTTATCGGAGGACAGGAATACGGACTCCGCTCAAATGCGGATAACTTCTCAATAGAAGAAATCGCAGAGGGCGTAGAATTTGCCAAAAAATACGGGGCAAAAATATATGTGACAACAAACATTTTCGCCCATAATGAAAATATGGACGGTCTGGAAGAATACTTAAAAGCGTTGGGAGACGCAAAAGTTGCCGGAATTATCGTCGCTGATCCGCTGATTATTGAAACATGCCGGAGAGTGGCCCCGGACGTAGAAATTCACCTCAGCACACAGCAGTCCCTTTCAAACTGGAAAGCGGTGCAGTTCTGGAAAGAAGAAGGGCTTGACCGCGTGGTGCTTGCCCGTGAAACGAGCGGACTGGAAATTAAAGAAATGAAGGAAAAGGTGGATATTGAAATCGAAACCTTTATCCACGGCGCCATGTGTATCGCTTATTCAGGACGATGCGTGCTGAGCAATCACATGACAGCCCGGGATTCCAACCGCGGCGGCTGCTGTCAGTCCTGCCGCTGGGATTATGACCTGTATCAGACAGACGGTGCAAACGCGGTCGCGCTTTATGACGAAGAAGACGCTCCGTTTGCGATGAGCCCGAAAGATTTAAAATTGATTGAATCCATTCCGCAAATGATCGAGATGGGTATCGACAGCCTGAAAATTGAAGGCCGGATGAAATCGATTCATTACGTTGCGACGGTTGTCAGCGTGTATCGTAAAGTCATCGACGCATACTGCGCTGATCCTGAAAACTTTGTCATTCAAAAAGAATGGCTGGATGAGCTGGACAAATGTGCAAACCGGGATACCGCGCCTGCTTTCTTTGAAGGCACGCCCGGGTATGAAGAGCAGATGTTCGGCGAACACGGAAAGAAAACAACATTTGATTTTGCCGGTCTCGTGCTCGCGTATAACGAGGAAACTCAAATGGTGACGCTCCAGCAGCGCAATTTCTTTAAACAAGGTGACGAAGTGGAATTTTTCGGTCCTGAAATCGACAATTTCACATTCACAATCGGCACTATTTGGGACGAAGACGGAAACGAGCTTGATGCTGCCCGCCATCCCCTGCAAATCGTTACATTTAAAGTAGACAAAAAGATTTATCCGAGCAACATGATGAGAAAGGGGAAGTAA	MTAVNQTISKVVNGKRVITKKPELLAPAGNLEKLKIAVHYGADAVFIGGQEYGLRSNADNFSIEEIAEGVEFAKKYGAKIYVTTNIFAHNENMDGLEEYLKALGDAKVAGIIVADPLIIETCRRVAPDVEIHLSTQQSLSNWKAVQFWKEEGLDRVVLARETSGLEIKEMKEKVDIEIETFIHGAMCIAYSGRCVLSNHMTARDSNRGGCCQSCRWDYDLYQTDGANAVALYDEEDAPFAMSPKDLKLIESIPQMIEMGIDSLKIEGRMKSIHYVATVVSVYRKVIDAYCADPENFVIQKEWLDELDKCANRDTAPAFFEGTPGYEEQMFGEHGKKTTFDFAGLVLAYNEETQMVTLQQRNFFKQGDEVEFFGPEIDNFTFTIGTIWDEDGNELDAARHPLQIVTFKVDKKIYPSNMMRKGK	PGPT0021005_2242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021005-PUTATIVE_PROTEASE-K08303	NA	NA
D1-12_01722	930	rlhA	COG0826	23S rRNA 5-hydroxycytidine synthase	ATGAGAAAACCTGAACTTTTGGTGACTCCGACTTCTGTACAGGATATTCTTCCGCTCATTCAAGCGGGCGCAACGGCCCTGTTAGTCGGAGAACAGAGATACGGCCTGAGACTGGCCGGTGAATTTTCAAGAGAAGATATAAAAGAAGCCGTAAAGACAGCTCATCAGGAAGGCGCGAAAGTGTATGCCGCCGTCAATGCTATTTTTCACAACGAAAAAGTGGACGAGCTGAACGGCTATCTTGCCTTTTTGCAGGAGGCCGGCGTTGATGCGGCTGTTTTCGGTGATCCGGCCGTTTTAATGGCGGCGCGTGAAGCGGCTCCCGATCTCAAACTGCACTGGAGCACGGAAACAACGGGTACCAACTACTATTCCTGTAATTACTGGGGACGCAAAGGCGCACGGCGGGCAGTGCTGGCTAAAGAATTAAATATGGACAGCATCATTGACATAAAAGAAAACGCCGAAGTGGAAATTGAAATTCAAATCCACGGCATGACGTGCATGTTCCAATCGAAGCGTTCACTAGTGGGCCATTACTTCGAATACCAGGGAAAAGTCATGGACATCGAACAGAAGAAAAAAGAAGCGGGAATGTTTCTGCATGACAAGGAACGGGGCAATAAATACCCGATTTTTGAAGATGAAAACGGCACGCATATCATGAGCCCGAACGATGTGTGCATGATTGATGAATTAGAGGACCTGATGGACGCCGGCATCGATTCTTTCAAAATCGACGGAGTTTTGAAGTCTCCTGAATACTTAACTGAAGTGACCCGCATGTACAGAGAAGCAATCGATCTGTGCTTCGAAAGCCGAGAGACATACGAAGAGAAAAAAGAGAGCTGGATAGAGCGGATTGAAAGCATTCAGCCTGTGAACAGAAGCATCGACACAGGATTCTTCTTTAAAGAAACGGTCTATTAA	MRKPELLVTPTSVQDILPLIQAGATALLVGEQRYGLRLAGEFSREDIKEAVKTAHQEGAKVYAAVNAIFHNEKVDELNGYLAFLQEAGVDAAVFGDPAVLMAAREAAPDLKLHWSTETTGTNYYSCNYWGRKGARRAVLAKELNMDSIIDIKENAEVEIEIQIHGMTCMFQSKRSLVGHYFEYQGKVMDIEQKKKEAGMFLHDKERGNKYPIFEDENGTHIMSPNDVCMIDELEDLMDAGIDSFKIDGVLKSPEYLTEVTRMYREAIDLCFESRETYEEKKESWIERIESIQPVNRSIDTGFFFKETVY	PGPT0021005_3267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021005-PUTATIVE_PROTEASE-K08303	NA	NA
D1-12_01723	654	trmR	COG4122	tRNA 5-hydroxyuridine methyltransferase	GTGAATGATCGGTATGAACAAATAAACGAGTATATAAACGCGATGCTGAAGCCTCGGCCTGATAAAGTGAAAAAGCTTGAAGCCTATGCAAAAGAGCACCATGTTCCGATTATGGAAGAAGCGGGCATTGAAGTGCTGCTTCAAATGCTGTCGATTCAACAGGCGAAAAACATTTTGGAAATCGGCGCGGCAATCGGATATTCCGCCATACGGATGGCGCTTGAGCTTCCGGATGCGAATATTTACACGATTGAACGGGACGACAAACGCTATGAAGAAGCTGTGAACAATATAAAAGACTTTGAAATGGAAAAACGGATTCACGTAATGCACGGGGATGCGCTGGAACTTTCTGAGTCTGTCCGTGTCACGGCTCCTTATGATGCCATTTTTATCGACGCGGCCAAAGGCCAGTACACGAACTTTTTTGAGCTCTATGAACCGATGCTTGCGCCGGATGGAGTCATTTTTACGGACAATGTTCTGTTTAAAGGACTGGTGGCACAAAATCACTCGGACATTGAGCCGAAAAGAAGACGGAAGCTTGTTGAAAAAATTGATCAATATAACCAATGGCTGATGAACCGGCCTGACTATCAAACGGTCATACTGCCGGTCGGAGACGGCATCGCCATCAGTAAAAAGAAGAGGTGA	MNDRYEQINEYINAMLKPRPDKVKKLEAYAKEHHVPIMEEAGIEVLLQMLSIQQAKNILEIGAAIGYSAIRMALELPDANIYTIERDDKRYEEAVNNIKDFEMEKRIHVMHGDALELSESVRVTAPYDAIFIDAAKGQYTNFFELYEPMLAPDGVIFTDNVLFKGLVAQNHSDIEPKRRRKLVEKIDQYNQWLMNRPDYQTVILPVGDGIAISKKKR				NA	NA	NA	NA	NA
D1-12_01724	1092	mltG_2		Endolytic murein transglycosylase	ATGAATATCAATCAGACTAAAAATTCATTTCCGCGTAAAAACAAAAAAACGACGATAATACTGTCCTCCGTGATCGCTCTGCTTATCATCATTGGCGGTGCTTTTTTCTATGGAAAATCTCTGCTGTCCCCGGTTGACAAAGGCAGCAAAACGGCAGTCAATATTAATATTCCGAGCGGTTCTTCCGTTTCGGCAATCGCTGAAATTCTTGAGGATCAGCATGTCATCAAAAGCAAAAAAGCATTTCAGCTGTATGTAAAGTATAAAGGCGCTTCCGGGTTTCAGGCGGGATTTTACCACCTGAATAAAGGAATGGATGCGGATGCGATTATCAAAAAACTGACCGCGGGATCAACGGGATATGCCTTTCAGATCTCCGTTCCTGAAGGAAAACAGCTTACGCAGATTGCGGATGCGATCGCAAAAGAAACATCATATTCAAAAGAAGAGATCATGGCGAAACTGGATGACAAAACATTCATCGGCAAACTGAAAAAACAGTTTCCTGATACGATAACGGACGCGCTTTCAAACAAGAAGCTCAAGCATCCGCTCGAAGGCTATCTGTATCCGGCCACATATCCGTTTAATGATCCGGATGCATCGCTTGACACGATTTTGACGGCAATGGTTCAGGAAACAAACACCCGTATCGAAACGTATAAATCTGAACTGAAAAAAAAGAAACTTTCCGTCCATAACGCGCTGACAATGGCATCACTTATTGAAGAAGAAGCCACCGCCAAAGCCGACCGTCACAAAATCGCCAGCGTTTTTTACAACAGGCTCGAAGAAAAAATGCCGCTGCAGACTGACCCGACGGTATTATATGCGGCCGGTAAGCATAAAAGCCGGATCTACTACAAAGACCTGAAAATTGATTCTCCGTTTAATACGTATAAACATAAGGGGCTGCCGCCGGGACCGATTGCAAATGCCGGTGATTCATCATGGGAAGCGGCTCTCCGCCCTGATAAAACGGATTATCTCTATTTCCTTGCAAAATCAAACGGCGAGGTTGTTTTCACCAAAACATTAAAAGACCATAATAAAGCGAAGGAAAAGTATATTTCCAAAAAAGACAGCGAATAA	MNINQTKNSFPRKNKKTTIILSSVIALLIIIGGAFFYGKSLLSPVDKGSKTAVNINIPSGSSVSAIAEILEDQHVIKSKKAFQLYVKYKGASGFQAGFYHLNKGMDADAIIKKLTAGSTGYAFQISVPEGKQLTQIADAIAKETSYSKEEIMAKLDDKTFIGKLKKQFPDTITDALSNKKLKHPLEGYLYPATYPFNDPDASLDTILTAMVQETNTRIETYKSELKKKKLSVHNALTMASLIEEEATAKADRHKIASVFYNRLEEKMPLQTDPTVLYAAGKHKSRIYYKDLKIDSPFNTYKHKGLPPGPIANAGDSSWEAALRPDKTDYLYFLAKSNGEVVFTKTLKDHNKAKEKYISKKDSE				NA	NA	NA	NA	NA
D1-12_01725	282			hypothetical protein	ATGGAACACGGCGAAAAACACATTACAATTGTCGATGATCAAGGAAACGAACAGCTTTGCGAAGTGCTGTTCACATTTGAAAACGACACATTCAACAAATCTTACGTACTTTATTATCCGATTGATGCTCAAGACGATGATGAAATCGAAATTCACGCTTCAAGCTTCGAACCGAACGAAAACGGTGAAGACGGCGAACTGATGCCGATTGAAACCGATGAAGAGTGGGAAATGATCGAAGAAACGCTGAACACGTTTTTAGCGGAAGAAGACGAAGAATAA	MEHGEKHITIVDDQGNEQLCEVLFTFENDTFNKSYVLYYPIDAQDDDEIEIHASSFEPNENGEDGELMPIETDEEWEMIEETLNTFLAEEDEE				NA	NA	NA	NA	NA
D1-12_01726	417	yrrK	COG0816	Putative pre-16S rRNA nuclease	ATGAGAATATTGGGACTTGATCTTGGAACGAAAACACTCGGCGTAGCTTTAAGCGATGAAATGGGCTGGACCGCTCAAGGCATTGAGACGATAAAAATAAACGAGGCTGAAGGAGATTACGGTCTGGACCGTTTATCCGAGCTGATGAAAGACTATAATGTAGAGAAGATCGTGCTCGGTTTTCCGAAAAACATGAACGGGACGATCGGTCCAAGAGGCGAAGCCAGCCAAACATTTGCGAAACTGCTTGAAACAGCGTACAATGTCCCTGTTGTGCTGTGGGACGAGCGTCTGACGACGATGGCGGCTGAAAAAATGCTGATCGCGGCTGACGTCAGCAGGCAAAAACGAAAAAAAGTCATTGATAAAATGGCGGCTGTCATGATCCTTCAAGGATATCTGGACAGTTTAAACTAA	MRILGLDLGTKTLGVALSDEMGWTAQGIETIKINEAEGDYGLDRLSELMKDYNVEKIVLGFPKNMNGTIGPRGEASQTFAKLLETAYNVPVVLWDERLTTMAAEKMLIAADVSRQKRKKVIDKMAAVMILQGYLDSLN				NA	NA	NA	NA	NA
D1-12_01727	267			hypothetical protein	GTGAGCTCGTTTGATAAAACGATGAAATTTAATTTCTCCGATGATTCTGCTGAAACAAACGTCGAAGAAGTGCTGATTACGGTATATGATGCGCTTCAGGAAAAGGGGTACAATCCTATCAACCAGATTGTCGGATACTTGCTGTCTGGAGATCCTGCATACATTCCTAGGCATCGCGACGCCCGGAACTTAATTCGCAAACTGGAACGTGACGAATTAATCGAGGAATTGGTAAAATCCTATCTAGAACAGCATAAAGAGGCGTAA	MSSFDKTMKFNFSDDSAETNVEEVLITVYDALQEKGYNPINQIVGYLLSGDPAYIPRHRDARNLIRKLERDELIEELVKSYLEQHKEA				NA	NA	NA	NA	NA
D1-12_01728	2637	alaS		Alanine--tRNA ligase	ATGAAACACTTAACTTCTGCTGAAGTGCGTCAAATGTTTTTAGATTTCTTTAAAGAAAAAGGCCATGCCGTTGAACCGAGCGCCTCATTGGTTCCGCATGAAGATCCGTCTTTATTATGGATCAACAGCGGCGTTGCGACGCTGAAAAAATACTTTGACGGCCGCGTTGTGCCGGAGAATCCGAGAATTGTAAACGCGCAAAAATCAATCCGCACAAATGATATTGAAAATGTGGGGAAAACGGCGCGCCACCACACGTTCTTTGAGATGCTCGGAAACTTTTCCATCGGTGATTATTTTAAAGAAGAAGCCATCACGTGGGCATGGGAGTTTTTAACGAGCGAAAAGTGGATCGGCTTTGATCCGGAGCTGCTGTCTGTAACGGTTCACCCTGAGGATGAAGAAGCTTATACGCTATGGGCGGAAAAAATCGGCGTTCCGGAAGAAAGAATCATCCGTCTGGAAGGGAACTTCTGGGATATCGGCGAAGGCCCGAGCGGACCGAATACGGAAATTTTCTATGACCGCGGCGAGAAATACGGCAATGACCCGTCAGATTCTGAATTGTATCCGGGCGGCGAAAATGACCGCTATCTTGAAGTGTGGAACCTGGTATTCTCAGAGTTCAACCACAACCCGGACGGCACGTACACACCGCTTCCGAAGAAAAACATTGATACGGGCATGGGGCTTGAACGGATGGTCTCCGTGATTCAGGACGTCCCGACAAACTTTGACACTGATTTGTTTATGCCGATTATTGAAGCGACAGAGCGCATTTCCGGAGATGTTTACGGAAAGGACGCAGTGAAGGATACGGCCTTTAAAGTGATCGCCGATCATATCAGAACGGTCGCATTTGCGGTAAGCGACGGAGCTCTGCCGTCAAATGAAGGGCGCGGGTATGTACTGAGACGCCTCTTGCGCCGGGCTGTGCGATACGCGAAAACCATCGGTATCAGCCGTCCGTTTATGTATGAGCTGGTACCGACTGTTGCAGGAATTATGGACGCTTTCTATCCGGAGGTGAAAGAAAAGCAAGAGTTTATCGCCAAAGTCATCAAAACGGAGGAAGAGCGCTTCCACGAAACATTAAACGAAGGTCTGGCCATTTTATCCGACGTGATAAAGAAAGAGAAGGAAAAAGGCAGCGGCATCATCTCCGGAAAAGACGTATTCAAACTGTACGATACGTACGGATTCCCGGTTGAATTAACGGAGGAATACGCGGAAGATGAGCAAATGAAAGTTGACCATAAAGGCTTTGAAGCCGAAATGGAAAAACAGCGTGAACGGGCGAGAAATGCGCGCCAAGATGTAGGAAGCATGCAGGTGCAGGGCGGCGCATTGCGCGACATTACCGCAGAAAGCACATTTGTCGGCTACAGTGCCGTAAAAGCTGAAGCGAAGGTGATCGAGCTTCTTCATGACGGGCAATTAATCAGTGAGGCGCATGAAGGGGATACCGTCCAAATCCTTCTTGACAAAACGCCTTTCTACGCTGAAAGCGGCGGACAGATCGGTGACAGAGGAGTGCTGAGAAGCGAGCAGGCTGTCGTAATCATTAAAGACGTGAAAAAAGCTCCGAACGGTCAGCATGTACACGAAGGCACGGTGGATAGCGGCACGATTCAAAAAGGCGCAAGCGTGACGGCTGAAGTGGAAGATCAAATGAGAAGCGGCGTGGTGAAAAACCATACGGCTACCCACCTTCTGCACCAGGCGCTGAAAGACGTTCTCGGCACACATGTCAACCAAGCGGGGTCACTCGTTACCGAAAACCGTCTGCGTTTTGACTTCTCTCATTTCGGTCAAGTGACGAAAGAAGAACTTGAACGCATTGAAGAAATCGTCAACGAAAAAATCTGGGAGAGCATTCCGGTAGCGATTGATTTGAAACCGATCAATGAAGCAAAAGAAATGGGCGCGATGGCCCTGTTCGGCGAGAAATACGGCGATATCGTCCGCGTCGTACAAGTCGGAGATTACAGCCTTGAGCTTTGCGGCGGATGCCATGTCACGAATACGGCTGAAATCGGCCTGTTTAAAATCGTATCCGAATCAGGGATCGGCGCAGGTACGCGAAGAATCGAAGCCGTAACAGGAAAAGGCGCTTATCAGGAAATGAACAGCCAGCTCAGCCTTCTGCAGCACGCTGCGGACGAGCTGAAATCAAACGTAAAAGACGTACCGAAGCGAATTCAGTCTCTTCAAGCGGAGCTGAAGGAAGCGCAAAGAGAAAATGAATCATTGCTCAGCAAACTCGGCAATGTGGAAGCCGGAGCCATTCTGTCTAAAGTAAAAGACATCGGCGGCGTAAAAGTGCTGGCTGAAAAAGTAAATGCGAAAGACATGAACCACCTTCGCACTATGGTGGATGATCTGAAAGCGAAGCTCGGTTCTGCGGTCATCATTCTCGGCGCCGTGCAAAATGAGAAAGTCAACCTTTCAGCAGGCGTGACGAAAGACCTGATCGAAAAAGGCCTTCATGCCGGCAAAATGGTCAAACAAGCGGCTGAAGTCTGCGGAGGCGGAGGCGGAGGACGTCCGGACATGGCGCAGGCCGGCGGAAAGCAGCCTGAAAAATTGGAAGAGGCGCTCGCATCTGCGGAAGATTGGATAAAATCCGTTTTATAA	MKHLTSAEVRQMFLDFFKEKGHAVEPSASLVPHEDPSLLWINSGVATLKKYFDGRVVPENPRIVNAQKSIRTNDIENVGKTARHHTFFEMLGNFSIGDYFKEEAITWAWEFLTSEKWIGFDPELLSVTVHPEDEEAYTLWAEKIGVPEERIIRLEGNFWDIGEGPSGPNTEIFYDRGEKYGNDPSDSELYPGGENDRYLEVWNLVFSEFNHNPDGTYTPLPKKNIDTGMGLERMVSVIQDVPTNFDTDLFMPIIEATERISGDVYGKDAVKDTAFKVIADHIRTVAFAVSDGALPSNEGRGYVLRRLLRRAVRYAKTIGISRPFMYELVPTVAGIMDAFYPEVKEKQEFIAKVIKTEEERFHETLNEGLAILSDVIKKEKEKGSGIISGKDVFKLYDTYGFPVELTEEYAEDEQMKVDHKGFEAEMEKQRERARNARQDVGSMQVQGGALRDITAESTFVGYSAVKAEAKVIELLHDGQLISEAHEGDTVQILLDKTPFYAESGGQIGDRGVLRSEQAVVIIKDVKKAPNGQHVHEGTVDSGTIQKGASVTAEVEDQMRSGVVKNHTATHLLHQALKDVLGTHVNQAGSLVTENRLRFDFSHFGQVTKEELERIEEIVNEKIWESIPVAIDLKPINEAKEMGAMALFGEKYGDIVRVVQVGDYSLELCGGCHVTNTAEIGLFKIVSESGIGAGTRRIEAVTGKGAYQEMNSQLSLLQHAADELKSNVKDVPKRIQSLQAELKEAQRENESLLSKLGNVEAGAILSKVKDIGGVKVLAEKVNAKDMNHLRTMVDDLKAKLGSAVIILGAVQNEKVNLSAGVTKDLIEKGLHAGKMVKQAAEVCGGGGGGRPDMAQAGGKQPEKLEEALASAEDWIKSVL				NA	NA	NA	NA	NA
D1-12_01730	1062		COG0628	Putative transport protein	ATGCTTCAAAAACCGCTGCAGCTCTTAATGTGGACGGCTGTATGTCTGCTCGTTTTGTTAACAGTGTATGTCTTTTGCATGCTCGATATGTTATGGTCTCCCATTTGGCTTGTTATAAAATCTCTCTTTATTCCTATATTCATCGCAGTATTTATTGCTTATCTTTTACTTCCGATTACTGAATGGCTTCATAGAAAAGGGATGCCTAGAACTTTAAGCCTGCTTCTGATTTATTGCCTGTTTTTCGGCGGAATCGGCTGGGGGGTTTATAAAGGGGTTCCTGTTTTAATTGAACAGCTGCAGGATCTGTCTGAGAGCATTCCCGGTCTTGCCAAAAACTACAACAGCATGCTGACGCATCTGCATAATCACACGGATCATTGGCCTGACGGCATGCACCATCGGATGGACAAAATGATTCAGCAGACAGAAACGTTTCTTGCCGGCACGATTGAAAGCACGATCAGAAGCATCCGTTTCGTGCTTGATTATATCCTGATCGCGGCGACGATTCCTTTTCTCGTGTTCTATATGGTGAAGGATATAGACGTCATGAAAAAGACAGTCTGGTATTTGACGCCGAAGTCCTGGAGAAAAAGGGGGAGTGAATTTCTGCGGGATGTGGACGACTCTCTCGGTGATTACATCCGCGGTCAGCTTCTCGTTTGTTTTTTGCTCGGGTTAATAGCCGGCGTTTCATTTTGGCTGTTCGGGCTTCCTTACCCGCTGATTTTGGGCCTTGCCATCGGGATTACGAATGTCATCCCGTATTTCGGTCCGTTTATCGGCGCTGTACCGGCGCTGCTCCTTTCGCTGGCGATTTCTGCTAAAGCTGTGATCATCGTAATCGTCACGATTTTTATTCTGCAATTTATAGAAGGAAACATTTTGAGCCCGCTTATTGTCGGGCGCAGTCTCAGAATGCACCCCATCGTGATCATGCTGGCGCTCCTTGCCGGAGGAGAACTCGCGGGCATTCCCGGCATGATTCTTGCTGTTCCGGCGGCAGCTGTTTTAAAAGTGACGGCCATTCACTTTTTGCGGATCAGGACGGAACATTGA	MLQKPLQLLMWTAVCLLVLLTVYVFCMLDMLWSPIWLVIKSLFIPIFIAVFIAYLLLPITEWLHRKGMPRTLSLLLIYCLFFGGIGWGVYKGVPVLIEQLQDLSESIPGLAKNYNSMLTHLHNHTDHWPDGMHHRMDKMIQQTETFLAGTIESTIRSIRFVLDYILIAATIPFLVFYMVKDIDVMKKTVWYLTPKSWRKRGSEFLRDVDDSLGDYIRGQLLVCFLLGLIAGVSFWLFGLPYPLILGLAIGITNVIPYFGPFIGAVPALLLSLAISAKAVIIVIVTIFILQFIEGNILSPLIVGRSLRMHPIVIMLALLAGGELAGIPGMILAVPAAAVLKVTAIHFLRIRTEH				NA	NA	NA	NA	NA
D1-12_01731	729	glnQ	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGATTTCATTTCAGGATGTAAATAAGCACTACGGACATTTCCACGTGCTGAAAAACATTAATCTGCACATTAAAAAAGGGGAAGTCGTCGTTATCATCGGACCTTCAGGATCGGGAAAAAGCACGCTTCTCCGCTGCATTAATCAGCTGGAAACAGTTGATGGAGGCGCCTTAACGGTAAACGGCGTCTCCATCCGTGACAAGAAAACGGATATCAATCAGGTCCGCCGGAATATCGGCATGGTGTTTCAGCATTTTCATCTGTACCCGCACAAAACCGTTCTGCAAAATATCATGCTCGCACCGATCAAAGTGCTCAAGCAATCAAAAGAAGAAGCAAAGGAAACGGCTTTATACTATTTGAAAAAAGTCGGTATACCGGACAAAGCGGACGCTTATCCTTCACAGCTTTCCGGCGGCCAGCAGCAGCGTGTCGCCATCGCCAGGGGGCTTGCGATGAAGCCCGAAATTATGCTGTTTGATGAACCCACATCCGCGCTTGATCCGGAAATGATCGGGGAGGTGCTGGATGTCATGAAAACACTCGCAAAGGAAGGCATGACCATGGCAGTCGTCACACATGAAATGGGATTCGCAAAAGAAGTGGCGGACCGCATCGTGTTTATCGACGGCGGATCCATCTTAGAAGAAGCTGCACCGGCTGAATTTTACGAAAGCCCCCGTGAAGAGAGGGCGCGTTTATTCTTAAGCCGTATTTTAAATCACTGA	MISFQDVNKHYGHFHVLKNINLHIKKGEVVVIIGPSGSGKSTLLRCINQLETVDGGALTVNGVSIRDKKTDINQVRRNIGMVFQHFHLYPHKTVLQNIMLAPIKVLKQSKEEAKETALYYLKKVGIPDKADAYPSQLSGGQQQRVAIARGLAMKPEIMLFDEPTSALDPEMIGEVLDVMKTLAKEGMTMAVVTHEMGFAKEVADRIVFIDGGSILEEAAPAEFYESPREERARLFLSRILNH	PGPT0000710_332	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000710-peb1C|glnQ-K10041	NA	NA
D1-12_01732	828	glnH	COG0834	ABC transporter glutamine-binding protein GlnH	ATGTCACGCGCAACAAAATGGTTGTCATTCGGATTGATATCACTGCTGGCCGTCTTTATGCTGGCAGCCTGCGGAGGGAAAGAAACGTCCGGGGATTCAAAAGGAACGGGAAAAGACACGTTAGCCTCTATTAAAGACAGAGACAAAATCATCTTCGGCGTCAAAACCGATACGAGGTTATTCGGGCTGAAAAACCCAAGCTCCGGTGATATTGAAGGCTTCGATATTGATATCTCAAAACAGCTCGCAAAAGATATTCTGGGGGATGAGAAGAAAGCGGAATTTAAAGAAGTGACGTCAAAAACAAGGATTCCGATGCTGCAAAACGGCGATATCGACGCCATCACCGCCACGATGACGATAACGGATGAGCGGAAAAAAGAAGTTGATTTCTCAGATGTTTATTTTGAAGCCGGGCAATCCCTGCTCGTCAAAAAAGGAAGCAGCATCAAAAGCACCGAAGACCTGGGAAAAGGCTCAAAAGTATTGGCGGTAAAAGGCTCCACTTCCTCACAGAACATCAGAGAAAAAGCGCCTGACGCCTCAGTGCTGGAATTTGAAAATTACGCCGAAGCGTTCACTGCGCTTAAAGCGGGACAGGGAGATGCGCTCACAACCGATAATGCGATTTTATACGGCATGGCGGATGAAAATAAACAATATCAGCTGACGGGCGAAACCTTCACCGATGAACCTTACGGAATCGCCGTCAAAAAAGGCCAATCCGGCCTTGTCAAAAAAATCAACGCCTCTTTGAAAAAAATGAAAGCTGACGGCAGGTACGAAAAAATCTATAAAAAATGGATAAAAGAAGAACCGGCAAAATAG	MSRATKWLSFGLISLLAVFMLAACGGKETSGDSKGTGKDTLASIKDRDKIIFGVKTDTRLFGLKNPSSGDIEGFDIDISKQLAKDILGDEKKAEFKEVTSKTRIPMLQNGDIDAITATMTITDERKKEVDFSDVYFEAGQSLLVKKGSSIKSTEDLGKGSKVLAVKGSTSSQNIREKAPDASVLEFENYAEAFTALKAGQGDALTTDNAILYGMADENKQYQLTGETFTDEPYGIAVKKGQSGLVKKINASLKKMKADGRYEKIYKKWIKEEPAK	PGPT0000670_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000670-peb1A|glnH-K10039	NA	NA
D1-12_01733	651	glnM	COG0765	putative glutamine ABC transporter permease protein GlnM	ATGAACTTTTCAATTTTAACGGAAAACTTCGATATGTATATGGACGGTTTCCTGCACACATTGCTTGCGAGCTTCATCGCGCTGGCAGGCAGCTTTGCGCTGGGCGTTCTGATCGCAGTCATGAGAATCACGGCTTTCATACCCCTTCAATGGATCGGCACTGCGTATGTGGAATTTATCCGGAACATCCCGCTTCTCCTCATCACATTCGTTTTTTATTTCGGACTTCCGAACGCCGGACTGAGACTGGACGGCTTTCAGGCGGGAACGATTGCGCTTACGATTTACACGTCCGCCTTTATCGCAGAAGCCATCAGAGCCGGAATTCAGACTGTCCCCAAAGGGCAGATGGAAGCGGCCAGATCGTCAGGCTTCACCTACAGTCAGGCGATGAGATATATCATTCTTCCTCAGGCCGTAAAAATCGTCATTCCCCCGCTCGGAAACCAATTTCTCAACCTTGTCAAAAACTCATCAATACTCGGAGTGGTGGCGGGGCTCGATTTGATGTATCAGGCGGATCTCGTGTCCTCGAGCACTCTTGTCGTGTTTGATGTCTATATTTTCGTCGCGCTTTTTTATTTGATAGTAACGATCCCGCTCAGCATCGGGGTTCACTATTTGGAAAGACGTCTCGGAAAGAGTTATTAG	MNFSILTENFDMYMDGFLHTLLASFIALAGSFALGVLIAVMRITAFIPLQWIGTAYVEFIRNIPLLLITFVFYFGLPNAGLRLDGFQAGTIALTIYTSAFIAEAIRAGIQTVPKGQMEAARSSGFTYSQAMRYIILPQAVKIVIPPLGNQFLNLVKNSSILGVVAGLDLMYQADLVSSSTLVVFDVYIFVALFYLIVTIPLSIGVHYLERRLGKSY	PGPT0000705_541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000705-peb1B|glnP|glnM-K10040	NA	NA
D1-12_01734	657	glnP	COG0765	putative glutamine ABC transporter permease protein GlnP	ATGGATTTTAGCGGCGCCTATACACCTGACCATCTGCTGTTTTTATGGGACGGCTTTTTGGTCACACTTTATGTTGCGCTGATCTCCATTGTCCTGAGTTTTATTTTCGGGCTTGCCGCCGGCACTTTGCGCTATGCGAAAATTCCTATCGTCTCGGGCATTATAGCGGCCATTGTGGAAACCATCCGCAACCTGCCGCTGTTATTAATCATTTTCTTTACGTTTTTTGCCCTTCCGGAAATCGGGATCAAACTGGAAATTACCGCGGCCGCCATCACGGCGCTGACGATTTTTGAATCGGCCATGCTGTCAGAAATCATCAGAAGCGGTTTGCAATCCGTTGACAAAGGACAGATTGAAGCGGCGCGTTCTTCAGGACTGACGTACACGCAGACTCTTTTTCTCGTCGTCATGCCGCAGGCGCTCAGGCGTATGGTTCCTCCGATTGTGAGCCAGTTTATCTCCTTATTAAAGGATACGTCACTTGCGGTCGTCATCGCTCTGCCCGAACTGATTCATAACGCGCAGATTTTAAACGGACAAAGCGCTGACGGGGGGTATTTTTTCCCGATCTTTCTGCTGGCGGCCCTGATGTATTTCGCGGTCAATTACAGCCTGTCTCTCGCAGCCAGACGGCTGGAAGCGAGACAAACGTAA	MDFSGAYTPDHLLFLWDGFLVTLYVALISIVLSFIFGLAAGTLRYAKIPIVSGIIAAIVETIRNLPLLLIIFFTFFALPEIGIKLEITAAAITALTIFESAMLSEIIRSGLQSVDKGQIEAARSSGLTYTQTLFLVVMPQALRRMVPPIVSQFISLLKDTSLAVVIALPELIHNAQILNGQSADGGYFFPIFLLAALMYFAVNYSLSLAARRLEARQT	PGPT0000705_338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000705-peb1B|glnP|glnM-K10040	NA	NA
D1-12_01735	132			hypothetical protein	ATGGGCAGAACAATGACCTCTCTGTTGGCTTTAGGAGCTGGAGCCGTTATGTATCGTATGGCTTCTCAGTCCGATATGCTGAATAAAAAAGGTATGAAACGGATGAGAAGACGAGTCATGAAAATGTTTTAA	MGRTMTSLLALGAGAVMYRMASQSDMLNKKGMKRMRRRVMKMF				NA	NA	NA	NA	NA
D1-12_01736	192			hypothetical protein	GTGCTTGTATGTCCGAACTGCAAAAGTAAAGATATCGGCAAAATCGGCGTAAACCAATACTATTGCTGGGGCTGCTTCATTGAGCTGACGGTGGCCAAAGGCAAAATTGCGACACATCAAGTAGAGGAAGACGGCACGTTAAGCAGTCTTGATGATTTGTTTTCTGAAGACGAACGCAGTATCAATTTTTAA	MLVCPNCKSKDIGKIGVNQYYCWGCFIELTVAKGKIATHQVEEDGTLSSLDDLFSEDERSINF				NA	NA	NA	NA	NA
D1-12_01737	459			hypothetical protein	TTGAGAACATGCCATGCAGCTGAAGGACGAACAGTATATGACGAAAACACCGGGCGCAGTCTCGGGATGATATCGGATGTATGTTTCTCTCTGGACGGCCGGTTTCTCGGTTTCGTGCTGGAGCAGAAACGCTTGTTTCACAACCGCCATCTTTTTTTAGGGGCAAGTGATATAAAAGAGATGGATCAAGAAGCCGTAGCTGCCGGTCATGCTCATTTGCAGCCTTTGCCGAAGAGCTGTTTCACCTTTGAACAGATTAAAATGCAGCCGGTGAAATCGCCTGATGGTGAAATGTTCGGTTTGCTGGAAGATGTATACTTTTGTTTGGACAGGGGCATAATCGTAGCATATGAACTCTCGGACGGCTTCTTTTCAGATCTGGCTGGCAGACGCCAAGTGCGCCGCGCCGCCGATACGCTTATTGAAGCGGGGAAAGAAGGCATCGTCCTGAACGGATAA	MRTCHAAEGRTVYDENTGRSLGMISDVCFSLDGRFLGFVLEQKRLFHNRHLFLGASDIKEMDQEAVAAGHAHLQPLPKSCFTFEQIKMQPVKSPDGEMFGLLEDVYFCLDRGIIVAYELSDGFFSDLAGRRQVRRAADTLIEAGKEGIVLNG				NA	NA	NA	NA	NA
D1-12_01738	2379	recD2	COG0507	ATP-dependent RecD-like DNA helicase	GTGGATCAGCTGAACATCGAAGAACAGCCGTATGTAAAAGGCGTCATTCATACGGTCATTTATCATAATGACACCAACCTGTATACAGTGCTGAAAGTCAAGGTTGCAGAAACGTCTGAGGCGATCGAAGACAAGGTCGTATCCGTAACGGGCTACTTCCCTCTGCTGCAAGAAGATGAGACCTACACATTTTACGGAAAAACCGCCACGCATCCTAAGTTCGGCCTGCAATTTCAGGCTGAACACTTTAAAAAAGAAATTCCGACCACAAAAGAAGGGATCATTCACTATTTATCAAGTGATCTGTTTGAAGGAATCGGAAAAAAAACGGCGGAAGAAATCGTCAAAAAGCTTGGAGACGGCGCGCTCAATAAAATTCTGGCTGATGCATCGGTGCTTTATGATGTGCCGAAAATGTCAAAAAAGAAAGCGGACAAACTGGCGGGAGAGCTGCAGCGGCATCAGGGTCTCGAGCAGATTATGATCTCTCTGAACCAATACGGTTTCGGGCCCCAGCTATCCATGAAAATATATCAGGCCTACGAAACGGAAACCTTGGAGAAAATTCAGGAAAATCCTTATCAGCTTGTAAAAGACGTTGAAGGCATCGGCTTTGTGAAAGCTGACGAGCTGGGCGGAAAAATGGGTCTGTCAGGAAACCACCCGGAGCGGATCAAAGCGGCTATCTTATATACGATTGAATCGACCTGTCTTTCAGAGGGCCATACGTACATAGAAACGAAGCAGCTGATTATCAATACGCAAACGCTTCTGAATCAGTCAGCTGAAGGCGGCCGCGTCACGGAAATGGATGCGGCTGACGGCATCATCGCCCTCGGGGAGAGTAAGGATATCGTCATCGAAGGAGAGCGCTGCTATTTTCCGTCATTGTTTTACGCCGAACAAAACGTCGCAAAACGCGTGCTCGACATTGCGGCCCAGACGGAGTATGCCGATCAGTTTCCTGAATCGGAATTTCTGCTTGCACTCGGTGAACTGGAAGAACGGATGAATGTTCAATACGCACCAAGCCAAAAGGATGCCATTCAAAAAGCACTGTCTTCACCGATGCTTTTACTGACCGGAGGACCGGGAACGGGGAAAACGACCGTTATTAAAGGAATCGTGGAATTATACAGTGAACTGCACGGCGTATCCCTTGACCCCGGTGATTATAAAAAAGACGAGGCGTTTCCGGTGCTGCTTGCCGCGCCGACCGGAAGAGCCGCAAAACGGATGAGCGAATCTACGGGTCTGCCGGCTGTTACGATTCACAGGCTGCTCGGCTGGAATGGCGCTGAAGGCTTTACCTACAACGAAGATCAGCCGATTGAAGGGAAACTGATCATTATAGACGAAGCGAGTATGCTTGATATCTGGCTCGCCAGCCATTTGTTTAAGGCGCTTCCTAAGCACATTCAGCTCATTATAGTCGGTGATGAAGACCAGCTTCCTTCAGTAGGACCGGGGCAGGTGCTCAGAGATCTTTTGGCTTCTGAAGTGCTGCCGACCGTGCACCTGACAGATATTTACCGTCAGGCTGAAGGATCATCCATTGTGGAACTTGCCCATGATATGAAAAAAGGACTGCTTCCAAAGGGGCTGACCGCGCCGACAAAGGACCGCTCATTTATCCGCTGTAATTCTTCACAGATTAAAGAAGTCGTGGATCAGGTCGTCTCGAACGCGTTAAAAAAGGGGTATACCTCCAGAGATATTCAAGTGCTTGCCCCGATGTACAGGGGAAAAGCGGGAATTAACGAGCTGAACATGCTTCTTCAGGACATCATGAATCCGCCTAAAGAAAAAAGGCGGGAGCTGAAATTCGGAGATGTCGTCTACAGGACGGGCGATAAAATATTGCAGCTTGTCAACCAGCCGGAAAACAATGTGTTTAACGGCGATATCGGCGAAATCGTGTCCATTTTTTATGCCAAAGAAAATACGGAAAAAGAAGACATGGTCGTCGTCTCGTTTGACGGCAACGAAATCACCTTTACGAAAAAGGATTTCAGCCAGTTTACCCACGCGTACTGCTGTTCCATCCATAAGTCGCAGGGAAGCGAATTCCCGATTGTCGTCCTGCCTGTCGTCAAAGGCTACTATCGAATGCTCAGGAGAAATCTGCTTTATACCGCCATTACAAGAGCGAAAAAATTCCTGATTCTTTGCGGAGAAGAAGAAGCGCTTGAATGGGGCGTCAAAAACAATGATGCCACCGTCAGACAGACATCGCTTAAAAACAGGCTCACAGAGCAGACTGAAGAGATGGATGCAGAACTGGCCGCCCTGCAAAAAGAGCTGCCGTTCAGTGTATACGATGCGAACATCGGAATGGAAGGCATCACGCCTTTTGACTTTATGGAAGAAAAAGCGTAA	MDQLNIEEQPYVKGVIHTVIYHNDTNLYTVLKVKVAETSEAIEDKVVSVTGYFPLLQEDETYTFYGKTATHPKFGLQFQAEHFKKEIPTTKEGIIHYLSSDLFEGIGKKTAEEIVKKLGDGALNKILADASVLYDVPKMSKKKADKLAGELQRHQGLEQIMISLNQYGFGPQLSMKIYQAYETETLEKIQENPYQLVKDVEGIGFVKADELGGKMGLSGNHPERIKAAILYTIESTCLSEGHTYIETKQLIINTQTLLNQSAEGGRVTEMDAADGIIALGESKDIVIEGERCYFPSLFYAEQNVAKRVLDIAAQTEYADQFPESEFLLALGELEERMNVQYAPSQKDAIQKALSSPMLLLTGGPGTGKTTVIKGIVELYSELHGVSLDPGDYKKDEAFPVLLAAPTGRAAKRMSESTGLPAVTIHRLLGWNGAEGFTYNEDQPIEGKLIIIDEASMLDIWLASHLFKALPKHIQLIIVGDEDQLPSVGPGQVLRDLLASEVLPTVHLTDIYRQAEGSSIVELAHDMKKGLLPKGLTAPTKDRSFIRCNSSQIKEVVDQVVSNALKKGYTSRDIQVLAPMYRGKAGINELNMLLQDIMNPPKEKRRELKFGDVVYRTGDKILQLVNQPENNVFNGDIGEIVSIFYAKENTEKEDMVVVSFDGNEITFTKKDFSQFTHAYCCSIHKSQGSEFPIVVLPVVKGYYRMLRRNLLYTAITRAKKFLILCGEEEALEWGVKNNDATVRQTSLKNRLTEQTEEMDAELAALQKELPFSVYDANIGMEGITPFDFMEEKA				NA	NA	NA	NA	NA
D1-12_01739	651	yrrB		TPR repeat-containing protein YrrB	ATGGATTATAATAAAATCGGGATTGACGCCATGCAGGAGGGCGATTTTGAAAAAGCGGCAGAGGCTTTTACGAAAGCGATTGAGGAAAACGGCCAAGACCCGGTGCCGTACATCAACTTCGCAAATCTGCTTTCTTCTGTGAACGAACTCGAACGGGCGCTTGCATTCTATAACAGAGCGCTTGAATTGGACAACTCGGCGGCAGCCGCTTATTACGGTGCGGGAAACGTATATGTGATGAAAGAATCGTTTTCCGAAGCGAAGGATATGTTTGAAAAAGCGCTTCGCTCCGGAATGGAAAACGGAGATTTGTTTTATATGCTGGGGACCGTTCTCGTTAAATTAGAGCGGCCGAAGCTTGCACTGCCGTATCTGCAGCGTGCCGTTGAATTAAACGAAAATGACACGGAAGCGCGCTTCCAGTTCGGAATGTGTCTCGCAAATGAAGAAATGCTGGATGAAGCTCTTGCGCAGTTTGAGACGGTGATCGAGCAGGATCCAGGCCACGCGGACGCATTTTATAATGCCGGGGTCGCTTACGCGTACAAAGAAAATCGTGAAAAGGCGCTTGAGATGCTGGAAGGCGCAATCGGCATACAGCCTGATCATATGCTTGCGCTTCATGCGAAACAGCTTATCACCCAGTCATAA	MDYNKIGIDAMQEGDFEKAAEAFTKAIEENGQDPVPYINFANLLSSVNELERALAFYNRALELDNSAAAAYYGAGNVYVMKESFSEAKDMFEKALRSGMENGDLFYMLGTVLVKLERPKLALPYLQRAVELNENDTEARFQFGMCLANEEMLDEALAQFETVIEQDPGHADAFYNAGVAYAYKENREKALEMLEGAIGIQPDHMLALHAKQLITQS				NA	NA	NA	NA	NA
D1-12_01740	1116	mnmA		tRNA-specific 2-thiouridylase MnmA	ATGGAAAAACGGCCGGAGGATACAAGAGTCGTAGTCGGCATGTCCGGCGGCGTGGACTCTTCCGTGGCGGCCCTTCTGCTGAAGGAGCAGGGCTACGATGTAATCGGAATCTTTATGAAAAACTGGGATGATACGGACGAAAACGGTTTTTGCACGGCGACGGAAGATTATGAAGACGTCATCCGGGTCTGCAACCAGATCGGAATTCCGTATTATGCCGTCAATTTTGAGAAGCAATATTGGGAAAAGGTATTTCAATATTTCCTTGATGAATATAAAGCCGGAAGAACCCCCAATCCGGATGTCATGTGCAATAAAGAAATTAAGTTTAAGGCTTTCTTGGATCATGCTCTGTCACTCGGCGCGGATTATCTTGCGACGGGCCATTACGCCCGCGTGGATAGAAGCGCAGGTACAGTGCGCATGCTCCGCGGTCTGGATGAAAACAAGGACCAGACTTATTTTCTGAATCAGCTCAATCAGGAACAGCTCAGCAAAGTCATGTTCCCGATCGGTGATCTGCAAAAAAGCCGCGTGCGGGAAATCGCCAAAGAAGCGGAACTTGCGACAGCTGCGAAAAAAGACAGCACGGGAATCTGCTTTATCGGCGAACGCAACTTCAAAACGTTTCTCAGCCAATATCTCCCCGCTCAGCCGGGCGATATGATGACAATGGACGGAGAAATAAAAGGGCGTCATGACGGTCTGATGTATTATACAATCGGACAGCGCCACGGTCTTGGAATCGGCGGAAGCGGCGAGCCGTGGTTCGCCGTCGGTAAAGATCTTGAAAAAAACATTCTGTATGTTGATCAAGGATTCCATAATCCGCTTCTGTATTCCGATAAGATCACGGCGACAAATGTCAGCTGGACGCGTCCCGGTCTGATGGACAGCGGCGAAATGACATGCACGGCGAAATTCCGCTACCGTCAGGAAGATCACAAAGTAACGGTGAAAATGACGGGTGATGATGAAGCGGAAATCATTTTTGACGGGCAGGTACGCGCCGTTACGCCGGGACAAGCCGTCGTTTTTTATGACGGAGAAGAGTGCCTCGGCGGCGGAACGATAGATGACGTTTATAAAGACGGAACAAAACTGTGGTACGTATAA	MEKRPEDTRVVVGMSGGVDSSVAALLLKEQGYDVIGIFMKNWDDTDENGFCTATEDYEDVIRVCNQIGIPYYAVNFEKQYWEKVFQYFLDEYKAGRTPNPDVMCNKEIKFKAFLDHALSLGADYLATGHYARVDRSAGTVRMLRGLDENKDQTYFLNQLNQEQLSKVMFPIGDLQKSRVREIAKEAELATAAKKDSTGICFIGERNFKTFLSQYLPAQPGDMMTMDGEIKGRHDGLMYYTIGQRHGLGIGGSGEPWFAVGKDLEKNILYVDQGFHNPLLYSDKITATNVSWTRPGLMDSGEMTCTAKFRYRQEDHKVTVKMTGDDEAEIIFDGQVRAVTPGQAVVFYDGEECLGGGTIDDVYKDGTKLWYV				NA	NA	NA	NA	NA
D1-12_01741	1140	iscS_1		Cysteine desulfurase IscS	ATGGAACGGATTTATTTAGATCATGCAGCGACTTCCCCGATGGATGAGCGTGTGCTCGAAGAAATGAAGCCCCATTTCTTCGGCAGTTTCGGCAACCCGTCAAGCATTCATTCATTCGGGAGAGAATCCCGGAAATGGGTCGATGAAGCGAGAGCGGACATCGCGCGCGAAATCAGTGCGAAAGAACAGGAAATTATTTTCACAAGCGGCGGCACGGAGGCTGATAATTTAGCGATTTTCGGAACGGCTGCCGCCCGGAAGAATGAAGGAAAGCATATCATTACGACCGCTGTTGAGCATCATGCTGTATTGCACGCCTGCGAAAAGCTGGAAGAAGACGGCTTTGAGGTGACATACCTCATCCCCGGCCCTTCAGGACGGATCAGTGCAAATCAGGTGAAAGAAGCGCTCCGTGATGATACAATCCTTGTTACCGTCATGTATGGCAATAACGAAGTCGGAACCATTCAGCCGATTGACGAAATCGGAGAGCTGTTAAGCGGGCATCAGGCCTATTTTCACACAGATGCCGTCCAGGCATTCGGTTATATGCCGATTGACGTGAAAAAAAGCAGAATTGACATGCTGTCTGTTTCCGGTCACAAGCTTAACGGGCCTAAAGGGACAGGCTTTTTATATGTAAATCAAGAGGTGAAGCTGTCACCGATTCTTCTCGGGGGAGAGCAGGAACGAAAGCGCCGCGCGGGGACGGAAAATGTACCGGGCATCGCCGGCTTAAAAGAAGCGGTCGTCCTTTCAAACCGTGAGAGGGAAGAGAAAACAGCGAAGTATAAGGAGTTTAAGAACATTATCATGAGCACGCTGGAAAAATCCGGCGTTACAGCGGAGGTGAACGGAGATGCCGAGAAATGCCTGCCTCATATTTTAAACCTTTACTTTCCCGGTGTGCCGGTGGAAGCGCTGCTGGTCAATCTTGACATGGAAGGCATTGCCGTCTCCAGCGGATCTGCTTGTACAGCGGGATCCGTTCTTCCGTCCCATGTGCTTACGGCCATGTTCGGAAGTGAGAGCGGCAGGCTGACTTCGTCAATCCGCCTCAGCTTCGGCCTCGGCAATACGGCGGAACAAATCGAAACAGCCGCCGAAAAGCTTGCCGCCGTCGTTAAACGGCTTGCTTAA	MERIYLDHAATSPMDERVLEEMKPHFFGSFGNPSSIHSFGRESRKWVDEARADIAREISAKEQEIIFTSGGTEADNLAIFGTAAARKNEGKHIITTAVEHHAVLHACEKLEEDGFEVTYLIPGPSGRISANQVKEALRDDTILVTVMYGNNEVGTIQPIDEIGELLSGHQAYFHTDAVQAFGYMPIDVKKSRIDMLSVSGHKLNGPKGTGFLYVNQEVKLSPILLGGEQERKRRAGTENVPGIAGLKEAVVLSNREREEKTAKYKEFKNIIMSTLEKSGVTAEVNGDAEKCLPHILNLYFPGVPVEALLVNLDMEGIAVSSGSACTAGSVLPSHVLTAMFGSESGRLTSSIRLSFGLGNTAEQIETAAEKLAAVVKRLA	PGPT0000065_6715	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
D1-12_01742	378	cymR		HTH-type transcriptional regulator CymR	ATGATTGAATTGGCGAAAAAGCACGGAGACGGTCCGACGTCGCTCAAAAGCATCGCCCAAACAAACAGCCTTTCTGAGCATTACTTGGAACAGCTTGTATCACCGCTCAGAAACGCGGGACTCGTAAAAAGCATCAGAGGCGCTTACGGGGGTTACGTGCTCGGGGGCCAGCCTGAAGAGATAACGGCCGGAGACATTATCAGAGTGCTGGAAGGGCCGATCAGCCCGGTAGAAGTGCTTGAGGATGAAGAGCCTGCCAAGCGGGAGTTATGGATCCGCATCCGCGACGCTGTAAAAGACGTGCTGGACAGCACGACGTTAGAAGACCTTGCGAGCTACACGGACGGCGAGCAGGAAGCTTATATGTTCTATATTTAA	MIELAKKHGDGPTSLKSIAQTNSLSEHYLEQLVSPLRNAGLVKSIRGAYGGYVLGGQPEEITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKDVLDSTTLEDLASYTDGEQEAYMFYI	PGPT0004960_1485	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643	NA	NA
D1-12_01743	1269		COG2256	putative AAA domain-containing protein	ATGAAACCATTGGCGTATCGGATGCGGCCTGCCAATATCGAAGACATTATCGGCCAGGAACATTTGGTGAAAGAAGATAAAATCATCGGCAGAATGGTGCGTGCGAAGCACTTATCATCCATGATCCTGTACGGACCGCCGGGCATCGGAAAAACGTCCATCGCCACAGCGATCGCAGGATCGACAAGCATCGCATTCAGGAAATTGAATGCCGTCATTCATAATAAAAAAGACATGGAGATTGTCGTACAGGAAGCGAAAATGTCAGGTCAGGTCATTTTAATCCTTGATGAAGTGCACAGGCTTGATAAGGGAAAGCAGGATTTTCTGCTGCCCTATTTAGAAAACGGCATGATTATTTTAATCGGCGCGACGACCGCCAACCCTTATCATGCCATTAACCCGGCCATCAGAAGCCGAACCCAGATATTTGAGCTTGAACCGTTAACACCCGATCTGATCAAGCAGGCATTGAAAAGAGCGCTCACAGATGAACACCGGGGACTCGGTTCCTACAGCGTTTCGGTGGACGACGACGCGATGGATCATTTCGCACAAGGATGCGGAGGAGACGTCCGCTCCGCTTTGAACGCACTGGAGCTTGCCGTGCTCTCCACAAAGGAATCAAGCGACGGCACGATCCGGATTACACGGGAAACGGCGGAAGAATGTCTGCAGAAAAAAAGCTATACCCATGATAAAAACGGCGATGCGCATTATGACGTCTTATCCGCCTTCCAAAAATCGATCCGAGGCTCGGACGCAAACGCCGCCCTTCATTATCTGGCCCGTCTGATCGAAGCCGGAGACCTTGAAAGCATATCAAGAAGGCTTCTCGTGATCGCCTATGAAGATATCGGCCTCGCAAGCCCGCAGGCAGGCCCCCGGGTGCTGAGCGCGATTCAGACCGCAGAACGGATCGGCTTTCCGGAAGCGAGAATTCCGCTGGCCAATGCGGTAATCGAATTATGCCTCTCGCCAAAATCAAACTCCGCCATCTCAGCCGTTGATGAGGCGCTCAAAGACATCAGGACTGGTAAAATCGGCGATGTGCCGAAACATTTAAAAGACGCCCACTATAAAGGGGCCCAAGAGCTCGGACGCGGGATCGGCTATCAATATCCCCACGATTTCGAGAATGGATGGGTCGAACAGCAATATTTGCCCGATCCGTTAAAAAACAAGCAATACTATAAACCGAAACAAACGGGGAAATTTGAAGCCGCCATAAAGCAAGTGTATGAAAAACTGATGAAGCAGAAAAAATAA	MKPLAYRMRPANIEDIIGQEHLVKEDKIIGRMVRAKHLSSMILYGPPGIGKTSIATAIAGSTSIAFRKLNAVIHNKKDMEIVVQEAKMSGQVILILDEVHRLDKGKQDFLLPYLENGMIILIGATTANPYHAINPAIRSRTQIFELEPLTPDLIKQALKRALTDEHRGLGSYSVSVDDDAMDHFAQGCGGDVRSALNALELAVLSTKESSDGTIRITRETAEECLQKKSYTHDKNGDAHYDVLSAFQKSIRGSDANAALHYLARLIEAGDLESISRRLLVIAYEDIGLASPQAGPRVLSAIQTAERIGFPEARIPLANAVIELCLSPKSNSAISAVDEALKDIRTGKIGDVPKHLKDAHYKGAQELGRGIGYQYPHDFENGWVEQQYLPDPLKNKQYYKPKQTGKFEAAIKQVYEKLMKQKK				NA	NA	NA	NA	NA
D1-12_01744	765			hypothetical protein	TTGTTACATCAGTTTTCCAGAAATGAGCTAGCGATTGGAAAAGAAGGGCTGGACACGTTAAAAAACAGCACGGTGGCCGTTCTCGGCGTCGGCGGAGTCGGTTCATTCGCAGCCGAAGCATTGGCGAGGTCCGGAGTGGGGCGGATCGTGCTTGTCGATAAAGATGATGTTGACATTACAAACGTAAACCGCCAGCTGCATGCGCTCTTGTCGACGGTGGGACAGCCGAAAACAGAATTGATGAAAGAGCGGATCGCTGATATTAATCCGGATTGTGACGTCGTCGCCTTAAAAATGTTTTATACAGAAGAGACGTATGAGCAGTTCTTTGAGTATCCGCTCGATTACGTCATTGACGCGTCGGATACGATTCATTATAAAATTCATCTGATGAAAGAATGTCTGAAACGGAATGTTCCGCTGATTTCAAGCATGGGAGCGGCGAATAAAACAGACCCGACACGCTTTCAGATTGCTGATATTTCAAAAACCCATACTGATCCGATTGCCAAAGTCGTCCGCACAAGACTTCGCAAAGAGGGCATTAAAAAAGGCGTACAGGTCATTTTTTCTGATGAAAGCCCGATCGTCATCCGTGAAGACGTCAGAAAAGAAGTCGGGAATGATGAAGCGAAAATCCGCAAAGCGCAAATGCCGCCGTCTTCCAACGCCTGGGTTCCGTCAGTGGCCGGTCTGATTATGGGCGGACATGTTGTCATGGAGCTCTTAAAGGACATCGACATTAAACGGGTTAAAGATAAGTAA	MLHQFSRNELAIGKEGLDTLKNSTVAVLGVGGVGSFAAEALARSGVGRIVLVDKDDVDITNVNRQLHALLSTVGQPKTELMKERIADINPDCDVVALKMFYTEETYEQFFEYPLDYVIDASDTIHYKIHLMKECLKRNVPLISSMGAANKTDPTRFQIADISKTHTDPIAKVVRTRLRKEGIKKGVQVIFSDESPIVIREDVRKEVGNDEAKIRKAQMPPSSNAWVPSVAGLIMGGHVVMELLKDIDIKRVKDK				NA	NA	NA	NA	NA
D1-12_01746	1779	aspS		Aspartate--tRNA ligase	ATGTTTGGAAGAACATATTATTGTGGCGAGATAACTGAAAAAGCGATTGGCGAAACCGTCAAACTGAAAGGGTGGGTGCAGAAACGGCGCGATCTCGGCGGCTTGATTTTCATTGATTTGCGGGACCGCTCGGGTATTGTGCAAGTCGTGTTCAACCCTGACGTATCGAAGGAAGCCCTTGCCGCAGCGGAAGCAATCAGAAACGAATATGTGCTTGATATCGAAGGCACGGTTTCTGCCCGTGAAGAAGGCACGGTGAATCCCAACCTGAAAACCGGTAAAATTGAAATCAAAGCTGAAGCGGTGACGGTGCTCAGCACGGCGAAAACGCCTCCGTTTCCGATCAGTGACCAGGCGGCTGACGTTTCTGAAGACGTCCGGTTAAAACACCGCTATTTGGATTTGCGCCGCCCGGCGATGTTTCAAACATTGCAAATGCGCCATCAAGTCACAAAATCCATCCGCCATTTCTTGGATGAAAACGGATTTCTTGATATTGAAACACCGATTTTAACAAAAAGCTCTCCCGAAGGCGCCCGTGATTACTTAGTGCCGAGCCGGGTGCATGAAGGAGAATTTTACGCCCTTCCGCAATCGCCGCAGATTTTTAAACAGCTTCTGATGGTGTCGGGCTTTGAACGGTATTATCAAGTGGCCCGCTGCTTCCGCGATGAAGACTTGCGTGCCGACCGCCAGCCGGAATTTACGCAGATTGATATCGAAATGTCCTTTATGAGTCAAGAGGACATCATGGCTCTGGCGGAAGAGATGATGGCGAAAGTCATGCTCGAAACAAAAGGTGTTGAAGTACCGCTTCCGCTTCCGAGAATGACATATGAAGAAGCGATGAACAGCTACGGTTCCGACAAGCCCGATACCCGCTTCGGCATGCTGCTGACGGACGTGTCAGACATAGTGAAAGATACTGAATTTAAGGTGTTCTCATCAGCCGTGGCAAACGGCGGCGTTGTAAAAGCGATCAATGTCAAAGGCGCTGCCGGCGACTATTCCAGAAAAGATATCGATGCGCTCGGCGTTTTTGCCGGAAATTACGGCGCGAAAGGTCTCGCTTGGGTGAAAGTTGAAGCTGACGGCGTAAAAGGCCCGATTGCGAAATTCTTTGATGAAGAGAAGCAGGCAAAACTGGCTGAAGCGCTTGATGCTTCTGAAGGCGATCTGCTCCTGTTCGGGGCTGATAAGTTTGAGGTTGTGGCTCAATCCCTCGGCGCGCTTCGCTTAAAGCTCGGCAAAGAACGCGGCCTGATTGACGAAAGCCTCTTCAACTTTCTGTGGGTTGTGGACTGGCCGTTACTGGAGCATGACGAGGAAGAAGGCCGTTTCTATGCGGCTCACCACCCGTTTACAATGCCTGTCCGTGAAGATCTTGACCTGATTGAAACGGCGCCTGAAGATATGAAAGCGCAGGCTTACGACCTTGTCTTAAACGGCTATGAACTCGGCGGAGGCTCAATCCGTATTTTTGAAAAAGACGTTCAGGAAAAAATGTTCGGGCTTCTCGGCTTTACAAAAGAAGAAGCGGAGGAGGAGTTCGGATACCTTCTTGAAGCCTTTGAATACGGCGCCCCTCCGCACGGCGGAATCGCGCTCGGCTTAGACCGTTTGGTTATGCTTCTTGCAGGCCGCACAAACTTAAGAGATACGATCGCTTTCCCGAAAACGGCAAGCGCAAGCTGCCTTCTTACGGAAGCGCCCGGCGAAGTGAGCGACGCCCAGCTTGAAGAACTTCACCTTTCTGTCAAAAGAAAAGTGAAACAGTAA	MFGRTYYCGEITEKAIGETVKLKGWVQKRRDLGGLIFIDLRDRSGIVQVVFNPDVSKEALAAAEAIRNEYVLDIEGTVSAREEGTVNPNLKTGKIEIKAEAVTVLSTAKTPPFPISDQAADVSEDVRLKHRYLDLRRPAMFQTLQMRHQVTKSIRHFLDENGFLDIETPILTKSSPEGARDYLVPSRVHEGEFYALPQSPQIFKQLLMVSGFERYYQVARCFRDEDLRADRQPEFTQIDIEMSFMSQEDIMALAEEMMAKVMLETKGVEVPLPLPRMTYEEAMNSYGSDKPDTRFGMLLTDVSDIVKDTEFKVFSSAVANGGVVKAINVKGAAGDYSRKDIDALGVFAGNYGAKGLAWVKVEADGVKGPIAKFFDEEKQAKLAEALDASEGDLLLFGADKFEVVAQSLGALRLKLGKERGLIDESLFNFLWVVDWPLLEHDEEEGRFYAAHHPFTMPVREDLDLIETAPEDMKAQAYDLVLNGYELGGGSIRIFEKDVQEKMFGLLGFTKEEAEEEFGYLLEAFEYGAPPHGGIALGLDRLVMLLAGRTNLRDTIAFPKTASASCLLTEAPGEVSDAQLEELHLSVKRKVKQ				NA	NA	NA	NA	NA
D1-12_01747	1275	hisS	COG0124	Histidine--tRNA ligase	ATGGCATATCACATTCCAAGAGGCACACAGGACATACTGCCGGGTGAATCAGACAGATGGCAGTTCGTCGAACAAATTATGAGGGAGACGTGCCGCACTTATCAATATAAAGAAATCCGCACACCGATTTTCGAGCATACGGAATTGTTCGCAAGAGGCGTCGGTGAGTCTACAGATATCGTGCAGAAAGAAATGTACACGTTTGAAGACCGTAAAGGGAGAAGCCTGACGCTTCGGCCGGAAGGAACAGCCGCCGCAGTCCGCGCGTTCAATGAAAATAAATTATTTGCGAACCCGGTGCAGCCGACGAAGCTTTATTATGTCGGACCGATGTTCCGTTACGAACGTCCGCAGACAGGGCGTTTCCGCCAATTTTATCAATTCGGAATTGAAGCGATCGGCTCCAAAGATCCGGCCGTGGATGCAGAAGTCATTGCGCTTGCGATGAGTATTTACCGTAAAGCCGGTTTGAAACATGTCAAGCTTGTGCTGAACAGCCTTGGTGACCAGGAGAGCCGCAAATCCTACCGGGAAGCGCTCGTCAAACATTTTGAACCGCGCATCGGAGAATTTTGCTCAGACTGCCAATCGCGTCTGCACACAAACCCGCTCAGAATTCTTGACTGCAAGAAAGACAGAGAGCATGAACTGATGAAAACGGCTCCGTCCATTCTTGATTACTTAAATGAAGAATCAGCCGCTTATTTTGAGAAAGTAAAACAATACTTAAACGGTCTCGGCATCCCGTTCGAAATAGATCCGAACCTTGTCAGAGGGCTTGATTATTATAACCATACCGCTTTTGAAATTATGAGCAATGCCGAAGGATTCGGAGCGATTACAACCCTTGCCGGCGGGGGCCGCTATGACGGGCTTGTTGAACAGATCGGCGGTCCCGAAGCGCCGGGTATCGGATTTGCGATGAGCATCGAACGTCTGCTGGCAGCCATTGACGCTGAGAAAACAGACCTTCCCGTCAATCAGGGGATTGACTGCTACATCGTGACGCTCGGAGAAAAAGCGAAGGATTATTCCGTTTCCCTCGTGTACAAACTGAGAGAAGCGGGCATCTCAAGTGAAATCGATTATGAAAATAAAAAGATGAAGGGCCAATTCAAAACGGCTGACCGTCTCGGCGCACGTTTTATTGCGATTTTAGGGGAAGATGAGCTTGCCCAGAATAAAATCAATGTAAAAGATGCGGAAACAGGAGAGCAGCGTGAAGTGGTGTTAGACGAGCTGATACAAGTGTTAAAGGCAGATCAAAAGCAGTGA	MAYHIPRGTQDILPGESDRWQFVEQIMRETCRTYQYKEIRTPIFEHTELFARGVGESTDIVQKEMYTFEDRKGRSLTLRPEGTAAAVRAFNENKLFANPVQPTKLYYVGPMFRYERPQTGRFRQFYQFGIEAIGSKDPAVDAEVIALAMSIYRKAGLKHVKLVLNSLGDQESRKSYREALVKHFEPRIGEFCSDCQSRLHTNPLRILDCKKDREHELMKTAPSILDYLNEESAAYFEKVKQYLNGLGIPFEIDPNLVRGLDYYNHTAFEIMSNAEGFGAITTLAGGGRYDGLVEQIGGPEAPGIGFAMSIERLLAAIDAEKTDLPVNQGIDCYIVTLGEKAKDYSVSLVYKLREAGISSEIDYENKKMKGQFKTADRLGARFIAILGEDELAQNKINVKDAETGEQREVVLDELIQVLKADQKQ				NA	NA	NA	NA	NA
D1-12_01749	168			hypothetical protein	ATGCATGGAGAAGAGAGGAACCGTCCCGGGCTGAAAGCGGATCCGCACTGCATCTTTCTCGAAACAACACTCCGGAGGTTCCCTGCTGAACGCTTTTGCAAGTCATTAGGCAGCGGACGTGAACCTGCGTTAAAGGTCAGAGCGGGGATGCTTCGGCATTCCAACTAG	MHGEERNRPGLKADPHCIFLETTLRRFPAERFCKSLGSGREPALKVRAGMLRHSN				NA	NA	NA	NA	NA
D1-12_01750	171			hypothetical protein	ATGAAATATCAACCAAAAATGGGACGCGCGCTGCACGATGCGGAAGGAAATCTGCACTTCAGTGATCAGAGCGATAGAGAAAAGGCGGGTTTTCTTGAAGAGACGGCGACGGAGTTCGGTCTCTTATCGAAAGAAGCGGTCGCAAGGAAAAACAGACGGAATAAAACTTGA	MKYQPKMGRALHDAEGNLHFSDQSDREKAGFLEETATEFGLLSKEAVARKNRRNKT				NA	NA	NA	NA	NA
D1-12_01751	1563			hypothetical protein	ATGAAGAAGAGAACTCTTGCTCTTATTTTATGCGGCGTCATCATCACAGCGCTTCTTCCGTCATTCCACACCGCAATCGCCGCAGAGGGAGAAGCGGTCATCGCGACAGACAAGATCAATGTCAGAGGCGGTCCCGGCCTGAGCTATGGAATTAAGGCTGAAGTAAAAAAAGGGGAAAGATACCCGATCGCTAAAGAAGAGGGAGACTGGGTGCAGCTTCAGCTGAGCCCCGGTAAAACCGGATGGGTCGTTTCCTGGCTGATATCAAAAACAGCCGGGGGAGCAGACAATTCATCCGCAACAAGCGGAACGGTCACTTCCACCGATCCTGACCTCCGCATCAGAAAAGGCCCGGGGACATCATATGAAGTCATCGGCAAACTTCCGCAAGGCGCACATGCATCCGTGCTGGACAAGAACAGCGGATGGGTGAACATTTCTTATCAAGGCACAACCGGATGGGTTTCTTCCGAATACGTCACCGCGGACAGCGGCGGATCGGATACGAAAGCAACTTCGGCCCGAAGCGGGTCAAAAAACGGGACGGTCGGCGTTTCTTCATTGAATGTCAGAAGTGCAGCATCACATGATTCAGCGATTATGACTAAATTATCACGCGGAACAAAGGTTTCCATTTTAAGTGAAGACCACGGCTGGCTGAAAATTGAAGCAAACGGGCAAAAAGGCTGGGCAGCAAGCCACTACATCATAAAGGATTCTGACTCATCGGGCAGCGCATCCGGCTCGGGAGACGGTTCTGCGGGCTCAGGCTCCTCGAAAAAAGCGTATATTGTGTACGGCGGCACCAACTTAAGGAGCTCGGCCTCGACTTCCGCTTCTATCGTAAAAAGAGCAGATAAAGGCGCAGCCTACCCGATTGTCGGCTCAAGCGGCAAATGGTATGAAGTCCGGCTTGAAAACGGACAAACCGCATATGTGGCAAACTGGGTCGTACAAACGTCAAAAAGCGGGGAGGAAACAGGAGAAGCACCTTCTCCCGACACGTCGGGCGGCAGCGGCTCACTTAAAAACAAAACGATCGTCGTTGATCCCGGACACGGAGGAAAAGACAGCGGAACGATCGGCTACTCCGGAAAGTTTGAAAAAAACGTAACGATTAAAACAGCTAAGCTGTTAGCCGGAAAATTGAGAGCGGCCGGTGCAAACGTGTATATCACCAGACAGGATGATACATTTATCAGCCTGCAGGCCAGGGTTTCAACCTCTCATTACCGGAATGCGGATGCCTTTATCAGCATTCACTATGACAGCTATGCCGATACGTCAACGAGAGGAAGCACGGCTTATTATTACAGTCCGTCTAAGGACCGCCAGCTTGCCTCAGACGTCCATTCTGAAGTAGTGAAGCGTTCCCCTATCCCGGATCGCGGCGTTCTGTTTGGCGATTATTACGTCCTGAGGGAAAATAAACGGCCTGCCATGCTGTATGAGCTCGGCTATCTCAGTCAACCGCAAGAAGAAACAATCATACATAGCGGCTCTTATCAGGAAAAAGTGACAGACGGAATTGAAAGCGGATTGGAACATTATTTTCAATCATAA	MKKRTLALILCGVIITALLPSFHTAIAAEGEAVIATDKINVRGGPGLSYGIKAEVKKGERYPIAKEEGDWVQLQLSPGKTGWVVSWLISKTAGGADNSSATSGTVTSTDPDLRIRKGPGTSYEVIGKLPQGAHASVLDKNSGWVNISYQGTTGWVSSEYVTADSGGSDTKATSARSGSKNGTVGVSSLNVRSAASHDSAIMTKLSRGTKVSILSEDHGWLKIEANGQKGWAASHYIIKDSDSSGSASGSGDGSAGSGSSKKAYIVYGGTNLRSSASTSASIVKRADKGAAYPIVGSSGKWYEVRLENGQTAYVANWVVQTSKSGEETGEAPSPDTSGGSGSLKNKTIVVDPGHGGKDSGTIGYSGKFEKNVTIKTAKLLAGKLRAAGANVYITRQDDTFISLQARVSTSHYRNADAFISIHYDSYADTSTRGSTAYYYSPSKDRQLASDVHSEVVKRSPIPDRGVLFGDYYVLRENKRPAMLYELGYLSQPQEETIIHSGSYQEKVTDGIESGLEHYFQS	PGPT0024160_1233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
D1-12_01752	444	dtd	COG1490	D-aminoacyl-tRNA deacylase	ATGAAATTAGTTGTTCAGCGTGTAACAGAAGCAAGTGTGACGGTTGACGGCGCTGTCGCCGGCCGGATCGGACCCGGCATTATGGCGCTTGTCGGCATCACTCATGAAGATACAGAAGAAGATGCCGCTTACTTGGCGGATAAAATCGTGAATCTTCGGATTTTTGATGATGAAAGCGGCAAGATGAATTTATCGCTTTTGGATACGGGCGGGGAGATTTTATCCGTTTCCCAGTTTACGCTTTACGGCGAAACGAAGAAAGGGAGACGCCCGAATTTTATGAATGCGGCTAAACCGGATCAGGCTGTGCTCCTTTATGAAAAGTGGAACGAACTCCTTCGGGAAAAAGGAGTCAAAGTGGAAACCGGAATATTCGGCGCCATGATGGATGTTCAGCTGACGAATTCCGGGCCGATTACATTGATTATGGATTCTAAACAATAA	MKLVVQRVTEASVTVDGAVAGRIGPGIMALVGITHEDTEEDAAYLADKIVNLRIFDDESGKMNLSLLDTGGEILSVSQFTLYGETKKGRRPNFMNAAKPDQAVLLYEKWNELLREKGVKVETGIFGAMMDVQLTNSGPITLIMDSKQ				NA	NA	NA	NA	NA
D1-12_01753	2205	relA	COG0317	GTP pyrophosphokinase	ATGGCGAACGAACAAGTATTGACTGCCGAGCAAGTAATAGATAAAGCGCGCACTTATCTGCCGGAGGAGCAGATTGCGTTTGTTGAGAAAGCTTACCTGTATGCGCAAAACGCGCATCGCGAACAGTACCGCAAATCAGGTGAGCCGTACATCATTCATCCGATTCAGGTGGCGGGGATTCTCGTCGATCTGGAAATGGACCCTTCCACAATTGCGGGCGGATTTCTGCATGACGTGGTAGAGGACACGGATGTCACCCTCGACGACCTGAAGGAAGCATTTTCTGAAGAAGTGGCGATGCTTGTCGACGGCGTGACGAAGCTCGGTAAAATTAAGTATAAATCTCAAGAGGAGCAGCAGGCGGAAAACCATCGAAAAATGTTTGTCGCTATGGCTCAGGATATCAGAGTCATATTGATCAAGCTGGCGGATCGCCTTCACAATATGCGGACGTTAAAGCATCTTCCGCAGGAAAAGCAGCGGAGAATTTCAAATGAAACGCTGGAAATTTTCGCTCCGCTGGCCCATCGGCTCGGGATTTCTAAAATCAAATGGGAGCTTGAAGACACCGCTCTTCGTTATTTGAATCCTCAGCAATATTACAGAATCGTCAACCTCATGAAGAAAAAGCGCGCGGAACGCGAACTTTATGTCGAAGAGGTTGTCAATGAAGTGAAAAAACGGGTCGAAGAAGTGAATATCAAAGCGGACTTTTCAGGACGTCCGAAGCACATCTACAGCATTTACCGCAAGATGGCGCTGCAAAATAAACAGTTCAATGAAATATATGATCTGCTCGCCGTCCGTATTCTTGTCGGAAGCATTAAAGACTGCTACGCCGTACTCGGCATTATTCATACGTGCTGGAAGCCGATGCCGGGCAGATTCAAAGATTATATTGCGATGCCTAAGCCGAATATGTATCAGTCGCTGCATACGACCGTAATCGGGCCTAAAGGCGATCCGCTGGAAGTGCAGATCAGAACGTTTGAGATGCATGAGATCGCTGAATACGGGGTGGCCGCACACTGGGCATATAAAGAAGGCAAGGCTGCAAACGAAGAAGCGACATTTGAGAAAAAACTGTCCTGGTTCCGTGAAATTCTGGAATTCCAAAACGAGTCTACCGATGCGGAAGAATTTATGGAATCGCTGAAAATCGATCTGTTTTCTGACATGGTATACGTATTTACGCCAAAAGGCGATGTCATTGAACTGCCGTCAGGCTCTGTGCCGATTGATTTTTCCTACAGGATACACTCGGAGATCGGCAACAAAACAATCGGGGCGAAAGTGAACGGAAAAATGGTGACGCTTGACCATAAGCTCCGGACGGGCGACATCGTCGAGATTCTGACGTCCAAGCATTCATACGGCCCGAGCCAAGACTGGGTCAAACTGGCGCAGACGTCCCAGGCGAAACACAAAATCCGCCAATTCTTTAAGAAACAGCGCCGTGAAGAAAACGTCGAAAAAGGCCGTGAGCTTGTCGAGAAAGAAATTAAAAATCTTGATTTTGAAGTGAAAGATGTTTTAACACTCGAAAATCTTCAAAAAGTTGCCGACAAGTTCAATTTCTCAAATGAAGAGGATATGTACGCGGCGGTCGGGTATAACGGCATTACCGCTCTTCAGGTGGCCAACAGGCTCACCGAAAAAGAACGGAAGCTGCGTGACCAGGAAGAGCAGGAAAAAATCGTTCAGGAAGTCACTTCCGAGCCGAAACATTATCCGCAAGGGAGAAAACGGGAAGCGGGTGTGCGCGTAAAAGGCATTGACAACCTTCTCGTCCGCTTGTCGAAATGCTGCAACCCGGTGCCGGGCGACCATATTGTCGGTTTTATTACAAAAGGCCGCGGTGTATCCGTTCACCGGGATGACTGTCCCAACGTCAAAACGAATGAAGCGCAGGAACGTCTGATCCCCGTTGAATGGGAGCATGAATCACAGGTTCAAAGACGCAAAGAATATAACGTTGAGATTGAGATTTTGGGGTATGACCGTCTCGGGCTTTTAAATGAGGTGCTCCAAGCCGTAAATGAGACGAAAACCAACATCTCCTCTGTCTCCGGCAAATCCGACCGCAATAAAGTCGCTACGATTCATATGGCGATTTTTATTCAAAACATCAACCATCTGCATAAAGTGGTCGAGCGGATTAAGCAGATCAGAGACATCTATTCAGTCCGGCGGGTAATGAACTAA	MANEQVLTAEQVIDKARTYLPEEQIAFVEKAYLYAQNAHREQYRKSGEPYIIHPIQVAGILVDLEMDPSTIAGGFLHDVVEDTDVTLDDLKEAFSEEVAMLVDGVTKLGKIKYKSQEEQQAENHRKMFVAMAQDIRVILIKLADRLHNMRTLKHLPQEKQRRISNETLEIFAPLAHRLGISKIKWELEDTALRYLNPQQYYRIVNLMKKKRAERELYVEEVVNEVKKRVEEVNIKADFSGRPKHIYSIYRKMALQNKQFNEIYDLLAVRILVGSIKDCYAVLGIIHTCWKPMPGRFKDYIAMPKPNMYQSLHTTVIGPKGDPLEVQIRTFEMHEIAEYGVAAHWAYKEGKAANEEATFEKKLSWFREILEFQNESTDAEEFMESLKIDLFSDMVYVFTPKGDVIELPSGSVPIDFSYRIHSEIGNKTIGAKVNGKMVTLDHKLRTGDIVEILTSKHSYGPSQDWVKLAQTSQAKHKIRQFFKKQRREENVEKGRELVEKEIKNLDFEVKDVLTLENLQKVADKFNFSNEEDMYAAVGYNGITALQVANRLTEKERKLRDQEEQEKIVQEVTSEPKHYPQGRKREAGVRVKGIDNLLVRLSKCCNPVPGDHIVGFITKGRGVSVHRDDCPNVKTNEAQERLIPVEWEHESQVQRRKEYNVEIEILGYDRLGLLNEVLQAVNETKTNISSVSGKSDRNKVATIHMAIFIQNINHLHKVVERIKQIRDIYSVRRVMN	PGPT0014310_2403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
D1-12_01754	513	apt		Adenine phosphoribosyltransferase	ATGGATCTTAAAAAATACGTAACAATTGTGCCCGATTACCCGAAAGAAGGCGTACAATTTAAAGATATTACGACATTGATGGACAAAGGCGACGTATACCGTTACGCCACTGACCAAATTGTTGAATATGCAAAAGAAAAAGAAATTGATTTAGTTGTCGGGCCTGAAGCGCGCGGCTTTATTATCGGCTGTCCGGTTGCATACGCTCTCGGAGTCGGCTTTGCGCCGGTTCGGAAAGAAGGAAAACTTCCACGTGAGGTCATTAAAGTCGATTACGGTTTGGAGTACGGAAAAGACGTACTGACAATTCATAAAGATGCGATTCTGCCGGGACAGCGCGTGCTGATTACTGATGACTTGCTTGCAACAGGCGGTACGATCGAAGCAACGATTAAGCTAGTCGAAGAACTGGGCGGCGTCGTAGCCGGTATTGCGTTCTTAATCGAGCTTTCTTACCTTGACGGCAGAGACAAGCTTGACGATTACGATATTTTAACATTAATGAAATATTAA	MDLKKYVTIVPDYPKEGVQFKDITTLMDKGDVYRYATDQIVEYAKEKEIDLVVGPEARGFIIGCPVAYALGVGFAPVRKEGKLPREVIKVDYGLEYGKDVLTIHKDAILPGQRVLITDDLLATGGTIEATIKLVEELGGVVAGIAFLIELSYLDGRDKLDDYDILTLMKY	PGPT0021455_4616	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
D1-12_01755	2361			hypothetical protein	ATGTTAGCGTCAAAAATGCGCTGGGAAATCCAGCAGCCGGATCAGGAAAAAGTCAAATCACTCACAGAACAATTGGACATAACACCTCTTGTGGCATCACTGCTTGTAAAAAGAGGTTTTGATACTGCCGAAAGCGCAAGGCTGTTTTTACATACAAAGGATGCAGACTTTTATGACCCGTATGAATTAAAGGGAATGCGGGAAGCAGTTGATCGGATAAAACTGGCGGTTTCTCAAGGGGAACCGATTATGATTTACGGAGATTACGATGCAGACGGCGTTACAAGCACGTCAGTGATGCTGACGGCACTCAGACAGCTGTCGGCGGACGTTGACTTTTATATTCCCGACCGTTTCACAGAAGGCTACGGCCCGAATGAACAAGCTTTCCGTTCCATAAAAGAGCGGGGATTTTCGCTGATCATTACAGTGGATACGGGAATCGCCGCCGTCCATGAAGCTGAAGTCGCAAAAGAGCTGGGCTTAGACGTCATTATTACCGACCACCATGAGCCGGGACCCGAGCTTCCTGACGTATTTGCGATCATCCACCCGAAGCAGCCGGGCTGCGGCTATCCGTTTAAAGAATTGGCCGGCGTCGGTGTGGCGTTTAAGCTTGCCCATGCGCTTACGGGTTCTTTGCCGGAAGCTATGCTGGACTTGGCGGCAATCGGTACGGTTGCAGATCTGGTGCCTCTTCATGATGAAAACAGATTAATTGCGTCACTTGGGATCGAAAGGCTTCGAACGACAAATCGGCCGGGCCTCAAAGCTCTGATTAAGCTTTCCGGCGGAGATATCGGACAAGCTGATGAGGAAACGATCGGATTTCAGGTCGCGCCGAGGCTCAATGCCGTCGGAAGAATAGAACAGGCCGATCCCGCCGTGCATCTGCTGATGACCGAAGATCAGTTTGAAGCGGAGGAACTGGCTTCGGATATTGACCTGCTGAATAAAGAGCGGCAGAAAATGGTGAAAACCATGACCGAAGAGGCTGTTGAAATGGTTCAGCAGCAAGGCGGAAACCCGTCTGCCATTGTAGTGGCAAAAGCCGGCTGGAATCCGGGAGTCGTCGGTATTGTCGCATCGAAGCTGGCTGAACGTTTTTACCGGCCCGCTGTTGTGCTTGGGATAGATGAGGAGCAGGGCATCGCTAAAGGGTCGGCGCGAAGCATCAGAGGCTTCAACCTTTTTACGAGCCTTTCACAGTGCAGAGACATTCTTCCTCATTTCGGCGGGCATCCGATGGCGGCAGGAATGACGTTGAAGGCTGAAGATGTGGCGGAATTAAGGGACAGGCTGAATCAAATGGCTGAAGAAACCCTTACGGAAGAGGATTTTATTCCCGTTCAGGAGGTTGATCTTGTCTGCGGCGTTGAAGACATAACCGTTGAAAGCATTACAGAATTGAATATGCTGTCGCCGTTCGGCATGCTTAACCCTAAACCGCATGTGATGGTGAAAAATGCCGTGCTTGATGATGTGCGCCTGATCGGAGCGAATAAAAATCACGTGAAAATGACGGTGAAAAGTGATTCCGCCGTCCTTGACTGCGTCGGCTTTAACAAAGGAGAGCTTGAAGCCGGAGTTGTCCCCGGATCAACGATTTCCATTGTCGGCGAGATGTCCATTAATGAATGGAACAACAGAAAGAAACCACAGCTGATGATTAAAGATGCTGCGGTGCCGGAATGGCAGCTTTTTGATATCAGGGGCAAGCGGACGTGGGAAGACACGGTCACCGCGCTGCCGAAGGAAAAACGGGTGCTCATCAGCTTTAACGAAAAAACCGCTCAGAAGCTTCGTGAAAAAGAGCTGTCGGGCGAGCTGGCCGGGATCACTTCGGAATCCGAGGCGGAAGCTCTCCAGCTTGACGGAAAATATGCCGTTTTTCTGGATGTGCCGCCGTCAGCGGATCGCCTGCAGCATTTGCTTGACGGAAAGAAGCCGGAACGGATTTATTTTGTTTTTATCAATCATGAAGAACATTTCCTGTCCTCATTTCCATCGCGGAATGATTTCAAGTGGTTTTACGCATTTCTCTTAAAAAGGGGCGCTTTTGACTTCGGCAAGCATGGTTCAGAGCTTGCGAGACACAGAGGATGGTCAATTGACACAATCAATTTCATGACAAAGGTGTTTTTTGATCTCGGTTTTGTTAAAATAGAAGATGGTGTGCTGTCTGTCGTGAGCGGCGCGAAAAAACGCGACTTGGCAGATTCGCAAACCTATCAGGTAAAACAGCAGCTGATGGAATTAGACCAGAAGCTCAATTATTCCGCAGCCCATGAGCTGAAGGAATGGCTGAATAAGCTGATGAACCAAGGTTCAGAAGCTTATGAAAGTACGAGGAGGACATAG	MLASKMRWEIQQPDQEKVKSLTEQLDITPLVASLLVKRGFDTAESARLFLHTKDADFYDPYELKGMREAVDRIKLAVSQGEPIMIYGDYDADGVTSTSVMLTALRQLSADVDFYIPDRFTEGYGPNEQAFRSIKERGFSLIITVDTGIAAVHEAEVAKELGLDVIITDHHEPGPELPDVFAIIHPKQPGCGYPFKELAGVGVAFKLAHALTGSLPEAMLDLAAIGTVADLVPLHDENRLIASLGIERLRTTNRPGLKALIKLSGGDIGQADEETIGFQVAPRLNAVGRIEQADPAVHLLMTEDQFEAEELASDIDLLNKERQKMVKTMTEEAVEMVQQQGGNPSAIVVAKAGWNPGVVGIVASKLAERFYRPAVVLGIDEEQGIAKGSARSIRGFNLFTSLSQCRDILPHFGGHPMAAGMTLKAEDVAELRDRLNQMAEETLTEEDFIPVQEVDLVCGVEDITVESITELNMLSPFGMLNPKPHVMVKNAVLDDVRLIGANKNHVKMTVKSDSAVLDCVGFNKGELEAGVVPGSTISIVGEMSINEWNNRKKPQLMIKDAAVPEWQLFDIRGKRTWEDTVTALPKEKRVLISFNEKTAQKLREKELSGELAGITSESEAEALQLDGKYAVFLDVPPSADRLQHLLDGKKPERIYFVFINHEEHFLSSFPSRNDFKWFYAFLLKRGAFDFGKHGSELARHRGWSIDTINFMTKVFFDLGFVKIEDGVLSVVSGAKKRDLADSQTYQVKQQLMELDQKLNYSAAHELKEWLNKLMNQGSEAYESTRRT				NA	NA	NA	NA	NA
D1-12_01756	327			hypothetical protein	ATGAATAAACAATGGACTATTATATTCGCATTACTATTTACTCTGATTGTCGCCATTTTTGCTGTCATTAACGTGCGGGCGGTTGAGGTTGATTATCTGTTCGGAACCGCTGAATGGCCGCTGATTTTAGTCATTTTAGGTTCTGTGTTAATGGGAGCGCTGATCGTGTTTTCGGCCGGCATATTTCAAGTGATGAAGCTGAAGCGCGAAATTAAAATGCTGCGGAAAGAAAACAGATCCGCAGGTGAATTGACGGCTGATTCGGACGGCCAAAAAACAGCCGCGCCGCCGGAAGAAATGCTTGAAGAGAAAAAAGGATCAGAATAA	MNKQWTIIFALLFTLIVAIFAVINVRAVEVDYLFGTAEWPLILVILGSVLMGALIVFSAGIFQVMKLKREIKMLRKENRSAGELTADSDGQKTAAPPEEMLEEKKGSE	PGPT0014665_497	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
D1-12_01757	498	khtT_2	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGAACGTTCGTGAGTCGGAGCTTCCGGGCATCGGCCAGAAAGTAGAAGTCATTACGAAAAATCACGATAAAATCAGTATTATTCTTCATGATGACGGCAGAAAAGAGCTCTATTACTTCGATGAGAATGATCATGACGAATGCTTGGCATGCGTTGAATTTAACGACGAAGAGGCGAGGCAGATTTCCGCTATTTTAGGCGGGATGACGTATAAGCCGAAAGCGCTGGAATCTGTGGAAGTCGCGCTTGATGGCCTCGTCATTGAGTGGTTTAAAGCCGAATCTCATGCACCGGCTGTCAGCCGTACAATCGGAGATTTGGAGATCAAGAAACATTACAACGTCCAGATTATTGCGATCGTAAAGAAAAATCGGCAAAAACAGCTGAGCCCCGGCATTGATACCGTAATTGAAGAAGGGGACACCCTCGTCATATCGGGAGAAAGAAGCGGACTGAAAAAGCTGGTCCGCGAGCAGTTAACGGCCCGGATTTCCTGA	MNVRESELPGIGQKVEVITKNHDKISIILHDDGRKELYYFDENDHDECLACVEFNDEEARQISAILGGMTYKPKALESVEVALDGLVIEWFKAESHAPAVSRTIGDLEIKKHYNVQIIAIVKKNRQKQLSPGIDTVIEEGDTLVISGERSGLKKLVREQLTARIS				NA	NA	NA	NA	NA
D1-12_01758	2220	secDF	COG0341	Protein translocase subunit SecDF	ATGAAAAAAGGACGCTTGATTGCGTTTTTCCTGATCGTATTATTGATCGGCACAGGGCTGGGGTATTTTACAAAACCGGCTGCCAATAATATTACGTTAGGATTGGATTTACGCGGCGGGTTTGAAGTTCTGTACGATGTTCAGCCCGTCAAAAAAGGCGATAAAATCACAAAAGACGTGCTCGTCAGCACGGTGCAGGCGCTGAACCGCCGGGCTAACGTTCTCGGCGTAAGCGAGCCGAACATTCAGATTGAAGGAAATAACCGCATCCGCGTTCAGCTGGCGGGCGTCACGAATCAGAACAGGGCGCGCGAAATTCTGTCAACGGAAGCGCAGCTCTCGTTCAGGGATACGAATGATAAAGAGCTTTTAAACGGCTCTGATCTCGTGGAAAACGGCGCGAAGCAAACCTTTGATCCGACGACGAACGAACCGATTGTCAGCGTTAAGCTGAAGGATGCGGATAAGTTCGGAGAAGTGACGAAAAAAGTCAAGAAAATGGCGCCTAATAATCAGCTTGTGATCTGGCTTGATTACCAAAAAGGCGATTCATTTAAAAAAGAAGTCGGCAAAAAACATCCGAAATATGTATCCGCTCCGAATGTGAGCCGGGAACTAAATACAAAGGATGTCACGATTGAAGGCCAGTTCACCGTTCAAAAAGCAAAGGACTTGGCCAATATTTTAAACGCGGGCGCGCTGCCTGTGAAACTGACCGAAAAATACTCTACTTCCGTAGGGGCGCAATTCGGACAGCAGGCTTTGCATGATACGGTAGAGGCCGGCATCATCGGTATTGCAATTGTTTTCTTATTTATGTTGCTTTATTACAGACTGCCTGGACTCATAGCGGTAATTACGCTTTCTGTATACGTGTATATTACGCTTCAAGTGTTTGACTGGATGCAGGCGGTGCTGACGCTTCCGGGTATTGCGGCGCTCATTTTGGGTGTCGGGATGGCGGTTGACGCCAACATCATCACCTATGAACGGATAAAAGAAGAACTGAAACTCGGCAAATCCGTCCGCTCAGCTTTCCGTTCAGGGAACAGACGGTCATTCGCGACGATTTTCGATGCGAACATCACAACGATTATCGCAGCGGTCGTGCTCTTTATTTTCGGGACAAGCTCTGTAAAAGGGTTTGCGACGATGCTGATTCTGTCAATTCTGACAAGCTTTATTACAGCTGTCTTCCTTTCAAGATTCCTGCTCTCCCTTCTTGTGGAAAGCAGATGGCTTGACCGGAAAAAAAGCTGGTTCGGCGTCAAGAAAAAACATATTATGGACATTCAAAAAACGGATGAAAATACTGAACCGCATACGGCATTCCAAAAATGGGATTTCACGAGCAAGCGAAAATATTTCTTTATTTTCTCAAGCGCTGTAACCATTGCGGGAATTATCATCTTACTGGTCTTTAAGCTCAACCTGGGAATCGATTTTGCAAGCGGCGCGCGGATTGACGTGCAGAGCAATCATTCTTTGACGGCGCAGCAGGTTGAAAAAGATTTTGATTCTCTCGGCATGGAGCCGGAAAACATCGTGCTTTCTGGTAAAGAGAACCATGTTGCCGCGGCCCGGTTTGTCGGAGAGCCGTCTAAAGAAAAAATCGCTGAAATCAAAACGTACTTTAAGGACAAATACGGATCTGAACCGAACGTCAGCACGGTATCGCCGACAGTCGGAAAAGAACTGGCCCGTAATGCTTTATATGCTGTCGCCATTGCATCAATCGGCATCATTATTTACGTGTCAATCCGTTTCGAGTACAGAATGGCAATCGCCGCAATTGTATCCCTGCTGTATGACGCTTTCTTTATCGTCGCGTTTTTCAGCATTACCAGGCTGGAGGTCGATGTCACCTTTATCGCCGCTGTACTCACCATAATCGGTTACTCGATAAATGATACGATCGTTACATTTGACCGGATACGTGAGCAGATGAAAAAACGTAAGCCGAAGTCATTTGCCGATCTGGAACATATCGTGAATCTGAGCTTGCAGCAAACCTTTACACGTTCGATCAATACGGTCTTGACCGTTGTGATTGTTGTCGTCGTGCTGCTCATTTTGGGCTCATCGTCAATTACAAACTTCTCCGTCGCTTTATTGGTCGGTTTATTGACGGGTGTTTATTCCTCTCTTTACATCGCCGCGCAGCTGTGGCTTGTATGGAAAGGAAAAGAATTTAAAGGGAAAAAATCAATCGAAGAGTAA	MKKGRLIAFFLIVLLIGTGLGYFTKPAANNITLGLDLRGGFEVLYDVQPVKKGDKITKDVLVSTVQALNRRANVLGVSEPNIQIEGNNRIRVQLAGVTNQNRAREILSTEAQLSFRDTNDKELLNGSDLVENGAKQTFDPTTNEPIVSVKLKDADKFGEVTKKVKKMAPNNQLVIWLDYQKGDSFKKEVGKKHPKYVSAPNVSRELNTKDVTIEGQFTVQKAKDLANILNAGALPVKLTEKYSTSVGAQFGQQALHDTVEAGIIGIAIVFLFMLLYYRLPGLIAVITLSVYVYITLQVFDWMQAVLTLPGIAALILGVGMAVDANIITYERIKEELKLGKSVRSAFRSGNRRSFATIFDANITTIIAAVVLFIFGTSSVKGFATMLILSILTSFITAVFLSRFLLSLLVESRWLDRKKSWFGVKKKHIMDIQKTDENTEPHTAFQKWDFTSKRKYFFIFSSAVTIAGIIILLVFKLNLGIDFASGARIDVQSNHSLTAQQVEKDFDSLGMEPENIVLSGKENHVAAARFVGEPSKEKIAEIKTYFKDKYGSEPNVSTVSPTVGKELARNALYAVAIASIGIIIYVSIRFEYRMAIAAIVSLLYDAFFIVAFFSITRLEVDVTFIAAVLTIIGYSINDTIVTFDRIREQMKKRKPKSFADLEHIVNLSLQQTFTRSINTVLTVVIVVVVLLILGSSSITNFSVALLVGLLTGVYSSLYIAAQLWLVWKGKEFKGKKSIEE	PGPT0025710_1266	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025710-secDF-K12257	NA	NA
D1-12_01759	297	comN		Post-transcriptional regulator ComN	GTGGAGAAACATCCCGCCGAAATATACAAAGATCATTTGCGGCCTTTTTTGTACAGTAAACTTGAAGAGTTCAAAATCCTCGGATACGATGATGTTGAGCACGAGAGTTTATGGTCATACTTAATACATAAAAAGTGGAAACAGAAAAAGGAACTGCCGCTGCATGAATTGGCCGGTCATATTTTATCAGTTAAAATTGGCGATTTTATGAACTATGCAACCGTTGAAGCTTTTAAGTCGTCTAATTGGCTGGAAAGCGATGAGGGTCAGGAAGCTTTAGATGAACTGCTGAGATAA	MEKHPAEIYKDHLRPFLYSKLEEFKILGYDDVEHESLWSYLIHKKWKQKKELPLHELAGHILSVKIGDFMNYATVEAFKSSNWLESDEGQEALDELLR				NA	NA	NA	NA	NA
D1-12_01760	1557	spoVB	COG2244	Stage V sporulation protein B	ATGGCAAAACAGACTTTTTTAAGAGGCACTCTTATTCTCATCGCAGCCGGGATGATTACGAGAATGCTCGGCTTTGTCAACCGGGTGGTTATCGCCCGGTTTATCGGTGAGGAAGGGGTCGGTTTATACATGATGGCTGCCCCGACATTTTTCTTGGCCACCACTTTGACTCAATTCGGCCTCCCTGTTGCCATCAGCAAACTTGTCGCTGAAGCAAGCGCGCGGGGGGACCGGCAGAAAATGAAACACATTTTAGTGATGTCGCTTACCGTCACCGGGATATTAAGTCTCATCTTCACGCCGCTGTTTTTATGCTTTGCGCCGATTATGTCCGAAACGATGCTGACGGATCAGCGCACGGTTTACCCGCTTCTGGCGATTACGCCCGTCGTGCCGATTATCGCAATCTCCAGCGTGCTGCGCGGTTACTTTCAGGGCAGGCAGAATATGAACCCGCTGGCGTTTTCCCAAGTGCTGGAGCAGATCGTGCGGATTTCACTTGTCGCAGTCTGCACGACGGTGTTTCTGCCGTACGGGATTGAATATGCCGCAGCCGGAGCTATGATTTCGTCTGTCATCGGGGAGCTTGCCTCTCTTATTTATTTATTCATTTGTTTTAAAGCAAATAAAACAATCAGAATCAGAAAACAATTTTTCAAGTCGATTGCAAATGGAAAAGAAACCTTCCGCCAGCTGATGAGCGTGTCGCTCCCGACAACCGGAAGCCGCTTCATCGGAAATTTATCTTGGTTTTTTGAACCTATTGTCGTCGCGCAGAGCCTTGCGATTGCAGGAGTGGCCACCGCTGCCGCCACCAGCCAGTACGGGGAGCTGACCGGATTTGCCATGACGGTTTTGACGCTGCCCAGCTTTATAACCTATTCTCTGTCAACGGCGCTTGTTCCTGCGATCAGTGAAGGAATGGAGCAAAAAAAGCTGCAAGTTGTCGAATACCGTCTGGAACAGGCGATGAGGCTGTGTCTTTTAAGCGGAGGCATTTCGGTGGTTATTTTATTCTCTTTCGCTGATGAACTGATGTCCGTCATGTACGGATCAACTAATGCAGCGGTATTTGTTAAAGTGATGGCGCCGTTTTTTCTGCTTTACTATTTTCAGGGGCCCCTTCAGGCGGTGCTGCAGGCTCTCAATTTAGCCGGGGCCGCCATGATGAACAGTTTTATCGGCGCCGCTGTCAAAACCGGCCTGATTTTTGTTTTGGCGACCAGGCCTTCATTGGGCATCATGGGCGCCGCACTTGCGATTGTAACGGGGATGGTCCTTGTCACCCTGCTGCATGCGTCCACCGTAAGCAAGGTGCTTCCGATCAGCATTAAAATAAAAGAATACGCGCTCTGTTTTGCCGTCATATTCATTTGCGGTTATGTCAGCCGCATCATCAAGCACGCCGTTCATTTTTCAGGGTCAGAGGCTGTTAATCTCACAGGCTGGATTGCAATGACCGCGATTTTGTACATTGCGCTTCTTCTGTTATTCAGGCTGATTAAAAGGGAAGAGCTGATCCGGATTCCGGTCATCGGCAAGTTCGTGACGCGGTAA	MAKQTFLRGTLILIAAGMITRMLGFVNRVVIARFIGEEGVGLYMMAAPTFFLATTLTQFGLPVAISKLVAEASARGDRQKMKHILVMSLTVTGILSLIFTPLFLCFAPIMSETMLTDQRTVYPLLAITPVVPIIAISSVLRGYFQGRQNMNPLAFSQVLEQIVRISLVAVCTTVFLPYGIEYAAAGAMISSVIGELASLIYLFICFKANKTIRIRKQFFKSIANGKETFRQLMSVSLPTTGSRFIGNLSWFFEPIVVAQSLAIAGVATAAATSQYGELTGFAMTVLTLPSFITYSLSTALVPAISEGMEQKKLQVVEYRLEQAMRLCLLSGGISVVILFSFADELMSVMYGSTNAAVFVKVMAPFFLLYYFQGPLQAVLQALNLAGAAMMNSFIGAAVKTGLIFVLATRPSLGIMGAALAIVTGMVLVTLLHASTVSKVLPISIKIKEYALCFAVIFICGYVSRIIKHAVHFSGSEAVNLTGWIAMTAILYIALLLLFRLIKREELIRIPVIGKFVTR	PGPT0024825_403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024825-spoVB-K06409	NA	NA
D1-12_01761	657			hypothetical protein	ATGGAAGATATTTTCATTATTACGTTTCGTACGATTGTGCTTTATTTTATCATTCTTGTGATTTTCAGACTGATGGGAAAACGGGAAATCGGAGAACTGAGCATTTTAGACCTTGTCGTCTCCATTATGATTGCCGAGATTGCCGTATTGGCAATTGAAAATGTAAAAGATAAGCTTTTGCATACAATTGTGCCGATTGTCGTTTTAATGATTATTCAAGTAAGCCTTGCTTTTATTTCGCTCAAAAGCCAAAAAATACGGCAGCTGCTTGACGGAAAACCCACCATTATTATAAAACAGGGAAAAATTGATGAACGGGCGATGAGATCGCAGCGCTACAATTTTGACGATCTTCTTATGCAGCTGAGGGAGAATAACATCGATAGAATCTCTGACGTGTCATACGCCATTTTGGAGTCTTCAGGCAAACTGTCGATCGTCAAAAAGAAAAACAATAAGGATAAGCAGATGGAAACATCCCTTATCGTTGACGGGGTCATTCAGAACGAGCATCTGGACAGAATCGGGAAAGATAAACACTGGCTCGAAAAAAATTTAGCAAAAAGAGGATATCGCGATCTTTCGGTTATATCATTCTGCACGTTTACGGACGGCGCTTTTTTTATTGATCTTAAAGATGAAAAAGGGGAGCCATAA	MEDIFIITFRTIVLYFIILVIFRLMGKREIGELSILDLVVSIMIAEIAVLAIENVKDKLLHTIVPIVVLMIIQVSLAFISLKSQKIRQLLDGKPTIIIKQGKIDERAMRSQRYNFDDLLMQLRENNIDRISDVSYAILESSGKLSIVKKKNNKDKQMETSLIVDGVIQNEHLDRIGKDKHWLEKNLAKRGYRDLSVISFCTFTDGAFFIDLKDEKGEP				NA	NA	NA	NA	NA
D1-12_01762	387			hypothetical protein	ATGGAAGAAACGAAACAAGTGGGAAGAGGCGTCTTGTATGGCTTAGTGGCTATCTTTGCGGTGATGCTTCTTACGAGTTTGGCGATTTCGCTTTTACTGACGGTTACCTCAATGGAAGAGTCATCTTTCAGCTGGCTGATCACCGCGCTTTCCTTTCTTTCTTTATTTGCGGGCGGTTTTATATCGGGCGGCAAAGCGAAGGAAAAAGGCTGGATGATCGGAGCGTTAACCGCCGTCTGTTTTTCATTAATCATCTTGCTGTTTCAATATTTAGGGTTCGGAAAAACGTTTACATCCGGTCAGCTTTTGTTTCATCTCGGCTTTTTGGGAGTCAGCATGCTGGGCGGCATTTTCGGAGTGAATTTGAAAGGAAGCAGATCAGCGTAA	MEETKQVGRGVLYGLVAIFAVMLLTSLAISLLLTVTSMEESSFSWLITALSFLSLFAGGFISGGKAKEKGWMIGALTAVCFSLIILLFQYLGFGKTFTSGQLLFHLGFLGVSMLGGIFGVNLKGSRSA				NA	NA	NA	NA	NA
D1-12_01763	261	yajC	COG1862	Sec translocon accessory complex subunit YajC	ATGGGTACTTTAGGCACAATCGTTCCTATTATTTTAATGTTTGCAGTGCTTTATTTCCTGCTCATCCGTCCGCAGCAAAAGCAGCAGAAGGCCGTACGCCAGATGCAGGAAGAGCTGAAAAAAGGGGATACAGTGGTGACAATCGGAGGATTGCACGGCACTGTTGATTCAATTGATGAAAGCAAGGTCGTCATTAAAACAGGTGATAACACCCGTTTAACATTTGACCGCCGCGCAATCAGAGAAGCTTCCGCTGAATAA	MGTLGTIVPIILMFAVLYFLLIRPQQKQQKAVRQMQEELKKGDTVVTIGGLHGTVDSIDESKVVIKTGDNTRLTFDRRAIREASAE	PGPT0025730_3975	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
D1-12_01764	1146	tgt		Queuine tRNA-ribosyltransferase	GTGGCTGAACAACCGATACGTTATGAATTTATAAAGGAATGCAAACAAACGGGAGCGCGCCTGGGCAGAGTTCATACGCCCCACGGCTCCTTTGAGACGCCTGTATTTATGCCGGTCGGCACGCTTGCTACGGTAAAGACGATGTCTCCGGACGAGCTGAAATCTATGGATGCGGGCATTATTTTAAGCAATACGTACCATTTATGGCTCCGTCCGGGACACGACATTGTAAAAGAAGCGGGCGGGCTTCATAAGTTTATGAACTGGGACCGCGCGATTTTAACGGATTCCGGCGGTTTTCAGGTCTTTTCATTGAGCAAGTTTCGTAATATAGAAGAAGAAGGCGTTCATTTCCGCAATCACTTAAACGGAGACAAACTGTTTTTATCTCCGGAAAAAGCGATGGAAATTCAAAACGCCCTCGGCTCTGATATCATGATGGCGTTTGATGAGTGTCCGCCGTATCCGGCAGAGTATGATTACATGAAACGCTCTGTGGAACGGACCAGCCGCTGGGCGGAACGCTGCCTGGAGGCGCACGGGCGCTCAGATGAGCAGGGGCTGTTCGGAATCGTACAGGGCGGAGAATACGAAGATCTGCGGACACAAAGTGCAAAAGACTTGGTTTCGCTTGATTTTCCGGGTTACGCCATAGGCGGATTATCTGTCGGCGAGCCGAAGCACGTCATGAACCGAGTGCTTGAGTTTACAACTCCGCTTTTACCGAAGGACAAGCCGAGATATTTAATGGGTGTGGGTTCACCGGATGCCTTAATTGACGGCGCCATCCGCGGCGTGGATATGTTTGACTGCGTACTGCCGACCCGGATTGCCCGAAACGGCACGGTGTTTACGAATGAAGGGCGTCTGAATATGAAAAACGCCAAATATGAGCGTGATTTCCGTCCGATTGACGAAGAGTGCAGCTGCCATACATGCCAAAATTACTCCCGCGCTTACATCAGACATTTGATCCGCTGTAATGAAACGTTTGGAATTCGATTAACAACTTACCATAACCTTCATTTTCTGTTACACTTAATGGAGCAGGTCAGACAAGCCATCCGGGAGGATCGTCTTGGTGATTTCCGAGAAGAGTTCTTTGAGCGTTACGGCTATAATAAGCCAAATGCGAAAAGCTTCTAA	MAEQPIRYEFIKECKQTGARLGRVHTPHGSFETPVFMPVGTLATVKTMSPDELKSMDAGIILSNTYHLWLRPGHDIVKEAGGLHKFMNWDRAILTDSGGFQVFSLSKFRNIEEEGVHFRNHLNGDKLFLSPEKAMEIQNALGSDIMMAFDECPPYPAEYDYMKRSVERTSRWAERCLEAHGRSDEQGLFGIVQGGEYEDLRTQSAKDLVSLDFPGYAIGGLSVGEPKHVMNRVLEFTTPLLPKDKPRYLMGVGSPDALIDGAIRGVDMFDCVLPTRIARNGTVFTNEGRLNMKNAKYERDFRPIDEECSCHTCQNYSRAYIRHLIRCNETFGIRLTTYHNLHFLLHLMEQVRQAIREDRLGDFREEFFERYGYNKPNAKSF				NA	NA	NA	NA	NA
D1-12_01765	1029	queA	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGAAAGTCGATTTATTTGATTTTGAACTGCCTGAACGCCTCATTGCCCAAGTGCCGCTTAAAGAGCGTGACGCATCGCGGCTTATGGTGCTCGACAAACAGACGGGCGGGCTGACGGACAGTTCATTTAAAGAGATTGTAAGCTTTTTTAATGAAGGGGATTGCCTCGTCTTGAACAATACCCGTGTGCTGCCTGCGAGATTATTCGGCACAAAAGAAGATACGGGAGCGAAAGTGGAGCTTCTGTTATTAAAACAGGAAGAAAATGATACATGGGAAACGCTCGTAAAGCCGGCGAAACGCGTAAAAAAAGGAACGGTCCTGACATTTGGCGACGGCCGGCTGACAGCGGTCTGCACGGAGGAGCTTGATCATGGAGGCAGAAAAATAAAATTCCGGTATGACGGGATTTTTTACGAAGTGCTTGAATCACTCGGTGAAATGCCGCTGCCTCCTTATATTAAAGAGCAGCTTGATGATAAAGAACGGTATCAGACCGTCTTTTCAAAAGAAATCGGATCTGCCGCAGCTCCGACGGCCGGACTTCATTTTACGGAAGAGATTCTGGACGAGCTGAAGCAAAAGGGTGTGCGGATTGAATTTATCACACTTCATGTGGGACTCGGCACATTCCGCCCGGTCAGTGCGGATGATGTGGAAGAGCATAACATGCACGCGGAATTTTATGAAATGACGGAAGAAACCGCCGCCTCTTTAAACGAGGTCAGAAAGGCGGGAGGGCGCATCGTGTCGGTCGGGACGACATCAACGCGCACCCTGGAAACCATTGCAGGCGAGCATGACGGCGTATTTACCGCTTCAAGCGGCTGGACGTCCATCTTCATTTATCCGGGATATGAATTTAAGGCGATTGACGGCATGATCACCAATTTTCATCTGCCGAAATCTTCGCTTATCATGCTCGTTTCTGCGCTTGCCGGCAGAGAGCATGTTCTTTCCGCCTACCGTCATGCGGTAGAAGAGGAATATCGTTTCTTCAGCTTTGGCGACGCCATGCTGATTATCTAA	MKVDLFDFELPERLIAQVPLKERDASRLMVLDKQTGGLTDSSFKEIVSFFNEGDCLVLNNTRVLPARLFGTKEDTGAKVELLLLKQEENDTWETLVKPAKRVKKGTVLTFGDGRLTAVCTEELDHGGRKIKFRYDGIFYEVLESLGEMPLPPYIKEQLDDKERYQTVFSKEIGSAAAPTAGLHFTEEILDELKQKGVRIEFITLHVGLGTFRPVSADDVEEHNMHAEFYEMTEETAASLNEVRKAGGRIVSVGTTSTRTLETIAGEHDGVFTASSGWTSIFIYPGYEFKAIDGMITNFHLPKSSLIMLVSALAGREHVLSAYRHAVEEEYRFFSFGDAMLII	PGPT0023660_3217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
D1-12_01766	201			hypothetical protein	GTGACTGACTTTCCGAAGGTTCTCATGGTTCTCGGTGCCGTTTTGCTTATTGCCGGCGCAGTCTGGCACTTTGTCGGAAGGCTGCCCGGAGATATTTTCGTTAAGAAGGGAAATGTTACATTTTTCTTTCCCGTTGTCACTTGTATTGTGATCAGTGTGATACTATCCATTCTGCTTAATTTTTTCGGCAGAATGAAATAA	MTDFPKVLMVLGAVLLIAGAVWHFVGRLPGDIFVKKGNVTFFFPVVTCIVISVILSILLNFFGRMK				NA	NA	NA	NA	NA
D1-12_01767	1005	ruvB	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGGATGAACGGCTCGTTTCAAGTGAAGCAGACAGCCATGAATCAATAATCGAGCAAAGCCTCAGGCCGCAGAATCTCGCCCAGTATATCGGCCAAAAGAAGGTGAAAGAAAATCTGCGCGTGTTTATCGATGCGGCAAAAATGAGGCAGGAGACACTGGACCACGTTCTTTTATACGGGCCTCCGGGTCTCGGGAAAACAACGCTTGCGTCTATCGTGGCCAATGAGATGGGTGTGGAGATGCGGACGACGTCAGGTCCCGCCATCGAAAGACCGGGAGATTTGGCAGCCATTTTGACGGCGCTCGAACCAGGGGATGTGCTGTTTATAGACGAAATTCACAGGCTGAACCGCTCAATTGAGGAAGTGCTGTACCCGGCGATGGAGGATTTCTGCCTTGATATCGTCATTGGAAAAGGCCCGTCCGCCCGCTCCGTCCGTCTCGACCTTCCCCCTTTTACGCTTGTAGGAGCGACGACAAGGGTCGGATTATTGACCGCACCGCTCAGAGACCGGTTCGGGGTGCTGTCGCGCCTTGAATACTATACGCAGGAAGAGCTGACAGATATCGTGTCAAGAACGGCTGACGTTTTTGAAGTGGATATCGAAAAAGCTCCGGCTCTGGAAATCGCCAGACGGTCAAGGGGAACGCCGCGGGTTGCAAACCGGCTTCTCAGAAGGGTGAGGGATTTTGCCCAGGTGCTCGGCGACAGCCGCATCACGGAAGAAATCGCTCACGACGCGCTCGAACGTCTTCAAGTCGATGCGCTCGGCCTTGACCACATTGACCATAAGCTGCTGATGGGCATGATCGAAAAATTCAGCGGAGGTCCCGTCGGCCTTGATACGATTTCCGCGACAATCGGCGAAGAACCGCATACAATAGAGGATGTGTACGAACCGTATCTGCTGCAGATCGGATTTCTCCAGAGGACGCCGAGGGGACGGGTCGTGACTCCGGCTGTGTATGAACATTTTCGATTGGAGGCGCCCGCCCGTGACTGA	MDERLVSSEADSHESIIEQSLRPQNLAQYIGQKKVKENLRVFIDAAKMRQETLDHVLLYGPPGLGKTTLASIVANEMGVEMRTTSGPAIERPGDLAAILTALEPGDVLFIDEIHRLNRSIEEVLYPAMEDFCLDIVIGKGPSARSVRLDLPPFTLVGATTRVGLLTAPLRDRFGVLSRLEYYTQEELTDIVSRTADVFEVDIEKAPALEIARRSRGTPRVANRLLRRVRDFAQVLGDSRITEEIAHDALERLQVDALGLDHIDHKLLMGMIEKFSGGPVGLDTISATIGEEPHTIEDVYEPYLLQIGFLQRTPRGRVVTPAVYEHFRLEAPARD				NA	NA	NA	NA	NA
D1-12_01768	606	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	GTGATTGAATTCGTGAAGGGGACGATTGATTACGTATCTCCCCAATACATCGTGATTGAAAACGGCGGAATCGGCTATCAGGTCTTCACTCCGAATCCGTTTATTTATAAGGTAAGCAATCAAGAGACCATTTTTACGTATCATCATATAAAAGAAGACGCCTTTTCTTTGTACGGTTTTTCAACCCGGGAAGAAAAAGCGCTTTTCACAAAGCTGCTGAACGTCACCGGCATCGGGCCGAAAGGGGCGCTCGCCATCCTCGGTTCCGGTGATGCCGGAGCCGTCATCGAAGCGATCGAACAGGAAGATGAAGCCTTTTTGGTGAAATTTCCGGGTGTGGGCAAAAAAACGGCGCGGCAGATTATTCTTGATTTGAAAGGCAAACTGGCCGACGTCGTGCCTGAAATGATTGACAACCTGTTTAATCATGAAGCGCGCATTGAAAAACAAGAGGCTGAAACGGCGCTTGACGAGGCGCTTGAAGCGCTCCGGGTTCTCGGCTACGCCGAAAAAGAAATTAAAAAAGTGCTTCCTCACTTAAAAGAGGAAACGGCGCTTTCAACAGATCAATATGTGAAAAAAGCATTGCAAAAATTATTAAAGTAA	MIEFVKGTIDYVSPQYIVIENGGIGYQVFTPNPFIYKVSNQETIFTYHHIKEDAFSLYGFSTREEKALFTKLLNVTGIGPKGALAILGSGDAGAVIEAIEQEDEAFLVKFPGVGKKTARQIILDLKGKLADVVPEMIDNLFNHEARIEKQEAETALDEALEALRVLGYAEKEIKKVLPHLKEETALSTDQYVKKALQKLLK				NA	NA	NA	NA	NA
D1-12_01769	510	bofC		Protein BofC	GTGAAACGAATTTGCGGTGCTCGTCTATTGTTTATGCTTATCTTATCGGCTGCAGTCCTGATTTGCGGAGGAAAAGGCGCATACGGGGCGGAGGTCGAGCATTACGGGCCGCTTCGGGTGCATGTCCAGCTGGAAAAGGTCTATCTTGACGGTGATGTCGGCATTGAACATACGGATGAAACCGTTTTAGCGATGGAGGATTTTTGGGCCGCATATGCCGGCTGGACGCTCGTTGAGCAGAAAAAAGGCTTCGTCCTTTTCCGTAAGCATGTTGATGATATTTCTCCGCTCAGTAAGGTTAACGGTTATATCGGCGTCACGGACGGAGGCGTCATCTCCACTTTTCACGGCCGTCCCGGATCGCTGGCCGAGCCGATTCAGTCTTTCTTCCAGATTGATATAGAAAGGCTGGAAAGCCGATTGCAAAAGCACTTGGAACACGGCATACCGTACAGAACAAAAGCGGAGTTTGAGAGCGTGATCGATCATATTAAGACTTACAGCGGCTGA	MKRICGARLLFMLILSAAVLICGGKGAYGAEVEHYGPLRVHVQLEKVYLDGDVGIEHTDETVLAMEDFWAAYAGWTLVEQKKGFVLFRKHVDDISPLSKVNGYIGVTDGGVISTFHGRPGSLAEPIQSFFQIDIERLESRLQKHLEHGIPYRTKAEFESVIDHIKTYSG	PGPT0014765_145	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014765-bofC-K06318	NA	NA
D1-12_01770	120			hypothetical protein	ATGAAAAAAACGGAGCATGACAAAAGCCGCGGAGCAAAAACTGTGTATCTGACCGTAAGGGGATACCGGCTCAAACTGACGCCCGGACAAATGAAACTGATTTCAGCCGGCCGGGCGTAA	MKKTEHDKSRGAKTVYLTVRGYRLKLTPGQMKLISAGRA				NA	NA	NA	NA	NA
D1-12_01771	594	coxA		Sporulation cortex protein CoxA	TTGGGTAAAAAACTGATGACGATCGCGGGCGTTTTAGCCGTGACGGCAAGCTTAACGGCATGCGGAGCAAATAATGCCATGAATGACGGACGCTACAATCAGTCAACACGTCCGGTCGGATATTATTCGAATGATAATGGTAACGGCAGAGGCCAGTACGGAATGGACCATCAAGGACCCGTTTCTGAAATGATGGAAAACCGAAACGGCCGTCATAATACGACAAACGTGTCCGACCAGTACGCCCCTAATGACGGGGTTCCGTTAACGACGGACGGCACATATAACGGCCGAAATGTCAATACGCCGCCGGCAGCAATGTCTTATAATGGGTATGACAACGCCGAAAACATCAGGTTGGCGGCAAAAGTTGCAAACCGCGTGAAAAAAGTAAAAGGCGTACAGGATAGTCAGGTCATCGTGACTGACACGAGAGTCGTCATTGCCGTCAGAACAAATCATCCTTTTACGAAAAATGATGATAAACATGTCAAACATGCGGCCAAAAAATTCGCGGACGGCCGTACAATTCAAGTGTTTACCGACAACGCTACTTTTACAAAGCTGCAAGACATGAACAGAAACAGCCGTTAA	MGKKLMTIAGVLAVTASLTACGANNAMNDGRYNQSTRPVGYYSNDNGNGRGQYGMDHQGPVSEMMENRNGRHNTTNVSDQYAPNDGVPLTTDGTYNGRNVNTPPAAMSYNGYDNAENIRLAAKVANRVKKVKGVQDSQVIVTDTRVVIAVRTNHPFTKNDDKHVKHAAKKFADGRTIQVFTDNATFTKLQDMNRNSR				NA	NA	NA	NA	NA
D1-12_01772	1191	safA		SpoIVD-associated factor A	TTGAAAATTCATATCGTTCAAAAAGGCGATTCGCTCTGGAAAATAGCTGAAAAATACGGAGTTGATCTTGAAGAGTTAAAAAAACTGAATCATCAGCTTAGCAATCCAGACTTAATTATGCCTGGAATGAAGATAAAGGTGCCTTCAGAAGCCGTTCCGGTCAGAAAAGAACCTAAGGCCGGCTTCGGAACGTCTGCGCATAAGCATGAGCATCCATATGCCAAAGAAAAACCGAAATCAGTTGTGGACATTGAAGACACCATACCGGAAGAACCAAAGCCGTCGATTCCGTATGTGCCGCCAATCCCTGAAAAGCATGAAAATGTGCTGCCGGAAGCTGATATGAACCAATATTACCCGTCCAATCAGCTGTTTCAGCCGTGGTCGCCTCCTAAGCCGGAGGAACCGGTGACACATTTTGTCGAGCCGAAAGAAAAAGAGCATGACAATAACATTCCACAACAGGAGGAAATGATCAACATGGAAAACGCGAATTACCCGAATATGCCAAAGGCGCCTGAAGCCGGAAAGATGGAAGAAGAAAACGCCGCTTATCATCTGCCGAACATGCCAAACATTCCGAATGTCCCGTTTCCGAATATGCCGGCCGTTGAACCGCCTTTTGTGCATTACCCGATGCCGTGCATGCCTTGTCCTTGTCCGGTTCCGGTGACACCGATGCTGCCGGGTTCTGGATTATGCCACCCTTGCTTCCCGGTAGGCGGAGGTTTCGGCGGTTTTGGAGGAGGTTTCGGAGGCTTTCCGGTCATGCCGATGCCGTTACCGTACGGATTCCATCATCCGGGATTTGGGCCGCAAGCGGGTTACGGTGAATATGAAAACCAGGCCCATGAAAATGCAGAGCATTATGATGGTTCTGCATCTGGTTTCGGCGGTGCTCCTTACGGTCAAATGCCGTATTACGGCGGATATTCGTCACATTACGCACACGCCCCTCATCATGATGGAAAATATAAGGATGATGATTGCGGCTGCCATGATTCACATCATCACCATCATCACCACCACGGTTCACATCACCATCACGCAAATATGCCTGTGCAGCCGTATCCGAATATGGGTGCAAACGCAGGACATTTTATGCCTTACGGCGGAGCAAATCCCAATGTCGCGCCGAATCAGCCGAGTCCAAATCAAGTATTCGGACGGCCGGAGGAAGAAGAAGATTAA	MKIHIVQKGDSLWKIAEKYGVDLEELKKLNHQLSNPDLIMPGMKIKVPSEAVPVRKEPKAGFGTSAHKHEHPYAKEKPKSVVDIEDTIPEEPKPSIPYVPPIPEKHENVLPEADMNQYYPSNQLFQPWSPPKPEEPVTHFVEPKEKEHDNNIPQQEEMINMENANYPNMPKAPEAGKMEEENAAYHLPNMPNIPNVPFPNMPAVEPPFVHYPMPCMPCPCPVPVTPMLPGSGLCHPCFPVGGGFGGFGGGFGGFPVMPMPLPYGFHHPGFGPQAGYGEYENQAHENAEHYDGSASGFGGAPYGQMPYYGGYSSHYAHAPHHDGKYKDDDCGCHDSHHHHHHHHGSHHHHANMPVQPYPNMGANAGHFMPYGGANPNVAPNQPSPNQVFGRPEEEED				NA	NA	NA	NA	NA
D1-12_01773	1104	nadA	COG0379	Quinolinate synthase A	ATGTCTATTTTTGACGTGTTAACTGCATCAGCCGAAATGATGCCGAGCCATTATAAAGACATGAGCACCGGAGAAATGGAGAAGCGGGTCGCCGCCATTAAACGGGATTTCGGAAAGCGCCTGTTCATTCCGGGGCATCACTATCAAAAAGACGAAGTAATACAATTCGCCGATACGGCAGGTGACTCCCTGCAGCTTGCTCAAGTGGCAGAAAAAAATAAAGAGGCGGAATATATTGTGTTTTGCGGCGTGCATTTTATGGCGGAAACCGCTGATATGCTGACTGATGATAACCAAACCGTCATTTTGCCCGATATGCGCGCCGGATGCTCGATGGCTGATATGGCAGATATTCAGCAGACGGACAAAGCATGGCAAGAGCTTCAAGAACTGTACGGTAACACCATCATTCCGTTAACATATGTTAACTCGACGGCGGAAATTAAAGCATTCGTCGGACGGCACGGAGGAGCGACCGTCACCTCTTCGAATGCCCGGAGTGTGCTGAAATGGGCTTTTAAACAAAAAGAGAGAATTTTATTTTTGCCGGATCAGCATTTAGGCAGAAATACAGCCTATGATCTCGGCATTCCGCTGACAGAAATGGCTGTATGGGACCCGGGGCAGAACCGATTGCTTACTGACCATCCGGAAAACATTAAAGTCATCCTTTGGAAAGGGCATTGCTCCGTACACGAAAAGTTCACAGCGGAAAATATTTCTCAGCTGCGGCAGCGGGATTCCGGCATCCGCATTATCGTTCATCCGGAATGTTCGAGGGAAGTGGTCTCGCTCAGTGACGACAGCGGGTCTACCAAATACATTATTGATACGATTGAACAGGCTGAACCGGGAAGCAAGTGGGCGATCGGAACGGAAATGAATCTTGTTCAGCGCCTCATTCAATCGCATCCGGATAAACAGATTGAATCATTGAATCCCGATATGTGTCCGTGTCTGACAATGAACAGAATCGATCTGCCGCATTTATTGTGGTCGCTTGAGCAGCTTGAAAAAGGCGAGCCGAAGGGTGTCATTAAAGTTCCGGAAGCGGTTCGGACAGAAGCGCTTCGTGCTTTGAACAGAATGCTGAGTCATACGTAG	MSIFDVLTASAEMMPSHYKDMSTGEMEKRVAAIKRDFGKRLFIPGHHYQKDEVIQFADTAGDSLQLAQVAEKNKEAEYIVFCGVHFMAETADMLTDDNQTVILPDMRAGCSMADMADIQQTDKAWQELQELYGNTIIPLTYVNSTAEIKAFVGRHGGATVTSSNARSVLKWAFKQKERILFLPDQHLGRNTAYDLGIPLTEMAVWDPGQNRLLTDHPENIKVILWKGHCSVHEKFTAENISQLRQRDSGIRIIVHPECSREVVSLSDDSGSTKYIIDTIEQAEPGSKWAIGTEMNLVQRLIQSHPDKQIESLNPDMCPCLTMNRIDLPHLLWSLEQLEKGEPKGVIKVPEAVRTEALRALNRMLSHT	PGPT0013365_1077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
D1-12_01774	849	nadC	COG0157	putative nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGGACATTCTGCAGCTGAAACAAATGCTGACTCATTTTTTTCAGGAAGATATCGGAACGGGTGATGCGACGTCACAAGCGATTTTTGCTGATCAGCAATGTAAAGCGCGAATCATCGCAAAAACAGATGGCGTGTTTGCCGGAGAAGCCGTTATCCGTGAAGGATGGAAGCTTTTACACGATGATATCCGCATCCGCTCCCTGAAAAAAGACGGAGAACGGATGAAAAAAGGAGACGTGCTCGCTGAAATGGAAGGCCAGGCGGCGGCTCTTCTTACGGGGGAGCGGGTCATTCTGAATCTCTTACAAAGAATGTCAGGCGTTGCGACAATGACGGATGAGGCCAAAAGGCGTCTTGATGATCCGTCCATTAAGATTTGTGATACGAGAAAAACGACACCCGGGCTCAGAATGCTGGAAAAATACGCCGTTCGGGTCGGAGGCGGCTTTAATCATCGCTTCGGCTTATATGACGGCATCATGATAAAAGATAATCATATTGCCGCCTGCGGATCGATAAAGGCAGCCGTGGAGCGGGCAAGAAAAACGGCGGGGCAGATGCTTGCGGTTGAAGTCGAAATCGAATCCGAACAGCAGCTGCTCGAGGCAATAGAAGCGGGCGCAGACGTTATTATGTTTGACAACTGTCCGCCTGAGTCCGTCCGGCGTTTTGCAGGCATGACACCGGGCCATATCAAAACGGAAGCATCCGGAGGCATAACGCTCGACACATTGCCCGCTTATAAAGGAACGGGCGTCCAATATATTTCACTCGGATTTCTGACTCATTCAGTAAAAAGCGCCGACATCAGCATGGATGTTGAGGCTGCGGAACAGGGGGATTTTTAA	MDILQLKQMLTHFFQEDIGTGDATSQAIFADQQCKARIIAKTDGVFAGEAVIREGWKLLHDDIRIRSLKKDGERMKKGDVLAEMEGQAAALLTGERVILNLLQRMSGVATMTDEAKRRLDDPSIKICDTRKTTPGLRMLEKYAVRVGGGFNHRFGLYDGIMIKDNHIAACGSIKAAVERARKTAGQMLAVEVEIESEQQLLEAIEAGADVIMFDNCPPESVRRFAGMTPGHIKTEASGGITLDTLPAYKGTGVQYISLGFLTHSVKSADISMDVEAAEQGDF	PGPT0013370_468	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
D1-12_01775	1566	nadB	COG0029	L-aspartate oxidase	ATGTCTGAAAAAACAATTATCGTCATTGGTTCGGGGACGGCGGCCCTTGCCTGTGCTTCCTCATTTCCTCCGTCATATCAAGTGACCGTCATCACAAAGAGAAACGTAACGAACAGCAATTCGCATTATGCTCAAGGCGGGATTGCTGTTTCATACGCAAAAGATGACTCTTTAGAATCCCATGTGAACGATACACTGTATGCGGGATGCGGACACAATGACGTGACAGCCGTGCGGCATTTGCTGAAAAGCGGACAGACCATGATAAACAGGCTGATAGAAGGCCATTTCCCTTTTGATACGAAGTCGGACGGAACGTTTTGTCTCGGCAGGGAAGGGGCTCATTCCAAAAGGAGGATTCTGCACGCCGGGGGAGATGCGACCGGACGGATGTTGGTTGAGTTTCTGGTTCGGCAGCTGAGGGACGGCATACGGATCATTGAACACGAGTCGGTTGTTGATCTGCTGATTGAACACGGACGATGCGCAGGCGTTGCCGTAAAGGATGCTTCAGGCGCCGTTTCTTACAGAAGAGCGGATTGTGTAGTGCTTGCATCAGGCGGCTGCGGCAGTCTGTACCAATATCACACAAATGATTCCGCCATAACGGGAGACGGCATCGCTCTTGCCTTTCGCGCGGGAGCTGAGATCACGGATATGGAGTTCACCCAGTTCCACCCGACCCTCCTTGTGAAAAACGGGACTGTGTACGGCCTGATTTCTGAAGCAGTGAGAGGAGAAGGAGGATATTTAGCGGATCGCTTCGGGCGCAGGATCATGGCTGGCAGACACGCACTAGAAGATTTGGCGCCCCGGGATGTGGTTTCACGGGCGATTTATGAAGAAATGATGAAAGAAAATCCTGTTTTTATAAATTGCAGCCGAATAGCCGATTTTAAGAAACGTTTTCCGACCATAACAGAAATTTGTCAAACAGCCGGTGTTGATCTCGAAAGCGGAATTCCCGTAGCACCCGGAATGCATTTTTTAATGGGCGGAGTAAAAGCCGATACATGGGGGAAAACGTCCGTGCCTGATTTGTACGCTATAGGCGAAACCGCCTGCACAGGCTTGCACGGGGCGAACCGCCTTGCGAGCAACTCACTGCTGGAAGCGCTGGCAAGCGGGCAACGATGTGCTGAACATATCATTCAAACACCGTTAAACGGAAGATATAAAAAAACCCCGAAGAAATTTGACGTCATCTTAGAAGTGCCGGACACAACGCTTCATGTGCTCCAAGCCAAAATGACAACCGGAGCGGGCATCGTCAGGGAAAAAGAAAACATGCAGGCGCTGGCATCCTGGCTTAACAACGTATCTGTGCGTCATATAAATGTGAAGGATATCACAATAGAACAAGCCGAGCTATCCTGCCTATGGAAGACTGCGCAACTTGTTGTGACCTCAGCCCTTATTCGGGAAGAAAGCAGAGGCGCTCATTTTCGCGCTGATTTTCCCGGGACGGAGAAAGAGTGGCACGGAAAACAAATCATTCATTCAACATCTGGAACAGTTATCAGAAAAAACGAAAGGATTGGGGAACTATGGACATTCTGCAGCTGA	MSEKTIIVIGSGTAALACASSFPPSYQVTVITKRNVTNSNSHYAQGGIAVSYAKDDSLESHVNDTLYAGCGHNDVTAVRHLLKSGQTMINRLIEGHFPFDTKSDGTFCLGREGAHSKRRILHAGGDATGRMLVEFLVRQLRDGIRIIEHESVVDLLIEHGRCAGVAVKDASGAVSYRRADCVVLASGGCGSLYQYHTNDSAITGDGIALAFRAGAEITDMEFTQFHPTLLVKNGTVYGLISEAVRGEGGYLADRFGRRIMAGRHALEDLAPRDVVSRAIYEEMMKENPVFINCSRIADFKKRFPTITEICQTAGVDLESGIPVAPGMHFLMGGVKADTWGKTSVPDLYAIGETACTGLHGANRLASNSLLEALASGQRCAEHIIQTPLNGRYKKTPKKFDVILEVPDTTLHVLQAKMTTGAGIVREKENMQALASWLNNVSVRHINVKDITIEQAELSCLWKTAQLVVTSALIREESRGAHFRADFPGTEKEWHGKQIIHSTSGTVIRKNERIGELWTFCS	PGPT0013355_2708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
D1-12_01776	1152	nifS	COG1104	Putative cysteine desulfurase NifS	ATGATTTATCTTGATTACGCGGCGGGAGCGCCTTTAAGCAAAGAAGCCGCAAAAGTCTTTCAGCATCTCAGCACAGAGGTATACGGCAATACAAGCAGCCTTCATGACGCCGGAGGAAGAGCGGCGGACGTGCTGGAATATTGCAGACATTCTGCAGGAAAATTGATCGGCGGAGCCGCAGACGGCATTTACTTTACAAGCGGCGGAACGGAAGCGAACATCCTGGCCGTCCAATCATTGCTGCTCGGCCTGCCCGTTCACAAAAAACATTTTATTACGACCGCAATGGAACACCATTCGATCCATAATGCCGCGGCGTTTTTAGCTGATCGGGGAATTGATGTCACCATCATATATCCCGACGAGAACGGACTTATAACCGAGGACATACTGGCGGCTCATATCCGTCCTGACACGGGGCTCGTTTCCATACAGCACGCCAATTCAGAAACCGGCCTCATCCAGCCAGTGGATCGCCTGGCCGCTTTTCTTCACCATCGAAACATTTTGCTGCATTGCGATTGTGTTCAAAGTTTCGGCAAACTGCCGATTGATGCGGATCAGGCAGGAATCGACGCCCTTTCCGTCTCCGGTCATAAAGTATACGGCCCGAAAGGCACCGGGGCTGTTTACATTCGGCCCGGTGTCAGCTGGAACCCGGTTTATCCGTATACCGTGCATGAAAACGGGTTCAGGCCCGGTACGGTGAATGTGCCGGCCATCGGCGCTTTTACCGCTGCTGCGGAGTATGCAGTGAAACATATGGAGGAACACCGTAAGCATGCTGACAGGCTGAGGAATTATTTGTATGACCAAATTCGGCGTCAAGGCCTCCCCATTTCATTTTCAGAGGAAGAAACCGGCGGTGAATGCCTGCCCCACATTGTCGGGTGTTTTTTTCACTCCTTTGAAGGACAATATATTATGTTAGAATGTAATCGTAACGATATTTGCATCTCAACCGGGAGCGCATGTTCCGCCGGCAGCCACGGCCCTTCTTCAGCTATGAAGGCGCTGAGAAAAACCGAACGGGAAGCGCGGCAGTTTTTCCGAATCTCATTCGGAAACGAAACAACATGTGAACAGCTCGATATGCTGATACATACATTTACGGCGCTGTGGGAGCAAAAGAAAGGAGAATCAGCAATTTGA	MIYLDYAAGAPLSKEAAKVFQHLSTEVYGNTSSLHDAGGRAADVLEYCRHSAGKLIGGAADGIYFTSGGTEANILAVQSLLLGLPVHKKHFITTAMEHHSIHNAAAFLADRGIDVTIIYPDENGLITEDILAAHIRPDTGLVSIQHANSETGLIQPVDRLAAFLHHRNILLHCDCVQSFGKLPIDADQAGIDALSVSGHKVYGPKGTGAVYIRPGVSWNPVYPYTVHENGFRPGTVNVPAIGAFTAAAEYAVKHMEEHRKHADRLRNYLYDQIRRQGLPISFSEEETGGECLPHIVGCFFHSFEGQYIMLECNRNDICISTGSACSAGSHGPSSAMKALRKTEREARQFFRISFGNETTCEQLDMLIHTFTALWEQKKGESAI	PGPT0000065_5454	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
D1-12_01777	543	nadR	COG1827	Transcription repressor NadR	TTGACAGAAGGAACGAAGCTTACTGGGGAGAAAAGACGCGACATGCTGCTTCATTGGCTGAAAGAAGCCGGCTCGCCATTAACAGGAGGCGAATTAGCCAAAAAAGCAAATGTCTCAAGACAGGTGATCGTGCAGGACATATCACTCTTGAAAGCAAAAAACGAGCCGATCATCGCGACGAGCCAAGGCTACTTATACATCAGCATGAATGCCGGCGGTGAAAAAAACGCCGAACGGATTGTCGCCTGTCTGCACGGCCCGGAGCGGACGGAAGAAGAGCTTGAACTCATTGTCGATGAAGGCGTCACCATAAAGGACGTCATTATTGAACACCCCGTATACGGCGATTTAACCGCCGCCATAAGAGTCAGCACACGGAAAGAAGTCAAACAATTCATGGATCACATTAACTCGACAAATGCCGCTTACCTTTCACAGCTGACCGGAGGCGTGCACCTCCATACGTTAAGCGCCCCGACAAAAGAGCGGATTGACCAAGCCTGCCAAGCGCTGGACGACGCGGGTATTTTAATAAAAGATTAA	MTEGTKLTGEKRRDMLLHWLKEAGSPLTGGELAKKANVSRQVIVQDISLLKAKNEPIIATSQGYLYISMNAGGEKNAERIVACLHGPERTEEELELIVDEGVTIKDVIIEHPVYGDLTAAIRVSTRKEVKQFMDHINSTNAAYLSQLTGGVHLHTLSAPTKERIDQACQALDDAGILIKD				NA	NA	NA	NA	NA
D1-12_01778	858	pheA		Bifunctional chorismate mutase/prephenate dehydratase	ATGAAAGTCGGTTATTTAGGGCCAGAAGCCACATTTACACATCTAGCAGTCAGTTCCTGCTTTCAAAACAGCGTGACACAAGCACCTTATCAAACAATACCGGCATGCATGGATGCGGCGGTTGCGGGAGAAGTTGATCTTGCATTTGTTCCTTTGGAAAACGCGCTGGAGGGCTCGGTTAACTTAACGATTGACTATTTGATTCATGAGCAGCCTCTTGCGATCGTGGGGGAAATGACGCTGCCGATTCACCAGCATCTGCTCGTTCACCCTTCGAGAGAAAATGAGTGGAAAAAGCTTGAGAAAATTTATTCTCATTCCCATGCGATTGCGCAATGCCACAAATTTCTTCACCGGCATTTTTCGTCCGTTCCTTATGAGTATGCGAAGTCAACAGGTGCGGCTGCCAAGTATGTCAGTGAGCATTCGGACCTTCCGATCGGCGTGATTGCAAATGAAATGGCCGCCGCTACATACGGATTGAGCATCGTGAAGCGGGATATTCAGGATTATCAGGACAACCACACGAGATTTGTCATTCTTTCGCCTGAAAAAGACGTCTCATTCGAAGTGAATGCGAAACTGTCTTCACGGCCGAAAACGACGATGATGGTAACGCTTCCTCAAGATGACCAATCAGGTGCGCTGCACAGGGTGCTGTCCGCTTTTTCATGGAGAAACCTGAATTTATCAAAGATCGAATCGCGCCCGACAAAAACGGGTCTCGGCAACTATTTCTTTATTATTGATATTGAACAGGCGATGGATCAGGTTCTCATTCCCGGTGCCGTTCAAGAGATGGAAGCCCTCGGCTGCCGGGTCAAGCTTCTGGGAACATATCAATCCTATTCGATATAA	MKVGYLGPEATFTHLAVSSCFQNSVTQAPYQTIPACMDAAVAGEVDLAFVPLENALEGSVNLTIDYLIHEQPLAIVGEMTLPIHQHLLVHPSRENEWKKLEKIYSHSHAIAQCHKFLHRHFSSVPYEYAKSTGAAAKYVSEHSDLPIGVIANEMAAATYGLSIVKRDIQDYQDNHTRFVILSPEKDVSFEVNAKLSSRPKTTMMVTLPQDDQSGALHRVLSAFSWRNLNLSKIESRPTKTGLGNYFFIIDIEQAMDQVLIPGAVQEMEALGCRVKLLGTYQSYSI				NA	NA	NA	NA	NA
D1-12_01779	444			hypothetical protein	GTGAAAGAAGAGACATTTTATTTAGTGCGTGAAGACGTTCTGCCTGATGCGATGCGGAAAACCCTTGAAGTCAAAAAGCTGCTCGACAGAAAAAAGGCTGAATCGGTTGCAGATGCCGTGCAGAAAGTTGATTTAAGCAGAAGCGCTTTTTACAAATACCGAGATGCGGTTTTCCCTTTTTACACGATGGTTAAAGAACAAATAATCACACTTTTCTTTCATTTGGAGGATCGGTCAGGCGCGTTATCCCAGCTTTTGCAGGCGGTGGCTGACTCAGGAAGCAACGTGCTTTCCATTCACCAGACGATTCCGCTTCAGGGCAGGGCGAATGTCACGCTCTCAATCAGTACGTCCGCAATGGAAGAAAACATTCATACGTTAATGAATAAACTGAGAAAATTTGATTTTATAGAAAAAGTTGAGATCTTAGGGTCAGGCGCGTAA	MKEETFYLVREDVLPDAMRKTLEVKKLLDRKKAESVADAVQKVDLSRSAFYKYRDAVFPFYTMVKEQIITLFFHLEDRSGALSQLLQAVADSGSNVLSIHQTIPLQGRANVTLSISTSAMEENIHTLMNKLRKFDFIEKVEILGSGA				NA	NA	NA	NA	NA
D1-12_01780	1287	obg	COG0536	GTPase Obg	ATGTTTGTAGATCAGGTGAAAGTATATGTAAAAGGCGGCGACGGCGGTAACGGAATGGTTGCGTTCCGCCGTGAAAAATATGTGCCGAAAGGCGGGCCTGCCGGCGGTGACGGAGGTAATGGAGGCGACGTCGTTTTTGAGGTTGATGAAGGACTGCGCACGCTCATGGACTTCCGGTACCAGCGGCATTTCAAAGCGATACGCGGCGAGCACGGCATGTCTAAAAACCAGCACGGCAGAAATGCGGACGATATGGTTGTTAAAGTTCCGCCCGGCACAGTCGTAACGGATGACGATACAAAACAGGTCATTGCCGATCTGACTGAGCACGGGCAGCGCGCCGTCATCGCAAAAGGCGGACGCGGCGGACGCGGAAATACCCGCTTTGCGACACCGGCCAACCCGGCACCGCAGCTGTCAGAGCACGGAGAGCCCGGAAAAGAGCGCTATATCGTGCTTGAACTGAAAGTGCTTGCAGACGTAGGTCTCGTCGGCTTCCCGAGCGTCGGAAAATCTACGCTTCTGTCTGTCGTTTCATCGGCAAAGCCGAAAATCGCCGATTATCATTTTACAACGCTTGTTCCGAATCTGGGCATGGTGGAAACGGATGACGGAAGAAGCTTCGTCATGGCGGATCTGCCCGGTTTGATTGAAGGAGCGCATGAAGGAGTCGGCTTAGGCCACCAATTTCTCCGCCATATCGAACGGACGCGCGTCATCGTTCACGTCATTGACATGTCAGCGATGGAAGGCCGTGATCCGTATGAGGATTATGTGACCATTAATCAGGAGCTCAGTGAATATAATCTGCGGCTGACGGAGCGTCCGCAAATTATCGTTGCGAATAAAATGGACATGCCCGAAGCGGCTGAAAATCTTAAAGCGTTTAAAGAAAAGCTTCAGGATGATCACCCTGTCTTCCCGATCAGCGCGGTGACGAGAGAAGGGCTCCGCGATCTTCTGTTTGAAGTCGCCAACCAGCTGGAAACAACGCCTGAATTCCCGCTGTATGATGAAGAAGAACTGGCGGAAAACCGCGTGATGTACACGATGGAAGATGAAGAAATTCCATTTAACATTACCCGTGATCCGGACGGTGCGTTTGTGCTTTCAGGTGACAGCCTGGAACGCCTCTTTAAAATGACTGACTTCTCCCGTGACGAATCCGTCAAGCGTTTTGCAAGACAGATGCGCGGTATGGGCGTTGATGAAGCGCTCAGAGAACGCGGTGCTAAAGACGGCGATATCATCCGGCTTCTGGAATTTGAATTTGAATTTATTGATTAA	MFVDQVKVYVKGGDGGNGMVAFRREKYVPKGGPAGGDGGNGGDVVFEVDEGLRTLMDFRYQRHFKAIRGEHGMSKNQHGRNADDMVVKVPPGTVVTDDDTKQVIADLTEHGQRAVIAKGGRGGRGNTRFATPANPAPQLSEHGEPGKERYIVLELKVLADVGLVGFPSVGKSTLLSVVSSAKPKIADYHFTTLVPNLGMVETDDGRSFVMADLPGLIEGAHEGVGLGHQFLRHIERTRVIVHVIDMSAMEGRDPYEDYVTINQELSEYNLRLTERPQIIVANKMDMPEAAENLKAFKEKLQDDHPVFPISAVTREGLRDLLFEVANQLETTPEFPLYDEEELAENRVMYTMEDEEIPFNITRDPDGAFVLSGDSLERLFKMTDFSRDESVKRFARQMRGMGVDEALRERGAKDGDIIRLLEFEFEFID				NA	NA	NA	NA	NA
D1-12_01781	579	spo0B		Sporulation initiation phosphotransferase B	ATGAAGGATGTATCGAAGAAACAAGAAGAACCTGTAAGCGATGCGGCTCTGATCAATGAGCTGATCCAATTAATGGGCCATTTCCGTCATGATTGGATGAATAAGCTGCAGCTGATAAAAGGAAACTTAAGTTTGCAGAAGTATGACAGGGTCGTTGAAATTATTGACGAAATGGTCATAGATGCAAAGCACGAATCAAAGCTCTCAAACCTGAAAACCCCGCACTTGGCGTTTGACTTTCTTACATTTAATTGGAAGTCCCGTTATATGAGGCTCGAATACGAAGTGCTCGGAGAAATTAAAGATTTATCGGCATATGATCAAAAGCTGTCGAACCTGATGAGAAAACTGTTTCATCTGTTCGGTCTGGCGGTAAACAATGAAAGTGAAAATCATCTGACCGTATCGCTGCAGACGGATCACCCTGACAGACAGCTTATTGTATATCTCGATTTTCATGGAACGATTGCAAATGCAGATGTGTTTGATGAATTTCGCAAATCCCGGTATGAGGACTTTGATGTCATGCAATTTGAGCTGACCGGCCATGAATGTGTGGCCGAAATTGGAATGAACTAG	MKDVSKKQEEPVSDAALINELIQLMGHFRHDWMNKLQLIKGNLSLQKYDRVVEIIDEMVIDAKHESKLSNLKTPHLAFDFLTFNWKSRYMRLEYEVLGEIKDLSAYDQKLSNLMRKLFHLFGLAVNNESENHLTVSLQTDHPDRQLIVYLDFHGTIANADVFDEFRKSRYEDFDVMQFELTGHECVAEIGMN	PGPT0024635_65	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024635-spo0B-K06375	NA	NA
D1-12_01782	285	rpmA	COG0211	50S ribosomal protein L27	ATGCTTAGATTAGATCTTCAGTTTTTCGCTTCTAAAAAAGGTGTAGGTTCTACAAAGAACGGACGTGACTCTGAATCTAAACGTTTAGGCGCTAAACGTGCAGACGGTCAATTCGTAACAGGCGGATCTATCCTTTACCGTCAACGCGGAACGAAAATCTACCCAGGTGAAAACGTGGGCCGCGGAGGAGATGACACTCTTTTTGCTAAAATCGACGGAACTGTTAAATTCGAACGTTTCGGCCGTGACCGCAAAAAAGTGAGCGTATATCCTGTAGCTCAATAA	MLRLDLQFFASKKGVGSTKNGRDSESKRLGAKRADGQFVTGGSILYRQRGTKIYPGENVGRGGDDTLFAKIDGTVKFERFGRDRKKVSVYPVAQ				NA	NA	NA	NA	NA
D1-12_01783	342			hypothetical protein	ATGATTGAGGCAACAATTCGAAGATCCCGGAATGACGGGGGCATTTTGTCCTTTGAAATGACGGGACATGCCGATTTTGCTGAACATGGACGAGATCTCGTATGCGCCGGGGTCACGGCTGTCGTTTTCGGAGCGGTCAATGCGGTTATCGCGCTGGCTCCTCTCGAACCGATTCTTGATATAGGCGAGGACGGGGGTTATTTCTACTTTGAATTCCCTGAAGCCGCTGATCAGGAAGCTTTGCAAAAAGCGCAGCTGCTGATTGAAGGCATGATTGTTTCTCTTGAAACGATCGAGCGGGATTACAGTGAACACTTACGGTTGACTGCAAACCAAATATAG	MIEATIRRSRNDGGILSFEMTGHADFAEHGRDLVCAGVTAVVFGAVNAVIALAPLEPILDIGEDGGYFYFEFPEAADQEALQKAQLLIEGMIVSLETIERDYSEHLRLTANQI				NA	NA	NA	NA	NA
D1-12_01784	309	rplU	COG0261	50S ribosomal protein L21	ATGTACGCAATCATTAAAACAGGCGGAAAACAAATCAAAGTTGAAGAAGGTCAAACTGTTTACATCGAAAAACTTGCTGCTGAAGCAGGTGAAACAGTGACGTTTGAAGACGTATTGTTTGTTGGCGGAGACAGCGTGAAAGTCGGCAACCCAACAGTTGCAGGCGCGACAGTTACAGCTAAAGTTGAAAAACAAGGCCGTGCGAAAAAAATCACTGTTTTCCGTTACAAGCCAAAGAAAAATGTTCATAAAAAACAAGGTCATCGTCAGCCTTATACTAAATTGACAATCGAAAAAATCAACGCGTAA	MYAIIKTGGKQIKVEEGQTVYIEKLAAEAGETVTFEDVLFVGGDSVKVGNPTVAGATVTAKVEKQGRAKKITVFRYKPKKNVHKKQGHRQPYTKLTIEKINA				NA	NA	NA	NA	NA
D1-12_01786	867	spoIVFB	COG1994	Stage IV sporulation protein FB	ATGAATAAATGGCTCAGCCTCCTTTTCAAAGTTCATGTCCATCCTTTTCTTTGGATTATCATGGGGCTTGGTCTTATGACGGGGCACATCAAAGCGCTGCTGTGTCTTTTGCTGGTCGTATCCGTTCATGAGCTGGGGCATGCTGCTCTGGCTGTGTTTTTTTCGTGGCGCATAAAACGAATCTTTCTGCTCCCTTTCGGCGGGACGGTTGAGGTGGAGGAGCACGGAAACCGGCCGCTTAAAGAGGAATTCGCGGTCATCCTGGCAGGCCCGCTTCAGCATGTGTGGCTTCAGGCGGCAGCCTGGCTCTTTTTCATGTCAGGTTTTGCAAGTGAGCAGACATTTGAGATGTTTACCTTTTATAATCTCTCTATTCTTTTCATCAATCTTTTGCCGATCTGGCCGCTTGACGGCGGAAAGTTTGTGTTTTTATACTTCTCCAAACAAATGGCTTTTCAAAAAGCGCATCTCCTCAGCCTGCAGACATCGGCCGTTTCCGCGCTTTTGCTCTGCTGCTGGATTGTGCTGGCCGTCCCCCTTCAGGTCAGTGCATGGGTGCTGTTCGTCTTTCTCGCCGCTTCTTTATGGGATGAATACCGGAAGCGGCACTATATTCAGCTGAGGTTTCTTTTGGAGAGATACTACGGCAAAAACCGCGATGTTGCCATGCTGCATCCTTTGACGGTCGCGGCCGATGCCAAAGTAAAGCATGTCATGGCCGAATTCAAACGGGGATGCAAGCACCCCATTATCGTTGAAAAAGCCGGCGAAAAGCTCAGCCAGCTCGATGAAAATGAAGTGCTTCATGCGTATTTTGCCGATAAACGGACAGATTCCTCTATGGAAGACCTGCTGCTGCCTTACTAG	MNKWLSLLFKVHVHPFLWIIMGLGLMTGHIKALLCLLLVVSVHELGHAALAVFFSWRIKRIFLLPFGGTVEVEEHGNRPLKEEFAVILAGPLQHVWLQAAAWLFFMSGFASEQTFEMFTFYNLSILFINLLPIWPLDGGKFVFLYFSKQMAFQKAHLLSLQTSAVSALLLCCWIVLAVPLQVSAWVLFVFLAASLWDEYRKRHYIQLRFLLERYYGKNRDVAMLHPLTVAADAKVKHVMAEFKRGCKHPIIVEKAGEKLSQLDENEVLHAYFADKRTDSSMEDLLLPY	PGPT0024785_138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024785-spoIVFB-K06402	NA	NA
D1-12_01787	804	spoIVFA	COG0739	Stage IV sporulation protein FA	ATGAGTCACAGAGCTGATGAAATTAGAAAAAGACTGGCCAAAAGAAGAAAACAGCGGCCTGAATCAAAACGGACTTTCGTTCAAAACGCCCAAACGCAGAATTTTCCCGCGTGGCAGACGGTCAAGGAGCAGGAAAAGCACAAGCTTCTACCGGACTACGAATATCAAACGGAACACCCGCCCGAATTTAACGGACGGCATCCATTGATCAGCGCTCATTCTATTATTTTAAAATGCCTGCTGGCCGCCTGTCTCGTACTGATCTCCGCTATTGCCTATAAAACTGACAAACAGCCGTTGAGTCAGATCAAACCGGCGATCGCACAAACCTTTCAAAAGGAATTTCAGTTTGCTGCCGTAAGCAATTGGTTCGTATCTTCCTTCGGAAACCCGCTCGCTTTTCTTACGCCGGGAACGAAAAAGAAGGACGGTCAGGTGGCGGTCAGTCAGGATATGGCCGTTCCTGCCGCGGGGAAAATCCAGCAGGACTTTCAAAATAACGGAGAGGGCGTCGTCGTCGAAACCGCCAGCGAAGCCATTGACAGCGTAAAAGAAGGCTACATTATGGAAGTGAGCAAAGATAAAAAAACAGGGCTGACGGTGAAGGTGCAGCACGCCGACAATACAAGCAGCATTTACGGCCGGCTAAAAGATGTTAACGTTTCATTGTACGACTTTGTCGATAAAGGGAAAAAGATCGGTTCGATCAAGCTTAACGATAAAAGTAAAGGCCAGTACTATTTCGCGATCCAGGATGGCGATAAATTCATAGATCCGATCCAGGTGATCACTTTTGATGAATAA	MSHRADEIRKRLAKRRKQRPESKRTFVQNAQTQNFPAWQTVKEQEKHKLLPDYEYQTEHPPEFNGRHPLISAHSIILKCLLAACLVLISAIAYKTDKQPLSQIKPAIAQTFQKEFQFAAVSNWFVSSFGNPLAFLTPGTKKKDGQVAVSQDMAVPAAGKIQQDFQNNGEGVVVETASEAIDSVKEGYIMEVSKDKKTGLTVKVQHADNTSSIYGRLKDVNVSLYDFVDKGKKIGSIKLNDKSKGQYYFAIQDGDKFIDPIQVITFDE	PGPT0024780_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024780-spoIVFA-K06401	NA	NA
D1-12_01788	804	minD	COG2894	Septum site-determining protein MinD	TTGGGTGAGGCTATCGTAATAACTTCGGGAAAAGGCGGAGTAGGTAAAACAACAACATCTGCAAACCTCGGTACCGCCTTAGCCATTTTAGGGAAGCGCGTCTGTTTGGTAGACACAGATATCGGACTGCGCAACCTTGATGTCGTAATGGGTCTTGAAAACAGAATTATTTACGACTTAGTAGATGTAATTGAAGGCAGATGCAAGACGCATCAGGCGCTTGTCAAAGACAAACGTTTTGATGATCTGCTTCATTTAATGCCGGCTGCCCAGACAAGCGACAAGACGGCTGTTGTCCCTGAGCAGATCAAATCGCTTGTGCAGGAGCTTAAGCAGGAATTTGATTATGTCATTATTGATTGTCCGGCCGGAATTGAACAAGGCTATAAAAATGCCGTCTCCGGAGCTGATAAGGCGATTGTTGTGACGACGCCGGAAATATCAGCGGTGCGGGACGCTGACCGCATTATCGGACTTTTGGAGCAGGAAGATATTGAACCGCCGCGCCTTATCGTGAACCGCATCAGAAATCACCTGGTGAAAAACGGTGACACGATGGATGTGGATGAAGTTGTTCATCATCTGTCTATTGATCTCCTCGGAATCGTTGCTGACGATGATGAAGTGATCAGAGCTTCAAATATCGGCGAACCGATTGCCATGAATTCCAAAAACCGCGCCAGTATTGCGTACCGCAATATCGCCCGGCGCATTTTAGGAGAATCCGTTCCTTTGCAGGTGCTTGAAGAGCAGCAAAAAGGGATGATGGCGAAAATCAAGTCATTTTTCGGCGTGCGTTCATAA	MGEAIVITSGKGGVGKTTTSANLGTALAILGKRVCLVDTDIGLRNLDVVMGLENRIIYDLVDVIEGRCKTHQALVKDKRFDDLLHLMPAAQTSDKTAVVPEQIKSLVQELKQEFDYVIIDCPAGIEQGYKNAVSGADKAIVVTTPEISAVRDADRIIGLLEQEDIEPPRLIVNRIRNHLVKNGDTMDVDEVVHHLSIDLLGIVADDDEVIRASNIGEPIAMNSKNRASIAYRNIARRILGESVPLQVLEEQQKGMMAKIKSFFGVRS				NA	NA	NA	NA	NA
D1-12_01789	681	minC	COG0850	Septum site-determining protein MinC	ATGAAGACCAAAAAGCAGCAATATGTAACAATAAAAGGAACAAAAAACGGCTTAACATTGCATCTGGATGATGCATGTTCTTTTGATGAGCTTCTCGATGGTCTTCAAAACATGCTGTCGATTGAACAATATACTGATGGCAAAGGCCAAAAAATCAGTGTTCATATTAAACTCGGGCATCGGTATCTGTATCAGGAACAGGCAGAGCAGCTGACTGATCTGATCGCGTCAAAGAAAGATTTAGTCGTGCATTCAATTGACAGTGAAGTCATCGCCAAAGAAGAAGCGCAGCGGATGAAAGAGGAGCAGGAAATTGTTTCTGTTTCCAAAATCGTCCGTTCGGGCCAGGTGCTTCACGTGACGGGAGATTTGCTTTTAATCGGAGATGTGAATCCCGGCGGTACGATCAGAGCCGGAGGAAATATATTTGTTCTCGGTTCATTAAAAGGGATTGCCCACGCGGGTTATAACGGAAATAACCGGGCTGTGATCGCCGCATCCGAAATGATGCCGACACAATTGAGGATCAATCACGTGTTAAATCGCTCCCCAGACCACATTCAAAAAGGGAACGACATGGAATGTGCTTATTTAGATACTGACGGAAATATGGTCATTGAACGCCTTCAGCAATTGGCTCATTTAAGACCTGATCTAACAAGGCTTGAGGGAGGAATGTGA	MKTKKQQYVTIKGTKNGLTLHLDDACSFDELLDGLQNMLSIEQYTDGKGQKISVHIKLGHRYLYQEQAEQLTDLIASKKDLVVHSIDSEVIAKEEAQRMKEEQEIVSVSKIVRSGQVLHVTGDLLLIGDVNPGGTIRAGGNIFVLGSLKGIAHAGYNGNNRAVIAASEMMPTQLRINHVLNRSPDHIQKGNDMECAYLDTDGNMVIERLQQLAHLRPDLTRLEGGM				NA	NA	NA	NA	NA
D1-12_01790	519	mreD	COG2891	Rod shape-determining protein MreD	GTGAAACGTTTCCTTCTCCCTTTGATTATGATTTTGGTCTTTTGTGCGGAAAGCATCTATACCGATCTGGTGCGTTTTCCTTTCGTTTCCGTCGAGCAGCAGGTCGTTCCGCATTTTCTTTTGCTTGCGCTGATTTTTATGTCCGCTTATATCAACCAAAAGCATGCGGTGATCTACGGTTTCATTTTCGGATTTCTTTATGACATCAATTATACGGGTGTTTTAGGCGTTTATATGTTTGGTTTTGCCGGTTTATGCTATCTGGCGGCCAAAGCGTTTAAAGTGCTGCAGACAAACGCCCTGATGGTCATTCTGGTCGCGGTGCTGAGCGTATGTGTGCTTGAATTTTACGTCTACGGCATTCAGACGTTAATCCGCAGCGGCACAATGACGTTTAACGATTTTGTCATTCAGCGGTTCTTGCCGACCGCTTTGCTGAATATTGCGGGGGCCGTTATATTAGTCCTGCCCTTCAGGCTGTTTTATATAAGTCTGAAGAAAGAATTAAGAGATGAGTAA	MKRFLLPLIMILVFCAESIYTDLVRFPFVSVEQQVVPHFLLLALIFMSAYINQKHAVIYGFIFGFLYDINYTGVLGVYMFGFAGLCYLAAKAFKVLQTNALMVILVAVLSVCVLEFYVYGIQTLIRSGTMTFNDFVIQRFLPTALLNIAGAVILVLPFRLFYISLKKELRDE				NA	NA	NA	NA	NA
D1-12_01791	864	mreC	COG1792	Cell shape-determining protein MreC	ATGCCGAACAAACGGTTAATGCTATTACTTCTGTGTATTATCATATTGGTGGCTATGATTGGATTCTCGCTGAAGAACGGCCGTAATACCACCTGGCCTGAAAAGCTGATCGGTGATACGACGGGAGTATTTCAAAACATTTTTCACACGCCTGCCGAATATTTTGCAGGGTTCTTCGGGGACATAAAAGACCTGAAAAACACGTACAAGGAAAACGAACGCTTAAGACAAAAGCTGGACGGACAGACACAATATGAAGCGAAGCTCCAAGAACTCAAAGATGAAAACAAGAAGCTGCGTGATGAACTCGGGCATGTCAAATCAATTTCCGACTATGATCCGATTTTAGCGACCGTTATCGCCAGAAACCCTGATCAATGGTACAAGCAGATCATGATCAATAAGGGAACGAAGCAGAAAGTGGCCAAAGACATGGCTGTCACGAACGAAAAGGGTGCGCTGGTCGGGAAGATCAAAAGCAGCGGACTCAACAGTTTCACATCCGCCGTTCAGCTGCTGAGCGATGTTGACCGCAATAACAGAGTGGCCACCAAAATCTCCGGCAAAAAGGGAAGCAAAGGCTACGGTTTAATTGAAGGGTACGATAAAAAGAAACAGACCCTGAAAATGACTATCCTTGAGCCGGATGAAAAACGTGAAGTGAAAAAAGGCGACCTCGTGGAGACATCCGGAACGGGCGGCGTATTTCCTCAAGGGCTTACGGTCGGGGAAGTGACCGATGTAGAATCAGATGCTTACGGCCTGACGAAAATCGCTTACGTGAAACCGGCTGCCGACCTGTACGATCTTGACCATGTCATCGTCGTGAACCGAAGCGTAGCAACAGGGGAGGAAGGATCGTGA	MPNKRLMLLLLCIIILVAMIGFSLKNGRNTTWPEKLIGDTTGVFQNIFHTPAEYFAGFFGDIKDLKNTYKENERLRQKLDGQTQYEAKLQELKDENKKLRDELGHVKSISDYDPILATVIARNPDQWYKQIMINKGTKQKVAKDMAVTNEKGALVGKIKSSGLNSFTSAVQLLSDVDRNNRVATKISGKKGSKGYGLIEGYDKKKQTLKMTILEPDEKREVKKGDLVETSGTGGVFPQGLTVGEVTDVESDAYGLTKIAYVKPAADLYDLDHVIVVNRSVATGEEGS				NA	NA	NA	NA	NA
D1-12_01792	1014	mreB	COG1077	Cell shape-determining protein MreB	ATGTTCGGAATTGGTACAAGAGACCTTGGTATAGATTTGGGAACCGCGAATACGCTTGTGTTTGTTAAAGGTAAAGGAATCGTAGTGAGAGAGCCGTCTGTCGTTGCTCTGCAAACGGATACGAAGTCCATCGTTGCGGTCGGTAACGATGCGAAAAACATGATCGGAAGAACTCCGGGCAACGTGGTTGCGCTCCGTCCGATGAAAGACGGCGTTATCGCTGACTATGAAACAACTGCGACAATGATGAAATACTACATTAATCAGGCTGTGAAAAATAAAGGATTGTTTGCGAGAAAGCCTTACGTTATGGTGTGTGTGCCGTCAGGTATTACGGCCGTTGAAGAACGGGCGGTCATCGACGCGACAAGACAAGCGGGCGCACGTGACGCTTATCCGATTGAAGAACCGTTTGCGGCAGCAATCGGCGCGAATCTTCCGGTATGGGAGCCGACGGGCAGCATGGTCGTTGATATCGGCGGCGGAACAACTGAAGTGGCGATCATTTCTTTAGGCGGCATTGTTACGTCTCAGTCAATCCGCGTAGCCGGTGACGAAATGGACGACTCAATCATCAGCTATATCAGAAAAACATATAATCTGATGATCGGTGACCGTACGGCGGAAGCTATTAAAATGGAAATCGGTTCAGCAGAAACCGGTGAAGAAAATGCGTCAATGGAAATCCGCGGCCGCGATCTTCTGACAGGTCTGCCGAAAACGATCGAAATCACGGGAACGGAAATTGCAAATGCACTGCGTGATACAGTTCTCTCAATCGTTGACGCGGTGAAGAGCACGCTTGAAAAAACACCGCCTGAGCTGGCCGCTGACATTATGGACAGAGGTATTGTATTAACAGGGGGAGGCGCCCTGCTCCGCAATCTCGACAAAGTCATCAGCGACGAAACGAAAATGCCTGTTCTTATCGCTGAAGATCCGCTGGATTGTGTTGCGATCGGCACTGGAAAAGCACTGGAGCACATCCATCTTTTCAAAGGAAAAACAAGATAA	MFGIGTRDLGIDLGTANTLVFVKGKGIVVREPSVVALQTDTKSIVAVGNDAKNMIGRTPGNVVALRPMKDGVIADYETTATMMKYYINQAVKNKGLFARKPYVMVCVPSGITAVEERAVIDATRQAGARDAYPIEEPFAAAIGANLPVWEPTGSMVVDIGGGTTEVAIISLGGIVTSQSIRVAGDEMDDSIISYIRKTYNLMIGDRTAEAIKMEIGSAETGEENASMEIRGRDLLTGLPKTIEITGTEIANALRDTVLSIVDAVKSTLEKTPPELAADIMDRGIVLTGGGALLRNLDKVISDETKMPVLIAEDPLDCVAIGTGKALEHIHLFKGKTR	PGPT0027700_3291	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
D1-12_01793	696			hypothetical protein	TTGATCATCCGTGATCTGCCGTTAAAATTAAGAGATTTCCCCGAAAAAGAAAAACCGAGAGAGCGGCTTCTGCACTTCGGAGCCGAACATCTCTCTAACAATGAATTGCTCGCCATCCTGCTGCGGACGGGAACGAAACATGAGTCCGTCATGAACCTCGCTCACCGGCTGTTGCGGACGTTTGACGGGCTGCGACTGTTAAAAGGCGCCTCTGCCCAGGAGCTTTCCAGCATTCCGGGAATCGGCACGGTGAAAGCCGTTCAGATTCTTGCCGCAATTGAGCTGGGGAGCCGCATTCATAAGACATCCGCCGGGGAGCATTGCGTCATCCGCTCTCCGGAAGACGGGGCGAAGTATGTGATGGAGGATATGCGCTTTTTATCCCAGGAGCATTTTGTCTGTTTATATTTAAATACCAAAAATCAAGTCATTCATAAACGCACCGTTTTTATCGGAAGTCTGAATTCATCTATTGTCCACCCGCGGGAGGTGTTTAAAGAAGCTTTCAAACGATCCGCCGCGTCCTTCATTTGCGTTCACAATCATCCTTCAGGAGATCCTACACCGAGCAGGGAAGATATAGAGGTAACCAGGCGGCTTTTTGAGTGCGGAAATTTAATCGGCATCGAGCTGCTGGATCATTTGGTCATTGGTGACAAAAAATTTGTGAGTTTAAAGGAAAAAGGATATTTGTAA	MIIRDLPLKLRDFPEKEKPRERLLHFGAEHLSNNELLAILLRTGTKHESVMNLAHRLLRTFDGLRLLKGASAQELSSIPGIGTVKAVQILAAIELGSRIHKTSAGEHCVIRSPEDGAKYVMEDMRFLSQEHFVCLYLNTKNQVIHKRTVFIGSLNSSIVHPREVFKEAFKRSAASFICVHNHPSGDPTPSREDIEVTRRLFECGNLIGIELLDHLVIGDKKFVSLKEKGYL				NA	NA	NA	NA	NA
D1-12_01794	570	maf	COG0424	dTTP/UTP pyrophosphatase	ATGACAAAACGCTTAATACTCGCATCACAATCTCCGCGAAGAAAAGAACTCCTTAATCTTCTTCAGATTCCTTACAGCATTATTGCAAGCCGCACAGAAGAAAAATTAAATCGAAACCTTTCGCCGGAAGAAAACGTCCAATGTTTGGCCGAGCAAAAAGCCGGTGCTGTATTGGCCGAAAATCCCGATGCAGTCGTTATCGGGGCTGACACGATGGTGTGCATAGACGGCGAATGCCTCGGCAAACCGCATGACAGAGAAGAAGCGGCACACATGCTGCGGAGGCTTTCCGGCCGAAGCCATCAAGTCATTACGGCGGTCAGCATTCAGACGCATGACCGGAAAGAAACGTTCTGTGACACGACGGAAGTGACGTTTTGGCCGCTCAGTGAAGACGACATACAGCTCTACATTGAAACAAAAGAACCGATGGATAAAGCAGGTGCATACGGCATCCAAGGAAAAGGCGCGCTTTTAGTGAAAAAAATAGACGGTGATTTTTATTCTGTCGTCGGGCTTCCTGTCGCTAAAACAATGAGAGCCTTGAAAGAATTTAATATAAAAGCTTGA	MTKRLILASQSPRRKELLNLLQIPYSIIASRTEEKLNRNLSPEENVQCLAEQKAGAVLAENPDAVVIGADTMVCIDGECLGKPHDREEAAHMLRRLSGRSHQVITAVSIQTHDRKETFCDTTEVTFWPLSEDDIQLYIETKEPMDKAGAYGIQGKGALLVKKIDGDFYSVVGLPVAKTMRALKEFNIKA				NA	NA	NA	NA	NA
D1-12_01795	1002	spoIIB		Stage II sporulation protein B	TTGAAAAAAAGGAAGAGCAAAAAGCACAGCAAAGCAAAAAACAATGCCCTTAAAGTAACCATTAACGGACAAGAAGAAACGATGTATGGACAAGAAGATGTGAAAGAAGGCGGGGAGAAAACCGTCACATTTTCAAATTGGGAGGAAACAAAAAAGGCGGAGCAGGAGACCGCCGCATCCCATGAAGATCCGAAAGAAGAAGATTTCAATTGGGATCATGAGAAGAATTCTGAGGTATTTGAAGATGACCCGAAAGTCGTTCCGCCATACCAGAAGAAAAAAACAGGCCCTCATTTTCCGAAAAAAAAGCAGCCGTCTTCTCCAGTTAAAAAAGCGGTCACGACAATTGCCGTTGCGGCTGTTTTAGGCACCGGGCTCGGCCTTGTCGCCTTAAATATGTCGGGAAGTAAAGAAGCCTCCGCTCCGGCATCAGCTGACAAAGGTTCACAAGGGCAGACGGCGAAAGCGGGAGATGTTTCTAAAGACAAATCTGAAACAGCCGGCACAGGAGATGCGGAATCTTCAGAGGGAAACTATAAAACATATGCGGTGCAGGCCGGAAAATTTTCATCAGAAAAAGGAGCGCAAACGCTTGTTGACCAGCTGACTGAAAAAGGATACTCGGCCGTCTCACTGGCAAAAGAAGACGGATACACATACGTGATCGCCGGGCTTGCAGCGGAAAAAAGCTTATCACAGCAATTGGGTCAGACACTGATAGACCATGATTTTGAGGCTTGGGGCGGAAAAGAGCTCAGCTTCGCTGTCGATTCAGGACTGGAAAACTCTTTTAAACAAGCATCTGAGCTCTCCGCCAAAGCGATTACCGGCAAAGATCTTTCAAAAACGGAAGTGGCTGAAGCGGCAAAAGCGGCATCCAGCGCAGACGCTGCTGACAAAAAGCAGAAAGAGGCCGTGCTTCAAGCGCTGAAAGAACTGGAAACGTCGGGTTCGGAATCCGGCTGGAAAGCCCAAAAAGAGCTTTTAAGTGTTGTAAAATAG	MKKRKSKKHSKAKNNALKVTINGQEETMYGQEDVKEGGEKTVTFSNWEETKKAEQETAASHEDPKEEDFNWDHEKNSEVFEDDPKVVPPYQKKKTGPHFPKKKQPSSPVKKAVTTIAVAAVLGTGLGLVALNMSGSKEASAPASADKGSQGQTAKAGDVSKDKSETAGTGDAESSEGNYKTYAVQAGKFSSEKGAQTLVDQLTEKGYSAVSLAKEDGYTYVIAGLAAEKSLSQQLGQTLIDHDFEAWGGKELSFAVDSGLENSFKQASELSAKAITGKDLSKTEVAEAAKAASSADAADKKQKEAVLQALKELETSGSESGWKAQKELLSVVK	PGPT0024665_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024665-spoIIB-K06380	NA	NA
D1-12_01796	753	comC		Type 4 prepilin-like proteins leader peptide-processing enzyme	GTGCTTTTGTTTCTGTTTTTTCTCGGCTTGATTTTCGGTTCTTTTTTTTATACAGCAGCGTGTCGTATCCCGCTTCGAATCTCGGTTATTTCGCCGCGTTCAGCCTGTTCGTTTTGCCGCTTGCCGCTCTCCTGGGGGGAGCTTGTGCCCGTCGTTTCCTATATTCTGCAAAGAGGCAGATGCAGAAACTGCCGTGCGAAGCTGTCGGTTATGTATCCGGCGGCGGAATGCTGGACGGCGTGTTTATTCACGGCTGCAGGCATTCATTTCGGTTTCTCAAAAGAACTGTTAGTCGCGCTGTTATTTCTGTCTCTGCTCATGATTGTTACTATGACGGATCTGCAATATATGCTGATTCCTGACAAGGTTCTGCTGTTTTTTCTTCCGCTTTTCATCGCCGGCCGTATGTTTTCTCCGCTGGATACATGGTATGCAGGGTTTGCCGGAGCCGTTTGCGGATTTTTTCTGCTTGTTTTTATCATGTTTGTCAGTAAAGGAGGCATCGGCGCAGGTGATGTGAAACTGTTTGGGGTGATCGGCCTGCCGCTCGGCGTGAAGCTCGTGCTCATTGCATTCTTTCTTTCCGTTATGATCGGAACCGTATACGGTATGTGCGCCGCAGCCCGGGGCAGGCTTGGTAAAAAGCAGCCATTTCCGTTTGCGCCGGCCATCTCAGCCGGGAGCGCTTTGAGTTATTTATACGGAGAAGAGCTGTTTTCGTTTTACATCAAGCTCGCTTCAGGCGGAGCTTAA	MLLFLFFLGLIFGSFFYTAACRIPLRISVISPRSACSFCRLPLSWGELVPVVSYILQRGRCRNCRAKLSVMYPAAECWTACLFTAAGIHFGFSKELLVALLFLSLLMIVTMTDLQYMLIPDKVLLFFLPLFIAGRMFSPLDTWYAGFAGAVCGFFLLVFIMFVSKGGIGAGDVKLFGVIGLPLGVKLVLIAFFLSVMIGTVYGMCAAARGRLGKKQPFPFAPAISAGSALSYLYGEELFSFYIKLASGGA	PGPT0029470_103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029470-comC-K02236	NA	NA
D1-12_01797	1293	fpgS		Folylpolyglutamate synthase	TTGTTTAATACGTACAAAGAAGCGATCAGCTGGATTCACGGCAGACTCAAGTTCGGCGTTAAGCCGGGCCTGCTCCGTATGGAAAAGCTGATGGAAAAACTGGAACACCCGGAAAAGAACATTCGCGCCATTCATGTGGCGGGCACAAACGGCAAAGGATCGACCGTCGCTTTTATCCGTTCCGTGCTTCAAGAAGCCGGTTATACGGTCGGCACGTTCACATCGCCTTACATTATTACGTTTAATGAGCGTATCAGCGTCAACGGCACGCCGATTTCTGATGAGGAATGGAGAACGCTCGTTAATGACATAAAACCGATAGTCGATGAGCTTGATAAGACCGATGCCGGAACGGTGACAGAATTTGAAATCATTACAGCGTGTGCATTTTTATATTTTGCGAAGCGGGCTGATATCGATTTTGTCATTTTTGAAGCGGGGCTCGGCGGCACATTTGATTCAACCAATATTGTGAAACCGCTCCTGTCGGTCATTACAAGTATCGGACATGACCATATGGCCATTTTAGGCAATACCATCGAGGAGATCGCCGGGCAGAAAGCCGGTATCATTAAAAATTCCATTCCGGTCATTACGGGCGTCAATCAGCCGGAAGCACTCGGCGTTATTGAAGCGGAAGCCGAAAAAAAGCAGGCTCCGTATCAGTCACTATATAAAACGTGCAGACTGTTTAATGAAGCGGCGCTTCCGTCCGGTGAAAGCTTTTCGCTGGAAACGGAAACGAAATGCTATGAAAACATTCAAACGTCGCTGATCGGCATTCACCAAAGGCAGAATGCGGCATTGGCGATATTGGCCGCTGAATGGATGAATCGTCTGGGAGCCGCAGTCATTTCTGAAGAAACAATGCGAAACGGCCTGAAAAAAGCTTCCTGGCCGGGCCGGTTTGAACGTCTTCAAAGCCGCCCTTTAGTGTTTGCGGACGGCGCGCATAACGAAGAGGGCGTTGAAACGCTGACAGAAACGATCAGGCAGCGCTTTTCCGATAAAAACGTTCATGTCGTATTCAGCGCATTAAAAGACAAACCGTATCAGGAAATGATTAAAAAGCTTGAAACCGAAGCGGACTCTATTCACTTTGTATCATTTGACTTTCCGCGTGCTTCAAGCGCCGAAGCCCTTTACAATGCAAGCAGTCTTGCGGCTAAGAGCTTCGATGAGAACCCGGACAGTGTGAAAGAATGGATAGAACAAAAAGACGGGGCGGATGATGTCATCATCATTACCGGCTCCTTATATTTTATTTCAGAAATGAGAAAGCGGCTTATCTGA	MFNTYKEAISWIHGRLKFGVKPGLLRMEKLMEKLEHPEKNIRAIHVAGTNGKGSTVAFIRSVLQEAGYTVGTFTSPYIITFNERISVNGTPISDEEWRTLVNDIKPIVDELDKTDAGTVTEFEIITACAFLYFAKRADIDFVIFEAGLGGTFDSTNIVKPLLSVITSIGHDHMAILGNTIEEIAGQKAGIIKNSIPVITGVNQPEALGVIEAEAEKKQAPYQSLYKTCRLFNEAALPSGESFSLETETKCYENIQTSLIGIHQRQNAALAILAAEWMNRLGAAVISEETMRNGLKKASWPGRFERLQSRPLVFADGAHNEEGVETLTETIRQRFSDKNVHVVFSALKDKPYQEMIKKLETEADSIHFVSFDFPRASSAEALYNASSLAAKSFDENPDSVKEWIEQKDGADDVIIITGSLYFISEMRKRLI	PGPT0007975_2795	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
D1-12_01798	2643	valS	COG0525	Valine--tRNA ligase	ATGGATACAAACGAACAAACAATGCCGACAAAATATGATCCGTCTGCGATTGAAAAAGGCCGCTATGATTTTTGGCTGAAAGGAAAATATTTTGAAGCGGGCAGCGATCAAACGAAACAGCCGTATTCTGTCGTCATTCCGCCGCCGAACGTGACGGGCAGGCTGCACCTCGGACATGCGTGGGATACGACGCTGCAAGATATCGTTACGCGTATGAAACGCATGCAGGGCTATGACGTGCTCTGGCTTCCGGGCATGGATCACGCCGGCATCGCCACTCAGGCAAAAGTCGAAGCGAAACTCCGCGAACAGGGCACAAGCCGTTATGACCTCGGCCGTGAAAAGTTTTTAGAAGAAACGTGGAAGTGGAAAGAAGAGTATGCTGATTTCATCCGCAGCCAATGGGCCAAGATGGGACTCGGACTCGATTATTCACGCGAACGTTTTACTCTTGATGAAGGGCTGAACAAAGCCGTGCGTGAAGTATTCGTCAAGCTGTACGAGAAAGGCTTGATTTACAGAGGCGAATATATCATCAACTGGGACCCTGCCACAAAAACGGCTTTATCCGATATTGAAGTGATTTACAAAGACGTACAGGGCGCGTTTTATCATTTGCGCTACCCGTTAGCAGACGGTTCAGGCTCAATTGAAATCGCGACCACCCGTCCGGAAACGATGCTTGGCGACACGGCTGTCGCGGTTCATCCTGAAGATGAGCGCTACAAGCACTTAATCGGCAAAACGGTGATTCTGCCGATTACAAACCGCGAAATTCCGATCGTCGGCGATGATTATGTTGATATGGAATTCGGATCAGGCGCTGTTAAAATCACGCCTGCCCATGACCCGAATGACTTTGAACTCGGAAACCGCCACAATTTAGAGCGGATTCTCGTCATGAATGAAGACGGAACAATGAATGAAAAAGCGCTGCAATATAACGGCATGGACCGGTTTGAATGCCGCAAAAAACTCGTCAAAGATCTTCAGGAATCCGGCGTTCTCTTTAAAATCGAAGACCATATGCATTCTGTCGGCCACAGTGAGAGAAGCGGCGCCGTTGTTGAGCCGTACCTGTCCACACAATGGTTTGTCAAAATGCAGCCGCTGGCCGATGCTGCGGTTGACCTTCAGTCAAAAGAAGAGAAAGTTCACTTCGTTCCTGACCGGTTCGAGAAAACGTACCTGCACTGGATGGAAAATATCCGTGATTGGTGTATTTCCCGTCAGCTGTGGTGGGGCCACCGCATCCCGGCTTGGTATCATAAAGAAACAAAAGAAGTGTACGTCGGCCTTGAGGCGCCTGAGGACAGTGAAAATTGGGAACAGGATTCAGATGTGCTTGATACATGGTTCAGCTCCGCGCTTTGGCCGTTTTCTACAATGGGCTGGCCTGATGAAAACGCTGAAGACTTTAAGCGGTATTACTCAACCGATGTTCTTGTAACGGGATATGACATCATTTTCTTCTGGGTATCCCGGATGATTTTCCAAGGTCTTGAGTTTACCGGCGAGCGTCCGTTCAAAGACGTGCTGATTCACGGCTTAATCCGTGACGAGCAGGGCAGAAAAATGAGTAAATCCCTTGGGAACGGCGTGGACCCGATGGATGTCATCGACAAGTACGGAGCGGATTCCCTGCGCTATTTCCTGGCAACCGGAAGTTCACCGGGACAGGATCTCCGTTTCAGCTATGAAAAAGTGGAATCCACATGGAATTTCGCAAATAAAATTTGGAACGCCTCCCGTTTTGCATTAATGAACATGGACGGCATGACGTATGACGAGCTTGATCTGTCCGGTGAAAAATCAGTTGCTGATAAGTGGATCCTCACAAGACTGAATGAAACGATAGAAGACGTAACACAGCTTGCGGATCGTTATGAATTCGGTGAAGTCGGACGCCACCTGTACAACTTTATCTGGGACGATGTGTGCGACTGGTATATCGAAATGGCGAAGCTTCCGCTGTACGGGGAAGATGAAGCGGCGAAGAAAACAACCCGTTCTGTTCTGGCATACGTGCTTGACCAGACGATGCGTCTTCTTCACCCGTTTATGCCATTCTTAACGGAGGAAATCTGGCAGCACCTTCCTCATGAAGGCGAGTCAATCACGATCAGCTCTTGGCCGGTTCCGGTGCCCGAACATACGGATAAAGAGGCAGCGGCGGATATGAAACTGCTCGTCGAATTAATCCGTTCTGTCCGCAATATCCGGAGCGAAGTCAACACGCCGATGAGCAAGCAGGTTGAGCTTTACATTAAAACATCTACGGAAGACATTGCCGGCCGCCTTGAGAAGAACCGTTCTTACGTTGAACGCTTTACGAATCCGAGCACGCTGAAAATCGGGACGGATATCACTGCGGCAGACAAAGCGATGACAGCGGTCGTCACCGGAGCGGAAGTCATTCTGCCGCTTGAAGGGCTGATTAACATTGATGAGGAGATCGCCCGTCTGCAAAAAGAATTCGACAAGCTGACAAAAGAAGTCGAACGCGTTCAGAAAAAACTCGGCAACGAAGGATTCATTAAAAAAGCTCCTGAACATGTCATTGAAGAAGAACGCGGAAAAGAGAAAGACTACACGGCAAAACGCGAAGCTGTCCGGCAGCGGATTGCAGAGCTGAAAGGCTGA	MDTNEQTMPTKYDPSAIEKGRYDFWLKGKYFEAGSDQTKQPYSVVIPPPNVTGRLHLGHAWDTTLQDIVTRMKRMQGYDVLWLPGMDHAGIATQAKVEAKLREQGTSRYDLGREKFLEETWKWKEEYADFIRSQWAKMGLGLDYSRERFTLDEGLNKAVREVFVKLYEKGLIYRGEYIINWDPATKTALSDIEVIYKDVQGAFYHLRYPLADGSGSIEIATTRPETMLGDTAVAVHPEDERYKHLIGKTVILPITNREIPIVGDDYVDMEFGSGAVKITPAHDPNDFELGNRHNLERILVMNEDGTMNEKALQYNGMDRFECRKKLVKDLQESGVLFKIEDHMHSVGHSERSGAVVEPYLSTQWFVKMQPLADAAVDLQSKEEKVHFVPDRFEKTYLHWMENIRDWCISRQLWWGHRIPAWYHKETKEVYVGLEAPEDSENWEQDSDVLDTWFSSALWPFSTMGWPDENAEDFKRYYSTDVLVTGYDIIFFWVSRMIFQGLEFTGERPFKDVLIHGLIRDEQGRKMSKSLGNGVDPMDVIDKYGADSLRYFLATGSSPGQDLRFSYEKVESTWNFANKIWNASRFALMNMDGMTYDELDLSGEKSVADKWILTRLNETIEDVTQLADRYEFGEVGRHLYNFIWDDVCDWYIEMAKLPLYGEDEAAKKTTRSVLAYVLDQTMRLLHPFMPFLTEEIWQHLPHEGESITISSWPVPVPEHTDKEAAADMKLLVELIRSVRNIRSEVNTPMSKQVELYIKTSTEDIAGRLEKNRSYVERFTNPSTLKIGTDITAADKAMTAVVTGAEVILPLEGLINIDEEIARLQKEFDKLTKEVERVQKKLGNEGFIKKAPEHVIEEERGKEKDYTAKREAVRQRIAELKG				NA	NA	NA	NA	NA
D1-12_01800	192			hypothetical protein	GTGAGAAAAAAATTCAATTCTTATTCGCTCCCCCAGTGGGCCAGACAGGTCCGCCTTGTATCCGTGCAAGTCATTATCCCGATTACGATCTTTCAGGGGATCAGGACGATTTTCTTCCCGACGACTTTTGATGTCCTGCTGCTTGCCATCCTGCTGTTTTTAGCGTGCGCCCTGCATTTGGAATGGATATAA	MRKKFNSYSLPQWARQVRLVSVQVIIPITIFQGIRTIFFPTTFDVLLLAILLFLACALHLEWI				NA	NA	NA	NA	NA
D1-12_01801	1035			hypothetical protein	GTGGTGAATGGAATGGAAGCAGTCCAATCAGTGCTTCAGGAATACGGGCTGGCGGCAGAGTATATTGAGCCTGTCAGCCCGCATGTTTGGAAGGTCTACTCAAACTACGGCATTTTTGCTTTGAAACAGCTCAAGCCGGCCCGCAGCAGTGAATTTACGGATCTTATGATTGAGATTGAGGAGAAAGGCTACCGTTCGTTTGTGCCGATCTGCCGCACGTATGCCGGCGATTTTTTTGCGGGAAGACAGACGGAGAATTCTTATTATTTAATGCCTTGGCTTCAGTACGATCAGGAAGAAGAACGGGATCAAAAACATGTTTACCTTTTTAAAGAGGTCGCGAAGCTCCACTCCGCGACTGTGCGGGACATCCAAATCCGGACTGAAGATATCAGCGGCTTTTATGAAGTAACGAAAAGAGATTGGGAAAATGATAAGCTTGTCTATGAACAATTCGCCGACCGGGCGGAAAAAGAGTGGTACCTTTCACCTTTTGAACTGCAGGCTGTTACGTATCTTACAGAAACGGTTTCCGCCGTCAATTTTGCTCTGGAACGTCTGGAAGAATGGTTTGACGCGGCAAAGGATCATGACAAGACGAGAGCGGTGATCAACCACGGCAGCTTATCGAGCCGCCACTTTCTGTATAATGATGCGGGATCGGGCTTTTTCACGAATTTCGAGAAAGCTGCGCTGGGCCCTCCGCAAAACGACCTGCTCGGCTTTTACTCCAGAATGTTCAGAAGCTATCCGAAAGCATGCCCGGAGTGTCTGGACTGGTTTTATACGTATCACAAATCATTCCCGCTCCGTGAAGCGGAAATCAGCCTGTTTCTCAGCTATATGGCTTATCCGTCCGCCATGTACAAAGTGCTGAAACGGTATCAGACCGGCCAAAGGGGCTCTGAAAAAGAAGAGTGCACGCAATTATTAAGAGCGTTTTGGCAGATGAAAAATGTTGAGCCTTTTCTCATGAAGGTTCATCAGATTGAGCGGGAGAAAAAAATAAAAGCGGAAAACGAGTCCTCTTCATAA	MVNGMEAVQSVLQEYGLAAEYIEPVSPHVWKVYSNYGIFALKQLKPARSSEFTDLMIEIEEKGYRSFVPICRTYAGDFFAGRQTENSYYLMPWLQYDQEEERDQKHVYLFKEVAKLHSATVRDIQIRTEDISGFYEVTKRDWENDKLVYEQFADRAEKEWYLSPFELQAVTYLTETVSAVNFALERLEEWFDAAKDHDKTRAVINHGSLSSRHFLYNDAGSGFFTNFEKAALGPPQNDLLGFYSRMFRSYPKACPECLDWFYTYHKSFPLREAEISLFLSYMAYPSAMYKVLKRYQTGQRGSEKEECTQLLRAFWQMKNVEPFLMKVHQIEREKKIKAENESSS	PGPT0025260_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025260-ysxE-NA	NA	NA
D1-12_01802	1842			hypothetical protein	TTGCCGCATAATCACCGATTGCAATTTTCTGTTGAAGAATCAATCTGTTTCCAAAAAGGACAGGAAGTTTCTGAATTACTTTCGATTTCATTAGACCCTGACATCAGGGTGCAGGAAGTAAATGATTATGTCTCAATTAAAGGATCATTAGAACTTACTGGCGAGTACAACATAGATCACAGCAGTCATTTTGAAGAGCTTGATAGGGAGCTGAGGCATGTAGAGGAAGTGAGGGCGAGGGAGGATGGCACGGCCGAGCTCATTCATTGTTTCCCGGTGGACATCACGATTCCGAAAAATAAAGTGAGCCACCTCAATGATGTTTTCGTATTTATCGATGCCTTTGATTATCAGCTGACGGATTCAAGGATCTTAACCATTCAAGCTGATTTGGCAATTGAAGGGCTGCTTGAGGAATCCGAGCCAAAAGAGCCGGAGATCCCTTTGTACGTGGCGCCTGAATTTGCCAGAGAAGAAATGATCAATCTTGCCGGACATTATTCTGAGGACGAAAACGAACCAGAATTAATGATACGCCATGAGCCTGAAATACCTTTGACTGTATCAGAAGAAGCAGCACAAGAAACCGAGAAGAACGAGGAAGAAACTCCGCCTTTACTCAGGCAGGAGGAAGAAGAGCCGGAGACTGCCCCGATTTTGAGGGAACGGGAAGAAGAAGAGCAGGAAGCAGCCCCGATTTTGAGGGAGCAAGAAGAAGAAGAGCCGGAGACTGCCCCGATTCTGAGGGAGCGGGAAGAAGAAGAGGAAGCAGCTGCCCCGATTCTGAGGGAGCGGGAAGATGAGGAAGAAGCAGCCCCGATTCTGAGGGAACGGGAAGAAGAAGCGCAGGAAGCTGCCCCGATTCTGAGGGAGCGGGAAGAAGAAGAGCCGGAGACTGCCCCGATTCTGAGGGAGCGGGAAGAAGAAGAGCATGAGACTGCCCCGATTCTGAGGGAGCGGGAAGAAGAAGAGCCGGAGACTGCCCCGATTCTGAGGGGGCAGGAAGAGGTGCCGAAACCTGTTTCCTTTACTGAGCCTCCTCCTCCCGTTTCCTTTCAACATGAAGAAGAGCCGGAAGAAGCTGAGGAGCCTGCAATCATGTCAGCCGTGAGGAATGAACCCGTATTTGAGGATGATTCAGCAGAAGCGCAGGAAGAGCCAAAAGATGATATCGAACCGGTTTTCCCTGCTTTCACTCTGACTCCGCATGCAGAAAAACCAAAAATTGCGGAACAGCCCTTCCTTCAAAAAGAAGAGCAGCCAGAGGCCGAGCCGCTTCTCCGTCAGAGCGATCATAAGGCGGCAGAAGACGAAGATGAGCCTGCGGTTTTTCAAGAAGAGCAGGCGCCCGTTTATCGTGAGTTCGTTCCGGAACGGCAGGAAGAGGAGTTTTACAGCGCTCCTAAGCTGCTTGAAGAAGAGGCTCATGATGAAGAAGGGTTTGAAATTGAGGTAAGGAAGATGGCGCCGCCGGAGGAGGAAACCGGGAAGCCTCTCGATTTGTCTTTTCAGTTTTCCAAACTGCCGCCGGAGGAGCCGGCGCAAGCTGAACAGCCTGAGCCGCTTAAGCCTGAAAGAAAGAATGAAGAAGCGGCACCGGGAACCGAGCAGAAGGAAAATGACAACTCTCATTACTTGACAAAATTATTTACAAGGGAAGAAGAAAAGTTTTCAAGAATGAAAATTTGTATCGTACAGCAGCAAGATACAATCGACCGGGTGTGTGAACGATATGACATTACATCCCAGCAGCTCATCCGAACGAATGCTTTATCGTTTGATGACGAGCTTGAGGAAGGTCAGCTTCTGTATATACCTGAATATAATAACAGCCATGTGTAA	MPHNHRLQFSVEESICFQKGQEVSELLSISLDPDIRVQEVNDYVSIKGSLELTGEYNIDHSSHFEELDRELRHVEEVRAREDGTAELIHCFPVDITIPKNKVSHLNDVFVFIDAFDYQLTDSRILTIQADLAIEGLLEESEPKEPEIPLYVAPEFAREEMINLAGHYSEDENEPELMIRHEPEIPLTVSEEAAQETEKNEEETPPLLRQEEEEPETAPILREREEEEQEAAPILREQEEEEPETAPILREREEEEEAAAPILREREDEEEAAPILREREEEAQEAAPILREREEEEPETAPILREREEEEHETAPILREREEEEPETAPILRGQEEVPKPVSFTEPPPPVSFQHEEEPEEAEEPAIMSAVRNEPVFEDDSAEAQEEPKDDIEPVFPAFTLTPHAEKPKIAEQPFLQKEEQPEAEPLLRQSDHKAAEDEDEPAVFQEEQAPVYREFVPERQEEEFYSAPKLLEEEAHDEEGFEIEVRKMAPPEEETGKPLDLSFQFSKLPPEEPAQAEQPEPLKPERKNEEAAPGTEQKENDNSHYLTKLFTREEEKFSRMKICIVQQQDTIDRVCERYDITSQQLIRTNALSFDDELEEGQLLYIPEYNNSHV	PGPT0024855_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_VI_SPORULATION,PGPT0024855-spoVID-K06417	NA	NA
D1-12_01803	1290	hemL	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAGAAGCTATGAAAAATCAAAAGCCGCTTTTAAAGAAGCGCAGAAACTGATGCCGGGCGGAGTGAACAGCCCGGTGCGCGCGTTTAAATCAGTTGATATGGACCCGATCTTTATGCAGCGCGGAAAAGGATCGAAAATTTTTGATATTGACGGCAATGAATATATCGACTACGTCCTGAGCTGGGGGCCGCTCATTTTGGGCCACACAAATGACCGGGTCGTTGAAAGCCTGAAAAAAGTAGCCGAGAACGGGACAAGTTTCGGGGCATCTACTGAGGTGGAAAACGAACTGGCCAAATTGGTCATTGACCGTGTGCCGTCTGTTGAAATCGTGCGGATGGTCAGCTCCGGCACAGAGGCGACAATGAGCGCCCTGCGTCTGGCAAGAGGATATACCGGCCGCAACAAAATTTTGAAATTCGAAGGCTGTTACCACGGCCATGGCGATTCGCTGCTGATCAAAGCGGGATCCGGAGTGGCGACACTCGGCCTTCCGGACAGCCCGGGCGTGCCGGAAGGAATAGCAATGAATACGATTACCGTTCCATACAACGACTTGGAAAGCGTTGCACTCGCATTCCGGGAGTACGGTGAAGATATTGCCGGGGTCATTGTTGAACCGGTAGCAGGCAATATGGGCGTTGTTCCGCCGCAGGAAGGCTTTTTACAAGGACTTCGCGACATGACGGAACAGTATGGCGCGCTGCTCATTTTTGACGAGGTCATGACCGGTTTTCGCGTGGATTATAACTGTGCGCAAGGGTATTTCGGCGTGACGCCTGACTTAACGTGTCTCGGCAAAGTCATCGGCGGCGGTCTTCCTGTCGGTGCGTATGGCGGAAAAGCTGACATTATGGAACGAATCGCGCCGAGCGGTCCGATCTACCAGGCGGGAACATTGTCAGGAAATCCGCTTGCCATGACAGCGGGACTTGAGACGCTACAGCAGCTCACACCTGAATCTTACCAAGAATTTGTGAAAAAAGGCGATATGCTTGAAGAAGGCATTTCAAAAGCAGCTGCAGCACATGGCATTCCGCACACGTTTAACCGGGCGGGTTCCATGATCGGCTTCTTTTTCACAAATGAGCCTGTCATTAACTATGAAGCAGCCAAATCTTCTGATTTAAAGCTGTTCGCCAAATATTATAAAGGGATGGCCGACGCAGGCGTATTTCTGCCGCCGTCTCAATTTGAAGGATTGTTTCTCTCCACTGCGCATACAATGGAGGATATTGAAAAAACCATTCAAGCCGCTGAGAAAGTGTTCCAGGCGATCAGCCGCTGA	MRSYEKSKAAFKEAQKLMPGGVNSPVRAFKSVDMDPIFMQRGKGSKIFDIDGNEYIDYVLSWGPLILGHTNDRVVESLKKVAENGTSFGASTEVENELAKLVIDRVPSVEIVRMVSSGTEATMSALRLARGYTGRNKILKFEGCYHGHGDSLLIKAGSGVATLGLPDSPGVPEGIAMNTITVPYNDLESVALAFREYGEDIAGVIVEPVAGNMGVVPPQEGFLQGLRDMTEQYGALLIFDEVMTGFRVDYNCAQGYFGVTPDLTCLGKVIGGGLPVGAYGGKADIMERIAPSGPIYQAGTLSGNPLAMTAGLETLQQLTPESYQEFVKKGDMLEEGISKAAAAHGIPHTFNRAGSMIGFFFTNEPVINYEAAKSSDLKLFAKYYKGMADAGVFLPPSQFEGLFLSTAHTMEDIEKTIQAAEKVFQAISR	PGPT0003680_3568	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
D1-12_01804	975	hemB		Delta-aminolevulinic acid dehydratase	ATGAATCAAACATTTAACAGACACCGCCGTTTGCGCGCGAACGCTGAGATGAGAGATTTAGTAAAAGAAACACGTCTTCACCCTTCAGATTTTATTTACCCGTTATTTGTCGTTGAAGGACTTGAAGGAAAAAAAGAAGTTCCTTCCATGCCGGGGGTTTATCATGTATCACTCGATTTGTTAAAGGATGAAATGGCTGAGCTGATATCGCTCGGCATTAAGTCGGTCATCGTTTTCGGCGTGCCGGAAGAAAAAGACGCCTGCGGAACCCAGGCTTTTCACGATCACGGCATTGTGCAGAAAGGGATTGCTGAAATTAAAAAGCATTATCCTGAAATGATCGTAATCGCTGATACGTGTCTCTGTGAATACACGGATCACGGCCATTGCGGCGTCGTGAAAGACGGAGAAATCTTAAATGACGAGTCGCTTGAGCTGCTGGCGCAGACAGCCGTCAGCCAGGCCAAAGCAGGCGCTGACATCATCGCTCCTTCAAATATGATGGACGGTTTTGTCACAGTGATCAGAGAAGCGCTCGACAAAGAAGGATTCACGAATATTCCGATCATGTCTTATGCCGTGAAATATTCAAGTGAATTTTACGGTCCGTTCCGCGACGCGGCTGACAGCACGCCGCAGTTCGGAGACCGAAAAACATATCAGATGGATCCGGCCAACCGCTTGGAAGCGCTCCGTGAGGCTGAATCAGACGCGGCAGAAGGCGCTGACTTTTTAATCGTCAAACCGTCTATGTCATACTTAGATATTATGCGTGATGTGAAAAACCGCCATCACCTGCCGCTGGTCGCATATAATGTGAGCGGGGAGTATTCCATGGTGAAAGCGGCAGCCCAAAACGGCTGGATTAAAGAAAAAGAAATGGTGCTGGAAATTTTAACGAGCATGAAACGTGCAGGAGCCGATCTGATTATGACGTATCATGCAAAAGACGCAGCAAAATGGCTTGCTGAGTAA	MNQTFNRHRRLRANAEMRDLVKETRLHPSDFIYPLFVVEGLEGKKEVPSMPGVYHVSLDLLKDEMAELISLGIKSVIVFGVPEEKDACGTQAFHDHGIVQKGIAEIKKHYPEMIVIADTCLCEYTDHGHCGVVKDGEILNDESLELLAQTAVSQAKAGADIIAPSNMMDGFVTVIREALDKEGFTNIPIMSYAVKYSSEFYGPFRDAADSTPQFGDRKTYQMDPANRLEALREAESDAAEGADFLIVKPSMSYLDIMRDVKNRHHLPLVAYNVSGEYSMVKAAAQNGWIKEKEMVLEILTSMKRAGADLIMTYHAKDAAKWLAE	PGPT0003655_1797	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
D1-12_01805	780			hypothetical protein	ATGGCAAATGACCTTCCTTTACAAGGAAAGACCGTGCTTGTCACCCGGAACAAAAGACAGGCCGCACCGTTCCGAAAAAAAGTGGAGGCGCTCGGCGGAACGGCTGTTTCCGCTTCGCTGATCGCTTTTCAGGAAGCGCTCCCGGATGAATGTGCGGACAGTCTCCGGGAAGACCTTTCTGAGCCGGGATGGCTTGTGTTTACAAGCGTAAACGGTGTCCGGTTCTTTTTTTCCTATCTTGATCGGCACGGTCTTGCGCTTTCGGGACGGAAAAAAATCGCAGCCGTCGGTGAAAAGACTGCGCGCGCCCTGAAAGAGCGGGGAGCCCGGACGGATGCGATGCCTGACGAGTATGTGGCGGAATGTCTGGCTGATACTTTAAAACGGCACGCATCAGCTGCCGAACCCATTTCAGTGATAAAGGGCAATTTATCACGCGATGTCATAAAAGCGGAGCTTGAGCCGCTTGGCTATCAAATAAGGGAATGGGTGTTATACAATACCATTCAGGATGAAAAAGGCATGGACGAGCTGAGACGGGCTGCATCCCGCTCTCATTTTGATTTTATTACGTTTACCAGCTCATCGGCGGTGCATACGTTTATGCACGCGGTCGGAGACGGAGAAAAAGCGTGGGAAAACAGCGGTGCGAGCTATATCAGCATCGGCCCTTTGACAGAGAAAGCGCTCTTGGAATACGGGATCTCATCCCATGTGCCTGACATCTATACGATTGAAGGCATGCTGGACGTCATGTGCAGCATGTCGGGAAAGGATTGA	MANDLPLQGKTVLVTRNKRQAAPFRKKVEALGGTAVSASLIAFQEALPDECADSLREDLSEPGWLVFTSVNGVRFFFSYLDRHGLALSGRKKIAAVGEKTARALKERGARTDAMPDEYVAECLADTLKRHASAAEPISVIKGNLSRDVIKAELEPLGYQIREWVLYNTIQDEKGMDELRRAASRSHFDFITFTSSSAVHTFMHAVGDGEKAWENSGASYISIGPLTEKALLEYGISSHVPDIYTIEGMLDVMCSMSGKD	PGPT0003665_2003	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
D1-12_01806	942	hemC		Porphobilinogen deaminase	ATGAGAACGATTAAGGTAGGTTCCAGACGGAGCAAACTGGCTATGACCCAGACAAAATGGGTGATTAACAAACTGAAGGAATTGAACCCTTCCTATAACTTTGAAATCCGGGAGATTGTCACAAAAGGCGACCGCATCCTTGATGTTACACTGTCAAAAGTGGGCGGCAAAGGTTTGTTTGTCAAAGAGATTGAACAGGCGCTGCTGCATCAGGAGATTGATATGGCGGTTCACAGCATGAAAGACATGCCCGCCGTTTTGCCTGAGGGTCTTGTCATAGGCTGCATACCGAAACGTGAGGATCCGCGTGATGCGCTGATTTCAAAGGGGCATCAAAAGCTGGACGGCATAAAAGAAGGGGGCATCATCGGCACCAGCAGTTTAAGAAGAAGCGCCCAGATTCTTGCTGAACGCCCTGATCTTACAATTAAGTGGATCAGAGGCAATATCGATACGAGACTTCAAAAGCTTGAAACGGAAGATTACGATGCTATTATTTTAGCGGCTGCGGGACTTTCGAGAATGGGCTGGAAAGATGATGTCGTATCTGAATTTCTCGAACCGGACCGCTGTCTGCCTGCGGTCGGCCAAGGCGCTCTTGCCATTGAATGCAGAGAGTCGGATGAGGAGCTTTTGAAGCTGTTTGCGCAATTTACCGATGAGTATACGCAGCGCACGGTGGCAGCCGAACGGGCTTTCTTACACGCGATGGAAGGCGGCTGCCAAGTGCCGATAGCCGGGTATGCGTCCGTCAATGACCGGGATGAGGTTGAATTGGTCGGTCTTGTCGCGTCTCCGGACGGAAAGACGATTTATAAAGAAACAGCGGCGGGACATGATCCGGAAGAAATCGGGAAACGCTGTGCGGCGATGATGTCTGAAAAAGGAGCCAAAGCATTAATCGACAGCGTGAAACAGGAGCTCGATCAGGATGGCAAATGA	MRTIKVGSRRSKLAMTQTKWVINKLKELNPSYNFEIREIVTKGDRILDVTLSKVGGKGLFVKEIEQALLHQEIDMAVHSMKDMPAVLPEGLVIGCIPKREDPRDALISKGHQKLDGIKEGGIIGTSSLRRSAQILAERPDLTIKWIRGNIDTRLQKLETEDYDAIILAAAGLSRMGWKDDVVSEFLEPDRCLPAVGQGALAIECRESDEELLKLFAQFTDEYTQRTVAAERAFLHAMEGGCQVPIAGYASVNDRDEVELVGLVASPDGKTIYKETAAGHDPEEIGKRCAAMMSEKGAKALIDSVKQELDQDGK	PGPT0003660_2626	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
D1-12_01807	831	ccsA_2		Cytochrome c biogenesis protein CcsA	ATGATTGATACAGCAATGGCAAGACTTAATGAAGCGACAATTGTTATTTATGCAGTAAGCGTCCTTTTTTACTTTATAGATTTTCTTCAACACAACCGGAAGGCTGGGAAAATGGCCTTCTGGTTGCTTTCTATTGTCTGGACTCTGCAAACCGTCTATCTTTCTTATTTCATGTGGCAGACGGGCAGATTTCCGGTCTTGAATATTACAGAGGCCCTTTACTTTTATGCGTGGGTGCTTGTCACGCTCTCACTTGTGGTCACGCAGATTCTGCGCGTTGATTTTATCGTATTTTTCACGAATGTCATCGGTTTCTCGATGATTGCGATCCATACGTTTTCACCGACGGATCAGCATTCGGCCGCTTTTTCCGGCCAGCTGGTCTCAGAGCTTTTGGTCATTCATATTACAATGGCGATTCTGTCTTACGGCGCTTTTTCCCTTTCTTTTGTCTTTTCGCTTCTTTATCAGTTTCAATATTCTTTATTAAAGAAGAAAAAGTGGGGAAAATGGCTGTTGAGAATTGAAGATTTGTCAAAACTTGATTATATGGCTTACGTTTTAAATGTCATCGGGGTTCCGATGCTGCTGTTGAGCCTGATATTAGGCGTGATCTGGGCGTATGTGTCGCTGGAAACGCTGTACTGGTTTGATTCAAAAGTGCTCGGTTCGTTTATTGTGCTGCTTTTATACAGCTACTATTTATATATCAGAATGATTAAGGAACTGCAGGGAAAAGTGGCGGCGTTATGGAATTCAGCATGTTTTCTCGTGCTGATGATTAATTACTTCCTGCTCGGAAGCCTGTCGCAATTCCATTGGTTCAGTTAA	MIDTAMARLNEATIVIYAVSVLFYFIDFLQHNRKAGKMAFWLLSIVWTLQTVYLSYFMWQTGRFPVLNITEALYFYAWVLVTLSLVVTQILRVDFIVFFTNVIGFSMIAIHTFSPTDQHSAAFSGQLVSELLVIHITMAILSYGAFSLSFVFSLLYQFQYSLLKKKKWGKWLLRIEDLSKLDYMAYVLNVIGVPMLLLSLILGVIWAYVSLETLYWFDSKVLGSFIVLLLYSYYLYIRMIKELQGKVAALWNSACFLVLMINYFLLGSLSQFHWFS				NA	NA	NA	NA	NA
D1-12_01808	1368	hemA	COG0373	Glutamyl-tRNA reductase	ATGCATATTCTTGTTGTGGGAGTAGATTATAAATCCGCCCCTATTGAAATACGCGAAAAAATAAGTTTTCAGCCGGATGAGCTTGCAGAAGCGATGCTCCGTTTAAAAGAAGAAAAAAGCGTTCTTGAAAACATTATCGTGTCAACCTGCAACCGCACCGAAATATATGCGGTGGTCGACCAGCTCCATACCGGCCGTTATTATATAAAAACATTTTTATCCGAATGGTTCTCGCTGCCGAAAGAAGAGCTGTCTCCGTTTCTGAAATTTTATGAGAGCGACGCGGCGATCGAGCATTTATTCCGTGTGGCGTGCGGCTTGGATTCCATGGTCATCGGAGAAACGCAAATACTCGGCCAGGTCCGCTCGAGCTTTAAAACGGCGCAGGCAGAAAAGACGATCGGCACCATTTTCAATGAGCTGTTTAAACAGGCGGTGACCGTCGGCAAACGCACGCATGCCGAAACCGATATCGGCGCCAATGCCGTTTCCGTCAGTTACGCCGCCGTTGAACTCGCGAAAAAAATCTTCGGCTCATTGTCAAATAAGCACATTTTGATTCTCGGTGCGGGAAAAATGGGCGAGCTCGCCGCAGAAAACCTGCACGGTCAGGGCATCGGCAAAGTAACGGTCATCAACAGAACGTTTTTGAAGGCAAAAGCGCTTGCTGACCGTTTCTCCGGAGAAGCGCGCAGCTTAAACCAGCTTGAACATGCACTTGCTGAAGCTGATATTTTAATCAGTTCGACAGGCGCAAGTGATTTCGTCGTGTCCAAAGAAATGATGGAGAGAGCGGGCAGACAGCGGAAAGGCCGTCCGTTATTTATGGTGGATATCGCTGTGCCGCGAGACCTCGATCCGGCGCTTAACGATCTTGAAGGTGTTTTTCTGTACGATATTGATGACCTTGAAGGAATCGTTGAAGCTAACTTACAAGAACGCCGTGAAACCGCTGAAAAAGTCGAGCTGTTTATTGAAGCGGCAATTGTTGAGTTTAAGCAGTGGCTTAATACGCTCGGCGTCGTGCCGGTCATTTCGGCGCTGCGTGAAAAGGCGCTGTCCATCCAGTCCGATACGATGCAGAGCATTGAGCGCAAGCTGCCTCATCTGACGGTAAGAGAGAAAAAACTTCTCAGCAAACATACGAAAAGCATCATTAACCAAATGCTGCGCGATCCGATTCTGAAAGCGAAAGAGCTTGCGGCTGAAGCGGATTCAGATGAAAAGCTGAAGCTGTTTATGCAGATATTCGATATTGAGGAAGAGGCCGGCCGCCAGCTGGACAAAAGCCTGGATAACCGCCAGACGGTTCATTCGTTTCAAAAGGCAGAAGCAAAAACGGGCTTACGTCCGCTTGTAAGTGAGTGA	MHILVVGVDYKSAPIEIREKISFQPDELAEAMLRLKEEKSVLENIIVSTCNRTEIYAVVDQLHTGRYYIKTFLSEWFSLPKEELSPFLKFYESDAAIEHLFRVACGLDSMVIGETQILGQVRSSFKTAQAEKTIGTIFNELFKQAVTVGKRTHAETDIGANAVSVSYAAVELAKKIFGSLSNKHILILGAGKMGELAAENLHGQGIGKVTVINRTFLKAKALADRFSGEARSLNQLEHALAEADILISSTGASDFVVSKEMMERAGRQRKGRPLFMVDIAVPRDLDPALNDLEGVFLYDIDDLEGIVEANLQERRETAEKVELFIEAAIVEFKQWLNTLGVVPVISALREKALSIQSDTMQSIERKLPHLTVREKKLLSKHTKSIINQMLRDPILKAKELAAEADSDEKLKLFMQIFDIEEEAGRQLDKSLDNRQTVHSFQKAEAKTGLRPLVSE	PGPT0003650_682	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
D1-12_01809	492			hypothetical protein	ATGAAAAAAACATCAATTTTATTACCGGGACTTCTGCTTGCCGCTTCATTATTCGCATGGCTTCAGAGCGGACAGGTTCACCTGTTTGCGAATCAGGGGGAATGGCCGGTGCTCCTTATGCTCTTGGGCGCCGTGCTCTTGTATCAGGGCAAAAAGGAAGCGGCCGGGCCTCACGTCCTGATCGGCTTGCTTCTTTTCGGCATAGGTTTACACTTTTTCGCCAAACCTGAGCTCTCATGGTGGCCGGGAGATTTTGAAATGATTCTCTTCGTCTTCGGATTCTCCTTATTTGCGGCAGCCAGAAAAGAATATGTATACGAAGCGGCTGCCATGATTGGTTTTTCCCTCTTTTTATACTTCTTTAAACAAATTACGGCGTGGCTGGAGTCCGTCCATATTCCGACGGAACACTTCAAAACATACTGGCCGTATGTTTTCATCGGAATCAGCCTTTTATTATTGTTTATCAAGCGGAACAAAACTATACGATAA	MKKTSILLPGLLLAASLFAWLQSGQVHLFANQGEWPVLLMLLGAVLLYQGKKEAAGPHVLIGLLLFGIGLHFFAKPELSWWPGDFEMILFVFGFSLFAAARKEYVYEAAAMIGFSLFLYFFKQITAWLESVHIPTEHFKTYWPYVFIGISLLLLFIKRNKTIR				NA	NA	NA	NA	NA
D1-12_01810	588	engB	COG0218	putative GTP-binding protein EngB	ATGAAAGTCACAAAGTCAGAAATCGTGATCAGCGCGGTCAAACCCGAACAGTACCCTGATGGGGGGCTTCCGGAAATCGCGCTGGCGGGAAGATCAAATGTAGGAAAGTCATCTTTTATCAATTCATTAATCAATCGGAAAAACTTGGCCAGAACGTCATCAAAACCGGGGAAAACACAGACCTTAAACTTTTACATCATCAATGATGAATTGCATTTTGTCGACGTTCCCGGGTACGGATTTGCGAAAGTTTCCAAAAGCGAGCGGGAAGCATGGGGGAGAATGATTGAAACCTATATGACGACCCGCGAAGAGCTGAAAGCCTGCGTGCAGATTGTCGACCTCAGGCACGCGCCGTCTGCTGAAGACGTGAACATGTATGAATTCCTGAAGTATTACGGCATTCCCGTCATCGTTATCGCGACAAAAGCGGATAAGATTCCAAAAGGAAAATGGGACAAGCACTTAAAGGTTGTCAAACAGACGCTTGATATGGATCCTGAAGATGAGCTGATTTTATTTTCCTCTGAAACGAAAAAAGGCAAAGATGAAGCATGGGGAGCCATTAAAAAAATGATCAGCCGGTAA	MKVTKSEIVISAVKPEQYPDGGLPEIALAGRSNVGKSSFINSLINRKNLARTSSKPGKTQTLNFYIINDELHFVDVPGYGFAKVSKSEREAWGRMIETYMTTREELKACVQIVDLRHAPSAEDVNMYEFLKYYGIPVIVIATKADKIPKGKWDKHLKVVKQTLDMDPEDELILFSSETKKGKDEAWGAIKKMISR				NA	NA	NA	NA	NA
D1-12_01811	2325	lon1	COG0466	Lon protease 1	ATGGCAGAAGATACAAAACGCAGCATCCCGCTCCTCCCTTTAAGAGGCTTATTGGTATACCCGACAATGGTTTTACATTTAGATGTAGGCCGTGACAAGTCGGTTCAGGCTCTTGAACAGGCAATGATGCATGATCATATGATTTTTTTAGCCACTCAGCAGGATATTTCGATAGACGAACCGGGTGAAGAGGATATTTTCGCCGTCGGCACTTATACAAAAATTAAACAGATGCTGAAGCTGCCCAACGGTACAATCAGAGTGCTTGTAGAAGGAATTCAGCGGGCGCAGATTCTTGAATACGCCGAGCTCGAAGATTATACTTCGGTCGATATACAGCTGATGCATGAGGATGATTCAAAAGACGTGGAAGACGAAGCGCTTATGCGGACGCTGCTGGACCATTTTGACCAGTACATAAAAATTTCTAAAAAAATCTCCGCAGAAACGTATGCGGCTGTGACTGATATTGAAGAGCCCGGCAGAATGGCGGATATCGTCGCTTCTCATCTCCCGCTGAAATTAAAGGACAAGCAGGACATTTTAGAAACGGCGGATATTAAAGAACGTCTGAATAAGGTCATCCGTTCCATTCATAATGAAAAAGAAGTGCTGGAGATTGAGAAAAAAATCGGTCAGCGCGTCAAACGTTCGATGGAACGCACTCAAAAGGAATACTACTTGCGTGAACAGATGAAAGCCATTCAGAAGGAGCTTGGCGACAAAGAAGGAAAAACCGGCGAAGTTCAGTCGCTCACGGAAAAGATAGAAGAAGCAGGCATGCCTGAGCGTGTCAAAGAAACGGCGCTTAAGGAATTAAGCCGTTACGAAAAAGTGCCGTCAAGCTCAGCGGAAAGCTCTGTTATCCGCAACTATATTGACTGGCTCATCGCCCTTCCGTGGTCGGATGAAACAGAAGATAAACTTGACATTAAAAAAGCCGGGGAAATCTTAGATAAAGAGCATCACGGCTTAGAGAAAGTGAAAGAGCGGATTTTGGAGTATTTGGCCGTGAAACAGCTGACGAAAACGCTGAAAGGGCCGATTCTTTGTCTGGCCGGACCTCCGGGAGTCGGTAAAACATCTCTTGCAAAATCAATCAGTACGAGCATGGGGCGCCGTTTTGTGAGAATTTCACTGGGCGGAGTGCGCGATGAGTCTGAAATCCGCGGGCACCGGCGTACATACGTCGGAGCGATGCCGGGCCGTATTATACAGGGGATGAAAAAAGCCGGTAAACAAAATCCCGTCTTTCTCCTGGATGAGATCGACAAAATGTCGTCTGATTTCAGAGGCGATCCGTCTTCGGCGATGCTTGAGGTGCTGGATCCGGAACAAAACAGCACATTCAGCGACCACTATATTGAAGAGACGTTCGATTTATCGAAAGTGCTGTTTATCGCGACTGCGAATAACCTTGCTTCCATACCGGGACCTCTCAGAGACAGAATGGAGATTATCAGCCTGTCAGGCTACACTGAAAACGAAAAGCTGGAAATCGTGAAGGACCACCTGCTTCCGAAACAAATCAAAGAGCACGGGCTCACAAAGAGCAACCTGCAGATTCGGGACCAGGCGATTACGGACATCATCCGCTACTATACGAGGGAAGCCGGCGTGAGAACGCTTGAACGCCAGATTGCCGCCATTTGCCGAAAGGCTGCGAAAGCCATTGTGTCTGAGGAGAGAAAACGCATTACCGTTACAGAGAAAAATCTGGCCGACTATCTCGGAAAACGGATATTCAGATACGGACAGGCGGAAACCGAAGATCAAATCGGGGTTGTCACGGGGCTCGCGTATACGACGGTCGGCGGAGATACGCTGTCAATCGAAGTGTCATTGTCACCGGGAAAAGGAAAGCTGATTCTGACCGGGAAGCTTGGAGATGTCATGCGGGAATCAGCGCAGGCCGCTTTCAGTTATGTCCGCTCGAAAGCGGAACAGTTCGGAATCGACCCGAAATTCCATGAGAAGTATGACATTCATATCCATGTCCCTGAAGGAGCGGTGCCGAAAGACGGCCCTTCTGCCGGAATTACGATGGCCACGGCGCTCGTTTCAGCATTAACGGACCGTGCGGTAAAACGCGAAGTCGGTATGACGGGAGAAATCACGCTGCGGGGCCGCGTGCTTCCGATCGGCGGACTGAAAGAAAAGGCGCTCGGCGCGCACAGAGCGGGCCTGACTACTATTATTGCGCCTAAAGATAACGAAAAAGATATAGAGGATATTCCAGAAAGCGTCAGAGAAGGACTGAAGTTTATATTCGTTTCTCACCTGGATGACGTTTTGGAACATGCCTTAGTAGGAGAGAAGAAATGA	MAEDTKRSIPLLPLRGLLVYPTMVLHLDVGRDKSVQALEQAMMHDHMIFLATQQDISIDEPGEEDIFAVGTYTKIKQMLKLPNGTIRVLVEGIQRAQILEYAELEDYTSVDIQLMHEDDSKDVEDEALMRTLLDHFDQYIKISKKISAETYAAVTDIEEPGRMADIVASHLPLKLKDKQDILETADIKERLNKVIRSIHNEKEVLEIEKKIGQRVKRSMERTQKEYYLREQMKAIQKELGDKEGKTGEVQSLTEKIEEAGMPERVKETALKELSRYEKVPSSSAESSVIRNYIDWLIALPWSDETEDKLDIKKAGEILDKEHHGLEKVKERILEYLAVKQLTKTLKGPILCLAGPPGVGKTSLAKSISTSMGRRFVRISLGGVRDESEIRGHRRTYVGAMPGRIIQGMKKAGKQNPVFLLDEIDKMSSDFRGDPSSAMLEVLDPEQNSTFSDHYIEETFDLSKVLFIATANNLASIPGPLRDRMEIISLSGYTENEKLEIVKDHLLPKQIKEHGLTKSNLQIRDQAITDIIRYYTREAGVRTLERQIAAICRKAAKAIVSEERKRITVTEKNLADYLGKRIFRYGQAETEDQIGVVTGLAYTTVGGDTLSIEVSLSPGKGKLILTGKLGDVMRESAQAAFSYVRSKAEQFGIDPKFHEKYDIHIHVPEGAVPKDGPSAGITMATALVSALTDRAVKREVGMTGEITLRGRVLPIGGLKEKALGAHRAGLTTIIAPKDNEKDIEDIPESVREGLKFIFVSHLDDVLEHALVGEKK	PGPT0014315_4664	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
D1-12_01812	1659	lon2	COG1067	Lon protease 2	ATGAGTTGGACAGGGATCGCATTATTTGTACAGCTGTTTTTCGGGATAGTCATCGGACTATATTTTTGGAATCTGCTCAAAAACCAGCGAACACAAAAAGTGACGATAGATAAAGAATCAAAAAAGGAAATGGAACAGCTGCGCAAAATGCGCGCCATCAGTTTATCAGAACCTTTATCAGAAAAGGTGCGGCCGAAAAGCTTTCAGGACATTGTCGGCCAGGAAGACGGAATTAAAGCGTTAAAAGCAGCGCTTTGCGGACCGAACCCGCAGCACGTCATTATTTACGGTCCTCCGGGAGTCGGTAAAACGGCTGCGGCGCGGCTGGTATTGGAAGAAGCGAAAAAACATAAACAGTCACCGTTTCAAAAGCAGGCTGTTTTTGTTGAACTTGATGCGACGACCGCGCGGTTTGATGAACGGGGGATTGCCGATCCGCTTATCGGTTCAGTGCATGATCCGATTTATCAGGGAGCGGGAGCGATGGGCCAAGCAGGCATTCCGCAGCCGAAACAGGGGGCTGTGACCCATGCTCACGGCGGGGTATTGTTTATTGATGAAATCGGCGAGCTTCATCCGATTCAGATGAATAAAATGCTGAAGGTGCTTGAAGATCGAAAAGTATTTTTAGACAGTGCGTATTACAGTGAAGAAAATACGCAAATACCGAATCACATTCATGATATTTTTCAAAATGGGCTTCCGGCAGATTTCCGTTTGATCGGAGCGACAACGAGAATGCCGAATGAAATTCCGCCGGCCATCCGTTCGCGCTGTCTTGAAGTATTTTTCCGCGAGCTGGAAAAGGATGAACTTAAAATCGTTGCGAAAAAAGCAGCCGACAAAATTCAGAAAGAGATTTCTGACGAAGCTCTCAGTGTGCTGACCGCATATACGAGAAACGGACGTGAAGCCGTCAATATGATCCAGATCGCCGCCGGCATGGCGGTGACTGAGGACAGACAAGAAATTACGACAGAAGATATAGAATGGGTTGTTCATTCCAGTCAGCTTACACCTAAAAATGAGCAGAAAATCGCCGATGAACCGCAAGTCGGCATCGTGAACGGACTTGCTGTCTACGGGCCGAACAGCGGCGCATTGCTGGAAATCGAAGTGAATGTCACACCTGCGCAGGACAAAGGAAGCCTGAATATCACGGGAATTGCAGAGGAAGAAAGCATCGGCAGCCAATCGAAGTCGATCCGCCGCAAAAGCATGGCGAAGGGATCTGTGGAAAATGTTCTGACGGTTCTGCGCACAATGGGCATCAAACTTTCAGACTATGACATTCACGTCAATTTTCCGGGCGGAGGCCCGATTGACGGACCTTCAGCAGGTATCGCGATGGCCGCGGGGATTTTTTCCGCGATTCACCGCATCCCGATCGACCATACGGTGGCGATGACGGGAGAAATCAGCCTGACGGGGCTTGTCAAACCGATCGGCGGCGTCATTCCGAAAATTAAAGCCGCAAAACAGGCCGGAGCAAAAACGGTCATTATCCCATATGAAAATCAGCAGTCCATTTTGAAACGAATAGACGGAATCACCATTAAAGCGGTAAAAACGTTCCAGGAAGTGCTGGACGTCATATTGGTTGACCCTCCTTCAGAACAAAAACCGTTTGATATCCAAATGAATAAAGAATCCGTATAA	MSWTGIALFVQLFFGIVIGLYFWNLLKNQRTQKVTIDKESKKEMEQLRKMRAISLSEPLSEKVRPKSFQDIVGQEDGIKALKAALCGPNPQHVIIYGPPGVGKTAAARLVLEEAKKHKQSPFQKQAVFVELDATTARFDERGIADPLIGSVHDPIYQGAGAMGQAGIPQPKQGAVTHAHGGVLFIDEIGELHPIQMNKMLKVLEDRKVFLDSAYYSEENTQIPNHIHDIFQNGLPADFRLIGATTRMPNEIPPAIRSRCLEVFFRELEKDELKIVAKKAADKIQKEISDEALSVLTAYTRNGREAVNMIQIAAGMAVTEDRQEITTEDIEWVVHSSQLTPKNEQKIADEPQVGIVNGLAVYGPNSGALLEIEVNVTPAQDKGSLNITGIAEEESIGSQSKSIRRKSMAKGSVENVLTVLRTMGIKLSDYDIHVNFPGGGPIDGPSAGIAMAAGIFSAIHRIPIDHTVAMTGEISLTGLVKPIGGVIPKIKAAKQAGAKTVIIPYENQQSILKRIDGITIKAVKTFQEVLDVILVDPPSEQKPFDIQMNKESV	PGPT0014315_5384	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
D1-12_01813	1263	clpX	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGTTTAAATTCAACGAGGAAAAAGGACAATTGAAATGCTCGTTCTGCGGAAAAACGCAAGATCAGGTTCGTAAGCTGGTTGCAGGACCGGGTGTATATATATGCGACGAATGTATCGAGCTCTGTACAGAAATCGTAGAGGAAGAGCTTGGTACGGAAGAAGAAGTCGAATTTAAAGACGTTCCGAAGCCGCAGGAAATCCGTGAGATTCTGAATGAATATGTCATCGGACAGGATCAGGCGAAGAAATCACTTGCGGTTGCGGTATACAACCATTACAAACGCATCAATTCCAACAGTAAAGTGGATGATGTCGAGCTTTCTAAAAGTAATATTTCTTTAATCGGACCGACTGGAAGCGGGAAAACACTTCTTGCCCAGACGCTTGCGCGTATTCTGAACGTGCCGTTTGCGATCGCGGACGCTACATCTCTGACTGAAGCCGGATATGTCGGTGAGGACGTAGAAAACATCCTCCTCAAGCTGATTCAGGCAGCAGACTATGATGTGGAAAAAGCAGAAAAAGGCATTATTTATATCGATGAAATCGATAAAGTAGCGCGAAAATCTGAAAATCCGTCCATTACACGCGACGTATCAGGCGAAGGCGTTCAGCAGGCGCTGCTGAAAATTCTTGAAGGAACGGTTGCAAGCGTGCCGCCTCAAGGAGGACGCAAACATCCTCATCAGGAATTCATCCAGATCGATACGACGAACATTCTGTTCATTTGCGGCGGTGCATTTGACGGCATTGAACAAATCATCAAACGCCGTCTCGGACAAAAAGTCATCGGCTTCGGCTCAGATAATAAAGCGGCAGACCTGGAAAAAGAAGAACTGCTTTCTAAAGTTCTTCCGGAAGACTTGCTCCGTTTCGGGCTGATTCCTGAATTCATCGGCCGTCTTCCTGTCATTGCAAGCCTTGAGCAGCTTGACGAAACGGCACTGGTTGAAATTCTGACTAAACCGAAAAACGCACTCGTCAAACAATACAAGAAAATGTTAGAACTTGATGATGTCGAGCTTGAATTTGAAGACGAGGCATTATCTGAAATTGCGAAAAAAGCGATCGAGCGTAAAACAGGCGCACGCGGCCTGCGTTCTATCATTGAGGGCATCATGCTTGACGTCATGTTTGATCTGCCGTCCCGTGATGATATTGAAAAATGTGTCATTACCGGAGCGACAGTCGCAGACGGTGAAGCGCCGCGTCTTGTATTAAAAGACGGCACTGTTGTCGGCCAAGATAAAACATCAGCATAA	MFKFNEEKGQLKCSFCGKTQDQVRKLVAGPGVYICDECIELCTEIVEEELGTEEEVEFKDVPKPQEIREILNEYVIGQDQAKKSLAVAVYNHYKRINSNSKVDDVELSKSNISLIGPTGSGKTLLAQTLARILNVPFAIADATSLTEAGYVGEDVENILLKLIQAADYDVEKAEKGIIYIDEIDKVARKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHPHQEFIQIDTTNILFICGGAFDGIEQIIKRRLGQKVIGFGSDNKAADLEKEELLSKVLPEDLLRFGLIPEFIGRLPVIASLEQLDETALVEILTKPKNALVKQYKKMLELDDVELEFEDEALSEIAKKAIERKTGARGLRSIIEGIMLDVMFDLPSRDDIEKCVITGATVADGEAPRLVLKDGTVVGQDKTSA	PGPT0014600_3815	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
D1-12_01814	1275	tig	COG0544	Trigger factor	ATGTCTGTAAAATGGGAAAAACAAGAAGGCAATGAAGGCGTATTAACGGTTGAAGTTGATGCGGATACGTTCAAAACAGCTCTTGATGATGCATTTAAAAAAGTAGTAAAACAGGTTTCTATTCCTGGATTCCGCAAAGGGAAAGTTCCCCGCGGTTTATTCGAACAGCGTTTCGGCGTTGAAGCTCTTTACCAGGATGCTTTAGATATTTTACTTCCTGTAGAATACCCTAAAGCGGTTGAAGAAGCCGGCATTGAGCCTGTAGACCGCCCTGAAATCGATGTTGAAAAAATCGAAAAAGGCGAAAGCTTGATTTTCACTGCAAAAGTGACCGTAAAACCTGAAGTGAAACTTGGCGACTACAAAGGCTTAGGAATCGAAAAAGATGACACTGCCGTTACTGACGAAGATGTACAAAACGAACTTAAAGCGCTTCAAGAGCGTCAGGCTGAGCTTGTCGTGAAAGAAGAAGGCGCTGTTGAAAACGGCGATACAGTCGTTCTTGACTTCGAAGGTTTCGTTGACGGCGAAGCGTTTGAAGGCGGAAAAGCTGAGAACTACTCACTTGAAGTAGGATCAGGTTCATTCATCCCGGGCTTCGAAGAGCAGTTAACAGGCCTTGAAGCAGGCGCTGAAAAGGATGTTGAAGTAACATTCCCTGAAGAGTACCACGCTGAAGAGCTTGCCGGAAAACCAGCTGTTTTCAAAGTGAAAATTCATGAAATCAAAGCGAAAGAGCTTCCTGAGCTTAACGACGAATTCGCAAAAGACATTGACGAAGAAGTTGAAACGCTTGCTGAATTAACTGAGAAAACAAAAAAACGCCTTGAAGAAGCAAAAGAAAACGAAGCTGACGCTAAATTGCGTGAAGAGCTTGTTCTGAAAGCATCTGAAAACGCTGAAGCTGATGTTCCTCAAGCGATGATCGACACTGAGCTTGACCGCATGCTGAAAGAATTCGAACAGCGTCTGCAAATGCAAGGCATGAACCTTGAGCTTTACACTCAATTCTCAGGCCAAGACGAAAACGCGTTAAAAGAGCAAATGAAAGAAGATGCCGCAAAACGCGTAAAATCAAACCTGACTCTTGAAGCGATCGCTCAAGCAGAAAACCTTGAAGTAACGGACGAAGAAGTTGAAGCTGAGCTGACTAAAATGGCTGAAGCTTACAACATGCCGGTTGAAAATATCAAGCAGGCAATCGGTTCAACTGACGCGATGAAAGAAGATTTAAAAGTTCGAAAAGCAATTGATTTTCTTGTAGAAAACCGTTAA	MSVKWEKQEGNEGVLTVEVDADTFKTALDDAFKKVVKQVSIPGFRKGKVPRGLFEQRFGVEALYQDALDILLPVEYPKAVEEAGIEPVDRPEIDVEKIEKGESLIFTAKVTVKPEVKLGDYKGLGIEKDDTAVTDEDVQNELKALQERQAELVVKEEGAVENGDTVVLDFEGFVDGEAFEGGKAENYSLEVGSGSFIPGFEEQLTGLEAGAEKDVEVTFPEEYHAEELAGKPAVFKVKIHEIKAKELPELNDEFAKDIDEEVETLAELTEKTKKRLEEAKENEADAKLREELVLKASENAEADVPQAMIDTELDRMLKEFEQRLQMQGMNLELYTQFSGQDENALKEQMKEDAAKRVKSNLTLEAIAQAENLEVTDEEVEAELTKMAEAYNMPVENIKQAIGSTDAMKEDLKVRKAIDFLVENR				NA	NA	NA	NA	NA
D1-12_01815	1005			hypothetical protein	ATGACGCATGACAAGAAAAAAGCTGATATCATTCCTTTCCCCCGTCTGAAAGAACGCTTGGTTGATAAAGGGATGGCCGCCATGAAGGATAAACAGTATCAGGAGGCTCTCGAACTGTTCTCAGAGGCGGTAAGCCACGGTGATACCGAGTCCGACGTACATTTAGGCATGGCGATTTGTTTTCTGGAACTCGGGGAATTGGAAGAAGCAAAACAAGTTTGCGAGAAAATGCTGAATGAAGGATACGGCCATTATTTTACCGTACTGCAGGTGTACATGACCATTTTAATTCAGCTGAAACAATATGAAGAAGTCAAAAGCACAATTGAAGCTGTGCTGGAAGAAAATCAGCTGCCCGCAGAAAGTGCGGAGCAATTCTACCGGCTGCTCGAATTCAGCCGCAAAATGACCGATCCCGACCAGCAGGATGAAGCATGGGAGGAGGAATACGAGGACATTCTTGATGCGGAAAAAGTGCTGAACAGCCCCGCTGAACAAATGAATCTGATTCATTCTCTTAAAGACCGCAATATTGCAAAATACACGGGTCTCTTAAAAACGATTCTTCAAGATCCGGCCGCGCATCCGCTTATCAAGACGATGATTTTGACGCTGATGGCGGAGCATGACTACAGCAAGCCGGTCCATATTACAAAATTCGGCGATTCAATGACCGCGGTTCCGAGTGAAACGGTTCAGCCTGATGCGGCTCCGATTTTGCATCGCGTTCTCCGGGTGCTTGATGAAACGCTCGGCAATGAAAACCCTACATTATACGCTGCCGTCGAGGAGCTGTGGAGAAGGCATCTGTATGTCCTGCACCCTTTTATGCCGAAGTTTTTGAACGCAGATTTATGGGCGGCGGCGCTTCATAAGGTCGGTTACGAGATGCACGGCATTGACATTGAGCCGGAGGAACTTCATATGATGTACGAGTTTGACAGCCGCGAACTCGAAGAAGCCTGCACGATGATTAAGGATATTGAAGAAATTTCTTATTTGTAA	MTHDKKKADIIPFPRLKERLVDKGMAAMKDKQYQEALELFSEAVSHGDTESDVHLGMAICFLELGELEEAKQVCEKMLNEGYGHYFTVLQVYMTILIQLKQYEEVKSTIEAVLEENQLPAESAEQFYRLLEFSRKMTDPDQQDEAWEEEYEDILDAEKVLNSPAEQMNLIHSLKDRNIAKYTGLLKTILQDPAAHPLIKTMILTLMAEHDYSKPVHITKFGDSMTAVPSETVQPDAAPILHRVLRVLDETLGNENPTLYAAVEELWRRHLYVLHPFMPKFLNADLWAAALHKVGYEMHGIDIEPEELHMMYEFDSRELEEACTMIKDIEEISYL				NA	NA	NA	NA	NA
D1-12_01816	600	leuD1	COG0066	3-isopropylmalate dehydratase small subunit 1	ATGGAACCTTTAAAAACGCATACGGGAAAAGCGGCCGTCTTAAACCGGATCAACGTCGATACGGACCAGATTATTCCGAAACAGTTTTTGAAAAGAATTGAAAGAACCGGATACGGCAGATTCGCGTTTTTTGATTGGAGATACCTCGAGAACGGTGAGCCTGATCCTGAATTTGAATTAAACCGCAAAGTCTATGAAGGCGCGTCCATATTAATTGCCGGAGAGAATTTCGGCTGCGGATCATCCCGTGAGCACGCTCCTTGGGCGCTGGATGATTACGGCTTCAAAATCATCATTGCTCCGTCATTTGCCGATATTTTTCATCAAAACTGTTTTAAAAACGGTATGCTTCCCATCCGTATGCCGTATGATCAGTGGAAAAAACTCGCCGGTCAATATGAAAATCAGTCTCTTAACATGACGGTTGATTTGGAAAACCAGCTCATTCACGACAGTGAAGGAAAAGAGATTTCATTTGAAGTCGATCCGCACTGGAAGGAAATGCTGATTAACGGTTATGATGAAATTTCATTAACGCTTCTGCTGGAGGACGACATTCAGCAGTTTGAATCGAAAAGAAGTTCATGGCTTCAAGCCTGA	MEPLKTHTGKAAVLNRINVDTDQIIPKQFLKRIERTGYGRFAFFDWRYLENGEPDPEFELNRKVYEGASILIAGENFGCGSSREHAPWALDDYGFKIIIAPSFADIFHQNCFKNGMLPIRMPYDQWKKLAGQYENQSLNMTVDLENQLIHDSEGKEISFEVDPHWKEMLINGYDEISLTLLLEDDIQQFESKRSSWLQA	PGPT0001443_1653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
D1-12_01817	1419	leuC	COG0065	3-isopropylmalate dehydratase large subunit	ATGATGCCTCGAACAATCATCGAAAAGATTTGGGATCGGCATGTTGTAAAAAGCGGTGAAGGAAAACCCGACCTTCTCTATATTGATCTGCACCTCATTCATGAGGTGACGTCTCCTCAGGCGTTTGAAGGGTTAAGGCAGAAGGGGAGAAAGGTCAGACGGCCGCAGAACACATTCGCGACGATGGACCACAATATTCCGACCGTCAACCGTTTTGACATTAAAGATGAAGTCGCAAAGCGCCAAGTAACCGCGCTTGAACGGAATTGTGAGGAGTTCGGCGTCCGTCTTGCGGATCTTCACAGCGCAGACCAGGGAATCGTTCACGTGGTCGGGCCTGAGCTTGGTCTGACACTTCCGGGAAAAACGATCGTTTGCGGAGACAGCCATACATCGACTCACGGCGCGTTCGGAGCGCTTGCCTTCGGTATCGGCACAAGTGAGGTGGAACATGTTCTTTCCACACAGACATTATGGCAGCAGCGGCCGAAAACGCTTGAAATCCGCGTTGACGGAACGCTCCAAAAAGGAGTGACCGCGAAGGATGTCATCTTGTCGGTCATCGGAAAATACGGGGTGAAATTCGGTACCGGATATGTCATTGAATACACCGGGGAAGTATTCAGAAACATGTCTATGGACGAACGCATGACGGTCTGCAATATGTCAATAGAAGCGGGAGCACGGGCGGGACTGATCGCTCCAGATGACACGACGATTGAATATTGTAAAAACCGTAAATACGCGCCAAAAGGCGAGGAATTTGAAAAAGCCGCCGCAGAATGGAAAGCGTTACAAACCGATCCGGGCGCCGTATACGATCATTCCATCGTGTTAGACGGCAGCGAGATTTCTCCAATGGTAACATGGGGCGTCAATCCCGGCATGGTTCTTCCGGTCGATGCCCAAATACCGGCGCCGGAAACCATTGATTCTGAAGACGGTAAAAAAGAAGCCATCCGCGCGTACGAATACATGGGAATCGCACCGAATCAAAAAATTGAAGATATTAAAGTCGAGCATGTGTTTATCGGCTCCTGTACAAATTCGCGGATGACCGATCTTCGCCAGGCTGCGGATATGATCAAAGGCCGAAAAGTCGCTGACAGCGTCAGAGCCATTGTGGTGCCGGGTTCTCAAAGCGTGAAACAGCAGGCCGAGGAAGAAGGGCTGCACCGCGTGTTTCTCGAGGCCGGCTTTGAATGGAGAGAATCAGGATGCAGCATGTGCCTCAGTATGAACAATGATGTCGTGCCTGAAGGGGAACGATGCGCTTCCACTTCCAACCGCAACTTCGAAGGCAGACAGGGAAAAGGCGCGAGAACACACCTTGTCAGTCCGGCGATGGCGGCAATGGCGGCCATTCACGGGCATTTCGTCGATGTAAGAAAGTTTTATCAAGAAAAAACAGTTGTGTAA	MMPRTIIEKIWDRHVVKSGEGKPDLLYIDLHLIHEVTSPQAFEGLRQKGRKVRRPQNTFATMDHNIPTVNRFDIKDEVAKRQVTALERNCEEFGVRLADLHSADQGIVHVVGPELGLTLPGKTIVCGDSHTSTHGAFGALAFGIGTSEVEHVLSTQTLWQQRPKTLEIRVDGTLQKGVTAKDVILSVIGKYGVKFGTGYVIEYTGEVFRNMSMDERMTVCNMSIEAGARAGLIAPDDTTIEYCKNRKYAPKGEEFEKAAAEWKALQTDPGAVYDHSIVLDGSEISPMVTWGVNPGMVLPVDAQIPAPETIDSEDGKKEAIRAYEYMGIAPNQKIEDIKVEHVFIGSCTNSRMTDLRQAADMIKGRKVADSVRAIVVPGSQSVKQQAEEEGLHRVFLEAGFEWRESGCSMCLSMNNDVVPEGERCASTSNRNFEGRQGKGARTHLVSPAMAAMAAIHGHFVDVRKFYQEKTVV	PGPT0001442_1657	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
D1-12_01818	1098	leuB	COG0473	3-isopropylmalate dehydrogenase	TTGAAAAAACGCATTGCTTTGCTGCCCGGTGACGGAATCGGACCGGAAGTGGCGGAATCAGCGGCAGATGTATTGAAAAGCGTTGCCGAACAATTCGGACATGAATTTGAATTTGAAAACGGGCTGATCGGGGGAGCGGCTATTGACGCCCATCAAAACCCCCTTCCTGAGGAGACGGTGGCTCTTTGTGAAAGATCCGACGCCATCCTGCTCGGGGCAGTCGGCGGGCCGAAATGGGACCAAAATCCTCCAGAGCTCAGACCGGAAAAAGGCCTGCTTGGCATCAGAAAAAAACTCGGCCTGTTTGCCAATCTGCGTCCCGTGACCGTATTTGAAAGCCTGTCTGAGGCGTCTCCGCTGAAAAAAGAATATATCAGCGGCGTCGACTTTGTAATCGCCAGGGAACTGACGGGCGGCCTCTACTTCGGAGAACCGAGCAGGCAGTATGTCAATGAAGCGGGAGAAAAGGAAGCGGTCGATACCCTTTTTTATAAGAAAGAAGAAATCGCACGCGTTGTCAGAGAAGCCTTTAAGATGGCTGCCGGCAGAAAAGGAAAAGTGACGTCCGTTGATAAGGCGAATGTGCTTTCTTCAAGCAGACTGTGGCGTGAAACAGCGGATGAAATCGCAAAAGAATTTCCTGATGTGACGCTTGAACATATGCTTGTCGATAATGCCGCGATGCAGCTCATCTACGCTCCGAGCCAGTTTGACGTCATCGTAACTGAGAATATGTTCGGCGATATTTTAAGCGATGAAGCCTCCATGCTGACAGGCTCGCTCGGCATGCTGCCGTCAGCCAGTTTATCAAGTTCAGGTCTTCACTTGTTTGAACCCGTGCATGGATCTGCGCCTGACATCGCCGGTAAAGGGATGGCCAATCCGTTTGCGGCGATTTTATCAGCGGCGATGCTTTTGAGAACATCTTTCGGACTTGAAAACGAAGCGCAGGCGGTGGAAAAAGCGGTCGCAAAGGTGCTTGCAGACGGCAGCCGTACACGTGATATCGCCCGGGACGGCCAATATGCCGGAACGCATGACATTACTGAAAAAGTAAAAGCCGCATTAGCCGGCTCGAATACAAAATCTATAGTATGA	MKKRIALLPGDGIGPEVAESAADVLKSVAEQFGHEFEFENGLIGGAAIDAHQNPLPEETVALCERSDAILLGAVGGPKWDQNPPELRPEKGLLGIRKKLGLFANLRPVTVFESLSEASPLKKEYISGVDFVIARELTGGLYFGEPSRQYVNEAGEKEAVDTLFYKKEEIARVVREAFKMAAGRKGKVTSVDKANVLSSSRLWRETADEIAKEFPDVTLEHMLVDNAAMQLIYAPSQFDVIVTENMFGDILSDEASMLTGSLGMLPSASLSSSGLHLFEPVHGSAPDIAGKGMANPFAAILSAAMLLRTSFGLENEAQAVEKAVAKVLADGSRTRDIARDGQYAGTHDITEKVKAALAGSNTKSIV	PGPT0001441_1226	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
D1-12_01819	1557	leuA		2-isopropylmalate synthase	TTGCGCAAAATTAATGTTTTCGACACGACCCTTCGTGACGGTGAACAATCCCCCGGGGTCAACCTCAATTCCCGGGAGAAACTGGCGATAGCCAAGCAGCTTGAAAGACTCGGGGTGGACATTATTGAAGCGGGATTTCCCGCTTCATCCCGAGGTGATTTTTTAGCCGTGCAGGAAATCGCAAGAACGATTAAAAATTGTTCGGTAACAGGGCTTGCCCGATCTGTCAAAGGTGACATCGACGCAGCCTGGGAAGCGCTGAAAGACGGGGCCAGCCCGCGGATTCACATCTTTATCGCCACCTCTGACATTCATCTGAAGCATAAGCTGAAAATGACGCGGGAAGAGGTTAAGGAAAAAGCGGTTGAAATGGTGAAGTATGCAAAAGAACGCTTTCCGATCGTTCAATGGTCAGCAGAAGACGCATGCCGCACCGAACTTCCGTTTCTGGCTGAAATCGTAGAAAAAGTGATTGATGCCGGCGCGAGCGTCATCAACCTGCCGGACACTGTAGGTTACCTGACGCCGGCTGAATACGGAAACATCTTTAAATATATGAAGGAACACGTTCCGAATATCGGCCGGGTAAAGCTTTCAGCCCATTGCCACGATGATCTCGGAATGGCGGTTGCCAACTCACTTTCGGCAATTGAGAACGGCGCAGATCAAATTGAATGCGCCATTAACGGCATAGGAGAAAGAGCCGGGAACGCCGCGCTAGAGGAAATCGCCGTTGCGCTTCATGTCAGAAATGACGCGCATCAAGCCGATTCATCCCTCAATCTTCATGAATTGAAGCGGACGAGTGATCTTGTCAGCAAACTGACGGGCATGGCCGTTCCCCGCAATAAAGCAATCGTCGGAGATAACGCTTTCGCACATGAGTCCGGCATTCACCAAGACGGTTTCCTGAAAGAAAAATCAACATATGAAATCATTTCACCGGAACTTGTCGGCGTGACTGCTGATGCGCTCGTACTCGGAAAGCATTCCGGACGCCATGCGTTCAAAGACCGCCTGAATGCGCTTGGATTCCAGTTTGATAGTGAGGAAATCAATAAATTTTTTACGATGTTTAAAGAACTGACCGAAAAGAAAAAAGAAATCACCGATGATGACTTGATTTCTCTTATTTTAGAAGAAAAAGTGACGGACAAAAAAATCGGCTATGAATTTTTGTCTCTGCAAGTGCATTACGGGACGTCTCAGGTGCCGACTGCAACAGTCTCTTTAAAAAATCAGGAAAACGAACAGCTGATTCAAGAGGCGGCAACGGGGGCGGGCAGCGTAGAAGCCGTTTATAATACGCTCGGGCGCTGCATCGATAAAAATATTGAACTGACAGACTACCGCATCCAATCCAACCGGAAAGGCGAAGACGCGCTGGCTCAAGTTTTTGTCAGAGTGACCGTGAACGGAAAAGAAACATCAGGGCGGGGAATCGCGCAGGATGTTCTGGAAGCTTCTGCTAAAGCTTATCTGAACGCCGTGAACCGGCAGTTGGTGCTGGATTGCAATTTAGACGGATTAAAGAGACAGACTGCGGTCGGCTCGTAA	MRKINVFDTTLRDGEQSPGVNLNSREKLAIAKQLERLGVDIIEAGFPASSRGDFLAVQEIARTIKNCSVTGLARSVKGDIDAAWEALKDGASPRIHIFIATSDIHLKHKLKMTREEVKEKAVEMVKYAKERFPIVQWSAEDACRTELPFLAEIVEKVIDAGASVINLPDTVGYLTPAEYGNIFKYMKEHVPNIGRVKLSAHCHDDLGMAVANSLSAIENGADQIECAINGIGERAGNAALEEIAVALHVRNDAHQADSSLNLHELKRTSDLVSKLTGMAVPRNKAIVGDNAFAHESGIHQDGFLKEKSTYEIISPELVGVTADALVLGKHSGRHAFKDRLNALGFQFDSEEINKFFTMFKELTEKKKEITDDDLISLILEEKVTDKKIGYEFLSLQVHYGTSQVPTATVSLKNQENEQLIQEAATGAGSVEAVYNTLGRCIDKNIELTDYRIQSNRKGEDALAQVFVRVTVNGKETSGRGIAQDVLEASAKAYLNAVNRQLVLDCNLDGLKRQTAVGS	PGPT0000080_306	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000080-nifV-K02594	NA	NA
D1-12_01820	1029	ilvC	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGGTAAAAGTATATTATAACGGTGATATCAAAGAGAACGTATTGGCAGGTAAAAAAGTAGCGATTATCGGTTACGGTTCACAAGGTCATGCACACGCGCTGAACTTAAAAGAAAGCGGAATTGATGTCATTGTCGGCGTCAGACAAGGCAAATCATTTACACAGGCCCAAGAAGACGGTCATAAAGTCTTTTCGGTAAGAGAAGCGGCTGCCCAGGCTGATATCATTATGGTTCTTCTTCCGGATGAACAGCAGCAAAAAGTATATGAATCTGAAATCAAAGATGAATTGACGGCGGGCAAGTCATTGGTATTCGCACACGGATTTAACGTCCATTTCCATCAGATCGTGCCTCCTGCTGATGTGGATGTATTCCTTGTCGCCCCTAAAGGACCTGGACACCTTGTCAGAAGAACATATGAACAAGGCGCGGGCGTACCGGCATTGTTTGCCATCTACCAGGATGTATCAGGCGAAGCGAAAGATACGGCTCTTGCTTATGCAAAAGGAATCGGCGGAGCGCGTGCGGGCGTTCTTGAAACAACATTTAAGGAAGAAACGGAAACGGATTTGTTCGGTGAGCAGGCTGTTCTGTGCGGAGGTTTAACAGCGCTTGTCAAAGCGGGTTTTGAAACGCTGACAGAAGCCGGCTACCAGCCTGAACTCGCATACTTCGAGTGTCTGCACGAACTGAAGTTGATCGTAGACTTGATGTATGAAGAAGGATTGGCGGGCATGAGATACTCTATCTCCGATACGGCTCAATGGGGAGACTTTGTATCAGGACCGCGCGTAGTCGATGCGAAGGTAAAAGAATCGATGAAACAAGTATTAACGGATATTCAAAACGGTACATTCGCAAAAGAATGGATCGTGGAAAACCAAGTGAACCGTCCTCGTTTCAATGCGATCAATGCAAGTGAAAACGAGCATCAGATTGAAAAGGTCGGCAGACAGCTTCGTGAAATGATGCCGTTTGTCAAACAAGGCAAAAAGAAGGAAGCGGTGGTCTCCGTTGCGCAAAATTAA	MVKVYYNGDIKENVLAGKKVAIIGYGSQGHAHALNLKESGIDVIVGVRQGKSFTQAQEDGHKVFSVREAAAQADIIMVLLPDEQQQKVYESEIKDELTAGKSLVFAHGFNVHFHQIVPPADVDVFLVAPKGPGHLVRRTYEQGAGVPALFAIYQDVSGEAKDTALAYAKGIGGARAGVLETTFKEETETDLFGEQAVLCGGLTALVKAGFETLTEAGYQPELAYFECLHELKLIVDLMYEEGLAGMRYSISDTAQWGDFVSGPRVVDAKVKESMKQVLTDIQNGTFAKEWIVENQVNRPRFNAINASENEHQIEKVGRQLREMMPFVKQGKKKEAVVSVAQN	PGPT0008735_1115	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
D1-12_01821	519	ilvH	COG0440	Putative acetolactate synthase small subunit	TTGAAACGCATTATCACATTAACGGTGGTCAACCGCTCGGGAGTATTAAACCGGATCACCGGCCTGTTTACAAAAAGACACTATAATATCGAAAGCATCACTGTAGGCCACACGGAAACAAGCGGTGTTTCAAGGATTACATTTGTCGTCCATGTGGAAGGCGAAAATGACGTAGAGCAGCTGACAAAGCAGCTTAACAAACAAATTGACGTCCTGAAAGTGACGGATATTACAAACCAATCAATTGTACAGCGTGAGCTGGCATTAATCAAAGTTGTTTCCGCACCGTCGGCCAGAACGGAAATCAATGGAATCATTGAGCCGTTCAGAGCTTCCGTCGTTGATGTCTCAAGAGACAGCATCGTCGTTCAGGTTACCGGCGAATCTAATAAAATCGAAGCGCTCATAGAGCTTCTCAAACCTTACGGAATTAAAGAAATCGCGAGAACGGGCACAACGGCTTTTGCGAGGGGAACCCAGCAGAAGGCGTCATCCAATAAAACAATTTCAATTGTATAA	MKRIITLTVVNRSGVLNRITGLFTKRHYNIESITVGHTETSGVSRITFVVHVEGENDVEQLTKQLNKQIDVLKVTDITNQSIVQRELALIKVVSAPSARTEINGIIEPFRASVVDVSRDSIVVQVTGESNKIEALIELLKPYGIKEIARTGTTAFARGTQQKASSNKTISIV	PGPT0008205_1584	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
D1-12_01822	1725	ilvB	COG0028	Acetolactate synthase large subunit	ATGGGCACAAATGTACAGGCGGATTCTTTGTCTGCCGATTGTACAAAAACAATGAACGGGGCTCTGATGCTGATTGAATCATTAAAGAAAGAAAATGTCGAGATGATCTTCGGCTATCCGGGGGGAGCCGTCCTTCCGATTTACGATAAGCTGTATCAGTCGGGATTGGTTCACATCCTGCCCCGCCACGAGCAAGGCGCGATTCACGCGGCAGAAGGGTATGCGAGAGTCTCCGGAAAGCCGGGGGTTGTGATTGCTACCTCCGGACCCGGAGCGACAAATTTAGTTACCGGTCTTGCGGATGCGATGATAGATTCATTGCCGCTCGTAGTGTTTACCGGTCAGGTGGCCACTTCGGTCATCGGCAGCGACGCTTTCCAGGAAGCCGACATTTTAGGAATTACGATGCCGATTACGAAACACAGCTACCAAGTCCGCCGTCCGGAAGATCTCCCCCGTGTGATTAAAGAGGCATTCCATATCGCCACGACGGGAAGACCGGGTCCGGTATTAATTGATATACCGAAGGATGTCGCAGCATTTGAAGGAGAGTTCAGATATGATCACGAGATCAGCCTTCCGGGTTATCAGCCTGTAAAAGAGCCTAACTATCTGCAGATCCGAAAGCTCGTGGAAGCTGTCAGCAGTGCGAAAAAGCCGGTTATTTTAGCCGGAGCGGGTGTTTTGCACGGTAAAGCTTCAGAAGATTTAAAAAATTATGCCGAACAGCAGCAAATTCCGGTAGCGCACACGCTCCTCGGTCTGGGCGGTTTCCCGGCAGACCATCCTCTTTTTCTGGGAATGGCGGGGATGCACGGCACATACACAGCGAATATGGCGCTTTACCACTGTGACTTGTTGATCAGCATCGGAGCGCGGTTCGATGATCGCGTGACCGGAAATCTGAAGCATTTTGCAAAATCGGCCAAAGTGGCGCATATCGATATTGATCCTGCTGAAATCGGAAAAATTATCGAAACGCAGATTCCGGTGGTCGGCGACAGTAAAATCGTCCTTCAGGAATTATTGAAGCAAAACGGAAAACAGGGACAGACAGAGGAATGGAAACAGCAGCTTTCAGAATGGAAAGAAGAATATCCGCTTTGGTATACAGACAACAGAGAAGAGGGCTTGAAACCCCAAAAGCTGATTGAGTATATTCACCAATTCACAAACGGTGAGGCGATTGTGGCGACGGATGTCGGCCAGCACCAGATGTGGGCGGCTCAGTTTTATCCTTTCCGAAAGGCTGATAAGTGGGTGACCTCGGGGGGACTCGGCACAATGGGCTTCGGCCTTCCGGCGGCTATCGGAGCGCAGCTGGCCGATCGTAACGCCACGGTCGTTGCCATCCTCGGAGACGGCGGTTTTCAGATGACCCTTCAGGAATTAGATGTCATCCGGCAGCTGAATCTTCCTGTCAAAGTGGTTATCTTGAACAACGAATGTCTGGGCATGGTCAGACAGTGGCAGGAAATCTTCTATGAAGAACGCTACTCTGAATCCAAATTCTCGGCGCAGCCTGACTTTGTCAAATTGTCAGAAGCCTACGGCATTAAAGGCGTCCGGATTTCATCGGAAGAAGAGGCGGAAGAAGAGCTTAAAAAGGCGCTTTCATCAAAAGAACCGGCCGTTATTGACGTCCGGGTCGCCAAAAGCGAGAAAGTATTCCCGATGATTGCGCCGGGTAAAGGACTTCATGAAATGGTGGGGGTGAAACCTTGA	MGTNVQADSLSADCTKTMNGALMLIESLKKENVEMIFGYPGGAVLPIYDKLYQSGLVHILPRHEQGAIHAAEGYARVSGKPGVVIATSGPGATNLVTGLADAMIDSLPLVVFTGQVATSVIGSDAFQEADILGITMPITKHSYQVRRPEDLPRVIKEAFHIATTGRPGPVLIDIPKDVAAFEGEFRYDHEISLPGYQPVKEPNYLQIRKLVEAVSSAKKPVILAGAGVLHGKASEDLKNYAEQQQIPVAHTLLGLGGFPADHPLFLGMAGMHGTYTANMALYHCDLLISIGARFDDRVTGNLKHFAKSAKVAHIDIDPAEIGKIIETQIPVVGDSKIVLQELLKQNGKQGQTEEWKQQLSEWKEEYPLWYTDNREEGLKPQKLIEYIHQFTNGEAIVATDVGQHQMWAAQFYPFRKADKWVTSGGLGTMGFGLPAAIGAQLADRNATVVAILGDGGFQMTLQELDVIRQLNLPVKVVILNNECLGMVRQWQEIFYEERYSESKFSAQPDFVKLSEAYGIKGVRISSEEEAEEELKKALSSKEPAVIDVRVAKSEKVFPMIAPGKGLHEMVGVKP	PGPT0008185_1315	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
D1-12_01824	351			hypothetical protein	ATGAATAAGATGTTATCAGGCATGCAGGGCCTGCCTCCCGGATTTCCGCCTTTACCGGTCTTACCGCCGCAGTCTTATTATCCTCCGGCCCCGATGCATACAGCACCATATCAAGGTGACCCTTCTTTTCAGCAGGGATTCCCGTCATCCGGATACGGACAGCAGACCCCGCAAAGCACGCTGTCATTCGCCGGACAGCAATTCGTTCCGTACCCTTATACATCCGGGTACTACGGCCAATCCTTCAGTGACGTCGGCGGAAGCCTCGGCGCCGGGTCTCATCCCGGCGCGCTCGGGGGCGGTTTCAGCGGCCATGCAGGAAGCTTCAGTGCTCCGAGCGGATTCAGATGA	MNKMLSGMQGLPPGFPPLPVLPPQSYYPPAPMHTAPYQGDPSFQQGFPSSGYGQQTPQSTLSFAGQQFVPYPYTSGYYGQSFSDVGGSLGAGSHPGALGGGFSGHAGSFSAPSGFR				NA	NA	NA	NA	NA
D1-12_01825	186			hypothetical protein	TTGAAGTACGCATTTGCATATAAAAATCACAATATAGAAACGATCTTTTGCGGAAAAGACGAGCTGTTTGAGGAACTGAAGCAATTTTTAATCACTCAATGCGGTTTATTCATTGTTGAGGTTTCAAGGGCTGATTACTATACGGAGCAGGAAATGAATCAATGGAATGACCGTTATACTCTGTGA	MKYAFAYKNHNIETIFCGKDELFEELKQFLITQCGLFIVEVSRADYYTEQEMNQWNDRYTL				NA	NA	NA	NA	NA
D1-12_01826	177			hypothetical protein	ATGAGAGATAACAAAGAATGCTGTCCATATTGCAATGCTGATTTGCAAGGAGAACCTATTCCGAAAGAATCGCAGAAAGTATATGGTTCTGCCTATTTTACACGAAAAATTGGTATAAGCAGTATAGAAGCTGATAGGATTATTAAATGGCATTGTCCTGACTGCAACAAAGAATGA	MRDNKECCPYCNADLQGEPIPKESQKVYGSAYFTRKIGISSIEADRIIKWHCPDCNKE				NA	NA	NA	NA	NA
D1-12_01827	471	bin3		Putative transposon Tn552 DNA-invertase bin3	ATGGACAACAAAGAATTTGGATACGTTAGAGTAAGCAGCAAAGACCAAAATGAAGCACGACAACTGGATAGTATGTATGCTCTAGGAATTGATGAGCGTGATATTCATATTGATAAGCAAAGTGGAAAAGACTTCAATAGACCGCAATACCAAGCATTGAAAATGCGTTTGCGAAAAGGAGATATGTTATACATACATTCATTAGATAGGCTAGGTTGTAACAAAGAGATGATTTTAAACGAGTGGAAAGATATCACACAGAACATCAAAGCACATATTGTTGTAATTGATATGCCGTTGTTGGATACATGGAAATACAATGACTCCATCGGTTCTTTCGTGGCTGACTTGGTGTTACAGGTATTATCGTGGGTTGCTGAAGAAGAGAGAACCAAGATTAAGACTCGTCAAGCTGAAGGGATAGCTGCAGCTAAGGCACAGGGCAAACACCTTGGAAGACCTAAGACCTAA	MDNKEFGYVRVSSKDQNEARQLDSMYALGIDERDIHIDKQSGKDFNRPQYQALKMRLRKGDMLYIHSLDRLGCNKEMILNEWKDITQNIKAHIVVIDMPLLDTWKYNDSIGSFVADLVLQVLSWVAEEERTKIKTRQAEGIAAAKAQGKHLGRPKT				NA	NA	NA	NA	NA
D1-12_01828	1434			hypothetical protein	GTGACTAAGAGAAAGAAGACTGTTAATGAATTGTTGGAAGAAGCACTTTTTGTAGAGGATGAACAACCATTCCAAGTACCTGAGAATTGGGTTTGGGTAACTTTAAAAGATGTTTGTAAGATAAATATGGGACAGTCGCCTAAAGGTGAATATACTACTGATGATTCAAACAATATACCTTTAATAGGTGGTCCAGCAGACATGGGAGAAACATATCCAAATGCTAAAAGATATACAATTAAACCCACAAAATTATCTGAAAATGGCGAGTTAATTGTATCTGTTAGAGCAACTTTAGGAAAAACAAATATCGCAGATGGACAATATTGTCTTGGACGTGGTGTAGCAGGAATAAAATCAAATATCATAGATATCAGATTGTTAAGGTATTACTTTGAAACAATTAAGTCACATCTGTATTCGGTTAGCACAGGAACTACTTTTCAACAAATATCTAGGAAGAATATTGAAAGTATTGCATTTCCGCTTTTACCTTTAAATGAACAAAAACGGATTGCTGACAAAGTGGAGAGGTTTTTAAGTAAAATTGAAGAAGCAAAGCAGTTGATTGGCGAAGCGAAGGAAACGTTTGAACTTCGTCGAGCGGCTATTTTGGATAAGGCGTTTAGGGGAGAGTTGACGAGGAAGTGGCGAGAAGAACACCCTGATATAGAAAATGCAGAAGTGTTATATGATAAAATAATTAGTCTAATTAAGCCTAAAAAATTCGAGATTATTGAAGAGCAAAGTGAGTATATTCCATGTAAATGGAAATGGGTCAGACTGGGAGAAGTTGTACATGTAAATCCCCCAAAGAAAAAGTTAAATGAAGTATCTGAAGAACAAAAATGTACATTTATACCGATGCCTGCGGTGAGTGATAAAACTGGTAAAATCGAAGAACCAGAAGAAAGAGAATATAGAAAAGTTAAAAAAGGCTACACGTTTTTTTTAGAGAATGATGTACTGTTTGCTAAGATTACCCCTTGTATGGAAAATGGAAAATCAGCTATAGCTAGACAATTGAAAAACGGGTTTGGCTATGGTTCAACAGAATTTCATGTTTTACGTACTTCTGAGTATGTGAATGAACAGTATATTCACTATTTGGTTCGTTCACAAAGGTTTAGGGCAAAGGCTAAGAGAGAAATGACGGGAGCGGTTGGTCAGCAACGAGTGCCAAAAGAATTTTTATTGAACTATCCATTTCCTCTACCTCCTAAAGAGGAACAAGATGCTATTGTAAACATTTTGGATGATATCTTCGCTAAGGACAATTGTTCAAAATTCAATCTTCAACTCGAATCTGAGTTGGACATATTGAAACAATGCATCCTTTCGAAAGCTTTTCGTGGCGAACTTGGAACAAATGATCCGAGTGAAGAAAGTGCTGTTGAATTGCTAAAAGAAGTGCTACAAGAACAAGTAAAATAG	MTKRKKTVNELLEEALFVEDEQPFQVPENWVWVTLKDVCKINMGQSPKGEYTTDDSNNIPLIGGPADMGETYPNAKRYTIKPTKLSENGELIVSVRATLGKTNIADGQYCLGRGVAGIKSNIIDIRLLRYYFETIKSHLYSVSTGTTFQQISRKNIESIAFPLLPLNEQKRIADKVERFLSKIEEAKQLIGEAKETFELRRAAILDKAFRGELTRKWREEHPDIENAEVLYDKIISLIKPKKFEIIEEQSEYIPCKWKWVRLGEVVHVNPPKKKLNEVSEEQKCTFIPMPAVSDKTGKIEEPEEREYRKVKKGYTFFLENDVLFAKITPCMENGKSAIARQLKNGFGYGSTEFHVLRTSEYVNEQYIHYLVRSQRFRAKAKREMTGAVGQQRVPKEFLLNYPFPLPPKEEQDAIVNILDDIFAKDNCSKFNLQLESELDILKQCILSKAFRGELGTNDPSEESAVELLKEVLQEQVK	PGPT0027175_626	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027175-hsdS-K01154	NA	NA
D1-12_01829	1431	hsdM	COG0286	Type I restriction enzyme EcoKI M protein	ATGAATAACCAAGAAATCGTTCAAAAATTATGGAATTTATGCAATGTGCTTCGTGATGACGGTATTACATATCAACAATATGTCACGGAGTTAACCTATATTTTATTTTTAAAAATGATGAAAGAACAGCAAACAGAAAATGTAATACCCGAAGGATATAGATGGGATGATTTGCTAGAAAAAGAAGGAGTAGAACTCAAAACATTTTATCAACATCTTTTAATTAAGCTGGGCAATAGCGAGAATGCTCAATTGCGTCAAATTTACACTGATGCTGCTACAAGTATTACAGAACCCAAGAACTTAGAGAAAATTCTGAAGACCATTGATGGCCTTGATTGGTACAACGCAAAAGAAGAAGGTTTAGGTAATTTATATGAAGGCTTGTTAGAAAAAAACGCAAGCGAAACAAAATCAGGTGCTGGTCAATACTTTACACCGCGTGTATTAATTGATGTAATGGTGCAACTGATTGACCCTAAACCTGGAGAAAAATGCAATGACCCTGCAGCTGGTACATTCGGTTTTATGATTGCTGCAGACCAGTATTTGAAAAATAAGACAGATAACTATTATGATTTAGATCCACAACTGGGCGTTTTTCAAAAGAAAGAAGCGTTTACTGGAATGGAACTCGTCACAGGGACTCATCGTCTTGCTCTAATGAATGCATTACTTCATGATATCGAAGGGCGACTGGAACAAGGAGATTCGTTATCTAGTAATGGAAAGTGGATGAAAAACTTTGATGTCATTTTAACCAATCCACCATTTGGGACAAAAAAAGGTGGAGAGAGTGTCTCGCGTGATGACCTGACGTTTGAAACTTCCAATAAACAGCTGAATTTTCTACAGTTAATTTATAACGCTTTAAAAGACGATGGTCATGCACGGGCAGCAGTTGTATTACCTGATAATGTCTTGTTTGAAAGCGGGGTTGGTGCACAGATTCGCCGTGATTTAATGAATAAATGCAATCTGCATACAATCTTACGCTTACCAACGGGGATTTTCTATGCCCAAGGTGTGAAAACTAACGTCTTATTTTTCACAAGAGGAAAAACAGACCAAGATAATACAAAGGATGTTTGGGTATATGATCTCCGCACCAATATGACGTCATTCGGAAAACGGAATCAGCTAACAATGGCACACTTTGAAAACTTCATGAAAGCATATGTAGCAGAAGACCGCTCAAAAGTAGAGGATGAACGTTGGAATGTGTTCACAAGAGAAGATATTGCAAAAAAAGGGGACAGTTTAGATATCGGTTTGATTGCGGATGAATCATTATCTTCATACAATAATTTACCAGACCCGATTGAGTCGGCAGAAGAAGCGATTGCGAAACTTCAGCAGGCTATGGGGTTATTAAATGAGGTAGTTGAAGAGTTGCGTGCTGTTGAAAAGGATGAGGTGGTCAAAAAGTGA	MNNQEIVQKLWNLCNVLRDDGITYQQYVTELTYILFLKMMKEQQTENVIPEGYRWDDLLEKEGVELKTFYQHLLIKLGNSENAQLRQIYTDAATSITEPKNLEKILKTIDGLDWYNAKEEGLGNLYEGLLEKNASETKSGAGQYFTPRVLIDVMVQLIDPKPGEKCNDPAAGTFGFMIAADQYLKNKTDNYYDLDPQLGVFQKKEAFTGMELVTGTHRLALMNALLHDIEGRLEQGDSLSSNGKWMKNFDVILTNPPFGTKKGGESVSRDDLTFETSNKQLNFLQLIYNALKDDGHARAAVVLPDNVLFESGVGAQIRRDLMNKCNLHTILRLPTGIFYAQGVKTNVLFFTRGKTDQDNTKDVWVYDLRTNMTSFGKRNQLTMAHFENFMKAYVAEDRSKVEDERWNVFTREDIAKKGDSLDIGLIADESLSSYNNLPDPIESAEEAIAKLQQAMGLLNEVVEELRAVEKDEVVKK	PGPT0027180_5533	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027180-hsdM-K03427	NA	NA
D1-12_01830	3216			hypothetical protein	GTGATAACAATGAGTGGCAACTTTTCATTTTTTCAAGGGAAATGGGATGTACTTGCTAACTTGGGAGAGACAGCTGAGAGAAATGTATATCATGACCCCCATACAACAGTAATGAAACTGCGATTGTTCGCTGAAACACTAACTAAATTTATTCTTGCCGCTGAAAATATTAGAGAGGCATATGGTACAACACAAGTGGATCGCATTAACACTTTGCGTCGGGAAAGGTTACTTGAGCCTGAATTAATTGATATATTAGAGGCTCTTCGTCGCAAAGGGAATGTAGCGATGCATGAAGCGGATTATGGAAAAGCAGAAGAAGCAAAGGCTTTGTTGCAATTAACGTTCCGCTTGTCTATTTGGTTTATGGAGGTATATGGTGATTGGGACTTTCAAGCACCAGAGTATACAGAACTTCAAGAACAAACAGAACAGAGTACAGAAACACTTCAGCGAGAATATGAGGAGAAAGTCAAAAAGCTTGAAAAAGAATTAGAGGCAATTCGTCGACAGGCGGAAGTGGAACAAGAAGAGGTAAAAATCGAACGTAAAAAGATATCCAAAAACTTCATGCGTCGCCAGCAATTAACTGAAGTTGAAACACGTATCATCATTGATCAGAAGTTACGTGCTGCTGGATGGGAAGTAGACACGAATTTACTAAACTATAAAAAAAACAGGACGCTACCAGAGAAAAACAAACATATTGCCATTGCTGAGTGGAAGGTCGATGGCGGCTGGGTTGATTATGCATTGTTTATTGGACTCAAGCTTGTTGGTTTCATTGAAGCAAAAGCAGAAAAGAAAACGATTCCTGGGGCATTAGATAGTCAAACAAAAGTGTACGCGAAAAATGTCGTGCAAGTAGAAGATGAACAGATTACACCAACAACTGGTGATTATCAAGTCCCTTTTTTATATGCAACAAATGGCCGCCCTTATTTAAGACAGCTTCAAGAGGAATCGGGCATTTGGTTCTGGGATTCACGCAAACCATTTGAACATGCACGTCCGCTTGAAGGATGGCATTCACCTGAAGATTTACAGCTTCTTCTTAGCCAAGATGATAAGGATGCGGATAAGCTTCTAGAAGAAGAGGATATAACTAAGTTTGGATTGCGTCACTATCAGCAGAATGCGGTTCTGGCTGCAGAAAAGTCGTTAAAAGAAGGAAACAGAAGAATGCTTATTGCAATGGCTACAGGAACTGGGAAAACTCGTACTGCTATTGCGCTTATGTATCGCTTAATTAAGTCTAAAAAGTGTCGCCGCATTCTTTTTCTTGTCGACCGTAATTCACTCGGTAAACAAACAGAGGATTCACTGAAAGATACGAAAATTGAAGGTTACTCGTTTGCTGATACATATGATGTGAAGTCATTAGGCGATCTCACACCGGAAGTTGAAACGAAGGTGCAGATTGCAACCGTGCAGGGAATGGTTCGCAGACTTTTTTATAACGATAACGAAAAGCTTCCAAGCGTGGGGCAATATGATTTCATCATTGTAGATGAGGCGCACCGAGGCTATACAAGTGATAGAGAAATGACAGAGGAAGAATTAGAATTCCGTGATCAGAATGATTATATTAGTCAATATCGGCGCGTTATCGATTATTTTGATGCGGCATGTTTAGGGCTTACCGCAACACCTGCTCTACATACAACAGACATTTTCGGTATGCCAATTTTTAAATATTCATATAGCGAAGCAGTGTTGGACGGATATCTAGTGGACCATGAGCCCCCTTATTTGTTTAAAACAGAACTTTCACAAGTGGGCATCACCTTTGAAAAAGATGAGGAAGTAGAAGTATATGATGTTGATAAAGGGGAGATTCAACTAGAAAAGGTAGAAGATACTGTGCACTTTGAAGTGGAGCAGTTTAATAAAAAAGTCATTACAGAACCGTTTAACCGTGCAGTTTTAAATAAATTAGTTGATTATATTGACCCTGCAGGTAAAGAAAAAACGCTCATCTTTGCAGCTACTGATCAACACGCGGATCTTGTTGTTCGCTTATTAAAAGAAGCATTTAAAGAACGTGGTGATGACATTGAAGATGATGCCATTATGAAAATCACTGGCTATATCTACAAGCCATTAGATGCCATTAAACGGTTTAAAAATGAGCGACTACCTAATGTCGTAGTTACAGTTGATTTACTCACAACAGGTATTGACGTGCCGCCGATCACAAATTTGGTGTTTTTAAGAAGAATACAATCTCGTATTCTCTATGATCAAATGCTTGGCCGTGCGACTCGTCTCTGCCCAGAGATTGGGAAAACACACTTTAACATCTACGATGCCGTTGGTATATATGACAAGTTGCAACATTATACAGAAATGAAACCAGTTGTGAAGAAACAAAACTATCGTATTGGTGAGTTGTATAATTCTCTTATAAATGCGACGACTGATGAGGAAGCTTCATTTTATCGTGATCAATTAGTAGCGAAAATTCAGCGTCGCAAACAAAGATTTGACGAAGAAGGCATGGGAAAGTTTGAAGAATTATCAAATGGAAAAAATGTGGATGAATGGGTGAAAGAAATTCAAACATACTCACCGCAAGAAGCCACACAGCATAATATCCTATTTGAATACATGGAAACGTACCAAGTAACACGTGAAAAACGCTATATATCTGATAAGGAAGATGAAGTAACAGACGTCATTCGTGGGTATGGTGAAGGAAACAAGCGACCAGAAGATTATCTGGATGGTTTTGTTCGATTTATCCAAGAAAATATCAATGAAATTCCCGCTTTGCATCTGATCTGTACACGGCCAAAAGATCTAACAAGACAAGATTTACGAGAACTTATGACGATTTTAGAAACAAAAGGCTTTAAGCAATCTCATTTACAAACCGCTTGGAAACAGACAAAAAATGAGGACATTGCAGCAGATATTATTAGTTTTATTCGCCAAGCTGCATTAGGTGAAGCACTCGTTGACCATGAAGCACGTATTAAACAGGCAATGCACAAAGTGTATTCACTGCATGATTGGACGCCAAGGCAAAAGAAGTGGTTAGAGAGAATAGAAAAGCAATTACTTCAAGTGCCTGTTCTTGCGCCTACCGCAGAAGAGGCATTCTCGGAAGAACCTTTTAGAACGTCTGGTGGCTACAAATTACTGAAGCGGGAGTTCGGTGACTATATTGATCATATTGTCAATATGATCAATGAGAACCTTTATATCAGCTAA	MITMSGNFSFFQGKWDVLANLGETAERNVYHDPHTTVMKLRLFAETLTKFILAAENIREAYGTTQVDRINTLRRERLLEPELIDILEALRRKGNVAMHEADYGKAEEAKALLQLTFRLSIWFMEVYGDWDFQAPEYTELQEQTEQSTETLQREYEEKVKKLEKELEAIRRQAEVEQEEVKIERKKISKNFMRRQQLTEVETRIIIDQKLRAAGWEVDTNLLNYKKNRTLPEKNKHIAIAEWKVDGGWVDYALFIGLKLVGFIEAKAEKKTIPGALDSQTKVYAKNVVQVEDEQITPTTGDYQVPFLYATNGRPYLRQLQEESGIWFWDSRKPFEHARPLEGWHSPEDLQLLLSQDDKDADKLLEEEDITKFGLRHYQQNAVLAAEKSLKEGNRRMLIAMATGTGKTRTAIALMYRLIKSKKCRRILFLVDRNSLGKQTEDSLKDTKIEGYSFADTYDVKSLGDLTPEVETKVQIATVQGMVRRLFYNDNEKLPSVGQYDFIIVDEAHRGYTSDREMTEEELEFRDQNDYISQYRRVIDYFDAACLGLTATPALHTTDIFGMPIFKYSYSEAVLDGYLVDHEPPYLFKTELSQVGITFEKDEEVEVYDVDKGEIQLEKVEDTVHFEVEQFNKKVITEPFNRAVLNKLVDYIDPAGKEKTLIFAATDQHADLVVRLLKEAFKERGDDIEDDAIMKITGYIYKPLDAIKRFKNERLPNVVVTVDLLTTGIDVPPITNLVFLRRIQSRILYDQMLGRATRLCPEIGKTHFNIYDAVGIYDKLQHYTEMKPVVKKQNYRIGELYNSLINATTDEEASFYRDQLVAKIQRRKQRFDEEGMGKFEELSNGKNVDEWVKEIQTYSPQEATQHNILFEYMETYQVTREKRYISDKEDEVTDVIRGYGEGNKRPEDYLDGFVRFIQENINEIPALHLICTRPKDLTRQDLRELMTILETKGFKQSHLQTAWKQTKNEDIAADIISFIRQAALGEALVDHEARIKQAMHKVYSLHDWTPRQKKWLERIEKQLLQVPVLAPTAEEAFSEEPFRTSGGYKLLKREFGDYIDHIVNMINENLYIS	PGPT0027170_1160	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_R-M_SYSTEM,PGPT0027170-hsdR-K01153	NA	NA
D1-12_01831	372			hypothetical protein	GTGAAGTTATGTATTGCTCTCTTTATTGGACTTAAGCAATTTCATTCAGCTGAGGGATGCTACAGCTTTCCTATCATAAATGAGAATGAAGCTGACTATGTGCTGAAGCGTAAGGTAAATAACATGAAAAAGGCTGAGAAACATCACGAGCAAAGGCTTCAGGAATACAAGGAACAGAATATTAGATTTGCCACTGAGGAGGAGGAAGTATTTATTAGACTCTTCTACACGCAGCAAGAACTTGAAGATATCTTTGCTGGCTATGACTTGGGAGTTAAGAGGTTACACTTGCAGAATCTATATATGGAGCGGATGCGGCAATTATTCGATTTATATAACCTAAAAGGCACAAACTTTGTAGGAGTCTCTTAA	MKLCIALFIGLKQFHSAEGCYSFPIINENEADYVLKRKVNNMKKAEKHHEQRLQEYKEQNIRFATEEEEVFIRLFYTQQELEDIFAGYDLGVKRLHLQNLYMERMRQLFDLYNLKGTNFVGVS				NA	NA	NA	NA	NA
D1-12_01832	489			hypothetical protein	GTGACCAAAAGAAAAGGATTATTAGATGTTGATGTGGATGTAAAGGGATTATTAAATGGATTAACCATTACTAGTACTAGTTCCACCGCTCCAAAAGAAAAAATAAAACAATTTGAGGTCTTGGATGACTCAATGTTGGTTTCTGATGCTCTCGAAACCAACACTAGGCAAATGAAGGTGAGCGGGAATAGAAGCCGTACAATAAGCGATTATGTCCTCCATGTAGAGTATTTTCAGAGTGGAACAAACGTAAACCATGTTGCTGATATTACAGCCGATACGGTCTATAAGTGGCTAGACAGTATGAATGTAAGCAATCAAACCAAATTAACACGATTGAAATGTCTAAAAGCCTTCCTCTCCCGCTGTTTTGATAACGGTTGGATTGAAATAAAATTTTGGAAAACGATTAATATAAAGGTCGATCAAAAGGTTAAAGAAGGGGATGCAGAGCGTGAAGTTATGTATTGCTCTCTTTATTGGACTTAA	MTKRKGLLDVDVDVKGLLNGLTITSTSSTAPKEKIKQFEVLDDSMLVSDALETNTRQMKVSGNRSRTISDYVLHVEYFQSGTNVNHVADITADTVYKWLDSMNVSNQTKLTRLKCLKAFLSRCFDNGWIEIKFWKTINIKVDQKVKEGDAEREVMYCSLYWT	PGPT0021995_715	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
D1-12_01835	510			Putative metallophosphoesterase MG207	ATGAAAGTGCTAATAATAAGTGACAGTCACGGCCTTGAAGATGAGCTGGAGACGATTGCAAAGCGGCACGAAGACGAAGCGGATCTGATGATTCATTGCGGTGATTCAGAGCTTGACGCCGCACATCCGGCGCTTACGCCGTATCACACGGTAAAAGGCAATTGCGACTTTGGCGGCGGGTTTCAGGATGAACTCCTTCTGGACGCCGGTTCAAAGAAAATTCTGGCCGTTCACGGGCATCTTCACGGCATTAAACAGTCACTTTTAACTGTTTTTTACCGGGCGGAAGAGCTTGGGGCGGATATCGTCTGCTTCGGCCATTCACATATTGCCGGGAGTGAAGAGCTTCGGGGCAAGCTTTTGATTAATCCGGGCAGCATCCGTCTTCCGAGAGTCCGCAATGTGAAAAGCTATGCCATTCTTACTCTTACAGAAAGAGAAGGCGCCGTGACATTTTACGACGAAACGGGTCGGGAATTGAAGGACTTGGAGACTGCAATCAGTTTTTAA	MKVLIISDSHGLEDELETIAKRHEDEADLMIHCGDSELDAAHPALTPYHTVKGNCDFGGGFQDELLLDAGSKKILAVHGHLHGIKQSLLTVFYRAEELGADIVCFGHSHIAGSEELRGKLLINPGSIRLPRVRNVKSYAILTLTEREGAVTFYDETGRELKDLETAISF	PGPT0021590_22	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-12_01836	588			dITP/XTP pyrophosphatase	GTGAAAGAAGCCATTATTGCGACACACAATCAGGGAAAAGTGAAAGAATTCAAGGAAATACTCGAACCGAAAGGCTACAGCGTCTCTTCTTTGGCGGAAATCGGATTTACGGAAGAAATTGAAGAAACCGGACATACCTTTGAAGAAAACGCCATCTTAAAAGCGGAAGCCGTGGCAAAAGCCGTAAACAAAATGGTCATTGCAGATGACTCCGGTTTATCGGTGGACAACCTTGGAGGCAGACCGGGCGTTTATTCAGCCCGTTATGCCGGAGAAGCAAAAGATGATAAGGCGAATATGGACAAGGTGCTGTCAGAATTAAAAGGCATCGAAAAAGAGCAGCGCACGGCCCGTTTCCGCTGCGCCCTTGCCGTCAGCATGCCGGGGCAGGAAACAAAAACGGTCGAAGGTCATGTTGAAGGGTATATTGCGGAAGGACCCGAGGGGGATAACGGGTTCGGCTATGATCCCATTTTTATTGTAAAAGATAAAGATAAAACCATGGCCCAGCTGACAAGCGCTGAGAAAAACAAAATCAGCCACAGGGCTGAGGCGCTCAAGAAACTGTCAAAGCTGCTTGATTCATAA	MKEAIIATHNQGKVKEFKEILEPKGYSVSSLAEIGFTEEIEETGHTFEENAILKAEAVAKAVNKMVIADDSGLSVDNLGGRPGVYSARYAGEAKDDKANMDKVLSELKGIEKEQRTARFRCALAVSMPGQETKTVEGHVEGYIAEGPEGDNGFGYDPIFIVKDKDKTMAQLTSAEKNKISHRAEALKKLSKLLDS	PGPT0021590_5001	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-12_01837	738	rph	COG0689	Ribonuclease PH	ATGAGACACGACGGAAGACAGCACGATGAGCTGCGCCCTATCACATTTGATTTGGATTTTATCACTCACCCGGAAGGCTCGGTTTTAATTACAGCGGGAAATACGAAGGTCATCTGTAATGCATCTGTGGAAGACCGGGTGCCGCCATTTTTACGCGGCGGAGGAAAAGGCTGGATCACAGCGGAATACAGTATGCTTCCCCGCGCGACGAATCAAAGAACGATAAGAGAATCTTCAAAAGGAAAGGTCTCCGGCAGAACGATGGAAATTCAGCGGCTGATCGGGCGCGCGCTCCGGGCCGTCGTTGATTTGGAGAAGCTCGGCGAACGCACGATCTGGATCGACTGTGACGTCATTCAAGCCGACGGCGGAACAAGAACGGCTTCCATTACGGGCGCCTTCTTGGCGATGGCCATTGCGATCGGCAAACTCGTAAAAAGCGGCGTTATCAAAACCTCTCCTGTGACAGATTATCTCGCGGCCATTTCTGTCGGGATGGATAAAGAAGAAGGCCTTCTTTTGGATCTGAATTATGAAGAGGATTCGGCGGCTGAAGTCGACATGAATATTATCATGACGGGAAGCGGACGTTTTGTAGAGCTTCAAGGGACGGGCGAAGAAGCCACATTCTCCCGTGAAGATTTAAACGGACTGTTAAGTCTTGCCGAAAAAGGAATCCAGACGCTTATTCAAAAGCAAAAAGAAGTGCTGGGAGAAACATTGCCTGAACTGAAATAA	MRHDGRQHDELRPITFDLDFITHPEGSVLITAGNTKVICNASVEDRVPPFLRGGGKGWITAEYSMLPRATNQRTIRESSKGKVSGRTMEIQRLIGRALRAVVDLEKLGERTIWIDCDVIQADGGTRTASITGAFLAMAIAIGKLVKSGVIKTSPVTDYLAAISVGMDKEEGLLLDLNYEEDSAAEVDMNIIMTGSGRFVELQGTGEEATFSREDLNGLLSLAEKGIQTLIQKQKEVLGETLPELK	PGPT0021590_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-12_01838	1086	gerM	COG5401	Spore germination protein GerM	ATGCTGAAAAAAGGACCTGCAGTCATTGCTGCAACATGTCTTACTTCGGCTTTTGTGTTATCTGGATGCGGTTTGTTTCAATCCGATAAAACAGCCGGGGAAATTGACCCGCCTCAAGACATTTCATATGTAAAGGATGAAGCGGGAATTCAGGCAAAACCAAAGCAGTCAGAGAAAAACGGCACTTCTAAAGCCGACCAGCCGGCCAATACAGTCATGCGAGAGCTGTATCTGATTGATAAAAACGGCTATGTCGCAGCACAGACACTGCCTCTTCCGAACAGTGAGGGAACCGCAAAGCAGGCCCTTGAGTATTTGGTTCAGGGAGGGCCTGTGTCAGAAATCCTGCCGAACGGCTTCAGAGCGGTGCTCCCTGCGGATACGACGGTAAATGTTGATATTAAAAAAGACGGCACTGCCGTCGCTGATTTTTCGAAGGAATTTAAAAACTATAAAAAAGAAGACGAACAAAAAATCCTGCAATCGATTACATGGACGCTTACCCAATTCAGCTCAATAGATAAAGTCAAAATCAGAATCAACGGGCACGAGCTGAAAGAAATGCCTGTGGGCGGCACGCCTATTACGGGCGACTTAAGCAGAAAAGACGGGATTAATATTGAAACGGCCGGAGTGAATGATCTGACAGACACCCATCCGCTGACTGTATATTATCTGGCGGAAACAGAGACAAGCGAATACTACGTGCCTGTCACAAAGCGGATTGACAATTCGGAAACAAATGACATCACCGCTGCCGTTGAACAGCTCGCTGACGGACCGGGCAAAGCAAGCGGGCTTTTGACGGACTTTAATAACGATGTTAAGCTTCTCAGCAAGCCGAAAGTGAAAGACGGCCAGGTTACACTGGACTTTAACAGCTCTATTTACGGAAGCGCCGACGAAAAAACAAAAATGGTATCATCGGGCGTACTGGACAGCATCGTTCTCACGTTAACCGAACAGCCGTCGATCAAAAGTGTTTCTATAAAAGTAAATGGAAAATCAGAACTGGTGAATGAAAAAGGAGAATCCCTTTCAAAACCTGTTTCGAGGCCGTCACAAGTGAATACGGGTAGTTTTTAA	MLKKGPAVIAATCLTSAFVLSGCGLFQSDKTAGEIDPPQDISYVKDEAGIQAKPKQSEKNGTSKADQPANTVMRELYLIDKNGYVAAQTLPLPNSEGTAKQALEYLVQGGPVSEILPNGFRAVLPADTTVNVDIKKDGTAVADFSKEFKNYKKEDEQKILQSITWTLTQFSSIDKVKIRINGHELKEMPVGGTPITGDLSRKDGINIETAGVNDLTDTHPLTVYYLAETETSEYYVPVTKRIDNSETNDITAAVEQLADGPGKASGLLTDFNNDVKLLSKPKVKDGQVTLDFNSSIYGSADEKTKMVSSGVLDSIVLTLTEQPSIKSVSIKVNGKSELVNEKGESLSKPVSRPSQVNTGSF				NA	NA	NA	NA	NA
D1-12_01839	816	racE	COG0796	Glutamate racemase 1	TTGGAACAGCCGATAGGAGTCATTGATTCCGGGGTTGGCGGGTTAACCGTTGCTAAGGAAATCATGAGACAGCTACCGAAGGAAAATATCATCTATGTGGGAGATACAAAACGCTGCCCGTACGGCCCGCGTCCTGAAGAAGAAGTTCTTCAATACACGTGGGAAATGACCGATTACCTGCTGGAAAACCACCATATCAAAATGCTCGTGATCGCCTGCAATACGGCCACAGCCATTGCCTTGGAGGATATTCAGCGCAAAACGGATATTCCGGTTGTCGGCGTCATTCAGCCGGGTGCGAGAACGGCGATAAAGGTCACGAAAAACCAGCATATCGGCGTCATCGGCACGGTCAATACCATTAAAAGCAGAGCGTATGAGCAGGCGCTGCTCGGGTTAAACGCAGAACTTCAAGTTGAGAACACGGCTTGTCCGCTGCTCGTGCCGTTTGTAGAAAGCGGACGGTTTCTTCAGGAATCGGCGGAGGAAGCGGTTGAAGCATCGCTTGAGCCTTTAAAAGGTACATCAATTGACACCTTGATTTTAGGATGTACGCATTATCCGATTTTAAAAGATCCGATTCAGAACTATATGGGGGAGCATGTGAAAATCATTTCCTCCGGAGACGAGACGGCGAGAGAAGTGAGCACCATCTTGTCTTATAAAGGTTTGTTAAACCAATCGAAACATGCACCGGAGCATCAATTTCTTACAACGGGAGAGCGGAACGGCTTCGCAAAAATTGCCGAAGACTGGTTCGGCCACGAAATCGGCCATGTCGAGTGCATCTCCCTTCAAGAGCCGGTCAGAAAATAA	MEQPIGVIDSGVGGLTVAKEIMRQLPKENIIYVGDTKRCPYGPRPEEEVLQYTWEMTDYLLENHHIKMLVIACNTATAIALEDIQRKTDIPVVGVIQPGARTAIKVTKNQHIGVIGTVNTIKSRAYEQALLGLNAELQVENTACPLLVPFVESGRFLQESAEEAVEASLEPLKGTSIDTLILGCTHYPILKDPIQNYMGEHVKIISSGDETAREVSTILSYKGLLNQSKHAPEHQFLTTGERNGFAKIAEDWFGHEIGHVECISLQEPVRK	PGPT0020200_1937	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
D1-12_01840	318			hypothetical protein	GTGGGGCTTCAATGGCTTTATGAATTGGGGGATATGACAATAGGCGAATTATCAGCCAAAATGTATTTGGCTTGCAGCACGACGACGGATCTGATAGACCGCATGGAAAAAAATAAGCTTGTCGAGCGGGTCAAAGACCCGGCTGACAGACGGGTCGTCAGAATTCATCTTCTCGCTGAAGGAGAGCGCATTATCCAAGAAGTGATTTTGAAAAGACAGGCTTATTTGCGGGATATGTTTGCGACATTTTCCGAAGAAGAAACAGCCGCTTTCGAAAAATCATTATTGAAACTGCAGCATGAAATGAAAAGAAAATGA	MGLQWLYELGDMTIGELSAKMYLACSTTTDLIDRMEKNKLVERVKDPADRRVVRIHLLAEGERIIQEVILKRQAYLRDMFATFSEEETAAFEKSLLKLQHEMKRK	PGPT0013155_4002	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-12_01841	120			hypothetical protein	ATGACATCAAAATCTGTAGAGCATGTTGCGGATATCGAAAAATCACTCCGCCATATCGCTGCGATCATTAAACAAAAAGGAAGAGAAATCCTTAACCAATATGCAATTACACCGCCGTAA	MTSKSVEHVADIEKSLRHIAAIIKQKGREILNQYAITPP	PGPT0013155_3883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-12_01842	225	gerE	COG2771	Spore germination protein GerE	TTGAAGGAGAAAGATTTTCAATCAAAGCCGCTGCTGACCAAAAGAGAAAGAGAAGTATTCGAATTGCTCGTTCAAGACAAGACAACAAAGGAAATTGCAAGCGAGCTATTTATCAGTGAAAAAACTGTACGGAATCACATTTCAAATGCCATGCAGAAGTTAGGTGTGAAAGGGCGTTCGCAAGCTGTTGTCGAGCTTCTTAGAATGGGTGAGCTAGAGCTCTGA	MKEKDFQSKPLLTKREREVFELLVQDKTTKEIASELFISEKTVRNHISNAMQKLGVKGRSQAVVELLRMGELEL	PGPT0025270_90	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025270-gerE-K01994	NA	NA
D1-12_01843	438			hypothetical protein	ATGAAACAACCGCAATATATTGATATCCCGTTTGAAGAATGGAGACAGTCGTTTTCTTTCTTTACTGAAGTATCGGTTCGTTTTTCAGAAACGGATATGTTCGGCCATATGAATAATGTAACCCCTTTCATCTATTTTGAAGAAGCACGGATCGCCTATTTTAAACAGCGAGGCATAACGGCGCAAAACTCGGAAACGATGACGGTCGTCGCAAGCCAGCAGTGCGACTATATGCGTCAGGTGATGCCGTATGAAAATCTGCGGATTTATGTGAAAGCAAGCGCTGCCGGAAATGCGTCCGTCACCCTTCATTACCTTGGAGAAAATGAGTCGGGCCTGCCGTGCTTTACAGGTTCCGTCGTTATGGTTCAAGTGTCGAAGAAAAGCGGCAAAGCGGTCAGCTGGACGGAGCGGGAGAAAGGCGTTCTGCTCGCCTGA	MKQPQYIDIPFEEWRQSFSFFTEVSVRFSETDMFGHMNNVTPFIYFEEARIAYFKQRGITAQNSETMTVVASQQCDYMRQVMPYENLRIYVKASAAGNASVTLHYLGENESGLPCFTGSVVMVQVSKKSGKAVSWTEREKGVLLA	PGPT0001850_3702	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-12_01844	759	frdB	COG0479	Fumarate reductase iron-sulfur subunit	ATGAGTGAGAAAAAGATACGGTTTATCATTACACGTCAGGATACGCCCGAAAGCGCGCCATACGATGAAGAATTCGAAATCAATTACCGCCCGAATCTGAACGTGATTTCCGCCCTGATGGAAATCCGCAGAAATCCCGTGAATGCAAAAGGAGAGAAAACCACTCCGGTCGCATGGGACATGAACTGTCTTGAAGAAGTATGCGGCGCCTGCTCCATGGTCATCAACGGGAGACCGCGCCAGTCATGTACGGCGCTGATTGATAAGCTGGAACAGCCGATCCGTCTGAAGCCGATGAAAACATTCCCGGTTGTCCGTGACCTTCAGGTTGACCGCAGCAGAATGTTTGATTCACTGAAAAAAGTGAAAGCATGGGTGCCGATTGACGGGACTTATGATTTGGGGCCGGGGCCGAGAATGCCGGAAAAACGCCGCCAGTGGGCATATGAATTGTCTAAATGCATGACATGCGGCGTCTGCCTCGAAGCCTGCCCGAACGTCAACAGCAAGTCGAAATTCATGGGGCCTGCCCCGATGTCGCAAGTCCGTCTGTTTAACGCCCATCCGACGGGCGCGATGAACAAAGCAGAACGTTTAGAAGCGTTAATGACAGACGGCGGCCTTGGAGATTGCGGGAATTCACAAAACTGTGTGCAATCCTGCCCGAAAGGCATTCCGCTTACGACTTCAATCGCCGCTTTGAACAGAGATACCAATTTACAAGCATTCCGTAATTTCTTCGGAAGCGACAGAGTATAA	MSEKKIRFIITRQDTPESAPYDEEFEINYRPNLNVISALMEIRRNPVNAKGEKTTPVAWDMNCLEEVCGACSMVINGRPRQSCTALIDKLEQPIRLKPMKTFPVVRDLQVDRSRMFDSLKKVKAWVPIDGTYDLGPGPRMPEKRRQWAYELSKCMTCGVCLEACPNVNSKSKFMGPAPMSQVRLFNAHPTGAMNKAERLEALMTDGGLGDCGNSQNCVQSCPKGIPLTTSIAALNRDTNLQAFRNFFGSDRV	PGPT0001600_2108	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
D1-12_01845	1761	frdA		Fumarate reductase flavoprotein subunit	ATGAGTCAATCAAGCATTATCGTAGTCGGCGGGGGTCTTGCCGGCCTCATGGCGACAATTAAAGCAGCGGAATCAGGCAAGGCCGTTAAATTGTTTTCCATCGTTCCGGTCAAACGCTCTCACTCGGTCTGCGCGCAGGGCGGGATAAACGGAGCTGTCAACACAAAAGGGGAAGGAGACTCTCCGTTTGAGCATTTTGATGACACGGTATACGGAGGCGACTTTTTGGCAAACCAGCCTCCTGTAAAAGCGATGTGTGAAGCGGCGCCGTCCATTATCCACTTATTGGACCGCATGGGGGTTATGTTTAACAGAACGCCGGAAGGGCTTTTGGACTTCCGCCGTTTCGGGGGTACACAGCATCACAGAACCGCATACGCGGGAGCGACGACGGGTCAGCAGCTTCTTTACGCACTGGACGAGCAGGTGCGCAGATATGAAGTGGCGGGTCTCGTCACAAAATACGAAGGCTGGGAATTCCTCGGCGCCGTTCTTGACGATGAGCGCACGTGCCGCGGTATCGTAGCCCAAAATCTGACCAATATGCAAATCGAGTCATTCCGTTCTGACGCCGTTATTATGGCGACGGGAGGACCCGGAATCGTATTCGGAAAATCAACAAACAGCATGATCAACACGGGATCTGCCGCATCAATCGTTTATCAGCAGGGCGCTTATTATGCAAACGGCGAATTTATCCAAATTCACCCGACAGCAATCCCGGGGGACGATAAACTGCGTCTGATGAGTGAATCGGCGCGCGGCGAGGGCGGAAGAGTCTGGACGTACAAAGACGGAAAACCTTGGTACTTCCTTGAGGAAAAATATCCGGCTTACGGAAACCTCGTGCCGCGGGATATTGCGACACGTGAAATCTTTGACGTGTGCGTGAATCAGAAACTCGGCATCAACGGAGAAAACATGGTGTATCTCGATCTGTCGCACAAAGATCCGAAAGAGCTTGACGTTAAGCTTGGCGGCATTATCGAAATCTATGAAAAATTCATGGGCGATGACCCGCGCAAGCTTCCGATGAAAATTTTCCCTGCCGTTCACTATTCAATGGGCGGACTGTGGGTTGATTATGATCAGATGACAAGCATCCGCGGACTGTTCGCGGCGGGAGAATGTGATTATTCAATGCACGGAGGAAACCGTTTAGGGGCGAACTCTCTGCTTTCCGCCATCTACGGAGGAATGGTGGCCGGACCGAATGCGGTGAAATATGTTTCCGGACTTGAAACATCAGCGGAAGACCTGTCTTCTTCATTATTTGATTCCTATGTGAAAAAAGAAGAAGAAAAATGGGCCGATATCATGAAGATGGACGGCGACGAAAATGCCTACGTGCTTCACCGCGAGCTCGGAGAATGGATGACGGCCAACGTCACGGTGGTCCGCCACAACGACAAACTTTTGAAAACGGATGACAAGATCCAAGAGCTGATGGAACGCTTTAAGAAAATCAATATCAACGATACGACAAAATGGAGCAACCAAGGGGCGATGTTCACCCGCCAGTTCTCCAATATGCTTCAGCTTGCCAGAGTCATCACGCTCGGCGCATATAACCGAAATGAAAGCCGGGGAGCGCACTATAAACCGGATTTCCCTGAAAGAAATGACGATGAGTGGCTCAAAACGACGATGGCTAAACATGCCGGTCCGTTTGAAGCTCCGGAATTTGAATATCAGGATGTCGATGTATCACTGATTGCGCCCCGTAAACGCGACTACTCGAAGAAGAAGGTGGCGAAATAA	MSQSSIIVVGGGLAGLMATIKAAESGKAVKLFSIVPVKRSHSVCAQGGINGAVNTKGEGDSPFEHFDDTVYGGDFLANQPPVKAMCEAAPSIIHLLDRMGVMFNRTPEGLLDFRRFGGTQHHRTAYAGATTGQQLLYALDEQVRRYEVAGLVTKYEGWEFLGAVLDDERTCRGIVAQNLTNMQIESFRSDAVIMATGGPGIVFGKSTNSMINTGSAASIVYQQGAYYANGEFIQIHPTAIPGDDKLRLMSESARGEGGRVWTYKDGKPWYFLEEKYPAYGNLVPRDIATREIFDVCVNQKLGINGENMVYLDLSHKDPKELDVKLGGIIEIYEKFMGDDPRKLPMKIFPAVHYSMGGLWVDYDQMTSIRGLFAAGECDYSMHGGNRLGANSLLSAIYGGMVAGPNAVKYVSGLETSAEDLSSSLFDSYVKKEEEKWADIMKMDGDENAYVLHRELGEWMTANVTVVRHNDKLLKTDDKIQELMERFKKININDTTKWSNQGAMFTRQFSNMLQLARVITLGAYNRNESRGAHYKPDFPERNDDEWLKTTMAKHAGPFEAPEFEYQDVDVSLIAPRKRDYSKKKVAK	PGPT0001605_3653	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
D1-12_01846	609	sdhC	COG2009	Succinate dehydrogenase cytochrome b558 subunit	ATGTCTGGGAACAGAGAGTTTTATTTTCGAAGATTGCATTCCTTGCTCGGTGTTATTCCGGTCGGCATCTTTTTGATCCAGCATTTAGTCGTCAACCAATTTGCCGCAAGGGGAGCGGATGCGTTTAACAAGGCGGCCGGCTTTATGGACAGTCTGCCGTTCAGGTATGCGTTAGAAATTTTTATTATTTTCTTACCTTTAATTTATCATGCGGTTTACGGTGTGTACATAGCATTTACTGCGAAAAACAACGCTGGCCACTACAGTTATTTCAGAAACTGGATGTTTGTGCTTCAGCGTGTCACTGGTATTCTCACCCTTATTTTCGTCAGCTGGCATGTATGGCAGACGCGGATTGCCGCGCAGATGGGCGCTGAAGTCAACTTCGATATGATGGCGAATATTTTGAGCTCGCCGTTTATGCTCGGCTTTTACATTGTAGGCGTTTTATCGGTCATTTTTCACTTTTCAAACGGCTTATGGTCTTTTGCGGTCACATGGGGGATCACGGTCACGCCGCGTTCTCAAAGAATTTCGACTTACGTGACGCTGATTATATTTTTAGCGCTTTCATATGTAGGTTTAAAAGCGATTTTTGCGTTTGTGTAA	MSGNREFYFRRLHSLLGVIPVGIFLIQHLVVNQFAARGADAFNKAAGFMDSLPFRYALEIFIIFLPLIYHAVYGVYIAFTAKNNAGHYSYFRNWMFVLQRVTGILTLIFVSWHVWQTRIAAQMGAEVNFDMMANILSSPFMLGFYIVGVLSVIFHFSNGLWSFAVTWGITVTPRSQRISTYVTLIIFLALSYVGLKAIFAFV	PGPT0001595_1430	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
D1-12_01847	447	yslB		putative protein YslB	ATGAAGAATAATTATGAAGCAGCTTTAGAACCTTTAACTGAACTCGACGTCAGCGCATACGGCTACGAATTAATCCGGGAAATCGTGCTTCCGGATATCCTCGGCCCGGAACATTCATCGATGATGTATTGGGCGGGAAAACGCCTCGCCCGCAAATTTCCTCTTCAATCGTGGGAAGAAATCCCCGCCTTTTTTGAAAAAGCCGGCTGGGGAACTTTGACAAACGCAGGATCAAAAAAACAAGAACTGGAATTTGAACTGGAAGGACCGCTCGTATCCAGCAGGCTCAAACATCAGAAAGAGCCTTGTTTCCAGCTTGAAGCCGGTTTTATAGCCGAACAGATTCAATTGATGAACGATCAGATTGCAGAATCTTATGAACAGGTAAAAAAGAGAGCGGATAAAGTCGTCCTGACCGTAAAATGGGATATGAAGGACCCTGTATAA	MKNNYEAALEPLTELDVSAYGYELIREIVLPDILGPEHSSMMYWAGKRLARKFPLQSWEEIPAFFEKAGWGTLTNAGSKKQELEFELEGPLVSSRLKHQKEPCFQLEAGFIAEQIQLMNDQIAESYEQVKKRADKVVLTVKWDMKDPV				NA	NA	NA	NA	NA
D1-12_01848	1230	lysC_2	COG0527	Aspartokinase 2	ATGGGTCTTATCGTACAAAAATTCGGAGGCACTTCCGTCGGCTCTGCCGAAAAAATTCAAAATGCCGCAAATCGCGCCATTGCTGAAAAGCAAAAAGGCCATGATGTCGTAGTCGTCGTTTCGGCAATGGGAAAATCAACCGACGCGCTCGTTAACCTCGCGGCTGAAATCACATCTGAACCAAGCAGACGCGAGATGGATATGCTTTTGTCTACGGGAGAGCAGGTCACGATCTCGCTTTTGGCCATGGCGCTTCAGGAAAAAGGATATGACGCCGTCTCTTATACGGGCTGGCAGGCGGGTGTCCGCACGGAAGCCGTTCACGGCAATGCGAGAATTATGGATATTGATATCACGGCGATTCGTTCGCAGCTTGCAGAAGGCAAAATCACAGTCGTTGCCGGTTTTCAGGGCGTAACGGAAGACGGCGGCATCACGACGCTCGGACGGGGCGGTTCCGATACGACGGCGGTCGCTCTTGCAGCAGCGCTGGAAGCGGATAAATGCGACATTTATACAGATGTTCCGGGCGTATTTACGACAGATCCGCGGTATGTCCGGTCAGCGAGAAAACTGGCGGGAATTTCTTATGATGAAATGCTGGAGCTTGCAAATCTAGGAGCGGGTGTTCTTCACCCGCGGGCGGTTGAGTTCGCGAAAAACTACCAAGTGCCTTTGGAAGTGCGGTCAAGCACGGAACATGAAGCTGGAACATTAATTGAGGAGGAATCATCAATGGAGCAGAATTTAATCGTCAGAGGAATTGCATTTGAAGACCAGATCACAAGGGTGTCCGTTACGGGCCTTGCAAGCGGATTGACAACACTTTCAACAATCTTCACCGCGCTGGCAAAACGAAACATCAACGTTGACATTATTATTCAGACTCAGTCGGACGATGGGGAAGCGGATATTTCTTTCTCAGTGAAAACGGAAGATGCTGCGCAAACGGTCGCCGTGCTTGAAGAATATAAAAACGCGCTTGACTATGAAAAAATTGAAACCGAAAGAAAACTGGCGAAAGTCTCTATTGTCGGGTCGGGCATGGTTTCAAATCCCGGCGTCGCCGCGGACATGTTTGCCGTACTGGCGGAAAAAAATGTACAAGTCAAAATGGTGAGCACATCTGAAATAAAAGTATCAGCGGTTGTCAGCGAAAATGATATGGTGAAAGCGGTCGAAGCGCTTCATGATGCGTTTGAGCTTTCTAAACAGCCGTCTGCCGTATAA	MGLIVQKFGGTSVGSAEKIQNAANRAIAEKQKGHDVVVVVSAMGKSTDALVNLAAEITSEPSRREMDMLLSTGEQVTISLLAMALQEKGYDAVSYTGWQAGVRTEAVHGNARIMDIDITAIRSQLAEGKITVVAGFQGVTEDGGITTLGRGGSDTTAVALAAALEADKCDIYTDVPGVFTTDPRYVRSARKLAGISYDEMLELANLGAGVLHPRAVEFAKNYQVPLEVRSSTEHEAGTLIEEESSMEQNLIVRGIAFEDQITRVSVTGLASGLTTLSTIFTALAKRNINVDIIIQTQSDDGEADISFSVKTEDAAQTVAVLEEYKNALDYEKIETERKLAKVSIVGSGMVSNPGVAADMFAVLAEKNVQVKMVSTSEIKVSAVVSENDMVKAVEALHDAFELSKQPSAV	PGPT0014040_4906	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
D1-12_01850	1773	uvrC_1	COG0322	UvrABC system protein C	ATGAATAAACAACTGAAAGAAAAGCTGGCCCTCCTTCCCGATCAGCCGGGCTGTTATTTAATGAAAGACCGTCAAAAAACAGTCATCTACGTGGGGAAAGCGAAAGTCTTGAAAAACAGGGTGCGATCTTATTTCACCGGTTCTCACGACGCAAAAACCCAACGGCTTGTGACGGAGATTGAGGACTTTGAATATATCGTGACTTCCTCCAATCTTGAAGCGCTTATTTTGGAAATGAATCTGATTAAAAAATACGATCCGAAATACAATGTCATGCTGAAAGATGATAAAACCTATCCCTTTATTAAAATCACCCATGAACGCCATCCGCGGCTGATTGTCACCCGGAATGTCAAAAAAGACAAAGGACGCTATTTCGGCCCGTATCCGAATGTGCAGGCGGCGCGGGAAACGAAAAAACTGTTGGACCGCCTTTACCCGCTCAGGAAATGCTCAAAGCTTCCGGACCGCGTCTGTCTTTATTATCATCTCGGACAATGCCTCGCCCCATGTGTAAAGGATATATCTGAGGAGACAAACCGCGAGATTGTTGAAGACATCACCCGTTTTTTAAAGGGAGGGCATAACGAAATCAAAAAAGAGCTCGAAGCGAAAATGGCAGAAGCGGCGGAAAAGCTTGAATTTGAACGGGCTAAAGAATTCCGCGACCAGCTTGTTCACATCGAATCGACGATGGAGAAGCAAAAAATGACCATGAATGACCTTCTGGACCGCGATGTGTTTGCATATGCCTACGATAAAGGCTGGATGTGCGTCCAAGTCTTTTTCATTCGCCAAGGAAAACTGATCGAACGCGACGTCAGCATGTTTCCGATGTATCAGGAAGCGGATGAAGAATTCCTGACCTTCATCGGCCAGTTCTATTCCAAAAACAATCACTTTCTGCCTAAGGAAATTCTGGTGCCTGACAGCGTTGACAGGGACATGATCAGCGAGCTGTTGGAAACCGCCGTGCATCAGCCGAAAAAAGGCCCGAAAAAAGAGCTGCTTTTGCTTGCGCACAAAAATGCGAAAATTGCTCTGCGGGAAAAATTCTCGTTAATCGAGCGGGATGAGGAACGGTCGATCGGTGCAGCCGAACGGCTCGGCGAAGCGCTGAATATTTACACGCCGCATCGGATTGAAGCGTTTGACAACTCCAATATTCAAGGCACAAACCCCGTATCGGCCATGATTGTCTTTATTGACGGAAAACCGAATAAAAAGGAATACCGCAAATATAAAATTAAAACCGTAACAGGGCCGGATGATTACGGCTCAATGAGGGAAGTCGTCAGAAGAAGGTACACGAGGGTGCTCCGCGAAAATCTTCCGCTGCCGGATTTAATCATCATTGACGGCGGAAAAGGGCAGATTAACGCGGCGCGCGACGTGCTCGAGAATGAGCTCGGCCTTGATGTCCCGGTAGCGGGATTGGCGAAAGATGATAAACACCGAACATCCAACCTTTTGATCGGCGACCCGCTTGAACCGGTGTTTCTGGAGCGGAACAGCCAAGAGTTTTACCTGCTTCAGCGTATTCAGGACGAAGTTCACCGTTTTGCGATCAGCTTTCACAGACAGATCCGGGGAAAAAGCGTCTTTCAATCCGTTCTGGATGATATCCCCGGAATCGGCGAAAAACGCAAAAAAATGCTCTTAAAACATTTCGGATCTGTCAAAAAGATGAAGGAAGCAAGCCTTGACGATATCAAAAAAGCCGGTGTGCCGGCCGCGGCGGCCCAGCTGCTGTTTGAAAAATTGAAAAAATAG	MNKQLKEKLALLPDQPGCYLMKDRQKTVIYVGKAKVLKNRVRSYFTGSHDAKTQRLVTEIEDFEYIVTSSNLEALILEMNLIKKYDPKYNVMLKDDKTYPFIKITHERHPRLIVTRNVKKDKGRYFGPYPNVQAARETKKLLDRLYPLRKCSKLPDRVCLYYHLGQCLAPCVKDISEETNREIVEDITRFLKGGHNEIKKELEAKMAEAAEKLEFERAKEFRDQLVHIESTMEKQKMTMNDLLDRDVFAYAYDKGWMCVQVFFIRQGKLIERDVSMFPMYQEADEEFLTFIGQFYSKNNHFLPKEILVPDSVDRDMISELLETAVHQPKKGPKKELLLLAHKNAKIALREKFSLIERDEERSIGAAERLGEALNIYTPHRIEAFDNSNIQGTNPVSAMIVFIDGKPNKKEYRKYKIKTVTGPDDYGSMREVVRRRYTRVLRENLPLPDLIIIDGGKGQINAARDVLENELGLDVPVAGLAKDDKHRTSNLLIGDPLEPVFLERNSQEFYLLQRIQDEVHRFAISFHRQIRGKSVFQSVLDDIPGIGEKRKKMLLKHFGSVKKMKEASLDDIKKAGVPAAAAQLLFEKLKK	PGPT0014925_4634	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
D1-12_01851	315	trxA	COG0526	Thioredoxin	ATGGCTATCGTAAAAGCAACTGATCAATCGTTCTCAGCTGAAACAAGTGAAGGTGTCGTATTGGCTGATTTCTGGGCTCCTTGGTGCGGACCTTGTAAAATGATCGCGCCCGTTCTTGAAGAGCTTGATCAAGAAATGGGAGACAAACTGAAAATCGTCAAAATCGACGTGGATGAAAACCAAGAAACTGCCGGTAAATACGGCGTCATGAGCATCCCGACACTTCTCGTGTTAAAAGACGGAGAAGTCGTTGAAACATCTGTCGGTTTCAAACCGAAAGAAGCTCTTGAAGAGCTTGTAAACAAACATCTGTAA	MAIVKATDQSFSAETSEGVVLADFWAPWCGPCKMIAPVLEELDQEMGDKLKIVKIDVDENQETAGKYGVMSIPTLLVLKDGEVVETSVGFKPKEALEELVNKHL	PGPT0013055_10036	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
D1-12_01852	1491	abf2	COG3534	Intracellular exo-alpha-L-arabinofuranosidase 2	TTGTCTCACAATACGGCAGTCATTCAAACTGATATCACACGGGGAACCATTAATAAAAACATATACGGACATTTCGCGGAACACCTGGGAAGAGGCATATATGAGGGCATCTGGGTCGGAAAAGATTCCGATATTCCGAATACCGGAGGGGTCAGGACGGATGTCGCCGCCGCCCTCAAGCAGCTTCAGATTCCCGTCCTCAGATGGCCGGGCGGCTGTTTTGCTGATGAATATCATTGGGCAAACGGCGTAGGGAAACGCAAAACAATGCTGAATACCCATTGGGGCGGGACGATTGATTCCAATGAATTCGGCACGCACGAGTTTATGATGCTTTGTGAACTGCTCGGATGCGAACCGTACATCGCCGGAAACGTCGGCAGCGGAACGGTTAAAGAAATGGCTGATTGGATTGAATACATGACGTTTGAAGCGGGCACGCCGATGTCCGACTGGAGAAAAGAAAACGGGCGGGAAAAACCATGGAAGCTGAAATATTTCGGAATAGGAAATGAGAACTGGGGCTGCGGCGGAAACATGCATCCTGAGTATTATGCCGACCTTTACCGAAACTTCCAAACCTATGTCCGCAATTACAGCGGTAATGAAATCTATAAAATTGCCGGCGGCGCGAATGTCGACGATTACCGCTGGACTGAAACTTTAATGAAAAAAGCCGCGGATCTCATGGACGGGCTGAGCCTGCATTATTACACAATACCGGGCGACTTCTGGAAGGGGAAAGGATCAGCGACGGAGTTTACGGAAGATGAATGGTTCATCACGATGAAAAAAGCGGCGCATATGGATGAATTGATCACAAGGCACAGCGCCATCATGGATCAGTACGATCCCGAAAAAAGAGTCGGGCTGATCATTGATGAATGGGGCACGTGGCTTGACCCTGAGCCGGGCACGAATCCGGGCTTTCTGTATCAGCAGAATACGATCCGCGACGCCCTTGTCGCCGCCGCGCATTTTCACATTTTTCATCAGCACGCAGACCGCGTACAGATGGCCAATATCGCGCAAACCGTCAACGTGCTTCAGGCAATGATCCTGACAGAAGGGAACGATATGCTGTTGACGCCGACGTATCATGTGTTTGATATGTTTAAGGTGCACCAGGACGCATCTCTTTTGGCGGCAGAAACAAATGCAGCCGGGTACGAATGGAATGACGGCCGGCTCCCGCAAGTCAGCATTTCAGCGTCCAAACAGCAAAACGGAGACATACATATCAGCATTTGTAATATCGATCATCTGCAAAAAGCTGATGTGAAGATTGAACTGCGGGGCATGAAAAAGACAGGGAAGCCTTCGGGAACGATTCTGCACGCGGAAAAAATGAATGCCCATAATACATTCAGCAGTCCGGAAAACGTCAAACCGAAGCCGTTTTCCGGGTTTACTCAAAAGAGCGGAAAACTTGAGGCGGAGCTTCCTCCGATGGCGATTGTATTAATCACGCTGCCTGCGGGTCCATCTTAA	MSHNTAVIQTDITRGTINKNIYGHFAEHLGRGIYEGIWVGKDSDIPNTGGVRTDVAAALKQLQIPVLRWPGGCFADEYHWANGVGKRKTMLNTHWGGTIDSNEFGTHEFMMLCELLGCEPYIAGNVGSGTVKEMADWIEYMTFEAGTPMSDWRKENGREKPWKLKYFGIGNENWGCGGNMHPEYYADLYRNFQTYVRNYSGNEIYKIAGGANVDDYRWTETLMKKAADLMDGLSLHYYTIPGDFWKGKGSATEFTEDEWFITMKKAAHMDELITRHSAIMDQYDPEKRVGLIIDEWGTWLDPEPGTNPGFLYQQNTIRDALVAAAHFHIFHQHADRVQMANIAQTVNVLQAMILTEGNDMLLTPTYHVFDMFKVHQDASLLAAETNAAGYEWNDGRLPQVSISASKQQNGDIHISICNIDHLQKADVKIELRGMKKTGKPSGTILHAEKMNAHNTFSSPENVKPKPFSGFTQKSGKLEAELPPMAIVLITLPAGPS	PGPT0018655_1739	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
D1-12_01853	978	carE	COG2025	Caffeyl-CoA reductase-Etf complex subunit CarE	ATGGGAAAAAAAGTGATCGTACTCGGAGAATTTCGTGACGGCGCCTTACGGAACGTCACCTTTGAAGCCATAGCCGCAGGCAAAACCATTTCCGGCGGAGGAGTTGTCATCGGCGTGCTGATGGGAAAGGGCGCGGCTGATGCAGCATCAGAACTCATTCAGTACGGCGCCGACAAAGTATTTACGGCCGATTCGCCGGGGCTTTCTCAGTATACGGCGGACGGATATGCCGCGGTTCTCGGGGATTTGATCGAAAATGAAAAGCCTGATGCGGTCATTTTCGGCCACACTTCTATGGGAAAAGATTTGTCACCTAAGCTTGCGGCCCGGTTTGAAACGGGGCTGATTTCAGACAGCACGGATGTAAGCGTTACCGGAGACAACATCGTTTTTACAAGACCGATCTATTCCGGGAAAGCCTTTGAACAGGTGATTTCAACTGATCCTTTCATTCTGGCGACAATTCGTCCGAATAATATTCAGGCATTAGAAAAAGACGCAAACCGGACGGGTGATATTGAAGAGCTTGCGGCGCCTCCGGCAGATTTGCGGACGGTCATTGAAGAAGTAGTCAAAAAAACGGCGGACGGCGTGGATTTATCAGAAGCGAAAATTATCGTAGCAGGCGGCCGCGGTGTAAAAAGCAAAGATGGATTTGAACCGTTAAAAGAACTTGCCGAGGTGCTCGGAGCAGCGGTGGGCGCTTCGCGCGGCGCGTGTGACGCGGACTACTGCGACTATTCTCTTCAAATCGGCCAGACGGGAAAAGTCGTCACGCCGGATTTGTATATCGCCTGCGGCATTTCCGGAGCGATTCAGCATTTGGCGGGCATGTCAAACAGTAAGGTCATCGTTGCCATTAACAAAGACCCGGAAGCGGAAATATTTAAAATAGCGGACTACGGAATTGTCGGCGATTTGTTCGAAGTGGTTCCGCTTCTGACCCAGGAATTTAAAAATGCCAATATTCATTCATAA	MGKKVIVLGEFRDGALRNVTFEAIAAGKTISGGGVVIGVLMGKGAADAASELIQYGADKVFTADSPGLSQYTADGYAAVLGDLIENEKPDAVIFGHTSMGKDLSPKLAARFETGLISDSTDVSVTGDNIVFTRPIYSGKAFEQVISTDPFILATIRPNNIQALEKDANRTGDIEELAAPPADLRTVIEEVVKKTADGVDLSEAKIIVAGGRGVKSKDGFEPLKELAEVLGAAVGASRGACDADYCDYSLQIGQTGKVVTPDLYIACGISGAIQHLAGMSNSKVIVAINKDPEAEIFKIADYGIVGDLFEVVPLLTQEFKNANIHS	PGPT0001040_1852	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-12_01854	774	etfB	COG2086	Electron transfer flavoprotein subunit beta	ATGAATCTATTTGTACTGATGAAACGGACGTTTGACACAGAAGAGAAAATCGTCATTGAAGCAGGAAAGATTCAGGAGGACGGGGCCGAATTTATCATTAATCCGTATGATGAATACGCCATTGAAGAAGCCATTCAGCTGAAGGAAGAGCACGGCGGAACCGTGACCGCCGTAACCGTCGGCGGAGAAGATGCGGAGAAAGAACTGAGAACCGCCCTTGCGATGGGCTGTGACCAGGCGGTGTTAATCAATATTGAAGATGATTTGAGCGATCCTGACCAATACTCCATTTCAACTATCTTATATCATTATTTCAAGGACCGGGAATATGATCTGATTCTCGGCGGAAATGTCGCGATTGACGGCGGTTCCGGCCAAGTGGCTCCAAGGCTTGCCGAACTGCTTAACATTCCTTGCGTCACAACGATTACAAAACTGACAATCAGCGGCGATGAAGCTGTGGCAGAGAAAGACAACGAAGGGGATACCGAAATCATTAAAACCTCACTTCCTTTAGTCATCACGGCACAGCAAGGCTTAAACGAGCCGCGCTATCCGTCGCTTCCGGGCATTATGAAGGCGAAGAAAAAACCGCTGGAAGAACTTGAGCTCGATGATCTCGGCATTGATGAAGATGATGCCGCACCGAAGCTCAAAACGATCGAACGTTTTCTGCCGCCGCAAAAAGAAGCGGGCAGACTGATCGAAGGAGAAGCCGCTGAGCAGGCGAAGGAGCTTGTATCACTGCTGAGAAAAGAAGCCAAAGTCGTATAA	MNLFVLMKRTFDTEEKIVIEAGKIQEDGAEFIINPYDEYAIEEAIQLKEEHGGTVTAVTVGGEDAEKELRTALAMGCDQAVLINIEDDLSDPDQYSISTILYHYFKDREYDLILGGNVAIDGGSGQVAPRLAELLNIPCVTTITKLTISGDEAVAEKDNEGDTEIIKTSLPLVITAQQGLNEPRYPSLPGIMKAKKKPLEELELDDLGIDEDDAAPKLKTIERFLPPQKEAGRLIEGEAAEQAKELVSLLRKEAKVV	PGPT0001035_2006	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-12_01855	780	fadB	COG1024	putative enoyl-CoA hydratase	ATGAACAGCCTTTCGATGGCGGTAGAACAATCTGTTGCGGTGATCACCATTAATCATCAGCCGGCCAACGCGCTGTCCGGTACGGTTTTAGATGAGTTGTCCGGTCTGTTCGACCGCTGTGAAACAGATGACAGCGTCAGAAGCATCATCATTCGCGGAGAGGGGAAATTTTTCTCGGCGGGCGCCGATATAAAGGAATTTACGTCGCTTGAAAATCTTGAGCAATCTTCTGCCATGGCGGATAAAGGCCAGCAGCTGATGGAAAGAATTGAAGGGTTTCCGAAGCCCGTTATCGCGGCGATTCACGGCGCTGCGCTCGGCGGCGGCCTTGAGCTTGCCATGGCCTGCCATATCAGAATCGCAACATTGGATGCAAAGCTCGGCCTGCCCGAGCTGAATCTCGGCATTATTCCGGGCTTTGCCGGGACGCAGCGGCTTCCCCGGTACGTCGGTACGGCGAAAGCGCTTGAAATGATCGGCACTTCAGAACCTGTGACCGGAGAAGAAGCGCTCAGCCTCGGTCTTGTCACGATAGGCGCCGAACATGAGGAAGAGCTGCTGCAAAAAGCGAAAACGCTCGCGGGCAAGTTTGCGGAAAAAAGCCCGCAGTCGATGGCTTCTCTGCTTGAGCTCCTTTATTCAAACAAGGTCTATTCTTATGACGGCGGCTTAAAGCTTGAAGCAAAGCGATTTGGGGAAGCATTTGCATCAGATGACGCAAAAGAAGGCATTCAGGCATTTCTCGAAAAAAGAAAGCCTCAATTCGGTGGGCGAAGATAA	MNSLSMAVEQSVAVITINHQPANALSGTVLDELSGLFDRCETDDSVRSIIIRGEGKFFSAGADIKEFTSLENLEQSSAMADKGQQLMERIEGFPKPVIAAIHGAALGGGLELAMACHIRIATLDAKLGLPELNLGIIPGFAGTQRLPRYVGTAKALEMIGTSEPVTGEEALSLGLVTIGAEHEEELLQKAKTLAGKFAEKSPQSMASLLELLYSNKVYSYDGGLKLEAKRFGEAFASDDAKEGIQAFLEKRKPQFGGRR	PGPT0008390_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767	NA	NA
D1-12_01856	591	fadR		Fatty acid metabolism regulator protein	ATGACATTGAACCAAAAACGGCCAAAGTATATGCAGATTATTGATGCAGCAGTAGAAGTCATAGCGGAAAACGGCTATCACCAATCACAGGTGTCCAAAATCGCCAAGCAGGCCGGCGTTGCGGACGGCACCATCTATTTATATTTCAAAAACAAAGAGGATATACTCATTTCTCTTTTTAAAGAAAAGATGGGCCAGTTCATTGAACGCATGGAAGAAGAAGTGAAAGAAAAAACGACGGCAAAAGAAAAACTCGCCCTCGTTATTAAGCAGCATTTCACACTGCTCGGCAATGACCGCCACCTCGCGATTGTGACCCAGCTTGAGCTCAGACAGTCGAATATCAAGCTGCGCCTGAAAATCAATGATATTTTAAAAGGTTATTTAAACATGCTGGACACCATTTTGACCGAAGGAATCAAGTCGGGGGAATGGAAAGACAATCTCGACGTCCGCCTCGCCCGGCAGATGATATTCGGGACGATAGATGAAACAGTGACAACATGGGTGATGAACGATCAGAAATATGATCTTCCGGATTTGTCAGACAAGGTATTGGAGCTGTTGGTGTCAGGGATTCATCAAAACTAA	MTLNQKRPKYMQIIDAAVEVIAENGYHQSQVSKIAKQAGVADGTIYLYFKNKEDILISLFKEKMGQFIERMEEEVKEKTTAKEKLALVIKQHFTLLGNDRHLAIVTQLELRQSNIKLRLKINDILKGYLNMLDTILTEGIKSGEWKDNLDVRLARQMIFGTIDETVTTWVMNDQKYDLPDLSDKVLELLVSGIHQN	PGPT0023505_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_LIPID_DEGRADATION	PLANT_PHOPSHO-|LIPID_DEGRADATION,PGPT0023505-ysiA|fadR-K13770	NA	NA
D1-12_01857	1689	fadD	COG0318	Long-chain-fatty-acid--CoA ligase	ATGCAGTCTGAAAAGCCATGGCTTTCTCAATATCCCGAAGAGATTCCGCATGAGCTTGAATTTACTGATCAAACCCTGCCATCCAATCTGACAAACTCCGCAGCTCAATTCCCGAACCACACCGCCATTTATTTTCTCGGAAAAAAACTCACATTCCAAGACGTTCTCACAGATTCGTTAAAGCTGGCCGCTTTTTTACGCAAAACAGGCCTGAAAAAAGGTGACAGAGCCGCCATTATGCTGCCCAATTGTCCGCAGTCGGTCATCGCTTTTTACGGCGTATTGTTTGCCGGCGGCATTGTCGTTCAGACCAATCCTCTCTACACGGAACACGAGCTTGAGTATCAGCTGAAAGACAGTGCGCCGCGCGTGATCATCACCCTCGATATGCTGTTTCCGAAGGTGATAAAAATGAAAACGTTATCAATCGTCGAACGCATTATTACAACGAGTATAAAAGACTTTTTGCCGTTCCCGAAAAATATGCTGTATACGCTCACGCAAAAACAACAGGTGCATATTGATTATGACGGCTGCGAACAAATTCACAAATTAGCGGATATTTTAAAAAACGAAAGAGCGGAGGAAGCGGAGCCATTTGATATTGACCCTGCGCATGACATCGCCGTGCTTCAATACACGGGCGGAACAACCGGCTACCCGAAAGGCGTCATGCTCACACACCGGAACATTCAGGCCAATACAGAAATGTGCGCCGCCTGGATGTACAAAATGAAAAAGGGAGCCGAAAAGGTGCTCGGCATCGTGCCTTTTTTTCATGTGTACGGATTGACCGCCGTGCTCAATTTTTCCATTATGCAGGGATGTGAAATGATCCTTCTTCCCAAATTCAATCCTTTGGATACCCTGAAAACAATCGACAGGCTGAAGCCGACGGTTTTTCCAGGGGCGCCGACGATTTACATCGGGCTGTTGCATCACCCGGAGCTGAATAAGTATGATTTGTCCTCCATTGAAAGCTGTCCGAGCGGTTCAGCGGCGCTTCCGGTTGAGGTCAAACAGAAATTTGAAAAAGTGACCGGAGGAAAGCTTGTGGAAGGCTACGGATTATCCGAAGCATCACCGGTTACCCATTCAAACTTCATTTGGGGAAAAAATAAACCAGGCAGCATCGGCTGTCCCTGGCCCAATACCGACGCCGGAATCTATTCAGAAGAAAAAGGCGGGCTTGCGGGGCCGTATGAACACGGCGAGCTGATCGTAAAAGGTCCTCAGGTCATGAAAGGATACTGGAATAAGCAGGAGGAGACGGCGCGTGTCATCAGAGACGGCTGGCTGTTTACCGGAGATATGGGATATATGGATGAGGAAGGATTTTTCTACATCGCCGACAGGAAAAAAGACATCATCATTGCCGGCGGATACAACATTTACCCCCGGGAGGTGGAAGAGGCGCTGTATGAGCATGAAGCCGTTCAGGAAATCGTCGTAGCGGGCGTTCCTGATTCCTACAGGGGGGAAACGGTGAAAGCATTTATCGTTTTGAAAAAAGGCGCCGAGGCAGATGCCGATGAGCTTGATGCGTTTGCAAGAGAGCGGCTTGCGCCGTACAAAGTCCCGAAGCTTTACGAATTCAGAAAAGAGCTTCCGAAAACGGCCGTCGGAAAAATATTAAGAAGGCGTTTAGTCGAAGAGGAAGATGCTTCCCGTGAAAACAAGGTGCCTTAA	MQSEKPWLSQYPEEIPHELEFTDQTLPSNLTNSAAQFPNHTAIYFLGKKLTFQDVLTDSLKLAAFLRKTGLKKGDRAAIMLPNCPQSVIAFYGVLFAGGIVVQTNPLYTEHELEYQLKDSAPRVIITLDMLFPKVIKMKTLSIVERIITTSIKDFLPFPKNMLYTLTQKQQVHIDYDGCEQIHKLADILKNERAEEAEPFDIDPAHDIAVLQYTGGTTGYPKGVMLTHRNIQANTEMCAAWMYKMKKGAEKVLGIVPFFHVYGLTAVLNFSIMQGCEMILLPKFNPLDTLKTIDRLKPTVFPGAPTIYIGLLHHPELNKYDLSSIESCPSGSAALPVEVKQKFEKVTGGKLVEGYGLSEASPVTHSNFIWGKNKPGSIGCPWPNTDAGIYSEEKGGLAGPYEHGELIVKGPQVMKGYWNKQEETARVIRDGWLFTGDMGYMDEEGFFYIADRKKDIIIAGGYNIYPREVEEALYEHEAVQEIVVAGVPDSYRGETVKAFIVLKKGAEADADELDAFARERLAPYKVPKLYEFRKELPKTAVGKILRRRLVEEEDASRENKVP	PGPT0008380_5811	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-12_01858	675			hypothetical protein	TTGCTGGAAACGCTGCATTTTGAAGAGGGAGTTCCTATCCTGCGCCAGCTGCCTAAGCCGTTTACGTCGGCCGCCTTTTTGCTTCATCCCTTTGTCCTGATGTCTGATGGGTGGGAAGAGCAAAAGCGCAAACGGCCTTATGAACATATATATCCGAGTGATGAGGAGATCATCGCGATGGGCAGACCCGTTTCCTGGAAAACCGTCATGACCGTTTGCGGATTGCGTTCTGAAAAAGAGACGGCGCTTGCGCTTATGAGCGCTGTCACGGCACTGCGGGAGGAATATGCACTTCCTGAATCCGCCAGGCTGTTTAATCGGCTTCATCCCGATCTGTACTTGCCGAGCGATGATGTCACTTCACCATTTTTAATTCCGGGACTTTTGGATGTGTTCCGTTCAAAAGGCATAAAGCGCTGCACTTATTATGAGCCGGTCGAAGAGAAAGGCATATTTTCACTCAATCAAACGGCGGCTTCGGATGTATGCGGATTGCTGCGGGCTGACATGATCATTGCCGACGAAAAACGGCGCGCCGCTTTTATGAGCATATATGATTCTTTTACGACACTCTTTCTCATGGAAGATCAAGACATGCCGTCTGTCATCCGCGCCATGAATTGGGAAGCCGTCATTTGCTCTGATACGGCCTGCATAAACTGGTATTCTCAATAA	MLETLHFEEGVPILRQLPKPFTSAAFLLHPFVLMSDGWEEQKRKRPYEHIYPSDEEIIAMGRPVSWKTVMTVCGLRSEKETALALMSAVTALREEYALPESARLFNRLHPDLYLPSDDVTSPFLIPGLLDVFRSKGIKRCTYYEPVEEKGIFSLNQTAASDVCGLLRADMIIADEKRRAAFMSIYDSFTTLFLMEDQDMPSVIRAMNWEAVICSDTACINWYSQ				NA	NA	NA	NA	NA
D1-12_01859	405			hypothetical protein	ATGAATGCTTTTTGGGAAAATGAGCTTGTTGAAATCGCGGCTTATTACAGTGTAGCCGTCTTGTGTCTCGTCATTTTTCTGACCGTGTTTGAATTGGTGACATCCTATAAAAACTGGGTGGAAATCCAAAAAGGCAATCTTGCGGTGGCAATGGCGACCGGAGGGAAAATTCTCGGTATCGCAAATGTCTTTCAGCACAGCATCGCCCAGCATAATTCGCTTTTGCAAATGATCGGCTGGGGCGTATACGGATTTATTATGCTTTTAATCAGCTATTTTATCTTTGAATTTCTGACGCCCCGGTTTAAAATTGATAAAGAAATTGAAAAAGATAACAGAGCTGTCGGCTTTATTTCATTTGTCATCTCAGTCGGCCTGTCATTTGTGGTGGCCGCCGGGATTTAA	MNAFWENELVEIAAYYSVAVLCLVIFLTVFELVTSYKNWVEIQKGNLAVAMATGGKILGIANVFQHSIAQHNSLLQMIGWGVYGFIMLLISYFIFEFLTPRFKIDKEIEKDNRAVGFISFVISVGLSFVVAAGI				NA	NA	NA	NA	NA
D1-12_01860	2358	mutS2		Endonuclease MutS2	GTGCAGCAAAAAGTGTTATCATCACTTGAATTTCATAAAGTAAAAGAACAGATTACCGCACATGCCGTCTCATCGCTCGGCCGGGAGAAGCTTCTGCAGCTGAAACCTTTGACGGATCTCTCAGACATCCAAAAACAGCTGGATGAAGTTGAAGAAGCATCCGCGGTCATGCGCTTGAGAGGCCATGCTCCGTTCGGCGGACTGACCGACATAAGATCCGCTTTACGGCGGGCGGAAATCGGCAGTGTGCTGACACCGGCGGAATTCACCGAATTGTCCGGGCTGCTGTATGCCGTTAAACAAATGAAGCATTTTATCAGCCAAATGACAGAAGACGGCGTCGGCATTCCGCTGATACAGGCCCATGCAGAAGAGCTGATTACATTAGGCGATTTGGAAAGGGAGATTAACTCCTGCATTGATGACCATGGTGAAGTGCTTGATCATGCGTCACCCGCTTTAAGGGGAATCCGCACGCAGCTCAGGACGCTTGAATCAAGAGTCAGAGACCGGCTTGAATCGATGCTGCGTTCATCTTCCGCTTCTAAAATGCTGTCTGACACCATCGTTACGATTCGGAATGACCGCTTTGTCATCCCGGTCAAACAGGAATACAGATCAAGCTACGGCGGAATTGTCCACGATACATCTTCATCCGGTGCGACACTGTTTATTGAACCGCAGGCGATCGTAGATATGAACAACTCGCTTCAGCAGGCGAAAGTAAAAGAAAAACAGGAAATCGAACGGATTCTTCGAATGCTGACGGAGCATACGGCTGAACACATACAAGAAATCGCTCAAAATGTGGAAGTGCTGCAGACACTGGATTTCATTTTCGCCAAAGCGAGATACGCAAAAGCGATGAAGGCGACAAAACCACTTATGAACGGAGACGGCTTTATCCGGCTGAAAAAAGCGCGCCATCCGCTGCTGCCCCAAGATCAAGTCGTGGCCAACGATATTGAACTGGGCGGAGATTATTCAACGATCGTTATCACGGGGCCGAATACGGGCGGTAAAACCGTTACGTTAAAAACACTCGGGCTGCTGACGATAATGGCGCAGGCAGGATTGCACATACCGGCTGATGAGGGATCGGAAGCAGCCGTATTTGACAATGTGTTTGCCGATATCGGCGATGAACAGTCGATCGAACAAAGTCTGAGTACGTTCTCATCCCACATGGTCAATATCGTCAATATTTTAAAAGACGTGTCTGAAAACAGTCTTGTGCTGTTTGATGAACTCGGTGCCGGAACAGATCCGCAGGAAGGGGCGGCGCTTGCCATGAGCATCCTTGACGAAGTTCACCGGACAAACGCCAGAGTGCTTGCGACAACCCATTATCCGGAACTGAAAGCATACGGATATAACAGACAAGGCGTCATGAATGCCAGCGTTGAATTTGACATTGAAACGCTTTCGCCTACCTATAAGCTTCTGATCGGAGTGCCGGGCCGAAGCAACGCATTTGAAATCTCAAGACGCCTTGGGCTTCCGGAGCATATCATCGGCCAGGCGAAGTCAGAAATGACCGCCGAACATAACGAAGTCGATCTGATGATCGCATCGCTTGAAAAAAGCAAAAAAAGAGCGGATGAAGAGCTTTCTGAAACCGAATCAATCAGAAAAGAAGCAGAAAAACTGCACAAAGAGCTTCAGCAGCAGATCATTGAGCTGAACGCCCAAAAAGATAAAATGATGGAAGAAGCCGAGCAGAAAGCTGCGGAAAAACTGGAAGCCGCCGCAAATGAAGCCGAACAGATTATCCGCGAACTCCGGTCCATCAAGCAAGAACACAGATCCTTTAAGGAACACGAGCTGATTGACGCCAAAAAACGTCTCGGAGACGCGATGCCGGCTTTTGAAAAATCAAAGCAGCCGGAAAGAAAAACAGAGAAAAAACGCGAGCTCAAGCCGGGCGACGAAGTAAAGGTGCTCACATTCGGACAAAAAGGGGCGCTGCTTGAAAAAACCGGCGAGAAAGAATGGAACGTCCAAATCGGCATCCTTAAAATGAAGGTGAAGGAAAAAGATCTTGAGTTTCTCAAATCGGCTCCTGAACCGAAAAAAGAAAAAGCAATCACCGCCGTAAAAGGGAAGGATTATCACGTATCCCTTGAACTTGACCTCAGGGGAGAGCGTTACGAAAACGCCCTCAGCCGCGTCGAAAAATATTTAGATGACGCGGTGCTTGCCGGCTATCCGAGAGTGTCCATCATTCACGGAAAAGGCACGGGCGCCCTCCGAAAAGGGGTGCAGGATCTTCTGAAAAACCACCGCAGCGTGAAAAGCTCGCGGTTCGGGGAAGCGGGAGAAGGAGGATCAGGCGTAACGATTGTCGAACTAAAATAA	MQQKVLSSLEFHKVKEQITAHAVSSLGREKLLQLKPLTDLSDIQKQLDEVEEASAVMRLRGHAPFGGLTDIRSALRRAEIGSVLTPAEFTELSGLLYAVKQMKHFISQMTEDGVGIPLIQAHAEELITLGDLEREINSCIDDHGEVLDHASPALRGIRTQLRTLESRVRDRLESMLRSSSASKMLSDTIVTIRNDRFVIPVKQEYRSSYGGIVHDTSSSGATLFIEPQAIVDMNNSLQQAKVKEKQEIERILRMLTEHTAEHIQEIAQNVEVLQTLDFIFAKARYAKAMKATKPLMNGDGFIRLKKARHPLLPQDQVVANDIELGGDYSTIVITGPNTGGKTVTLKTLGLLTIMAQAGLHIPADEGSEAAVFDNVFADIGDEQSIEQSLSTFSSHMVNIVNILKDVSENSLVLFDELGAGTDPQEGAALAMSILDEVHRTNARVLATTHYPELKAYGYNRQGVMNASVEFDIETLSPTYKLLIGVPGRSNAFEISRRLGLPEHIIGQAKSEMTAEHNEVDLMIASLEKSKKRADEELSETESIRKEAEKLHKELQQQIIELNAQKDKMMEEAEQKAAEKLEAAANEAEQIIRELRSIKQEHRSFKEHELIDAKKRLGDAMPAFEKSKQPERKTEKKRELKPGDEVKVLTFGQKGALLEKTGEKEWNVQIGILKMKVKEKDLEFLKSAPEPKKEKAITAVKGKDYHVSLELDLRGERYENALSRVEKYLDDAVLAGYPRVSIIHGKGTGALRKGVQDLLKNHRSVKSSRFGEAGEGGSGVTIVELK				NA	NA	NA	NA	NA
D1-12_01861	1749	polX	COG1387	DNA polymerase/3'-5' exonuclease PolX	ATGATGAAAAGCAGGAAACGACTGGGGGTTAACAGTATGCATAAAAAAGATATCATCAGGCTGCTTGAAACGATTGCGGTCTATATGGAACTGAAAGGGGACAACCCGTTTAAAATATCAGCCTTCCGAAAAGCGGCAGCGGCGCTTGAGCAGGATGACCGCAGCCTGTCGGAAATCGACGACATGATGTCTTTATCCGGAATCGGAAAAGGCACCTACGGCGTCATTCGTGAATATATGCAGGAAGGTGTGTCCGGCACGCTTCTCCAATTGCAGAAAGAAGTTCCGGAAGGCTTGGTTCCTCTTTTGAAGCTTCCGGGCCTCGGCGGCAAAAAAATCGCCAAGCTGTATCAGGAGCTTGGCGTTCATGACGCGGAATCGCTGAAAGAAGCATGCGAGCAGCAAAAAGTACAGGGGCTCGCCGGTTTCGGCAAAAAAACGGAGGAGAAAATCCTTCAGGCTCTCGGAGAAGCCGGAAAACAGCCGGAACGTTTTCCGATCGGCTATGCGCTCAGCATTGCTTCAGTAATTGAAGAACATTTGGCCCGGCTGACGGATATTCAGAAATATTCCCGGGCCGGCAGTCTCAGAAGAGCGCGGGAAACCGTAAAAGATCTGGATTACATTATCGCTACAGATCATCCGGAGGCTGTCAGAGAACAGCTTCTTTCCCTCCCGAACGTAAAAGACGTGATAGCGAGCGGGGACACAAAAGTATCAGTCATCCTGACCTTTGAATATGAGACGAGTGTGGATTTCCGGCTTGTGACAGAGGAACAGTTTGCCACCACACTGCATCATTTTACCGGTTCTAAAGATCACAACATTAAAATGCGCCAGCTGGCGAAAGAGCGCGGTGAACGGATCAGTGAATACGGAGTAGAAACTATAGAAACGGGAGACGTCAAAACATTCCCGAGCGAAGAAGCGTTTTACGCCCACTTCGGTCTGCCGTTTATTCCTCCTGAGCTCAGAGAAAGCGGGCAGGAGGTCGACACGTACCGGGAAGAAACGGACCTTGTGGAGCATAAAGCGATAAAAGGCGATCTCCACATGCACTCAGCCTGGAGTGACGGCGCTTTTTCCATCAGGGAAATGGCAGAAGCATGTATGGCAAAAGGCTATCAGTACATGGCGATCACCGACCATTCTCAATATTTAAAGGTAGCCAACGGGTTAACGGCCGAACGGCTCAAAAAACAGGCGGAAGAAATTGACGCGTTAAACGCTGAATTTGAAAATTTTCATATTTTTAAAGGCGTAGAGATGGACATCCTTCCCGATGGTTCGCTTGATTATGATGACAGTGTTCTGTCTGAAATGGATCTTGTCATCGCATCTATTCATTCAAGCTTCAGCCAGCCGGAACATGTCATTATGAAACGGCTTGAACAGGCGCTGACGAATAAGCACGTGGACATTATCGCCCACCCGACGGGCCGCCTGATCGGCAGACGGGCCGGCTATGAAGTCGACATCGACATGCTGATTGAACTCGCCGCCAAAACAAATACGGCGCTTGAGCTAAATGCAAACCCCGCGCGCCTCGATTTACGGACTGAGCATCTGATCAAAGCGAATGAAAAAGGTGTGACTTTGGTCATTAATACCGATGCCCATAATATCGAGATGCTCGATGATATGAAAACGGGCGTGACCGCTGCGCGCAAAGGGTGGACGGAGACAAAACATGTGTTAAACGCCCGGCCGCTACACGAGGTCAAAGCATTTCTGACGCGCAATGATTAA	MMKSRKRLGVNSMHKKDIIRLLETIAVYMELKGDNPFKISAFRKAAAALEQDDRSLSEIDDMMSLSGIGKGTYGVIREYMQEGVSGTLLQLQKEVPEGLVPLLKLPGLGGKKIAKLYQELGVHDAESLKEACEQQKVQGLAGFGKKTEEKILQALGEAGKQPERFPIGYALSIASVIEEHLARLTDIQKYSRAGSLRRARETVKDLDYIIATDHPEAVREQLLSLPNVKDVIASGDTKVSVILTFEYETSVDFRLVTEEQFATTLHHFTGSKDHNIKMRQLAKERGERISEYGVETIETGDVKTFPSEEAFYAHFGLPFIPPELRESGQEVDTYREETDLVEHKAIKGDLHMHSAWSDGAFSIREMAEACMAKGYQYMAITDHSQYLKVANGLTAERLKKQAEEIDALNAEFENFHIFKGVEMDILPDGSLDYDDSVLSEMDLVIASIHSSFSQPEHVIMKRLEQALTNKHVDIIAHPTGRLIGRRAGYEVDIDMLIELAAKTNTALELNANPARLDLRTEHLIKANEKGVTLVINTDAHNIEMLDDMKTGVTAARKGWTETKHVLNARPLHEVKAFLTRND				NA	NA	NA	NA	NA
D1-12_01862	534			hypothetical protein	ATGATAGATATCATCATCTTAGTTTTGCTCTTAATGGGCACATTGCTTGGATTAAAAAGAGGATTTATCCTCCAATTTATATATTTAACGAGTTTCATCCTCTCGATTGCGTTTGCGGCGCTTTTTTACAAAAGCCTGGCCCCGCATCTGAGCTTTATACCCGCGCCTGATTTTTCCGGCGGGCAGGCGGCTCTGTCTTTTATTAAAGGAAACGTAGAGACGGCTTATTACAACGCGATCGCGTTTGTCATTTTGTTTATCATCGCAAAGATTCTGCTCCGGATTATCGGAGCGGCGCTTAATATCATCGCCGGCATTCCGGTCATTAAACAGATCAACAAACTGCTGGGCGGGGTGCTTGGGTTTCTGGAGGTCTATTTATTTGCGTTTATCCTGCTATACGTCGCATCCGTACTGCCGGTAAGCGCGCTTCAGGATATGCTCGCACAATCGACGCTTGCAAATATCATCACACATCATACGCCGTATCTGTCAGGGCTCCTGCAAGAACTGTGGGCCCAGTACGGGGCATAA	MIDIIILVLLLMGTLLGLKRGFILQFIYLTSFILSIAFAALFYKSLAPHLSFIPAPDFSGGQAALSFIKGNVETAYYNAIAFVILFIIAKILLRIIGAALNIIAGIPVIKQINKLLGGVLGFLEVYLFAFILLYVASVLPVSALQDMLAQSTLANIITHHTPYLSGLLQELWAQYGA				NA	NA	NA	NA	NA
D1-12_01863	258	zapA	COG3027	Cell division protein ZapA	TTGTCTGACGGCAAAAAAACCAAAACGACAGTAAACATTTACGGCCAGCACTTCACCATTATCGGGGAAGAAAGCAAAGCGCACATGCGTCATGTGGCCGGAGTGGTTGATGATAAAATGAGAGAAATCAACGAGAAAAATCCATATCTTGATATAAATAAGCTCGCTGTATTGACTGCGGTCAATGTCGTGCATGATTATATGAAACTGCAAGAAAAATATGAAATACTGGAGCGGCAGCTTAAAGAAAAGGAATGA	MSDGKKTKTTVNIYGQHFTIIGEESKAHMRHVAGVVDDKMREINEKNPYLDINKLAVLTAVNVVHDYMKLQEKYEILERQLKEKE				NA	NA	NA	NA	NA
D1-12_01864	942	rnhC	COG1039	Ribonuclease HIII	GTGTCCCATTCTGTTATAAAAGTATCCTCTTCCGCTATGGAACAAATGAAACAATCCTATGCCGGCTCCCTTACTCCCGCCATTCCGCAGGGTGCCGTCTTTCAGGCTAAGCCTCCGGGCTGTACCATTACAGCCTACCGCTCGGGCAAGGTTCTCTTTCAAGGAAAAAACGCCGGCACGGAAGCGGCCCGCTGGGGAACGGCTGAGGCGCCGAAAGCAAAGAAAACCGTCAAAAAAGCGGCCGACCCGCTCTACGCTCCCCCGGCGGGCATTGCCTCCATGTCAGTGATCGGCTCTGATGAAGTCGGAACAGGCGATTACTTCGGGCCGATAACAGTTGCCTGCGCCTACGCCGACAAATCAAAGCTCTCTTTAATGAAAGAACTCGGTGTGAAAGATTCGAAGGATTTAAAAGATCCGCAGATTATTGAAATTGCCAAACTGTTAATTAAAACCATTCCTTACAGCCTGCTTGTGTTAAAAAACGAAAAATACAATCAGATGCAGGAAAAAGGCATGAGCCAAGGAAAAATGAAGGCGCTCCTTCATAATCAGGCGATTTCCAATCTGCTGAGAAAAATGAACGGCGTTAAACCGGAAGCGATTCTGATTGACCAATTCGCAGAGCCCGGCATTTATTTTAAGCATCTTTCCGGACGGGATATCGTAAAAGAAAAAACGTTTTTCAGCACGAAAGCGGAAAGCATACATCTTTCCGTCGCTGCAGCCTCTATCATTGCGCGATATTCTTTCTTAATTGAAATGGATAAGCTTTCCCGAGAGGCTGGGATGACGATTCCAAAAGGCGCGGGGCCGCACGTCGATGAAGCTGCCGCCAAGCTGATCATCAATAAGGGAGAAGGTGCGCTCAGAACGTTCACCAAACTTCATTTTGCCAATACGCAAAAAGCGAAACGCCTTGTTGAACGGAAGCGGTCATAA	MSHSVIKVSSSAMEQMKQSYAGSLTPAIPQGAVFQAKPPGCTITAYRSGKVLFQGKNAGTEAARWGTAEAPKAKKTVKKAADPLYAPPAGIASMSVIGSDEVGTGDYFGPITVACAYADKSKLSLMKELGVKDSKDLKDPQIIEIAKLLIKTIPYSLLVLKNEKYNQMQEKGMSQGKMKALLHNQAISNLLRKMNGVKPEAILIDQFAEPGIYFKHLSGRDIVKEKTFFSTKAESIHLSVAAASIIARYSFLIEMDKLSREAGMTIPKGAGPHVDEAAAKLIINKGEGALRTFTKLHFANTQKAKRLVERKRS				NA	NA	NA	NA	NA
D1-12_01865	2415	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGTTTGTTTCTTATAAATGGTTAGAAGATTACGTTGACTTGCAGGGAATCGACCCGGCCGTGCTTGCAGAAAAAATTACGAGAGCCGGTATTGAAGTTGAGGGTATCGAGTATAAAGGGGAGGGCGTAAAAGGCGTTGTCATCGGACACGTGCTTGAGCGCGAACAGCACCCGAATGCCGACAAACTCAACAAATGCCTTGTTGATATCGGTGCGGAGGAACCCGTGCAGATTATCTGCGGCGCCCCGAATGTTGATAAAGGACAGAAGGTTGCCGTTGCAACGGTCGGAGCCGTGCTTCCCGGCAATTTCAAAATTAAAAAAGCCAAGCTGCGCGGCGAAGCGTCTCACGGCATGATCTGTTCCCTTCAGGAGCTCGGCATTGAAAGCAAGCTCGTGGCGAAAGAATATGCGGAAGGCATTTTCGTTTTTCCGAATGATGCTGAAACGGGAGCTGACGCAATGGCGGCCCTTCAGCTTGATGATGCGATTTTAGAATTGGGCTTAACGCCGAACCGCGCCGACGCGATGAACATGCTTGGCGTGGCTTATGAAGTTGCGGCTATCCTCGGCGCAGAGGTAAAACTTCCGGAGGCTTCATATGAAAAAGCGGCAGAAAAAGCGGCGGATGCTGTTTCCGTTAAGGTTGAAGATACGCAGGCCAATCCGCATTATGCCGCAAAAATCATTAAAAACGTCAAAATCGGCCCGTCACCGCTTTGGATGCAGACGAAGCTGATGAATGCAGGCATCCGCCCGCATAATAACGTCGTGGACATTACAAACTTCGTCCTCCTTGAGTACGGACAGCCGCTTCACGCTTTCGATTACGACCGGTTCGGTTCAAAAGAGGTCGTCGTCAGAAAAGCGGCGGAAAATGAAACCATCGTGACGCTGGATGAACAAGAGCGCAAGCTGTCAAGCAGCCATTTGGTCATCACAAACGGAAAAAAAGCGCAAGCCGTTGCGGGAGTCATGGGCGGAGCTGAGTCTGAAGTCCGTGAAGACACCACTGCGATTTTACTGGAAGCCGCTTATTTCGACGGACAGACCGTCCGCAAAGCGTCGAGAGACCTCGGGCTGAGAAGCGAAGCGAGCGCCAGATATGAAAAAGGCATTGATCCGGCACGCGTTCTGCTGGCGGCTGAACGGGCCTGCAGTCTCATTCAGGCATATGCCGGCGGAGAAGTGCTCTCAGGCACGGTTGAAGAAAACCATCTGACAATCGAAGCAAACAATATTCACGTGTCTGTTGAAAAAGTGAACGCCGTGCTCGGCATGACAATCGCTAAAGAAGAAATCATCAGCATTTACAAGCGCCTCGGGTTTGCAGTCGGTGAAGCTGAAGGCGTTCTCGCCGTAACGGTGCCGTCGCGCCGCGGAGATATTAGAATAGAAGAAGACCTGATTGAAGAAGCGGCGAGATTGTACGGGTATGACAATATTCCGTCCACGCTTCCGGAAACGGCCGGCACGACAGGCGGCTTGACACCGTATCAGGCAAAACGCCGGAAAGTGAGACGTTTCCTTGAAGGAGCGGGTCTTTCACAAGCGACCACTTATTCATTAACGAATGATAAAAAAGCGGCCGCTTTTGCGATCGAAAAATCATTCAACACGATGCTTGCTCTGCCGATGAGCGAAGAAAGGAGCATTCTCAGACACAGCCTTGTGCCGAATCTTCTTGAAGCCGTTTCATACAATCTGGCCAGACAGACTGATTCCGTTGCTTTATATGAAACGGGTTCTGTATTTCTGACGAAAGAAGAAAACACAAAACCGGTTGAAAAAGAACGGGTTGCCGGAGCTGTAACCGGATTGTGGCGCAAAAATTTATGGCAGGGTGAGAAAAAGCCGGTTGATTTCTTCGTCGCCAAAGGAATCGTTGAAGGCCTGCTGCATCAATTGAATGTGTCAGACCGGGTTGAATTTGTCCAGTCAGAACGCAAAAACATGCATCCCGGCCGGACGGCAAACATTCTATTGAACGGTTCGCTTGCCGGATTTATCGGCCAGGTGCATCCGGCAATGGAAAAAGAGCTGGATATCAAAGAAACGTATGTGTTCGAGCTTGATCTGCACGCGCTTCTGACCGAGGAAACAGAACCTGTTGTGTATACGCCGATTCCGAAGTACCCGTCTGTCACGCGCGACATTGCGCTTGTGGCAGATAAAACCGTTACAAGCGGACAGCTCGAAGCCGTGATCAAAGAAGCCGGCGGCGCGCTGCTGAAAGAAGTCACCGTATTTGATGTGTACGAAGGTGAGCATATGGAAGAAGGCAAAAAATCCGTCGCCTTCTCGCTTCAATATGTTAACCCTGAACAAACATTGACAGAAGAAGAAGTGACAAAAGTACATGAAAACGTGCTGAAAGCGCTGGAAGAAACGTATCAGGCCGTATTAAGAGGATAA	MFVSYKWLEDYVDLQGIDPAVLAEKITRAGIEVEGIEYKGEGVKGVVIGHVLEREQHPNADKLNKCLVDIGAEEPVQIICGAPNVDKGQKVAVATVGAVLPGNFKIKKAKLRGEASHGMICSLQELGIESKLVAKEYAEGIFVFPNDAETGADAMAALQLDDAILELGLTPNRADAMNMLGVAYEVAAILGAEVKLPEASYEKAAEKAADAVSVKVEDTQANPHYAAKIIKNVKIGPSPLWMQTKLMNAGIRPHNNVVDITNFVLLEYGQPLHAFDYDRFGSKEVVVRKAAENETIVTLDEQERKLSSSHLVITNGKKAQAVAGVMGGAESEVREDTTAILLEAAYFDGQTVRKASRDLGLRSEASARYEKGIDPARVLLAAERACSLIQAYAGGEVLSGTVEENHLTIEANNIHVSVEKVNAVLGMTIAKEEIISIYKRLGFAVGEAEGVLAVTVPSRRGDIRIEEDLIEEAARLYGYDNIPSTLPETAGTTGGLTPYQAKRRKVRRFLEGAGLSQATTYSLTNDKKAAAFAIEKSFNTMLALPMSEERSILRHSLVPNLLEAVSYNLARQTDSVALYETGSVFLTKEENTKPVEKERVAGAVTGLWRKNLWQGEKKPVDFFVAKGIVEGLLHQLNVSDRVEFVQSERKNMHPGRTANILLNGSLAGFIGQVHPAMEKELDIKETYVFELDLHALLTEETEPVVYTPIPKYPSVTRDIALVADKTVTSGQLEAVIKEAGGALLKEVTVFDVYEGEHMEEGKKSVAFSLQYVNPEQTLTEEEVTKVHENVLKALEETYQAVLRG				NA	NA	NA	NA	NA
D1-12_01866	1035	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGGAAGAGAAGCTTAAACAGCTCGAACTGGAAGCTGCAGAAAAAGTAGAAGCGGCGGGTTCATTAAAAGAAGTTAACGACATTCGGGTGCAATATCTCGGAAAAAAAGGGCCGATTACAGAAGTTCTCCGCGGCATGGGCAAACTGTCCGCCGAAGAGCGCCCGAAAATGGGAGCGCTCGCCAATGAAGTGAGAGAGCGCATTGCAGCAGCCATTACGGCGAAAAATGAACAGCTTGAACAAGAAGAGATGAATAAAAAACTCAGCAGCCAGACGATTGACGTCACATTGCCGGGCAGTCAGGTAAACATCGGCGGACGCCATCCGCTGACGGTCGTTATTGAAGAAATTGAAGATTTATTTATCGGAATGGGATATACCGTCGAAGAAGGCCCTGAAGTGGAAACGGATTATTACAACTTTGAGGCGCTGAACCTGCCGAAGGAACATCCGGCCCGCGACATGCAGGACAGCTTTTACATTACAGAAGAAATGCTGATGAGAACGCAGACGTCACCGGTGCAGACGCGCACGATGGAAAAGCATAAAGGAAAAGGCCCCGTCAAAATCATTTGTCCCGGTAAAGTGTATCGCCGCGACAACGATGACGCGACACATTCCCATCAGTTCATGCAGATTGAGGGTCTCGTCGTCGACCGCAAAATCAGCATGAGCGACCTGAAAGGCACGCTTGAATTGGTCGCCAAAAAAATGTTCGGCCAAGATCGTGAAATCAGGCTCCGTCCGAGCTTTTTCCCATTCACAGAGCCTTCTGTCGAGGTGGATGTGACCTGCTTTAAGTGCGGCGGACAAGGCTGCTCCGTCTGCAAAAAAACAGGCTGGATCGAAATTCTCGGCGCCGGCATGGTTCACCCGAACGTGCTGAAGATGGCCGGATTCAATCCTGAGGAATACCAGGGTTTTGCTTTCGGAATGGGTGTGGAACGTATCGCGATGCTGAAATACGGCATTGAAGATATCCGCCATTTCTATACCAATGATGTCAGATTCATTTCGCAGTTTAAACAGGCGTAA	MEEKLKQLELEAAEKVEAAGSLKEVNDIRVQYLGKKGPITEVLRGMGKLSAEERPKMGALANEVRERIAAAITAKNEQLEQEEMNKKLSSQTIDVTLPGSQVNIGGRHPLTVVIEEIEDLFIGMGYTVEEGPEVETDYYNFEALNLPKEHPARDMQDSFYITEEMLMRTQTSPVQTRTMEKHKGKGPVKIICPGKVYRRDNDDATHSHQFMQIEGLVVDRKISMSDLKGTLELVAKKMFGQDREIRLRPSFFPFTEPSVEVDVTCFKCGGQGCSVCKKTGWIEILGAGMVHPNVLKMAGFNPEEYQGFAFGMGVERIAMLKYGIEDIRHFYTNDVRFISQFKQA				NA	NA	NA	NA	NA
D1-12_01867	747	trmH		tRNA (guanosine(18)-2'-O)-methyltransferase	GTGAAACGAATCGACTCTGCAAAAAACCAAAAAGTGAAGGACTGGAAAAAACTTCACACAAAAAAAGAGAGACTTAAAACGAATACATTTCTGATAGAAGGAGAGCATCTGGCAGAAGAAGCGCTCAAATCAAAGGGAACGGTAAAAGAAATTCTCGTAAACGATGAGAGCGCCATCCCGGCCGATCTGGACATGAGCATCCCGTGCTACGTGCTGAGCGAAGACGCGTTTTCAGCCGTGACGGAAACAGAAACGCCGCAGCGGATCGCCGCGGTCTGCCATATGCCGGATAAGCAGCCTGATCAGCTGAAACGGCTGCTTCTGATTGATGCCGTGCAGGACCCGGGGAATTTAGGAACAATGATCAGAACGGCAGATGCGGCGGGGATCGACGCCGTTGTCCTTGGTGAGGGAACAGCAGACCCGTACAATGGAAAAACGCTGCGTTCAGCACAAGGATCTCATTTTCATATTCCCATTTTGAAACGTCCGCTTGATGAGTTTACCGCTGAGCTGAAATCACAAGGCGTCGCGATCTACGGCACGGCGCTTGAAAACGGGGCGGCTTATCAAAGCGTGAAGCCTGAAGAATCGTTCGCGTTAATCGTCGGGAACGAGGGGGCGGGAGTGGACGCCGGCCTTCTGCAAAAAACGGATCTCAACCTGTACGTTCCGCTGTACGGACAGGCGGAATCGCTGAATGTGGCGGTAGCGGCCGCCATCCTCGTTTATCATCTCAGAGGATAG	MKRIDSAKNQKVKDWKKLHTKKERLKTNTFLIEGEHLAEEALKSKGTVKEILVNDESAIPADLDMSIPCYVLSEDAFSAVTETETPQRIAAVCHMPDKQPDQLKRLLLIDAVQDPGNLGTMIRTADAAGIDAVVLGEGTADPYNGKTLRSAQGSHFHIPILKRPLDEFTAELKSQGVAIYGTALENGAAYQSVKPEESFALIVGNEGAGVDAGLLQKTDLNLYVPLYGQAESLNVAVAAAILVYHLRG				NA	NA	NA	NA	NA
D1-12_01868	216	sspI		Small, acid-soluble spore protein I	ATGGATCTTAATTTACGCAACGCCGTTATTGCCAATGTAACCGGCAATAACCAGGATCAGCTGGAGCATACTATCGTTGACGCCATCCAAAGCGGTGAAGAAAAAATGCTTCCGGGCCTCGGCGTCTTATTCGAAGTTCTTTGGCAGCATGCGTCGGACTCAGAAAAAAATGAAATGCTCAAAACACTTGAAGGCGGATTAAAACCTGCGCAATAA	MDLNLRNAVIANVTGNNQDQLEHTIVDAIQSGEEKMLPGLGVLFEVLWQHASDSEKNEMLKTLEGGLKPAQ	PGPT0024900_72	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024900-sspI-K06426	NA	NA
D1-12_01869	1086	cdaR_1	COG3835	Carbohydrate diacid regulator	ATGCAGTTACAGCCGGAACTGGCAAAGAAGTTGATTGCCGAAGTCAAACATATGTACAGCCGCGAAGTAATTATTGCCGATACAAAAGGAATGATCATCGCGGGCACCAACGAGGCGCGCGCCGGATGGTTTCATGAAGGCGCACTGATCTGCGCGCGCGAAAAACGGAATGTCATCATTACGAAAGAAGATGAAAAACGGCTCGAGGGCGTAAAAGCAGGACTGAACCTCCCCGTTTTTTCAGGCCATGAAGTGATCGGAGTATTCGGTCTGACAGGAGACCCTGACGATATCCTTCCTTTCGGAGAATTGCTCAGAAAAATGACGGAGCTGTTTATTAAAGAAACGCGCCATATGGAAGAAGCGCAGTGGCGTGCGAGAATGCTTGAATCCTTTATGGTTGATTGGCTGCAGCTGAAAGAATGGTCTCCGGGCTTTTTAGAAAAAGCAAAGCTCATCGGCGCAGACCTTCACGCATACCGCCGGATCATACTCATTCAAGGCCGTTATGAGCAATATAAAGCGGAGGAGCTCGGGCGGCTCTGGCAGTACGAATGCCCTGAAGACCTGTTTGTCCGCTGGGGAAATGAACGCATTCTCATTAATCATGAAGCAAATTCGGCTTCCAAAACACAGCTCATTAAAAAGATCGGCGCCGTTTTCGGGCAGCCTGTCACCGCCGGCATCGGACGGATCGTTCCGGGAGAGCGCCTCACGGAATCATACGAACAGGCGGATAAAGCACTTTCAGCCGGTATCGGTGACAAGCAGGCCGTCTTTGAAGAAGATTTAAAACTGGATATGTGTCTTGCCGATATCACACCCCGCACGAGGTCGGAATTTTCACGGCGGGTTCTCGAGCATGTACTGGACCGGGAAGAACTTCTGGATACGCTGCGCGCCTTTTTCGACCGGCAATTATCGTTTAAGCGCACCGCCGACGACATGCATATTCATATCAATACATTGCGCTACCGTCTTTCCAAACTGGAATCACTGACAAATATGAAACTTGACCGCCCCGAAGACATAACGGCTTTTTATTTGGCGCTGCGCTTTTTAGATCAACATACAAAAATCACGTAA	MQLQPELAKKLIAEVKHMYSREVIIADTKGMIIAGTNEARAGWFHEGALICAREKRNVIITKEDEKRLEGVKAGLNLPVFSGHEVIGVFGLTGDPDDILPFGELLRKMTELFIKETRHMEEAQWRARMLESFMVDWLQLKEWSPGFLEKAKLIGADLHAYRRIILIQGRYEQYKAEELGRLWQYECPEDLFVRWGNERILINHEANSASKTQLIKKIGAVFGQPVTAGIGRIVPGERLTESYEQADKALSAGIGDKQAVFEEDLKLDMCLADITPRTRSEFSRRVLEHVLDREELLDTLRAFFDRQLSFKRTADDMHIHINTLRYRLSKLESLTNMKLDRPEDITAFYLALRFLDQHTKIT				NA	NA	NA	NA	NA
D1-12_01870	1413		COG0277	putative FAD-linked oxidoreductase	ATGATTTCACGAGAGGCAAAAGAAGCGTTCATCCGGACGGTCGGGAAGGAGAATTATGATGATTCGGCGGCGGGCCGTCTTGTGTATTCTTATGATGCGGCTCCTCAGCTGCAAGCCATGCCGGATGCGGTAATCGCCCCCCGCAGCGCGGATGACGTGTCGCGTATACTAACGATTTGCAGCAGGCATGACATTCCGATCGTGCCGAGGGGTTCAGGCACAAACTTATGCGGCGGCACATGTCCGTCTGAAGGCGGGCTTGTGCTTTTATTCAAACATATGAACCGCATTCTAGAAATCGATGAAGAAAATTTGACGGCAACCGTCCAGCCGGGCGTAATCACGCAAGATATGATCCGTGCGGTTGAACAAAAAGGTTTATTTTATCCGCCTGATCCGAGCAGCATGAAAATATCGACGATCGGCGGGAATATTAATGAAAATTCCGGCGGGCTGCGCGGTTTGAAGTACGGCGTCACCCGGGATTATGTCCTCGGCCTTGAAGCCGTCTTGGCTTCAGGCGATATCATCCGCACAGGAGGAAAGCTGACAAAGGATGTCGCCGGTTATGATCTGACCCGGCTTTTCGTCGGATCAGAAGGGACGCTCGGCGTTGTGACGGAAGCGACTTTAAAGCTGGTTCCGAAGCCGGAAACGAAAAAAACGCTGCTTGCACTCTATGAACATATTGAAGCGGCTGCGGAATCGGTTTCTGCCATCATCGCTGAAAAAATCATTCCGGCGACACTCGAATTTCTGGATCAGCCGACACTGCAGGTCATTGAAGATTACGCCAAGATCGGGCTTCCGACCGACGCAAAAGCGGTGCTGCTGATCGAACAGGACGGTGACATCGAAACGGTCAGACGAGATATGGAAAAAATCGAAGCCATCTGTAAAAACGGAGCAGCCGTATCCGTCCAAACGGCTGAAACCGAGGAAGAGGCATTCGCGCTTACAGAGGCCAGACGGTCCGCATTATCAGCCCTTGCCCGGCTGAAACCGACAACGATTCTGGAAGATGCGACCGTGCCGAGATCACAAATTGCCAGCATGGTCAAAGCCATTAACGAGATTGCAGAAACATACGGCCTGTCCATCTGCACATTCGGCCATGCCGGAGACGGCAACCTCCATCCGACGTGCACCACCGATATCCGGAATACAGAGGAGATGGAACGTGTCGAAAAAGCTTTTGCCGCCATTTTTGAAAAAGCGATTGAGCTGGGCGGGACGATAACGGGTGAACACGGGGTCGGCATCGTAAAAGCGCCGTATTTAGAAATGAAACTGAAAACAGAAGGCATCACCGCCATGAAAGCGATCAAACAAGCGCTTGATCCCCAAAATCTGCTGAATCCGGGAAAAATATTCGCCAATTCATCAAGGAAACGCGTGGTGGTGATGAAATGA	MISREAKEAFIRTVGKENYDDSAAGRLVYSYDAAPQLQAMPDAVIAPRSADDVSRILTICSRHDIPIVPRGSGTNLCGGTCPSEGGLVLLFKHMNRILEIDEENLTATVQPGVITQDMIRAVEQKGLFYPPDPSSMKISTIGGNINENSGGLRGLKYGVTRDYVLGLEAVLASGDIIRTGGKLTKDVAGYDLTRLFVGSEGTLGVVTEATLKLVPKPETKKTLLALYEHIEAAAESVSAIIAEKIIPATLEFLDQPTLQVIEDYAKIGLPTDAKAVLLIEQDGDIETVRRDMEKIEAICKNGAAVSVQTAETEEEAFALTEARRSALSALARLKPTTILEDATVPRSQIASMVKAINEIAETYGLSICTFGHAGDGNLHPTCTTDIRNTEEMERVEKAFAAIFEKAIELGGTITGEHGVGIVKAPYLEMKLKTEGITAMKAIKQALDPQNLLNPGKIFANSSRKRVVVMK	PGPT0028045_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_QacA,PGPT0028045-smvA|qacA|lfrA-K08167	NA	NA
D1-12_01871	1329	lutA_1		Lactate utilization protein A	ATGACAACGGCTAAAGAGCAGAAACAAATTCAAACAGAATTCAAAAACCGCATGGATGAAGGTGAATTGCTGAACTGTATGCGCTGCGGCTTCTGCCTTCCTTCCTGTCCGACCTATATCGAATCGGGATTTCAAGAATCCCATTCACCGCGCGGCCGGATCGCCCTGATGAAAGCCGTCACTGACGGACTGATCGAGCCGGATGAAGATGTCGAGCGCTCACTTTCGCTGTGTCTCGGATGCCGGGCATGCGAGCCCGTTTGTCCGGCAGGGGTCAATTACGGACAGCTGCTTGAAGAAGCGAGGGATATCATTCATCAAAATAAAAAACATAAGCCGGGCGTGCGCCTCTTGCGGAAAGCCGCCTTCACCGGGCTTTTCCCTCACCAAAACCGCATGCAGACAGCCGTGAATCTTCTCGGAATATACCAAAGATCGGGACTGCAGACCGCCGTCAGAAAAACCGGTATGCTTCGCGTTTTGCCTGAACATCTGCGCACAATGGAACAAGTGCTCCCGCCCGCCCCGAAACGGAAAGACATGAAGGAAAGGCCGCGTTTTCTTCCTGCCGCGGGTCCCGTCCAAAAACGGGCCGCTTTTTTCTCGGGCTGCTTAATGGATACGATGTTTTTAGCGACAAATCATGCGACAACGGCGCTTTTACAGGCGGCCGGGTGTGAAATCGCGGTTCCGGACGGCCAGGCGTGCTGCGGCGCGCTTCACGGGCACAGCGGAGAAAAAGAGATGGGAAAAGAACTGGCCAAGCGGAATATCGCGGCTTTTGAAGCGCTTGATGCTGATTATATCATTACAAACGCCGGCGGATGCGGCGCCTTTCTTCAGGAATATCCGCATTTACTGAAAGATGAACCTGGATGGGCGGAACGTGCCGGACAATTCGTCCGGAAGCTCAAAGACTTTTCATCCGTACTGGTTGATCTGAAGTTCCATCAAAAAAACCTGCGGGCACAGTCTCCTCATATCGTCACATATCAGGACTCCTGCCACCTCCGCAATGTGATGCATACGTCAGAGGAACCGCGCACGCTTTTGAAAAGCATTAAAGGGGCTGAGTACAGAGAAATGGAAAAGGCCGACAGCTGTTGCGGGTCGGCGGGAATTTATAATATAACAGAGTCAGAGATGTCTATGAAAATATTAGACAGCAAGATGAAAGCCGCCGGAAAAACGGAGGCGGCCGTCATCGTGACAGCCAATCCCGGATGCCTTCTGCAAATACAGCTCGGCATTTTACGCGAAGGATTAACAGGCCGTGTCCGCGCGGTTCATTTGGCGGATTACCTTTTGGAAGCGGCGGATTTGTCATAA	MTTAKEQKQIQTEFKNRMDEGELLNCMRCGFCLPSCPTYIESGFQESHSPRGRIALMKAVTDGLIEPDEDVERSLSLCLGCRACEPVCPAGVNYGQLLEEARDIIHQNKKHKPGVRLLRKAAFTGLFPHQNRMQTAVNLLGIYQRSGLQTAVRKTGMLRVLPEHLRTMEQVLPPAPKRKDMKERPRFLPAAGPVQKRAAFFSGCLMDTMFLATNHATTALLQAAGCEIAVPDGQACCGALHGHSGEKEMGKELAKRNIAAFEALDADYIITNAGGCGAFLQEYPHLLKDEPGWAERAGQFVRKLKDFSSVLVDLKFHQKNLRAQSPHIVTYQDSCHLRNVMHTSEEPRTLLKSIKGAEYREMEKADSCCGSAGIYNITESEMSMKILDSKMKAAGKTEAAVIVTANPGCLLQIQLGILREGLTGRVRAVHLADYLLEAADLS				NA	NA	NA	NA	NA
D1-12_01872	1797	cstA	COG1966	Peptide transporter CstA	ATGAATGCGATTACAATCGTCATAGCGTCTATATGTATTTTGGCGATCGCCTATCGGCTTTACGGTACCTTTATGATGGTCAAAGTATTAAAAATCAATGATCAGACACCGACTCCGGCCCATGTGCTTGAGGATGGGAAAGATTATGTGCCGACGAATAAGTGGGTGTCATTCGGCCACCACTTCGCGGCAATCGCCGCTGCCGGCCCGCTTGTCGGACCGATTCTGGCAGCTCAGTTCGGCTATCTGCCCGGGCTTTTATGGCTGTTAATCGGGGCGGTGATCGGAGGAGCCGTGCACGATATTGTCGTATTGTTTGCATCAATGCGGAAAAACGGGAAAACGCTTTCTGAAGTCGCCAAAGAAGAGCTCGGCCCGGTGGCGGGTTTTTGCACGGGTCTCTCGATGCTGTTTATCATTACGATCACGATGGCGGGACTGTCCATGGTTGTGCTGCACGCGCTTGAGAAAAACCCGTGGGGAACGTTTGCGGTGGGGATTACGATTCCGATCGCGATGGGGGTCGGCCTCTACTATAAAAAAACGGGCAATCTCAAACTCGCATCAACTGTCGGGTTTCTTTTGTTAATGGCCGGTGTTGTAATCGGGCCGCAGCTGCAGACAACGGCTTTCGGGGACATGCTGACACTGGATGCGAAAACGCTTGCAGTGGCGCTTCCTGTCTATGCGTTTTTCGCCGCGGCGCTTCCGGTTTGGCTTTTGCTGGCTCCTCGTGACTATTTAAGCAGTTTTATGAAAATCGGGGTTTTTGCCGCTTTGATCGCAGGCGTCTTTTTCGTCAATCCCGCCATTAAATTTCCTGCCGTAACGGAGTTTATTCACGGCGGAGGGCCGGTGATCGCGGGTCCTGTCTGGCCGTTTATTTCAATAACGATTGCCTGCGGCGCCATTTCGGGCTTTCATGCATTTGTCGGTTCCGGCACAACGCCGAAAATGCTGGATAAATGGAGTGATATAAAGCCGGTTGCTTTCGGAGCGATGCTTGTGGAATGTCTCGTCGGAATTATGGCGCTCATTGCAGCTGCCGCTCTTGAGCCCGCCGACTATTTTGCTATTAACAGCACGCCTGAAATATTCCGCACCCTCGGGATGAATGTCGTCCATCTGCCTGAATTGAGCAAAGAAATCGGGCTCAGTCTGGAAGGAAGAACGGGCGGCGCCGTTACGCTTGCCGTCGGAATGACGTATATCTTTACGGAGATTCCGTTTTTCAGTCATTTGGCTTCATACTTTTTTCAATTCGTCATTATGTTTGAAGCGGTGTTTATTTTAACGGCGATTGATGCGGGAACCCGTGTCGCCCGGTACTTGATTCAAGAGTTTTTCGGAGAGGTCTATAAGCCGCTGAAAAAAACAGACTGGCTGCCGGGCTCGATTTTCTCAAGCGCGCTCGCCTGCCTGCTGTGGGGCTATCTTCTGTATTCGGGCGACATCAGCTCCATTTGGGCGCTGTTCGGCGTATCCAATCAGCTTATGGCGTCTGTCGGCTTAATTATCGGTGCGACCGTCGTATTAAAAATAGCGGATAAGCGGCGCTATATGCTGACATGCCTGATTCCTCTCGCTTATTTGTACGTGACCGTCAACTATGCGGGTTATTGGATGGTGCGGTATGTGTATTTGAACCCCGAAGCGGCGGGATACAACGTGCTGAATGGCGTTTTATCCATTATCATGCTCATTCTCGGGCTTGTGATTATCATTGCGGCTGTGAAAAAATGGGCAAATGTATGGCGTGATCCGAGTGCCAGACTGGAAGCTTCAATACCCGGATAA	MNAITIVIASICILAIAYRLYGTFMMVKVLKINDQTPTPAHVLEDGKDYVPTNKWVSFGHHFAAIAAAGPLVGPILAAQFGYLPGLLWLLIGAVIGGAVHDIVVLFASMRKNGKTLSEVAKEELGPVAGFCTGLSMLFIITITMAGLSMVVLHALEKNPWGTFAVGITIPIAMGVGLYYKKTGNLKLASTVGFLLLMAGVVIGPQLQTTAFGDMLTLDAKTLAVALPVYAFFAAALPVWLLLAPRDYLSSFMKIGVFAALIAGVFFVNPAIKFPAVTEFIHGGGPVIAGPVWPFISITIACGAISGFHAFVGSGTTPKMLDKWSDIKPVAFGAMLVECLVGIMALIAAAALEPADYFAINSTPEIFRTLGMNVVHLPELSKEIGLSLEGRTGGAVTLAVGMTYIFTEIPFFSHLASYFFQFVIMFEAVFILTAIDAGTRVARYLIQEFFGEVYKPLKKTDWLPGSIFSSALACLLWGYLLYSGDISSIWALFGVSNQLMASVGLIIGATVVLKIADKRRYMLTCLIPLAYLYVTVNYAGYWMVRYVYLNPEAAGYNVLNGVLSIIMLILGLVIIIAAVKKWANVWRDPSARLEASIPG	PGPT0015060_1523	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
D1-12_01873	1500	abfA	COG3534	Intracellular exo-alpha-(1->5)-L-arabinofuranosidase 1	ATGAAAAAAGCGGGGATTACAGCAGATAAAGAATATATCATCGGTGAAGTGGACAAACGGATGTACGGATCATTTATAGAACATATGGGCCGGGCGGTGTATGAAGGCATTTATGAGCCCGGACACCCGAAAGCCGACAAGGACGGCTTCAGAACAGACGTGCAGGAGTTAATCAAAGAATTGCAAGTGCCGTTCATCCGCTATCCGGGAGGGAATTTTCTCTCGGGCTACAATTGGGAAGACGGTGTCGGACCGGTGAAGGACCGCCCGCGGAGGCTTGATTTGGCATGGCAGACGACAGAAACGAACGAAGTGGGGACGAATGAATTTTTAACGTGGGCGAAAAAAGTGAACGCCGAAGTGAATATGGCGGTTAATCTCGGGACGAGAGGGATCGATGCCGCCCGGAACCTCGTCGAATACTGCAACCATCCTGAAGGGTCATACTGGAGCGACTTACGAAAATCGCACGGATATGAAAAACCTTACGGCATCAAAACATGGTGCTTAGGAAATGAGATGGACGGCCCTTGGCAGATCGGTCATAAAACGGCGCATGAATACGGACGGCTCGCCGCTGAAACGGCAAAGGTGATGAAATGGACGGACCCGACGATCGAATTGGTGGCTTGCGGAAGCTCAAACAGCGGCATGCCGTCCTTCATCGAGTGGGAGGCCGAGGTGCTTGAGCATACGTACGAGCATGTGGATTACATCTCACTGCATACGTATTACGGCAATCATGAAAATGATCTTGAGAACTATTTGGCGAAGTCGATGGATTTAGACCATTTTATTAAATCCGTCACAGCCGTATGTGATTATATGAAAGCGAAAAAACGCAGCAAAAAAACGATTCACCTTTCTTTAGATGAATGGAATGTGTGGTATCACTCAAATGAAGCGGATAAAAAAGTGGAGCCATGGATTACGGCCCGGCCGATCCTCGAAGACATCTACAATTTTGAAGATGCGCTGTTGATCGGTTCACTGCTGATTACGATGCTGCAGCATGCGGACAGACTGAAGATCGCCTGTCTCGCCCAGCTTGTCAACGTGATTGCGCCTATCATGACTGAAAAGGGCGGAGAAGCATGGAGACAGCCGATCTTTTATCCTTACATGCACGCCTCTGTCTACGGGAGAGGGACTTCAATGAAGCTGCTGATTACCTCCCCGAAATACGACTCAGCGGACTTTACGGATGTGCCGTATGTTGATGCCGCGGCCGTTTACCATGAAGAGGATGAAGCACTGACCATTTTTGCCGTCAACAAAAGCAAGGAACTGATGGAAACGGAGATAAAGCTGAGAGGGTTTGAAGATTACCGCATTATTGAGCATATCGTGCTGGAGCATCAGGATATGAAAGCGACCAATCAAAAAAACAGAAAAGAAGTCATTCCGCACTCCAACGGAACGTCTTCGGCAAATGCTGAAGGGATAACGGCTCATTTTACTCCGCTGTCCTGGAATGTCATCCGTTTATCAGGAAAATAA	MKKAGITADKEYIIGEVDKRMYGSFIEHMGRAVYEGIYEPGHPKADKDGFRTDVQELIKELQVPFIRYPGGNFLSGYNWEDGVGPVKDRPRRLDLAWQTTETNEVGTNEFLTWAKKVNAEVNMAVNLGTRGIDAARNLVEYCNHPEGSYWSDLRKSHGYEKPYGIKTWCLGNEMDGPWQIGHKTAHEYGRLAAETAKVMKWTDPTIELVACGSSNSGMPSFIEWEAEVLEHTYEHVDYISLHTYYGNHENDLENYLAKSMDLDHFIKSVTAVCDYMKAKKRSKKTIHLSLDEWNVWYHSNEADKKVEPWITARPILEDIYNFEDALLIGSLLITMLQHADRLKIACLAQLVNVIAPIMTEKGGEAWRQPIFYPYMHASVYGRGTSMKLLITSPKYDSADFTDVPYVDAAAVYHEEDEALTIFAVNKSKELMETEIKLRGFEDYRIIEHIVLEHQDMKATNQKNRKEVIPHSNGTSSANAEGITAHFTPLSWNVIRLSGK	PGPT0018655_1654	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
D1-12_01874	843	araQ	COG0395	L-arabinose transport system permease protein AraQ	TTGCGTAACAATTACATGTTTTCCGTGTACAGAGTCGCGTTTACCTTGTTTTTTATCATGCTGAGCCTGTTGTATATCTTTCCGATGATCTGTCTATTGCTCGGTTCTTTAAAGCCGTCATCTGAGCTGATGCGCATCGGGCTGAATCTGCGTCTTGATCCGGATGTAATGAGCCTTGATAACTACACCTATTTGTTCAACGGGGGGAGCATTTATTTCAAATGGTTTTTTAACAGCCTGCTGCTCGGCGTTCTCACCACGGTTCTCACGCTGTTTTTTTCCTCTTTGATCGGCTACGGACTCGGTGTCTACGAATTTAAAGGCAGAAATATTATTTTCGTTCTTGTGCTGATCATTATGATGGTGCCTCTTGAAGTGATGATGCTTCCGTTGTTCAAATTGACGGTGGGTCTTCATTTGATCGATTCTTATACGGGAGTGATTCTGCCGTTTATTGTGTCGCCTGTCGCCGTGTTCTTTTTCCGGCAATATGCGCTCGGACTTCCGAAGGATCTGCTTGATTCAGCGAGAATGGACGGCTGCACCGAATTCGGCATTTTTTTCAGAATTATGGCGCCGCTCATGAAACCGGCATTCGGGGCAATGATCATTCTTCAATCTTTAAACAGCTGGAATAACTTTTTATGGCCGCTGATCGTGCTTCGGTCGAAAGAAATGTTTACGCTTCCAATCGGACTTTCAGGGCTGCTGAGTCCGTACGGCAACAACTATGACATGCTGATTTCCGGGTCCGTTTTTGCGATACTGCCGGTGATCATCATATTCTTGTTTTTCCAAAAATACTTCATTTCCGGCCTCACAGTAGGCGGAGTGAAGGGATAG	MRNNYMFSVYRVAFTLFFIMLSLLYIFPMICLLLGSLKPSSELMRIGLNLRLDPDVMSLDNYTYLFNGGSIYFKWFFNSLLLGVLTTVLTLFFSSLIGYGLGVYEFKGRNIIFVLVLIIMMVPLEVMMLPLFKLTVGLHLIDSYTGVILPFIVSPVAVFFFRQYALGLPKDLLDSARMDGCTEFGIFFRIMAPLMKPAFGAMIILQSLNSWNNFLWPLIVLRSKEMFTLPIGLSGLLSPYGNNYDMLISGSVFAILPVIIIFLFFQKYFISGLTVGGVKG	PGPT0016490_76	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOOLOIGOSACCHARIDE_TRANSPORT,PGPT0016490-araQ-K17236	NA	NA
D1-12_01875	942	araP	COG1175	L-arabinose transport system permease protein AraP	ATGAGACCTGTAAAGACAGAGACAGCACAAACCGTTTCTGCAGTCCGGAAGAAGCCGCGCCGGCGCAATGTGCTGTATTCAAAAAAAGCGGCGCCTTATCTTTTTACGGCGCCATTTATCATTTCGTTTCTCGTTTTCTTTTTGTATCCGATCATCAGCGTGTTTATCATGAGCTTTCAGCGGATACTGCCGGGAGAAATTACATTTGTCGGGTTTTCCAATTATACCGCTCTTCTTAATCCAACCTTTTATACGGCATTATTTAACACATTGGAATATACCTTCTGGACGCTGATCGTGCTGATTCCGGTGCCGCTTCTTTTGGCGGTGATTCTGAATTCGAAGCTCGTCAGGTTCAGAAATGTGTTTAAATCGGCTCTGTTTGTACCGGCTTTAACATCGACGATCGTAGCGGGGATTATTTTCCGTCTGATGTTCGGAGAAATGAATACGTCGCTTGCAAACGAGCTGATGATGAAGCTTGGCGCATCACCCCAAAACTGGCTCAACAACAAAGGTACCGGCATGTTTTTAATGGTGCTGCTTGCGTCATGGAGGTGGATGGGCATTAACATTCTTTACTTTCTGGCCGGATTGCAAAACGTGCCGAAAGAATTGTATGAAGCGGCTGAAATTGACGGGGCGAGTACGTGGAAAAAGTTCCGGCATATTACCCTTCCATTTTTAAAGCCGGTGTCCGTTTATGTATTAACGATCAGTATTATCGGCGGTTTCAGAATGTTTGAGGAAAGCTATGTGCTTTGGCAGAATAATTCCCCGGGCAATATCGGCCTCACACTTGTCGGTTATTTATATCAGCAGGGGCTTGCATACAACGAAATGGGGTACGGGGCCGCAATCGGAATTGTCCTTTTGCTTGTCATCTTACTAGTCAGCCTTGTTTCACTGAAACTGTCCGGTTCGTTTAAAGGGGAGGGATAA	MRPVKTETAQTVSAVRKKPRRRNVLYSKKAAPYLFTAPFIISFLVFFLYPIISVFIMSFQRILPGEITFVGFSNYTALLNPTFYTALFNTLEYTFWTLIVLIPVPLLLAVILNSKLVRFRNVFKSALFVPALTSTIVAGIIFRLMFGEMNTSLANELMMKLGASPQNWLNNKGTGMFLMVLLASWRWMGINILYFLAGLQNVPKELYEAAEIDGASTWKKFRHITLPFLKPVSVYVLTISIIGGFRMFEESYVLWQNNSPGNIGLTLVGYLYQQGLAYNEMGYGAAIGIVLLLVILLVSLVSLKLSGSFKGEG	PGPT0016485_32	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOOLOIGOSACCHARIDE_TRANSPORT,PGPT0016485-araP-K17235	NA	NA
D1-12_01876	1296	araN	COG1653	putative arabinose-binding protein	ATGAAAAAAACGACCGCTGTATGTTTGGTGCTGATGATGCTCTTCTTGTTTACCGCCGGCTGTTCACAAGAACGGACTGCCGGCCGGCCGGGAGAAACGGAGCTGACGTTTTGGACGTTTAACGGTCTGCACGAACAGTTTTATCAGGAAATGGTCAAAGAATGGAATCAGAAATTTCCGGAGCGCAAAATCAAGCTGAATACCGTTGTTTATCCTTATGGACAAATGCATGATAATTTATCGGTTTCGCTGATCGCGGGTGAGGGGCTTCCCGATATAGCCGACGTGGAATTAAGCCGGTTCTCGAACTTTCTGAAGGGGAAGGATATCCCGCTTGCCGATCTGACGCCGCTGATTGAAAAAGACCGCGATAAGTTTGTGGAAGCGCGTCTGGCCTTGTACAGCAAAAACGGAAAATTGTACGGCCTTGATACACATGTGGGGACGACCGTCATGTTTTACAACATGGATATTATGCAAAAAGCGGGCGTTGATCCCGCCTCCATTAAGACATGGGAAGATTATCGGCGGGCAGGGAAAAAAGTGCGTGAAGCATCTGGGAAACCGATGGGAACGGTTGAAACAAACGACTCCGCCACATTCCTATCCATGATTTCGCAGCAAGGGTCAGGCTACTACAGCAAAAACGGAAAATTGATTCTGAACAGCAAGACGAATACAGACACACTGAATTACGTAAAGGACATGGTAAATGATAAAACCCTTCTGCCGGCTCCCGGCGGCGGCCATCACAGCGAAGAATACTACGGTTTTATGAATCAGGGCGGGGCAGCCTCAGTGCTGATGCCCATTTGGTACATGGGACGGTTTATCGATTATATGCCTGATTTAAAAGGAAAAATGGCGATTTACCCTATGCCTGCCTGGAAAGAAGGCGGTGACAGATCAGCGGGTTTAGGCGGAACAGCCACCGTCGTGCCGAAGCAGGCTGAACATCTGAAGCTCGCGAAAGAATTTCTCGGTTTTGCGAAAGGTTCGAAGGAAGGGAATATAAAGCTTTGGACGGTGCTCGGCTTTGACCCGCTCCGCTGGGACGTGTGGGATTCAAAAGAATTGAAGGAGAAAAACAAGTACACGGATTTCTTCCGGAACGGTACGTCAATTTTTTCCTCGCTCCTTGAAATAAAAGATGAGATCAATCCGATTTATCTGCATGAAGACTTCTCTAAAGCGGCTGATCTCGTTGTCAGACAAGTGCTGTTCGATGCGCTGAAGACGCAGGAAAAAACACCTAAGGAAGCCTTGGACGAGGCGGCAGAGCAATTAGAGAAATAG	MKKTTAVCLVLMMLFLFTAGCSQERTAGRPGETELTFWTFNGLHEQFYQEMVKEWNQKFPERKIKLNTVVYPYGQMHDNLSVSLIAGEGLPDIADVELSRFSNFLKGKDIPLADLTPLIEKDRDKFVEARLALYSKNGKLYGLDTHVGTTVMFYNMDIMQKAGVDPASIKTWEDYRRAGKKVREASGKPMGTVETNDSATFLSMISQQGSGYYSKNGKLILNSKTNTDTLNYVKDMVNDKTLLPAPGGGHHSEEYYGFMNQGGAASVLMPIWYMGRFIDYMPDLKGKMAIYPMPAWKEGGDRSAGLGGTATVVPKQAEHLKLAKEFLGFAKGSKEGNIKLWTVLGFDPLRWDVWDSKELKEKNKYTDFFRNGTSIFSSLLEIKDEINPIYLHEDFSKAADLVVRQVLFDALKTQEKTPKEALDEAAEQLEK	PGPT0016480_120	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOOLOIGOSACCHARIDE_TRANSPORT,PGPT0016480-araN-K17234	NA	NA
D1-12_01877	1185	egsA	COG0371	Glycerol-1-phosphate dehydrogenase [NAD(P)+]	ATGAAACGTTCTCCTGAGGACATTCAATCCGAGTTTGACAAGGAAGGGGCCAGCCGCTCACCGATTCAAATAGAAGATATCGTGATCGGGGCGAATGCAAAAGAAGAGCTTCTCACATTTCTGCAAAAAAAATGCTGGAATCATCCGGTGATCGTCTGTGACCGGAACACGTACGAGGCGGCGGGACGTCTGCTTGCGGAAGAATTGAGGGCAGGCGGGATCAAAGCGTCAAAAGTCATCATTCCGGAGCATGAAGCCGGGGCCGCCGCGGCTGATGAGAGGACATTGGTCTATACGCTGATCAATCTCGCGGAAAAGACGGATGTCATCATTGCGGCCGGTGCAGGAACGATTCACGACATTACACGGTTTGCCGCCTGCCAGCGCGGATTGCCGTTTATCTCATTCCCCACCGCTCCGTCAGTCGACGGTTTTACATCGGCGGGAGCGCCGCTCATATTAAACGGAATCAAAACGACGATTCAAACGAAAGCGCCGATCGCCTTATTTGCGGATACGAATGTATTAAAAGAAGCGCCCCGTTCAATGACAACCGCGGGCTTCGGAGACATGATCGGAAAAATAACATCGCTGGCAGATTGGGAGATTTCCCGCAGGCTTGCGGGTGAGCCGTACTCAGAAGCCGGGGCGAAGCTTGTGAAAGACGCGCTTTGGCAGTGCATTGATCACCGCGCTGACATTGCCATGGGAACGGAGGCCGGCATTCAGATACTGATGGAAGCGCTGATCGTTTCGGGTCTTGTCATGCTTGCGCTTGACCACTCCCGCCCCGCCTCAGGAGGAGAACATCACATCTCGCATTGGATTGAGATGGAAATGCTGAAGGCAAAACAGCCTGCGATTCTCCACGGTGCGAAGGTCGGCTGTGCGTGCGCGGTGCTGAGTGATATTTACAAAGAACTGGCTTGTCACGAAAAGCTTGCGGAACTGCCGCCGCACTTTCGCGAGGCGATTCAATCTGCATATGAAGGGCTTCCCGACGGCAAAACAATTGCCGGATGGCTCACATCTGCAGGAGGTCCCGCCTGTTTCGATGAGATCGGTGTAAAACAGGACCTTGTCAGCGATGCGCTTAAGCATGCGCACACACTGAGAGACCGTTATACCGGTTTAACCATCATAAATGAAAATGCAGCGCTCTTTGCACATCATTTGCATCAATAG	MKRSPEDIQSEFDKEGASRSPIQIEDIVIGANAKEELLTFLQKKCWNHPVIVCDRNTYEAAGRLLAEELRAGGIKASKVIIPEHEAGAAAADERTLVYTLINLAEKTDVIIAAGAGTIHDITRFAACQRGLPFISFPTAPSVDGFTSAGAPLILNGIKTTIQTKAPIALFADTNVLKEAPRSMTTAGFGDMIGKITSLADWEISRRLAGEPYSEAGAKLVKDALWQCIDHRADIAMGTEAGIQILMEALIVSGLVMLALDHSRPASGGEHHISHWIEMEMLKAKQPAILHGAKVGCACAVLSDIYKELACHEKLAELPPHFREAIQSAYEGLPDGKTIAGWLTSAGGPACFDEIGVKQDLVSDALKHAHTLRDRYTGLTIINENAALFAHHLHQ	PGPT0024335_264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024335-araM|egsA-K00096	NA	NA
D1-12_01878	840	araL	COG0647	Sugar-phosphatase AraL	ATGATAAGCATTTTTACAGAAAACACGGGGCGAATGCTTATTATGGCCAAACTTGACGCAGCCGGGTTTCTGATTGATTTAGACGGAACCGTATTCAGGGGGCGGGAGCTGATTGACGGCGCAAAAGAAGCCGTTCATACCCTTCAGTCACTGGGCAAAGCCGTTGTCTTTTTAAGCAACCGCGGCAATCTATCAAGAGCAATGTGCCGAAAGAAACTGCTGGGTGCCGGTATCCGCACGGATGAACGGAGCATCGTGCTGTCCTCCAGTGTGACGGCATCATTTTTAAAGAAGCATTATCCTTTGTCAAAGGTGTGGGTGTTAGGAGAGAAAGGGCTGACTGATGAACTCGCTTTAGCGGGTGTCGCCTTGGCGCAAAACCCGCAGGCGGCAGACTGGCTTGTCATCTCCCTGCATGAAACCGTCACCTATGAGGATCTGAATCTCGCTTTTAAGGCGGCTTCCTCCGGCGCGCGTATCATCGCCACGAACCGGGACCGCTCCTTTCCGAATGAAGGCGGCCATGCCATGGACGTCGCGGGAATGATCGGGGCCATTGAAGCATCCGCCGGAGCAAAAACGGAGCTTGTCATCGGCAAACCGTCTTGGCTGATGGCTGAGGCGGCATGTGAAGCGCTCGGACTTCCCCCTGAGGAATGCGCCATTATCGGAGACAGCCTCGAATCTGATATCGCAATGGGCAGGCTGTACGGAATGAAAAGCGTATTGGTTCTGACGGGGGCGGCCAAACTTGGGGAGCCCCGTCTATATGAACCTGACATCGTCCTTGATTCTATTAAAGACCTGACAGAATTAGCGAAGGAGGGAATCCTTTTATGA	MISIFTENTGRMLIMAKLDAAGFLIDLDGTVFRGRELIDGAKEAVHTLQSLGKAVVFLSNRGNLSRAMCRKKLLGAGIRTDERSIVLSSSVTASFLKKHYPLSKVWVLGEKGLTDELALAGVALAQNPQAADWLVISLHETVTYEDLNLAFKAASSGARIIATNRDRSFPNEGGHAMDVAGMIGAIEASAGAKTELVIGKPSWLMAEAACEALGLPPEECAIIGDSLESDIAMGRLYGMKSVLVLTGAAKLGEPRLYEPDIVLDSIKDLTELAKEGILL	PGPT0021435_300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021435-nagD-K02566	NA	NA
D1-12_01879	690	araD	COG0235	L-ribulose-5-phosphate 4-epimerase	ATGCTTGAAGCGTTAAAAGAAGAAGTGCTCGCCGCCAATCTGAAGCTTGAGGAACATAACCTTGTCACGTTTACATGGGGGAATGTCAGCGGCATTGACAGAGAGAGCGGGAGAATCGTCATTAAACCGAGCGGTGTCGATTACAGTGAGCTGACCGCTGACAAACTGGTCGTCCTGAATGAGGACGGAGACATTCTCGAAGGCTCGCTGAAACCGTCTTCTGACACGCCGACCCATCTTTATCTGTATAAAGCGTTTCCGGCTATCGGCGGAATCGTTCATACTCATTCCCGCTGGGCGACGAGCTGGGCACAGTCCGGAAGAGACATACCCGCTCTCGGAACGACTCACGCGGATTACTTTGAAAGCGCTATACCCTGTACGAGGGAAATGTATGAAGAAGAAATTGTGAAAGATTATGAATATCATACAGGCAAAGTCATAGCCGAAACCTTTCAAAACGAACCGTATGAACAAAATCCGGGTGTCCTCGTCCACAGCCACGGCCCGTTCTGCTGGGGAACGGACGCGCTGAATGCCCTGCATAACGCCGTTGTGCTCGAAACGGTAGCGGAAATGGCCTACCATTCGCTTATGCTGAACAAACAGCTCAGTCCGATCGACAGAGTGCTGCATGATAAGCATTTTTACAGAAAACACGGGGCGAATGCTTATTATGGCCAAACTTGA	MLEALKEEVLAANLKLEEHNLVTFTWGNVSGIDRESGRIVIKPSGVDYSELTADKLVVLNEDGDILEGSLKPSSDTPTHLYLYKAFPAIGGIVHTHSRWATSWAQSGRDIPALGTTHADYFESAIPCTREMYEEEIVKDYEYHTGKVIAETFQNEPYEQNPGVLVHSHGPFCWGTDALNALHNAVVLETVAEMAYHSLMLNKQLSPIDRVLHDKHFYRKHGANAYYGQT	PGPT0017420_380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017420-araD|ulaF|sgaE|sgbE-K03077	NA	NA
D1-12_01880	1719	araB	COG1069	Ribulokinase	ATGACGTATTATACCGGCTGGGAGGGAATTGATATGGCGTATACGATTGGTGTTGATTTCGGCACATTGTCCGGCCGGGCGGTGCTTGTCAATGTCCGCACGGGCGAAGAAATCGCGTCTGCGGTAAAAGAATACACTCATGCCGTCATCGACCGCACGCTGCCGAAGACGGGTGAAAAACTCCCTCGGGACTGGGCGCTTCAGCATCCTGCCGATTATATCGAAGTTCTGGAAACGGCGATTCCGAACCTGCTTGAGCAGGCGGGCGCTGATCCAAAAGACGTGATCGGCATAGGAATTGATTTTACCGCCTGCACGATTTTGCCGATAGACGGCGCGGGGCAGCCGCTTTGTATGCTGCCGGAATTTGAACGGGAGCCCCACAGTTATGTGAAGCTGTGGAAGCATCATGCGGCTCAAAAACATGCAGACCGTTTGAACACGATTGCCGAAGACACAAAAGAAACATTCCTTAAAAGATACGGCGGTAAAATTTCTTCTGAATGGATGATCCCGAAAATCATGCAAATCGCGGAAGAAGCGCCGCATATATACGAGGCGGCAGATCGGATTGTGGAAGCGGCAGACTGGATCGTCTATCAATTGTGCGGTTCATTGAAGCGAAGCAACTGCACGGCCGGCTACAAAGCAATCTGGAATGAGGAGACGGGGTATCCGCCGGATCATTTTTTCGAAAAGCTCAACCCGTTAATGAAAACGATTACAAAGGATAAATTAGGCGGTACCATTTATTCAGTCGGGGAAAAAGCAGGAGGTTTGACCGAAAAAATGGCGGAGCTGACCGGGCTTCTGCCGGGGACGGCCGTTGCCGTCGCCAATGTCGACGCTCACGTGTCAGTGCCCGCGGTCGGTATTACAGAGCCGGGGAAAATGCTGATGATCATGGGAACGTCTACCTGCCATGTGCTGCTCGGCGAGGAAGAACATATCGTCCCCGGTATGTGCGGGGTCGTCAATAACGGCATCTTGCCCGGATATGCGGGATATGAAGCGGGGCAGTCCTGTGTCGGCGACCACTTTGAATGGTTCGTCAAAACGTGTGTTCCGAGAGACTATGAGAAGGAAGCTGAGGATAAACACATAGACATTCACGAGCTGCTCAGCAAAAAAGCAGCTGAACTTGTTCCAGGGGAAAGCGGCCTTCTCGCGCTTGACTGGTGGAACGGAAACCGGTCAACCTTGGTGGACGCCGATTTGACGGGCATGATGCTTGGTATGACGCTGCACACGAAGCCGGAAGAAATCTACAGGGCATTGATTGAAGCGACGGCGTTCGGAACGAGGATGATTATCGAAACGTTCCGGGAAAACGGCGTTCCGGTCGAAGAGCTTTACGCAGCCGGAGGAATCGCCGAAAAAAATCCGTTTGTCATGCAGATTTATGCAGACGTCACAAATATGGATATTAAATTATCCGGGTCTCCGCAGGCGCCTGCACTGGGCTCCGCGATTTTCGGAGCGCTCGCCGCGGGACGGGAAAACGGGGGATTCTCCAATATTGCTGAAGCATGCGCGCATATGGGGAAATTAAAAGACGGCTTTTATGCCCCGAACCCGGAAAGAGCTGAGATTTATGACAATTTATATGCGGAATATAAAGAGCTCGTACACTACTTCGGCAAAGAAAACAATGTCATGAAACGCCTGAAAGCCATTAAAAACCGTGATTTTGCAAAAGGAGGGAGCCGCCATGCTTGA	MTYYTGWEGIDMAYTIGVDFGTLSGRAVLVNVRTGEEIASAVKEYTHAVIDRTLPKTGEKLPRDWALQHPADYIEVLETAIPNLLEQAGADPKDVIGIGIDFTACTILPIDGAGQPLCMLPEFEREPHSYVKLWKHHAAQKHADRLNTIAEDTKETFLKRYGGKISSEWMIPKIMQIAEEAPHIYEAADRIVEAADWIVYQLCGSLKRSNCTAGYKAIWNEETGYPPDHFFEKLNPLMKTITKDKLGGTIYSVGEKAGGLTEKMAELTGLLPGTAVAVANVDAHVSVPAVGITEPGKMLMIMGTSTCHVLLGEEEHIVPGMCGVVNNGILPGYAGYEAGQSCVGDHFEWFVKTCVPRDYEKEAEDKHIDIHELLSKKAAELVPGESGLLALDWWNGNRSTLVDADLTGMMLGMTLHTKPEEIYRALIEATAFGTRMIIETFRENGVPVEELYAAGGIAEKNPFVMQIYADVTNMDIKLSGSPQAPALGSAIFGALAAGRENGGFSNIAEACAHMGKLKDGFYAPNPERAEIYDNLYAEYKELVHYFGKENNVMKRLKAIKNRDFAKGGSRHA	PGPT0017410_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017410-araB|L_ribulokinase-K00853	NA	NA
D1-12_01881	1500	araA		L-arabinose isomerase	ATGAATGTGCTTCAGAACAAAGAATATGAATTTTGGTTTGTAACGGGAAGCCAGCACTTATACGGAGAGGAAACGCTGCAGCTTGTCGATAAACACGCAAAGGGGATATGTGACGGTCTCAGCGGGGTGTCATCAAGATACAAGATCAGGCATAAACCGGTTGTCACGTCATCTGAAACGATCAGAGAGGTTTTGCGGGAAGCGCAGTATCAAGAAAACTGTGCGGGGGTCGTGACGTGGATGCATACATTTTCCCCTGCGAAAATGTGGATTGAAGGTCTTTCCGCTTTTCAAAAGCCGATGCTTCATCTGCATACCCAGTATCATCGCGACATCCCATGGGAAACGATTGATATGGATTTTATGAACAGCAACCAATCCGCTCACGGAGACCGGGAATACGGATATATCCAGTCAAGAATGGGGCAGACGAGAAAAGTCATCGCAGGCTATTGGGATGATGAGGAAGTCAAACATGACATTTCGCAATGGATGAACACTGCTGCCGCTTGGAATGAAAGCAGGAATATTAAAGTAGCCCGGTTCGGCGACAATATGCGGAATGTGGCGGTTACTGACGGAGACAAAGTCGGCGCCCACATCCAATTCGGCTGGCAAGTTGATGGGTACGGAATCGGCGATCTTACCGAGGTGATGAACAACGTCACCGACGCAGAAATTGAGGCGCTTTATGAGGAATACGACAAATTGTATGTCATCAGCGACGAAACAAAACGGGATGAAGCAAAAGTTGCTTCCATTAAAGAACAGGCGAAAATTGAACTCGGATTAACGGCCTTTCTCGAACGGGGCGGATATACAGCGTTTTCGACCTCCTTTGAAGTTTTGCACGGAATGAAGCAGCTTCCGGGACTTGCCGTTCAGCGTCTCATGGAAAAAGGGTACGGATTTGCCGGCGAAGGCGATTGGAAAACGGCTGCCCTTGTGCGAATGATGAAAATAATGGCGGACGGAGAACAAACCTCCTTCATGGAAGATTATACGTACCATTTTGAACCGGGGCGTGCGATGATTCTCGGATCACATATGCTTGAAGTATGTCCGACGATCGCCCTTGATCAGCCGAAAATCGAAGTTCATCCTCTCTCAATCGGAGGGAAGGAAGATCCGGCCCGGTTGGTCTTTAACGGAATCGGCGGTTCAGCCATCATCGCCAGCATCATTGATATCGGCGGGCGATTCCGTCTCATTCTGAATGAAGCGGAAGGCAGGGAAATTGATCATGATATGCCGAATCTCCCTGTGGCGCGGGTGCTGTGGAAGCCGGAGCCATCGCTGAAAACAGCTGCGGAAGCATGGATTTTGGCGGGAGGCGCCCACCATACCTGTATGTCCTTCCGGCTTACGGCTGAACAGATGCTTGACTGGGCTGAGATGGCAGGCATTGAAAGCATCTTTATTTCCCTCAATACCGAAATACATGAGCTGAAAAAAGAGCTGAAATGGAATGACGTATTATACCGGCTGGGAGGGAATTGA	MNVLQNKEYEFWFVTGSQHLYGEETLQLVDKHAKGICDGLSGVSSRYKIRHKPVVTSSETIREVLREAQYQENCAGVVTWMHTFSPAKMWIEGLSAFQKPMLHLHTQYHRDIPWETIDMDFMNSNQSAHGDREYGYIQSRMGQTRKVIAGYWDDEEVKHDISQWMNTAAAWNESRNIKVARFGDNMRNVAVTDGDKVGAHIQFGWQVDGYGIGDLTEVMNNVTDAEIEALYEEYDKLYVISDETKRDEAKVASIKEQAKIELGLTAFLERGGYTAFSTSFEVLHGMKQLPGLAVQRLMEKGYGFAGEGDWKTAALVRMMKIMADGEQTSFMEDYTYHFEPGRAMILGSHMLEVCPTIALDQPKIEVHPLSIGGKEDPARLVFNGIGGSAIIASIIDIGGRFRLILNEAEGREIDHDMPNLPVARVLWKPEPSLKTAAEAWILAGGAHHTCMSFRLTAEQMLDWAEMAGIESIFISLNTEIHELKKELKWNDVLYRLGGN	PGPT0017450_584	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017450-araA-K01804	NA	NA
D1-12_01882	966	abnA	COG3507	Extracellular endo-alpha-(1->5)-L-arabinanase 1	ATGAAAAACAGATTCAGACGCATGATCCGCTTTTCGTGCGCAGCCGTTACAGCCGGGCTGCTGTTGATGTCTTCATCTCCGGCATCTGCCGCGTTTTGGGGGGCATCAAATGAATTGCTTCACGATCCGACAATGGCGAAGGAAGGAAACACGTGGTACGCTTTCGGAACCGGTTTGGAAGGGGAGAGGGGGCTTCGCGTCTTAAAGGCGGGCAGCGGCGGCGTATGGACCGTTCAGAAATCAATCTTTACTTCCCCGCTGTCATGGTGGGGCAATTATGTGCCGAATTACGGGCTGAATCAATGGGCCCCCGATGTTCAATATTATAACGGAAAGTATTGGCTGTATTATGCGGTTTCTTCATTCGGCAAAAATACCTCCGCGATCGGTCTTGCATCATCTGCAAGCCTCAGTTCGGGAAACTGGAAGGACGAAGGGCTCGTCATCCGTTCAACAAGCGCCGATAACTACAATGCAATTGATCCGGAGCTGACAATTGATAAAGACGGAAACCCTTGGCTTGCCTTCGGTTCTTTTTGGAGCGGCATTAAGCTGACAAAGCTTGATAAAAATACGATGAAACCGACGGGATCACTTTATTCCATCGCTGCCAGACCGAATAACGGCGGAGCTTTGGAAGCGCCGGCCATCACCTACCAGAACGGCTACTATTACTTAATGGTGTCGTTTGATAAATGCTGTTCAGGCGTGAATAGTACGTACAAAATCGCTTATGGAAGATCCAAAAGCATCACGGGCCCATATCTCGATAAAAGCGGGAAAAGCATGTCAGAAGGCGGAGGGACGATTCTTGACTCCGGCAATGACCGCTGGAAAGGCCCGGGCGGTCAAGACATTGTGAACGGGAATATTTTAGTGCGTCATGCGTATGATGCCGAAAACAGCGGAATTCCGAAGATGCTCATCAATGATATCGACTGGAGTTCAGGCTGGCCTTCCTATTAA	MKNRFRRMIRFSCAAVTAGLLLMSSSPASAAFWGASNELLHDPTMAKEGNTWYAFGTGLEGERGLRVLKAGSGGVWTVQKSIFTSPLSWWGNYVPNYGLNQWAPDVQYYNGKYWLYYAVSSFGKNTSAIGLASSASLSSGNWKDEGLVIRSTSADNYNAIDPELTIDKDGNPWLAFGSFWSGIKLTKLDKNTMKPTGSLYSIAARPNNGGALEAPAITYQNGYYYLMVSFDKCCSGVNSTYKIAYGRSKSITGPYLDKSGKSMSEGGGTILDSGNDRWKGPGGQDIVNGNILVRHAYDAENSGIPKMLINDIDWSSGWPSY	PGPT0019090_918	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
D1-12_01883	1086	ysdC_2	COG1363	Putative aminopeptidase YsdC	ATGACAAAATTAGATGAAACGCTCACCATGCTGAAAGCGTTAACGGATGCAAAAGGGATACCGGGAAATGAGAGAGAAGTAAGACAAGTGATGAAATCATACATAGAACCATTTGCCGATGACGTCACAACAGACCGGCTGGGAAGCTTAATCGCCAAAAAAACCGGCAAAGAAAACGGTCCGAAAATCATGATCTCAGGGCATTTAGACGAAGTCGGTTTTATGGTGACGCAAATCACTGATAAAGGCTTTCTCCGCTTTCAAACCGTCGGCGGCTGGTGGTCTCAGGTCATGCTGGCCCAGCGCGTCACCGTCGTGACAAAAAAAGGGGACATCACGGGGATCATCGGTTCGAAACCGCCTCACATTCTGCCTCCTGACGCCAGAAAAAAAGCCGCCGATATTAAAGAGATGTTCATCGATATTGGGGCGTCCAGCCGTGAAGAAGCAATGGAATGGGGCGTTCTTCCGGGTGACCAGATTGTGCCGTATTTTGAATTTACAGTGATGAACAATGAAAAGCATTTATTGGCGAAAGCATGGGACAACCGTATCGGCTGTGCGATTGCCATCGATGTATTAAAAAATCTGAAAAACAGTGATCACCCCAATGAAGTATACGGGGTCGGAACGGTTCAAGAAGAAGTCGGGCTGCGCGGGGCGAAAACAGCGGCACATACGATCCAGCCTGATATCGCGTTCGGTGTGGATGTCGGAATTGCCGGAGATACACCGGGAATTTCTGAAAAAGAGGCGCAAAGCAAAATCGGCGAAGGGCCGCAAATTATTCTGTATGACGCGTCAATGGTATCTCACAAAGGGCTGCGCGACCTTGTCGTGAACACGGCGGAAGAAGCGGGAATTCCGTATCAATTCGATTCCATTGCCGGAGGGGGCACGGATTCAGGTTCCATTCATTTAACCGCAAACGGAGTGCCGGCGCTGTCCATTACGATCGCGACGCGCTACATTCACACTCATGCCGCTATTTTGCATCGGGATGATTATGAGAATACGGTAAAATTGATTACAGAAGTGATTAAAAAATTAGATCGGGAAACAGTTGACCGTATTACTTACCAATAA	MTKLDETLTMLKALTDAKGIPGNEREVRQVMKSYIEPFADDVTTDRLGSLIAKKTGKENGPKIMISGHLDEVGFMVTQITDKGFLRFQTVGGWWSQVMLAQRVTVVTKKGDITGIIGSKPPHILPPDARKKAADIKEMFIDIGASSREEAMEWGVLPGDQIVPYFEFTVMNNEKHLLAKAWDNRIGCAIAIDVLKNLKNSDHPNEVYGVGTVQEEVGLRGAKTAAHTIQPDIAFGVDVGIAGDTPGISEKEAQSKIGEGPQIILYDASMVSHKGLRDLVVNTAEEAGIPYQFDSIAGGGTDSGSIHLTANGVPALSITIATRYIHTHAAILHRDDYENTVKLITEVIKKLDRETVDRITYQ				NA	NA	NA	NA	NA
D1-12_01884	393	ysdB		Sigma-w pathway protein YsdB	ATGGCCATTACAGTATTGAGGATTGTCTTGCTTGCACTTCTTATTTATTTTATTTACATGTGCGTCAAATTTTACGCAAACCCGAAAAGAAGGCTCAGACTGGCACAATCAAAAGAGAATTTTTATTTTATTGACGAACAGAAAAACACGCGAAAAAATCTCCAGCTTACTTATAAAGGAGTGCTCTTTGAAGGAGAAAAGCATATCCCTTCCAAAGATCATCCGCTGTTTATTCATACGATATTTGTATGGACCGAAAATCCGGAAAAGCTGAACCGCTTTTCTGCAGGTGATTTTGAAGAAGTCGAAAAAAAGGTATTGGAGCGGTATCCGAATTGCAAGATTGATTGGGACCAGCCCATCAAAAAAGCGAAAAAAGCAGGCGAGCGATAA	MAITVLRIVLLALLIYFIYMCVKFYANPKRRLRLAQSKENFYFIDEQKNTRKNLQLTYKGVLFEGEKHIPSKDHPLFIHTIFVWTENPEKLNRFSAGDFEEVEKKVLERYPNCKIDWDQPIKKAKKAGER	PGPT0014661_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014661-ysdB-NA	NA	NA
D1-12_01885	267			hypothetical protein	ATGGCTCTCTTCATTTACGCCGTATTGATAAACGGATACGGCTTTTGGATCATGGGCGCTGATAAAAGAAGAGCAAAGGCGCACAGGTGGAGAATATCAGAGAAACGAATATGGCTCACAGCCGCCATGTTCGGCTCACTCGGCGTATGGATCGGCATGTGCACCTTCAGGCATAAGACGAAACACAAATCCTTTTTATACGGGGTGCCGCTGCTTTTTCTCACTGAAGCCGCCCTTGTGCTGATGTATTTGATGTATAAAACATAA	MALFIYAVLINGYGFWIMGADKRRAKAHRWRISEKRIWLTAAMFGSLGVWIGMCTFRHKTKHKSFLYGVPLLFLTEAALVLMYLMYKT	PGPT0022365_1900	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
D1-12_01886	360	rplT	COG0292	50S ribosomal protein L20	ATGCCAAGAGTAAAAGGCGGAACTGTGTCGCGTCAGCGTCGTAAAAAGGTTCTTAAATTAGCAAAAGGTTATTTCGGTTCAAAACATAGATTATACAAAGTAGCAAACCAGCAGGTCATGAAATCAGGAAACTATGCATTCCGTGACCGCCGTCAGAAAAAACGTGATTTTCGTAAGCTTTGGATCACTCGTATCAACGCTGCTGCACGTATGAACGGTCTTTCTTACAGCCGTTTAATGCACGGTCTTAAGCTTTCAGGCATCGAAGTAAACCGCAAAATGCTTGCTGATCTTGCTGTAAACGATCTTACTGCTTTCAATCAGCTTGCTGATGCTGCTAAAGCTCAGTTAGACAAGTAA	MPRVKGGTVSRQRRKKVLKLAKGYFGSKHRLYKVANQQVMKSGNYAFRDRRQKKRDFRKLWITRINAAARMNGLSYSRLMHGLKLSGIEVNRKMLADLAVNDLTAFNQLADAAKAQLDK				NA	NA	NA	NA	NA
D1-12_01887	201	rpmI	COG0291	50S ribosomal protein L35	ATGCCAAAAATGAAAACTCACCGCGGATCTGCTAAACGTTTTAAAAAGACAGGTTCTGGGAAGTTAAAACGTTCTCATGCATACACAAGTCACTTATTCGCCAACAAATCCCAAAAGCAAAAGCGTAAGCTTCGCAAGGGTGCTATTGTAAGCGCAGGAGACTTCAAACGCATCAAACAACAGCTTGCTAACATCAAGTAA	MPKMKTHRGSAKRFKKTGSGKLKRSHAYTSHLFANKSQKQKRKLRKGAIVSAGDFKRIKQQLANIK				NA	NA	NA	NA	NA
D1-12_01888	504	infC		Translation initiation factor IF-3	TTGGTTAATGAGGGTATCCGTGCACGTGAAGTTCGTCTGATCGGACAAAATGGCGATCAGCTCGGCATCAAGTCCCGTCAGGAAGCACTTGAAATCGCCGGCCGCGCAAATCTTGACCTTGTGTTAGTTGCAGCAAATGCAAAACCGCCTGTCTGCCGCATCATGGACTACGGTAAGTTCAGATTCGAGCAGCAGAAAAAGGACAAAGAAGCACGCAAAAATCAAAAAATCATTAACTTAAAAGAAGTTAGATTAAGTCCGACGATCGATGAGCATGACTTTAACACGAAATTGCGCAATGCGATTAAATTCCTTGAAAAAGGCGATAAAGTGAAAGCTTCTATCCGCTTTAAAGGGCGCGCAATCACTCATAAAGAAATCGGCCAGCGCGTATTGGACCGTTTCTCTGAAGCATGTGCGGAAGTTGCGACAGTCGAAACAAAACCAAAAATGGACGGCCGCAGCATGTTCTTAATGCTCGCGCCGAAAAACGAAAAGCAATAA	MVNEGIRAREVRLIGQNGDQLGIKSRQEALEIAGRANLDLVLVAANAKPPVCRIMDYGKFRFEQQKKDKEARKNQKIINLKEVRLSPTIDEHDFNTKLRNAIKFLEKGDKVKASIRFKGRAITHKEIGQRVLDRFSEACAEVATVETKPKMDGRSMFLMLAPKNEKQ				NA	NA	NA	NA	NA
D1-12_01890	684	lrgB	COG1346	Antiholin-like protein LrgB	ATGAGTCCATATTTCGGTATTGTCGTTTCACTTGCGGCCTTTGGTATCGGCACGTATTTATTTAAAAAAACGAGAGGCTTTTTCCTCTTCACCCCGCTGTTTGTCGCGATGGTGCTTGGAATCCTTTTTCTGAAGCTCGGCGGTTTTTCATATGAAGATTATAAAAGCGGGGGAGACATTATTAAATTCTTCCTGGAGCCCGCGACGATCGCTTTTGCCATCCCTTTATACAAACAGCGTGACAAACTGAAAAAATACTGGTGGCAGATCATGTCTTCTATCATTGTCGGCTCTATCTGCTCAGTGACGATTGTCTATTTGATCGCAAAAGGCATTCATCTTGACGCGGCCGTTATGAAAAGCATGCTTCCGCAGGCGGCGACAACGGCAATTGCCCTTCCGCTGTCAAAAGGAATCGGCGGCATCACCGATATCACCGCTTTCGCCGTCATTTTCAACGCCGTTATCGTCTATGCTCTGGGCGCTCTATTCTTAAAACTGTTTAAAGTAAAGCACCCAATCTCTAAAGGACTGGCTCTCGGCACATCAGGACACGCACTCGGTGTTGCGGTCGGTATTGAGATGGGGGAAGTAGAAGCGGCAATGGCAAGTATCGCGGTTGTCGTCGTGGGAGTGGTGACGGTGCTGGTCATTCCGGTATTCGTTCAGCTCATCGGAGGATAA	MSPYFGIVVSLAAFGIGTYLFKKTRGFFLFTPLFVAMVLGILFLKLGGFSYEDYKSGGDIIKFFLEPATIAFAIPLYKQRDKLKKYWWQIMSSIIVGSICSVTIVYLIAKGIHLDAAVMKSMLPQAATTAIALPLSKGIGGITDITAFAVIFNAVIVYALGALFLKLFKVKHPISKGLALGTSGHALGVAVGIEMGEVEAAMASIAVVVVGVVTVLVIPVFVQLIGG				NA	NA	NA	NA	NA
D1-12_01891	438	lrgA	COG1380	Antiholin-like protein LrgA	ATGAGTGCGAAAAAAGTGTACGGATTTCTGACACAAGCATTTATTTTTGCCGTAATTATGCTCATATCTAATGGGATTGCAGCGATTGTCCCCATTCCTATACCCGCTTCCGTAGTAGGTTTGGTGTTATTATTTGTCCTCTTATGCCTGAAAGTGATTAAGCTTGAACAAGTAGAAACGCTGGGAACATCATTAACGTCACTGATCGGATTTTTATTTGTCCCGTCGGGCATCTCCGTGATGAATTCACTTGGCGTCATGCAGCAGTACGGCGTGCAGATCGCACTCGTCATCTTACTCGCCACCATCATTCTGTTAGGGGCCACGGGCCTTTTTTCTCAGCTGATCTTGTCTGTCAGCCAAAAACGTCAGAAGACTGCTCCTGAAAAACAAACGGTGCGCCGTTCCAATCAGGAAAAAGAACTTGTGCAGCATTAG	MSAKKVYGFLTQAFIFAVIMLISNGIAAIVPIPIPASVVGLVLLFVLLCLKVIKLEQVETLGTSLTSLIGFLFVPSGISVMNSLGVMQQYGVQIALVILLATIILLGATGLFSQLILSVSQKRQKTAPEKQTVRRSNQEKELVQH				NA	NA	NA	NA	NA
D1-12_01892	735	lytR	COG3279	Sensory transduction protein LytR	ATGCTGAAGGTGTTAATCGTTGATGATGAAATGCTGGCAAGAGATGAATTAGCTTACTTGCTGAAACGGACGAATGAAGTAAGTGACATAAACGAAGCTGAAAATATTGAATCCGCTTTTGACAGTATGATGGATCAAAAACCGGATCTGCTGTTTTTGGACGTTGATTTGTCAGGAGAAAACGGATTTGACATTGCCAAACGGCTGAAAAACATGAAAAATCCGCCGGCCGTCGTTTTTGCGACGGCGTATGACCAATTTGCTTTAAAAGCCTTTGAAGTCGACGCGCTCGATTATTTAACGAAGCCTTTTGATGAAGAAAGAGTGCGCCAGACAATCAGAAAGTTTAAAAGAGTGAAGCAGGACAGGGCAGGAGCCGTCTCAGAGCAGCCGTCCGCAGCCGGAGCGCATAAACTGGCTGTATCAGCCGGTGAATCTATTGTCATTTTAGATACGAAGGACATTATTTTCGCCGGCATGGAGGACGGACACGTTTCTGTCAAAACGTTTGCCGCGTCTTATTCCGTTCATGAAACTTTGGCGGTCATTGAGAAAAAACTGCCCGATACGGGTTTCTTGAGAGTGCACCGTGCGTTCATCGTGAATACGGAGCATATTACTGAAATTCATCCGTGGTTTAATTCGACGTACAATCTTATCTTAAAAGACGGCTCTAAAATTCCCGTCAGCCGTACATACGCCAAGGACTTAAAAAGGCTGCTTCATATTATATGA	MLKVLIVDDEMLARDELAYLLKRTNEVSDINEAENIESAFDSMMDQKPDLLFLDVDLSGENGFDIAKRLKNMKNPPAVVFATAYDQFALKAFEVDALDYLTKPFDEERVRQTIRKFKRVKQDRAGAVSEQPSAAGAHKLAVSAGESIVILDTKDIIFAGMEDGHVSVKTFAASYSVHETLAVIEKKLPDTGFLRVHRAFIVNTEHITEIHPWFNSTYNLILKDGSKIPVSRTYAKDLKRLLHII	PGPT0026304_1457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
D1-12_01893	1782	ypdA	COG3275	Sensor histidine kinase YpdA	ATGCTGCATTTGATCATCATGATGCTGGAAAGAGTCGGAATTATCGTCATATTGGGATTTGTTCTGGCTCATACCAGATTGTTCAGACAGGCGCTCCAGCAGCCTGAGAGCTATAAAGGCAAAGCGGTGCTGATTTCAATTTTCTCGCTGTTCAGTATCATCAGCAACTATACGGGAATAGAAATTCAGCGGAATACAATCATGAATAATGACTGGGTGTTTCAAATTAATCCGTCCGGTTCAATTGCCAATACAAGAATTATGGGCGTTGAAATCGGCGGACTCTTAGGCGGCCCGTATGTGGGAATCGGCGTCGGCATACTGGCCGGCCTGCATCGTTTATCACTCGGCGGCGCGACCGCAGTCAGCTGTGCCGTCTCATCCGTTTTAGCGGGCATTTTGTCCGGCTGGATCGGACGGTATTTCAGAAAACGCTATGCGATGCCGACACCGCGGGTGGCCGCGCTTGTCGGACTCGGGATGGAATCGCTGCAAATGCTGCTCATCCTCTTGATGGCCAAGCCGTTTTCTGATGCTTGGACGCTTGTGAGCATCATCGGCATCCCGATGATATTGGTAAACGGATCAGGGACTTTTATTTTTCTTTCGATCATTCAGTCGATTATCCGGAAGGAAGAACGGGCGAGAGCCCTTGAAACCCACAGGGTGCTGATGATTGCCGATCAGACGCTTCCGTTTTTCCGCCAGGGGCTGAATGAAAGCTCATGCAAAAGCGTCGCCGCCATCATCCACAGGCAAACAGGAACGGACGCGGTATCGCTTACGGATAACGAAAAGATTTTGGCGCACGTCGGCGCGGGTGCCGACCATCATATTCCGTCTGAAAGCCTGATCACCGGATTGTCAAAACGCGTCATTAAAACGGGTCATATTATGAAAGCGACATCAAAGGCAGAAATTGAATGCACGCACGATCCCTGTCCGCTGCATGCGGCGATTGTATTGCCGCTGACGTCAAACGGCAAAACGATCGGGACGCTGAAAATGTACTTTAAAAGCCCGTCAGGTTTAAGCCGGGTTGAAGAAGAGCTTGCAGAAGGACTCGCCATGCTGTTTTCCACCCAGCTTGAACTCGGTGAGGCGGAACTGCAGAGCAAATTGCTGAAAGACGCAGAAATAAAGGCGCTTCAGGCACAGGTCAATCCGCATTTTCTGTTTAATGCGATCAATACGATTTCTGCTCTTTGCCGTACGGATGTGGAAAAAACCCGAAAGCTTCTGCTGCAGCTCAGCGTCTATTTCCGTTCCAATCTGCAGGGGGCAAGGCAGCTGCTCATCCCGCTTTCTAAAGAACTGAACCATCTGCAGGCATATTTATCATTGGAGCAGGCCCGTTTTCCCGGGAAATATAAAATCAGCCTTGAGATCGAACGCGGTTTGGAGGACATCGAAATTCCTCCTTTTGTGCTGCAGATCCTCGTCGAAAATGCGCTCCGCCATGCATTTTCAAGAAAGCAGGACAGCTGTGCCGTCAATGTCAGCGTGGTATCCGCCGGTCAATCGGTTTTAATGCGGGTTGGAGATAACGGGCGGGGAATTGATCCGGAATTGCTGTCCGTGCTCGGAAACCGTCCGCTCCCGTCTAAAGAAGGGACGGGAACCGCGCTTTACAATTTAAATCAGCGGCTGATCGGGCTGTTCGGCCCCAAGGCAGCCCTGCGATTGGAAAGTGAGGCCGGCAAAGGTACGGAGGTATCATTTGAGCTGCCTTTGAAACTGATGACTAAAGGAGAAGAACATGCTGAAGGTGTTAATCGTTGA	MLHLIIMMLERVGIIVILGFVLAHTRLFRQALQQPESYKGKAVLISIFSLFSIISNYTGIEIQRNTIMNNDWVFQINPSGSIANTRIMGVEIGGLLGGPYVGIGVGILAGLHRLSLGGATAVSCAVSSVLAGILSGWIGRYFRKRYAMPTPRVAALVGLGMESLQMLLILLMAKPFSDAWTLVSIIGIPMILVNGSGTFIFLSIIQSIIRKEERARALETHRVLMIADQTLPFFRQGLNESSCKSVAAIIHRQTGTDAVSLTDNEKILAHVGAGADHHIPSESLITGLSKRVIKTGHIMKATSKAEIECTHDPCPLHAAIVLPLTSNGKTIGTLKMYFKSPSGLSRVEEELAEGLAMLFSTQLELGEAELQSKLLKDAEIKALQAQVNPHFLFNAINTISALCRTDVEKTRKLLLQLSVYFRSNLQGARQLLIPLSKELNHLQAYLSLEQARFPGKYKISLEIERGLEDIEIPPFVLQILVENALRHAFSRKQDSCAVNVSVVSAGQSVLMRVGDNGRGIDPELLSVLGNRPLPSKEGTGTALYNLNQRLIGLFGPKAALRLESEAGKGTEVSFELPLKLMTKGEEHAEGVNR	PGPT0026305_111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
D1-12_01894	795	ppaX_1		Pyrophosphatase PpaX	ATGAAAGCCGTATTTTTTGATTTGGACGATACACTGTTATGGGATGAAAAAAGCGTCAGAACAACATTCAGGGAAACATGTTTACAAGCGGAAAAAAAATATGGCCTTGACCCGCATACATTTGAAGAGGCGGTTCGGAAAGCGGCACGGGAATTGTATATGTCATACGAAACCTATCCTTATACGGTCATGATCGGCATTAATCCGTTTGAAGGATTGTGGGCGAATTTTTCCGAGCCGGTCAGCGAAGGGTTTAAACAGCTGAATCGGATTGCGCCGGAATACAGACGAAACGCCTGGACGAACGGCTTAAAAAGCGTCGGTATAGACGATGCGGCTTACGGCGAATATTTGGCGGAGTTTTTCGCGGCGGAACGCAGACAGCGTCCGTACGTGTATGATGAAACGTTTGCGGTGCTTGATAAGCTGAAAGGTGTTTATGAATTGCTTCTGCTGACAAACGGCGACCCCAGCCTGCAGAAAGAAAAACTCGCCGGCGTTCCTGAGCTCGCGCCTTATTTTAATGAAATCGTCATCTCAGGCGCTTTCGGAAAAGGGAAACCCGACGCCTCCATATTCGAACATTGCCTCGGCCTCCTGAACCTGAAAAAAGAAGACGCCATTATGGTCGGAGATAACCTCAATACTGATATATTGGGAGCGAAACGGGCAGGCATTACGACAGTCTGGGTAAACCGGACGCAAAAGAAAAATGATACGGACATTGCACCTGATTACGTGATCAGCGATCTTCACGAGCTGTTTGCGATTATAGAGAAACAAAAAGAAAGATAA	MKAVFFDLDDTLLWDEKSVRTTFRETCLQAEKKYGLDPHTFEEAVRKAARELYMSYETYPYTVMIGINPFEGLWANFSEPVSEGFKQLNRIAPEYRRNAWTNGLKSVGIDDAAYGEYLAEFFAAERRQRPYVYDETFAVLDKLKGVYELLLLTNGDPSLQKEKLAGVPELAPYFNEIVISGAFGKGKPDASIFEHCLGLLNLKKEDAIMVGDNLNTDILGAKRAGITTVWVNRTQKKNDTDIAPDYVISDLHELFAIIEKQKER				NA	NA	NA	NA	NA
D1-12_01895	1932	thrS	COG0441	Threonine--tRNA ligase 1	ATGTCAGATATGATCAACATCACATTTCCGGACGGAGCGGTAAAGGAATTTCCGAAAGGAACAACAACAGAAGATATCGCGGCATCCATCAGTCCGGGATTAAAGAAAAAGTCTTTAGCCGGAAAACTGAACGGACAGGAAATTGATTTAAGAACGCCGATTCAAGAGGATGGTGCCGTAGAAATCATTACAGAAGGCACAGAAGAAGGCTTGAACATCATGCGGCACAGCACGGCGCATTTATTGGCCCAGGCGATTAAACGCATTTATAAAGATGTGAAATTCGGTGTCGGCCCCGTCATTGAAAACGGGTTCTATTATGACGTTGAAATGGAGCAGGCGCTGACGCCGGATGACCTTCCGAAGATTGAAAAAGAAATGAAACGCATCGTCGGTGAAAATCTGCCGATTATCCGAAAAGAAGTGAGCCGTGATGAAGCAAAAGCCATGTTTGCGGAAATCGGCGATAATCTGAAGCTTGAACTGCTGGATGCCATCCCGGAAGACGAAACGGTCTCCATTTATGAGCAGGGCGAATTTTTTGACCTGTGCCGCGGCGTGCACGTGCCGTCTACAGGCAAAATTAAAGAATTTAAGCTGCTGAGCCTTGCGGGCGCATACTGGCGCGGCGACAGCAAAAACCAAATGCTTCAGCGCGTTTACGGCACGGCCTTCTTTAAAAAGGATGACCTGAAAGAGCATTTGCGGATGCTTGAAGAAGCGAAAGAGCGCGACCACCGAAAACTGGGCAAAGAATTAAAATTGTTCGCCAACTCTCAAAAAGTCGGACAAGGCCTGCCGCTCTGGCTGCCGAAAGGCGCAACCATCCGCCGCGTGATCGAGCGCTACATTGTGGATAAAGAGCTGAGCCTCGGTTATGAGCACGTCTATACGCCTGTTCTCGGAAGCAAAGACCTGTATGAAACATCGGGCCACTGGGATCATTATCAGGATACGATGTTCCCGCCGATGGAAATGGACAATGAAACACTCGTGCTCCGTCCGATGAACTGTCCTCACCATATGATGATTTACAAGCAGGACATTCACAGCTACCGCGAGCTTCCGATCCGCATCGCCGAGCTGGGAACGATGCATCGTTATGAAATGTCCGGGGCGCTTTCAGGTCTTCAGCGCGTACGCGGCATGACGTTAAATGACGCGCACATTTTCGTCCGCCCTGATCAGATTAAAGAAGAATTCATCCGCACGGTCCGTTTGATTCAAGACGTATACGAAGACTTCGGCCTGAATGATTACACATTCCGCCTGTCTTACCGCGATCCTGAAGATACGGAAAAATATTTTGATGATGATGAGATGTGGAACAAAGCGCAGTCCATGCTGAAGGCGGCAATGGATGAGATGGGGCACGACTATTATGAAGCGGAAGGCGAAGCGGCGTTTTACGGCCCTAAGCTTGACGTGCAGGTGAAAACGGCGATCGGCAAAGAAGAGACATTGTCAACTGTACAGCTTGACTTCCTTCTTCCGGAACGCTTTGATCTCACTTACGTCGGAGAAGACGGCAAACAGCACCGCCCTGTCGTTATTCACCGCGGCGTCGTGTCAACGATGGAGCGTTTCGTTGCTTTCTTAATCGAAGAGCACAAAGGCGCCCTTCCGACATGGCTTGCGCCGGTGCAGTTCCAAGTCATTCCTGTATCACCGTCCGTGCATCTTGATTATGCGAAAAAAGTGCAGGAGCGCCTGCAGCGTGAAGGTCTGCGTGTCGAGCTTGACAGCCGGGACGAAAAAATCGGCTATAAAATCCGTGAAGCGCAAATGCAAAAAATCCCGTACATGCTTGTGGTCGGTGACCAAGAAGCGGAAAACGGCGCGGTAAACGTCCGGAAATACGGCGAGCAGAAATCAGAAACCGTCTCATTGGACGATTTTGTGAAAAAGGCTGTAGCCGAAGCGAAAAAATAA	MSDMINITFPDGAVKEFPKGTTTEDIAASISPGLKKKSLAGKLNGQEIDLRTPIQEDGAVEIITEGTEEGLNIMRHSTAHLLAQAIKRIYKDVKFGVGPVIENGFYYDVEMEQALTPDDLPKIEKEMKRIVGENLPIIRKEVSRDEAKAMFAEIGDNLKLELLDAIPEDETVSIYEQGEFFDLCRGVHVPSTGKIKEFKLLSLAGAYWRGDSKNQMLQRVYGTAFFKKDDLKEHLRMLEEAKERDHRKLGKELKLFANSQKVGQGLPLWLPKGATIRRVIERYIVDKELSLGYEHVYTPVLGSKDLYETSGHWDHYQDTMFPPMEMDNETLVLRPMNCPHHMMIYKQDIHSYRELPIRIAELGTMHRYEMSGALSGLQRVRGMTLNDAHIFVRPDQIKEEFIRTVRLIQDVYEDFGLNDYTFRLSYRDPEDTEKYFDDDEMWNKAQSMLKAAMDEMGHDYYEAEGEAAFYGPKLDVQVKTAIGKEETLSTVQLDFLLPERFDLTYVGEDGKQHRPVVIHRGVVSTMERFVAFLIEEHKGALPTWLAPVQFQVIPVSPSVHLDYAKKVQERLQREGLRVELDSRDEKIGYKIREAQMQKIPYMLVVGDQEAENGAVNVRKYGEQKSETVSLDDFVKKAVAEAKK				NA	NA	NA	NA	NA
D1-12_01896	831			hypothetical protein	ATGCTTGAAGTGATCTTTGAAGATGACCACGATACCGCCGCTTTTTTACATCTCATTCAGCAATCGGACGACCGGAGACATTTTATTGTCCGTGAAGGCATAAAAAAAGTCGGAATCGCAAGGTCTGAAACGGCTTTTTGCGTTCAGCGCTTTATTGAGCCGATACTTGTCAGGTTTTTTTTGGAATGCAAAGAAGACGAGCATATGCTTTCGCTTATTGAGGACGCATACTGCTTCACCGATCAGGATGAACAGCAGCAAATCCTTCAGCTTGCACACAGCATTATGGAAGGAGAGCTTGAGGATCATCCGTTCGAGCCGAAGAAAGAGCCGCGCACACAGTTTATTTCAGATGCGCTCCGGACGATTTCACTTGATGCGGGTGTTTTTTCCGTGCGTTCGTTTCAGACGTTCCGGCTCGGCAGGTATTATGAGCGGCTCAGAGAATACGCGGAGGCTGCGATAGATGAATATCGGATGGAACAGGAATATCAAAACTTTATCCAGTCTCTGAGAGATTATGTGACATCCAATCCGCCGCGGATGAAGAAAGTCCGCATCGTACATGACCGGGCTTTTACGCTGTGGGAGCTGCGCTATTTGTCAGAACGGGAACAGAAAAAATACATAGACAGACGGTTTGTGCGGGAGCACCCGATGTATATAGATTCCCATCTCCTTGCGCCGCTGATCTCCATTGCGCCTGAGACGGTAGAACTGTATACGGACAAACCGGAGCATATGATGTCCAGAACGATTCAAAACGTGTTTCAGGAAAGGGTGCGCCTTTTTCCGCTGGGCGCGTTTGCAGCCGAGAAGACGGAAGGATAG	MLEVIFEDDHDTAAFLHLIQQSDDRRHFIVREGIKKVGIARSETAFCVQRFIEPILVRFFLECKEDEHMLSLIEDAYCFTDQDEQQQILQLAHSIMEGELEDHPFEPKKEPRTQFISDALRTISLDAGVFSVRSFQTFRLGRYYERLREYAEAAIDEYRMEQEYQNFIQSLRDYVTSNPPRMKKVRIVHDRAFTLWELRYLSEREQKKYIDRRFVREHPMYIDSHLLAPLISIAPETVELYTDKPEHMMSRTIQNVFQERVRLFPLGAFAAEKTEG				NA	NA	NA	NA	NA
D1-12_01897	642	ydjZ	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	ATGAGGAATAAGAAGGCTGTCACTTGGGCTGCGGCTGCGGCGGGAGCGGGCCTTTTACTGTGGGCAAACCGCAAATATCTGAATCTGTCGCCTAAGGAGATCCGGCTGTGGGTATTATCGTTCGGTGTTTTTGCGCCGCTTGTGTTTATCGGAATTTCCATCGTCAGGCCTTTTGTGCTGTTTCCCGTATCAATCGTTTCCGTCGCCGGAGGATTGGCGTTCGGCCCGTTTTTCGGCACCGTGTATACGCTGGCGGGCTCAATGGGCGCTGCCGCCGCGTCTTTTTTTGCGGCGGGGCTGTTTGCCTTTAATGAGAAAAGCCGTCATGGAAAAATGGAAGCCATTCAAAAGCAGATGAAAACCAATGGCTTCTTTTATATTTTTATCCTGCGCATTCTGCCTGTTAACTTTGATGTGATCAGCTATGCCGCAGGCCTATCGAAAGTCAGGCCGATGACGTATTTTTTGGCGACCGCAGCGGGCATTATTCCGGGGACGATCGTCCTGAATGTGCTCGGCGCGAGCTTTATGTCCGGCAATGTGCTGACCGTACTCGGCGTGATGTGTCTTTACATCGTATTTTTATCGCTTCCCGTTATATTTAAAAAGAAGGTGCGCCATTTGTTCGGCGGTGAAAGCTAA	MRNKKAVTWAAAAAGAGLLLWANRKYLNLSPKEIRLWVLSFGVFAPLVFIGISIVRPFVLFPVSIVSVAGGLAFGPFFGTVYTLAGSMGAAAASFFAAGLFAFNEKSRHGKMEAIQKQMKTNGFFYIFILRILPVNFDVISYAAGLSKVRPMTYFLATAAGIIPGTIVLNVLGASFMSGNVLTVLGVMCLYIVFLSLPVIFKKKVRHLFGGES				NA	NA	NA	NA	NA
D1-12_01898	936	dnaI	COG1484	Primosomal protein DnaI	ATGGAACCGATCAGCCGATCCTTAGAAGGCGTGACGAAAAGACCTGACTTTCAAAAACGCCTGGAACGAATGCAGCAGCAAGTCATGGCCGACGAAGACGTCCAGGCTTTTTTGAAGGAACAGAAAGATGTAATCAATCAAAGCATGATTGACAGAGGGTTAAATAAACTGTACGAATTCGTTCAGCAAAGCAAACAGTGCGCCTTCTGCTCGAAAGACAGCCGGACGAACAGCCTGCTTGAAGGCTATCATCCGAAGCTTGTGATCACCGGGCGTTCCATTGATATTGAATATTACGAATGTCCGGAAAAGAGAAAGCTCGACCGCCAGAAAAGGCAAAAGTCCCTGATGAAGAGCATGTATATCCAGCAGGATCTTCTCGGCGCGACGTTTCAGCAGATCGACATTACCGATCCGAGCAGAGTCGGCATCTTCCAGCATGTGACGGATTTTCTGAAGAGCTATAATGAAACGGGAAAAGGCAAAGGGCTGTATCTGTACGGAAAATTCGGAATCGGAAAGACATTTATTTTAGCCGCCATTGCCAACGAGCTGGCGGAAAAAGAGTATTCATCAATGATCGTATATGTTCCCGAATTTGTCAGAGAGCTGAAAAACTCGCTCCAGGATCAGTCGTTGGAGGCGAAACTGAATATGGTGAAAACGACGCCCGTACTGATGCTTGATGACATCGGAGCGGAATCAATGACAAGCTGGGTCAGGGATGAAGTCATCGGCACCGTGCTTCAGCACAGAATGAGCCAGCAGCTTCCCACTTTCTTCTCGTCTAATTTTTCACCAGACGAGCTGAAGCATCATTTTACGTATTCACAGCGGGGAGAAAAGGAAGAAGTAAAAGCGGCAAGACTGATGGAGCGGATTTTATATTTGGCTTCGCCCGTCCGTCTTGACGGGGAAAACCGCCGCCGTTCATGA	MEPISRSLEGVTKRPDFQKRLERMQQQVMADEDVQAFLKEQKDVINQSMIDRGLNKLYEFVQQSKQCAFCSKDSRTNSLLEGYHPKLVITGRSIDIEYYECPEKRKLDRQKRQKSLMKSMYIQQDLLGATFQQIDITDPSRVGIFQHVTDFLKSYNETGKGKGLYLYGKFGIGKTFILAAIANELAEKEYSSMIVYVPEFVRELKNSLQDQSLEAKLNMVKTTPVLMLDDIGAESMTSWVRDEVIGTVLQHRMSQQLPTFFSSNFSPDELKHHFTYSQRGEKEEVKAARLMERILYLASPVRLDGENRRRS				NA	NA	NA	NA	NA
D1-12_01899	1410	dnaB	COG3611	Replication initiation and membrane attachment protein	ATGGCTGACTATTGGAATGACGTATTGCCTGTAGATCCTTATACGGTCAAAAGCCGTTCGCTTCTTCAGGATGTCGACAGACAGGTTTTGACACATCTGTACCAGCCGCTGATCGGTTCTTTTGCATTCTCCCTTTATATGACCTTATGGGGGGAGCTTGAGCAGAACCGCTTGTGGGGAGCGGAATCCACGCACAGGCAGCTGATGGGCATGATGCAGTCAAATTTAAAAAAGATTCATCATGAACAGGGAAAGCTTGAAGGAATCGGGCTGCTGAAAGTGTATATCCGGGAGTCCGAGCAAAAAGAGCGGATGTTTATTTATGAGCTGCTGCCCCCGCTCAGACCGAATGATTTTTTTGAAGACGGCATGCTGAATGTCTTTCTTTATAACAGAGTCGGTAAAACGAAATACCAGCAGCTGAGACAATTTTACACGCACCCTTCCGTCGGCGCGGGCGCAAGGGAAATTACCCGTCCGTTTAATCACGCTTTTGCCTCTTTTCAGCCGAGTGAATGGAAAATGACGCCTGATATGGAAGAGGCGATGAAGCTACCCGAGGACTATGAGACGGCGTCTGTCGGACAAGCGCCTTCCTATACGGTGACGGAGGAAGTGTTTGATTTTGAGCTTTTCATGGCGGGACTGTCAGAAACGATGATACCGCGCAAATCAATCACGCAGGACGTGCGGGAGAGCATTAAAAAGCTTTCATATTTATACGGAATAGATCCTATCTCCATGCAGCACGTCGTCATGACCGCAATTAATGAACAGGATACGATAACGGCCGAAGCGCTGAGGAAAGCGGCCAGCGACTGGTACCAAATTGAAAGAAGCGGGAAGCTTCCGGAACTGATTGATAAAACACAGCCTGTCACCTTGAGAGAAAACCGGACGGAAAAGGACGATTCATTGAACGGCGAACTCATCGCACAGCTTGAGACCATATCACCGAGAAAGCTTCTTCAGGACATTGCGGACGGGACCGAGCCGTCAAAAGCCGACTTGCAGATTATCGCCGATATTATGTTCGAACAAAAGCTTGAGCCCGGCGTCACCAATGTGCTGATTTATTATGTCATGCTGAAAACGGATATGAAGCTGTCCAAAAACTATATCCAAAAAATCGCCGCCCACTGGGCCAGAAAGAAAGTCAAAACGGTACGGGAAGCAATGAAGCTCGCAATAGAAGAGCACAGGCAATATCTTGATTGGGCGGACGGCAAAACAAACGGCGCGGCGCGCGGCAAAAAAACCGTCCGGGAAGAAAAGCGTCCTGATTGGATGAAAGAAGAAGAAACCGGGAAGAAACAAGAACAGCCGGCTCTTTCTGCGCAGGATCTTGAAGAACAGAAGAAAAAAATGATGGAAGAAATGAAAAAACTGAAAAAATACTCTGCCTATTGA	MADYWNDVLPVDPYTVKSRSLLQDVDRQVLTHLYQPLIGSFAFSLYMTLWGELEQNRLWGAESTHRQLMGMMQSNLKKIHHEQGKLEGIGLLKVYIRESEQKERMFIYELLPPLRPNDFFEDGMLNVFLYNRVGKTKYQQLRQFYTHPSVGAGAREITRPFNHAFASFQPSEWKMTPDMEEAMKLPEDYETASVGQAPSYTVTEEVFDFELFMAGLSETMIPRKSITQDVRESIKKLSYLYGIDPISMQHVVMTAINEQDTITAEALRKAASDWYQIERSGKLPELIDKTQPVTLRENRTEKDDSLNGELIAQLETISPRKLLQDIADGTEPSKADLQIIADIMFEQKLEPGVTNVLIYYVMLKTDMKLSKNYIQKIAAHWARKKVKTVREAMKLAIEEHRQYLDWADGKTNGAARGKKTVREEKRPDWMKEEETGKKQEQPALSAQDLEEQKKKMMEEMKKLKKYSAY				NA	NA	NA	NA	NA
D1-12_01900	459	nrdR	COG1327	Transcriptional repressor NrdR	TTGAAATGTCCTTCATGCCAGCATAACGGTTCCCGCGTACTTGATTCACGGCCTGCGGACGAAGGGAAATCAATCCGCAGAAGGCGGGAATGCGAAGCCTGCCATTACCGCTTCACTACATTTGAGAAGTTTGAAGAGATGCCTCTGATCGTCGTGAAAAAAGAAGGCGTCCGGGAAGAATTCAGCCGTGAAAAAATGCTGCGCGGGTTAATTAAAGCTTGTGAAAAAAGGCCCGTTCCTTTAAAAACATTGGAAGACATGTGCTTTGACATTGAAAAAGAGCTGAGAAACCAAGGTGTATCTGAAGTCAAAAGCGAACTTGTCGGAGAAATGGTAATGGACCGTCTGGCGAAAATCGATGAGGTGTCTTATGTCCGCTTTGCCTCCGTCTACCGGCAGTTTAAGGATATAAACGTGTTTATCGATGAATTGAAAGATTTAATAAAGAAAGAACGCTGA	MKCPSCQHNGSRVLDSRPADEGKSIRRRRECEACHYRFTTFEKFEEMPLIVVKKEGVREEFSREKMLRGLIKACEKRPVPLKTLEDMCFDIEKELRNQGVSEVKSELVGEMVMDRLAKIDEVSYVRFASVYRQFKDINVFIDELKDLIKKER				NA	NA	NA	NA	NA
D1-12_01901	381	speH	COG1586	S-adenosylmethionine decarboxylase proenzyme	ATGGAAACAATGGGGCGTCACGTCATCTCCGAGCTGTGGGGATGCGATTTTGATAAGCTCAATGACATGGATTTTATTGAAAAAACGTTTGTAAATGCTGCTTTGAAATCAGGAGCTGAGGTGCGCGAGGTCGCATTTCACAAATTTGCACCGCAAGGCGTAAGCGGAGTCGTTATTATCTCTGAGTCACATTTAACGATTCACAGTTTTCCTGAACACGGATATGCAAGCATTGATGTTTATACTTGTGGAGACCTGGATCCTAATGTGGCTGCGGATTACATTGCGGACGCATTACATGCAGATACAAGAGAAAACATTGAAATACCGAGAGGAATGGGGCCTGTACAGATTAAACAGGCACAAGCGAAAGTACTGTAA	METMGRHVISELWGCDFDKLNDMDFIEKTFVNAALKSGAEVREVAFHKFAPQGVSGVVIISESHLTIHSFPEHGYASIDVYTCGDLDPNVAADYIADALHADTRENIEIPRGMGPVQIKQAQAKVL	PGPT0007760_2203	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
D1-12_01902	1023	gapB	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 2	ATGAAGGTAAAAGTAGCAATCAACGGGTTTGGAAGAATCGGAAGAATGGTGTTCAGAAAAGCAATGGAAGATGATCAAATTCAAATAACAGCCATTAATGCAAGCTATCCCCCGGAAACGCTTGCTCATTTGATAAAGTATGACACAATTCACGGCAAATACGATCAAGAAGTTGAGACCTCCGACGACAGTCTGATCGTCAATGGAAAACATATTATGCTGTTCAATCGCCGGGACCCGAGAGAGCTTCCGTGGAAAGAATGCGGAATAGACATCGTCGTAGAGGCAACGGGGAAATTTAATTCAAAAGAAAAAGCAATGAGCCATATTGAAGCAGGGGCGAAAAAAGTTATTTTAACGGCTCCGGGCAAAAATGAAGACGTTACCATTGTCATGGGAGTAAATGAAGAGCAATTCAATCCCGATGAACATGTCATTATTTCAAATGCATCCTGCACGACAAACTGTCTTGCGCCGGTCGTCAAAGTGCTTGATCAGGAATTCGGAATTGAAAGCGGCCTGATGACGACTGTTCACGCTTACACGAATGATCAAAAAAATATCGACAATCCGCATAAAGATCTGCGGAGGGCGAGAGCGTGCGGAGAATCCATCATTCCGACTTCTACAGGCGCCGCCAAAGCGCTGTCGCTCGTGCTGCCTCATTTGAAAGGAAAACTTCACGGTCTCGCTTTGCGTGTTCCCGTTCCGAATGTGTCATTAGTGGACCTTGTCTGCGATCTGAAAACAGATGTGTCGGCCGAGCAAGTGAACGCCGCTTTCCAAAGAGCCGCAAAAACGTCGATGTACGGAATTCTTGATTATTCGGATGAGCCGCTCGTTTCTTCGGATTATAATACGAATTCACACTCTGCGATCATCGACGGACTGACAACGATAGTGATGGAAGACCGAAAAGTAAAGGTGCTCGCCTGGTATGACAATGAATGGGGATATTCCTGCCGGGTCGTTGATCTTATCCGTCACGTCGCCGCGCGAATGAAACACCCGTCAGCTGTGTAG	MKVKVAINGFGRIGRMVFRKAMEDDQIQITAINASYPPETLAHLIKYDTIHGKYDQEVETSDDSLIVNGKHIMLFNRRDPRELPWKECGIDIVVEATGKFNSKEKAMSHIEAGAKKVILTAPGKNEDVTIVMGVNEEQFNPDEHVIISNASCTTNCLAPVVKVLDQEFGIESGLMTTVHAYTNDQKNIDNPHKDLRRARACGESIIPTSTGAAKALSLVLPHLKGKLHGLALRVPVPNVSLVDLVCDLKTDVSAEQVNAAFQRAAKTSMYGILDYSDEPLVSSDYNTNSHSAIIDGLTTIVMEDRKVKVLAWYDNEWGYSCRVVDLIRHVAARMKHPSAV	PGPT0018000_2251	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
D1-12_01903	387	ytcD_2	COG1733	putative HTH-type transcriptional regulator YtcD	TTGCTGAAGAAAAAATACAATATATCCGTAGAAGCGGCGCTTGAAGTGATCGGCGGAAAATGGAAGTGTGTGATCCTCTGCCACCTCATGCGCGGGAAAAAACGGACAAGCGAATTGAAGCGGCTTATGCCGGACATCACCCAGAAGATGCTGACACAGCAATTGCGGGAGCTGGAAGCTGACGGCGTCATCAACCGGATCGTGTACAATCAGGTGCCGCCGAAAGTGGAATACGAGCTGAGTGAATACGGGCACAGTCTGGAAAGAATTTTAAACGCGCTGTGCGACTGGGGCGCGATGCATATTGCGAAACGGTACGGCGAGGTGTCTTCCGTTTTAGAGGACAGCATTTTAAATGACAAATTTAAAGAACCGGGACAAATATAA	MLKKKYNISVEAALEVIGGKWKCVILCHLMRGKKRTSELKRLMPDITQKMLTQQLRELEADGVINRIVYNQVPPKVEYELSEYGHSLERILNALCDWGAMHIAKRYGEVSSVLEDSILNDKFKEPGQI				NA	NA	NA	NA	NA
D1-12_01904	1200	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGTCTTCACATCGCCAAAGCTATTTACCAGCGCTGCTGGCATTAGCCGTCAGCGCTTTTGCGATCGGCACAACCGAATTTATCAGCGTCGGGCTGCTGCCGCTTATATCTCAAGATCTGCATATACCTGTGACAACGGCGGGGCTTACCGTTTCCATGTATGCTCTGGGCGTGACATTCGGCGCGCCGGTTTTAACATCTCTCACATCCGGCATGTCACGGAAAACGCTGCTGCTCTGGGTGATGTTAATTTTTATCGCCGGAAATACACTCGCGGCAAGTGCGTCCTCAATCGGCGTCTTACTGGCGGCACGGGTTATTTCGGCGTTTTCCCACGGCATTTTCATGTCAATCGGGGCAACAATCGCCGCCAATATCGTGCCGGAGCATAAAAGAGCAAGCGCGATTTCCATTATGTTTACGGGGCTGACGGTGGCTACGGTGACCGGCGTTCCGTTCGGCACCTATCTCGGTCAGCAATTCGGATGGAGAATCGCATTTGCCGTCATTGTGGCGGTAGGAATCATCGCATTCCTCACAAACGCGCTTCTCGTTCCGTCGCATTTGCGCAAAGGGACGAAAACCGCATTTTCCGAGCAGGTCAAACTCGTCACAAACGGGCGGTTATTGCTTTTATTTATTATTACGGCGTTAGGCTACGGCGGAACGTTTGTCGTGTTTACGTATTTATCTCCGCTTCTTCAGGAGGTAACCGGTTTTCAGAAAGAAACCGTCGCGGCCATCCTGCTCATTTACGGAATTGCGATTGCCATCGGAAACATGATTGGCGGCCGTTTATCAAACCGAAATCCGCTGAAAGCCTTGTTTTATATGTTCATTGTCCAGGCTGCTGTGCTGTTTGTTCTGACTTTTACCGCGCCGTTTAAAACAGCCGGGCTGATCACCATTATTTTCATAGGGCTGTTGGCGTTTATGAATGTGCCGGGGCTTCAGGTATATGTCGTGATGCTGAGTGAACGTTTTGCGCCAAGCGCCGTTGATACAGCATCAGCATTAAATATCGCGGCATTTAATGCCGGAATCGCGATCGGCTCGTTTGCCGGCGGAATCATTACAGACTCAATCGGAATCATTCATACCGCTTGGATCGGGGCGCTGATGGTGCTCAGCGCGGTCGTATTAACCGGATGGAGCAGGAAGCTTGAAAAGGGGGATCGCACTGCCCTTGAAAGGAGGTGA	MSSHRQSYLPALLALAVSAFAIGTTEFISVGLLPLISQDLHIPVTTAGLTVSMYALGVTFGAPVLTSLTSGMSRKTLLLWVMLIFIAGNTLAASASSIGVLLAARVISAFSHGIFMSIGATIAANIVPEHKRASAISIMFTGLTVATVTGVPFGTYLGQQFGWRIAFAVIVAVGIIAFLTNALLVPSHLRKGTKTAFSEQVKLVTNGRLLLLFIITALGYGGTFVVFTYLSPLLQEVTGFQKETVAAILLIYGIAIAIGNMIGGRLSNRNPLKALFYMFIVQAAVLFVLTFTAPFKTAGLITIIFIGLLAFMNVPGLQVYVVMLSERFAPSAVDTASALNIAAFNAGIAIGSFAGGIITDSIGIIHTAWIGALMVLSAVVLTGWSRKLEKGDRTALERR	PGPT0028991_1564	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
D1-12_01905	843	ytbE	COG0656	putative oxidoreductase YtbE	ATGACAACACATTTACAAGCAAAAACAACATTGCATAACGGAGTAGAGATGCCTTGGTTCGGCATCGGAGTTTTCAAAGTAGAGGAAGGCGCGGAACTCGTCAACGCGGTGAAAACGGCATTGGTGCACGGCTATCGCAGCGTCGATACCGCCGCGATTTACGGAAATGAAGAAGGTGTCGGCGAAGGCATCCGCCAAGGACTGCAAGAAGCGGGATTAAAACGTGAAGACATTTTTGTCACGTCAAAAGTATGGAATGCCGATTTAGGATATGAAGAAACGTTAAAAGCGTTTGACACAAGCTTAGAAAAACTCGGTTTAGATTATTTGGATTTATATTTGATCCATTGGCCTGTCGAAGGAAAGTACATCGATGCGTGGCGGGCGCTCGAAACCCTCTACCGGGATGGACGCATTAAGGCGATCGGGGTCAGCAATTTCCAAATTCACCATCTGAAACATCTCATGAAAGAAACGGAAATCAAGCCGATGATCAACCAGGTGGAGTACCATCCGCGTCTGACACAGAAAGAACTGCTTGCTTTCTGTACTGAACAAGGTATTCAGCTAGAAGCGTGGTCGCCATTGATGCAAGGGCAGCTGCTTGATCACCCCGTCTTACAAGAGATCGCTGAGAAGTACGGCAAATCAGCCGCTCAAGTGATTTTGCGCTGGGATTTGCAAAACGGTGTTATCACCATTCCGAAATCAACTAAAAAACACCGTATTGAAGAAAATGCAAATGTCTTTGATTTCGAACTGTCAGCTGACGATATGAAGCGGATTGATGATCTGAACGAAAATCTCCGTGTCGGTCCTGACCCTGACAATTTTGATTTTTAA	MTTHLQAKTTLHNGVEMPWFGIGVFKVEEGAELVNAVKTALVHGYRSVDTAAIYGNEEGVGEGIRQGLQEAGLKREDIFVTSKVWNADLGYEETLKAFDTSLEKLGLDYLDLYLIHWPVEGKYIDAWRALETLYRDGRIKAIGVSNFQIHHLKHLMKETEIKPMINQVEYHPRLTQKELLAFCTEQGIQLEAWSPLMQGQLLDHPVLQEIAEKYGKSAAQVILRWDLQNGVITIPKSTKKHRIEENANVFDFELSADDMKRIDDLNENLRVGPDPDNFDF	PGPT0014985_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0014985-yvgN-K23257	NA	NA
D1-12_01906	594	coaE		Dephospho-CoA kinase	TTGAGCTTGGTCATCGGTTTAACGGGAGGCATCGCAAGCGGCAAAAGCACAGTAGCGCGTATGCTGATCGACAAAAAAATAACAGTCATTGATGCGGATGTCATCGCAAAACAGGCGGTGGAAAAAGGGATGCCGGCTTACGGACAAATTGTGGAGGCATTCGGAAAAGACATCCTGCTGGAAAATGGCGATATTGACAGAAAAAAACTCGGTTCTATCGTTTTTACTGACGAACAGAAGCGTCTGAAGCTGAATCAGATCGTTCATCCGGCGGTGCGTGCGGAAATGCTGAAACAGCGGGATGAAGCCGTTGCACGAAAAGAGCAGTTCGTCGTTTTGGATATACCGCTTTTGTATGAAAGCGGGCTTGATTATCTTGTCGGCAAGGTGCTCGTCGTCACCGTACCGGCAGACATTCAGCTCAAACGGCTGATGGAGCGGAATTCCCTTACAGAAGAAGAAGCGATGAGCCGGATAACGTCGCAAATGCCTTTAGCGAACAAAACAAAAAAAGCTGACGCCGTCATTGATAACAGCGGCAGTCTTGAACATACAAAGCACCAGCTTGAGGAAGTATTGAGCGGCTGGGCATAA	MSLVIGLTGGIASGKSTVARMLIDKKITVIDADVIAKQAVEKGMPAYGQIVEAFGKDILLENGDIDRKKLGSIVFTDEQKRLKLNQIVHPAVRAEMLKQRDEAVARKEQFVVLDIPLLYESGLDYLVGKVLVVTVPADIQLKRLMERNSLTEEEAMSRITSQMPLANKTKKADAVIDNSGSLEHTKHQLEEVLSGWA	PGPT0008835_4476	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
D1-12_01907	633	ytaF_2		putative sporulation protein YtaF	ATGGAGATTGTTTCTTTGCTGCTTTTGGCTTTTGCTGTCAGCTTGGACAGTTTTTCAGTCGGGTTTACGTATGGTTTGAGAAAAATGAAAATCCCGTTCAAAGCGATTGCCGTGATCGCTTGCTGTTCAGCCTCTGTGATGTTTATATCCATGCTGATCGGCCATTTTCTGACAAAGATTTTTCCCGTATCCGTCACGGAAAAACTGGGCGGGCTGATCTTAATCGGAATCGGGGCATGGGTCATCTGGCAATTTTTCAAACCGGCTAAAGAGCCTGATTACTTATTGCATGAAAAAACGTTACTTAATCTTGAAGTGAAATCGCTCGGCATCGTGATTCACATTTTGAAAAAACCGACCAGCGCCGATATTGATCAATCCGGAACCATTAACGGAGTCGAGGCGCTTCTGCTCGGTATCGCCTTATCCATTGACGCGTTTGGCGCCGGGCTGGGAGCGGCCATTCTCGGCTTTTCTCCGGTTATGATGAGCGTGACTGTCGGGCTGATGAGCTCGCTGTTTGTTTCACTCGGCATAAACGCGGGGCATTTGCTCTCAAGATGGAATTGGATAGATAAAATGACATTTTTGCCGGGAGTCCTGCTGATTATCATCGGGATTTGGAAAATGTAA	MEIVSLLLLAFAVSLDSFSVGFTYGLRKMKIPFKAIAVIACCSASVMFISMLIGHFLTKIFPVSVTEKLGGLILIGIGAWVIWQFFKPAKEPDYLLHEKTLLNLEVKSLGIVIHILKKPTSADIDQSGTINGVEALLLGIALSIDAFGAGLGAAILGFSPVMMSVTVGLMSSLFVSLGINAGHLLSRWNWIDKMTFLPGVLLIIIGIWKM				NA	NA	NA	NA	NA
D1-12_01908	831	mutM	COG0266	Formamidopyrimidine-DNA glycosylase	GTGCCGGAATTACCAGAAGTTGAAACGGTCCGGCGCACTCTGACCGGTCTTGTGAAGGGGAAAACGATTGAATCGGCGGATATCAGATGGCCGAATATCATCAAAAAACCCGCCGAGCCGGAGGAATTCGCGCGGCAGATTGCAGGAGAAACGATCCGATCCATCGGAAGAAGGGGAAAGTTTTTGCTTTTCCATCTGGATCATTATGTCATGGTGTCCCACCTGCGGATGGAGGGGAAATACGGTCTTCATCAGGCCGATGAGCCTGACGATAAACATGTGCACGTCGTGTTTCACATGACGGACGGAACACAGCTCCGCTACCGGGATGTCCGGAAATTCGGCACGATGCATTTGTTTGCGCCGGGAGAGGAACAGAATGCATTACCGCTTTCACAGCTCGGGCCCGAACCCGATGATGAAGCATTTACCGCTGCTTATTTAAAAGAGCGGCTTGCAAAAACGAACCGCGCGGTGAAAACAGCCCTGCTCGACCAAAAAGCGGTCGTCGGCCTCGGCAATATTTATGTCGATGAAGCTTTATTCCGGGCGCGTATTCATCCTGAGACAAAAGCGAACAGTCTGTCAGACGGGCAGATAAAAACGCTTCATACAGAAATTAAAGACACCCTTCAGGAAGCGATTGACGCGGGCGGGAGCACCGTCCGGTCTTATATCAATTCTCAAGGGGAGATCGGAATGTTTCAGCTCAAACATTACGTATACGGCAAAAAGGATGAACCGTGCAAAACGTGCGGCACGATGATTTCTAAAATCGTGGTCGGCGGAAGAGGGACGCATTTTTGCGCCCGCTGCCAAAAAAAATCATAA	MPELPEVETVRRTLTGLVKGKTIESADIRWPNIIKKPAEPEEFARQIAGETIRSIGRRGKFLLFHLDHYVMVSHLRMEGKYGLHQADEPDDKHVHVVFHMTDGTQLRYRDVRKFGTMHLFAPGEEQNALPLSQLGPEPDDEAFTAAYLKERLAKTNRAVKTALLDQKAVVGLGNIYVDEALFRARIHPETKANSLSDGQIKTLHTEIKDTLQEAIDAGGSTVRSYINSQGEIGMFQLKHYVYGKKDEPCKTCGTMISKIVVGGRGTHFCARCQKKS	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
D1-12_01909	2640	polA		DNA polymerase I	ATGACGGAACGAAAAAAATTAGTGCTTGTCGACGGAAACAGTCTGGCGTACCGGGCGTTTTTTGCATTGCCGCTTTTAAGCAATGAAAAAGGCATCCATACAAATGCCGTATACGGGTTTGCGATGATTTTAATGAAGATGCTGGAAGATGAAAAGCCGACCCACATGCTGGTGGCTTTTGATGCGGGAAAAACCACTTTCCGCCACAGCACGTTTAAAGAATATAAAGGCGGAAGACAAAAAACGCCGCCGGAGCTTTCAGAACAGATGCCGTTCATCCGCGAGCTCCTTGATGCCTATAACATCAGCCGCTATGAGCTTCCTGAATATGAAGCGGACGATATTATCGGCACGCTTGCCGTATCTGCTGAAAAAGACGGCTTCGAAGTAAAGGTAGTTTCGGGGGACAAGGACTTAACCCAGCTTGCAACCGGGAAAACGACCGTTGCCATTACGAGAAAAGGCATTACCGACGTGGAGGATTACACGCCGGAGCACGTGCAAGAAAAGTACGGTCTGACCCCTTTGCAAATCATTGATATGAAGGGATTAATGGGGGATTCATCCGATAACATACCGGGCGTCCCCGGCGTCGGAGAAAAAACCGCGATTAAGCTCTTAAAGCAGTTCCATTCGGTTGAGAAACTGCTTGATTCCATTGATGAAGTCAGCGGAAAAAAATTAAAAGAAAAGCTTGAAGAATACAAGGAACAAGCCCTGATGAGCAAAGAACTGGCGACGATTATGACAAATGCGCCGATTGAAGTCAAGCCCGAAGATTTAGATTACCAAGGGTTTGACCGTGAACAAGTTGTTGCCATTTTTAAAGACCTGGGTTTTAATACGCTTCTTGAGCGGCTCGGTGAAGAAAGCGGGGAAACGGCGGAAGAAAATTTTGAAGACATCAATGTCGAAACGGCAGAAGAAATCACCGAAGATATGCTCGTTTCGCCGTCCGCTTTGGTCGTCGAACAAATCGGTGATAACTATCACGAAGAACCGATCCTCGGCTTTTCCATCGTGAATGAAACAGGTCTTTATTATATTCCGAAAGAAATCGCCATTCAGTCTGAAGCGTTTAAATCTTGGGCTGAAGATGAATCGATGAAAAAGTGGGTGTTCGACAGCAAACGTTCCGTCGTCGCTTTGCGCTGGCAGGGAATTGAGCTGAAGGGAACGGAATTTGACGCGCTTCTTGCTGCCTACATTATAAACCCGGGCAACTCGTACGACGATGTCGCGAGCGTAGCGAAAGAATACGGGCTGAATATCGTTTCAAAAGATGAAGCGGTATACGGAAAAGGCGCAAAGCGCGCCGTTCCGGCTGAAAAAGAGCTTGCCGATCATCTCGCGCGGAAAGCGTCTGCCGTTAACAGCCTCCGTGACAAACTGCTGCACGCGCTGGAAGAAAATAATCAGCTTGAATTATATGAAGATCTCGAACTTCCGCTTGCGCTTATTCTCGGAGAAATGGAATCAATGGGCGTCAAAGTGGATGTTGAAAGACTGAAGCGAATGGGCGAAGAGCTTAAGGCGAAGCTGAAGGAATATGAAGAAAAAATCCATGACATCGCCGGTGAGCCGTTTAACATCAATTCACCAAAACAGCTCGGCGTCATTCTGTTTGAAAAGCTCGGCCTGCCGCCAGTAAAGAAAACAAAAACAGGCTATTCCACTTCAGCCGATGTCCTGGAAAAGCTCGCAGACAAACATGATATCGTCGCTTACATTCTGCAATACAGACAAATCGGCAAGCTTCAATCGACTTATATAGAAGGGCTGCTGAAAGTCACGCGCAAGGATTCTCATAAGGTGCATACACGGTTCAATCAGGCGTTGACTCAAACCGGACGCCTCAGCTCAACGGATCCGAACCTGCAAAATATTCCGATCCGGCTGGAGGAAGGGCGGAAAATCCGTCAGGCTTTCGTACCGTCCGAACCGGATTGGCTTATTTTCGCCGCCGATTATTCACAAATTGAATTAAGGGTGCTTGCGCATATTTCAAAAGATGAAAATCTGATCGAAGCGTTTACGAATGACATGGACATTCACACAAAAACCGCCATGGACGTGTTTCATGTCAGTGAAGATGAAGTGACACAAGCGATGCGCCGCCAGGCAAAGGCCGTCAATTTCGGCATTGTTTACGGCATCAGTGATTACGGGCTGTCACAAAACCTCGGCATCACCCGGAAAGAAGCGGGCGCTTTTATTGACCGCTATTTGGAGAGCTTCCCGGGCGTCAAGGCATATATGGAAGAGTCGGTGCAGGAAGCGAAGCAAAAAGGATATGTCACGACACTTATGCAGCGCCGCCGCTATATTCCTGAGCTGACCAGCCGCAACTTCAACCTGCGGAGCTTTGCGGAACGGACGGCCATGAATACGCCGATTCAGGGAAGCGCCGCCGATATTATTAAAAAAGCCATGATTGACATGGCAGCTGAGCTGAAAGAAAAAAACCTGAAGGCGCGACTGCTGCTTCAGGTGCACGATGAATTGATTTTTGAAGCGCCTAAGGAAGAAATTGAAATATTAGAGAAGCTGGTTCCTGAAGTGATGGAGCATGCTTTGGCATTAGACGTGCCGCTGAAGGCTGATTATGCTTCAGGGCCGTCTTGGTACGATGCAAAATAA	MTERKKLVLVDGNSLAYRAFFALPLLSNEKGIHTNAVYGFAMILMKMLEDEKPTHMLVAFDAGKTTFRHSTFKEYKGGRQKTPPELSEQMPFIRELLDAYNISRYELPEYEADDIIGTLAVSAEKDGFEVKVVSGDKDLTQLATGKTTVAITRKGITDVEDYTPEHVQEKYGLTPLQIIDMKGLMGDSSDNIPGVPGVGEKTAIKLLKQFHSVEKLLDSIDEVSGKKLKEKLEEYKEQALMSKELATIMTNAPIEVKPEDLDYQGFDREQVVAIFKDLGFNTLLERLGEESGETAEENFEDINVETAEEITEDMLVSPSALVVEQIGDNYHEEPILGFSIVNETGLYYIPKEIAIQSEAFKSWAEDESMKKWVFDSKRSVVALRWQGIELKGTEFDALLAAYIINPGNSYDDVASVAKEYGLNIVSKDEAVYGKGAKRAVPAEKELADHLARKASAVNSLRDKLLHALEENNQLELYEDLELPLALILGEMESMGVKVDVERLKRMGEELKAKLKEYEEKIHDIAGEPFNINSPKQLGVILFEKLGLPPVKKTKTGYSTSADVLEKLADKHDIVAYILQYRQIGKLQSTYIEGLLKVTRKDSHKVHTRFNQALTQTGRLSSTDPNLQNIPIRLEEGRKIRQAFVPSEPDWLIFAADYSQIELRVLAHISKDENLIEAFTNDMDIHTKTAMDVFHVSEDEVTQAMRRQAKAVNFGIVYGISDYGLSQNLGITRKEAGAFIDRYLESFPGVKAYMEESVQEAKQKGYVTTLMQRRRYIPELTSRNFNLRSFAERTAMNTPIQGSAADIIKKAMIDMAAELKEKNLKARLLLQVHDELIFEAPKEEIEILEKLVPEVMEHALALDVPLKADYASGPSWYDAK				NA	NA	NA	NA	NA
D1-12_01910	1740	phoR	COG0642	Alkaline phosphatase synthesis sensor protein PhoR	ATGAATAAAGTCCGTGTGCGTCTGTTCGCTTTACTCGTTGTATGTATCATATTGGTTTTCAGTGTTCTCGGCCTTTTTTTACAGCAGCTTATTTCTTCATCCGCTGAAGAAAGAACGGCGGATCAGCTGAAAAAGGAATCGGTATACATAGCGGGCCTTCTTGACACCGGCCGAATCGGCAATAAAAGCAATGAAACGGTAATCCGTGATGCCGGCCGCACCCTCGGTATAAACGTCGCCGTGCTCAACGAGAAGGGTGACGCCGTATATCATTCCGGCAGCCATGCTGATGATTCAGCCGTAAAGGAGTTCATTTCTCACAATAAAAGTGAGGAAGCCGTACAGTCGAAAAGCAAAGTCATCCGCGGCACTGCCGTAAAAAATGACGCCGGGAAAATTGCGGGGTATGTACTTGTTTCCTCTGAGATCAACGGCGGTTCAAGCGTTACCGGAGAAATGTGGGGCATGCTGGCAGCAAGTCTTTGTACCGCTTTTATCATTATCGTTTTCTTTTATACAAACATGACGTCCCGTTACAAAAAATCCATCGACGCCGCGACAAAGGTGGCGACGGAGCTGTCCAAAGGGAATTATGACGCCCGCTCCTACAGCGGTTACGCAAGGCGGTCGGACCGTCTCGGGCGTGCGATGAACAGCCTGGCGGTCGATTTAATGGAAATGACGAGAACGCAGGATATGCAGCGCGATCGTCTGTTAACCGTCATTGAAAATATCGGCTCCGGTTTGATTTTAATAGACGGGAGAGGTTTTATCAATCTCGTGAACCGGTCATACACGAAGCAGTTTCATACAAAGCCTGAACGTCTGCTTCGGCGCCTTTACCACGATGCGTTTGAACATGAGGAGATCATTCGGCTAGTCGAAGACATTTTTATGACGGAGACGAAAAAATGCCAGCTGCTCAGACTTCCCATCAATATTGAGCGGCGCTACTTTGAAGTTGACGGCGTTCCGATCATGGGCCCTGACGATGAATGGAAGGGCATCGTCCTCGTCTTTCACGATATGACGGAAATTAAAAAATTGGAGCAGATGAGAAAGGACTTCGTCGCCAATGTCTCCCATGAACTGAAAACACCGATCACCTCGATTAAAGGATTTACGGAAACACTGTTAGACGGAGCGATGAAAGATGAAAAGGCGCTTTCAGACTTTCTGTCTATCATTCTGAAAGAAAGTGAGCGGCTCCAATCTCTCGTGCAGGATTTACTGGATTTATCCAAGATGGAGCAGCAAAACTTTACGATGCGCGTAGAGTCCTTTGACGCCGCAAAAATTCTGCATGAAATTGAGGCGCTTTTGCGGCATAAGGCTGCGGAAAAAGGCATCAGCTTTCAGCTCGATCTCCCGGAAGAGCCGATTTTTGTGACGGGTGATGCGCACAGGCTGAAGCAGGTATTTTTGAATCTGGCGAACAATGCCCTGACCTACACGCCTGAAAAAGGGACGGTGGGGATTTCGGTACATGTGAAAGAAACCGTTGTCGATATCAAAGTGTCCGATACGGGAATCGGCATTCAGAAGGAAGAGATCCCGCGGATATTTGAGAGATTCTACCGCGTGGATAAAGACAGAAGCCGCAACTCGGGAGGAACCGGGCTCGGCCTCGCCATCGTGAAGCACTTAATAGAAGCCCATGAAGGTAAAATCGAGGTCACAAGCGAGCCGGGACAGGGGACTGTATTTACCGTGACGCTGAAGCGGCAGCCGGAAGCGTGA	MNKVRVRLFALLVVCIILVFSVLGLFLQQLISSSAEERTADQLKKESVYIAGLLDTGRIGNKSNETVIRDAGRTLGINVAVLNEKGDAVYHSGSHADDSAVKEFISHNKSEEAVQSKSKVIRGTAVKNDAGKIAGYVLVSSEINGGSSVTGEMWGMLAASLCTAFIIIVFFYTNMTSRYKKSIDAATKVATELSKGNYDARSYSGYARRSDRLGRAMNSLAVDLMEMTRTQDMQRDRLLTVIENIGSGLILIDGRGFINLVNRSYTKQFHTKPERLLRRLYHDAFEHEEIIRLVEDIFMTETKKCQLLRLPINIERRYFEVDGVPIMGPDDEWKGIVLVFHDMTEIKKLEQMRKDFVANVSHELKTPITSIKGFTETLLDGAMKDEKALSDFLSIILKESERLQSLVQDLLDLSKMEQQNFTMRVESFDAAKILHEIEALLRHKAAEKGISFQLDLPEEPIFVTGDAHRLKQVFLNLANNALTYTPEKGTVGISVHVKETVVDIKVSDTGIGIQKEEIPRIFERFYRVDKDRSRNSGGTGLGLAIVKHLIEAHEGKIEVTSEPGQGTVFTVTLKRQPEA	PGPT0002705_640	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-12_01911	720	phoP	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAACAAAAAAATTTTAGTTGTAGATGATGAACAATCTATCGTTACTCTTTTACAGTATAATCTGGAACGGTCCGGCTATGATGTCATCACCGCATCAGACGGCGAAGAGGCTCTGGAGCAGGCAGAGAATGAAAATCCGGATTTAATCGTACTGGATGTCATGCTGCCGAAAGTGGACGGAATCGACGTCTGTAAACAGCTCAGACAGCAGAAAATGATGGTTCCGATCTTGATGCTGACAGCAAAAGATGAGGAGTTTGATAAAGTGCTGGGACTGGAGCTCGGAGCGGATGATTACATGACAAAGCCGTTCAGTCCGCGGGAAGTCACTGCGCGGGTGAAAGCCATTTTAAGAAGGGCTGACATTTCTTCGCTGTCACAAGGCAGAGAAGAGGAAAAGGACGGGCAGATCCTCATCGGCGAGCTGAAAATTCTTCCGGAGCATTACGAAGCGTACTTTAAGTCAGAACAGCTGGAACTGACGCCTAAAGAATTTGAACTGCTTCTGTATTTGGGAAAACATAAGGGAAGAGTGCTGACGAGAGATCTTCTGCTGAGCGCGGTCTGGAACTATGATTTTGCCGGGGATACCCGGATTGTTGACGTTCATATCAGCCATCTGCGCGACAAAATCGAATCAAATACCAAAAAACCCATCTATATTAAAACAATCAGAGGTTTGGGGTATAAACTGGAGGAGCCAAAAATGAATGAATAA	MNKKILVVDDEQSIVTLLQYNLERSGYDVITASDGEEALEQAENENPDLIVLDVMLPKVDGIDVCKQLRQQKMMVPILMLTAKDEEFDKVLGLELGADDYMTKPFSPREVTARVKAILRRADISSLSQGREEEKDGQILIGELKILPEHYEAYFKSEQLELTPKEFELLLYLGKHKGRVLTRDLLLSAVWNYDFAGDTRIVDVHISHLRDKIESNTKKPIYIKTIRGLGYKLEEPKMNE	PGPT0002665_80	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
D1-12_01912	939	mdh	COG0039	Malate dehydrogenase	ATGGGAAAAACACGCAGTAAAGTTTCTGTTATCGGAGCAGGATTTACGGGAGCGACAACAGCCTTTCTTACAGCTCAAAAAGAGCTTGCAGACGTTGTGCTCGTTGATATTCCGCAATTAGAAAACCCGACAAAAGGAAAAGCGCTAGACATGCTCGAAGCAAGTCCGGTTCAAGGATTTGACGCGAAAATCACAGGCACGTCCAACTACGAGGACACAGCCGGTTCTGATATCGTCGTCATCACAGCCGGAATTGCGAGAAAACCGGGCATGAGCCGTGATGATCTTGTATCTACAAACGAAAAAATCATGAGAAGCGTCACACGTGAGATCGTGAAATATTCTCCTGACTGCATTATCGTTGTATTGACAAACCCTGTTGATGCGATGACATATGCGGTGTACAAAGAATCAGGCTTCCCGAAAGAACGCGTCATCGGACAATCCGGAGTGCTTGACACTGCGCGATTCAGAACATTCGTCGCTGAAGAATTAAACCTGTCTGTAAAAGATGTGACCGGTTTTGTTCTTGGCGGACACGGTGACGACATGGTTCCTCTCGTCCGTTATTCCTATGCGGGCGGCATTCCGCTTGAAACGCTTATCCCGAAAGACCGTCTTGATGCGATTGTAGAACGCACAAGAAAAGGCGGCGGGGAAATCGTCAACCTTCTCGGCAACGGAAGCGCCTACTACGCGCCTGCTGCATCACTGACTGAAATGGTAGAAGCCATTTTGAAAGATCAGCGCCGCGTGCTTCCGACTATCGCTTACTTAGAAGGCGAATACGGTCATGAAGGTATTTACTTAGGCGTACCGACGATTATCGGAGGAAACGGCCTAGAGCAAATCATCGAGCTTGAACTGACAGACTATGAAAAAGCGCAGCTGAGTAAATCAGTTGAATCTGTCAAAAACGTGATGAAAGTATTGTCATAA	MGKTRSKVSVIGAGFTGATTAFLTAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDAKITGTSNYEDTAGSDIVVITAGIARKPGMSRDDLVSTNEKIMRSVTREIVKYSPDCIIVVLTNPVDAMTYAVYKESGFPKERVIGQSGVLDTARFRTFVAEELNLSVKDVTGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKDRLDAIVERTRKGGGEIVNLLGNGSAYYAPAASLTEMVEAILKDQRRVLPTIAYLEGEYGHEGIYLGVPTIIGGNGLEQIIELELTDYEKAQLSKSVESVKNVMKVLS	PGPT0001435_1505	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001435-mdh-K00024	NA	NA
D1-12_01913	1272	icd	COG0538	Isocitrate dehydrogenase [NADP]	GTGTCACAAGGTGAAAAAATTACAGTCTCTAATGGAGTATTAAACGTACCAAATAATCCGATTATCCCGTTTATTGAAGGCGACGGCACAGGCCCTGATATTTGGAACGCCGCTTCTAAAGTATTGGAAGCCGCTGTTGAAAAAGCATATAAAGGCGAGAAAAAAATCACGTGGAAAGAAGTTTATGCCGGTGAAAAGGCTTATAATAAAACAGGTGAGTGGCTTCCTGCCAAAACGCTGGAAGACATCAGAGAGTACTTCATCGCCATCAAAGGTCCTCTGACGACACCGGTCGGCGGCGGTATCCGTTCTCTGAACGTGGCGCTGAGACAGGAGCTTGATTTGTTTACGTGCCTGCGCCCTGTCAGATATTTCACGGGAGTGCCTTCTCCGGTCAAACGTCCTGAAGATACGGATATGGTCATTTTCCGCGAGAATACGGAAGATATTTACGCCGGAATTGAGTATGCGAAAGGTTCTGAAGAGGTTGAAAAGCTGATCAGCTTCCTGCAAAATGAAATGGGTGTTAACAAAATCCGTTTCCCTGAAACGTCAGGAATCGGCATCAAACCTGTTTCTGAAGAAGGCACAAGCCGCTTAGTCAGAGCTGCCATTGAGTATGCGATCGAAAACGGCCGTAAGTCTGTCACGCTTGTCCACAAAGGAAACATCATGAAGTTCACTGAAGGGGCATTTAAAAACTGGGGCTACGAGCTTGCCGAAAGAGAATACGGAGATAAAGTATTCACTTGGGCTGAATATGACCGCATTGTCGAAAAAGACGGAAAAGAAGCGGCTGATAAAGCGCAGAGCGACGCGGAAGCGGCAGGAAAAATCATCGTCAAAGACAGCATCGCTGATATTTTCCTTCAGCAGATCTTGACCCGTCCGAGCGAATTCGACGTCGTGGCGACTATGAACTTAAACGGAGACTATATCTCTGATGCGCTTGCCGCTCAGGTAGGCGGAATCGGAATCGCGCCGGGAGCGAACATCAACTATGAAACAGGCCATGCGATTTTCGAAGCGACTCACGGAACGGCTCCTAAATATGCCGGCCTTGACAAAGTCAACCCGTCATCCGTCATCCTTTCAGGAGTGCTTCTTCTTGAACACCTGAACTGGAATGAGGCTGCTGACTTGATCATTAAATCTATGGAAAAAACGATTGCTTCAAAAGTAGTAACGTACGATTTTGCTAGATTAATGGACGGTGCAACTGAAGTGAAATGTTCAGAGTTTGGTGAAGAGCTAATCAAAAACATGGACTGA	MSQGEKITVSNGVLNVPNNPIIPFIEGDGTGPDIWNAASKVLEAAVEKAYKGEKKITWKEVYAGEKAYNKTGEWLPAKTLEDIREYFIAIKGPLTTPVGGGIRSLNVALRQELDLFTCLRPVRYFTGVPSPVKRPEDTDMVIFRENTEDIYAGIEYAKGSEEVEKLISFLQNEMGVNKIRFPETSGIGIKPVSEEGTSRLVRAAIEYAIENGRKSVTLVHKGNIMKFTEGAFKNWGYELAEREYGDKVFTWAEYDRIVEKDGKEAADKAQSDAEAAGKIIVKDSIADIFLQQILTRPSEFDVVATMNLNGDYISDALAAQVGGIGIAPGANINYETGHAIFEATHGTAPKYAGLDKVNPSSVILSGVLLLEHLNWNEAADLIIKSMEKTIASKVVTYDFARLMDGATEVKCSEFGEELIKNMD	PGPT0001170_2936	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
D1-12_01914	1119	citZ	COG0372	Citrate synthase 2	ATGACAGCAACACGCGGTCTTGAAGGGGTTGTAGCAACAACATCATCTGTAAGCTCTATTATCGACGATACCCTTACATATGTAGGGTACGATATTGACGACTTGACAGAGAATGCAAGTTTTGAAGAAATCATTTATTTGCTGTGGCATCTGCGCCTGCCGAATAAAACGGAACTTGCTGAACTGAAAAAACAGCTTGCGAAAGAAGCTGCCGTTCCACAAGAAATCATTGAGCACTTCAAATCCTATCCCCTCAATAACGTACATCCAATGGCTGCGCTCCGGACGGCGATTTCATTACTCGGTCTGACTGACAGTGAAGCCGATGTCATGAATCCGGAAGCGAACTACAGAAAAGCCATCCGTCTGCAGGCGAAAGTGCCGGGCATTGTCGCTGCTTTCTCAAGAATCCGCAAAGGACTTGATCCTGTTGAACCGAAGGAAGAGTATGGAATCGCGGAGAACTTCCTTTACACCTTAAACGGTGAAGAGCCTTCTCCGATTGAAGTGGAAGCGTTTAACAAAGCGCTCATTCTTCATGCGGATCATGAGCTGAATGCATCAACATTTACGGCGAGAGTATGTGTCGCCACCTTATCTGATATTTACTCAGGCATCACTGCCGCCATCGGCGCTTTAAAAGGACCGCTTCACGGCGGAGCCAATGAAGCCGTCATGAAAATGCTGACAGAAATCGGCGAAGTGGAAAACGCCGAGCCTTATATCCGCAGCAAAATGGAGAAAAAGGAAAAAGTAATGGGCTTCGGACACCGTGTGTATAAGCATGGAGACCCGCGCGCCAAACACTTAAAAGAAATGAGCAAACGCCTGACGAATCTGACGGGTGAAAGCAAATGGTACGACATGTCAATCCGTGTCGAAGAAATCGTGACGTCGGAGAAAAAACTTCCGCCTAACGTTGATTTCTATTCCGCATCTGTATACCACAGTCTCGGCATTGATCACGATCTGTTCACGCCGATCTTTGCGGTCAGCAGAATGTCAGGATGGATCGCCCATATTCTTGAACAATACGATAACAACCGCCTCATCCGCCCGCGCGCTGATTACACGGGTCCGGATAAGCAGACTTTTGTTCCGCTTGATGAAAGAGCCTGA	MTATRGLEGVVATTSSVSSIIDDTLTYVGYDIDDLTENASFEEIIYLLWHLRLPNKTELAELKKQLAKEAAVPQEIIEHFKSYPLNNVHPMAALRTAISLLGLTDSEADVMNPEANYRKAIRLQAKVPGIVAAFSRIRKGLDPVEPKEEYGIAENFLYTLNGEEPSPIEVEAFNKALILHADHELNASTFTARVCVATLSDIYSGITAAIGALKGPLHGGANEAVMKMLTEIGEVENAEPYIRSKMEKKEKVMGFGHRVYKHGDPRAKHLKEMSKRLTNLTGESKWYDMSIRVEEIVTSEKKLPPNVDFYSASVYHSLGIDHDLFTPIFAVSRMSGWIAHILEQYDNNRLIRPRADYTGPDKQTFVPLDERA	PGPT0001455_5827	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
D1-12_01915	153			hypothetical protein	ATGAATATTAAAAAAGCAATTTGTTTCTCTGTCTCTGCTTTCGCTATTACGTTCGGTGTAATTGCTTTTGTAGGAAACACGACTCATCTTCATCATAATGCAGCCAAAACTGATAATGAGGTAATACAACTAGCTGCGCGACTGCAAACATGA	MNIKKAICFSVSAFAITFGVIAFVGNTTHLHHNAAKTDNEVIQLAARLQT				NA	NA	NA	NA	NA
D1-12_01916	1134	rapH_1		Response regulator aspartate phosphatase H	ATGGACCAGGTATTACCGTCTTCACATGTAGGCGTTAAAATTAACGAGTGGTACAAGATGATTCGTCAATTTAGTGTGCCAGACGCGGAAATTTTAAAAGCCGAAGTGGAACACGAAATAAAAGAAATGGAAGAAGACGAATATTTACTTATTTATTACTCTCTCATGACTTTTCGTCATCAACTTATGCTAGATTATTTAAACCCAGAAATAAAGTATAGGACTGATAGGCCAACCACCACAGAACTACTTGAGAAGATTGAGAAACCACAAAAAACACTTACCGGCCTCTTAAAATATTACTCACATTTTTTTCGCGGAATGTACGAATTTGATCAGAAGCAGTATGTAGAAGCAATTAATTTTTATCGTAAAGCAGAGATGGAAATTCATCATGTCTCTGATGAAATAGAACAAGCTGAGTTTCATTTTAAGTTGGCAGAGGCTTATTATAATATGAAACAAACGCACGTATCCATGCATCATATTCTAAAAGCGTTAGAAATTTATGATCGAAACCCGCTTTATACCGTCCGAAAAATTCAAAGTTTATTTGTAATTGTGGGTAATTATCTTGATTTTAAACATTACGAAAAAGGATTACAGCATCTTGAGGAAGCCTTGAAGCTTTCGCAAGAATTTGGTCATAAAAGGTTGATTTCCTCTGCTCTTTATAATTTGGGTGAAAGTTATCACTACATGGGACAAGAAGAAAAGGCCGAAGCGTATTTGAGACAAGCAATTGTGATTGGTGAAGAAATGAAATTGAGAACTCTGCCCCATTCATATTATTCACTTTCCATAGTATTATTTAAGCAAAAGAAAACAGCCGCGGCAGGCCAAGCTTTAAAAGAAGGTTTAAAAACAGCAGTAAAATATGACGACAATTTGTTTTGCTTATTAACAGAGTTTTTATATGTTTTATTTGCTGAACCGATTAACAAAGACAGCCTTGTAGAAATTTTAAGTAAGCTTGAAAATATTCATATGTATTCGTATGTCGAAGAGTTGACACTTTTAACAGCAAACTTTTTCAAAGGAATGAAGGACTTTGAAATGGCTACAATTTTTTATGATAAGATGGTGGAGTCTCAACTTCAAATACAGCGGGGGGATTGTTTGTATGAATATTAA	MDQVLPSSHVGVKINEWYKMIRQFSVPDAEILKAEVEHEIKEMEEDEYLLIYYSLMTFRHQLMLDYLNPEIKYRTDRPTTTELLEKIEKPQKTLTGLLKYYSHFFRGMYEFDQKQYVEAINFYRKAEMEIHHVSDEIEQAEFHFKLAEAYYNMKQTHVSMHHILKALEIYDRNPLYTVRKIQSLFVIVGNYLDFKHYEKGLQHLEEALKLSQEFGHKRLISSALYNLGESYHYMGQEEKAEAYLRQAIVIGEEMKLRTLPHSYYSLSIVLFKQKKTAAAGQALKEGLKTAVKYDDNLFCLLTEFLYVLFAEPINKDSLVEILSKLENIHMYSYVEELTLLTANFFKGMKDFEMATIFYDKMVESQLQIQRGDCLYEY	PGPT0025780_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025780-rapH-K06366	NA	NA
D1-12_01917	438			hypothetical protein	ATGCTATCACTTAATAGAGCTTTAAAATTACGTGATTTAGAAGTTTTTCGTGTGCTGAAAGATGGTAACATTTTATCTTACGTAATAATTGAAGATACTCGAAAGCCATTTACAGAAGAAGACAAAAAATTAGAACCATTATGTTATATGGACGAAGAAGATATTAATGCGATTTTAAATGTTTTTAAGATTTCAATTGTTAATGATGAAAAATTAAATGAAGATAATTCAATTTTTATAAGATCTTACTTTTCTGAATTTGTTAATCATACAAATTTAACGAATTTTATTATTAAAGAATATGTTCAAAAGGATTTATATAATTACGATGATGAAGATGACATCATTTTCTTTAATAGAATTTTACGTAGTATAGGATCAGATTATGTTATCAAAGAATTTGACGATATAAATTGGATTTATTTATCTCAAGATTGA	MLSLNRALKLRDLEVFRVLKDGNILSYVIIEDTRKPFTEEDKKLEPLCYMDEEDINAILNVFKISIVNDEKLNEDNSIFIRSYFSEFVNHTNLTNFIIKEYVQKDLYNYDDEDDIIFFNRILRSIGSDYVIKEFDDINWIYLSQD				NA	NA	NA	NA	NA
D1-12_01918	411	yjdF		putative protein YjdF	ATGAAATTAACGGTTTACTACGATGGTCAGTTTTGGGTAGGAGTCATTGAAGTTGTGAATGATGGAAAATTAAGAGCAATTCGTCATTTGTTTGGACAAGAGCCAAAGGATTCAGAAATAATGCATTTTGTTAATAATCAACTTTTACAGACTCTCTCCCACACTGAACAAGAAGGGGTTTGTGTTAAAGCAAAATCTAAGAAATTAAACCCAAAAAGATTGCAACGACAAGCTTCTAAAGAGATGAAAAATATCGGGATATCAACTAAGGCACAAAAAGCGATAAAACAGGAGCTTGAAGCAAGAAAAGAAAAGAGAAAACAACTGAATAAAAAACAAAGAGAAAAAATAAAGGAACAAAAATATTTAATCAGAAAACAAAAAGCAAAAGAAAAGCATAGGGGCAAATAG	MKLTVYYDGQFWVGVIEVVNDGKLRAIRHLFGQEPKDSEIMHFVNNQLLQTLSHTEQEGVCVKAKSKKLNPKRLQRQASKEMKNIGISTKAQKAIKQELEARKEKRKQLNKKQREKIKEQKYLIRKQKAKEKHRGK				NA	NA	NA	NA	NA
D1-12_01920	465			hypothetical protein	ATGTTTACACAGGCGAATTTATTTTTACTATTATTGCTGGCCATCGCATTGGTAGCCAAAAATCAGTCATTGCTTTTTGCCGTCGGCTTTCTCATTGTGATAAAAGCTGTCGGTCTTGATCAGAAACTATTTCCGGTTATTCAGTCAAAAGGCATCAACTGGGGGGTCACCGTCATTACAATCGCCGTTTTAGTGCCGATTGCCACAGGTGATATCGGTTTTAAACAGCTCGGAGAAGCGATGAAATCATATTACGCGTGGATCGCTCTCGGTGCCGGGATCGCGGTTGCCTTAATCGCCAAAAACGGTCTCACCTTATTGGAAAACGACCCTCATATTACAACGGCGCTGGTCATCGGCACGATACTTGCCGTCGCGCTTTTCGGAGGCGTCGCCGTCGGCCCGTTAATCGGCGCTGGAATCGCCTACTTGGCCATGCAAATCGTTAAAATATTCACTTCGTAG	MFTQANLFLLLLLAIALVAKNQSLLFAVGFLIVIKAVGLDQKLFPVIQSKGINWGVTVITIAVLVPIATGDIGFKQLGEAMKSYYAWIALGAGIAVALIAKNGLTLLENDPHITTALVIGTILAVALFGGVAVGPLIGAGIAYLAMQIVKIFTS				NA	NA	NA	NA	NA
D1-12_01921	1116			Sodium-lithium/proton antiporter	GTGAACCCGCACTATGCAACTGTTTTTTTCCGCGCGCTGTTTGTACTCGCTGCGGCCGGCGGCGCTTTAGCGGCCGGTTACGCCTCATTTCCGTTAACTTATCCGTTTCTGATCGCCCTTATTCTGTCATCGGCGATCATTCCCGTAGTTGACTGGCTGGACAAACTGACGGGGCTGCCCCGGTCAGTCAATACTGTCATTGTCCTGGTCTTCTTTTTGCTTATTCTTCTTGGCGCGGCGACATTTCTCGTTGCGGAAATCATTTCGGGAACCGCCTATCTGGCCAAAACGCTCCCTCCCCATATCAGCGCCTTTATGACGTATTGCGAAGAGCTGTTCACTTCCCGCATTCAGCCATTGTACCACGAGCTGACCGTCTTATTTAACGGACTGGAAACCAATCAGCAGGCATCCATCGTGACGCATATTCAGACCCTCGGTGATACAGCCGCTAAAAATGCGGGGCTGATGCTTTCACATCTTTTGGAGCTGGTGCCGAAATGGATTGCCTTCCTTCCCAATACAGCTGCCGTCTTCATTTTCGCAATGCTGGCGACTTTTTTTATGACAAAGGACTGGCATAAGCTGAAGGCGCTGCTTTATTCCATTCTTCCGGAACGGGTTTCAGCAAACGCCAAGGCCGTATCGGGAGAGCTGAAAAAAGCGATGGCAGGTTTCATTAAGGCGCAGGCCGTGCTCATCCTTTTCACGATGATCATTGTCTTTATCGGACTTTTTCTTTTAGGGATTGAGCATGCGGCAACCATCGCCTTTTTTATCGGCCTGGTGGACCTTCTCCCGTATCTCGGCGCCGGGTCGGTCTTTGTTCCCTGGATTATGTATTTGGCCATTGCCGGTCAGCTTCCTCAAGCGATCGGTCTCGGTATTTTATATATTGTGGTTCTCATTCAGCGCCAGCTGACGGAGCCGAAAATTTTAAGCAAGTCAATCGGACTTGATCCGCTTGCGACCTTAATCGCCCTGTTTGCCGGCTTTAAACTGTTCGGAATTTTAGGACTGGCTGCGGGGCCCGCGCTGCTCGTTTTCATTCAAGCCTTTATCACAACGGGCGCTTTAAAAGAAATATGGGCCTATATTACTGTTCAGTCCAAATAA	MNPHYATVFFRALFVLAAAGGALAAGYASFPLTYPFLIALILSSAIIPVVDWLDKLTGLPRSVNTVIVLVFFLLILLGAATFLVAEIISGTAYLAKTLPPHISAFMTYCEELFTSRIQPLYHELTVLFNGLETNQQASIVTHIQTLGDTAAKNAGLMLSHLLELVPKWIAFLPNTAAVFIFAMLATFFMTKDWHKLKALLYSILPERVSANAKAVSGELKKAMAGFIKAQAVLILFTMIIVFIGLFLLGIEHAATIAFFIGLVDLLPYLGAGSVFVPWIMYLAIAGQLPQAIGLGILYIVVLIQRQLTEPKILSKSIGLDPLATLIALFAGFKLFGILGLAAGPALLVFIQAFITTGALKEIWAYITVQSK				NA	NA	NA	NA	NA
D1-12_01922	384			hypothetical protein	ATGAGAGTGTTATTCTTACTGTTTATCGTGTGTCCGGCAATTGAAATCGGCTTGTTTTTGCTGGCGGGAAAATGGCTCGGTATTTTTCCGACCTTCCTTCTCATCATTTTGACAGGCGTGTTAGGCGCCTTGGTGGCAAAAAGACAGGGAACCGATGTGTATCATCGGGTGATGCGCGACCTGCAGCACGGCAAAATGCCGGGGGAAGCGCTTCTTGACGGAATATGCGTCTTTTTCGGAGGCCTGCTTTTGATGCTTCCGGGTTTTCTGTCCGATATTGCAGGGGCCTGTCTTCTGATTCCGTTCACTCGGAACCGCATGAAGCCGCTTTTGTTCAAATGGCTGAGAGGAATGTCAAAAAATAAGCGGATCATTATCAAATAA	MRVLFLLFIVCPAIEIGLFLLAGKWLGIFPTFLLIILTGVLGALVAKRQGTDVYHRVMRDLQHGKMPGEALLDGICVFFGGLLLMLPGFLSDIAGACLLIPFTRNRMKPLLFKWLRGMSKNKRIIIK				NA	NA	NA	NA	NA
D1-12_01923	1758	pyk	COG0469	Pyruvate kinase	TTGAAAAAAACAAAAATCGTTTGTACAATCGGTCCGGCCAGTGAAAGTGTAGAAATGCTGACAAAATTGATGGAAGCGGGTATGAACGTTGCTCGTCTGAATTTTTCACACGGTGATTTCGAAGAGCACGGCGCAAGAATCAAAAACATCAGAGAAGCAAGCAAAAAGCTCGGCAAAAACGTGGGGATTCTCCTCGATACGAAAGGTCCGGAAATCCGCACGCACGATATGGAAAACGGCGCGCTTGAGCTTCAGGCGGGAAATGAAATTATCGTTTCTACGAAACAGGTGCTGGGAACGCTTGAAAAATTCTCAGTTTCTTATGAAGGCCTGGCAGACGACGTGTCAGCAGGGTCTATCATCCTGTTGGATGACGGTTTAATCGGATTGGAAGTGCTAGAATCAAATCCGGAAAAACACGAAATCAAAACAAAAATCTTAAACAGCGGCACGCTGAAAAATAAAAAAGGCGTAAACGTTCCCGGCGTCAGCGTCAACCTTCCCGGAATTACTGAAAAAGACGCCAAAGACATCGTATTCGGTATCGAGCAAGGCGTTGATTTCATCGCTGCGTCATTTGTACGCCGTTCTACGGATGTCCTAGAAATCCGCGAACTGCTTGAAGAGCATAACGCGTCTGACATTCAAATCATTCCTAAGATCGAGAACCAGGAAGGCGTGGACAACCTGGATGCGATCCTGGAAGTATCTGACGGCTTAATGGTAGCGCGCGGAGACCTCGGCGTAGAGATTCCGGCCGAAGAAGTGCCGCTCGTGCAAAAAGAAATGATCAAAAAATGCAACGCGCTCGGCAAACCGGTTATTACTGCGACACAAATGCTTGACAGCATGCAGCGCAACCCTCGTCCGACACGCGCTGAAGCAAGTGACGTTGCCAACGCCATTTTCGACGGCACAGACGCTATCATGCTTTCCGGTGAGACGGCTGCGGGACAATATCCTGTCGAGGCGGTTCAAACAATGTTTAACATCGCCACACGCACGGAAGAATCTCTGAACTACAAAGAAATTCTGTCTAAACGCAGAGATCAGGTCGGCATGACGATTACCGATGCGATCGGCCAATCAGTTGCGCACACGGCGATCAATCTGAGTGCGGCAGCTATCGTTACCCCTACAGAAAGCGGCCATACGGCGCGTATGATCGCGAAATACCGTCCGCAGGCTCCGATTGTAGCCGTTACGGTTAATGAGTCTGTATCACGCAAACTCGGCCTTGTATTCGGTGTATTCCCGGCAAGCGGCCAAAACGCGAATTCAACCGATGAAATGCTTGAAGATGCGGTTCAAAAATCACTTGACAGCGGCATCGTGAAACGCGGTGATCTGATTGTCATTACAGCAGGTTCTGTCGGTGAATCAGGCACGACGAATCTGATGAAAGTCCACACTGTCGGCAGCGTTATCGCGAAAGGGCAAGGCATCGGACGCAAATCTGCATTCGGTCCGGTCGTTGTTGCAAAAAATGCGAAAGAAGCTGAACAAAAAATGACAGACGGCGCAGTATTGGTTGCTTCAAGCACTGACCGCGACATGATCGCTTCACTTGAAAAAGCATCAGCGCTCATCACTGAAGAAGGCGGTCTGACAAGCCATGCAGCCGTTGTCGGTTTAAGCTTGGGCATTCCGGTTATCGTCGGTCTGGAGAACGCAACTTCAGTTTTAACAGAAGGACAGGTTATCACAGTTGACGCTGCCCGCGGCGCTGTGTATGAAGGCCGCGCAAGCGTTCTTTAA	MKKTKIVCTIGPASESVEMLTKLMEAGMNVARLNFSHGDFEEHGARIKNIREASKKLGKNVGILLDTKGPEIRTHDMENGALELQAGNEIIVSTKQVLGTLEKFSVSYEGLADDVSAGSIILLDDGLIGLEVLESNPEKHEIKTKILNSGTLKNKKGVNVPGVSVNLPGITEKDAKDIVFGIEQGVDFIAASFVRRSTDVLEIRELLEEHNASDIQIIPKIENQEGVDNLDAILEVSDGLMVARGDLGVEIPAEEVPLVQKEMIKKCNALGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAIMLSGETAAGQYPVEAVQTMFNIATRTEESLNYKEILSKRRDQVGMTITDAIGQSVAHTAINLSAAAIVTPTESGHTARMIAKYRPQAPIVAVTVNESVSRKLGLVFGVFPASGQNANSTDEMLEDAVQKSLDSGIVKRGDLIVITAGSVGESGTTNLMKVHTVGSVIAKGQGIGRKSAFGPVVVAKNAKEAEQKMTDGAVLVASSTDRDMIASLEKASALITEEGGLTSHAAVVGLSLGIPVIVGLENATSVLTEGQVITVDAARGAVYEGRASVL	PGPT0002020_876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
D1-12_01924	960	pfkA	COG0205	ATP-dependent 6-phosphofructokinase	ATGAAGCGTATAGGAGTTTTAACGAGCGGCGGGGATTCCCCGGGTATGAACGCTGCGGTGCGCGCGGTTGTGCGGAAAGCTATCTACCACGACGTCGAAGTGTACGGAATTTATAACGGTTATTCAGGATTAATCAGCGGAAAAATAGAGAAACTGGAGCTGGGTTCGGTCGGTGACATCATCCACCGCGGCGGAACAAAGCTGTACACGGCCAGATGTCCTGAATTCAAAACAGTTGAAGGCCGTGAAAAAGGAATCGAAAATTTAAAGAAACTCGGCATTGAAGGTCTTGTCGTCATCGGCGGAGACGGTTCATACATGGGTGCGAAAAAATTAACGGAACACGGGTTTCCGTGTGTAGGTGTACCGGGTACGATAGATAATGACATCCCGGGAACTGATTTTACGATCGGATTTGATACGGCGCTAAATACCGTAATTGATGCGATTGATAAAATCCGTGACACCGCTACGTCTCATGAGCGTACATACGTTATTGAAGTGATGGGGCGCCATGCGGGCGACATTGCTTTATGGGCAGGTCTTGCAGGCGGAGCGGAATCAATTTTAATTCCTGAAGCGGACTACGATATGCAGGAAATTATCGGCCGTTTGAAGAGAGGGCACGACCGCGGCAAAAAACACAGTATCATCATCGTTGCAGAAGGGGTAGGCAGCGGGGTTGAATTCGGAAAACGCATCGAAGAAGAAACGAACCTTGAAACACGGGTATCCGTTTTAGGGCACATCCAGCGCGGCGGATCTCCAAGCGCTTCTGACCGGGTTCTTGCAAGCCGCCTCGGCGCTTACGCGGTTGAGCTTCTGCTTAAAGGAAAAGGCGGACGCTGCGTAGGTATACAAAACAACAAGCTTGTAGACCATGATATTATAGAAATTTTAGAATCAAAACATACTGTTGAACCAAACATGTATCAGCTTTCAAAAGAACTGTCTATTTAA	MKRIGVLTSGGDSPGMNAAVRAVVRKAIYHDVEVYGIYNGYSGLISGKIEKLELGSVGDIIHRGGTKLYTARCPEFKTVEGREKGIENLKKLGIEGLVVIGGDGSYMGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWAGLAGGAESILIPEADYDMQEIIGRLKRGHDRGKKHSIIIVAEGVGSGVEFGKRIEEETNLETRVSVLGHIQRGGSPSASDRVLASRLGAYAVELLLKGKGGRCVGIQNNKLVDHDIIEILESKHTVEPNMYQLSKELSI	PGPT0017595_3565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017595-pfkA-K00850	NA	NA
D1-12_01925	978	accA	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	GTGGCTGCAAGATTAGAATTTGAAAAACCAGTGATTGAACTGCAGACGAAAATCGCCGAACTGAAAAAATTCACCCAAGATTCGGAGATGGATTTAAGCGCTGAAATCGCAAGGCTTGAAGACCGGCTCAGCAAGCTCCAGGATGAGATTTATAAAAACCTGAAGCCGTGGGACAGAGTGCAGATCGCACGCCTTCCCGACCGGCCGACGACGCTTGATTACATTCAATACCTGTTTACCGACTTTTTTGAGTGCCACGGAGACAGAACATACGGAGATGATGCTGCGATTGTTGGCGGAGTCGCCAAATATCACGGCATGCCGGTCACCGTCATCGGACATCAGCGCGGAAAAGACACGAAAGAAAACCTCGTCCGCAATTTCGGAATGCCTCACCCTGAGGGCTACCGCAAAGCGCTTCGTCTCATGAAGCAGGCGGATAAGTTCAACCGCCCGATTATCTGCTTCATCGACACGAAGGGAGCGTACCCGGGTAAAGCGGCGGAGGAACGGGGACAAAGTGAAGCCATCGCCAAGAACCTGTTCGAGATGGCCGGCCTGACAGTGCCTGTCGTTTGTATCGTCATCGGGGAAGGCGGCAGCGGAGGCGCGCTGGCATTAGGTGTGGGCAACCGCATGCTGATGCTTGAGAACTCGACGTATTCCGTTATTTCTCCTGAAGGAGCCGCGTCCATTTTGTGGAAAGACTCCAGCCTTGCGAAAAAAGCGGCCGAAACCATGAAGATTACTGCGCCCGATTTATTAGAATTAGGAATTATTGATGATATGATTAAAGAAGTGAAGGGCGGAGCTCACCATGATATCAAGCAGCAGGCGGGCTACATTGACGGTATTCTTAAAGAAACGTTAAAATCTCTTCTTCAAATGAACGCCGAAGAATTGATCTCACAGCGCTATGAAAAATATAAAGCAATCGGGAAAGTTTCGGTTGAAGATCAATATATCGGGGTAAACTGA	MAARLEFEKPVIELQTKIAELKKFTQDSEMDLSAEIARLEDRLSKLQDEIYKNLKPWDRVQIARLPDRPTTLDYIQYLFTDFFECHGDRTYGDDAAIVGGVAKYHGMPVTVIGHQRGKDTKENLVRNFGMPHPEGYRKALRLMKQADKFNRPIICFIDTKGAYPGKAAEERGQSEAIAKNLFEMAGLTVPVVCIVIGEGGSGGALALGVGNRMLMLENSTYSVISPEGAASILWKDSSLAKKAAETMKITAPDLLELGIIDDMIKEVKGGAHHDIKQQAGYIDGILKETLKSLLQMNAEELISQRYEKYKAIGKVSVEDQYIGVN	PGPT0001695_576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
D1-12_01926	873	accD	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	TTGTTAAAGGATATATTCACAAAAAAGAAAAAATATGCTTCCGTGCCGTCTGAGCAGGCAAAACATGATGTTCCGGAAGGCATTATGACAAAGTGCCCCAAATGTAAAAAAATCATGCTCACAAAAGAGTTAGATAAAAACCTGCGCGTCTGCATGAACTGCGGGCACCATTTCCCGATGAATGCAAAGCAGCGCATTGAAAGCCTCCTGGATGAAGATTCATTCGAAGAATTCAACCAGGGAATGATATCTGAAAACCCGCTCGGTTTCCCGGGATACTTAGAAAAAATCGAAAAAGACCGTGAGAAAACATCGCTGAATGAAGCGGTGGTTACCGGAAAAGGAACCATCGGCGGATTCCCTGCCGTGATCGCGATCATGGATTCAACATTCCGAATGGGCAGCATGGGTTCGGTTGTCGGCGAAAAAATCACGCTTGCAATTGAAAAAGCAAAAGAGGAAAAAGTCCCGTTTATCATCTTTACCGCTTCCGGCGGCGCACGTATGCAGGAGGGGGTCTTAAGCCTTATGCAAATGGCCAAGACAAGCTCTGCATTAAAACTGTTCAGTGAGGAGCAGGGACTGATTATTTCTGTCATGACCCATCCGACGACAGGCGGCGTATCGGCCAGTTTCGCGTCTCTCGGTGATTATAATTTCGCTGAACCGGGCGCCTTGATCGGATTTGCCGGAAGACGTATTATTGAACAGACGATCGGGGAAAAACTGCCGGAAGATTTCCAGACGGCGGAATTTTTATTAAAGCACGGCCAGCTTGATGCGGTGATTCACCGAAACGACATGAAAGACAAACTCGCATTTCTGCTGGACATGCACCAAACAGGAGGTGAGCATGAGTGGCTGCAAGATTAG	MLKDIFTKKKKYASVPSEQAKHDVPEGIMTKCPKCKKIMLTKELDKNLRVCMNCGHHFPMNAKQRIESLLDEDSFEEFNQGMISENPLGFPGYLEKIEKDREKTSLNEAVVTGKGTIGGFPAVIAIMDSTFRMGSMGSVVGEKITLAIEKAKEEKVPFIIFTASGGARMQEGVLSLMQMAKTSSALKLFSEEQGLIISVMTHPTTGGVSASFASLGDYNFAEPGALIGFAGRRIIEQTIGEKLPEDFQTAEFLLKHGQLDAVIHRNDMKDKLAFLLDMHQTGGEHEWLQD	PGPT0001710_1788	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
D1-12_01927	1233			NAD-dependent malic enzyme	ATGTCATTAAGAGAAGAAGCGTTACATTTACACAAAGTAAATCAAGGAAAGCTGGAATCAAAAGCAAAGGTAGAAGTCAGAAACGCGGACGACTTAAGCCTTGCCTACTCTCCCGGAGTAGCTGAGCCTTGTAAAGAGATTTATGACGATAAAAATAAAGTATATGATTATACAATGAAGGGGAACATGGTAGCAGTCGTAACAGACGGATCAGCCGTTCTCGGTCTCGGTAATATCGGGCCTGAAGCTTCTCTTCCGGTCATGGAAGGGAAAGCGGTGCTGTTCAAAAGTTTCGCGGGCGTGGATGCATTCCCGATCGCGCTTGACACAAACGATGTGGACAAAATCATTGACACTGTGAAGCTGCTTGCACCGACATTCGGCGGTGTCAACCTTGAAGATATTGCGGCGCCGAACTGCTTCATTATCGAAGAGCGCCTGAAAAAAGAAACAAACATTCCGGTTTTCCACGATGATCAGCACGGCACTGCCATCGTAACCGTTGCCGGACTTGTAAACGCGCTGAAATTATCAGGAAAATCCATGTCATCCATTAAAGTTGTGGCAAACGGAGCGGGAGCGGCAGGCATCGCGATTATCAAGCTTCTTTACCATTTCGGCGTACGCGACATCGTAATGTGCGACTCTAAAGGGGCGATTTACGAAGGGCGTCCGGCCGGCATGAACGCAGTGAAAAACGAAGTGGCGAAGTTTACAAACCAAGACCGCAACGACGGTTCGCTGCAGGATGTCATTAAAGATGCAGACGTCTTTATCGGCGTATCAGTCGAAGGCGCGCTGACGAAAGAAATGGTGGAAAGCATGGCGAAAGATCCGATTATCTTCGCAATGGCCAACCCGAATCCGGAAATCATGCCTGAAGACGCGCGCGCAGCCGGCGCAAGCGTAATCGGAACAGGCCGTTCTGATTTCCCGAACCAGGTCAACAACGTTCTGGCATTCCCTGGAATTTTCCGCGGGGCGCTTGACGTTCGCGCGACTCACATCAACGAAGAAATGAAAATTGCTGCGGTTGAAGCGATTGCTTCCCTCGTTTCAGAGGAAGAATTAAGCGCTGATTATGTCATCCCGGCTCCATTTGACAAACGTGTGGCTCCTGCCGTTGCGAAAGCTGTTGCGAAAGCAGCGATGGAAACGGGCGTCGCCAGAATTACGGTCGATCCTGAGGAAGTGGCTGAAAAAACAAGACAGCTCACAGTCATCGGCGAATAA	MSLREEALHLHKVNQGKLESKAKVEVRNADDLSLAYSPGVAEPCKEIYDDKNKVYDYTMKGNMVAVVTDGSAVLGLGNIGPEASLPVMEGKAVLFKSFAGVDAFPIALDTNDVDKIIDTVKLLAPTFGGVNLEDIAAPNCFIIEERLKKETNIPVFHDDQHGTAIVTVAGLVNALKLSGKSMSSIKVVANGAGAAGIAIIKLLYHFGVRDIVMCDSKGAIYEGRPAGMNAVKNEVAKFTNQDRNDGSLQDVIKDADVFIGVSVEGALTKEMVESMAKDPIIFAMANPNPEIMPEDARAAGASVIGTGRSDFPNQVNNVLAFPGIFRGALDVRATHINEEMKIAAVEAIASLVSEEELSADYVIPAPFDKRVAPAVAKAVAKAAMETGVARITVDPEEVAEKTRQLTVIGE	PGPT0001350_2383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001350-maeA|sfcA|ywkA-K00027	NA	NA
D1-12_01928	3339	dnaE	COG0587	DNA polymerase III subunit alpha	TTGTCTTTTGTTCACCTGCAAGTACATAGCGGCTACAGCCTGTTAAACAGCGCCGCTTCTGTAAAAGAGCTTGTTGCACAAGCGAAGGAACTCGGATATTCATCATTGGCGCTGACGGACGAAAATGTGATGTACGGCGCCATTGAGTTTTATAAAGCATGCAAATCAAACGGAATTAAGCCGATTATCGGTCTGACGGCTTCTATATACACGGACGATACGGAGCTTGAAGCACACCCGCTCATTCTTTTAGCGGAGACAAACACCGGTTATCAGAACCTGGTGAAAATCTCAAGTGCGCTGCAATCCATGGCAAAGGGCGGCATGAAGCGAAAATGGATGAAGAGCTATCATGAGGGGCTGATCGCCATTACGCCCGGTGAAAACGGGTACATTGAAAGCCTGCTTCAAGCCGGGAAGTTTGAAGAAGCGGTCCGGGCTGCCGAAGGATTCCGGGAGCTGTTCGGAGACGGCCGTTTTTATTTAGGGTACCAGCCGTTTAAAGGACATGAGACATTATCAGAAGAGATTCTCCGCCTGTCAGCCGAAACGGAAATCGCTGTCTGCGCTGCGGGGGATGTCCATTATATCAAGAAAGAAGATCAAGATGCGTACCGCTGTCTGTGCGCTATTAAAGCCGGAGAGAAATGGGAGGATCAGAGCGGGAATCTGCCGGACTTATACTTGAGGACGCCTGAAGAAATGGCAGAGTTTTACACGCGGCATCCGGAAGCGATTGAAGCAGCCGCGCGTATCGCCCGGCAATGCCGGGTCGATGTCAGCCTCGGACAGACACAGCTTCCGTCTTTTCCGGCGCCGGACGGCAAATCAGCCGATGACTATTTGGCGGAGATCTGTCATGAGGGGCTGCGCCTCCGTTTCGGGACTCCTGATGAGCGCGCTGTCCGCCGGCTTGAATATGAGCTGGACGTCATCAGGCGCATGAAATTCAGTGATTATTTTCTCATCGTATGGGACTTTATGAAGTATGCGCATGAAAAGGGCATTGTGACAGGTCCGGGAAGAGGGTCCGCGGCAGGCTCGCTTGTCGCTTACTCCCTTTTCATTACCGACGTGGATCCGCTTAAACATTCTCTGCTGTTTGAGAGGTTTCTTAATCCCGAGCGGATCAGCATGCCGGATATTGATATCGATTTCCCTGATACGAGAAGGGATGAGGTCATTCAGTATGTACAAAATAAGTACGGGGCCATGCACGTCGCCCAGATTATCACCTTCGGGACATTGGCCGCCAAGGCGGCGTTAAGGGATACCGGGAGAGTGTTCGGAATCAGCCCGAAAGAAGCCGACCAGCTTGCCCGCCTGATTCCGTCAAAACCGGGAATGACGCTTGAGGAGGCGAGGCGGCAGTCCGCTCAGCTGAACAGGCGGCTGTCCGAATCCGCCGTTCTTCATAAAGTGTTTCAGATCGCAAGGAAAATTGAAGGTCTTCCGCGGCACACGTCAACACACGCGGCGGGGGTCGTTCTCAGTAAAGAGCCGCTTTCTGAAGTTGTCCCTCTTCAAGAAGGGCATGACGGCGTGTATTTAACGCAGTATGCGATGGATCATCTGGAAGATCTCGGTCTTTTAAAAATGGACTTTTTAGGTTTGCGCAACCTGACGCTTATTGAATCCATTAAAACGATGATTGAAAAAGAGACGAATACGAAAATTGATTTTTCCGAGATTTCTTATCAGGATGAAAAAACATTCTCGCTATTGTCAAACGGTGATACGACGGGTATTTTCCAGCTGGAATCATCAGGGATGAGAAACGTGCTGAAGCGCCTGAAGCCGTCAAGACTGGAAGACATTGTCGCGGTTAACGCGCTTTACAGGCCGGGACCAATGGAAAATATTCCGTTATTTATCGACCGGAAGCACGGGCGGGCGCGTGTGGAAGTACCGCACGAGGACGTAAGAAATATTCTCAGTGACACTTACGGCGTCATCGTCTATCAAGAACAGATAATGATGATCGCTTCGCGCATGGCAGGGTTTTCATTAGGTGAAGCGGATCTGCTCAGACGGGCTGTCAGCAAAAAGCAAAAGGACATTCTGGACAGAGAGCGAAGCCATTTTGTTGAAGGGTGCTTAAAAAAGGAGTATTCTGTAGTCACTGCAAACGAGGTCTACGATCTGATTGTAAAATTCGCTAACTACGGATTCAACAGAAGCCATGCTGTCGCATACAGCATGATCGGCTATCAGCTCGCCTATTTAAAAGCCCATTATCCGTTATATTTTATGTGCGGGCTGTTGACGAGCGTCATCGGCAATGAGGACAAAATATCGCAATATCTGCATGAAGCGAAGGGGAGCGGGATTCAAGTCCTTCCGCCGTCAATAAACAAAAGCGGTTTTCCGTTTGCGCCGGAAAACGGAGCCGTCAGATACAGTTTGCGGGCCGTTAAAAACGTAGGCGTCTCGGCAGTGAAAGATATTTATAAAGCAAGAACACATAAACCGTTCGAGGATCTTTTCGATTTCTGCTTTCGCGTACCTGCAAAAAGCGTGAATCGGAAAACCATCGAAGCCCTTATATTTTCTGGCGCCATGGACGAATTCAATCAAAATCGCGCAGCCTTGCTGGCCTCCGTTGATGTGGCTTTAGAGCACGCTGAACTTTTTCGTGCAGGTGATGACCAAATGGGATTGTTTTTGGAAGAATCGTTCTCCATTAAGCCAAAATATGTAGAGGCTGAGGAATTTCCGCTCGTGGACAAGCTTCGGTTCGAAAAAGAAGCTCTCGGTGTTTATTTCTCAAGCCATCCTTTGTCTGCTTTCAGGGATCTCCTGAAAAAACGGGGGGCGCAAGCGATCACAGCAGCGCGGCAGATGCCGAAGGGGCAGCTGTCAATCGGCGCTTTGCTCGCGGGCATCAAAACGATTCGGACAAAGACAGGTCAGCATATGGCGTTTCTCACATTAAGCGATGAAACGGGAGAAATGGAAGCCGTCGTGTTTCCTGACCAATATAGAAGGCTGTCTCCGCTGTTAGAAGAAGGCGCGCTTTTATTCGCCGCCGGAAAAATGGAAGAGCGTCAGGAGAAGACACAATTCATCATGTCATCCGCCTCTCTTCTTGAGCAGACGGAGGCAGACAGAGCGCCGTCTGTTTACATCAAAATCGAAGGCAGCCGGCACAATCAGGAGTTTTTGGAAAAGATGAAGCGTATTTTACTGGAGCATAAAGGGGAAACCGGCGTTTATCTTTATTATGAAAAAGACAAGCAGACGATCAGGCTGCCGGATACTTTTCATATTCAGGCGGACCATCAGGCGTTATACCGTTTAAAAGAGCTGCTGGGCCGCGAAAACGTCGTGTTAAAATAG	MSFVHLQVHSGYSLLNSAASVKELVAQAKELGYSSLALTDENVMYGAIEFYKACKSNGIKPIIGLTASIYTDDTELEAHPLILLAETNTGYQNLVKISSALQSMAKGGMKRKWMKSYHEGLIAITPGENGYIESLLQAGKFEEAVRAAEGFRELFGDGRFYLGYQPFKGHETLSEEILRLSAETEIAVCAAGDVHYIKKEDQDAYRCLCAIKAGEKWEDQSGNLPDLYLRTPEEMAEFYTRHPEAIEAAARIARQCRVDVSLGQTQLPSFPAPDGKSADDYLAEICHEGLRLRFGTPDERAVRRLEYELDVIRRMKFSDYFLIVWDFMKYAHEKGIVTGPGRGSAAGSLVAYSLFITDVDPLKHSLLFERFLNPERISMPDIDIDFPDTRRDEVIQYVQNKYGAMHVAQIITFGTLAAKAALRDTGRVFGISPKEADQLARLIPSKPGMTLEEARRQSAQLNRRLSESAVLHKVFQIARKIEGLPRHTSTHAAGVVLSKEPLSEVVPLQEGHDGVYLTQYAMDHLEDLGLLKMDFLGLRNLTLIESIKTMIEKETNTKIDFSEISYQDEKTFSLLSNGDTTGIFQLESSGMRNVLKRLKPSRLEDIVAVNALYRPGPMENIPLFIDRKHGRARVEVPHEDVRNILSDTYGVIVYQEQIMMIASRMAGFSLGEADLLRRAVSKKQKDILDRERSHFVEGCLKKEYSVVTANEVYDLIVKFANYGFNRSHAVAYSMIGYQLAYLKAHYPLYFMCGLLTSVIGNEDKISQYLHEAKGSGIQVLPPSINKSGFPFAPENGAVRYSLRAVKNVGVSAVKDIYKARTHKPFEDLFDFCFRVPAKSVNRKTIEALIFSGAMDEFNQNRAALLASVDVALEHAELFRAGDDQMGLFLEESFSIKPKYVEAEEFPLVDKLRFEKEALGVYFSSHPLSAFRDLLKKRGAQAITAARQMPKGQLSIGALLAGIKTIRTKTGQHMAFLTLSDETGEMEAVVFPDQYRRLSPLLEEGALLFAAGKMEERQEKTQFIMSSASLLEQTEADRAPSVYIKIEGSRHNQEFLEKMKRILLEHKGETGVYLYYEKDKQTIRLPDTFHIQADHQALYRLKELLGRENVVLK				NA	NA	NA	NA	NA
D1-12_01929	342	ytrH		Sporulation membrane protein YtrH	ATGGATCAGGAAGCCGGATTTATGGCGAATTTCATCAGCAGTTATTTTATCGCCCTCGGTGTGTTGCTCGGCGGCGCGCTGATCGGCGGACTCGGAGCTTATTTATCAGGCGAGCCTCCGCTGACGGCGATCACAAAATTGGCGAACAGGCTGAAGATCTGGGCGCTTGTCGCGGCCATCGGGGGAACATTTGACGCGGTATACAGTTTCGAGCGGGGGCTGTGGGAAGGTAACACGCGCGACATCTTCAAACAGCTTCTTTTAATTATTTCAGCAATGGGCGGCGCGCAGACCGGCTGGCTGATTATTTCATGGCTGACCCAGGAGAATATGTCATCATGA	MDQEAGFMANFISSYFIALGVLLGGALIGGLGAYLSGEPPLTAITKLANRLKIWALVAAIGGTFDAVYSFERGLWEGNTRDIFKQLLLIISAMGGAQTGWLIISWLTQENMSS				NA	NA	NA	NA	NA
D1-12_01930	504	ytrI		Sporulation membrane protein YtrI	ATGAGAATTCCCGAGTATTATAAAAAACCGGGATGGCAGCGTTTTTTTGCGGGAATGATGTGCGGAGCCATCGTCAGCTGGCTGTTCTTTCTGTTTACATACGGAACGTTTCAGGAAGAACAGGTGACGTTAATTGAAAAGCAGCGGGAGCACGCGCGGGATTTAAAAAACCAAATCTCCATCTATCAGAAGGATCTTCATAAATTAAATGAGGATAATAAGCAAAGGCTGCTCATCCAAAGTGTTGATGTGAAGCTGATCAATGGGGAAAAATACAGAATCGCCCAGCCTGACAAGATGAAATTTGAGGAACAAGTGAAAGATAATATTTCTGAAGTCATCACAAAGGATATTGAAAGCGTGTATAAAACAAAGGAGCTTTTAAAACGGACGATCGAAAACAAAATATACACCATAAATGAGAAGGAATTTAAAGCTGAAGTAAAGGAACTGACGATTTATACGAGATTGTCTGTCGAAATTCATATTTCTTTTGCGACGTAA	MRIPEYYKKPGWQRFFAGMMCGAIVSWLFFLFTYGTFQEEQVTLIEKQREHARDLKNQISIYQKDLHKLNEDNKQRLLIQSVDVKLINGEKYRIAQPDKMKFEEQVKDNISEVITKDIESVYKTKELLKRTIENKIYTINEKEFKAEVKELTIYTRLSVEIHISFAT				NA	NA	NA	NA	NA
D1-12_01931	192			hypothetical protein	ATGGAGGTTTTTAGTGAACGACGCTTGGCAAAAGATCATGCAGCCCGAATCAGACAAGGCTATTCCGCATATGCAGAAACAAACACACTCGCTTCCCTCATAAAAAAAGAACTCCAAATCTGTAATCTCCGCGTCTACGAAGACCTGACTGAATTCGGCTGCTGGTTCATCCCCGTGACAGATGAACACTAA	MEVFSERRLAKDHAARIRQGYSAYAETNTLASLIKKELQICNLRVYEDLTEFGCWFIPVTDEH				NA	NA	NA	NA	NA
D1-12_01932	942	nrnA	COG0618	Bifunctional oligoribonuclease and PAP phosphatase NrnA	ATGAAATCCGAACTGATCAGAACCATATCATTATATGACACCATTATCTTACATAGACATGTGAGGCCTGACCCGGACGCCTACGGTTCACAGTGCGGCCTTACGGAAATCCTGCGGGAAACGTATCCCGAAAAAAATATTTTTGCCGTCGGACAGCCTGAGCCGTCCTTGTCTTTTTTATATTCCCTCGATGAGGTGGATGACGAAACCTATAAAGATGCTCTTGTCATCGTGTGCGACACCGCAAACCAAGGCAGGGTCGACGATCAGCGCTACCATTCCGGCGCAAAGCTCATGAAAATAGACCACCATCCAAATGAAGATCCGTATGGCGATCTGTTATGGGTCGATACGAATGCAAGCTCCGTAAGCGAAATGATCTATGAGCTGTACCTGGAAGGAAAGCAGCACGGCTGGAAACTGAATACGAAAGCAGCTGAGCTGATCTACGCGGGTATCGTCGGTGATACGGGGCGCTTCTTATTCCCGAACACCACAAAAAAGACATTAAAATACGCGGGAGAGCTCATTGAGTTCCCATTTTCATCGTCAGAGCTGTTCAATCAATTGTATGAAACAAAATTAAATGTGGTGAAGCTTAACGGCTTTATTTATCAAAATGTGTCACTGTCTGAAAACGGCGTCGCTTCCGTTTTCATTAAAAAAGACATTTTGGAGACATATGGAACCACCGCTTCTGAAGCGTCGCAGCTTGTCGGAACACTCGGAAATATTTCGGGTATCCGCGCTTGGGTGTTTTTCGTAGAAGAAGACGATCAAATCAGAGTCCGGTTCCGTTCAAAAGGTCCGGTCATCAACGGAATTGCCCGGAAATACAATGGCGGCGGACATCCGCTTGCGGCCGGCGCATCCATCTTCAGCTGGGATGAAACCGATCAGATTCTTGCTGATCTGGAAGAGATATGTAACGAACACAAGTAG	MKSELIRTISLYDTIILHRHVRPDPDAYGSQCGLTEILRETYPEKNIFAVGQPEPSLSFLYSLDEVDDETYKDALVIVCDTANQGRVDDQRYHSGAKLMKIDHHPNEDPYGDLLWVDTNASSVSEMIYELYLEGKQHGWKLNTKAAELIYAGIVGDTGRFLFPNTTKKTLKYAGELIEFPFSSSELFNQLYETKLNVVKLNGFIYQNVSLSENGVASVFIKKDILETYGTTASEASQLVGTLGNISGIRAWVFFVEEDDQIRVRFRSKGPVINGIARKYNGGGHPLAAGASIFSWDETDQILADLEEICNEHK				NA	NA	NA	NA	NA
D1-12_01933	303			hypothetical protein	ATGCTGGTTTTTGTTTTTCTCATCGGGCTTTCTGCCTGCTTTTACGTGTATTACAAAGTAAAAGGAATCCAGACGAAACGGGCGCTGGAGAAGGAATGTTTTTCGGCTAAATCAAGTATGGCATTAGGCGCGCTGGTGCTTTTGTATGGAGTAAACCAAATGATTCTGTTTCACTCCGTCCTGACCCTGGTCATCGGCGGCGTCTTCATTTTAATCGGAGCAGGCAGCGCATGGGCCGGGTATAGAGCCTATAAGCATTATGAGCCCATCCATGCAAAGGAAGCGGAGAGGGACCACGCATAA	MLVFVFLIGLSACFYVYYKVKGIQTKRALEKECFSAKSSMALGALVLLYGVNQMILFHSVLTLVIGGVFILIGAGSAWAGYRAYKHYEPIHAKEAERDHA				NA	NA	NA	NA	NA
D1-12_01934	1317	IMPDH_1		Inosine-5'-monophosphate dehydrogenase	TTGGCAACAAAGCATGAACAAATCCTATCATACATAGATTCGCTTCCTGTCGGTGAAAAAATTTCGGTCAGAAGAATTGCGAAAGAAATGAAAGTCAGTGAAGGAACGGCTTACAGAGCCATTAAGGAAGCCGAAAACAAAGGATTCGTTTCCACTATTGAACGTGTGGGGACCATCCGGATTGAACAGAAGAAAAAAGAAAATATTGAAAAGCTGACATACGCCGAGGTCGTCAATGTGATAGACGGCCAGGTGCTCGGCGGAAAAGCCGGTCTGCATAAAACGTTGAATAAGTTTGTGATCGGCGCGATGGAGCTTGACGCGATGATGCGTTATACGGCGGCGGGGAACCTGTTGATCGTCGGGAACCGAATCAACGCCCACCGCCAGGCGCTTGAAGCGGGCGCGGCTGTTTTGGTAACGGGAGGGTTTAATACCGACGACAGCATTATCGAGCTGGCCGATATGCTTGAGCTTCCGATTCTCTCTACGAGCTACGATACCTTTACGGTAGCCGCGATGATCAACCGGGCGATCTATGATCAGCTCATAAAAAAAGAGATTGTGCTCGTGGAAGACATATTGACGCCCGCAGATCGGACAGTGACGCTGTCCCCTAAGGATAAGCTGGAGAAATGGTACGAAAAGAACTATGAAACCGGACACGGCCGCTTCCCGGTTATCGATCAGCAGATGAAAATCCACGGAATCCTCACATCGAAAGATATCGCGGGGCATGACCGGTCAGTTCCGATTGAAAAAGTAATGACTAAAAACCCTGTCACGGTGATCGGGAAAACATCTGTCGCCTCAGCGGCTCAAATGATGGTTTGGGAAGGAATTGAAGTGCTTCCGGTGACAGACGGGCATCACAAACTGATCGGAATGATCAGCCGCCAGGATGTCTTAAAAGCGCTTCAAATGGTTCAAAAGCAGCCTCAGGTCGGTGAAAAGCTGGATGATATTGTTTCAAGGGGATTTAAAGAAGAGGAAGATGACAAAACGCCGGCCGTTTATCAATATGAAGTCACGCCGCAAATGACCAATCAGCTCGGCACGATTTCTTACGGGGTGTTTACGACGATTTTAACCCAGGCCGCCAGCCGATTTTTACGCTCCCGCAAACGCGGCGAGCTGGTCATTGAAAGCATTACGATTTTCTTCCTGAAGCCCGTACAGATGGAGTCGGTCATTGAAGTGAAACCGCGCATTTTAGAGGCGGGCCGGAAATTCGGGAAAATGGAAGTGGAAGTGTCAAGCCAAAGCGGCATCGTTTCAAAAGCGATGCTCATGGTGCAGCTGATGGAGAGAAGTTAA	MATKHEQILSYIDSLPVGEKISVRRIAKEMKVSEGTAYRAIKEAENKGFVSTIERVGTIRIEQKKKENIEKLTYAEVVNVIDGQVLGGKAGLHKTLNKFVIGAMELDAMMRYTAAGNLLIVGNRINAHRQALEAGAAVLVTGGFNTDDSIIELADMLELPILSTSYDTFTVAAMINRAIYDQLIKKEIVLVEDILTPADRTVTLSPKDKLEKWYEKNYETGHGRFPVIDQQMKIHGILTSKDIAGHDRSVPIEKVMTKNPVTVIGKTSVASAAQMMVWEGIEVLPVTDGHHKLIGMISRQDVLKALQMVQKQPQVGEKLDDIVSRGFKEEEDDKTPAVYQYEVTPQMTNQLGTISYGVFTTILTQAASRFLRSRKRGELVIESITIFFLKPVQMESVIEVKPRILEAGRKFGKMEVEVSSQSGIVSKAMLMVQLMERS				NA	NA	NA	NA	NA
D1-12_01935	687			hypothetical protein	ATGAAAGTGACTTATCACGGACATTCTGTCATTCAAGTGGAAACGAAAACCCATAACATTATTTTTGATCCGTTTCTGACCGGAAACAGTCTGACGAATTTGAAACCGGAAGAAGTGAAAGCGGATGTCATCCTGCTTACTCACGGACACAATGACCATGTCGGAGATACAGAGCAGATCGCTAAACAAAACGATGCGCTCGTCATTGCGCCGAACGAGCTGGCCGTTTATCTCGGCTTTAAAGGTTTAAAGGTCCACCCGATGCATATCGGCGGGGCGCGCCAATTTGATTTCGGCAAAGTGAAACTGACACAGGCATTCCACGGATCGGCGGTCACTGATGAAGAAAACAAAACCATTACGTACACGGGGATGCCTGCCGGGATTTTATTGACGATTGACGGCAAAACGATTTTCCACGCCGGAGACACGGCGCTGTTCTCAGATATGAAACTGATCGGGGAACTGAATCACATTGACCTGGCGTTTCTGCCGATCGGTGATAACTTCACCATGGGCCCTGAAGATGCAAAACTCGCGGCTGAATGGCTGAGAGCGAAACAGGTCGTTCCCGTTCATTACAATACATTTCCTGTCATTGAACAGGACCCTGACGCTTTCGCCGAAAGTCTGCCCGGAGGCGTCGGCAAAGTCATGGCGGTCGGCGAGACCATTGAGCTTGCCTGA	MKVTYHGHSVIQVETKTHNIIFDPFLTGNSLTNLKPEEVKADVILLTHGHNDHVGDTEQIAKQNDALVIAPNELAVYLGFKGLKVHPMHIGGARQFDFGKVKLTQAFHGSAVTDEENKTITYTGMPAGILLTIDGKTIFHAGDTALFSDMKLIGELNHIDLAFLPIGDNFTMGPEDAKLAAEWLRAKQVVPVHYNTFPVIEQDPDAFAESLPGGVGKVMAVGETIELA				NA	NA	NA	NA	NA
D1-12_01936	768	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	GTGCGACATGCTCTAATCACTGCCGGTACAAAGGGATTGGGCCGAAAAGTGACTGAAATGCTTCTGGAAAAAGGCTTTTCTGTCACAGTGAATTACAGACAGGACGAAGAAGCGGTCGCTTGTCTGAAGGCGGATTATCCCGGGTGCCATGACAGATTGCAATTCGTTAAGGGCGATGTAACCCGGAAAGAAGATCTCATGCGGATCGCCGATGCAGCCCTTCAGCGGTTTGGAAGGATTGACATACTGATTAACAATGCCGGGCCGTACATATTTGAGCGCAAAAAGCTTGCCGATTACTCCGATGACGAATGGTATGGCATGCTTGAAGGGAATTTAAGCGCCGTTTTCCATCTGTTTAAAGCGGTTATCCCGGTCATGAGACAGCAGCGGTTCGGCCGGATTATTACATACGGTTTTCAAGGAGCGGACCATGCCCCCGGCTGGCTTCACCGTTCCGCTTTCGGAGCGGCTAAAGTCGGATTGGCTTCGTTAACGAAAACCATTGCGATTGAAGAAGCTGAATCAGGCATTACGGCCAATATGGTCTGCCCGGGTGATATTGTAGGAGATATGAAAGAAGCGTCTATAGAGGAAGCAAGACGGAAAATCGGCAAAGAAAAGACGCCGATCGGCAGGTCCGGAACCGGAGAGGACATTGCGAGAATCATCGCCTTTTTATGTGAGGAAGATTCCGATCTTGTAACCGGAACGGTCATTGAAGCAACAGGCGGGCTGAATGTGATTAACAGGCATCAATCCCTGTAA	MRHALITAGTKGLGRKVTEMLLEKGFSVTVNYRQDEEAVACLKADYPGCHDRLQFVKGDVTRKEDLMRIADAALQRFGRIDILINNAGPYIFERKKLADYSDDEWYGMLEGNLSAVFHLFKAVIPVMRQQRFGRIITYGFQGADHAPGWLHRSAFGAAKVGLASLTKTIAIEEAESGITANMVCPGDIVGDMKEASIEEARRKIGKEKTPIGRSGTGEDIARIIAFLCEEDSDLVTGTVIEATGGLNVINRHQSL	PGPT0003180_7442	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
D1-12_01937	129			hypothetical protein	ATGCGCAAAGAACAAGACCGTTACATCTATGATGAAAAAGAAAGTGAAGAAACGGCCAGGCTTATCTCAGAGGCATACCAAAGCGGTTATGTCGGCATGGAGGAAGCCTCTGCTCCTTCAGAAAATTAA	MRKEQDRYIYDEKESEETARLISEAYQSGYVGMEEASAPSEN				NA	NA	NA	NA	NA
D1-12_01938	1377	argH	COG0165	Argininosuccinate lyase	ATGAAGAAGCTTTGGGGAGGCCGTTTTCAAAAAACACCGGAAAAGTGGGTCGATGAGTTCGGCGCATCCATCACATTCGACCAAAACTTAGTCAAAGAGGATATTACAGGGTCTCTCGCTCATGCGGCAATGCTGAAAAAATGCGGCATTCTGACGGAAGAAGAAGAAGGCGCCATCCGACAGGGGCTGCAGACCCTCCTGCAAAAAGCAGAAGAAGGAACGCTTGAATTCTCTGTTGATTATGAAGATATCCATTTGAATATTGAAAAAATGCTGATTGAAGAAATCGGACCGCTAGGCGGCAAACTCCATACCGGAAGAAGCCGGAACGACCAGGTGGCGACTGACATGCATCTATATTTGAAAGATCATGTCTCTCATATCATCGTGCTGATTGAACAGTTCCAAAAAGCGCTGATCGAAAAAGCGGAGGCCAATGTCGAGACCATTCTGCCGGGGTACACCCATTTGCAGCGGGCCCAGCCGATTTCTTTCGCCCACCATCTTCTTGCTTATTTTTGGATGCTTGAACGGGATAAAGAGCGTTTTCGGGATGCTATGAAGCGGATTAACATATCGCCGCTCGGATGCGGGGCGCTTGCCGGAACTACGTTTCCGATAGACCGTAACTATTCGGCGGAGCTGCTCGGTTTTGACTCCATTTATGAGAACAGTCTTGACGGAGTCAGTGACAGAGATTTTATTCTCGAGTTTTTAAGCGGCAGCAGCATGCTGATGATGCACCTTTCACGTTTGTCAGAAGAAATCATTCTATGGTGCTCGCAGGAATTCAGATTCATTGAACTGGATGATACGTACGCGACGGGAAGCAGCATGATGCCGCAGAAGAAAAACCCCGACATGGCGGAGCTGATCCGCGGTAAAACCGGACGCGTATACGGTGATATGATGGGTCTTTTCACGATTATGAAAGGGCTCCCGCTCGCTTACAACAAAGACCTGCAGGAAGATAAAGAGGGCATGTTTGACACGGTGAAAACCGTAGAAGGAAGCCTTCAGATTTTCACGGGCATGATTGAAACGATGAAAGTAAACAAAGACATCATGAAACAAGCGACAAAACAAGATTTTTCAAACGCGACGGAACTTGCCGATTATTTAGCTAAAAAAGGCATGCCGTTCAGAGAAGCGCATGAAGTGGTCGGCAAGCTTGTGTACAGCTGTATTGAAAAAGGAATCTATTTAAGTGATATGGCATTTGAAGAATTCCTTCAAGCCAGCAGTCTCTTTGAAGAAGATATCTATACAGTGCTCGATCCGCATCATGCGGTTGAAAAAAGAATGAGCGCCGGCGGAACGGGTTTTCAGCAGGTAGAACAGGCGCTCGTAAAAGCAAAAGCCTGCGCCGGTATTTAA	MKKLWGGRFQKTPEKWVDEFGASITFDQNLVKEDITGSLAHAAMLKKCGILTEEEEGAIRQGLQTLLQKAEEGTLEFSVDYEDIHLNIEKMLIEEIGPLGGKLHTGRSRNDQVATDMHLYLKDHVSHIIVLIEQFQKALIEKAEANVETILPGYTHLQRAQPISFAHHLLAYFWMLERDKERFRDAMKRINISPLGCGALAGTTFPIDRNYSAELLGFDSIYENSLDGVSDRDFILEFLSGSSMLMMHLSRLSEEIILWCSQEFRFIELDDTYATGSSMMPQKKNPDMAELIRGKTGRVYGDMMGLFTIMKGLPLAYNKDLQEDKEGMFDTVKTVEGSLQIFTGMIETMKVNKDIMKQATKQDFSNATELADYLAKKGMPFREAHEVVGKLVYSCIEKGIYLSDMAFEEFLQASSLFEEDIYTVLDPHHAVEKRMSAGGTGFQQVEQALVKAKACAGI	PGPT0014242_84	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
D1-12_01939	1212	argG		Argininosuccinate synthase	ATGGCAGAACAAAAAAAGGTTGTATTGGCATACTCAGGAGGTCTTGATACTTCTGTAGCGATAAAATGGCTGCAAGAACAGGGATACGATGTTGTTGCCTGCTGCTTAGATGTAGGGGAAGGAAAGGATTTGGCATTCGTTCAGCAAAAAGCGCTGGAAGTAGGCGCCTTAAATTCCTATGTGATTGATGCGAAAGAAGAATTCGCCCGGGAGTACGCGCTCATTTCTATGCAGGCCCATACAATGTATGAAGGCAAGTATCCGCTCGTATCTGCATTATCCCGTCCGTTAATCGCGAAAAAACTCGTTGAAGTCGCGGAAAAGGAAAACGCGGTGGCCGTAGCGCACGGCTGCACGGGAAAAGGCAATGATCAGGTTCGTTTCGAAGTATCCATTAAATCATTAAATCCTGATCTGGAGGTCATTGCTCCGGTCCGTGAGTGGCAATGGTCGCGTGAAGAAGAAATTGAATATGCCGCAAGCCGGGGCATTCCGATTCCGATCAATCTTGACAGCCCTTATTCCATCGATCAGAACCTATGGGGACGCGCCAATGAATGCGGTATATTAGAAGACCCGTGGGCGGCGCCGCCTGAAGGGGCATATGACCTGACAGCATCTCTTGAAAACACGCCGGACGTTCCGGAAATCATCGAAATCGCATTTGAAGCCGGTGTCCCGGTTTCAATCGACGGCGTAACCTACCCGCTCGCTGATTTAATTCTCAACCTGAACGAGACTGCCGGAAAACACGGCATCGGCCGGATTGACCATGTGGAAAACCGCCTGGTCGGCATTAAGTCCCGTGAAGTTTATGAGTGCCCGGGCGCGATGACTTTGATTACGGCTCACAAAGAGCTTGAGGATCTGACTTTAGTGAAAGAAGTGGCCCATTTCAAACCGGCAATTGAACAAAAACTGTCTGAAATCATCTATAACGGTTTATGGTTCTCGCCGTTAAAAGACGCGCTGCTTGCATTCTTGAAAGAAACTCAAAAACACGTCACCGGCGTCGTGCGCGTCAAGCTGTTTAAAGGCCATGCCATTGTAGAAGGACGTAAGTCGGAATATTCACTCTACGATGAAAAACTTGCGACATATACAAAAGACGATGCGTTTGACCATCATGCGGCAATCGGCTTTATCGAGCTTTGGGGACTGCCGACAAAAGTAAACAGCATTGTGAAAAAGAAGGAGCAGATTGAAGCATGA	MAEQKKVVLAYSGGLDTSVAIKWLQEQGYDVVACCLDVGEGKDLAFVQQKALEVGALNSYVIDAKEEFAREYALISMQAHTMYEGKYPLVSALSRPLIAKKLVEVAEKENAVAVAHGCTGKGNDQVRFEVSIKSLNPDLEVIAPVREWQWSREEEIEYAASRGIPIPINLDSPYSIDQNLWGRANECGILEDPWAAPPEGAYDLTASLENTPDVPEIIEIAFEAGVPVSIDGVTYPLADLILNLNETAGKHGIGRIDHVENRLVGIKSREVYECPGAMTLITAHKELEDLTLVKEVAHFKPAIEQKLSEIIYNGLWFSPLKDALLAFLKETQKHVTGVVRVKLFKGHAIVEGRKSEYSLYDEKLATYTKDDAFDHHAAIGFIELWGLPTKVNSIVKKKEQIEA	PGPT0020130_3611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
D1-12_01940	513	moaB	COG0521	Molybdenum cofactor biosynthesis protein B	ATGAGTGTGCATGAACATAAACAAGAAGCCCCGTCAGCGGTGCGCTGCAAGGTGATTACAGTCAGCGACACGAGAACGAAAGAAACCGACAAAAGCGGGCGCGTCATGATGGACTTCCTCAGGGAAGCGGGATTTGAAACGGTCGCTTATGACATTGTTAAAGATGAAAAAGATGAATTGCAGAAAGCCGTTTTATCCGGCTGTATGGATGAATATACAGATGCGGTGCTGTTAAACGGAGGGACGGGCATTGCCGAAAGGGATGTCACAATTGAAGCGGTCACGCCGCTGTTTTCAAAAGAACTCCCGGGATTCGGCGAGCTGTTCCGCATGCTGAGCTATACGGAGGACATCGGTTCCGCCGCCATTTTGTCCAGAGCGGCAGCGGGTGTGATCCAAAATACCGCAGTCTTCTGCACGCCCGGCTCCTCAGGCGCCGTAAAGCTTGCGATGAGTAAACTGATTATTCCTGAACTGCCCCATGTGCTCCGGGAAATCCGAAAAGATTTATAA	MSVHEHKQEAPSAVRCKVITVSDTRTKETDKSGRVMMDFLREAGFETVAYDIVKDEKDELQKAVLSGCMDEYTDAVLLNGGTGIAERDVTIEAVTPLFSKELPGFGELFRMLSYTEDIGSAAILSRAAAGVIQNTAVFCTPGSSGAVKLAMSKLIIPELPHVLREIRKDL	PGPT0008420_1355	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
D1-12_01941	1188	ackA	COG0282	Acetate kinase	ATGTCTAAAATTATTGCAATTAACGCAGGAAGCTCATCTTTAAAATTTCAGTTATTCGAAATGCCTTCAGAAAAGGTGCTAACAAAAGGTTTAGTAGAACGGATCGGTATCGCCGACAGCGTTTTCACAATCTCTGTTAACGGCGAAAAAAATACAGAAGTGACAGATATTCCGGATCATGCGGTTGCGGTGAAGATGCTGCTTCACAAGCTGACTGAATTCGGTATTATAAAGGATTTAAATGAAATTGACGGAATCGGCCACCGTGTGGTTCACGGCGGAGAAAAATTCAGCGATTCTGTTTTGCTTACGGATGAAACAATCCGTGAGATTGAAGAGATTTCAGAACTTGCGCCGCTTCACAACCCGGCTAACATCGTCGGCATTAAAGCCTTTAAAGAAGTGCTTCCGAATGTGCCTGCGGTTGCAGTGTTTGATACGGCGTTCCACCAAACGATGCCTGAACAATCTTACCTGTACAGCCTACCGTACGAATACTACGAGAAATACGGCATCCGCAAATACGGTTTCCACGGCACTTCTCATAAATACGTGACACAGCGCGCAGCTGAGCTTCTCGGCCGCCCGCTTGAAGATTTGCGTCTGATTTCCTGCCACCTCGGTAACGGCGCAAGTATCGCGGCCGTAGAAGGCGGAAAATCCATTGATACGTCAATGGGCTTCACACCGCTTGCGGGTGTCGCGATGGGAACACGTTCAGGAAACATCGACCCTGCATTGATTCCGTACATTATGGAAAAAACGGATCAGACGGCAGATGAAGTATTAAATACGTTAAATAAAAAGAGCGGACTGCTTGGCGTATCCGGTTTCTCCAGCGACCTCCGCGATATCGTGGAAGCTTCAAAAGAAGGAAACGAAAGAGCGGAAACGGCTCTTGAAGTGTTCGCGAGCAGAATCCATAAATACATCGGTTCTTATGCTGCGAGAATGAGCGGCGTTGACGCGATTATTTTCACTGCGGGTATCGGTGAAAACAGCGTTGAAGTCAGAGAACGCGTGCTTCGCGGCTTAGAATTCATGGGTGTATATTGGGATCCTGCGCTGAACAACGTGCGCGGCGAGGAAGCGTTTATCAGCTACCCTCACTCTCCTGTCAAAGTCATGATCATTCCGACTGACGAAGAGGTCATGATCGCACGCGACGTTGTCCGCCTTGCACAGTAA	MSKIIAINAGSSSLKFQLFEMPSEKVLTKGLVERIGIADSVFTISVNGEKNTEVTDIPDHAVAVKMLLHKLTEFGIIKDLNEIDGIGHRVVHGGEKFSDSVLLTDETIREIEEISELAPLHNPANIVGIKAFKEVLPNVPAVAVFDTAFHQTMPEQSYLYSLPYEYYEKYGIRKYGFHGTSHKYVTQRAAELLGRPLEDLRLISCHLGNGASIAAVEGGKSIDTSMGFTPLAGVAMGTRSGNIDPALIPYIMEKTDQTADEVLNTLNKKSGLLGVSGFSSDLRDIVEASKEGNERAETALEVFASRIHKYIGSYAARMSGVDAIIFTAGIGENSVEVRERVLRGLEFMGVYWDPALNNVRGEEAFISYPHSPVKVMIIPTDEEVMIARDVVRLAQ	PGPT0001360_3171	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
D1-12_01942	987			hypothetical protein	ATGCAACACGACCATGTCGGTCAGATTTATGAACTTTTAGATGAAGCCGCCCAAGTGATAGCAGAAGGCCTTCAGATTTCTTATATTGAGGGGCTTGCGGAAGCGGGAGAAATGTATTTTCTTGAAAAGGCCGACCAGCTTCCGCTTCAGGAAAAGCAAACCGGCGAGCTTAACAGCCTGCTCGCGAAAGCAGACTTCAGAAAATGGGAGCATGAATGGATCCGCAAGGCGTTCCAGCTCGCCATTTTAAAAGGGCTCAAAGATAAGTCCCATCCGAACAGACAGATGACGCCTGATACGATCGGCCTTTTCATCAGTTACCTCGTGAATAAATTTACGGGCGGCCGAAAAGGCCTGACATTGCTGGACCCCGCCTGCGGCACCGGAAATCTTCTGCTGACCGCGGCAAACCAGCTTTCTGACAAAGCGGGAAAAAGTTTCGGCATTGAAATCGACGATGTCCTTCTGAAGATCGCATATGCGCAGGCGAATCTGCAGGAAAAAGAAATGGAGCTGTTCTGCCAGGACAGTCTTCAGCCGTTATTTATCGAACCGGCCGATGCGGTCATCTGCGATTTGCCGGTCGGCTACTATCCGAATGACGAAGGCGCTGAAGCGTATGAGCTGAAAGCGGATGAAGACCACTCATTTGCCCACCACTTATTTATTGAGCAGAGCGTCAAACATACAAAACCGGACGGATACTTATTTTTTATGATTCCGAACCATCTGTTTGACAGCGCGCAAAGCGATAAACTGAAGCGGTTTTTTGCGGAAAAAGTGTATATCAACGCCCTTCTTCAGCTGCCGGCTACTATGTTTAAAGACGAAGCGCAGGCAAAGAGCATTTTAATCTTGCAGAAAAAAGGCGAAGACGCAATGCCGCCGAAACAAGCGCTTTTGGCGAATCTTCCTTCCTTTGCGAACCAGCAGGCGATGCGGGAGATGATGGCAAAATTGGATCAATGGATTCAAAAAGAAAAATAA	MQHDHVGQIYELLDEAAQVIAEGLQISYIEGLAEAGEMYFLEKADQLPLQEKQTGELNSLLAKADFRKWEHEWIRKAFQLAILKGLKDKSHPNRQMTPDTIGLFISYLVNKFTGGRKGLTLLDPACGTGNLLLTAANQLSDKAGKSFGIEIDDVLLKIAYAQANLQEKEMELFCQDSLQPLFIEPADAVICDLPVGYYPNDEGAEAYELKADEDHSFAHHLFIEQSVKHTKPDGYLFFMIPNHLFDSAQSDKLKRFFAEKVYINALLQLPATMFKDEAQAKSILILQKKGEDAMPPKQALLANLPSFANQQAMREMMAKLDQWIQKEK	PGPT0027215_468	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027215-EC_2_1_1_72-K00571	NA	NA
D1-12_01943	504	tpx	COG2077	Thiol peroxidase	ATGGCTGAAATTACATTTAAAGGCGGAGCCGTGACGCTGATCGGACAAGAAGTGAAACCGGGTGACCAAGCTCCTGACTTCACGGTTTTGACAAACGGATTAGAAGAGAAGACATTAGCAGATATGAAAGGGAAAGTAACGATCATATCCGTTATCCCTTCCATCGACACAGGCGTATGTGACGCGCAGACACGCCGCTTCAACGAAGAAGCCGCAAAACTCGGTGATGTGAACGTTTATACAATCAGCGCCGACCTTCCGTTTGCACAAGCGCGCTGGTGCGGAGCGAACGGAATTGATAAAGTTGAAACGTTATCGGATCATAAAGAGATGTCATTTGGTGAAGCATTCGGTGTTCACATCAAAGAACTTCGTCTTTTGGCGCGTTCCGTATTCGTCCTTGATCAGGACGGAAAAGTCGTTTACGCGGAATACGTAAGCGAAGCGACAAACCACCCGAATTATGAAAAGCCTATCGAAGCTGCAAAAGCGTTAATCAAGTAA	MAEITFKGGAVTLIGQEVKPGDQAPDFTVLTNGLEEKTLADMKGKVTIISVIPSIDTGVCDAQTRRFNEEAAKLGDVNVYTISADLPFAQARWCGANGIDKVETLSDHKEMSFGEAFGVHIKELRLLARSVFVLDQDGKVVYAEYVSEATNHPNYEKPIEAAKALIK	PGPT0013105_799	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
D1-12_01944	441	ytfJ	COG3874	putative spore protein YtfJ	ATGGCAGACCATCCCATTCAAGGTTTAATGAAAACCGCTATGGAAAATTTAAAAGAAATGATTGACGTGAATACAATCATCGGCGATCCTGTTGAAACGCCTGACGGCAGCGTAATCTTAACGGTTTCAAAGGTCGGCTTCGGATTTGCGGCGGGCGGAAGCGAGTTTGGAGGAAAACCGGCTGAAAAAAGAACCGATGATGATGAAAGAAAAGAGCAGAAGCTCCCGTTCGGCGGCGGAAGCGGCGGCGGAGTATCCATTACGCCGATTGCGTTTCTGATTGTCGGAACAAACGGCGTGCGTATGCTTCATTTGGACGAAAACACCCATCTGATTGATAAACTGTTAGACTCCGCGCCTCAAACGATTGAACGCATCCAGCATATGTTTAAAAAGAATGAAAAAGGCCGGAACCAAAAAAGAACGGATATCGATTTATAA	MADHPIQGLMKTAMENLKEMIDVNTIIGDPVETPDGSVILTVSKVGFGFAAGGSEFGGKPAEKRTDDDERKEQKLPFGGGSGGGVSITPIAFLIVGTNGVRMLHLDENTHLIDKLLDSAPQTIERIQHMFKKNEKGRNQKRTDIDL	PGPT0024995_191	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA	NA	NA
D1-12_01945	690			hypothetical protein	ATGGGATATGCCGCAGCAGCTGTTATTCTCATTCTCATTTTGTTCTGGCTGCTCATGAGGATGAAAATCCACCTGACTTTCGAATATCTTCACGATAAAGATAACGACAAACTGACGTTTAAACTCTCGGCCTTATACGGGCTGGTCCGTTTTAAAAAAACGCTGCCCGTCATTAAAGTAAACAGCGAAGACGCGTCAATTGATGTCAAACAGGACACGAAATCAGAAATGAAAGGTCAGAAAAAAGAGAAGAAAAAAATCACATATGAAGATGTCAAACAGAGCATTCACAGAATAGAAATGATTCTGCACCAAGTCTTTCAGATGCGCCAAATCGGCGCCTCATTTCTTGCGGGAGTCCGTGTTACGAAGTTTGAATGGGTGACGGTTATCGGAATAAAGGACGCCGCCGTTACGGGAATCGCCGCCGGCGGATTGTGGGCCGTAAAGGGAGCCCTTACGGCGATGCTGTATGATCATCTGCGTTTCATACATAAACCGGTGTGCGAAGTCATTCCGTCTTTTCAAGTGCCTGCATCCAAGACGCATTTGCAGTGTATATTCTTTTTTCGTTTTGGACATCTTATAGGTGCAGCTTTCAAATTGCTCAAATACGGGCGGAACGGACTTTCTATCATACGAAAGAAACAGCCGGTTCCGGTTGCTTCAAAGAATGATTCATCAGTTTAA	MGYAAAAVILILILFWLLMRMKIHLTFEYLHDKDNDKLTFKLSALYGLVRFKKTLPVIKVNSEDASIDVKQDTKSEMKGQKKEKKKITYEDVKQSIHRIEMILHQVFQMRQIGASFLAGVRVTKFEWVTVIGIKDAAVTGIAAGGLWAVKGALTAMLYDHLRFIHKPVCEVIPSFQVPASKTHLQCIFFFRFGHLIGAAFKLLKYGRNGLSIIRKKQPVPVASKNDSSV				NA	NA	NA	NA	NA
D1-12_01946	492			hypothetical protein	ATGGACGCGACTTACGAAGGCTTTCACGGCAAAGAAGGGGAAGCTGAACAACAGAGGGCGCCCGAGCAGGCATATGCGGGCTTTTGGATCAGGTTTTGGGCGTTTCTTCTCGATTGGCTGGTGGTCTGGGGACTAAACCATCTCATCGTTTCACCGATTTTCACGCTGATGAAGCTCCCGGCAACAAGCGGAATGTTTACAATCTCAGCTTATTCCGTCACAACCCTGATCGTCTACCTCGCCTATTTTGTGTTCATGACGAAATGGTTTCATCAGACACTCGGCAAGATGGTCTTCGGGTTAAAGGTCACTTCTTTGACGCCCGGAAAGCCGCTGACTTGGAGCACCGTCATTTTCAGAGAAGCGGTGGGGCGTTATATCGATAAAATCTGGATTCTCTATATCGTCATTGCGTTTACGCCCAAAAAGCAGGGCATTCATGATCTGATCGCCGACACAACGGTGATTCACGAAGCGCTGTACCGCAAATAA	MDATYEGFHGKEGEAEQQRAPEQAYAGFWIRFWAFLLDWLVVWGLNHLIVSPIFTLMKLPATSGMFTISAYSVTTLIVYLAYFVFMTKWFHQTLGKMVFGLKVTSLTPGKPLTWSTVIFREAVGRYIDKIWILYIVIAFTPKKQGIHDLIADTTVIHEALYRK				NA	NA	NA	NA	NA
D1-12_01947	1008	sppA	COG0616	Putative signal peptide peptidase SppA	ATGAATGCAAAAAGATGGATTGCGCTCGTCATCGCGCTCGGCATTTTCGGCGTATCAGTCATTGCAAGTGTGACCGTCGGGGTGCTGAAGAATATCGGAGATACAGGGTCTGACTTTGCATCACTGACAGATGACACAGAGGAAGTGACGCTGGATAAGGGCAGCCCCGGCAGTAAAATCGCCGTGCTTGAAGTGGACGGCACGATTGAGGATAACGGCGGGTCCGCTGGCCTGCTCAGCTCAGGCGGGTATGATCACAGATCATTTTTAAAACAGGTTGAGCGTGCGAAAGAAGACAAAAGCGTCAAAGGAATTGTGCTGAAAATCAATTCCCCTGGCGGAGGCGTGTACGAAAGCGCGGAAATACATAAAAAACTGGAAGAACTAAAGAAAGAAACGAAGAAACCGATTTATGTATCCATGGGCTCCATGGCGGCATCGGGAGGCTACTATATTTCAACGGCAGCCGATAAAATCTATGCTTCACCGGAAACGCTCACGGGTTCACTGGGAGTCATCATGGAAAGCGTCAATTATTCCAAGCTCGCCGATGAACTCGGCATCAAGTTTGAAACCATTAAAAGCGGCGCGCATAAAGACATCATGTCCCCGACCCGCGACATGACGAAGGAAGAAAGAAAGATCATGCAGACAATGGTCAACGATTCTTATGAAGGATTTGTCAATGTCATTTCAAAAGGCCGGCACATGTCAAAAGCGGATGTGAAAAAAATTGCCGACGGCCGTGTTTACGACGGCAGACAAGCGAAAAAGATCGGCCTCGTTGATGAGCTCGGTTTTTACGATGATACGATCAGCGCGATGAAAAAGGATCATAAAAATATGAAAAACGCTTCAGTCATCACATACGAGGAAGGATTCGGATTAGGCTCGCTCTTTTCCATGAGCGCAGCGAAAATGTTTAAAAGCGAAATTGATTTTCTGAATATGAAAGAACTCATTTCGCAATCCGGTTCGCCGCGGATGATGTATCTCTATGCAAAGTAG	MNAKRWIALVIALGIFGVSVIASVTVGVLKNIGDTGSDFASLTDDTEEVTLDKGSPGSKIAVLEVDGTIEDNGGSAGLLSSGGYDHRSFLKQVERAKEDKSVKGIVLKINSPGGGVYESAEIHKKLEELKKETKKPIYVSMGSMAASGGYYISTAADKIYASPETLTGSLGVIMESVNYSKLADELGIKFETIKSGAHKDIMSPTRDMTKEERKIMQTMVNDSYEGFVNVISKGRHMSKADVKKIADGRVYDGRQAKKIGLVDELGFYDDTISAMKKDHKNMKNASVITYEEGFGLGSLFSMSAAKMFKSEIDFLNMKELISQSGSPRMMYLYAK	PGPT0030320_2371	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
D1-12_01948	831	nadK1	COG0061	NAD kinase 1	ATGACAGCAAAGGGGAATGGGGATATGACCGATCTTCGCCGCAATGTTTATTTTTTTCACAAACAAAACAACGAAACAAAAGAACAAGTCAGCTCTTTGAAGCAGCTTGCTGAATCGCACGGTTTTACAGTTGCGGCTCAACCGGAGGATGCCGGAATTATCGCCAGCATCGGCAGCGACGGCTCATTTCTGCAAGCCGTCAGAAAAACCGGATTCCGTGATGACTGCCTGTATGTCGGCATCGCTAAAAAAGGGAAAGCCCATTTGTACTGTGATTTTCACAGCGATGAGCCTGAAAAAATGGCGGCCAGCATGACCGCGGAACAGCTTGAGGTCAGAAAATACCCGCTCATTCACGTAACGGTGGACGGCAGCAATCATTTTCACTGTTTAAACGAGGTTTCCATCCGTTCAAGCATTATTAAAACGTTTGTGATGGATGTGTTAATTGATGATCTTCATTTTGAGACGTTCAGAGGGGACGGGATGATCATTTCCACCCCGACGGGCAGCACCGCCTACAATAAATCTGTTTCAGGCGCCGTTGTTGATCCTTTGATTTCCTGCATGCAGGTATCCGAACTGGCGTCGTTGAACAACAACACATACCGTACACTCGGATCTCCGTTTATTTTAAGCTCAGACCGGAAGCTGACACTGCAGGTGGTGCAAGACGGCAATGAGCATCCGATTATCGGGCTTGACAATGAAGCGCTCAGCACGCGGAATGTCAAAAAGGTTGAGATTAGACTATCCGATAAAAAAATCAAAACGGTGAAACTGAAAGACAACTCTTTCTGGGAAAAAGTAAAACGATCATTTTTATCATAA	MTAKGNGDMTDLRRNVYFFHKQNNETKEQVSSLKQLAESHGFTVAAQPEDAGIIASIGSDGSFLQAVRKTGFRDDCLYVGIAKKGKAHLYCDFHSDEPEKMAASMTAEQLEVRKYPLIHVTVDGSNHFHCLNEVSIRSSIIKTFVMDVLIDDLHFETFRGDGMIISTPTGSTAYNKSVSGAVVDPLISCMQVSELASLNNNTYRTLGSPFILSSDRKLTLQVVQDGNEHPIIGLDNEALSTRNVKKVEIRLSDKKIKTVKLKDNSFWEKVKRSFLS	PGPT0013490_4682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
D1-12_01949	1596	nfdA		N-substituted formamide deformylase	ATGAAAGCGATTTGGCACGGCGGCACCATCTATACAATGCTGGACAAGAATCATGTCACTGAAGCCGTTTATACCGAAGAAGGCGTCGTCAGGCAGACGGGCAGCTTCCGGGAACTCCAAGGAACATACGGTTCGCCTGATACGGAGGAAATCGATTTACATGGAGCTGTCATGTTCCCGGGGTTTACGGACAGTCATATGCATTTAATCGGGCACGGGGAAAAACAGCTTCGCCTCGATTTGTCGCAGCTGACGTCAAAAGAAGCGATACTGCGGGCTGCAAAAGAAGCAGAGCGTGAATTGGAAGATGGCGAATGGCTGATCGGCGAAGGCTGGGATGAAAATCTGTTTGAACGGCCGGTTTACGTCACGAAGCATGACCTTGACCTGCTCTTTCCCGACCGCCCCGTCCTGCTGAAGCGGGTATGCCGGCACGCCGCGGCGGTTAATTCGGCCGCATTGCGCGCGGCGGGAATTACAAACGAAACACCTGATCCATACGGCGGGATTATCGTCCGGGACGGAACCGGTCCGACAGGCCTCCTGCTGGATAAAGCCCAAGAGCTTGTGACACAGGCCCTGCCGCCCGTCTCACTTCACTATGTCAAACGCGCGCTTCAAACGGCGATTACGGACTGCTGGTCAAAAGGCCTGACCGGCGGGCATTCAGAAGATCTGGCATACTACGGAGACGCGTCCATTCCCGTTGCCGCGTACGAGTCGTTAACCGGCAGCGGCCTTTATCCTTTTCGCGCCCATCTGCTCGTACATCACGAAGCCGTCGACAGCTGGAGCGCTCTGGATAAATCGATCGGACCTTATCTGGAATACGGAGCGATGAAAATTTTTGCTGACGGCGCGCTCGGCGGCAGAACCGCTCTATTGAAAAAGCCTTATCACGATGATCCGTCAGTCTCCGGCGTTCAGGTGCATGATGACGAAACCCTTGCCGCTCTTGTTTATAAAGCGAGAGAGAAAGGGATGGAGATTGCCGTGCACGCGATTGGCGACCTTGCATTTGAAAAGGTGCTGGATGTTATCGAAAGATACCCGGCAAAGCCCGGACAGCTAGACAGGCTCATTCATGCGCAAGTATTAGATGACGGATTGATTGAAAGAGCCGCCCGGCTGCCGATCGGACTTGATCTTCAGCCGCATTTTGTGGCCAGTGATTTTCCGTGGGTGATTGACCGGCTCGGAGAAGAGCGGATGAAAACGGCTTTCGCCTGGAAAACACTGCTGTCAAAAGGGCTGCTGTGCGCCGGAGGTTCAGATGCCCCGATTGAGCCGGCCGATCCGCTTCTGGGCATTCAATCGGCTGTGCTCCGTACAAGCAAGCAGCACCCGGAAGGTCCGGCCTATTATGAAAAAGAGTGCCTGACCGTGTACGAAGCCATTCAGCTTTACACGGAGGGAAGCGCGGCCATCATCCATAAAGAACATAGCCGCGGACGGATCGCCCCCGGCTATGATGCCGACTTTACCGTACTCAGCGGTGATCCGTTCATGACGGACCCGAAAAAGCTTCATGAATTGGAAGCGGTCAAAACCGTCGTCGGCGGCCGTATCGTATATGAAAAAGAGGACAGGCGCTGA	MKAIWHGGTIYTMLDKNHVTEAVYTEEGVVRQTGSFRELQGTYGSPDTEEIDLHGAVMFPGFTDSHMHLIGHGEKQLRLDLSQLTSKEAILRAAKEAERELEDGEWLIGEGWDENLFERPVYVTKHDLDLLFPDRPVLLKRVCRHAAAVNSAALRAAGITNETPDPYGGIIVRDGTGPTGLLLDKAQELVTQALPPVSLHYVKRALQTAITDCWSKGLTGGHSEDLAYYGDASIPVAAYESLTGSGLYPFRAHLLVHHEAVDSWSALDKSIGPYLEYGAMKIFADGALGGRTALLKKPYHDDPSVSGVQVHDDETLAALVYKAREKGMEIAVHAIGDLAFEKVLDVIERYPAKPGQLDRLIHAQVLDDGLIERAARLPIGLDLQPHFVASDFPWVIDRLGEERMKTAFAWKTLLSKGLLCAGGSDAPIEPADPLLGIQSAVLRTSKQHPEGPAYYEKECLTVYEAIQLYTEGSAAIIHKEHSRGRIAPGYDADFTVLSGDPFMTDPKKLHELEAVKTVVGGRIVYEKEDRR				NA	NA	NA	NA	NA
D1-12_01950	1587	acsA_1	COG0365	Acetyl-coenzyme A synthetase	GTGTTAAAACGAGAAGATTTAATCGCCCCAAAGAACTATAACCTTGTAAATGAAATCGAAAAGTTCAGCCGTTCCAAAGAGAAGAACGCGCTTATTTGGGAAGATCAAACAGGCGGCAAGAAAGTCTGGACGTATGAAAAATTGATGGAAGAAACGAATAAAATCGGAGCCCGCCTGAAAGGTCTCGGATTTGAAAAAGGCGATAAGCTGATTGTCATGGTTCCGAGAGTGCTTGAAGCGTATGCCGTTTATTTAGCGATCTTAAAAGCGGGGATGGTCGTCATTCCTTGCTCGGAAATGCTGCGCGCCAAAGACCTTGAATACCGGATCAAACACGCCGAAGTGAAAGGCGCTATCGTTTATCCTTCATTTATAAACGCGTTTGACGAGGTGAATACCGGGCAGCTGGTGACATTGTCAATCGGTGAAAATGATGCCGGCTGGAAAAACCTCCTAACGATTGAAGCGGACGGAGACAGTTTTCAAACAGCTGATACAACAAGAGAAGATATGGCGTTTTTGTCCTATACTTCAGGCACGACCGGCCAGCCTAAAGGCGTTGTACATACACACGGCTGGGCCTTTGCCCATTTAAAAACATCAGCCGGTGCATGGCTGGATATTTCTGAAGACGATACAGTGTGGGCCACCGCGGCGCCCGGCTGGCAGAAATGGGTGTGGAGCCCGCTGCTCGCAATTCTGGGAAGCGGCGCGACAGGAGTCATTTATCACGGCAGATTCAACGCCAAGACGTATTTAGAGCTGCTGGAGCGCCATCAAGTAAATGTCTTCTGCTGTACCCCGACGGAATACCGCCTGATGGCAAAAGTGGAGGAGTTGGACAAATATGATCTTTCTGCCCTTCACAGCGCAGTTTCTGCTGGTGAGCCATTAAACCGGGAAGTCATTGACGTATTCCGGAAGCATTTCGGCATTAAAGTGAGAGACGGATACGGCCAAACGGAGAGCACCCTGTTAGTCGGCGTCCTGAAGGACATGGATATTAAGCCGGGAAGCATGGGCAAACCGACCCCTGGAAATCAAGTGGAGATTATAAACGATAAAGGCGAAATATGCGAAACTGGCGAAACGGGCGATATCGCCGTGCATTTGAGCACACCGGCCTTATTCAAGGAATATTATAAAGATCCCGAAAGAACGAAAAAGCAGATTCGCGGAGATTACTTTCTTACAGGAGACCGCGCGAAAAAAGACGAGGACGGCTACTTTTGGTTTGAAAGCCGCAATGATGACATCATCGTCAGCTCCGGATATACAATCGGGCCTTTTGAAGTAGAGGATGCGCTCGTGAAGCATCCGGAAGTGAAAGAATGTGCCGTCGTGGCGAGCCCGGATGAAATCAGAGGTTCAATCGTAAAAGCTTATGTCGTTTTACAAGACGATGAAAAGCGCAGTGACGAACTTGTCAAAGAACTGCAAAACCACGTAAAAACGATTACGGCGCCTTATAAATATCCGAGAGAAATTGAATTTGTCGAAAGCCTGCCGAAAACGGCGTCCGCAAAAATCAGACGTGTGGAGCTGAGACAGCGTGAAGAACGGCTGAAGGCTGATAAAAAAGCATAA	MLKREDLIAPKNYNLVNEIEKFSRSKEKNALIWEDQTGGKKVWTYEKLMEETNKIGARLKGLGFEKGDKLIVMVPRVLEAYAVYLAILKAGMVVIPCSEMLRAKDLEYRIKHAEVKGAIVYPSFINAFDEVNTGQLVTLSIGENDAGWKNLLTIEADGDSFQTADTTREDMAFLSYTSGTTGQPKGVVHTHGWAFAHLKTSAGAWLDISEDDTVWATAAPGWQKWVWSPLLAILGSGATGVIYHGRFNAKTYLELLERHQVNVFCCTPTEYRLMAKVEELDKYDLSALHSAVSAGEPLNREVIDVFRKHFGIKVRDGYGQTESTLLVGVLKDMDIKPGSMGKPTPGNQVEIINDKGEICETGETGDIAVHLSTPALFKEYYKDPERTKKQIRGDYFLTGDRAKKDEDGYFWFESRNDDIIVSSGYTIGPFEVEDALVKHPEVKECAVVASPDEIRGSIVKAYVVLQDDEKRSDELVKELQNHVKTITAPYKYPREIEFVESLPKTASAKIRRVELRQREERLKADKKA	PGPT0002265_7808	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-12_01951	222			Small, acid-soluble spore protein 1	ATGTCACAACAATCAAACAGCGGAAACAGCAACCAGCTTTTAGTGCCAGGCGCTGCTCAAGCTATCGACCAAATGAAGTATGAAATCGCTTCTGAATTCGGTGTAAACCTTGGACCGGAAACAACTTCTCGCGCCAACGGTTCTGTCGGTGGAGAAATCACAAAACGTCTTGTCTCTTTTGCTCAGCAAAGCATGGGCGGAAGCAGCCAGCAGCAGTTTTAA	MSQQSNSGNSNQLLVPGAAQAIDQMKYEIASEFGVNLGPETTSRANGSVGGEITKRLVSFAQQSMGGSSQQQF	PGPT0024860_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024860-SASP_A|sspA-K06418	NA	NA
D1-12_01952	1206	thiI	COG0301	putative tRNA sulfurtransferase	ATGAATTACGATCATATTTTAATCCGTTTTGGTGAAATATCCACAAAAGGAAAAAACAGACGCAGTTTTATTGAAAGATTAAAACAGAATATCCGCCTGGTATTAAAGGATTATAAAAAAGTAAAATACTTTTCAAACCGGGACCGGATGTCAATTACACTTAATGGAGAAAACCCGGAGGAAATTTGTTCCTTATTAAAGAATATATTCGGCATTCAAAGCTTTAGTCTCGCAATTAAATGCGAGAGCAAGCTGGAAGACATTAAAAAAACGGCTTTAGCCGCGATAGAAGGCGAATATAAACCGGGGAATACGTTTAAGGTCGAGACCAAACGGGCTTACAAACAGTTTGAATTAGATACGAATGCGATGAACGCTGAAATCGGCGGCCATATTTTGAAAAACACGGATGGATTAACCGTCGATGTGAAACATCCCGATATTCCGCTTCGGATTGAAATCAGGGAGGAAGCGACATTCCTGACCATTCGTAACGAAAAAGGCGCCGGAGGCCTTCCTGTCGGTTCCGCGGGTAAAGCGATGCTGATGCTTTCCGGCGGTTTTGACAGTCCGGTCGCCGGTTTTTACGCGATGAAACGGGGATTATCAGTTGAAGCCGTACATTTCTTCAGTCCGCCGTATACGAGTGAACGGGCAAAGCAGAAAGTCATGGATCTCGCGGGGTGCCTCGCGAAGTTCGGCGGCAGTATGACGCTTCATATCGTGCCGTTTACAAAGACGCAGGAACTCATCCAAAAACAAATCCCGGAGAACTATACGATGACGGCGACGCGGCGTCTTATGCTGCAAATCGCGGACAGAATCAGAGAAGAACGAAAAGCGCTCGCGATCATTACGGGAGAAAGCCTCGGGCAGGTAGCGAGCCAGACGCTTGAAAGCATGTATGCGATCAATGCCGTGACGGCAACGCCGGTTTTGCGCCCTTTAATCGGAATGGACAAAACAGAAATCATCGAGAAATCAAAAGAAATCGGCACGTATGAAACAAGCATTCAGCCGTTTGAGGACTGCTGCACCATCTTTACGCCGCCAAGTCCGAAAACACGCCCGAAAAAAGAAAAAATCGAGCACTTCGAAAGCTTTGTTGATTTTGAACCGCTGATTGCAGAGGCCGCTGCCGGCATCGAAACCATCACTGTTTACTCAGAGCAGGAAGCTCACGATAAGTTTGCCGGCCTGTTTTAA	MNYDHILIRFGEISTKGKNRRSFIERLKQNIRLVLKDYKKVKYFSNRDRMSITLNGENPEEICSLLKNIFGIQSFSLAIKCESKLEDIKKTALAAIEGEYKPGNTFKVETKRAYKQFELDTNAMNAEIGGHILKNTDGLTVDVKHPDIPLRIEIREEATFLTIRNEKGAGGLPVGSAGKAMLMLSGGFDSPVAGFYAMKRGLSVEAVHFFSPPYTSERAKQKVMDLAGCLAKFGGSMTLHIVPFTKTQELIQKQIPENYTMTATRRLMLQIADRIREERKALAIITGESLGQVASQTLESMYAINAVTATPVLRPLIGMDKTEIIEKSKEIGTYETSIQPFEDCCTIFTPPSPKTRPKKEKIEHFESFVDFEPLIAEAAAGIETITVYSEQEAHDKFAGLF	PGPT0008940_1384	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
D1-12_01953	1146	iscS_2		Cysteine desulfurase IscS	ATGATATATTTAGACAACAGCTCAACGACCGAGCCGTATGAAGAGGTATTGGATGTGTACAAACAGACGAGCAGCCGGTATTTCGGCAATCCTTCGTCTCTGCACCAGTTAGGAACTGAGACGGAACAGCTCCTTGAAGCGGCCGCTCAGCAAATAAAAAAAACCTTGCGTTTAAAAAATTATGATATTGTATTTACATCAGGCGCGACTGAAGCGAATAACGCTGCGTTAAAGGGAGCAGCCTGGGCAAACATGAGTAAAGGAAGACATATCATTGCTTCGGCGATTGAGCATCCTTCTGTGACGGAGACGCTTGATCAGCTGACAGAGCTGTTCGGCTTTGAAGTCACATATCTTCCGGCCGATCAAAACGGCTTCGTTTCTTTGAAAGACGTCAAATCGGCTATCAGGCCGGATACAATAATCGTCAGCGTCATGCATGTCAATAACGAAGTCGGCTCCATTCAGCCCGTAAAGGAAATCGGCGGGTTTTTGAAGCAGCACCGGAATATTCTGTTTCATGTTGATCATGTGCAGGGCATTCATAAAGTTCCTCTGTCTATAGAAGAAGCGGGCATTGACCTTTGCACCGTTTCAGGGCATAAGTTTCACGGCCTAAAAGGGACCGGAGCGCTTATCGTCAAAAAAGGAACGCGGCTCATTCCGCTTATAACGGGCGGCTCGCAGCAAAAAGGCGTCCGCGCCGGAACGGAACACACGGCAGGCGCCGTTTCCCTTGCGAAAGCGATCAATCTTTCCGCGCGTGACATGAACGAGCGGCTTTCTTCCGTGGAGGCTGCCAAGAATGCGCTCATGGAAAGGCTGAGCGGGACGGACGGGGTCGTCATCAACACCCCCGCCGAAAACAGCGCGCCGCATATCATTAATTTTTCCGTTCCGGGCGTGAAGGCGGAAGTGCTGCTGCATATGCTTGAGGAAAAAGGAATATATGTCTCCACAACCGCGGCATGTTCGGCAAGAGAGCACAAACCGAGCCGTGTTCTTCTGCAAATGAATAAAGGCGAACAGATTGCATCAAGCAGCATAAGAGTCAGCCTGAACTTCAGCCATACGGCTGACATCACGGAGCCGTTTATGGCCGCGCTGGTGCCGGCTGTTCAAAAACTAAAAAAAATGATGAGGTAG	MIYLDNSSTTEPYEEVLDVYKQTSSRYFGNPSSLHQLGTETEQLLEAAAQQIKKTLRLKNYDIVFTSGATEANNAALKGAAWANMSKGRHIIASAIEHPSVTETLDQLTELFGFEVTYLPADQNGFVSLKDVKSAIRPDTIIVSVMHVNNEVGSIQPVKEIGGFLKQHRNILFHVDHVQGIHKVPLSIEEAGIDLCTVSGHKFHGLKGTGALIVKKGTRLIPLITGGSQQKGVRAGTEHTAGAVSLAKAINLSARDMNERLSSVEAAKNALMERLSGTDGVVINTPAENSAPHIINFSVPGVKAEVLLHMLEEKGIYVSTTAACSAREHKPSRVLLQMNKGEQIASSSIRVSLNFSHTADITEPFMAALVPAVQKLKKMMR	PGPT0000065_6065	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
D1-12_01954	1341	brnQ	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGAAACACTCACTACCTGTCAAAGATACCGTTATTATCGGTTTCATGCTTTTCGCACTTTTTTTCGGGGCAGGAAATATGATATATCCCCCGGAGCTCGGGCAAGCGGCGGGGCATAATGTCTGGAAAGCGATGGGCGGTTTCTTACTGACCGGCGTAGGTCTGCCGCTTTTGGGTATTATCGCCATCGCATTAACGGGCAAAGACGCGAAAGGGCTTGCCGATAAAGCTCATCCGGTATTCGGGACTATTTTCACCGTTGTGCTTTATTTATCAATCGGGCCGCTTTTCGCGATTCCGAGAACCGGAACCGTTTCATATGAAATCGGTGCAGTTCCGTTTTTAAGCGGCATTCCGGAAAGATTATCTTTATTTGTTTTCACGTTGATCTTTTTTTCTATTACGTATTATTTAGCTCTTAATCCTTCCAAAATCGTGGACAGAGTCGGAAAGATTTTGACTCCTATTAAATTCGGTATTATTCTAATCATCGTCGTAAAAGCCATTGTCACTCCGATGGGCGGGCTGGGCGCCGTACATCAGGCATATTCCGGAACGCCGGTGTTCAAAGGATTTTTGGAAGGCTATAAAACAATGGACGCGCTCGCCTCAATCGTCTTCGGCGTCGTTGTCGTCAACGCTGTTAAAAGCAGGGGCGTCACCCAGCGTAAAGCGCTCGCCGCCGCTTGTATTAAAGCGGGTCTGATTGCAGCGACAGGTTTGACATTCATTTATTTATCTTTGGCCTATTTGGGAGCGACAAGCACGGACGCTGTGGGGCCGCTCGGCGAAGGCGCAAAGATTTTATCAGCTTCATCTGATTACCTGTTCGGTTCACTGGGAAACATCGTTCTCGGCGCCGCCATCACCGTTGCGTGTTTAACGACAAGCATCGGGCTTGTCACATCTTGCGGTGAATATTTTTCAAAATTGATTCCCGCTTTATCATACAAAATGGTGGTTACGATTGTCACGCTGTTCAGTCTGGCGATTTCAAATTTCGGACTTGCTGAGATTATTGCATTTTCAGTTCCTATTTTATCAGCCATTTACCCGCTGGCGATTGTCATTATCGTCCTTTCCTTTATTGATAAAATCTTTAAGGAAAGACGGGAAGTCTATATCGCCTGCCTGATCGGAACGGGGCTGTTCAGTATCCTGGACGGCTTGAAGGCAGCCGGCATTCCGCTCGGATCATTAGATTCATTCTTAAACGCAAATCTTCCGCTTTACAGCATGGGAATCGGCTGGGTGCTTCCGGGCATTGCCGGAGCGATCATCGGCTGCATTATCACGTTTTTTACCAGCCCGCCCATCGAATTAAATAAAGCAAAATCGTAA	MKHSLPVKDTVIIGFMLFALFFGAGNMIYPPELGQAAGHNVWKAMGGFLLTGVGLPLLGIIAIALTGKDAKGLADKAHPVFGTIFTVVLYLSIGPLFAIPRTGTVSYEIGAVPFLSGIPERLSLFVFTLIFFSITYYLALNPSKIVDRVGKILTPIKFGIILIIVVKAIVTPMGGLGAVHQAYSGTPVFKGFLEGYKTMDALASIVFGVVVVNAVKSRGVTQRKALAAACIKAGLIAATGLTFIYLSLAYLGATSTDAVGPLGEGAKILSASSDYLFGSLGNIVLGAAITVACLTTSIGLVTSCGEYFSKLIPALSYKMVVTIVTLFSLAISNFGLAEIIAFSVPILSAIYPLAIVIIVLSFIDKIFKERREVYIACLIGTGLFSILDGLKAAGIPLGSLDSFLNANLPLYSMGIGWVLPGIAGAIIGCIITFFTSPPIELNKAKS	PGPT0014385_849	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
D1-12_01955	1692	ezrA	COG4477	Septation ring formation regulator EzrA	ATGGAGTTAGTCATCGGATTATTGGTTATACTGCTCGCGCTCTTTGCGGCGGGCTACTTTTTCAGAAAAAAAATTTATACGGAAATTGACCGGCTGGAGTCATGGAAGATTGAAATTTTAAACCGTTCGATAGTGGAAGAAATGTCCAAGATCAAACATCTGAAAATGACCGGAGAGACGGAAGAGTTCTTTGAAAGATGGCGCGAGGAGTGGGATGAAATTGTCACAGCCCATCTGCCGAAAGTAGAAGAGCTCCTTTATGATGCCGAAGAGAACGCCGACAAATACCGGTTTAAAAAAGCGAATCAGGTGCTTGTCCACATCGACGACCTCCTCACTGCAGCTGAATCAAATATAGAAGGCATACTGCGTGAGATCAGCGACCTTGTGACGAGCGAGGAAAAAAGCCGCGGAGAGATTGAACAGGTGCGTGAGCGGTATTCAAAAGCGAGGAAAAACCTTCTGGCGTACAGCCATCTCTACGGAGAGCTTTATAACAGCCTGGAGACGGATCTCGACGAAATCTGGAGCGGCATAAAAGAGTTCGAAGAAGAGACGGAAAGCGGCAATTACATCAAAGCGAGAAAAGTGCTGCTTGAACAGGACCGCAGACTGGATCAGCTTCAGACATACATAGATGACGTTCCGAAACTGCTTGCGGACTGTAAACAGACCGTGCCGAACCAAATTGCCAAGCTGAAAGACGGCTACCGGGAAATGACGGAAAAAGGCTACAAATTGGAGCATATTCAAATCGAAAAAGAGCTGGATACACTCACAAATCAATTGAAACGGGCCGAAAACGCGCTTTTGGAAGAATTGGATGTCGACGAAGCGTCCGCCATTCTTCAGCTGATTGATGAAACCATTCAATCGATGTATGACCAGCTGGAAGGCGAAGTGGAAGCCGGACAGTCCGTATTAAGCAAAATGCCTGAGCTGATCATCGCGTATGAAAAGCTTGAGGAAGAAAAAGACCGCACAAAAACCGAAACGGAGCTCGTCAAGGAAAGCTATCAGCTGACGGCGGGTGAAATCGGCAGACAGCATGCCTTCGAAAAACAGCTGGAAACGATCGGCCGGCTCCTTGAGCAGGCGAGAGAAAAGCTTGACGGTGAGCATGTCGCTTACTCGCTGCTGATTGAAGAAGTCGAGGCCATTGAAAAGCAGATGGAAGAGGCTCAGAAAGAACATGCCGAATACCGTGAAAATCTGCAGGCGCTCAGAAAAGAAGAACTGCAGGCGCGGGAAACGCTGATGCATCTTCGGAAAACCATTTCTGACACGGCCCGAATGCTGCAAAAAAGCAACGTGCCGGGAATTCCTGAACAAGTCAAGGACAAGCTCGAGACGGCAAATCATCATATAGAAGAAACCGTCAGCCAATTGGAAGTGCTGCCGCTGAATATGGAGGAAGCCGCCAAACATCTGACCGAAGCCGAAAAGGTGGTTGAGGAAGTCAGCGAAGAGGCGGAAGATCTTGTGATTCAGGTGAAGCTGATTGAGCGGATCATCCAGTACGGCAACCGCTTCCGAAGCCAGAATCATATTTTATCCGAACAGCTGAAAGAAGCGGAACGGCTGTTTTACGCTTACAGCTATAATGAAGCTTATGAGATGGCGGCAGATGCTGTTGAAAAAGCAGCTCCCGGTGCCGTGAAAAAAATTAAAGCTGATCAATCTGCTTCATAG	MELVIGLLVILLALFAAGYFFRKKIYTEIDRLESWKIEILNRSIVEEMSKIKHLKMTGETEEFFERWREEWDEIVTAHLPKVEELLYDAEENADKYRFKKANQVLVHIDDLLTAAESNIEGILREISDLVTSEEKSRGEIEQVRERYSKARKNLLAYSHLYGELYNSLETDLDEIWSGIKEFEEETESGNYIKARKVLLEQDRRLDQLQTYIDDVPKLLADCKQTVPNQIAKLKDGYREMTEKGYKLEHIQIEKELDTLTNQLKRAENALLEELDVDEASAILQLIDETIQSMYDQLEGEVEAGQSVLSKMPELIIAYEKLEEEKDRTKTETELVKESYQLTAGEIGRQHAFEKQLETIGRLLEQAREKLDGEHVAYSLLIEEVEAIEKQMEEAQKEHAEYRENLQALRKEELQARETLMHLRKTISDTARMLQKSNVPGIPEQVKDKLETANHHIEETVSQLEVLPLNMEEAAKHLTEAEKVVEEVSEEAEDLVIQVKLIERIIQYGNRFRSQNHILSEQLKEAERLFYAYSYNEAYEMAADAVEKAAPGAVKKIKADQSAS				NA	NA	NA	NA	NA
D1-12_01956	813	hisK	COG1387	Histidinol-phosphatase	ATGGAAAAACAAGACGCTCATATCCACACGCCTTTTTGCCCTCACGGCTCGAAGGATGCGCTGAAACAATATGTCGAAAAGGCCCTGGAAAGAGGCTTTGACTCGATCACATTTACAGAGCACGCCCCCCTTCCTCCGTCATTTCAAGATCCCGTACCGCTTCAGGACAGCGCGATGGATCTCAGACAGATGGAGGTTTATTTGGAGCGGCTGTCACAGCTGAAAAAGGAATACGATGGACAAATCAGCATTCTGACTGGGCTAGAAACCGATTTTATCACAGGGTATGAAGAGGAAACCGCGGCGTTTCTGAACACGTACGGCCCCTCACTGGATGACGGCATTTTATCCGTTCATTTTTTGAAGACCGGCCCGTCTTATATATGCCTCGATTTTGACGAGCACGCCTTTCAGCAGCTTGCCGACCGCTTCGGAAGCGTTGAAGCCGTATATGAACAATACTATGAAACTGTGTATTCTTCCATTGTAACACCGCTCGGCCCCTTTAAGCCAAAACGGGTCGGCCATATCACGCTCGTCAAAAAATTCGCGCGCCTTTTCCCTTACAGCATGTCACCTCAAATAAGAGAGCTTGCGGCCCGCTGTCTTGACGCCGTGAAAGAACACGGAATGGAGCTGGATGTGAATACATCCGGGCTCAGAAAGAAGTTTGCCGGGGAAGTATACATGGAGGATTGGATGGCTGAGACGGCGAAGCAAAAAAAAATCCCGCTCATATTCGGGTCGGACGCCCATCAAGCGGAAGATGTCGGCAGTTCCTATGAAACGTACAAAAGCATCATTACTTCATAA	MEKQDAHIHTPFCPHGSKDALKQYVEKALERGFDSITFTEHAPLPPSFQDPVPLQDSAMDLRQMEVYLERLSQLKKEYDGQISILTGLETDFITGYEEETAAFLNTYGPSLDDGILSVHFLKTGPSYICLDFDEHAFQQLADRFGSVEAVYEQYYETVYSSIVTPLGPFKPKRVGHITLVKKFARLFPYSMSPQIRELAARCLDAVKEHGMELDVNTSGLRKKFAGEVYMEDWMAETAKQKKIPLIFGSDAHQAEDVGSSYETYKSIITS				NA	NA	NA	NA	NA
D1-12_01957	624	yttP		putative HTH-type transcriptional regulator YttP	ATGAAAGTAAGCACCAAAGACAAAATTATTAACGCCGCTGTCCAGCTGTTTAACCAAAAAGGTTATTCCGGCACGTCCGTCCGTGAAATCGCAAAGTCAGCTGATGTAAATGTTGCGCACATCTCCTACTATTTTAAAGGGAAAGGCGGATTAATGGAACATTTAGTTTCCGAGTTTTACGAAGGCTATACTGAAGCGCTGGAAAAAGCCGCCGTCAGTATGAACGGTGAAGACGCGCAGGAACGCATCCTGCGGGTGATTTTCGATATTTTATCCTATCAGCACGATAACCGTCAATTAACGCGGTTTGTGTACCGGGAAGTGACGATTGATTCCGTGCTTATCAGGGAAATTATGTCTACTTACTTAATGAAAGAAAAATATATTTTCCAGCTGGTGATTGAAGAAGGGCAGTCACGCCACAGACGGCTGACGCTGCCCGTGCCGCATTTTATTCTGCAGTTGAAATCCCTCTTGATGATGCCGTATCTTCAGCCTCAATACATTACGGAGGTGCTCTATATGCAGCCTCATGAACCGTACTTTTATAAAAGGTATTTTGAAGAGGTGAAGATCTGGATCGAAAGCGTGTTCCGACGGCCTGATGCGGCGCTTATGAAGTAA	MKVSTKDKIINAAVQLFNQKGYSGTSVREIAKSADVNVAHISYYFKGKGGLMEHLVSEFYEGYTEALEKAAVSMNGEDAQERILRVIFDILSYQHDNRQLTRFVYREVTIDSVLIREIMSTYLMKEKYIFQLVIEEGQSRHRRLTLPVPHFILQLKSLLMMPYLQPQYITEVLYMQPHEPYFYKRYFEEVKIWIESVFRRPDAALMK	PGPT0029255_873	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029255-cecR|ybiH-K23777	NA	NA
D1-12_01958	483	msrC	COG1956	Free methionine-R-sulfoxide reductase	ATGTTTCATGTCGAAAAACAATCCGGAGATAAAGAAAAAAGTTATCAGCTTCTGCTTAAACAGCTCGAAGCCATGACAGAAGATGAAACGGATGCGATCGCAAATTACGCGAATGCATCAGCGCTTTTATACCATTCATTACATGAAGTCAACTGGGCGGGGTTTTACTTTGCGAAAGAGGGCGAGCTCGTGCTCGGACCGTTTCAAGGACTTCCTGCCTGTGTGCGCATCCCGTTCGGCAGAGGCGTATGCGGCACTGCCTACTCTAACGGCGCCGTGCAGCGGATTGCCGATGTGAATGCGTTCCCGGGACATATCGCCTGTGACGCGGCTTCCCAGTCAGAAATCGTCCTCCCGATCCGCGTAAACGGTGAAGTGATCGGTGTGCTGGACATTGACAGCCCTGTGAAAAACCGTTTTGATGAAACGGACGAAGCCTATTTAGCAAAGTTTGTTGAAACGCTTGAAAAACGATTAGGATAA	MFHVEKQSGDKEKSYQLLLKQLEAMTEDETDAIANYANASALLYHSLHEVNWAGFYFAKEGELVLGPFQGLPACVRIPFGRGVCGTAYSNGAVQRIADVNAFPGHIACDAASQSEIVLPIRVNGEVIGVLDIDSPVKNRFDETDEAYLAKFVETLEKRLG				NA	NA	NA	NA	NA
D1-12_01959	1749			hypothetical protein	ATGAAAAAACAAACAATTGATGAAGTGACGGCCTTTCATCAGAAAATGCTTTCTTTTTTCTTAACGAAATCTGAATCCGTCTCATTATCCGACTCGCTGTTATGGCTGGCCTCAGCTCTAGAATCCTGCTTTACATCTCTTTCATTGACCCTTTCACCGGCAGAATCAACACGTTTCACCATAAAAACAGAAGATGAACCGCATTATGCTCCGCTGAAAGAGAGCGACGGCCGTTTTATGATCAGGAATCAGACGTCCGGCAGATCCTTTTATCTGCGCTCGGAAGGCGGGCTGCCGATCCCGGAATCATTGCCTGAGATCGTTACTCAGTTTATCAATCAATCTGTGAGACAAAGCGGGCTGTTTGACAAAACGAAGCATCAGCGGAAAATTCACAGAATGACAGAAATGTTCCATTCGCTTTTGGATCAAAATGAGGTTTTGGAAAAACTGCAGGCAAGTTTGAGTACGGCTTTCCGGTCTTTCCGCTTTTCACTGTTTATCACGCAGGATCAGGATACGGACAGACAGCTTCCCGCAAAAGAATTACATATGGATGGAAAAGATGCCGATCCGTCTGCCCTGAAGGTTTATTTATCGGGGAGACTGCTCAGAAAAGGCAGGTCATCTGCTTACCTGCCGATCAAAGGCCAGCAGGGGACTTACGGGGTTCTGAAGACGGAGGGGCTGCAGGATGCCGTTCTTTCGTGCAGTACTCTCAGTGAAATGCTGCTGCTTGCGGGCGCAGCGGGAAAAGCATTTGAAAATGCGCAGCTCTATGAGCAATCGAAAAAAAGCATTGCGAATCTGGAGCTCATTAATGAAACATCGCGCCAGCTGAATCAGCGCCTCAGACTCACTGACACGATGCGGGAACTCGCCGCCATTATGACCCAATCATTTCATGCGGAAGAAGTGGCTTTTTTTCATATTGATCATTTTGAGACGCAAAATCTGCTTCCGGGACATACCGCTTTTTTTAAGACAGAACGTGCGAACCCCTATATCAGCATTGTGAAAGAAAAGCTGTTCGAGGGAGAAAAGGGCGTGTTTATCGGCAGCGGAAAGACTGTATTCGGCGAAAATGGCTTCGGCTCGCTGATGGCGGTGCCGATGATCGAAAATGACACCGTCTTCGGGTTCGCGATTTTATTGAAAAAGGATTTGTATGCTTTTACGTTTGAAATGTATAAGCTTTTTCAAGCGCTCATTCACCATGCGACATTGGCGGTCACGAACTCCATGCTGCGCGACAGGCTTGAGCATCTTGTTCAGACAGACCAGCTGACGGAGCTGTATTCAAGAACCTATTTGGATGAGAAAATTCAATACAGCATGAAAATTCATAAACGGGGTGTATTCATCCTCGTTGATATCGATAATTTCAAAACCATTAATGATACATACGGTCATCAAACGGGAGATTCGATCCTGATTCAGGTGGCCTCCGTTATGAAAAACCATATTCGTGAGCACGATGTCGCTGCAAGGTGGGGGGGCGAGGAGCTGGCTGTCTATCTGCCGAATATCAACGTGTCATCCGGAGAACGCATCGCTAAAAGGCTTGTTCGCGCCATCCGGGAAAACACCGAGCCGCGCGTGACGATTTCCTGCGGCGTTTCCTGCTGGTCAAAGACAGGCCCGATGCCGTTGAAAATGCTCGTTCAGCAAGCGGACGAGGCGCTTTATATCGCCAAACGGAACGGCAAAAACCGGCTGATCATCCATCAAAACAGCACGACGACATAA	MKKQTIDEVTAFHQKMLSFFLTKSESVSLSDSLLWLASALESCFTSLSLTLSPAESTRFTIKTEDEPHYAPLKESDGRFMIRNQTSGRSFYLRSEGGLPIPESLPEIVTQFINQSVRQSGLFDKTKHQRKIHRMTEMFHSLLDQNEVLEKLQASLSTAFRSFRFSLFITQDQDTDRQLPAKELHMDGKDADPSALKVYLSGRLLRKGRSSAYLPIKGQQGTYGVLKTEGLQDAVLSCSTLSEMLLLAGAAGKAFENAQLYEQSKKSIANLELINETSRQLNQRLRLTDTMRELAAIMTQSFHAEEVAFFHIDHFETQNLLPGHTAFFKTERANPYISIVKEKLFEGEKGVFIGSGKTVFGENGFGSLMAVPMIENDTVFGFAILLKKDLYAFTFEMYKLFQALIHHATLAVTNSMLRDRLEHLVQTDQLTELYSRTYLDEKIQYSMKIHKRGVFILVDIDNFKTINDTYGHQTGDSILIQVASVMKNHIREHDVAARWGGEELAVYLPNINVSSGERIAKRLVRAIRENTEPRVTISCGVSCWSKTGPMPLKMLVQQADEALYIAKRNGKNRLIIHQNSTTT	PGPT0015900_220	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
D1-12_01960	603	rpsD	COG0522	30S ribosomal protein S4	ATGGCTCGCTATACAGGTCCATCTTGGAAACTGTCTCGCCGTTTAGGAATCTCTCTTAGCGGTACAGGTAAAGAATTAGAAAAACGCCCTTACGCACCAGGTCCCCACGGTCCGGGACAGCGTAAAAAACTATCAGAATACGGTTTGCAATTGCAAGAAAAGCAAAAACTTCGTCACATGTACGGTGTAAACGAACGTCAATTCCGCACATTGTTTGACAAAGCTGCAAAAATGACTGGTAAACACGGCGAAAACTTCATGATTCTTTTAGATGCACGTCTTGATAACGTTGTGTACAAGCTCGGTCTTGCACGCACTCGCCGTCAAGCACGCCAATTAGTTAACCACGGTCACATCCTTGTTGACGGAAGCCGCGTTGACATTCCGTCTTACCAAGTAAAACCTGGTCAAACAATCGGTGTTCGCGAAAAATCAAGAAACCTTTCTATCATCAAAGAATCTGTAGAAGTAAACAACTTCGTTCCTGAGTACCTTACTTTCGACGCTGAAAAGCTTGAAGGTACATTCACTCGTCTTCCAGAGCGCTCTGAGCTTGCTCCGGAAATTAACGAAGCGCTTATCGTTGAGTTCTACTCTCGTTAA	MARYTGPSWKLSRRLGISLSGTGKELEKRPYAPGPHGPGQRKKLSEYGLQLQEKQKLRHMYGVNERQFRTLFDKAAKMTGKHGENFMILLDARLDNVVYKLGLARTRRQARQLVNHGHILVDGSRVDIPSYQVKPGQTIGVREKSRNLSIIKESVEVNNFVPEYLTFDAEKLEGTFTRLPERSELAPEINEALIVEFYSR				NA	NA	NA	NA	NA
D1-12_01961	1371	aldH1	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	ATGAACAGCATCCCCTCTATCGTCAGCAAGCACAAAGCCTATTTTGCGGCGGGGCATACGAGACAGCTAGAATCGAGACTGAACATGCTGCAAAAGCTGAAACAAGCCATCAAAACACAAGAAGCCGATATAACAGCCGCTCTCTATCAGGATCTCCACAAATCCGAACAGGAGTCGTACACAACAGAAATCGGAATTGTACTGGAGGAAATCAGTTTTGTGATGAAGCGGCTGGGAAAATGGATCAAACCGAAACGAGTCAAAACGCCTCTGACTCACCTAGGCTCCAAGAGCATCATCATCCCTGAGCCGTATGGAACCGTTTTGGTGATTGCGCCTTGGAATTATCCCTTGCAGCTGGCGCTTTCACCCTTGATTGGAGCCATTGCGGCCGGAAACACAGTCGTTCTTAAACCGTCAGAATACACGCCGGCGGTTTCCGCTGTTCTTTCCAAACTCATCAGCAGCGTTTTTCCGAGTGACTATGCCGCTATGGCGGAGGGCGGACCCGACGTCAGCACTGTGTTATTACAGCAGTCCTTTGACTATATTTTCTTCACAGGAAGCGTTGCCGTGGGAAAAATCGTCATGGAGGCCGCCGCCAAACAATTAATTCCCGTTACCTTGGAGCTCGGCGGCAAAAGTCCCTGCATTGTCCATAAGGATGCTGATATACAGCTTGCCGCCAAACGCCTCGTCTTCGGGAAATTTACAAATGCAGGGCAAACCTGCATCGCACCGGATTATTTATTTGTCCACCAAGATATCAAAACGAAGCTCACAGAAGAAATGAAGCGTGCGATCAGCGAATTTTACGGCCCTCAGCCTGAACAAAATCCGCAGTACGGCAAAATCGTCAGTGAACGCCACTATCAGCGGCTGCTCAGCTTTCTGCATGATGGCATCCCGCTCACAGGCGGACAATCTGATCCCGCTCATCATAAAATTGCGCCGACCATTCTCGAACAAGTGAGGGATGACTCTCCAGTGATGCAGGAGGAGATTTTCGGGCCGATTCTTCCGCTCTTTACATACCGTGATATCGGGGAAGTCATTGAGAAAGTCCAATCGCGCCCAAAGCCGCTCGCCCTGTATCTCTTCACCACAAACAAAGAAACTGAGCGCGCTGTTTTAGAGAACCTGTCGTTTGGCGGAGGCTGTGTCAATGATACGTTAATGCACGTCGCGACACCGTATTTGCCATTCGGCGGCGTCGGGGAAAGCGGCATCGGCAGCTATCACGGATTTGACAGCTTTAACACGTTTACGCACAAAAAAAGCGTCGTCAAACAAACGAACCGCTTCGACTTCGCTTTCCGTTATCCTTCTTCCAAAAACGGGCTGCGAATGATTAGGAAAATACTTAAATAA	MNSIPSIVSKHKAYFAAGHTRQLESRLNMLQKLKQAIKTQEADITAALYQDLHKSEQESYTTEIGIVLEEISFVMKRLGKWIKPKRVKTPLTHLGSKSIIIPEPYGTVLVIAPWNYPLQLALSPLIGAIAAGNTVVLKPSEYTPAVSAVLSKLISSVFPSDYAAMAEGGPDVSTVLLQQSFDYIFFTGSVAVGKIVMEAAAKQLIPVTLELGGKSPCIVHKDADIQLAAKRLVFGKFTNAGQTCIAPDYLFVHQDIKTKLTEEMKRAISEFYGPQPEQNPQYGKIVSERHYQRLLSFLHDGIPLTGGQSDPAHHKIAPTILEQVRDDSPVMQEEIFGPILPLFTYRDIGEVIEKVQSRPKPLALYLFTTNKETERAVLENLSFGGGCVNDTLMHVATPYLPFGGVGESGIGSYHGFDSFNTFTHKKSVVKQTNRFDFAFRYPSSKNGLRMIRKILK	PGPT0006875_9694	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-12_01962	558			hypothetical protein	ATGGCAGTTTTTGTTGAAAAAACGCTCCAAGGTCTAAAAGAATTAATTGATGAAAAAGGCCGCTTAAAAATTTTAGGGAATGAAGGAACTCTTTTAGAAACAGAATGTACTTTTTCTAAAGGTGCAACAGATCTGGAGATTGAGAGTTTTGAGAAGAAAATAAAAGTCTCACTTCCTGAAGATTATAAAACCTTTTTAAAATTGCATAACGGAGCCAGAATATTTGATTTGTTGATTTACGGTGAGAATGTAGGTGGGGGGTTGCATATTCTTAATTTAGAAGAGATTGAAAAGTATATGCAAAATGGTTTTTTAAAGCCTCAGTTTATTCCCGTCGCACATCTGTTAGACGGATGTTATTTGTTAATTGACAAAACCAAAATATCCACAGATCCAAACTATTTATGGTTCCACGGATTTGTCGAGTATGAACCAATGCAACTTAATTTTGAGATATTTTTAGATAGGTATATTTTATCTCAGGGATCAAGTTTTTGGGAATGGAATATCTACACTGCTGAGAATTATTATAGGACTCACCAGGGTGATGAGGATTAA	MAVFVEKTLQGLKELIDEKGRLKILGNEGTLLETECTFSKGATDLEIESFEKKIKVSLPEDYKTFLKLHNGARIFDLLIYGENVGGGLHILNLEEIEKYMQNGFLKPQFIPVAHLLDGCYLLIDKTKISTDPNYLWFHGFVEYEPMQLNFEIFLDRYILSQGSSFWEWNIYTAENYYRTHQGDED				NA	NA	NA	NA	NA
D1-12_01963	546			hypothetical protein	GTGGGGAGAAGGAAAAAACGATTATATGAAAGTAACACTTATAGCGGAAAATATGGAAGGGTTTTTCTCCATAATAGAGAATTTTTAGGGAAGGATATTAAAGCAGGTAAATCATATTCAAAGTCGTATTATCCTAAAAAGACAAAGTTTTTTATGTCCCAACATACTTCGATAGCCGGCTGGAAAGGTTCACTTCCTGATACTTCAACTGGAACATTGGCTCCTGCTCTTGCGAATAAAATAGCAATGCTGTATCCAGAGATAATAAATACTCACAGCAAAAAAACAATGCCCTTACCGGCTAAAGCAAATTTCCCGGCTGTACCTGTCGATAAAAGAGCTAAATGGGATAGCAGAACGGATCGAGGTAACTATATAAAGAAGTACATCGACACATACGGTGATCCGAAGTGGAATTGGAGTTCATTCGATATTCACCATGTGCTTCCGCTAAAGTATGGGGGAAAAAATAACTTTAATAATTTGTATCCTCTCCCTCGTGATATGCACCAAAATCTATTAAATCCTTGGAGGGATAAATATTAA	MGRRKKRLYESNTYSGKYGRVFLHNREFLGKDIKAGKSYSKSYYPKKTKFFMSQHTSIAGWKGSLPDTSTGTLAPALANKIAMLYPEIINTHSKKTMPLPAKANFPAVPVDKRAKWDSRTDRGNYIKKYIDTYGDPKWNWSSFDIHHVLPLKYGGKNNFNNLYPLPRDMHQNLLNPWRDKY				NA	NA	NA	NA	NA
D1-12_01964	765			hypothetical protein	GTGAGAATCTTAAAGAAAATAATTTCTATCTTATGGGTTGGGATGAAAAAGATTTTTAAATTTTTGTTTATACCATCTCGGAATTATTCAGTTAAATATGCTCAATATCTTTTATGGGAATTTGCAATAGGAATAGGTTTAGCTATTATATTTAAACAAAACACGGAATTAATAATACAATATACAGTATTTTTATTCATGAATTTATTAATATTTTCATGTTTATTTTGGTGCCTTACTTTTTTGTATAAATTGCGATATAGAAAAAGCAGGGCTTTTGAAAGAGATCTAAAATATGAAGGATTTTTACATGATTGTTCTGATATAGATGATGTTATATCAGAAGTTGATAATCTCAAAGAATCAATTAATGATTGGGCTGGAACCGACAAGCACACAGCCTTACAAAAAGTTAAAACATTAAGAATATATTATAAGTCTAGTACTACCAAAAAAGCAGAAGACTTTTTAACTAACACATCCATTGGAGTGATTTTAGGATTAATATCGGGTTTAATTCTGAAACCAGAGGTAATGGATACTATAAAAAGTGTATATGGGAATACATTCAACCTTATTAGTAATGCTATGATTAATTACATTAACGCAATAACTCTACTCATGATGGGTCTGATGATAGCAAGTAAGATATTAATAGAAACTCACAGATTAACGAGATCTGCCCAACTGTACGAGGAAGTGTTGGAAAGTGTGGTGGCAGAACTTGAAGAAAAAATAAAAAATGAAAATAGTCTTGGCGCCTAA	MRILKKIISILWVGMKKIFKFLFIPSRNYSVKYAQYLLWEFAIGIGLAIIFKQNTELIIQYTVFLFMNLLIFSCLFWCLTFLYKLRYRKSRAFERDLKYEGFLHDCSDIDDVISEVDNLKESINDWAGTDKHTALQKVKTLRIYYKSSTTKKAEDFLTNTSIGVILGLISGLILKPEVMDTIKSVYGNTFNLISNAMINYINAITLLMMGLMIASKILIETHRLTRSAQLYEEVLESVVAELEEKIKNENSLGA				NA	NA	NA	NA	NA
D1-12_01965	582			hypothetical protein	ATGTATTATGACTATCAAACAGCTTTTAGAAAAGATCATTTTAAAGGTGAAGTAATACAAATATGGGAGAAAGAGAATCAATTAGATAAAATAAATGATCATATAGGAAATAATCTTAAATTTGCTTCTCCAAAGATTATAAGAGCATACAACGCTGTATTGAGATATGAAGCTATGGAGGATATAGCTGGTATTGGTAAAGATCAAGAACAACTAGCTCTTATAGAAGAATTATTGAATGAATTATTGAGAATTTCACCATTTGATAACGAATCTAAAAAAGAACTTTCTAAATATAGGACATATTATTTTTTATTTAGAATGTTAACAAGTTATTTTCATAGTATCGAAGATGCTAAAACGATTTTGACGAATGATTTTTATTTCCAAAACAGCAAATTATCAAGTAACAGAATATATAATAGACTTTTATCAAATACGAATCTGAGATACAAAAAGAGATATGTCCAAACCTTGTTCAGATACAAGAACGAGGAGGATTACTTTATAAAAGTTCTAGCACAAAAAAAGGATCGTAAACCACTTCAAACATTAATGAAGAGTGTACAAGAAGAGAAATGA	MYYDYQTAFRKDHFKGEVIQIWEKENQLDKINDHIGNNLKFASPKIIRAYNAVLRYEAMEDIAGIGKDQEQLALIEELLNELLRISPFDNESKKELSKYRTYYFLFRMLTSYFHSIEDAKTILTNDFYFQNSKLSSNRIYNRLLSNTNLRYKKRYVQTLFRYKNEEDYFIKVLAQKKDRKPLQTLMKSVQEEK				NA	NA	NA	NA	NA
D1-12_01966	651			hypothetical protein	ATGAATTTCGAAACAAAATATCTTATTAGATGGGGTATCCCTGGATGGATGTTTCTTTTTTGGGTAGTATTAAATCTTTTTATACAAGACCACAATTTAGTAATCAATAAAATCAACTTTGATCAACTTAGCAAAATAATTGGGATTTTAATATCTTTTGGGGCTGTAGGTGTAGTAATAGGTTATGTGTTTCATCAATTATATTTTTTATTACTTTGGATTCTAAACAAAGATATTGATATAACTGTAAACATGGTCAGAAACTACCCGAAGCCAAGAAACTGGGGTAAGAATCAAACCAATGATTACTTCCATTTGGAATACACTTGGCACAAACAGCTATTGAAGGTAAACGATGAAGCGAGGGTCTATATCACTGATCGGTACAGATATATATTATCAACTGTTCATGGACATGGAACAATGCTGATATCACAATTCATCTCTAGCACTGTTACAATGTTACCTGGTTATATTAAATACGGCTTTCATGTCTGGCTTCACATCGAAGCTGTGTTATATGTTGTTCAAATATTTATATCCGTTATGTTTATATTTAGTTTTAAATATTACACAAAGAATTTAAGGAGTTTTCAAGGGTTTGTTTTAAATGACTTAATAAATAACAATTTACCAGAGATAAAAAAATAG	MNFETKYLIRWGIPGWMFLFWVVLNLFIQDHNLVINKINFDQLSKIIGILISFGAVGVVIGYVFHQLYFLLLWILNKDIDITVNMVRNYPKPRNWGKNQTNDYFHLEYTWHKQLLKVNDEARVYITDRYRYILSTVHGHGTMLISQFISSTVTMLPGYIKYGFHVWLHIEAVLYVVQIFISVMFIFSFKYYTKNLRSFQGFVLNDLINNNLPEIKK				NA	NA	NA	NA	NA
D1-12_01967	186			hypothetical protein	ATGAAGTCTTCAAGAGATATCATAAAGATACTTACAAAAGATGGGTGGTATTTAAAGCGGGTTGTTGGTAGTCATCACCACTTTAAACATCCAACCAAACCGGGAACGGTAACAGTCCCACACCCAAAAAAGGACTTCAAACCCGGCACACTAAACTCTATACTTAAACAGGCGGGGCTTAAATAG	MKSSRDIIKILTKDGWYLKRVVGSHHHFKHPTKPGTVTVPHPKKDFKPGTLNSILKQAGLK	PGPT0027490_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HicA-HicB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027490-toxin_hicA-K07339	NA	NA
D1-12_01968	417			hypothetical protein	ATGGCAAAGTATTTATTTCCGGCGATTTTTGATGCAGGAGAAGACGGAAGCGACGGCTACACAATTACTTTCCCCGATTTACCCGGCTGCATTTCAGAAGGTGAAAACGTGGATGATGCTATGAGTATGGCAAAAGATGCGCTCGAAGGCTTTCTATATGGCATGGAAGAAGACGGCGAAGACATCCCTTCCCCATCGGCTCCAAAAGATATCAAAGTACCGGCAACAGGTTTTGTTGTTATGGTAAGCGCCTGGACAGATATTGTCCGTGATGAAATGGAAAACAAAGCGGTAAAAAAAACACTTACTGTACCTAAATGGCTGGCGGAAGCAGCAGAAAAAGAAGGTGTAAACTTTTCGCAGCTTCTTCAATTTGCATTACGTGAGCGGCTTGGCATTAATAAAAGATCATCATAA	MAKYLFPAIFDAGEDGSDGYTITFPDLPGCISEGENVDDAMSMAKDALEGFLYGMEEDGEDIPSPSAPKDIKVPATGFVVMVSAWTDIVRDEMENKAVKKTLTVPKWLAEAAEKEGVNFSQLLQFALRERLGINKRSS	PGPT0027495_360	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HicA-HicB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027495-antitoxin_hicB-K18843	NA	NA
D1-12_01969	372			hypothetical protein	TTGAATACAATCGAATGGCTGCAGAACGGAAGACAACCCGGCGCCCGCCGTGGTGCTGATCGCAGGGATGCGTATAAAAGAACGATCCTTTCGGATCCGCGTTTAATTGATGCGCTGCCGGAAGAATATGCAATCGTTCAAGAAGCTGAGGGAGAAGTAAGTGAATGGGATAAGGAAAGAATCGCTGATGCCCTTTCCGTCCTCACAGAAAGAGAAAAAGACATATTCATGATGCACGCTGTGCAAAATATGTCTTATGAAGAAATTGCCGCTTTACTCATTATAAAAAAAGGAACCGTCCAAAAGAATATTGAACGATCCCGCTTAAAAATGAAAAATAGAGCAAATGACAGCCTTTTTTGTTTAGCTTAA	MNTIEWLQNGRQPGARRGADRRDAYKRTILSDPRLIDALPEEYAIVQEAEGEVSEWDKERIADALSVLTEREKDIFMMHAVQNMSYEEIAALLIIKKGTVQKNIERSRLKMKNRANDSLFCLA	PGPT0011755_53	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS_RELATED_FUNCTIONS,PGPT0011755-xpf-K24072	NA	NA
D1-12_01970	201			hypothetical protein	ATGCAAGATTTAATCATTGAATATAAAAGCGCATTGAAACATGTTAAAAAGATGTACCGGCAGTTATGGGCGGTTGCTGACAGTCTCTTAACCGCTGAACAAAACAGCGATAAAAAGATTATTGGCGGCATGATAAGCGACATTGAATACAATCGAATGGCTGCAGAACGGAAGACAACCCGGCGCCCGCCGTGGTGCTGA	MQDLIIEYKSALKHVKKMYRQLWAVADSLLTAEQNSDKKIIGGMISDIEYNRMAAERKTTRRPPWC	PGPT0011755_44	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS_RELATED_FUNCTIONS,PGPT0011755-xpf-K24072	NA	NA
D1-12_01971	519			hypothetical protein	ATGACGAACGAGTATAAAAAGCCCATTTTATTTACAGTTTCTGCATTGGTGATCATTTTCCTAGTGTTTTTCTCATTAAAAATCTATAACTATTACAATCTCGAATATCCTAACTGGGAAGGTAAAAGTAAGGATCACAACTGGGAAGTAGTCTTTAAAAAGAATGAAGATACTCCAAAAGAGTTTAGCGGGGAGATTCTTTGGATTGGCGATAAAGATAAAACTGATAAAACTTATATAGAATCCATAACAATAATGAAAGATAATAAAGCACTTCTTGATTCTTCAGATTTTAACAGCGATATCCCTATGAAGGATTATTCAGGTGGTACGTTTAGCGATGGATCAGCTAAAGAAAAATCATTTTCATTTTTAGAACGCTTAGAAGAATCTGATCTAAAAGGATCTAAGATAACGGTTCAAGTGAAATGGAAACAAGATAACCAATCATTCAGTACGGAAAAGTTCATTCTTTCAAATAAAACTAATTTAATCACTAAATTTATTGAGTTATTGTAA	MTNEYKKPILFTVSALVIIFLVFFSLKIYNYYNLEYPNWEGKSKDHNWEVVFKKNEDTPKEFSGEILWIGDKDKTDKTYIESITIMKDNKALLDSSDFNSDIPMKDYSGGTFSDGSAKEKSFSFLERLEESDLKGSKITVQVKWKQDNQSFSTEKFILSNKTNLITKFIELL				NA	NA	NA	NA	NA
D1-12_01972	171			hypothetical protein	ATGAGGCAGCACTTCGATACAATTATTACTCACAGTTATTACTCACTTATCGTGTGCGAGAAAAAAACGGTGCGGCTGCAGGATTCGGAAGAGGTGCTGAATTTTTATTTACAAGAGAAATTTAAAGACGGGATGAATGCTTATTTGTTGGTATACGAACAACGGATTTAA	MRQHFDTIITHSYYSLIVCEKKTVRLQDSEEVLNFYLQEKFKDGMNAYLLVYEQRI				NA	NA	NA	NA	NA
D1-12_01973	1191	hmp_1	COG1017	Flavohemoprotein	ATGCTCGATGAAAAAACGATTGAAATCATTAAAAGCACAGTGCCGGTCTTAGAAGAGCATGGTGAAGAAATCACAGGCCGATTTTATGACCTCCTGTTTCAGCATCACCCTGAGCTGCTGAATATCTTTAATCAGACAAATCAAAAGAAAAAAACACAGCGTACGGCCTTGTCGAATGCTGTGATCGCGGCCGCAGCCAATATTGACCGGCTGGAAAACATAGTCCCCGTCGTCAAACAAATCAGCCATAAGCACCGGAGTATCGGTGTTAAGCCCGAGCATTACCCAATCGTTGGAAAGTACTTGTTAATCGCGATAAAGGACGTGCTAAAAGACGGGGCCGCTCCTGAGGTCATTCAGGCATGGGAAAAAGCATACGGCGTCATTGCAGACGCTTTTATCGGAATTGAGAAGGACATGTATGAACAAGCGGAAACGCAAAAAGGCGGCTGGAAAGACTATAAGGCGTTTAAAATTGATAAAAAGGTAAAAGAAAGCAAAGAGATAACGTCGTTTTATTTAAAACCGGAAGACGGACAAGTTATCCCCGAATTCAAAGCGGGACAGTATATCAGTGTAAAAGTATATATTCCGGACACGGGCTATACGCATATCCGCCAGTACAGCTTATCCGACGTGTCCGGTAAGGATTATTACCGGATTTCCGTTAAAAAAGAAGGGGTTGTTTCCTCATATCTGCATGACCAATTACACGAAAAGGATTCAATTGAGATCAGCGCTCCGGCCGGGGATTTCGTATTAGACCCTGATTCCAAAAAGAATCTCGTTCTCATCAGTGCCGGTGTCGGAATTACTCCGATGATCAGCATGTTAAAGACGGTTGTCAAAACCCAGCCGCAGCGAAACGTTCTCTTTATCCATGCGGCAAGGAGCGGAGAGTATCATGCGTTGCGGCATGAAGCTGAAGAAGCCGCGGAACACTCATCCGTTGACACCCTCTTTATTTACAGCGAGCCGTCCGAACAAGACCGTTCAGAAAACATTCGTTTTCGGGAAGGCCGGATTGACAAAAAGCTGTTAGAAGAAGTGATGACAGATAAAGATGCTGATTTTTACCTGTGCGGATCACCGTCGTTCATTAAAGAAATGAAAAAGCTGATTTCTGAATTCAATACACCGCCGGAATCCATTCACTATGAATTATTTGAACCCCAGCTGAGTATGGTGTGA	MLDEKTIEIIKSTVPVLEEHGEEITGRFYDLLFQHHPELLNIFNQTNQKKKTQRTALSNAVIAAAANIDRLENIVPVVKQISHKHRSIGVKPEHYPIVGKYLLIAIKDVLKDGAAPEVIQAWEKAYGVIADAFIGIEKDMYEQAETQKGGWKDYKAFKIDKKVKESKEITSFYLKPEDGQVIPEFKAGQYISVKVYIPDTGYTHIRQYSLSDVSGKDYYRISVKKEGVVSSYLHDQLHEKDSIEISAPAGDFVLDPDSKKNLVLISAGVGITPMISMLKTVVKTQPQRNVLFIHAARSGEYHALRHEAEEAAEHSSVDTLFIYSEPSEQDRSENIRFREGRIDKKLLEEVMTDKDADFYLCGSPSFIKEMKKLISEFNTPPESIHYELFEPQLSMV	PGPT0013000_1155			NA	NA	NA	NA	NA
D1-12_01974	228			hypothetical protein	ATGGGTAAAAAATCGAAAGTGTATTACTGTGACCCTAAGTATATTGTGACTGACAAGTATACTGACAAAGAAGTGGTTTACGTCCATCCCATCAAACACATTAACAGAGAGCATATCCGTTATGTTCCCCGCCACGTTTATAAGGAAGAAACAATTCACGAAGTCATTGATCCGGGAGATCCGGGGAAATGCGGGTGTAAAAAGCATAAAAAAAGACGCAAAAAGTAA	MGKKSKVYYCDPKYIVTDKYTDKEVVYVHPIKHINREHIRYVPRHVYKEETIHEVIDPGDPGKCGCKKHKKRRKK				NA	NA	NA	NA	NA
D1-12_01975	510	yraA_1	COG0693	Putative cysteine protease YraA	ATGAGCAAAAAAATCGCAGTTCTGATGACAGATCAATTTGAGGATATTGAATATACAAGCCCGGCGGAAGCATTTAAAGAAGCGGGCCACAGTGTGGTGACAATAGATTTGGAAGCAGGGAAAGAAGTGACGGGCAAGCACGGTGAGAAAGTAAAGATCGATCAAGCGATCTCAGACGCAGACGCCAAGGAATTCGATGCGTTATTGATTCCCGGAGGCTTTTCACCGGATCTTCTGCGCGGAGATGACCGCCCGGGTGAATTCACTAAAGCATTCGTGGAAGATCAGAAACCTGTTTTCGCGATCTGCCACGGCCCGCAGCTGCTGATTGATACCGACCTTCTTAAAGGAAAAGATATCACGGGATTCCGCAGCATCCGCAAAGACTTAATCAATGCCGGCGCAAATTATAAAGATGAAGAAGTCGTCGTGAGCCATAACATCGTAACGAGCAGAACACCTGACGATTTGGAAGCCTTTAATCGTGAATCATTGAACCTGCTGAAATAA	MSKKIAVLMTDQFEDIEYTSPAEAFKEAGHSVVTIDLEAGKEVTGKHGEKVKIDQAISDADAKEFDALLIPGGFSPDLLRGDDRPGEFTKAFVEDQKPVFAICHGPQLLIDTDLLKGKDITGFRSIRKDLINAGANYKDEEVVVSHNIVTSRTPDDLEAFNRESLNLLK	PGPT0015010_2540	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
D1-12_01976	129			hypothetical protein	ATGTGGATGATCATTTTGCTGCTTATCATTTTAATCGGTTTTACCGGTAATATCGTCTCGCTTTTGAGAGCGCAAAAACACGCATCTCAAAGAATAATTGAGCTTTTAGAAAAGCAAAGCCGAAAATAA	MWMIILLLIILIGFTGNIVSLLRAQKHASQRIIELLEKQSRK				NA	NA	NA	NA	NA
D1-12_01977	753			hypothetical protein	ATGAAGCTGAATGAGGATTTTTATAACTCTGAAGGAAAGACAGTCTCTTTGCCAAACATAAGCAGCAAGCTTTTGCATATCACGGACAGCGGGCATATCAGCATTGACTTCATCAGCATAAGCAGGCTGCGGAAGGCTTCAAAAATCGCGATCTTAGGTGACAGCGTCGCCCGGGGGCTGCGTGCGGAATACGGCTTTGGTGACATTCTGAAAGACCGGACAAACGCTGATATAACCAATCTGTCTGTCAGCGGCGTTAACATGAGCAACAACGGAAGCGATAACATTTATCAGCAGGCGCTTAAAACAAAGGGACATGATGTCATCATTGTCCAGGGAACAGATGATGATTGGTGCAACCACATTCCCATCGGCACAGATGAAAAGGATATCACCACATTTTACGGAGGCTTCTGCCAAGTGATCCAGCAGCTGCGGAGCGGAAATAAAGGCGCGAGCATCATTGTGGTGACCCCAACGAGACAAGCAAAAATATCAAAAGGAAAAATCGTCCGCCGTGATACTGATAAAAATAAACTGGGTCTGAAGCTGGCTGACTATGTGAAAGCCCAAAAAGAAGCCTGCACACTCCTCTCTGTACCGTATGCCGATCTGTTTGATACTGATCTTATCGACCCGTATAATCCCGCTTTCCGCAGCATGTGCATGTCAGAAGGTCTTCATCCGAACGAGAAAGGGCATCAAATCATATTTCAGGAAATCTGCCGGAATTATTATTACTATTATGGGTAA	MKLNEDFYNSEGKTVSLPNISSKLLHITDSGHISIDFISISRLRKASKIAILGDSVARGLRAEYGFGDILKDRTNADITNLSVSGVNMSNNGSDNIYQQALKTKGHDVIIVQGTDDDWCNHIPIGTDEKDITTFYGGFCQVIQQLRSGNKGASIIVVTPTRQAKISKGKIVRRDTDKNKLGLKLADYVKAQKEACTLLSVPYADLFDTDLIDPYNPAFRSMCMSEGLHPNEKGHQIIFQEICRNYYYYYG				NA	NA	NA	NA	NA
D1-12_01978	870	fieF	COG0053	Ferrous-iron efflux pump FieF	GTGGAAAACACCTCTAAAATCGCTTTTTTATCGGTTATAAGCAATTCCCTGGTCGTCATGCTCAAAATAGTGGTGGGGATAATAACCGGATCTGTCGCGATACTTTCTGAAGCCATTCATTCTTTTTTAGATTTGATCGCCGCCTTCATTGCCTTTATCTCCGTCAGGATTTCAAAAAAGCCGGCTGATACAGGGCATCCGTATGGTCATGGAAAAGTCGAGAATCTGTCGGGGACTATCGAGACGATTCTGATTTTTGCGGCAGGGATTTGGATGATATATGAATGCGTTCAAAAACTGGTCAACCCGGCGCCGGTTCATCTGCCCGTATTGGGAATTGTTGTGATGCTTGCGGGGGCTCTCATTAATTTGATCGTTTCGAAGTTCGTAAAAAGAGAAGCCGAAAAGGTTAATTCCGTGGCAATGAAATCAAATGCCCTGCATTTACTGACTGACGTGTACACATCATTAGGCGTAGCAGCAAGCCTTTTGGTCGTTACCGTAACGGAGTGGTACATACTTGATCCCATTATAGGTATGGTGCTGGCGGTGTATATCATATATGAAGCGTTTAAGTTAATGAAAGAAGCATTCCCGCCGCTGATTGATACCCGTTTGTCGGAAGAGGAAGAAAAAACAATTCTAAAGATTATTGAAACATTTCAACAGGAATTTATTGAAATTCACGATTTTCGTACAAGACGCTCCGGCCCGCAGGAGTATATTGATTTTCACTTGGTCGTAGCCTCTCACGTGACGATTAAAGACGTGCACGATCTGTGTGACCGCATTGAAAGAGATATTACCAATGAATTCAAACAAGCACAGGTAATGATTCACCCCGAGCCGGAGAGCGAGAGGAAGAAATAA	MENTSKIAFLSVISNSLVVMLKIVVGIITGSVAILSEAIHSFLDLIAAFIAFISVRISKKPADTGHPYGHGKVENLSGTIETILIFAAGIWMIYECVQKLVNPAPVHLPVLGIVVMLAGALINLIVSKFVKREAEKVNSVAMKSNALHLLTDVYTSLGVAASLLVVTVTEWYILDPIIGMVLAVYIIYEAFKLMKEAFPPLIDTRLSEEEEKTILKIIETFQQEFIEIHDFRTRRSGPQEYIDFHLVVASHVTIKDVHDLCDRIERDITNEFKQAQVMIHPEPESERKK				NA	NA	NA	NA	NA
D1-12_01979	807			hypothetical protein	ATGGAGGATGTTCTGAAAGAATTACAGAAATTTGGATTTTCTCAATATGAATGTAAAGCATATATCGGCTTGTTGAAACACTCGCCTGTTACCGGATATGAAATCAGCAAAAGGTCAGGCGTCCCCCGCTCAATGATCTATGAGGTATTGGGGAAATTAGTTGATAAAGGCGCTGTCCATATTGTGCCGTCTGATCCGGTTACATATGCCCCGCTGGCCGGAAAGGAATTAATCGACCGGCTCCGGCACGATTTCGAGAGTTCATTCGGCTACCTTGAGGAAAAGTTATTGGCACTGGAAAGCGAGCAGGAGATGAATGTCATCCGCCGCATCAGCACGAATGATCATGTCATCAATGAGATGAAGGATATGATTGAAAAAGCCGAGGAAGAGTTGTGGCTGTCTGTCTGGGAACAGCAGATTCCCTTTATTCAAGAAGCCGCTAACAAACGCGCCGCCGAACAATTGCCCGTCTTTTCGATTGTGTTCGGCCCTCCGGAAGTGAAGCTCGGAAATACGACAAATCATAATATGTCTCCTGAAGTGGCGGAGAAACGGATGGGCGGGAGATTAACGATAGCTGCCCGCGATAATAAAGAAGTCTTAATCGCCAATTTTTCTCCGCAGACGAATGCCTGGGCCATTAAATCAGAAGATCCCGCTCTCGTTCTCGTGGCCATGGAATATATGAGGCACGATCTGATGTTCGCGGAGCTTGTGAAAGAAGTAGGGGCTGAAAAAGTTGAGGGCCTGATGAAACAAAACCATTCGTTATTTCATGTCGTCACCGGAAATCGGTTCATATAA	MEDVLKELQKFGFSQYECKAYIGLLKHSPVTGYEISKRSGVPRSMIYEVLGKLVDKGAVHIVPSDPVTYAPLAGKELIDRLRHDFESSFGYLEEKLLALESEQEMNVIRRISTNDHVINEMKDMIEKAEEELWLSVWEQQIPFIQEAANKRAAEQLPVFSIVFGPPEVKLGNTTNHNMSPEVAEKRMGGRLTIAARDNKEVLIANFSPQTNAWAIKSEDPALVLVAMEYMRHDLMFAELVKEVGAEKVEGLMKQNHSLFHVVTGNRFI				NA	NA	NA	NA	NA
D1-12_01980	732			hypothetical protein	ATGATTAACACAGAAGTGCAAAAAACCGCCGTTTCCCGGGAAATGAACGATACGTTTTTACAGGGGGTGCGGGATTGTGTGCCTACGCTGCTGGGCTATATGAGCATCGGTTTTGCTTTCGGCATCGTTGGCGTTGCCTCTCATCTAAGCATTCTCGAAATTTGTTTGTTATCTTTATGTGTCTATGCCGGCGCCGCCCAATTTATTATTTGCTCGCTCCTTGTTTCCGGGAGTCCTATTTCCGCCATTATTTTAACGACGTTTATCGTCAATCTGCGGCACCTTCTGCTGAGCCTGACCATCGCGCCGTATTTCACGAAATACTCTTTGGCGAAAAATATCGGCTTCGGGGCTTTGCTTACTGACGAATCTTTCGGGGTAGCGGTGAACAAAGCGGCTCAGAACGGCAGGTTATACGATAAGTGGATGAACGGCCTCAATATAACCGCTTACATGTGCTGGGTTATTTCCTGCGTGATGGGCGGGCTTCTCGGACAATGGATATCTGATCCTTACGCGCTCGGCCTGGACTTTGCTTTGCCCGCTATGTTTGCGGCGCTGCTTGTGCTGCAATTGCAGTCGTCCGCTTCGGAAAAGCTGAAGCACAGCCTCTCCTTAATTCTCTATATGATCATTTTTATGGTCTTGTTATCGTATTTCGTCCCGTCACACATCGCGGTTATCGCCTCAACCGTGATTGTGGCAACGATCGGGGTGGTGACGGACAAATGA	MINTEVQKTAVSREMNDTFLQGVRDCVPTLLGYMSIGFAFGIVGVASHLSILEICLLSLCVYAGAAQFIICSLLVSGSPISAIILTTFIVNLRHLLLSLTIAPYFTKYSLAKNIGFGALLTDESFGVAVNKAAQNGRLYDKWMNGLNITAYMCWVISCVMGGLLGQWISDPYALGLDFALPAMFAALLVLQLQSSASEKLKHSLSLILYMIIFMVLLSYFVPSHIAVIASTVIVATIGVVTDK				NA	NA	NA	NA	NA
D1-12_01981	324			hypothetical protein	ATGAGCATCAGCACACAAATGATCTGGATTATACTCGGCTGCATGATTGTTACACTTGTGCCGCGCATTGTTCCGTTTATATTTGTCCGGAACATTCAGATGCCTGAGTTGGCTTTAAAATGGCTCTCCTTTATTCCGCTTTGTATTTTGACGGCTCTGGTAACGGAAAGCATGATTGTGAAAACAAACAGCGCTTTGACCTTTGATTGGAAAGCAATGATCGTTCTCATCCCGACATTGCTTTGCGCGATGCGGACAAAAAGCTTATCCATCACGGTCATCACAGGAGTCGTGCTGATGGCCGCCGTCAGGCTGATATGGTGA	MSISTQMIWIILGCMIVTLVPRIVPFIFVRNIQMPELALKWLSFIPLCILTALVTESMIVKTNSALTFDWKAMIVLIPTLLCAMRTKSLSITVITGVVLMAAVRLIW				NA	NA	NA	NA	NA
D1-12_01982	1266	tyrS1	COG0162	Tyrosine--tRNA ligase 1	ATGACTAACTTATTAGAGGATTTATCATTCCGCGGCTTAATCCAGCAAATGACGGATGAAGAAGGACTGAATAAACAGCTGAACGAAGAAAAAATCCGTTTATACTCAGGGTTTGACCCGACGGCTGACAGCCTGCACATCGGACACCTTCTGCCGATATTGACACTGCGCCGTTTCCAGCTTGCAGGCCACCATCCGATTGCGCTTGTAGGCGGCGCGACGGGACTGATCGGCGATCCGAGCGGCAAAAAAGCGGAGCGTACGTTAAATACTCAGGATATCGTTGTCGAATGGTCGCAAAAAATTAAAAATCAGCTTTCCCGATTTTTAGATTTCGAGGCGGGAGAAAACCCCGCTGTCATAGCGAACAACTTTGATTGGATCGGAAAGCTGAGCATCATTGAATTTCTCCGCGACGTCGGAAAGAACTTCGGAATTAACTACATGCTTGCGAAAGATACTGTAAGCTCAAGAATTGAAACCGGAATTTCTTACACGGAATTCAGCTACATGATCCTGCAATCCTACGATTTTCTGAATCTGTACAGAGAAAAGAACTGCAAACTCCAAATCGGAGGCAGTGACCAGTGGGGCAACATCACGGCCGGTCTTGAACTGATCAGAAAATCAGAAGAAGAAGGGGCGAAAGCTTTCGGTCTTACCATTCCGCTCGTCACAAAAGCTGACGGCACGAAATTCGGCAAAACGGAAGGCGGCGCCATTTGGCTTGATAAAGAAAAAACATCGCCGTACGAATTCTACCAGTTCTGGATCAATACAGATGACCGCGACGTCGTCAAATACTTAAAATACTTTACTTTCTTGTCAAAAGAGGAAATTGAAGCTTATGCTGAAAAAACGGAGACGGCTCCTGAGAAAAGAGAAGCGCAGAAACGTCTCGCTGAAGAGGTGACGGTTCTTGTACACGGCCGCGAAGCGCTTGAGCAGGCCGTTCATATCTCCCAGGCGCTGTTCAGCGGCAATATTAAAGAGCTTTCCGCTCAAGACGTCAAGGTAGGATTCAAAGATGTACCTTCGTTTGAAAAAGACCGCTCTGAAGAACTGTCTTTAGTAGACGTGCTAGTGGAATCTAAATTATCGCCTTCAAAACGGCAGGCCCGCGAAGACATTCAAAACGGAGCTGTTTATATTAACGGCGAGCGCCAGACGGACATCGGGCATCTTTTGACTGCGGAAGACCGCATTGAAGATCAATTTACCGTACTGCGCCGCGGAAAGAAAAAATACTTCCTGATCACGTACTGA	MTNLLEDLSFRGLIQQMTDEEGLNKQLNEEKIRLYSGFDPTADSLHIGHLLPILTLRRFQLAGHHPIALVGGATGLIGDPSGKKAERTLNTQDIVVEWSQKIKNQLSRFLDFEAGENPAVIANNFDWIGKLSIIEFLRDVGKNFGINYMLAKDTVSSRIETGISYTEFSYMILQSYDFLNLYREKNCKLQIGGSDQWGNITAGLELIRKSEEEGAKAFGLTIPLVTKADGTKFGKTEGGAIWLDKEKTSPYEFYQFWINTDDRDVVKYLKYFTFLSKEEIEAYAEKTETAPEKREAQKRLAEEVTVLVHGREALEQAVHISQALFSGNIKELSAQDVKVGFKDVPSFEKDRSEELSLVDVLVESKLSPSKRQAREDIQNGAVYINGERQTDIGHLLTAEDRIEDQFTVLRRGKKKYFLITY				NA	NA	NA	NA	NA
D1-12_01984	1719	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGAATTTGAAAGCGTTGCCGGCGGAAAAGGGGAATTATCATCTGCGAAATTATGAGGAAACGTACCGCAGCTTCGATTGGAAAGAGGTCGAAGCGGAGTTTTCCTGGCATCAGACGGGGAAGCTGAATGCGGCGTACGAAGCGATTGACCGTCATGCCGAATCATTTCGAAAAAACAAAGTAGCGCTGTATTACAAGGACGCAAACCGGAATGAAAAATATACATTTAAAGAAATGATGGAGGAATCGAACCGGGCGGGAAATGTACTGAGACGGTATGGAAACGTGGAAAAAGGGGACCGCGTTTTTATTTTCATGCCGCGTTCGCCGGAGCTTTACTTTATCCTGCTCGGCGCAATTAAAATCGGTGCGATCGCCGGCCCTTTATTTGAAGCGTTTATGGAAGGCGCCGTCAAAGACCGCCTGTTGAACAGCCAGGCAAAGGTTGTCGTGACGACACCTGAACTGGCCGAACGGATTCCGGCGGACAGCCTGCCCGACCTCGAGCATATTTTCATTGTCGGCGGCAGCAAAGAAGCGGGAGATAAAATCATCCATTATGATAAAGCGGCTGAGGGAGAAAGCACGAGACTTGATATTGAATGGATGGACAGAAGAGACGGCTACCTGCTTCACTACACATCAGGATCTACCGGAACGCCCAAAGGTGTGCTCCATGTTCATGAAGCCATGATTCAGCAATACCAGACCGGCAAGTGGGTGCTTGATCTTAAAGAAGACGATATTTACTGGTGCACTGCGGACCCGGGCTGGGTGACCGGGACGGTGTACGGGATATTTGCGCCGTGGCTGAACGGAGCGGCGAACGTGATCGTCGGCGGCAGATTCAGTCCGGAAAACTGGTACGGCACGATTGAGAAGCTCGGTGTCAGCGTCTGGTACAGCGCTCCGACGGCTTTCAGAATGCTTATGGGCGCCGGAGATGAAATGGCATCCAAATTTGACCTTACTTCACTTCGTCACGTCCTGAGTGTCGGAGAACCTCTGAACCCCGAGGTCATCAAGTGGGGACATAAAGTATTCGGCAAGCGCATCCACGACACGTGGTGGATGACAGAAACGGGCGGACAGCTCATCTGCAATTATCCTTGCATGGAGATCAAGCCGGGTTCAATGGGGAAACCGATTCCGGGAGTGGAAGCGGCGATCGTTGACAATCAGGGAAATGAGCTTCCGCCGTACCGGATGGGAAATCTCGCCATTAAAAAGGGCTGGCCGTCGATGATGGATTCCATTTGGAACAACAAAGAGAAATATGATTCTTATTTCATGCCGGGCGGCTGGTATGTTTCCGGAGATTCTGCTTATATGGATGAAGACGGTTATTTCTGGTTCCAAGGCAGAGTCGATGATGTCATTATGACATCCGGCGAGCGCGTCGGCCCGTTTGAAGTCGAAAGCAAACTTGTTGAACATCCGGCGATTGCCGAAGCCGGGGTCATCGGAAAGCCGGACCCTGTCCGGGGAGAAATTATTAAAGCGTTTATCGCGCTCAGAGAAGGGCATGAGCCATCCGATCAGCTGAAGGAGGACATTCGCCTCTTTGTAAAACAGGGGCTTGCCGCGCATGCCGCACCGCGGGAAATTGAATTCAAAGATAAACTTCCGAAAACACGGAGCGGAAAAATCATGAGACGTGTGCTGAAGGCGTGGGAGCTGAACCTGCCGGCAGGCGACCTGTCCACAATGGAAGATTAA	MNLKALPAEKGNYHLRNYEETYRSFDWKEVEAEFSWHQTGKLNAAYEAIDRHAESFRKNKVALYYKDANRNEKYTFKEMMEESNRAGNVLRRYGNVEKGDRVFIFMPRSPELYFILLGAIKIGAIAGPLFEAFMEGAVKDRLLNSQAKVVVTTPELAERIPADSLPDLEHIFIVGGSKEAGDKIIHYDKAAEGESTRLDIEWMDRRDGYLLHYTSGSTGTPKGVLHVHEAMIQQYQTGKWVLDLKEDDIYWCTADPGWVTGTVYGIFAPWLNGAANVIVGGRFSPENWYGTIEKLGVSVWYSAPTAFRMLMGAGDEMASKFDLTSLRHVLSVGEPLNPEVIKWGHKVFGKRIHDTWWMTETGGQLICNYPCMEIKPGSMGKPIPGVEAAIVDNQGNELPPYRMGNLAIKKGWPSMMDSIWNNKEKYDSYFMPGGWYVSGDSAYMDEDGYFWFQGRVDDVIMTSGERVGPFEVESKLVEHPAIAEAGVIGKPDPVRGEIIKAFIALREGHEPSDQLKEDIRLFVKQGLAAHAAPREIEFKDKLPKTRSGKIMRRVLKAWELNLPAGDLSTMED	PGPT0002265_5939	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-12_01985	633	acuA		Acetoin utilization protein AcuA	GTGAAACATCATAAAACGTACCATTCTTCATCAATTCAGACAGCAGCCGGCCCTCTATTGGTAGAAGGGCCCGTTCCTCCAGAGGACCTAGCACAGTATGAGTTTCATGAAGGCCTGACAGCCTTTCGCCTTCCTCATGAACAGCACAAAGCGTTAATCGAGATCGCCGGGCTTCCTGAAGGTCGGATCATTATCGCCAGGGACGGACAGACGATTATCGGCTATGTGACGTATTTATATCCTGATCCGCTTGAACGGTGGTCTGACGGAAATATGGAAGACCTCCTTGAACTCGGTGCGATCGAGGTCGCTCCCGGCTACAGGGGCTGTTCTGTCGGAAAAACGTTGCTGACAGTCAGCATGATGGATGAACAGATGGAACGGTACATCATCATGACGACGGAATATTACTGGCATTGGGATTTAAAAGGAATGAAAAAAGATGTGTGGGAATACAGAAAGATCATGGAAAAGATGATGAATGCCGGGGGTCTTGTCTGGTTTGCAACGGATGAACCGGAAATCAGCTCTCATCCAGCCAATTGTCTGATGGCCCGCATCGGCAGGCACGTCAGTCAGGAGTCAATTGAACAGTTCGACAGGCTTCGTTTTTATCAGCGATTTATGTATTGA	MKHHKTYHSSSIQTAAGPLLVEGPVPPEDLAQYEFHEGLTAFRLPHEQHKALIEIAGLPEGRIIIARDGQTIIGYVTYLYPDPLERWSDGNMEDLLELGAIEVAPGYRGCSVGKTLLTVSMMDEQMERYIIMTTEYYWHWDLKGMKKDVWEYRKIMEKMMNAGGLVWFATDEPEISSHPANCLMARIGRHVSQESIEQFDRLRFYQRFMY	PGPT0008215_236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008215-acuA-K04766	NA	NA
D1-12_01986	645	IMPDH_2		Inosine-5'-monophosphate dehydrogenase	ATGATTGCAGAACAAATCATGAAACGGGACGTCATCACCGTCTCAAAACACGACTCCATTGAAACAGCCGTCCGGAAAATGAAGATATATCATATCCGCCATCTCCCTGTCATCGACGACGAGCTGCACGTCACCGGTATTGTCACAGACAGAGACATTAAACAGGCCGGCCCCGGCAGCTTTGAACAAAAGGAACGCGGCGCGTTTCTGACAAACAAAGTGGAGACCATTATGAAGCGGGATGTCATCTGCGCCCATCCGCTTGACTTTGTGGAAGAAATATCCGCCTCCTTTTATGAGCACGGCATCGGCTGTCTGCCGATTACGGTAAACCATAAGCTGACGGGCATTTTAACGAAAACCGACGTGCTCCGGACTTTCGTCAGCCTGACAGGCGCGGCCCAGCCGGGATCACAGGTGGAAATCCTGGTGACGGATATGACAAAAAGCCTTGCTGATCTCAGCTGCATGTGCCGTGATCTTCAGCTGCAAATCCTGAGTGTGCTCGTCTATCCCCATGATACCGCCGGGTCGAACATTCTCGTCTTCCGGGTGAAGACGATGAATCCGCTCCCTTTTATCCGTGCCGTTCAAGAAGCCGGATACAATGTCTTATGGCCGAAACATTTGAGGGATCAGCCATGA	MIAEQIMKRDVITVSKHDSIETAVRKMKIYHIRHLPVIDDELHVTGIVTDRDIKQAGPGSFEQKERGAFLTNKVETIMKRDVICAHPLDFVEEISASFYEHGIGCLPITVNHKLTGILTKTDVLRTFVSLTGAAQPGSQVEILVTDMTKSLADLSCMCRDLQLQILSVLVYPHDTAGSNILVFRVKTMNPLPFIRAVQEAGYNVLWPKHLRDQP	PGPT0008220_430	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008220-acuB-K04767	NA	NA
D1-12_01987	1167	acuC		Acetoin utilization protein AcuC	ATGAGAGACAGCGTTTTTGTTTACTCGCCTTCTTATCAGACGTATCAATTTCATCAGGAACATCCGTTCAATCAGCGCCGCGTGCTTTTAACATACGATCTGCTTCAGGCGGCGGATGCGTTTGACGAAGGAGATATCGTCACACCGCGCACGGCCGCTAAAGAAGAGTTGGCTCTCGTTCATACGGAGGATTATATACAGGCGGTGGAACTAGCGGGTGCGGGCCGGCTCCCTGCCGCGGAAGGAGAAAGCTACGGTCTCGGAACGGAAGACACTCCCGTTTTTGCCGGCATGCATGATGCCGCGTCACTTCTGGTGGGCGGCACCTTAACGGCTGCTGATTATGTCATGACGGGACAAGCTAGGCACGCCTGCAATTTAGGAGGCGGCCTTCACCACGGCTTCCGCGGCAGGGCCTCAGGCTTTTGTATCTATAATGACAGCGCCGTGGCCATCCAATACATCCAGAAGAACTACGGGGCAAAAGTGCTATACATTGATACAGACGCTCATCACGGCGACGGCGTTCAATTTACGTTTTACGACAGGTCTGATGTCTGCACTGTATCTTTTCACGAGACCGGGCGTTATTTATTTCCCGGGACGGGACAGGTACTGGAAAAAGGAAGCGGGCAAGGCTACGGCTATTCTTTTAACATTCCGCTGGACGCTTTCACAGAGGACGATTCCTTTCTTCACGCTTACAAAACGGCCGCCTCAGAAATCGCGGCTTTTTTTAAGCCGGATGTGATACTTACCCAAAACGGTGCGGACGCCCATTATTACGACCCGTTGACACACCTGTCCAATACAATCTCCATTTATCAGGAGATCCCGCGGCTCGCTCATTCATTAGCCCATCAATATTGCAGCGGCAGATGGATCGCGGTCGGCGGCGGCGGATACGATATTTGGAGAGTCGTCCCGAGAGCATGGAGCCGCATTTGGCTTGAGATGAAAGGGATTGATCCCGGGGAACGCATACCGCAGAAATGGATTGATAAATGGCAGAAGCACTCCCCCTGCACGTTGCCCGCTTTTTGGAGTGATCCTGAACAATTATATCCTCCGATTCCCCGCAAAGAAGAAATTTCAGAAAAAAATGCCCAAACCGTGGAAAAAGCACTTTTTGCCATCCGGTCTGAGCAGCGGTATAAGACAAAATAA	MRDSVFVYSPSYQTYQFHQEHPFNQRRVLLTYDLLQAADAFDEGDIVTPRTAAKEELALVHTEDYIQAVELAGAGRLPAAEGESYGLGTEDTPVFAGMHDAASLLVGGTLTAADYVMTGQARHACNLGGGLHHGFRGRASGFCIYNDSAVAIQYIQKNYGAKVLYIDTDAHHGDGVQFTFYDRSDVCTVSFHETGRYLFPGTGQVLEKGSGQGYGYSFNIPLDAFTEDDSFLHAYKTAASEIAAFFKPDVILTQNGADAHYYDPLTHLSNTISIYQEIPRLAHSLAHQYCSGRWIAVGGGGYDIWRVVPRAWSRIWLEMKGIDPGERIPQKWIDKWQKHSPCTLPAFWSDPEQLYPPIPRKEEISEKNAQTVEKALFAIRSEQRYKTK	PGPT0008225_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008225-acuC-K04768	NA	NA
D1-12_01988	690	pal		Peptidoglycan-associated lipoprotein	ATGAAGCTTAGAAAAGAGCGTTTTGAAAGAAGAAACAAACCGGAACATTCCGGCGGTTCACCAAGATGGATGGTGACGTTCGCTGACTTGATCACGCTCATTCTCGTGTTCTTTATATTGCTTTTTTCGATGTCGCAAATAGACGCGGAAAAATTTCAATCTGCCGTTTCATCGATTCATACAAACGGCAGCGGGGGTGAACCGGCGTCATCAGACAAAGCAAACGAAAATAAAGAACAGGATTTGCTGTTACAAAACGTGAAGACATACATAAAAGCGCATCATTTGAGTTCGAAATTGACGGCGAAGCGCGATGAGCGCGGAGTGGTTCTGGTGCTGCAGGAGGCCGTTCTGTTTCAGACAGGAAAAGCGGATGTGCTGAAAAACGCCGAGCCGGTTCTGCATCAGATCGCGGTGCTTTTAAAAACAATTCCGAATGACATACAGGTAGAAGGCCATACGGACAGCCGCCGGATTTCCACCTATCAATTTCCGTCGAACTGGGAGCTGTCGTCTGCAAGAGCGGCGAGTGTGATCCGGTATTTTACCGCGAATGAAGACTTTTCCGCCAAACGGTTTATCTCTGCCGGGTATGCGGATACGAAACCTGTGAAGGACAACAAAAGTCCCGGACATATGAAAGAAAACCGCCGTGTAGAAATTGTGATCAAAAAAACGACCTCCTCATAA	MKLRKERFERRNKPEHSGGSPRWMVTFADLITLILVFFILLFSMSQIDAEKFQSAVSSIHTNGSGGEPASSDKANENKEQDLLLQNVKTYIKAHHLSSKLTAKRDERGVVLVLQEAVLFQTGKADVLKNAEPVLHQIAVLLKTIPNDIQVEGHTDSRRISTYQFPSNWELSSARAASVIRYFTANEDFSAKRFISAGYADTKPVKDNKSPGHMKENRRVEIVIKKTTSS	PGPT0015375_4760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
D1-12_01989	816	pomA_2	COG1291	Chemotaxis protein PomA	ATGAAACGTTTTGATTATCTGACGCCCGTTGGCTTTATGTTAGGCTGTATTATTGTCGCAATCGGTATTCTGTCAGGGACGGGACTGGCGGGAATCAGTTCATTTTTAGATCTGACTTCTTTTTTAATCGTCACAGGCGGCCTTGCTGCGGCGATCTTTATCAGTTTTCCGCCGAGGGATTTAAAGAAAACCCCTTCTGTTCTGAAACAGGTATTCTCCCGTCAGGATGACAATGTGAAAGAGCTTGTCAGAGTATTTGTCAGCCTTTCGGAGCAGGCGCGCAGGCAGGGGCTGCTGTCTCTGGATGACCAGGCGCGTGAGATCAAGGATCCGTTTTTAAAAAAAGGGCTTTTGCTTGCGATTGACGGCTGGGACGAGGAAACGATCCGGCTGGTGATGGATTCTGAGATCGCCGCGATGGAAGAAAGACACAGAAAAGGAAGACGCGTTTTTGAAAAAGCCGGTGATTTCGCACCCGCCTGGGGAATGATCGGGACGCTCGTCGGACTCGTTCTCATGCTTAAAAACTTAAATGACCCGCATACCCTCGGACCGAACATGGCCGTTGCGCTATTGACGACGCTGTACGGAGCGCTGCTTGCCAACTTGGTATTTATCCCAACCGCGGCAAAGCTTGAAGAAAAAACGGAAAGTGAAATTTTCATCAAACAGGTCATGATCGAAGGGGTTGTCGGCATCCAATCGGGCAAAAATCCCCGCAACCTCGAAAGTCAGCTTGTCGTCTTCAGCTCAAGAGAAGACTGGCGTAAAGGACAGCCTGCGAACAAGAAAAAGGGCGCTGTCCATGAAGCTTAG	MKRFDYLTPVGFMLGCIIVAIGILSGTGLAGISSFLDLTSFLIVTGGLAAAIFISFPPRDLKKTPSVLKQVFSRQDDNVKELVRVFVSLSEQARRQGLLSLDDQAREIKDPFLKKGLLLAIDGWDEETIRLVMDSEIAAMEERHRKGRRVFEKAGDFAPAWGMIGTLVGLVLMLKNLNDPHTLGPNMAVALLTTLYGALLANLVFIPTAAKLEEKTESEIFIKQVMIEGVVGIQSGKNPRNLESQLVVFSSREDWRKGQPANKKKGAVHEA	PGPT0015370_1653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
D1-12_01990	1005	ccpA_1	COG1609	Catabolite control protein A	GTGAGCAACATTACGATATACGATGTGGCCAGAGAAGCAAATGTCAGTATGGCAACTGTTTCCCGCGTCGTGAACGGCAACCCGAATGTAAAACCGACGACCAGAAAAAAAGTATTGGAAGCCATTGACCGGCTCGGCTACCGCCCGAACGCGGTGGCAAGAGGGCTTGCAAGCAAAAAAACGACAACGGTCGGCGTCATCATCCCTGATATCTCAAGCATTTTCTACTCGGAACTTGCGCGTGGAATTGAAGATATCGCGACGATGTACAAATATAATATTATTTTAAGCAACTCGGACCAAAATCTTGAGAAAGAACTGCATCTGTTAAATACGATGCTCGGCAAACAAGTGGACGGTATCGTATTTATGGGCGGCAACATTACGGACGAGCATGTCGAAGAATTTAAGCGCTCTCCTGTGCCGATCGTCTTGGCGGCATCAGTGGAAGAACAGGGCGAGACGCCTTCTGTCGCCATTGATTATGAACAGGCGATTTATGATGCCGTTAAGCTTTTCATTGATAAAGGGCATCGCGATATCGCATTCGTCTCCGGACCGATGCAAGAGCCGATCAACCGTTCGAAAAAACTGCAAGGGTACAAACGGGCGCTTGAAGAAGCGGCGATTCCGTTTAACGAGCAATTCGTAGCGGAAGGCGATTACACCTATGATTCCGGTATGGAGGCGCTTCAAAGCTTGATGGGCCTTGACCGGAAACCGACGGCGATTCTTTCTGCGACGGATGAAATGGCCCTCGGCATTATCCATGCGGCCCAAGATCAAGGTCTTTCGATTCCTGATGATCTTGATATTATCGGTTTTGACAATACGAGATTGAGCCTGATGGTCCGCCCTCAGCTTTCAACAGTCGTGCAGCCTACGTACGATATCGGCGCCGTGGCGATGAGACTTTTGACAAAACTGATGAACAAAGAGCCGGTTGAAGAGCATATCGTCGAATTGCCTCACCGCATCGAATTAAGACAATCAACCAAGTCATAA	MSNITIYDVAREANVSMATVSRVVNGNPNVKPTTRKKVLEAIDRLGYRPNAVARGLASKKTTTVGVIIPDISSIFYSELARGIEDIATMYKYNIILSNSDQNLEKELHLLNTMLGKQVDGIVFMGGNITDEHVEEFKRSPVPIVLAASVEEQGETPSVAIDYEQAIYDAVKLFIDKGHRDIAFVSGPMQEPINRSKKLQGYKRALEEAAIPFNEQFVAEGDYTYDSGMEALQSLMGLDRKPTAILSATDEMALGIIHAAQDQGLSIPDDLDIIGFDNTRLSLMVRPQLSTVVQPTYDIGAVAMRLLTKLMNKEPVEEHIVELPHRIELRQSTKS	PGPT0014791_266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
D1-12_01991	1077	aroA	COG1605	Protein AroA(G)	ATGAGCAACAAGGAATTAGAGAGCCTAAGACAGCAGGCGGACGCACTAAACTTAGAAATCCTTAAATTAATCAATGAACGCGGAGCCGTTGTAAAAGAAATCGGTAAAGCAAAGGAAGCACAGGGTGTCAACCGATTTGACCCTGTCAGAGAGCGTACAATGCTTAACCGCATTATTGAAAGCAATGACGGCCCATTTGAAAACTCAACGATCCAGCATATTTTCAAAGAAATTTTCAAAGCCGGACTTGAACTTCAAGAAGAGGACCACAGCAAAGCGTTGCTCGTCTCCCGGAAGAAAAAAGCAGAAGATACGATCGTTGATATAAAAGGTGAAAAAATCGGTGACGGCGATCAGAGATTCATCGTCGGACCTTGTGCCGTAGAAAGCTATGAGCAGGTTGCCGAAGTAGCGGCCGCAGCGAAAAAACAAGGCATTAAAATCCTGCGCGGGGGCGCGTTTAAACCCCGCACAAGTCCGTATGATTTCCAAGGTCTCGGCGTAGAAGGCCTGCAAATTCTTAAACGCGTCGCTGATGAATATGACCTCGCGGTGATCAGTGAAATCGTAACGCCCGCACACATTGAGCAAGCGATTGATTACATTGACGTCATTCAGATCGGCGCGCGGAACATGCAAAACTTTGAATTGCTGAAAGCCGCCGGCTCCGTTAAAAAGCCGGTATTGTTAAAACGCGGTCTTGCCGCAACAATTTCAGAGTTCATCAATGCAGCTGAATACATCATGTCACAAGGAAACGACCAAATCATTCTTTGTGAGCGCGGAATCAGAACGTACGAAACGGCAACGAGAAACACACTCGACATTTCTGCCGTGCCGATTTTGAAACAGGAAACTCACTTGCCGGTGTTTGTTGACGTCACACACTCAACAGGCCGCCGCGATCTCCTGCTTCCGACAGCAAAAGCGGCGCTTGCGATCGGCGCTGACGGCGTGATGGCCGAAGTTCACCCTGATCCTTCCGTTGCCCTTTCAGACTCTGCGCAGCAGATGGATATACCTGAATTCGAGAAATGGCTGAACGAATTAAAGCCAATGCTGAAAGTAAAAGCATAA	MSNKELESLRQQADALNLEILKLINERGAVVKEIGKAKEAQGVNRFDPVRERTMLNRIIESNDGPFENSTIQHIFKEIFKAGLELQEEDHSKALLVSRKKKAEDTIVDIKGEKIGDGDQRFIVGPCAVESYEQVAEVAAAAKKQGIKILRGGAFKPRTSPYDFQGLGVEGLQILKRVADEYDLAVISEIVTPAHIEQAIDYIDVIQIGARNMQNFELLKAAGSVKKPVLLKRGLAATISEFINAAEYIMSQGNDQIILCERGIRTYETATRNTLDISAVPILKQETHLPVFVDVTHSTGRRDLLLPTAKAALAIGADGVMAEVHPDPSVALSDSAQQMDIPEFEKWLNELKPMLKVKA	PGPT0012915_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012915-aroG-K13853	NA	NA
D1-12_01992	327			hypothetical protein	ATGACAAAACAGCTGATATCGTCTGAAGAAGAGTTCAAAAATGCCGCTGAGAAAGAAAACACGCTCGTGTTTTTGAAACACAGCACAACCTGCCCGATCAGCCAAGCCGCGTTTCAGGAGTTTGACGCCTTTGCATCGGAGCATTCGGAAGTGCCTTCTTATTACCTGCAGGTGCAGGACAGCCGGCCGCTTTCAAACTATATCGCCGAGACATACGGCGTGAAACATGAAAGCCCGCAAGTATTCGTCATTACAAACGGCGAAGTGAAATGGCACGCGTCTCATTCACAAATCACAAAAAACGCAATAGAGCAGCACCTCTCATAA	MTKQLISSEEEFKNAAEKENTLVFLKHSTTCPISQAAFQEFDAFASEHSEVPSYYLQVQDSRPLSNYIAETYGVKHESPQVFVITNGEVKWHASHSQITKNAIEQHLS	PGPT0015028_158	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015028-ytxJ-NA	NA	NA
D1-12_01993	414			hypothetical protein	ATGAGCAAAGATGGAATCAATAGTAAGGATTTTTTAATCGGAACGCTGATCGGGGGAATTATCGGCGCGACAACGGCGTTGTTTCTGGCGCCTAAATCAGGTAAGGAGCTGCGCGACGATCTCGGCAGTCAGGCTTCTGCGTTAAAGGATAAGACGGACAGAATGACGGCCGACGCGAAAGAAAAAGGCTCTCAATATGTCAGCATCGCCAAGGACAAAACATCTAATATCACCCAGCTGGTAGCTGATCAGTCAGGCCAGATTATGAATAAAGTGAAGGATTTAAAAGACCGTTCTAAGAGCACACTAACCGAGAAAGCCGAAGAGACGAGAAGCGAAATGCAGGACACGGCCCAAAGCATCAAGGCCGAAGCGGAAGACGCCGGGGAAAAAGCCGGTCAGGCAAATCGCTGA	MSKDGINSKDFLIGTLIGGIIGATTALFLAPKSGKELRDDLGSQASALKDKTDRMTADAKEKGSQYVSIAKDKTSNITQLVADQSGQIMNKVKDLKDRSKSTLTEKAEETRSEMQDTAQSIKAEAEDAGEKAGQANR				NA	NA	NA	NA	NA
D1-12_01994	423			hypothetical protein	ATGATCATCATTCTTTACTTAAGCGTCGCACTCATTGCCGTTGCATTTCTCATCCTCGTCATCTATCTGTCCAAAACATTAAAGTCCGTGCAGATGACTTTAACAAACGTTGCCTCGACTTTAGACGGCCTTGAAGGGCAGATGAAAGGCATTACCGCAGAGACAACCGAGCTGTTACATAAGACAAACCGTCTCGCGGAAGACATTCAGGAAAAATCAGAGAAATTAAATACGGTTGTCCATGCTGTCCAGGAAGTGGGAACTTCCGTCCAGCAGTTTAATACATCCATAAAGCAGGCAGCAGGTTCCGTTACGGCCTCTGTAAGAGAGAATCAGGATAAGATCAGTCAGGTTGTCACCTGGAGCCAGGCCGCTATGGAAATATGGGACAAGTGGAAGCAAAAGAAAAAAACATCGCTTTAA	MIIILYLSVALIAVAFLILVIYLSKTLKSVQMTLTNVASTLDGLEGQMKGITAETTELLHKTNRLAEDIQEKSEKLNTVVHAVQEVGTSVQQFNTSIKQAAGSVTASVRENQDKISQVVTWSQAAMEIWDKWKQKKKTSL				NA	NA	NA	NA	NA
D1-12_01995	1299	murC		UDP-N-acetylmuramate--L-alanine ligase	ATGACTGTTTATCATTTTGTTGGAATAAAAGGGACAGGTATGAGCCCGCTTGCTCAAATCCTGCATGATACAGGGTATCAGGTGCAGGGATCGGATATCGAGAAGCAGATTTTCACTCAGGCTGCCCTTGAAAAAAGAAATATCCCGATCTATCCGTTCAGCGCCGATAACATCAAACCCGGCTTAACGGTAATCGCCGGAAACGCATTCCCTGATTCTCATCCGGAAATCGCAAAGGCGCTCGCTGAAGGGATTCCTGTCATCAGATATCATAAATTTTTAGCTGAATATATGAAAAAATATACAAGTGTCGCGGTAACGGGCGCACACGGCAAGACGTCCACAACGGGCCTCTTGGCACACGTGATGCAGCAGGCGAAGCCGACTTCGTTTCTTATCGGGGACGGAACGGGCAGAGGAAATGAAAGCAGCGAATACTTTGTATTTGAAGCCTGCGAGTACCGCCGTCATTTCTTAAGCTATCAGCCTGATTATGCGATTATGACGAATATTGATTTTGACCACCCTGATTATTTCGCCAACATTGACGATGTGTTTGATGCTTTCCAAAACATGGCGCTTCAAGTCAACAAAGGCATCATTGCCTGCGGTGATGACGAGTACCTGCCGAAAATTCACGCCAATGTGCCTGTCGTGTATTACGGCACGGGAGAAGAAAATGATTTTCAAGCGAGAAACATCGTAAAAAATACGGAAGGCACGACATTTGACGTCTTTGTCCGCAATACGTTTTACGATACGTTCTACATCCCGGCATACGGCCATCACAATGTCCTCAATTCCTTAGCGGTCATTGCGCTCTGCCACTATGAAGAGATAGACGTGAACATGATTAAGCTCGGACTTGAATCATTCGGCGGCGTCAAACGCAGATTCAATGAAAAAGTGATCGGCAGCCAGGTACTGATCGACGACTACGCCCACCATCCGACTGAAATCAAAGTCACGATTGAGGCGGCGCGCCAAAAATATCCCGAACGTGAAATCATCGCGGTATTTCAGCCGCATACGTTTACACGGACGCAATCATTCCTGGATGAATTCGCAGAAAGCTTAAGCGCGGCTGACCGCGTGTATCTGTGTGACATTTTCGGCTCTGCCCGCGAGAACGTCGGCAAGCTCACGATCACGGATCTTCAGGAAAAAATCGATAACGCAGAACTCATTGAAGAAAATGACACATCCGTGTTAAAAGCGCATGAAGGCGCAGTGCTGATCTTCATGGGCGCCGGAGACATTCAAAAATATATGAGAGCCTATGAAAACGTCATAGCGTAA	MTVYHFVGIKGTGMSPLAQILHDTGYQVQGSDIEKQIFTQAALEKRNIPIYPFSADNIKPGLTVIAGNAFPDSHPEIAKALAEGIPVIRYHKFLAEYMKKYTSVAVTGAHGKTSTTGLLAHVMQQAKPTSFLIGDGTGRGNESSEYFVFEACEYRRHFLSYQPDYAIMTNIDFDHPDYFANIDDVFDAFQNMALQVNKGIIACGDDEYLPKIHANVPVVYYGTGEENDFQARNIVKNTEGTTFDVFVRNTFYDTFYIPAYGHHNVLNSLAVIALCHYEEIDVNMIKLGLESFGGVKRRFNEKVIGSQVLIDDYAHHPTEIKVTIEAARQKYPEREIIAVFQPHTFTRTQSFLDEFAESLSAADRVYLCDIFGSARENVGKLTITDLQEKIDNAELIEENDTSVLKAHEGAVLIFMGAGDIQKYMRAYENVIA	PGPT0024120_4832	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
D1-12_01996	2604	sftA		DNA translocase SftA	ATGAGTTGGCTGAATAAATTTTTTGACTTATTTTTAGGTGAAAAAGAAGAAGAGCATGAACGTGAACCGAACACGCATGCCCAAATCCCGAAACAGCAGATACCGGATCAGCCAGAAGGCAAATTAACGCGCATGGAAGATCCTAAAATATATTACGAATATCCGAAAGGGAATTTCCGCTTCCCCGTCGTTCCGGACGGCTATAAGCGAACGGAGCAAAACCAAAGACAGCGGGAAAGGCACGAACGCCGCCAGCCGTCCCGGGGTTATGCCGCCGGGCAGGAGCAAACCGAGCGGAAACAGCATACACATAAAGAGCCTGATACGGTGAAAAAGCCCTTTAAACCGTCATCGATTCCTTCACCGGTTTACGGCTTTCAATCTCAGCACAGCATAAAAAAAGCGCCTATTTCCGAAAAGCGGCGTGAAGAGAACGTAACATTGCTGTCAGAGGAGCAATTTGTTTCGCCAAAAGCCGGTCAGGAAACGGAAAAAGAGCCCGTCTTCACAACATCCGGCATAACAAAACAGACGAATGACCGGCCAGAACCGTTTGCGAAACAAGAAACGGAAGAAATCCCGGCTGTTAAAAAAGAGGAGCTTCACACCGAGGCTGAGAATGCAAAAGAGCAAGTGTTTGCAGCAGCAGAACCGCAGCAGACTGAAGAGCGGGAGCACACGGAAAGCGCAGAGTCTGCCGGCTTTACAGAAGAACAGGAGCATGAACAAACCCGCCCGCAGCCTATAATAGAGTCTGAGTATGAAGCATCCCGAACGGCTGACAACACAGAGGAACAAGCGGCGCCGCAGGAGGAACATCAGGAGCCTGAGCCGGAAAAAGCACCGCCTTTTGAAACCGCAGAAGAACCGGTGTATACATACACAGAACCCGGATACGATGAGGAAGTTCAGCCGCAGTCTGAAGACAAGCCTGAATCAGGAGAAACCGACGCGAAACAGGAAGCAGATGCTCAGCCTGAGTACAATGAAGCAGAGCGGCATTCAGACCCCGAGCCTGAACCTGCAAGCATCGAGACGGCCGATGCCCCGTCCCGGCCTGCCGAAGAAAAAACGGAGCATCGCGGACAGCCTCAGACTGTGAAAAAAGCGGAGCGGCCGAAAGAGCGCAATGTACCGTTTAACGTCATGATGCTTAAAAGCGATAAACACAAGCAGACGAAGACGCCAGAGGGCGGAGCGAGCTATGTCTTTCCGAATCTGTCGCTTCTGGACGTACCGCCGGCGCAAAGACATGACGACCAATCGTGGATTGAAGAACAGCGCGAGCTTTTAAACGTTACGCTGAAAAACTTTAATGTGCGCGCCCAAGTCGTTCATGTCACACAAGGCCCGTCCGTCACACGTTTTGAAGTGCATCCTGAGCCCGGAGTGAAAGTGAACAAAATTACAAACTTAGCAGATGATATTAAACTGAGCCTGTCTGCCAAGGATATTCGGATTGAGGCGCCGATCCCCGGTAAAAACACGATCGGCATTGAAGTTCCGAACCGCGTAAGCAAAGTCGTCGATTTAAGGCAGATGATCAGAAGCGCCGCTTTCAGGACGAATCCGTCTCCGCTTACAGCCGCGCTCGGTGTCGATATTTCCGGAAACCCGGTCGTCATTGATTTGAAAAAGATGCCGCACGGGTTGATAGCGGGTGCGACAGGATCGGGAAAAAGCGTCTGCATCAATACCATTTTGGTCAGTCTGCTTTATAAGGCGGATCCGAGTGATGTCAAAATGCTTCTGATTGATCCGAAAATGGTCGAGCTTGCGCCTTATAACCAAATTCCGCATTTGGTCAGCCCCGTCATCACGGACGCCAAAGCCGCGACCGCCGCGTTAAAATGGGTTGTGGAAGAGATGGAACGGCGATATGAACTGTTTGCCCATTCGGGTGTGAGAGATATCGGCCGCTTTAATGAATTAACCGCCGATCATAAGACAGGCGAAAAGCTCCCGTACCTCGTAGTGGTTATTGATGAGCTTGCCGATTTAATGATGGTCGCGCCGAACGATGTGGAAGAAAGCATTGCCAGAATCGCGCAGAAAGCGAGAGCCTGCGGCATTCATCTGCTTGTCGCGACACAGCGTCCGTCTGTCGATGTCATTACCGGAATGATCAAGGCAAACATACCGACGAGGATTGCATTCTCCGTCTCAAGCCAGGTAGATTCCAGAACGATCATCGACATGGCGGGAGCGGAAAAGCTGCTCGGAAAGGGCGACATGCTGTACTGGGAAAACGGTACCGGAAAACCGGTGCGCCTGCAGGGCAACTTTGTATCCGACAGAGAGATTGACCGCGTCGTCTCTCATGTCAGAAAGCAGCTGCCGCCTTCTTATTTGTTTGAACAGGAAGAACTGATCAGGCAGGGAACCGCCCTCAAGGAAGAAGACGAACTGTTTCCTGAGGCGTGCCAATTCGTCGTGGAGCAAAACAGCGCCAGCACCTCAAGCCTTCAAAGAAGGTTCAGAATCGGTTATAACCGCGCCGCGAGGCTGATTGACATGATGGAAGCCGAAGGCATGATCTCAGAAGCGAAGGGCAGCAAACCCCGTGAAGTGCTGATTACGGCCGCTGACATTGCTCAAGAATAA	MSWLNKFFDLFLGEKEEEHEREPNTHAQIPKQQIPDQPEGKLTRMEDPKIYYEYPKGNFRFPVVPDGYKRTEQNQRQRERHERRQPSRGYAAGQEQTERKQHTHKEPDTVKKPFKPSSIPSPVYGFQSQHSIKKAPISEKRREENVTLLSEEQFVSPKAGQETEKEPVFTTSGITKQTNDRPEPFAKQETEEIPAVKKEELHTEAENAKEQVFAAAEPQQTEEREHTESAESAGFTEEQEHEQTRPQPIIESEYEASRTADNTEEQAAPQEEHQEPEPEKAPPFETAEEPVYTYTEPGYDEEVQPQSEDKPESGETDAKQEADAQPEYNEAERHSDPEPEPASIETADAPSRPAEEKTEHRGQPQTVKKAERPKERNVPFNVMMLKSDKHKQTKTPEGGASYVFPNLSLLDVPPAQRHDDQSWIEEQRELLNVTLKNFNVRAQVVHVTQGPSVTRFEVHPEPGVKVNKITNLADDIKLSLSAKDIRIEAPIPGKNTIGIEVPNRVSKVVDLRQMIRSAAFRTNPSPLTAALGVDISGNPVVIDLKKMPHGLIAGATGSGKSVCINTILVSLLYKADPSDVKMLLIDPKMVELAPYNQIPHLVSPVITDAKAATAALKWVVEEMERRYELFAHSGVRDIGRFNELTADHKTGEKLPYLVVVIDELADLMMVAPNDVEESIARIAQKARACGIHLLVATQRPSVDVITGMIKANIPTRIAFSVSSQVDSRTIIDMAGAEKLLGKGDMLYWENGTGKPVRLQGNFVSDREIDRVVSHVRKQLPPSYLFEQEELIRQGTALKEEDELFPEACQFVVEQNSASTSSLQRRFRIGYNRAARLIDMMEAEGMISEAKGSKPREVLITAADIAQE	PGPT0030468_3941	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
D1-12_01997	606			hypothetical protein	ATGAACGCTTTTTACAATAAAGAAGGTGTGGGAGATACGCTTCTGATCTCTCTTAAAGATGCGGCACGCGAAGAAATCGCCTATGAAAGAGAAGGCGATGTCATCAGAATTTTTAACAAAGAAACAAAAGAAACGACGGGCTTTAACATTTTTAATGTGTCTTCTTACTTACAGATTGAGGACAATGGCCCCGTCGCTTTGTCTGAGACATTCGTTCAGGATGTGAATGAAATACTGAACAGAAACGGCGTTTCAGAAACGCTGACGGTTGACCTTTCTCCGAAATTTGTTGTCGGTCACGTTGAATCGAAAGAAAAACATCCGAATGCGGATAAACTGAATATCTGCCAAGTGAATGTGGGAGAGGAAACCCTTCAAATCGTTTGCGGCGCGCCGAATGTGGACAAAGGGCAAAAAGTCGTCGTCGCTAAAGTCGGCGCGGTAATGCCGAGCGGACTTGTGATTAAAGACGCTGAATTAAGAGGCGTTCCGTCAAGCGGCATGATCTGCTCCGCGAAAGAACTCGCTTTGCCGGATGCGCCGGCGGAAAAAGGGATTCTTGTTCTTGAAGACAGCCGCGAGGCCGGCGAAGCATTTCAATTCTAA	MNAFYNKEGVGDTLLISLKDAAREEIAYEREGDVIRIFNKETKETTGFNIFNVSSYLQIEDNGPVALSETFVQDVNEILNRNGVSETLTVDLSPKFVVGHVESKEKHPNADKLNICQVNVGEETLQIVCGAPNVDKGQKVVVAKVGAVMPSGLVIKDAELRGVPSSGMICSAKELALPDAPAEKGILVLEDSREAGEAFQF				NA	NA	NA	NA	NA
D1-12_01998	810			hypothetical protein	TTGAAAATGACGTCAAGGAAGCTGGCGGATTTATTAAAACAGCGCCTGCAGCACGAGAACCGATCCTTCTTTTTTGACAGAGAAAAAGACACCCTCCGTGTTGAGGATCAAACGACCAAAAAAGGCATCACATTGGAGCTCCCGCCGATCATTGCGAAGTGGGAAACGAAAAAAGAAGAAGCGATCGACGAAATCGTCTACTATGTGTCAGAAGCAATGGAGGCGATGGAAGGCAGCGGACAGGAGATGTCCGGAAAGGAAGCCGGAATCTATCCGGTCATCCGCTCCACATCATTTCCCGATCAAACGAGCGACGGCATTCCGCTCGTGTATGATGACCATACGGCTGAAACGAGAATCTACTACGCGCTTGACCTCGGTAAGACGTACCGCTTAATTGACAGCCGTATGCTCGAGAAAGAAAACTGGACAAAAGAACGGATCAGGGAGACGGCGTCATTCAATCTCCGCTCTCTTCCTTCGGTTGTGAAACAGGATACGGTTGCGGACAATTATTTTTATTTTTTCAGGGCGAATGACGGCTATGACGCCAGCCGGATTCTCAATGATTCGATTCTTCATGAATACAAGCAGGCCGCTGAAGGCGAATTGGCGATTTCCGTCCCGCATCAAGATGTATTAATACTTGCTGACATTCGAAATGAATCGGGTTATGATATTTTAGGGCAAATGTCCATGAGCTTCTTTGCAAGCGGCACGGTGCCGATTACGGCCCTTTCATTTCTGTATAATGAAGGCAGACTGGAACCTGTGTTTATCATGGCGAAAAGCCGGCCGAAAAAGGATTAG	MKMTSRKLADLLKQRLQHENRSFFFDREKDTLRVEDQTTKKGITLELPPIIAKWETKKEEAIDEIVYYVSEAMEAMEGSGQEMSGKEAGIYPVIRSTSFPDQTSDGIPLVYDDHTAETRIYYALDLGKTYRLIDSRMLEKENWTKERIRETASFNLRSLPSVVKQDTVADNYFYFFRANDGYDASRILNDSILHEYKQAAEGELAISVPHQDVLILADIRNESGYDILGQMSMSFFASGTVPITALSFLYNEGRLEPVFIMAKSRPKKD				NA	NA	NA	NA	NA
D1-12_01999	324	ytpP		Thioredoxin-like protein YtpP	ATGAAAAAGATTGAAAGCACGGAAGAATTGCAAAAAGCGGTACAAGACGATTGGGCGGTATTTATGTTTTCAGCGGATTGGTGCCCGGACTGCCGCTTTGTGGAGCCGTTTCTTCCTGAGCTGGAAGCGGACTTTCCTGAATTCACTTATTACTACGTAGACCGCGATCAATTTATTGATACATGCGCGGAATGGGAAATTTACGGCATTCCGAGCTTTGTTGTGTTTAACGGCGGAAAAGAAGTGAACCGCTTCGTCAGCAAAGACCGTAAAACAAAAGAAGAAATTGAGCAATTTTTAACCGATTCCCTTGCTAAAGCATAA	MKKIESTEELQKAVQDDWAVFMFSADWCPDCRFVEPFLPELEADFPEFTYYYVDRDQFIDTCAEWEIYGIPSFVVFNGGKEVNRFVSKDRKTKEEIEQFLTDSLAKA				NA	NA	NA	NA	NA
D1-12_02000	447			hypothetical protein	ATGCAGTTTGTCGTGTATTTAGCGGGTGAAATCCACAGTGATTGGCGGGATGAAATCAAACAAAAAGCAAAAGCGTTGAACCTGCCGATTACGTTTGTCGGTCCGATGGAAAACCATGAACGCTCAGACAATATCGGAGAAGAGATTATGGGCGTGCAGCCCGATTCTGTTTTAAAAGACGCCAGAGCTTCTGATATCAACAATTTCCGTACAGAGGTGCTGATGGAAAAAGCCGATTTTGTGATCGCCCTGTTTGGCGAGAAATATAAACAGTGGAATACCGCGATGGATGCTTCTTATGCCATCGCAAAAGGAAAGCCGCTCATTCTCATCCGCCCGAAAGAACTTCATCATCCGCTGAAAGAGCTTTCCGGAAAAGCGAATATTACGGTCGAAACCGTAAATCAAGCGATGAAAGCACTCTCTTATTTATTTGAAACAGAATAA	MQFVVYLAGEIHSDWRDEIKQKAKALNLPITFVGPMENHERSDNIGEEIMGVQPDSVLKDARASDINNFRTEVLMEKADFVIALFGEKYKQWNTAMDASYAIAKGKPLILIRPKELHHPLKELSGKANITVETVNQAMKALSYLFETE				NA	NA	NA	NA	NA
D1-12_02001	1074	ysdC_3	COG1363	Putative aminopeptidase YsdC	ATGAATGAGGAAACGAAAACGCTTTTCCGGACGCTGACGCAGCTTCCCGGCGCACCGGGAAATGAACATCAGGTCCGCTCCTTTATGAAACGGGAGCTTGCGAAATATGCGGATGACATCGTGCAGGACAGACTCGGAAGTGTTTTCGGAGTAAGGCGCGGCGCTGAAGATGCGCCGACCGTTATGGTAGCCGGCCATATGGATGAAGTCGGGTTTATGGTAACGCAGATTACGGATAACGGCATGCTGAGATTTCAGACGCTAGGCGGCTGGTGGAGCCAGGTGCTGCTTGCCCAGCGCGTCGAGGTGCAGACGGATAACGGACCGATTATCGGCGTCATCTCAAGCATCCCGCCCCACATTTTAACGGATGCCCAGCGCGCAAAGCCGATGGAGATCAAAAATATGATGATTGATATCGGTGCCGATGACAGAGAAGACGCGGTCAAAATGGGGATCAGACCGGGACAGCAGGTCGTGCCTGTCTGCCCGTTCACCCCGATGGCCAACGAGAAGAAAATATTGTCCAAAGCGTGGGATAACCGCTACGGCTGCGGGTTAAGCATTGAACTATTAAAAGAGCTGCACGGAAAAGACCTGCCGAACAATCTGTACGCCGGGGCCACCGTACAGGAGGAAGTCGGCTTGAGAGGGGCGCAGACAGCGGCCAACATGATTCAGCCTGATCTCTTCTTCGCGCTTGATGCCAGCCCGGCAAATGATATGAGCGGCGATAAGGAGCTGTTCGGCCGTCTCGGCGAGGGGGTGCTGCTCCGCATTCTTGACAGAACGACGGTCATGCACCGCGGGATGAGAGAGTTTGTCCTTGATATGGCGGAAACGCACAATATCCCTTATCAATATTTCGCTTCAGGCGGGGGAACGGATGCCGGACGGGTCCACATCTCAAACAGCGGGGTTCCGTCTGCCGTCATCGGCATTTGTTCAAGATACATTCATACAAATGCCGCTATCATCCATGTCGATGATTATGCAGCGGCGAAAGAAATGCTCATTAAGCTTGTCATGGCGAGTGACAAACAGACGGTCGAAACGATCAGAGAAAATGTATAA	MNEETKTLFRTLTQLPGAPGNEHQVRSFMKRELAKYADDIVQDRLGSVFGVRRGAEDAPTVMVAGHMDEVGFMVTQITDNGMLRFQTLGGWWSQVLLAQRVEVQTDNGPIIGVISSIPPHILTDAQRAKPMEIKNMMIDIGADDREDAVKMGIRPGQQVVPVCPFTPMANEKKILSKAWDNRYGCGLSIELLKELHGKDLPNNLYAGATVQEEVGLRGAQTAANMIQPDLFFALDASPANDMSGDKELFGRLGEGVLLRILDRTTVMHRGMREFVLDMAETHNIPYQYFASGGGTDAGRVHISNSGVPSAVIGICSRYIHTNAAIIHVDDYAAAKEMLIKLVMASDKQTVETIRENV				NA	NA	NA	NA	NA
D1-12_02002	318			hypothetical protein	TTGAAATTACGTCATTTTCTCTTAGGTGCAGGAGTCGGATTATGCGCTGCCATCGCAGTGAAAAAGTATGCGATGAAACCTTATATCTCTTCAGAAAAAGCGCTCCGTATCGTGAAAGCGGCTTTTAAACAGCGCGGGCCGATAGACGGATCATGGATTTACACAGAGCCCGAGCCCTACCAGGTAAACGGAGAAACCATCCAGGTATACAAAACCGGCGTGACACGTTCGGCATTCGGCGAACTGGAGCAATATGAAGTTATGGTCAATGCAAAAACAGGCCAGATTGTCGATGTCATTGATTCTGTCGCCTCATAA	MKLRHFLLGAGVGLCAAIAVKKYAMKPYISSEKALRIVKAAFKQRGPIDGSWIYTEPEPYQVNGETIQVYKTGVTRSAFGELEQYEVMVNAKTGQIVDVIDSVAS				NA	NA	NA	NA	NA
D1-12_02003	1698	maeA_1	COG0281	putative NAD-dependent malic enzyme 2	GTGAATCAATTTCAAGTGACGAAAGATGGAGAAATCAAAACAACTCTGCGCGGATTAGAAGTGCTTTCTACGCCTTTTTTAAATAAAGGGGTGGCCTTTACACAGGAGGAAAGAAAGGAACTCGGGCTCGAGGGATTTCTGCCGCCGAAAGTATTGACAATCGAAGAGCAGGCGAGGCGGGCCTACGAACAATTCAGTTCGCAGCCTGATGAGCTGAGCAAAAATGTCTACTTGACCGCTCTCCATGACCGGAATGAAACGTTATTTTACAGGCTGTTAAATGATCATTTAGGCGAAATGCTGCCGATCGTATATACGCCGACCGTTGGCACTGCGATCCAGCGTTACAGCCATGAGTACAGAAAACCCCGCGGTCTGTATTTGTCAATAGATGATCCTGAGGGAATGCGCGCCGCATTTCAGCAGTTCGGAAAAAATGAAAACATTGACTTAATCGTTGCCACAGATGCGGAGGGCATTCTGGGAATCGGTGACTGGGGCGTCGGCGGCATCGCCATTTCTGTCGGAAAACTCGCGGTGTATACGGCGGCGGCCGGAATTGATCCGTCACGAGTGCTTGCGGTCGTATTGGACGCGGGGACAAATCAGGAAAGCCTCTTAAATGACCCGCTTTACGTCGGAAACCAGCATTCAAGAGTACGCGGCGAGAAATATGACCGCTTTATTGATGAGTATGTCTCGCTTGCCCGGGAAACATTCCCGAATGCGCTGCTTCATTGGGAGGATTTCGGTACGGCTAACGCCCGCGGCATATTAAAACGGTATAAAGATAAAGTCTGTACGTTTAACGATGACATTCAAGGAACGGGCGCGGTATCGCTTGCAGCTGTTTTAGCGTGTGCGAAAGCATCAAAAGTGCCTTTAAAAGAGCATAAAGTCGTCGTCTTCGGCGCGGGAACGGCCGGTATCGGAATTGCTGAGCAGCTGCGCGAAGCCATGGTGCATGACGGATTAAGCGAAGAAGAATCCTACAGCCATTTTTGGTGTATCGACAGAAACGGATTGTTAACGGATGATATGAAGGACTTGCGTGATTTTCAGGTTCCGTACGCTCGCCCTGCTGATGAAGTGAAAGAGTACGGCCGCAGCGGTGAAGGCGGATCAATCGATCTGGCGGAGACGGTGCGTCAAGCCAAGCCGACGATTCTGATCGGCACATCCACCGTATCAGGCGCATTTACGGAAGAAATCGTCAAAGAAATGGCCTCGCATGTCAAACGGCCCGCTATTTTGCCGATGTCAAACCCGACGACATTATCAGAAGCAAAACCTGAAGATTTAATTAAATGGACGGAAGGCCGCGCGCTTGTCACTACGGGAAGTCCATTTCCGCCTGTTGCGTATAACGGCGTTACCTACCATATCGGACAGGCGAATAACGCGCTCGTATTCCCGGGACTCGGGCTCGGAACGATTGTGACGAAAGCAAGGCTCATTACGGACAATATGTTCGTTGCCTGCGCGAATGCCATCGCCGGTATGGTGGACGTCGGCAAGCCCGGTGCGCCGATGCTTCCGAAAGTGGAGGATCTCAGGACGGTATCGGCAACCGTGGCGGTAGCCGTAGCGAAAGCAGCCATTCAGGACGGTGTAGCGGAAACGGAACCCGAGGATCTGATCCAAGCGGTGCAGGACGCGATGTGGCACCCCGTATATAAACGAATTCGGCCGATGTAA	MNQFQVTKDGEIKTTLRGLEVLSTPFLNKGVAFTQEERKELGLEGFLPPKVLTIEEQARRAYEQFSSQPDELSKNVYLTALHDRNETLFYRLLNDHLGEMLPIVYTPTVGTAIQRYSHEYRKPRGLYLSIDDPEGMRAAFQQFGKNENIDLIVATDAEGILGIGDWGVGGIAISVGKLAVYTAAAGIDPSRVLAVVLDAGTNQESLLNDPLYVGNQHSRVRGEKYDRFIDEYVSLARETFPNALLHWEDFGTANARGILKRYKDKVCTFNDDIQGTGAVSLAAVLACAKASKVPLKEHKVVVFGAGTAGIGIAEQLREAMVHDGLSEEESYSHFWCIDRNGLLTDDMKDLRDFQVPYARPADEVKEYGRSGEGGSIDLAETVRQAKPTILIGTSTVSGAFTEEIVKEMASHVKRPAILPMSNPTTLSEAKPEDLIKWTEGRALVTTGSPFPPVAYNGVTYHIGQANNALVFPGLGLGTIVTKARLITDNMFVACANAIAGMVDVGKPGAPMLPKVEDLRTVSATVAVAVAKAAIQDGVAETEPEDLIQAVQDAMWHPVYKRIRPM	PGPT0001350_715	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001350-maeA|sfcA|ywkA-K00027	NA	NA
D1-12_02004	846	ytnP	COG0491	putative quorum-quenching lactonase YtnP	ATGGAGACATTGAATATTGGGAATATTTCATTAACATGGCTGGACGGCGGTGTAACGCATATGGACGGCGGAGCGATGTTCGGCGTTGTCCCGAAGCCTTTATGGTCGAGAAAATACCCCGTAAATGACAAAAACCAGATTGAATTAAGAACAGACCCGATTCTGATCAGAACAAACGGCCTGAATATATTGGTTGACGCGGGTATCGGCAGAGGGAAATTCTCTGATAAACAAAAAAGGAATTACGGCGTAACACAGGAATCCAATCTGAAACAATCTCTTCGTGAACTCGGGCTTTCCTGTGAGGACATTCATATTGCCGCGATGACCCATCTTCATTTTGACCATGCATGCGGTCTGACGGAGTACAGCGGAGAGGAGCTTGTCTCTGTTTTCCCGAATGCCCGCATTATCACTTCTGCGACAGAGTGGCGCGAAATGAGAAACCCTAATATCAGATCGAAAAATACATATTGGAGAGAAAATTGGGAGGCGGTACAAGATCAGGTCGAAACCTTTGAGAACGAGTATCAGCTGACAGAAGGCATTACGATGCACCACACCGGCGGCCACAGCGACGGCCACAGCGTTATCGTCTTAGAAGACGGAGGGGAGACGGCTGTGCATTTTGCCGACCTGATGCCGACGAACGCGCATAAAAATCCGTTATGGGTGCTGGCCTATGATGATTATCCGATGACCTCCATTCCTCAAAAGCAGAAATGGCAGACGTTCGCGGCAGAAAAAGACGCCTGGCTGATTTTCTATCACGACGCGATTTACAGAGCGGTAAAATGGGGAGAAGACGGCGAAGTGGCTGCATCTGTCAAACGGGAGAAAAAATAA	METLNIGNISLTWLDGGVTHMDGGAMFGVVPKPLWSRKYPVNDKNQIELRTDPILIRTNGLNILVDAGIGRGKFSDKQKRNYGVTQESNLKQSLRELGLSCEDIHIAAMTHLHFDHACGLTEYSGEELVSVFPNARIITSATEWREMRNPNIRSKNTYWRENWEAVQDQVETFENEYQLTEGITMHHTGGHSDGHSVIVLEDGGETAVHFADLMPTNAHKNPLWVLAYDDYPMTSIPQKQKWQTFAAEKDAWLIFYHDAIYRAVKWGEDGEVAASVKREKK				NA	NA	NA	NA	NA
D1-12_02005	654	trmB	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGAGAATGCGCCATAAACCTTGGGCGAATGATTTTCTGGCAGAAAACGCTGACATCGCCATCAGTGACCCGGCCCAGTATAAAGGGCGGTGGAACACGGTCTTTGGCAATGACAACCCGATCCATATTGAAGTCGGTACGGGAAAAGGGCAGTTCATTTCAGGAATGGCCAAGCAGAATCCGGATATCAACTATATCGGGATTGAGCTGTTTAAAAGCGTCATCGTCACTGCCGTCCAAAAAGTAAAGGACAGCGGGGCTCACAATGTCCGTTTGTTAAATATAGACGCGGAAACACTGAATGACGTATTTGAACGGGGAGAAATCAAGCGCGTATATTTAAACTTTTCTGACCCGTGGCCGAAAAACCGTCACGAAAAGCGCCGTTTAACATTTAAAACGTTCTTGAAAAAATACGAAGAAGTGATGGGCGAAACAGGTGAGATTCATTTTAAAACCGATAACCGCGGGTTATTCGAATACTCTCTGAAAAGCTTTTCCGAATACGGCCTGTTTCTGACGGAAGTCAGCCTTGATCTGCACAACAGCGATCCGAAGGGCAATATTATGACAGAATACGAAGAAAAATTCTCCGCGCTCGGCCAGCCGATTTACCGGGCCGAAGTTGAATGGAGAACAAAAGACAGACTCTGA	MRMRHKPWANDFLAENADIAISDPAQYKGRWNTVFGNDNPIHIEVGTGKGQFISGMAKQNPDINYIGIELFKSVIVTAVQKVKDSGAHNVRLLNIDAETLNDVFERGEIKRVYLNFSDPWPKNRHEKRRLTFKTFLKKYEEVMGETGEIHFKTDNRGLFEYSLKSFSEYGLFLTEVSLDLHNSDPKGNIMTEYEEKFSALGQPIYRAEVEWRTKDRL	PGPT0020310_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020310-tyrB-K00832	NA	NA
D1-12_02006	279			hypothetical protein	ATGGGCTTAACAAGCGAACATCAGGTCCGGTTATTAAAGGACATACTGGCCGACCACCAATTGGATTGCTGCGGCACGGTTGCCGAGTATGAACAGCTGGAGCGCGTCATCAAATCACTGATGGCCAACACCGGGCTTGATTCAAATATAAAAAACGTGCTCGAGGATGTCTACCGCTACAGCCAGTCCGGCATCACGGCCGATTCCATCGACACGCATATTCAGGAGCACCAAAACCATTTGTCCCAATGGGTGGAGCAGATGGATTCGTACTCCTGA	MGLTSEHQVRLLKDILADHQLDCCGTVAEYEQLERVIKSLMANTGLDSNIKNVLEDVYRYSQSGITADSIDTHIQEHQNHLSQWVEQMDSYS				NA	NA	NA	NA	NA
D1-12_02007	798			hypothetical protein	ATGAACTGGTTGGGACAATTACTAGGTAGCGATTGGGAGATCTTCCCCGCCGGAGGAGCTACAGGAGATGCATATTATGCGAAACATAACGGCCAACAGCTTTTTTTAAAACGTAATAGCTCGCCCTTTTTAGCCGTGTTATCCGCCGAAGGCATTGTTCCGAAGCTGGTTTGGACGAAACGGATGGAAAACGGGGACGTCATTACGGCTCAGCATTGGATGGCGGGCAGGGAGCTGAAGGCAAAGGATATGAGCGGACGCCCGGTGGCTGAGCTGCTCCGCAAAATCCACACATCAAAAGCTTTGCTCGACATGCTGAAAAGATTGGGAAAAGAACCGCTTGATCCGGGCGCCCTTTTGTCGCAGCTGAAGCAGGCCGTCTTTGCCGTGCGGCAATTTTCGCCGCTTATTCAGGAAGGCCTTGCTTATTTGGAAGCTCATGTGGATCAGGTGCAATTCGGTGAAAAAGTCGTTTGCCATTGTGATGTGAATCATAATAACTGGCTTCTGTCTGAAGACAACCAGCTGTATTTAATAGATTGGGACGGCGCCATGATAGCCGATCCGGCCATGGATCTCGGCCCTTTATTGTATCATTACGTCGAAGAGCCAGCGTGGGACAGCTGGCTTGGGATGTACGGCATGAAGCTCACGGAAGGGCTTCGGCTGCGGATGGCGTGGTACATGTTATCGGAGACCATCACCTTCATCGCCTGGCACAAATCAAAAGGAAACGACAAAGCGTATCATGATGCCATGGAAGAGCTTCATGCCCTGATGAAGCGGATTGTCAAGTAG	MNWLGQLLGSDWEIFPAGGATGDAYYAKHNGQQLFLKRNSSPFLAVLSAEGIVPKLVWTKRMENGDVITAQHWMAGRELKAKDMSGRPVAELLRKIHTSKALLDMLKRLGKEPLDPGALLSQLKQAVFAVRQFSPLIQEGLAYLEAHVDQVQFGEKVVCHCDVNHNNWLLSEDNQLYLIDWDGAMIADPAMDLGPLLYHYVEEPAWDSWLGMYGMKLTEGLRLRMAWYMLSETITFIAWHKSKGNDKAYHDAMEELHALMKRIVK				NA	NA	NA	NA	NA
D1-12_02008	930	ytlR	COG1597	Putative lipid kinase YtlR	ATGAGTCAATGGTTTTTTATTATTAATCCGGTCTCAGGAGGCGGGCGGGGCCGGCGTGTCTGGAAATCAGTTCAAAAAGAGCTGACCAGGCGCGGGGTCAGCCACCGCTCTTTTTTGACCGGGCATCCCGGACATGCGGAGGTGCTGGCGAGACAGATTTCAATGATGCAGGATCATAAGCTTAAGCGGCTGTTCGTCATCGGCGGTGACGGGACGATGCATGAAGTCATTAACGGACTGAAAGGAACGGATCAGATTGAGCTGACCTTTGTGCCTGCCGGTTCGTACAATGACTTTTCCAAAGGGCTCGGTATTAAGAAGTCGGCGCTCCTCCAAGAAATCAAAGGTCTGCACCGCCCGCTCACACGGAAATTTTTTGCGGGAAACATCAACTTTTTTCATGACAAAGCGCAATCACTTTATTTTATTAACCACCTGTCTGTCGGCTTCGATGCCTCAGTTTTGAAAGCAGCCGCGAATTTTCCGTTTTCGCGCGTTCTTCGGTTTTTGCGTCTCGGATTTGTGATTTACCCGCTCGCGCATTTACATACGGCCTCGGGGTTTCAGCCGTTCAGATTTGTTTGCACGGCAGACGGCCAGAGGCGTGAATTCCGCAATGTCTGGTTTGTCATTGCGGCTAATCACCCTTATTACGGAGGCGGCATGAAAGCGGCGCCTTCAGCAAATCCCCGTCAAAACCATTTTGATATTGTCATCGCAGAAAACCTGTCCTTTTTCTCGCTGTATCGTTTTTTATGGGCGATGAGCTTCGGCCGGCATATCAAAATGGACGGAGTGACGATGATAAAGGGGAAGGAATTCGTTTTTGAAACAGATGGGAAAATTCCGTTTCACTCTGACGGCGAGCTGATCGGAACGACGCCGTTTCGGCTTATGCCGGGCGGTACGCCGTTGAAAATAAAAACATAA	MSQWFFIINPVSGGGRGRRVWKSVQKELTRRGVSHRSFLTGHPGHAEVLARQISMMQDHKLKRLFVIGGDGTMHEVINGLKGTDQIELTFVPAGSYNDFSKGLGIKKSALLQEIKGLHRPLTRKFFAGNINFFHDKAQSLYFINHLSVGFDASVLKAAANFPFSRVLRFLRLGFVIYPLAHLHTASGFQPFRFVCTADGQRREFRNVWFVIAANHPYYGGGMKAAPSANPRQNHFDIVIAENLSFFSLYRFLWAMSFGRHIKMDGVTMIKGKEFVFETDGKIPFHSDGELIGTTPFRLMPGGTPLKIKT				NA	NA	NA	NA	NA
D1-12_02009	933			hypothetical protein	ATGGCACAGATCATCAAAATTCACGACTGCATATCCAGATATGAACTTGATCCATATCATTATATGAACCAGTTTATCCGGCTGAAGAAAGAACGCTGGGAGGCGCTTCTTGAAGCGTTTGACCGGATGACGGAAGAAAAAGAAACGGAAACGGCTGCAGGCGGGGAAACCGATCAAGCGCCGGCCAGGAAAAAATTTTCTTTAAAAAAGAGAAAAGAAGAAAATACGGCCGATATAAATGAAAAGAGGCACCAATGGTTTGATGAGCCGGAGGGAGAAGAGGCGCTGTTCGGGAATCTTCCGTCTCAAAAATCTGAGCTCGCGCCTTTTTTCAAAGATCAGCTGTATGACTTTCAATTAAAATGGGCGAGCTCCACGCTTTCTCAAAAGTCTGAGCTTTCGCAGGCGGTCAAAAGGGACAGGATGTTAAAAATGCTGGCTCAAAAGCTGCCCGATTCCTATTTTGTGATGTATCATCCGGTTCTCCAAATTCAGCAGGCGTCCGTCGAACTGAGCATGATCATCATCTCGCCGCTGGAGATTTTCTGCGCCGCTTTTATGGAAGCGGAAGAGGACAGCGTATATATCGGATCAAAACACCGTTTTTGGGAAGAAAGGGGCTCCGGCAGCACGCGTCAAGTATTGAATCCGTCTCTCAGCCTGCACCGGACGGGCTCGGTCGTTTCGCAAATCGTAAAAGAAAAGCAGGCCGACATTCCCGTGCGGAAGCTTTTGCTCAGCAGAACGTCTTATATTGATTATCCGGAGCCGCCGTACGGGCTGGAAATAGCTGATAAACGGACTGCCGCAGAGTGGGTGGAAAAGCAGCAGAAAAATACGGCGCCGATCAAGCACCACCAGCTGAAGGCGGCGAAGGCTCTTTTGTCTTACGGCTTGAGCGATTCAAGCCGGAGACAGGAATGGCTTGATTAA	MAQIIKIHDCISRYELDPYHYMNQFIRLKKERWEALLEAFDRMTEEKETETAAGGETDQAPARKKFSLKKRKEENTADINEKRHQWFDEPEGEEALFGNLPSQKSELAPFFKDQLYDFQLKWASSTLSQKSELSQAVKRDRMLKMLAQKLPDSYFVMYHPVLQIQQASVELSMIIISPLEIFCAAFMEAEEDSVYIGSKHRFWEERGSGSTRQVLNPSLSLHRTGSVVSQIVKEKQADIPVRKLLLSRTSYIDYPEPPYGLEIADKRTAAEWVEKQQKNTAPIKHHQLKAAKALLSYGLSDSSRRQEWLD				NA	NA	NA	NA	NA
D1-12_02010	552	ytlP		RNA 2',3'-cyclic phosphodiesterase	ATGAAAGCTTCATTGCCGCATTATTTTATCGGCATTCCGATTCCGGCTGACATTGCTGAACCGATTTGGGAAGCAGCCAAAAAGGAGCCGGCGTTATCATTCAAAAAATGGGTGCACCCGCATGACTATCATATTACGCTCATTTTTCTAGGAGCCGCGGATGAAGACCGGCTTGCGAAATTATCGTCTCTTCTCGCAGATGCGGCGTCGGCAGCGCAGCCGTTTACCGTACAGTTTCAGCATCTGGATATTTTCGGCGACCGCAGACAGCCGAGAGTGCTTCACCTTGAGCCCGAACGGAATGAACTGCTCTTTGATTTGCGGGAAAAAACAAAACAGGCTGTTTTGAAAGCCGGTTTTCAAGTGGAAAAACGGCCGTATCACCCTCATATGACGATGGCGCGGAAGTGGGCGGGAGACCAGCCGTTTCCTGACGATGTGCCGTTTGAAAGCGGCAGGGTGCAAAGTGCCGTCAGCCGGTTTTCCCTGTTTCAGACCCATCTTGACCGGTCGCCTAAATACGAAGAAATCGCACAGTTTCAATTGACATAA	MKASLPHYFIGIPIPADIAEPIWEAAKKEPALSFKKWVHPHDYHITLIFLGAADEDRLAKLSSLLADAASAAQPFTVQFQHLDIFGDRRQPRVLHLEPERNELLFDLREKTKQAVLKAGFQVEKRPYHPHMTMARKWAGDQPFPDDVPFESGRVQSAVSRFSLFQTHLDRSPKYEEIAQFQLT				NA	NA	NA	NA	NA
D1-12_02011	933	cysK_1		Cysteine synthase	TTGAAAATCGTAAACACCACGGCGGAGCTGATCGGCGGCACACCGATCGTAAAGCTCAATCGCCTTCAGCCAGAACATGCAGCACAGGTCTATTTAAAATTAGAATCGTTTAACCCGAGCGGCAGTGTCAAAGACAGAGCGGCTTACAATATGATCATTGAAGCGGAAAACAGCGGGCATTTAAAACCCGGCTCTGTCATCATTGAACCGACAAGCGGCAACACGGGCATCGGCCTGGCGATGAACGCGGCGGCGCGCGGCTACAAGGCAATCCTCGTCATGCCTGACACGATGACGAAAGAACGCATCAACCTCCTGAAAGCATACGGCGCGGAGGTTGTGTTAACACCGGGGGCGGAAAGAATGCCCGGCAGCATCAAAAAAGCGAAAGAACTCGCCGAACAGATTCCGGGAAGTTTTATCCCGATGCAATTCGATAACGGCGCAAATCCAGATGCCCACCGAAAAACGACCGCCATTGAAATCTATCAGGCCGTTCAGCAGCTCAACAGACCGCTCGGTGCTTTTGTGGCAACGGCGGGAACGGGCGGAACCATTACCGGAACCGGAGAAACGCTGAAGGAGCTTTTCCCGGATATGATTGTTCATGTCGCCGAGCCGGCGGGTTCCCCCGTCCTGTCTGGCGGAAAACCCGGCGCTCATAAGCTTGTCGGGACAAGCCCCGGATTTATTCCCGGCATACTGAATCAGGACGTTTACGATGAAATCATGAAAATATCTGATGAAGATGCGTATACGACAACACGTCGTCTGGCCCGGGAAGAAGGTATACTCGTCGGCCCGTCTTCAGGCGCCGCCTGCTTCGCCGCCATTGAAACCGCAAAACGCCTCCCTTCCGAACAGATCGTCATCTGTATGACGGCTGATACGGGGGAACGTTATTTATCAACGGATTTATGGTCATTTGAATGA	MKIVNTTAELIGGTPIVKLNRLQPEHAAQVYLKLESFNPSGSVKDRAAYNMIIEAENSGHLKPGSVIIEPTSGNTGIGLAMNAAARGYKAILVMPDTMTKERINLLKAYGAEVVLTPGAERMPGSIKKAKELAEQIPGSFIPMQFDNGANPDAHRKTTAIEIYQAVQQLNRPLGAFVATAGTGGTITGTGETLKELFPDMIVHVAEPAGSPVLSGGKPGAHKLVGTSPGFIPGILNQDVYDEIMKISDEDAYTTTRRLAREEGILVGPSSGAACFAAIETAKRLPSEQIVICMTADTGERYLSTDLWSFE	PGPT0002810_5687	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
D1-12_02012	1392			Putative dipeptidase	ATGAACTGGGAAGTTGAAGTCATCAGAAACAAAGAAGATCTGATCCGTGACACGCAGAAGTTTTTGCAGATCAACAGCGTAATGGACGAAACAACAGCCGGTCCCGGCCGGCCGTTTGGAGAAGGCGTCAATGCCAGCCTGACGTCACTGCTGGAATTCGGTGAAAAAGAAGGCTTCACCGTAAAGAATCTTGACGGCTATGCGGGCCATATTGAATGGGGAACGGGTGACGAAATCGTCGGCGTTCTGTGCCACGTCGATGTCGTTCCGCCCGGAGACGGCTGGACGAGCGATCCGTTTTCAGCCGATATCAGGGACGGCCGGATATATGCCAGAGGCGCCATTGATGATAAAGGGCCGACAATGGCGGCGTTTTATGCGCTGAAAATCGTCAAAGACATGCAGCTTCCTTTATCCAAACGCGTGAGAATCATCATCGGAACGGATGAAGAAAGTGATTGGAGATGCGTGGATCACTACTTCAAACACGAAAAAATGCCTGACATCGGCTTTGCTCCTGACGCGGATTTTCCGATCATTAACGCGGAAAAAGGAATTATAGATGCGTCACTGCGCATTGCAAAAAGCGCTTCTGATAAAGACGCAAAAAACGGGCTTCTGTCCTTCCGTTCAGGACTGCGCTTGAACATGGTGCCGGATGCGGCTGAAGCGGTTATTGAAGGGAACGGTCTTGATGCCGTGCACGCATATTTCAGCAAATGGCTTGAGCAGTCAAAAACACAAGGTGAAGCAGTTTCGGAAAATGGAAAACTGACGCTTCGGGTATACGGAAAATCATGCCATGCGATGGAACCGGATAATGGTGTCAATGCCGGCTTAAAGCTTGCTGAATGCCTTAACGGAACGGAGCTGGATGGAGCCGGAAAACACTTTGTCAAAACCGTCAGTGACTATTTTTTAAATGATACACGAGGCAAAAAGCTGAAAATTGATTGCAGGGATGACATCAGCGGAGAGCTTACATTGAATGTCGGCACCTTTACATACAGAAAGGGTGAGGAAGGAGAACTCGGCATCAACATCCGTTATCCCGTCACTTCAGACAGCAAAGTCATCCGTGATGCTTTTACGTCTGCTGAAGAATTCCGGCTTGAAGAATTTAAAGACAGCAAACCGCACCATGTTTCTGCCGATCATCCGCTCGTAAAGACGCTTCAAAAGGTTTACGAAGGACAGACGGGAAAGAAAGCGGATCTGATTTCAATCGGCGGAGGAACGTATGCGAGATCCCTTTCGGCGGGCGTCGCGTTCGGTCCGCTGTTCCCCGGCCGGCCTGACAGCGCGCATCAAAAGGATGAGTACATTGAAATCGATGACCTTCTTAGGTCAACCGCTTTATACGCCGAAGCCATTTATGAGCTTGCCAAGTGA	MNWEVEVIRNKEDLIRDTQKFLQINSVMDETTAGPGRPFGEGVNASLTSLLEFGEKEGFTVKNLDGYAGHIEWGTGDEIVGVLCHVDVVPPGDGWTSDPFSADIRDGRIYARGAIDDKGPTMAAFYALKIVKDMQLPLSKRVRIIIGTDEESDWRCVDHYFKHEKMPDIGFAPDADFPIINAEKGIIDASLRIAKSASDKDAKNGLLSFRSGLRLNMVPDAAEAVIEGNGLDAVHAYFSKWLEQSKTQGEAVSENGKLTLRVYGKSCHAMEPDNGVNAGLKLAECLNGTELDGAGKHFVKTVSDYFLNDTRGKKLKIDCRDDISGELTLNVGTFTYRKGEEGELGINIRYPVTSDSKVIRDAFTSAEEFRLEEFKDSKPHHVSADHPLVKTLQKVYEGQTGKKADLISIGGGTYARSLSAGVAFGPLFPGRPDSAHQKDEYIEIDDLLRSTALYAEAIYELAK				NA	NA	NA	NA	NA
D1-12_02013	1305	pbuO	COG2252	Guanine/hypoxanthine permease PbuO	ATGTTTCATCTCGACAAGCATCAAACGACAATAAAAAGAGAAATTACCGCGGGAGTGACCACCTTTTTCACAATGGTATATATCATTGTCGTCAATCCGGTGATCCTTTCCAATGCGGGAATTCCGTTTGACCAGGTATTCACCGCGACGATTATCGCTTCCATTGTCGGAACTTTATGGATGGCTCTCGCTGCGAATTTTCCGATCGCCATTGCCCCCGGCATGGGCTTAAACGCGTATCTTGCCTTTCACGTTGTCGGCACAGGCAGCGGCATTACGTATCAGACGGCTTTCAGCGCCGTTTTTATCGCGGGAGTCATCTTTATTATTTTATCGTTAACGCCTTTAAGAAAACAACTTATAGAAGCGATTCCGGACAATTTAAAATACGGAATTACGACCGGCATCGGCTTATTTATCGCTTTTATCGGCTTACGCCAATCCGGAATCATCACGGCTGATAAATCTAATCTGGTCGCACTCGGCGATCTTCATTCGCCCGCCGTCATTTTAACGCTAATCGGACTTATCATCAGTATTGTACTGATGGTGCTGAATGTAAACGGGGCTCTGTTCATCGGAATGGCGCTGACCGCTATCATTGCCTTTTTGACCGGGCAGATCCATTTCGCGAAAGGATTCATGTCCTTCCCGCACCTGCCGGAGGGACTTTTGATCACAAATCCGTTCGGTGCCCTCGGGGATGTCGTGCACCACGGTCTGTACGCCGTTGTGTTTTCTTTTCTTCTCGTTACGATTTTTGACACGACCGGCACCATGATCGGTGTCGCCGAACAAGCGGGATTGATCAAAAACAATCAGCTGCCGAATGCTAGAAGAGCGCTGTTGGCTGATTCGACCGCTACGACGGTGGGAAGCATCTTCGGCACCAGCCCGACGACCGCGTTCGTTGAATCTTCAGCAGGTGTGGCGGCCGGCGGAAGAACGGGTCTGACGGCGCTGACGATTGCCGTTATGTTTGCCGTTTCCATGTTTTTCAGCCCGCTTGTCAGCGTCTTATCGGAAGTGTCCGCGATTACGTCACCGGCTCTGATTATTGTCGGCAGCCTGATGATGGGTGCGGTATCGAATATCCGCTGGAATGAGCTTGATGAAGCGTTCCCGGCCTTTCTCGTCATTTTGGCGATGCCTTTAACGTCCAGTATTTCAACCGGAATCGCACTCGGCTTCATTTCATATCCGCTTGTTAAAGCAGCTAAGAAAAAATGGCGCGAAATCCATCCTCTAGTCATCATCTTCGCCGTACTGTTTTTTATTCAGCTTTTTATTTTGAACGGACATTAA	MFHLDKHQTTIKREITAGVTTFFTMVYIIVVNPVILSNAGIPFDQVFTATIIASIVGTLWMALAANFPIAIAPGMGLNAYLAFHVVGTGSGITYQTAFSAVFIAGVIFIILSLTPLRKQLIEAIPDNLKYGITTGIGLFIAFIGLRQSGIITADKSNLVALGDLHSPAVILTLIGLIISIVLMVLNVNGALFIGMALTAIIAFLTGQIHFAKGFMSFPHLPEGLLITNPFGALGDVVHHGLYAVVFSFLLVTIFDTTGTMIGVAEQAGLIKNNQLPNARRALLADSTATTVGSIFGTSPTTAFVESSAGVAAGGRTGLTALTIAVMFAVSMFFSPLVSVLSEVSAITSPALIIVGSLMMGAVSNIRWNELDEAFPAFLVILAMPLTSSISTGIALGFISYPLVKAAKKKWREIHPLVIIFAVLFFIQLFILNGH	PGPT0007325_4437	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
D1-12_02014	1161			hypothetical protein	ATGACCGGGCGGGCTTTGTTTTTTCAAAGGCTGTTTCATTATTGGCGGTATCAATGGAAGGTGTTCCAGACGGTCATTGATTGGACGGTCGCGCTGTATATCGTTCTTCCGGCTGCCGCATTTGCCGTTTATCAATATGCTGATTGGCTGAACGGCAGGGGGCTTCTTAATGGAGCGGCAGGAGTATTAGGATGGGGCTGGCTGTATGTATTCAGTGCCCTGCTATTGTGCACGGGTTTTATTCATACCTTTTTGCTGGAAGCGGATCACGTATTTTTGGTGCATGCAAAACATCTGATGCAAAAGCTGAAACGGTACGCGCTTTTGTATTCGATGTTCCTTTCCCTTATCAAATGGGGTGCGCTTGCCGTATTGTTATTTCCCTTATGGCGCCAATACGGTGACTGTACCTTACCGGCATATTCAGGTATGTTTTGCTGTCTGTTCGGCTTTCATACCGCAATATTAGCCGTACATCGGCACAGAAAAAACAGCAGGCGGACATTCGGGAATCAGGCGGCGGGCTGGCTGAAAGTGATGGTTCTGATGACGGGTGCGTTTTTTATGATCGTCTTTGCCGCCGAATGGTATTGGCTTTGGCCGGCGGGCTGTATATTGTTCATCTGTTCCGCTCTTTTGACTTGGAAAGGGACGGAGACATTATCAGCCTTTGAGGAAGAAGTGCTTGAGGAGAACAGGCGCAAGCTTTCATTCGCGGCCTCTGTTTTGATGCTCAGCCATGATGTGCAGCTCCCGAATGGTAAAAATAAAGGGCGGAGCAAGCCGTTTTTATATCCCGGCTCAAAGCACATCTTTACAAAACGGTCGGCGTATACGGCGTGGAAAGAATTGTTCTTTAAAGTGCTGATCCGAAACGGCGGGTATCTCCGGCAGCTTTACCTTTTAACCGCGGCTTTTACGGCTCTTATTCTCGTTCTTCCGCTCTTAGTGAAGCCGGCAGTCCTTATTTTATTTGCGATCGTCAGCCGCTATGCCGCGTCGCTTTTATTTGACCGGATCACGGATAAACCGGTTTTAAGCGGTATCAAGAGAGACAGTGATGATTATTTCCGGGCGCGAAACAGCGCATTAACCGTCATTCAAATCATCTGTTCCGCCTGGTGTCTCATTGCCGCGATTCTTTCCGTTCTTTATATGTGA	MTGRALFFQRLFHYWRYQWKVFQTVIDWTVALYIVLPAAAFAVYQYADWLNGRGLLNGAAGVLGWGWLYVFSALLLCTGFIHTFLLEADHVFLVHAKHLMQKLKRYALLYSMFLSLIKWGALAVLLFPLWRQYGDCTLPAYSGMFCCLFGFHTAILAVHRHRKNSRRTFGNQAAGWLKVMVLMTGAFFMIVFAAEWYWLWPAGCILFICSALLTWKGTETLSAFEEEVLEENRRKLSFAASVLMLSHDVQLPNGKNKGRSKPFLYPGSKHIFTKRSAYTAWKELFFKVLIRNGGYLRQLYLLTAAFTALILVLPLLVKPAVLILFAIVSRYAASLLFDRITDKPVLSGIKRDSDDYFRARNSALTVIQIICSAWCLIAAILSVLYM	PGPT0006730_5177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_02015	705	ecsA_2	COG1131	ABC-type transporter ATP-binding protein EcsA	TTGGGAGAATTATTGAATGCAAACATTGTCTGCGCCGGTTATGCTGACAGGCCGAAGGTGATTTCTGATGTATCTCTGTCAGTCAACGCTGGTGAAATTGCCGGTTTAATCGGAGCGAACGGCGCGGGGAAAAGTACAGTGATAAAGGCGGTTCTCGGGCTGTCCCGGGATATAGAAGGCGATATTGAGTGGAATGATTCATCTTATGCTTACATACCGGAGCGTCCGAGTTTTTACGATGAACTGACGCTTTGGGAGCACCTCGAGCTGACCGGGTCATTGCGGGGTATAGAAGGGGAAGAATGCCGTGAGCGGGCAGGGCGGCTGCTTGAAGAGTTTTCGCTGACGTCTGTAAAACATGATTTGCCTTCCGGCTTTTCAAAAGGGATGCAGCAAAAATTGATGCTCATACAGGCATTTTTGGCGAAGCCGGATATTTACATCATTGATGAGCCTTTTATCGGACTTGATCCGATCTCAACAAAGCTGTTTACCGACATGCTGATTGCTGAGAAAGAAAGGGGCGCGGGGATTTTAATGTGCACTCATGTTCTGGATACGGCGGAAAAAATCTGCGACCGGTTTTATTTGCTGGATCAGGGCGCTCTGCTTCTTCAAGGCACGTTAGAGGAGCTTCAGGAAAAAACGGGGAGCCGTTCACTGCTGGATTGCTTTTATTCAGCGGTTCGGAGCAGTCAGCGATGA	MGELLNANIVCAGYADRPKVISDVSLSVNAGEIAGLIGANGAGKSTVIKAVLGLSRDIEGDIEWNDSSYAYIPERPSFYDELTLWEHLELTGSLRGIEGEECRERAGRLLEEFSLTSVKHDLPSGFSKGMQQKLMLIQAFLAKPDIYIIDEPFIGLDPISTKLFTDMLIAEKERGAGILMCTHVLDTAEKICDRFYLLDQGALLLQGTLEELQEKTGSRSLLDCFYSAVRSSQR	PGPT0006725_26730	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_02016	222	ytzE	COG1349	putative HTH-type transcriptional regulator YtzE	TTGAAACCTTCAACAAATCGTATGCTGACTCGGATTAAATCAGTTTACATGTTCATCCAGGAAAAAGGCCTTGTGACAACACAGGAACTGGTTGATGAATTCGGCATTACACCTAGAACCATTCAGCGAGACTTAAATGTGTTAGCATACAATGATCTTGTTCATAGTCCTAGCCGAGGCAAGTGGGAGACAACACGAAAAAAAGTGAAAATTACATCTTAA	MKPSTNRMLTRIKSVYMFIQEKGLVTTQELVDEFGITPRTIQRDLNVLAYNDLVHSPSRGKWETTRKKVKITS				NA	NA	NA	NA	NA
D1-12_02017	720	rsuA	COG1187	Ribosomal small subunit pseudouridine synthase A	ATGAGACTTGATAAGCTGCTTGCCAACAGCGGATTCGGCTCAAGAAAAGATGTGAAAAAAATCGTCAAGGCTGGGGCTGTCATGATTGACGGAGAGCCGGCGAAAGATGTGAAAACCCATGTCGATCCGGAAAAACAGGACATCACGGTATACGGAGAGCCGGCAGATTATCGTGAATTTATTTATGTCATGATGAATAAGCCGCAAGGAGTGCTGTCCGCTACCGAAGACAGCCGCCAGCAAACGGTGGTTGATCTGCTGACGCCTGAAGAACAGCGATTTGAACCGTTTCCGGCGGGACGTCTTGATAAGGATACGGAAGGCTTTTTGCTTCTGACCAATGACGGGCAGCTCGCTCATCGCCTGCTTTCTCCGAAAAAGCATGTGCCTAAAACATATGAGGTCCGGTTAACTTCACCCCTGTCACCGGAAGACATCATTCATCTGGAAAGAGGCGTCGTCATTGAAGGAGGATATAAGACGAAGCCGGCAGCCGTTGAAATCATTACAGAAAGCCCGGATGAAACGGTGATTCACTTGACCATTACAGAAGGCAAATATCATCAGGTGAAGCTGATGGCAAAGGCTGTCGGAAATGAAGTGGCTTATTTGAAGCGGCTTTCGATGGGGGCTGTTTCTCTTGACCCGGATCTAAAACCGGGAGAATTCCGCGAGCTGACTGAAGAGGAGCTCGAAACGCTGAGAGGCGCTGAAGTGTAA	MRLDKLLANSGFGSRKDVKKIVKAGAVMIDGEPAKDVKTHVDPEKQDITVYGEPADYREFIYVMMNKPQGVLSATEDSRQQTVVDLLTPEEQRFEPFPAGRLDKDTEGFLLLTNDGQLAHRLLSPKKHVPKTYEVRLTSPLSPEDIIHLERGVVIEGGYKTKPAAVEIITESPDETVIHLTITEGKYHQVKLMAKAVGNEVAYLKRLSMGAVSLDPDLKPGEFRELTEEELETLRGAEV				NA	NA	NA	NA	NA
D1-12_02018	1638	murJ_1	COG2244	Lipid II flippase MurJ	ATGTCAAGCAAATTGTTAAGGGGCACGTTCGTGCTGACGCTCGGCACCTATATATCGCGGATTTTAGGGATGATTTATCTGATCCCGTTCGGAGCGATGGTCGGAGCGACGGGCGGAGCTTTGTTTCAATACGGATATAATCAATATACACTGTTTTTAAACATTGCCACGATGGGATTTCCCGCCGCGGTTTCAAAATTTGTCTCGAAATATAACTCCAAAGGAGACTATGAGACGAGCAGGCGGATGCTGAGAGCGGGAATGTCGGTTATGCTCGTAACCGGGATGATCGCTTTTTCAATTCTTTATATTTCGGCGCCGTTTTTTGCGGAAACATCTCTCGGCGGCACGAGTAACAACGGACTTACGATTGACCACGTCGTTTATGTCATCCGGATGGTCAGTCTGGCACTTTTGGTCGTGCCGATTATGAGTCTTGTGCGCGGTTTTTTCCAAGGTCACCAGATGATGGGGCCGACAGCCGTTTCACAGGTTGTGGAGCAGCTTGCCCGGATCATCTTTTTATTGGGCGCAACGTATTTGATTTTAAGAGTGATCAACGGCGGCCTTGTTATCGCAGTCGGATACGCGACTTTCGCGGCGCTGATCGGTTCATTCGGAGGGCTTGTCGTCCTTTATATTTACTGGAATAAGCGGAAGGGCGATCTCCTGGCGATGAAGCCGAATCTCGTCCCGTCTGCGAACTTAAGTTATAAAAAAATGTTCATTGAGCTTTTCAGTTATGCCGCTCCTTACGTATTTGTCGGACTGGCGATTCCTTTGTATTCATATATCGATACGAATACGTTTAATAAAGCGATGATTGCGGCGGGCCATAAGGATATCAGCCAGGACATGCTTGCGATTGTCACCCTTTATGTGCCGAAGCTTGTTATGATCCCGGTTTCTCTGGCGACCGCTTTCGGTCTGACGCTGATTCCGACGATTACTGAATCGTTTACGAGCAGGAATTATAAGCTTTTGAACCAGCAGATTAACCAGACGATGCAAATCATTCTGTTTTTGGTTATTCCCGCCGTTGTCGGGATGTCCGTGTTATCGGGTCCGGCCTATACGTTTTTCTACGGCTCTGAAAGTCTTCGCCCGGATATCGGACAGGATATATTGTTCTGGTACGCGCCTGTCGCGATTCTGTTTTCTCTGTTTACCGTAAACGCCGCGATCCTGCAAGGGATTAATAAACAGAAATTTGCTGTCGTGAGCCTTTTCATCGGCGTCATTATAAAAGTGGTGCTGAACGTGCCGCTGATCAAGCTGTTTCAGGGAGACGGGGCCATCCTGGCAACGGCGCTCGGTTATATCGCTTCTCTTCTGTACGGTTTTATCATGATTAAGCGCCATGCGGGCTATTCGTATACGGTACTTATAAAACGGGTCATTTTAATCGCAGTCCTGTCCGTCCTGATGGGAGTCGCGGTCAAGCTGACTCAATGGCTGCTCAGCTTCTTTGTAACATACCAAAGCGGCCAGGTGTATGCGGCGATTGTCGTCTTTGTCTGCGCCGCTGTCGGCGGTGCGGTGTACATGTTTGCCGCGTACCGAATCGGATTTTTACAGAAAATGTTTGGAAACCGTCTGCCCCGCGTTTTGAGAAGAGGCAGGCATTCCGCCCATTAA	MSSKLLRGTFVLTLGTYISRILGMIYLIPFGAMVGATGGALFQYGYNQYTLFLNIATMGFPAAVSKFVSKYNSKGDYETSRRMLRAGMSVMLVTGMIAFSILYISAPFFAETSLGGTSNNGLTIDHVVYVIRMVSLALLVVPIMSLVRGFFQGHQMMGPTAVSQVVEQLARIIFLLGATYLILRVINGGLVIAVGYATFAALIGSFGGLVVLYIYWNKRKGDLLAMKPNLVPSANLSYKKMFIELFSYAAPYVFVGLAIPLYSYIDTNTFNKAMIAAGHKDISQDMLAIVTLYVPKLVMIPVSLATAFGLTLIPTITESFTSRNYKLLNQQINQTMQIILFLVIPAVVGMSVLSGPAYTFFYGSESLRPDIGQDILFWYAPVAILFSLFTVNAAILQGINKQKFAVVSLFIGVIIKVVLNVPLIKLFQGDGAILATALGYIASLLYGFIMIKRHAGYSYTVLIKRVILIAVLSVLMGVAVKLTQWLLSFFVTYQSGQVYAAIVVFVCAAVGGAVYMFAAYRIGFLQKMFGNRLPRVLRRGRHSAH	PGPT0017190_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017190-TC_PST-K03328	NA	NA
D1-12_02019	1266		COG2081	putative protein	ATGAAACATTATGACGTGATTGTGATCGGCGGCGGTCCGTCCGGTTTAATGGCTGCGATTGCCGCAGGCGAAGAAGGGGCGGACGTATTATTAATCGATAAAGGAAACAAGCTGGGACGGAAGCTGGCGATTTCCGGCGGCGGGCGCTGCAACGTGACCAACCGCCTCCCCGTTGAAGAAATCATCAAACACATCCCCGGCAACGGCCGCTTTTTATACAGCGCGTTTTCCGAATTTAATAATGAAGATATCATCGCCTTTTTTGAAAAACTCGGCATTCAGCTGAAAGAAGAAGACCACGGGCGCATGTTCCCGGTGACGGACAAAGCGCAAAGCGTTGTCGATGCGCTTTTGAACCGATTAAAACAACTGAATGTCATCATCCGCACAAATGAAAAAATCAAAGAAGTGCGGTACGAGAACGGCAGGACAGCAGGCATTACGACAAACAATGACGAACACATTAACGCAGACGCCGTCATTATCGCGGTCGGCGGAAAATCAGTCCCGCATACCGGCAGCACCGGAGACGGCTATGCATGGGCGGAAGCGGCCGGTCATACCGTGACCGAACTCTTTCCGACGGAAGTGCCGGTTACGTCGTCAGAACCGTTTATTAAACAAAAAACACTTCAGGGGCTGTCTCTTAGAAACGCGGCCGTCAGCGTCCTGAATAAAAAAGGCAAACCAATCGTCACACACGTGATGGACATGCTGTTTACCCATTTCGGCTTGTCAGGCCCCGCCATTCTCCGCTGCAGCCAGTTTGTCGTCAAAGAACTGAAAAAGCAGCCAGAGGTCAAACTCCGCATCGATCTGTTTCCCGGCATCAACGAGGAAGAGTTATTTCAAAAGATGCACAAGGAACTGAAAGACGCACCGAAAAAAGCGCTCAAAAACGCGCTGAAGCCGTGGATGCAGGAACGGTACCTGCTTTTTCTTCTGGAACGGAACGGTCTTGATCCTCAGACAAGCTTTACGGAACTGCCGAAGGATCAATTCAGGGCTTTTGTCAAAGACTGCAAACAATTTACGGTTGCCGCTGACGGAACGCTTTCTTTGGACAAAGCGTTTGTCACAGGCGGAGGTGTTTCCGTAAAAGAGATTGAGCCGAAACAAATGGCGTCTAAAAAAATGGAAGGCTTATATTTTTGCGGAGAAATACTCGACATTCACGGCTATACCGGGGGCTACAATATCACTTCAGCCTTTGTCACGGGTCGTCTCGCCGGTTTGAATGCAGGACGTTTCTCACGCTCGCTCTAA	MKHYDVIVIGGGPSGLMAAIAAGEEGADVLLIDKGNKLGRKLAISGGGRCNVTNRLPVEEIIKHIPGNGRFLYSAFSEFNNEDIIAFFEKLGIQLKEEDHGRMFPVTDKAQSVVDALLNRLKQLNVIIRTNEKIKEVRYENGRTAGITTNNDEHINADAVIIAVGGKSVPHTGSTGDGYAWAEAAGHTVTELFPTEVPVTSSEPFIKQKTLQGLSLRNAAVSVLNKKGKPIVTHVMDMLFTHFGLSGPAILRCSQFVVKELKKQPEVKLRIDLFPGINEEELFQKMHKELKDAPKKALKNALKPWMQERYLLFLLERNGLDPQTSFTELPKDQFRAFVKDCKQFTVAADGTLSLDKAFVTGGGVSVKEIEPKQMASKKMEGLYFCGEILDIHGYTGGYNITSAFVTGRLAGLNAGRFSRSL				NA	NA	NA	NA	NA
D1-12_02020	1536	opuD	COG1292	Glycine betaine transporter OpuD	TTGAAGAAGAACATCTCCAGTGTTTTTTGGATTGTGATTGTCATCACAGCAGCTGCGGTTTTATGGGGGGCCATTTCTCCTGACAGCCTGCAGCAAGTCACTGATACGGCACAAAAATTTATTACGGATTCTTTCGGCTGGTATTATCTGCTGGTCGTTTCTATATTTGTCGGTTTCTGTCTCTTTCTCATTGTGAGTCCGATCGGCACAATAAAACTCGGAAAACCCGGGGAAAAACCGGAATTCGGCTTATTATCATGGTTTGCCATGCTTTTCAGCGCAGGCATGGGAATCGGTTTGGTATTTTACGGGGCTGCGGAACCGATCAGCCATTACGCCATCAGCTCTCCCTCAGGTGAAACAGAAACGCCCCAAGCATTTCGTGATGCGCTCCGGTACACATTTTTCCACTGGGGGCTGCACGCTTGGGCCATCTATGCGGTCGTCGCTTTATGTATCGCATATTTTCAATTCAGAAAAGACGCGCCCGGTTTGATCAGCAGCACACTGACACCGCTTTTGGGCGATAAAGTAAACGGGCCGATCGGCAAAGCAATTGACTGTATCGCGGTGTTTGCGACCGTTGTCGGTGTGGCGACAAGCTTAGGGCTCGGAGCGACTCAGATCAACGGCGGTCTGCATTATTTATTCGGCATTCCAAAAACATTTTCCATTCAGCTGATCCTGATCGCTGTCGTGACCGTGTTATTTTTGATTTCTGCGTGGAGCGGAATCGGCAAAGGGATTAAATACTTAAGCAATACCAACATGGCGCTCGCGGGTATTTTAATGATCTTTATGCTCATTGCAGGCCCGACGGTGCTGATTATGAACTCATTTACCGATTCTATCGGCCAATACATCCAAAATATCGTGCAGATGAGCTTTCGCTTGTCTCCGAATGATCCCCAAAAACGCGAATGGATTAACAGCTGGACCATTTTCTATTGGGCCTGGTGGATATCCTGGTCGCCGTTTGTCGGCATTTTTATCGCCCGTGTATCAAGGGGCCGGACGATCCGGGAATTTTTAATCGGGGTGTTGGTGACACCTTGTATATTGGCTTTCTTATGGTTTGCGATCTTCGGTGTATCCGCGATGGATCTTCAGCAGAAAGGCGTATTCAATGTCGCGGGAATGTCAACGGATACGATGCTGTTCGGCGCACTCAGCCACTATCCGCTGACAATGGTGACATCCGTATTAACGCTTGTTCTGATCGCTGTATTCTTTATTACATCAGCGGATTCAGCGACATTTGTGCTTGGAATGCAAACGTCTTACGGCTCATTAGACCCTTCAAACCGGGTGAAAATCATCTGGGGCATCATCCAGTCCGCCGTGGCAGCGGTATTATTATATTCCGGCGGTCTGGCCGCACTGCAAAACACGGCCATTCTCGCCGCGGTTCCGTTTTCAGTCGTGATCCTTCTGATGATCGTGTCTCTGTACAAGTCATTAGCGAGCGAGAGAAAAGGAATCAAACAAGCGGAGAAATACCAAAAACCGAGAAGTCCCCGCGTCAAAAAAGCATAA	MKKNISSVFWIVIVITAAAVLWGAISPDSLQQVTDTAQKFITDSFGWYYLLVVSIFVGFCLFLIVSPIGTIKLGKPGEKPEFGLLSWFAMLFSAGMGIGLVFYGAAEPISHYAISSPSGETETPQAFRDALRYTFFHWGLHAWAIYAVVALCIAYFQFRKDAPGLISSTLTPLLGDKVNGPIGKAIDCIAVFATVVGVATSLGLGATQINGGLHYLFGIPKTFSIQLILIAVVTVLFLISAWSGIGKGIKYLSNTNMALAGILMIFMLIAGPTVLIMNSFTDSIGQYIQNIVQMSFRLSPNDPQKREWINSWTIFYWAWWISWSPFVGIFIARVSRGRTIREFLIGVLVTPCILAFLWFAIFGVSAMDLQQKGVFNVAGMSTDTMLFGALSHYPLTMVTSVLTLVLIAVFFITSADSATFVLGMQTSYGSLDPSNRVKIIWGIIQSAVAAVLLYSGGLAALQNTAILAAVPFSVVILLMIVSLYKSLASERKGIKQAEKYQKPRSPRVKKA	PGPT0013600_903	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-12_02021	183			Sporulation protein cse60	GTGCTGAAGATAGCTGTTTTTGATGAGGAGCATGAAAAGGATCTGCAGACTGAAGTCAATACATTTTTAAAGGGGATTTCTGATGAACAGCTCGTTGATATTAAATATACGGTAGCGGCGGCCTGTGATCCTGAAGGTGAGCAGCTTTATTGTTTTTCCGCTCTCATTTTATACCGAAAATAA	MLKIAVFDEEHEKDLQTEVNTFLKGISDEQLVDIKYTVAAACDPEGEQLYCFSALILYRK				NA	NA	NA	NA	NA
D1-12_02022	1026	melR_1	COG1609	HTH-type transcriptional repressor MelR	ATGGTCCGTCTCAAAGATATTGCCTTACAGGCATCTGTATCCAGCGCGACAGTATCGAGAATTTTAAATAAGGATGACTCTTTGGCCGTGACTGATGAAACAAGAGAAAAAGTTCTGAGGATCGCCGATGAGCTGGGCTATCAGCCGTCGGCAAAAAAACGGAAGAACCGCAGCCGCAGCGATTCAGCGCCCCTGATCGGCGTTATCAGCTGTCTGTCACCCGAAGAAGAACGGCAGGATCCTTATTTTTCGGCGATCCGAAAAGGCATTGAAGAAGAATGCTTTCGGCAAAAAGTTTTTATCACATCTTCTATCCATCTCGGTTCTTTTCAAGAGCATATGTTTCACGAACTGGACGGCGTCATCGTCATCGGCAGCCTGCAAGACGAGGCGCTTACGAATATCAGCGCTGCTTTCAGGCACGCGGTATTTGTTAACGGCACACCCGATCCTGCCCGCTACGATACCGTCAGCGTGGATTTTTATGCCGCAGCGCAGAAGGCGATAGAACATCTTCTGTCGCTCGGTTATCAGCGGCTAGGTTATATCGGCGGCCGGGAGCGGGAGCATACCGTCATAGACGGCGTAAACAGCAATAAAACGATTGAGGATAAGCGTCTGACCGCTTTCTTACAAATGGCCGGCGCCGAGCCGGAGCATGTACTGATCGGTGAATACAGCATGCACGAAGGGTTCCGGCTGATGAATGAAGCCATCAAAGGCGGAAGTCTCCCTGATGCCTTTTTTATCGCAAGTGATTCGATGGCTGTCGGCGCTTTAAAAGCCTTGCAGGAAGCCGGCCTTCAAGTCCCGCGCGATACGGCGGTTGTCAGCTTCAACGGAATTGATGAGGCAGAATACGCCAGCACGCCGTTATCAACGGTAAAAGTATACACGGAAGAGATGGGCCGGACGGGTGTCAAATTGCTTCTCGACCGTTTAAACGGCAGAACCGTCCCGCTGGCCGTGACGCTCCCCACTTCATTGATTGTCAGACAAAGCTGCGGCTCACAAGAAAGGAGGTGA	MVRLKDIALQASVSSATVSRILNKDDSLAVTDETREKVLRIADELGYQPSAKKRKNRSRSDSAPLIGVISCLSPEEERQDPYFSAIRKGIEEECFRQKVFITSSIHLGSFQEHMFHELDGVIVIGSLQDEALTNISAAFRHAVFVNGTPDPARYDTVSVDFYAAAQKAIEHLLSLGYQRLGYIGGREREHTVIDGVNSNKTIEDKRLTAFLQMAGAEPEHVLIGEYSMHEGFRLMNEAIKGGSLPDAFFIASDSMAVGALKALQEAGLQVPRDTAVVSFNGIDEAEYASTPLSTVKVYTEEMGRTGVKLLLDRLNGRTVPLAVTLPTSLIVRQSCGSQERR	PGPT0017992_7753	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
D1-12_02023	1278	melE	COG1653	Melibiose/raffinose/stachyose-binding protein MelE	ATGAAACGCTTACTGGCTTTGTTTCTTTCTTTTACTTGCATGATCCTTCCCGGCTGCTCGGCAGAACAGAGCGGCGCCGGAGAAAAGCAGAAAACATTGACAGTCTATTCCACAATATCCTCAGACAGCGAACGCGCCGTATTCAGAAAGTTGGCTGATTCATTCCAAAAAGAACATCCGGACATTCAAGTAAACGTTCATTTCCCAGGCAATGACTACGAAAATATGATGAGGGTCAGAATGGCGGCCGGTGACATGCCCGATCTTTTCGACACACACGGCTGGGCCAAAATCCGCTACGGAGAATATACCGCTGACCTCAGCGGCATGTCTTGGACGAAGCGGCTCGATCCGAATTTAAACAGCATGCTCAAAGACGCCAAAGGCAGAATATACGCCTTCCCTCTGAATCAGGCAAAGGACGGACTGGCCTACAACCGCACGTTGTTGGAAAAATACGGAATCAAACCGCCGGAAACAATGGATGATTTTATGAAGGCACTGAGACAGATTAAAGAAAAAAGCGGCGGAACAGTCACCCCCTTCTGGTTTGCCGGCTATGAGAAAAGCTCATTTGCCCAATATTACGATCAATTCGCCGCACCGCTTCTCATCACAGATCCCGCACACCGTTACAAAAAACAGCTGTTAAACGGAACCTTCCGCTGGACACACTTCACCTATTTATCTGACAAACTGAAAGAGATGCAAAAGGAAAACCTGCTCAATATAGATGCCGTGACGGCAAAACGGTCCCAGCTCATTGAACTGATGGCGCAAAACAAAATCGCCTTTACGCTGCAGGGCGGCACCCTCGGCCAAGACGTCGCTCAAATCAATCCGAAGGTAAAAGTCGGCATCATACCGACCCCGGCCGTCCACAAGGGAGACGCGCCGGTTTGGATCGGAGGCGAACGTTACACGCTGGCGGCATTCAAGGATTCCCCGCGGCTTGAAGAAGCGAAACAGTTTATCGCATTTATGGCCCGACCCGAGCATGCAAAATCAATTGCCGAAGCGACCTCGCTTCCGGCCGGATTAGTGAATGTGCAAACGGACATTTTCTACGCAAATGACTATAAGCGCTATCAGCATATTAAGGTGCAGCCTTATTTTGACCGCCTTTATTTGCCGAACGGAATGTGGGATGTGATGGGAACAGCCGGGCAGGAGCTGATGGCCGATATCTTAACCCCCGCTGAAATTTCAGCGAAACTCGGCAGGGAATATAAGCGGCTCCGGCTTCAATCTGATTCACGGGGAGCTGAAAAAGAATGA	MKRLLALFLSFTCMILPGCSAEQSGAGEKQKTLTVYSTISSDSERAVFRKLADSFQKEHPDIQVNVHFPGNDYENMMRVRMAAGDMPDLFDTHGWAKIRYGEYTADLSGMSWTKRLDPNLNSMLKDAKGRIYAFPLNQAKDGLAYNRTLLEKYGIKPPETMDDFMKALRQIKEKSGGTVTPFWFAGYEKSSFAQYYDQFAAPLLITDPAHRYKKQLLNGTFRWTHFTYLSDKLKEMQKENLLNIDAVTAKRSQLIELMAQNKIAFTLQGGTLGQDVAQINPKVKVGIIPTPAVHKGDAPVWIGGERYTLAAFKDSPRLEEAKQFIAFMARPEHAKSIAEATSLPAGLVNVQTDIFYANDYKRYQHIKVQPYFDRLYLPNGMWDVMGTAGQELMADILTPAEISAKLGREYKRLRLQSDSRGAEKE	PGPT0016330_2149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
D1-12_02024	915	melD	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAGTGATCTTGCAAGAGAAACTCAAGGATTTCAACATCAAAAGCCGGTAAAACCCGCGTCACTGTGGTGGATGTACGTTCCCGCTCTTGCCACGGTTTTTATTTTCATGATTTTTCCGTTTGTCAAAGGCGCTTTTATCACATTTACAAACTGGAACGGCTTCTCACAGACGTATCAATGGGTGGGGGTCACTCAATATAAAAGGCTTTTTACAGATCCGGACACGTGGCTTGTTGTGAAAAACACTTTGCTTTACGGCATCGGAAGCACTTTTTTTCAGAATATGCTCGGACTTTTATATGCGCTGCTTTTGAATCAGAGCTTAAAAATGAAGGCGCTCACAAGAACGATCGTCTACCTGCCCGTCATTATCAGTCCGCTGATAATGGGATACATTTGGTATTTTATTTTCTCATATGACGGGGGTGCGCTGAATGATGTGCTTGGCGCACTGGGAATCGGTCCTGTCAACGCCTTGGCAAGCCCTGCGGCAAACCCGTGGATTATCGTCATGATTAACACGTATCAATACGCAGGCATTGCGATGATTGTATATTTGGCGGGGCTGCAAAGCATTCCGAAAGATTATTACGAAGCCGCAAAAATGGATGGCGCTGGAGGTCTTCAGCCGTTTTTCACCATCACCCTGCCTTTATTGATGCCGGCTGTCACCATCAACATGGTCATCAATATCATCGGAGGGCTGAAGCTGTTTGATGTCATTTTCGCGCTGACCGCAGGCGGGCCGGGCAATTCCTCTCAATCGATGTCGACGTTTATGTATGATTTATATTTTAAACGGCAGGATGCGGGATATGCCGCCGCCCAAGGAGTATTTATGTCCGTCATTATTCTTGTCATCAGCTTTTCGGCTCTCGTGTATTTCAAGCGAAAGGAGACGGAAATGTCATGA	MSDLARETQGFQHQKPVKPASLWWMYVPALATVFIFMIFPFVKGAFITFTNWNGFSQTYQWVGVTQYKRLFTDPDTWLVVKNTLLYGIGSTFFQNMLGLLYALLLNQSLKMKALTRTIVYLPVIISPLIMGYIWYFIFSYDGGALNDVLGALGIGPVNALASPAANPWIIVMINTYQYAGIAMIVYLAGLQSIPKDYYEAAKMDGAGGLQPFFTITLPLLMPAVTINMVINIIGGLKLFDVIFALTAGGPGNSSQSMSTFMYDLYFKRQDAGYAAAQGVFMSVIILVISFSALVYFKRKETEMS	PGPT0016335_1057	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
D1-12_02025	822	melC	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGAAAACAGCCCGAATGCGGATTTTTACGCTGTTGGCAGCCGTTATCTCGTGCGTTCATATTGTCCCCTTTTATATTTTGCTGACCACGTCATTAAAAGCAAAAGGAGACTACAGTTCAAAATGGTCGCTGCCATCCGTCTTTTCATTTCAGAATTTTCGTGAAGCATGGGAACGTGCCTCTCTCGGGCAATCCTTTCTGAACACGATCATCATTACAGCCGTTTCCGCCGCTTTGTTAATTTTCATGGGTTCGCTTGCCGCATACCCGCTCGCAAGAAGAAATACAAAGCTGAACAAAATCATCTTCGGCCTTTTGATTTCAATCATGATCATCCCGCCTTTGACTTCCATGGTTCCTTTATACAAGATGGTCGCTGATGCGGGGCTGATCAATACGCATGCCGCAGCCATTCTCATTAATACGGCTGCATATATGCCGCTGACCGTTTTCTTATATTCAGGGTTTATCCGCTCTTCCATTCCGAAAGAGCTTGAGGAAGCCGCCAGGATGGACGGCGCGGGATTGATCAGGACTTTTTATACAATCGTGTTTCCTTTGTTGAAACCGATTACCGCAACGGTCTGCATTATTTCCTGCGTGTTTATCTGGAACGATTACCAATTTGCGATTTTCTTTTTACAAGATCAACAGGTGCAGACATTGACCGTGGCCATGGCGGGATTTTTCGGCGAAAACGCGAACAATCTTCACTTAGTCGCCGCAGCCGCGATTATGGCGATGCTGCCGATGGTCGTATTGTTTTTGGCGCTTCAAAAATATTTTATCTCAGGGCTGTCCTCCGGGGCGGTCAAAGGCTGA	MKTARMRIFTLLAAVISCVHIVPFYILLTTSLKAKGDYSSKWSLPSVFSFQNFREAWERASLGQSFLNTIIITAVSAALLIFMGSLAAYPLARRNTKLNKIIFGLLISIMIIPPLTSMVPLYKMVADAGLINTHAAAILINTAAYMPLTVFLYSGFIRSSIPKELEEAARMDGAGLIRTFYTIVFPLLKPITATVCIISCVFIWNDYQFAIFFLQDQQVQTLTVAMAGFFGENANNLHLVAAAAIMAMLPMVVLFLALQKYFISGLSSGAVKG	PGPT0016340_2182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
D1-12_02026	1299	melA	COG1486	Alpha-galactosidase	TTGAAGAAAATTACGTTTATCGGAGCGGGAAGCACGATTTTCGCAAAAAATGTACTGGGGGACTGCTTACTGACTGAAGCATTAAACGGGTTTGAATTCGCGCTTTATGATATTGACGCTGTACGGCTGAAAGAATCCCAGCTCATGCTGGAAAACATGAGAGACCGCTACAATACGAGTATATCCATCATCTCCTACGATGACCGAAAACAGGCGCTGAAACACGCCGGCTATGTGATAAACGCCATTCAGGTCGGAGGCTATAAACCCGCGACGGTTATTGACTTTGACATCCCGAAGCGGTACGGTCTCCGCCAGACGATTGCCGATACCGTCGGAATAGGCGGCATTTTCCGTTCCCTTCGCACCATCCCCGTTTTATTTGACATCGCAAAAGACATGGAAGAGGTCTGCCCGGATGCGTGGCTGTTAAACTATACAAATCCGATGGCCTCTCTGACCGGAGCGATGCTCAGACATACAAATGTCAAAACGGTCGGCCTGTGCCACAGCGTCCAGGTATGTACCAAAGATCTGTTTGACTCACTCGGCATGGATCATGAAGGTACGGAAGAACGCATTGCCGGCATCAACCACATGGCTTGGCTTTTGGAGATTAAAAAAGATGGAATTGATTTATATCCGGAAATTAAAAGACGGGCACGCGAAAAACAAAAGACGAAACATAAGGACATGGTGCGGTTTGAGCTGATGGATAAATTCGGCTGCTACGTAACGGAATCATCTGAGCATAATGCCGAATATCACCCGTATTTTATAAAAAGCCGGTATCCGGAGCTGATAGATGAACTCCAAATTCCGCTTGATGAATATCCGAGGAGATGCGCGGAACAAATCAACAATTGGGAAACGATGAGAGACGGCATCATCAACAACCAAAACCTGACGCATGAACGCTCAAAAGAATACGGTTCGAGAATTATAGAAGCGATGGAGACGGGCCGTCCGTTCACATTCGGCGGCAATGTGCTGAATACCGGGCTGATACCGAATCTGCCCGCGAAAGCGGTCGTTGAAGTGCCTTGCACAGCCGTCAAAAACCACATTATGCCGTGCTATTCGGGCGAACTTCCGGAGCAGCTCGCGGCGCTCAACAGAACAAACATTAACACACAGCTTTTAACCATCGAAGCGGCCGTTACTTTAAAAAAGGAAGCCGTATATCAGGCGGCCATGCTTGACCCGCATACGAGCGCCGAGCTTTCCATGAATGACATCATATCTTTGTGCGATGACTTATTTGAAGCGCACAAAGACCGGCTCCCGGCTTATCACTGA	MKKITFIGAGSTIFAKNVLGDCLLTEALNGFEFALYDIDAVRLKESQLMLENMRDRYNTSISIISYDDRKQALKHAGYVINAIQVGGYKPATVIDFDIPKRYGLRQTIADTVGIGGIFRSLRTIPVLFDIAKDMEEVCPDAWLLNYTNPMASLTGAMLRHTNVKTVGLCHSVQVCTKDLFDSLGMDHEGTEERIAGINHMAWLLEIKKDGIDLYPEIKRRAREKQKTKHKDMVRFELMDKFGCYVTESSEHNAEYHPYFIKSRYPELIDELQIPLDEYPRRCAEQINNWETMRDGIINNQNLTHERSKEYGSRIIEAMETGRPFTFGGNVLNTGLIPNLPAKAVVEVPCTAVKNHIMPCYSGELPEQLAALNRTNINTQLLTIEAAVTLKKEAVYQAAMLDPHTSAELSMNDIISLCDDLFEAHKDRLPAYH	PGPT0017850_751	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017850-melA-K07406	NA	NA
D1-12_02027	486			hypothetical protein	GTGAAACCGATGATCCGCGCTATGAAAACAAACGATATCAAACAGGTCCGGCAAGTCGCAGAACGCAGCTGGCATCATACGTATGAAGGGATTATTCCCAGACACATTCAGGATCAGTTTCTCGAATCCGCCTATCAGGATGAGATGATGGAACGCCGGCTCTTGCATTCTCTGTTCTTTGTGGCAGAAGAAGAGGGGCGAGTGCTCGGTTTTGCAAATGTCACCCCGGTTCAAAAAGACGGAAATGCGGAGCTGACCGCCATCTATATTGACCCGGATTGCCAGGGAAGCGGGATAGGAACGGCACTCCTTAAAGAATGCATCAGGCAGTCCGGCGGGGTAAAAAAGCTTTATGTCCATGCAGAAAAAGAGAACCGCATCGCCTTGTCCTTTTATCAAGCGAAAGGGTTTCAATGGGTATGTGAATTTGAAGAAGACTTTAGGGGACACACCTTACAGACGGTCAAACTGGTGCTGAACATATAA	MKPMIRAMKTNDIKQVRQVAERSWHHTYEGIIPRHIQDQFLESAYQDEMMERRLLHSLFFVAEEEGRVLGFANVTPVQKDGNAELTAIYIDPDCQGSGIGTALLKECIRQSGGVKKLYVHAEKENRIALSFYQAKGFQWVCEFEEDFRGHTLQTVKLVLNI				NA	NA	NA	NA	NA
D1-12_02028	312		COG0607	Sulfurtransferase	TTGAAAATAAATGAAATCAGCACAGCCGCACTGGAAGAAAAATTAAAAGCGGGAGAAGAGCTGTATCTGATTGATGTCAGAGAAGACGAAGAAGTTGCCGAAGGAATGATTCCGCAGGCCGTTCACATCCGCATGGGAGACATCCCTGAGAAGATGGATGCGTTAGACAAGGACAAGGAATATGTATTTATCTGCCGTTCCGGAAAAAGAAGCATGAACGTTTGTATGTATTTACATGAGCAGGGCTTCCGTACGGTTAATGTTGAAGGCGGCATGCTGGAGTGGGAAGGCGAAACAAAGCCGAAGAAATAA	MKINEISTAALEEKLKAGEELYLIDVREDEEVAEGMIPQAVHIRMGDIPEKMDALDKDKEYVFICRSGKRSMNVCMYLHEQGFRTVNVEGGMLEWEGETKPKK				NA	NA	NA	NA	NA
D1-12_02029	2415	leuS		Leucine--tRNA ligase	TTGAGTTTTCAGCACGAAAAAATAGAAAAGAAATGGCAGAATTACTGGTTGGATCATAAAACGTTCGCCGTCAGTGAAGAGAATGACAAGCCGAAGTTTTACGCGCTTGACATGTTCCCGTATCCTTCAGGAGCCGGCCTTCATGTCGGACATCCGGAAGGCTATACGGCAACCGATATCCTTTCGCGCATGAGACGCATGCAAGGATACAATGTGCTTCATCCGATGGGATGGGACGCGTTCGGGCTTCCTGCCGAGCAATACGCGCTTGACACGGGGAATGATCCGGCTGAGTTCACAAAACAAAATATAGATAATTTCCGCCGTCAGATTCAATCACTCGGATTTTCTTACGATTGGGATCGTGAAATCAATACGACTGATCCGGACTATTACAAGTGGACGCAATGGATCTTCACTAAGCTGTACGAAAAAGGGCTCGCTTACGTAGACGAAGTGCCGGTCAACTGGTGCCCGGCGCTCGGAACGGTGCTTGCGAACGAAGAAGTCATTGACGGCAAAAGCGAGCGGGGCGGCCATCCGGTTGAACGCCGCCCGATGAGACAATGGATGCTGAAAATCACCGCTTATGCGGACAGGCTTCTTGAAGATTTAGAAGACCTTGACTGGCCGGAAAGCATTAAAGACATGCAGCGCAACTGGATCGGACGCTCAGAAGGCGCAAACGTGCATTTCGCGATCGACGGCACTGATGACACGTTTACCGTGTTTACGACAAGACCGGACACGCTGTTCGGCGCGGCTTATGCCGTACTGGCTCCTGAGCATGAGCTTGTGGAGGCCATCACGACGCCTGAACAAAAAGAAGCGGTAGACGCTTATGTTAAAGAAGTTCAGGCGAAAAGTGACCTGGAACGGACGGATCTTGCGAAAACAAAAACGGGCGTCTTCACGGGCGCATATGCCGTAAACCCTGCAAACGGAGAAAAGCTGCCGATCTGGATAGCGGATTATGTCCTCGCCTCTTACGGAACGGGCGCTGTAATGGCCGTGCCGGCGCATGATGAACGTGATTTTGAATTCGCCAAAGTGTTCAGCCTGCCTGTCAAAGAAGTCGTAAAAGGCGGAAACACGGAAGAAGAAGCGTACACGGGAGACGGAGAGCATGTCAATTCCGGCTTTCTGAACGGACTGAATAAAGCGGAAGCGATTGAAAAAATGATCGCCTGGCTTGAAGAAACGAAAAACGGTGAGAAAAAAGTGACATACCGCCTGCGTGATTGGCTGTTCAGCCGCCAGCGCTATTGGGGCGAGCCGATTCCGGTTATTCATTGGGAAGACGGCACGTCAACAGCCGTTCCTGCGGAAGAGCTGCCGCTGATTCTGCCGAAAACCGATGAGATCAAACCGAGCGGAACAGGTGAATCACCGCTTGCCAACATTAAAGAGTGGGTGGAAGTCACTGATCCTGAAACGGGCAAAAAAGGCAGAAGAGAAACGAACACGATGCCGCAATGGGCGGGAAGCTGCTGGTATTTCCTCCGCTTTATCGACCCGAAAAATCCGGATCAGCTCGCTTCACCTGAGAAACTGGATAAATGGCTGCCCGTTGATATTTACATCGGAGGAGCGGAGCATGCCGTGCTTCACCTTCTGTACGCGCGTTTCTGGCATAAATTCCTCTACGATATCGGTGTCGTGCCGACGAAAGAACCGTTCCAAAAGCTGTATAACCAAGGAATGATTCTCGGAGAAAACAATGAAAAAATGAGTAAATCCCGCGGAAACGTCGTCAATCCGGATGAAATTGTGGCGTCTCACGGAGCAGATACGCTCCGCCTGTACGAAATGTTTATGGGGCCGCTTGACGCATCTATCGCCTGGTCTGAATCAGGTCTTGACGGAGCGCGCCGCTTCCTTGACCGCGTATGGCGTTTGTTTATCGAGGAAAACGGCGAGCTGACGGGCAAAGTGACAGAAGGCGCGGGCGAAACTCTTGAGCGCGTCTATCATGAAACGGTCATGAAAGTGACAGAAAACTTCGAAGCCCTTCGTTTTAACACGGGCATTTCTCAGCTGATGGTCTTCATTAATGAAGCTTACAAAGCGAATGAACTGCCGAGAGAATATATCGAAGGTTTTGTGAAGCTGCTTTCTCCTATTGCGCCGCATTTGGCGGAAGAACTGTGGGAAAAACTCGGCCACGAAGGTTCGATTGCATACGAGGCTTGGCCTGCTTATGACGAATCAAAACTGGTGGATGATGAAGTGGAAATCGTCGTCCAGCTGAACGGAAAAGTAAAAGCGAAATTAATGGTTCCGGCTGATGCTGATAAAGCAGTATTAGAACAGCTCGCACAAGCTGACGAAAAAGTAAAAGAGCAGCTTGAAGGAAAAACGATCCGAAAAATCATTGCCGTACCGGGCAAGCTTGTCAATATCGTGGCAAACTGA	MSFQHEKIEKKWQNYWLDHKTFAVSEENDKPKFYALDMFPYPSGAGLHVGHPEGYTATDILSRMRRMQGYNVLHPMGWDAFGLPAEQYALDTGNDPAEFTKQNIDNFRRQIQSLGFSYDWDREINTTDPDYYKWTQWIFTKLYEKGLAYVDEVPVNWCPALGTVLANEEVIDGKSERGGHPVERRPMRQWMLKITAYADRLLEDLEDLDWPESIKDMQRNWIGRSEGANVHFAIDGTDDTFTVFTTRPDTLFGAAYAVLAPEHELVEAITTPEQKEAVDAYVKEVQAKSDLERTDLAKTKTGVFTGAYAVNPANGEKLPIWIADYVLASYGTGAVMAVPAHDERDFEFAKVFSLPVKEVVKGGNTEEEAYTGDGEHVNSGFLNGLNKAEAIEKMIAWLEETKNGEKKVTYRLRDWLFSRQRYWGEPIPVIHWEDGTSTAVPAEELPLILPKTDEIKPSGTGESPLANIKEWVEVTDPETGKKGRRETNTMPQWAGSCWYFLRFIDPKNPDQLASPEKLDKWLPVDIYIGGAEHAVLHLLYARFWHKFLYDIGVVPTKEPFQKLYNQGMILGENNEKMSKSRGNVVNPDEIVASHGADTLRLYEMFMGPLDASIAWSESGLDGARRFLDRVWRLFIEENGELTGKVTEGAGETLERVYHETVMKVTENFEALRFNTGISQLMVFINEAYKANELPREYIEGFVKLLSPIAPHLAEELWEKLGHEGSIAYEAWPAYDESKLVDDEVEIVVQLNGKVKAKLMVPADADKAVLEQLAQADEKVKEQLEGKTIRKIIAVPGKLVNIVAN				NA	NA	NA	NA	NA
D1-12_02031	336			hypothetical protein	ATGAAGATGCTGCATCAGGTAATAATTGCTTGTGTAATTGGAGGAATCATGGGGGTTCTCGGTCATGTGAAAAAGAGAGGCAGGCTGGAGAAACCCAGAATGACAAAGCGGTTTATCTATCTCGGTTTTTTGGAAGATGGTTTTATCGGAATGGCTGCTTCCATCTTACTTGTCTTATCCGCTGACCCCGATTCAGGAATTCAACTCGTCATCTTATCCATAATCGCAGGCTACGGCGGAGAAGCTGTTCTCAGGAGCTTTGATTTTGTCAGAGAACAAAACAGTGATTCGGCCGAAGCAAAACCACACCAGCAAAAAAATCCTCCATCAAAATAA	MKMLHQVIIACVIGGIMGVLGHVKKRGRLEKPRMTKRFIYLGFLEDGFIGMAASILLVLSADPDSGIQLVILSIIAGYGGEAVLRSFDFVREQNSDSAEAKPHQQKNPPSK				NA	NA	NA	NA	NA
D1-12_02032	831	pfyP		Blue-light photoreceptor	ATGGCTGAAAAAGCGCGCAGCTTTACGGCCAAAAGGGGGTTTTACATGGCTGACTCAAATGTATTCGGAAAACCGGAGCAGCTGGAGCTTATCAAAAAGGCGCTTGATCACGCACGCATCGGCGTGGTGATTACAGACCCCTCTCTTGAGGACAATCCCATCATATATACAAATCAGGGATTTATGGATATGACAGGCTACTCTTCCGAAGAGATATTAGGTAAGAACTGCAGATTTCTGCAAAGCAAAGAAACCGACCGTCAACAAGTCGCGAAAATAAGAAAGAGCTTAAACCAGAAAGAAAAGATCACGGTGCGGCTGAAAAATGTCAAAAAAGACGGCACCCCATTTTGGAATGAACTCAACATTGATCCTCTGTATGTTGAAGACAAGCTCTATTTTGTCGGTTTTCAAAAAGACATCACAGAGCAGAAAGAATACGAAAAGCTCCTTGAGGATTCCCTCGCAGAAATCACGACGCTGTCAACGCCGATTGTTCCGATCCGAAACGGCATCTCCGCTTTGCCGTTAGTGGGAAACTTAACGGAAGAACGATTTGATTCAATCGTGACAACTTTGACGGACATATTAACCGCATCTAAAGATGATTACTTAATTATAGACTTATCAGGTCTGGCCGAGGTAAACGAACAGACCGCAGACCGGATTTTCAAATTGCACCACCTGCTTAAATTAATCGGCACGGAATTGATTATCACCGGGATCAAGCCTTCCCTCGCCATGAGAATGAATCAGCTTGATGCCAGCTTTTCTTCATTAAAGACATATTTAAACGTTAAGGACGCGGTCAACGTGCTTCCGGTCGTATAA	MAEKARSFTAKRGFYMADSNVFGKPEQLELIKKALDHARIGVVITDPSLEDNPIIYTNQGFMDMTGYSSEEILGKNCRFLQSKETDRQQVAKIRKSLNQKEKITVRLKNVKKDGTPFWNELNIDPLYVEDKLYFVGFQKDITEQKEYEKLLEDSLAEITTLSTPIVPIRNGISALPLVGNLTEERFDSIVTTLTDILTASKDDYLIIDLSGLAEVNEQTADRIFKLHHLLKLIGTELIITGIKPSLAMRMNQLDASFSSLKTYLNVKDAVNVLPVV	PGPT0014656_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014656-ytvA|pfyP-NA	NA	NA
D1-12_02033	2460	gyrA	COG0188	DNA gyrase subunit A	ATGAGTGAACAAAACACACCACAAGTACGTGAAGTCAATATCAGTCAGGAAATGCGGACATCCTTTCTGGACTATGCAATGAGCGTTATCGTATCCCGGGCGCTTCCGGATGTGCGTGACGGTCTGAAGCCGGTTCACAGACGGATTTTGTACGCAATGAATGATTTAGGCATGACCAGTGACAAACCATATAAAAAATCTGCCCGTATCGTCGGTGAAGTTATCGGTAAGTACCACCCGCACGGTGACTCAGCGGTTTACGAATCAATGGTCAGAATGGCGCAGGATTTTAACTACCGCTACATGCTTGTTGACGGACACGGCAACTTCGGTTCGGTTGACGGCGACTCAGCGGCCGCGATGCGTTACACAGAAGCGAGAATGTCAAAAATCGCAATGGAAATTCTGCGTGACATTACGAAAGATACGATTGATTATCAAGATAACTATGACGGCGCAGAAAGAGAACCTGTCGTCATGCCTTCGAGATTTCCGAATCTGCTCGTAAACGGAGCTGCCGGTATTGCGGTCGGAATGGCGACAAATATTCCTCCGCATCAGCTTGGGGAAGTCATTGAAGGCGTGCTTGCCGTAAGTGAGAATCCTGAGATTACAAACCAGGAGCTGATGGAATACATCCCGGGCCCGGATTTTCCGACTGCTGGTCAGATTTTGGGCCGGAGCGGCATCCGCAAGGCATATGAATCCGGACGGGGATCAATCACAATCCGGGCTAAGGCTGAAATCGAAGAGACATCATCAGGAAAAGAAAGAATTATTGTTACGGAACTTCCTTATCAGGTGAACAAAGCGAGATTAATTGAAAAAATCGCAGATCTTGTCCGAGACAAAAAAATCGAAGGAATTACCGACCTGCGAGACGAATCCGACCGTAACGGAATGAGAATCGTCATTGAGATCCGCCGTGACGCCAATGCTCACGTCATTTTGAATAACCTGTACAAACAAACGGCCCTGCAGACGTCTTTCGGAATCAACCTGCTGGCGCTCGTTGACGGACAGCCGAAGGTGCTGAGCCTGAAACAATGTCTGGAGCATTATCTTGATCACCAAAAGGTTGTGATCCGGCGCAGAACGGCTTACGAACTCCGCAAAGCGGAAGCGAGAGCTCACATTCTGGAAGGTTTAAGAATTGCTCTCGATCATTTAGATGCCGTTATTTCTCTTATCCGCAGTTCCCAGACGGCTGAAATTGCGAGAACGGGTTTGATCGAACAATTCTCACTGACTGAAAAACAAGCGCAAGCCATTCTGGATATGCGCCTTCAGCGATTAACCGGTCTGGAGCGCGAAAAGATTGAAGAGGAATATCAATCACTTGTTGCGCTTATCGCCGAGCTGAAAGATATTTTAGCCAATGAAGAAAGAGTTCTTGAAATCATCCGTGAAGAGCTCAATGAAATCAAAGAGCGTTTCAATGATGAGAGACGCACTGAAATCGTGACGTCCGGTCTTGAAACAATTGAAGATGAAGATCTTATCGAGAGAGAAAACATCGTCATCACACTGACCCATAACGGCTATGTTAAACGTCTCCCGGCGTCCACATACCGCAGCCAAAAACGGGGCGGAAAAGGCGTACAGGGAATGGGAACGAATGAAGATGACTTTGTGGAACACTTAATTTCCACATCAACGCACGATACGATCCTGTTCTTCTCTAATAAAGGGAAAGTATACCGTTCTAAAGGATATGAAATCCCTGAATACGGCCGTACGGCAAAAGGCATTCCGATTATTAACCTTCTGGAGGTTGAAAAAGGCGAATGGATTAATGCTATTATTCCGGTCAGCACTTTTGATGAGGAGCAATACCTCTTCTTTACGACCAAACAAGGGGTGTCGAAACGTACGGCACTGTCCCAGTTTGCGAATATACGGAATAACGGGCTGATCGCCCTGGGTCTCCGGGAAGACGATGAACTGATGGCCGTCCGTCTGACTGACGGCAAGAAACAAATCATCATCGGAACGAAGAACGGTTTGCTGATCCGTTTCCCTGAAGAAGATGTAAGACAAATGGGACGAACAGCTGCGGGTGTTAAAGGCATCACGCTGACAGACGATGATGTTGTGGTAGGCATGGAGATTCTTGAAGAAGACTCCCACGTCCTCATAGTGACAGAAAACGGCTACGGCAAACGCACACCGGCTTCAGAATACAGAGTTCAAAGCCGGGGCGGAAAAGGCCTTAAAACATGTAAAATCACTGACAGCAACGGTCCGTTAGTAACCGTGAAAGCAACAAAAGGCGAAGAGGACTTAATGATTATTACGGCAAGCGGCGTGTTAATCAGAATGGATATTAATGATATCTCCACTACGGGACGTGTAACACAAGGCGTCCGTCTGATCCGCATGTCTGATCAAGAGCATGTAGCCACTGTGGCGCTTGTGGAAAAGAATGAAGAAGAGCCGGAAGAAACGGAAGAAGTATAA	MSEQNTPQVREVNISQEMRTSFLDYAMSVIVSRALPDVRDGLKPVHRRILYAMNDLGMTSDKPYKKSARIVGEVIGKYHPHGDSAVYESMVRMAQDFNYRYMLVDGHGNFGSVDGDSAAAMRYTEARMSKIAMEILRDITKDTIDYQDNYDGAEREPVVMPSRFPNLLVNGAAGIAVGMATNIPPHQLGEVIEGVLAVSENPEITNQELMEYIPGPDFPTAGQILGRSGIRKAYESGRGSITIRAKAEIEETSSGKERIIVTELPYQVNKARLIEKIADLVRDKKIEGITDLRDESDRNGMRIVIEIRRDANAHVILNNLYKQTALQTSFGINLLALVDGQPKVLSLKQCLEHYLDHQKVVIRRRTAYELRKAEARAHILEGLRIALDHLDAVISLIRSSQTAEIARTGLIEQFSLTEKQAQAILDMRLQRLTGLEREKIEEEYQSLVALIAELKDILANEERVLEIIREELNEIKERFNDERRTEIVTSGLETIEDEDLIERENIVITLTHNGYVKRLPASTYRSQKRGGKGVQGMGTNEDDFVEHLISTSTHDTILFFSNKGKVYRSKGYEIPEYGRTAKGIPIINLLEVEKGEWINAIIPVSTFDEEQYLFFTTKQGVSKRTALSQFANIRNNGLIALGLREDDELMAVRLTDGKKQIIIGTKNGLLIRFPEEDVRQMGRTAAGVKGITLTDDDVVVGMEILEEDSHVLIVTENGYGKRTPASEYRVQSRGGKGLKTCKITDSNGPLVTVKATKGEEDLMIITASGVLIRMDINDISTTGRVTQGVRLIRMSDQEHVATVALVEKNEEEPEETEEV	PGPT0027705_995	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621	NA	NA
D1-12_02034	1923	gyrB	COG0187	DNA gyrase subunit B	ATGGCTATGGAACAGCAGCAAAATAGTTATGATGAGAATCAGATACAGGTATTAGAAGGTTTGGAAGCTGTTCGAAAGAGACCGGGGATGTACATCGGATCAACTAACAGCAAAGGCCTTCACCACTTGGTGTGGGAAATCGTCGACAACAGTATTGACGAAGCCCTGGCCGGTTATTGTACAGATATTAATATCGAGATTGAAAAAGATAACAGCATTACCGTTAAGGACAACGGGCGCGGAATTCCGGTCGGTATCCAGGAGAAGATGGGCCGCCCTGCGGTTGAAGTCATCATGACCGTTCTCCACGCCGGCGGTAAATTTGACGGAAGCGGATATAAAGTATCCGGCGGTCTTCACGGTGTAGGGGCGTCCGTCGTAAACGCCTTGTCGACTACTCTTGACGTTACGGTTCATCGTGACGGAAAAATCCACTATCAGGCGTACGAGCGCGGTGTGCCTGTGGCCGATCTTGAAGTGATCGGTGATACTGATAAGACCGGAACGATTACGCACTTCGTTCCGGATCCGGAAATCTTCAAAGAAACAACTGTATACGACTATGATCTGCTTTCAAACCGTGTCCGGGAATTGGCCTTCCTGACAAAAGGCGTAAACATCACGATTGAAGACAAACGTGAAGGACAAGAACGGAAAAACGAGTACCACTACGAAGGCGGAATCAAAAGCTATGTTGAGTACTTAAACCGTTCCAAAGAAGTCGTTCATGAAGAGCCGATTTATATCGAAGGCGAGAAAGACGGCATAACGGTTGAAGTTGCATTGCAATACAACGACAGCTATACAAGCAATATTTATTCTTTCACAAATAATATCAACACATACGAAGGCGGCACGCACGAAGCCGGATTTAAAACCGGTCTGACCCGTGTCATAAACGACTATGCAAGAAGAAAAGGGATTTTCAAAGAAAATGATCCGAATTTAAGCGGGGATGATGTGAGAGAAGGGCTGACTGCCATTATTTCAATTAAGCACCCTGATCCGCAATTCGAAGGGCAGACGAAAACCAAGCTCGGCAACTCTGAAGCGAGAACGATCACTGATACGCTGTTTTCTTCTGCGCTGGAAACATTCCTTCTTGAAAATCCGGATTCAGCCCGCAAAATCGTTGAAAAAGGTTTAATGGCCGCAAGAGCGCGGATGGCAGCGAAAAAAGCGCGGGAATTGACCCGCCGCAAAAGTGCGCTTGAGATTTCCAATCTGCCGGGCAAACTGGCGGACTGTTCTTCTAAAGATCCGAGCATTTCCGAGCTGTATATCGTAGAGGGTGACTCTGCGGGCGGATCAGCGAAACAGGGACGGGACCGTCATTTCCAAGCCATTCTGCCGCTGCGCGGTAAGATTCTGAACGTTGAGAAAGCCAGACTTGATAAGATTCTCTCAAACAATGAGGTCAGATCAATGATCACGGCCCTCGGAACAGGAATCGGAGAAGATTTTAATCTTGAAAAAGCGCGTTATCATAAAGTGGTCATCATGACGGATGCCGATGTTGACGGCGCCCACATCAGAACGCTTTTATTAACGTTCTTCTACAGATACATGCGGGAAATCATCGAAAACGGCTATGTCTACATTGCCCAGCCGCCGCTTTATAAAGTGCAGCAGGGAAAACGGGTGGAATACGCTTATAACGATAAGCAGCTTGATGAGCTGTTAAAAGAGCTTCCGCAATCGCCTAAGCCCGGCCTCCAGCGTTATAAAGGTCTTGGAGAAATGAACGCGACTCAGCTTTGGGAAACGACAATGGACCCTGCGACCAGAACGCTTCTGCAAGTCAATCTTGAAGATGCAATGGACGCTGACGAGACTTTTGAAATGCTGATGGGTGACAAAGTAGAACCGCGGAGAAACTTCATAGAAGCAAACGCCAGATACGTGAAAAATCTTGATATTTAA	MAMEQQQNSYDENQIQVLEGLEAVRKRPGMYIGSTNSKGLHHLVWEIVDNSIDEALAGYCTDINIEIEKDNSITVKDNGRGIPVGIQEKMGRPAVEVIMTVLHAGGKFDGSGYKVSGGLHGVGASVVNALSTTLDVTVHRDGKIHYQAYERGVPVADLEVIGDTDKTGTITHFVPDPEIFKETTVYDYDLLSNRVRELAFLTKGVNITIEDKREGQERKNEYHYEGGIKSYVEYLNRSKEVVHEEPIYIEGEKDGITVEVALQYNDSYTSNIYSFTNNINTYEGGTHEAGFKTGLTRVINDYARRKGIFKENDPNLSGDDVREGLTAIISIKHPDPQFEGQTKTKLGNSEARTITDTLFSSALETFLLENPDSARKIVEKGLMAARARMAAKKARELTRRKSALEISNLPGKLADCSSKDPSISELYIVEGDSAGGSAKQGRDRHFQAILPLRGKILNVEKARLDKILSNNEVRSMITALGTGIGEDFNLEKARYHKVVIMTDADVDGAHIRTLLLTFFYRYMREIIENGYVYIAQPPLYKVQQGKRVEYAYNDKQLDELLKELPQSPKPGLQRYKGLGEMNATQLWETTMDPATRTLLQVNLEDAMDADETFEMLMGDKVEPRRNFIEANARYVKNLDI	PGPT0027710_1124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
D1-12_02035	246			hypothetical protein	TTGTATATTCATTTAGGTGACGACTTTGTCGTTTCAACACGCGATATCGTCGGCATTTTTGACTGCAAGGTCAATGTATCGCCGATTGTTGAAGAATTTCTGGACAGACAGAAAGAAAAAGTAGTGCCGTCCGTAAACGGCACGCCAAAGTCTATCGTAGTCACGACTGAGAATATATATTACTCTCCCTTATCTTCCGGCACACTGAAGAAACGTGCGCAATTTATGTTAGAAATAGATTCTTAG	MYIHLGDDFVVSTRDIVGIFDCKVNVSPIVEEFLDRQKEKVVPSVNGTPKSIVVTTENIYYSPLSSGTLKKRAQFMLEIDS				NA	NA	NA	NA	NA
D1-12_02036	1113	recF	COG1195	DNA replication and repair protein RecF	TTGTATATCCAAAATTTAGAATTAACATCCTACCGTAATTATGAGCGCGCTGAGCTTCAATTCGAAAACAAGGTGAATGTGATCATCGGGGAAAATGCCCAAGGCAAAACCAATCTGATGGAAGCCATCTATGTCCTTTCGATGGCAAAATCACACCGCACCTCAAATGACAAAGAACTTATACGGTGGGACGAAGACTATGCTAAAATAGAAGGAAGAGTGATGAAGCGCAACGGGGACATCCCGATGCAGCTTGTCATCTCCAAAAAAGGTAAAAAGGGCAAGGTCAATCATATAGAGCAGCAAAAACTCAGTCAGTATGTCGGAGCGCTGAACACCATTATGTTTGCCCCTGAGGATTTAAATCTCGTCAAAGGAAGCCCTCAGGTGAGGAGGAGATTTCTCGATATGGAGATCGGGCAGGTTTCTGCCGTTTATCTGTATGATTTATCTCTTTATCAAAAAATCCTTTCACAGCGGAATCATTTTCTGAAACAGCTGCAAAGCCGGAAACAGACTGACCGGACTATGCTTGACGTTCTCACTGATCAGCTGATTGAAGCAGCCGCAAAAGTTGTCGCCAAACGTCTGCAGTTTACGGCACAGCTTGAAAAATGGGCGCAGCCGATCCATTCCGGCATTTCCCGGGGACTTGAAGAACTGGCGCTTAAGTATCACACGGCGCTTGATGTATCAGATCCCAAAGATTTGTCGAAAATAGGTAACAGCTACCAGGAGTCTTTTTCGAAATTAAAAGAAAAAGAAATAGAACGAGGCGTCACATTATTCGGACCGCATCGGGATGATGTCCTTTTTTATGTGAACGGACGCGATGTGCAGACGTACGGTTCACAGGGACAGCAGCGTACGACGGCTTTGTCTTTGAAGCTGGCCGAAATAGATTTGATTCATGAAGAAATCGGAGAATACCCCATTTTACTTTTGGATGATGTACTAAGCGAGCTGGATGATTACCGACAGTCCCATTTGCTTCATACGATCCAAGGCCGTGTGCAGACATTTGTCACCACGACAAGCGTGGATGGCATTGACCACGATACCTTACATCAAGCAGGAATGTTCCGTGTGGAAAACGGTACGTTAGTGAAGTGA	MYIQNLELTSYRNYERAELQFENKVNVIIGENAQGKTNLMEAIYVLSMAKSHRTSNDKELIRWDEDYAKIEGRVMKRNGDIPMQLVISKKGKKGKVNHIEQQKLSQYVGALNTIMFAPEDLNLVKGSPQVRRRFLDMEIGQVSAVYLYDLSLYQKILSQRNHFLKQLQSRKQTDRTMLDVLTDQLIEAAAKVVAKRLQFTAQLEKWAQPIHSGISRGLEELALKYHTALDVSDPKDLSKIGNSYQESFSKLKEKEIERGVTLFGPHRDDVLFYVNGRDVQTYGSQGQQRTTALSLKLAEIDLIHEEIGEYPILLLDDVLSELDDYRQSHLLHTIQGRVQTFVTTTSVDGIDHDTLHQAGMFRVENGTLVK				NA	NA	NA	NA	NA
D1-12_02037	216			hypothetical protein	ATGGCAAATCCGATTTCGATTGATACAGAAATGATTACGCTTGGCCAGTTTTTAAAATTAGCCGATGTGATTCAGTCCGGCGGCATGGCGAAATGGTTTCTGAGCGAGCATGAGGTGACTGTCAACAATGAACCTGACAATCGCCGCGGCAGAAAGCTTTACGTTGGAGACGTGGTCGCGATTGAAGGATTTGGTTCATTTCAAGTCGTCAATTAA	MANPISIDTEMITLGQFLKLADVIQSGGMAKWFLSEHEVTVNNEPDNRRGRKLYVGDVVAIEGFGSFQVVN				NA	NA	NA	NA	NA
D1-12_02038	1137	dnaN	COG0592	Beta sliding clamp	ATGAAATTTACGATTCAAAAAGATCGTTTAGTCGAAAGTGTACAAGACGTTCTAAAAGCCGTTTCATCCAGAACCACAATTCCCATTCTCACCGGTATTAAGATCGTCGCCTCAGATGAAGGAGTATCTTTCACAGGAAGTGACTCTGATATCTCAATTGAGTCATTCATTCCGAAAGAAGATGATGATAAAGAAATCGTGACGATCGATCAGCCGGGAAGTATCGTGCTGCAAGCGCGTTTCTTCAGCGAAATCGTTAAAAAACTGCCGATGGCGACTGTTGAAATCGAAGTTCAAAATCAATATTTAACGATTATCCGTTCCGGAAAAGCCGAATTTAATTTAAACGGCCTTGATGCAGATGAATATCCGCATCTACCGCAAATCGAAGAGCATCACGCCATTCAGATTCCGACGGATCTTTTGAAAAACCTGATCCGCCAAACCGTGTTCGCTGTGTCCGCCTCAGAAACACGCCCTATCTTGACAGGTGTAAACTGGAAAGTTGAAAACGGTGAATTATTATGCACTGCCACGGATAGCCACCGACTCGCTTTAAGAAAGGCGAAGCTTGATATTCCGGAAGACAGCTCTTATAACGTGGTCATTCCCGGGAAAAGCTTAACCGAGCTGAGCAAAATTCTTGATGACAACCAAGAACTGGTTGATATCGTGATTACAGAAACCCAAGTTCTGTTCAAAGCGAAAAACGTATTGTTCTTCTCAAGATTGCTTGACGGAAACTATCCGGACACGACCAGCTTAATTCCGCAGGAAAGCAAAACGGAAATCGTCGTGAATACGAAGGAATTTTTACAGGCGATAGACCGTGCTTCTTTATTGGCGAGAGAAGGCCGCAACAACGTTGTAAAGCTTTCTGCCAAACCGGCGGATTCGCTTGAGATTTCATCAAATTCTCCGGAAATCGGAAAAGTGGTCGAAGCTGTGATGGCTGACCAGATTGACGGCGAGGAATTAAATATTTCATTCAGTCCAAAATATATGATGGACGCACTGAAAGTACTTGAAGGAGCGGACATCCGTATCAGCTTTACGGGAGCGATGAGACCGTTTCTTATCCGTACGCCGAATGATGAAACCATCGTTCAGCTCATCCTTCCGGTCAGAACGTATTAA	MKFTIQKDRLVESVQDVLKAVSSRTTIPILTGIKIVASDEGVSFTGSDSDISIESFIPKEDDDKEIVTIDQPGSIVLQARFFSEIVKKLPMATVEIEVQNQYLTIIRSGKAEFNLNGLDADEYPHLPQIEEHHAIQIPTDLLKNLIRQTVFAVSASETRPILTGVNWKVENGELLCTATDSHRLALRKAKLDIPEDSSYNVVIPGKSLTELSKILDDNQELVDIVITETQVLFKAKNVLFFSRLLDGNYPDTTSLIPQESKTEIVVNTKEFLQAIDRASLLAREGRNNVVKLSAKPADSLEISSNSPEIGKVVEAVMADQIDGEELNISFSPKYMMDALKVLEGADIRISFTGAMRPFLIRTPNDETIVQLILPVRTY				NA	NA	NA	NA	NA
D1-12_02039	1329	dnaA_2	COG0593	Chromosomal replication initiator protein DnaA	TTGGATCTTTGGAATCAAGCTCTAGCTCAAATTGAGAAAAAGCTAAGCAAACCGAGTTTCGAAACTTGGATGAAGTCGACGAAAGCCCATTCGCTGCAAGGAGATACCTTAACCATCACCGCTCCTAATGAATTTGCCAGAGACTGGCTGGAGTCCAGGTACTTACATCTCATTGCAGATACCATATATGAATTAACCGGGGAAGAATTGAGCGTCAAATTTGTCATTCCTCAAAATCAGGACGAAGAAGACTTTTTACCGAAACCGCAAGTGAAAAAAGCGGCAAAAGAGGAACCGTCTGATTTTCCCCAAAGCATGCTCAACCCGAAATATACATTCGACACATTCGTCATCGGATCGGGAAACCGATTCGCCCATGCAGCATCACTGGCTGTGGCGGAAGCACCCGCTAAAGCGTACAACCCTTTATTTATATACGGGGGAGTCGGCTTAGGAAAAACCCACTTAATGCACGCGATCGGCCATTATGTCATTGATCATAATCCTTCAGCCAAAGTGGTGTACCTGTCTTCTGAAAAATTCACAAATGAATTCATCAACTCAATCCGCGATAATAAAGCCGTTGATTTCCGCAACCGCTACCGGAACGTTGATGTACTTTTGATAGATGATATTCAATTTTTAGCCGGAAAAGAACAAACACAGGAAGAGTTTTTCCATACATTCAACACGCTTCATGAAGAAAGCAAACAAATCGTGATTTCCAGCGACAGACCGCCGAAAGAGATCCCGACCCTTGAAGACCGCCTGCGTTCGCGGTTCGAATGGGGATTGATTACGGATATCACACCGCCGGATCTGGAAACGCGGATTGCCATCCTGAGAAAGAAAGCGAAGGCGGAAGGCCTTGATATTCCGAACGAGGTCATGCTTTACATCGCAAATCAGATTGACAGCAACATCCGCGAACTGGAAGGGGCATTAATCCGGGTTGTCGCCTATTCATCCTTAATCAATAAAGACATTAACGCAGACCTGGCTGCAGAAGCATTGAAAGATATTATTCCGTCTTCAAAGCCGAAGGTCATTACGATAAAAGAGATTCAGCGGATCGTCGGACAGCAGTTCAACATTAAGCTTGAAGATTTCAAAGCGAAAAAGCGCACGAAATCCGTGGCGTTCCCAAGACAAATTGCGATGTATCTTTCAAGAGAAATGACGGATTCTTCTTTGCCTAAAATCGGGGAAGAATTTGGCGGCAGAGACCATACAACCGTCATTCACGCCCACGAAAAGATTTCAAAACTGCTGATTGATGACGAGCAGCTTCAGCAGCAGGTGAAAGAAATAAAAGAACTGCTTAAATAA	MDLWNQALAQIEKKLSKPSFETWMKSTKAHSLQGDTLTITAPNEFARDWLESRYLHLIADTIYELTGEELSVKFVIPQNQDEEDFLPKPQVKKAAKEEPSDFPQSMLNPKYTFDTFVIGSGNRFAHAASLAVAEAPAKAYNPLFIYGGVGLGKTHLMHAIGHYVIDHNPSAKVVYLSSEKFTNEFINSIRDNKAVDFRNRYRNVDVLLIDDIQFLAGKEQTQEEFFHTFNTLHEESKQIVISSDRPPKEIPTLEDRLRSRFEWGLITDITPPDLETRIAILRKKAKAEGLDIPNEVMLYIANQIDSNIRELEGALIRVVAYSSLINKDINADLAAEALKDIIPSSKPKVITIKEIQRIVGQQFNIKLEDFKAKKRTKSVAFPRQIAMYLSREMTDSSLPKIGEEFGGRDHTTVIHAHEKISKLLIDDEQLQQQVKEIKELLK	PGPT0014800_4451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
D1-12_02040	351	rnpA	COG0594	Ribonuclease P protein component	GTGAAGAAGCGAAATCGGTTAAAGAAAAATGAAGATTTTCAAAAAGTGTTTAAACGCGGAACGTCTATGGCAAACCGCCAGTTCGTGCTGTATACGCTTGATCAGCCGAAACAGGAAGAGCTCCGGGTAGGGCTTTCTGTCAGTAAAAAAATCGGCAATGCCGTCGTGCGCAATCGGGTGAAGCGGTTAATAAGGCAGGCTGTTCAGGAGGAAAAAGAGCTGCTCAAGCCGAAAGATTTTATTATTATCGCAAGAAAACCCGCCGGCGACCTCAGTTTTGAAGAAACGAAAAAGAGTCTGCAGCACTTATTCAGAAAAACCTCATTATATAAGAAATCTTCGTCAAAATAG	MKKRNRLKKNEDFQKVFKRGTSMANRQFVLYTLDQPKQEELRVGLSVSKKIGNAVVRNRVKRLIRQAVQEEKELLKPKDFIIIARKPAGDLSFEETKKSLQHLFRKTSLYKKSSSK				NA	NA	NA	NA	NA
D1-12_02041	780	misCA	COG0706	Membrane protein insertase MisCA	TTGAAAAGGAGAATATGGTTACTACTGAGTATGGTCGGTATGCTCGTGCTGCTGGCCGGGTGCTCGAGTGTGAAAGAGCCGATTACGGCGAATAGTCCGCATTTCTGGGACAAATATGTTGTGTATCCATTGTCAGAAGTCATTACGTACGTAGCGAAACTGACGGGCGATAACTATGGTTTATCGATCATCATCGTTACGATTTTAATTCGTCTGCTGATTCTGCCGCTGATGATCAAGCAGCTTCGAAGCTCAAAAGCGATGCAGGCGCTGCAGCCTGAAATGCAGAAGCTCAGAGAAAAATACAGCTCTAAAGATCAAAAAACGCAGCAGAAGCTTCAGCAGGAAACAATGGCCCTGTTTTCAAAGCACGGGGTAAACCCGCTGGCGGGATGTTTCCCGATCCTGATTCAAATGCCGATTTTGATCGGATTCTACCACGCCATTATGCGTACGCAAGCCATTTCACAGCACAGCTTTTTATGGTTTGACCTAGGAGAGAAGGATCCTTACTATATTCTTCCTATCGTTGCCGGTGTGGCCACTTTTGTCCAGCAGAAGCTGATGATGGCCGGAAATCCGACTCAGAATCCTCAAATGGCAATGATGGTATGGATTATGCCGATCATGATCATCGTATTTGCGATCAACTTCCCGAGCGCACTTTCTCTGTATTGGGTAGTCGGAAACCTGTTTATGATTGCTCAGACATTCCTTATTAAAGGACCTGACATTAAACACGATCCGGAAACGCAGAAAGCGGGAGGAAAGAAAAAGTGA	MKRRIWLLLSMVGMLVLLAGCSSVKEPITANSPHFWDKYVVYPLSEVITYVAKLTGDNYGLSIIIVTILIRLLILPLMIKQLRSSKAMQALQPEMQKLREKYSSKDQKTQQKLQQETMALFSKHGVNPLAGCFPILIQMPILIGFYHAIMRTQAISQHSFLWFDLGEKDPYYILPIVAGVATFVQQKLMMAGNPTQNPQMAMMVWIMPIMIIVFAINFPSALSLYWVVGNLFMIAQTFLIKGPDIKHDPETQKAGGKKK	PGPT0024530_6089	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
D1-12_02042	642			hypothetical protein	GTGAAGAAGGTGACTGCTGCGGGACGGAATGTCGAAGAAGCAGTTCAATCAGGCCTTCAGGAACTTCAACTGACGAAAGATCAAGTAGAAATAACGGTGGTGCAAGAAGAATATAAAGGATTTTTGGGTATTTTCGGAAAAAAGAATGCGATCGTAGAACTGGAAGAGAAAAGAAATCCTGTTCAGGAAGCGAAAGCGTATTTGGAAGAAATCATCCATTCCATTGCCGGACCTTCTGAGATTGTTACGGAAGAAAACAAGAAAACAGTCTGTTTTCACATTAAAGGTGAAAAAGCGGCGCTGCTTATTGGCAAAAGAGGACAAACACTCAATGCCCTGGAAACATTGACGCAGCTTGTTTTGAACCGCGGCTCCGGCCAGTATCGCCAAGCCGTTGTCGACGCTGAGAATTATCGGCGGAAAAGAAGAGAAATTCTGGATCAGCTGGCAAACAGGCTGGCCAAGCAAGTGTCGAAAACGAAAAAAGATGTGCATTTAGAACCGATGCCGTCAGGTGAAAGAAAAATCATCCATGACGCGCTGTCAAAGCATCCAAATATCAAAACGTTTTCTACCGGTGAAGGCCGGTACCGCCATCTCGTTATTTCCCATAAAGATAGCAGAAAACCGAAGTCCGGGTAA	MKKVTAAGRNVEEAVQSGLQELQLTKDQVEITVVQEEYKGFLGIFGKKNAIVELEEKRNPVQEAKAYLEEIIHSIAGPSEIVTEENKKTVCFHIKGEKAALLIGKRGQTLNALETLTQLVLNRGSGQYRQAVVDAENYRRKRREILDQLANRLAKQVSKTKKDVHLEPMPSGERKIIHDALSKHPNIKTFSTGEGRYRHLVISHKDSRKPKSG				NA	NA	NA	NA	NA
D1-12_02043	1380	mnmE	COG0486	tRNA modification GTPase MnmE	ATGGATACAATTGCAGCGATTTCAACTCCGATGGGTGAAGGCGCGATCGCGATCGTTCGGCTGAGCGGCCCGGAAGCCGTAAAGATCGCCGACAAAATGTACAAGGGTCCGAAAGGCAAAACGCTCAGTTCGGCAGAATCGCATACCATTCATTACGGGCATATCGCGGACAGCACGACGGGACGGATTATTGAGGAAGTCATGGTGTCTGTTTTAAGAGCGCCCAGAACATTCACAAGGGAAGATGTCATTGAAATCAACTGTCACGGGGGTATTGTGACGGTTAATCAGGTGCTCCAGCTTGCTTTAAGAGAAGGTGCGAGACTGGCAGAACCCGGTGAGTTTACGAAGCGCGCATTTTTAAACGGACGGATTGACCTATCACAGGCGGAAGCGGTGATGGATCTGATCAGGGCCAAAACGGACCGTGCCATGAATGTCGCCATGAACCAGATGGAAGGACGGCTTTCCGCGCTTGTCCGCCGTCTGCGTGATGAGTTGTTAGAAACACTTGCCCATGTTGAGGTTAATATAGATTATCCGGAATATGATGACGTCGAAGAAATGACGCATCAGCTTTTAGTGGAGAAGGCAGGCGGCGTGAAGAAAGAAATCGAGGCGCTGCTCCGCACGTCTGAGCAGGGGAAAATTTTGCGTGAGGGACTGTCTACCGTGATCATCGGCCGTCCGAACGTCGGAAAATCCTCTCTGCTTAACAGCCTTGTCCATGAAACGAAGGCGATCGTAACCGATATTCCGGGAACGACGCGTGATGTGATTGAGGAATATGTCAACGTGCGAGGCGTGCCGCTTCGGCTTGTCGATACCGCCGGAATCCGTGAGACAGAAGACATCGTCGAAAGAATCGGTGTGGAACGGTCACGGCAGGTTCTGAAGGAAGCGGATCTCATTTTGCTTGTGCTTAACCACAGCGAAGAGCTTTCTGAAGAAGATGTAAAATTGTTTGAAGCGGTTGAGGGAATGGACGTCATTGTCATTATGAATAAGACGGACCTTGAGGCTAAGATTGACGCTGAGCGCGTCAAGGAACTGGCGAAAGGCCGGCCTGTCGTCACGACCTCATTGCTGAAAGAAGAAGGCATTCAAGATTTAGAGGAAGCGATTCAGTCGCTATTTTATACAGGAGCGATCGAAAGCGGAGATCTCACCTATGTCAGCAACACCCGTCATATCTCGATTCTGCATCAGGCAAAGCAAGCGATTGATGATGCGCTGAACGGAATTGAACAGGATGTTCCGATTGATATGGTCCAAATTGATTTGACAAGGTGCTGGGAGCTGCTGGGCGAAATCATCGGTGATGCCGTCCACGAAAGCTTAATTGATCAGCTCTTTTCACAATTTTGTTTAGGTAAATAA	MDTIAAISTPMGEGAIAIVRLSGPEAVKIADKMYKGPKGKTLSSAESHTIHYGHIADSTTGRIIEEVMVSVLRAPRTFTREDVIEINCHGGIVTVNQVLQLALREGARLAEPGEFTKRAFLNGRIDLSQAEAVMDLIRAKTDRAMNVAMNQMEGRLSALVRRLRDELLETLAHVEVNIDYPEYDDVEEMTHQLLVEKAGGVKKEIEALLRTSEQGKILREGLSTVIIGRPNVGKSSLLNSLVHETKAIVTDIPGTTRDVIEEYVNVRGVPLRLVDTAGIRETEDIVERIGVERSRQVLKEADLILLVLNHSEELSEEDVKLFEAVEGMDVIVIMNKTDLEAKIDAERVKELAKGRPVVTTSLLKEEGIQDLEEAIQSLFYTGAIESGDLTYVSNTRHISILHQAKQAIDDALNGIEQDVPIDMVQIDLTRCWELLGEIIGDAVHESLIDQLFSQFCLGK				NA	NA	NA	NA	NA
D1-12_02044	1887	mnmG		tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGGGGTATGAAGCAGGCCAATACGACGTGATTGTCATCGGCGCCGGGCATGCCGGTGTTGAGGCTGCCCTCGCATCCGCGCGCCAGGGAGCCAAAACGCTTGTTTTGACGATTAATCTTGATATGGTTGCGTTTATGCCATGTAATCCGTCTGTCGGCGGCCCCGCGAAAGGGATTGTCGTCCGCGAAATTGACGCGCTCGGCGGAGAAATGGCTAGAAATATAGATAAAACTCATATTCAAATGAGAATGCTGAATACAGGAAAAGGTCCGGCCGTACGGGCGCTGCGTGCGCAGGCGGATAAATTCCAATATCAGCACGAAATGAAGCATACGCTGGAAAAAACACCGAATTTGACACTTCTTCAAGGGATTGCCGAGCGTTTAATCATTGAAGACGGGGAGTGCCGCGGTGTCATTACGCAAACCGGTGCTGAATATAAAGCAAAAACGGTCGTGCTGACAACCGGAACGTATTTAAGAGGGCGGATCATTCTCGGTGATTTGTCTTACTCAAGCGGTCCGAATAACCAGCAGCCGTCTATTAAACTTTCTGAGCACTTAGAGGAGCTCGGTTTTGATCTCGTCCGTTTTAAAACGGGCACGCCTCCTCGTGTCTCAAGCGATTCCATTGATTACAGCAAAACAGAAATCCAGCCGGGGGACCCGGTTCCGCGCGCTTTCTCATATGAAACGGTTGAATACATTACCGATCAGCTGCCTTGCTGGCTGACTTACACGAGTCCTGAGACTCATGAGATCATCGACAGCAACCTGCATCGTTCGCCAATGTATTCCGGTATGATTAAAGGAACGGGACCGAGATACTGCCCTTCGATTGAAGATAAAGTCGTTCGGTTTAATGATAAACCGCGTCATCAGATTTTCCTCGAGCCGGAAGGCAGAAATACGCAGGAAGTATACGTTCAAGGTTTATCCACGAGTCTTCCTGAGGACGTGCAGCAGCGGATGCTGGCGACCATTCCGGGACTGGAAAAGGTGCAGATGATGAGAGCCGGATACGCGATTGAGTATGACGCGATTGTACCGACGCAGCTCTGGCCTACACTGGAAACGAAAAAAATCCCTAACCTGTACACAGCCGGTCAAATTAACGGTACATCAGGTTATGAGGAAGCAGCCGGGCAAGGAATTATGGCAGGGATCAACGCAGGCCGCAAAGCGCTTGGAAAAGAAGAAGTGATCCTCAGCCGTTCCGATGCTTATATCGGTGTATTGATTGATGATTTGGTAACGAAAGGAACCAATGAACCGTACCGTCTGCTGACTTCACGGGCGGAATACAGACTGCTGCTCCGTCACGACAACGCGGATCTTCGTCTGACGGAAATCGGCCACGATATCGGCTTAATTTCTGATGAGCGCTATGAAGCGTTTGAGAAGAAAAAAGCGGCGATCGAGGCAGAGAAAAAACGTCTCTGGTCTGTTATTATCAAGCCGTCTCCTGAGAATCAGGAATATATCCGTTCACTCGGCGGAAGCGAGCTGAAAGACGGAGTGCGCGGCACAGATTTAATGAAACGTCCGGAAATGAACTATGAAACAGTGACAAAACTTGCGCCTGCAGATTCTCCGGTTCCGCAAGATGTGGCGGAACAAGTGGAAATTCAGGTGAAATATGAAGGATATATCGAAAAATCCTTGCAGCAAGTGGAAAAGCTAAAGAAAATGGAAAACAAAAAAATCCCTGATCGGATTGATTATGACGCCATTAAAGGAATTGCTACTGAAGCCCGTCAAAAGCTGAAAGAAGTGCGTCCTTTATCAGTTGCTCAAGCGTCCCGTATTTCCGGTGTCAATCCGGCAGACATTTCAATCCTGCTGGTATACCTGGAGCAGGGCCGTATTGCCAAGGTAGCTGAATAG	MGYEAGQYDVIVIGAGHAGVEAALASARQGAKTLVLTINLDMVAFMPCNPSVGGPAKGIVVREIDALGGEMARNIDKTHIQMRMLNTGKGPAVRALRAQADKFQYQHEMKHTLEKTPNLTLLQGIAERLIIEDGECRGVITQTGAEYKAKTVVLTTGTYLRGRIILGDLSYSSGPNNQQPSIKLSEHLEELGFDLVRFKTGTPPRVSSDSIDYSKTEIQPGDPVPRAFSYETVEYITDQLPCWLTYTSPETHEIIDSNLHRSPMYSGMIKGTGPRYCPSIEDKVVRFNDKPRHQIFLEPEGRNTQEVYVQGLSTSLPEDVQQRMLATIPGLEKVQMMRAGYAIEYDAIVPTQLWPTLETKKIPNLYTAGQINGTSGYEEAAGQGIMAGINAGRKALGKEEVILSRSDAYIGVLIDDLVTKGTNEPYRLLTSRAEYRLLLRHDNADLRLTEIGHDIGLISDERYEAFEKKKAAIEAEKKRLWSVIIKPSPENQEYIRSLGGSELKDGVRGTDLMKRPEMNYETVTKLAPADSPVPQDVAEQVEIQVKYEGYIEKSLQQVEKLKKMENKKIPDRIDYDAIKGIATEARQKLKEVRPLSVAQASRISGVNPADISILLVYLEQGRIAKVAE				NA	NA	NA	NA	NA
D1-12_02045	720	rsmG	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGAATATAGAGGAATTTACATCCAGTTTAGCGGAGAAAGGGATTTCCCTTTCTGACCGCCAGCTGGAGCAATTCGAGTTGTATTACCGGATGCTCGTGGAATGGAACGAAAAAATGAATCTGACATCCATCACTGAAAAAAAGGAAGTTTATCTCAAGCATTTTTATGATTCAATAACGGCGGCATTTTATATTGATTTTGAAAAGGTCACCACTCTTTGTGATGTCGGCGCCGGCGCCGGTTTTCCAAGCCTGCCCATCAAAATCTGCTTCCCGCATCTGCATGTCACCATCGTCGATTCACTGAATAAGCGGATTACGTTTTTGGAAACTCTCTCTGATGCTTTACAATTAGAGCATACGACATTTGTCCATGACAGAGCGGAGACATTCGGACAGCGGAAAGACGTACGGGAAAGCTTCGATCTCGTGACGGCCCGTGCGGTGGCGCGTCTGTCGGTCCTGAGTGAGCTTTGTCTGCCGCTGGCCAAGAAAAACGGCGTATTTGCCGCACTGAAAGCAGCAGCCGCTGATGAAGAGCTGAAAGCGGGGCAAAAGGCGATTAAAGTATTGGGAGGAGAGCTTGAACAAGTTCATTCCTTTACACTTCCTGTTGAAGAAAGTGAACGGAACATTATGATCATTCGCAAGACGAAAAGCACTCCGAAAAAATATCCGAGAAAACCGGGTACTCCAAATAAATCGCCAATTGAAGGGTAA	MNIEEFTSSLAEKGISLSDRQLEQFELYYRMLVEWNEKMNLTSITEKKEVYLKHFYDSITAAFYIDFEKVTTLCDVGAGAGFPSLPIKICFPHLHVTIVDSLNKRITFLETLSDALQLEHTTFVHDRAETFGQRKDVRESFDLVTARAVARLSVLSELCLPLAKKNGVFAALKAAAADEELKAGQKAIKVLGGELEQVHSFTLPVEESERNIMIIRKTKSTPKKYPRKPGTPNKSPIEG				NA	NA	NA	NA	NA
D1-12_02046	852	noc	COG1475	Nucleoid occlusion protein	ATGAAGCATTCATTCTCTCGTTTCTTCGGGTTTGGTGAGAAGGAAGAGGAACCGGAGATAGCTGAGCATGATACAAACAAAGAAGAGATACTCGAAATACCGGTACATGCTATCGTTCCCAACCGTTTTCAGCCACGCACCATTTTCTCAGATGAAAAAATCAAAGAGTTAGCAATGACTATCCATACACACGGCATCATTCAGCCGATTGTTGTCAGACATACAGAAGATGAAGGACAATATGAGCTCATTGCGGGTGAAAGGCGCTGGAGAGCGGTACAGACGCTTGAATGGGAGAAGATTCCCGCAATTATTAAAGATTTTTCTGATACGGAAACAGCATCTGTCGCTTTGATTGAAAACCTGCAAAGGGAAGAATTGTCCTCCATTGAGGAAGCTCATGCGTACGCAAGGCTGTTAGAACTTCATGATTTAACACAGGAAGCCTTGGCGCAGCGCTTAGGAAAAGGCCAGTCAACGATTGCGAACAAGCTCCGATTGTTAAAGCTCCCGGAACCGGTCCAGGATGCGATTATGGAGAAAAAAATTACGGAACGTCATGCAAGAGCACTGATTCCGCTCAAACAGCCGGAGCTTCAGGTCACATTGCTTGCGGAAATCATTGAGAAAAGCTTAAACGTCAAGCAGACGGAAGACAGAGTGGTGAAAATGCTTGAACAGAATAAGCAGAAACCAAAGCCGAGACGCAAAGCGTTCAGCAGGGATACAAGAATTGCGATGAATACGATTCGTCAGTCACTGTCCATGGTAGAAGACAGCGGCGTCAGACTGAATACTGAAGAAGAAGAATTCGAAGAGTACATCCAGCTTACCATTCGGATACCTAAATAA	MKHSFSRFFGFGEKEEEPEIAEHDTNKEEILEIPVHAIVPNRFQPRTIFSDEKIKELAMTIHTHGIIQPIVVRHTEDEGQYELIAGERRWRAVQTLEWEKIPAIIKDFSDTETASVALIENLQREELSSIEEAHAYARLLELHDLTQEALAQRLGKGQSTIANKLRLLKLPEPVQDAIMEKKITERHARALIPLKQPELQVTLLAEIIEKSLNVKQTEDRVVKMLEQNKQKPKPRRKAFSRDTRIAMNTIRQSLSMVEDSGVRLNTEEEEFEEYIQLTIRIPK	PGPT0014815_7603	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
D1-12_02047	762	soj	COG1192	Sporulation initiation inhibitor protein Soj	GTGGGAAAAATCATAGCAATTACGAACCAAAAAGGCGGAGTCGGGAAGACGACGACTTCTGTTAATCTGGGGGCTTGCTTGGCTTACATAGGTAAAAGGGTTCTTCTTGTTGATATTGATCCGCAGGGCAATGCAACGAGCGGATTAGGGATTGAAAAAGCCGATGTGGATCATTGTGTGTACGACATTTTAGTAGATGATGCAGATGTTACAGATATTATTAAACCGACTTCAGTAGAGAACTTAGATGTCATTCCGGCCACGATCCAGCTTGCGGGAGCGGAAATCGAATTGGTTCCGACGATCTCACGGGAGGTCAGGCTGAAAAGAGCATTAGAATCAGTGAAACAAAATTACGATTACATGATTATTGATTGTCCTCCGTCTCTCGGGTTATTAACGATTAATGCGCTTACCGCTTCAGATTCAGTCGTTATCCCGGTTCAGTGCGAATACTACGCTCTTGAAGGATTGAGTCAATTATTAAATACAGTTCGGCTTGTGCAAAAACATTTAAATACCGACTTAATGATAGAAGGAGTGCTTCTGACGATGCTTGATGCCAGAACGAATCTCGGCATTCAAGTGATAGAGGAGGTAAAGAAATACTTTAGAGATAAAGTGTATCAAACCATTATCCCTCGCAATGTCCGTTTAAGTGAGGCGCCGAGTCACGGCAAGCCGATCATATTATACGATCCGCGTTCGAGAGGTGCGGAAGTATATTTAGATTTAGCAAAGGAAGTGGCAGCGAATGGCTAA	MGKIIAITNQKGGVGKTTTSVNLGACLAYIGKRVLLVDIDPQGNATSGLGIEKADVDHCVYDILVDDADVTDIIKPTSVENLDVIPATIQLAGAEIELVPTISREVRLKRALESVKQNYDYMIIDCPPSLGLLTINALTASDSVVIPVQCEYYALEGLSQLLNTVRLVQKHLNTDLMIEGVLLTMLDARTNLGIQVIEEVKKYFRDKVYQTIIPRNVRLSEAPSHGKPIILYDPRSRGAEVYLDLAKEVAANG				NA	NA	NA	NA	NA
D1-12_02048	852	spo0J	COG1475	Stage 0 sporulation protein J	ATGGCTAAAGGCGGGCTCGGAAAAGGGATTAACGCGTTGTTTAATCAGGTTGATTTGTCTGAAGAGACAGTGGAAGAGATTAAAATCAGTGATTTGCGCCCCAATCCTTATCAGCCAAGAAAACAATTTGACGATGAGTCATTAGCTGAACTGAAGGAATCCATCATTCAGCATGGCATTCTTCAGCCCATTATCGTGAGAAAATCATTGAAGGGCTATGATATTGTAGCCGGCGAACGCCGTTACCGCGCCGCAAAACTTGCCGGTAAAGAGACAGTGCCGGCTATCGTGCGGGATTTATCTGAATCGCTGATGCGGGAAATCGCTCTTTTGGAAAACCTTCAGCGTGAAGACTTATCACCGCTTGAAGAAGCTCTGGCATATGACTCACTGCTGAAGCATTTGGATTTAACCCAGGAACAGCTCGCTAAACGGCTCGGGAAAAGCAGGCCTCATATTGCCAACCATTTAAGACTGCTGACGCTGCCGGAAAGCATCCAGAACCTCATTGCAGAAGGTGCGTTATCCATGGGACACGGCAGAACCTTGCTTGGTTTGAAAAATAAAAACAAGCTTGAACCGCTTGTGAAGAAAGTGGTTGAAGAACAGCTGAACGTCCGTCAGCTTGAGCAGCTGATTCAGCAGTTAAACAACAATGTTCCACGTGAAACAAAGAAAAAAGAACCTGTTCAAGATGTTGTGTTAAAAGAGCGGGAATCGTATTTGCAAAATTACTTCGGAACAACAGTAAATATTAAGAGACAAAAGAAAAAAGGGAAGATTGAGATTGAGTTTTTCTCAAATGAAGATCTTGAACGTATCCTAGAACTATTGTCTGAAAGAGAAGCGTAA	MAKGGLGKGINALFNQVDLSEETVEEIKISDLRPNPYQPRKQFDDESLAELKESIIQHGILQPIIVRKSLKGYDIVAGERRYRAAKLAGKETVPAIVRDLSESLMREIALLENLQREDLSPLEEALAYDSLLKHLDLTQEQLAKRLGKSRPHIANHLRLLTLPESIQNLIAEGALSMGHGRTLLGLKNKNKLEPLVKKVVEEQLNVRQLEQLIQQLNNNVPRETKKKEPVQDVVLKERESYLQNYFGTTVNIKRQKKKGKIEIEFFSNEDLERILELLSEREA	PGPT0014815_7648	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
D1-12_02049	615			hypothetical protein	ATGAATCGAAAAGGCGGGCTTTTTTCTCAAGAACGGGCAAAACAATATGTATCTCATACGGATTCTTCTGCTGCGAATCAAATACAAGCGATCCTTACTTCATCTTTACGTAAAGCAGCCGGCAGACCGTTAGTCACCGTGTGTATCGGTACAGATCGGTCGACCGGAGATTCATTAGGTCCGCTCGTAGGAACAAAGTTAGAAAAAATGAATTTAGGCAGATTGCACGTTTACGGCACGCTGTCAGATCCTGTTCACGCCGTCAATATGAAAGACAAGCTGAAAGATATTCAACATCTACATAAAAATCCGTTTATTATAGCGGTTGATGCTTGTTTAGGCCGCGTCAAAAGCGTAGGCTCATTTCAAATCGGCGATGGACCGCTGAAGCCCGGAGCAGGTGTTCAAAAAGACCTTCCTGAAATCGGTGACGTCCATATCAACGGAATCGTCAATGTCAGCGGGTTTATGGAGTATTTTGTCCTGCAGAATACGAGGCTTCATCTTGTTATGAGCATGGCAAATGTTTTAGCAGAGGGGTTACAGCTGACAGATAAATCAGAAGGCCGGCAGGAACGGCTCAGTCCGTTTCATAAGCTGACAAGACGTATATAA	MNRKGGLFSQERAKQYVSHTDSSAANQIQAILTSSLRKAAGRPLVTVCIGTDRSTGDSLGPLVGTKLEKMNLGRLHVYGTLSDPVHAVNMKDKLKDIQHLHKNPFIIAVDACLGRVKSVGSFQIGDGPLKPGAGVQKDLPEIGDVHINGIVNVSGFMEYFVLQNTRLHLVMSMANVLAEGLQLTDKSEGRQERLSPFHKLTRRI				NA	NA	NA	NA	NA
D1-12_02050	1005			hypothetical protein	ATGAAGTGGATGCTGCTCATATTAAGCAGCCAGATTGGGGCTGGGTATGCAAGCGGGCAGGAAATATGGCAGTTTTTCGGTGTCGAAAGCGGACTGGCTATTGTATTGTTTACAGTCATGTTTACGATTTCGGCTTATATTGTGTTGAAGATCAGCTATCGGGTTCAATCAACGCACTTTTTACCTGTGCTTGAGCATCTGATGGGGCCGGCTCTTGCTAAAGTCTATGATGTGCTTATTATGTTTTATTTGTTTTCAATGACGATGGTTATGATTGCCGGCGGCGGTGTGACGCTGCAAATGTACAAGCTGCCGTTTTGGCTCGGTATTTTTCTTCTTTGCATTGTGACCGTCGGTTTATTCTTTTGGGATATAAAAGGAATATTATCTCTGAATAGTATTTTGATACCGATTCTTGTAGCGGGACTGTTATATGCATTGGTCTTTTTTCAGACAACCCATCATTACACGTGGACGATAGATTTGACCCGCCAGTATAATTGGCCGGCAAGCATTACCTTCACGTCCTTAAACATCCTTTCTGTTGTCGCTGTTCTTTCTTCAATCGGGAAAGATATGAAAGGACTGGGAGAAGCGAAAATCGCAAGCGTTGCAAGCGGGCTGATTTTCGGTGTGATTTCATTTGTTTACAATGAAACGCTTGTGCAGCTTTCAGGCAGTCTTACACAATATGAGATGCCTCTTTTCGCCGTCCTTGAAGGCGCTCCTTATCCGTTATTTCTTTGTATGGCCGCCGTGCTTTTTTTAGCCATCTATACGACAACCGTGACCGGTCTGTTCGGGCTTTCCAGCCGCATGCTTGCATTTGTGAAATTGCCGAGATGGACGCTCGTATCTCTTCTTTTAGCTGTGATGGTGCCTTTTACGACAATCGGTTTTTCAGATTTGATCGCCATTTTATATCCCATTTACGGGCTTTTAAGTCTTTATTTGCTGGTATGTCTTCTTCTTTACCCTATTTTAGGGAGATGGAAAAAAGTATAA	MKWMLLILSSQIGAGYASGQEIWQFFGVESGLAIVLFTVMFTISAYIVLKISYRVQSTHFLPVLEHLMGPALAKVYDVLIMFYLFSMTMVMIAGGGVTLQMYKLPFWLGIFLLCIVTVGLFFWDIKGILSLNSILIPILVAGLLYALVFFQTTHHYTWTIDLTRQYNWPASITFTSLNILSVVAVLSSIGKDMKGLGEAKIASVASGLIFGVISFVYNETLVQLSGSLTQYEMPLFAVLEGAPYPLFLCMAAVLFLAIYTTTVTGLFGLSSRMLAFVKLPRWTLVSLLLAVMVPFTTIGFSDLIAILYPIYGLLSLYLLVCLLLYPILGRWKKV				NA	NA	NA	NA	NA
D1-12_02051	207			hypothetical protein	TTGGCGGATAAAGACTTTGGCCTGAATGATATTGTTGAAATGAAGAAACCGCATCCTTGCGGTGAAAACAGGTGGAAAATCATTCGGATGGGAATGGATATTCGGATCAAATGCACGGGTTGTTCCCACAGTGTCATGATTCCGAGAAGAGATTTTGAGAGAAAGCTGAAAAAAGTACTCGTCAAGCATGAGGAGCCTACATCATAA	MADKDFGLNDIVEMKKPHPCGENRWKIIRMGMDIRIKCTGCSHSVMIPRRDFERKLKKVLVKHEEPTS				NA	NA	NA	NA	NA
D1-12_02052	2004	ynfF	COG1104	putative dimethyl sulfoxide reductase chain YnfF	ATGAGCAAAGTGCATCAGTCAGGGTGCCCGCTGAATTGCTGGGACAGCTGCGGCTTTTTGGTGACAGTTGAGGATGGAAAGGTGACGAAAGTAGACGGAGACCCGAATCATCCCATTACGGAAGGAAAAATTTGCGGCCGGGGCAGAATGCTGGAGACGAAAACGAATGCGCCGGAACGGCTTCGTTTTCCTTTAAAAAAGAAAGACGGCGAATTTGTCCGCATTTCCTGGGAGCAGGCGTTAGATGAAATTGCTGAAAAAATGGCGGTGATTAAGGAGACGTTGGGCACTGCCGCAGTGCTGCACAGTCATGATTACGCCAATAACGGTCTTTTGAAGGCGCTCGACCAGCGTTTTTTTAATGGATACGGCGGTGTAACGGAGATTGCGGGCAGCATTTGCTGGGGTTCCGGCATTGAAGCGCAGCGCTGGGATTTCGGGCGTTCTTACGGGCATGGACCGCTTGATATTTATCACAGCAAGCATGTGATCGTATGGGGCAGAAACGTGTCCCGGACGAATATGCACCTCTATCATCATCTGCAGCAGGTGAAGAAAAAAGGAGCGACACTGACGGTCATTGATCCTATTTTTAACCCGACTGCAAAGCTTGCCGATCGGTATATATCCGTCAAACCCGGCATGGATGGCTGGCTTGCGGCGGGTGTTTTAAAAATATTATGCCAAACCGGCAGAACCGATTCCGATTTCATTCAAAGGCATTCGGTCGGTTTTGAAGAAATAGAAAAGCTTCTGAAGACGATTTCTTTTGAGGAGATCATTGAGAAAACAGAAACGTCTTTAGAAGTGCTTGAATATCTTGCTGATTTATATGCTGACGGTCCCGCCTCCACTTTTATGGGTCTTGGGATGCAGAGATATAAAAACGGGGGCGGGACGATACGGTGGATTGACGCTTTAGCTGCGGCGAGCGGAAATGTCGGTATCAAAGGCGGCGGCGCAAACTTCGGAAATGTGCAAGTCGGTGAAAGCTTTGCAAAGGCCGAGCTCACCCGTCCTGATCTGAAGAAAAGTTCGAGAACGTTTTCGATGATGACTCAAGCTGAAGAGGCGCTGAATGCAGCCGATCCGCCGATTGAGATGATCATCGTGACGTGCGGCAATCCGCTGACACAGGTGCCGAATACAAAAAAAGTGAAGGAAGCGTTTGAAAAAACACCGGTCACAGTGGCCATTGATTCGGTCATGACCGATACGGCGAAGCTCTGTGACTATGTGCTGCCGACGGCCGTTGTTTTCGAAGAGGAAGATATTTATTATTCCAGCATGTATCATCACTATGTTCAATATGGTAAGAAGCTTGCGGAACCGCAGGGAGAGGCAAAATCAGACCGCTGGATCTGGACGGAACTCGCAAAGCGTCTCGGATTCGGGGAGCTCTTTGATTACAGTACGGAAGATTTCTTGAAAATGGGGCTCTCTTCTTTGGAGAAAGAAGGAATCACCCTTGAGCAATTAAAGGAAAAAGGACATATGCCGCTTCCGGTCAAACAGGTTCCGTGGAGTGATTTTCAATTTTTAACCCCGAGCGGAAAATTTGAATTCGTCTCGTCACTGGCAGAAGAGAAAGGATACAGCGGCCTCCCTCAATTGGAGGTGCCGGAGGAGTCTGTTTATCATGACGCCGGACTGGCCGGGAAATATCCGTATACGCTGCTGTCCATTCACCCGCAGCGCTCCAATCATTCACAGCACGTGCCGTTTATTGAAAAGCTTCAGCAGATTCAGGTGGATCTGTCGCCGGATATCGCCGAGGAGCTTTCACTTCAAGACGGAGATACGGCAGAGGTATACAATGACCGCGGCCGTCTGCGCGGCAGGGTGAAAATCATGAAGCAGGCTCACCCGAAGACGGTGAATATAGATGAAGGCATGTGGGCGGCATTCGGAGGCTCCGTCAACATGCTCACAAAGGATTCAAATTCCGATAATGGAATGGGAAGTACGCTTTTTGACTGTCTGGTAGCGGTTAAAAAAGGATAA	MSKVHQSGCPLNCWDSCGFLVTVEDGKVTKVDGDPNHPITEGKICGRGRMLETKTNAPERLRFPLKKKDGEFVRISWEQALDEIAEKMAVIKETLGTAAVLHSHDYANNGLLKALDQRFFNGYGGVTEIAGSICWGSGIEAQRWDFGRSYGHGPLDIYHSKHVIVWGRNVSRTNMHLYHHLQQVKKKGATLTVIDPIFNPTAKLADRYISVKPGMDGWLAAGVLKILCQTGRTDSDFIQRHSVGFEEIEKLLKTISFEEIIEKTETSLEVLEYLADLYADGPASTFMGLGMQRYKNGGGTIRWIDALAAASGNVGIKGGGANFGNVQVGESFAKAELTRPDLKKSSRTFSMMTQAEEALNAADPPIEMIIVTCGNPLTQVPNTKKVKEAFEKTPVTVAIDSVMTDTAKLCDYVLPTAVVFEEEDIYYSSMYHHYVQYGKKLAEPQGEAKSDRWIWTELAKRLGFGELFDYSTEDFLKMGLSSLEKEGITLEQLKEKGHMPLPVKQVPWSDFQFLTPSGKFEFVSSLAEEKGYSGLPQLEVPEESVYHDAGLAGKYPYTLLSIHPQRSNHSQHVPFIEKLQQIQVDLSPDIAEELSLQDGDTAEVYNDRGRLRGRVKIMKQAHPKTVNIDEGMWAAFGGSVNMLTKDSNSDNGMGSTLFDCLVAVKKG				NA	NA	NA	NA	NA
D1-12_02053	1101	ychF	COG0012	Ribosome-binding ATPase YchF	ATGGCTTTAACTGCTGGAATTGTCGGTTTGCCGAATGTCGGAAAATCGACGTTATTTAATGCAATTACCCAGGCTGGTGCCGAATCAGCCAACTACCCGTTCTGTACAATTGATCCGAACGTGGGAATCGTGGAAGTGCCGGATGAACGTCTGCAAAAGCTGACTGAATTGGTGAACCCGAAAAAAACGGTGCCGACTGCGTTTGAATTCACTGATATCGCGGGGATCGTAAAAGGCGCATCTAAAGGTGAAGGACTCGGAAATAAGTTTCTTTCTCATATCCGTCAGGTAGATGCGATCTGTCACGTTGTACGGGCATTCGCTGATGACAATATTACGCACGTGTCAGGGAAAGTCGATCCGATTGACGATATTGAAACGATCAACCTTGAATTGATTCTTGCCGACATGGAGACAGTCGAAAAACGCATCACGCGTGTAAGCAAGCTTGCTAAGCAAAAAGACAAAGAAGCGGTTTTTGAATTTGACATTCTGTCTAAATTAAAAGAAGCTTTCGAACAAGAAAAGCCTGCCCGTTCCGTTGAATTTACGGAAGAACAGCAAAAGCTTGTGAAGCAGCTTCATTTGCTTACGTCAAAACCCGTGCTTTATGTAGCAAATGTAAGCGAGGATGAAGTGGCTGATCCTTCAGATAATGAATATGTTGCGAAAATCCGGGAGTACGCCGCGGGTGAAAACGCCGAGGTTATCGTCGTCTGCGCGAAAATTGAGTCTGAAATTGCTGAATTGGAAGGCGAAGAAAAGCAAATGTTCCTTGAGGAGCTCGGCATCGAAGAGTCAGGTCTTGATCAGCTGATTAAAGCGTCATACTCTCTTCTCGGTCTTGCGACATACTTTACGGCGGGCGAACAGGAAGTGCGCGCATGGACATTCAGAAAAGGCATGAAAGCTCCTGAGTGTGCGGGTATCATCCACACTGACTTTGAACGCGGCTTTATCCGCGCTGAAACGGTTGCTTATGAAGACCTTTTGGCAGGCGGCGGAATGTCCGGAGCGAAAGAAGCCGGAAAAGTGCGTCTGGAAGGTAAGGAATATGTAGTCCAAGACGGAGATGTCATTCATTTCCGATTTAATGTATAG	MALTAGIVGLPNVGKSTLFNAITQAGAESANYPFCTIDPNVGIVEVPDERLQKLTELVNPKKTVPTAFEFTDIAGIVKGASKGEGLGNKFLSHIRQVDAICHVVRAFADDNITHVSGKVDPIDDIETINLELILADMETVEKRITRVSKLAKQKDKEAVFEFDILSKLKEAFEQEKPARSVEFTEEQQKLVKQLHLLTSKPVLYVANVSEDEVADPSDNEYVAKIREYAAGENAEVIVVCAKIESEIAELEGEEKQMFLEELGIEESGLDQLIKASYSLLGLATYFTAGEQEVRAWTFRKGMKAPECAGIIHTDFERGFIRAETVAYEDLLAGGGMSGAKEAGKVRLEGKEYVVQDGDVIHFRFNV				NA	NA	NA	NA	NA
D1-12_02054	288	rpsF	COG0360	30S ribosomal protein S6	ATGAAAAAGTACGAAGTTATGTACATTATCCGTCCGAACATTGACGAAGAGTCAAAGAAGGCAGTTATCGAGCGTTTCAACAACGTATTGACTTCTAACGGAGCGGAGATCACTGGAACAAAAGATTGGGGTAAACGTCGTCTTGCTTACGAAATCAACGATTTCCGTGACGGTTTCTACCAAATCTTAAACGTTCAGTCTGAAGCTGCAGCGGTTGCTGAATTCGACCGTTTAGCTAAGATCAGTGACGATATCATTCGCCACATCGTTGTTAAAGAAGAAGAATAA	MKKYEVMYIIRPNIDEESKKAVIERFNNVLTSNGAEITGTKDWGKRRLAYEINDFRDGFYQILNVQSEAAAVAEFDRLAKISDDIIRHIVVKEEE				NA	NA	NA	NA	NA
D1-12_02055	519	ssbA	COG0629	Single-stranded DNA-binding protein A	ATGCTTAACCGAGTTGTATTAGTCGGAAGACTGACAAAAGACCCAGAGCTTCGTTATACGCCAAGCGGTGCGGCTGTCGCCACGTTTACTCTTGCTGTGAATCGTACATTCACGAACCAGTCCGGAGAACGTGAAGCCGATTTCATTAATTGTGTCACTTGGAGAAGACAAGCCGAAAACGTTGCAAACTTTCTTAAAAAAGGAAGCCTTGCCGGCGTAGACGGCCGACTCCAGACAAGAAATTATGAAAACCAGCAGGGACAGCGTGTCTTCGTGACAGAAGTCCAAGCTGAAAGTGTTCAATTTCTTGAGCCTAAAAACAGCGGCGGTTCTGGATCAGGCGGATACAACGAAGGAAACAGCGGCGGAGGCCAATACTTTGGCGGAGGCCAAAATGATAATCCGTTCGGCGGAAATCAGAACAACCAGAGACGAAATCAAGGGAACAGCTTTAATGATGATCCATTTGCCAACGACGGCAAGCCGATTGACATCTCGGATGATGATCTTCCGTTCTAA	MLNRVVLVGRLTKDPELRYTPSGAAVATFTLAVNRTFTNQSGEREADFINCVTWRRQAENVANFLKKGSLAGVDGRLQTRNYENQQGQRVFVTEVQAESVQFLEPKNSGGSGSGGYNEGNSGGGQYFGGGQNDNPFGGNQNNQRRNQGNSFNDDPFANDGKPIDISDDDLPF				NA	NA	NA	NA	NA
D1-12_02056	240	rpsR	COG0238	30S ribosomal protein S18	ATGGCAGGAGGACGCAGAGGCGGTCGTGCGAAACGCCGTAAGGTTTGTTACTTCACTTCTAACGGCATTACGCACATCGATTACAAAGATGTAGATCTTCTTAGAAAGTTTGTTTCTGAGCGTGGTAAAATCTTACCTCGCCGTGTAACTGGAACAAACGCGAAATACCAACGTAAATTGACTATCGCGATCAAACGCGCACGTCAAATGGCTTTACTTCCATACGTAACTGGCGAGTAA	MAGGRRGGRAKRRKVCYFTSNGITHIDYKDVDLLRKFVSERGKILPRRVTGTNAKYQRKLTIAIKRARQMALLPYVTGE				NA	NA	NA	NA	NA
D1-12_02057	582	adaA	COG2169	Bifunctional transcriptional activator/DNA repair enzyme AdaA	ATGGAGACAGACAGAAATATCCTGACTGATGAAAAGTGGAGCGCAATCATACGCAATGATGCTTCTTATGACGGAGTATTTTATTATGCAGTAAAAACGACGGGGATTTTCTGCCGGCCTTCTTGTAAATCGAGAGTTCCGAATAAAGAAAACGTGCTGGTGTTTGATACGGCTGATGCAGCGCTCGAGAGACATTTTCGTCCCTGTAAAAGGTGCCGGCCGAACGGTCTTCGTCTTCCTGATGAAGAATGGATTGCTCAAATCATTGAATACATTGAACGCCATTATCACGAATCCCTGACTTTGAGTGTACTGGCCGAAATGTGTCACGGCAGCCCCTATCATTTACAGCGGACATTTAAAAAAATCAGGGGAATGTCCCCGATTGCGTATATACAGAAAATAAGATTGTCGAAGGCGGAACACCTTTTAAAGCATACTGATATGACAGTCATGGAGATCGCTCTGACTGTCGGAATTCCAAACACAGCGCATTTCGCGACTCTTTTTAAAAAGAGAACCGGGAGTTCGCCCACAGAATACAGAAAAACGGCCAAAATGGGACAGGGAGGTTCAATATGA	METDRNILTDEKWSAIIRNDASYDGVFYYAVKTTGIFCRPSCKSRVPNKENVLVFDTADAALERHFRPCKRCRPNGLRLPDEEWIAQIIEYIERHYHESLTLSVLAEMCHGSPYHLQRTFKKIRGMSPIAYIQKIRLSKAEHLLKHTDMTVMEIALTVGIPNTAHFATLFKKRTGSSPTEYRKTAKMGQGGSI				NA	NA	NA	NA	NA
D1-12_02058	558	adaB	COG0350	Methylated-DNA--protein-cysteine methyltransferase, inducible	ATGAGTAAAGAGCCTATGATCTATTGGACACTCTTCACACGGAATGATTGGAGCCTGTATACAGCCGCCACATCTAAGGGGCTTTGCTTTATAGGTTCAAATCATGGAAGCTTTGAAGAGCTTGAGCAGTGGGCAAAAAAAGCAATACCGCAATACCGATTGGCACGTGATGATGAAAAGCTGGCGTCTTACACGGCAGAGCTGTCCGAGTACATCGACAATGGCAGATCAGCTTTTTCAGTGCCGGTGGATCTTTACGGGACAGAATTTCAGCTTGCTGTATGGAAAGCGCTTATGGACATACCGTACGGCGAGACATACTCCTATTCGGATATAGCAGAAATGATTCAGAAACCGGCAGCTGTAAGAGCAGTGGGCGCCGCGATTGGAAAAAATCCGGTATTGATTACGGTTCCGTGCCATCGCGTCATCGGGAAAAACGGGAAACTGACCGGATTCAGAGGCGGTTTAGAAATGAAAAAGCAGCTGCTGGCATTAGAGGGCGGAAACATTGAAACACTGGAATACCGGCTGAGCCGGACAGGAGGGAACACATGA	MSKEPMIYWTLFTRNDWSLYTAATSKGLCFIGSNHGSFEELEQWAKKAIPQYRLARDDEKLASYTAELSEYIDNGRSAFSVPVDLYGTEFQLAVWKALMDIPYGETYSYSDIAEMIQKPAAVRAVGAAIGKNPVLITVPCHRVIGKNGKLTGFRGGLEMKKQLLALEGGNIETLEYRLSRTGGNT				NA	NA	NA	NA	NA
D1-12_02059	759	exoA	COG0708	Exodeoxyribonuclease	ATGAAACTGATTTCTTGGAATGTAAACGGCTTGCGTGCCGTGATGAAAAAGATAGATATCAATACTTACGTTCAGGAAACGGCAGCCGATATTCTATGTCTGCAAGAAACAAAAGTACAGGACGGACAAGTATCATTACAGCCTGAAGGATATCACGCCTATTGGAACTATGCGGTGAAAAAAGGCTACTCAGGCACGGCTGTTTTTTCGAAAGAAAAGCCGCTGCACGTGTTCTATGGACTGGGGATTGACGACCATGATCAAGAAGGACGGGTGATCACGCTTGAATTTGAGAACGTGTTTGTCGTCAACTGTTACACGCCGAATGCCAAACGCGGATTAGAGCGAATTGATTACCGTCTTCAATGGGAAGCCGATTTTAAGGATTATCTGCAGAAGCTTGACCGGAAGAAGCCCGTGATCTTATGCGGCGATCTGAATGTCGCACACAGGGAGATAGACTTAAAAAATCCGAAAGCCAACCGGAAGAACGCCGGTTTCTCGGAGCAGGAGCGGGAAGCGTTCAGCGCCCTGCTGAACGCCGGATTTACCGACTCATTCCGCCATTTACACCCTGATCGGGAAGGCGCCTATTCCTGGTGGTCTTACAGGACGAACGCACGTGAAAAAAACATCGGCTGGCGGCTTGATTACGTCATTGTTTCAGACAGACTGAAGCCGCGGATCAGCGAAGCGGCCATTTGTGCCGATATTATGGGTTCTGACCATTGCCCTGTTGAAATGACAGTGGATTTATGA	MKLISWNVNGLRAVMKKIDINTYVQETAADILCLQETKVQDGQVSLQPEGYHAYWNYAVKKGYSGTAVFSKEKPLHVFYGLGIDDHDQEGRVITLEFENVFVVNCYTPNAKRGLERIDYRLQWEADFKDYLQKLDRKKPVILCGDLNVAHREIDLKNPKANRKNAGFSEQEREAFSALLNAGFTDSFRHLHPDREGAYSWWSYRTNAREKNIGWRLDYVIVSDRLKPRISEAAICADIMGSDHCPVEMTVDL				NA	NA	NA	NA	NA
D1-12_02060	939	ccpB_2		Catabolite control protein B	ATGGCAAATATAAAAGAGATTGCGAAACTGGCGAATGTGTCGGTGGCCACCGTATCACGCGTATTAAACCGACACCCGTACGTATCTGAGGAGAAAAGGCGTCTTGTGAATCAAGTGATGAAGGAGCTGGATTATACCCCTAATCGAACCGCCATTGATCTGATTCGCGGAAAGACCAATACAATCGGCGTGATTTTGCCGTACAGCGACCATCCCTGCTTTGACAAAATTGTAAACGGTATCACGAAGGAAGCGTTTGCCCATGATTACGTGACAACCCTTCTCCCCACCAACTATGACCCCGCTATAGAGTTGACATATTTCGAACTGCTGAAAATGAAAAAGATTGACGGACTGATTGTCACGTCCCGTGCGAATGAATGGGAAACCGCCGTGCCTTACCTGGAATACGGTCCCATTGTCGCTTGTGAATATACACAGCATCAAGAGATTCCCTGCGCTTATAATGACAGGCAGGCAGCATACAGAGAAAGCTTTTTGTATTTGAAGAACCGCGGGCATCAAGACGTTGCTTTTACATGTGTGCGGGAAGCGGAAAAAAGCCCGAGTACGGCCGACAAGGTAACCGCATATAAGGCGGTTTTCGGCTCTCTTGATGAAACCCGCATTCTGGTCGGATGCCATGATATGGACGACGGAAAGCGGGCGGGTGAGCACTTCCGGGGTTTCGACAAGGCGCCGACGGCCATCTATGCGCACAGTGATGACGTGGCTGCCGGCTTGTACCAGTTTGCGAAAGAACAGAAATGGGACGCGGAGATCATCGGCGAGGGAAATCTGAGCGTCAGCCGGGCATTGAATATTCCATCTCTGGAACTTCATTTGGAACGGGTCGGAAAGGAAGCATTTTTATTGTTTTTTCACGAAGAAACGGCTAAAAAACAAATTATGCATCAATTTCAGCGGAAAAAGTCTTGA	MANIKEIAKLANVSVATVSRVLNRHPYVSEEKRRLVNQVMKELDYTPNRTAIDLIRGKTNTIGVILPYSDHPCFDKIVNGITKEAFAHDYVTTLLPTNYDPAIELTYFELLKMKKIDGLIVTSRANEWETAVPYLEYGPIVACEYTQHQEIPCAYNDRQAAYRESFLYLKNRGHQDVAFTCVREAEKSPSTADKVTAYKAVFGSLDETRILVGCHDMDDGKRAGEHFRGFDKAPTAIYAHSDDVAAGLYQFAKEQKWDAEIIGEGNLSVSRALNIPSLELHLERVGKEAFLLFFHEETAKKQIMHQFQRKKS				NA	NA	NA	NA	NA
D1-12_02061	381			hypothetical protein	ATGCGAATTGAACATGCAGCGATATGGGTGAAAGATTTAGAACGGATGAAAGAGTTTTATGAGACATACTTCGGCGCCAAGGCCAATGACCTTTATCATAATGAGAAAAAAGATTTCAAATCGTATTTTCTTTCGTTTGACTCCGGATGCAGGCTGGAACTTATGAAAAAAGGCGGCATTGATGAAGCTCCGTCACAGAATATGACCGGATGGGCGCATCTCGCATTTTCTACAGGCAGCAAGGAGCGGGTGAATGAATTGACGGAGACGTTTAAAAACGACGGATTTCAGGTTGTAAGCGGCCCGCGCGTGACGGGTGACGGATATTATGAGAGCGTGATAGAGGATGGGGAAGGCAATTTGATAGAAATCACAGTGTAA	MRIEHAAIWVKDLERMKEFYETYFGAKANDLYHNEKKDFKSYFLSFDSGCRLELMKKGGIDEAPSQNMTGWAHLAFSTGSKERVNELTETFKNDGFQVVSGPRVTGDGYYESVIEDGEGNLIEITV	PGPT0013300_5225	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
D1-12_02062	1332	ydjE		Inner membrane metabolite transport protein YdjE	ATGAAACATCAGACATTCTCAAATGTAGCGAACCGATTAGACCGTCTCCCCATTTCGCGTGTGCACTATCAAGTATTAACCGCTCTCGGAATCATCTATTTTTTCGATCTCGCTGATCTGTTTACGCTCAGCAACGTGGCTCCGGCGCTGATTGAGCATTGGGGCGTGAAGCTGTCCACCATTGCCGACATTACGGCCGCATCCTTCCTGGGCATGTTTTTAGGCGCGTCCATCGGCGGAAGGCTGTCCGATCGGATCGGCAGGAAAAAAGCGCTGAATTGTTTTGTCCTTGTCTTTTCGATCTCATCTTTTCTGAATGCGCTGGCATGGGACATTCCGTCCTTAATGATTTTCCGCTTCTTGACCGGGCTCGGCGTCGCGGCCGCCATGATTGTGACGAACAGCTATTTGGCGGAATTTTTTCCATCCTCCGTACGGGGAAAATACATCTCCTTTTGCGCCATGATCGGACTGATCGGCGTTCCCGTCACAAACGTTGTTTCCGCTTTTGTCATTCCTTTAGGCTCATGGGGGTGGCGGCTCGTATTCGTATGGGGGGCGGCCGGTCTCATTTATTTCTTTTTTATCCGCCGGCTTGAGGAATCGCCGCGCTGGCACGAAAATCGGGGCGCATATGATCAGGCAAACGCCATTATGAACCGTCTTGAAGCACGTATAGAGAAAGAAAAAGGCCCGCTTCCCGCGCCAAAAGAGGCGGCAGAAGTACATACAGTGAAGCACGCAGGCTACTTAGGGCTGTTTCAGGGCAGGAATTTAAAGATCACCATCATCCTGTCAGCGGTATGGATTCTTGAAACCTTTGGCTTTTACGGCTTTGCTTCATGGGTGCCCAGCCTGCTGAAAAGCAACGGCATCACCATGGAAAAAACGCTGTGGTACAATGTGCTTCACTCTGTCGGCGCACCGCTTGGCGCATTGCTCGGTTCCATGATATCCGAGACGTTCCAAAGGAAATGGATCCTGGCCGCAAGCGCTTTTCTGACTGCCATTGCCGGACTGTTATACGGCATGACGTTTATTCCCGTCATGATTATTGTGTTTGGATTTGTCGTCAACGTTACGGAACGGGTATTCACCTCAAACTTATACGCATATACATCGGAGCCGTATCCTACGGAATATCGCTCGGCCGGGAGCGGGCTGGCGTACGGGCTCGGCCGTTTTTCCAATATATTCGGTTCCCTGCTCGTCGGATTTATTGCCGTTAAGCTCGGCTACATCAGCGTCTTTTTGTTCATCGGCGGCTGCTGGCTTCTATGTTCCGTTTTGTTAATCCTCTTCGGTCCGAAAACTAATGCTCAGCAAATTTAA	MKHQTFSNVANRLDRLPISRVHYQVLTALGIIYFFDLADLFTLSNVAPALIEHWGVKLSTIADITAASFLGMFLGASIGGRLSDRIGRKKALNCFVLVFSISSFLNALAWDIPSLMIFRFLTGLGVAAAMIVTNSYLAEFFPSSVRGKYISFCAMIGLIGVPVTNVVSAFVIPLGSWGWRLVFVWGAAGLIYFFFIRRLEESPRWHENRGAYDQANAIMNRLEARIEKEKGPLPAPKEAAEVHTVKHAGYLGLFQGRNLKITIILSAVWILETFGFYGFASWVPSLLKSNGITMEKTLWYNVLHSVGAPLGALLGSMISETFQRKWILAASAFLTAIAGLLYGMTFIPVMIIVFGFVVNVTERVFTSNLYAYTSEPYPTEYRSAGSGLAYGLGRFSNIFGSLLVGFIAVKLGYISVFLFIGGCWLLCSVLLILFGPKTNAQQI	PGPT0014435_1596	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
D1-12_02063	897			hypothetical protein	ATGAATACGTTTGTACGGCCCGCAGAGGGAAGAAATAGTGTATCGAGATATCTTCTTTCTCTGTTGGTCATTGTGGGTTTGTTCTTTTTTGGAAGCATACTGACCGTGTTTTATATGTTTCTCACGTCCGCTTTCAACCCTTCACTGACGATAAATTGGGATGAGGCGGCATTAAGTGACCCGCTGGCGGATATTTATTTACAGCATATCGTCTATTTCATAGCGATTCCGGGCATTTGGATAGCGGTTCGTTTCATTATGAAGCGGCGGTTTTTATCCATCATCACACCGAATCAGTCGCTGAACTGGAAGAGAATTTTCTTTGGATTCGGCACATATGTTGTGTTGATGTTTGTCGCGGGGCTGATTGATTTTACAATTCATCCGGATCGTTTCATGCTTCAGGAATTCCATGCTTCACGTTTTCTGCTGCTGTTAGCGGCGGCCGTCTTGTTGGTGCCGATTCAAACCTCTGCGGAGGAATTTCTCTTTCGCGGTTTTCTGCTTCAGTTCGCCGGAAAATTGACGGCAAACGCGGTGGTTCTGACAGTCATTATCGGCGGATTATTCGGCGCACTTCATTTCGGAAATCCGGAGATGGAAAATGGAGCTCTCTGGGCGGGAATCGGATATGTCACCATCGGCATGATCTGGACCTTTATCACGATTAAAACGGGCAGTCTGGAGATGTCCCTTGGCGGTCACGCTGCCAATAATATGTTTTTATTTATCTTTCTCACAGAGGATCATTCGGTGTATGGCGGCATTCCGTCGATATTTACAACAGCAGCCGGCGGCTATGAAATATATGATTGCATATCGACTCTGGTGATCAATATCATCTTTGCATGGCTCGCGTTCCGTTTTGTGAAAAAAGAAAAGCAGCAGGCCGCCTAG	MNTFVRPAEGRNSVSRYLLSLLVIVGLFFFGSILTVFYMFLTSAFNPSLTINWDEAALSDPLADIYLQHIVYFIAIPGIWIAVRFIMKRRFLSIITPNQSLNWKRIFFGFGTYVVLMFVAGLIDFTIHPDRFMLQEFHASRFLLLLAAAVLLVPIQTSAEEFLFRGFLLQFAGKLTANAVVLTVIIGGLFGALHFGNPEMENGALWAGIGYVTIGMIWTFITIKTGSLEMSLGGHAANNMFLFIFLTEDHSVYGGIPSIFTTAAGGYEIYDCISTLVINIIFAWLAFRFVKKEKQQAA				NA	NA	NA	NA	NA
D1-12_02064	2070			Cellobiose 2-epimerase	ATGCCAAACAATAGTAAACCCAACAGTCTAATCACGGAGAAGTCCCCCTATCTGCTCCAACACGCCCATAATCCCGTAAACTGGCACCCTTGGGGAGAAGAAGCCTTTGAAAAAGCGAAACGCGAAAACAAGCCGGTTCTGGTCAGCATCGGTTATTCGACGTGTCACTGGTGCCACGTAATGGCTCACGAGTCCTTTGAGGACGAAGAGATCGCCGGTATGTTAAACGATAAATTCATAGCCATCAAGGTTGATCGTGAAGAGCGGCCTGATGTGGATTCCGTGTATATGAGAATCTGCCAGCTGATGACGGGGCAGGGCGGGTGGCCGCTGAACGTGTTCGTCACACCAGATCAAAAGCCGTTTTATGCGGGGACGTATTTTCCGAAGACGAGCAAATATAACCGTCCGGGCTTTATCGATGTGCTTGAACATCTGTCCGAAACGTTTGCGAATGACCGGCAGCATGTCGAGGATATCGCCGAAAACGCCGCCGCTCATCTTGAAGTTAAGGTTCACCCGGCTGAGGGCATGCTTGGCGAACAGGCGGTTCATGACACGTATCGCCAGCTGGCCGGCGGGTTTGATACGGTGTACGGCGGGTTCGGCCAGGCTCCGAAATTTCCGATGCCGCATATGCTCATGTTTCTGCTTCGCTACTACAGCTATACGGGCAAGGAACAGGCTTTGGCCGGTGTAACCAAGACACTCGACGGCATGGCGAACGGCGGGATTTTTGACCACATCGGGTTCGGATTCGCCCGCTACTCGACTGATAATGAATGGCTCGTGCCGCATTTTGAGAAAATGCTGTATGACAACGCCCTTCTCCTGACCGCATATACAGAAGCCTACCAAGTCACGGGTAATGAGCGCTACAAACAGATTGCGATGCAGATCGTAACGTTTATTCAGCGGGAAATGATGCATGAAGACGGCAGCTTTTTCTCAGCTTTAGACGCTGATACCGAAGGCCGTGAGGGGAAATATTACATATGGTCCAAAAAAGAAATCATGAACCTTCTCGGTGATGAACTCGGCCCGCTTTACTGCAAGGTGTATAACATCACAGACCAAGGCAATTTTGAAGGCGAAAACATCCCGCACCTCATTTTCACGCGGCGTGAGGCCATCCTAGAAGAGACCGGCCTCACAGAACATGAGCTGGCCGAACGCCTTGAAGAGGCAAGAACAAAATTGCTGGAGGCCCGTGAAAACAGAAGCTATCCGCATACAGATGACAAAGTGCTGACCTCATGGAACGCGCTCATGATTGCCGGGCTGGCAAAGGCCGCAAAGGTATTTCACGAGCCTGACTTTCTCAGCATGGCGGAAACAGCGATCCGCTTTCTCGAACGGCACCTCATGCCGGACGGGCGCGTCATGGTCCGCTATCGCGAGGGCGAAGTGAAAAACAAAGGGTTTATCGATGATTACGCTTTTCTCATCTGGGCTTACCTTGAACTGTATGAAGCGGGTTTTCATCCGTCTTATCTGCAGAAAGCGAAAACGTTATGTACAAGCATGCTGGAGCTGTTCTGGGATGAACGGCACGGAGGCTTCTTCTTTACGGGGAATGATGCCGAAACCCTTCTTGTCAGGGAAAAAGAGGTTTATGACGGGGCAGTGCCTTCCGGAAACAGCGCGGCTGCCGTACAGCTGCTTCGTCTCGGCCGCTTGACGGGTGACATATCACTGATTGAAAAAGCCGAAGCGATGTTTTCCGTGTTCAAACGGGAAATAGAGGCCTATCCGAGCAGCAACGCTTTCTTCATGCAAAGCGTACTGGCACATACAATGCCCCAAAAAGAAATCGTTGTTTTCGGAAGGAAAGATGACCCGGACAGAAAACGTTTCATTGAGGCGCTTCAGGAGCATTTCACTCCCGCCTATACGATTCTCGCCGCAGAACATCCGGAAGAGCTTGCCGGCATTTCTGACTTTGCCGCGGATTATCAAATAATCGATGGGAAGACAACGGTCTACATTTGCGAGAATTTCGCCTGCCGGAGGCCGACGACAGATATTGATGAAGCAATGAACACCTTACAAATCAGCAGCAGAGCCTAG	MPNNSKPNSLITEKSPYLLQHAHNPVNWHPWGEEAFEKAKRENKPVLVSIGYSTCHWCHVMAHESFEDEEIAGMLNDKFIAIKVDREERPDVDSVYMRICQLMTGQGGWPLNVFVTPDQKPFYAGTYFPKTSKYNRPGFIDVLEHLSETFANDRQHVEDIAENAAAHLEVKVHPAEGMLGEQAVHDTYRQLAGGFDTVYGGFGQAPKFPMPHMLMFLLRYYSYTGKEQALAGVTKTLDGMANGGIFDHIGFGFARYSTDNEWLVPHFEKMLYDNALLLTAYTEAYQVTGNERYKQIAMQIVTFIQREMMHEDGSFFSALDADTEGREGKYYIWSKKEIMNLLGDELGPLYCKVYNITDQGNFEGENIPHLIFTRREAILEETGLTEHELAERLEEARTKLLEARENRSYPHTDDKVLTSWNALMIAGLAKAAKVFHEPDFLSMAETAIRFLERHLMPDGRVMVRYREGEVKNKGFIDDYAFLIWAYLELYEAGFHPSYLQKAKTLCTSMLELFWDERHGGFFFTGNDAETLLVREKEVYDGAVPSGNSAAAVQLLRLGRLTGDISLIEKAEAMFSVFKREIEAYPSSNAFFMQSVLAHTMPQKEIVVFGRKDDPDRKRFIEALQEHFTPAYTILAAEHPEELAGISDFAADYQIIDGKTTVYICENFACRRPTTDIDEAMNTLQISSRA				NA	NA	NA	NA	NA
D1-12_02065	477			hypothetical protein	GTGAAAAAAAGAAAGATAATGAAAATAATCATTCCGATTGTAATTTTATTGGGGGTATTTGTTGTTTTATATTCAATATACGATCAACAAGATCTTTATAAAGGGACAAGTAATGACAATGAGTGGAAGGTTTCCATCGAAAAGTCAGATAAAACATCAATTGGGCCAAACTATTTTTTAAACTTATACTGGCAAGGTAGCAAAAATAAAGAGAAAAAAATCACTATCAAACAAATTGAATTGATGGTCGACGGAAAAGTTTATCAAGAGAATGGTCCTTACTCTCTATCTGAATATAATGGTGAAAGCTTAAAAGAGGGTGGAGAAAGACCTGACCACATTTCAACCTTTGATTATATGCCCGAGGAGGATATTAAGGGTCATAAATTAGAGGTCAGAGTAACATGGAATGAATCCAAAGAAAAGATAACAGTCATTAAATTAGAAGAGAAAAAGTTTTTAAACTTGGGTTTCTAA	MKKRKIMKIIIPIVILLGVFVVLYSIYDQQDLYKGTSNDNEWKVSIEKSDKTSIGPNYFLNLYWQGSKNKEKKITIKQIELMVDGKVYQENGPYSLSEYNGESLKEGGERPDHISTFDYMPEEDIKGHKLEVRVTWNESKEKITVIKLEEKKFLNLGF				NA	NA	NA	NA	NA
D1-12_02066	978			hypothetical protein	ATGAAGATAACAGATAGTATTTATGGCGATGATGAAATAGATGGAATTCTTGAAGAGCTTATTTTCAGTCATCCAGTACAAAGACTAAAAGGGGTTTACCAAGGAGGAGCAAGTTATTTTGTGAATCAAAAGTGGAATGTCACGAGGTATGAACATTCCATAGGCGTAATGCTCCTCATAAAAAAGCTTGGCGGTTCTTTAGAAGAACAAATCGCAGGTTTACTTCACGATGTATCTCATACCGCATTTTCACACGTTATTGATTTTGTGTTTGAAAATAAAAATGAGGATTATCACGAAAACATTTATCATCAAATCATAACTGATTCAGAGATCCCGCATATTCTTGGTAAGTATGGATTTAATTACAAAGACATTCTATTAGACAACTCTAATTGGAATTTGCTCGAACAGCCATCTCCTGAGTTATGCGCTGACCGGATAGATTATACCTTAAGAGATATGTATCGATACGGAAACATCCTAATGGAGGAAGTTGATCATTTCTTAAATCATCTAATTATTAAAGAAGGAAAAATATATTTAAAAGATATAAAAACTGCTGAATGGTTTGTAAGAACCTATTATAAAGAGGTTATTGATTTCTTTATGAATCCTCTTAATATTTACGGTTATGATTATTTGGCTAAGACTTTAAAAACCGCTTTGGATAAACAAATCATTAACATAAACACACTGCTTGGAACAGATGAAGAAGTAATGAACATCTTGCGTTCTTCCGGGGATATAGATGTTAAAAATCTTATTAGTCGCTTACATCGAAAAGTTATTGTTAAAGAAGATAAGGCTGATTATCATTTGCATCGTAAGAATAAAATGAGGCTTATTGATCCGTCTGTATTCTATGATGACAAACTTATCCCTTCTTCTGCATTATCAAATGAAATTAAAACGCTGAACGAAAACGCTAAGAAAAAAGCTGAGGAAGGGATGTATGTAAAAATAATTTTAAACTGA	MKITDSIYGDDEIDGILEELIFSHPVQRLKGVYQGGASYFVNQKWNVTRYEHSIGVMLLIKKLGGSLEEQIAGLLHDVSHTAFSHVIDFVFENKNEDYHENIYHQIITDSEIPHILGKYGFNYKDILLDNSNWNLLEQPSPELCADRIDYTLRDMYRYGNILMEEVDHFLNHLIIKEGKIYLKDIKTAEWFVRTYYKEVIDFFMNPLNIYGYDYLAKTLKTALDKQIININTLLGTDEEVMNILRSSGDIDVKNLISRLHRKVIVKEDKADYHLHRKNKMRLIDPSVFYDDKLIPSSALSNEIKTLNENAKKKAEEGMYVKIILN				NA	NA	NA	NA	NA
D1-12_02067	882	yedA		putative inner membrane transporter YedA	ATGCGAAAGAAAACAGTTCGAATCGGTATATCTTACAGTCTGATGATTGGGTTGTGGGCCTCAGCTTTCCCGGGAATTCGCGCGGGTTTGGAGAGTTACACGCCGGAACACCTCGCTTTGTTTCGCTTGTTGATTGGGTCAATGGCACTGGTGGTTTTTGCTGTTTTGACTCATATGCGTTTACCTGACATGAAGGATATCCCTGCTATTTTATCTTTAGGATTTTTAGGTTTTGCACTATATCACATTTTGCTGAATATCGGAGAAAAAACCGTCAGCGCAGGGGTAGCAAGCTTACTCGTGACCATGACACCTATTTTTTCTGCAATGTTATCTCGTCTGTTTTTTGGTGAACATTTTGGGCTTTATAAATGGATTGGCTCTATCATAAGTTTATTAGGTGTGTCGATCATTACATTTGGGGCAGGAAACTATACACATTCAGTGAACGGCATTTTGTTAATCCTGCTGGCAGCTTTTTCGGAGAGTATTTATTTCGTTTTTCAAGCCCGCTATATAAAAAAATATGGATTTATTCCATTCGTTACATTCACTATTTGGGGCGGGACAATTCCTATGCTTGTATTTCTGCCTGGCTTAGGGGAAGAGTTTTTGAACGCTTCAATGAACTCAACATTGTCTATCGTTTACTTAGGTTTATTACCAACGGTTGTGCCTTACTTTGCACTTGCATATGTAACTTCACTCGTCGGTACTTCAGAAGCAACCATTTCACTTTATTTAACACCAGCCGTAGCCTTGGCCATTTCTTGGGTGTGGTTAGGTGAAGTACCTGCGTTTATTGCACTGACAGGCGGGATGGTTACAGTCGCCGGGGTGTGTTTCACTTATCTGAAAGCAAATAAAATTAGGCTCAAATGA	MRKKTVRIGISYSLMIGLWASAFPGIRAGLESYTPEHLALFRLLIGSMALVVFAVLTHMRLPDMKDIPAILSLGFLGFALYHILLNIGEKTVSAGVASLLVTMTPIFSAMLSRLFFGEHFGLYKWIGSIISLLGVSIITFGAGNYTHSVNGILLILLAAFSESIYFVFQARYIKKYGFIPFVTFTIWGGTIPMLVFLPGLGEEFLNASMNSTLSIVYLGLLPTVVPYFALAYVTSLVGTSEATISLYLTPAVALAISWVWLGEVPAFIALTGGMVTVAGVCFTYLKANKIRLK				NA	NA	NA	NA	NA
D1-12_02068	1449	norG	COG1167	HTH-type transcriptional regulator NorG	ATGAGCGCTCCAGAAGAAAAAAAGATGAAAAAGCTTCCTAAGTACATACAAATCATTCAATTTATAAAAGAGAAAATAGGAAATGGAGAATGGCCGATTGGAAGTAAGATTCCAAGCCAGCGCACGCTTGCCAAACACTTTGAGGTGAACAGGAGCACAGTCATTACAGCTTTAGAGGAATTGACGGCGGATGGATTAATCGAAGGCAGAATGGGCAAAGGGACAGTTGTTACGAACAATACATGGACACTTTTGGCTAAGAATTCCGCCCCCGATTGGGATCAGTATGTAACCTCCGGAATCCAGCAGCCAAGCCAAAAAATCGTTCAAGAGATCAATAAATCAGAATCAAATTCCGATCTTATACAGCTCAGTAAAGGAGAACTTTCACATGAGATTTTTCCTTTAGCTGCTATGAAAAAGATGATGGGAAAGGTATCTCAAAACATAGAGGCATTCGGGTATGAGGAACCAAAAGGATATTTGCCTTTGAGAGAGGCATTAAGCGGCTATTTAAGAACAATCGGTATTCAAGCTTCATCTTCTTCCATTCTTATTGTTTCTGGAGCGCTGCAAGCCTTGCAGCTGATATCAATGGGGCTTTTGCAAAGGGGATCGACCGTTTATCTTGACCAGCCTTCCTATCTTTATTCATTACACGTATTTCAATCAGCCGGTATGAAGCTGACTGGAGTTCCTATGGATAATGATGGACTTTTGCCGGAACATATCCACATGGCAAGGGGGGAACGGGGAAGGGCTATTTTATATACAAATCCTTGTTTTCATAATCCGACAGGTATTTTAATGTCAAAAAAGAGGCGAGAAGAAATCCTTGCGGCAAGTGAGAATGCACAGCTTCCCATTATTGAAGATGATATTTATCGTGAGTTATGGATCGATGAAATTCCTCCAGATCCTATTAAAACAATAGATAAAAATGGGCATGTGCTTTACATAGGCAGTTTATCGAAAACATTAAGTCCGGGTTTGAGGATTGGATGGATCGTCGGGCCGGAACCAGTGATTGAACGTTTATCCGACATAAAAATGCAAACAGATTACGGCTCCAGTTCGTTATCCCAGAGAGTAGCGGCAGAGTGGTTTACATCCGGTGAATACCAGCAGCATCTAGAACAGGTGAGAAGTCAATTAAAGGTGAGAAGACAATTGGTCATGAGTCTCTTAGAAACCAATTTGAAGAATGTCGCTACATGGAATATGCCGAAGGGAGGATTCTTTGTCTGGGTAAAAATATTGCCTTCACTATCTATGAAATTACTTTATACAAAAGCTTTGACAAAAGGGATACTTCTCAATCTCGGCAGTATCTATGCTCAAGAAAAAGGGAACTATATTCGCTTATCATATGCTTATGCATCTCTTGAAGACCTTCAAAAGGGAATTTATGAATTGGGTTTGATGATTAAGGAATTGGCAAGCAGATAA	MSAPEEKKMKKLPKYIQIIQFIKEKIGNGEWPIGSKIPSQRTLAKHFEVNRSTVITALEELTADGLIEGRMGKGTVVTNNTWTLLAKNSAPDWDQYVTSGIQQPSQKIVQEINKSESNSDLIQLSKGELSHEIFPLAAMKKMMGKVSQNIEAFGYEEPKGYLPLREALSGYLRTIGIQASSSSILIVSGALQALQLISMGLLQRGSTVYLDQPSYLYSLHVFQSAGMKLTGVPMDNDGLLPEHIHMARGERGRAILYTNPCFHNPTGILMSKKRREEILAASENAQLPIIEDDIYRELWIDEIPPDPIKTIDKNGHVLYIGSLSKTLSPGLRIGWIVGPEPVIERLSDIKMQTDYGSSSLSQRVAAEWFTSGEYQQHLEQVRSQLKVRRQLVMSLLETNLKNVATWNMPKGGFFVWVKILPSLSMKLLYTKALTKGILLNLGSIYAQEKGNYIRLSYAYASLEDLQKGIYELGLMIKELASR	PGPT0028960_146	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
D1-12_02069	816	epr_1	COG1404	Minor extracellular protease Epr	GTGGGGGTGAAAAAAATCAATGCTGCTTCAATATGGACTTCAAGAGAGAAACAGAAAGTGAAAGTTGCTATATTAGACAGTGGTATTGATAAAGAGCATAAAGATTTAAAAGGGAAAGTTAAAGGAGAATTTAATCCAATAAACATGACTTTAACCTCAGATGATGATGTGGGGCATGGAACTGCTATTGCAGGCATTATAGCAGCTAAAGATAATAGTTTTGGATTAGTTGGAATTGCTCCAGACACTGAAATATATTCAGTTAAAGTACTAAATTCAAAAGGAAAAGGTTCATTAGATAACCTTGTTAAAGCTATAGAGTGGTGTATTGATAATAATATTCAGGTAATAAATTTGAGTTTTGGATTATCCAAAGATAAACCGTTGTTAAGAGGTGCAATTGATAAAGCAGTAAACAGTGGGATCATAATCGTTGCGGCCGCAGGTAACAATTATGGCGGAGATGTTGATTATCCAGCAGCTTATGAAAAAGTTCTCTCTATTAATGCTGTAGATAGAAATAATAAAATAGCTAACTTTTCACCTAAAGGAAAGATTGACTTTTCTGCACCTGGTGTAGATATACCGATACTATCCCTCAATAATGGCTATAAAACTGAAAGTGGTACATCTTTAGCAGCTGCACATGTTACCGGTGTAATATCATTAATTTTACAAAATAGAGATAAATTTGGAATTAATTCAAAAGAGGATATTTATAATCAGGTTAACCATGTATTGTCCAAATTGTCCATCGATCTTGGAAAGAAAGGAAGAGATGAAATTTATGGAAAAGGTTTTTTATCTTTTAAGTAA	MGVKKINAASIWTSREKQKVKVAILDSGIDKEHKDLKGKVKGEFNPINMTLTSDDDVGHGTAIAGIIAAKDNSFGLVGIAPDTEIYSVKVLNSKGKGSLDNLVKAIEWCIDNNIQVINLSFGLSKDKPLLRGAIDKAVNSGIIIVAAAGNNYGGDVDYPAAYEKVLSINAVDRNNKIANFSPKGKIDFSAPGVDIPILSLNNGYKTESGTSLAAAHVTGVISLILQNRDKFGINSKEDIYNQVNHVLSKLSIDLGKKGRDEIYGKGFLSFK				NA	NA	NA	NA	NA
D1-12_02070	786			hypothetical protein	ATGAAATGTTTTAAAAAGAGTATTGCAGTTATTTTAAGCCTAGTATTAACTTTCACTTTTATTTTACATAATGAATCAAAAGCTGAGGCATTAAACAATAAGGATTACCAAATTGTAACAAACGATGAAGAGAAATTAGTAATCACAGCAGAAAAAGGCGGAGTTAAAGGTTTAATGACTTTAGATAAAGAAAATATGAAACTTTCATTAATAACCGATGAAATTTCGCAGAAGACTGGTGAAAAAGGTAAAGAATATAAAGTTAATATTGAAAATGCTACAAATGAGAAGATAGAAGCAACTTTTACTGATACGGAAACAAATAAAAAATATGAGATTAATTCAGATGAGGTAACAGCTTCTTTTGTTTGGTTTATACCTATAGGAATAGTTATTGGAGAGGCACTTTTAGCGCATTTAATTTCAATTGGATTAGCTGTGACTATTTCAGGAGTGACTTATGTTGCCTATTCTGAGTTTAAGAAGCGTAAAAGAACCTATTCTCATTATATGGCAGTAAGAAAGTCTAAAGGATTATTTATCGGTAATGGTTTGAAAAGACCTGCTGCAATTGCACGCCTTAAAAGGGGTGATGACACTTGGTCTACGTCGAAGAACAATGCCAAATCTATTGCTAAAGCCGCAAGTCCGATTAAAAAAATAGTTGGTCCGGAGATAGATAAAAAGGGTAAAGGTAAACATTATCATTATCACTCGATCTCTAGGTATAAACATGGAAAAGGTGTCCGTATGAAAGCTCATGCTTTCTATGGTGCAGCAAGATAA	MKCFKKSIAVILSLVLTFTFILHNESKAEALNNKDYQIVTNDEEKLVITAEKGGVKGLMTLDKENMKLSLITDEISQKTGEKGKEYKVNIENATNEKIEATFTDTETNKKYEINSDEVTASFVWFIPIGIVIGEALLAHLISIGLAVTISGVTYVAYSEFKKRKRTYSHYMAVRKSKGLFIGNGLKRPAAIARLKRGDDTWSTSKNNAKSIAKAASPIKKIVGPEIDKKGKGKHYHYHSISRYKHGKGVRMKAHAFYGAAR				NA	NA	NA	NA	NA
D1-12_02071	459			hypothetical protein	ATGTTAATTATTGATCACAACCCAAAGGATCAGCTGTATTCAGAGTTAATTGATTTGGCTTTCGAAATTTGCGACGAATTTCATTTAGTTTTAAGAAAAGATATGGGATCTTTAAAATCATTTGATCCTCTGTTAAAAAAACTTGAAAGTTCGTTGAAAGTAATGAAAGAGCAATCAGAATGGGCCAGTACTATTCTAGGAGACAATCAAAAAGCAAAAGTTTATTACTATTATACAGATGAAAACGCAAAAAACATTCTGAAAGAATCCGCAAATTCTTTATATGCTTGGGAGCAGCCACATTTACCAGAAGACTTGTCTTTTTTCAAAGATGGAAAGGAGTGGTTGGTAACATGCTCTCATGAAGAAGAAAGTTATATCGATACTGAAGATGATAAAGAAATACAAAGAATATTGAGTATACCAGGATTAAAAGTGCATTTTGAAAAATGGGATTAA	MLIIDHNPKDQLYSELIDLAFEICDEFHLVLRKDMGSLKSFDPLLKKLESSLKVMKEQSEWASTILGDNQKAKVYYYYTDENAKNILKESANSLYAWEQPHLPEDLSFFKDGKEWLVTCSHEEESYIDTEDDKEIQRILSIPGLKVHFEKWD				NA	NA	NA	NA	NA
D1-12_02072	546			hypothetical protein	TTGACTTTACATCATTTTATTGGGGCTGACAAAGAACTTCCTATTGGTGAGTATGGCAGGAATCCTACACTTAAGCCCATCTCCGAACTAGAAATAAAAGGAATTGATGTCAACAAACGCTCTCAATTTAAAAAAAATCGAAAGAATAGCGAAAATTCACTTGTAAAGGTTTATGACACAGAAGAAGATGCATACGGAATTGATATTGTTCATTTAGATCCTGGATATGAAGCAGTCAGAAACAAATTCACACATCCTTATATATATGAATTACAAGGGTACTTACACGCCAACAATACACCTGGCCAACGTAAATCTATTAAATCACTTTTTCTTTTCATTGAAAAACACTTGTCAAAAGGTGAATCAGTTGAAATATATTCCTGCTTAGATGGATATGAAGATGAAGATAAAGATGACAGTATGGATGTAGTTATCAATTTAAATACTTTACAATTTGGAAAACATATAAAGTTTAAAGATATAAATCACCTTAGTCATATATTCTATTTGGAAGATAAACAATATGTATTAGTCAAGAAATAA	MTLHHFIGADKELPIGEYGRNPTLKPISELEIKGIDVNKRSQFKKNRKNSENSLVKVYDTEEDAYGIDIVHLDPGYEAVRNKFTHPYIYELQGYLHANNTPGQRKSIKSLFLFIEKHLSKGESVEIYSCLDGYEDEDKDDSMDVVINLNTLQFGKHIKFKDINHLSHIFYLEDKQYVLVKK				NA	NA	NA	NA	NA
D1-12_02073	453			hypothetical protein	TTGATTATATATGTATCCGGAAAATTAAGTATACCGTTTGACCAATTCCAGCGTTATGAAGATTTCGTTGCCAGAATGCCAACAATTGAAGAAAAATTGAAGCAGAATAGCATTAAATCTACTCTGCCGGATGCAGCGCCAACAAATCTGCATTGGGTTCTTCCTCAATATGTAACAGAAGCAGTGGAGGAATTTTTAAATCATTTGTCTTTATTATCTGAAGACCTTATTAATGGTGATACCTTACTGCACGCTCCGGTATGGGAACTATGCTGGGATTGTGTTCAAGCAGAAAAGGGTCTTCGTACCAATGTACCTGGATTCTATGTTGCCGGAGATGCCATTGGATGGGCACGCGGAATTATTCAAGCAGCGACTACTGGAATCGTTATTGCAAGAGATATTCTTAATGGTAAAAAACCTAGCGATAAGGAGCTGACATCTACTGTCTAA	MIIYVSGKLSIPFDQFQRYEDFVARMPTIEEKLKQNSIKSTLPDAAPTNLHWVLPQYVTEAVEEFLNHLSLLSEDLINGDTLLHAPVWELCWDCVQAEKGLRTNVPGFYVAGDAIGWARGIIQAATTGIVIARDILNGKKPSDKELTSTV				NA	NA	NA	NA	NA
D1-12_02074	429	rppH_1		RNA pyrophosphohydrolase	GTGGAAAAAACAGAGCACCCAAGAGTGGGAGTCGGAGCATTTATTCTGAATAAGGAACAGGAATTACTATTAGTTTTACGAAAGAAGGACCCTGAAGCTAATCATTGGAGTATACCCGGCGGTAAAGTTGAGTGGATGGAAAAGGCAGAAGATACAGTTATCCGTGAAATAAAAGAGGAAGTAGGGGTCACTATTCAGGTTGATTCTTTACTTTGTGTCACAAACCATATTTTACATGATGAGGAGACTCATTGGGTATGTCCGACGTATCAATGCAGTATTCAAACTGGGACTGTAAGAAACTGCGAGTTAAATGCAATAATTGATGTTGGCTGGTTTTCTCTTCAAAATTTGCCTGATCCCTTAACGTTAACTACTAAAAATGCTTTAGAGAGTTATCTTATTAAATTTGAAAGTCAGAGAAAATAA	MEKTEHPRVGVGAFILNKEQELLLVLRKKDPEANHWSIPGGKVEWMEKAEDTVIREIKEEVGVTIQVDSLLCVTNHILHDEETHWVCPTYQCSIQTGTVRNCELNAIIDVGWFSLQNLPDPLTLTTKNALESYLIKFESQRK				NA	NA	NA	NA	NA
D1-12_02075	648	gph	COG0546	Phosphoglycolate phosphatase	ATGCATACAATTCTATTCGATTTAGATGGAACCTTGGTAAATAGTGAATGGTTGGCAAAAGAGGCTTATAATCATGGAATTGAAACAGTATTAAAGAGAAAATTAACGAATGAAGAGAGAGAGTCTCTTGTCGGTAAGCCTATTGCGGTTTTTTTGAGAAGATTTCCAAACGAGGCAGAGCAAATACGTTCCTCGATATTGCAGTATTTCGAAAATAAAATCCATCAAATCAGACCGTATCCGGGTGTTATCTCTTTGCTGGAAAGTTTAAGTGAAAGAGGATATGGTTTGGGGATTGTGACCTCACAATTGAAAAAATTTGCTTATGGCGAGTTAATCAATAATAAATTAGATGGGTTTTTTAAAGTCGTTCTCACGGCTGAAGATTATGATGAGTACAAACCGAGTCCTAAGCCATTACTAACAGCGATAAATCACTTACGTGCAGATATAAGCGATTGTTTATATATTGGAGATCAAATGACAGATATTGAGGCAGCTCATGCTGCTGATATGAAAAGTGCGGGCGCTTTATGGGGAGAGGGGAATCTTACACACTTATCTGCAGCTTCACCGACATACTTTGTAAAAGAACCCCATCAACTTCTTCGGATTCTGCAAGACAAAAACTATTCCGCTGCTTTTTAA	MHTILFDLDGTLVNSEWLAKEAYNHGIETVLKRKLTNEERESLVGKPIAVFLRRFPNEAEQIRSSILQYFENKIHQIRPYPGVISLLESLSERGYGLGIVTSQLKKFAYGELINNKLDGFFKVVLTAEDYDEYKPSPKPLLTAINHLRADISDCLYIGDQMTDIEAAHAADMKSAGALWGEGNLTHLSAASPTYFVKEPHQLLRILQDKNYSAAF				NA	NA	NA	NA	NA
D1-12_02076	867			hypothetical protein	GTGGAAGAAACGAGTATGGAGCCATCACGGCTCTGCAAAGAATTTGCTAGAATTCTCAATTCAACGCCCAGTGTCGTAAATGGCGTATGTACGGCGACAAGATTTCGAAGCAACATTCATCCGGTGGTACTCGGAAGAAGAGCCGAGGCATTTCCTTTTATTCCTCAGGCCTTTTCATTTGAAAGCATGGATCGGGAAGGCAGAGCTTTATGTTTAGGTGAGACTGTTTTACTGCAAGAAGAAGTGAACCCGTTAATGAGTGAGCTGCGCAAATTCGGTATCATCGTAACTGCCGTTCATAACCATTGGCTGTTTGATAAACCGCGTCTGATGTTTATGCATTTTGAATCAATTGATAAACCTCTCAATTTTGCAAGAAAAGTGAGAGAGGCCCTGAGAGTTCTAACTACTAAAACTGTGCGTGCGGTACCAAAAACTGACGGGGAAATGATTGAACGGCATGGTCTTTGTGACGAATTCAACGATATTCTAGGCGGAACCATGCATACGTTTGAAAATGGAATTTGTACAGTAATGAGATCCCGAACGAATATAAAACCGGTTGTACTGGGACGGCCCGGAAGATCATTTTTGCTCATTCCGCAAATGTTTTCATTTGAATCAATGACAAAAGACGGCCGTGCTCTTTGCAGCGGAGAAACTGTAATTCTGCAAAAAGAAATCAATCCATTTATCAGCGTCCTTCGGAAACATGATCTGACTGTAACGTCACTTCACAATCACTGGCTGTTTGATAAACCGAGACTGATGTATATTCATTTCGAATCGATTGATAAACCTGTCAACTTCGCCTTAAAAGTGAGAGATGCTTTAAGAGTGCTTACTGATAAAGAGGTCAAAGCTTAG	MEETSMEPSRLCKEFARILNSTPSVVNGVCTATRFRSNIHPVVLGRRAEAFPFIPQAFSFESMDREGRALCLGETVLLQEEVNPLMSELRKFGIIVTAVHNHWLFDKPRLMFMHFESIDKPLNFARKVREALRVLTTKTVRAVPKTDGEMIERHGLCDEFNDILGGTMHTFENGICTVMRSRTNIKPVVLGRPGRSFLLIPQMFSFESMTKDGRALCSGETVILQKEINPFISVLRKHDLTVTSLHNHWLFDKPRLMYIHFESIDKPVNFALKVRDALRVLTDKEVKA				NA	NA	NA	NA	NA
D1-12_02077	432			Acetyltransferase	ATGCAGATAAAAAGGATAACAACGGAAATTGATTTACAAGCAGCGCTTGAGATTAGAAAAGCAGTATTCATTGAGGAACAGCAAGTACCTGAATCCGATGAATTTGACCAGTTCGATACGCTTGAGGATCAGTGCGGGCATGTCTTGGTTTATCATGAAAATCAGCCTGCCGGCACAGGACGCGTCCGCATCGTAAACCATACAGGCAAGCTCGAACGAATCTGCATCCTGAAGCCTTACCGCAAATACGGGTTGGGCAAAGTCATCATAAGCGAATTAGAAAACATGGTAAAAGAAAAAGGCATCACCCAATGTAAACTGCATGGACAAACACATGCGGAAGGCTTTTATCACAAACTGGGCTATCAGACAGATTCACCGGAATTTATGGAAGACGGCATCCCGCATGTCTTGATGACAAAAGAGCTGTGA	MQIKRITTEIDLQAALEIRKAVFIEEQQVPESDEFDQFDTLEDQCGHVLVYHENQPAGTGRVRIVNHTGKLERICILKPYRKYGLGKVIISELENMVKEKGITQCKLHGQTHAEGFYHKLGYQTDSPEFMEDGIPHVLMTKEL				NA	NA	NA	NA	NA
D1-12_02078	486			hypothetical protein	ATGCAACAAAAACATGAAGGGTTTGAAAAAGATATGACTGATATTTTGCGGGAAATCGGCATGATCGCACGGGCATTGGATTCCATCAGCAATATTGAATTTAAGGAATTAGACTTAACAAAAGGGCAGTATCTCTATCTTGTGCGTATATGTGAAAACCCGGGAGTGATACAGGAAAAAGTGGCGGAAATGATTAAAGTTGACCGAACAACAGCGGCGAGGGCAATCAAAAAATTGGAAATACAAGGGTTTATTGAAAAGCGTCCTGATGATCAAAATAAAAAAATAAAAAAACTGTTCCCGACTGAAAAAGGGAGAAAGGTTTATCCGTTATTGCAAAGAGAAGGAGAGCATTCTGCGGAGGTAGCCCTGTCCGGCTTTACATCTGAGGAAAAAGAAACCATTTTCGGACTTCTTCAGCGGGTGAGAAAAAATATAGAACATGATTGGGAATATGTGAAGAAGGGGAATAAAAGAGATTATTGA	MQQKHEGFEKDMTDILREIGMIARALDSISNIEFKELDLTKGQYLYLVRICENPGVIQEKVAEMIKVDRTTAARAIKKLEIQGFIEKRPDDQNKKIKKLFPTEKGRKVYPLLQREGEHSAEVALSGFTSEEKETIFGLLQRVRKNIEHDWEYVKKGNKRDY				NA	NA	NA	NA	NA
D1-12_02079	879			hypothetical protein	ATGAGTACAATCGAAAAACAAAGACGTAAGAAATTCAGAGTGAAATCAATCGTACGGGCCATCATGGTCATCATCGGCGGAATTATTGCCGCGTATGGACTGGAAACCGTATTGATTCCGAATAGTGTATCTGACGGCGGTGTAACCGGACTCAGCATTGTCGGTTCACAGCTGTTTCATTTGCCTCTTGGGATCTTAATTGCGGTGATCAATATACCGTTTGTCTGGTTAGGATATAAGCAAATCGGGAAAGGTTTTGCGTTTCTATCAATTATCGGTATTGTCTCACTTGCCGCGGGCACGAGTTTTTTCCACCACACACCGGCTATCATCGAGGGAGACACCCTGTTAATCACCGTTGTCGGCGGGATTATTCTCGGCTTTGGAATGGGATTGGCATTGCGCAACGGCGGCGCATTAGATGGAATTGATATGCTGGCTGTGCTTCTGTCACGGAAATTGCCGTTTGGCACGAGCGACCTCATTTTATTTTTAAACATGTTTGTGTTTATTTTTGTTTCTTTTGTATTTGGGCTGCAAGGCGCATTGCTTTCGGTCATTGCTTACTACATTGCATCTAAGGTGATTCATGTGGTTGAGGAAGGCTTAAGCGGTTCTAAAACATTTCAGATTATCACCAATGAGCCTGCATTAATGGTAGAGACCATTCGTGAAGAATTGGGCCGGAGCGCTACTTATAAAGAAGCATACGGCGGTTTTTCTCATGAAAAATTCCAAGAAATCACATGTGTCATCAACCGTTTGGAAGAAACCAAACTGAAGGAAATTATTAATGACATTGATAAACAAGCCTTTGTGACGGTATATGATGTCGCAGAAGTAAAAGGCAGTAATTTCAGAAAAGTCCATAATCATTAA	MSTIEKQRRKKFRVKSIVRAIMVIIGGIIAAYGLETVLIPNSVSDGGVTGLSIVGSQLFHLPLGILIAVINIPFVWLGYKQIGKGFAFLSIIGIVSLAAGTSFFHHTPAIIEGDTLLITVVGGIILGFGMGLALRNGGALDGIDMLAVLLSRKLPFGTSDLILFLNMFVFIFVSFVFGLQGALLSVIAYYIASKVIHVVEEGLSGSKTFQIITNEPALMVETIREELGRSATYKEAYGGFSHEKFQEITCVINRLEETKLKEIINDIDKQAFVTVYDVAEVKGSNFRKVHNH				NA	NA	NA	NA	NA
D1-12_02080	435	slyA		Transcriptional regulator SlyA	TTGACAGCATGTTGTTCAGAGGAAGGCGAGATTTTATATCAGCTCCAATCACTGCATAAAGTGATCGGCACGAAGTTTGAAGCGTGCACCGGAATCAGCCAATCCCGCCTTGAGCTTCTCGCCGTGCTTTTTTACGTCGATGAGATCAGCCAAAGCGATCTTCAGAAAAAGGTGAATATTGATGGCGCAGCCGTGACAAGACACTTGAAACAGCTTGAAGCCAAAGAAATGGTCACAAGAAGGCGGAAGCCCGAGGACAACCGAATTATACTTGTCCGGCTTACTGATCAGGGGCGGGAGAGAATTGAGGCTTCCAAAAAGGAGAAGGAGCGTTTCATAAAGGAAATGCTTGCCGGTGTCAGCGAGGAAGAACGCAGTATGTTAAAAAACGTATTGTCGCAGATGCAGAATAATATAGAAAATATGAAAGCATAG	MTACCSEEGEILYQLQSLHKVIGTKFEACTGISQSRLELLAVLFYVDEISQSDLQKKVNIDGAAVTRHLKQLEAKEMVTRRRKPEDNRIILVRLTDQGRERIEASKKEKERFIKEMLAGVSEEERSMLKNVLSQMQNNIENMKA				NA	NA	NA	NA	NA
D1-12_02081	639	yodC_2	COG0778	Putative NAD(P)H nitroreductase YodC	ATGAAAACAGAACTGAAAACAAACGATTTTATGGACATTATGAAAGGCCGCCGTTCCATTCGGAATTACGATCCGGCTGTTAAAATCAGCAAAGAAGAAATGACTCAAATCCTGGAAGAAGCAACGACAGCACCGTCTTCAGTTAACGCGCAGCCGTGGCGTTTTCTCGTCATTGACAGCCCTGAAGGAAAAGAAAAACTCGCGCCGCTTGCCAGCTTTAACCAAACACAAGTCAGCACATCATCTGCGGTGATCGCGGTTTTCGCAGATATGAACAGTGATGACTATTTAGAAGAAATTTATTCAAAAGCGGTCGAACTGGGCTACATGCCGCAGGAAGTAAAAGACAGACAAATCGCTGCTTTGACGGCGCATTTTGAAAAACTGCCGGAGCAAGTGAACCGTGAAACGATTCTGATCGACGGAGGTCTCGTTTCCATGCAGCTGATGCTTACGGCACGCGCGCACGGCTATGATACAAACCCGATCGGCGGCTATGATAAAGAAAAGATTGCCGAGGTTTTCGGAATGGATAAAGAGCGTTATGTACCGGTCATGCTGTTATCAATCGGAAAAGCGGCAGACGAAGGATATGCTTCCTACCGTCTTCCTATCGAAACAATCGCACAATGGAAATAA	MKTELKTNDFMDIMKGRRSIRNYDPAVKISKEEMTQILEEATTAPSSVNAQPWRFLVIDSPEGKEKLAPLASFNQTQVSTSSAVIAVFADMNSDDYLEEIYSKAVELGYMPQEVKDRQIAALTAHFEKLPEQVNRETILIDGGLVSMQLMLTARAHGYDTNPIGGYDKEKIAEVFGMDKERYVPVMLLSIGKAADEGYASYRLPIETIAQWK	PGPT0028511_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
D1-12_02082	369			hypothetical protein	GTGGACATAATTGCGGCTGTTTTCGTCGGAATTGTAGCTTTAGAACATATATTTATCATGATACTTGAAATGTTTTTTATCAATTCGAAGGCTGCCAAGCGGTCTTTCAAATTGCCGAAGCATTTAGAAGGTGATCGGAATGTGGCGGTCATGTTTGCAAATCAAGGTCTGTATAATGGATTTCTGGCTGCCGGCCTCATTTGGGGACTGATCCTCGGAGCTGATCCGATTGGCCATATGATTCAAATGTTTTTCGTCATCTGTGTGGTCATCGCGGCCATTTTCGGAGGCTTTACTTCAAACAAATCAATTATCGTAAAACAAGGACTTCCGGCTGTTTTAGCGCTTATTTTTCTTTTATTGGCGTAG	MDIIAAVFVGIVALEHIFIMILEMFFINSKAAKRSFKLPKHLEGDRNVAVMFANQGLYNGFLAAGLIWGLILGADPIGHMIQMFFVICVVIAAIFGGFTSNKSIIVKQGLPAVLALIFLLLA	PGPT0024160_4646	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
D1-12_02083	1212			hypothetical protein	ATGAAGAGAGCGTATTACGCTATTTTATACAGCCAGACCGCTATCAACTTGGGGTTTTCACTTTATACGATGGCCGTCATCTTGTTTTTGTTTACAAAAACCGGTTCGACGGCGATGGCCTCTCTTATGACGCTCGTCAGCATTGTATGCCGCGTATTGGGCAGCGCCGTTTTGCCGCTGGTCACCGGTCGGTTCACGCTTCGTTCTTTGTTAATCAGTTCTCAATTGATACAGATCACACTGTTAGTCTGTTTGTTTTTTGTCATCCAAACCGGTTCATCCGCATTCTTTTTTCTGCTGTTTTGTCTGATCGGAGGCATTTCTTTTTGCAACGGATGGTTTGCTCCGATAAAAAGCGCGCTGATTGGGGAAATCATTCCTCCTGATCGAAGGGCGAAAGCGAACAGTTTATTATCGGCGGCGGATCAGACCGTTCAGTTTGCGGGGTGGTCTCTGGGCGGCGTCATCATAGCGTTCCTGGGAGTGAGCGATACAATGATCGTCACTGTCATGTTATTGGTTTCTTCAGTGTTGGGCATCATTCTGTTTCTTCAAGTACGCATGTGTGCGCCGGCAGCAGTCAGGGAACGTTCCCTTTTTGCAGATGCGGCAAGCGGCTGGGTGTATTTATTTCAGCAAAAACAGCTCAAGGTTCTCATTTTGATGGATGTGATCGAATCGTGGGCAGGCATGATATGGATCGGGTCTGTGTCCTTAACTTATGTGCATGACGTCCTTCATAAAGGAGAGGCTTGGTGGGGGTATGTCAACGGAGTCTATTATGCAGGGACGATGATCGGCGGACTGAGCATCTATAAGTTATCCGGTAAGCTTCAGCATCATCTCATTCCGCTTATGCTGACGGGAGCCTTGGCATATGGAATGTTCACGTTTATTTACGGGCTGATCACAAGCGCCGTTACGGCCCTTTTTCTGGTGCTGTGTATGGGGCCGGCTTGTGTATTACGAGATCTCACGCAGGAAACATTACTTCAAAACATCACGACCGAAAAGACACGGGTCAATATATTAGCGGCGAGATCAGCTTTAGTTCAGTTCATTTTTATGTTTTCCATTATCGGAACGGGGATTATCTCCGATGTATTCGGCGTGCGGTTTATTTATATTGGCGCAGGCCTTCTCTTATTAATTTCGGCTTTTATCGGATTTACTCAGCTGCGAATGAAGAAAATGGTACAGAGCGGCATGTAG	MKRAYYAILYSQTAINLGFSLYTMAVILFLFTKTGSTAMASLMTLVSIVCRVLGSAVLPLVTGRFTLRSLLISSQLIQITLLVCLFFVIQTGSSAFFFLLFCLIGGISFCNGWFAPIKSALIGEIIPPDRRAKANSLLSAADQTVQFAGWSLGGVIIAFLGVSDTMIVTVMLLVSSVLGIILFLQVRMCAPAAVRERSLFADAASGWVYLFQQKQLKVLILMDVIESWAGMIWIGSVSLTYVHDVLHKGEAWWGYVNGVYYAGTMIGGLSIYKLSGKLQHHLIPLMLTGALAYGMFTFIYGLITSAVTALFLVLCMGPACVLRDLTQETLLQNITTEKTRVNILAARSALVQFIFMFSIIGTGIISDVFGVRFIYIGAGLLLLISAFIGFTQLRMKKMVQSGM				NA	NA	NA	NA	NA
D1-12_02084	510			hypothetical protein	GTGGGACATCTGGCACTGCAATTGTATGATTATCATCTTTGGGCAAATCAGCAAATATTCACCCGGCTTAAAGAGCTTCCGGAGGATGTGTACCGTAAGGAGATTCAAAGTGTCTTTCCGTCGATAGCCGGTGTATTGACTCATGTGTATCTGTCGGATAAGGGGTGGTTTGATGTGTTCTCCGGAGAGCGTCTGGAGGATACGCTGAAATCAGCTGATCAGCAAAAAGAGGACATCTTGTCTAAAGAGATAGAAGAGCTGGAAGATCTATTTTTGAAATTATCAGACCGGTATCAACTATTTTTGCAGAAGGAGGAAAATATCAGCCTCCCCCTTGAAATAGAGCATCCGTCAGGTGACATCATGAAAACCGCAGCGGCCGATATGATCCTCCATGTTGTGAACCACGGAACGTATCATCGCGGGAATATAACAGCCATGCTCAGACAGATGGGGTATGCTTCTGTGCCGACGGATTACGGTATTTATTTATATATAAACAAAAAGTAA	MGHLALQLYDYHLWANQQIFTRLKELPEDVYRKEIQSVFPSIAGVLTHVYLSDKGWFDVFSGERLEDTLKSADQQKEDILSKEIEELEDLFLKLSDRYQLFLQKEENISLPLEIEHPSGDIMKTAAADMILHVVNHGTYHRGNITAMLRQMGYASVPTDYGIYLYINKK				NA	NA	NA	NA	NA
D1-12_02085	663	rspR_1	COG1802	HTH-type transcriptional repressor RspR	TTGGATAATCAAAACAAAGAACCTGTGCTGAAAAGAACCATCATGCGGGACGAAGTGTATCGCACACTCAGAAACTGGATCATAACGGGCAAGCTCAAACCGGAAACAAAGTTAAAGGACAAGGATTTGTCGGAAACATTGGGAATCAGCCGCACCCCGATACGGGAAGCCTTATTGCGGCTGGAAGATGACGGCTTGGTGATAACAAAAGCGAACAGATGGACGCTTGTCGCTCCGATTGAGTTAAAAGAAGCGGAAAACTTGTATTCCATCGTCTGGACGCTTGAGAAACTCGCATTGCAGCAAGCCCTCCCGCGTATGGACGATGCCGTGATTCAAGAATTGAAACAGCTGAATGAAAATCTTCTTCAAACGATGAAAGACGGCGATAAAATGGCCGTTCTGGAAGCGGATAATGCATTTCACCATCGCATCATTCTGCTTGCGGACAACGCTGAACTTCACAAATTGCTAGTAAGCCTGAAAGTCAAAATTCAGAGACTGGAAATCCGCTATTTCAGTGAAAATGGCGCTTTAAACAGATCATATAATGAACACTCTGATATCATTCACGCATTAGAACAGCAAGATGCCGCCGCTGCTTTTACAGCGCTTGAAGCGAATTGGAAAAACAGTTTAGAACGGCTGCAAAACATGGCATAG	MDNQNKEPVLKRTIMRDEVYRTLRNWIITGKLKPETKLKDKDLSETLGISRTPIREALLRLEDDGLVITKANRWTLVAPIELKEAENLYSIVWTLEKLALQQALPRMDDAVIQELKQLNENLLQTMKDGDKMAVLEADNAFHHRIILLADNAELHKLLVSLKVKIQRLEIRYFSENGALNRSYNEHSDIIHALEQQDAAAAFTALEANWKNSLERLQNMA				NA	NA	NA	NA	NA
D1-12_02086	1602	levB	COG1621	Levanbiose-producing levanase	ATGCCGATACTTCATTGGCATTTTCTTTTATTTCTCAACAAGATGGTGAATTCAATCATGGTACGAAAATGGCCCATTGTAATATTGATCTTTTTGGGTGCGTTCCTGTTTGTCGGCTTACTGCCGAACAAAACCCACAATTCCTCTGACACAAACACGGAGCATAAGAAGGATTACCGGGCGGCGTATCATTTTACGACCCCGGACAAATGGAAAAACGACCCTCAAAAGCCCATTTTTTTCGAGGGGAAATATCATTACTACTATCTTTATAATCGGGATTACCCGAACGGCAACGGCACAGAATGGCGGCACGCCGTATCAGAGGACTTGGTGCACTGGACGGACGAAGGCACGGCTATTCCGAAATACACCAACGAAAACGGCGATATCTGGTCCGGTTCTGTCGTCATTGATAAACACAACACCGCGGGCTTCGGCAAAAACGCGCTGGTCGCCGTCACAACGCAGCCGACAGCCAAAACAAAAGCCCAGGAACAATATTTATGGTACAGCACGGATAAAGGAAAAACGTTTACTTCCTATAGTGATCAGCCCGTGATGAAAAACCCGGGAACTAAGGATTTCAGGGACCCGAAAGTGATCTGGGATGAACAGGATGACAAATGGGTGATGGCCATGGCCGAAGGCGAAAAAATCGGTTTTTATGAATCACCCGATTTGAAAAATTGGACATACACGGGCGGTTTTATCACTCAGCAGATCGGTCTCGTCGAATGCCCCGACCTTTATATGATGCGTGGAGATGACGGAACAGCCAAGTGGGTTCTAGGCGTAAGCGCAAACGGCAAACCCGCAGGCAAACCGAATACGTACGCGTATTGGACCGGAAACTTTGACGGGAAGGAATTTACCGCCGATCAAGAAGAACCGCAATGGCTCGATTACGGCTTTGACTGGTACGGCGGCGTCACATTTGAGGACGGTAATAGCGAAGATCCGCTGACAAAACGCTATGCGCTGGCCTGGATGAACAATTGGGATTATCCGAATGAAACACCGACACTAAAAAACGGCTTTAACGGCACGGATTCTATCGTCCGTGAAATCCGCCTTCAGCAGCAAGACGGCGGCACATACAGCCTTGTGTCAGAGCCGGTTGAAGCATTGAACCAATTAACCTCTTCAACTGACAGCATAGAACACAAACAGGTGAACGGTTCAGAGACACTGCCGATCAAAGGTGATACATATCAGCTTGATATGGATATCGCTTGGTCAGATATCAAAAATGCAGGCGTCAGACTCAGAGAATCGGCAGACCAAAGTCGGCATATTGATGTCGGTATTTCAGCAGAAGGCGGCTACGCCTATGTGAACAGATCGTTTACAGGCCAGCCTGATAAAACCGGCGCATACGCCGAAAGCAAAGCCCCATTTGACGGAAACAAAGGGCGCGTCCATCTGAAAATTCTCGTGGACAAAACAAGTATTGAAGTATTTGCAGACGACGGAAAAACCGTTCTGACAAATGAAGTGTTCCCAAAACACGAAGATCAGGGAATCACGCTCTTTTCTGAAGGCGGCTACGCTGACTTTCAGCATATTGAGATGAAGCATCTCGGTTCGATTCATTCTTAG	MPILHWHFLLFLNKMVNSIMVRKWPIVILIFLGAFLFVGLLPNKTHNSSDTNTEHKKDYRAAYHFTTPDKWKNDPQKPIFFEGKYHYYYLYNRDYPNGNGTEWRHAVSEDLVHWTDEGTAIPKYTNENGDIWSGSVVIDKHNTAGFGKNALVAVTTQPTAKTKAQEQYLWYSTDKGKTFTSYSDQPVMKNPGTKDFRDPKVIWDEQDDKWVMAMAEGEKIGFYESPDLKNWTYTGGFITQQIGLVECPDLYMMRGDDGTAKWVLGVSANGKPAGKPNTYAYWTGNFDGKEFTADQEEPQWLDYGFDWYGGVTFEDGNSEDPLTKRYALAWMNNWDYPNETPTLKNGFNGTDSIVREIRLQQQDGGTYSLVSEPVEALNQLTSSTDSIEHKQVNGSETLPIKGDTYQLDMDIAWSDIKNAGVRLRESADQSRHIDVGISAEGGYAYVNRSFTGQPDKTGAYAESKAPFDGNKGRVHLKILVDKTSIEVFADDGKTVLTNEVFPKHEDQGITLFSEGGYADFQHIEMKHLGSIHS	PGPT0019220_93	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LEVAN_METABOLISM	CE-EPS-LEVANBIOSE_BIOSYNTHESIS,PGPT0019220-sacC|levB-K01212	NA	NA
D1-12_02087	1422	sacB		Levansucrase	ATGAACATCAAAAAATTTGCAAAACAAGCCACAGTTCTAACTTTTACGACTGCACTTCTGGCAGGGGGAGCGACTCAAGCCTTCGCGAAAGAAAATACCCAAAAACCTTACAAAGAAACGTACGGCGTCTCTCATATCACACGCCATGATATGCTGCAGATCCCTAAACAGCAGCAAAGTGAAAAATACCAAGTGCCTCAATTCGACCAATCAACAATTAAAAATATCGAGTCCGCGAAAGGACTGGATGTGTGGGACAGCTGGCCGCTCCAAAACGCTGACGGAACAGTAGCTGAATACAACGGCTATCACGTCGTGTTTGCTTTAGCGGGAAGCCCGAAAGACGCTGATGACACATCCATCTACATGTTTTATCAAAAAGTCGGCGACAACTCGATCGACAGCTGGAAAAACGCGGGCCGTGTCTTTAAAGACAGCGATAAGTTCGACGCCAACGATGAAATCCTGAAAGAACAGACACAAGAATGGTCCGGTTCTGCAACCTTTACATCTGACGGAAAAATCCGTTTATTCTACACTGACTTTTCCGGTACACATTACGGTAAACAAAGCCTGACAACGGCGCAGGTAAATGTGTCAAAATCTGATGACACGCTCAAGATCAACGGAGTGGAAGATCATAAAACGATTTTTGACGGTGACGGAAAAACATATCAAAACGTTCAGCAGTTTATCGATGAAGGGAACTATACATCCGGCGACAACCACACGCTGAGAGACCCTCACTACGTTGAAGACAAAGGCCATAAATACCTTGTATTCGAAGCCAACACGGGAACAGATAACGGATACCAAGGCGAAGAATCTTTATTTAACAAAGCGTACTACGGCGGCAGCACAAACTTCTTCCGTAAAGAAAGTCAGAAGCTTCAGCAAAGTGCTAAAAAACGCGATGCTGAATTAGCGAACGGCGCCCTCGGTATCGTAGAGTTAAACGATGACTACACATTGAAAAAAGTCATGAAGCCGCTGATCACTTCAAACACGGTAACTGATGAAATCGAGCGCGCGAATGTTTTCAAAATGAACGGCAAATGGTACCTGTTCACTGATTCACGCGGTTCAAAAATGACGATCGACGGTATTAACTCAAACGATATTTACATGCTTGGTTATGTATCAAACTCTTTAACAGGTCCTTACAAGCCGCTGAACAAAACTGGTCTTGTACTGCAAATGGGTCTTGATCCTAACGATGTGACGTTCACTTACTCTCACTTCGCAGTGCCGCAAGCCAAAGGCAACAATGTCGTGATCACAAGCTACATGACAAACAGAGGCTTCTTTGAGGATAAAAAGGCAACATTTGCGCCAAGCTTCTTATTGAACATCAAAAACAAGAAAACATCCGTTGTCAAAAACAGTATCCTTGAACAAGGACAGCTTACGGTTAACAACTAA	MNIKKFAKQATVLTFTTALLAGGATQAFAKENTQKPYKETYGVSHITRHDMLQIPKQQQSEKYQVPQFDQSTIKNIESAKGLDVWDSWPLQNADGTVAEYNGYHVVFALAGSPKDADDTSIYMFYQKVGDNSIDSWKNAGRVFKDSDKFDANDEILKEQTQEWSGSATFTSDGKIRLFYTDFSGTHYGKQSLTTAQVNVSKSDDTLKINGVEDHKTIFDGDGKTYQNVQQFIDEGNYTSGDNHTLRDPHYVEDKGHKYLVFEANTGTDNGYQGEESLFNKAYYGGSTNFFRKESQKLQQSAKKRDAELANGALGIVELNDDYTLKKVMKPLITSNTVTDEIERANVFKMNGKWYLFTDSRGSKMTIDGINSNDIYMLGYVSNSLTGPYKPLNKTGLVLQMGLDPNDVTFTYSHFAVPQAKGNNVVITSYMTNRGFFEDKKATFAPSFLLNIKNKKTSVVKNSILEQGQLTVNN	PGPT0013775_104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LEVAN_METABOLISM	CE-EPS-LEVAN_BIOSYNTHESIS,PGPT0013775-sacB-K00692	NA	NA
D1-12_02088	858	yicL	COG0697	putative inner membrane transporter YicL	GTGCTGACAGGAGCTATCTTATGGGGGGGCTCGGGAACGGTTGCCCAGTATCTGTTCCAGCACCGCCATTTTAATACAGAATGGCTGACTTCAGTGCGCCTTCTGGTGTCAGGGGCGCTTCTGCTCGGCATCGCGTACCGCAAAGAAAAAGGACGGATATGGGCTGTTTGGAAAGACAGACGGGACAGAATTCCCCTTCTTTTATTCGGGGTTTTTGGAATGTTAGGCGTTCAATACACCTACTTCGCGGCAATTGAGTACGGAAACGCGGCCGCTGCTACCGTTCTTCAGTATTTAGGGCCAGCGATCATTACATGCTTTTTAGCGATTCGCGCAAAGAGAATGCCTTCAGCAAAAGAGCTTCTCGCCGTCTTATTGGCGGTTGCCGGCACATTCATTTTGGTCACGCACGGGAATGTCGGAAGCCTGTCCATATCCGGTCTGGCTGTCTTTTGGGGCATCAGTTCGGCGTTTGCACTGGCGTTTTACACCCTTCAGCCGCATCGTCTGCTGAAGAAATGGGGATCGGCCATTATTGTCGGATGGGGCATGCTGATCGGCGGAGCCGCCCTCAGCTTGATCCGCCCGCCCTGGAAATTTGAAGGCGAGTGGTCCTTGCCGGCATATGCCGCGATTGTGTTTATCATCATTTTCGGAACGCTCATCGCTTTTTATTGCTACTTGGAAAGCCTGAAATATCTGAGTGCCTCTGAAACCAGCCTGCTCGCCTGTGCGGAGCCGCTGTCGGCAGCTTTTTTAGCTGTTATCTGGCTGCATGTTCCCTTCGGAATATCAGAATGGCTGGGTACTTTGCTGATTTTAGCCACCATCGCTTTATTATCTATCAAGAAAAAATAG	MLTGAILWGGSGTVAQYLFQHRHFNTEWLTSVRLLVSGALLLGIAYRKEKGRIWAVWKDRRDRIPLLLFGVFGMLGVQYTYFAAIEYGNAAAATVLQYLGPAIITCFLAIRAKRMPSAKELLAVLLAVAGTFILVTHGNVGSLSISGLAVFWGISSAFALAFYTLQPHRLLKKWGSAIIVGWGMLIGGAALSLIRPPWKFEGEWSLPAYAAIVFIIIFGTLIAFYCYLESLKYLSASETSLLACAEPLSAAFLAVIWLHVPFGISEWLGTLLILATIALLSIKKK				NA	NA	NA	NA	NA
D1-12_02089	930	ppaC	COG1227	Manganese-dependent inorganic pyrophosphatase	ATGGAAAAAATTCTTATTTTCGGACATCAAAACCCAGACACAGATACCATTTGCTCTGCCATTGCCTACGCTGATCTAAAAAATAAACTCGGCTTCAATGCTGAGCCCGTCCGCCTCGGACAAGTCAACGGCGAAACACAATACGCGCTTGATTATTTCAAGCAGGAAAGCCCGCGTTTGGTGGAAACAGCCGCAAACGAAGTAAACGGCGTCATCCTTGTTGACCACAATGAACGCCAGCAAAGCATCAAGGATATCGAAGACGTTCAGGTTCTTGAAGTTATCGACCACCACCGTATCGCCAACTTCGAAACAGCGGAACCCCTTTACTACCGTGCTGAGCCGGTCGGCTGTACGGCTACAATTTTAAACAAAATGTACAAAGAAAATAACGTGAAAATCGAGAAAGAAATTGCGGGCCTCATGCTGTCAGCAATCATTTCCGACTCTCTGTTATTTAAATCTCCGACTTGCACGGAGCAAGATATCGCAGCGGCAAAAGAGCTTGCTGAAATTGCCGGCGTAGATGCGGAAGAGTACGGCTTAAACATGCTGAAAGCGGGCGCCGACTTAAGCAAAAAAACGGTGGAAGAACTGATTTCTCTTGATGCGAAAGAGTTCACGCTCGGCAGCAAAAAAGTCGAAATCGCCCAAGTCAACACAGTTGATATTGAAGATGTGAAAAAGCGGCAGCCGGAATTAGAAGCGGCCCTTTCAAAAGTAATTGCTGAGAAGAACCTTGACCTGTTCCTTCTCGTGATTACGGATATTCTGGAAAACGATTCCCTTGCGCTTGCCATCGGTGATCAAGCGTCAAAAGTGGAAAAAGCATTCAACGTGACTTTAGAAAACAACACGGCTCTTTTAAAAGGCGTCGTATCCAGAAAGAAACAAGTCGTCCCTGTTTTAACAGACGCGATTGCAGAATAA	MEKILIFGHQNPDTDTICSAIAYADLKNKLGFNAEPVRLGQVNGETQYALDYFKQESPRLVETAANEVNGVILVDHNERQQSIKDIEDVQVLEVIDHHRIANFETAEPLYYRAEPVGCTATILNKMYKENNVKIEKEIAGLMLSAIISDSLLFKSPTCTEQDIAAAKELAEIAGVDAEEYGLNMLKAGADLSKKTVEELISLDAKEFTLGSKKVEIAQVNTVDIEDVKKRQPELEAALSKVIAEKNLDLFLLVITDILENDSLALAIGDQASKVEKAFNVTLENNTALLKGVVSRKKQVVPVLTDAIAE				NA	NA	NA	NA	NA
D1-12_02090	372	yybR	COG1733	putative HTH-type transcriptional regulator YybR	ATGAACATATATCCGAATAAAGAAGGTTGTCCGGTTGAACTGACGCTTTCCGTTATCGGCGGAAAGTGGAAGGGTATTTTGTTTTATCATATGATCGGCGGAAAAAAGCGGTTTAATGAGTTTCGGCGCATTTGTCCCAGCATTACGCAGCGTATGCTGACGCTTCAGCTTCGCGAGCTCGAGGCGGACGGCATCGTGCATCGCGAGGTATATCAGCAGGTGCCTCCAAAGGTGGAGTATTCACTCACCGAATTCGGCAGGTCGCTGGAACCGATCGTTTTGCAAATGAAGAAATGGGGAGATGCCAACCGGGAGTTTCTCGAGGCATACCGCGAAAAAACGTCTCCTCAAGATCAATCCGCTCAAAAATAA	MNIYPNKEGCPVELTLSVIGGKWKGILFYHMIGGKKRFNEFRRICPSITQRMLTLQLRELEADGIVHREVYQQVPPKVEYSLTEFGRSLEPIVLQMKKWGDANREFLEAYREKTSPQDQSAQK				NA	NA	NA	NA	NA
D1-12_02091	528	cotF	COG5577	Spore coat protein F	ATGCTGAAAGTGAAAATGAAGGATAAAGGAGATTCTTACACCATGACTGAGCGGAGAACATTAGCATGGCATGAAACATTAGAACTGCATGAGTTAGTAGCTTTCCAGGCAAACGGACTTGTGAAATTAAAAAGAACAGAGCGGGACGTAAGCGATGCCAGATTAAAACAGCTTTACAGATTTTCCATCCATTCGCTCGAACAAAATCTGCGTGAACTGCTTCCTTTCTTCCCTGAAGCTCCCGCTTTTCGTGAGGATGAAACAGAAGAGCGCGCTGATTCCTCCTTTTACAGCGGCGGCCTGCTGATCATGGCCAAAACGTCTGTCCGCAATTACGCCGGAGCCATTACAGAGACGGCCACACCTCAATTAAGACATGTCTTCGTCAAGCACTTAAACGCAGCCATCAAGTGGCACCAAATGGTCTTTGAGTATATGGAAGAACGCGGTCAATATCCGGCTTATAACCTGAGCGAATTGCTGAAGAATGATGTGCGTAACGCCAGAAAAGCCATCGCGATGAAATAA	MLKVKMKDKGDSYTMTERRTLAWHETLELHELVAFQANGLVKLKRTERDVSDARLKQLYRFSIHSLEQNLRELLPFFPEAPAFREDETEERADSSFYSGGLLIMAKTSVRNYAGAITETATPQLRHVFVKHLNAAIKWHQMVFEYMEERGQYPAYNLSELLKNDVRNARKAIAMK	PGPT0025160_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025160-cotF-K06329	NA	NA
D1-12_02092	153			hypothetical protein	ATGTGGGACATGATAAAGAACTTCTTCCTTTTCAGCAGCGGGGTTTTGCAGGCGACCACTCTCTTACTTATCGTTATCGTCTTGTTATATGTACGAAAAACCAAAAAGAAAAACAGAGATACTTCTGGTTTCATGGATGATCAGGATCACTGA	MWDMIKNFFLFSSGVLQATTLLLIVIVLLYVRKTKKKNRDTSGFMDDQDH				NA	NA	NA	NA	NA
D1-12_02093	936			hypothetical protein	GTGAAAAATACAAGGGCTCTATTAGAAGGCGCCATTTTGATCAGTATTTTTGCAATCATTTCCCTTTTGGTCGTGTACCTCCCTTTACTGGGGGCAATTCTTCTCTTTGCTTTGCCGCTGCCGATCATTCTTTACACCATTCGGCACGGTCTGAAGCCCGGGGTATGGATGGGGCTTGCCAGCCTTCCTGTCAGCTTTATTGTAGGTTCGTTTACCGGGCTTACAGGCGCTTTTACGGCAGCCTGTACGGGAATCGCCATGGGATATTATTTTAAAAAGAAACAGCCCGGCTATGCGGTTGCTGCCGGCGCTATGGCGTATGTGCTGTGCGGCGTCGTTTTTTTTGTGGTCAGCATCGTGTTCCTTAACATGAATGTGGTTGATACCACCATGTCCCAGCTTCGGGAGTCGCTGTCTTTAGCAGAAACCATGTCAAAGCAACTCGGTTATGGAGACCAGTTCGGGAAGCAGATCAAGCTGATGGAAAGTCAGCTGAGCACGGTTCAATATCTTTTTCCGACAGTGCTCGTATTGACCGGCATCGTTTTTTCTTTCCTCAGTTATGCGATGGCAAGGCCGCTTTTACGGCGATTTTCCCCTGATCTTCCGAAGATGAAGCCTTTTAGAGAGCTCAAACTCCCGCAAAGCGTTGTCATTCTGTATTTTATTGTGACGATATTAGGGTTTCTGCCTTTAGAAAAAGGGCATATGCTGTATTCGGTTTCATTGAATGGGGGATTTATTCTCAGCTTGCTGATTTGTATTCAAGGATTAGCGTTTATTTTTTTCTATTGCCGCGAAATGGAGATGCCGAAAGCCGTTCCTGTATTAGCAATTGTGCTGGGGGTGCTTTTTCCGCTCATCTTGTCCGTGTATCTCCTCTTAGGCATCATTGACATAGGCTTTAACATAAGAAATAAGGTGACGCGAAATTGA	MKNTRALLEGAILISIFAIISLLVVYLPLLGAILLFALPLPIILYTIRHGLKPGVWMGLASLPVSFIVGSFTGLTGAFTAACTGIAMGYYFKKKQPGYAVAAGAMAYVLCGVVFFVVSIVFLNMNVVDTTMSQLRESLSLAETMSKQLGYGDQFGKQIKLMESQLSTVQYLFPTVLVLTGIVFSFLSYAMARPLLRRFSPDLPKMKPFRELKLPQSVVILYFIVTILGFLPLEKGHMLYSVSLNGGFILSLLICIQGLAFIFFYCREMEMPKAVPVLAIVLGVLFPLILSVYLLLGIIDIGFNIRNKVTRN				NA	NA	NA	NA	NA
D1-12_02094	1980	gdpP	COG3887	Cyclic-di-AMP phosphodiesterase GdpP	ATGCCTAGTTTTTATGAAAAACCGTTGTTTCGGTATCCCATCTATGCATTGATTGCATTGTCAATCATCATAATCCTCATCAGCATTTACTTTAACTGGCTGATAGGAGCCATCGGCGTTGTGCTGCTCGCCGTGATCTTGTTTTTCATTAAGCGTGCGGATTCTCTGATCAGAAAAGAAATTGACGATTATATCTCCACGTTATCGTATAGATTGAAAAAAGTAGGCGAAGAGGCATTAATGGAAATGCCTATCGGGATTATGCTGTTTAATGATCAATATTACATTGAGTGGGCGAATCCGTTTTTGTCTTCCTGTTTTAATGAAAGCACGCTCGTCGGACGCTCGCTGTATGACACATGCGAGGCCGTCGTGCCGCTGATCAAGCAGGAGGTCGATTCGGAAACGATCACCTTGAATGAGCGGAAGTTTAAAGTAGTGATTAAAAGAGATGAGCGCCTGCTTTATTTCTTTGATGTGACAGAACAGATTCAGATTGAAAAGCAGTACGAAAATGAGAGAACCGTGCTGGCATATATCTTCTTAGATAACTATGATGACGTCACACAGGGGCTGGACGACCAAACGAGAAGCACGATGAACAGCCAGGTCACCTCATTATTAAATGCGTGGGCGCAGGAGTACGGCATTTTCCTGAAACGGACGTCTTCGGAGCGGTTTATCGCGGTGTTAAATGAACACATTTTAACGGAGCTTGAAAACGCGAAATTTTCGATTTTGGATGAAATTCGAGAAAAAACATCCGTTCACACTGTATCTTTGACCCTCAGCATCGGGATCGGCGCATCGGTTTCTTCCTTGAAGGAGCTTGGAGATCTGGCGCAGTCCAGCCTCGATTTGGCTCTCGGCCGCGGAGGCGACCAAGTGGCGATCAAAATGCCGAACGGCAAGGTGAAATTTTACGGCGGCAAAACAAATCCGATGGAGAAGCGCACAAGGGTGCGCGCCCGGGTGATTTCTCACGCGCTCAAGGAGATTGTCTCAGAAAGCAGCAATGTCATTATCATGGGGCACAAATTTCCTGATATGGACGCGGTCGGAGCCGCAATCGGAATATTGAAGGTGGCGCAGGCCAACGGCAAAGAAGGCTACATCGTCATTGATCCGAACCAGATCGGATCAAGCGTTCAGCGCCTGATTGAAGAAATTAAAAAATATGAAGAGCTGTGGTCGCGGTTCATCACGCCGGAAGAGGCGATGGAAATTTCAAATGATGACACGCTACTTGTCGTCGTTGATACACATAAACCGTCCCTTGTGATGGAAGAGCGCCTCGTGAACAAAATCGAGCACATCGTTGTGATTGACCACCACCGCAGAGGCGAGGAATTTATTAAAGACCCGCTGCTCGTTTATATGGAGCCATACGCTTCATCCACCGCAGAACTCGTGACAGAGCTGCTTGAATACCAGCCGAAGCGGCTCAAAATCAATATGATTGAAGCGACGGCCCTGTTAGCTGGTATAATAGTGGATACGAAGAGCTTTTCCCTTCGCACGGGCTCGCGGACGTTCGACGCCGCTTCTTATTTGAGAGCGAAAGGCGCAGATACGGTTCTGGTGCAGAAAGTTCTCAAAGAATCCGTCGGTTCTTATATCAAGCGGGCGAAACTGATCCAGCATACGTCTCTTTATAAAGAACATATCGCGATTGCTTCTCTTCCTGAGAACGAAGAGGAGTACTTTGACCAGGTGCTGATTGCGCAGGCGGCTGATTCCCTCTTATCAATGAGTGAAGTGGAAGCTTCATTTGCGGTAGCCAGACGGGATGAGCATACGGTGTGCATCAGTGCGAGATCGCTGGGCGAGGTCAATGTGCAGATTATTATGGAGGCGCTGGATGGCGGAGGGCATTTAACCAATGCGGCAACCCAGTTATCGGGCATTTCTGTCTCAGAAGCGCTCGTCCGGCTGAAGGAAGCCATTGATGAATATTTTGAGGGAGGCGTTCAGAGATGA	MPSFYEKPLFRYPIYALIALSIIIILISIYFNWLIGAIGVVLLAVILFFIKRADSLIRKEIDDYISTLSYRLKKVGEEALMEMPIGIMLFNDQYYIEWANPFLSSCFNESTLVGRSLYDTCEAVVPLIKQEVDSETITLNERKFKVVIKRDERLLYFFDVTEQIQIEKQYENERTVLAYIFLDNYDDVTQGLDDQTRSTMNSQVTSLLNAWAQEYGIFLKRTSSERFIAVLNEHILTELENAKFSILDEIREKTSVHTVSLTLSIGIGASVSSLKELGDLAQSSLDLALGRGGDQVAIKMPNGKVKFYGGKTNPMEKRTRVRARVISHALKEIVSESSNVIIMGHKFPDMDAVGAAIGILKVAQANGKEGYIVIDPNQIGSSVQRLIEEIKKYEELWSRFITPEEAMEISNDDTLLVVVDTHKPSLVMEERLVNKIEHIVVIDHHRRGEEFIKDPLLVYMEPYASSTAELVTELLEYQPKRLKINMIEATALLAGIIVDTKSFSLRTGSRTFDAASYLRAKGADTVLVQKVLKESVGSYIKRAKLIQHTSLYKEHIAIASLPENEEEYFDQVLIAQAADSLLSMSEVEASFAVARRDEHTVCISARSLGEVNVQIIMEALDGGGHLTNAATQLSGISVSEALVRLKEAIDEYFEGGVQR				NA	NA	NA	NA	NA
D1-12_02095	450	rplI		50S ribosomal protein L9	ATGAAGGTTATTTTCTTACAAGATGTAAAAGGTAAAGGAAAAAAAGGCGAAATGAAAAACGTAGCAGACGGTTATGCACATAACTTTCTCATTAAAAAAGGCCTCGCTGTCGAAGCAAATGCGACAAACATCAGCGCATTGAAAGGACAGAAAGAAAAAGAGAAAAAAGAAGCGATTGCCGAGCTTGAAAGAGCGAAAGATTTGAAAGAAACGCTTGAACAGCTGACTGTTGAGCTGAGTGCCAAATCCGGTGAAGGCGGCCGTCTATTCGGATCTGTCACAAGTAAACAGATTGCAGAAGCGCTGCAAAAAACGCATAAGATTAAAGTGGATAAACGGAAACTGGAGCTCCAAGACGGTATCCGCACACTGGGATATACAAACGTTCCTGTAAAGCTGCACCCTGAAGTTCAGGCTGTGCTGAAGGTTCACGTAAAAGAAGAAGCGTAA	MKVIFLQDVKGKGKKGEMKNVADGYAHNFLIKKGLAVEANATNISALKGQKEKEKKEAIAELERAKDLKETLEQLTVELSAKSGEGGRLFGSVTSKQIAEALQKTHKIKVDKRKLELQDGIRTLGYTNVPVKLHPEVQAVLKVHVKEEA				NA	NA	NA	NA	NA
D1-12_02096	564			hypothetical protein	ATGAAACGATTTTTTTCTGAAACATATTTTAATTATCCGGAGAATAAAAAAGCGCTGAATCAATATCCGCTGATCGGAGACGGAAAAGATGGGGAGGTCTATCTCTTAACACACAACAAATGCGTAAAATATTTTTTTAAAAAAGAGACATGTAAGAAGGAATTGGAAGCTTTACAGCTCGGATATGGTTCACCGGTGATCCCGAAACTGTATGAATACGGAGATCATTATATTGTGATGGAATACGTCAAAGGCACCTCCCTTGCGCGCCATATCAAAAAAGAAAAATCCCTGTCCGTCAAACTGACAGCTGATATTTTAAACATGCTGGATGAATTAAAAGATATCGGTTTTGCCAGATGGGATGCCGAAATCAGGCATATTCTGATCAACGAACAAGGTGAACTTAAAGTGATCGACCATAAAAGAGCCTTTTCGACCGTTACCCGAGTTCCCGTAAAACTATTAAAAGGACTGGACAAATACGGCTTGGCGGATGAGTTTTTGAACACCATAAAAAAATTAAATCCGTCACGCTACCGGGAATGGCGAAGGGAATTGTAA	MKRFFSETYFNYPENKKALNQYPLIGDGKDGEVYLLTHNKCVKYFFKKETCKKELEALQLGYGSPVIPKLYEYGDHYIVMEYVKGTSLARHIKKEKSLSVKLTADILNMLDELKDIGFARWDAEIRHILINEQGELKVIDHKRAFSTVTRVPVKLLKGLDKYGLADEFLNTIKKLNPSRYREWRREL				NA	NA	NA	NA	NA
D1-12_02097	657	bshB1_2	COG2120	N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1	ATGGGAGAATATATTATGGTTATCGGCGCTCATCCCGACGATGAACTATTGGGATCAGCGGGCACCATAAAACGGCTGATCAATGAAGGATATAAAGTGATTTCCATTATTACAGCATTAGGAAGAAAAGAAGAAGCTCATCATATTAAACAATTGGGCGAACGCGCGAATCAAGAGCTAGGAATTGAGAAAGTCATCTTTTTGGAGCATACGAATTTAGAGCTGGAATGTATCCCTCTTCATAAGCTTGTCAAAGAATTAGAACAGCTCATTCGCGTCTATCAGCCTGAAAAAATCTTTACACATCATTACGGCGATGTCAATATGGACCACCAGAGAACGTTCCAAGCAGTTTTAACAGCCGCCAGACCGCTTCCGAATCAAAAGCCTATCGAACTGCTTACGTTTGAAACGCTATCTTCAAGCGAGTGGGAGAGGAATACGGCTGATAAACTCTTCAAGCCTAATTACTTCGTTAATATCACAGACACAATGGATGCCAAACTCGCGGCGCTTCACCACTATGACGTAGAAATGAGGGATTACCCTCATCCCCGTTCATATGAAGGCGTTACACATTTAGGAAGAGTCAGAGGGATGACGGCGGGTGTGGAATACGCTGAAGCTTTTGAAGTCGTGCGGAGGATCTGGAAATGA	MGEYIMVIGAHPDDELLGSAGTIKRLINEGYKVISIITALGRKEEAHHIKQLGERANQELGIEKVIFLEHTNLELECIPLHKLVKELEQLIRVYQPEKIFTHHYGDVNMDHQRTFQAVLTAARPLPNQKPIELLTFETLSSSEWERNTADKLFKPNYFVNITDTMDAKLAALHHYDVEMRDYPHPRSYEGVTHLGRVRGMTAGVEYAEAFEVVRRIWK	PGPT0019570_921	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
D1-12_02098	1335	mshA_1	COG0438	D-inositol 3-phosphate glycosyltransferase	ATGATCAAGACATTTTCCGTCCCGTATCCGTATATGATTCAGACGCTTGACCGCTATTACGGGGTCAAAGCGCACCCGCAAAAAAAGACGGCAGTAAAGACTCAGATGAAACATGCACATCATATTCCGCGATTATACGGAAAAAAACAGAAGTTATCCATTTTGATTGCCACGTTTTGGGACTACCCGCACACGGGCGGTTTATCAAACTATATTAAAACGCTTAGTGAAGGACTGAAAAAAAGAGGTCATAAGGTGGATGTCATATCCCCCAATCAGTTTCCTTCCGCACAGGTAAAAGAATTGCGGGCGGATGTTGTTCCGAAATTAAAAGATTTCTTTAGTGACAGATACGGGGATTACAGTGATCATATTTTGAAGAATAATCGGCTGATGTTTATATACGAGCAAATGCTTCAAAAGATTCATTTGGAAAAATATGATGTGTTTCATGCTCAAGATTTATTTACAGCCAACATATTAGGCAGGTTCAATCAAATCTATAAGAAACCTTTATTTTTCACACCGCATGGCATGTTTACTTTCAACAGACTTAAATTTCACATCTTTAAAAAAGGATCGGTAGAAGAGTTTTATTATAAAAAACTAGAGATGAAAGCCATTGAATACGCAGATCGCCTGATTATTATCAGCGATACGTTCCGCAGCCCGCTCATGAAGCTCGGAGCCGAACAGGAAGACATGGCAACGGTGATCACAGGAATCGATTACGATGCAAAAACAGGCGGGAAAAGAAAAACCCCGATACCGAAAAATAAGATCATCATCGCGTGTATTGCAAGATTAGGCCCGAGAAAAGGTCACAAATATTTACTGGACGCACTTTCAAGAATTCCGTCTGATCTACTTGAACATGTTGAAGTGCTGATCGCGGGCGACGGAGAGATGAGGAGCGCCTTAGAGGAACAGGCTCGAAAACTGAATCTATCTATGGTCTCCTTTTTAGGAAAAAGAGATGATGTTCCCGCTATTTTGAATATGACGGATATATTCGTATTGCCGACCATTAATGATAGTCTGCCTATTTCGATTATTGAAGCGATGTTCAGCGGCTCGGCTATCATCGCGACCGATTGCGGGGGTATTCCGGATCTGATCCGCCATAACAAAACGGGACTTATTGTCGAACCGGGAAATGCAAAGGTTCTTGCCCGGGCTTTAGCGTTTTTTATCTCTAACAAATCTGCGCGGGAGAAGGCTGCTTCAAACGCAAAGGCCTACGCGGAGAAATATTTAAGCAGTGAGACGATGATAAAAAATATCGAATCGATTTATCAAAATACCAACAGCTCGGAGGGAGATCATGAAACATGA	MIKTFSVPYPYMIQTLDRYYGVKAHPQKKTAVKTQMKHAHHIPRLYGKKQKLSILIATFWDYPHTGGLSNYIKTLSEGLKKRGHKVDVISPNQFPSAQVKELRADVVPKLKDFFSDRYGDYSDHILKNNRLMFIYEQMLQKIHLEKYDVFHAQDLFTANILGRFNQIYKKPLFFTPHGMFTFNRLKFHIFKKGSVEEFYYKKLEMKAIEYADRLIIISDTFRSPLMKLGAEQEDMATVITGIDYDAKTGGKRKTPIPKNKIIIACIARLGPRKGHKYLLDALSRIPSDLLEHVEVLIAGDGEMRSALEEQARKLNLSMVSFLGKRDDVPAILNMTDIFVLPTINDSLPISIIEAMFSGSAIIATDCGGIPDLIRHNKTGLIVEPGNAKVLARALAFFISNKSAREKAASNAKAYAEKYLSSETMIKNIESIYQNTNSSEGDHET	PGPT0018547_170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018547-yqgM-K16150	NA	NA
D1-12_02099	1188			D-aspartate ligase	ATGAAACATGAACATGCAGCCGTTGTACTTGATTTCAGTGCAAACGGGATTGGGATCATTCGCAGTCTTGCCCGAAGAGGAATCGATGTTTACGCGTTTGACACGGAGGGACCTTATCGTATCGGAAAATCAAGATTGGCAGATTGCGGGATATGTCCCAGCCCTTTAACAGAAGAGGAAGAACTGCTGACATTTCTGACTGATTTCGGGAAGCGATTCCAAGCAAAGCCGGTTCTGTACGCAGGATCTGATGATTATGCGGGATTTATATCTAAATTCCGCGAGACATTAGCCGGTTTTTTTTTATTTTTGCTCCCGAGCCACTCTCTGTTAGAAACGGTCTTAGATAAAAGCAAAGCATATGAATTAGCGGTCAAGCATCACATCCCCTGCCCGAAAACCTTTTTTCCGAACAACCAGGATGAGCTGGAAGAAGCCATCGCCAATATTGACTTCCCGTGTATTTTAAAACCGGTGGCCGGCCATGAATACAGAAAAAAAGTAAACAAAAAAGCAATTGTAATGAAGGATGCCGCACAATTGCGCAAGGAGTTCAGCTCCTACAGAGAAAATGGAGAACTGCTCGTGCAGGAGATCATCCCCGGAGACAACCAGTGTTTTTATAAAGTCGCCACTTTTTATGATGACCAAATGAAATTAATGGGCCTATTCTCTCTGCAAAAGAACCATCAATTCCCTGCTGATTTTGGCGCGGGGGCCCACGTCGTCAGCAAACGGCTTCCTGATTTAATCGAGAAAACCCTGCCGTTTTTTGAAGCGATTCAGCTGAAGGGAGTAGGCATGGCGGAATTTAAAAAGGATCCCCGGGACAATGTTTACAAGTTTATCGAAATTAATCCGCGCTTTTGGCTCAGCCATAGCCTGACAGAACCGGCAGGCGTTCATTTCGTTTACATGTACTATCTGTATTTGACCGGGCAGCATGTGAAGCCCCAGCTCGAACAAAAAGACGGAATCAACTGGATTTATGGGGTGCGTTATTTCTTAACGTTTTTGAAGAAACGAAAAAGAGGAGAAATGACGTTCCGGGATTTTTGGAAAGGGTGTAAAGGAAAAAAAGAGTACGCTCTTTTTGCTTGGAATGACCCGATGCCATTTATCAGAAACACTTGGTCTCATCTCAAAAACAGCTGGAAACGGAAGCGGAAGGAAGATCGGCATGTATGA	MKHEHAAVVLDFSANGIGIIRSLARRGIDVYAFDTEGPYRIGKSRLADCGICPSPLTEEEELLTFLTDFGKRFQAKPVLYAGSDDYAGFISKFRETLAGFFLFLLPSHSLLETVLDKSKAYELAVKHHIPCPKTFFPNNQDELEEAIANIDFPCILKPVAGHEYRKKVNKKAIVMKDAAQLRKEFSSYRENGELLVQEIIPGDNQCFYKVATFYDDQMKLMGLFSLQKNHQFPADFGAGAHVVSKRLPDLIEKTLPFFEAIQLKGVGMAEFKKDPRDNVYKFIEINPRFWLSHSLTEPAGVHFVYMYYLYLTGQHVKPQLEQKDGINWIYGVRYFLTFLKKRKRGEMTFRDFWKGCKGKKEYALFAWNDPMPFIRNTWSHLKNSWKRKRKEDRHV				NA	NA	NA	NA	NA
D1-12_02100	1056			hypothetical protein	ATGTATGAAAAGGAGATTTTGTATGGCGCATTTCAAAAACTGAGAATTGACGAAAAACTGTCGTATTCGTTCGGTGAAAGGGCTGCGGTGAATCCGGATGACATCACATGCCTGAAATCGACGGACAGAAGCGCCATTTATAAACTGTTTGTAAAGAAAAAATCCGGCACTGTTCCGCTGATATTGAAGGTATATAAATCTTCCCGTGAAAAAAATAAGGTCGAGATTAATATATACGGGAAAGCCCGTTCTGTTTTAGGGGATTTGCTGCCGGATATCTATCTTATAGAAGAAAGTGACCATGAAACGTGGATATTTATGGAGTTTGTCAGCCAGATCAGGGGACAGCTTACATTTCACCCGAAGCATTTCAAGTATATTATTCCGTCTGTCGCAGAACTGCACAGCCGCACCTTTGAAAACAAGAATATTTCTGACGGTAAATGGCGGTCGTGGCTGCCGGTATACAAATCGGAAACCATGAGAAAAGGGCGTAAAAAGCAGATCAAAAAGACAGCGGAATTATTGGATAGAGCGCTTAAAGATGAGCGCACAAAAGATATCGTGAAGCCTCATTATCGGCAAATCACAAACTTGCTTGAGCAGGAGGAGCCGGATTTTTTCCCTGAATTGATACAAAACGGCTCAGCCATCACACACGGTGATCTTCATATGCAGAATATCTGCACCCACGATGCGTCCGGACATGAACCGTGGGATATTCAATTCATCGATTGGGAATCCGCAAAATACGCGCCGGTTTGGTTTGATATGACGGTGCTGGTTGAAATTCTGCTTGGTTTCAGAAAAGATTGGAGCCGGCACGCAGAAGATATTCGAACGTATTGCGTAAAAGTGTATACGAAAGAAATGAAAAAGCGGGGTATTCATTTTCAGACCCCTCCTATGACGCTTTATAAAATGGCTTATTTGCAGAGAACACTTGAGAAAGGGCTTCATACCCAATTGCGGAGAATCTTCGACAATCGGGGAGGAGAACTGCTGCCGTATCATGTTGACAAAGTGTCAAAATGGGGACGGGAATTAGGATTATAA	MYEKEILYGAFQKLRIDEKLSYSFGERAAVNPDDITCLKSTDRSAIYKLFVKKKSGTVPLILKVYKSSREKNKVEINIYGKARSVLGDLLPDIYLIEESDHETWIFMEFVSQIRGQLTFHPKHFKYIIPSVAELHSRTFENKNISDGKWRSWLPVYKSETMRKGRKKQIKKTAELLDRALKDERTKDIVKPHYRQITNLLEQEEPDFFPELIQNGSAITHGDLHMQNICTHDASGHEPWDIQFIDWESAKYAPVWFDMTVLVEILLGFRKDWSRHAEDIRTYCVKVYTKEMKKRGIHFQTPPMTLYKMAYLQRTLEKGLHTQLRRIFDNRGGELLPYHVDKVSKWGRELGL				NA	NA	NA	NA	NA
D1-12_02101	1293	mshA_2		D-inositol-3-phosphate glycosyltransferase	GTGAAAGAAGAGATCGGCAAGCCGAACGGTCTGGTGCCTCTTGCCTTATTGCGCGTCATGGATCAATTTTACGGGATCGAACATCAAAGTGAGCCAGAGATGCTGTATTCGTTCTGTGCGGAAGGAAAAAGCTCCCCCAAACGAAAAAAGCCATTGCGTATTCTGTACGCAACCTTTCTCCGTTACCCGAATGTCGGAGGGTTGGCGAGTTATATCACATCAATTAAGACGGGTTTTGAGCGCATCGGTCATCAGGCGGATGTCATCTCGCCGCTCCAAATGCCGCCATCTTTTTTTCAGGAAGATATCCCGCGGGCCGCTGACGAGATCAGAGCGTTTCTTGTTGGCAGATACGGCGCCGCAAACGAAAAGTTTGTGAAGAATCTCAGCTATTTATATGTCTTTCAAAGATTTTTGAAGGAGAAAGACTTAGAACAATATGACCTGTTTCACGCGCAGGATTTATTTGCGGTATTTTTGCTGGGATACCTTAATCAAACGTATCAGCGTCCTCTTTTTTTCACGCCGCACGGACATTTTACGAAAAGCCGGATGAAGTTTCATAAAATCCAAAAGGGTTCAATAGATGAGGCATATTTCAGTGAAATAGAAAGGCAGGGTATTCGGGCTTCGGATAAAATCATTACAATCAGCGACTCCTTTCACGAGCCCTTGCTGGAGTACGGAGCGAAGGAGGCTCAGCTGACGACTGTTCATACCGGCATTGACATTCAGGATGCCCCTGAGTCAAAACGTGCTGAAAAGCTCGTGATTGCGTGCGTTTCCCGTCTGACCGAGCGAAAAGGACATGATGTGATGCTGGACGCTCTCGCCCGCATCCGGCACCATTTATCCGGAGTTGATATATGGATCATCGGAGACGGAAACATGAGAGGGTTTCTGGAGGAAAAGAAACGGAAACTGGGCCTCACAAATGTGTTTTTCTTCGGAAAACGACGTGATGTGCCGGCGCTTTTGGCTGAATCATCTATATTTGTCCTGCCGACATTGAATGATAATTTCCCTATAGCGATCATCGAAGCGATGTTCTCAGGTCAAGCCATTGTCGCAACTGACTGCGGAGGAATCCCTGAGATGATCCGGCATGAGGACACAGGGCTTATCTGTCAGCCCGGCAACAGCCGCGAACTTGCTGATGCTCTCGTAATGCTGATTACGGATCAGTCTCTCAGGGAACGGCTTGGAAAAGAAGCGCGCTCCTATGCCGGCCGGCATCTGCGTCAGGAACTGATGGTTTCGAAAATAGAAAGTATTTATCAATCATTTTTCTGA	MKEEIGKPNGLVPLALLRVMDQFYGIEHQSEPEMLYSFCAEGKSSPKRKKPLRILYATFLRYPNVGGLASYITSIKTGFERIGHQADVISPLQMPPSFFQEDIPRAADEIRAFLVGRYGAANEKFVKNLSYLYVFQRFLKEKDLEQYDLFHAQDLFAVFLLGYLNQTYQRPLFFTPHGHFTKSRMKFHKIQKGSIDEAYFSEIERQGIRASDKIITISDSFHEPLLEYGAKEAQLTTVHTGIDIQDAPESKRAEKLVIACVSRLTERKGHDVMLDALARIRHHLSGVDIWIIGDGNMRGFLEEKKRKLGLTNVFFFGKRRDVPALLAESSIFVLPTLNDNFPIAIIEAMFSGQAIVATDCGGIPEMIRHEDTGLICQPGNSRELADALVMLITDQSLRERLGKEARSYAGRHLRQELMVSKIESIYQSFF	PGPT0018547_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018547-yqgM-K16150	NA	NA
D1-12_02102	2043			hypothetical protein	TTGAAAACAAAACGACTGGACATCGTTCTTATCGGTATTTTATCAGCAGCGGCGGCTTTGAATATGTACGGCATTTGGCAGGATGATGCCGCCAACCAGTATTATTTGGCTGCCGTCAAAAGCATGACGCAAAGCTTTCACAACTTCTTCTACGCATCCTTTGACCCGTCCGGCTTTGTCACGGTAGACAAACCGCCTGTCGCTTTATGGATTCAAACGATTTTCGCTTTGGTCTTCGGCGTACATACATGGAGCGTGATTCTTCCTCAGGCTTTGGCGGGGCTCGGTTCCGTTCTGCTGCTGTATTTCATGATAAAGCCTTCGTTCGGCACGGGCGCGGCCAGAATCGCCGCTTTTGTCATGGCGCTGACGCCGATTGCGGCGGCCGTCAGCCGGACGAATAATCTCGACAGCATGCTCGTCTTTACACTGCTTCTCGGTTCCTGGTGTTTGATGCGCGCGGTGAAACGCGGCAAAATCATTTGGCTCTTATCCGCATTCGCACTTGTCGGTCTTGCCTTTAATATGAAAATGATGCAGGCCTACATCGTGCTTCCGGCTTTTCTGCTTTTTTATCTCATTGCATCACACACATCCATTAAGAAAAAACTGATCTCACTTCTCGCTTCTTCAGCCGTTCTCCTGGCGCTCTCCGTCTCATGGGCGGCAGCCGTTGATTCCATTTCCGCATCAAGCCGCCCCTATGTCGGCAGCAGCCAGACAAACTCCGTGCTGGAGCTGGCATTCGGATATAACGGGACAGAACGGCTGCTCGGGCAGACGACGGGCCTTTCTCACGGCAGCATGACCGGCGGAAAAAGCGTGATGCAGGAAGGGATGGGCATGCAGCCTCCGGGAACGAACAGCCCGGCAATGGGCGGCAGCGCTCCTCAGGGAAAAAACGGGCAGGTTCAAATGCCCCGGCAGCCATCCGGACAGAACGCGGCCTTACCGCAAGGAAGCGGAACTCCTCCGGCACAAAACGGCGGCTCACAAGGCCCCGGCGGCGGAAAAAGCATGAGTATGAACATGTACGGCAACGGAACCCCGGGTGCGCTCAGGCTTTTCCAATCTGAATTATCGGGGCAAATCAGCTGGATGCTGCCTTTTGCGCTCACCGGTTTGTTCGGCGCCGTCATCAGCTGGTACAGAAACCGCCGGGAAAAAGCGGAGGAAATGAAAGAAACGATGTTTTGGACAGTATGGCTTGTGCCTGCCGCCGGTTTCTTCAGCATCGCAAGCTTTTTCCATCCGTACTACTTAATCATGCTGGCGCCTCCGATCGCAGCCCTTTCCGGAATCGGCTGGCGGGCCTTATATGATTTATACAAGCATGATAAAGGCTGGACGGGCTGGCTGCTGCCTGCGGGTGTCTTTCTCACCGCCGGTTTTCAGGCCTTCATCGTAAGCGGGTATACAAACCAGATCGGCAGCGCTTGGATGTACATCCTCGGACTGTTGGGGCTCGGCACTGTCATTGCCCTCATTGTGATGAAATACAAGCCGTTCGGCAGACAACTGACCGTGATCACCATGTGTGTGTTGATGCTCACGCCGCTGTACTGGTCAGCCACGCCGATCCTTTACGGCGGAAACAGCGTCATACCCGAATCCGGCCCGCAGCTGAAAAGCTCAAACGGCGGCAATATGTTCACCTCTGAAGTGGATACAGGCCTGCTGTCTTATTTGAAAAAGCATCAGACAGGTGAGGAATATCTGTTTGCAACGCTCACCACGGTGACTGCGGCGCCTTATATCATCCATACGAATGAATCAGTCATGGCACTCGGAGGCTTTAACGGAACCGATCCGATTTTAACCGTCTCACAGCTGAAAAAACTTGTTGATGATGGAAAAGTGAAGTATTTCTTATTATCCGGAAACAGTTCAGGCAACACGAAGCTTGTCTCATGGATTAAAAAGAACGGCACAAAAATCTCAGCTGACCAATACAGCACCGGAAAAACAAGCTCAGCCCGGCAAGGAATGACAGGCGGCCCGGGCGGACAAAGTCAGCAGACTCTGTATGAGATGAAAAAATAG	MKTKRLDIVLIGILSAAAALNMYGIWQDDAANQYYLAAVKSMTQSFHNFFYASFDPSGFVTVDKPPVALWIQTIFALVFGVHTWSVILPQALAGLGSVLLLYFMIKPSFGTGAARIAAFVMALTPIAAAVSRTNNLDSMLVFTLLLGSWCLMRAVKRGKIIWLLSAFALVGLAFNMKMMQAYIVLPAFLLFYLIASHTSIKKKLISLLASSAVLLALSVSWAAAVDSISASSRPYVGSSQTNSVLELAFGYNGTERLLGQTTGLSHGSMTGGKSVMQEGMGMQPPGTNSPAMGGSAPQGKNGQVQMPRQPSGQNAALPQGSGTPPAQNGGSQGPGGGKSMSMNMYGNGTPGALRLFQSELSGQISWMLPFALTGLFGAVISWYRNRREKAEEMKETMFWTVWLVPAAGFFSIASFFHPYYLIMLAPPIAALSGIGWRALYDLYKHDKGWTGWLLPAGVFLTAGFQAFIVSGYTNQIGSAWMYILGLLGLGTVIALIVMKYKPFGRQLTVITMCVLMLTPLYWSATPILYGGNSVIPESGPQLKSSNGGNMFTSEVDTGLLSYLKKHQTGEEYLFATLTTVTAAPYIIHTNESVMALGGFNGTDPILTVSQLKKLVDDGKVKYFLLSGNSSGNTKLVSWIKKNGTKISADQYSTGKTSSARQGMTGGPGGQSQQTLYEMKK				NA	NA	NA	NA	NA
D1-12_02103	144	yycC		putative protein YycC	ATGAAACCGCTGCAAATTTCCGCCGAAACGGCGCAAAAACTCGCAGAATCACTGAATATGCCGCTTGAGAGAATCATGCACATGCCTCAGCACATTCTGCTTGCCAAATTAGCTGAAATCCAAAAAGAGAACGATCACAAATAA	MKPLQISAETAQKLAESLNMPLERIMHMPQHILLAKLAEIQKENDHK				NA	NA	NA	NA	NA
D1-12_02104	210			hypothetical protein	ATGCAATCGCCATTGATGTTATTACAGCTGAAGCTGGCTGATTATCAGAAAAAAGCCGCAGAACTGCGGACAATTGATGAATTTATCATACTGAAACAGACATTGCAGGACATGATGAAAGTATTCGCCGCCTGTGAAGAATGGGAGCTGTATCAAAAAACGGCCGATCTCATGGCGCAGACGGTGCTGCACATCCGTTTCATCGAATAA	MQSPLMLLQLKLADYQKKAAELRTIDEFIILKQTLQDMMKVFAACEEWELYQKTADLMAQTVLHIRFIE				NA	NA	NA	NA	NA
D1-12_02105	198			hypothetical protein	ATGAAAACATATGCAGTAACACCCAGTGTTGATGCGGACGGATGGTTTGTGAAGGTGGAAAATGTGGCGCCGACGGCTCTTTATACATCGAAGGACGCGGCGATCGAGAAAGCGGAGCAGACGGCTAAAGAGAACAGCCCGTCTAAGCTTGTCATTTATGATCAGCAAAAAAACATTGAAGAAGAACGGTCCTTTTAA	MKTYAVTPSVDADGWFVKVENVAPTALYTSKDAAIEKAEQTAKENSPSKLVIYDQQKNIEEERSF				NA	NA	NA	NA	NA
D1-12_02106	1374	dnaC_1	COG0305	Replicative DNA helicase	GTGCTTAGCATGACAGACCTTCTGAATGATCGGCTGCCGCCGCAAAACATAGAAGCTGAGCAGGCCGTGTTAGGTGCTGTTTTTTTACAGCCGTCTGCGTTAACACTGGCTTCTGAAGTGTTGATTCCGGATGATTTCTACAGAATGTCACATCAAAAAATTTACAATGCCATGCTCGTGCTCGGAGACCGCGGTGAACCGGTTGATTTGGTCACGGTAACGTCAGAGCTTGCGAATACCGATTTGTTAGAAGAGGTGGGAGGCGTCTCTTACCTGACGGACATCGCGAATTCCGTTCCGACAGCGGCTAATATAGAATATTATGCGAAAATCGTTGAGGAAAAATCCATTCTCCGCCGTTTAATCAGAACGGCGACCTCGATCGCTCAAGACGGGTATACGCGCGAGGATGAAGTTGAAGATTTATTAAGCGATGCGGAAAAAACGATTATGGAGGTCGCGCAGCGAAAAAATTCGGGCGCCTTCCAAAATATTAAAGACGTGCTTGTGCAAACATACGACAACATTGAGCAGCTTCACAACCGGAAAGGCGATATTACCGGGATTCCGACCGGTTTTATCGAGCTTGACCGGATGACAGCGGGGTTTCAGCGGAATGATTTGATTATTGTCGCGGCCCGTCCGTCTGTGGGGAAAACAGCGTTCGCCTTAAATATTGCGCAAAACGTGGCCACCAAAACGGATGAGAGCGTCGCGATATTCAGTCTTGAGATGGGTGCCGAGCAGCTTGTCATGCGTATGCTCTGCGCCGAAGGGAATATTAACGCCCAAAATCTCAGAACGGGAAATCTGACGGAAGAAGATTGGGGCAAGCTGACGATGGCGATGGGAAGCCTGTCAAACAGCGGTATCTTTATAGATGACACCCCCGGCATCCGCGTCAGCGAAATCCGTTCAAAATGCCGCCGGCTGAAGCAGGAAAACGGATTGGGCATGATTTTAATTGACTACTTGCAGCTCATTCAGGGAAGCGGCCGTTCAAGCGACAACCGCCAGCAAGAGGTATCGGAAATTTCACGGGCGCTAAAAGCGCTGGCACGGGAGCTTGAAGTCCCGGTCATCGCCCTGTCTCAGCTCTCCCGGGGTGTTGAGCAGCGGCAGGATAAACGTCCGATGATGTCAGATATCCGTGAGTCGGGAAGTATTGAGCAGGATGCCGACATCGTCGCCTTCCTGTATCGTGATGATTACTATGATAAAGAATCCGAAAACAAAAACATCATCGAAATCATTATCGCCAAACAGCGTAACGGCCCGGTGGGCACCGTCTCACTGGCTTTTGTGAAAGAATACAATAAGTTCGTAAACCTGGAACGGCGCTTTGATGACGGCGGTGTTCCGGCAGGTGCGTAA	MLSMTDLLNDRLPPQNIEAEQAVLGAVFLQPSALTLASEVLIPDDFYRMSHQKIYNAMLVLGDRGEPVDLVTVTSELANTDLLEEVGGVSYLTDIANSVPTAANIEYYAKIVEEKSILRRLIRTATSIAQDGYTREDEVEDLLSDAEKTIMEVAQRKNSGAFQNIKDVLVQTYDNIEQLHNRKGDITGIPTGFIELDRMTAGFQRNDLIIVAARPSVGKTAFALNIAQNVATKTDESVAIFSLEMGAEQLVMRMLCAEGNINAQNLRTGNLTEEDWGKLTMAMGSLSNSGIFIDDTPGIRVSEIRSKCRRLKQENGLGMILIDYLQLIQGSGRSSDNRQQEVSEISRALKALARELEVPVIALSQLSRGVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYDKESENKNIIEIIIAKQRNGPVGTVSLAFVKEYNKFVNLERRFDDGGVPAGA				NA	NA	NA	NA	NA
D1-12_02107	414	yycE		putative protein YycE	ATGACAATGGAATTTCCGCAATTTCAAGCGGCACAAATCCGGATTGCCCGGCCGACCGGACAGCTCAAAGAAATCATCAGGTTTTATGAAGAGGGCCTCGGACTGAAGAGGATCGGCAGCTTTTCCGGACATGAGGGCTACAGCGGTGTCATGTTCGGCCTGCCCCATACGCAATACCACTTAGAATTCACCGAAGAAACCGGTTCGTCTCAGCCGGCACCCGTTCCGCACGGCGACAGCCTGCTTGTCTTTTACATCCCTGATCAGCAGGAGGTCATTCGCATCAGCACGAAATTAAAGCAGATGGGATATGAGGAGAAAGCACCCGAAAATCCGTACTGGGGAGAAAAAGGCGTGACCATCGAAGATCCTGACGGCTGGCGGGTCGTCCTGATGAATACAAGCGGCATATAA	MTMEFPQFQAAQIRIARPTGQLKEIIRFYEEGLGLKRIGSFSGHEGYSGVMFGLPHTQYHLEFTEETGSSQPAPVPHGDSLLVFYIPDQQEVIRISTKLKQMGYEEKAPENPYWGEKGVTIEDPDGWRVVLMNTSGI				NA	NA	NA	NA	NA
D1-12_02108	1293	purA	COG0104	Adenylosuccinate synthetase	ATGTCTTCAGTAGTCGTAGTAGGTACGCAGTGGGGCGATGAAGGAAAAGGTAAAATTACAGATTTCCTATCAGAAAATGCAGAAGTGATCGCACGTTATCAAGGCGGAAACAATGCAGGACATACCATCAAGTTTGATGGAGTCACGTACAAGCTTCATTTAATCCCATCAGGAATTTTTTATAAAGATAAAGCGTGTGTCATCGGGAACGGAATGGTTGTTGATCCGAAAGCGCTCGTAACGGAGCTTGCGTATCTTCATGAGCGCAATGTGAGCACGGATAACTTGAGAATTAGCAACAGAGCCCACGTCATTCTTCCATACCATCTGAAACTGGATGAAGTAGAGGAAGAACGCAAAGGGGCCAACAAGATCGGCACAACGAAAAAAGGCATCGGACCTGCTTATATGGACAAAGCGGCGCGGATCGGCATCCGGATCGCAGACCTGCTAGATCGTGACGTGTTTGCAGAAAAGCTTGAACGGAACCTTGAAGAGAAAAACCGTCTGCTTGAAAAAATGTATGAAACGGAAGGCTTCAAAATTGAAGATATTCTGGATGAGTATTATGAATACGGCCAGCAGATTAAAAAGTATGTATGCGATACATCCGTCGTCTTAAATGACGCGCTGGATGAAGGCCGCCGCGTTTTATTTGAAGGCGCTCAAGGGGTTATGCTTGATATCGACCAAGGGACATACCCGTTTGTCACTTCATCCAACCCGGTCGCCGGAGGGGTGACGATCGGTTCAGGCGTAGGCCCGACAAAAATCCAGCACGTCGTCGGTGTATCTAAAGCGTACACAACCCGTGTCGGTGACGGTCCTTTCCCGACTGAGCTGAAAGATGAAATCGGAGATCAAATCCGTGAAGTCGGACGCGAATACGGCACAACGACAGGCCGTCCGCGCCGTGTCGGCTGGTTTGACAGCGTTGTTGTCCGCCATGCCCGCCGCGTCAGCGGAATCACAGATCTTTCTCTGAACTCAATCGATGTGCTGACTGGCATTGAAACATTGAAAATCTGTGTCGCTTACCGCTACAAAGGTGAAGTGATTGAAGAATTCCCGGCAAGTCTGAAAGCTCTCGCAGAGTGTGAACCGGTATATGAAGAAATGCCTGGCTGGACGGAAGATATCACAGGCGCAAAAACATTAAGCGATCTTCCTGAAAATGCGCGCCATTATCTGGAACGCGTGTCTCAGCTGACAGGTATTCCGCTTTCTATTTTCTCTGTCGGTCCCGACCGTTCACAAACGAACGTCATCCGCAGTGTATACCGCGCTAACTAA	MSSVVVVGTQWGDEGKGKITDFLSENAEVIARYQGGNNAGHTIKFDGVTYKLHLIPSGIFYKDKACVIGNGMVVDPKALVTELAYLHERNVSTDNLRISNRAHVILPYHLKLDEVEEERKGANKIGTTKKGIGPAYMDKAARIGIRIADLLDRDVFAEKLERNLEEKNRLLEKMYETEGFKIEDILDEYYEYGQQIKKYVCDTSVVLNDALDEGRRVLFEGAQGVMLDIDQGTYPFVTSSNPVAGGVTIGSGVGPTKIQHVVGVSKAYTTRVGDGPFPTELKDEIGDQIREVGREYGTTTGRPRRVGWFDSVVVRHARRVSGITDLSLNSIDVLTGIETLKICVAYRYKGEVIEEFPASLKALAECEPVYEEMPGWTEDITGAKTLSDLPENARHYLERVSQLTGIPLSIFSVGPDRSQTNVIRSVYRAN	PGPT0020140_2733	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
D1-12_02113	711	walR_3	COG0745	Transcriptional regulatory protein WalR	ATGATGGATAAGAAAATCCTTGTAGTCGATGATGAAAAACCGATTGCAGATATATTAGAGTTTAATTTAAGAAAAGAAGGCTATGACGTGCATTGTGCGTACGACGGAAACGAAGCCGTGGAAATGGTGGAGGAGCTTCAGCCTGATTTAATTCTTTTAGATATTATGCTTCCGAATAAAGACGGAGTTGAAGTGTGCCGGGAAGTCCGGAAAAAATATGATATGCCGATTATTATGCTGACGGCAAAAGACTCGGAGATTGACAAGGTCATCGGGCTTGAAATCGGAGCGGATGACTATGTCACGAAGCCTTTCAGCACGCGTGAGCTTCTGGCCCGCGTCAAAGCGAACCTGCGCCGCCAGCTTACGGTTGCGCCGGCTGAGGAAGAATCAGCTTCTAATGACATTCATATCGGTTCTCTCGTGATCTTCCCTGACGCTTATGTCGTATCAAAAAGAGAAGAAACGATCGAGCTGACTCATCGTGAGTTTGAATTGCTTCATTACTTAGCCAAACATATCGGACAGGTTATGACGCGTGAGCATCTGCTGCAGACTGTGTGGGGCTATGACTATTTCGGTGACGTGAGAACGGTGGATGTAACAGTACGCCGCCTTCGCGAGAAAATCGAGGATAATCCGAGCCATCCGAACTGGATCGTCACAAGACGGGGTGTCGGTTATTACTTGAGAAATCCTGAACAGGACTAA	MMDKKILVVDDEKPIADILEFNLRKEGYDVHCAYDGNEAVEMVEELQPDLILLDIMLPNKDGVEVCREVRKKYDMPIIMLTAKDSEIDKVIGLEIGADDYVTKPFSTRELLARVKANLRRQLTVAPAEEESASNDIHIGSLVIFPDAYVVSKREETIELTHREFELLHYLAKHIGQVMTREHLLQTVWGYDYFGDVRTVDVTVRRLREKIEDNPSHPNWIVTRRGVGYYLRNPEQD	PGPT0013765_299	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
D1-12_02114	1836	walK		Sensor histidine kinase WalK	ATGAATAAGGTTGGTTTTTTTCGGTCGATTCAGTTTAAGATCACGCTGATCTATGTGCTTCTCATTATCATCGCCATGCAGATTATCGGCGTGTACTTTGTGAAACAGGTGGAGAATTCTCTTCTCAAGTCCTATGAATTATCGTTAAATCAGCGGATTGACAATCTTTCCTATTATATTGAGCAGGAATATAAAGGAGACAATGACAGCACCGTCATTAAAGATGACGTCAAACGGATTTTAAATGATTTTACGAAAAATAATGAAATACGGGAGATTACATTTGTTGATAAAAGCTATGAGGTCGTCGGTTCTTCGAGGCCTTATGGCGAGGAAATAGCGGGGAAACAGACGACTGACCCGATTTTTAAACGGATTTTCTCAACAAAACAGGCCTATTCAAAAAAATATTATGATCCTAAAAGCAAAAACAGAGTGCTGATTTCAGCAAAACCTGTCGTCACAGAGAATCAGGAAGTTGTCGGCGCGATATATGTCGTGGCCAGTATGGAAGATACCTTTAACCAGATGAAAACCGTCAACTCGATTCTTGCTTCAGGAACAGGCTTAGCCCTTGTTCTGACGGCTCTTCTCGGTATATTTCTCGCCCGCACCATTACCCATCCACTGTCAGATATGCGTAAGCAGGCGATGGAACTGGCAAAAGGGAATTTCTCCAGAAAGGTGCGGAAATACGGGCATGATGAAATCGGTCAGCTCGCAACGACGTTCAACCATCTGACGAGAGAGCTTGAAGATGCCCAAGCCATGACGGAAGGGGAGAGAAGAAAGCTTTCTTCCGTTATCGCGTATATGACGGACGGCGTCATCGCAACGAATCGCAATGGAGCTATTATTCTTTTAAACAGCCCTGCGCTTGAGCTGCTGAATGTTTCACGTGAAACGGCTTTAGAGATGCCGATTACGTCTTTATTAGGCATAAAAGAGAACTTTACATTTGAGGATTTAGTAGAACAGCAGGATTCAATGCTGCTGGAGATCGAACGTGACGATGAAACGACTGTACTGCGGGTGAATTTTTCCGTTATTCAGAGAGAGCACGGAAAAATCGACGGTTTAATCGCGGTTCTTTATGATGTCACCGAACAGGAAAAACTCGATCGGGAACGCAGAGAGTTCGTTGCCAACGTGTCTCATGAGCTGAGGACACCGCTGACGACCATGCGAAGCTATTTAGAGGCGCTTGCGGAAGGCGCGTGGGAAAACAAAGATATCGCTCCGCGTTTCCTAATGGTGACCCAAAATGAGACTGAGCGCATGATCAGATTGGTGAACGACCTGCTTCAGCTTTCTAAATTCGACAGCAAAGATTATCAGTTTAATCGGGAGTGGATTCATATGATCCGCTTTATGTCACTGATTATCGATCGTTTTGAAATGACGAAAGAACAGCATGTCGAATTTATCCGCGAGCTTCCGGACAGAAATCTGTACGTGGAGATTGATCAGGATAAAGTGACGCAGGTTCTCGATAATATCATTTCTAACGCACTGAAATACTCACCGGAAGGCGGACATGTCACTTTCTCAGTCGATGTGAATGAGAAAGAAGAGCTGCTTTATATCAGCGTAAAAGATGAAGGTATCGGCATTCCGAAAAAAGATGTGGAAAAAGTCTTTGACCGTTTCTACAGAGTGGATAAAGCGCGCACGAGAAAACTCGGCGGCACCGGGCTCGGCCTTGCGATTGCAAAAGAGATGGTTCAGGCTCACGGCGGAGACATTTGGGCCGACAGTGTAGAAGGCAAAGGAACGAAGATTACATTTACTCTTCCATATAAAGAAGAGCAAGAGGATGATTGGGATGAGGCGTGA	MNKVGFFRSIQFKITLIYVLLIIIAMQIIGVYFVKQVENSLLKSYELSLNQRIDNLSYYIEQEYKGDNDSTVIKDDVKRILNDFTKNNEIREITFVDKSYEVVGSSRPYGEEIAGKQTTDPIFKRIFSTKQAYSKKYYDPKSKNRVLISAKPVVTENQEVVGAIYVVASMEDTFNQMKTVNSILASGTGLALVLTALLGIFLARTITHPLSDMRKQAMELAKGNFSRKVRKYGHDEIGQLATTFNHLTRELEDAQAMTEGERRKLSSVIAYMTDGVIATNRNGAIILLNSPALELLNVSRETALEMPITSLLGIKENFTFEDLVEQQDSMLLEIERDDETTVLRVNFSVIQREHGKIDGLIAVLYDVTEQEKLDRERREFVANVSHELRTPLTTMRSYLEALAEGAWENKDIAPRFLMVTQNETERMIRLVNDLLQLSKFDSKDYQFNREWIHMIRFMSLIIDRFEMTKEQHVEFIRELPDRNLYVEIDQDKVTQVLDNIISNALKYSPEGGHVTFSVDVNEKEELLYISVKDEGIGIPKKDVEKVFDRFYRVDKARTRKLGGTGLGLAIAKEMVQAHGGDIWADSVEGKGTKITFTLPYKEEQEDDWDEA	PGPT0013760_349	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013760-vicK|walK|yycG|micB-K07652	NA	NA
D1-12_02115	1359	yycH	COG4863	Two-component system WalR/WalK regulatory protein YycH	ATGAGGCGTGAAAATATAAAAACAGTCATACTGTCAGTGCTGGTCGTCATTAGTCTTGTTTTAACATGGGGAATTTGGACATTCCAGCCCAATTTTTCAGAAGGCACGGCCTCAACCAAATCGACTGTCCGGGAAAAGCATAAAATTGATAAAACGAGCCAAAAAGTGTCGCAAACGGTAAAACCCCGGGATATGTTTATTCATACAAACGGCTCTCATTACAAAGTGAATGATGAGACGCTCTTTAATGACCTGTGGGCGGATTTGCCGCAATGGGAAGTAAAAGGGATGAAGGATATTTCCGATCAATACGACAAGCTCGGTTTTAAAAATTGGCTTTACGGCAGAAACGGCAATTCGGCAAAGCTCGATCTGCAATTCAATGACACCATTCCGATTGATTTCTTCCAAACGATGTTTAAATGGTCGAATCCGTCAATGGAATACAGCTCATTTGACCATATTGTCATTCCGTTTAATGAGAATAAGACGAATAAGAAGATTTACATGGTCTCATACAGCAAGCAGCTGATTTTGGAAGTGACTGTGGAATCGGCGAATTACCGCAATCTGATGAATGAGCTGTACAGCAAAAAGTCGAGTATGCCGTTATACCACCTCTATTCGGTCGGAAAAAGCAAAGAATTTCTCATGCCGAATGCGCGGTTTAATATGAAGGAAAAAGAATTTATCACGGAAACCATTAAGACGAACCTGTTTAAGCAGACGCTTTTTAATGATCCGAGCACGGTCAGAGAAGACCCGAATTACAATCGGAATGTGCTGACTGACGGAATCAGCCGTCTGGAAATCAATTCGACACAGCGGCAGATTCAATTCCAGCATCGGAACCTGGCACAAAGCGCTTCTTATCAAACAGGGGAGCTGATTAAGAAAAGCTATAAATATTTAGAGGATACGGGAAGCTGGACGGATCATTATCAATTTTTCAATGTGAGTGATAACCAGCAGCTGAGTTTCTACATGTTTAAAGACCAAATGCCCGTGATCAACAGCACGTCTAAGCCTTTCGGATCCGGACCTGTTTTGACCCTGCAATGGGCCAATGATGAGGTTCTCAGCTACAAGCGGCCGAACTATGTTCTCGGACCGAATCCGATTAAAACAAAAGACGTAAAAATGATGAACGGCAATGAGGTTGTGTCTCTGCTGGAGCAGCAGGATAAATACGACGTGAATAAAATCGACCAGATCTTCCTGTCCTATCAAATGGTCTCTTCATCAACGAATGATCTCGTTGAGCTGGAACCCGTCTGGAGTATGAAAATCAACGGGAAGATCGTCCCGATTACGAAAGATCTGCTGGGGAAGGAGGAGGACGATAATGGAGTGGAATAA	MRRENIKTVILSVLVVISLVLTWGIWTFQPNFSEGTASTKSTVREKHKIDKTSQKVSQTVKPRDMFIHTNGSHYKVNDETLFNDLWADLPQWEVKGMKDISDQYDKLGFKNWLYGRNGNSAKLDLQFNDTIPIDFFQTMFKWSNPSMEYSSFDHIVIPFNENKTNKKIYMVSYSKQLILEVTVESANYRNLMNELYSKKSSMPLYHLYSVGKSKEFLMPNARFNMKEKEFITETIKTNLFKQTLFNDPSTVREDPNYNRNVLTDGISRLEINSTQRQIQFQHRNLAQSASYQTGELIKKSYKYLEDTGSWTDHYQFFNVSDNQQLSFYMFKDQMPVINSTSKPFGSGPVLTLQWANDEVLSYKRPNYVLGPNPIKTKDVKMMNGNEVVSLLEQQDKYDVNKIDQIFLSYQMVSSSTNDLVELEPVWSMKINGKIVPITKDLLGKEEDDNGVE	PGPT0014763_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
D1-12_02116	840	yycI	COG4853	Two-component system WalR/WalK regulatory protein YycI	ATGGAGTGGAATAAGACAAAAACGATCTTCATCATTGCCTTCCTCATCCTCGATATTTTTCTCGGCTATCAGTTTTTTGAAAAACGCTCGAGCAGTGAATACGAAGTGATTAAAAATTCAAACGTGGAAAAAGACATGGAGATGGATCATATCACATTCGGCAACCTGTCTTCTGATTCCGCGACGGGCTACCGGCTGACGGCGGGCCAAAAGGTATTTACCGCCGAAGATATTGATGCTTTGAAAGATCAAAAGCCTTTAATGGAGATGCCGGCGGATGATCACAAGGTTACGACGCTGAAAATGAAATTTACCGATCCGGTCGGTTTATCGAAGCAAAAAACGCAGGAGGATGCGGAATCGCTCGTCAGCTCTAAAGTAACCGGCGGTGAAAAATATAAACTGTGGAAAGTCGACAAGGATAAAAAACAAATCATTTTTTACCAGATGTATGACGGCCAGTTTATTTATCAGGATTTTGACTCGTCCACGGATGCGATCGGACAGGTGATTCTGCATCTGAACGATAAAAACGAGGTCGTATCTTACGAGCAGACCATGCTGGAGTCATTCAAGCGAATCCAGACGGAGAGCCTGATTCCTGAGCTGGATGCGGTCGAATTATTGTATTCTCAAAATTACTTAAAAGCGAATTGCGCCGTTAAAAGCGTTAAGTTCGGCTATATTGCCCAATATCCGCTGACAAGTACGCAGGTGCTGGCGCCGGTATGGAGAATTACAATTGAAGATAAGTCAAAAGGGACGAAGAAAAAGACACTGCAAACGTACACTGTGAACGCATTGGAAAGCACAGTCATTGATAACAATCAAAATAAATAA	MEWNKTKTIFIIAFLILDIFLGYQFFEKRSSSEYEVIKNSNVEKDMEMDHITFGNLSSDSATGYRLTAGQKVFTAEDIDALKDQKPLMEMPADDHKVTTLKMKFTDPVGLSKQKTQEDAESLVSSKVTGGEKYKLWKVDKDKKQIIFYQMYDGQFIYQDFDSSTDAIGQVILHLNDKNEVVSYEQTMLESFKRIQTESLIPELDAVELLYSQNYLKANCAVKSVKFGYIAQYPLTSTQVLAPVWRITIEDKSKGTKKKTLQTYTVNALESTVIDNNQNK	PGPT0014763_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
D1-12_02117	795	yycJ_1	COG1235	Putative metallo-hydrolase YycJ	ATGGGCTTGCAATTTAGCGTGCTTGCGAGCGGGAGTACCGGAAACGCGTTTTATCTGGAGACAGAGGAGCACTCTTTTCTGGTGGATGCCGGCCTGAGCGGTAAAGCGATGGACGGGCTGATGGAGAGAATCGGCCGCAAGATAGACGACGTCGACGGCATCTTTGTCACTCACGAGCACAGCGACCATATTAAAGGGCTCGGCGTCATTGCGAGAAAGTACGGTCTTCCCGTCTACGCGAATGAAAAGACGTGGAAAGCGATGGAGAATCAGATCGGCAAGCTGGATACCGGACAAAAGTTTTTGTTCCCGATGGAAAGCGTGAAATCCTTCGGCGGGCTTGATGTTGAGTCATTCGGCGTCTCTCATGACGCGGCTGAGCCGATGTTTTATGTTTTCCACTACCAAGGCAGAAAGCTCGCGCTGATGACGGACACCGGGTATGTGAGCGACAGAATGAAAGGCATTATCCGTTCGGCCAATGTGTTTGTGTTTGAAAGCAACCATGATGTCGGCATGCTGCAAATGGGCAGATACCCTTGGAGCATTAAGCGGCGGATTTTAAGCGATGTCGGCCACGTCTCGAATGAAGACGCGGCCCTCGCCATGACTGATGTCATCGGCGACGGCACATCGCGCATCTATTTGGCGCATCTGAGCCAGGACAATAATATGAAGGAACTGGCGAGAATGTCCGTGCAGCAGACATTGGCTGCGAAAGGATTTGTCGCCGGGGAAACGTTTCAGTTATTTGATACCGATCCGAAAATCCCGACGCCGCTGTGCGCCGTGTAA	MGLQFSVLASGSTGNAFYLETEEHSFLVDAGLSGKAMDGLMERIGRKIDDVDGIFVTHEHSDHIKGLGVIARKYGLPVYANEKTWKAMENQIGKLDTGQKFLFPMESVKSFGGLDVESFGVSHDAAEPMFYVFHYQGRKLALMTDTGYVSDRMKGIIRSANVFVFESNHDVGMLQMGRYPWSIKRRILSDVGHVSNEDAALAMTDVIGDGTSRIYLAHLSQDNNMKELARMSVQQTLAAKGFVAGETFQLFDTDPKIPTPLCAV				NA	NA	NA	NA	NA
D1-12_02118	1197	htrA_2	COG0265	Serine protease Do-like HtrA	GTGGATTATAATCGCGATGATGAACAGTACGCCTCCGAACAGCCCCGCCGCAGCAAGAGAGGGTACTTTCTATCAAGTCTGATCGGCGTCATCGTCGGGGCCGCGCTCATGGCTTTCCTGCTGCCGTACTGGACAGGCGGAGACCATGGAGAAAGCAGCAAAAGCACCAGCCAGCGTCTCGGCAGCGAACAGGTGAAAACAGTCAACGTAAATGTCAACGATGCTGTCACGAATATGGTCAGCCGTGTATCAGATTCGGTAGTCGGTGTTCTCAATATCCAAAAGACCGATATTTGGGGAGAGGGCGGCGAAGCGGGAAGCGGGTCGGGCGTCATTTACAAAAAGAACGGAAACACTTCTTATATCGTAACCAATCACCATGTTATTGAAGGTGCGACTGAGATTGAGATCAGCCTGAAGGATGGCTCACGCGTGCCTGCTGAGCTGATCGGGAGCGACCGTCTGATGGATCTCGCCGTGCTGAAGGTGAAGTCTGATAAAATCAAATCGGCCGCCCAGTTCGGCAATTCTGATCAGGTCAAAGTCGGAGAACCGGTCATTGCGATCGGAAATCCGCTCGGGCTTGAATTTGCGGGATCAGTGACACAGGGGATCATTTCAGGCACGGAAAGGGCAGTGCCCGTTGACTCAAACGGCGACGGCCAGCCGGATTGGAATGCGGAAGTGCTGCAGACCGACGCCGCGATTAACCCCGGCAACAGCGGCGGCGCTTTGATGGATATATCGGGCAAGGTGGTCGGCATCAACTCAATGAAGATCGCTGAATCTGCCGTTGAAGGCATCGGCCTGTCCATCCCGTCAAAGCTTGTCATTCCCGTTATTCAGGATTTAGAAAAATACGGAGAAGTCAGACGGCCTTTCCTCGGTATTGAGATGAAATCCTTAACGGATATTGCGAGCTACCATTGGAGCCAGACGCTGAAACTTCCGAAAGGCGTTAAAACCGGGGCGGTCATTATGGGTGTCGACGCGTTTTCACCGGCCGGAAAAGCGGGTTTGAAAAAGCTCGACGTGATCACCGGGTTCGACGGACATAAGGTCAATGACGTTGTGGATCTCCGTGAGCGTCTGTATCGCAAAAAGATCGGCGACCGTGTGAACATCACGTTCTACCGTTCGGGAAAGAAAAAAACAGCGGAAGTCAAACTGACAGAAGCGGATCGATTACAGAAATAA	MDYNRDDEQYASEQPRRSKRGYFLSSLIGVIVGAALMAFLLPYWTGGDHGESSKSTSQRLGSEQVKTVNVNVNDAVTNMVSRVSDSVVGVLNIQKTDIWGEGGEAGSGSGVIYKKNGNTSYIVTNHHVIEGATEIEISLKDGSRVPAELIGSDRLMDLAVLKVKSDKIKSAAQFGNSDQVKVGEPVIAIGNPLGLEFAGSVTQGIISGTERAVPVDSNGDGQPDWNAEVLQTDAAINPGNSGGALMDISGKVVGINSMKIAESAVEGIGLSIPSKLVIPVIQDLEKYGEVRRPFLGIEMKSLTDIASYHWSQTLKLPKGVKTGAVIMGVDAFSPAGKAGLKKLDVITGFDGHKVNDVVDLRERLYRKKIGDRVNITFYRSGKKKTAEVKLTEADRLQK	PGPT0015105_5449	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
D1-12_02119	915			hypothetical protein	ATGATGGGAATTACAAAAGTTTTATCAGGAGCTGCACTGGGGACCATACTTTCAATCAGTTCTTTAACTTCAGCGCATGCGGCTGTCATTCATAAGGATGACGCAGCGCAGACGAAAGTGGAAACGAAACAGCAGGCTTCCGTTTCTATCTCTAAAGCGAAAGAGACCGCATTGAAAAACTGCAGCTGCAAAGGCGCCGTTCAATCAGCGCAAATGAAAAAAGTCAACGGCGCTTACGTATATGTTGTCAACGTCCTTGACGTAAAAGGAAAGCAGCACACCGTCAATGTCAACAGCTCCAGCGGAAAAGTCGTGAAACACCAAATTGAAAAGAAACAGCAATTCATCTCAAAATCCGGCGCTGAAAAAATCGCCGTGAAGAATTGCAAAGGAACAGTGAAGTCTTCTGAGCTGAAGACCGAACATAACGCTATGGTTTACGTGGTTCAGGTGTCAGGACAAGACGGGAAGCTTCACACATTCCATATCAATTGTAAAAACAGCAAAATCGTCAAACATGATATAAAGAATAACCAGCAACACATGACCCGTGCAAAAGCGGAATCGTTCGCACTCAGCCATTGCAAAGGCGCTGTGAAATCCGCTCAAATGAAAAAAGAAAACGGCGTATCAGTCTATGTTGTCAGCATATTCGGCCAGGACGGCAAGCTTCATACGCTCCACATGGACGGCAAAAGCGGAAAAGTCCTGAAAGAAGAAGTGCAGAAAAAACAAGTGATGATCGCTTCTAAAAAAGCGCATTCCATCGCGCTCAGCCATTGCAAAGGCGCTGTGAAATCGTCTGAAATGAAGAAAGAAAACGGCGTCTACAAGTACATCGTGAAAATCACTGCCCAAAACCATACGGAACAAACGGTGAAAGTAAACGCTCAAAACGGAGCCATCTGTAAATAA	MMGITKVLSGAALGTILSISSLTSAHAAVIHKDDAAQTKVETKQQASVSISKAKETALKNCSCKGAVQSAQMKKVNGAYVYVVNVLDVKGKQHTVNVNSSSGKVVKHQIEKKQQFISKSGAEKIAVKNCKGTVKSSELKTEHNAMVYVVQVSGQDGKLHTFHINCKNSKIVKHDIKNNQQHMTRAKAESFALSHCKGAVKSAQMKKENGVSVYVVSIFGQDGKLHTLHMDGKSGKVLKEEVQKKQVMIASKKAHSIALSHCKGAVKSSEMKKENGVYKYIVKITAQNHTEQTVKVNAQNGAICK				NA	NA	NA	NA	NA
D1-12_02120	684	tcrX	COG0745	putative transcriptional regulatory protein TcrX	ATGGATAAGTTGAAAGGCATCAAGGTGCTGATTGTAGACGACGAGCCCGCCATCATTGATTTTTTAACGATGGGGCTTGTCAATGAAGGGTTTGAAGTGATGTCCGCGGCAGACGGGATGTCGGCGATGAATCTTGTGAAAACATTTCAGCCTCATATTGCCGTTTTGGACGTGATGATGCCGGGAATGGATGGGCTTGAGCTGTCAAGGATGCTTAAGAAAACAAGCAATACCGCCATCATCATGCTGACCGCGAAGGATGAAGTAGAGTTTCGCGTAAAGGCGCTGATTGAAGGCGCTGATGATTACATGATCAAACCGTTCAGCTTTGAGGAGCTGCTTGCCAGAATTTACGCAAGAATCCGCAACCAGTTTCCGCATCTTTTCGATGAGGTGGTGCTCGGCCCCTTCCGAATCGATGACCGGAGCAGAGAGATTTTTTACAATGAACAGCCTTTGAAGCTGTCCGCCACCGAATATGAACTGCTGAAATGTTTAGTGCTCCGCCACGGAACGGTTCTCAGCAAAACGAGGATTCTCGATCAGGTATGGGGCTATGATTTTTACGGGGAAGACAATATCGTCGAGGTGTACATCCGTTCTTTGCGCGAAAAGCTGAAGGACAAAGAACACAAGGTGATTCGCACGGTTCGGGGCGCCGGGTACAGGGTGGATCTGGCATGA	MDKLKGIKVLIVDDEPAIIDFLTMGLVNEGFEVMSAADGMSAMNLVKTFQPHIAVLDVMMPGMDGLELSRMLKKTSNTAIIMLTAKDEVEFRVKALIEGADDYMIKPFSFEELLARIYARIRNQFPHLFDEVVLGPFRIDDRSREIFYNEQPLKLSATEYELLKCLVLRHGTVLSKTRILDQVWGYDFYGEDNIVEVYIRSLREKLKDKEHKVIRTVRGAGYRVDLA	PGPT0002665_1555	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
D1-12_02121	1419	rcsC_1		Sensor histidine kinase RcsC	ATGAAACGGCTGTACAGAACCCTGCGATTCCAGCTCCTGTTCAGGTCACTGGCGATTTTGGCCTTGCTGTTATGTTTCATCGGCGGCACTCAGTACATGTTTATGACACGGACGATGTATGAAAATCAGGCGATCAGCATTCAGAGTTATATCAATTCAATGGATCAAAGCGTATGGAGGTCAATCAAAACCCTTGCCCGTTCCGAAACATCGGCTCATCCGAATTTGATTTACCCAGGGGTGACGGTTGCTTTTATCAATCAATCATACAAGATGTCTGTTTTATCAGAAGACCCGCACGCGGGGGCCGCTCCTTCTTTCCCGAAAAAAGTGTATCAGGATGCGCTGACAGATACAATGGCGCTTCACTATCAGGTGGCTCACAATAAGGCGGGTGAGGAAATCATCGTCGTGTTTCAGGCGATTTCCGTTGACGGCAGGCAGGCGGGAGTTGTGCAGATGAGCACGCTGACCCAGCCTCTGAATGATTCGCTTTTCCGCCAGATCAGCATTTTCGCGGTGCTTTCCTTTGCGGCTTTGGTCATCGGACTGTTTGTTTTCTTGCCGGTGATCCGGCTCACACTCAAGCCGCTGTCCCGCATTGTGCGTATGATGGGTGACATTAATGCCGGCAGTCTCGATAAACGGCTGCCGATCGATAGGAAGCAGGCCGAAATTGAGTCATTGGGCATCTCCATCAATCAGATGCTGGAACGGATTGAAACCTCTTTTCAGGCGGAAAAAGAAGCGAAAGAACGAATCCGGCAGTTTGTATCAGATGCATCACATGAGCTGAGAACGCCGCTTACCTCCATTCACGGCTTTATCGAAATTTTAATGCGCGGAGCGGCGGAGAAGCCGGAGCAGAAAGAAAAAGCGCTTCAAAGCATGTACGCGGAATCCGCCAGGGCAAATAAGCTGATAGAGGATCTTCTGTTTCTCGCGAAGATTGACCGGGTGCCGAGCTTTGAAATGAAAAAAGGCGCATTGGGAGACGTCATTTTGGAAATGGAGGCTCAGCTGAAGCTGCTCGCGAGAAACCGGAAGCTCGAGTTCTTTGTCGATCAAAAGATAGAATCCGTTTTTGACAAAGACAAAATGAAGCAGGTCATTCTCAATCTATTTTACAATGCGGTGCAGCATACGGATGAAGACACGGGTGTCATCACCGTCTCCCTGCAGAAAGACGGAGGAATCATGCTTATGATTGCGGATAACGGAACGGGAATCGCTCCGGAGCATGTGCCTCATTTGTTTGACCGGTTTTACAGGGCGGAAACCTCCCGATCCCGTCAATCCGGCGGCGCGGGGCTGGGTCTTGCCATTACAAAAACCATTATCGACAGCCATAACGGAACAATTGAAGTGAAAAGTGAGCAGGGAAAAGGCTCCGTGTTCATCATCCGGCTGCCGGGATAA	MKRLYRTLRFQLLFRSLAILALLLCFIGGTQYMFMTRTMYENQAISIQSYINSMDQSVWRSIKTLARSETSAHPNLIYPGVTVAFINQSYKMSVLSEDPHAGAAPSFPKKVYQDALTDTMALHYQVAHNKAGEEIIVVFQAISVDGRQAGVVQMSTLTQPLNDSLFRQISIFAVLSFAALVIGLFVFLPVIRLTLKPLSRIVRMMGDINAGSLDKRLPIDRKQAEIESLGISINQMLERIETSFQAEKEAKERIRQFVSDASHELRTPLTSIHGFIEILMRGAAEKPEQKEKALQSMYAESARANKLIEDLLFLAKIDRVPSFEMKKGALGDVILEMEAQLKLLARNRKLEFFVDQKIESVFDKDKMKQVILNLFYNAVQHTDEDTGVITVSLQKDGGIMLMIADNGTGIAPEHVPHLFDRFYRAETSRSRQSGGAGLGLAITKTIIDSHNGTIEVKSEQGKGSVFIIRLPG	PGPT0004100_2110	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
D1-12_02122	1005			hypothetical protein	ATGTCAACTGACTGTAAGCGCTGGAAGTTTAAAGACAGCGTGCAGGTGCTGACCTACACGGCGCATATTATCATTCAATATCGAAAGGCGATTAAGCTTGCGCATACGAGTGAGATCAAAGAGGCGGTTGAACGGCTGATCACCGGCTGTGAAAAACAAGAGCTTTCTGATCTTCTGGGAGAGGAAGCGGGAAACCAGTTTTTCGATGCGTTAATGAAATTGGATGCTTTAATAGAGCCATGGCAAAACGGCCGTGAAGGCCGCATCACTGAAAAGCAGCTGTACCATTTTGAGAAATACAACCAAAACCCCAATCTGATCCAAAACAGATTAGACGGCAGCAGGGCAGCGATCGTGGGTCTGGGGGGCGTCGGAACGATCATTCTTCAAAACCTTCTGGCGGCGGGCATGCAGCATTTTATTCTCATTGATTTCGATGCCGTATCAGTACATAACCTGAACAGACAATTCGTCTATAATAAATCTTCTGTAGGCAAATTAAAGATCTCAGAATGCAGAGATTATATTGCGGGTATCAATCCCCATGCGGACGCAGCACTTTACCATCAGGAAATTACACAGCCGCAGGACCTGCGTGTGTTAGATCCGTATGAAATTGATATCGTCATAAATGCCGCTGACAAACCCCATAACATTTCTGAATGGGTTTACCGGTATTGTAAGGAGCGGAATATCGCGTTTATGACCGGGGGTGTCGGCAGCTTCAGCGGCCAATGGGGGCCTCTGCTCACGCCTGAATCCTATCAATCCGGCGTCACTTATGAAAAAAACATGCCGGCCGGACTTCTGAACTGTTACCCCGATGAACCGATCAAAGGTTCCTTAGGAGCGACAAACGGTATTATATCCTCGTTTATGTCTCATGACATTATCACATACCTTGCAGGCGGAAGCCCGAAATCCCTGAATACCCGCATCGGCCTGGACTTTGACGGCCTTCATATTACAGAAACGAAGCTTTCTCAAAAGGAAAGCGCTTTATGA	MSTDCKRWKFKDSVQVLTYTAHIIIQYRKAIKLAHTSEIKEAVERLITGCEKQELSDLLGEEAGNQFFDALMKLDALIEPWQNGREGRITEKQLYHFEKYNQNPNLIQNRLDGSRAAIVGLGGVGTIILQNLLAAGMQHFILIDFDAVSVHNLNRQFVYNKSSVGKLKISECRDYIAGINPHADAALYHQEITQPQDLRVLDPYEIDIVINAADKPHNISEWVYRYCKERNIAFMTGGVGSFSGQWGPLLTPESYQSGVTYEKNMPAGLLNCYPDEPIKGSLGATNGIISSFMSHDIITYLAGGSPKSLNTRIGLDFDGLHITETKLSQKESAL				NA	NA	NA	NA	NA
D1-12_02123	1323			hypothetical protein	ATGAAGACGATGCATCGTACGGCGAGAAAACCGGGCGACCCTCTGAAAATAGAAATCGACACAAGCCCGATACGCTTGAACCCATTAGATACGCAGGATTACACAAGCAAGATGATTTGCAGCATTATGTATGAAAGCCTGCAGGACGGCTATAACTGCCGGATCATCCGCAAAGATCCCCGCACCTGTCAGGTGGACATTCACCCGGACTATTTAGGTGACGCCGAGGGTGTGGTTCAAACGATCATCTATCATCTGACAAAAGAAAACCAAAGTCCCCATCTCGGCAGTTTCCTGAACATAAAACAGGCCGTTCCGTATGTAAAAGGCCTCGTCTCATCCGATCAGCTCGGGGTGAACGTAACGGGCGAAAAACGCTTTGAAGTCACCTTGGACGAGCCGTCTGATGAAATAGAATCCGTTTTGCAGAGCAGCTTTCTGATTCCGGCGACCGCCGGGGGCGATGTGCCGGAAAACGGCCCGTACCGATTCAAGCGAACGTTTGAGAAGGGGCTGGAATTTGAGCGAAATCCGCAATATAAAATGACGCCCGCGGATGACCGCACCGTTCAGATCATCCAATTTATTTTGAATGATGATCTGGAAAAAAGCATCGGGCTGTACGAAGCGAATCAAACGGACGTGACCTGCCACACCCAGTTTCATCATTCAAACATGAGGTATCGGCAGTATGCTGATTTTAAAGAAAATCATTTGCCGATGTTATTTACCTTCAAGGTAAAGGACGACATGCTGAGAACTTTCATTCAGCATTATTTTGATAAACAAAAGCTGGCCGGGGATTTGGGGCATATCATCACACCGACTGATTCACTAATCGGTATATGGGAAAACGGGAGGACACCGCAGAAAGATCCGCCCCTTTTGACAAAAGAAGAACCGATCCGAATCGTTTATGCCGATTATTATCCCAACGGAGAGATCATTGAAAGGCTGGCTGATCTGTTTCGGCGGGCCGGAGCGGACGTATCCGTCTCCCGCGTCAGTCATTTCAATGATTATTACCATATGGATAAAAGCGGGTTTGATATTGAGCTCCATTTGTTCCTGCCGGCTTACATGCATGAGCTGAGCTATATCAAATATTTCATCCGCGACATCAGCGATCCGGAGAAGAAAAAAACGATCATTGATGCCATAGGATCTGAAAAAAAGAAGGAACTTTTTGGGTTATTCGAGAATACAACTCATTATTGCCCAATTTGTTTTGGGAAAAGTCTGTATCTGCAAGATCCATGTATAGAGGGTTTTAGTGTAAAGACTGACGGGCTCCTTTCTGTTCATGATGTTAAATGCAGATAG	MKTMHRTARKPGDPLKIEIDTSPIRLNPLDTQDYTSKMICSIMYESLQDGYNCRIIRKDPRTCQVDIHPDYLGDAEGVVQTIIYHLTKENQSPHLGSFLNIKQAVPYVKGLVSSDQLGVNVTGEKRFEVTLDEPSDEIESVLQSSFLIPATAGGDVPENGPYRFKRTFEKGLEFERNPQYKMTPADDRTVQIIQFILNDDLEKSIGLYEANQTDVTCHTQFHHSNMRYRQYADFKENHLPMLFTFKVKDDMLRTFIQHYFDKQKLAGDLGHIITPTDSLIGIWENGRTPQKDPPLLTKEEPIRIVYADYYPNGEIIERLADLFRRAGADVSVSRVSHFNDYYHMDKSGFDIELHLFLPAYMHELSYIKYFIRDISDPEKKKTIIDAIGSEKKKELFGLFENTTHYCPICFGKSLYLQDPCIEGFSVKTDGLLSVHDVKCR				NA	NA	NA	NA	NA
D1-12_02124	1191			hypothetical protein	TTGCGGAATCGAAATTTGCTTTACTTCTCCGGTTTTTTCGGAAACTTCTTTTTTGAACGGGGAATTTGGATTTTATATTTAACAAGCATGAATTATTCATTGTTTCTTGTGGGCATCCTGCAATCGGTCCTGAATTTGGCGATGTTTCTGGCGGAAGTGCCGAGCGGCGTCATCTCGGACAGAATCGGGAGAAAAAAATCGCTCTTGCTCGGCCATTTTATGGTCATTATCTATTTGGTGATGTTCCTGAGCTTCCATAACTTCATCGCCCTCTTCATCGCCCATATTATATACGGTATCGGGCTGACGTTTATATCAGGAACGGATCACGCCTTTTTGTTTGATTCACTGAAAGAACAAGGGAAAGAAAAGTGGTACGGCAAATCCATCGGAAACTATAACGGACTTGTCATACTCGGTCTTGCGATTGCCATGGGCATCGGCGGCTACTTGCAGGAAATATCATGGTCGTATGTGTTTATCGCCGGGATTGTCACTCAGCTGATTGCAATGGCGGTCATTACACAGCTGACGGAAATCAAATTTGAAAACAGTGAACACGAAACGCAGACGGTCAGTGACATCTTAAAAGAAGTCAAAGATTTCTTCAGGCTGAACAAAGCCTTTAAATATCTGGTGCTGTCACTCTCCGTTTTCTTTGCGATTACATCGGTTTTTTATATGTACGGACAAGATTTGTTAAGTCAGGAAGGGCTGTCCGTGCGCAATATATCCATTATTTTTGCGGGACTGTCCATCTTGCAGGCGCTGTGCTCCATCTTTTCTTCCAAGCCGGCGGAAAAATTCACGCCGAGGCGCGTGCTTCTGCTGACATTCTGCATCATCGGGGCGGCCTATCTGTTTATACCTTCGGGCAGTCTGTACGTGACGATTGCGGCTTTTGTCGTCATTAACGCGCTCTATGATGTGATAGAACCCGTATCCAGTCAGGTGGTGAATAATGAGATTCCGTCCAGAACGAGAGCCACGCTGCTGTCCATTATCAGTTTGATGACCTCGCTCTTCATGTTCATTGCCTTTCCGTTTATCGGATTCTTAACGGACTATTTTGATTCAGCTTTGCTGCTGACCGCAATCGGGGTATTATCCATCTTATTGTCGCTGTTTATGATGCTCAGCTTTTACAAACTGAAAGCGAGCGTCGCCATCCAGAATAAAGTCGAGCTTTGA	MRNRNLLYFSGFFGNFFFERGIWILYLTSMNYSLFLVGILQSVLNLAMFLAEVPSGVISDRIGRKKSLLLGHFMVIIYLVMFLSFHNFIALFIAHIIYGIGLTFISGTDHAFLFDSLKEQGKEKWYGKSIGNYNGLVILGLAIAMGIGGYLQEISWSYVFIAGIVTQLIAMAVITQLTEIKFENSEHETQTVSDILKEVKDFFRLNKAFKYLVLSLSVFFAITSVFYMYGQDLLSQEGLSVRNISIIFAGLSILQALCSIFSSKPAEKFTPRRVLLLTFCIIGAAYLFIPSGSLYVTIAAFVVINALYDVIEPVSSQVVNNEIPSRTRATLLSIISLMTSLFMFIAFPFIGFLTDYFDSALLLTAIGVLSILLSLFMMLSFYKLKASVAIQNKVEL				NA	NA	NA	NA	NA
D1-12_02125	1626	ettA	COG0488	Energy-dependent translational throttle protein EttA	TTGCTGAATATTCATAATCTTACGGTAAATCTAGCGGGAGATACCATTTTCAAACAAGTTTCTTTTTTCATCAATGAAGGCGAAAAAGTGCTCGTGGCCGGGCCGAACGGTTCCGGCAAAAGTACGCTGTTCAGGGTGCTTTCCGGAGAGCTTGAGGCAGATGAAGGAACGATTGCGATCAACAAAGGGGCGAAGGTCGGTTTGCTGAAGCAGATCGCTGATCCCCATGAGGATCTGACGTTGTATCAATATCTGGAAAAATCGTTTGAAGCTCTCGCGGCGATCCAGAAGGAAATGAAGGCCATTGAGCTGAAGCTTTCGGAACCGATGAGTGATGACGAGCTGACTGCTTTATTGGAAAAGTACAGTCAATACACGGAAACATTTGAGCGGAACAACGGCTACCAGATGCACGCGATGATTGATGAAGTATGCAATGGGCTCAGCCTCAGCGAATTAAAGGATCAGCCGTTTTCAAAGCTGAGCGGCGGCGAAAAGACAAAAGCCGGCCTTGCCGAAATTTTAATCCGCAACGACGACGTTATACTGCTGGACGAGCCGACCAACCATTTGGACGTCCATGCGATTGAGTGGCTTGAAGGGTTTATTAAAAAATCGAACAAAACCATTCTGTTTACGACCCACGATAAAACATTTGCCGACCAAACGGCGATGAAGGTGCTCGAGATTGACGATACCGAGGTGAAGATTTGGCCTTACGGATTCAGCGAATACTTGAAAAAGCGGGAAGAATTCATCATCGCCCAGTTTGAGAAATATGAAGAACAGCAGAGAAAAATACAGAAGATGAAGGAATCCATCGCCCAGCTGAGAGATTGGGCCAACCGCTCAAATCCGCCGTCTGTCGGCCTGCACAGACGCGCGAATAATATGGAAAAGGCGCTGAAAAGGATCGAGCTGATCAATAAGCCGGTCCGGACGGAGCAAAAATTAAAAAACGCATTTCAGGAAGCGGGCGCCGGTTCAAAAGATATTGTGTTCATTGAAAACGGAAAGGTGACCAACGGATCTTCCCTTTTATATCAAAATGTGAACCTGCGCATAAAGCATAAAGACAGAATCGGCATCGTCGGCAGAAACGGCGTCGGCAAAACAACGCTGATCCGCTGCATCATCGGGGAAAGAGAACTGTCGGACGGCACCATTAAAGTGGGGGAAAATCTTAAGATAGGCTACATTGATCAAAAGAGCCACGTCGGAGATTCGAGTCAGACGATTCTGCAATTCTTTAAAGAAAATCTGCTGACTGAAGAGGGCATGGCCCGGAATATGCTGGCCAAGTACGGATTTTACGGGTCGTCGGTCTTTAAAAAACTTTCCGTCCTGTCGGGCGGTGAAAGAATCAGGCTGAAGCTGTCCATCTTAATGGAAAAAAAGCTGAATGTCCTGATCCTGGATGAGCCGACCAACCACTTGGATATTGAATCTCAGGAAATTCTCGAAAACAGCCTGATGCAGTTTCAAGGCACCATCATCTGCGTTTCTCACGACAGAAACCTGCTGGAGAAGTTCAACAAGATTTTCTGGCTTGAGAATCAAAACGTCACCATCTTTTCAGGTCCATACAGTTACGCCAAACAAAAAAAACGGCAGATTGCCGAATAA	MLNIHNLTVNLAGDTIFKQVSFFINEGEKVLVAGPNGSGKSTLFRVLSGELEADEGTIAINKGAKVGLLKQIADPHEDLTLYQYLEKSFEALAAIQKEMKAIELKLSEPMSDDELTALLEKYSQYTETFERNNGYQMHAMIDEVCNGLSLSELKDQPFSKLSGGEKTKAGLAEILIRNDDVILLDEPTNHLDVHAIEWLEGFIKKSNKTILFTTHDKTFADQTAMKVLEIDDTEVKIWPYGFSEYLKKREEFIIAQFEKYEEQQRKIQKMKESIAQLRDWANRSNPPSVGLHRRANNMEKALKRIELINKPVRTEQKLKNAFQEAGAGSKDIVFIENGKVTNGSSLLYQNVNLRIKHKDRIGIVGRNGVGKTTLIRCIIGERELSDGTIKVGENLKIGYIDQKSHVGDSSQTILQFFKENLLTEEGMARNMLAKYGFYGSSVFKKLSVLSGGERIRLKLSILMEKKLNVLILDEPTNHLDIESQEILENSLMQFQGTIICVSHDRNLLEKFNKIFWLENQNVTIFSGPYSYAKQKKRQIAE				NA	NA	NA	NA	NA
D1-12_02126	720			hypothetical protein	ATGACCATTGACAGACTGACAATCAATGAGTTATCGTACGATCTTTTTGTAAGCGAGTATGCTGATAAGAAACCTTTTATTTTGACGGGGGCAATGGATCACTGGGAATGCAGGCCGTGGACGCTTGAATACATTGATGAACACTATGGAGACAGAATGGTCACCATCCGGAAATCAGATATCGAAGGGGTCAAAACGTTTAAACAAGTAAAGCTTTCCAACTATATCGAGTACATTGATCAGAATGATGACAAATGGTACTGTGACTGGAATTTTACGCAGCTGAACCAAAATGACTTAGACCTTGTCTATTCCGCACCCGAGTATTTTACAAAAGACACATTGAGAGCGGATGAAGAAACGGGACGGGACTGGAAATGGTTCTTTCTCGGTTCTAAGCAGACAGGCACGCCGCTGCATCAGGATTTTAACAACACGCACGCGTGGAACGGCGTCATCTTCGGGGAGAAGGAATGGATCTTCTATCATCCGGACGACTCTCCGTATTTGTACGAAGGAAATATCAATGTCTTTGATGAAAAAGACATTGAGCAAAAACCGCTGGTGCAAAAGGCGTCTCCGATCCGCTTCAGACAAAAGGCGGGAGAAATCATTTACGCGCCGCGCCATTGGTGGCATCAAGTCGAGAATACGGAACATACATTGGCAGTGAGTGAGAACTTTTGGTTTACCGGAGAGCGGCTTGCCAATCAGATATAA	MTIDRLTINELSYDLFVSEYADKKPFILTGAMDHWECRPWTLEYIDEHYGDRMVTIRKSDIEGVKTFKQVKLSNYIEYIDQNDDKWYCDWNFTQLNQNDLDLVYSAPEYFTKDTLRADEETGRDWKWFFLGSKQTGTPLHQDFNNTHAWNGVIFGEKEWIFYHPDDSPYLYEGNINVFDEKDIEQKPLVQKASPIRFRQKAGEIIYAPRHWWHQVENTEHTLAVSENFWFTGERLANQI				NA	NA	NA	NA	NA
D1-12_02127	1416	rocR	COG3829	Arginine utilization regulatory protein RocR	ATGTTAAGACGATTGAGAGGGGGAATTGACCTGCACACAACCAGCGAATTTTACACACTCGTGTTACAAAGCATTCTGGAAGAGATTGATGTCGGGCTGCATGTGGTGGACGAAAAGGGCAGCACCGTCATTTACAATAAGAAAATGATGCAGATTGAAGATATGGATGAACGGGACGTCCTGCATAAAAACCTGACTGATGTATTTATGTTTTCCAATCAGCAGGACAGCACGCTCGTTCAGGCCCTTCAAGAAGGCAAAACGATTAAAAACGTGAAGCAAAGCTATTTCAATAACAAAGGCCAGGAAATCACGACGATCAACCACACCTTCCCGATTGTGCAAAACGGCGAGATCAAGGGAGCCGTGGAAATCGCCAAGGACGTCACCAAGCTCGAACGGCTGATCAGGGAGAACATGCACAGGAAAGAACAGAACAGCTACACGTTTGACAGTATTCTCGGCAACAGCTCAGTTATTCGGGAAGTCATCGAAAACGCAAAACGGGCAACCCGCACATCATCATCGGTGCTTTTGGCCGGCGAGACGGGAACGGGCAAGGAACTGTTCGCCCAAAGCATTCACAACGGCAGTCAGCGCTCAGGCGCCCCGTTCATCTCACAAAACTGCGCCGCCCTGCCGGATAGCCTGGTCGAAAGTATTTTATTCGGCACGAAAAAAGGCGCCTTTACCGGAGCCATCGACCAGCCCGGCTTATTTGAGCAGGCGCAGGGAGGCACCCTGCTCCTTGATGAGATCAACTCTCTCAATCTCAGCCTGCAGGCAAAACTGCTCCGCGCCCTGCAGGAAAAGAAAATCAGGCGCATCGGATCAGCTCAGGACAAACCGATTGACGTCCGCATCATCGCCACGATGAATGAAGACCCGATCACCGCCATTTCAGAAGAACGGCTGCGCAAAGATTTATACTACCGCTTAAGCGTTGTCACGCTGATCATTCCCCCGCTCCGGGAGCGCAAGGAGGATATTCTGCCTCTGGCCGAAGTGTTTATCCAGAAAAACAACCACCTGTTCCAAATGCATGTCGATTCGATCAGTGACGATGTGCAGCGATTCTTCCTGGAATATGACTGGCCGGGCAACATTCGCGAGCTTGAACATATGATTGAAGGCGCCATGAACTTTATGACGGATGAAACGACGATTACGGCGGCCCACCTGCCTTACCAATACCGGATGAAAATCAAACCCGCTGACACGGAAAGCAAAGCCGCCGCAAGCACCCAGCCCGGCACCGATTTAAAAGACAAAATGGAAAACTTCGAAAAATACATGATCGAAAAAACCCTGAGAAAACACGGCAATAACATATCCAAAACGGCAAACGAGCTCGGAATCAGCAGACAGAGCCTGCAATACCGCCTGAAAAAATTCGGTCTGGACCGGATGAAATGA	MLRRLRGGIDLHTTSEFYTLVLQSILEEIDVGLHVVDEKGSTVIYNKKMMQIEDMDERDVLHKNLTDVFMFSNQQDSTLVQALQEGKTIKNVKQSYFNNKGQEITTINHTFPIVQNGEIKGAVEIAKDVTKLERLIRENMHRKEQNSYTFDSILGNSSVIREVIENAKRATRTSSSVLLAGETGTGKELFAQSIHNGSQRSGAPFISQNCAALPDSLVESILFGTKKGAFTGAIDQPGLFEQAQGGTLLLDEINSLNLSLQAKLLRALQEKKIRRIGSAQDKPIDVRIIATMNEDPITAISEERLRKDLYYRLSVVTLIIPPLRERKEDILPLAEVFIQKNNHLFQMHVDSISDDVQRFFLEYDWPGNIRELEHMIEGAMNFMTDETTITAAHLPYQYRMKIKPADTESKAAASTQPGTDLKDKMENFEKYMIEKTLRKHGNNISKTANELGISRQSLQYRLKKFGLDRMK				NA	NA	NA	NA	NA
D1-12_02128	288	sdpR	COG0640	Transcriptional repressor SdpR	TTGAATAAAGCTTTTAAAGCACTGGCCGATCCTACAAGGAGAAAAATTTTGGATTTATTAAAGAAACAAGACATGACAGCTGGTGAAATTGCGGAACACTTCGACATGTCAAAACCCAGTATTTCTCATCACCTTACCATATTGAAAAATACTGATTTGGTTCACGATGAGAGGAAAGGCCAATTTATTATGTATTCATTAAATACCACTGTATTACAGGATCTTATAGGCTGGTTCTTTTCTCTGACTGATTCAGAACATGATAATAAGAAAGGCGGGGAATCATGA	MNKAFKALADPTRRKILDLLKKQDMTAGEIAEHFDMSKPSISHHLTILKNTDLVHDERKGQFIMYSLNTTVLQDLIGWFFSLTDSEHDNKKGGES	PGPT0004735_5285	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
D1-12_02129	636	sdpI	COG5658	Immunity protein SdpI	ATGAAAAAATATCTCTTTTCAGCAGGAATCATAGTTTTAACTGTTTTCACATGGGCTTTCACATATTCATCTTTACCGGACAATTTGGCGACACACTGGGGATTAAACGGAAGCGCAAATGATTACACTTCTAAATTTAATGCAATGGTGATGCTTATTGGCATCATGATTATTCAATATATTTTAATGGTGATCATCCCTAAGATTGATCCTAAAAATAACTACAAAACATTTATCCGGCCATATATGGCTATATTTAATACATTGTTTGCGGTTCTGTTTGTCATTAATCTGATGACCATCTTGACCGGCCTGGGATATGATCTCCCTATATCTTATTTAGGAAACTTTATAGTGGGAGTCATTTTCATGGTGTTTGGAAACTTTATTCAGAAAGTTAAGCCTAATTACTTTTTAGGGATAAGAACGCCTTGGACGCTGAGCAGTGAAAGAGTTTGGAAGGATACACACAGGGTTAGTTCGAAAATTTTTGTCTCAGCGGGCATACTCATGATGCTTGCAGCTTTTTTGCCGCCGGTGTATAGAGTGTCAGTCATTTTCATTGCGGCAATCGGCTGTATCATATTATCTTTACTATATTCTTACATTGTATATCAGAGACAATTGAATAAATAA	MKKYLFSAGIIVLTVFTWAFTYSSLPDNLATHWGLNGSANDYTSKFNAMVMLIGIMIIQYILMVIIPKIDPKNNYKTFIRPYMAIFNTLFAVLFVINLMTILTGLGYDLPISYLGNFIVGVIFMVFGNFIQKVKPNYFLGIRTPWTLSSERVWKDTHRVSSKIFVSAGILMMLAAFLPPVYRVSVIFIAAIGCIILSLLYSYIVYQRQLNK				NA	NA	NA	NA	NA
D1-12_02130	1413	rocD	COG4992	Ornithine aminotransferase	TTGGATTGCTCCTATTTTGTCAGCGGAAAACGCAAAAAAATTTTGCGCTTGGCTGAAGTTTGCACGCAAACTGCCGGAAAATTTTGCGGGAAAAGAAAGAATGCTGGCGAAACATCCCGTTTTTTCGGATTGGCACGGAACTTGCTTTATAAAAAGGGAAAGCAAGATCTAATGTTGAATGATTACAAAACAAGGGGGAATCAGATTATGTCAGCTTTCACAAAATCTCAAGAAATTATCAGCCAAACTTCACATTACGGCGCGAACAACTATCATCCTCTGCCGATTGTTATTTCCGAGGCGCAGGGTGTTTGGGTAAAAGACCCTGAAGGTAATCAATATATGGATATGCTGAGTGCTTATTCTGCGGTGAACCAGGGGCACAGACATCCGAAGATCATTCAGGCGCTGAAGGATCAGGCGGATAAAATCACTCTGACGTCACGCGCGTTCCATAATGATCAGCTCGGTCCGTTTTATGAGAAAACAGCCAAGCTGACCGGAAAAGATATGATTCTGCCGATGAATACGGGGGCGGAAGCCGTTGAATCCGCTGTCAAAGCGGCGAGACGCTGGGCATATGAGGTCAAAGGAGTAGCGGATAACCAGGCGGAAATCATTGCGTGTATCGGCAACTTCCACGGCAGAACGATGCTTGCGGTATCCCTTTCTTCAGAAGATGAGTATAAACGCGGTTTCGGACCTATGCTTCCGGGTATAAAATTAATTCCATACGGAGACGCAGAAGCGCTGCGCCGGGCGATCACCCCGAACACAGCCGCTTTCTTATTCGAACCGATTCAGGGAGAAGCGGGCATCGTCATTCCGCCGGAAGGATTTTTACAAGAAGCGGCAGCCATTTGTAAGGAAGAAAATGTACTTCTGATCGCTGATGAAATTCAGACGGGACTCGGCCGCACAGGGAAAACATTCGCGGTTGACTGGGAAAATATCGTACCGGATATGTTCATCTTAGGCAAAGCGCTCGGCGGGGGCGTCTTCCCGATTTCGTGCATTGCGGCGAACCGTGACATTCTCGGCGTGTTTAACCCGGGTTCCCACGGCTCGACATTCGGCGGAAACCCGCTCGCTTGCGCAGTATCGCTCGCATCTCTTGAAGTCCTTGAGGAAGAAGGGCTGGCAGAGCGTTCCCTTCAGCTTGGCCGTTATTTTAAAGAAGAGCTTGAGAAAATTGATAACCCGATCATAAAAGACGTGCGCGGTCGCGGCCTGTTTATCGGCGTTGAACTGACAGAAGCGGCCCGCCCTTATTGTGAAAAGCTGAAAGGTGAAGGGCTTTTATGCAAAGAAACACATGATACCGTGATCCGTTTTGCACCGCCGTTAATGATTTCCAAGGAAGACTTGGACTGGGCGATCCAAAAGATCACAAACGTGCTTCAAAACGCGTAA	MDCSYFVSGKRKKILRLAEVCTQTAGKFCGKRKNAGETSRFFGLARNLLYKKGKQDLMLNDYKTRGNQIMSAFTKSQEIISQTSHYGANNYHPLPIVISEAQGVWVKDPEGNQYMDMLSAYSAVNQGHRHPKIIQALKDQADKITLTSRAFHNDQLGPFYEKTAKLTGKDMILPMNTGAEAVESAVKAARRWAYEVKGVADNQAEIIACIGNFHGRTMLAVSLSSEDEYKRGFGPMLPGIKLIPYGDAEALRRAITPNTAAFLFEPIQGEAGIVIPPEGFLQEAAAICKEENVLLIADEIQTGLGRTGKTFAVDWENIVPDMFILGKALGGGVFPISCIAANRDILGVFNPGSHGSTFGGNPLACAVSLASLEVLEEEGLAERSLQLGRYFKEELEKIDNPIIKDVRGRGLFIGVELTEAARPYCEKLKGEGLLCKETHDTVIRFAPPLMISKEDLDWAIQKITNVLQNA	PGPT0007155_448	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007155-patA1-K09251	NA	NA
D1-12_02131	1401	rocE_1	COG0833	Amino-acid permease RocE	GTGAATACAAATCAAAAAGAGAATCAGCTTCAGCGCACAATGAAATCACGCCATTTGTTTATGATTTCATTAGGCGGAGTGATCGGCACCGGGTTTTTCCTGAGTACCGGATTTACAATTAACCAGGCGGGACCGCTGGGCGCGGTTCTGTCTTATCTGGTCGGCGGCTTTATTATGTTTTTGACAATGCTCTGCTTAGGCGAGCTTGCGGTTGCCCTTCCCGTATCAGGGTCGTTTCAGACGTACGCAACCAAATTCATCAGCCCCGCTTTCGGTTTCGCATTCGGCTGGCTGTACTGGCTCGGCTGGGCGGTGACATGCGCCATTGAGTTTTTATCTGCGGGACAATTGATGCTCCGCTGGTTTCCGCATGTTCCCGTATGGGTGTGGTGCCTCGTGTTTGTCGGACTGATGTTTCTTTTGAACGCCATTACCACAAAAGCGTTCGCTGAGTCGGAATTTTGGTTTTCCGGCATTAAAATTGTAGTCATTCTGCTGTTTATTATTTTGGGCGGCGCCGCCATGTTCGGCCTGATTGACATGAAACACGGCGAGCAGGCTCCTTTCTTCTCTCATTTTTATGAGGATGGATTGTTTCCGAACGGCATTAAGGCTATGCTTATTACGATGATTACCGTAAACTTCGCGTTCCAGGGAACGGAGCTGATCGGGGTTGCCGCGGGAGAAAGTGAAAATCCCGAGAAAACGATTCCGCGCTCTATCCGGCAGACGGTATGGAGAACGCTTGTCTTTTTCGTTCTCTCCATCATCGTCATTGCCGGGATGATTCCGTGGAAGCAGGCGGGAGTGGTCGAAAGCCCGTTTGTCGTGGTGTTTGAACAAATCGGTATTCCATATGCCGCCGATATTATGAACTTTGTTATCTTAATTGCGCTGCTCTCAGTGGCCAACTCAGGCCTGTTTGCATCGACGCGTATCTTATATGCCATGGCGAACGAAGGACAAGCCTTTAAATCGCTCGGCAAAACAAATAAACGCGGGGTGCCGATGAACGCTCTGATCGTGACGCTGGCCGTCGCCTGCCTGTCACTGCTGTCTAAAGTGGCAGCGCCGGAAACCGTTTATATGTTTCTCTTATCATTAGCCGGACTAAGCGCGCAGGTCGGCTGGATCACGATTTCCCTGTCACAGCTGATGTTCAGACGGAAATACATCCGCGAAGGCGGCAAAGTGGAAGACCTGAAGTTTAAAACACCGCTGTACCCGGTGCTGCCTATTATCGGGCTGACGTTAAACACGGTTGTTCTGATCAGCCTCGCATTTGATTCAGAACAGCGGCTCGCCCTTTATTGCGGCATCCCGTTCATGGCGGTGTGCGTTATCGTCTATCATCTGTATGTAAAAAAGCATAAGCAGTCAGAAAAACAGATAGAGCTTTAA	MNTNQKENQLQRTMKSRHLFMISLGGVIGTGFFLSTGFTINQAGPLGAVLSYLVGGFIMFLTMLCLGELAVALPVSGSFQTYATKFISPAFGFAFGWLYWLGWAVTCAIEFLSAGQLMLRWFPHVPVWVWCLVFVGLMFLLNAITTKAFAESEFWFSGIKIVVILLFIILGGAAMFGLIDMKHGEQAPFFSHFYEDGLFPNGIKAMLITMITVNFAFQGTELIGVAAGESENPEKTIPRSIRQTVWRTLVFFVLSIIVIAGMIPWKQAGVVESPFVVVFEQIGIPYAADIMNFVILIALLSVANSGLFASTRILYAMANEGQAFKSLGKTNKRGVPMNALIVTLAVACLSLLSKVAAPETVYMFLLSLAGLSAQVGWITISLSQLMFRRKYIREGGKVEDLKFKTPLYPVLPIIGLTLNTVVLISLAFDSEQRLALYCGIPFMAVCVIVYHLYVKKHKQSEKQIEL	PGPT0020525_60	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020525-mmuP-K16235	NA	NA
D1-12_02132	891	rocF	COG0010	Arginase	ATGAACAAGAATATCTCAGTTATTGGAATGCCGATGGATTTAGGACAAGCACGACGCGGAGTGGACATGGGCCCGAGCGCCATCCGCTACGCGCATCTCATTGAACGGTTATCTGACATGGGGTATGCGGTGGAAGACTTAGGCGACATCCCCGTCAATCGTGAAAAACTCAAAAATGATGAAGAGCTGAAAAATCTGAACTCTGTGCTCTCGGGGAACGAGCAGCTCGCCCAAAAGGTGGACAGCGTCATTGAGAATGAGCGGTTCCCTCTCGTCCTGGGCGGCGATCACAGCATCGCGATCGGAACGCTGACAGGAACGGCAAAGCACTATAAACAGCTCGGCGTCATCTGGTATGACGCGCACGGCGACTTAAACACCCTGGAAACGTCGCCGTCAGGCAATATTCACGGAATGCCGCTGGCCGTCAGCCTCGGCGTCGGGCACGACACGCTGGTGAATCTGGGCGGCTATGCCCCGAAAATCAAGCCGGAGAACGTCGTCATCATCGGCGCGAGATCGCTTGATGAAGGCGAGCGTGAATACATTAAGGAAACAGGCATGAAGGTCTATACGATGCATGAGATTGACCGCCTCGGCATGACCAAGGTGATTGAAGAAACCATTGACTACTTGTCAGACTGTGACGGCGTTCACCTCAGTCTTGACCTTGATGGCCTTGATCCGAGCGACGCACCCGGCGTAGGCACGCCTGTCGTCGGCGGCATCAGCTACCGTGAAAGCCACTTGGCAATGGAAATGCTGTATGATGCCGACATCATCACTTCAGCTGAATTTGTCGAAGTCAACCCGATCCTCGATCACAAAAACAAAACCGGCAAAACAGCGGTCGAGCTGGTAGAATCTTTGTTAGGAAAAAAACTACTATAA	MNKNISVIGMPMDLGQARRGVDMGPSAIRYAHLIERLSDMGYAVEDLGDIPVNREKLKNDEELKNLNSVLSGNEQLAQKVDSVIENERFPLVLGGDHSIAIGTLTGTAKHYKQLGVIWYDAHGDLNTLETSPSGNIHGMPLAVSLGVGHDTLVNLGGYAPKIKPENVVIIGARSLDEGEREYIKETGMKVYTMHEIDRLGMTKVIEETIDYLSDCDGVHLSLDLDGLDPSDAPGVGTPVVGGISYRESHLAMEMLYDADIITSAEFVEVNPILDHKNKTGKTAVELVESLLGKKLL	PGPT0020100_1704	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
D1-12_02133	1116	rapI		Response regulator aspartate phosphatase I	ATGGCTGAAGTGATGGCCCACGAAACAGTTGCGAAAAAAATCAGTGACTGGTATGAGGAAATCAAAAAGCACAACACCGAATCGGCTGAGGCGTTAAGAGAACAACTGCTTACGGATCTGCAAAATATGACACAAAATCAAACGGTGCTCCTTTATTTTAATTTAATTGATTCCCGCTATAAGCTTTTGATGGAAGAGTATGAGAAAACAGACGGCATTTTAAAAACGATCCAGCTGAACGCCGATAAAGAAAAAACAGACCAGATGATTCAATACTATTATTATTTCTTTTCCGGAATGCACGAGTTTTACCGTAAACGGTTTATGAACGCCATTAATTTTTACCGGATTGCTGAAAGCAGGCTCCGGCACATACCGAATGAGATTGAAAGAGCCGAGTTTAATTATCAAGTGGCGATTGCCTACTATGAAATCCGCCAAAACTACTTTGCGATGAACCACGCGGAAAAAGCGTTGGAGATCTACAAAGCCAATGAAATGTACGCGGTCAGAGAAGCACAGTGTTTAATGGTGATCGGCTGTAACAGAATGGACTTGTTTCACTACCAGAAAGCCGAAGAGCTCCTGCAGACGGCGGTTCATCAAGCCGCCAAAGCGGGCGATCCGCATATTGAGGCGCTCGCCCACTTTAACGCAGGCATTTGCTATGAAAGACAGGAAAAGCTTGAGGAGGCGCGGGTCGAGTTTGAAACGGCTCTCGATCAAAAGGAGCATTTGCAATCAGCATATTCGGTGCGGAGTCTGTACATGCTGGCCAGAGTGTTATTGAAACAGGAACAGATGGATGAGGGCCGGTTTTGGCTGCATAAAGCGCTGAATGCCGCTGAAGAAAAAAACGAGCCCGTATACACCCAAAAGCTGCGCATCTTACAGCATGTCTTTATTGACCAGAGTGAAGAATCGCTTGAATCAGCTTTCGCCGAGTTAAGAAGGAAAGAGCTGTGGAGTGACGTTTCCGATTTGTCGTATCAAGCCGCTGCGCATTTTAAAAAACAGGAGAATTACAAACTGGCGGCGAAGTATTTTCAGGAATCAATTGATGCCAATGACCAAATTTTGAGATTGACGGAGGGGATTCGTAATGAAAACATGTAA	MAEVMAHETVAKKISDWYEEIKKHNTESAEALREQLLTDLQNMTQNQTVLLYFNLIDSRYKLLMEEYEKTDGILKTIQLNADKEKTDQMIQYYYYFFSGMHEFYRKRFMNAINFYRIAESRLRHIPNEIERAEFNYQVAIAYYEIRQNYFAMNHAEKALEIYKANEMYAVREAQCLMVIGCNRMDLFHYQKAEELLQTAVHQAAKAGDPHIEALAHFNAGICYERQEKLEEARVEFETALDQKEHLQSAYSVRSLYMLARVLLKQEQMDEGRFWLHKALNAAEEKNEPVYTQKLRILQHVFIDQSEESLESAFAELRRKELWSDVSDLSYQAAAHFKKQENYKLAAKYFQESIDANDQILRLTEGIRNENM	PGPT0025760_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025760-rapC-K06361	NA	NA
D1-12_02134	135			hypothetical protein	ATGAAAACATGTAAATTCATTGTACTCTCAGCAGCCTTGGCAAGTCTCATTTCGATTGGATTATTTGCGCAAACTGGTTCAACGGCACAAGCCGACCAAATCATAAAACCGGCGGAAAACGGAGCCTTCGGATAA	MKTCKFIVLSAALASLISIGLFAQTGSTAQADQIIKPAENGAFG				NA	NA	NA	NA	NA
D1-12_02135	474	yycN	COG0454	putative N-acetyltransferase YycN	ATGGCTATCACGCTGCAGCCGATGACAGGACAAGAATTTCAGTCCTATCTCGCCCATTCAGCCAAGCATTACGCTGAAGAAAAGGTAAAAGCGGGAACGTGGCTGCCTGACGAAGCACCGGAATTAGCGGAGCTGGCGTTTAATGACCTGCTTCCTGACGGCTTGGAGACGGCCGATCACTATTTATGGACGCTGACATTGGACGGAAAGGAAAATGCCGGCTGGCTGTGGCTGCACGCCGATCCGGGACACCCGCAGCAGGACGCATTTATCTATGATTTCGGCCTTCATCCGCCTTTCCGCGGCAAAGGCTATGCAAAAGAGGCACTCGCAAGGCTGGAGGACAAAGCCAAAGACCTGGGTGTCCGCAAGATTTCTCTCCATGTGTTCGCTCATAACGAAACGGCGCGGAAGCTGTATAAGAAGACGGGATTTCTGGAGACGGATGTCATCATGAGCAAAAAGCTGTCATGA	MAITLQPMTGQEFQSYLAHSAKHYAEEKVKAGTWLPDEAPELAELAFNDLLPDGLETADHYLWTLTLDGKENAGWLWLHADPGHPQQDAFIYDFGLHPPFRGKGYAKEALARLEDKAKDLGVRKISLHVFAHNETARKLYKKTGFLETDVIMSKKLS				NA	NA	NA	NA	NA
D1-12_02136	981	iolS_1	COG0667	Aldo-keto reductase IolS	ATGAAGGACAGAACGATCGGTTCGATGCGGGTTTCCGCAATGGGGTTAGGGTGCATGGGCATGTCGGAATACTATGGCAGCCAGAGTGAGGAAGATTCGATTTCCACACTGCATCATGCCGTTCATCTCGGTGTGAATTTGTTTGATACGGCTGATCAATATGGATTGGGTGCGAATGAAGAACTTGTCGGCAGAGCGCTCGCCCCATTCAGAAAGGAGCTGTGCCTCGCGACGAAATTCGGTTATGTCCGAAGCGAAAAGGGTGAGTTTATCGAAATCAACGGCCGGCCCGATTATGTGAAAAAAGCGTGTGACGCCAGTCTGAAACGTCTCGGGACGGATTATATCGACCTTTATTATCTGCACCGGGTTGATCCGCGGGTGCCGATTGAAGAAACTGTCGGCGCCATGAAGGAGCTGATAGACGAAGGAAAGGTGAGGTTTATCGGATTGTCAGAGGCTTCCGCAGAAACGATCAGGCGCGCCGTCCGCATTCATCCGATTGCCGCGCTTCAATCGGAATATTCTTTATGGAGCAGGGAAGCGGAGGAGCATGTGCTGCCCGCCTGCCGTGAGCTCGGCATCTCATTTGTGCCTTACAGTCCGCTCGGCAGAGGTTTTCTTTCCGGAAAGATGACGTCGACCGATCAGCTGGATGCCGATGATTACAGAAGAAGAACGCCGAGATTCCAGGGAGACAATTTGGCGGTGAATATAGGGCTCGTCCAAAAACTTACCGCCATTGCCCGGGAAATGAATATCAACGCGCCTCAGCTTGCGCTCGCATGGGTTCTCGCAAACGGCGATGACCTCATTCCGATTCCGGGCACAAAAAAGAAACACTACTTGGAAGAGAACCTCGCCGCTCTCGACATTGTGCTTCCCGAGGATGTGAAGGCGCGTTTGGATGAGATGTTTCCGATCGGCACCGCGGCCGGCGAGCGTTATCCGGAACACATGATGACATTGTTAGATGAATAA	MKDRTIGSMRVSAMGLGCMGMSEYYGSQSEEDSISTLHHAVHLGVNLFDTADQYGLGANEELVGRALAPFRKELCLATKFGYVRSEKGEFIEINGRPDYVKKACDASLKRLGTDYIDLYYLHRVDPRVPIEETVGAMKELIDEGKVRFIGLSEASAETIRRAVRIHPIAALQSEYSLWSREAEEHVLPACRELGISFVPYSPLGRGFLSGKMTSTDQLDADDYRRRTPRFQGDNLAVNIGLVQKLTAIAREMNINAPQLALAWVLANGDDLIPIPGTKKKHYLEENLAALDIVLPEDVKARLDEMFPIGTAAGERYPEHMMTLLDE	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
D1-12_02137	753			hypothetical protein	ATGATGTGTAAAAAGCTGTTCAAAGCCGTCCTCCCGTTTGCCCTGTCATTCACCATGGTTCTGTCGTTCTCCGGTATGAATGTAAAAGCGAAAGAAACAGAAACAGCCCGCTACGCAAAAGAAATCGCAGACCTTCAGCAGGGCACGACTCCTCAAGACGTTCTCCAATCCGCCAAAGAGCTTGCCAAACAGAAGCACGTTTCAACAGAAGCAATTCTCAAGCAGTTTCATCAAGAAATCACGGCAGACAAGGTGCAAGGAAATGTAATCGCTTCGAAAGAAGGGCTCTCTGCAATGGGCGGATCATCAGGCACAAAAAAACTTCCGAAAAGCACAAAAGGCAATATTTATTACACGAACTCATACACGGCTTATTACAACCACGGGCATGTCGGCATGTATTCATCCGCTGACAAAATTGTTGAATCCGTGCCGGGAGACGGCGTCCGCCAGATTGCTTATAACGGCAGAGAAGTCGAAGACAATTCAATCGTCCAGACCGTGAAAGTCACTGATGCCCAAAAACAAGCCGCCGCTGACTGGGCCGTATCAAGAGTGGGTGATGAGTACTCCTTCAACTTCGTCAATAACAGAAATACGGGCCATGAAGGCGCCAAAAACTGCTCAAAACTGCTGTGGTCGGCATTCCTCTTAAAAGCCGGGATTGATATCGACTCTAACGGCGGCTTAGGCGTATACCCGCGCGACATCACAAGTTCGTCCTACACGGCCACGATTCTGACCATTCACTAA	MMCKKLFKAVLPFALSFTMVLSFSGMNVKAKETETARYAKEIADLQQGTTPQDVLQSAKELAKQKHVSTEAILKQFHQEITADKVQGNVIASKEGLSAMGGSSGTKKLPKSTKGNIYYTNSYTAYYNHGHVGMYSSADKIVESVPGDGVRQIAYNGREVEDNSIVQTVKVTDAQKQAAADWAVSRVGDEYSFNFVNNRNTGHEGAKNCSKLLWSAFLLKAGIDIDSNGGLGVYPRDITSSSYTATILTIH				NA	NA	NA	NA	NA
D1-12_02138	1164			hypothetical protein	GTGAAAAAAATCATCTGGATACCCTTAGTGATCATCGCCGCCGCAGCGGTCTTATGCTTCTTCTATTTCCGCACGGAAGATCCTGCGGAGGTTGCGAGAGACACATTAAATGACCCTGATTTTCTGAAAGATAAAGAGGCGCTGCTGTATTTCTCCACTGCGGCTGACCAAGACACGTTCGGCGGCGGAAAAAGCTACGCCCTCTTCGCCGATGAAAAAGGGCGGCTCTCTTCTTATCACATGAAGGGGCTTGAGCTCGGATCGGCCAAAGTGCATGACGGCAGCGTGCTGTTGGAGGACAAAAAAGGAATCTACACCGTTCAGGACGGCCTTCATACGTATAAAAGAGCGTACCAGCATACGGGAGACAGCGCGGGATATATCGAACGGGCGAAAGGCTTTTACACGCTGTATAATTCGGGCTACGACAAGAGCGGCGGCAGCTATCGCTCAGAGCTGTACCGCCAGATTGACGGCAGTTGGAAGCAAGACGTCATCCCGCACTATATCCGCGCTTCAGGCTTTTTTAAAGATCATCTTTTCGCACTCACGCCGACAGATGACGAAAAAGGCTATCACGTCCAAGACATTCAGGCCGATAAAGAAAAGCTCCATACAACATCAATCGCGACATGGACGTACAAAGAAGGCACGTCTGTCGAATCCCAGCTTGCAGCGGACGACAGCGCCGTCTGCTTTGTCACCAGAGGGGAAAAAGCCGATCACATCTATCAAATGGTGAAAGTCATGAAAAACAGCGGCGCCATCAAAACGTATGACATCGCCGCTTATAAAAATGACGAACAGACGATCTATGACTCCATGCCGTTCAGCTTCAAAAAAAGCTTTTTCATGGAGCGGCGCAGCTTCTATTTCGTTGACGGCTTCGGAACCGTCTACCGCATCAACCCTGAGACCGGAAAAAGCAAAAAAGCCTTCACCCTCCCCGCATCCCGAATGAAAGCCGACTTCAAGGAGCTGACCCATCAAAACGGAAAGCTGTATCTGTTTACGTACAGCTACAAAAAGCCCGCAAAAATCGAATCCTTCGACCTGAAAACGGGCAAAAAACTGAACGGCCTGACCATCCCAAATTTAAAAAACATTGTCACGCCGAAAAGCCATCTCAAGCTGTATGATGTGCAGGTGATGGGTGGGTTTTGA	MKKIIWIPLVIIAAAAVLCFFYFRTEDPAEVARDTLNDPDFLKDKEALLYFSTAADQDTFGGGKSYALFADEKGRLSSYHMKGLELGSAKVHDGSVLLEDKKGIYTVQDGLHTYKRAYQHTGDSAGYIERAKGFYTLYNSGYDKSGGSYRSELYRQIDGSWKQDVIPHYIRASGFFKDHLFALTPTDDEKGYHVQDIQADKEKLHTTSIATWTYKEGTSVESQLAADDSAVCFVTRGEKADHIYQMVKVMKNSGAIKTYDIAAYKNDEQTIYDSMPFSFKKSFFMERRSFYFVDGFGTVYRINPETGKSKKAFTLPASRMKADFKELTHQNGKLYLFTYSYKKPAKIESFDLKTGKKLNGLTIPNLKNIVTPKSHLKLYDVQVMGGF				NA	NA	NA	NA	NA
D1-12_02139	129			hypothetical protein	ATGAAGAAAAAGCTTGCCGCGTTTTTAAATGACGGAAATCCGGACTGGATTGATGTATGCTGTACGCTGCTGGCGTGTCTATTAGGAATTCTGTTCGTCCTTCGCTTAGAAAAAAGAGAAAACACGTAA	MKKKLAAFLNDGNPDWIDVCCTLLACLLGILFVLRLEKRENT				NA	NA	NA	NA	NA
D1-12_02140	171			hypothetical protein	ATGAAAACCGCTTATTATTCTTGTGAAGAACATATCGAAACCGTGCTGGACATGTACATAGATGATCATGAGCTTCCGCCCGAAATCAGAAAAATCGAACATACTAACAGTTTATCCACAGCCTGTGAATTATGTGGGGACACTGCAACATATCTAGTAGGGAACGAATGA	MKTAYYSCEEHIETVLDMYIDDHELPPEIRKIEHTNSLSTACELCGDTATYLVGNE				NA	NA	NA	NA	NA
D1-12_02141	480	rlmH	COG1576	Ribosomal RNA large subunit methyltransferase H	GTGAATATCAATATCGTGACAATTGGAAAACTAAAAGAAAAATACCTCAAGCAAGGCATTGAAGAATACAAAAAACGACTCTCAGCCTACGCAAAAATCGACATCATCGAACTCCCGGACGAAAAAGCCCCGGAAAACCTGAGCGACCAAGACATGAAAATCGTCAAAGACAAAGAAGGCGAACGCATCCTGGCCAAAATCAGCCCGGACACCCACGTCATCGCCCTCGCCATCGAAGGAAAAATGAAAACATCCGAAGAACTGGCCGATACAATAGATAAGCTGGCGACATATGGAAAAAGCAAAATCACCTTCGTCATCGGCGGCTCACTCGGCCTAAGCGACGCCGTCATGAAGCGCGCAGACGACAAACTGTCATTCTCGAAGATGACATTTCCTCATCAGCTCATGCGGCTGATTTTAGTGGAGCAGATTTATCGGGCTTTTCGGATTAATCGTGGGGAGCCTTATCATAAGTGA	MNINIVTIGKLKEKYLKQGIEEYKKRLSAYAKIDIIELPDEKAPENLSDQDMKIVKDKEGERILAKISPDTHVIALAIEGKMKTSEELADTIDKLATYGKSKITFVIGGSLGLSDAVMKRADDKLSFSKMTFPHQLMRLILVEQIYRAFRINRGEPYHK				NA	NA	NA	NA	NA
D1-12_02142	1716			hypothetical protein	ATGGATAGAATAACAAAAAGTTTAATGATGGACTTTTCTAGTGTTATGGAAATGTCCTCTAAAGATCAAAGTAAATTGTTTGAAAACTTCTCTTGTTATAGCATAATTTCAAAAATACATAATGAAAAATTTGAGTTAGAGGATATTGTCGGAGGCGAAGGAGGTGATTGTGGAATTGATGGGATTGGAATTATTGTGAGTGGAATTATGATTAATACAATTGAGGAAATTGAGGATCTCTTGGACAGGTCAGGAAATATTTCTGAAGTAAAGTTTATAATTATACAGGCTAAAACCTCATCTTCTTTTAATGGTGCGGATATGCTGAATTTTGGAGACGGAGTATTAGACTTTTTTGCTGAAGAGCCTCAATTAGTTAGAAATGACTTTATTAAAAAGAAAGCAGAAATCGTAGAATTTATTATAGATAAAGCAGCAAGAATAAATAAGATGATAATTGAGTTATTTTATGTAACAACTGGCCAATGGTTAAATGATGTGAATCTAACTGCTAAAATAAATAAAATTGTAGGTGATATAAAAGCTTTAAATTTATTCAAACAGATTAAGTTCAATCCGGTGGGAGCCAATGAAATTCAAAAATATTACAGGCAATCAAAAGAAAAGGTAAGTGCCACCATTAATTTCCCTAATAGAGTAGTAATGCCTGATATTAAGGGAATAAATGAATCATACACTGGAACATTGAATTTAACTGAATACTTAAAACTAATAGAAGATGAATTAGGCAATATTAGAAGGTCAGTTTTTTATGATAATGTAAGAGACTATCAAGGAGAAAATGATGTTAATGAAAGCATTTCTAGCACCCTGAGATCAAATAACTCTGATAGACTAGCAGTACTTAATAATGGAGTTACAATAGTCGCAAAAAAAGTCTCAGTAGCAAGGCATGATTTTACTTTAGAGGATTATCAAATAGTAAATGGTTGTCAAACTTCCCATGTTATTTATTATAACAAGGATAATATAGACAACGAAAAAACTAATTTACCAGTCAAAATTATAATTACAGAAGATGAAGAAGTTATTAGTGATATTATTATTGCAAATAATAGTCAAACTGAAGTGAAGAAGGAAGAATTGATGGCACTATCTGATTTCCAAAAGAAGTTGGAGTTATTTTATAATTCCATTGAGGAATCAAAGAGGAAATTATTTTATGAGAGAAGATCAAAGCAGTATGACGCCGTTCCAAACACTGAAAAGGTTAGAATTGTAACTATTTCTTCTCAAATAAAAAGTTTTGCCTCTATGTATTTAGATAGACCAAACTTAGCAAGTAGATTTTATGGTAAATTATTAGAACAACTTTCAGAGTCTGCTTTTGTTGCAAATCATCAGCCCATGCCGTATTATACAAGTGCATTTGCACTATATAAACTAGAGTTTTACTTTAGAAATAAAAGTCTTGACTCTCGATTTCGAAAATTTCGCTTTCATATGCTGATGATGTTGAAATATTTTGTGAATAATGAAAATACCCCTAATATGGACTCTAAAAAAATCAACAGATATTGCGAGAATATTAACAAGGTATTATACGGTTCTAATGCATTGAATATTTTCAAAAAACTTACTGATATAATAGAAGATACTGTAGAGGATATAGGGGATACAGAGATAACCAAAAAGCAATCTTTGAATGCTATTTTAATAGAAAAGGTAACTGAATTAAGAAAAATGACTGTTTGA	MDRITKSLMMDFSSVMEMSSKDQSKLFENFSCYSIISKIHNEKFELEDIVGGEGGDCGIDGIGIIVSGIMINTIEEIEDLLDRSGNISEVKFIIIQAKTSSSFNGADMLNFGDGVLDFFAEEPQLVRNDFIKKKAEIVEFIIDKAARINKMIIELFYVTTGQWLNDVNLTAKINKIVGDIKALNLFKQIKFNPVGANEIQKYYRQSKEKVSATINFPNRVVMPDIKGINESYTGTLNLTEYLKLIEDELGNIRRSVFYDNVRDYQGENDVNESISSTLRSNNSDRLAVLNNGVTIVAKKVSVARHDFTLEDYQIVNGCQTSHVIYYNKDNIDNEKTNLPVKIIITEDEEVISDIIIANNSQTEVKKEELMALSDFQKKLELFYNSIEESKRKLFYERRSKQYDAVPNTEKVRIVTISSQIKSFASMYLDRPNLASRFYGKLLEQLSESAFVANHQPMPYYTSAFALYKLEFYFRNKSLDSRFRKFRFHMLMMLKYFVNNENTPNMDSKKINRYCENINKVLYGSNALNIFKKLTDIIEDTVEDIGDTEITKKQSLNAILIEKVTELRKMTV				NA	NA	NA	NA	NA
D1-12_02143	555			hypothetical protein	ATGCAAAGCAGAATGAAGCTAACCGCAGTGAAACTGGCAGCCTTGGTATTCCTAGCAGGTGCCTTTGCCCTCCAGGTTTTACCTCATGCTGCGGCTGCCGCAGAATCCCAAGCTACATACAAAGTTGAAAACCTCAACGACAGTGAGCTGAAGATGACGTTCAATCATGCAGATGTTCATATTGACGCTAAAGGCAATGCAACCCTAAAAGACAACATAACGGGCGAGGAGCAGGCTCTTCCGAAAAGCTCCACTGACAAAAATGGTGACCCCGTTACACTGAAATATGAAAAAATCAAAAATGGCGTTTTAGTCAAAGTCGTGAACAAAGACGCTGGAAAAACGAGAGGTTCAATCAGCACCCAATCAGTCGGGAAATGTATTTTAGGTACTGGCGGCGGTGCGGTAACTGGCGGCGGCACACTGGGTCTTGCAGGAGCTGCTGTGGGAACAGTCACAATACCCGGCATCGGAACAGTAGGAGCGGGTGCCGTCGGAGCAATTACCGGCGCTGTTGGCGGTGCAATGACAGGAGCTGCCGCATCTTGCTTTTAA	MQSRMKLTAVKLAALVFLAGAFALQVLPHAAAAAESQATYKVENLNDSELKMTFNHADVHIDAKGNATLKDNITGEEQALPKSSTDKNGDPVTLKYEKIKNGVLVKVVNKDAGKTRGSISTQSVGKCILGTGGGAVTGGGTLGLAGAAVGTVTIPGIGTVGAGAVGAITGAVGGAMTGAAASCF				NA	NA	NA	NA	NA
D1-12_02144	1020			hypothetical protein	ATGAAAAGTGAAAAAATTCAAAACAAAACATCTTTGGTTTGGAAGATGGCGATTGCCTCTGCGGTTTCTTGGGAAGCGGCAAAACTGGCGGGCTCTGATCATCCCTATTTAGCGCCTCTATCTGTTATCTTATGTTTGCAGCCAACGATAGATCAGTCGATTCGCTTTTCTTTTCATCGTATTGCGGGAACTGCGATTGGGATCATGCTAACGTCCTATCTTGTCAGTCACTTGCCAATGAATGGCTGGATGCTGGGGCTGTTCCTGTTAGGCGGTACTTACATTGCGAAGTGGTTACGAATAGATGTAACGGTTTTACATCAGGTAGCGCTCACCATTTTGTTGGTCTTTACGTTTGAACGAAACTCTAAAGATTATGCATTCGACCGAATCATCGATACGGTGATCGGCGTCATCATCGCCATTCTGGTTCACATGTTCCTTTTTCCGCCGGACTACACAAAAAAGGCAGCGGACTCTTTTCAAACATTGGCTCGTCAGCTTTCCGGCACACTTTCAGACCTCTCCAAATGGGTTCAATCAGAGTGGGGACAAGGAAAAGGAAAAGGGAACCTTATGGAATATAAAATGAACCATCTTCTGCGGGAGCTGCATACGGCAAAAGAGATGCTGCAAACAGCCTCTGACAGCTTAAAATTCAACCCCGTCAGAAAAAAACATAAAAACATCATTTCAAGCTATCAAATAGAGATGCAAAAGTTGAACGCCGGATTTGAGTATCTATCAAATATAGTGAAAACGTTAAAAGAATGGGAAAAAGAAGGAGCTTTATCTTCAAGTGACAAAAGGGAGCTGGGGAATAATTTACAAGTGTTAAGTGAATATTTTGCGGGTTTTAAAGGCATACAGCAGGGTGAAACAGACAATCGGAAACAGAAGGAACAGAACGTGTTATTGGAATCTCTCCGCTCCGACATGCTGTCGCACCCGCCGCCCGGTCATAAGGTCTATAAAGACTCTTTTTTTTTAGAAACGAAGCAATTGCTGAAGCGTTTGTAA	MKSEKIQNKTSLVWKMAIASAVSWEAAKLAGSDHPYLAPLSVILCLQPTIDQSIRFSFHRIAGTAIGIMLTSYLVSHLPMNGWMLGLFLLGGTYIAKWLRIDVTVLHQVALTILLVFTFERNSKDYAFDRIIDTVIGVIIAILVHMFLFPPDYTKKAADSFQTLARQLSGTLSDLSKWVQSEWGQGKGKGNLMEYKMNHLLRELHTAKEMLQTASDSLKFNPVRKKHKNIISSYQIEMQKLNAGFEYLSNIVKTLKEWEKEGALSSSDKRELGNNLQVLSEYFAGFKGIQQGETDNRKQKEQNVLLESLRSDMLSHPPPGHKVYKDSFFLETKQLLKRL				NA	NA	NA	NA	NA
D1-12_02145	1017	pucA	COG1975	putative xanthine dehydrogenase subunit A	ATGGATGATATACACCGGATTTTGGATGTCATCGCTAATTCTAAGAAAGCTAAGGTACTGGCTACCATCATTCAAACAGAGGGGTCCGCTTATAAGAAAGAAGGGGCTTCGATGTTGATTTTAGAGGATAAAACAAGAGTCGGCATGTTATCCGCCGGTTGTCTGGAAGAAGATCTCGTTGAAAGGGCAGAGCAGGTCTGGTCTGCGGGAGAGCCGTTGATTGTCCGCTTTGATATGAGTGCGGAAGACGATTTATCCTGGGGACAGGGCGTTGGCTGTAATGGTGTTTTGACGGTATTGCTTGAGCCTGTAAAAGGGGAATTGGAACGGCATCTGATGACAGTCAAGACATGCTTAGATGAAAAAAAGTCTGTGACCCGACTGAAACGATTCACTGAAACGTTAGAGCCGAAGGAAGATCTGTATATTGCTGAAGACGGCAGCGTATTTGGAACCGGGGATGTGATGGAACCGGGGTGTATTCAACAACTGAGACAGACGGAAAAGGGAATCAAAAGGGATGAACATACCTCTGATTTATTTTTTATCCATCAGATGGTGCCAAAACCTTGTTTATATGTCTTCGGAGCAGGAGAAGATGCGAGGCCGTTAGTTTCGTTGGCGGCTCGTGCGGGCTTTCATGTGACGGTGATTGACTGGCGTCCCGCCTTATGTCATCACGGCCATTTTCCTGAAGCCGTCCATTTGATAACGGGAGCGCCGGAAGAAGTCATGAAAGGCCTGAGCATAACAAAAAGGGATTTTGTTGTCATTATGACGCACAGCTTTCAAAAAGATCAGATCATTTTACATACAATAAAAAACGAGAATGTGTTTTATAAAGGCGTTTTAGGCCCCAGAAGGCGCACGGAGCGGCTGTTAGGCGGGGCAGAGATTCCGGCAGATATTCATTCCCCTATCGGCCTTCCCATCGGGGCACAAGGCCCTGAAGAGATTGCTGTAAGTATCGTCGGCGAGCTGATTAAAGAAATGCGAAAACAAAGGTCCCGCTTATGA	MDDIHRILDVIANSKKAKVLATIIQTEGSAYKKEGASMLILEDKTRVGMLSAGCLEEDLVERAEQVWSAGEPLIVRFDMSAEDDLSWGQGVGCNGVLTVLLEPVKGELERHLMTVKTCLDEKKSVTRLKRFTETLEPKEDLYIAEDGSVFGTGDVMEPGCIQQLRQTEKGIKRDEHTSDLFFIHQMVPKPCLYVFGAGEDARPLVSLAARAGFHVTVIDWRPALCHHGHFPEAVHLITGAPEEVMKGLSITKRDFVVIMTHSFQKDQIILHTIKNENVFYKGVLGPRRRTERLLGGAEIPADIHSPIGLPIGAQGPEEIAVSIVGELIKEMRKQRSRL	PGPT0007280_1642	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
D1-12_02146	621	pucB	COG2068	Purine catabolism protein PucB	ATGAAAACAGCAGCCATTTACCTGGCAGCCGGTACAAGCAGACGCATGGGAACGGATAAGCGAAGTTTATTTCTCAATGGCGTTTCCCTTGGAAGTATGGCTCTTAAAAATGCCTTGTTATCTGAATTAGATCATATTTTCGTTATTACGGGAAAGGGAGATTCACTGCATTGGCTTTCGGATGTTTTCTTTTTATCCCCTATGTCAAACAAGTGGAGCCAGGCAGAATGTGAGCAGGCGGGTAAGGGCCAAGGCCATTCTATACAATGCGGTGTAAAAAAAGCGGCAGCGTACGAGGCTGACGCCGTTATCATTCTCCTTGCAGATCAGCCGTTTGTCACCGCAGATATCATCAATACGTTAATTGATTCCTATCAAAAAGAGCGCCGTTATTCATTTATCGCCGCTGAAAATCAGCATCTTCCTATGCCCCCCATTTTATTCTCCAATCAATGTTTTCCGGTATTGCATCAGTTAAAGGGAGATCGGGGCGCCCGGCATGTCATCCGTGAAAGTATGATCAAGGCGGGAAAAATGATCAGTTTTCAAGATCCTTTGCTTTTTTATGACGTCGATACAGTTGAAGATTATAGGCTGCTGCTGAATAAATTCGGGGAGTGA	MKTAAIYLAAGTSRRMGTDKRSLFLNGVSLGSMALKNALLSELDHIFVITGKGDSLHWLSDVFFLSPMSNKWSQAECEQAGKGQGHSIQCGVKKAAAYEADAVIILLADQPFVTADIINTLIDSYQKERRYSFIAAENQHLPMPPILFSNQCFPVLHQLKGDRGARHVIRESMIKAGKMISFQDPLLFYDVDTVEDYRLLLNKFGE	PGPT0007280_10	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
D1-12_02147	2331	xdhA	COG1529	Putative xanthine dehydrogenase molybdenum-binding subunit XdhA	TTGGAGTATATCGGGAAGAGTGTCATTCGGAAAGAGGCCCTTGAAAAAGTGACGGGTAAAGCGAAATATACGGATGATTTTCAAGAAACAGGGACGTTGCACGCAAAAATGCTGACCAGTCCATATGCTCATGCCGATATTGTGTTGATGGACTTTTCAGAAGCTTGGAAGATTCCCGGCGTGAGAGCGATATTGGGGGATGAACCTTTTCCGCTTGCAGGTGAAGAAATTAAAGACAGATCGCCGATTGCTTATAAAAGGGTCAGATACCATGGTGAGCCGGTTGCTGTTGTTGTTGCGGAAAATCCGATTACAGCTAAAAAGGCCGCGGATGCCATCAAAGTATCCTATAAACCTCTTCCCGTCGTCAATTCCCCCCGTGAGGCCTTTCAAAAGGATGCGCCGCTCGTCCATGAACATGCGGACCGCTATGAGAAGACAAAAGGTGTATTCCCGGTTCCGAAGACAAATATCGCAAACTTGGATAAGGTTAGAAAAGGAAATATTGAAGACGGATTTAGGGAAAGTGATGTGACAGCAGAATTCCAGATTTCCTTTAACCCTTCTGATCACGCTGCGATGGAGACAAGATGCTCGATCGCTGAAATTCGGGCGGATGAGGAGATTATCATTACCACATCCTCTCAAGCCCCTTTTGCCATTAAAAAATTAATGCAGTGGTACTTTGGGATTGAACCCGGAAAGGTTATCGTCAAAACGCCTTTAGTAGGAGGAGCGTACGGGGGAAAAGCAGCCGTTCAGTTAGAGGTCATTGCCTATTTGGCATCAAAAGCAGTCGGAGGCCGGCCCGTCAAATTGTTTAATACGAGAGAAGAGGATATGATCACATCTCCCGTTCATGTAGGATTGGATGCCATTGTCAAATTAGGGGCCACAAAGGATGGAATTTTAAAGGCGACGGACATTCAGCTTTTATTTGATGGCGGAGCATACTCTGATAAAGGAGTGGACATCAGCCGGGCTGCGGTGGTTGATTGTACGGGTCCGTACGCTATCGACCATATTTCGTGTGATTCATATTGTATGTATACGAATCATCCATATCCAAGTGCATTCAGGGGCTACAGCCATGCTGAAGTGTTATTTGCCTTTGAGCGGACGATGGATGTATTGGCGGAAAAGCTGAACATGGACCCGTTAGAACTTCGCTATAAAAATGCCATTCGCCCCGGTGACACCACACCGACTCAAGTTCTTCTCAATTCAAGCACGGTCGGAAATGTACCGAAATGTATTGAAAGATTGAAGGAATTAATGAATTGGGACGAGGGACAGCGAATTGAAATCGACGGCCGGAAGATACGGGCGAAGGGAATCAGCTGCATTTGGAAAACCTCAACATTTGATACAAATGCAACGTCCGGAGTGATTTTAACCTTTAATCCTGATGGAAGCATTAATTTGATGTCAGGGGTCGTGGAAATTGGAACAGGGACAAAAACAGTGTTAGCCCAAATCCTGGCGGAACGAATGAAAATGGATATAAGCAAAATTCATGTAAAAATGCTTATAGATACACAAACAACACCCGAGCATTGGAAAACCGTAGGGAGCAGAGGGACGTTATTGGCCGGGAGAGCCGTACTGAATGCAGCGGAGGAAGCCATTCGAAAGCTGAAGGACGCGGCATCATGTGTGTTGCGGGTTCCTGTCGAGGAATTGGAAGTGGCCGACGGAAAGGTTTATTTTATAGATCATCCTTCTGTACATGTTGAAATAAAAGACATTGCTTACGGATATACGTTTCCGAATGGAAATACCATTGGCGGCCAAATCATTGCGAGCGGCAATTACACATTAACCCGGATGACGAATTTAGACCGGGAAACGGGAAGAGGAAAGCCGGGACCCGAATGGGCTGTCGGTGCTCAGGGAATTGAAGTTGAGTTGGATAAACGGGATTATACGTACCGAATTACAAAAGCCTATTCTGTTGTGGATATAGGAACAGTATTGAATGAAAAAGCTGCAAGGGGTCAAGTGATGGGGGGGATGAGTATGGGAATCGCATTTGGAGGAAGAGAAACCTTTGTATTTGATCCGTATGGCAGAGTATTAAATCCTCAGCTTAGAACATACCGCCCCCTTCACTATGGAGAGCAGCCTGAATATATCATTGAATTTGTTGAAACCCCGCATGAGATTGCGCCTTATGGAGCGCGCGGCGGCGGGGAACACGGACTGTTGGGGATGCCGGCCGCATTGGGAAATTGCCTGTCCGCCGCTTTAGGTGTCCAATTGAATCAACTTCCTCTCATTCCCGAACAACTATGGAGAACGCAAGAGGGGTGGAAAGATGATACCGTTTGA	MEYIGKSVIRKEALEKVTGKAKYTDDFQETGTLHAKMLTSPYAHADIVLMDFSEAWKIPGVRAILGDEPFPLAGEEIKDRSPIAYKRVRYHGEPVAVVVAENPITAKKAADAIKVSYKPLPVVNSPREAFQKDAPLVHEHADRYEKTKGVFPVPKTNIANLDKVRKGNIEDGFRESDVTAEFQISFNPSDHAAMETRCSIAEIRADEEIIITTSSQAPFAIKKLMQWYFGIEPGKVIVKTPLVGGAYGGKAAVQLEVIAYLASKAVGGRPVKLFNTREEDMITSPVHVGLDAIVKLGATKDGILKATDIQLLFDGGAYSDKGVDISRAAVVDCTGPYAIDHISCDSYCMYTNHPYPSAFRGYSHAEVLFAFERTMDVLAEKLNMDPLELRYKNAIRPGDTTPTQVLLNSSTVGNVPKCIERLKELMNWDEGQRIEIDGRKIRAKGISCIWKTSTFDTNATSGVILTFNPDGSINLMSGVVEIGTGTKTVLAQILAERMKMDISKIHVKMLIDTQTTPEHWKTVGSRGTLLAGRAVLNAAEEAIRKLKDAASCVLRVPVEELEVADGKVYFIDHPSVHVEIKDIAYGYTFPNGNTIGGQIIASGNYTLTRMTNLDRETGRGKPGPEWAVGAQGIEVELDKRDYTYRITKAYSVVDIGTVLNEKAARGQVMGGMSMGIAFGGRETFVFDPYGRVLNPQLRTYRPLHYGEQPEYIIEFVETPHEIAPYGARGGGEHGLLGMPAALGNCLSAALGVQLNQLPLIPEQLWRTQEGWKDDTV	PGPT0007265_912	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007265-xdhB|pucD-K13482	NA	NA
D1-12_02148	843	ndhF		Nicotinate dehydrogenase FAD-subunit	ATGATACCGTTTGATTTCGACTATTTTAAACCGAAGACCATTCAAGAAACAACCCGCCTGTTTCACTCGCTTGCGGCCGAAAAGAAAACACCAATGTATTATTCCGGCGGCACGGAAATTATCACGTTAGGAAGGCTGAATATCATCTATACGGATGCGGTGATAGATATGAACGCGCTTCCGGGATTTCAAACCATCCGCTTTTATGAACATGATCTGGTGATCGGAGCGGGCGTGTCATTAACGAAACTGGAGGAAGAAAATCCATTTCCGCTATTAAGTAAAACAGTCAGTGAAATAGCCGATCGGACGACTCGAAATAAGATCAGCCTGGGCGGAAACATTTGCGGGGGCATCTATTACCGTGAGGCCGTGCTGCCGTTGTTAATTTCCGATAGTTTGATAGGGATTGCAGGGAGAGCGGGGATTCATTACCGTCCCATAAATAAAGTATTTAACAAGGAAATACAATTGCAAAAAGGAGATTTTTTATTTCATGTCGTTGTCGATCGAGCGTACGTTGACCTGCCATTTGTCAGTATCAAAAGAAGACAGCAGTGGAATGTCGGGTATCCATTGGTGACAGTCTGTGCGCTGAAAAAAGATGATGAGATCAGAATGGCCTTCAGCGGCGTATGTCCATTTCCGTTTCGTTCTGCTGAAATGGAGGCTGTGCTTAACGATAAAAGCCGATCAGCCGAAGAAAGAGTACGCAGGTCTTTACAATATGTACCCAAACCTGTTCTTGATGATGCAGAAGGCTCAAGTGAATACCGAATATTTGTCTTGCAACATACAATTTTAGATGCCTTACGGGAATTAGAAGGAGGTCCAAATGTCTGA	MIPFDFDYFKPKTIQETTRLFHSLAAEKKTPMYYSGGTEIITLGRLNIIYTDAVIDMNALPGFQTIRFYEHDLVIGAGVSLTKLEEENPFPLLSKTVSEIADRTTRNKISLGGNICGGIYYREAVLPLLISDSLIGIAGRAGIHYRPINKVFNKEIQLQKGDFLFHVVVDRAYVDLPFVSIKRRQQWNVGYPLVTVCALKKDDEIRMAFSGVCPFPFRSAEMEAVLNDKSRSAEERVRRSLQYVPKPVLDDAEGSSEYRIFVLQHTILDALRELEGGPNV	PGPT0007270_230	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007270-ygeT|xdhB-K13479	NA	NA
D1-12_02149	465	nicA	COG2080	Nicotinate dehydrogenase subunit A	ATGTCTGATCCTATTACGTTGAAAGTAAATGGCGAGGAAAGACAGATTACGGTCAGACCGGCTGATACTTTGTTATTTGCTCTTCGTCTTCGTCTCGGATTAACTGGTGCAAAGCCGGGCTGCTTAAATGGGGATTGCGGCGCCTGTACGGTATTAACGGACGGGGTGCCGATGAAATCTTGCTTAATGCTTGCGGCAGAAGGGGAAGGAAAGGATATTACGACAATTGAAGGACTGATCAATACGCCGATTCAAAAGGCCTTTATTGAAAAATTCGCGTTTCAATGCGGTTATTGCACACCGGGTTTTCTCATGAATTGTCATGCTTTAGTGAATACTGAGCCGAATGCAAGTGATGACACGATTAAAAATTGGCTGGAGTCCAATATTTGCAGATGTACCGGTTATAGGGAGATTGAAGAAGCGGTTAAATCCGTTTTACATACAGGGAAAGGGACTCATTAG	MSDPITLKVNGEERQITVRPADTLLFALRLRLGLTGAKPGCLNGDCGACTVLTDGVPMKSCLMLAAEGEGKDITTIEGLINTPIQKAFIEKFAFQCGYCTPGFLMNCHALVNTEPNASDDTIKNWLESNICRCTGYREIEEAVKSVLHTGKGTH	PGPT0007290_509	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007290-yagT-K13483	NA	NA
D1-12_02150	1926	fbp	COG3855	Fructose-1,6-bisphosphatase class 3	TTGGAAACGAAATATTTAGATCTGCTCGCACAAAAATACGATTGTGAAGAAAAAGTGGTCACGGAAATCATTAATCTGAAAGCGATACTGAACCTGCCGAAAGGAACCGAGCATTTCGTCAGTGATCTGCACGGGGAGTATCAGGCATTCCAGCACGTGCTGCGGAACGGTTCAGGAAGGGTAAAAGAGAAGATCCGCGATATTTTCAGCGGCGTCATTTACGATAGAGAAATTGATGAACTGGCGGCTTTGGTCTATTATCCTGAGGACAAACTGAAGCTGATCAAACATGACTTTGATACGAAAGAGGCACTAAACGAGTGGTATAAAGAAACGATTCATCGGATGATTAAGCTCGTTTCTTATTGTTCTTCCAAGTACACCCGCTCCAAATTGCGCAAAGCGCTGCCCGCCCAATTTGCTTATATTTCCGAAGAGCTGCTGTACAAAACAGAACAAGCCGCCAACAAGGAACAATACTACTCCGAAATCATAGAACAGATCATTGCGCTCGGCCAGGCCGATAAGCTGATCACCGGTCTTGCCTACAGCACGCAGCGATTGGTGGTCGACCATCTGCATGTTGTCGGCGATATTTATGACCGCGGACCGCAGCCGGATAAAATCATGGAAGAACTGATCAACTATCATTCAGTGGATATTCAATGGGGGAATCATGATGTTCTCTGGATAGGCGCTTATTCCGGCTCAAAAGTATGCCTGGCAAACATTATCCGCATCTGTGCCCGCTATGACAATCTGGATATTATTGAAGACGTTTACGGCATCAATCTGAGACCGCTATTGAACCTTGCCGAAAAATATTACGATGATAACCCGTCTTTCCGCCCGAAAGCGGACGAAAACAGACCGGAAGATGAGATTAAACAAATCACAAAAATTCATCAGGCGATCGCGATGATCCAATTCAAGCTTGAGAGCCCGATTATTAAGAGACGGCCGAACTTTAATATGGAGGAACGGCTGTTACTGGAAAAGATCGATTATGACCGCAATGAAATCACGCTGAACGGAAAAACATATCAACTGGAAAATACCTGCTTTGCGACGGTGAATCCTAAACAGCCTGACGAGCTGTTAGAAGAAGAAGCAGAAGTCATGGACAAGCTGCTGTTCTCTGTTCAGAACTCCGAAAAGCTGGGCCGCCATATGAATTTTATGATGAAAAAAGGCAGCCTGTATCTGAAATATAACGGCAACCTGTTGATTCACGGCTGTATTCCCGTCGATGAAAACGGCAGCATGGAAACGATGATGATAGAGGATAAAGCTTATGCGGGCCGTGAGCTGCTCGATGTATTTGAACGGTTCTTACGGGAAGCGTTTGCCCATCCGGAAGAAACTGATGATCTGGCGACAGATATGACGTGGTACTTATGGACAGGCGAATACTCCTCCCTCTTCGGAAAACGGGCCATGACAACCTTTGAGCGGTATTTCATTAAGGAGAAGGAAACGCATAAAGAAAAGAAAAACCCGTATTACTATTTGCGTGAAGACGAGGCAACCTGCCGAAACATCCTGAAGGAATTCGGCCTCAATCCGGATCACGGCCATATCATCAACGGCCATACACCGGTAAAAGAAATCGAAGGCGAAGATCCGATCAAGGCAAACGGAAAAATGATCGTCATCGACGGCGGCTTCTCCAAAGCCTACCAATCCACAACAGGCATCGCCGGCTACACGCTCTTATACAACTCCTACGGCATGCAGCTCGTCGCCCATAAACACTTTAACTCCAAGGCCGAAGTACTGAGCACCGGAACCGACGTCTTAACAGTGAAACGATTAGTCGACAAAGAGCTGGAGCGGAAGAAAGTAAAAGAAACAAACGTCGGTGAAGAATTGATGAAAGAAGTGGCGATTTTGGAGAAGCTGCGGGAGTATCGGTATATGAAGTGA	METKYLDLLAQKYDCEEKVVTEIINLKAILNLPKGTEHFVSDLHGEYQAFQHVLRNGSGRVKEKIRDIFSGVIYDREIDELAALVYYPEDKLKLIKHDFDTKEALNEWYKETIHRMIKLVSYCSSKYTRSKLRKALPAQFAYISEELLYKTEQAANKEQYYSEIIEQIIALGQADKLITGLAYSTQRLVVDHLHVVGDIYDRGPQPDKIMEELINYHSVDIQWGNHDVLWIGAYSGSKVCLANIIRICARYDNLDIIEDVYGINLRPLLNLAEKYYDDNPSFRPKADENRPEDEIKQITKIHQAIAMIQFKLESPIIKRRPNFNMEERLLLEKIDYDRNEITLNGKTYQLENTCFATVNPKQPDELLEEEAEVMDKLLFSVQNSEKLGRHMNFMMKKGSLYLKYNGNLLIHGCIPVDENGSMETMMIEDKAYAGRELLDVFERFLREAFAHPEETDDLATDMTWYLWTGEYSSLFGKRAMTTFERYFIKEKETHKEKKNPYYYLREDEATCRNILKEFGLNPDHGHIINGHTPVKEIEGEDPIKANGKMIVIDGGFSKAYQSTTGIAGYTLLYNSYGMQLVAHKHFNSKAEVLSTGTDVLTVKRLVDKELERKKVKETNVGEELMKEVAILEKLREYRYMK	PGPT0017660_380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017660-fbp3-K04041	NA	NA
D1-12_02152	1347	cycA	COG1113	D-serine/D-alanine/glycine transporter	GTGGAGCAGCGAGAGCTAAAGAGGGACTTATCGAATCGGCACGTGCAGCTGATCGCCATTGGCGGCACGATCGGCACCGGATTGTTTTTAGGGTCCGGTAAGGCGATTCAGCTGGCGGGTCCTTCTATCATCTTTGCGTATTTTATTGTAGGTATTGCGCTTTTTTTCGTCATGCGGGCGCTGGGAGAACTGCTGTTATCTAAAGCGGGCTACCAATCATTAACGGATATTGCCGAGGCGTATTTAGGGCCGCGTGCAGCGTTTGTCACTGGCTGGACCTACTGGTTTTGCTGGATTATGACGGCTATGGCGGATGTGATCGCCGTCGGTGTGTATGTGAAATATTGGTTTGATATTCCGCAGTGGATTCCGGCACTTATCTGTTTGCTCATTTTATTAGGGCTTAATCTGTTAACGGTTAAGATTTTTGGAGAATTGGAGTTTTGGTTCGCCTTAATTAAGGTAGTCACGATTCTCGCGTTAATTGTCATCGGTGTGGTTCTGCTGGTGATTGGGTTCAAAACGCATACCGGAACGGTTTCAGCGGCGAATCTGTGGGAGCACGGCGGCTTGTTTCCGAACGGATTTTCAGGCTTTTTGCTTTCGTTCCAGATGGTGATCTTCGCCTATGTCGGTGTGGAATTAGTGGGTGTGTCGGCGGCGGAAACGTCAAATCCGAAAAAAAATATTCCGTCCGCTATCAATAAAATTCCATTGCGGATTTTATTTTTCTACGTCGGGGCATTGCTCATTCTTTTATGTATTAACCCGTGGATGCAGCTGAATGCGGCGGAAAGTCCTTTTGTGAAGACCTTCAGTCTGGTCGGCATCCCGTTAGCCGCGGGAATCATTAATTTTGTCGTATTAACGTCTGCTGCTTCTGCTTGTAACAGCGGGATGTTTTCAACAAGCCGGATTTTGTATAACTTAAGCAAAACGAAACAAGCGCCTGCAAGTTTTGCGAAGCTGAATAAAAATCATGTGCCGAGCCGCGCATTATGGATATCGGTTATTGTGCTGTCAGCGGGCGCTCTTTTAAGCAAATTGATACCGGAAGCGGCTTTTGGCATCGTGACAACCATCAGCGCGATTTGTTTCATTTGGGTGTGGGGCGTGATTCTTGTCTGTCATATCAGATACAGAAAAACCCGTCCGGACTTACATGCAAGCTCGTCTTTCAAGGCGCCGTTTGCGCCGTTTATCAATTACGCCGTGTTAGCGCTGTTTGCCGTTATTCTGGTGATTATGCTGTTTGCGGATGCAACGCGCCCGGCTTTGCTGCTGACGCCGCTGTGGTTTATTGGATTATTTCTTATCTATCGGGCGAGAAGGAGAAAGACAGATTGA	MEQRELKRDLSNRHVQLIAIGGTIGTGLFLGSGKAIQLAGPSIIFAYFIVGIALFFVMRALGELLLSKAGYQSLTDIAEAYLGPRAAFVTGWTYWFCWIMTAMADVIAVGVYVKYWFDIPQWIPALICLLILLGLNLLTVKIFGELEFWFALIKVVTILALIVIGVVLLVIGFKTHTGTVSAANLWEHGGLFPNGFSGFLLSFQMVIFAYVGVELVGVSAAETSNPKKNIPSAINKIPLRILFFYVGALLILLCINPWMQLNAAESPFVKTFSLVGIPLAAGIINFVVLTSAASACNSGMFSTSRILYNLSKTKQAPASFAKLNKNHVPSRALWISVIVLSAGALLSKLIPEAAFGIVTTISAICFIWVWGVILVCHIRYRKTRPDLHASSSFKAPFAPFINYAVLALFAVILVIMLFADATRPALLLTPLWFIGLFLIYRARRRKTD	PGPT0020615_945	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI_TRANSPORT,PGPT0020615-cycA|ydgF-K11737	NA	NA
D1-12_02153	1233			hypothetical protein	ATGAAGTATGAGAAGTTATCTAAGCTTTTTTATAAAATGGATGCTGATTCATATGAGAAAGAATGTAAAAAGAGAACAAGCAGCTATGGCAGTTATTCAACATCATTAAACATACGGGGGTTCCGAAAAGGCCGACCCACGGGCGATTCATTTGAGTTATTCTATGTGAATACACATAAACTCATGAAGCTGAATAATGAAGTGTTGTTAAACAGTTCCAAAATTTCATCCCTTATCAGTCAGCTCCCCGAATTTGCCGTCAAACCTTATTTTGATAAATTAATTATTAATGAAGCACAGAGTAATAATGAAATTGAAGGAATCCGCAGTACAAAAAAAGAATTGAAAGAGGCTCTTAAAGCGTTAGAACAATCCGAGCCCTCACATAAGCGGTTTGTCGGATTGATGAAAACATATCAATTTATAGACCGAATTCCGTCGTTTACAAGCATTCATGACTTTAGGGAATTATATGACGAGCTGGTCGCAGATGAAATCGGAGCAGAAGATGCGCCGGATGGTGAGCTATTCAGAAAAGGCTATGTTGAAGTGGACGATGGGAACATGACCACCCATATCGGTGTTAATTCTGAACAGAAGATAACAGAAGCGCTTGAGGCTTTAATTGCTTATCTTCATGATGAAACACATCCCCAGCTGTATCGTTACATGACAGCTCATTACTACTATGAATACATTCACCCTTTTTATGACGGCAATGGAAGAACAGGACGCCTTATCGTTGGGAGTTATTTGTCCCGATACTTAGAAAAATATTCAGCCATCACTTTTTCTTACGCAGTTAATAAGAACAAAGATAAGTATTATAAGGCATTAGAGGAAATTCCCGCACCTTTAAACCGGGGAGAGCTGACTTTTTATTTAATGGATATGCTGGAATTGCTTCTGTCAGGTCAAAAAGGGATTATTGAGGATCTTGAATTTAATTTAATGAAACTGAAACGAATTAGGAACTATATTGATAGCGATCAATGGGCTGATTATAAGGATGAACGTGATATTTTTAATATCATTATCACGATTAATGTATTTGTAAATGATCAGGTTACGCTGTCGGTGCAAGATTTAATGGAGCTCTCAAATAAATCGAGACATAAAATTAACAGAGTAATGGATTATTTAGAACAGCAAGGATTTGTTGAGCTGGTAAGCAGAAGGCCAAAATCTTATAAAATCAGCGAGGATTGTTTAGAGGAGATACTGCCTTCTTAA	MKYEKLSKLFYKMDADSYEKECKKRTSSYGSYSTSLNIRGFRKGRPTGDSFELFYVNTHKLMKLNNEVLLNSSKISSLISQLPEFAVKPYFDKLIINEAQSNNEIEGIRSTKKELKEALKALEQSEPSHKRFVGLMKTYQFIDRIPSFTSIHDFRELYDELVADEIGAEDAPDGELFRKGYVEVDDGNMTTHIGVNSEQKITEALEALIAYLHDETHPQLYRYMTAHYYYEYIHPFYDGNGRTGRLIVGSYLSRYLEKYSAITFSYAVNKNKDKYYKALEEIPAPLNRGELTFYLMDMLELLLSGQKGIIEDLEFNLMKLKRIRNYIDSDQWADYKDERDIFNIIITINVFVNDQVTLSVQDLMELSNKSRHKINRVMDYLEQQGFVELVSRRPKSYKISEDCLEEILPS				NA	NA	NA	NA	NA
D1-12_02154	1530	ahpF	COG3634	NADH dehydrogenase	TTGGTACTTGATGCAAATATCAAAGCACAATTAAATCAATACATGCAGCTAATTGAGAACGACATTGTTCTCAAAGTAAGCGCCGGTGACGATGACACTTCTAAGGACATGCTGGCTCTCGTTGACGAGCTGGCTTCCATGTCATCTAAAATTTCAGTTGAAAAAACTGAATTAAACAGAACACCGAGCTTCAGCGTTAATCGTACCGGAGAAGACACAGGCGTTACATTCGCCGGTGTTCCTCTCGGCCACGAATTTACATCTTTAGTGCTGGCATTGCTTCAAGTCAGCGGCAGAGCGCCTAAGGCTGATCAAAAGGTCATTGACCAGATTAAGAACATCAGCGGAGAATACCGCTTTGAGTCTTATATCAGCCTGACGTGCCACAACTGCCCTGATGTCGTCCAAGCATTAAACATGATGAGCGTGCTCAACCCGAATATCACACATACAATGATTGACGGCGCGGCATTCAAAGAAGAAGTAGAAAGCAAAAACATTATGGCTGTTCCGACTGTTTTCTTAAACGGTGAATCTTTCGGAAGCGGCCGTATGACCATCGAAGAGATTCTCGCGAAAATGGGCAGCGGCGCAGATGCGTCTGAGTTTGCCGACAAAGACCCGTTTGACGTTCTTGTTGTCGGCGGCGGACCTGCCGGCGCAAGCGCGGCGATCTACACGGCGCGTAAAGGCATCCGCACCGGTGTCGTCGCTGAACGCTTCGGCGGCCAGGTACTCGACACCATGAGCATCGAGAACTTCATCAGCGTCAAAGCGACTGAAGGACCGAAGCTCGCCGCAAGCCTTGAAGAGCACGTGAAAGATTATGATATTGACGTCATGAACCTTCAGCGCGCGAAACGCCTTGAGAAAAAAGACCTCTTCGAACTTGAACTTGAAAACGGCGCTGTACTGAAAAGTAAAACAGTGATCCTTTCAACAGGTGCCCGCTGGCGCAATGTCAACGTACCTGGTGAGCAAGAGTTCAAAAACAAAGGTGTTGCATACTGCCCGCACTGTGACGGACCATTGTTTGAAGGCAAAGACGTAGCCGTTATCGGCGGCGGAAACTCCGGAATCGAAGCGGCGATTGACCTTGCAGGTATCGTCAATCACGTGACTGTGCTGGAATTCGCGCCTGAACTGAAAGCAGACGAAGTCCTGCAAAAACGTCTTTACAGCCTGCCAAACGTCACTGTGCACAAAAATGCACAAACGAAAGAAATCACAGGCGATCAAAACGTAAACGGCATTACGTTCGTTGACCGTGAAACAGGCGAAGAAAAACACGTTGAACTCCAAGGTGTATTCGTCCAAATCGGTCTCGTGCCTAATACAGAATGGTTAGACGAAACTGTCGAACGCAACCGCATCGGCGAAATCATCGTCGATAAGAGCGGCGCGACAAGCGTTCCCGGCCTATTTGCCGCAGGGGACTGCACAGACGGCCCGTACAACCAAATCATTATCTCCATGGGATCAGGTGCAACTGCCGCTTTAGGCGCATTTGATTATTTGATCCGGAATTAA	MVLDANIKAQLNQYMQLIENDIVLKVSAGDDDTSKDMLALVDELASMSSKISVEKTELNRTPSFSVNRTGEDTGVTFAGVPLGHEFTSLVLALLQVSGRAPKADQKVIDQIKNISGEYRFESYISLTCHNCPDVVQALNMMSVLNPNITHTMIDGAAFKEEVESKNIMAVPTVFLNGESFGSGRMTIEEILAKMGSGADASEFADKDPFDVLVVGGGPAGASAAIYTARKGIRTGVVAERFGGQVLDTMSIENFISVKATEGPKLAASLEEHVKDYDIDVMNLQRAKRLEKKDLFELELENGAVLKSKTVILSTGARWRNVNVPGEQEFKNKGVAYCPHCDGPLFEGKDVAVIGGGNSGIEAAIDLAGIVNHVTVLEFAPELKADEVLQKRLYSLPNVTVHKNAQTKEITGDQNVNGITFVDRETGEEKHVELQGVFVQIGLVPNTEWLDETVERNRIGEIIVDKSGATSVPGLFAAGDCTDGPYNQIIISMGSGATAALGAFDYLIRN	PGPT0013150_1307	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387	NA	NA
D1-12_02155	564	ahpC	COG0450	Alkyl hydroperoxide reductase C	ATGTCTTTAATCGGAAAAGAAGTACTGCCATTCGAAGCAAAAGCTTTCAAAAACGGTGAATTCATCGATGTAACAAACGAAGATTTGAAAGGTCAATGGAGCGTTTTCTGCTTCTACCCAGCGGATTTCTCTTTCGTTTGCCCGACTGAACTTGAAGATCTTCAAGGACAATACGCTGCACTGAAAGAATTAGGTGTTGAAGTATACTCTGTTTCTACAGATACTCACTTCGTACACAAAGGCTGGCATGACAGCTCTGAAAAAATCGGCAAAATCACTTACGCAATGATCGGTGACCCATCTCAAACGATCTCCCGCAACTTCGACGTTCTTGACGAAGAAACTGGTCTTGCTGACCGCGGAACATTCATCATCGATCCTGATGGCGTGATCCAAACAGTTGAAATCAATGCAGGCGGTATCGGCCGTGACGCAAGCAACCTTGTAAACAAAGTCAAAGCAGCTCAATACGTTCGTCAAAACCCAGGTGAAGTCTGCCCGGCTAAATGGGAAGAAGGCGGCGAAACACTTACACCTAGCCTTGATTTGGTAGGTAAAATCTAA	MSLIGKEVLPFEAKAFKNGEFIDVTNEDLKGQWSVFCFYPADFSFVCPTELEDLQGQYAALKELGVEVYSVSTDTHFVHKGWHDSSEKIGKITYAMIGDPSQTISRNFDVLDEETGLADRGTFIIDPDGVIQTVEINAGGIGRDASNLVNKVKAAQYVRQNPGEVCPAKWEEGGETLTPSLDLVGKI	PGPT0003260_32	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119	NA	NA
D1-12_02156	687			hypothetical protein	ATGCAAATAAATAACATTACTTTGTACAGTTGTGCGTTGGAGGAGACGAAACACTTCTATGAACGGGTGTTAGGTTTTCCTTTAATTGATGAGTCCGGTGATTCGTTTACCATCAAGGCGGGAGAAAGTGAGTTGGAATTCAGGCGCGCCGATTCTCACTCTCATCCGGCGTATCATTTCGCGTTTAACATTCCGAATAATTGTTTTGATGAGGCGAAGGCGTGGATAAAGGATAAAGTCGTTTTTCAAACGGAAGATGGGGAGGATGAGGTGTATTTCTCCCATATTCAGGCGCGTTCCTTTTATTTTAAAGATCCGTCCAACAATCTGGCGGAATTCATCGCGAGAGACACATCGCCGCCAAGCGCGGAACGTTTTTCGATTGAGTCCGTTCTGAATATCGGTGAGGTGAATCTGACGGCTGCCGAGGTCGTATCAACCGGGAGGGAGCTGCAGCGTTTCGGCATTCCGGTGAGAAAGCATGCGCCTCTTAGTGAAAACGGGTTTCATTTTATGGGTGATTACAATGATGGGGCGTTTTTGCTTTTAGGGCCGAGCGGCCGCCGCTGGATTTTTTCTGATCAGCATGCGGAGTTCCATCCGCTGTCTGTTATTGTGAACGGGACGATCCGCATTGAGGCTGACGGAAAGGGCGGCATTGACATCAGGCGGGCACAGCCGTCATAA	MQINNITLYSCALEETKHFYERVLGFPLIDESGDSFTIKAGESELEFRRADSHSHPAYHFAFNIPNNCFDEAKAWIKDKVVFQTEDGEDEVYFSHIQARSFYFKDPSNNLAEFIARDTSPPSAERFSIESVLNIGEVNLTAAEVVSTGRELQRFGIPVRKHAPLSENGFHFMGDYNDGAFLLLGPSGRRWIFSDQHAEFHPLSVIVNGTIRIEADGKGGIDIRRAQPS				NA	NA	NA	NA	NA
D1-12_02157	456			hypothetical protein	ATGGAAAGACCGGCAGGATTTTGGATTCGGTTTCTGGCTTACGTCATTGATCAAATCATCATAGGAATTCCGATTTTTATCATTCAATTTATGGTCTCTTTTTTATTTGCGGCAGGCGTTGCGGCGGCTGACCCCTTCATGACCGAAAATCAGTTTAACATCTCTTTTCTGGTGTTCGGCGTCATCCCGATTCTTGCGAGCTCTTTTGTGATCAGTATCTTATATTTCAGCCTGCTCACGGCCTCAAAGATGCAGGGGACACTGGGAAAAGCATTGCTCGGCCTTAAGGTCGTCAATGAAGATGGCGGACGCATTTCCATCGGCCAGGCCTTCGGACGCGCTTTCGCATATATCATATCTAAGCTCATTCTTTATATCGGATTCATCATGGGCGCCTTCGGAGAGAAAAAAACGCTGCACGACATCATGTGCAGCACCCGTGTTGTCTATAAATAA	MERPAGFWIRFLAYVIDQIIIGIPIFIIQFMVSFLFAAGVAAADPFMTENQFNISFLVFGVIPILASSFVISILYFSLLTASKMQGTLGKALLGLKVVNEDGGRISIGQAFGRAFAYIISKLILYIGFIMGAFGEKKTLHDIMCSTRVVYK				NA	NA	NA	NA	NA
D1-12_02158	1167	pbuE_2	COG2814	Purine efflux pump PbuE	ATGAAAAAAAGCAGCTCCATCTTCATTCTGTTTTTGGCATTAGGGGTTTTCGGAATTATCACGACTGAAATGGGCATTATCGGCGTTCTTCCGCAAGTGGCGGACAGATTTCATATTTCTGCTTCAAAAGCGGGGTGGCTTGTCAGTATTTTCGCGTTCATCGTCGCTGTGTCGGGACCGTTTTTAACCTTGCTTGCTTCAGGTATAAACCGGAAATACATTCTGCTTTTGGCGGTGCTGATGTTTGCCGTTTCAAATGCGGTCTACGCGTATACGGCGCATTTCAGTGTCATGCTGGCGTTTCGGATCATTCCGGCTTTATGCCACCCGGTGTTCTTTTCTGTAGCGCTTGCGGCCGCGGCCCGGCTTGTCCCCGCCGGCCAATCCGGAAAAGCCGTAACGAAAGTCTTTTCAGGCATCACCGCCGGCTTTGCGTTCGGCGTGCCTTTCACGTCTTATCTGGCGGATCGTCTCTCCCTTGAAGCCGCCTTCTTATTCGGCGCTATCATCAGTCTCATCGCGTTCACGGGCATTCTTCTCTTTTTACCATCCATGCCGGTCACAGAAAACATGTCTTTCAGAAGCCAGCTCGGTATCCTTCGCAAACCGGCTTTGTGGCTCAATATCGCTGCCGTCACCTGTCTCTTTGCGGCCATGTTTTCTGTCTACAGCTATTTTGCGGAGTACCTCGGACGGGTGTCCCATATGAACGGCACATGGGTCAGCTTTATGCTGATGAGCTTCGGAGTGATTATGATAGCCGGGAATTTCGTCTTCGGTGCTTTGTTATATAAAAATATGAAAAAGACCGTCATCCTGTTTCCGCTTCTTTATACAGCCGCCTACTTGCTCATATACGGGTTTGGGACGTCTTTCGCGCCGATGGCCGTCCTCGTCTTCGTATGGGGCGCCGTTCATTCCGGCGGGCTCATTGTCAGCCAGACATGGCTTACTGCGGAAGCAAAGGAGGCCCCCGAATTCGGCAACAGCCTGTTTGTCTCTTTTTCCAACCTCGGCATCACCATCGGAACGGCGGCGGGCGGCTGGTTTATTTCACATTTGGGAATCCATCAGCTGATGTGGTGCGGCATCATGTTTGCCCTTCTGGCTTTCGGGCTGATCATGGGACGCTTGGCATGGGGAAAGAGGCTGCTCGCAGAAGCTTAA	MKKSSSIFILFLALGVFGIITTEMGIIGVLPQVADRFHISASKAGWLVSIFAFIVAVSGPFLTLLASGINRKYILLLAVLMFAVSNAVYAYTAHFSVMLAFRIIPALCHPVFFSVALAAAARLVPAGQSGKAVTKVFSGITAGFAFGVPFTSYLADRLSLEAAFLFGAIISLIAFTGILLFLPSMPVTENMSFRSQLGILRKPALWLNIAAVTCLFAAMFSVYSYFAEYLGRVSHMNGTWVSFMLMSFGVIMIAGNFVFGALLYKNMKKTVILFPLLYTAAYLLIYGFGTSFAPMAVLVFVWGAVHSGGLIVSQTWLTAEAKEAPEFGNSLFVSFSNLGITIGTAAGGWFISHLGIHQLMWCGIMFALLAFGLIMGRLAWGKRLLAEA	PGPT0028991_3529	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
D1-12_02159	300			hypothetical protein	TTGATTCATAAAGCGTTATCTAACAAAACACGAAGTGATATTATGACGTGGCTTAAACACCCGGAGGACCATTTTGATGAAAAACCTTACCTTGAGCAGGGACTCAGTTTCCGCACCGGAATTTGCGTCGGTGATATTCAGGCAAAGTCAGGGCTTGCGCAGTCCGTCATCTCCAGCTACCTGCTGACCATGCAAAAAGCCGGCCTGCTGGAATCCGAACGAATCGGAAAATGGACCTATTACAGAAGGAATGAAAAACAAATTAAAGCCTTTGCTGACTATGTTCAGCACCAGCTATAA	MIHKALSNKTRSDIMTWLKHPEDHFDEKPYLEQGLSFRTGICVGDIQAKSGLAQSVISSYLLTMQKAGLLESERIGKWTYYRRNEKQIKAFADYVQHQL				NA	NA	NA	NA	NA
D1-12_02160	420			hypothetical protein	ATGAATCAAAAGAAAAAAGGTACGGTTGCGGTGACCTTGCTTTCCGCTCTGCTGTTTTGTTTATTGCCGGTCCTCGTCTCGCTTTCTCCGCTTGCGGAAACGGGGCCGAACGCGAATCGTTTTAATTCCGCGGGCATGTGGGCCGCCGTCGGCCAGATCCTTGTTATATATGCGGTCCCGCTCATTTTGTATATTCTCGGTATTCGTGTCATGAAAATCATCATGGCCGTTTTTTGCGGAATCGGGCTTATCATTTGCGCGGCTGTCTTGTTGGTGACGTTATTGACCGCAATTTCCTTAGGGCAGGAGCTGTCTCTTTATTACGGCCTTCTCGTTTGGTCAGGCGCGGCTTTTATCGTCAATGTGGTGTGGTATATTGCCGCGTTTCGATCATCCCCGAAGCATCAGCAGGCTATGTGA	MNQKKKGTVAVTLLSALLFCLLPVLVSLSPLAETGPNANRFNSAGMWAAVGQILVIYAVPLILYILGIRVMKIIMAVFCGIGLIICAAVLLVTLLTAISLGQELSLYYGLLVWSGAAFIVNVVWYIAAFRSSPKHQQAM				NA	NA	NA	NA	NA
D1-12_02161	1248	yxaL	COG1520	putative protein YxaL	TTGAAAAAAAAGACAGCTTCATTGCGAATGAAAACATTGGCGGCCGGCGCTGCGGTTGCTGCGGCTTTATCTGTGGGAGCGGTTTCTGATCTGCCGGGGGCAAAATGGCTGCATCCGGCGGCTGCTCAAGCTGCGGAAACGGTATTTAAACAAAATCATGCGGCATCCGGTTTCTTGGCGGGGCGGTATGACGCGCAGGCGATGTCTCCGACGATGTTCAACTGGTCAAGAGAAAGCCGGTTTACAAGCACTGCCGATGGCGCATTAAAATGGGAAAAGAATGTTCCGGCCAATCCTCAAAACGGTGCGGGAGCCGCGGTTGATGGGGACGGCACCGTATTTATTCAATCAAAAGACGGGAAGCTGACGGCGTATCATCCGGACGGTACTGTGAAATGGGTGACGGAAAACCTCGGGACGACCTATACGCTGACTCCGGTGCTCGGAACAAACGGTGTCATTTATCTTCCTTCTCACGATAAAAAACTATATTTCATCGACAAAGAAACGGGAAACATTTTAACATCGGTTCCGCTGAGCGGAGCGCCTAGTTCAGATGCGGCTATCGGCTCTGACGGCACGCTGTATGTGTCGACGCTGGATAACTATATCTATGCGATTAAACCGACGTCGCCTTCGACATGGACGCAAAAGTGGAAGTTTAAAACAAACGGCGTGGTCGGCTCCGCTCCCGTGTTAGCATCAAACGGCACTCTGTATACGGCAACGTACAATAATATCTTTTACGCGATCAATTCCGGAACGGGCCAAGTGAAATGGTCAAAAACGACGTCCAACGGGTTTAAAGGTTATCCGGTTATAGATAGAGACGGCACCGTTTACGCCGGAAACCAGGACGGCAACTTATATGCCTATACATCAACGGGTGCTGTAAAGTGGACGTTCCCGTTAAACGGTTTCTCCAGCTCTTCATTAGCGATCGACCATAACGGCAATGTGTATATCGGTTCCGGAAGCGGCGAGCTGTTTTCCATCAGCAAAACCGGTAATATGAACTGGTCTTTCTATACGGACGGGCCTGTGAGAACGGCGCCGCTGATTGATGCGGACGGCAATGTGTACTTCGGCTCTGACGATAAAAACGTCTATGCGGTTGACGCTGACGGTAATGAAAAATGGCGCTATCAAACAGACAGCAATGTCATTTCCTCCCCGGTTCTGGCTGAAGACGGCACGCTTTATGTCGGCACTTATACGAAACTGCTCGCATTCGGAGCAAAAAAATAA	MKKKTASLRMKTLAAGAAVAAALSVGAVSDLPGAKWLHPAAAQAAETVFKQNHAASGFLAGRYDAQAMSPTMFNWSRESRFTSTADGALKWEKNVPANPQNGAGAAVDGDGTVFIQSKDGKLTAYHPDGTVKWVTENLGTTYTLTPVLGTNGVIYLPSHDKKLYFIDKETGNILTSVPLSGAPSSDAAIGSDGTLYVSTLDNYIYAIKPTSPSTWTQKWKFKTNGVVGSAPVLASNGTLYTATYNNIFYAINSGTGQVKWSKTTSNGFKGYPVIDRDGTVYAGNQDGNLYAYTSTGAVKWTFPLNGFSSSSLAIDHNGNVYIGSGSGELFSISKTGNMNWSFYTDGPVRTAPLIDADGNVYFGSDDKNVYAVDADGNEKWRYQTDSNVISSPVLAEDGTLYVGTYTKLLAFGAKK	PGPT0014544_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	DROUGHT_STRESS_REGULATION,PGPT0014544-yxaL-NA	NA	NA
D1-12_02162	1338	alkH		Aldehyde dehydrogenase	ATGGATCAGCATATAAAAGCAGACATCAAACGCGTCTTTGAGCTTCAGAAAAAAAATCAAAAAACGCTGCGTGCTTCAACAGCCGGGCAGCGCAGAGAAAAGCTTCAGCGCTTTTTAGATGCCGTCACCGCACATGAAGAAGAAATCATCGAGGCGATCAGACGGGACGTCCGCAAGCCTTATCATGAGGTGAAAAGAGCGGAAACGCAGGGAACGATCAAGGCGATTAAAGATAATATGAACAATCTCGACACCTGGATGGCGCCGAAACGCGTCGGCTCATCCGTCAGCCCCGACGCTGACGGCGTATTAATGTACGAGCCAAAAGGCGTCACCTTAATTCTCGGCCCATGGAATTATCCGTTTATGCTGACGATGGCTCCGCTTGCGGCTGCCATTGCGGCCGGCAACAGCGCGATTGTGAAGCTGTCCGATTTTACGATGGAGACGAGCCATATCGCCGCGACAGTTATTCGCGAGGCGTTTCATGAAGAAGAAGTCGCCATTTTTGAAGGTGAGGTCGATGTCGCCACAGAACTGCTCGACCAGCCGTTTGACCACATTTTCTTCACCGGAAGCACGAATGTCGGTAAAATCGTCATGACGGCAGCGGCGAAGCACTTGTCGTCCGTCACGCTTGAGCTTGGCGGAAAAAGCCCGACGATCATCGACAGCGGCTATGATTTGATGGACGCGGCGAAAAAAATCGCCGTCGGCAAATTTGTCAATGCGGGGCAAACATGTATCGCTCCTGACTATCTTCTTATGAAGGAAGATGTACAGGACACCTTTACAGATCTTCTCCAGACCATTGTCAATGCAGGTTTTATGGAGGATGATCATACGGTTGACCGCAACAAGTTCACGCAAATTGTCAACGACCGCAACTTTAACCGTGTCAAAGCCCTGTATGATGATGCCATTGAAAAAGGGGCGAAAACGGCGTTCGGCGGCGTATTCGATGCGCATGACCGCACGATTTCTCCGACCGTGCTGACAAACGTCACGCCTGATATGAAGATCATGCAGGAAGAAATCTTCGCACCGATTCTGCCGATTATGAATTACGAAGATATCAGTGAAGCCGTTGATTACATCACTGAACGGGACAAGCCGCTTGCCTTGTATGTATTCAGCCATAATCAGGAGCTGATTGATTATGTTCTGCAGCATACGACGTCCGGCAATGCTTCTGTCAATGATGTCGTCGTTCATTTCACTGACGTCAACCTTCCGTTCGGCGGTGTCAATACGAGCGGGATCGGTTCATATCACGGTGTGTACGGCTTTAAAGAATTCTCTCATGAAAAAGGCGTATTTATTCAAGCCTCTAAATAA	MDQHIKADIKRVFELQKKNQKTLRASTAGQRREKLQRFLDAVTAHEEEIIEAIRRDVRKPYHEVKRAETQGTIKAIKDNMNNLDTWMAPKRVGSSVSPDADGVLMYEPKGVTLILGPWNYPFMLTMAPLAAAIAAGNSAIVKLSDFTMETSHIAATVIREAFHEEEVAIFEGEVDVATELLDQPFDHIFFTGSTNVGKIVMTAAAKHLSSVTLELGGKSPTIIDSGYDLMDAAKKIAVGKFVNAGQTCIAPDYLLMKEDVQDTFTDLLQTIVNAGFMEDDHTVDRNKFTQIVNDRNFNRVKALYDDAIEKGAKTAFGGVFDAHDRTISPTVLTNVTPDMKIMQEEIFAPILPIMNYEDISEAVDYITERDKPLALYVFSHNQELIDYVLQHTTSGNASVNDVVVHFTDVNLPFGGVNTSGIGSYHGVYGFKEFSHEKGVFIQASK	PGPT0006875_9973	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-12_02163	1158			hypothetical protein	ATGCCGGATTCTGTGACAACTGACATCAAACAAGCGCTTTTGGCCATGCTTGGAGAGCGGGATATCCGCCGTGTGACCATGAAGGACATTGCCGAACGGTCGCATGTGAGCCGGGGGACACTGTACCTTTATTACGAGGATAAATATGCGATTTTAGAGGATATAGAGGAAGAAATGAAAGACGGGCTGAGCGAAGCGCTGTATGATTCGCTGAAGAATAAAGATGTGCTTCATTTACATGGCGGATGGCAAAAAGTGCATCCGACCCTGTCTTTTGTTGACCGGCACCGGGAGTTTTTTCAAACGATGATGGACCGTCATAAAATGCCGTATTTTCACTTTCATGCTTTTTTAAAAGATGTGTTCCGGCATGATGTGCTGCTGTCACCGGTCAATGCGGATTTCTCACCGACTGAACAGGATATGTACATTCATTACCGCGCTTTATACACGTATGCCATTGTGTTGTACTGGCTGAATGAGGAGCCCGGGGCATCCCCGGAAGCGATCAGCGGACAGGTGTGGGATTTAATTTCTCAAAAACGATTTTACTGGCTGTTTGGCCGCCGGGTGCCGGAACAAGAAGAAAAAAAGCCCGCCGACCGCCGGGTGACCCGGACGAGGCAGGCCTTGCAAGAAGCCATGATCGGCTTAATGGCGGAAAAAAAAGAGTACGCGGCGATTACGATTTCCGATATTGCCCGTCAAAGCAACCTCCGCCGTGCCACTTTTTATGACCATTACGCCAACAAAGAAGCATTGCTGAAAACGATCATCCATCAATCATGCCGGGATCTGATCGGATTATTGACGGTAAAAGGAGAGCCTGCCGATTGCTCCATGGAAGAAGCGGAAGCCGCGCTCGTCCGTCTCTTTTCGGCACTGTCGGACGGCCTGCCGCTCGTTCATTTTCTGAGAGAGGGTTCGGGAGTGCCTGACGTCATTCCAGAAATGTTCAGAGCGCTGCAATCGTTTTATCTTCATCAGCCTCTGCACATTCAGGCGGGGAAAAAGCTCTATGCATACTATGTCGCGTCCATGCTCGTCGGCTTGATTCAATATCGTCTTCATGAAGGAAAAGACCACGCGCCGGACATGCTGGCCCGGGAGTTTCTGCAGTTTTTGGATGTGAAGAAGTATCGGGTGATTTTGCTGTGA	MPDSVTTDIKQALLAMLGERDIRRVTMKDIAERSHVSRGTLYLYYEDKYAILEDIEEEMKDGLSEALYDSLKNKDVLHLHGGWQKVHPTLSFVDRHREFFQTMMDRHKMPYFHFHAFLKDVFRHDVLLSPVNADFSPTEQDMYIHYRALYTYAIVLYWLNEEPGASPEAISGQVWDLISQKRFYWLFGRRVPEQEEKKPADRRVTRTRQALQEAMIGLMAEKKEYAAITISDIARQSNLRRATFYDHYANKEALLKTIIHQSCRDLIGLLTVKGEPADCSMEEAEAALVRLFSALSDGLPLVHFLREGSGVPDVIPEMFRALQSFYLHQPLHIQAGKKLYAYYVASMLVGLIQYRLHEGKDHAPDMLAREFLQFLDVKKYRVILL				NA	NA	NA	NA	NA
D1-12_02164	1050	des	COG3239	Fatty acid desaturase	ATGATCAATCACGCCGCAACTCAAAAACAAGCGTCTTTAAAAAAGCAGGTTGCCGCATTTTCCGGCGCCGATACAAAGCATAGTGTCATTCAGCTTTTCAACACGTTTGTGCCGTTTTTTGCCCTTTGGTTTCTTGCTTACTTCAGCCTCGATGTCTCCTATCTTCTGACCCTCGCCTTTACTGTTATAGCAGCGGGATTTTTGACAAGAATCTTTATTATTTTCCACGACTGCTGCCATCAATCCTTTTTCAAACAAAAGAAGCTGAACCGGCTGTTCGGGTTTATTTCAGGTGTGCTGACACTGTTTCCGTTCCTTCAATGGCAGCGCAGCCACTCCATCCATCATGCGACGAGCAGCAACTTAGATAAACGGGGCACCGGCGATATTTGGATGATGACCGTCAAGGAATACAACGAAGCGTCAGCTTGGACAAAAATACGCTACAGACTTTATCGCAATCCGTTTATTATGTTTATTCTCGGCCCGATTTACGTATTTCTGATTAAAAACCGTTTCAATGTAAAAGGCGCCCGCCGCAAGGAGCGCTGGAACACCTATTTCACGAACGCGGCGATTGTCTTATTGGCTGCTGCGACGTGCCTGCTTGTCGGCTGGGAAAACTTTTTGCTTGTTCAGGGTCCGATTTTCCTTATTTCGGGGTCAATCGGCGTCTGGCTCTTTTATGTTCAGCACACGTTTGAGGATTCTTATTTTGAAGCCGATGAGCATTGGGATTATGTGCAGGCCGCGGTAGAAGGAAGCTCCTTTTACAAGCTTCCGAAGCTTTTGCAATGGCTGACAGGCAACATCGGCTACCATCATGTCCACCACTTAAGCCCGAAAGTGCCGAACTACAAGCTGGAAGCCGCTCATGAGGGGCACGAGCCTTTAAAAAACGTACCGACCATTACGCTTAAAACAAGTCTTGAATCCATGAAATTCCGTCTGTGGGATGAGGACGAAAAGCAATTTGTCACCTTTCGGGAGGCGCGGAAAAAACCGGCACCCCATCCGGTACCGAAAGAACCTTTAAAGAAAAATGCCTGA	MINHAATQKQASLKKQVAAFSGADTKHSVIQLFNTFVPFFALWFLAYFSLDVSYLLTLAFTVIAAGFLTRIFIIFHDCCHQSFFKQKKLNRLFGFISGVLTLFPFLQWQRSHSIHHATSSNLDKRGTGDIWMMTVKEYNEASAWTKIRYRLYRNPFIMFILGPIYVFLIKNRFNVKGARRKERWNTYFTNAAIVLLAAATCLLVGWENFLLVQGPIFLISGSIGVWLFYVQHTFEDSYFEADEHWDYVQAAVEGSSFYKLPKLLQWLTGNIGYHHVHHLSPKVPNYKLEAAHEGHEPLKNVPTITLKTSLESMKFRLWDEDEKQFVTFREARKKPAPHPVPKEPLKKNA	PGPT0008400_544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DESATURASE_ACTIVITY,PGPT0008400-desA-K10255	NA	NA
D1-12_02165	1137	desK	COG4585	Sensor histidine kinase DesK	ATGAAGAAGTATTTTAAATTTCAAAAACTGAATGGGATTTCTCCTTATATATGGACGATTTTTTTCATCTTGCCTTTTTATTTTATTTTTAAAAGCTCTTCTACCTTTGTCATCGTGGCCGGCATCATTTTCACACTTGTTTTCTTTGGCGCATACCGCTTTGCATTTGTTGCAAAAGGCTGGCCGCTTTACTTATGGGCACTTCTTCTGATCGGCATTTCGACCGGCTCAGTTATGCTGTTCAGCTATATTTATTTCGCCTTCTTTATCGCCTACTTCATCGGCCATATCCGAGACAAAGTTCCTTTTTACATCTTATATTACATTCATATCATCAGTGCGGCGGTTGCCGTCAACTTCAGTCTTGTTCTGAAAAAAGGGTGGTTTTTGACACAAATTCCGTTTATCGTCATTACACTGATCAGTGCCATCCTGCTCCCGCTCACCATTCGAAGCAGAAAGGCAAGAGAGCGCCTTGAGGAGAAATTAGAATATGCAAATGAACGAATCGCCGATCTTGTGAAGCTGGAAGAAAGGCAGCGCATCGCCCGGGACCTTCACGATACACTTGGACAAAAGCTCTCCTTAATCGGACTGAAAAGCGACCTCGCCCGAAAGCTGATATATAAGGACCCTGAACAGGCCCGCACTGAGCTGAAAAGCGTGCAGCAGACGGCCCGCACCTCCTTAAATGAGGTCAGACAAATCGTCTCGTCGATGAAAGGCATCCGATTGAAGGATGAGCTCAGCAATGTTCGGCAAATTCTTGAAGCGGCAGGAATTGAATTTGTGTATGAAGAAAAAGAAGCGCCCAAACATATCTCTTTGCTGAACGAAAACATCGTCAGCATGTGCATTAAAGAAGCCGTCACCAATGTCGTGAAACACAGCGGCGCCAAAGTATGCCGCATCACCATTCAGCAGCTTTGGAAAGAGGTTGTCATTACGGTAGAAGATGACGGCAGCTTTCAATGCAAAGAAGACCGCTTTTTTTCAAAGGGGCACGGCCTGCTTGGAATGAGGGAACGTCTTGAATTCGCAAACGGCAGTTTAGCCATCGATACAGCCGCCGGAACAAAGCTGACCATGAGAATCCCGAATGATTCAAAATCAAAAGAAAAGGATGGTAGCAGATGA	MKKYFKFQKLNGISPYIWTIFFILPFYFIFKSSSTFVIVAGIIFTLVFFGAYRFAFVAKGWPLYLWALLLIGISTGSVMLFSYIYFAFFIAYFIGHIRDKVPFYILYYIHIISAAVAVNFSLVLKKGWFLTQIPFIVITLISAILLPLTIRSRKARERLEEKLEYANERIADLVKLEERQRIARDLHDTLGQKLSLIGLKSDLARKLIYKDPEQARTELKSVQQTARTSLNEVRQIVSSMKGIRLKDELSNVRQILEAAGIEFVYEEKEAPKHISLLNENIVSMCIKEAVTNVVKHSGAKVCRITIQQLWKEVVITVEDDGSFQCKEDRFFSKGHGLLGMRERLEFANGSLAIDTAAGTKLTMRIPNDSKSKEKDGSR				NA	NA	NA	NA	NA
D1-12_02166	600	desR	COG2197	Transcriptional regulatory protein DesR	ATGATCAACATCTTCATTGCCGAGGATCAGCAAATGCTGCTCGGTGCACTCGGTTCGCTGTTGAATTTAGAAGAGGATATGACGGTTGTCGGCAAAGGCACAAGCGGCCAGGATGCCATCGATTTCGTGGAAAAACATGCGCCCGACATCTGTCTGATGGATATCGAAATGCCCGGGAAATCAGGCCTTGAAGCGGCAGAAGAACTCAAGGACAGCGGTGTGAAAATCATCATTTTGACGACCTTTGCCCGCTCCGGCTATTTTCAGCGGGCGCTAAAAGCAGGCGTCAGCGGGTACATGCTCAAGGACAGCCCGAGCGATGAGCTCGTCAGCGCCATCCGCAGCGTCATGAAAGGAAGACGCGTCTACGCACCTGAATTAATGGAGGACATCTATAGTGAAGAAAACCCGCTGACCGAACGGGAAAAAGAGGTGCTCGAGCTTGTCGCAGACGGAAAAAACACGAAAGAAATCGCAAACGCCCTCAGCATTAAAAGCGGCACAGTCCGCAATTACGTTTCGATGATCCTTGATAAATTAGAAGTGAAAAATCGAATTGAAGCCATTACCCGATCAAAGGAAAAGGGCTGGTTTAAGTAA	MINIFIAEDQQMLLGALGSLLNLEEDMTVVGKGTSGQDAIDFVEKHAPDICLMDIEMPGKSGLEAAEELKDSGVKIIILTTFARSGYFQRALKAGVSGYMLKDSPSDELVSAIRSVMKGRRVYAPELMEDIYSEENPLTEREKEVLELVADGKNTKEIANALSIKSGTVRNYVSMILDKLEVKNRIEAITRSKEKGWFK	PGPT0012750_316	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692	NA	NA
D1-12_02167	822	bacC_1		Dihydroanticapsin 7-dehydrogenase	ATGGGAAGATTAACAGACAAAACCGCAATCATCACAGGGGCCGCGACAGGCATCGGACAAGCGACGGCACGGATTTTCGCCGATGAAGGCGCCCGCGTGATCTGCGGTGACATCAATGAAAGCGAACTGAATGAAACCGTCAGCGCCATCAGAAAAAACGGCGGAGAAGCAGAAGCCTTTCACCTTGATGTATCAGACGAAGAAAACGTAAAGTCTTTTGCAGACGGCATTCAGCAAAAGTACGGAACAATTGATATTCTGTTTAACAATGCCGGTGTTGACCAAGAGGGCGGAAAAGTCCATGAATACCCGGTCGACCTGTTTGACCGGATCATCGCCGTCGATCTGCGCGGCACATTTCTGTGCAGCAAATATCTGATTCCGCTCATGCTCGAAAAAGGAGGCTCCATCATCAACACCTCCTCCATGTCTGGCCGGGCCGCAGACCTTGACCGCTCAGGCTATAACGCCGCAAAAGGCGGAATCACGAACCTGACGAGAGCGATGGCCATTGATTACGCCAGAAGCGGAATCCGCGTCAATTCCTTATCGCCGGGGACGATTGAAACGCCGCTCATTGATAAATTGGCAGGCACGACAGAAGACGAAATGGGCGAAGCGTTCCGTGAAGCCAACAAATGGATCACGCCGCTCGGCCGGCTCGGAAAACCGGAAGAAATGGCAGCCGTCGCGCTCTTCCTCGCTTCAGACGACAGCTCTTACGTAACGGGAGAAGACATCACCGCAGACGGCGGCATCATGGCATACACTTGGCCGGGAAAAATGCTGATTGATAAGAAGTGGAAGGAAGAGACGGAGTGA	MGRLTDKTAIITGAATGIGQATARIFADEGARVICGDINESELNETVSAIRKNGGEAEAFHLDVSDEENVKSFADGIQQKYGTIDILFNNAGVDQEGGKVHEYPVDLFDRIIAVDLRGTFLCSKYLIPLMLEKGGSIINTSSMSGRAADLDRSGYNAAKGGITNLTRAMAIDYARSGIRVNSLSPGTIETPLIDKLAGTTEDEMGEAFREANKWITPLGRLGKPEEMAAVALFLASDDSSYVTGEDITADGGIMAYTWPGKMLIDKKWKEETE	PGPT0008190_49	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
D1-12_02168	249			hypothetical protein	TTGAAGATACAGCATAAGAAGGAGATAGCGTTTTATTGTTATGCCATTGTTCCTATGGGATTTGTGATTTACACCGTTATCTCTATTCTATTTCAGGACATCACATTTCCTCTCACTGTAAGAAATGTTCTGCATGAGTCTTTGCGAAACTTGGGATCTCTTATCTTATTTAGTTTGTTTTTCTACCCGTCATACATATGGATGAAGAAGGAATTCGGCCGCCGGAAAGAAGCAGAGAGGAGAGGATGA	MKIQHKKEIAFYCYAIVPMGFVIYTVISILFQDITFPLTVRNVLHESLRNLGSLILFSLFFYPSYIWMKKEFGRRKEAERRG				NA	NA	NA	NA	NA
D1-12_02169	1881	htpG	COG0326	Chaperone protein HtpG	GTGCGGAAAAAAAAGTTTAAAGCAGAATCCAAGCGATTGCTGGACATGATGATTAACTCCATTTACACGCAGAAGGAAATTTTTCTCCGCGAGTTAATTTCCAACGCGAGCGATGCGATTGACAAAATCTATTACAAGGCGTTAACCGATGATTCATTAACGTTTGATCAAGACAATTACTACATAAAAGTGACGGCGGACAAAGAAGCGAGAACGCTCACCGTCAAAGACACCGGTATCGGGATGACAAAAGACGAGCTTGAACAGCATCTCGGCACGATTGCGAAAAGCGGTTCACTCGCTTTCAAGCAAGAAAATGACTCGAAAGATGGCCATGACATTATCGGCCAGTTCGGCGTCGGGTTTTATGCGGCGTTTATGGTGGCTGATAAAGTCACGGTGAAAAGTAAGGCGCTCGGCAGTGACGAGGCGTATGTATGGGAGTCGGAAGGGGCTGCCGGCTACACGATCGCGCCGTGTGACAAGGAAACCGTCGGTACGGAAATCACCTTGAAAATAAAAGAAAACACAGAAGATGAAAGCTATGATGAGTTTTTAGAAAACTACCGCATCAAAGCGATCGTGAAAAAGTACTCTGATTTTATCCGCTACCCGATCAAAATGGAAGAGACGGTCAACAAGCCGAAAGAGGGCAGCGAGAACGAATTTGAAGAAGTTCAGGAAGAACAGACGGTCAACAGCATGGTGCCGATCTGGAGAAAAAATAAAAGCGAGCTGACGGATGAGGATTACGAGGCTTTTTACGCCGAGAAGCATTACGGCTTTGATAAACCGCTGACCCATGTGCATATCAGCGTCGATGGAGCGGTGCGCTACAATTCGATTTTGTTTATTCCGGAAAACATGCCGTTTGACTATTATACGAAGGAATTCGAAAAAGGATTGGAGCTGTATTCCAACGGCGTGCTGATCATGAACAAATGCGCCGACCTGCTGCCGGACCATTTCAGCTTTGTAAAAGGCATGGTGGATTCTGAGGATCTGTCGCTGAACATTTCCAGAGAGATGCTGCAGCACGACCGCCAGCTGAAGCTGATTGCGAAAAACATCAATAAAAAAATCAAAGCCGAGCTGAAGAGCCTGCTGAAGAACAAAAGGGAAAAATACGAATCTTTCTATGAATCTTTCGGCAGACAGCTGAAATTCGGCGTCTATAATGATTTCGGCGCGAATAAAGACGTATTAAAAGATCTGCTTCTCTTCTATTCATCTAAGGAGAAAAAGCTCGTCACTCTGGACGAATATGTGTCCAGAATGCCTGAGGATCAAAAATATATCTATTACGCGTCCGGTGATTCATATGAGCGGATTGAAAAGCTGCCGCAAACTGAAATGGTGGCGGACAAAGGCTACGAGATTTTATATTTCACGGAAGATATTGATGAATTCGCGATCAAAATGCTGACAAGCTATGAGGAAAAAGAGTTCAAATCCGTATCCAGCGCCGATTTAGGCATCGACAGTGACGAAGATGAAAAGCAGACTGAAGCCGAAGAGAACGAATATAAAGACCTGTTCGAAAGCATGAAAGAGATTCTTGCGGATAAAGTAAAGAACGTCAGAGCATCGAAACGTTTAAAATCTCATCCGGTCTGCTTTGCGACAGACGGCGAAGTGACGATCGAAATGGAAAAAGTGTTGAATGCCATGCCTGACAGCCAGCAGGTCAAAGCGGAAAAAGTGCTGGAAATCAACCCGAATCACGAAGTGTTTGAGACGTTAAAGAACGCGCACGGACAAGATCGGGAAAAGCTGGCATTATACACAAACCTGCTGTACAATCAGGCGCTTCTGATTGAAGGGCTGCCGATCCATGATCCGGTCGAGTTTACGAATGACATCTGCAAAGTCATGGTATGA	MRKKKFKAESKRLLDMMINSIYTQKEIFLRELISNASDAIDKIYYKALTDDSLTFDQDNYYIKVTADKEARTLTVKDTGIGMTKDELEQHLGTIAKSGSLAFKQENDSKDGHDIIGQFGVGFYAAFMVADKVTVKSKALGSDEAYVWESEGAAGYTIAPCDKETVGTEITLKIKENTEDESYDEFLENYRIKAIVKKYSDFIRYPIKMEETVNKPKEGSENEFEEVQEEQTVNSMVPIWRKNKSELTDEDYEAFYAEKHYGFDKPLTHVHISVDGAVRYNSILFIPENMPFDYYTKEFEKGLELYSNGVLIMNKCADLLPDHFSFVKGMVDSEDLSLNISREMLQHDRQLKLIAKNINKKIKAELKSLLKNKREKYESFYESFGRQLKFGVYNDFGANKDVLKDLLLFYSSKEKKLVTLDEYVSRMPEDQKYIYYASGDSYERIEKLPQTEMVADKGYEILYFTEDIDEFAIKMLTSYEEKEFKSVSSADLGIDSDEDEKQTEAEENEYKDLFESMKEILADKVKNVRASKRLKSHPVCFATDGEVTIEMEKVLNAMPDSQQVKAEKVLEINPNHEVFETLKNAHGQDREKLALYTNLLYNQALLIEGLPIHDPVEFTNDICKVMV	PGPT0014640_3309	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
D1-12_02170	1389	csbC_1		putative metabolite transport protein CsbC	GTGAAGAAAAACACCAAAAAATACCTGATTTACTTTTTCGGAGCATTGGGCGGGCTGCTTTACGGCTATGACACCGGTGTGATTTCAGGGGCTTTGTTATTTATTAACAATGATATTCCTTTAAACACGCTGACCGAGGGATTGGTCGTCAGCATGCTGCTGCTCGGTGCGATTTTCGGGTCCGCCTTAAGCGGGACATGCTCTGACCGATGGGGCCGGAGAAAAGTGGTTTTCGTCCTTTCACTCATTTTTATTATCGGCGCGCTTGCCTGTGCGGCTTCGCAAACCGTCACCATGCTGATTATCTCCCGTGTCATACTCGGGTTAGCCGTCGGAGGCTCAACGGCGCTGGTTCCCGTTTATCTATCTGAGATGGCGCCGACAAAAATACGCGGAACGCTCGGCACATTGAATAACTTAATGATTGTAACCGGAATTTTACTCGCATATATTGTGAATTACATATTCACCCCGTTTGAAGCTTGGCGCTGGATGGTCGGTCTCGCGGCAGTACCGGCGGCGCTTTTATTAATCGGAATCGCGTTTATGCCGGAATCTCCGAGATGGCTCGTCAAACGCGGCCGTGAGCAGGAAGCCAGACAAGTCATGGAAATGACTCACGACAAAGAGGATATCGCCGTTGAATTGGCGGAAATGAAACAAGGAGAAGCCGAGAAAAAAGAATCTACGCTCGGCTTGCTGAAAGCAAAATGGATCCGCCCTATGCTGCTGATCGGGATCGGCCTCGCCATCTTCCAGCAGGCGGTCGGGATCAACACGGTAATTTACTATGCGCCGACCATCTTTACAAAGGCCGGACTCGGCACTTCGGCGTCCGTTCTCGGCACAATGGGCATCGGTGTCTTAAACGTCATCATGTGTATCACCGCCATGATCTTAATTGACCGGATCGGCCGGAAAAAACTGCTGATGTGGGGAAGCGTCGGCATTACCTTGAGCCTGGCGTCACTATCAGCCATTCTCCTTCTGGCCGGCCTGTCAGCTTCAACGGCATGGCTGACCGTGCTGTTTCTCGGCATCTATATCGTTTTCTACCAGGCGACATGGGGTCCCGTTGTGTGGGTCCTGATGCCGGAGCTGTTCCCGTCAAACGCACGCGGAGCCGCAACCGGATTTACGACATTGATTCTGTCGGCAACCAACCTGATCGTTTCACTGGTATTCCCGCTTATGCTGAGCGCCATGGGCATCGGCTGGGTATTCGGAATATTCTCAGTCATTTGCCTCTCATCCTTCTTCTTTGCCGCTTACATCGTTCCTGAAACGAAGGGCAGAAGTTTAGAAGAAATCGAAACGCACTTGAAAAAACGGTTCTCCTTAAAGAAGCGCAGCAAACAAAATCAAATTCTTAAACAGCGCACACTGTAA	MKKNTKKYLIYFFGALGGLLYGYDTGVISGALLFINNDIPLNTLTEGLVVSMLLLGAIFGSALSGTCSDRWGRRKVVFVLSLIFIIGALACAASQTVTMLIISRVILGLAVGGSTALVPVYLSEMAPTKIRGTLGTLNNLMIVTGILLAYIVNYIFTPFEAWRWMVGLAAVPAALLLIGIAFMPESPRWLVKRGREQEARQVMEMTHDKEDIAVELAEMKQGEAEKKESTLGLLKAKWIRPMLLIGIGLAIFQQAVGINTVIYYAPTIFTKAGLGTSASVLGTMGIGVLNVIMCITAMILIDRIGRKKLLMWGSVGITLSLASLSAILLLAGLSASTAWLTVLFLGIYIVFYQATWGPVVWVLMPELFPSNARGAATGFTTLILSATNLIVSLVFPLMLSAMGIGWVFGIFSVICLSSFFFAAYIVPETKGRSLEEIETHLKKRFSLKKRSKQNQILKQRTL	PGPT0015023_33	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015023-csbC-NA	NA	NA
D1-12_02171	933	iolS_2	COG0667	Aldo-keto reductase IolS	ATGAGCAAAGTAACAATCGGCAAAACTGACCTAAAGGTATTTCCGATCGGTTTGGGAACAAATGCGGTCGGCGGACACAATCTCTATCCGAATCTGAATGAAGAGACGGGAAAAGAATTGGTCCGGGAAGCGATTAAAAGCGGCGTTACCATGTTAGATACTGCCTATATTTACGGTGTGGGCCGTTCTGAAGAATTGATCGGCGAGGTGCTGAAAGAATATAACCGCGAGGATGTCTTCATCGCCACAAAAGCCGCTCACAGAAAAGAAGGCAATGACTTTGTTTTCGACAACTCACCGGCCTTTTTGAAACAATCAGTCGAAGACAGCCTGAAACGCCTGCAGACTGATTACATCGATTTATTCTACATCCATTTCCCGGATGAGCACACACCGAAGGACGAAGCCGTTCAAGCATTGAATGAGCTGAAAAAAGAAGGAAAAATCCGTTCCATCGGCGTATCCAATTTCTCATTGGAGCAGCTGAAAGAAGCCAATAAAGACGGCTTAGTCGACGTGATTCAAGGAGAATACAACCTGCTGAACCGTGAGGCGGAAAAGACTTTCTTCCCTTATACGACAGAACACGGCATCTCATTCATTCCGTACTTCCCGCTCGTATCCGGACTGCTGGCCGGCAAATACGACGAGAACACAACCTTCCCGGAAGGCGACCTGCGCAATGATCAGGCGCATTTCCAAGGGGAGCAGTTTAAAGAAAACATCAAAAAAGTCAACCAGCTCAAACCGATTGCCGAAAAGCACAACGCCGATACGGCGCATATCGTGCTTGCCTGGTACTTGGCGAGACCTGAAATCGATATCCTGATTCCGGGCGCCAAACGTGCGGATCAATTAAAAGACAACGTGAAAGCAGCCTCCATTACGCTATCTGCTGAAGAAATCGCGTTTATTGATAAGCTGTTTTCATAA	MSKVTIGKTDLKVFPIGLGTNAVGGHNLYPNLNEETGKELVREAIKSGVTMLDTAYIYGVGRSEELIGEVLKEYNREDVFIATKAAHRKEGNDFVFDNSPAFLKQSVEDSLKRLQTDYIDLFYIHFPDEHTPKDEAVQALNELKKEGKIRSIGVSNFSLEQLKEANKDGLVDVIQGEYNLLNREAEKTFFPYTTEHGISFIPYFPLVSGLLAGKYDENTTFPEGDLRNDQAHFQGEQFKENIKKVNQLKPIAEKHNADTAHIVLAWYLARPEIDILIPGAKRADQLKDNVKAASITLSAEEIAFIDKLFS	PGPT0018520_245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018520-iolS-K06607	NA	NA
D1-12_02172	756	srlR	COG1349	Glucitol operon repressor	ATGAAACTGATGCGGATTCAGGAGATGGAAGAATACATTCTCAAACACGGAGCCACTTCGCTGGATGAGCTGTGCGAGGTATTCAACGTCTCTAAAAACACGGTCAGACGCGATATTAATAAGCTTGCGGAAAAAGGGGTGATCAAAAAGGTGTACGGCGGCGTGACGTCAGCAGAAAAATCTGTGCTCGTCCCTTTTGAGAACCGCACCATTCAACATCAGGACGAAAAAATCAAAATCGCCCGCTATGCGTCACGGTTTATCGAGGATCACGATCTTGTATTTATTGATTCCGGCACGACGACCAAATCGATGCTGGAGACGCTTGATCCCGATAAGAATGTAACGGTTTTGACGAACAGCCTTGATATTATTAACGCGGCTTCATCCATGAAAAATATCGACCTGATCATCATCGGCAATAACTACAAGCGGAAGACAAGGTCGTTTGTCGGCATTGATGATCCAAGCACCCTCAATAAATACAACATTAACAAGGCGTTCATGTCCGCTACCGGGACAACGATCACCCACGGCCTGACGAATTCCGATTTACTGGAATACGAGGTGAAAAAGAAAATTTCCGAAAAGGCGAACGAAGTGTATCTGCTCGCGGATCATTCCAAATTCGGCAAATCCACGCTTTTGACATACGCGCCTTTCGACCGGCTTCACAGCATTGTCACTTCTCAGCAGCTCGATGAGGAGTATACGAAGTATTGCCAAGAGCACCAAATCGACATTCACTTGGCATAG	MKLMRIQEMEEYILKHGATSLDELCEVFNVSKNTVRRDINKLAEKGVIKKVYGGVTSAEKSVLVPFENRTIQHQDEKIKIARYASRFIEDHDLVFIDSGTTTKSMLETLDPDKNVTVLTNSLDIINAASSMKNIDLIIIGNNYKRKTRSFVGIDDPSTLNKYNINKAFMSATGTTITHGLTNSDLLEYEVKKKISEKANEVYLLADHSKFGKSTLLTYAPFDRLHSIVTSQQLDEEYTKYCQEHQIDIHLA				NA	NA	NA	NA	NA
D1-12_02173	1464	iolA	COG1012	Malonate-semialdehyde dehydrogenase	ATGGCAGAGATCAGAAAACTGAAAAACTACATCAATGGTGAATGGGTTGAAAGTAAGACAGATCAATATGAAGACGTTGTCAATCCGGCTACAAAAGAAGTGATGTGCCAGGTTCCGATTTCTACGCGGGAGGATGTGGAACACGCCGTCCGCTCAGCGTCAGAAGCGTTTCAAACATGGTCAAAGACGGCAGTGCCGCGCCGTGCGAGAATTCTATTTAACTATCAGCAGCTTCTCCAGCAGAACAAAGAAGAGCTTGCCCGTCTGATCACTTTGGAAAACGGTAAAAACACGACAGAAGCACTCGGTGAAGTGGGACGCGGAATTGAAAACGTCGAATTCGCAGCGGGAGCGCCGTCACTCATGATGGGCGATTCACTTGCCTCTATCGCGACGGATGTAGAGGCGGCGAATTACCGGTATCCGATCGGGGTGGTCGGCGGTATCGCACCGTTCAACTTCCCGATGATGGTTCCGTGCTGGATGTTCCCGATGGCGATTTCATTAGGAAACACTTTTATTCTGAAGCCGTCTGAGCGCACGCCGCTGTTAACGGAAAAACTGGCAGAGCTGTTTGAACAGGCCGGTCTGCCGAAGGGTGTCTTCAATGTCGTGCACGGCGCGCATGACGTCGTAAACGGCATTCTTGAGCATCCGGAGATTAAAGCCATCTCATTCGTCGGTTCAAAACCTGTCGGCGAGTATGTTTTCAAAAAAGGCAGCGAACATTTGAAACGCGTGCAGGCGTTAACGGGCGCGAAAAACCATACGATCGTGTTAAATGACGCCCCCCTTGAAGATACGGTCACAAACATTATCGGCGCGGCATTCGGTTCGGCAGGAGAGCGCTGCATGGCATGCGCGGTTGTGACGGTTGAAGAGGGAATCGCCGATGAGTTTATGGCGAAATTACAGGAAAAAGCAGCGGACATCAAGATCGGAAACGGACTGGATGACGGCGTGTTCTTAGGCCCGGTCATCCGCGAGGACAACAAAAACCGCACGCACAGCTATATTGAAAAAGGCATCGAAGAAGGAGCGAAACTGCTTTGTGACGGCCGTGAACATGTAACGGAAGACGGCTATTTCGTCGGACCGACGATTTTTGACAACGTGACGACGGATATGACGATCTGGAAAGATGAGATCTTTGCGCCCGTTCTGTCGGTCATCCGCGTGAAAAACTTAAAAGAAGCGGTTGACATCGCCAACCAGTCTGAATTTGCGAACGGCGCGTGTCTGTTCACTTCAAATGCGAACGCGATCCGCTACTTCCGTGAGAATATTGACGCGGGAATGCTCGGCATCAACCTTGGCGTGCCGGCGCCGATGGCATTCTTCCCGTTCTCTGGCTGGAAGTCTTCTTTCTTCGGCACATTGCACGCAAACGGAAAGGACAGCGTCGACTTCTATACACGTAAAAAAGTCGTGACGGCACGATACCCGTCTCCTGACTTCAATTGA	MAEIRKLKNYINGEWVESKTDQYEDVVNPATKEVMCQVPISTREDVEHAVRSASEAFQTWSKTAVPRRARILFNYQQLLQQNKEELARLITLENGKNTTEALGEVGRGIENVEFAAGAPSLMMGDSLASIATDVEAANYRYPIGVVGGIAPFNFPMMVPCWMFPMAISLGNTFILKPSERTPLLTEKLAELFEQAGLPKGVFNVVHGAHDVVNGILEHPEIKAISFVGSKPVGEYVFKKGSEHLKRVQALTGAKNHTIVLNDAPLEDTVTNIIGAAFGSAGERCMACAVVTVEEGIADEFMAKLQEKAADIKIGNGLDDGVFLGPVIREDNKNRTHSYIEKGIEEGAKLLCDGREHVTEDGYFVGPTIFDNVTTDMTIWKDEIFAPVLSVIRVKNLKEAVDIANQSEFANGACLFTSNANAIRYFRENIDAGMLGINLGVPAPMAFFPFSGWKSSFFGTLHANGKDSVDFYTRKKVVTARYPSPDFN	PGPT0002295_3921	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
D1-12_02174	816	iolB	COG3718	5-deoxy-glucuronate isomerase	ATGAGTCATTTGCTGCGCAAACCGCAGGCCGATGAGATTTCTCAAGGTGTGAACATCATACATGACGTCACTTCAGCCAATTCAGACCTCAAATACGTCGGATTTAAAGTCGTTGACCTCACTCCCGGTTCCGCATATACAGAAGATTTGAAAAAGACGGAGTGCTGCATCGTTGCGGTAACGGGAAAAATCACCGTCACTGATTATGATCAGACATTTGAAAGCATCGGCACCCGTGAAAGCGTATTTGAAAGAAAACCGACGGACAGCGTTTATGTGTCCAATGACCGCTCTTTTGGAATCACAGCCGTCAGCAGGGCGAGGGTCGCGCTGTGCTATTCTCCGTCCGAACACCAGCTTCCGACAAAGCTGATTAAAGCGGAAGACAACGGTGTGGAACATCGCGGCAAGCTGGCAAACAAACGAACCGTTCATAATATTCTCCCCGATTCAGATCCATCGGCAAACAGCCTTCTCGTTGTTGAAGTTTACACGGACAGCGGCAACTGGTCGAGCTACCCGCCTCATAAACATGACCAAGACAATCTGCCGGCTGAATCCTTTTTAGAAGAAACCTATTACCATGAAACGGACCCGCCGCAGGGGTTTGTCTTCCAGCGTGTGTACACGGACGACCGCTCGATTGACGAGACGATGACCGCAGAAAATGAAAACGTTGTCATCGTGCCGGCGGGCTATCACCCGGTTGGTGTTCCGGACGGGTATACCTCTTACTACCTGAATGTAATGGCGGGACCGACACGAAAATGGAAGTTTCATAATGATCCGGCCCATGAATGGATCCTGGAACGCTAA	MSHLLRKPQADEISQGVNIIHDVTSANSDLKYVGFKVVDLTPGSAYTEDLKKTECCIVAVTGKITVTDYDQTFESIGTRESVFERKPTDSVYVSNDRSFGITAVSRARVALCYSPSEHQLPTKLIKAEDNGVEHRGKLANKRTVHNILPDSDPSANSLLVVEVYTDSGNWSSYPPHKHDQDNLPAESFLEETYYHETDPPQGFVFQRVYTDDRSIDETMTAENENVVIVPAGYHPVGVPDGYTSYYLNVMAGPTRKWKFHNDPAHEWILER	PGPT0018475_695	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
D1-12_02175	993	iolC	COG0524	5-dehydro-2-deoxygluconokinase	ATGAAATATACATTTAATGAAGAAAAAGAGTTTGATATTGTCGCGATCGGGCGCGCGTGTATTGATTTGAACGCTGCGGAATACAACCGGCCGATGGAAGAAACGATGACGTTTTCTAAATATGTCGGCGGCTCCCCGGCAAATATTGCGATCGGCAGCGCCAAGCTCGGATTAAAAGCCGGTTTTATCGGCAAAATCCCGGATGATCAGCACGGCAGATTCATCGTTTCTTATATGCAGGGAAAGGGCGTTGATACGTCACAAATGACCGTTGACAGAGAAGGGCGCAAAGCCGGGCTCGCTTTTACGGAAATTCTCAGTCCCGAAGAGTGTAGCATTCTGATGTACCGGGATGACGTGGCGGATTTGTATCTTGAGCCGTCCGAAGTCAATGAAGGCTACATCGCAAACGCGAAAATGCTGCTCGTGTCAGGCACGGCGCTTGCAAAAAGCCCGTCGCGCGAAGCCGTCTTAAAAGCGGTGCATATCGCAAAAAAACATGACGTAAAAGTCGTGTTTGAGCTCGACTACCGTCCGTATACATGGCAATCGGCAGAAGAAACAGCCGTGTACTACACGCTGGCGGCGGAACAATCCGATATCGTCATCGGTACGCGTGACGAATTTGACGTAATGGAAAACCGCAGCGGCGGAAATAACGATGAAACCGTCCGCCATTTGTTTGCGCACTCCGCTGACCTTGTCGTCATTAAGCACGGCGTTGACGGATCATACGCATACAGCAGATCGGGAGAAGTTTTCCGGGCGCATGCCTATAAAACAAAGGTGCTGAAGACCTTCGGAGCGGGTGATTCCTATGCGTCAGCCTTCATCTACGGACTTGTCAGCGGCCGGGATATTGAAACGGCTTTAAAATACGGGAGCGCTTCCGCTTCCATCGTCGTCAGCAAACACAGCTCCTCAGAAGCAATGCCGGCTGCCGGTGAAATCATCGAACTGATTGAAGCGCAGCACAGTCTTAACGGTAAATAG	MKYTFNEEKEFDIVAIGRACIDLNAAEYNRPMEETMTFSKYVGGSPANIAIGSAKLGLKAGFIGKIPDDQHGRFIVSYMQGKGVDTSQMTVDREGRKAGLAFTEILSPEECSILMYRDDVADLYLEPSEVNEGYIANAKMLLVSGTALAKSPSREAVLKAVHIAKKHDVKVVFELDYRPYTWQSAEETAVYYTLAAEQSDIVIGTRDEFDVMENRSGGNNDETVRHLFAHSADLVVIKHGVDGSYAYSRSGEVFRAHAYKTKVLKTFGAGDSYASAFIYGLVSGRDIETALKYGSASASIVVSKHSSSEAMPAAGEIIELIEAQHSLNGK	PGPT0018480_710	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
D1-12_02176	1914	iolD	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	GTGGGTAAGACAATTCGCTTAACGACAGCACAAGCGCTGATTAAATTCTTGAACCGGCAGTACATTCATGTTGACGGAAAAGAAGAGCCGTTCGTTGAGGGCATCTTCACGATTTTCGGCCACGGAAATGTGTTGGGGATCGGGCAGGCGCTTGAGCAGGACGCCTGGCACCTGAAAGTCTATCAAGGCAAAAACGAACAAGGCATGGCGCATGCCGCGATGGCATACAGCAAGCAGATGCTGAGAAGAAAAATTTACGCGGTATCGACATCAGTCGGTCCGGGTGCCGCTAACTTGACGGCTGCCGCGGGTACGGCGCTGGCCAATAATATCCCGGTGCTGCTGCTTCCGGCCGATACCTTTGCGACGAGGCAGCCTGACCCGGTGCTTCAGCAGGTGGAGCAGGAATACAGTGCCGCCGTCACGACAAACGATGCGTTAAAGCCCGTGTCCCGCTATTGGGACCGCATCACCCGCCCCGAGCAGCTGATGAGCAGCTTAATCCGGGCATTTGAAGTGATGACAGATCCGGCAAAAGCGGGTCCGGCGACCATCTGCATATCTCAGGATGTAGAGGGAGAAGCATTTGATTTTGATGAAAGCTTCTTTGAAAAACGCGTTCATTACATTGACCGGATGCAGCCGAGCGAGCGTGAACTGAAAGGCGCCGCGGAAAAAATTAAGGAGAGCAGCCGTCCCGTCATTTTAGTGGGCGGAGGCGCGAAGTACTCCGGCGCGCGTGAGGAATTAATCGCGCTTTCTGAAACATACGGCATTCCGCTTGTCGAAACGCAGGCCGGCAAGTCAACGGTTGAAGCCGATTTCGCCAACAATCTGGGCGGCATGGGCATCACGGGCACACTCGCCGCAAACAAAGCCGCCCGCCAGGCTGATCTGATCATCGGTGTCGGCACACGGTACACGGACTTTGCGACATCCTCGAAAACGGCGTTTGATTTTGACAAAGCAAAATTTTTGAATATCAATGTCAGCCGCATGCAGGCTTACAAGCTTGACGCGTTTCAGGTCGTAGCCGATGCGAAAGTCACGCTCGGCAGGCTGTACGGCTTATTAGACGGATATAAAAGTGCATTCGGCACGGCGATTAAAGATTGGAAAGATGAATGGCTGGCTGAACGGGACCGGCTCGGCAAGGTCACTTTTACACGTGATGCGTTCGAACCGGAAATTAAAAACCATTTCTCACAGGACGTGTTAAACGAGTATGCCGACGCGCTCGAGACTGAGCTGCCGCAAACAACGGCGCTGTTGACCATCAATGACACGATTCCTGAAGACAGCGTCGTCATCAGTTCGGCGGGATCTCTTCCGGGAGATTTGCAGCGGCTGTGGCATTCCAACGTCCCGAATACGTACCACCTCGAGTACGGCTATTCCTGCATGGGGTATGAAGTATCAGGCACGCTTGGCCTCAAGCTGGCTCATCCCGACAAAGAAGTCTATTCACTCGTCGGCGACGGAAGCTTTCTGATGCTGCACTCAGAGCTGATTACCGCGCTTCAATATAACAAAAAAATCAATGTCCTGCTTTTTGACAACTCGGGATTCGGCTGTATCAACAACCTGCAGATGGATCACGGGAGCGGCAGTTATTTCTGCGAGTTCCGCACAGAGGACAATCAGATTTTAAACGTTGATTACGCGAAGGTGGCAGAGGGCTACGGCGCTAAAACATACAGAGCCAATACGGTTGAAGAACTGAAAGCGGCGCTTGAAGATGCGAAAACGCAAGACGTATCCACTTTAATTGAAATGAAGGTTCTGCCGAAAACGATGACGGACGGCTATGACAGCTGGTGGCATGTCGGCGTGGCGGAAGTGTCGGAGCAGGAAAGTGTTCAGCGGGCATACGAAGCGAAAGAGATGAAGCTGAAGTCTGCGAAGCAGTACTAG	MGKTIRLTTAQALIKFLNRQYIHVDGKEEPFVEGIFTIFGHGNVLGIGQALEQDAWHLKVYQGKNEQGMAHAAMAYSKQMLRRKIYAVSTSVGPGAANLTAAAGTALANNIPVLLLPADTFATRQPDPVLQQVEQEYSAAVTTNDALKPVSRYWDRITRPEQLMSSLIRAFEVMTDPAKAGPATICISQDVEGEAFDFDESFFEKRVHYIDRMQPSERELKGAAEKIKESSRPVILVGGGAKYSGAREELIALSETYGIPLVETQAGKSTVEADFANNLGGMGITGTLAANKAARQADLIIGVGTRYTDFATSSKTAFDFDKAKFLNINVSRMQAYKLDAFQVVADAKVTLGRLYGLLDGYKSAFGTAIKDWKDEWLAERDRLGKVTFTRDAFEPEIKNHFSQDVLNEYADALETELPQTTALLTINDTIPEDSVVISSAGSLPGDLQRLWHSNVPNTYHLEYGYSCMGYEVSGTLGLKLAHPDKEVYSLVGDGSFLMLHSELITALQYNKKINVLLFDNSGFGCINNLQMDHGSGSYFCEFRTEDNQILNVDYAKVAEGYGAKTYRANTVEELKAALEDAKTQDVSTLIEMKVLPKTMTDGYDSWWHVGVAEVSEQESVQRAYEAKEMKLKSAKQY	PGPT0018485_613	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
D1-12_02177	897	iolE	COG1082	Inosose dehydratase	ATGGGCAAACAAGATATTCTGTGGGGCATCGCTCCCATTGGGTGGCGCAATGACGATATGCCGGAAATCGGAGCCGGGAATACGCTGCAGCATTTGTTAAGCGATATTGTTGTCGCCGGCTTTCAAGGTACGGAAGTGGGAGGGTTTTTCCCTGAACCCTCCGTCCTCAATAAGGAGCTGGCTCTCCGGAACTTGCGGATTGCGGGGAAATGGTTCAGCAGCTTTATCATTCAAGACGGTATTGAAAAAACGGCTGAACAATTTACAGAACACTGTGATTATTTGCAGAAAGTCGGAGCGGATGTCACCACCGTTTCTGAACAGACGTACAGTGTTCAAGGCTTGGACATTGATGTATTTAAGAAAAAACCGCACTTCACAGATGAAGAATGGGATACGCTGTGCCAGGGCTTGAACCGTCTCGGGAAAATCGCTGACGAATACGGGCTGGATCTCACGTTTCATCATCATCTCGGCACAGGCGTCCAGACGGCTGAAGAAGTTGACCGGCTGATGGATGGAACGGACCCGCGGTATGTCCATTTACTTTATGATACCGGGCATGCCTATATCTCGGACGGAGACTATATGACAATTCTCAACAAGCATATGGATCGGATCAGACACGTTCATTTCAAGGACGCGCGGTTTGACATTATGGAGCGGTGCAGACAGGAAGGCAAGTCATTCAGGCAGTCGTTTTTACAGGGCATTTTTACGGTTCCCGGAGACGGATGCATCGATTTTACCGAAGTGTACCGAACGCTCGTCCGTCATGATTATTCAGGCTGGATCGTCATCGAAGCCGAACAAGACCCGGCAGTCGCCAATCCGCTTGAGTACGCGCTGATTGCGAGAAAGTACATCGACAGTGAACTGCTTGATCCTGCAAATTAG	MGKQDILWGIAPIGWRNDDMPEIGAGNTLQHLLSDIVVAGFQGTEVGGFFPEPSVLNKELALRNLRIAGKWFSSFIIQDGIEKTAEQFTEHCDYLQKVGADVTTVSEQTYSVQGLDIDVFKKKPHFTDEEWDTLCQGLNRLGKIADEYGLDLTFHHHLGTGVQTAEEVDRLMDGTDPRYVHLLYDTGHAYISDGDYMTILNKHMDRIRHVHFKDARFDIMERCRQEGKSFRQSFLQGIFTVPGDGCIDFTEVYRTLVRHDYSGWIVIEAEQDPAVANPLEYALIARKYIDSELLDPAN	PGPT0016785_1184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
D1-12_02178	1296	ygcS		Inner membrane metabolite transport protein YgcS	ATGAATAGTGCCAAGGCGGAATCAGCTTTCAGCAAAAGGACCATCGCCGCAGCATTAGCAAATTACATTGATGCAGGTTCCATCGTGGCAGGATCAGCGGGTTTATCTATGTGGGTCAGCTATTTAAAGCTGTCCGACAGTCAGATCGGATTGCTCGGCGCCTTCAGTGCAAACGCGATATCAGCGGCCGTCGGAGCGCTGCTCGGCGGGTATTTGGCTGATAAAGTCGGCCGAAAAGCTGTATACACAAACAGTATGCTCGTCTACGCCTTAGGAATTTGTTTGGTTTTGTTTGGATTCAACTTTCCCATGCTGTTATGCGGATACATGATTATCGGGATTTCTGTAGGCGCGGATATTACGGCTTCATGGACCATTATCGCGGAAAACGCCCCCGAGAAAAACCGGGCGAGGCATTGCGGAGTGGCGCAGGCGGCGTGGGCCGCAGGGGCCGTTGTGGTTCTGCTGTTATCCGTTTTGGTCGGTGACCTCGGGCTTTTAGGAAATAAAATTGTCTTTGCGCATCTATTGGTGATCGCCCTGATCACATATGTGATAAGAAAGCGTTTACCTGAGTCGGATGCCTGGAAAAACAGTGAAGAGCGGCCTGCCGCCGTGAAAAAAACATCTTATTTTGACCTGCTTCAGCCGAAATTTTTCAAGAACATTTTGTTTTTAATGGGTGTGTTTCTCGTATGGAATCTCGCAGCGGGCGTCATGGGGTTCTTCATGCCGTACATCTACCAGCAGGTCGGCGGCGTATCCGCAAATACGGCCAACATTCTGCAGATGGCCCTGTTTATCTTTACCGGGCTCGGCGTCGCCTGTATCTTCATGCCTTTTGCAGATCAATATCGGAAAACGGTGTTCGGAATCTGCGCATTTATGGCCGTTGTCGGCTGGTCGCTGTTTTTACTGCCGTTTCAGGGGCTCCCGATGCTGCTTTTGTTTGTTTTAGCGATCGGCATCAATAACGGAGCCGGCCAGCAGGCGAACTACCAGCTGTGGGCAAGCGAGCTGTTCCCGACAGAATACAGAGCGTCAGCACAAGGGCTCATGTTCTTTCTCGTCCGTATTTCAATCGGCATTTGGAGTTTATTTGTGCCGGTCATCATGTCACAATTCGGCATCGGTTTTATGGCCGGTATTCTGCTCATATGTGTGACGGCCAGTATGATCATCGGGCTTGTCTTCGCGCCGAATACGTCCGGCAAGTCGCTTGAACAGATACAGGAGGAACTTTACGGCGCTCCTCAGGACGGCAGCGGGAAAAGAAAGACGAGAACCATTATTTGA	MNSAKAESAFSKRTIAAALANYIDAGSIVAGSAGLSMWVSYLKLSDSQIGLLGAFSANAISAAVGALLGGYLADKVGRKAVYTNSMLVYALGICLVLFGFNFPMLLCGYMIIGISVGADITASWTIIAENAPEKNRARHCGVAQAAWAAGAVVVLLLSVLVGDLGLLGNKIVFAHLLVIALITYVIRKRLPESDAWKNSEERPAAVKKTSYFDLLQPKFFKNILFLMGVFLVWNLAAGVMGFFMPYIYQQVGGVSANTANILQMALFIFTGLGVACIFMPFADQYRKTVFGICAFMAVVGWSLFLLPFQGLPMLLLFVLAIGINNGAGQQANYQLWASELFPTEYRASAQGLMFFLVRISIGIWSLFVPVIMSQFGIGFMAGILLICVTASMIIGLVFAPNTSGKSLEQIQEELYGAPQDGSGKRKTRTII	PGPT0016756_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MYO_INOSITOL_TRANSPORT_2,PGPT0016756-iolF-NA	NA	NA
D1-12_02179	1035	iolG	COG0673	Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAATTTACGTATAGGTGTTATCGGAACCGGTGCTATCGGAAAAGAGCACATCAACCGCATCACAAATAAGCTGTCGGGTGCGGAAATTACCGCTGTCACAGATGTGAATCAGGAGGCCGCGCAGCAGACCGTTCAGGATTTCAATTTGAACGCCTCCGTTTATCCTGATGACGACAGCCTCCTCGCTGCTGAAAATGTGGATGCCGTCTTAGTGACAAGCTGGGGCCCGGCTCACGAGTCCAGCGTTTTGAAAGCGATTCAGCACGGCAAGCACGTGTTTTGTGAAAAGCCGCTTGCGACAACGGCAGAAGGCTGTATGCGCATTGTCGAGGAAGAAATGAAGACGGGAAAACGATTGGTGCAGGTAGGTTTTATGCGCAGATATGACAGCGGTTACGTTCAGCTGAAAGAAGCGATCGATAACCGCGTGGTCGGCGAGCCGCTGATGATTCACTGTGCGCACCGTAACCCGACAGTCGCATCGAATTATTCAACGGACATGGCCGTCGTCGATACGCTCGTTCATGAAATTGATGTCCTCCACTGGCTCGTCAATGACGACTATGAATCCGTACAGGTCATCTATCCGAAGAAATCAAAAAATGCGCTGCCGCATCTGAAAGATCCGCAGATGGTCATCATCGAAACAAAAGGCGGCATCGTCATCAATGCCGAAATCTACGTGAACTGTAAATACGGCTATGACATTCAATGTGAGATCGTCGGGGAAGACGGCGTCATCAAGCTTCCGGAACCGTCAAGCATCAGTTTGAGAAAAGAAGGGACATTCAGCACCGATATCCTGATGGATTGGCAGCGCCGATTTGTGGCTGCGTATGATGTGGAAATTCAAGACTTCATTGATTCGATCCGGAAAAAAGGCGAAGTCAGCGGTCCGACGGCATGGGACGGTTATATTGCCGCAGTGACAACTGACGCGTGCGTAAAAGCTCAGGAATCCGGGCAGAAAGAGCCTGTGGCGCTGCAAGAGAAACCGGCATTCTACCAATCATTTACGACTGTGAACAAATAA	MNLRIGVIGTGAIGKEHINRITNKLSGAEITAVTDVNQEAAQQTVQDFNLNASVYPDDDSLLAAENVDAVLVTSWGPAHESSVLKAIQHGKHVFCEKPLATTAEGCMRIVEEEMKTGKRLVQVGFMRRYDSGYVQLKEAIDNRVVGEPLMIHCAHRNPTVASNYSTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQMVIIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGVIKLPEPSSISLRKEGTFSTDILMDWQRRFVAAYDVEIQDFIDSIRKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEPVALQEKPAFYQSFTTVNK				NA	NA	NA	NA	NA
D1-12_02180	870			hypothetical protein	ATGAAACTGGCCTTAGATCCATCCATGTACCGCGATGATTTAACGTTAGAAGAAATGGTCTATAAAACGGCGGAACTCGGATACGAATATATCGAACTGTCCCCGCGCGAGGATTTTTGTCCTTTCTACAAATATCCGAAAGTCGATTCAGCAAAAATCAAACAATTGAAGCGCCTTTTAAAGGATACAGGTGTGAAGCTGTCCTCTCTTCTTCCGCTTTACCACTGGGCGGGTCCTGAAGAAGACCGTCGTCAGGCCGCCGTGCGCAACTGGAAACGGGCGATCGAAATTGCGGTTGAACTTGAAGTGGATTTGATGAACAGTGAATTCAGCGGTTCAAAATATGATCCTTTGACAAGTGAAGAAAAATTTATCAAATCCATGGATGAACTGCTGCCCGTTTTTGAAAAAGAAGGCGTTAAACTCAATCTTCAGGCTCACCCATACGATTTTATCGAAACGCACAAAGGCGCGATGGATATGATCCGCGCGCTTGACAAGGATTGGATCAATCTTGTCTACTCGACTGCGCATACGTTCTTCTATGATGACGGAAAAGGCGATATTGCGACCATGTTTGATGAAGCCGGCGACCGCCTTACACATGTTTTATTTGCAGATACTTTTAATCATAAAGCGGCGCACGGCCTGCGTTACATCGTCAACCCGCCTGATGCGAAAGTAACGGTTCACCAGCATTTGGACATCGGGCAAGGCGAGGTTGATTTTGAGACGATTTTCAGAAAGATGAGAGAGATGAAATTCGACGGAATTGCGACGAACGCCGTTTTTGCTTGGGTCGGCGAAAGAGCGGATGAATCAAGCCGGACCACGCTTAAGAAATTAAAGGAAGAACTGGGTATGGCATAA	MKLALDPSMYRDDLTLEEMVYKTAELGYEYIELSPREDFCPFYKYPKVDSAKIKQLKRLLKDTGVKLSSLLPLYHWAGPEEDRRQAAVRNWKRAIEIAVELEVDLMNSEFSGSKYDPLTSEEKFIKSMDELLPVFEKEGVKLNLQAHPYDFIETHKGAMDMIRALDKDWINLVYSTAHTFFYDDGKGDIATMFDEAGDRLTHVLFADTFNHKAAHGLRYIVNPPDAKVTVHQHLDIGQGEVDFETIFRKMREMKFDGIATNAVFAWVGERADESSRTTLKKLKEELGMA	PGPT0020845_292	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
D1-12_02181	843	iolI	COG1082	Inosose isomerase	ATGAAACTTTGCTTTAATGAAGCGACTACGCTGGAGAATTCAAACCTGAAACAGGATTTAGAACTGTGCGAAAAGCACGGCTATGATTATATTGAAATCCGCACAATGGATAAGCTGCCGGAATACTTAAAAGACCATTCACTGGCCGATCTGGCGGAATATTTTCGAACCCATCACATTAAACCGCTTGCCCTGAACGCACTGGTTTTCTTCAACAACCGTGATGAGAAGGGCTATAGGGAGATCATTTCGGAATTCAAAAGCATGATGGAAACCTGCAGAACGCTCGGCGTGAAATATGTGGTGGCCGTGCCGCTTGTGACAGAGCGGAAAATCTTGAAAGAAGAGATCAAAAAGAGCAGCGCAGAGGTGCTGACTGAGCTTTCGGACATCGCGGAGCCGTACGGCGTAAACATTGCCCTTGAATTTGTCGGCCATCCGCAATGCACGGTCAATACATTTGAACAGGCGTATGACATCGTGAACGCTGTCGGCCGCGATAATGTCGGACTGGTGTTTGACAGCTTCCATTTCCACGCGATGGGCTCCAATATTGAGAGTTTGAAGCAGGCGGACGGAAAGAAAATTTTCATCTATCATATCGACGATACAGAGGACTTCCCGATCGGCTTTTTAACGGATGAAGACCGCGTCTGGCCTGGACAGGGTGCGATTGACTTAGACGCCCATCTGTCAGCGTTAAAAGAAATCGGATTCAATGATGTTGTCTCCGTAGAGCTGTTCAGACCTGAATATTATAAGCTGACTGCGGAGGAAACGATCAAAACGGCAAAGGAAACAACGGAAGCCGTCGTATCAAAATACTTCATGAAGGAGGCGTGA	MKLCFNEATTLENSNLKQDLELCEKHGYDYIEIRTMDKLPEYLKDHSLADLAEYFRTHHIKPLALNALVFFNNRDEKGYREIISEFKSMMETCRTLGVKYVVAVPLVTERKILKEEIKKSSAEVLTELSDIAEPYGVNIALEFVGHPQCTVNTFEQAYDIVNAVGRDNVGLVFDSFHFHAMGSNIESLKQADGKKIFIYHIDDTEDFPIGFLTDEDRVWPGQGAIDLDAHLSALKEIGFNDVVSVELFRPEYYKLTAEETIKTAKETTEAVVSKYFMKEA	PGPT0018495_133	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
D1-12_02182	873	iolJ	COG0191	6-phospho-5-dehydro-2-deoxy-D-gluconate aldolase	ATGGCTTTGGTCACCATGAAACATCTTCTTGCAGAAGCGAAACGGGAGCATTATGCAGTCGGCCAGTTTAATATCAACGGCCTCCAATGGACGAAGGCGATTCTGCAAGCGGCGCAAAAGGAGCAATCGCCGGTCATCGCAGCGGCTTCCGATCGTCTGGTCGACTATTTAGGCGGATTTAAAACGATTTCCGCCATGGTCGGCGCGTTAATGGAAGAAATGGCGATTACCGTTCCCGTCGTGCTCCATCTTGATCACGGAAGCAGTGCGGAACGCTGCAGACAGGCCATTGACGCCGGATTCAGCTCAGTGATGATTGACGGCTCCCATCATCCGATTGATGAGAACATCGCGATGACAAAAGAAGTCGCCGATTATGCGGCAAAGCAAGGCGTCTCAGTAGAAGCAGAAGTCGGCACGGTCGGCGGCATGGAAGACGGGCTGGTCGGCGGGGTCCGCTATGCCGATATCGCCGAATGTGAGCGGATCGTCAAAGAAACCAATATCGACGCGCTGGCCGCCGCCCTCGGCTCCGTCCACGGCAAATATCAGGGCGAGCCGAATCTCGGATTTAAGGAAATGGAGGAAATCTCCCGCATGACTGATATTCCTCTCGTTCTTCACGGAGCATCCGGGATTCCGCAGGATCAGGTCAAAAAAGCCATCACGCTCGGCCACGCGAAAATCAATATCAACACGGAATGTATGGTAGCCTGGACAGACGAAACACGCCGCATGTTTCAGGAAAACGGAGATCTGTACGAACCGCGCGGCTACATGACACCCGGCATTGAAGCCGTGGAAGAGACAGTGCGAAGTAAAATGAGAGAGTTCGGATCAGCCGGTAAAGCCGTAAAACAGCAGGTCGGCTGA	MALVTMKHLLAEAKREHYAVGQFNINGLQWTKAILQAAQKEQSPVIAAASDRLVDYLGGFKTISAMVGALMEEMAITVPVVLHLDHGSSAERCRQAIDAGFSSVMIDGSHHPIDENIAMTKEVADYAAKQGVSVEAEVGTVGGMEDGLVGGVRYADIAECERIVKETNIDALAAALGSVHGKYQGEPNLGFKEMEEISRMTDIPLVLHGASGIPQDQVKKAITLGHAKININTECMVAWTDETRRMFQENGDLYEPRGYMTPGIEAVEETVRSKMREFGSAGKAVKQQVG	PGPT0018500_31	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018500-iolJ-K03339	NA	NA
D1-12_02183	690	graR_1	COG0745	Response regulator protein GraR	TTGAATAAAATCATGATTGTGGAAGATAGTGAAGACATTCGCGGACTATTGCAGAATTACCTTGAAAAATACGGATATCAAACAGTGGCCGCCGCGGATTTCACGGCTGTTCTTGATGTTTTTTTGCGGGAAAAGCCTGATGTGGTGCTGCTTGATATCAACCTGCCGTCTTATGACGGCTATTATTGGTGCCGCCAGATCCGCCAGCATTCTACAAGCCCGATCATTTTCATCTCTGCCAGAAGCGGCGAAATGGATCAGGTGATGGCGATTGAAAACGGCGGAGATGATTATATCGAAAAACCGTTTTCTTATGATATTGTGCTGGCGAAAATCAAAAGCCAGATCCGCAGGGCATACGGAGAGTACGCCGCCAAGCAGGGAGAGAAAGTGGTTGAATATGCCGGTGTGCAGCTCTTTGTGGAACGGTTTGAACTGCGCTTTCAGGACGAAAAAAGCGAGCTTTCTAAAAAAGAAAGCAAGCTTTTGGAAGTGCTGCTGGAGCGGGGAGAAAAGGTGACGGGAAGAGACCGGCTCATGGAAAAAACGTGGGACACCGACATTTTCGTCGATGATAATACACTTAACGTGTATATCACGCGGCTCAGAAAAAAACTGCGGGAACTGAATGCGCCTGTTTCCATTGAATCGGTGCGGGGCGAAGGCTACCAGCTGAGGGCGCTGTCATGA	MNKIMIVEDSEDIRGLLQNYLEKYGYQTVAAADFTAVLDVFLREKPDVVLLDINLPSYDGYYWCRQIRQHSTSPIIFISARSGEMDQVMAIENGGDDYIEKPFSYDIVLAKIKSQIRRAYGEYAAKQGEKVVEYAGVQLFVERFELRFQDEKSELSKKESKLLEVLLERGEKVTGRDRLMEKTWDTDIFVDDNTLNVYITRLRKKLRELNAPVSIESVRGEGYQLRALS	PGPT0027850_187	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027850-yxdJ-K11634	NA	NA
D1-12_02184	978	graS_1	COG0642	Sensor histidine kinase GraS	ATGAAGCTGTTTCTCCGGTCTCATGCCGTGCTGATTCTGCTTTTTCTCCTTCAAGGGCTGTTTGTCTTCTTTTATTACTGGTTTGCGGGTCTTCATTCTTTTTCCCACCTGTTTTACATATTGGGCGTGCAGCTTCTTATTTTGGCGGGTTATCTTGCCTATCGCTGGTACAAAGACCGCGGCGTGTATCATTGGCTCAGCTCGGAGCAGGAAGGGGCGGACATCCCGTATCTCGGTTCTTCGGTGTTTTGTTCAGAGCTGTATGAAAAGCAGATGGAGCTGATCCGGCTGCAGCACCAGAAGCTCCATGAGACCGAAGCCAAGCTTGACGCGCGGGTGACGTATATGAATCAATGGGTGCACCAAGTAAAGACGCCGCTGTCGGTCATTAATTTAATCATTCAGGAAGAGGATGAGCCCGTCTTTGAACAAATCAAAAAAGAGGTTCGGCAGATTGAATTCGGGCTGGAGACGCTTCTTTATTCATCAAGGCTCGACCTGTTTGAGCGGGATTTTAAAGTCGAAGCGGTTTCCTTATCAGAGCTTCTCCAATCAGTCATTCAAAGCTATAAACGATTCTTTATTCAATACCGCGTTTATCCGAAAATGGACATTCGCGATGATCATCAGATTTACACCGATGCGAAATGGCTCAAATTTGCGATCGGCCAAGTGGTCACAAATGCGGTCAAGTATTCGGCAGGCAAGAGTGACAGACTTGAGCTGAATGTCTTCCGCGATGAAGACAGGACGGTGCTTGAAGTCAAAGATTACGGTGTCGGCATTCCCTCGCAAGATATCAAGCGGGTGTTTGACCCTTATTACACCGGCGAAAACGGGCGGCGTTTCCAAGAATCTACGGGGATCGGCCTCCATCTCGTCAAAGAAATTACGGGCAAGCTCAATCATACGGTGGACATCAGCTCGTCCCCCGGTGAAGGGACATCGGTCCGATTTTCATTTCTTACAAAAATGTAA	MKLFLRSHAVLILLFLLQGLFVFFYYWFAGLHSFSHLFYILGVQLLILAGYLAYRWYKDRGVYHWLSSEQEGADIPYLGSSVFCSELYEKQMELIRLQHQKLHETEAKLDARVTYMNQWVHQVKTPLSVINLIIQEEDEPVFEQIKKEVRQIEFGLETLLYSSRLDLFERDFKVEAVSLSELLQSVIQSYKRFFIQYRVYPKMDIRDDHQIYTDAKWLKFAIGQVVTNAVKYSAGKSDRLELNVFRDEDRTVLEVKDYGVGIPSQDIKRVFDPYYTGENGRRFQESTGIGLHLVKEITGKLNHTVDISSSPGEGTSVRFSFLTKM	PGPT0027855_261	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027855-yxdK-K11633	NA	NA
D1-12_02185	774	yxdL_1	COG1136	ABC transporter ATP-binding protein YxdL	ATGGCGAATATGCTTGAAGTCAAACATATAAATAAAACCTATAAAGGACAAGTGTCCTATCAAGCTTTAAAACAAATTTCGTTTTCAATAGAAGAAGGCGGGTTCACGGCGGTGATGGGACCGTCCGGCTCCGGAAAAACAACGCTTTTGAATATCATTTCAACGATCGACCGGCCGGATTCAGGCGATATCCTGATTCACGGAGAAAACCCGCACCGCCTGAAGCGGACAAAGCTCGCTCATTTCCGCCGCAAGCAGCTCGGATTTGTGTTTCAGGATTTCAACCTTCTGGACACGCTGACGATCGGTGAAAATATCATGCTGCCGTTAACGCTTGAAAAAGAAGCGCCGTCTGTCATGGAAGAAAAACTGCACGGCATCGCGGCAAAGCTCGGAATCGAAGACCTGCTCAACAAACGGACGTTTGAAGTATCCGGCGGACAGCGCCAGCGGGCCGCCATCGCAAGGGCGGTCATTCATAAGCCGTCACTGATTCTGGCCGATGAACCGACGGGAAACCTTGATTCCAAAGCGTCAAAAGACGTCATGGAAACGATGCAGAGCCTGAACCAGGATGATCATATCACGGCTTTGATGGTGACCCATGATCCGGTTGCGGCAAGCTACTGCCGCCGCGTCATCTTTATAAAAGACGGCGAACTGTTTAATGAGATTTACCGCGGGGAAAACCGCCAAGTCTTTTATGAACAGATTCTTGATGTGCTGTCTATGCTGGGGGGAAACGCAAATGACCTTTCTTCAGTTCGCTTATAA	MANMLEVKHINKTYKGQVSYQALKQISFSIEEGGFTAVMGPSGSGKTTLLNIISTIDRPDSGDILIHGENPHRLKRTKLAHFRRKQLGFVFQDFNLLDTLTIGENIMLPLTLEKEAPSVMEEKLHGIAAKLGIEDLLNKRTFEVSGGQRQRAAIARAVIHKPSLILADEPTGNLDSKASKDVMETMQSLNQDDHITALMVTHDPVAASYCRRVIFIKDGELFNEIYRGENRQVFYEQILDVLSMLGGNANDLSSVRL	PGPT0013345_2533	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-12_02186	1869	yxdM		ABC transporter permease protein YxdM	ATGACCTTTCTTCAGTTCGCTTATAAAAACGTCACGAGAAACAAAAGGGCCTATCTTGCTTTCTTTTTAAGCAGCGCTTTTTCCGTTTTGATTTTCTTTACCTTTGCGATGTTCCTGTTTCATCCGGCACTAAAGGAAGGCTACCTGAATAACATCGCCAGAAAAGGCTTAACCGCCGCGGAATGGATGATCTTTGTTTTTTCTTTCTTATTTGTTCTGTATTCGGTTAACGCATTTTTGAAATCGAGAAATAAAGAATTCGGTATTCTGCTGATGCAGGGTATTACGCCGGTGCAGCTGAGAAAGCTCATTACGGCGGAAAACATGATCATCGGCGTCATGTCGATCGCAGCCGGGATTATCGGAGGATTCATTTTTTCGAAAACGTTCTTTACGGTCGGCGCTTATATTTTAGAAATGGACGCGCTGCCTCTGTACATGCCTTGGAAAGCGCTCGGCATTACGGCCGGCGGATTTCTGCTCTTATTTTTCCTTTTATCGCAGTTCACGATCCTTTTTGTCAGATCAAATACGGTGATCAAATTAATAAAGGGCACTGACAAGATCAAGCCGGAGCCGAAGCCGTCCGTGCTTCTGTCCTTATTCGGCATCGCCTGTCTTTGCGGCGGGTACGGCATGGTTCTGAAAGGCAATGTCCACGGGACTCAACCGTTCATCATTTTACTGCTTACCGTCATCGGCACGTATTTCTTTTTCAGCCAAAGCAGCATCTGGATTCTGCGCGCGCTGAAGAAGTGGAAAACCTTTTATCTGCGCGGGAAAAATGTCATTTGGGTTTCTGACCTTGTTTATCGTTTAAAAGACAACGCCCGCCTGTTCTTTATCGTCAGCATTATTTCCGCGGTTGCGTTTACTGCGACAGGCGTGCTCGCAATGTACAAATCGACCGTCGGGGCGGAAGAGTCCGCCTATGAGATGGAGTATGTATCTTTCAGCAATAATTCAAAAGAAAAGACTCATTTGAAAGATATTGACCATGAACTGAAAACACACGGCTTTACGTATAAGAAAGACAAAATAAATGTTTCCTATGTCCGCTATCAGGAAGGAGATACTGTTCCGCCTGTTTACATGATCAGCAAATCGGGTGTATCAAAATACTTCCATGTCAAGCTGAGCGGCCTGAAACATGATGAGGCTGTCTATTTCCCGGGCACGTATGATCGCAATTTCAAAAACGAAGCGCCGGATCAGCTGAAGCTGCTGAACCAAAAAGGCAAGCCGTCTGACCAAAAACTGACGGTAAAAGAAGTCAAAAAACCGCTGATCTCATTGAATGCCATCATCGCGGTGAACGATCAAACCTTTGATCAGCTCAAATCACTCGGTGATAAAGCGTCATTATACGGCTACAGCTACGATCATTGGAAAGACAGTCTTGGGTTCAGCCAATCTCTGAAAGATGAAATCTACGGCAACTATATCGACGTGCATTCTGATTTTATGTCAAAAGCCGGCACCTACTATGATACGGTGCAGCTGCCGAGCCTGAGTTTATTCATCGGCCTGTTTATCGCCATCGTCTTCTTTGTCGCGGCAGCAAGTTTCTTATATTTCAGGCTGTTCACCGATTTAGATGAGGACCGGGAGCGCTACCGTTCACTGGCCAAAATCGGCCTGAGTGAGCGTGAAATGGCACAAAGCGTGACAATACAATTGGCCATTCTTTTCTTCTTTCCATTTGTCATTGCCGTCATGCATACACTGTTTGCCTTGAGAACATTGGCCGTGGAAGGCTATTCCGATGTAGCGGGGCCGCTCAGTCTGACCATCGGAGGGTTTTTCATCTTTCAGCTTCTGTTCTTCCTCGCGGTGCGGACAAGCTATTTGAAAAAAATGAACAAGTAA	MTFLQFAYKNVTRNKRAYLAFFLSSAFSVLIFFTFAMFLFHPALKEGYLNNIARKGLTAAEWMIFVFSFLFVLYSVNAFLKSRNKEFGILLMQGITPVQLRKLITAENMIIGVMSIAAGIIGGFIFSKTFFTVGAYILEMDALPLYMPWKALGITAGGFLLLFFLLSQFTILFVRSNTVIKLIKGTDKIKPEPKPSVLLSLFGIACLCGGYGMVLKGNVHGTQPFIILLLTVIGTYFFFSQSSIWILRALKKWKTFYLRGKNVIWVSDLVYRLKDNARLFFIVSIISAVAFTATGVLAMYKSTVGAEESAYEMEYVSFSNNSKEKTHLKDIDHELKTHGFTYKKDKINVSYVRYQEGDTVPPVYMISKSGVSKYFHVKLSGLKHDEAVYFPGTYDRNFKNEAPDQLKLLNQKGKPSDQKLTVKEVKKPLISLNAIIAVNDQTFDQLKSLGDKASLYGYSYDHWKDSLGFSQSLKDEIYGNYIDVHSDFMSKAGTYYDTVQLPSLSLFIGLFIAIVFFVAAASFLYFRLFTDLDEDRERYRSLAKIGLSEREMAQSVTIQLAILFFFPFVIAVMHTLFALRTLAVEGYSDVAGPLSLTIGGFFIFQLLFFLAVRTSYLKKMNK	PGPT0027860_323	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027860-yxdL-K11636	NA	NA
D1-12_02187	348	yxeA	COG5294	putative protein YxeA	ATGAAAAAAGCATTGGCAATCCTGGCCGTCTTGGCGGCCGCTGCCGTCATATACGGACTTCTCTTTTTTCATAATGATGTTACAGACAGATTTAATCCGTTTATTCACCAGCAAGATGTTTATGTACAGATTGATCGAGATGGCAAACATCTTAGCCCGGGCGGTACTGAGTATACATTAGACGGATATAACGCATCCGGGAAAAAAGAAGAAGTGACCTTTTTCGCCGGGAAAGACCTTCGGAAGAACGCGTATTTGAAGGTGAAGGCGAAAGGAAAGTATGTCGAGACCTGGGAAGAAGTCAGATTTGAAGATATGCCGGGCTCCGTACAGTCAAAATTAAAGTGA	MKKALAILAVLAAAAVIYGLLFFHNDVTDRFNPFIHQQDVYVQIDRDGKHLSPGGTEYTLDGYNASGKKEEVTFFAGKDLRKNAYLKVKAKGKYVETWEEVRFEDMPGSVQSKLK				NA	NA	NA	NA	NA
D1-12_02188	645	yxeB_1	COG0614	Iron(3+)-hydroxamate-binding protein YxeB	ATGCAGCTGAAGCCTGATTTAATCGTGCTGATGAAGGATGACCAATACGAAAAACTATCGAAAATCGCACCGACGATTGTCATTCCTTTTAACACCGCAAAGAATACGAAAGATACGGTCAGCCTATTCGGCGACATTGCCGGGGCGAAGGATAAAGCCAAAAGCTTTATGGCAGACTTCAACAAAAAAGCCGAAGCGAATCAAAAGCGCCTCAAAAACGTGATCGGCAAAGACGAGACAGTCGGCCTTTATGAAACGACGGATAAAGGCGAAATCTGGATTTTCAATGACAATTCCGGCCGCGGCGGCCAAGCCGTTTATAACGCGCTCGGATTGAAAGCGCCGGCCAAAATCGAAAAAGACATCATGAAAACGGGCGCCATGAAACAGGTTTCCCAAGAGGTCATCCCTCAATATGCGGCTGATTATATGTTCATTACCGATTACAATCCGAATGGAGAAAGCAAAACATTTGAGCGTCTGAAAGAGTCATCCGTTTGGAAAAATCTCGATGCCGTAAAGAACAACCGTGTCTTTATCAACGATTTCAACACCTTCTATCCGTATGACCCGATTGCCGTCAGCAAACAGATGGATATCATCACCGACATGCTGATCAAACGGGCTGAAGAAAATAAAAAATAA	MQLKPDLIVLMKDDQYEKLSKIAPTIVIPFNTAKNTKDTVSLFGDIAGAKDKAKSFMADFNKKAEANQKRLKNVIGKDETVGLYETTDKGEIWIFNDNSGRGGQAVYNALGLKAPAKIEKDIMKTGAMKQVSQEVIPQYAADYMFITDYNPNGESKTFERLKESSVWKNLDAVKNNRVFINDFNTFYPYDPIAVSKQMDIITDMLIKRAEENKK	PGPT0003765_7726	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
D1-12_02189	267	yxeB_2	COG0614	Iron(3+)-hydroxamate-binding protein YxeB	ATGAAGAAACAATCATGGCTGATCGGCCTGGCACTTCTGCTTGTTTTCGCATTAAGCGCTTGCAGCGGCGCGAAGGAAAACAACGGATCGGCATCAGGCAAAGGAAAGACAGACATGCGTACATATGAATCAACAAAAGGAAATATTGACATACCCGCACATCCGAAACGGATCGTCACTGACTTTTATGCAGGTGAGCTGCTGTCCGTTGACGCAAATGTCGTCGGGGCGGGCTCATGGGCTTTCAAAAATCCGTTTATCAAATAA	MKKQSWLIGLALLLVFALSACSGAKENNGSASGKGKTDMRTYESTKGNIDIPAHPKRIVTDFYAGELLSVDANVVGAGSWAFKNPFIK	PGPT0003765_7726	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
D1-12_02190	393			hypothetical protein	ATGTTGATTACGAAAAGAGGGACTTGGTGGGAAGTGCTGCACAGCTGGTGGCTGCTGCTGACTTTTGCGCCGTTTGCGCTGACCGCTTTCTTGGCCTTTTTCTATATCGGCTACCGGGCCAAGAACAAAAAATGGCTGAAATACGGACTTATCTATTTTATTATTTTAGCAATTGCTTTTGTGCTGCCGAGCACGCCGGGCGTGTATATCGTGCTGCCTTTATGGGTCATCTCCATCATCCACGGGCTGAAAGTGCGGGCGGCTTATTTGATACAGCTTGATGTGTTTAAACAAAACGTCGAAGCAAGAGCGTTTGAAGCGGTAAGGCATGAGGCGGAAGCAAAATTCGGCGGAAAACCCGCTCATCGCATTGATCTGACAAAACAGAGATAA	MLITKRGTWWEVLHSWWLLLTFAPFALTAFLAFFYIGYRAKNKKWLKYGLIYFIILAIAFVLPSTPGVYIVLPLWVISIIHGLKVRAAYLIQLDVFKQNVEARAFEAVRHEAEAKFGGKPAHRIDLTKQR				NA	NA	NA	NA	NA
D1-12_02191	366			hypothetical protein	ATGATGTATCAAAACCAATACAGCGGAAATCAGCTGCAGCAATGCCGCCAAACAGCACAGCAGCTTATTCAGCAGACACAGCAAAGCAGTCAGCAGTACAAGCAAATGCTCCAGCAGGAACAGCAAAACATTCAAATGCTTCAGCAGATGCTTAACCATGAACAGCATGCCGTTCATACCATTCAGCAAGCGCTGCAGGGGCATGAAGCGGCCATTCAGAAATGCCAGCAAATCGTGAATGTGTGCAATCAGCTTCAGCAGGAAGTAAGCGGACACATGCCTGCACCGATGGCAAACGCTAATGTTTCTTCATTCCCGCAAACACAGCATCACACACCGTTTCAGCAGCACTCATACCAGCAATAG	MMYQNQYSGNQLQQCRQTAQQLIQQTQQSSQQYKQMLQQEQQNIQMLQQMLNHEQHAVHTIQQALQGHEAAIQKCQQIVNVCNQLQQEVSGHMPAPMANANVSSFPQTQHHTPFQQHSYQQ				NA	NA	NA	NA	NA
D1-12_02192	387	yxeE		putative protein YxeE	ATGAACCCATATCAGTACTACACCCCGCCTGCCTATTTCCCTCAGCAGCAGGAATACGAAGTGAACCGCGTTGAGTATGAGCCGTATCAGCAGCAGGAAAGCTATTATTATGCGCCCCCTCAGTCTGAAGAGCGGCAGCCGACGGCTTTAGAACGGAGAGTCGCCCAGCTTGAAAGACAAAACGCCCAGCAAACGAGAGAGCTCACCCGCCTCTCACAAGAAGACCAGCGCCAAAACCGGGAAATCACGCGTATGAATGAGCAGATCAGACGGCTGAGCCAGTCCATTGAAATCCATACCCGCCGCTTAAACCGTTTGAATCAGCGCCTGCGCGCAGTCGAAAACAGACTCAATATTCCTTTTCACGCTACAGAAGGCGGCTTCTGA	MNPYQYYTPPAYFPQQQEYEVNRVEYEPYQQQESYYYAPPQSEERQPTALERRVAQLERQNAQQTRELTRLSQEDQRQNREITRMNEQIRRLSQSIEIHTRRLNRLNQRLRAVENRLNIPFHATEGGF				NA	NA	NA	NA	NA
D1-12_02193	420	yxeF		putative protein YxeF	ATGTTGCGGAACATACGGATTTTCATCATGACGGTTCTTGTTTTCGGATGCGTCATGATAACAGGCTGCTCGCAAAAGAAAGCAGACGATACCCCTTTTTATTACGGGACATGGGATGCAGGGCTGAAACCGGGCCCGATGGACGGGGTCAGATCTGAAACCGTCACGTTTACGAAAGACAGCGTGCTGACAAAGCAGGTCATTCAAGGCCGCGGCGAGGTTGCCATGCCCTCAGATGTGTACAAGGTGATCTCACAAAACACGGACGGGACGATCGAGATTGAATACCTCGGACATCCGCACCCCGTCAAAAGCACGTTGAAAAGAGGAAAAAACGGTACGCTCATTTGGAAGATATACGGAGAAACAAAAACAATGACAAGAATAAAAACCGGCGGGGAGGATGCACATGAGAAATAA	MLRNIRIFIMTVLVFGCVMITGCSQKKADDTPFYYGTWDAGLKPGPMDGVRSETVTFTKDSVLTKQVIQGRGEVAMPSDVYKVISQNTDGTIEIEYLGHPHPVKSTLKRGKNGTLIWKIYGETKTMTRIKTGGEDAHEK				NA	NA	NA	NA	NA
D1-12_02194	525			hypothetical protein	ATGAGAAATAAGGCTGCCGACAGACTCGTTTTGACGGGTGTCATCGTACATATCATTCAATGGTTTTCACTGTTATGGTTATTTTTTATGCTTTTTGATCAGTTCGGGCGTTTTACCATTTACAATCCCAATGTCGTCAACAGCAGCATGCAGTCTTTTTCATTCTTTGATATGATGCGCGCTCTTCTGTTTTCCGGCACGCTGCGGAATACGCTTCTGCTGTTTCTGTTTGCGGCAATGCTCATTTACTTGTGGGTGAACGCTCTGTTTATCCTGCTGGAAATCGTTTCTTATATCATGATCAGGCGGAACAGCCGTTCATTATGGGCATACTTTCCCGCAGCGATGGGAATAAAGCTTGCCCTTCTGGACATAGCGGCCGTCCCTTTCTTTGCGGCGGGGCTGATGCTCTTGAAGCAGAAAACAGACGACGGCGGCGAACAAGCTGACAAGGGGAAAAGACGGCCCCGTATCCGGAGGCAGGCCCGTTATACGAAGAGAAGGCGGAGAAACTCGTCCGTTTGA	MRNKAADRLVLTGVIVHIIQWFSLLWLFFMLFDQFGRFTIYNPNVVNSSMQSFSFFDMMRALLFSGTLRNTLLLFLFAAMLIYLWVNALFILLEIVSYIMIRRNSRSLWAYFPAAMGIKLALLDIAAVPFFAAGLMLLKQKTDDGGEQADKGKRRPRIRRQARYTKRRRRNSSV				NA	NA	NA	NA	NA
D1-12_02195	813	yidA	COG0561	Sugar phosphatase YidA	ATGTACAAGTTAATCGCAATAGATATGGACGGAACACTATTAAACGATCATCATGAAGTGACGGCTGAAGTCCGCGGGGCGCTTGATGCCGCCAAAGCGGAAGGGGTCAATATCGTCCTGTGCACGGGCCGGCCGATCGGCGGCGTGCGTCGGTATTTGGAAGAGCTGAACTTACAGGAAGAAGGCGACTTTGTGATTGCCTATAACGGCGCACTCGTCCAAAATACGTATACAAACGGTGTCGTGGCCGAGCAGTCATTAGGCTTTGAGGATTTGAAGTCGCTTTACGAGCTGAGCTTACAGCTGGATACTCCGATGCATTACTTTGACACAGCCAATCTGTACACGCCGAACCGGGATATCAGTGAATACACGGTATACGAATCATACATTACGAAAGTGCCGCTTCATTTCCGCACGATCGATGAAGTGCCGAAGGATATTCTGATTCCGAAAGTCATGTTCATTGACGATCCGGACAAGCTGGAGAAAGCGATCGCTTCCATTCCGGAATCATTCAAAGAAACATACACAATGGTCAAAAGTGCGCCATTCTTCCATGAGATTCTTCACCCGAAAGTCAGTAAAGGAAACGCGGTTAAGCTGCTGGCCGAAAAACTCGGCATTGAACAGAAAGACGTCATGGCAATCGGCGATAACGGCAACGACATGTCCATGATTCAGTGGGCCGGCTGCGGTGTGGCAATGGCCAATGCCATCCCGGAAGTAAGGGAGATTGCCGATTTTGAAACGAAATCAAATAACGAACACGGCGTGGCGCATGCGATTCAGGAGCTTGTGCTGAAAAAATAG	MYKLIAIDMDGTLLNDHHEVTAEVRGALDAAKAEGVNIVLCTGRPIGGVRRYLEELNLQEEGDFVIAYNGALVQNTYTNGVVAEQSLGFEDLKSLYELSLQLDTPMHYFDTANLYTPNRDISEYTVYESYITKVPLHFRTIDEVPKDILIPKVMFIDDPDKLEKAIASIPESFKETYTMVKSAPFFHEILHPKVSKGNAVKLLAEKLGIEQKDVMAIGDNGNDMSMIQWAGCGVAMANAIPEVREIADFETKSNNEHGVAHAIQELVLKK	PGPT0017727_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
D1-12_02196	942	deoR	COG2390	Deoxyribonucleoside regulator	ATGGATCGTGAAAAACAGCAGCTCAGCATAGAAGCGGCAAAACTATATTATCAATCAGATTACAGCCAGCAGCAGATCGCCGAACGGCTTAATCTGTCACGCCCCACCGTTTCAAGGCTGCTTCAGTACGCAAAGGAAAAAGGGTATGTGCAAATTCGCGTCATGGACCCGTTTGAGGATCTGGACGAACTCGGCGCGAAGCTGGAAGAAAAATACGGGCTGCTTGAGGCGCACGTCGTCTTTTCTCCAAGCGACGATTACCAGGCCATTACACATTACTTAAGCCGCTATGGCGCAGACTATATGCATAAAACCGTAAAGGACGGCGATATACTCGGCGTAAGCTGGGGGACGACGATGTACCAGATCGCAAGCCGCATGGAGCCGAAGCAGGTAAAGAGCGTTGAAGTTGTGCAGCTGAAAGGCGGCATCAGTCATTCCAATGTCAATACGTATTCGTCAGAAACGATTCAGCTGTTCGCCGAAGCATTTCAGACCATGCCGAGGTATTTGCCGCTGCCGGTTATATTTGACAGCGCCGATGTGAAACAGATGGTCGAGCGGGACAGACATATTAAGCGGATCATTGAAATGGGCAGACAAGCCAATATCGCCCTGTTTACGGTCGGAACTGTCCGGGATGAGGCGCTGCTTTTCAGACTCGGCTATTTCCGGGAAGAAGAGAAACAATTGCTGAAAGCGCACGGGGTCGGCGATATTTGTTCGCGCTTTTTTGACGAGGAAGGCAGGATTTGCAGCAGCAGCATTAACGGCCGGACGATCGGAGTCGAGCTCAGCGACTTGAAAATGAAAGAGCGTTCGATTCTGGTGGCGGGCGGCAGCAGAAAATGCAAGGCCATTCACGGTGCCCTGAAAGGAAAGTACGCCAACGTTTTGATTACCGATCAGCATACGGCCAAAAAACTCATTCAAGAATTGTGA	MDREKQQLSIEAAKLYYQSDYSQQQIAERLNLSRPTVSRLLQYAKEKGYVQIRVMDPFEDLDELGAKLEEKYGLLEAHVVFSPSDDYQAITHYLSRYGADYMHKTVKDGDILGVSWGTTMYQIASRMEPKQVKSVEVVQLKGGISHSNVNTYSSETIQLFAEAFQTMPRYLPLPVIFDSADVKQMVERDRHIKRIIEMGRQANIALFTVGTVRDEALLFRLGYFREEEKQLLKAHGVGDICSRFFDEEGRICSSSINGRTIGVELSDLKMKERSILVAGGSRKCKAIHGALKGKYANVLITDQHTAKKLIQEL				NA	NA	NA	NA	NA
D1-12_02197	669	deoC	COG0274	Deoxyribose-phosphate aldolase	ATGTCAATTGCAAGTCAAATAGACCATACTGCTTTGAAACCGCATACACAAAAAGCAGATATTTTACAACTGATAAAAGAAGCAAAAGAATATAAATTCGCTTCCGTTTGTGTAAACCCGACTTGGGTCAAACTCGCAGCGGAGGAACTGAAGGGCACGGGAGTTGACGTTTGCACCGTTATCGGATTTCCTCTCGGCGCAACGACATCGGAAACAAAAGCATTTGAAACGAAGGATGCCATCTCAAAAGGAGCCACTGAGGTTGACATGGTCATCAATATCGGCGCATTAAAAGACGGCGATGATGAAGCGGTTGAAGCTGATATCCGCGCGGTAGTTGAAGCAGCTGATAAAAAAGCGCTCGTCAAAGTGATCATCGAAACATGCCTTTTGACAGATGAAGAAAAAGAGCGCGCGTGCCGCTTAGCGGTATCAGCAGGCGCCGATTTCGTCAAAACGTCTACCGGTTTTTCTACAGGCGGGGCAACGGCTGAAGATATCGCTCTTATGAGAAAAACAGTCGGACCGGACATCGGGGTCAAAGCATCAGGCGGCATCAGAACAAAAGCTGATGTTGACAGCATGATCGCTGCGGGCGCGAGCCGGATCGGCGCAAGTGCGGGCGTCTCTATCGTGAGCGGCGGAGACAGCGGCAGCAGCGACTATTAA	MSIASQIDHTALKPHTQKADILQLIKEAKEYKFASVCVNPTWVKLAAEELKGTGVDVCTVIGFPLGATTSETKAFETKDAISKGATEVDMVINIGALKDGDDEAVEADIRAVVEAADKKALVKVIIETCLLTDEEKERACRLAVSAGADFVKTSTGFSTGGATAEDIALMRKTVGPDIGVKASGGIRTKADVDSMIAAGASRIGASAGVSIVSGGDSGSSDY	PGPT0017445_3063	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017445-deoC-K01619	NA	NA
D1-12_02198	1182	nupC	COG1972	Nucleoside permease NupC	ATGAAGTATCTCATCGGAATTATCGGAATCATTGTGTTTTTAGGTCTTGCCTGGCTTGCCAGCAACGGCAAAAAAAGAATCAGAATCCGGCCGATCGCCGTCATGCTCGTGCTGCAGCTGATTCTCGGTTATATTCTCCTCAACACCGGTATCGGGAATTTTCTTGTCGGCGGTTTTGCAAAAGGATTTAACTACTTGCTGGAATATGCATCAGAAGGGATTAACTTTGTATTCGGCGGGCTTGTGAATGCGAAACAGACGACGTTCTTCATGAGCGTGCTTCTGCCGATCGTCTTTATATCCGCTTTAATCGGAATTCTGCAGCATTGGAAGGTCCTTCCCTTCATCACGAAGTATATCGGTCTTGCGTTAAGCAAGGTGAACGGAATGGGGAAAATCGAATCTTACAACGCTGTCGCATCCGCGATTTTAGGGCAATCAGAAGTCTTTATCAGTTTGAAAAAACAGCTCGGTTATCTTACTGAACAGCGCTTATATACGCTTTGCGCATCCGCAATGTCGACGGTCTCAATGTCGATCGTCGGTTCTTACATGATGATGCTGAAGCCTGAATACGTCGTGACGGCGCTTGTGCTGAACTTATTCGGCGGATTTATCATCGCTTCTATCATTAACCCGTACACCGTCAGCAAAGAAGAGGATTTGATCGTCGTTCCTGAAGAAGAAAAGCAATCCTTTTTTGAAGTGCTCGGTGAGTATATAATGGATGGATTCAGAGTCGCCGTCGTCGTAGCGGCGATGCTGATCGGATTTGTCGCACTCATTGCCCTGGTCAACGGCGTTTTTAACGCGGTCTTCGGCATTACATTCCAGGCGCTGCTCGGATATGTATTCGCGCCGTTTGCGTTTTTAACCGGTATTCCGTGGAATGAAGCGGTGAGCGCCGGAAGCATTATGGCGACGAAAATGGTATCGAATGAATTTGTGGCGATGCAGACACTCTCATCCGGCGATTTCCATTTCAGTGCGCATACACAGGCAGTGGTATCTGTATTCCTTGTCTCATTCGCGAATTTCTCCTCTATCGGAATCATTACCGGTGCGGTGAAAGGGCTGCATGAAAAACAAGGAAACGTCGTCGCGCGGTTCGGTCTGAAGCTGCTGTACGGCGCAACACTCGTCAGCTTCTTGACAGCGGCGATCGTCGGATTGATTCACTGA	MKYLIGIIGIIVFLGLAWLASNGKKRIRIRPIAVMLVLQLILGYILLNTGIGNFLVGGFAKGFNYLLEYASEGINFVFGGLVNAKQTTFFMSVLLPIVFISALIGILQHWKVLPFITKYIGLALSKVNGMGKIESYNAVASAILGQSEVFISLKKQLGYLTEQRLYTLCASAMSTVSMSIVGSYMMMLKPEYVVTALVLNLFGGFIIASIINPYTVSKEEDLIVVPEEEKQSFFEVLGEYIMDGFRVAVVVAAMLIGFVALIALVNGVFNAVFGITFQALLGYVFAPFAFLTGIPWNEAVSAGSIMATKMVSNEFVAMQTLSSGDFHFSAHTQAVVSVFLVSFANFSSIGIITGAVKGLHEKQGNVVARFGLKLLYGATLVSFLTAAIVGLIH	PGPT0021065_447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
D1-12_02199	1302	pdp	COG0213	Pyrimidine-nucleoside phosphorylase	ATGAGAATGGTAGATCTTATTGTAAAAAAACAAAATGGAAAAGAACTGACAACAGAAGAAATTCAATTTTTCGTAAAAGGATACACGGACGGAAGCATCCCTGATTATCAGGCAAGCGCACTGGCTATGGCGATTTACTTTCAGGATATGACAGATCAGGAGCGCGCAGATCTGACAATGGCGATGGTGAATTCAGGGGAAACGATTGATCTCTCCGCCATTGAAGGCATTAAGGTCGACAAGCACTCTACGGGCGGGGTCGGCGACACGACAACTCTCGTACTCGCACCGCTCGTCGCGGCGCTCGGCGTTCCCGTCGCTAAAATGTCCGGCCGCGGTCTTGGCCATACGGGGGGGACCATTGATAAGCTGGAAGCGATCGAAGGCTTCCACGTGGAATTATCAAAAGATGAATTCATCAAGCTTGTGAACCGCGACAAGGTAGCCGTCATCGGACAAAGCGGCAACTTGACGCCTGCCGATAAAAAGCTGTATGCGCTGCGTGATGTAACGGGTACGGTGAACTCCATCCCGCTGATCGCAAGCTCAATTATGAGTAAAAAAATCGCTGCCGGAGCAGATGCTATCGTGCTTGACGTCAAAACGGGAGCCGGCGCGTTTATGAAAACGGATGAAGACGCCGTGAACCTCGCCAAAGCAATGGTCCGCATCGGAAACAACGTCGGCCGCCAGACGATGGCCGTGATTTCTGACATGTCGCAGCCGCTCGGTTTTGCGATCGGGAATGCCCTGGAAGTACAAGAAGCCATTGATACGTTAAGAGGGGAAGGGCCTGAAGACTTAAACGAACTCGTCCTCACGCTCGGCAGCCAAATGGTCGTATTGGCGAAAAAAGCTGAGACATTGGAAGAAGCGAGAACGAAGCTTCAGGAAGTCATGAAAAACGGCAAAGCGCTTGAAAAGTTCAAAGAGTTCCTGAGCAATCAGGGAGGAGACGCTTCTGTTGTTGACGATCCGTCCAAACTTCCGCAGGCGGCGTACAAAATTGACGTTCCGGCGAAAGAAGCGGGTGTCGTTTCAGAAATCGTCGCTGACGAAATCGGCGTCGCAGCGATGCTGTTGGGCGCGGGACGTGCGACAAAAGAGGACGAAATCGATCTTGCCGTCGGCATTATGCTCCGCAAAAAAGTCGGTGACAACGTCGAAAAAGGCGAGCCGCTCGTCACCCTTTACGCCAACCGCGAAAACGTTGAAGACGTGACCGCCAAAGTCTATGACAACATCCGCATCTCAGAAAAAGCGGAAGCGCCGAAACTGATTCATACGCTGATTACGGAATAA	MRMVDLIVKKQNGKELTTEEIQFFVKGYTDGSIPDYQASALAMAIYFQDMTDQERADLTMAMVNSGETIDLSAIEGIKVDKHSTGGVGDTTTLVLAPLVAALGVPVAKMSGRGLGHTGGTIDKLEAIEGFHVELSKDEFIKLVNRDKVAVIGQSGNLTPADKKLYALRDVTGTVNSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKTDEDAVNLAKAMVRIGNNVGRQTMAVISDMSQPLGFAIGNALEVQEAIDTLRGEGPEDLNELVLTLGSQMVVLAKKAETLEEARTKLQEVMKNGKALEKFKEFLSNQGGDASVVDDPSKLPQAAYKIDVPAKEAGVVSEIVADEIGVAAMLLGAGRATKEDEIDLAVGIMLRKKVGDNVEKGEPLVTLYANRENVEDVTAKVYDNIRISEKAEAPKLIHTLITE	PGPT0021295_510	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021295-pdp|deoA-K00756	NA	NA
D1-12_02200	1419	rocE_2	COG0833	Amino-acid permease RocE	ATGGATGTTGATCAAGGCGGCAATCAACTAAAGCGCACGATGAAAAGCAGGCACTTATTTATGATTTCATTGGGAGGGGTCATCGGCACGGGGCTGTTTTTGAGCACAGGGTATACATTGAGCCAGGCCGGGCCGGGCGGGACGATCGCCGCCTACTTAATCGGCGGCTTGATGATGTATCTTGTCATGCAGTGTCTCGGAGAATTGTCAGTAGCCATGCCTGTGACCGGTTCATTTCAAACGTATGCGACAACGTTTATCGGGCCGTCCACGGGTTTTATGGTCGGTATCATGTATTGGGTGAATTGGGTGGTGACGGTGGGATCGGAGTTTACAGCTTCCGGTATCCTCATGCAGCGCTGGTTTCCCCACAGCAGCGTCTGGATGTGGAGCGCGATTTTCGCGGCTCTCCTTTTTGCCGCCAATGCATTCTCCGTTAAATTGTTTGCAGAAACGGAGTTTTGGTTTTCCAGCGTCAAAATCGTTACCATCCTTTTATTTATCATCTTAGGCGGCGCCGCGATGTTCGGTTTGATTTCATTGCACGGTTCGGGTGAAGCTCCGATGCTGTCGAATTTCACCTCACACGGCGGGCTGTTTCCGAACGGCTTTCTTGCGGTTTTCATCGCAATGATTTCCGTAAGTTTCGCCTTTTCAGGGACGGAGCTGATCGGAATTACCGCGGGTGAAACCGCCAATCCGGCAAAAGATATTCCGCGTTCGATCCGAAATGTCGCCTGGAGAACGGTCATCTTTTTTATCGGCGCCATTTTTGTGCTGTCCGGACTGATCTCCTGGAGGGAAGCCGGTGTGATTGAAAGTCCGTTTGTCGCGGTCTTTTCCCAAATCGGTATCCCATACGCCGCAGATATCATGAACTTCGTGATTCTAACGGCTTTGCTTTCGGTCGCCAACTCCGGACTGTATGCTTCCACCCGGATGCTGTGGTCTCTTGCGAATGAAAACATGATCAGCGCCCGGTTCAAAAAAGTCACGCCGAAAGGCATTCCGCTGAATGCCCTGCTCGCCAGCATGGCCGTTTCCTGCATATCCTTGATCTCAAGCATCGCCGCCCCGGGCACGGTCTACGTGGTGCTTGTGGCAATAGCCGGATTTGCCGGCGTCGTGGTATGGATGAGCATCGCCCTGTCTCAGCTGTTATTTCGAAAACATTATGTGAAAAACGGCGGACGCGTCTCGGATCTGACCTTCCGCACACCGTTATACCCTCTCGTTCCGATCGCCGCTGTGATCTTATGTTTCGCTTCATGCGTAGGCCTTGCATTTGATCCCAATCAAAGAATCGCCCTCTTCTGCGGAATTCCTTGTATGATCCTGTGCTATCTCATTCGTTTTTTGAGAAAGAAACAGCCGAAACAATCCGTCCGTGACATTCATTTGGATAAAACCATGCCATAA	MDVDQGGNQLKRTMKSRHLFMISLGGVIGTGLFLSTGYTLSQAGPGGTIAAYLIGGLMMYLVMQCLGELSVAMPVTGSFQTYATTFIGPSTGFMVGIMYWVNWVVTVGSEFTASGILMQRWFPHSSVWMWSAIFAALLFAANAFSVKLFAETEFWFSSVKIVTILLFIILGGAAMFGLISLHGSGEAPMLSNFTSHGGLFPNGFLAVFIAMISVSFAFSGTELIGITAGETANPAKDIPRSIRNVAWRTVIFFIGAIFVLSGLISWREAGVIESPFVAVFSQIGIPYAADIMNFVILTALLSVANSGLYASTRMLWSLANENMISARFKKVTPKGIPLNALLASMAVSCISLISSIAAPGTVYVVLVAIAGFAGVVVWMSIALSQLLFRKHYVKNGGRVSDLTFRTPLYPLVPIAAVILCFASCVGLAFDPNQRIALFCGIPCMILCYLIRFLRKKQPKQSVRDIHLDKTMP	PGPT0020590_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_HISTIDINE_TRANSPORT,PGPT0020590-hutM-K16236	NA	NA
D1-12_02201	951	hutG	COG0010	Formimidoylglutamase	TTGGATAAGTATCCGTTTCTGCAAAAAGCCGGCTCCCTCTTCAACGACCGCCATGTGACAAGGATCGGCGATGTGACGGAAGCGTGGGCGGGACAAACGATCAAAGGGCCGGCTTTGATCGGCGTTCCGCTTTCTAAGTCGTCAATCAGCCATTCCGGCGCCTGCTTTGCACCCGGTGCGATCCGCCGGGCGCTCGGCGGCATTTCCGCATATTCCGCGGAGCTGCGGGAGCATGTCATTGACCATCTGTACGATATCGGCGATATTCAGATTCACGTCACGGATGTCGTCACATCTCACGAACACATTTATCGGACCATTTATGATATTCTGACGGATCAGCCTGACTGGGTGCCCTTCATTCTCGGCGGCGACAACTCCATCAGTTATTCCACCATTAAAGCCATTGCGGAAACGAAAGGAACAACGGCCGTCTTTCAATTCGACGCCCACCACGACGTCCGCAACACAGAAGACGGAGGGCCGACAAACGGCACGCCATTCCGCCGGCTGTTAGATGAAAATATCATAAGCGGACAAAACCTGATTCAGCTTGGAATCAGGGAGTTCAGCAACAGCTTGGCATATGAACAATATGTAAAAGAGCGGCAGGCAGACGTGCATACAATGGAGATGATCCGGGAGAAAGGGCTCCTCCGAACGATACAAGAGGTCTTGCCGGCCGTTCAAAAAAGAGCCGACGCCATTTTTATTTCGGTTGATATGGATGTGCTGGATCAAGCTCATGCGCCCGGCTGTCCTGCGATCGGCCCCGGAGGTCTGTATACCGAAGAACTGCTTCAGGCGGTCAGGTTTTTAGCCCAAGAGGCTGACATCTCAGGTATTGAGATCGTTGAGGTTGATCCGACACTTGATTTTCGCGATATGACAAGCCGGGCAGCCGCACACGTTATTTTACATGCATTAAAGGGATTTAAATTGTCACGTTAA	MDKYPFLQKAGSLFNDRHVTRIGDVTEAWAGQTIKGPALIGVPLSKSSISHSGACFAPGAIRRALGGISAYSAELREHVIDHLYDIGDIQIHVTDVVTSHEHIYRTIYDILTDQPDWVPFILGGDNSISYSTIKAIAETKGTTAVFQFDAHHDVRNTEDGGPTNGTPFRRLLDENIISGQNLIQLGIREFSNSLAYEQYVKERQADVHTMEMIREKGLLRTIQEVLPAVQKRADAIFISVDMDVLDQAHAPGCPAIGPGGLYTEELLQAVRFLAQEADISGIEIVEVDPTLDFRDMTSRAAAHVILHALKGFKLSR	PGPT0020240_871	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479	NA	NA
D1-12_02202	1266	hutI	COG1228	Imidazolonepropionase	ATGCCGAAACAAATAGATACCATACTCACCAACATCGGCCAGCTGCTGACGATGGAATCCGGCGGCCCCCGATCAGGCGGAAGCATGCAGGATCTTCATGTCACGGAAGATGCCGTCATCGGCATTCACGACGGGCGCATTGTTTTTGCCGGACATCAAGGAGCGGAGGAAGGATACGAGGCAAGAGACATCATCGACTGCGGGGGACGGCTCGTCACCCCCGGCCTCGTCGATCCCCATACCCATCTTGTATTCGGAGGGTCCCGGGAAAAAGAACTGAATTTAAAAATTCAGGGCATGTCCTATTTGGATATTCTGGCGCAAGGCGGCGGTATTTTGTCAACGGTCAAAGACACGAAAGCCGCCTCCGAAGAAGAACTGATTGAAAAAGGGCTTTTTCACCTCGGACGCATGCTGTCATACGGCATCACGACCGCGGAAGTAAAAAGCGGGTACGGACTCGACAAAGACACGGAGCTGAAACAGCTGACCGCAGCGAAAAAACTGGGCGGGCGCCAGCCGGTCGACCTTGTCACGACCTTTATGGGGGCACACGCCATTCCGCCTGAGTACCGGAACAGCCCTGACGAATTTCTGAATCGCATGCTGCAGCTTTTGCCTGAAATAAAAGAAGAAGGCCTCGCGCAATTTGCCGATATTTTCACAGAAACAGGCGTCTTTACCGTCAGCCAGTCGCGGAACTACCTGAAAAAGGCGTCTGAAGCTGGTTTCGGCCTGAAAATCCATGCTGATGAGATTGACCCGCTCGGCGGCGCGGAATTGGCGGCAGAACTGCATGCTGTTTCTGCCGATCATTTGGTGGGGGCGTCTGACGAAGGCATCGAAAAGCTAGCGGAGTCCGGAACGATCGCCGTCCTGTTGCCGGGCACGACTTTCTATCTCGGCAAACACACTTATGCGAGAGCCCGGGAGATGATTGATGCGGGCGTACGGGTCAGTTTGGCGACTGACTTCAACCCGGGCAGCTCACCGACGGAAAATCTCCAGCTCATTATGTCGATTGCCGCGCTTCATTTAAAAATGACCGCAGAAGAAATCTGGCATGCTGTCACCGTTAATGCCGCGTATGCGATCGGAAAAGGCGAAGAGGCCGGACAAATTAAAGCCGGACGGGCGGCTGACATTGTCATTTGGGAAGCGCCGAATTACATGTATATCCCGTATCATTACGGCGTCAATCATGTCCGCCGTGTCATCAAGAACGGAAAAACGGTCGTTTCAAGGGAGGGAGCCGCTCTTGGATAA	MPKQIDTILTNIGQLLTMESGGPRSGGSMQDLHVTEDAVIGIHDGRIVFAGHQGAEEGYEARDIIDCGGRLVTPGLVDPHTHLVFGGSREKELNLKIQGMSYLDILAQGGGILSTVKDTKAASEEELIEKGLFHLGRMLSYGITTAEVKSGYGLDKDTELKQLTAAKKLGGRQPVDLVTTFMGAHAIPPEYRNSPDEFLNRMLQLLPEIKEEGLAQFADIFTETGVFTVSQSRNYLKKASEAGFGLKIHADEIDPLGGAELAAELHAVSADHLVGASDEGIEKLAESGTIAVLLPGTTFYLGKHTYARAREMIDAGVRVSLATDFNPGSSPTENLQLIMSIAALHLKMTAEEIWHAVTVNAAYAIGKGEEAGQIKAGRAADIVIWEAPNYMYIPYHYGVNHVRRVIKNGKTVVSREGAALG	PGPT0020235_526	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
D1-12_02203	1665	hutU	COG2987	Urocanate hydratase	ATGACTGATGTAAAGAAATCAATCCGCGCCGGCCGCGGCACCGAACTTGAATGCTTAGGATGGGAGCAGGAAGCCGTGCTCCGCATGCTCCGAAACAACCTTGACCCGGAGGTTGCCGAAAAGCCGGAGGATCTGATCGTATACGGCGGCATAGGCAAGGCCGCACGAAACTGGGATGCTTTTCACGCGATTGAGCGTTCCCTCAAAACGTTAAAAGATGATGAAACACTGCTGATCCAATCCGGAAAACCGGTCGGACTGTTCCGCACGCACAGCCGCGCGCCCCGCGTCCTGCTGGCTAATTCGGTTCTCGTGCCAAAATGGGCGGATTGGGAACATTTCCATGACCTTGAGAAAAAAGGGCTGATGATGTACGGGCAGATGACGGCCGGCAGCTGGATTTATATCGGCTCACAAGGCATTTTGCAAGGCACCTATGAAACCTTTGCGGAGCTTGCGAGACAGCATTTCGGCGGCAGTCTGAAAGGAACCCTTACGCTGACGGCCGGTCTTGGCGGAATGGGAGGCGCCCAGCCGCTGTCCGTCACGATGAATGATGGCGTCGTCATCGCCGTTGAAGCGGATGAAACACGGATTGATAAACGGATGGAAACAAACTATTGCGATCGAAAAACAGCATCAATTGACGAAGCGCTGCGCTGGGCCGAAGCAGCCAGACAAGCCGGAGAACCTTTATCGATCGGCCTTCTCGGCAATGCGGCTGAGGTGCATCATGAGCTTTTGAACCGCGGCGTCCATATTGACATCGTGACCGATCAGACTTCCGCTCACGACCCGCTGATCGGCTATATTCCGGCAGGATACTCACTTGAAGAGGCCGGGCGTCTGCGCCGGGATCAGCCCGATTTATACGTAAGGCTATCCAAGCAAAGTATGAAAAAGCATGTGGAAGCCATGCTTGCCTTCAAGAAAAAAGGGGCTATCGTCTTCGATTACGGTAACAATATCCGCCAGGTTGCCAAAGATGAGGGTCTCGCCGATGCTTTTGATTTTCCGGGATTCGTTCCCGCCTACATCCGACCTTTATTTTGTGAAGGAAAAGGGCCGTTCCGCTGGGCTGCGCTGTCGGGAGACCCTGAAGATATATACCGCACGGACGCTTTATTAAAAGAGCTGTTTCCAGAAAATCAAGCCCTTCACCGCTGGATTGACATGGCACAGAAAAAAGTCACATTCCAAGGCCTGCCGTCCCGTATTTGCTGGCTCGGCTACGGTGAACGGGAAAAGATGGGGCTCGCCATCAATGAATTGGTCAGAAACGGCGAGCTGAAAGCCCCGATCGTCATCGGAAGAGACCATTTAGACTGCGGATCTGTCGCCTCTCCGAATCGGGAAACAGAAGCGATGAAAGACGGAAGCGACGCGGTCGGCGATTGGGCGGTGCTGAACGCGCTGATCAACACGGCCTCAGGCGCAAGCTGGGTTTCTTTTCACCACGGCGGGGGCGTCGGCATGGGGTATTCCCTTCACGCGGGAATGGTCGCGGTCGCTGACGGCAGCATCCTTGCGGAACAACGGCTTTCCCGCGTTCTGACAAGCGATCCGGGAATGGGCATCATCCGCCATGCGGACGCAGGTTATGAAAAAGCGGTTCAAGTCGCCGAGGAACAAGACATTATGATACCGATGAAAAAGGAGCGGTAA	MTDVKKSIRAGRGTELECLGWEQEAVLRMLRNNLDPEVAEKPEDLIVYGGIGKAARNWDAFHAIERSLKTLKDDETLLIQSGKPVGLFRTHSRAPRVLLANSVLVPKWADWEHFHDLEKKGLMMYGQMTAGSWIYIGSQGILQGTYETFAELARQHFGGSLKGTLTLTAGLGGMGGAQPLSVTMNDGVVIAVEADETRIDKRMETNYCDRKTASIDEALRWAEAARQAGEPLSIGLLGNAAEVHHELLNRGVHIDIVTDQTSAHDPLIGYIPAGYSLEEAGRLRRDQPDLYVRLSKQSMKKHVEAMLAFKKKGAIVFDYGNNIRQVAKDEGLADAFDFPGFVPAYIRPLFCEGKGPFRWAALSGDPEDIYRTDALLKELFPENQALHRWIDMAQKKVTFQGLPSRICWLGYGEREKMGLAINELVRNGELKAPIVIGRDHLDCGSVASPNRETEAMKDGSDAVGDWAVLNALINTASGASWVSFHHGGGVGMGYSLHAGMVAVADGSILAEQRLSRVLTSDPGMGIIRHADAGYEKAVQVAEEQDIMIPMKKER	PGPT0020250_2177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
D1-12_02204	1542	hutH	COG2986	Histidine ammonia-lyase	ATGATGGTGACGTTAGACGGTTCCTCACTGACAACCGCAGATGCCCAGCGTGTGCTGTTTGATTTTGAAGAGGTTCAGGCATCTGCCGAAAGCATGGAACGTGTGAAAAAAAGCAGGGCGGCGGTTGAACGGATCGTTCAGGAGGAGAAGACCATTTACGGGATTACAACGGGGTTCGGCAAGTTCAGCGATGTGCTGATTCAAAAAGAAGACGCCGCGGATCTGCAGCTGAATCTGATTCTTTCTCACGCGTGCGGCGTCGGTGATCCGTTTCCGGGATCTGTATCGCGGGCCATGCTGCTTTTACGAGCCAATGCCTTGCTGAAAGGCTTTTCCGGCGTGCGGACTGAGCTGATTGATCAACTGCTCGCGTATCTCAATCATCGCATTCACCCGGTCATCCCGCAGCAAGGGTCACTGGGGGCGAGCGGAGATTTGGCGCCGCTTTCTCATCTCGCACTAGCGCTTATCGGGCAAGGCGAAGTCTTTTACGAAGGGGCCCGGATGCCGACAGCTCATGCTTTAGAAAAGACAAACCTTCAGCCGGCCGTCCTGACCTCTAAGGAAGGGCTCGCGCTGATCAACGGAACGCAGGCTATGACCGCGATGGGGCTGATCGCTTACCTCGAAGCCGAAAAACTGGCCTATCAATCGGAACGGATCGCGAGCTTAACGATCGAAGGCCTTCAGGGCATTATCGATGCGTTCGACGAGGACATTCATGCCGCCCGCGGTTATCAGGAACAGATGGATGTCGCAGAGCGAATCCGCTATTACTTGTCAGACAGCAAACTGACGACCGTCCAAGGGGAGCTGCGTGTCCAGGACGCCTATTCGATCCGCTGTATTCCTCAAGTCCACGGCGCATCATGGCAGACATTAGCGTATGTAAAAGAAAAATTAGAAATTGAGATGAATGCCGCGACAGATAACCCGCTCATTTTCGAAGACGGCGCCAAAATCATCTCAGGCGGAAACTTTCACGGACAGCCGATCGCCTTTGCCATGGATTTTCTCAAAGTAGCGGCGGCCGAACTTGCGAATATTTCTGAACGCCGTATCGAACGGCTTGTGAATCCGCAGCTGAATGACCTGCCGCCCTTTCTGAGCCCTCAGCCCGGCTTACAATCCGGAGCGATGATCATGCAATATGCGGCGGCCTCCCTCGTGTCAGAAAATAAAACCCTGGCCCATCCCGCCAGTGTCGATTCCATTCCTTCATCGGCAAACCAGGAGGATCACGTCAGCATGGGAACCATCGCCTCAAGGCACGCCTACCAGATCATCGCGAATACGAGACGGGTGCTTGCCGTTGAAGCCATTTGCGCGCTGCAGGCCGTGGAATACCGGGGTGCGGAACATTGCGCCTCGTACACAAAACAGCTCTATCTTGAAATGAGAAACATCGTGCCGTCCATACAAGAAGACCGCGTGTTTTCTTATGACATCGAGCATCTGAGTGACTGGCTGAAGAAGGAGTCTTTTCTGCCGAATGAACATCACCAAAAACTGATGACCAATGAAGGAGGACTGACAAGATGA	MMVTLDGSSLTTADAQRVLFDFEEVQASAESMERVKKSRAAVERIVQEEKTIYGITTGFGKFSDVLIQKEDAADLQLNLILSHACGVGDPFPGSVSRAMLLLRANALLKGFSGVRTELIDQLLAYLNHRIHPVIPQQGSLGASGDLAPLSHLALALIGQGEVFYEGARMPTAHALEKTNLQPAVLTSKEGLALINGTQAMTAMGLIAYLEAEKLAYQSERIASLTIEGLQGIIDAFDEDIHAARGYQEQMDVAERIRYYLSDSKLTTVQGELRVQDAYSIRCIPQVHGASWQTLAYVKEKLEIEMNAATDNPLIFEDGAKIISGGNFHGQPIAFAMDFLKVAAAELANISERRIERLVNPQLNDLPPFLSPQPGLQSGAMIMQYAAASLVSENKTLAHPASVDSIPSSANQEDHVSMGTIASRHAYQIIANTRRVLAVEAICALQAVEYRGAEHCASYTKQLYLEMRNIVPSIQEDRVFSYDIEHLSDWLKKESFLPNEHHQKLMTNEGGLTR	PGPT0020230_1619	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
D1-12_02205	447	hutP		Hut operon positive regulatory protein	ATGACCTTACACAAAGACCGCCGCATCGGGCGACTGTCCGTCCTTCTTCTGCTTCATGAGACTGAAGAAAACCAGCAGATCAGCCGGCTGGAACGGGACGGCTGGAAAGTCTGTCTCGGCAGGGTGGGTTCAATGGATGCGCATAAGGTGGTAGCTGCAATTGAAACCGCTTCCAAAAAGAGCGGCGTCATTCAATCTGAGGGTTATCGCGAATCACATGCGCTGTATCATGCCACAATGGAAGCTTTGCACGGAGTGACGCGGGGCGAAATGCTGCTTGGCTCGCTGCTTCGTACCGTGGGCCTGAAGTTTGCCGTCTTGCGGGGAAATCCGTATGAAAGCGAGGCGGAAGGCGATTGGATCGCCGTTTCACTTTACGGCACGATCGGAGCTCCGATTAAGGGGCTTGAGCACGAAACATTCGGAGTCGGAATTAATCACATATGA	MTLHKDRRIGRLSVLLLLHETEENQQISRLERDGWKVCLGRVGSMDAHKVVAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLKFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI				NA	NA	NA	NA	NA
D1-12_02206	1407	abn2	COG3507	Extracellular endo-alpha-(1->5)-L-arabinanase 2	ATGAAAATCAGTTTCTTTCGTGTGTGCCTGGTCTCAGCAGCGGTCATCGGGTTCACTCTGCCGCAGGCAAAAGCCCAGCATCCGGTTTTTTCAGAAGTCAGCGTGCATGATCCGTCCGTCATTAAAACAGGAGATACATATTATGTATTCGGCTCGCATTTGGCTTCCGCCAAGTCGAAAAACCTGATGCAGTGGCAGCAGATATCTTCAAGCGTCAATCCCAATAATCCCCTGATCCCGAACGTCTACACCGAATTAAAAGAGACATTCGACTGGGCCCAGTCTGATACGCTGTGGGCGCCGGACGTCGCCCAGCTGTCTGACGGGAAATATTACATGTACTATAACGCCTGTAAAGGAGACTCGCCGCGATCCGCTCTCGGTGTCGCCGTGAGTGACAAAATCGAAGGACCCTACAAAAACAAAGGCATCTTTTTGAAATCAGGCATGGAAGGAAAAAGCGAAGACGGCACCACTTATAATGCAAACGTTCACCCGAACGTCGTAGATCCGCAAACGTTTTTTGACCATAAAGGCAAGCTCTGGATGGTGTACGGCTCTTACTCCGGCGGAATTTTCATACTGGAAATGAATCCGAAAACCGGTTTCCCGCTCCCTAACCAAGGCTACGGAAAAAAACTGCTCGGCGGAAATCACAGCAGAATCGAAGGCCCGTACATCAGCTACAATCCGGAAACGAAATATTACTATCTGTATCTGTCATTCGGCGGACTTGACACAGCCGGCGGTTACAATATGCGTGTGGCGCGCTCTAAAAATCCGGACGGTCCGTACTATGACGCCGCAGGTCATAACATGCTTGATGCCAAAGGAAAAGACGACAGTTTCTTCGACGACAAAGCAATTGAACCGTACGGGGTTAAACTCATGGGCGGCTACAGCTTCGCCTCACAATCTGAAAAAGGCACGGGCTACGTATCGCCGGGACACAACTCCGTGTTTTACGACGGGAAAACGAAACGATCATACCTCATTTTCCACACCCGTTTCCCGAACAGAGGAGAAGAGCATGAAGTCAGAGTGCATCGGCTGTACATGAACAAAGACGGATGGCCCGTTGCAGCGCCATACCGCTATGCGGGAGAACCGGATTCACACATATCGGCGGCCGCTGCATCCGGAACCTACAAACTCATCCAGCACGGAAAAGACATCACAGCTACGATCAAAACACCAAAAAACATCCGGCTTAACAACGACGGCACCATTTCCGGGGAAATGACCGGAACCTGGACAATAACGGACAGCAGCAAAGCCCGAATCAACCTGAACGGCACAAATTATGACGGCGTCTTCCTGAAAGAATGGGACTCAGCGAGAGAGAAAGAAGTTGTGACGTTTAGTGTGCTGAGCGGTGATGGGGAGGCTGTTTGGGGAGTGAAGTGA	MKISFFRVCLVSAAVIGFTLPQAKAQHPVFSEVSVHDPSVIKTGDTYYVFGSHLASAKSKNLMQWQQISSSVNPNNPLIPNVYTELKETFDWAQSDTLWAPDVAQLSDGKYYMYYNACKGDSPRSALGVAVSDKIEGPYKNKGIFLKSGMEGKSEDGTTYNANVHPNVVDPQTFFDHKGKLWMVYGSYSGGIFILEMNPKTGFPLPNQGYGKKLLGGNHSRIEGPYISYNPETKYYYLYLSFGGLDTAGGYNMRVARSKNPDGPYYDAAGHNMLDAKGKDDSFFDDKAIEPYGVKLMGGYSFASQSEKGTGYVSPGHNSVFYDGKTKRSYLIFHTRFPNRGEEHEVRVHRLYMNKDGWPVAAPYRYAGEPDSHISAAAASGTYKLIQHGKDITATIKTPKNIRLNNDGTISGEMTGTWTITDSSKARINLNGTNYDGVFLKEWDSAREKEVVTFSVLSGDGEAVWGVK	PGPT0019090_405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
D1-12_02207	750			hypothetical protein	TTGTTAGATGAACCTATTGAGAGGCTAAGTCAATTTACTGAATTTGTAGAAGCACTACCTAAAGAGTTTATTTTATCAAGAGGGCAGGAAAAAGAATACGAATTGTTACCTGGTGCCCTAAGGTTGGATAATAACAAAAAGAGGAAATATTCGAGAGGATCAATTCAATATTTTTTAAATGAGTTTAAAGTAAATTGTCACAATTATGTGAAGCAACCTATAGATATCAGAGATGACTATGAGTGGATGGTTTATGCACAACATTACGGAATCCCAACTAAATTGTTAGATTTTACTCATTCGCATGTAGTTTCTTTAATGTTTGCTGTTGAAAACTCCTTCCATGAAAATGAAGAATGTGATGCAGAAGTATGGTTTCTAAATCCTTTAGAATTGAATTATAAGTTTGCATCACGTTCAGATATAATTAATATTTCTAATGGTGAAAGAATAAATTTAGACAATTTTGATGGGCCGATAGCATTCAAAGCTAGAAAGTTAAATGAAAGAATTAACGCACAAAATGGGCTTTTTGTATATTTTCAAGATAACTGCCAACCTTTGTCAGATTTGAAAGATGAAAATATAATTAGAAGATTGGTGATCAAAGGAGAGTGCAAAAAAGATATACTGTCCTCTCTTTATTCTATGGGAATAGGTTATACAACACTTTATCCAGAATTGGAATCTGTTACAAAAGATATAATAATGAAAAAGAGTATTTTAGAATATGTAAGGGATGGTGAGTAA	MLDEPIERLSQFTEFVEALPKEFILSRGQEKEYELLPGALRLDNNKKRKYSRGSIQYFLNEFKVNCHNYVKQPIDIRDDYEWMVYAQHYGIPTKLLDFTHSHVVSLMFAVENSFHENEECDAEVWFLNPLELNYKFASRSDIINISNGERINLDNFDGPIAFKARKLNERINAQNGLFVYFQDNCQPLSDLKDENIIRRLVIKGECKKDILSSLYSMGIGYTTLYPELESVTKDIIMKKSILEYVRDGE				NA	NA	NA	NA	NA
D1-12_02208	1173			hypothetical protein	TTGCTAGCTAAAATAAATTATAAACCTCAGGATATCGCTATAAAAGATATTATATCTATGATTACAAATGGATATAAACTTCAAAAGCTAGATAAAGAGGAAGAGCTAGATGATGAACTCAAACTTGATTATACTGATTCAATTATAATTGCCCCTGACTATCAGAGAGATTACAGAGCATCAGTTGCTGACGAAAGTTCTTTAATTGAGTCAATTCTTCTTGGTATACCAATACCACCTGTTTTTTTAGCTAATGATCGTTATGAGGGAGTTAAAGTTTTAAACGTAGTAGATGGACAACATCGACTGAGAGCATTTCATAGGTTTAAAGAAAATCAATTTAAACTTTCAGGACTAAATATAATGGTGGAGTTAAATGGAAAAAAATTTAGTGATTGCGAATTTGAAATTAAAGAGAAAATTTTATCGCACAAACTTGCCTCTATCGTTTTTACTGATTTCCCTGGTCTTGAATTAGAATTGGAGATTTTTAGTAGATATAATAAAGGTACTAAGCCATTAACACCGCAGGATATACGGCATGCTGTTTATAATTCTAAATTGAATAGTTTTGTAAATAAATTTGCTCAAAAAATGAATGATAAAAAGGTATCTAGCAAGATTCAGAGGGCCTACAATGCAACAACAGATAGGGTGAAAAAGAAGAAAATACAAGAAAATATTTTTGTGATAATGAGTATACTTGAAAATGGACTCAATACAGGATACGCGAAATCATCAGTTTATGCTGAAGAGTATATGAAACATAAATCTAAACTAGAAGTATGTAATCCACAACAATCACAAAAGGAATATGATGAGATCATAAATAGATTTAATACATTTAATGAAATAATTGAAGTAATTGGAGAAAGGATTGAGCACCCCTTTTCTAAAGAAATTTATGGTGTCTCAAGCAAGGGGTATAGGTTTCAGATAACTATAGCAATGATACTTTCTGGTGTTATTCACAAAATGATTAAAGAAGGTATCTCACTATCTAGATTAAAACAAAAAGCTGGAATAGATAACTTTCTAACTTATATATCTGATACTTTAAAAAATTCGTATTTAGAAGATCCTAAGTTTAACGCTTCTTCTACAAATGCTCGAGCTATGAACGAATTGATTAACGAAATGAACTTTGAATTCTTACAAGTTGTTGAAGACTAA	MLAKINYKPQDIAIKDIISMITNGYKLQKLDKEEELDDELKLDYTDSIIIAPDYQRDYRASVADESSLIESILLGIPIPPVFLANDRYEGVKVLNVVDGQHRLRAFHRFKENQFKLSGLNIMVELNGKKFSDCEFEIKEKILSHKLASIVFTDFPGLELELEIFSRYNKGTKPLTPQDIRHAVYNSKLNSFVNKFAQKMNDKKVSSKIQRAYNATTDRVKKKKIQENIFVIMSILENGLNTGYAKSSVYAEEYMKHKSKLEVCNPQQSQKEYDEIINRFNTFNEIIEVIGERIEHPFSKEIYGVSSKGYRFQITIAMILSGVIHKMIKEGISLSRLKQKAGIDNFLTYISDTLKNSYLEDPKFNASSTNARAMNELINEMNFEFLQVVED				NA	NA	NA	NA	NA
D1-12_02209	1836	bglF	COG1263	PTS system beta-glucoside-specific EIIBCA component	ATGGACTATCATAAAATATCAAAAGAGATTTTACAACTTGTCGGCGGGGAGGAGAATGTTCAGAGTGTCATCCATTGCATGACGCGGCTTCGTTTTAATCTGTATGACAATGCGAAAGCAGATCGGAGCGGGCTGGAGCAGACGGAAGGCGTGATGGGGACAAATATCAGCGGCGGGCAATTTCAGATCATTGTCGGCAATCATGTGCCGAAGGTGTATCAGGCTTTGATGGAGAGCAGCGGGCTCAGTGATGAAAGCGCAAACAAAACTTCGAAGCAGAAGAAAAATGTGCTGAGTGCTGTGTTTGATGTGATTTCCGGCGTGTTTACACCGATTCTGCCGGCCATTGCCGGAGCCGGCATGATAAAAGGGCTTGTCGCGCTAGCGGTGACATTCGGCTGGATGTCGGAGAAGAGCCAGACTCACAGCATTCTCACGGCTGTCGGTGACGGTGCGTTTTATTTTCTGCCGCTTTTGCTTGCGGTAAGCGCGGCGAGAAAATTCAGATGTAATCCGTACGTGGCGGCCGCTGTGGCGGGTGCGATTTTGCATCCGGATTTAACGGCCCTGCTTGGAGCAGGGAAAAGCATCTCCTTTATCGGTCTTCCTGTAACCGCTGCCACGTATTCATCGACAGTTATCCCGATTTTGCTGGCGATATGGCTGATGTCCTATGTAGAGAAAGGAATTGACCGAATCACACCTTCTTCTTTGAAATTGATTGCCGTTCCGATGCTTACGCTTGTGATCGTCGTACCTGTCACCCTGATCACAGTCGGCCCGCTCGGCGCGATTCTCGGGAATTACCTGTCTGTCGGCGTCAATGATTTGTTCAATCATGCGGGCATTGCCGCGATGATTCTGCTTGCCGGCACATTTTCGCTCATCATTATGACGGGGATGCATTATGCGCTTGTGCCGATCATGATCAATAACATCGCCCAAAACGGACATGATTACATTCTGCCTGCGATGTTTTTGGCGAATATGGGGCAGGCCGGCGCGTCATTTGCGGTTTTCTTAAAATCAAAAAACAAAACCTTCAAATCGCTGGCGTTTACGACGGGCATTACGGCATTGATGGGCATTACCGAACCCGCGATGTACGGCGTTAACATGAGATTGAAAAAACCGTTCGCGGCTGCATTAATCGGCGGCGCGGCAGGCGGAGCTTTTTACGGTATAACGGGTGTCGCTTCCTACATTGTCGGCGGAAACGCCGGTCTGCCTAGCATTCCGGTCTTTATCGGGCCGACATTTCTATATGCGCTGATCGGGCTTTTTATCTCGTTTGCGGCCGGTATTGCGGCGGCACTGCTGATCGGGTTTGAGGATGTGCAGTCCGAACGGGACAAAGCGCCTGAAGCGCCGGGGGTGACGGCAGGCAGAGAAATCATTCACAGCCCGATTAAAGGCGAAGTGAAAGCATTAAGCGAAGTGAACGACAGCGTCTTTTCCGGTGGAATGATGGGAAAAGGTTTTGCGATTCTGCCTGAAGAGGGTGCGGCGGTTTCTCCTGTAGAAGGGAGGGTGACAGCCGTATTTAAAACAAAGCACGCCATCGGCATTACGAGCGCCCGGGGAGCCGAGGTTCTCATTCATATCGGGCTTGATACCGTCCGGCTGGATGGCAGGCATTTTGAGGTGCACGTCAAAGAAGGCGATGCCGTCGCACCGGGAGATCTGCTGATTACTTTTGAAATCGACGAGATAAAGGCTGCCGGTTTTGACGTGATCACGCCGGTCATCATTACGAATACGGATCAATATTCATTTACAGACGTGAAAAAAAGCGGAATGGTCAAACCGAACGAAGCGCTTCTGGCGTTATCCTGA	MDYHKISKEILQLVGGEENVQSVIHCMTRLRFNLYDNAKADRSGLEQTEGVMGTNISGGQFQIIVGNHVPKVYQALMESSGLSDESANKTSKQKKNVLSAVFDVISGVFTPILPAIAGAGMIKGLVALAVTFGWMSEKSQTHSILTAVGDGAFYFLPLLLAVSAARKFRCNPYVAAAVAGAILHPDLTALLGAGKSISFIGLPVTAATYSSTVIPILLAIWLMSYVEKGIDRITPSSLKLIAVPMLTLVIVVPVTLITVGPLGAILGNYLSVGVNDLFNHAGIAAMILLAGTFSLIIMTGMHYALVPIMINNIAQNGHDYILPAMFLANMGQAGASFAVFLKSKNKTFKSLAFTTGITALMGITEPAMYGVNMRLKKPFAAALIGGAAGGAFYGITGVASYIVGGNAGLPSIPVFIGPTFLYALIGLFISFAAGIAAALLIGFEDVQSERDKAPEAPGVTAGREIIHSPIKGEVKALSEVNDSVFSGGMMGKGFAILPEEGAAVSPVEGRVTAVFKTKHAIGITSARGAEVLIHIGLDTVRLDGRHFEVHVKEGDAVAPGDLLITFEIDEIKAAGFDVITPVIITNTDQYSFTDVKKSGMVKPNEALLALS	PGPT0016920_1566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_BETA-GLUCOSIDE_PTS_SYSTEM_I,PGPT0016920-bglF-K02757	NA	NA
D1-12_02210	1398	bglH	COG2723	Aryl-phospho-beta-D-glucosidase BglH	ATGAAGAGATTTCCGGAAGGTTTTTTATGGGGCGGCGCAACGGCTGCCAATCAGATTGAAGGAGCTTATAAAGAAGGAGGCAAAGGACTTTCTACGGCGGATGTCTCCCCGGACGGCATTATGTCTCCGTTTCATGAGACAGACGATGCGCTGAATCTGTATCACGACGCGATTGATTTTTATCACCGCTATCAAGAGGATATCGCCCTGTTTGCGGAGATGGGTTTTAAAGCGTTCCGCACCTCCATTGCGTGGACGAGAATCTTTCCGAACGGTGATGAAACAGAACCGAACGAAGAAGGGCTGCAATTTTACGATCGTTTGTTTGACGAATTGAGAAAACATCAGATCGAACCGGTCGTCACGATTTCTCACTATGAGATGCCGCTCGGTCTTGTGAAAAACTACGGCGGCTGGAGAAACCGCCGGACGGTCGATTTCTATGAGCGGTACGCCCGCACGGTTTTCACCCGTTATAAAGACAAGGTGAAATATTGGATGACCTTCAATGAAATCAACGTCGTTCTTCACGCTCCGTTTACAGGCGGCGGTCTTATATTCCGGGAAGGCGAAAATAAACAAAACACGATGTACCAAGCGGCTCACCATCAATTTGTGGCGAGCGCACTGGCGGTAAAAGCCGGCCATGAGATCATCCCGGATTCCCAGATCGGCTGCATGATCGCCGCGACGACGACGTATCCGATGACGCCGAAGCCGGAGGATGTATATGCGGCTTTGCAAAAAGAGCGGAGCACGCTGTTCTTTTCTGATGTACAGGCGAGGGGCAGCTATCCGGGCTACATGAAACGCTTCTTTAAAGAAAACGGAATTACGATCGAGATGAAGGAAGGAGACGAGGCGCTCCTGAAAGAACATACGGTGGATTACATCGGCTTCAGCTACTACATGTCGATGACGGCCAGCACGGCGCCTGAGGATCTGGCGCAATCTAAGGGAAATCTTCTCGGCGGCGTGAAAAACCCGTACCTGAAATCTTCCGAATGGGGCTGGCAGATTGATCCGAAGGGCTTGCGCATCACCTTAAACACGCTGTACGACCGTTATCAGAAACCGCTCTTTATCGTCGAAAACGGACTTGGCGCGGTTGATCAGCCGGAGGAGGACGGAACCATTCAGGATGATTATCGCATCAATTATCTGCGTGATCATTTAATAGAGGCAAGAGAGGCGATTGAAGACGGCGTCGACCTGATCGGCTACACGTCGTGGGGGCCGATTGACCTCGTCAGCGCCTCAACGGCAGAAATGAAAAAACGCTACGGCTATATCTATGTCGACCGCGGCAATGACGGAAAAGGCACGTTTGAAAGGAAGAAAAAGAAAAGTTTTTATTGGTATAAAGACGTCATCGCCACAAACGGAGAAAGTCTGTAA	MKRFPEGFLWGGATAANQIEGAYKEGGKGLSTADVSPDGIMSPFHETDDALNLYHDAIDFYHRYQEDIALFAEMGFKAFRTSIAWTRIFPNGDETEPNEEGLQFYDRLFDELRKHQIEPVVTISHYEMPLGLVKNYGGWRNRRTVDFYERYARTVFTRYKDKVKYWMTFNEINVVLHAPFTGGGLIFREGENKQNTMYQAAHHQFVASALAVKAGHEIIPDSQIGCMIAATTTYPMTPKPEDVYAALQKERSTLFFSDVQARGSYPGYMKRFFKENGITIEMKEGDEALLKEHTVDYIGFSYYMSMTASTAPEDLAQSKGNLLGGVKNPYLKSSEWGWQIDPKGLRITLNTLYDRYQKPLFIVENGLGAVDQPEEDGTIQDDYRINYLRDHLIEAREAIEDGVDLIGYTSWGPIDLVSASTAEMKKRYGYIYVDRGNDGKGTFERKKKKSFYWYKDVIATNGESL	PGPT0019255_3498	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
D1-12_02211	447	teaD	COG0589	TRAP-T-associated universal stress protein TeaD	ATGTTTAAAAAAATTCTTGCAGCAGTAGACGGTTCAGACATGAGCAGCAAAGCTTTGGACGCAGCGATCCATCTGGCGAAAGAACAGCAGGCTGAACTCACCATTCTCTATGCGGGACGTGAAGCCGTTGTCTCCACATCAGCCTTAACAGGGATTGTCTATGTTCCGGAAAACTTCATTGAAGACATCAAACATGAAGTCGAGCAAAAAGGAGCGGCCATTCTGGAAGATGCCAAGCAGAAAGCGGCAGAAAGCGGAGTAAATGCGGAAAGCCTGTACGTCCAAGGCGAACCTGCGCATCAAATTTTAAACATAGCGAAAGAACAGCATTTCAATTTGATTGTCGTCGGAAGCCGCGGAATCAGCGGATTTAAAGAAATGATGCTCGGAAGCGTGAGCCATAAGGTCTCACAATTGTCTCCTTGTCCTGTACTGATCGTTCATTAA	MFKKILAAVDGSDMSSKALDAAIHLAKEQQAELTILYAGREAVVSTSALTGIVYVPENFIEDIKHEVEQKGAAILEDAKQKAAESGVNAESLYVQGEPAHQILNIAKEQHFNLIVVGSRGISGFKEMMLGSVSHKVSQLSPCPVLIVH	PGPT0002681_6	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002681-yxiE-NA	NA	NA
D1-12_02212	912			hypothetical protein	ATGCAAGCTGAACAAACATCAAATGCAGTCATCAAAATGGTCATTTCCATGGTCATTTTCGGATCAATCGGCTTTTTCTCGGAACATACGAATGTGCCTTCAATTGAACTGGTCTTTGTGAGATGTCTGTGCGCCTCATTGTTTCTGGGCGTTTGCTGGTTTGGTTCCGGACGGTACCGCACCGAACAATGGAACCGGCGTGAGGTGCTGCAGACACTGGCCTGCGGATTTTTTCTCGTGCTGAACTGGGTGTTTTTATTTAAATCATTTGAGGAGACATCAGTGACGATAGCGATTTCCGTTTATCATCTGGCTCCGGTTCTCGTCCTTCTCCTAGGGAGCCTTATATACCGGGAAAAACTGCATCTCATATCCGTCACTTCCATCGTGATTTGTTTTCTGGGCACCGCCCTGATTTCCGGCATCAACGGAAGTACATCATTTTCTCAGCTGATGGGATCGGGTATTATTTGGGCCGTGCTGGCCGCCCTTTTTTACGCCTTTACGACACTGGCCGGGAAAGGTATCAACAGCCTCAGCCCATACGCCGTCACCTGTTTGCAGACCGGATTGGGCGTTATCATTCTTCTTCCGTTCGTCCGTTTCGGCGCTTTTTCTGATTTGTCGCATGTGAATTGGATCATGATTGTGTCAACCGGTATCATTCATACGGGAATTGTGTATTTGCTCTTTTTTGACAGCTTGCGGTTTTTATCCACCCGGTTTATTTCAATCATCGTATTTCTTGATCCGGCGGTGGCGATTGTGCTTGACACCGTATTTACGGGATTTCGCCCCGACCTTTATCAATCTTTGGGGATTGTATTGATTTTTACGGGAATGGCGCTGTCCCTGATTCGAAAGCAAAAAGCCGTGCCGTCGGAAACTCAGGCAGACAGCACCCGTATATAG	MQAEQTSNAVIKMVISMVIFGSIGFFSEHTNVPSIELVFVRCLCASLFLGVCWFGSGRYRTEQWNRREVLQTLACGFFLVLNWVFLFKSFEETSVTIAISVYHLAPVLVLLLGSLIYREKLHLISVTSIVICFLGTALISGINGSTSFSQLMGSGIIWAVLAALFYAFTTLAGKGINSLSPYAVTCLQTGLGVIILLPFVRFGAFSDLSHVNWIMIVSTGIIHTGIVYLLFFDSLRFLSTRFISIIVFLDPAVAIVLDTVFTGFRPDLYQSLGIVLIFTGMALSLIRKQKAVPSETQADSTRI				NA	NA	NA	NA	NA
D1-12_02213	1065	pelB	COG3866	Pectin lyase	ATGATAAACAAGACGCGTCATCTCGCTTTCTTGGCTGCACTCGGCTTTGCGCTTTGTCTGGCCATCGTATGTTCCGTATCAAAGCAGGCAGAAGCGGCAGCGGCTTATCCGGATGTGATGCAGGGACTTACCGGATTCGCGGGAAATGCGAAGGATCATAACGGAAAAGCAAAATCCGCCGTATCGGGAGGCCAGGGCGGCCCCGTCGTCTACGTCAGCAATCTCAATGATTTGAAAAACAATGCGGGCGGAACGGATCGCAAAACCATCGTCATCACAAGTGATATTTCTTCCCCGGGTAAAGCCGTTGTGACAGTCGGCGCCAATAAAACCATCGTCGGCTCTTATACCAGCCACAGGCTGACCAACATCTATCTGACCACCGGCTCCGGCTCAAACAATGTGATTTTCAAAAATCTCATTATCAGCCATAGTGCCGCCATTACGGGCAACAACGACATTCCGATGTACATAGCGAACGGACAGAATTACTGGATTGACCACGTGTGGTTTGAAGGACACAGCTACAATCCGAACAGCCACAGTGATTTGGGAAAGCTTCTGTATGTCGGCGCCAAAGCGGATTTTGTGACGCTGTCTAACTCTAAATTCACAGACCATCTGTACGGCCTGATTCTCGGTTATCCGAATGATGATAACGAAGGACGCAATTATATCGGCTATCCGCATATGACGATCACCAACAACTATTTTAATAACGTCTATGTGCGTTCATCGGGCCTGATGAGATACGGCTATTTTCACGCGAAAAACAACTATGTGACCAATTTCAATTTAGGATTCACCATTCATACAAACGCGACTGTCTTCTCAGAAGCCAACTATTTCGGTAACGGAAATGAAAAAGGCGGAATGATAGACGACTACGGGACGGCCCAATTCACCGACATCGGTTCATTCCCGTCGCTCAAAGCCCCGAAATCACCGCGCACCGGCTGGAATCCGAGATCAAATTACAGCTACGGCACGCTTTCAGCCCAGGACGCCAAAAACTTCGCCCAATCCTACGCGGGAGCGCAAAATACAAATCTCCGCTATCCATAA	MINKTRHLAFLAALGFALCLAIVCSVSKQAEAAAAYPDVMQGLTGFAGNAKDHNGKAKSAVSGGQGGPVVYVSNLNDLKNNAGGTDRKTIVITSDISSPGKAVVTVGANKTIVGSYTSHRLTNIYLTTGSGSNNVIFKNLIISHSAAITGNNDIPMYIANGQNYWIDHVWFEGHSYNPNSHSDLGKLLYVGAKADFVTLSNSKFTDHLYGLILGYPNDDNEGRNYIGYPHMTITNNYFNNVYVRSSGLMRYGYFHAKNNYVTNFNLGFTIHTNATVFSEANYFGNGNEKGGMIDDYGTAQFTDIGSFPSLKAPKSPRTGWNPRSNYSYGTLSAQDAKNFAQSYAGAQNTNLRYP	PGPT0023525_174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_PECTATE_LYASE|ESTERASE,PGPT0023525-pelB-K01732	NA	NA
D1-12_02214	7038	wapA		tRNA(Glu)-specific nuclease WapA	ATGAAATTAGGAAAAAAGAACAAGTGGAAAAAATGGCTGGCCGGCACTCTTGCGGCAACGCTTATGATTTCCATTGCGCCTGCCGATGTATTTGCGGCAGAAACGCGTGATAAACAAGATCAAGCGAAAACCGCCGACATTCCGGCAGCAGACCCGGAAAAAGATCTTCCGGCGGAAAAAGCATCTGAGCAGATGCCTTTTGATCAAAAAGATATCAATCAAGACGGTGAGATCACGTCTGAAAGAACTGAGAATTCAAAGCTTTACTATGAAGGCGAGGGTGTGTACAAACAGGAAATCTACACAGACCCCATTCATACGAAAGAAACCGCCAATGCGGACTGGGAAGACATTTCTCCTGAATTGAAAACCGGCTCAAAGGAAGTCGGAACGGAAAATACAGTGCTGAACTCCGATTTTCTGAAGCAAATGAAAAACGGATTATACGCTACATTTGAACACGATGATCATAAGCTCACATACTCATTAACCGGCGCAAAAGGCCCCGATCAGGCTGCAATTACTCCGACAGATGCCTCAGCAAAAGTAAGGGAAGACAGCAACGAGCTTACGTATCAGCAAGTGTTTCCTGCAATTGATTTACAAACCTACACATTTAACGAAAACATAAAAGAAGACCTTGTGCTTCACAAATATGAAGGCTACAATTCCTTCACCTTTCAAATCAAAACCGACCTGCAGGCTAAAGAACAGGAAGACGGCTCGATCGCGTTTTCTGATGATAAAGACAATGTCGTCTACACCGTGCCGAAGCCCTTTATGACCGACTCAGATCTCGACGAAAAGTCAGGTGAAGTCAACAGGTCAGAAGATGTCAGCTTCAAACTTGAAAAAAACAGCGAAGGCTACTTGCTCCATGTAACGGCCGATGAAAAATGGCTGAAAGATCCCAAGCGGGTTTATCCGGTATCTATTGACCCTTCAACATCAGTATCTGTGTCATCCGATACCTTTGTCATGAGCGCGTACCCGACGACAAACTACTCTGCCGCATCGCAGAAATGGGATGCCGGATTGAAAGCGTACGTGCTGAAAACTGGATATTATGACGGCACAACCGGAACGAACTACACTTTTATGAAGTTTGATAATCTAAAGCCGATCAAAAACATGACGGTGACGAAAGCGACGCTCAAAGCGTACACAGCCCACTCCTATTACGGATCAAAAGCGACGGGGCTTTGGCTCGACACCGTTAACAGCAATTACGACAATGCCAAGATTACGTGGAAGAACAAGCCGGGCTCCAAAAACATCGGCAAAGCCGAGGTCTATAAAGGCCAATGGGCAAGCTTCGATGTCACCTCCGCAGTCAAGTCGTGGAACAGCGGCGGCGCCAATTACGGCTTTAAGCTTCACGCAAACGGCAACGGAAAAGAATATTGGAAGAAGCTGATGTCATCAGCAAACTCTGCTAAAAAACCATACATTGAAGTGACATACACGATTCCGAAGGCGGACACGCCGTCTGTCAAAGCGTATCATAACGGAGATTCGACAGGATTTTTCAATATCAGCTGGAAAAAAGCTGAAGGCGCCAAAAGCTATAAAGTCTGGCTTTATAACGGGAAAGAATATCAAGCCATTCCGGTCGGCAATGCAACCTCTTGGAGCACAAGAGGGAAAAAGATTTGGCCGACAAAAGCGGAAATCGACTCCGGCAAATATAAGCTGCATACAGACGGAAAAGGCGGAAGTGAATTAGCGCTTAATCCTTCGCCGGTCTATAAAAACTCCGGCGGCAGCTATCCGGCAAGTAAAAATTACTGGGTCGCGGTCAGCGCGGTGTTTGACCAGGGAGAAGGCGCCATGTCTGCGGCCGCCAAGCCTGTAATTCCGAATATTGGAAGAGTTCAGAAACCAAGTACGAAAGGCTTTAATAACAACAACGCCACAGGCTGGTTTGATCTTTCCTGGAAAGCCGTATCAGGCGCAGCCGGGTATAAAATGCAAGTCTTTAACGGCAAAAGCTTTGAAACGCTTGACCTCGGAAATAAAACATCCTGGTCCACAAAAGATCAAAACATCTGGCCGACAAAGGCGGAAATCAGCGCCGGAAAATATGCGCTTCACCTGAAAGACAAAAAAGGCGCGGAATTGCCAATCAACCCGGGCTCTGTTTATAAAAACGCCGGCGGAGATGCGAACCGGAAAACCTACGGATTTAAAGTCATTGCCTATAACAAAGACGGAGAAGCGATCGCCTCACCGGAAGCTAGTCCGGCGCTGCCTGATATCGCAAAGCCGAAAAACCTGACAGGCTATGTCTATACGAACACGAAATCGAGCCAAACGGGTTATGTCAATCTCATATGGGATAAGGTCAAAAACGCGAAAGGCTACAAAATCAACATCTACAACGGAAAAGACTATCAATCATTCGATATCGGTGATACCGATCATTGGACGACCCAAAACAAACACATCTGGCCTTCAGCCGATGAAGTGAAAGCGGGAAGATTCCAGCTTCACACGGACGGAAAGGGCGGCGAACTGGCGCTTGACCCTTCACCTGTTTACGAAAACGCAAACGGCAATTACAAAGGGAAGAAGAACTATTCCTTTACGCTGACCGCCTATGACGCAAACGGTGACAGCATACCGACGGCACCTTTTAACCCTGTTTTCCATGAAGGGGCGGAATTCCTCGGAACGGAAGAATTCTGGTCTATTATCGACATTCCGGACGGACAGCTGAATGGCGCAACGGGAAATGTCATCGTCAATGAAGAAGATATGTCAATCGACGGACGCGGACCGGGGCTCGGACTCTCCCGGACCTTCAACAGCCTTGACAGCTCTGACCATATGTTCGGCCAAGGCTGGTATGCCGATGCGGAAACGTCGATTCTTTCTGAAGACGGCAGAGCCGTTTATATTGATGAGGACGCGACAACACATGTCTTCACGAAAAAATCTGACGGCACGTATCAGCCGCCGACGGGCGTTTATCTCGAACTGACGGAAACAAGCGATCAATTTGTATTAAAAACAAAAGATCAGACGAACGCTTATTTCAGCAAAAAAGGCGGAAAGCTCCAAAAAATCGTTGACGGACACAACAACACAACCGTATACGAGTATAACGACAGCAATCAGCTGACCGCCATAACAGACGCATCAGGGCGCAAGCTGACATTTACCTATGATGAAAACGGCCATGTCACATCTCTTACAGGGCCGAAAAACAAAAAGATTTCGTATTCATATGACAAAGACCTTCTCAAAAAGGTGACGGATACTGACGGCAGCGTCACAAGCTACGACTATGATGCCGAAGGGCGCCTCGTCAAGCAGTATTCCGCAAACAGCACGCCTGACAAACCGCTGTTCACTGAATACCAATATAGCGGCCACCGCCTGACCAAAGCCGTCAATGCGAAAAAAGAAACGTACGACTACAGCTATGACGCGGACAAAAAAACGCTGCTCATGACGCAGCCGAACGGCCGCCAAGTGCAGTACGGCTATAATGAGGCGGGCAACCCGATTCAGATGATCGATGATGCCGAAGGGCTGAAAATCACGACCAACACTGTATACGAAGGCAACAACGTCATTCAGGACACCGATCCGAACGACGCGGATGCGGGCAAAGCGACAGAAAGCTATCAATATGATAAAGACGGCAACGTCACAGCCGTAAAAGACAACTACGGCACCGAAACGTATCAGTACAACAAAAACAATGACGTAACGAAAATGAAGGACACCGAGGGGAACGTCACTGATATTGCGTACGACGGACTTGATGCCGTTTCTGAGACGGATCAAAGCGGAAAATCCTCATCCGCCGCCGTGTATGACAAGTATGGAAATCTCATTCAATCAAGCAAAGAGCTGGCAGCTTCGGCAAGCCTGCTGAAAGACGGCAGCTTTGAAGGAACAAAGCTGGGCTGGAATCTCACCGCTACGAGAGACAGCGGAAGTATTGCATCTGTAAAAGCAAGAAGCGGCGCGCTGTCCGGACAAAAAGCACTGGAGATCTCCTCACAATCCGCTTCAGCCGGAACAGAGCACGGCCATGCGTCCGCAACGCAGGAAGTGCAGCTTGAGCCGAATACGACGTATACACTCAGCGGCCAGATCAAAACGGATCTGACAAAGGCAAGAGCGTATTTCAACATTGATCTGCGTGACAAAGACCAAAAACGCATTCAATGGATTCACAATGAATCAGGCGCATTAGCCGGAAAGAATGACTGGACGAAACGGCAGATCACCTTTACAACACCGGCCAATGCAGGAAAAGCCATCGTCTATATGGAAGTGGACCATAACGACAAGGACGGCAAAGGAAAAGCGTGGTTTGATCAGGTTCAGCTGGAAAAAGGCGAAGTCTCTTCAAGCTATAACCCGGTGCAAAACAGCAGTTTCACGGCTAAAGCAGACGGCTGGAGCACAAGCGGAGCCGCCGCTGACCTTGATGAAGGCTTCGATGATGACAGCTCATTAAAAGCGTCCCGCACAAATGCATCACAAGCCAATGCGGCCGCAAAACAAACCGTCACATTAGGCCAAAGCGCGGACGATAAGCCGGTATATATCACGCTGACAGGAATGTCCAAGGCTGACGGCGTAAAATTAACGAACGACAATGATTACGCTCTTCAGGCCGGCGTCACTTATGCGGACGGCACGATGGGCGTCTACACCGCCAAATTCCCGCAGGGGACACAGGAATGGAACCGGGCAGCGGCAGTCATCCCGAAAACAAAGCCGATCAATAAAATCGAAATCAGCATTCTGTTCCAAAAAAGCGCCACAGGAACGGCGTGGTTTGATGATATCCGTTTAATCGAAGGAAGCATCCTGACGAAAAACACCTATGACGAAAAAGGAAACTACGTCACAAAAGAAGAAGACGAACTAGGTTATGCAAGCACTGCTTCATATGACGAGACTGGCAAGAAAACATCTGAAACCGACGCGAAAGGCGAAACAACCGCCTACGAATACGATCAGGCCGACCAGCTGACAAAGCTGACCCTGTCAAACGGCACATCCATCCTTCACAGCTATGACAAGGAAGGAAATGAGCTGACAAAAACGATTCGGGCCGGCGCGGACCAGACCTATCAATATGAATACGACGTCATGGGCAAGCTCGTCAAAACAACCGACCCGCTCGGCAATGTACTGAAGAGTGAATATGACGCCAACAGTAACCTGACGAAAACCGTTTCCGCCAACGGAAATGAAGTGTTGCTGACCTATGACGGCACCGATCGGGTTAAGTCAAAAGCGTATAACGGCACTGAAAAATATAACTTTACCTATGACAAAAACGGCAATGAAACGTCTGTCACAAACAAAGAACAAAATATAACGAAAAAACGCACCTTTGACAACAAAAACCGCCTGACCGAATTAACCGACCGCGGCGGCAGCCAAAGCTGGACGTATCCGGCTGATTCGGATAAGCTGAAAACTTTCTCATGGAGCCACGGCGGCCAAAAAGGAACAAACAGCTTTACGTACAACAAACTTGATCAAATGATTGAAATGAAAGACGGCACTTCAGCCTATACATTTGATTATGATGAAAACGGCAATGTCCAGACATTCATCAGCGGCAATGAAGTCGGCACGAGTTTTTCATATGATGAGCGGAATCTCGTCAGCTCTCTTCATATCGGAGCCAAAAACGGCGGCAGCATCTTCCGGGAAAGCTATGAATATGACGCCAACGGCAACCGCACGGTCATCGACAGCTCAGCGGGCGGAAAGGTGCAGTACGAATACGGCAAGCTCAACCAGCTCGTCAAAGAAACACATGAAGACGGCACCGTCATTCAATATACGTACGACGGCTTCGGCAACCGGACAAACGTCACCGCCACAAAGGACGGCGCAAGCAAATCAGTCAACGCATCCTTCAACATCATGAACCAGCTGACGAAGGTGAATGACGAAGACCTGTCCTATGATAAAAACGGCAACCGCACATCGGACGGCAAATACACATATACGTGGGACGCGGAAGACAACCTGACCGCCGTCACGAAAAAAGGCGAAGACAAGCCGTTCGCAACATACAAATACGATGAAAAAGGAAACAGAATCCAAAAAACCGTCAACGGAAAAGTTACGTACTACTTCTACGACGGAGACAGCCTGAACGTCCTGTATGAAACAGACGCAGACAACAACGTCACAAAATCATACACGTACGGTGAGAGCGGCCAGCTGTTATCCTATACAGAGAACGGCAAGAAATATTTCTATCACTACAACGCACACGGCGACGTCATCGCCATCTCAGACAGCACCAGAAAAACCGTTGCCAAATATCAGTACGATGCATGGGGAAATCCGACAAAAACCGAAGCAAGCGACGAAGTAAAAGACAACCGCTACCGCTACGCAGGCTACCAATACGACGAAGAAACCGGCCTGTACTATCTCATGGCCCGCTACTACGAGCCAAGAAACGGCGTATTCTTATCACTAGACCCAGACCCGGGCAGTGATGGGGATTCTTTAGATCAGAATGGGTATACTTATGGAAATAATAACCCGGTGATGAATGTTGATCCGGACGGGCATTGGGTGTGGCTTGTGGTAAATGCCGGATTTGCAGCCTATGATGGGTATAAGGCATATAAATCAGGTAAAGGGTGGAAAGGTGCTGCTTGGGCAGCTGCTTCTAACTTTGGGCCCGGGAAAGTGTTTAAAGGTGCTAAGAAGGCTTTAGGATTTGCGAAGGCCGCCAAGAAGTATTTAAAACCTGGTAAATACGCTAGAAGGTCAATTCCTGCAAGAAGTACAAGTAGCAGGTTAAATAAAAAGGAAAGAAGAGTATTAAACAAAATTGGGAATAAATATGGCTGTCATACTTGTGGTAGAAGGCACCCTGGAACTAAAAGCAGAAATTGGATTGCAGATCACCAACCAGTATCAAAATTAAGGAAGAAAGGCCAGCGACAAAGGCTATATCCTCATTGTCAAACTTGTTCACGAAAACAAGGAGGATATACTAGTGCTATTCTAAGAAAAAGACATCAACGGAGGTGA	MKLGKKNKWKKWLAGTLAATLMISIAPADVFAAETRDKQDQAKTADIPAADPEKDLPAEKASEQMPFDQKDINQDGEITSERTENSKLYYEGEGVYKQEIYTDPIHTKETANADWEDISPELKTGSKEVGTENTVLNSDFLKQMKNGLYATFEHDDHKLTYSLTGAKGPDQAAITPTDASAKVREDSNELTYQQVFPAIDLQTYTFNENIKEDLVLHKYEGYNSFTFQIKTDLQAKEQEDGSIAFSDDKDNVVYTVPKPFMTDSDLDEKSGEVNRSEDVSFKLEKNSEGYLLHVTADEKWLKDPKRVYPVSIDPSTSVSVSSDTFVMSAYPTTNYSAASQKWDAGLKAYVLKTGYYDGTTGTNYTFMKFDNLKPIKNMTVTKATLKAYTAHSYYGSKATGLWLDTVNSNYDNAKITWKNKPGSKNIGKAEVYKGQWASFDVTSAVKSWNSGGANYGFKLHANGNGKEYWKKLMSSANSAKKPYIEVTYTIPKADTPSVKAYHNGDSTGFFNISWKKAEGAKSYKVWLYNGKEYQAIPVGNATSWSTRGKKIWPTKAEIDSGKYKLHTDGKGGSELALNPSPVYKNSGGSYPASKNYWVAVSAVFDQGEGAMSAAAKPVIPNIGRVQKPSTKGFNNNNATGWFDLSWKAVSGAAGYKMQVFNGKSFETLDLGNKTSWSTKDQNIWPTKAEISAGKYALHLKDKKGAELPINPGSVYKNAGGDANRKTYGFKVIAYNKDGEAIASPEASPALPDIAKPKNLTGYVYTNTKSSQTGYVNLIWDKVKNAKGYKINIYNGKDYQSFDIGDTDHWTTQNKHIWPSADEVKAGRFQLHTDGKGGELALDPSPVYENANGNYKGKKNYSFTLTAYDANGDSIPTAPFNPVFHEGAEFLGTEEFWSIIDIPDGQLNGATGNVIVNEEDMSIDGRGPGLGLSRTFNSLDSSDHMFGQGWYADAETSILSEDGRAVYIDEDATTHVFTKKSDGTYQPPTGVYLELTETSDQFVLKTKDQTNAYFSKKGGKLQKIVDGHNNTTVYEYNDSNQLTAITDASGRKLTFTYDENGHVTSLTGPKNKKISYSYDKDLLKKVTDTDGSVTSYDYDAEGRLVKQYSANSTPDKPLFTEYQYSGHRLTKAVNAKKETYDYSYDADKKTLLMTQPNGRQVQYGYNEAGNPIQMIDDAEGLKITTNTVYEGNNVIQDTDPNDADAGKATESYQYDKDGNVTAVKDNYGTETYQYNKNNDVTKMKDTEGNVTDIAYDGLDAVSETDQSGKSSSAAVYDKYGNLIQSSKELAASASLLKDGSFEGTKLGWNLTATRDSGSIASVKARSGALSGQKALEISSQSASAGTEHGHASATQEVQLEPNTTYTLSGQIKTDLTKARAYFNIDLRDKDQKRIQWIHNESGALAGKNDWTKRQITFTTPANAGKAIVYMEVDHNDKDGKGKAWFDQVQLEKGEVSSSYNPVQNSSFTAKADGWSTSGAAADLDEGFDDDSSLKASRTNASQANAAAKQTVTLGQSADDKPVYITLTGMSKADGVKLTNDNDYALQAGVTYADGTMGVYTAKFPQGTQEWNRAAAVIPKTKPINKIEISILFQKSATGTAWFDDIRLIEGSILTKNTYDEKGNYVTKEEDELGYASTASYDETGKKTSETDAKGETTAYEYDQADQLTKLTLSNGTSILHSYDKEGNELTKTIRAGADQTYQYEYDVMGKLVKTTDPLGNVLKSEYDANSNLTKTVSANGNEVLLTYDGTDRVKSKAYNGTEKYNFTYDKNGNETSVTNKEQNITKKRTFDNKNRLTELTDRGGSQSWTYPADSDKLKTFSWSHGGQKGTNSFTYNKLDQMIEMKDGTSAYTFDYDENGNVQTFISGNEVGTSFSYDERNLVSSLHIGAKNGGSIFRESYEYDANGNRTVIDSSAGGKVQYEYGKLNQLVKETHEDGTVIQYTYDGFGNRTNVTATKDGASKSVNASFNIMNQLTKVNDEDLSYDKNGNRTSDGKYTYTWDAEDNLTAVTKKGEDKPFATYKYDEKGNRIQKTVNGKVTYYFYDGDSLNVLYETDADNNVTKSYTYGESGQLLSYTENGKKYFYHYNAHGDVIAISDSTRKTVAKYQYDAWGNPTKTEASDEVKDNRYRYAGYQYDEETGLYYLMARYYEPRNGVFLSLDPDPGSDGDSLDQNGYTYGNNNPVMNVDPDGHWVWLVVNAGFAAYDGYKAYKSGKGWKGAAWAAASNFGPGKVFKGAKKALGFAKAAKKYLKPGKYARRSIPARSTSSRLNKKERRVLNKIGNKYGCHTCGRRHPGTKSRNWIADHQPVSKLRKKGQRQRLYPHCQTCSRKQGGYTSAILRKRHQRR				NA	NA	NA	NA	NA
D1-12_02215	693			hypothetical protein	TTGGGTGGAAAAAAAGAAGCCATTCTCGCATTGCTTAACGATTCATTCAATAAGGAAGAGTTTCCGTTTCTTGATAATGAGAATTTTGACTTCGCAAAAGGGAAGCTTTCGATTTTTATTGAAAGAGATAACTGGCTTTTAACGTTTCAGCTGTTTGGATTGTCGAGATTGGGACCAGCTATTGATTTTTATGCGGTAGGTAATCAATTAACAAATAATGAAGTAAGTTTTTTAGATGATGAACCGTTTTTATTTGCAGATGAAAAAGGAAATTTTCTGGAATTGGAAGATGTAGAATCGGGTTTTACAAGTAAACAAATCAATGTGTCTCTTAGAGAGAAAACATTTCAATTTTTTATTGAGCAGGAAATAAAAGATAAGATTTCCCCAAAGAATGAATGGATTACATGTTTGAGGCATATGACCAAAAATAGATTATTTCTTGACACACTTTGGCTGACGAAACAAGAACAACTGGAAATAGCGGGTCTCTCTTCGGAGTATGAACAATTGTATTCAACAGAATTATGGATGCATCCAGAAGGAGAAAAAGATTTGCCTAGTTTGTCTCCTTTCTTTCAATCAATTGCCGAAGCAATTTCCCGTCAAGAGATAGCATATATTCAAAAACATGCTGATGGTAACACAGAGTGGCCAAAATGGGCACACACAGATTCTGTTCAATACTTTTGA	MGGKKEAILALLNDSFNKEEFPFLDNENFDFAKGKLSIFIERDNWLLTFQLFGLSRLGPAIDFYAVGNQLTNNEVSFLDDEPFLFADEKGNFLELEDVESGFTSKQINVSLREKTFQFFIEQEIKDKISPKNEWITCLRHMTKNRLFLDTLWLTKQEQLEIAGLSSEYEQLYSTELWMHPEGEKDLPSLSPFFQSIAEAISRQEIAYIQKHADGNTEWPKWAHTDSVQYF				NA	NA	NA	NA	NA
D1-12_02216	675			hypothetical protein	TTGATTAAAAGTAAAGAAATTCTTAGCCTATTAGATGATGAATTTAGTGAATTAAACCGACCAATTTTTGAATGGCGTGAATCTAATTATGTTGGGAGTAAATGTACCTTATTAAGATTAAATGATGACAATTGGTTACTGGCAATTCATTGCTTCGAAGTAGATTCTAAAGGACCTTTTCTGGCTATTCATACCTATAGTAACTGTTTTTCAGACAACTACAAATCGATAATAATTGATGACTTCGCCTTAAAGACTGAAGCAGGTGAGAAAATAACATATCGTGAAAGTGATTTTCAACAATTAAGCGAAGTAGTGGAAATTGAAATTAAAGAGTCTCGTTATTGCGTAAATATTCACCAAAGAAATGAATTCCAAAAGAGTACAAAAGAAAGGGCTTGGAAAACTTATTTCAGGAATTTGTTTGAGGATGCTTCTTTTAGAGAGGCGCTTTGGATAAAGCCAAACAAACTATTAAATATACTGGATCTAAAAAGCGAAGCAGAAGGAGTGTTCGAAACAGAGGATTGGGAATATCCTGATTACCTAACAGATCCAAGCCAATTAATTTCTTTTCAATCATTTGCGCAATATCTTGAAAAAGGCGCAGGTTCAGTTGATCTAGGTGAAGTAAATAACAACTGGAGGGAGTGGGAGGATTACGATATAGAGTGA	MIKSKEILSLLDDEFSELNRPIFEWRESNYVGSKCTLLRLNDDNWLLAIHCFEVDSKGPFLAIHTYSNCFSDNYKSIIIDDFALKTEAGEKITYRESDFQQLSEVVEIEIKESRYCVNIHQRNEFQKSTKERAWKTYFRNLFEDASFREALWIKPNKLLNILDLKSEAEGVFETEDWEYPDYLTDPSQLISFQSFAQYLEKGAGSVDLGEVNNNWREWEDYDIE				NA	NA	NA	NA	NA
D1-12_02217	402			hypothetical protein	TTGGGTTATTGGGAAGAAGAATATAAAAACAAGAAAGTGTTATTGAGTGATGAAGGCTTAGATATATGTTTTGATGCGGTAGAAAAATTTTGTGAACGATATAAGAGGGATCTGGATAGAGAACCGATATTAGAAGAATTCTTAGCAACTTTAGTTACCGTTATGAATACAAATGGAGATTCTTCTTTCACGGAGTTAGTTGATAAGCGAATAGTAGAAATAAAGGCAACGACCAGGAAAGCGAAATCAATAGCTAAAGTAGTACCGGGAGCTGTTATTAAATACCTTTGGATAAGATCGGGAAGTATACTTATGCTTGGGTTATTGAAGGTGATCTATCAAAAAATAAAGACGATGACATTCTTATTCAGTACTATAATATTTTTACTGAAAATACTCTGA	MGYWEEEYKNKKVLLSDEGLDICFDAVEKFCERYKRDLDREPILEEFLATLVTVMNTNGDSSFTELVDKRIVEIKATTRKAKSIAKVVPGAVIKYLWIRSGSILMLGLLKVIYQKIKTMTFLFSTIIFLLKIL				NA	NA	NA	NA	NA
D1-12_02218	333			hypothetical protein	ATGAAAGAAGAAAATAAGAAAATATTTGCGGCAAATACCGGGTATACAGGTTTTCTTCAAGGGGATTGGACAGTAATATCCAAGATGCCTCAAGAGATAATAGAGAAAAACAGTAATTCTCAACTAAAATTTGTTTTATATGAAGACGGTAAATATCTCATAAGTGAAGGCGATTCATTTGCATCAGAAGATGAATTAGCAGAGGCAGATGAGAAAACAGGCAAGAACATCACTAACCCATTGGGTATATTTGGACATTCATCTGTAGAATCTATTCTTTATAAATATTTTGAAGGGATGACAATGGAGGAAATCATAAAGTATGAATTGTAA	MKEENKKIFAANTGYTGFLQGDWTVISKMPQEIIEKNSNSQLKFVLYEDGKYLISEGDSFASEDELAEADEKTGKNITNPLGIFGHSSVESILYKYFEGMTMEEIIKYEL				NA	NA	NA	NA	NA
D1-12_02219	450			hypothetical protein	ATGAAAAAAATCAACCTGAATTCTATTACACAGAAAGAGATCTTACAAATAGAAAAACAATTTGAACGAATAGCATTAAATAAAATAAGAAACAATCAAGAAAAGTTTAGAAAAATGGGTTTGAAAATTGAAGCTGCTTTTGGAAGAGTCGGACACGAAAAAGAAATAGGAAAAGAAGTACGGCCCTCAGATTGTTTTGAGAGTACCTATAATTCATTGATATTTTTTTCTGCAGCTTATTTGGACGGCACCGACTTTCACGATAATGAAGACGGCTATTGTGTAGACCACTTAGATATATGGGTTTGTGAAAAAAAGTTGTTTTCAGGTAAAGCTGGATATTTATCAGATCTAGAAAGTGATGAAGAAATCGCAAAAGAAATTCAAAACAAGATAAATGAATTGTACTTAGAAGCGGCAGAAATGATTGAAATGTTAAATGAATCCTAG	MKKINLNSITQKEILQIEKQFERIALNKIRNNQEKFRKMGLKIEAAFGRVGHEKEIGKEVRPSDCFESTYNSLIFFSAAYLDGTDFHDNEDGYCVDHLDIWVCEKKLFSGKAGYLSDLESDEEIAKEIQNKINELYLEAAEMIEMLNES				NA	NA	NA	NA	NA
D1-12_02220	414	wapI_1		Immunity protein WapI	ATGGCTAAAATTAGAGATGATTGTCTGGAACTTGACATAACACCGAGAAGGTATCAAGAGGCGGAGGATGATCCTTTTATCTCAACAATGTTTGAACTGTTAGAACATAATAAAGTAATCGCTCGCGATTACTCCGCCGCTTTATTAGAAAGTGAATATAAAATGCTGATATCAGGGATTGAAGCATTATTAGCAGGGAATCAAGATAGGATACGTTTAGAAACAATTGAACCATTTTTTATTTTGAGTATTGATAAAGAAAACGAATATTACAGATTTATAATTAGATTTGTGGAAAATCATTCAAATACAACTTTCTATAAATTGAACTGTAATGAAGAAAAGCTAGAATTTTTCGTGAAGACTTTAAAATCAGATCTCAAAGACACAAAAAATCCTCCAAAACGTCCTTAG	MAKIRDDCLELDITPRRYQEAEDDPFISTMFELLEHNKVIARDYSAALLESEYKMLISGIEALLAGNQDRIRLETIEPFFILSIDKENEYYRFIIRFVENHSNTTFYKLNCNEEKLEFFVKTLKSDLKDTKNPPKRP				NA	NA	NA	NA	NA
D1-12_02221	408			hypothetical protein	ATGTACAAAACAATAATTGATTGGGTTGATTATATAGATGAGGGGTGCGCTGTCCTTCATTTTGATTTTAATGTGTTTAAAAAAGAACTTTCACTTGATATTAAGGTTTTTGAAAAAGAAAGTGAATATACACATAAAATATTATTTCAAAATGTAGCATCTGTTTATTTTAGCGCAGATATTGGCGATATGAGATTAGAAAAAATAGATCCCGAAGAATACAATTGGCAAGTATTTGAGATGAGTTATCATCCGGAAGGAATCGGAAATCTATCAAATTCTGTAATTCCGGAGTATCAATCAAATGCTAACTTTCTCATTGACATGAACAGAATGCTAATTGCTATAGAAGCTGAAACCGTTCGCTTTGACGACCAATCATTTTATACGTATCGTTCGAAGTCATAA	MYKTIIDWVDYIDEGCAVLHFDFNVFKKELSLDIKVFEKESEYTHKILFQNVASVYFSADIGDMRLEKIDPEEYNWQVFEMSYHPEGIGNLSNSVIPEYQSNANFLIDMNRMLIAIEAETVRFDDQSFYTYRSKS				NA	NA	NA	NA	NA
D1-12_02222	252			hypothetical protein	ATGAGCAGTCCTTTACATTTACAAAAAGAATCATTGGGGGCTATAGGGAATCTGGATGTGATTAATCTACTGAAATACAACTCAATATATTCGTGTGATCTAGTGAGTAAAGATACTTTTTCTCAATTAATGAATGACTTACAATTCGAAACAGCTCTTATAGAAGTAATGGCATCCCCTTCTTTTACTGAAGAATGGAAGAAGAGGGTTGAAAAGAAAATAATAAATATGATTCTGTATCGAAAAAGCTAA	MSSPLHLQKESLGAIGNLDVINLLKYNSIYSCDLVSKDTFSQLMNDLQFETALIEVMASPSFTEEWKKRVEKKIINMILYRKS				NA	NA	NA	NA	NA
D1-12_02223	828			hypothetical protein	ATGTTAGAACTTACTGCGGAGCGGGTTGGTTCATATGAAAGGGAAAATATCATTTATTTCAATGTGGGCAGGGATGATCAGTTATTTATTGTGTCTGTGCATGATCACAAAATAATATTAGAGGTTATGAAAGGAAGCTCTCTTTTAATCAAAAAAGAGTTATGCGGCTTTTCTGAAGATGCCCATTTCTATCTGATTGATTCGTATAATGACACAATCGTGATCGTTTACCTGGAAAATCATACGTGTCAATTGGCCGCATACTGCGTAAACAGTAATAAAATCAATCCGATTTGTTCTTTTCTATTAAGCGCCAATGTATTTCATCTGGGTGAGGATGGATTATTATGGATCGGATTAACAGACGAGGGTATGTATGATGAGAGAAACCCTCAAGGGAAAGCGATATTTGCTTTTCATGCAGAAGACAGAACGTTTTATTTTGAGGATGATTTTAAAGAAATGATGCACGAATGCTATGCCGTACAATCGATCAAATCTGATTTGTATGTATGTTTCGAGGGAGAGGATTGCTGTGTCATCGGGCATTATCAGATTGGACGGGACAGAATTCGTACTGTTGCAGAATATGTGCTAAACGGAGATCAATACTCCTATTGTGACCAGCTGTCCGTTTCGAAAAATAGAGTGTTGCTGATACAGAATCATGAGGATAACGTATTTGCATTTCATGAAGAGAGCAAAGGGTTATCAGAGGCTGACGTCATGATACATGGTATTGATAGAAAAGAAGAAACAGCGTACAGAGCCGTTCAGAACCGCATTTTTATCTTTAATGGTAACGATTTATATTTGGTAAAGTTTTGA	MLELTAERVGSYERENIIYFNVGRDDQLFIVSVHDHKIILEVMKGSSLLIKKELCGFSEDAHFYLIDSYNDTIVIVYLENHTCQLAAYCVNSNKINPICSFLLSANVFHLGEDGLLWIGLTDEGMYDERNPQGKAIFAFHAEDRTFYFEDDFKEMMHECYAVQSIKSDLYVCFEGEDCCVIGHYQIGRDRIRTVAEYVLNGDQYSYCDQLSVSKNRVLLIQNHEDNVFAFHEESKGLSEADVMIHGIDRKEETAYRAVQNRIFIFNGNDLYLVKF				NA	NA	NA	NA	NA
D1-12_02224	459			hypothetical protein	ATGAAACGTGTTTGTGCCGGGTTAACATCTTGTGAAGAATCAGGGTTTGTTTATCAATTTGCCGAGGCAGAACAAAGCAGGAAGATATTAGAGAATGTATTATCGAACTCTTTCCAAAGTGCAGTGCGTGAAGTTGATATAAGCGGCAGGGAAGCAGCTGTATCGCTTATTTTAGAGACCATTGCGGATGTGGGGATTGAACGGAAGAATGATTTCGTTTATCTGTTTCATCCGTATAGTGATGAAGTCGGCGCTATCAAATGTGCGCTGAAGGATTGTGCATGTCATCTGCACTGTCTCATGGATTTTATAGATATTGAAGGCCGGCTGCTTTCTAACAGCTTTATTGTAGTTGAGCCGTCCTTCTCATTTGCTATCTGTTTATTTCACACAGAATACGGCTGTGAGCTTGCGTATAAACCGCCGAAAAGAGGTACAAGATGCATCCCTTTTTTATAA	MKRVCAGLTSCEESGFVYQFAEAEQSRKILENVLSNSFQSAVREVDISGREAAVSLILETIADVGIERKNDFVYLFHPYSDEVGAIKCALKDCACHLHCLMDFIDIEGRLLSNSFIVVEPSFSFAICLFHTEYGCELAYKPPKRGTRCIPFL				NA	NA	NA	NA	NA
D1-12_02225	594			hypothetical protein	ATGCATCCCTTTTTTATAAAGAACACAAAGGAATCGGCAGTCTTTCAATCTCAAATATATTCCTTATTTCATGAAGACAAAACGTTGCCCGAACAAGTATTTAAACAACGAAAACATTATTATCTATTCGAGGAATTCCACTGGGTCTTGTCTGAAGAAGGTTGGGAAATGCTCAAAAGTTTGGCGCATCATCATCACGATGAATTTATCTTAATGGCTGTTCTGGAACAACCTGATGATATGAATCGGTTTCACGTGGAATTCGGCTATTTTGACTGGTTAAAGATTCCTTTAAATATAACCGAAGATGAATATCTTTCAATCTTAACTGATTATCCAAAGCACAGTAAAAATGACTGCATAATGAATATTGCATCCCGCGTCGTATGGGCTTCACCGACTTTAAAGTGGGCGATTTACGGAGAGAGAGATTTTGAGATCTGTATTCTAGGCATTGATCAGGAGATTGCGGGAAAAACGTTAGGATCATGGAGGCCCTTAGATAATCATGTTTTAGACTGGGTATCAGTTGTATTCCCGGATCAGATCGTTCCGGATGAATTTCAAAAAAAGCTCGCCGCGCATTATAAATAA	MHPFFIKNTKESAVFQSQIYSLFHEDKTLPEQVFKQRKHYYLFEEFHWVLSEEGWEMLKSLAHHHHDEFILMAVLEQPDDMNRFHVEFGYFDWLKIPLNITEDEYLSILTDYPKHSKNDCIMNIASRVVWASPTLKWAIYGERDFEICILGIDQEIAGKTLGSWRPLDNHVLDWVSVVFPDQIVPDEFQKKLAAHYK				NA	NA	NA	NA	NA
D1-12_02226	861			hypothetical protein	ATGAAAATAAAAATGAACAAGATACACGATGAATCAGTAAAAGGATGTTTTTGTCACTTTGACAACTGCGGACGTCAGTATCTTGGACGGCATCAGAATGGCGGTCTCTCGTTTACAATCACGGATGAATCCGGCGATACCCGAGTGATTCATATTGATGAACAAATTCCGTGTGAGGATATTATGCTGTTTCAACAGAGTTCGGCTGACAGGTATGTGCTGATTTTCTTTGAATCGCATGAGCATAAAGTGAAGGTATTTTCTGCAGATGGAACAGAACAAAGTGCATTTTCTCTGCCTTCAGGGGTTTCATGCAGTCTTTTGGACGAAAAACAAAACCTTTGGATCGGTTTAAGTGATGAAGGCATTTATAGCGATGAAAATCCTGATGGTCAAAGTGTGCTGTGCTTCACTTTAGACGGACAATTAAAGGAAACTCACATTGATCAGCAGCTTTCAGAAATATATGCGCCCGTTGTAGATGACTGCTATGCGCTTGCAGAAAAAAACGGACTGATCTACATGCTGTATTACTCTTATACAGTCATTGCTGTGTTTGATGAGACGGACGTGAAACGAGTGTGGATTATTTCTGATAAAGCATGTTCAGGGGTATATGATCAGCTTGCGATTTCAGATGACGGGTTTTGGATATGCAAAGATGATCATTCACTGTCCTTCATTCCGGCTGATGTCAGTCTGCCGGTGCAAGAGGTAACGTGCTGTGATCCGGATGGCCGTGAGCTTTCGGGGCATCAGCTGAAGCTGACAAGTAATGCCATTTACGCGGTCTCGACTTCGGGGATCTACAAGCGGGATATAAGTAATGGGAAACAAAATGAATTCTTTTCGGCTAAATGA	MKIKMNKIHDESVKGCFCHFDNCGRQYLGRHQNGGLSFTITDESGDTRVIHIDEQIPCEDIMLFQQSSADRYVLIFFESHEHKVKVFSADGTEQSAFSLPSGVSCSLLDEKQNLWIGLSDEGIYSDENPDGQSVLCFTLDGQLKETHIDQQLSEIYAPVVDDCYALAEKNGLIYMLYYSYTVIAVFDETDVKRVWIISDKACSGVYDQLAISDDGFWICKDDHSLSFIPADVSLPVQEVTCCDPDGRELSGHQLKLTSNAIYAVSTSGIYKRDISNGKQNEFFSAK				NA	NA	NA	NA	NA
D1-12_02227	306	wapI_2		Immunity protein WapI	ATGAATTCTTTTCGGCTAAATGAAATGTTGAGATCCAACAGATATTCTTTAAATGATGACCTCATCAGAAACCTGAAGTTTCACAAAAAAGAATTGAAGGGTCCGCTGCCCTCAGATGCGGGGAGTTTTGAAGAAGACTTTGAGGGGGTTGCCTGCGCGGGGGATTTTTATGAATATTTCGCGCTTGTCTGCGGCAGCTTAGATGTTGTTTTGGCGAATAAACAAATGCCTAAGTGGCAGCGTAAGCCTTATATAAATCCTTTTTTGAGCTGTATCCTCAATATGCGCATCTGGAAAACGCTTTAA	MNSFRLNEMLRSNRYSLNDDLIRNLKFHKKELKGPLPSDAGSFEEDFEGVACAGDFYEYFALVCGSLDVVLANKQMPKWQRKPYINPFLSCILNMRIWKTL				NA	NA	NA	NA	NA
D1-12_02228	276			hypothetical protein	ATGGCAGAATGTCTGAAGAAGGCTGATCTGATCCTGAACGGTCAAGCGGCAAGGGAAGAAGTGTCGGATTGGGCGTGTGAGTACGTGGCTGCACATGATCCGGAGGTTGAGGATGAAAACGTTTGGGAGATGCTCGTGTATTTGAGCGGGTTTGTTCTGAAAGATTCGCCTGATTCGTATCTGCATACGATTGAAGAATTAAAAGATTGGATGGCAGAGGTGAAACATTTGAAACCGCGGGAGGCAGAAATATATGAATTGACATTGTTTGAGTGA	MAECLKKADLILNGQAAREEVSDWACEYVAAHDPEVEDENVWEMLVYLSGFVLKDSPDSYLHTIEELKDWMAEVKHLKPREAEIYELTLFE				NA	NA	NA	NA	NA
D1-12_02229	435			hypothetical protein	TTGTGGCGCAGGGTGAATCGCGCAGTGAAATGGAAACCGTACAGTAGATTTGCTTCAATAAAACCTCCGAAGCCGTTTCAAGTTTTTAATGTATCTCAAGGATTCAATGATGAAAAAGGGAATATCAGTTTTTTGGAAGATGCAGAGGTGCAGATACTAAAGGCATTTCAATCTTGTACCTTAAAGCAAGAGTTTATATATGCGCTGGACTGGCAGCATGAATGTTATCTATTTAATCCTCATGCGCCAATTGATAAAGATGAATTCGGCGAATGGCTGGTCCCCGTTATCCCAAACGGAGACTATTGTTTCTTTATTCATCAGGACTTTCAGTGGGGGCTGTCAGGGGATCCGCGGCAGCAAACCATTACGGTTTTTGGCTCACCGCTAATAAGGGCGATAGAAAGAAACGCTCCTGTCTTATTTCAAAAGTGA	MWRRVNRAVKWKPYSRFASIKPPKPFQVFNVSQGFNDEKGNISFLEDAEVQILKAFQSCTLKQEFIYALDWQHECYLFNPHAPIDKDEFGEWLVPVIPNGDYCFFIHQDFQWGLSGDPRQQTITVFGSPLIRAIERNAPVLFQK				NA	NA	NA	NA	NA
D1-12_02230	366			hypothetical protein	ATGACAGAAGAAGAGTTCAGGGCTGCGGAAAAAAGCTTGAGAGCGTCTTTTCCGAAAGCATATAAACGGCTGCTTCATAAAAAGAACCCCGCGGAAATCGGGGAGTGGATTTTTTTCCCTATCCGTGAACAAGGCCGTTTACAGAAAACCTGGGATGATGTGATCAGGCAAAACAGTGTGTGCAGAGAAGAAAGCATGCCCGACGACATGATTGTAATTGCCGACAACGGAACCGGGGATAAGCTGTGCTTGAAGAAAGCGGACGGCGTAATGGAGGAGACCGTTTATCTGTGGGATCATGAGACTGCCGGCGTTGAATTGTATGCCGCTGCTATAGGGGAATTAATAGAAAATGAAAAAGAATAA	MTEEEFRAAEKSLRASFPKAYKRLLHKKNPAEIGEWIFFPIREQGRLQKTWDDVIRQNSVCREESMPDDMIVIADNGTGDKLCLKKADGVMEETVYLWDHETAGVELYAAAIGELIENEKE				NA	NA	NA	NA	NA
D1-12_02231	336			hypothetical protein	ATGAAAAAGAATAAGTGGCTGATTCATGAGATTTTAGAATTCCGCCTCTTCCGGGAAGGGGAGATTTCTGTAATTGAGTTGGCGTTTTCCTCCGAGTATGAACATCAGCTCATTCATGTAAAGCTCACATGCAAAGACGTTTCTTCCGTTCGGATAAAAGAAATGGAGAGTCATGCGGCTGGTTCAGGCATTGTAACAATTGATCCTGTTGCTGACGGCGATGATGGACGGCACTTTCTCATAGAGGAGTGGGAGGATCAAACGTTCCGCTTTTACTGCCGTCAATATGAAGCAGCAGAGGAGAAGGAGGCACAAAATGGAGTGGCACAAACATGA	MKKNKWLIHEILEFRLFREGEISVIELAFSSEYEHQLIHVKLTCKDVSSVRIKEMESHAAGSGIVTIDPVADGDDGRHFLIEEWEDQTFRFYCRQYEAAEEKEAQNGVAQT				NA	NA	NA	NA	NA
D1-12_02232	375			hypothetical protein	ATGGAGTGGCACAAACATGAGAAAGCAGTTATGCTTCGGCCGGATTCGCCGGGTTGTTTTGAATTGACGGAGTTTACGTTCTCTACCGGGTATAACGAGTATTATGATAAAATCCCGGTGTTTGAGCTGAAGCTGACTGATGGGCAGTATGATGCCGTGCTGCGTTTTGAGGGTGTGAGGGCTGCCCGGCTGGATGATCTTGAAAGCATCACCGACATCCATCTGGATATCAGCCCGGTCGACGGCGGCTGGGAATCGATCCGCTACTATGTCGATGACGGGGAAGGAAGCATGAGCTTTTATTGCGCCAAATGGGTCGTGCTTGACATGAAGAAAAAGCAGTCCCCCGAATGGCTCGGCAAAACGTCAGGGTAA	MEWHKHEKAVMLRPDSPGCFELTEFTFSTGYNEYYDKIPVFELKLTDGQYDAVLRFEGVRAARLDDLESITDIHLDISPVDGGWESIRYYVDDGEGSMSFYCAKWVVLDMKKKQSPEWLGKTSG				NA	NA	NA	NA	NA
D1-12_02233	1443	dbpA_3	COG0513	ATP-dependent RNA helicase DbpA	ATGAATGAGTTTAATGAATATGCGATCAGTCCCGAGATCCGACGGGCGCTGAATGGCTTGCAATACACCGAGCCGACTGAAGTGCAGCGGCGCGTCATCCCCGCCGCGCTGCAAAAAAAAGACCTCGTCGTCAAATCGCAGACGGGCAGCGGCAAAACCGCGGCTTTCGGCATTCCGATCTGTGAGCTTGCGGAATGGGAGGAAAACAAACCGCAGGCCCTGATTTTAACGCCGACCCGCGAGCTTGCGGCGCAGATTAAAGAAGATATCACGAATATCGGCCGTTTCAAACGGATAAAAGCCACGGCAGTTTTCGGAAAAGCTTCTTTTGACAAACAGAAAACCGAACTGAAGCAAAAAAGCCACGTCGTTGCCGGAACGCCGGGGCGTGTGCTTGATCATATAGAGAAAGGGACGCTGCCGCTTGAACGGCTGGCGTATGTTGTGATTGACGAAGCGGATGAAATGCTGAATATGGGATTTATTGAACAGGTGGAAGCCATCATTCAGCATCTGCCGAAAAACAGAGTCACCATGCTGTTTTCAGCGACGCTGCCGGATGACGTCGAGAAGAAGCTGAGCCGCACATATATGAAAGACCCTGAATTGATTGAAGTAAAAGCGGAAGGCCTGACGACAAAAGACATTGAGCATTTTGTCATCAGAACAGAAGAAGAGGACAAAACATCTTTGCTGCGTGATGTCCTGATCACCGAAAACCCGGACAGCTGCATCATATTCTGCCGGACAAAAGAAAGAGTCATCCAGTTAACCGATGAACTGGACAGGCTGGGCTACCCTTGCGATAAAATTCACGGCGGCATGGTGCAGGAAGACCGCTTTGACGTCATGAATGAATTCAAGCGCGGCGAGTTCCGCTATCTCATTGCGACCGATGTTGCCGCCAGAGGAATTGATATTGAAAACATCAGCCTCGTCATCAATTATGATATTCCGCTTGAAAAAGAAAGCTATGTGCACCGCACCGGCAGAACGGGACGCGCCGGACACCGCGGACGGGCCGTTACGTTTGTGACGCCGTCTGAATCGCGGTTTCTGAATGACATTGAGACATATATCGGTTTCCGCATCCAGAAGCGGGAGGCGCCGTCTGAGAAAGAAACAGCGGAACGGAAAGCGGCTTTTGCGGAAAAACTGAACGCCCGCCCCGATGTCAAAACAGACAAAAGCGAACAGTTAAACAAAGACATCATGAAGCTGTACTTTAACGGCGGGAGAAAGAAAAAACTCAGAGCGGTCGATTTTGTCGGAACGATTGCGAAAATCGACGGCGTTTCAGCCGATGATATCGGGATTATCACGATTTTGGACAACGCATCGTACGTCGAAATTCTGAACGGCAAAGGCCCGCACGTTCTTGACATCATGAAAAATACGACGGTCAAAGGCAAAAAACTGAAAGTCCATAAAGCCAAGAAATAA	MNEFNEYAISPEIRRALNGLQYTEPTEVQRRVIPAALQKKDLVVKSQTGSGKTAAFGIPICELAEWEENKPQALILTPTRELAAQIKEDITNIGRFKRIKATAVFGKASFDKQKTELKQKSHVVAGTPGRVLDHIEKGTLPLERLAYVVIDEADEMLNMGFIEQVEAIIQHLPKNRVTMLFSATLPDDVEKKLSRTYMKDPELIEVKAEGLTTKDIEHFVIRTEEEDKTSLLRDVLITENPDSCIIFCRTKERVIQLTDELDRLGYPCDKIHGGMVQEDRFDVMNEFKRGEFRYLIATDVAARGIDIENISLVINYDIPLEKESYVHRTGRTGRAGHRGRAVTFVTPSESRFLNDIETYIGFRIQKREAPSEKETAERKAAFAEKLNARPDVKTDKSEQLNKDIMKLYFNGGRKKKLRAVDFVGTIAKIDGVSADDIGIITILDNASYVEILNGKGPHVLDIMKNTTVKGKKLKVHKAKK	PGPT0013740_2393	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-12_02234	1248			hypothetical protein	ATGAAACGGTTTTCGAAAGAAGAAAGCAGCTGGATGCTGTATGATTGGGCCAATTCAGCTTATTCGGTCATTATTATGACGGCGGTGTTCCCCTTGTTTTTTAAAGCCGCGGCAGCGGAAAACGGTGTCAGCGCGGCTGATTCCACCGCTTATTTGGGCTATACGATTGCCGCCGCGACTTTTATTTTGGCGATGCTCGGCCCCGTCTTAGGAACGATTGCCGACTACAAAGGATGCAAGAAACGGTTTTTTGCCTTCTTTTTTCTGATCGGTGTGGCGGGCACCGCCGCGCTGGCTTTGATTCCCGGCGAATCTTGGATGCTGTTATTAATTTGTTATACGATTTCCACGATCGGCTTTGCCGGGTCTAATGTGTTTTATGATGCGTTTCTCGTTGATGTGGCCGCAAAGGAGCGGATGAATATGGTGTCCGCCAGGGGATTTGGACTGGGCTATATCGGCAGCACAATCCCTTTTCTCCTCAGCATTGCCGTCATTCTTTCAGCACAAGCGGAGGTGATTCCGCTGTCCGCCCAGACTGCCGGCCGCATTGCCTTTTTGATTACGGCGGCATGGTGGGGGCTGTTTTCGATCCCGCTCCTTCTCCGCGTCCGCCAGCGCTATTATATCGAGAGGGAGCCGCGGCTTGTACTCAGCAGTTTTATACGGCTGGCCGGCACGCTGAAGCAGATCAGGAAGCATCGGGCGCTGTTTTTGTTTCTGCTCGCCTATTTCTTCTACATCGACGGGGTCGGCACCATCATTACGATGTCCACATCATACGGGGCTGACCTCGGCATCAGCGCGGCAAATCTGCTGATTGTTTTATTTGTCACACAGGTCGTCGCCGCGCCTTTTTCGATTTTGTACGGACGGCTGGCCGAACGGTTTAAAGGAAAAACGATGCTTTATGCCGGAATCGGCGTGTATATGATTGTCTGCACGTATGCTTATTTTATGGATTCCGCTTTTGATTTCTGGGTTTTGGCTATGCTTGTCGCCACTTCCCAAGGAGGTATTCAGGCGCTGAGCCGCTCTTACTTTGCCAAGCTTGTCCCCAAACAGAACGCCAATGAGTTTTTCGGCTTTTATAATATTTTCGGCAAGTTCGCTTCGATTATCGGACCTCTTTTGATTGCCGTCACCGCCCAGCTGACCGGAAATTCGTCAGCCGCCGTGTTCAGCCTGATCATTTTGTTTGTAATCGGGATTGGCATCCTTGCGTTCGTCCCCGAGGAGACGACGTAA	MKRFSKEESSWMLYDWANSAYSVIIMTAVFPLFFKAAAAENGVSAADSTAYLGYTIAAATFILAMLGPVLGTIADYKGCKKRFFAFFFLIGVAGTAALALIPGESWMLLLICYTISTIGFAGSNVFYDAFLVDVAAKERMNMVSARGFGLGYIGSTIPFLLSIAVILSAQAEVIPLSAQTAGRIAFLITAAWWGLFSIPLLLRVRQRYYIEREPRLVLSSFIRLAGTLKQIRKHRALFLFLLAYFFYIDGVGTIITMSTSYGADLGISAANLLIVLFVTQVVAAPFSILYGRLAERFKGKTMLYAGIGVYMIVCTYAYFMDSAFDFWVLAMLVATSQGGIQALSRSYFAKLVPKQNANEFFGFYNIFGKFASIIGPLLIAVTAQLTGNSSAAVFSLIILFVIGIGILAFVPEETT				NA	NA	NA	NA	NA
D1-12_02235	828	licT	COG3711	Transcription antiterminator LicT	TTGAAGATTGCGAAAGTCATTAATAATAATGTCGTCAGTGTGCTCAAAGAAGGCAACCAGGAATTGGTCATCATGGGCCGGGGCATTGCTTTTCAAAAGAAAACGGGAGACACGGTAGATGAAGCCCGCATTGAGAAAGTGTTCACGCTCGATAACAAAGATGTATCCGAAAAGTTCAAAACCCTTTTGTATGATATCCCGATCGAATGTATGGAAGTATCCGAAGAGATTATCAGCTATGCGAAATTACAGCTCGGCAAAAAGCTCAATGACAGCATCTATGTGTCGCTGACCGACCATATTAACTTTGCGATCCAGCGCAATAAGAAAGGGCTGGATATCAAAAATGCCTTACTGTGGGAAACGAAACGGCTGTACAAAGACGAATTTGCAATCGGCAAACAAGCGTTGGCCATGGTAAAAAACAAGACTGGCGTGTCTCTGCCGGAGGATGAAGCAGGCTTTATTGCGCTGCATATTGTCAATGCCGAGCTGAATGAAGAGATGCCCAATATCATCAACATTACAAAAGTCATGCAAGAGATTTTGAGTATCGTAAAATACCATTTTAAGATTGACTTCAACGAGGAATCACTTCACTATTATCGGTTTGTCACCCACTTAAAGTTTTTCGCGCAGCGTCTTTTTAACGGCACACATATCGAAAGCCAGGACGATTTTTTGCTGGAGACAGTGAAAGAAAAATACCATCGGGCGTATGAATGCACGAAGAAAATCCAAACATGCATTGAGAGGGCGTATGAACACAAGCTCACCAGTGACGAGCTGCTGTATTTAACGATTCACATAGAAAGGGTAGTCAAATAA	MKIAKVINNNVVSVLKEGNQELVIMGRGIAFQKKTGDTVDEARIEKVFTLDNKDVSEKFKTLLYDIPIECMEVSEEIISYAKLQLGKKLNDSIYVSLTDHINFAIQRNKKGLDIKNALLWETKRLYKDEFAIGKQALAMVKNKTGVSLPEDEAGFIALHIVNAELNEEMPNIINITKVMQEILSIVKYHFKIDFNEESLHYYRFVTHLKFFAQRLFNGTHIESQDDFLLETVKEKYHRAYECTKKIQTCIERAYEHKLTSDELLYLTIHIERVVK	PGPT0014761_1182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE_USAGE_REGULATION,PGPT0014761-licT|bglG-K03488	NA	NA
D1-12_02236	732	bglS	COG2273	Beta-glucanase	ATGTTTTATCGTATGAAACGAGTGCTGCTGCTTCTTGTCACTGGATTGTTTTTGAGTTTGTGTGCGATCACTTCTACTGCATCAGCTCAAACAGGCGGATCGTTTTTTGAACCTTTTAACAGCTATAACTCCGGATTATGGAAAAAAGCAAATGGTTACTCCAATGGAGATATGTTCAACTGCACGTGGCGTGCAAATAATGTATCCATGACGTCATCAGGTGAAATGCGTTTGGCGCTGACAAGCCCGTCTTATAACAAGTTTGACTGCGGGGAAAACCGCTCTGTTCAAACCTATGGTTATGGACTTTATGAAGTCAGAATGAAACCGGCTAAAAACACAGGGATCGTTTCATCGTTCTTCACTTATACAGGTCCAACGGATGGCACTCCTTGGGATGAGATTGATATCGAATTTTTAGGAAAAGACACGACAAAGGTTCAATTTAATTATTATACAAATGGCGCGGGAAACCATGAGAAGGTTGCGGATCTCGGATTTGACGCGGCCAATGCCTATCATACGTATGCGTTCGATTGGCAGCCAAACTCTATTAAATGGTATGTCGATGGGCAATTAAAACATACTGCGACAAGCCAAATCCCGACAACACCGGGAAAGATCATGATGAACTTGTGGAATGGGATAGGTGTCGATGACTGGCTCGGTTCCTACAATGGTGTAAATCCGCTATACGCTCATTATGACTGGGTGCGCTATACAAAAAAATAA	MFYRMKRVLLLLVTGLFLSLCAITSTASAQTGGSFFEPFNSYNSGLWKKANGYSNGDMFNCTWRANNVSMTSSGEMRLALTSPSYNKFDCGENRSVQTYGYGLYEVRMKPAKNTGIVSSFFTYTGPTDGTPWDEIDIEFLGKDTTKVQFNYYTNGAGNHEKVADLGFDAANAYHTYAFDWQPNSIKWYVDGQLKHTATSQIPTTPGKIMMNLWNGIGVDDWLGSYNGVNPLYAHYDWVRYTKK	PGPT0019425_38	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019425-EC_3_2_1_73-K01216	NA	NA
D1-12_02237	1281	citN	COG2851	Citrate transporter	GTGCTTGCCATACTCGGTTTTGTGATGATGATTGTCTTTATGTATCTTATTATGTCTAACCGGCTTTCCGCTCTTATTGCTTTGATTGTCGTTCCTGTTGTGTTTGCCCTGATCAGCGGATTTGGCAAAGATCTCGGCGAGATGATGATTCAAGGCGTTACAGACCTCGCTCCTACCGGGATTATGCTGTTATTCGCCATCCTGTATTTCGGCATTATGATTGACTCAGGTCTGTTTGATCCCCTCATTGCCAAAATCCTATCGCTTGTCAAAGGGGACCCGTTAAAAATCGCCATCGGCACAGCGGTTCTGACGATGACCATTTCGCTGGACGGAGATGGGACAACAACGTATATGATTACGATTGCGGCAATGCTGCCCCTTTACAAACGGCTCGGCATGAACCGTTTGGTGCTGGCGGGGATTGCGATGCTCGGTTCGGGAGTCATGAATATTATTCCGTGGGGCGGGCCGACGGCGAGGGTTTTAGCTTCCTTGAAATTGGACACGTCAGAAGTTTTTACGCCGCTGATTCCCGCTATGATCGCCGGCGTTCTCTGGGTGATCGCCGTTGCTTATCTCCTCGGAAAAAAAGAACGGAAGCGGCTCGGCATCATTTCGATTGAACATGCGCCGTCTTCTGATCCGGAGGCAGCGCCGCTGAAGCGTCCGGCTCTCCAATGGTTCAACCTGCTGCTGACTGTCGCCCTGATGGCCGCGCTGATCACCAGCCTGCTGCCAATCCCTGTTCTTTTTATGATCGCGTTCGCCATCGCCTTGATGGTCAACTATCCAAATGTCAAAGAGCAGCAAAAACGGATTTCAGAGCATGCGGGTAATGCGTTAAACGTTGTCTCAATGGTGTTTGCGGCAGGCATATTCACAGGCATTCTCTCCGGCACAAAAATGGTGGATGCGATGGCGCATTCTCTCGTTTCCCTCATCCCTGATGCCATGGGCCCGCATTTGCCGTTGATCACTGCGATTGCCAGCATGCCCTTCACCTTTTTCATGTCGAATGACGCCTTTTACTTCGGTGTCCTTCCCATCATTGCCGAAGCCGCTTCCGCTTACGGAATAGACGCCGCTGAAATCGGAAGGGCCTCCTTGCTGGGGCAGCCTGTGCATCTGCTCAGCCCGCTTGTGCCATCCACCTATCTATTGGTCGGAATGGCGGGTGTCAGCTTTGGCGACCATCAAAAATTCACTATTAAATGGGCCGTGGGGACAACGATTGTGATGACGATTGCGGCGCTTTTGATTGGGATTATTTCGTTTTAA	MLAILGFVMMIVFMYLIMSNRLSALIALIVVPVVFALISGFGKDLGEMMIQGVTDLAPTGIMLLFAILYFGIMIDSGLFDPLIAKILSLVKGDPLKIAIGTAVLTMTISLDGDGTTTYMITIAAMLPLYKRLGMNRLVLAGIAMLGSGVMNIIPWGGPTARVLASLKLDTSEVFTPLIPAMIAGVLWVIAVAYLLGKKERKRLGIISIEHAPSSDPEAAPLKRPALQWFNLLLTVALMAALITSLLPIPVLFMIAFAIALMVNYPNVKEQQKRISEHAGNALNVVSMVFAAGIFTGILSGTKMVDAMAHSLVSLIPDAMGPHLPLITAIASMPFTFFMSNDAFYFGVLPIIAEAASAYGIDAAEIGRASLLGQPVHLLSPLVPSTYLLVGMAGVSFGDHQKFTIKWAVGTTIVMTIAALLIGIISF	PGPT0001500_1110	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
D1-12_02238	2052	katE	COG0753	Catalase HPII	ATGAGTGATGATCAAAACAAACGAGTAAATGAACACTCAAAGGACGAACAGCTGGAGCAGTACCGGTCTGATAACAGCGGCAAAAAAATGACGACCAATCAGGGGCTTCGCGTGTCTGAGGATGAGCATTCTTTAAAAGCGGGCGTCCGCGGCCCCACGCTGATGGAGGATTTTCATTTTCGTGAAAAAATGACGCACTTTGACCACGAGCGGATTCCGGAACGGGTCGTTCATGCGCGCGGGTACGGCGTTCATGGGCATTTTCAGGTGTACGAACCGATGACGGAATATACACGGGCGAAATTTTTGCAGGACCCGTCTGTCAAAACACCTGTTTTCGTCCGTTTCTCAACAGTGGCGGGCTCCAAGGGGTCAGCCGACACCGTCCGTGACGCCAGGGGATTTGCGACGAAGTTTTATACTGAAGAAGGGAACTATGACCTCGTCGGAAACAATATTCCGGTGTTCTTCATTCAGGACGCGATTAAATTCCCGGATCTCGTTCACGCCATAAAACCGGAACCGCACAATGAAATGCCGCAGGCTGCGACGGCTCATGATACGTTCTGGGATTTTGTCGCAAACAATCCTGAATCCGCGCACATGGTCATGTGGACGATGTCTGACCGCGGCATCCCGCGAAGCTATCGGATGATGGAGGGCTTCGGTGTGCATACGTTCCGTTTCGTCAACGAGAAAGGAAAAGCGCGCTTTGTCAAATTCCACTGGAAACCCGTGCTCGGCGTTCATTCCCTCGTATGGGATGAAGCGCAGAAAATTGCCGGGAAAGATCCCGATTTCAACCGCCGCGATCTGTGGGAAACGATTGAAAACGGCGGCAAAGTCGAGTATGAGCTCGGTGTTCAGATGATTGACGAAGAAGATGAATTTAAATTTGATTTCGATATCCTTGATCCGACGAAGCTGTGGCCGGAGGAGTTGGTTCCCGTCAAGCTGATCGGAAAAATGACCCTCGACCGCAATCAGGACAATGTCTTTGCGGAAACGGAACAGGTCGCCTTTCATCCGGGAAATGTCGTGCCGGGCATTGATTTCACCAATGATCCGCTCCTGCAGGGACGGCTTTTCTCTTATACAGATACACAGCTCATCCGTCTTGGCGGGCCGAATTTTCACGAGATTCCGATCAACCGGCCGGTCTGCCCGTTCCATAACAACCAATACGACGGCTACCACCGGATGACGATTAATAAGGGCCCTGTCGCCTATCATAAAAATTCTCTGCAGAACAATGATCCGTCGCCGGCCTCAGAAGAAGAAGGCGGATACGTTCATTACCAGGAAAAAGTAGAAGGCAGAAAAATCCGCCAGCGCAGTGAGAGCTTCAATGACTATTTTTCTCAGGCCAAGATGTTCTGGAACAGCATGTCTCCCGCCGAAAAAGAACATATCATCTCCGCGTTCTGTTTTGAGGTCGGAAAAGTGAACAGCAAGGATGTGCAGCAGCAGGTGGTTGATGTCTTCAGTCATGTCGACGCCGGGCTTGCCGAGCGTGTTGCGAAAGGAATCGGCGTGAACCCGCCGCCGAAGGACCGTGAATCTGATGAAACGTTCACTTCCCCTGCCTTAAGCCAGGAAAACACGGTGAAGACGGCAGCGACAAGGCAGGTTGCGGTTTTAACCGACCACGGGTTTTCTGATGAGAAAGTCAAACAAGTGCTTGACGCATGCAAACAGGCGGGAGTCAGAGCCGATATCATCAGCCCCGCGCTGGGAACCGTCAAGGGAGAAAACGGTACGGAGCTCGAAGCGTCAGCCACTTTCCTGACAGTGGATTCCGTCCTGTACGACGCTGTTTTCATTCCGGGCGGAAAACAAAGCACAGACAGCCTCAAAGCCCAAAAATCGGCCAGAGACTTCGTCAACGAAGCTTTCAGCCATTACAAAGCGATCGGCGCCTCCGGTGAAGGAAAAGAACTTCTCGCCCTCGCCGCCGGAACCGAAAGCGGCCCCGGTCTTGTTCCGGACGGAAACCATGAACAATTTCTGAAAGCCGTGGCTGAGCATCGGCATTGGGACAGAAACGTATAA	MSDDQNKRVNEHSKDEQLEQYRSDNSGKKMTTNQGLRVSEDEHSLKAGVRGPTLMEDFHFREKMTHFDHERIPERVVHARGYGVHGHFQVYEPMTEYTRAKFLQDPSVKTPVFVRFSTVAGSKGSADTVRDARGFATKFYTEEGNYDLVGNNIPVFFIQDAIKFPDLVHAIKPEPHNEMPQAATAHDTFWDFVANNPESAHMVMWTMSDRGIPRSYRMMEGFGVHTFRFVNEKGKARFVKFHWKPVLGVHSLVWDEAQKIAGKDPDFNRRDLWETIENGGKVEYELGVQMIDEEDEFKFDFDILDPTKLWPEELVPVKLIGKMTLDRNQDNVFAETEQVAFHPGNVVPGIDFTNDPLLQGRLFSYTDTQLIRLGGPNFHEIPINRPVCPFHNNQYDGYHRMTINKGPVAYHKNSLQNNDPSPASEEEGGYVHYQEKVEGRKIRQRSESFNDYFSQAKMFWNSMSPAEKEHIISAFCFEVGKVNSKDVQQQVVDVFSHVDAGLAERVAKGIGVNPPPKDRESDETFTSPALSQENTVKTAATRQVAVLTDHGFSDEKVKQVLDACKQAGVRADIISPALGTVKGENGTELEASATFLTVDSVLYDAVFIPGGKQSTDSLKAQKSARDFVNEAFSHYKAIGASGEGKELLALAAGTESGPGLVPDGNHEQFLKAVAEHRHWDRNV	PGPT0014380_916	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-12_02239	303			hypothetical protein	GTGAAGCCGTTTACCGAAAAACAACTCGAAGAATATTACCGGCGTGACGAAAACATGATGATTTTGGTGTTTGCCCAATGGTGCGTCAATCATGACCTTGATCCGATGGCCATTTACAGCAAGGCTTACCCCGGACAGCCTTTAAACGAAGAGCTGCGAAAAACGGCTGAAGAACTTGTCGTGCCGAAGGAGGAATCAGAACCGATTCCTGATCAAACCGTTATCGGCGTTTTGGAGATGTTCGGCAACTCCGATTTGGCGGAAGCCGTTTATGAAGCCATTGCGCAAAGACCTTCACGGTAA	MKPFTEKQLEEYYRRDENMMILVFAQWCVNHDLDPMAIYSKAYPGQPLNEELRKTAEELVVPKEESEPIPDQTVIGVLEMFGNSDLAEAVYEAIAQRPSR	PGPT0014312_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014312-yxiS-NA	NA	NA
D1-12_02240	675			hypothetical protein	ATGAAAAAGGCATTCAAAATGATGGCGGCTGTGCTCTTAACCGTGCTGACAGCCGCGCCGTTCGGAGGTTTCGCGCCTTCAGCCGAGGCCGCGCAAACCGCAAAGCCCGTTGTCAAAAGCCATACGTATAAGCATGTAAAACAGCTGACATACCCCGAGGTCACAAATACGGGAAACGCATCTTTTGAAAAGAAAATCAATCAGGACTTCAAACGTTATATTGAACAATCGTATCAAGAATATGTGAAAAACAAAAAAGACGGTGAAAAACAAGGCTACAAAGCGGAATACCAGGCAGATTTCAAGGTGAAGTATAATCAAGACGGCAAGCTCAGCATTCAGACGGAAGACTACAGTTACACAGGCGGCGCACACGGGCTGACATCCGTTCAGACCTTTAATTACGACTTGGCCGCAAAAAAACGGGTCACACTCGATAATGTGCTGAATACAAAAACGAAAGCTAACAAGACGAGAGACTATCTTTACGGCTACATCAAGAAACATGACGATCTGTTTGACCAGGACGTCAAAAAACAAGAGATCATCCTGAATAACGAAAGACCTTTCTTCTTTACGAAAAACGGCATTGCCATTGTGTTCGGACAATATGATCTCGGACCGTACGCGGCAGGAATCCGGGACGTTTTCGTACCTGCATCCGTCTATCAATAA	MKKAFKMMAAVLLTVLTAAPFGGFAPSAEAAQTAKPVVKSHTYKHVKQLTYPEVTNTGNASFEKKINQDFKRYIEQSYQEYVKNKKDGEKQGYKAEYQADFKVKYNQDGKLSIQTEDYSYTGGAHGLTSVQTFNYDLAAKKRVTLDNVLNTKTKANKTRDYLYGYIKKHDDLFDQDVKKQEIILNNERPFFFTKNGIAIVFGQYDLGPYAAGIRDVFVPASVYQ				NA	NA	NA	NA	NA
D1-12_02241	1311	nupG	COG1972	Purine nucleoside transport protein NupG	ATGACGCTGTCTATTCTTTTCTTTTGGCTCTTATTTATCACACTTTCTGGCTTTCAGGAATTTGTGACGAATAAGAGCTTTTTTTATTTCCATAATACCCTTATAGGAGTTGCTCACATGTACTTTTTATTGAACATTGTCGGTCTCATTGTTGTCATGGCTGTTGTTTTCTTATGCTCTCCCAACAAGAAGAAGATTAAATGGCGTCCGATTGTCATGCTCCTCGTCTTTGAGTTTCTGATTACTTGGTTTATGTTAGGGACAAAAGTCGGCGGCTTTGTCATCGGGAAGATCGGCGCGTTCTTTACATGGCTGATTTCCTGCGCCAGTCAAGGGATTGCGTTCGCTTTTCCGTCTGTTATGGCCAATCCGACGGTTGATTTTTTCTTCAGCGCATTGCTGCCGATTATCTTCGTCGTGACCTTCTTTGATATGCTGTCGTATTTCGGTATTCTGCCGTGGCTCATTGATAAAATCGGCTGGCTGATTTCTAAAATATCCCGTCTGCCGAAGCTGGAGAGCTTTTTCTCCATCCAGATGATGTTTTTAGGAAATACGGAAGCTTTAGCCGTCATCCGCCAGCAGCTTGCCGCCGTCAGCAACAATCGGCTTCTGACATTCGGGCTGATGAGCATGAGCAGCATCAGCGGCTCGATCATCGGATCGTACTTGACGATGGTTCCGTCCACTTATGTGTTTACAGCCATCCCGCTGAATTGCTTAAACGCCCTTTTAATCGCCAATATGCTGAATCCCGTGGACGTTTCTAAAGAGGATGATATTATTTACGTTCCTTCAAAAGCGGAGAAAAAAGACTTCTTCTCCACGATTTCTAACAGTATGCTTGTCGGCATGAACATGGTCATTGTCATTTTAGCGATGGTAATCGGCTATGTGGCGTTAACGGCCGCGTTAAACGGCGTACTCGGACTGTTCGTGCACGGTTTGACCATTCAAAAGATTTTCTCATACATCTTCAGTCCGTTTGCCTTCCTTCTCGGATTAGGCGGACATGACGCGATGTATGTCGCACAGCTGATGGGCATCAAGCTCGCGACGAATGAATTTGTGGCAATGGCCGATCTGAAAGGGCAGCTGAAATCACTTCCGCCGCACACGATTGCCGTGGCTACGACATTCCTGACATCATTCGCAAACTTCAGCACCATCGGTATGATCTACGGATCTTATCAATCTCTGCTTGATGGTGAAAAATCAGCCATCATCGGAAAAAACGTCTGGAAGCTGCTTGTCAGCGGAATTGCCGTTTCCCTATTGAGCGCGGCGATTGTCGGATTGTTTGTCTGGTAA	MTLSILFFWLLFITLSGFQEFVTNKSFFYFHNTLIGVAHMYFLLNIVGLIVVMAVVFLCSPNKKKIKWRPIVMLLVFEFLITWFMLGTKVGGFVIGKIGAFFTWLISCASQGIAFAFPSVMANPTVDFFFSALLPIIFVVTFFDMLSYFGILPWLIDKIGWLISKISRLPKLESFFSIQMMFLGNTEALAVIRQQLAAVSNNRLLTFGLMSMSSISGSIIGSYLTMVPSTYVFTAIPLNCLNALLIANMLNPVDVSKEDDIIYVPSKAEKKDFFSTISNSMLVGMNMVIVILAMVIGYVALTAALNGVLGLFVHGLTIQKIFSYIFSPFAFLLGLGGHDAMYVAQLMGIKLATNEFVAMADLKGQLKSLPPHTIAVATTFLTSFANFSTIGMIYGSYQSLLDGEKSAIIGKNVWKLLVSGIAVSLLSAAIVGLFVW	PGPT0021085_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021085-yxjA|nupG-K16323	NA	NA
D1-12_02243	882	rlmA	COG0500	23S rRNA (guanine(745)-N(1))-methyltransferase	TTGACGTCTATAAAAAGAAAACGCGCGGAATTACTGCAATCATGCCAGTCCGTGTTCAGGTGTCCGCTATGCCGGTCGGCCATGGCGGTCTCACAATACAAAAGCTTGATTTGCGGACAGGGGCATACATTTGATATATCAAAACAAGGATATGTGAATTTCCTCAATAAATCGGTCAAAACCCGCTATGACAGGCAGCTGTTCGAAGCGAGACGCGAGCTTTTTGACAGCCGGGAATTTTTTGGGCCGGTTCAAAAGGAGATCGCCGCCATCATCAGCCGTAAGCAATCTCCGCATAAACCGGCGGCGATATTGGATGCGGGATGCGGAGAAGGCTCTCATTTAGCCGCCGTATGCAAATTGCTTCAGCCCGCTTTTTCCGTGACGGGAATCGGCATTGATCTCTCGAAAGAAGGTGTGCTGCACGCCGCAAAGGCCTTCGGGAATCATATGGTTTTTGCCGTCGCTGATGTGGCGGATGCGCCGTTTGCCGACAGCTGTTTTGATGTCGTAATGTCCGTTTTATCACCTTGGAATTACAAGGAATGCAGCAGGCTTTTAAAAAAGGGCGGCACAGTCATTAAAGCGGTGCCGCGGCGTGATTATTTGAAAGAAGTGAGGGAATTCTTCTTCGGAGACAGTCCTCGGCGGAATGACACCGCCGATTCTGCGGCCGGACGATTCCAAGCGGGCTTTCAAACCTTTGAGCGCAAACGGCTGTGTTACACGAAGGCCTTATCGCAGCCTGACCTCGAGCGGCTTGTGAAAATGACGCCCTTAACATGGAAATGTACTGATGACAGCATCCGGCGGTTTATCAGCCGGAAAGAGGCTGCTGTCACGATAGATATCGATATTTTAATCGGAACCGGTCCGCTGTAA	MTSIKRKRAELLQSCQSVFRCPLCRSAMAVSQYKSLICGQGHTFDISKQGYVNFLNKSVKTRYDRQLFEARRELFDSREFFGPVQKEIAAIISRKQSPHKPAAILDAGCGEGSHLAAVCKLLQPAFSVTGIGIDLSKEGVLHAAKAFGNHMVFAVADVADAPFADSCFDVVMSVLSPWNYKECSRLLKKGGTVIKAVPRRDYLKEVREFFFGDSPRRNDTADSAAGRFQAGFQTFERKRLCYTKALSQPDLERLVKMTPLTWKCTDDSIRRFISRKEAAVTIDIDILIGTGPL				NA	NA	NA	NA	NA
D1-12_02244	1137	metE_2	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGTCACAGCAAAACACAGAACAACCATTGCATACGCTTCTAAGAAAAAACCCGCCGTTTCGCGCGGATCAGGTCGGAAGCCTGCTGCGGCCGGCGGCTGTGAAGCAAGCCCGCCTGCAAAGAGCGGCGGGTGAGATTTCGGCAGAACAGCTGCGCGAAATCGAAAACAGAGAAATCATCCGCAGTGTGGAAAAGCAGAAAGAAACCGGCCTCAATGTCGTGACTGACGGCGAATTCCGCCGTGCCTGGTGGCATTTTGATTTTCTCGAAAACTTAGACGGCGTCGAAGCATTTACGCCTGAAAGCGGCATTCAGTTTCACAACGTACAGACGAAAGCGCGCGGCATTAAAGTAACGGGAGATATTGATTTTTCTCAGCATCCGATGCTCGAAGATTATAAATTCCTGCACAGCATTGCCGGCGATGCTGTTCCGAAAATGACCATCCCAAGTCCGAATATGCTGTTTTTCCGCGGAAAATTGGAAAAAGCGTCCTACCAGAATGATTACAAACAATTTCAGCACGATGTGTCAAAGGCGTATAAAAAAGCGATTCAAGCTTTCTATGACGCCGGGTGCCGCTACCTTCAGCTCGATGACACCGCATGGGCCGTTTTCTTATCAGAAGCGGGGCTTCGTCAGATTGAAGCTTTCGGCACAACGCCGGATGAGCTGCGCAAGCTGTTTGCCGCTTCCATTAATGACGCCATCAAGGACCGCCCTGACGATCTGAAGGTTACGATGCATATCTGCCGCGGCAACTTCCAATCCACATGGACGGCTGAAGGCGGCTATGATGCAGCGGCTGAAACGATTTTTGACGGGCTTGATCTTGACGGATTGTTCCTGGAATATGATGATTCCCGCTCCGGCGGCTTTGAACCGCTCCGCTATGTCAAACGCTCTGATCTTCAGCTTGTGCTTGGATTGATTACGTCGAAACATGGCGAACTTGAAGACAAGGACGCGATTAAACGCCGGATTGAAGAAGCTTCACAATATGTCAGCCTGGATCAGCTTTGCCTCAGCCCGCAATGCGGATTCGCCTCCACTGAGGAAGGAAACCTGATCACAGAAGAACAGCAATGGGCGAAACTGCGGCATGTCGTCAACATTGCCGGTGAAGTCTGGAAATAA	MSQQNTEQPLHTLLRKNPPFRADQVGSLLRPAAVKQARLQRAAGEISAEQLREIENREIIRSVEKQKETGLNVVTDGEFRRAWWHFDFLENLDGVEAFTPESGIQFHNVQTKARGIKVTGDIDFSQHPMLEDYKFLHSIAGDAVPKMTIPSPNMLFFRGKLEKASYQNDYKQFQHDVSKAYKKAIQAFYDAGCRYLQLDDTAWAVFLSEAGLRQIEAFGTTPDELRKLFAASINDAIKDRPDDLKVTMHICRGNFQSTWTAEGGYDAAAETIFDGLDLDGLFLEYDDSRSGGFEPLRYVKRSDLQLVLGLITSKHGELEDKDAIKRRIEEASQYVSLDQLCLSPQCGFASTEEGNLITEEQQWAKLRHVVNIAGEVWK				NA	NA	NA	NA	NA
D1-12_02246	477			hypothetical protein	ATGTACCATTTTTATATCAAAGAGCGGATGTTGACGTTTAAGAATCGTTTTCAAGTGTTTCTTGAAAGCGGAAAAGAAGTCTACAATGTTGAAGGAAAGCTGTTTTCATTCGGTGATGAACTGAAGCTGACTGATTTGGACGGCCGCACGCTCGCCAGCGTCAATCAGAAACTAATGTCGCTCGTTCCCCGTTACGAGATTTCCGTCAGCGGCAAACCCGTCTGCCAAGTCATCAAGAAAGTCACGTTATTCAAACCGAAATTTGAAATTTCCGGACTCGGCTGGGATCTTACCGGCGATGTGTGGGGCCGGAATTTTCAAGTGACAGACGGAAAATCAAACCGGATGACCGTCACCAAATCATGGATGAGCTGGGGCGATTCCTATCATTTGCAGATTGAAAAGGAAGAGGATATCGTTCTTTGTCTCGCGATCGCCATCGTGATAGATATGATTCTATTTGAGGGTGACAAATAA	MYHFYIKERMLTFKNRFQVFLESGKEVYNVEGKLFSFGDELKLTDLDGRTLASVNQKLMSLVPRYEISVSGKPVCQVIKKVTLFKPKFEISGLGWDLTGDVWGRNFQVTDGKSNRMTVTKSWMSWGDSYHLQIEKEEDIVLCLAIAIVIDMILFEGDK				NA	NA	NA	NA	NA
D1-12_02247	168			hypothetical protein	ATGATGCTACTTATTTTTGCTGCTTTGACAGGGTATCTTGTTTTCTCTTTCAGTAAGGACAACCGCCGGAAAACGCCAAAGACAAGCCCGCTGGTGACAGCTGCCGACACGAATAACATCATTGATTTAAATGCGATCCGTCAAAAACGCCGGATGCCGCTATCATAA	MMLLIFAALTGYLVFSFSKDNRRKTPKTSPLVTAADTNNIIDLNAIRQKRRMPLS	PGPT0014313_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014313-yxjJ-NA	NA	NA
D1-12_02248	117			hypothetical protein	ATGGCAAGAGGGACTGTAGCGAAAGAATTAAAAAAAACCTTAAAAGACCCGCGTGTTCTGGAGACGAAATCAAACCCTTTTAAAAAGCTGCGGAAAATGTTCAAACGATTTTTTTAA	MARGTVAKELKKTLKDPRVLETKSNPFKKLRKMFKRFF				NA	NA	NA	NA	NA
D1-12_02249	1233	pepT_2	COG2195	Peptidase T	ATGAAAAATGAAATCATTGAACGCTTTACCTCTTACGTAAAAGTCGATACACAGTCTGACGAAAACAATGAAAGCTGCCCTTCAACCCCCGGCCAGCTGACATTGGCCAACATGCTGGCAGATGAATTAAAGTCGATCGGCATGACAGAAATCACAGTCGATGACAATGGGTACGTCATGGCGACTCTGCCGGCAAATACGGATAAAGACGTGCCGACTGTCGGTTTTCTGGCTCACGTGGACACCGCGACCGATTTTACCGGAAAAAATGTGAATCCTCAGATTATTGAGAGCTACGACGGACATGATATCGTTTTGAATGACAAACTCAATGTCGTCCTGTCGCCTGAGCAATTCCCGGAGCTCTCCCGCTATAAAGGCCAGACGCTGATTACAACAGACGGCACGACGCTGCTCGGAGCCGACAACAAAGCGGGCATTGCCGAAATCATGACGGCAATGGCGTACTTGATCAAACATCCGGACATCAAACACGGAACGATCCGGGTCGCATTCACGCCCGATGAAGAAATCGGCAGAGGCCCTCACAAATTCGATGTCGGCCGCTTCAACGCCGCATTCGCCTACACGATAGACGGAGGCCCCCTCGGCGAACTGCAATATGAAAGCTTTAACGCAGCCGCCGCAAAGCTGACTTGTTACGGAAAAAGCGTCCACCCGGGAACGGCGAAAAACAAAATGGTCAACGCTTCAAAAATCGCGATGGAATTTCATCACGCGCTGCCGAAAGAAGAAGCGCCGGAATATACGGAAGGGTATGAAGGCTTCTATCATTTACTTTCCATGAACGGAGACGTTTCTGAAGCCGCCCTGTCGTACATCATCAGAGACTTTGACAGAGACCGCTTTGCAGAACGAAAAGAATATATGCAGAAAACCGCCGATGCGCTGGCGGCTAAATACGGCAAGGAAAGCATCAAGCTTGAACTGCGTGATCAATATTACAACATGAGAGAAAAAATCGAACCGGTCAAAGAGATAGTCGATGTCGCCTATCAGGCCATGAAAAACCTCGACATCGAACCGATTATCGAACCGATCCGGGGCGGAACCGACGGATCACAGCTCTCTTACATGGGGCTGCCGACACCGAACATTTTCACGGGCGGCCAAAACTTCCACGGAAAATATGAATACATTTCCGTCGATCATATGGAAAAGGCGGTAAACGTCATTGTTGAAATCGCCAGGCTCTTTGAAGAGCGCGCTTAA	MKNEIIERFTSYVKVDTQSDENNESCPSTPGQLTLANMLADELKSIGMTEITVDDNGYVMATLPANTDKDVPTVGFLAHVDTATDFTGKNVNPQIIESYDGHDIVLNDKLNVVLSPEQFPELSRYKGQTLITTDGTTLLGADNKAGIAEIMTAMAYLIKHPDIKHGTIRVAFTPDEEIGRGPHKFDVGRFNAAFAYTIDGGPLGELQYESFNAAAAKLTCYGKSVHPGTAKNKMVNASKIAMEFHHALPKEEAPEYTEGYEGFYHLLSMNGDVSEAALSYIIRDFDRDRFAERKEYMQKTADALAAKYGKESIKLELRDQYYNMREKIEPVKEIVDVAYQAMKNLDIEPIIEPIRGGTDGSQLSYMGLPTPNIFTGGQNFHGKYEYISVDHMEKAVNVIVEIARLFEERA	PGPT0020915_1296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020915-pepT-K01258	NA	NA
D1-12_02250	1017	lnpD		UDP-glucose 4-epimerase	ATGGCGATTTTAGTGACAGGCGGAGCGGGTTATATCGGAAGCCACACATGTGTCGAGCTGTTAAACGGCGGCTATGACATCGTGGTTCTGGATAATCTGTCAAATAGTTCACCGGAAGCATTGGAGCGTGTGAAAGACATTACCGGAAAAGGGCTTGTGTTTTATGAAGCGGATCTCCTTGACCGTGATGCCGTTCACCGGGTGTTTGCTGAAAATGAGATTGAAGCCGTCATTCATTTTGCGGGATTAAAAGCGGTCGGTGAGTCTGTGGCTGTTCCGCTCCGTTATTATCATAATAATCTGACGGGGACGTTTATTTTATGTGAAGCCATGCAGGCACACGGTGTGAAAAAAATCGTCTTCAGTTCTTCAGCGACGGTTTACGGCGTTCCGGAAACAACGCCGATCACTGAGGATTTTCCATTAAGCGCGACCAATCCTTACGGGCAGACAAAGCTGATGCTGGAACAGATTTTACGCGATCTGCATAAAGCGGACTCTGAATGGAGCATTGCGCTGCTCCGCTACTTTAATCCGTTCGGCGCGCACCCGAGCGGCCGGATCGGAGAAGACCCGAACGGCATCCCGAATAATTTAATGCCGTACGTCGCCCAAGTCGCTGTCGGCAAGCTTGAGCAATTGCAGGTGTTCGGCAATGATTATCCGACAAAGGACGGCACCGGCGTGCGGGATTACATCCATGTCGTTGATCTTGCCGAGGGCCACGTCAGAGCGCTTGAGAAGGTGCTGAACACAACAGGCGCGGATGCCTATAATCTCGGCACGGGAAGAGGCTACAGCGTTCTTGAGATGGTCAAGGCGTTTGAAAAAGTATCTGGAAAAGAAGTGCCGTACCGTTTTGCCGGCCGGCGCCCGGGAGACATCGCCGCATGCTTCGCAGACCCGGCAAAAGCGAAGGCTGAATTAGGCTGGGAAGCAAAGCGCGGGCTTGAAGAAATGTGCGCCGACTCTTGGAAGTGGCAGTCCTCCAATGTGAACGGGTACCAAAAGGTGTAA	MAILVTGGAGYIGSHTCVELLNGGYDIVVLDNLSNSSPEALERVKDITGKGLVFYEADLLDRDAVHRVFAENEIEAVIHFAGLKAVGESVAVPLRYYHNNLTGTFILCEAMQAHGVKKIVFSSSATVYGVPETTPITEDFPLSATNPYGQTKLMLEQILRDLHKADSEWSIALLRYFNPFGAHPSGRIGEDPNGIPNNLMPYVAQVAVGKLEQLQVFGNDYPTKDGTGVRDYIHVVDLAEGHVRALEKVLNTTGADAYNLGTGRGYSVLEMVKAFEKVSGKEVPYRFAGRRPGDIAACFADPAKAKAELGWEAKRGLEEMCADSWKWQSSNVNGYQKV	PGPT0017825_10	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
D1-12_02251	639	yxkC		putative protein YxkC	ATGGCAGGCAACCTGGTGTCTTGTAAGGCATGCGGCAAAGAAATCGCTAAAGGCGTTAAAAAATGCCCAAACTGCGGTAAAGATCAGAGAAACTTTTTTATGAGACATAAAATTATCACATTGCTTCTGGCGGTAGTGGTTATTATCATTCTCGTAAACATCGGCGGCGGCGGCGGATCTTCATCATCTAAAACCGCGTCTTCAAAAGCTGCGGAATCCAAGGAAAAACTGTATAACATCGGTGACACTGTTAAGACTGAGAAAACTGAAGTTACTGTTACCAAAGTGGAAAAAAGAGATTCAGTAGGCTCTCAATTTGTCGAGAAAAAAGCGTCTGACGGCGGCGTTATCGTAGCTGTTCAATACACAGTTAAAAATGTTTCAAACAAGCCGTTAAGCTCTTTCTCCATTCCAAGAGCGAAATTAGTAGATTCTAAAGGAACATCCTATGATTCAGATATTGATGCTTCTTCAAGCTATGCAACAGAAACAAAAGTAGACAACAGTAAAATTTTAAGTGACTTGAACCCGAACATTAAAGTTACTGACGTAAAAGCTTTTGAAGTTGATAAAAACGCATACTCTAAAGGCACTTGGAAATTAAAGTTCAGCAACGATGTTGAAGTGAAAATTAAATAA	MAGNLVSCKACGKEIAKGVKKCPNCGKDQRNFFMRHKIITLLLAVVVIIILVNIGGGGGSSSSKTASSKAAESKEKLYNIGDTVKTEKTEVTVTKVEKRDSVGSQFVEKKASDGGVIVAVQYTVKNVSNKPLSSFSIPRAKLVDSKGTSYDSDIDASSSYATETKVDNSKILSDLNPNIKVTDVKAFEVDKNAYSKGTWKLKFSNDVEVKIK				NA	NA	NA	NA	NA
D1-12_02253	837			hypothetical protein	ATGAAAAAGAGATTGCTGGATGTGCTGATGCTGATTATTGGAGCTTTTATCTTTGCTTTGGCTGTTAATTTATTCGCCATTCCGAATGATCTTGGAGAGGGCGGGGTAACGGGAATCACCCTGATCTTGTACTATGTGTTTGAATGGTCGCCCGGGGTGACGAATATCATTTTGAACGGGATCTTATTGATTATCGGATATAAATTTTTAGACGGAAAAACAACGCTTTATACGATCATTACCGTTGTCGCCAACTCACTGTTTCTGCATCTGACGCATGATTGGCACTCGCCTTCACATGAACTCATTATTAATACTATTTTTGCGGGTGTGTTTGCCGGTGTCGGAATCGGGATCATTATTCGAGTCGGAGGCACGACTGCGGGTTCTGCCATTTTGGCGAGGATTGCGAACAAATATCTCGATTGGAATATCAGTTATGCGCTTTTGTTCTTTGATCTGATTGTCGTCTTCAGTTCTTATTTCATCATCGGTGCGGAAAAAATGATGTTTACCATTGTCATGCTGTACATCGGAACGAAGGTGATGGACTTTATCATTGAAGGCCTGAATACGAAAAAAGCGGTGACGATTATATCTGAGCATAAGCACGAAATCGCTGAACAGGTCAACACGCTTATGGACAGAGGGGTTACGCTGCTGTCGGGTAAAGGAAATTACACGGGGCAGTCGAAGGAGATTTTATATATCGTCATCCAGAAACAAGAGCTTTCCATGCTCAAAAAAATTATTAAAAGCTGTGATACAAAAGCGTTTGTCATTGTTCATGATGTGCGTGACGTCTTTGGCGAAGGCTTCGTCGATATCTCTAAATAA	MKKRLLDVLMLIIGAFIFALAVNLFAIPNDLGEGGVTGITLILYYVFEWSPGVTNIILNGILLIIGYKFLDGKTTLYTIITVVANSLFLHLTHDWHSPSHELIINTIFAGVFAGVGIGIIIRVGGTTAGSAILARIANKYLDWNISYALLFFDLIVVFSSYFIIGAEKMMFTIVMLYIGTKVMDFIIEGLNTKKAVTIISEHKHEIAEQVNTLMDRGVTLLSGKGNYTGQSKEILYIVIQKQELSMLKKIIKSCDTKAFVIVHDVRDVFGEGFVDISK				NA	NA	NA	NA	NA
D1-12_02254	894	lrp		Leucine-rich protein	ATGAACCCGTTATTGGCAATTTACCCAAGGGCTGTGTTGTCTGATACGTGCTGTACGGCGGAGGATGTCTTTTGCTTTTATGATGAAAAAAGGCGGGGCTATGTCGCCATTCCGAAGGAGGATATCACCCCGAAGGAGAAACTGCTTCTGGAATCATTTTTGGCGCCCGCTGAAGAAAAAGGCGATTTTTTTCCGGAGACGGCGGCAGCAAAGAGGTGGCGGCGTTTTCTGCTGGAAGAAGGCCCGGTGCCTGATGTCAAGGAGCCGCGTGTCCGTTTTATCCATTATGACTTATTGGGAGAACGGGACTGGGGGGCATTTACGGAAGCGCTGCGCCATTTCTGGCCGGTTTCATATATAGTTGTCCGGACGGGAAGGGATCAAGGCGTGATTGTGGAGGAAGAAAAGCTGGAAGCGCCCGATTCGGATGACATCGCATCTTTTGTGAAGATTCTCGAAGGCGATTTTTATTTCAGTGTCCGTTTTTTCATCGGAAGGTATTATGGCGCGGGAGAACGTCTGCGTCTTCATTATCGGAGAGAACAGCAATATTGTCAGATTGGCCGGCGTTATCTCCCGCAGCTGAGCACGCTGACCGCGGAAACGGTATTTCCGGCCATGCTCACGGAAGAAAGCAGAGAAAAGCTCTCAGCCTTGCTTCACGAAGAAGCGGCGCTGCTGTTTCAGAAAGAACCGGAGCTGAAGCATACGATTCAGACTTTTATTGAACATAACTCGAACATGTCGCTCACATCGAAAAAACTGCATTTGCACCGCAACAGTCTTCAATATCGGATTGATAAATTTGCGGAACGCTCGGGTATTGATATTAAGACATATCAGGGCGCCCTGCTGGCTTATTTCATTTGTCTGCAGTATGAAAAATCACATTAA	MNPLLAIYPRAVLSDTCCTAEDVFCFYDEKRRGYVAIPKEDITPKEKLLLESFLAPAEEKGDFFPETAAAKRWRRFLLEEGPVPDVKEPRVRFIHYDLLGERDWGAFTEALRHFWPVSYIVVRTGRDQGVIVEEEKLEAPDSDDIASFVKILEGDFYFSVRFFIGRYYGAGERLRLHYRREQQYCQIGRRYLPQLSTLTAETVFPAMLTEESREKLSALLHEEAALLFQKEPELKHTIQTFIEHNSNMSLTSKKLHLHRNSLQYRIDKFAERSGIDIKTYQGALLAYFICLQYEKSH				NA	NA	NA	NA	NA
D1-12_02255	1101	msmX_1	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCGGAACTTCGGCTGGAGCATATTTATAAGTATTACGATCAAAAAGAAGCGGCTGTCGATGATTTTAACCTTCATATTAAAGATAAAGAATTTATCGTGTTTGTCGGTCCGTCGGGGTGCGGAAAGTCAACAACATTGAGGATGGTTGCCGGGCTGGAAGACATTACAAAGGGCGATTTCTATATCGGTGACACGAGAGTGAATGACATCGCTCCTAAAGACAGGGATATCGCCATGGTGTTTCAAAACTATGCGTTATATCCGCACATGACGGTCTATGATAATATCGCTTTCGGTCTGAAGCTGAGGAAGATGCCGAAACCGGAGATTAAAAAACGGGTCGAAGAAGCGGCAAAAATGCTGGGGCTCACAGAGTATCTGCACCGCAAACCGAAGGCGCTCTCCGGCGGGCAGCGGCAGCGGGTTGCATTAGGCCGGGCGATTGTCAGGGACGCCAAAGTGTTTTTAATGGATGAGCCGCTGTCAAATCTGGACGCAAAGCTTCGGGTGCAGATGCGGGCAGAAATTATTAAGCTGCATCAAAGGCTGCAAACAACCACAATCTATGTGACGCACGATCAAACAGAAGCACTGACGATGGCGACACGCATCGTAGTCATGAAGGACGGAAAAATTCAGCAGATCGGCACCCCGAAAGACGTGTATGAACATCCCGAAAACGTATTTGTCGGCGGGTTTATCGGCTCCCCGGCGATGAACTTTTTCAAAGGAAAGCTGACGGACGGCGCCATTCAGATCGGTTCAGCCGCTCTCGGCGTGCCGGAAGGGAAAATGAAAATGCTCCGCGAAAAAGGGTATGCCGGCAAAGATGTTATCTTCGGCATCCGCCCGGAAGACATACATGACGAGCTGATTGTGGTAGAATCCTATAAGAATTCATCCATCACAGCTAAAATCAATGTCGCGGAATTGCTCGGGTCAGAAATTATGGTCTATTCCCGGATCGGGGATCAGGATTTTATCGCCCGGATTGACGCCCGCCATGACATTCATGCCGGTGAGGAATTGACCGTCGCTTTCGACATGAATAAGGCTCACTTTTTTGACAGTGAAACAGAAATCAGAATCCGCTCATAA	MAELRLEHIYKYYDQKEAAVDDFNLHIKDKEFIVFVGPSGCGKSTTLRMVAGLEDITKGDFYIGDTRVNDIAPKDRDIAMVFQNYALYPHMTVYDNIAFGLKLRKMPKPEIKKRVEEAAKMLGLTEYLHRKPKALSGGQRQRVALGRAIVRDAKVFLMDEPLSNLDAKLRVQMRAEIIKLHQRLQTTTIYVTHDQTEALTMATRIVVMKDGKIQQIGTPKDVYEHPENVFVGGFIGSPAMNFFKGKLTDGAIQIGSAALGVPEGKMKMLREKGYAGKDVIFGIRPEDIHDELIVVESYKNSSITAKINVAELLGSEIMVYSRIGDQDFIARIDARHDIHAGEELTVAFDMNKAHFFDSETEIRIRS	PGPT0016310_3321	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
D1-12_02256	843			hypothetical protein	ATGAAACGCATGATCATGTGCATGTGCCTTTTGGCTGCCGGGTTTACGCTTGCCGCCTGCTCGGGCCATGAGGCAAGCGCCGAACAAAGCATTCCGAAGGCAGAAGCGCACCACGATAAAAAGTCTGTAAAGCGCCAAATCAAAAAAGAGCCGGATACGTCCGCCTGGGTTCAAACGAAAGGAACGGCAAGACTGCCGATTCTGATGTACCACAGCATTTCTGAGGGAAACAGCCTGCGTGTGCCGAAGGAAGAATTCCGGCAGCATATGAAGTGGCTTCATGATCACGGCTATTATACGATGACTCCTGAAGAGGCCTATCTGATGCTGACGGAGGATAAGGAGCCGCGTGAAAAATGTGTTCTGATCACATTTGATGACGGCTATACCGACAATGTGAAAGCGGCCTATCCCATTTTAAAGAAATACAAGATGAAAGCGACAATCTTTATGATCGGAAACTATATCGGGCATAAGAATCATCTGACTGAGAAGCAGATGAAGGAGATGGCCGCCCACGGCATTTCCATTCAGAGCCATACGATGAACCATCTCGAATTGAACGGGCTCACACCGCAGCAGCAGCGACGTGAAATGAAGGACTCTAAGCGTTTATTTGATCAAATGTTCGGACAGCGGACGTCTATGATCAGCTACCCTGTCGGACGATATAATAAGGAAACATTAAAAGCCGCCGCCGCGACAGGCTACCGTATGGCGGTCACGACGGAGCCGGGAGCGGCGTCAAGAGATCAGGGGCTTTACGGGCTTCACCGCGTCCGTGTGTCGCCGGGCATGTCCGGCGCGGCATTCGGCTCTTATATTCAAAATGTGATGAAATAA	MKRMIMCMCLLAAGFTLAACSGHEASAEQSIPKAEAHHDKKSVKRQIKKEPDTSAWVQTKGTARLPILMYHSISEGNSLRVPKEEFRQHMKWLHDHGYYTMTPEEAYLMLTEDKEPREKCVLITFDDGYTDNVKAAYPILKKYKMKATIFMIGNYIGHKNHLTEKQMKEMAAHGISIQSHTMNHLELNGLTPQQQRREMKDSKRLFDQMFGQRTSMISYPVGRYNKETLKAAAATGYRMAVTTEPGAASRDQGLYGLHRVRVSPGMSGAAFGSYIQNVMK	PGPT0012156_451	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
D1-12_02257	1344	cimH	COG3493	Citrate/malate transporter	ATGGGAGAACTTCAACCAAAATTGCAAACGGATTCAATCCAAAAACAGGAACGGACTGATAACTGGTTTGCCAGAGCAATGAATATAAGAATCGGCATTATTCCTCTTCCTATCTATATCCTGCTTTTCTTGCTTATTACGGTGTTTGTCATGAGCCGTGATGTAAAAAGCGACATTCTGACATCAATTGCCGTCATGAGTTTTTTCGGATTTACCTTCGGCCAGATCGGAAAATCCATTCCGATCGTGCGGTCCATCGGCGGCCCTGCGATTCTCGCAACCTTTATTCCATCCGCTGTCGTCTACTACCACCTGCTTCCGAAAGACATTATTACTTCAACAACAGAATTCACAGAAAGCTCCAACTTTCTCTATCTATTTATTGCCGGTATCGTCGTCGGCAGTATTCTCGGGATGAAAAGAGAGACGCTCGTCAAAGCTTTCGTCAAGATTTTTATTCCGCTGATCGCCGGCTCGATCGCGGCCGCCATCGTCGGCTTATGCGTCGGGACGCTGCTCGGGCTCGGCTTTCAGCACACGCTGCTTTATATTGTCGTTCCGATTATGGCGGGGGGTGTCGGTGAAGGCGCGATTCCTTTATCCATCGGCTACTCCGATATTATGCCGATGTCCCAGGGAGACGCCTTTGCGCTTGTGCTGCCGTCCATCATGCTCGGCAGCCTATGCGCCATTATGTTATCGGGTTTGCTGAATGTCCTCGGGAAACGCAAACCGGAATGGACGGGCAACGGGAAGGTTGATAAGTCTGATCATTCCGCTCCCGCATTGGAACAGCCGGCCAATGATAAAACATTTGATTTGTCCTTTTTCGCTTCGGGCGGTATTTTAGCGGTTTCCCTCTATTTGGTCGGCATGCTGGCGCATGATTTCTTTCAGCTTCCGGCTCCTGTCGTGATGCTCGTCCTTGCCGTTCTCATTAAGCTGTTCAGGCTGGCGCCGGCTTCGATTGAAAACGGAGCCTTCGGCGTCTCGCGCTTTTTCTCGACAGCCGTGACCTATCCGCTCTTATTTGCGATCGGCGTTTCAATGACACCGTGGGACAAGCTGATTGCGGCGTTTACGATCAGCAACATCATTACCATTTTATCAATCGTCGTCACGATGATGGCCGTCGGTTTTCTGACCGGAAAATGGCTGAATCTGTACCCGATTGAGACGGCGATTATTAATGCCTGCCATTCCGGCCAGGGCGGCACCGGCGATGTCGCGATCTTGAGCGCCGCTGAACGGCTTGAGCTTATGCCGTTCGCCCAAGTGTCGACCAGAATCGGCGGAGCGATTACCGTGAGTGTCACCCTTCTGCTGCTTCATCAATTCTATTAA	MGELQPKLQTDSIQKQERTDNWFARAMNIRIGIIPLPIYILLFLLITVFVMSRDVKSDILTSIAVMSFFGFTFGQIGKSIPIVRSIGGPAILATFIPSAVVYYHLLPKDIITSTTEFTESSNFLYLFIAGIVVGSILGMKRETLVKAFVKIFIPLIAGSIAAAIVGLCVGTLLGLGFQHTLLYIVVPIMAGGVGEGAIPLSIGYSDIMPMSQGDAFALVLPSIMLGSLCAIMLSGLLNVLGKRKPEWTGNGKVDKSDHSAPALEQPANDKTFDLSFFASGGILAVSLYLVGMLAHDFFQLPAPVVMLVLAVLIKLFRLAPASIENGAFGVSRFFSTAVTYPLLFAIGVSMTPWDKLIAAFTISNIITILSIVVTMMAVGFLTGKWLNLYPIETAIINACHSGQGGTGDVAILSAAERLELMPFAQVSTRIGGAITVSVTLLLLHQFY	PGPT0001690_199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001690-maeN-K11616	NA	NA
D1-12_02258	1407	cydA	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	ATGAGTGAGTTGGTATTAGCCCGCATTCAATTTGCATCTACAACATTGTTTCACTTCTTGTTTGTGCCTTTGTCTATCGGGCTTGTGTTTATGGTTGCTTTGATGGAGACGCTTTATGTTGTCAAAAAACAAGAGACCTATCTCAAAATGGCTAAATTTTGGGGGCATCTCTTTTTAATTAACTTTGCTGTCGGCGTCGTCACAGGGATTCTTCAGGAATTCCAGTTCGGTCTGAACTGGTCTGATTATTCCCGTTTTGTCGGAGACGTATTTGGAGCTCCGCTTGCGGTTGAAGCGCTTTTGGCGTTTTTTATGGAGTCTATTTTTATCGGATTATGGATTTTCGGCTGGGACCGTTTATCTAAAAAAGTGCATTTGCTTTGCATTTGGCTTGTGTCCTTCGGAACGATTATGTCATCTTTCTGGATTTTGACGGCGAACTCATTCATGCAGGAGCCGGTCGGCTTTGCGATTAAAAACGGCCGCGCGGAAATGAATGATTTCGGGGCGCTTTTGACAAACCCTCAGCTTTGGGTTGAATTCCCTCACGTCATTTTCGGGGCGCTTGCGACGGGTGCTTTCTTTATCGCCGGTGTCAGCGCATTTAAATTATTGAAGAAAAAAGAAGTGCCTTTCTTCCATAAATCTTTCAAGCTTTCGATGATTGTCGGTCTGATCGCCGGTATCGGCGTTGCGTTCAGCGGACATATGCAGGCTGAGCATTTAATGGAATCGCAGCCGATGAAAATGGCCGCCAGTGAAGCGCTATGGGATGACAGCGGTGATCCTGCCGCGTGGACGGCTTTTGCGAATATTGATACGAATAAAGAAAAAAACACATCAGAAATTTCAATTCCTTACGCACTGAGCTACTTGGCTTACCAGAAGTTCAGCGGCAGTGTGAAAGGGATGAAAACACTTCAAAAAGAATACGAAAAAACGTACGGAAAAGGCGACTATATCCCGCCTGTTAAAACGACGTTCTGGAGTTTCCGCATTATGGCGGGAGCGGGCGCGCTTATGATTTTTGCCGCGATTGCCGGCTTTATTCTGAACCGCCGCAAAAAGCTTCATACGAGCAAGTGGTATTTACGGGGCATGATCGCACTGATCGCATTCCCATTCATTGCGAACTCTGCCGGTTGGATTATGACTGAAATCGGCCGCCAGCCGTGGACGGTCATGGGACAATTGACGACCGCACAATCCGTTTCTCCTAACGTAACGACGGGATCTCTGCTGTTTTCAATTATCAGCTTCGGCGTCATGTACTTGATTTTAGGCGCTCTGCTTGTTTTCCTATTCGTTCGTGAAATTAAAAAAGGTGCGGACCATGATGATCATAAGGATGTTCCTGTATCAACGGATCCGTTCAGTCAGGAGGTCTACCATGGGGTCACTTCATGA	MSELVLARIQFASTTLFHFLFVPLSIGLVFMVALMETLYVVKKQETYLKMAKFWGHLFLINFAVGVVTGILQEFQFGLNWSDYSRFVGDVFGAPLAVEALLAFFMESIFIGLWIFGWDRLSKKVHLLCIWLVSFGTIMSSFWILTANSFMQEPVGFAIKNGRAEMNDFGALLTNPQLWVEFPHVIFGALATGAFFIAGVSAFKLLKKKEVPFFHKSFKLSMIVGLIAGIGVAFSGHMQAEHLMESQPMKMAASEALWDDSGDPAAWTAFANIDTNKEKNTSEISIPYALSYLAYQKFSGSVKGMKTLQKEYEKTYGKGDYIPPVKTTFWSFRIMAGAGALMIFAAIAGFILNRRKKLHTSKWYLRGMIALIAFPFIANSAGWIMTEIGRQPWTVMGQLTTAQSVSPNVTTGSLLFSIISFGVMYLILGALLVFLFVREIKKGADHDDHKDVPVSTDPFSQEVYHGVTS	PGPT0026700_3249	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
D1-12_02259	1017	cydB	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGGGGTCACTTCATGATCTTTGGTTTATACTCGTTTCAGTTTTGTTTGTCGGATTTTTCTTTTTAGAGGGTTTTGATTTCGGTGTCGGCATTTCGACCCGATTTCTTGGCCATAATGAATTAGAACGCAGAGTGCTGGTTAACACCATCGGCCCGTTCTGGGATGCGAATGAGGTGTGGCTTATCACAGGTACGGGAGCGATCTTCGCGGCATTCCCGAACTGGTATGCGACGATGCTGAGCGGATATTACATTCCGTTTATCATCATTCTTCTTGCCTTGATGGGGCGCGGCGTGGCATTTGAATTCCGCGGCCAAGTGAATAATCTGAAATGGGTCAAAACATGGGACTGGGTGATTTTCTTCGGCAGCCTTATCCCGCCATTTGTATTCGGACTTATTTTCACAAGCTTGTTCCGCGGTGTGCCGATTGACGGACATATGAACATTCACGCAGGTTTTTCAGATATTGTGAACGTGTATTCCGTTCTTGGCGGAGCAGCCGTCACCCTTCTTTCATTCCTGCACGGTTTAATGTTTATCACCCTGCGCACGATCGGTGATTTACAAGAGCGTGCGAGAAAAATGGCAAAACGCGTAATCGGTGTTATCTTTCTTGTTGTACTTGCTTTCTTTGCGATGTCTGCATACGATACGGATATGTTTACACGCCGGGCAAACATCACGATTCCGGTATTCGTGCTGATTGTCATCTGCAACGTTCTTGCCGTTGTGTTCATGAGCAAGAAAAAAGACGGCTGGGCATTCGGTATGACCGGCGCGGGTCTTGCTTTGACAGTTGCGATGATTTTTATCTCTCTGTTCCCGCGCGTCATGGTCAGCTCGCTGAAAAGCGCGTATGACTTAACAGTAGCTAACGCGTCTTCCGGTGATTATTCACTTAAGGTCATGACAATTGTCGCACTGACTCTGCTGCCGTTTGTTATCGGCAGTCAGATCTGGAGCTATTATGTCTTCCGGAAACGCGTCAGCCATAAGGAGCCTATGACTTATTAA	MGSLHDLWFILVSVLFVGFFFLEGFDFGVGISTRFLGHNELERRVLVNTIGPFWDANEVWLITGTGAIFAAFPNWYATMLSGYYIPFIIILLALMGRGVAFEFRGQVNNLKWVKTWDWVIFFGSLIPPFVFGLIFTSLFRGVPIDGHMNIHAGFSDIVNVYSVLGGAAVTLLSFLHGLMFITLRTIGDLQERARKMAKRVIGVIFLVVLAFFAMSAYDTDMFTRRANITIPVFVLIVICNVLAVVFMSKKKDGWAFGMTGAGLALTVAMIFISLFPRVMVSSLKSAYDLTVANASSGDYSLKVMTIVALTLLPFVIGSQIWSYYVFRKRVSHKEPMTY	PGPT0026705_2775	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
D1-12_02260	1704	cydD	COG4988	ATP-binding/permease protein CydD	ATGGGAAAAGACCTGTTTCTTTATAAAGGAATGAAGCGGATTCTTGCGATCATTACGGGATTAACGATTATACAAACGGCCGCCATCATCTTGCAGGCGGAATGGCTGAGCCAGGCGGTAACCGGATTATTTAACGGGAAGCGGATTGCTTCTCTTTATCCGGTTATCGGCTTTTTCCTGCTTGCGTTTTTGGTCCGGCATGCGGTGACAACGGTCCGGCAGAAAATCGTGTACCAATATGCCGCGCAAACCGGCGCAGACTTAAGAAAAAGATTTCTTGAGCAATTGTTCCGTCTCGGCCCCCGCTTTGCGAAAAAAGAGGGGACGGGCCGGATGGTGACGCTGGCGATGGAAGGCATCAGCCAGTTCCGCCGTTATTTAGAGCTGTTTCTGCCGAAAATGGTCAGCATGGCGATTGTACCGGCGGCCGTTGTTATTTACGTGTTTTTTCAGGATAAAACATCGGCATTGATTCTGATTCTTGCGCTTCCGGTTTTGATTGTATTTATGATTCTGCTCGGACTTGTCGCACAGAAAAAAGCCGATCGCCAATGGAAGTCCTATCAGACGCTTTCCAATCATTTCGTGGATTCGCTTCGCGGACTGGAGACATTGCGGTTTTTAGGATTAAGCAAATCACACAGTAAAAACATCTTTCATGTCAGTGAGAGATACCGTAAGGCGACGATGAGCACGCTCCGGGTCGCGTTTTTATCATCATTCGCCCTGGATTTCTTTACGATGCTGTCGGTGGCGACAGTGGCGGTGTTTCTCGGCTTGCGGCTGATAGACGGACAAATTCTGCTCGGGCCGGCACTGACCGCGCTCATTCTCGCGCCTGAATATTTTCTCCCGGTCCGCGAAGTGGGAAATGATTACCACGCGACGTTAAACGGGCAGGAGGCGGGGAAAACCATTCAAACGATTTTGGCGCAGCCCGGTTTTAAAGAAGAAAAGCCGCTCGAACTTGATACGTGGACTGACGGGGATGAATTACAGCTTACGCGTTTGTCCGTCCGAGAATCGATGTCTGAATTTCATCTGTCCTTTAAAGGGAAGAAGAAAATCGGAATTATCGGGGAAAGCGGTTCGGGAAAATCGACACTCATTGATGTGCTGGGCGGCTTTTTAGAGCCTGCGTCCGGTGAGATCAAGGTAAACGGTGAATCCCGCTCGCATCTGCAGTCGGACGGCTGGCAGAAGCAGCTGCTTTATATTCCGCAGCATCCGTACATTTTTGATGACACGCTTTTGAATAATATCCGGTTTTATCATCCTGATGCTTCCCGTGAGGAAACGGCGCGCGCCGCTGATTCAGCGGGTCTTTCCGGACTGATCCGTGATCTGCCCGGCGGCCTTGACGGCCGGATCGGCGAGGGCGGACGGGCGCTTAGCGGAGGGCAGGCTCAGCGTGTCGCGCTGGCCAGAGCCTTTTTAGGAAACCGGCCGATTCTCCTTTTGGATGAGCCGACCGCTCACCTTGATATTGAAACAGAATATGAAATAAAAGAAACGATGAAAGACCTGTTTGAAAACAAACTTGTTTTTCTGGCCACTCACCGTCTTCACTGGATGCTTGAGATGGACGAAATTATCGTGCTTGATGACGGCGCGGTGGCGGAAATCGGCACCCACGACGAATTGATGGCGAAACAAGGCGTATACGCCAAACTTGTAAAGGTGCAACTGGGGGAAAGAACATGA	MGKDLFLYKGMKRILAIITGLTIIQTAAIILQAEWLSQAVTGLFNGKRIASLYPVIGFFLLAFLVRHAVTTVRQKIVYQYAAQTGADLRKRFLEQLFRLGPRFAKKEGTGRMVTLAMEGISQFRRYLELFLPKMVSMAIVPAAVVIYVFFQDKTSALILILALPVLIVFMILLGLVAQKKADRQWKSYQTLSNHFVDSLRGLETLRFLGLSKSHSKNIFHVSERYRKATMSTLRVAFLSSFALDFFTMLSVATVAVFLGLRLIDGQILLGPALTALILAPEYFLPVREVGNDYHATLNGQEAGKTIQTILAQPGFKEEKPLELDTWTDGDELQLTRLSVRESMSEFHLSFKGKKKIGIIGESGSGKSTLIDVLGGFLEPASGEIKVNGESRSHLQSDGWQKQLLYIPQHPYIFDDTLLNNIRFYHPDASREETARAADSAGLSGLIRDLPGGLDGRIGEGGRALSGGQAQRVALARAFLGNRPILLLDEPTAHLDIETEYEIKETMKDLFENKLVFLATHRLHWMLEMDEIIVLDDGAVAEIGTHDELMAKQGVYAKLVKVQLGERT				NA	NA	NA	NA	NA
D1-12_02261	1731		COG1132	putative ABC transporter ATP-binding/permease protein	ATGAGAAAAGAAGAATGGATTCTGCCGTATATGAAGCAAAATGCCCGTTTGTTTGTTCTTGTGATTTTTTTAGGCGCGGTGACGATTTTTTCGGCGGCCTTTCTCATGTTCACTTCCGGTTTTTTGATCTCTAAGTCGGCGACAAGGCCTGAGAATATCCTGCTGGTGTACGTTCCGATTGTGGCCGTGCGCACCTTCGGGATTGCCCGTTCAGTCTCACGGTACGCCGAGCGTCTGACGGGGCACCATATCATTTTGAAAATCGTGTCCGACATGAGGGTGCGGCTTTACAATATGCTGGAGCCGGCCTCGCTCATGCTTTCATCCCGTTTTCGGACGGGCGACATGCTCGGCATTTTGGCTGAGGATATTGAGCATTTGCAGGATGCGTTTTTAAAAACGATTTTCCCGGCGGTTTCCGCTTTGCTGCTGTATGCGGCCTCCGTTATCGGACTCGGCTTTTTTTCCTGGCCGTTTGCCGCTTTTGCGGCGATTTACCTGTTTATATTGGTTGTATTGTTTCCGGTTGTGTCGCTTCTTGTGACGAGAGCGAAAAACATGAGGCTGAAAAGCGGCCGGAATATGCTCTACAGCCGGCTGACAGATGCCGTGCTCGGCGTGAGCGACTGGATGTTTTCGGGACGCCAGGCGGCCTTTATTTCCTCTTATGAAGAGAAAGAGAAGGCATGGTTTGACCTTGAAAGCAAACGTCAGCGGTTTACAAGATGGCGTGATCTCGCCGCGCAATGTCTTGTCGGCGGCTTCATATTGATCATGCTGTTCTGGACGGCGGGTCAGTATGCGGACGGCAGCATCGCCAACACGATGATCGCGGCCTTTGTGCTTGTCGTATTTCCATTGACGGAGGCGTTTCTGCCCCTTTCGGATGCGCTGACGGAAGTGCCTTCTTATCAGGATTCCATCAAAAGAATGAGTAAGGCGGCTCCGGAGCTGCGAAGTCGTGAGGTGAAGCAGACGGATGAGAAACTGGATGTATCTGATGTGACACTTACATTTGATAACGTGACGTTTTCTTATGATCAGCACAGTCATGTGCTTGACCGTTTTTCCTTCACTCTCCGCCAAGGTGAAAAAATGGCGTTGCTCGGCAGGAGCGGTTCCGGTAAGTCGACCTCTCTCGCTTTAATTGAAGGCGCCTTAGTTCCCGATTCGGGCAAAGTGATGCTGAACGGGCTGGAAACTGCGGCCGTGCAGGAGCAGATTTCCTCAGCGGTGGCCGTTTTGAATCAGAAACCTCATCTCTTTAACACGAGCATTATGAACAATATCCGGCTCGGAAACGGCAAGGCGAGTGATGAAGATGTTAAGCGTGCGGCGCGGCAAGTGAAGCTGCATGATTATATTGAATCACTGCCTGACGGATATGAAACGTCCGTGCAGGAGACGGGGATTCGTTTCTCAGGCGGGGAACGGCAGCGGATCGCGCTTGCCCGTATTCTGCTCCAAGACACGCCGGTCATTATCCTTGATGAACCGACGGTCGGCCTTGATGCGGTCACTGAACGCGAATTGCTTGATACGATTTTTGATGTCTTTAAAGAGAAAACGATCCTCTGGATTACACACCATTTAGCGGGTGTGGAAACAGCTGATAAAATCGTCTTTTTAGAAAATGGAAAAGCAGAAATGGAAGGAACCCATCAAGAGCTGCTTGCAGAAAACGAACGGTACCGGAAGCTTTACCGTCTTGATGTTCCGATCAGAACATAA	MRKEEWILPYMKQNARLFVLVIFLGAVTIFSAAFLMFTSGFLISKSATRPENILLVYVPIVAVRTFGIARSVSRYAERLTGHHIILKIVSDMRVRLYNMLEPASLMLSSRFRTGDMLGILAEDIEHLQDAFLKTIFPAVSALLLYAASVIGLGFFSWPFAAFAAIYLFILVVLFPVVSLLVTRAKNMRLKSGRNMLYSRLTDAVLGVSDWMFSGRQAAFISSYEEKEKAWFDLESKRQRFTRWRDLAAQCLVGGFILIMLFWTAGQYADGSIANTMIAAFVLVVFPLTEAFLPLSDALTEVPSYQDSIKRMSKAAPELRSREVKQTDEKLDVSDVTLTFDNVTFSYDQHSHVLDRFSFTLRQGEKMALLGRSGSGKSTSLALIEGALVPDSGKVMLNGLETAAVQEQISSAVAVLNQKPHLFNTSIMNNIRLGNGKASDEDVKRAARQVKLHDYIESLPDGYETSVQETGIRFSGGERQRIALARILLQDTPVIILDEPTVGLDAVTERELLDTIFDVFKEKTILWITHHLAGVETADKIVFLENGKAEMEGTHQELLAENERYRKLYRLDVPIRT				NA	NA	NA	NA	NA
D1-12_02262	831	nnrD	COG0063	ADP-dependent (S)-NAD(P)H-hydrate dehydratase	ATGAATATAATGGATTGGACGGAACAGGATGTGAAAGATACGCTGCCGAAACGGGAGGCAGACAGCCATAAAGGAACGTTCGGGACGGCGTTATTGCTGGCCGGGAGCGATGACATGCCGGGAGCCGCCCTTCTGGCCGGATTGGGCGCGATGAGAAGCGGTGTCGGCAAGCTCGTCATCGGTACATCGGCAGGCGTCATTCCGCTCATCGTCCCGGTGCTGCCGGAAGCGACGTACTGGCGTGACGGCTGGAAAAAAGCCGCGGCGTGCCAGCCCGGGGAAACCATCCGGGCCGCTGCCATCGGGCCGGGCCTTCCTCAAACAGACGAAGTGCAGCAGGCGGCTGATCAGCTGCTTTCTGCCGATTATCCCGTCATACTGGACGCGGGCGCCATTACGAAAAGAACCTATCCAAAGAGGAAAGCCCCCGTGATCTTGACGCCTCATCCCGGCGAATTTTCCAGAATGACAGGCCTTTCGATTCAAGAGATTCAGCAGAACAGAGCGGGATATGCCGCGGAATGGGCGGAGCGGCTTCATGCCACGATTGTCCTGAAAGGAAACGAAACCATTATCGCTTTTCCCGACGGGGAATGCCGCAGGAATACAACCGGAAACGGCGCGCTTGCAAAAGGCGGGACCGGCGACACGCTGACGGGAATGATTCTCGGCATGCTGTGCTGTCATCAAGACCCGAAACATGCCGTATTGAACGCCGTCCGCCTTCACGGCGAATGTGCGGAATTATGGACGAAAGAGCGCTCCGCCCATACCTTATTGGCGCACGAACTTTCTGAACTGCTGCCGCGTGTATGGAAGGAATATGAATAA	MNIMDWTEQDVKDTLPKREADSHKGTFGTALLLAGSDDMPGAALLAGLGAMRSGVGKLVIGTSAGVIPLIVPVLPEATYWRDGWKKAAACQPGETIRAAAIGPGLPQTDEVQQAADQLLSADYPVILDAGAITKRTYPKRKAPVILTPHPGEFSRMTGLSIQEIQQNRAGYAAEWAERLHATIVLKGNETIIAFPDGECRRNTTGNGALAKGGTGDTLTGMILGMLCCHQDPKHAVLNAVRLHGECAELWTKERSAHTLLAHELSELLPRVWKEYE				NA	NA	NA	NA	NA
D1-12_02263	1359			hypothetical protein	TTGAAAGTAGAAAGGCGAACGATTGAACATATTCCGCATGACGAAAGACACGGAAAGGCTAAAGATTTATTCCCCGTCTGGTTCGGGGCTAATATGCATATTACGACGTTAGTCACAGGCACACTGCCCGTTACAATGGGACTCGATCTCTTTTGGAGTATCGCCGCCATTATTATCGGGACCTTTATCGGCGCAATCTTTATGGCGTCTCATTCCGCACAAGGACCTCAGCTCGGAATTCCGCAAATGATTCAAAGCCGCGCGCAATTCGGCGTGATCGGAGCGATTCTGCCCCTCTTTTTGGTCATGTTTATCTACCTGGGCTTCTTTGCGAGCAGTACGATTCTCGCAGCCGGTACATTGAGCAGCTTTGTACCGATTCCGGCTTCATGGTGTATTATCGGCTTAAGCGCCATCTGTTTTTTACTCACGATCTACGGTCATGATCTGATTCACAAAATGCAGAAAATCCTCTCTTGGACCTCCTTTGCCGTTTTTTTTGCTGCAACGATTCTTATTTTTCAACTGCCGATTCCTTCAGGAAGCTGGGTGCCCGGCTCATTAGACCTGCCTGTTTTTCTAGTGGCGGTCAGCGCGGTGGCCACATGGCAGCTGGCATATGCGCCATATGTCGCAGATTATTCCCGTTATCTGCCGGTCAAAACACCGGCATCGCATACCTTTTGGTACAGCTACGCAGGTACGTCAGTCAGTTCCATCTGGATGATGCTTCTCGGCGCCATTTTGACGACGGCGCTCCCGGAATTTACCGCTAATGCGGGAAATGAGATTGTCCGATTGTTCGGTCCGTTTTCCTTTATTATGCTGATCATCGTCCTGTTCGGACAAATGGCGATCAACGTCTTTAATTTATACGGAGCCTTTATGTCAACCACGACTACTTTGGAGCCGTTTTTAAAACTGAAGGTGACGCCGAAAACGCGAGTGGTAATGATCCTTTGTGTGACGGCAGCGGGTACTGTATTAAGTCTCTTGGGCCAAAGCAATTTCATGGAACTGTTTTTAAATTTCATCTTTTTCATCAGTTATTTCTTAATTCCATGGACGGCGATCAACCTCGTGGATTACTATTTTATCCGACGCGGAAAATACCACGTCAAATCGATGTTTGACGTCAACGGGCAATACGGCAGGGTCAATTGGATTACAGCGGCCGCCTTCGTTTTGTCGATTATATTAGAAATCCCGTTCATCAATACATCCTTTTACATCGGGCCGCTCGCTGAAATATTCGGCGGAGGCGACATTGCCTGGGTCATCGGCCTGGCCGTTCCGTCGCTGCTGTATTATGTCCTGATGAAATCAAGGGTAAAACAAAAAGAGGCGCCTTCCCTATGA	MKVERRTIEHIPHDERHGKAKDLFPVWFGANMHITTLVTGTLPVTMGLDLFWSIAAIIIGTFIGAIFMASHSAQGPQLGIPQMIQSRAQFGVIGAILPLFLVMFIYLGFFASSTILAAGTLSSFVPIPASWCIIGLSAICFLLTIYGHDLIHKMQKILSWTSFAVFFAATILIFQLPIPSGSWVPGSLDLPVFLVAVSAVATWQLAYAPYVADYSRYLPVKTPASHTFWYSYAGTSVSSIWMMLLGAILTTALPEFTANAGNEIVRLFGPFSFIMLIIVLFGQMAINVFNLYGAFMSTTTTLEPFLKLKVTPKTRVVMILCVTAAGTVLSLLGQSNFMELFLNFIFFISYFLIPWTAINLVDYYFIRRGKYHVKSMFDVNGQYGRVNWITAAAFVLSIILEIPFINTSFYIGPLAEIFGGGDIAWVIGLAVPSLLYYVLMKSRVKQKEAPSL	PGPT0009075_3277	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
D1-12_02264	987	yxeI	COG3049	putative protein YxeI	ATGTGTACAAGTCTTACATTGAAAACGACAGACGGTAATCACCTATTGGCGCGAACGATGGATTTTGCATTTCAGCTCGGTACGGACGTCGTGCTTTACCCTCGTCAGTACAGCTGGAAAAGCGAAGCTGACGGCAGGATGCATAAGACGAAATACGCATTTATCGGCATGGGGAGAAATCTCGGCAATGTTCTGTTTGCCGACGGCGTAAATGAAAAGGGGCTGTCGTGTGCGACGCTGTATTTTCCGGGCTTTGCGGGATACGAGAAAGCGGAACGGGAGGGCACCTGTCACATCGCTCCTCATGAGTTTGTCACCTGGGCCTTATCAAACTGTGAATCTCTTGGAGACATAAAGGAAAAGCTCTCAATGCTGACGATTGTAGAGAAGAAGTTAATGTTATTGGATACGGTGCTGCCTCTTCATTGGATTTTATCAGACCGCACGGGCGGCTGCATTGTCATCGAGCCGACACCGGAGGGAATGAAAGTATATGACAACAAACCCGGAGTGATGACCAACAGTCCGGAATTTCCTTGGCATGTGACCAATCTGCGCCATTATATCGGAATCAGGCCGCAGCAGTCAGAAAGCAAAACATTGGGCGGAATGACATTAACCGCTTTCGGCCAAGGATCTGGAACGATCGGGCTTCCCGGTGATTACACGCCGCCATCCCGATTCATCAGAGCTGCTTATCTGAAAGAGCATTTAGAGCCTGCCGCTCATGAAACGGATGGCGTTACAGCCGCTTTTCACGTGCTGTCCAATGTGAATATTCCAAAAGGCGCGGTGATCACAGAGGAGAATGAAATTGATTATACGCAGTATACGTCGGTCATGTGCTGTGACAGCGGTAACTACTACTTTCATCTGTACGACAACCGGCAGATTCACAAAGTAAGTTTATTCCATGAAGATCTTGAACGTCCGGAGCCGAAAGTATTTGCGGCCGCGGCGGAGCAGAATATACAGGAGCTGAATTAG	MCTSLTLKTTDGNHLLARTMDFAFQLGTDVVLYPRQYSWKSEADGRMHKTKYAFIGMGRNLGNVLFADGVNEKGLSCATLYFPGFAGYEKAEREGTCHIAPHEFVTWALSNCESLGDIKEKLSMLTIVEKKLMLLDTVLPLHWILSDRTGGCIVIEPTPEGMKVYDNKPGVMTNSPEFPWHVTNLRHYIGIRPQQSESKTLGGMTLTAFGQGSGTIGLPGDYTPPSRFIRAAYLKEHLEPAAHETDGVTAAFHVLSNVNIPKGAVITEENEIDYTQYTSVMCCDSGNYYFHLYDNRQIHKVSLFHEDLERPEPKVFAAAAEQNIQELN	PGPT0028080_148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028080-yxeI-K24041	NA	NA
D1-12_02265	1614	katA_2	COG0753	Catalase	ATGGAAAATAACAAAAACAGCGAAGAAACGCTTTCCAGTAAGACGACCGGTAAAGGCGAGTCAGAAGACACGCTGACAAACCGGCAGGGCCATCCGGTCACTGACAACCAGAATGTCAGGACAGTCGGCAATAGAGGACCGACGACATTGGAGAATTATGATTTTTTGGAGAAAATCAGCCACTTTGACCGCGAACGGATTCCCGAGCGCGTCGTTCACGCGCGCGGCGCCGGCGCACACGGATACTTTGAGGCGTACGGAAGTTTTGGAGACGAGGAGATTTCTAAATACACAAGAGCGAAAGTGTTTCAAAAGAAAGGAACGAAAACTCCGGCGTTTGTGCGGTTTTCTACCGTCAACCACGGAAAGCATTCCCCGGAAACATTGCGTGATCCCCGGGGTTTTGCCGTTAAGCTTTATACCGAAGACGGCAACTGGGATCTGGTCGGCAACAACCTGAAAATCTTTTTTATCCGTGATCCGCTGAAGTTCCCGGATCTTGTGCACGCATTTCAGCCTGATCCCGTTACGAACATTCAGGACGGCGAGCGTATTTTCGACTTCATTTCCCAATCACCCGAAGCGACTCATATGATCACTTTCTTGTTTTCGCCGTGGGGCATCCCGGCCAACTACCGGCAGATGCAGGGCTCGGGCGTCCATGCCTACAAATGGGTCAATGAAGAAGGAAAAGCCGTGCTCGTCAAATATCACTTTGAACCGAAACAAGGCATCCGTAACCTGACACAGAAGGAAGCGGAAGAGATTCAGGGGAAAAACTTTAACCATGCGACACAGGATTTGTATGAAGCGATTGAAAAAGGCGATTACCCTGAATGGGAAGTGTATGCGCAAATCATGACTGATGACGAACACCCCGAGCTGGATTTTGATCCGCTTGATCCGACCAAGCTGTGGTATAAAGACGATTTCCCTTGGAAGCCGATCGGTAAATTGGTTCTGAACAAAAACCCGGAAAACTACCATGCCGAGGTGGAACAGGCCTCATTCGGAACGGGCGTGCTTGTGGACGGCCTTGATTTTTCAGATGACAAATTACTTCAGGGGCGGACATTCGCCTATTCAGATACCCAGCGGTACCGCGTCGGCGCAAATTACCTGCAGCTTCCGATCAACTCGCCGAAAAAGCATGTCGCCACCAACCAGGAAGGCGGGCAAATGCAGTATCGGGTCGATCGGGCAGAAGGACAAAACCCGCACGTCAACTATGAGCCGTCCATTATGGGAGGACTCAACGAAGCAAAGCAGGATGGGAAAGACCATACACCTCATGTCGAAGGCGATGTGAAGCGGGAAGCGATCGACCGGTCGAATAATTTCGGCCAAGCCGGAGAAACATACCGCAGATTTTCGGAATTTGAACGGAACGAATTGATCACAAACTTGGTCAATACGCTTTCTTCCTGCCGGAAAGACATTCAGGATCAAATGATTGAGAATTTCACAAAAGCAGATCCGGACTACGGAAAACGTGTTGCGGAAGGGCTGAAAAAAGCCTCCGAAAGCAACAGCAACGGGCCGATCGGCACTACTGATACGGAACAGGCTGCAAAGCAGGCTGAACAGGAAAGCCATCCGTCTGATCCGTATTAA	MENNKNSEETLSSKTTGKGESEDTLTNRQGHPVTDNQNVRTVGNRGPTTLENYDFLEKISHFDRERIPERVVHARGAGAHGYFEAYGSFGDEEISKYTRAKVFQKKGTKTPAFVRFSTVNHGKHSPETLRDPRGFAVKLYTEDGNWDLVGNNLKIFFIRDPLKFPDLVHAFQPDPVTNIQDGERIFDFISQSPEATHMITFLFSPWGIPANYRQMQGSGVHAYKWVNEEGKAVLVKYHFEPKQGIRNLTQKEAEEIQGKNFNHATQDLYEAIEKGDYPEWEVYAQIMTDDEHPELDFDPLDPTKLWYKDDFPWKPIGKLVLNKNPENYHAEVEQASFGTGVLVDGLDFSDDKLLQGRTFAYSDTQRYRVGANYLQLPINSPKKHVATNQEGGQMQYRVDRAEGQNPHVNYEPSIMGGLNEAKQDGKDHTPHVEGDVKREAIDRSNNFGQAGETYRRFSEFERNELITNLVNTLSSCRKDIQDQMIENFTKADPDYGKRVAEGLKKASESNSNGPIGTTDTEQAAKQAEQESHPSDPY	PGPT0014380_2026	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-12_02266	1083	gmuG	COG4124	Mannan endo-1,4-beta-mannosidase	ATGCTCAAAAAGTTAGCAGTCTGCCTGTCTATCGTTTTATTACTCTTAGGAGCCGCCAGTCCGATATCGGCTCACACCGTTTATCCCGTCAACCCAAATGCCCAGCAGACGACAAAAGATATCATGAACTGGCTGGCGCACCTGCCCAACCGTTCAGAAAACAGGGTCATGTCCGGTGCGTTCGGCGGGTACAGCGATGTCACTTTTTCAATGACAGAGGAAAACCGCTTGAAAAACGCGACGGGACAGTCTCCCGCCATCTACGGCTGTGACTATGGGAGAGGATGGCTGGAAACAGCGGATATCACCGATTCTATCGATTACAGCTGCAACAGCAGCTTGATCTCATACTGGAAAAGCGGCGGCCTCCCTCAGGTCAGCCTGCATCTCGCAAATCCGGCTTTTCCATCCGGAAACTATAAAACGGCCATCTCAAACAGCCAGTACAAAAACATCCTGGACCCTTCAACTGTTGAAGGAAAACGGCTTGAGGCGCTGCTCAGCAAAATCGCCGACGGCCTTACTCAGCTGAAAAATCAAGGCGTCGCCGTTCTGTTCAGGCCGCTTCACGAAATGAACGGCGAGTGGTTCTGGTGGGGGCTGACAGGCTACAACCAAAAAGACACGAAAAGAATCTCGCTGTACAAAGAGCTTTACAAGAAGATATACCGCTATATGACAGAGACAAGAGGATTGGATAACCTTTTGTGGGTGTATTCGCCGGATGCCAACAGAGACTTTAAAACAGACTTCTACCCAGGCTCATCTTATGTGGATATTACCGGTCTGGACGCTTACTTCACTGATCCGTATGCGATATCAGGCTATGATGAAATGCTGTCTCTGAAAAAACCGTTTGCCTTTGCCGAAACCGGTCCGTCCGGCAATATCGGAAGCTTTGATTATGCTGCTTTTATCAATGCGATCAGGCAAAAGTATCCCGAGACCACGTACTTTTTGACATGGGATGAACAATTAAGTCCGGCGGCCAATCAAGGCGCGCAAAGCCTTTATCAAAACAGCTGGACACTGAACAAGGGCGAAATATGGAACGGCGGATCTTTGACGCCGATCGCGGAATAA	MLKKLAVCLSIVLLLLGAASPISAHTVYPVNPNAQQTTKDIMNWLAHLPNRSENRVMSGAFGGYSDVTFSMTEENRLKNATGQSPAIYGCDYGRGWLETADITDSIDYSCNSSLISYWKSGGLPQVSLHLANPAFPSGNYKTAISNSQYKNILDPSTVEGKRLEALLSKIADGLTQLKNQGVAVLFRPLHEMNGEWFWWGLTGYNQKDTKRISLYKELYKKIYRYMTETRGLDNLLWVYSPDANRDFKTDFYPGSSYVDITGLDAYFTDPYAISGYDEMLSLKKPFAFAETGPSGNIGSFDYAAFINAIRQKYPETTYFLTWDEQLSPAANQGAQSLYQNSWTLNKGEIWNGGSLTPIAE	PGPT0018725_741	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018725-manA-K01218	NA	NA
D1-12_02267	945	gmuF	COG1482	putative mannose-6-phosphate isomerase GmuF	ATGACGAAACTCTTATTTTTGGAACCGGTTTTTAAAGAAAGATTATGGGGCGGGACGAAGCTGCGCGATACATTCGGGTATGAGTTTCCTTCTGAGCGGACGGGAGAGTGCTGGGCGATTTCAGCTCATCCGCACGGCACATCCATCGTGCGGAACGGGCCTTTTTCCGGAACATCATTACACCGTCTCTGGAATGAACACCCTGACCTGTTCGGACATCCGAAAGAAGAAGCCTTTCCCCTGCTCACAAAAATTCTCGACGCAAATATGGACTTATCCGTACAGGTTCATCCGGATGACGCATATGCACATCGGCATGAAAACGGAGAACTCGGAAAAACGGAATGCTGGTACGTGTTGGACTGCAAAAAAGACGCGGAGCTCATTTTAGGGCACCGCGCCCAAACGAGAGAAGACTTCGTTCGGCTCATTGAACGAAACGAGTGGGATCACCTGCTCCGCCGCATCCCCATTAAGCCCGGCGACTTTTTCTATGTCCCGAGCGGCACACTGCACGCTTTATGTGAAGGTACGCTCGTTCTTGAAATCCAGCAAAGCTCTGATGCCACCTACCGGCTTTACGACTATGACCGGACGGATGGGAACGGGAATAAACGCGAGCTTCATCTTCAGAAAGCAATTGACGTAACAAGCATTCCGCATACCGATGAAAATGTAAAAAGCACAAAGCATCGGATCGGAGATGCTCTTATTACAACACTTGCCGAAACACCTTTCTTTTCAGTTTATCAATGGGATGTGAGCGGGAAAGCATCATTCCCCGCACCCGGCCGGTATTTACTCGCAAGCGTCATTAAAGGACGCGGAGAACTGGATGGATGCCCCATTCACAAAGGCGATCACTTTATCGTGCCGGCGGATTCCGGAGATTTTGTTATAGAAGGAGATTGTGAGGTTATCGTTTCACATCCTTCATCATCCTAA	MTKLLFLEPVFKERLWGGTKLRDTFGYEFPSERTGECWAISAHPHGTSIVRNGPFSGTSLHRLWNEHPDLFGHPKEEAFPLLTKILDANMDLSVQVHPDDAYAHRHENGELGKTECWYVLDCKKDAELILGHRAQTREDFVRLIERNEWDHLLRRIPIKPGDFFYVPSGTLHALCEGTLVLEIQQSSDATYRLYDYDRTDGNGNKRELHLQKAIDVTSIPHTDENVKSTKHRIGDALITTLAETPFFSVYQWDVSGKASFPAPGRYLLASVIKGRGELDGCPIHKGDHFIVPADSGDFVIEGDCEVIVSHPSSS	PGPT0017860_3087	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
D1-12_02268	882	gmuE	COG1940	Putative fructokinase	ATGCTTGGAGGTATTGAAGCCGGCGGCACGAAATTTGTCTGTGCCGCCGGACAAAGAGACGGCACCATTCTGGACAGAGCAGAGTTTCCGACGGGAGAACCGGATGACACACTCAGACAGGTCATCCGTTACTTTAAAGATTTCCCGATAGAAGCCATCGGCATCGGGTCGTTCGGGCCGATTAATATCCGTCCCGACAGTCAAACATACGGGTGCATCACCGCGACGCCGAAGACAGCCTGGCGGAACTGCCCTATTCTTCAAACGATCAAAAGCGCTCTTGATATTCCCGCAGGCTTCACCACCGACGTTAATGCGGCGGCGCTTGGAGAAGCTTCTTTCGGCGCGGCCAAAAACGCGGACAGCTGCCTCTATTTGACGGTCGGCACAGGCATCGGCGCGGGCGCCATTATGAACGGCAGATTTGTTCAAGGGCTGTCTCATCCTGAAATGGGCCACATTTATGTCAGAAGACATCCGGACGACGGCTACAAAGGCAATTGCCCGTACCATACAGATTGTCTGGAAGGCCTCGCGGCAGGCCCCGCCATTGAGAAACGCTGGGGGAAAAAAGCAGTTCTGCTCACGGATCAGCAGGAAGTGTGGGAGCTTGAGGGCTATTATATTGCCGAAGCGCTTGTGCAGTATATTCTCATTCTTTCGCCGGAAAAGATCATCCTCGGCGGGGGCGTCATGAAGCAGCGGCAGCTGTTCTCTTCTATCCGTCAGCACGTGAAAAAGCGGCTGAATCAATATATTGATCTGCCCGACATTGAAAACCGCATCGTCCCCCCTCAATTAGGCATTCACTCCGGCGCGGCCGGTTCGCTCGTATTGGCGGAGCGCGCATTAAAGGCGGCAAACCGGGAGGCGGAAAAATGA	MLGGIEAGGTKFVCAAGQRDGTILDRAEFPTGEPDDTLRQVIRYFKDFPIEAIGIGSFGPINIRPDSQTYGCITATPKTAWRNCPILQTIKSALDIPAGFTTDVNAAALGEASFGAAKNADSCLYLTVGTGIGAGAIMNGRFVQGLSHPEMGHIYVRRHPDDGYKGNCPYHTDCLEGLAAGPAIEKRWGKKAVLLTDQQEVWELEGYYIAEALVQYILILSPEKIILGGGVMKQRQLFSSIRQHVKKRLNQYIDLPDIENRIVPPQLGIHSGAAGSLVLAERALKAANREAEK	PGPT0017625_4742	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
D1-12_02269	1401	gmuD	COG2723	6-phospho-beta-glucosidase GmuD	TTGACTGAATCAAATATTCAATATCGTTTTCCGGAAGGATTCTGGTGGGGGTCTTCCGCCTCCGCCACCCAAACAGAAGGCGCCGCTGACAGAGACGGAAAAAGCCAAAACATATGGGATTACTGGTATGAAAAAGAGCCGAGCCGTTTTTTTAACGGCGTCGGCCCCGGCGACACGTCATGTTTTTACGATCAATACAAGGAGGATATCCGGCTGATGAAAGAAATCGGCCATAACTCCTTCCGGCTGTCTATTTCCTGGTCAAGATTGATTCCGGACGGAACTGGCGAGGTCAATCAGAAAGCGGTCGCGTTTTATCAGGACGTCATCGATGAAATGCTTGCCCATCACATTGAGCCGTTTGTCAATTTGTTTCACTTTGACATGCCGCTCGCCCTTCAGCGTAAGGGGGGCTGGGTCAGCCGGAACACCGTTGACGCGTTTGAACATTACGCCAAAACATGCTTTTCGCTATTCGGTGACAAGGTGAAAAAATGGTTCACTCACAACGAGCCGATTGTGCCGATTGAAGGCGGCTACTTATACGACTTTCACTACCCGAATCACGTTAATTTTCAAGAAGCGGTGCAGGCCGGCTTCCATACCCTGCTGTCGAATGCAAGGGCTGTCAAAGCCTACAGAGAATTGAAACAGGACGGACAAATCGGAATCATTCTGAATCTGACGCCTTCTTATCCGAGAAGCTCACATCCTGAAGATCTGAAAGCGTCCCGGATTGCCGACGCCTTTTTCAACCGCTCATTTTTAGATCCCGCCGTAAAGGGCGAATTTCCTGAGGAGCTTGTCGAGATTCTCAAGGCGGAAGGCTTTCTGCCGCATTATGAGAAAGAAGATCTCCGCCTCATTCAGGAGCATACGGTTGACCTCTTAGGCGTGAACTACTACCAGCCGAGGCGCGTCAAGGCAAAAGAACATGTTCCGAATCCGCATGCCCCTTTCCTGCCCGAGCGTTTCTTCGATCCGTATGTCATGCCCGGCCGGAAAATGAACCCTCACCGCGGGTGGGAAATTTACGAAAAAGGAATCTACGACATTCTCACAAATCTCAGAGAACATTACGGAAATATCGAGTGTTTTATTTCTGAGAACGGCATGGGAGTAGAAGGCGAGGAACGCTTCCGCGATGAAAACGGCATCATTCAGGATGATTACAGGATTGAATTTATCCAGGAACATCTGAAATGGGTGCATCGGGCCATCGGAGAAGGTTCAAATGTAAAAGGCTATCACCTGTGGACTTTCATGGACAACTGGTCTTGGACAAATGCTTATAAAAACCGCTACGGCTTTGTATCTGTCAATCTGGAAAACGGGGGCGAACGGACCGTCAAAAAAAGCGGCCGCTGGTTCAAATCCGTTTCCGATCAAAACGGATTTTAA	MTESNIQYRFPEGFWWGSSASATQTEGAADRDGKSQNIWDYWYEKEPSRFFNGVGPGDTSCFYDQYKEDIRLMKEIGHNSFRLSISWSRLIPDGTGEVNQKAVAFYQDVIDEMLAHHIEPFVNLFHFDMPLALQRKGGWVSRNTVDAFEHYAKTCFSLFGDKVKKWFTHNEPIVPIEGGYLYDFHYPNHVNFQEAVQAGFHTLLSNARAVKAYRELKQDGQIGIILNLTPSYPRSSHPEDLKASRIADAFFNRSFLDPAVKGEFPEELVEILKAEGFLPHYEKEDLRLIQEHTVDLLGVNYYQPRRVKAKEHVPNPHAPFLPERFFDPYVMPGRKMNPHRGWEIYEKGIYDILTNLREHYGNIECFISENGMGVEGEERFRDENGIIQDDYRIEFIQEHLKWVHRAIGEGSNVKGYHLWTFMDNWSWTNAYKNRYGFVSVNLENGGERTVKKSGRWFKSVSDQNGF	PGPT0019255_3422	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
D1-12_02270	1320	gmuC	COG1455	PTS system oligo-beta-mannoside-specific EIIC component	GTGTTTGAGAAAATCAGCCAATTCCTTGTTCCGATCGCGGGCAAATTAAACAATAACCGCTACTTGCAAGTCTTACGGGATGCTTTTATGCTGGCGTTTCCGCTGACCATTTTCGGTTCGGTGTTCGTCGTGCTGACGAACCTGCCGTTTTTAAACAAAATCATGAGCAGCTCCGCACTGTCTGTCTTTCAATCCGGATTTGGCGGCGCTTCGACGGCGACGATGGGGATCATGTCCATTTTTGTCGTCTTCGGGATCGGCTATTACCTTTCCAAAAGCTACGATGTGGAGGCCGTATTCGGCGGAGCGATCGCATTGGTTTCTTTTCTGCTGCTCACCCCGTTCGTTTTAGAGCCGGAAACGGGCAAAGCGGTCGCAGGCGTCATTCCGGTTGACCGGCTTGGAGCAAAAGGAATGTTTCTCGGCATGATTACCGCTTTTTTGTCAGGTGAAATCTACAGAAGAATCGTCCAGAGAAACTTAACGATTAAGATGCCTGCCGGTGTTCCTCCGGCTGTTGCTAAATCGTTCGCCGCATTGATTCCGGCTTTTATCACGCTTACCGTCTTCCTCTTGATCAATGCGGCTGTCACCCAGATCTTTCACACCAATCTGCATGATGTCATTTATCATACGGTTCAAGCCCCGCTTGTCGGACTTGGAAGCGGCATCATTCCTACATTAATCGCTGTTTTCTTTATTCAGATTTTATGGTTTTTCGGACTTCACGGACAAATCATTATCAATTCCGTGATGGACCCGATTTGGAATACATTACAGGTCGAAAATTTGGCTGCGTATACAGCGGGAAAAGAGATTCCCCATATTATTTCTAAGCCGTTTATGGAGATTTACACCGTCGGAATGGGCGGAACCGGAATGACATTGGCCATAGTGATCGCCATCTTGCTTTTTATGAAAAGCAAACAGATGAAACAGATATCCAAACTCGGTCTCGCGCCGGGCATTTTCAACGTCAATGAGCCGGTTATTTTCGGTTTGCCGATCGTGATGAACCCGATCATTATCATTCCGTGGGTCATCGCACCGATGGTTGTCACCCTTGTCACCTACCTGGCCATGTCGGCGGGGATCGTGCCCCCTCCTACCGGCGTGACCGTGCCTTGGACCGTCCCCCTTTTCATTAACGGGATTATGGCGACCAATTCCGTCATGGGCGGCATTATGCAGCTGGTCAACCTCTGTATTGTGTTTGTCATCTGGTTCCCGTTTCTTAAAGCGCTGGACAAATTAAACATGGCAAAGGAAAAAGAAGCTGAGACCGAGCAGCATGCCCGGGATGACAGCATGAGTATGTAA	MFEKISQFLVPIAGKLNNNRYLQVLRDAFMLAFPLTIFGSVFVVLTNLPFLNKIMSSSALSVFQSGFGGASTATMGIMSIFVVFGIGYYLSKSYDVEAVFGGAIALVSFLLLTPFVLEPETGKAVAGVIPVDRLGAKGMFLGMITAFLSGEIYRRIVQRNLTIKMPAGVPPAVAKSFAALIPAFITLTVFLLINAAVTQIFHTNLHDVIYHTVQAPLVGLGSGIIPTLIAVFFIQILWFFGLHGQIIINSVMDPIWNTLQVENLAAYTAGKEIPHIISKPFMEIYTVGMGGTGMTLAIVIAILLFMKSKQMKQISKLGLAPGIFNVNEPVIFGLPIVMNPIIIIPWVIAPMVVTLVTYLAMSAGIVPPPTGVTVPWTVPLFINGIMATNSVMGGIMQLVNLCIVFVIWFPFLKALDKLNMAKEKEAETEQHARDDSMSM	PGPT0016970_1771	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016970-celB|chbC-K02761	NA	NA
D1-12_02271	318	gmuA	COG1447	PTS system oligo-beta-mannoside-specific EIIA component	ATGGAAACGTACACGGATGAACAGATCAGTTTTCAGCTGATTCTTCACAGCGGCAATGCCCGCAGCTGTATTATTCAATCGATACGCGCTTATAAAGACGGCCGGCCAGATGAGTCAGACACCTTTCTGACAAAGGCTGAAGAAGAACTGGGGAAAGCGCACGACATCCATTTTCAGATGATTCAAAAAGAAGCCGGCGGCGCCAAGACAGATGTCTCTCTGCTTTTTATGCATGCCGAAGACCACTTAATGTCAGCGCTCTCAATGAAAGAGCTCGTCAAAGAAATGCTCGACTTATTTCAATCAAAGAATTTATAA	METYTDEQISFQLILHSGNARSCIIQSIRAYKDGRPDESDTFLTKAEEELGKAHDIHFQMIQKEAGGAKTDVSLLFMHAEDHLMSALSMKELVKEMLDLFQSKNL	PGPT0016980_1107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016980-celC|chbA-K02759	NA	NA
D1-12_02272	312	gmuB	COG1440	PTS system oligo-beta-mannoside-specific EIIB component	ATGAAAAGAATTTTATTAGCCTGCAGCTCAGGCATGTCCACCAGCCTTCTTGTTACGAAAATGCAGAATTACGCCCGCTCCATCGGTGAGGAAGCCGAGATTTGGGCAGTCGGACAGGATAAAGCAAAAGAAGCGATGAAAGATGCAGACGTCGTACTGATCGGCCCGCAGATGAGTTTTTTAAAAGGTGAGCTTCAGAAAGAGGCGGACCCGCTTCACATCACCGTTGATGTGATTGACATGATGGCTTACGGCATGGGAGACGGCAAAAAAGCATACGAACAGGCCGTTGCCTTGATTGAGAACAAATAA	MKRILLACSSGMSTSLLVTKMQNYARSIGEEAEIWAVGQDKAKEAMKDADVVLIGPQMSFLKGELQKEADPLHITVDVIDMMAYGMGDGKKAYEQAVALIENK	PGPT0016975_1003	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016975-celA|chbB-K02760	NA	NA
D1-12_02273	1299	arsB_1	COG1055	Arsenical pump membrane protein	TTGGGAGTTGCGGTTTTATCAGCGCTGATTTTTGTGCTGACACTTGTGTTTGTCATATGGCAGCCGAAACATGTATCAATCGGCTGGTCTGCCTGCGGCGGAGCGGTCCTCGCTTTGATCGCCGGAGCAGTCAGCCTGCACGATATCGCGGAAGTGACGGGAATCGTCTGGAATGCGACACTTGCCTTTATCGCCATTATTATCATTTCATTGATTCTTGACAGTATCGGTTTTTTTGAGTGGGCCGCGCTGCATATGGCCATGGCGGCCAAAGGCAGCGGGCTGCGGATGTTTCTCTATGTGTCGGTCTTAGGAGCTGTTGTCTCCGCCCTGTTTGCCAATGACGGAGCGGCGCTCATTTTGACGCCGATCGTACTGGCGATGGTGCGGGCTTTGAATTTATCTGAAAAGCTGGTTTTTCCGTTTATTATCGCCGGAGGATTCATCGCCGACACCACCTCGCTTCCGCTCGTTGTAAGCAATTTGGTCAATATTGTATCCGCGGATTACTTTCATATCGGGTACATTGAATATGCATCACGCATGCTGGTGCCCAACCTTTTTTCTCTGGCGGCAAGCATTTTGGTGCTGTATCTCTATTTCAGAAAAAACATTCCGAAACGGTATGACACCGGTCTTGTGAAACATCCGGCATCCGCGATTAAGGATGAACGCCTTTTCCGGTTATCGTGGGCTGTGCTGGCCGTTTTATTGATCGGATATTTCGTCAGCGAACTGCTGTCGATACCCGTTTCCTTCGTTGCCGGCTCCATCGCGGTCATTTTTCTCATTCTGGCGCAGCGAAGCCCCGCCGTCCCTGCGAAACAAGTCATCAAGGACGCCCCGTGGGCCATCGTGTTTTTTTCTGTCGGCATGTATGTTGTCGTGTACGGCTTGCGGAATGCCGGACTGACGGATTTTCTTTCTCAGCTTATTCAGAAAGCGGGGGATCACGGACTGTTTGCGGGCACACTCGGAATGGGGTTTATCGCTGCGATCCTGTCCTCCGTTATGAATAACCTGCCGACGGTGATGATTGACGCCATAGCCATCAGCGGAACGGACACTCACGGGCTGATGAGAGAAGCATTGATTTACGCGAATGTTATCGGTTCGGACCTTGGGCCGAACATCACGCCGATCGGATCGCTGGCGACATTGTTATGGCTCCACGTGCTGAGCCGGAAAAACGTGAAAATTTCCTGGGGAATGTATTTCAAGACAGGTCTGATATTAACCATTCCGACGTTATTCATCACCCTGATCGGACTTTATTTATGGCTGTTATGGCTCGCTTGA	MGVAVLSALIFVLTLVFVIWQPKHVSIGWSACGGAVLALIAGAVSLHDIAEVTGIVWNATLAFIAIIIISLILDSIGFFEWAALHMAMAAKGSGLRMFLYVSVLGAVVSALFANDGAALILTPIVLAMVRALNLSEKLVFPFIIAGGFIADTTSLPLVVSNLVNIVSADYFHIGYIEYASRMLVPNLFSLAASILVLYLYFRKNIPKRYDTGLVKHPASAIKDERLFRLSWAVLAVLLIGYFVSELLSIPVSFVAGSIAVIFLILAQRSPAVPAKQVIKDAPWAIVFFSVGMYVVVYGLRNAGLTDFLSQLIQKAGDHGLFAGTLGMGFIAAILSSVMNNLPTVMIDAIAISGTDTHGLMREALIYANVIGSDLGPNITPIGSLATLLWLHVLSRKNVKISWGMYFKTGLILTIPTLFITLIGLYLWLLWLA	PGPT0004710_339	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893	NA	NA
D1-12_02274	351	aseR	COG0640	HTH-type transcriptional repressor AseR	ATGGAACGGCGGCATCATGCTTTAAGTTCCGAAGGGATCAGCCAGTGCCTCAAGATTCTAAGCGACCCGACGAGGCTTTTGATGCTGAAGCTTCTGGAGGATAAGGAATATTGTGTCTGCGAGCTGACGGCTATTTTTGATATAAGTCAGCCCGGCATCAGCCAGCACTTGCGGAAATTAAAGAACGCCGGCCTTGTGCGGGAAAGACGCGAGGGCCAGTGGCGGTACTATGCCATTCATCCGTCCGGTCCGGAATACGCGCTGGTTTGCTCGATTCTGCAGCAGATAGATGAAAAGGACGAAGTTTTACAGACATTGCGGCAAAAAGAAGTCACTGTTACATGCCGGTAA	MERRHHALSSEGISQCLKILSDPTRLLMLKLLEDKEYCVCELTAIFDISQPGISQHLRKLKNAGLVRERREGQWRYYAIHPSGPEYALVCSILQQIDEKDEVLQTLRQKEVTVTCR	PGPT0004735_1925	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
D1-12_02275	897	yfiY	COG0614	putative siderophore-binding lipoprotein YfiY	ATGAAAAAAATAATTGCGCTCATCAGTTTCATGTGTATTTTCTTACTGGCTGCCTGCCAATCCGATTCATCACAGCCGGAGTCAAAAAAGAAATCCGGCGATCATAAAATCGCTTCGATGTCTATTCACCTGACAAATGATCTGCTGGCTCTCGGCGTTACACCTGCCGGTTCCGTCGTGGGCGGAGAATTAAAGGATTTTCTCCCTCATGTGAAAAATCAGCTGAAAGACACGAAAAAACTCGGACCTGCCTCAGATCCGGATATGGAAGCTTTACTTGAGCTGAACCCTGACAACATTTATCTTGATAAAGAATTTGCGGGAAAAGATGTGTCAAAATACAAGAAAATCGGAAACACACACGTTTTCGACCTTGATAAAGGCACTTGGCGCGATCATTTAAAAGACATCGGAAAAATCGTCAACCGTGAAAAAGAAGCGAAAACATTTATTCAAGATTACGAAGATGAAACAAAACAAGTCAGATCCATGATGAATAAGGAATTAGGGAAAAACGCCAAAGTCATGGCGATCCGCGTGAACGCAAAAGAACTTCGCGTCTTCAGCACACGCCGCCCGATGGGACCGATTCTGTTTGACGATCTGAAGCTGAAACCGGCTGACGGCATTAAAGAAATGAACACCTCCCGCCCTTATGAAGTCATTTCTCAAGAAGTGCTGCCTGATTACAACGCAGATGCGATTTTCGTCGTCGTTAACAGAGACGACAAGTCACAGCAAGCCTATAAAGAATTGCAAAAAAGCGCTGTATGGAAAGGGCTGAAGGCCGTGAAAGCAAACCACGTCTATAAAATTGCCGATCAGCCTTGGCTTGATTATTCAGCACTGGGAAATAAATTAGCAATGGATGAAGCGAAAAAACTGTTCCAAAAATAA	MKKIIALISFMCIFLLAACQSDSSQPESKKKSGDHKIASMSIHLTNDLLALGVTPAGSVVGGELKDFLPHVKNQLKDTKKLGPASDPDMEALLELNPDNIYLDKEFAGKDVSKYKKIGNTHVFDLDKGTWRDHLKDIGKIVNREKEAKTFIQDYEDETKQVRSMMNKELGKNAKVMAIRVNAKELRVFSTRRPMGPILFDDLKLKPADGIKEMNTSRPYEVISQEVLPDYNADAIFVVVNRDDKSQQAYKELQKSAVWKGLKAVKANHVYKIADQPWLDYSALGNKLAMDEAKKLFQK	PGPT0003765_10307	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
D1-12_02276	1014	feuC_1	COG0609	Iron-uptake system permease protein FeuC	ATGAAAGTACAGAAAGAAACAAAAAAAGCGGCGGCGGCAGGACTCATTCTGCTGGTCATCGCCGTTTGCATGATTCTGATCGGGCTGCATACGGGCTCATTCCGGCTTTCTCCTCTCACCGTGGGAAAAACGCTGTTCGGATACGGCACGTTTCAAAGCACAACCGTTTTATTCGATTACCGGCTTCCCCGGATTCTGGTGACGATGCTGGCCGGCATCGGTTTAGGAGTGTCGGGCGCTATTTTGCAGGGTGTATCCCGAAATCCGCTTGCCGATCCGGGCATTCTCGGACTGCATGCCGGCGCTTCCTTCGGTTTGATGATGTATATCACATTCTTTCATTCCTTGGAGGCGCAAGCGTCGATGTTCATCCCGCTGTTTACGTTTGCGGGCGGAACACTCGCCGCCCTGCTGATCGTAGTGCTTACGTACGACAGACTGAACGGTTTTTTAACGATCCGCATGCTGTTAGTCGGGATCGCCGTTTCCGCGGGCTTCAGCGCCGTTACATTGTTTATGTCGCTGCGCCTGAATGAAGAAACTTATACATTCGCTTCCCGCTGGCTGGTGGGAAACGTCTGGGGCAGGGATTGGATTCATGTATGGTCTCTATTGCCCTGGATCGGCATTCTCGCACCGCTTGCATGGCTGAACGCCCGCTCTTTGAACATTTTAATGCTCGGTGACCAGGCAGCCGCGGGGCTCGGCGCACACGTGCAGAGAAAAAGGATCATGCTGATCGCCATAGCGGTCGGCTTGTCCTGCGCGAGCGTCGCGATGGCCGGCGGAATCGGCTTTATCGGCTTTGCCGCCCCTCACTTGGCAAGACGGCTCGTCGGCACCATGCATCAGCATATTATTCCGATTGCGGGATTAATCGGACTTGTCATTCTTGTCGCGGCAGACACCATCGGCCGGTCTTTGTTTCAGCCGAACGCCATTCCGGCCGGCGTGGTTGCGGCAGCCATCGGCGCGCCGTATTTTCTCTATCTCGTCATGAAAATCAAATCATAA	MKVQKETKKAAAAGLILLVIAVCMILIGLHTGSFRLSPLTVGKTLFGYGTFQSTTVLFDYRLPRILVTMLAGIGLGVSGAILQGVSRNPLADPGILGLHAGASFGLMMYITFFHSLEAQASMFIPLFTFAGGTLAALLIVVLTYDRLNGFLTIRMLLVGIAVSAGFSAVTLFMSLRLNEETYTFASRWLVGNVWGRDWIHVWSLLPWIGILAPLAWLNARSLNILMLGDQAAAGLGAHVQRKRIMLIAIAVGLSCASVAMAGGIGFIGFAAPHLARRLVGTMHQHIIPIAGLIGLVILVAADTIGRSLFQPNAIPAGVVAAAIGAPYFLYLVMKIKS	PGPT0003770_6718	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
D1-12_02277	1029	feuB_1	COG0609	Iron-uptake system permease protein FeuB	TTGAGCGATTCTGTCACGTCCGCAAACCGTCTGATCAGCATCTTAAAAAACGGGGTTTTCTTCCTGATCGCGGTGATCGGGCTGCTTGTATCTATTTTTTTCGCTGTCTCATTCGGCGCGAAAGACATTACTTTACATACGGTTTGGTCGGCTGTTGCTGATTATAATCCGAACATAACGGGCCAGCAGATCATTCATGAATTGCGTCTTCCGAGGGTGCTCGGGGCGGCCGTTACAGGAGCCGCTTTTGCTGCAGCCGGCGCCCTCATGCAGGGTGTCACGAGAAACCCGCTTGCCGATTCGGGTGTCTTAGGCGTAAACGCGGGCGCCATGTTTGTTGTTGCGCTCAGCTTTGCTTTTTTCCCTCATTTGTCATACGCCCTGCTGATGGTGATGTCATTTTTGGGAGCACTGGCAAGCACCGGCTTGATTTTCTTTATCAGTGCGGCGGGAAAAGGCAGCATGACACCTTTAAAGGTGACGCTTGCCGGGGCGGTCGTGGCCGCTCTTTTACATTCACTCAGTACCGGTGTGGCGATTTATTACGATTTAAGCCAGGATTTGGCCTTCTGGTACGCCGGCGGGGTGTCAGGGATCAAGTGGGCTCATTTACAAGTCCTTGTTCCCGTGATTGCGGTCTTCATCATTCTCGCGACATTCATGGGCCGGTCCGTCACCCTTCTCTCAATGGGAAATGACGTGGCGGCGAATTTAGGGGTGAACACGGCTCTGACGCGTGCCGCCGGATTAATGATCGCCGTCGTTCTTGCCGGTGTGTCTGTTTCCGCTGCGGGCGCGATCGGCTTCGTCGGGCTGGTCATTCCCCATATCGCGCGAAAGATCGTCGGCGTTACGTACAGGCTGATTATTCCGATGTCCGCGTTACTCGGCGCGATTCTATTGATTTTGGCCGACCTGGCCTCGCGCACGGTCAGTCCCCCGAGGGAATTGGCGATAGGCATTATGGTCGCACTTGTCGGTGTCCCTTTCTTTCTTTATATTGCCCGCAAGGAAGGGAGAGACTTATAA	MSDSVTSANRLISILKNGVFFLIAVIGLLVSIFFAVSFGAKDITLHTVWSAVADYNPNITGQQIIHELRLPRVLGAAVTGAAFAAAGALMQGVTRNPLADSGVLGVNAGAMFVVALSFAFFPHLSYALLMVMSFLGALASTGLIFFISAAGKGSMTPLKVTLAGAVVAALLHSLSTGVAIYYDLSQDLAFWYAGGVSGIKWAHLQVLVPVIAVFIILATFMGRSVTLLSMGNDVAANLGVNTALTRAAGLMIAVVLAGVSVSAAGAIGFVGLVIPHIARKIVGVTYRLIIPMSALLGAILLILADLASRTVSPPRELAIGIMVALVGVPFFLYIARKEGRDL	PGPT0003770_5335	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
D1-12_02278	591			Putative 3-methyladenine DNA glycosylase	ATGGCGGGAGAACGAAAGCCTTTGCCGATTGAATTTTACCAGAGACCGTCAGTGGAGCTTGCCCCTTTATTGCTCGGCTGTCTCTTGGTGAAGGAGACGGACGAGGGAACGGCTTCAGGTTTTATCGTGGAAACGGAAGCTTATATGGGAGCGGATGACCGGGCGGCGCACAGCTTCGGCAACCGGCGCACGAAACGGACGGAAATTATGTTCCATGAGGCGGGCCGCATTTATACATACGTCATGCACACTCATACATTAATGAACGTCGTCGCCGCGGACATCGGCATTCCGCAGGCCGTGTTAATCAGGGCGGCGGAGCCTCATGAAGGACAGTTCCTGATGGAGAGCAGGAGACCGGGCAGACCCCCGAGAGAGCGGACAAACGGCCCGGGAAAACTGACGAAGGCGATGGGCATTTCAATGAACGACTACGGCGGCATGATCACGGAACCGCCGCTGTATATTACGGAGGGCTTTACGCCCGAGCATATATCAACAGGCCCGAGAATCGGGATTGACAACAGCGGAGAAGCCCGGGATTATCCGTGGCGCTATTGGGTGACGGGGAACCGGTATGTCTCACGCTGA	MAGERKPLPIEFYQRPSVELAPLLLGCLLVKETDEGTASGFIVETEAYMGADDRAAHSFGNRRTKRTEIMFHEAGRIYTYVMHTHTLMNVVAADIGIPQAVLIRAAEPHEGQFLMESRRPGRPPRERTNGPGKLTKAMGISMNDYGGMITEPPLYITEGFTPEHISTGPRIGIDNSGEARDYPWRYWVTGNRYVSR	PGPT0014885_1869	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
D1-12_02279	123			hypothetical protein	ATGCGGCAATCCGATGCCAGGCCCGTAAAAAAACAGCCGGATCAGCCGGCTGTTCGGGATGCGGACATGCGGTTCCGCTTAGATGCCTTCCGTTCTTTTATGATTTTTCTGATGATCGGATAG	MRQSDARPVKKQPDQPAVRDADMRFRLDAFRSFMIFLMIG				NA	NA	NA	NA	NA
D1-12_02280	1956	licR	COG1762	putative licABCH operon regulator	ATGCTTCATGGGCGGCTTCGTGAACTTCTGCGCTTGCTTTTAGCTGCTGAAACACCGGTTACAAGCTCAGTCATCGCTGCAAATGTAAAGGTAACGACGCGGACGGTCCGCAATGACATAAAGGAACTGCAAACCATTGTAGAAAAACACGGCGCATCCATTCAATCTGTCAGAGGGAGCGGCTATAAGCTGATGATCCGGAATGAGCAGCCGTTTAAAAACTGGCTTCAGGACAATTTCCAGCAGAACAGCACCGTGCCGATTTTTCCCGGTGAACGGTTAGATTACCTTATGAAAAGAATGCTTCTGGCCGACGGCTACCTCAAGCTGGATGACTTGGCGGAAGAACTGTTCATCAGTAAATCCACACTTCAATCTGATTTAAAAGAAGTCAAAAAACGGCTCCGCCCCTATGACATCATTTTGGAAACAAGGCCGAACTACGGCTTTAAGCTGCGCGGCGAAGAGCTCCGCCTCCGTTATTGTATGGCGGAATACTTAGTGGACGACCGCGAGCCTGAGCCTGATCTCCTGAGTGAAAAGGCCGGTATTCTGCCGAAAGACGACATTCACGTGATCCGCACAGCCATTATGAAGCAGGTTCGAAACCATAAGATCCCGCTTTCTTTCTTCGGCCTGAACAATCTCATCATCCATATCGCCATTGCCTGCAAACGAATCCGGACAGAAAACTATGTATCTCTCATCCCGGAAGATCTTCATGATATTAAGCTTGAAACAGAATATCAGTCAGCGGAAGCCATCGTAAAAGAGCTTGAATCGGCGCTTTCGGTCACCTTTCCCGAACAGGAAACCGCCTATATCGCCATTCACCTGCTCGGGACAAAGCGCATGACCCAGTCACAACTGGAAGGAAAAGAGCTTACAAGGCTGATAGACGGGGAAACCAGCCGTTTGACGGAGGCCATGATTGAAGCCATTGAGCGGGAGCTGAAGCTCGGAATCACGGACGACAATGAGCTGAAAGCGGGTCTTGCGCTCCACATCAAGCCGGCGATTAACCGAAACCGGTACGGAATGAACCTGAGAAACCCGATGCTCTCCGCCATAAAGGAAAATTATCCGCTCGCATTTGAAGCGGGAGTGATTGCGGGAATCGTGATCAAGGAGCAAACCGGCATTGATATTCATGAGAATGAGATCGGATACTTGGCGCTTCATTTCGGAGCCGCCATCGAAAGGAGAAAGACGGAACGGCCGCCTAAGCGCTGTCTGATTGTCTGTGCGTCCGGCGCCGGCAGCGCGCAGCTTTTGAGAGAAAAGCTCCGTTCCCGGTTCGCAAAGCGTCTTGAAATCGTCGGAACGGCTGATTACTGCAGCCTTGACCAGCTTTCCTTTGAGTCGATTGATTTTGTGGTCAGCACAGTGCCGATCAAAAAAGACCTGCCCGTTCCCGTGTTGAAGGTTCATACGCTGTTGGGCGGCGGGGATTTTACAAAAATCGACGCCATGCTGGAAGAAAAGCGGGAACAATTGAACTTTCTGAAACCGGAGCTGGTATTTTTGCAGCAGGATCTGGAGACGAAGGAGGACGTCATCCGTTTTCTCGGACAGCAGGTTGCAGAAGCCGGCCTCGCTTCTGATTCTCTGACCGATTCTATTTTTGAAAGGGAAGCGATTTCTCCTACGAGTTTCGGCAATCTTACGGCGATTCCGCACCCGCTCGTTCCGCAGACAGACACGACGTTTTGGGCGGTATGCACGCTGAAGAAACCGATTGACTGGGCGGATAAGCGTGTCCAATTTGTCTGCCTGCTCTGCGTCGAGAAAGAAAGCAAAGCCGACCTCCAGCATATGTACAAATGGCTCGGCGGCATGTTAGATGATCCGGCCGCGGTAAGCCGTCTCTTAAAATGCACAACCTATCAGGAGGTTTTACGAGTATTCAGAGACAAACGATCAGAGAAAGACCGGGATATACCTTTTTTCCGTTAG	MLHGRLRELLRLLLAAETPVTSSVIAANVKVTTRTVRNDIKELQTIVEKHGASIQSVRGSGYKLMIRNEQPFKNWLQDNFQQNSTVPIFPGERLDYLMKRMLLADGYLKLDDLAEELFISKSTLQSDLKEVKKRLRPYDIILETRPNYGFKLRGEELRLRYCMAEYLVDDREPEPDLLSEKAGILPKDDIHVIRTAIMKQVRNHKIPLSFFGLNNLIIHIAIACKRIRTENYVSLIPEDLHDIKLETEYQSAEAIVKELESALSVTFPEQETAYIAIHLLGTKRMTQSQLEGKELTRLIDGETSRLTEAMIEAIERELKLGITDDNELKAGLALHIKPAINRNRYGMNLRNPMLSAIKENYPLAFEAGVIAGIVIKEQTGIDIHENEIGYLALHFGAAIERRKTERPPKRCLIVCASGAGSAQLLREKLRSRFAKRLEIVGTADYCSLDQLSFESIDFVVSTVPIKKDLPVPVLKVHTLLGGGDFTKIDAMLEEKREQLNFLKPELVFLQQDLETKEDVIRFLGQQVAEAGLASDSLTDSIFEREAISPTSFGNLTAIPHPLVPQTDTTFWAVCTLKKPIDWADKRVQFVCLLCVEKESKADLQHMYKWLGGMLDDPAAVSRLLKCTTYQEVLRVFRDKRSEKDRDIPFFR	PGPT0019430_168	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019430-licR-K03491	NA	NA
D1-12_02281	309	licB	COG1440	Lichenan-specific phosphotransferase enzyme IIB component	ATGAATATATTACTCGTTTGTGCAGCAGGGATGTCAACAAGCTTACTCGTCACCAAGATGGAAAAAAGCGCGCAGGAACAAGGAAAAGAATATAAAATCTGGGCGGTGTCAGGCGATTCAGTCAACCAGCATATTGATAAAGCGGACGTATTGCTGCTTGGGCCTCAAGTCCGTTATTTGCTTCCGCAGCTGAAAAAATTAGGTGAATCAAAAGGAGTGCCGGTTGAAGTTATCAATACCGTCCATTACGGCACTTGCAACGGAGCGGAGGTTCTGAAATCAGCAGAACAGCTCGGAAACGCATCGTAG	MNILLVCAAGMSTSLLVTKMEKSAQEQGKEYKIWAVSGDSVNQHIDKADVLLLGPQVRYLLPQLKKLGESKGVPVEVINTVHYGTCNGAEVLKSAEQLGNAS	PGPT0016975_1154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016975-celA|chbB-K02760	NA	NA
D1-12_02282	1359	licC_1	COG1455	Lichenan permease IIC component	GTGAATAAGGTGAACCAGTTTTTAGAAGAGAAAGTCATGCCCATTGCCGGAAAAATTGCCTCCCAGCGGCATCTGCAAGCATTGCGTGACGGGATCATCCTCACCATGCCGCTTATCATCATCGGTTCGTTTTTTCTGATCATCGGCAACCTGCCGATTCCGGGATATGCGGATTTCATGGCAAAGACGTTCGGAAGCGCTTGGTCTCAAAAACTGCAATATCCGGTTGATGCGACCTTTGAAATCATGGGTCTTGTCGCCGCTTTCGGAATCGCCTACCGCCTGGCCGAAAAATACGGGGTGGACGCATTATCGGCCGGTGCGATATCTTTGGCGGCGTTTCTCTTGGCAACGCCGTACAAAGTTCCGTTTCTGCCTTCCGGCGCCAAAGAGGAAATCATGGTGGGCGGCGGCATCCCGCTGTCTCTCATGGGAAGCAAAGGGCTGTTTGTCGCGATGATCATCGCCATGCTGTCGACGGAAATTTACCGCTTGATCATCCAGCGGAATTTCGTCTTCAAAATGCCGGACGGCGTGCCTCCGGCGGTCAGCAAATCGTTTGTCGCCTTAATTCCCGGCTTTGCCGTCATCTTTCTGATCTGGGGTGCGCGTTTAATTGTCGAAGCGACGCCGTTTGAAAGCCTTCATAACATTGTAAGCGTTGTACTGGGGACGCCGCTCTCGATTCTTGGGGGAAGTCTCGGCGGAAGCCTGATAGCCGAAGCGGTTCAAATGCTCTTGTGGGCGTGCGGATTACACGGGGCGAACATAGTCGGCGGCGTCATGGCGCCGATCTGGTTCGGAGCGATGGATGCCAACCGGATTGCGTTTCAGGCGGGCGATGCGCTTCCGAATATTTTCACCCAGCAGTTTTTTGAAATCTGGATCAACATCGGCGGAAGCGGCGCGACACTGGCGCTCGTGGTCACCATGTTTCTCCGTTCGCGAAGCAAGCAGATGAAGCAGCTTGGGAAACTCGCCATCGGGCCGGCCGTCTTTAATATTAATGAGCCGATTATTTTCGGAATGCCGATCGTCATGAACCCGATGCTTCTCATTCCGTTCATTATCACACCGCTTGTCACACTGGTCCTTACCTATATCGGCATGAGCACCGGCCTCGTCGCCAAACCTGCCGGCATTGCCGTCCCATGGACGATGCCGCCGATTTTCTCCGGCTATCTTGCCACGGGCGGAAAAATATCAGGGGCTGTCATGCAGGCGATTAACATCATCACAGCCTTTATCGTGTACTATCCGTTCTTCAGAATGTGGGATTCGCAAAAGCTGAAAGAAGAAAACGAACTTGAACAATCGCAGGCGCCAGCCGTACAGGGAGACGAAAAAGCCGTGCTGTAG	MNKVNQFLEEKVMPIAGKIASQRHLQALRDGIILTMPLIIIGSFFLIIGNLPIPGYADFMAKTFGSAWSQKLQYPVDATFEIMGLVAAFGIAYRLAEKYGVDALSAGAISLAAFLLATPYKVPFLPSGAKEEIMVGGGIPLSLMGSKGLFVAMIIAMLSTEIYRLIIQRNFVFKMPDGVPPAVSKSFVALIPGFAVIFLIWGARLIVEATPFESLHNIVSVVLGTPLSILGGSLGGSLIAEAVQMLLWACGLHGANIVGGVMAPIWFGAMDANRIAFQAGDALPNIFTQQFFEIWINIGGSGATLALVVTMFLRSRSKQMKQLGKLAIGPAVFNINEPIIFGMPIVMNPMLLIPFIITPLVTLVLTYIGMSTGLVAKPAGIAVPWTMPPIFSGYLATGGKISGAVMQAINIITAFIVYYPFFRMWDSQKLKEENELEQSQAPAVQGDEKAVL	PGPT0016970_440	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016970-celB|chbC-K02761	NA	NA
D1-12_02283	333	licA	COG1447	Lichenan-specific phosphotransferase enzyme IIA component	ATGAATGAAAAAATGGAACAGACCATTTTTCAGATCATCCTGCATGGCGGCAACGGCAGAAGTGCATCAATGGAAGCCATTGCCGCCGCAAAGCGGGGGGACAGAGCCATGGCGGAGGAAAAGCTTCAGGAAGCCGCAAGGGAACTGACCGAAGCTCATCATTACCAGACAGAATTGATCCAAAATGAAGCCGGCGGAGAAAAAACAGACATGACGCTTTTGATGGTGCATGCGCAAGATCATTTAATGAATGCCATGACCGTGAAAGACTTGGCCGCTGAGTTAGTCGAGATTTACGAAAAAGTGAGTCTGCAAGGGGGAGCAAAAATATGA	MNEKMEQTIFQIILHGGNGRSASMEAIAAAKRGDRAMAEEKLQEAARELTEAHHYQTELIQNEAGGEKTDMTLLMVHAQDHLMNAMTVKDLAAELVEIYEKVSLQGGAKI	PGPT0016980_368	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016980-celC|chbA-K02759	NA	NA
D1-12_02284	1329	licH	COG1486	putative 6-phospho-beta-glucosidase	ATGACAAAAGGAATTAAAATTGTAACGATCGGCGGAGGTTCAAGCTATACACCGGAGCTTGTGGAAGGCATCATTAAGCGCTATGAGGAACTGCCTGTCAGAGAATTATGGCTCGTCGACATTCCTGAAGGCGAGAAAAAACTCAATATCGTCGGCACGCTTGCAAAACGCATGGTCGAAAAAGCGGGTGTTCCGATAGAGATTCACCTGACGCTTGACCGGAGAGAAGCCTTGAAGGATGCGGATTTCGTAACGACTCAATTCCGCGTCGGCCTTCTTGAGGCCCGCGCCAAAGACGAACGGATTCCGTTAAAATACGGCGTAATCGGCCAGGAAACAAACGGTCCGGGCGGTTTATTCAAAGGGCTGCGCACCATCCCGGTTATTCTGGAAATCGCGAAAGACATCGAAGAGCTTTGTCCGAATGCATGGCTCGTGAATTTCACAAACCCTGCCGGCATGGTTACCGAGGCCTTGCTCCGCTACTCGAATCTCACAAAAGTCGTCGGTCTCTGCAATGTGCCGATCGGCATTAAAATGGGCGTCGCAAAAGCATTGGATGTGGATGTCAGCCGGATCGAAGTGCAATTTGCCGGGCTGAATCACATGGTCTTCGGATTAGATGTTTTCTTAGACGGCGTCAGCGTGAAAGATCAAGTCATTGAAGCCATGGGAGACCCGGAAAACGCCATGACGATGAAGAATATTTCAGGGGCGGAATGGGAACCTGAATTCCTGAAGGCGCTCGATCTGATTCCTTGCGGCTACCACCGCTATTATTTCAAAACGAAAGAAATGCTCGAGCATGAAATAGAAGCGTCACAGACGGAGGGCACACGCGCCGAGGTCGTGCAGAAGGTTGAGAAAGAACTGTTCGAACTGTACAAAGATCCGAATCTCGCCATCAAACCGCCGCAGCTTGAAAAACGGGGCGGAGCGTACTACAGTGACGCGGCCTGCAACCTGATCAGCTCCATCTATAATGACAAACATGATATCCAGCCCGTCAATACGATAAACAACGGCGCGATCGCCAGCATTCCGAATGACTCAGCGGTCGAAGTGAACTGTGTCATGACGAAAGACGGTCCGAAACCGATCGCCGTCGGTGATCTGCCGGTGTCTGTCCGCGGACTCGTCCAGCAAATCAAATCATTTGAGCGCGTCGCCGCTGAAGCAGCCGTCACGGGAGATTATCAAACGGCGCTACTTGCGATGACGATCAACCCTCTCGTCCCGTCAGACTCCGTGGCAAAGGCCATTCTGGATGAAATGCTTGAGGCCCACAAAGAACATCTGCCTCATTTCTTTAAGTCGATTGAAGCATAA	MTKGIKIVTIGGGSSYTPELVEGIIKRYEELPVRELWLVDIPEGEKKLNIVGTLAKRMVEKAGVPIEIHLTLDRREALKDADFVTTQFRVGLLEARAKDERIPLKYGVIGQETNGPGGLFKGLRTIPVILEIAKDIEELCPNAWLVNFTNPAGMVTEALLRYSNLTKVVGLCNVPIGIKMGVAKALDVDVSRIEVQFAGLNHMVFGLDVFLDGVSVKDQVIEAMGDPENAMTMKNISGAEWEPEFLKALDLIPCGYHRYYFKTKEMLEHEIEASQTEGTRAEVVQKVEKELFELYKDPNLAIKPPQLEKRGGAYYSDAACNLISSIYNDKHDIQPVNTINNGAIASIPNDSAVEVNCVMTKDGPKPIAVGDLPVSVRGLVQQIKSFERVAAEAAVTGDYQTALLAMTINPLVPSDSVAKAILDEMLEAHKEHLPHFFKSIEA	PGPT0019105_635	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
D1-12_02285	1089	ilvK	COG0115	Branched-chain-amino-acid aminotransferase 2	ATGAAACAAGACATTCGTGTTGAATTGACTTCAGCCAAAAAACCGAAACCGGACCCCCATGACCTTGCGTTCGGCAGAATTTTCACCGACCATATGTTTGTTATGGATTACGATGCCGATCAAGGCTGGTACGATCCGAGAATTATCCCTTATCAGTCCATCTCAATGGATCCTGCGGCCATGGTTTATCATTACGGCCAAACCGTTTTTGAAGGGCTTAAAGCGTATGTAACGAAGGATCAGGAAGTGCTTCTGTTCAGACCGGAGAAAAATATGGAGCGCCTGAACCAGTCAAATGACCGCCTTTGCATCCCGCTCATTGATGAAGAGCTTGTTCTTGAAGGTCTGAAACAGCTCGTAGCCATCGACAAAGACTGGATTCCGAAAGCGGAAGGCACTTCCCTTTATATCCGTCCGTTTATTATTGCGACTGAGCCTTTCCTCGGTGTAGCGGCATCCCATACGTACAAGCTGTTTATCATTCTTTCCCCGGTCGGCTCTTATTACAAAGAAGGCATTAAACCGGTGAAAATCGCCGTGGAAAACGAATTCGTGCGCGCCGTCAAAGGCGGCACCGGAAACGCGAAAACCGCCGGCAACTACGCATCAAGTCTGAAAGCGCAGCAGGTTGCGGAAGAAAAGGGATTTTCCCAGGTTTTATGGCTTGACGGCATTGAGAAAAAATACATCGAAGAAGTCGGCAGCATGAACATCTTCTTCAAAATCAGCGGCGAGATCGTGACACCGGAGCTGAACGGAAGCATTCTTGAAGGAATTACGAGAAATTCTGTCATCACCCTTCTCAAACATTGGGGACTGACTGTGTCTGAGCGGAAGATTTCGATCGATGAAATCATCCAGGCGCATCGTGACGGTCGATTGGAAGAAACATTCGGAACCGGTACGGCGGCGGTCATTTCTCCGGTCGGCGAACTGATCTGGAATGATGAAAGTCTTGTCATCGGCAGCGGTGAAACCGGAGAGATCTCGAAGAAATTGTACGATACCATTACAGGCATTCAAAAAGGCGCGGAAGCCGACGTGTTCGGCTGGACGACGGAAGTCGCCTCACTAAGCGAATCAAAATAA	MKQDIRVELTSAKKPKPDPHDLAFGRIFTDHMFVMDYDADQGWYDPRIIPYQSISMDPAAMVYHYGQTVFEGLKAYVTKDQEVLLFRPEKNMERLNQSNDRLCIPLIDEELVLEGLKQLVAIDKDWIPKAEGTSLYIRPFIIATEPFLGVAASHTYKLFIILSPVGSYYKEGIKPVKIAVENEFVRAVKGGTGNAKTAGNYASSLKAQQVAEEKGFSQVLWLDGIEKKYIEEVGSMNIFFKISGEIVTPELNGSILEGITRNSVITLLKHWGLTVSERKISIDEIIQAHRDGRLEETFGTGTAAVISPVGELIWNDESLVIGSGETGEISKKLYDTITGIQKGAEADVFGWTTEVASLSESK	PGPT0008860_1942	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
D1-12_02286	1179	dltD	COG3966	Protein DltD	ATGAAAAAGCGTTTCTTTGGACCAATTATTTTAGCGTTCGTCCTGTTTGTCGGAGCTATCGCAGTTCCGGCTTCATGGCTTACGCGCTTCATTCCTGAAAAACGTGTCGAAGAGTCGGCGGCAGCCTTAAATCCGAATATGTTCCAGGGGCTCTATCTGCAAAATAAAATGTTCGAAGACTCGAAGTATCTGCCGATTTTCGGTTCTTCCGAGCTTTCAAGACTGGATGAGTTTCATCCGTCCAACTATTTCCAAGTGAACAACCAAGGCTTTACGCCTTATCTTGTCGGAAAAGGCGGGGATCAATCCTTGATACACGCCGTAAACTTTGCGGCGCATTATCAGCAGCTGAAAGGCAAAAAGCTGGTATTCATTGTTTCTCCGCAATGGTTTATCAAAAAAGGTTCTGATGAACAGCACTTTGCGCCGAATTTTTCATCACTTCAGGCATTGGATTTAGCATTTAATAACCAGATTGATCCCGCGGTCAAAAAGAACATGATGAAGCGCATGCTCCGTTTTAAAGTCGTTCAGCATGATGCCGTCCTTTCTGAATTGTACAAGGGAATGGTCAACGGACAATCATGGAAAGTGAAAGCGGTCATGCCGGCTGCCAAAGCTTATTATTCTCTGCTTGAGAAAAAAGATCTTTATTATTCAATGGGAGAAACCAAGGGCCCTGAACGGACGATCTCTGAAAACCTGAAAGGGAAATCGTGGTCAGAGTTAAAAACAGCCGCCGCGCAATTAGGAGAACGGAGCTCCAAGTCCAATCCTTTCTATATCGATGACGCTTCTTATAAAAAGATTAAGAAGAAAGTAAAGAGAGTGAAAGGGATCAACAAAGGAAGAACGTACGCCAAATCAGTCGAATATCACGACTTTGAGGATATGCTGGACATTCTGAAAGATGCCGGCGCTGAACCGATGTTCGTGGTTATTCCGGTCAACGGAAAATGGTATGACTACACCGGCTTCCCGAAAAAAGGCCGGACTGATTACTACAAAAAAGTCACTAAGCAAATTAAAGCGAAGGGCTTTCAGGTTGCCGACTTATCCGGGCACGAATATGATCCGTACTTTATGAAAGACACCATCCATATCGCCTGGAAAGGCTGGGTGTACGTCGATAAAGCAATGGAGCAGTTTTACAAAACCGGCAAGGTGACGGTTCACTGA	MKKRFFGPIILAFVLFVGAIAVPASWLTRFIPEKRVEESAAALNPNMFQGLYLQNKMFEDSKYLPIFGSSELSRLDEFHPSNYFQVNNQGFTPYLVGKGGDQSLIHAVNFAAHYQQLKGKKLVFIVSPQWFIKKGSDEQHFAPNFSSLQALDLAFNNQIDPAVKKNMMKRMLRFKVVQHDAVLSELYKGMVNGQSWKVKAVMPAAKAYYSLLEKKDLYYSMGETKGPERTISENLKGKSWSELKTAAAQLGERSSKSNPFYIDDASYKKIKKKVKRVKGINKGRTYAKSVEYHDFEDMLDILKDAGAEPMFVVIPVNGKWYDYTGFPKKGRTDYYKKVTKQIKAKGFQVADLSGHEYDPYFMKDTIHIAWKGWVYVDKAMEQFYKTGKVTVH	PGPT0023385_344	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0023385-dltD-K03740	NA	NA
D1-12_02287	237	dltC	COG0236	D-alanyl carrier protein	ATGGAATTTAAACAGGAAGTATTAGACGTATTAGCTGAAGTTTGTCAGGAGGACGCTGTGAAAGAAAATCCTGATATTGAAATCTTTGAAGAAGGACTGCTTGATTCTTTCGGAACTGTAGAGCTGCTTGTCGCCATCGAAAACCGCTTCGGCATTACAGTGCCGATCACTGAATTTGACCGTGACGAGTGGAATACGCCAAACAACATTGTAAACAAACTGACTGAGTTGAAGTAA	MEFKQEVLDVLAEVCQEDAVKENPDIEIFEEGLLDSFGTVELLVAIENRFGITVPITEFDRDEWNTPNNIVNKLTELK	PGPT0020060_288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0020060-dltC-K14188	NA	NA
D1-12_02288	1182			hypothetical protein	ATGACGCCTTACAGCTCGTTTTTCTTCTTTATCTTACTTGGAATCCTTCTTTTGCCGACGATTATTTTAGGGCTGAACGGCAAGAGATTCCAAGGATACAACATGTTTATATCCATCATCGTATTGGCTTTGATTTTCGCGCATGATCTGCACGGCGTGATCGCACTATGTATCTTTACGCTGTGGCAGGTGCTTTTAATCAGGGGTTATCTCGCTTACAGACTGAAAGCCAACAGCGGCTTTGTCTTCAGTATGGCCGTGATCGCGTCCATTTTACCCCTGTTTTTATCTAAATTATGGCCGTTTTTCTTTCCGCCGGCGCCTCATCACCCGGTTCATAACCTGATCAGTTTCTTAGGAATTTCTTATTTGACATTTAAAGGCGTCCAGCTGATCATGGAAACGAGAGACGGGCTGATTAAAGAAAAAATGCCGCTTCACCGCCTTTTGTACTTTATTATGTTTTTCCCGACCATTTCTTCCGGTCCGATCGACAGATACCGCAGATTTGCCAAGGACGAACAGAAAGTATGGACAAAGGGAGAATACGCTGATTTACTGTATACCGGCATTCATAAAATTTTTATCGGTTTCTTATACAAATTCATTATCGGATATGCGATTAACACGTATTTCATTATGAATCTGTCCCATATCACCCACAGCAAACTGTGGGGTAATGTGCTGTACATGTACGGATACAGCTTGTACCTGTTTTTTGATTTTGCGGGTTACACGATGTTTGCTGTCGGTGTAAGCTATATCATGGGCATCAAATCTCCGGAAAACTTTAATAAGCCGTTTATCAGCAAAAACATTAAAGACTTCTGGAACCGCTGGCACATGTCCTTATCCTTCTGGTTCAGAGACTACGTATTTATGCGCTTTGTTTTCTGGATGACAAAGAAAAAATGGATAAAGAACCGGATGGCCGTCTCGAACATCGGGTATTTCCTGCTGTTCATGCTGATGGGCGTCTGGCACGGACTCGCCCTGCAATATATTGTATACGGCCTGTACCACGCCGTATTAATGACCGGGTATAACTTTTTTGAGAAATGGAATAAGAAATACAAGTGGCTGCCCGCCAATCGTTTTACGGCCTTTTTAGCCATCGTCATCACATTCCATTTCGTATGTTTCGGATTTTATATTTTCTCAGGAAAACCATTTCATCACTAA	MTPYSSFFFFILLGILLLPTIILGLNGKRFQGYNMFISIIVLALIFAHDLHGVIALCIFTLWQVLLIRGYLAYRLKANSGFVFSMAVIASILPLFLSKLWPFFFPPAPHHPVHNLISFLGISYLTFKGVQLIMETRDGLIKEKMPLHRLLYFIMFFPTISSGPIDRYRRFAKDEQKVWTKGEYADLLYTGIHKIFIGFLYKFIIGYAINTYFIMNLSHITHSKLWGNVLYMYGYSLYLFFDFAGYTMFAVGVSYIMGIKSPENFNKPFISKNIKDFWNRWHMSLSFWFRDYVFMRFVFWMTKKKWIKNRMAVSNIGYFLLFMLMGVWHGLALQYIVYGLYHAVLMTGYNFFEKWNKKYKWLPANRFTAFLAIVITFHFVCFGFYIFSGKPFHH	PGPT0023380_327	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0023380-dltB-K03739	NA	NA
D1-12_02289	1512	dltA_3	COG1020	D-alanine--D-alanyl carrier protein ligase	ATGAAACTACTTGATGCTATAAAAACATACGCAGACGCCAAGCCGCAGGCCGAAGCGTTTCGTTCCTTAGATCATTCCCTTACTTACGGGGAATTATGGGATTTGTCGGAGCGGGTTGCGTCCGGCATTCAAAAACATACAGCTGACGGTTCGAAAGCGCCTGTCCTGGTTTACGGACATATGGAGCCGAATATGATCGTTTCTTTCTTAGGAAGCGTCAAAGCGGGCCGCCCTTACATCCCTGTCGATGTTTCCATTCCGGCGGAGCGGATCGTCAAAATCATTGAAAGCTCAGGCGCAGAGCTGCTTATCAGCGTATCGGGCGATGCAGTCGATACGGGGAGCAATCTGATTAAAACCGTTACGCCCGAAGAGCTTGCAGCTGACGGAGATGCAGACCTCAGCCGTGAGAACTGGGTAAAAGAGCTGGACACGTTTTACATTATTTACACGTCCGGCAGCACGGGAAATCCGAAGGGCGTGCAGATATCGGCTGATAACCTGCAAAGCTTCACTGACTGGATCTGCAGGGATTTTCCTGTGGGCGATGGTAAGACATTCTTAAACCAAGCGCCGTTTTCTTTTGATTTATCTGTCATGGACATTTTCCCTTCGCTTCAAACGGGAGGTACGCTGCATTGCGTAACGAAAGACAAAATCAATAAACCGAAAGTACTATTTGAAGAGCTGGAGAAATCCAAACTGAACGTCTGGACATCGACGCCGTCTTTCGTCCAAATGTGTCTGATGGACCCCGGCTTTACGCAGGAGCTCCTGCCTGAGACAGAAGTATTTATGTTTTGCGGAGAAGCGCTTCCGGCTGCCGTGGCACAGGAGCTGTTAAACCGTTTTCCGAAGGCCCGCGTATTCAATACATACGGCCCGACTGAAACAACGGTTGCCGTCACCTCCGTTGAAATTACGCAGCAGATCATCGATGAACATGAATCTCTGCCCGTCGGTTTTGCAAAACCCGATATGAATATCTTCATCATGGATGAAAACGGGAATAAGCTTCCGGACGGAGAAAAAGGGGAAATCATCATCGCGGGCCCGAGCGTGAGCAAAGGCTATCTCGGAGAGCCTTGTCTGACGGAAAAAGCGTTTTTCCCGATCGACGGCCAGTGGGCATATCACACGGGTGATGCCGGTTATGTTCAGGATGGTCAGATTTTCTGCCAAGGACGCCTTGATTTCCAGATTAAGCTTCACGGCTACCGCATGGAGCTGGAGGAAATCGAAGTACATGTAAGGCAGTCTCAATATGTGCGCACGGCGGTTGTCATCCCGTATCAGCCTAACGGACCTGTCGAATATTTAATTGCCGCCATCGTGCCTGAAAAACATGATTTTGAAAAAGAATTCCAGCTGACAAGCGCCATTAAGAAAGAACTGGCCGCTTCGCTTCCGGCCTACATGATTCCGAGAAAATTCATTTATCAGGATCACATTCAAATGACTGCGAACGGAAAAATCGACCGTAAACGCATTGGCGAAGAGGTTCTTGTATGA	MKLLDAIKTYADAKPQAEAFRSLDHSLTYGELWDLSERVASGIQKHTADGSKAPVLVYGHMEPNMIVSFLGSVKAGRPYIPVDVSIPAERIVKIIESSGAELLISVSGDAVDTGSNLIKTVTPEELAADGDADLSRENWVKELDTFYIIYTSGSTGNPKGVQISADNLQSFTDWICRDFPVGDGKTFLNQAPFSFDLSVMDIFPSLQTGGTLHCVTKDKINKPKVLFEELEKSKLNVWTSTPSFVQMCLMDPGFTQELLPETEVFMFCGEALPAAVAQELLNRFPKARVFNTYGPTETTVAVTSVEITQQIIDEHESLPVGFAKPDMNIFIMDENGNKLPDGEKGEIIIAGPSVSKGYLGEPCLTEKAFFPIDGQWAYHTGDAGYVQDGQIFCQGRLDFQIKLHGYRMELEEIEVHVRQSQYVRTAVVIPYQPNGPVEYLIAAIVPEKHDFEKEFQLTSAIKKELAASLPAYMIPRKFIYQDHIQMTANGKIDRKRIGEEVLV	PGPT0020055_559	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0020055-dltA-K03367	NA	NA
D1-12_02290	150			hypothetical protein	ATGATGCAAAAATTAAAACGTGCTTATGAAAATACATTGATCAAATGGACGTTTCATACGGGCTTTTATTTTCTGATATTAGTATTGCTCTTTTGGATGTATGGATTTCATACAGCGAATACCGGCACTTATATTTACAACGATTTCTAA	MMQKLKRAYENTLIKWTFHTGFYFLILVLLFWMYGFHTANTGTYIYNDF				NA	NA	NA	NA	NA
D1-12_02291	936	menA	COG1575	1,4-dihydroxy-2-naphthoate octaprenyltransferase	ATGAATCAAAACAATATGGGGGGCAGCCAAAAGACGCCCGAGAAAGAAAGCATGGGCCGCATTTTGTGGCAGCTAACCCGCCCTCATACATTGACGGCATCGTTTGTGCCCGTACTTCTCGGCACCGTATTGGCGATGTTTTACGTAAAGGTTGATTTCCTGCTGTTTTTGGCCATGCTGTTTTCCTGCCTTTGGATTCAGATCGCCACGAACTTATTCAATGAATATTACGATTTTAAACGCGGTTTAGATACGGAGGATTCCGTCGGTATCGGCGGAGCGATCGTCCGCCACGGCATGAAGCCGAAAACAATTCTGCAGCTGGCGCTCGGCTCTTATGCGATTGCCCTCGTGCTCGGTGTTTATATCTGCATAAGCAGCAGCTGGTGGCTTGCGGTTATCGGCCTTGCCGGCATGCTGATCGGCTATCTGTATACGGGCGGCCCGCTGCCGATTGCGTATACACCGTTCGGGGAACTGTTCTCCGGCATTTGCATGGGCTCTGTATTTGTCCTTATTTCTTTCTTCATTCAGACAGGCAGAATTAATGAACAGAGCATTTTGATTTCCATCCCGATTGCCATCTTGGTCGGAGCGATTAACCTGTCCAACAATATCCGTGATATTGAGGAAGATAAAAAGGGCGGACGTAAAACGCTGGCCATTTTGATGGGGCATAGAGGAGCCGTCATGATACTGGCCGCATCTTTTGCCATCGCTTACATCTGGATCGTCGGTCTTGTCATCATGGGTTACACAAGCCCGTGGCTGTTCTTGGTCTTCCTGAGCGTGCCGAAGCCTGTTCAGGCCGTGAAAGGCTTTGTGAAAAACGAAATGCCGATGAACATGATTATTGCGATGAAATCAACGGCGCAAACCAATACATTTTTCGGATTCCTGCTTTCAATCGGACTCCTGATCAGTTATTTCCGCTGA	MNQNNMGGSQKTPEKESMGRILWQLTRPHTLTASFVPVLLGTVLAMFYVKVDFLLFLAMLFSCLWIQIATNLFNEYYDFKRGLDTEDSVGIGGAIVRHGMKPKTILQLALGSYAIALVLGVYICISSSWWLAVIGLAGMLIGYLYTGGPLPIAYTPFGELFSGICMGSVFVLISFFIQTGRINEQSILISIPIAILVGAINLSNNIRDIEEDKKGGRKTLAILMGHRGAVMILAASFAIAYIWIVGLVIMGYTSPWLFLVFLSVPKPVQAVKGFVKNEMPMNMIIAMKSTAQTNTFFGFLLSIGLLISYFR	PGPT0009395_681	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
D1-12_02292	633	ywaC	COG2357	GTP pyrophosphokinase YwaC	ATGGACTTGTCAACAGCCCATATGGATGATTTGAAAACGGTCATGGAAGATTGGAAAAATGAATTATTAGTTTATAAATTCGCTTTAGATGAGCTGGATACGAAGTTTTCTATCATCAGCCAGGAATATAATCTGATTCACGGGCATAACCCGATCGAGCATACAAAATCACGCGTGAAAAGTTTTGAGAGTATCGTCAATAAACTGATGCGCAAAGGCTGCGATGTGACGACGCAGGAAATGAAAGAGCATATTCATGATATTGCGGGTGTCAGGATTATCTGTTCCTTTATTTCCGATATTTATAATGTCGCTGAGGTTTTGAAGCAGCATAAGGACCTGAAGATCGTAAAGGTGAAGGATTATATCAAACAACCGAAGCCGAACGGCTACCGCAGTCTGCATTTGATCATTGAAATTCCCGTTTATTTGACGAATCGTGTGGAATATGTGAAGGCGGAAATTCAAATCCGCACCATCGCCATGGATTTTTGGGCGAGTCTTGAACATAAAATTTATTACAAATTAAATAACGAAGTCCCAAAGCATCTGACCGACGAGCTGAAGGAAGCGGCGGACATCGCCCATTATTTAGACGAAAAGATGCTTGGGATTAAGAAAGAAGTCGATTAA	MDLSTAHMDDLKTVMEDWKNELLVYKFALDELDTKFSIISQEYNLIHGHNPIEHTKSRVKSFESIVNKLMRKGCDVTTQEMKEHIHDIAGVRIICSFISDIYNVAEVLKQHKDLKIVKVKDYIKQPKPNGYRSLHLIIEIPVYLTNRVEYVKAEIQIRTIAMDFWASLEHKIYYKLNNEVPKHLTDELKEAADIAHYLDEKMLGIKKEVD	PGPT0014825_1457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
D1-12_02293	1245	tyrS	COG0162	Tyrosine--tRNA ligase	ATGGAATCAATCACTTTAACGAATGATCAGGAGAAAGAAGTGCAAAGGCAGCTGGATTTGTACATGACCGGCGCCGCGGACGTCATACCGCCTGAAGAATTGAGAAATAAAATCGCCAAATCAGTGACATCCGGCAAGCCGCTGAACATTAAACTCGGCCTTGATCCGTCCGCACCCGACGTCCACTTGGGCCATACCGTCGTGTTAAACAAATTGCGCCAATTTCAAGAAAACGGCCATATCATACAGCTTGTTATCGGGGACTTTACCGGAAAAATCGGTGATCCGACGGGGAAGTCGCAAGCCAGAAAACAGCTGACTGATGAAGAAGTCCAGCACAATGCCAAAACCTACTTTGAACAGTTTGGCAAGGTGCTGGATCAAGACAAAGTTGAACTTCACTGCAACTCAAAATGGCTGAAGACATTGAATCTGGAAGATGTGATTGAATTAGCGGGGAAAATTACTGTCGCCCGTCTGATGGAGCGCGACGACTTTGAGGAGCGCATCGCCATGCAAAAACCGATCTCACTTCACGAATTCTTTTACCCGCTGATGCAGGGCTACGATTCTGTCGTTCTCGAAAGCGATATCGAACTCGGCGGTACGGACCAGCATTTTAACGTGCTGATGGGCCGCCATTTCCAAGAACGCTACAAAAAAGAAAAGCAGGTCGTCATCCTCATGCCGCTTTTGGAGGGTCTTGACGGCGTTGAAAAAATGTCTAAATCAAAAAACAACTACATCGGTATTGACGAGCATCCGAACGACATGTACGGCAAAACGATGTCATTGCCGGACAGCCTGATGAAAACATATATTCATTTAGCGACAGACTTAGAGCCTGCGGAGAAAAAACAGATGGAGAAGGATTTGGAATCAGGAAAGCTTCATCCGAGAGATGCCAAAATGATCTTAGCGGGTACAATCGTCAGAATGTACCACGGCAGGAAAGCGGCGGATGCGGCAGAACAGCATTTCAAACGTGTCTTCCAGCAAAACAGCCTGCCTGAAGATATGAAAACCGTCATATGGGACGGAGAAAAGCCCGTGCCCCTTATTGAGCTGCTCGTCACGATTGGACTCTTTTCTTCAAAAAGCGAAGCACGCCGTATGATTCAAAACGGCGGAGTCAAAGTGAACGGGGAGAAAACGGATGCCCTTCATACCGTCATTACCGCAGAAGACGGCATGACGATTCAGGTGGGCAAGCGAAAATTTGTACAGCTGCGCGTAAACGGATAA	MESITLTNDQEKEVQRQLDLYMTGAADVIPPEELRNKIAKSVTSGKPLNIKLGLDPSAPDVHLGHTVVLNKLRQFQENGHIIQLVIGDFTGKIGDPTGKSQARKQLTDEEVQHNAKTYFEQFGKVLDQDKVELHCNSKWLKTLNLEDVIELAGKITVARLMERDDFEERIAMQKPISLHEFFYPLMQGYDSVVLESDIELGGTDQHFNVLMGRHFQERYKKEKQVVILMPLLEGLDGVEKMSKSKNNYIGIDEHPNDMYGKTMSLPDSLMKTYIHLATDLEPAEKKQMEKDLESGKLHPRDAKMILAGTIVRMYHGRKAADAAEQHFKRVFQQNSLPEDMKTVIWDGEKPVPLIELLVTIGLFSSKSEARRMIQNGGVKVNGEKTDALHTVITAEDGMTIQVGKRKFVQLRVNG				NA	NA	NA	NA	NA
D1-12_02295	498			hypothetical protein	TTGACGAATCGCAACGATGCCGGATCAGACAATAAGAAGCCGAACAGGCCTTTTTCCGATCTATCCGGCCGAAACAAAGAGGCGGCCTATATTGCCGCTGCACTCTATCGGTCCGCCCAGCAGCTCCGTGTAAAAATGGAGAAAGAGGTGCTGTCGGCACACAAATTATCATGGACGGCGTTTTCCATCCTGTATGACCTTTGTGAATGGGAAACGCTTGATACAAGAAGGATAGCCGCTCTATCCGGAATTACCGCGGCGACGGCGAGCAATGTCCTGAACACTTTGGAGAAGAAAGGCTTATGCAGCAGACAAACGAACAAAAGAGACCGCAGGCTTGTATTCGTCAGTATTACCGATGAGGGCAGAAAGGTTATTGAAGACCTTTACCCCGACTTTCATCAGGGGGAAATTGAACTGACGGCCTGTCTGGATAAACAGGAACAAAAAACGCTGTCCGCCCTGCTGCAAAAAATCGCTGACAATTTCATAACATAG	MTNRNDAGSDNKKPNRPFSDLSGRNKEAAYIAAALYRSAQQLRVKMEKEVLSAHKLSWTAFSILYDLCEWETLDTRRIAALSGITAATASNVLNTLEKKGLCSRQTNKRDRRLVFVSITDEGRKVIEDLYPDFHQGEIELTACLDKQEQKTLSALLQKIADNFIT				NA	NA	NA	NA	NA
D1-12_02296	861	gspA	COG1442	General stress protein A	GTGGGAAAGAATGAAACAATGCATATCGTATCATGTGCCGATGATCATTATGCTCGTCATTTGGGTGGGATGTTCGCTTCTTTATTGATGAATATGGATAAAACAAGGGATGCGAAATTATATGTGATCGACGGCGGAATTACTGCCGAAAACAAGGACAAGCTTGAACAGACCGCGATGTCATTCGGGACGCCGCTTGAATTTTTAGAAGTAGACGCTGATCAATACAAGCATGCAGTCGAAAGCAGCCACATTACAAAAGCGGCTTATTACCGCATTTCCATCCCTGATTTAATTAAGGATGAGTCCGTAAAGCGGATGATTTACATTGATTGCGATGCAATTGTGATGGAAGATATTTCGGTTTTATGGGACTTGGATATTTCCCCGGCAATAGTTGCGGCGGTAGAAGACGCCGGACAGCATGAAAGACTGAAAAAAATGAATATCAGCGACACTGCCAAGTATTTTAATTCCGGCATTATGATTATAGATTTCGAACCTTGGAGAAGACAGAATATTTCCGAAAAGGTGATTGATTTTATCAACGAAAACAGCTCGGAGGATTTTCTCGTGTTTCATGATCAGGACGCGCTTAACGCGATCTTATATGATCAATGGCATGAACTGCATCCGCGCTGGAACGCGCAGACGCATATTATCATGAATGAGAAAACGCCTCCTGAACTGATCGACCGTATCCGTTACAGAGAAACACGTGCCGAACCGGCCATCGTCCATTTCTGCGGCAGCGACAAGCCTTGGAATACAGGCACCTCGCACCCGTATCGTGATCATTATTTCCGATATATGTCCTTTACGAAATGGAACACGATTGACCGCCCGGCCATGAACCAATAG	MGKNETMHIVSCADDHYARHLGGMFASLLMNMDKTRDAKLYVIDGGITAENKDKLEQTAMSFGTPLEFLEVDADQYKHAVESSHITKAAYYRISIPDLIKDESVKRMIYIDCDAIVMEDISVLWDLDISPAIVAAVEDAGQHERLKKMNISDTAKYFNSGIMIIDFEPWRRQNISEKVIDFINENSSEDFLVFHDQDALNAILYDQWHELHPRWNAQTHIIMNEKTPPELIDRIRYRETRAEPAIVHFCGSDKPWNTGTSHPYRDHYFRYMSFTKWNTIDRPAMNQ				NA	NA	NA	NA	NA
D1-12_02297	1746	epr_2	COG1404	Minor extracellular protease Epr	ATGTATCACACCCTGAAACCGATAATGGCCGCGGCCTTGTGCGTCAGCCTGTTCTCCGCCGCGGCGCCCGCGCACGCCGAGACGCACGACCGGGACGTTATCGTGGTGTACAAAAATCAAAACGGCAAGGAATCCGCCATAGACAGCGGAGCGGATGTGGAACAGACCTATCAGCATCTTCCGGCAGTCGCCGTGTCAGCCGATTCACAAACGGTGAAAGACCTGAAACAGGACCCTGACATCTTATATGTAGAAGACAATGTATCCTTTCAGGCAGCAGGCGGTTCTGATATCCGCCCGTTATCAGCGGCCCAAAGCAGCAGTTACGCGCTGCCGCAATGGGATATAGAACCGACTCAGGTCAAGCAGGCGTGGAAAGAAGGCTTGACGGGAAAAAAGGTGAAAGTGGCTGTCATTGACAGCGGCATTTACCCTCATGATGACCTTTCCATTGCTGGAGGCTATTCCGCAGTCAGCTATACTTCCTCATACAAAGATGACAACGGACACGGGACGCATGTCGCCGGAATCATTGCGGCCAAACATGACGGATACGGCGTTGACGGCATCGCGCCGGATGTCCGGTTATATGCGGTTAAAGCATTGGACAGAAAGGGTGCAGGGGATCTTAAAAGCCTTCTTAAAGCGATCGACTGGTCGATCGCCAACAAAATGGATATCATCAATATGAGTCTCGGAACTAACGCAGACAGCAAAATTCTTCACGACGCCGTAGACAAAGCATACAAAAAAGGAATCGTGATCGTAGCAGCCGCAGGAAACGACGGCAACAAAAAACCCGTCAATTATCCGGGTGCCTACAGCAGCGTAACGGCAGTCTCAGCGTCAACTGAAAAAAACGGTCTCGCGGCTTTTTCCACGACCGGAAAACAAATTGAATTTGCCGCACCCGGCACCAATATTACGAGCACGTATCTGAATCAAATGTACGCCGCGGCTGACGGCACATCTCAAGCCGCGCCGCACGTCACCGGCATGTTCGCGCTGCTCAGGCAGAAATATCCCGAGGAAACAAATACCCAGCTCCGGCAGCAGATGCAGCAAAACATCAAAGATCTGGGCGCTCCCGGACGTGACAGCCGATTCGGGTACGGCCTGGTGCAATATCACGTAAATCAAAAGAGCTTTGCCGAACGGGCCGTAATAAAAGCGGAAAAGACGAAAAAACAGGCAGATATCAATCAAGCAAAAACGGCAGTCAGCAAGCTGCCCAAGTCAAAGGGAAAAACCGCTCTCGAGGCGCGGATCAATAAAGTTCAGACGGCAAGAAATGTGACGGACGCAAGAGACAAAGTCCGGACTGCCGAAAAACAAAAGAAAAAAACCGCCGTCAATGCCGCACAAAGCGCCATCCGCAAATTACCGGCCGGTTCAGAGAAAAAAGGGCTGCAAAAGCGGCTTAACGCTGTCAACTCAAGCCTTTTGAAAACAGCTGAGGCCAGCGTCAAGCAGGCGGAAAAAAAGACCTCTGAGGCCAGCACCGCAAAAGCCCAAAAAGCAGTCAGCGAAATCCAGCCGGGAAAAGAAAAAACCGCTCTGGAAAATCGGCTTGACCGGATAAAAGATAAACTCAACCGGCAGCAGGCTAGAGACAAAGTAAAAGCGGCTGAAAAAACCAAGACGAAAAAAGCACAATCAGCGGCGCAAACGGCAGTCAGCCGATTGAAGCCGTCTGCCGAAAAGACCAGCCTGCAAAAACGCGTGCGTGCGATTCGGGTGAAATAA	MYHTLKPIMAAALCVSLFSAAAPAHAETHDRDVIVVYKNQNGKESAIDSGADVEQTYQHLPAVAVSADSQTVKDLKQDPDILYVEDNVSFQAAGGSDIRPLSAAQSSSYALPQWDIEPTQVKQAWKEGLTGKKVKVAVIDSGIYPHDDLSIAGGYSAVSYTSSYKDDNGHGTHVAGIIAAKHDGYGVDGIAPDVRLYAVKALDRKGAGDLKSLLKAIDWSIANKMDIINMSLGTNADSKILHDAVDKAYKKGIVIVAAAGNDGNKKPVNYPGAYSSVTAVSASTEKNGLAAFSTTGKQIEFAAPGTNITSTYLNQMYAAADGTSQAAPHVTGMFALLRQKYPEETNTQLRQQMQQNIKDLGAPGRDSRFGYGLVQYHVNQKSFAERAVIKAEKTKKQADINQAKTAVSKLPKSKGKTALEARINKVQTARNVTDARDKVRTAEKQKKKTAVNAAQSAIRKLPAGSEKKGLQKRLNAVNSSLLKTAEASVKQAEKKTSEASTAKAQKAVSEIQPGKEKTALENRLDRIKDKLNRQQARDKVKAAEKTKTKKAQSAAQTAVSRLKPSAEKTSLQKRVRAIRVK				NA	NA	NA	NA	NA
D1-12_02298	1335	licC_2	COG1455	Lichenan permease IIC component	ATGAGTACGTTCAATCGGGTCATGGAAGAAAAAATCATGCCTGTCGCCGGAAAAGTCGCCGGCCAAAGGCACTTAAGAGCTTTGCGGGACGGCATTATTTTGACTATGCCGCTTATCATCATCGGATCGGTTTTTCTGATTCTGACGAGTCTTCCGATTCCCGGTTATGCCGATTTTATGGCTGGTCTTTTCGGTGAAAATTGGGTTGAAAAGCTCGGGTATCCCGTGAATGCGTCCTTTGACATTATGGCGCTTGTCGCCGCCTTTGGGATTGCTTACCGGCTTGCGGAAAGCTATGAGGTGGATGCCCTGTCGTCGGGAGCCATTGCCCTTGCCGCCTTTTTATTGGCGACGCCGTATCAGATTCCGTTTATTCCTGACGGCTCGGCAACAGAGATTATGGTGGGAGGCGGCATTCCGATTTCGCTGCTCGGAAGCAAAGGTCTGTTTGTCGCGATGATCATTGCAATGCTGTCTACGGAAGTGTACCGGTTTATCATACAAAGAAATATCGTCATTAAGATGCCTGACGGAGTGCCGCCTGCGGTCAGCAAATCGTTCGTTGCGCTCATCCCCGGTTTCATTATTATTACGCTTGTATGGCTGGCCCGTCTGTTTATTGAAATAACTCCTTTTAAAAGCCTCCACAATGTCGTAGGCGATCTGCTGGGCACCCCGCTGTCTATTTTGGGCGGGAGTCTCGGCGGAAGTCTTATCGCCGAATTCGTGCAAATGCTGCTTTGGTCGTGCGGCATACACGGCGCGTCCATTATCGGCGGCGTCATGTCGCCGATCTGGTACGGGGCGATGGACGCCAACCGTTTGGCTTTTCAGGCGGGAGAAGCGCTGCCGAGCATTTTTACGACACAGTTCTTTCAAATATGGATTAATGTCGGCGGAAGCGGAGCGACGCTTGCCCTTGTGCTGACCATGCTTGTGCGCTCCAGAAGCAAACAGATGAAACAGCTCGGCCGTCTCGGCATCGGGCCCGCGATTTTTAACATTAACGAACCGATTATTTTCGGGATGCCGCTCGTCATGAATCCGCTGTTAATCGTGCCCTTTATCATTGCGCCGCTCTTGACCATTACGGCGACGTACATCGGGATGAGCACGGGGATGGTGGCAAAACCGGCGGGAATCGCCGTGCCGTGGACGATGCCGCCGCTGATATCCGGTTATTTGGCGACGGGCGGGAAAATCTCCGGTTCGGTCATGCAGCTGATCAATCTCCTGATTACATTTATCATCTATTATCCGTTTTTCCGAATTTGGGATCTTCAAAAATGGAGAGAGGAACGGGCGGCGGAACAAAACGTCACAGAAGAAACATAA	MSTFNRVMEEKIMPVAGKVAGQRHLRALRDGIILTMPLIIIGSVFLILTSLPIPGYADFMAGLFGENWVEKLGYPVNASFDIMALVAAFGIAYRLAESYEVDALSSGAIALAAFLLATPYQIPFIPDGSATEIMVGGGIPISLLGSKGLFVAMIIAMLSTEVYRFIIQRNIVIKMPDGVPPAVSKSFVALIPGFIIITLVWLARLFIEITPFKSLHNVVGDLLGTPLSILGGSLGGSLIAEFVQMLLWSCGIHGASIIGGVMSPIWYGAMDANRLAFQAGEALPSIFTTQFFQIWINVGGSGATLALVLTMLVRSRSKQMKQLGRLGIGPAIFNINEPIIFGMPLVMNPLLIVPFIIAPLLTITATYIGMSTGMVAKPAGIAVPWTMPPLISGYLATGGKISGSVMQLINLLITFIIYYPFFRIWDLQKWREERAAEQNVTEET	PGPT0016970_1135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_BETA-GLYCOSIDE_DEGRADATION,PGPT0016970-celB|chbC-K02761	NA	NA
D1-12_02299	384	gloA	COG0346	Lactoylglutathione lyase	ATGACAGCCAAAAGAATCGACCATACAGGCATTATGGTCAAAGATATTGAAACATCCATCGCCTTTTACCAAGACGTTCTCGGTATGCAGTTAAAGGATCGTATCACTCATACGAACGGCATTATTGAACTTGCCTTTCTCGGCTTTCAAGAAGGGCCGGAGACAGAAATTGAGCTGATCCAGGGCTACAGCAGCGAGCTTCCCGCAGAAGGAAAAGTTCACCATGTCGCTTTATTAACTGAAGATATTGCGGCGGAGTTCACACATGCAAAGCGTCAGGGCGCCGTATTCATTGATGAAGAAATCACGACGCTTCCGAACGGGTACCGCTACTTTTACATTGAAGGACCTGACGGCGAATGGATCGAATTTTTCCAGCGTTAA	MTAKRIDHTGIMVKDIETSIAFYQDVLGMQLKDRITHTNGIIELAFLGFQEGPETEIELIQGYSSELPAEGKVHHVALLTEDIAAEFTHAKRQGAVFIDEEITTLPNGYRYFYIEGPDGEWIEFFQR	PGPT0013300_4839	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
D1-12_02300	1188	rlmI	COG1092	Ribosomal RNA large subunit methyltransferase I	ATGAAGCTACTTACAGTGAAAGATACATTTGCCGGAAAGCTGAAAAAAGGATTCCCCCTGATTGAAAAAGACGCTCTGTCCGGAAGCTCGGCTCATTTAACAGAGGGCGATCTTTTTGATGTGACATCCGAGAAGGGTGAGTTTATCGGAAAAGGCTATTACGGTTTGCAGAATAAAGGAGTCGGCTGGGTGCTGTCCCGCGCGAGAGATGAACGGATCGACGGACGTTTCTTTCTGGACAAGCTGAAAAAAGCGGCTGAAGCAAGAGCCCATCTGTTTAAGGCGCCCGATACGACGGCGTTCCGGCTTTTCAACGGTGAGGGCGACGGCATCGGCGGCGTCACGATTGACTTTTATGACGGTTATCTGCTGATTCAATGGTACAGTAAAGGCATTTACGCTTATAAGGACAGCATGATTGAGGCGATTGACGGACTGGAGCTTTCTTATAAAGCGATCTATGAAAAGAAACGATTCGATACGGCTGGGCAATACGTGGAAGACGACGATTTTGTCAAAGGCGAAAGAGGAGATTTTCCGGTCATTGTTCAAGAAAACGGCATACGGTACGCGGTGGATTTAAACGATGGGGCGATGACGGGCATTTTCTTAGACCAGCGTCATGTGCGCAAAGCGATTCGGGATAAGTATGCAAACGGCAGACGGGTGCTGAATACGTTCTCTTATACGGGGGCATTTTCCGTTGCGGCGGCGCTTGGCAGAGCTGAGAAAACGACCAGCGTCGATGTCGCCAACCGCAGTCTCGCAAAAACGATTGAACAGTTCAGCGCCAACGGAATTGATTATGAGGCGCATGACATTAAAGTCATGGATGTTTTCAAATACTTCGGCTATGCGGAGAAAAAAGGGCTGGCGTTTGACCTCATCATCCTTGATCCGCCTTCTTTCGCCCGCACAAAAAAACGGACGTTCAGCGCGGCGAAAGATTATAAAAACCTGCTGAAGGAAACGATCGCCATCACTGCAAAAAACGGCATCATCATCGCTTCGACAAACAGCAGCGCCTTCAATATGAAGAAATTTAAAGGCTTTATAGAGACCGCCTTTAAAGAAACAAATGAGCGTTACGACATTTTGGAAGAATATACGCTTCCGGAAGATTTCAAAACGATTCCCGCGTTTAAAGAAGGGAATTATTTGAAGGTTGTTTTCTTGCGGAAAAAATAG	MKLLTVKDTFAGKLKKGFPLIEKDALSGSSAHLTEGDLFDVTSEKGEFIGKGYYGLQNKGVGWVLSRARDERIDGRFFLDKLKKAAEARAHLFKAPDTTAFRLFNGEGDGIGGVTIDFYDGYLLIQWYSKGIYAYKDSMIEAIDGLELSYKAIYEKKRFDTAGQYVEDDDFVKGERGDFPVIVQENGIRYAVDLNDGAMTGIFLDQRHVRKAIRDKYANGRRVLNTFSYTGAFSVAAALGRAEKTTSVDVANRSLAKTIEQFSANGIDYEAHDIKVMDVFKYFGYAEKKGLAFDLIILDPPSFARTKKRTFSAAKDYKNLLKETIAITAKNGIIIASTNSSAFNMKKFKGFIETAFKETNERYDILEEYTLPEDFKTIPAFKEGNYLKVVFLRKK				NA	NA	NA	NA	NA
D1-12_02301	903			hypothetical protein	GTGGTACCCATTAAAATCATTATCGAGGATACAATTGGGCAATACGAAACGTTATTTTCAATGATTGAAAATAGAGAAGATTATTATCGGTATTCAATGATGAAACCTTTTGAAGATATGTGGAAAAAGATGAATGTTCCCTTAAAGGCAAAGGAACCTAACGGATATGATGTAATCATGGCTGCAAATATGCTGGGCTATCTGAGCATATTTGATACGGAAACCGGAAGAAAAGCATTAGAGAATCTAAAAGAAATTCAAGCTCTTCAAATTGCATATGGCACTTTAACTCATTGTGTAGAATTTATCAAACAAAACCGCTTAAAAATAAATGCTGATGAAATAAGGTTTGGGATGTATCTGGCTAATCAAAAAAAGCTTGAGTTACATAGAGGGTATTGTGGATTCGGAGGAATTCCGGGATTTATTCAAGTTTCAATATTCCCCAATTCATATAACATACCGAGACTGCCTGCTGTAATCGCACATGAATTTCATCATAATATTCGTTTTTCGTATTTCAATTGGGATTATGGGAACGTAACGGTTGGGGATTACTTAATTATAGAGGGGCTGGCAGAATCGTTTGCCAAAGAACTTTACGGAGAAGCTCTGTTAGGTCCCTGGGTTACTTCTTTTGAAAAAGAAGACTTAGAATACTCAAAAGAAATCATCAAAGACTCATTAAATGTGAAAGGGTTTGCTGAGGTCAGCAGTTACATGTTTGGTGACACCTTTGCAGCCGAACAAGGTTATCAGCCTGTCGGCTTATCACCGTTTGCCGGTTATGCGGTTGGCTACCAAGCGGTGCAATCCTTCATGAAAGCCAACAATGTGGGCATTAGTGAGGCCACTTTACTTGGCACAGATGAGATACTAAGAAATAGCGGGTTGTTTCTTTAA	MVPIKIIIEDTIGQYETLFSMIENREDYYRYSMMKPFEDMWKKMNVPLKAKEPNGYDVIMAANMLGYLSIFDTETGRKALENLKEIQALQIAYGTLTHCVEFIKQNRLKINADEIRFGMYLANQKKLELHRGYCGFGGIPGFIQVSIFPNSYNIPRLPAVIAHEFHHNIRFSYFNWDYGNVTVGDYLIIEGLAESFAKELYGEALLGPWVTSFEKEDLEYSKEIIKDSLNVKGFAEVSSYMFGDTFAAEQGYQPVGLSPFAGYAVGYQAVQSFMKANNVGISEATLLGTDEILRNSGLFL				NA	NA	NA	NA	NA
D1-12_02302	762	mta	COG0789	HTH-type transcriptional activator mta	ATGGGTATGAAAGTAAAAGAAGTAGCTGAACTGATTGGAGTAAGCATACGGACTCTCCATCATTACGATCAAATTGGATTATTGACTCCTCAGGAAACGACCGATTCCGGTTATCGGCTTTATTCTGAAGAGAATCTTGAACAGCTGCAGCAGATACTATTTTTCAAGGAGCTCGATTTCTCCTTAAAAGAGATTAAAGAAATCATTAATAGTCCTTCATTTAACCGAAGGGAGGCATTAATTTTACAAAAGAAAATGTTGATTGAGAAACGGAATAGAGTCGATAAGATGATTGCAACCATCGATAAATCAATCAAACATATGATGGGAGAGATTTGCATGACGAACAAAGAGCGGTTTGAGGGAATGAACTTCAATCGTAATCTTTATGAACAAGAAGCTCGCAAACGGTGGGGTGATCAACCTGTCGATAAGGTAAATATTAGATTGAAAAACATGACTGATGGTGAGCAAAAAGATTTATCTGATAAGTGGACTGCAATGTTCAATAAATTTGCACTCCTTATTAACCAATCTCCCAAGTCCCCAGACGTACAAACAGCTATCAAAGAGTGGTTTGATTTTCTCAATGAAAATTTTGGTGAATATTCTTTTGATGCCTTTTACGGATTAGGTCAACTCTATATCGAAGATAAACGCTTCACTAAGAACATCGACCGGTATGGTGAAGGGTTGGCGAAGCTCATGAGTGATGCCATTACAATTTATATAGATAACCAAAAAAAGGGTGGTACCCATTAA	MGMKVKEVAELIGVSIRTLHHYDQIGLLTPQETTDSGYRLYSEENLEQLQQILFFKELDFSLKEIKEIINSPSFNRREALILQKKMLIEKRNRVDKMIATIDKSIKHMMGEICMTNKERFEGMNFNRNLYEQEARKRWGDQPVDKVNIRLKNMTDGEQKDLSDKWTAMFNKFALLINQSPKSPDVQTAIKEWFDFLNENFGEYSFDAFYGLGQLYIEDKRFTKNIDRYGEGLAKLMSDAITIYIDNQKKGGTH	PGPT0003175_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003175-mta|ywnD-K21743	NA	NA
D1-12_02303	195			hypothetical protein	ATGAACGGCCAGCAGCGAAGCAGCATCAGAAAAGGACTTGAAGTCGATATCGTCCTGAAAGCCGATCAGCGTTCAGGAAAGCTGACAAGAGGAATCGTGAAGGATATTTTGACGAACTCAAGCTTCCACCCGCGCGGCATTAAGGTCCGCCTTGAAGACGGGCGAATCGGCCGGGTGCAGCACATTATTGAATAG	MNGQQRSSIRKGLEVDIVLKADQRSGKLTRGIVKDILTNSSFHPRGIKVRLEDGRIGRVQHIIE				NA	NA	NA	NA	NA
D1-12_02304	681	yohK	COG1346	Inner membrane protein YohK	GTGTTCATCGGAATCATAAGTTTATTCTTAACTGTCTTAGTATATTTGGGCGCGAAAAAACTCTACACTCGTTTTCCGCGGGTGTATACGTCGCCGCTTCTGATTACGCCCGCTGTTTTGGTCGTACTGCTGCTTCTTGTCAATGTCCCGTATCAGACATACAATCTCGGCGGCGGACTGCTGACCGATATGCTTCAGCCGGCAACAGTGGCGTTCGCCATCCCGCTTTATAAATATTTCCCGATTTTAAAGAAATACGCCGTGGAAATTATTTTGAACGTAGCGGTCGGTTCATGTATCGCCATTCTGTCAACGGCCTTTATCGCCAAATGGTTCCATCTCGGCAGCAGCTTAGTCGACAGTCTCGTGCCGCGATCCGTGACGACGCCGATTGCCATGAACGTATCAGAAATGATCGGCGGGATGCCGGCCGTTACAGCGGTTTTCGTCATTTTAACGGCTTTATTGGGAACGATCATCGGGCCGATGGTCATCCGCTATTTCCGCATTGATAACGAAATTGCCCGGGGCGTGCTGCTCGGAACCAGCGCGCACGGAGCGGGAACATCTAAAGCATTTGAGCTCAGCTCCGTATCAGGAACGATCTCAAGCGTGTCCATGATTCTCGCCGCGATTATGACACTGTGCGCGGCCCCGATTTTGCTTTCGTTTATGTCATAA	MFIGIISLFLTVLVYLGAKKLYTRFPRVYTSPLLITPAVLVVLLLLVNVPYQTYNLGGGLLTDMLQPATVAFAIPLYKYFPILKKYAVEIILNVAVGSCIAILSTAFIAKWFHLGSSLVDSLVPRSVTTPIAMNVSEMIGGMPAVTAVFVILTALLGTIIGPMVIRYFRIDNEIARGVLLGTSAHGAGTSKAFELSSVSGTISSVSMILAAIMTLCAAPILLSFMS				NA	NA	NA	NA	NA
D1-12_02305	387			hypothetical protein	ATGAAAAAATTGCTGCTTACCGTTATTCAAATCGCTCTGCTGTTTATATTTGCGCGTCTGATCAATTGGGTCACGGCGGCTCTTCATATAAATATTCCCGGCAGTATAATCGGGATTGTGATTCTTTTCACATTATTGCATTTCAAGATTATCAAACTTGAATGGATTGAGCTTGGCGCAGCATGGCTCCTCGGTGAGCTGCTGCTGTTTTTCATCCCGTCTGCCGTCGGAGTGATTGAATACGGAGATATTATGTCTAAATTCGGCGTAAGCATTTTACTTGTCGTCGTCATCAGCACATTTGTCGTGATGGTTTCAACAGGTACGCTTACACAGCTGATAGCAAAAAGAAAGGAGAAAAAACAAACGTGTTCATCGGAATCATAA	MKKLLLTVIQIALLFIFARLINWVTAALHINIPGSIIGIVILFTLLHFKIIKLEWIELGAAWLLGELLLFFIPSAVGVIEYGDIMSKFGVSILLVVVISTFVVMVSTGTLTQLIAKRKEKKQTCSSES				NA	NA	NA	NA	NA
D1-12_02306	909	cynR		HTH-type transcriptional regulator CynR	ATGGATATCCGGCACTTAACGTATTTCTTGGAAGTGGCCCGTTTGAAAAGCTTTACGAAGGCTTCACAGTCGCTGTATGTTTCACAGCCGACAATCTCAAAAATGATTAAAAACCTGGAGACGGAGCTCGGCATTAAGCTGTTTTACCGCAATGGCCGGCAAGTTGAACTGACTGACGCCGGGCAGAGCATGTATGTGCAGGCGCAGGAAATCACAAAGTCATTCCAAAACCTGACGTCAGAGCTGAACGATATTATGGAAGTGAAGAAAGGGCACGTCCGCATCGGTCTTCCGCCGATGATCGGGTCCGGCTTTTTCCCGAGAGTGCTCGGTGACTTCCGCGTCACATATCCCGATGTGACGTTTCAGCTTGTTGAGGACGGCTCTATTAAAGTGCAGCAAGGGGTTGAGGACGGCTCGCTTGATATCGGGGTCGTCGTGCTTCCCGCGAATGAAGAAATTTTTCATACGTTCACAATCGTCAAGGAAACCCTTATGCTCGTCGTCCATCCGTCACATCGGCTCGCTGACGAGAAAGAATGCAGTCTTCACGAATTGAAAGAAGAGCCGTTCATATTTTTCAGGGAGGATTTTGTCCTTCATAATCGAATTATGACGGAATGCGTGAAAGCCGGATTCAGGCCGCACGTCATTTATGAAACGTCACAGTGGGACTTTATCAGCGAAATGGTATCGGCCAATCTCGGCATCGGCCTCTTGCCGGAAAGAATCTGCCGCGGTCTTGATCCTGACAAAGTCAGAACCATTCCGCTCGTTCATCCGGTCATTCCGTGGCATTTAGCCATCATTTGGCGGAAAGACCGCTATATGTCCTTTGCCGCCAGAGCCTGGCTGGAGCATACGAAATCGTATTTATGGAATCCGAAAAAGAGAAAAAAGGATGATTAA	MDIRHLTYFLEVARLKSFTKASQSLYVSQPTISKMIKNLETELGIKLFYRNGRQVELTDAGQSMYVQAQEITKSFQNLTSELNDIMEVKKGHVRIGLPPMIGSGFFPRVLGDFRVTYPDVTFQLVEDGSIKVQQGVEDGSLDIGVVVLPANEEIFHTFTIVKETLMLVVHPSHRLADEKECSLHELKEEPFIFFREDFVLHNRIMTECVKAGFRPHVIYETSQWDFISEMVSANLGIGLLPERICRGLDPDKVRTIPLVHPVIPWHLAIIWRKDRYMSFAARAWLEHTKSYLWNPKKRKKDD				NA	NA	NA	NA	NA
D1-12_02307	819	thiM	COG2145	Hydroxyethylthiazole kinase	ATGGATGCACAAACCGCAGCTCAACACTTGAGTAAAGTGCGGGATCAAAACCCGCTCGTTCACAGTATCACCAATAATGTCGTCACGAACTTCACCGCTAACGGACTGCTCGCGCTCGGCGCATCGCCCGTTATGGCTTATGCAATTGAGGAGGCCGCCGACATGGCGAAAATCGCAGGAGCGCTCGTCCTGAATATAGGCACCCTCAGTTCGGCGTCGGTTGAAGCTATGATCGCAGCCGGAAAATCGGCCAATGAAAACGGTGTTCCGGTCATTTTTGATCCGGTAGGCGCCGGCGCCACGCCGTTTCGGACGGCATCAGCCAGCAAGATCATACAGGAGGTCCGCTTGTCCGTCATTCGCGGAAATGCCGCGGAAATCGCCAATATTGCCGGCGCCCCTGATTGGAAGATAAAAGGCGTGGATGCGGGGGAAGCCGGAGGAGATGTGGTTCAGCTCGCTAAGACGGCTGCAAGCAGGATGAAGACGGTCATTGCGATTACCGGAAAAACCGACGTCATCTCGGACGGCACCGACACATACGCCGTACATAACGGTGATAAACTGCTGACGAAGGTGACGGGGGCGGGATGCCTGCTGACGTCTGTAATCGGAGCCTTCTGCGCAGCGGAGAAGGACGTTCTGCAAGCGGCCGTTTCAGCCGTTTCTGTATACGGAAGCGCCGCTCAGCTTGCCGCTCTGGACACCTCCCATAAGGGGCCGGGCAGCTTCCAGATTGAGCTTTTAAACAAGCTGGCAAGCATCTCAGAACAAGAAGCGGCCGAGCTTGCTGCAATTGAAAGGGTGACAGAAAAATGA	MDAQTAAQHLSKVRDQNPLVHSITNNVVTNFTANGLLALGASPVMAYAIEEAADMAKIAGALVLNIGTLSSASVEAMIAAGKSANENGVPVIFDPVGAGATPFRTASASKIIQEVRLSVIRGNAAEIANIAGAPDWKIKGVDAGEAGGDVVQLAKTAASRMKTVIAITGKTDVISDGTDTYAVHNGDKLLTKVTGAGCLLTSVIGAFCAAEKDVLQAAVSAVSVYGSAAQLAALDTSHKGPGSFQIELLNKLASISEQEAAELAAIERVTEK	PGPT0008990_636	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008990-thiM-K00878	NA	NA
D1-12_02308	675	thiE	COG0352	Thiamine-phosphate synthase	ATGACGCGTATTTCTCGGGAAATGATGAAGGATATGTTATCGGTTTATTTTATTATGGGATCAAACAATACAAGCGCAGACCCCGTTTCCGTGGTGAAAAAAGCCATTGAGGGCGGCGCTACGCTTTTTCAATTTCGGGAAAAGGGGAGCGGTTCTTTAACAGGGGATGAACGTGTCCTGTTCGCGAAGCGGGTGCAGGATGTCTGCAGGCAGGCCGGGATTCCTTTCATCATTAATGATGATGTCGAATTGGCCTTGCGCCTTGAGGCGGACGGAGTGCATATCGGACAGGATGACGCAGACGCCGAAGAAACGAGAGCGGCAATCGGCGATATGATTCTCGGTGTGTCAGCACATAACGTCTCCGAGGTGAAGCGGGCGGAAGAAGCCGGAGCCGATTACGTCGGAATGGGCCCGGTCTATCCGACCGAAACAAAAAAAGATGCTGAAGCCGTGCAGGGCGTCACATTGATTGAAGAGGTAAGGCGTCAGGGCATCACCATTCCGATTGTAGGAATCGGCGGCATTACGGCTGACAACGCGGCGCCCGTCATTGAAGCGGGTGCAGACGGCGTCAGCATGATCAGCGCCATCAGCCAAGCCGAAGATCCAAAAGCGGCGGCGCGGAAGTTTTCAGAGGAAATTCGGCGCTCCAAAGCAGGGCTGTCCCGATAG	MTRISREMMKDMLSVYFIMGSNNTSADPVSVVKKAIEGGATLFQFREKGSGSLTGDERVLFAKRVQDVCRQAGIPFIINDDVELALRLEADGVHIGQDDADAEETRAAIGDMILGVSAHNVSEVKRAEEAGADYVGMGPVYPTETKKDAEAVQGVTLIEEVRRQGITIPIVGIGGITADNAAPVIEAGADGVSMISAISQAEDPKAAARKFSEEIRRSKAGLSR	PGPT0008995_999	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
D1-12_02309	1257	efeN	COG2837	putative deferrochelatase/peroxidase EfeN	ATGAGCGATGAACATAACAAGGAAAAACAGATCCACAGACGGGATGTCCTGAAGTGGGGCGCCGTCGCGGGCGCAGCCGTCGCTGTCGGAGCGAGCGGCCTCGGAGGACTCGCGCCGCTCTTCAAACCGGCGGCCACCGCTTCAAAGAAGAATGATGAAAAACATGATCGTGATCAAATCGTTCCTTTTTACGGAAAGCACCAAGCAGGAATCACAACAATGCATCAGACGTATGTGTATTTTGCGGCGCTTGATGTCATGTCAAGCGACAAAGCCGATGTCATCTCCCTTTTCAAACAATGGACAAGCTTGACGCAGCTGCTGACTTCAGGCGCCGTCCCGTCAGGCGAACAGAAAAATAAAGATATGCCTCCGCAGGATACCGGGGAGTCGCAGGATCTGGCACCGGCGAATTTGACCGTTACCTTCGGCTTCGGCCCCGGGTTTTTCGAGAAAGACGGGAAGGACCGCTTCGGACTGAAGGATAAAAAACCGAAGCACCTCGCCGATATTCCGCCGATGCCTAACGACAAGCTCGATAAGAAACAAGGCGGCGGTGATATCGTCATACAGGTCTGCGCGGATAATGAACAAACGGCGTTTCACGCGGTGCGCAACCTGATGAAACAGGCATCGGGTGTGTGTGAAGTCCGCTTTCTCAATAAAGGTTTCTTAAGCGGCGGAAAAAACGGAGAAACACCGCGCAACCTCTTCGGATTCAAAGACGGCACCGGCAACCAAAGCACGAAGGATGAAAACCTGATGAATTCGATCGTTTGGGTTCAATCAGGAGAGCCGGACTGGATGACGGGCGGCACGTACATGGCGTTTAGGAAAATTAAGATGTTTTTAGATATATGGGACCGTTCATCCTTGAAGGAACAAGAGGACACGTTCGGGCGGGTGAAAAGCTCGGGCGCGCCTTTCGGACAAAAAAAGGAAACCGATCCCGTGAAGCTGAATCAAATTCCCGCCGACTCGCATGTCAGCGTGGCAAAATCAACCGGCAGACAGATTCTGCGCCGGGCATTTTCCTATACGGACGGAATTGATCCGAAGACGGGCTATGTTGACGCAGGCCTGTTGTTTATCTGCTTTCAAAAAGACCCGGACCGCCAATTTGTCCCGATGCTGAAGGCTTTGGCGGCAAAGGATGCGCTGAATGAATACACACAAACGATCGGCTCTTCCTTATTCGCCTGTCCCGGCGGCTGTAAAAAAGGAGAATATATCGCCCAAAGGCTGCTGGAATCGTGA	MSDEHNKEKQIHRRDVLKWGAVAGAAVAVGASGLGGLAPLFKPAATASKKNDEKHDRDQIVPFYGKHQAGITTMHQTYVYFAALDVMSSDKADVISLFKQWTSLTQLLTSGAVPSGEQKNKDMPPQDTGESQDLAPANLTVTFGFGPGFFEKDGKDRFGLKDKKPKHLADIPPMPNDKLDKKQGGGDIVIQVCADNEQTAFHAVRNLMKQASGVCEVRFLNKGFLSGGKNGETPRNLFGFKDGTGNQSTKDENLMNSIVWVQSGEPDWMTGGTYMAFRKIKMFLDIWDRSSLKEQEDTFGRVKSSGAPFGQKKETDPVKLNQIPADSHVSVAKSTGRQILRRAFSYTDGIDPKTGYVDAGLLFICFQKDPDRQFVPMLKALAAKDALNEYTQTIGSSLFACPGGCKKGEYIAQRLLES	PGPT0003720_829	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003720-efeB-K16301	NA	NA
D1-12_02310	603			hypothetical protein	ATGACACTGCAGATTAAAGTATATTCTGATTATGTATGTCCGTTTTGCTATGTCGGCAAGGCGGCGTTTGAAGAAGCAATCAAGGACAAGGACGTACAGGTGGAATGGATGCCGTTTGAATTGCGTCCGAGCCCCTCGCCGAAACTTGATCCGGTGAATGATCCCGCCAAGCGGCAGATGTGGAAAAACTCCATTGAGCCGATGGCGCAGTCGTTAGGCGTTGAAATCACGTTCCCCCGCGTGTCACCGCATCCTTACACGGATTTGGCATTTGAAGGCTTTCATTTCGCAAAGGAACACGGGAAAGGAAGCGAATACCATACACGCGTTTTTCAGGCGTTCTTTCAGGAAGAACAAAATATCGGTGACGTTGGCGTGCTGACAAAGCTTGCGGAAGAAGCCGGACTTGACGGCGCTGCCTTCAAAGAGGCGCTTGAGACAAGAGCGTACAAGGACGTACAGCGGGAAGCGCTCCGCCATGCTTATGAGGAAGCCGGCATTACGGCAGTGCCGACGTTTATCATCGGCGATGAGAGAATCCCTGGCGCGGCGGGAAAGGAAACCTTTGAACAAATCATTGAGCGGGAACTGAATAAACGTTAA	MTLQIKVYSDYVCPFCYVGKAAFEEAIKDKDVQVEWMPFELRPSPSPKLDPVNDPAKRQMWKNSIEPMAQSLGVEITFPRVSPHPYTDLAFEGFHFAKEHGKGSEYHTRVFQAFFQEEQNIGDVGVLTKLAEEAGLDGAAFKEALETRAYKDVQREALRHAYEEAGITAVPTFIIGDERIPGAAGKETFEQIIERELNKR				NA	NA	NA	NA	NA
D1-12_02311	675			hypothetical protein	ATGGATTCACATTCATTTCTGTTTGTCGTCTGTGTGAATGATGAGTCGCTGTACTCCCGGTGCAAGAGCCATATCATGCAGCTTACCGTCCCCCCTTCATACTCCGTTGATATCATGCCGATATACGATTCAGCAAGCATGGCCTCGTCCTACAACAAAGCGCTGAAACACCCCTCCAAATATAAAATTTATCTGCATCAGGATACTTTTATCATTCATCAGCATTTCCTTCATGACATGCTTCATATCTTTCAATCTCATCAGGAGCTCGGCCTTCTCGGTGTCGCCGGCTGCAAAACCCTGCCGCCGAACGGCATTTGGTGGGAAAGCGGACAGCGGATGGGAAAAGTGATTGAATACCGGGGGAATGCTTATCACCCGCTGGATTTTGAGCACGGTGATGAAGACGGCCTGTTTACGCCCGCTGACGCCATTGACGGCTTGTTAATGGCGGCTCAATATGACGTGGAGTGGCGGGAGGATTTGTTTCGCGGCTTTCATTTTTACGACACATCACAGTCGCTCGAATTTCAAAAACACGGCTATCAAGTCGGCGTCGCCTGCCAGAAAGACCCTTGGTGCCTTCATTTTTGCGGCGACTCATTTGACGCCGCGGCATATGAAGCGGACAGACAAACATTTATCAAACACTATATGGCAAAACCCTCTCGCTGA	MDSHSFLFVVCVNDESLYSRCKSHIMQLTVPPSYSVDIMPIYDSASMASSYNKALKHPSKYKIYLHQDTFIIHQHFLHDMLHIFQSHQELGLLGVAGCKTLPPNGIWWESGQRMGKVIEYRGNAYHPLDFEHGDEDGLFTPADAIDGLLMAAQYDVEWREDLFRGFHFYDTSQSLEFQKHGYQVGVACQKDPWCLHFCGDSFDAAAYEADRQTFIKHYMAKPSR				NA	NA	NA	NA	NA
D1-12_02312	681	COQ3_1		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGGATACGAATCCCTATTATGATGAAAAACAACAGAACTACTACGAAGGCCTGAATCCTTATTTATTGAACAAAATAGACGAAAACTGGCGGACAGTGCTTGATGTCGGCTGCGGCACGGGCAATTTAGGAGCGGCGATCGAAGACCGCGGAATAACGGTTTACGGCATTGAAGCGTATCCCGAAGCCGCAAAAAAGGCGGAAAGCAAATTGAGCCACGTGCTTTGCGGCGACATTGAATCCGCCATTCTTCCGTACGAATCAGAGCAATTCGACTGCATGCTGTTCGGAGACGTTCTTGAGCATCTTATCGACCCGTGGACAGTGCTGAAAAAGCTTCGTCCTTATGTAAAAAAAGACGGCACGGTGCTTGCATGCATACCGAATGTCGGCCACATCTCAGTCGTGCTGGAGCTTTTAGCCGGCAAATGGACTTACAGTGACGCCGGATTAATGGATCAGACCCACCTGCGTTTTTTTACCCGGGAAGAGACTCTTTCATTATTTAAAGCCGCCGGCTATGAGGTCAAACGCATTGAGGCGATCCGCGTTGATCACCCTTCTTACCACAAAGCCATCGCATCATTGCACGAAGTATGCGTACAGCTTGGCATAAGGCATGACTTTATGACAGAAGCATCGGCCTATCAATATGTGATTGAGGCCGAGAGGAGCATGTAA	MDTNPYYDEKQQNYYEGLNPYLLNKIDENWRTVLDVGCGTGNLGAAIEDRGITVYGIEAYPEAAKKAESKLSHVLCGDIESAILPYESEQFDCMLFGDVLEHLIDPWTVLKKLRPYVKKDGTVLACIPNVGHISVVLELLAGKWTYSDAGLMDQTHLRFFTREETLSLFKAAGYEVKRIEAIRVDHPSYHKAIASLHEVCVQLGIRHDFMTEASAYQYVIEAERSM				NA	NA	NA	NA	NA
D1-12_02313	162	slrA		Transcriptional regulator SlrA	ATGAAAACTCATGTAATGAAAGATATAGATCAAGATTGGCAATTGTTAATTCAAGAGGCTAGAATCATGGGTTTGCACATTGACGATGTGAGGCGCTTCTTAAATACTGAAAAAGCGGTGAAGAAAAAAACACCAATGAAAAACACCATCCGCCAGCGGTAA	MKTHVMKDIDQDWQLLIQEARIMGLHIDDVRRFLNTEKAVKKKTPMKNTIRQR				NA	NA	NA	NA	NA
D1-12_02314	624			hypothetical protein	ATGAAAAAAAACAAATTTCAAATTAAGAGAGAAGAAACATTTGAAAGTTTTATTGACGCAGGCCTTCATCTCCTGATTGAAAGAGCTTACGATTCAGTCTCAATCGATGACATCAGTAAAGCGGCGGGTTTCAGCAAAGGGGCGTTTTACGTTCATTTTGAAAGCAAGGAAGATTTTCTGAAGCATTTGTTAGAGAGGCGTCAGATTAAAAAAAGGATCATCACTGGCTATCTCGACGAATTAGAAAAGCAAACAGAGCGGCCGTTGACGCTTTGTGAAGCCGCGGCCAGCGCGGCCAGCCTGTTGATGCGGTTTGTAAACAGCAAGCCTGCCTGGAATGTTGTGTCTTTTGCCGTTCATATGCCTACTTACAAAGTCGTCAGTGAATATGAAGCTTATATCCGCCTGTATAAGTTATGGATAGAAGAAAGCACCATGTACATAAATTGGCTCAAATCGAGAAATTTAATAGAAGACCATATAGATACCGAGCATACCGCTAACATGATGTGCGCGCTCATCGACGGGATGATTAAGCAATCCAATGTGCTGGGAAGGCCGGTTACTTTCCGCAGCATGTTTGACGCGCTCTATGTTTTTGTCAGCGGCAGAAAATCAGGGTAA	MKKNKFQIKREETFESFIDAGLHLLIERAYDSVSIDDISKAAGFSKGAFYVHFESKEDFLKHLLERRQIKKRIITGYLDELEKQTERPLTLCEAAASAASLLMRFVNSKPAWNVVSFAVHMPTYKVVSEYEAYIRLYKLWIEESTMYINWLKSRNLIEDHIDTEHTANMMCALIDGMIKQSNVLGRPVTFRSMFDALYVFVSGRKSG				NA	NA	NA	NA	NA
D1-12_02315	408			hypothetical protein	ATGCGCTACAGAGAAATTATGATGTATATCATTATGGGGATATTCACGACCATCGTGAATATCGTCAGTTTTTACATTCTGACGTCGGCATTTGAGATGGATTACAAGGCGGCGACTGTCGCCGCTTGGATTCTGTCCGTTCTATTTGCTTATGTTACGAATAAACGGTATGTCTTTCAGCAAAAGACCGCGGGGATGCGGAGTCTGATGAAAGAATTAACGGCCTTTTTCAGCGTGCGGGTACTGTCTCTCGCCATCGATCTCGCCATGATGATTCTTCTGGTCAGTCAATTTCATATGAACGAAACATTGGCGAAAATCGCCGATAACGTCATTATTGTAGTCGTCAACTATGCGGCCAGCAAGTGGATTGTCTTCAGAAAAGCGAAAGAAGAGGGCGTGTCATAA	MRYREIMMYIIMGIFTTIVNIVSFYILTSAFEMDYKAATVAAWILSVLFAYVTNKRYVFQQKTAGMRSLMKELTAFFSVRVLSLAIDLAMMILLVSQFHMNETLAKIADNVIIVVVNYAASKWIVFRKAKEEGVS				NA	NA	NA	NA	NA
D1-12_02316	1542	galT_2		Galactose-1-phosphate uridylyltransferase	ATGGCAATTGAGCGGCACGTGGAACGTTTAATCCGGTACGGATTGCAAAAAGAGCTGATTTCATTTCTTGATATTGAATATACAAGAAACCGTTTATATGAAACTTTGCATATTACCCATCCGGAGGCTTCAGAACAGAAAGAAAATGAATCGGCGGCATCATTGCCGGACATATTGGCCCCGATTTATGAATGGGCGGCAGAAACGGGCCGGATTGCAGCCGATACAGAGACCTATCGCGACCTGCTGAGCGCGAAGATCATGGGCTGCTTTGCCCCGCAGCCGTCCGAGATTGTGCGTCGTTTTGAAGAAACAAAGGCGGTGCACGGGCCGGAGCAGGCGACAAAGGCGTTTTACCGATTTTCAGAGGATGTGTATTATATCCGTTCGGACAGAATACAGCGGAATGTCGGGTGGACGGCTGAGACGGCTTACGGAAAGCTGGACATCACGATCAACCTTTCAAAACCGGAAAAAGATCCGAAAGCAATTGCCGCTGCCAAAGAGCAGCCTCAATCCGATTATCCGAGATGTGTTCTTTGTAAAGAAAATGTCGGGTACGAGGGGAGACCGGATCACCCGGCGCGTCAAAACCTTCGTGTCATTCCGGTCATTCTCGGCGATGAGCAGTGGTTTCTGCAATTTTCTCCGTATGTGTATTACCGGGAGCATTGCATCGTTTTGAAAGGCCGGCACGAACCGATGAAGATCAGCAAAAAAACGTTTGACCGGCTGCTGTCGTTTGTCAGCCAGTATCCTCATTATTTTCTCGGTTCCAATGCTGATCTGCCGATTGTCGGCGGCAGTATTTTAAGCCACGACCATTTTCAGGGGGGCCATTATGAATTCCCGATGGCGCGGGCGGAGACAGAAAGCTGGTACAGGCTGCCTGACTATCCGAAAACGGTGCTGGGAATTGTGAAGTGGCCGATGTCGGTCATCCGCCTGCAGAGCGAGAGCGCGTCTGAGCTTTCCGGCGCGGCGGATGCCATCCTGCGGGCATGGCGCGGTTATTCCGATGAGGCGGCTGATCTCCTCGCCTGTTCAGGAGAAACACCGCACAATACAATTACGCCGATTGCCCGGCGGAGAAACGGTTTATTCGAATTAGATCTCGTCCTCAGAAATAACCGCACCTCTGATGATCATCCGCTGGGAATTTTTCATCCCCATCAGGAAGTTCATCACCTGAAAAAAGAAAATATCGGACTGATTGAGGTAATGGGGCTTGCGATTCTGCCGGGCCGCCTTGAACAAGAAATGAAATACACGGCTGAAGCGCTGTGCTCACCGGACCCGGAGGCGGTCTTAACGGCAGACCCTTCTGCGGCAAAGCATAAAGATTGGGCGCTCAGTGTGCTGCATAAGCGGAAGGTAACGAAAGAAAATGCGGAACAGATTCTGAAAGAGGAAATCGGCCATGCCTTTGCGCGGATACTGGAGCATGCCGGCGTCTTTAAACAGACAGAAGAAGGCAGAGCGGCTTTCCGGCGGTTTATCCGCCATTTGGGCGCTCTACCGGAAAAAAGCCCCATCCCATAA	MAIERHVERLIRYGLQKELISFLDIEYTRNRLYETLHITHPEASEQKENESAASLPDILAPIYEWAAETGRIAADTETYRDLLSAKIMGCFAPQPSEIVRRFEETKAVHGPEQATKAFYRFSEDVYYIRSDRIQRNVGWTAETAYGKLDITINLSKPEKDPKAIAAAKEQPQSDYPRCVLCKENVGYEGRPDHPARQNLRVIPVILGDEQWFLQFSPYVYYREHCIVLKGRHEPMKISKKTFDRLLSFVSQYPHYFLGSNADLPIVGGSILSHDHFQGGHYEFPMARAETESWYRLPDYPKTVLGIVKWPMSVIRLQSESASELSGAADAILRAWRGYSDEAADLLACSGETPHNTITPIARRRNGLFELDLVLRNNRTSDDHPLGIFHPHQEVHHLKKENIGLIEVMGLAILPGRLEQEMKYTAEALCSPDPEAVLTADPSAAKHKDWALSVLHKRKVTKENAEQILKEEIGHAFARILEHAGVFKQTEEGRAAFRRFIRHLGALPEKSPIP	PGPT0017835_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965	NA	NA
D1-12_02317	246			hypothetical protein	ATGGGTTTTATCGTATCTCTGATTGTCGCTATTATTATCGGCTGGATCGGAAGTTTATTTGTAAAAGGCAGTATGCCCGGGGGAATCATCGGGTCAATGATCGCCGGTCTGATCGGCGCATGGATCGGGCACGGACTGCTCGGCACATGGGGGCCTCACCTTGCCGGCTTTGCCATCATTCCGGCAATCATCGGAGCTGCGATCGTGGTATTCTTATTCAGCCTGATCGCCAGAAGCAGAGGATAA	MGFIVSLIVAIIIGWIGSLFVKGSMPGGIIGSMIAGLIGAWIGHGLLGTWGPHLAGFAIIPAIIGAAIVVFLFSLIARSRG				NA	NA	NA	NA	NA
D1-12_02318	966	qoxA		Quinol oxidase subunit 2	GTGATCTTCTTGTTCAGAGCATTTAAACCGTTACTTTTATTAGCGATGTTGGCTGTTGTTTTCGTACTGGGCGGATGCAGCGACATTTCCGTTTTAGATCCGAAAGGACCTGTAGCAGACCAGCAGAAAGATCTGATTCTCTTGTCAATCGGATTTATGCTGTTCATTGTCGGCGTCGTATTCGTACTATTTACAATCATTTTAGTGAAATACCGCGACCGCAAAGGCAAAGACAGCGGAAATTACAAGCCCGAGATGCACGGCAACACGTTCTTAGAAGTAGTCTGGACAGTGATCCCAATTTTAATTGTTATTGCACTTTCTGTGCCTACCGTACAGACGATATATTCGTTAGAAAAAGCGCCTGAAGCGACAAAGGATAAAGAGCCTCTTGTTGTTTATGCTACTTCGGTAGACTGGAAATGGGTATTCAGCTACCCTGAGCAGGATATTGAGACGGTTAACTACCTGAACATTCCTGTAGACCGTCCGGTTTTATTTAAAATTTCTTCAGCAGATTCAATGGCATCGCTATGGATTCCTCAGCTTGGGGGACAAAAATACGCGATGGCGGGAATGCTGATGGATCAATACTTACAGGCTGACAAAGTGGGAACATATGAAGGCCGCAACGCGAACTTCACCGGCGAACACTTTGCCGACCAGAAATTCAACGTAAAAGCTGTTACGCAAAAAGACTTTAACAGCTGGGTGAAAAAAGCCCAAAGCGATTCTCCAAAGCTGACGAAAGAGAAGTATGACGAACTGATGCTTCCGGAGAATGTCGGAAAATTAACGTTCTCTTCTACACACTTAAAATACGTTGACCACGGCCAAGATGCCGAATATGCGATGGAGGCGCGCAAACGCCTTGGCTACAAAGCCGTATCACCGCACTCTAAAACAGACCCGTGGGAAGATGTAAAGAAAAACGAATTTAAAGTATCCGACGATAAACAAGATTGA	MIFLFRAFKPLLLLAMLAVVFVLGGCSDISVLDPKGPVADQQKDLILLSIGFMLFIVGVVFVLFTIILVKYRDRKGKDSGNYKPEMHGNTFLEVVWTVIPILIVIALSVPTVQTIYSLEKAPEATKDKEPLVVYATSVDWKWVFSYPEQDIETVNYLNIPVDRPVLFKISSADSMASLWIPQLGGQKYAMAGMLMDQYLQADKVGTYEGRNANFTGEHFADQKFNVKAVTQKDFNSWVKKAQSDSPKLTKEKYDELMLPENVGKLTFSSTHLKYVDHGQDAEYAMEARKRLGYKAVSPHSKTDPWEDVKKNEFKVSDDKQD	PGPT0004030_1778	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
D1-12_02319	1950	qoxB		Quinol oxidase subunit 1	ATGAAATTGAGATGGGATGAATTTTTTGTAACAGGTGACCCATTAATTCTGGGCGCACAAGTTTCTATTGCGCTTTCCACTATCGCTATCATCGTTGTACTCACATACTTCAAAAAGTGGAAATGGCTCTGGTCTGAATGGCTGACGTCTGTAGACCATAAGAAACTTGGAATCATGTACATTATCTCTGCTGTTATCATGCTGTTCCGCGGCGGGGTCGACGGCTTGATGATGCGCGCCCAGTTAGCGCTTCCTAATAACAGTTTTTTAGACTCAAACCACTATAATGAGATCTTTACGACTCACGGTACGATCATGATTATCTTCATGGCGATGCCGTTTTTAATCGGTCTGATCAACGTTGTCGTACCTTTGCAGATCGGTGCGCGCGACGTAGCATTCCCTTACTTGAACAACCTGAGTTTCTGGACGTTCTTCGTAGGTGCGATGCTTTTCAATATTTCTTTCGTTATCGGAGGTTCTCCGAACGCAGGATGGACGAGTTACATGCCGCTGGCAAGCAACGACATGAGTCCCGGGCCTGGTGAGAACTTCTACCTGCTCGGTCTTCAGATTGCCGGTATCGGTACGCTGATGACGGGTATCAACTTTATGGTGACGATCCTGAAAATGCGTACAAAAGGCATGACGCTGATGCGTATGCCGATGTTCACATGGACGACGCTGATTACAATGGTTATTATCGTATTCGCCTTCCCTGTTTTGACAGTGGCATTGGCGCTGTTATCATTTGACCGTTTGTTCGGCGCTCACTTTTTCACGCTGGAAGCCGGCGGTATGCCGATGCTTTGGGCTAACTTGTTCTGGATTTGGGGACACCCTGAAGTATATATCGTTATCTTACCGGCATTCGGTATTTTCTCTGAAATTATTTCAGCGTTTGCAAGAAAGCAGTTATTCGGTTACAAAGCGATGGTCGGCTCAATTATCGCCATTTCCGTCCTGAGTTTCCTTGTATGGACCCACCACTTCTTCACAATGGGGAACAGTGCGTCCGTTAACTCTTTCTTCTCGATTACAACGATGGCGATTTCGGTTCCGACCGGGGTTAAAATCTTTAACTGGCTCTTTACGATGTATAAAGGCCGGATCAGTTTTACAACACCGATGCTGTGGGCGCTTGCGTTCATCCCGAACTTCGTTGTCGGCGGGGTAACAGGGGTTATGCTTGCGATGGCTGCAGCGGATTATCAATACCATAATACGTACTTCCTCGTATCTCACTTCCACTATGTGCTGATCGCGGGTACGGTATTTGCATGTTTCGCAGGATTTATTTTCTGGTATCCGAAAATGTTCGGCCACAAGCTGAACGAAAGAATCGGAAAATGGTTCTTCTGGATCTTTATGATCGGATTTAATGTATGTTTCTTCCCTCAATACTTCTTGGGGCTGCAAGGTATGCCTCGCCGTATTTACACTTACGGACCGAATGACGGATGGACTGCATTGAACTTTATTTCAACTGTCGGAGCCTTCATGATGGGTGTCGGATTCTTAATCCTTTGCTACAACATCTACTACAGCTTCCGCTACTCTACTCGCGAGATCAGCGGAGATTCATGGGGCGTGGGACGTACGCTTGAGTGGGCGACTTCATCTGCGATTCCGCCGCATTACAACTTTGCGGTGCTTCCAGAAGTGAAATCTCAAGATGCGTACCTGCAATTGAAAGAAGACAAAACGGATATTCATCCGGAAAGCAAGTTCAAGAAAATCCATATGCCGCACAACTCCGGAAGACCGCTTATTATGTCAGTGGCGTTCGGTATTGCTGGCTTCGGACTTGTATTTGAATGGTTCTGGATGGGCATTGTCGGCTTGATCGGCATTCTGCTTTGCATGGTGCTTCGTTCATTTGAATATGACAATGGCTACTATATACCTGTTGAAGAAATAAAAGAGACGGAAAGAAAGATTTCCGAATAA	MKLRWDEFFVTGDPLILGAQVSIALSTIAIIVVLTYFKKWKWLWSEWLTSVDHKKLGIMYIISAVIMLFRGGVDGLMMRAQLALPNNSFLDSNHYNEIFTTHGTIMIIFMAMPFLIGLINVVVPLQIGARDVAFPYLNNLSFWTFFVGAMLFNISFVIGGSPNAGWTSYMPLASNDMSPGPGENFYLLGLQIAGIGTLMTGINFMVTILKMRTKGMTLMRMPMFTWTTLITMVIIVFAFPVLTVALALLSFDRLFGAHFFTLEAGGMPMLWANLFWIWGHPEVYIVILPAFGIFSEIISAFARKQLFGYKAMVGSIIAISVLSFLVWTHHFFTMGNSASVNSFFSITTMAISVPTGVKIFNWLFTMYKGRISFTTPMLWALAFIPNFVVGGVTGVMLAMAAADYQYHNTYFLVSHFHYVLIAGTVFACFAGFIFWYPKMFGHKLNERIGKWFFWIFMIGFNVCFFPQYFLGLQGMPRRIYTYGPNDGWTALNFISTVGAFMMGVGFLILCYNIYYSFRYSTREISGDSWGVGRTLEWATSSAIPPHYNFAVLPEVKSQDAYLQLKEDKTDIHPESKFKKIHMPHNSGRPLIMSVAFGIAGFGLVFEWFWMGIVGLIGILLCMVLRSFEYDNGYYIPVEEIKETERKISE	PGPT0004025_530	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-12_02320	615	qoxC		Quinol oxidase subunit 3	ATGGAACATGCAGAACACGGCAATTCTAACGCGCCTATGGAATATCAATCTGAAACCGGCAGACTCAATATTCTCGGGTTTTGGATCTTTTTAGGGGCAGAGATTGTGTTGTTCTCAACACTATTTGCAACCTTCTTCGTTCTTCAAAGAAGAACAGCAGGAGGAGTCTTACCGGCTGAATTATTTGAAGTGAAGCTTGTCATGATCATGACATTCCTGCTTCTGATCAGCAGTTTCACCTGCGGGATCGCTGTTCATGAAATGCGTCGCGGAAGTTTAAAAGGCGTCGTCATTTGGACGATCATTACGCTTCTTCTCGGCGCGGGCTTTGTCGGATGTGAGCTTAACGAGTTCATCCACTATGTACATGAAGGAGCATCTCTCGGTACAAGTGCTTTCTGGTCTGGATTCTTCGTCCTTCTGGGAACGCACGGAACGCACGTAACGATCGGTATCTTCTGGATTGCCGGCATCTTACTGCAATTGAAGAAACGCGGATTAACGCCGCAGACGTCTTCAAAAATCTTTATCTCAAGTTTATACTGGCACTTCTTAGACGTTGTTTGGATCTTCATCTTTACAGGCGTCTATCTCATCGGATTGGGGGGACTATAA	MEHAEHGNSNAPMEYQSETGRLNILGFWIFLGAEIVLFSTLFATFFVLQRRTAGGVLPAELFEVKLVMIMTFLLLISSFTCGIAVHEMRRGSLKGVVIWTIITLLLGAGFVGCELNEFIHYVHEGASLGTSAFWSGFFVLLGTHGTHVTIGIFWIAGILLQLKKRGLTPQTSSKIFISSLYWHFLDVVWIFIFTGVYLIGLGGL	PGPT0004035_2584	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
D1-12_02321	369	qoxD		Quinol oxidase subunit 4	ATGGCAAACAAATCTGCTGAACACAGCCACTTTCCGTGGAAGCATATCGTAGGTTTTGCGTTGTCTATTATTCTGACCCTGCTGGCCCTTTGGGTTGCGGTATATACGGATTTAAGCTCATCAGCAAAACTGTGGATCATTTTCGGATTCGCATTTATCCAAGCCGGTCTTCAGCTTCTCATGTTCATGCACATGACAGAAAGCGAAAACGGCGGGATTCAAGTCGGAAACACGCTCTTCGGATTTTTCGGAGCGATTGTTATCATCCTTGGTTCCATCTGGATCTTTGCGGCGCACTACCATCACGGTGACCATATGGATGGAAACCCTCCTGGCGGTGCGAAGCAACATTCCGAACATCAGGAATAA	MANKSAEHSHFPWKHIVGFALSIILTLLALWVAVYTDLSSSAKLWIIFGFAFIQAGLQLLMFMHMTESENGGIQVGNTLFGFFGAIVIILGSIWIFAAHYHHGDHMDGNPPGGAKQHSEHQE				NA	NA	NA	NA	NA
D1-12_02322	261	ywcE		Spore morphogenesis and germination protein YwcE	ATGGACATGTTTTTTGCTTATTTACTGGTCGCAAGCGCAACACCCCTCTTTATCTGGCTGGATAACAAAAAAGTCGCTCTTTCGGCCATACCGCCAATTATTCTCATGTGGGTTTTCTTCTATTTTTACGCAACCAGCAGCCTGTCCCCTCTCGGCCACACACTCATGATCATCCTGTTTGCCGTCAACGTCATCGTTGCCCATATCGCCGCCTTTATCATTTACGGCCTTCCGCGCCTGCGCCGGAGAAGAAGCCAATAA	MDMFFAYLLVASATPLFIWLDNKKVALSAIPPIILMWVFFYFYATSSLSPLGHTLMIILFAVNVIVAHIAAFIIYGLPRLRRRRSQ				NA	NA	NA	NA	NA
D1-12_02323	459	ysnE		putative N-acetyltransferase YsnE	GTGGACATAACAAAAGACGATGTCACAGCGCCGGACGTCATTGCGCTTTTGCAGGAGCATCTGAAGAGCATGACCATGCATTCTCCCCCGGAAAGTATACACGCGCTCAATGCGGACCGGCTGCGTCAGCCTGACGTTACGTTTTGGAGTGCGAGGGAAAACGGCGTCCTGCTCGGCTGCGGCGCCTTAATGGAGCTAAACAGCCGGCACGGTGAGATCAAATCAATGAAAACGGCTCCGCATCATGTCAGAAAAGGCGCAGCCAACCGGATCCTCCGCCATATGCTTGAAGAAGCAAGGCGGCGGGGCTATCAGCGGATCAGCTTAGAAACCGGTTCTATGGAGGCTTTTCTCCCCGCCAGACGCCTGTATGAAAAAGCCGGGTTTCAATATTGTGATCCGTTTGCACATTATAAAGAGGACCCGAACAGCTTGTTTATGACGTTAAACATAGACTGA	MDITKDDVTAPDVIALLQEHLKSMTMHSPPESIHALNADRLRQPDVTFWSARENGVLLGCGALMELNSRHGEIKSMKTAPHHVRKGAANRILRHMLEEARRRGYQRISLETGSMEAFLPARRLYEKAGFQYCDPFAHYKEDPNSLFMTLNID	PGPT0007180_738	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007180-iaaT|yedL|ysnE-K03829	NA	NA
D1-12_02324	1188	rodA	COG0772	Peptidoglycan glycosyltransferase RodA	ATGAGTCGATATAAGAAACAGCAAAATCCCTATTATCAGGGGGATTTGATTTTTATATTTGGTGTGTTTTTAATAATTAGTGTTGCGGCGATTTATGCGGCCGGACAGTTCGGGCAGTACGGAGATAGTGCCTGGATGAAACAAGTTCTTTTTTATATTGTTGGTGCTGGGCTAATAGGGTTATTACTTTATTTTGATTTGGAACAGTTAGAGAAGCTTAGCATTTATGTTCTAGCTGCAGGAGTACTTTCATTACTCCTTTTGCGAATTGCGCCCGAATCCATAGCACCAATAAAAAATGGAGCTAAAAGTTGGTTTCAGTTTGGGAAATTCACTCTTCAACCTTCAGAGTTCACGAAAATAGGAATTATGATGATGGTCGCGTCCATTATATCGAAGGCGGGCCCGAAGGATCAGAGATCGTTTCGGGAAGATGTGAATCTGCTTTTGAAAATTGCGGCATGGACGGTTATTCCGATCGGGATGATCGTATTGCAGGATGCCGGAACGGGTGCGATCTGTCTGTTTATCGTTATGGTGATGGTGTTTATGTCAGGTGTGAACTGGAAGCTGATCACCATCATCGGCGGTTCGGCCGCGCTTGTGCTTGGCCTTTTCTTAATTCTCGTGATTGAATTTCCCCATGTGGCGAATTCAATCGGCATTGCGGATTATCAAATTAACCGGATTACATCTTGGATGTCTGACTCCAGTGCGGCAACGACTCAGGCAGAGAGCGATAAGAGCTGGCAGGTGGATCAGGCCGTTATGGCGATCGGATCGGGCGGCATTACCGGAAACGGCGTTCATAATCTGAAGGTGTACGTACCTGAGGGACAGACCGACTTTATCTTTGCGATTTTGGGTGAAAGTTTTGGATTTTTAGGCTGCGCCATTGCGGTTGTCATGTTTTTCTTTTTAATTTACAGACTTGTGGTGCTGATTGACCGCTTGCATGCGTTTAACCGATTTGGCGCGTTTTTTTGCGTAGGATTTACTGCACTTATCGTGATTCACACCTTCCAGAACATCGGGATGAATATCGGCATTATGCCGGTTACCGGTATTCCGCTGCTGTTTGTCAGCTATGGGGGGAGCTCGGTGCTTTCTACATTAATCAGCTTCGGGATCGTATATAACGCAAGTGTGCAGCTGACGAAATATAAAAGCTACTTGTTCAATTCTTAA	MSRYKKQQNPYYQGDLIFIFGVFLIISVAAIYAAGQFGQYGDSAWMKQVLFYIVGAGLIGLLLYFDLEQLEKLSIYVLAAGVLSLLLLRIAPESIAPIKNGAKSWFQFGKFTLQPSEFTKIGIMMMVASIISKAGPKDQRSFREDVNLLLKIAAWTVIPIGMIVLQDAGTGAICLFIVMVMVFMSGVNWKLITIIGGSAALVLGLFLILVIEFPHVANSIGIADYQINRITSWMSDSSAATTQAESDKSWQVDQAVMAIGSGGITGNGVHNLKVYVPEGQTDFIFAILGESFGFLGCAIAVVMFFFLIYRLVVLIDRLHAFNRFGAFFCVGFTALIVIHTFQNIGMNIGIMPVTGIPLLFVSYGGSSVLSTLISFGIVYNASVQLTKYKSYLFNS				NA	NA	NA	NA	NA
D1-12_02325	318			hypothetical protein	ATGAAAAAGGTAAAATATCTTTTCCTTGCTCTTTTCATGTTTTCGGGGATTCTATTTGCTAATCAACATGCAGATGCAGCTAAAGCTAATCACAAAGGTTGGACTGAGACCAAAGCAGGTAGTAACATCATGTACAAAAGAGCTGTTGGACAAACTACTTGGAAAGGTAAATATCATTACACACGAGCCCAAGTTGTTGCTTTTTGGGGAACTGTAGATGCAGATTCCGGGCGAGTTTGGGGGAAGGATAAAACAAAAGCAGTAAGTCCTTGGACAGTATCTGATTTTACAGTTTCCAAAACGTTTTATGGAAGCTAA	MKKVKYLFLALFMFSGILFANQHADAAKANHKGWTETKAGSNIMYKRAVGQTTWKGKYHYTRAQVVAFWGTVDADSGRVWGKDKTKAVSPWTVSDFTVSKTFYGS				NA	NA	NA	NA	NA
D1-12_02326	1023			hypothetical protein	GTGAAACTAAAAATCCCTCTCGTTAATATATTTTTATTTTTGTCAATATTAACATCGATCATAATACTAATAACATATTTGAACTTTAACTTAGACAAAAAAATTATGAATAAATTATCAAATAATTTTTATAGTGATCAGAGTGTTCACTTTGTTATAAAGGAAAATAAACATACTACTGATGATTTTGAGAAATTATTTAAAAAAAAGATAGGCAATTTCAATCTTTTTAAAGAGATTTCAGATACAAAAAATAAGGTATTCGGATTTTACAGTAATGGAAATATTGATAAACCTTCAATGAAAAAAGGAAGGTTTTTAAGTGAGAAGGATTACTTTAAAAAGAAACTCAAAGCGGTTGTCGGACAAAATGTCAAGGTGAAAAAGAAAAATGGTGTACAGTGTTTTGTTTATCATTCAAAATGTATAGAAGTAATAGGGGTAATGGGTTATGATTTCAAGTCCAAGATAGATGATATTGTTTACATTAATATTGATGGAATTAACAATATCAGTGATGATATATCGGGAATGTATGTTTTAGATGATATTAGTTTTAATAAAGAAATGTTTAGCCATGTAAAAGAAAAGGCTAATGAATTAGAAATTTCGTTTCTAAATGCGAAATTTAATAATTTGACAAATAAATTAGGTATGGATAACAATTTAACAGTTATAATTACTCTACTTCTATTTATATTCATTATAAAACATAATATATTACTTTACTTTTGGATATACAAAAAAAGAATTGTAATTGCAATTAACTATGTTATTGGATATTCATTAAAAAAGATTTACTTTAAATCATTTGTAAACTTCTTTATAAGTATGACTTTATCGTACATAATTGCTTTCTTTTTAGTTAGTTTATTTGAAATAAAAAATATATTAAATCAGTTTTGGTATTACTTTTATTATATTTCCTTGTTATATTCATTAGTCACCACTCTTAGTTGTATTGCCTTTTTTATTTCATGGAAAATAAGCTCGAATGGAAAAATATTGAGGGTGTTAAAATGA	MKLKIPLVNIFLFLSILTSIIILITYLNFNLDKKIMNKLSNNFYSDQSVHFVIKENKHTTDDFEKLFKKKIGNFNLFKEISDTKNKVFGFYSNGNIDKPSMKKGRFLSEKDYFKKKLKAVVGQNVKVKKKNGVQCFVYHSKCIEVIGVMGYDFKSKIDDIVYINIDGINNISDDISGMYVLDDISFNKEMFSHVKEKANELEISFLNAKFNNLTNKLGMDNNLTVIITLLLFIFIIKHNILLYFWIYKKRIVIAINYVIGYSLKKIYFKSFVNFFISMTLSYIIAFFLVSLFEIKNILNQFWYYFYYISLLYSLVTTLSCIAFFISWKISSNGKILRVLK				NA	NA	NA	NA	NA
D1-12_02327	1290			hypothetical protein	ATGATTTTAAAGCAATTAATAATTGAGGTTAAAGAAAATATATTAAAAAACAAAATTTTAAGCGGGCTTACTATTATATTAAGTTGTCTCTTTTTTTTTCTAATATCAGTTATATTCCTACAATTTGTAGAAATAGATACTAAAAAAGAAAGTTTTTATGCGAAATTTAAAAATAAGAATATTTATCAATTATCGGATAATTTATTTGATTTTAAAGAAGAACAATTTTTTTCAAATCCATCTGAATTAATAAAAATTAAGCACTTTTATATGGAATTAAATACAACAAAAGATTTCTTATATCTCAACACCACTTTACAACCAATAGGCATTAATAAATTTAAAGGCAATGATACTTTTCTTAATGGATATGAAATAGGACAAGTTGATAAACCTTATAAAATAAATGAAAAAGATGAAAATTACAGCACAGTTAAATCAGTACAATTAAATAAAAATATTTTCAGTGTCTCTGCCTTAAAGTTACAAGAAGGCTCATTATTTAAAAGCAGTGATTTTATTTATGAAGAATTTAAAGAGATACCTGTTTTATTAGGAAGCGACTATAGTGATGTATATAAGTTGGGAGATATTATTGAAATTGATTATGTAGATAAAAAATTAAAGGGGAGGGTAACTGGCATTTTAGATTCAAATTCTGTGTTGCCAGTTAGGGACCAAATAGAATTTAATCTCGACCGTTATATTATCCTTCCAGAATTAATTATCCAGCAAAGTCCCCGTAATAGTTCTGATTTAATCTTTCAACAAAGACATTATTTGCAGCTAATAAATGGCCAGTTGCTATCTGCGAAAGACACCCTTGAAATTAGAAAAAATATGAAAAGGATATCTCAAAAAACAGGTTTTGAAGATTATATAGTAATTGGTGCAAATGGGTTAGGGATAGATATTGTTTTTTCAATGTTAAAACAAAGTCAAAATTTACTTATATTGTTTGCCTTACTGTTGTTTATTCTTTGTATTCTGAGTATATCAATTGCATATAATATAAAGTGGGATATTGTCCTTAGGAAATATTCAATTCATCTTATTTCTGGAGCAACTATCAATAACATATATGTATTTATGTTTTCAGAAGTAGCTTTAATTATTTTGAGTAGTTTGTTGATTGTATTTATTTCGATTAAATCTATTGGTATTATGCCTTGGTTTTATTATTTAATTATGATGGTAACTGGAGTTTTTACTGTTTTATTGGGTATACTACCGGTATACATAAGATTAAAAAAAGTAAATTTCTCAGCTCTGCTAAAGGGGAAGGAATGA	MILKQLIIEVKENILKNKILSGLTIILSCLFFFLISVIFLQFVEIDTKKESFYAKFKNKNIYQLSDNLFDFKEEQFFSNPSELIKIKHFYMELNTTKDFLYLNTTLQPIGINKFKGNDTFLNGYEIGQVDKPYKINEKDENYSTVKSVQLNKNIFSVSALKLQEGSLFKSSDFIYEEFKEIPVLLGSDYSDVYKLGDIIEIDYVDKKLKGRVTGILDSNSVLPVRDQIEFNLDRYIILPELIIQQSPRNSSDLIFQQRHYLQLINGQLLSAKDTLEIRKNMKRISQKTGFEDYIVIGANGLGIDIVFSMLKQSQNLLILFALLLFILCILSISIAYNIKWDIVLRKYSIHLISGATINNIYVFMFSEVALIILSSLLIVFISIKSIGIMPWFYYLIMMVTGVFTVLLGILPVYIRLKKVNFSALLKGKE				NA	NA	NA	NA	NA
D1-12_02328	654	yknY_2	COG1136	putative ABC transporter ATP-binding protein YknY	ATGGAGATCCTGAGATTTTCGAATGTCAAAAAATCATATAATGAAAAGTGCATTTTATTTAATGTCAATATAAACATTAAAGTGGGTGAAATGTTATCCATCATGGGTAAAAGCGGAGCAGGTAAATCTACAATCCTACATATCATGTCAGGATTAGAAAAAGCGAGTAAAGGAGATTATTTTTTTAAAGGGAAGAATATCTCTGGCTACAATCACAAACAACTTGCAAGGTTTCGTCATGAAAATATAGGATTTATTTTTCAAAACTCTGCTTTAATTGATGAGAAGAATGTATTTCATAATGTGGCTTTACCACTGATTTATTCAAAAGAAAATAAACCGGAAATTAGAGAAAAAGTAAATAATATACTAAGTGAGTTAGAACTTAGTGATTATATCTATAAGTATCCTAAAGAGCTATCTGGAGGCCAGGCACAAAGGGTAGCTATTGCGAGGGCTCTTATTAATGAACCATCTCTTATTTTAGCGGATGAACCAACTGGGTCTTTAGATGCTGAAACTGAAAAGCTGGTGTTGAATTTATTCTTAAGACTTAGTAATAAAGGCAAAACCTTAGTTATAGTAACTCATGATCAAACAGTTGCAGATAAATGTGATCGTATAGTTACTCTAAAAAACGGAGTGTTAGTTTAA	MEILRFSNVKKSYNEKCILFNVNINIKVGEMLSIMGKSGAGKSTILHIMSGLEKASKGDYFFKGKNISGYNHKQLARFRHENIGFIFQNSALIDEKNVFHNVALPLIYSKENKPEIREKVNNILSELELSDYIYKYPKELSGGQAQRVAIARALINEPSLILADEPTGSLDAETEKLVLNLFLRLSNKGKTLVIVTHDQTVADKCDRIVTLKNGVLV	PGPT0013345_14719	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-12_02329	750	nfrA1	COG0778	FMN reductase (NADPH)	ATGAACAATACCATCGAAACCATACTTAATCATCGGTCGATCCGATCATTTACTGACGAGCTTCTGACAGCAGAAGAGATAGATACATTAGTGAAAAGCGCCCAGGCGGCGTCAACGTCCAGTTACGTGCAGGCTTACTCCATCATCGGCGTAACCGATAAGGAGAAAAAGCGGAAGCTGGCGGCACTGGCCGGAAACCAGCCTTACGTCGAAAATAACGGGCACTTGTTTGTGTTTTGCGCTGATTTGTACCGCCATAAAAAACTTGCTGAGGAAAAAGGAGAAAACATTACCGAGCTTCTTGAGAATACGGAAATGTTTATGGTCAGCATCATTGATGCCGCACTTGCCGCACAAAACGTAAGTGTTGCCGCGGAATCAATGGGACTCGGCATTTGTTATATCGGAGGCATTCGAAATGAACTTGATCAGGTGACAGAAGTGCTTGGTACACCTGACCATGTGCTGCCGCTGTTCGGCTTGGTAGTCGGTCATCCCGCTCATCCGTCCGGTCAAAAGCCGCGCCTGCCGAAACAAGCCGTATATCATGAAAACACGTACGATACGAATGAAGAAAACTTCCGCAGTTATATGAAGGAATATGATGAAACCATTTCCGATTATTATGATAAACGGACAAACGGCAAGCGGGTTGAAACGTGGTCTGATCAAATCCTGCAGTTCATGAAACAAAAACCGAGAACCTATTTAAATCAATATGTAAAAGATAAAGGTTTTCAAAAGAATTAA	MNNTIETILNHRSIRSFTDELLTAEEIDTLVKSAQAASTSSYVQAYSIIGVTDKEKKRKLAALAGNQPYVENNGHLFVFCADLYRHKKLAEEKGENITELLENTEMFMVSIIDAALAAQNVSVAAESMGLGICYIGGIRNELDQVTEVLGTPDHVLPLFGLVVGHPAHPSGQKPRLPKQAVYHENTYDTNEENFRSYMKEYDETISDYYDKRTNGKRVETWSDQILQFMKQKPRTYLNQYVKDKGFQKN	PGPT0000290_290	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0000290-nfrA1|ywcG-K19285	NA	NA
D1-12_02330	1002			hypothetical protein	ATGATTTCATTAAGTATATTGGATCAATCTCCTGTATCAGAAGGTTGTTCTGCGGAAAGTGCACTGCGGAATACAGTAAGATTGGCGCAGGAGGCGGAAAAGCTCGGATATAAGAGGTTTTGGGTGTCAGAGCATCATTTTTCAGAGCGGTTGGCGGGCTCAAGCCCTGAAGTGCTGATCAGCCATATTGCGGCGAAAACGAATGACATTCGGGTAGGATCAGGCGGTGTGATGCTTCCGCATTACAGCGCATATAAAGTGGCGGAGAATTTCCGCGTGCTCGAAGGGTTGACGCCGGGCAGAATCGATCTCGGATTAGGGAGAGCGCCGGGCGGAATGCCGATCGCATCATGGGCGCTGAATGACGGAGGGAAGCGTAATGCTGATCAATATCCGCAGCAGCTTCGTGAGCTGGCGATGTATTTGCATGATGCAGCGGATGACAATCACCGTTTTCCGAATCTGACCGCATCACCCCTTATTAAGACGGCGCCGGAAGTCTGGCTTCTCGGTTCTTCGGGGGAAAGCGCGCTTCTGAGCGCAGAAATGGGAGCAGGCTATATGTTTGCCCATTTTATTAATGGAGAAGGCGGAGAAAGCACGACAGCACAATATAAGCGCAGATTTAAACCTTCTCTATTAGGAAAAGAACCAAAAACAGCCGTGGCGGTGTTTGTGCTGTGCGCGGACACGGAAGAGAAAGCGGAGGAACTCGCGGCCGTCATGGATTATACGCTGCTTGCGGGTGAACAGGGGATTCCGCTTCACGGCGTACCGTCTTACGAAACCGTCCGCGGCAATACGTATACACCGTATGAACAAAGACGAATTGCCGATAATCGGAATCGGATGATCATCGGAACGAAGCAGCAAGTGAAGGAACAGATTCTGGCTCTCAGTAAAGCATACGCAACAGAAGAAGTAATGGCTGTGACCATTACTCATCATTTTGAAGATAAACTTCAGTCATATCGCCTGCTTCGAGAAGCTTTTGCCGATTAA	MISLSILDQSPVSEGCSAESALRNTVRLAQEAEKLGYKRFWVSEHHFSERLAGSSPEVLISHIAAKTNDIRVGSGGVMLPHYSAYKVAENFRVLEGLTPGRIDLGLGRAPGGMPIASWALNDGGKRNADQYPQQLRELAMYLHDAADDNHRFPNLTASPLIKTAPEVWLLGSSGESALLSAEMGAGYMFAHFINGEGGESTTAQYKRRFKPSLLGKEPKTAVAVFVLCADTEEKAEELAAVMDYTLLAGEQGIPLHGVPSYETVRGNTYTPYEQRRIADNRNRMIIGTKQQVKEQILALSKAYATEEVMAVTITHHFEDKLQSYRLLREAFAD				NA	NA	NA	NA	NA
D1-12_02331	2412	vpr	COG1404	Minor extracellular protease vpr	TTGAAAAAAGGAATCATCCGTTATCTGCTTCCGGCTTTTGTCTTATCCTTTACCTTATCCACAAGTTCACAGGCTGCGCCGGCTTCAAAACCGCAAACTCCTGATCTTGAGAAGGCTGAGGTGTTCGGTGACATTGATATGACCACCGGCAAACAAACGACAGTCATCGTGGAGCTGAAGGAAAAGTCACTGGCGGAAGCAAAGGAACTCGGCAAAGCACAGACAAAAAGCAAGCTGAAAAGCGAACGCTCAAAAGTGAAAAAGAAAGCGCTCAAAACCATTAAACACGGAAAAATCAACAGGGAATATGAGCAAGTGTTTTCCGGCTTCTCCATGAAACTCCCGGCAAATGAAATCCCCAAACTGCTGAGTGATCAGGATGTCAAAGCGGTTTATCCGAATGTCACCTATCATACCGATCAGCTCAAAGATAAAGACATCACCCTATCTAAGGATGCCGTGTCTCCGCAGATGGATGACAGCGCGCCTTATATAGGGGCAAATGACGCGTGGAAGCTCGGCTATACGGGTAAAGGCGTCAAGGTTGCCATTATTGATACCGGTGTCGAATATAAACACCCTGACTTAAAGAAAAATTTCGGACAATATAAAGGATACGATTTTGTGGATAACGACTACGATCCTGAAGAAACGCCGTCCGGTGATCCGAGAGGCGCGTCGACTGACCACGGAACCCATGTCGCGGGCACGGTAGCGGCAAACGGAACGATTAAAGGCGTCGCGCCGGATGCTACACTCCTTGCCTACCGTGTGCTCGGTCCGGGCGGAAGCGGAACAACGGAGAACGTCATCGCCGGCATCGAACGCGCCGTACAGGACGGAGCGGATGTCATGAACCTTTCTCTCGGCAATTCTGTGAATAACCCAGACTGGGCGACAAGCACGGCGCTTGACTGGGCGATGTCAGAAGGCGTCACGGCCGTTACATCAAACGGAAACAGCGGGCCGAACAATTGGACCGTCGGCTCTCCGGGAACGTCCAGAGAAGCCATCTCCGTCGGAGCGACCCAGCTGCCGCTGAACGAGTACGCCGTCTCCTTCGGTTCCTATTCCTCAGCGAAAGTAATGGGGTACAACAAAGAAGATGACATAAAAGCACTGAATAAAAAAGAAACAGAGCTCATAGAGGCGGGTATCGGCGAGCAAAAGGATTTTGAAGGCAAAGATCTGAAAGGAAAAGTCGCGGTCGTCAAACGGGGCAGCATCGCCTTTGTGGATAAAGCAGACAACGCCAAAAAAGCGGGCGCGATCGGTATGGTTGTGTATAACAATGCCCCGGGAGAAATTGAAGCCAACGTACCGGGCATGTCCGTGCCGACGGTTAAGCTTTCATCAGAAGACGGCGAAAAACTCGTCAGCCAATTAAAAGCGGGCGGCACAAAAGCGACATTCCATTTATCCGTGGCTAAATCGCTCACTGAACAAATGGCAGACTTTTCGTCACGCGGTCCGGTTATGGACACGTGGATGATTAAACCTGACGTCTCCGCTCCCGGCGTAAACATCGTCAGCACCATTCCGACCCATGATCCGGCCGACCCGTACGGCTACGGATCGAAGCAGGGAACGAGCATGGCTTCCCCGCATGTAGCCGGCGCAGCTGCCGTCATCAAGCAGGCCAAACCGAAATGGAGCCCGGAACAAATAAAAGCCGCTCTTATGAACACGGCGGAAACCTTAACGGACGCGGACGGTGACGTATACCCGCATAATGCGCAAGGCGCCGGAAGCATCAGAATCATGAAGGCGATCAAAGCAGACTCCCTTGTCGCCCCGGGAAGTTATTCTTACGGAACGTTTATGAAAGACAAAGGCAATGAAACGAAAAAAGAAACCTTTACGATTGAAAACCAATCGTCCATCAGAAAATCATATCAGCTCGAGTACTCTTTCAACGGCACGGGCATTACCGTTTCGGGCACAGACCGGGTCGTGATCCCCGCTCATCAAACCGGAAAGGTCAATGCGAAAGTAAAGGTCAATGCCAAAAAAGTAAAGGCAGGCACCTATGAGGGAACCGTCACAGTGCGTGAAGGCGGAAAAACAGTCGCAAAAGTGCCGACGCTGCTGATTGTAAAAGAGCCGGACTATCCGCGCGTAACGTCAATCGACGTACAGGACGGCACAACGCAGGGAACCTACCAAATTGAAACCTATCTTCCGGCTGGAGCCGAAGAGCTTGCCTTCCTTGTATATGACAGTAATCTTGACTTTGTCGGCCAAGCCGGCATCTACAAAAAGCAGGATAAAGGCTATCAATATTTCGACTGGAACGGCAAAGTCAATGGTGACACCGCACTGCCGGCAGGAGAATATTATATGCTGGCCTATGCCGCGAACAAAGGGAAATCAAGCCAGGTGCTGACTGAAAAACCTTTTATCATTGAATAA	MKKGIIRYLLPAFVLSFTLSTSSQAAPASKPQTPDLEKAEVFGDIDMTTGKQTTVIVELKEKSLAEAKELGKAQTKSKLKSERSKVKKKALKTIKHGKINREYEQVFSGFSMKLPANEIPKLLSDQDVKAVYPNVTYHTDQLKDKDITLSKDAVSPQMDDSAPYIGANDAWKLGYTGKGVKVAIIDTGVEYKHPDLKKNFGQYKGYDFVDNDYDPEETPSGDPRGASTDHGTHVAGTVAANGTIKGVAPDATLLAYRVLGPGGSGTTENVIAGIERAVQDGADVMNLSLGNSVNNPDWATSTALDWAMSEGVTAVTSNGNSGPNNWTVGSPGTSREAISVGATQLPLNEYAVSFGSYSSAKVMGYNKEDDIKALNKKETELIEAGIGEQKDFEGKDLKGKVAVVKRGSIAFVDKADNAKKAGAIGMVVYNNAPGEIEANVPGMSVPTVKLSSEDGEKLVSQLKAGGTKATFHLSVAKSLTEQMADFSSRGPVMDTWMIKPDVSAPGVNIVSTIPTHDPADPYGYGSKQGTSMASPHVAGAAAVIKQAKPKWSPEQIKAALMNTAETLTDADGDVYPHNAQGAGSIRIMKAIKADSLVAPGSYSYGTFMKDKGNETKKETFTIENQSSIRKSYQLEYSFNGTGITVSGTDRVVIPAHQTGKVNAKVKVNAKKVKAGTYEGTVTVREGGKTVAKVPTLLIVKEPDYPRVTSIDVQDGTTQGTYQIETYLPAGAEELAFLVYDSNLDFVGQAGIYKKQDKGYQYFDWNGKVNGDTALPAGEYYMLAYAANKGKSSQVLTEKPFIIE	PGPT0020990_274	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020990-vpr-K14647	NA	NA
D1-12_02332	315			hypothetical protein	ATGAAACGTTTGCTAGTATCTTTACGGGTGTGGATGGTCTTTCTGATGAACTGGATGGCGCCGGGTAACGGAAGATATCCATTAGCCGCCGTGTACGGAAACCAAGCGGCTTGTCATAAGAAAGCGAAGCGGACAGCTGGGGCTTTTTCGTTTGTGAGCCGTGTCCGATCGGCGGATTTGACCGATGAAACGAAATCGGCCCGCGGCAGGCTGGATAAAAACCGATGGATGCCTGTCCGCAAAGAATTGCCGAAACGGGAGCGCGCGGGTCCGGCACCTTTACATCATATGAAAAAGAGGGTACAATCCCACTAA	MKRLLVSLRVWMVFLMNWMAPGNGRYPLAAVYGNQAACHKKAKRTAGAFSFVSRVRSADLTDETKSARGRLDKNRWMPVRKELPKRERAGPAPLHHMKKRVQSH				NA	NA	NA	NA	NA
D1-12_02333	831	sacY	COG3711	Levansucrase and sucrase synthesis operon antiterminator	TTGAGAATAGACAAAGTATTAAACAACAATGCGGCGTTAATAAAAGAAGACGGACGGGAAAAGATCGTAATGGGTCCCGGAATCGCTTTTCAAAAGAGAAAAAATGATGTGATTCAAAAGCATAAAATTGAAAAAATATTTGTCGTGCACGACGAAAATGAAAAGTTCAAACAAGTGTTAGAAACGCTTCCCGAAGAGCATATAGAGGCGGCTGAAGATATCATCAGCCATGCGGAGGGAGAGCTTGCGGCACCTTTGAACGATCACATCCACATTGCGCTGGCGGACCATTTATCCTTTGCGATCGAAAGGATTCAAAACGGCCTTCAGGTGCACAACCGATTGCTTCATGAAATTAAGGCGCTTTATAAAAAAGAATATGAAATCGGCCGCTGGGCGGTTGAACACGTGAAACAAACCCTCGGTATATCATTGCCTGATGATGAGGCGGGGTATATCGCGCTTCATATCCACACTGCCAAGGCGGATGCCAAAAGCATGTATTCGGCGATGAAGCATACAACCATGATCAAAGAAATGATCGAAAAGATCGAATCCTTTTTCGAACAGAAGGTGGATGAAGACAGTATTTCCTATCAGCGCCTCGTCACGCACTTGCGGTATGCGGTCAGCCGGTTGGACTCAAATGAAGCACTCCATTCCATGGACGAGGAGATGCTTTATTTCATCCAAAAAAAGTATCCGTTTGCTTATCGGTGTGCGCTTGAACTGGCGGCGTTTTTAAAAACTGAATATGATTTGGAACTGCCGGAATCCGAGGCCGGCTATATCACGCTGCATGTCCAGCGTCTGCAAAAAAACCCGGAATAA	MRIDKVLNNNAALIKEDGREKIVMGPGIAFQKRKNDVIQKHKIEKIFVVHDENEKFKQVLETLPEEHIEAAEDIISHAEGELAAPLNDHIHIALADHLSFAIERIQNGLQVHNRLLHEIKALYKKEYEIGRWAVEHVKQTLGISLPDDEAGYIALHIHTAKADAKSMYSAMKHTTMIKEMIEKIESFFEQKVDEDSISYQRLVTHLRYAVSRLDSNEALHSMDEEMLYFIQKKYPFAYRCALELAAFLKTEYDLELPESEAGYITLHVQRLQKNPE	PGPT0014761_1103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE_USAGE_REGULATION,PGPT0014761-licT|bglG-K03488	NA	NA
D1-12_02334	1383	sacX	COG1263	Negative regulator of SacY activity	ATGAATTATCAAGAAACGGCAAAACAGCTTATCAAACACATCGGAGGGAAATCAAATATCATCAGCGCGACACATTGCGCCACACGGCTCAGGCTCGTCATTCAAGATGAACAGAAGATCAGCCAGGCCGGCATTGAAGAGACAGAAGGAGTAAAAGGGGCTTTCAGCAGCTCGGGGCAATATCAGATTATATTCGGCACCGGCCTCGTGAATAAAGTGTATGACGCTTTTTCAAAAGAAGCCGATTTGGAGCGGGAGGATCGTGAGACACATCAGGACGCGGCGAAAAAAAAGCTGAATCCGGCCGCAAGATTTGCGAAGACACTGTCTAACATATTCGTTCCCATCATTCCGGCTATCGTGGCAAGCGGACTTTTAATGGGGCTGCTCGGCATGATGAAGGCTTTTCACTGGGTGTCTGAACAATCATCGCTGTTTAAGCTTCTAGACATGTTTTCAAGCGCGGCGTTTATCTTCCTGCCCGTATTCATCGGGTTCAGCGCGGCGAAGGAATTTGGCGGTAATGCCTTTCTCGGTGCCGTGCTCGGGGGAATTATGATCCATCCGGCGCTTTTGAATCCGTGGGGGCTTGCGGATGTACCGCCTGATTTTATGCAGCTCTTCGGCTTCGACATTGCGCTGCTCGGCTACCAAGGGACGGTCATCCCCGTACTGTTAGCCGTTTACATTATGAGCAAAGTGGAAAAGGGCACGAGAAAAATTGTGCCTCACGCATTCGATTTATTGGTCACGCCGTTTGTCACGGTGATTGTCACAGGATTTATCACCTTTATCGCAATCGGTCCGCTTGGCAGGGCGATCGGATCAGGCATAACCGTCTCGCTGACGTATGTGTATGATCATGCGGGCATTGTTGCCGGACTGCTTTTCGGAGGTCTTTATCCGCTTATTGTGCTTACCGGTGTGCATCACAGCTTTCATGCGATTGAGGCCGGCCTCATCGCTGATTTGGGCAGAAACTATATCCTTCCTATCTGGTCGATGGCGAATGTCGCTCAGGGCGCGGCGGGACTGGCTGTATTTTTCCTGACGAAAAAAGCGAAAATGAAAGAAATCGCTTTGCCTGCCGCATTTTCCGCTTTTCTCGGCGTAACCGAACCAGTCATTTTCGGTGTGAACCTAAGATACCGCAAGCCGTTTATCGCGGGAATGATCGGCGGAGCGCTGGGAGGAGCCTATGTCGTGGTGACCGGTGTCGCCGCCAATGCCTACGGTCTGACCGGAATTCCGATGATTGCCATCACGGCTCCGCTCGGTTTAGGAAATCTTATAAACTATCTGATCGGAATGGGCATCGCCTCTGTCTCAGCGTTTATTGCCGCTTACATTATGGGAGCTAAAGAAAAGGAGGCCGTCAAATGA	MNYQETAKQLIKHIGGKSNIISATHCATRLRLVIQDEQKISQAGIEETEGVKGAFSSSGQYQIIFGTGLVNKVYDAFSKEADLEREDRETHQDAAKKKLNPAARFAKTLSNIFVPIIPAIVASGLLMGLLGMMKAFHWVSEQSSLFKLLDMFSSAAFIFLPVFIGFSAAKEFGGNAFLGAVLGGIMIHPALLNPWGLADVPPDFMQLFGFDIALLGYQGTVIPVLLAVYIMSKVEKGTRKIVPHAFDLLVTPFVTVIVTGFITFIAIGPLGRAIGSGITVSLTYVYDHAGIVAGLLFGGLYPLIVLTGVHHSFHAIEAGLIADLGRNYILPIWSMANVAQGAAGLAVFFLTKKAKMKEIALPAAFSAFLGVTEPVIFGVNLRYRKPFIAGMIGGALGGAYVVVTGVAANAYGLTGIPMIAITAPLGLGNLINYLIGMGIASVSAFIAAYIMGAKEKEAVK	PGPT0014190_1028	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SUCROSE_PTS_SYSTEM,PGPT0014190-scrA|sacP|sacX|ptsS-K02810	NA	NA
D1-12_02335	1440	scrB	COG1621	Sucrose-6-phosphate hydrolase	ATGAGGACACCGGATCAAGAGCTGCGCCTGCAGGCTGAGGAAGCGAAAAAGAAGCGGGGAGAAACAGCCGCATCAGATCCATACCGCCAGAACTATCATATTATGCCGCCGGTCGGGCTTTTAAATGATCCGAACGGCGTGATCCAATGGAACGGCGTATATCACTTGTTTTTTCAATGGCAGCCATTTCATACGGGGCACGGCGCGAAATTTTGGGCGCATGTGACGACGAAGGATTTCGTTGAGTGGAAAGAGGAAGAAATCGCGCTTGCGCCGGGTGAGTGGTATGACAAAAACGGCTGTTATTCCGGAAGCGCCATCGAAAAAGACGGGCGGCTCTGCCTGATGTACACAGGCAATGTCCGTGACGGAGAAGGCAATCGGGAAACGTATCAATGCCTCGCCGTATCCGAAGACGGGATCGTATTTGAAAAAAAAGGAGTCGTCGCGCGTCTCCCGGAAGGCTATACCGCTCATTTCCGTGATCCGAAGGTTTGGAAGAAAGACGGAGCGTATTACATGGTGCTCGGCGCGCAGACGGAAAAGCTCACCGGAAGCGCTGTATTGTTCACATCGGAGAATTTGACGGATTGGACGTTTCTCGGTGCGATTGCGGGGGCGGACTCCGGCGGTCTCGGGTCATTCGGCTATATGTGGGAATGTCCCGACCTGTTTTCCCTTGACGGAACCGACGTGCTGCTCGTATGTCCGCAGGGGCTTGAAGCCGACGGGATAAAATATCATAACAGTCACCAGGCGGGCTATTTCCTCGGCAGGCTGCATACAGAGCCGCCAGAATTTAAGCACGGTGAATTTACGGAGCTTGACAGAGGATTTGATTTTTACGCGGCGCAGACGCTGGAAGATGATAAGGGACGGAGAATTCTGTTCGCGTGGATGGGCGTTCCGGATCAGCATGAGGACAAACATCCGACACATGCGTATCACTGGATTCACTGCTTAACGATGCCGAGACAGCTGTCACTGTCCAACGGCAGAATCATACAGCGCCCGCTCCCGGAAATGAAATCACGCCGCACGGATGAACAAAAGCGCCGTCTTCAATTGGAGTGCTCGTCTGTAAGCCTGCCGGTGAAAGATGCGTCCCGGGCTGAAGTGCTGCTGGAAGATATCACTTGCGAATCCGGTTTTGAAATCTCAATTCGGGGCGCGGCCCGGTTTATATTTCATCAGGAAGAGGGGCTGGCTGTGCTGGAGCGCACCGCTTTCAGCGGAGAAGAAAAAGAAAAGAGAAGCTGCGCCATCAGCGAGGTGCATTCCGTGCAGCTCTTTCTGGATGCATCCTCGATCGAATTGTTTTTGAATGATGGAGAAGAGGTTTTCAGCGCCAGATATTTTCCTTTCCCGGGAAATGATGACGTAACCGTCACTTCGGTAGGAAAAACGGAAATAAATGGCTCAATTTGGACACTTTTGTAG	MRTPDQELRLQAEEAKKKRGETAASDPYRQNYHIMPPVGLLNDPNGVIQWNGVYHLFFQWQPFHTGHGAKFWAHVTTKDFVEWKEEEIALAPGEWYDKNGCYSGSAIEKDGRLCLMYTGNVRDGEGNRETYQCLAVSEDGIVFEKKGVVARLPEGYTAHFRDPKVWKKDGAYYMVLGAQTEKLTGSAVLFTSENLTDWTFLGAIAGADSGGLGSFGYMWECPDLFSLDGTDVLLVCPQGLEADGIKYHNSHQAGYFLGRLHTEPPEFKHGEFTELDRGFDFYAAQTLEDDKGRRILFAWMGVPDQHEDKHPTHAYHWIHCLTMPRQLSLSNGRIIQRPLPEMKSRRTDEQKRRLQLECSSVSLPVKDASRAEVLLEDITCESGFEISIRGAARFIFHQEEGLAVLERTAFSGEEKEKRSCAISEVHSVQLFLDASSIELFLNDGEEVFSARYFPFPGNDDVTVTSVGKTEINGSIWTLL	PGPT0018815_2189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
D1-12_02336	240			hypothetical protein	TTGAAAAATCAGAAGATGACGCCGAAATGTTTACTTGTCAAAGCCGCAGAGCAAGTGGAAGATAAGCGGGAAGAATATAAAGAAGTATTGCTTCAGCTGAATCGCATGCTCAAGAGGGCTGAGCCGCACAATGAATGGAGTGATCGGCTGATGCATACATATGAACAGATGAAGGAATATGCGCTGTTTGTGCAGTCTATTGAGATGTTTTTGCGGTCATCCGCGAAAAAAATGAAATAA	MKNQKMTPKCLLVKAAEQVEDKREEYKEVLLQLNRMLKRAEPHNEWSDRLMHTYEQMKEYALFVQSIEMFLRSSAKKMK				NA	NA	NA	NA	NA
D1-12_02337	813	pdxK	COG0351	Pyridoxine kinase	ATGTCAATGCACAAAGCACTTACTATTGCCGGTTCTGATTCCAGCGGCGGCGCGGGAATTCAGGCCGATTTAAAAACATTTCAAGAAAAAAACGTATACGGAATGACGGCTTTGACCGTGATCGTAGCAATGGACCCGGAGAACAGCTGGGATCATCAAGTATTTCCGATCGATGCTGATACGATTTGCGCACAGCTGGCGACGATTGTTGACGGAATCGGCGTAGACGCCATGAAAACGGGAATGCTCCCTACCGTGGAGATCATAGAGCTTGCGGCGAAAACGATTAAAGAAAAACAGCTGAAGAATGTCGTTATCGATCCTGTCATGGTCTGCAAAGGAGCGAACGAAGTGCTGTATCCGGAGCATGCCGAAGCGCTTCGCACCCAATTGGCGCCGCTGGCAACCGTCATCACGCCAAACCTGTTTGAAGCAAGCCAGCTGAGCGGTATGGATGAATTAAAAACGGTGGAAGACATGAAAGAAGCGGCCAAGAAAATTCACAAACTCGGCGCGAAATATGTATTGATTACAGGCGGAGGCAAATTGAAACATGAAAAAGCGATCGACGTGCTGTATGACGGAGAAACCGCGGAAGTATTAGAAAGCGAAATGATTGATACACCTTACACGCACGGAGCCGGATGCACATTCTCCGCCGCCGTGACGGCAGAACTGGCCAAAGGCGCTGAAGTGAAGGAAGCCATCTATGCGGCGAAAGAATTTATCACCGCGGCAATCAAAGAATCCTTCCCGCTGAACCAATACATCGGACCGACTAAACATTCGGCGATGCGTCTTAGCGGAAAATAA	MSMHKALTIAGSDSSGGAGIQADLKTFQEKNVYGMTALTVIVAMDPENSWDHQVFPIDADTICAQLATIVDGIGVDAMKTGMLPTVEIIELAAKTIKEKQLKNVVIDPVMVCKGANEVLYPEHAEALRTQLAPLATVITPNLFEASQLSGMDELKTVEDMKEAAKKIHKLGAKYVLITGGGKLKHEKAIDVLYDGETAEVLESEMIDTPYTHGAGCTFSAAVTAELAKGAEVKEAIYAAKEFITAAIKESFPLNQYIGPTKHSAMRLSGK	PGPT0009125_2089	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
D1-12_02338	339			hypothetical protein	ATGCTCAACAGGGAGCTTGTAAAGGGAAGCACGGTCATTCTGGTGCTGACGCTGCTGAATGAACGGCCCATGTACGGGTATGAACTTGTAAAAGAAATGGAGAAAAGAAGCGGGAATGAACTGCAAATGAAGGAAGGCACGCTGTACCCATCGCTTCATAAGCTTGAACGCCAAAGCTATATTTCTTCTTACTGGGAAAAGCAGACCAAAGGGCCGGACCGAAAATATTACCGGATCACCGATGAAGGAAAAAACATTCTAGCCGAACGGACGAAGGAATGGAATCTGTTCTCTGCTCTGATGGACCGGATGCTGAAGCGGGGCGGGCAGAATGGATAA	MLNRELVKGSTVILVLTLLNERPMYGYELVKEMEKRSGNELQMKEGTLYPSLHKLERQSYISSYWEKQTKGPDRKYYRITDEGKNILAERTKEWNLFSALMDRMLKRGGQNG				NA	NA	NA	NA	NA
D1-12_02339	636			hypothetical protein	ATGGATAAAGACCTTTATGTGCAGGAAATCAGAAAAGGGCTGGAAGGCAAGGCCGGAAGCCGTGAATTATTAAAGGAAATCGAAAGTCATATTCATCATGCCATTTGTGATCATCTGGAAAAAGGCAAAACCGAAAGCGAAGCGATGGCGCTTATTCTGCGGGAAGTGGGGACTCCGTCTGAGATTATCTCTGCTTTTCAAAAAGCTTCGGCGGTGCCCGCGCGGACTTTTATGCTCTTTTATCTGTTCTGCAACTGCGGTCTTTTTGTGATGGGGGCGATGATTACGATGATGCACGCGTGGAGGATTCATCCCGCTGTTGACGCGCTGTGGAAAGGAATTTCCGTGTCAGTATGGCTGATTATGATCGGTTATGTGCTGTATTGGTTCCAAATCGGCTATCAAGCTGGCAAGGAGTTCGGGGCTGGCGGCAAAAAGCTTGCTGAGCGGACGGTATGGGCTTCAATGGTGCCGAATCTATGTTTTATGTTTGTCTTTTTGTTCAATCTGGTTCCGGCTGGGCTGTTTCCTTCGGCGGTCACACCGAGTTTTGCGGCAGTATGCGCTGTTGTGACGGTATGTTTTCCGTTTTGCGGCAAAATAGGTTTTTATGCAGGCAGGCAGAGACTTGCCTGA	MDKDLYVQEIRKGLEGKAGSRELLKEIESHIHHAICDHLEKGKTESEAMALILREVGTPSEIISAFQKASAVPARTFMLFYLFCNCGLFVMGAMITMMHAWRIHPAVDALWKGISVSVWLIMIGYVLYWFQIGYQAGKEFGAGGKKLAERTVWASMVPNLCFMFVFLFNLVPAGLFPSAVTPSFAAVCAVVTVCFPFCGKIGFYAGRQRLA				NA	NA	NA	NA	NA
D1-12_02340	528			hypothetical protein	ATGAGATTAGGTTCGTGGATGTACGGTGCGTGCGCCCAAATAGCCGTTACCGTATTTACCGTCTGCGGCTTGGTTCTTGCATTGCCCGTTGTGAGTCTTTTTATTATGGTTCTGAATGGGATGCAAGACGCTATTTTTGTTGTTTTCAGTATTTTGCTTCTTCTATTGTTTTATGCGCTGGGATGGATTTGGGCCGTTTCGTTTGCGCGTGAGTGGAAGGTGAAACTTTTCGAGCTGCAGATCAGTTCGCTCATTCCGCTGGCGGGTATATTATACTTGTACATTGACAGCGGAGTGAGTATACCGGAACTGATTCATGATTGGCATGAGGATGGATGTGCGCTTGTCCCGCCGGCTTTTGTCTGCTTGTGCACATGCTATGCGATGGTGTTGGTGCCTGTTTATCAATCAAAACTTTGGAACGCCATGGAGGCGGGCAGACTTAATGCCAAGGCGGTATGCACTGTTTGGGGAGACCTTCTGATCATTCTCGTTTTGCTGGCGGGCATGACCTGGATTTGTTTCTGA	MRLGSWMYGACAQIAVTVFTVCGLVLALPVVSLFIMVLNGMQDAIFVVFSILLLLLFYALGWIWAVSFAREWKVKLFELQISSLIPLAGILYLYIDSGVSIPELIHDWHEDGCALVPPAFVCLCTCYAMVLVPVYQSKLWNAMEAGRLNAKAVCTVWGDLLIILVLLAGMTWICF				NA	NA	NA	NA	NA
D1-12_02341	807			hypothetical protein	ATGAATATATCAATTGTCATAGTCACGTATAACCGGATTCCGGCTTTGTGTGAGCTGCTGGAGTCGATTTCCATGCAGACCATAAAGCCTTATGAAGTCATCATCGTAAATGATGCCGGGGAATCGGTCGAACAAGCGAAGCAGCTGTACAGCGATCTGCCGATTCAGATTATTGATTTAGAACAGAATGCCGGACATGTGGAAGCGCGGAACGCAGGTGTGAAAAAAGCGTCGGGTGATTGTATCATGCTGTGCGATGATGATGATTTCATTACGCCGGGCCATTTGGAAAGAATGGCGACTGCACTTGCTGATGCGGATTTTGTCCATTCTGACGCGGAAATTGTGTCATTTGAAGAACGGGGCGGCACGAGATACCCGGTGTCACGAAAGCCGTTCGCCTATACGGCGGATTATGCGGATATGCGGGTGTTTTCCACGTACGTTCCGTCGGGCAGCATGTACAGGCGTTCTCTGCATGACACGTTAGGGTATTTTGATCCGGATGTCCATAATTATTGGGACTGGGACTTTTATTTGCGCGCCGCGAAACAGCACCGTGTGAAGCGTGTTCCTTGCGCGAGCGTCATATATGCGTTTTTTGAGGGAGGCGGCAATCAGTCCGCGGATCTCGGCGGCAAACGGAAGCGGTACTTAGACCGGTTAAGCGAAAAGCACGGGCTTGGGGAGCTCCCGACGAAAAACTTCGCGGTTCTTCTTGAAGAGCCGGACATGAAGAGGCGGGAGGCGCCGACTGACATTGTGTGGGACGGAAAGCCCGTCCATTCAAGACTGCACAGTTCATAA	MNISIVIVTYNRIPALCELLESISMQTIKPYEVIIVNDAGESVEQAKQLYSDLPIQIIDLEQNAGHVEARNAGVKKASGDCIMLCDDDDFITPGHLERMATALADADFVHSDAEIVSFEERGGTRYPVSRKPFAYTADYADMRVFSTYVPSGSMYRRSLHDTLGYFDPDVHNYWDWDFYLRAAKQHRVKRVPCASVIYAFFEGGGNQSADLGGKRKRYLDRLSEKHGLGELPTKNFAVLLEEPDMKRREAPTDIVWDGKPVHSRLHSS				NA	NA	NA	NA	NA
D1-12_02342	684	ung	COG0692	Uracil-DNA glycosylase	TTGAAACAGCTTTTAAAGGACAGCTGGTGGAATCAGCTGAAAGATGAATTTGACAAACCGTATTATCAAGAGCTGAGAGAGATGCTGAAACAAGAATACAGCAGCCAAACGATTTATCCTGACAGCCATGATATTTTTAACGCCTTGCATTATACGCCCTATGAGGATGTAAAAGCGGTCATTCTCGGACAGGACCCGTATCACGGGCCAGGACAGGCGCACGGGCTTAGTTTTTCCGTTCAGCCCGGGGTCAGACAGCCGCCGTCTTTGAAAAATATTTTCATAGAGCTTCAGGAAGATATCGGCTGCTCCGTACCGAACCACGGATCGCTCGTCAGCTGGGCGAAGCAGGGAGTGCTTTTGTTAAACACAGTGCTTACGGTTCGCCGCGGTCAGGCCAATTCCCACAAAGGCAAGGGATGGGAGCGGCTCACTGACCGCATCATTGATGTGGTGAATGAAAGAGAGAAGCCGATTGTCTTTATCCTGTGGGGGCGTCACGCGCAGATGAAAAAAGAGCGCATTGACACATCGAAACACATTATTATTGAATCGACTCATCCGAGCCCGTTTTCGGCAAGGAACGGTTTTTTCGGGAGCAGACCGTTTTCCCGTACAAACGCCGCCCTTGAAAAAATGGGGGAGCAGCCGATCGATTGGTGCATCCCCGACCTGCCGCAATAA	MKQLLKDSWWNQLKDEFDKPYYQELREMLKQEYSSQTIYPDSHDIFNALHYTPYEDVKAVILGQDPYHGPGQAHGLSFSVQPGVRQPPSLKNIFIELQEDIGCSVPNHGSLVSWAKQGVLLLNTVLTVRRGQANSHKGKGWERLTDRIIDVVNEREKPIVFILWGRHAQMKKERIDTSKHIIIESTHPSPFSARNGFFGSRPFSRTNAALEKMGEQPIDWCIPDLPQ	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
D1-12_02343	510			hypothetical protein	TTGGTGCATCCCCGACCTGCCGCAATAAACGTTTTTTTTGAGGCGCTTCCGCCCGGCGGAAGCGTCTTTTTTGACGTTCCGGGCGGTATGCGGTCAGAAAAAATAACAAACTCAATTCTGCGATTCGCTCAGAAATTTGATAAAATGCAGGAAGAAGACAAATTACTGCTGGAGGATTTACTCATGAACATACATATTTCTGCTCTGATTCAGAAGATGGAAGAAGAACTGAGGCAGGCGAAAACGGCGACCCGCACCGAGGAAGTCAAAATGCACGCGACCGCCATCCGCTCTCTGTGTGATGTCGTGCTCGGCACTCAGACGCACACTGCTCCGGAGCCTGTGCAGAATCCGATTCCGAAAGCGGCGCCGAAACCTTCCGCGTCTCCTTCGACAGACCCGCTGCTGCTTGAAAAAATGATGGGCAGCGCCGGGCTGAACCAATATCAGAAAAAAGCGAAAGACGAACGTGAGGAAGACGGAAACGGGGATTCCATTTTCGATTTTTAA	MVHPRPAAINVFFEALPPGGSVFFDVPGGMRSEKITNSILRFAQKFDKMQEEDKLLLEDLLMNIHISALIQKMEEELRQAKTATRTEEVKMHATAIRSLCDVVLGTQTHTAPEPVQNPIPKAAPKPSASPSTDPLLLEKMMGSAGLNQYQKKAKDEREEDGNGDSIFDF				NA	NA	NA	NA	NA
D1-12_02344	1320	ywdJ	COG2233	Putative purine permease YwdJ	TTGAAACTGATACTCGGGGGTTTGCAATGGACGGCATTTATGATTGCGGCTGCGATTGTAGTTCCTGTCGCCATCGCACAATCATTTCACTTGAACCATGCCGATTCTGCCGCATTGATTCAGAGCACATTTTTTGTGCTTGGCGTCGCCGCGGTCATCCAATGTCTCCAGGGACATCGTCTACCGATTAATGAAAGCCCGGCAGGCTTATGGTGGGGCGTATACACGATTTACGGCGGACTGACGGGCACGGTGTTCGCGACATTCGGCGAGACGCTGCGGGCGCTGCAGGGGGCGCTGTTATTAAGCGCTGTCTTTTTCTTTTTGTTCAGCCTTTTTAAAGTGATTGAACGGCTGGCCGTGCTGTTTACGCCGGTTGTGACCGGTGTGTATCTGCTGCTGTTGGTCATGCAGCTGAGTCAGCCGATTGTGAAAGGCCTTTTGGGCATCGGCTATTTAAAAAACAGCGTCGACGGCCTTGTATTCGGGCTCGCCATGGTTGTGACGGCGGCGATGTTCATCATGTCCCGATCGAATGTTACGTTCTTAAGACAGTATGCGATTCTCCTTTCGCTTGCCGGCGGATGGATCTTATTCGCCGTCTTCGGCGCAGCCAAACCGATTCAAATACCGGACCGCATAATTCAGCTGCCGGCTCTTTTTCCGTTTGGAAAACCCGTGTTTGACAGCGGCCTGATCATTACGTCACTCTTCATTACCGTGCTTTTGATTGTCAACATGCTCGCGAGCATACGGGTTGTAGAAGCGGCGGTGAAAAAATTCGGCGGCACCGTTGGGAAGCGGCGTGAGCGTCCGGCAGGGTTTGCGGCTTCGATCAGCCACCTTTTGAGCGGGCTGTCAGGGGGCATTGCGCCTGTACCGATTTCAGGGGCGGCCGGTTTTATTGAGACGACGAAGCTTCCTTCGAAAAAGCCGTTTCTTTTGGGAAGTGTATTTGTCATGATCATCAGTATGATCCCGCTATTTATGAATGCGTTTGCGAGTCTGCCCTCACCGGTCGGCTTTGCGGTAAACTTCGTCGTTTTTTCCACGATGGCGGGTCTTGCCTTTACGGAGTTTGACTCTTATGAGAAAGCGGAGCAAAAACGAATCCGCTCCATTATCGGTCTGGCGCTCCTGACGGGGGTCGGCGTAATGTTTGTGCCGGAGAGCGCGTTATCAGGGATGCACCCGATCCTGATTTCGCTCTTAAGCAACGGCCTTGTGCTCGGGACGCTGCTGGCGATAGCGATTGACCGAATTCAGCTTATCAAAAAGAAAAAATCCGACAATCTCGTGTCATCGGACGGCGGACGTTGA	MKLILGGLQWTAFMIAAAIVVPVAIAQSFHLNHADSAALIQSTFFVLGVAAVIQCLQGHRLPINESPAGLWWGVYTIYGGLTGTVFATFGETLRALQGALLLSAVFFFLFSLFKVIERLAVLFTPVVTGVYLLLLVMQLSQPIVKGLLGIGYLKNSVDGLVFGLAMVVTAAMFIMSRSNVTFLRQYAILLSLAGGWILFAVFGAAKPIQIPDRIIQLPALFPFGKPVFDSGLIITSLFITVLLIVNMLASIRVVEAAVKKFGGTVGKRRERPAGFAASISHLLSGLSGGIAPVPISGAAGFIETTKLPSKKPFLLGSVFVMIISMIPLFMNAFASLPSPVGFAVNFVVFSTMAGLAFTEFDSYEKAEQKRIRSIIGLALLTGVGVMFVPESALSGMHPILISLLSNGLVLGTLLAIAIDRIQLIKKKKSDNLVSSDGGR				NA	NA	NA	NA	NA
D1-12_02345	372			hypothetical protein	ATGAAAGTGTTTATTATTCTTGGTGCGATTAACGCTTTATTGGCCGTGGCGCTGGGCGCTTTCGGCGCGCATGGGCTTGAAGGGAAAATCCCCGATAAATATTTGCAGGTGTGGCACACAGGCGTGCAATATCATATGTATCACGCGCTCGGTCTTCTGGCTGTCGCGTTTTTGGCCGAAAAGCTTTCTGGCGCAGGCAGTGTTTCTGTTGCGGGCTGGCTGATGTTTGCGGGCATCGTTCTGTTTTCAGGAAGCCTGTACGTATTGAGCGTGACGCAGATTTCCATTCTCGGCGCGATTACACCGCTCGGCGGCGTGGCGTTTATCATCTCTTGGATTATGATTATCGTCGCGGCCGTCAAATATTTATAA	MKVFIILGAINALLAVALGAFGAHGLEGKIPDKYLQVWHTGVQYHMYHALGLLAVAFLAEKLSGAGSVSVAGWLMFAGIVLFSGSLYVLSVTQISILGAITPLGGVAFIISWIMIIVAAVKYL				NA	NA	NA	NA	NA
D1-12_02346	597	gerQ		Spore coat protein GerQ	ATGAAACCGAAAAAGAATCAATATCAGCAAATGCAAGGGATGGGGATGGGAATGGATATGCAAGGATACCAGCCGCAGCTCGGGCCTAATCCTTATCCGCAGCCTCAGGGCGGCCAAGGATCGCAAATGATGCCGATGCAGCAGCAAATGACAATGCCGATGCAGCAAGGCCAGCAGGGCTTCGGCGGGGGGTTTCCCGGCCAGCCGCAGCAGCAGGGCCAGCAGGGCTTCGGCGGGGGGTTCCCCGGCCAGCCGCAGCAGCAGGGCGGCGGCAGCTTTCAGATTCCGTCAGGTCCATCATCGTCACAAAACGTTCCCGGCATGCTGCCGATTGAAGAGTCATACATTGAAAATATTCTGCGGTTGAACCGGGGCAAAACGGCGACGATTTATATGACATTTGAAAACAGCAAAGAATGGAATTCAAAGATTTTCCGCGGTGTGATTCAGGCGGCGGGACGTGACCATATCATCATCAGCGATCCGAAAACGGGCACCCGCTATCTGCTTCTGACCATTTACCTTGATTACATCACGTTTGATGAGGAAATCGCTTATACTTATCCGTACTCCATGTCTTCTTATTCTCCGAGATAA	MKPKKNQYQQMQGMGMGMDMQGYQPQLGPNPYPQPQGGQGSQMMPMQQQMTMPMQQGQQGFGGGFPGQPQQQGQQGFGGGFPGQPQQQGGGSFQIPSGPSSSQNVPGMLPIEESYIENILRLNRGKTATIYMTFENSKEWNSKIFRGVIQAAGRDHIIISDPKTGTRYLLLTIYLDYITFDEEIAYTYPYSMSSYSPR	PGPT0025095_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025095-gerQ-K06305	NA	NA
D1-12_02347	771	spsA	COG0463	Spore coat polysaccharide biosynthesis protein SpsA	TTGCCTAAAGTGTCAGTGATCATGACGAGCTATAACAAAAGTGACTATGTGGCCCGCTCTATTAAAAGTATTCTGTCTCAGACGTTTACGGACTTTGAGCTGTTCATTATGGATGACAACTCAAATGAAGCGACATTGGCGGAAATACGTCCTTTTCTCACGGATGACCGCGTCCGGTTTTATCAAAGCGATGTATCGGGCGTCAAAGAAAGAACGGAAAAAACACGCTACGCCGCCTTGATTAATCAGGCAATAGAAATGGCGGAGGGCGAGTACGTGACGTATGCGACCGACGACAACACGTATGTGCCGGAACGGCTTGAGAAAATGGTGAAAGAGCTTGATGAAGACCCGGAAAAAGCCGTCGTGTATTCAAGTTCCAAAACCTATCATCTGAATCAGCGGAAAGAGACGGTGAAGGAGACGGCCAGGCCCGCCGAACGGATCGTGTGGAACGCGCCGTGCGCCATTGACCATTGTTCTGTCATGCACCGGTTTTCCGTGCTGGAACAGGTCAAATCGGCATTCGGTTCCTATTGGGATGAAAGCCCCGCGTTTTACCGGATCGGTGACGCCCGTTTCTTCTGGAGAGTGAATCATTTTTATCCGTTTTACCCGATTTCTGAGGAGCTTGATATCAATTATATTACCGATCAATCCATCCATTATCAGCTTTTCGCGGCGGAGAAAAACGAGTTTGTGAACAGCCTTCCGCAGCAGACCACGTGCCGGGAGCTGAGGGAATCATTAAAAAAGCTTGGAAAGGGGTGA	MPKVSVIMTSYNKSDYVARSIKSILSQTFTDFELFIMDDNSNEATLAEIRPFLTDDRVRFYQSDVSGVKERTEKTRYAALINQAIEMAEGEYVTYATDDNTYVPERLEKMVKELDEDPEKAVVYSSSKTYHLNQRKETVKETARPAERIVWNAPCAIDHCSVMHRFSVLEQVKSAFGSYWDESPAFYRIGDARFFWRVNHFYPFYPISEELDINYITDQSIHYQLFAAEKNEFVNSLPQQTTCRELRESLKKLGKG	PGPT0025261_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025261-spsA-NA	NA	NA
D1-12_02348	1425			hypothetical protein	TTGTCGGCATACTTAGCGAATTATTGGGTGCTGTACCGGCAGTATATTGACCTTTTTCAGTCACTTCGCTACAAAGACATCCCGCTCGCATTGATCAGTAATTTTTATCAATATATCAGTCCGGCGCTTCGGGAGAGCATGGAGCAGAACCCAGAGCTTTTCGGTCCGGCTGATCAGCATATTCCTGAAGCCGGTATACAGCCATATTATGATCAAAAAAGGCAAAACATTAAGAAAACAGATGAGAAACCGGTAAACGGAAAAGTCATTCTGCATTTCGATCATATTCGGTTCACCGAGAGAAACTACCGGCAGTTTGATCCGGCAAAAACAGCGGTACTGGCCAGATGGAGTCTGCCTGACCATTACGGGCTGCCCGTTATCTGCAAATTGGAGCTGACGGGAATGGGGCAAAAAGGGAACCCCGTCCCTTATATTGAAAAAGCCCATTCCATTTTGAAAGAGCTTCACAGCCATCCCGCTTTCGGAAACAGAGAATTTCAGGAACGTTTGTATAAAGACATTCCATTATTTATTGAAGCGATTGACGCCGTTGATATTTTGTTTACGGCCGAGAAGATTTCCGCCGTTGTAGTCGGCACGACGGAGGATATTTACAGCCGTGTGCTGGCGCTGATGTCCGCGAAAAAAAACGCCGTCAGCATCTGTCTGCAGCACGGAGCGCTCATGGGAGATGAAGCGTTTCTGCCCGTATTTACGGACTATCAGGCAGTATTCGGGGCTTATGAAGCGGAGTGGTATAAAGCAAAAGGCTGCAGGGATGAACAAATCATCATCACGGGGCATCCCCGTTTCGACGAGATTTTCTCAAGAGAGCCGATAGATCAAGACACGTTTTACCGCAAACTTTCTTTTCTCCCGTCACAGCGGACGGTGCTGATCGCCACGCAGCCGTTTTCTGATGAATTTTATACGGGCGTGCTTGAAGAGCTTGCCGGCCAAAAGAACATGCAGCTCATTATTAAACCGCATCCGTGGGAAATCGGCAAAAACAAGCTGGATGCTTACAATCAGGTGCTGCGGAAATATAAAGCAGGCAAAATCATCAAAAAAGAGATGGAGCTGTATGATATTCTACCGTATGTTGACGCTGCGGTGACACAGACATCAACGGTCGGTCTTGAAGCGATGCTGTTTCAAAAGCCCGTGCTGATCGGAAAATCAGCGGGAACCCGCCGATACCCTTATTATCATTCACTTGGAGAATTTGTTTTTGAGGACCCGCAGGCACTTGCTCAGGAATTAATCCGGATATGCGAAAGCCCCGCAGAATATCAAAAAGCGGAACAGGCGCGCCGTGCTTTTGTCGCCGCGAACTACCCGGTTCAGGATTCGCTTGCCGCTTTATGCCAAGTGCTTCAGGAAAAAACCGGAGTCAGCTTCAGACGGGTTGACCCTTCATAA	MSAYLANYWVLYRQYIDLFQSLRYKDIPLALISNFYQYISPALRESMEQNPELFGPADQHIPEAGIQPYYDQKRQNIKKTDEKPVNGKVILHFDHIRFTERNYRQFDPAKTAVLARWSLPDHYGLPVICKLELTGMGQKGNPVPYIEKAHSILKELHSHPAFGNREFQERLYKDIPLFIEAIDAVDILFTAEKISAVVVGTTEDIYSRVLALMSAKKNAVSICLQHGALMGDEAFLPVFTDYQAVFGAYEAEWYKAKGCRDEQIIITGHPRFDEIFSREPIDQDTFYRKLSFLPSQRTVLIATQPFSDEFYTGVLEELAGQKNMQLIIKPHPWEIGKNKLDAYNQVLRKYKAGKIIKKEMELYDILPYVDAAVTQTSTVGLEAMLFQKPVLIGKSAGTRRYPYYHSLGEFVFEDPQALAQELIRICESPAEYQKAEQARRAFVAANYPVQDSLAALCQVLQEKTGVSFRRVDPS	PGPT0025262_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025262-spsB-NA	NA	NA
D1-12_02349	1170	arnB		UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGGTGCAAAAAAGATCAGCTTTTCTTCCTTATTCATTGCCCATGATCGGGAAGGACGAAATTCAGGAGGTTATTGATACGCTTGAATCGGGCTGGCTTTCAAAGGGACCGAAAGTAGAGGCGTTTGAAAAAGCCTTTGCCGCATGGACGGGGGCAAAGCACGCGATCGCGCTGAACTCATGTACCGCCGCTTTGTTTTTGGCCCTGAAAGCGAAAGGGATCGGTCCCGGCGACGAGGTCATCACGTCTGCCGTGACATTCAGTTCAACAGCCAATACAATCGTGCACACAGGCGCCGTTCCGGTGTTTGTTGACATCGATCCGCTTACGCTGAATGCGGACCCTGAAAAAATTGAGGCGGCCGTCACCCCGCGGACAAAAGCGATTGTACCCGTTCATTTCGCCGGCCAGTCATGTGATATGGATCGGATTCTGGACATTGCCGAAAAGCATCAGTTATTTGTCTTAGAGGATGCCGCACATGCCGTGTATACCACTTATAAACAGAAAATGATCGGATCAATCGGTGATGCGACGGCATTCAGCTTCTACGCGACAAAAAACCTGGCAACCGGTGAAGGCGGCATGCTGACGACGGACGATGACGGGCTTGCCGATCAGATCAGGGTGCTCAGCCTTCACGGCATGAGCAAAGGCGCGTGGAACCGCTATTCTTCAAACGGAAGCTGGTACTACGAGGTCGAAACGCCCGGCTATAAAATGAATATGTTTGATCTTCAGGCAGCGCTTGGGCTTCATCAGCTGAAACGGATTGACAGCATGCAGCAAAGAAGAGCCGACATTGCGAGCCGCTACCAGGACACCTTCAGACACATGAAAGGGCTGACCATCCCGCATGTCAGTGATGACGGACGGCATGCATGGCATCTGTATGTTCTTCAAATAGAGGAGCAGGAGGCCGGGGTCAGCCGGAACGATCTGATTTCCGCTTTAAAAGACCAATATCATATCGGCACAAGTGTTCATTTTATTCCGGTTCCGTTCCATCCGTATTATCAAAAAACGTACGGATATAAGGAAACTGACTTTCCGGCCGCGGCAGCGTATTATCACCGCACCGTGTCACTCCCTCTTTATCCGTCAATGACAGATGACGACGTTGAATACGTCATTGCAGCCGTTACGGATATCGTCAAAGGGGCTGATTAG	MVQKRSAFLPYSLPMIGKDEIQEVIDTLESGWLSKGPKVEAFEKAFAAWTGAKHAIALNSCTAALFLALKAKGIGPGDEVITSAVTFSSTANTIVHTGAVPVFVDIDPLTLNADPEKIEAAVTPRTKAIVPVHFAGQSCDMDRILDIAEKHQLFVLEDAAHAVYTTYKQKMIGSIGDATAFSFYATKNLATGEGGMLTTDDDGLADQIRVLSLHGMSKGAWNRYSSNGSWYYEVETPGYKMNMFDLQAALGLHQLKRIDSMQQRRADIASRYQDTFRHMKGLTIPHVSDDGRHAWHLYVLQIEEQEAGVSRNDLISALKDQYHIGTSVHFIPVPFHPYYQKTYGYKETDFPAAAAYYHRTVSLPLYPSMTDDDVEYVIAAVTDIVKGAD	PGPT0025263_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025263-spsC-NA	NA	NA
D1-12_02350	864	wecD		dTDP-fucosamine acetyltransferase	GTGTACAGACTGAGGGAAAATCTTGCGCAGGACATGATTCATGCCTTCCTGCATCAGAAGGGCATCCAGCCGGAAGCCTATGAATCGTCGCTCTGTTTATTGGAAGAAAACAGCCTTCAAGGCGTGATTTTATATGAAAACTCTTCGTGGGAAAGTCAATTGTTCCGAAAAAATATCATCAATGTGAAGCTTGCAGCCGCAAACAGCACCGGACAGCTCAAAAGGCTGTTTCAGGAATTTTACGCGGCAAGGCGGGCGGCAGGCACTGATTTTATATTTATTAAAATACCGGCTGAAGATATCGGCGCGATGCAGGTCGTTCAGCAGCTTCCGAACGCTTATTTTGTAGGGAGTCTGCTCAAACTCGTCAGCCCGGTGCGTGTATATAACAGCACGCCGCCATTTGAGATTACAGAAGCCGGACCCGGCGACACGGAAGCGATCAGACGGCTGGCCCGCGACGCCTTTACAAAAAGCAGGTATTACCAAGACCCCCATCTCAGCTATGAAAGTGCGAACCGCCTGTTTGAAGAGTGGGCGCGGAATAACGCGGAAGGCAGAGCTTCGTTACAATTCGCCGCCACATATAAGGGAGAGACCGTGGGCTTTGTTCAGGGGCTGTCTAAAGGCGATGAATTCGTCCTTGATCTGATGGCGGTAAAGCCGGGATTTGAAGGAAAAGGAGCGGGATTCCATTTAGCGGCGCACGTGATTGAACAATCATTGCGCTTTCAGCATAAGACTGTATCAGCGGGAACGCAGCTCCACAATGTAAGAGCCATCCGCCTGTATGAAAGAATGGGATTTAAAGCGGATGCGTCCTATTACTACTATCATGTGTGGCCCGGGAAGGAGGCGGACTGA	MYRLRENLAQDMIHAFLHQKGIQPEAYESSLCLLEENSLQGVILYENSSWESQLFRKNIINVKLAAANSTGQLKRLFQEFYAARRAAGTDFIFIKIPAEDIGAMQVVQQLPNAYFVGSLLKLVSPVRVYNSTPPFEITEAGPGDTEAIRRLARDAFTKSRYYQDPHLSYESANRLFEEWARNNAEGRASLQFAATYKGETVGFVQGLSKGDEFVLDLMAVKPGFEGKGAGFHLAAHVIEQSLRFQHKTVSAGTQLHNVRAIRLYERMGFKADASYYYYHVWPGKEAD	PGPT0022850_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022850-rffC|wecD-K16704	NA	NA
D1-12_02351	1122	spsE	COG2089	Spore coat polysaccharide biosynthesis protein SpsE	ATGGCATCATGCAAAATCGGAACGAAGTCAATCGGCGAAGGTTCGCCCGTATTCATCATCGCCGAAGCCGGAATTAATCATGACGGAAAACTGAGCCAGGCGTTTGAATTGATAGATGCGGCCAGTGAGGCCGGCGCGGACGCGGTCAAGTTCCAAATGTTTCAGGCTGACAAAATGTATCAGAAAGACCCCGGCTTGTACAAAACCGCTGCGGGAAAAAACGTCTCTATTTTTTCTTTGGTGCAATCAATGGAAATGCCCGCCGAGTGGATCGAACCGCTGCTTGAATATTGTAAGAAAAAAGGCGTGCTGTTTTTAAGCACGGTATGTGACGAAGGCTCTGCCGACTTACTGTATGCGACTTCCCCTTCAGCCTTTAAAATCGCCTCCTACGAGCTGAACCATCTGCCGTTATTGAAATATGTCGCGGGGCTGAAGACCCCGATTATTTTTTCCACCGCGGGCGCTGATATTTCAGATATTCAGGAGGCTTATCAAACCATTACCGGCGAGGGGAACACAGAAATTGCGATCATGCATTGTGTGGCGAAATATCCCGCGCCGCCTGAATACAGCAATCTGAGCGTCATTCCCATGCTTGCCGCCGCATTCCCGGATGCAGTGATCGGTTTCTCCGATCACAGCGCCCATCCGTATGATGTGCCGTGCGCGGCTGTCAGGCTCGGAGCGAAACTGATTGAAAAGCATTTTACGATCGATAAAAACCTGCCCGGTGCTGATCACTCCTTCGCTCTCAATCCGGATGAATTAAAAGAAATGGTTGCGGCGATCCGCTCAGTTGAAGCGGAGCTGCGGCAGGGGCATCATGCTCCGGTGCCGGAAGTGCTGTCGGGAAGCTCCCATAAAACGACGACCCCGATTGAAGGGGATATCAGAAGGTTCGCTTACAGAGGCATTTTTTCAACAGCGCCGATTCAAAAAGGCGAATGTTTTACGGCGGAAAACCTTGCCGTCCTTCGTCCCGGCCAAAAACCGCAGGGGCTTCATCCGAGATATTTTGAACTTTTAACTGACGGCGCGCGTGCGGTCAGGGATATCCCCGCCGACACGGGCATCACTTGGGATGACCTTTTGACGAAAGGCAGCCCATATGATGACTGA	MASCKIGTKSIGEGSPVFIIAEAGINHDGKLSQAFELIDAASEAGADAVKFQMFQADKMYQKDPGLYKTAAGKNVSIFSLVQSMEMPAEWIEPLLEYCKKKGVLFLSTVCDEGSADLLYATSPSAFKIASYELNHLPLLKYVAGLKTPIIFSTAGADISDIQEAYQTITGEGNTEIAIMHCVAKYPAPPEYSNLSVIPMLAAAFPDAVIGFSDHSAHPYDVPCAAVRLGAKLIEKHFTIDKNLPGADHSFALNPDELKEMVAAIRSVEAELRQGHHAPVPEVLSGSSHKTTTPIEGDIRRFAYRGIFSTAPIQKGECFTAENLAVLRPGQKPQGLHPRYFELLTDGARAVRDIPADTGITWDDLLTKGSPYDD	PGPT0025266_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025266-spsE-NA	NA	NA
D1-12_02352	744	kdsB		8-amino-3,8-dideoxy-manno-octulosonate cytidylyltransferase	ATGATGACTGACATTTTGTTTATCATTCAGGCGCGGATGGGAAGCGGGCGTCTTCCCGGTAAAGTGCTGAAACCGATCGGCGGGTATACGATCCTCGATATGATTATCAAAAGGGTTCGGAAAAGCGCGTATTATGATCAATCGCGGGATAATCTGATCGTCGCCTCGTCTGACAGCAAGACCGACGACATTCTGTCAGCGCACTGCCTCAGCAAGCACTACCGTGTGCACCGCGGCAGCGAACAGTGTGTTCTTGACCGGTTTGCACAAGTCATCGAACAAGTAAAACCGGACATCGCCATCAGACTGACGGGGGATAACCCGTTTGTCGACCCTTCGCTGCTTGATTTTCTGATTCAATCGCATTTAGATCAGCACGCAGACTACACGTATATTTGCGGTACACCGCTTGGCATCGGCGGCGAGGCGGTTAACGCGCGTCTTTTAACAGAGATCAATGCGGACAAAACGCTGGCGGACAAATATCAGGAGCATGTCACGCTTTTAATAAGAGAATCCTCTGAGAAGTACCGGCTTCTCTTTCCTGAGCCCCCGCAGGAACTCCGGGCTCCTCACTTGCGGCTGACCGTCGATACCGAAGAGGACTACAGGCTGGCCCGCGAGCTGTACGTAAAAGCGGGCTCGCGTCCTGATATTCCGGCAAAAGAATTGATCCATCTGCTGAATAGTGATCCGGAGCTCAGGGCCATTAATCAAATGATCCGGCAAAAAGAGGCTGATTAG	MMTDILFIIQARMGSGRLPGKVLKPIGGYTILDMIIKRVRKSAYYDQSRDNLIVASSDSKTDDILSAHCLSKHYRVHRGSEQCVLDRFAQVIEQVKPDIAIRLTGDNPFVDPSLLDFLIQSHLDQHADYTYICGTPLGIGGEAVNARLLTEINADKTLADKYQEHVTLLIRESSEKYRLLFPEPPQELRAPHLRLTVDTEEDYRLARELYVKAGSRPDIPAKELIHLLNSDPELRAINQMIRQKEAD	PGPT0025255_235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025255-spsF-K07257	NA	NA
D1-12_02353	1005	murG_2		UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGCGGGTTCTGATTTTCGCGGACGGGGGCCGTGACATCGGCATGGGGCACGCGGTCCGGATGAAGCTGCTTGCCGGTGCCATTAAGAACAATTGCTCAATAACGTTCTACACAAATAAAGAGGCTTCTTCTTATCTGTCTTCTGATCAATGGGAAGTGATCATCAAGCCTGACAAGGGACAGAAGGAATTTATTGTCCGGGAAATAAACAGGCAGGCTCCTGACCTTCTCATATTCGATCTGCTCGATATACCGTGTGACTGGTTGGAGGAAGTCAAAAAGCATTCATCGGCACGTATCGTCTTATTTGAAGAAAAACGGGAACATGTCATTCATTTATGCGATGCCGTTATAAACGGCATTTACGGAGGGCTGAAAAGCCGGACGGTTCAAATGGGCAGCGCCGCGGTATATGAAGGCCCGGAATATATCATTCTTCATCCGGGTTTTGAAAAAGCCAAACAGCTTTATCAGCTGAATAAAGAATGCCGGACCATATTGGTCTCATTAGGAGGAAGCGACCCGAAGAAGCTTGTCTTTAAAGTGATGGAAGCATGCCGCCGCATCCCCGATATTCAGCGAAAACGAGTGATCATCGTCATGGGCGGCGCCGCGCCTCATGCTGATGACGTGCGCGCGCATCTTACACAAATGCCTTATGCCGAGATGGTAAGGCAGACAAATGACATGGCCGCGCTTCTTTCGAGGGCTGATATGGCCGTCGTGTCCGGCGGGATCACTTTATATGAGACCATTTGTACGGGTGTGCCCTGCATCGTACTTTCTCAAGTGGAGCATCAAACTGAGACGGCGGATAAATTCGCCGCACGGGGGGCCGCCGTTCATCTCGGCCTTGGTGAATGCATATCAGCGGACGTTCTCGCACGGCATATGTCTGACATGGCCGCTGATTATCCGATGCGGTCCGGACTTCATCAAAACGGAAAGCCGCTGGTTGACGGCAGGGGCATCAAACGGGCGGCGGCGATTCTTTATGATTTGTGA	MRVLIFADGGRDIGMGHAVRMKLLAGAIKNNCSITFYTNKEASSYLSSDQWEVIIKPDKGQKEFIVREINRQAPDLLIFDLLDIPCDWLEEVKKHSSARIVLFEEKREHVIHLCDAVINGIYGGLKSRTVQMGSAAVYEGPEYIILHPGFEKAKQLYQLNKECRTILVSLGGSDPKKLVFKVMEACRRIPDIQRKRVIIVMGGAAPHADDVRAHLTQMPYAEMVRQTNDMAALLSRADMAVVSGGITLYETICTGVPCIVLSQVEHQTETADKFAARGAAVHLGLGECISADVLARHMSDMAADYPMRSGLHQNGKPLVDGRGIKRAAAILYDL	PGPT0025267_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025267-spsG-NA	NA	NA
D1-12_02354	738	rmlA	COG1209	Glucose-1-phosphate thymidylyltransferase	GTGAAAGGTGTTATCTTAGCCGGAGGCACCGGCTCACGCCTTATGCCGCTGACAAAAGCGGTCAATAAGCATTTACTCCCTGTCGGTCCATATCCGATGATTTACTGGTCGATCATGAAGCTGGAAGAAGCGGGGATTACGGATATCTTGCTGATTACGCAAAAAGAATATATTCCGCAATTTCATAAACTTCTCGAAACCGGAGAAGAACTCGGCGTCTCAATCACATATCAGGTTCAGCCAGCCGCATCCGGCATTTCCGACGGTTTATCATACGCAAAGCGGTTTACCGGGCGCGACCCGTTTGTCCTGCTTTTGGGAGATAATATTTTTGAAGATTCATTAAAACCTTATACGGAGCGTTTCGCAAAGCAGGGAAAAGGAGCGAAAGTGCTGCTGAAAGAAGTGGACGATCCGGAGCGCTTCGGCATCGCCGAGATTGATGAGGAAAACAAACGGATCAAGTCGATCATTGAAAAGCCGGAGCAGCCGCCGACCAGACTATGCGTCACAGGGATCTACATGTACGACGCAGAAGTGTTTTCTTATATTGAACAAATTTCCCCTTCAAAACGCGGCGAACTGGAAATTACAGATGTCAATAATTTATACATTGAACACAGTGAGCTGACGTATGATGTGTTAACGGGCTGGTGGGTGGATGCGGGCACGCATGAATCGCTCTACCTCGCCGGAAGCCTGGCGCATCAGGCAATACAGAAAGGACAGGAGCATTAA	MKGVILAGGTGSRLMPLTKAVNKHLLPVGPYPMIYWSIMKLEEAGITDILLITQKEYIPQFHKLLETGEELGVSITYQVQPAASGISDGLSYAKRFTGRDPFVLLLGDNIFEDSLKPYTERFAKQGKGAKVLLKEVDDPERFGIAEIDEENKRIKSIIEKPEQPPTRLCVTGIYMYDAEVFSYIEQISPSKRGELEITDVNNLYIEHSELTYDVLTGWWVDAGTHESLYLAGSLAHQAIQKGQEH	PGPT0022600_4902	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
D1-12_02355	948	rfbB	COG1088	dTDP-glucose 4,6-dehydratase	ATGCCAAAATCATATTTAATTACAGGCGGCGCCGGATTTATCGGCCTTACCTTCACAAAGATGATGCTGAAAGAAACGGACGCGCAGATTACCGTCCTGGATAATCTCACGTATGCAAGCAGGCCGCTTGAAATAGAAGCCTTAAAAAAGAACGGCCGTTTCCGTTTTATCAAAGGTGACATTTCTAAAAAAGAGGACATTGACAAAGTCTTTTCCCACATGTATGACGCTGTCATTCATTTTGCGGCTGAATCCCATGTGGACAGAAGCATAAATCAGGCAGAGCCGTTCATCACAACAAATGTGATGGGCACATACCGACTGGCGGACGCGGTGTTGCAGGGAAAAGCCGGCAGACTGATTCACATTTCCACAGATGAGGTGTACGGAGATTTGGCGCCGGATGATCCCGCTTTTACAGAGACGACGCCGCTTTCTCCGAACAATCCGTATTCCGCCAGCAAGGCAAGCTCAGACCTGCTCGTCATGTCTTATGTGAAAACTCATAAGCTTCCAGCCATCATTACAAGATGCAGCAACAATTACGGGCCGTACCAGCATCACGAGAAAATGATTCCGACCATTATCAGGCATGCCGTAAACGGCACGCCGGTTCCGCTGTACGGCGACGGATTGCAGATCAGAGACTGGCTGTTTGCCGAAGACCATTGCCGCGCCATTAAGCTCGTCCTGGAAAAAGGAACACTCGGTGACATTTACAATATCGGCGGAGGAAATGAACGGACGAATAAAGAGCTTGCGTCATTTATCATGAAGGAGCTCGGTGTCGAGGAACGGTTTGCTCATGTCGAAGACAGAAAAGGGCATGACCGCCGCTACGCCATCAATGCTTCAAAGCTGAAAAATGAGCTGGGATGGCGGCAGGACGTCACATTTGAAGAAGGAATGAGAAGAACCATTCGCTGGTATACAGACAGCCAAGACTAA	MPKSYLITGGAGFIGLTFTKMMLKETDAQITVLDNLTYASRPLEIEALKKNGRFRFIKGDISKKEDIDKVFSHMYDAVIHFAAESHVDRSINQAEPFITTNVMGTYRLADAVLQGKAGRLIHISTDEVYGDLAPDDPAFTETTPLSPNNPYSASKASSDLLVMSYVKTHKLPAIITRCSNNYGPYQHHEKMIPTIIRHAVNGTPVPLYGDGLQIRDWLFAEDHCRAIKLVLEKGTLGDIYNIGGGNERTNKELASFIMKELGVEERFAHVEDRKGHDRRYAINASKLKNELGWRQDVTFEEGMRRTIRWYTDSQD	PGPT0022625_5194	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
D1-12_02356	849	rmlD		dTDP-4-dehydrorhamnose reductase	TTGACGAAGGTATTAGTAACCGGAGCGGCCGGCCAGCTGGGGCGGGAGTTATGCCGCCAGCTGAAGCGGGAAGGGTATGAAGTGATCGCCTTGACAAAAGCGATGATGAACATATCCGACCAGCGTTCGGTGCGGCACTCGTTCAGCCATTACAAGCCGGATATCGTCGTCAATACGGCGGCATACACCTCCGTTGACAAATGTGAAACGGAGCTCGACAAAGCGTATTTAATAAACGGAATCGGCGCTTATTATGCCGCGCTTGAGGCTGAAAACACCGGCGCGAAATTCATTCACATCAGCACCGATTACGTCTTCAGCGGCAAAGGAACACGGCCATACCAGACCGACGATCCCGCAGATCCGGGCACGATTTACGGAAAAAGCAAAAAACTCGGCGAAGAACTGATCCGGTTAACGGGAAAAAACCACACCATTATCAGAACATCGTGGGTGTACGGCAGCGGCGGGCACAACTTTGTCAATACGATGCTGAAACTTGCGGATACACATGATCAGGTGCGTGTCGTTAACGATCAAGTCGGCGCACCGACGTACACAAAGGATTTAGCCGAAACGGTGATCGGTCTGTTTGACAGGCCGCCGGGCTTATATCACGCCGCAAACAGCGGAGTGTGCAGCTGGTATGAATTTGCCAAGGCTATTTTTGAAGAAAGCGGCAGAACCGCCGCCGTGCTGCCCGTCACGACGGAGGAATACGGAAATGAGACGCCGCGCCCCGCTTATTCGGTGTTGAGTCTTGAGTCGATTGAACGGCAGGGGCTCGGCATGAGGCATTGGCGGGAAGCGCTGCATGATTATTTACAAAGGGAGGGACAGTGCAAGTGA	MTKVLVTGAAGQLGRELCRQLKREGYEVIALTKAMMNISDQRSVRHSFSHYKPDIVVNTAAYTSVDKCETELDKAYLINGIGAYYAALEAENTGAKFIHISTDYVFSGKGTRPYQTDDPADPGTIYGKSKKLGEELIRLTGKNHTIIRTSWVYGSGGHNFVNTMLKLADTHDQVRVVNDQVGAPTYTKDLAETVIGLFDRPPGLYHAANSGVCSWYEFAKAIFEESGRTAAVLPVTTEEYGNETPRPAYSVLSLESIERQGLGMRHWREALHDYLQREGQCK	PGPT0022630_3773	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
D1-12_02357	456	rfbC	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	GTGATCGAAGGCGTAAAAATCAAAAAGCTGATCAAACACAGCGATGACCGGGGTTTTTTCTCAGAACTCGTCCGTGACGATGAACATCTCTTAGAGCGTTTCGGGCAGGCTTCCTGGTCCAAAAGCTATCCCGGCGTCATTAAAGCATTTCACTATCATGAGAAACAGGATGACCTGTGGTTTTTTCCGACGGGTTACGCCCAGGTCGTGCTCCATGACCTTCGCGAAGAGTCGGCAACCAAGGGAGAAACGGATGTCTACTACATGGGAGAAGACAATCCGATGCTCCTTCTCATTCCCAAAGGCGTCGCACACGGGTACAGAGTGCTGGGCGAAACCCCGCTGACCATTATTTATTTCACGACGATGTCCTACAATCCGGATCAGCCTGACGAAAAAAGAATTCCGTGGAATGATGACACCATCGGATTTGACTGGCAGACGGCTCACCGGTAG	MIEGVKIKKLIKHSDDRGFFSELVRDDEHLLERFGQASWSKSYPGVIKAFHYHEKQDDLWFFPTGYAQVVLHDLREESATKGETDVYYMGEDNPMLLLIPKGVAHGYRVLGETPLTIIYFTTMSYNPDQPDEKRIPWNDDTIGFDWQTAHR	PGPT0014300_4187	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
D1-12_02358	945	bcrA_2		Bacitracin transport ATP-binding protein BcrA	ATGGAAAGGGGAAAGCGAATGACATACATCTTAAAAACGAGTCAGCTTACAAAAACATTTAAAGGAAAAGAAGTTGTTTCCGGGGTTAATATGCACGTGAAAAAAGGGGAGATTTATGGATTCTTGGGTCCCAATGGTGCAGGTAAAACAACCATTATGAAAATGATTACCAATTTAATCAAGCCAACAAGTGGGGAAATAGAAATTTTCGGTGAGAAATTAACAGATACGTCATTTGAAGTTTTAAAACGAATGGGCACCATTATTGAATATCCCATTTTCTATGACAACCTCACTGCTAAAGAAAATTTAGATTTCCATTGTGAATATATGGGCTATTACGATAAAAAATCCATTGACCACGCTATCGAGCTTGTAAAGTTACATAATATTGATAATAAAAAAGTGAAAGAGTTTTCTTTAGGAATGAAACAAAGGTTAGGAATAGCCAGAGCTATTTCTACAAGACCAGAACTTCTCATTTTAGACGAGCCGATTAACTGTCTGGATCCAATAGGTATAAAAGAGTTGAGGGATCTCTTTAAGTTACTTTGCAGAGAATATGGAATTACATTATTAGTCTCCAGTCACATTTTAGCCGAAATGGAACAAATGTCAGATACTGTTGGTATCATACAGAATGGCAAGTTAATAAAAGAAGTTTCTATGAAGAGTATAAACGGAAAACAAACAGAGTATGTGGAGGTAAAAGTCCAAAATATAAAAAAAGCGTTATATATTTTAGAGCAAAATCTGGGGATAAGAAATTTTAAAATGATTGACCAGCAATTAATTCGTATCTATGAAACAGCAGTTACACAACAAGAAATCTCTAAAGCACTTATTCTGAATGACATTGGTATAGAAAGTATAAATAAAAAACACAGTTCTTTAGAAGAATACTTCTTAAATTCTATGAATGGGGAGGGAATACACACTAGATAG	MERGKRMTYILKTSQLTKTFKGKEVVSGVNMHVKKGEIYGFLGPNGAGKTTIMKMITNLIKPTSGEIEIFGEKLTDTSFEVLKRMGTIIEYPIFYDNLTAKENLDFHCEYMGYYDKKSIDHAIELVKLHNIDNKKVKEFSLGMKQRLGIARAISTRPELLILDEPINCLDPIGIKELRDLFKLLCREYGITLLVSSHILAEMEQMSDTVGIIQNGKLIKEVSMKSINGKQTEYVEVKVQNIKKALYILEQNLGIRNFKMIDQQLIRIYETAVTQQEISKALILNDIGIESINKKHSSLEEYFLNSMNGEGIHTR	PGPT0006725_7094	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_02359	705			hypothetical protein	ATGTTAAAACTTATGAAATTAGAGTACAAAAAACATCACTTATCACAGTATTTTAAATGGGTGGCACTTTGGATATTCATCATCTTTGCCTTAGTGGCTCTTATGGGATGGGAATCTAAAAATGAAAATGAACTTATGTTTCGTGATTATGCAGATTTTATATCTCTAACTAATATTTTAATTAGAATTGTGTTTATTTGTTTTTCTGCTGTGATTTTATCCCGTTTAGTTATTGATGAATATAAAAATAAAACAATACAATTGCTGTTTACTTATCCTTTACAAAGAAAAAAATTAATGCAAGCTAAACTATCTATTGTCTTCCTATTCTGCTTTGTAAGTATTGTTATTGCTACGTTTGTTATTAACTTGTTAATTCTCTTCGTGAGTCCGCACTTATATTTATTCGAGAAGCCTGTTGAAATGAGTGAAGTTATTTCCGCTATGCCATCGTCTCTTCTCACCGCTTTTATGATGGGAGGAGTGAGTCTGATTCCTTTATTTTTCGGCATGAGAAAAAAATCAACTTCTGCTACAATCACTTGGGCTGTCATAATCGGGGTCTTTATCAATGCAACAGTTTCCGACGGAGAAGAAACAGTCAGTTTAAGTCAATTTATTATCATTCCAATTATACTTTGTTTATTTGGTTTTTTAGTCGGTTATCTTTCTTACCGTAAGGTGGATCAGAAAGATTTATTGTAG	MLKLMKLEYKKHHLSQYFKWVALWIFIIFALVALMGWESKNENELMFRDYADFISLTNILIRIVFICFSAVILSRLVIDEYKNKTIQLLFTYPLQRKKLMQAKLSIVFLFCFVSIVIATFVINLLILFVSPHLYLFEKPVEMSEVISAMPSSLLTAFMMGGVSLIPLFFGMRKKSTSATITWAVIIGVFINATVSDGEETVSLSQFIIIPIILCLFGFLVGYLSYRKVDQKDLL				NA	NA	NA	NA	NA
D1-12_02360	867			hypothetical protein	ATGAAGAAGATTATAGCATCATGTGCAGTGTTAATCGTAATCGGCGGAATTGTTTTAATCCTTGATAAGACAGATACAAAAAACTTTAAAAAGAACGTGTCCTACAATGTTGAAAAAATTGATACTTTAAAAGTATATACTGACTCATGGGATGTGAAGTTTAAAAAGAGTAATTCAAATAAGGCAACAATATCTGCTGAGGGGAAACAGAAAGATAAGGCTCCAGTTACATTTCAAGAAAATGGGAGAGATTTGGTCGTTAGTCAAAAAGAACAAAAGAATGGCGGCTTTTTGGATGGATTTACTTTTGGGAAGCAGGGCGGCACAATCTATATTAATGTTCCCAATTCAGGTATGAACAATATTGAAATAACCAATAAAGATGGGAATATACAATTAAGTGAAATTTCAGCTGAACATATTGTCGTTGATAATCATTCCGGTGATGAAAAAATCAATAATGTTTCGGCTCATACTGGAAAGTTTTCATCCAGGGATGGGGCGTTAAGCGTTGAAAATAGTTCTTTTGAGAAATTAAATATAACATCTGCAAGCGGCGATAACGAGATGAAGGAAATACATAGTTCCAATGTAAAGGTTACTTCTAAAGATGGAGCGGTTTCAATCAAGGACATAACAGAAGGAACATCTTTATCAGTAAATACGAAATCAGGAGATATAGGTGTATCTTATAAAAAAGCGCCAACTTCACTTGCTGTTTTTGCTCAGAGTAATTCTGATGTAACGTTTGATCTAGATGGGCTTAATAAGAGCCATGATGGCGTAAAACTGAAAAAAGGTGAAATTGGCGCAGGAAGTAATAAAGTGAGTCTATCTAGTGAAGATGGTTCGATAAAGGTGAGATAA	MKKIIASCAVLIVIGGIVLILDKTDTKNFKKNVSYNVEKIDTLKVYTDSWDVKFKKSNSNKATISAEGKQKDKAPVTFQENGRDLVVSQKEQKNGGFLDGFTFGKQGGTIYINVPNSGMNNIEITNKDGNIQLSEISAEHIVVDNHSGDEKINNVSAHTGKFSSRDGALSVENSSFEKLNITSASGDNEMKEIHSSNVKVTSKDGAVSIKDITEGTSLSVNTKSGDIGVSYKKAPTSLAVFAQSNSDVTFDLDGLNKSHDGVKLKKGEIGAGSNKVSLSSEDGSIKVR				NA	NA	NA	NA	NA
D1-12_02361	699	walR_4	COG0745	Transcriptional regulatory protein WalR	TTGGGTTACAAAATATTAATTGTAGAAGACGACCAATTCATAAGCGATATGGTAAGCGAAAGCTTAACGAAAGAAGGGTTTGAAGTAACAGCTGCTTTTGATGGTGAAGAAGCTTTAGACATATTGAACACCCAAAAGTTTGAGGTTATATTGTTGGATTTAATGCTTCCGAAGATAGATGGGATGGAATGTTTAAGAATGATTCGTTCCAAAAGTATGGTTCCCGTTCTTATCATGTCTGCAAAAGATGAAGATGTAGATAAGGCACTTGGTCTCGGCCTCGGGGCTGATGATTATATTTCTAAACCTTTTTCTATGCTGGAGGTAATAGCCAGAATTAAAGCAACCATTAGAAGAGAAAGACACTATAAGAGCTCCCTGTCTTCAAAGGAAGAAAAAATCATTAAAATAGGTGATTTAAGTGTTGACCTGCATGGCTTTTCTGTTAAAAAATTCAATGAAAAGATTAATCTCACGGCAAAAGAATTTAATATTTTAAAACTCTTTATTTCTAATCCTTCACAAGTATATACTAAGTCTCAACTTTATAAATCCGTATGGGAAGATGAGTATCATGGAGATGAGAATGTAATTAATGTTCATATTAGACGGCTCAGAGAGAAAATTGAGGACGATCCATCTCATCCAATGTACATAAAAACTTTGTGGGGAATCGGTTATAAGTTGGGAGATTTTTAA	MGYKILIVEDDQFISDMVSESLTKEGFEVTAAFDGEEALDILNTQKFEVILLDLMLPKIDGMECLRMIRSKSMVPVLIMSAKDEDVDKALGLGLGADDYISKPFSMLEVIARIKATIRRERHYKSSLSSKEEKIIKIGDLSVDLHGFSVKKFNEKINLTAKEFNILKLFISNPSQVYTKSQLYKSVWEDEYHGDENVINVHIRRLREKIEDDPSHPMYIKTLWGIGYKLGDF	PGPT0014763_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
D1-12_02362	936	rcsC_2		Sensor histidine kinase RcsC	TTGTTTTATATGTTGGTTATTTTATTCATATGCTCTGCAGCAGTAAATATATTTCTTTTCCGAAGCCGATTAAATCTAAGAACTGAGATTAAATATATAAGAAATAAACTTCGAAAAGTTGTTAATGAAGAGACAGGCGAAAGATTATTGCTTAACACGGAAGATAAATATATAAAATCCTTGTTAATTCAAATAAACCGTCTTTTAGACCATAATCAAAAGATCAAAGGGAACTACAATAGTATTGAACTGTCCATGCGAAAAATGTTATCAAATATTTCACACGATTTAAAGACGCCTTTAACAGTTATACTAGGTTATATTGAAATGATAAATAACGATAAAAGTCTGACTTCGGAAAAGGTTATGAGTTTACTAAAAACAGTTAATTTAAAAACGGTCGAGGTATTAGCGTTAATAAACCGTTTTTTTGAACTTGTAAAATTAGAGTCAGGAGATAAAAAATTAAATTCTTCACGAATTGACATATGTGAAGTCAGCCGAAAAATAATTTTGGATTACTACGAAATTTTAATCAGCAAAGAATTTGAAGTAGTGATTGATATACCCGATGATTCTGTCTTTGTTAGCGGAGATGAAGATGCAATTGAGAGGGTTCTGAATAATTTAATTACGAATGCAATTCAATATGGTTCCGATGGTAAGATGGTGGGTTTAAAGATCAGAATAACTGATAATGATGTTTTTGTAGAAATATCAGATAAAGGAAAAGGAATAAATGAAATGCATAAAGACCGTGTCTTTGAACGAATGTACACATTGGAGGACTCGAGAAATACCAATTATCAGGGAAGCGGATTGGGGCTGACGATTACTAAGAGATTAGTAGAGCAAATGGAAGGAAGTATATCTCTAAATAGTGTCCCCTTCAAAGAAACAACGTTTTCTGTACGTTTAAGACGTATTAAATTTTAA	MFYMLVILFICSAAVNIFLFRSRLNLRTEIKYIRNKLRKVVNEETGERLLLNTEDKYIKSLLIQINRLLDHNQKIKGNYNSIELSMRKMLSNISHDLKTPLTVILGYIEMINNDKSLTSEKVMSLLKTVNLKTVEVLALINRFFELVKLESGDKKLNSSRIDICEVSRKIILDYYEILISKEFEVVIDIPDDSVFVSGDEDAIERVLNNLITNAIQYGSDGKMVGLKIRITDNDVFVEISDKGKGINEMHKDRVFERMYTLEDSRNTNYQGSGLGLTITKRLVEQMEGSISLNSVPFKETTFSVRLRRIKF				NA	NA	NA	NA	NA
D1-12_02363	1287	rocG	COG0334	Catabolic NAD-specific glutamate dehydrogenase RocG	ATGTCAGCCAACCCGCTTTCTAAAAGCAATCAGAAAGATGAAGAAAAAGAAGTTCTTAATTTGTTCTTGTCAACACAATCGATCATAAAAGAGGCCCTGCGCAAACTGGGCTATCCTGACAATATGTATGAATTGATGAAAGAGCCGATGCGGCTTTTGACCGTCCGCATCCCCGTCAAAATGGACAATGGCTCAGTACAGGTTTTCACGGGCTACCGCTCACAGCATAATGACGCAGTCGGCCCGACAAAAGGAGGCGTGCGGTTTCATCCGGAAGTCAGTGAAGAAGAGGTTAAGGCGCTTTCGGTCTGGATGACTTTAAAATGCGGCATCACAAATCTTCCTTACGGGGGCGGAAAAGGCGGCATCATCTGTGATCCGCGGACGATGTCATTCGGAGAGCTGGAACGGCTGAGCCGCGGATATGTGCGCGCGATCAGCCAGATCGTCGGTCCGACAAAGGATATTCCGGCTCCCGACGTATATACCAACTCGCAGATTATGGCATGGATGATGGACGAATACAGCCGCCTGAGAGAATTTGATTCACCGGGATTCATTACGGGCAAACCGATCGTTCTCGGCGGTTCACAGGGGCGGGAGACAGCGACCGCGCAAGGCGTCACGATTTGTATTGAGGAAGCCGTTAAGAAAAAAGGGATTCCATTGGAAAATGCGCGGATCATCATTCAGGGGTTCGGAAATGCGGGGAGCTTTCTCGCTAAATTTATGCATGATGCCGGCGCCAAGGTGATCGGCATCTCAGACGCCCACGGCGCTTTGTATGACCCTGACGGCCTTGACATTGATTACCTGCTGGATAAGCGGGACAGCTTCGGCACGGTGACGAATCTCTTCTCGGATGTCATAACGAACCGGGAGCTGCTGGAAAAGGACTGTGATATTCTCGTGCCTGCCGCAATCTCCAATCAGATTACGGCTGAAAACGCCCATCACATTAAAGCCTCAATCATTGTGGAGGCGGCGAACGGGCCGACAACGATAGACGCCACGAAAATCCTGAATGAAAGAGGCGTGCTTCTCGTGCCGGATATTTTGGCAAGCGCCGGCGGCGTGACGGTGTCTTATTTTGAATGGGTGCAAAATAATCAAGGCTTTTACTGGTCTGAGGAGGAAGTCGCCGGAAAACTGCGCAGCGTCATGGTGAATTCGTTTGAATCCATTTATCAGACAGCGCATACCCACAAAGTCGATATGCGTTTGGCCGCCTATATGACGGGCATCAGAAAGTCGGCTGAAGCGGCCCGGTTCCGCGGCTGGGTATAA	MSANPLSKSNQKDEEKEVLNLFLSTQSIIKEALRKLGYPDNMYELMKEPMRLLTVRIPVKMDNGSVQVFTGYRSQHNDAVGPTKGGVRFHPEVSEEEVKALSVWMTLKCGITNLPYGGGKGGIICDPRTMSFGELERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLREFDSPGFITGKPIVLGGSQGRETATAQGVTICIEEAVKKKGIPLENARIIIQGFGNAGSFLAKFMHDAGAKVIGISDAHGALYDPDGLDIDYLLDKRDSFGTVTNLFSDVITNRELLEKDCDILVPAAISNQITAENAHHIKASIIVEAANGPTTIDATKILNERGVLLVPDILASAGGVTVSYFEWVQNNQGFYWSEEEVAGKLRSVMVNSFESIYQTAHTHKVDMRLAAYMTGIRKSAEAARFRGWV	PGPT0020205_70	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0020205-gudB|rocG-K00260	NA	NA
D1-12_02364	1548	rocA	COG1012	1-pyrroline-5-carboxylate dehydrogenase	ATGACAGTTTCATACGCACACGAACCATTTACAAATTTTCAGGAAGAGACAAATAAACAATCGTTTCAGGAAGCGCTGGCTTATGTGAATTCACAGCTCGGCAAGCATTATCCGCTTATCATCAACGGTGAAGCGATTGAAACGGATAAAAAGATCATTTCCGTCAATCCGGCAGATAAAAAAGAAGTGATCGGTTCTGTATCGGCAGCCGGAAAAGAACTTGCGGAAAAGGCCATGCTGGCTGCGCTGCAGGCATTTCAAACATGGAAAAAAGTACGGCCGGAACACCGCGCGAATGTGCTGTTTAAAGCGGCGGCGATCATCCGCAGAAGAAAGCACGAATTCTCCGCGTATCTAGTGAAAGAAGCCGGAAAACCGTGGAAGGAAGCGGATGCTGATACGGCGGAAGCGATCGACTTTTTAGAGTATTATGCCCGTCAGATGCTGAAACTGAAAGACGGTTCCCCTGTAAAGAGCCGTGACGGAGAATTTAATCAGTATCACTATGAGCCGCTTGGGGTGGGAATCGTCATTTCTCCATTCAACTTCCCGCTTGCGATCATGGCGGGAACGGCGGCGGCAGCCATCGTAACAGGCAACACGATACTGCTGAAACCGGCGGATGCGGCGCCTGTCGTGGCGGCGAAATTTGTTGAAGTGATGAAAGAAGCGGGCCTGCCGGACGGCGTGCTCCAATTCATACCGGGCGACGGAGGAGAAATCGGCGACTATCTGGTTGAGCATCCGAAGACGAGATTTGTGTCGTTTACAGGCTCCCGCGCGGTCGGATGCCGCATCTATGAACGCGCCGCAAAAGTACAGCCGGGCCAAAAGTGGCTGAAACGGGTCATTGCCGAAATGGGAGGGAAAGATACGGTGCTTGTAGACAGAGATGCTGATCTTGATCTTGCCGCTTCCTCAATCGTGTATTCCGCCTTCGGATTCTCAGGCCAAAAATGTTCAGCCGGTTCGCGTGCGGTCATTCATCAGGACGTCTATGATGAAGTTGTTGAAAAAGCCGTCGCTTTAACAAAATCACTCACCGTCGGAAGTCCGGAAGATTTTGATACATACATGGGGCCAGTCATCCACGAAGCATCTTATAATAAAGTCATGAGGTATATCGAAATCGGCAAAACAGAAGGAAAACTCCTGACGGGAGGCGAAGGTGATGATTCAAAAGGATACTTTATTCAGCCGACCATTTTTGCGGATGTTGATGAAAACGCCCGCCTGATGCAGGAGGAAATTTTCGGGCCGGTCGTCGCGATCTCAAAAGCCCGTGATTTCGACCATATGCTTGAGATTGCCAATAATACCGATTACGGACTGACGGGCGCTCTGTTATCGAAAACCCGCGCGCACATTGAACGCGCCCGCGAAGATTTTCACGTCGGGAATCTATACTTCAACCGCGGATGTACGGGAGCGATTGTCGGATACCAGCCGTTCGGCGGCTTCAATATGTCAGGAACCGATTCAAAAGCCGGAGGACCTGACTATCTGATTCTTCATATGCAGGCAAAAACAACGTCTGAAGCCTATTAA	MTVSYAHEPFTNFQEETNKQSFQEALAYVNSQLGKHYPLIINGEAIETDKKIISVNPADKKEVIGSVSAAGKELAEKAMLAALQAFQTWKKVRPEHRANVLFKAAAIIRRRKHEFSAYLVKEAGKPWKEADADTAEAIDFLEYYARQMLKLKDGSPVKSRDGEFNQYHYEPLGVGIVISPFNFPLAIMAGTAAAAIVTGNTILLKPADAAPVVAAKFVEVMKEAGLPDGVLQFIPGDGGEIGDYLVEHPKTRFVSFTGSRAVGCRIYERAAKVQPGQKWLKRVIAEMGGKDTVLVDRDADLDLAASSIVYSAFGFSGQKCSAGSRAVIHQDVYDEVVEKAVALTKSLTVGSPEDFDTYMGPVIHEASYNKVMRYIEIGKTEGKLLTGGEGDDSKGYFIQPTIFADVDENARLMQEEIFGPVVAISKARDFDHMLEIANNTDYGLTGALLSKTRAHIERAREDFHVGNLYFNRGCTGAIVGYQPFGGFNMSGTDSKAGGPDYLILHMQAKTTSEAY	PGPT0020210_2515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
D1-12_02365	1683	rocB	COG4187	Protein RocB	ATGTATCAGCAGCTCAGCAAAATGCTTCCGGAGGAGAAAATAGAAGCCATTACAAAATCACTGGTAGCGTTAAACAGCATCAACGGCACATTGGGAGAAGGAAAAAAAGCCGACTATATCAAAGATATGATCAAGAGCTTTCCCTACTTTCAGGAGAACCCGTCACATGTGTGGGAGCAGGCGATTCCTGAGGACCCTTACGGCCGCAAAAATATTTTCGCATTTATTGAGGGAAACGGCGACAGCCTGAATACGGTCATTTATCACGCTCATCTTGATACGGTCGGCATCGAGGATTTCGGCCCTTTAAAAGATATCGCTTTTGATTCCGACCGTCTCGCGGAGTATTTCTCAAACTATGAATTTGATCGTGATGTGCAGCGGGACGCCCGCTCAGGCGAGTGGATGTTCGGAAGGGGTTCGGTTGATATGCAAAGCGGTATTGCCGTTCATCTCGCCAATCTGCTTCACTTTTCTGAGCGGCGCGATCAGCTGCCGGGCCATATTCTGTTCATGGCAAACCCGGATGAAGAAAGCCAGCATTCCGGCATTTTAACGAGCATTTCTGAATTAAAACGGCTGAAACAAGAAAAGCAGCTTCGTTATTTAGCAGCGATTAATAACGATTTTATCACCCCGCTGTATGAAGGTGACACGACAAGGTACATCTACACGGGCGCGGCAGGGAAGCTTTTGCCTTGCTTTGCGATTTACGGGCGGGAGGTGCATGTCGGAGATACGCTGTCCGGCATCGACCCGAATTTGATCGCGTCAGAAATCACCAGAAGAATTCACAACAATATTCATATGGCGGAAAACATTGAAGGGGAGCTTGTGCTTCCGCCGACCTGCCTCTACCAGCGTGACAACAAGGAAGCGTATAACGTGCAGACCGCCGTCAGCAGCTATGTCTATTTTAATTATTTTATTTACGAGAAAACCGCCAAAGAAGTCATGGATCAGCTGACTGCGGTGGCTGACGAAGCCTGCAAAGAGACAGAACGAAAATTATCTGATTATTACGACGAATACTGTGAGAGAACGAGCCTGCCGAAAAAAGAGATGTCATGGAACGTTCAAGTGTACAGTCTGGAAGATTATCTGAAAAGGCTGAGAAGCCGCGGGATAGACCCGGCGCAGTGTATCGAGCAGGCATTTAAAACATATGAACATCTTGAACTGCGGATGAGATGCTTTAAAGCCGTCGAGGAACTGCAAAAACTCGATCCTGAGCAGGGAGCCAAGGTCATTATTTTCTATGCGCCGCCTTACCTTCCGCACAATTATCTGAAGGAAGAGAGCACACGGGACCGGCTTTTGCAGCATGTCATTCAAGAAGCCGTCGATAAAACAGCGGCATCAACCGGAGAAACATTCGTCTTTAAAAAGTTTTTCCCTTATTTAGCGGACGGAAGCTTTTTATCGCTGCATGAAACAGACGCAGAGGTCTCCGCCTTTACCGATAATTTTCCGGGCTGGGATGTCATCGGGACGATTCCTTTTAAAGAAATCAGGGAATTGAATATTCCGTCGGTCAATATAGGGGTATACGGAAAGGACGGCCATAAATGGACGGAACGCGTGTACAAGCCGTACACATTCCATGTGCTGCCGGAGCTCATTCAGCAGACGACAATGCACCTTTTGCACAGCTACCGATTAGACATACGCACAAATGGCTGA	MYQQLSKMLPEEKIEAITKSLVALNSINGTLGEGKKADYIKDMIKSFPYFQENPSHVWEQAIPEDPYGRKNIFAFIEGNGDSLNTVIYHAHLDTVGIEDFGPLKDIAFDSDRLAEYFSNYEFDRDVQRDARSGEWMFGRGSVDMQSGIAVHLANLLHFSERRDQLPGHILFMANPDEESQHSGILTSISELKRLKQEKQLRYLAAINNDFITPLYEGDTTRYIYTGAAGKLLPCFAIYGREVHVGDTLSGIDPNLIASEITRRIHNNIHMAENIEGELVLPPTCLYQRDNKEAYNVQTAVSSYVYFNYFIYEKTAKEVMDQLTAVADEACKETERKLSDYYDEYCERTSLPKKEMSWNVQVYSLEDYLKRLRSRGIDPAQCIEQAFKTYEHLELRMRCFKAVEELQKLDPEQGAKVIIFYAPPYLPHNYLKEESTRDRLLQHVIQEAVDKTAASTGETFVFKKFFPYLADGSFLSLHETDAEVSAFTDNFPGWDVIGTIPFKEIRELNIPSVNIGVYGKDGHKWTERVYKPYTFHVLPELIQQTTMHLLHSYRLDIRTNG				NA	NA	NA	NA	NA
D1-12_02366	1419	rocC_1	COG0833	Amino-acid permease RocC	ATGCAGGGAGATACCAATCAAACTGAATTGCAGCGCACGATGAAGGGCCGGCATTTGTTTATGATCGCCCTCGGCGGCGTGATCGGGACGGGGCTTTTTCTGGGCTCCGGTTTTACGATCAGTGAAGCGGGACCGATCGGCGCGATATTGGCTTATGTGATCGGCGGATTTTTAATGTATCTGGTGATGCTTTGTTTGGGGGAGCTCGCGGTCGCCATGCCGGTCGCAGGATCATTTCAGGCGTATGCCGCAAAGTTTCTCGGGCCGTCGACGGGTTTTACGATCGGATGGATGTACGCATTCAGCTGGGCCAATACAGTGGGGCTTGAACTGACGTCGGCGGGGATTTTAATGCAGCGGTGGTTTCCGGCCGTTCCGATTTGGGTGTGGTGCCTTGTATTCGGCGTCGTCATTTTTTCCATTAACGCGCTGTCTGCGCGGAGTTTTGCGGAAATGGAATTTTGGTTTTCCAGCATTAAGGTCATGGCCATTGTATTGTTTATTATTCTCGGCTGCGCTGCGGTATTCGGCTTTGTCGGTTTTAACGGCGGGCAGACGGCTCCGTATCTGTCAAACTTTACGACGGACAAAGGGCTTTTCCCGAACGGCGCCCAAGCCGTGCTGTTTACCCTTGTCATGGTGAATTTTTCATTCCAGGGCACCGAACTGGTCGGAATCGCCTCGGGAGAAAGCGAAAATCCGGAAAAAACGCTTCCCCGCTCGATCCGAAACGTCATATGGCGGACGCTGTTTTTCTTCGTGCTGGCGATGTTTGTTCTCGTGTCCATTTTGCCGTACCAAACGGCAGGCGTCATCGAAAGTCCGTTTGTGGCTGTGTTGGATAAAATCGGCGTTCCCTATGCGGCTGATATCATGAACTTTGTCATTCTGACCGCCATGCTGTCGGTGGCGAATTCCGGGCTGTACGCTTCGTCCAGAATGATGTGGTCCCTGTCAAAAACTAAGATGGGCCCCGCTTCCTTAACGAAACTGACGAAAAAAGGCGTGCCTCTGAAAGCTCTTTCCATCACCATCGCTATCTCCGGTTTATCCCTGCTGACAAGTGTATTCGCGGCTGAAACGGTGTATGTGTGGCTCATTTCCATCTCCGGTATGATTACCGTCGTCGCGTGGATGTCAATCTGCGCTTCTCAATTCGTTTTCCGGAGACGCTTTCTCGCTGAAGGAGGAAATCTGAAAGACCTGGCATTTAAAACGCCTCTTTATCCGATCGTGCCGATTCTCGGATTTTCGGTTTACGGTCTTATCTTAATCAGTCTCATCTTTATTCCCGACCAGCGTATCGGTCTGTACTGCGGCGTCCCGCTGATGATCATCTGTTACGCGTATTATCACTTCGGTATCAAAAAACGCCTGAAGCGTGAGCCGGCTTCTTCGGAAAAAGGCGCTGCCGGATAA	MQGDTNQTELQRTMKGRHLFMIALGGVIGTGLFLGSGFTISEAGPIGAILAYVIGGFLMYLVMLCLGELAVAMPVAGSFQAYAAKFLGPSTGFTIGWMYAFSWANTVGLELTSAGILMQRWFPAVPIWVWCLVFGVVIFSINALSARSFAEMEFWFSSIKVMAIVLFIILGCAAVFGFVGFNGGQTAPYLSNFTTDKGLFPNGAQAVLFTLVMVNFSFQGTELVGIASGESENPEKTLPRSIRNVIWRTLFFFVLAMFVLVSILPYQTAGVIESPFVAVLDKIGVPYAADIMNFVILTAMLSVANSGLYASSRMMWSLSKTKMGPASLTKLTKKGVPLKALSITIAISGLSLLTSVFAAETVYVWLISISGMITVVAWMSICASQFVFRRRFLAEGGNLKDLAFKTPLYPIVPILGFSVYGLILISLIFIPDQRIGLYCGVPLMIICYAYYHFGIKKRLKREPASSEKGAAG	PGPT0000815_605	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
D1-12_02367	1203	bcr_1		Bicyclomycin resistance protein	ATGAATAACGCTGATTCAAAGGCCGCCCGCGCAGGCCTCGGCATGGTACTGATTCTCGGGACGCTCGCTTCATTCGGGCCGCTTTCGCTCGATATGTATCTGCCCGCTTTGCCTGAAGTGGCGGCCGATCTTCATACGACAGCGTCACTTGCGCAGCTGAGCCTGACGTTCTGTCTTTTGGGGCTGGCGGTCGGGCAGATCGTTGTCGGGCCGCTCAGTGATATGATCGGGCGCCGGAAGCCGCTGATTCTGTCATTGCTGCTTTATACGCTGTCTTCTTTATTATGCGCCTTCAGCCCTTCTGTTTCGTTTTTAATTGTCATGAGGTTTATTCAAGGATTCACCGGGGCGGCCGGAATCGTCATCGCACGGGCTTCCGCACGCGATATGTATTCCGGAAAAGAATTGACAGCTTTTTTCTCATTACTGATGCTCGTCAATGGGGCGGCGCCGATTTTAGCGCCGATTACAGGGGGATTTATCCTTCAGTTCGCCGGCTGGAAAATCGTATTTATCGTGCTGGCGGTGATCGGCTGTATCATTTCTGCCGCCGTGCTTACGGCGTTGCCTGAATCACTCCCGCCGGAAAAGCGGACAAGCGGCGGACTCCGGGAGACGCTGATGACGTTTCGCGGCCTGCTTGGCGACCGGATGTTTATGGGATTTGCGCTCAGCCAGGCATTTGTGATGACCGGCATGTTCGCATACATTGCCGGGTCGCCGTTTGTACTGCAAAACATCTACGGCGTATCAGCGCAAATGTTCAGCCTGCTGTTCGCCGTAAACGGTGCGGGAATCATATGCGCCACCCAAATCACCGGACGGATGGCTAAAACACATGATGAACGGAAGCTGTTTGTCTCCGGGCTGTTGATCGCCGTCATCGGAAGCATCGCTTTGCTTTTATCACTTGCGTTTGGTTTAGGCCTGACGGCGGTCTGCATTTCTTTATTCATCATTGTTTCTTCTGTCGGGATCGTCACGACGACGGGATTTTCTTTGGCTATGCAGAAACAGGAGAAAGGCGCGGGAAGCGCTGCGGCTCTTCTCGGACTCCTGCCCTTTATCGGGGGTGCGGCTGCCGCTCCCCTTGTCGGTATTGCCGGAGAAGAAAATGCCTGGCCGATGGCCGTCAGCATTTTCGGTTTTGAGTTCTGTGCCGTTCTATCCTATGTGCTGTCGGCCAAACGGAAAACAAAGTAA	MNNADSKAARAGLGMVLILGTLASFGPLSLDMYLPALPEVAADLHTTASLAQLSLTFCLLGLAVGQIVVGPLSDMIGRRKPLILSLLLYTLSSLLCAFSPSVSFLIVMRFIQGFTGAAGIVIARASARDMYSGKELTAFFSLLMLVNGAAPILAPITGGFILQFAGWKIVFIVLAVIGCIISAAVLTALPESLPPEKRTSGGLRETLMTFRGLLGDRMFMGFALSQAFVMTGMFAYIAGSPFVLQNIYGVSAQMFSLLFAVNGAGIICATQITGRMAKTHDERKLFVSGLLIAVIGSIALLLSLAFGLGLTAVCISLFIIVSSVGIVTTTGFSLAMQKQEKGAGSAAALLGLLPFIGGAAAAPLVGIAGEENAWPMAVSIFGFEFCAVLSYVLSAKRKTK	PGPT0029005_3384	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
D1-12_02368	1239	sotB		sugar efflux transporter	ATGAACAGCAAACAAACCGATCACATCGAAACGAAACGCCGATTTCCGATCTGTCTCGCGCTTGCTTTGACATTAGGCGTATTTGCCGCCGGTTCTGAAGAGCTGGTGATTTCTCCGCTGCTTCCGGATTTGGCGCGGGCTTTCAGCTCGGATGTCAGTGTGCTGGCGCTTTCCATCAGTATTTACGGAGTGATGATTTTTATCGGCGCTCCGCTTCTCGTTCCGCTGGGAGATAAATATTCCCGGGAACTCAGCCTGCTGGCGGGGCTGCTTATATTTACGGCCGGCACGGTGATCTGCGCGCTGGCGCACAATCTCTTTTTCTTCTTTCTGGGCAGGGCGCTTTCCGGGCTTGCGGCGGGTGCGTTTGTGCCGACAGCATATGCGGTGGTCGGCGACCGTGTGCCTTATGCGTACCGCGGCAAGGTGATGGGTCTGATCGTGTCAAGCTGGTCGCTCGCTTTGATTTTCGGCGTTCCGATCGGCTCTTTTATCGGCGGTGTTTTGAATTGGCGGTGGACGTTTTGGATTTTCGCCCTGATGTCTGTCCTCGTTGCTTCGCTCATTTTCATTGAGGCGCGCCGCAGTACGGCGGATGGGGATAAAACAGAAGAGGAAAACGGACGGCAGGCAGGCACTTTCCGGGATGCGCTGAAGGTGCCCCGTGTCCCTGTATACCTCACGATCACTTTTTGCAACATGATCGGTTTTTACGGCATGTATTCCTTTCTCGGCACATATCTTCACCGCGTGCTGCCGGGGGGGAATACAGCTTCAGGGCTGCTGATCATGGTGTACGGAATCGGTTTTTCCATGAGCGTGTTCACCGGAAAAATCGCAGATAAGGCGGGGAAAATGCGCTCTTTGATCGCGGCATTGGCCGTGATCAGCATATGGCTTTCCTGTCTCGCCTATGCGCCGTCATCAATGCCGTTTTTGGTCATCGGGTTATTCGTCTGGGGATTGATGCAAAGCCTGACGGTGACCTTGCTCAGCACCATTTTAAGTGATTGCTCACAGAGCCGCCGGGGTAAAATCATGGCATTTTACAGTCTGGCGTCCAATTTGGCCGTGACCTTGGGTTCGGCTGTCATGGGTCCGGTCTACGTCGGATACGGATATGCAGCTGTCGGATTTATCTGTGCGGCCGTCACCCTCATCGGCTTTGTCCTCAGCGTTTTCGCATACAGAAGGTATGGAAAATATGAGCATCGGACCGACCAATCATTGTATCGGTAA	MNSKQTDHIETKRRFPICLALALTLGVFAAGSEELVISPLLPDLARAFSSDVSVLALSISIYGVMIFIGAPLLVPLGDKYSRELSLLAGLLIFTAGTVICALAHNLFFFFLGRALSGLAAGAFVPTAYAVVGDRVPYAYRGKVMGLIVSSWSLALIFGVPIGSFIGGVLNWRWTFWIFALMSVLVASLIFIEARRSTADGDKTEEENGRQAGTFRDALKVPRVPVYLTITFCNMIGFYGMYSFLGTYLHRVLPGGNTASGLLIMVYGIGFSMSVFTGKIADKAGKMRSLIAALAVISIWLSCLAYAPSSMPFLVIGLFVWGLMQSLTVTLLSTILSDCSQSRRGKIMAFYSLASNLAVTLGSAVMGPVYVGYGYAAVGFICAAVTLIGFVLSVFAYRRYGKYEHRTDQSLYR	PGPT0012786_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_TRANSPORT,PGPT0012786-ywfA-NA	NA	NA
D1-12_02369	615	bacA		Prephenate decarboxylase	ATGATTATATTGGATAATAGCATTCAAACGAAAAGCAAGGCTTATTCAATATCTAAACTGATTACGATCAACACGCTCGGTCCTGAAGGGACAAGCAGTGAGTACGCAGCAAAAAACTTCATCACCAATTTTACCCTTCTCCAAGGGGTGAACAGTAAATTATCACTGCATGATACATTTGAATCGTGCATTGAAAAAACGCTTCAAAGTCCGCTGGAATACACAATTGTGCCTCACGCGTATGACGGCATTAAGCACTTCTACATGAGACCGGATCTGCAGCTTCTGCAAATTTTCAGGTGCGACACCCCGATGTACGGCCTGGCTGTCCGGCCCGGTTTTGAATATACGGATGACATGCTTGATAAGGCTGTCATCGTATCCCACCCGTCTCCTATCAATTTGATTAAGTATTTTACCCGTAAAGATGTCACGTTTGATCTGGTGAACTCAACGAGCGCAGCCGCGAAAAGAGTGAAGGACGGTTTGTCCGACATCGCGCTGACAAATGAGCTGGCCAGACAAAAGTACGGCCTTCACTTTGTCAAAACATTTAAAAGCATTCCCATGAGCTGGTCATTATTCGGAAAAGGAGAGATTCATGATGAAAACTGA	MIILDNSIQTKSKAYSISKLITINTLGPEGTSSEYAAKNFITNFTLLQGVNSKLSLHDTFESCIEKTLQSPLEYTIVPHAYDGIKHFYMRPDLQLLQIFRCDTPMYGLAVRPGFEYTDDMLDKAVIVSHPSPINLIKYFTRKDVTFDLVNSTSAAAKRVKDGLSDIALTNELARQKYGLHFVKTFKSIPMSWSLFGKGEIHDEN	PGPT0012780_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012780-bacA-K19546	NA	NA
D1-12_02370	711	bacB		H2HPP isomerase	ATGAAAACTGAACAAGATTTGCAGGAACTTTATTTCCCGACGCCTAAATTAATAGAATGGGATAACGGAGTAAGACAATATTCGTCCGTCAGAGGCGATACGGAAGTTCTGCTTTCTTACGTTCCGCCGCATACAAACGTGGAACCGCATCAGCATAAGGAAGTCCAAATCGGCCTTGTCGTTTCCGGCGAGCTGTCCATGACTGTCGGAGATGTCACAAGAAAGATGACCGCGCTGGAATCAGCCTATATCGCGCCTCCTAACGTGCCTCACGGCGCAAGAAATGAGACGGATCAAGAAGTGATCGCCATTGATATTAAACGCCTGAAAGCCGGTGAAACCTACACAAGCCCCGAGGACTATTTTTTGAATATTTTTAAAACGAGAGACTTATTGCCTGGGATGGAAGTCACGTTCTTCGTGGAAGACTGGGTGGAAATCATGCTTGCCAACATTCCGGGCAATGGAGGAGAAATGCCGTTTCATAAACACCGCAATGAACAGATCGGCATCTGCATCGGCGGCGGCTATGATATGACCATTGAAGGCTGCAAAGTGGATATGACATTCGGCACAGCTTATTTCTGCGATCCGAGAGAAGATCACGGCGCCATCAACAGATTTGAAAAAGATTCAAAATCAGTCAATATCTTTTTCCCTCCGCGCTATAACAGAGCAAAAGCGAAAAAATTAGAGGCGAAAGAGTCATGA	MKTEQDLQELYFPTPKLIEWDNGVRQYSSVRGDTEVLLSYVPPHTNVEPHQHKEVQIGLVVSGELSMTVGDVTRKMTALESAYIAPPNVPHGARNETDQEVIAIDIKRLKAGETYTSPEDYFLNIFKTRDLLPGMEVTFFVEDWVEIMLANIPGNGGEMPFHKHRNEQIGICIGGGYDMTIEGCKVDMTFGTAYFCDPREDHGAINRFEKDSKSVNIFFPPRYNRAKAKKLEAKES	PGPT0012775_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012775-bacB-K19547	NA	NA
D1-12_02371	762	bacC_2		Dihydroanticapsin 7-dehydrogenase	ATGAACCTGACGGATAAAACCGTCCTCATCACAGGGGGCGCATCAGGCATCGGTTATGCCGCGGTTCAGGCGTTTCTGAATCAGCAGGCGAATGTGGTCGTCGCGGATATTGATGAGGCGCAGGGAGAAGCGATGATCAGGAAAGAAAACAATGACAGGCTGCATTTTGTGCAGACGGATATTACAGATGAACCGGCATGTCAAAACGCCATCCGGTCAGCGGTAGACAAGTTCGGCGGATTGGATGTGTTAATCAATAACGCCGGCATCGAAATTGTCGCGCCGATTCATGAGATGGAGCTGAGCGATTGGAACAAGGTGCTCAACGTCAATCTGACGGGCATGTTTCTTATGAGCAAGCACGCGCTCAAGTATATGCTCAAAAGCGGCAAGGGCAATATCATTAACACGTGCTCCGTCGGAGGAGTCGTTGCATGGCCCGACATTCCCGCATATAACGCCTCTAAAGGCGGCGTATTGCAGCTGACGCGTTCGATGGCCGTCGATTACGCCAAACACAACATCCGCGTCAATTGCGTGTGCCCGGGAATCATTGACACACCTTTGAATGAAAAGTCGTTCCTTGAAAACAACGAAGGCACGCTTGAAGAAATCAAAAAAGAAAAAGCGAAAGTCAATCCGCTGCTGAGACTCGGCAAGCCTGAAGAAATAGCGAACGTCATGCTGTTTCTCGCGTCGGATTTATCAAGCTATATGACCGGAAGCGCGATCACCGCAGACGGTGGATACACCGCACAATAG	MNLTDKTVLITGGASGIGYAAVQAFLNQQANVVVADIDEAQGEAMIRKENNDRLHFVQTDITDEPACQNAIRSAVDKFGGLDVLINNAGIEIVAPIHEMELSDWNKVLNVNLTGMFLMSKHALKYMLKSGKGNIINTCSVGGVVAWPDIPAYNASKGGVLQLTRSMAVDYAKHNIRVNCVCPGIIDTPLNEKSFLENNEGTLEEIKKEKAKVNPLLRLGKPEEIANVMLFLASDLSSYMTGSAITADGGYTAQ	PGPT0012770_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012770-bacC-K19548	NA	NA
D1-12_02372	1419	bacD		Alanine--anticapsin ligase	ATGGAGAGAAAAACAGTATTGGTCATTGCTGATCTTGGAGGCTGCCCGCCGCACATGTTTTATAAAAGCGCTGCTGAAAAATATAACCTGGTCAGCTTTATTCCAAGGCCTTTTGCAATTACAGCCTCTCATGCAGCTTTGATTGAAAAATACTCGGTCGCGGTCATTAAAGATAAAGACTATTTTAAGAGTCTGGCTGATTTTGAGCATCCCGATTCGATTTACTGGGCTCATGAAGATCATGACAAACCTGAGGAAGAAGTAGTCGAAGAAATCGTCAAGGTGGCCGGCATGTTCGCGGTTGACGCCATTACGACCAACAATGAACTGTTTATCGCTCCGATGGCAAAAGCGTGTGAACGTCTCGGCCTGCGGGGAGCGGGCGTACAGGCCGCTGAAAATGCCAGAGATAAAAACAAAATGAGAGCCGCCTTCAACCGGGCCGGCGTCAAATCCATCAAAAACAAACGGGTGACGACGCTGGAAGATTTCCGCGCCGCGCTTCAGGAAATCGGAACGCCGCTCATTCTGAAGCCTACATATCTGGCGAGCTCCATCGGCGTGACGCTTATCAAAGAGATGGAAACGGCCGAAGCCGAATTTAACAGAGTCAATGAATACCTGAAGTCGATCAACGTACCGAAAGCGGTCACGTTTGAAGCGCCGTTTATCGCGGAAGAATTTTTGCAGGGCGAGTATGACGACTGGTACGAAACAAGCGGTTATTCCGACTATATCAGCATAGAAGGCATCATGGCCGACGGGGAATACTTCCCTGTCGCGATTCATGATAAAACACCGCAAATCGGATTCACGGAGACATCGCATATTACGCCGTCCATCCTGGATGATGACGCGAAGCGAAAAATCGTCGAAGCAGCCAAAAAGGCGAATGAAGGACTAGGCCTCGAAAACTGCGCAACACATACAGAGATTAAATTAATGAAAAACCGGGAAGCCGGACTGATTGAATCAGCGGCACGATTTGCGGGCTGGAACATGATTCCGAATATTAAAAAGGTCTTCGGCGTCGATATGGCGCAGCTGTTATTGGATGTTCTCTGTTTCGGAAAAGAAGCCGATCTGCCGAAAGGATTATTGGAGCAGGAGCCATGCTATGTCGCCGACTGCCACTTGTATCCTCAGCATTTCAAAGAGAACGGCCAGCTGCCTGAGACGGCTGTCGATTTCGTCATTGAAAGCATTGACATTCCCGACGGCGTCTTAAAGGGAGACACCGAAATCGTTTCTTTCTCGGCGGCCGAGGCGGGTACGTCCGTGGATCTGCGGCTGTTCGAAGCGTTCAACAGCATTGCGGCGTTCGAGCTGAAAGGAAGCAATTCGGGTGACGTGGCCGAATCAATCAAACAAATTCAGCAGCAGGCGAAGCTGACTGCAAAGTATGCGTTACCGGTATGA	MERKTVLVIADLGGCPPHMFYKSAAEKYNLVSFIPRPFAITASHAALIEKYSVAVIKDKDYFKSLADFEHPDSIYWAHEDHDKPEEEVVEEIVKVAGMFAVDAITTNNELFIAPMAKACERLGLRGAGVQAAENARDKNKMRAAFNRAGVKSIKNKRVTTLEDFRAALQEIGTPLILKPTYLASSIGVTLIKEMETAEAEFNRVNEYLKSINVPKAVTFEAPFIAEEFLQGEYDDWYETSGYSDYISIEGIMADGEYFPVAIHDKTPQIGFTETSHITPSILDDDAKRKIVEAAKKANEGLGLENCATHTEIKLMKNREAGLIESAARFAGWNMIPNIKKVFGVDMAQLLLDVLCFGKEADLPKGLLEQEPCYVADCHLYPQHFKENGQLPETAVDFVIESIDIPDGVLKGDTEIVSFSAAEAGTSVDLRLFEAFNSIAAFELKGSNSGDVAESIKQIQQQAKLTAKYALPV	PGPT0012765_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012765-bacD-K13037	NA	NA
D1-12_02373	1182	bacE		Putative bacilysin exporter BacE	ATGAAACAGCTGAAACCGAACTCTAAGTATTTGCTTTTCGGGCAGGCGCTTTCGTTTATGGGAGACTATTGCGTTCTCCCGGCCCTGCTCATTTTGTCTACATACTATCACGACTACTGGGTGACGTCCGGCGTCATCGCGGTCCGCAGTATTCCGATGGTGTTTCAGCCGTTTTTAGGCGTGCTCGTGGACCGGCTCGACAGGGTGAAAATCATGCTGTGGACGGATGTGATCAGAGGTATCATCTTTTTGGGGCTGACATTTCTCCCGAAAGGCGAATATCCGCTGCTTTTTCTGGCGCTGCTGTTTGTTTCTTACGGAAGCGGCGTGTTTTTTAATCCGGCACGTCTCGCGGTCATGTCGTCTTTAGAAGCGGATATTAAAAATATCAACACTTTGTTTGCAAAAGCCACGACGATTTCGATTATTGTCGGCGCTGCAGCCGGCGGACTTTTTCTGTTAGGCGGTTCTGTGGAGCTTGCCGTCGCGTTTAACGGGGTGACCTATCTTGTCTCCGCGTTTTTCATCAGCCGCATTAAGCTTCAATACGTGCCGATTCAGTCAGAAAACGTGAGAGAAGCTTTTCAGTCGTTTAAAGAAGGCCTGAAGGAAATCAAAACAAATGCTTTTGTGTTAAACGCCATGTTCACGATGATTACGATGGCGCTTTTGTGGGGTGTCGTCTACAGCTATTTCCCGATTGTCAGCCGCTTTTTAGGCGACGGGGAAATCGGCAATTTCATCCTGACGTTCTGCATCGGCTTCGGCGGCTTTATCGGCGCCGCTCTTGTCAGCAAATGGGGCTTTAACAACAATAAAGGGCTGATGTATTTTACAGTGTTATCGATCGTCTCGCTTGCGCTGTTTTTGTTTACCCCGATTTTCGCCGTGTCAGTCATTGCCGCCATTCTTTTCTTTATCGCAATGGAATACGGTGAGGTGCTGGCGAAGGTCAAAGTTCAGGAGAACGCGGCGAACCAGATTCAGGGTCGGATTTTTTCGGTGGCGGAGGCCTCCATCGGATTGTGCATCGCCGTCGGTTCCATGCTGATCAACATTGTAGACGCGGCAGTCATCATGGCGTTTATCGTCCTTTTGGTCAGCGGACTGTTTCTGCATACAAAACTGGTCAATAAATCCTTTTCAGAACGGAATAACGAATCAGAGCAAATTCATTTATAA	MKQLKPNSKYLLFGQALSFMGDYCVLPALLILSTYYHDYWVTSGVIAVRSIPMVFQPFLGVLVDRLDRVKIMLWTDVIRGIIFLGLTFLPKGEYPLLFLALLFVSYGSGVFFNPARLAVMSSLEADIKNINTLFAKATTISIIVGAAAGGLFLLGGSVELAVAFNGVTYLVSAFFISRIKLQYVPIQSENVREAFQSFKEGLKEIKTNAFVLNAMFTMITMALLWGVVYSYFPIVSRFLGDGEIGNFILTFCIGFGGFIGAALVSKWGFNNNKGLMYFTVLSIVSLALFLFTPIFAVSVIAAILFFIAMEYGEVLAKVKVQENAANQIQGRIFSVAEASIGLCIAVGSMLINIVDAAVIMAFIVLLVSGLFLHTKLVNKSFSERNNESEQIHL	PGPT0012785_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012785-bacE-K19552	NA	NA
D1-12_02374	1200	bacF_2	COG0436	Transaminase BacF	ATGGAAATCATACCGTCCGACGTCATCAAGACACTTCCGAAACAGGAATTTTCGCTCGTTTTTCAAAAGGTAAAAGAGATGGAGAAAACGGGAGCCCAGATCATTAATCTCGGCCAGGGGAATCCTGATCTCCCCACTCCGCCGCATATCGTTGAAACTTTGCGGGAGGCTGCGCTGAATCCTTCGTATCACGGATACGGCCCGTTCAGAGGCTATCCGTTTCTGAAAGAAGCCATCGCGGAGTTTTATGAGAGAGAGTACGGGGTATCGGTCAATCCGGAGACAGAAGTCGCGCTGTTCGGCGGAGGGAAAGCTGGTTTGTACGTTTTGACGCAATGCCTGCTGAACCCCGGCGATATCGCCTTAGTCCCGAACCCCGGCTACCCTGAGTATTTATCGGGCATTACAATGGCCAGAGCGGAGCTGCATGAGATGCCGCTTCATCCGGAAAACGGCTATTTGCCGGATTTTGAGCGGATTGATTCCGCCGTCCTGAAAAAAGCCAAGCTGATGTTTTTGAATTACCCGAATAACCCGACGGGCGCAACTGCGGATCAGGCGTTTTATGAAAAAGCGGCAGCGTTTGCAAAAAAACATGACATCCACCTTATTCATGATTTTGCATACGGCGCGTTCGAATTTGATCAGAACCCGGCCAGCTTTCTTCAGGCGAAAGAAGCGAAAACGGTCGGCGCGGAGCTTTATTCATTTTCGAAAACCTTCAATATGGCAGGCTGGAGAATGGCATTTGCCTTGGGCAATGAGAAAATCATTCAGGCGGTCAATGAGTTTCAGGATCACGTCTTCGTCGGCATGTTCGGCGGTCTTCAGCAGGCGGCAGCGGCGGCGCTGTCAGGAAGTCCTGAGCATACGGAGCGTCTGAAGCGCACATATAAAGAACGGATTGACTTTTTCACGGCGTTATGTGAAAAGGAATTAGGCTGGAGCATTGAAAAACCGAAAGGGACTTTTTATGTTTGGGCTGAAATTCCGAATGAATTCGAGTCCTCACACCAGTTTTCGGACTATCTGCTGGAGCATGCCCATGTTGTCGTGACGCCCGGCGAGATTTTCGGCAGCGGCGGAAAGCGTTATGTCAGAATATCAATGGTGGCCAAGCAGGGCGATTTGAGGGAATTCGTGCTGCGGATTCAAAAGCTCGGTTTGTCCTTTCCTTCATTACAAGAAACATCCCGCTGA	MEIIPSDVIKTLPKQEFSLVFQKVKEMEKTGAQIINLGQGNPDLPTPPHIVETLREAALNPSYHGYGPFRGYPFLKEAIAEFYEREYGVSVNPETEVALFGGGKAGLYVLTQCLLNPGDIALVPNPGYPEYLSGITMARAELHEMPLHPENGYLPDFERIDSAVLKKAKLMFLNYPNNPTGATADQAFYEKAAAFAKKHDIHLIHDFAYGAFEFDQNPASFLQAKEAKTVGAELYSFSKTFNMAGWRMAFALGNEKIIQAVNEFQDHVFVGMFGGLQQAAAAALSGSPEHTERLKRTYKERIDFFTALCEKELGWSIEKPKGTFYVWAEIPNEFESSHQFSDYLLEHAHVVVTPGEIFGSGGKRYVRISMVAKQGDLREFVLRIQKLGLSFPSLQETSR	PGPT0012760_28	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012760-bacF-K19549	NA	NA
D1-12_02375	801	bacG	COG1028	NADPH-dependent reductase BacG	TTGGTAAAGGGGTGCAGACAGTTGTCAAAACGAACCGCATTTATTATGGGAGCCAGTCAGGGGATCGGCAAAGCAATCGCTCTGAAACTGGCGGACAATGGCTTTCATACCGTCATTAATTCACGAGTTCCCGAAAATATCGAATCGGTAAAAGAAGAGATCCTCGCCAAACATCCGGATGCGGGCGTCACCGTTCTGGCCGGCGATATGTCGGACCAGAAGACAAGAGCCGGCATTTTTGAAGAGATCAGATCACAATGCGGACGGCTTGATGTATTGATCAACAACATTCCGGGCGGCTCGCCGGATACCTTTGAAACCTGCGATATAGAGGATATGACAAATACCTTTACGAATAAAACAATCGCTTATATCGACTCTATGAAAACGGCCGCAGCAATCATGAAACAGCACGAATTCGGCAGAATCATTAATATCGTCGGAAACCTATGGAAAGAACCCGGCGCCAATATGTTTACCAACAGCATGATGAACGCCGCTTTAATTAATGCCAGCAAAAACATCGCCATTCAGCTTGCGCCTTTTCACATTACTGTCAACTGTCTGAATCCCGGATTTATCGCCACAGACCGTTATCACCAATTCGTGAAGAATGTCATGAAGCAAAACGGCATTTCTAAAGCGGAAGCAGAAGAACGGATTGCCTCAGACGTCCCGATGAAGCGTGTCGGAACTCCGGAAGAAACCGCGGCGCTGGCTGCCTTTCTTGCCTCTGAAGAAGCCTCCTATATTACCGGACAGCAAGTGTCAGCCGACGGCGGCAGCATGAAAAGCATATAA	MVKGCRQLSKRTAFIMGASQGIGKAIALKLADNGFHTVINSRVPENIESVKEEILAKHPDAGVTVLAGDMSDQKTRAGIFEEIRSQCGRLDVLINNIPGGSPDTFETCDIEDMTNTFTNKTIAYIDSMKTAAAIMKQHEFGRIINIVGNLWKEPGANMFTNSMMNAALINASKNIAIQLAPFHITVNCLNPGFIATDRYHQFVKNVMKQNGISKAEAEERIASDVPMKRVGTPEETAALAAFLASEEASYITGQQVSADGGSMKSI	PGPT0012745_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012745-bacG|ywfH-K19550	NA	NA
D1-12_02376	765		COG3253	Putative heme-dependent peroxidase	ATGAGTGAGCAGCAAAAAACGAACGAAGCCGCCCAAACGCTTGACGGTTGGTACGCGCTTCACGATTTCCGCACAATAGACTGGACGTCATGGAAGATGTTATCCAGCGATGAGCGCCTGTCGATTATTCACGAATTTACGGGACTGCTTGAAAAATGGGGCGTCGCCCAAAAAGAAGGCAAAGGCTCGCAAACCATCTACAGCATCGTCGGACAGAAAGCTGATTTTATGCTGATGATTCTTCGCCCGACAATGGAAGAGCTGAACGAAATCGAGCTTGAATTTAACAAATCAAAGCTTGCTGAATTTACAATCCCGGCTTATTCTTACGTGTCCGTGGTTGAGCTGAGCAACTACCTGGCAAGCGGAGAGGGCGATCCGTATGAAAATCCGCATGTCCGCGCCCGCCTGTATCCTGAGCTGCCTGAAGCGAAATACGTCTGCTTCTATCCGATGGATAAAAGAAGAAGCGGCAATGACAACTGGTACATGCTTTCTATGGATGAACGCAGAAATCTGATGAGAAGCCACGGCTTGATCGGACGGAGCTATGCCGGCAAAGTCAAACAGATTATCACGGGATCTGTCGGTTTTGACGATTACGAATGGGGCGTCACGCTCTTCAGCGATGATGTGCTTCAGTTCAAAAAACTTGTTTACGAAATGCGCTTTGATGAAGTCAGCGCGCGCTACGGCGAATTCGGTTCATTTTTTGTCGGAAACCGCTTGTCTCTCGACACGCTTCCGAAGTTTTTGCACGTGTAA	MSEQQKTNEAAQTLDGWYALHDFRTIDWTSWKMLSSDERLSIIHEFTGLLEKWGVAQKEGKGSQTIYSIVGQKADFMLMILRPTMEELNEIELEFNKSKLAEFTIPAYSYVSVVELSNYLASGEGDPYENPHVRARLYPELPEAKYVCFYPMDKRRSGNDNWYMLSMDERRNLMRSHGLIGRSYAGKVKQIITGSVGFDDYEWGVTLFSDDVLQFKKLVYEMRFDEVSARYGEFGSFFVGNRLSLDTLPKFLHV	PGPT0008490_87	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435	NA	NA
D1-12_02377	972	pta_2	COG0280	Phosphate acetyltransferase	GTGGCAGATTTATTTACAAAAGTACAAGAAAAAGTCGCAGGAAAAGATGTGAAAATCGTATTTCCTGAAGGGTTGGACGAACGTATCCTGGTTGCGGTCAACAACTTGGCGGGCAACAAGGTATTAAAGCCGATCGTAGTCGGCAATAAAGAAGACATTCAAGCAAAAGCGAAAGAATTAAACCTTACGCTTGACGGCGTGGACATTTTTGACCCGCATACATATGAAGGCATGGAAGAACTCGTTCAGGCTTTCGTAGAACGCCGCAAAGGCAAAGCGACGGAAGAACAGGCCCGCAAAGCTTTGCTGGACGAAAACTATTTCGGCACGATGCTTGTGTACAAAGGTCTCGCAGACGGACTTGTCAGCGGAGCTGCACATTCTACAGCCGATACGGTGCGCCCTGCACTTCAAATCATTAAAACAAAAGAAGGCGTGAAAAAAACATCAGGCGTCTTCATCATGGCCCGCGGTGACGAGCAATATGTATTCGCTGATTGCGCGATCAACATTGCCCCTGACAGCCAGGACCTTGCCGAAATTGCCATTGAAAGCGCCAATACGGCTCAAATGTTTGACATTGACCCGCGCGTTGCCATGCTCAGCTTCTCTACAAAAGGATCGGCGAAATCAGATGAGACGGACAAAGTGGCTGAAGCCGTGAAAATTGCGAAGGAAAAAGCGCCTGAGCTTACGCTGGACGGCGAATTCCAATTCGACGCTGCATTTGTGCCGTCTGTCGCGGAGAAAAAAGCGCCGGACTCCGACATTAAAGGAGACGCGAATGTATTTGTATTCCCAAGCCTTGAAGCAGGAAACATCGGCTACAAAATCGCTCAGCGCTTAGGCGGCTTTGAAGCGGTCGGACCGATTCTGCAAGGATTGAATATGCCTGTAAACGATCTTTCCAGAGGATGTAATGCGGAAGACGTCTACAATCTTGCGTTAATTACGGCTGCTCAAGCGCTGTAA	MADLFTKVQEKVAGKDVKIVFPEGLDERILVAVNNLAGNKVLKPIVVGNKEDIQAKAKELNLTLDGVDIFDPHTYEGMEELVQAFVERRKGKATEEQARKALLDENYFGTMLVYKGLADGLVSGAAHSTADTVRPALQIIKTKEGVKKTSGVFIMARGDEQYVFADCAINIAPDSQDLAEIAIESANTAQMFDIDPRVAMLSFSTKGSAKSDETDKVAEAVKIAKEKAPELTLDGEFQFDAAFVPSVAEKKAPDSDIKGDANVFVFPSLEAGNIGYKIAQRLGGFEAVGPILQGLNMPVNDLSRGCNAEDVYNLALITAAQAL	PGPT0001365_1387	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001365-pta-K00625	NA	NA
D1-12_02378	972			hypothetical protein	ATGGTAAAAGGTGTTTCAGTTACCGCAGGAATTGCGTTTGCGGCTTTCTATGTCAGCCGCCTGCCGTTTTTGCATATGTTCGGAATGCTTGTCCTTGCAATGCTGATCGGCATGCTTTGGCGCGCCGTATTCGGACAGCGGGCGGCATTAGAGCCGGGGATCGCGTTCTCAAGCAAATACTTGCTGAAAGCAGGCATCATCCTGCTTGGTATGAGACTGAATCTGGCGGATATCTATCATGCGGGCTGGCACGTATTTTCAATTGCCGTCTGCTGTATGATGTTTGCGGGTGCCGTTGTATACGGACTGTCCCGGCTGTTCCGTATAGATCAGACACTCAGCACGCTGACAGCCTGCGGCACAGCGATCTGCGGAGCGGCTGCCATTGCCGCGATCGCGCCGCAGATCAGATCAAATGAAAATGCAGCCGCCATCAGCGCGGCCGCCGTTTCGTTATTAGGAACCGTTTTTACTGTTGTATATTCTCTTTCTTATCATGTATTGGGCTTTTCTCCTGCGGCTTACGGAGCCTTTTGCGGGGCAACGCTTCACGAGGTGGCGCATGCGGCGGCGGCCGGCAGCGCCGGAGGAAAAGCAGCCGTCGAGATGGCGGTGATCGTCAAACTGACCCGGGTCGCGCTGCTCGTCCCGGCCGCATTCATGCTCGGAATGCGGGCGCGCCGCAGCGGAAAGTCAAAGACGGCTTCTGCCGCTTCACTCCCCATCCCTTGGTTTATCTTCGGATTTCTCGGAATGAGCGCCATCCATACATCAGGCGTCATTTCAGCCGCGCATTCCGAATTTCTTGTTCAAGTGTCTTATGTTTTAATTGGCATGGCGATGGCGGGTCTCGGTTTGAAAGTCCATATATCGGCGTTTCGTCATAACGGCTGGCGGGCGCTCGCAGCAGGCTTGATTGGCTCTCTCTGTTTGTCCCTGTTCGGCTGGGCCGCAGTGACGTTTTTTCTATAA	MVKGVSVTAGIAFAAFYVSRLPFLHMFGMLVLAMLIGMLWRAVFGQRAALEPGIAFSSKYLLKAGIILLGMRLNLADIYHAGWHVFSIAVCCMMFAGAVVYGLSRLFRIDQTLSTLTACGTAICGAAAIAAIAPQIRSNENAAAISAAAVSLLGTVFTVVYSLSYHVLGFSPAAYGAFCGATLHEVAHAAAAGSAGGKAAVEMAVIVKLTRVALLVPAAFMLGMRARRSGKSKTASAASLPIPWFIFGFLGMSAIHTSGVISAAHSEFLVQVSYVLIGMAMAGLGLKVHISAFRHNGWRALAAGLIGSLCLSLFGWAAVTFFL				NA	NA	NA	NA	NA
D1-12_02379	900	cysL_2	COG0583	HTH-type transcriptional regulator CysL	TTGTATTATGGGGAACTGAAAACATTCATTGCCGTCGTGGAAGAAAAAAACTTTACAAAGGCGGCGCAGAAGCTGATGATTTCTCAGCCAAGCGTCAGCCTTCACATTAAAAACCTGGAGAAAGAATTTCAAACCGCCTTGCTGAACCGCTCTCCGAAGCACTTTACGACTACGCCGACGGGGGACATCCTCTATCAGCGCGCCAAGCAGATGGTCTTTTTGTACGAACAGGCGAAAACCGAAATTTACGCCCATCATCATTATGTCAAAGGGAAGCTCAAAATCGCCGCGAGCTTTACCATCGGCGAATATATTCTGCCGCCGCTTCTCGCAAAGCTTCATAACGAGTATCCCGAGCTGAACCTGGACGTCATGATCGGAAACACGGAGGAGGTCAGCGAAGCGGTTCGGATGCTTCAAGCCGATATCGGATTAATTGAAGGGCATACGGGGAAAAACGAGCTCGACATTCAGCCGTTTATGGAGGATGAATTGTGTATTGCCGCACCGAACGGACACCCGCTCGCCGGCAGAAAAAACATCCCGGCTGCCGAATTGCAAAATCAAGCGTGGGTGACGAGGGAGAAGGGTTCGGGAACGAGGGAATATTTAGACCACGTTCTTCAATCAAACGGACTGCGGCCGACATCCATGATGACGATCAGCAGCAACCAGGGCGTCAAAGAAGCCGTGATCAGCGGAATGGGTCTTTCCGTTCTGTCAAAAAGCGTGGTGCAAAAGGATCTGCTTCACGGCAGCATTTCCGTGCTTGAGATAAAAGGATTCTCCTTAAAACGGAAACTGTCTATCATCCAATCTTCCATTATGGAGAACACAAAAAACAAAGAAATCTTCATCGCACTTTTGAAAAGCCAATTTCAATCATCTCAAGCGGAGTGA	MYYGELKTFIAVVEEKNFTKAAQKLMISQPSVSLHIKNLEKEFQTALLNRSPKHFTTTPTGDILYQRAKQMVFLYEQAKTEIYAHHHYVKGKLKIAASFTIGEYILPPLLAKLHNEYPELNLDVMIGNTEEVSEAVRMLQADIGLIEGHTGKNELDIQPFMEDELCIAAPNGHPLAGRKNIPAAELQNQAWVTREKGSGTREYLDHVLQSNGLRPTSMMTISSNQGVKEAVISGMGLSVLSKSVVQKDLLHGSISVLEIKGFSLKRKLSIIQSSIMENTKNKEIFIALLKSQFQSSQAE				NA	NA	NA	NA	NA
D1-12_02380	864	lipL	COG0095	Octanoyl-[GcvH]:protein N-octanoyltransferase	ATGGGAAAGCAACCGATTGATTTACTGATGCAGCCGAGCTGGAGAATCATTGACCAATCCAGCCTCGGCCCTTATTTTGATGCGAAGCAGTCATTCGCAATGGATGATACGCTGTGCGCCTCCGTAGGCAAAGGGGAATCGCCTGCGACGGCACGCTCCTGGGTGCACCACCGGACGATCGTGCTCGGCATTCAGGACACGCGCCTGCCGTTTTTAGAGGACGGCGTGAAATTGCTGGAGGACGAAGGCTACCGTGTCATTGTCCGCAATTCCGGAGGCCTCGCCGTCGTACTGGACGAAGGCGTATTGAATATCTCGCTTATTTTTGAAGATGAGAAAAAAGGCATCGACATCGACAGAGGCTACGAGGCGATGACAGAGCTGGTGCGGCGGATGCTGCGTCCGCATAATGCCGAACTTAAAGCATATGAAATTAAAGGATCGTACTGTCCGGGCAGCTACGATCTCAGCATCGGCGGCCGAAAATTCGCGGGAATCTCACAAAGGCGCCTGCGGGGCGGAACCGCGGTTCAGATTTATCTCTGCGCCGATAAAAGCGGAAGCGAACGCGCCGATCTGATCAGACGTTTCTATCAAGCCGCTTTAAAAGACAAAAGCAACGATACAAAAGGCGTATATCCCGATATCCGGCCCGAAACGATGGCTTCATTAAGCGAATTGCTGCAAACGGACATTACCGTGCAAGACTTAATGCTGGCGCTTTTGACCGAACTGAAGGAACTCAGCGGCCGCCTGTATGCAGCCGGATTATCGCCGGAAGAAGAGAAGGTATTTGAAAAAAATCTGACCCGAATGCTGGAACGGAATGAGAAGGTGTTCGGCACGCAGGAAAGCTTGGACTAA	MGKQPIDLLMQPSWRIIDQSSLGPYFDAKQSFAMDDTLCASVGKGESPATARSWVHHRTIVLGIQDTRLPFLEDGVKLLEDEGYRVIVRNSGGLAVVLDEGVLNISLIFEDEKKGIDIDRGYEAMTELVRRMLRPHNAELKAYEIKGSYCPGSYDLSIGGRKFAGISQRRLRGGTAVQIYLCADKSGSERADLIRRFYQAALKDKSNDTKGVYPDIRPETMASLSELLQTDITVQDLMLALLTELKELSGRLYAAGLSPEEEKVFEKNLTRMLERNEKVFGTQESLD	PGPT0003940_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003940-lipL-K16869	NA	NA
D1-12_02381	180			hypothetical protein	ATGAACTTTAAAAAAATAAAAGAAGAAAAAAGAATCACGATCCCGACGCATTTGTTAGCCGGAGATGCGGAACAATCAGGCAATTCTTTCGCTTGGAGCGGCTGGGTGCTTGTAGTGCCGAGCCAAGAAGACAATCAAAACCCGAATTTGAATTTCTCTGATTTAGCCGCTCAAAAGTAG	MNFKKIKEEKRITIPTHLLAGDAEQSGNSFAWSGWVLVVPSQEDNQNPNLNFSDLAAQK				NA	NA	NA	NA	NA
D1-12_02382	960			hypothetical protein	TTGGAGCCTACACATCTGAGACGAGGCGGTGAGAGTGTGACACAAGAGTATATAAGAGAAATTAAGCGGGGAGCACTGTCATGGATTGTTAAAAATATCCATTACTTTGATATGAATCATAAAGTAGCGAATGATTTCAGGTGGCGCCTTAAAACATTTATAGAACTCATTTTTCTTACCAATTACCTGATCAGAAATCAGGCAGATGATAAGGAAGTTGCTGTTTTAACGGAGTTTATTACAGAAAGGCTCCGTAATGATCAGCTTGAAGAATTTATTCATTTTGATCCGGACGGTCTCGCCGGATTGGCTATTGCGGGTGAATTTCTTACCTTGACTGATCATCCGTCACGGGCTTCGGTGATATGGGAGCTGGAAAAATTCACGGCAGCGCGTTTTGATTGCAGCCTTGCTAAAATTCCCTTTCGGAAAATGGATCTGAAGTACAGTCTGCAAAGAGCAGGCGTAACCTCAAAAATAACGGATTTTTCTGACTTATATCACTACACAGCAGCTGGTCAGGATATCCCAAATACATATATGACGGATCATGATGCGTACAGTATCACTCATACGATTTTTTATATAACAGACATGGGATGTTCTTCGCTTACGGATAAAGAGTATCATCTGCCGTCCTTAAAAGAAAAGGTCCTGAAATTTCTCGGGATCTATATCTGTCTTGAGAATTTAGATATTACCAGTGAATTATTGATGTGCAGCTCTTTTTTACATATCGACATGGATAAGGACAACCATAAACCGCTCTATGAAGCAGCCTGGAATAAAATCTATCAGGGCCGAATGAAAGAGGGGAATATCCCGAGCATCACCTATCAACATAAACCCGGTTTGAAAGGTGAACAGCGAAGAGAAGATGTGTTCAAACATTGCTATCATACAACACTTGTCGCCGCGGGTGCCGCGCATGCTTGTCTTAGAGCAGAAAGGAACGATTAA	MEPTHLRRGGESVTQEYIREIKRGALSWIVKNIHYFDMNHKVANDFRWRLKTFIELIFLTNYLIRNQADDKEVAVLTEFITERLRNDQLEEFIHFDPDGLAGLAIAGEFLTLTDHPSRASVIWELEKFTAARFDCSLAKIPFRKMDLKYSLQRAGVTSKITDFSDLYHYTAAGQDIPNTYMTDHDAYSITHTIFYITDMGCSSLTDKEYHLPSLKEKVLKFLGIYICLENLDITSELLMCSSFLHIDMDKDNHKPLYEAAWNKIYQGRMKEGNIPSITYQHKPGLKGEQRREDVFKHCYHTTLVAAGAAHACLRAERND				NA	NA	NA	NA	NA
D1-12_02383	765			hypothetical protein	TTGAACAGATTAGCTGAAGAGGCGGATCAATTTTTATTATCTTTTGCTGAACAATCGCTTCCGGATCAAAAGAGCATTGAGCTGTTTGCCGGCTTCTGCAAATACTACAGGAAGACGAGCCATTCTTCCGCTGTAAAAGAACATACTGAAAGGATTGCCTCCGCTTTCGTTGATAAGTCATGCTGGGAAGATCTGTTTCACTGTAACACGGCCATTGTCAATGAGTTGATTCATATCTATTTAACGGCAAAAGCTTATAAAAAGAAGCAGGGAATGGATTCGGATGATCAGGTCATACGTCACGGATTGCAAAACGGCTATCTTATAAAAAAAGAATGGCCTTATTTTAAATACGCCGAATTCGTCGGTTTGCTGAGCGAGCTGGGAATGTCAACTGACCATGAAAAAGTGCGCTTTTACAAGAATTCGATGTTTCAGCCTTTGCTCCATGACGCATGGAAAAGAACAGCTGAAAACGAGCTGGAGTTTGTCGAGTACTGTCTTCTTCATTTGAATGAGGGAGAGCATCTGCTTCATCCCGGCTTGAAGGCGTCCATTCAAAAATGGCTTGTGTTTTGTCTCGGCAGCCGAAAAATGAAACAGCTGTGCAATATGTTATTTATCCAATCGTGTATCGATCCATTTTTTTATGGCTGTCAAGCGGCTCTTCATCATATAAATAACGAGAATCCATCTATTCATTGTGCTCCGGCTCTTCTGCCGGCGATTGAGATTCTGAATCTGGAGTGTGGAACATGCAGATAG	MNRLAEEADQFLLSFAEQSLPDQKSIELFAGFCKYYRKTSHSSAVKEHTERIASAFVDKSCWEDLFHCNTAIVNELIHIYLTAKAYKKKQGMDSDDQVIRHGLQNGYLIKKEWPYFKYAEFVGLLSELGMSTDHEKVRFYKNSMFQPLLHDAWKRTAENELEFVEYCLLHLNEGEHLLHPGLKASIQKWLVFCLGSRKMKQLCNMLFIQSCIDPFFYGCQAALHHINNENPSIHCAPALLPAIEILNLECGTCR				NA	NA	NA	NA	NA
D1-12_02384	837			hypothetical protein	ATGCAGATAGTCAAGGAACATTTTCATATAAAAAAAACAGAAGAATGGCTGCTGGGTTTTTGGAAGAACATTCAGCTGCAGCCGGAAGAAATGGAAGCAGATGATCTCATGCACCTGTTTTGCGGTTTAGCGGCATGTCATCGTTTTGAAAGCAGAAAGGATACAGAAGAAGTTATTCTATTCTTAGACCGTTATTTTGGAGAAAAAACGCACGAATGCCATCCGGTCCTGTTCGCGTATGCGTATCATATATACCGCAGGATGGATGCCGCAAAAAGCATCTTTTTTCATAACGGACTTGAACAAATGGTCCGCGGTTTACAAGAGGAACTGAAATCAGAGCCTTCCTCTATGATCCTCATGGTGTTAGGGGCTTATTTTGGGGCGATGACTCCGGAAGAACTGATCGTGTTCTTAGAAACCGTAATGAAACGTGAGGCCGATTTGCTCATGGCACCGGGCGGCATCCAGGAAGAACAGGCGGATGCCCTTTATGCCGTCACTTATTTGCAAATGAAAGAATTGCAGCCTTTTCTCGCGGAATGGTACAAAACATCAGACTTTGCTTTTTCAGGTTTAATGTTAGCCGAGTGCAGAAAGTATCACATTGACGCCGTTGCAAAATACACAGCCATTATGAAATTTCTCCAATTCGATGAGGCGCTTTTTATACGGGAAGGGCGGGAATTTCTACGCTTTCAGCAGCGAAGCAGCGGGAGCTTCGGTTATTTGAATCCATTAGCGATGGACCAAGGGGCGGTCAGCGGCAAATTGCTGGACCGGCAGTATTTCCTGCCGTCCGCTCATTATGCCGCCGCCTCTCTGTCTATGCTGTAA	MQIVKEHFHIKKTEEWLLGFWKNIQLQPEEMEADDLMHLFCGLAACHRFESRKDTEEVILFLDRYFGEKTHECHPVLFAYAYHIYRRMDAAKSIFFHNGLEQMVRGLQEELKSEPSSMILMVLGAYFGAMTPEELIVFLETVMKREADLLMAPGGIQEEQADALYAVTYLQMKELQPFLAEWYKTSDFAFSGLMLAECRKYHIDAVAKYTAIMKFLQFDEALFIREGREFLRFQQRSSGSFGYLNPLAMDQGAVSGKLLDRQYFLPSAHYAAASLSML				NA	NA	NA	NA	NA
D1-12_02385	954			hypothetical protein	ATGAGCATATTTCATCTGGCGCAGAACGAATTCATAAAAATAACCCGAAAAAAAGGCACACTTTTATCTCTTTTTTTCCTGTTTCTCATCGTTTTGCTGGCCGGCCTTATTATGAATCATGAGTTAGATGCTTCCTCGGATAACAATTGGAAAGAACGGCTTCTCGCCGAAAAAAAACAGGAAGAAATTGATAAACCGGCTGAAACGACAGGCGTTTATTATTCTGCTGATGTTAAGAATAAAGACTATTATTTGGAGCATAACATCAACCCTTATGAATGGAACGGCTGGAGGTTTTTCGGCACGGTTACTTCAAACGGGCTTGAGATTTTCGTCAGCTTGACCGCGATTTTAACCGTCAGCGGGGTTGTTTCTAAAGAGTTTGCCCTTGGGACGATTAAATTTATCGCTACAAGCCCGAACCGAAGATGGCGGATTTTAACATCGAAGTTTCTGGCCTCCCTTCTGTTTACCGGTATGATTTACTTATTTTACTGTGTGAGCTGCTTGCTGATCGGCGGCGTGTTATTCGGTTTTTCCAATGCTTCATATCCGCTCGTCTATACTCATTTAAATGACAGTCTGTATACCATCAGTTCAATCAAAGCATCCGGAATCATTCTGCTTTTGCGTTTCATATCAATTATAAGCATTGTCACCATTGCGTTCACTTTGTCAGTATTGTGCAAAAGCCAGGCGCTCTCCCTCTGCTTATCGATTTTACTGCTGTTTGCCGGCAGTATATTGGGCGGAACTGATTTGCTTGCCCAATTTACGTGGTATAAATTTACGCTCTTTCCGCATTTAAACCTCGTTGCTTATGTAAATAAAAGCGCGGGTGATGCGATTTCAACGTTAAACATCCCCTATTCCGTGACGGTTATAGCGATCTACTTTCTTATTTGTTTATTGATTTCTTTTTCCGTCTTTCAAAAGAGAGACATTACAGCATAG	MSIFHLAQNEFIKITRKKGTLLSLFFLFLIVLLAGLIMNHELDASSDNNWKERLLAEKKQEEIDKPAETTGVYYSADVKNKDYYLEHNINPYEWNGWRFFGTVTSNGLEIFVSLTAILTVSGVVSKEFALGTIKFIATSPNRRWRILTSKFLASLLFTGMIYLFYCVSCLLIGGVLFGFSNASYPLVYTHLNDSLYTISSIKASGIILLLRFISIISIVTIAFTLSVLCKSQALSLCLSILLLFAGSILGGTDLLAQFTWYKFTLFPHLNLVAYVNKSAGDAISTLNIPYSVTVIAIYFLICLLISFSVFQKRDITA	PGPT0006730_9062	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_02386	921	bcrA_3		Bacitracin transport ATP-binding protein BcrA	ATGACTGAACCAGCCCTGATATTAAAAGATGTCTCTAAAACAATCAATCATACCCCCATTGTACAGTCAATTTCTTTCGATGTGAGAAAAGGCGAGATATTCGGCCTTTTAGGGCCGAACGGCTCAGGAAAAACCACTATTTTCAGAATGATCGTACAGCTTATTAAAAAAACAGAAGGAGCCATTTCATTCAGAGGCAGACCGGACAGCGACTTTGAATATTTTATGAGACATATCGGGGTTATCATTGAAGGCCCGGATATGTATCCGAATATGACCGCTTTGCAAAACCTAAAATATTTCACCAGACTGCGGAGCAGCTCGCTGCGAACGGATGACCTTATGAATACCCTTGCAAAAGTCGGATTGGAGCAGGCTGCCCGCAAAAAAGTGAAACATTTCTCATTAGGCATGAAACAGCGCTTGGGGCTCGCTTATTCTCTTCTTCACAATCCCGGATTATTAATTCTGGATGAACCGATGAACGGCCTCGATCCTAAAGGAATGAAAGAATTGCGCACCATTCTTTCCGATTTAGCGAAGCAAGGGGTTTCTATTTTATTATCAAGCCATTTATTGTCGGAAATGGAGGAAATTTGCGATAGGGTTGCCTATATTAAAAAGGGACGGATTTTAGGAATTGAAGACATGAAGAACAGACATGACCTTGGTCAGAAAAAGCTGTTTACCGTCACGGTCGATCATCCGGCAAGGGCGAAAGAAATATTAGAGCAGGACGGTATTCTTCAAGTACAGCAAAAAGACAGCCGCATCATTGAATTGGAAGCGGAAGAAGATACCATCCCGTATGTCATTAAATCTTTGGCAGAGAAAGAGATTCTGATTTCCCGCGTTTCTGCAAGGACTTTGTCATTGGAAGAGAAATACATGATGATTACAGATCAGGAGGACGCGGTATGA	MTEPALILKDVSKTINHTPIVQSISFDVRKGEIFGLLGPNGSGKTTIFRMIVQLIKKTEGAISFRGRPDSDFEYFMRHIGVIIEGPDMYPNMTALQNLKYFTRLRSSSLRTDDLMNTLAKVGLEQAARKKVKHFSLGMKQRLGLAYSLLHNPGLLILDEPMNGLDPKGMKELRTILSDLAKQGVSILLSSHLLSEMEEICDRVAYIKKGRILGIEDMKNRHDLGQKKLFTVTVDHPARAKEILEQDGILQVQQKDSRIIELEAEEDTIPYVIKSLAEKEILISRVSARTLSLEEKYMMITDQEDAV	PGPT0006725_11863	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_02387	555			hypothetical protein	ATGTGTAAAGACCAATATTTAAAACATCTCCGGCGGGAAATAAAAGATCTGCCGGAACGTGAGCAAAAAGAGATACTCGCCGATATCGGCGAAATATTCCAAATGGGCGGCGCTGAAGGAAAAAGCGATGAACAAATCGCGGGCAATTTAGGAAACCCCAAAACACTTGCGCGCGCCTTAAAAGCGGATATTTTCATCAGTGATGCCGAGGAGCAGAAAACATGGCGCTCGTTTTTCAAAGCATTCGGCCTGATGCTGGGGATGGGCATGTTCAACTTCATGTTTATGCTGACACCGTTTCTTTTTGCCTCTGTTGCGGTGTTAAGTTTGATGGCGATCGGCCTGATGCTGATGACCGGATCATTCTTTCTCCTTGTAAAAGTGCCGATTGTAACAGCCATTTTTAACGGATGTATGGTTCTTGGAGCAGGTATGGCGGTGTTTATGGCCGGATTTGATCTTTCGAAACTGATATTCCGCATCTTTTTGCGCTATTTCAAATGGAATGTCAGCGTTGTAAGGAGGGAAAACATTGAATCGAAAAATGTGGTATAG	MCKDQYLKHLRREIKDLPEREQKEILADIGEIFQMGGAEGKSDEQIAGNLGNPKTLARALKADIFISDAEEQKTWRSFFKAFGLMLGMGMFNFMFMLTPFLFASVAVLSLMAIGLMLMTGSFFLLVKVPIVTAIFNGCMVLGAGMAVFMAGFDLSKLIFRIFLRYFKWNVSVVRRENIESKNVV				NA	NA	NA	NA	NA
D1-12_02388	315			hypothetical protein	ATGAGTAGCCAATTACGAAAAGGAGCGTTAGAACTTTGTGTGTTATCCCTGCTTCTTTATGAAGATTTATATGGTTATGAATTAATCAAGATCATAAGTGAAACGTTCCCTGTATCGGAGGGCACCATCTACCCCATATTACGAAGACTCACAAAAAATAACTACCTAAAAACGTATACAGCAGCTTCCGATCAAGGCCCATCACGCAAATATTACAAAGTAACAGAAGAAGGCGCCTTTTATCATCAAACATTAAAATCGGAATGGCTTGACCTGTCCGAAAAAGTGAACAGCATCATTAAGGAGGGAAAATGA	MSSQLRKGALELCVLSLLLYEDLYGYELIKIISETFPVSEGTIYPILRRLTKNNYLKTYTAASDQGPSRKYYKVTEEGAFYHQTLKSEWLDLSEKVNSIIKEGK				NA	NA	NA	NA	NA
D1-12_02389	774	rsfA_2		Prespore-specific transcriptional regulator RsfA	TTGACAAAACAAAGACAGGACGCCTGGTCGGAGGAAAATGACCTGCTGCTTGCGGAAACCGTGCTCCGTCACGTTCGGGAAGGAAGCACGCAGCTGAATGCCTTTGAAGAGGTAGGCGATAAATTAAACAGAACGTCGGCAGCGTGCGGATTCAGGTGGAATGCTGTCGTCCGCCATCAATATGAAAAAGCGCTTCAGCTTGCCAAAAAACAGCGGAAACAGCGGATGCGCGCGCTCGGAAACGGCCAGCCGGCCAAGAAGAAACTATTATACCAGCCGCCTGCACCGGATGCGGACATCATGCAGGAAACCGCAGCCGAAGAGACGGTTCAAACGGAAGCGCCAAAAGAAGATCGGCAAGCCGTCATGTCCGGCGAACATATGCCTTATGTCGATGAAAGCTTCAAGGAAGAGTTAGCTAGTTTATCACATTTGCTGGCGCCTCAGCAGCCGAGCCAAAAGGCGGAGCTCACAATGGCAGATGTCATTCAATTTCTGCAGAGCTATGAAGGCAGCGGAAAGCAAACTTCCGCCCTGCAAATGGAAAATGACCGTTTAAAACGGGAAAACCAAGAACTTCAGTCTAAAACCGAGCAGCTGGAAGCGGCCGTCGAAAAGCTTGAAAAAGATCAAAAAACCATTCAGGAAGACTACGAAACCTTGGTGAAAATTATGAACAGAGCCAGAAAACTAGTTTTATTTGAAGACGACGAACATGCCTCTCCGTCCTTTAAAATGGACCGGAACGGCAATTTAGAAAAAATGGCCGAATAA	MTKQRQDAWSEENDLLLAETVLRHVREGSTQLNAFEEVGDKLNRTSAACGFRWNAVVRHQYEKALQLAKKQRKQRMRALGNGQPAKKKLLYQPPAPDADIMQETAAEETVQTEAPKEDRQAVMSGEHMPYVDESFKEELASLSHLLAPQQPSQKAELTMADVIQFLQSYEGSGKQTSALQMENDRLKRENQELQSKTEQLEAAVEKLEKDQKTIQEDYETLVKIMNRARKLVLFEDDEHASPSFKMDRNGNLEKMAE				NA	NA	NA	NA	NA
D1-12_02390	225			hypothetical protein	ATGGCTAATGAATTCCGAGTGTGTGATGATTGCCAGGCCACCAATATTAAGACTTTGCTGCCGCGTTTGAAAGAAGCTGACCCGGATGCAAAAGTGGAGGTCGGATGTCAGTCATATTGCGGGCCCGGACGCAAAAAATCGTTTGCTTTCGTAAACAACCGCCCGCTGTCGGCGCCGACTGAGGACGAGCTGATTGAGAAAGTGAAAAAGAAGATCAAAAAGTAA	MANEFRVCDDCQATNIKTLLPRLKEADPDAKVEVGCQSYCGPGRKKSFAFVNNRPLSAPTEDELIEKVKKKIKK				NA	NA	NA	NA	NA
D1-12_02391	1302			hypothetical protein	ATGGCGTATCCAAACGGAAAATTATCAGAAGAAAAAGTGTTTAAAGATCCCGTTCACCGCTATGTTCATGTGCGGGACAAGCTGATCTGGGATTTGATCGGCACCCGTGAATTTCAGCGGCTGCGCCGGATCAAACAGCTCGGTACGACGTATTTGACGTTTCACGGCGCGGAACACAGCCGTTTTAACCATTCTCTCGGCGTCTATGAGATTGTCAGACGAATGGTTGATGATGTTTTTAAAGGGCGTTCTGAATGGGATGACAATGAACGCGAACTCTGTCTCAGCGCCGCGCTTTTGCACGATTTGGGACATGGGCCGTTTTCGCATTCCTTTGAAAAGGTTTTTCATCTGGATCATGAAGACTATACGAGGGAAATCATTCTCGGCGACACCGAGGTGAATCAGGTTCTCAGAAAGGCGGGACCGGGATTTCCCCAGGATGTTGCCGAAGTCATTGCCAAAACATACAAAAACAAACAGGTGGTCAGCCTGATTTCGAGCCAGATTGACGCCGACAGGATGGATTACCTTCAGCGGGACGCATACTATACGGGCGTCAGCTACGGACATTTTGATATGGAACGGATTTTAAGGGTCATGCGTCCGCGAGAGGACCAGATCGTCATTAAGCAAAGCGGCATGCACGCCGTCGAAGACTATATTATGAGCCGCTATCAAATGTACTGGCAGGTGTATTTTCATCCCGTGACGAGAAGCGCAGAAGTCATTTTGACGAAAATTCTCCACCGTGCGAAGCAGCTCCATGAAGAAGGGTATATATTCACTCATGCTCCCGTTCATTTTTATTCCATTTTTGAAGGGAAGCTGACGCTTGCGGATTACCTGAAGCTTGATGAAGCCATCATTTTATATTATTTCCAGGCTTGGGAGGAAGAAGAGGACCCGATTCTGTCCGACTTGTGCCGCCGCTTCATTAACCGCCAGCTGTTTCAATATGCCGAATTTAATCCGAATGAGGAAATGTCGGCTTATTTTGAACTGACCGCTCTGTTTAAAGAGGCGGGAATTGATCCCAATTACTATTTAGTGGTCGATTCTTCATCGGATCTGCCGTATGATTTTTACCGGCCGGGTGAAGAGGAGGAGCGTCTGCCGATTCATCTGTTAACGCAGAACGGCCAGATCAAAGAGCTGTCCAGGCAGTCCGCCATTGTCGAATCCATTTCGGGCAAACGCCGGACGGACCATAAGCTCTACTATCCGATGGACCTCATTTGCGACGATTCAGAAAACCCTGAAGCAAAATTAAAAATCCGGCAGCTGCTGGGACTGACATAG	MAYPNGKLSEEKVFKDPVHRYVHVRDKLIWDLIGTREFQRLRRIKQLGTTYLTFHGAEHSRFNHSLGVYEIVRRMVDDVFKGRSEWDDNERELCLSAALLHDLGHGPFSHSFEKVFHLDHEDYTREIILGDTEVNQVLRKAGPGFPQDVAEVIAKTYKNKQVVSLISSQIDADRMDYLQRDAYYTGVSYGHFDMERILRVMRPREDQIVIKQSGMHAVEDYIMSRYQMYWQVYFHPVTRSAEVILTKILHRAKQLHEEGYIFTHAPVHFYSIFEGKLTLADYLKLDEAIILYYFQAWEEEEDPILSDLCRRFINRQLFQYAEFNPNEEMSAYFELTALFKEAGIDPNYYLVVDSSSDLPYDFYRPGEEEERLPIHLLTQNGQIKELSRQSAIVESISGKRRTDHKLYYPMDLICDDSENPEAKLKIRQLLGLT				NA	NA	NA	NA	NA
D1-12_02392	501			hypothetical protein	TTGTTGAAAGAACATGCAAAACTGATGAAGGTGTTCTCGGATTCTGGAGAAATCATCGGGCGGAAAAAGCTGCAGAAAATCATTTATATCGCGAAGAAAATGCAGTATCCTTTCTACGAAAAATATGATTTTCATTTTTACGGCCCGTATTCCGAAGAACTGACGCTTCGAATTGAAGAGCTGTGCAATCTTGGGTTTCTGGATGAGGTGAAGGAAAAAAAGGGCGGCTACTTTCAATACCGGTACTCGCTGACGGAGACGGGAGCCGAGTTTTTACATCATGCGGAGCTTACGATGCCGGATATGAAGAAGTACATCGACAGCGTCAACAGCCGCTCATCCCGGTTTCTGGAGCTGGTGTCTACGATTTTGTATTTTGACGGTCTTGAAGCTGAGGAAAAGAAAGAGAAAGTGTTTACGATAAAAAGCAAACAGAAATATACGGATGAAGAATATGATGAGGCGCTTCACTACATAGAAGAGCTGAAACACATTTGTTAA	MLKEHAKLMKVFSDSGEIIGRKKLQKIIYIAKKMQYPFYEKYDFHFYGPYSEELTLRIEELCNLGFLDEVKEKKGGYFQYRYSLTETGAEFLHHAELTMPDMKKYIDSVNSRSSRFLELVSTILYFDGLEAEEKKEKVFTIKSKQKYTDEEYDEALHYIEELKHIC				NA	NA	NA	NA	NA
D1-12_02393	1578	yhdG_2	COG0531	putative amino acid permease YhdG	ATGATTCAGGTAAAATCATTAAGGGTGACTGCGTTTGACGGAAAGGATAATCTGATCGGATGCGGCAGACAATATGACTGGAAAAGAAACGGAACAGACGGGGAAACAGAACACAGGATTGTCGATTACACAGAATGTGACACGGGTAAAAGCCAAAGAGTCCCTCTTGGCTTTTGCTTTTGGATGGAGGGATGCGTGTTGCGGAATATCCTACAAAAAAAAGACATCACCCAGCTGCTTGAACAAAGCAGAAACAGGCAGACTGCCAAAACGATGGGTGGATTTGATTTAACATTACTGGGCATCGGCGCCGTCATCGGGACGGGCGTCATGGTTCTTACAGGCATTACGGCCGCGAAAAACGCCGGACCTTCCGTAATCTTTTCTTTTATCATTGCAGCCGTTGTCTGCAGCCTTGCAGCATTATGTTACGCCGAAATCGCTTCTGTTCTCCCGGTTTACGGAAGCGCCTATATTTACTCTTATACCACCATGGGAGAAATTGTCGGCCATTTAATGGGCTGGACGCTCTTATCCGTTTATATGGTGACGGCGTCGGCGGTGGCAAGCGGCTGGTCCAGTTATTTTAATAATCTGTTAGCCGAAATCGGCATGCCTTTGCCGGACAGTCTGCTGCACGTGCCGAGCCAGGGGGGCATCGTCAACCTTCCTGCCATCATCATTACTCTATTAATTGCCGTCGTTCTGTCACGCGGCTCCAAGGAGAGCAAAACCTTTAATAATGTAATGGTTCTCGTAAAAATCGGAATTGTTTTGCTGTTTATCATCACAGGAAGCTTTTTTGTAAAGCCGGGCAATTGGCATCCTTTTATGCCTTTTGGAATCAAAGGCGTGATTACAGGGGCTTCTGCCGTCTTTTTTGCGTTTCTCGGGTTTGACGCGATTTCCGCTTCGGCTGAAGAAGTCAAAAAACCGCAGCGCAACCTGCCGATCGGTATTATCGGTTCCCTGGTGATCTGTACATTGGTATACGTCATCGTCTGTCTCGTCATGACGGGTATGGTTCCGTATTCACAGCTTAATGTGCCGGAAGCCATGTCTTATGTGTTACAGACTGTCGGACAAAACGCGGTGGCGGGCGTTATCGCTGCCGGTGCGGTGATCGGACTGATGGCCGTCGTTCTCGCCCATACCTATGCGGCGACCCGTATATCTTTTGCGATGGCAAGAGACGGAATGCTGCCGAAAGTCTTTACCATTGTCGGAAAGAAATCGGGAGCGCCGATCTTTAATACGTGGCTGATCGGACTGATCAGCGCCTGCATCGCGGGTTTTGTTGATCTGAAAGAGCTGTCGGATCTCTCAAACATCGGCGCGCTATTGACATTTGCCATGGTCAGTCTGTCCGTGCTGATTCTGCGCCGCACCCATAAGGATCTGCCGCGGGGATTTAAAGTGCCTTTTGTACCCGTACTGCCGATTTTGGCCATTATCTGCTGTTTGTTTTTAATGGTCAATCTGCCGCTGAAAACGTGGCTTTATTTTGCCGTCTGGCTGATCATCGGCGTCATCGTTTACTTTTTATATTCGTACAAGCACAGCAAATTGAGACAATAA	MIQVKSLRVTAFDGKDNLIGCGRQYDWKRNGTDGETEHRIVDYTECDTGKSQRVPLGFCFWMEGCVLRNILQKKDITQLLEQSRNRQTAKTMGGFDLTLLGIGAVIGTGVMVLTGITAAKNAGPSVIFSFIIAAVVCSLAALCYAEIASVLPVYGSAYIYSYTTMGEIVGHLMGWTLLSVYMVTASAVASGWSSYFNNLLAEIGMPLPDSLLHVPSQGGIVNLPAIIITLLIAVVLSRGSKESKTFNNVMVLVKIGIVLLFIITGSFFVKPGNWHPFMPFGIKGVITGASAVFFAFLGFDAISASAEEVKKPQRNLPIGIIGSLVICTLVYVIVCLVMTGMVPYSQLNVPEAMSYVLQTVGQNAVAGVIAAGAVIGLMAVVLAHTYAATRISFAMARDGMLPKVFTIVGKKSGAPIFNTWLIGLISACIAGFVDLKELSDLSNIGALLTFAMVSLSVLILRRTHKDLPRGFKVPFVPVLPILAIICCLFLMVNLPLKTWLYFAVWLIIGVIVYFLYSYKHSKLRQ	PGPT0020810_898	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
D1-12_02394	420			hypothetical protein	ATGGAGCACGATATATTGCAAGCAAATGTACTGGATTACGCGCTCACGAAATATTTAAAGAGCACGAAAAAGCTTGATGAGGCGACAATTCCGAAGAGTATAAACAATATCAGAGGATTTATTCTCAGGATTATTTACCGGCACGGCACGTGCACGATTAAAGATATATTGCAGGAAGTCACATTATCGCCTTCAGCCACGACAACCGCTCTGAATCATTTAGAAAAAGAAGGTTTCGTGGAAAGGTCGAGAAATAACGAAGACCGACGCACGGTATGGATGACGCTTTCCGAATCGGGAAAAATGGCGGCCATGCAAATGATTGAAAACCGGCAGATGCTCATTGACGAGCTGTTCGAAGCGTTGACAGAAGAAGAAAAGAATACCTTTTTCAGCCTCGTTGAAAAAGTAATGAAATAA	MEHDILQANVLDYALTKYLKSTKKLDEATIPKSINNIRGFILRIIYRHGTCTIKDILQEVTLSPSATTTALNHLEKEGFVERSRNNEDRRTVWMTLSESGKMAAMQMIENRQMLIDELFEALTEEEKNTFFSLVEKVMK				NA	NA	NA	NA	NA
D1-12_02395	189	ywhB	COG1942	2-hydroxymuconate tautomerase	ATGCCGCTCGTAACCGTTAAAATGCTTGAAGGCCGCACAGATGAACAAAAACGGAATCTGGTTGAAAAAGTGACAGAAGCCGTAAAAGAAACGACAGGCGCAGCCGAAGAAAAGATCATTGTCATGATTGAAGAAATGAGAAAGGATCATTACGCCGTCGCCGGCAAACGGATCAGCGATACGGAGTAA	MPLVTVKMLEGRTDEQKRNLVEKVTEAVKETTGAAEEKIIVMIEEMRKDHYAVAGKRISDTE	PGPT0005210_2112	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
D1-12_02396	660			hypothetical protein	TTGGACAGATTTTTATATTATCCGCTGGAGCTTATGCCCTATGTCGTGATTACGCTGATCGTGGCATTTACGATGCATGAACTGGCGCACGCGTATGTCGCGTATCGGTTCGGAGACGATACCGCGGCGAGACAGGGCAGATTAACGCTCAATCCGATTAAACATCTTGATGTTTTCGGAACGATTCTAATTTTGGTCGCGGGTTTCGGCTGGGCCCGTCCGGTGCCGGTGAACCGCCGCGCCTTTAAAAGACCGCGGCTGGCGGGAGTGCTGGTTTCCGTCGCCGGCCCTGTAAGCAACCTGCTTCTTGCCTTTATCGGTTTCTTTTTGCTAGTGTTGATGCATGCTTACGGAATGGAGCTGCTTTCTGCATTCAGCATGGGGCTTGACCGCTTTTTCTCTATTTGGATTCAGCTGAATCTCGCGCTGTGTTTATTCAACCTGCTGCCGCTTCCTCCGCTTGACGGCTACCGGATTATTGAGGATCTCGTGCCGCCGCGGGTGCGCGCCAAAATGACTCAGTTTGAGAGCTACGGGATTATCGTGTTTCTCGTGCTGTTTGTGACACCGGTCGGCTCCTATGTCGTGTGGCCGCTGTTAAGCGAGGGGAGAGACTGGATTCTCAAGGTATTTGCCATTATATTTCAACCGCTTTTGTAG	MDRFLYYPLELMPYVVITLIVAFTMHELAHAYVAYRFGDDTAARQGRLTLNPIKHLDVFGTILILVAGFGWARPVPVNRRAFKRPRLAGVLVSVAGPVSNLLLAFIGFFLLVLMHAYGMELLSAFSMGLDRFFSIWIQLNLALCLFNLLPLPPLDGYRIIEDLVPPRVRAKMTQFESYGIIVFLVLFVTPVGSYVVWPLLSEGRDWILKVFAIIFQPLL				NA	NA	NA	NA	NA
D1-12_02397	519			hypothetical protein	ATGGAAGAAAAAAAGAAGAAAACAATCGGATTTAATATTATTAAAAGTGATCCGACCGACGGACATGGCGGTTTCGGCGCCGGGTCGCTGAGCCTTGATAATATTTCTCCGGTATTTGTCGATGTAGAAGAGAAGGAAGCCTTCGTTGACATCGGCGCAATGCATGCCCGCAGTGTCGTTGAAAAAGGCATCAAATTCCTGCCGAACAAAGATGAAGTGCCGAACGGAAAACCGTACTGGCTCGTGTGGGTCACCATCGACAGAAAAGAAGAAGGCCCTTATTACGCGGGTGTGACGGCTTGTGAAATGACCGTGGACAGAAGTATCCGCAGAGGCTATAAGTCATTGCCGGAGCATGTGAATTTAATGGATAAATCAATGAAGCGCCGCATTATCGTGGACAAAATGGACGCCAGCTCAAAGCAGGTGCTTGCTGAATTTCTGCAGAAGCATGACCAAGGGCTCTGGGAACGTTCATCCGATGAATTGAAAACGGGTCTGCTTCCGGGCGAAAAATAA	MEEKKKKTIGFNIIKSDPTDGHGGFGAGSLSLDNISPVFVDVEEKEAFVDIGAMHARSVVEKGIKFLPNKDEVPNGKPYWLVWVTIDRKEEGPYYAGVTACEMTVDRSIRRGYKSLPEHVNLMDKSMKRRIIVDKMDASSKQVLAEFLQKHDQGLWERSSDELKTGLLPGEK				NA	NA	NA	NA	NA
D1-12_02398	432			hypothetical protein	ATGTTCACCGTCTTTGACATCGGGCCTTGGGTCATTGAAGCAGATACGGCGGAAACGAGAAAACAATATGAAAAATCATGGCCTGATCCCTGCGATTGCGGGAGCTGCCGGAACTTTTCCGAGGCGGTGAATCTCCTTCCCGCCGAGAAAACAAGATTGTTTACGCAGTTTGGGATTCGTCCGGCTGTCTGTCACGACTTGGGGGAGCATGGAAAGGAAAACGGCCTGCATCATTATGCGGGCAGCTATCCGATTGTCGGCATGCTTAGGGAAGGCTGGCCGAAGTTTCATATTGAGAGAGCGGGAGATACCCGCTTTTCGTTTTCTTTGCCTAGTACAACATTTTTTATACCGAAGGGTTTTCCTGACCCTATTATCCATCTCGACTTTTCACTCTTGCTCCCATGGGTGCTTGAGGAAGACGCGGAGTAA	MFTVFDIGPWVIEADTAETRKQYEKSWPDPCDCGSCRNFSEAVNLLPAEKTRLFTQFGIRPAVCHDLGEHGKENGLHHYAGSYPIVGMLREGWPKFHIERAGDTRFSFSLPSTTFFIPKGFPDPIIHLDFSLLLPWVLEEDAE				NA	NA	NA	NA	NA
D1-12_02399	2073	pbpG	COG0744	Penicillin-binding protein 2D	GTGGATAAAGTATCTGGAAAACAGCTCAGAATCACGTTCAAAATCATCCGCGCCTGCATCTTTCTGACACTGATCGGCGGAATGCTGGCCGGCGTCTGCTTCACATCCGTTCTTCTTGCAGCGAAATGGCAGGGGGCCCCCTCCGTCCGGGTTCCTCAGTCTACGATTCTTTATGCAAATGACGGCTCAAAGCTAGGTGAGACCGATTTCGGGGAAAAGCGCTACTGGGTCCGGTTAAAAGATATCAATCCGATAGCGGTGCAGGCCGCCATTGCGGTGGAGGATCAAAACTTTTACAATCACCACGGTTTTGATTACCGGCGGATGGCCGCCGCCGCGCTGGCTGACATAAAGGCAATGGCCAAGGTTCAGGGCGCAAGCACCATCACCCAGCAATACGCGAGAAATCTCTACCTTGAGCATGATAAGACATGGAAACGAAAATGGAACGAAGCATTTTACACGATCCGCCTTGAACAGAACTATTCTAAAAACGAGATTTTAGAAGGTTATGTAAATACGATATATTACGGCCACGGCGCATATGGAATTGAAGCCGCCTCGCGCCTGTATTTCGGCAAACACGCCAAAGATCTGAACGATGCGGAAGCCGTGCTTCTGGCGGGCATACCGAAAGGCCCGTCCGGCTATTCGCCATATGTCAGCGAAAAGAAGGCCAAACAGCGCCAGGAAACCATTCTCCGACTAATGGCCGGACAAAAAATGATCTCAAAAACGAAGGCAGAAAGGCTTAAGAAAATGCCGCTTGCCTATCAGCCGCTGAAAAACAGAACCGCAGCGAAAACGGCGCCTTATTTTTACGATGATGCGATGAAAGAACTCGAGAAAAAGCTCGGCATGACGCGCGAACAGCTCGCAACGAGCGGATTGCGTGTTTATACAACGCTTGATAAGCGCATGCAGCGGATTGCGGAAAACACTGTGGCACATACGATCCGTACCGGCTCTGACATTCAGGTCGGCTTTTCCGCGATTGATCCGGCAACAGGGCGCGTGCTTGCGCTTCTCGGCGGACGTGACTACGAAAAAAGCCCGTTTGACCGGGCGACACAGGCGAAACGGCAGCCGGCTTCCACGATCAAGCCGCTTTTGTACTACAAAGCGATTCAAAGCGGCTTTACACCGGTCACGCTGATGAAAAGCGAAGCCACAGAGTTCCAGATTGACGACAACGGAGATACCTATTCTCCAAGCAATTACAACGGCTACTACGCCAATAAACCGATTACGCTGCTTCAGGCGCTTGCGTTATCAGACAACATTTATGCCGTGAAGACCCATCTCTTTCTCGGCATGAATAAGCTCGTGTCGGCGGCAAAGGAATTCGGCATCAGCGAACATTTAAAGCCCCTTCCGTCTCTGGCGCTCGGAACTGAACCCGTGCGCCCGATTGAGATGGTTAATGCCTACGCGATGCTCGCAAACGGGGGAAAACAAATCACCCCTTCCTTTATCACAAAAGTGACGGATACCGCCGGCAACATCTTGTATGAACAGCCTCGCGGACATCAGCAGACGCTTGATAAAAAAGCCGCTTTTGTGACGGCGAGCATGATGACGGGCATGTTTGATCAGGATTTAAACGGCTATACTTCCGTCACGGGACGCACCATTTCTGACCGGCTGACCCGAACCTATGGCGGTAAATCAGGCACGACCAGCGCAGACAGCTGGATGATCGGCTTTAATCCCGCTCTTGCCGCCGGTGTGTGGACAGGCTATGACAAAAGCAGCACGATTGATTCAGTAGAAGAAAAAAGCTATGCGAAGACGATTTGGGCGGACTTTATGGAGAAGGCGCTCGAAGGAGAACCGGAAATAGCGCTTAAACCGCCGAAGGGCGTCACGGGCGTCTATATCGACCCCGCTTCCGGCTACACTTCCGGACCCGGATGCGCCGCAAAGCATTATACGTATTTTATCGCAGGCACAGAGCCCGCCGATGTGTGCTACGGGCCGGAACCGTCTAAAAAAGAAAAGGAACACGCTCCCGCCCGCAAAGAAGCTCCGCGCAAAAAGTGGTGGGATAAGTGGCTCGGCAAAAAAGACTGA	MDKVSGKQLRITFKIIRACIFLTLIGGMLAGVCFTSVLLAAKWQGAPSVRVPQSTILYANDGSKLGETDFGEKRYWVRLKDINPIAVQAAIAVEDQNFYNHHGFDYRRMAAAALADIKAMAKVQGASTITQQYARNLYLEHDKTWKRKWNEAFYTIRLEQNYSKNEILEGYVNTIYYGHGAYGIEAASRLYFGKHAKDLNDAEAVLLAGIPKGPSGYSPYVSEKKAKQRQETILRLMAGQKMISKTKAERLKKMPLAYQPLKNRTAAKTAPYFYDDAMKELEKKLGMTREQLATSGLRVYTTLDKRMQRIAENTVAHTIRTGSDIQVGFSAIDPATGRVLALLGGRDYEKSPFDRATQAKRQPASTIKPLLYYKAIQSGFTPVTLMKSEATEFQIDDNGDTYSPSNYNGYYANKPITLLQALALSDNIYAVKTHLFLGMNKLVSAAKEFGISEHLKPLPSLALGTEPVRPIEMVNAYAMLANGGKQITPSFITKVTDTAGNILYEQPRGHQQTLDKKAAFVTASMMTGMFDQDLNGYTSVTGRTISDRLTRTYGGKSGTTSADSWMIGFNPALAAGVWTGYDKSSTIDSVEEKSYAKTIWADFMEKALEGEPEIALKPPKGVTGVYIDPASGYTSGPGCAAKHYTYFIAGTEPADVCYGPEPSKKEKEHAPARKEAPRKKWWDKWLGKKD	PGPT0023955_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023955-pbpG-K21464	NA	NA
D1-12_02400	831	speE	COG0421	Polyamine aminopropyltransferase	TTGAGCGAGCTTTGGTATACGGAGAAGCAGACGAAGAATTTCGGCATTACATTAAAGGTGAAACAAACATTACATACGGAACAGACGGAATTTCAGCATCTGGAAATGGTGGAGACAGAAGAATTCGGCAACATGCTGTTCTTAGACGGAATGGTCATGACTTCTGAAAAAGACGAATTCGTCTATCATGAAATGGTTGCGCACGTCCCGTTATTTACGCACCCGAATCCGGAAAACGTCCTCGTTGTCGGCGGCGGAGACGGCGGTGTCATCAGAGAGATTCTGAAGCACCCAAGCGTAAAAAAAGCGACGCTTGTCGACATTGACGGCAAGGTTATTGAATACTCTAAAAAATTCCTTCCGTCCATTGCGGGCAAGCTTGATGATCCGCGCGTCGACGTGAGAGTCGATGACGGTTTCATGCACATCGCGAAATCAGAGAATGAGTATGACGTCATCATGGTTGATTCAACAGAACCGGTCGGACCGGCCGTCAATCTGTTCTCAAAAGGCTTCTATGCCGGAATTTCCAAGGCGTTAAAAGAAGACGGCATCTTCGTCGCGCAGACGGACAACCCGTGGTTTACACCGGAGCTGATTACAAACGTACAGCGTGACGTGAAAGAAATCTTCCCGATCACCCGTCTGTATACGGCTAATATCCCGACGTACCCGAGCGGCTTGTGGACATTTACGATCGGTTCTAAAAAGTACGATCCGCTTGAGGTGGAGGACAGCCGTTTCTTTGACATCGACACGAAATATTACACGAAAGAGCTTCACAAAGCGGCATTTGTTCTTCCGAAATTTGTGAGCGACTTAATCAAATAA	MSELWYTEKQTKNFGITLKVKQTLHTEQTEFQHLEMVETEEFGNMLFLDGMVMTSEKDEFVYHEMVAHVPLFTHPNPENVLVVGGGDGGVIREILKHPSVKKATLVDIDGKVIEYSKKFLPSIAGKLDDPRVDVRVDDGFMHIAKSENEYDVIMVDSTEPVGPAVNLFSKGFYAGISKALKEDGIFVAQTDNPWFTPELITNVQRDVKEIFPITRLYTANIPTYPSGLWTFTIGSKKYDPLEVEDSRFFDIDTKYYTKELHKAAFVLPKFVSDLIK	PGPT0007750_3285	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
D1-12_02401	873	speB	COG0010	Agmatinase	ATGAGGTTTGATGAAGCATATTCAGGAAAAGTATTTATCGCAAGCCGCCCCGACTGGAAAGAGGCGGACGCCATCCTTTACGGCATGCCGATGGATTGGACGGTCAGCTACCGTCCGGGTTCGCGTTTCGGCCCGGGGAGAATCCGCGAGGTGTCTATCGGTCTTGAAGAATACAGCCCGTATCTCGACCGTGACTTGGCTGATTTGAATTTCTTTGACGCCGGCGATATTCCGCTTCCGTTCGGCAATCCGCAAAGAAGCCTTGATATGATTGAAGAATACGTGGACAGCATTTTAGAAAAAGGAAAGTTCCCGCTCGGCATGGGAGGGGAGCACCTTGTATCATGGCCTGTCATAAAAGCCATGTATAAGAAATTTCCGGACCTTTCCATCATTCATTTTGACGCGCACACCGACCTGCGCACGGATTATGAAGGCGAACCGCTTTCCCACTCTACTCCGATCCGCAAAGCGGCCGAGCTCATCGGGCCGCAAAACGTATTTTCATTCGGCATCCGTTCCGGAATGAAGGAAGAATTTGAATGGGCGAAAGAAAACGGCATGCACATTTCTAAGTTTGAAGTGCTTGAGCCGCTGAAAAAAGTGCTGCCGCAGCTTGCGGGACGCCCTGTTTATGTCACGATCGATATCGACGTGCTTGACCCCGCTCATGCGCCGGGAACGGGCACGGTTGACGCAGGAGGCATCACGTCTAAAGAATTGCTCGCGTCCATCCATGAAATCGCACGCTCAGAAGTCAACGTAAAAGGCGCCGACCTCGTAGAAGTCGCGCCGGTCTATGACCACTCAGAACAAACCGCAAACACGGCAAGCAAGATGATTCGTGAAATGCTGCTTGGGTTTGTGAAATAA	MRFDEAYSGKVFIASRPDWKEADAILYGMPMDWTVSYRPGSRFGPGRIREVSIGLEEYSPYLDRDLADLNFFDAGDIPLPFGNPQRSLDMIEEYVDSILEKGKFPLGMGGEHLVSWPVIKAMYKKFPDLSIIHFDAHTDLRTDYEGEPLSHSTPIRKAAELIGPQNVFSFGIRSGMKEEFEWAKENGMHISKFEVLEPLKKVLPQLAGRPVYVTIDIDVLDPAHAPGTGTVDAGGITSKELLASIHEIARSEVNVKGADLVEVAPVYDHSEQTANTASKMIREMLLGFVK	PGPT0007775_2650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007775-speB-K01480	NA	NA
D1-12_02402	219			hypothetical protein	ATGAAAACAGCAGTAGAAAATGAATTGGAATTAAAAAAGATTGAAATTTCAGTAATTAAACTGATAATTGCTGAAAAACCTAATAAAGAGATCGCTAAGTCATTAAACTACTCGCAGCGTAATGTCGAATATATCATAGCCGGTCTCTGTAAAAAGTGGAATGTGAGTACTAGAGTCGGTATTGTTTCGGAAGCATATAAAAGGAATTGTATACAGTGA	MKTAVENELELKKIEISVIKLIIAEKPNKEIAKSLNYSQRNVEYIIAGLCKKWNVSTRVGIVSEAYKRNCIQ				NA	NA	NA	NA	NA
D1-12_02403	540			hypothetical protein	ATGCAAATTGAATTATCTTCATTTAAGGACCGAAACATTAATTTTTTGTCCTCATTTTTGTTTTATATTATCGGGCTAGCTTTTTATTTAAGTTCCCTATTACCTTTTATGAAAAGTTTAATTCCCAAAAACATCCCTATACAAGTTGTTGAGCAAGTAAAACATTTAGATTATATCATTGCAATAGCCGCACTGTTTCTTTTAATGTTCGGGGTGATTTTTGAAGGATTTGTATTATTTCTCATTATAAATTTTCTTGGCGCTCAAATTAAGATCAAAACTTTTTATTCCCTATTTATGTTTTCTAACATCCCGGTCGCAATTAAGTTTTTACTTATATCATTCAAAAATATTTTCGCAGCACATCCAAACACTAGTTTATTTTTCACAAGTAATCATTTGATTTTTTCTATCTTTGATTTGTTCAATATTGCATACTTATTTCTTTTGTTTATTCTTCTGAAATGGAGAACAAATTTGAACTACCTGACAATCTCAGTTTTTATTTTTACGGCATTCCTGTATAGAATGTTTTTTTAG	MQIELSSFKDRNINFLSSFLFYIIGLAFYLSSLLPFMKSLIPKNIPIQVVEQVKHLDYIIAIAALFLLMFGVIFEGFVLFLIINFLGAQIKIKTFYSLFMFSNIPVAIKFLLISFKNIFAAHPNTSLFFTSNHLIFSIFDLFNIAYLFLLFILLKWRTNLNYLTISVFIFTAFLYRMFF				NA	NA	NA	NA	NA
D1-12_02404	498			hypothetical protein	TTGTTTAAAAAGAACGTTTTAGTCAAATTGTACATACTCTGTCTGATCTTATTTTTAATTGCTTTATTTACAGCATATTTTTATACAGATCCCGCTTCAAATGTAAATAATCTAAACCGAAATATCCGTCCGGATTTTTTTCAGATTTTCTTTAATAATATTAAAGTAGCGAGTCTGCTTGTTTTTTTAGGCCCGTTGACGCTGTCACTTGGCACGATTGCAGTTTTAATTATTAATGGTTTAATTTTAGGAAATGCCATAGGAAACATCAAAGACAATTTAAACCTTTTACTGCTTGTTATACCCCATGGAATAATTGAAGTCCCGGTATTGCTTCTTGCAGCTTCTGTAGGAATGAAATTAACTTTGGATTTATTACTCCTCAAAATAAATTTAAAATTCACTTTTAAATATATTGGTATTATATTTCTCGGTTTAATGATAGCAGCTATGTTAGAAACATTTATTACACCTATCTTTATAAAAGGAGTCTCTTAG	MFKKNVLVKLYILCLILFLIALFTAYFYTDPASNVNNLNRNIRPDFFQIFFNNIKVASLLVFLGPLTLSLGTIAVLIINGLILGNAIGNIKDNLNLLLLVIPHGIIEVPVLLLAASVGMKLTLDLLLLKINLKFTFKYIGIIFLGLMIAAMLETFITPIFIKGVS	PGPT0024685_699	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
D1-12_02405	282			hypothetical protein	ATGAGTCTACTTTTAAAAACACAAAATAGTAAAGCGATTTTTACATTAGTAGCATCAGGAATCATTGTTCTCGCTCTTTTCAGTATAAAACATAATCATTTAAGCATGGATGTCATCGATATTTTAAACAGAGCTGGAATTATCGCTCCTAGTTGGATTGTCAGTGCTATCACCGCAACGGGTTCAGTCCTGGCTATCATTACTGTTTTAGGATCTCTTGGTGCAGGCTTGCCATTAGCCGTTTTAGAACAATTGGCTGCAGCAAGTACAGCAGCAGCTTAA	MSLLLKTQNSKAIFTLVASGIIVLALFSIKHNHLSMDVIDILNRAGIIAPSWIVSAITATGSVLAIITVLGSLGAGLPLAVLEQLAAASTAAA				NA	NA	NA	NA	NA
D1-12_02406	264			hypothetical protein	ATGTACGAATATAAGTTCATAAAAGTAGAAGTAAACCGGTGGAAAGGAAAGCCTAAAGAAGACTATAAAGAAATTATTGAAAAGTATTCGCAGCAAGGATGGAAGCTGGTCCAAATATTTGCTCCTCCTATTTCAGGTTATGGGGCAGCCGATTATTTTGATATTATTCTTGAAAAAAAGTATAAATGTTTCAGTACAAAGAAAGCCGGATCATACATATGGTCCGGCTTTCTTTGTACTGAAATAAGTCAGCAGATACCTTAA	MYEYKFIKVEVNRWKGKPKEDYKEIIEKYSQQGWKLVQIFAPPISGYGAADYFDIILEKKYKCFSTKKAGSYIWSGFLCTEISQQIP				NA	NA	NA	NA	NA
D1-12_02407	204			hypothetical protein	ATGAAGAAAATGGATGAGATGCAAAAACACCAATCGGGTATAGCCGCCAGAATAGCATTTAGTTTTTATACTGTCGCTTTACTGATATGGTCATTAATAGATTATTTTAAAAACGGAAATACAGGATGGCAATTTCCAATACTTTTAATAGGCTGCGCGCTCTATTTATGGATTCAAGTTTATCATAATCGAAAAACAAGGTAA	MKKMDEMQKHQSGIAARIAFSFYTVALLIWSLIDYFKNGNTGWQFPILLIGCALYLWIQVYHNRKTR				NA	NA	NA	NA	NA
D1-12_02408	204			hypothetical protein	GTGGATAACAATATAAAAAAACTTAGAACAGCAGCTGATATTTCACAAAATGATCTGGCTAAGCTCTGCAATGTGACCAGACAAACCATCAATGCAATTGAAAATAATAAATATGACCCGACTTTAAGTCTGGCTTTTTCGATAGCTCACGCATTAAATACGGGAATAGATAAAGTATTCAACTATAACGCCAAAAAAAATTAA	MDNNIKKLRTAADISQNDLAKLCNVTRQTINAIENNKYDPTLSLAFSIAHALNTGIDKVFNYNAKKN	PGPT0008430_6409	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-12_02409	120			hypothetical protein	ATGAAATTGAAGTATAAATTAGCACTTACTTGCTTAGCGATAGGCACTATTTTTGTTTCAGCCGACATTGCAAGTGCACCGGAACATCAATTTGAAGTTGCTCAGCGCGGAATGATTTAA	MKLKYKLALTCLAIGTIFVSADIASAPEHQFEVAQRGMI	PGPT0025685_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_BIOSYNTHESIS,PGPT0025685-phrF-K06355	NA	NA
D1-12_02410	1146	rapF_1	COG0457	Response regulator aspartate phosphatase F	GTGGCGAGTGTTTTATCGTCTTCAGCGGTTGGAGAAAAAATCAACGAATGGTATATGTACATTCGAAGGTTCAGCATCCCGGACGCCGAGTACTTGCGGAGAGAAATCAAAGAAGAACTTGCAGGCCTGGAAGATGATCAGGATCTTCATCTATACTATTCTCTCATGGAATTCCGCCACAATCTGATGCTCGAATACCTCGAACCGCTGGAATCGCAGCGGATAGAAGAACAGCCGAGACTATCGGAGCTGCTCGCGGATATTGATAAAAAGCAGGCCCGGCTGACCGGACGTCTTGATTATTATTTTAATTTTTTCCGGGGGATGTATGAGCTGGAATGCCGTGAATATCTTTCAGCGATTCAGTTTTTTAAGAAAGCTGAATATAAGCTTGATTTTGTCAAAGATTGTATCGAGAAAGCTGAATTTTATTTTAAGATGTCAGAGTCCTACTATTATATGAAGCAGACTTATTTTTCTATGGATTATGCCCGGCAGGCTTATAAAATTTATCATAAGCAGGAGGCATATAATATAAGGGTGCTTCAGTGCCATTCATTGTTCGCTACCAACTTTCTTGACTTAAAGCAATATGATGAAGCAATTCAGCATTTTAAAAAAGCTTATGCCATGGCAGAGGCAGAACAGCAGCCTCAATTAATGGGCCGGACTCTATATAATATCGGACTTTGTTTTAACAGCCAAGAAAATTACAAACCAGCCATTGACTACATAAAACGAGCAATAGCTGTTTTTGAAGATGGGAACATCATCACTTCTCTCCCGCAAGCCTATTTCTTAATCACACAAATACATTATAAAATCGGAAATACGGCCATAGCCAGACAATATCATGACAAAGGGGTATCTTATGCAGAGGAGGCAGAAGATTCCCTATATATAGTCGAGTATGAATTTTTAGAATCTTTATATGTCGGTGAGCCTGATGAAGAAGCAATCATGGAATGTTTTGACTTTCTCAGAGATAAATTGATGTATGCTGATCTTGAAGATTTTGCCTTAGATGTGGCAAAATATTATCATGAAAGAGAAAATTTCGAGAAGGCTTCCGCATATTTTTTAAAGGTGGAAGAAACAAGACAGCAGATTCAAGGAGGTGTGAAGTTGTATGAAATTGAAGTATAA	MASVLSSSAVGEKINEWYMYIRRFSIPDAEYLRREIKEELAGLEDDQDLHLYYSLMEFRHNLMLEYLEPLESQRIEEQPRLSELLADIDKKQARLTGRLDYYFNFFRGMYELECREYLSAIQFFKKAEYKLDFVKDCIEKAEFYFKMSESYYYMKQTYFSMDYARQAYKIYHKQEAYNIRVLQCHSLFATNFLDLKQYDEAIQHFKKAYAMAEAEQQPQLMGRTLYNIGLCFNSQENYKPAIDYIKRAIAVFEDGNIITSLPQAYFLITQIHYKIGNTAIARQYHDKGVSYAEEAEDSLYIVEYEFLESLYVGEPDEEAIMECFDFLRDKLMYADLEDFALDVAKYYHERENFEKASAYFLKVEETRQQIQGGVKLYEIEV	PGPT0025770_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025770-rapF-K06364	NA	NA
D1-12_02411	429	ywiB	COG4506	putative beta-barrel protein YwiB	ATGAGACAGGAGACACCAGTAGCCATTCATGTGCAATCATTCATACACAACGGCTCAGAAGAAGAGTCGGTTGAATTTACATCGAGTGGATTCTATTACGTGAGAAACGGCAAAACGTATCTTTCCTATCACGAAGAGCATGATTTGGGCAAGATTAAAACGGTCGTCAAGATCACAGAAAAAGAGATTCTCGTGATGAGATCGGGCGCCATCCAAATGAAACAGCGGTTCATTCCGGGGGCATCGACACTCACTCAATATAAACTGCCGTTCGGACAAATGGAGCTCCGTACGGAAACGAAAAACATACAAGCTGATGTCGGCGGTTCGGAAGGCTCCGTCAAAATGACATATAACATGACTGTAGGCGAAAACCAAGAACATGTACATAACATGACGATCCAATATAAGGAGGAAAAAAAGGCATGA	MRQETPVAIHVQSFIHNGSEEESVEFTSSGFYYVRNGKTYLSYHEEHDLGKIKTVVKITEKEILVMRSGAIQMKQRFIPGASTLTQYKLPFGQMELRTETKNIQADVGGSEGSVKMTYNMTVGENQEHVHNMTIQYKEEKKA				NA	NA	NA	NA	NA
D1-12_02412	1671	argS		Arginine--tRNA ligase	ATGAATATTGCGGAACAGATGAAGGACGTGCTGAAGGAAGAGATCAAAGCGGCCGTTCTGAAAGCGGGCCTGGCGGAAGAAAGCCAGATTCCAAGCGTACTGTTAGAAACGCCGAAAGAAAAAACACACGGTGATTATTCCACAAACATGGCGATGCAGCTGGCGAGAATCGCAAAAAAAGCGCCGCGACAAATCGCTGAGGAGATCGTGGCGTCATTTGATAAAGGCAAAGCTTCCATTGAAAAGATGGATATTGCGGGGCCCGGCTTTATCAACTTTTACATGAACAACAGCTACTTAACAAAACTGATTCCGTCCGTGCTTGAAGCGGGTGAACATTACGGAGAGACAAACATCGGACAAGGCGAAAAGATTCAGGTCGAATTCGTATCAGCCAACCCGACGGGAGATCTTCACTTAGGCCATGCGCGCGGCGCGGCGGTAGGTGACGCGCTGTGCAGCGTGCTTTCTAAAGCGGGCTATGATGTGAGCCGCGAATACTATATTAATGATGCGGGCAACCAGATTAACAACCTGGCGCTTTCCGTTGAAGTCCGTTATTTTGAAGCGCTCGGTCTCGAGAAACCGATGCCGGAAGACGGCTACCGCGGCGAGGATATTATCGCCATCGGGAAAAAGCTTGCCGAAGATTTCGGCGACCGTTTCGTACATGAAGAGGAGAGCGAACGTCAGGCGTTTTTCCGTGAATACGGCTTAAAGTACGAGCTTGATAAACTTCGCTCCGACCTGGAAAATTTCCGCGTGCCGTTTGACGTATGGTATTCTGAAACGTCACTGTACGAAAACGGAAAAATTGATCAGGCGCTCGAGGCGCTTCGCGAAAAGGGCCATGTATACGAAGAGGACGGCGCGACATGGTTTCGTTCCACAACGTTCGGCGACGATAAAGACCGTGTGCTGATCAAAAAAGACGGTTCATACACTTATTTGCTGCCGGATATCGCATACCATAAAGACAAACTTGACCGCGGATTCGACAAGCTCATCAATGTATGGGGCGCGGATCACCACGGGTATATTCCGCGTATGAAAGCGGCAATTGAAGCGCTCGGTTACAAGAAAGGCACATTGGAAGTTGAGATCATTCAGCTCGTTCATTTATACAAAAACGGCGAAAAAATGAAGATGAGCAAACGTACGGGGAAAGCCGTAACGATGCGCGACTTGATTGAAGAAGTCGGCTTGGATGCCGTGCGTTATTTCTTCGCGATGCGCAGTGCTGATACGCACATGGATTTTGACTTGGATCTTGCCGTATCCACATCTAACGAAAACCCTGTGTATTATGCGCAATACGCACATGCACGTATTTGCAGCATGCTTCGCCAAGGGGAGGAGCAGGGACTTAAACCGGCGGCAGATCTTGATTTCAGCCATATTCAATCAGAAAAAGAATATGACCTGCTGAAAACGATCGGCGGCTTCCCTGAGGCAGTGGCAGAAGCGGCGGAAAAACGCATTCCTCACCGTGTCACAAACTATATTTATGATCTGGCTTCCGCTCTGCACAGCTTCTACAATGCGGAGAAAGTCATCGATCCGGAAAATAAAGAGAAGAGCCGCGCGCGTCTCGCTTTAATGAAGGCGACGCAAATTACGCTGAACAATGCGCTTCAGCTGATCGGCGTATCCGCTCCGGAAAAAATGTAA	MNIAEQMKDVLKEEIKAAVLKAGLAEESQIPSVLLETPKEKTHGDYSTNMAMQLARIAKKAPRQIAEEIVASFDKGKASIEKMDIAGPGFINFYMNNSYLTKLIPSVLEAGEHYGETNIGQGEKIQVEFVSANPTGDLHLGHARGAAVGDALCSVLSKAGYDVSREYYINDAGNQINNLALSVEVRYFEALGLEKPMPEDGYRGEDIIAIGKKLAEDFGDRFVHEEESERQAFFREYGLKYELDKLRSDLENFRVPFDVWYSETSLYENGKIDQALEALREKGHVYEEDGATWFRSTTFGDDKDRVLIKKDGSYTYLLPDIAYHKDKLDRGFDKLINVWGADHHGYIPRMKAAIEALGYKKGTLEVEIIQLVHLYKNGEKMKMSKRTGKAVTMRDLIEEVGLDAVRYFFAMRSADTHMDFDLDLAVSTSNENPVYYAQYAHARICSMLRQGEEQGLKPAADLDFSHIQSEKEYDLLKTIGGFPEAVAEAAEKRIPHRVTNYIYDLASALHSFYNAEKVIDPENKEKSRARLALMKATQITLNNALQLIGVSAPEKM				NA	NA	NA	NA	NA
D1-12_02413	1191	narT	COG2223	putative nitrate transporter NarT	ATGATCAATCGTCAACATATTCAATTATCGTTGCAGTCATTAAGCTTAGTGGCAGGGTTTATGGTGTGGGTGCTGATTTCATCGCTCATTTCTCAAATGACATCAGATATTCATTTAAGCAAAGGCGAGATCTCATTGGTGACGGCGATTCCCGTTATTCTCGGATCGCTTCTCCGTATTCCTTTAGGATATTTAACGAACAGGTATGGCGCGCGGCTGATGTTTATGATCAGCTTCATCCTGCTTTTGTTTCCTGTATTTTGGATCAGTATCGCGGATTCTTTATTTGATTTAATCGCGGGCGGCTTTTTCTTAGGGATCGGAGGAGCGGTATTCTCCATCGGAGTGACGTCCCTCCCGAAATATTATCCGAAAGAAAAGCACGGTGTCGTCAATGGGATTTACGGTGCCGGAAACATCGGGACCGCCGTTACTACCTTTGCGGCGCCGGTTATCGCTCAAGCCGCGGGATGGAAAGCAACCGTGCAGATGTATCTTGTTTTGCTGGCTGTTTTCGCATTACTGCACGTTTTGTTCGGCGACCGGCATGAGAAGAAAGTCAAAGTTTCCATAAAGACACAAATGAAAGCCGTTTACCGAAATCATGTGCTGTGGATGTTGAGCCTGTTTTATTTTATTACGTTCGGCGCCTTTGTCGCCTTTACCATCTATCTTCCGAATTTTTTGGTTGAGCATTTTGGGCTGAGCCCTGCGGACGCCGGTTTACGGACGGCCGGCTTTATTGCGGTCTCTACACTGCTCAGGCCTGTGGGAGGGTTTCTTGCAGATAAATTGAGTCCGCTCCGTATTCTGATGTTCGTTTTCGCAGGGCTTACGCTGTCAGGCGTCATGCTGTCATTCTCCCCGACGATCGGCCTTTATGCGTTTGGATCGCTGACAGTGGCAGTCTGCTCAGGGATTGGAAACGGGACGGTATTTAAACTGGTGCCTTTCTACTTTTCGAAGCAAGCGGGGATTGCCAACGGTATTGTGTCAGCTATGGGCGGACTGGGCGGTTTTTTCCCTCCGCTGATTCTGGCAAGTGTATTTCAGGCAACAGGCCAATACGCGATCGGGTTTATGGCGCTTTCAGAGGTCGCGTTAGCCAGCTTTGTTCTTGTGATCTGGATGTATTGGCAGGAAAAAATGAAAACACATACGGAGAGAAACAGTCAGAGTCTCAATTCATAA	MINRQHIQLSLQSLSLVAGFMVWVLISSLISQMTSDIHLSKGEISLVTAIPVILGSLLRIPLGYLTNRYGARLMFMISFILLLFPVFWISIADSLFDLIAGGFFLGIGGAVFSIGVTSLPKYYPKEKHGVVNGIYGAGNIGTAVTTFAAPVIAQAAGWKATVQMYLVLLAVFALLHVLFGDRHEKKVKVSIKTQMKAVYRNHVLWMLSLFYFITFGAFVAFTIYLPNFLVEHFGLSPADAGLRTAGFIAVSTLLRPVGGFLADKLSPLRILMFVFAGLTLSGVMLSFSPTIGLYAFGSLTVAVCSGIGNGTVFKLVPFYFSKQAGIANGIVSAMGGLGGFFPPLILASVFQATGQYAIGFMALSEVALASFVLVIWMYWQEKMKTHTERNSQSLNS	PGPT0000300_3918	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
D1-12_02414	717	fnr	COG0664	Anaerobic regulatory protein	ATGAATATTCTCTCTGTCCGAAAATCTGATAAAGAACTTCTTTCCCGCGAACTGCATGAATTGCTGGAATCGATCAGTACGAAAAGGAAAATGAAAAAACACACTTATTTGTTTCAAGAAGGAATGGATGCAAAAGAGCTTTATCTGATTCAATCAGGACTCATTGAAATCGGCAAGCTGACGTCTGACGGAAAAGACCTGACGCTTAGAATCTGCCAAAAACACGATATTGTCGGGGAATTGACGCTATTCACAGATGAGCCGAGATATATGCTCAGTGCGAAAGTGTTAGAGGATGGCGAGGTGCTCGTCATTAATAAAAACAAGCTGGAAAAGGAATTGATCCAAAACGGTGTTTTGACGTTTGAATTTATGAAATGGATGAGCACCCATCTTCGAAAAATCCAGTCCAAAATCAGGGACCTGCTTCTTCACGGTAAAAAGGGGGCGCTCTATTCCACCCTTATCCGCTTATCAAACAGCTACGGGGTGGAACGAAGCGACGGGATTCTGATTAACATTGTGCTGACAAATCAGGATTTGGCTAAGTTTTGCGCGGCGGCAAGGGAGAGCGTCAACCGCATGCTGGGAGACCTCCGCAAACAAGGGGTTATTTCGATAGACGAAACCGGAAAAATTATTTTGCACAAGCGGGACTATTTACGATGCGAGATCGAGTGTGAAAATTGTCCGCTTGAGATCTGCAATATTGACTGA	MNILSVRKSDKELLSRELHELLESISTKRKMKKHTYLFQEGMDAKELYLIQSGLIEIGKLTSDGKDLTLRICQKHDIVGELTLFTDEPRYMLSAKVLEDGEVLVINKNKLEKELIQNGVLTFEFMKWMSTHLRKIQSKIRDLLLHGKKGALYSTLIRLSNSYGVERSDGILINIVLTNQDLAKFCAAARESVNRMLGDLRKQGVISIDETGKIILHKRDYLRCEIECENCPLEICNID	PGPT0015075_1190	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
D1-12_02415	720			hypothetical protein	ATGAAGGCGATGATTCCGAAGCAGCACGGCGCATGGGCGATGCTGCTGATTCCATTTTTACTCGGCATGGTCAAGGGAGGCCCGGTTTTCTGGCATATTCCGCTCTTTCTGGGCTGGCTTTTCCTATACTTAGCGGTTTATCCCGTTTCGCTCGCTTTGAAAAAGAAACAGCTTCAGCCTTATCAAAAGTGGATATGGTATTACGGTTTTCCCGCCTGCTGCTTTTTGATCATTTCTGTCTTTCATAAGCCGCAGCTCGTCTGGATCGGCGTTTTTTTATTGCCGCTGTTTCTCATACATACGCATTATGCCCGCCGAAAAAACGAGCGGGCGCTCACGAATGATATTGCGGGTGTTCTGTTCTTTTGTTCAGGCGGGCTTGCGAGCTGCTGGCTGGGAACGGGAACCCTTGACGGCTGGGCTTGGTTTATTTTCTTGCAGTCTACTTTATTTTTTATCGGGAGTTCTTTTTATGTGAAGTCGGTCATACGGGAGAGAAAAAACAGAACCTTTGCATACTGGTCATGGGGATATCACCTCTTGCTCCCCTTTTTATCGGCTCTTCTCGGGGCAGGCTGGGCGTTTCTCGCTTTTATCCCAAGCAGTCTGCGGGCCTGGTTTTTTCACGGAAGAGACTGGCCCGTGAAAACGATCGGCATTCTGGAAATCGTAAATGCCGGCTTCTTTTTCGCCGTCATGTGTGTATGTATCACAAGCTGA	MKAMIPKQHGAWAMLLIPFLLGMVKGGPVFWHIPLFLGWLFLYLAVYPVSLALKKKQLQPYQKWIWYYGFPACCFLIISVFHKPQLVWIGVFLLPLFLIHTHYARRKNERALTNDIAGVLFFCSGGLASCWLGTGTLDGWAWFIFLQSTLFFIGSSFYVKSVIRERKNRTFAYWSWGYHLLLPFLSALLGAGWAFLAFIPSSLRAWFFHGRDWPVKTIGILEIVNAGFFFAVMCVCITS				NA	NA	NA	NA	NA
D1-12_02416	477	arfM		putative transcription regulator ArfM	ATGAATCAGTGTGACTATTTATTGTTTCTGAAACAACTTCCTATGTTTAATGAAGTGCCTCTGTCCATTGTCGAAACTTTGCTGAAAAACGGGACGTTTATCCGCGGCTCATCTGACCAATCTCCATCCTTTCTTCATTCACAATCCGTTTATATTGTATTAAAAGGCAATATCCGTTTTACGGACAGCAGGCTCCCTGAAGGGTCGCAAACCGTTGCGCTGTGGGAGAAAGGCGATGTGTTTCCGATTGATGAAAAAGGCGGGCTCTATTTATCGCCTTTTATCTCAGTCAATGCCTCACCGGATATTCTGGTACTCCATATTCCATATTCCATATTTAAGCAAATGATGTCTTACCATCCGCGGCTGCAAATGAACTTTTTGGCGATGCTTCAGCAAAATGTCTTCTGTTCCTATCAGTTGTTTTTGCGGTATCTGCATACATCACGGGATGAAAACGCTGAACCCGGTTCTTAA	MNQCDYLLFLKQLPMFNEVPLSIVETLLKNGTFIRGSSDQSPSFLHSQSVYIVLKGNIRFTDSRLPEGSQTVALWEKGDVFPIDEKGGLYLSPFISVNASPDILVLHIPYSIFKQMMSYHPRLQMNFLAMLQQNVFCSYQLFLRYLHTSRDENAEPGS				NA	NA	NA	NA	NA
D1-12_02417	3687	narG	COG5013	Respiratory nitrate reductase 1 alpha chain	ATGAAGAAAAAGAAAATGAGTCCGTTGCTCAGGAGATTAAACTATTTTTCTCCTATCGAACATCATTCAAATAACCATAGCCAAACGACAAGCGAAGATCGTGATTGGGAGAATGTATACAGAAACAGATGGCAGTACGACAAAGTCGTTCGCTCCACCCACGGCGTCAACTGCACGGGTTCTTGCAGCTGGAATATTTATGTGAAAAACGGAATTGTCACGTGGGAAGGACAAAACTTGAATTATCCATCAACAGGCCCTGATATGCCTGATTTCGAACCGAGAGGCTGTCCGCGGGGGGCCAGTTTTTCTTGGTACATCTACAGCCCGCTCCGTGTGAAATATCCATATGTGCGCGGTGTGCTGATCAATTTGTGGCGGGAAGCATTGCAGGCGCATCAAAATCCGCTGGATGCCTGGAAATCGATCGTTGAAAATCCTGAAAAAGCGAAGTCCTATAAACAGGCAAGAGGGAAAGGCGGCTTTGTCCGCGCGGAATGGCCGGAAGTGCTGAAGCTGATTTCAGCCTCTCTGCTGTATACGGTGATGAAATACGGGCCTGACCGGAATGTCGGTTTTTCCCCGATCCCGGCGATGTCCATGATCAGCCATGCGTCAGGCTCGCGATTCATGTCTTTAATCGGCGGCCCAATGCTCAGTTTTTATGACTGGTATGCGGATCTTCCGCCGGCGTCCCCGCAAATTTGGGGCGACCAGACGGACGTTCCGGAGAGCAGTGATTGGTACAATTCAGGCTATATCATCACATGGGGCTCCAACGTTCCGTTAACGAGAACGCCTGATGCGCATTTTCTGGCGGAAGCCCGCTATAAAGGCGCCAAGGTCATTTCAATCAGCCCGGATTTTGCGGAATCCTCAAAGTTCGCAGATGACTGGCTGAGTATCCGCCAAGGGACTGACGGGGCGCTTGCGATGGCGATGGGTCACGTCATTTTGCAGGAATTTTACGTGAACCAAGAAACTGAACGTTTTATTGAGTACGCGAAGCAATACACCGATTTTCCATTCTTCGTCACTCTGTCAAAAGAGAACGGCGTGTATACAGCCGGGCGGTTTCTGCATGCGAAAGACATCGGGCGGCAGACAAAAAATGATCAGTGGAAGCCGGCGGTCTGGAATGAACAGACAGGTGCGTTTGCCATACCGCAAGGCACAATGGGCTCCCGCTGGGACGGGCAGCAGAAATGGAATCTGCACATGATCGACGAAGACACCGGGGAACAGATTGAGCCGCGTCTCTCCGTGCTCGGAATAGAGGACGAAATCGGCTCAGTGCGCATTCCGTATTTTTCAAATGACGGAAACAAAGTGCTTGAGCGGAATCTTCCTATTAAAAAAATGAACCTGAACGGTGAAGAAACGTACATCACGACCGTGTTTGACTTGATACTGGCTAACTACGGCGTGAACCGGGGCATCGGCGAACGATCGGCTGTCTCCTATGATGATCCTGAGCCGTTTACGCCTGCCTGGCAGGAACAAATGACAGGAATCAAAAAAGAAGCTGTCGTTAAGATTGCCAGAGAGTTTGCCCAAAATGCGATCGATACAGACGGCCGGTCCATGATTATCGTAGGGGCCGGCATTAACCACTGGTTCAACTCCGACACGATTTACCGTGCGGTGTTAAATCTTGTTTTACTCGTAGGCGCCCAAGGCGTAAACGGCGGAGGCTGGGCCCATTACGTGGGGCAGGAAAAGCTCCGTCCGGCTGAAGGGTGGCAGACGATTGCAACCGCAAAGGACTGGGAAGGCGTGCCTAAACTGCAAAACGGCACCTCATTTTTCTACTTTGCGACAGATCAGTGGCGTTATGAGGACCAGCCGATCAGTGACTTGGCTTCACCGATCGCCGCGTCATCCCGCTACAAGCATCACGCCGATTACAATGTGCTGGCGGCGCGATTAGGGTGGCTTCCGTCTTACCCGACATTCAATCAAAACGGCATTGATCTGTACAAAGAAGCTGAGAAGGCGGGGGCGGCGACACCTGAAGACGTAGGTGCGTACGTGGCCTCACGGCTTCAAGAGAAAAAACTGAAATTCGCGATTGAAGATCCCGACAATGAAGTGAATTTCCCAAGAAATCTCTTCGTATGGCGGGCAAATCTGATCTCAAGCTCAGGAAAAGGGCATGAATATTTTCTCAAGCATTTGCTGGGGACGACAAACGGCTTGATGAATGACGACAGCGACAGCATCCGCCCTGAAGAAATCAAATGGCGGGAGCAGGCGCCGGAAGGCAAGCTCGACTTGTTAATCAATCTCGACTTTCGAATGGCGGGTACGGCGCTGTATTCCGATATCGTGCTGCCGGCGGCGACATGGTATGAAAAACACGATCTCAGCAGCACGGATATGCACCCGTTCATTCATCCTTTCGCTCCGGCCATCTCGGCGCCGTGGGAATCGAGATCAGACTGGGATATTTTTAAAGCACTGTCAAAAGCCGTTTCCGATCTGGCGGAAGAAGTCGAGATGGAGCCGGTGAAAGAAGTGGTTGCGACGCCGCTCCTCCATGACACGATGCAGGAATTGGCCCAGCCGTTCGGCAAAATCAATGACTGGAGCAAGGGCGAATGTGAAGCCATTCCGGGAAAAACGATGCCGAACATCCATGTCGTTGAACGGGATTACAAACACATTTTTCATAAAATGACCGCGCTCGGCCCTCATACGGCTTTAAAACCGAGCGGAACAAAAGGGATGAGCTGGTCGATTGCGGATGAATATGAATCACTCAAACAGAGACTGGGAGAAACCGATTCAAACAGCGTTGCCAAAGGATGCCCGAATATAAGTGAAGCGAAGCAGGCGGCGGAAGCGATTTTAACCCTGTCGTCCACCTCAAATGGAAAAGTCGCCGTGAAAGCATGGGAATCGCTTGAAAACATCACAAACCTGAAGCTGAAAGACCTGGCGGAAGAGCGCGAGGAAGAATGCTTTACGTTCGAGCAAATTACAGCCCAGCCGAAAACGGTCATCACCTCTCCGGCCTTTACCGGTTCAGAAAAAGGAGGGCGCAGGTATTCGCCGTTTACGACGAATGTGGAAAAATTAATTCCGTGGCGGACGCTGACCGGCAGACAATCCTATTATGTCGATCATGAACTGATGATGGAATTCGGTGAAACGATGGCGACATTTAAACCGATCCTTCAGCATCGTCCGTTCCTAAGCAAACGGCCTGATCAAGAGGGCAAAGAAATCGTCCTTAATTATTTGACGCCGCATAATAAATGGTCCGTCCACAGCATGTATTTTGATTCTCTGCCGATGCTGACGCTGTTCCGCGGCGGGCCGACCGTGTGGATGAATAAAGATGACGCAGAGGACACGGATATCAAAGACAACGATTGGATTGAATGCTTCAACCGAAACGGCGTTGTCGTCGCGAGAGCGGTTTTGTCTCATCGGATTCCTAAAGGAATGGCGTTTATGCACCATGCCCAGGACCGCCACATCAATGTGCCCGGCACAAAACTGACGAATAACCGCGGAGGCACCCATAACAGCCCGACAAGGATTCACGTCAAGCCGACACAGATGATCGGTGGCTACGCCCAGCTCAGCTACGGCTTTAACTATTACGGACCAACGGGGAATCAGCGCGACCTGAACGTCGTTATCCGTAAGCTGAAGGAGGTCGATTGGCTTGAAGATTAA	MKKKKMSPLLRRLNYFSPIEHHSNNHSQTTSEDRDWENVYRNRWQYDKVVRSTHGVNCTGSCSWNIYVKNGIVTWEGQNLNYPSTGPDMPDFEPRGCPRGASFSWYIYSPLRVKYPYVRGVLINLWREALQAHQNPLDAWKSIVENPEKAKSYKQARGKGGFVRAEWPEVLKLISASLLYTVMKYGPDRNVGFSPIPAMSMISHASGSRFMSLIGGPMLSFYDWYADLPPASPQIWGDQTDVPESSDWYNSGYIITWGSNVPLTRTPDAHFLAEARYKGAKVISISPDFAESSKFADDWLSIRQGTDGALAMAMGHVILQEFYVNQETERFIEYAKQYTDFPFFVTLSKENGVYTAGRFLHAKDIGRQTKNDQWKPAVWNEQTGAFAIPQGTMGSRWDGQQKWNLHMIDEDTGEQIEPRLSVLGIEDEIGSVRIPYFSNDGNKVLERNLPIKKMNLNGEETYITTVFDLILANYGVNRGIGERSAVSYDDPEPFTPAWQEQMTGIKKEAVVKIAREFAQNAIDTDGRSMIIVGAGINHWFNSDTIYRAVLNLVLLVGAQGVNGGGWAHYVGQEKLRPAEGWQTIATAKDWEGVPKLQNGTSFFYFATDQWRYEDQPISDLASPIAASSRYKHHADYNVLAARLGWLPSYPTFNQNGIDLYKEAEKAGAATPEDVGAYVASRLQEKKLKFAIEDPDNEVNFPRNLFVWRANLISSSGKGHEYFLKHLLGTTNGLMNDDSDSIRPEEIKWREQAPEGKLDLLINLDFRMAGTALYSDIVLPAATWYEKHDLSSTDMHPFIHPFAPAISAPWESRSDWDIFKALSKAVSDLAEEVEMEPVKEVVATPLLHDTMQELAQPFGKINDWSKGECEAIPGKTMPNIHVVERDYKHIFHKMTALGPHTALKPSGTKGMSWSIADEYESLKQRLGETDSNSVAKGCPNISEAKQAAEAILTLSSTSNGKVAVKAWESLENITNLKLKDLAEEREEECFTFEQITAQPKTVITSPAFTGSEKGGRRYSPFTTNVEKLIPWRTLTGRQSYYVDHELMMEFGETMATFKPILQHRPFLSKRPDQEGKEIVLNYLTPHNKWSVHSMYFDSLPMLTLFRGGPTVWMNKDDAEDTDIKDNDWIECFNRNGVVVARAVLSHRIPKGMAFMHHAQDRHINVPGTKLTNNRGGTHNSPTRIHVKPTQMIGGYAQLSYGFNYYGPTGNQRDLNVVIRKLKEVDWLED	PGPT0000285_1173	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000285-narG|narZ|nxrA-K00370	NA	NA
D1-12_02418	1464	narH	COG1140	Respiratory nitrate reductase 1 beta chain	TTGAAGATTAAAGCGCAAATCGGGATGGTCATGAACTTGGATAAATGCATCGGCTGCCACACGTGCAGCGTCACCTGCAAAAACACGTGGACAAACCGTTCCGGTGCGGAATATATGTACTTCAATAATGTAGAAACAAAGCCTGGCATCGGCTACCCGAAGCAATGGGAGGACCAGGACAAATATAAAGGCGGCTGGACGTTGAAAAAAGGAAAGCTCGAGCTGAAATCAGGCCCGAAAACAAACCGGCTTGCAGGCCTTTTCTATAACCCGAACCAGCCGACGATTGATGACTACTATGAACCTTGGAACTATGATTATGAAACATTAACAAACAGCCCGCAGAAAAAACACCAGCCGGTGGCGCGCCCGAAATCGTCCTTAACGGGGGATTTTATGAATATCGAATGGGGCCCGAACTGGGAGGATGATCTCGCGGGCGGGCATATTACGGGTCTTGAAGATCCAAACGTGCAAAAGATGGAGGAATCGATCAAAACAGAATTCGATGAGGTCTTTATGATGTATCTGCCGCGTATTTGCGAGCACTGCATCAATCCGGCGTGCGTGTCCTCCTGCCCGTCCGGCGCCATGTACAAACGCGAGGAGGACGGCATTGTGCTTGTGGATCAAAACGCATGCCGTTCATGGAGATATTGCGTCTCATCCTGTCCTTATAAAAAAGTCTATTTTAACTGGCAAACGAACAAAGCGGAAAAATGCACACTCTGCTTTCCGCGCTTGGAGGCGGGGCTGCCGACCATCTGCTCCGAAACGTGTGTCGGCAGAATCCGCTATCTCGGCGTCATGCTGTATGACGCGGACAAAGTGGAGGAAGCGGCATCGGTTGAAAATGAAAAGGATCTCTACCATTCCCAATTAGACGTTTTTCTTGATCCGAATGATCCTGAGATTGCCAAACTGGCAAAAGAACAAGGCATCCCGGCTGAATGGATAGAGGCGGCGCAGCAATCGCCGATCTACAAAATGATCATCGACTGGAAGATTGCGCTTCCGCTTCACCCTGAGTACCGTACGCTGCCGATGGTTTGGTACATTCCGCCGCTCAGCCCGATTATGAATCTCTTTGAAGGAAAAGGAAGCCGGCAAACGGCGGAAGCGATTTTTCCGGCTATCGACCAAATGAGAATTCCGATTGACTATTTGGCGCAGCTGTTAACGGCGGGGGATACGGATCATATTCGATCCACGTTAAAGAAAATGTCTGTCATGCGCCAGTATATGAGAGCGATCCAGACGAATAAATCAATCGACCCGGAACTGATCTCCAGTGTCGGCTTAACAGAACAGCAAATTAAAGACATGTATCGGCTGCTGGCAATCGCCAAATATGATGACCGTTTTGTGATCCCGAGCAGCCATCGAGAAGAAGTGTCAGATTTATATGCTGAACAAGGGAGCTGCGGCTTATCATTTTCAGGCGGCCCGGGCTCTTGTTTCTAA	MKIKAQIGMVMNLDKCIGCHTCSVTCKNTWTNRSGAEYMYFNNVETKPGIGYPKQWEDQDKYKGGWTLKKGKLELKSGPKTNRLAGLFYNPNQPTIDDYYEPWNYDYETLTNSPQKKHQPVARPKSSLTGDFMNIEWGPNWEDDLAGGHITGLEDPNVQKMEESIKTEFDEVFMMYLPRICEHCINPACVSSCPSGAMYKREEDGIVLVDQNACRSWRYCVSSCPYKKVYFNWQTNKAEKCTLCFPRLEAGLPTICSETCVGRIRYLGVMLYDADKVEEAASVENEKDLYHSQLDVFLDPNDPEIAKLAKEQGIPAEWIEAAQQSPIYKMIIDWKIALPLHPEYRTLPMVWYIPPLSPIMNLFEGKGSRQTAEAIFPAIDQMRIPIDYLAQLLTAGDTDHIRSTLKKMSVMRQYMRAIQTNKSIDPELISSVGLTEQQIKDMYRLLAIAKYDDRFVIPSSHREEVSDLYAEQGSCGLSFSGGPGSCF	PGPT0000500_1324	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000500-narH|narY|nxrB-K00371	NA	NA
D1-12_02419	558			hypothetical protein	ATGAACACCACAGACCGGCAAATGACGTTCTCCGCTCTTTCCGTTCTTCTCTCTTATCCGGATGAAGAGTGGAGAGCCGAGATTCCCGATTGGAAGGCTCTTATCCATGACATCACCAATCAGCAAATCCGGGAGAAATTGCTGCACTTTTTAGAGGCGGCAGCCGGCTTTTCTCCGCAAGCGCTGATTGAACACTATGTGTATACGTTCGATTTCGGAAAGAAAACGAATATGTACGTCACCTACTTTAACTCAGGCGAACAAAGGGAACGCGGCATTGAATTGCTGCATTTAAAAAACATCTACCAGCAATCCGGTTTCCTGCCGACAGAGAAAGAACTGCCTGATTACCTGCCGCTGATGCTGGAATTCGCCGCGGTTGCGGAGATTGAAGCGGCGAGAAGCGTGTTTGAGAAATACCTGTCCAATGTGAGGGAGCTGGCTTCCCGCCTCGAAAAAAATAACAGCATCTATGCTGAGCTGCTGCACGTGCTGCAGGCCGCACTGGAAAACATCGGTGTACATGCAAGCACTGAAGAAGGGGCTGTTCAGGCATGA	MNTTDRQMTFSALSVLLSYPDEEWRAEIPDWKALIHDITNQQIREKLLHFLEAAAGFSPQALIEHYVYTFDFGKKTNMYVTYFNSGEQRERGIELLHLKNIYQQSGFLPTEKELPDYLPLMLEFAAVAEIEAARSVFEKYLSNVRELASRLEKNNSIYAELLHVLQAALENIGVHASTEEGAVQA	PGPT0000510_1263	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373	NA	NA
D1-12_02420	672	narX	COG2180	Nitrate reductase-like protein NarX	ATGAGCGGGCAGATCCTGTGGGGCGTTATGCCATACATTGTATTGACGATCTTTATCGGCGGGCATATTTACCGCTATCAGCATGACCAATTCGGCTGGACGGCGAAATCAAGCGAGCTGTTAGAAAAGAAAAAACTCGCGGCTGGCAGCACACTTTTTCATTGGGGACTGCTGTGCGTTGTCGGCGGACATGTCATGGGAATTCTGATCCCGGAAGGCGTGTATGCTTCCCTTGGCATTTCCGAGCATATGTATCACAAAATGGCGATCGGCGCAGGCCTGCCGGCGGGGATTGCTGCATGTGCCGGACTTGTCATCCTGACGTACAGAAGGCTGTTTGACAAAAGAATCCGCAAAACCAGCTCGCCATCGGATATCCTGACGCTTATTCTGCTGCTGTTCATGATGCTGTCGGGCGTTGCGGCCACGTTCCTCAACATTGACTCGAAAGGATTTGATTACAGGGCAACAGTCGGGCCGTGGTTCAGGGAAATTGTTTTGTTCCGGCCTGACGCTTCTTTGATGGAAAGTGTCCCGCTATGGTTTAAGTTTCATATCATCATAGGGTACGTCGTTTTTATCCTCTGGCCGTTTACAAGACTGGTTCACGTGTTCAGCCTGCCGCTCAAGTATTTGACCCGCAGCTATGTTGTCTATCGGAAACGCACGTAA	MSGQILWGVMPYIVLTIFIGGHIYRYQHDQFGWTAKSSELLEKKKLAAGSTLFHWGLLCVVGGHVMGILIPEGVYASLGISEHMYHKMAIGAGLPAGIAACAGLVILTYRRLFDKRIRKTSSPSDILTLILLLFMMLSGVAATFLNIDSKGFDYRATVGPWFREIVLFRPDASLMESVPLWFKFHIIIGYVVFILWPFTRLVHVFSLPLKYLTRSYVVYRKRT	PGPT0000505_1443	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000505-narI|narV-K00374	NA	NA
D1-12_02421	630			hypothetical protein	ATGAAGCGGATTTTCCTCATTTTAGCCGCCTGTCTGATGACAAGCGCCGGCGTCCTGACACTCAGACATTCCCATGTATTAACCGGCGGCACAGCGGGACTGTCACTAAGCCTGTCATACGTGTTTCATTCCTCGTTTGCGATGATCTTCTTTCTGATCAATATCCCGTTTTATATATTTTCTCTCATCAGAATGGGAATCAATTTCACTCTATCCACCGTTTTTGCAGTCACAGCGCTGACTCTGTTTACCGGTGCGGATCACTGGCTGCCGCCGGTTTCTGTTTCACCGCTTGCCGGGGCGGTTTGCGGCGGGGCGCTGATCGGGTTCGGCCTGTCGCTCATGTTTTATCATCAGGCATCGCTCGGCGGCGCCAATATCCTCGCTTTATTTCTGCAAAAGCGCTGCGGATGGAATCCGGGTGCCGTTAATTTCCTCTTCGATTTTGGCGTCGTGCTGGCCGGCATTTTTTCCGTCGGGTTGCTGAAAGGGCTCTTCTCCTTAGTGTCGATAGCGGTCACCGGTCTGATCATCGGCATCTTCAAAAATAAAATCAAAGGCAGCTGCTCGCTTAATCCGGCATTGCTTCAGAACATCACACCCGGCCAATCACAGGAAGCGTCATCATAA	MKRIFLILAACLMTSAGVLTLRHSHVLTGGTAGLSLSLSYVFHSSFAMIFFLINIPFYIFSLIRMGINFTLSTVFAVTALTLFTGADHWLPPVSVSPLAGAVCGGALIGFGLSLMFYHQASLGGANILALFLQKRCGWNPGAVNFLFDFGVVLAGIFSVGLLKGLFSLVSIAVTGLIIGIFKNKIKGSCSLNPALLQNITPGQSQEASS				NA	NA	NA	NA	NA
D1-12_02422	1503	ywiE	COG1502	putative cardiolipin synthase YwiE	ATGCTGAAAAGGAGACTGGAATTTTGCTTTTTATATATGATGCTTATCGGAGCATATGTCATATGGTTTTTTCCGGTTTCCAGGCTTGAGTTTTACGGAGGAGTGCTTTGCTATGCAAGCATTATTTTGTTCAGCATCTATTCGTTAATTCTTGAAAACCGCACCTCGCAGCACACGCTGTTATGGATTTATATTCTTGTGTTTTTTCCGATCGCCGGGTACTTATTTTACCTTTTTTCCGGCCAGCTTTATGAAAAAGGCAAGCTGTTCAGGTCGAAACGGACATACAACCGGGAAAAGCTGAGAACGATATTTGATATGGAACAAACTCCCGATCTGTCCGGGCTGAAAGGAAATCAGAAGCGTTTCTTTCAATATTCAATCAAGGCGTCCCATATGAATATCAATACAAAAAGCAGGCTGAAGGTGCTCAAAAACGGGGAAGAAACATTTCCGGAGCTGTTTGAGGCGCTCCGGGAGGCCGCGTCATTTATACATATTGAGTATTACATGTTCAAATCAGACATGCTCGGGCACAAGATGATGGACATTATGATGGAAAAGGCGCGTCAAGGCGTGGAAGTGCGGTTTTTGTTCGACGCGGCCGGCAGCCTGAAGCTGGCCGGAAAAGATATTAAAAAACTGAAACGCGCGGGCGTGAACATCGTCCCGTTTCTGCCGCTGAAATACGGTTTTTTCAACCAAAAATTCAATTTCAGAAATCACCGCAAGATCGTCATCGTTGACGGGAAAGTCGGTTTTGTCGGCGGGCTGAATGTCGGCAAGGAGTATATCGGCAAAGACCAAGATGTCGGCTTTTGGCGGGACACCCATATGAAAGTCGAAGGAGAAATCGTTCAGACGCTCCACAGCATTTTTATGCTTGATTGGGAATACGTTTCAGATGAGGTGCTGATTGATCAGAAAGCATATACCCGCCCGGTTGCGGCAGAAAGCGGCGGCGTCTATCAAGTCGTTCCGACAGGCCCCGATATGAAGGAGCGGATGAGCGATCTGTATTACGCCATGATAGCGGCGGCCGAATCGTCTGTATGGATCGCGACGCCTTATTTCGTGCCGAATGAGCCGATCCGCACAGCGCTAAAGGAGGCTGCTGCCAGAGGCGTCCGGGTGCGTGTCATGGTGCCGGAAACCAATGACGGGTTTTTAACCCAGTACGCGACGAGATCGTATTTCCCCGAGCTTCTTCGCGAAGGAATCGAAGTCTATTCTTATCAAAAAGGCTTTATGCATCAAAAGGTGCTCATCACTGACGGAAACCTCGCCTCTGTCGGGACAGCGAATATGGACATGAGAAGTTTTCAGCTGAACTTTGAAGTCAATGTCTTTTTTACAGATCAAGAGGCGATCAAAGATCTTGAAGCGCATTATCTGGAGGATATGAAGGAGTCTGAAAAAATCAGCCCCGTCCGTTTCTATAAGCGCACATTATGGGAAAGAACGAAGGAATCCTTCGCACGGTTATTTTCCGGCGTTTTATAA	MLKRRLEFCFLYMMLIGAYVIWFFPVSRLEFYGGVLCYASIILFSIYSLILENRTSQHTLLWIYILVFFPIAGYLFYLFSGQLYEKGKLFRSKRTYNREKLRTIFDMEQTPDLSGLKGNQKRFFQYSIKASHMNINTKSRLKVLKNGEETFPELFEALREAASFIHIEYYMFKSDMLGHKMMDIMMEKARQGVEVRFLFDAAGSLKLAGKDIKKLKRAGVNIVPFLPLKYGFFNQKFNFRNHRKIVIVDGKVGFVGGLNVGKEYIGKDQDVGFWRDTHMKVEGEIVQTLHSIFMLDWEYVSDEVLIDQKAYTRPVAAESGGVYQVVPTGPDMKERMSDLYYAMIAAAESSVWIATPYFVPNEPIRTALKEAAARGVRVRVMVPETNDGFLTQYATRSYFPELLREGIEVYSYQKGFMHQKVLITDGNLASVGTANMDMRSFQLNFEVNVFFTDQEAIKDLEAHYLEDMKESEKISPVRFYKRTLWERTKESFARLFSGVL	PGPT0007725_199	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
D1-12_02423	1728		COG1132	Putative multidrug export ATP-binding/permease protein	GTGCTGCGACAATTTTTTTCTTATTATAAACCGTACAAGAAGCTGTTTTTTCTCGACTTCTTTTCTGCCATCGCCGGCGGATTGATGGAGCTGAGTTTTCCTCTGATCGTCAATTACTTTATCGATACATTGCTCCCGGGGCGGGATTGGAGTCTGATTATTTTGACTTCCGCTGCTTTATTCGGGGTGTACGCCCTCAGCTCGGCGCTTCAGTATGTTGTGACGTATTGGGGCCATATGCTCGGCATTAACATTGAAACCGATATGCGGAAAAAGCTTTTTGACCATCTGCAAAAGCTTTCGTTCAAATTTTACGATAACAACAAAACGGGCAGTTTAATGTCCAAGCTCACCAATGATTTGATGTATATCGGAGAAACCGCCCACCACGGGCCTGAAGACCTGTTTATCGCGATCATGACGATTTTGGGCGCGTTCGGTGTGATGCTGTTCATTAACTGGCAGCTCGCGCTGTTGACCTTTATCATTATGCCGGTCGTCATATGGCTTGCTTTGTATTTTAATAAAAAAATGACTTCGGCGTTTACAAAACTGAACAAAGACGTCGGAGACTTCAGCGCGAGGGTTGAAAACAATATCGGCGGCATCCGTCTTGTTCAGGCTTTCAGCAATGAAGCGTTTGAAACGCAGCGGTTTGACGTGAACAATCAGCGTTTCCGCAAAACAAAGCTGACGTCTTATAAAATCATGGCGAAAAATGGCTCGATCAGTTACATGCTGACAAGATTCGTCACGCTGTTCGTCCTGTTATGCGGGACATGGTTCGTGATCCGCGGATCGCTATCTTACGGGGAATTTGTCGCTTTTGTGCTGCTGACGAACGTTCTGTTCCGTCCGATTGATAAAATCAACGCGATTATTGAGATGTATCCGAGAGGCATTGCCGGTTTTAAAAGCTTTATAGGAATACTGGAAACGGAGCCTGATATCAAGGACGCCCCGAACGCGAGACATGTGTCCGGTTTAAAAGGGAATATCCGTTATGATCGTGTGTCATTCGGTTACGAAGAAAACAGTCCGGTTCTGTCGGGAATCAATTTGTCCATTCATGCCGGGGAGACAGTCGCATTCGTCGGGCCTTCGGGAGCGGGAAAATCAACGCTGACAAGTCTGCTGCCGCGCTTTTATGAGCCGTCTGAAGGCGTGATTTCCATCGACGGAATCGATATTAAAGACATGACGCTGTCATCATTGCGCGGACAAATCGGCGTCGTCCAGCAGGATGTCTTTCTGTTTTCCGGCACATTGCGGGAAAACATTGCTTACGGGCGGCTGGACGCGTCTGAGGAAGAAATCTGGCAGGCCGTCCGCCAGGCGCATTTAGAGGATTTGGTAAACGGGTATCCCGACGGTTTAAACACGGTGATCGGCGAGCGCGGCGTGAAACTGTCAGGCGGGCAGAAGCAGCGGCTTTCCATCGCCAGAATGTTTTTGAAAAACCCGTCGATCTTAATTTTAGACGAGGCTACATCGGCCCTCGATACAGAAACGGAAGCCGCCATCCAAAAATCGCTGCAAGAGCTGTCTGAAGGACGCACAACGCTTGTGATCGCCCATCGGCTGGCTACGATTAAGGATGCGAACCGGATCGTCGTCGTCACGAAAGAAGGCATCGCTGAACAAGGGCATCATAAGGAACTGCTGGAATCCGGCGGCATGTACCAGAGACTTCATCAGGCGCAATTCGGCGAGCTGATACATCAATAA	MLRQFFSYYKPYKKLFFLDFFSAIAGGLMELSFPLIVNYFIDTLLPGRDWSLIILTSAALFGVYALSSALQYVVTYWGHMLGINIETDMRKKLFDHLQKLSFKFYDNNKTGSLMSKLTNDLMYIGETAHHGPEDLFIAIMTILGAFGVMLFINWQLALLTFIIMPVVIWLALYFNKKMTSAFTKLNKDVGDFSARVENNIGGIRLVQAFSNEAFETQRFDVNNQRFRKTKLTSYKIMAKNGSISYMLTRFVTLFVLLCGTWFVIRGSLSYGEFVAFVLLTNVLFRPIDKINAIIEMYPRGIAGFKSFIGILETEPDIKDAPNARHVSGLKGNIRYDRVSFGYEENSPVLSGINLSIHAGETVAFVGPSGAGKSTLTSLLPRFYEPSEGVISIDGIDIKDMTLSSLRGQIGVVQQDVFLFSGTLRENIAYGRLDASEEEIWQAVRQAHLEDLVNGYPDGLNTVIGERGVKLSGGQKQRLSIARMFLKNPSILILDEATSALDTETEAAIQKSLQELSEGRTTLVIAHRLATIKDANRIVVVTKEGIAEQGHHKELLESGGMYQRLHQAQFGELIHQ				NA	NA	NA	NA	NA
D1-12_02424	273			hypothetical protein	ATGAAAAACATTACATCTTTGAAAATAGCCGCTAAGAAGTTCACTTTACGAAACATGCTTCAGCTTTATCAGCTTTGCCACACGGGAGGCCACGAGCTGTATATCTACTCTAAAAAAACGATGTGCAAAATCAAAGATATCATTGAGCTGGAAACGTTCAGAATGGCCCATAAAGAACAAGAATATTTAATTGTAGTGGAAGGAAAGAAAGCGGTGCAGCTTGTTGACCGTTTCAAACATATCATCGAACCTGCGCAAAAAGAAGCCCATTAA	MKNITSLKIAAKKFTLRNMLQLYQLCHTGGHELYIYSKKTMCKIKDIIELETFRMAHKEQEYLIVVEGKKAVQLVDRFKHIIEPAQKEAH				NA	NA	NA	NA	NA
D1-12_02425	963	uvsE	COG4294	UV DNA damage endonuclease	ATGCTGTTCAGATTCGGATTCGTCGCAAACGCCATGTGCCTTTGGGACGCGTCCCCCGCCAAAACCTTAACATATGCGCGCTATACCAAACTTTCCCGCAGTGAGCGGAAAGAGGCCCTGCTTTCTGTGACGAAAGCAAATCTTACCAATACGCTGCGCACCATCCACTATGTGATCGGCCACGGCATTCCGCTGTACAGATTCTCAAGCTCGATTGTGCCGCTCGCCACCCATCCGGATGTGCTGTGGGATTTTGTTACGCCGTTTCGTCAGGAGTTCCGTGAGATCGGCGGGCTGGTCAGAAAATATGATCTCAGAACGAGCTTTCATCCGAACCAATTCACGCTTTTTACGAGCCCGAAACAGGAGATTACCGCAAATGCGGTCAAGGATATGGCCTATCACTATGACATGCTGGACGCAATGGGCATCGCGGACCGTTCCGTCATCAACATCCATGTCGGAGGCGCTTACGGTGACAAACAAAGCGCGCTTGGCCGTTTCCGAGTGAATCTGAAAGAACTTCCCGATGTCATCAAACAGCGGATGACTTTGGAAAACGATGATAAAACGTATACGTCCGAGGAAACACTCAGTGTATGTGAGCAAGAAGGCATTCCGTTTGTGTTTGATTATCACCATTTTTACGCCAATCCGACCGATGACGCTGATTTAGATGACATTCTTCCGCGGATGATCAAAACATGGCAGCGGATCGGCTTAAAGCCGAAGATCCATCTCTCCTCGCCAAAATCAGAATCAGCCGTACGCAGTCATGCGGACTATGTGGATGCGAATTTTATTCTGCCGGTGCTGGAGCGGTTCAGACAATGGGATACGGACATCGACTTTATGATTGAGGCGAAAGAGAAAGACCGGGCGCTGCTCCGGCTCGTCGAAGAATTAAGCGCCATCCGCGGAGTCAAACGCCTGGCGGGCGGAGTGCTGAAGTGGAAGGCATAA	MLFRFGFVANAMCLWDASPAKTLTYARYTKLSRSERKEALLSVTKANLTNTLRTIHYVIGHGIPLYRFSSSIVPLATHPDVLWDFVTPFRQEFREIGGLVRKYDLRTSFHPNQFTLFTSPKQEITANAVKDMAYHYDMLDAMGIADRSVINIHVGGAYGDKQSALGRFRVNLKELPDVIKQRMTLENDDKTYTSEETLSVCEQEGIPFVFDYHHFYANPTDDADLDDILPRMIKTWQRIGLKPKIHLSSPKSESAVRSHADYVDANFILPVLERFRQWDTDIDFMIEAKEKDRALLRLVEELSAIRGVKRLAGGVLKWKA				NA	NA	NA	NA	NA
D1-12_02426	1200	clsB	COG1502	Minor cardiolipin synthase ClsB	ATGAAGGTCATTTTTGTGTTGCTTGTCATTTTTATCATATTGATCGCACTTATGCTGCTTGATATGCTGCTTGGCCGGGCGGCGTACAAAAAACAGGCGTATGAGCCCGTTTTTGACCCGAAAAAGAGTGATATCACACTCATTCACTGCGGCAGCGAGCTTGTGCGGCAGATGACGGCTGATATCCGCCAAGCCGTCTCTTCTATTCATATGATGTTTTTTATTATGAAGAACGACCAAGTCAGCCATGAGATGTTTCATTTATTGAAAGAAAAGGCCCAGGCCGGCGTCTCCGTATATCTGCTGCTGGATTGGGCGGGCAGCCGCCCAGTGAAAAAGCCTTCTATTCAAACGATGAAAAAAGCCGGCGTTCACGTTCATTTTCTAAATAAACCGGCATTTCCGTTTCTATTTTTCAGGCTGCAAAAACGGAATCACCGGAAAGTGACCGTCATTGACGGCAAAATCGGCTATGTCGGCGGTTTTAATATCGCTGAAGAGTACCTCGGCAAAAAAGCGAAGTTCGGAAACTGGGAGGATTATCACCTGCGGATGACCGGCGAAGGCACGGCGGATCTTCAGACTCTTTTTGTAAGCGATCTGAAACGAAACACCGGAAAAACACCCGGATCACCCGGGGTTTATCCGGCATTATCCGAAGGGAATATCTTTCATAGGACATATGCATCTGACGGGTTTTCGCTTGAATCGCATTATGAAAACTGCATCCGTAAGGCGGAGAAAAAAATCATTATCGGCACGCCTTATTATGTACCGAGCAAAAAGCTTCAGGAAGCGCTTATTTCAGCCTGCCGAAAAGGCGTCAAAGTCATCTTGATCGTGCCGATGAAGTCAGACCACCCGCTCGTTCGGGAAACAGCTTTTACTTATTATCCCGAGCTTCTGAAGGCCGGCTGCCTCATCTATCGGTATTATCAAGGCTTTTATCATGTCAAAGCCTTCATTATAGATGACCGCATCAGCATTATCGGCACGCCGAATTTTGATAAACGGAGCCTGTTCTGGAATGAAGAGGTGAATGTCATCATTCATGATGAAGCCTTTACAAAGGAAGTGCTTTCAACCATAAAGCAGGACATCGAAAAATCCGAGCTTCTCACATTAGAAAAAGTGAAACAGCGCTCCGTCAGACAGCTTCCTGCAGAATGGCTGGGAAAGGCCATATCTTACTTTTTATAA	MKVIFVLLVIFIILIALMLLDMLLGRAAYKKQAYEPVFDPKKSDITLIHCGSELVRQMTADIRQAVSSIHMMFFIMKNDQVSHEMFHLLKEKAQAGVSVYLLLDWAGSRPVKKPSIQTMKKAGVHVHFLNKPAFPFLFFRLQKRNHRKVTVIDGKIGYVGGFNIAEEYLGKKAKFGNWEDYHLRMTGEGTADLQTLFVSDLKRNTGKTPGSPGVYPALSEGNIFHRTYASDGFSLESHYENCIRKAEKKIIIGTPYYVPSKKLQEALISACRKGVKVILIVPMKSDHPLVRETAFTYYPELLKAGCLIYRYYQGFYHVKAFIIDDRISIIGTPNFDKRSLFWNEEVNVIIHDEAFTKEVLSTIKQDIEKSELLTLEKVKQRSVRQLPAEWLGKAISYFL	PGPT0007725_4759	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
D1-12_02427	2109	fadF	COG0247	putative iron-sulfur-binding oxidoreductase FadF	ATGAACGCATTTCTCATGGTAAACGCGCTGCTGTTTTCAGCTGTAACCGCTTACGCCGTTTATTTATTCGTTTACCTGATCAGAACGAGGATCGCTTATATTAAGCTCGGCCAAAGGGAAGAATTTGATAAACGCCTGAAAGAACGTCTTCAGAAGATATGGGTGAATGTGTTCGGACAGAAAAAATTGCTGAAAGATAAAAAGAGCGGAATCATCCACGTTCTGTTTTTTTACGGTTTTATACTCGTTCAGTTCGGCGCAATTGATTTTATTCTGAAAGGGTTGCTACCTGACCGTCATCTGCCGCTCGGTCCGCTTTATCCGGCGTTTACCTTTTTTCAGGAAATCGTCACGTTTCTGATTTTAATCGCCGTAGTCTGGGCGTTTTACCGGCGCTACATTGAAAAGCTCGTCAGACTGAAACGCGGGTTTAAAGCGGGGCTTGTCCTGCTGTTTATCGGCGGACTGATGGTGACGGTGCTTCTCGGGAACGCCATGAACCTTTTATGGCACGATCATTCTCTGTCTTGGACGGAACCGATCGCTTCCTCCATTGCGTTTGTGCTCGGCGGTCTTTCAGCGCCGGCGGCCGCCGCCGTGTTTTATGTTTCATGGTGGCTTCATCTGTTGTTTTTGCTCAGCTTTTTAGTGTACGTGCCGCAATCAAAGCATGCGCACTTAATTGCGGGTCCGGCGAATGTGTTCCTCAGCAGGCTGGATTCAAAAGGGAAGCTGGAAAAAATCGATTTCACCGATGAGACGAAAGAAAGCTACGGCGTAGGAAAGATTGAAGACTTCCGCCGTTCTCAGCTTGTCGATCTTTACGCCTGCGTCGAATGCGGCCGCTGTACAAATATGTGTCCGGCCTCCGGTACGGGCAAGATGCTCTCGCCGATGGACCTCATTTTAAAGCTCAGAGACCATTTGACGGAAAAAGGCGCTGCCGTGACGTCAAAATCTCCGTGGGTGCCCGCGCCCGTTTTTCAGCACACGAAGGCGAATCAGCTCGCCGCGGCTTCCTCAGGGGGAGGATCGCGTGAAGCGGCCGCAGCCATTGATTACAACCCGAGCTTAATCGGCGAGGTCATCACGGAAGAGGAGATTTGGGCGTGCACCACTTGCCGCAACTGTGAAGATCAATGTCCGGTCATGAATGAACACGTTGATAAAATTATCGATCTGCGCCGCTATCTTGTGCTTACGGAAGGGAAGATGGACAGCGACGCGCAGCGGGCCATGACAAGCATTGAAAGACAGGGAAACCCGTGGGGCTTAAACCGGAAAGAGCGGGAGAACTGGCGGGAGCAGGCCGATACAGAGATTCCGACAGTGAAAGAAATGAAAAAGCAAGACAAAGAGTTCGACTATTTGTTTTGGGTCGGCTCAATGGGTTCCTACGACAACAGGAGCCAAAAGATTGCCGTCTCATTTGCAAAGCTGCTTAATGAAGCGGGTGTATCCTTTGCGATTCTCGGCAATAAGGAAAAAAACTCAGGCGATACGCCGCGCCGTTTGGGCAACGAGTTTCTGTTCCAAGAGCTGGCGGAACACAACATCGGCGAATTTGAAAAACACGGAATCAAAAAAATCGTCACGATTGATCCGCACGCCTATAATATGTTCAAAAATGAATATCCTGATTTCGGATTCCGGGCCGAAGTCTATCATCATACTGAATTATTAGCCGAGCTTGTGTCACAGGGGAAACTAAAACCGCTTCACCCGGTGAATGAAACGATTACCTTCCATGACTCGTGCTATTTAGGAAGATACAATGAAGTGTATGAGCCGCCGAGAGCGATCTTAAAAGCCATTCCGGGCGTTCAATTGAAGGAAATGGAGCGCAGCCGCGAAAACGGGATGTGCTGCGGCGCCGGGGGAGGGCTCATGTGGATGGAAGAAGAAACGGGAGCGAGAATCAACACGGCCCGGACTGAGCAGGCGCTTTCTGTCAGTCCGACGGTCATCAGCTCCGGATGTCCTTACTGTCTGACTATGCTCGGTGACGGTACGAAAGCGAAAGAAGCCGAAGACGCGATCGGCACTTATGATGTCAGTGAATTGCTCGCCATGTCTGTATTCGGCGCTGAAAAACAAGAGTCTTTATAG	MNAFLMVNALLFSAVTAYAVYLFVYLIRTRIAYIKLGQREEFDKRLKERLQKIWVNVFGQKKLLKDKKSGIIHVLFFYGFILVQFGAIDFILKGLLPDRHLPLGPLYPAFTFFQEIVTFLILIAVVWAFYRRYIEKLVRLKRGFKAGLVLLFIGGLMVTVLLGNAMNLLWHDHSLSWTEPIASSIAFVLGGLSAPAAAAVFYVSWWLHLLFLLSFLVYVPQSKHAHLIAGPANVFLSRLDSKGKLEKIDFTDETKESYGVGKIEDFRRSQLVDLYACVECGRCTNMCPASGTGKMLSPMDLILKLRDHLTEKGAAVTSKSPWVPAPVFQHTKANQLAAASSGGGSREAAAAIDYNPSLIGEVITEEEIWACTTCRNCEDQCPVMNEHVDKIIDLRRYLVLTEGKMDSDAQRAMTSIERQGNPWGLNRKERENWREQADTEIPTVKEMKKQDKEFDYLFWVGSMGSYDNRSQKIAVSFAKLLNEAGVSFAILGNKEKNSGDTPRRLGNEFLFQELAEHNIGEFEKHGIKKIVTIDPHAYNMFKNEYPDFGFRAEVYHHTELLAELVSQGKLKPLHPVNETITFHDSCYLGRYNEVYEPPRAILKAIPGVQLKEMERSRENGMCCGAGGGLMWMEEETGARINTARTEQALSVSPTVISSGCPYCLTMLGDGTKAKEAEDAIGTYDVSELLAMSVFGAEKQESL				NA	NA	NA	NA	NA
D1-12_02428	528	rpoE		DNA-directed RNA polymerase subunit delta	TTGAGTATCAAACAATATTCTCAGGAACAGCTGAAGCAGATGGCTTTAGTTGAAATCGCTCACGAAATTTTCTCAGAACATAAAAAACCGGTTCCGTTCCAGGAGCTGCTGAATGAAATGATCTCCTTGCTCGGTGTTACGAAAGAGGAACTGGGCGACCGTATCGCCCAATTTTATACAGACCTGAACATTGACGGCCGCTTTATTGCTCTGTCAGACCAGACGTGGGGGCTTCGCAGCTGGTATCCGTACGATCAGCTGGACGAAGAAACACAGCCGACTGTAAAAGCGAAAAAGAAAAAAGCGAAAAAAGTCGTTGAGGAAGATCTCGACCTTGATGAATTCGAGGAAGTTGATGAAGATGACATCGATCTCGATGAAATGGAAGAAGATATTGACCTTGACGCAGACAGCTTTGACGACGAAGATGTCGATGAAGAAGATGACGACGAGCTTGAGATCGAAGACGAGATGATTGAAGAAGATGAGGAAGATTATGATGATGAGGAAGAGGATCGCAAAGACTGA	MSIKQYSQEQLKQMALVEIAHEIFSEHKKPVPFQELLNEMISLLGVTKEELGDRIAQFYTDLNIDGRFIALSDQTWGLRSWYPYDQLDEETQPTVKAKKKKAKKVVEEDLDLDEFEEVDEDDIDLDEMEEDIDLDADSFDDEDVDEEDDDELEIEDEMIEEDEEDYDDEEEDRKD				NA	NA	NA	NA	NA
D1-12_02430	1608	pyrG		CTP synthase	ATGACGAAATATATTTTTGTAACCGGGGGAGTTGTATCATCACTCGGAAAAGGAATTGTGGCTGCATCACTTGGCCGCCTTTTGAAAAACAGAGGCATGAGCGTCACTATCCAAAAATTTGACCCTTATATCAACGTTGACCCGGGAACGATGAGCCCGTACCAGCACGGTGAGGTATTCGTTACCGATGACGGCGCCGAGACTGACCTTGACTTAGGGCATTATGAGCGTTTCATTGACATTAATCTGAACAGATTCAGCAATGTGACGACCGGTAAAATCTATTCTGCCGTATTGAAAAAAGAGCGCCGCGGGGACTACCTCGGCGGAACAGTTCAGGTCATTCCGCACATCACAAATGAACTGAAAGACCGCGTGTACCGTGCAGGCAAAGAAACAAACGCAGATGTAGTCATTACTGAGATCGGCGGAACAGTGGGAGACATCGAATCCCTTCCGTTCCTTGAAGCCATCCGTCAAATGAAAAGCGACATCGGCCATGAAAACGTGATGTACATTCACTGTACGCTTGTTCCGTACATCAAAGCGGCGGGCGAGCTGAAAACAAAACCGACGCAGCACAGCGTAAAAGAGCTGAGAAGCCTCGGTATTCAGCCTAATATCATCGTCGTGCGCACGGAAATGCCGATTTCTCAAGATATGAAAGATAAAATCGCGCTCTTCTGCGATATTGACACGAAAGCGGTCATCGAGTGCGAAGATGCGGACAACCTTTACTCCATCCCGCTTAACCTTCAGGAGCAGGGACTCGATAAGCTTGTCTGCGATCATATGAAATTAGAATGCAAAGACCCGGATATGACGGAATGGAAAGACCTTGTCACGAAAGTGAAAAACTTGTCTAAAACCATTACAATCAGCCTCGTCGGTAAATACGTCGAGCTTCAGGACGCTTACATTTCAGTCGTTGAATCACTGCGCCACGCCGGCTATGCGTTTGACGCTGATGTGAAGATCAAATGGATTAACGCCGAACAAGTGACAGAAAGCAATATTCAAGAGCTGACTGGCGGCACAGACGGAATCATCGTGCCCGGCGGTTTCGGAGACCGCGGCGTAGAAGGGAAAATCATCGCCGCCAAGTATGCGCGTGAGAATAAAATTCCGTTCTTCGGCATCTGCCTCGGTATGCAGATTGCATCCATTGAATATGCGCGAAACGTATTAGGTCTGGAAGGGGCTCACTCTGCGGAGATCGATCCGTCCACTCCTTATCCGATCATCGACCTTCTGCCAGAACAAAAAGATGTCGAGGATCTTGGAGGAACGCTTCGTCTCGGACTGTACCCTTGTAAGCTTCAGGAAGACACGAAAGCCTTCGAAGCGTATGCGGATGAAGTGGTATACGAACGCCACCGCCACCGTTATGAATTCAACAACGAATACAGACAGCAAATGGAAGAGAACGGTTTTGTGTTCTCAGGCACAAGCCCTGACGGCCGTCTTGTGGAAATCATCGAGCTGAAAGACCATCCTTGGTATGTCGCTTGCCAGTTCCACCCTGAGTTCAAATCAAGACCGACAAGACCTCAGCCTTTATTCAAAGACTTTATCGGCGCTTCCGTACAAGCTGCAGAACAGAAGTAA	MTKYIFVTGGVVSSLGKGIVAASLGRLLKNRGMSVTIQKFDPYINVDPGTMSPYQHGEVFVTDDGAETDLDLGHYERFIDINLNRFSNVTTGKIYSAVLKKERRGDYLGGTVQVIPHITNELKDRVYRAGKETNADVVITEIGGTVGDIESLPFLEAIRQMKSDIGHENVMYIHCTLVPYIKAAGELKTKPTQHSVKELRSLGIQPNIIVVRTEMPISQDMKDKIALFCDIDTKAVIECEDADNLYSIPLNLQEQGLDKLVCDHMKLECKDPDMTEWKDLVTKVKNLSKTITISLVGKYVELQDAYISVVESLRHAGYAFDADVKIKWINAEQVTESNIQELTGGTDGIIVPGGFGDRGVEGKIIAAKYARENKIPFFGICLGMQIASIEYARNVLGLEGAHSAEIDPSTPYPIIDLLPEQKDVEDLGGTLRLGLYPCKLQEDTKAFEAYADEVVYERHRHRYEFNNEYRQQMEENGFVFSGTSPDGRLVEIIELKDHPWYVACQFHPEFKSRPTRPQPLFKDFIGASVQAAEQK	PGPT0021215_4910	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
D1-12_02431	522			hypothetical protein	ATGTTAAAGATATTTACGACACAGCTTGCAGGCATTTTTTCCCGCATTCAGGATAAGGAATCCGAAGCAATAGAAGACGGCGCGCGCCTGCTGGCGCAGGCAGCCGTCAGCGGTCATACCATTTATTTATACGGCGCAAATGAGATGCAGGGCATTTTGTGCGAGGCGGAACTCGGCTCAGAACCGATGCCTTCCGTCAAAGCGTTTCCGGATACAGCTGATTCGATTACAGAAAGCGACAGGGTGCTGATGTTTTGTTCAGGTCCGGGCACGGCTGAAGAACAGGCGCTGGCTCAAAAGCTTTATGAAAAAGGGATCGGCCTCGTTGGCGTATCTCCTGTCATCAAAGATCAAACCGGGATTGAGGAATTTTGTGATGTTCATATTGACAGCAAATTAAAAATGCCGCTTCTGCCTGATGAAGACGGGACAAGATACGGCTTTCCTTCATTAATGACAGGCCTGTATGTCTATCACGCACTGTCCTTTACATTAAAGGAAATGATGCAGGAATATACCTGA	MLKIFTTQLAGIFSRIQDKESEAIEDGARLLAQAAVSGHTIYLYGANEMQGILCEAELGSEPMPSVKAFPDTADSITESDRVLMFCSGPGTAEEQALAQKLYEKGIGLVGVSPVIKDQTGIEEFCDVHIDSKLKMPLLPDEDGTRYGFPSLMTGLYVYHALSFTLKEMMQEYT				NA	NA	NA	NA	NA
D1-12_02432	375	spo0F	COG0784	Sporulation initiation phosphotransferase F	ATGATGAATGAAAAGATTTTAATCGTAGATGACCAATACGGTATACGCATATTGCTCAATGAAGTGTTTCATAAAGAAGGGTACCAGACGTTTCAGGCCGCCAATGGCATACAGGCGCTGGACATCGTAACGAAAGAACGGCCCGATCTCGTGCTTTTAGATATGAAAATCCCCGGCATGGACGGAATCGAAATTCTCAAGCGCATGAAGATGATTGACGAATCCATCCGCGTCATTATCATGACCGCTTACGGAGAACTCGATATGATTAAGGAATCAAAAGAGCTCGGAGCGCTGACCCATTTTGCGAAACCTTTTGACATTGATGAGATCAGAGACGCGGTGAAAAAATATTTACCTCTAAAATCGAATTAA	MMNEKILIVDDQYGIRILLNEVFHKEGYQTFQAANGIQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKMIDESIRVIIMTAYGELDMIKESKELGALTHFAKPFDIDEIRDAVKKYLPLKSN	PGPT0024650_200	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024650-spo0F-K02490	NA	NA
D1-12_02433	858	fbaA	COG0191	putative fructose-bisphosphate aldolase	ATGCCTTTAGTTTCAATGACGGAAATGTTGAATACAGCTAAAGAAAAAGGATATGCTGTTGGACAATTTAACTTAAATAACCTTGAGTTCACTCAAGCTATTTTACAAGCAGCAGAAGAGGAAAAATCCCCGGTTATTCTTGGTGTTTCAGAAGGCGCGGGACGCTACATGGGCGGCTTCAAAACAGTGGTTGCCATGGTTAAAGCTCTTATGGAAGAATACAAAGTGACAGTTCCTGTCGCCATTCACTTAGACCACGGTTCAAGCTTTGAATCTTGTGCGAAAGCGATTCATGCAGGTTTCACTTCTGTAATGATCGACGCATCTCACCACCCGTTTGAGGAAAACGTAGCAACTACAGCTAAAGTGGTTGAGCTTGCTCATTTCCACGGCGTTTCAGTTGAAGCTGAGCTTGGAACTGTAGGCGGACAGGAAGATGACGTGATCGCTGAAGGCGTAATCTATGCTGACCCTAAAGAGTGTCAAGAACTTGTAGAGCGCACTGGCATCGACTGCCTTGCACCTGCACTGGGTTCTGTTCACGGCCCTTACAAAGGCGAGCCGAACCTCGGTTTCAAAGAAATGGAAGATATCGGCAAATCAACCGGCCTTCCGTTAGTACTTCACGGCGGTACAGGAATTCCGACTGCCGACATTAAAAAATCAATCTCACTTGGTACGGCTAAAATCAACGTAAACACTGAAAACCAAATTTCTTCTGCAAAAGCTGTCCGCGAAACATTGGCAGCTAAGCCGAACGAATACGATCCTCGTAAATATCTTGGACCTGCTCGTGAAGCGATCAAAGAAACGGTTATCGGCAAAATGCGTGAGTTCGGTTCTTCAAACCAAGCTTAA	MPLVSMTEMLNTAKEKGYAVGQFNLNNLEFTQAILQAAEEEKSPVILGVSEGAGRYMGGFKTVVAMVKALMEEYKVTVPVAIHLDHGSSFESCAKAIHAGFTSVMIDASHHPFEENVATTAKVVELAHFHGVSVEAELGTVGGQEDDVIAEGVIYADPKECQELVERTGIDCLAPALGSVHGPYKGEPNLGFKEMEDIGKSTGLPLVLHGGTGIPTADIKKSISLGTAKINVNTENQISSAKAVRETLAAKPNEYDPRKYLGPAREAIKETVIGKMREFGSSNQA	PGPT0017615_4654	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
D1-12_02434	639	tal	COG0176	Transaldolase	ATGTTATTTTTCATTGATACAGCAAACATTGACGAGATTAAAGAAGCTTATGAACTTGGCGTTCTTGCCGGAGTTACGACAAACCCTAGTTTAGTGGCGAAAGAAGCTGACGTGTCTTTCCATGACAGACTTCGTGAGATTACGGAAGTCGTGAGCGGATCAGTAAGCGCGGAAGTCATTTCCCTGAATGCTGAAGAAATGATTGAAGAAGGTAAAGAACTTGCGAAAATCGCACCGAATATCACGGTGAAAATCCCGATGACGTCTGAAGGGTTAAAAGCCGTAAAAGCGCTGAGCGACCTGAACATTAAAACAAACGTAACGCTCATTTTCAGCGCCAACCAAGCGCTTTTGGCGGCAAGAGCCGGGGCGACTTATGTATCTCCGTTCTTAGGCCGTCTGGATGACATCGGCCATAACGGTCTTGAACTGATTTCAGAAATCAGACAGATTTTTGACATTCATGACATTGATACACAAATCATCGCAGCTTCCATCCGTCATGCGCAGCACGTGACTGAAGCCGCTTTACGCGGTGCGCATATCGGTACGATGCCGCTGAAAGTCATTCACCAGCTGACGAAACATCCGTTAACGGATAAAGGCATCGAGCAATTCTTGGCAGACTGGAATAAATAA	MLFFIDTANIDEIKEAYELGVLAGVTTNPSLVAKEADVSFHDRLREITEVVSGSVSAEVISLNAEEMIEEGKELAKIAPNITVKIPMTSEGLKAVKALSDLNIKTNVTLIFSANQALLAARAGATYVSPFLGRLDDIGHNGLELISEIRQIFDIHDIDTQIIAASIRHAQHVTEAALRGAHIGTMPLKVIHQLTKHPLTDKGIEQFLADWNK	PGPT0017375_5729	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
D1-12_02435	1290	murAB	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 2	ATGGAAAAGTTGAATATTGCCGGCGGCGATCCGTTAAACGGAACCGTACATATCAGCGGCGCGAAAAACAGCGCCGTCGCATTGATACCCGCAACCATTCTGGCAAATTCCGAAGTAACGATCGAAGGGCTTCCGGAGATCTCAGATATTGAAACGCTGCGTGACCTGCTGAAAGAAATCGGCGGAAACGTCCATTTTGAAAAAGGAGAAATGGTCGTCGACCCTTCCCCGATGATCAGCATGCCGCTTCCCAACGGCAAAGTGAAAAAACTCCGCGCTTCCTATTACTTAATGGGCGCGATGCTGGGCCGCTTCAAACAGGCGGTCATCGGACTGCCGGGCGGATGCCATCTCGGGCCGCGGCCGATTGACCAGCACATCAAAGGATTTGAAGCGCTTGGGGCGGAAGTCACCAATGAACAAGGCGCGATTTATCTGCGCGCCGAAAGGCTGAGAGGCGCACGGATTTATTTAGATGTCGTCAGCGTCGGAGCGACGATCAATATCATGCTTGCCGCTGTACTGGCTGAAGGTAAAACCGTGATAGAAAACGCCGCCAAGGAACCTGAGATTATTGATGTGGCCACATTGCTCACCAGCATGGGCGCAAAGATCAAAGGCGCGGGAACCAATGTAATCAGAATCGACGGCGTAAAAGAGCTGCACGGATGCAGGCATACGATCATTCCGGACAGAATTGAGGCGGGCACCTTTATGATCGCCGGCGCCGCGATGGGGAAAGAAGTCATTATTGATAATGTCATACCGACTCACCTGGAGTCTTTAACGGCGAAGCTCAGGGAAATGGGTTTTCACATTGAGACGAGTGACGATCAGCTTCTTATGCTCGGCGGGCAGAAGCAGATAAAACCGGTCGACGTAAAAACGCTTGTTTACCCGGGATTCCCGACTGACCTTCAGCAGCCGATGACATCTCTGTTGACGAGAGCCAGCGGTACGAGCGTCGTAACCGACACCATCTACTCGGCACGATTTAAACATATAGATGAGCTGAGACGGATGGGGGCCAACATGAAAGTGGAAGGCAGGTCGGCCATTATCACCGGTCCGGCCGAGCTTCAGGGCGCAAAAGTAAAGGCGAGCGATCTGCGTGCAGGCGCTTGTCTGGTCGTCGCCGGGCTCATGGCTGACGGCGTAACCGAAATCACCGGTCTTGAGCATTTAGACCGCGGCTACAGCAATCTTGAGAAAAAACTCGAAGGCCTGGGCGCCACAATCTGGCGGCAAAGGCTGACGGACGAAGAGATAGAACAGCTCCAAAATTCATAG	MEKLNIAGGDPLNGTVHISGAKNSAVALIPATILANSEVTIEGLPEISDIETLRDLLKEIGGNVHFEKGEMVVDPSPMISMPLPNGKVKKLRASYYLMGAMLGRFKQAVIGLPGGCHLGPRPIDQHIKGFEALGAEVTNEQGAIYLRAERLRGARIYLDVVSVGATINIMLAAVLAEGKTVIENAAKEPEIIDVATLLTSMGAKIKGAGTNVIRIDGVKELHGCRHTIIPDRIEAGTFMIAGAAMGKEVIIDNVIPTHLESLTAKLREMGFHIETSDDQLLMLGGQKQIKPVDVKTLVYPGFPTDLQQPMTSLLTRASGTSVVTDTIYSARFKHIDELRRMGANMKVEGRSAIITGPAELQGAKVKASDLRAGACLVVAGLMADGVTEITGLEHLDRGYSNLEKKLEGLGATIWRQRLTDEEIEQLQNS	PGPT0024090_2161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
D1-12_02436	966	glpX	COG1494	Fructose-1,6-bisphosphatase class 2	ATGGAAAGAAGCTTATCGATGGAATTGGTTCGAGTCACTGAAGCGGCGGCTTTAGCATCTGCCAGATGGATGGGCTGCGGGAAAAAAGATGAAGCTGATGATGCGGCGACAAGCGCAATGCGTGACGTGTTTGACACGGTGCCGATGAAAGGCACGGTCGTGATCGGGGAAGGCGAGATGGATGAAGCGCCGATGCTTTACATCGGCGAAAAGCTCGGAAACGGATACGGCCCGCGCGTCGATGTCGCCGTCGATCCTCTTGAAGGCACAAACATCGTAGCGAGCGGCGGCTGGAATGCGCTGACGGTGATCGCGGTCGCCGACCATGGAACACTGCTGAACGCCCCGGATATGTATATGGAAAAAATCGCGGTCGGTCCCGAAGCGGTAGGCTGCATCGATATCGAAGCGCCTGTCATTGATAACTTAAAAGCCGTTGCGAAAGCGAAGAACAAAGACATTGAAGATGTCGTGGCAACCATTTTAAATCGTGACAGACATGAAAAAATCATCTCTGAATTGCGTGAGGCGGGCGCCAGAATCAAACTGATCAACGACGGTGATGTCGCGGGCGCCATCAATACGGCCTTTGACCATACGGGAGTAGACATTCTCTTCGGTTCAGGCGGGGCTCCTGAAGGCGTGCTGTCTGCCGTTGCGTTAAAAGCGCTCGGCGGCGAAATCATCGGCAGGCTTCTGCCGCAAAGTGCGGAAGAGCAGGCCCGCTGTGAGCGAATGGGCCTTGATGTATCCAAAGTGCTCCGGATGGAGGACCTTGTGAGAGGGGATGACGCCATTTTTGCGGCAACGGGCGTCACGGACGGAGAGCTGCTGAAAGGCGTTCAGTTCAAAGGCTCCGTCGGCACGACTGAAAGTCTGGTCATCCGGGCGAAATCAGGAACGGTCCGATTCGTTGACGGAAGACACAGCCTGAAGAAAAAACCAAATCTTGTGATCCGGCCATAA	MERSLSMELVRVTEAAALASARWMGCGKKDEADDAATSAMRDVFDTVPMKGTVVIGEGEMDEAPMLYIGEKLGNGYGPRVDVAVDPLEGTNIVASGGWNALTVIAVADHGTLLNAPDMYMEKIAVGPEAVGCIDIEAPVIDNLKAVAKAKNKDIEDVVATILNRDRHEKIISELREAGARIKLINDGDVAGAINTAFDHTGVDILFGSGGAPEGVLSAVALKALGGEIIGRLLPQSAEEQARCERMGLDVSKVLRMEDLVRGDDAIFAATGVTDGELLKGVQFKGSVGTTESLVIRAKSGTVRFVDGRHSLKKKPNLVIRP	PGPT0017655_1383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017655-glpX|cbbF-K02446	NA	NA
D1-12_02437	1287	rho	COG1158	Transcription termination factor Rho	ATGAAAGACGTATCTATTTCCTCTTTGGAAAATATGAAATTAAAAGAACTATATGAACTGGCCAGACATTATAAAATCTCCTACTACAGCAAACTGACTAAAAAAGAATTAATCTTTGCCATTCTGAAAGCTAACGCCGAGCAGGAGGATCTTCTGTTTATGGAAGGCGTGCTCGAAATCATCCAATCGGAAGGATTCGGCTTCCTCAGACCGATTAATTACTCGCCAAGCTCAGAAGACATCTACATTTCTGCTTCCCAGATCCGCCGCTTTGATTTAAGAAACGGTGACAAAGTATCCGGCAAGGTGCGGCCGCCGAAAGAAAACGAACGCTATTACGGACTTTTGCACGTTGAAGCGGTAAATGGAGATGACCCGGAATCTGCGAAAGAGCGCGTCCATTTTCCCGCGCTGACTCCGCTTTATCCGGACCGCCAAATGGTGCTTGAGACGAAACCGAATTATCTCTCAACAAGAATTCTCGATATGATGGCTCCCGTCGGTTTCGGCCAGCGCGGTCTGATCGTGGCGCCGCCGAAAGCCGGTAAAACCATGCTGTTGAAAGAAATCGCTAACAGCATTACGACAAATCAGCCTGACGCTGAATTGATCGTTCTCTTAATTGATGAAAGACCGGAAGAAGTAACGGATATTGAACGTTCCGTAGCGGGCGATGTCGTCAGCTCGACGTTCGATGAAGTGCCGGAAAATCACATTAAGGTAGCGGAGCTTGTGCTTGAACGGGCGATGCGTCTCGTTGAACACAAAAAAGACGTTATCATTCTGATGGACAGCATTACCCGCCTGGCACGGGCCTACAACCTCGTTATCCCGCCAAGCGGACGTACGCTTTCCGGCGGGATTGACCCGGCTGCGTTCCATCGTCCGAAGCGCTTTTTCGGTGCCGCGCGAAACATTGAAGAGGGCGGCAGCCTGACCATTTTGGCGACGGCGCTCGTAGACACGGGCTCCCGGATGGATGACGTCATCTATGAAGAGTTTAAAGGAACGGGCAACATGGAGCTTCACCTTGACCGTTCTCTTGCGGAAAGACGGATTTTCCCGGCGATCGATATCCGCCGCTCCGGCACACGGAAGGAAGAGCTGCTCGTGCCGAAAGAGCATCTTGACCGTCTATGGGCGATCCGCAAATCGATGTCTGATTCTCCGGACTTCGCAGAGAAGTTTATGAGAAAAATGAAAAAAACAAAAACGAATCAGGAATTCTTCGATCTGATCAACCAAGAATGGAAGCAGGCAAACCTTTCATCATCAGCCCGCCGCTGA	MKDVSISSLENMKLKELYELARHYKISYYSKLTKKELIFAILKANAEQEDLLFMEGVLEIIQSEGFGFLRPINYSPSSEDIYISASQIRRFDLRNGDKVSGKVRPPKENERYYGLLHVEAVNGDDPESAKERVHFPALTPLYPDRQMVLETKPNYLSTRILDMMAPVGFGQRGLIVAPPKAGKTMLLKEIANSITTNQPDAELIVLLIDERPEEVTDIERSVAGDVVSSTFDEVPENHIKVAELVLERAMRLVEHKKDVIILMDSITRLARAYNLVIPPSGRTLSGGIDPAAFHRPKRFFGAARNIEEGGSLTILATALVDTGSRMDDVIYEEFKGTGNMELHLDRSLAERRIFPAIDIRRSGTRKEELLVPKEHLDRLWAIRKSMSDSPDFAEKFMRKMKKTKTNQEFFDLINQEWKQANLSSSARR				NA	NA	NA	NA	NA
D1-12_02438	201	rpmE	COG0254	50S ribosomal protein L31	ATGAAAGCAGGAATTCATCCTAATTTCAAAAAAGCAACAGTTAAATGCGCTTGCGGAAATGAATTTGAAACAGGCTCAGTAAAAGAAGAGGTACGCGTTGAGATTTGCTCTGAATGCCACCCATTCTACACTGGACGTCAAAAATTCGCTTCTGCTGATGGTCGTGTTGATCGCTTTAACAAAAAATACGGTCTTAAGTAA	MKAGIHPNFKKATVKCACGNEFETGSVKEEVRVEICSECHPFYTGRQKFASADGRVDRFNKKYGLK	PGPT0014325_1153	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
D1-12_02439	591	tdk	COG1435	Thymidine kinase	ATGTACATAATGAAGCAAAGCGGATGGCTTGAGCTGATATGCGGCAGCATGTTCTCTGGGAAATCAGAAGAGCTGATCCGCAGAGTGAAAAGAGCGACATATGCGAAGCAGGAGGTCAAGGTGTTCAAACCTGCTATTGATAATCGCTACAGTGAGGAGGCCGTCGTTTCTCACAATGGCACATCCATGACAAGCCACGTCATCTCGTCTTCGGCTGAAATATGGGATCATATCAGTGAAAGCACGGACGTCATCGCGGTAGATGAAGTGCAGTTTTTCGGCGAATCGATCATCGGCGACTTATCCTCGCTTGCGGATAAAGGCTATCGTGTCATCGCGGCCGGACTTGATATGGATTTCCGGGGAGAGCCGTTCGGCGTGGTGCCGAATCTGATGGCGGTTGCCGAATCGGTGACGAAGCTGCAGGCGGTCTGCTCCGTTTGCGGGTCGCCGGCAAGCCGTACGCAGCGTTTGATTGACGGGAAGCCCGCTTCCTATGATGATCCGGTCATTTTAGTCGGCGCGTCGGAGTCATACGAAGCGAGATGCAGACATCATCACGAAGTGCCGAAAAAACAGTCTGATAAATAA	MYIMKQSGWLELICGSMFSGKSEELIRRVKRATYAKQEVKVFKPAIDNRYSEEAVVSHNGTSMTSHVISSSAEIWDHISESTDVIAVDEVQFFGESIIGDLSSLADKGYRVIAAGLDMDFRGEPFGVVPNLMAVAESVTKLQAVCSVCGSPASRTQRLIDGKPASYDDPVILVGASESYEARCRHHHEVPKKQSDK	PGPT0021390_2241	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
D1-12_02440	1698	maeA_2	COG0281	putative NAD-dependent malic enzyme 2	TTGAATAATATTAAAGTAACGAAGGAAGGCAACTTAGAAACTACTTTAAGAGGAAAAGAAGTTCTATCTATCCCTACTTTAAATAAAGGTGTTGCGTTTTCAGCAGAAGAAAGAAAAAGCCTTGGATTAGACGGGCTGCTTCCTCCGACAATTCTGTCTCTTGATGAGCAGGCAAAACGCGCATACGAGCAGTTTCAAGCTCAGCCGGACCGCCTTCGCCAAAACGTGTATTTGAATGATTTGCAAAACCGTAACGAAGTTCTTTTCTTTAAATTGCTTCAAAACCATCTTCGTGAAATGCTGCCGGTTGTTTACACACCGACTGTCGGTGAAGCGATTCAAGAATACAGTCATGAGTACAGAAGACCTCAAGGGATTTACCTTTCTATCGACAACGTGGAAGGAATCGAAGAGGCATTTGAAAACCTTCATGCCACTGCCGGAGATATTGATCTGATCGTTGCGACAGACTCAGAAAGCATCCTCGGAATCGGTGACTGGGGTGTAGGCGGTATCAACATCGCCATCGGTAAATTAGCGGTATACACAGCTGCTGCCGGTATTGACCCAAGCCGCGTCATTCCTGTCGTTCTTGACGTCGGTACGAACAATGAAAAACTTCTGAACGATCCTTTATACATCGGTAACCGCCATGAACGTATCCAAGGCGAACGTTACGAAGCTTTCGTTGACGCTTATGTAAAAGCTGCGCTTAAATATTTCCCTAAAGCTCTTCTTCACTGGGAAGACCTTGGAAACAAAAACGCGCGCAATATCATGAAGAAATACAACCATGAAATTCTTACATTCAACGATGACATTCAAGGAACAGGTGCGATTACGCTTGCGGGTGTGCTTGCGGCTATGAAGAAAACAGGCGCGTCTATTAAAGACCAGCGTGTGGTTGTCTTCGGTGCGGGATCTGCCGGAATCGGAATCGCTGACCAAATCCGCGACACTATGGTGCTTGCCGGTCTTTCTGAAGAAGAAGCCAACAAAGCGTTCTACACAATGGACTACAGAGGCTTGTTAATTGAAGGTATGGAAAACATCCTTGATTTCCAAGAGCCGTACCTGCGCACAGCTGAAGAAATTAAAGATTGGAAACGCGATGAAAATGGACAAATTCCTTTCATTGAAGTGATCCGTCAAGCGAAACCGACAATCTTAATCGGTACATCAGGCCAAAGCGGCGCGTTCAGTGAAGAAATCGTCAAAGAAATGGCAAAACACGTTGAGCGTCCGGTCATCATGCCGATGTCTAACCCGACACCGCTTGCTGAAGCCGTTCCTAGCGATCTTTTCAAATGGACTGACGGCAAAGTGCTTGTGGCGACAGGAAGCCCGTTTGACAATGTAGAGTACAATGGCGTTTCTCATGAAATCGGACAATCTAACAACGCATTCGCGTTCCCTGGACTTGGTCTCGGTTCAATCGTTGTAGAAGCGAAAGTGATTACTCCTGCAATGTTTGCGGCAACTGCTGACGCAATCGCAGAAAGCGTTGATTTTGAAACACCGGGTGCAGGCCTTCTGCCGAGCATGAGCGACTTACAAGAAGTTTCAATTAAAGTTGCGATCGCCGTAGCGGAAACTGCCATTAAAGAAGGCGTGGCAAACCGCATTCCTGAGAATGTAGAACAAGCCGTTCTTGATGCAATGTGGAAACCGCAATATAAGCAAGTTGTCGCTAAATAA	MNNIKVTKEGNLETTLRGKEVLSIPTLNKGVAFSAEERKSLGLDGLLPPTILSLDEQAKRAYEQFQAQPDRLRQNVYLNDLQNRNEVLFFKLLQNHLREMLPVVYTPTVGEAIQEYSHEYRRPQGIYLSIDNVEGIEEAFENLHATAGDIDLIVATDSESILGIGDWGVGGINIAIGKLAVYTAAAGIDPSRVIPVVLDVGTNNEKLLNDPLYIGNRHERIQGERYEAFVDAYVKAALKYFPKALLHWEDLGNKNARNIMKKYNHEILTFNDDIQGTGAITLAGVLAAMKKTGASIKDQRVVVFGAGSAGIGIADQIRDTMVLAGLSEEEANKAFYTMDYRGLLIEGMENILDFQEPYLRTAEEIKDWKRDENGQIPFIEVIRQAKPTILIGTSGQSGAFSEEIVKEMAKHVERPVIMPMSNPTPLAEAVPSDLFKWTDGKVLVATGSPFDNVEYNGVSHEIGQSNNAFAFPGLGLGSIVVEAKVITPAMFAATADAIAESVDFETPGAGLLPSMSDLQEVSIKVAIAVAETAIKEGVANRIPENVEQAVLDAMWKPQYKQVVAK	PGPT0001350_711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001350-maeA|sfcA|ywkA-K00027	NA	NA
D1-12_02441	957			hypothetical protein	TTGAGCTTCTTAGATATTTTAATCCTCCTGGCGCCGATCTTTTTCGTGATCGTGCTGGGATGGTTCGCAGGTCGCTTCGGAAGTTATGACGCGAAGTCAGCAAAAGGGGTAAGCACCTTAGTTACGAAGTACGCGCTTCCGGCGCATTTTATCGCAAGTATTTTAACCACTTCAAGAAGTGCGTTTTTATCACAGGTTCCTTTGATGGTCGCTTTGATCATTGGGATTGTCGGATTCTTTATCGTCATTCTGTTGGTTTGCAAATTTATCTTCAAGTATGATTTAACGAATTCATCTGTATTTTCTTTAAACTCTGCACAGCCGACATTTGCTTTTATGGGTATTCCCGTACTAGGAAGCTTATTCGGAGCAAGCGAAGTAGCGATTCCTATCGCCGTTACGGGTATCGTGGTTAACGCCATCCTTGACCCGCTTGCGATCATTATCGCTACTGTCGGTGAGTCATCTAAGAAAAAAGACACTGAAAACGAGAACTTCTGGAAAATGACTGGTAAGTCTATTCTTCACGGTCTTTCCGAACCGCTTGCGGCTGCACCGCTTATCAGTATCATTCTGGTACTCTGCGGTGTAACACTCCCTGGCTTGGGAGAAAAAATGCTTGATCAGCTCGGAAGCACAACATCAGGTGTTGCGCTCTTCGCCGTCGGTGTAACTGTCGGTATCCGCAACATTAAGCTCAGTCTGCCGGCTTTCGGTATCGCTTTGTTAAAAGTTGCCGTTCAGCCTGCGCTGATGTACTTGATCGCTCTTGCAGTCGGACTTCCGGCTGACCAGATCACTAAAGCGGTATTGCTCGTTGCATTCCCTGGATCTGCGGTAGCGGCGATGATTGCCACACGTTTCGAAAAACAAGAGGAAGAAACTGCGTCCGCGTTTGTAATCAGTGCGATTTTATCTCTAATCTCACTGCCGATCATCATTGCGCTGACTGCATAA	MSFLDILILLAPIFFVIVLGWFAGRFGSYDAKSAKGVSTLVTKYALPAHFIASILTTSRSAFLSQVPLMVALIIGIVGFFIVILLVCKFIFKYDLTNSSVFSLNSAQPTFAFMGIPVLGSLFGASEVAIPIAVTGIVVNAILDPLAIIIATVGESSKKKDTENENFWKMTGKSILHGLSEPLAAAPLISIILVLCGVTLPGLGEKMLDQLGSTTSGVALFAVGVTVGIRNIKLSLPAFGIALLKVAVQPALMYLIALAVGLPADQITKAVLLVAFPGSAVAAMIATRFEKQEEETASAFVISAILSLISLPIIIALTA	PGPT0001720_627	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
D1-12_02442	564	racA		Chromosome-anchoring protein RacA	ATGAATACAAACATGGCCGCGAAAGAGCTCGGTGTCTCCGCAAAAACGGTGCAAAGGTGGGTCAAGCAGCTGAATCTTCCGGCTGAACGGAATGAGCTCGGACATTATTCCTTTACACCTGAGGATCTTGATGTGCTGAAATCGGTCAAACGGCAAATTTCTGAAGGCACTGCCCTTCTGGACGTTCAAGTGCCCCGGCAGCCGAAAAAACGGACGGGCTTCATTTTGCAGCGTCCGAAAATCAATGGCGGCGCTGAACAAAGATTGGCAGAGCTGGAGCGCAAACTGGACATTCTCACGAAAGAGAAACAAGGTGAGAACCATCTGCTTTCAAGGATAGAGGAGCTTGAACGCCAGCTGAAACAAAAGGCGGATGAAGGGGTGTCTTATCAGCTTCTTCAGCACAGACGGGAAATTGACGACCTCAATTCCGAATTGCAGACATTGGCCTCCCGCATCCAGGAACTTGCCCAGACAGCTCCCCTCTCAGAAACAGCCGCTTCTTCAGAACATAAGAAACCCAGAAAAAAAACAAGATTTTCGCCTTTTAAATTTCAATTCTAA	MNTNMAAKELGVSAKTVQRWVKQLNLPAERNELGHYSFTPEDLDVLKSVKRQISEGTALLDVQVPRQPKKRTGFILQRPKINGGAEQRLAELERKLDILTKEKQGENHLLSRIEELERQLKQKADEGVSYQLLQHRREIDDLNSELQTLASRIQELAQTAPLSETAASSEHKKPRKKTRFSPFKFQF				NA	NA	NA	NA	NA
D1-12_02443	384			hypothetical protein	ATGCTGAAATCCATCCACCATATAGCAATCATATGCTCTGATTATGAAAAGTCGAAAGCTTTTTACACCGAGATACTCGGTTTCGGCATTATAAAAGAAACATACCGAAAGGATCGCGGATCTTATAAACTTGATCTTGCGCTGGACGGCGCGTACGCGATTGAATTGTTTTCCTTTCCCGATCCGCCCGAACGGCCGACCAGACCGGAAGCCGCGGGTCTCCGGCATCTCGCTTTCACCGTAAACGATCTTGAAGCAGCCGTCAGGGAGTTAAAGGAAAAGGGCGTCGGCACAGAACCGATCAGAACCGATCCGCTGACGGGGAAACGGTTTACCTTCTTCTTCGATCCCGACAAGCTTCCGCTTGAATTGTATGAAGCGTAA	MLKSIHHIAIICSDYEKSKAFYTEILGFGIIKETYRKDRGSYKLDLALDGAYAIELFSFPDPPERPTRPEAAGLRHLAFTVNDLEAAVRELKEKGVGTEPIRTDPLTGKRFTFFFDPDKLPLELYEA				NA	NA	NA	NA	NA
D1-12_02444	1071	prfA	COG0216	Peptide chain release factor 1	GTGTTAGACCGTTTACAGTCAATTGAACAACGATACGAAAAATTAAATGAGCTTTTAAGTGATCCGGAAGTGGTCAACGATCCGAAAAAGCTTAGAGAATATTCGAAAGAGCAATCTGATATACAAGAAACCGTTGAAGTCTATAGACAATACAGAGACGCATCAGAACAGCTTGCCGATGCGAAAGCGATGCTTGAGGAAAAGCTTGATGCCGATATGAGAGAAATGGTGAAGGAAGAAATCTCCGAACTGCAGGGAGAGACGGAAACCTTATCAGAGCGTTTGAAAGTGCTCCTCATCCCGAAAGACCCGAATGATGACAAAAACGTAATCATGGAGATCCGCGGAGCAGCGGGAGGAGAAGAAGCCGCGCTGTTTGCGGGAAATCTCTACAGAATGTACTCCCGTTACGCCGAAATCCAAGGCTGGAAGACCGAAGTCATGGAAGCAAACGTGACCGGAACGGGCGGTTACAAAGAAATCATCTTTATGATTACGGGAAAAGGCGCATACTCCAAGCTGAAGTATGAAAATGGCGCGCACCGCGTACAGCGTGTTCCGGAAACGGAATCAGGCGGCCGTATTCATACATCCACGGCGACGGTGGCGTGTCTTCCTGAAGCGGAAGAAGTAGAAGTGGACATCCACGAAAAAGACATCCGCGTCGATACATTCGCATCAAGCGGACCGGGCGGACAAAGCGTAAACACGACGATGTCGGCCGTACGCCTGACGCATTTACCGACCGGTGTCGTCGTATCCTGTCAGGATGAAAAATCTCAGATTAAAAACAAAGAAAAAGCGATGAAGGTGCTCCGCGCCAGAATCTATGACAAATTCCAGCAGGAAGCTCAGGCTGAATATGATCAGACTCGCAAATCAGCCGTCGGTTCAGGCGACCGTTCCGAGCGTATCCGCACATACAATTTCCCGCAAAACCGTGTGACGGATCACCGCATCGGCCTGACGATTCAAAAGCTGGATCAAATCCTGGAAGGCAAGCTTGATGAAGTGGTTGAAGCGTTAATCGTAGAAGACCAGTCAAGCAAGCTCCAGCAGGCGGAAAATTAA	MLDRLQSIEQRYEKLNELLSDPEVVNDPKKLREYSKEQSDIQETVEVYRQYRDASEQLADAKAMLEEKLDADMREMVKEEISELQGETETLSERLKVLLIPKDPNDDKNVIMEIRGAAGGEEAALFAGNLYRMYSRYAEIQGWKTEVMEANVTGTGGYKEIIFMITGKGAYSKLKYENGAHRVQRVPETESGGRIHTSTATVACLPEAEEVEVDIHEKDIRVDTFASSGPGGQSVNTTMSAVRLTHLPTGVVVSCQDEKSQIKNKEKAMKVLRARIYDKFQQEAQAEYDQTRKSAVGSGDRSERIRTYNFPQNRVTDHRIGLTIQKLDQILEGKLDEVVEALIVEDQSSKLQQAEN				NA	NA	NA	NA	NA
D1-12_02445	861	prmC		Release factor glutamine methyltransferase	ATGAAGACCGTTTTTGAAGCCCTAAGCTGGGCTTCTTCTTATTTAACCGAAGCGGGAAGAGAAAAAAACGCGGCCGAGCTGCTGCTGTTAAATGATACCGGAATGGATCGGAGCAAACTTCTCGCAAGTCTGCAGGAGCCCGTCGGCGAGGACGAGCTTTATCGATTCAGACGGCACGTGGAGATGCATAAAGAAGGTATTCCGATTCAATATATTATCGGGAAAGAACAGTTTTACGGCAGGGAATTTTTTGTGAATGACGATGTTCTCATTCCGCGTCCGGAAACGGAAGAAGTCGTCTTTCATCTGCTGGACAGACAGAAGCGGGCATTTTCCGGGGCAGAACGCCTGAACGTCATTGATATCGGTACGGGGAGCGGAGCCATTGCGGTGACGCTCGCGCTTGAATGCGGACATTTTTCAGTATCGGCTTCGGATATTTCAAAAGAAGCGCTGCAGGTGGCGGAAAGAAATGCGCAAAACCTTGGAGCGGACGTGTGCTTTTTGCAGGGAGATCTGTTAACTCCTTTTATTTCATCAGGAAAAAAAGCGGATATTATTGTTTCCAATCCGCCGTATATTTCTGAAGAAGAAATGGCGGATTTGTCGGATATCGTCCGTTTCCATGAGCCGCTTCATGCTCTTACGGACGGCGGTGACGGTTTGAAATTCTACAAGCGGTTTATGGAGGAGCTGCCTCTTGTCATGAAAGATAAAGCGCTTGTCGTCTTTGAAATCGGATATAATCAGGGAAAAGCCGTGAAAGACCTGTTCCGTCATTCCTTTCCGAATGCGGAAGTGGAAGTCGTACAGGACATCAACGGAAAAGACAGAACCGTATCCGCGGTCATCACATCATAA	MKTVFEALSWASSYLTEAGREKNAAELLLLNDTGMDRSKLLASLQEPVGEDELYRFRRHVEMHKEGIPIQYIIGKEQFYGREFFVNDDVLIPRPETEEVVFHLLDRQKRAFSGAERLNVIDIGTGSGAIAVTLALECGHFSVSASDISKEALQVAERNAQNLGADVCFLQGDLLTPFISSGKKADIIVSNPPYISEEEMADLSDIVRFHEPLHALTDGGDGLKFYKRFMEELPLVMKDKALVVFEIGYNQGKAVKDLFRHSFPNAEVEVVQDINGKDRTVSAVITS				NA	NA	NA	NA	NA
D1-12_02446	279			hypothetical protein	TTGAAAAAAGCGTTCGCCTTCGGATGTATACTCGCCGCCGCAGCTTATGCGGCGGGGGTTGTTCTGCCGTTTGGCGTTGACATCATTTTCGGCGCCGTTACGGCTGTTCTTATCGTCACAGCGATCATCGTTTCCGGGTTGGCCGTAAGCGGAGCGGAGCAGCGGGCCAATTATCATTCTGAAACAGAAGAAGGACGGCACGCCCGTTTAAAGATGGCCGCCGTTTTCTTTTGCGCCGCTCTCCCTTCAGCCGGCTGTCTGCTGATTACGCTTCTGTAG	MKKAFAFGCILAAAAYAAGVVLPFGVDIIFGAVTAVLIVTAIIVSGLAVSGAEQRANYHSETEEGRHARLKMAAVFFCAALPSAGCLLITLL				NA	NA	NA	NA	NA
D1-12_02447	375			hypothetical protein	ATGAAATATAATTACACCGTGCTGCTGTCGGCGGCATGTATGTCTGTCATTTATTCTATTTTGTATGTTCATCAATTCATTATCGCGGCTTTCATTTCGATGGCGTTTTATTTTTTGTTTCCTTATTTGATTTTTGCGCTGCCGCTTCAATACTTTCTGAATAAAAAGCCGAAGAGATTTCATCCGCTGTATTTTCTTTATTATTTAGGGGTGTCATTCATTGCAAACGGGATCATCTTCGGTCTTTTGCAGCCGTCAGGCCAATCTCTGTTTTCTAATTCAGCCTTTTATATCTTTGCGGTTTTAACAGCCGTCGTCTATTGGGTATGGGATTCCGTATTGCTGCAAAGACAAAATCCGGCTACAGAAGCGTAA	MKYNYTVLLSAACMSVIYSILYVHQFIIAAFISMAFYFLFPYLIFALPLQYFLNKKPKRFHPLYFLYYLGVSFIANGIIFGLLQPSGQSLFSNSAFYIFAVLTAVVYWVWDSVLLQRQNPATEA				NA	NA	NA	NA	NA
D1-12_02448	681			hypothetical protein	ATGAAACAGACGATGATGATCTGCATATATATTTTTCTTTTATTATCAGGAGCGCTTGCGGGTTTGACAAAAGAAGAAACAGCGCGGGCATCAGCCGATGAGCCCGTCGTCATACCGGATGAAGCGATCCGGCTCAGGATTTTGGCCAACAGTGATAACGATGAGGATCAAAAGCTCAAGCGCCAGATCAGAGATGCTGTAAACAAGCAAATCACGGACTGGGTGAAAGATATCACTTCCATTGAAGAAGCGCGGCGGCTCATTCGTTCGAAGCTTCCTGAAATTAAAGAAATCGCCAAACAAACGATGAAAGAAAAGGGTGCGCATCAATCCGTTTCAGTTCAATTCAATAAAATCTCGTTTCCGACAAAGCTGTACGGCAATATGGTCTATCCGGCCGGAAAATATGAAGCGATTTTAATTACACTTGGCAATGGCGAGGGCGCCAACTGGTGGTGCGTCTTGTTTCCGCCGCTGTGCTTCCTTGATTTCTCAAACGGCGAAGCGGTGAAAGATCAGGAAGACGGCGGACAGAAGCAGGAAGAAACGCAGAAACAGACAGAAAAAGTGCTGGATGACGTAAAAGCAAAGGCTGATAAAGCGAAGAAAGAAAATAAAGATGACGATGATACCGAAGTGAAGTTTTTCCTCGTCGATTGGATTTCAGATCTATTTTCCTGA	MKQTMMICIYIFLLLSGALAGLTKEETARASADEPVVIPDEAIRLRILANSDNDEDQKLKRQIRDAVNKQITDWVKDITSIEEARRLIRSKLPEIKEIAKQTMKEKGAHQSVSVQFNKISFPTKLYGNMVYPAGKYEAILITLGNGEGANWWCVLFPPLCFLDFSNGEAVKDQEDGGQKQEETQKQTEKVLDDVKAKADKAKKENKDDDDTEVKFFLVDWISDLFS	PGPT0024700_219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024700-spoIIR-K06387	NA	NA
D1-12_02449	444			hypothetical protein	ATGTTTTATCAGCTGAGAGTGGCAAGAGATCAAGATACCGAGGCGCTGGAGGCCTTTTTGAAAAAGTCTGATACGGCACATGCGGAAATCGATCAGCAGATCAGCCGGTTTATCGTGCTGGAAGACAGCGAAAAAAAGATTGCCGCCTGTCTCGGGATCGAAAAATTCAGCGGCGGAAAAGGGCTTCTCCGTTCACTCGTCATGTCGGACAGGCTGAATCAAAGCCATATCGTTACACTGTTTCAAAGTATGGATGTGCTGTGCAAAAAACATGAGATTCAAGATGTCTACTTAGTCGCCAATCAGCCCTCATCTGCTGAGTTTCTGAATGTGATGGGATTTGAAGCGTGCGCCGATGCGCCTGATGAACTGTATACGTCCGAACATTTCCGCAACTCGTTATGCACAGAAGGTTCGTTTTTAATGGTGAAAACCTCTGCCTGA	MFYQLRVARDQDTEALEAFLKKSDTAHAEIDQQISRFIVLEDSEKKIAACLGIEKFSGGKGLLRSLVMSDRLNQSHIVTLFQSMDVLCKKHEIQDVYLVANQPSSAEFLNVMGFEACADAPDELYTSEHFRNSLCTEGSFLMVKTSA				NA	NA	NA	NA	NA
D1-12_02450	1041	ywlC	COG0009	Threonylcarbamoyl-AMP synthase	ATGAAAACAAGAAGATGGTTTGTGGATTGTTCCGCAGAATTATCCACAACCGATCCCCAGATTACACAAGCCGCGGAATTGCTCCGGCAGAATGAGGTTGTGGCTTTTCCGACAGAAACCGTTTACGGACTGGGCGCTAACGCTGAAAATACGGAAGCCGTAACGAAAATATATGAGGCGAAAGGAAGGCCGAGCGATAACCCGCTGATTGTGCATATATCCCATATCAGCCAGCTTGATCGTTTTATCAGCCATATTCCTGAGACGGCGAAAAAGCTTATGGAGCTATTCTGGCCGGGGGCGCTGACCCTTGTCCTGCCGTGTAAGCCCGGTGTACTGTCACCCCGTGTCACCGCGGGACTTGAGACGGTAGCGGTCAGAATGCCTGATCATCCGGCAGCATTAGCCCTCATCAGCTCGGCCGGACTGCCGATCGCCGCGCCGAGCGCCAATTTATCAGGAAAACCGAGCCCGACAAAGGCCGAGCATGTAGCTCATGATTTAAACGGCCGTATTGCGGGTATTGTGGACGGCGGCGCGACGGGAATCGGAGTGGAATCAACCGTTCTGTCCTGTACGGGGAAACAGCCCGTGCTGCTTCGTCCGGGAGGCGTGACAAAAGAGCAGATTGAATCCGCCGCCGGTCCGGTTCTTGTGGATAAAGGGCTGACCGAAGAAGATGAGGTTCCTATTTCTCCCGGTATGAAATATACACATTACGCGCCTTCTGCGCCGATGGCTATTGCTGGCGGCGGCGCCCGGAGAATTCAAGAACTGGCAGACGCATATAAAAGCCGGGGAAAACGAATCGGCATTTTGACAACAGAAGAGAACGCCGATAGTTACCAGGCTGATTATATCAAGGTCTGCGGCAGACGCGCCGACCTTGAAACAGTGGCGTCCGCCTTATACGATGCGCTCCGCAGCTTTGATGAAGCGGAAGTGGATATGATTATTTCTGAGTCCTTTCCGGATACCGGAGTGGGGCTCGCCGTTATGAACAGGCTGATGAAAGCCGCAGGCGGCACCGTTATCCATTAA	MKTRRWFVDCSAELSTTDPQITQAAELLRQNEVVAFPTETVYGLGANAENTEAVTKIYEAKGRPSDNPLIVHISHISQLDRFISHIPETAKKLMELFWPGALTLVLPCKPGVLSPRVTAGLETVAVRMPDHPAALALISSAGLPIAAPSANLSGKPSPTKAEHVAHDLNGRIAGIVDGGATGIGVESTVLSCTGKQPVLLRPGGVTKEQIESAAGPVLVDKGLTEEDEVPISPGMKYTHYAPSAPMAIAGGGARRIQELADAYKSRGKRIGILTTEENADSYQADYIKVCGRRADLETVASALYDALRSFDEAEVDMIISESFPDTGVGLAVMNRLMKAAGGTVIH				NA	NA	NA	NA	NA
D1-12_02451	558	mntP	COG1971	putative manganese efflux pump MntP	ATGTCGAATCTATTCATCGGGGAACTTGTCTCCTTAAGCATCATGGCATTTGCTTTGGGGACGGATGCCTTTTCCGTCGGGCTCGGAATGGGAATGATTCAGCTGAAGAAAAAACAGATTTTTCATATAGGGGTTGTCATCGGGCTGTTTCATGTCATGATGCCGCTTGTGGGAATGGCGGCCGGGCATCTGCTGTCCGGTTTTCTGGGGATGCTCGCCGTTTACATCGGCGGATCTCTTCTTTTCATTTTAGGGGTGCAGATGATGATCGCCGCGTTTAAACAATCGGACGGGCCGCTCATATCTCCGGCAGGCTCGGGACTGTTGCTGTTTGCGGTCGGTGTCAGTCTGGACAGCTTTTCTGTCGGGCTCAGTCTCGGGATGAACGGCTCCAATCCGTTTCTGGCCGTTACGCTGTTCGGGGTCTTCAGCACCGTCTTAACATGGGCGGGCCTTTTGGCGGGAAGAAAGGTGCAGTCGTGGCTCGGCTCCTACAGCGAAGCGCTTGGCGGAGCCATTTTGATCGGATTCGGGCTGAAACTGCTTTTACCGATATAA	MSNLFIGELVSLSIMAFALGTDAFSVGLGMGMIQLKKKQIFHIGVVIGLFHVMMPLVGMAAGHLLSGFLGMLAVYIGGSLLFILGVQMMIAAFKQSDGPLISPAGSGLLLFAVGVSLDSFSVGLSLGMNGSNPFLAVTLFGVFSTVLTWAGLLAGRKVQSWLGSYSEALGGAILIGFGLKLLLPI	PGPT0004375_787	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004375-mntP-K23242	NA	NA
D1-12_02452	456	ywlE	COG0394	Protein-arginine-phosphatase	ATGAAAATAATCTTTGTTTGTACAGGCAATACGTGCCGCAGTCCCATGGCTGAGGCTCTTTTTAAATCCATAGCAGAAACGAAAGGGCTGGATGTCAGCGTAAGCTCGGCCGGCGTATTCGCGTCTCCGCACGGAAAAGCGTCGGCTCATGCCGTAGAAGCGCTGTTTGAAAAACGGATCGCCCTCAATCACAGTTCATCTCCCTTATCGGAAGAACATATTGAGACGGCCGATCTGGTGCTGGCGATGACCGAACAGCACAAACAGCTGATTGAAGGCCGATATCAAAACAGTCAGGGCAAAGTTTTTACCATTAAAGAATACGTGACGGGGGAAAGCGGCGATATCTCTGACCCGTTCGGCGGTCCGCTTGATGTTTATAAACAGACGCGGGACGAACTGGAGGAGCTGCTGACCCTTTTGGCTGATCAATTGCTTGACGGGAAAAGCAAGTAA	MKIIFVCTGNTCRSPMAEALFKSIAETKGLDVSVSSAGVFASPHGKASAHAVEALFEKRIALNHSSSPLSEEHIETADLVLAMTEQHKQLIEGRYQNSQGKVFTIKEYVTGESGDISDPFGGPLDVYKQTRDELEELLTLLADQLLDGKSK	PGPT0014530_6405	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
D1-12_02453	450	ywlF	COG0698	Putative sugar phosphate isomerase YwlF	ATGAAAGTAGCTATTGCGTCAGATCACGGCGGCGTCCATATCCGCGAAGAAATAAAAAGTCTTTTGGATGAATTGCAGATTGAATACATTGATATGGGCTGTGAATGCGGCGCCGGCTCTGTCGATTATTCAGACTACGCTTTTCCGGTAGCGGAAAAAGTGGTGAACGGCGAAGCTGACAGGGGAATTTTAATTTGCGGCACAGGCATCGGCATGAGCATCTCCGCAAATAAGGTAAAGGGCATACGCTGTGCGCTTGCCCATGATACCTTCAGCGCAAAAGCGACGCGTGAACACAATGACACGAATGTTCTTGCGATGGGCGAACGCGTCATCGGCCCGGGGCTGGCGCGCGAAATCGCAAAAGTCTGGCTGACGACTGAATTTACGGGCGGCCGCCACGAACGGCGGATCGGCAAAATCGCAGATTACGAAGAAAAAAATCTGTAA	MKVAIASDHGGVHIREEIKSLLDELQIEYIDMGCECGAGSVDYSDYAFPVAEKVVNGEADRGILICGTGIGMSISANKVKGIRCALAHDTFSAKATREHNDTNVLAMGERVIGPGLAREIAKVWLTTEFTGGRHERRIGKIADYEEKNL	PGPT0017395_1876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0017395-rpiB-K01808	NA	NA
D1-12_02454	543			hypothetical protein	ATGGAAGAGATGAAGCAAAAATGGACGGACATGCTGACTGAGTTTCAAGAGCAGGCAGGACTGACGGACGGCAGTCTGCTGGTGATCGGGTGCAGTACAAGTGAAGCCGCCGGAAGCCGGATCGGCACCGCCGGAAGCGGGGATTGGGCTGAATTGATATACGGCGGACTTAACCGGTTTAAGGAAAAAACGGGTGTGCATCTTGCTTTTCAATGCTGCGAGCATTTAAACAGGGCGCTTGTCATTGAAGCGGAAACGGCCGAGCGGTTCAGGCTCCCCATTGTTTCAGCCGTCCCCGTCCCGAAAGCGGGCGGAGCGATGGCCTCTTATGCATACCGGCAGATGCGTTCTCCCGTGCTCGCCGAATCGATTCAGGCTGACGCCGGGATTGACATCGGCGATACGTTCATCGGTATGCATCTGAAACCCGTTGCCGTCCCTGTCCGGATATCAATCCGTGAGCTTGGAGAAGCACATGTGACGATGGCCCGGACAAGACCGAAGCTGATAGGCGGAATTCGCGCCGTTTATGAATGCGAATGA	MEEMKQKWTDMLTEFQEQAGLTDGSLLVIGCSTSEAAGSRIGTAGSGDWAELIYGGLNRFKEKTGVHLAFQCCEHLNRALVIEAETAERFRLPIVSAVPVPKAGGAMASYAYRQMRSPVLAESIQADAGIDIGDTFIGMHLKPVAVPVRISIRELGEAHVTMARTRPKLIGGIRAVYECE				NA	NA	NA	NA	NA
D1-12_02455	1248	glyA	COG0112	Serine hydroxymethyltransferase	ATGAAACATTTACCTGTACAAGACAAACAAGTGTTTAACGCCATCAAAGATGAGCGTAAGCGTCAACAGACTAAGATCGAATTAATTGCTTCTGAAAACTTCGTGACGGAAGCGGTAATGGAAGCACAAGGCTCTGTTTTAACAAACAAATATGCTGAAGGCTACCCCGGCAAACGCTACTACGGCGGCTGTGAGCATGTTGATGTCGTCGAGGACATCGCCCGCGACCGCGCGAAAGAGATTTTCGGAGCTGAGCATGTAAACGTTCAGCCGCACTCAGGCGCCCAGGCGAACATGGCTGTTTACTTCACGATTTTAGAGCACGGCGACACGGTGCTCGGGATGAACCTCTCCCACGGCGGCCACTTAACACACGGAAGCCCGGTTAATTTCAGCGGCGTTCAATACAACTTTGTAGAATACGGTGTCGATAAAGACACGCAATATATAGATTATGAAGATGTGCGTGAAAAAGCGCTGGCGCATAAGCCGAAACTCATCGTTGCCGGAGCGAGCGCGTACCCCCGCACGATCGACTTTAAAAAATTCCGTGAAATCGCTGATGAAGTCGGCGCTTACTTCATGGTCGACATGGCGCATATCGCGGGTCTTGTCGCAGCCGGTCTTCATCCGAATCCGGTTCCTTACGCTGACTTTGTAACGACAACGACTCACAAAACACTTCGCGGACCCCGCGGAGGAATGATCCTTTGCCGTGAAGAGTTCGGCAAAAAGATTGATAAATCCATTTTCCCGGGAATCCAAGGCGGACCGCTTATGCATGTCATCGCGGCCAAAGCCGTTTCTTTCGGAGAAGTGCTTGAAGATGAGTTCAAAACATATGCGCAAAACGTCATCTCGAACGCGAAGCGCCTGGCTGAGTCTCTGAACAAAGAGGGCATTCAGCTCGTATCAGGCGGAACGGATAACCACCTTGTGCTTGTTGACCTCCGTTCTCTCGGTCTGACCGGAAAAGTCGCTGAACACGTTCTTGATGAAATCGGCATTACATCTAATAAAAACGCGATCCCTTACGATCCGGAAAAACCGTTCGTCACAAGCGGAATCCGTCTCGGTACGGCAGCTGTGACAAGCCGCGGCTTTGACGGTGACGCGCTTGAAGAAGTCGGCGCCATCATCGGCCTCGCACTGAAAAATCATGAAGACGAAGCAAAACTTGAAGAAGCGAGACAGCGCGTATCTGCCTTGACTGAAAAGTTTCCTTTATATAAAGAACTGGACTATTAA	MKHLPVQDKQVFNAIKDERKRQQTKIELIASENFVTEAVMEAQGSVLTNKYAEGYPGKRYYGGCEHVDVVEDIARDRAKEIFGAEHVNVQPHSGAQANMAVYFTILEHGDTVLGMNLSHGGHLTHGSPVNFSGVQYNFVEYGVDKDTQYIDYEDVREKALAHKPKLIVAGASAYPRTIDFKKFREIADEVGAYFMVDMAHIAGLVAAGLHPNPVPYADFVTTTTHKTLRGPRGGMILCREEFGKKIDKSIFPGIQGGPLMHVIAAKAVSFGEVLEDEFKTYAQNVISNAKRLAESLNKEGIQLVSGGTDNHLVLVDLRSLGLTGKVAEHVLDEIGITSNKNAIPYDPEKPFVTSGIRLGTAAVTSRGFDGDALEEVGAIIGLALKNHEDEAKLEEARQRVSALTEKFPLYKELDY	PGPT0008090_6295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-12_02456	630	upp		Uracil phosphoribosyltransferase	ATGGGAAAGGTTTACGTATTTGATCATCCTTTAATCCAGCATAAGCTGACATATATTCGGAATGAAAATACAGGCACAAAGGATTTCAGAGACCTTGTGGACGAAGTCGCATCACTGATGGCGTTTGAAATTACACGTGATCTTCCTCTTAAAGAAGTGGAAGTGAAAACACCTGTTCAAACAGCGACATCCAAAGTGATTTCAGGGAAGAAACTCGGTATCGTGCCGATCCTGAGAGCGGGTCTCGGAATGGTTGACGGCATGCTGAAATTAATCCCGGCCGCTAAAGTGGGACATGTCGGATTATACCGTGATCCGGAAACCTTAAAACCGGTGGAATACTATGTCAAGCTTCCTTCTGATGTAGAAGAACGCGAATTTATTGTCGTGGATCCGATGCTTGCTACGGGAGGCTCTGCGGTGGAAGCGATAAACAGCCTGAAAAAGCGCGGCGCGAGAAACATTCGTTTTATGTGTCTTGTAGCGGCTCCGGAAGGCGTGGAAGAGCTGATGAAACATCATTCTGACGTTGATATTTATATCGCCGCCCTTGATGAAAAACTGAATGAAAAAGGCTATATCGTTCCGGGCCTCGGTGACGCGGGTGACAGACTGTACGGAACCAAATAA	MGKVYVFDHPLIQHKLTYIRNENTGTKDFRDLVDEVASLMAFEITRDLPLKEVEVKTPVQTATSKVISGKKLGIVPILRAGLGMVDGMLKLIPAAKVGHVGLYRDPETLKPVEYYVKLPSDVEEREFIVVDPMLATGGSAVEAINSLKKRGARNIRFMCLVAAPEGVEELMKHHSDVDIYIAALDEKLNEKGYIVPGLGDAGDRLYGTK	PGPT0021240_2851	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
D1-12_02457	384			hypothetical protein	ATGGACGATCCCAATCTTACATTCAGCAGACAACGAAGATATGTATTTGTGATCTTAGCAATCTATTTGCTGGGATATGGTCTTACGGCGTATAAAACTGTTTTTTTAGGCCTCTTTTTGGGAACTGTTTTCAGTTTGTTTAATTTGTGGCTCTTGACCAGAAGAATGAATGCTTTTGACAAGGCCGTGGCGAAAGGAAAGTCCATACGATCACTCGGGAGCGCAGCGCGTTGGTGCAATGCGATACTTGCGATGGCTGTCGCCTTTAAATATCCCGATAAAGTCAGTGTGGCAAGTGTGATTATTGGATTAATGACAATTTATCCCGTCATTATGATAGATTCCATTATTCAGCTCAAACGTTCATCAATGGAAGAGAGGTGA	MDDPNLTFSRQRRYVFVILAIYLLGYGLTAYKTVFLGLFLGTVFSLFNLWLLTRRMNAFDKAVAKGKSIRSLGSAARWCNAILAMAVAFKYPDKVSVASVIIGLMTIYPVIMIDSIIQLKRSSMEER	PGPT0030480_1179	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
D1-12_02458	735	atpB	COG0356	ATP synthase subunit a	TTGAATCACGATTACAGAACTATTGATTTGTTTGGTCTTACTTTTAATCTGACAAACATTCTGATGATTACTGTGGCAAGTGTGATTGTGCTGCTGATTGCGATTCTTACTACGAGAACGCTGTCTATACGTCCAGGAAAAGCCCAGAACTTCATGGAATGGATTGTTGATTTTGTCCGCAATATTATAGGCAGTACAATGGATTTAAAAACAGGGGCTAACTTCTTGGCGCTTGGTGTAACCTTGCTGATGTACATATTTGTATCAAATATGCTGGGGCTGCCGTTTTCTGTAACGGTCGGACACGAGCTTTGGTGGAAATCACCGACGGCCGATCCGGCTATTACTCTGACTCTAGCCGTTATGGTTGTGTCGTTAACGCACTATTACGGCGTGAAGATGAAAGGTTTGAAGGAATACTCTAAGGATTACCTCAGACCGGTTCCGCTTATGTTCCCGATGAAGATCATTGAGGAGTTTGCGAATACGCTGACACTCGGACTTCGTCTTTACGGTAACATTTTCGCCGGGGAAATTCTTCTTGGCCTGCTTGCGAATCTGGCGACGAATTTCTACTCAAACAGCTTCTTTCTCGGTTTGGTCGGCACAGTCGGAGCCATTCTTCCGATGCTTGCATGGCAGGCGTTCAGCTTGTTCATCGGGACCATCCAGGCATTTATCTTTACGATGCTGACGATGGTGTACATGTCACACAAAATCAGTCATGATCATTAA	MNHDYRTIDLFGLTFNLTNILMITVASVIVLLIAILTTRTLSIRPGKAQNFMEWIVDFVRNIIGSTMDLKTGANFLALGVTLLMYIFVSNMLGLPFSVTVGHELWWKSPTADPAITLTLAVMVVSLTHYYGVKMKGLKEYSKDYLRPVPLMFPMKIIEEFANTLTLGLRLYGNIFAGEILLGLLANLATNFYSNSFFLGLVGTVGAILPMLAWQAFSLFIGTIQAFIFTMLTMVYMSHKISHDH	PGPT0014303_3424	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
D1-12_02459	213	atpE	COG0636	ATP synthase subunit c	ATGAATTTAATAGCAGCTGCAATTGCAATCGGTTTAGGTGCACTTGGTGCAGGTATTGGTAACGGTCTGATCGTTTCACGTACGGTAGAGGGAATCGCCCGTCAGCCGGAAGCAGGAAAAGAACTTAGAACTCTTATGTTCATGGGTATCGCATTGGTTGAGGCCCTTCCGATTATCGCTGTCGTTATCGCGTTCTTAGCGTTCTTTGGCTAA	MNLIAAAIAIGLGALGAGIGNGLIVSRTVEGIARQPEAGKELRTLMFMGIALVEALPIIAVVIAFLAFFG	PGPT0014302_2950	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
D1-12_02460	513	atpF	COG0711	ATP synthase subunit b	ATGTCTCAATTACCTCTTGAATTAGGACTGTCGTTTAACGGCGGAGATATCCTATTCCAATTGTTAGCTATGTTAGTTTTATTAGCGCTTCTCAAGAAATTCGCTCTTGGACCGCTATTAAATATAATGAAACAGCGTGAAGATCATATCGCCGGCGAAATTACGTCCGCTGAAGAAAGAAATAAAGAAGCGCAGAAGCTGATTGAAGAGCAGCGCGTTCTTTTAAAAGAAGCGAAACAGGAATCACAATCACTCATTGAAAATGCGAAAAAACTGGGTGAAAAGCAGAAGGAAGACATTATTCAGGCTGCACGTGCCGAGTCTGAAAGATTGAAAGAAGCGGCGAGAACCGAAATTGTCAAAGAAAAAGAACAAGCGGTTTCCGCACTTCGCGAGCAAGTCGCATCACTTTCTGTCTTAATCGCATCGAAAGTGATTGAAAAAGAGCTTGATGAACAAGCCCAGGAACAACTGATTCAGGACTATCTTAAAGAGGTAGGAGAAAGCCGATGA	MSQLPLELGLSFNGGDILFQLLAMLVLLALLKKFALGPLLNIMKQREDHIAGEITSAEERNKEAQKLIEEQRVLLKEAKQESQSLIENAKKLGEKQKEDIIQAARAESERLKEAARTEIVKEKEQAVSALREQVASLSVLIASKVIEKELDEQAQEQLIQDYLKEVGESR	PGPT0014301_2779	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
D1-12_02461	546	atpH	COG0712	ATP synthase subunit delta	ATGAGTGGATCTGCTGTCTCTAAACGATACGCGTCAGCGCTTTTCGACATTGCCGTTGAGACTTCTCAAATCAATGAAATCGAAGAAGAGCTTACCGTACTAAAAGAAGTGTTCCGGAACGAAGCCGGATTACAGGAAGTGTTAAGCCATCCGAAGGTATCGGCCGCTAAGAAAAAAGAGCTGATTCAGCAATCGTTCGGCGCACTGTCTGAGTCTGTGCTGCATACGATTTTTCTTCTGATTGACCGCCGCCGGTCTTCGATTGTGCCTGATCTCACAGACGAGTTTATCAAACTTGCCAATCAGGCCCGTCAGACAGAGGACGCGGTTGTTTATTCAGTAAAACCGCTGTCAGAAGCGGAAATGTTATCATTGTCTCAAGTGTTTGCAAAAAAAGCCGGAATCGCTTCGCTCAGAATCAGAAATGAAGTGCAGACGGATTTAATAGGCGGCATTAAAGTCCGCATTGGAAACCGGATTTATGACGGAAGCGTGAGCGGAAAGCTTGAGCGCATGGAACGTCAACTTGCCGGAGGAAATCGATAG	MSGSAVSKRYASALFDIAVETSQINEIEEELTVLKEVFRNEAGLQEVLSHPKVSAAKKKELIQQSFGALSESVLHTIFLLIDRRRSSIVPDLTDEFIKLANQARQTEDAVVYSVKPLSEAEMLSLSQVFAKKAGIASLRIRNEVQTDLIGGIKVRIGNRIYDGSVSGKLERMERQLAGGNR	PGPT0014299_2221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
D1-12_02462	1509	atpA	COG0056	ATP synthase subunit alpha	GTGAGCATCAAAGCTGAAGAGATTAGCACGCTGATAAAGCAGCAAATTCAAAATTACCAATCTGAAATTGAAGTTCATGACGTAGGTACAGTCATCCAAGTCGGAGACGGTATTGCGCGTGTGCACGGCCTTGACAATTGTATGGCCGGTGAACTTGTTGAGTTTTCAAACGGCGTTTTGGGTATGGCTCAAAACCTTGAAGAATCCAACGTAGGTATCGTTATCTTAGGACCTTACAGAGATATCCGTGAAGGTGATGAGGTCAAAAGAACGGGCCGCATCATGGAAGTTCCTGTAGGTGAAGAATTAATCGGACGTATCGTCAACCCGCTCGGACAGCCGGTAGACGGACTGGGTCCGATTCTGACAAGCAAAACACGTCCGATCGAAAGCCCGGCTCCAGGCGTAATGGACCGTAAATCAGTACATGAGCCGCTGCAAACGGGTATCAAAGCGATCGACGCGTTAATTCCGATCGGCCGCGGACAGCGTGAGCTGATTATCGGGGACCGTCAGACAGGTAAAACATCTGTTGCGATTGATACAATCTTGAACCAAAAAGATCAAGACATGATCTGTGTGTACGTAGCGATCGGCCAGAAAGAATCTACAGTGCGCGGCGTAGTGGAAACACTTCGTAAGCATGGCGCGCTTGATTACACGATTGTCGTGACGGCGTCCGCTTCACAGCCGGCTCCGCTTCTGTACCTTGCACCGTATGCAGGGGTGACAATGGGTGAAGAATTCATGTACAACGGCAAGCACGTTCTCGTCGTATATGATGATTTATCCAAACAAGCGGCCGCTTATCGTGAGCTGTCATTGCTTCTTCGCCGTCCGCCGGGCCGTGAAGCATTCCCTGGGGATGTATTCTATCTTCACTCCCGTCTGCTTGAGCGCGCAGCCAAGCTGAGTGACGCAAAAGGCGCAGGATCAATTACGGCGCTGCCGTTCGTCGAAACACAAGCAGGAGATATCTCCGCTTATATCCCGACAAACGTCATTTCCATTACTGACGGACAGATTTTCCTTCAATCCGACCTATTCTTCTCAGGCGTGCGTCCTGCGATCAATGCCGGATTATCCGTATCCCGTGTCGGCGGATCAGCCCAAATCAAAGCGATGAAAAAGGTAGCTGGAACATTGCGTCTTGACCTGGCTTCATACCGTGAACTTGAAGCGTTCGCCCAATTCGGATCTGATCTTGACCAGGCGACTCAGGCGAAACTGAACCGCGGTGCGCGTACAGTTGAAGTGCTGAAACAAGACTTGAATAAACCGCTCCCGGTTGAAAAACAGGTAGCCATTCTTTATGCGCTGACAAAAGGATATCTTGATGATATTCCGGTTGCGGATATCAGACGTTTTGAAGAAGAGTACTACATGTACCTTGATCAAAACCATAAAGATTTGCTTGACGGCATTGCGAAAACAGGAAACCTTCCTGCTGATGAAGACTTCAAAGCTGCAATCGAAGGCTTCAAACGCACATTTGCACCAAGCAACTAA	MSIKAEEISTLIKQQIQNYQSEIEVHDVGTVIQVGDGIARVHGLDNCMAGELVEFSNGVLGMAQNLEESNVGIVILGPYRDIREGDEVKRTGRIMEVPVGEELIGRIVNPLGQPVDGLGPILTSKTRPIESPAPGVMDRKSVHEPLQTGIKAIDALIPIGRGQRELIIGDRQTGKTSVAIDTILNQKDQDMICVYVAIGQKESTVRGVVETLRKHGALDYTIVVTASASQPAPLLYLAPYAGVTMGEEFMYNGKHVLVVYDDLSKQAAAYRELSLLLRRPPGREAFPGDVFYLHSRLLERAAKLSDAKGAGSITALPFVETQAGDISAYIPTNVISITDGQIFLQSDLFFSGVRPAINAGLSVSRVGGSAQIKAMKKVAGTLRLDLASYRELEAFAQFGSDLDQATQAKLNRGARTVEVLKQDLNKPLPVEKQVAILYALTKGYLDDIPVADIRRFEEEYYMYLDQNHKDLLDGIAKTGNLPADEDFKAAIEGFKRTFAPSN	PGPT0014298_4383	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
D1-12_02463	864	atpG	COG0224	ATP synthase gamma chain	TTGGCCTCATTACGCGATATTAAGTCAAGGATCACGTCAACGAAAAAAACAAGCCAGATTACAAAAGCCATGCAGATGGTATCCGCTGCGAAGCTGAACCGTGCGGAAACCAACGCGAAGTCATTTGCTCCGTATATGGATAAGATCCAGGAGGTTGTGTTTAACGTCGGAAAAGGCGCGAAAAACGCGAAACACCCGATGCTTGTCTCAAGAGAAGTGAAAAAGACGGCGTATCTCGTCATTACGTCTGACCGCGGGCTTGCGGGTGCGTTTAACAGTTCGGTTTTGCGAAACGCTTACCGCACCATTCAAGAACGCCATCAGTCTAAAGATGAATACACGGTGATTGCAATCGGCAGAGTCGGCCGCGATTTCTTCAAAAAACGGGAGATGCCGATTTTGTCTGAGTTAGTGGGGCTTGGCGACGAGGTCACTTTTGCTCAGATTAAAGATTTGACCCGTCAGACGGTTCAAATGTTTATCGACGGCGCTTTTGATGAACTGCATTTGGTGTATAACCATTTCGTCAGTGCGATTTCACAGGAAGTGACGGAGAAAAAAGTGCTGCCTTTAACGGATTTCGGAACGAGCGGCGGGAAGCGCACGGCTTCTTACGAGTTCGAACCGGATGAAGAAGAGGTGCTCGAAGTGCTGCTTCCTCAATATGCGGAAAGCTTAATTTACGGCGCGCTTCTTGACAGTAAAGCAAGTGAACACGCTGCGAGAATGACAGCAATGAAAAATGCGACGGATAATGCGAAAGAACTCATTGATTCACTTTCGCTTTCATATAACCGCGCGCGTCAAGCGGCGATTACACAAGAAATTACCGAAATTGTCGGCGGTGCAGCCGCTTTAGAATAG	MASLRDIKSRITSTKKTSQITKAMQMVSAAKLNRAETNAKSFAPYMDKIQEVVFNVGKGAKNAKHPMLVSREVKKTAYLVITSDRGLAGAFNSSVLRNAYRTIQERHQSKDEYTVIAIGRVGRDFFKKREMPILSELVGLGDEVTFAQIKDLTRQTVQMFIDGAFDELHLVYNHFVSAISQEVTEKKVLPLTDFGTSGGKRTASYEFEPDEEEVLEVLLPQYAESLIYGALLDSKASEHAARMTAMKNATDNAKELIDSLSLSYNRARQAAITQEITEIVGGAAALE	PGPT0014297_3655	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
D1-12_02464	1422	atpD	COG0055	ATP synthase subunit beta	ATGAAGAAAGGACGCGTAAGTCAGGTGCTTGGACCGGTTGTCGACGTACGTTTCGAGGACGGCCACTTGCCTGCGATTTATAATGCGATTAAAGTTTCACAGCCAGCTACAGGCGAAAATGAAGTAGGCATCGACCTAACGCTAGAGGTTGCTCTTCATTTAGGCGATGATACAGTCCGTACAATTGCCATGGCATCTACGGACGGAATTCAGCGCGGAATGGAAGCTGTTGATACAGGTGCGCCGATTTCCGTTCCTGTCGGTGATGTGACTCTCGGACGCGTATTTAACGTACTGGGAGATAAAATTGATTTAAATGAACCGCTGCCTGCGGATGCTCAAAAGGACCCGATCCACAGATCAGCTCCTTCATTCGATGAGCTTTCAACTGAGGTTGAAATTCTTGAAACGGGAATTAAGGTTGTTGACCTGCTCGCTCCTTACATCAAGGGCGGTAAAATCGGATTGTTCGGCGGCGCCGGCGTAGGTAAAACCGTATTAATCCAGGAATTAATCAACAATATCGCGCAAGAGCACGGCGGTATTTCCGTATTCGCCGGTGTAGGAGAGCGTACTCGTGAAGGGAACGACCTTTTCTACGAAATGAGCGATTCAGGCGTTATTAAGAAAACAGCCATGGTCTTCGGACAAATGAACGAGCCGCCGGGCGCACGTATGCGTGTAGCACTGACGGGTCTTACAATGGCTGAGCATTTCCGTGATAAACAAGGACAGGACGTACTGTTCTTTATCGATAACATTTTCCGTTTCACACAAGCGGGTTCAGAGGTTTCTGCGCTTCTCGGCCGTATGCCTTCTGCGGTTGGTTATCAGCCGACGCTTGCGACAGAAATGGGTCAGCTTCAAGAGCGTATTACGTCTACAAACGTTGGTTCAGTTACATCTATCCAGGCGATCTACGTGCCTGCCGATGACTACACTGACCCGGCTCCGGCGACAACGTTCGCTCACTTGGATGCGACGACTAACCTTGAGCGTAAATTAACTGAAATGGGTATCTACCCTGCGGTTGATCCGCTGGCTTCCACTTCCCGCGCGCTTGCTCCGGAAATTGTCGGAGAAGAGCATTATGCGGTGGCGCGTGAAGTCCAGTCAACGCTTCAGCGTTACAAAGAACTTCAGGATATTATCGCGATTCTCGGTATGGACGAATTAGGTGAAGAAGACAAGCTTGTCGTTCACCGCGCACGCCGTATCCAGTTCTTCCTTTCTCAAAACTTCCACGTAGCTGAGCAGTTTACGGGACAAAAGGGTTCTTACGTGCCTGTTAAAGAAACGGTACGAGGCTTTAAAGAAATCCTTTCCGGTAAATATGACCATCTTCCGGAAGATGCATTCCGTCTTGTGGGACGCATTGAAGAAGTCATTGAGAATGCAAAAGAGATGGGTGTAGAAGTTTAA	MKKGRVSQVLGPVVDVRFEDGHLPAIYNAIKVSQPATGENEVGIDLTLEVALHLGDDTVRTIAMASTDGIQRGMEAVDTGAPISVPVGDVTLGRVFNVLGDKIDLNEPLPADAQKDPIHRSAPSFDELSTEVEILETGIKVVDLLAPYIKGGKIGLFGGAGVGKTVLIQELINNIAQEHGGISVFAGVGERTREGNDLFYEMSDSGVIKKTAMVFGQMNEPPGARMRVALTGLTMAEHFRDKQGQDVLFFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLATEMGQLQERITSTNVGSVTSIQAIYVPADDYTDPAPATTFAHLDATTNLERKLTEMGIYPAVDPLASTSRALAPEIVGEEHYAVAREVQSTLQRYKELQDIIAILGMDELGEEDKLVVHRARRIQFFLSQNFHVAEQFTGQKGSYVPVKETVRGFKEILSGKYDHLPEDAFRLVGRIEEVIENAKEMGVEV	PGPT0014296_2231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
D1-12_02465	399	atpC	COG0355	ATP synthase epsilon chain	ATGAAGACCGTTAAAGTCAATATCGTTACTCCCGACGGCCCAGTATATGATGCTGATATTGAAATGGTAAGTGTAAGAGCCGAGAGCGGTGATCTCGGTATCTTGCCTGGCCATATTCCGACCGTGGCTCCGCTTAAAATCGGCGCTGTCCGCCTTAAAAAAGACGGGCAGACCGAATTGGCGGCTGTCAGCGGCGGATTTTTAGAAGTCCGTCCTGATCAGGTCACTATCCTTGCACAAGCCGCTGAAACAGCGGAAAGCATTGATAAAGAGCGCGCCCTTGCTGCGAAAAAGCGGGCGGAAGACCGTTTGAACAAACGATCAGATGATACTGACATTCGTCGGGCTGAGCTTGCGTTACAGCGGGCTGTAAACAGATTGGATGTTGCAGGAAACTAA	MKTVKVNIVTPDGPVYDADIEMVSVRAESGDLGILPGHIPTVAPLKIGAVRLKKDGQTELAAVSGGFLEVRPDQVTILAQAAETAESIDKERALAAKKRAEDRLNKRSDDTDIRRAELALQRAVNRLDVAGN	PGPT0014295_2945	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
D1-12_02466	471			hypothetical protein	ATGAATCATTCCTTTTTTCATCCGGAAAAGCAGTATGGAGAAACACTTCCCGTATTTGACCACGAGTGGGAAGCGATAGCATTCTACTATGATTATAGACAGTCTCAAACAGAGGAACTGAAAGAATTATGTCAGTTTTTCAACATTTCTCTTGATTATTCACGCGGCAGCCTGCTGGAAGTGGAAGCTCTTTACTTCCGCAGCATAAAAGAGCTGCTTTTGGCGGATTGGAACCTGCCGATTGACGAATTTGAGAAAATGCTCAGCGTGTATGTCATCGATTGCGCCATCAGACACCATGACGATGCCGAATGGGTCGTCAAACCTTATCCGTATACGGACGGCGCTTATACGACGGGTGTGCGGAGAGGAAACAAAACGTGGCACACCGACAACTGCTGCGAACATTTATATCTGCAAAAAGAAGAGGATCATCCGCTTATCGGCGTCTATGAATCTCTTATGCGTTAA	MNHSFFHPEKQYGETLPVFDHEWEAIAFYYDYRQSQTEELKELCQFFNISLDYSRGSLLEVEALYFRSIKELLLADWNLPIDEFEKMLSVYVIDCAIRHHDDAEWVVKPYPYTDGAYTTGVRRGNKTWHTDNCCEHLYLQKEEDHPLIGVYESLMR				NA	NA	NA	NA	NA
D1-12_02467	231			hypothetical protein	GTGAATGTATTGGGGCAGCAGGCCGCAATCAGCATCCTGGTTCACCTGGTATGCATTGCGGTGACATGGTGGGCGCTTCAGGCCGTCAACTTTGATCCGCTGATCCGAAAAGGAAAAATAGTGCAGGCGAGGCTGCTGATCATTCTTCTTACCATTGCGATCGGTACGGCAGTCGCTGACTTCTTTTTAGATTATCTTACCTATTCGAAACAGCTTCCATACTTATTTTAA	MNVLGQQAAISILVHLVCIAVTWWALQAVNFDPLIRKGKIVQARLLIILLTIAIGTAVADFFLDYLTYSKQLPYLF				NA	NA	NA	NA	NA
D1-12_02468	741	ywmB		putative protein YwmB	ATGAAGAAAAAAAGAGCAGGCCGCATCATCTTATTTTTTGTTTTTTTAAGCGCCTTAATAGCGGTATTTCATTCCATTCATGCAAGTGAGCTGTCTCCGCTTGCCCAGATTGCCGAAGGAATGGAGCGGCAACATGTCACTGTAGATGAATGGACGCTTCATGCGAAAGAAAATCTGAACCTGTCACTGAGTGAATTTGATGACAAGGTAAAAGAACTGAAGACGCAGTATCCGCAATATCACTGGAAAACCGCGCGGGAAGATAAAATCGTAAAGGCCGTCGGCACGTATTCTGACAAAAAAAATCACACAACTTTTAAACTGCAGCTCGTCACTACCCTCAAAAACCAGAACCCAACTTCGTATTTATTATATGAGCAAATGAGCCCGGAGCAACCGGAAAACTGGAATGATACATATGAACAGTTTGAACGGCAGGCACATGACATATTTCAAAATAAAGTATTTATTTTTACTTGTCTAAAGGGTCATTTAAATGATAATATGAGTATTGTTTTGCAAAAAAAAGCAGAACAGCTCATGAAAGAATTTGAAGCAAGTCCAGTTGAACATGTAGTTGAGCCTCATTTCGTTTCTGTTTCTGCATTTACATATAAGTGGACAGATTACATCATGACATCGAAACATAAGATGAATGTGCAAGTTGCGCTTAGAAGTGCGGGAATGGGCGAAAAACATACCGTTACGGTTGGCACACCAATCGTGACGACTGAATATTAA	MKKKRAGRIILFFVFLSALIAVFHSIHASELSPLAQIAEGMERQHVTVDEWTLHAKENLNLSLSEFDDKVKELKTQYPQYHWKTAREDKIVKAVGTYSDKKNHTTFKLQLVTTLKNQNPTSYLLYEQMSPEQPENWNDTYEQFERQAHDIFQNKVFIFTCLKGHLNDNMSIVLQKKAEQLMKEFEASPVEHVVEPHFVSVSAFTYKWTDYIMTSKHKMNVQVALRSAGMGEKHTVTVGTPIVTTEY				NA	NA	NA	NA	NA
D1-12_02469	1311	murAA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1	TTGGAAAAAATCATCGTCCGCGGCGGTCAGAAGTTAAACGGCACAGTGAAAGTTGAAGGAGCAAAAAATGCCGTTTTACCAGTTATCGCTGCATCTTTATTAGCAAGTGAAGAAAAAAGCGTAATATGTGATGTACCTACGCTCTCCGATGTATATACAATCAACGAAGTGTTGCGTCATTTAGGAGCAGATGTGCATTTTGAGAATAATGAAGTTACCGTAAACGCTTCTTACGCTTTAGAAACAGAAGCACCTTTTGAATATGTGCGTAAAATGCGCGCGTCAGTGCTTGTTATGGGCCCTCTGTTAGCCCGTACGGGTCATTCAAGAGTAGCGCTTCCGGGCGGCTGCGCAATCGGCTCAAGACCGATTGATCAGCATTTAAAAGGCTTTGAAGCAATGGGTGCAAAAATCAAAGTAGGCAACGGCTTTATTGAAGCAGAAGTGGAAGGCCGTCTGCAGGGCGCAAAAATCTATTTAGATTTCCCAAGTGTGGGTGCGACAGAAAACTTGATTATGGCAGCTGCTTTAGCTGAAGGAACAACAACGCTTGAAAACGTGGCAAAAGAGCCTGAAATCGTTGACTTAGCGAACTATATCAATGCGATGGGCGGAAAAATCCGCGGAGCCGGCACAGGCACCATTAAAATTGAAGGTGTCGAGAAGCTTCACGGCGTAAGACACAACATCATTCCTGACCGTATTGAAGCGGGTACTTTCATGGTGGCTGCGGCTATCACGGAAGGAAATGTATTAGTCAAAGGTGCGGTTCCTGAGCATCTTACGTCTTTAATTGCGAAGATGGAAGAAATGGGAGTCAAAATTACGGATGAAGGAGAAGGCCTTCGTGTCATCGGTCCTGCCCAGCTGAAGCCGATCGACATTAAAACGATGCCTCACCCAGGATTCCCGACTGATATGCAGTCGCAAATGATGGCGCTGCTTCTCCGTGCGAGCGGAACAAGCATGATTACTGAAACTGTGTTTGAAAACCGTTTTATGCATGCTGAAGAATTCCGCCGGATGAATGGCGACATTAAAATTGAAGGACGTTCTGTGATCATTAACGGTCCTGTACAGCTGCAAGGCGCAGAAGTTGCCGCTACGGACCTGCGTGCGGGCGCGGCGCTGATTCTTGCGGGATTAGTGGCTGAAGGTCATACACGCGTCACGGAACTGAAGCACTTGGATCGCGGTTATGTGAATTTCCATCAAAAACTTGCGGCTCTCGGCGCTGACATCGAGCGTGTCGTTGATGAAACGGCCGCTGAACAAGAAAGCAAAGAAGTCGTAACTGACCTAAACGCATAA	MEKIIVRGGQKLNGTVKVEGAKNAVLPVIAASLLASEEKSVICDVPTLSDVYTINEVLRHLGADVHFENNEVTVNASYALETEAPFEYVRKMRASVLVMGPLLARTGHSRVALPGGCAIGSRPIDQHLKGFEAMGAKIKVGNGFIEAEVEGRLQGAKIYLDFPSVGATENLIMAAALAEGTTTLENVAKEPEIVDLANYINAMGGKIRGAGTGTIKIEGVEKLHGVRHNIIPDRIEAGTFMVAAAITEGNVLVKGAVPEHLTSLIAKMEEMGVKITDEGEGLRVIGPAQLKPIDIKTMPHPGFPTDMQSQMMALLLRASGTSMITETVFENRFMHAEEFRRMNGDIKIEGRSVIINGPVQLQGAEVAATDLRAGAALILAGLVAEGHTRVTELKHLDRGYVNFHQKLAALGADIERVVDETAAEQESKEVVTDLNA	PGPT0024090_1167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
D1-12_02470	1032			hypothetical protein	ATGAAACCGATTGTATTTCTACTATCCGGGCTGTGTATACTTATTCTTCTAGTCCCCACCATTCTCGTCCTTCCGTTTCAGGCAGAAAAAGGCGCAGCCGTAAACAGAGAGCCCGGACACAAAACAGCACACACCACACGAGAAACAAAAGGAGCAGAAACATTGAAAGAATCACCTGTATCCATTCCGGTTTATCGGACATCCAATCATTCTGTAGAAAACATTCCGCTTGAAGAGTACGTGGTCGGTGTCGTGGCTTCCGAAATGCCCGCAAACTTTAAACCGGAGGCCTTAAAAGCCCAGGCGCTCGCCGCCCGGACATTCATCGTCAGACTGATGGTCGCTGACTCAGCCGTTCAGGCGCCGAAAGGATCACTGGTGGATGATACGCAAATGTTCCAAGTCTATCAAAGCAAAAGCCAGCTGAAAAAAGAATGGGGTTCTAAGTACGCACACAACCTCAAGAAAATCACAAACGCGGTCGCCGGCACGCAAGGAAAGATTTTAACGTACGACAACAAGCCGATTGAGGCATCTTTCTTCTCTACGAGCAACGGGTATACGGAAAATGCGGAAGCCTATTGGACAAGCGCCATTCCTTATTTAAAGAGCGTGAAAAGTCCGTGGGATAAACAATCGCCGAAATATCTCGCCACCCAGACCTTCAGTGTGCCGGAGTTTCAGCAAAAGCTCGGCGTACAGCTCTCGGGACAAAACACCGTGGGACAGATTACAGCCAGAACGCCGGGCCATCAAGTGGCGACGGCCGTCATCAACGGCAAAAAGCTGAAGGGAAGAGACATCCGGGAAAAACTCGGACTCCGTTCTGCCGACTTTGAATGGAAACGAAACGGCGGCAGCATCACCATTACGACAAAAGGATTCGGCCACGGCGTCGGGATGAGTCAGTACGGGGCCAATTACATGGCGAAGCAGGGGAAATCCGTGGCGGACATCGTCAAGCATTATTATCAGGGAGTGGACATTTCCGAAGCAGATCCATTTTTAAACAAATATATGGCGAAAAAATAG	MKPIVFLLSGLCILILLVPTILVLPFQAEKGAAVNREPGHKTAHTTRETKGAETLKESPVSIPVYRTSNHSVENIPLEEYVVGVVASEMPANFKPEALKAQALAARTFIVRLMVADSAVQAPKGSLVDDTQMFQVYQSKSQLKKEWGSKYAHNLKKITNAVAGTQGKILTYDNKPIEASFFSTSNGYTENAEAYWTSAIPYLKSVKSPWDKQSPKYLATQTFSVPEFQQKLGVQLSGQNTVGQITARTPGHQVATAVINGKKLKGRDIREKLGLRSADFEWKRNGGSITITTKGFGHGVGMSQYGANYMAKQGKSVADIVKHYYQGVDISEADPFLNKYMAKK	PGPT0024670_842	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381	NA	NA
D1-12_02471	687			hypothetical protein	ATGAAAAAAACATTTTCACTCATACTCATGCTCGGATTGATGCTGACTGCTGCATCTCCTGCTTTTGCTGCCGAGAATGCAAACGAGAAGACTCTTTCATTTAAAAACAATACCGCCATTTTACTTGATGCGAGCGGCAGTATGGCAAAACGGATTGACGGTGTTTCTAAATACAACATGGCAAAAGAAGAAATTGTCCGTTTTGCGGATCAAATTAAATCTAAATCACAGGTCAGAATGACGGTTTTCGGTTCGGAAGGCAATAATAAAAACTCCGGAAAGGTTCAATCTTGTGAATCCATTCGCGGTGTGTACGGATTCCAAAGGTTTGACAGACAGAGCTTCCTTAACTCTCTTAACGGAATCGGGCCTACGGGCTGGACACCGATTGCAAAAGCATTAGAGGATGCGAAGGCTTCCTTTACCGGTTTGCACAAACTTGGCAGTAAATCCGTTTTCCTGTTGACGGACGGCGAGGAGACATGCGGAGGAGATCCTGTTAAGACAGCGAAAGAACTTCGCAAACAGCATATTAAAGTCAACGTGATCGGCTTTGATTTTAAGGAAGGCTTCAACGGCCAGCTTCACGAGATTGCCAAAGCGGGCGGAGGAAAATATTACGAAGCTCACAGCCAAAAGGATATGAACCGCATCTTTACAATGGCAGCGAGTTCATTAGCGGAATAA	MKKTFSLILMLGLMLTAASPAFAAENANEKTLSFKNNTAILLDASGSMAKRIDGVSKYNMAKEEIVRFADQIKSKSQVRMTVFGSEGNNKNSGKVQSCESIRGVYGFQRFDRQSFLNSLNGIGPTGWTPIAKALEDAKASFTGLHKLGSKSVFLLTDGEETCGGDPVKTAKELRKQHIKVNVIGFDFKEGFNGQLHEIAKAGGGKYYEAHSQKDMNRIFTMAASSLAE	PGPT0014015_7406	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-12_02472	681			hypothetical protein	ATGAAAAAAATGTTCACTGCGGGGATTGTCGGACTTTTGACGCTTTCACTCGGATCACCTGTTTTTGCAGCTGAGAAAAAGCACGAAGAAACAAACGTTGCCGTGCTGTTTGACGCAAGCGGAAGCATGATACAAAAAACAGGGGGAGGGCGTAAAATAGATGTTGCGAAAGAGTCTGTCACTTCTTTTGCGGAAGTTCTTCCTGAAGACACGAATCTGATGCTTCGGGTATTCGGGCATAAGGGCAATAATAAAAACTCAGGCAAAGCCGTATCATGTAATGCGACAGAAACGTTATACGGCCTTCAGCCGTACGCCGTGACTCCATTTGAGCAATCACTCAGCAAGATTAAACCGACCGGCTGGACACCGATTGCGAAAGCACTTTCTGATACGCGTGAAGAATTTGAGCGGGCCGGCGCCGCGGGGAAAAACGTCGTATATCTGATCACAGACGGTGAAGAAACATGCGGCGGTAATCCTCAGGCCGAAATTCAAAAGCTCCGTAAAGCGAACGTCAACACGATCGTCAATATCATCGGCTTCAACTTCGGCATGAAAGGAAGCGAAAGCCTTGAAAAAGCGGCGGAAGCGGGAGGCGGCACATATGTCTCAGCTGACAGCGCGGACGAGTTCAAACAGGCTTGGGAAGACGCTGCAAAGGATTTAGCAAAAGAATAG	MKKMFTAGIVGLLTLSLGSPVFAAEKKHEETNVAVLFDASGSMIQKTGGGRKIDVAKESVTSFAEVLPEDTNLMLRVFGHKGNNKNSGKAVSCNATETLYGLQPYAVTPFEQSLSKIKPTGWTPIAKALSDTREEFERAGAAGKNVVYLITDGEETCGGNPQAEIQKLRKANVNTIVNIIGFNFGMKGSESLEKAAEAGGGTYVSADSADEFKQAWEDAAKDLAKE	PGPT0014015_7439	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-12_02473	165			hypothetical protein	TTGTTAAAAGGAGCAGGCATTATATTAGTGCTGGCGGCAGTCGTTTTTGTTCTGATGGGAATTTTTCTGAAGCTTGCCGCCTTCATATTCGTCAGTATATTGGCCATTATAGCCGCAGTTATTTTATTCACCATTCTGAGCAGACATCATCGCAATGAAACATAG	MLKGAGIILVLAAVVFVLMGIFLKLAAFIFVSILAIIAAVILFTILSRHHRNET				NA	NA	NA	NA	NA
D1-12_02474	789	fdhD	COG1526	Sulfur carrier protein FdhD	GTGGATGAAAAAACAACAGCGGTAAGAGACATATACCGCTATGAAAAAGGGGTATTAACAAAGACGGCAGATCGGATGGTTTCAGAGTATCCGCTGACCGTCATGGTGAACGGGCAGGAATTTGTTACGCTCGTCTGCACGCCTGACCATTTAGAGGAACTCGTCATCGGATTTCTCGCATCAGAAGGCGTCATTCGTTTTGAAAAAGAAATCAAAAGCTTTACTATAGATGAAAGTCTCGGGTTTGCATATGTTGAACTGACGAATCCCGGAGTGCTTGAGCAAAAAGACTATACGAAGAGGGTCATCGGTTCATGCTGCGGGAAAGGCCGCCATTTTTACTTTCAGCAGGATGTGAAAACGGCCAAAACCGCCGTCAGCCGTATCACCATAACTCCTGAGACGTGCCTTCGCCTGATGAAGGAGATGCAAAGCGGGAGCGGCACCTTCCGGGAAACGGGCGGCGTCCATAATGCGGCGCTGTGCGATACGGAAAAGCTGCTCTTCATGAGGACGGACATCGGGCGCCACAACGCGCTGGATAAGCTGTACGGCTGCTGTTTGAAAAACGGAATGCCGGTCCGTGACAAGCTGATCGTCTTCAGCGGCCGGATTTCCTCAGAGGTTTTATTAAAAGCCGCAAAAATCGGCGTGTCGATTGTCATTTCAAAATCGGCCCCGACGGAGCTCGCGCTGCAAATGGCGGAAGAGCTGAACATAACCGCGATAGGTTTTGTCAGAAACGGATCATTTAACGTATACACACATCCTGAACGGGTTGAACAATAG	MDEKTTAVRDIYRYEKGVLTKTADRMVSEYPLTVMVNGQEFVTLVCTPDHLEELVIGFLASEGVIRFEKEIKSFTIDESLGFAYVELTNPGVLEQKDYTKRVIGSCCGKGRHFYFQQDVKTAKTAVSRITITPETCLRLMKEMQSGSGTFRETGGVHNAALCDTEKLLFMRTDIGRHNALDKLYGCCLKNGMPVRDKLIVFSGRISSEVLLKAAKIGVSIVISKSAPTELALQMAEELNITAIGFVRNGSFNVYTHPERVEQ				NA	NA	NA	NA	NA
D1-12_02475	1026	moaA	COG2896	GTP 3',8-cyclase	ATGAATACAGAAACGCGCCGGGTGACAGACAAAAGGGAAAGGCCGCTCAGGGATCTTCGTATCTCTGTAACCGACCGTTGCAACTTCAGATGCACGTACTGTATGCCAGCCGAATTATTCGGACCGGATTATCCATTTTTACAAAAGACGGAATTGCTCTCCTTCGAGGAGCTTGAGCGGCTTGCGAAGCTGTTTGTCGGCCGCTTCGGCGTTGAAAAAATCAGGCTGACGGGCGGAGAGCCGCTCATGAGAAAAGATATGCCTGAATTGATCAAAAAACTTGCGCGCATCCCCGGACTTAAAGATATCGCGATGACGACAAACGGCTCTCTGCTTCCCGTGTATGCGGAAAAACTGAAGCAGGCGGGGCTGCATCGCGTGACAGTCAGCCTCGATTCTTTAGAGGATGAGCGGTTTAAGGCCATTAACGGCCGCGGGGTTTCGGTGAACAAGGTGCTTGAGGGCATTGAGGCGGCAAAATCGGCCGGACTCGGTGTGAAAATCAACATGGTTGTTCAAAAGGGCGTCAATGAAAAAGATATCCTGCCGATGGCCCGCTATTTTAAAGAAAAGGGTCATATTCTCCGGTTTATTGAATTTATGGATGTCGGCAATACGAATCAATGGAATAAAAAAGACGTGATCACGAAGGCCGAGATTATTGATCTGATCAACCAGCACATGCCGACGGAGCCGATAGAAGCGAATTATAAAGGAGAGGTCGCTTCCAGGTTCCGCTATCTTGACGGTTCCGGCGAAATCGGCGTAATTTCCTCCGTCTCGGATGCATTCTGCGCCTCCTGCAACAGAGCGCGCCTGTCGGCGAGAGGCGAGCTGTTTACGTGCCTGTTTGCGTCAAGCGGCTATGATGTTCGGAAGCTCGTGCGCGGCGGTCTGACCGATGACGAATTGACGGAATCCATCGCTTCTGTCTGGAGAAATCGCACGGATCAGTATTCAATTGACCGCGCGCTTTCTAAAACGGATGGGAAAAAGAAAGTGGAAATGTCTTATATAGGCGGATGA	MNTETRRVTDKRERPLRDLRISVTDRCNFRCTYCMPAELFGPDYPFLQKTELLSFEELERLAKLFVGRFGVEKIRLTGGEPLMRKDMPELIKKLARIPGLKDIAMTTNGSLLPVYAEKLKQAGLHRVTVSLDSLEDERFKAINGRGVSVNKVLEGIEAAKSAGLGVKINMVVQKGVNEKDILPMARYFKEKGHILRFIEFMDVGNTNQWNKKDVITKAEIIDLINQHMPTEPIEANYKGEVASRFRYLDGSGEIGVISSVSDAFCASCNRARLSARGELFTCLFASSGYDVRKLVRGGLTDDELTESIASVWRNRTDQYSIDRALSKTDGKKKVEMSYIGG	PGPT0008410_1537	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
D1-12_02476	1131	rapA_3	COG0457	Response regulator aspartate phosphatase A	ATGACCGCATACGAGATTCCGTCATCTCAAGTTGGAGTTAAGATCAACAAATGGTACAAGCACATTTTAGCGTTTCAAGCGGCTGATGCCATAAAGCTGAAAGAGGAAATTGATGAGGATATACAACGTATGGAGGAAGACCAGCTGCTACTGTTATATTATCAGCTGATCAGCTACCGCCATCATATTATGCTTGATTACGTCAAGCCGGAATGCACCGAACAATCACAGATTCAGTACAGCGAGCTGCAAAAGACGATCGAAAGCACGGACAGCATATCGGGACTGTCTGAGTATTATTTCCATTTGTTCAGAGGGATGTATGAATTCGATCACAATAACTATGTTGCGGCTATTTCTTTTTACCGGAAAGCGGAAAAACTCCTTTCATTTGTCGAGGATGATATAGAGAGGGCGGAATTCCATTTCAAGATGTCTGAAGTGTTTTATGTCATGAAGCAGACTCATTTTTCCATGAATCACGGGATTCAGGCGCTGGATACGTATATGAAACACGATTTCTACAGAGTGCGGAGAATTCAATGCCATTTCGTCATCTCAGGAAACTACATCGACTGCAAAAACTACGACAAAGCGCTTGAGCATTTAGACGAAGCCCTCCGCCTTTCTTTGCTTGAAGGACAGCCCCGCCTGATCGGGTCTTCGCTTTACAATCTGGGGAATTGTTATTCTGAAAAGCGCGATCTGGATGAAGCGGCCCGGTACTTTAGAAAAGCGGTTCCCGTTTTTGAAGAGCATCAGCTTGAACAGCTTCCGAAGGCGCTGTTCAGCTTAACGCACACCCTTTTCAGGCTGCATGATGACCAAGCGGCCTTTACCTATTATGAAAGAGGGGTCATGATCGCGAAAGATCGGGGCGACCGATTCAGTTTAGAGAAGTATAAGTTTTTACAAGCGCTTTATTTGGAGTCACTCAATATGGATTTAATCCATGAAGTGTTTGACTATATGAATGAAAAATCGCTGTATGTGTATATTGAAGATTTCGCCTTGGAGGCCGCCGTTTACACAAGCGGACATGGGCAATATAAAGAAGCGGCGTATTTTTATGAAAAAGCGATTCGCATGAGAGAAAACATTCAAAAAGAACAGTGTTTATACGATATATAA	MTAYEIPSSQVGVKINKWYKHILAFQAADAIKLKEEIDEDIQRMEEDQLLLLYYQLISYRHHIMLDYVKPECTEQSQIQYSELQKTIESTDSISGLSEYYFHLFRGMYEFDHNNYVAAISFYRKAEKLLSFVEDDIERAEFHFKMSEVFYVMKQTHFSMNHGIQALDTYMKHDFYRVRRIQCHFVISGNYIDCKNYDKALEHLDEALRLSLLEGQPRLIGSSLYNLGNCYSEKRDLDEAARYFRKAVPVFEEHQLEQLPKALFSLTHTLFRLHDDQAAFTYYERGVMIAKDRGDRFSLEKYKFLQALYLESLNMDLIHEVFDYMNEKSLYVYIEDFALEAAVYTSGHGQYKEAAYFYEKAIRMRENIQKEQCLYDI	PGPT0025755_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025755-rapB-K06360	NA	NA
D1-12_02477	480			hypothetical protein	TTGTTCGGATTCAATGATATGATAAAGTTTTTCGTATCATTTCTCATCATTCTGCCGATGGTGTCTGTCATCCATGTGTCGGGACACAGCTTTATGGCCATGCTGTTCGGGGGCAAGGCATCATTGGATATCGGAATGGGGAAACGTCTTTTAAAAGTAGGGCCGATTCAGGTTCGGCGTATCTACTTCATAGATTCTTTCTGCAAGTTCGGCGAATTGCGGATAGATAACCGCCTGACGAGCGCGCTCGTCTATTCCGGAGGCTGTCTGTTTAATCTCGCTTCTATCTTTTTAATAAATCTGCTGATCATAAAAGATGTCCTTGAGCCAAACTTATTTTTTTACCAATTTGTCTATTTTTCAACTTATTATGTTTTCTTTGCCCTTCTGCCGGTGCAATACGGGGATAATAAGCTGTCAGACGGATTGGCTGTTTACAAAGTGCTCCGCTACGGGGAACGCTGTGAAATCAATAATTGA	MFGFNDMIKFFVSFLIILPMVSVIHVSGHSFMAMLFGGKASLDIGMGKRLLKVGPIQVRRIYFIDSFCKFGELRIDNRLTSALVYSGGCLFNLASIFLINLLIIKDVLEPNLFFYQFVYFSTYYVFFALLPVQYGDNKLSDGLAVYKVLRYGERCEINN				NA	NA	NA	NA	NA
D1-12_02478	189	csbD	COG3237	Stress response protein CsbD	ATGAGTGAAGATAACGGTTTAAAAGACAAAGTAAAAGGCGGCATGAACAAAATGAAAGGGGAAGCAAAGGACAAAGCAGGCGACATGGCAGACAAGTCCGACTTAAAAGCGGAAGGTAAAAAAGACAAAGCGAAAGGCAGCCTGCAAAAGGGTGTCGGTAAAACGAAAGATAAACTCAGTGATGATTAA	MSEDNGLKDKVKGGMNKMKGEAKDKAGDMADKSDLKAEGKKDKAKGSLQKGVGKTKDKLSDD				NA	NA	NA	NA	NA
D1-12_02479	318	ureA	COG0831	Urease subunit gamma	ATGAAACTGACACCGGTTGAACAAGAAAAATTGCTTATTTTTACGGCGGGAGAGCTCGCTAAGCAGCGGAAGGCGCGCGGCGTTCTGCTGAATTATCCCGAAGCCGCCGCATATTTGACCTGTTATCTGATGGAAGGCGCGAGAGACGGAAAAAGCGTTGCTGAGCTGATGGAATCCGGCCGCAATGTATTGACGGAAAAAGACGTTATGGAAGGCGTTGCGGAAATGCTGGACAGCATTCAGGTGGAAGCGACGTTCCCGGACGGGGTTAAGCTTGTCACCGTTCATCAGCCGATCAAAGCGGGGGTGAAGTCATGA	MKLTPVEQEKLLIFTAGELAKQRKARGVLLNYPEAAAYLTCYLMEGARDGKSVAELMESGRNVLTEKDVMEGVAEMLDSIQVEATFPDGVKLVTVHQPIKAGVKS	PGPT0000955_80	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
D1-12_02480	375	ureB	COG0832	Urease subunit beta	ATGAAGCCGGGAGCGATTCAAGTCGCAAAGGGGACCATCACCATTAACGAAGGCCGGAAGACGCTGGAGGTGTCAGTCACCAATAACGGAACGCGGTCAGTGCAGGTAGGATCGCATTTTCATTTTGCCGAAGCCAACGGCGCCCTTTCCTTCAATCGGGACAAAGCAATCGGCATGCGCCTTGATATCCCGTCAGGCACATCTGTCCGTTTTGAACCGGGAGAAAAGAAAACCGTCACGCTCGTGGAAATCGGAGGGCGAAAAACGGTCAGAGGTCTCAACGGCATGGCCGATACGTATATGGATAAGCGGGGAAAAGAGAAGACTCTGTCAAATCTTAAAAAAGCCGGATGGATGGAGGAGGCGATCCGATGA	MKPGAIQVAKGTITINEGRKTLEVSVTNNGTRSVQVGSHFHFAEANGALSFNRDKAIGMRLDIPSGTSVRFEPGEKKTVTLVEIGGRKTVRGLNGMADTYMDKRGKEKTLSNLKKAGWMEEAIR	PGPT0000960_265	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
D1-12_02481	1710	ureC	COG0804	Urease subunit alpha	ATGAAAATGTCACGTGAGCAATACGCAGAACTGTTCGGACCGACAACGGGAGACAAAGTCAGACTCGGAGATACGGATTTATGGATTGAAGTCGAAAAAGATTTCACGAATTACGGTGAAGAAATGATTTTCGGCGGAGGGAAAACAATCCGGGACGGCATGGGGCAGAACGGGCGTATCACCGGGAAAGACGGAGCGCTTGATCTGGTTATTACAAACGCCGTCATCCTGGATTATACCGGGATCGTCAAGGCGGATATCGGGGTGAAGGACGGCCGGATTGTCGGCGTCGGGAAAAGCGGCAACCCGGATATTATGGATGGGGTGGACCCGCACATGATTATCGGTGCCGGAACAGAAGTCATTTCCGGCGAAGGGAAAATCGTAACGGCCGGCGGGGTGGATACGCATATCCACTTTATCTGCCCGCAGCAGATGGAAGTCGCGCTTTCTTCAGGCGTGACCACGCTTCTCGGCGGCGGAACGGGTCCTGCGACGGGAAGTAAAGCGACGACTTGTACATCCGGTGCATGGTACATGTCGAGAATGCTGGAAGCGGCCGAGGAGTTTCCGATCAACGTCGGTTTCTTAGGAAAAGGGAATGCATCCGATAAAGCGCCGCTGATCGAGCAGGTGGAAGCAGGCGCGATCGGACTGAAGCTGCATGAAGATTGGGGATCAACGCCAAGCGCAATTAAAGCTTGCATGGAAGCGGCGGATGAGGCGGACATTCAGGTGGCGATCCATACAGACACGATAAATGAAGCGGGCTTTTTAGAAAATACGCTTGATGCGATCGGCGACCGGGTTATCCATACATATCACATAGAGGGAGCCGGCGGAGGCCACGCACCGGATATTATGAAACTCGCATCTTACGCCAATATCCTGCCGTCCTCTACGACGCCGACGATTCCGTATACCGTCAACACGATGGACGAGCATCTTGATATGATGATGGTCTGCCATCATTTAGATTCAAAAGTGCCTGAAGACGTGGCGTTCAGTCATTCACGCATCAGAGCGGCCACCATTGCGGCGGAGGATATTCTGCACGATATCGGCGCGATCAGCATGACGTCATCTGACTCGCAGGCGATGGGCAGGGTGGGAGAAGTGATTATCCGGACATGGCAGGTGGCCGATAAAATGAAAAAGCAGCGCGGCGCTCTATCAGGAGAAAACGGCAATGACAATGTGCGCGCCAAACGCTATATCGCCAAATACACGATCAACCCGGCCGTCACTCACGGCCTGAGCCATGAAGTCGGTTCCGTTGAAAAAGGAAAGCTCGCCGACCTTGTACTATGGGACCCGGTTTTCTTCGGTGTCAAACCTGAACTTGTGCTCAAAGGCGGCATGATCGCCCGCGCTCAAATGGGAGATCCGAATGCTTCCATTCCGACGCCTGAGCCCGTGTTTATGCGGCAGATGTACGCATCATACGGTAAAGCAAACCGAAATACCTCTATTACATTTATGTCCCAGGCCAGTATCGCAAACGGTGTGCCGGAAAAGCTCGGCCTTGAAAAAATGATTTCTCCCGTACGGAATATCCGTAAGCTGAGTAAGCTCGACATGAAGCTGAATGACGCGATGCCGAATATACAAGTCGATCCAAAAACCTATCAGGTGTTCGCCGACGGAGAAGAGCTGGCATGCCAGCCTGTCAGCTATGTTCCGCTCGGACAGCGTTATTTCTTATTTTAA	MKMSREQYAELFGPTTGDKVRLGDTDLWIEVEKDFTNYGEEMIFGGGKTIRDGMGQNGRITGKDGALDLVITNAVILDYTGIVKADIGVKDGRIVGVGKSGNPDIMDGVDPHMIIGAGTEVISGEGKIVTAGGVDTHIHFICPQQMEVALSSGVTTLLGGGTGPATGSKATTCTSGAWYMSRMLEAAEEFPINVGFLGKGNASDKAPLIEQVEAGAIGLKLHEDWGSTPSAIKACMEAADEADIQVAIHTDTINEAGFLENTLDAIGDRVIHTYHIEGAGGGHAPDIMKLASYANILPSSTTPTIPYTVNTMDEHLDMMMVCHHLDSKVPEDVAFSHSRIRAATIAAEDILHDIGAISMTSSDSQAMGRVGEVIIRTWQVADKMKKQRGALSGENGNDNVRAKRYIAKYTINPAVTHGLSHEVGSVEKGKLADLVLWDPVFFGVKPELVLKGGMIARAQMGDPNASIPTPEPVFMRQMYASYGKANRNTSITFMSQASIANGVPEKLGLEKMISPVRNIRKLSKLDMKLNDAMPNIQVDPKTYQVFADGEELACQPVSYVPLGQRYFLF	PGPT0000965_170	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
D1-12_02483	405	ywnA_1	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGATTAACAGCCGTCTTGCTGTGGCCATTCACATTCTATCGCTGATCTCAACGGATGAACGGGCGTCATCGGACATGATTGCGGGCAGCGTAAACACCAATCCCGTCGTCGTGCGGAGAACGATCAGCCAGCTGAAAAAAGCGGGTATTCTGACATCCCGGGCGGGTGTTCCGGGAGCCAGCCTGAAAAAAGATCCGTCGGAGATCACCCTCTTAGAGGTTTACAGGGCTGTGCAGAATAAGGAAGAGCTTTTTGCGGTTCACGACAATCCGAACCCCGACTGTCCGGTCGGCAAAAATATGCAGCGCGCGCTCGATGAGACGTTCGGAAGCGTACAGCGGGCAATGGAGAATGAACTTGCGAGCAAGTCCCTTTATGATGTAATGAATCATCTCTTTTGTTAA	MINSRLAVAIHILSLISTDERASSDMIAGSVNTNPVVVRRTISQLKKAGILTSRAGVPGASLKKDPSEITLLEVYRAVQNKEELFAVHDNPNPDCPVGKNMQRALDETFGSVQRAMENELASKSLYDVMNHLFC				NA	NA	NA	NA	NA
D1-12_02484	642	xynA		Endo-1,4-beta-xylanase A	ATGTTTAAGTTTAAAAAGAAATTCTTAGTTGGATTAACGGCAGCTTTCATGAGTATCAGCATGTTTTCGGCAACCGCCTCTGCAGCCGGCACAGATTACTGGCAAAATTGGACTGATGGGGGCGGAACAGTCAACGCAGTCAATGGATCTGGCGGGAATTACAGTGTTAATTGGTCTAATACCGGAAATTTCGTTGTTGGTAAAGGCTGGACTACAGGCTCGCCATTTAGAACAATAAACTATAATGCCGGAGTCTGGGCGCCGAATGGCAATGGATATTTGACTTTATATGGCTGGACGAGAGCACCTCTCATCGAATATTATGTAGTGGATTCATGGGGTACTTACAGACCTACCGGAACGTATAAAGGTACTGTAAAGAGTGATGGAGGTACATATGACATATATACAACGACACGTTATAACGCACCTTCCATTGATGGCGATAACACTACTTTTACGCAGTACTGGAGTGTTCGCCAGTCGAAGAGACCAACCGGAAGCAACGCTGCAATCACTTTCAGCAATCATGTTAACGCATGGAAGAGCCATGGAATGAATCTGGGCAGTAATTGGGCTTATCAAGTCTTAGCGACAGAAGGATATAAAAGCAGCGGAAGTTCTAATGTAACAGTGTGGTAA	MFKFKKKFLVGLTAAFMSISMFSATASAAGTDYWQNWTDGGGTVNAVNGSGGNYSVNWSNTGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRAPLIEYYVVDSWGTYRPTGTYKGTVKSDGGTYDIYTTTRYNAPSIDGDNTTFTQYWSVRQSKRPTGSNAAITFSNHVNAWKSHGMNLGSNWAYQVLATEGYKSSGSSNVTVW	PGPT0018625_2231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCANASE,PGPT0018625-xynY|xynZ|xynD|xynA-K01181	NA	NA
D1-12_02485	387			hypothetical protein	TTGAAACCTGAATCAGTGAATCGTTCGCTTATTTCTATTTCGAAGTGGGGAAAAGCGACAGGTATTTTATTTATTATTATAGGCGCGTTTGCGGCGCTTTCGGGCGCGTTTTTCTTTTTAATCGGAGCCATTCCCGGCGTTTTGCAGATCATTGCCGGCATTTTTCTGATGCGCTCGGCAAATGAAGCGGGACAGATGGCGGAGCAGTTCAATGAACTGACAGAGGAACATATGCTGGAGAATTATGCAAAGTTCGTGAAAATGCAGGGGATCTACCTGATTGTGACGGTCGGCTTGTCCGTTCTCGGCATCGTTCTTTTCGTTATCCTCATGACGCTCGGCATCGTGGACGACGCGTTTAATAATATTGATGCCAATACATATTAA	MKPESVNRSLISISKWGKATGILFIIIGAFAALSGAFFFLIGAIPGVLQIIAGIFLMRSANEAGQMAEQFNELTEEHMLENYAKFVKMQGIYLIVTVGLSVLGIVLFVILMTLGIVDDAFNNIDANTY				NA	NA	NA	NA	NA
D1-12_02486	1449	clsA	COG1502	Major cardiolipin synthase ClsA	GTGAGCATTTCATTTATTTTATTCGGATTTTTTTTCGTTTTAAATATACTTTTGGCCGTCATCATGATTTTCAAAGAAAGACGCGATGCCAGCGCTTCATGGGCTTGGCTTTTGGTTCTTTTTTTTATTCCCATTTTAGGGTTTATTTTATACCTGTTATTCGGCCATAACCTGAGACGCAAGCATCTGTTCCAATGGGAGGACCGTAAAAAAATCGGGATTGAAAAGCTGCTGAAGTCTCAGCTGAAAGATCTGAAGTCGAGGCAATTCCAATTTAACAACAGAGCGACTGTGGATAATAAAGACCTCATCTATATGCTTGTCATGAACAACCACGCAGTCTTTACAGAGGATAATTCGGTGGAGATTTTGACGGACGGGCGCGATAAGTTCAAACGCTTAATGAAGGACATTTCCAACGCAAAAGATCACATTCACCTTCAATACTATATTTATAAAGGTGATGAACTGGGAAAAAAATTGCGCGATGCCTTAGTGAAAAAAGCACGGGAAGGCGTAAAAGTCAGAGTGTTATATGATGAACTCGGTTCAAGATCACTCAGAAAAAAATTCTTCAAACCGCTGCGGGACGCCGGCGGCCATGTGGAAGTCTTTTTTCCTTCCAGGCTTCGTCCGATTAATTTGCGGCTCAATTATCGGAATCACCGCAAGCTCGTCATCATTGACGGCGAAACCGGCTATGTCGGCGGCTTTAACGTCGGAGATGAATATCTCGGCCTGAATCCGAAATTCGGCTACTGGCGCGATACGCACCTCAGGCTTCAAGGCACGGCGGTACACGCCATTCAGACACGGTTTATCCTCGATTGGAACCAAGCCTCCCATCATCATACGCTCACATACGTTCCGAATCATTTTCCGGAATGCGAGCCGAAGGGCAATGTCGGGATGCAAATTGTCACGAGCGGACCGGACTCAGAATGGGAACAAATTAAAAACGGCTATATCAAGATGATCTCAACGGCCAAACGGTCGATCCTGATTCAGACGCCTTACTTTATTCCTGACTCAAGTCTTTTAGATGCCCTCAGGATCGCCTGTCTGTCAGGCATCGACGTCAAAATCATGATTCCGAACAAGCCGGATCACGCTTTCGTTTACTGGGCGACTTTATCTTACATCGGCGATCTTTTAAAAGCCGGAGCCTCAGTCTACATTTACGATAACGGCTTTATTCATGCAAAAACGATTGTCGTCGATGATGAGACGGCTTCCGTCGGTACGGCGAATATCGACGTCAGAAGCTTCAGACTTAATTTTGAAGTCAACGCCTTTATTTATGACGTCACCATCGCGAAAAAACTCATTTCTTCATTTAAAGAAGATCTGCTCGTCTCCAGAAAATATACGTATGAAGAATATCAGGAGCGTTCGCTGCGGATCCGCATTAAAGAATCGATTTCAAGACTTCTGTCGCCGATTTTGTAA	MSISFILFGFFFVLNILLAVIMIFKERRDASASWAWLLVLFFIPILGFILYLLFGHNLRRKHLFQWEDRKKIGIEKLLKSQLKDLKSRQFQFNNRATVDNKDLIYMLVMNNHAVFTEDNSVEILTDGRDKFKRLMKDISNAKDHIHLQYYIYKGDELGKKLRDALVKKAREGVKVRVLYDELGSRSLRKKFFKPLRDAGGHVEVFFPSRLRPINLRLNYRNHRKLVIIDGETGYVGGFNVGDEYLGLNPKFGYWRDTHLRLQGTAVHAIQTRFILDWNQASHHHTLTYVPNHFPECEPKGNVGMQIVTSGPDSEWEQIKNGYIKMISTAKRSILIQTPYFIPDSSLLDALRIACLSGIDVKIMIPNKPDHAFVYWATLSYIGDLLKAGASVYIYDNGFIHAKTIVVDDETASVGTANIDVRSFRLNFEVNAFIYDVTIAKKLISSFKEDLLVSRKYTYEEYQERSLRIRIKESISRLLSPIL	PGPT0007725_2396	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
D1-12_02487	438			hypothetical protein	ATGAAGCTGGAGCATGCGGAACAATTGCCGGGATTCATAAAAAAAGAAATTCAGAAAATACAAATCGCCATTGCGCCGCTGATGAAAAAAAGCATCATTTACCGTTTTCTTGCTTTCCCGCTCGCCGCTTTTAGTCTGTTTCATCTGGCATCGCTTTTGATTCAGGCCCCTTCCGGGAGAGGAGCTCTCGTGTCGGCCGGCATTTTTGCCCTCCTGGCGGCCTTGGGTCTTGCATTGTTTAAGGAAGCCGGCTATCAGCGGAAACAGGTGCAAAAAACGATCCGCCTTTATATGCTGAACAGAATCAGAAAAAGCGATATTCTGTCCGAAGAACGGAAAAGCGCCTATACCCGGCTGATTGCCGAGGAGCCGTCTGCGATGAAGAGCTTTATTGAATTTTTAACGGAAGAAGACCGGAAAAAAGAAATGCTTTATTAA	MKLEHAEQLPGFIKKEIQKIQIAIAPLMKKSIIYRFLAFPLAAFSLFHLASLLIQAPSGRGALVSAGIFALLAALGLALFKEAGYQRKQVQKTIRLYMLNRIRKSDILSEERKSAYTRLIAEEPSAMKSFIEFLTEEDRKKEMLY				NA	NA	NA	NA	NA
D1-12_02488	450			hypothetical protein	ATGATCACCATAGATAAAGACAAAGACGAAAACCAGCCGCTCAATAAAAAAGCCCGTTCCCTTGCCGACATCGCCAAATGGGGAAAGATCACCGCCGTGTTTCTGATCATCACGGGCTCTCTTTCCGCTCTGTCAGCCATTGTGACGCTGCTCGGAGCCATTCCGGGGGTTCTGCTCATCATTTCCGGCGTCATGCTGATGCGCTCGGCAAAAGCGGCGGCCGCCCTTCAGGAAGGACTAGAAGAAAACGCGGAAGAAAATATGCTTGCACATTACGCGTCATTTATCAAAATGCAGTTTTTTTACGCGGCTTCCAGTGTGGTATTGGGCATTCTCGCTTTTATTTTAGTCGTCATCTTCGCTGTCATCGGAATTATCGCTTATCACAGCACTGATACGTATGACACGCCTGATTCATATTACTATGAGAACGACCCGGTGTTTGAATGA	MITIDKDKDENQPLNKKARSLADIAKWGKITAVFLIITGSLSALSAIVTLLGAIPGVLLIISGVMLMRSAKAAAALQEGLEENAEENMLAHYASFIKMQFFYAASSVVLGILAFILVVIFAVIGIIAYHSTDTYDTPDSYYYENDPVFE				NA	NA	NA	NA	NA
D1-12_02489	498	ywnH	COG1247	Putative phosphinothricin acetyltransferase YwnH	ATGAATTTGACCCTGCGCAAAGCCGTATTGGAGGATTTAGATGCGGTGGTGGCCATTTACAACTCGACGATTGCCTCACGAATGGTAACGGCTGATACGGAAGAAGTGACGCCCGCAGACCGGATGGATTGGTTTCTGCGGCACACGGACCGGCGCCCGCTGATGGTCGCGGAAGATGAAACCGGCAAAGTGGCGGCCTGGATCAGCTTTGAAACGTTTTACGGCCGTCCGGCCTATGACAAAACGGCGGAGATCAGCATCTATCTGCATCAGGATTGCCGCGGCAAAGGAGCAGGAAGCTTTCTGCTGAAAGAAGCCCTGGCACTCGCTCCGGCAATCGGCATCCGCAGCCTGATGGCTTTTATCTTCGGACATAATGTGCCGAGCATTAAGCTGTTTGAAAAATTCGGTTTTACCGAATGGGGCGTATTCCCGGGTATCGCCGAAATGGACGGAAAACGATATGACTTGAACATTTTAGGGAGAGAACTGTCATGA	MNLTLRKAVLEDLDAVVAIYNSTIASRMVTADTEEVTPADRMDWFLRHTDRRPLMVAEDETGKVAAWISFETFYGRPAYDKTAEISIYLHQDCRGKGAGSFLLKEALALAPAIGIRSLMAFIFGHNVPSIKLFEKFGFTEWGVFPGIAEMDGKRYDLNILGRELS				NA	NA	NA	NA	NA
D1-12_02490	870	spoIIQ	COG0739	Stage II sporulation protein Q	ATGAGAGAGGAAGAAAAGAAAACTTCTCAAGTCAAAAAACTTCAGCGGTTTTTTCGCAAACGCTGGATATTCCCTGCAATCTACTTAGTCAGTGCGGCCGTCATTTTAACAGCTGTCCTTTGGTATCAATCCGTTTCGAATGATGTGAAGGACAATCTGACGAACAACGGCGGAAACTCCGCGTATGACAGCGGCAAAGACGATGCCGTCGAAGTAGGCAAGTCAATGGAAAACGTCGCAATGCCGGCTGCTCATTCTGAAAATGTTTCTGTTGTGAAAAAGTTTTATGAAACTGATGCCGCAAAAAAAGAGAAAGAAGCAGCACTTGTTAACTATAATAACACGTACAGCCTCAGTAAAGGAATTGACTTAGCTGAGAAAGACGGAAAATCATTTGATGTTTCTGCTTCTCTGAGCGGTACGGTTGTTAAAGCTGCTAAAGACCCGGTACTGGGGTATGTGGTTGAAATTGAACACTCAGACGGCCTGTCTACTGTCTATCAGTCTTTATCTGAAGTCAGCGTGGATCAGGGCGACAAAGTAAAGCAGAACCAGGTCATCGGTAAATCCGGAAAAAACCTTTACAGTGAAGAAAGCGGAAATCACGTGCACTTTGAAATCCGCAAGGACGGCGTAGCGATGAACCCGCTCAATTTTATGGACAAGCCGGTAACATCTATTGAAAAAGCGGCGGCTGAAGAGAAAAACGCTTTGACAGAAGAAACGGAAGGGTCAATTCAGCAGTCTTCCGAGAAAAAAGATGTGACGCCTAAAAAAGAAACCGAAGAAAAACCGGGTGACAAAGAGGACGGTACAAAAGACAAGACAGATGGTAAAGATGACGGCTCAATGAAAGATTCGGGCAAGTAA	MREEEKKTSQVKKLQRFFRKRWIFPAIYLVSAAVILTAVLWYQSVSNDVKDNLTNNGGNSAYDSGKDDAVEVGKSMENVAMPAAHSENVSVVKKFYETDAAKKEKEAALVNYNNTYSLSKGIDLAEKDGKSFDVSASLSGTVVKAAKDPVLGYVVEIEHSDGLSTVYQSLSEVSVDQGDKVKQNQVIGKSGKNLYSEESGNHVHFEIRKDGVAMNPLNFMDKPVTSIEKAAAEEKNALTEETEGSIQQSSEKKDVTPKKETEEKPGDKEDGTKDKTDGKDDGSMKDSGK	PGPT0024695_104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024695-spoIIQ-K06386	NA	NA
D1-12_02491	423	ywnJ		putative membrane protein YwnJ	ATGAATAAATGTCTGGCGGCCGGGTGGCTCGTCTTTGTTTTCGTTTCTGCTTTGACTGAAAGCTTTCACGATATGGTTGTGTCGCAGACGGTGTCCTTCCGTTTCACGCCCCATCCGGATGTGTCCGGTTTCTTTGTGTTCGATATGGCGGAGCTCGCAATACCGGAAGCGGCGATTCAAAAGCTCGGGCACGCGTTTTCATTTTTTGTGCTCGCCTATTTGTTTTTCAGAGAGAGCAGGCGCATGAAGAGGGCGGTGCTGTATGCATTGGCCGCCGCTTTCCTGACAGAAATCGTCCAGCTCTTTTTCGGCAGAAACGGATGCCTCCGCGATGTGCTGATTGACAGTCTCGGCATTGCCGCATTCTGTGCTTTACAAAGGAAAAAGCATACAGCCAAACATACAAAAACCGGCAGTCTGTGA	MNKCLAAGWLVFVFVSALTESFHDMVVSQTVSFRFTPHPDVSGFFVFDMAELAIPEAAIQKLGHAFSFFVLAYLFFRESRRMKRAVLYALAAAFLTEIVQLFFGRNGCLRDVLIDSLGIAAFCALQRKKHTAKHTKTGSL				NA	NA	NA	NA	NA
D1-12_02492	576	bcrC	COG0671	Undecaprenyl-diphosphatase BcrC	GTGAATTACGAACTATTTAAAGCGATCAATGGTTTGTCGCACCATAGTGCCATTCTCGACTCTATCATGGTATTTATTACGGAATACGCCATTTACGCCTACGCCCTTTTCCTGCTTGCCATGTGGCTGTTCGGAAGCACAAAAGGCAGACAAAACGCCCTGTACGCGGGCTTCACGGGTGTTGCGGCGCTTATCGTCAACTACCTCATCACGAAGGTCTATATCGAGCCGCGCCCCTTTGTCGAGCATACGGTTCATACGCTGATCCCTCATGCCGCGGATGCTTCATTTCCGAGTGACCATACGACAGGCGCTTTGGCGATTTCAATTGCGATTCTGTTCCGCAACAAAAAACTCGGCTGGCCGCTTGTGATTTTCGGCCTTTTGACCGGCTTCTCAAGAATTTGGGTCGGCCACCACTATCCGATCGATGTGCTCGGAAGCATTATCGTTTCCCTCATTGTCGGATTCCTGCTGTTCAGATTTTCAAATGTGCTTCGTCCGATTGTCGATCTGATCGTGCGAATCTATGAAAGTATCGTTCATAAAAACAAATCGACAAACCATAATATATAA	MNYELFKAINGLSHHSAILDSIMVFITEYAIYAYALFLLAMWLFGSTKGRQNALYAGFTGVAALIVNYLITKVYIEPRPFVEHTVHTLIPHAADASFPSDHTTGALAISIAILFRNKKLGWPLVIFGLLTGFSRIWVGHHYPIDVLGSIIVSLIVGFLLFRFSNVLRPIVDLIVRIYESIVHKNKSTNHNI	PGPT0024170_1692	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
D1-12_02493	1155	ftsW_3	COG0772	putative peptidoglycan glycosyltransferase FtsW	TTGCTGAAACGTTTGAAAAACGCCGATCTGCCGCTTGTGTTTGTCATTATGCTGCTTTGCGGATTCGGCTTGTTAATGGTGTACAGCGCCAGTGATGTGATGGGGTCTCAGCGGTACGGAGATCCATCCTATTTCTTCCATAAACAAAGTACCTCTTTACTGATCGGATTATGCTTATTTCTATTTGCCGCCTGTCTGCCGTATAAGCGGTATGCGCGGCTTGTACCGCTGTTTGTGGTCGGTTCGCTGGTATTGCTGCTGCTCGTATTGATACCGGGAATCGGGCTGGAGCGGAATTTTTCCCGCAGGTGGCTGGGAGCGGGCCCGCTTGTTGTACAGCCGTCTGAATTGGCGAAGATCGCCATGATTTTGTATTTCGCTTCGATTTATACGAAAAAGCAGCCGTACATTCATCAATTTGTGAAAGGGGTTCTGCCGCCTTTAGTGATTTTGGGGACCGCTTTTCTGCTGACATTGGCGGAGCCTGATTTAGGGACGGCTTCCTTAATCCTGGCGGCGTGCGGGTCGATTTTATTATGTGCCGGCTTGAAAAAGCGCCATCTGTTCGTGCTCGGCGCGACGGCGGTGTCCGGGGTTGTTTATCTCGCATTTTCCGCTTCCTATCGTGTGAAGCGCCTCGTTTCCTTTACCAATCCGTTTGGTGACGCGAACGGGGACGGCTATCAGCTGATTCAATCCTATTTTGCTATTTCCGGAGGCGGGTTTTTCGGAAGAGGGCTTGGAAACAGTGTTGAAAAAATGAACTATCTGCCTGAGGCGCATACCGATTTCATTATGGCCGTAATCAGCGAAGAGCTGGGGATATTCGGTGTTCTGATCGTTTTGGGATTATATTTTGCGTTAATGCTTCTCGGCGTAAAAACGGCCGTGCGGGCTGATGACCCGTTCGGGAAGCTTCTTGCCATCGGAATTACGTTTCAATTAATGTTTCAGGTTGTATTGAATTTGGGAGCGATGAGCGGACTCCTCCCGGTTACCGGTGTGCCGCTTCCGTTTATCAGCTACGGCGGTTCTTCATTGATTATGACGCTGTTTTTGTGCGGCATACTGGTCAATATCAGTACATATGCGAAAAAACAACCCGTACGGCATAAGCGGCCTGTCCCGCATGAAAAAAAGGTTTCTTCTTTTTAA	MLKRLKNADLPLVFVIMLLCGFGLLMVYSASDVMGSQRYGDPSYFFHKQSTSLLIGLCLFLFAACLPYKRYARLVPLFVVGSLVLLLLVLIPGIGLERNFSRRWLGAGPLVVQPSELAKIAMILYFASIYTKKQPYIHQFVKGVLPPLVILGTAFLLTLAEPDLGTASLILAACGSILLCAGLKKRHLFVLGATAVSGVVYLAFSASYRVKRLVSFTNPFGDANGDGYQLIQSYFAISGGGFFGRGLGNSVEKMNYLPEAHTDFIMAVISEELGIFGVLIVLGLYFALMLLGVKTAVRADDPFGKLLAIGITFQLMFQVVLNLGAMSGLLPVTGVPLPFISYGGSSLIMTLFLCGILVNISTYAKKQPVRHKRPVPHEKKVSSF	PGPT0014810_3907	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
D1-12_02494	117			hypothetical protein	ATGGAGTCCGAAAAAAAAAACGCCCGGGATATGCTGTCTCCGGGCGTTCTGTCTGTTTATAAAGCTTCTGGTCCTTCTTCTCCGGTGCGGATATTAATCGTGTTTCCGATTTCATAG	MESEKKNARDMLSPGVLSVYKASGPSSPVRILIVFPIS				NA	NA	NA	NA	NA
D1-12_02495	351	nrgB	COG0347	Nitrogen regulatory PII-like protein	ATGAGCGGTCAAATGTTCAAGGTAGAAATCGTTACGCGTCCCGCTAAGTTTGAAACATTGAAACAGGAACTCGGTAAAATCGGAGTCACATCGCTGACCTTCTCCAACGTACACGGCTGCGGCCTTCAAAAAGCCCACACCGAACTATACCGCGGAGTCAAAATTGAAAGCAATGTATATGAACGGCTGAAAGTGGAAATCGTTGTCAGCAAGGTCCCCGTTGATCAAGTGGTGGAAACGGCGAAAAAAGTGCTGAAAACGGGAGAGCCCGGAGACGGAAAAATATTCGTCTATGAAATCGGAAACACGATTAATATCCGCACCGGAGAAGAAGGACCAGAAGCTTTATAA	MSGQMFKVEIVTRPAKFETLKQELGKIGVTSLTFSNVHGCGLQKAHTELYRGVKIESNVYERLKVEIVVSKVPVDQVVETAKKVLKTGEPGDGKIFVYEIGNTINIRTGEEGPEAL	PGPT0000650_283	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
D1-12_02496	1212	nrgA		Ammonium transporter	ATGCAGATGGGCGATACAGTATTTATGTTCTTTTGCGCTTTACTCGTGTGGCTGATGACCCCCGGGCTGGCTTTGTTTTACGGCGGAATGGTAAAAAGCAAAAACGTGCTCAGCACGGCGATGCATAGTTTTTCTTCTCTCGCCATCGTATCCGTCGTTTGGGTTTTGTACGGATATTCACTCGCTTTTGCCCCCGGCAATACATGGCTTGGCGGGATTGAATGGGCGGGGCTGAAGGGGGTCGGCTTTGAACCCGGAAGTTACAGTGATACGATCCCGCATTCCTTGTTCATGATGTTCCAAATGACGTTTGCCGTACTGACGACGGCCATTATTTCCGGAGCATTTGCTGAACGCATGAGATTCAGTGCTTTTCTTGTATTTTCCTTTTTGTGGGCTTCCCTCGTATATACCCCCGTTGCGCACTGGGTATGGGGCGGCGGCTGGATCGGCCAAATGGGCGCTCTTGACTTCGCAGGCGGAAACGTCGTCCACATTTCTTCCGGGGTCGCCGGGCTTGTGCTGGCGATTGTGCTCGGGAAACGCAAAGACGGCACGGCGGCTTCCCCTCACAACTTAATTTACACGTTCTTGGGCGGAGCGCTCATCTGGTTCGGATGGTTCGGCTTCAATGTCGGCAGCGCCCTGACGCTTGACAGTATCGCGATGTTTGCTTTCATTAACACAAACACCGCGGCTGCAGCCGGAATTATCGGCTGGATTTTAATCGAATGGATGCTGAACAAAAAACCGACCATGCTGGGTGCTGTATCAGGCGCTATCGCCGGGCTTGTCGCCATTACGCCGGCTGCCGGGTTCGTTACGCCGTTCTCTTCCATCGTAATCGGTTTCATCGGCGGGCTTGTCTGCTTTTGGGGCGTTTATTGGCTCAAAAAGACTTTCGGTTATGATGATGCGCTTGACGCTTTCGGCCTGCATGGAATCGGGGGGACATGGGGCGGCATCGCGACCGGTTTATTCGCCACCACTTCCGTCAATGACGGCGGGGCAAACGGGCTGTTTTACGGCGATCCGGGACTGCTCTGGAAGCAGATTGCGGCCATTGCGGCGACCTATGTATTTGTATTTATTGTCACTTTCGTTATCATTAAAATTGTAGGTCTGTTCATTCCCCTGCGCGCCAGTGAAGAAGAAGAGTCACTCGGGCTTGATTTAACGATGCACGGGGAAAAAGCATATCAGGACTTATAA	MQMGDTVFMFFCALLVWLMTPGLALFYGGMVKSKNVLSTAMHSFSSLAIVSVVWVLYGYSLAFAPGNTWLGGIEWAGLKGVGFEPGSYSDTIPHSLFMMFQMTFAVLTTAIISGAFAERMRFSAFLVFSFLWASLVYTPVAHWVWGGGWIGQMGALDFAGGNVVHISSGVAGLVLAIVLGKRKDGTAASPHNLIYTFLGGALIWFGWFGFNVGSALTLDSIAMFAFINTNTAAAAGIIGWILIEWMLNKKPTMLGAVSGAIAGLVAITPAAGFVTPFSSIVIGFIGGLVCFWGVYWLKKTFGYDDALDAFGLHGIGGTWGGIATGLFATTSVNDGGANGLFYGDPGLLWKQIAAIAATYVFVFIVTFVIIKIVGLFIPLRASEEEESLGLDLTMHGEKAYQDL	PGPT0000840_6863	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-12_02497	567	yecD	COG1335	Isochorismatase family protein YecD	ATGACAACATCATTAAATCTGCAATTTGAAAAAACGGCTTTGGTTCTTATTGATTTACAAAAAGGCATTGTGCCGATTGATAAAAGCGGTACCGTTGTGCCGAACGCGAAAAAATTAATTGATGTGTTCCGGGAAAAAGGCGGATTTATCAGCTTTGTGAACGTGGATTTTCATGACGGAGCGGATGCGCTGAAGCCGCTGACGGATGAAGAGGCGGCGGGCCATTCGGCTCCGCCGGCGGATTGGGCTGAATTTGTGCCTGACATCGGAGTGAAAGAAAACGATTATACGGTAACAAAACGGCAGTGGGGCGCGTTTTTCGGCACGGACCTGGATCTTCAGCTCAGAAGACGGGGAATCGACACGATCGTGTTATGCGGGATTGCGACAAACATCGGTGTGGAAAGCACGGCGCGGGAAGCTTTTCAGCTCGGGTATCAGCAAGTTTTCGTAACTGACGCGATGGCGACATTCAGCGATGAACAGCACGAAGCGACACTCAAGTTTATCTTCCCGAAAATCGGCAGAAGCCGGACGACGGAAGAATTTATCGCACAGACAAAATGA	MTTSLNLQFEKTALVLIDLQKGIVPIDKSGTVVPNAKKLIDVFREKGGFISFVNVDFHDGADALKPLTDEEAAGHSAPPADWAEFVPDIGVKENDYTVTKRQWGAFFGTDLDLQLRRRGIDTIVLCGIATNIGVESTAREAFQLGYQQVFVTDAMATFSDEQHEATLKFIFPKIGRSRTTEEFIAQTK				NA	NA	NA	NA	NA
D1-12_02498	1365	ribZ_2		Riboflavin transporter RibZ	ATGACAATCTCCAAAAAAAGCCGCGTCCTGTTCTTGACGGCCGTGGCTTCGGGGACGATGCTGAACCCATTGAACTCGTCGATGATTTCTCTTGCGCTTCACAGTATTCAGCATGAATTTCACCTGTCGTTTACAACGGTGTCCTGGCTGATATCGTCCTTTTATCTTGCCAGCGCGGTGGCGCAGCCTGTTACCGGGAAGCTCGGTGATATGCTCGGCAGGAAGAAGCTGTTTTTGATCGGGCTTCTGCTTGTTGCCGTCTCGGCGGTCGGCGCGCCGTTTGCGCCGACTTTTATGACTTTGCTGATCATGCGGCTTTTTCAATCGATTGGAAGCAGCGCGATATATCCGTCCGGCGTCGGATTGATCCGTTCAAATATACAGGAGAAGCAGGCTTCGGCGCTGGCCGTCCTGTCAATCTTTGCATCAGCCATGACGGCGCTCGGTCCGACTCTCGGCGGTTTTCTGATCGTTTGGGGAGGGTGGCCGGCAATCTTTTTCGTCAATCTGCCGTTTATCATTCTCAGCTTTTTTCTCGGAATGTATATGTTTCCGAAAGATGAAAAACGCGAGATCGGCGGCTTGAAAGGCGTGCTTCGCCAGCTTGATACGATCGGGATACTTCTGTTTGCCGGGGCGATTATCCTTCTCCTGTCGTTTTTATTGTCCTTCAGTACGAAGCCTCACTATACAGAAGGCGTATTCGGGCTTTTGTTTGTCGGGCTGTTTATCTGGCGCGAGCTGAAAACAGAGAAGCCGTTTATTGATGTCAGGCTGTTTAAAACGCATCGGAAACTATCGTCGGTGTATATTCAATTTATTTTGCTGAATATATTCTTTTACTGCATCTTTTTCGGGCTTCCGAGCTATTTTCAGGATGAAATGCATTTGTCCGTTCAGACAAGCGGATTGATTATGCTGTTTATGTCGGGCATGAGTATTCTGGTGTCGCCTCTGACCGGAAAATGGATAGATAAGAAAGGGCTTCTTCAGCCGATTGTTGCCGGAACCTGCCTGACCGCGATCGGTGCGGTGCTGTTAACGTTTTTCTTTCTTCAGGCGCCTATGATAGGAAAAGGGCTGATCCTGTCCGTGCTGGGTGTCGGCTACGGCTTCGGAAATGTCACGTTTCAGGCGGCCATGCTGAAAACGAGCCCCGCCGACATGGTCGGAACAACGTCCGGCCTGTTTCAGACCTGCCGGTATCTCGGTTCGATTTTGTCTTCTGTCATTTTGGGCATTCTTTTCGGAAAAGAAATTACCGCCGGCCATTTTCATATGCTCGGCACGATTCTTATCGTTGTCGGCGCCGTAAGCCTTTTGATGGTATTCCGGTTTTCGGTTCTCCTCAAAAAAGCCTCTTAA	MTISKKSRVLFLTAVASGTMLNPLNSSMISLALHSIQHEFHLSFTTVSWLISSFYLASAVAQPVTGKLGDMLGRKKLFLIGLLLVAVSAVGAPFAPTFMTLLIMRLFQSIGSSAIYPSGVGLIRSNIQEKQASALAVLSIFASAMTALGPTLGGFLIVWGGWPAIFFVNLPFIILSFFLGMYMFPKDEKREIGGLKGVLRQLDTIGILLFAGAIILLLSFLLSFSTKPHYTEGVFGLLFVGLFIWRELKTEKPFIDVRLFKTHRKLSSVYIQFILLNIFFYCIFFGLPSYFQDEMHLSVQTSGLIMLFMSGMSILVSPLTGKWIDKKGLLQPIVAGTCLTAIGAVLLTFFFLQAPMIGKGLILSVLGVGYGFGNVTFQAAMLKTSPADMVGTTSGLFQTCRYLGSILSSVILGILFGKEITAGHFHMLGTILIVVGAVSLLMVFRFSVLLKKAS				NA	NA	NA	NA	NA
D1-12_02499	1455	pucI	COG1953	putative allantoin permease	ATGACAAAAACAACGAGTGATCGGCTGAGCAACAAAGATTTACTGCCTTTAGAAGACGGCGAACGGACATGGAAGGCGGTGAATTTTGCATCCATCTGGATGGGTTGTATTCATAATATCCCGACCTACGCGACTGTGGGCGGGCTCATTGCGATCGGCCTTTCTCCGTGGCAGGTGCTCGCCATTATCGTGACGGCGTCACTGATTTTGTTCGCCGCTTTGGCCTTGAACGGCCATGCCGGAACGAAATACGGCCTGCCTTTTCCGGTCATTATCAGGGCTTCTTACGGAATATACGGCGCTAACATTCCGGCGCTTCTCAGGGCATTTACAGCCATCATGTGGCTCGGAATTCAAACATTTGCCGGGAGCACTGCCTTACACATTCTGCTTTTGAACATATGGCCGGGCTGGGGGAGTCTCGGCGGAGATTGGAATATATTCGGGCTTCATCTGCCGGGCTTTCTGTCGTTCATTTTCTTTTGGGGCATTCATCTGCTTGTGCTGCGGCACGGCATGGAATCGATCAAAAAATTTGAAGTGTGGGCGGGCCCGCTTGTTTATCTCGTCTTCGGCGGCATGGTCTGGTGGGCGATAGATATTGCCGGCGGGCTCGGTCCGATTTACTCACAGCCGGGAAAGTTCCATACATTTTCTGAAACGTTTTGGCCGTTTGCCGCCGGAGTGACGGGCATTATCGGAATATGGGCGACGCTGATCCTGAATATCCCTGACTTCACCCGGTTCGCCGCGTCGCAAAAAGAACAGATTCGCGGCCAGTTTTACGGGCTGCCGGGAACGTTTGCGCTGTTTGCGTTTGCAAGCATCACGGTGACATCCGGATCACAGGTAGCATTCGGAGAACCGATCTGGGATGTGGTGGAGATTTTGGCGCGGTTTGATAATCCTTTCGTTATCGCTCTTTCGGTCATCACACTTTGCATCGCCGCCGTCTCGGTTAACGTGGCGGCAAACATCGTGTCACCGGCCTATGACTTGGCGAATGTCCTGCCGAAGTATATTACATTCAGAAGGGGAGGGTATTTGACCGCCGTTTTGGCTCTGTTCACAATACCGTGGAAGCTGATGGAGAGCGCCACGAATGTATATGCGTTTCTCGGACTCATCGGCGGGATGCTCGGACCGGTGGCCGGGGTGATGATGGCTGATTATTTTATCATCAGAAAAAGGCAGCTCTCAGTTGAAGACCTTTATTCGGAAACCGGACAATACACTTATTACAAAGGCTATAATTACCGGGCCTTTGCCGCGACTTTTCTCGGCGCGTTTATTTCTTTAATCGGGATGTACGTCCCGGCGTTCGCCGGCATCTATGATATTTCCTGGTTTGCGGGTGTCATTTTGTCGTGTCTCGGTTATACGGCGCTTATGTATATTCATCCTCCTTATGCAAAAGCGGAGGGACGAATCGTGCGGGAAAGAGCGGCCGAATAA	MTKTTSDRLSNKDLLPLEDGERTWKAVNFASIWMGCIHNIPTYATVGGLIAIGLSPWQVLAIIVTASLILFAALALNGHAGTKYGLPFPVIIRASYGIYGANIPALLRAFTAIMWLGIQTFAGSTALHILLLNIWPGWGSLGGDWNIFGLHLPGFLSFIFFWGIHLLVLRHGMESIKKFEVWAGPLVYLVFGGMVWWAIDIAGGLGPIYSQPGKFHTFSETFWPFAAGVTGIIGIWATLILNIPDFTRFAASQKEQIRGQFYGLPGTFALFAFASITVTSGSQVAFGEPIWDVVEILARFDNPFVIALSVITLCIAAVSVNVAANIVSPAYDLANVLPKYITFRRGGYLTAVLALFTIPWKLMESATNVYAFLGLIGGMLGPVAGVMMADYFIIRKRQLSVEDLYSETGQYTYYKGYNYRAFAATFLGAFISLIGMYVPAFAGIYDISWFAGVILSCLGYTALMYIHPPYAKAEGRIVRERAAE	PGPT0009075_2155	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
D1-12_02500	1197	yhhS		putative MFS-type transporter YhhS	TTGAGTAAATCTGACTCGATCTGGACCAAAGATTTTATTATGGTCGTACTCGTGAATTTATTTGTCTTTGTGTTCTTTTATACATTTTTGGCCGTGCTGCCTATCTATATGATTCAGGAGCTTGGCGGCAGTGAATCGCAAGGAGGGCTTTTGATCAGCCTGTTCCTGTTATCTGCTATTATCACCCGTCCTTTTTCAGGGGCGATTATTGAACGGTTCGGCAAGAAAAGAATGACGATTGTATCTCTGGCGCTGTTCGCCCTGTCTTCTTATCTGTATTTGCCGATACACAATTTCTATCTGCTGCTCGGACTGCGTTTTTTCCAAGGCATCTGGTTCAGCATTTTAACGACGGTCACGGGCGCAATTGCCGCTGACATTATTCCCGCCAAGCGGCGCGGCGAGGGGCTCGGTTATTTCGCGATGTCTATGAACCTTGCCATGGCGATCGGTCCGTTTCTCGGGCTGAGCCTTGTGAAAGTCATTTCGTTCCCGGTTTTCTTTACGATTTTTGCCGTATTTGTTTCTTTAGGCTTGCTGATTGCTTTTATGATTCGTGTGCCGGATCAAAACAACAGCGGAACGACAGTCTTCCGTTTTTCTTTCTCCGACATGTTTGAAAAAGGCGCGCTTAAAATCGCGATTGTCGGGTTGTCCATTTCTTTCTGTTATTCAAGTGTGACTTCATATTTATCCGTTTATGCAAAGACGATCCACCTGTTGGATGTCAGCGGCTATTTCTTCGTCTGTTTCGCAGTGACGATGATGGCCGCCCGTCCTTTCACAGGAAAGCTGTTTGACAGAGTGGGGCCGGGAATCGTCATCTATCCGTCGATTATCGTGTTCTCCGCGGGGCTTTGCATGCTGGCGATGACAAACAGCGCCCTCATGCTTCTCTTGTCCGGTGCCGTAATCGGCCTCGGATACGGCTCTATCGTACCTTGTATGCAGACGCTGGCGATTCAGAACTCGCCCGGACACCGTTCAGGCTTTGCGACGGCTACCTTCTTCACTTTCTTTGACAGCGGGATTGCCGGCGGGTCATATGTATTCGGCCTCTTCGTCGCTTCCGCCGGATTCCATTCGATTTATCTGGCAGCGGGGCTGTTCGTCCTGATTGCATTGCTCCTGTATGGCTGGAGCCAGAAAAAAAGAACGCCGCTTGAAGCGGACGGAAACGTTTCAATCGCAGACTGA	MSKSDSIWTKDFIMVVLVNLFVFVFFYTFLAVLPIYMIQELGGSESQGGLLISLFLLSAIITRPFSGAIIERFGKKRMTIVSLALFALSSYLYLPIHNFYLLLGLRFFQGIWFSILTTVTGAIAADIIPAKRRGEGLGYFAMSMNLAMAIGPFLGLSLVKVISFPVFFTIFAVFVSLGLLIAFMIRVPDQNNSGTTVFRFSFSDMFEKGALKIAIVGLSISFCYSSVTSYLSVYAKTIHLLDVSGYFFVCFAVTMMAARPFTGKLFDRVGPGIVIYPSIIVFSAGLCMLAMTNSALMLLLSGAVIGLGYGSIVPCMQTLAIQNSPGHRSGFATATFFTFFDSGIAGGSYVFGLFVASAGFHSIYLAAGLFVLIALLLYGWSQKKRTPLEADGNVSIAD				NA	NA	NA	NA	NA
D1-12_02501	414		COG1846	putative HTH-type transcriptional regulator/GBAA_1941/BAS1801	ATGATCCACGTCAACAGACGCCTCATTCATCAAATCAATCAATGCGCCCGCCTGATTACGAAGAAAGCCAATGAACGGCTGGAACCATTCGGCCTGTACTCCTCTCAATGGTCAATCCTATATTGCTTAAAAACGATCGGACCGATGACCCAAAAAGAAATCTGGTCCTATCTGAACGTAGAGGCGCCGACCGTTACCAGAACGATCAAACGCCTTGAAGAAAACGGCTGGATTCAGCGGGAACAGGGAGAAGACAAGCGGGAAAAGCTCGTCGTCCTGACGAAGGAAGCTGAATTGAAATACGACAGCATCAATCAAGAGATGCTGAAGTTCGAGGAAGACATGCTTGCGGATTTCCAGGATGGAGATAAGGAAGCTTTTTCTGAGTTTCTGAATGTGTTTTTAACGAAATAA	MIHVNRRLIHQINQCARLITKKANERLEPFGLYSSQWSILYCLKTIGPMTQKEIWSYLNVEAPTVTRTIKRLEENGWIQREQGEDKREKLVVLTKEAELKYDSINQEMLKFEEDMLADFQDGDKEAFSEFLNVFLTK	PGPT0016255_1954	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
D1-12_02502	282	spoIIID		Stage III sporulation protein D	GTGCACGATTACATCAAAGAGCGAACAATCAAGATTGGTAAGTATATCGTGGAGACGAAAAAAACCGTTCGTGTCATTGCGAAAGAGTTTGGTGTTTCCAAAAGTACCGTACACAAAGATCTGACGGAGCGCCTGCCTGAAATTAATCCTGACTTGGCGAATGAAGTAAAAGAAATACTCGATTATCATAAATCCATCAGACATTTAAGAGGGGGAGAGGCGACGAAATTAAAGTACAAGAAGGATGAAATTCTTGAAGGGGAGCCCGTTCAGCAGCCGTAG	MHDYIKERTIKIGKYIVETKKTVRVIAKEFGVSKSTVHKDLTERLPEINPDLANEVKEILDYHKSIRHLRGGEATKLKYKKDEILEGEPVQQP	PGPT0024715_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024715-spoIIID-K06283	NA	NA
D1-12_02503	1002	mbl	COG1077	Cell shape-determining protein Mbl	ATGTTTGCAAGGGATATTGGAATTGACCTCGGTACTGCAAATGTACTGATCCATGTAAAAGGAAAAGGAATTGTTCTGAATGAGCCTTCCGTTGTGGCACTTGATAAAAACAGCGGCAAAGTGCTGGCTGTCGGTGAAGAAGCCAGACGAATGGTTGGACGTACACCTGGGAATATTGTTGCGATCCGTCCGCTGAAAGACGGCGTAATCGCAGACTTCGAAGTAACAGAAGCCATGCTGAAACATTTCATTAATAAGCTGAATGTAAAAGGACTTTTCTCAAAACCGCGCATGCTGATCTGCTGCCCGACGAATATTACATCCGTTGAGCAAAAAGCGATTAAAGAAGCAGCTGAAAAAAGCGGCGGAAAGCATGTGTACCTTGAAGAAGAACCGAAAGTTGCCGCTATCGGCGCGGGTATGGAAATCTTCCAGCCGAGCGGTAACATGGTTGTTGACATCGGAGGCGGTACGACAGATATCGCAGTTATTTCTATGGGCGATATTGTCACCTCCTCTTCTATTAAGATGGCTGGGGACAAGTTTGACATGGAAATCTTAAATTATATCAAACGCGAGTATAAGCTGCTGATCGGTGAACGTACCGCTGAAGATATTAAGGTGAAGGTCGCAACGGTTTTCCCAGACGCACGTCATGAAGAAATCACCATCCGCGGCCGTGACATGGTTTCCGGTCTGCCGAGAACGATTACAGTAAACAGTAAAGAAGTAGAAGAAGCCCTTCGTGAATCAGTTGCCGTCATTGTGCAGGCCGCCAAGCAGGTTCTTGAAAGAACACCGCCTGAATTGTCCGCTGACATCATCGACCGCGGCGTTATCATTACCGGCGGGGGAGCGCTGTTAAACGGGCTTGACCAGCTTCTTGCCGAAGAGCTGAGGGTGCCTGTTCTTGTCGCTGAGAACCCGATGGATTGTGTTGCGGTCGGAACCGGCGTCATGCTGGATAACATGGACAAGCTTCCAAAACGCAAACTGAGCTGA	MFARDIGIDLGTANVLIHVKGKGIVLNEPSVVALDKNSGKVLAVGEEARRMVGRTPGNIVAIRPLKDGVIADFEVTEAMLKHFINKLNVKGLFSKPRMLICCPTNITSVEQKAIKEAAEKSGGKHVYLEEEPKVAAIGAGMEIFQPSGNMVVDIGGGTTDIAVISMGDIVTSSSIKMAGDKFDMEILNYIKREYKLLIGERTAEDIKVKVATVFPDARHEEITIRGRDMVSGLPRTITVNSKEVEEALRESVAVIVQAAKQVLERTPPELSADIIDRGVIITGGGALLNGLDQLLAEELRVPVLVAENPMDCVAVGTGVMLDNMDKLPKRKLS	PGPT0027700_3722	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
D1-12_02504	798	flgF	COG4787	Flagellar basal-body rod protein FlgF	TTGTTAAAAGGATTATATACCGCAACGTCCGCAATGATTACACAGCAGAGAAGAACGGAAATGCTGTCAAATAACATCGCAAACGCGAATACATCAGGGTACAAAGAGGATCAAGGTTCAATCCGCGCCTTTCCCGAGATGCTTCTGAGCCGAATAGAAGGCGACAAAAAAACGAAAATCGGCTCCGTCAACACAGGCGTATACATGCAGGAGCTGAAACCGTTGTTTACGCAGGGAAGCCTGAAAACGACCGATCAGCCGACGGATATCGCGCTGATGGAGAATCAGGTTCCCAAGAATGCCGAAACGAATGAAAACGCCGAGCTGTTTTATCCCGTGCAGACCGCGGGCGGCGTCCGCTATTCAAAAAGCAGCACTTTCTCATTAAATGAAAACAATCAGCTTACGATAAACGGAAACCTTGTGTTATCAACAAACGGACAGCCGATTACAGTCGACAATGAAAAATTCACCGTATCAGAAAACGGAACGGTCACGACAAACGGCCGGCCGGCGGGGCAGATTGACATCAGAATGGAAGAAGACGTGCGCAATCTGAAACGGGACGGCAATGACCTATACAGCACGGCCGACGGCTCTGAACTGCCGAGCGCGGCGGCGAATCCCCAAGTCTCGTATTCATTAAAGCAAGGCGTCTCGGAGCTTTCGAACGTGGACGTGACGAGCACGTATACAGAAATGACGGAAGCATACAGATCATTTGAAGCCAATCAGAAAGTCATTCAGGCTTACGATAAAAGCATGGATAAAGCCGCAAATGAAATCGGCAAAGTGTAA	MLKGLYTATSAMITQQRRTEMLSNNIANANTSGYKEDQGSIRAFPEMLLSRIEGDKKTKIGSVNTGVYMQELKPLFTQGSLKTTDQPTDIALMENQVPKNAETNENAELFYPVQTAGGVRYSKSSTFSLNENNQLTINGNLVLSTNGQPITVDNEKFTVSENGTVTTNGRPAGQIDIRMEEDVRNLKRDGNDLYSTADGSELPSAAANPQVSYSLKQGVSELSNVDVTSTYTEMTEAYRSFEANQKVIQAYDKSMDKAANEIGKV	PGPT0015490_447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
D1-12_02505	825	flgG_2	COG4786	Flagellar basal-body rod protein FlgG	ATGATGCTCAGATCAATGCTGACAGCTTCAACAGCCTTAAATCAGCTTCAGCAGCAGATGGATACAGTCAGCAGCAACCTTTCAAACAGTGATACGACAGGCTATAAAGCGAGGGACTCCCGCTTTTCCGAGCTGATCAGACAGCAGTATGACCATATAGATGACAAAAAGGAAAATTCGCCGGACATGCGGAAAACGCCGCCCGGCCTGCGTCTCGGCGCCGGAACGGTCATGACTCCGCAGCTGGACTCAGGGCAGGGAAGCATCAAAAAAACCGACCGTGACCTTGATATCGCGTTCACATCACCTTATCAATATCTTCAGGCAGAAGCGGACGGACGGCGGGTGTATACAAGGGACGGCTCACTTTCCCTCAAGCCGGCAGGCGGAAATGACCGGCTGCTTCAGCTGATGACAGCGGGAGGCAATCCCATTCTCGATGAGAACGGTCAGCCCATACAAATTGACAGTTCGCTGACTCAGCTGAAAATCAGCAAAACCGGAACGCTGACTGCTTCAGACCAGGCGGGAACCCGTTCGCAGACGTTTAATCTCGGCATCGTCAATGTCAATAATCCTCAGGCGCTTCATGCGGAAGGGGATAATCTGTTTTCCGTAAACGGCGCGGGGGCTTCAGTGATTGAAGAGCTTACCGGCGCAAACCGGCAGGCAATCGGCATGAAGCAGGGCGCGCTTGAAAGTTCAAATGTCGATATGTCAAAAGAAATGACCGACTTAATCGTGTCTCAGCGTTCCTATCAGCTGAACAGCCGCACGATTACATTGGGAGACCAAATGCTGGGCTTAATCAACTCAGTCAGATAA	MMLRSMLTASTALNQLQQQMDTVSSNLSNSDTTGYKARDSRFSELIRQQYDHIDDKKENSPDMRKTPPGLRLGAGTVMTPQLDSGQGSIKKTDRDLDIAFTSPYQYLQAEADGRRVYTRDGSLSLKPAGGNDRLLQLMTAGGNPILDENGQPIQIDSSLTQLKISKTGTLTASDQAGTRSQTFNLGIVNVNNPQALHAEGDNLFSVNGAGASVIEELTGANRQAIGMKQGALESSNVDMSKEMTDLIVSQRSYQLNSRTITLGDQMLGLINSVR	PGPT0015495_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
D1-12_02506	1065	rapF_2	COG0457	Response regulator aspartate phosphatase F	ATGATTGCTAAGTTTACTGAAAAACGTACGCGGGTGATGCTGAATGAGTGGTATGACGCCATGGGAAAACGCCAATTCGATCTAGCCCGTTCCCTTCACGAACAAATCAATCAGCATCTCCCCAAATTACAAAAGAATGCAAAGCTCAAACTCAGATATCAGCTGTTTTTCGCACGGTTTCAGCTGCTGTTTGAGAAAAAAGACGGTCTGAATAAGCTGTTCTGCGAGCTGAAGCGGCGCAAAGATGAGATGGATCATGAATTAACTTATTATTTCTATTTTTTCAAAGGGTTATTCCATATGGTGAATGGCGCTCCGAACCGTGCTGTCTGCCGCTTTAAAGAAGCTGAACAGTACCTGCCGGCCATTCAGGACCGTTTCGAAGCCGCTGAATTTTATTATAAAACAGCGGGTGCATATTACATGATGAAGTCGCCTGCGCTCTCCATTCAATATGTCAATAAAGCGCTGGAAATCTATCAAGATGAAGCCGGCTACATCAAAAAAACGCTCAGCTGCCGGCTGCTTCTCGCCGTGAATTATATAGACGAGGCACGCTATGAAGACGCAGAACAGCTCTTTAATGAATCCATAAAGATAACGGACCGGATCAATGACAATAACCTGCTGTGCCACGCCTATTATAATTTTGGTTTTTTAAAGACCGCCCAGAAAAAAGATAAAGAGGCCCTCCCTTTTTACAAAAAGGTATTGGGCAATCAGCGTTTCGAGAAAGAGTCTCCCGTTTCCTACCTTCATTGTGTATACGAAGCGGTCAGAGCACTTTTTAAAACCGGATCTGCCGCCGAAGGACAAACCGTGCTGCAGAAAGGCTTATACATATCTGAAAAAGTGCAGAACAAGATTATGAAATTGAAGCTGACCGCGCTCAACATACTGTACACCGCTCAGGAGGACCCGTACGACCGATTGCAGAAGCTTGTGCTGGAGCTGCAGAAAATTGAAGCGTGGGTGGATTTGGAAGTGCTGCTTCAGGATATTACTGATTACTACAAAAAAAAGGGCGATTTTGAGAAAGCCGCATTTTTTATCATGCGCGGCTGA	MIAKFTEKRTRVMLNEWYDAMGKRQFDLARSLHEQINQHLPKLQKNAKLKLRYQLFFARFQLLFEKKDGLNKLFCELKRRKDEMDHELTYYFYFFKGLFHMVNGAPNRAVCRFKEAEQYLPAIQDRFEAAEFYYKTAGAYYMMKSPALSIQYVNKALEIYQDEAGYIKKTLSCRLLLAVNYIDEARYEDAEQLFNESIKITDRINDNNLLCHAYYNFGFLKTAQKKDKEALPFYKKVLGNQRFEKESPVSYLHCVYEAVRALFKTGSAAEGQTVLQKGLYISEKVQNKIMKLKLTALNILYTAQEDPYDRLQKLVLELQKIEAWVDLEVLLQDITDYYKKKGDFEKAAFFIMRG				NA	NA	NA	NA	NA
D1-12_02507	426	fabZ_1	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGCTTGATACTCAGCAAATTAAAGAAATTATTCCCCATCGCTATCCGTTTCTTCTGGTAGACAGAATTACGGAAGTCGAAGAAGGAAAACGGGCGGCGGGATATAAAAATGTGACGGCGAATGAAGATTTTTTCAACGGCCATTTTCCTGAATACCCTGTTATGCCGGGCGTATTAATCGTAGAGGCTTTGGCGCAGGTCGGAGCGGTTGCGATGCTGATTAAAGAAGAAAACCGGGGCAGACTTGCATTTTTTGCGGGGATTGATAACTGCCGTTTCAAAAAGCAGGTAAAACCGGGTGACAAGCTGGAGCTTGAGGTTGATATTACCCGCGCGCGCGGTACGATCGGACGCGGCAAAGGCGTTGCCAAAGTTGACGGCGAGCTCGTGTGTGAAGCTGAATTAACTTTTGCGCTCGGAGAATAA	MLDTQQIKEIIPHRYPFLLVDRITEVEEGKRAAGYKNVTANEDFFNGHFPEYPVMPGVLIVEALAQVGAVAMLIKEENRGRLAFFAGIDNCRFKKQVKPGDKLELEVDITRARGTIGRGKGVAKVDGELVCEAELTFALGE	PGPT0008365_3596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
D1-12_02508	396	mscL	COG1970	Large-conductance mechanosensitive channel	ATGTGGTCAGAATTTAAAAGCTTTGCGATGCGGGGCAATATCATGGATCTGGCAATCGGTGTCGTCATCGGCGGCGCTTTCGGCAAAATCGTGACGTCGCTCGTTGAAGATATCATCATGCCGCTTGTCGGCCTGCTTCTCGGCGGTCTTGACTTTTCAGGGCTGGCCGTGACATTCGGCGAGGCTCATATCAAGTACGGAAGCTTCATTCAAACGATTGTGAACTTCTTCATTATTTCATTTTCTATTTTTATCGTGATCCGCACAATAGGCAAGCTGAGACGTAAAAAAGAAGCAGAAGAAGAGGCTGAAGAAGCCGAGGAAACAGATCAGCAGACAGAACTGCTGACTGAAATCAGAGATCTGCTGAAACAGCGGGCTCCTCACAATGACTAA	MWSEFKSFAMRGNIMDLAIGVVIGGAFGKIVTSLVEDIIMPLVGLLLGGLDFSGLAVTFGEAHIKYGSFIQTIVNFFIISFSIFIVIRTIGKLRRKKEAEEEAEEAEETDQQTELLTEIRDLLKQRAPHND	PGPT0013771_2382	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
D1-12_02509	411			hypothetical protein	ATGAAAACCTTTAAACTGGTTGATCTGAATGTGGAACGTTTAGATAAAGACGATCAGCCGATTGAGCAGTTTCCCCTTTTAGACGGATTGATTATTAACAAAGAGGACGGAGAAAATCACTGGTTAATTGAAGCACTGGTCCCGGCCGAACACTTTTCTTTTTTTGACATGCTGATGAAAAGCCAGAAAGAAGCGAAGGTGTTTGTAACGATTACGAAAAAAAGCAACCGTCCCGCCCAGCTGACGGGAAGCATCAAAAATATCGTCGAGCTGGAAAGAAGTATACAAGTTTTAATTTACGGTCAAATGGTGTCAAGAAATCACCCCGGATCAGAAAGCATTCTGGAGTCGCTCGTGAAAGAAGGCTACTCGGGCAGCCGGCTGATTGAAGCGTTTAAACAAAAATTATAA	MKTFKLVDLNVERLDKDDQPIEQFPLLDGLIINKEDGENHWLIEALVPAEHFSFFDMLMKSQKEAKVFVTITKKSNRPAQLTGSIKNIVELERSIQVLIYGQMVSRNHPGSESILESLVKEGYSGSRLIEAFKQKL				NA	NA	NA	NA	NA
D1-12_02510	354	ywpG		putative protein YwpG	ATGAATCAATTGCGCCTGAAGGAAATCTATATAGAAGACGGTTCAAGGCGAAAAGACGATCATTCCTACTTGGTATGCAAAAAGGAAGATTGTGAGGTGCATCTTAACAGAAGGGGAAATGTCGTCTTTTTATATGAAACAAAAGACCGCATGGAACAGTATAAAATTCAGCTTTCACTGACTGATAAAAAGCTGAGTTTTTACTGGTTCGCATGGGACGGCGGAAAGTTTGTCCGCATGTTTGAGAAAGACTGGCTCAAAACGAAACTTTTCTCGCGGCTGCTCAAAAATACATATTACATAAGCGGTCAAAAACAAAAGTTTTTTTTATCAGAAAGAAAAACGAAAACATAA	MNQLRLKEIYIEDGSRRKDDHSYLVCKKEDCEVHLNRRGNVVFLYETKDRMEQYKIQLSLTDKKLSFYWFAWDGGKFVRMFEKDWLKTKLFSRLLKNTYYISGQKQKFFLSERKTKT				NA	NA	NA	NA	NA
D1-12_02511	342	ssbB	COG0629	Single-stranded DNA-binding protein B	TTGTTTAACCACGTTATGCTTGTCGGGCGGCTGACGAAAGACCCGGAGCTCCGTTTTACATCAGCGGGCATTCCCGTCGCGCATATTACGCTGGCGGTAAACCGCAATTTTAAAAGCGCGTCGGGTGAAACCGGAACCGACTTCGTCAACTGCACCATCTGGAGAAAAAACGCTGAAAACACGGCATTGTACTGCCAAAAAGGGTCAATGGTCGGTGTGAGCGGCAGAATCCAGACGAGAAGCTATGAAAAGACAGACGGCGTAAAAGTTTATGTGACCGAGGTCATGGCTGATACCGTTCGGTTTATGGATCAAAAACAGAAAGAGCCGCTGGCTGAATAG	MFNHVMLVGRLTKDPELRFTSAGIPVAHITLAVNRNFKSASGETGTDFVNCTIWRKNAENTALYCQKGSMVGVSGRIQTRSYEKTDGVKVYVTEVMADTVRFMDQKQKEPLAE				NA	NA	NA	NA	NA
D1-12_02512	783	glcR	COG1349	HTH-type transcriptional repressor GlcR	GTGTATCAAGAAGAAAGACTGATTGCGATAATGGAATATTTGAAACAGCATCGGCGGATCACCGCTGAACAGATATGTTCGCTGCTTCATATTTCAAGAGATACCGCAAGAAGGGACCTTGTAAAGCTGAAAGAGCGCGGGGCCATTATCAGAACACGGGGCGGTGCGATTCTGCCGTCGGTGAATCAGGAAGTTCCTGGCTATTCGGGCCGGCTGAAAACTGTTTCTGAAGAGAAAAACAAAATCGGCAAGCTGGCCGCATCCCTGATCCATAAAGGAGACCGGATCATCCTGGACACCTCGACAACCGTGCAGGCCTGCGCGGAGCATTTAAATGTCACCGGCTGCACTGTTATTACAAATTCGATCAATCAGGCCGATATCCTTTCCGCAAAAGAGGGAATTGATATTCACCTGCTCGGCGGAAAGCTCCAGAAGGAACACCGGTTTTTATACGGGGCTTCCGTCGTAGAAAAACTGGGGGATTATCACGCCGATAAGGTGCTGATCGGCGTTGTCGGCATCTCGGAAAACGGCCTGACGATACCTCATGAAGAAGACGGCATGGTAAAGCGTAAAATGATCCGACAGGCGGAACAGGTGATTGCGCTGAGCGATCACTCCAAGCTTGGCCGTACGAGTTTTTATCAGTATGCAGACCTGCACGAGGTTGACCTGCTGATTACCGATCGGCTGCCTGATCAGGATTTTTGCGATCTGCTCGACCGGCACGGCGTAGAATTGCTTGTAACTGAATCTGAAGAAGAGGATGAGGACATGTGA	MYQEERLIAIMEYLKQHRRITAEQICSLLHISRDTARRDLVKLKERGAIIRTRGGAILPSVNQEVPGYSGRLKTVSEEKNKIGKLAASLIHKGDRIILDTSTTVQACAEHLNVTGCTVITNSINQADILSAKEGIDIHLLGGKLQKEHRFLYGASVVEKLGDYHADKVLIGVVGISENGLTIPHEEDGMVKRKMIRQAEQVIALSDHSKLGRTSFYQYADLHEVDLLITDRLPDQDFCDLLDRHGVELLVTESEEEDEDM				NA	NA	NA	NA	NA
D1-12_02513	858	ywpJ	COG0561	Phosphatase YwpJ	GTGAAACTGATTGCCATAGATCTGGACGGCACACTGCTGAACAGCAGTCATCAAGTAAGCGATGAAAATGAGCGGGCTTTAAGGGAAGCCCGGCAAGCGGGAATTGAAATCGTGGTTTCCACGGGACGCGCGCATTTTGACGTGCATTCCATATTCGAACCGCTCGGCATAAAAACGTGGGTCATCAGCGCAAACGGAGCCGCCATTCATGCTCCTGACGGCAGCCTGTACCACTGTGATGCGATTGAAGAAACAAGAGCCCGCGGCATTTTGTCATGGCTTGAAGAGAATCAATATTACTATGAGGTGTTTACAAACAAAGCCATCTATACGCCTGAAACCGGCAGGCAGCTGCTCGATATCGAAATGGACCGGGTGAAAAGCGCCAATCCGGAAACCGATCTTTCCGTTTTGGAACAGGCGGCTTCAGTGCAATACAGCCAGTCCGGCTTTGCTTACATTCATTCATACCGTGAGCTCTTTGAGAAAGAAGAGCATCTGGATTTTTATAATATTCTCGGATTTTCGTTTGATGAGCGGAAGCTGAAAGCGGGCTGGGACCGATTCAGCGGTCAGAAAGATCTCACCCTTGTCAGCTCTGCCGACCACAACTTCGAACTGGCGTCTCGAAACGCCTCTAAAGGGCAGGCGCTCAAACGGCTGGCGCAAAAGCTCGGCATTCCGATGGCTGAAACCGCCGCGGTCGGTGACAGCTTAAATGACTATTCAATGCTTCAGGCGGCCGGAAAAGGCATAGCGATGGGGAATGCGAGAGAAGATATTAAGGAGATCGCTGATGCCGTTACATTGACAAATGATCAAAACGGCGTTGCGCATATGATCAGGAATTTACTGTGA	MKLIAIDLDGTLLNSSHQVSDENERALREARQAGIEIVVSTGRAHFDVHSIFEPLGIKTWVISANGAAIHAPDGSLYHCDAIEETRARGILSWLEENQYYYEVFTNKAIYTPETGRQLLDIEMDRVKSANPETDLSVLEQAASVQYSQSGFAYIHSYRELFEKEEHLDFYNILGFSFDERKLKAGWDRFSGQKDLTLVSSADHNFELASRNASKGQALKRLAQKLGIPMAETAAVGDSLNDYSMLQAAGKGIAMGNAREDIKEIADAVTLTNDQNGVAHMIRNLL	PGPT0008595_130	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
D1-12_02514	2775	rapA_4		RNA polymerase-associated protein RapA	ATGGCGAGTCTTAAGGAAATTTTCATTCATGTAGAACAAATGGAAGATTGGACATTTACGCTGTCAAGCCATGATGAGAAGGAGCAGCCGCTTACTCTCAGTCAGATGAAGACTCATTTGTTCCAATGGCATGAGTCCACCTTTTACGGAACGTTTCTTGAAGACGTCAGCTTCATAGGCACTCCGGCCGTTCTGCTCAGCCCGTGGATGACCGTCGAGCTGCTCGGAAAAAACTCGTTCAATTCATTCAGCACCGTGCAGCTGACAAAGGAAACGGAACCATTAATCGAAGCGGCTTCGACGATATACGAATTTATTGCCGACGGCGATTTTCTTCCGGACTATGAGGCTTGGCAAAATGGCGTCCTGCGTTTCAAAGACCGCGAGCTTTTGCTGGAAGGCTTTACGGCAGACTGGTTCTCAGCCGCGGTCCAGGACTACATTCAGTACAATGATGACCTGCTGGAAAAATGGCGGCGGATCGAAACCCGCTCACCGGCCGTTCATACGTTTAAAGGCTCCTTTTTGGATGAAGATGATTTTCTCGAGGGAATCGGCTGGCATGACGATGTGACGCCGTTTACCGTCGGGCTTCGATTAAACGAGCCTGATTTCGACGGTGACGACTGGAAAATCGAAATGTTTTTACGTGAGAAAAAAACCGGCTCCATCACCTTTTTTGACGGACTGAAGGGACTGAAAAAAGCGTGGCAGGCATACAGCGGAAAAATCGCGCGCGAACAGGACCGCTTCCGAAGAACGGTTCCCTGGCTTTCGTTTGATTCAGGAACGACGCTGATTTCTGAAGAAGAGGCTTGGATCTTCTTATCGGAAGCGAGTGAGACGCTTGTCAATATGGGTGTGGAGATTCTTCTCCCATCATGGTGGCAGATTGTCCGGGACAGCAATATGATGCTTAAGGCGAAAGTGTCATCCTCCCCGCGGGGCGAGTCCTTCGTCGGTATGAACGCTCTGCTTGATTTCAACTGGAGATTCGCCACTAACGGAATTGAGCTGACAGAGGATGAATTCAATGAGCTTGTCGCAAACAACAGACGTCTCGTCAACATCCGCGGCCAATGGGTGAAAATTGATCCGCAATTTATTAAACAGATGAAAAAACTGATGGAAAAAGCGGAATCTGAGGGCCTCCACATGTCCGACGTGCTGGCGCGCGAACTGATGGATCACGGGGAAAACGGAGCCGAGGACACGGACATCATTGACTCATCGGCATTTGCCGGGATCAAGATCGAATTATCAAAGCATCTCAGAAGCCTGATCCGCAAACTGACGGAAGCCCGGGATCTGCCGGAACATGAAGTCAGCGCCGCGTTTCAGGGCCAGCTCCGCCCTTATCAGATGTACGGCATGAACTGGCTTCTGTTTTTACGGGAAAACGGCTTCGGCGCCTGTCTCGCAGATGACATGGGACTTGGAAAGACGATTCAGATGATCGCTTATTTTCTCCATGTGAAGGAAAGCGGCCGGCAAAAAGCGCCTGCCTTAATCATTGCGCCGACATCGGTGCTCGGCAACTGGCAGCGTGAGCTCCAGACCTTCGCGCCGCAGCTGAAGGCCGTGCTTCATTACGGCCCCCGCCGGCCGAAGGGGGAAGCATTTGTCCCGGCCTATCAGGACGCGGACGTCGTTCTTACTTCTTACGGCCTGTCGCACGCCGATCAGGAAGAGCTTTCTTCCGTGACATGGAGCACCATCTGCCTTGATGAAGCGCAAAATATTAAAAACGCGCATACGAAGCAGTCCCGCGCGATCAGAAAGCTGAAAGGCGTCCATCATATCGCGCTGAGCGGAACACCGATGGAAAACCGCCTGACAGAGCTTTGGTCGATCTTTGATTTTATGAACAAAGGCTATCTCGGCAGTCTGACCGGCTTTCATAAACGCTATGTGCTGCCGATTGAGAAAGACCGTGACGAAAAAAGAATCAACCAGCTTCAGCAGTTAATCCGGCCGTTTTTACTGCGCCGGACAAAACGGGATGAAGAAGTGGCGCTTAATCTTCCTGACAAGCTGGAACAAAAAGAGTTTATCCCGCTCTCAGCCGAACAGGCATCCCTTTATGAACAGCTTGTCAAAGATACATTTGAACATATGGCTTCTCTGACCGGGATGCAGCGGAAAGCGCTGATTTTGAGCATGCTCGGCCGCTTGAAACAAGTATGCGACCATCCTGCGCTCTATTTGAAGGAAGAACAGACAGAGCTGTTAAACGGGAGATCCGTCAAACTGGAAAAGCTGCTTGATTTAATGGCGGCGATCCGCGGACAAGGGGAAAGCTGCCTCATTTTCACCCAATACATTCAGATGGGCAACATGATGAAGCGCCTCCTGGAAAAAGCATTCGGAGAACCGGTTCAGTTTTTAAACGGAAGCCTGTCCAAGCTGGAACGCGATTCTCTCGTCGAACGGTTCCAGAAGAAAGAATACCCGACGCTGATTTTGTCACTGAAAGCGGGCGGAACCGGCCTGAACCTGACGGCTGCCAACCATGTCATTCACTATGACAGATGGTGGAATCCGGCGGTGGAAAACCAGGCGACCGACCGCGCCTACCGAATCGGCCAGGAACGGTTCGTCCATGTTCACAAACTCATTACGACGGGAACGATTGAAGAAAAAATTGATGCCATGCTAGAAACGAAACAAACGCTGAACGATCAGATTATCCAAAGTGAAAATTGGATTACCGAGCTGTCATCCGATGAGCTTGAAGAATTATTCACCCTCAGCGCATCGGCGCAATCACATTAA	MASLKEIFIHVEQMEDWTFTLSSHDEKEQPLTLSQMKTHLFQWHESTFYGTFLEDVSFIGTPAVLLSPWMTVELLGKNSFNSFSTVQLTKETEPLIEAASTIYEFIADGDFLPDYEAWQNGVLRFKDRELLLEGFTADWFSAAVQDYIQYNDDLLEKWRRIETRSPAVHTFKGSFLDEDDFLEGIGWHDDVTPFTVGLRLNEPDFDGDDWKIEMFLREKKTGSITFFDGLKGLKKAWQAYSGKIAREQDRFRRTVPWLSFDSGTTLISEEEAWIFLSEASETLVNMGVEILLPSWWQIVRDSNMMLKAKVSSSPRGESFVGMNALLDFNWRFATNGIELTEDEFNELVANNRRLVNIRGQWVKIDPQFIKQMKKLMEKAESEGLHMSDVLARELMDHGENGAEDTDIIDSSAFAGIKIELSKHLRSLIRKLTEARDLPEHEVSAAFQGQLRPYQMYGMNWLLFLRENGFGACLADDMGLGKTIQMIAYFLHVKESGRQKAPALIIAPTSVLGNWQRELQTFAPQLKAVLHYGPRRPKGEAFVPAYQDADVVLTSYGLSHADQEELSSVTWSTICLDEAQNIKNAHTKQSRAIRKLKGVHHIALSGTPMENRLTELWSIFDFMNKGYLGSLTGFHKRYVLPIEKDRDEKRINQLQQLIRPFLLRRTKRDEEVALNLPDKLEQKEFIPLSAEQASLYEQLVKDTFEHMASLTGMQRKALILSMLGRLKQVCDHPALYLKEEQTELLNGRSVKLEKLLDLMAAIRGQGESCLIFTQYIQMGNMMKRLLEKAFGEPVQFLNGSLSKLERDSLVERFQKKEYPTLILSLKAGGTGLNLTAANHVIHYDRWWNPAVENQATDRAYRIGQERFVHVHKLITTGTIEEKIDAMLETKQTLNDQIIQSENWITELSSDELEELFTLSASAQSH				NA	NA	NA	NA	NA
D1-12_02515	1611			hypothetical protein	ATGCTTCAGGATATGATTGCTAAAGAAGATGTGCTCGCAGCGGCTGAACAGCTTAAAGAACTTCTTCCTTACAATGAAGACAATGTTCAGCTGATGAAGAAAGCACTCATTTTATATCGGCAGGATTCCGTCTATCGTATACAGGTTCAAACCCCGACAGAGATTTCCGCATATGTGCAGGATGTTGTGCCTGTAAGGGTCACGCTGAACTTATTTTTCATGGTGAAAAGCGGCTGCGCATGCCCGTCTGAGGCGATCTGCCGCCACGTGCTGGCCGTTTTTCTTTACGTATATGCCCAATTCGAGCGGGTCGGTACCTTTACCGAACATTGGCTGGAAAGAGAAAAGCTTGAGGAAAGCAGGGAGCTTGTCCGCCGGCAGTTTCAGGAAAAAGTGCTGCCGAATGAAGAGTCGCTGTCAAGCTGGCTCGCTTTTTTTGATTCGGAATTCTCGCTGTGGGAGGCGCGGACGCCGGCCGGAAGCCAGACGATGCAGGGCCTTTATTACGGCTATCTGTCAGCGCTCAAAAAACACGCCCCGAAAAAACCCGAGCTTAAAAGCTTATATCAGATTCATTCGGCGCTTGCCGTCTGGCTTCACATGTTCACTTTGATTGAGTCAGGCAGATTGGATGCCGAAAAAGATTATTACAGCATCAATCCATACGTGGAACAGCTGATGGATACGATTTATTCCTCCATTGACAGACTGAAAACGTACGCCTTGTCTTTTTCACTCGATCCTTTTTTAGACCGGACGCCCCCGGTGCTGCGCAGACTGCTTGTGAAAGAAGAGCTTTTTCAATACGAACGCCTCCGGGTATTCGGTGAAATGTGGAGCGCGCTTTTGAACCGGCCGAAATGGGTCGCGCGTGAACAGGAGATTCTCGCACAGGAAAGCGGGCGCCGTTTTTCGCCGGAAGTGCGGTTCGGACGGCTTCATCTGGCCTTTTTGCAAAAAGATGATGAAGCGGTCTTCCAAGATATGTCCCGCTTCCCTCCTGAAGCGCTGCCGTATACTTTTCAATGGCTCGGTGAACTCACCGCGAAAAAAGACTGGAAACGGCTGAAAACATGGTATGGCCGGATCGAACCGCTTGCCGTGAACTATACGAAGCTTGATAAGCCGTTTAAAGAAATGCGCGACATCATCGGAGAGCTGTTCGCGCTATTGGCGGATTACGCGCGGCACTCACGGGATGATCAGCTGTTTGAACGGTTTGCTTCCGGCTGCCTTCCCTATACCTTTACCGAATACAGCCAGTACCTGTACGAAAAACGGCGGTACGCGGAGTGGGTGGAGATTCACAGCCTCGTCGGTTTTTCCGTCTGGGAAATCGAAAAGGACATCCTGAAGGAAATTGCCGCCAGTGATCCGGAAGCGCTCATCCCCTCCTATCACCGGGCGGCGGCCTTTTTTATCGATCAAAAAAACCGCAGCGCCTATAAAGAGGCTGCACGCCATCTGAAAAAACTGCGGACGCTTTATAAAAAGGCAAAAAAACAGCAGGTATGGGAACGGTATATCAGCCGGCTGAGCGCAAGTTACAAGAGGCTGCGCGCCCTTCAAGAAGAATTGCAGAAAGGAAAGTTGATTGATGGCGAGTCTTAA	MLQDMIAKEDVLAAAEQLKELLPYNEDNVQLMKKALILYRQDSVYRIQVQTPTEISAYVQDVVPVRVTLNLFFMVKSGCACPSEAICRHVLAVFLYVYAQFERVGTFTEHWLEREKLEESRELVRRQFQEKVLPNEESLSSWLAFFDSEFSLWEARTPAGSQTMQGLYYGYLSALKKHAPKKPELKSLYQIHSALAVWLHMFTLIESGRLDAEKDYYSINPYVEQLMDTIYSSIDRLKTYALSFSLDPFLDRTPPVLRRLLVKEELFQYERLRVFGEMWSALLNRPKWVAREQEILAQESGRRFSPEVRFGRLHLAFLQKDDEAVFQDMSRFPPEALPYTFQWLGELTAKKDWKRLKTWYGRIEPLAVNYTKLDKPFKEMRDIIGELFALLADYARHSRDDQLFERFASGCLPYTFTEYSQYLYEKRRYAEWVEIHSLVGFSVWEIEKDILKEIAASDPEALIPSYHRAAAFFIDQKNRSAYKEAARHLKKLRTLYKKAKKQQVWERYISRLSASYKRLRALQEELQKGKLIDGES				NA	NA	NA	NA	NA
D1-12_02516	147			hypothetical protein	ATGATGAAGAAAACGAAGTTAGATCAAGAGGAGTTTCTGAAGATTTTAATGCATGCGCACGACATTGGTGAGCAGTCCTCTGAGATGACCACAAAAGAAATGCTTGAGAATTTGATTTCTTATATTAAAAATGGATATGCAACATAA	MMKKTKLDQEEFLKILMHAHDIGEQSSEMTTKEMLENLISYIKNGYAT				NA	NA	NA	NA	NA
D1-12_02517	747	ywqC_1	COG3944	putative capsular polysaccharide biosynthesis protein YwqC	ATGGGAGAATCTACAAGCATAAAGGAAATATTCGCAATACTGAGAAAGCGTCTGCTGTTTATACTTATTATTACCGCGGCGGCATCTGCCGCAGGCGGACTCATCAGTTTCTTCGCTCTTACGCCGGTCTATGAAAACTCAACTCAAATTTTGGTCAGCCAATCCAAAAACAATCAAAAAGAAGTCCAATTCAATGACGTTCAAACCAACCTCCAATTAATCAACACGTATAATGTCATCATCAAAAGCCCGGTCATCCTCGACGAAGTGATTAAACAGCTGCATCTGTCCATGACTTCGAAAGAGCTGGAATCGAAAATCACGGTGTCCAGCGAGCAGGATTCACAAGTCGTGACGATTGCCGTGAGGGATACGGATGCTAAGCGGGCGGCCGTTATGGCAAATGCGGTTGCAGCCGTTTTTCAGGACAAGATCACCGCCATCATGAACGTGGATAATGTCAGCATCCTTTCAAAGGCCGAAGCGGCGGACAGCCAGTCACCGGCAGAGCCTAACCGTAAGCTGAACATCGCGATTGCGTTTGCCGCCGGACTTTTGGGCGGAATCGGTCTCGCCTTTTTGCTGGAACATCTGGATAATACGATCAAATCGGAAGAACAGCTGGAATCGCTGCTCGGCATCCCGATCCTGGGAACGGTTACTTCAATCAGTACTAAAGACAGCGTTGCCAAAAACTTGAGGATGGCGGAAACCAAACAAGCGGGGGGCGGACATGTTGACGCGTAA	MGESTSIKEIFAILRKRLLFILIITAAASAAGGLISFFALTPVYENSTQILVSQSKNNQKEVQFNDVQTNLQLINTYNVIIKSPVILDEVIKQLHLSMTSKELESKITVSSEQDSQVVTIAVRDTDAKRAAVMANAVAAVFQDKITAIMNVDNVSILSKAEAADSQSPAEPNRKLNIAIAFAAGLLGGIGLAFLLEHLDNTIKSEEQLESLLGIPILGTVTSISTKDSVAKNLRMAETKQAGGGHVDA	PGPT0026560_2255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
D1-12_02518	690	ywqD	COG0489	Tyrosine-protein kinase YwqD	ATGTTGACGCGTAAAAAAGACAAACCCGGAAAACGAAGCGTGATTGCGATGTCTGAGCCGAAATCCATCAACTCAGAACAATATCGCACGATCCGCACAAACATTGAATTTTCTTCCGTTGATACGGAGGTGAAGTCCCTTTTGATTACATCCGCCGGCCCGGAAGAAGGAAAATCGACAACCGCGGCCAACCTTGCCGTCGTATTTGCACAGCAGGGGAAAAAAGTGCTTTTAATTGATGCGGATCTGCGCAAACCGACGGTTCATTTCACCTTCAAATTGGACAACGGAACCGGATTAACGTCACTGCTGTTAAAACAGATGCCGTTTCAGAAAGCCGTCCTGCCGGCTGATGAAGCAAACCTGGATATTTTAACGAGCGGGCCGATCCCGCCCAATCCGGCGGAGCTTTTATCGACGGGTGCCATGAAAGATCTTCTGTCAGAAGCCGGCGCAGTTTATGATAAAGTGATTTTGGATACGCCTCCCGTTTTGGCCGTAGCCGATACGAAAATATTAGGCAGCTACACTGACGGGGCCATTATGGTGATCTCAAGCGGGAAAACGGACAAGGAAAAAGCGGCCAAGGCGAAAGAAGCGCTCGATTACTGCCCGTGCAAGCTCCTTGGGGCCGTGATGAACGGGAAGAAACAAACGAAACACTCGGACTACGCCTATTACGGACAATAA	MLTRKKDKPGKRSVIAMSEPKSINSEQYRTIRTNIEFSSVDTEVKSLLITSAGPEEGKSTTAANLAVVFAQQGKKVLLIDADLRKPTVHFTFKLDNGTGLTSLLLKQMPFQKAVLPADEANLDILTSGPIPPNPAELLSTGAMKDLLSEAGAVYDKVILDTPPVLAVADTKILGSYTDGAIMVISSGKTDKEKAAKAKEALDYCPCKLLGAVMNGKKQTKHSDYAYYGQ	PGPT0026560_2255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
D1-12_02519	765	ywqE	COG4464	Tyrosine-protein phosphatase YwqE	ATGATAGATATCCATTGTCACATCCTTCCTTCCATAGACGACGGCGCGGCGGATGATACAGAAAGCCTGAAGATGGCGAGAGAAGCGGTCAGACAGGGGATTGATACGATCATCGCGACGCCGCATCATGTGAAATACCGCTATGACACGGACCGACATACGGTCAACGAAGCGGTCAGCATGTTAAACAAACGTTTGAATAAGGAAGGCATTCCGCTGACTGTTCTGCCCGGCCAGGAAATCAGAACAGACGGAGATCTGCTGACAGGTCTTCAAAGCGGCTCGCTTGTCCCGCTCCATGATACGAAGTATGTGCTGGCGGAATTTCCGGCGGATCATGTCCCGGCCTACGCTGAAAGGCTGTTTTATGAACTGCAGCTGAACGGATATGTCCCCGTCATCGCCCATCCGGAGCGGAACAGGGAAATTCGCGAAAACCCTTCCGTCCTATACAATCTTGTGAAGAAAGGCGCGGCCGCCCAAGTGACGGCCGGCTGCATTGCCGGAGCATTCGGGCGGAAAGCGAAATCCTTTTCGCTGCAGCTGATGGAAGCGAATTTGATCCACTTTCTCGCATCCGACGCCCATAATCTCGGACCGAGAAATTTTTATTATCAGGAGGCGCTCGGCGTTCTGAAAAAAGAAGCAGGGGCTGAGCTGATTTACATGCTCACGGAAAACGCGGCGCTTCTCGCTGAAAACAAAGCCGTTTATAAGGAACCTCCGCTGCCTGTGGCCCGCCGTAAGCGCTGGGGTCTTTTTTAA	MIDIHCHILPSIDDGAADDTESLKMAREAVRQGIDTIIATPHHVKYRYDTDRHTVNEAVSMLNKRLNKEGIPLTVLPGQEIRTDGDLLTGLQSGSLVPLHDTKYVLAEFPADHVPAYAERLFYELQLNGYVPVIAHPERNREIRENPSVLYNLVKKGAAAQVTAGCIAGAFGRKAKSFSLQLMEANLIHFLASDAHNLGPRNFYYQEALGVLKKEAGAELIYMLTENAALLAENKAVYKEPPLPVARRKRWGLF	PGPT0014530_2204	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
D1-12_02520	1326	ywqF	COG1004	UDP-glucose 6-dehydrogenase YwqF	ATGAAAATAACAGTGATCGGAACAGGCTACGTCGGTCTTGTGACAGGAGTGTCTCTTTCAGAAATCGGCCATGACGTAACATGCATAGATATTGACGAACGTAAGGTTGAGCAGATGAGAAAGGGATTGTCCCCTATCTTTGAACCGGGCCTTGAAGATATGATGAAACGAAATATCGGCCGGCATCGGCTGGCATTTGAAACAAGCTACGAAAAAGGGCTTGCGGAAACAGACGTTATTTTTATAGCGGTCGGGACACCGCAAAAAGAAGACGGGCACGCAAACCTTACTTATATTGAAAATGTCGCCGAACGGATTGCCGAACATATTTCTAAAGATGCGATTGTCGTGACAAAAAGCACGGTTCCTGTGGGAACGAATGACAGGATCAGAGAAGTTATTCATTCACGGCTGAAAGCGGACGTGAACATTTCAATCGCCTCGAATCCGGAATTTCTCCGTGAAGGTTCAGCGATTCACGATACCTTTCACGGCGACCGCATCGTGATCGGGGCTGAAGACCGGCAGACGCGGGAAACGCTTGACCGGGTTTTCGCGCCGCTTGCGATTCCGGTATATCATACGGACATCAGAAGCGCTGAGATGATCAAATATGCGTCAAACGCATTTTTAGCGGCAAAAATCAGTTTTATTAATGAAATTTCTCATATATGTGAAAAAGTCGGTGCGGACGTGGAATCAGTCGCACACGGAATGGGATTGGATAAACGGATTGGCAATCAATTCTTAAGAGCCGGCATCGGTTACGGCGGTTCCTGTTTTCCGAAGGATACAAACGCCCTCGTGCAGATTGCGGGACATGTGGAGCATGATTTTGAATTGCTGAAGTCCGTCATTAAAGTCAACAATAACCAGCAGTCCATGCTGGTTGATAAAGTGCTGAACAGGCTCGGCGGAGTGACGGGGAAGACCATCGCGTTATTAGGGCTGTCTTTTAAGCCGAATACAGATGATATGCGGGATGCGCCGTCCATTGTCATTGCGGATCGTCTGGCGGCTCTTGACGCCCGGATGACAGCGTACGATCCGATCGCTTCATTCCGGGCTTCCGGACTGCTTCCGGCTGCGGTTTCCTATCGGGAGTCCATAGAAGAAGCCGTCAGGGGAGCGGATGCCGTCCTGATTCTGACAGATTGGGAACAAATTAAACATTTTCCGCTTGAAGCGTACAAAGAGCTGATGGAAACCCCGGTTATTTTCGACGGGAGAAACTGCCACTCGCTTGAGGAAGCGGAACAGGCGGGCGTGGAATATATTTCAATCGGAAGAAGAGCCGTCGTGCCTCAGACTGATTCTGTCACTTGA	MKITVIGTGYVGLVTGVSLSEIGHDVTCIDIDERKVEQMRKGLSPIFEPGLEDMMKRNIGRHRLAFETSYEKGLAETDVIFIAVGTPQKEDGHANLTYIENVAERIAEHISKDAIVVTKSTVPVGTNDRIREVIHSRLKADVNISIASNPEFLREGSAIHDTFHGDRIVIGAEDRQTRETLDRVFAPLAIPVYHTDIRSAEMIKYASNAFLAAKISFINEISHICEKVGADVESVAHGMGLDKRIGNQFLRAGIGYGGSCFPKDTNALVQIAGHVEHDFELLKSVIKVNNNQQSMLVDKVLNRLGGVTGKTIALLGLSFKPNTDDMRDAPSIVIADRLAALDARMTAYDPIASFRASGLLPAAVSYRESIEEAVRGADAVLILTDWEQIKHFPLEAYKELMETPVIFDGRNCHSLEEAEQAGVEYISIGRRAVVPQTDSVT	PGPT0017855_3035	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
D1-12_02521	789	ywqG	COG3878	putative protein YwqG	GTGGAAAAAACATGGAAATTGCCGAAGCAAATGGAATCATCCCGCGGTCTGCTGGAAACGTCAGCACGGCCCTTTATCAAACTGCACGTCAAAAAAGCTGAAACGGGTCGGTATGACAGTAAAATGGCCGGAGACCCCTATTTTCCGAAACATGAACCATATCCTGAAGATGAAAGCGGCAGGCCGATGAAGCTTCTCGCTCAAATCAATTTTGCGGATATGCCCGGACTTCCTGATTTTCCGGACACCGGCATTCTTCAGTTTTACATATCGGTCAGTGATGACGTATACGGTTTGAATTTTGACGATGGGTGCTCGCAAACGGGTTTCTGCGTCAAATATTTTGAACATGTGACAGCAGAAGAAGCGGAGCTCATGGATGATTTTTCTTTCGTTCAGGTTGAAGAGGAGTACGATTTTCCGATTCAATCCGAAGCGCTGATCACCCCTGAGCTGTCTGCTGAATGGGTGCTCCCGTCTGATTTTCAATTCGGGCGGTATGCCGGGATGGATGCCTTTGACTATTTCGAGCAGTTTGACGATGAGGTGTATGACGAATATACGGCGAACGCATTCGGCCATAAAATCGGCGGCTATGCGTCCTTCACCCAGGAAGATCCGCGGTCTTACTCCCATCAAAACCATACGATTCTGCTTTTGCAAATTGATTCAGATGATGACATTGATTCGATGTGGGGAGATGTGGGAATCGCAAATTTCTTTATCAGACCGGAAGATTTGAAGAAAAAAGATTTCTCAAACGTTTTGTACAACTGGGACTGCAGTTAA	MEKTWKLPKQMESSRGLLETSARPFIKLHVKKAETGRYDSKMAGDPYFPKHEPYPEDESGRPMKLLAQINFADMPGLPDFPDTGILQFYISVSDDVYGLNFDDGCSQTGFCVKYFEHVTAEEAELMDDFSFVQVEEEYDFPIQSEALITPELSAEWVLPSDFQFGRYAGMDAFDYFEQFDDEVYDEYTANAFGHKIGGYASFTQEDPRSYSHQNHTILLLQIDSDDDIDSMWGDVGIANFFIRPEDLKKKDFSNVLYNWDCS				NA	NA	NA	NA	NA
D1-12_02522	114			hypothetical protein	ATGAATGGATATGCCGTTTATGTGAGTCTTTTGGCGTTAATGATGAGCATCTCGGCTGCTGAAAATAAGTCATTTAACCTATTTAAGCTGCTTTCTGTCTATTTTAAAATATAA	MNGYAVYVSLLALMMSISAAENKSFNLFKLLSVYFKI				NA	NA	NA	NA	NA
D1-12_02523	435			hypothetical protein	ATGAGCCATTCAAGCACATTAAGCCATATTAACAGCACGATCAGCCATAAACTGGGCGAGGTTGAACACCAAATTGATAAATTAAAAGAAGCGAAAAGAGAGATAGAATCTCTGCAGGAAGAGGGCGTATCTGAAATCAGAGACATCCTCAAGCCGCACCTGGACCATCATTGGACCGGCACTTTTGCTGAAGAATTTGATGACCGGCGCGACCAGGCCCATACAGAAGCATACAGAATCGTCACAGACAAATACGACGGTTATATTTACCGAATCGGCTTAAAGATGACACAGCTTGAAATTGAAAAAGGAGGGCTCCTTGCCGCCAGAAGCATCGCGAGAGAGGCAGAGCACCTGCTGACGCTGGGAGAAGAAGCCCTTGACACGGTCGGAGAAAAAATACAATCAATCAAAAGAAGCTGGAGTTGGTTTTAA	MSHSSTLSHINSTISHKLGEVEHQIDKLKEAKREIESLQEEGVSEIRDILKPHLDHHWTGTFAEEFDDRRDQAHTEAYRIVTDKYDGYIYRIGLKMTQLEIEKGGLLAARSIAREAEHLLTLGEEALDTVGEKIQSIKRSWSWF				NA	NA	NA	NA	NA
D1-12_02524	261			hypothetical protein	ATGGCAGAAATAAAACTCAAATACGGAGCCGTCATGAAGCAGCTTGAATCCGTCAGCAGCGCTTTGGAGGCCGTTTCGATCGGGAACGCCGGTTCAAACGGAAAAAACAAGCTCGACTATACCTCCAAGTACCAATCCCGCGAGGCAAAGCTTGTATCAATGATCAGCGAATACAAGCAGGCCGTTCATAAGAATATCGCGGACGTTAAAGACAACGTAGATTCTTTGAAAGAACAGGACGAGGCGATCGCCGTAAAATAA	MAEIKLKYGAVMKQLESVSSALEAVSIGNAGSNGKNKLDYTSKYQSREAKLVSMISEYKQAVHKNIADVKDNVDSLKEQDEAIAVK				NA	NA	NA	NA	NA
D1-12_02525	2007			hypothetical protein	ATGAGCAAAGTGTTTGAATCACAATCGTTAACGGACGAAGCAGATAAGAGAAGGAAACAATACGAAGCCCTTGAAGAGCAGCTGCGTGCGCTCAAACAAGCCTTTCAAGGCGTGGCCGATCTGGGCGATGCTTTGAAAGGGAAAGGCGCAGACAATATAAAAGATTTTTTTCAGGGACAAGCGGAAATCGCCGACAGCTGGCTGACGCTTGTCTCTGCTCAAATTGCGTTTTTAAATGGCATTTCAGGTGACATTAAAGATCAAGAACTCAGCGATACATATGTGGAGACTTCATTTTTGGAGCATGAGCTGCCCAATGCGGATTTGAAGGCTTCAGAGATTGTCTCCGCTCATAAAGCAGAAATCGATTCAATTTTGTCAGGCATCAGCGATATTATTCATCTCGACACATATACGCTGGATGATTACGCTGATAAAATGGGCGATGCCCAGAAAACCAGACGCGACACGATCACTGCAGTCGATACGCTTGATGAATCCCTGACTGCTGAATATCAAAACTTAGAATCTCTGGACAACGCAGTGCTCAGCAAATATTCCGTTCTCATGCAGGCCACCAGCAACGGGAAAAGCGCATCCCCTATGTACTATGACAAAAAAGCCTTCCACAGCAATGAAATCTACAAAAGCGTCATGGCGGCAGAAAAACAGGGCACGGACTATATTGACGCAAAAGCCCAGCAGGCCGAAGCAAGACGGCTTCAGGAAAAGGCTGAAGAAGAAGCCAATAAACCATGGTACGAAAAAACATGGGACGGCATCTGCAACTTTACCGGCGAAGTCACCGGCTATTATGATTATAAAAGAGCAGCCGAAGGCGTTGATCCGGTGACCGGCGAAAAACTCTCCACCGCAGAACGCGTCACAGCAGGAGCGATGGCCGCCGCCGGATTCATACCGGTCGTCGGCTGGGCGGGCCGCGCTTTCAAAGGCGGAAAAGCCATTTACAAAACCGGAAAAACCGTCATTGCCGCAGAACATGCTTTAGATGCCTATAAAACCGGAAAATCCTTAGACATTCTCAAAATGACAGAAATGGGCGCATACGGCCTTGTTGCCTCAAACGGATTCACAGAAGCCGTCACAGGCAGAGATATGTTCGGAAACAAAGTGTCTGAGGAGAAGCGGAAGCAAGGGGCGCTGGAAGCTGCGCTGAGTATGGTTGGAGCGGGTGCATTGGCGAAGCATGTAAACAAAGGCATACCGCTTGCAAAATCGCCACAAGCATCAAAAGTTGAAAAAGGGAAAAAGATTCTAGACCAAGTAAAAGAATTCAAAGTCCCGACGAATGTAAAAATTCGTGTCCATAAGACTGTCACACCGGATGGCGCAACTTTCCCGATCATTCATGCTGATGTGAAAACGACGGCTGTGAAAGATCTTGGGATTGTGAAGATGGCTGGTAGCGGCAGCAGTGGAAGCACTCCCACAAGATTAATTCCAGGAACTCCAGGAAAGGTTACAGGAGGGAGTTCAACTAAATTGGGTAAAAATATGTTTGAGCAAATGGGACTTCCACGTTCAACAAAACGTACTCCATATCAGGCTCAACATATTATACCGAAGGAGTTTCGAAGTCATCCTGTTTTGAAGAAGTTAGGAATGGATATGGATGATGCTTCAAATGGTTTTTTCTTAAGGATACCGGATGATGATATAAGTGCTACTTCACGGCATAAAGGATATCATTCAGTATATAGTAGTTTTGTGAGAAAAAAATTAGATGAGATCGATGTTAACCAAAGTGTAGACGTCATTGAAAAACAGGTATATGGTTTACAACAAAAATTAAGAGAATTACAAGAAAAAGGGTTGCCTCTTTATATGAGGGACGATTATTTACAAACAGAATTAAAGAAAATAAAGGAGAAAGGATTCGAAGCATATAAATTAGAAAGGAAAGAAGATAGCGCCTCAAGAAAACCTGTTTGGAAAAGAGGCGGTGGAGCGACAGTAGATCTTTGGGAAAGGTGGTATAACAAGTAA	MSKVFESQSLTDEADKRRKQYEALEEQLRALKQAFQGVADLGDALKGKGADNIKDFFQGQAEIADSWLTLVSAQIAFLNGISGDIKDQELSDTYVETSFLEHELPNADLKASEIVSAHKAEIDSILSGISDIIHLDTYTLDDYADKMGDAQKTRRDTITAVDTLDESLTAEYQNLESLDNAVLSKYSVLMQATSNGKSASPMYYDKKAFHSNEIYKSVMAAEKQGTDYIDAKAQQAEARRLQEKAEEEANKPWYEKTWDGICNFTGEVTGYYDYKRAAEGVDPVTGEKLSTAERVTAGAMAAAGFIPVVGWAGRAFKGGKAIYKTGKTVIAAEHALDAYKTGKSLDILKMTEMGAYGLVASNGFTEAVTGRDMFGNKVSEEKRKQGALEAALSMVGAGALAKHVNKGIPLAKSPQASKVEKGKKILDQVKEFKVPTNVKIRVHKTVTPDGATFPIIHADVKTTAVKDLGIVKMAGSGSSGSTPTRLIPGTPGKVTGGSSTKLGKNMFEQMGLPRSTKRTPYQAQHIIPKEFRSHPVLKKLGMDMDDASNGFFLRIPDDDISATSRHKGYHSVYSSFVRKKLDEIDVNQSVDVIEKQVYGLQQKLRELQEKGLPLYMRDDYLQTELKKIKEKGFEAYKLERKEDSASRKPVWKRGGGATVDLWERWYNK	PGPT0027660_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YxiD-YxxD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027660-toxin_yxiD-K21493	NA	NA
D1-12_02526	486			hypothetical protein	ATGAATTTTGGGAAGTATCATAATCTAGTGGAAGAGGTAATTGAATTTTCGAAAACCTTTAAACCTATAAAATCAGTTAATGTATCTAATTTTACTAAAATAATTAATGATCAAAAACAGGCTGAATACTTGGCTTATGAAGAAGTATATGGAGAAGACGAATATACATGGAAAGATATAAGGGAAATTGAGATGAGTGAAGTATGGGGGCGATTTTACGAATTAGAAGATAATCAAAAGCCGGAAAATATAGACTCGTTATTAGATATTTTTTCTGAAAACATCAGAAGTGCCTCTACTGGATATAATGCCTTTTTTGAGGATATCGTAGCTGACATAAACAATTGTGCTATTAATAGAGCAATTAATGGTAATACAAATAATTTTTTTGAAAAAGTTTTTGAAATTTATAAAGCTGGTTATTTTCCGTGTGGTTGGAATGGCGATTATCCTAACGGGACTTTTATTGTCTTGAAAAAAGCTTAA	MNFGKYHNLVEEVIEFSKTFKPIKSVNVSNFTKIINDQKQAEYLAYEEVYGEDEYTWKDIREIEMSEVWGRFYELEDNQKPENIDSLLDIFSENIRSASTGYNAFFEDIVADINNCAINRAINGNTNNFFEKVFEIYKAGYFPCGWNGDYPNGTFIVLKKA				NA	NA	NA	NA	NA
D1-12_02527	654			hypothetical protein	ATGGACAGAAATCAAATTTCTCAATTGCAGCCATTAAAAATCTGTAATGGCTGGTCTGTAGTACAGAACAACTTAAATTCAGAAAAAAGAATGGAAGAAAAATATGAACTGCTAAAACTACAAAATGAAAAACGTAATGCTGTTATTAAGGCAATATTTGAAAATGATCAATATCATGTCAAAGTAGCGGGCTTAAAAGCAGATAAGATTTATAAAGAAGACTCTTTTAATGAAATGGAACAATTATTGGAAGAGCTAGAATATCAAATCTGGACTGTGGGAAGCGGGGTTTTAGAGGGTTTGCAACAGCTAAGCCAACATGTTCCCAATTTCTTAAGGCTTAAGATACCGGCGGGCTGGACTGTTGATTATATTACATTAAAAGATACTGACCCTAAAACTCTAGAGGAAAATGATGATGCTTGGTTATTTGACTTTAATCAAGACCTCCTGCAGATTTCTCATAAAACTAAAAATTTGCTGCTTGATGCAGGGTGGTACCCAGAAGGCGATCCAACCGGCAGTTATGGCATTGAACTGATAAAAAACGAAGATTGGGAAAATCCTTTAGAAGATATTATGTGTACTGAACTTAAAGAATTACTTAAACAATTGGACCTTATTTTTATGAAAGAAATGAAAAATGAATTTTAA	MDRNQISQLQPLKICNGWSVVQNNLNSEKRMEEKYELLKLQNEKRNAVIKAIFENDQYHVKVAGLKADKIYKEDSFNEMEQLLEELEYQIWTVGSGVLEGLQQLSQHVPNFLRLKIPAGWTVDYITLKDTDPKTLEENDDAWLFDFNQDLLQISHKTKNLLLDAGWYPEGDPTGSYGIELIKNEDWENPLEDIMCTELKELLKQLDLIFMKEMKNEF				NA	NA	NA	NA	NA
D1-12_02528	717	nfi	COG1515	Endonuclease V	ATGAAAATACATCAAATTCACGATTTTGATCTAAAAGATGAATCGGATTTTGTTCGAACACAACAATCCCTAATACATAAAATCAACCTATCCCCCGTCATCCATCCAGACTCCGTCAACACCTGCGCAGGCGTCGACCTCGCTTATTGGGAGCAGGACGGGGAACCGTACGGCGTATGCAGTATCATCGTGATTGACGCTGATACAAAAGAAGTGATTGAAAAAGTGCACAGCGTGGGGAAAATCAGCGTGCCGTATGTTTCCGGTTTTCTTGCGTTTCGCGAGCTGCCGCTGATCATTGAAGCGGCAGAAAAGCTGGAGGCGGAGCCGGATGTGTTTTTGTTTGATGGCAACGGGTATCTGCATTACAATCATATGGGCGTTGCCACCCATGCGGCTTTTTTTCTGGGTAAGCCGACGATAGGGATTGCGAAAACCTATCTCAAAATCAAAGGCTGCGATTTCGTGACGCCTGAAAATGAAGTCGGCGCATACACCGATATTATCATTGACGGCGAGGTATATGGACGGGCGCTGCGAACGCGGCGGGACGTGAAGCCTATCTTTTTGTCTTGCGGACATGACATTGATTTAGAAAGCAGCTATCAGATCACGATGAGCTTGATCAATCAAGAAAGCAGGCTGCCGATCCCTGTCCGTCTGGCTGACCTTGAAACGCATGTTTTGCGAACGTTTTATCGGAAAAATCACGTGTAA	MKIHQIHDFDLKDESDFVRTQQSLIHKINLSPVIHPDSVNTCAGVDLAYWEQDGEPYGVCSIIVIDADTKEVIEKVHSVGKISVPYVSGFLAFRELPLIIEAAEKLEAEPDVFLFDGNGYLHYNHMGVATHAAFFLGKPTIGIAKTYLKIKGCDFVTPENEVGAYTDIIIDGEVYGRALRTRRDVKPIFLSCGHDIDLESSYQITMSLINQESRLPIPVRLADLETHVLRTFYRKNHV				NA	NA	NA	NA	NA
D1-12_02529	882	gltR_2	COG0583	HTH-type transcriptional regulator GltR	ATGGAATTGAAGCAGCTGATCACCTTTATTACCGCAGCAGAACATGTAAACTTCACCCTAACCGCCAAGATGCTTAACTATGCACAATCAAGCGTTACCTCTCAGATCAAATCACTTGAAGAAGAAATCGGGACTCCTTTATTTGAACGGCTCGGCAAGCGGCTCATCCTGACAGAAGCCGGCAAAACGTTCAAATCCTATGCGGAGAAGATCATTGCGTTAACAGAAGAAGCAAAAATGGCCGCAAATCAAGTAAGAGAAACAACCGGAACGTTGAAAATCGGCGCGACGGAAAGCCAGTGCACATACCGCCTTCCGCCTATCATAAAAGAATTCAAACAGGCTTTTCCTCAAGTAAAGCTCATATTCAAACCGTATGTGTCCAACGAACAAGCGAAAGAACAGCTCTTACAGGGCCAGCTTGATATCACTTTCATTTTGGATGTGAACCGGACGGAAGACGCACTGCACGTTGAATCTTTGATTCAGGATGAAATCAAAATGGTAGCCGCCAATGACCATCCTTTTCCAGCAGACTCACCAGCAACATTGAAAGACCTTCAAAACGAAACCCTTCTGCTGACAGAGGACGGCTGTTCATACCGCACGCTCTTTGAGAACACTTTACATGACGCCGGAGTCTACCCTAACAAATTAGAATTCGTCAGCATAGAAGCCATCAAACAATGCGTGATGGCCGGACTTGGAATTGGACTATTGCCTGAAATGACAGTAAAAGACGATATTGCCGAAGGACGGATGAAAGAACTCAGCTGGCAGAATGAATGCCCTGTTTTTACTCAATTAGCATGGCATAAGGACAAGTGGATGTCTGCGCCATTAAAGGCTTTTATCGATTTGACGCGAAAAACATTCAAATAA	MELKQLITFITAAEHVNFTLTAKMLNYAQSSVTSQIKSLEEEIGTPLFERLGKRLILTEAGKTFKSYAEKIIALTEEAKMAANQVRETTGTLKIGATESQCTYRLPPIIKEFKQAFPQVKLIFKPYVSNEQAKEQLLQGQLDITFILDVNRTEDALHVESLIQDEIKMVAANDHPFPADSPATLKDLQNETLLLTEDGCSYRTLFENTLHDAGVYPNKLEFVSIEAIKQCVMAGLGIGLLPEMTVKDDIAEGRMKELSWQNECPVFTQLAWHKDKWMSAPLKAFIDLTRKTFK				NA	NA	NA	NA	NA
D1-12_02530	546	ywqN	COG0655	Putative NAD(P)H-dependent FMN-containing oxidoreductase YwqN	ATGAAAATTGCGGTTATTCATGGCGGAACGAGGTCTGGCGGAAATACGGATATTCTTGCGGAGAAGGCTGTTCAAGGATTCGATGCGGAGCACATTCATTTGCGGAAATATCGGCTCCAGCCAATTGAAGATCTGCGTCACGCCCAAGGCGGCTTTCGTCCTGTTCAAGATGACTGCGATTCTATTATTGAGCGGATATTGCCGTGCGATATTCTTGTATTCGCCACCCCAATTTATTGGTTTGGCATGTCAGGGACATTAAAGCTGTTTATTGATCGCTGGTCACAGACGTTAAGAGATCCGAGATTTCCTGATTTTAAACAGCAAATGTCAGCGAAGCAGGCATATGTAACAGCAGTGGGAGGAGACAATCCTAAACTAAAAGGGCTGCCGCTGATTCAGCAATTTGAACATATTTTTCATTTTATGGGGATGTCCTTTAAAGGCTATGTGCTGGGAGAAGGCAATCGTCCCGGTGATATTCTTCATGATCATCAGGCGCTGAGCGCGGCGAGCCGTTTATTGAAAAGAAGTGATGCGATATGA	MKIAVIHGGTRSGGNTDILAEKAVQGFDAEHIHLRKYRLQPIEDLRHAQGGFRPVQDDCDSIIERILPCDILVFATPIYWFGMSGTLKLFIDRWSQTLRDPRFPDFKQQMSAKQAYVTAVGGDNPKLKGLPLIQQFEHIFHFMGMSFKGYVLGEGNRPGDILHDHQALSAASRLLKRSDAI				NA	NA	NA	NA	NA
D1-12_02531	219			hypothetical protein	ATGAAGCTGCTGCTGGTTATCTCTGGTATGTTGATACTCGCACTCTTTTTAGCTTGGAAAGCGCCGACTTCTGTTTGGATACAGGCTGAAACCAATTCGCCTCAGGTTCAGCAATTTGTGAGAATGGCAGGCGCAACGCTGCAAGTCAAGCAAATCATCAAGAGTGATGCAGGCGAAGAAACAGTTGTCATATCAAATGGTATTTCTGGGCCAAAATAA	MKLLLVISGMLILALFLAWKAPTSVWIQAETNSPQVQQFVRMAGATLQVKQIIKSDAGEETVVISNGISGPK				NA	NA	NA	NA	NA
D1-12_02532	537	chrA		Chromate transport protein	ATGATCATGATTTATATATTTATGGCGTTTTTTGTCGCAAACGTACTCGGATATGGAGGCGGACCGGCGTCGATCCCGCTGATGTTTGAAGAAGTCGTCAACAGATACAGCTGGCTCTCAAACGATCAATTCTCAAATATGCTCGCACTTGCGAACGCATTGCCGGGCCCGATCGCAACCAAAATCGCGGCGTATGTCGGCTACAGCGCAGGCGGGTGGCCCGGGTTCCTGATTGCGCTGATCGCCACTGTCGTACCGTCGGCGCTCGCATTGATCGTCCTCTTGCGCATCATTCAGCGCTTCCGCCAATCCCCTGTCATCAAAGGTATGACGCTGTCCGTCCAGCCTGTCATCGCCGTCATGATGCTTATTCTTACCTGGCAAATCGGCGCAGACGGCATCAAAGCGATCGGCTGGGTTCAAGCGATAGTGATTGCGGGGATTTCCCTTCTTGCCTTGACAAAATTCAAGATGCATCCGGCCTTCCTGATTGTCGCGGCGTTTTTGTATGGAGGGCTTGTGATTCCTCATTTATAA	MIMIYIFMAFFVANVLGYGGGPASIPLMFEEVVNRYSWLSNDQFSNMLALANALPGPIATKIAAYVGYSAGGWPGFLIALIATVVPSALALIVLLRIIQRFRQSPVIKGMTLSVQPVIAVMMLILTWQIGADGIKAIGWVQAIVIAGISLLALTKFKMHPAFLIVAAFLYGGLVIPHL				NA	NA	NA	NA	NA
D1-12_02533	591			hypothetical protein	ATGAAACATCCCTATTGGGACATTACGGCGGCGATGGTCCGAACGGGCATTCTCGGATTCGGGGGCGGACCGTCGGTGATCCCGCTCATCCGCCATGAAGCCGTCAATAAATACAAATGGATAGATGATGATGAATTCGGAGAAATATTAGCCATCGCTAATGCGCTTCCCGGACCGATTGCCACAAAAATGGCTGCGTATCTGGGCTTCAAGCTGAAAGGCACGTTAGGCGCAATCTTGGCAATCCTCGCCCATATTCTGCCTACATGTCTTGCTATGGCAGGCTTGTTTGCCGCTGTCAATGTCTTAAGCCACTCAGCGGTTGTTGCCGGCATGATTGGCGCCGTCACGCCGGTGATCGCCGTCATGCTCGGCATCATGGCGTACGAGTTTGGCCAAAAAGCGCTTAAAGGATTCGGCTGGGTCACGGGCATCCTGTTTTTTATCATCGCTTTTATCGGCCTGCAAACGCTGCAGATCAACCCCGGCTTTGTCATTATCATTTTCTTGGCGTACGGCGCGTTTCATTTTAAATTAAAGGACAAAATCACAAATAAACGTTCAAAAGATAAAGGAATGTCGGCCTCATGA	MKHPYWDITAAMVRTGILGFGGGPSVIPLIRHEAVNKYKWIDDDEFGEILAIANALPGPIATKMAAYLGFKLKGTLGAILAILAHILPTCLAMAGLFAAVNVLSHSAVVAGMIGAVTPVIAVMLGIMAYEFGQKALKGFGWVTGILFFIIAFIGLQTLQINPGFVIIIFLAYGAFHFKLKDKITNKRSKDKGMSAS				NA	NA	NA	NA	NA
D1-12_02534	477			hypothetical protein	TTGGAACATGAATACAGCATTCCGAATCTTGTCCTTGATGAAACGGATAAACAGATTCTTTCGATTTTGCACGAGGAAGGGAGGATTTCCTATACAGACGTAGGAAAGCGGGTTAACCTTTCGCGAGTGGCGGTTCAGCACCGCATTCAGCATTTACTGGATGCCGGTGTGATTGAAAAATTCACCGCTGTCATCAACCCGGCGAAAATCGGCCGTCATGTGTCCGTGTTTTTTAATGTGGAGGTGGAGCCGCAGTATTTGGAGGAAACCGCATTAAAGCTTGAAAAGGAGCCGGCCGTGACAAGCCTTTATCACATGACCGGACCGAGCAAGCTGCATATGCACGGCATTTTCGCAAATGATCAGGAAATGGAAGAGTTTTTGACAAAACGGCTCTATACGCAAAAAGGCGTCGTCAGCGTCGACTGCCAAATGCTGATTAAACGGTATAAAAGCAGAACGGGCATGAAGCTGTAA	MEHEYSIPNLVLDETDKQILSILHEEGRISYTDVGKRVNLSRVAVQHRIQHLLDAGVIEKFTAVINPAKIGRHVSVFFNVEVEPQYLEETALKLEKEPAVTSLYHMTGPSKLHMHGIFANDQEMEEFLTKRLYTQKGVVSVDCQMLIKRYKSRTGMKL	PGPT0004196_13	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_CHROMATE_RESISTANCE	CHROMATE_RESISTANCE-CHR_TRANSPORT_SYSTEM,PGPT0004196-chrS-NA	NA	NA
D1-12_02535	1578	ywrD	COG0405	Glutathione hydrolase-like YwrD proenzyme	ATGAATACTTCAACCATCGGAACGAAACAAATGGTCGTCAGTCCGCATTATCTCGCTTCTCAGGCGGGGGCCGGCATTCTGGAAAAGGGCGGAAACGCGTTTGACGCGGCAGTGGCGGTCAGCGCCTGTCTGGCAGTCGTGTATCCGCATATGACGGGTCTTGGCGGGGATTCATTTTGGCTCACTTACCATAAAGAAACGGGACGAATCAAAGCTTATAACGGGAGCGGCCGTTCAGGGAAGCATGTGACGAGAGACTTGTATCGGGGCAGAGAAGCGATCCCTCTGCGCGGGACAGAAAGCGCCATTACCGTTCCGGGAATGGCGGACAGCTGGGATGCCGTGCTTTCGGCGTACGGGCGTCTTTCGCTCGCTGAGGTGCTGAAGCCAGCTCTTGATTATGCGGCAAACGGATTTCCGGTGTCCGCCGACCAGTGCGCCCACACAGAACGCAATCTCGCTCTTTTAGCCTCGACGCCTTACACCTCGGCCATTTTTACGAGAAACAAAAAAGCGCCCATGCCCGGTGAACGGTTTGTCCAGAAGGATCTGGCGGCCAGCTTGGAGCAGCTTGCCGAGAAAGGCAGAAGCGCTTTTTATGAAGGAGACCTCGCTCAACGCATCACATCCTTTCTGCAAAACAACGGCGGCCGTCTGACACTTGATGACTTTAAAGCCCACCGCGGCGAGTGGACGAACCCGGTATCCTCCGATTACCGCGGGTGCAAAATCTATCAGGCTCCGCCGAATTCACAGGGCTTTACAGGCTTAATGACGCTCAATATATTGGAAAACTATGATTTTTCTCAGATCGAACACGGTTCCTTTGACTATTATCATCTGCTGATCGAGGCGCTGAAGAAGAGTTTTCAGCACCGGAATGAAGTGCTGACTGATCCGGCATTTTCTCATATTCCGCTGGATCGGCTGCTTGATAAACGGTATGCAAAGCAGCTTGCGGAAGAAATCGGTAACGTGGCTGCGCCGGCGGTAAGCCGGCCGGTCGGAAGCGACACTGCTTATGCCGCCGTTGCCGATGCGGAAGGAAATGCCGTTTCCTTTATTCAGAGCCTCTATTTCGAGTTCGGATCTGCCGTTACAGCGGGGGAGACGGGCATTCTGCTGCAAAACCGCGGGTCATTTTTTTCGCTGGACGAATCCCATGTCAATACACTTGAACCCGGCAAGCGGACGTTCCACACCCTCATGCCGGCGATGGCCTGTAAAGAAGGAAGACCGCACATCCTGTACGGAACCCAGGGAGGAGAAGGCCAGCCGCAAACTCAGACAGCGATGATTACGCGCATCATTGATTACAAAATGAACCCCCAGCAGGCGATCAATGAGCCGCGCTGGGTCTGGGGACGGACATGGGGAGAGGAGTATGAAGGGCTGAGGGTTGAAAGCAGAATCAGCCCTGAAACAAGAGAAGCCCTAAGGCAGAGCGGCCACCGCGTCGAGACCGTTGGTGATTTCAACGGGCTTATGGGCCATGCGGCAGCGATCGTCATTGATGAAGAAGGCTTTCTCCAAGGCGGGGCCGACCCGCGCGGCGACGGAGCGGCCGCAGGAGTATAG	MNTSTIGTKQMVVSPHYLASQAGAGILEKGGNAFDAAVAVSACLAVVYPHMTGLGGDSFWLTYHKETGRIKAYNGSGRSGKHVTRDLYRGREAIPLRGTESAITVPGMADSWDAVLSAYGRLSLAEVLKPALDYAANGFPVSADQCAHTERNLALLASTPYTSAIFTRNKKAPMPGERFVQKDLAASLEQLAEKGRSAFYEGDLAQRITSFLQNNGGRLTLDDFKAHRGEWTNPVSSDYRGCKIYQAPPNSQGFTGLMTLNILENYDFSQIEHGSFDYYHLLIEALKKSFQHRNEVLTDPAFSHIPLDRLLDKRYAKQLAEEIGNVAAPAVSRPVGSDTAYAAVADAEGNAVSFIQSLYFEFGSAVTAGETGILLQNRGSFFSLDESHVNTLEPGKRTFHTLMPAMACKEGRPHILYGTQGGEGQPQTQTAMITRIIDYKMNPQQAINEPRWVWGRTWGEEYEGLRVESRISPETREALRQSGHRVETVGDFNGLMGHAAAIVIDEEGFLQGGADPRGDGAAAGV	PGPT0021715_531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021715-hpxW-K22602	NA	NA
D1-12_02536	345			hypothetical protein	ATGGATTTCACTCAGTTACTGATTTTTTCAGCCGTATTTATTTTGCTCAGCCTTATGTTTCAAGTATTTGCCGTCAAAGTTCTCAATTTGCCAAAGCCTGTTAAAAAGCAGAAGCCGATAAACGGCACACATCGATTAATCGAAATCACACTGCTTATTACGGGCATCGCAGCGGTGAATTTTTTCAATGAAATGTACGTATTTGCGGGAGTTGTTTTCATGCTATTTTGCTGCAGCGGCTTAATGGAATGGCGGCACCGGCGGGAGGAAAAGCAATATGTGTACGATTCGTTTTACGCGGGTCTTTCTGCCGCGCTTGGCGTGCTTATTTTTTTCATCAGTTAG	MDFTQLLIFSAVFILLSLMFQVFAVKVLNLPKPVKKQKPINGTHRLIEITLLITGIAAVNFFNEMYVFAGVVFMLFCCSGLMEWRHRREEKQYVYDSFYAGLSAALGVLIFFIS				NA	NA	NA	NA	NA
D1-12_02537	621			hypothetical protein	ATGCATATCTTACGAGCAGACGAACTGAACGCAAAAGACACTTACAAATTGCTTTCGGGCACAGTCGTTCCCCGGCCGATCGCATTTGTCACTACGCGGTCATCCATCAACGGCGCCGTAAACGCGGCGCCCTTCAGTTTCTATAACGTTGTCTCCGCAGAACCGCCGCTTCTGGCCATCTCAGTCAGCCGCGCGGACGGGCGGCAGAAAGACACCGCGAGAAACGCAATCGCTCATCGGGAATTCGTGGTGCACGTCAGTGATGAGTCCATTATTGAAGACATTAACAAAACGGCGGCAAGGCTTGATCCTGATGTCAGTGAGCTTGGCATGACAGACCTTTCTGTGACAGACAGCGCTTGCATCAGCGTTCCCGGTATAAAAGAAGCAAAGGTCAGGTTTGAATGTATACTCGAACGCCATCTTCCGTTCCAAAATGACAGCGGAGAAACGACGACAGACCTCATCATCGGCAGAGTCGTTTGTTTTCATTTGAATGACCAAGTATATGACGCCGATAAAGGCTACATACGGACAGATGAGCTGAAGCCTGCGGCAAGGCTCGCGGGGAATGAATACGCCAGACTCGGGAAGACATATACGCTTGTCCGCCCGACCTGA	MHILRADELNAKDTYKLLSGTVVPRPIAFVTTRSSINGAVNAAPFSFYNVVSAEPPLLAISVSRADGRQKDTARNAIAHREFVVHVSDESIIEDINKTAARLDPDVSELGMTDLSVTDSACISVPGIKEAKVRFECILERHLPFQNDSGETTTDLIIGRVVCFHLNDQVYDADKGYIRTDELKPAARLAGNEYARLGKTYTLVRPT				NA	NA	NA	NA	NA
D1-12_02538	567	cotG		Spore coat protein G	ATGGGCCACTATTCCCATTCTGATATCGAAGAAGCAGTAAAATCCGCAAGCACCGAGGGATTGGAAGATTATTTGTACCAAGAACCAAAAAGCAGTAAGAAGAGAAAATCTCGCAGCCATAAAAAATCTCGTTCTCACAAAAAATCTCGCAGTCATAAAAAGTCCCGTTCTCACAAAAAATCTCGCAGTCATAAAAAATCGTGCCGCTCTCACAAAAGATCTCGCAGCCATAAAAAATCCCGCTCTCACAAAAGATCTCGCAGCCATAAAAAATCCCGTTCTCACAAAAAATCTCGCAGCCATAAAAAGTCCCGTTCTCACAAAAAATCTCGCAGCCGTAAAAAATCTTGCCGGTCTCACAAAAAATCTCGCAGCCGTAAAAAATCTTGCCGGTCTCACAAAAAATCTCGCAGCCACAAAAAATCATGCCGCCGCAAGAAAAAACGCACGCAGAAAAAACCTTATCGTCCTCATAAAAAAGACCCTTGCAAAAAAGACGATTACTGCAGCAAAACAGAGTACTGGAAAGACGGGAACATCTGGGTTGTAAAGAAAAACTACAAGTAA	MGHYSHSDIEEAVKSASTEGLEDYLYQEPKSSKKRKSRSHKKSRSHKKSRSHKKSRSHKKSRSHKKSCRSHKRSRSHKKSRSHKRSRSHKKSRSHKKSRSHKKSRSHKKSRSRKKSCRSHKKSRSRKKSCRSHKKSRSHKKSCRRKKKRTQKKPYRPHKKDPCKKDDYCSKTEYWKDGNIWVVKKNYK	PGPT0025166_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025166-cotG-NA	NA	NA
D1-12_02539	1095	cotH	COG5337	Inner spore coat protein H	ATGAAAGACCAATCAACATTGCCTCTATACCAGCTGTTTATTCACCCGAAAGACTTAATGGAGCTGAAAAAAGACATTTGGGATGATGATCCGGTGCCCGCGGTGCTGAGAGTGAAACAAAAAAGGCTTGACATTGATCTGGCGTACCGCGGCTCGCATATAAGAGATTTCAAGAAAAAATCGTATCACATCGCTTTTTATTCGCCGAAAACATTTCGCAGGGCGAAAGAGATACATTTAAACGCTGAATACAAAGATCCGTCGATGATGCGGAATAAGCTGTCTCTCGATTTCTTCGCGGAGCTTGGGACGCTGTCACCAAAGGCGAATTTCGTAACCCTGCAAATCAATGGCAGACATGAGGGGGTGTATCTTGAGCTGGAGTCAGTGGATGAATATTTTCTGGCGAAACGGAATTTGGCGGACGGCGCTGTTTTTTACGCGGTTGATGACGACGCCAATTTCTCCCTCGTCAGTGATCTGGAGCGGGATACGAAAACATCGCTCGAACTTGGTTATGAAAAGAAAACGGGAACGAAAGAAGACGATTTATACTTGCAGGATATGATCTATAAAATTAATACCGTTCCGAAGTCAGAGTTCAAGGGGGAGATCGTCAAACACTTGGACGCCGATAAGTATTTGCGGTGGCTTGCGGGCATCGTGTTTACCTCAAACTACGATGGATTTGTTCATAATTACGCTTTATACCGGAATCATGAAACGGGACTTTTTGAAGTCATTCCGTGGGATTACGATGCGACGTGGGGAAGAGACATTCATGGTGATCGGATGGAGGCCGATTATGTCAGAATACAAGGGTTTAATACCTTGACTGCAAGGCTTCTGGATGAACCGTATTTCCGCAAAGCGTACAAACGGCTTTTGGAAGAGACGCTTCAGACGCGGTTTACCATTGAACATATGAAGCCGAAGGTCATGTCACTGTATGAGCAGATCAGGCCGCATGTCGCGAAGGATCCATATAAGAAAGAAGAGATTGATTGCTTTGACCGGGAGCCTGAAGTGATTTGCGAATACATTAAGGAGCGGTCAGCCTTCATCAGCAGTGAGTTAGAGCGGTGGAATATCTGA	MKDQSTLPLYQLFIHPKDLMELKKDIWDDDPVPAVLRVKQKRLDIDLAYRGSHIRDFKKKSYHIAFYSPKTFRRAKEIHLNAEYKDPSMMRNKLSLDFFAELGTLSPKANFVTLQINGRHEGVYLELESVDEYFLAKRNLADGAVFYAVDDDANFSLVSDLERDTKTSLELGYEKKTGTKEDDLYLQDMIYKINTVPKSEFKGEIVKHLDADKYLRWLAGIVFTSNYDGFVHNYALYRNHETGLFEVIPWDYDATWGRDIHGDRMEADYVRIQGFNTLTARLLDEPYFRKAYKRLLEETLQTRFTIEHMKPKVMSLYEQIRPHVAKDPYKKEEIDCFDREPEVICEYIKERSAFISSELERWNI	PGPT0025165_236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025165-cotH-K06330	NA	NA
D1-12_02540	894			hypothetical protein	ATGAAACGCAATACGAAGCGGCAGCGGTCTGATGACAACTTTTTGCATGCGATGGAAGGAAAAGTAATTACTGTCTACCGGGGAGGCCCGGAGTCCAAGACAGGGAGATTAGCAGACATTCAATCGGATTATATCGCTCTTCAGGTTGATAATAAAATCGTTTATTATCAATGGAAACACGTGAAAAGTGTGACGGAAAATACGAGTGAAACCGTATCGCCGGCCGAAGCGGCAGAATGTGAAAAAGCTGATGATTTTCAAGATCTGATCAGCCGGATGACCAATCGCACGGTGCAATTGAATCAGGGAGGTCCGGAATCGAAAAGAGGAAAGCTTCACGAAACAGGGGATGATTTTCTCGTGCTGGAAACGGAAGATGACGGAATTGTATATTTTAACGCCGACCATGTCAAAAGCATCAGCGCGGAACAAGAAGAGGACGGCCAAGAGGAGGAGCGCCCGGAATTTGAAAAAGCTGATGATTTTCACGGCATATTTAAACGCCTGATCCACAAATGGGTATCCATCAACCGCGGAGGTCCTGAAGCCGTTGAAGGTATACTTGTGGATAATTCCGACGGCCACTACACTCTTGTGAAAGATAAAGAAGTGCTGCGGATCTATCCTTTTCATATCAAGAGCATCAGCGAAGGGGCAAAAGGAGCAGCTAAAAAAGAGGAGAATAAAGACGACGAGAATAAAGGTGAGAAAGAGAGCGCCGAAGAAGAAAAGCCGCATGAAGAAGAATCACGCGAAGAGAAGCGTACTTCCTCTAAAAAGTCGAAAAGATCATCAAGATCCGTTCGATCCTCAAAACGGGAGAAAGAGGTCTCTTATAGCTACGCCACTGTATTAAGGACAATAGATTATCGGTGGAAACGCGGCCGTAAATGA	MKRNTKRQRSDDNFLHAMEGKVITVYRGGPESKTGRLADIQSDYIALQVDNKIVYYQWKHVKSVTENTSETVSPAEAAECEKADDFQDLISRMTNRTVQLNQGGPESKRGKLHETGDDFLVLETEDDGIVYFNADHVKSISAEQEEDGQEEERPEFEKADDFHGIFKRLIHKWVSINRGGPEAVEGILVDNSDGHYTLVKDKEVLRIYPFHIKSISEGAKGAAKKEENKDDENKGEKESAEEEKPHEEESREEKRTSSKKSKRSSRSVRSSKREKEVSYSYATVLRTIDYRWKRGRK	PGPT0025140_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025140-cotB-K06325	NA	NA
D1-12_02541	675			hypothetical protein	ATGGCTGGATTAAGCAGATTTCTGGATAAACAAGTCGATATTGAGATATCGGGGAATACGACATTTTCAGGAACTCTTTTGGATATCGGTCAGGATATCATTGTGATTCATGACGGCCGGACGTTTCTTTATATTCCGCTGCTGCATCTTCAGCGGATGACATTGACGCTCCCGGACGAAGAGAATAAAGAACCGTACGCAAGAAAAAAAAGTCCGCATCCCGAAAAACAGGAACATTCATTTTCTTACCGGAATACCCTCCAGCATATAAAAGGCAGATTTACAGAAATATTTGTTACGGGAGACCGTTCCATTCATGGGTATGTGACAAGTGTTTTAAATGATTATTTTGTTTTCTTCTCTCCGGTTTATAAGACTCTTTTCATCTCGATGCATCATTTGAAATGGCTGACACCCTATTCCGATGAGCAGACGCCGTATACATTAAACAGTTCAGAGCTGCCGGTTGTTCCCGCTAATGTGCCCCTTGTCCGGAATTTTGAGGAGCAATTAAAAAGGTATATCGGGAAGCTGATTATTCTGGATTTAGGAGATATACCGAATAAAGTGGGGCTGTTGCAGGATGTCTCAGATAATATTCTTGAATTGACCAATGCAGACGGCGATACTGTTTTTTGGAAATTGAATCATTTAAAGACCATGCACCTGCCATAA	MAGLSRFLDKQVDIEISGNTTFSGTLLDIGQDIIVIHDGRTFLYIPLLHLQRMTLTLPDEENKEPYARKKSPHPEKQEHSFSYRNTLQHIKGRFTEIFVTGDRSIHGYVTSVLNDYFVFFSPVYKTLFISMHHLKWLTPYSDEQTPYTLNSSELPVVPANVPLVRNFEEQLKRYIGKLIILDLGDIPNKVGLLQDVSDNILELTNADGDTVFWKLNHLKTMHLP				NA	NA	NA	NA	NA
D1-12_02542	1332	arsB_2	COG1055	Arsenical pump membrane protein	TTGACCCTGATTTCTTTCTTTGTGACCATTATTTTTATATTTTGGAGACCCGGGGGATTAAATGAAGCCGTTCCGGCGTCGCTGGGCGCCATTCTCGTTTTGTTATGCGGAACCGTTTCCTTTCATGATTTGGGGGATATAGGGTCAAAAGTCACCGGAGCATCAATCACCATTATCTCCACAATGATTATGGCAATCGCGCTGGAAAGCTTCGGTTTTTTTAACTGGGCGGCGGCCAAACTGCTTCACCGCGCCAAGGGATCGGGCATCCGGCTTTTTTGGCTGACCAACCTGCTCTGTTTTTCAATGACGCTCTTTCTGAATAATGACGGCAGCGTCTTAATCACCACTCCTATTTTACTATTGGTCTTACAATATCTCGGACTTAAAAGACATCAGAAAACACCGTATTTAATAAGCGGCGTATTAATTGCGACGGCGGCAAGCACCCCGATCGGCGTCAGTAATATCGTCAATTTAATTTCTCTCAAAATGATAGGCATGGACCTTTATTTGTACACCAATATGATGTTTATCCCCGGCACGCTGGGACTGGTGTTTATGGCATTGCTGCTGTTTGCCGTTTTTTACCGCCGTTTGCCGAAACAGCTCCCCGATATTCCGGTTCATTTTGATTCGCTGGAACACAAACGATATCACCCGCTTCAGCCTCCGCCAGACCCGACCCAAAACAGCCGTACGAACATCATGTTTTGTGTTTTGGCATTTGTATTGTTCGTCCGGATCAGTCTGTTTGCAGCTTCTTACAACGGCATATCCGTTTCGCTCGTGGCTGTCATCAGTTCAGTCATCCTGCTTGGCTGGAGATGGTTTTATTTAAAAATCGGACCGGCAGACTTATTAAGGAAAGCGCCTTGGCATATCTTTATTTTTGCTTTCACAATGTACATTATCATCTACGGACTGCATAATATCGGACTGACGGCGCTGCTTGTTCAGTCTATTGAACCTTATGTCTCACAAAGCATTGCCCACGCTGCATCTATTATGGGCATTGCTACATCCGTCCTCTCTAATTTGTTCAATAACCATCCCGCCTTAATGATCAGCACTTTGACATTAACTGAAATGTCCATCGACCCATTAACCGTAAAAATCATTTATCTGGCTAATATTATCGGCAGTGATATCGGATCATTGCTTCTGCCGATCGGGACATTAGCCACGCTGATCTGGATGCATATCATCAGACAGCACGGCGAAAAAGTTTCTTGGTCAGAATATATCAAAACGACCATTATCGTTGTCCCTCTCACCGTCGTGTTTACCATTACCGTTTTATATGTTTGGATCAGTTGGATTTACCTTTAG	MTLISFFVTIIFIFWRPGGLNEAVPASLGAILVLLCGTVSFHDLGDIGSKVTGASITIISTMIMAIALESFGFFNWAAAKLLHRAKGSGIRLFWLTNLLCFSMTLFLNNDGSVLITTPILLLVLQYLGLKRHQKTPYLISGVLIATAASTPIGVSNIVNLISLKMIGMDLYLYTNMMFIPGTLGLVFMALLLFAVFYRRLPKQLPDIPVHFDSLEHKRYHPLQPPPDPTQNSRTNIMFCVLAFVLFVRISLFAASYNGISVSLVAVISSVILLGWRWFYLKIGPADLLRKAPWHIFIFAFTMYIIIYGLHNIGLTALLVQSIEPYVSQSIAHAASIMGIATSVLSNLFNNHPALMISTLTLTEMSIDPLTVKIIYLANIIGSDIGSLLLPIGTLATLIWMHIIRQHGEKVSWSEYIKTTIIVVPLTVVFTITVLYVWISWIYL	PGPT0004710_125	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893	NA	NA
D1-12_02543	138			hypothetical protein	ATGCATAAAAAAGAGGGCCGCCGAAAGCAGCCTCTTTTTTTTGTGCTTTTATGGAATTTTACTAAATTGGTAGAAACGCTCAGTACACCTTACGACCTGTACCCGTATACATACAGTACAACTGATCAGGAGGGATAA	MHKKEGRRKQPLFFVLLWNFTKLVETLSTPYDLYPYTYSTTDQEG				NA	NA	NA	NA	NA
D1-12_02544	909	hcaR		Hca operon transcriptional activator HcaR	ATGGAGCTTCGCCATCTTCAATACTTTATTGCCGTTGCCGAAGAACTTCATTTCGGCAAAGCTGCGCTTCGGTTAAATATGACACAGCCGCCTCTCAGCCAGCAGATCAAACAGCTTGAGAAGGAAGTCGGCGTGACCTTATTAAAGCGCACGAAACGGGTTGTAGAGCTTTCAGCTGCCGGAGAAAGTTTTTTAAAACACAGCAGAAACGCGATCGAAGAAATAGACAAAGCGATTGAAATGGCGCAGAGAACGGCGCGGGGAGAGCTCGGCCGCCTTGTCGTCGGTTTTGTCGGCTCGGCCACATATGAATTTCTGCCGCCGATCATTCGGGAATTCCGCGAAAAATACCCCTCCGTCAAGCTTGATCTGCGTGAAATTTCTTCTTTCAGACAGCAGGAAGAACTTCTGAAGGGGAACATTGATATCGGCATCCTTCATCCGCCTTTACAGCATTCCGCGTTACATATGGAAAAGGTGCAGAGCAGTCCGTGCATTCTGGCTTTGCCGAAGCAGCACCCGCTTACCGCTAAACAGACAATCGACATTCAGGATTTAAAAAATGAACCGATTATCACACTGTCGAAAGAAACATGGCCGACTTTATACCTGGAGTTTGTGAACTACTGCGAGCAGGCGGGCTTTAAACCGAAAATCGTTCAGGAAGCGACGGAGTATCAAATGGTGATCGGATTGGTTAGTGCCGGTATCGGCGTAACCTTCGTGCCTTCTTCTGCTAAAAAGCTGTTTAATCTCGAAGTCGCCTACCGCGGCATTAATCAGGTGCAGCTCACGGCCGAATGGGTCATTGCCTACCGCAAGGATAATCAAAACCCGATTCTGAAACATTTTCTGGATATTATGAATAAGCGCCAGGCTTTATTGCAGGCGGATAAGGAAAATGCATAA	MELRHLQYFIAVAEELHFGKAALRLNMTQPPLSQQIKQLEKEVGVTLLKRTKRVVELSAAGESFLKHSRNAIEEIDKAIEMAQRTARGELGRLVVGFVGSATYEFLPPIIREFREKYPSVKLDLREISSFRQQEELLKGNIDIGILHPPLQHSALHMEKVQSSPCILALPKQHPLTAKQTIDIQDLKNEPIITLSKETWPTLYLEFVNYCEQAGFKPKIVQEATEYQMVIGLVSAGIGVTFVPSSAKKLFNLEVAYRGINQVQLTAEWVIAYRKDNQNPILKHFLDIMNKRQALLQADKENA				NA	NA	NA	NA	NA
D1-12_02545	1716	alsS	COG0028	Acetolactate synthase	GTGTTGGCAAAAGCAACAAATGAACTAAAAACCTCTGAAAAAAATCGGGGGGCGGAGCTTGTTGTTGATTGCTTAGTGGAGCAAGGTGTCACACATGTTTTTGGCATTCCGGGTGCAAAAATTGATGCAGTATTTGATGCGTTAAAAGATAAAGGACCTGAACTGGTTTTATGCCGTCACGAACAGAACGCTGCATTTATGGCTGCGGCTGTCGGAAGACTGACTGGAAAACCAGGCGTTTGTCTCGTTACTTCAGGCCCGGGGGCATCCAACTTGGCGACCGGCTTGTTAACGGCTAATACAGAAGGTGATCCGGTAGTGGCGCTGGCGGGTAACGTAATTCGCGCAGACCGGTTAAAACGGACACACCAATCATTGGACAATGCGGCGCTATTTCAGCCGATTACAAAATACAGTGTAGAAGTACAGGAAACAGGGAATATACCAGAAGCGGTAACAAACGCCTTCAGGGCAGCGTCAGCAGGTCAGGCAGGCGCGGCTTTTGTGAGCTTTCCGCAGGATGTTGTGAATGAAATCACAAACGTGAAAAACGTACGCAGCGTGCCGGCGCCGAAACAAGGCCCTGCACCGGAAGAAGCGGTCAGCGCGGCTATCGCGAAAATCCAGACGGCGAAACTTCCCGTTCTGTTAGTCGGCATGAAAGGCGGAAGACCGGAAGCGGTAAAACAAATCCGCAAACTGCTTGCCAAAACAAAACTGCCTTTCGTAGAAACGTACCAAGGGGCCGGCACATTGTCCAGAGAGCTGGAAGACCAATATTTCGGCCGGATCGGACTGTTCCGCAACCAGCCGGGCGATCTTCTGCTTGAACAGGCGGATGTCGTATTAACGATCGGTTATGATCCGATTGAATACGATCCGAAGTTCTGGAACGTAAACGGTGACCGTGCTATTATCCATCTTGACGAAATCCAGGCCGATATCGATCATGCCTATCAGCCGGAATTAGAATTATTAGGCGATATCGCCGCTACGGTTAAACAAATTGAACACGACGCTGTGACATTTGATATGGGCAGCCGTGAACAAGAAGTGCTGAGCGAATTAAAGCAGATGCTCACAGACAGCGAGAAGGCGCCAAGCGACCATAAATCCGGCAGAGTGCATCCTCTGCAAATCGTCCAAGAACTGCGCAATGCAATTGATGACGACGTAACCGTCACTTGCGATATCGGTTCTCACGCGATCTGGATGTCCCGCTACTTCCGCGCTTATGAGCCGCTGAAACTGTTGATCAGCAACGGCATGCAGACATTGGGCGTAGCGCTTCCTTGGGCGATTGCCGCCACATTGGTGAATCCGGGTGAAAAAGTCGTATCCGTTTCAGGAGACGGAGGATTCCTGTTCTCTGCAATGGAATTGGAAACGGCAGTCCGCTTAAAAGCGCCGATCGTTCACCTTGTATGGAATGACAGCACATATGATATGGTCGCATTCCAGCAAATGAAAAAATATAACCGTACATCATGCGTAGATTTCGGAAACATTGACATCGTAAAATATGCAGAAAGCTTCGGCGCCACCGGCTTGCGCGTTGAGTCACCGGAACAGCTGGCAGACGTGCTGCAAAAAGGCTTGAACACAGAAGGCCCTGTCATCATTGACATTCCTGTCGATTACAGTGACAATGTTCATTTATCAAGCGACATGCTTCCGAAGCAATTCAAAGAAAAAATGAAAGCAAAAGCTCTCTAG	MLAKATNELKTSEKNRGAELVVDCLVEQGVTHVFGIPGAKIDAVFDALKDKGPELVLCRHEQNAAFMAAAVGRLTGKPGVCLVTSGPGASNLATGLLTANTEGDPVVALAGNVIRADRLKRTHQSLDNAALFQPITKYSVEVQETGNIPEAVTNAFRAASAGQAGAAFVSFPQDVVNEITNVKNVRSVPAPKQGPAPEEAVSAAIAKIQTAKLPVLLVGMKGGRPEAVKQIRKLLAKTKLPFVETYQGAGTLSRELEDQYFGRIGLFRNQPGDLLLEQADVVLTIGYDPIEYDPKFWNVNGDRAIIHLDEIQADIDHAYQPELELLGDIAATVKQIEHDAVTFDMGSREQEVLSELKQMLTDSEKAPSDHKSGRVHPLQIVQELRNAIDDDVTVTCDIGSHAIWMSRYFRAYEPLKLLISNGMQTLGVALPWAIAATLVNPGEKVVSVSGDGGFLFSAMELETAVRLKAPIVHLVWNDSTYDMVAFQQMKKYNRTSCVDFGNIDIVKYAESFGATGLRVESPEQLADVLQKGLNTEGPVIIDIPVDYSDNVHLSSDMLPKQFKEKMKAKAL	PGPT0008185_4966	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
D1-12_02546	768	alsD	COG3527	Alpha-acetolactate decarboxylase	ATGAAAAACGCAAGCGACATCCATATGATGAGCCGCGGAGAAAAAGGCTCACCTGAGGATCAGATCTATCAAGTATCCACAATGACATCTCTGCTGGACGGAGTATATGACGGAGATTTTGATATGGCTGACATTCCGAAGTTCGGTGATTTCGGAATCGGCACGTTCAACAAACTGGACGGCGAATTAATCGGATTTGACGGAGAATTTTACCGTCTGCGCGGCGACGGTACGGCTACGCCTGTTAAAGGCGGAGACCTGTCACCATTCTGCTCATTCACATTTTTTACGCCGGATATGACGCATACGATCGACGGCGAAATGACCCGTGAAGAATTCGAGCAGGAAATCGCCAGCCTTCTGCCTAGTAAAAACTTATTTTATGCGATCCGTTTAGACGGCGTATTTAAAAAGGTGCAGACAAGAACGGTAGAACGCCAGGAGAAACCGTACGTTCCGATGATCGAAGCGGTAAAAACACAGCCTGTGTTCAACTTTGACGACATCCAGGGTACAATCGCCGGCTTCTGGACGCCGGGTTACGCAAACGGCATCGCTGTTTCCGGATATCACCTGCACTTCATTGATGAAGGACGCAATTCCGGCGGACACGTGTTTGACTATGTCATTAAAGATTGTAAAGTGACCATTTCTCAAAAAATGAATATGAACCTCAAGCTTCCGAATACGGCGGACTTTTTCAACGCAAATTTAGATAATCCGAATTTTGCGAAGGACATCGAAACAACCGAAGGAAGCCCGGAATAA	MKNASDIHMMSRGEKGSPEDQIYQVSTMTSLLDGVYDGDFDMADIPKFGDFGIGTFNKLDGELIGFDGEFYRLRGDGTATPVKGGDLSPFCSFTFFTPDMTHTIDGEMTREEFEQEIASLLPSKNLFYAIRLDGVFKKVQTRTVERQEKPYVPMIEAVKTQPVFNFDDIQGTIAGFWTPGYANGIAVSGYHLHFIDEGRNSGGHVFDYVIKDCKVTISQKMNMNLKLPNTADFFNANLDNPNFAKDIETTEGSPE	PGPT0008180_343	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008180-budA|aldC|aldB|alsD-K01575	NA	NA
D1-12_02547	525	ywrO	COG2249	General stress protein 14	GTGAAAGTATTGGTATTAGCGGTTCATCCTGACATGAACAACTCAGCGGTCAATAAGGCGTGGACAGAAGAATTAAAAAATCATGATGAAATCACGGTCCGTGAGCTTTATAAAGAATATCCGGACGGGAAAATAGATGCGGAAAAGGAACGGCAGCTGTGTGAACAGTATGACCGGATCGTATTTCAATTCCCGCTGTACTGGTACAGTGCGCCTCCGCTTTTAAAAACATGGATGGATCATGTGCTGGCGTATGGATGGGCTTACGGCTCCAAAGGAAAGGCGCTGCACGGCAAAGAATTGCTGCTGGCTGTTTCCGTAGGTGCCGGAGAGGATGCATATCAGGCAGGCGGGTCTAACCATTTTTCACTGAGCGAGCTCTTAAGGCCGTTTCAGGCAATGGCTAATTTTACGGGTATGACCTATTTGCCGGCTTTCGCGATGTACGGGGTAAGCAGCGCCGATGCTGCGGCTATCCGTGACAATGCCAAACGCCTGGCGGATTACATAAAGAAGCCATTTTAG	MKVLVLAVHPDMNNSAVNKAWTEELKNHDEITVRELYKEYPDGKIDAEKERQLCEQYDRIVFQFPLYWYSAPPLLKTWMDHVLAYGWAYGSKGKALHGKELLLAVSVGAGEDAYQAGGSNHFSLSELLRPFQAMANFTGMTYLPAFAMYGVSSADAAAIRDNAKRLADYIKKPF	PGPT0013810_572	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013810-kefG-K11748	NA	NA
D1-12_02548	534	ywsB		Cell wall-binding protein YwsB	ATGAAGAAAACAGCCAAAGCGGCATCCATTCTGACCCTTGCAGCGGGAATAACAGCGGCTTCAGCTGCCGGAATAACGCCTCTTCCGGAGACACACGCGCAAGAAGCGGTCAAAATTGACGATCTGTACAGCTACCCGCTTGACTCTTATCTCGTTTCCGCGGAAGCATTGAACGTCAGAACAAAAGCATCAGCAGCCAGTCCGAGAGCTGATACCCTTCATTTAGGCGACAGCTTAAAGATCGTTTCATTCCAGAACGCTGACTGGGCAAAAGTACATTATAAAAACGGAAAAACAGGATTTGTATCTACTCATTATATTGTTAAAGAAGCAACAACCGTAAAAACGACGGCAAAAACAAAAGTATATACAGACAAACAAGCGGTCAAAGCTTCCCTTGCTAAAAACACGAGCGTTTCTTTCCTCGGATGGAAAAAGACAGCCGGCGGCGGCATTGATTTCGGCTGGGCGCTTGTCGATTACGGGGGCGCAACGGGATATATCAGCACAAAAGATCTGCAAAAACTGACATAA	MKKTAKAASILTLAAGITAASAAGITPLPETHAQEAVKIDDLYSYPLDSYLVSAEALNVRTKASAASPRADTLHLGDSLKIVSFQNADWAKVHYKNGKTGFVSTHYIVKEATTVKTTAKTKVYTDKQAVKASLAKNTSVSFLGWKKTAGGGIDFGWALVDYGGATGYISTKDLQKLT	PGPT0022161_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022161-ywsB-NA	NA	NA
D1-12_02549	918	rbsB	COG1879	Ribose import binding protein RbsB	ATGAAGAAAGCCATCATCACGATCGCGGCATTATCACTGTTTTTGCTGTCCGCCTGTTCACTTGAACCGCCACAATGGGCAAAACCGTCAAACACAAAACATAAAAAAGAATTCACTATCGGGCTCTCCGTCTCTACATTGAACAATCCGTTCTTCGTTTCATTAAAAGAAGGCGTTGTAAAGGAAGCCAAAAAACGGGGCATGAAGGTCATTATTGTCGATGCCCAAAATGATTCATCTAAACAGTCAAATGACGTAGAAGATTTGATCCAGCAGGGAGTCGATGCGCTGCTGGTCAATCCGACCGATTCATCAGCGATTTCAACAGCCGTCGAATCGGCAAATTCCCTCGGCATTCCCGTCATTGCGCTTGATCGTTCAGCCGAACACGGCAAAGTCGAAACGCTTGTCGCCTCTGACAATGTCAAAGGAGGAGAAATGGCGGCTGACTACCTCGCCGATCAGCTCGGAAAAGGCGCCGAAGTGGCTGAATTACAAGGGGTGCCGGGCGCATCCGCGACACGGGAACGCGGAACGGGCTTTCATCATATTGCCGACAAAAAGCTGGATGTCGTGACAAAGCAAGCGGCGGATTTTGACCGTACAAAAGGATTGACCGTCATGGAAAACCTGCTGCAGGGTCATCCGGATATTAAAGCCGTGTTCGCCCATAATGATGAAATGGCACTCGGGGCGCTCGAAGCGATTAACAGCTCGGGCAAACACATTTTGGTCGTCGGTTTCGACGGAAATAAAGATGCGATTTCTTCCATTAAAAACGGGAAGCTGACAGCCACGGTCGCCCAGCAGCCGGAGCTGATCGGAAAACTGGCGGCCGAAGCGGCGGAGCAGGTGCTCAAAGGAGAAAAAGTCAAAAAAACCATTTCCGCTCCATTGAAACTTCAAACACAAAAATAA	MKKAIITIAALSLFLLSACSLEPPQWAKPSNTKHKKEFTIGLSVSTLNNPFFVSLKEGVVKEAKKRGMKVIIVDAQNDSSKQSNDVEDLIQQGVDALLVNPTDSSAISTAVESANSLGIPVIALDRSAEHGKVETLVASDNVKGGEMAADYLADQLGKGAEVAELQGVPGASATRERGTGFHHIADKKLDVVTKQAADFDRTKGLTVMENLLQGHPDIKAVFAHNDEMALGALEAINSSGKHILVVGFDGNKDAISSIKNGKLTATVAQQPELIGKLAAEAAEQVLKGEKVKKTISAPLKLQTQK	PGPT0015740_5683	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
D1-12_02550	972	rbsC	COG1172	Ribose import permease protein RbsC	ATGAAAACTGAACCAATGACATCAACTGAACAAAAGCGATTTTCCATTCATACCTTCACGCAAAAACTCGGTCCGTTTCTCGGCTTACTGATTCTTGTGCTGATCGTTTCCGTTTTAAACCCGAGTTTTCTTGAACCCCTCAATATTCTCAACCTTCTTCGGCAGGTTGCGATTAACGCTCTGATTGCATTCGGAATGACGTTTGTCATTTTAACGGGAGGCATTGATCTCTCTGTCGGAGCCATCCTCGCCTTATCGAGCGCATTGGTCGCAGGTATGATGGTCTCAGGCATCGATCCGATCTTAGCCGTCATCATCGGCTGCGTGATCGGCGCCGTACTCGGCATGATAAACGGATTATTAATCACAAAAGGAAAAATGGCGCCGTTCATCGCCACTTTGGCGACAATGACCGTCTTTCGCGGACTGACCCTCGTCTATACGGACGGAAATCCGATTACGGGGCTCGGTTCAAATTACGCATTTCAATTATTCGGGCGCGGTTATTTTCTCGGCATTCCCGTACCTGCCATTACGATGCTGATTGCATTTGCGGCCCTGTGGGTTCTTCTGCACAAAACACCGTTCGGCCGCCGGACATACGCCATCGGCGGCAATGAGAAAGCGGCGCTGATATCGGGAATCAAAGTGCCCCGTATCAAGATCATGATCTATTCTCTGACAGGTTTATTATCGGCGCTGGCGGGAGCGATTCTGACATCACGCTTAAATTCCGCACAGCCGACGGCCGGGGAATCATACGAGCTGGACGCCATCGCAGCGGTCGTTCTCGGCGGAACGAGCCTGTCCGGCGGTCGAGGGCGCATCATCGGTACGCTGATCGGGGTTTTGATTATCGGAACGCTGAACAACGGCTTGAACCTTCTCGGCGTATCATCTTTTTATCAGCTCGTCGTCAAAGGAATCGTCATTATAATCGCGGTGCTGCTGGACCGCAAAAAATCGGCATAG	MKTEPMTSTEQKRFSIHTFTQKLGPFLGLLILVLIVSVLNPSFLEPLNILNLLRQVAINALIAFGMTFVILTGGIDLSVGAILALSSALVAGMMVSGIDPILAVIIGCVIGAVLGMINGLLITKGKMAPFIATLATMTVFRGLTLVYTDGNPITGLGSNYAFQLFGRGYFLGIPVPAITMLIAFAALWVLLHKTPFGRRTYAIGGNEKAALISGIKVPRIKIMIYSLTGLLSALAGAILTSRLNSAQPTAGESYELDAIAAVVLGGTSLSGGRGRIIGTLIGVLIIGTLNNGLNLLGVSSFYQLVVKGIVIIIAVLLDRKKSA	PGPT0016590_4490	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
D1-12_02551	1494	rbsA	COG1129	Ribose import ATP-binding protein RbsA	ATGCACATCGGCATGACAGACATTCATAAAGCATTCGGCAAAAACCAAGTGCTCTCCGGCGTCTCATTTGAGCTTCTGCCGGGAGAAATCCACGCTTTAATGGGAGAAAACGGAGCGGGAAAATCGACGTTAATGAATCTGCTCACCGGGCTCCACCGGCTCGACAAGGGAAACATTACGATAAACGGAATAAATATGAGCTTCTCCAATCCAAAGGAAGCCGAAAAGCACGGAATCGCCTTTATCCATCAGGAACTGAATATATGGCCGGACATGACGGTGCTTGAAAACCTTTTTATCGGCAAAGAGCTGACGACGGCGTTCGGCGTTTTAGAAACAAAGAAAATGAAAGCGCTAGCAAAATCACAGCTTGAAAAACTGGGAGTCTCTCTTCCTCTTGACCGGGAAGCCGGACAATGTTCCGTCGGACAGCAGCAGATGATTGAGATTGCCAAAGCGCTGATGACAAACGCCGAAGTCATTATTATGGACGAACCGACCGCGGCGCTGACCGAACGGGAAATCAGCAAACTGTTTGACGTGATGACGGCGTTAAAGCGGGACGGCGTATCCATCGTCTATATTTCGCACCGAATGGAAGAGATATTTTCGATTTGCGACCGGATCACCATTATGCGGGACGGCCTCACTGTGGATACGGCGCATATTAAAGATACTAATTTTGATGAAGTGGTCAAACAAATGGTCGGGCGGGAGCTGACCGATCGGTATCCGACTCGCACGCCGTCACTCGGCGATAAGGTGCTCGAAGTGAAAAACGCCTCAAAAAAAGGAAGCTTTTCACAGATCAGTTTCCATGTGAGCGCCGGAGAAATCCTCGGCGTTTCCGGCTTAATGGGTGCCGGACGGACAGAAATCATGAGGGCGCTGTTCGGAATTGACAGGCTCGATTCCGGAGAGATCTGGATTTCCGGCCGAAAAACCGGCATTCGGGGTCCGTACGATGCCATTCGCAAGGGACTCGGCCTGATTACGGAGAACCGCAAAGATGAAGGGCTGCTGCTGGATACGTCCATTCGTGAAAATATTTCATTGCCGAACCTGACCAGCTTCTCTCCGAAAGGCATCATTGACCGAAAACGCGAGGCGGAGTTCGTTGAGCTGCTCATCAAGCGTCTGACCATTAAGACCGCATCTCCGGAAACCGCCGCCCGGCATTTATCAGGAGGAAATCAGCAAAAAGTCGTCATCGCCAAATGGATTGGAATCGGCCCGAAAGTTCTCATCCTTGATGAACCGACAAGAGGCGTCGACGTAGGCGCGAAAAGGGAAATCTATTCATTAATGAATGAACTGACCGATCGCGGAGTCGCCATCATCATGGTGTCTTCCGAGCTGCCGGAAATTCTCGGCATGAGTGACAGAATCATCGTCGTCCACGAAGGACGCATCAGCGGAGAAATCAATGCGGCCGGCGCAACACAAGAACGCATCATGACACTTGCCACGGGAGGGCAGCAGAATGAAAACTGA	MHIGMTDIHKAFGKNQVLSGVSFELLPGEIHALMGENGAGKSTLMNLLTGLHRLDKGNITINGINMSFSNPKEAEKHGIAFIHQELNIWPDMTVLENLFIGKELTTAFGVLETKKMKALAKSQLEKLGVSLPLDREAGQCSVGQQQMIEIAKALMTNAEVIIMDEPTAALTEREISKLFDVMTALKRDGVSIVYISHRMEEIFSICDRITIMRDGLTVDTAHIKDTNFDEVVKQMVGRELTDRYPTRTPSLGDKVLEVKNASKKGSFSQISFHVSAGEILGVSGLMGAGRTEIMRALFGIDRLDSGEIWISGRKTGIRGPYDAIRKGLGLITENRKDEGLLLDTSIRENISLPNLTSFSPKGIIDRKREAEFVELLIKRLTIKTASPETAARHLSGGNQQKVVIAKWIGIGPKVLILDEPTRGVDVGAKREIYSLMNELTDRGVAIIMVSSELPEILGMSDRIIVVHEGRISGEINAAGATQERIMTLATGGQQNEN	PGPT0016600_4174	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
D1-12_02552	396	rbsD	COG1869	D-ribose pyranase	ATGAAAAAACACGGAATGTTAAACAGCCACATTGCCAAAGTATTAGCCGATCTCGGGCATACAGACCTCATCGCGATCGCCGATGCAGGTCTCCCCGTCCCTGACGGCGTACCTAAAATTGATTTGTCCTTAACGGCGGGCGTTCCCGCCTTTCGGGAAGTGACCGGCCTGGTAGCCGGGGAGATGGCAGTCGAAAAGGTGATAGCCGCTTCCGAGATCAAAGACGCAAATCCTGAGAATGCAAGTTTCATAGAAAGCCATTTCTCAGCGCAGACGATCGAGTACATCTCCCACGAGGAATTCAAACGGCTCACACAGAAAGCAAAAGCCGTCATCCGAACGGGTGAAATGACACCATACGCCAACTGCATCCTGCAGGCGGGTGTGATTTTCTAG	MKKHGMLNSHIAKVLADLGHTDLIAIADAGLPVPDGVPKIDLSLTAGVPAFREVTGLVAGEMAVEKVIAASEIKDANPENASFIESHFSAQTIEYISHEEFKRLTQKAKAVIRTGEMTPYANCILQAGVIF	PGPT0016595_827	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
D1-12_02553	882	rbsK/rbiA		Bifunctional ribokinase/ribose-5-phosphate isomerase A	ATGAGTGAAATTTGTGTTATCGGAAGCTGTTCTATGGATCTGGTCGTCACATCCGATCGGCGTCCGAAAGCCGGAGAAACCGTACTGGGCACAGACTTTCAAACTGTGCCCGGAGGAAAAGGCGCAAATCAGGCCGTAGCCGCTTCCCGCCTGGGCGCAAACGTATATATGGTAGGAAAAGCAGGCAATGACAGCTACGGAAAAGCGATTATTGAAAACCTGAAGGCAAACGGTGTCAATACGGACTATATGGAAACGGTTACACATAAAAAAAGCGGAACGGCTCATATTGTGCTCGCAGAAGGAGACAACAGCATCGTCGTCGTAAAAGGCGCAAACGATGACATCTCCCCCGATTATGCCAAAAGTGCGCTGGCAAAACTTCCCGGCATTGATATCGTGCTGATCCAGCAGGAGATTCCTGAAGAAACCGTTGAAGAAGTGTGCAGCTACTGCCGCGCGCAGCAAATTCCGGTTATCCTGAATCCCGCGCCGGCCCGGCCGCTGAAACAATCGACGATTGAGGATGCCGCATATCTTACGCCGAACGAACATGAAGCATCCATTTTATTTCCTGACCGGACGAAAGAAGAAGCGCTCGCCGGCTATCCCGGCAAATTGTTCATTACCGAAGGAAAACAAGGCGTGCGCTACTCAGACGGCACCGCGGAACGGCTTGTTCCCGCCTTCCCTGCAGAAGCGGTCGACACGACGGGAGCCGGCGATACCTTTAATGCGGCACTTGCCGTCGCACTCGCGGAAGGACGGGACATCGAGCAAGCGCTCCTGTTTGCCAACCGCGCCGCCTCCCTGTCCGTGCAGCACTTCGGCGCCCAAGGCGGGATGCCGGCCAGAAAAGAAGTTGAGGAGCTGCTGTCATGA	MSEICVIGSCSMDLVVTSDRRPKAGETVLGTDFQTVPGGKGANQAVAASRLGANVYMVGKAGNDSYGKAIIENLKANGVNTDYMETVTHKKSGTAHIVLAEGDNSIVVVKGANDDISPDYAKSALAKLPGIDIVLIQQEIPEETVEEVCSYCRAQQIPVILNPAPARPLKQSTIEDAAYLTPNEHEASILFPDRTKEEALAGYPGKLFITEGKQGVRYSDGTAERLVPAFPAEAVDTTGAGDTFNAALAVALAEGRDIEQALLFANRAASLSVQHFGAQGGMPARKEVEELLS	PGPT0017405_4365	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
D1-12_02554	990	ccpA_2	COG1609	Catabolite control protein A	TTGGCAACGATTAAAGATGTCGCAGGCGCTGCCGGCGTCTCTGTTGCCACGGTTTCGCGTGTCCTCAATGACAACGGCTACGTGCATGAAGATACACGAACGAAGGTCATGCTTGCCATGGAGAAGCTGAATTATTATCCGAATGAAGTTGCCCGCTCTCTTTATAAAAGAGAATCCAGACTGGTCGGGCTATTGCTTCCGGATATTACGAATCCCTTTTTCCCTCAGCTTGCCCGCGGGGCTGAAGACGAGTTGCAGCGGGAAGGATACCGGCTGATCATCGGCAACAGCGATGAAGAATTGGAAAAAGAACTCGACTACCTGCAAACATTTAAACAAAATCAAGTTGCAGGTATTTTGGCGGCCACCCATTACCCCGATCTTCCCGAATACAGCGGCAGCCTTTACCCGGTCGTATTTCTGGACCGGACAAAAGAAGGCGCCCCATCCGTATTCAGTGACGGGCGGGCAGGCGGAAAACGGGCGGCTGAGGAAATGCTTCGCGGCAAAAGCACAAGCATCACGCTTGTCAAAGGCCCAGCCCACCTTCCGACCGCTCAGGAACGTTTTAACGGCGCACTTGATGTGCTGCAAAAAGCGGGCGCGCAGTTCAATGTCATCTCCGCCGCTTCATTTTCCATCAAGGATGCCGCCATTTTAGCAGAAGAATTGTTTGCAGCATACCCTGAAACCGACGGAGTCATTGCCAGCAACGACATTGCGGCGGCTGCCGTCCTCCATGAGGCGCTGCGGCTCGGCAAAAAAGTTCCGGAGGAGATTCAGATCATCGGATACGACGATATTCCGCAGAGCAGGCTTTTGTTTCCGCCTCTTTCAACCATCCGCCAGCCTGCATATGAGATGGGAAAAAAAGCGGCAAACCTGCTGCTGCAATTGATAAAGAAAGAGCCGCCGAAAGAGACGGCCATTCAACTGCCCGTGACTTACATAAGAAGACAAACGACGAGAAAGGATGATCACCATGAGTGA	MATIKDVAGAAGVSVATVSRVLNDNGYVHEDTRTKVMLAMEKLNYYPNEVARSLYKRESRLVGLLLPDITNPFFPQLARGAEDELQREGYRLIIGNSDEELEKELDYLQTFKQNQVAGILAATHYPDLPEYSGSLYPVVFLDRTKEGAPSVFSDGRAGGKRAAEEMLRGKSTSITLVKGPAHLPTAQERFNGALDVLQKAGAQFNVISAASFSIKDAAILAEELFAAYPETDGVIASNDIAAAAVLHEALRLGKKVPEEIQIIGYDDIPQSRLLFPPLSTIRQPAYEMGKKAANLLLQLIKKEPPKETAIQLPVTYIRRQTTRKDDHHE	PGPT0017992_14677	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
D1-12_02555	1134			hypothetical protein	ATGCGCATTAAAAAAGCGGTTCTTATCAGTCTCATGTGCGCAAGCCTGACACTTGCGGGCTGCTGGGATCAAAATTTGCTGAAAGATATTTCTCTCGTGCTGACCGCAAGCCTTGATGTTGATCATGACGGTGAAAATAAAATCGGCATCACCTATCGGAAGGTTCAGTCCTCCCAGGCGGAACAGGAAACGGGCGGCTCATTCATTACGACGGTGCTCAGCGCTTCCGGGCACACCATCCGTGAAGCGCGGTTTCAATTGGATAAGCTTGTCGATCAGCGCATTGACACGTCCAAGCAAAGAGTCTTATTAATCGGTGAGAAAATGGCGGAAAAACCGCTTTTTCCTTATCTCGATGTCTTTTACAGAGATCCGAAAAGCCCGCTTCTCGCTCATCCGGCGGTTGTAAAAGACGGCGAGGCGATTGAAGTGCTGAAGCTGATCGTCCGGCAGAAATTGATCGTCAACAAGTACTTAACGAATTTATTAACAAGCGCTAATGCGGAATCAAATATCAGCATGGAAAATTTGCAATCCATCCGTTCAAGCATGCTGACGGCTGATAAGGATTTCGCCCTTCCTTATTTATCGATTAACGGACAGACGATAAAGGTAGAGGGTTCTGCCCTGTTCAGCGGCCAGCGGAAAGTGACTGAGGTGCTCGGTCAGGATTCGACCCTCCTGACCCTTTTAAGCGGGCAATTTAATAAATCGGCTAATATTAATCTGAAGCTGTGGGACAAATACAAAATGGATATTGAAAATTATCTTTCTCTCGGCATCACGGATGCCACGCGAAAGATTGTATTTATAGATACAGATCCGCAGCATATAAAAGTGAAAATCCGTTTAAAACTGAATGCACGCGTCTTGGAATATCCAAAGGACAAGCTGAATTCTTATACGGCAATCGACCAAATGAACAAACAAGCCTCAGCAAATCTGAACGGGCAGGCCAGATCGGTGATCAGCCATATTCAGGAGCACAACTCGGATATCCTCGGCATCGGCCGGAACTATCAAACCCATTATTATGAGCGGGGCAAGCGGCTCAATTGGCGTGAAGTCTATCCTTCCATCGAGATCGTCCCTGATATCAAAGTGAATATCTCGCAAATCGGCATCGTGAACTAA	MRIKKAVLISLMCASLTLAGCWDQNLLKDISLVLTASLDVDHDGENKIGITYRKVQSSQAEQETGGSFITTVLSASGHTIREARFQLDKLVDQRIDTSKQRVLLIGEKMAEKPLFPYLDVFYRDPKSPLLAHPAVVKDGEAIEVLKLIVRQKLIVNKYLTNLLTSANAESNISMENLQSIRSSMLTADKDFALPYLSINGQTIKVEGSALFSGQRKVTEVLGQDSTLLTLLSGQFNKSANINLKLWDKYKMDIENYLSLGITDATRKIVFIDTDPQHIKVKIRLKLNARVLEYPKDKLNSYTAIDQMNKQASANLNGQARSVISHIQEHNSDILGIGRNYQTHYYERGKRLNWREVYPSIEIVPDIKVNISQIGIVN	PGPT0025060_973	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
D1-12_02556	1092	yndE_1		Spore germination protein YndE	ATGAAGCCTAAAAAAATAAGCCCGCTTCAAGGCGTGTTTTTCATTAATCAGACGCAGATCAGCATCGGCATTTTGGCGCTGCCCCATTTACTGATGATGAAATCGGGAAGCAGCGGATGGATTTCCATTCTGCTTACCGGATTGCTCGTCCAGCTTACATTCAGCCTGTATATGATATTATTTCACCGGTTTCCGAAGCTGAACCTGTACGAAATGCTGGAGGAGGTGTTCGGAACACTTGCCGGCAAAGGGGTGCAGGTGCTGTATATTTTATATTTCGCGTTTCTCTGCACGCTCATTCTTTCTGTATTTACACGGATATTGGATATCTGGGTGCTCCCTCAGACTCCGAATTGGGTGATCAGCTTAATGCTGATCCTCGGTTCTGTCTATATCGCCCAGGCTCCGCTGAATGCGATCGCCAGGTTCAGCTTTATTTTAACGCCGTTTTTGCTGCTGATCTCTCTGCCGCTTTTATACACGCTGGGAAAAGCCGATATCACATACATTATGCCGATTTTTCACGGAACCGCAAAAGACATGCTTACCGGGGTGCAGCAAACACTTGTCAGCATTACCGGCTTTCAGGCGGCGCTCGTGATCGGGCCCCTAATCAACTGCACCGTCAGCCAGCGCTACAAAATACTGACGATTTCAAACATCTTGATTATCCTTTATTACCTGTATATCACCCTTACTTGCTTTGTCACAATCAGCCCCGAAGAAATAAAAATGATCCCGGAGCCTGTGCTGTACCTGTTAAAAACCGTTTCATTCAGAATTATCGAACGGACGGATCTGCTCTTTTTGACGTTTTGGTTCGTGACCGTCTTTTCAACGCTGGCCAACGTGTTTTACTTGGCAAGCACCGGCATTGCCAAGCTGTTCAATCAAAAAGACCACAGCCGGTTTGTTTATCCGCTGGCCCTGCTCGTCTTCCTTCTGTCTATTTGGGCCACAAGCACGGATAAAACGATACAGCAGCTGGATCAGTTTTTCCGCATTTCCGATATTGTGTTTGTGTATTTGTTTCCGTTGTTTATGGTATTGATTGTCCTTGTACGCAAAAAGGGTGTCCGCCATGCGCATTAA	MKPKKISPLQGVFFINQTQISIGILALPHLLMMKSGSSGWISILLTGLLVQLTFSLYMILFHRFPKLNLYEMLEEVFGTLAGKGVQVLYILYFAFLCTLILSVFTRILDIWVLPQTPNWVISLMLILGSVYIAQAPLNAIARFSFILTPFLLLISLPLLYTLGKADITYIMPIFHGTAKDMLTGVQQTLVSITGFQAALVIGPLINCTVSQRYKILTISNILIILYYLYITLTCFVTISPEEIKMIPEPVLYLLKTVSFRIIERTDLLFLTFWFVTVFSTLANVFYLASTGIAKLFNQKDHSRFVYPLALLVFLLSIWATSTDKTIQQLDQFFRISDIVFVYLFPLFMVLIVLVRKKGVRHAH				NA	NA	NA	NA	NA
D1-12_02557	1470	gerBA_1		Spore germination protein B1	ATGTCTGCGGATAAACAAAACAAACGGATTCCCGGCGATTTTGAATCGGCTGTACGGGAAATGCAGGAGCTGATGTGTGTTTGCGGTGATTTTAAAATACGAAGGATCAAACTGCAGGACCGTCATACCGCTTTCTTTTATATTGAACAAATGATAGAAGAACAGAAGCTGAATGAGTTTCTGTTAAGCGACACCCTGCAGAACGGCCCGCTTGAGGAAACGATGAATGCCGTCAGCAGTGCGGAAACGGATGAAATCAGAAAACTCATTGACGGGATTTTGGCCGGACAGGTTGTTTTTCTCAGCGATGCATCGAGGAAAGCGAAGCTGTTTTCCGTCGGGCAGAATCCGCTGCGTTCCATTATGGAACCCGAATCTGAAAGTATCGTCCGCGGCGCCCATGACGGGTTTGTGGAAAGTTTGGAAACGAACATTCATCAGCTGCGGTTTCACATACAGGACCGCCATCTCTCCGTTCATTATATGGATATCGGGGAAAGAGCCAAATCAAAGGTTGCGGTTATCTTTGTTGAGAATATCGCCAATCCGGAGATTGTGGAGGAAGTGAAGCGGCGCCTGTCATACCTGCGTATAGACAGCGTGCTTGCGCCCGGGATTATCGAGGAATCAATAGAAGATAATTCGTTTTCCATTTTTCCGCAGATCATTCATACGGAACGGCCGGATAAAGCAAAAGCATGCGTGATGGAAGGCTGTGTGCTGATCATGATGGATGGGAGTCCGTCGGCTTTGATTGCGCCGATCACATTCTTTTCCTTTTTTCAATCTCCGGATGACTACAGCACGAGGTGGATTTCTGCCAGTTTTTTAAGAGTGCTGAGATTTTTCGCCTTTATGATCGCGATTACGCTGCCCGCTTTTTATATCGCGCTGATTGCGTTTCATTTTGAAGTCATTCCCAACGATCTGATTATCACCATGAAAAATTCGATTGTTGATATTCCCTTTCCCCCGCTGATAGAAGCCATGATTATGGAAATTACGATTGAACTGATCCGCGAAGCCGGTATCAGGCTGCCGAGACCGATCAGTCAGACGATCGGCATTGTCGGCGGTCTCGTGATCGGTGACGCAGTCGTTCAGGCGGGACTCATTTCTAATATGATGATTATCGTCGTAGCCGTTACGGCTGTTTCTTCTTTTGTGCTTCCTTCATATGAAATGAGCACGTCCATCCGAACGCTCAGATTTCCGCTTATGTTTCTGGCATCCTCGTTCGGTTTTATCGGCATCGCACTCGGCTTCGGGCTTATTCTGATGAACCTGTGCAAGCTTGAATCACTCGGCGTTCCTTATTTATCATCTCTGACGCCGTTTCATTTCAGTGACTTGAAGGATGCATTTATCCGGCTGCCGGCTTGGTTTATTAAAAGAAGGCCTTTTTATTTGAGACCGCAAGACTCAAAGCAGATGAAACATGTTCGGGGGTGGAGAAAAGATGAAGCCTAA	MSADKQNKRIPGDFESAVREMQELMCVCGDFKIRRIKLQDRHTAFFYIEQMIEEQKLNEFLLSDTLQNGPLEETMNAVSSAETDEIRKLIDGILAGQVVFLSDASRKAKLFSVGQNPLRSIMEPESESIVRGAHDGFVESLETNIHQLRFHIQDRHLSVHYMDIGERAKSKVAVIFVENIANPEIVEEVKRRLSYLRIDSVLAPGIIEESIEDNSFSIFPQIIHTERPDKAKACVMEGCVLIMMDGSPSALIAPITFFSFFQSPDDYSTRWISASFLRVLRFFAFMIAITLPAFYIALIAFHFEVIPNDLIITMKNSIVDIPFPPLIEAMIMEITIELIREAGIRLPRPISQTIGIVGGLVIGDAVVQAGLISNMMIIVVAVTAVSSFVLPSYEMSTSIRTLRFPLMFLASSFGFIGIALGFGLILMNLCKLESLGVPYLSSLTPFHFSDLKDAFIRLPAWFIKRRPFYLRPQDSKQMKHVRGWRKDEA	PGPT0025050_875	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
D1-12_02558	1182	capB		Capsule biosynthesis protein CapB	ATGTGGTTACTCATTATAGCCTGTGCTGCCGTACTAATCATCGGAATCATTGAAAAAAGGCGGCATCAGAAGAATATCGATGCTCTGCCAGTACGCGTCAATATTAATGGTATCCGCGGAAAGTCAACCGTAACGAGGCTGACGACCGGAATACTGATGGAGGCGGGCTACAAAACAGTCGGAAAAACGACGGGAACAGATGCAAGGATGATCTATTGGGATACACCTGAGGAGAAACCGATCAAACGGAAACCGCAGGGCCCGAATATCGGCGAGCAAAAAGAAGTAATGAAGGAAACCGTAGAACGGGGCGCCAATGCCATTGTCAGTGAATGTATGGCGGTAAACCCGGATTATCAGATTATCTTTCAGGAAGAACTCCTTCAAGCCAACATCGGCGTCATCGTGAATGTGCTTGAAGACCATATGGACGTCATGGGGCCGACGCTTGATGAAATCGCTGAAGCTTTTACCGCGACGATACCGTATAACGGTCACCTTGTCATTACAGACAGTGAATACACAGACTTCTTTAAAGAAAAAGCCGCAGAGCGGAATACCGAGGTCATTATTGCGGATAACTCTAAAATTACAGATGAATACCTTCGTAAATTTGAATATATGGTCTTTCCTGATAACGCTTCCCTTGCGCTCGGCGTTGCCCAGGCTCTTGGGATAGATGAAGAAACGGCGTTTAAAGGAATGCTGAATGCGCCGCCTGATCCTGGCGCCATGAGAATCCTGCCGCTGCTCAGCACGAAGGAGCCCGGTCATTTCGTAAACGGCTTTGCCGCAAATGATGCATCTTCTACTTTAAATATATGGAAACGTGTAAAGGAAATCGGCTACCCGACAGATGAACCGATCGTTATCATGAACTGCCGCGCCGACCGTGTGGACAGAACGATTCAGTTCGCAAACGACGTGCTTCCGTACATTAAAACGAAGGAACTCATACTCATCGGCGAGACGACAGAACCGATCGTCAGAGCTTATGAAGAAGGCAAGATTCCTGCCGATACATTGCACGATCTGGAATATAAATCAACAGACGAAATCATGGACGTGCTGAAAACAAGAATGCAAAACCGTGTCATATATGGCGTGGGCAATATCCACGGTTCAGCGGAACCATTAATTGAAAAAATTCAAGAGTATAAGGTGAAACAGCTCGTTAGCTAG	MWLLIIACAAVLIIGIIEKRRHQKNIDALPVRVNINGIRGKSTVTRLTTGILMEAGYKTVGKTTGTDARMIYWDTPEEKPIKRKPQGPNIGEQKEVMKETVERGANAIVSECMAVNPDYQIIFQEELLQANIGVIVNVLEDHMDVMGPTLDEIAEAFTATIPYNGHLVITDSEYTDFFKEKAAERNTEVIIADNSKITDEYLRKFEYMVFPDNASLALGVAQALGIDEETAFKGMLNAPPDPGAMRILPLLSTKEPGHFVNGFAANDASSTLNIWKRVKEIGYPTDEPIVIMNCRADRVDRTIQFANDVLPYIKTKELILIGETTEPIVRAYEEGKIPADTLHDLEYKSTDEIMDVLKTRMQNRVIYGVGNIHGSAEPLIEKIQEYKVKQLVS	PGPT0026665_166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULE_BIOPSYNTHESIS,PGPT0026665-capB|pgsB-K01932	NA	NA
D1-12_02559	450	capC		Capsule biosynthesis protein CapC	ATGTTCGGATCAGATTTATACATCTCACTTATTTTAGGCGTGTTAATCAGTTTAATTTTCGCGGAAAAAACAGGTATCGTACCTGCCGGTTTAGTCGTGCCGGGTTATTTAGGGCTCGTTTTTAACCAGCCGGTCTTTATTTTACTCGTATTGTTAGTGAGTCTTCTTACATACGTGATCGTCAAATACGGTTTATCCAGATTTATGATTTTGTACGGACGCAGAAAATTCGCAGCTATGCTGATAACGGGAATCTGCTTAAAAATCGCCCTTGATTTCCTTTACCCGATCGTACCGTTTGAGATATCAGAATTCCGCGGAATCGGTATCATCGTACCGGGTCTGATCGCCAATACCATTCAGAAACAGGGATTAACGATTACATTTGCCAGCACGCTGTTCTTAAGCGGCGCAACTTTTGCCATTATGTTTGCTTACTACTTAATCTAA	MFGSDLYISLILGVLISLIFAEKTGIVPAGLVVPGYLGLVFNQPVFILLVLLVSLLTYVIVKYGLSRFMILYGRRKFAAMLITGICLKIALDFLYPIVPFEISEFRGIGIIVPGLIANTIQKQGLTITFASTLFLSGATFAIMFAYYLI	PGPT0026670_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULE_BIOPSYNTHESIS,PGPT0026670-capC|pgsC-K22116	NA	NA
D1-12_02560	1149	capA		Capsule biosynthesis protein CapA	ATGAAAAAACAATTAAGCTTTCAAGAAAAACTGCTGAAGCTGACCAAACAGCAGAAAAAGAAGACCAATCTTCACGTTTTTATCGCGCTGCCGATCGTCTTTTGCCTGATGTTCGTCTGCATCCTGACAGGGAAGGCGGAAACGCCGAGTGTGAAAAGAAATGCCGATGACCTTGTATCAGCCTCATTCGTCGGAGATATTATGATGGGCCGGAATGTCGAGAAAGTGACAAAGCATAAAGGCACGGAGAGTGTCTTCCGTTACGCAAAGCCATTCTTCGAAGCATCCGACTATGTGTCGGGGAACTTTGAAAACCCGGTTACATATAAAAAGAACTACAAAGAAGCAGAAAAAAATATCCACCTTCAATCAAACAAAGATGCCGTAAAAGTATTGAAGGACATGAATTTCACCGTTCTCACGGCAGCCAACAACCATGCGATGGATTACGGCCCTCAAGGAATGCGGGATACGGTTGAAGAGTTTTCAAAGCAAAATCTTGAACTTGTCGGCGCGGGCCTCACGCTGAAGGAAGCCGAGCAGAACATTTCTTATCAAGATGTAAACGGAATCAAAATCGCAACACTGGGTTTCACTGATGTTTCCGGAAAAGGCTTTGCAGCTAAACGAAATGCGCCGGGTGTGCTTCCGGCCGATCCAGAGCTGTTTATTCCGATGATTTCTAAAGCCAAAAAGAAAGCCGATCTTGTCATTGTTCAAACACACTGGGGACAGGAATACGATAATGATCCGAATGACAGACAGCGCCAATTGGCAAGAGCAATGTCAGATGCCGGAGCGGATATTATCGTCGGACACCATCCGCACGTGCTGGAACCGATCGAAATGTACCACGGCACCGTTATTTTCTACAGCCTGGGCAACTTCGTATTCGACCAGGGGTGGACAAGAACGAGAGACACGGCGCTTGTTCAATATCATCTGCAGAAAAACGGCACAGGACGCTTTGAAGTCACGCCGATGAATATTCATGAAGCGACGCCTGCGCCGGTTAAAAAAGGCAGCATCAACCATAAAACGATCGTACGTGAACTGACGAAAGAATCGAATTTCGATTGGAGCGTCAAGGATGGAAAATTAACGTTTGATGTGGATCACAGCGATATCTTAAAAAAGAAAGCGGAGTGA	MKKQLSFQEKLLKLTKQQKKKTNLHVFIALPIVFCLMFVCILTGKAETPSVKRNADDLVSASFVGDIMMGRNVEKVTKHKGTESVFRYAKPFFEASDYVSGNFENPVTYKKNYKEAEKNIHLQSNKDAVKVLKDMNFTVLTAANNHAMDYGPQGMRDTVEEFSKQNLELVGAGLTLKEAEQNISYQDVNGIKIATLGFTDVSGKGFAAKRNAPGVLPADPELFIPMISKAKKKADLVIVQTHWGQEYDNDPNDRQRQLARAMSDAGADIIVGHHPHVLEPIEMYHGTVIFYSLGNFVFDQGWTRTRDTALVQYHLQKNGTGRFEVTPMNIHEATPAPVKKGSINHKTIVRELTKESNFDWSVKDGKLTFDVDHSDILKKKAE	PGPT0026660_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULE_BIOPSYNTHESIS,PGPT0026660-capA|pgsA-K07282	NA	NA
D1-12_02561	162			hypothetical protein	ATGAAAATCATTAAAGCGGGATGGCCGTTTGCCGCGATCATTATGGTATTTATGTTTATGTCTGCGTTTAAATACAATGATCAGCTCACAGATCAGGAAAAACAAAAAATTGACACGGAAATGCAAAAAATTCAGCAAGAGGATACAGCGGGCGCAAAATAA	MKIIKAGWPFAAIIMVFMFMSAFKYNDQLTDQEKQKIDTEMQKIQQEDTAGAK				NA	NA	NA	NA	NA
D1-12_02562	1236	pgdS	COG0791	Gamma-DL-glutamyl hydrolase	ATGCTCACAAGCTGGAGGAAGTACATCCTTGCCGGCCTTATGATTTGTCTTGTGGCACCTGCAGTGACGAGAACGGAAATTGCTGAAGCGGATTCTCAAGTTTCTGTCCTGATCGTTTCAGACGCGCAAAAACTTGTCGGAAATAAATATGTTTACGGAGGCGAAGAGCCTGAGGACGGTTTTGATCCGTCCGGATTGATGCATTATCTTTTCAGCAGACAGAACATCCATCTGCCGAGAACGGTCAGTGATCAATGGAAAGTCGGAGCCGCCGTCAAAGAAAATGACCTTTCACCGGGAGATCTTGTGTTTTTCAAAAAGTCAGATTCAACACAAAACGCGCCCGTCCATGACGGTCTTTATATCGGAAACGGAGAGATGATACACAGTTCTCCGTCTGAAGGCGTAACCGTCACACGCTTTCAAAAAAGCAGTTATTGGATGAATTTATATCTTGGCGCCAAGCGGATTACAAAAGATCCGGAACTGGCTGATGATCCGATCGTTCAGGAGGCAGCCCGTTACCTCGACATTCCGTATGTATTCGGCGGAAGCACGCCCGAGGAGGGATTCGACTGTTCGGGGCTGGTCCAATATGTTTTTGAAAACATGCTTCACATTTACCTGCCGAGATCTGCGGAACAGCAGTGGCTGGTCGGTGAGAAAATCAAACTGAGCGATATAAAGCCCGGGGACGTGATTTATTTCAGCGACACGTATAAAAAAGGAATTTCCCATGCGGGCATTTATGCGGGAGAGGGAAGGTTCATCCAAGCAAGCCGCTCCGCAAAAGTCACCATTTCTTACTTGTCGGAAGATTACTGGAAAAAACATTTTACGGGGGTGCGCCGATTCAGCAATTTAGCCATTTCTAAAGAAAATCCCGTTGTGTCCACAGCGGCCGATCATATCGGAATTTCTTATCTGAAAGGCGGCGTTTCACCGGAAACCGGCTTTGATACGGCGGGATTTGTTCAATACATCTATCAAAAAGTGAAAGGAATCAGCCTGCCGCGTTATGCGGACAAGCAGATGCAGGCGGGCGTTCCGGTCGATAAACAAGATCTGAAGCCCGGCGATCTGGTCTTCTTTAAAGCGGAAAGCCTGAATCCGGCCATTTATATCGGGAACGGACAAGTGATTCATGTCACCGTGTCCGCAGGCGTTACCATAACAAATATGAACACAAGCGCTTATTGGAAGGACAAATATGCGGGCAGCATCCGGCTCCCGTAA	MLTSWRKYILAGLMICLVAPAVTRTEIAEADSQVSVLIVSDAQKLVGNKYVYGGEEPEDGFDPSGLMHYLFSRQNIHLPRTVSDQWKVGAAVKENDLSPGDLVFFKKSDSTQNAPVHDGLYIGNGEMIHSSPSEGVTVTRFQKSSYWMNLYLGAKRITKDPELADDPIVQEAARYLDIPYVFGGSTPEEGFDCSGLVQYVFENMLHIYLPRSAEQQWLVGEKIKLSDIKPGDVIYFSDTYKKGISHAGIYAGEGRFIQASRSAKVTISYLSEDYWKKHFTGVRRFSNLAISKENPVVSTAADHIGISYLKGGVSPETGFDTAGFVQYIYQKVKGISLPRYADKQMQAGVPVDKQDLKPGDLVFFKAESLNPAIYIGNGQVIHVTVSAGVTITNMNTSAYWKDKYAGSIRLP				NA	NA	NA	NA	NA
D1-12_02563	726	yttA		putative membrane protein YttA	ATGTCGAATGCAATCGCTATTATAGGATGTTTAGCTTTTCTCTGCGCAGTCGGATACGGAATATTCCATCTCATATGCAAAGCGGCAAAAAAAGACAAACATTTTTCAAAAAAGCTGTTTTGGCCCCTTCTCATCGGCGGATTTATCCTGCTTCTGACCGGCGCCTCCCTCGCAGAGCCGGACGCCTCGGCCGTGAAGGCAGAGGAGAAATACAGCACCCTTCATACCGCTTATCAAAAATTGACGAAGGAACACCAGGCGCTTGAGAAAAAATATGAAAACATCAGTGCCGCGGCCGAAAAGGAGAAATCCGAAGCCGAAGCCGGCAATGAAGAAAAACTCAGCAAACTCAGCCAAGAGATAAGCGAGCTGAAAAAAACAAACAAATCACTCAAACAAGACAATGAGAAATTAAAAAATTCACAAAAGAAGCTCGAAAAGACCGCTGAAACGCTTCAGTCAGAAAATAAATCTTTAAAGCGGCAGAAAGCAGAAACAAAAACATCCGAAAACGCGGAAACGGCGCAAAACAACGCCCCTTCCTCCGGCGGACATGCCGAGACGAAAGCAGCCGGCACCTCACAGGGATGCGACATTAAAGGCAGCCGGAACGGCATTTATCACACGCCGGGAAGTACATACTACGACCGGACGACAGATCCCGCGGAAATGTTCTGTTCCGTAGAGGATGCGGTAGCGGCCGGATACAGAGCGCCGAAACGGTAA	MSNAIAIIGCLAFLCAVGYGIFHLICKAAKKDKHFSKKLFWPLLIGGFILLLTGASLAEPDASAVKAEEKYSTLHTAYQKLTKEHQALEKKYENISAAAEKEKSEAEAGNEEKLSKLSQEISELKKTNKSLKQDNEKLKNSQKKLEKTAETLQSENKSLKRQKAETKTSENAETAQNNAPSSGGHAETKAAGTSQGCDIKGSRNGIYHTPGSTYYDRTTDPAEMFCSVEDAVAAGYRAPKR				NA	NA	NA	NA	NA
D1-12_02564	858	ywtE	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YwtE	ATGAAATTGATAGCCATTGACTTAGACGGCACATTACTGAACTCGGACAGTGTGATTTCTCCGGAAAACAGAGCGGCTTTACAAAGAGCGGATGAAGCGGGCATTCTCGTGGCCATCTGCACGGGCAGAGCCACATTTGATGTAAAAGCGCTCTTAAAGGATTTGGATATTCCGATCATTGCGGCAAACGGCGGGACAGTCCATGACAAAGGATACCGCCTCGTCAGCCGGCTCTTAATGGATCAGCAGGCCGGGAAGGATATCGCCGCTTATTTAACGGACAACGACATTTACTTTGAGGTCTATACAGATGATCATCTGCTGTCCCCGTTTGACGGCGAGTCCAAACTGCAGGCAGAACTGGACATTCTGAAAAGCGCCAATCCCAAGGAAGATATTCGGACATTATGGGAGGGCGCAAAGACGCAGTTCAAACAATTCGGCATTAAACCCGTGCAGGATATACAGGCGATTTTTAACGGAGACGAACATGTTTACAAGCTTCTTTGTTTCTCTTTTGATATGGAAAAACTGAGAAACGCCAAAGAAGAAATTACACATCATCCGAAATTATCCCAGACATCTTCCGGGAAACACATTATCGAAATCCTCCCTGCCGGTTCCGGAAAGGGACGTGCTCTGACGGAGCTTGCCTCACTGTACGGAATTGAAAAACAGGATATTTACGCCATCGGCGACAGCCCGAATGATTTCTCCATGTTTGAAGCGGCGGGAAACCGCATCGCCATGGGCAATGCGATTGATGAACTGAAGGAAAAAAGCACGTATATTACAAAAAGCAACGATGAAAACGGCGTCGCATATTTCATCAACCGGCTTCTCGACAACGATCAATAA	MKLIAIDLDGTLLNSDSVISPENRAALQRADEAGILVAICTGRATFDVKALLKDLDIPIIAANGGTVHDKGYRLVSRLLMDQQAGKDIAAYLTDNDIYFEVYTDDHLLSPFDGESKLQAELDILKSANPKEDIRTLWEGAKTQFKQFGIKPVQDIQAIFNGDEHVYKLLCFSFDMEKLRNAKEEITHHPKLSQTSSGKHIIEILPAGSGKGRALTELASLYGIEKQDIYAIGDSPNDFSMFEAAGNRIAMGNAIDELKEKSTYITKSNDENGVAYFINRLLDNDQ	PGPT0008595_128	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
D1-12_02565	987	tagT	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagT	ATGGAAGAACGATCTCAACGCAGAAAAAAGAAAAGACGCCTCAGAAAATGGGTGAAATTTGTACTGGTATTCGCCGCTTTCTTATTGGTAATCGCCGGTTCCGTCGGCACCTACGCATTTGTGAAATTGAATAATGCGACCAAAGAAGCGCACGTCAGCCTTGACCGCGGCGACCAGTCCGTAAAACGGATCAAAGAATTTGACCCGAAGAAGGATTCTTTCACCGTATTGCTTTTAGGAATAGACGCCCGTGACAGTAAGGGCGAATCAGTAGATGACGCAAGAAGTGACGCCAACGTGCTCGTCACCTTCAACCGGAAAAAGAAAACAGCGACGATGCTCAGCATTCCGCGGGATTCCTATGTCAACATCCCGGGACACGGCTATGACAAATTCGCGCACGCACATGCTTACGGCGGTTATAATTTAACTTATAAAACAGTAGAAAACATGCTTGATATTCCGGTAGATTATGTGGTTGAGAGCAACTTCGACGCGTTCCGCGATGTCGTCAATGAGTTGAACGGCGTTACGGTAAATGTGAAAAGCCAGAAAATTGCCGATCGTATTAAGGTCGATACAAAAGGAAAAGTCGTGCTGAAGCCGGGCGTTCAGACGCTTGACGGTGAGCAGGCACTGGCTTATGTAAGAACACGCAAAGCCGACACCGATCTGATGCGCGGACAAAGACAGATGGAAGTGCTGAGCGCCATTATTAAAAAATCTAAATCGTTAAGCTCGATCCCATCTTATGACGATATCGTCGACAGCTTAGGGAAAAACTTAAAAATGAACTTATCTCTTAATGACGCCATCGGTCTGTTCCCGTTTATCACATCGCTGAAATCGGTGGATTCTTTGCAGCTGACAGGTTCAGACAGCTATATTTACACTCCTCAGTACGGCAAAAATATTTATTACTTCAAGCTGAATGAGGAAAACCTTCAAGAAGTGAAAACGAAATTAAAAAATGATTTAAACGCGTAA	MEERSQRRKKKRRLRKWVKFVLVFAAFLLVIAGSVGTYAFVKLNNATKEAHVSLDRGDQSVKRIKEFDPKKDSFTVLLLGIDARDSKGESVDDARSDANVLVTFNRKKKTATMLSIPRDSYVNIPGHGYDKFAHAHAYGGYNLTYKTVENMLDIPVDYVVESNFDAFRDVVNELNGVTVNVKSQKIADRIKVDTKGKVVLKPGVQTLDGEQALAYVRTRKADTDLMRGQRQMEVLSAIIKKSKSLSSIPSYDDIVDSLGKNLKMNLSLNDAIGLFPFITSLKSVDSLQLTGSDSYIYTPQYGKNIYYFKLNEENLQEVKTKLKNDLNA	PGPT0023440_2609	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
D1-12_02566	1377	csbC_2		putative metabolite transport protein CsbC	ATGAAAAGCATACACTCGAATAAATGGCTCTATTTTTTCGGCGCACTCGGCGGCGCGTTATACGGATATGATACCGGAGTCATTTCCGGAGCTATTTTATTTATGAAAAAAGAACTGGGACTGAACGCCTTTACAGAAGGCCTCGTTGTCAGTTCGTTATTGGCGGGGGCGATTCTCGGGTCGGGATTCGCCGGCAAACTGACCGACCGGTTCGGCAGGCGGAAGGCCATCATGGGAGCGGCGCTGCTGTTTTGTATAGGCGGTTTAGGAGTCGCTTTTGCCCCGAATACAGAGGTGATGGTTCTTTTCCGGATCATTCTCGGACTGGCTGTCGGAACATCTACAACGATCGTTCCGCTCTATTTATCGGAGCTGGCTCCGAAGCATAAACGGGGGGCGCTTTCTTCGCTGAATCAGCTGATGATTACGGTCGGAATCCTCGTTTCTTATATCGTGAACTATATATTTGCCGATGCAGGCGCTTGGCGCTGGATGCTTGGACTTGCGGTTGTGCCGTCAGTCATTCTGCTGATCGGAATCTTATTTATGCCGGAAAGCCCGCGCTGGCTGTTTACGATCGGCAAAGAAGAGAAAGCAAGAGAAATCCTTTCATCATTGCGGGGAACGAAGAATATTGATGATGAGATTGATCAGATGAAAGAAGCGGAAAAGGAAAACGAAGGCGGCTTGAAAGAATTGTTTGAGCCGTGGGTGAGACCCGCGCTGATTGCCGGCCTCGGACTTGCCTTTTTGCAGCAATTCATCGGGACAAATACAATTATTTATTACGCCCCGAAAACATTTACCAGTGTCGGGTTCGGCAATTCCGCGTCTATATTGGGAACGGTCGGAATCGGCGCCGTCAATGTCATCATGACGCTTGCGGCTATTAAAGTCATTGATAAGATCGGCCGGAAGCCGCTGCTGCTGGCCGGAAATGCGGGCATGGTCATCAGTCTGCTCGTATTGGCCGCGGTCAATCTCTTCTTTGAACATTCAGCAGCCGCATCATGGACAACGGTGATTTGTTTAGGCCTGTTTATCATTGTGTTTGCGGTCAGCTGGGGGCCTGCCGTGTGGGTCATGCTTCCTGAATTATTCCCGCTGCATGTCCGGGGTATCGGGACGGGTGTCTCCACTTTGATGCTGCATGCCGGAACATTGATTGTCTCATTAACCTATCCGATGTTAATGGAAGCAGTCGGCATCAGCTATTTATTTCTCATTTATGCCGCGATCGGGATACTGGCATTCCTGTTCGTCTGGTTTAAAGTGACCGAGACGAAGGGAAAAAGCCTTGAAGAAATTGAGCAGGATCTGAAAAGCCGTAACGGTGGCTCGGGATCAGAATCAAATCGGCGGACAGTTCATCCGTAA	MKSIHSNKWLYFFGALGGALYGYDTGVISGAILFMKKELGLNAFTEGLVVSSLLAGAILGSGFAGKLTDRFGRRKAIMGAALLFCIGGLGVAFAPNTEVMVLFRIILGLAVGTSTTIVPLYLSELAPKHKRGALSSLNQLMITVGILVSYIVNYIFADAGAWRWMLGLAVVPSVILLIGILFMPESPRWLFTIGKEEKAREILSSLRGTKNIDDEIDQMKEAEKENEGGLKELFEPWVRPALIAGLGLAFLQQFIGTNTIIYYAPKTFTSVGFGNSASILGTVGIGAVNVIMTLAAIKVIDKIGRKPLLLAGNAGMVISLLVLAAVNLFFEHSAAASWTTVICLGLFIIVFAVSWGPAVWVMLPELFPLHVRGIGTGVSTLMLHAGTLIVSLTYPMLMEAVGISYLFLIYAAIGILAFLFVWFKVTETKGKSLEEIEQDLKSRNGGSGSESNRRTVHP	PGPT0015023_51	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015023-csbC-NA	NA	NA
D1-12_02567	1380	COQ3_2		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	GTGAAAACGAGTATTATTATCCTTACATATAATGAACTTGAGCTGACGAAAAAATGTCTGGCCAGCATTGAACGATACACCGACAAAGATAAGATTGAACTGATTATAGTTGACAACGGTTCCTCAGACGGAACGAGAGAATACATATCAAATCTGCCTGACGTCAAAGTCATCCTAAATGAAAAAAACCTCGGGTTCGCCAAAGGGTGCAACCAGGGTATCGAAGCGGCAGGGGGAGAAAATCTGCTGTTTCTGAACAACGATACGATGGTCACGAAAAATTGGCTCACCTCCATGCTGCGGGTGCTGTATCATTCTGAAAAAGCCGGTATGGTCGGGCCCGTCAGCAACTATGTCAGCGGCGCGCAAATGATCCATGACGCATATCAATCGCTTGATGAGCTGGAGTCATTCGCGGAGGCGTATTGCGCACGGGAAAAGCATCATACAAAGCGGGTGCTGCGCCTTGTCGGCTTCTGTCTTCTGGTGAAAAGAAGCGTCATTGAAGACATCGGCCCGTTCGATGAGCAATTCGGATACGGTTCTTTTGAAGATGATGACCTATGTTTACGCGCCCTGCAAAAAGGCTACAGCCTGCACATCGCCCTCGATGCCTTTGTGCATCACCACGGACATGCGACGTTTACGGCTAATCAGGATATCAATATCAATCAGTTATATTCGGAGAACCGCCAGCGTTTTACGGAAAAATGGGGCACTGATTTTACGTACTTTACTCATCCGAGACCGGAAATTGCGGAGCTCGTTCCCCGGGAGGCGAAACGGATACTTGATGTCGGCTGCGGCGCGGGGGCTACGGGGCTGGAACTACAAAACAGACAGCCTTGCGAACTGTACGGAATAGAACTGCACCCGCTGGCGGCGCAAGCGGCAAAAGGACACTATGAAGCGGTGCTGCAGGAAGATGTCGAAGAAGTGAAGCTTCCTTATCCGGAAGGCTTTTTTGATTGCATCATTTTCGCCGACATCCTTGAGCACTTAAAAGACCCGTGGCGCGTCATTGAAACGTACTCATCCTATTTGTCGCCTGCCGGATCAATCGTTTGCAGCATTCCGAATATTTCCCACGCCGAAGCGCTGTTCCCGCTTCTGCTCGGTGACTGGACATACAGAGACGCCGGCATTCTCGACCGCACCCACTTGCGGTTTTTTACGCCGCAGACGGTGCGCACGCTCTTTCCGGAAGAGACATTTGCTGTGAAAAAGCAGTCCTATACGTATGTTCACGTGGATGAGCGGGTGCAGCTGTTTTTACAGGAAATCACACGAATGGCGCAATCGATGCAATTTCCGGTGACACAGCTGCCCGAACAAAGCCGGATTTATCAAATTCTCCTCCGTGTCGAAAAAACAGGCTGA	MKTSIIILTYNELELTKKCLASIERYTDKDKIELIIVDNGSSDGTREYISNLPDVKVILNEKNLGFAKGCNQGIEAAGGENLLFLNNDTMVTKNWLTSMLRVLYHSEKAGMVGPVSNYVSGAQMIHDAYQSLDELESFAEAYCAREKHHTKRVLRLVGFCLLVKRSVIEDIGPFDEQFGYGSFEDDDLCLRALQKGYSLHIALDAFVHHHGHATFTANQDININQLYSENRQRFTEKWGTDFTYFTHPRPEIAELVPREAKRILDVGCGAGATGLELQNRQPCELYGIELHPLAAQAAKGHYEAVLQEDVEEVKLPYPEGFFDCIIFADILEHLKDPWRVIETYSSYLSPAGSIVCSIPNISHAEALFPLLLGDWTYRDAGILDRTHLRFFTPQTVRTLFPEETFAVKKQSYTYVHVDERVQLFLQEITRMAQSMQFPVTQLPEQSRIYQILLRVEKTG				NA	NA	NA	NA	NA
D1-12_02568	1131	gerBC_1		Spore germination protein B3	ATGACACTTTTCATAAAATGGGCGGCGGCGCTTTTCATACTGATGACGCTTTCAGGATGCTGGGACGCGAAGGAAGTCGAAAAGCTATCTTTCGCCCGGGGACTGGCGATAGACGAGACGAGTGACCGCCGATATAAATTAACCTATCAAAACCTGCTGCCCCAAAGTGAAAACAGCCAGGCTTCCGGCCGGCCCGTGTTTGTCAATGTGACGACGCGGGGGGATACCATTCTTGAAGCCGTCAGTGAAGTCGCTTTAAAAGATCCGCCTGTTTACAGCGATCACTTAAAAGTGCTGATATTCAGCGACAAATTGCTGGCCGACCAAAATATACTGCAGATGATGAATCATTTTATCCGCGATGATGAATTAAGGCGGAGCAGCTATCTCTTCGCGGTAAGAGGCAAAGCGTCCGATATTCTGACGGAGCCGACGCCGAATCAGCAGCAGCCCATGGCCGCGGAAAAGCTGATCGACCTTACGAACAACGGAAACTACAACGGGAAGATTTTACAACCGCTCCGAATCGGGAGAGCTTCAATTTACTGCCATAATAAACGCAGTTTTCTCATTCAGGCCGTCAGCAATCAAAAAGGAAAAACGGTGTATGACGGAGCGGCCATTATCAAAAACGCAAAACAAAACAGATTGGCGGGCTTTCTGTCACCATACGAAATACAGAGCCTGAATTGGCTCATGGGGACGATACGGGGCGGCGTGCTGCCCGCTTTGGATAAAGGGGGGCACCCGATTACTTTCGAGATCAAAAAATCAACATCCGCCATCACTCCCAGGCTGAAAAACGGGAAGCTGTCATTTCATGTAGCGGTAAAAACAAAAGGACTTTTGTCAGAGGATCAATATGCCGGAGAAGATTCATTCGATCAGCACTATTTAAACGGGCTGGAAAAGATTTTCGAAAAAAAACTGAAAAGCGATGTGAAAGAAGTCATCGATAAGCTGCAGAATCAATATGAAACGGACCCTGTCTTCTTTTCTGACAGAGTCCGCATTCAATATCCCGACTATTGGAAGAAAGTAAAGCATCATTGGGATGAGACCTTCTCCGAAGCGGCTTTTGACTATGATGTTTCCATTCAGATTACCAACTTCGGAACGATGGGACGGTAG	MTLFIKWAAALFILMTLSGCWDAKEVEKLSFARGLAIDETSDRRYKLTYQNLLPQSENSQASGRPVFVNVTTRGDTILEAVSEVALKDPPVYSDHLKVLIFSDKLLADQNILQMMNHFIRDDELRRSSYLFAVRGKASDILTEPTPNQQQPMAAEKLIDLTNNGNYNGKILQPLRIGRASIYCHNKRSFLIQAVSNQKGKTVYDGAAIIKNAKQNRLAGFLSPYEIQSLNWLMGTIRGGVLPALDKGGHPITFEIKKSTSAITPRLKNGKLSFHVAVKTKGLLSEDQYAGEDSFDQHYLNGLEKIFEKKLKSDVKEVIDKLQNQYETDPVFFSDRVRIQYPDYWKKVKHHWDETFSEAAFDYDVSIQITNFGTMGR	PGPT0025035_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025035-gerBC-K06293	NA	NA
D1-12_02569	1107	gerBB		Spore germination protein B2	ATGAAAAAACCGGAAGACAAGCTGTCGTTTATGCAGACACTTCTCATGGTAAGCGGAACAATGATCGGAGCGGGCGTGTTAACACTGCCTCGCTCCGCCGCAACAGCGGACAGTCCGAGCGGATGGATCATTATTCTTGTGCAGGGTGTCGTGTTTATCGGCATCGTCCTGCTCTTTATGCCGTTTTTGCAGAAAAACAGCGGGGAAACCATATATGAGCTGAATCAAAGCATCATGGGACGCGCCATCGGTTCTCTTCTGAATTTATTCATCAGCTGTTATTTTGTCGTCACCGTCTGTTTTCAAGCCCGTTTTCTAGGTGAAGTCATCAATTACTTTTTACTGAAAAATACGCCGATGGGTGTCGTCATATTCATCTTTCTGGCGGTCGGCATCTACCATGTGACCGGCGGGGTCTATCCCATTTCAAAGCTTTATGCCTATCTGTTCCCGGTTACGATCGTCATTCTGATTATGCTGCTTATATTCAGCCTGAGACTGTTTAAGCTGGATTTCGTCCGCCCGGTCATGGAAGGAGGCTACAAAAGCTTTTTTGAGATGTTTCCGCGGACCCTTTTGTATTTTTCAGGGCTTGAGGTGATTCTGTATCTGGTGCCGTTTATGAAAAATCCGAAGCAGGCGAAAAAGGCTGCTGTCTTCGGCATCGCCAGCGCAGGCTTATTTTACAGCGTTACGCTGCTTGTCGTCATCGGCTGTATGTCGGTCGCTGAAGCCAAAACGGTGACGTATCCGACCATTTCCCTGATTCACGCCTTAGAAATCCGGGGTATTTTCATTGAGCGGTTTGATATCTTTCTTTTAATCACGTGGACATGCCAGCAGTTTACCTGTATGCTCGGCTCTTTTAAAGGGGCGCATATCGGATTAAACACCATTTTCAGACTGAAAAATAAAAACAATGCCTGGCTGATGGGGAGCTTATTGGCAGTGACATTCGGCCTTTCGATGTACCCCGATGATATCAACAGCGTGTTTGCATTCGCGAATATTCTCGGGTATACGTTTTTTGCCGTCATTATGATTCCTTTTCTCATCTGGTTTGTCAGCTGGATGAAAAAAATAGCCGGGAGGAAACAGACGTCATGA	MKKPEDKLSFMQTLLMVSGTMIGAGVLTLPRSAATADSPSGWIIILVQGVVFIGIVLLFMPFLQKNSGETIYELNQSIMGRAIGSLLNLFISCYFVVTVCFQARFLGEVINYFLLKNTPMGVVIFIFLAVGIYHVTGGVYPISKLYAYLFPVTIVILIMLLIFSLRLFKLDFVRPVMEGGYKSFFEMFPRTLLYFSGLEVILYLVPFMKNPKQAKKAAVFGIASAGLFYSVTLLVVIGCMSVAEAKTVTYPTISLIHALEIRGIFIERFDIFLLITWTCQQFTCMLGSFKGAHIGLNTIFRLKNKNNAWLMGSLLAVTFGLSMYPDDINSVFAFANILGYTFFAVIMIPFLIWFVSWMKKIAGRKQTS	PGPT0025030_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025030-gerBB-K06292	NA	NA
D1-12_02570	1452	gerBA_2		Spore germination protein B1	ATGACGATACATGCGGAGCTCGGCAAAAACCTTGAAGCGCTGAAAAAACGGTTCGGCCAAAGCGATGACATGATGTTTTATTCGTTTACGTACGGAAACGGCAAATGTGACGCCTGTCTTATATATATAGACGGACTGACCGACAATCAATTGCTTGCGGAATATATTATTTCGCCCGTGCAGGCGGCCGCCCGGCATCAAGAGGAACCGGCTGAAACAACGCCGTCATCCATCTCTTTCGGCTATCGTCACACCCGGCTTTCTTCACTTAAGGACGCGGAGGCAGACATTTTCTCCGGCAAATCGGTTTTGTTGGCGGAGGGATGGGAGGAAGCCCTTTCGTTTGAGACGGAAACATTTAAAATGCGTGATATTGAAGAACCGGCTTCAGAAGTGCTTGAACGGGGGCCGAGGATAGGTTTTGTCGAAAAGCTCCGAACGAACACGGCGCTGTTGCGCGAGCAGTCCGGTGATCCCAACCTCCAGATCAAAGAGATCACACTCGGCGAACGGACAAAAAAGCGGATCGCCGTTGCCTACATTCGGGATATCGCGCCTGATGATGTTGTAAAAGAAGTGATGAAAAGACTGGATTCGATCACCATTGATGACATTCCGGAATCAGGAGCAATCGAACAGCTTATTGAAGATAACACGTATTCCATTTTCCCGACCGTCTTGACGACCGAACGGCCAGACCGGGTTATGGGCGCTCTTTTGGAAGGAAGGGTTTCCATTCTTGTAGACGGAACGCCTTTTACCCTTTTGGTGCCGGCTACCATTGATGAATTTATCCACTCACCTGACGATTATAATCAGCGGTGGGTTCCGGTTACCTTTCTCAGGCTGCTTCGGTATACATGCATTTTAATCACGATTTATTTACCCGGCCTTTACATATCGCTCGTTACGTTTCACACGGGGCTTTTGCCGACGAGAATGGCGGTTACGATTGCCGGGAGCAGATTGAATGTCCCGTTCCCTCCTTTTGTTGAAGCGTTCATCATGATTTTTACGATTGAGATGATCAGAGAAGCCGGACTCAGGCTGCCGAAGCCGATCGGACAGACGATCGGCCTGATCGGGGGCGTGGTGATCGGGCAGGCCGCTGTTCAGGCGAATATTGTCAGCGCGATGATGGTCATTGTCGTATCCGTTACGGCATTGGCTTCTTTTACGGCGCCCTCCTATGCGTTCAATTTTCCGCTGAGGCTCATCCGTATTTTTTCGATGATTTTGTCGGCGATATTAGGTTTATACGGACTGATCATGTGTTATCTGCTTGTCGTCGGCCATCTGATGCGTCTGAAAAGCTTCGGTCAGGACTATCTTATTCCGATCATGGCGCAGCCTGGCCAAGACTTAAAAGATACGATCGTCAGACTGCCGACGCCTCTTTTGAAAAAACGGCCGACCAGAAAAGAGACGAAAGATAAAATCAAGCAAAGGTGA	MTIHAELGKNLEALKKRFGQSDDMMFYSFTYGNGKCDACLIYIDGLTDNQLLAEYIISPVQAAARHQEEPAETTPSSISFGYRHTRLSSLKDAEADIFSGKSVLLAEGWEEALSFETETFKMRDIEEPASEVLERGPRIGFVEKLRTNTALLREQSGDPNLQIKEITLGERTKKRIAVAYIRDIAPDDVVKEVMKRLDSITIDDIPESGAIEQLIEDNTYSIFPTVLTTERPDRVMGALLEGRVSILVDGTPFTLLVPATIDEFIHSPDDYNQRWVPVTFLRLLRYTCILITIYLPGLYISLVTFHTGLLPTRMAVTIAGSRLNVPFPPFVEAFIMIFTIEMIREAGLRLPKPIGQTIGLIGGVVIGQAAVQANIVSAMMVIVVSVTALASFTAPSYAFNFPLRLIRIFSMILSAILGLYGLIMCYLLVVGHLMRLKSFGQDYLIPIMAQPGQDLKDTIVRLPTPLLKKRPTRKETKDKIKQR	PGPT0025025_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025025-gerBA-K06291	NA	NA
D1-12_02571	951	yvyI	COG1482	Putative mannose-6-phosphate isomerase YvyI	ATGACGCAAGAGCCGATTTTTTTACAGCCTGTATGTAAAGAAAAAATATGGGGCGGCACGTTATTACGCGAACGATTCGGATACGACATACCTTCAGAAACAACCGGCGAATGCTGGGCGATATCAGCCCATCCGCACGGAATGAGCACGGTCAAAAGCGGTCCGTATCAAGGGAAAACCTTGATGGAACTGTGGGATCAGCATAGAGAATTATTCGGCGGAACGGAAGGGGACCGGTTTCCGCTGCTGACGAAAATACTGGACGTCAAACACCATCAGTCTGTTAAAGTCCATCCTGACGATTATGACGCCGAGGAGCATGGACAGGGTGAAATGGGGAAGTCTGAGTGCTGGTACATTATTGACTGTAAAGAAAACGCGGAAATCATATACGGTCACACGGCCCGTTCGAAAGCGGAACTTGTCACCATGATTAACAGCGGTGACTGGGAAGGCCTGCTGCGCCGCGTGAAGATCAAACCCGGCGATTTTTATTATGTGCCGAGCGGAACCATCCATGCCATTTGCGCGGGGGCGCTCGTGCTTGAAACACAGCAGAATTCAGAGGCCGCCTACCGGATATATGATTACGGGCGTACAGATCAGAACGGCGGGACGCGTGATCTGCATATCCGCGATGCCGTCAACGCCGCGACCGTTCCTCATGTGGACGGATTTTTAGATGAATCAACTGAAACGAGAAAAGGCGTCACCATCAAAACCTTTGTGCAGGGAGAATATTTTTCTGTATACAAATGGGATATCAGCGGGACGGCGGAAATGACCCAGGACGCTCCGTTTATGCTGTGCAGCGTCACAGAAGGAAGCGGCTCCATCATCTGTGGAGGCAAGTCCGCCGAGCTTAAAAAAGGCGCGCATTTCATACTGCCGGATCAGATGCCTGACTTTACGATAAACGGAGATTGCACGCTCATCGTTTCTCATATATAA	MTQEPIFLQPVCKEKIWGGTLLRERFGYDIPSETTGECWAISAHPHGMSTVKSGPYQGKTLMELWDQHRELFGGTEGDRFPLLTKILDVKHHQSVKVHPDDYDAEEHGQGEMGKSECWYIIDCKENAEIIYGHTARSKAELVTMINSGDWEGLLRRVKIKPGDFYYVPSGTIHAICAGALVLETQQNSEAAYRIYDYGRTDQNGGTRDLHIRDAVNAATVPHVDGFLDESTETRKGVTIKTFVQGEYFSVYKWDISGTAEMTQDAPFMLCSVTEGSGSIICGGKSAELKKGAHFILPDQMPDFTINGDCTLIVSHI	PGPT0017860_2924	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
D1-12_02572	2640	lytD	COG4193	Beta-N-acetylglucosaminidase	ATGAAAAAAAGTTTGGCTGCCGCAATGTTATTGTCAGCGGTTACTCTTGAATTTTTCACGATAACAGACTCAGTAAAGGCAGCTTATATTGACAATTCCATTTATCAGTTAGAAACAACACAAAAGTTTGCTTCTGAAAGTGAGGCTTCTCAGGCAGTTACAAAATTGAAAAAAGATACCGGATGGAAAGCAGACTATCAAAAGAGCGGAACGTCTAAGAACTATCAAATATCTGCTTCAGGTCTGACAAGCGAAACGAATGCTAAAAGCGTACTAAGCGATTTTACGAAGCAGACAGGCATTAAAGGAACATCAAGTCCGACGGGCAGTAAGCAGCCCTATTATACTGCAGTTTCCGGAACTATTTCAGGTGAACAGCAGGCTAATAACTTGCTTGATAAAATGAAAAAGGAAACAGGATTAACCGGTACTGTTAAACCGAATGGTGTGAAGCAGCCTTATATAAGCATTGTTACATCTGAGCTGACAAGTGAGGCCGGTGCAAAGTCTGCTATTCAAGAGTTAAAGAAGCAGACTGGAGTCAATGCTAATTATCAAAAACTTGAACAGGAACCGGAGATCATTCAAATTCAATCCGGAAAAATTCAAGGAGAGAAAACAGCATCCCAAGTGAAAAGCAGTTTTCAAAAAGATTCTGGGCTGAATGCCACGTTAAACATGACTGATAAAGGCCAGTCTTACTACATTGTTACAACGAATTCTTTGATCAATAAAGCAGATGAGGCGAAAAGTCTTATCAAACAGCTTGAACAAAGCACAGGCGTCAAAAGCAGTTACAAAACCATCAATAATAAAAAAACTATCACATCGTATAATATAGAAACGGGTTATTTTAACGGGCTGAGCATGGTTAAAAATTCGATCAGCCAAATAATAAATAACACAGGAGTTAAAGGGTCCTACCAAAAAGTTGGTGCTACAAGTAATTATGTTGTGAAAATGAAGGATGTCAGCCCGGAAAAACTAAAAAGTCTTCAAGCTTTTTTTAAGAAGAAAAGATGGCATATGACTTATACAGCTGTAAAGAAAACTTCAACCCAAACAACTTATCAAGTGATAACAAATGCTGTAACAAACGCACAGGCGGATAAAGCAGTAAATTTTCTTAGCAGAAAAAAATTAAAATCATCAAAATCAAATTCAGGAAAAACAGCTGCTAATCAATATCAACTGTTATCACAACAGACTGCTGACAAAACAAAAGTAACAAAAGGTTTAAACTCTTTAAAGAAAATCGGTATTAATGCAACTGCCAAATCTATAAAACAACCAAAAGGAATAACTTATAAAATTAAGACAGAAGCCTTGCTGGACACAGCTAAGATTAATCAAGTCAAATCTTTCTTCAAGACAAAAAAATTAACGGCAGTAAGTGAAAAAACCGGTAAATCCGCTTATACGCAATATCAAGTCACTGTTAGTGACTTATTAAATCAAAAAGATATAGATCGTGTGTTAACTTTTTTTAAAACAAATAATGCGAAAGGCAATGCCAAACAAAATGGCAAAAGCACATACACGCAATATAAATTAGTTACAGATCAAATCAGCACATCGTCGGCTTTAAACAAAGGACTGAGTTTCTTTAAGGCAAAGAACTTATCAGCAAGCTACACTACTAAAAACAATCCAATATACAGTATAGTGATTACTGAACAATTTACAGGAAAAAGCAATGCTGATAAGGCTGCAAGCAAAGTGAAGCAGCTTTATGGGTGGGCAGTTTCAAGTGTTGAGGTGAAAAGCGGTCCTCAAATAATGGAAACAAATTATAATATTACGATGAGTGAAATGGTCGCGAAGCAGTTAAAAGCGAACCCGCAGACGGATTCAAGTGCCTACGTATCTCTATCTTATATTAATAGTGCAAATTCTACCGTAACCGCAGATTTTCTTAATGTCAGGTCTACTCCAGAGGTAAAGAGCAATAATATTATAGGAACAGTGACAAAAGGTTATAAGGTTAATATCATTAGTGTAGAGAATAACTGGGCAAAAATTAAAATGGGTTGGCGGAAAGCAAGCGAGGAAGAAGTTTCCTACTATGTAAACCCCGCAAACTTTTCTGTGTCAGATAAAAGTTATTTTCAGTTTTTGAAGTTATCGAAATATGCAGGACTGACAGCATCAGAAGTCAATACAAAGATTTTAAAAGGGAAAGGAATTCTTGAAGGAAAAGGTGAAGCTTTTATTAAGGCAGCTGAATCTAACAGTATTAATGAGCTCTACCTGATTTCTCACGCTTTATTAGAGACCGGAAACGGTACCTCAGAGCTGGCAAACGGTGTGACCTATAATGGGAAAAAGGTATATAACATGTATGGCATAGGTGCATATGACGGAGACGCTGTGAACAAGGGTGCCCAATATGCATATAACCAAGGATGGTTCAGTCCTGAAGCAGCGATTACTGGAGGGGCCAAATTTATCGGACAGAGTTATATACACAATGCCGTATACAACCAAGATACCTTGTATAAAATGAGATGGGAGCCTTCTGTAAGCCACCAATATGCATCTGATATTGGTTGGGCGTATAAGCAGGTAAATAGAATGTACAGTCTCTATAGTCTGTTAGATAACTATCAGCTTTACTATGATATTCCTGTCTATAAATAA	MKKSLAAAMLLSAVTLEFFTITDSVKAAYIDNSIYQLETTQKFASESEASQAVTKLKKDTGWKADYQKSGTSKNYQISASGLTSETNAKSVLSDFTKQTGIKGTSSPTGSKQPYYTAVSGTISGEQQANNLLDKMKKETGLTGTVKPNGVKQPYISIVTSELTSEAGAKSAIQELKKQTGVNANYQKLEQEPEIIQIQSGKIQGEKTASQVKSSFQKDSGLNATLNMTDKGQSYYIVTTNSLINKADEAKSLIKQLEQSTGVKSSYKTINNKKTITSYNIETGYFNGLSMVKNSISQIINNTGVKGSYQKVGATSNYVVKMKDVSPEKLKSLQAFFKKKRWHMTYTAVKKTSTQTTYQVITNAVTNAQADKAVNFLSRKKLKSSKSNSGKTAANQYQLLSQQTADKTKVTKGLNSLKKIGINATAKSIKQPKGITYKIKTEALLDTAKINQVKSFFKTKKLTAVSEKTGKSAYTQYQVTVSDLLNQKDIDRVLTFFKTNNAKGNAKQNGKSTYTQYKLVTDQISTSSALNKGLSFFKAKNLSASYTTKNNPIYSIVITEQFTGKSNADKAASKVKQLYGWAVSSVEVKSGPQIMETNYNITMSEMVAKQLKANPQTDSSAYVSLSYINSANSTVTADFLNVRSTPEVKSNNIIGTVTKGYKVNIISVENNWAKIKMGWRKASEEEVSYYVNPANFSVSDKSYFQFLKLSKYAGLTASEVNTKILKGKGILEGKGEAFIKAAESNSINELYLISHALLETGNGTSELANGVTYNGKKVYNMYGIGAYDGDAVNKGAQYAYNQGWFSPEAAITGGAKFIGQSYIHNAVYNQDTLYKMRWEPSVSHQYASDIGWAYKQVNRMYSLYSLLDNYQLYYDIPVYK	PGPT0018810_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSAMINIDASE,PGPT0018810-lytD|lytB-K23989	NA	NA
D1-12_02573	1170	tagB	COG1887	Teichoic acid glycerol-phosphate primase	ATGAACCTGCGATCTTTATTCGCCGCTTTTTATTCTATATATCTGTCTGTTCTCGGCGTTTTGTTCAAGCCTGTAAAGCCCAAGAACCATCTGACCCTGCTGGTATCTTTTGAAGAGAATGCGCAGGCTCTCATCCGTTCTTACAAAGCGCACGCTGAATCGCTTTCTTATGAAATGACGGTTTTGTATACGAGACACGCCGTCAGTCTGAAAAAAGAGCTGGAAGGTGTCGGCTCTTTTTATCTGAACGAAAAACATCCGCTGCATCTTTTGAAGGCTGTTTTGGTCCTTTTTAAAAGCAAAGTGGTGATAACGGATAACTATTTCCTCATGACAAGCGTCTTAAACCGCCGGCCGCAAACGACATGCATTCAGGTGTGGCATGCGAACGGCTCTTTGAAAAAGTTCGGCCTTGAGGATGTGACGAATCAAAATCGTCCGGCATCAGATATCAGCCGTTTTAAAAAAGTGTACCGCTCGTTTGACTTTGTTACCGTCGGTTCAGACGCCATGGCTGACGTTTTTAAAAAGTCGTTCGGCATACGGGACGGCCAGCTGTTAAAAACGGGTATCCCCCTGACTGACGTCTATTATGAAGAACACAAGCCGGAACTGAAGCACAAATGGCCGAAAAAAATCATCTTGTACGCACCGACATTCAGGGATTATGATATGCAATCCTTTCGGCTGCCATTCACCGAAGAACAGCTCACAAACGCGTTAAACGGAGAGTATATGCTGCTTGTAAAGCTTCATCCTGCCGTTTTGCATCATATTTCGGCTTCGTTTGAAAGCGAATTGATCAAGAACGTGTCTGACATGCGTCTTCATGATCTCTTGAAAGCGGCTGATATTTTAATTACGGATTACTCTTCCGTGCCTTTTGAATTCGCGCTCTTAAATAAACCGATTTTCTTTTTCACGTATGATCTGGAGGAATATGATCAAAAACGCGGTTTAATCGACAATTATACGTCCGTCATTCCCGGAAAGGCTTGTCATGACAGCGAAGCCCTTCTGGAGGAAATGACGAAAAAGCCATTTCGTGCAGAAGAAATGAAGCGGTTCTCGGACAAATGGAATATGTATTCAGATGGGAATTCGAGCAGCAAACTGCTCCAATTTGCAGAAGAACAAATAACATACAAAAACACCTGTTCACACAATTGA	MNLRSLFAAFYSIYLSVLGVLFKPVKPKNHLTLLVSFEENAQALIRSYKAHAESLSYEMTVLYTRHAVSLKKELEGVGSFYLNEKHPLHLLKAVLVLFKSKVVITDNYFLMTSVLNRRPQTTCIQVWHANGSLKKFGLEDVTNQNRPASDISRFKKVYRSFDFVTVGSDAMADVFKKSFGIRDGQLLKTGIPLTDVYYEEHKPELKHKWPKKIILYAPTFRDYDMQSFRLPFTEEQLTNALNGEYMLLVKLHPAVLHHISASFESELIKNVSDMRLHDLLKAADILITDYSSVPFEFALLNKPIFFFTYDLEEYDQKRGLIDNYTSVIPGKACHDSEALLEEMTKKPFRAEEMKRFSDKWNMYSDGNSSSKLLQFAEEQITYKNTCSHN	PGPT0023430_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023430-tagB|tarB-K21285	NA	NA
D1-12_02574	771	tagA	COG1922	N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGCAGACTGAAATGGTGCACAACCTTTCTTATGTTAATGGAAATTTACAGGAGTTTATTTCATATTTAGACACTTATTATATCGCACAAAAGCAAGGAGCCGTCATTGCGACGGTCAATCCTGAGATCGGATACGCTGCGGCGAAAGACAAAGGTTATCATCAAGTCATTTCATCCGCGGATTTCGTCCTGCCGGATGGTATCGGCGTCGTGTTAATGTCACGTTTGACGCAGCACCCGCTGAAATCAAGAATTGCGGGATTCGATGTGTTTCTTGCGCTGCTCGGCCTCGCAAACCGGCAGTCTAAAAAAATATTTTTATACGGAGCTAAACAAGACGTGCTTGACGCCGTTTTGAACCGGATCAGCAAAGAGTATCCGAATATTGAGGTTGTCGGAGCCAGCAACGGTTATGAAGCGGATAAACGCTTCGTCGCCAAACAGATTTCCCGGGCGAAACCCGATCTCGTGTTTGTCGCCTTAGGATATCCCCATCAGGAACAATTTATTTATGAATACAAACATCTTTTCCCTCAGGCTGTATCGATCGGTTTGGGCGGAAGCTTTGATGTGTTCAGCGGAACGGTGAAACGCGCCCCTGAATGGATGATCAAAACGAATCTGGAATGGCTGTACAGACTGGTGACGAATCCGTGGAGATGGAAAAGGATGCTGAACATTCCGAAGTATGCTTTTACCGTTTTGAGAAATAATAAATCAAATAAAAGCCTGTATTCCAAGCAGGCAGAAGATCAAACGAAACAGCTTTAA	MQTEMVHNLSYVNGNLQEFISYLDTYYIAQKQGAVIATVNPEIGYAAAKDKGYHQVISSADFVLPDGIGVVLMSRLTQHPLKSRIAGFDVFLALLGLANRQSKKIFLYGAKQDVLDAVLNRISKEYPNIEVVGASNGYEADKRFVAKQISRAKPDLVFVALGYPHQEQFIYEYKHLFPQAVSIGLGGSFDVFSGTVKRAPEWMIKTNLEWLYRLVTNPWRWKRMLNIPKYAFTVLRNNKSNKSLYSKQAEDQTKQL	PGPT0023455_842	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023455-tagA|tarA-K05946	NA	NA
D1-12_02575	390	tagD	COG0615	Glycerol-3-phosphate cytidylyltransferase	ATGAAGAAGGTCATTACTTACGGTACGTTTGATTTACTGCATTGGGGTCATATTAAACTGCTTGAGCGCGCAAAGCAGCTTGGGGATTACCTTGTTGTCGCCATCTCAACAGACGAGTTCAACCTGCAAAAACAAAAAAAGGCCTACCACAGCTATGAACACAGAAAGCTGATTCTGGAAACGATCCGTTATGTCGACGAAGTCATTCCGGAAAACAGCTGGGATCAAAAAGTACGTGACGTAGCGGATCACAACATCGATGTGTTCGTAATGGGAGACGATTGGGAAGGCAAATTCGATTTCCTTAAAGATCAATGCGAAGTCATCTACCTCCCTAGAACCGAAGGCATTTCCACCACACAGATTAAAAAAGAAATTGCCGGGGTGTAA	MKKVITYGTFDLLHWGHIKLLERAKQLGDYLVVAISTDEFNLQKQKKAYHSYEHRKLILETIRYVDEVIPENSWDQKVRDVADHNIDVFVMGDDWEGKFDFLKDQCEVIYLPRTEGISTTQIKKEIAGV	PGPT0024325_655	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE,PGPT0024325-tagD-K00980	NA	NA
D1-12_02576	2019	tagE	COG0438	Poly(glycerol-phosphate) alpha-glucosyltransferase	TTGTCCAATCAGCCTATTAACGATAATAATGAGCTTCCCGATATGATGTATTATTTTATCTCAGGAGGCCTCCCGGATGATTACGGAGGTCTGACCAAATCACTATTATTGCGTTCTAAACTATTCGGAGAAGAGAGTCAAAAGAATACCGCCTTTCTTACTTTTAAATTTGATTTGGAATTTCGGAGAAAAAAAAACGAACTCTTTGAAAGAAAGAAAACCGACCCTCAATATACACAAGTTATCAACATGTATGATGACTTTTTAAGTAAAAGAACAAAAGGCAAGCGGATTTATTCGGAGAAAATTGAGCTGAATCAAATAAAAAAACATGTCAGCAAGGGGAAAGTAAGCAAAACTATCTCAAAAATGTTCGGAAAATCATCAAACGATTATAATCTTTCCTATTATTCAGGCAGTGATGACGTGCGTTACGTAGATTACCTGAATGATGAAAAACAAGTAATCAAAAGGGAAGAATACAATAAAGAAGGAAAACCCGTCATTGTCTCTCATTTTGATACAAAGACGAATCAAATCTTCCTTCAGGAGTTTATCAACAGCGAAAATGTCGTTTATCTGGAAAAGCACTTCATGTGGGATGACCAAAATGAAGCAGTCAAATTCACACATTTTACTTGGTACTCAGAAGAAAACCCTTTAACATTTAAAGATGAATTTGAGTTGCGCAGGCATTGGATTGATATTCTCCAAAAAGAAAACGATCGGCCTAAACTATTTCTGGTCGACAGCAGACTACAGGATAAACATGTCTTCAGAGTGAAAAAAGCGCCGTCATCTTATTATGCTGCGATTATTCACAATAAACATTATGGTGATAATAAGTTCCAGATCAAAGGACGCTATAAAGAACTTTTCGGCCAAATAAATAACCTTGATGCCGTATTTTTTATCACTGAGGAGCAGATTGCAGATTTCAGTTTGATTTCAGGGGAAAAAGAGACATTCTTTTTTACACCGCATACGATTAATAAACCGCTCGATGAAGAGGTTTTGAAAGTTCCGAGCGAACGAAATAAAGCGGTTATTATCTCTCGGATTGTACCAATGAAAAACCTGACGCATGCCGTTAAAGCGTTCAAACTTGTTGTAAATGAAATCCCGGATGCGAAACTGGAAATATTCGGTTCTGGAGGAGAAAGAGAGAAAATCAAAAAGGAAATAAAAGCTCAAAACCTCAAGAATAATGTATTGCTGAAAGGCTACACGAACAACCCTGATTACGAGTTTCAAAAAGCGTGGCTGACAATTTCAACTTCTCACTTTGAAGGCTTCGGTCTGTCCAATATGGAAGCATTGAGCAATGGATGCCCGGTCGTAACTTACGATTACGATTACGGTGCCAGAAGCTTGGTAGAAGATGGAGTAAACGGCTATGTAATTGAACAATATAATATAGAAAAGCTGGCTGAGGCCATTATCTCTTTAATGAGAGATGACAGCACTCACAAACAATTTTCACGTCTAGCCTTTAAAATGGCGGAGAAATACTCTAAACCAAACTATATTAAAAATTGGTCATATGCTCTTTTCAAAATGGTTGAAGTGAGAAAAGAAAAGGAACGGCTTGCTGAAAAAGTCGGTTCTAAAGAACACCCGATCACATCTTTTGAAAAAAATGCCAACGGATTAGCGATCAGCGTTTCAGTGTCTGACCAGAATGATGCATTTGAAAAAGTCCGAATGGTTGGGATTGATCGGAAAAACAAATCTGAAATCATATCCGTATCCGCTGATCAACCGGCTCAGCCATTTTATATAGATCTTGAAAAGGACATCCAAAAAGAAAAAATTGACGCAAATCATACTTCGGTTCTTGACTTTTACATTCAATATATAACAGCTGACCATATCCGTATTCTAAGAAGGGTATCCAGCCGTGAAGTCAATTTCGGCGAAAAAGATCGGTTTATGAATAACGGATATACTTTCGAACCTTATACGACTGTGAAAGGGAATTTCTCTATTAAATTAAACAAAAAGGATCACATCGATTAA	MSNQPINDNNELPDMMYYFISGGLPDDYGGLTKSLLLRSKLFGEESQKNTAFLTFKFDLEFRRKKNELFERKKTDPQYTQVINMYDDFLSKRTKGKRIYSEKIELNQIKKHVSKGKVSKTISKMFGKSSNDYNLSYYSGSDDVRYVDYLNDEKQVIKREEYNKEGKPVIVSHFDTKTNQIFLQEFINSENVVYLEKHFMWDDQNEAVKFTHFTWYSEENPLTFKDEFELRRHWIDILQKENDRPKLFLVDSRLQDKHVFRVKKAPSSYYAAIIHNKHYGDNKFQIKGRYKELFGQINNLDAVFFITEEQIADFSLISGEKETFFFTPHTINKPLDEEVLKVPSERNKAVIISRIVPMKNLTHAVKAFKLVVNEIPDAKLEIFGSGGEREKIKKEIKAQNLKNNVLLKGYTNNPDYEFQKAWLTISTSHFEGFGLSNMEALSNGCPVVTYDYDYGARSLVEDGVNGYVIEQYNIEKLAEAIISLMRDDSTHKQFSRLAFKMAEKYSKPNYIKNWSYALFKMVEVRKEKERLAEKVGSKEHPITSFEKNANGLAISVSVSDQNDAFEKVRMVGIDRKNKSEIISVSADQPAQPFYIDLEKDIQKEKIDANHTSVLDFYIQYITADHIRILRRVSSREVNFGEKDRFMNNGYTFEPYTTVKGNFSIKLNKKDHID	PGPT0026690_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0026690-tagE-K00712	NA	NA
D1-12_02577	2163	tagF	COG1887	Teichoic acid poly(glycerol phosphate) polymerase	ATGGATGAAAATACCGTGAGCAAATGTATTTTGAAAAGCTTAAAAAATAATGTGGGAGACCTGGCACTCTCTATTTCACTTGAAAGCGAAGAACCGTTAGCTGAGGAAGTGAAATGTTATTTAAAATTAAAAGAACGGCGTTCCGGAGCCGAGGATGTTGTTATTTTAGAGAAAGAGAGCCCGGCTCAATACAGTGCATCAATTAATATTCACTCGTTTCCTGAACCTTTAGAAATGGGACAGACTTATGATTTTTATGTGGTACTGGGGGAACCGGCAGCGGAAGAAGAACAGCCGAAGCAGGTGCGTTTAACCGTGGAAGCTGAAGCGATTGAGCGTGCCTACCACCTTGATCATACGACTGAGCTGTTAATTTTACCTTATACAACCGATAAGGGCAATTTCTCTTTAAAGGTAAAAAGAGAAGCGAAAATTGTGAAGTTTGATGAGATTCAGCTGAAGGCAGAAGAGATTATGATTTCAGGGTATGCAGGATATCTAAGTTCGGAGAATCAGCTTTCAGTTAAAAACCTGCAATTTGTCATTAAAAAAGGGGGAGAAGATCCCGTAGAGAAACATTTCCCTATTAAAATGACGAAAAAAACGGAGAATATTGAACAGCTTCGGGAAGATGCATTCACCCCTGAAATTTTTGATTTCCAAATAAAAATTCCATTAAAAGATATTCCTTATTCTCTGGAAAAACGATTTGTCTACCGTATGTTTATGGAGTTTCATTGTGAAAACGACGAAGCTGAACCTATTGTTCTCAGCAGCACTCCGCTTGTGCTCGGAGACAGAAAAAATAAACTGAAAGGCCTCATAAGCGTTGTGAATAAAGACAGCGGACCGGTCAGGTATGAGGTATATAAAAAGAAGAAAAAGCAGACTGTCTGTATCCGTGTGAACGACTACAGCCTGAAAACAAGGATGAGATACTTCATAAAAGGGAAGAAAAAACGTTTCATTTCCAAAATGAAAAAACTGAAAAAACGCAGAAATTCCCTTATTACGAAAGGTTATAAAGTTGTTTTCAGAATGGCGAGCAAAATGCCTGTTAAAAGCAAGACCATTATTTTTGAAAGCTTTAACGGCAAACAATACAGCTGTAATCCGAGAGCCATTTATGAATACATGCAAATCAATCATCCTGAATATAAAATGTATTGGAGCGTAAATAAACAGTATGCAGCGCCTTTTAAAGAGAAGGGCATTCAATACATTAACAGGCTTTCTATCAAGTGGCTGTTTGCTATGGCGCGGGCAGAATATTGGGTCGTCAACAGCCGTCTGCCTTTATGGATTCCAAAGCCGGAACATACAACCTATCTTCAAACATGGCACGGCACGCCTTTAAAAAGACTTGCAATGGATATGGAAGAAGTTCATATGCCGGGTACTAATACGAAAAAATATAAAAAGAATTTTATTAAAGAGGCATCCAATTGGGATTATTTAATTTCTCCTAATGCCTACTCGTCTGAGATATTTGCGCGCGCCTTCCAATTCGATAAAACTATGATTGAATCAGGTTATCCGAGAAATGATTTTCTTCATAATGATAATAATAATGAGACAATCACAGCGATAAAAAGAAGGTTAAACCTGCCTGAGGATAAGAAAATCATTCTTTATGCGCCGACATGGAGAGATGACCAGTTTTATGCTAAAGGCCGTTATAAATTTGACCTTGATTTAGACCTGCATAAATTAAGGGAAGAGCTCGGAGATGAATATCTCGTTATTCTGAGAATGCATTATCTTGTGGCCGAAAATTTTGACCTCGGTCCGTTTGAAGGGTTTGCTTACGACTTTTCTGCACACGAAGATATTCGGGAATTGTATATGATTTCAGATCTGTTAATTACCGATTACTCTTCTGTATTTTTCGATTTTGCAAATCTGAAACGCCCGATGCTGTTTTTTGTTCCCGATATTGAAACATACCGGGATAAACTCAGAGGGTTTTATTTCGATTTTGAGAAAGATGCTCCTGGTCCGTTAGTGAAAACGACAGAGGAAACGATCGAGGCAATCAAACATATTTCATCACCGGATTATCAGCACCCGGTTTCATTCAAACCTTTTTATGACAAATTCTGTTATCTTGAGTCAGGACATTCTTCTGAGAAAGTCGTGAAAATTGTGTTTGAATCTGAATAA	MDENTVSKCILKSLKNNVGDLALSISLESEEPLAEEVKCYLKLKERRSGAEDVVILEKESPAQYSASINIHSFPEPLEMGQTYDFYVVLGEPAAEEEQPKQVRLTVEAEAIERAYHLDHTTELLILPYTTDKGNFSLKVKREAKIVKFDEIQLKAEEIMISGYAGYLSSENQLSVKNLQFVIKKGGEDPVEKHFPIKMTKKTENIEQLREDAFTPEIFDFQIKIPLKDIPYSLEKRFVYRMFMEFHCENDEAEPIVLSSTPLVLGDRKNKLKGLISVVNKDSGPVRYEVYKKKKKQTVCIRVNDYSLKTRMRYFIKGKKKRFISKMKKLKKRRNSLITKGYKVVFRMASKMPVKSKTIIFESFNGKQYSCNPRAIYEYMQINHPEYKMYWSVNKQYAAPFKEKGIQYINRLSIKWLFAMARAEYWVVNSRLPLWIPKPEHTTYLQTWHGTPLKRLAMDMEEVHMPGTNTKKYKKNFIKEASNWDYLISPNAYSSEIFARAFQFDKTMIESGYPRNDFLHNDNNNETITAIKRRLNLPEDKKIILYAPTWRDDQFYAKGRYKFDLDLDLHKLREELGDEYLVILRMHYLVAENFDLGPFEGFAYDFSAHEDIRELYMISDLLITDYSSVFFDFANLKRPMLFFVPDIETYRDKLRGFYFDFEKDAPGPLVKTTEETIEAIKHISSPDYQHPVSFKPFYDKFCYLESGHSSEKVVKIVFESE	PGPT0023450_590	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023450-tagF-K09809	NA	NA
D1-12_02578	885			hypothetical protein	ATGGACAATCTTCTCCGTCCAATTTACCAAGAAAGAGCAAGTCATCCCGATACGCTGGCCGTCCTTATGATTGAGAGAAGGAGTAAAGCATCATCCATCACGGATAACTTTGATGCGGTCATGCTTGTCATTGTCAAACAGGCTGATGAACCTCTTTTTATAAAGCATTATGAATTCGAACAAAAAACCGCTTCTTTACATATTGTAACGGATGCTCTGCTTCAGGAATGGATTCTGCTTGGGACAAATAGAAGAGTCATAGATTGGATCATCAACGGCAAAGTGCTGTTTGACCGCAATGAATATATATCTGAACTCAATGACCGGCTCAGCACTTTTCCTTTCGCCGAGCGGAAATTAAAGATCGGAATGGAATACGGCAAGCTGATCAGAAGATTTGTAGAAGGAAAAGCGTTTTTTGAAGCTGATCATTTTCTGGATGCATATTATGCGGTAGTGCATGCTCTTCACCACTTGGCCCGCATAGAAGTGATTGACCGGGGGTTTTATCCCGAAACGACAGTCTGGAACCAGGTCCGTCACATTGAGCCGCAGGTATATAAGCTATATTCCGAACTTGTCGAGAGTCACGAAAGTTTGGAGAAAAGGCTCGAATTATTATTCTTAGCAAATGATTTTCTCATCCATTCAAAAGCTGAAATCGGTTCTGCGCACCTTTTTCAAGTGATGAAAGAAAAAGAAATGTGGCAGTTTGGAGAATTGCTTCAGCACCCTGAACTGCTGCACTTCACCCAAGATCTTGGTGTCATGCTTGATTACCTGACGGAAAAAGGCTTTGTTGAAGTATCTCAAATAGAGACCAAAGGGCAGGAAGTATATCATCGAGGATATTCTTTCAAAAAAAGTGTTGACGCTGAATCATAG	MDNLLRPIYQERASHPDTLAVLMIERRSKASSITDNFDAVMLVIVKQADEPLFIKHYEFEQKTASLHIVTDALLQEWILLGTNRRVIDWIINGKVLFDRNEYISELNDRLSTFPFAERKLKIGMEYGKLIRRFVEGKAFFEADHFLDAYYAVVHALHHLARIEVIDRGFYPETTVWNQVRHIEPQVYKLYSELVESHESLEKRLELLFLANDFLIHSKAEIGSAHLFQVMKEKEMWQFGELLQHPELLHFTQDLGVMLDYLTEKGFVEVSQIETKGQEVYHRGYSFKKSVDAES				NA	NA	NA	NA	NA
D1-12_02579	354			hypothetical protein	ATGGCGAAATACTCAAGCAAAATTAATAAGATCAGAACGTTTGCGTTAAGTTTGGTTTTCGTTGGGTTTATCATTATGTACATCGGGCTGTTCTTTAAGCAGTCTGTTTTGCTTGCCAGCTTGTTTATGGTTCTCGGCCTGCTGTCGATCGGGCTCAGCACCGCCGTTTATTTTTGGATCGGCATGCTGTCCACAAAAGCGGTCCGGGTGATGTGCCCCGCTTGCGAGAAAGAAACGAAGATTCTGGGCAGAGTGGATATGTGCATGCATTGCAGAGAGCCGCTTACATTGGATAAAGGATTGGAAGGCAAAGCGTTCGATGAGTCTTATAACAGAAAAAACAGTGTAAAATAA	MAKYSSKINKIRTFALSLVFVGFIIMYIGLFFKQSVLLASLFMVLGLLSIGLSTAVYFWIGMLSTKAVRVMCPACEKETKILGRVDMCMHCREPLTLDKGLEGKAFDESYNRKNSVK				NA	NA	NA	NA	NA
D1-12_02580	438	perR	COG0735	Peroxide operon regulator	ATGGCTGCACATGAATTAAAAGAAGCCTTAGACACGTTGAAGGATACGGGAGTCCGGATTACTCCTCAACGTCATGCCATTCTGGAATATCTCGTGGATTCTATGGCACATCCGACAGCGGACGATATATATAAAGCCTTGGAAGGGAAATTCCCTAATATGAGTGTTGCGACAGTGTATAACAATTTGCGTGTATTCCGGGAAGCGGGGCTTGTAAAGGAACTGACGTACGGAGATGCGTCCAGCAGATTTGACTTTGTCACCTCTGACCATTATCACGCCATTTGTGAAAGCTGCGGAAAAATCGTAGACTTCCATTATCCCGGGCTTGACGAAGTGGAACAGCTTGCGGCTCACGTCACGGGGTTTAAGGTAAGCCACCACCGTTTGGAGATTTACGGCGTCTGCCAAGAATGTTCCAAAAAAGAAAACCACTAA	MAAHELKEALDTLKDTGVRITPQRHAILEYLVDSMAHPTADDIYKALEGKFPNMSVATVYNNLRVFREAGLVKELTYGDASSRFDFVTSDHYHAICESCGKIVDFHYPGLDEVEQLAAHVTGFKVSHHRLEIYGVCQECSKKENH	PGPT0012945_507	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012945-perR-K09825	NA	NA
D1-12_02581	474	bcp	COG1225	Putative peroxiredoxin bcp	ATGACGATTGAAATCGGACAAACAGCACCGGATATGAAATTAGTGAATGACAGCGGGGAAGAAGTAGCATTGACGGATTTTAAAGGGAAGTACGTCGTTCTCTATTTTTATCCGAAAGACATGACACCCGGATGCACAACGGAAGCATGTGATTTCCGTGATCAGCACGAAAGTTTCGCGGGACTTGATGCGGTTATCATCGGAGTAAGCCCTGACAGCCGTGATAAACATGAAAAATTTAAGCAAAAACACGATCTTCCTTTCCAGCTCCTCGTTGACGATGAGCACAAACTGGCGGAAGCTTTTGATGTGTGGAAGCTGAAGAAGAATTTTGGGAAAGAATATATGGGTATCGAGCGATCCACTTTTTTGTTAGACAAAGAAGGCCGTCTTGTGAAGGAGTGGAGAAAGGTAAAAGTGAAAGATCACGTTGCCGAGGCGCTTCGCGAATTGGAACAAATTGCGTCTAATTAA	MTIEIGQTAPDMKLVNDSGEEVALTDFKGKYVVLYFYPKDMTPGCTTEACDFRDQHESFAGLDAVIIGVSPDSRDKHEKFKQKHDLPFQLLVDDEHKLAEAFDVWKLKKNFGKEYMGIERSTFLLDKEGRLVKEWRKVKVKDHVAEALRELEQIASN	PGPT0013120_2442	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
D1-12_02582	1290	hemL1	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase 1	TTGTATACAAAATCAGTTGAACTTCATAAGGAAGCGTTAGAGCATATCGTCGGAGGCGTGAACAGCCCGTCCAGATCCTATAAAGCGGTAGGCGGCGGTTCACCCGTTGCGATGGAAAAAGCGAACGGCGCTTATTTCTGGGATGTAGACGGGAATCAGTATATTGATTATTTAGCGGCTTACGGCCCGATTATTACCGGACATGCCCACCCGCATATTACTCAAGCAATTAAAACAGCGGCTGAAAACGGTGTGCTGTACGGGACGCCGACCAAACATGAGGTCACTTTCGCCAAAATGCTGAAGGAGGCCATTCCTTCACTTGATAAAGTACGATTCGTAAACTCAGGCACTGAAGCGGTAATGACAACGATCCGGGTTGCACGCGCTTATACAGGCCGGACAAAAATCATTAAATTCGCAGGCTGCTATCACGGCCATTCTGATCTCGTACTTGTCGCTGCGGGTTCCGGTCCGTCTACGCTCGGCACCCCTGATTCCGCCGGCGTGCCGAAAAGCATCGCCAATGAGGTGATTACCGTTCCTTTCAATGACATTGAAAGCTACAAAGCCGCGCTGGATAAATGGGGTTCAGAAATTGCAGCGGTTCTCGTCGAGCCGATCGTCGGCAACTTCGGCATCGTTGAACCTGAAAAAGGATTTTTAGAACAGGTAAATGAATTGACCCATAAAGCGGGCGCGCTCGTCATTTATGATGAAGTGATCACGGCGTTCCGTTTTATGTACGGAGGCGCGCAGGATCTTCTTCAAGTGAAGCCTGATTTAACGGCGCTCGGTAAAATTATCGGGGGCGGCTTGCCGATCGGCGCTTACGGAGGCAAAAAAGAGATCATGGAGCAGGTTGCTCCGCTCGGCCCGGCATATCAAGCCGGCACGATGGCCGGAAACCCGGCATCTATCCTATCAGGCATCGCCTGCCTGGAAGTGCTGAAGGAAGAAGGCGTTTACGAGCGGCTTGATGAGCTCGGCGCCAGACTTGAGCAGGGCATTCTCGCCCATGCGGAGACACATGGCATTACCATCACCGTCAACCGTTTAAAAGGCGCGCTCACGGTTTACTTCACTGATGAAAAGATCGTCAATTACGAGCAGGCGGAAAATACAGACGGAGAAGCATTCGCCAAGTTCTTCAAGCTGATGCTTGAGCGCGGCATCAATCTTGCTCCATCGAAGTATGAAGCTTGGTTTATCACAACCGCACATACTGAAGAGGATATCGACGCCACTTTACAAGCCGTTGAAGATGCGTTCAGACATATGAAAAAATAA	MYTKSVELHKEALEHIVGGVNSPSRSYKAVGGGSPVAMEKANGAYFWDVDGNQYIDYLAAYGPIITGHAHPHITQAIKTAAENGVLYGTPTKHEVTFAKMLKEAIPSLDKVRFVNSGTEAVMTTIRVARAYTGRTKIIKFAGCYHGHSDLVLVAAGSGPSTLGTPDSAGVPKSIANEVITVPFNDIESYKAALDKWGSEIAAVLVEPIVGNFGIVEPEKGFLEQVNELTHKAGALVIYDEVITAFRFMYGGAQDLLQVKPDLTALGKIIGGGLPIGAYGGKKEIMEQVAPLGPAYQAGTMAGNPASILSGIACLEVLKEEGVYERLDELGARLEQGILAHAETHGITITVNRLKGALTVYFTDEKIVNYEQAENTDGEAFAKFFKLMLERGINLAPSKYEAWFITTAHTEEDIDATLQAVEDAFRHMKK	PGPT0003680_3371	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
D1-12_02583	1065			hypothetical protein	ATGAAACTTGGTGCCCGCATTTTTAAAACAGGGATTGCGATTACGCTCGCGCTCTACTTAGCATCATGGATCGGACTTCCGTCGCCGATCTTTGCCGGGATTGCAGCTATATTTGCCATACAGCCCTCTATTTACAGGTCTTTTCTTATCATTATTGATCAGGTTCAGGCAAATATCATCGGCGCTGTCATCGCTACGGTATTCGGACTGATTTTCGGACCGAGTCCGATTATGATCGGATTGACCGCAGTGATTGTCATCACGATCATGTTAAAACTGAAAATTGAACACACCATTTCGATTGCGCTCGTGACGGTTATCGCGATTTTAGAAACACCGGGAAACAGCTTCCTGACGTTCGCTCTGATACGAACAAGCACCGTTATTTTAGGCGTGCTGTCTTCTTTTATTGTGAACCTTGTGTTTCTTCCGCCGAAATACGAAACGAAGCTGACTCATCATACGGTTGAATATACCGATGAGATCATGAAATGGATCAGGCTGACGATGCGCCAGTCCACGGAACACTCGATATTGAAAGAGGATATTGAGAAGCTGAAGGAAAAGATGATGAAGCTTGATCATACGTACCTTCTTTATAAAGAGGAGAGAAGCTACTTTAAGAAAACGACGTATGTAAAGTCGCGCAAGCTTGTTTTATTCAGACAGGCGATTATCACGGCAAATCGGGCGCTTGATACGCTGAAAAAGCTGCACCGCTATGAAAACGAAATTTATCATATGCCGGAGGAATTTCAGGAGACGCTGACAGAAGAAATTGATTATCTGCTTCATTGGCACGAAAGGATTCTGATGCGGACGGTCGGCAAGATCAAACCGCATGATGACGATGCTGAAGAAAGCATAAGATATAAACAGCTTTTGACGAAGTCTTTCTTGAAAAATCAGCAGAACTGCGAGGATGAACTGCTTGATTACAATATGCTCAGCATTATGGCTGCGGTTGCGGAATACCGCGAGCAGCTGGAGCATCTCGATACATTAATTACGAGTTTTCAGACATACCACCCGAAAGACAGCGAATTAGAAACAGACGAAGAGTAA	MKLGARIFKTGIAITLALYLASWIGLPSPIFAGIAAIFAIQPSIYRSFLIIIDQVQANIIGAVIATVFGLIFGPSPIMIGLTAVIVITIMLKLKIEHTISIALVTVIAILETPGNSFLTFALIRTSTVILGVLSSFIVNLVFLPPKYETKLTHHTVEYTDEIMKWIRLTMRQSTEHSILKEDIEKLKEKMMKLDHTYLLYKEERSYFKKTTYVKSRKLVLFRQAIITANRALDTLKKLHRYENEIYHMPEEFQETLTEEIDYLLHWHERILMRTVGKIKPHDDDAEESIRYKQLLTKSFLKNQQNCEDELLDYNMLSIMAAVAEYREQLEHLDTLITSFQTYHPKDSELETDEE				NA	NA	NA	NA	NA
D1-12_02584	1743		COG1132	Putative multidrug export ATP-binding/permease protein	GTGGGCGTAATCAGACGCTATATGCAATTTGTAAAACCTTATAAAAAACAAATTTTTATCACAGTGTTAATCGGCATCATAAAATTCTCCATCCCGCTGGCTCTCCCGCTTCTGTTAAAATACGTGGTCGATGACATTATTCAAGGGAGCGGAACGGCAAGCGCTAAAACATCATCGCTATTTACGATAATGGGTATCATGTTCGTGCTGTTTTTAATTCTGCGCCCCCCGGTAGAGTACTATCGGCAATACTTCGCGCAATGGACGGGCAGCCGGGTGCTCTACGATATCAGGGGGGTATTGTTTGATCATATTCAAAAATTGAGCCTGAGGTTTTATGCCAACACGAGAACGGGCGAAGTCATTTCCCGGGTGATAAATGATGTCGAACAGACAAAAGACTTTGTCATAACGGGACTGATGAATATCTGGCTTGATATGATGACGGTGCTGATCGTCATCTGTATTATGTTTACACTCGATGTCAAGCTGACATTGATATCTGTCATTTTGTTTCCGTTATACGGAATTTCAGTGAAATACTTTTACGGCCGCCTCCGAAAACTGACACGTGAGCGTTCTCAGGCACTCGCCCAAGTTCAGGGACATTTGCACGAAAGAGTTCAGGGGATGCCCGTCATCAGAAGTTTTGCCATTGAAGATTATGAACAAGCCAATTTTGATGAAAAAAACGGACATTTTCTGGACAGAGCGATCCGTCATACGAATTGGAACGCAAAAACGTTTGCAGTCGTGAATACCATTACGGATTTGGCGCCGCTGCTTGTTATCGCGTTTGCGGGTTATTTTGTCATAAACGGCCCGCTGACGGTAGGGACGATGGTTGCGTTCGTCGGCTACATTGACAGAATGTACAATCCGGTCAGAAGATTGATCAACTCATCGACGACGCTGACCCAGTCGATCGCTTCGATGGACCGCATATTTGAATTTATCGACGAGCCGTATGAGCTGACTGATAAACCGAATGCAGTAAAAGCTGACGGCATTAAGGGCGAAGTTGAATTCCGAAATGTCTCGTTCCGTTATGAGGAAGGAAAAGAAACGATTTTGCAGGACGTTTCCTTAAAGGTGACAAAAGGGGAAACCGTCGCGCTCGTCGGGATGAGCGGCGGCGGAAAATCGACGCTTGTCAGCCTCATACCGCGTTTTTATGATGTATCCGGCGGCAGCCTGCTGATTGACGGCACAGATATTCGCGATTATGAAGCGAGAAGCCTCCGCAATCAAGTCGGTATGGTGCTTCAGGATACGTTTCTGTTCAGTGAGACGATTCGTGAAAATATCGCCATCGGTAAACCGGGAGCGTCTCTGGATGAGGTGGTTGCGGCAGCGAAAGCGGCAAATGCCCATGAATTTATTATGAACTTCCCCGAAGGCTACGAAACCAAAGTCGGCGAACGGGGCGTCAAATTGTCAGGCGGGCAGAAACAGCGGATTTCTATCGCGCGTGTATTCTTAAAAAATCCGCCGCTGTTAATCTTGGATGAAGCGACATCGGCTCTTGATCTTGAAAGTGAACACTACATTCAGGAAGCGATGGAAAAGCTTGCGAAAAACCGGACGACTTTTATCGTCGCCCACAGGCTGTCCACGATTACGCACGCGGATAAAATTGTCGTCATGGAAAACGGCGCCGTCGTCGAAACCGGCACGCACGAGGAATTAATGGCCCGAGGCGGCCAGTACAGACACTTATTTACGATTCAGAATTTGAACTGA	MGVIRRYMQFVKPYKKQIFITVLIGIIKFSIPLALPLLLKYVVDDIIQGSGTASAKTSSLFTIMGIMFVLFLILRPPVEYYRQYFAQWTGSRVLYDIRGVLFDHIQKLSLRFYANTRTGEVISRVINDVEQTKDFVITGLMNIWLDMMTVLIVICIMFTLDVKLTLISVILFPLYGISVKYFYGRLRKLTRERSQALAQVQGHLHERVQGMPVIRSFAIEDYEQANFDEKNGHFLDRAIRHTNWNAKTFAVVNTITDLAPLLVIAFAGYFVINGPLTVGTMVAFVGYIDRMYNPVRRLINSSTTLTQSIASMDRIFEFIDEPYELTDKPNAVKADGIKGEVEFRNVSFRYEEGKETILQDVSLKVTKGETVALVGMSGGGKSTLVSLIPRFYDVSGGSLLIDGTDIRDYEARSLRNQVGMVLQDTFLFSETIRENIAIGKPGASLDEVVAAAKAANAHEFIMNFPEGYETKVGERGVKLSGGQKQRISIARVFLKNPPLLILDEATSALDLESEHYIQEAMEKLAKNRTTFIVAHRLSTITHADKIVVMENGAVVETGTHEELMARGGQYRHLFTIQNLN				NA	NA	NA	NA	NA
D1-12_02585	531			hypothetical protein	ATGGGATATCCCAAGGAAGGAGAAACCATTCAAATTCACAGCTATAAGCATAACGGGCTGCTTCATCGAATTTGGAATGAAACGACGATTTTAAAAAGTACGGAATTGTGTATCATCGGAGCCAACGACCGGACAATGGTGACGGAATCCGACGGACGGACGTGGGTGACGAGAGAGCCGGCGATCTGCTACTTTCATGCCCGTCAGTGGTTTAACGTCATCGGAATGCTGAGAGATGACGGGGTACACTATTATTGCAACATCAGCTCGCCGTTCGCTTATGACGGAGAGGCCATCAAATATATTGATTACGATTTGGATGTCAAGGTGTTTCCGGATATGACGTATAACATTCTTGACGAGGATGAATACGATGACCACCGCAAATCAATGAATTACCCTAAAGAGATCGACAGCATTCTGAAGGAGTATCTGAATACGCTGCTGCACTGGATTCATCAGCGGAAAGGACCGTTTGCTCCGGAATTTGTTGATATGTGGTATGAACGGTATCTGCGCTATACAAAATAA	MGYPKEGETIQIHSYKHNGLLHRIWNETTILKSTELCIIGANDRTMVTESDGRTWVTREPAICYFHARQWFNVIGMLRDDGVHYYCNISSPFAYDGEAIKYIDYDLDVKVFPDMTYNILDEDEYDDHRKSMNYPKEIDSILKEYLNTLLHWIHQRKGPFAPEFVDMWYERYLRYTK				NA	NA	NA	NA	NA
D1-12_02586	267			hypothetical protein	ATGTCAGAGTTTGAAAAGCTTGTAAGTGAACAGATGAAAATCATGGATCAGCTTCTCGAGCTGCAGTCAGAACTTGACCGCTGCCGGCAGGTGGAAGCGGAACTCATCAGTCTGGAAAGAGATGCAAAGCTGGACAATGTACAGGACGAAATTGCGACAAAGCGAAAAGACCTGGCCGGCATACAGGAGTTATTCCAAAGGCAGACAGAGCAAGTCATCCAGTCTTATCGCAGCACGGAAAAGCCGTCTTCCTATGTGCAGAAATGA	MSEFEKLVSEQMKIMDQLLELQSELDRCRQVEAELISLERDAKLDNVQDEIATKRKDLAGIQELFQRQTEQVIQSYRSTEKPSSYVQK				NA	NA	NA	NA	NA
D1-12_02587	171			Small, acid-soluble spore protein gamma-type	ATGGCAAACTCAAAATTCAGCAAAACAGACGTTCAGCAGGTGAAAAGACAAAACCAGCAATCAGCTTCCGGTCAGGGTCAATTCGGCACTGAATTCGCCAGTGAAACTGATGCGCAGCAGGTTAGAAAGCAAAACCAATCTGCTGAACAAAATAAACAGCAAAACAGCTAA	MANSKFSKTDVQQVKRQNQQSASGQGQFGTEFASETDAQQVRKQNQSAEQNKQQNS	PGPT0024880_156	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024880-sspE-K06422	NA	NA
D1-12_02588	753	fabL		Enoyl-[acyl-carrier-protein] reductase [NADPH] FabL	ATGGAACAAAATAAATGCGCACTGGTCACGGGAAGCAGCCGCGGCGTCGGGAAAGCAGCCGCCATCAGACTCGCGGAAAAAGGATACAACATCGTCATCAATTACGCCCGCAGTAAAAAAGCGGCATTAGAAACCGCCGAAGAAATTGAAAAACTCGGCGTTAAAACGCTCGTCATTAAAGCCAATGTCGGCCAGCCGGCAAAAATCAAAGACATGTTCCGCCAGATTGACGAAACATTCGGCAGACTGGACGTGTTCGTCAATAATGCGGCTTCAGGCGTGCTGAGACCGGTTATGGAACTCGAAGAAACACACTGGGACTGGACGATGAATATCAATGCGAAAGCATTGCTTTTCTGCGCCCAGGAAGCGGCAAAGATGATGGAGAAAAACGGAGGCGGCCACATCGTCAGCATCAGCTCGCTCGGCAGCATCCGCTATCTTGAAAACTATACGACGGTCGGTGTCTCAAAAGCCGCTTTAGAATCGTTAACCCGTTATCTGGCGGTTGAGCTGTCTCCGAAAAATATCATCGTAAACGCGGTGTCAGGCGGAGCGATTGATACGGACGCGCTGAAGCATTTCCCTAACAGAGATGAACTGCTGGAAGATGCCCGCCAAAATACGCCGGCCGGCAGAATGGTCGAAATTAAAGATATGATCGATACGGTGGAGTTTTTAGTTTCTTCAAAAGCGGACATGATCCGCGGCCAGACCATCATAATTGACGGCGGACGCTCTCTGCTCGTATAA	MEQNKCALVTGSSRGVGKAAAIRLAEKGYNIVINYARSKKAALETAEEIEKLGVKTLVIKANVGQPAKIKDMFRQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKMMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALESLTRYLAVELSPKNIIVNAVSGGAIDTDALKHFPNRDELLEDARQNTPAGRMVEIKDMIDTVEFLVSSKADMIRGQTIIIDGGRSLLV	PGPT0008375_203	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008375-fabL-K10780	NA	NA
D1-12_02589	225	yfhS		putative protein YfhS	ATGTATGTCGGACGTGATATGGGCGAATTGGCCATGATGCCCAAAAAAGATTGGAAAGATTCAGAGCTCGCCTATTTCCATCATGCCTTCCAGCAAATTATGCCGTATTTAAACGAAGAAGGCCAGTCCAAATACCGGGAACTGATTCAGGAAATCGAAGCCCGCGGCGGACTGAAACGGAATGAAGCGGATTACGGCCACGGCACTCGCGTCAGCTATGACTGA	MYVGRDMGELAMMPKKDWKDSELAYFHHAFQQIMPYLNEEGQSKYRELIQEIEARGGLKRNEADYGHGTRVSYD				NA	NA	NA	NA	NA
D1-12_02590	1098	mutY	COG1194	Adenine DNA glycosylase	ATGAACGCACTTGAAGAAAAAATGAAACAAAAAGATATAGACAAATTTCGCGAGGACTTAATTACATGGTTCGAAAGAGAACAGAGAATTCTGCCGTGGAGAGAAAATCAGGACCCGTATCGGGTGTGGGTATCAGAGGTGATGCTGCAGCAGACGCGCGTAGAAACCGTCATTCCTTATTTCCGGCGGTTTGTTGAGCAATTTCCGACCGTTTCGGCGCTCGCTGAAGCCGATGAGGAAAAAGTGCTCAAAGCCTGGGAAGGGCTAGGTTATTACTCCCGTGTAAGAAATCTGCAAAGTGCCGTAAAAGAAGTGCATGAGCGGTACGGGGGAGTCGTTCCTGCCGAGGAAAAGGAATTTGGCGGACTGAAAGGCGTCGGCCCTTATACAAAAGGCGCCGTGCTCAGCATCGCATACAACAAACCGATTCCCGCCGTAGACGGCAATGTGATGCGTGTCATGTCGAGAATTCTTTCCATATGGGACGATATCGCAAAACCTAAAACGAGAACTATTTTCGAACAGGCGGTATCCGCTTTCATTTCTCATGAAAAACCATCTGAATTCAATCAGGGTTTAATGGAGCTCGGCGCGATCATCTGCACCCCGAAATCGCCGTCCTGTCTGCTTTGCCCCGTACAAAAGCACTGTTCGGCATTTGCGGAAGGGACAGAGCGGGAGCTGCCCGTTAAAAGCAAAAAGAAAAAGCCCGGAATAAAAACAATGGCAGCTGTTGTGCTGACAGACGATCAAGGCGATGTCTATATTCATAAACGGCCGCCAAAAGGCTTGCTCGCCAACTTGTGGGAGTTTCCGAATACCGAAACCCAGAAAGGAATCAAAACCGAAAGAGAGCAGCTTGAAGCCTATTTAGAAAAAGAGATGGGAACAACCGCTGAAATCGGGGAGCTGGAAGGCATCGTAGAACATGTTTTCACCCATCTCGTCTGGAATATTTCGGTCTTTTTCGGTAAAGTAAAACAAGTGTCGGATACAACGGAACTCATACGGGTCACAAAAGAGGAGCTCGAGGAATACGCATTTCCCGTTTCCCATCAAAAGATATGGAAAATGGCGGAAGAAAGCGGCCGCCTGTAA	MNALEEKMKQKDIDKFREDLITWFEREQRILPWRENQDPYRVWVSEVMLQQTRVETVIPYFRRFVEQFPTVSALAEADEEKVLKAWEGLGYYSRVRNLQSAVKEVHERYGGVVPAEEKEFGGLKGVGPYTKGAVLSIAYNKPIPAVDGNVMRVMSRILSIWDDIAKPKTRTIFEQAVSAFISHEKPSEFNQGLMELGAIICTPKSPSCLLCPVQKHCSAFAEGTERELPVKSKKKKPGIKTMAAVVLTDDQGDVYIHKRPPKGLLANLWEFPNTETQKGIKTEREQLEAYLEKEMGTTAEIGELEGIVEHVFTHLVWNISVFFGKVKQVSDTTELIRVTKEELEEYAFPVSHQKIWKMAEESGRL				NA	NA	NA	NA	NA
D1-12_02591	984	yfhP	COG1988	putative protein YfhP	ATGGATACTGGCACTCACGTTGTCATGGGTATCGCGCTTGGCGGAATCGCAACTCTTGATCCTGCCGTCGGCATGCACACCCCCATGTCTCAGGCAGTTATGATCGCCGCTCTTGCCGGCTCTCAGGCACCTGATATTGATACCATATTGAAGCTGAAAAATAATGCCGTTTATATTCGAAATCATAGAGGGTTCACGCACTCCATTCCCGCCGTTTTATTTTGGTCCGTTCTGATTCCGGGTATTTTGTTTATGTTTTATCCGGAAGCGAACTTATTGCACCTGTGGCTGTGGACGCTTCTCGCTGTCGTTTTGCATGTGTTTGTTGACATTTTTAACGCGTACGGCACGCAGGCCATCCGCCCGTTTTCGAGAAAATGGATCGCTCTCGGTTTAATCAATACCTTTGATCCGTTTATTTTCGTCAGCCATTTGGCCGCGATTGCCGTGTGGTATCTCGGAGGTCATCCGGGCGTGACATTTCTGATGCTTTATATCATCCTCGCAGGATATTACGCCGTCCGGTTTTTGATGCAGCTGCGGATAAAGCGAAGGCTGCGCGAGATGATTGAAGAGGAGATTGAAACCATCATTATTTCGCCGACGATGAAATTCAGGCAGTGGCGTATCGCCGTGACAACGGCGCATGCCTTTTATGTCGGCAGAAGCCTTGACGGCCATGTCGTGATATTGGATACATTCAACCGCGTGCCCGTTCCGGAAACCGATGTGATGAAGGCCGCGAAACAGGACGAAAATATTGCGGCCTTTCTTTCCTTTTCCCCTGTTTACAGGTGGGAGGTCGATACCTTTAAAGATCATTATGAGGTGCGCTTTATTGATTTGCGCTACCGGAGCAAAGGCCACTATCCTTTTGTCGCCATCGTCCACCTCAGTCATGATTTAGAGCTTCTCTCTTCTTACACGGGCTGGATTTTCAGCGAGGAAAAACTGCAGAAAAAATTAAAGCTCGGCTCTGTTTAA	MDTGTHVVMGIALGGIATLDPAVGMHTPMSQAVMIAALAGSQAPDIDTILKLKNNAVYIRNHRGFTHSIPAVLFWSVLIPGILFMFYPEANLLHLWLWTLLAVVLHVFVDIFNAYGTQAIRPFSRKWIALGLINTFDPFIFVSHLAAIAVWYLGGHPGVTFLMLYIILAGYYAVRFLMQLRIKRRLREMIEEEIETIIISPTMKFRQWRIAVTTAHAFYVGRSLDGHVVILDTFNRVPVPETDVMKAAKQDENIAAFLSFSPVYRWEVDTFKDHYEVRFIDLRYRSKGHYPFVAIVHLSHDLELLSSYTGWIFSEEKLQKKLKLGSV				NA	NA	NA	NA	NA
D1-12_02592	2586			hypothetical protein	ATGAAAAAAAATAAATGGATCTTGCCGGCAGCCTGTGTGCTGGCTGCGGCAGCCGCTCATATTTTTTTCTTAAAAGAGTGGTCGGCAGGCCGCTATATGACGGGGTCTGGAGACGGGATCGCCCAAATGGCGGTCTTCAAAAAGCTGCTGTTTGATCAATATATGAACGGCAGGCTGTTTTACAGCTATTCGTTCGGACTGGGCGGGGGAGTGTACAGTCAGCTCGGCTATTATTTCTCTACTTCTTTTCTATTCCTGTTTATCTCCGCCGCTGTCCGCTTTTTGCAGCTTATTCAGCTGACGGGCGGGGCTGATGCGCTGTTCTGGGCGCAGGCCTCCGTTTTTATCAGCATCGCCAAGCAGAGTTTTATCATATTCACGGCGGCGTGTGTGTTCCGTTATTTCGTCAAACGGACGGTGCCTGCTTTTGCCGGCGCCGTGTTGTACGGGGTCTCGATTATCTACTTCCGGCATGAGGTATATTGGGACTTTTTCACTGACAGTATGGTGTGGCTGCCGCTGCTCGTGCTCGGCGCGGAAAAAATCATCAGGGAAAAAAAGCCGGCGTGGTTTATCTTCGCCTGTGCGCTGACATTGATCAACAACTTTTATTTTGCGTATATTAATTTGATTTTCATCGGCATTTATATCTTATTCAGGTGGGTGATCCCCCTTGAAGGCAATGAGGCGAAAAGACTCACTCAATGCAGGATATTTATTCTGTCGGGTCTTCTCGGGTTCGGCATAAGCGCAGTTTCCTTTATTCCTGTCGTATACGGATACCTTCATAATCTGCGGCCGCCGTATTCAGAGCATATTGCATGGCTTGATTTTTCCGACAACATTTTATTTTCAAGCCGGATTATCATCCTGCCGGCGGCTTTTTTGCTCTTTCTATTTACATTTTCTTTATACAAAAACCGCTTGTTCCGGCTGTTTGCGGGAATCAGTCTGCTGTATATTGTGTTTCACTTCAGTTCGTTTGCGGCAAGTGCCTTTAACGGTTTTTCAGCTCCGCAGAACAGGTTTGAATACGTCCTGTGCTTCACGATTGCCGGAACGGTTTCAGCCGGGCTTTCTAGGCTTTCAGGCATCAGCATGAAGAGTATGCTGATGTCCGCCGTACTCGTCGTTCTGCTCTATTGGAGCCAGGTGAGGCGGTACAGTCTGGATATTTCTGATCACGCCAATCTGCCCGTCATTCTTCTTCTGGTGCTGACCATAGCCGCTTTCTTCGCAGCAAAGACAAGACTGAAAGGCGCGGTGCCCGCCGTCTATGCCGTCATTTTGCTTACGGCGGTGCTTACGGCTAATACATATGAAAAATATGCTTTATCAGAAGGCGGGAAGATTTATACGGTATCGCATACATTTATGACGGGTGCTGACTATAAAGGCAAAGAGCAATCAGAGCTCATTCAGCGTCTGAAAGAAAAAGACCCTGATCCGTTTGCCCGTTTAGATTGGATGAACGGTGTTTTCAATAACACCCCGATCATATACGGATTCAACGGATTCAGCGTATACTCAAGCATACTGAACCGCAATCTGCTGTCCTTTTACTGGAACGACCTCCGGATTGACATGGGCAGAGAAAGCGTCAGCCGCTATGCGACATTAGGAAACAGGGCTAATTTATACAGCCTGCTTTACGGAAAATATTATATGACGGAAAAAACAAACGAGGCCGGCGTGCCGTACGGGTTCAAAAAAATCATGGAATCATCCCATTATGCGGTTTATCAAAATCAATATATGCTTCCGTTCGTACGGACAGCCGATCGCGTATATAACGAGGGCGGTCTGAAAAAAGCGCCCGCCCTTGCCAGGGAACGGGCAATGCTTGACGGGATCGTCATGGAATCAAGCACAACCAACACGAAAAAAGCGCCTGAGGCGAAAAATATGATGCGCCATGCAGAGGTAGCGGCCGAACATGGCGATTATCATAACGGCATCCTGACGGTAAACGAAGACGGCGGCGGCCTGATCATTAAGCCGCAAGCCGCTAAGATGGACGGCGGCGATTATTACGTCAGCTTTTATTTGAAGAATAAAGCGAAGGACCAGGGCTTTACATTAAAAGTGAACGATTACACGACAACGAGAAAATCGAATCAATCCATTTACAAAACAGGTGTCAACGATCTTACTGTGAGAGTGCCGAAAACAAAAAACATCCAAATCCGTCTGCCGAAAGGATCGTATCAGCTTGACAGACTGGCGCTTTATGAAGAACGGTACGATACGCTGAAAAGCGCATACCGAAAAGCGGAAAAAGAACCGCCGGCCGATCTCAGCTGGCGCGGAAATACGCTTCATATCTCGTATGATAACAAAACCCGCGCGCCGTATATCATGCTTCCGATTCCATATGAAAAAGGCTGGGAGCTGAAGATAAACGGCAGAAAAGAGCAGATTGAAAAAGCGGATTATTCCTTTATCGGATTTAAAGCGCAAAAAGGAAAAAACGATATTCAATTAACGTATTACCCGCCGTTTTTTAAACCCGCGGCCGCTCTATCGGTGATCAGCCTCGTGTTTGCCGCTATATATGTGAGAAGACAAAAAAAGCCCGGCTCTTAA	MKKNKWILPAACVLAAAAAHIFFLKEWSAGRYMTGSGDGIAQMAVFKKLLFDQYMNGRLFYSYSFGLGGGVYSQLGYYFSTSFLFLFISAAVRFLQLIQLTGGADALFWAQASVFISIAKQSFIIFTAACVFRYFVKRTVPAFAGAVLYGVSIIYFRHEVYWDFFTDSMVWLPLLVLGAEKIIREKKPAWFIFACALTLINNFYFAYINLIFIGIYILFRWVIPLEGNEAKRLTQCRIFILSGLLGFGISAVSFIPVVYGYLHNLRPPYSEHIAWLDFSDNILFSSRIIILPAAFLLFLFTFSLYKNRLFRLFAGISLLYIVFHFSSFAASAFNGFSAPQNRFEYVLCFTIAGTVSAGLSRLSGISMKSMLMSAVLVVLLYWSQVRRYSLDISDHANLPVILLLVLTIAAFFAAKTRLKGAVPAVYAVILLTAVLTANTYEKYALSEGGKIYTVSHTFMTGADYKGKEQSELIQRLKEKDPDPFARLDWMNGVFNNTPIIYGFNGFSVYSSILNRNLLSFYWNDLRIDMGRESVSRYATLGNRANLYSLLYGKYYMTEKTNEAGVPYGFKKIMESSHYAVYQNQYMLPFVRTADRVYNEGGLKKAPALARERAMLDGIVMESSTTNTKKAPEAKNMMRHAEVAAEHGDYHNGILTVNEDGGGLIIKPQAAKMDGGDYYVSFYLKNKAKDQGFTLKVNDYTTTRKSNQSIYKTGVNDLTVRVPKTKNIQIRLPKGSYQLDRLALYEERYDTLKSAYRKAEKEPPADLSWRGNTLHISYDNKTRAPYIMLPIPYEKGWELKINGRKEQIEKADYSFIGFKAQKGKNDIQLTYYPPFFKPAAALSVISLVFAAIYVRRQKKPGS	PGPT0015226_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015226-yfhO-NA	NA	NA
D1-12_02593	981	csbB	COG0463	Putative glycosyltransferase CsbB	ATGAAACAAAGGTTAATCTCAATTATTATTCCGTCTTACAATGAAGGGAACAACGTCAAGCTCATCCATGAATCTTTAAAAAAAGAGTTTCAGACGATTCATTATGACTATGAAATTTTCTACATCAATGACGGAAGCGCGGATGACACCCTTCAGCAGATTAAAGAACTGGCCGCCAGAAACCATCGCGTCAAATACATATCTTTTTCCCGCAACTTCGGGAAAGAAGCGGCTATTTTGGCAGGATTTGAACACGTGCAGGGCGAAGCGGTAATCGTGATGGACGCCGATCTGCAGCATCCGACCCATCTGCTGAAAGACTTCATTCAAGGCTATGAAGAAGGGTATGACCAAGTCATCGCGCAGCGCAACCGAAAAGGGGACAGCCCCGTGCGTTCCGTGCTTTCTTCCCTGTATTATAAATTTATCAACAAAGCCGTCGAAGTGGACCTGCGTGACGGGGTCGGAGATTTCCGCCTGCTGAGCCGGCAGGCCGTTGATGCCCTTTTGAAGCTGAGTGAAGGGAACCGTTTCTCGAAAGGGCTGTTCTGCTGGATCGGGTTTGACCAGAAAATCGTATTTTATGAAAATGTCGAAAGGAAGAACGGCACGTCCAAATGGTCATTCAGCAATCTGTTCAACTACGGAATGGACGGTGTCGTCTCCTTCAACAACAAGCCCCTGAGGGTGTGCTTTTTCACCGGTATTCTGATATTGCTTCTGTCGATGGTTTATATTGTAACGACCTTTGTTCATATTCTGACACACGGCGTGTCCGTACCCGGATACTTCACCATTATTTCCGCCGTGCTGTTTTTAGGGGGCATCCAGCTTTTGAGTCTCGGCATCATCGGAGAATACATCGGCCGGATTTACTATGAAACAAAAAAACGCCCGCACTACTTAATTAAAGAAGCGAATATAACGTATGGAGAACAAAATGAAACGAATTATACAAAAAAGCGCAAGTGGAACCATTAA	MKQRLISIIIPSYNEGNNVKLIHESLKKEFQTIHYDYEIFYINDGSADDTLQQIKELAARNHRVKYISFSRNFGKEAAILAGFEHVQGEAVIVMDADLQHPTHLLKDFIQGYEEGYDQVIAQRNRKGDSPVRSVLSSLYYKFINKAVEVDLRDGVGDFRLLSRQAVDALLKLSEGNRFSKGLFCWIGFDQKIVFYENVERKNGTSKWSFSNLFNYGMDGVVSFNNKPLRVCFFTGILILLLSMVYIVTTFVHILTHGVSVPGYFTIISAVLFLGGIQLLSLGIIGEYIGRIYYETKKRPHYLIKEANITYGEQNETNYTKKRKWNH	PGPT0014540_1362	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
D1-12_02594	861	ephA		Epoxide hydrolase A	ATGAATGACATTACGTTTCACATGATCGAAACAAACGGAGTGACGCTGCACACGGCTTCAGCCGGTCCGAAAGACGGTCCTTTGGCGGTGCTGCTGCACGGGTTTCCGGAATTCTGGTACGGCTGGAAGAGCCAGATCAAACCGCTGGCGGATGCCGGATATCATGTTGTCGTGCCTGATCAGCGCGGCTATAATCTCAGTGACAAACCGGAGGGCATTGAAAACTATACCATTGATACGCTCAGAGACGACATTATCGGGCTGATCACGCATTTTACAGATGAAAAAGCCGTCGTCATCGGCCACGATTGGGGAGGAGCCGTGGCCTGGCATTTGGCATCCACGCGGCCGCAATACGTTGAAAAATTGATCACGGTCAATATCCCGCATCCGGCGGTTATGCGGAAGGTTACACCGTTCTACCCGCCGCAGTGGAAGAAAAGCTCTTATATCGCGTTCTTTCAGCTTCCGGAAAAGCCGGAACGGAGATTGTCTGAAGACAATTACCGCGTATTGGATCACGCGATCGGCTTATCCGAACGCCCGGCGCTTTTTTCACGGGAAGATATCGGCAGCTACAAAGAAGCATGGGGCAGAAAAGGAGCGCTCACGGCGATGCTGAACTGGTACCGGGCGATCAGAGCCGGCGGTTTAGGCCCTGCCGTTCCGCTTAAAATGCCCGTTCCGTACCGATTAATATGGGGCGTCAATGACCGCGCGCTGAGCAAAAAGCTTGCCAAGGAAACAAAACGGATGATTCCAAACGGCGACTTAATCTTTATAGACGATGCCTCACATTGGGTCATTCACGAAAAACCGCGCATCGTCAGCCATTTGATTCACGAATACCTTCAGCAATAA	MNDITFHMIETNGVTLHTASAGPKDGPLAVLLHGFPEFWYGWKSQIKPLADAGYHVVVPDQRGYNLSDKPEGIENYTIDTLRDDIIGLITHFTDEKAVVIGHDWGGAVAWHLASTRPQYVEKLITVNIPHPAVMRKVTPFYPPQWKKSSYIAFFQLPEKPERRLSEDNYRVLDHAIGLSERPALFSREDIGSYKEAWGRKGALTAMLNWYRAIRAGGLGPAVPLKMPVPYRLIWGVNDRALSKKLAKETKRMIPNGDLIFIDDASHWVIHEKPRIVSHLIHEYLQQ	PGPT0015015_610	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015015-yfhM-K22369	NA	NA
D1-12_02595	336			hypothetical protein	ATGATAATGGTGATCGGCGGCCTTCTGATGGCTGCAGCCGGCATTTTAGTCACATTTTTTCCGCCGAAGTCGATCAACAGCCTGTACGGATATCGGACGAAGCGCTCTATGGCGGATGAGTCGCAGTGGAGAGAAGGAAATCGATTCAGTGCGCTCCTCATGATTTTGTTCGGCCTTATTTCGGCGGCAGCTGGATTTGCGGGCAGCCTGCTTATCCGGCTGACTCAGCCGTTCGCCCTGATCGTTCAGGCCGTATTGTTGATTGCGATCAGCGTACTGATCATCGTCTTAACAGAAAGAAGATTGAAACAAACGGGGAGGAGAATCGATGAATGA	MIMVIGGLLMAAAGILVTFFPPKSINSLYGYRTKRSMADESQWREGNRFSALLMILFGLISAAAGFAGSLLIRLTQPFALIVQAVLLIAISVLIIVLTERRLKQTGRRIDE	PGPT0028596_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TOXINES_NEUTRALIZATION_SpdC_IMMUNITY,PGPT0028596-yfhL-NA	NA	NA
D1-12_02596	528			hypothetical protein	ATGAACATGAAAAAGGGGTTAACCGCATTTATTCCGGCCGCAGGACTTTGCTTATTTTTAGCCGCAGGCACCGTTTTTTTCGATCCGGCAGCGAATGCCGCAGCAGTTCACCAGACAAAAATAGACACCGCAGCAGATACATATATCGTGAAAGCAGGAGAACTTAACGTCCGCAAAGAACCAAATAAACAAGGGCCGATTATCGGCACGCTTCGTTCAGAGGATTCTGTAAAGGTTAAACGGCTTCAAGGAGCAGATTGGGCTGAGATTGACTACAAAGGTCACAAAGCCTATATCTCCACACATTTTCTGATGAAGCAGCCGATGAAGGCGGTGACGGCGAAACAAACCGCTTTTTATACGCCGACTTTGGAAACCGGCAAAAAAGGGTCCGTTAAAGCGGGTGAAACCGTCAATGTGCTCGGCTGGGGGTTCAGCCATGACGGAGGGTTTGACCGTAAATGGGCGTACATCACATACGGCGGGAAAGCAGGTTATGTGAAAACGGCCGACTTAACTCAAAAATAA	MNMKKGLTAFIPAAGLCLFLAAGTVFFDPAANAAAVHQTKIDTAADTYIVKAGELNVRKEPNKQGPIIGTLRSEDSVKVKRLQGADWAEIDYKGHKAYISTHFLMKQPMKAVTAKQTAFYTPTLETGKKGSVKAGETVNVLGWGFSHDGGFDRKWAYITYGGKAGYVKTADLTQK	PGPT0022161_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022161-ywsB-NA	NA	NA
D1-12_02597	270			hypothetical protein	ATGAATACATATATCGACAAACTGACGAATTTGCTGCTTGAGAAAAATGACATGCTCAGCTATTTGCAAGCGCGAACTTGGGTTGAGCTTTTATGGGGAGATTTCGAAGCGACTTACGCAAAAGCCGGCCGCCCGTATCAAGGAGAGCAAATGACGGAACGCGTCGTCAAGGAATGGATCGAATCATACGGCAGCAAGCTCCATATGTTCCAGAGCGTTCGGGAAGACGTTTCTCATTATTTGGATCAAAGCAGGGGTCTCCTGCATTAA	MNTYIDKLTNLLLEKNDMLSYLQARTWVELLWGDFEATYAKAGRPYQGEQMTERVVKEWIESYGSKLHMFQSVREDVSHYLDQSRGLLH				NA	NA	NA	NA	NA
D1-12_02598	912	mpr	COG3591	Extracellular metalloprotease	ATGAAGACAGTTTCAAAACGATTGCTGAGCCTTACCGCATTCTTACTGTCAGTTTCATTATTTGCTGTTTCAGCAGAAGCAGAGGGCAGTCCGCAGACATCTGTATCAAACAGCGGTGAGGAGTTTGACGCACATCTGAATCAGCCTGTACAAACAACACAGACATCCCCCGCTTATGAAGGAACGGGCCTCACCAAAAGACAGCTTGCACAAAACAGCAAAGCTGACATCAAGTCATTAAAGCCTTCCAGTATTATTGGGACAGACGAACGAATCAGAATTTCTCCTACAACATCATTTCCATATCGCGCGACAGCACAGCTGACCGTTACATACAGCGGCAGCACAAGCACTTACGGATGCACCGGTTTTTTTGTCAATGCCGACACGATCGTTACGGCGGGACATTGCGTGTATGATCAGAAAAACGGCTGGGCATCGAAAATTACGGCAGCTCCCGGCCGCAACGGGTCATCGTACCCGTACGGCTCTTATTCAGGCAAGACATTCTACAGCGTCAAAGGGTGGACAGAAAACGGTGACACAAACTACGACTACGGCGCAATCAAAGTAAACGGGTCGCCCGGGAATACTGTCGGCTGGTACGGCTACCGGACGACCAACAGTTCCAGTCCGGCCGGGCTTTCCTCAACCGTGACAGGGTATCCGTGCGACAAAGTGTCCGGTTCCATGTGGTCGGACAGCAAGCCGATACGTTCTGCCGAGACATATAAACTCACCTACACGACAGATACGTTCGGCTGCCAGAGCGGATCGCCCGTTTACCGCAATTACAGCGACACCGGCCAGACCGCCATTGCCATTCATACAAACGGCGGGTCGTCTTATAATCTGGGAACAAGGGTGACAAACAGTGTATTCGACAACATTCAATATTGGTCAAATCAATAA	MKTVSKRLLSLTAFLLSVSLFAVSAEAEGSPQTSVSNSGEEFDAHLNQPVQTTQTSPAYEGTGLTKRQLAQNSKADIKSLKPSSIIGTDERIRISPTTSFPYRATAQLTVTYSGSTSTYGCTGFFVNADTIVTAGHCVYDQKNGWASKITAAPGRNGSSYPYGSYSGKTFYSVKGWTENGDTNYDYGAIKVNGSPGNTVGWYGYRTTNSSSPAGLSSTVTGYPCDKVSGSMWSDSKPIRSAETYKLTYTTDTFGCQSGSPVYRNYSDTGQTAIAIHTNGGSSYNLGTRVTNSVFDNIQYWSNQ				NA	NA	NA	NA	NA
D1-12_02599	390			hypothetical protein	GTGTATTCGACAACATTCAATATTGGTCAAATCAATAAAGCTTTTGTTTTCTTGCTCGCCGCGGCCGTTTTATGCGGATGCGGCAAAGCGGATGATTCCGCCGACAAAAAAGCACTGCCCGTTACGCTCCATGTTGAGGATGCAGACGGTTCACCGGCGGCCGGTGTGACGGTCACCGTGATGAAAGCGGCGGAGTCAGATCATCAGCCGAATATAGACCGCGGAGAGATAATAGGCAAGACTGATCACCACGGCGATATTGCATGGAAAAGCGGCGCGAAAGGAACCTATGCCGTCGTTTTTGAAAAAGACGGGGTACCGGAAACCCGGAATATTTCCTTAGCTGAGAGTGATAAACATACGGTGATCAGCATTACATTGAAACACTGA	MYSTTFNIGQINKAFVFLLAAAVLCGCGKADDSADKKALPVTLHVEDADGSPAAGVTVTVMKAAESDHQPNIDRGEIIGKTDHHGDIAWKSGAKGTYAVVFEKDGVPETRNISLAESDKHTVISITLKH				NA	NA	NA	NA	NA
D1-12_02600	1200	ydhP_2	COG2814	Inner membrane transport protein YdhP	TTGAATATCAAAATGAAACAGCCATCTGTGAAATTAATGATTTTTGTTTTAATGATTTGCACATTTTCCATCGGGTATACGGAATATGCTGTCATGGGTATTCTGACGTCGATTGCCGATGACTTTCATATACATGTATCTTCAGCGGGCATGCTTGTTACGGCGTACGCGGCAAGCGTCTGCCTGACGGGCCCGATCGTAACCATTATCGCGGTTAAGCTGCCGAGAAAGCCGGTTCTGCTAGGGTTGATGGGCATCTTCGTCCTTGCCAACCTGATGAGCGTCTTTGCGCCAAACTTCGCCGTGCTGGCGATTTCCAGAATTTTATCCGCATCCATCCACGGAGCTTTTTTTGCGATCGCCATGGTGTTTGCGAGTGAAATGGTGCCGCCTGAAAAACGTTCCGCCGCCGCGGCTTCCATGAACGGCGGATTAACCGTGGCGCTGATGCTCGGTGTCCCGTTCGGCTCTTATTTAGGGGATGCCCTTAACTGGCGGGCCGTCTTTTTCATTATTTCCGTTTTAGGCATGATCGGGCTGATCGGACTGATGCTGGTCGTGCCGAACCGGAAACCGAAAGTGATTCCGATGCTGATGAATGAATGGAGTGTCTTTAAGCATAAACAAGTGATTTTTTCCTTTGCGATCACCATTCTCGGCTACTCAGGCGTATTTATCGCTTACACGTTTATTGAGCCGATTTTAAGAGATTCAGCGGGGTTCGGCACAGTCGGCATTACAGGCGCATTATTTGCCTACGGTCTCGGCGGAGTGGCGGGGAATTTCTTCGCGGGGAAAGTGCCGCTCAAACTGCTGACGCGCACGATGATCGGTGTGATGATCGGCTTGATCGGCGTCTTGGCGATTTTCCCTTATATCGCTGTCTTTCCCGCCGCCGCCGTTTCAGTGACATTTTTGTTCGGCGCATGTGCGTTCGGCACGCCGCCGCTTTTGCAGACCAAGGTTATTTCTTCCTCTGAAAACGGCACGACAATCGCCGCTGCGGTGAGCGTTTCCGCCTTTAACCTGGCAAACGCGCTCGGCGCCTGGATCGGCGGATTGATTCTCGGGGGAACGGGATCTTACTCATGGCTGTTTGCCGGCGGTGCGCTGATGACGGCTCTCGGCCTTGTGCTTTCCACGTTCGCTCATCTGTCTGAGAAGAAAGATGTTTATGAATACCAAGTGCATAAAGGATAA	MNIKMKQPSVKLMIFVLMICTFSIGYTEYAVMGILTSIADDFHIHVSSAGMLVTAYAASVCLTGPIVTIIAVKLPRKPVLLGLMGIFVLANLMSVFAPNFAVLAISRILSASIHGAFFAIAMVFASEMVPPEKRSAAAASMNGGLTVALMLGVPFGSYLGDALNWRAVFFIISVLGMIGLIGLMLVVPNRKPKVIPMLMNEWSVFKHKQVIFSFAITILGYSGVFIAYTFIEPILRDSAGFGTVGITGALFAYGLGGVAGNFFAGKVPLKLLTRTMIGVMIGLIGVLAIFPYIAVFPAAAVSVTFLFGACAFGTPPLLQTKVISSSENGTTIAAAVSVSAFNLANALGAWIGGLILGGTGSYSWLFAGGALMTALGLVLSTFAHLSEKKDVYEYQVHKG	PGPT0028991_2328	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
D1-12_02601	315	yfhH		putative protein YfhH	ATGGACAAACGATACAGTCAAATGACGCCTCATGAACTACAGACCGAAATTGCGGGACTGACGGAAAAAGCGCGAAAGGCGGAACAGATGGGCATTGTAAATGAACTGGCCGTGCTTGAACGGAAAATTACGATGGCCAAAGCTTACATGCTGAACCCGGAAGACTTTCGGCCCGGCGGGGTGTATCAGATAGAAGGTTCTGATGACACTTTCCGCATTGATTACATCAACGGCGTATTCGCCTGGGGACACAGATCTTCCCCGTCTGACGGGGAAGAAGCGCTGCCGATTTCCGTTTTAAAAGAAAAAAAATAA	MDKRYSQMTPHELQTEIAGLTEKARKAEQMGIVNELAVLERKITMAKAYMLNPEDFRPGGVYQIEGSDDTFRIDYINGVFAWGHRSSPSDGEEALPISVLKEKK				NA	NA	NA	NA	NA
D1-12_02602	792	recX		Regulatory protein RecX	ATGCCGTTTATTACAAAAATATCGACCCAAAAGAAAAATACCGAGCGCTTCAACATCTTTCTTGATGAGAAATATGCATTCAGCGTCGACGCCGACGTGCTTGTGCGTTTTGACCTGAAGAAAGGGAAAGAACTGGACGAGCTTGACATTCTTGAAATCCAGCACGGCGATGACGTGAAAAAAGCCTTTAACCGCGCCGTAGAATTTTTATCATACCGGATGCGCTCTGAAAAAGAAGTCCGGGATCATCTGAAGAAAAAAGAAACACCGGACATGGTCATTTCTGAAGTCATCCATAAACTGTACGATTACCGCTACTTAAATGACAAAGAATTTGCGGAAGCCTATGCGAGCACCCACAAAAAAACAAACGGCAAAGGCCCTGACGTCCTGTTCCGCGAGCTGAAAGCGAAAGGAATAGACGGCGATACCATCAAGGAGACGCTCAGTGCGTTTACATTTGATGAGCAGATACAAGAAGCGCTGAAACATATCGGCAAAATCCTCAAAAAAGACAAAAAGCTGTCCACAAAAGAGATCAGACAGCGGGCGCAGATGCAGCTTCAGCGAAAAGGTTTCCCTTTCGACGTCATCAATGCCGCTCTGGAACAGACGGAGTATGAAAATGATGATGAAGCCGAGATGGAAGCTCTGAAGGCTCATGCGGAAAAAGCGATCAGGAAATACCGCTATGACGGCAGCTATGAAAGCGGAATGAAGGTCAAACAGTACTTATTCAGAAAAGGATTCTCGATTGACGATATTGATCAATTCTTGCAGGAAGAGGAGTAA	MPFITKISTQKKNTERFNIFLDEKYAFSVDADVLVRFDLKKGKELDELDILEIQHGDDVKKAFNRAVEFLSYRMRSEKEVRDHLKKKETPDMVISEVIHKLYDYRYLNDKEFAEAYASTHKKTNGKGPDVLFRELKAKGIDGDTIKETLSAFTFDEQIQEALKHIGKILKKDKKLSTKEIRQRAQMQLQRKGFPFDVINAALEQTEYENDDEAEMEALKAHAEKAIRKYRYDGSYESGMKVKQYLFRKGFSIDDIDQFLQEEE	PGPT0007240_149	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
D1-12_02603	900			Epimerase family protein	ATGAATATCGCGATGACAGGCGGCACCGGTTTTCTGGGCCGGCATCTGACAGGTGTGTTGACCCGCCGGGGACATCATGTCTATATTTTATCAAGAAAACAGAGAGAAACCGAACAAAAAAATGTGACATATGTTCAATGGCTGGCCGAAAACGCGGCGCCTGAGCGCGAGCTTCCCCCTATTGATGTATGGGTGAACCTCGCCGGCAAATCCATCTTTGACCGCTGGACGGACACAACGAAAGAACAAATCATCTCAAGCAGAATAGAAGCGACGAGAGAAGTCAGACGGATTATGAAGCAGCAGCTGAAAAAACCCCGGGCTTTGATTCAGGCCAGCGCCGTCGGCATTTACGGCACAAGCACAGAGAAAACATTCACCGAACAGTCCGATACGTCAAATGAAGACTTTCTCAGTCATACGGCTCATATGTGGGAACGTGAAGGCCAGAAAATTGAAGCGCTCGGCATCCGGACGGTATATGCCAGATTCGGGGTGATGCTCGGTGAAAAAGGCGCCCTGCCGCTCATGGTTCTCCCTTATAAGCTGTTAGCCGGCGGCACCATCGGCTCTGGACGGCAATGGCTGTCATGGGTTCATGTGGATGACGCCGCGGAACTTATTGCTTTTGTGGCGGAGCATGATGACTTGTCCGGTCCCATGAATGTGACATCGCCGAACCCCGTAGAAATGAAGCAATTCGGAAAGACGATCGCAGGCGTCCTGCACCGCCCCCATTGGATTCCCGTACCGGAACTTTTTCTGGAGAAGGCCTTGGGAGAAATGAGCCTGCTGATCGTAAAAGGCCAGCGCGCCCTGCCTAAGCAGGCGCTGACATCCGGTTTTCAATTTACGTATGGAGAGCTTGATTTCGCTTTAAAGGATCTCTTATCTGCATAA	MNIAMTGGTGFLGRHLTGVLTRRGHHVYILSRKQRETEQKNVTYVQWLAENAAPERELPPIDVWVNLAGKSIFDRWTDTTKEQIISSRIEATREVRRIMKQQLKKPRALIQASAVGIYGTSTEKTFTEQSDTSNEDFLSHTAHMWEREGQKIEALGIRTVYARFGVMLGEKGALPLMVLPYKLLAGGTIGSGRQWLSWVHVDDAAELIAFVAEHDDLSGPMNVTSPNPVEMKQFGKTIAGVLHRPHWIPVPELFLEKALGEMSLLIVKGQRALPKQALTSGFQFTYGELDFALKDLLSA	PGPT0014730_2119	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
D1-12_02604	111			hypothetical protein	ATGGAAAAGAAGCGCGAAAAACATCAACAGGGAGCCAATCTGAAAAAAATGCAGGAAGTCCTTTATTCCGGTGAATTCAAAAAAGCGGAAAGAGCAGCCAAACGGAAATAA	MEKKREKHQQGANLKKMQEVLYSGEFKKAERAAKRK	PGPT0014725_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014725-yfhE-NA	NA	NA
D1-12_02605	192			hypothetical protein	ATGGGCAGAAATCATACTCACAAAAACCGTGATAAAAACAAACAAAAACTTCCTCAAGTTCCGGATGCTTTGAAACGCGAAACAGACGGCACATATGAGGAATATTCAAGCGAGCTTGCTGATTCCGCTGACCGTGAAGCGCAGGCGCGGATGAAAGCCGCTGACAACAGAGCTAAAAGCAAAACCCGCTAA	MGRNHTHKNRDKNKQKLPQVPDALKRETDGTYEEYSSELADSADREAQARMKAADNRAKSKTR				NA	NA	NA	NA	NA
D1-12_02606	585	fbiB		Bifunctional F420 biosynthesis protein FbiB	ATGCCGAAAACCGAACAATTACAGCAAAACGAAAGTCTTGCACATACAATCAGAAACAGAAGATCCATCCGGTCGTTTAAACCGGAAACCGTACCTTCTGAAGTCATATTAGATATGCTTGAAACGGCCGTTTACGCACCGAACCACAGACTGACGGAGCCATGGCGTTTTATCTACGCAGCAAGCGAAGCGGGAAAAGCAAAGCTTGCGGACAGCTACGTCTCATTTTTCAAAAAGATAAAAGATGATTTCAACGAGGAAAAAGAGCGGAACATGAGAAAAAACCTCAGCGCCGTTCCGGGATTTTTGCTGGTCGTCTTAAAAGAAGATGAAAATGAATTTACGAGAAACGATGATTTCGCGGCGCTGAGCGGCATGATTCAAAACCTTCAGCTTCTCGCACATGAAAACGGCATCGGCATGGTCTGGAAAAGCGGCCGCATTATGTATGACAAACAGGTGCACCAAGACTTCGGCCTTGCTGACAATGAGCGCTTTGCCGCCATCATTCAAACGGGCTATCCGGATGAACAGCCTAAGGCGAAAGAACGGACGCCGGCAAAAAGCCTGTTTACCGAACTGTAA	MPKTEQLQQNESLAHTIRNRRSIRSFKPETVPSEVILDMLETAVYAPNHRLTEPWRFIYAASEAGKAKLADSYVSFFKKIKDDFNEEKERNMRKNLSAVPGFLLVVLKEDENEFTRNDDFAALSGMIQNLQLLAHENGIGMVWKSGRIMYDKQVHQDFGLADNERFAAIIQTGYPDEQPKAKERTPAKSLFTEL				NA	NA	NA	NA	NA
D1-12_02607	885	yddE	COG0384	putative isomerase YddE	ATGAAACAGGCAACCGTGTTTAAATATGAAGCGTTTTCCGATATTCCGGATTTAGGAAATCCCGCGGGAATCGTCTTTAACGGAGATGATTATTCAGATGAAGAGATGCAGATGATCGCCGAAATGGCAGGGTACAATGAAACCTCATTTCTCTGTAAAAGCGGAGAAGCCGATCTGCGCATCCGCTATTTTACACCCGGCCACGAAATGAATTTATGCGGACATGCTACCGTCGCCTCTCTTTACGCATTAATTGAAAAGGGAAGGCTTCAGGCTGATCAGACATATCAAATTGAAACAAAAGCCGGCATTCTTCCCGCAAAAGCCGCTGAACGAAACGGCCGGGTATACATCACGCTCGAACAGGCTCCCCCGCAATTTCTGCCGTTTACGGGCGACAAAGAAAAGCTTGCGGCCTCGCTCGGGATTACGGCTGAGGATTTTCACAGCGGGCTGCCGATTGTTTACGGATCAACGGGGATCTGGACACTGATTGTTCCGCTGAGATCACTTAAAGCATCACGGAATATGGTGCCGGACAACGCACAATTCCCCGCTATTTTGCGCGATCTTCCGAAAGCGAGCGTTCATCCGTTTTCTCTGGAAACCGTTCATCCGGAAAGTGATCTGCACGGACGCCATTTTTCTTCCCCTTTCTCCGGTACGACCGAAGATCCGGTCACGGGAACCGCTTCAGGCGTCATGGCGGCCTATATGCGGCAATACGGAGGCTCCGAAGCCGAATGCCTCACGATTGAACAAGGCCATGAAATCGGGAAAGACGGAAAAGTGGAAATCAGGATTACAGAAGATAACGAAAAGATGAACATCGAGATGACGGGAACGGCCGTGTATGCCGAAACAATCAATTTTCAGCTTCCGTAA	MKQATVFKYEAFSDIPDLGNPAGIVFNGDDYSDEEMQMIAEMAGYNETSFLCKSGEADLRIRYFTPGHEMNLCGHATVASLYALIEKGRLQADQTYQIETKAGILPAKAAERNGRVYITLEQAPPQFLPFTGDKEKLAASLGITAEDFHSGLPIVYGSTGIWTLIVPLRSLKASRNMVPDNAQFPAILRDLPKASVHPFSLETVHPESDLHGRHFSSPFSGTTEDPVTGTASGVMAAYMRQYGGSEAECLTIEQGHEIGKDGKVEIRITEDNEKMNIEMTGTAVYAETINFQLP	PGPT0012805_403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HHQ|PQS_PERCIPITATION|SIGNALLING,PGPT0012805-phzF|yddE-K06998	NA	NA
D1-12_02608	2571	mprF		Phosphatidylglycerol lysyltransferase	TTGCTGACTAAAAAGAATGCCTTATCGATATTAAAAGTATTATTTCCTATTGCAGTTTTGCTTTTAGTCATTTATCAGTCCAAAAAGGAATTGACAGACCTTTCTTTTAAACGAACGCTGTACATTATTAACGGGATTGAGCGTTACGATTTATTTATTCTCGTTCTGCTCGGCCTTCTTGCCGTCAGCGCGATGTCCTTTTATGACTTTGTGCTGAAACGGACGCTTCGCCTCAACATTCCGAATTGGAAAGTATTCAGGGTCTCCTTTATCGCCAATTCCTTTAACAATGTCCTTGGATTCGGCGGTCTGGCGGGCGTCGGGCTGCGGACGATGCTTTACAAAGAACATACGAATGACGTAAAACGCCTCGTCGCAGGCATCGCCTGGCTTACGTCCTCAGCGCTGCTCGGGCTGTCCGTCTTCAGTATCCTGACCATCGCCCGGGTTCTGCCGGTTGGAGAGATTACAGGTGAGAAACCGTGGCTGTGGGCTGTCATCGCCGGCGTGGCGCTTATTGTGCCGGTGGCCTTAATCGCCGCTTGGATCAACAATAAAAAAGCTGGCGCAGAAGACGGTGAAGCAAAACCGAGGCATCCGGTTTTTTCTTACATCGGGGCATCGTTTGCCGAATGGTTTGCGGCGGCTGTCGTCATGTATTATTCTCTGTATGTCATGGGGATTCACGCGGATGTCCGCCATGTATTCGGTGTATTTGCCATTGCCGCCATCGGGGGAATCATCAGCCTTGTGCCGGGAGGATTCGGTTCGTTTGACCTTCTGTTTCTGCTCGGCATGCAGAATATGGGCTTTCCGCAGGAGGCGGTCGTGACATCCATCGTCATCTACCGGATTGTGTATTCATTTATCCCGTTTGTGTTCGGTCTGTTCTTTGCGGCCGGGGACTTAACGGAAAATACGCTGAAACGGCTGGAATCAAATCCGAAGATGGCGCCTGCCGTGGAAACGACGAACGTGCTTCTCGTATTCCAGCGCGCTATCTTAATCAGGGTGCTTTACGGTTCGCTGTCGCTTTTGGTTTTCGTGTCGGGAGTCGTCGTGCTTGCGTCCGTCGCCCTGCCGATCGACAGGGAGACGGTTATTCCGCACATTCCGCGCCCGGCGCTCCTTGCGTTTAATGGGTTATCGCTAAGCGCGGCTTTGATTCTATTAATTTTGCCGATTGAATTATACAAACGGACGAAACGTTCTTATTCAATGGCGGTTGCCGCGCTGGTCGGCGGTTTTGTGTTTAGTTTCTTAAAAGGAATGAATATCAGCGCGATCTTTATTCTGCCTGTCGTCATCGTATTGCTTGTGCTGTTAAAGCGGCAGTTTATCAGAGAGCAGGCATCGTATACGCTCGGCCAGATGATTTTTGCGGCCGCTCTGTTTATTATCGCCTTGTTTAACTACAATCTCATTGCCGGCTTTATTTGGGATAAAATGAATCGGCTGCTGCGCCACGACTATTTCGTCCATAACAATTCGCACATTACATATGCCACGATGACGGCCATTATTGTTGTGCCGCTGTTTTTCCTTGTGTTTACGTTCTTTTATCATAAAAGATCGAAGCCGATCGGAGAAGAGGCCGATCCTGAACGGCTGAAGTCCTTTTTGTCGGAAGAAGGCGGAAATGCCCTCAGCCATCTCGGCTTTCTCGGGGATAAGCGGTTTTATTTCTCAAGCGACGGCAAAGCGCTTTTATTGTTCAGCCAGATTTCCAGAAGGCTTGTCGTGCTCGGTGATCCGTCAGGACAGAGAGACTCTTTTCCGCTTGTGATTGAGGAATTTCTGAATGAAGCGCATAAGCAGGGGCTGAGTGTCATGTTTTATCAAATCGAACGTGAAGATCTGGCGCTGTACCATGACTTCGGCTATAACTTCTTCAAGCTTGGAGAAGAAGCGTTCGTGGATATGGAGGCATTTACGCTCTCAGGTAAGAAAAAAGCGGGGCTGCGGGCGATTAACAACAAATTTGACCGCGAAGGCTACACATTTCATGTCGGGGAACCGCCGTTTTCCTCCGGGTTTATCGCCAAGCTGAAAGGCATTTCGGACGAATGGCTCGGTCCGAAAAAAGAGAAAGGTTTTTCCCTCGGTTTCTTCGACCAGGATTATCTGGAACAGGCGCCGATTGCTTACGTGAAAGACGCGGAAGGGGAGATCATCGCTTTTGCCAACCTGATGCCGATGTATCAGGTTGGCGAGATATCAGTCGACTTGATGCGTTATCGGAAAAGCGCGCCGAACGGTATTATGGACGCGCTTTTCATCCGTCTGTTTCTCTGGGCGCAGGAAAAAGGCTATACCACCTTTAATATGGGCATGGCGCCTTTGTCAAACGTAGGAACGGCTTTTACATCTTTCTGGTCGGAAAGAATCGCGGCCGTCATCTTCAACAACGTCCGGTATATGTACAGCTTCAGCGGGCTGCGGGCCTTTAAAGAAAAATACAAACCGGAGTGGCGCGGGAAATACTTGGCGTACCGCAAAAACAGATCACTGTCCGTCACGATGATCCTCGTCACCCGCCTGATCGGAAAAACCAAAAAAAGACGCCGTTAA	MLTKKNALSILKVLFPIAVLLLVIYQSKKELTDLSFKRTLYIINGIERYDLFILVLLGLLAVSAMSFYDFVLKRTLRLNIPNWKVFRVSFIANSFNNVLGFGGLAGVGLRTMLYKEHTNDVKRLVAGIAWLTSSALLGLSVFSILTIARVLPVGEITGEKPWLWAVIAGVALIVPVALIAAWINNKKAGAEDGEAKPRHPVFSYIGASFAEWFAAAVVMYYSLYVMGIHADVRHVFGVFAIAAIGGIISLVPGGFGSFDLLFLLGMQNMGFPQEAVVTSIVIYRIVYSFIPFVFGLFFAAGDLTENTLKRLESNPKMAPAVETTNVLLVFQRAILIRVLYGSLSLLVFVSGVVVLASVALPIDRETVIPHIPRPALLAFNGLSLSAALILLILPIELYKRTKRSYSMAVAALVGGFVFSFLKGMNISAIFILPVVIVLLVLLKRQFIREQASYTLGQMIFAAALFIIALFNYNLIAGFIWDKMNRLLRHDYFVHNNSHITYATMTAIIVVPLFFLVFTFFYHKRSKPIGEEADPERLKSFLSEEGGNALSHLGFLGDKRFYFSSDGKALLLFSQISRRLVVLGDPSGQRDSFPLVIEEFLNEAHKQGLSVMFYQIEREDLALYHDFGYNFFKLGEEAFVDMEAFTLSGKKKAGLRAINNKFDREGYTFHVGEPPFSSGFIAKLKGISDEWLGPKKEKGFSLGFFDQDYLEQAPIAYVKDAEGEIIAFANLMPMYQVGEISVDLMRYRKSAPNGIMDALFIRLFLWAQEKGYTTFNMGMAPLSNVGTAFTSFWSERIAAVIFNNVRYMYSFSGLRAFKEKYKPEWRGKYLAYRKNRSLSVTMILVTRLIGKTKKRRR	PGPT0024390_650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
D1-12_02609	483			hypothetical protein	ATGGATTATAATCTGCATGATACAACGGTATTAAGCGGCGATATTTTTTCTCCTGAGGAACGGGATATTTGGGTGCTGTACATGAAAGTGATGACATCGGCGGGGCTCGGCGATGTGTCGGAGTGGATGAAGCTTGATATGAGCATGCCGCAAATGAAGGTGCTGATGCTTCTGAACAACCACGGGACGCTTAAGGTGAGTGATATAGCGGAGAAAATGGGCGCTTCTCTTTCAAATACGACGGGGCTGCTTGACCGTTTAGAAAAATCATGTTTCATTACACGCGCTCCGTCAGAAGAAGACCGCCGTTCAGTCGTCGTTCAATTAACGGAAAACGCGAAAGATATTTTCCGCAGCCTTTATCAAAAAGGACATGTAAAATTGAAGCGTTCATTGGAAACGCTGACCGCTGAAGAAAAACAAACGGTCAATCAAGGGCTTGCCATTTTGGCAAGAGCGCTTGATTCTTCCAAACAGGGATAG	MDYNLHDTTVLSGDIFSPEERDIWVLYMKVMTSAGLGDVSEWMKLDMSMPQMKVLMLLNNHGTLKVSDIAEKMGASLSNTTGLLDRLEKSCFITRAPSEEDRRSVVVQLTENAKDIFRSLYQKGHVKLKRSLETLTAEEKQTVNQGLAILARALDSSKQG				NA	NA	NA	NA	NA
D1-12_02610	1593	bmr3_1		Multidrug resistance protein 3	ATGCCGGAGCCATTGCAAACAGAAAAAAACCAGAGCCGGGCCATCACTCTCTTTACGATCGGTGTGTTCATGGCGGCGCTCGACAACGGAATTATTTCCGCTGCTCTGACGACGATTAACGGCTCTTTTGATGTTTCTCCTTCATGGGGATCGTGGGGAGTGACCCTTTACACATTGGGACTCAGTGTCAGTGTGCCGATTGTCGGCAAGCTGTCGGACCGATACGGGCGGAAAAAGCTGTTTATGATTGAAGTCGGGCTGTTCGGACTCGGCTCTTTGCTTGTCGCACTCAGTCAGAGCTTCCCAATGTTTTTGGCGGCACGGCTCATTCAGGCGCTTGGCGGCGGCGGAATTTTTATAATCGGGAGTTCGCATGTGCTGGCCGTGCTTCCGAAGGAGAAACAGGGGAAAGCTCTCGGGCTTTTAGGGGCGATGAACGGTATGGCGGCCGTCCTCGGACCGAATATCGGGAGCTTTTTGCTTGATGTAACCGGGTCGTGGCATTGGCTGTTCTTAATTAACCTGCCGATTGCCGCCGCTTTGGTTGTGTGCGGCGGTTTGTTTATCGCTGAAACGAAAGAGCCTGAGGCGAAACGGCTTGACCTTGCCGGCACAATGCTGCTGTCTCTTGCGATCTTATCTTGCATGATCGGTATTACGAATCTCAATGGGGCGAAGCTGTCAGAAAGCATAATGGACGTAAAGGTGTACGGGTATCTTTTGGGATCGGCACTTCTCTTTCTGGTGCTGCTTAAGGTCGAAAGGCGGGTTGAAAACCGAGGGGGCGATCCGATTCTCGCCTACTCGCTGCTGCAAAATAAAGTGTTTCAATGGACGCTCGTCATCGGATTTTTATCGGGAGGGCTGCTCGCTGCGGTCATTTTTATTCCTTCTTATGCGGAGCAATATTTGCACGTATCGGCGGAGAAAGCGGGTTATTGGATGACGCCGCTCGCGTTGGCGTCAGGAATCGGAGCGTGGCTCGGCGGGGCGATCACGGATAAAAAAGGGCCGGTCTTTTCCGCGGTTGTATCAGGCGCCATCGCATTTGTCGGCTTCAGCCTGTTTCCGTTATGGGTGACGGATAAATGGGAATTTGTCACAGCGAGTGTCATTGCGGGGATCGGTTTCGGATTTCTGCTCGGGGCTCCGCTGAATGTGCTTGTATCAGAAACGGCGGGCCAAAACAAAGGAACAGCGCTCGGCACGCTGTCACTCGTAAGGCAGGTCGGGCTGACGCTCGCTCCGGCTTTATATGCCGGCTTCATTACAGCGGGCTTTGACCGGATCGGAGATGACATCAAAAACCGTTTAGCGAAAAGCGGCATTCCCGCTGATCAGGCGCAAACGCCCGATATCGGCGGCGGACTTTCTTCGTTGCAGGAGCAGGTAAGCCGAATCCCCGTTCCCGCCGTCAAAAAAGCGGTTTCTGATGCGATTGAAGCAGGCATTTCCAGCGGCTACCACCATCTTTATACGGCAGCCGCCGTCATTTCATTATGCACTATTGTGTCTGCGGCTGTTTTGGCGTTTTTCCGGAAGCCGGCATCCTCTAAGACAGATGCCAGCCCATCCGCCGGGAAAGCTCAGTAA	MPEPLQTEKNQSRAITLFTIGVFMAALDNGIISAALTTINGSFDVSPSWGSWGVTLYTLGLSVSVPIVGKLSDRYGRKKLFMIEVGLFGLGSLLVALSQSFPMFLAARLIQALGGGGIFIIGSSHVLAVLPKEKQGKALGLLGAMNGMAAVLGPNIGSFLLDVTGSWHWLFLINLPIAAALVVCGGLFIAETKEPEAKRLDLAGTMLLSLAILSCMIGITNLNGAKLSESIMDVKVYGYLLGSALLFLVLLKVERRVENRGGDPILAYSLLQNKVFQWTLVIGFLSGGLLAAVIFIPSYAEQYLHVSAEKAGYWMTPLALASGIGAWLGGAITDKKGPVFSAVVSGAIAFVGFSLFPLWVTDKWEFVTASVIAGIGFGFLLGAPLNVLVSETAGQNKGTALGTLSLVRQVGLTLAPALYAGFITAGFDRIGDDIKNRLAKSGIPADQAQTPDIGGGLSSLQEQVSRIPVPAVKKAVSDAIEAGISSGYHHLYTAAAVISLCTIVSAAVLAFFRKPASSKTDASPSAGKAQ				NA	NA	NA	NA	NA
D1-12_02611	543	yfiT		Putative metal-dependent hydrolase YfiT	ATGGAAAAACAAACCCTCAGCTATCCGATTGGAGAGTATCAGCCGGCTGAATCGATTTCGGCCGGACAGAAACAAGAATGGATCAATGCGCTCGAACACGTTCCGGCCAAACTGAAACAAGCTGTCAGAGCGATGTCGGACAGTCAGCTTGATACGCCTTACCGAGAAGGGGGATGGACTGTCCGCCAAGTGGTTCACCATCTGGCGGACAGCCACATGAACGGCTATACCCGGTTTAAATTGAGCTTAACGGAGAATGAACCGGAAATCCGTCCTTATGATGAAAAAGGCTGGGCTGATCTTCATGATTCCAAAACAGCCGCTTGCGGGGATGCGCTTGAGCTGTTAACGCTCCTGCACAGAAGATGGGCCGCTCTTTTGCGCTCCATGACGGAAGCCCAATTTAAACGGACATACTTCCATCCTGTGTCTAAAGAGACGGTTACGCTGGAACAGGCGCTCGGACTATATGTCTGGCACTCTGAACATCACATCGCCCATATTACTGAGCTTTCCCGGCGGATGGGCTGGCATCTGTCTTAG	MEKQTLSYPIGEYQPAESISAGQKQEWINALEHVPAKLKQAVRAMSDSQLDTPYREGGWTVRQVVHHLADSHMNGYTRFKLSLTENEPEIRPYDEKGWADLHDSKTAACGDALELLTLLHRRWAALLRSMTEAQFKRTYFHPVSKETVTLEQALGLYVWHSEHHIAHITELSRRMGWHLS				NA	NA	NA	NA	NA
D1-12_02612	273		COG2732	Barstar	ATGAATAAAGCAGTTATTAACGGGGAGCAAATCAGAAGTATGAGCGACCTGCATCAGACATTGAAAAAGGAACTTGCCCTTCCTGAATACTACGGTGAAAACCTTGACGCTTTATGGGATTGTCTGACCGGCTGGGTGGAGTACCCGCTTGTTTTGGAATGGAGACAGTTTGAACAAAGCAAGCAGCTTACAGAAAATGGTGCCGAGAGTGTGCTTCAGGTCTTTCGTGAAGCGAAAGCGGAAGGCTGCGACATCACCATCATACTTTCATAA	MNKAVINGEQIRSMSDLHQTLKKELALPEYYGENLDALWDCLTGWVEYPLVLEWRQFEQSKQLTENGAESVLQVFREAKAEGCDITIILS				NA	NA	NA	NA	NA
D1-12_02613	2412			hypothetical protein	ATGAATGACTGTGTCAAAACATTCGGAGAACTTCCGGCCGAACTTTATTCCTTTGCGGGGGGAAAAGGAAGCATTCTCTCTAAAATGTATCAAAGCGGGTATCCTGTGCCTGAAGGGTTTGTGATTTTGCCGTCAGCCTTTCAGGACGGACAGCTCCGCCATCAGGCGAGAGAGGCTATTGATCAATATGTGAATTCCATCCGCAGCCGCCATGCTTCTGCGTTGTTTGCCGTACGCTCATCCGCGCTGAGCGAGGATTCCGCTCAGGCTTCCTTTGCCGGAGAATTCGATACGGTGTTGAATGTCAAAACAGATCAAGACATGTCCAGGGCGATTGATGAAGTCCGCCGATCGGCACAGTCAGAAAGGGTAAAAGCGTACAGCGCCGTTCAGGGAATGGAAGATGAGCATGAAATCGCAATCGTCATCCAGCTGATGATACCGTGTGAGATATCCGGAGTGCTGTTTACCGCAGATCCGATTACGGGGAGCAGGCGGGAGATGACAGGCAATTACGTCTACGGTCTCGGGGAGCAGCTCGTTTCCGGGGAAGCTGATGCCTATTCTTTTAAACTGGCACGGCCCAAGAAAAAATATGACGGCCCCGCAGAATTTCGCAAATATGCGTCAAAGCTCTATAAACTGGCGAAAAAGCTGGAAAAAGATCTCGGAGGGCCGCAGGATATTGAATGGGCCGCCGCGGGCGGGACATTGTATATTCTTCAATCCCGCCCGATTACGACCTTACAAGCCGGAAATCTGGAAACCTATGAATGGAATGATTCTTTCAGCGGTGATTTTTTATGGACAAACACAAATATAGGAGAAGCGATTCCCGATGTGATGACGCCGCTGACATGGTCGCTCCTCCGGAATCTGGATGAAGAGTCGGGCATCATTCCGGGCTATTATGTCTGGTCCGGCAATATTTGCGGCAGAGCCTATAACAATATGAGCCAGCCTCTTTCCGTTCTCGCCGCTTTCGGTCTGAATCCGAAAGGCGGAAAAATAGGAAAAATGATGAGCGATACATTGGGAGAAATCCCGGCGGAAATGAAGATTCCTTTATATCCGTTCTCAAAGTATGAACTTTTGAAGATCATCTCGAAAAAACTGAAACCGTATCTGTCGAAAATGAAGCACGCGAAAAAAAACATGTCCTCCTATTTGGACGAATCGCCGGAGTGGTGCCGGAATATTGAGGAAAAGCTGAAACGTGCCGAAACGGAGCGGACATTATTAGCGATATGGAACAATGAGATCTATCCGTATTTATGCAACGCGTGGTTTGCGTTAATATCCGGCGGGCGTGATTCTGCGCAATCCTCTTCGTCGTTAACCTCTCAATTAACAAAACTCGCAGGAATAGAAGATGCGAATCTCCTGCTTTCCAATCTGAGGGGAAAAGGCGGACTGGCCAGCCTGGAGCCGATTATCGGCATTGATCAAGTCATGAAAGGCCGTATGAGCGAGGAAGAATATCTCAGGAACCAAGGCCACCGAGGCCCGCATGAATACGAACTTTCCATACCGCATCCCGGAGAAAACCGGGATTGGCTGACGAAGCAGATCAAAGAACACAAGGAGTCGGGTATTGATGCCGAACAACTGCTTTTGAAACAGCAGCAGGCGCATGAACAGGCCTTCCGAAGATTTGAAGAAAAGTTTCCTCATAAGGTCAAATGGCTCAAAGCCAAAATGGAAAAAGCGTCAGAATACGCGAATATTAGAGAAACAACCAGATCCGAATTTGTCAGGGTGTACCGGACAGCCAGAGCATTCGCGCTCAGAGCGGCGGAAATGACCGGCATGAAGGACGATATTTTCTTCTTGTATCTGCATGAAATAACCGATCTGCTCGCGGGGAAAGAGCCGGCGGTTGCGTCGATTCAAGCGAGAAAGCAAAACTATGAAACCTATAAAAAACTGCCGCCGTTCCCATCCGTTATTAACGGAAGATTCAATCCGTTTAAATGGGCTGAGGAGCCTGACAGAAGAGCGGATTATTACGATGCTTTTATGCCTGCGGAAACTGATGATGCGCATACTTTAAAAGGTTTCGCGGGAGCGGCCGGGAGAGTGGAGGGCATTGTCCGTGTCCTAGATGCTCCGGAAGACGGGGATTCTTTTGCGGCCGGGGAAATTTTAGTGACTTCGACAACCAATGTAGGCTGGACCCCGCTTTTTCCGAGAGCGGCTGCCATCATAACGGACGTCGGCGCCCCTTTGTCCCACGCGGCGATCGTCGCCCGGGAACTTGGGATTCCTGCCGTTGTAGGGTGCGGAAATGCAACGTCAAAACTGAAAACGGGGGACAGGGTGGCCGTTGACGGCGGGCAAGGCATCGTCCAGCTGGAACCGCGGCAGACTCCGGCCACTTCTGAAGAGGAAAATGGTAAACTGATAGAATAA	MNDCVKTFGELPAELYSFAGGKGSILSKMYQSGYPVPEGFVILPSAFQDGQLRHQAREAIDQYVNSIRSRHASALFAVRSSALSEDSAQASFAGEFDTVLNVKTDQDMSRAIDEVRRSAQSERVKAYSAVQGMEDEHEIAIVIQLMIPCEISGVLFTADPITGSRREMTGNYVYGLGEQLVSGEADAYSFKLARPKKKYDGPAEFRKYASKLYKLAKKLEKDLGGPQDIEWAAAGGTLYILQSRPITTLQAGNLETYEWNDSFSGDFLWTNTNIGEAIPDVMTPLTWSLLRNLDEESGIIPGYYVWSGNICGRAYNNMSQPLSVLAAFGLNPKGGKIGKMMSDTLGEIPAEMKIPLYPFSKYELLKIISKKLKPYLSKMKHAKKNMSSYLDESPEWCRNIEEKLKRAETERTLLAIWNNEIYPYLCNAWFALISGGRDSAQSSSSLTSQLTKLAGIEDANLLLSNLRGKGGLASLEPIIGIDQVMKGRMSEEEYLRNQGHRGPHEYELSIPHPGENRDWLTKQIKEHKESGIDAEQLLLKQQQAHEQAFRRFEEKFPHKVKWLKAKMEKASEYANIRETTRSEFVRVYRTARAFALRAAEMTGMKDDIFFLYLHEITDLLAGKEPAVASIQARKQNYETYKKLPPFPSVINGRFNPFKWAEEPDRRADYYDAFMPAETDDAHTLKGFAGAAGRVEGIVRVLDAPEDGDSFAAGEILVTSTTNVGWTPLFPRAAAIITDVGAPLSHAAIVARELGIPAVVGCGNATSKLKTGDRVAVDGGQGIVQLEPRQTPATSEEENGKLIE	PGPT0002035_2412	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
D1-12_02614	1089			hypothetical protein	ATGCAGATAAAAGAAATTTTCGTGATTCGCTGCCTGTCCTGTTTAAGTGTCGTTCTGCTTCACGTTGTTTCAATGGTGCTGATGATTCAGGAAGAGTCCTTAGCCAGTGCCGCCCATACGGTTGATGCTTTTCGGACCCTGTTGATGTTCAGCACGCCGGCGTTTATCTTTATTTCGGAATTTCTGCTTGCCAGGTCATACCCGGGAGGCGTTCCCGCTGGTTTTTTAAAGAAAAGGGGCAAAGTCATTTTCGTGCCGTTTCTGTTTATTGCCGCGGTGGATGCCATTTTAATGAAAAGCGTGGCGGAAGAAGGAGCCGGATTCGTTTCAGTGATCGGTAAATTTTTAGAAAATGTGTTTTTAGGAAACTTCATCGGCTACTTCATTCTTGTGATCTTTCAATTTTACATTCTCCATATGCTGCTGCACCGCTGGCTGAACAACACATCTCCCGTGTGGGTGCTGTCTGTTTCATTTATCATCAACGCCGTCTATCTGGCTTACTTTTCCATCTTTCATCCGCCGGCATCATCGGGGCTTGATTCTATTTTTCCGTTCTTTTGGGTTCCGTTTCCGGGCTGGGTGTTTTATTTCTGTCTGGCATTTTATTGCGGAAAGGAATATCCGCGTTTTTTAGCGCTTATCAATCAGTACCGTTATGCGGTTTACTTCAGTGCGGCCGTATCGGCAATATTGATTGTGGCCGTTTCATATATCAGCGGCGGCTCCATTTCCTCTAAGCGTCCGGATATTATGATTTACGCGGTCAGTATGATCTTTCTGTGTTTTCATCTGTTTTCAAAGCTCAAAAAAGTGCCCGCGATTGTGATGATGATCAGCAACTATTCGTTTTCAATCTATCTGCTGCACTCCTACTTTTTAATCAGCGGATATCTTCTGGAAGGCTATTTGCGGTCAATGCCTTTAGCGGCTGCCATTCTTCTTTTATTTTTGATCTGCACGCTCGGTCCCATTTTCGTATCTTGGGTGTGCAACCATTTCAGATACGGATACCTGTTTGTCGGGAAAGTGTATCAGCCGAAGCAGACCAAAAGAAATACGGCGGCGCATCAAGGCCGCACAGTCTGA	MQIKEIFVIRCLSCLSVVLLHVVSMVLMIQEESLASAAHTVDAFRTLLMFSTPAFIFISEFLLARSYPGGVPAGFLKKRGKVIFVPFLFIAAVDAILMKSVAEEGAGFVSVIGKFLENVFLGNFIGYFILVIFQFYILHMLLHRWLNNTSPVWVLSVSFIINAVYLAYFSIFHPPASSGLDSIFPFFWVPFPGWVFYFCLAFYCGKEYPRFLALINQYRYAVYFSAAVSAILIVAVSYISGGSISSKRPDIMIYAVSMIFLCFHLFSKLKKVPAIVMMISNYSFSIYLLHSYFLISGYLLEGYLRSMPLAAAILLLFLICTLGPIFVSWVCNHFRYGYLFVGKVYQPKQTKRNTAAHQGRTV	PGPT0022170_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022170-yfiQ-NA	NA	NA
D1-12_02615	603	azoR		FMN-dependent NADH-azoreductase	ATGAAGACGGTGATTGTGTATGCAAACCCGGATGAGAACAGTTTCAATGCGGCTCTCGTAAAATACGTCGTCATGGCTTTAAAGGACAGCGGCCAAAGCTATACGGTCATTGACTTATACGCCGACCAATTTGATCCCGTGCTGAAGTACGGCGGCGAAAAAAAGCGCTCTGACATGAACCGGGACGCTGAAACGAAGAAATACCGGAAACTGATGAAAGAAGCGGATCATCTCATTTTCATCTACCCGCTGTGGTGGGGAGGCGTTCCGGCGATTATGAAAGGCTTTTTTGACAGAGTGCTTGTCGCCGGAGAAGCCTACACATATGAAAACGGCCGCGTAAAAGGACTGCTCCGGGCAGAGACGGCACAGGTCTTTTATACGGCGGATTCCCCGGGCTGGTACTTAAAGTGGTTCCGGAAAAACTCGGACTGGATTACGCTGAAAAAAGGCATTCTGCAATTTTGCGGCATTCAAAAAGCCGAGCGGAACCTTTTTTCTGTCGTCAAAACGAGCACACCCGAGCTGCGGGAAAAATGGCTGCGCCAAGCATACGCTAAAGTCCGGCGCGCTTGTGAAAAAGGAGCGGCCGCATGCAGATAA	MKTVIVYANPDENSFNAALVKYVVMALKDSGQSYTVIDLYADQFDPVLKYGGEKKRSDMNRDAETKKYRKLMKEADHLIFIYPLWWGGVPAIMKGFFDRVLVAGEAYTYENGRVKGLLRAETAQVFYTADSPGWYLKWFRKNSDWITLKKGILQFCGIQKAERNLFSVVKTSTPELREKWLRQAYAKVRRACEKGAAACR	PGPT0009455_1348	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
D1-12_02616	552			hypothetical protein	ATGAGAATTTTAAAGTACGCGATTTTAGGGCTTTTGCGAAAAGGCGAATTGAGCGGATATGATATATCGAGCTATTTTAAGGAAGAGCTCGGCCAGTTTTGGAGCGCAAAGCACAGCCAGATTTATCCGGAATTAAAAAAACTGACGGCTGAGGGATTTATTACGTTTCGCACTGCGATTCAAGGAACGAAGCTTGAGAAAAAAATGTACACGCTGACTGACAAGGGAGAGCTGGAGCTTGCTGCCTGGCTGACGAAAAAAGACCCGATTCCGGAAACGGTGAAGGATGAATTTATGCTGAAGGCTTATTTCATCTCAGCTTTGACGCAGGAAGAAGCGGATGAGCTATTCACCGACCAGCTCGTAAAGCGGCAGGAGAAATTGTCCGATCTGGAAAACAGTTATCAAGAACTGATGACATCGTCCGCGGAGGCGGATTCATTTTCTTCTCCTGATTTCGGCCATTATCTCGTGCTGACAAAAGCGCTTGAGCGGGAACGGAATTATATTTCCTGGCTTGAAGATATTTTGGCTCTCATCAAAAAAGCATAA	MRILKYAILGLLRKGELSGYDISSYFKEELGQFWSAKHSQIYPELKKLTAEGFITFRTAIQGTKLEKKMYTLTDKGELELAAWLTKKDPIPETVKDEFMLKAYFISALTQEEADELFTDQLVKRQEKLSDLENSYQELMTSSAEADSFSSPDFGHYLVLTKALERERNYISWLEDILALIKKA	PGPT0025575_200	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR|BF-CELL_DENSITY_REGULATION	CE-QSR|BF-BIOFILM-LOW_CELL_DENSITY_REGULATOR,PGPT0025575-aphA-K10917	NA	NA
D1-12_02617	948	ctaB1	COG0109	Protoheme IX farnesyltransferase 1	ATGAACTCAAATGCAGCACAGACGGAACAGTCTATGAAGCATAACGGAAACCGGATGACGGTCAAGGACTTTATCATTCTTGCCAAACCGGGGATTATCATCTCAAATTCACTCGCCGCATTGGGCGGATTTTGGATCGCATGGCTTCAGCCGGAAAGGACGGGCGGAGGGCCCGGTATATTTGCCGCCATGGCGGTTGCTATGATCGGAACGGCGTTAGTCATGGCATCAAGCACTGTTTTTAATAACTTCTTTGACCGCGGCATGGACGCAAAGATGGCGCGAACCCGCACCCGCGCAAGCGTCACGGGGAGAATACCGCCGCCGGTCATGATCCTGTACGGCACATGTCTCGGCGCATTCGGATTCATCATGCTTGCTTCGCTAAATGTACTGACCGCCGTTCTTGGGCTGCTTGCATTTTTGCTGTATGCCGTCGTTTATACGCTTTGGTTTAAAAGACAATCCGTCTGGAGCACATTTGTCGGCAGCTTTCCGGGGGCGGCTCCGCCTTTAATCGGTTATTGCGCGCTGACCGGGTACATTGATATGCCCGCAATTTTGTTATACGCGATTATGTTTTTGTGGCAGCCGCCGCATTTCTGGGCGATCGGAATCAGGCGAAAGGAAGAGTATCGTGCCGCCGGCATTCCGCTTTTGCCGATCATAAAAGGCAATCGCGTCACAAAAATAAAAATGTTGCGCTATATCGCCGTTCTGACTGCGGTTTCGCTGCTCGTTCCTCTTTATATAGACGTCAGCCCGTTTTATACCGCGTCCGCTCTCCTGCTCGGAGCCATGTGGCTGTACCGGAGCATCAAAGGCTTTCAGGCGGCGGATGACACGCAATGGTCGAAGGGGATGTTTTTTTATTCGATTGTGTATTTCAGTCTGCTTTTTCTTATTTTAATGGCTGATTCGTTTATCAATGCGGTTCTCAGAACGTAA	MNSNAAQTEQSMKHNGNRMTVKDFIILAKPGIIISNSLAALGGFWIAWLQPERTGGGPGIFAAMAVAMIGTALVMASSTVFNNFFDRGMDAKMARTRTRASVTGRIPPPVMILYGTCLGAFGFIMLASLNVLTAVLGLLAFLLYAVVYTLWFKRQSVWSTFVGSFPGAAPPLIGYCALTGYIDMPAILLYAIMFLWQPPHFWAIGIRRKEEYRAAGIPLLPIIKGNRVTKIKMLRYIAVLTAVSLLVPLYIDVSPFYTASALLLGAMWLYRSIKGFQAADDTQWSKGMFFYSIVYFSLLFLILMADSFINAVLRT	PGPT0008520_1279	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
D1-12_02618	858	catE	COG2514	Catechol-2,3-dioxygenase	ATGACCGGCATTCATCAAGATACGGCAATCGGTTATGTCAAATTGACCATTAAAAATATGGAACGCTCGCTCGACTTTTACCGGAATGTAATCGGCTTTCAAGTCATCTCGCAGACAGATCGTTCAGCAAGACTGTCAGCAGACGGAAAACGCGTTCTGCTGGTGCTTGAAGAAAATCCAAGCGCCGTCGTTCTGCCGGAGCGGTCTGTCACCGGCCTGTACCATTTCGCGATACTTCTGCCTGACCGGAAAGAACTCGGCATCGCATTGGCCAGGCTGATTGAAAACGGCATCGCGCTCGGTCAGGGGGATCACGCGGTCAGTGAGGCTCTTTACCTGTCTGATCCGGACGGCAACGGTATTGAAATATACGCCGATCGTCCCCGCAGCACGTGGCGCCGGGATGCAGAGGGCAATTATGTCATGCAAACGGCGCCCGTCGATGTGGACGGGCTTTTGGAAGAAGCCGGAGCTGAACGGAAAAGCCGTCTCCCAGAAGGAACTGTTATCGGCCACATCCATCTTCATGTGACGGACTTACAGGAAGCCAAAGCGTTTTACACCGATATTCTCGGTTTTGACATTGTCGGCAATTACGCGGGCATGTCCGCTCTGTTTGTTTCGGCGGGAGGGTATCACCATCACATCGGTCTGAATATATGGGCCGGAAAACATGCGCCGCCGAAACCGGGAAATGCAAGCGGGCTGGATTATTACACCATCGCGCTGCCGCATCAAAAAGAGCTGTCACGTGTGACAAAAGCGCTGACCGATGCCGGCTTTGAGATCGGAGAAAAAGAAGAGGGCGTATTCGTCAAAGACCCTGTATCAGGGGCGGATATCGCATTTACACTGTAA	MTGIHQDTAIGYVKLTIKNMERSLDFYRNVIGFQVISQTDRSARLSADGKRVLLVLEENPSAVVLPERSVTGLYHFAILLPDRKELGIALARLIENGIALGQGDHAVSEALYLSDPDGNGIEIYADRPRSTWRRDAEGNYVMQTAPVDVDGLLEEAGAERKSRLPEGTVIGHIHLHVTDLQEAKAFYTDILGFDIVGNYAGMSALFVSAGGYHHHIGLNIWAGKHAPPKPGNASGLDYYTIALPHQKELSRVTKALTDAGFEIGEKEEGVFVKDPVSGADIAFTL	PGPT0005050_504	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
D1-12_02619	405	catD	COG2259	Putative oxidoreductase CatD	ATGAATAAATCATTCGAAACAGGAACACTGCTTTTAAGGGTTGTAACAGGTATTATCTTTTTTGTTCACGGTTTATCCAAGTTTCAAGGGTTGGAAGGAACTGCGCAATTTTTCCAGAGCATCGGGATTCCGGCCTTTATGGTCTATGTCATCGCGACGATTGAGCTTGTCGGCGGGGTTCTGATCTTTTTCGGTTTGGCAACGCGCATTATCGGCGTTCTGTTTGCCGTCACATTAGTCGGCGCCATTTTCACGGCGAAGCTTTCCTCACCATTTATGGGCGGATCGGAATTTGATTTCATCTTACTGGTTGCGTCAATTCACTTAGCGCTTTCAGGAAGCCGTCTGCTTTCATTGGATCAGCTCCTTTTCAAATCAAAAAAGGGAGAAACTTTTTCAGCATAA	MNKSFETGTLLLRVVTGIIFFVHGLSKFQGLEGTAQFFQSIGIPAFMVYVIATIELVGGVLIFFGLATRIIGVLFAVTLVGAIFTAKLSSPFMGGSEFDFILLVASIHLALSGSRLLSLDQLLFKSKKGETFSA	PGPT0028505_5558	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
D1-12_02620	1818		COG1132	putative ABC transporter ATP-binding protein	ATGCAAAAAGACATTCGTAAACCTTTCCGATATCCGAAAATACCGCTCAAATCAAATGAAGGCGGCAGAAAACGCGCGAAAGCAAAAGATACAAAAGGCACGCTGCGCAGAATCTGGTCTTATGTAGCCGAGAAAAAAGGGCTTTTAACCCTTGTGATCATCATGGTAGTCATAAGCGCCATATTCGGCCTGCTCGGACCGTTCGTCATCGGGAAAGCGATTGATCATTTTATCGTCGGACAGACGACAGACGGATTGGCGGGGGTGCTGTTCATCCTGTTTGGGATTTACCTCGTGCAATCATTGTCCTTATGGTTTCAAAACTATTGGATGATCAATATCTCGCAAAGCACCGTGTTTAAAATGCGGAGCGAGCTGTTTACCCATCTGCATGAGCTGCCGATTCCGTTTTTTGATAAACAGCGGCTCGGGGACTTAATGAGCCGGGTCACCAATGATATCGAAAATGTCAGCTCCACTTTAAATACATCCGTCATTCAAGTGCTGTCGAGCGTCATTACATTCGTCGGCACAATCGCCGTCATGCTGTACATGAGTCCGCTTTTAACATTGATCACGCTTTTGATTATTCCGATCATGCTTTTGAGCATTAAATGGATCACCAACCGGACGGGACTGCTGTTTAAACAGCAGCAGAAAAACCTCGGCGAGCTGAACGGTTTTATTGAAGAGTCGATATCAGGGGCGAAGGTCATTAAAGCCTATTCGAGGGAAGACCGCGTCATGGAACAATTTTTAGAAAAAAACGCGGCGTTACAATCATCGGGTTTTTGGGCGCAGACAATTTCGGGATTCATTCCGAAAGTCATGAACTCTTTAAACAATTTAAGCTTTACGATTATAGCGGCGGTCGGCGGGCTGTTTGCGCTGAAGGGATGGATTTCAATCGGTGCCATCGTCGTATTCGCCGAATACTCGCGGCAGTTCACGCGCCCTTTAAATGATTTAGCCAATCAGTTCAATACGATGTTATCGGCCATCGCCGGGGCTGAACGGGTGTTTGACGTGCTGGATGAAAAAGAGGAGCGGGAAGATGAAGAGCATGCGCTGTACCAGCCGATCAAAACGGGAGAAATTGAATTCCGAGATGTCTCCTTCGGCTATCAGGAAGACAGCTTGATCTTAAAACACCTGTCCTTCAGCGTTCCGAAAGGACAGTCAATCGCCTTCGTCGGACCGACCGGAGCGGGTAAAACAACCGTTACGAGCCTGATCGCCCGTTTTTACGAGCCGAATAACGGAAAAATCCTCATTGACGGAACGGACATCAAAAAACTGACGAGATCCAGTCTGAGAAAAAACATGGGGTTTGTCCTGCAGGATTCCTTTCTCTTTCAGGGCACCATCAGGGAAAATATCCGTTACGGCCGTCTGGACGCATCTGATCAAGAGGTGGAGGCAGCCGCAAAAGCCGCCAATGCCCACGGATTCATCGAACGGCTCCCGAAAGGCTACGATACCGTCCTTACCCAAAACGGTGCGGGCATCAGCCAAGGACAAAAACAGCTTATTTCCATCGCGAGAGCTGTGCTGGCGGACCCGGTGCTGCTCATTTTGGATGAAGCGACGAGCAACATTGATACGGTGACGGAAGTGAAAATACAAGAAGCGCTCGGCCGTTTAATGGCGGGCAGAACAAGCGTCATCATCGCTCACAGGCTGAACACGATTCAAAAAGCCGATCAGATTCTTGTACTGAAAGACGGCGAAATGGCTGAAAAAGGAACCCATGCCGAACTTCTCAGCCAGAACGGGTTTTACCAAGAATTATATGAAAGCCAGTTCCGGGAATCATAG	MQKDIRKPFRYPKIPLKSNEGGRKRAKAKDTKGTLRRIWSYVAEKKGLLTLVIIMVVISAIFGLLGPFVIGKAIDHFIVGQTTDGLAGVLFILFGIYLVQSLSLWFQNYWMINISQSTVFKMRSELFTHLHELPIPFFDKQRLGDLMSRVTNDIENVSSTLNTSVIQVLSSVITFVGTIAVMLYMSPLLTLITLLIIPIMLLSIKWITNRTGLLFKQQQKNLGELNGFIEESISGAKVIKAYSREDRVMEQFLEKNAALQSSGFWAQTISGFIPKVMNSLNNLSFTIIAAVGGLFALKGWISIGAIVVFAEYSRQFTRPLNDLANQFNTMLSAIAGAERVFDVLDEKEEREDEEHALYQPIKTGEIEFRDVSFGYQEDSLILKHLSFSVPKGQSIAFVGPTGAGKTTVTSLIARFYEPNNGKILIDGTDIKKLTRSSLRKNMGFVLQDSFLFQGTIRENIRYGRLDASDQEVEAAAKAANAHGFIERLPKGYDTVLTQNGAGISQGQKQLISIARAVLADPVLLILDEATSNIDTVTEVKIQEALGRLMAGRTSVIIAHRLNTIQKADQILVLKDGEMAEKGTHAELLSQNGFYQELYESQFRES	PGPT0029030_1695	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
D1-12_02621	1734		COG1132	putative ABC transporter ATP-binding protein	ATGTCAAAGGCTTTATCATATGTAAAACCGTATTCTCTTTTGGCGGGAATCGCTCTGTTTTTCATGCTCATCGAGCTTGCGGTAGAGCTGATACAGCCCCTGCTGATCGGGAAAATCATTGACGAAGGAATTTTAAAGCAGGATCTCGGTACGGTTTGGCTGTGGGGCGGCGTGATGATCGGACTGACCGCTGTTTCATTCGCATCGGGCATTTTAAATTCATTCTACTCCGCCCACATCAGCCAGAGCTATGCGTATGATACGCGAAAAGGGATTTTTCAAAAAATTCAATCCTTCTCTTATTCGACGTTTGCGCAATTCTCATCCACATCGTTTATCACCCGGCTGACAAACGATGTGACACAGGTCCAGAATATGCTTTTCATGAGTCTCCGATTTATGCTTCGTGCGCCGTTAATGATCGCGGGCGGCATTATTCTCTCGCTGACCGTTAATGCGAAACTCGGGTTTTTTCTGCTGATCACGGTGCCGATTTTGCTTTTGTTTTTGCTGTGGGTGCTGAAAAGAGGCGGCGCGCTGTTTCGGTCTGTGCAAAAGCGGCTTGATCAGGTCAACACGATCATGCAGGAAAACCTGACGGCGATCAAACTGATTAAAGCGCTCCTCCGTGCAAACCACGAAGTGAAACGTTTTTTGAAATCGAATACGAAGCTGATGGAAAAAACGGTCTCCGCTTTTCGTCTCGTGGAAGCGGCGATGCCGATTTTAATGCTGCTGATGAACATTTGCATTTTGTTTATCTTATGGTTCGGCGCCAAAAGCATTGCTCAGGGCGGAGCGCAGGTCGGCGATGTCGTTTCCGTCATTAACTATGCGACGCGGATTACAGGCGCGCTGTCCGTCCTTCCTTTTCTCATCATGGTATTTTCCCGGGCGAAGGCTTCCGGAGAAAGAATCGGCGAGGTGCTGGAAACAGAAGGCGGCGAGGGAACGGGGCAGGACCCGGCACGGGCGCTTGCAGGCGCGATTGAGTTTCGCGAAGTGTCCTTCCGCTATCCGGGCATGGAAAAAGACGCGCTGCATCACGTGTCCTTTTCTGCCAGCCCGAAAGAAACGGTTGCCATTATGGGCGCGACAGGCTCAGGAAAATCAACGCTTTTTCAGCTGATTCCGCGTCTGTACACGGCTGATTCGGGCAGTATTTTCATAGACGGCAAACCGATCGGTGAATTCTCCGCTTGCGGGCTGCGCAGGGAAATCGGCTATGTTCCGCAGGAAGTGCTTCTGTTTTCGGGCACAATCCGTGAAAATATCGCCTGGGGGCGGGAGGATGCTTCACTAGATGAAGTAATGGAAGCGGCCAAAGACGCGCAAATCCATGACACGATTATGAAGCAGTCAAACGGATACGACACGGTGCTGGGACAGCGGGGCGTCAATTTGTCAGGCGGGCAGAAGCAGCGGATTTCCATCGCGCGCGCTTTTATCAGAAAGCCGTCCCTCCTGCTGTTAGATGACAGTACGAGCGCGCTCGATCTTCAGACGGAAGCGAAGCTTTTACAAGCGATCAGATCCTATGAATGCACGACACTGATTATTACGCAGAAAATAACGACTGCGATGAAGGCTGACACCATCTTATTGCTTGAAGACGGCGAACTGCTGGCCAAAGGCACGCACAAAGAGCTGATGGCACAGTCTCATCTGTACCGGCAGATTTATGAATCACAATTCGGAAAGGAGGGAGCTGACAATGCAAAAAGACATTCGTAA	MSKALSYVKPYSLLAGIALFFMLIELAVELIQPLLIGKIIDEGILKQDLGTVWLWGGVMIGLTAVSFASGILNSFYSAHISQSYAYDTRKGIFQKIQSFSYSTFAQFSSTSFITRLTNDVTQVQNMLFMSLRFMLRAPLMIAGGIILSLTVNAKLGFFLLITVPILLLFLLWVLKRGGALFRSVQKRLDQVNTIMQENLTAIKLIKALLRANHEVKRFLKSNTKLMEKTVSAFRLVEAAMPILMLLMNICILFILWFGAKSIAQGGAQVGDVVSVINYATRITGALSVLPFLIMVFSRAKASGERIGEVLETEGGEGTGQDPARALAGAIEFREVSFRYPGMEKDALHHVSFSASPKETVAIMGATGSGKSTLFQLIPRLYTADSGSIFIDGKPIGEFSACGLRREIGYVPQEVLLFSGTIRENIAWGREDASLDEVMEAAKDAQIHDTIMKQSNGYDTVLGQRGVNLSGGQKQRISIARAFIRKPSLLLLDDSTSALDLQTEAKLLQAIRSYECTTLIITQKITTAMKADTILLLEDGELLAKGTHKELMAQSHLYRQIYESQFGKEGADNAKRHS	PGPT0029025_1700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029025-efrA-K18887	NA	NA
D1-12_02622	2325			hypothetical protein	ATGACAAACTATACGACTTTCTTAGGACTTTACAAACCCGATAAAGCTGAAGGGATTGAAGTTGAAAGCATTGCTCAAAACTTTGAAGCGATTGACAGCAAAATCGGTGCAGCCCTTAGTGATGGCACGTCAACTTATGAAAACTTAAACGAAAGACTTAACATGTATGAAAACAGGTTTGACAATGTTACAGAGCGGAACGTTATGGACTTTGGAGCTAAAGGTGACGGCGTAACAGATGATACGCAGGCATTTCATGATGCCATGGCCGACGGAGGTTATGTCGTAACAGTTCCCGCGGGTGTATTCAGAACATCGGGATTGTTCGTTCCGTCAAATACAATGCTTGTCGGAGCAGGCAAGAAAAGAACGGTCATTAAATTATTAGACGAAACACCGGTCGGTCATTCTGTTCTGACCAACAGTGATTATACGAACGGTAATGAAAATATTTACGTCGGCCATCTCACGCTTGACTGGAACAAGGATACGCGTCCTGCCGGCTGGAAGATTCCGAAAGGTCCCACATCAAGCTGTTTGCTTTTTGCGAATGTTGACTATTCTTTTGTTGAGCATGTGTTTGCGAAGAACGCCGGCCTGCACGGCTTTGATTCCACGAGCCCGAACTATAACAGACATGGAGAAAAAGATGATCCAACTTATTATCAGCCCGACGGCTGTAACTTTGTAACGTTTTCACATTGTGAAGCAACAGGGTCCGGGGATGATAACTTTACTTGTCACTTTGGATTCCACACTACTTTCAGCCACTGTGTTTCTTATCACCCGATGGGAAATGGGAATGGCACGTCAAATTCAAATTGCTTTGAGATCGATGACGGTTCTCAAGATGTATTTGTAGATAGCTGTGTTGCAATTGGCGGTGCACGCGGTTTTGAAATTAAGGCGCATGACTATGCACCGGCGGCTAAACGAGTTCAACTGGCTAATTGCCGTGCTTACGAAAATGCGATCGGTTTTTGCATTAGACATATTGGCCATCATTTATCGGCTGAGCCGACATCAAAAACTGCCCATGATGTTCAATTAGTAAATTGTCAGGCAACAAATCCTAAACAAAATTCTATATATAAAGGCGTCGGAGCGAGTGCGTTGGTTGTTTCGGGCTATGATTCAGTTAATATAGTGAATTTCCAAGCTATTTGTGAAGATCGTTCATACGATTACAGCAATGACACGATCATTATGATTTATTACAAAGGGCGGTATGTCAATCTGAAGAATATCACGATCCGCGGGTTCCGCTCCGCTGCTCATGATCTGTATGTTCTTGGCGGAGAAAATGCGGTAGGAAAGTGCATGATTGACGGCGTTTTTCTAGTTGATGGCGGCACGACGGGACTTACTTTTGGCGGAGGCGTTGATAATTGTACAGTGAGCAATGTATACGGGCATAGATTGGGAGCCAGCAGCGGAACGGTCGGACTCTATTCTTCGGGTCCGGATCTGAATATATCGAATATTGATTTTCAAGGATATGAAACAACATTTCATGTAGGCGGTAAAAAAACACCGTATGAGTTGTTTAAACATAAAGGATCTTCTGTTATGGCATCTAAAGATTCCCATGTTACAGGAACTAATGGCTTTGTCATCGGTACTGTCCGGGGACAGGCTGCAGGAGGTTCTCAATCTGGAGTAATCGGTTCATATAATACGATTAACCCAAATGCGAACTCAACTGTATGGGGCTGGGGTTCCGGCAGCACTCCGTCATCAGCCAACAGAAAGATTGAGCTTCACGCAAAAGAAGGAACCATTAAGGCCACGGGAGGCGTAACAGGTTCCTCGACATTCTCTGACTACGCCGAGTATTTTGAGAGCCTGAGCGGGGAAAAGATTCCGACGGGAACACTTGTCACACTTGAAGGTGATAAGATCAGGCAGGCTGAAAAAGGTGACCTCATGCTTGGGGTCATTTCGGAGACCGCCGGAGTGATTCTTGGTGAGTCGAGTTTTCACTGGTCGGGACGATACGTAAAGAATGAATTTGGCGGCTATGTTTATGAAGAACAGAAAGATGCGAACGGCCATACGGTCATGGCGCCAAAAGAAAATCCGGACTTTCGGCCTGAAGAAGACTACGTTTCAAGAGAAGAGAGAGACGAGTGGAACATTGTCGGACTCATCGGCCAGGTATATGTCAGATGCGATGAGACTGTGAAAGCGGGAGATTTTATTCACGCTCATAACGGGATTGCAACAAAATCTGATGCTCCAAACCAGCGTTGGCAGGTCATGAAAGTGATCAATGAGTTTGATGCTGATAAAGGATTCGGGGTCGCTCTCGTTTTCATTCGTTAA	MTNYTTFLGLYKPDKAEGIEVESIAQNFEAIDSKIGAALSDGTSTYENLNERLNMYENRFDNVTERNVMDFGAKGDGVTDDTQAFHDAMADGGYVVTVPAGVFRTSGLFVPSNTMLVGAGKKRTVIKLLDETPVGHSVLTNSDYTNGNENIYVGHLTLDWNKDTRPAGWKIPKGPTSSCLLFANVDYSFVEHVFAKNAGLHGFDSTSPNYNRHGEKDDPTYYQPDGCNFVTFSHCEATGSGDDNFTCHFGFHTTFSHCVSYHPMGNGNGTSNSNCFEIDDGSQDVFVDSCVAIGGARGFEIKAHDYAPAAKRVQLANCRAYENAIGFCIRHIGHHLSAEPTSKTAHDVQLVNCQATNPKQNSIYKGVGASALVVSGYDSVNIVNFQAICEDRSYDYSNDTIIMIYYKGRYVNLKNITIRGFRSAAHDLYVLGGENAVGKCMIDGVFLVDGGTTGLTFGGGVDNCTVSNVYGHRLGASSGTVGLYSSGPDLNISNIDFQGYETTFHVGGKKTPYELFKHKGSSVMASKDSHVTGTNGFVIGTVRGQAAGGSQSGVIGSYNTINPNANSTVWGWGSGSTPSSANRKIELHAKEGTIKATGGVTGSSTFSDYAEYFESLSGEKIPTGTLVTLEGDKIRQAEKGDLMLGVISETAGVILGESSFHWSGRYVKNEFGGYVYEEQKDANGHTVMAPKENPDFRPEEDYVSREERDEWNIVGLIGQVYVRCDETVKAGDFIHAHNGIATKSDAPNQRWQVMKVINEFDADKGFGVALVFIR				NA	NA	NA	NA	NA
D1-12_02623	1587	malP_1	COG1263	PTS system maltose-specific EIICB component	ATGATGCAAAAAGTCCAGCGCTTCGGCAGCGCGATGTTTGTGCCTGTTTTATTATTTGCATTTTCCGGTATTATTGTCGGTCTGAGTACGCTGTTTAAAAATAAAACGCTGATGGGGCCGCTGGCTGATCCTGACGGGCTTTGGTATCAATGCTGGTACGTCATTGAACAGGGCGGCTGGACCGTCTTTAATCAAATGCCGCTCCTGTTTGCGATCGGCATACCTGTCGCTTTAGCGAAAAAAGCGCAGGCACGAGCCTGTTTGGAAGCGCTTACAGTTTATCTGACATTCAATTACTTTATCAATGCGATTCTGACGGTTTGGGGCGGGGCTTTTCATGTCGATATGACTCAGGAAGCCGGCGGAACGAGCGGGCTGACGATGATCGCCGGCATCAAAACGCTTGATACGAATATTATCGGCGCCATCTTTATTTCATCTATTGTCGTGTATTTGCACAATCGTTATTTTGATAAAAAACTGCCGGATTTTCTGGGGATTTTTCAAGGATCTTCATACATCGTTATCATTTCTTTCTTTATTATGATACCGATTTCACTTGCGGTGGCATACGTATGGCCGATGGTTCAGTCCGGAATCGGATCGCTGCAAAGTTTTCTCGTTTCTTCCGGGGCGATCGGCGTGTGGATTTACACGTTCCTGGAGCGGATTTTAATTCCGACCGGCCTGCATCATTTTATTTACTCGCCGTTTATTTACGGTCCGGCTGTGGCTGAAGGCGGTATCGTCACCTATTGGGCGCAGCATCTCGGGGAATACTCTCAAAGCGTCAAACCGCTGAAAGAATTGTTCCCGCAGGGGGGATTCGCGCTTCACGGCAACTCGAAAATCTTCGGCATTCCGGGAATCGCGCTCGCTTTTTACGTCACGGCTTCAAAGGAAAAGAAAAAAATCGTCGCCGGCCTTTTGATTCCGGTCACCTTAACGTCCATTGTCGCGGGAATTACAGAGCCGATTGAATTTACATTCCTTTTTATCTCGCCGTTTTTATTTGCGGTTCATGCTTTGCTTGCCGCTTCCATGGCAACCGTCATGTATATGGCCGGCGTCGTCGGAAATATGGGAGGCGGTTTGATCGAAGCTGCGACCTTGAACTGGATCCCGCTGGCGTCAAGCCATGGCTTGACGTATGTATACCAGATCATCATCGGGTTGTGTTTTACCGCTATTTACTTTTTCGTCTTCCGTTTCCTCATTCTCAAATTCAACATCGCCACACCGGGCAGAGAAAAAGAGGAAGGACAGGAAACAAAGCTCTATTCGAAAAAGGAGTACAGAGAACGGAAGCAGGCTTCAAAAGAAACAGCGGCGGCAGACGAAACACAGCGGGATACAGCCGCTTTGTATATTGAAGCGCTGGGCGGAAAAGACAATATTACGGAGGTCACCAACTGCGCCACCCGTCTCCGCGTCACTGTCGCTGATGAATCAAAGGTCAAAAGTGACGCCGATTTCAGAGAGCTGGGAGCCCACGGCGTCGTCAGAAAAGGCAGGGCGCTTCAGGTCATTGTCGGATTAGGCGTTCCGCAAATGCGGGAGCGTGTCGAGAAAATATTGAACGGTTAA	MMQKVQRFGSAMFVPVLLFAFSGIIVGLSTLFKNKTLMGPLADPDGLWYQCWYVIEQGGWTVFNQMPLLFAIGIPVALAKKAQARACLEALTVYLTFNYFINAILTVWGGAFHVDMTQEAGGTSGLTMIAGIKTLDTNIIGAIFISSIVVYLHNRYFDKKLPDFLGIFQGSSYIVIISFFIMIPISLAVAYVWPMVQSGIGSLQSFLVSSGAIGVWIYTFLERILIPTGLHHFIYSPFIYGPAVAEGGIVTYWAQHLGEYSQSVKPLKELFPQGGFALHGNSKIFGIPGIALAFYVTASKEKKKIVAGLLIPVTLTSIVAGITEPIEFTFLFISPFLFAVHALLAASMATVMYMAGVVGNMGGGLIEAATLNWIPLASSHGLTYVYQIIIGLCFTAIYFFVFRFLILKFNIATPGREKEEGQETKLYSKKEYRERKQASKETAAADETQRDTAALYIEALGGKDNITEVTNCATRLRVTVADESKVKSDADFRELGAHGVVRKGRALQVIVGLGVPQMRERVEKILNG	PGPT0016930_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0016930-glvC|malP|aglA-K02750	NA	NA
D1-12_02624	762	glvR	COG1737	HTH-type transcriptional regulator GlvR	ATGAGTCTTGAAGAACTGGTTAACCAGCATTACGCGAAATTAAATGACAACGATTTTTATATTTTAAAATATATATTGAATCATAAACATACGTGCTACCATCTCGGTATCAATGACATGGCGAAAGCCTGCAATGTTTCTCGGTCTTCCATCCTGCGGCTCGCCCAAAAACTGGGCTTCAGCGGCTACAGTGAATTCCGGGTTTTTCTGAAATGGGAGGATCAGCCTGAAGAGGGCGAGAATATGACGTTTGAAAAGCTGCTGGATGATATTGAAGCCAATGTAAAATACGTGAAGTCAAAAGATATGACGGAGATGTGCCGGCTGATAGATGAAGCAAAACGGATTTTCGTTTACGGATCGGGGACGGCTCAGAGGGTGTGCGCCCGTGAGCTGCAGCGGATGTTTGTATCCCGGCGGAAGTATCTGATTTTAATTCAGGACATTATAGAGTTTGATATCATGTGTGATGATTTTAAGGTTGATGACGTATTCATCATTATTTCTTTATCAGGCGAAACACCCGAATTAATTCCGCAGGTAAGGACCCTGTCCGCAAAGGGAGTTCCGTTTATTTCAATCACCAATCTGAAAAACAACGTACTGGCGCAAACGACGCCGTATAATCTTTATGCGACCAGCAAGCCGGTGACGTTAAGCGATAAAACGGAAATCGTCGCATTTGCCCCGTTTTTTCTGGTGGGCGAAGCGTTATTCCGTGCATATGTTGATTATAAAGAGCTCGAAAATTTTGATAAATAG	MSLEELVNQHYAKLNDNDFYILKYILNHKHTCYHLGINDMAKACNVSRSSILRLAQKLGFSGYSEFRVFLKWEDQPEEGENMTFEKLLDDIEANVKYVKSKDMTEMCRLIDEAKRIFVYGSGTAQRVCARELQRMFVSRRKYLILIQDIIEFDIMCDDFKVDDVFIIISLSGETPELIPQVRTLSAKGVPFISITNLKNNVLAQTTPYNLYATSKPVTLSDKTEIVAFAPFFLVGEALFRAYVDYKELENFDK				NA	NA	NA	NA	NA
D1-12_02625	1350	glvA	COG1486	Maltose-6'-phosphate glucosidase	ATGACAGACAAATCATTCTCAATCGTTATTGCAGGCGGCGGCAGCACATTTACCCCCGGAATTGTATTAATGCTTTTGAATCACCTGGAAGAGTTTCCGATCAGAAAGCTGAAACTTTATGACAATGATAAAGAAAGGCAGGAGCGGATTGCGGGTGCGTGTGAGGTATTCATAAAAGAAAAAGCGCCGGACATTGAATTTTTGGCGACTGATGACCCAGAGACGGCTTTTACGGATGTTGACTTCGTCATGGCGCATATCCGCGTCGGAAAATATGCGATGCGCGCACTCGATGAACAAATCCCGCTGAAGTACGGCGTGGTCGGCCAGGAAACATGCGGGCCGGGCGGAATCGCATACGGCATGCGCTCTATCGGCGGTGTTCTTGAGATTCTTGATTATATGGAAACGTACTCGCCTGACGCATGGATGCTGAATTACTCCAATCCGGCGGCGATTGTGGCCGAAGCTACACGGCGCCTCAGACCGAATTCAAAAATATTGAACATCTGCGACATGCCGGTCGGAATTGAGGATCGCATGGCGAACATCCTCGGATTATCTTCACGAAAAGAACTGAACGTCCGTTACTACGGCTTGAACCACTTTGGCTGGTGGACGTCCATCACAGACCGGCATGGCAATGATTTAATGCCGAAGCTGAAAGAGCATGTCCGTGAATACGGCTACGTTCCGAAGACGGAGGCCGAAGAGACTGAAGCAAGCTGGAATGACACCTTCAAAAAAGCGCGCGACGTACAGGCGGCTGATCCGGATACGCTTCCGAACACATATCTGCAATATTACTTATTCCCGGATGATATGGTGAAAAAATCAAACCCGAACCATACGAGAGCCAACGAAGTCATGGAAGGGCGCGAAGCTTTCATTTTCAGCCAATGCGATATGATTACGCGCGAACAATCATCGGAGAACAGTGAAATTAAAATTGATGATCATGCTTCCTATATCGTCGACCTTGCCCGGGCCATCGCTTACAACACAGGGGAGAGAATGCTGTTAATCGTTGAAAATAACGGCGCGATCGCAAACTTTGATCCGTCAGCCATGGTTGAGATTCCTTGTCTCGTAGGTTCAAACGGACCTGAACCGCTCTCAATCGGGAACATACCGCAATTTCAAAAAGGCCTGATGGAACAGCAGGTGTCTGTCGAAAAACTGACGGCTGAAGCGTGGGAAGAGCGGTCATTTCAAAAGCTGTGGCAGGCGCTGATTCTGTCAAAAACAGTGCCGAACGCCCGTGTGGCAAAACTGATTCTTGAAGATCTGATGGAGGCTAATAAGGACTACTGGCCTGAACTTGATGTAAGTCCGTCTCCTATTTCTTGA	MTDKSFSIVIAGGGSTFTPGIVLMLLNHLEEFPIRKLKLYDNDKERQERIAGACEVFIKEKAPDIEFLATDDPETAFTDVDFVMAHIRVGKYAMRALDEQIPLKYGVVGQETCGPGGIAYGMRSIGGVLEILDYMETYSPDAWMLNYSNPAAIVAEATRRLRPNSKILNICDMPVGIEDRMANILGLSSRKELNVRYYGLNHFGWWTSITDRHGNDLMPKLKEHVREYGYVPKTEAEETEASWNDTFKKARDVQAADPDTLPNTYLQYYLFPDDMVKKSNPNHTRANEVMEGREAFIFSQCDMITREQSSENSEIKIDDHASYIVDLARAIAYNTGERMLLIVENNGAIANFDPSAMVEIPCLVGSNGPEPLSIGNIPQFQKGLMEQQVSVEKLTAEAWEERSFQKLWQALILSKTVPNARVAKLILEDLMEANKDYWPELDVSPSPIS	PGPT0014100_109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014100-glvA-K01232	NA	NA
D1-12_02626	183	sspH		Small, acid-soluble spore protein H	GTGAATACACAGCGTGCGAAAGACATTTCGGAATCCGCCGCCATGGCGTATGTGACGTATGAAGGAGTTCCGATTTATATTCAGCATGTCAACGAAGACAAGGAAACAGCCAGGATTTTTCCGATCGGAAATCCACAATTTGAGCAGGAAGTGCTGCTTTCTGATTTACAAGAGCATTTTTGA	MNTQRAKDISESAAMAYVTYEGVPIYIQHVNEDKETARIFPIGNPQFEQEVLLSDLQEHF	PGPT0024895_120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024895-sspH-K06425	NA	NA
D1-12_02627	1809	acoR	COG3284	Acetoin dehydrogenase operon transcriptional activator AcoR	ATGAATGTCATTCGGAATGATTTTAAAACCTGGAAGCGCTTTGTGAAAGAAGGCGTGCTTGATGAATCCCGTATTCAGAAGCGGGTGGCGGCCTCATGGCACCGCTGCAAAAAAGCCGACGTCAATCCTTATCTCGAAAAGGGGCCGAATGTAATGCCGGCAGATCATTTAGAAAGGCAGGCCGAAAAGCATGCGTTATTTTTAGCGGCCTCAACGCCGTATGCAGAAAGAATGAAAACGGCAATGCGGGAAATGGAAATGATGGTTCTTCTGATTGATTCTGACGGCGTGGTTCATTCGGTTGACGGCCATCCGCGCACCATTCATGAAGCGCACCGCATCAATTTCTTAAAAGGCGCCCGCTGGACGGAAACAGCCGTCGGCACGAATGCGATCGGGACGGCTCTTTTTACAAATGAGCCGGTCATGATACACGGCTCTGAACATTATTCGCTCGCTTCTCATCAATGGAGCTGTTCCGCCGCGCCGATCCGTTATGAAGACGGACGGCTGGCGGGTGTCATTGATATTTCCTGCCCCGCCGCCCGCGCTCAGCCTTTTATGCTCGGAATTGCCTCCTCCATCGCTTATACGGCGGAACGGGAGCTTGCCCTAAAGATCAAAATGACAGAACTTGATATGATCAGCAAATTCGCCGGGCTGACCCGGTCTCACGATCCGATCGTGCTTTGCAATGAAATGAGCCGGATTATCGCCGCAAGCCGTCCCGTTCAGCATTTTACCGGACATACGCTGCGCGAGCTTGAGGAACAGGGCTTTCACATCAAGCAGGCGAAGCGGGAGGAGAACGGCTTCTCGTGCATTTACTTATCCAAACGAGAAGAAAAGCCTTCTTTTATATTTCATGGTGCGGCAGGCAAAAGCCCGTCATCCCGACATATGCTCCAGCAGCTGGAGCTTGTCGCCCGAACGGACGCAACCGTCTGTCTTACGGGAGAAACCGGGACGGGAAAGGAGATTGCCGCCCGGGCGATTCATAACAACAGCTCCAGGAAAAACGGCCCGTTTATCGCCGTCAATTGCGGAGCGGTCCCCGAAAAGCTGATTGAGAGCGAACTGTTCGGCTACTCGGAAGGCGCCTTCACCGGGGCCAAACGGAAAGGACATAACGGCGCTTTGCAAAAAGCCGATAAAGGCACGCTTTTCCTCGATGAAATCGGAGAAATATCACACTCCATGCAGGTCGCTCTGTTACGGGTGCTGCAGGAACGGAAAGTCACCCCGGTCGGCGGGACAAAAGAGATTCCCGTCGACATCAGAATCATCACTGCCACCCACACTGATCTGAGACAGCTTGTCGAATGCAAAAAGCTGAGAGAAGATTTATTTTACCGGCTTCACGTCTGTCCGATTCATCTCCCTCCATTAAGAGAACGCACCGAAGACATTCCCGGACTCTTCCTTGAATTTCAGCGAAATCGCGGCTGGCGGGGGGAGCTTCCTGATGACTTTTTAGACCTATTAAAGAGCCGGAAATGGCCGGGGAATATCAGGGAATTGTTTAATGTATTTGAACGTCTTTCCGTCATGTTCCCGGACGGGCGGCTGTCAGGGCGCCCCATCGCAGCCCTGCTTGAAGCGTCAGGTCTTAAAGAGGCGGCCGAGTCTTATGAACAGGAAGAAGCGTCCCCCGTCTCCATCCGGGAGCACATTCAGAAAAACATCATCGTAAACGCGCTTGAATCGGCGAAGGGAAATGTCACGCTGGCCGCCAAAATGGCCGGAATCCCGCGGAGCACGTTTTACAAACGCCTCAAAAAATTCAAACTCACCGCCGGACAATTGTAA	MNVIRNDFKTWKRFVKEGVLDESRIQKRVAASWHRCKKADVNPYLEKGPNVMPADHLERQAEKHALFLAASTPYAERMKTAMREMEMMVLLIDSDGVVHSVDGHPRTIHEAHRINFLKGARWTETAVGTNAIGTALFTNEPVMIHGSEHYSLASHQWSCSAAPIRYEDGRLAGVIDISCPAARAQPFMLGIASSIAYTAERELALKIKMTELDMISKFAGLTRSHDPIVLCNEMSRIIAASRPVQHFTGHTLRELEEQGFHIKQAKREENGFSCIYLSKREEKPSFIFHGAAGKSPSSRHMLQQLELVARTDATVCLTGETGTGKEIAARAIHNNSSRKNGPFIAVNCGAVPEKLIESELFGYSEGAFTGAKRKGHNGALQKADKGTLFLDEIGEISHSMQVALLRVLQERKVTPVGGTKEIPVDIRIITATHTDLRQLVECKKLREDLFYRLHVCPIHLPPLRERTEDIPGLFLEFQRNRGWRGELPDDFLDLLKSRKWPGNIRELFNVFERLSVMFPDGRLSGRPIAALLEASGLKEAAESYEQEEASPVSIREHIQKNIIVNALESAKGNVTLAAKMAGIPRSTFYKRLKKFKLTAGQL	PGPT0001030_1673	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
D1-12_02628	1380	pdhD_2		Dihydrolipoyl dehydrogenase	TTGACACTAGCCATTATCGGCGGCGGGCCTGCCGGATATGCAGCTGCCGTGACTGCCGCGCGGAGGGGAGAAGAAGTCGTTCTGATCGACAAAGGGCCGCTTGGAGGCACTTGTCTCAATGAGGGATGCATCCCGACAAAGTCGCTTTTGGAAAGCGCGAATGTGCTCGATAAAATCAGGCATGCAAATACATTCGGCATCGAACTGCCGCAAAACATTACACTCAATTGGGCCCGCATGCAGGGGCGCAAACGGCAAATCGTCAGCCGGCTCGTGCAGGGAATTCAATACTTAATGAAAGCAAATCAGATTAAAGTCATCAGCGGGACAGCTTCATTTCTCACAGAGCAGACATTGCTTGTTGAAGGAGAAGGAGGCGCAAAAGACATTCTGGAAGCGGATCGGATATTGATTGCATCCGGATCTGAACCGGCGGAGCTGCCGTTTGCCCCATTTGACGGCGATTGGGTGATCGACAGCAAAGATGCGCTTTCTTTACAGAAAATCCCTTCTTCTCTGCTTATTGTCGGGGGAGGTGTGATCGGCTGTGAATTTGCCTCTTTATTCAGCCGGTTTAAAACGAAAGTGACTGTGATTGAATCCGCTGACCGGCTGCTCCCGGCAGAAGACGGGGAAATCGCCGCCGTTTTCGAAGACTCTTTAAGAGACAGCGGGGCTGATATTCAGACAAAAGCCGCCCTTCAACGGATTGATAAAGAAAGGAAAACTGCCGTGTGGACAAAAGACGGCAAAGAATTTGAGGCGCAGGCTGATCACGTTTTGGTTGCAATCGGGAGAAAACCGCGTTTGCAAGAGCTGAATCTGGAGCAGGCCGGCATCCGGTATTCTCCGCGCGGTATTGAAGTCAATGACCATATGCAGACCAATGTGCCTCATATATACGCATGCGGCGATGCGGCCGGAGGAATGCAGCTCGCGCATGCCGCCATTCATGAAGGAATCACAGCCGCCGCGCATGCCACGGGAAAGGACAGCAAAGTCGATATGCGGGCGGTGCCCCGCTGTATTTATACATCGCCGGAAATGGCCGCTGTCGGGCTGACGGAAACACAGGCGAGAGAAACATACGGAGATGTGAAAATCGGAGAATGTTCATTTTCTGCTAACGGAAAAGCGTTAATTAAACATCAGCATGGCGGCAAAATGAAAATCATTGCCGAACCGGAATTCGGAGAAATCGTCGGCGTGTCAATGATCGGGCCGGACGTGACGGAATTGATCGGTCAGGCGGTCATGATGATGAACGGTGAAATGACGGCTGATATGTCGGAGCACTTTATCGCGGCGCATCCGACTCTGTCAGAAACGCTTCAGGAAGCCCTGCTGAATGTCACCGGACTTGCGGTGCATTCCGTATAA	MTLAIIGGGPAGYAAAVTAARRGEEVVLIDKGPLGGTCLNEGCIPTKSLLESANVLDKIRHANTFGIELPQNITLNWARMQGRKRQIVSRLVQGIQYLMKANQIKVISGTASFLTEQTLLVEGEGGAKDILEADRILIASGSEPAELPFAPFDGDWVIDSKDALSLQKIPSSLLIVGGGVIGCEFASLFSRFKTKVTVIESADRLLPAEDGEIAAVFEDSLRDSGADIQTKAALQRIDKERKTAVWTKDGKEFEAQADHVLVAIGRKPRLQELNLEQAGIRYSPRGIEVNDHMQTNVPHIYACGDAAGGMQLAHAAIHEGITAAAHATGKDSKVDMRAVPRCIYTSPEMAAVGLTETQARETYGDVKIGECSFSANGKALIKHQHGGKMKIIAEPEFGEIVGVSMIGPDVTELIGQAVMMMNGEMTADMSEHFIAAHPTLSETLQEALLNVTGLAVHSV	PGPT0001380_8185	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
D1-12_02629	1194	pdhC_3		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGGCTGTAAAAGTAGTAATGCCGAAGCTGGGAATGGCGATGAAGAAAGGTGAAGTATCCGTCTGGAATAAAAAAGTCGGCGACCCGGTTGAAAAGGGAGAAAGCATCGCCAGCATCAACTCGGAAAAAATAGAAATGGAAATAGAAGCGCCTGAAAGCGGCACGCTTCTTCATATTAAAGTCAAAGAGGGAGAAGGAGTCCCGCCGGGAACGCCCATCTGTTATATCGGGGAAAACGGCGAAGAAGTGCGGGAGAAGGAGGCGCCGGCTCCTGAAAATGCAGGGAAACCGCAATCTGAACCTGAACATATGCCCGCTCCCAAAGCCGGGCAAAAGCGTAAACACCGCGTGAAAATATCTCCCGTTGCCCGAAAAATGGCGGAGAAAGCCGGGTTGAAAGTTGATACGCTGAACGGGACGGGGCCCGGAGGCAGAATCGTAAAAGCTGACGTCATCAAGGCCATGAAGACGGAATCTGAACCGCAGTCTTCGGTTCAGACGGCACAGCCGGAGGGAAAACCGGCTTCAGCGATGAGAAAAGTGATTGCAGACCGAATGCACAAAAGCCTGCAAAACAGCGCCCAGCTGACGCTGACTATGAAAGCGGACATTACGGAGCTTGTAAAATGGCAGCAGCAGCTCGCCGACAGCGCGAAAAAGCGGAGCGGTGTTAAACTGACGGTCACACATTTCGTATCCCGGGCCGCGGTGCTTGCGCTGAAACAGCATCCTGAGCTGAACAGCTCTTATCAAGAGGAGCGGATCATCACCTATCCATATGTCCACCTCGGGATGGCGGTTTCTCTTGAAAACGGTCTCGTCGTGCCGGTGATCCGGGATGCGGAAAAGCTTTCATTCCTTGAGCTTGCGGATCACATCAGCACATCGGCACAACGGGCGCGGGAAGGCAATGCTTCCGGAGATGACCTGCGCGGATCGACATTTTCTATTACAAATCTCGGGGGTTACGGAATTGAGCATTTCACCCCGATTCTTAATCCGCCTGAAGCCGGTATTCTCGGAGTGGGCGCAAGCTATGAAACGCCGGCGTTTAAAGGAGATGAGCTTGTCAAAAGCACCATGCTGCCGCTGAGCCTTACCTTTGATCACAGAGTATGTGACGGCGCACCGGCTGCGGACTTCCTGAAAACGGTCAAAGCGCTGCTTGAAGAGCCGGCCGGATTGATTTTATAG	MAVKVVMPKLGMAMKKGEVSVWNKKVGDPVEKGESIASINSEKIEMEIEAPESGTLLHIKVKEGEGVPPGTPICYIGENGEEVREKEAPAPENAGKPQSEPEHMPAPKAGQKRKHRVKISPVARKMAEKAGLKVDTLNGTGPGGRIVKADVIKAMKTESEPQSSVQTAQPEGKPASAMRKVIADRMHKSLQNSAQLTLTMKADITELVKWQQQLADSAKKRSGVKLTVTHFVSRAAVLALKQHPELNSSYQEERIITYPYVHLGMAVSLENGLVVPVIRDAEKLSFLELADHISTSAQRAREGNASGDDLRGSTFSITNLGGYGIEHFTPILNPPEAGILGVGASYETPAFKGDELVKSTMLPLSLTFDHRVCDGAPAADFLKTVKALLEEPAGLIL	PGPT0001390_6065	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
D1-12_02630	1029	acoB	COG0022	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit beta	ATGGCGAGAGTCATAAGCATGTCGGACGCGATCAATGAAGCAATGAAGCTTGCGATGAGAAAAGATGACAATGTGCTTGTAATCGGTGAAGATGTCGCCGGAGGAGCGGCGGTCGATCATTTGCAAGATGATGAAGCATGGGGCGGTGTATTAGGGGTCACAAAGGGGCTCGTACAGGAATTCGGCAGAAACAGGGTGCTGGACACACCGATTTCTGAGGCGGGCTACATGGGTGCGGCCATGGCTGCGGCATCCACGGGGCTGAGACCGATTGCGGAACTGATGTTTAACGATTTTATCGGCACGTGCTTTGATCAGGTGATCAACCAAGGGGCGAAATTCCGCTATATGTTCGGCGGTAAAGCGCAAGTGCCGATCACCGTCCGCACCACATACGGAGCCGGGTTCCGGGCAGCCGCTCAGCATTCGCAGGCGCTGTATGGCCTGTTCACCAGCATCCCGGGTCTGAAGACGGTTGTTCCATCCAATCCGTATGACGCCAAAGGTTTGCTGCTTTCGGCAATAGAAGACAATGATCCGGTATTCTTTTTTGAAGACAAAACGTCCTACAACATGAAGGGCGAGGTGCCGGAAGATTATTATACAATTCCGCTCGGAAAAGCGGATATCAAACGCGAAGGCAGCGACATCACGCTGTTTGCGGTCGGCAAGCAGGTCAATACCGCGCTTGAAGCGGCTGCGCAGCTTTCTGAGAAAGGCATCGACGCCGAGGTGCTTGATCCCCGGAGTCTGTCTCCTTTAGATGAGGAAGCGATTTTCACATCGTTAGAAAAAACAAACCGGCTGATCATCATAGACGAAGCCAATCCGCGCTGCAGCATCGCCGCGGATATTGCTGCGATTGTCGCCGATAAGGGCTTTGATTTGCTTGATGCGCCGATTAAGCGGATTACAGCGCCGCATACACCGGTGCCGTTTTCGCCGGTGCTTGAAGATCAATATTTGCCGACACCAGACCAAATTGTCAGCGTCACGCTTGAATTGCTTGGCGAGCCGGCAATGAATTAA	MARVISMSDAINEAMKLAMRKDDNVLVIGEDVAGGAAVDHLQDDEAWGGVLGVTKGLVQEFGRNRVLDTPISEAGYMGAAMAAASTGLRPIAELMFNDFIGTCFDQVINQGAKFRYMFGGKAQVPITVRTTYGAGFRAAAQHSQALYGLFTSIPGLKTVVPSNPYDAKGLLLSAIEDNDPVFFFEDKTSYNMKGEVPEDYYTIPLGKADIKREGSDITLFAVGKQVNTALEAAAQLSEKGIDAEVLDPRSLSPLDEEAIFTSLEKTNRLIIIDEANPRCSIAADIAAIVADKGFDLLDAPIKRITAPHTPVPFSPVLEDQYLPTPDQIVSVTLELLGEPAMN	PGPT0008235_246	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
D1-12_02631	1002	acoA	COG1071	Acetoin:2,6-dichlorophenolindophenol oxidoreductase subunit alpha	ATGGAATTGTTAAAACGAGAAGGCTTGTCATTAACTGAGGAGAAAGCGCTGTGGATGTACCAAAAGATGCTGGAAATCAGGGGCTTTGAAGACAAAGTGCATGAACTTTTCGCACAAGGAGTGCTTCCCGGATTCGTCCATTTGTATGCCGGTGAAGAAGCGGTAGCTGCGGGGGTGTGCGCTCATTTAGATGATGGCGACAGCATTACAAGCACACACAGGGGACATGGCCATTGTATCGCCAAAGGCTGTGATCTGGACGGCATGATGGCGGAAATATTCGGAAAAGCGACCGGACTGTGTAAAGGCAAAGGCGGTTCTATGCACATTGCGGATCTTGATAAAGGCATGTTAGGCGCAAATGGAATCGTCGGGGGCGGATTCACGCTCGCATGCGGATCAGCGCTCACGGCTAAATATAAACAAACTAAAAATGTAAGCGTTTGCTTTTTTGGGGACGGAGCCAATAACCAAGGGACTTTCCATGAAGGGCTGAACTTAGCGGCAGTATGGAACCTTCCTGTCGTGTTCATCGCCGAAAACAACGGCTACGGCGAAGCCACGACATTTGAGTACGCGTCAGCCTGTGATTCAATCGCCGATCGGGCGGCTGCCTATAACATGCCGGGAGTCACGGTGGACGGAAAAGATATTTTAGCGGTTTATCAGGCAGCCGGGGAAGCGATAGAAAGAGCAAGAAACGGCGGAGGCCCGTCTTTGATTGAATGTATGACTTACAGAAACTACGGCCATTTCGAAGGGGATGCCCAAACTTATAAAACAAAGGATGAAAAGACTGAGCATCTTGAAGAAAAGGATGCCATTCAAGGCTTTAAAAACTATCTTCTAAAAGAAACAGATGCAAATAAACTGTCAGACATCGAACAGCGTGTCAGCGAATCGATTGAAAAAGCCGTCTCGTTCAGCGAAAAGAGTCCATATCCGAAAGAGTCTGAGCTGTTGACAGACGTCTACGTGTCATATGAAAAAGGGGGAATGTGA	MELLKREGLSLTEEKALWMYQKMLEIRGFEDKVHELFAQGVLPGFVHLYAGEEAVAAGVCAHLDDGDSITSTHRGHGHCIAKGCDLDGMMAEIFGKATGLCKGKGGSMHIADLDKGMLGANGIVGGGFTLACGSALTAKYKQTKNVSVCFFGDGANNQGTFHEGLNLAAVWNLPVVFIAENNGYGEATTFEYASACDSIADRAAAYNMPGVTVDGKDILAVYQAAGEAIERARNGGGPSLIECMTYRNYGHFEGDAQTYKTKDEKTEHLEEKDAIQGFKNYLLKETDANKLSDIEQRVSESIEKAVSFSEKSPYPKESELLTDVYVSYEKGGM	PGPT0008230_280	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008230-acoA-K21416	NA	NA
D1-12_02632	480			hypothetical protein	ATGAAACGACTGTGCATCATCCCCTGCGGCAAGAAAAAAATTTGGGATGTCCATTCAGATACAGGTCCGGTAAGGGCGGAAGACGCTTATCTCAGCCCGTTTCATCAGGCGTGCGAGCGATATGCGAAAGCATTTTTCGATGAGTGGGTGATTTTGTCGGCGAAGCACGGATTCCTTCGTCCGGATGATATTGTTCCCGGAAATTACGATGTCACTTTTGGAACCGGTCATCCGGAGATCATGGCAGCGGACGAGCTGCGCCGTCAATTTCATGAAAAAGGCTTTTCCGACATCGAGGAGCTTGTCATGCTTGGCGGGAAAAAATACCGAAGCGTCCTAAACGCCGTCATCGGAGAGCATCAGCATATCACCTGGCCTTTGTCATCGTATAAAGGCATTGGCTACATGCTTCAAGCGCTGAATCGGGCTGTTGAAGAAAAGCATGAACTGCAGCACGTGGATATGAAAAAAAGAGTGTAA	MKRLCIIPCGKKKIWDVHSDTGPVRAEDAYLSPFHQACERYAKAFFDEWVILSAKHGFLRPDDIVPGNYDVTFGTGHPEIMAADELRRQFHEKGFSDIEELVMLGGKKYRSVLNAVIGEHQHITWPLSSYKGIGYMLQALNRAVEEKHELQHVDMKKRV				NA	NA	NA	NA	NA
D1-12_02633	984	dus		putative tRNA-dihydrouridine synthase	ATGACCGATAATTTCTGGCGTGAATTACCACGGCCATTTTTTGTACTGGCACCAATGGAAGATGTGACGGATGTCGTTTTTCGCCATGTTGTGAGTGAAGCAGGCAGACCTGATGTGTTTTTCACAGAGTTTACAAACTCAGAAAGTTATTGTCACCCGGATGGGAAGGATAGTGTGCGCGGCCGTTTGACTTTCACGGAGGATGAACAGCCGATGGTTGCCCACATATGGGGAGATAAGCCTGAAAACTTTCGCCAAATGAGTATTGGGATGGCCGAATTAGGGTTTAAGGGCCTGGATATCAATATGGGCTGTCCTGTACCTAATGTGGCGGGGAATGGAAAGGGAAGCGGCCTGATTTGCCGTCCTGAAGTTGCAGCCGAATTAATACAGGCGGCGAAAGCAGGAGGTCTGCCGGTAAGTGTGAAGACCAGACTTGGCTACACGGATATAGACGAATGGCGCGGCTGGCTGACACACATACTGAAACAAGACATTGCGAATCTTTCCATTCATCTGCGTACAAGAGCGGAAATGAGTAAAGTAGATGCGCATTGGGAGCTCATCCCGGAAATCAAGAAACTTCGTGATGAGATAGCGCCGGATACCCTTTTGACGATCAATGGGGATATTCCTGACCGTGAAACCGGCTTGAAACTCGCTGAACAATACGGTGTTGACGGGATTATGATTGGACGAGGCATTTTTACCAATCCATTCGCCTTTGAAAAGGAGCCGAGAGAGCATAGCAGTAAGGAATTGCTTGATCTTTTGAGATTGCATCTGGATCTTCATGATGAATATTCAAAAGCAGAAGCTCGAGCATATAAACCGCTCCCCCGCTTTTTCAAGATATATCTCCGCGGATTCCGGGGAGCAAGTGAATTAAGAAATCAATGCATGAATACAAAGTCAACAGATGAAGTGCGTGCATTGCTCGATGACTTTGAGAGAAAGTATCTTGATGGGATGGAGCAAGAGTGA	MTDNFWRELPRPFFVLAPMEDVTDVVFRHVVSEAGRPDVFFTEFTNSESYCHPDGKDSVRGRLTFTEDEQPMVAHIWGDKPENFRQMSIGMAELGFKGLDINMGCPVPNVAGNGKGSGLICRPEVAAELIQAAKAGGLPVSVKTRLGYTDIDEWRGWLTHILKQDIANLSIHLRTRAEMSKVDAHWELIPEIKKLRDEIAPDTLLTINGDIPDRETGLKLAEQYGVDGIMIGRGIFTNPFAFEKEPREHSSKELLDLLRLHLDLHDEYSKAEARAYKPLPRFFKIYLRGFRGASELRNQCMNTKSTDEVRALLDDFERKYLDGMEQE				NA	NA	NA	NA	NA
D1-12_02634	300			hypothetical protein	ATGGATAAAGTAAACAAAAAACAACCGTTATTTAAAAGAAGTTGGTTTCAAACGTTGTTGGCATTTTTAGTTTCACAGCTTTATTTTAATTTTGCAGAATTAACGGGATGGGGTCCTAATTATAGAGAAATGAATGGATTCCCGGCAAACATAGCTGAACTGAATTTCTTTCAAACATATCTTTCATTCTATGATAATCCATGGTTTAATATTGTCACTGTTTTCTTGGGGGTTTTCACTGTTATACAAATAATCACAGGTATAACAAAGGATATTCGAAATGAAAGCCATAACTTCTGA	MDKVNKKQPLFKRSWFQTLLAFLVSQLYFNFAELTGWGPNYREMNGFPANIAELNFFQTYLSFYDNPWFNIVTVFLGVFTVIQIITGITKDIRNESHNF				NA	NA	NA	NA	NA
D1-12_02635	1401	rlmCD_1	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	GTGAATCAACATCAAAAAAAGGCGCCTGCCGAATTGAAAATCGGACAGACATTTCCGCTGACCATCAAACGTCTCGGCATTAACGGAGAGGGCGTCGGCTATTTTAAGAAAAAAGTTGTCTTCGTTCCCGGCGCTCTGCCCGGTGAAGAAGTCGTTGCCGAAGCGACAAATGTGCAGCCGAAATTTTCAGAAGCACGCGTCAAAAAAATCCGCAAGCCGTCTGAACACCGTGTCACGCCGCCATGTCCGGTCTACGACCAGTGCGGCGGCTGTCAGCTTCAGCATCTGGCATACACCCAGCAGCTTCGCGAAAAACGCGACATCGTCATTCAGTCTCTGGAACGTCATACGAGATTCAATGTCGAAGAAATGAACATTAAAGATACGATCGGAATGGACAACCCTTGGAATTACCGGAACAAAAGCCAGTTCCAAGTCGGACGCTCGCAAAGCGGCAGCATCATTGCCGGCTTATACGGACTTGATTCCCATAAAATCGTCCCGATTAAGGAATGCATTGTCCAGCATCCGGCGACAAACAAAACAACGGGTATCGTCCGCCGTATTTTGGAAAAACACAACGTAACTGTTTATAACGAACGGACCAAAAAAGGCGATGTCCGCACCATCGTGACGAGAGTCGGTTTTGAAACAGGCGAAGTGCAGGTCGTGCTTGTCACCGCGAAAGAGACACTGCCGAATAAAGACGAGATCGTCAAAGCCATTCAGAACCGTCTGCCGGAAGTGAAATCGATTATTCAAAACATCAACGGCGCGCGCACATCCGTCATTTTCGGTGACAAAACAAAAGCGCTGGCCGGAAGCCATGCCATTCAAGAAGTGCTCGGTGACGTGTCCTTTGAACTGAGCGCCCGCGCCTTCTTCCAGCTCAACCCTGAGCAGACGGTTAAGCTGTATGACGAAGTGAAACAAGCGGCTCAGCTGACAGGAAAAGAAAAAGTCGTAGACGCGTATTGCGGCGTCGGTACGATCGGCATGTGGGTTTCAAACGGCGCAAAAGAGATCCGCGGCATGGACGTCATTAAAGAATCAATTGACGATGCGAAGAAAAACGCCAAAAAACACGGCATCAAAAACGCGGCATATGTCACAGGAACAGCCGAACACTGGCTCCCGAAATGGACGAAAGAAGGCTTCCGCCCTGACGTGGTCATCGTCGACCCGCCGAGAACGGGCTGTGACAGAACATTTTTAGATACCATCAAAAAAGTAAAACCGAAACGCTTCGTCTACGTATCCTGCAATCCTTCCACATTGGCGAAAGACTTGCAGACGCTGTCGAAGGACTATCGCGTCGAATATATTCAGCCTGTTGATATGTTTCCGCAGACGGCTCATGTGGAAGCCGTGGCGAAGCTTGTATTAAAATCGTCTAACTAA	MNQHQKKAPAELKIGQTFPLTIKRLGINGEGVGYFKKKVVFVPGALPGEEVVAEATNVQPKFSEARVKKIRKPSEHRVTPPCPVYDQCGGCQLQHLAYTQQLREKRDIVIQSLERHTRFNVEEMNIKDTIGMDNPWNYRNKSQFQVGRSQSGSIIAGLYGLDSHKIVPIKECIVQHPATNKTTGIVRRILEKHNVTVYNERTKKGDVRTIVTRVGFETGEVQVVLVTAKETLPNKDEIVKAIQNRLPEVKSIIQNINGARTSVIFGDKTKALAGSHAIQEVLGDVSFELSARAFFQLNPEQTVKLYDEVKQAAQLTGKEKVVDAYCGVGTIGMWVSNGAKEIRGMDVIKESIDDAKKNAKKHGIKNAAYVTGTAEHWLPKWTKEGFRPDVVIVDPPRTGCDRTFLDTIKKVKPKRFVYVSCNPSTLAKDLQTLSKDYRVEYIQPVDMFPQTAHVEAVAKLVLKSSN				NA	NA	NA	NA	NA
D1-12_02636	864			hypothetical protein	ATGTGGAAGGAAACGGTTTCGGTCACGCCGCCGTATCATTTTGATAAAGTCCTTGAAAGGCTGTCGCTCGATCCGCTGAATGCGGTCGATCTTAAAGCAAGGTCAATCAAAGTGCCGCTCAGAACACGGGACGGCAAACTGTCCGTCATCACGGTTCAAGGGGAAGGCACCGCCGCAGACCCGGTTTTTCTCGTCAGCGGAGAAACGGACCGCAAAGAGATGATTGAACGGATCAAACACATTTTTCAGTGGGAACAGCCGCTTCAGCCTGTGCTTGATCATTTCTCAAAAACAAATCTGTCGGCGCTTTTTGAGGAACATGCGGGAACCCCGCTCGTCTTGGAATATGACGTCTACAACTGTCTCATGAAATGCATCATCCACCAGCAGCTCAACCTGTCTTTCGCATTTACCTTAACGGAACGGTTCGTCCATGCCTTCGGTGAACAAAAAGACGGCGTCTGGAGCTATCCCGAGCCGAAAACGATCGCGGCGCTTGAGTATCAGGACTTGCGGGAGCTCCAGTTCAGCATGAGAAAAGCGGAATATGCGATTGACATTTCACGGATGATTGCAGAAGGAGCGCTCAATCTGGCGGAACTTACCCATTTGTCGGATGAAGACATTATGAAAAAGCTGATCGCCATCAGAGGCATCGGCCCGTGGACCGTCCAAAACGTCCTCATGTTCGGTCTCGGCCGCCCGAATCTGTTTCCTTTGGCGGACATCGGCCTGCAAAACGCCGTCAAACGCCGCTTCGCCCTAGAGGATAAACCGTCAAAAGACGTAATGCTCCAGGTAAGCAGCGAATGGGCGCCGTATTTAAGCTATGCGTCCTTGTACTTGTGGAGAAGTATTGAATGA	MWKETVSVTPPYHFDKVLERLSLDPLNAVDLKARSIKVPLRTRDGKLSVITVQGEGTAADPVFLVSGETDRKEMIERIKHIFQWEQPLQPVLDHFSKTNLSALFEEHAGTPLVLEYDVYNCLMKCIIHQQLNLSFAFTLTERFVHAFGEQKDGVWSYPEPKTIAALEYQDLRELQFSMRKAEYAIDISRMIAEGALNLAELTHLSDEDIMKKLIAIRGIGPWTVQNVLMFGLGRPNLFPLADIGLQNAVKRRFALEDKPSKDVMLQVSSEWAPYLSYASLYLWRSIE				NA	NA	NA	NA	NA
D1-12_02637	960	corA_2	COG0598	Cobalt/magnesium transport protein CorA	ATGATACATATAACCGCAATCACAACACATAATGAGATATTAGATAATATCCCCCTATCACGTACAGAACAACCGGACATCGCATGGTACTGGATTGATTTTTTCGGCGCCGAGATGCATGAAACCGAGCTGCTGCGGGATTATTTTCACTTTCATCCGCTTGCGATCGAGGATTGCTTTCAGCATATGCAGCGGCCGAAAATCGACCATTATGACGGCTACCGTTTTTATGTGCTCCACGCCTTGAACCCGGACACACTGGAAATGGAAGAGGTGGACATTTTTCAGTCCGACCGTTTTATCGTCAGCTTCCATTTGCACGAATCGCCCGGCGTCTCAAAGGTGAGAGAACGGTTTTTCGCTTCTCCGGGATTAGCCAAAAAAGGGCCCGGGCACATCACTTATATGATTATGGACCAGCTTGTCGATGAATATTTCCCCGTGCTGTACAAAATTGAAGACCGGCTGAATGAAATTGAAGACAGCAGAACCCATAAATCTTACGGCACTTTAATGAATGAAGTGTTTGAATTGCGGACTGATCTTTTGAACCTGAGACGGACGATCATTCCGATGCGCGATTTAATGTACCGGATTTTGAGCCTTGACCATGTAAAAGAAAGCCGTGAAACGAAGGCGTATTTCAGCGATATTTATGACCACCTGTTAAAACTGGCCGAGCTGATCGAGTCAAACCGTGATATGACGTCAGATTTGCGGGACAGCTATGTGACGCTGAATTCAAACCGGATGAACGCCATTATGATGACATTAACCATCGTCTCGACCATTTTTATCCCGCTGACGTTCATCGCAGGGGTTTACGGCATGAATTTCGATAACATGCCTGAGCTTCATTGGAAATACGGGTATTTTATCGTTTTGGGCGTAATGGCCGTCCTTGTGGCCGCCATGCTGTTTTGGTTCGCCCGCAAAGGCTGGTTTAATATTTTCAAGTAA	MIHITAITTHNEILDNIPLSRTEQPDIAWYWIDFFGAEMHETELLRDYFHFHPLAIEDCFQHMQRPKIDHYDGYRFYVLHALNPDTLEMEEVDIFQSDRFIVSFHLHESPGVSKVRERFFASPGLAKKGPGHITYMIMDQLVDEYFPVLYKIEDRLNEIEDSRTHKSYGTLMNEVFELRTDLLNLRRTIIPMRDLMYRILSLDHVKESRETKAYFSDIYDHLLKLAELIESNRDMTSDLRDSYVTLNSNRMNAIMMTLTIVSTIFIPLTFIAGVYGMNFDNMPELHWKYGYFIVLGVMAVLVAAMLFWFARKGWFNIFK	PGPT0014010_3561	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
D1-12_02638	648			hypothetical protein	GTGTGCGCCGTTACCATCCTTTCTCACAAAATCATTTCTTCTGTCCTCCTGGCTTTCAGTGTCATGTCCATTGCCCCGCTGTATAACGGCCGTACGGTGTCTGATTACATCTTTGAGTCGCTCGGCTTTTCCTCTTGGCCGGAAGATGGAGCCCATATCTCCGTCATTCCCGGGGTCGTGCTTTACTTTGCGGCGTTAATCTGGTGTGCCGCCGCGTTCAGGCGGACGCTTCCCGCGGCGGGGCTGTTTCTGATCTTTCTCAGTATGGGGGCCGCTTCCGGTATCAGTCCTGCCACCGAATATGCCGCTTTTTCCTTAAAACAGTTCGCGCCCGAAAAAGAGGCTGTCGAATATTTGAAGCACCGCAGCGAATGCAGTTATCTGGTTGAGCGAAAAAGAGCGGGCATGAGCTGCACGCTTTATATCAATCATTACGGAAAAGGGGAACAAGCCATTTCTGTCACGCCGGATTTATCAGAAAACATAAAGGACGTCACATTCAAATCAAAAACATTCACTGTAAAACCCCGTTCAAAAACAATAATCAAAACCCGATTTACCGGATTTTACAAGGGGAAAGCCGCCTCAGACTCCGGATGGTCTTCCGAACCTGAACTGAAAGTGGCAATCCTGTACACAGCGGATTAA	MCAVTILSHKIISSVLLAFSVMSIAPLYNGRTVSDYIFESLGFSSWPEDGAHISVIPGVVLYFAALIWCAAAFRRTLPAAGLFLIFLSMGAASGISPATEYAAFSLKQFAPEKEAVEYLKHRSECSYLVERKRAGMSCTLYINHYGKGEQAISVTPDLSENIKDVTFKSKTFTVKPRSKTIIKTRFTGFYKGKAASDSGWSSEPELKVAILYTAD				NA	NA	NA	NA	NA
D1-12_02639	861	garR_2	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAAGATCGCCATCGTCGGACTCGGCAATATGGGCCGCCCCATCGCCGAAAATATCATGAAAGCCGGATACAGCCTGACTGTATATAACCGGACGAAAGAAAAAGCGGCTGACCTGCTGGAAAAAGGGGCCGAATATGCCGAAACGCCCCGCCAGGCAGCTGAACATGCAGATATCGTACTGTCCATGCTGTCAGACGATGAAGCCGTAACGGGCGTAACGTTCGGAGCTTGCGGCATTATTGCCGGGTTATCTGAAAACGGCATTCATATTTCAATGAGCACGATCAGTACGGCGCTGTCAGAACAGCTTTCCGCCGCACATTCGGGCAGAGGGCAGTCCTTTATTGCCGCTCCCGTCCTCGGCCGCCCCGATGCCGCCGAGAAGGCCGAGCTTCGCATCATCACAGCCGGACCGGCGGAAGCGAAGAAAAAGGCCGAACCGCTGCTTAACATCCTGAGTCAGCAAGTATTTGACACTGGTGAAGAAACAAAAACGGCCAACGCCGCGAAAATCAGCGTCAATTTCTTGCTCGTTTCTATGCTGGAGGCGTTATCTGAATCATTCTTAATGATGGAGAAGTACGGGTTAGAGCAAAAACAATTTTTAGAAATCGCCGGCGCGCTCTTTGGCTCTCCCGTCTATCAAAATTACGGAACCATGATGGCTGAGGAGAAATTTGAGCCGGCCGGCTTCAAAATGTCTTTAGGGCTGAAGGATACCAATCTGGCGCTCGCCGCCGCTGAACAGGTTTCCGCAAAACTCCCTCTTGCCGAGCTGGCCAAGAGCCATTTTGAAAGCGGGATCGAACAAGGCTTCGGGGATCTGGATTGGGCTGCACTGATTAAAAGCTTAAAATAA	MKIAIVGLGNMGRPIAENIMKAGYSLTVYNRTKEKAADLLEKGAEYAETPRQAAEHADIVLSMLSDDEAVTGVTFGACGIIAGLSENGIHISMSTISTALSEQLSAAHSGRGQSFIAAPVLGRPDAAEKAELRIITAGPAEAKKKAEPLLNILSQQVFDTGEETKTANAAKISVNFLLVSMLEALSESFLMMEKYGLEQKQFLEIAGALFGSPVYQNYGTMMAEEKFEPAGFKMSLGLKDTNLALAAAEQVSAKLPLAELAKSHFESGIEQGFGDLDWAALIKSLK				NA	NA	NA	NA	NA
D1-12_02640	792	pdaA	COG0726	Peptidoglycan-N-acetylmuramic acid deacetylase PdaA	ATGAAATGGTTTTGTTCAATTTGCTGCATGGCTGTTTTACTTGCGGGAGGCATCAACAGCGCAGAAGCCGTTCCGAATGAACGGATAAACTGGGGCTTTAAACGCAGCGTCAATCATCAGCCGCCGGATGCCGGCAGACAGCTGGACAATCTGGTCAAAAAATATGATGCTTTTTATTTGGGCAATACGAAAGAAAAGACCATCTATTTAACGTTTGATAACGGATATGAAAATGGGTACACCCCGAAAGTGCTTGATGTGTTAAAAAAACATCACGTCACGGGCACTTTTTTTGTCACGGGTCATTTTGTGAAAGAGCAGCCTGATTTGATTAAACGGATGTCAAAGGAAGGCCATATCATCGGCAATCATTCTTTTCATCATCCTGATCTGACGACAAAAACGGGCGATCAGATTCAAGACGAACTCGATTCCGTCACGGAAGCTGTGTACAACATTACCGGAAAGCGGGACAATCTGTATCTCCGTCCGCCGCGCGGCGTGTTCAGCGAATATGTCCTCAAAGAAACGAAGCGCCTCGGCTACCAAACCGTTTTCTGGTCCGTCGCATTTGTCGACTGGAAGGTTAACGAGCAAAAAGGGAAACAATACGCCTATGATCACATGATAAAGCAGGCGCATCCCGGCGCGATCTACCTTCTTCACACCGTTTCAAAGGACAATTCAGAAGCTCTGGACGATGCCATTACCGATTTGAAAAAAGAAGGCTACACGTTTAAAAGCATTGATGACCTGATGTTTGAGAAAGAAATGAAGCTGCCGCGCCTGTAG	MKWFCSICCMAVLLAGGINSAEAVPNERINWGFKRSVNHQPPDAGRQLDNLVKKYDAFYLGNTKEKTIYLTFDNGYENGYTPKVLDVLKKHHVTGTFFVTGHFVKEQPDLIKRMSKEGHIIGNHSFHHPDLTTKTGDQIQDELDSVTEAVYNITGKRDNLYLRPPRGVFSEYVLKETKRLGYQTVFWSVAFVDWKVNEQKGKQYAYDHMIKQAHPGAIYLLHTVSKDNSEALDDAITDLKKEGYTFKSIDDLMFEKEMKLPRL				NA	NA	NA	NA	NA
D1-12_02641	186			hypothetical protein	ATGGGGAATGCAGTAAACAGCAAAGATCAGCAGCTCGATTACCTAAAGAACAGACTCGATATGTTTATGAATGTCATTGATTCATTAGACCCTGAATCAACGGACGTTGAAGATATAGACCGGCTCATCGGCATGCTTGATGATCTGGAAGCAAAATACGAACGCTTTAAAAAGGATTGGGAATAA	MGNAVNSKDQQLDYLKNRLDMFMNVIDSLDPESTDVEDIDRLIGMLDDLEAKYERFKKDWE				NA	NA	NA	NA	NA
D1-12_02642	1122	queE_2		7-carboxy-7-deazaguanine synthase	ATGACACAAAACACAACACTGCGTCCGATCACACCGGAGTACGATCCTTGGGAAGCGTACATGGATGTCGACCAGTATGGAGATATGAAACTGACGAACGTTGAATTCACAACGACGACTTTGTGCAATATGCGATGCGAGCACTGCGCCGTCGGGTACACGCTCCAGCCGAAAGACCCGAATGCGCTGCCGATCGACCTTTTATTAAAGCGGCTTGATGAAATTCCTCTGTTACGCTCTATCAGCATTACGGGCGGCGAACCGATGCTTTCGCTGAAATCGGTAAAGGAATACGTCGTCCCGCTTTTAAAATATGCGCATGAACGCGGCGTGCGCACACAGATCAATTCAAACCTGACGCTTGATATCGGGCGCTACGAACGGATTATTCCCTATTTGGACGTTCTTCACATTTCTCACAACTGGGGAACGGTCGAGGACTTTGCCGACATCGGATTTGCGATGATGGAGAAGAAACCGACATTTGAACAGCGGGCGCGCTATTTTGACAAAATGATTGAAAACAGCCGCACGCTGGTCGAAGCAGGTGTAATGGTTTCAGCGGAAACGATGCTCAACAAACGGACACTGCCGCATATCGAACATATTCACCGGCAAATTACCGAAGAAATGAAATGCCAGCGGCACGAAGTCCATCCGATGTATCCGAGTGATTTCGCCAGCGCGCTTGAATCACTCAGCCTGAAAGACATGAGACAGGCCATCCATCATCTGCTCGACATTCGAGATGAAGAGACATGGATGCTGTTCGGTACGCTCCCGTTTTACGCATGCAGCCCTGATGAAGAAGACCAGAAGCTCCTCCGCCGCCTCCGGGAAGCGAAAAACGTTACGGTGCGAAACGACCCTGACGGCCGCTCCCGCCTGAATGTCAACATTTTTGACGGAAATATCATTGTCACGGATTTCGGCGATACACCGCCGCTCGGCAATATTAAAACAGACAGCCTTCCTGAAGCATATGACAAGTGGAGACAGACAAAGCTGAGCAAAGAGCTGAACTGCCGCTGCACAAACGTCCGGTGCCTCGGCCCGAACGTCCTTGTCAAAAACAGTTATTATCAGGACACGGATTTTTCATTACGAAAAGCCAGAGGTTAA	MTQNTTLRPITPEYDPWEAYMDVDQYGDMKLTNVEFTTTTLCNMRCEHCAVGYTLQPKDPNALPIDLLLKRLDEIPLLRSISITGGEPMLSLKSVKEYVVPLLKYAHERGVRTQINSNLTLDIGRYERIIPYLDVLHISHNWGTVEDFADIGFAMMEKKPTFEQRARYFDKMIENSRTLVEAGVMVSAETMLNKRTLPHIEHIHRQITEEMKCQRHEVHPMYPSDFASALESLSLKDMRQAIHHLLDIRDEETWMLFGTLPFYACSPDEEDQKLLRRLREAKNVTVRNDPDGRSRLNVNIFDGNIIVTDFGDTPPLGNIKTDSLPEAYDKWRQTKLSKELNCRCTNVRCLGPNVLVKNSYYQDTDFSLRKARG				NA	NA	NA	NA	NA
D1-12_02643	834	yfkC	COG0668	putative MscS family protein YfkC	ATGGAAACGACAATTACGGACATTTTGAAAAGCAAAGTGGTTGAGATCATCATCGTCGCTCTCGTGCTTTACGCCGGTGTTTTTCTGATCAACCGCTTTGTCCAGGTGTTATTTAAACGCACAGATTTCTTAGAGGAACGGAAAGGGAAGACGATTGAGAGCCTCGTCCGGTCCATCACCCAGTATACGGCGACGATCGGTTTTATCTTTTACGTCATTTCTTTATTTGTTCATGATTTCGGCCGAATTTTAGCCGGGGCGGGCGTTGCCGGTATCGTCATCGGTTTCGGCGCCCAGTCGTTAATCAAGGACATTTTGGCCGGTATCTTTTTAATATATGAACGCCAGCTGCATAAAGGCGATTACGTGACGATTAACAATCTGTTCAACGGCACAGTGGAAGAAATCGGACTCCGTTCCCTCCAGATCCGTGAGTGGACCGGCAAGCTGCTTACCATATCTAACGGTGAGGTCAGACAGCTTCAAAACTATAACATTGATTATATGCGGATTACCGAGTCCGTCGTGATCAGTTACAAGGAAGATCCTGAACGGGTATATGCCATCTTAGAAAAAGCGTGTGACATGCTCAATGATGAGCTTCGCGATTCATTGAAACGGGATGAATTTCTCAATGCGACGGAACCGTTTCAAGTGCATGGAATTATGAGTCTGAACAAATTAACCAGAGGCATAGAATTTACCGTCAAAGGCATGGTTCAAGACACAGAATACTTCTCGGCGAGCCTTGCGGTGAGACGCGTTCTTGCCCGGGAGCTGTACAACAACAATGTGCAATTGCTTGAGGAAATGTATCACACACAAAAAAGCTGA	METTITDILKSKVVEIIIVALVLYAGVFLINRFVQVLFKRTDFLEERKGKTIESLVRSITQYTATIGFIFYVISLFVHDFGRILAGAGVAGIVIGFGAQSLIKDILAGIFLIYERQLHKGDYVTINNLFNGTVEEIGLRSLQIREWTGKLLTISNGEVRQLQNYNIDYMRITESVVISYKEDPERVYAILEKACDMLNDELRDSLKRDEFLNATEPFQVHGIMSLNKLTRGIEFTVKGMVQDTEYFSASLAVRRVLARELYNNNVQLLEEMYHTQKS	PGPT0013695_2672	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
D1-12_02644	792	yfkD		putative protein YfkD	ATGAGAAAGCTGTTTCATGCCACACTGATTCTGCTGTTATCCTTTAGTTTTTTCGCAACGCCGTCTGCCGGTGCAAAAAAACCGTTTAAAGTTCCCAACTCTGTCGTAAGCATTTCAAAGGAAAATACGTATCCGAATGCCTCACAGGACCAGCCGATGCTTCAGCCGAGCAAACTGGCAAAGGAATTGTTAGATACATCAGAGATCAACATCGAAAATCCGCATCTGATTAAAATGCTGAATGAATCCTCGGTTTCCGGTTCACCGCTTGCCATCGGATATCGGGCGACAATATTTCTCGGGAAATGGGCGCTCGGCTATCAATCGAACGAAACGGTCGCCAACTGGGAATATAAAAAAATTAACACAAACAGAGCGGATAACCGGGGCGGACAGCAAACCGCGGTTATCTCATACGCCCAAGAACAGCAATACAAAATCAAAGGCGGGCTCACAGCGAAGGTGCCGAACGCAGAAGACGTAAAAAGCATGATGATGCAAAAAGCGATGAAGAAAACAAAACTGCCGCTCGCGTTTGAAACGGTTATCGGCGCAGGCACAAAACGCGATCAAACCTACAAAATTTCTCCGCAGCGGCTCGGCTACCTGCACGCCTACGCTCCGGCCGTTAATGAAAAAGGAAAAGTAACATACGGTGAAGTGTATTTGGTGCTGAAAGGCAGCAAGCGGAAACTTGTCGTCAAAAATGTGACTTCGCAAGGAATCGGGGCTTGGATTCCGGTGCAGGATCATGTCACATTCGGTTTTCAAACGACAGCGCAGCCGAGATAA	MRKLFHATLILLLSFSFFATPSAGAKKPFKVPNSVVSISKENTYPNASQDQPMLQPSKLAKELLDTSEINIENPHLIKMLNESSVSGSPLAIGYRATIFLGKWALGYQSNETVANWEYKKINTNRADNRGGQQTAVISYAQEQQYKIKGGLTAKVPNAEDVKSMMMQKAMKKTKLPLAFETVIGAGTKRDQTYKISPQRLGYLHAYAPAVNEKGKVTYGEVYLVLKGSKRKLVVKNVTSQGIGAWIPVQDHVTFGFQTTAQPR				NA	NA	NA	NA	NA
D1-12_02645	1056	chaA	COG0387	Ca(2+)/H(+) antiporter ChaA	ATGAATCGGATTTTTTTCTTTACGGCTGCGGCGGGAGTGCCGCTTTCAGTCATCGGCGGCCTGATGCACTGGCCGTCAGCGGTTTTGTTTATTATTTATTGCTTGACGATTATTGCGCTTGCAAGTTATATGGGGAGAGCGACCGAATCTCTTGCCATTATCGCGGGACCGCGGATCGGCGGTCTGCTGAATGCCACGTTCGGCAATGCGGTAGAGCTGATTATATCGCTTTTTGCCTTAAAAGAAGGGCTGACGGGCATCGTGCTTGCTTCACTGACCGGTTCGGTGCTCGGCAATCTTCTGCTCGTCGCGGGACTGTCGTTTTTTATCGGCGGTTTGAAATACAAGCGGCAGGAATTCAATATTCATGATGCCCGTCATAATTCTGGCCTGCTGATTTTTGCCATTATCGTAGCTTTTGTCATTCCCGAAGTGTTTTCCATGGATATGGGGGAAAAAAACAAGCTTGATTTGAGTGTCGGCATCAGCATCATCATGATCCTTTTGTACGTGGCAGCTCTTTATTTCAAGCTCGTCACCCACCGCGGTGTTTATCAGCCGAATCAGCCGGAGGCAAAGGAAGAAGAGGAGCAGCCTGAGTGGTCGGGGAAAAGAGCGACAGCCGTCTTATTTATTTCAACCATTATCGTCGCCTACATATCTGAAAACCTTGTCCATACGTTTCATGCGGTGGCTGAACAGTTCGGCTGGAGCGAGCTGTTTATCGGAGTGATTATCGTCGCAATCGTCGGAAATGCCGCAGAGCATGCGTCGGCGATTATTATGGCGTACAAAGACAAAATGGATGTCGCCGTTGAAATCGCGGTAGGCTCGACTTTGCAGATCGCCATGTTTGTGGCTCCGGTTCTTGTGATCTGTTCCATCTTTTTTCCGGTCAATATGCCGCTTGTATTCACATTGCCCGAGCTTGTCGCGATGATCTCATCCGTCCTTTTGATGACGATGATTTCAAATGACGGTGATTCGAACTGGTTTGAAGGGGCTACGCTCCTTGCCGCCTATGTCATCATGGCGATCGGTTTTTTCCTGCTTTAA	MNRIFFFTAAAGVPLSVIGGLMHWPSAVLFIIYCLTIIALASYMGRATESLAIIAGPRIGGLLNATFGNAVELIISLFALKEGLTGIVLASLTGSVLGNLLLVAGLSFFIGGLKYKRQEFNIHDARHNSGLLIFAIIVAFVIPEVFSMDMGEKNKLDLSVGISIIMILLYVAALYFKLVTHRGVYQPNQPEAKEEEEQPEWSGKRATAVLFISTIIVAYISENLVHTFHAVAEQFGWSELFIGVIIVAIVGNAAEHASAIIMAYKDKMDVAVEIAVGSTLQIAMFVAPVLVICSIFFPVNMPLVFTLPELVAMISSVLLMTMISNDGDSNWFEGATLLAAYVIMAIGFFLL	PGPT0013985_2588	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
D1-12_02646	1179	ycaD		putative MFS-type transporter YcaD	ATGTCACGACTGTACTTCTTTATTTTGGTTCTGCTTGTTTCCATCTCCGGATTTTCCCAAGGCATGCTTCTGCCGGTGATCTCCGTCATTTTTGAAACGAACGGAGAATCCGCAGCCATAAACGGACTTCACGCAACCGGCCTTTATATCGGTGTGCTTCTGGCGTCGCCGTTTATGGAGGCCCCGCTGCGCAAGCTCGGATTCAAACCTCTGATGGTCATGGGCGGATTTCTTGTTATCATCAGCTTATTCAGTTTTATTTGGCTTCAATCCATATGGTTATGGTTTTTTCTGCGGCTGCTTATCGGAATCGGGGATCATATGCTGCATTTTTCAACCCAAACGTGGGTGACGTCAAAGTCAACGCCCCGAAACAGAGGAAGAAACATTTCGCTGTACGGACTGTCCTTCGGGCTTGGATTCGCTGTCGGCCCGTTCATGGTCCCTCTTGTGAAAACAAGTCCTTCCCTTCCGTTTATCGTATCCGGCTGTATCAGTCTTGCCGCCTGGCTGTTTGTGTTTGTCTTACGTAACGAGTACCCGGCGCAAGGTCCGGATGAAACATCCGGGGATAACAGCGCAAAACGGTTTTACCGCGCCCTTCTTTTCGGCTGGGTCGCTTTTCTCCCGGCTTTCGGGTACGGTTTTTTAGAAACGGCACTGAACGGAAGCTTCCCCGTGTACGCCCTGCGTTTAGGCATATCCGTTGATGCCGTCGCGCTGATATTGCCCGCTTTTGCTATCGGAAGTATTGTATTCCAGTTCCCTCTCGGTTTATTAAGCGATCGATTCGGGAGAAAACGTGTCCTGCTCGTCATCTTATTAACGGGTGCCCTTTGCTTTTTGACGGCCGGACTGTTTTCGTCGCCTTCTGTCATCGGCTGCTGCTTTTTCACGGCGGGAATGGCGGTCGGCAGTATGTTTTCCCTCGGCATCAGCTATATGAGCGACCTGCTGCCGTCCCATCTGCTGCCGGCGGGCAATCTGCTCTGCGGCATTTCCTTCAGCCTCGGCAGCATGATCGGCCCGGTGGCGGGCGGCTGGTATATGCAGCGGTTTGAAAGCGCCAACTTGTTTTACTTTATTACGGTGATTCTGGTCTGTATTTGGCTTGCGCTCGTCTTCGGGAAAACAAAGCACAGTCCCGCATCCGAATCCCATTCTTTTCCGGCCTCATAA	MSRLYFFILVLLVSISGFSQGMLLPVISVIFETNGESAAINGLHATGLYIGVLLASPFMEAPLRKLGFKPLMVMGGFLVIISLFSFIWLQSIWLWFFLRLLIGIGDHMLHFSTQTWVTSKSTPRNRGRNISLYGLSFGLGFAVGPFMVPLVKTSPSLPFIVSGCISLAAWLFVFVLRNEYPAQGPDETSGDNSAKRFYRALLFGWVAFLPAFGYGFLETALNGSFPVYALRLGISVDAVALILPAFAIGSIVFQFPLGLLSDRFGRKRVLLVILLTGALCFLTAGLFSSPSVIGCCFFTAGMAVGSMFSLGISYMSDLLPSHLLPAGNLLCGISFSLGSMIGPVAGGWYMQRFESANLFYFITVILVCIWLALVFGKTKHSPASESHSFPAS				NA	NA	NA	NA	NA
D1-12_02647	144			hypothetical protein	ATGACGTTCAAGCTGAAAAACGGAGGGGAATCGATTATGACCAAGCATACGAAAAAAGGCGGAAGCCATAATAAACAAAACTCAAAAAACGGCCCGAAGAATAAAACAAGCGGAAGCGCTAACGGGCAGAACGGATACCACTAG	MTFKLKNGGESIMTKHTKKGGSHNKQNSKNGPKNKTSGSANGQNGYH				NA	NA	NA	NA	NA
D1-12_02648	840			hypothetical protein	ATGAGTTTTATAAAGGAGCTGTTTGCAAGGTTTTCTCTGCATGAAGGACAAAGTAAATCGGCGGAGCTGGCGTATTTTTTCCTGCTGTCATTGTTTCCGTTGATGATTTTCATGCTGACGCTCACCGCCTATCTTCCCATATCTGCAGAAGACGTGCTCGGGGCGGTCGATCAATACGCGCCCGACAGCGCCATGTCCATGGTGAAATCCATTACGGAGCAAACGCTGAACAAGCGCAGCGGCGGACTTTTGTCATTCGGGATTATCGCCGTCATCTGGTCGGCTTCGAATGGTATGAACGCGATTGTCAGAGCATTTAACCATGCCTACGAAGTCGAGGAAAACCGCTCATTTATCATCATTCGCCTGACCTCAATTTTTTTAACCATCGCGATGGTGGTTACGATTTTAATCGCATTGCTTCTGCCGGTGTTCGGCAGAGAAATCGGAATGCTGGCCGCAGATTTCATCGGCGCCTCCGGCCTGTTTTTGCAGGTATGGTCGGTTGTCCGCTGGGGTATCAGTCCGCTTATCCTTTTAATCGTGTTTACCGCGCTTTACATTTTCGCGCCGAATAAAAGGCTTTCTCTCCGTTTTGTGCTGCCGGGAGCCGTATTCGCTGCAGCCGGCTGGATTATCGTCAGTATGCTGTTCTCATTTTACGTCGGCACCTTTGCCAACTACAGCGCCACATACGGGAGCATCGGGGGAATTATCGTCCTTATGATCTGGTTTTATCTTACGGGAACACTGCTGATTTTAGGAGGAGAAATCAACGCGCTTTTACATAAACGTAAAAAGCTTCCTGATGAAAATCCGTACCGCGGGAGCAAGCTATAG	MSFIKELFARFSLHEGQSKSAELAYFFLLSLFPLMIFMLTLTAYLPISAEDVLGAVDQYAPDSAMSMVKSITEQTLNKRSGGLLSFGIIAVIWSASNGMNAIVRAFNHAYEVEENRSFIIIRLTSIFLTIAMVVTILIALLLPVFGREIGMLAADFIGASGLFLQVWSVVRWGISPLILLIVFTALYIFAPNKRLSLRFVLPGAVFAAAGWIIVSMLFSFYVGTFANYSATYGSIGGIIVLMIWFYLTGTLLILGGEINALLHKRKKLPDENPYRGSKL	PGPT0014525_6316	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-12_02649	327			hypothetical protein	ATGAAGCAGGCACGCATCATGGCAAAAGCGATTCTGATCGGCGCTGCCGCCGGCGGAGCACTGTCCTTATTACATAAGCCGACGAGAGAGGCATGTTTCCGCAACATGGACGCGTGCAGGCGCCGTGCGGCATTTTACCGGAAACATCCTGAAGCCCTGAAACAGCAGGCTTCTGCAAAACTGGATCAAGTGAAAATCATCGCTAATACCGTGTCGGAAGATCTGGGTTTTTTAAACGGGCAGATCACCAAGCTGAAGCAGACGACGCCGCAGGTCATTGACCTGTTAAAAGAAACGAAGGAGCATTTTTCGAAAAACGATCATTGA	MKQARIMAKAILIGAAAGGALSLLHKPTREACFRNMDACRRRAAFYRKHPEALKQQASAKLDQVKIIANTVSEDLGFLNGQITKLKQTTPQVIDLLKETKEHFSKNDH	PGPT0014522_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014522-yfkI-NA	NA	NA
D1-12_02650	474	yfkJ	COG0394	Low molecular weight protein-tyrosine-phosphatase YfkJ	ATGATACATGTTCTGTTTGTCTGTCTGGGAAATATTTGCCGGTCGCCTATGGCAGAGGCGGTATTTTCTGATATGGTGAAGAAAAACGGGCTGAACGGGCAGATTAACATTGATTCAGCGGGAATCGGCGCCTGGCATGCGGGAAATCCGCCGCATGAAGGGACAAAGGAGATCCTGAAGAAGAAAGGGATCAGCGCAAGCGGCATCACGGCGAGGCAGGTGCGTGAGTCTGACCTGACCGATTTTGATTACGTCATTGCGATGGATGCAGAAAATATCGGACATCTGCGCAGCATGGCAGGTTATAAAAAAGCGGCGCCGCGTATTGCAAGGCTGCTTGATTATGTACCGGAGTCGGACCTTGCGGACGTGCCCGATCCGTATTATACCGGGAATTTCAGCGAGGTGTACGCTTTGGTCGAATCCGGGTGCCGTCATTTGCTGGAGACAATAAAGAAAGACCATCATTTATAA	MIHVLFVCLGNICRSPMAEAVFSDMVKKNGLNGQINIDSAGIGAWHAGNPPHEGTKEILKKKGISASGITARQVRESDLTDFDYVIAMDAENIGHLRSMAGYKKAAPRIARLLDYVPESDLADVPDPYYTGNFSEVYALVESGCRHLLETIKKDHHL	PGPT0014530_5538	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
D1-12_02651	216			hypothetical protein	TTGCCGAGCCAACAAACAGAAACGTTAAACAAAATGATTGAAGACATTTCGCAAAAGCTCAACATGCTCAATGTCGGCGTCATCAGAGCGGAAGATTTCAGTGATGAAAAAATAGAAGATCTTACATACCTTCATCAAATGGTCATGAAAAAAGCATCATTCAGCCCGAGTGAAATGCAGGCCATTGCCGAGGAGCTCGCCTCTCTCAGAAAATAA	MPSQQTETLNKMIEDISQKLNMLNVGVIRAEDFSDEKIEDLTYLHQMVMKKASFSPSEMQAIAEELASLRK				NA	NA	NA	NA	NA
D1-12_02652	1194	ydiM		Inner membrane transport protein YdiM	ATGAAAAACATATACACCAAAATGGCAGCGGGTCTTTATATTAACTATTTCCTGCTGGGCATGATCAATATTATTATCGCATCCAATATGGAGGCATTATCAAAACAGCTTCATACATCCGCAGCCGGGGTCAGCTATTTGGTCTCCGCCATCGGGATCGGGAAGCTGATTTCGCTTCTGTTTGCCGGGAAGCTTTCGGATACATTCGGGAGACGGCCGTTTATCGTGTCGGGCGCCTTTCTGTATCTGATTTTCCTAATCGGAATTCCGCTTTCGACAAACTACACGGCCGCGTTTATCTTCGCCATTTTCGCCGGGATCGCCAATTCCTTTTTGGATTCCGGGACATATCCGGCGCTTATTGAAGGATTTCCGAAAAACGCAAGCTCTGCAACCGTGTTAATCAAAGCGTTTGTATCCATCGGCGCGACGGTGCTTCCGTTTTTTATCGCGTTTATTGCGGACAGGCATTTGTTTTACGGCTGGACGTTTTTCGTACCGGGCATTATTTTCTTCCTGAACGGCTTTTTCCTGTTAAAAGTTCCGTTTCCGAATTATAAGCAAAAAGAAGACGGCGGCCGGACGGAAGCCTCTCCGTCTGATGGCGCGTTCACATCACAGCCGTCGATCTGGCGCGAAGGCCTTGCGATCATTCTGTTAGGCTTTTCATCTACGGCGCTGTTTATGCTCGTTCAAGTATGGCTTCCTAAGTTCGGGCAAACCGTTTTGGGCATGCCTGAGGTGCAGGCCGTCAAATTGTTGAGCTATTACAGCATCGGGGCGCTTGTATCCGTATTATTGCTGGCTGTGCTGTTAAACAGAGTGATTCAGCCGATTACGGTAATGGTGCTGTACCCTGTGATCGCGGCAATCGCGCTGCTTGCTCTGATTTTCATTCATCAGCCGGCCGTATCAGTCATCAGCTCCTTTGTCATCGGACTTTCAACTGCGGGCATTCTGCAATTGGCGATGACGGTTATGGCTGTTTTATTCCCTAAAAATAAAGGTACGATCACATCTTTTGTTAATATAGCATCAAGCTTATCTTTTATTGTCATTCCGCTTGTAACGGGAGCGATATCCAAAGCGGCCGGCCTGACGCCTGTTTTTCTGCTTGATATCGGAATTGCGGCCGTCAGCGCCCTTCTCGCATTGTTTATCGGAATCCGCTTTAAGCAAGTGATGAAAGCCTGA	MKNIYTKMAAGLYINYFLLGMINIIIASNMEALSKQLHTSAAGVSYLVSAIGIGKLISLLFAGKLSDTFGRRPFIVSGAFLYLIFLIGIPLSTNYTAAFIFAIFAGIANSFLDSGTYPALIEGFPKNASSATVLIKAFVSIGATVLPFFIAFIADRHLFYGWTFFVPGIIFFLNGFFLLKVPFPNYKQKEDGGRTEASPSDGAFTSQPSIWREGLAIILLGFSSTALFMLVQVWLPKFGQTVLGMPEVQAVKLLSYYSIGALVSVLLLAVLLNRVIQPITVMVLYPVIAAIALLALIFIHQPAVSVISSFVIGLSTAGILQLAMTVMAVLFPKNKGTITSFVNIASSLSFIVIPLVTGAISKAAGLTPVFLLDIGIAAVSALLALFIGIRFKQVMKA				NA	NA	NA	NA	NA
D1-12_02653	762	aroD	COG0710	3-dehydroquinate dehydratase	ATGCAATCTATCACGATCAGAAACACGGTCATCGGCGAAGGGCTTCCGAAGATCATTGTGCCGCTGATGGCGGCCGGAGAGAAAGAACTGCTCGAAGAAATGGAAGCCATCAACAGGCTTCGCCCGGATATCATTGAGTGGCGGGCAGATGTATACGAGCACGTTGACAGCCTGGACGCCGTAAAAGGCATGCTTGAAAAGCTGCGGAAAGCCGCAGGCGCAACACCGCTGCTTTTCACATTCAGAACTCATAAAGAAGGCGGAAATAAAGTTATTGATGACCGCTTTTACATTGAATTGCTGAAAACCGCCATCGAAACAAAACATATTGACCTTGCAGACGTTGAGTTGTTTACGGGAGAAGCGGAAGTCAAATCAATTGTGAAAACCGCTGAAGATAACGGCGTATATGTCGTCATGTCCAATCATGATTTTCATCAGACACCGAAAAAAGAAGAAATCATTTCCCGGCTGCGGAACATGCAGGCGTACGGCGCGCACATTCCGAAAATCGCGGTGATGCCGCAAAGCACTGAAGATGTTTTCGTCTTATTGGATGCCACTCACACGATGAAAACACAATACGCAGACCGGCCGATCATCACGATGTCAATGGCGGGAACAGGCCTGATCAGCCGCCTGGCCGGCGAAGTCTTCGGCTCAGCGTGCACGTTCGGAGCGGGCAAAGAAGCATCGGCGCCCGGACAGATTCCCGTTGAAGAATTGCGCAGCGTACTCAGCATTTTAAATAAACATATGTAA	MQSITIRNTVIGEGLPKIIVPLMAAGEKELLEEMEAINRLRPDIIEWRADVYEHVDSLDAVKGMLEKLRKAAGATPLLFTFRTHKEGGNKVIDDRFYIELLKTAIETKHIDLADVELFTGEAEVKSIVKTAEDNGVYVVMSNHDFHQTPKKEEIISRLRNMQAYGAHIPKIAVMPQSTEDVFVLLDATHTMKTQYADRPIITMSMAGTGLISRLAGEVFGSACTFGAGKEASAPGQIPVEELRSVLSILNKHM	PGPT0012885_390	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012885-aroD-K03785	NA	NA
D1-12_02654	885	aroE_2	COG0169	Shikimate dehydrogenase (NADP(+))	ATGAAGAAAGATTTAGGACGGATTAACGGAAAAACTCAGCTTATCGGATTATTCGCGACACCGATCGGACACTCTTTATCTCCGGCGATGCACAACCTGGCGTTTAAAAAATTAGGATTGAACTACGCTTACCTCGCGTTTGAAGTCGGCAATGAACAGCTGGAAGATGTGGTAACGGGAATGCGCGCCTTAAACGTCAGAGGATTCAATGTCTCGATGCCGAACAAGATGAACATTCTCCCTTACCTCGATGAACTCGCGGATTCAGCGAAATTCACCGGCGCGGTGAATACAGTCGTTAATGAAAACGGCAGACTGATCGGACACTCGACTGACGGTATGGGATACGTCCGCAACTTAAAAGAACACGGCATCGATATCACAGGCAAAAAAATGACGCTGGTCGGTTCCGGCGGGGCCGCCACTCCGATAGCGATTCAATCCGCATTGGAAGGCCTCGGAGAAATCTCTATTTTCGCCCGTAATGACGCGTTTTTTGAAAAAGCGGAAGAAAACGTCCGCATTATCAATGAAGAAATGAAGGGATCTTCTTGTAAAGCGAAAGTCTTCCCGCTCGAAGATCAAGATGCGCTGCGTGCTGAAATCGCTTCAAGCGATATTTTCACAAACGGAACAGGTGTCGGCATGAAACCGCTTGAAGGCTTGAGCGTCATTGAAGATACATCCATGCTCCGTCCTGATTTGATTGTGACAGACGTCGTTTACAACCCCGTTACGTCGAAATTGCTTGAACAAGCTCAAGCGGCCGGCTGCAGCACCATTAACGGCCTCGGCATGATGCTTTGGCAGGGCGCCATGGCATTTGAATATTGGACAGGCCGTGAAATGCCGGTTCAGTATATTAAAGAGCAAATGTTTGAATAA	MKKDLGRINGKTQLIGLFATPIGHSLSPAMHNLAFKKLGLNYAYLAFEVGNEQLEDVVTGMRALNVRGFNVSMPNKMNILPYLDELADSAKFTGAVNTVVNENGRLIGHSTDGMGYVRNLKEHGIDITGKKMTLVGSGGAATPIAIQSALEGLGEISIFARNDAFFEKAEENVRIINEEMKGSSCKAKVFPLEDQDALRAEIASSDIFTNGTGVGMKPLEGLSVIEDTSMLRPDLIVTDVVYNPVTSKLLEQAQAAGCSTINGLGMMLWQGAMAFEYWTGREMPVQYIKEQMFE	PGPT0019725_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0019725-ydiB-K05887	NA	NA
D1-12_02655	1032	ccpA_3	COG1609	Catabolite control protein A	ATGAAACAGCAAAAAAAACGCCGGGTGACATTGCAGCAGGTCGCTGAACATGCCGGCGTCTCAACATCCACCGCTTCATTAATCGTCCGCAACAATCCGCGAATTTCCGAAGCGACCCGTGAGAAAGTGCTGCAATCCATGCGGGAGCTGGGGTACGTATATGATCGGGTCGCCGCGAATTTACGATCACAGACGTCCACAACGGTAGGATTGATTATTACTGACATTTCCAATACGTTTTTCTCAGAGTTTCTGATCGGCGTTCAGAATACGCTTGAGGAAGTCGGATTAACGGTGCTGTTAGGCACGACATTTGATTCCGTCGCCAAGCAGGAGCAGCTGATCTCGACCATGCTGGAGCACAGGGTCGGCGGATTGATTTTGTGTCCGGTTTCAGGTACAGCTGAGGAAACCCTTTCCCGCCTTGAGCAGCTTGACATTCCGGTCGTGCTCGCCGTCAGGGAGATTGCCGATGCAGATTGTGATTTTGTCGGAGCCGATTATGAGGAAGGCACCTATAAGGCAGTGCGTCATTTCATTGAGAAAGGCCATCAGGAGATTGCGTTTCTGGGCGGCGTGAAGCACTCATCAACATGGACGAAGCGTATGAAAGGGTTTAAAAAAGCGCTCCGTGAAGCGGATCTGGAAGTGAAAAATGAATATGTCATTGACAGCGCGCCGACCCGCGAAGCAGGCTGTGAAGCCGTGACGGAGCTCCTCCGCCGGTCTGAGCGCCCGACCGCAATTTTCTGCTTCAGTGATTTGGTCGCGTTCGGCGTCATGCAAGGGATCAGAAAAGCCGGGCTCGTTCCGGGCGAAGATATTGACATTATCGGCTTTGATAACGTGCCGGAAGCTGAAATTTCTTATCCCCCGCTTACAACCGTTTCTTCCTTTCCGCGGCAGTCGGGAAAAGAAGCGGCTCAATTGCTGCATCATAAAATCACCAGCTCCCAGCACAAAAAACAACGCATTATTCTGGCGCCTGAGCTGGTCATCCGGGAATCTTCACAAAAAAAGCGGAACGCCTGA	MKQQKKRRVTLQQVAEHAGVSTSTASLIVRNNPRISEATREKVLQSMRELGYVYDRVAANLRSQTSTTVGLIITDISNTFFSEFLIGVQNTLEEVGLTVLLGTTFDSVAKQEQLISTMLEHRVGGLILCPVSGTAEETLSRLEQLDIPVVLAVREIADADCDFVGADYEEGTYKAVRHFIEKGHQEIAFLGGVKHSSTWTKRMKGFKKALREADLEVKNEYVIDSAPTREAGCEAVTELLRRSERPTAIFCFSDLVAFGVMQGIRKAGLVPGEDIDIIGFDNVPEAEISYPPLTTVSSFPRQSGKEAAQLLHHKITSSQHKKQRIILAPELVIRESSQKKRNA	PGPT0017992_6136	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
D1-12_02656	516	yfkM	COG0693	General stress protein 18	ATGGGTAAAAAAATTGCAGTTGTATTAACGGATTATTTTGAGGATGTCGAGTATACTGAACCTGCGAAAGCTTTTAAAGATGCGGGTCATGAATTAACCGTAATTGAACAGGAAAAAGGAAAAACAGTCAAAGGCAAACAAGGGGAAGCGGAAGTGAAAGTGGACGCGTCCATCGATGATGTGAATCCGAAAGACTTTGACGCATTGCTGATCCCGGGCGGATTCTCTCCTGACATGCTGCGTGCGGATGACCGTTTCGTCCAATTTGCCAAAGCGTTCATGGATGATAAAAAACCGGTGTTCGCCATCTGCCACGGACCTCAGCTTCTCATCAACGCGAAAGCATTGGACGGGCGCAAAGCGACAGGGTTTACTTCAATCCGAATCGACATGGAAAACGCGGGCGCGAATGTTGTGGATGAAGAAGTCGTCGTCTGCCAGAACCAGCTGGTTACAAGCCGCACACCGGATGACATTCCGGCATTCAACCGCGAATCATTAAAACTGCTTGCGTAA	MGKKIAVVLTDYFEDVEYTEPAKAFKDAGHELTVIEQEKGKTVKGKQGEAEVKVDASIDDVNPKDFDALLIPGGFSPDMLRADDRFVQFAKAFMDDKKPVFAICHGPQLLINAKALDGRKATGFTSIRIDMENAGANVVDEEVVVCQNQLVTSRTPDDIPAFNRESLKLLA	PGPT0015010_3224	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
D1-12_02657	4293	yfkN	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	GTGAGAATACAGAAAAGACGATGCAGCGTCAATATGACACTCCGTATTCTGCTGCCCCTAGTTATGATACTTAGTCTAATCCTCCCAACATCACCCATTAAAGCAGAAGAAAACAAATCCTCCAGTGTGAATCTCAGCATTTTAGCCACAACTGACGTTCACGCTAACATGATGGACTACGATTACTACAGCGACAAACCGACAACGGAATTCGGGCTGGCCAGAACGGCTCAGCTTATTGAGAAGCACAGGCGCGAAAATCCGAATACGCTGCTTGTCGATAACGGAGACCTGATTCAGGGGAATCCCCTCGGAGAATACGCCGTAAAATATGAGAAAAATGATATCATTTCAGGCGCAAAGACCCATCCGATCATTGAAGTGATGAACAGTCTGCATTATGACGCAGGAACACTCGGCAATCATGAATTTAATTATGGGCTTGAATTTCTGGACGGGACAATCAAAGGCGCTGATTATCCGATCGTTAACGCCAATGTGAAAACATTAAGCGGCGAAAACCGTTATACTCCTTATGTCATAAAAGACAAAACCGTCACGGATGAAAACGGCGGCAAGCATCAGATAAAAGTCGGCTACATCGGCTTTGTTCCTCCCCAAATCATGACGTGGGATAAGAAAAATCTCGAAGGCCGCGTTCAGGTCGAGGACATTGTGGAATCCGCAAAGAAAACCGTTCCGAAAATGAAAGCTGAAGGAGCCGATATCGTCATCGCCCTCGCCCACAGCGGCATCGAAAAAAAAGCGCAGTCTTCCGGAGCGGAAAACGCCGTTTTTGACCTGGCAACGAAAGTCGGCGGAATTGACGCGATCGTATCCGGCCATCAGCACGGGCTTTTCCCTGATGCCGAATACAAAGGCGCTGATCAATTCGACGTCGATAAAGGCACGATTAACGGCATCCCCGTTGTCATGTCAAGCAGCTGGGGCAAATATGCGGGCGTCATCGACCTCCGGCTTGAAAAAACAGACAGCGCGTGGCATGTGGAAGATGCAAAAGGCAGCATCGAGCCAATTGCCGGCAATGTGACGTCGGAAAACGAAACCGTCGTCAATACCGTCAAAAAAGCGCACGAAGGCACTTTGAAATACATCAGAGAACCCGTCGGCCAGACAAAAGCCGATATCAACAGTTTTTTCGCCCAAGTCAAAGATGATCCGTCCATTCAAATCGTGACGGATGCGCAAAAATGGTACGCCGAAAATAAGATGAAAGATACGGAATATAAAGATCTGCCAATCCTCTCGGCGGGCGCTCCGTTTAAAGCCGGCGGGCGGAACGGCTCAAATTACTATACAAACATTTCCGCGGGCGACCTCGCCATCAAAAACATCGGCGATTTGTACCTGTATGACAACACGGTTCAGATCGTCAAGCTGAACGGAAGCGAAGTGAAAGACTGGCTCGAAATGTCCGCGGGGCAATTTAATCAGATCGATCAGGCAAAAGGCGGCAGCCAAGCGCTTTTAAATGACGCCTACCGCTCATACAATTTTGATGTCATTGACGGTGTCACCTATCAGGTCGATGTCACAAAACCGGCGAAATACAACGAAAACGGAACAGTCATTCATCCCGATGCAAGCCGGATCGTCAACCTTTCTTATCAAGGAAAGCCCGTCAGCGCCAAGCAGGAATTTCTGATCGTCACAAATAATTACCGCGCTTCAGGCGGCGGAGGATTCCCTCACTTAAGCAATGACAAAATCGTATACTCTTCTGCCGATGAGAACAGGCAGGTCTTAATGGATTACATCATCCAGCAGAAAACGATTAATCCGCAGGCTGATCATAACTGGTCCATTCTTCCGGTCAAAGGGACAAACCTGACATTTGAATCTTCCTTGGCCGCAAAGCCGTTTGCCGACCGCGCAGATGACGTCGCCTATATCGGTGAATCACAAAACGCGGGCTACGGACAGTACAAGCTCCAATTCAAAGATGATGGACCGGGCACAGATCCGCCGAAAGATGACGCATGGAAACTCACCGTTATGCATACAAATGACACGCACGCCCACCTTGATAACGCGGCGAGGCGGATGACGAAAATCAAAGAAATCAGAAGCGAAACCGACCGCAGTATTTTGCTGGATGCGGGAGACGTTTTCTCAGGCGATCTCTATTTCACAAAGTGGCAGGGGCTGGCTGATTTAAAATTGATGAACAGCATGGGCTACGACGCAATGACCTTCGGAAATCATGAGTTTGATAAAGGTCCGGGTGCTCTCGCCAGCTTCCTGAGCGGTAACGGGAGCGCGTCTGACCCATCCGGGAAATACAATTTTCAAGCGCCTGACTTTCCGCTCGTCAGCTCAAATGTCGATGTGTCCAAAGAGTCAAAACTCAGACCATTCATGAAAAAAGCAGACACATTTACGGCAGGGAAAAAGAAAAAAGCAGGCATCTATCCATATATTCTGCTTGATGTAAACGGAGAAAAAGTCGCCGTGTTCGGCTTGACGACAGAAGATACGTCCGTCACATCAAGCCCGGGAAAAAGCATTGTCTTTCATGATGCCTTCCAATCCGCACAAGATACAGTAAAAGAAATACAGAACAAGGAACATGTCAATAAAATTATCGCCCTGACCCATATCGGGCATCAGCGTGATCTCGATCTTGCCAAAAAGGTAAAAGGCATCGACTTAATCGTCGGCGGACATACGCATACGCTTGTAGATAAAATGGAAATTGTCAAAAACGAAGAGCCGACCATCGTCGCCCAAGCAAAAGAATACGGCGAATATTTAGGCCGTGTCGATGTCGCATTTGACAAAAACGGCGTCGTTCTGCCGGAACAATCCTCTCTTCAAGCGCTGCCGGTGAATGAGCAGACGAAAGAAGACCCGGATCTGAAAAAAGAGCTTGATCCGTTTAAAAAAGAGCTCGTCTCAGTTAAAAATGAAAAAGTCGGTTCAACGAAGGTCGCACTTGACGGCCGGCGCGAGCATGTCCGCTCCAAAGAAACCAATCTCGGAAACTTCATCGCGGACGGCATGCTGCAAAAAGCGAAGGAAGCGGCCGGCGCCCAAATCGCGATCACAAACGGGGGCGGCATCCGCGCGGGCATTGATAAAGGAGACATCACCCTCGGCGACGTGCTGAATGTGATGCCGTTCGGCAACACGCTTTACGTCGCGGATTTAACCGGAAAACAGATCAAACAAGCCCTGGAACAAGGGTTAAGCGGAATTGAAGCTCAAGGCGGCGCCTTCCCTCAAGTTGCCGGTTTAACATACACGTTTACACTGAATAAAAAGCCGGGACACCGCGTTCTTCAAGCTGCGGCCGTACAGGATGACGGCAGTGTAAAGCCGATTTCTGATAAGAAGACATACAGAGTCGCCACCAGTAACTTTGTCGGTGAAGGCGGAGACGGATATTCCGTCTTTAACGAAGCGTCCCATAAAGAAGACCTTGGCTTTGTCGACTATGAGGTCTTCGTTGAGCAGCTTGAAAAAGCGGGAAAAGCGGTGGAACCGAAAGTTGACGGCCGCGCGCAGGAAGTGTACCTGCCGACAAAACAAAAAAACGGTTCGTGGACGCTTGAAGATGACAGCGCATTTGCCGTCTATGCCAAAAACGCCAACACGCCGATCGTGTATTACGATAAAAATGACGGCGCCAAAAAGCCGATTGATCTCAGCGTGACCAAAAAACAAATCGGCCTGTTAAAGGACAGAACATCGGATTCTTCCCTTACGATCCTGCATGACAAGTTCAGCATGAAAATGCCGATGGCAAACGCTGCTTCAGCTGATACACGATTCGGTGTGACGCCGAAAGGAAAAGTTAGCGGGGCGCTTTCAAATGTATACGACTTTACAATGAAGCAGAAAAACAAAGACATCAAAACATTCAAAGCGCCGGTAAAGCTCACCCTGCGCATTGAGAATATGAAAAAGGCGAAACAGCCCGGCATTTATCATGTAGACCGGAAAAAGAACGTCTATACAAAAACAGACAACGGTTCGGTTTCACACGATCTCGTCACGGGCTATACAAATCATTTCAGTGAATACACCATATTAAACGCAAACACGAAGAGCGCGCCGCCGACAAGCGGAGATCACGGCTCCGGAAAGCAGCCAAGCGGACAAAAACCGTCATCCGGCCCTGCGCAGGACGGAGTATCGCCGGGCGGCCTGCTTCCTGATACGGCCACAACGATGTATTCCATCCTTCTTGCCGGGTTACTCATCAGCGCGCTCGGAACGGCACTGTATCTATATCAAAGAAGAAAAGCAAAAAAAGTGAACGAAGCATAA	MRIQKRRCSVNMTLRILLPLVMILSLILPTSPIKAEENKSSSVNLSILATTDVHANMMDYDYYSDKPTTEFGLARTAQLIEKHRRENPNTLLVDNGDLIQGNPLGEYAVKYEKNDIISGAKTHPIIEVMNSLHYDAGTLGNHEFNYGLEFLDGTIKGADYPIVNANVKTLSGENRYTPYVIKDKTVTDENGGKHQIKVGYIGFVPPQIMTWDKKNLEGRVQVEDIVESAKKTVPKMKAEGADIVIALAHSGIEKKAQSSGAENAVFDLATKVGGIDAIVSGHQHGLFPDAEYKGADQFDVDKGTINGIPVVMSSSWGKYAGVIDLRLEKTDSAWHVEDAKGSIEPIAGNVTSENETVVNTVKKAHEGTLKYIREPVGQTKADINSFFAQVKDDPSIQIVTDAQKWYAENKMKDTEYKDLPILSAGAPFKAGGRNGSNYYTNISAGDLAIKNIGDLYLYDNTVQIVKLNGSEVKDWLEMSAGQFNQIDQAKGGSQALLNDAYRSYNFDVIDGVTYQVDVTKPAKYNENGTVIHPDASRIVNLSYQGKPVSAKQEFLIVTNNYRASGGGGFPHLSNDKIVYSSADENRQVLMDYIIQQKTINPQADHNWSILPVKGTNLTFESSLAAKPFADRADDVAYIGESQNAGYGQYKLQFKDDGPGTDPPKDDAWKLTVMHTNDTHAHLDNAARRMTKIKEIRSETDRSILLDAGDVFSGDLYFTKWQGLADLKLMNSMGYDAMTFGNHEFDKGPGALASFLSGNGSASDPSGKYNFQAPDFPLVSSNVDVSKESKLRPFMKKADTFTAGKKKKAGIYPYILLDVNGEKVAVFGLTTEDTSVTSSPGKSIVFHDAFQSAQDTVKEIQNKEHVNKIIALTHIGHQRDLDLAKKVKGIDLIVGGHTHTLVDKMEIVKNEEPTIVAQAKEYGEYLGRVDVAFDKNGVVLPEQSSLQALPVNEQTKEDPDLKKELDPFKKELVSVKNEKVGSTKVALDGRREHVRSKETNLGNFIADGMLQKAKEAAGAQIAITNGGGIRAGIDKGDITLGDVLNVMPFGNTLYVADLTGKQIKQALEQGLSGIEAQGGAFPQVAGLTYTFTLNKKPGHRVLQAAAVQDDGSVKPISDKKTYRVATSNFVGEGGDGYSVFNEASHKEDLGFVDYEVFVEQLEKAGKAVEPKVDGRAQEVYLPTKQKNGSWTLEDDSAFAVYAKNANTPIVYYDKNDGAKKPIDLSVTKKQIGLLKDRTSDSSLTILHDKFSMKMPMANAASADTRFGVTPKGKVSGALSNVYDFTMKQKNKDIKTFKAPVKLTLRIENMKKAKQPGIYHVDRKKNVYTKTDNGSVSHDLVTGYTNHFSEYTILNANTKSAPPTSGDHGSGKQPSGQKPSSGPAQDGVSPGGLLPDTATTMYSILLAGLLISALGTALYLYQRRKAKKVNEA	PGPT0013420_72	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013420-yfkN-K08693	NA	NA
D1-12_02658	1140			hypothetical protein	TTGAAGATAACAGGAAACAACCGAAACCGCATGTCTTACAAGAAAAAGCTGTTTTACGTGATAACAGCGCTCTGTTTTATCAGCTCGCTCATTTTCGTCACTCACAACGCTTCTTTTTATGAGCGCCCGATTGCCAAAGTGACGAAAACAACATTGGAACACCAGTCTGACGTACAGGACATGCATAAAAACAAAGATAAGATTTTCAATCAGACGATCACTGCCAGACTTGAAAACGGCAGTCAGAAAGGACAGCTCATTCATTTGTCCAATCAGTATTCATCATCCGGAGCGAACGATCAGAAATATTCGATTGGCGATGAAGTATTCGTTTCTATTGATAAAGGGAAACCATCAAATAAGGATATATCGGGAAGCATTGTAGATAAAAAACGGGATAAACAGCTTTTGCTGATCGCTTGGGTTTTCATCTTCACCTTGCTTATCGTCGGCAAAAAACAAGGCTTCTTTTCGATCGTCAGCCTGATGTTTAACGCCGTTTTACTGTCGTTTGCATTAGATTTGTACAGGAAGCATCCTAATATAGGGTTAATTTTCATCTGCGGTGTCTGTATTCTCATCTTTACTGTCATCTCATTGCTGCTTGTCAGCGGTTTTCACGCGAAAACATACGCGGCCATTGCCGCGACGCTCGCAGGCACTTTCGTTTCCCTGCTGATTACGTATCTGGTGATGCTGGCAACCGGAGAGAAAGGTCTCAGATATGAGGAAATGCAGTATTTAACCCGCCCTTATCACACGGTGTTCATGGCCGGGGTATTTATCGGATCACTGGGAGCGGTCATGGATGTAGCCATTACCATGACGTCATCTGTCTTCGGATTATATGAAGAAAACAAGGGTATCTCATTACAAGCTCTCAGACGTTCCGGGATGGAGATCGGAAAAGACATCATGGGGGCGATGACCAACATTCTGTTTTTTGCTTATATAAGCGGCTCTATTCCGATGATGCTGTTGTATTTGAAAAATGATTCCCCGATAGGATTCACTCTTTCTATGAACATTTCCTTGGAAATAGCCAGAGCATTGGCCGGAGGGATCGGAATCGTATTAGCCATACCCGCCAGTCTGTATGCTTCTATCTTTTTTATTAAACGAAAGAAGGCAAGCTCATGA	MKITGNNRNRMSYKKKLFYVITALCFISSLIFVTHNASFYERPIAKVTKTTLEHQSDVQDMHKNKDKIFNQTITARLENGSQKGQLIHLSNQYSSSGANDQKYSIGDEVFVSIDKGKPSNKDISGSIVDKKRDKQLLLIAWVFIFTLLIVGKKQGFFSIVSLMFNAVLLSFALDLYRKHPNIGLIFICGVCILIFTVISLLLVSGFHAKTYAAIAATLAGTFVSLLITYLVMLATGEKGLRYEEMQYLTRPYHTVFMAGVFIGSLGAVMDVAITMTSSVFGLYEENKGISLQALRRSGMEIGKDIMGAMTNILFFAYISGSIPMMLLYLKNDSPIGFTLSMNISLEIARALAGGIGIVLAIPASLYASIFFIKRKKASS				NA	NA	NA	NA	NA
D1-12_02659	762			hypothetical protein	ATGAATGTCATCGTAATTCTCGCGGCGATTTTATTTCTATTAATGGTCATCATCGGCGGAAAAAAAGGAGCGAGGTCTTTTATTGCGTTATTCTTAAATTTCGGTGTTCTCTTTCTCACCATTATTTTCATGACAGACCCGCATATCAATCCGATTATTTTAACATTGCTCTCTTCCGCCGTGATTTGCAGCATTACTCTTTTTTATATTAATGGAGGAAACGTCAAAACCGTAACCGCCTTTATTTCTGCAATGCTGACGATTGCATTGCTGCTGTTTTTTATTATGTCTGTAACAAAACATACTTCGATTCAGGGATTCGGTGAAGAAGAATTGGGTGATATCGGCATATTCACACTGTTTGTCGGGGTGGATTTTGTGAAGGTTACCGCAGCCATGATCATCATGGGCACGATAGGGGCGATTACCGATGTCGCGATTTCCATTACTTCACCCATGCGGGAAATTTACAGTCATAATCCGTCCATGAGCAGAAAAGATCTGTACACATTCGGATTAAGCATCGGGAGAGATATTTTAGGAACGAATACGAATACGTTATTCTTTGCTTTTTTCGGCAGCTATTTGGCTTTAATTATCTGGTTTAAAGACTTATCATACTCAGCTGAAAAAATTGTGAACTCAAAAGTATTCAGTGCGGAAGCCGTCACCATTCTTTGTGCCGGAATCGGGATCGGCATCATCATTCCCGTTACATCCTGGATCACCGCCTGTTTTTTAGCAAAACCAAATAAACATTAA	MNVIVILAAILFLLMVIIGGKKGARSFIALFLNFGVLFLTIIFMTDPHINPIILTLLSSAVICSITLFYINGGNVKTVTAFISAMLTIALLLFFIMSVTKHTSIQGFGEEELGDIGIFTLFVGVDFVKVTAAMIIMGTIGAITDVAISITSPMREIYSHNPSMSRKDLYTFGLSIGRDILGTNTNTLFFAFFGSYLALIIWFKDLSYSAEKIVNSKVFSAEAVTILCAGIGIGIIIPVTSWITACFLAKPNKH				NA	NA	NA	NA	NA
D1-12_02660	666	yfkO	COG0778	Putative NAD(P)H nitroreductase YfkO	ATGTCAGATAAAAAACAGCAGATCATCGAAGCGTATCAATTCAGACACGCCACAAAGGAATTTGATCCTGAGAAAAAAATTTCAGAAAGCGATTTTGAATTCATTTTAGAAACGGGAAGATTATCCCCAAGCTCACTCGGTTTGGAGCCTTGGAAATTTGTCGTCGTTCAAAATCCGGAGCTTCGTGAAAAACTCCGCGAGTTCACATGGGGCGCGCAAAAGCAGCTGCCGACCGCAAGTCATTTCGTACTTCTGCTTGCCCGGACGGCAAAGGATATCCGTTTTGACGCCGACTATGTCAAAAATCACTTGCGGGAAGTCAAAAAAATGCCGGAAGATATGTATGAAGGCTATATCAGCAAAACGGAAGACTTCCAGAAAAATGATTTCAATCTGCTTGAATCAGATCGCGCGCTGTTTGACTGGGCATCCAAACAGACTTACATCGCCCTCGGCAATATGATGACAGCCGCTGCGCAGATCGGAATCGACTCCTGCCCTGTAGAAGGCTTCAACTACAAAGAAATTCACCGGATTCTTGAAGAAGAAGGGCTTCTGGAAAACGGAAGTTTCGACATCTCTGTTATGGCCGCATTCGGCTACCGTGTCAGAGAACCGCGCCCGAAAACAAGATCTGCCTCAAAAGACGTTGTAAAGTGGGTATAA	MSDKKQQIIEAYQFRHATKEFDPEKKISESDFEFILETGRLSPSSLGLEPWKFVVVQNPELREKLREFTWGAQKQLPTASHFVLLLARTAKDIRFDADYVKNHLREVKKMPEDMYEGYISKTEDFQKNDFNLLESDRALFDWASKQTYIALGNMMTAAAQIGIDSCPVEGFNYKEIHRILEEEGLLENGSFDISVMAAFGYRVREPRPKTRSASKDVVKWV				NA	NA	NA	NA	NA
D1-12_02661	711	treR	COG2188	HTH-type transcriptional regulator TreR	GTGAATAAATACATCACAATCTATAAAGATATGGTGCGGCAGATCGAAAGCGGCCAGCGGAAGGCTGAAGACGTTCTTCCGTCTGAAAATGATTTGTGCGATCAATACGGCACATCACGAGAAACCGTCCGCAAAGCGCTCAATATGCTGGCGCAAAACGGCTACATCCAGAAAATCAAAGGCAAAGGCTCCGTCATATTAGATAGAGAAAAAATGCGTTTTCCCGTCTCAGGCCTGATCAGCTTCAAAGAGCTTTCAGAAACGCTCGGAAAAGAGACGAGAACGGCGGTTCACCGTCTCGGGCTGATCCCGCCTCCCTCAGAAGCCGCAAAAGAGCTTGGTGCAGAAGCGGATGAAAAGGTGTGGGAAGTCGTCAGATCAAGACGGATTGACGGAGAACATATTATTTTGGACAAGGATTACTTTGTGAAAAAACACGTGCCTCTATTGACGAAGGCGATTTGCGAAGATTCGATCTATGAGTATCTCGAAGGAGAGCTCGGCTTGTCCATCAGCTACGCGCAAAAGGAAATTGTCGTGGAGCCGGCGGGGGAAGAGGACCGGAAGTATTTGGATCTCGGCGGATTCAGCCATATGGCGGTCGTGAAAAACCGCGTCTTTTTGGAGGATACCAGCCTCTTTCAGTACACGGAAAGCCGGCACAGGCTCGATAAATTCCGTTTCGTCGACTTTGCGAGAAGAGAAAAATAA	MNKYITIYKDMVRQIESGQRKAEDVLPSENDLCDQYGTSRETVRKALNMLAQNGYIQKIKGKGSVILDREKMRFPVSGLISFKELSETLGKETRTAVHRLGLIPPPSEAAKELGAEADEKVWEVVRSRRIDGEHIILDKDYFVKKHVPLLTKAICEDSIYEYLEGELGLSISYAQKEIVVEPAGEEDRKYLDLGGFSHMAVVKNRVFLEDTSLFQYTESRHRLDKFRFVDFARREK	PGPT0014110_439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014110-treR2-K03486	NA	NA
D1-12_02662	1686	treA	COG0366	Trehalose-6-phosphate hydrolase	ATGAAAACAGACAGCACACCATGGTGGAAAAAGGCAGCGGTATATCAAATTTATCCGAAGAGCTTTAATGATACGACGGGAAACGGGATCGGTGATCTGAACGGTATTATCGAGAAGCTTGATTATTTGCAGAAGCTTTTGATTGATGTCATTTGGCTTACGCCGATTTACGATTCGCCGCAGAATGACAACGGTTATGACATTCGCGATTACTGCACCATTTATGAGGAATACGGAACGATGGAGGATTTTGAACGCCTTCTCGATGAAGCGCACAAAAGAGGAATCAAGGTCGTCATGGATCTTGTCGTAAACCATACATCAGTCGAGCATCGGTGGTTCAAAGAAGCGGTCTCGTCACCCGACAGTCTGTATCGGGATTTTTACATTTGGAAAGACGGAAAGGAAGACGGCCGGGCGCCGAACAACTGGGAATCAAAATTCGGCGGTTCCGCTTGGGAGCTCGACCCGGTGTCAGGCCAGCACTATCTGCATTTATTTGATGTGTCGCAGGCCGATTTGAACTGGGAAAATGAAGAGATGAGAAAACAGGTTTACGACATGATGCATTTTTGGTTCCGAAAAGGGATCGACGGCTTCCGGCTGGATGTGATCAACCTCATTTCTAAAGACCAATCGTTTCCTGATGCCGAGGATGGGCGTGACGGGCGCCCTTATTATACGGACGGGCCGCGCGTGCACGAATTTCTCCATGAGATGAACCGGGAAGTGTTTTCGAAATATGACAGCATGACGGTCGGGGAAATGTCCTCGACAACGGCTGACCACTGCATCCGGTACACAAACCCTGAGAATAAAGAACTCGATATGACTTTTAACTTTCACCATTTAAAAGTGGATTATCCGAATGGTGAAAAATGGGCGCTCGCTCCGTTTGATTTTCTGAAGCTGAAACGGATTTTAGCGTTTTGGCAGACGGAGATGCAAAAAGGCGGAGGCTGGAACGCATTATTCTGGTGCAACCATGACCAGCCGCGGGCCGTATCCAGATACGGAGACGACGGCGTATACCGGACGAAATCAGCCAAAATGCTGGCGGCGGCCATTCATATGATGCAGGGCACGCCTTACATTTATCAAGGTGAAGAGATCGGCATGGGCAATCCGAAATTCGATGACATCGGCTCATACCGCGATGTCGAATCATTGAACATTTACAAAAAGATGAAGGAAGAAGGCGTGCCCGAAAATGACATTATCGCCATTTTAAAAGAGAAATCAAGAGACAATGCAAGAACCCCCATTCAGTGGAACAGCGGGCCGCACGGCGGTTTCACGACGGGAACGTCTTGGATTCCGGCGGCGGATGATTATAGGGACATTAACGCGGAAGCGGCTTTGCGGGACCCGGATTCAATTTTCTACCATTATCAGAAGCTCATCAAGCTCAGAAAGGAATATGACATCGTGACTGAAGGAACGTTTGAGCTGCTTGCTGAAGACGATCCGGCGGTTCTGGCGTACGTCAGACACGGCAAGGATGAAAAACTGCTGTGCATCAACAACTTCTACGGGAAAGAAGCGGACTTTACGGTTCCGCTTAAAGACACGGACGGCTGGCGGTTTACGGTGCTGCTGACGAATGATGAACCGAGGGAAGGGCGGCCGGAACGATTGACGCTCCGTCCGTATGAATCGATCGTTTATCATCTGACAAAAGCGTGA	MKTDSTPWWKKAAVYQIYPKSFNDTTGNGIGDLNGIIEKLDYLQKLLIDVIWLTPIYDSPQNDNGYDIRDYCTIYEEYGTMEDFERLLDEAHKRGIKVVMDLVVNHTSVEHRWFKEAVSSPDSLYRDFYIWKDGKEDGRAPNNWESKFGGSAWELDPVSGQHYLHLFDVSQADLNWENEEMRKQVYDMMHFWFRKGIDGFRLDVINLISKDQSFPDAEDGRDGRPYYTDGPRVHEFLHEMNREVFSKYDSMTVGEMSSTTADHCIRYTNPENKELDMTFNFHHLKVDYPNGEKWALAPFDFLKLKRILAFWQTEMQKGGGWNALFWCNHDQPRAVSRYGDDGVYRTKSAKMLAAAIHMMQGTPYIYQGEEIGMGNPKFDDIGSYRDVESLNIYKKMKEEGVPENDIIAILKEKSRDNARTPIQWNSGPHGGFTTGTSWIPAADDYRDINAEAALRDPDSIFYHYQKLIKLRKEYDIVTEGTFELLAEDDPAVLAYVRHGKDEKLLCINNFYGKEADFTVPLKDTDGWRFTVLLTNDEPREGRPERLTLRPYESIVYHLTKA	PGPT0014095_172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PHOSPHOTREHALASE,PGPT0014095-treC-K01226	NA	NA
D1-12_02663	1416	treP	COG1263	PTS system trehalose-specific EIIBC component	ATGGGTGAGTTTAACCGGGCTGCGCGGCAGATCGCTGAAGCTGTCGGCGGAATCGAAAATATTGAGGCGGCGACTCATTGTGTGACGCGTTTGCGGTTTGCATTAATAGATGAAACCAAAGTAAACCAAAAAATGCTTGATGCAATAGACATTGTCAAAGGATCTTTTGCGGTAAACGGGCAGTTTCAAGTCGTGATCGGGCAGGGGACGGTCAACAAAGTATATGCGGAATTAGTGAAGGAAACGGGGATTGGCGAAGCGTCCAAGGATGACGTGAAGAAGGCGGCAACGCAAAAAATGAATCCTTTACAGCGTGCTGTGAAAACGCTTGCGGACATCTTTATTCCGATCTTGCCGGCGATCGTCACGGCCGGGCTTTTAATGGGTCTGAACAACATCTTAACGGCGGAAGGCATTTTCTACAGCGAAAAATCGATTGTCCAAGTGTATCCGCAATGGGCGGATCTCGCCAATATGATTAATCTGATCGCGGGGACGGCCTTCGCTTTTCTGCCGGCTTTAATCGGCTGGTCGGCAGTGAAGCGGTTCGGAGGAAGCCCGCTTTTGGGCATTGTGCTCGGGCTGATGCTGGTGCATCCTGATCTGTTAAACGCATGGGGCTACGGGGCCGCCGAGCAGAGCGGCGATATTCCGGTGTGGAACCTGTTCGGCCTTGAGGTGCAGAAAGTCGGGTATCAAGGTCAGGTGCTCCCGATTTTGCTGGCGTCTTATTTACTTGCCAAGCTTGAGCTCTTTTTGACGAAACGGACGCCGGAGGGCATTCAGCTGTTGGTCGTCGCGCCGGTGACGCTTTTGGTCATCGGTTTTCTATCCTTTGTCATCATCGGTCCGATTACCTTTGCGATCGGTAACGCGCTGACGGCGGGATTGATTGCCGTTTTCGGCCAATTCTCCGCCATCGGAGGCCTGCTGTACGGAGGGCTGTATTCGGCGCTTGTGATCACGGGGATGCATCATACGTTTCTGGCGGTCGATCTTCAATTAATCGGATCAAAGCTCGGCGGCACATTTTTATGGCCGATGCTCGCATTGTCAAATATCGCTCAAGGATCGGCGGCTTTGGCCATGATGCTGATCACAAAAGATAAAAAACAGCGGGGGCTTTCACTGACGGCCGGCATTTCCGCATATTTGGGCATTACCGAGCCGGCGATTTTCGGCGTGAATCTGCGTTACAAATTTCCGTTTGTGATCGCCATGATCAGTTCGGGAATCGCGGGGATGTTCATCTCCGTCAAAGGCGTTCTCGCAAGCTCGGTCGGAGTCGGCGGCGTGCCGGGAATCTTCTCCATTATGAGTCAGTACTGGGGTCCGTTTGCGATCGGAATGCTGATCGTGCTGATTCTCCCGTTTGCGGGCACATACGGGTATGCGCGGCTGAAACGGCAAAAATAG	MGEFNRAARQIAEAVGGIENIEAATHCVTRLRFALIDETKVNQKMLDAIDIVKGSFAVNGQFQVVIGQGTVNKVYAELVKETGIGEASKDDVKKAATQKMNPLQRAVKTLADIFIPILPAIVTAGLLMGLNNILTAEGIFYSEKSIVQVYPQWADLANMINLIAGTAFAFLPALIGWSAVKRFGGSPLLGIVLGLMLVHPDLLNAWGYGAAEQSGDIPVWNLFGLEVQKVGYQGQVLPILLASYLLAKLELFLTKRTPEGIQLLVVAPVTLLVIGFLSFVIIGPITFAIGNALTAGLIAVFGQFSAIGGLLYGGLYSALVITGMHHTFLAVDLQLIGSKLGGTFLWPMLALSNIAQGSAALAMMLITKDKKQRGLSLTAGISAYLGITEPAIFGVNLRYKFPFVIAMISSGIAGMFISVKGVLASSVGVGGVPGIFSIMSQYWGPFAIGMLIVLILPFAGTYGYARLKRQK	PGPT0014075_779	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014075-treB-K02819	NA	NA
D1-12_02664	261			hypothetical protein	ATGCCATCCACTGTTATCAACCTGTACTATTTGAAGATTAACAGTATTTCTGGCAACGGATCTATTACGATTGGGGAAGCGGCATACAACAGTCCCACCACAAATAACAAATCACAAGGACTGAACTCTTCATTCGGCGATACGTCACCTATAGAATCGATGATGGAGAACTTGTTAAATGATCCTGATGTCAACGACCAGACAGCCATCGGAACCGCAGATACTGCAAATATTACGCCGGTGCCGCCCATTATAGATTAA	MPSTVINLYYLKINSISGNGSITIGEAAYNSPTTNNKSQGLNSSFGDTSPIESMMENLLNDPDVNDQTAIGTADTANITPVPPIID				NA	NA	NA	NA	NA
D1-12_02665	243			hypothetical protein	ATGCCTTACCAAATTAACGTCGTCAATATAAAAGTAAACGGAGCAACGCAAAACGGAAACGTCGATATCGGTCAGACCGTACAAAACAGCCACACCGCCAACAGCAAATTTGTCGGCGCGAACTTTTCTTTAGGGGATTTTTCGCCGGCCGCCGGATGTTTGAATTCGGGTCATCTTGACCCTGACGTGAGCGATCAGGATCAGATCGCCAACCCGTCAATGCCGATCGCAAATCAAATATAG	MPYQINVVNIKVNGATQNGNVDIGQTVQNSHTANSKFVGANFSLGDFSPAAGCLNSGHLDPDVSDQDQIANPSMPIANQI				NA	NA	NA	NA	NA
D1-12_02666	432	cotP	COG0071	Spore coat protein P	GTGGATATCGAAAAAATGAGAAAGTGGCTTGAGATTACGAACGAGCACAAGCCCAGCGACTTTTGGACCAATGTCCTGAAACGGAAATCTCCCGAAGATTTTTTCTCCTTACAAAAAAACACCCTGACTTATGATATTTATCAGGATGAACAGCACACATTTGTCATTGTGGAAATGCCCGGCGTTTACGAAGAAGAATTGACATTGAGGCTGCTGTCAAGAACACGGCTGCATATAAGAGGAAACATCACACCCCTTTTTCCAAAGAACATGGGCGTCTGCCAAAACCGGTATTACGGGGAAATCGATGAGACGATTGAGCTTCCTGAACCGGCTGAGCCCCGCCTGTTACAGGCGCAGTGCGTAAACGGCCTGCTCCACATTTCCTACCCGCGCCTTATGGAGCACATTCCTTTTCAGAAAAAAATCTAA	MDIEKMRKWLEITNEHKPSDFWTNVLKRKSPEDFFSLQKNTLTYDIYQDEQHTFVIVEMPGVYEEELTLRLLSRTRLHIRGNITPLFPKNMGVCQNRYYGEIDETIELPEPAEPRLLQAQCVNGLLHISYPRLMEHIPFQKKI	PGPT0014635_6620	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-12_02667	378			hypothetical protein	ATGGATATTGCCCATATCGTGGCTGAAGATAAAATCAAGCGCGCCATTAAGGATGGAGAGTTCGCCGGCATCAAAGGAATGGGAAAGCCCCTGCCGAAAGACGATGCCGCACATCTTCCGGAATCGCTCAGAATGGGCTACCGCATATTAAAAAACGCCGGGATCGCCGAGGATGAGGGCGCGCTGAAGAAAGAGCTGATGACGCTCGATTATTTGATCGCCAAGTGCCGCAATGAACAGGAGCGGGATCACCTGCAGAACAAACGGACGGAAAAACAAGTCAGACTCGATAAACTGACGGAGGAGAAAGCCATGTTCTCAAAACCCGCATCTTCTCATTATAAGGAGAAAGTGTACAGACGGCTGGGCCGCCCGTAA	MDIAHIVAEDKIKRAIKDGEFAGIKGMGKPLPKDDAAHLPESLRMGYRILKNAGIAEDEGALKKELMTLDYLIAKCRNEQERDHLQNKRTEKQVRLDKLTEEKAMFSKPASSHYKEKVYRRLGRP				NA	NA	NA	NA	NA
D1-12_02668	1938	ltaS2_1	COG1368	Lipoteichoic acid synthase 2	ATGAAAACATTTATAAAAGAAAGAGGACTTGCCTTCTTCTTGATAGCGGTCGTGTTATTGTGGGTGAAAACATATGTCGCTTATATTTTAAACTTTAACCTCGGCATAGACAACACGATCCAGAAAATATTGCTTTTTGTGAATCCGCTGAGCTCCAGCTTGTTCTTTCTTGGATTTGGGCTTCTTTTCAAGAAAAAATTACAGCAGACAGCCATTATTGTGATTCATTTTTTATTGTCTTTTTTGCTTTTTGCAAACATCGTCTATTATAGATTCTTTAATGATTTCATTACCATCCCGGTCATGATGCAGGCAAAGACAAACGGCGGCCAGCTCGGAGACAGCGCGTTCTCGTTAATGAGATGGACAGACGCCTTCTACTTCCTGGATACCGTCATTTTGATTATTTTGGCCCTTAAGATGAAAAAACCGGCTGAAAAACCGGCGAAGAAATCATTCAGAATCGTTTTGGCTTCCGCCGTGCTTGTGTTCCTGATCAACCTCGCCGTCGCGGAATCAGACCGTCCTGAGCTTTTGACACGCTCATTTGACCGAAACTATCTGGTGAAATACCTGGGCACGTACAACTTTACGATTTACGATGCCGTGCAGAATGTGAAATCAAACAGCCAGCGCGCGCTTGCCGATTCAAGCGATGTAACGGATGTGGAAAACTATATGAAGGCCAACTATGACGTGCCGAATAACGTCTACTTCGGAAAAGCCGAAGGAAAAAACGTCATCTACGTCTCATTAGAGTCTCTGCAGTCCTTTATCATTGATTACAAAATTAACGGCAAGGAAGTGACGCCGTTTTTAAACAAACTGGCGCACGATAATCAAACATTCTACTTTGATAACTTTTTCCACCAAACGGGACAAGGTAAAACATCTGATGCGGAATTTATGATGGAGAACTCTCTGTACCCGCTTTCGCAAGGTTCGGTTTTCGTCAATAAAGCGCAAAACACGCTGCAGTCCGTTCCTGCGATCTTAAAAGGCAAAAAGTACACGTCTGCCGCTTTCCACGGAAATACGCAGACTTTCTGGAACCGTAACGAAATGTACAAATCGGAAGGCATCGATAAGTTTTTCGATTCCGCTTATTATGACATGAGCGAAGAAAACACGAAAAACTACGGCATGAAAGACAAACCGTATTTCAAAGAATCCATGCCGCTCTTAAAGAGCCTGCCGCAGCCGTTCTATACGAAGTTCATTACGCTGTCCAACCACTTCCCGTTCGGAATGGATAAAGAAGACACGGACTTCCCGGCGGGAGACTTTGGCGATTCAGTCGTCAATAATTACTTCCAGTCCGCGAACTATCTGGATGAATCAATTGAACAGTTCTTTAATGACCTGAAAAAAGACGGCCTGTATGATAAGTCGATTATCGTGATGTACGGAGACCACTACGGCATCTCCGAAAACCATAATAAAGCGATGGCGAAAGTGCTCGGCAAAGATGAGATCACTGAATACGACAATGCCCAGCTTCAGCGGGTGCCGCTCTTTATCCACGCTCCCGGCGTGAAAGGCGGCCGCAATCATAAATTTGCCGGTGAAGTCGATGTCGCGCCGACCGTTCTTCATCTGCTCGGCGTCGATACGAAAGATTATCTCATGTCAGGTTCTGATATCTTATCGAAAGAGCACAGAGAAGTCATTCCGTTCCGTAACGGAGACTTCATCTCGCCGAACTATACGAAAGTGTCCGGCAAGTATTACGATACGAAAACCGGAAGACTTTTAGATGATTCAGAAGTCGACAAAAAAGAAGACTCTCTCGTCAAGACTGAGCTTGAAATGTCTGATAAGATCATCAACGGCGATCTGCTTCGTTTCTATCAGCCGAAAGGCTTCAAGAAAGTGGATCCGTCACAATTCGATTATACGAAGCGTGAAGATTCCTCAGCAGACGATCAAAAAGAATAA	MKTFIKERGLAFFLIAVVLLWVKTYVAYILNFNLGIDNTIQKILLFVNPLSSSLFFLGFGLLFKKKLQQTAIIVIHFLLSFLLFANIVYYRFFNDFITIPVMMQAKTNGGQLGDSAFSLMRWTDAFYFLDTVILIILALKMKKPAEKPAKKSFRIVLASAVLVFLINLAVAESDRPELLTRSFDRNYLVKYLGTYNFTIYDAVQNVKSNSQRALADSSDVTDVENYMKANYDVPNNVYFGKAEGKNVIYVSLESLQSFIIDYKINGKEVTPFLNKLAHDNQTFYFDNFFHQTGQGKTSDAEFMMENSLYPLSQGSVFVNKAQNTLQSVPAILKGKKYTSAAFHGNTQTFWNRNEMYKSEGIDKFFDSAYYDMSEENTKNYGMKDKPYFKESMPLLKSLPQPFYTKFITLSNHFPFGMDKEDTDFPAGDFGDSVVNNYFQSANYLDESIEQFFNDLKKDGLYDKSIIVMYGDHYGISENHNKAMAKVLGKDEITEYDNAQLQRVPLFIHAPGVKGGRNHKFAGEVDVAPTVLHLLGVDTKDYLMSGSDILSKEHREVIPFRNGDFISPNYTKVSGKYYDTKTGRLLDDSEVDKKEDSLVKTELEMSDKIINGDLLRFYQPKGFKKVDPSQFDYTKREDSSADDQKE	PGPT0023375_796	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
D1-12_02669	441			hypothetical protein	GTGACATGGATTGCAGTTGTTTCAATTGTTGTCATAAGCCTGATTAAGATTGTGCTGACATGCCTTCCTACCGGAGCGGTGGAATGGATCCTCCGCAAGTTTGAAACCCATTCAAAGCTCAGTGACGCGTCCGCTGCCGTTTCCCTCGGCGGAAAACGTCTGGAAGGCGAAGACAAACGCCGGGTGATTGATGATTTTAACGAAGCCGTGTTTATCGAACGGCATTATATATACCCAGGGGATGAAGAGCGTTATCTTCATCCGCAAAACGGAGCCGATCCGCTTGTCATTAAGACGAGAAAAGGAAAAAAAGATGTGACGGTGTTTGTATACAGCTACGAAGATCATGTAGATGTCGTCAAGCAGCAGAAAAAGAAAGTCGTCGCTTATTCAGTTCTTTCCGACAGCCTGCAAAAGCGCACTATGGCCGCCGGGAGCTGA	MTWIAVVSIVVISLIKIVLTCLPTGAVEWILRKFETHSKLSDASAAVSLGGKRLEGEDKRRVIDDFNEAVFIERHYIYPGDEERYLHPQNGADPLVIKTRKGKKDVTVFVYSYEDHVDVVKQQKKKVVAYSVLSDSLQKRTMAAGS				NA	NA	NA	NA	NA
D1-12_02670	1383	nagP		PTS system N-acetylglucosamine-specific EIICB component	ATGCTTCAATTTTTGCAAAAACTCGGAAAGTCTTTTATGCTTCCGATTGCCGTTCTGCCCGCCGTTGGTATTATTTTGGCCATCGGCAGAGAGGACTTATTAAATATTCCGTTCATTTACGCGGCGGGGACCGCGGTATTTGATCATCTGCCGCTGATTTTCGCGATCGGAATCGCAATCGGGATTTCCAAAGACAGCAACGGGGCCGCCGCTCTGTCGGGAGCCATTTCTTATATCATGCTGGACGCGGCTGTAAAATCAATCAATTCGACAAATAATATGGCCGTTTTCGGAGGGATTATCGCGGGGTTAATTGCGGGATACACGTATAACCGCTTTAAGGATACGAAGCTGCCCGAATATCTCGGGTTTTTCAGCGGGCGCAGGCTCGTTCCGATTGTAACGGCGCTGATTACCATTATTTTGGCGGGGATCTTCGGATTTGTGTGGCCGCCGATTCAGTCGGTGATTACGTCCTTCGGGGAATGGATGATCGGGCTTGGCGGGATCGGCGCCGGGATTTACGGGATTTTTAACCGGCTTTTGATTCCATTCGGTCTTCATCATGTGCTGAATAATATTTTTTGGTTCCAGTTTGGCGATTTTCACGGAAAAACGGGAGATCTGGCCCGCTTCTTTGCGAAGGATCCGACGGCGGGGACTTATATGACGGGATTCTTCCCGATTATGATGTTCGGGCTTCCGGCCGCATGTCTGGCAATGATTGCCGCGGCTAAGCCAAGTAAGCGCAAAGCGACGGCCGGAATGATGATCGGTCTCGCGCTGACGGCATTTATTACCGGAATTACAGAGCCGATTGAATTTGCATTTATGTTTTTATCACCGCTTTTGTACGGGGTTCATGCTATATTAACCGGGTTCTCTTTATTTATCGTGAATGTTCTCGGAATCAGGTCGGGTTTTTCATTCTCGGCGGGGGCGATCGATTATCTCCTCAGCTACGGCATTGCCGAAAAACCGCTTTTGCTGCTCGTTGTCGGGCTTTGTTATGCGGTGATCTATTTTGTCGTCTTCTACATGCTCATCAAAACGTTAAACTTGAAAACACCGGGACGGGAAGATGATGAGGAAGAGGAAGAAGTGCTTAGTGAAGATACGGCCGGTTCCGTCGAAGAACATGCCATGCTCAAGGGGCTCGGCGGCAGGCAAAACCTCGAAACGATTGATCACTGTGCGACCCGCCTCAGGCTGACCGTGCAGGATACGTCTCTCATTAATGAGGCGGCGCTTAAAAAAGCGGGAGCAAAAGGGGTTATCAAAACGGGGAATAAAACGGCGCAGGTCATTATCGGGCCGAACGTCGAATTTGTCGCGGAAGAGCTGAGAGAGGCCGTCCGCCGTGACGATCAGAAGCAGACTTGA	MLQFLQKLGKSFMLPIAVLPAVGIILAIGREDLLNIPFIYAAGTAVFDHLPLIFAIGIAIGISKDSNGAAALSGAISYIMLDAAVKSINSTNNMAVFGGIIAGLIAGYTYNRFKDTKLPEYLGFFSGRRLVPIVTALITIILAGIFGFVWPPIQSVITSFGEWMIGLGGIGAGIYGIFNRLLIPFGLHHVLNNIFWFQFGDFHGKTGDLARFFAKDPTAGTYMTGFFPIMMFGLPAACLAMIAAAKPSKRKATAGMMIGLALTAFITGITEPIEFAFMFLSPLLYGVHAILTGFSLFIVNVLGIRSGFSFSAGAIDYLLSYGIAEKPLLLLVVGLCYAVIYFVVFYMLIKTLNLKTPGREDDEEEEEVLSEDTAGSVEEHAMLKGLGGRQNLETIDHCATRLRLTVQDTSLINEAALKKAGAKGVIKTGNKTAQVIIGPNVEFVAEELREAVRRDDQKQT	PGPT0016860_1260	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
D1-12_02671	750	mapB	COG0024	Methionine aminopeptidase 2	ATGATTGTAACGAACGATCAAGAATTAGAAGGCCTTAAAAAAATCGGCAGAATCGTCGCGCTGGCGCGTGAAGAAATGAAGAAAAAAGCCGAGCCCGGCATGAGCACGAAAGATCTTGACCTGATCGGAAAGGCGGTGCTTGACGAGCACGGAGCCGCTTCCGCTCCGGAGAAGGAATACGATTTCCCGGGCGTGACATGCATCAGCGTAAATGACGAAGTCGCTCACGGCATTCCGAGCGCCTCTAAAATCTTAAAAGCCGGAGATCTTGTCAATATCGATATTTCGGCGGAGTTCGGCGGTTTTTATTCCGATACGGGCATTTCATTTGTGCTCGGAGAAGGCGATGAACGTCTGCAAAAGCTTTGTAACTGCGCAGCATCCGCATTTCAGAAAGGATTGGATCAGGCAAAAGCCGGCAAACGTCAAAACCAGATCGGCAGAGCCGTCTACCATGAGGCCCGCTCCAACGGATTTACCGTCATTAAAACGCTGACGGGCCACGGAATCGGCAGAAACCTCCATGAAGCGCCGAACCACATCATGAATTACTACGATCCGTTTGATAACGCGCTGTTTAAAAACGGAACCGTGATCGCGCTTGAGCCGTTTATTTCCACGAAAGCGGAAACGATTGTAGAAGCGGGAGACGGCTGGACGTATAAAACGCCGGATAAAAGCCTTGTCGCCCAAGTGGAACACACCATCGTGATTACAAAAGACAAACCGATTATTTTAACTGCATTGTAA	MIVTNDQELEGLKKIGRIVALAREEMKKKAEPGMSTKDLDLIGKAVLDEHGAASAPEKEYDFPGVTCISVNDEVAHGIPSASKILKAGDLVNIDISAEFGGFYSDTGISFVLGEGDERLQKLCNCAASAFQKGLDQAKAGKRQNQIGRAVYHEARSNGFTVIKTLTGHGIGRNLHEAPNHIMNYYDPFDNALFKNGTVIALEPFISTKAETIVEAGDGWTYKTPDKSLVAQVEHTIVITKDKPIILTAL	PGPT0020010_8831	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
D1-12_02672	312	yflH_2		putative protein YflH	ATGAAAAAAGATAAAGAAAAAATCAAAATCGAAAACGAAATACACGCCATGCACGGCGTAACGAAACAGCAGATTTTAGAGGATTTCGAGGAATTTAAGGCGTACCTTCATCAGAAAATTTCCGCCGGAAAAAAACTGGGTCTGGATGACAGCAAAATCATCAAAAGCGCCGCCATCCTCGGGGACTATCTCGCCAAACACGAGGAGCCCCGCAATGCGGAAGAAAAACTCTTACAAGAACTGTGGGACATTGCGGATGACAATGAAAAACAGCACTTGGCCCAGCTTCTCGTCAAACTTGCCGGACACTGA	MKKDKEKIKIENEIHAMHGVTKQQILEDFEEFKAYLHQKISAGKKLGLDDSKIIKSAAILGDYLAKHEEPRNAEEKLLQELWDIADDNEKQHLAQLLVKLAGH	PGPT0003182_361	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
D1-12_02673	156			hypothetical protein	ATGTGGTTTATTATCTTCGGGTTTATTTTCTTTATTGAAAGCATCATTCTCACCGTTTACGGAGTGAAGAAAAAGAAGGGGATGCTGATTTATTTCGGCGTCGTTTTCGGAATCATGACACTCGGAACGGTGCTGTTAAAATTAACCGGCCATTAA	MWFIIFGFIFFIESIILTVYGVKKKKGMLIYFGVVFGIMTLGTVLLKLTGH				NA	NA	NA	NA	NA
D1-12_02674	135			hypothetical protein	ATGCATTATGGCAGTAAAGGCTGGTATGTAGAAGAGTTAAAGAAAAAAGGAATTACCCACTATGAAGGAAGAAAGCTTCAAAGCTTCAAAAAGTACTTCCTTGCCAATCTGCTGGAAACAAAGAAACAAGCATAA	MHYGSKGWYVEELKKKGITHYEGRKLQSFKKYFLANLLETKKQA				NA	NA	NA	NA	NA
D1-12_02675	660	yiiM	COG2258	Protein YiiM	GTGACGCAAGACTATTCTGTCTTATCTATCAATCTCGGAAAGCCCGCAATTCATGAATTCGCCGGCAGACAAATCAATTCCGGCATCATAAAGCGGCCCGCAGATTCTCCCGTCATGCTGTATAAAACCCATTTTGACGGGGACGGGCAGGCTGATCTGAAGAATCACGGAGGCCCCGATAAAGCGGTGTGCGTGTATCCCGCCGAGCATTATTCATATTGGGAAACAACGCTCGCGAGAAAACTTCCCGCCGCCGCGTTCGGAGAGAATGTAACGGTCAAAGGACTGGCCGAACAAGACGTATGGATCGGAGACGTCTTTCAGCTGGGGGAAGCCGTCGTTCAAGTAAGCCAGCCGCGCCAGCCCTGCGTCAAACTCGCGCTCAAATATGGCATCAAAGATATGGTGCTCCGTGTACAGCAGACGGGATTTACCGGCTTTTATTTCAGGGTGCTTGAAGAAGGATATGTCGATCCGCGTCCCGTCCTCAAGCGTCTGTCGAGAGGCAAAGAAAGCATTTCCGTCTGGTATGCGAATGAAGTGAAATACCGTGATTCCGGCAATCTGTCAGCGATTGAAGAAATACTGCGGGAAGAAGCGCTGTCAGAAAGCTGGAGGGAGTCCTTCCTTAAAAAAAGGGACAGGCTCACTAATGTATAG	MTQDYSVLSINLGKPAIHEFAGRQINSGIIKRPADSPVMLYKTHFDGDGQADLKNHGGPDKAVCVYPAEHYSYWETTLARKLPAAAFGENVTVKGLAEQDVWIGDVFQLGEAVVQVSQPRQPCVKLALKYGIKDMVLRVQQTGFTGFYFRVLEEGYVDPRPVLKRLSRGKESISVWYANEVKYRDSGNLSAIEEILREEALSESWRESFLKKRDRLTNV				NA	NA	NA	NA	NA
D1-12_02676	273	acyP	COG1254	Acylphosphatase	ATGCTTCAATATCATATGATTGCAGACGGCCGGGTTCAGGGCGTAGGTTTTCGCTACTTCGTCCAGATGGAAGCCGACAGACATAAGATAGCCGGCTGGGTAAAAAACCGTGATGACGGCCGGGTGGAAATCCTTGCCGAAGGCCCTGAAGAGTCGTTAAAACAATTTGCCGAAGCAGTCAGAAAAGGCAGCCCCTTCTCACATGTCACAGGCGTAACCATCGAAGAATCACACCGTCTGAAAGGATACCGCACTTTTTCCATCAGTTACTGA	MLQYHMIADGRVQGVGFRYFVQMEADRHKIAGWVKNRDDGRVEILAEGPEESLKQFAEAVRKGSPFSHVTGVTIEESHRLKGYRTFSISY	PGPT0001372_3072	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
D1-12_02677	1092	nos	COG4362	Nitric oxide synthase oxygenase	TTGAAACATACGGAAATACTTTGGGATGAGGCGAAGGATTTTATTGATGTCTGCTATCAGGAACTCGGAATGGAATCGCAAATCAACACGCGTCTAAACGCGATAAAAGATGAGATAGAGCGGACGGGAAGTTACGTCCATACGGCGGAAGAGCTTGAACACGGGGCGAAAATGGCGTGGCGCAACAGCAACCGCTGTATCGGGCGTCTGTTCTGGCAATCGCTGAACGTCATTGACCGGCGCGGTGTGAACACGAAAGAAGAGGTGCGCGACGCATTATTTGAACATATTGAAATCGCCACGAACGGCGGAAAAATTAAACCGACAATTACGATTTTCCCTCCTGAGAAGAATGGGGAGAAACAAGTGGAGATCTGGAATCACCAGCTTATCCGCTATGCGGGGTATGAGACTGAAAAAGGAAGAGTCGGTGATCCGGCATCATATGAGCTGACGGCTGTCTGCGAAAAACTCGGCTGGCGCGGGAAGCGGACCGATTTTGATATTCTGCCGCTGCTTTTCCGGATGAAAGGGGACGGGCAGCCGGTCTGGTATGACCTGCCTCAGACGCTCGTGAAAGAAGTGCCGATCACCCATCCGGATATTGAAGAGTTTGCCGATTTAAATCTCAGATGGTACGGGGTTCCGATTATCGCCGATATGAGGCTTGAAATCGGCGGATTGTCGTACAACGCGGCGCCTTTTAACGGATGGTATATGGGAACCGAAATCGGCGCAAGGAACCTTGCTGACGAAAAACGGTATGATATGCTCAAAAAAGCCGCTGCGGTCATGGGGATTTCCGCCAGCCTGAATACCGACCTGTGGAAAGATCAGGTGCTGGTGGAACTGAATAAGGCAGTGCTCTATTCATACAAAAAACACGGTGTCAGCATTGTCGATCACCATACGGCGGCGAATCAATTTAAACGCTTTGAAGAACAGGAACAAGACGCGGGCAGAAAGCTGACGGGCGACTGGACTTGGCTGATTCCGCCGATCTCGCCGGCTTCCACCCACATTTTCCATAAATCATATGACAATACGATTGTGAAGCCGAATTATTATTATCAGGACAAGCCTTATCAGTAA	MKHTEILWDEAKDFIDVCYQELGMESQINTRLNAIKDEIERTGSYVHTAEELEHGAKMAWRNSNRCIGRLFWQSLNVIDRRGVNTKEEVRDALFEHIEIATNGGKIKPTITIFPPEKNGEKQVEIWNHQLIRYAGYETEKGRVGDPASYELTAVCEKLGWRGKRTDFDILPLLFRMKGDGQPVWYDLPQTLVKEVPITHPDIEEFADLNLRWYGVPIIADMRLEIGGLSYNAAPFNGWYMGTEIGARNLADEKRYDMLKKAAAVMGISASLNTDLWKDQVLVELNKAVLYSYKKHGVSIVDHHTAANQFKRFEEQEQDAGRKLTGDWTWLIPPISPASTHIFHKSYDNTIVKPNYYYQDKPYQ	PGPT0020095_215	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020095-nos|nosA-K00491	NA	NA
D1-12_02678	795	yflN_2	COG0491	putative metallo-hydrolase YflN	ATGAGTGATCCGTTTATGCCGCTTTTTTCAGTGAGAAGCGGTGCCGGTTTTAAAGCGGCGGACGGCGTTTACGGACTGACCGTGCAGATTGCGAATGTTTATTTTATCGAAAATCCCTCAGCTCCGCGGGAAATCATTCTGGTTGACGCGGGAATGCCGCAATCGGCGGAGATGATAACAGAAGAAATGAAACGCCGATTCAAAGAGGGGTATCAGCTGAAGGCGGTCATTTTGACACACGGCCATTTTGATCATGTCGGTGCGATTGAAGAGCTGCTTGAGCTTTGGAATGTGCCGGTTTACATTCATGAAAAGGAGCTCCCGTACGTCACGGGGAAAGCGGATTATCCGCCTGCCAGGCCCGATGCGAAAAAAGGGCTTGTCGCAAAGCTGTCACCGCTGTTTCCGCGCCATACGATCCGCATTCCGTCCGTTCAGGCACTGCCTTCAGACGGTACCGTTCCGTTTCTTGAAGAATGGAAATGGGTGCATACGCCCGGCCACACACCCGGCCATATTTCATTATTCCGGGATAAAGACCGCGTTCTGCTTGCCGGTGATGCCGTGATCACTGTTGAACAGGAATCGCTTGCGGACGTTGTCATTCAAAAGCAAGAGCTTCACGGGCCGCCCGCCTATTTTACAGCGGATACACAGACGGCGGCCGCATCCGTTCAGAAACTGGCCGAACTGGAGCCGGAAGCGCTTTTGACGGGTCACGGAATTCCGATGACGGGAAAAAACTACCGTGAGGATTTGCTTACACTGGCTGAAAAATTGCATTCCGTTTTGTAA	MSDPFMPLFSVRSGAGFKAADGVYGLTVQIANVYFIENPSAPREIILVDAGMPQSAEMITEEMKRRFKEGYQLKAVILTHGHFDHVGAIEELLELWNVPVYIHEKELPYVTGKADYPPARPDAKKGLVAKLSPLFPRHTIRIPSVQALPSDGTVPFLEEWKWVHTPGHTPGHISLFRDKDRVLLAGDAVITVEQESLADVVIQKQELHGPPAYFTADTQTAAASVQKLAELEPEALLTGHGIPMTGKNYREDLLTLAEKLHSVL				NA	NA	NA	NA	NA
D1-12_02679	1299	citM	COG2851	Mg(2+)/citrate complex secondary transporter	GTGTTAGCAATCTTAGGCTTTCTTATGATGCTTGTTTTTATGGTGCTGATTATGACAAAACGGCTTTCAGTGTTAACGGCGCTCGTATTAACGCCGATCGTGTTTGCGCTGATTGCCGGGTTTTCTTTTAACCGGGTCGGCGAGATGATGATCTCCGGTATTGAACAGGTGGCGCCGATCGCAGTGATGATTATGTTTGCGATTCTTTATTTCGGCATTATGATTGATACCGGTTTATTTGATCCGATGGTGTCGCGTATTTTAAAGCTGGTTAAAGGCGACCCGCTCAAAATTGTAGTCGGAACAGCCGTTTTGACCATGCTTGTCGCACTGGACGGAGACGGCTCGACGACGTATATGATTACGACAAGCGCAATGCTGCCTTTGTATATCATGCTCGGAATCCGTCCGATTATTTTAGCGGGAATCGCCGGGGTCGGCATGGGTATCATGAACACGATACCATGGGGCGGCGCGACGCCGCGTGCGGCGAGTGCGCTCGGCGTTGACCCGGCAGAGCTGACGGGGCCGATGCTGCCTGTCATTGCCAGCGGAATGGTATGTATGATTGTGGTCGCTTATGTACTCGGAAGGATGGAAAGGAAACGGCTCGGGGTGATCGAATTAAAGCAGCCGTCCCATACAAATGAAACGGCTGCGGCTGCGGAAGATGAATGGAAGCGGCCGAAACTGTGGTGGTTCAATTTAATGTTAACGCTTTCTTTAGTGGGATTTTTAGTGTCAGGAAAAGTGAATTTAACCGTGCTGTTCATCATTGCGTTTTGTATCGCGCTGATTGTCAACTATCCGAAGCTTAACGATCAAAGGGAGCGTATTTCAGCCCATTCGAGCAATGTGCTTGCGATCGGTTCGATGATTTTTGCCGCAGGCGTGTTTACCGGAATTTTAACGGGGACGAAGATGGTCGATGAGATGGCCATTTCCCTCGTATCGCTTATTCCGGAACAGATGGGGGGATTTATTCCGGCGATTGTTGCCTTAACGAGCGGTATCTTTACGTTTCTGATGCCTAATGACGCCTATTTTTACGGCGTGCTGCCCATTTTATCCGAGACCGCCGTGGCGTACGGTGTAGATAAGGTGGAAATCGCCCGCGCTTCGATTATCGGCCAGCCGATTCATATGTTAAGCCCGCTCGTGCCGTCGACGCATTTATTAGTCGGGCTTGCCGGGGTCACCATTGATGAACACCAGAAATTTGCGATGAAATGGGCGGTTCTTGCCGTTATCGTCATGACGGCCTTTGCGCTCATCATCGGCGCAATCACGATTTTTTAA	MLAILGFLMMLVFMVLIMTKRLSVLTALVLTPIVFALIAGFSFNRVGEMMISGIEQVAPIAVMIMFAILYFGIMIDTGLFDPMVSRILKLVKGDPLKIVVGTAVLTMLVALDGDGSTTYMITTSAMLPLYIMLGIRPIILAGIAGVGMGIMNTIPWGGATPRAASALGVDPAELTGPMLPVIASGMVCMIVVAYVLGRMERKRLGVIELKQPSHTNETAAAAEDEWKRPKLWWFNLMLTLSLVGFLVSGKVNLTVLFIIAFCIALIVNYPKLNDQRERISAHSSNVLAIGSMIFAAGVFTGILTGTKMVDEMAISLVSLIPEQMGGFIPAIVALTSGIFTFLMPNDAYFYGVLPILSETAVAYGVDKVEIARASIIGQPIHMLSPLVPSTHLLVGLAGVTIDEHQKFAMKWAVLAVIVMTAFALIIGAITIF	PGPT0001485_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001485-citM-K11639	NA	NA
D1-12_02680	963			hypothetical protein	ATGAAGCGGTTGGGAGTGCTTCTTGTCATGCTGGCGGCGCTGGTTTCTTTTGACGGACGGCAGATGGAGGGCTTCCGCTCAGCTGAAGGGCCGGTTGAAATTGTCGTCCCGGCAGCGCCTCAAGGGGGCTGGGACGTAACGGCAAAAGCTTTGCAATCGGTAATAGAGCGGAAGCAAATATTAGGCCGGCCCGTAAAGATCATCTATAAACCCGGCGGAGGCGGAGACAGCGGCTGGAAATATGTAAACGAACGAAAAACGGATGTCATCAGTATGAATTCAAGCCTGCTGTTAAGCAATGAAATTTTGGGACAAAGCCGGCTGAAGGCAGCTGATTTTACGCCTTTGGCCATTATCGCAAAAGAGTGGCAGACCGTCGCTCTTCCGAAGGATTCAAAGATAAAAAGCGGAAAGCGGCTGCTCGGCGATATTAAAGCAAATCCGGGCGGCATAAAAATCGGATTTGCGCCCGGCCTCGGAAATGATGACCAGCTCTCCTTTGCGAGAGCGGCGGAAATGGCCGGAATTTCTCCGTTTGATATCCGCTTTTTTCAATACGGAAGCAGCAATGAAGTCATTGAAGCTCTTATCAGTCACGAGATAGACGCCGCCTCAATGACCATTTCAGAAGCGAGAGACGCCTATCGGAAAGGGAAAATCACATTGGCGGCCGTTACGTCTGACAAAAGGCTCTCCGGCTTCAGCGATGTGCCGACATGGAAAGAGCAGGGGGTGCCGTTTGTCTTTGCGCACTGGAGAGGCATCATGGGGCCGAAAGACATGACCGAAGGCGAGATCGCCTATTGGGATCAGGCTTTGAAACAGATTACTTCATCCGCGGAGTGGAAGCAAATGTTGAAAAAACGGGATTGGGAGAGCTTTTATAAAAACAGCAGCGGCGCAAAACGCTTTTTAGAAGAGCAGACCGAGTTCTATAAAGAGATGATGAGCAGCGAAAAATAA	MKRLGVLLVMLAALVSFDGRQMEGFRSAEGPVEIVVPAAPQGGWDVTAKALQSVIERKQILGRPVKIIYKPGGGGDSGWKYVNERKTDVISMNSSLLLSNEILGQSRLKAADFTPLAIIAKEWQTVALPKDSKIKSGKRLLGDIKANPGGIKIGFAPGLGNDDQLSFARAAEMAGISPFDIRFFQYGSSNEVIEALISHEIDAASMTISEARDAYRKGKITLAAVTSDKRLSGFSDVPTWKEQGVPFVFAHWRGIMGPKDMTEGEIAYWDQALKQITSSAEWKQMLKKRDWESFYKNSSGAKRFLEEQTEFYKEMMSSEK	PGPT0017360_2034	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-12_02681	681	citT	COG4565	Transcriptional regulatory protein CitT	GTGATTAACATCGCGATTGCAGAGGACGACTTTCGAATAGCGCAAATCCATGAAAAATTTATCGAACATCTTGATGGATTCAATGTCATCGGCAAAGCAATCAATGCCAAAGACACTATATCGCTGCTTGAGAAACGGCAGCCTGATCTGCTGCTTTTGGATATTTATATGCCGGATGAGCTGGGGACAGATCTGCTCCCGCTTATCCGCGGCCGTTTTCCTTCCGTTGATATCATCATTATTACGGCTTCTGCCGAAACAAGGCTGCTGCAGGAAGCGCTCAGATCAGGCGTTTCCCACTATGTCATAAAACCGGTGTCCGCACATAAATTTACAGAAGTGCTTTTGCAGTACCGTGAAAAAAGAGAATGGCTGCACTCACAGCCGGAGCTCAGCCAGTCCGTGATCGACATGTTTTTCGGAAGCGGTCAGAAAGAACAAAAACAGCACAATGATCTGCCGACAGGCATTAATTCGATTACGCTTCAAAAAATCAAAAACGCGCTCAGAACGGCCCAAAAAGGGATGACGGCTGAAGAACTGGGAGAAAAAATGGGCGCCTCCAGAACAACGGCGCGGCGCTACGCCGAGTTTCTCGTTTCTCGGGAAGAAGCGCTCGCTGAATTAGAGTACGGCATTATCGGCAGGCCGGAACGGAAATATTATTTAGCACATGAATAA	MINIAIAEDDFRIAQIHEKFIEHLDGFNVIGKAINAKDTISLLEKRQPDLLLLDIYMPDELGTDLLPLIRGRFPSVDIIIITASAETRLLQEALRSGVSHYVIKPVSAHKFTEVLLQYREKREWLHSQPELSQSVIDMFFGSGQKEQKQHNDLPTGINSITLQKIKNALRTAQKGMTAEELGEKMGASRTTARRYAEFLVSREEALAELEYGIIGRPERKYYLAHE	PGPT0001490_68	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0001490-citS-K11638	NA	NA
D1-12_02682	1605	citS	COG3290	Sensor protein CitS	GTGTTGGAAGCGAAGCGGTTTTATGTCTCTCTGCAAATGAAAATCGCCGGATTAATTACGGCTTTATTAATACTTGTCATCGGAACGCTCACGGTTATATTTGCCTTTCAGCAATTAAAGGAAGGGCAGAAGCAGGCTGAACAGCTGGCGGTGCAAACGGCAAAAACCATTTCATACATGCCTCCTGTAAAAGAGGCATTCCGGCTTGCGGATCAAGAAGCTTTTACAAAGTTAGACGTCATTGAACAAATGAAAGAACAGGCAGGCGCGCACGCCGTCTACATTACTGATCAAAAAGGGCATGTTGCATTTCATTCGGCCCGCAGCAGCATTCCGAAAGAAAATCAAAATCTGCAAAATAAAACCGTCATGTTCGGCGGGTCTCCGGTTTCCGACGGAATGACGGCGGTCCGGGGAAGCGCCCCGGTTATTCTGGAGGAAAAAAATCATAACGAAGTCGTCGGAACGGTGACAGTCGAGTTTTTACAAGATGAGATAGAAAAAGATATGAAAGCGCATCTGCGGCATTTAGGCTATTTTGCATGCTTGGTGTTTCTTATCGGCATCGGGGGAGCGGCAGCGCTCGCAAAAAGCATCCGTAAAGATACACTCGGCCTTGAACCGCATGAAATTGCAGCGCTGTACCGGGAGCGCAATGCGATGCTCCTTGCGATGAAAGAAGGGATTATCGCCGTAAACAAAGAAGGCGCGGTAACCATGATGAATTTATCTGCGGCTGATATGCTGAATCTTCCGGCACCGATGATCGGAAGGCATATAAAAGAAATCATGCCGGGCGCAAATCTTATGCCGGTTTTGGCAGGGGGAGAATTACCGCCGAACGTGGAGGTGCGTGCCGGAGATAAAGTGTTTATCTTAAACGTGAAAGAAATGAAGCAGACCGGACAAGTATACGGAGCGGTGATCAGCTTCCGCGAAAAAACGGAGCTCAAGAAACTCATTAACAAGCTGACTGAAATGAAAAAATACTCGGAGGATCTCCGGGCGCAAACGCATGAATTCTCGAATAAGCTTTACGCGATCCTCGGTCTGTTAGAGCTGGGAGAATATAATGAAGCCATTGAACTGATAAAAGAAGAGTACGCCATCCAGAATGAACAGCACGAAATCCTCTTTCAAAACATTCATTCACAGCGGGTTCAGGCCATACTATTAGGAAAAATGGGAAAGGCGTCTGAGAAGAAAGTGAAGCTTTCAATAGATGAAAACAGCTTTTTAGAATCGCTGCCGGAGCATGTGGGTTCATCCCAGCTCATTACGATCATCGGAAATCTTATTGATAACGCTTTCGAAGCCGTCGCCGAAAAAGAGAAAAAAGAGGTCGCCTTTTTTATGACCGATATCGGCAGGGATATCGTCATCGAAGTGGCGGATTCAGGAGACGGCGTGCCTCAGGAAAAAACAGAAACGATATTTGAAAAGGGCTACTCTTCAAAGGGGACGAGGAGAGGATACGGCTTAGCCAATCTGAAAGAAGCCGTCAGTGAATTGCAGGGATCGATAGAGATTTCGCAGCAAAAGAGCGGCGGTGCCGTATTTACGGTGTTTATACCGAAAGAAAGGCCAAAGGGGGAATCGGTGTGA	MLEAKRFYVSLQMKIAGLITALLILVIGTLTVIFAFQQLKEGQKQAEQLAVQTAKTISYMPPVKEAFRLADQEAFTKLDVIEQMKEQAGAHAVYITDQKGHVAFHSARSSIPKENQNLQNKTVMFGGSPVSDGMTAVRGSAPVILEEKNHNEVVGTVTVEFLQDEIEKDMKAHLRHLGYFACLVFLIGIGGAAALAKSIRKDTLGLEPHEIAALYRERNAMLLAMKEGIIAVNKEGAVTMMNLSAADMLNLPAPMIGRHIKEIMPGANLMPVLAGGELPPNVEVRAGDKVFILNVKEMKQTGQVYGAVISFREKTELKKLINKLTEMKKYSEDLRAQTHEFSNKLYAILGLLELGEYNEAIELIKEEYAIQNEQHEILFQNIHSQRVQAILLGKMGKASEKKVKLSIDENSFLESLPEHVGSSQLITIIGNLIDNAFEAVAEKEKKEVAFFMTDIGRDIVIEVADSGDGVPQEKTETIFEKGYSSKGTRRGYGLANLKEAVSELQGSIEISQQKSGGAVFTVFIPKERPKGESV				NA	NA	NA	NA	NA
D1-12_02683	192			hypothetical protein	ATGTTCAGCCCTGTCGTGATTCCGTTGCTGATGCTGCCGATTGACAATACGCCGGTGAGGGGAGGAGCTAAAGTGACGGATGCTCCGGGGATCGGCGTGAACGTATTGTTCGGCACAGTAGAACTGTATAGTTGTGCGGTTATCGTAACAGTCGAGCCGACAAGCGACAGTGCTGCGGTTGTACTGAAATAG	MFSPVVIPLLMLPIDNTPVRGGAKVTDAPGIGVNVLFGTVELYSCAVIVTVEPTSDSAAVVLK				NA	NA	NA	NA	NA
D1-12_02684	186			hypothetical protein	ATGGTTCCGCTTCTCGGAGCAGAAAAAGCAAAGTTCAGCAGAGTTCCTCCAGCCCCGGTAAGATCAATTACGCCTCCCCCTCCGACATTGACGCCCGTCACAGAATTGCCGAACCCGACAAGGCTCACCGTTCCGATTAATCCGCCGGCAATGGTCGTCACGGCAGTGGGAAGACCTGAAGCATAA	MVPLLGAEKAKFSRVPPAPVRSITPPPPTLTPVTELPNPTRLTVPINPPAMVVTAVGRPEA				NA	NA	NA	NA	NA
D1-12_02685	1989			hypothetical protein	ATGATCGCGCCTGCTCCGGTGATTCCAGTGGCTCCGGTGATCCCAGTTGCGCCTGTTACTCCGGTGGCGCCTGTTACTCCGGTTACTCCGGTTACTCCAGTTGCTCCCGTTACTCCGGTGGCTCCCGTTATCCCAGTATCCCCGGTTACTCCGGTAGCCCCTGTTACTCCGGTGGCGCCTGTTACTCCGGTTACTCCAGTTGCTCCCGTTACTCCGGTTACTCCCGTTACTCCGGTGGCTCCCGTTATTCCTGTCGCTCCTGTTACTCCGGTTACTCCAGTTGCTCCCGTTACTCCGGTTACTCCCGTTACTCCGGTTACTCCCGTTACTCCGGTGGCGCCTGTTACTCCGGTGGCGCCTGTTACTCCGGTTACTCCAGTTGCTCCCGTTACTCCGGTAGCCCCTGTTACTCCGGTGGCGCCTGTTACTCCGGTTACTCCAGTTGCTCCCGTTACTCCGGTGATCCCGGTTACTCCGGTGGCTCCCGTTATCCCAGTATCCCCGGTTACTCCGGTAGCACCTGTTACTCCGGTGGCGCCTGTTATTCCGGTTGCTCCAGTAGCACCTGTTACTCCGGTGGCGCCTGTTATTCCGGTTGCTCCAGTATCCCCGGTTGCTCCTGTTACTCCCGTTACCCCGGTTACTCCAGTTGATCCCGTTACTCCTGTGACTCCGGTGATCCCGGTGGCGCCTGTTTCTCCGGTTGCTCCCGTTATTCCTGTCGCTCCGGTTACTCCCGTTACCCCGGTGGCGCCTGTTACTCCAGTAGCTCCGGTGATCCCGGTTGCTCCCGTTACTCCGGTAGCACCTGTTACCCCGGTTGCTCCCGTTAATCCTGTAGCTCCTGTAGCTCCTGTTACTCCCGTTATCCCGGTTGCTCCGGTCAAGCCCGTTACTCCAGTAGCTCCGGTGATCCCAGTGGCTCCCGTTATCCCGGTGGCGCCTGTTACTCCGGTAGCACCTGTTACTCCGGTGGCGCCTGTTGCTCCGGTTACTCCCGTTACCCCGGTTGCTCCTGTTACTCCGGTGGCGCCTGTTACTCCGGTGGCGCCTGTTACTCCTGTTACTCCCGTTACCCCGGTTACTCCAGTGACTCCGGTGATCCCGGTTGCTCCGGTCAAGCCCGTTACTCCAGTAACTCCGGTTACCCCGGTTGCTCCTGTTACTCCCGTTACCCCGGTTACTCCAGTTGATCCCGTTACTCCTGTTACTCCGGTGGCGCCTGTTACTCCGGTGGCTCCCGTTACTCCAATCGCTCCGGTTACCCCAGTTACTCCGGTTACCCCAGTTACTCCGGTAGCTCCGGTGATCCCAGTTGCTCCAGTTATCCCAGTTGCTCCAGTAGCCCCGGTGGCTCCTGTTACTCCGGTAGCGCCTGTTACTCCGGTTACTCCAGTTGATCCCGTTACTCCAGTGACTCCGGTGATCCCGGTAGCGCCAGTATCCCCGGTTGCGCCTGTTACTCCGGTAGCTCCGGTGATCCCAGTGGCTCCAGTTATCCCAGTGACTCCAGTATCCCCGGTGGCTCCTGTTACTCCGGTCACTCCGGTCACTCCGGTTACCCCAGTCACTCCGGTAGCTCCGGTGATCCCAGTGGCTCCAGTTATCCCAGTGGCTCCAGTCAGCCCTGTTGCTCCGGTAGCGCCTGTTACTCCGGTTACTCCAGTTGATCCCGTTACTCCAGTGACTCCGGTGATCCCGGTAGCGCCTGTTACTCCGGTAGCGCCTGTTACCCCGGTGGCTCCCGTTACTCCCGTGGCGCCAGGATCTCCAGTGACTCCGGTGGCTCCCGTGGCACCGGTTACCCCAGTCGCGCCGGTATTCCCGGTCGAGCCCGTTGCTCCGGTAAGCCCCGTTGCTCCGGTAAACCCCGTTGCTCCGGTCAGCCCTGTTGCTCCAGTGAACCCCGTTGCTCCAGTGAACCCCGTTGCTCCGGTCAGCCCCGTTGCTCCGGTGCACCCCGTTGCTCCGGTGAATCCTCTTACATGA	MIAPAPVIPVAPVIPVAPVTPVAPVTPVTPVTPVAPVTPVAPVIPVSPVTPVAPVTPVAPVTPVTPVAPVTPVTPVTPVAPVIPVAPVTPVTPVAPVTPVTPVTPVTPVTPVAPVTPVAPVTPVTPVAPVTPVAPVTPVAPVTPVTPVAPVTPVIPVTPVAPVIPVSPVTPVAPVTPVAPVIPVAPVAPVTPVAPVIPVAPVSPVAPVTPVTPVTPVDPVTPVTPVIPVAPVSPVAPVIPVAPVTPVTPVAPVTPVAPVIPVAPVTPVAPVTPVAPVNPVAPVAPVTPVIPVAPVKPVTPVAPVIPVAPVIPVAPVTPVAPVTPVAPVAPVTPVTPVAPVTPVAPVTPVAPVTPVTPVTPVTPVTPVIPVAPVKPVTPVTPVTPVAPVTPVTPVTPVDPVTPVTPVAPVTPVAPVTPIAPVTPVTPVTPVTPVAPVIPVAPVIPVAPVAPVAPVTPVAPVTPVTPVDPVTPVTPVIPVAPVSPVAPVTPVAPVIPVAPVIPVTPVSPVAPVTPVTPVTPVTPVTPVAPVIPVAPVIPVAPVSPVAPVAPVTPVTPVDPVTPVTPVIPVAPVTPVAPVTPVAPVTPVAPGSPVTPVAPVAPVTPVAPVFPVEPVAPVSPVAPVNPVAPVSPVAPVNPVAPVNPVAPVSPVAPVHPVAPVNPLT				NA	NA	NA	NA	NA
D1-12_02686	150			hypothetical protein	ATGATTGTTGCTGTCATTTTCAACATAAAAGAAGAAATCAAAGGCGCAGTTATCAAAAACGGGCCCATTGCTGTGAAGAATTCTGTTGCAAAACCTCTTGCTGTCATGAAAGATGGTGTCCATGCTGTCATCCAAATCATTTTCATGTAA	MIVAVIFNIKEEIKGAVIKNGPIAVKNSVAKPLAVMKDGVHAVIQIIFM				NA	NA	NA	NA	NA
D1-12_02687	180			hypothetical protein	ATGCTGTTAAAATCGATATTGAGAGCAGTTGCTGCCGTTAAATTATTAGCAGTTGTTAAAATAATCCTTAGCTGGTACGTGTTTGTTCCTGCGGTCGGCGCAGTATCCACTGTTGTGTCCGCAATCGAAAAACTTTCCGTAGCTGCGGTAGTATTAGTTCGCGACAGAGTTCTTGTATGA	MLLKSILRAVAAVKLLAVVKIILSWYVFVPAVGAVSTVVSAIEKLSVAAVVLVRDRVLV				NA	NA	NA	NA	NA
D1-12_02688	6084			hypothetical protein	GTGAAGAGCAAGGCCGGTGTACTGCCTGTGGCGCCGGTTGCACCAGTCGGGCCGGTTACTCCGGTTGCACCGGTTACACCAGTCGGGCCGGTTATGCCTGTCAAGCCGGTTGTGCCGGTTGCTCCTGTTGCTCCTGTTGGACCCGTTAGGCCTGTTGTACCTGTCGCTCCTGTTACTCCAGTTGAGCCGGTTGCACCTGTTACTCCGGTTACTCCGGTTGCTCCGGTTGAGCCTGTTGATCCGGTTGATCCTGTTGGGCCGGTTGAGCCTGTCGATCCCGTTGCTCCGGTTATTCCTGTTGACCCTGTTACACCGGTTGCGCCGGTTTCTCCCGTTGCACCAGTTTCTCCTGTTGGGCCAGTAACCCCTGTTGGTCCAGTCACACCGGTTGGGCCCGTCGCGCCTGTTATTCCAGTTAGCCCGGTTGCACCTGTTGCTCCTGTTATCCCCGTTGCTCCAGTCACTCCAGTTGCTCCGGTTATTCCTGTTGACCCAGTTACACCGGTTGCGCCGGTTTCTCCCGTTGCCCCAGTTTCTCCTGTTGGACCCATGATTCCGGTTGGACCCGTTTCTCCCGTTGAACCTGTTACTCCAGTTGGGCCGGTTGCTCCGGTCGAACCTGTTACACCTGTTGGGCCAGTTGAACCCGTTATGCCAGTCGATCCTGTTGCTCCTGTTACTCCGGTTGGACCGGTCTCTCCCGTTGCTCCTGTTACTCCGGTTGGACCCGTGATTCCGGTTGGGCCGGTTTCTCCTGTCGCTCCAGTTACTCCCGTTGCTCCAGTCACACCCGTTGGACCGGTTGGGCCTGTTACTCCCGTTGGGCCGGTTGCTCCGGTCGAACCTGTTACACCTGTTGGGCCTGTTACACCGGTCAAGCCGATTGCTCCGGTTGGACCCGTTTCTCCCGTTGAACCTGTTACACCTGTTGGGCCTGTTACACCGGTCAAGCCGATTGCTCCGGTTGGACCCGTTTCTCCCGTTGAACCTGTTACTCCAGTTGGGCCGGTTGCTCCAGTTATTCCCGTTGCGCCGGTCGCCCCGGATGCACCCGTCGCTCCGGTTGCTCCGGTTATACCCGTTACCCCAGTCGCTCCGGTTGCTCCGGTTGAGCCAGTTTCTCCAGTTGCACCGGTTGAGCCAGTTGGGCCTGTCGATCCCGTTGGACCGGTCTCTCCCGTTGGGCCGGTTTCTCCAGTCATTCCGGTTGAACCCGTGGTTCCGGTTGCTCCAGTAGCTCCGGTATCCCCGGTCGAGCCAGTTTCTCCGGTTGACCCAGTAACTCCAGTTGGACCGGTTGCTCCTGTCGGTCCTGTTGCACCCGTTTCTCCCGTTGAACCTGTTACTCCAGTTGGGCCGGTTGCTCCGGTCGAACCTGTTACACCAGTTGGGCCGGTTGAACCCGTTATGCCAGTCGATCCTGTTACTCCGGTTGGACCGGTCTCTCCCGTTGGGCCGATTTCTCCAGTTACCCCCGTTGCCCCTGATGGGCCGGTTTCTCCAGTTACACCGGTTGCGCCGGTTTCTCCCGTTGCCCCAGTTTCTCCTGTTGGACCCATGATTCCGGTTGGACCCGTTTCTCCCGTTGAACCTGTTACTCCGGTTGAGCCCGTGGTTCCAGTTTCTCCTGTTGGCCCTGTTGCGCCGGTTGGGCCCGTTACTCCGGTTGAGCCAGTCGCGCCGGTTATCCCAGTTGGACCAGTTTCTCCGGTTGCCCCAGTTTCTCCTGTTGGGCCTGTTACACCAGTCGAGCCGGTTGTTCCTGTTACTCCAGTCATTCCGGTTGCTCCTGTTGAGCCAGTCTCTCCAGTTTCTCCGGTTGAACCCGTTGCTCCGATTGGACCGGTCTCTCCAGTTACCCCCGTTGCCCCTGTTGGGCCGGTTACTCCAGTAGCTCCGGTTGCCCCGGTCGAGCCTGTTTCTCCGGTTGCTCCAGTTACTCCCGTTGCACCAGTTTCTCCCGTTACACCTGTTACTCCGGTTGAACCCGTTGCTCCGGTTGGGCCTGTTGCTCCTGTTGATCCGGTTACTCCCGTCGCCCCGGTTGGTCCCGTTTCTCCTGCTGGGCCGGTTACTCCAGTAGCTCCGGTTGCCCCGGTCGAGCCAGTTTCTCCGGTTGGTCCTGTCGGTCCTGTTGCTCCTGTTATCCCCGTTGCTCCAGTCTCCCCAGTTGCCCCGGTTGCTCCTGTCGCGCCTGTTACCCCCGTTGCACCGGTTGAGCCTGTTACTCCTGTTGATCCGGTTACTCCCGTCGCCCCGGTTGTTCCGGTTGAGCCAGTTGGGCCTGTTGAGCCAGTTACACCTGTTGCTCCTGTCGATCCGGTTATCCCCGTTGCCCCAGTCACTCCTGTTGAACCGGTTGAACCAGTTGGTCCTGTCGATCCGGTTATCCCCGTCGCCCCGGTTGCTCCTGTTACACCCGTTGGACCTGTTGAGCCGGTTGCTCCTGTCGCGCAAGTCGCTCCAGTTGCTCCGGTTTCTCCTGTTGAGCCAGTAACCCCTGTTGGTCCAGTCACACCGGTTGGGCCCGTCGCGCCTGTTATTCCAGTTAGCCCGGTTGCACCAGTTGCTCCGGTTGCCCCGGTCGAGCCTGTTTCTCCTGTTGGCCCTGTTACACCGGTTTCTCCGGTTGTGCCTGTTACTCCTGTTGCACCAGTCGATCCAGTTGGACCTGTTACACCAGTTGAGCCCGTGACCCCAGTTGGGCCGGTTTCTCCGGTTGAACCAGTCACTCCCGTTAAACCAGTTGACCCTGTTATTCCGGTCGAGCCTGTTAATCCGGTTACACCAGTTACCCCAGTCGATCCTGTTGCTCCGGTTTCTCCAGTTATTCCCGTTGCGCCGGTCGCCCCGGATGCACCCGTTGCTCCGGTTGAACCGGTTTCTCCCGTTGAGCCAGTCGGTCCGGTTATTCCTGTTGACCCAGTTACACCGGTTGGGCCGGTTGGGCCGGTTGGGCCGGTTGGGCCTGTCGATCCCGTTGCTCCGGTTTCTCCTGTTACACCTGTTGGGCCGGTTGGACCCGTGATTCCGGTTGGGCCGGTTTCTCCGGTCGCCCCAGTTACTCCCGTTGCTCCAGTCACACCCGTTGGACCGATTGGGCCTGTTACTCCTGTTGGGCCCGTTGCGCCGGTTTCTCCTGTTGAGCCAGTAACCCCTGTTGGTCCAGTCACACCGGTTGGGCCCGTCGCGCCTGTTACCCCCGTTTCTCCGGTTGGGCCGGTTGATCCGGTTATACCAGTTGGGCCTGTTGAGCCAGTTACACCTGTTGCTCCAGTCACTCCCGTTGCACCAGTCACTCCCGTTGCACCTGTTACTCCGATTGAGCCGGTTATCCCCGTCGCCCCGGTTTCTCCTGTCGCTCCCGTGACCCCAATCGGGCCAGTCACACCAGTTGCTCCGGTTGAGCCTGTAGATCCAGTTGGACCGGTCTCTCCAGTTGCGCCGATTTCTCCAGTTACACCCATTGCCCCTGTTGGGCCGGTTGAGCCTGTCGATCCCGTTGCCCCTGTTATTCCGGTTGAGCCTGTAGATCCGGTTGGACCGGTTTCTCCCGTTACACCCGTTACCCCAGTTACTCCGGTCGCTCCTGTTACTCCCGTTACACCCGTTTCACCGGTTGGGCCGGTTGAGCCTGTCGCCCCAGTTACTCCTGTTGTCCCAGTTACCCCAGTCGCTCCTGTCGATCCCGTTGCACCGGTTGATCCGGTTTCTCCGGTTGAGCCGGTTACTCCCGTCGCCCCGGTTTCTCCGGTTGAACCAGTTGGGCCTGTTACACCAGTCGAGCCGGTTGGGCCGGATTCTCCAGTCGATCCGGTTACTCCCGTCGCTCCAGTTTCTCCTGTTGAACCAGTTACACCTGTTGCACCGGTTTCTCCGGTTGAGCCAGTAATCCCTGTTGCTCCTGTTGATCCGGTTGCACCTGTTGCTCCAGTTAAGCCCGTGACCCCAGTTGGGCCGGTTGATCCTGTTGGGCCTGTTGAGCCAGTTACACCTGTTGCTCCAGTCACTCCCGTTGCACCGGTTTCTCCGGTTGAGCCTGGCGATCCAGTTGGACCGATCTCTCCCGTGGGTCCAGTTGATCCTGCTGCACCAGTAACTCCAGTTGAACCTGTCGACCCTGTTGGCCCGGTTGGACCGGTTGATCCCGTTGCTCCTGTTACTCCCGTTGGACCGGTAGATCCGGTTATCCCCGTCGCCCCGGTGACTCCTGTTGCTCCAGTCACTCCGGTTGGTCCCGTTGCTCCAGTTGAACCAGTTGAACCTGTTCCCCCGGTTGGGCCAGTTTCTCCGGTTGAGCCGGTTACTCCTGTGGCACCAGTCGCTCCTGTTATCCCCGTTGACCCAGTCACTCCCGTTACACCGGTTGGGCCGGTTTCTCCGATTGAACCTGTTGCTCCGGTTATTCCTGTTGACCCTGTTACACCGGTCGCTCCGGTTTCTCCTGTTGACCCTGTTACACCGGTTGAGCCCGTTACACCAGTTGGACCCGTTACTCCGGTTAGGCCGGTTTCTCCAGTCGCCCCTGTTACTCCAGTTGAGCCCGTGGTTCCGGTTGCTCCTGTTGATCCTGTTGATCCCGTTGCTCCTGCTGGGCCGGTTTCTCCAGTAGCTCCAGTATCCCCGGTCGAGCCAGTTTCTCCGGTTGCTCCTGTCGGTCCTGTTGCTCCTGTTATTCCGGTTGAGCCTGTTGATCCGGTTGGACCGGCCTCTCCCGTTGGGCCGGTTTCTCCAGTTACCCCCGTTGCCCCTGTTGCGCCGGTTGGGCCAGTTTCTCCAGTTGCACCGGTTACACCAGTCGAACCGGTTGAGCCGGTTACTCCAGTCATTCCGGTTGAACCCGTGGTTCCGGTTGCTCCAGTAGCTCCGGTATCCCCGGTCGAGCCTGTTGCTCCTGTTGGCCCTGTTACACCAGTTTCTCCGGTTGTGCCTGTTACTCCTGTTGCTCCTGTCGATCCGGTTATCCCCGTTGCCCCAGTCACTCCTGTTGAACCGGTTGAACCAGTTGGTCCTGTCGATCCGGTTATCCCCGTCGCCCCGGTTTCTCCTGTTACACCGGTTGGGCCCGTCGCGCCTGTTATTCCAGTTAGCCCGGTTGCACCAGTTGCTCCGGTTGCCCCGGTCGAGCCTGTTTCTCCTGTTGGCCCTGTTACACCGGTTTCTCCGGTTGTGCCTGTTACTCCTGTTGCACCAGTCGATCCAGTTGGACCTGTTACACCAGTTACACCGATCGCTCCGGTTGCGCCAGTCGATCCAGTTGGACCTGTTACACCAATTGAGCCCGTGACCCCAGTTGGGCCGGTTTCTCCGGTTGAACCAGTCACTCCCGTTAAACCAGTTGACCCTGTTGGACCAGTTGCCCCTGTTATTCCGGTCGAGCCTGTTAATCCGGTTACACCAGTTACCCCAGTCGATCCTGTTGCTCCGGTTTCTCCAGTTATTCCCGTTGCGCCGGTCGCCCCGGATGCACCCGTTGCTCCGGTTGAACCGGTTTCTCCCGTTGAGCCAGTCGGTCCGGTTATTCCTGTTGACCCAGTCACTCCCGTTGCACCGGTTACTCCTGTTGCGCCAGTCGCTCCTGTTATCCCCGTTGGGCCGGTTTCTCCCTTTGAGCCTGTCGGGCCGGTTGACCCTGTTGGACCTGTTGCTCCTGTTACTCCAGTTGAGCCCGTTGAGCCAGTCGCGCCAGTTGCTCCGGTTGAACCTGTCACTCCCGTTGAACCAGTTGAGCCTGTTGATCCGGTTACACCAGTTACCCCAGTCGATCCAGTTGCACCGGTTGCTCCTGTTGAGCCAGTCGCGCCAGTTGGACCCGTTACTCCGGTCGCTCCTCTTGCCCCGGTTGAACCAGTTGCTCCCGTTGCACCAGTTACTCCGGTCGCTCCTCTTGCTCCGGTCACTCCTGTGGGGCCCGTCACTCCAGTGGGGCCCGTCACTCCAGTGGGACCTGTAATTCCTGTTACGCCAGGTTCACCCCCGGTTGGCGCCAATGAAACGTCATCTATTAAAACCGTTCCGGAAGAAACTTTACTTAATACAATGACGGCAGAGGCCGCGCCAGAAGGCACACTGCTTGTTTTATAG	MKSKAGVLPVAPVAPVGPVTPVAPVTPVGPVMPVKPVVPVAPVAPVGPVRPVVPVAPVTPVEPVAPVTPVTPVAPVEPVDPVDPVGPVEPVDPVAPVIPVDPVTPVAPVSPVAPVSPVGPVTPVGPVTPVGPVAPVIPVSPVAPVAPVIPVAPVTPVAPVIPVDPVTPVAPVSPVAPVSPVGPMIPVGPVSPVEPVTPVGPVAPVEPVTPVGPVEPVMPVDPVAPVTPVGPVSPVAPVTPVGPVIPVGPVSPVAPVTPVAPVTPVGPVGPVTPVGPVAPVEPVTPVGPVTPVKPIAPVGPVSPVEPVTPVGPVTPVKPIAPVGPVSPVEPVTPVGPVAPVIPVAPVAPDAPVAPVAPVIPVTPVAPVAPVEPVSPVAPVEPVGPVDPVGPVSPVGPVSPVIPVEPVVPVAPVAPVSPVEPVSPVDPVTPVGPVAPVGPVAPVSPVEPVTPVGPVAPVEPVTPVGPVEPVMPVDPVTPVGPVSPVGPISPVTPVAPDGPVSPVTPVAPVSPVAPVSPVGPMIPVGPVSPVEPVTPVEPVVPVSPVGPVAPVGPVTPVEPVAPVIPVGPVSPVAPVSPVGPVTPVEPVVPVTPVIPVAPVEPVSPVSPVEPVAPIGPVSPVTPVAPVGPVTPVAPVAPVEPVSPVAPVTPVAPVSPVTPVTPVEPVAPVGPVAPVDPVTPVAPVGPVSPAGPVTPVAPVAPVEPVSPVGPVGPVAPVIPVAPVSPVAPVAPVAPVTPVAPVEPVTPVDPVTPVAPVVPVEPVGPVEPVTPVAPVDPVIPVAPVTPVEPVEPVGPVDPVIPVAPVAPVTPVGPVEPVAPVAQVAPVAPVSPVEPVTPVGPVTPVGPVAPVIPVSPVAPVAPVAPVEPVSPVGPVTPVSPVVPVTPVAPVDPVGPVTPVEPVTPVGPVSPVEPVTPVKPVDPVIPVEPVNPVTPVTPVDPVAPVSPVIPVAPVAPDAPVAPVEPVSPVEPVGPVIPVDPVTPVGPVGPVGPVGPVDPVAPVSPVTPVGPVGPVIPVGPVSPVAPVTPVAPVTPVGPIGPVTPVGPVAPVSPVEPVTPVGPVTPVGPVAPVTPVSPVGPVDPVIPVGPVEPVTPVAPVTPVAPVTPVAPVTPIEPVIPVAPVSPVAPVTPIGPVTPVAPVEPVDPVGPVSPVAPISPVTPIAPVGPVEPVDPVAPVIPVEPVDPVGPVSPVTPVTPVTPVAPVTPVTPVSPVGPVEPVAPVTPVVPVTPVAPVDPVAPVDPVSPVEPVTPVAPVSPVEPVGPVTPVEPVGPDSPVDPVTPVAPVSPVEPVTPVAPVSPVEPVIPVAPVDPVAPVAPVKPVTPVGPVDPVGPVEPVTPVAPVTPVAPVSPVEPGDPVGPISPVGPVDPAAPVTPVEPVDPVGPVGPVDPVAPVTPVGPVDPVIPVAPVTPVAPVTPVGPVAPVEPVEPVPPVGPVSPVEPVTPVAPVAPVIPVDPVTPVTPVGPVSPIEPVAPVIPVDPVTPVAPVSPVDPVTPVEPVTPVGPVTPVRPVSPVAPVTPVEPVVPVAPVDPVDPVAPAGPVSPVAPVSPVEPVSPVAPVGPVAPVIPVEPVDPVGPASPVGPVSPVTPVAPVAPVGPVSPVAPVTPVEPVEPVTPVIPVEPVVPVAPVAPVSPVEPVAPVGPVTPVSPVVPVTPVAPVDPVIPVAPVTPVEPVEPVGPVDPVIPVAPVSPVTPVGPVAPVIPVSPVAPVAPVAPVEPVSPVGPVTPVSPVVPVTPVAPVDPVGPVTPVTPIAPVAPVDPVGPVTPIEPVTPVGPVSPVEPVTPVKPVDPVGPVAPVIPVEPVNPVTPVTPVDPVAPVSPVIPVAPVAPDAPVAPVEPVSPVEPVGPVIPVDPVTPVAPVTPVAPVAPVIPVGPVSPFEPVGPVDPVGPVAPVTPVEPVEPVAPVAPVEPVTPVEPVEPVDPVTPVTPVDPVAPVAPVEPVAPVGPVTPVAPLAPVEPVAPVAPVTPVAPLAPVTPVGPVTPVGPVTPVGPVIPVTPGSPPVGANETSSIKTVPEETLLNTMTAEAAPEGTLLVL				NA	NA	NA	NA	NA
D1-12_02689	795			hypothetical protein	ATGATGACTTCAGTGCGAATAGAATATTGCCGGGGTGATAATATGAGCAGCGGCCGTAATCAATACATGATATTGAAACAGAAACCTTACAAATATATGAGCAGACATATGAAACGCCGGTATGAACAATTACCATGTGAACTTGAAAGTCCGGAAACAGGGACGGAAAAACGGTTTCCGTCTTCAGATGAAAATCGATCTGCCTTGTGCGTACCCGGGCTGCGAGGTCCGGAAGGCAAAAGAGGACCCGCCGGCTCCCGCGGTCCGCAAGGGGAGGCGGGTCCGCCCGGTCCCCCGGGGCCTGAGGGTCCGCCCGGTCCCCCGGGGCCTGAGGGTCCGCCCGGTCCCCCGGGGCCTGAGGGGCCGCCGGGAGCGGTTCCTGCGGTAGCTTTTCAAAATACAGCAGACCTAATGACGCTTCCGTTAGAAGGAACACCGATAAACGTGTTAAGCACAGTGATAGCTGCGCCGACAGATCAATTGGTGAAAACGGATGCCGTCATACAAGTAAATGTGGAATTAGATCCGCTTGCGTCTCATTTCTCATTGGTCTTAGCTGTCGAGCTGCAAAGAAATGGCGTAACGATACAAACACAGAGACAAGAGAGGAACCTCTTTTCTTCAGGCGGACAAATCATAGGAATTCCTTTTACGTACATCGACGAAATGAAGGCGGATGAAACAGCCGCGTATCAGCTCTATTTATCCGTCCTTTCTTCGAACTACGTAACACAAGTCGCAGCGGCAAACCGCTCCCTCATTGCGACGGGATTCCCCATTCAAGGATCGGATTAA	MMTSVRIEYCRGDNMSSGRNQYMILKQKPYKYMSRHMKRRYEQLPCELESPETGTEKRFPSSDENRSALCVPGLRGPEGKRGPAGSRGPQGEAGPPGPPGPEGPPGPPGPEGPPGPPGPEGPPGAVPAVAFQNTADLMTLPLEGTPINVLSTVIAAPTDQLVKTDAVIQVNVELDPLASHFSLVLAVELQRNGVTIQTQRQERNLFSSGGQIIGIPFTYIDEMKADETAAYQLYLSVLSSNYVTQVAAANRSLIATGFPIQGSD				NA	NA	NA	NA	NA
D1-12_02690	1437	yflS	COG0471	Putative malate transporter YflS	ATGGCTTCAGAAAAAGACGCAAAAAAACAGCAGGCAGTAAAAATCATTCCTTTGCTTATTACTGTTGCTGTGGGATTAATCATTTGGTTTATTCCCGCGCCGTCCGGACTTGAACCTAAAGCATGGCATTTGTTCGCTATTTTTGTCGCAACAATTATCGGCTTTATCTCCAAGCCCTTGCCAATGGGCGCAATTGCAATTTTTGCATTGGCAGTCACCGCGTTAACGGGAACGCTATCTATTGAAAATACGTTAAGCGGATTTGGAAACAAGACAATCTGGCTGATTGTCATCGCCTTTTTTATTTCCCGGGGGTTCATCAAAACCGGGCTCGGCGCCAGGATTTCTTACGTATTCGTACAACGGTTCGGGAAGAAAACACTCGGCCTTTCTTATTCACTGCTTTTCAGTGATTTAATTTTATCACCTGCCATTCCGAGCAACACGGCACGGGCGGGCGGCATTATTTTTCCTATTATCAGATCATTATCCGAAACTTTCGGATCAACGCCGGCAGACGGAACAGAGCGGAAAATCGGCGCTTTCTTATTAAAAACCGGTTTTCAAGGAAACTTGATTACGTCTGCGATGTTTTTGACGGCAATGGCGGCGAACCCGCTGATCGCCAAGCTGGCCCACGATGTCGCAGGGGTGGACATCACATGGACAAGCTGGGCAATCGCGGCCATTGTACCGGGATTGGCGAGCTTAATCATTACGCCGCTCGTCATTTATAAGCTGTATCCGCCGGAAATTAAAGAAACACCGGATGCGGCTAAAATCGCAACGGAAAAATTGAAAGAAATGGGTCCGTTTAAAAAATCCGAACTCTCCATGGTCATCGTCTTTTTATTGGTGCTTGCGCTGTGGATTTTCGGAGGAAGCTTAAATATCGACGCAACGACGACGGCCCTGATCGGATTATCCGTTTTGCTTTTGTCACAGGTATTAACATGGGAGGACATCAAAAAAGAACAAGGTGCATGGGATACGCTGACTTGGTTCGCGGCGCTTGTGATGCTGGCGAATTTCCTGAATGAGCTCGGCATGGTGTCTTGGTTCAGCAATATGATGAAATCATCTGTTTCCGGTTTTTCATGGATTGTGGCATTTATGATTCTGATTGTCGTGTATTATTACACGCATTACTTCTTTGCGAGCGCAACCGCGCATATCAGCGCCATGTATGCGGCATTTCTCGCCGTCATCGTGGCGGCAGGCGCTCCGCCGCTGTTGGCGGCGCTCAGCCTGGCGTTTTTCAGCAACCTTTTCGGTTCGACGACGCATTACGGATCAGGAGCGGCTCCGGTCTTTTTCGGAGCGGGTTATATATCGCAAAGCAAATGGTGGTCCATCGGCTTTATCCTGTCAATCGTCCATATTGTGACATGGCTTGTGATCGGCGGATTATGGTGGAAAGTATTAGGGTTATGGTAG	MASEKDAKKQQAVKIIPLLITVAVGLIIWFIPAPSGLEPKAWHLFAIFVATIIGFISKPLPMGAIAIFALAVTALTGTLSIENTLSGFGNKTIWLIVIAFFISRGFIKTGLGARISYVFVQRFGKKTLGLSYSLLFSDLILSPAIPSNTARAGGIIFPIIRSLSETFGSTPADGTERKIGAFLLKTGFQGNLITSAMFLTAMAANPLIAKLAHDVAGVDITWTSWAIAAIVPGLASLIITPLVIYKLYPPEIKETPDAAKIATEKLKEMGPFKKSELSMVIVFLLVLALWIFGGSLNIDATTTALIGLSVLLLSQVLTWEDIKKEQGAWDTLTWFAALVMLANFLNELGMVSWFSNMMKSSVSGFSWIVAFMILIVVYYYTHYFFASATAHISAMYAAFLAVIVAAGAPPLLAALSLAFFSNLFGSTTHYGSGAAPVFFGAGYISQSKWWSIGFILSIVHIVTWLVIGGLWWKVLGLW	PGPT0013960_428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_MALATE_TRANSPORT,PGPT0013960-TC_DASS|yflS-K03319	NA	NA
D1-12_02691	1266	pel	COG3866	Pectate lyase	ATGAAAAAAATGTTACTTATGCTGGCGGTTTGTTTATGTATGATTCCTGCGGACGTCTATGCCGCTGATCTGGGACGGCAGACGTTAGGAACAAATGACGGCTGGGGAGCCGCTTCCGGCGGGACAACCGGCGGCGCGAAAGCCTCTTCATCGAATGTATACACCGTATCAAACAGACAGCAGCTCGTTTCTGCATTAGGGGGAAGCGCCAACAGCACGCCGAAGATTATTTACATACAAGGCACAATCAATATGAATACGGACGACCGCAATAAAACGCTCGGCTTTAATGATTATAAAGATCCGGCATATGATCTCAACGCCTATCTGAAGGCGTACGACCCGGACAAATGGGGGAAAAAAGCGCCGTCAGGCACCCAGGAAGACGCCAGACAGCGATCGCAAAAAAACCAGAAGGCACGGGTCGTGGTTGACATTCCTTCAAATACGACAATCATCGGCTCGGGTTCAAATGCCAAAGTGACAGGCGGAAGTTTTAATATAAAGAACGGCGTCGACAATGTCATCATCCGCAACATTGAATTTCAAGACGCTTACGACTATTTTCCGCAATGGGACCCGACGGACGGCAGCAGCGGCAACTGGAACTCGGAATATGACAATATCACCATTAACGGCGCGACGCACATCTGGATCGATCATTGCACCTTTAATGACGGATCGAATCCCGACAGCGGTTTTCCCTACTATTACGGGAGAAAATTTCAGCACCATGACGGCCAGACGGATATAGCCAACGGGGCGAATTATATTACATTGTCCTATAATAAATATCATGACCATGACAAAGGCTCCGTCATCGGAAACAGCGACAGCAAGACGTCGGATGAAGGAAAACTGAAGGTGACCCTTCACCATAACTATTACCAGAACATCGTCCAGCGCGCACCGCGGGTCCGGTACGGGCAGGTTCATATTTATAATAATTTTTACGCAGGCTCGAAAAGCGCCGCATACCCGTTCAGCTATGCGTGGGGCGCGGGCCACGCGTCAAAAATATATGCCCAGAATAATGTCTTTGAAGTGCCGGGACTGGCTGCTGATAAAGTCATCAGCATCTTCAGCGGCGGAAAAGCGCTTCATGAAGACGGCACTCTTTTAAACGGCGCCTCCATTAACGCGTCAGCCGCCAACGGATTAAGTCAGTCCGTCGGCTGGACACCGTCATTGCACGGTTCCATCGGCTCATCATCAAATGTAAAATCAGATGTTATATCTAAAGCCGGGTCGGGCATATTAAAATAA	MKKMLLMLAVCLCMIPADVYAADLGRQTLGTNDGWGAASGGTTGGAKASSSNVYTVSNRQQLVSALGGSANSTPKIIYIQGTINMNTDDRNKTLGFNDYKDPAYDLNAYLKAYDPDKWGKKAPSGTQEDARQRSQKNQKARVVVDIPSNTTIIGSGSNAKVTGGSFNIKNGVDNVIIRNIEFQDAYDYFPQWDPTDGSSGNWNSEYDNITINGATHIWIDHCTFNDGSNPDSGFPYYYGRKFQHHDGQTDIANGANYITLSYNKYHDHDKGSVIGNSDSKTSDEGKLKVTLHHNYYQNIVQRAPRVRYGQVHIYNNFYAGSKSAAYPFSYAWGAGHASKIYAQNNVFEVPGLAADKVISIFSGGKALHEDGTLLNGASINASAANGLSQSVGWTPSLHGSIGSSSNVKSDVISKAGSGILK	PGPT0018225_1702	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-T1SS_SECRETED_PROTEINS,PGPT0018225-pel|plyB-K01728	NA	NA
D1-12_02692	348	yflT		General stress protein 17M	ATGAAACCGGTAGTAAGAGAATATACAAATGATCAAAAACTGATGCAGGACGTAAAAGAGCTTCAGCAATTGGGTGTCGCAAAAGAAGACGTATATGTGCTTTCTCATGATGACGACAGAACGGACCGCCTGGCAGATAATACTGATGTCAATACCATCGGAGCGAAAGAAACGGGCATTAAACACGCAGTCGGCAATATGTTTAATAAAAAAGGCGACGAGCTCCGCAACAAAATTCACGAAATCGGCTTTTCAGAAGAGGAAGCATCACAATTTGAAAAGCGCTTAGATGAAGGAAAAGTTCTTCTGTTTGTCACGGATAACGAAAAAGTGAAATCATGGGCGTAA	MKPVVREYTNDQKLMQDVKELQQLGVAKEDVYVLSHDDDRTDRLADNTDVNTIGAKETGIKHAVGNMFNKKGDELRNKIHEIGFSEEEASQFEKRLDEGKVLLFVTDNEKVKSWA	PGPT0014649_42	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
D1-12_02693	351	yfmB		putative protein YfmB	GTGGTTCCTATTCATTACTTTTCACCGGAACAGCGATTTAACGCTTGGGTTGTCAGTGATTTAGTGAAGCAGGTATTCCGCCGGCATACCCGCTGCCCGGATGGAATAAAAGAGCTTACGGCCTTTGCTGAAGATACTTTTCATATTAATATCGATTTCGTTTTCTCTATCATTATCAATATCGGTGATATCGAATCCGTTCTGCCGAAAGAAATTGAAAATAGGCTGGGTTCTTATCTGACCGCGCTTCAGCCCGTCGTTACCGCTGACATGCTTCATTCTTCAAAAACGAATGCCTATGAATATTTGGAACATGAGAAAAACACCGATGTGTACCGGTTATTCTATTAA	MVPIHYFSPEQRFNAWVVSDLVKQVFRRHTRCPDGIKELTAFAEDTFHINIDFVFSIIINIGDIESVLPKEIENRLGSYLTALQPVVTADMLHSSKTNAYEYLEHEKNTDVYRLFY				NA	NA	NA	NA	NA
D1-12_02694	1020	yfmJ	COG2130	Putative NADP-dependent oxidoreductase YfmJ	ATGCCGAATAATCAGCAGCAAATTCAATTGGCAAGACGCCCCAAAGGCGTTCCCGCCCATGACGATTTCCGCTTTGAAACGATTGCCGTGCCCGAACCGAAAGACGGCGAAGTGCTTGTAAAAACGAGTTATGTGTCCGTTGATCCGTACATGCGCGGACGGATGCAGGATACAAAATCATATGTAGAGCCGTTCGCTTTAGATGAAGCCATAACAGGCGGAGTGATTGCCGAGGTTCTGACAGACGGCGATCAGCTGAAAAAAGGAGATGTTGTGATCGGAAATCTCGCGTGGCAGGAATATTCAGCCGTCAATGAGTCCGCCCTCCGCAAGTTGGATACGGATATCGCACCCGCCCAGGCGTATCTCGGCATTTTAGGGATGACCGGACTGACCGCTTACTTCGGGCTGCTCGACATCGGCCGTCCGAAAAAAGGCGAAACCGTCGTCGTTTCAGGCGCGGCGGGCGCCGTCGGCTCAACAGTCGGACAGATTGCCAAAATCAAAGGCGCGCGGGTTGTCGGCATCGCCGGATCTGATGAAAAAATCGCGTATTTGAAAGAGGAGCTTCAATTTGATGAAGCCATTAATTACAAAACGGCGGATGATATTCAAAAAGCGCTGGAACAGGCATGTCCCGACGGCGTCGATGGCTATTTTGACAATGTCGGCGGACCGATTTCAGATGCGGTGATAAACCTGCTGAATGAATTCGCCCGCATTCCGGTATGCGGAGCGATCTCATCGTACAATACCGAAAGTGAAGAAGAAGACATGGGCCCCCGCGTCCAGCCGAAGCTGATCAAAACAAAAGCGCTGATGCAGGGATTCATCGTCAGTGATTATGCTGACCGCTTTTCTGAAGGCGCGAAACAATTGGCCGAATGGCTTAAGGACGGAAAGCTTCATTATGAAGAAACGATTACGGAAGGATTCAGCAATATTCCTGACGCGTTCCTCGGCCTGTTTAAAGGAGAAAATAAAGGCAAACAGATCATCAAAGTCAGTGATCTATGTTAA	MPNNQQQIQLARRPKGVPAHDDFRFETIAVPEPKDGEVLVKTSYVSVDPYMRGRMQDTKSYVEPFALDEAITGGVIAEVLTDGDQLKKGDVVIGNLAWQEYSAVNESALRKLDTDIAPAQAYLGILGMTGLTAYFGLLDIGRPKKGETVVVSGAAGAVGSTVGQIAKIKGARVVGIAGSDEKIAYLKEELQFDEAINYKTADDIQKALEQACPDGVDGYFDNVGGPISDAVINLLNEFARIPVCGAISSYNTESEEEDMGPRVQPKLIKTKALMQGFIVSDYADRFSEGAKQLAEWLKDGKLHYEETITEGFSNIPDAFLGLFKGENKGKQIIKVSDLC	PGPT0023605_394	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
D1-12_02695	363			hypothetical protein	ATGGTTTCAATAGACAGATGTCAAATATTGAAGGAACCCGAGCTGAAAATACTTGAACACTGGTTTAAGAACGATAATATCAAACGGAGAATGGATGCGATACTGCCATTAGACGCGTGGTATGCACGATTGAATAAAGATGAAGACGATACTGTCATTATGGCATATGACGGGGAGTGTCCGGCAGGCATGGTCTCTATAGAGTTTGTGGATGAGCGGGCGTATATCGGGTTGATCGTCAATCCTTTATACCAGCTTCAAGGGTACGGAAAACAGATCTTGCAAAAACTGCTGACTGATCCTGGGTTTACCAGCGTGGGGAATAGGCGGCAAGCATCGAAAAAGACAATCAAATCAGTTTAG	MVSIDRCQILKEPELKILEHWFKNDNIKRRMDAILPLDAWYARLNKDEDDTVIMAYDGECPAGMVSIEFVDERAYIGLIVNPLYQLQGYGKQILQKLLTDPGFTSVGNRRQASKKTIKSV				NA	NA	NA	NA	NA
D1-12_02696	1131	yfmL	COG0513	putative ATP-dependent RNA helicase YfmL	ATGACCCAAACATGGCCATTTTTACAGCATACACAACCATTTATCGCCGAAAACTGGGAGGCCTCAGGCTTTCAGGAGCCGACCGTCATTCAGGAAAAAGCCGCTCAGGTGATTATGGAAGGGAAAGACGTCATCGCCGAATCCCCGACGGGAACGGGAAAAACATTGGCGTACACGCTTCCGGTTCTGGAGCGGATCAACCCGGAACAGAAACATCCGCAAGTGATCATTTTAGCGCCGTCCCGCGAGCTGGTGATGCAGATTTTCCAAGTGATTCAGGAGTGGAAAAAAGGCTCTGATCTTCGCGCTTTGTCTTTGATCGGCGGAGCAAACGTGAAAAAGCAGGTGGAAAAGCTCAAAAATAAACCGCATATCATTGCGGGCACACCGGGCAGGGTGCTCGAATTGATTCAGGCGAAAAAGCTGAAAATGCATGAAGTCAAGACGATCGTTCTTGATGAAGCGGATCAGCTCGTGACACAGGAACACCGCGAAACGATGAAAAAAATCATTAAAACGACGCTGAAAGACCGACAGCTTTTAAGCTTTTCCGCTACGCTGCAGCCGGAAACAGAACAGGTGCTGAATACCATCGCACACGAACCGGCCGTTTTGAAAGTGGAGCGGAATACGGCGGAAAAAGCACGGGTCACGCATCAATATCTCGTCTGCGATCAGCGGGATAAAGTAAAGCTATTGCAAAAGCTGTCACGGCTGAACGGCATGCAGGCGCTCGTGTTCGTCAGAGATATCGGAAATTTAAGCGTCTATGCGGAAAAACTCGCCTATCATCACGTGGATCTCGGCATCCTGCATGGAGAAGCGAAAAAAATGGAGCGGGCAAAGATATTATCAGCGTTTGAACGGGGAGAATTTCCGCTGCTTCTGGCGACTGACATTGCGGCGCGCGGACTTGATATCGATGATCTTCCGTACGTCATTCACGCGGACATACCGAATGAAGACGGATATATCCACAGATCCGGCCGGACGGGGCGGGCCGGTAAAGAAGGAACCGTACTCAGCCTTGTCACGCCGATGGAAGAATCCAAACTGAAAAAAATGGCCAAATCACTCGGAATTGAGCTGAAAGAGGCCGTTTATTCAGGCGGAAAACTATCTGAGAAATAA	MTQTWPFLQHTQPFIAENWEASGFQEPTVIQEKAAQVIMEGKDVIAESPTGTGKTLAYTLPVLERINPEQKHPQVIILAPSRELVMQIFQVIQEWKKGSDLRALSLIGGANVKKQVEKLKNKPHIIAGTPGRVLELIQAKKLKMHEVKTIVLDEADQLVTQEHRETMKKIIKTTLKDRQLLSFSATLQPETEQVLNTIAHEPAVLKVERNTAEKARVTHQYLVCDQRDKVKLLQKLSRLNGMQALVFVRDIGNLSVYAEKLAYHHVDLGILHGEAKKMERAKILSAFERGEFPLLLATDIAARGLDIDDLPYVIHADIPNEDGYIHRSGRTGRAGKEGTVLSLVTPMEESKLKKMAKSLGIELKEAVYSGGKLSEK				NA	NA	NA	NA	NA
D1-12_02697	1557	ybiT_2	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGAGTATTTTATCCGTAAAAGATTTAAGCCACGGCTTTGGTGACCGTGCGCTTTTTAACAATGTATCGTTCCGTCTTTTAAAAGGGGAACACGTCGGCTTAATCGGAGCAAACGGCGAAGGTAAATCAACGTTTATGAATATTATTACCGGAAAACTTGAGCCTGATGAGGGTAAGGTTGAATGGGCGAAAAATGTGCGCGTCGGCTACCTCGATCAGCATACCGTGCTTGAAAAAGGAAAAACGATCCGCGACGTGCTGAAAGATGCGTTCCATTACTTATTTGCAATGGAAGAGGAAATGAATGAGATTTACAACAAAATGGGCGAAGCGGACCCTGATGAGCTTGAGCAGCTGCTTGAAGATGTCGGTGTCATTCAAGACGCCCTGACAAACAATGATTTCTACGTGATTGACAGCAAAGTTGAAGAAATCGCCCGCGGCCTCGGCCTGCAGGATGTCGGCCTTGACCGCGACGTCACAGATTTAAGCGGCGGACAGCGGACGAAAGTGCTGCTCGCCAAACTGCTTTTGGAAAAACCGGAAATCCTCCTGTTGGACGAACCGACGAACTACCTTGATGAACAGCATATTGAATGGCTGAAACGCTATTTGCAGGAATATGAAAATGCGTTCATCTTAATTTCTCACGACATTCCGTTTTTAAACAGCGTGATCAATTTGATTTATCATGTGGAAAACCAGGAGCTGACGCGTTATGTCGGTGATTATCATCAGTTCATGGAAGTATACGAGGTGAAAAAACAGCAGCTCGAAGCCGCCTATAAAAAACAGCAGCAGGAAGTGGCTGAGCTGAAAGATTTCGTCGCCCGCAACAAAGCGCGCGTCAGCACGAGAAATATGGCGATGTCCCGCCAGAAAAAGCTTGATAAGATGGATATGATCGAACTGGCGGCCGAAAAACCGAAACCGGAATTCCATTTCAAGCCTGCGAGAACGTCAGGCAAGCTCATTTTTGAAACGAAGGACTTAGTCATCGGCTACGATACTCCGCTGTCACGCCCGCTCAATCTCAGAATGGAGCGCGGACAGAAAGTCGCCCTGTACGGCGCAAACGGCATCGGGAAAACGACGCTGTTAAAAAGCCTGCTCGGTGAAATCCAGCCGCTGGAAGGCACGGTGGAACGGGGCGAGCATCAATACACGGGCTATTTCGAGCAGGAAGTGAAAGAAACCAATAACAATACGTGCATCGAAGAAGTGTGGAGCGAATTTCCTTCCTTTACCCAGTACGAAATCCGCGCCGCCCTCGCCAAATGCGGCCTGACGACCAAACACATTGAAAGCCGCGTCTCCGTTCTCAGCGGAGGAGAAAAAGCGAAGGTCAGACTGTGCAAGCTGATCAATTCAGAAACAAACCTGCTCGTGCTTGACGAACCGACAAACCACCTGGATGTCGATGCGAAAGAAGAGCTGAAACGCGCGCTGAAAGAATACAAAGGCTCCATTCTGCTGATTTCCCACGAACCCGAGTTCTACATGGATATCGCGACGGAAACATGGAATTGTGAATCTTGGACGACGAAAGTGCTGTAA	MSILSVKDLSHGFGDRALFNNVSFRLLKGEHVGLIGANGEGKSTFMNIITGKLEPDEGKVEWAKNVRVGYLDQHTVLEKGKTIRDVLKDAFHYLFAMEEEMNEIYNKMGEADPDELEQLLEDVGVIQDALTNNDFYVIDSKVEEIARGLGLQDVGLDRDVTDLSGGQRTKVLLAKLLLEKPEILLLDEPTNYLDEQHIEWLKRYLQEYENAFILISHDIPFLNSVINLIYHVENQELTRYVGDYHQFMEVYEVKKQQLEAAYKKQQQEVAELKDFVARNKARVSTRNMAMSRQKKLDKMDMIELAAEKPKPEFHFKPARTSGKLIFETKDLVIGYDTPLSRPLNLRMERGQKVALYGANGIGKTTLLKSLLGEIQPLEGTVERGEHQYTGYFEQEVKETNNNTCIEEVWSEFPSFTQYEIRAALAKCGLTTKHIESRVSVLSGGEKAKVRLCKLINSETNLLVLDEPTNHLDVDAKEELKRALKEYKGSILLISHEPEFYMDIATETWNCESWTTKVL				NA	NA	NA	NA	NA
D1-12_02698	1185	yfmO		Multidrug efflux protein YfmO	ATGGATACATCATCACAACAGAAAACAGGCTTATTCAGCCAGCCGAAAGCCGTTTGGGCGGTTGCGTTTGCCTGTGTGATTTCCTTTATGGGAATCGGTCTTGTCGATCCGATTCTTCCGGCGATCGCCGCACAATTACATGCTTCACCTAGTGAAGTATCTCTGTTATTTACAAGTTATTTGCTCGTTACCGGTTTTATGATGTTTTTCTCCGGCGCGATTTCAAGCCGGATCGGCGCAAAATGGACGCTGCTTCTCGGACTTATTTTTATCATCGTGTTTGCCGCTCTCGGCGGAAGCTCAAGTTCAATCGCTCAGCTTGTCGGCTATCGCGGCGGCTGGGGGCTTGGGAATGCTCTCTTTATTTCAACCGCGCTTGCCGTCATTGTCGGGGTATCTGTCGGCGGCAGCGCCAAAGCCATTATTCTGTATGAGGCTGCACTCGGCTTGGGGATTTCCGTCGGGCCGCTTGCAGGCGGAGAGCTTGGCAGCATTTCATGGCGCGCTCCGTTCTTCGGAGTGTCTGTCCTCATGTTCATAGCGCTTTGCGCGATTTCACTCATGCTGCCGAAGCTGCCGAAACCGGCAAAACGCGTCGGTGTGTTTGATGCGATGAAGGCGCTCAAATATAAAGGCCTTTTGACAATGGCAGTATCTGCATTCTTATACAACTTTGGATTTTTTATTTTGCTTGCTTATTCTCCGTTCGTGCTGGATTTAGATGAACACGGCCTTGGATACGTCTTCTTCGGCTGGGGGTTATTGCTGGCAATTACGTCAGTCTTTACGGCGCCGCTCGTGCACAAAGCGCTGGGAACAGTGGGTTCGCTCGTCGTTCTCTTTATCGCCTTTGCGGTCATTCTCATCGTCATGGGGATCTGGACTGACCATCAGACGTTGATCATTACATGTATCGTTGTCGCCGGTGCTGTTCTCGGTATGGTGAATACGATCATGACAACCGCTGTAATGGGTTCTGCGCCGGTTGAACGTTCAATCGCGTCTTCAGCCTACAGCTCAGTCCGTTTTATCGGCGGTGCGCTCGCTCCGTGGATTGCGGGAATGCTGTCAGAACACTTCACCGCAAGCACTCCATATACAGTAGGCGGGATCGTCGTTTTTGTCGGCATGCTTGTCCTTCTCATGGGACGCAAACATCTCGCCGGAATAAAAGCCGGACATTAA	MDTSSQQKTGLFSQPKAVWAVAFACVISFMGIGLVDPILPAIAAQLHASPSEVSLLFTSYLLVTGFMMFFSGAISSRIGAKWTLLLGLIFIIVFAALGGSSSSIAQLVGYRGGWGLGNALFISTALAVIVGVSVGGSAKAIILYEAALGLGISVGPLAGGELGSISWRAPFFGVSVLMFIALCAISLMLPKLPKPAKRVGVFDAMKALKYKGLLTMAVSAFLYNFGFFILLAYSPFVLDLDEHGLGYVFFGWGLLLAITSVFTAPLVHKALGTVGSLVVLFIAFAVILIVMGIWTDHQTLIITCIVVAGAVLGMVNTIMTTAVMGSAPVERSIASSAYSSVRFIGGALAPWIAGMLSEHFTASTPYTVGGIVVFVGMLVLLMGRKHLAGIKAGH	PGPT0003580_821	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003580-ymfE-K08221	NA	NA
D1-12_02699	423	yfmP	COG0789	HTH-type transcriptional regulator YfmP	TTGGAATGGATGAAGATTGATCAAGTTGCCAAGCGAAGCGGATTGACAAAACGAACCATTCGTTTTTACGAGGAGATTGGTTTGATTCCTGCTCCTAAACGGACAGAAGGCGGCGTCCGGCTTTACTCTGAAGATGATATGGAGGAGCTCGAAAAAGTCACCAGCACAAAAGAAGTGCTCGGTTTTTCCCTTCAGGAGCTTCAGCAGTTTATGGAGATGAGCCGTCAGCTGGAATTAAACAAAGAGGGGTACTTGTTGTCACTGGATCCGAAGGAACGGAAAGAAAAGCTGGAAGAGATTCAGCACGCTTTGAACCACCAGCTTGAGATGATTGATGAGAAGATCAGCACATTTCAGCATTTTAAAACGCGCCTTAACGGAATGAAAGAAAAAGCTGACCGCGCCATTCAATCAATCGAATGA	MEWMKIDQVAKRSGLTKRTIRFYEEIGLIPAPKRTEGGVRLYSEDDMEELEKVTSTKEVLGFSLQELQQFMEMSRQLELNKEGYLLSLDPKERKEKLEEIQHALNHQLEMIDEKISTFQHFKTRLNGMKEKADRAIQSIE				NA	NA	NA	NA	NA
D1-12_02700	1890	uup	COG0488	ABC transporter ATP-binding protein uup	ATGAGCATCATAAAAGCGGAAAACCTTTATAAAACATACGGAGATAAGACATTATTCGACCATATCTCCTTTCATATTGAAGAGAATGAAAGAATCGGTTTAATCGGCCCGAACGGAACGGGGAAGTCTACGCTTCTGAAAACCATTGCCGGCCTTGAATCAACGGAGGAAGGCGAGATTACGGCCTCAGGAAACGTGCATATTGAGTTTTTGCATCAGGACCCTGAGCTTCCGGCCGGACAAACCGTACTTGAGCATATTTATTCCGGCGGATCAGCCGTCATGAGAACGATGAGAGAATACGAAAAAGCGCTTCAGGCGCTGAATGAAGAACCGGAAAATGACCAGCGCCAGAAACAGCTGCTTGATGCGCAGGCCCGAATGGACGCGAATGATGCGTGGGAGGCGAATACGTTAGCCAAAACGGTTTTAACCAAACTTGGCGTCACCGATCTGATGAAGGATGTCAGCGAGCTGTCCGGCGGCCAGAGAAAGCGCGTCGCGATTGCGAAGAACGTCATCCAGCCGGCTGACCTGCTCATTTTGGATGAACCGACAAACCACTTGGACAATGAAACGATTGAATGGCTGGAAGGCTACTTATCGCAATATCCGGGCGCCGTTATGCTTGTCACGCACGACAGGTATTTTCTGAACAGGGTGACGAACAGAATTTACGAGCTTGAGAGAGGCAGCCTTTATACGTATAAAGGAAACTATGAAGTATTCCTGGAAAAACGGGCCGAACGGGAAGCGCTGGCGGAGCAGAAAGAAACAAAACGTCAAAACCTCCTGCGCCGCGAATTGGCGTGGCTCAGAAGAGGGGCGAAAGCGCGCTCGACGAAACAAAAAGCGAGAGTGGACAGAGCGGAGGCGCTCAAAGAGCAAAAAGGGCCGGCAGTCTCCGGATCACTCGATTTCGCGATCGGCTCCCACCGTCTCGGAAAACAGGTGATCGAAGCCGATAACGTCTCCGTTACCTATAACGGCCAAGCGCTGATCAGCCAGTTTAATGAGCTTGTCATCCCGGGGGAACGAATCGGCATCATCGGGCCGAACGGAATCGGGAAAACGACACTTTTAAACAGCCTCGCCGGCAGAATTCAGCCTGACAGCGGCAATATCACCATCGGGCAGACGGTCCGGATCGGCTACTACACCCAGGATCACAGCGAAATGAACGGTGATATGAAAGTCATTGAATATATAAAAGAGACGGCTGAAATCGTCAAAACGGCGGAAGGCGATGTCATCACCGCGGAACAAATGCTTGAGCGTTTTCTGTTCCCGCGTCCGATGCAGCAGACATATATCAGAAAGCTGTCGGGCGGGGAAAAGCGCCGTCTGTACTTGCTGAATGTACTGATGCAGGAACCGAATGTGCTGTTTTTAGATGAGCCGACCAATGATCTGGACACGGAAACATTAAGCGTGCTCGAAGATTATATCGAACAGTTCCCAGGCGTCGTCATCACCGTATCCCATGACCGCTATTTCCTTGACCGCGTCATTGACCGCCTGATCGTATTTGAAGGACAAGGTGTCATTTCCCGTTTCCAAGGTTCGTACAGTGAATACATGGAACACGCAAAAGCGAAGAAGACGGCGGTAAAACAGCCGGCCGAAGAGAAAAAGGCGGAAGAAGAGCCGAAGAAAAAGCGCAAAAAGCTTTCATATAAGGATCAGATCGAATGGGACGGCATCGAAGACAAAATCGCCGGCCTTGAAGAAAAGCATCAGCGTCTGGAAGCGGAAATCGCTGAAGCGGGAAGTGATTTCGGAAAGATTCAAGAACTGATGGCCGAACAGGCAAAAACGGCTGAAGAGCTCGAAGCGGCGATGGAGCGCTGGACCGAATTGTCACTGATGATTGAAGAACTTGAGAATTAA	MSIIKAENLYKTYGDKTLFDHISFHIEENERIGLIGPNGTGKSTLLKTIAGLESTEEGEITASGNVHIEFLHQDPELPAGQTVLEHIYSGGSAVMRTMREYEKALQALNEEPENDQRQKQLLDAQARMDANDAWEANTLAKTVLTKLGVTDLMKDVSELSGGQRKRVAIAKNVIQPADLLILDEPTNHLDNETIEWLEGYLSQYPGAVMLVTHDRYFLNRVTNRIYELERGSLYTYKGNYEVFLEKRAEREALAEQKETKRQNLLRRELAWLRRGAKARSTKQKARVDRAEALKEQKGPAVSGSLDFAIGSHRLGKQVIEADNVSVTYNGQALISQFNELVIPGERIGIIGPNGIGKTTLLNSLAGRIQPDSGNITIGQTVRIGYYTQDHSEMNGDMKVIEYIKETAEIVKTAEGDVITAEQMLERFLFPRPMQQTYIRKLSGGEKRRLYLLNVLMQEPNVLFLDEPTNDLDTETLSVLEDYIEQFPGVVITVSHDRYFLDRVIDRLIVFEGQGVISRFQGSYSEYMEHAKAKKTAVKQPAEEKKAEEEPKKKRKKLSYKDQIEWDGIEDKIAGLEEKHQRLEAEIAEAGSDFGKIQELMAEQAKTAEELEAAMERWTELSLMIEELEN				NA	NA	NA	NA	NA
D1-12_02701	1068			hypothetical protein	ATGATCAGCGTCAGTTTGTGCGTTATCGTGAAAAATGAAGAGGAAGTGCTTGCGGGCTGTCTTGATTCCGTCAAAGACATTGCGGATGAAATTGTGATTGCTGATACGGGCTCGACCGACCGGACGAAAGAAATCGCGGCCCGTTATACGGATAAGATTTATGATTTTGAATGGATCGATCACTTTGCGGCCGCCCGTAATTTTGTGTTTTCGAAAGCGGAAATGGATTATATTCTGTGGCTGGACGCCGACGATATACTGACGGAAAAGGACCGTGAAAAGCTGATTGAACTGAAGGCGTCGCTTTCAAAAGAGGTGGACGCGGTATCCATGTATTATCACGTCGGCTTTGATGCTCGGGGAGAGGTCAGCTTCAGATACCGCCGCAACCGACTCGTCAAGCGTGAAAAAGGGTTCCGCTGGATCGGAGCCGTGCATGAGTATCTTGAAGTATACGGAAACATCATAGAAACCGATATTGCCGTCACACACCGGAAATCCGAGAAAAAGCACTCGCCTCCCTCAGACCGCAACTTGAAGATTTATGAGAAAATGGCGGAAAACAGTGAAACGATGACACCGCGCGATTTGTTTTACTTCGCGAATGAATTAAAGGATCACGGCCAGTATCAGCGCGCCATCACGTATTATCACCATTTTCTTTCCACAAAACAGTGCTGGATCGAAGACGAGATCAGAACGTGCCAATATCTATCCGATTGCTACAGGGCGGTCGGCCATGAAGAGGCCGCCATGACATCTCTCTTAAAATCATTTCTGATCGATTGTCCGCGGCCGGAGTTCTGCTGCAGGCTCGGCGACTATTTTGCGGAGAAACGGCAATACCGGCAGGGCGTGTTTTGGTATGAGCTCGCCCTATCCGCCAAAAGCAGTGATGCAGGCTTTACCCAGCTCGAGTACTCCACCTGGTATCCCCATCTGCAGCTCTGCGTCTGCCACTGGCAGCTCGGCGACAGAGAAAAAGCGAAGATTCATAACGACAAAGCCGCCTCCTATCATCCGTCACATCCGAGTGTCCTGTATAATCAAAACGTGCTCGGCACATAA	MISVSLCVIVKNEEEVLAGCLDSVKDIADEIVIADTGSTDRTKEIAARYTDKIYDFEWIDHFAAARNFVFSKAEMDYILWLDADDILTEKDREKLIELKASLSKEVDAVSMYYHVGFDARGEVSFRYRRNRLVKREKGFRWIGAVHEYLEVYGNIIETDIAVTHRKSEKKHSPPSDRNLKIYEKMAENSETMTPRDLFYFANELKDHGQYQRAITYYHHFLSTKQCWIEDEIRTCQYLSDCYRAVGHEEAAMTSLLKSFLIDCPRPEFCCRLGDYFAEKRQYRQGVFWYELALSAKSSDAGFTQLEYSTWYPHLQLCVCHWQLGDREKAKIHNDKAASYHPSHPSVLYNQNVLGT				NA	NA	NA	NA	NA
D1-12_02702	900	yghA		putative oxidoreductase YghA	ATGTCTGATGCAAATCTGCACAACCCGCTGACGAAATATGATCATGATGAATTTCCAAAACAATATCAAGAACCGCCCGGTTTGCAAAAAGAGATGAAGCCTGTGCCGGACTGCGGTGAAACAAGCTATAAAGGAGCCGGCAAGCTGAAGGGAAGAAAAGCCCTCGTCACCGGCGGCGATTCAGGTATCGGCCGGGCCGCCGCGATTGCTTATGCCCGGGAAGGGGCGGATGTGGCGATTAACTATCTGCCTGAGGAACAGCCGGATGCCGAAGAAGTGAAAGCGTTAATTGAAAAAGAGGGAAGAAAAGCCGTTCTGCTGCCGGGAGATTTAAGCGATGAAACGTTTTGCGGAGAATTGGCGGAAAAAGCGTATCAAGAGCTTGGCGGTCTTGACACGCTCGCTCTTGTCGCCGGCAAACAGCAGGCAGTGGATGATATCAGCGATCTTGCCACAGAACAAATCTATCAAACATTTGAAGTCAACGTATTCTCGCTGTATTGGCTCGTCAAAGCCGCGCTTCCGTATCTGCCGGAAGGCGCGTCTATTATTACGACAACGTCCGTAGAAGGGTATAATCCAAGCCCGATGCTGTTGGATTATGCCGCGACGAAACATGCCATTATCGGTTTTACCGTCGGCTTAGGAAAGCAGCTGGCGAATAAAGGAATCAGAGTCAACTCGGTAGCGCCGGGGCCGATCTGGACGCCGCTGCAGATTTCGGGAGGACAGCCCGGTGAAAACATTCCGAAATTCGGCAAGGAAACACCGGCCGTCCCATTAAAGCGTGCCGGACAGCCGGCGGAGCTAGCAGGGATTTATGTCTTTTTGGCCTCAGAAGAATCGAGCTATGTGACATCCCAAATTTACAGTGTAAGCGGAGGAATTCCGACAGCGTAA	MSDANLHNPLTKYDHDEFPKQYQEPPGLQKEMKPVPDCGETSYKGAGKLKGRKALVTGGDSGIGRAAAIAYAREGADVAINYLPEEQPDAEEVKALIEKEGRKAVLLPGDLSDETFCGELAEKAYQELGGLDTLALVAGKQQAVDDISDLATEQIYQTFEVNVFSLYWLVKAALPYLPEGASIITTTSVEGYNPSPMLLDYAATKHAIIGFTVGLGKQLANKGIRVNSVAPGPIWTPLQISGGQPGENIPKFGKETPAVPLKRAGQPAELAGIYVFLASEESSYVTSQIYSVSGGIPTA				NA	NA	NA	NA	NA
D1-12_02703	855	yfmS	COG0840	Putative sensory transducer protein YfmS	ATGAGTATACAGACGGAGCAGCAAACGCACAGCCTGCTTGACGCTTTTGTCAAAGTTGCGCCTTTTTTAAACAGCCTGATCCAAGATGACATCACCATCGGAATTTATGATACAGAAAAATTAATCGTGAATATTCCGGCTAAAACGTTTTCTCTTAACGTAAAGCCGGGAGACCCGCTGCAAAAAGGGGACATCATTACAGACGCGATCCGCATGAATCAGAAGAAGACAAGCATGGTGCCGAAAGAGCTGTTCGGATTTCCGCTGATCGCCAGAGCGATTCCGCTTCACGATGAAAACGGAAAAGTCATCGGCGGCGTCGGTCTCGGCACGAGCCTTGAAAAATCAGCCAAGCTTCATGATGTCGCTGAAAGCCTGTCCGCCGTCGTGGAACAGACCGCTTCGGCCATCGCGGATATCTCAGAATCCATCAGCGGTTTCTCAGCACAGATGAACGGGATTTCCACTCAGGCGAAACAAGTCAGTGAAAGCGCGGGAGAAATCGCCGACATTTCCGTCACTGTCAAGGGCATCTCGGATCAAAGCAATCTGCTCGGTTTGAATGCGGCCATTGAAGCCGCGAGAGCAGGAGAATCCGGCAAGGGCTTTTCCGTGGTGGCGGATGAGATCCGCAAGCTTGCCACTCATTCAAAAGACAATGTCGGCCAAATTGACCAGATTACGAAAAAAATCCACAGCCTGCTGAAAGGGCTGGAGGACTCAATTGAATCCATCAACCAGAACACGGACGGCCAAGCGGCGGCGGTTGAACAAATTTCTGCCACGATGCAGGAAATTTCGGGAAGCGCCCAGCATTTAGCGAAAATGGCTGAAAACGTACTCGGAGAGTCATAA	MSIQTEQQTHSLLDAFVKVAPFLNSLIQDDITIGIYDTEKLIVNIPAKTFSLNVKPGDPLQKGDIITDAIRMNQKKTSMVPKELFGFPLIARAIPLHDENGKVIGGVGLGTSLEKSAKLHDVAESLSAVVEQTASAIADISESISGFSAQMNGISTQAKQVSESAGEIADISVTVKGISDQSNLLGLNAAIEAARAGESGKGFSVVADEIRKLATHSKDNVGQIDQITKKIHSLLKGLEDSIESINQNTDGQAAAVEQISATMQEISGSAQHLAKMAENVLGES				NA	NA	NA	NA	NA
D1-12_02704	1458	yfmT	COG1012	Benzaldehyde dehydrogenase YfmT	ATGTTTCAATATGAAGAACTAAATAAGCAGTTTATCGGCGGCCGATGGAGGGATGGGAGCAGCCGGAACGTATTGGAAAACAGAAATCCTTATACTCAAAAAGTCATCACCTCATTCCAAAAAGCGACGTCTGATGACGTGGATGCGGCATATCGCGCCGCGGCTCTTGCGAAACAAGAATGGGACAAAGTAAACCCTTTTAAAAAGCGGGCCATTTTGGAAAAAGCCGTTTCTTTCATCGAAGAGCACGAAGAAGCGATTATTTACTTAATCATGGAGGAGCTTGGCGGAACACGGCTGAAGGCTGAGTTTGAAATCGGACTTGTCAAAAATATGATAAAAGAAGCCGCAACATTTCCGGTGCGGATGGAAGGGAAAATTCTCCCGTCCACGATTGACGGAAAAGAAAACAGGCTGTACAGAATACCCGCCGGAGTCGTGGGAGTGATCAGCCCGTTTAATTTCCCGTTTTTCCTTTCGATGAAATCTGTTGCGCCGGCACTCGGCGCGGGGAACGGCGTCGTGCTGAAGCCTCATGAAGAAACACCGATCTGCGGCGGAACGCTTATCGCGAAAATTTTTGAAGCGGCCGGCGTACCGGACGGGCTGCTGAATGTTATCGTGACGGATATCGGGGAGATCGGCGACAGCTTTGTTGAGCATCCCGTGCCGCGGATTATCTCATTTACAGGCTCAACCGGAGTGGGCAGCTATATCGGACAGCTTGCGGTCAAACACTTTAAAAAACCGCTGTTGGAGCTTGGCGGAAACAGCGCGCTGATCGTGCTTGAGGATGCTGATCTTGAATACGCCGTCAATGCGGCCGTATTCAGCCGGTTTACGCATCAAGGCCAGATCTGTATGTCGGCGAACCGCGTGCTCGTTCACACATCTGTATATGACAAATTTACAGAGCTTTACGAAGCGAAAGTGTCATCGCTGAAAGTCGGCGATCCGATGGACCCTGATACGGTTATCGGTCCTTTAATCAATGAGAGACAGGCGGAAGGTCTGAGACGGTCTGTCGAAAAAGCGATAGAAGAGGGAGCGGTTCCGGTGCTGTCCGGCCGATTCAGCGGAACGGTCGCTGAGCCCGTCATTTTAAAAGATGTGAAACCTGAGATGAGCATCGCGAAGGAGGAGCTGTTCGGACCGGCCGTCTGCATCATGCCGTTTGAAACGGAGGATGAAGCGGTAAGCATCGCAAACGCGACACCGTTCGGTTTAAGCGGAGCCGTGCATACAGCAAACGTTGAGCGCGGCGTTGAGTTTGCTAAGCGGATCGAAACAGGCATGATTCACGTCAACGATACGACCATTAATGATGAACCGAACGTCGCGTTCGGCGGCGAGAAGCAATCAGGTCTCGGCAGGCTGAACGGCGAATGGAGCCTTGAAGAATTCACCACGCTGAAATGGATTTCGGTTCAGCATGAAAAACGGCAATTCCCATATTAA	MFQYEELNKQFIGGRWRDGSSRNVLENRNPYTQKVITSFQKATSDDVDAAYRAAALAKQEWDKVNPFKKRAILEKAVSFIEEHEEAIIYLIMEELGGTRLKAEFEIGLVKNMIKEAATFPVRMEGKILPSTIDGKENRLYRIPAGVVGVISPFNFPFFLSMKSVAPALGAGNGVVLKPHEETPICGGTLIAKIFEAAGVPDGLLNVIVTDIGEIGDSFVEHPVPRIISFTGSTGVGSYIGQLAVKHFKKPLLELGGNSALIVLEDADLEYAVNAAVFSRFTHQGQICMSANRVLVHTSVYDKFTELYEAKVSSLKVGDPMDPDTVIGPLINERQAEGLRRSVEKAIEEGAVPVLSGRFSGTVAEPVILKDVKPEMSIAKEELFGPAVCIMPFETEDEAVSIANATPFGLSGAVHTANVERGVEFAKRIETGMIHVNDTTINDEPNVAFGGEKQSGLGRLNGEWSLEEFTTLKWISVQHEKRQFPY	PGPT0005525_100	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
D1-12_02705	1386	yhdG_3	COG0531	putative amino acid permease YhdG	ATGTCTTTACTATTTCGGAAAAAGCCGCTGGCCGACTTAAAGGCCCAGAGCAAACAGACCAGCCTGTCCCGCTCGTTAAGCGCTTTTGACTTGGTTTTACTCGGAATCGGCTGTGTTGTCGGCACGGGGATTTTTGTGATTACCGGGACTGTGGCCGCGACAGGCGCAGGACCGGCTTTGATTCTGTCGTTTGTGCTCGCGGGCCTTGCCTGCGCGCTCGCCGCGTTTTGTTATGCGGAATTTTCTTCATCCATTCCGATTTCAGGCAGCGTATATACGTATTCATATGTCACTCTCGGGGAGTGTCTCGCGTTTTTAATCGGATGGGACTTAATGCTTGAATATGTCATCGCGCTCGCCGCCGTCGCAACCGGCTGGTCATCCTATTTCCAGTCGCTTCTTGCAGGCTTCGGTCTGCATCTTCCGGAGGCGCTGACCGCCGCACCCGGCAGCAAAACGGGTGCCGGGTTCAACCTGCCGGCCGTTATCATTATTTTGGTCATTACCGCGATTGTTTCAAGGGGTGTGAAAGAAAGCACCCGCTTTAACAATGTCATTGTATTGATGAAAATTGCGATCATTCTGCTGTTTATCATTGTCGGTTTCGGCTACGTGAAACCGGAAAACTGGTCGCCGTTTATGCCGTTCGGAATGAAAGGCGTCATCACGAGCGCCGCGACCGTTTTCTTCGCGTATCTCGGATTTGATGCCGTGTCAAACGCGTCGGAAGAAGTGAAAAACCCGCAGAAATCAATGCCGGTCGGAATCATCGGCGCGCTCGCCATCTGCACCATCCTTTATATTACGGTATCGCTCGTCCTGACGGGAATGCTTTCGTACACCAAGCTGAATGTCGGAGATCCGGTATCTTTCGCGCTTCAATTTGTCGGCCAGAACAAGATAGCAGGCATTATTTCCGTCGGCGCGATTATCGGGATTACAACGGTCATGCTCGCTCTGCTTTACGCTCAGGTGCGCCTTACATTTGCGATGAGCAGAGACGGCCTTTTGCCACGCATGTTTTCCAAGGTTCACCCGCGTTTTAAAACACCATTTCAAAACACATGGGTGACGGGGATCATTGCCGCCGGGATCGCGGGTTTTATTGATCTGGGAACCTTGGCGCATCTCGTCAACATGGGAACCTTGGCGGCCTTTACGGTCATTGCGATCGCCGTCATCGTTTTAAGAAAGAAACATCCGGAGATCAAATCTTCCTTCCGTGTTCCTTTCGTGCCTTTTGTGCCGATCATCAGCGCATGCTTATGCCTGTATCTCGCAAGCAGCCTGCCGGGCGTGACATGGATCGCCTTTGTCATCTGGATCGCCGCCGGGATCGTCGTTTATATGATGTATTCGAGAAAACACAGTTTGTTAAATAAATAA	MSLLFRKKPLADLKAQSKQTSLSRSLSAFDLVLLGIGCVVGTGIFVITGTVAATGAGPALILSFVLAGLACALAAFCYAEFSSSIPISGSVYTYSYVTLGECLAFLIGWDLMLEYVIALAAVATGWSSYFQSLLAGFGLHLPEALTAAPGSKTGAGFNLPAVIIILVITAIVSRGVKESTRFNNVIVLMKIAIILLFIIVGFGYVKPENWSPFMPFGMKGVITSAATVFFAYLGFDAVSNASEEVKNPQKSMPVGIIGALAICTILYITVSLVLTGMLSYTKLNVGDPVSFALQFVGQNKIAGIISVGAIIGITTVMLALLYAQVRLTFAMSRDGLLPRMFSKVHPRFKTPFQNTWVTGIIAAGIAGFIDLGTLAHLVNMGTLAAFTVIAIAVIVLRKKHPEIKSSFRVPFVPFVPIISACLCLYLASSLPGVTWIAFVIWIAAGIVVYMMYSRKHSLLNK	PGPT0020810_4562	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
D1-12_02706	1230	fsr		Fosmidomycin resistance protein	TTGGCAATTGCCGCCCCGCTTAAAGAAAAACCTGTCCATCGTCCCGAAACAACCATGTATTCTATTTTGTTCATTATCGGGATTTGTCATCTGCTGAACGATTCACTGCAAGCGGTGATTCCGGCGATGTTTCCGATTTTGGAACGTTCCATGAATCTTACATTTACGCAGCTCGGAATTATCGCCTTTACGCTGAATATGGTGTCTTCCGTGATGCAGCCCGTCATCGGCTGGTATACGGATAAACGCCCGATGCCGTATGCTTTGCCGCTCGGACTCACCGCAAGCATGCTCGGCATTTTAGGTCTCGCGTTCGCCCCGTCTTTTCTGACGATTTTATGCTGTGTCTTTTTTATCGGCCTTGGCTCCGCCGTCTTTCATCCTGAAGGATCGCGTGTCGCCTACATGGCCGCCGGCGAAAAGCGCGGCTTGGCGCAATCGATTTACCAAGTCGGAGGGAATACCGGCCAGGCGATGGCGCCCTTGATTACCGCGCTGATTCTCGTTCCGCTCGGTCAATTCGGCTCTGTCTGGTTCACGCTTGTCGCCGCAATCGCTGTGCTGTTTCTCATTTATATCGCCAAATGGTATAAAGGCCGCCTTATTCATTTGCGCGCCGTAAGTAAAAAATCACCGGCCGCCGCTGTGCAGACCGTGATTACAAAACCGATTATTCTCGCCCTTATCATGATTATCTTCTTAATTTTCGCGCGCTCCTGGTATGTGAGCGCGATCGGCAACTTTTATACGTTCTATGCGATGAATGCCTATCATGTCAGCATTCAGCAGGCACAGAGCTACATCTTCGTCTTTTTATTTTTCGGAGCAGTCGGAACGTTTCTCGGCGGGCCGCTTGCAGACCGTTTCGGAAAGCGGAACGTCATCATCGTTTCGATGATAGCATCGGCTCCATTGACGATTTTTCTTCCGTTTGCGGGGCCTGTCATCGCCTATGGCGTACTGGCGCTGATTGGTGTTGTTCTGATGTCCAGCTTCTCCGTGACGGTTGTCTACGCGCAGGAGCTTGTTCCAGGCAAAATCGGAACGATGTCAGGGCTTACGGTCGGGCTCGCCTTCGGAATGGGCGCGATCGGAGCCGTTGCGCTCGGAGCTCTTATTGATTCAGCGGGATTGACGCCGACCATGACAGCCGTCGCCTTTCTGCCCGTTTTAGGTCTGCTCGCCTTTGTCCTGCCGAGCGACAAAACATTAAAAGAATGGCATTCATAA	MAIAAPLKEKPVHRPETTMYSILFIIGICHLLNDSLQAVIPAMFPILERSMNLTFTQLGIIAFTLNMVSSVMQPVIGWYTDKRPMPYALPLGLTASMLGILGLAFAPSFLTILCCVFFIGLGSAVFHPEGSRVAYMAAGEKRGLAQSIYQVGGNTGQAMAPLITALILVPLGQFGSVWFTLVAAIAVLFLIYIAKWYKGRLIHLRAVSKKSPAAAVQTVITKPIILALIMIIFLIFARSWYVSAIGNFYTFYAMNAYHVSIQQAQSYIFVFLFFGAVGTFLGGPLADRFGKRNVIIVSMIASAPLTIFLPFAGPVIAYGVLALIGVVLMSSFSVTVVYAQELVPGKIGTMSGLTVGLAFGMGAIGAVALGALIDSAGLTPTMTAVAFLPVLGLLAFVLPSDKTLKEWHS				NA	NA	NA	NA	NA
D1-12_02707	942			hypothetical protein	ATGGTGAGTAAATATCATTTTTCAACCATTGTTTCCAGAACGCATATCTTTAAACTGATGCCGATGATTCATTCTCTCCATGAGCATTGCCGGGATTTTCATCTGTATGTGCTGTGTGTCGATCAGAAAGCGTATGAATTGCTTCAGCAGGTGCCGTGGGAACATGTCACGGCGGTTCAGCTCCATGAAATGGAGGACCCGGAGCTGCTTGAAGCAAAGGGCGGCCGGACGTTTCATGAATATTGCTGGACGCTGAAGCCGGCATTTCTGTTCCATGTGATGACAGAGTATGATGAAGCTGAATATTTTGCCCACTTGGACACCGATCTCTTTTTCTTCTCAGATGCGGGCGAGCTGTTTGCGGAAAAGCCGGATGCTTCCCTTTTTCTGACGGATCACCGCAATTCAGAACGGTTTGCGTCTTATTACAAGCTGACAGGGCAGTACAACACCGGGTTTGTCGGCGCGCGGAATACCGGGGAAGCGTATCGGGCGGTCTGGCAGTGGAGACAGGATTGCATCTCCTATTGTACGGTGGAGATGAATGAAGAAAAAAAGACATACGGTGACCAAAGGTATGTTGAAAAGTGGCCCGCGCAGTTTGAACACGTTCATGTCACGGAGTCGATCGGCGCGAATGCGGCGCTTTGGAATATTGAGCAATATGACGTCAGCCTGCGTGACGGGGCTGTGTATGTCAATGACACCCCGCTGATATTTTATCATTTTTCAGGCTTTACGCTCGTCACGGAGAACGAATTCAATCTGTGCTGGTACTATCACATTGATGACGAGGCGACAGTCAATATGATTTACGTGCCGTACATCAAAAACGTGAAAAAATGGATTGATGAAATTCAAAAAGCATTTCCCGATTTCAGAGACGGGTTTATTCCGAAATATGCGGTTCCTGACACCCATTTTTATACGGTTGAAACATAA	MVSKYHFSTIVSRTHIFKLMPMIHSLHEHCRDFHLYVLCVDQKAYELLQQVPWEHVTAVQLHEMEDPELLEAKGGRTFHEYCWTLKPAFLFHVMTEYDEAEYFAHLDTDLFFFSDAGELFAEKPDASLFLTDHRNSERFASYYKLTGQYNTGFVGARNTGEAYRAVWQWRQDCISYCTVEMNEEKKTYGDQRYVEKWPAQFEHVHVTESIGANAALWNIEQYDVSLRDGAVYVNDTPLIFYHFSGFTLVTENEFNLCWYYHIDDEATVNMIYVPYIKNVKKWIDEIQKAFPDFRDGFIPKYAVPDTHFYTVET				NA	NA	NA	NA	NA
D1-12_02708	1161			hypothetical protein	GTGAAGGCAAGCGTCATTGTTCCCGCATATAATTCCAAGGAGAGGCTTTATAACAGCCTGCTGTCCTTGAATGAACAGGAATGCACAGAGCCGTTCGAAGTGATTGTGGCTGACAACGGTTCGGAAGACGGAACCTTATCCATGCTTGAATCATTCAGCGCGAATTTCCCGCTGATTTTTGTGAGAATTAAAGAAAACAGAGGGATCGCTTACGGCCGGAATCAGGCGGTCCGCAATGCCAGAGGCGATATTTTGATCTTCCATGACAGCGACATGCTTGCCGAAAAGGATTTGGTGGCGAAGCATATTAAGGCTCATGAGAACCGGGACGATCTTGTCGTATGCGGTATGTTCTGGAAGCGGATTTACAGCTTTTATTATGACCGTTTTGAAAAAGAGCATAAGGAAAAACTCGCCGAACTGTATGAAGAGCTGCCGGGCGATAAAGAGCCGCTCCTTGAAGAAGGTGACATCAGAGACGGAAGTTTTCTTGACCAATGCTTTGATTTAGATACCGACTTTATCCGTGTGCTGAAAAGCATTTCGGAAAAATATGGAGATGATTTGAACGGCTACCGTCTGCCGTGGCGTTTTTTCATTACGAACAATTCGTCAGTCAAGAGACAGCACGTGGCAGATCTCGGCCTGTTTGATGAAGGCATTGTCAGATACGGCTTTGAAGATTATGATCTCGGCATCAGGCTTCATCAGTCGGGAATGAGATTTCAGCTGCGGCGCGATATCATGAGCGTCCATCAGGAGCATCCGAGCAACTGCGCTTCCGTTGATGACATCAGGGCGAACATCGCGTACATGTGCGACAAGTACAATGACATTCATTCGCTTGACGTGCACCTCGCGTTTAACGGCCCGTTTGACGCGGAGTTAACCAACAGCATGATGGCAGACATCGAAGTGCTGCTTGATTATGAGAAATATGAAAGCCTGCTGCACATTTTTCTCGAACTGCTGCACGCGGTTAAAGACCGCAACCTCGACCCGGACTGGAAGACGAAAAGCCCGCGGATCACGGCGAACAGCTTCAATCTGCCGGAGGTCGGAAAGCTTTTGGCAAAAGCGGAAAAAAAGCTGGGCGTCACGCACTTTGCAAGGGCGTTCAAAGCGCTGGCTGCTGATTTACTGCATGTGGATCTTAAATAA	MKASVIVPAYNSKERLYNSLLSLNEQECTEPFEVIVADNGSEDGTLSMLESFSANFPLIFVRIKENRGIAYGRNQAVRNARGDILIFHDSDMLAEKDLVAKHIKAHENRDDLVVCGMFWKRIYSFYYDRFEKEHKEKLAELYEELPGDKEPLLEEGDIRDGSFLDQCFDLDTDFIRVLKSISEKYGDDLNGYRLPWRFFITNNSSVKRQHVADLGLFDEGIVRYGFEDYDLGIRLHQSGMRFQLRRDIMSVHQEHPSNCASVDDIRANIAYMCDKYNDIHSLDVHLAFNGPFDAELTNSMMADIEVLLDYEKYESLLHIFLELLHAVKDRNLDPDWKTKSPRITANSFNLPEVGKLLAKAEKKLGVTHFARAFKALAADLLHVDLK				NA	NA	NA	NA	NA
D1-12_02709	912			hypothetical protein	GTGACAAGCGCATATTGCACAGTTTTATCAAAAGGAAGGCTGTATCAGGCCATCGCTTTGTTCGGCTCATTGAAAGCGGTTCAGGCGGACGCCCCCATTTTTACTTTGTGTATGGATCAAGACACCTATGACGTGCTTCAGGCAATGCGGCCGGATAATGTCACCTTGATTCAGGTGTCCGCACTGGAAAATGAGGAGCTCCTTGAACTGAAGCGGACGAGGGATCAGAGCGAATACTGCTGGACGGTGAAGCCGGTATTTCTCGAATTCGTGCTGGACGGACATCCGGAATTAGAGCGTGTCACGTACATTGATGCCGATTTGTTTTTCTTCGCTGATCCGCGCGCGATTTTTGACAATCAGCCGGATTGTTCGGTGCTTCTGTCACGGGGCGATATCGTCATTCCCTCATTTGAAAAACAGGAAATCGACATGCTGCAGCGTCTTTTAGGCCGGTATAATTCCGGTTTTCTCAGCTTCAAAACCGACAGTGCCGGCACAGATTGTCTCAGATGGTGGAAAGAACGCTGCCTTGAGGAATGCAAAAATGCGCCGGGCGAAGGAAAATTCGGAGATCAAGGCTACTTGGATTACATGTCCGGCCTGTTCCCGAACGTGTGTGACATCACCACGCCCGGCGTGAATATCGGCCATTGGAATTACGGCCGCCACACGTTTTCATGGAAGGACGGGCGTCTTGTGCTCGAAGACGGAAGTCCGCTGATTTTCTATCATTTCAGCGGATACCGGATCGTCACAGCCGGCGACATTCGGCAGATTCATGAGACGGACCGGACCGACCTGCCGTTTGTCCATCAGCTTTACCAGGACATTCTGAAGCGGGTGATCGGGACGGTCAGCGCCGTCTGCCCGGAGTTCAGCGGCTTTGCATCTGAGGATGATAACAAATAA	MTSAYCTVLSKGRLYQAIALFGSLKAVQADAPIFTLCMDQDTYDVLQAMRPDNVTLIQVSALENEELLELKRTRDQSEYCWTVKPVFLEFVLDGHPELERVTYIDADLFFFADPRAIFDNQPDCSVLLSRGDIVIPSFEKQEIDMLQRLLGRYNSGFLSFKTDSAGTDCLRWWKERCLEECKNAPGEGKFGDQGYLDYMSGLFPNVCDITTPGVNIGHWNYGRHTFSWKDGRLVLEDGSPLIFYHFSGYRIVTAGDIRQIHETDRTDLPFVHQLYQDILKRVIGTVSAVCPEFSGFASEDDNK				NA	NA	NA	NA	NA
D1-12_02710	903	rfbG	COG0451	CDP-glucose 4,6-dehydratase	GTGAAGGAACTGATCGATCAGGGGGCCAATGTGACGGGACTTGTCCGTGACACTGTGCCCAAGTCGAACCTGTATCAGGGAGAACAAGTGAAGCAAATGAATATCGTGCAGGGCGCGCTTGAGGATCTGGATGTGATTGAGCGGGCGCTGGGCGAATATGAAATTGACACGGTCTTTCATTTAGCCGCTCAGGCGATCGTCGGCGTCGCAAACCGCAATCCGATTTCCACATTTGAAGCCAATATTCTCGGCACATGGAACATCCTTGAAGCGTGCCGCAGGCATCCGCTCATCAAGCGGGTGATCGTCGCGTCCAGTGATAAAGCGTACGGCGACCAGCCGACACTGCCGTACGATGAAAACATGCCTCTTCAGGGCAAACATCCGTATGACGTATCAAAAAGCTGTGCCGATTTGTTAAGCCACACATATTTTAATACGTACGGACTTCCGGTCTGTATTACGCGCTGCGGCAACTTGTACGGCGGCGGAGATTTGAACTTCAACCGGATTATTCCGCAGACGATTCAGCTCGTGCTGAACGGTGAAGCGCCGGAAATCCGCAGCGACGGCACATTTATCCGTGATTATTTTTACATCGAGGATGCGGTCGAGGCATACCTTTTGCTGGCGGAAAAGATGGAGGAGCTCAATCTTGCGGGAGAAGCGTTCAACTTCAGCAATGAGATTCAGCTGACGGTGCTGGAGCTTGTAGAAAAAATTCTTAAGGCCATGGACAGTGACCTCAAGCCGAAAGTGCTCAACCAGGGAAGCCATGAAATCAAGCACCAATATTTATCGGCGGAAAAGGCGAGGAAGCTTCTGAATTGGACGCCCGCGCATACCATTGATGAAGGATTGGAAAAAACGATCGAATGGTATAAAGCCTTTTTTCAAAAGTAA	MKELIDQGANVTGLVRDTVPKSNLYQGEQVKQMNIVQGALEDLDVIERALGEYEIDTVFHLAAQAIVGVANRNPISTFEANILGTWNILEACRRHPLIKRVIVASSDKAYGDQPTLPYDENMPLQGKHPYDVSKSCADLLSHTYFNTYGLPVCITRCGNLYGGGDLNFNRIIPQTIQLVLNGEAPEIRSDGTFIRDYFYIEDAVEAYLLLAEKMEELNLAGEAFNFSNEIQLTVLELVEKILKAMDSDLKPKVLNQGSHEIKHQYLSAEKARKLLNWTPAHTIDEGLEKTIEWYKAFFQK	PGPT0019060_802	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
D1-12_02711	765	rfbF	COG1208	Glucose-1-phosphate cytidylyltransferase	ATGAAAGCAGTCATTCTCTGCGGCGGAAAAGGAACGAGAATGAGCGAAATCACCAATGAACGTCCCAAACCGCTCGCCATGATAGGCGGCAAACCGATTCTATGGCATATTATGAAACTCTATCAATACTATGGCGTGAACGAATTTATCCTGCTTCTTGGTTTCAAAGGAGAGATGATTAAGGAATATTTCTTAGATTATGACTGGAAGAATCACAGCATGACGCTGGACAGCTCTACCGGAGAAGTGCGGATATTGGGAAAATCCGAGCCGTGGAAAATCACTTTTTTAGACACGGGGGAACACACGCAGACAGCGGGGCGGCTTTTACAGGCGAAGGACATCATCGGTGATGAAACCTTTCTTATGACGTACGGGGACGGACTGGCCAACATCAACCTGTTTCATCTGATCAGCTATCATCAATCAAAAGGGGCTGCGGCAACCGTCACCGGTATAGAAAAGACCTCGCAATTCGGAACGCTGACGGTTGAAGACGGTATGGCGAAAAGCTTTTCTGAAAAAACCTCAAGTGAAGGCATCATCAACGGCGGATTTTTCGTGCTCAGCCCGAAGGTATTTGATTATCTGCCGAAAGACAGGGACGTCATGTTTGAAGAAGAACCGCTGAAGGAGCTGGCGAAGGACGGCGAATTGGCGGTATACCGGCATTACGGTTTCTGGACGGCGATCGATACGTATAAAAACCTGCTGGAAATCAACAAGATGTGGGACCGGGGACAACATGTATGGAAGGTATGGTGA	MKAVILCGGKGTRMSEITNERPKPLAMIGGKPILWHIMKLYQYYGVNEFILLLGFKGEMIKEYFLDYDWKNHSMTLDSSTGEVRILGKSEPWKITFLDTGEHTQTAGRLLQAKDIIGDETFLMTYGDGLANINLFHLISYHQSKGAAATVTGIEKTSQFGTLTVEDGMAKSFSEKTSSEGIINGGFFVLSPKVFDYLPKDRDVMFEEEPLKELAKDGELAVYRHYGFWTAIDTYKNLLEINKMWDRGQHVWKVW	PGPT0022605_1056	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
D1-12_02712	1929	ltaS1	COG1368	Lipoteichoic acid synthase 1	ATGAAGAAATTATTTTCTTACAGACTTAGTTTTTTTGTACTGGCTATTATTTTGTTTTGGGCCAAAACGTATTTAGCCTATCATGCTGAATTCAACCTTGGGGTGAAGGGTCCGACGCAGCAGTTTCTGCTTGTGATCAATCCGTTCTCAAGCGCCATTTTCTTTTTAGGACTGGCATTGTTTGCGAAAGGCCGCAAATCAGCGATTATCATGGTGATTATTGATTTCATCATGACGTTTATTTTGTATGCAAATATCCTATTCTATCGATTCTTCGATGATTTCTTGACATTCCCGAACTTAAAGCAATCCGGTAATGTCGGAAATATGGGAGACGGCATCTTCAGCATTATGTCCGGCCATGATATTTTATACTTTGTTGATATTATTATTTTAATCGCGCTTCTGGTGTGGAGACGTGAGCTGAAGGAATTCAAGCTGAAAAAACGGTATACGTCATTAATTATCGTGACGGGTATTGTTTTGTTCTTCGTGAACCTGGCGATTGCCGAAGAGGACCGCCCGGAGCTGCTGACAAGAACGTTTGACCGCAATTACATTGTAAAATACTTAGGCCTTTATAATTACACGATTTATGACGGCGTGCAGACGGCGCAGACGGAATCACAGCGGGCATATGCCAGCAGCGATGACCTGACGAGCGTTGAAAACTACACATCCTCGCATTATGCGAAGCCGAACGCCGAGTATTTCGGCAAGGCCAAAGGCAAAAACATTATTAAGATTCACTTGGAAAGTTTCCAAACGTTTTTGATCAACTACAAACTTGACGGAAAAGAAGTCACGCCGTTCCTGAATAAACTCGCCCGCGGCGGAGAGGACATGACGTACTTTGATAACTTTTTCCACCAAACAGGCCAAGGTAAAACATCTGACGCCGAGCTGATGATGGATAACAGCCTGTTCGGACTGCCTGAAGGGTCAGCCTTCGTGACAAAAGGGGAAAACACGTATCAATCGCTTCCTGCCATCCTTAACCAAAGTGAGGGCTATACAAGCGCCGTTTTACACGGTGACTACAAATCATTCTGGAACCGTGACCAGATATACAAACATATCGGCTACGATAAATTCTTTGACGCCAGCACATACGATATGTCTGATGACAACCTTGTCAATTTGGGACTGAAGGATAAACCATTCTTCAAAGAATCCATTCCGAAGCTTCAATCGCTGAAACAGCCGTTCTATGCGCATTTGCTCACGCTGACGAACCATTATCCGTTTACGCTTGATGAAAAAGACGCAACGATCGAAAAAGCGAAAACGGGCGACGCGACTGTGGATGACTATTTCCAGACGGCGCGTTATCTCGACGAGGCGCTTGAACAGTTCTTTAAAGATCTGAAGTCATCCGGTTTATATGACAACTCGGTGATTATGCTTTACGGAGACCACTACGGAATCTCTGAAAACCATAACCGCGCGATGAAAGAAATTCTCGGCAAAGAAATTACGCCTTATCAAAACGCGCAGAATCAGCGTGTGCCGCTTATGATTCGCATCCCCGGCAAAAAAGGCGGGGTGAACCATACGTACGGCGGTGAAATGGACGTTGTGCCGACGATCCTTCACTTGGAAGGCATCGATTCTAGGAAATATATTAATTTCGGCACCGATCTCTTCTCGAAAGACCATGATGATACGGTGGCGTTCCGTAACGGAGATTACGTCACGCCGAAATATACTTCCATCTCCAATGTCGTATACGATACGAAGACAGGAAAAGAACTGAAAGGCAATCAGGAAACGAAAAACCTGAAAGCCAGAGTCACAGAGCAGCTGAAGCTGTCTGACAGCGTGATGTACAAAGACCTGCTCAGATTCCACAAATTGAGCGACTTTACGCCGGTTGATCCGTCTAAATATCATTACGGCAAAGAAAAGCTGAATCAGGATAATAAATAA	MKKLFSYRLSFFVLAIILFWAKTYLAYHAEFNLGVKGPTQQFLLVINPFSSAIFFLGLALFAKGRKSAIIMVIIDFIMTFILYANILFYRFFDDFLTFPNLKQSGNVGNMGDGIFSIMSGHDILYFVDIIILIALLVWRRELKEFKLKKRYTSLIIVTGIVLFFVNLAIAEEDRPELLTRTFDRNYIVKYLGLYNYTIYDGVQTAQTESQRAYASSDDLTSVENYTSSHYAKPNAEYFGKAKGKNIIKIHLESFQTFLINYKLDGKEVTPFLNKLARGGEDMTYFDNFFHQTGQGKTSDAELMMDNSLFGLPEGSAFVTKGENTYQSLPAILNQSEGYTSAVLHGDYKSFWNRDQIYKHIGYDKFFDASTYDMSDDNLVNLGLKDKPFFKESIPKLQSLKQPFYAHLLTLTNHYPFTLDEKDATIEKAKTGDATVDDYFQTARYLDEALEQFFKDLKSSGLYDNSVIMLYGDHYGISENHNRAMKEILGKEITPYQNAQNQRVPLMIRIPGKKGGVNHTYGGEMDVVPTILHLEGIDSRKYINFGTDLFSKDHDDTVAFRNGDYVTPKYTSISNVVYDTKTGKELKGNQETKNLKARVTEQLKLSDSVMYKDLLRFHKLSDFTPVDPSKYHYGKEKLNQDNK	PGPT0023375_823	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
D1-12_02713	3204	cypD	COG0369	Bifunctional cytochrome P450/NADPH--P450 reductase 1	GTGTTAGAAAGGGTGTTATTCATGAAGGAAACAGGTCCGATTCCGCAGCCGAAGACATTCGGCCCGCTCGGCAATCTTCCTTTGCTTGATAAAGACAAGCCTACAATGTCGCTTATCAAACTGGCAAACGAGCAGGGGCCTATTTTTCAGCTGCATACGCCGGCGGGCGCCATTATCGTCGTGTCCGGCCATGAACTGGTGAAAGAGGTTTGTGATGAAGAGCGGTTCGATAAAAGCATTGAAGGGGCTTTAGAGAAAGTCCGGGCGTTTTCCGGAGACGGGCTGTTTACAAGCTGGACGCAGGAGCCTAACTGGCGAAAGGCGCATAATATTCTGATGCCGACCTTCAGCCAGCGCGCGATGAAAGATTATCATTCGATGATGACTGATATCGCGGTGCAGCTGATTCAAAAATGGGCTAGGCTGAATCCGGATGAGGCCGTTGATGTGCCTGCTGATATGACCCGCCTGACGCTCGATACGATCGGGCTTTGCGGCTTTAACTATCGGTTTAACAGCTATTACAGGGAAACGCCTCATCCGTTTATCAACAGCATGGTGCGCGCCCTTGATGAAGCGATGCACCAAATGCAGCGCCTTGATGTTCAGGATAAGCTTATGATCAGGACGAAACGCCAATTTCATCATGACATTCAGGCGATGTTTTCGTTAGTAGACAGTATTATCGCAGAGCGCCGGTCAGGCGGCCGGGATGAAAAGGATCTGCTGGCCAGAATGCTGAATGTGGAAGACCCGGAAACGGGCGAAAAACTTGATGATGAAAATATCCGGTTTCAAATCATTACGTTTTTAATTGCCGGTCATGAAACGACCAGCGGCCTGCTTTCCTTTGCCATCTACTTTCTGCTGAAACATCCCCGTGTTTTGGAAAAAGCCTATGAAGAAGCCGATCGGGTTTTGACCGATCCCGTTCCTTCATATAAACAAGTGCTGGATCTTACTTATATCCGAATGATTTTGCAGGAGTCATTGCGCTTATGGCCGACCGCGCCTGCGTTCAGCCTTTATGCGAAAGAGGATACGGTGATCGGCGGGAAATATCCGATCACGCCGAAAGACAGAATTTCCGTCTTAATTCCCCAGCTTCACCGTGATAAAGACGCGTGGGGAGACAATGCGGAGGAATTTTATCCGGAGCGGTTTGAACATCCTGATCAAGTGCCTCACCATGCGTATAAGCCGTTCGGAAACGGTCAGAGGGCGTGTATCGGTATGCAGTTCGCCCTGCATGAAGCAACCCTTGTTCTGGGGATGATTCTGCAGCATTTTACCTTTATCGATCACACCGATTATGAGCTCGATATTAAACAGACACTAACGATCAAGCCCGGCGACTTTCATATCAGGGTGCGGCCGAGAAACAAAGGAGCCGTTGCGGCAGCCCTCCCGGCGGCTGAAAAAGCGACGGAAGACGTCGAAAAAGAAAAACGGGAAACAAAAGGCGCATCTATTATCGGGCTTGATAACCGACCGCTTCTGATTTTGTACGGCTCAGATACGGGAACCGCAGAAGGCGTGGCGCGGGAGCTTGCCGATACTGCCGGGATGCATGGCGTCCGGACTGAAACGGCGCCTTTAAATGACCGGATCGGAAAACTGCCGAAAGAAGGAGCTCTCTTGATCATTACGTCCTCTTATAACGGAAAGCCTCCGAGCAACGCGGGACAATTCGTTCAATGGCTTGAAGAAGTCAAACCCGGGGAGCTGGAAGGCGTCCGATATGCCGTCTTCGGCTGCGGTGATCATAACTGGGCGGCGACATATCAGGCTGTGCCGAGGCTTATTGATGAGAAGCTTGCCGAAAAAGGGGCGGAACGCTTTTCCTCCCGAGGCGAAGGGGACGTCAGCGGCGATTTTGAAGGAAAGCTTGATGAATGGAAAAAAAGCATGTGGACGGACGCCATGAAGGCATTCGGTCTTAAGCTGAATGAAAATGCCGAAAAAGAGCGAAGTTCGCTGGGCCTTCAATTTGTCAGCGGGCTTGGCGGGTCCCCTTTGGCACAGACGTATGAAGCGGTTTACGCATCCGTTGCGGAAAACAGGGAACTTCAGGCGCCGGAAAGCGGCCGGAGCACAAGGCATATCGAAATCACTCTGCCGAAAGAGGCTGCCTATCATGAAGGGGATCATCTCGGCGTGCTGCCGGTAAACAGCAAAGAGCAGGTCAGCCGTGTTCTCCGCCGGTTCAATCTGAACGGGAATGATCAAGTGCTGCTGACGGCCAGCGGACAGAGCGCGGCTCATCTCCCGCTCGATCGGCCGGTCAGGCTGCATGATCTTCTGAGCAGCTGTGTCGAATTGCAGGAAGCGGCATCAAGGGCTCAAATCCGGGAAATGGCCGCTTATACGGTCTGCCCGCCGCACAAACGGGAATTGGAAGATTTTCTTGAGGAGGGCGTCTATCAGGAGCAAATCTTAACATTGCGCGTCTCGATGCTCGATCTCCTTGAAAAATATGAAGCGTGTGAACTTCCGTTTGAGCGATTTCTGGAGCTTTTGCGCCCGCTGAAGCCGCGGTATTATTCGATTTCAAGTTCGCCGCGGAAACATCCCGGGCAGGCCTCAATTACCGTCGGCGTCGTTCGCGGCCCCGCCCGGAGCGGTTTTGGTGAGTATCGCGGAGTCGCTTCGAATTATTTAGCGGATCGCGGCCCTGAGGATGGTATCGTGATGTTTGTCCGCACTCCGGAAACACGATTCCGGCTGCCGGAAGATCCGGAAAAACCGATTATTATGGTCGGTCCCGGCACAGGAGTCGCCCCGTTCCGCGGATTTCTGCAGGCCCGGGCGGCGTTAAAAAAAGAAGGAAAAGAGCTGGGGGAGGCTCATCTGTATTTCGGATGCAGAAACGATCATGATTTTATTTACCGTGACGAGCTTGAAGCTTATGAAAAAGACGGAATCGTGACGCTTCATACGGCTTTCTCCCGCAAAGAAGGCGTACCGAAAACGTATGTGCAGCACTTAATGGCGAAAGACGCCGGCGCTTTAATTTCCATCCTCGGCCGGGGAGGGCACCTCTACGTATGCGGCGACGGCAGCAAAATGGCGCCCGATGTAGAGGCAACGCTGCAAAAAGCGTATCAGTCGGTCCACGAAACAGACGAACGGCAAGCGCAAGAATGGCTTTTGGACCTCCAGACAAAAGGCATTTACGCAAAAGATGTTTGGGCGGGGATTTGA	MLERVLFMKETGPIPQPKTFGPLGNLPLLDKDKPTMSLIKLANEQGPIFQLHTPAGAIIVVSGHELVKEVCDEERFDKSIEGALEKVRAFSGDGLFTSWTQEPNWRKAHNILMPTFSQRAMKDYHSMMTDIAVQLIQKWARLNPDEAVDVPADMTRLTLDTIGLCGFNYRFNSYYRETPHPFINSMVRALDEAMHQMQRLDVQDKLMIRTKRQFHHDIQAMFSLVDSIIAERRSGGRDEKDLLARMLNVEDPETGEKLDDENIRFQIITFLIAGHETTSGLLSFAIYFLLKHPRVLEKAYEEADRVLTDPVPSYKQVLDLTYIRMILQESLRLWPTAPAFSLYAKEDTVIGGKYPITPKDRISVLIPQLHRDKDAWGDNAEEFYPERFEHPDQVPHHAYKPFGNGQRACIGMQFALHEATLVLGMILQHFTFIDHTDYELDIKQTLTIKPGDFHIRVRPRNKGAVAAALPAAEKATEDVEKEKRETKGASIIGLDNRPLLILYGSDTGTAEGVARELADTAGMHGVRTETAPLNDRIGKLPKEGALLIITSSYNGKPPSNAGQFVQWLEEVKPGELEGVRYAVFGCGDHNWAATYQAVPRLIDEKLAEKGAERFSSRGEGDVSGDFEGKLDEWKKSMWTDAMKAFGLKLNENAEKERSSLGLQFVSGLGGSPLAQTYEAVYASVAENRELQAPESGRSTRHIEITLPKEAAYHEGDHLGVLPVNSKEQVSRVLRRFNLNGNDQVLLTASGQSAAHLPLDRPVRLHDLLSSCVELQEAASRAQIREMAAYTVCPPHKRELEDFLEEGVYQEQILTLRVSMLDLLEKYEACELPFERFLELLRPLKPRYYSISSSPRKHPGQASITVGVVRGPARSGFGEYRGVASNYLADRGPEDGIVMFVRTPETRFRLPEDPEKPIIMVGPGTGVAPFRGFLQARAALKKEGKELGEAHLYFGCRNDHDFIYRDELEAYEKDGIVTLHTAFSRKEGVPKTYVQHLMAKDAGALISILGRGGHLYVCGDGSKMAPDVEATLQKAYQSVHETDERQAQEWLLDLQTKGIYAKDVWAGI	PGPT0006740_169	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0006740-cpxB-K14338	NA	NA
D1-12_02714	1071			hypothetical protein	ATGGATTTTGAAATCAAGTTTTTATCGTTTTATGTCATTCAAGTGGAAGGAAAAGACGAACAGGCAAACAAACAGTTCAAACATTTCCAGACCCTTGACACGGAAGAATTTGAAGAAAGCGAGCTGAAGGATTTTCTTGACGGGGAATTGAAGAAAATCGTCAAACGGAAAGCCGAACGGCATCCGCAATCCGAGCAGGTCCCCACAAAAATCGGCCATTTTATCACGGAGCCGGGCCATGAGCTTGATTCAAATCCGAATTACAACCTTTTCAACCGCGCCAGACTTGCGGATACGAAGGAAGCATTTATCGAAGCAAGCGAGCAGTTCGTCCGCACTTACCTTGACACGAGCGCCGTGCGCGGCGGTGTTTTTATCGTGGCATCGGCCGTTCCGCGCAAGTATTTTGAAGACAAATTCGTCTTTATGATGAAATGCGATTTCGAGCCGAAGGTCGCCCGCATCTCAGACGCCTCGTCTCTCATTAAAAAGGTCGAAATGGCCATCACGACAAAAAACATGAAAAGCATTCAATATCCGTATATGCCGGAAGAAGGCATGACGGAAGAGCATGAGCTGAAAATCCACCAGGCCTCGCACGCCCGTTATTTCGAAGATTTTCTCAAATTTGTCGAATACGGCGAATCGATGCCGGAAATCATGAAAAGCCAAGTCATGAACATGGTGCAGGAGCACGTGTATGAAACTTTTGAAGAAAACAGCGAAGAGCTTCAGCAGTTTGAGCACGACATTGAAATTTGGGAAGCGAGTGAAAAGCGGGAAATTCAGGAGCGCCTCGACACCCATCAAGTCATCGAGGCATCCGCGCAGATCATTGAACACACGCCGGAAGCCGAGCTGAAAATGAAAGTCGGAGAAACAGAGATTAAAGGATTACTGGCTGATTTCGGCGAATCCATCCATCTCGCAAAAGTGAACGGGCGCTATGTCGCGCTCATTGAGGCGGAGACGATCTCGTTTGAAAAAGGCAGTTCGCCGGTGGAGTTTCACAAGCCTGAGGGGCTGCATGAGGTGATTGAACGGATACGGAATAAATCTGAACAAGACTGA	MDFEIKFLSFYVIQVEGKDEQANKQFKHFQTLDTEEFEESELKDFLDGELKKIVKRKAERHPQSEQVPTKIGHFITEPGHELDSNPNYNLFNRARLADTKEAFIEASEQFVRTYLDTSAVRGGVFIVASAVPRKYFEDKFVFMMKCDFEPKVARISDASSLIKKVEMAITTKNMKSIQYPYMPEEGMTEEHELKIHQASHARYFEDFLKFVEYGESMPEIMKSQVMNMVQEHVYETFEENSEELQQFEHDIEIWEASEKREIQERLDTHQVIEASAQIIEHTPEAELKMKVGETEIKGLLADFGESIHLAKVNGRYVALIEAETISFEKGSSPVEFHKPEGLHEVIERIRNKSEQD				NA	NA	NA	NA	NA
D1-12_02715	1122	hpxO	COG0654	FAD-dependent urate hydroxylase	ATGAACCATGAAGTGAAAAAGATCATCATAGCGGGCGGAGGGATCGGCGGTCTGTCCGCAGCGATTTCTCTCGGCAGAGCGGGTTTTGAAGTGATCCTTTGCGAGGCGGCGTCCGGCATGCGAAAAAGCGGAGCGGGCATTCTCCAGCCTCAAAATGCGCTGCGGGTGCTGCGGGAAATCGGTGTGTATGATGAATGCTGCCAACACGGCTTTCAAACGGAATGGCTGAAGCAGCATGATGAAAACGGAACGCTGCAGTTTAAAGTGAGTGAGGCGTTTTTAGATGATTCATTGCCGGGGCGGAATAATATATTGCGGCAAACGTTAAACGATATCCTCAAAAAGCATGCTGAAGCGGCGGGGGTCACGATTCTTCTCGGTAAAAAAGTCGTGTCTTACGAAGAAACAGCAGATGACATAACGGTGCATTGTGCAGACGGAACCGCGATGACGGCTGACATCCTCGCCGGCTTTGACGGCATCCGCTCCGCTGTCCGCAATCAAATGCTGCAAAGAGAAGTGAAAACAGAGTATCTCGGCATGGGAGCGCACAGATTTTACATTTCTTTTCCCGAGCCGGTTTTTCATGATTCAACACTGATGTATAAAAAGGGGCAGACGCAGGTCGGAGTCGTGCCGCTCTCTGAAAAAACAGGATACGTATTTATCATCCGGCCGTATGACGCTGACTTCAGGGATGACGAGGACACGCGTTTTGAAAGGGTGAAAGACTTGCTGCACGGATTTCCGGGAGTAAAGTTTGTGACAGAGAATATGTCAAAGGAATATCCCGTTTTGTTTCATAAGATTGAGCAGATGGCGGTCAAAGAACCGTGGCACAGAGGCCGCGTCGTTCTGGGCGGGGATGCCGTCCATGCAGGAGCGCCGACATTGGCCCAGGGAGCGGCGATGGCGATTGAAGATGCGATTGTGCTTAGTGAAGAACTGCAAAAACACGAAAACCATGAAACTGCATGTCAAGCATACTTCGAAAGACGGGCGGAGCGGGCATTGCAGGTGCAGAATCTCTCATCTGAAATCGTCCGCCGCGAGATAAAGGGAACGCCCGGCGTCCAAGACATCATCAGTGAATGCTATCGATTGCTCAAAGAGCCTTATTAA	MNHEVKKIIIAGGGIGGLSAAISLGRAGFEVILCEAASGMRKSGAGILQPQNALRVLREIGVYDECCQHGFQTEWLKQHDENGTLQFKVSEAFLDDSLPGRNNILRQTLNDILKKHAEAAGVTILLGKKVVSYEETADDITVHCADGTAMTADILAGFDGIRSAVRNQMLQREVKTEYLGMGAHRFYISFPEPVFHDSTLMYKKGQTQVGVVPLSEKTGYVFIIRPYDADFRDDEDTRFERVKDLLHGFPGVKFVTENMSKEYPVLFHKIEQMAVKEPWHRGRVVLGGDAVHAGAPTLAQGAAMAIEDAIVLSEELQKHENHETACQAYFERRAERALQVQNLSSEIVRREIKGTPGVQDIISECYRLLKEPY				NA	NA	NA	NA	NA
D1-12_02716	513	mprA	COG1846	Transcriptional repressor MprA	ATGGAGTTGAGACATTTGCCGGATTACTCGCAGATTGCCGGACGCGCTGAGATTTACGCCGATATGGATGCTGAATCCTTGAAAACATTTTTGACGTTATTTGATATGTCTAAAAAAATGAATCAGGTCATGGAGCATTATTTCTCAAGTCACGGATTGTCCGAAGGGAAATTCAAAATTTTAATGTTTCTGTTTGACGCACCCGGCCACAGCCTGAGCCCGACGGAACTGGCGAAAAAATCCAATGTCACCAAAGCGACCATCACCGGGTTGATCGACGGACTCGCACGGGACGGCTTTGTAAACCGCAGCCGGCATACCGGCGACAGACGAAAAATCAGCATCGAACTCACAAAAGAAGGAAAAGAAAAGCTGATGCTGTTTCTTCCCGGCCACTTCTCCAATATTTCAGGAGTCATGGAAAGCTTCACCGCTGAACAAAAAGCGGAATTGACAAAAATGCTTGAAGTATTATTTGATAAGCTTCTGCTGTTTTCCGGCGGCAGAATATAA	MELRHLPDYSQIAGRAEIYADMDAESLKTFLTLFDMSKKMNQVMEHYFSSHGLSEGKFKILMFLFDAPGHSLSPTELAKKSNVTKATITGLIDGLARDGFVNRSRHTGDRRKISIELTKEGKEKLMLFLPGHFSNISGVMESFTAEQKAELTKMLEVLFDKLLLFSGGRI	PGPT0029235_328	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
D1-12_02717	645	yetJ	COG0670	putative protein YetJ	ATGCAAACTGCTGCTTATGAGAGCAAACAATCTATTATGCAGCGCATTATAACGGTATTTGTGTTTACACTGTTAGTTGCGACAATCGGCCTGTATACGGGCCAGTTCATTCCGCCGGCATTGATGCTGCCGCTGTCGGTCTTAGAGGTCGTCATGATCATCGCCGCGTTTTGGCTGCGCCGAAAAAAAGCCGTCGGATATGTGTTTGTGTTTTCATTCGCTTTCATTTCCGGAATGACGCTGTTTCCGATTATCAGCCATTATGCGTCCGCAGCGGGGGCCTATGTTGTATTGGAGGCATTCGGTTCTTCGTTTGTGATTTTTGCGGTGCTCGGCACGATTGGCGCTAAGACGAAAAAGGACTTGTCGTTTTTATGGTCCTTCTTGCTTGTCGCTGTTATCGCGCTTCTCGCAGTGGGGATCTTTAATATTTTCAGCCCGCTGAATTCCGCCGCCATGATGGCGTATTCCGTCATCGGAACGATTGTGTTTTCAATGTATATCTTATACGATCTGAACCAGATCAAGCACCGGGACATCACGGCTGACCTGATTCCTTTGATGGCATTGACGCTTTATATCGACTTTATTAACCTGTTTATCAACCTGCTTCGGTTTTTCGGGATTTTAAACAGTGATGATTAA	MQTAAYESKQSIMQRIITVFVFTLLVATIGLYTGQFIPPALMLPLSVLEVVMIIAAFWLRRKKAVGYVFVFSFAFISGMTLFPIISHYASAAGAYVVLEAFGSSFVIFAVLGTIGAKTKKDLSFLWSFLLVAVIALLAVGIFNIFSPLNSAAMMAYSVIGTIVFSMYILYDLNQIKHRDITADLIPLMALTLYIDFINLFINLLRFFGILNSDD				NA	NA	NA	NA	NA
D1-12_02718	303			hypothetical protein	ATGAAGCATTCAACTGTTCCTTTCCGGGAGAGCCGGTATCTGCACCTGCCCGAAGTGCGCTTTCTGCATTGGTGCACGAAGCAATACGGCATTAACAAAGGCGTGCTCAATACAATTGACGGCTGGTTTTATGATGCGGGCGTCATTCCGATTCCCGTCAGGCGTCTTTATGTGCTGGCATTCCTCGATTTCGCGAAAACGCCGGGGAAGAAGGGGAAAATCCGATTCGGGCACGGCGGTTTGACGAAAAAACTGCATGATTTCATGGATATGCAGGAGTGCGCAGCAAAACGTCAGGCCTGA	MKHSTVPFRESRYLHLPEVRFLHWCTKQYGINKGVLNTIDGWFYDAGVIPIPVRRLYVLAFLDFAKTPGKKGKIRFGHGGLTKKLHDFMDMQECAAKRQA	PGPT0008615_469	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008615-RFK|FMN1-K00861	NA	NA
D1-12_02719	174			hypothetical protein	ATGACGTCCAAAGGAAACGTAGATCCGCATGTGATCGAAAAGATTATCAGCGCGCTGGAAACGCTCGATTTCGGGACAGTTCAGATTACGGTTCATAATTCCCAAGTGACACAAATTGATAAGGTGGAGAAATATCGATTTTCCCTGAAGAGCAAAGAAGTAAAACAATCTTAA	MTSKGNVDPHVIEKIISALETLDFGTVQITVHNSQVTQIDKVEKYRFSLKSKEVKQS				NA	NA	NA	NA	NA
D1-12_02720	1071	cysA	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGGAGATTACGATCGACAGTATTTCTAAGCATTACGGAAACTATCAGGCATTGCGGGATATCAATCTTCACGTCAATAATGGCGAGCTGGTTGCGCTTCTCGGTCCGTCAGGCTCAGGCAAAACATCATTATTGAGAGTCATTGCCGGTCTTGAGCAGGCGGATGGGGGACGTGTCCTGTTCGGAAAACAAGATGTGACGGATACGCATGTGAAAAGCAGACATGTCGGTTTTGTGTTTCAGCACTATGCGTTATTCAGCAAGATGACGATTTTTGAAAATGTCGCCTACGGATTAAAAGTCCGTCCGCGAAAGCAGCGTCCCGCCAAAAAGGAAATTGCCGAAAAGGTGAGAGAGCTCCTGGCGCTTGTGAAACTGGAACCTTATGAAAAGCGCTATCCCTCGCAGCTGTCAGGCGGACAAAGACAAAGAGCCGCCCTCGCACGCGCCTTGGCCGTAGAACCGAACATTCTGCTGTTGGATGAACCGTTCGGCGCGCTTGACGCCAAAGTAAGAAAAGAGTTAAGACAATGGCTCAGACGGCTTCATGATGAATTCGGCATGACAAGTATTTTCGTAACTCACGACCAGGAAGAAGCGCTTGATGTGGCCGACCGCATCGTCATTATGAATGAAGGTGCGATTGAACAGATCGGAACGCCGCAGGAGGTGTATGATCACCCCGCAAATCCGTTTGTGTACGACTTTCTCGGCAGTGTCAACGTATTTGAAGGAAGAGTGGAGGAAGGAAAGCTGATCACCGGAAACGCGGCAATACCTGTCGGGCATGCTGATCAGGATAAGGGGATCGCTTATGTGAGGCCACACCATTTTACCGTAGAAAAAAAACCGTCCGGTCTGCATTCATTTGAAGCAAGGGCGGCTCATATTCGCGCCATCGGACCGTCCGTCAGATTGGAAGCCGTCCGTACCGACACAGGCCAGCACTTGGAGATTGAGCTCTCAAAAGAGCAATATGACGCCTTGGGGGCGGGCGTCGGTGACACGGTTTATGTCAAAGCGAAGGAAGTGAAAGTTTTCGCAAAGAAAACATATCCAAAAATTGTGTAA	MEITIDSISKHYGNYQALRDINLHVNNGELVALLGPSGSGKTSLLRVIAGLEQADGGRVLFGKQDVTDTHVKSRHVGFVFQHYALFSKMTIFENVAYGLKVRPRKQRPAKKEIAEKVRELLALVKLEPYEKRYPSQLSGGQRQRAALARALAVEPNILLLDEPFGALDAKVRKELRQWLRRLHDEFGMTSIFVTHDQEEALDVADRIVIMNEGAIEQIGTPQEVYDHPANPFVYDFLGSVNVFEGRVEEGKLITGNAAIPVGHADQDKGIAYVRPHHFTVEKKPSGLHSFEARAAHIRAIGPSVRLEAVRTDTGQHLEIELSKEQYDALGAGVGDTVYVKAKEVKVFAKKTYPKIV	PGPT0002990_900	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
D1-12_02721	864	cysW	COG4208	Sulfate transport system permease protein CysW	ATGCAGCTGGAAACAGCGAAAACAGCCGTGCCAAAGCGGGAGATGCGGGAATCACCCGTTGTGAAATGGGTGCTGATCTCAGCGGTCCTGCTCTTTTTGTCCATATTTTTAATCATGCCGCTTGCATTCATATTTATTGAAGCTTTTAAAAAGGGAGCGGAAGCATATATCCTCTTTGTCACGCATCCGGATTCCCTTGCCGCGATGAAATTAACGCTCCTCGTCGTTTTCATCACGGTTCCGCTGAACACGCTGTTCGGCGTCGCCGCGGCGTGGGCTGTGACCAAATATGAATTCAGGGGGAAAAGTCTGTTTATGACACTGATTGATCTGCCGTTTGCCGTGTCTCCGGTAATCGCGGGCTTAATCTTTGTCCTTTTGTTCGGGCTTCACGGCTGGCTTGGTCCATTTTTACTTGATCACCAGATAAAAATCGTATTCGCCGTCCCGGGAATCGTGCTTGCATCCTTGTTTGTGACGCTCCCTTTCATCGCCCGGGAATTAATACCGCTTATGCAAAGCTTAGGAAATGCTGAAGAAGAAGCCTCCGTCACGCTAGGCGCGGGAGGCTGGAGAACGTTTTGGCATGTCACGCTTCCTAATATCAAATGGGGGCTGATCTACGGGGTGATTTTAAGCGCGGCCCGGACAATCGGCGAATTCGGCGCCGTATCAGTCGTTTCCGGTCATATCAGAGGTGTTACCAACACGCTCCCGCTTCATATCGAAATTTTGTACAACGAATATCAGTTTACGGCCGCTTTTGCGGCGGCCTCCGTCATGTCGGTTTTTGCGATTGCGACACTGTTTTTGAAAAACATCATTGAATGGAAAGCCGGTTATCGTTCTGTCAAAACCGGATGA	MQLETAKTAVPKREMRESPVVKWVLISAVLLFLSIFLIMPLAFIFIEAFKKGAEAYILFVTHPDSLAAMKLTLLVVFITVPLNTLFGVAAAWAVTKYEFRGKSLFMTLIDLPFAVSPVIAGLIFVLLFGLHGWLGPFLLDHQIKIVFAVPGIVLASLFVTLPFIARELIPLMQSLGNAEEEASVTLGAGGWRTFWHVTLPNIKWGLIYGVILSAARTIGEFGAVSVVSGHIRGVTNTLPLHIEILYNEYQFTAAFAAASVMSVFAIATLFLKNIIEWKAGYRSVKTG	PGPT0003005_577	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
D1-12_02722	837	cysT	COG0555	Sulfate transport system permease protein CysT	ATGAGAACGTTACTTTTCAAAAAAACAAAACCGTCCGTGATTCCGGGTTTCGGATTAACGATGGGATTTACATTTTTATATATGGCCGTTTTGGTTATCGTGCCGCTGTCCATGGTGTTTTTTCATACGATGTCAATGGAGCCCGGGGACATCTGGCATATCATTTCTGAGCCGAGGGCCGCGGCTTCCTATCGGCTGAGCTTCTTGACGGCGGGCTGTGCCGCTTTGATCAATGCGGTTTTCGGCGTTGTCATCGCCTGGGTGCTGACGAGATATGACTTTCCGGGGAAAAGGCTGGCTGACGGCCTGGTTGATCTGCCGTTTGCGCTGCCGACCGCCGTCGCAGGCATTACATTAACGGCAATGTATTCACCGGACGGCTGGATCGGACAGCTGTTTCCTTTCCGTATTTCCTTTACGCCGATCGGCATTGTCATCGCATTGACGTTTATCGGGCTGCCTTTTGTCGTCAGGATGGTTCAGCCCGTCTTAGAAAATCTCCAAAGGGAAACGGAAGAAGCATCTGCTTCACTTGGAGCTTCGAAATGGAAAACCTTCCAAAAGGTCATTCTGCCGGAGCTTTTTCCTTCTATTATATCGGGTTTCGCATTATCTTTTGCCCGCGCTCTCGGGGAGTATGGTTCTGTCGTTTTTATCGCGGGCAATATGCCGTTTAAAACCGAGATTTCCCCGCTGATCATTATGACGAAATTAGAGCAATACGATTATGCCGGGGCAACGGCTGTTGCGGCAGTCATGCTTGTCATCACATTTTTCATTTTATTCGTCATCAATGGATTGCAATGGCTCACCGCGAGAAAATACGCAGGAAGGTAG	MRTLLFKKTKPSVIPGFGLTMGFTFLYMAVLVIVPLSMVFFHTMSMEPGDIWHIISEPRAAASYRLSFLTAGCAALINAVFGVVIAWVLTRYDFPGKRLADGLVDLPFALPTAVAGITLTAMYSPDGWIGQLFPFRISFTPIGIVIALTFIGLPFVVRMVQPVLENLQRETEEASASLGASKWKTFQKVILPELFPSIISGFALSFARALGEYGSVVFIAGNMPFKTEISPLIIMTKLEQYDYAGATAVAAVMLVITFFILFVINGLQWLTARKYAGR	PGPT0003000_1045	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
D1-12_02723	1029	sbp	COG1613	Sulfate-binding protein	ATGAAAAAAACAGCGGCATTTTTAGTATTGATCTTATTGGCAGGGGCGCTGTCAGCCTGTCAATCTGAGTCCGGCAGCGCGTCATCAGACGGAAAGACCGTTCAGATGCTGAATGTATCGTATGATCCGACCCGGGAGCTGTATAAAGAGTATAATCAGGCCTTTTCTTCCTATTGGAAAAAGAAAACGGGTCAAGATGTAACCGTTCAGCAGTCGCACGGAGGTTCGGGGAAGCAGGCCAGATCCGTAATAGACGGACTTGACGCTGATGTCGTAACGCTTGCTTTAGGTTATGACATTGATTCGATAGCAGAAAAAGCGCGACTCATTGATCAAAACTGGCAGTCACGTCTGCCGGATCAATCAACTCCTTACACGTCAACCATCGTATTCTTAGTCAGAAAAGGGAATCCGAAGCACATCAATGATTGGGCTGACTTGGTGAAAAAGGACGTTTCGGTCATTACGCCCAACCCGAAAACATCGGGCGGAGCCAGATGGAACTATTTAGCGGCATGGGCATATGCGGATGAAACGTATCATCATGACGACACGAAAATCAAACAGTTTATGAAAGACCTCTACGGCAATGTGGAAGTGCTTGATTCAGGGGCGCGCGGAGCCACGACCAGTTTTACAGAAAGAGGGATGGGGGATGTGCTGATCGCCTGGGAAAATGAGGCCTATCTCACACTGAAGGAATTCGGCAAGGAGAAATTTGAGATTGTCAATCCTTCAATCAGCATTCTGGCTGAGCCTCCTGTCTCTGTCGTCGACAAAACCGCGGATAAAAAAGGAACAAAAAAAGCGGCTGAAGCATATTTATCCTATCTCTACAGCAAAAAAGGGCAGGAGATCGCCGCGAAGAATTTTTACCGGCCCCGCGATAAAGAGCTTCTGAAAAAGTATAAAAAACAATTCCCGCAGATTAAAACGGTGACGGTCGAAAAGGAATTCGGCGGCTGGAAAAAAGCGCAGGAAACCCATTTCAATGACGGCGGAACCTTTGACAGCATCTATGAGAAATAG	MKKTAAFLVLILLAGALSACQSESGSASSDGKTVQMLNVSYDPTRELYKEYNQAFSSYWKKKTGQDVTVQQSHGGSGKQARSVIDGLDADVVTLALGYDIDSIAEKARLIDQNWQSRLPDQSTPYTSTIVFLVRKGNPKHINDWADLVKKDVSVITPNPKTSGGARWNYLAAWAYADETYHHDDTKIKQFMKDLYGNVEVLDSGARGATTSFTERGMGDVLIAWENEAYLTLKEFGKEKFEIVNPSISILAEPPVSVVDKTADKKGTKKAAEAYLSYLYSKKGQEIAAKNFYRPRDKELLKKYKKQFPQIKTVTVEKEFGGWKKAQETHFNDGGTFDSIYEK	PGPT0003015_730	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
D1-12_02724	867	rsbRD_2		RsbT co-antagonist protein RsbRD	GTGAACAAAGACCAGTTACTTCATGATTATATTATTACACATTCGGCAGAGCTGACGGAAAAATGGCTCAAGCTGAGACGGAAGCTGAGAGGGCGTTTTTATTCTGCGGATCAATTAAGTGAGGAAATGAAACGGCTGCTGATCGAGCAGCATACCTTTACAAACACGGTCATCGCAAGCGCTTTTTTGGAAGATCCGGCCGTTTTTCAGCATAACAAAGAAAAATGGGCCGCACAGGTAGCGAAAAGCAGAGTGGAGCAGGACGCGGAGGTTCATGAGGTCGTTGAGGCGATCGGCAATTCAAGAACCGTCTTTTGGGAGGCGGTCACCCGTTTTATGGATGAGCATCAGGACATCGTAACAAACGAGGATGCCCGCCGCTGGAATCACCTTGTCAACAGCTCGTTCGATCAGCTGATGACGGATTTTACTGAACAGTTTCAGACATTAATGATCGCAAGGCTGTCATCTCAGCAGGAGCTTATTTCCGAATTGAGCTGTCCGGTTATTTTGATCGCGGATACGATCGGCACTCTGCCGCTCATCGGATCGATTGATACGAGACGGGCGCGCGTGATTTTGGAGACGGTGCCGGAAAACTGTGTCGCCAAACGGATCACAAACCTTGTGATCGATCTGTCCGGTGTGCCCATTGTCGATACGATGGTGGCGCAGCAATTGTATATGCTGTCGAAAACGTTATTTCTCCTCGGCATCAGAACCGTGTTTTCCGGCATTCGGCCTGATGTGGCACAGACTTCTATCCAATTAGGGCTTGATTTTTCAGAGTATCAAACTTACGGCTCCCTGGAGCAGGCGCTCGCCAGCATGGGTGTCACATGTGTGATCGAGGAAGCAAAAGCATAG	MNKDQLLHDYIITHSAELTEKWLKLRRKLRGRFYSADQLSEEMKRLLIEQHTFTNTVIASAFLEDPAVFQHNKEKWAAQVAKSRVEQDAEVHEVVEAIGNSRTVFWEAVTRFMDEHQDIVTNEDARRWNHLVNSSFDQLMTDFTEQFQTLMIARLSSQQELISELSCPVILIADTIGTLPLIGSIDTRRARVILETVPENCVAKRITNLVIDLSGVPIVDTMVAQQLYMLSKTLFLLGIRTVFSGIRPDVAQTSIQLGLDFSEYQTYGSLEQALASMGVTCVIEEAKA	PGPT0014945_599	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
D1-12_02725	366			hypothetical protein	ATGATGATCAAAAAAATCGCGACAGTCGCCGTATACACTGATGATCAGCAAAAAGCGAAAACATTCTGGACGGAAAAAGCGGGGTTTGAAACCGTCGCCGAGCATCCGATGGGCCCGGGCGCCTTCTGGCTTGAGGTAGCGCCCAAAGGAGCCGCCACTCATTTGGTTATTTATCCGAAATCGATGATGAAAGGCGCCGAGCATATGAAGGCTTCTATCGTATTTGAGTGTGAAGATGTCTTTGCCGCATACGAACAAATGAAAAAGAACGGCATCACCTTTTTAGATGAACCGAAACAAATGGAATGGGGCAGCTTCGTGCAATTTAAAGATGAGGATGGTCATGTCTTTCTCCTGAAATCGTAA	MMIKKIATVAVYTDDQQKAKTFWTEKAGFETVAEHPMGPGAFWLEVAPKGAATHLVIYPKSMMKGAEHMKASIVFECEDVFAAYEQMKKNGITFLDEPKQMEWGSFVQFKDEDGHVFLLKS	PGPT0013300_5985	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
D1-12_02726	327	hmoA	COG2329	Heme-degrading monooxygenase HmoA	ATGTTCGTGCAAATCAGAAAAATGACCGTAAAAGAAGGACATGCCGACAAAGTAATCGAACGCTTCAGTTCAGAAGGCGTGATTGAAAAGCAGGAAGGTTTGATAGACGTAACGGTCCTGGAAAAAAAAGTCCGCCGCGGTGATGAAGAAGTCGTCGTGTTAATCCGCTGGGAGTCAGAAGATCATTGGAAACAATGGGAAAAAAGCGAAGACCACATCGCGGCCCACAAAGCAAACCAAGGCAAGCCGAAACCTGATTATATGCTTGGGACGGATGTCGGTATGTATCATGTCAGAGCCGTTAAAACAGGCGTACACGAAAAATAA	MFVQIRKMTVKEGHADKVIERFSSEGVIEKQEGLIDVTVLEKKVRRGDEEVVVLIRWESEDHWKQWEKSEDHIAAHKANQGKPKPDYMLGTDVGMYHVRAVKTGVHEK	PGPT0003630_166	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003630-hmoA-K07145	NA	NA
D1-12_02727	690			hypothetical protein	ATGGGACATTTACTTACAGTGGCTTGGGAGTTAGTATGCGGTTTGGGTATTTTATTTGTGATTTTAAAATTGCTTGGAAAAACTCAATTCTCGCAAATTACGCCGTTTGATTTTATTTCTGCGCTCATCCTCGGCGAACTGGTCGGAAATGCGGTGTATGATAAAAACGTCAGGATTATTGAAATCATTTTTGCTTCTCTGTTATGGGGAGTTTTAATTTATCTCATCGAACTGATTACGCAGAAAGTAAAAAGCACCAGAAAGCTGTTGGAAGGCGAGCCGAGTATTATCATACATAAAGGAAAACTGAAATATGATGTGCTGAAAAAGAATAAGCTGGACATTAATCAATTGCAAAGCCTTCTCAGACAGGCGAATTGCTTTTCCATACAGGAAGCGGAGTACGCGATTTTAGAAACAAACGGGATGGTCAGCGTCCTGCCGAAATTTCAATATGATACGACGAAAAACGGCGACATGCAAATAAAGCCGAAGCAGGTCTCTTTGCCGGTCACGCTGATTATTGACGGCGAAGTGCTGTATGAAAATCTGAAAGAAGCCGGGCTGGAAGAAAAGCAGCTGAATCAGGAGCTGAAAAAGCTGAACATCAAAAAAACGGAGGACGTGCTGTATGCGGAATGGAAGCCCGATAAACCGCTGTTTGTCCTGCCGTATGAGGAGAAAAAATAA	MGHLLTVAWELVCGLGILFVILKLLGKTQFSQITPFDFISALILGELVGNAVYDKNVRIIEIIFASLLWGVLIYLIELITQKVKSTRKLLEGEPSIIIHKGKLKYDVLKKNKLDINQLQSLLRQANCFSIQEAEYAILETNGMVSVLPKFQYDTTKNGDMQIKPKQVSLPVTLIIDGEVLYENLKEAGLEEKQLNQELKKLNIKKTEDVLYAEWKPDKPLFVLPYEEKK				NA	NA	NA	NA	NA
D1-12_02728	279			hypothetical protein	ATGGGGTTTTTTTATCTGATCTGTCTGGCCGCATTTTGTCTTAACTTTGCCGTATCGGCTGTGCTCCGTAAGAAATGGCCGAAAAAGATGTGGCCTGAGTGCCTTTTGGCGGTGCTGGGCCTGACTGCTTTCGGTACGGTTGTTTACAGCATTTTCGGTGTCGGCGGCTGGGAAGGAATGGGCTTGGGGCTTGCCGCGATGTTTGCGGGTTCCGGAGCGGCCGCCGGTTATGCCGCTGAGGTGTGTTTACGGGTCGTCAGATCGAATCAAAAACAGTAA	MGFFYLICLAAFCLNFAVSAVLRKKWPKKMWPECLLAVLGLTAFGTVVYSIFGVGGWEGMGLGLAAMFAGSGAAAGYAAEVCLRVVRSNQKQ				NA	NA	NA	NA	NA
D1-12_02729	534			hypothetical protein	ATGACACCATTTACGATCACGGAGGAGAAGGCGGGGGCATTCCGGGTCACCCCCGCCCGGAAGGATGATGAAAAAGAGGTCATGGATCTGCTCGTGCAAGCGGCAGAATGGCTTCGCGATAAAGGGTCGAACCAGTGGAGCGGCCTTCTGCAAGGGGAAGATACCCACAATATGCGGGAGGCGATCGCCAAAGGGTATGTTTTTTTATTCTGGCAGAATGAAGAGCTGGCAGGCGTCGTCATGCTGCTTCCCGAAGCAAGCGGGTGGGACAGACGTCTATGGGGCGATGAAGGACATGAGGAGTCCGTATATCTCCACCGGCTGGCGATTAACAGGCGGTTTGCAGGCGCGGGGCTCGGCCGGACAATCATGACTTGGGCGGAGACGGGTGTGTCTTGTCCGGGAAAAACGAAAATCCGGCTCGACTGCGTGGCTGAAAACAAGGCGCTTCAGTCGTTTTACAGCGGAATGGGGTACGAATCAAAAGGACTCGCGCCGGGTTATCATTTGTTTGAAAAAAAGGTGAGTAAATAA	MTPFTITEEKAGAFRVTPARKDDEKEVMDLLVQAAEWLRDKGSNQWSGLLQGEDTHNMREAIAKGYVFLFWQNEELAGVVMLLPEASGWDRRLWGDEGHEESVYLHRLAINRRFAGAGLGRTIMTWAETGVSCPGKTKIRLDCVAENKALQSFYSGMGYESKGLAPGYHLFEKKVSK				NA	NA	NA	NA	NA
D1-12_02730	570			Manganese catalase	ATGTGGGTATATGAAAAAAAGCTGCAGTATCCGGTTAAAGTGAGTACATGCAACCCGATGCTGGCTAAGTTTCTCATTGAACAATACGGCGGGGCGGACGGCGAATTGGCCGCAGCGCTCCGGTACTTAAACCAGCGCTACACGATTCCTGACAAGGTGATCGGCCTGCTGACGGATATCGGCACGGAGGAGTTTGCGCATTTAGAAATGATTGCGACGATGATTTATAAGCTGACAAAAGATGCGACCCCGGAGCAGCTGCGTGATGCAGGGCTCAGTGATCATTACGTCAACCATGACAGCGCGCTGTTTTATCACAATGCGGCCGGAGTTCCGTTCACAGCGTCTTACATACAGGCGAAGGGAGATCCGATCGCTGATTTATATGAGGATATTGCGGCTGAAGAAAAGGCGAGAGCGACGTATCAATGGATTATTGATATTTCCGATGATCCTGACCTGAATGATTCACTCCGTTTTCTGCGTGAGCGTGAAATCGTCCACTCTATGCGTTTCAGGGAAGCGGTTGAGATTTTAAAAGAAGAACGTGATAAGAAGAAAATTTTTTAA	MWVYEKKLQYPVKVSTCNPMLAKFLIEQYGGADGELAAALRYLNQRYTIPDKVIGLLTDIGTEEFAHLEMIATMIYKLTKDATPEQLRDAGLSDHYVNHDSALFYHNAAGVPFTASYIQAKGDPIADLYEDIAAEEKARATYQWIIDISDDPDLNDSLRFLREREIVHSMRFREAVEILKEERDKKKIF	PGPT0025185_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025185-cotJC-K06334	NA	NA
D1-12_02731	264			hypothetical protein	ATGGCGAAAAAGATTGATGATGAATACTATCGGCTGCTGGAACAAATCCAGGCGGCGGACTTTGTCTTGGTGGAGCTGACGCTTTATCTGGATACGCATCCCCATGACCGTCTCGCGCTTCAGCAGTTTCATGAATATTCCCGGTACTCAAGACAGCTGAGAAAGCGGTTTGAGCCTGAGTACGGACCGCTTCTGCAATTCGGCGTGAGTCAGGTCGGCGCTCAATGGGACTGGGGCCGCGGTCCTTGGCCATGGCAAGTATAA	MAKKIDDEYYRLLEQIQAADFVLVELTLYLDTHPHDRLALQQFHEYSRYSRQLRKRFEPEYGPLLQFGVSQVGAQWDWGRGPWPWQV	PGPT0025180_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025180-cotJB-K06333	NA	NA
D1-12_02732	249			hypothetical protein	ATGAAAGAAAATCAGCCGTTTACACCGGTCAAATCCTATAAACCCTTCCACAGCCGGTTTGATCCCTGCCCGCCGATCGGGAGAAAATACTACAGAACGCCGCCGCATCTTTATATGCGGTTTCAGCCGTATCACTTGGAGCAGTTTTCTCCGATGGAGGCATTGAGAAAAGGAACCCTTTGGAAGGATCTTTACGATTTCTATGATAATCCTTATCGGGGGGGAATCGAATATGGCGAAAAAGATTGA	MKENQPFTPVKSYKPFHSRFDPCPPIGRKYYRTPPHLYMRFQPYHLEQFSPMEALRKGTLWKDLYDFYDNPYRGGIEYGEKD	PGPT0025175_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025175-cotJA-K06332	NA	NA
D1-12_02733	870	aadK		Aminoglycoside 6-adenylyltransferase	GTGAGAAGTGAAGACGAAATGATGAAATTGATTCTTGATATTGCGATGAAGGACGAGAGAATCCGTCTTGTCACTTTAGAGGGATCAAGAACCAATAAAAATGTACCGAGAGACAGATTTCAAGACTATGATATTTCTTATTTTGTGACCGATATGGACTCCTTCACATCTGACGACAGCTGGCTGGATCAGTTTGGCGAAAGAATGATGATGCAAAAACCTGAAGATATGGAACTTTTCCCTCCGGAACTCGGAGACTGGTTCTCCTATCTAATGCTATTTAAAGATCATCATAAAATCGACTTAACTTTAATCCCTCTGAGTCAAACAGAGGATTATTTTACACAGAGTGATGGTTTGGCGGAAATAGTATTAGACAAGGATGACCGAATCAACAGTAAGATTATTGCGAGTGATGAACAATATCATATAAAGAAACCGACCTCCAGAGAGTTTGATGATTGCTGCAATGAATTTTGGATGGTTTCAACCTATGTGATTAAAGGATTAATACGTAAAGAAATACTGTTTGCGCTGGATCATATGAATGACATTTTAAGGCCTAATGTTTTGCGTATGATTGCGTGGAATATCGGGATAGAGAATCAGTTTTCATTAAGTGTAGGGAAGAATTATAAGTATATTCAACATTACATGAATGCGAAAGATTGGGAAATCCTGCTGAATACTTATGTCGGCAATACTTATGAAAGCGTGTGGAAGGCATTGTTTGACTGCCAAGGTCTCTTCAGAGCATATTCAAAGTCAGTGGCTGTTTTATTGAGATATGAATATCCTGAATATGATCAACAAATTACGGAATATACATTGAAACATTATCAGCGCTTTCAATCAGATTTTTCATTATGA	MRSEDEMMKLILDIAMKDERIRLVTLEGSRTNKNVPRDRFQDYDISYFVTDMDSFTSDDSWLDQFGERMMMQKPEDMELFPPELGDWFSYLMLFKDHHKIDLTLIPLSQTEDYFTQSDGLAEIVLDKDDRINSKIIASDEQYHIKKPTSREFDDCCNEFWMVSTYVIKGLIRKEILFALDHMNDILRPNVLRMIAWNIGIENQFSLSVGKNYKYIQHYMNAKDWEILLNTYVGNTYESVWKALFDCQGLFRAYSKSVAVLLRYEYPEYDQQITEYTLKHYQRFQSDFSL	PGPT0028695_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028695-aadK-K05593	NA	NA
D1-12_02734	258			hypothetical protein	ATGAATGAAAGAAGACCGATTTACGGCGGCGGCTATGGAGGCTACGGAGGCTACCCGGGGTACGGTTTTGGCGGCTACGGCGGCTACGGAGGCTACGGCTACCCGGGATACGGTTTTGGCGGTTACGGCGGTTTTGGCGGCTACGGCGGCTACGGCGGCTTCGGAGGATATCCGGGGTACGGTTTTGGCGGCTATGGCGGAGGCTACGGCGGCTACCCGTTCCATCATCATCATCATCGGGACAGCCAATATATCTGA	MNERRPIYGGGYGGYGGYPGYGFGGYGGYGGYGYPGYGFGGYGGFGGYGGYGGFGGYPGYGFGGYGGGYGGYPFHHHHHRDSQYI				NA	NA	NA	NA	NA
D1-12_02735	720			putative transcriptional regulatory protein	ATGGGCCGTAAGTGGAACAATATTAAAGAAAAGAAAGCATCAAAGGACGCAAATACGAGCCGGATTTACGCGAAGTTCGGCCGTGAGATTTATGTGGCTGCAAAACAAGGCGAGCCAGATCCGGAATCGAACCAGGCGTTAAAAGTGGTGCTTGAGCGCGCAAAGACGTACAGTGTGCCGAAAAATATTATTGAGCGTGCGATTGAAAAGGCGAAAGGCGGCGCGGAGGAGAACTTTGACGAGCTGCGTTACGAAGGTTTCGGGCCGAACGGTTCAATGATCATCGTTGATGCGTTAACGAATAATGTAAACCGCACGGCACCTGAAGTGCGCGCCGCATTCGGGAAAAACGGCGGAAATATGGGTGTGAGCGGGTCTGTCGCTTACATGTTTGATGCGACCGCCGTTATCGGCGTTGAAGGCAAGACGGCGGATGAAGCGCTGGAATTGCTGATGGAAGCTGATGTGGACGTGCGCGATATTTTAGAAGAGGATGACAGTGTTATCGTGTATGCTGAGCCTGATCAATTCCATGCCGTACAGGAGGCATTCAAAAATGCCGGCGTTGAAGAGTTCACGGTTGCGGAGCTGACGATGCTTGCGCAAAATGAAGTCGAGCTTCCGGAAGATGCGAAAGCTCAATTTGAAAAGCTGATCGATGTGCTAGAAGACCTCGAAGACGTACAGCAGGTTTATCACAATGTGGATTTAGGCGAATAA	MGRKWNNIKEKKASKDANTSRIYAKFGREIYVAAKQGEPDPESNQALKVVLERAKTYSVPKNIIERAIEKAKGGAEENFDELRYEGFGPNGSMIIVDALTNNVNRTAPEVRAAFGKNGGNMGVSGSVAYMFDATAVIGVEGKTADEALELLMEADVDVRDILEEDDSVIVYAEPDQFHAVQEAFKNAGVEEFTVAELTMLAQNEVELPEDAKAQFEKLIDVLEDLEDVQQVYHNVDLGE				NA	NA	NA	NA	NA
D1-12_02736	1881			hypothetical protein	ATGAAAGTTTTCGAAGCAACCACCCTCCTGGCCGCCGCCAAACAGCGCGCGGGTGAATACAAAAAACTGCGCGGCCAGATGGTTAATCTGAAAAAAGCGTTTCAAGGCATGGCTGACCTCGGTGACGGCGATTTCTCAGGCCGGGGCGCAAATAACATCAAAGCTTTTTTCAAGGACCACGCCGGCGTTACAGACAGCTGGCTTGATCTGATCGATATGAAAATCGCATTCCTCACAAGCCTTCCCGGCAAGGTCGAAGACGCCGGACTTTCCAATTCGCATGTGGAGGAATCATTTCTGGAGCATGAGCTCACCCACGCCCTCAGTAAATCAAAGGCGATTATGGAAGAGCAGAAAAAGGACATGCGCTCCATCCTCGGAGAGATCGAAGACATCATCTCGCTTGATCTGTTTTCAACCGAAAGCACAGATCAGAAGCTTTCTTCAGCTGACAAAAAAAGAAGCGAAACGATACATAAACTCGGCAAACTTGATCACGATCTAACGAAAGAATACGCAGAAACCGAAGCAAACGAACAGTTCCTCCAAGCCGACTTTCAGCAGCTCCAAAACGCCACGGGCAAAGGAAAAAGCGCCACGCCGCTTCACTACAACGCCAAAGCGTATCGAGAAAGCGACATCCATAAGAAGAAAGGCGAGATTGCAAGACATTCGGATGCTTATTTGACGATTAAAAACGAAGAAGCGAAAGAGCGGGAAATCAAGGATCTGAAGAAAAAGCTGGCCGATGGAGTCACTGATCCGGATGAGTATTTGGAAATCGCGAAGAAGATCGGCTATGAAAATCTTGAACCCGCTCAGGTGCAATATGTGATGCAGCTCGAACAAGCAAAACAGCTCGAAGAAGTCGGAGAAACGGCTTGGGATATCGTCAAAGGAATAGGCGTCGGCCTTTATGATGTCGGGAAAGACACAATAACCGGCGTCAAAGATCTGGCTGTCGGCGCATGGGATTTTTACCATCTCTCCGATGAACAAAAAGTCGCTAAAACCATATCCGGCGTATTGAACACGCCCTCTTACGCAAAAATCATATGGACAAACCTGGCGGATTCATGGAATGATAAAATGGTTAACGGGGATGCGTATTCAAGATCACATTACATCACCTACGCCATCGGGAGCATTGTCGGACTCAAAGGTTCCGGCTCAGCTGTAAAAGTATCAAGCAAGCTCGCCAAAACAGGCGCCGCCAAAGTGGATAACGTCTTGGAAGCCGGAGAAAAAGCGGCTGTAAAACATGTGAAGACCGGGATTGAAAAAGGAAAAGACTATATCAATTCCGTTTCGAAAAATAAGTACGAACCCGCGCTTGCCGGAATGGCACAGAATATTGAAAATACTCACAATGTGAAGAATACGCCTTTGTTGAAAAGTATTATTGAAGATAAAAAAGAGAGTGTGCTCAGTAAGTCTGAAACTTCTAACAGTACGGCCGTAGGTAATGTCAAACAAGGTGATAGTACCCCTCTCGCACCAGGCGGTGGCTTAGCTGCTCACGAAGCAAAAGGCGGACACCTTATAGAAAGACATGTTGGTAAGAGCGACCAAGAACTCATGGAAAGGCTTGAAAAAAGCAAAATGAGTAACAAGAAAATATCCGGATCATCATCTTTTAAGGATAGAGCAACTGCAGAAAAGGTTGCTAATATTACCTTATCAGATAATAAAGATAAAATAGAAAAATGGTTAAATAATGATGTAAAGAAACCTTTGGTACTCTCCTATAAAGGATCAGAAGTGTTAGGCCGAGGAATTACCAAAGGTTCAGCCGAAATTTCTGACTTAACTAATGCTAAAATTATATTGAAAAAGAAAAATGATGGTAGCTTTATATTAACAGGCTATCCCACGAGGTGA	MKVFEATTLLAAAKQRAGEYKKLRGQMVNLKKAFQGMADLGDGDFSGRGANNIKAFFKDHAGVTDSWLDLIDMKIAFLTSLPGKVEDAGLSNSHVEESFLEHELTHALSKSKAIMEEQKKDMRSILGEIEDIISLDLFSTESTDQKLSSADKKRSETIHKLGKLDHDLTKEYAETEANEQFLQADFQQLQNATGKGKSATPLHYNAKAYRESDIHKKKGEIARHSDAYLTIKNEEAKEREIKDLKKKLADGVTDPDEYLEIAKKIGYENLEPAQVQYVMQLEQAKQLEEVGETAWDIVKGIGVGLYDVGKDTITGVKDLAVGAWDFYHLSDEQKVAKTISGVLNTPSYAKIIWTNLADSWNDKMVNGDAYSRSHYITYAIGSIVGLKGSGSAVKVSSKLAKTGAAKVDNVLEAGEKAAVKHVKTGIEKGKDYINSVSKNKYEPALAGMAQNIENTHNVKNTPLLKSIIEDKKESVLSKSETSNSTAVGNVKQGDSTPLAPGGGLAAHEAKGGHLIERHVGKSDQELMERLEKSKMSNKKISGSSSFKDRATAEKVANITLSDNKDKIEKWLNNDVKKPLVLSYKGSEVLGRGITKGSAEISDLTNAKIILKKKNDGSFILTGYPTR	PGPT0027630_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_02737	300			hypothetical protein	ATGATTGAAACAAATATTTCTGAACCTGTATTTCAATTTTTGGGAGGGATTTTCCATCAAGATATAGACACTCCTGAGTCAGCTCTTGGAGAATACTTAGCAGAGATACCTAAAAAAGAACAAGAAAACGATGTAGTAGCACTCAAAACGTTTATAAATAGCGATTACTCAGATGAAGAAAAAAATGATTTTATAGAAGAATCTGCAGATGGTGTAGATATCAATAGTTACGGACTATCCCCAATACTATGGCTCAGACAAGTCATTCAAAAAATCGAAAAGAATATTGAGGCTTTATAG	MIETNISEPVFQFLGGIFHQDIDTPESALGEYLAEIPKKEQENDVVALKTFINSDYSDEEKNDFIEESADGVDINSYGLSPILWLRQVIQKIEKNIEAL				NA	NA	NA	NA	NA
D1-12_02738	2007	yeeF		Putative ribonuclease YeeF	ATGAAAGTTTTCGAAGCAAACAGCCTCCTCGCCGCTGCCAAACAGCGCGCGGGTGAATACAAAAAACTGCGCGGCCAGATGGTTAATCTGAAAAAAGCGTTTCAAGGTATGGCTGACCTTGGTGACAATGATTTCTCAGGCCGGGGCGCAAATAACATTAAAGCTTTTTTCAAGGACCACGCCAGCGTCACAGACAGCTGGCTTGATCTGATCGATATGAAAATCGCATTTCTCACAAGCCTTCCCGGCAAGGTCGAAGACGCCGGACTTTCCAATTCGCATGTGGAGGAATCATTTCTGGAGCACGAGCTCACCCACGCCCTCAGTAAATCAAAGGCGATTATGGAAGAGCAGAAAAAGGACATGCGCTCCATCCTCGGAGAGATCGAAGACATCATCTCGCTTGATCTCTTTTCCACCGAAAGCGTGGATCACAAGCTCCAATCAGCCGACAAAAAGAGAAACGAAACGATACATAAGCTCGGCAAGCTTGATCACGATCTAACGAAAGAATACGCAGAAACCGAAGCAAACGAACAGTTCCTCCAAGCCGACTTTCAGCAGCTCCAAAACGCCACGGGCAAAGGAAAAAGCGCAACTCCGCTTCATTACAATGCCAAGGCGTACCGTGAAAGCGACATCCATAAGAAAAAAGGCGATATCGCAAGACATTCGGATGCTTATTTGACGATTAAAAAGGAAGAAGCGAAAGAGCGGGAGATTGAAAAACTGAAAGAAAGACTGAAAAACTATGATTATGCGAATGCTGATGAATTCTACTCAATGGCCAAAACGATCGGCTATAAAAACCTGACAAAAGAACAGCAGCGCTACTTCACTCAAATTGAAAACACGCGTGAACTTACAGACGGTTTCAAAGGCGTTGCCGTCGGCCTTTATGATTCCGGAAAAGACGCGGTCACAGGCTTATGGGATATGGTCACAGATCCGGGCGGAACGGTTGAAGCCATTACAGGAGCGGTGGCTCACCCGATCAAAACGTATGAAACCATTTCAGCGGCAATTGAAGAATCGTACCAAAAAGACATGGTGAATGGCGACATCTACTCCAGAGCAAGATGGGTGTCATATGCAGTGGGCACCGTTGTGACATCAGTCGTCGGCACAAAAGGCGTCGGCGCCGTCTCAAAAACAGGCACAGCCGCCAAAGTGACAACCAAAGTCAAAACAGCAGCAAGCAAATCCGCCACAGCTCAAAAAGTGATAACGGTCTCAAAACAAACCGTTGACCACATCAAACAAAAAGTAAACACAAGCATGGAAGTATCAAAAAAACGTGTCAAAACCAAGTTAAATCAAATCGGAGATCTCACCCTGGCTGATATTCTCCCGTATCATCCGCGTCACGACTTAGTGCCGGCGGGCGTTCCTTACAACGCAGTCAACGGGGTCACACTTAAAGAAGGACTTCAGAAATTCGCCAAGGTCATCCTGCCGAAACCGTACGGAACCTCCGCAAGCGGCAGGCGGACACCGGCACCGCATGTACCGCCGGTAACAGTCAAATACGGCGAGCATTTTGCGAAATGGACCAGAAAGAAAGTATTGAAGCCGAATGTCATTTACAAAACAAAAGAAGGCTACACGTACACCACTGACAACTATGGTAGAATTACAAGTGTCAAAGCAGACTTGCAGCTGGGAGAAGCAAAACGCAACCAATATGCACAATCAAAAGCAGGTAAACCAGACCGTCTGACAGATGACGACGGAGGCCACCTAATCGCCACTCAATTCAAAGGCTCAGGCCAATTCGACAACATCGTGCCGATGAATTCTCAGATTAATAGGAGCGGCGGGAAATGGTATAAAATGGAGCAGGATTGGGCAGCGGCTTTACAAGCAGACCCTCCTCAAAAAGTATCAGTTGAAATCAACGCATTGTATAAAGGAGATTCATTAAGACCCACTGCTTTTAGGGTGAAATATAAAATTGGTGATCAAGAACCTAAACTTATGAGAATTAAAAACCAGGTCGGAGGTTAA	MKVFEANSLLAAAKQRAGEYKKLRGQMVNLKKAFQGMADLGDNDFSGRGANNIKAFFKDHASVTDSWLDLIDMKIAFLTSLPGKVEDAGLSNSHVEESFLEHELTHALSKSKAIMEEQKKDMRSILGEIEDIISLDLFSTESVDHKLQSADKKRNETIHKLGKLDHDLTKEYAETEANEQFLQADFQQLQNATGKGKSATPLHYNAKAYRESDIHKKKGDIARHSDAYLTIKKEEAKEREIEKLKERLKNYDYANADEFYSMAKTIGYKNLTKEQQRYFTQIENTRELTDGFKGVAVGLYDSGKDAVTGLWDMVTDPGGTVEAITGAVAHPIKTYETISAAIEESYQKDMVNGDIYSRARWVSYAVGTVVTSVVGTKGVGAVSKTGTAAKVTTKVKTAASKSATAQKVITVSKQTVDHIKQKVNTSMEVSKKRVKTKLNQIGDLTLADILPYHPRHDLVPAGVPYNAVNGVTLKEGLQKFAKVILPKPYGTSASGRRTPAPHVPPVTVKYGEHFAKWTRKKVLKPNVIYKTKEGYTYTTDNYGRITSVKADLQLGEAKRNQYAQSKAGKPDRLTDDDGGHLIATQFKGSGQFDNIVPMNSQINRSGGKWYKMEQDWAAALQADPPQKVSVEINALYKGDSLRPTAFRVKYKIGDQEPKLMRIKNQVGG	PGPT0027630_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YobL-YobK_TOXIN-ANTITOXIN_SYSTEM,PGPT0027630-toxin_yobL-K21487	NA	NA
D1-12_02739	477	yezG_1		putative antitoxin YezG	ATGGAGACAAAAAAAATGGGTGATCTATATCAACAGATAGCAGAAGGCATTAACGAAATCATTCCTTCTGAATGGAAAAAAGTTATTCTTTATGCTGAAATTCTCGACGATTCATCTGAGGTTTTCTTTTATTTCAATACTCCACATAGTGAAGATTTTATCTATTCTCATAACATTCCTGAGCATTTCCATGTCAGTGAGGAGATTTATGAGGGGCTGTTATTTGACTTGCATGACTTATTCGAGGAATTACGAGATGAATTTAAAGAAAACAATCAAGATATATGGACTAATTTAACACTTAATCTGGCGATAAGCGGAGAATTCTCGATAGATTATAATTATGAAGACGTTATTCAATCTCCATATACCATCTCTCAAAGACAAACAATCTGGACTTATAAAAATGTAGGAATTTATCCTAAGAGTAAACCTTTAAAATCCTTTTTAGAACAGTATCTAAATTCTCAAAATTAA	METKKMGDLYQQIAEGINEIIPSEWKKVILYAEILDDSSEVFFYFNTPHSEDFIYSHNIPEHFHVSEEIYEGLLFDLHDLFEELRDEFKENNQDIWTNLTLNLAISGEFSIDYNYEDVIQSPYTISQRQTIWTYKNVGIYPKSKPLKSFLEQYLNSQN				NA	NA	NA	NA	NA
D1-12_02740	969			hypothetical protein	TTGTTGGAAAATGAATTAAATGCATTATATAGAAGCATAGCTGAAACCGTTAACGAAATGATACCAGAACCATGGGAGAAATTTTTGTTCTATGCTCAGGTTTCAGAGACAGGCGGAGGCACTTACTTTTTTTATAATTCTCAAAATGAACCTATTCATTTTAAGTACAGTCTTGAAATTCCTTTTGAATTTGATATTGACGAAAATGAATTCGATCAGAATGAGATGGAATTATTTAAACTAAGCGAAAAAATGAGAGATGTTTTCAAAGATCATGATCAAGAATTCTTTTACTCCTTCACTCTTAGCCTAGAACGATCAGGAAAATTAACTGTCAACTTTGATTATACAGATTGGTTTAAGACAGATTATAGTTTCAGTGATCAGCTTATCATCTGGAAATTTAAAAATTTAGGAGAAGAACCTAAGGATCCATCATTACAAAAATTAACAAAAAATATTCAGAAGAATATCCTGAAAATCCAATTTAATAAAGTTGGGATAATGATGTTAGAAAAAGCTTATCTAAAAATAACTGATGTCATAGGAAAAATAATTCCTTCTGAATGGAGCAAAGTTGTTCTTTATGCAGAAATACTAGACGGCTCCAGAGAAGTGTATTTTTTCTTTCAAACACCAGAAAACGATGAATATATATACTCTCACGACATTCCAGAACAATTTCAGGTCAGTAAAAAAATTTATACCGAACTACTACTAGACCTCCAAGAGTTGTTTAAGCAGTTACACACTGAATTTAAAGAAAATAATCCCGAAGCATGGACAAATTTGACACTGAATCTTGAAAGCTCTGGAACGTTTTCAATTGATTATGATTATGAAGATGTTATTGAATCTAGTTTGGACGAATACGAAAGACAAATGATTTGGGAGTACAATAACTTGGGTATTTACCCTGAAGATGAAGAGGACAAAGAATTTGTTAAGGATTATCTAAATATTAAATAA	MLENELNALYRSIAETVNEMIPEPWEKFLFYAQVSETGGGTYFFYNSQNEPIHFKYSLEIPFEFDIDENEFDQNEMELFKLSEKMRDVFKDHDQEFFYSFTLSLERSGKLTVNFDYTDWFKTDYSFSDQLIIWKFKNLGEEPKDPSLQKLTKNIQKNILKIQFNKVGIMMLEKAYLKITDVIGKIIPSEWSKVVLYAEILDGSREVYFFFQTPENDEYIYSHDIPEQFQVSKKIYTELLLDLQELFKQLHTEFKENNPEAWTNLTLNLESSGTFSIDYDYEDVIESSLDEYERQMIWEYNNLGIYPEDEEDKEFVKDYLNIK				NA	NA	NA	NA	NA
D1-12_02741	471	yezG_2		putative antitoxin YezG	ATGGAAACTCAAAAAATGGGTGAACTATATCAAAAGATTGCTGAACATCTAAATGAAATGATTCCATCTCAATGGGAACAGATCGCTTTATATGCTGAAATACTCGATAACTCGGCGGATATATACTTTTATTTTACAACACCAAATAACAGTGATTATTTATTTTCTCATTATATACCTGAACACTTTGATGTGAGTGAAGAGATTTACGATCAACTGCTAATTGAACTTCAAGAGCTATTTGAAAAACTAAAAGAAGAATTTAAACTAGGCAACCAAGATATTTGGACTAATCTCACTTTAAAATTAGAAAACACCGGAAAGTTTTCAATTGATTATAATGATGATGATGTTTTATCCTCTGAACTTGATGACCTTCAAAGACGAGATGTTTGGAAATATCAAAATCTGGGCATATTGCCAGCTGATGAGGAAGATAGAAAATTTATAGAAGAGTATCTAAACATATAA	METQKMGELYQKIAEHLNEMIPSQWEQIALYAEILDNSADIYFYFTTPNNSDYLFSHYIPEHFDVSEEIYDQLLIELQELFEKLKEEFKLGNQDIWTNLTLKLENTGKFSIDYNDDDVLSSELDDLQRRDVWKYQNLGILPADEEDRKFIEEYLNI				NA	NA	NA	NA	NA
D1-12_02742	471	yezG_3		putative antitoxin YezG	GTGGAAACTGAAAAGATGGGAGTACTGTATCAAAAAATAGCTGAGCAAATAAATGAAATCATTCCGTCTGAGTGGGAGAAGGTTGCTCTTTATGCCGAAATTTTAGATGATTCTTCAGAAGTTTACTTCTTCTTTACTACTCCACAAAATCAGGAATATATATATTCACACGATATTCCTGAACATTTTAATGTTGATGAAGATATATATGACGAACTTCTATATGAATTGCATGATTACTTTGAAGAGTTACGGGATCAATTTAAAACAAACAACGAGGACTTATGGACAAACCTCACTTTGCATCTCGAACGAAGCGGTAAATTCTCAATTGACTACGATTACACCGATGTCATCGCCTCAGACTTAAACGGAACACAACGGCAAGTGGTATGGGAATATCAAAACTTGGGGATTTTGCCTGAAGATGAGGACGACAAAGAATTTGTAATAAGCTACTTCGGTCTATAA	METEKMGVLYQKIAEQINEIIPSEWEKVALYAEILDDSSEVYFFFTTPQNQEYIYSHDIPEHFNVDEDIYDELLYELHDYFEELRDQFKTNNEDLWTNLTLHLERSGKFSIDYDYTDVIASDLNGTQRQVVWEYQNLGILPEDEDDKEFVISYFGL				NA	NA	NA	NA	NA
D1-12_02743	141	yezG_4		putative antitoxin YezG	ATGCAAGATTTGCACCACATTATTGGTGAAAAATTAAATGACATCATACATTGTGAATGGACAAAAATATATCTTTATGCAGAAGTATTAGATGACTCTACCATGGTTCTCTATCACTTCAAGACACCAAATGTCAACTGA	MQDLHHIIGEKLNDIIHCEWTKIYLYAEVLDDSTMVLYHFKTPNVN				NA	NA	NA	NA	NA
D1-12_02744	876			hypothetical protein	ATGAAGTCTTTATCCAGTTTAATCAGCAGAAATATAAAAATATACTTCCGTGATCGAACGCTTTTGCTTCTTTCTTTGCTGTCAGTATTTATCGTCATTCTGTTATATGCCGTGTTCTTACAGCAGACACAGCTGGACGCCATTAAGGCCTTGGTCGGTTCGACAGATGATTCCAAAGCAATGGTGAACGAATGGATGGTGGCGGGATTGCTGTCCATTACAGCTGTGACAACGACTTTAGGCGCTTTCGGAATTATGGTGAAAGATAAAGAAAGTAAGAGAACGTATGACTTTTTAACAGCTCCTTTATCAAGGGCGACCATCCAATTGAGCTATGTCATTCATTCATTTGTCATCGGCTTGATCTTTTCTTTCATCGCCTTTTTAGGCTGTGAAATTTTTCTCATTTCAACAGGCAGCAAGCTTTTAAGCGGTACAGATATACTTGAAGTATTGGGGATCATTATTCTTTCAGTTGCACTGTCAAGTTCCATAAATTTATTTTTAACGCTGTTTATTCACACACAAAATGCATTTTCGACGTTAAGTACGATTGTCGGAACAGCCATCGGTTTTTTATGCGGAGTATATGTGCCGATCGGCGGCGTACCGGTGTTTGTGCAGAAGATTATTATGTATTTCCCTATCAGCCACACCGCTGTTCTGTTCAGAAAAGCGTTTATGACAGACTCAGTTGATAAAGTATTTAAACATGCTTCCACAACCCAAATACAGGAATATGAAAAGCATTACGGGATCGTCTACAAGTTAAACGGCCATTTTATCAGTACGGCTGCGAGCTTGTGGGTCATTGTCATTACAGCCATCATATTTACCGTCATATCTATTTTCATATTTAAAAAACAAAATAAATGA	MKSLSSLISRNIKIYFRDRTLLLLSLLSVFIVILLYAVFLQQTQLDAIKALVGSTDDSKAMVNEWMVAGLLSITAVTTTLGAFGIMVKDKESKRTYDFLTAPLSRATIQLSYVIHSFVIGLIFSFIAFLGCEIFLISTGSKLLSGTDILEVLGIIILSVALSSSINLFLTLFIHTQNAFSTLSTIVGTAIGFLCGVYVPIGGVPVFVQKIIMYFPISHTAVLFRKAFMTDSVDKVFKHASTTQIQEYEKHYGIVYKLNGHFISTAASLWVIVITAIIFTVISIFIFKKQNK	PGPT0028995_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028995-ABC_2_CYL_P|cylB-K11051	NA	NA
D1-12_02745	243			hypothetical protein	ATGATGTTTAAGCAAGGCGTTGATCCGACGGCATGGTTTGAAAATAAACAACTGGATTTTACGGTTAAAAACTCTATTTATTCTCTTCGTGTAGAGTCCACTCTCCATGCGCTGGACATTTTGAAAGGTCTTGAAGGAAAAATTGAATCTTTCGAGGTGATTAAAGGGAATATGGATGATGTGTTTATCCATATTATCGAGGAACAAGGAAGCAGTTTGCCAGTAAAGGGGAGCATTGCATAA	MMFKQGVDPTAWFENKQLDFTVKNSIYSLRVESTLHALDILKGLEGKIESFEVIKGNMDDVFIHIIEEQGSSLPVKGSIA	PGPT0028990_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028990-ABC_2_CYL_A|cylA-K11050	NA	NA
D1-12_02746	702	lnrL_2	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGGGAGAAGAACAAGACATTATAACAGTAACGGATCTGCGTAAAAAATATGGATCATTTGAAGCAGTGAAAGGGGTATCCTTTTCTGTCAAACGCGGCGAACTGTTTGCATTTCTGGGAACGAACGGTGCAGGGAAATCGACCACTATCGATATTCTCTGTACGCTGATTAAAAAGACATCCGGAAAAGTGGTAATAGACGGTTATACGCTTGGTGAGGGGAAAGAGAATAATCATATCCGCAAAAAGATCGGAGTTGTTTTCCAAGAGAGCATTTTGGATGAACGATTGACCGTTTATGAAAATATCATGAACCGCGGACAATATTATCATTTAAGCAAGGCACAAGTGCAAGAGAACTATCAGTTTGTAACAGACTATTTAAAATTGGATGATATTAAGGAGAAAAAATACAGCGATTTGTCAGGCGGACAAAGAAGAAGAGCTGATATTGCCCGTGCCATCATCCATAAACCGACTATATTATTTTTAGATGAGCCTACTACAGGTCTTGATCCGCAAACGAGAGTATTTGTTTGGAATGCGATTAAAAGGCTGCAGGAAGAAACAAACATGACGATCTTTTTAACGACCCATTACATGGAGGAGGCCGCTGTGGCTGATAACGTTGTGGTCATCAAAGAAGGACGTCTGATCGCAGAGGGTACAACCGAGTCAGCTGAAAGATCAATATGCGTTTGA	MGEEQDIITVTDLRKKYGSFEAVKGVSFSVKRGELFAFLGTNGAGKSTTIDILCTLIKKTSGKVVIDGYTLGEGKENNHIRKKIGVVFQESILDERLTVYENIMNRGQYYHLSKAQVQENYQFVTDYLKLDDIKEKKYSDLSGGQRRRADIARAIIHKPTILFLDEPTTGLDPQTRVFVWNAIKRLQEETNMTIFLTTHYMEEAAVADNVVVIKEGRLIAEGTTESAERSICV	PGPT0028990_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028990-ABC_2_CYL_A|cylA-K11050	NA	NA
D1-12_02747	2496			hypothetical protein	ATGAAAAAGAATATAGTTGGTCTGTCCCTGCGGTTTTTCAGCACCAATAAATTTATTACACTGACATCCATTATCGGTGTAATTTTATCTGTTTCTTTAATCATTTCTATGACCTTATTTGCATTTAATGCAAAACAGACATTAAAAGATGAAGTTTCCAAGATGTACGGAGAAATGGATTTATCTGTTGGTTATGAGAACGGAAGTCAAAAGATCATTGATAAACATTTTGTTGAAAATCTGCATCGAAATAAAAACATAGAGCAAATATCCAGTGTTTTAGTATCACAGATAAAGCTAGGAACATCTGATTCAAAGGCTAGTTTTTACACAGTTGGAGTCAATAATGACAATTTATCAAAAAGCAGGTACCATTTCACGAGAAATATAAAGAAAAATGAACTTATTGTAAACAAGGGGTTAGCTGAATCACTAGGGGTTAAGGTCGGGGATCACTTACAATCAGAAGGGAAAGACTTCAAACTTGTGGAAACAATTGAAGATCTGAACTCTACAGGCATTGCTCCCAATATCCTCCTGATTTCTCACGATACTTTGCAAAACATTATTGCAAAAAAATTCGGAAAAAACATTGAAGCTACTTACATATTGATTAAAGCAAAAAACGGAACAGACAAATTGTCATTAGCAAATGAGATTAAGAAGAAGGAAAAAGACTTAAGGATAGATATTGCAGAAGAAGATCCTTTCCTGAAAAGCAATATAGAATCATTAAGTATCTTTATCGTAGTCCTCTCTTTTTTAACTATGATTGTGACATCTTTACTCATTGTTTCTAATTTTGAAATGTTTCTCTACAAATATAAAAATCAGTTTGCGATTATGCGATCTATAGGTGCTACGGGAAGACAACTGTTTTCAATTGTTCTGCTGCAGAGCTTTTTCATAACTTCGATCGGTTCTATTCTGGGACTTGGATTTGCCATGTTTAGCAATCAGTATCTCTGGGGTTGGCTTGAAAAAATATTTTCATTTAATGTTTCTTCTGGTGTTACGTTTAATTTTAAATTAGCGGTTTTAATAATGTTGATTTGTATGACAATTATTCAACTGTTTTTACTATCGCCGACAATGAAAATAACAAAAATACTTCCGCTCAAAGTAATACAGGAAAATGAGGAAATTAATTTCAGAACATATAAGTATAATAAGTTCATTGGCAAATCTTTTGTTATTCTTAGCGTTATTACAATTTTGTTTGGGAAGTTTATACCTAAAGAGGACGGAGGACAAGTATTTTGTCTATTGCTGGCTTCTATCTTATTATTGACAGGTATATTCGTGTTATTTCCGGTTTATTTAGGGCCGTTATTAATGTTCCTCGCACCAATCATAAAGAAAATTTCAGGAGTTAATTCGTATGTGGCGATTAAAAATGTTATCCCACAGGTTAAAAAAAATACTTTTGTTATATTAACAATCAGTACGATGATGATTATAACGGTTTTTGGATCTGTAATGCTTAACACTATACAAAAAAATGAGGAAAATGCATTAAAAGAGCAGTTTCCTACCAGTGTTGTTCTAACGAGCAGACTGGGCGATAAATCTTCAATTAACGCAATTAAACTGGAAAAGGAAATAGAGGCAATAAATGGAATCAAATATACAAGCTCAATTAGCACTCAATCGTCTGGAGAATTAATGAATGGCAATGGAAGTATTACATTTGATTACTCGTTAAGTGATCTAGGAAGAATGCAGAAATTAGGAATTTTCACTGGATTGCCAGATGATAAAAAGAATATCATTGTCATTTCAGAGGATTTTGCTGGGAAGCACAGTTTAAAAATAGGAGATACTGTTGAACTTGGGAAGTACTCGGATACAGATCAAAAAATTATTAGTACTGGAAAGTATAAAATAGGGGCAATTACGAATAGATTAAAGGATTCTGATGTCTATATGGATTGGAAAGAAATAAAATACAGAACGGATGCCACTGTATTTTCTAAATTGCTTGTCCAGACAGATCATGCGAAACAGATGATTGGTAAACTTGAGAAAATGAAAGGACAGTTTCCAGAAATCCAAATCAATAGCTATAAAGAATCTTTAAAAAAATCAAAGGATATGTTTTATCAAAGATGGTCTATCTTCATTGTTGTTATATCAGTTATGCTGATAAGTATTACTATCGGTGTATTTAGTTCGCTAATTAATAATATCAATTCGAAAAGAAGAGAATTCGCTATCTTACGGACCATTTCTTTAAGCAAAAGGGGAATCATCAACGTTATACTTACGCAAATTTTGCTTTATCTTTTTATTGGCCTGCTTTTAGGTGTGCTTTCCGGTGCTTTATTAGCTGTCGTTATCTCCTTGATAGACCCCGGGAAGATATATATTAATTTTTCAATTATCGGTTTAATCTCAGGGTTTATGTTATTAATGGGACTGATTATATTCCTTCCGTTGGCAGCAAAGTTAGGAAACAAGAAAATAACTTTAGAACTTACTCAAGATAATAAGTGA	MKKNIVGLSLRFFSTNKFITLTSIIGVILSVSLIISMTLFAFNAKQTLKDEVSKMYGEMDLSVGYENGSQKIIDKHFVENLHRNKNIEQISSVLVSQIKLGTSDSKASFYTVGVNNDNLSKSRYHFTRNIKKNELIVNKGLAESLGVKVGDHLQSEGKDFKLVETIEDLNSTGIAPNILLISHDTLQNIIAKKFGKNIEATYILIKAKNGTDKLSLANEIKKKEKDLRIDIAEEDPFLKSNIESLSIFIVVLSFLTMIVTSLLIVSNFEMFLYKYKNQFAIMRSIGATGRQLFSIVLLQSFFITSIGSILGLGFAMFSNQYLWGWLEKIFSFNVSSGVTFNFKLAVLIMLICMTIIQLFLLSPTMKITKILPLKVIQENEEINFRTYKYNKFIGKSFVILSVITILFGKFIPKEDGGQVFCLLLASILLLTGIFVLFPVYLGPLLMFLAPIIKKISGVNSYVAIKNVIPQVKKNTFVILTISTMMIITVFGSVMLNTIQKNEENALKEQFPTSVVLTSRLGDKSSINAIKLEKEIEAINGIKYTSSISTQSSGELMNGNGSITFDYSLSDLGRMQKLGIFTGLPDDKKNIIVISEDFAGKHSLKIGDTVELGKYSDTDQKIISTGKYKIGAITNRLKDSDVYMDWKEIKYRTDATVFSKLLVQTDHAKQMIGKLEKMKGQFPEIQINSYKESLKKSKDMFYQRWSIFIVVISVMLISITIGVFSSLINNINSKRREFAILRTISLSKRGIINVILTQILLYLFIGLLLGVLSGALLAVVISLIDPGKIYINFSIIGLISGFMLLMGLIIFLPLAAKLGNKKITLELTQDNK	PGPT0013350_4711	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-12_02748	756	yxdL_2	COG1136	ABC transporter ATP-binding protein YxdL	ATGGCTAATAAAGTATTGGAAGTTAAAAACTTATCCAAGGTCTACAAAGGGAGTGGTTATGAAGTAACTGCATTAGACAAAGTTTCTTTTGAATTGAAGAATGGTGAACTGCTTGCAATTATGGGGACAAGCGGTTCAGGTAAAAGCACTCTTTTAAATATACTCGGTGCTCTTGATGAACCCTCAAGCGGTAAAGTTATTCTTGATGGTAAAGAAACAAATGACTTTTTTAAAGAACCTAAAGCTACGATCTATAGAAGGGATAACATTGGTTTTATCTTTCAATCTTTTAATCTATTGAAGGATCTTACAGTTGAGGAGAATATAGCTTTACCACTTGTATTAAAGGGAATAAATAAGAAGGATGCAGATAAAAAAGTAAAGGAAATGCTACAGCTTGTAAGCCTTACAAAATGGAAAAGACATCGGCCTATTCAACTTTCAGGAGGTCAGCAGCAAAGAGTTGCGATTGCCAGAGCACTGATTACTTCGCCTCCTATTGTATTAGCAGATGAGCTTACAGGAAATTTGGATTTTAATACAACACAGGATATATTAAATGTGCTTGTAGATATGAAGAAACGTCTTAATAAGAGTATGATCATAGTTACTCATGATCCGAATGTCGCGTTATATTCTGACAGAGTTTTATTTTTTCATGATGGAAATATAGTTGATGAATATAAAAGTCTTGGACAAGGAGATCTGTCGAGTATCCTTAATAAATTTCAAAAAATAATGGAGAGAGACCAATGA	MANKVLEVKNLSKVYKGSGYEVTALDKVSFELKNGELLAIMGTSGSGKSTLLNILGALDEPSSGKVILDGKETNDFFKEPKATIYRRDNIGFIFQSFNLLKDLTVEENIALPLVLKGINKKDADKKVKEMLQLVSLTKWKRHRPIQLSGGQQQRVAIARALITSPPIVLADELTGNLDFNTTQDILNVLVDMKKRLNKSMIIVTHDPNVALYSDRVLFFHDGNIVDEYKSLGQGDLSSILNKFQKIMERDQ	PGPT0013345_3892	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-12_02749	1380	rlmCD_2	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	ATGAAAATGAAACCCCCGATAGAAAAAAATGAATACTATGATGTGACATTTGAGGATTTGACGCACGAAGGAGCGGGCGTCGCAAAGGTTCAGGGCTTCCCGATCTTCGTGCCGAACGCCCTGCCTGAGGAAAAAGCGCAAATCAAAGTGACACGCGTCAAAAAAGGCTTCGCTTTCGGCCGCTTAATCGAGCTGAAGGAAGAAAGCCCGCACAGAACGGATGCCCCGTGCCCAATCTACAAACAATGCGGCGGCTGCCAGCTTCAGCACATGACCTATGAAGGCCAGCTTTTGTTTAAACAGAAACAAGTCAAAGACGTCTTAGAACGAATCGGCAAGCTGGACCTCTCAAAAGTCACCGTGCACCCGACGCTCGGCATGGAAGACCCGTGGAACTACAGAAACAAAGCGCAGGTGCCGGTAGGAGAAAGAGAAGGCGGACTCGTCGCCGGATTTTATCAGCAAAGAAGCCATGACATCATCGACATGAGCGCCTGCCTGATCCAGCAATCCAAAAATGACGAAGCCGTCCAAGCCGTCAAAGACATCTGCGCAGCATACGGTGTCAAAGCCTATAACGAAGAACGCCACAAAGGCTGGCTCCGCCACATTATGGTCAGATACGGCGTCGTCACGGGCGAAATGATGATCGTCTTCATCACAAGAACAAGCGATTTTCCGCACAAAGCGAAAATCATCGAAGACATTACGGCGCAATTCCCGCACGTCAAATCCATCGTGCAAAACATCAATCCAAACAAAACAAACGTCATCTTTGGGAACGAAACAAACGTCATCTGGGGCGAAGAATACATCTACGACCTCATCGGAGACGTCAAATTCGCCATCTCCGCCAGATCGTTCTATCAGGTCAACCCGGAACAGACAAAAGTGCTCTACGACAAAGCGCTTGAGTACGCGGAGCTGCAAGGGGAAGAAACCGTCATCGACGCCTACTGCGGCATCGGAACGATTTCTCTATTTCTGGCGAAGCAGGCGAAGAAAGTATACGGCGTTGAAATCGTGCCGGAAGCCATCGAGGATGCAAAACGCAACGCTGAGCTGAACGGCATCACGAACGCAGAATTCGCAGTCGGAGAAGCGGAAACAGTCATTCCGAAATGGTATGAAGAAGGCATCACGGCAGATACGCTAGTCGTCGACCCGCCAAGAAAAGGCTGCGACGAAGCCCTCCTGCGGACGATCATCGACATGAAACCGAAGCGGGTGGTGTATGTGTCCTGCAATCCAGGAACGCTTGCAAGAGACCTGCGGGTGCTTGAGGATGGCGGGTATCAGACGCGAGAAGTGCAGCCAGTGGATATGTTCCCGCATACGAATCATGTGGAGTGTGTGGCGCAATTAATACTAAGAAAATAA	MKMKPPIEKNEYYDVTFEDLTHEGAGVAKVQGFPIFVPNALPEEKAQIKVTRVKKGFAFGRLIELKEESPHRTDAPCPIYKQCGGCQLQHMTYEGQLLFKQKQVKDVLERIGKLDLSKVTVHPTLGMEDPWNYRNKAQVPVGEREGGLVAGFYQQRSHDIIDMSACLIQQSKNDEAVQAVKDICAAYGVKAYNEERHKGWLRHIMVRYGVVTGEMMIVFITRTSDFPHKAKIIEDITAQFPHVKSIVQNINPNKTNVIFGNETNVIWGEEYIYDLIGDVKFAISARSFYQVNPEQTKVLYDKALEYAELQGEETVIDAYCGIGTISLFLAKQAKKVYGVEIVPEAIEDAKRNAELNGITNAEFAVGEAETVIPKWYEEGITADTLVVDPPRKGCDEALLRTIIDMKPKRVVYVSCNPGTLARDLRVLEDGGYQTREVQPVDMFPHTNHVECVAQLILRK				NA	NA	NA	NA	NA
D1-12_02750	912	dagK	COG1597	Diacylglycerol kinase	ATGAAACGTGCACGCATAATATACAATCCGACTTCAGGACGGGAGCTTTTTAAGAAAAATCTTGCCCAGGTCCTGCAAAAATTTGAACAAGCCGGTTATGAAACCTCCACCCATGCCACCACATGCGCGGGGGATGCCACCCACGCCGCAAAAGAAGCCGCTTTGCGGGAGTTTGACCTGATTATCGCTGCCGGCGGAGACGGAACGATTAATGAAGTCGTCAACGGCCTCGCGCCGTTAGACACACGACCGACACTCGGCATCATTCCGGTCGGCACGACAAATGACTTCGCCAGAGCGCTGGGCATTCCGAGAGAGAATATACTGAATGCCGCTGATACCGTCATTAACGGCGTGGCCCGCCCGATCGACATCGGACAGGTGAACGGTCAGTATTTTATCAACATCGCCGGCGGAGGCCGTCTGACGGAGCTGACGTATGATGTGCCAAGCAAACTGAAAACGATGCTCGGCCAGCTTGCTTATTATTTAAAGGGAATGGAAATGCTGCCTTCACTTCGACCGACAGAAGTCGAGATTGAATATGACGGCAAGCTGTTTCAAGGCGAAATTATGCTGTTTTTAGTGACGCTGACCAACTCGGTCGGCGGATTCGAGAAGCTGGCCCCTGATTCCAGCCTGAATGACGGCATGTTTGATTTGATTATTTTGAAAAAAGCCAATCTCGCGGAGTTTATCAGAGTCGCGAGCATGGCGCTCAGAGGCGATCATATTAACGATCAGCACATTATTTACACAAAAGCGAACCGTGTGAAAGTCAATGTATCAGAAAAGATGCAGCTGAACCTGGACGGCGAGTACGGCGGCATGCTGCCGGGCGAATTCGTGAACCTGTACCGGCATATTCATGTCATCATGCCGAAAGAGAAAGCGGAACAGCTGGATGATTAA	MKRARIIYNPTSGRELFKKNLAQVLQKFEQAGYETSTHATTCAGDATHAAKEAALREFDLIIAAGGDGTINEVVNGLAPLDTRPTLGIIPVGTTNDFARALGIPRENILNAADTVINGVARPIDIGQVNGQYFINIAGGGRLTELTYDVPSKLKTMLGQLAYYLKGMEMLPSLRPTEVEIEYDGKLFQGEIMLFLVTLTNSVGGFEKLAPDSSLNDGMFDLIILKKANLAEFIRVASMALRGDHINDQHIIYTKANRVKVNVSEKMQLNLDGEYGGMLPGEFVNLYRHIHVIMPKEKAEQLDD	PGPT0024345_1458	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-12_02751	3144	swrC	COG0841	Swarming motility protein SwrC	ATGAACCACATTATTAACTTTGTACTGAAGAACAAATTCGCAGTTTGGCTGATGACGATTATCGTTACTGTAGCAGGGCTGTATGCCGGTATGAATATGAAGCAGGAATCCATACCGGACGTCAACATGCCTTACCTTTCAGTAAATACGACTTATCCCGGAGCTGCTCCGAGTCAAGTTGCGGATGACGTGACAAAACCGATCGAGCAGGCGGTCCAGAATTTAGAAGGAGTGAGCGTCGTAACGTCCACATCCTCTGAAAACGTCTCATCGGTTATGATTGAATATGATTACAGCAAGGATATGGACAAGGCGAAAACCGAAGTCGCTGAAGCGCTGGACAGTGTCAGCCTTCCTGACGACGCGAAAAAACCTGACATTTCCCGTTACAGCCTCAACTCTTTCCCGATTTTGACGCTCAGTGTGACAAGCGGCAAAAGCTCGCTTGAAGACCTGACCAAAAATGTGGAAAACACTCTCGTTCCTAAGCTTGAAGGCATTCAGGGCGTTGCGTCCGTGCAAGTTTCCGGACAGCAGGAAGAGCAGGTGGAATTCTCTTTCAAAGACAAAAAAATGAAAGAGTACGGACTTGATGAAGATACCGTCAAGAAAGTGATCCAAGGCTCTGACGTCAATACGCCGCTTGGATTGTACACATTCGGCAACAAAGAAAAATCAGTTGTCGTTAACGGAAATATTACGTCAATTAAAGATCTGAAAGATATGAGAATTCCGATCACATCTTCTTCTGCCGCTCAAGGTCAAGCGGGCGGAGCCGGTGCGGCATCTGCGGCGGACGCTCAGGCTATGCAGCAGGCACAGCAAAGCGCGGCAGCAGGGGTGCCGACAGTCAAGCTTTCTGACATTGCCGACATTAAAGATGTGAAAAAAGCTGAATCCATTTCCCGCACGAACGGAAAGGACAGCATCGGAATTAATATCGTAAAAGCCAATGACGCCAACACGGTAGAAGTGGCCGATGCGATTAAAGATGAACTGAATCAATACAAAAAAGACCACAAAGGGTTCAAGTATAGCTCGACTCTTGATATGGCAGAGCCGATTACAGAGTCGGTGGATACGATGTTAAGCAAAGCGATTTTCGGCGCGATTTTTGCGGTCGTGATCATTCTCTTATTCTTAAGAGATATTAAATCAACGATGATTTCTATCATTTCCATCCCGCTGTCACTGCTGATTGCGCTTCTTGTGCTGAATCAGCTTGATGTCACATTGAACATAATGACGCTCGGTGCAATGACGGTCGCCATCGGACGGGTAGTCGACGACTCGATTGTCGTGATCGAAAACATTTACCGCCGCATGAGGCTGAAAGATGAACCTTTACGCGGGAAGCAATTGGTGCGTGAAGCGACGAAAGAAATGTTTAAACCGATCATGTCATCAACGATCGTAACCATTGCCGTATTCCTGCCGCTTGCCATGGTCGGCGGACAGATCGGCGAACTGTTTATGCCGTTTGCATTAACAATCGTCTTCGCGCTTGCCGCATCGCTGTTGATTTCGATCACACTGGTGCCGATGCTTGCGCACAGCTTATTCAAAAAATCGCTCACAGGCGCGCCTGTTAAAGCGAAAGAGCATAAGCCGGGCAGATTGGCCAATTTCTATAAAAAAGTGCTGAATTGGTCATTAAGACATAAATGGATTACATCTATCATCGCGGTTCTGATGCTTGTCGGCAGTTTGTTCCTCGTACCTCTGATCGGCGCGAGCTACCTGCCTGCGCAAGCGGACAAAACGATGCAGCTCACATACACGCCTGAACCGGGCGAAACGAAAAGCGAAGCTGAAAAAGCTGCGCAAAAAGCGGAAGACATGCTGCTTAAACGCAAACATGTCGATACCGTTCAGTATTCATTAGGCTCGCAAAGTCCGCTCGGCGGAAGCTCAAACGGCGCATTGTTCTACGTGAAATACGAGGATGACACGCCTGATTTTGACAAAGAAAAAGACAATGTCTTAAAAGAAATCAAAAAAACATCCAGCCGCGGCGAATGGAAATCACAAAATTTCAGTTCGTCAGGCAACAACAACGAATTAACGTACTATGTGTACGGAGATTCAGAGTCTGATATTAAAGGCACGGTCAAAGACATCGAAAGCATCATGAAAAAGCAGAAAGATCTGAAAGACGTCAACTCAGGCCTTTCCAGCACATATGATGAGTACACGTTCACCGCTGACCAGGAGAAACTCAGCAAGCAGGGCCTGACGGCTTCGCAAATCTCCCAAGCCCTGATGTCCCAAACGTCACAGTCTCCTTTGACAACGGTGAAAAAGGACGGCAAAGAGCTTGACGTCAACATCAAAACAGAAAAAGACCAGTATAAGAGTGTAAAAGAATTAGAGGATAAAACCATCACATCGCCTGCAGGCCAAGAAGTAAAAATCGGCGATGTGGCGAAAGTGAAAAATGGCACGACATCCGATACCATTTCCAAACGCGACGGCAAAGTGTACGCTGACGTAACGGCAACCGTCACTTCTGACAACGTCACGAAGGTGTCATCAGCCGTTCAAAAGAAAGTTGACAAACTGGATAAGCCGGACAATGTATCGATTGATACCGGCGGTGTATCAGCGGATATTGCTGATTCCTTTACGAAACTCGGCTTAGCGATGCTTGCCGCAATCGCCATCGTATACCTCGTTCTTGTGATCACGTTCGGCGGAGCATTAGCACCGTTTGCGATTCTGTTCTCGCTTCCGTTTACAGTCATCGGCGCATTAGCCGGCCTGTATGTATCCGGAGAGACGATCAGTCTGAATGCCATGATCGGTATGCTGATGCTGATCGGAATCGTCGTCACAAACGCGATTGTCTTAATTGACCGCGTCATCCATAAAGAAGCGGAAGGCTTATCGACGAGAGAAGCGCTCCTGGAAGCCGGCTCTACGAGATTACGTCCGATTCTGATGACGGCGATCGCGACAATCGGCGCCCTGCTTCCATTGGCACTGGGCTTCGAAGGCGGAAGCCAGGTCATTTCTAAAGGACTCGGTGTCACCGTTATCGGCGGTTTAATCAGTTCGACTCTGCTTACCCTTCTGATTGTGCCGATCGTATATGAAGTATTGGCGAAATTCCGTAAGAAAAAACCTGGAACGGAAGAAGAGTAA	MNHIINFVLKNKFAVWLMTIIVTVAGLYAGMNMKQESIPDVNMPYLSVNTTYPGAAPSQVADDVTKPIEQAVQNLEGVSVVTSTSSENVSSVMIEYDYSKDMDKAKTEVAEALDSVSLPDDAKKPDISRYSLNSFPILTLSVTSGKSSLEDLTKNVENTLVPKLEGIQGVASVQVSGQQEEQVEFSFKDKKMKEYGLDEDTVKKVIQGSDVNTPLGLYTFGNKEKSVVVNGNITSIKDLKDMRIPITSSSAAQGQAGGAGAASAADAQAMQQAQQSAAAGVPTVKLSDIADIKDVKKAESISRTNGKDSIGINIVKANDANTVEVADAIKDELNQYKKDHKGFKYSSTLDMAEPITESVDTMLSKAIFGAIFAVVIILLFLRDIKSTMISIISIPLSLLIALLVLNQLDVTLNIMTLGAMTVAIGRVVDDSIVVIENIYRRMRLKDEPLRGKQLVREATKEMFKPIMSSTIVTIAVFLPLAMVGGQIGELFMPFALTIVFALAASLLISITLVPMLAHSLFKKSLTGAPVKAKEHKPGRLANFYKKVLNWSLRHKWITSIIAVLMLVGSLFLVPLIGASYLPAQADKTMQLTYTPEPGETKSEAEKAAQKAEDMLLKRKHVDTVQYSLGSQSPLGGSSNGALFYVKYEDDTPDFDKEKDNVLKEIKKTSSRGEWKSQNFSSSGNNNELTYYVYGDSESDIKGTVKDIESIMKKQKDLKDVNSGLSSTYDEYTFTADQEKLSKQGLTASQISQALMSQTSQSPLTTVKKDGKELDVNIKTEKDQYKSVKELEDKTITSPAGQEVKIGDVAKVKNGTTSDTISKRDGKVYADVTATVTSDNVTKVSSAVQKKVDKLDKPDNVSIDTGGVSADIADSFTKLGLAMLAAIAIVYLVLVITFGGALAPFAILFSLPFTVIGALAGLYVSGETISLNAMIGMLMLIGIVVTNAIVLIDRVIHKEAEGLSTREALLEAGSTRLRPILMTAIATIGALLPLALGFEGGSQVISKGLGVTVIGGLISSTLLTLLIVPIVYEVLAKFRKKKPGTEEE	PGPT0016195_929	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
D1-12_02752	849			hypothetical protein	ATGAACGAAAAAAAAGAGAAAATCATAAAAACAGGCATCCATTTATTTGCCAAAAAAGGGTTTTCTTCAACAACCATTCAGGAAATCGCCGGTGAATGCGGAATTTCAAAAGGAGCCTTCTATCTCCATTTCAAATCAAAAGAAGACCTTTTGCTGTCAGCATGTGAGTATTACATCGGCATGTCCATGGAAGAAATAAAGAAAATCAAAACAGAACATCAGCATAAACCGCCTAAGGACGTATTTCGAAAACAAATCGCTTATCAATTCCAGGAATTTATGGAGCACAAGGACTTTATCATTCTCTTGCTGAGCGAAAAGGTCATTCCTGAAAATCAAAAGGTCAAGCAGTATTTTCATGAGGCCAATATTCAATTTAACATGCTGTATCGGGATGCGTTGCTCTCCGTTTACGGAGATGCCGTCACACCGTTTTTAGCGGACGCGTCCGTTATGGCGCAAGGAATTGTGAGCTCCTATATTCATTTCTTGATTTTTAATGAACATACGGCATTCCGGACGGAAAACGTGGCGGCCTTTCTGATTGCCAGAATCGATGATCTGATTACGGGACTGATAAAAGACAATCCCGATCCGCTGCTGCCTGAGGATATCTTCACTCAGCCCGCGGCGGATAGAGAAAGACTGCTTGCGGATATTCAAAAGATAAAAGCACAGCAGGGGCTGCCTGAGGACGTCCTCGTATCGCTTGAAGTCATTGAAGAGGAATGCGCAAAGGAAGAGCCGCGAAAACCGATTATTAAAGGAATGCTGTCCAACTTGGCAGGCAGCGGAAATGAGCAGATTGAAACGCTGCGGGCTTCCATTGAAACCTATTTCAGCTTATAA	MNEKKEKIIKTGIHLFAKKGFSSTTIQEIAGECGISKGAFYLHFKSKEDLLLSACEYYIGMSMEEIKKIKTEHQHKPPKDVFRKQIAYQFQEFMEHKDFIILLLSEKVIPENQKVKQYFHEANIQFNMLYRDALLSVYGDAVTPFLADASVMAQGIVSSYIHFLIFNEHTAFRTENVAAFLIARIDDLITGLIKDNPDPLLPEDIFTQPAADRERLLADIQKIKAQQGLPEDVLVSLEVIEEECAKEEPRKPIIKGMLSNLAGSGNEQIETLRASIETYFSL				NA	NA	NA	NA	NA
D1-12_02753	1431	gatB	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	GTGAACTTTGAAACGGTAATCGGACTTGAAGTCCATGTGGAATTAAAAACAAAATCTAAAATTTTCTCAAGCTCACCGACGCCATTCGGCGCGGAAGCGAATACCCAAACGAGCGTCATCGACCTCGGCTATCCCGGCGTGCTGCCCGTTTTGAACAAAGAAGCGGTCGAATTCGCGATGAAAGCCGCAATGGCTTTGAACTGCGAAATCGCAACGGATACGAAGTTTGACCGGAAAAACTATTTCTATCCGGACAACCCGAAGGCATATCAAATTTCTCAATTTGACAAGCCGATCGGCGAAAACGGCTGGATCGAAATCGAAGTCGGCGGAAAAACGAAAAAAATCGGCATTACCCGTCTTCACCTTGAAGAAGATGCGGGAAAGCTGACGCATACGGGCGACGGCTATTCCCTCGTTGACTTCAACCGCCAGGGCACGCCGCTTGTCGAGATTGTATCTGAGCCGGATATCCGCACACCGGAGGAAGCTTACGCATATCTCGAAAAGCTGAAATCAATTATTCAATACACAGGCGTTTCCGACTGTAAAATGGAAGAAGGTTCACTGCGTTGTGACGCCAACATTTCCCTCCGTCCGATCGGCCAGGAGAAATTCGGCACAAAAACGGAGCTGAAAAACCTGAACTCCTTCGCGTTCGTGCAAAAAGGACTTGAGCATGAAGAAAAACGCCAAGAGCAGGTGCTTCTGTCAGGCGGAGTCATTCAGCAGGAGACGCGCCGCTACGATGAAGCGACGAAAAAAACCATTTTGATGCGTGTCAAAGAAGGTTCGGACGACTATCGCTATTTCCCTGAGCCTGACCTTGTCGAGCTCTACATTGATGACGAATGGAAAGAACGCGTAAGAGCAACCATTCCTGAGCTTCCGGACGAGCGCCGCAAGCGTTATATCGAAGAGCTCGGCCTGCCTGCTTATGACGCAATGGTTCTGACGCTGACGAAAGAAATGGCTGATTTCTTCGAAGAAACGGTCAATAAAGGCGCAGAAGCCAAGCAGGCATCAAACTGGCTGATGGGTGAAGTCTCAGCTTACCTGAACGCCGAACAAAAAGAGCTTGAGGATGTCGCGCTGACTCCTGAAGGCCTTGCCGGCATGATTAAGCTGATTGAAAAAGGAACCATCTCGTCCAAAATCGCGAAGAAAGTCTTTAAAGAATTAATTGAAAAAGGCGGCGACGCAGAAAAAATCGTCAAAGAAAAAGGCCTCGTGCAGATTTCTGACGAAAGCGTGCTTCTGAAGCTGGTAACAGATGCGCTTGACAGCAACCCGCAGTCAATTGAAGACTTCAAAAACGGAAAAGACCGCGCGATCGGCTTCCTTGTCGGGCAGATTATGAAAGCCTCAAAAGGACAGGCCAACCCGCCGATGGTCAACAAGATCTTACTTGAAGAAATCAAAAAACGATAA	MNFETVIGLEVHVELKTKSKIFSSSPTPFGAEANTQTSVIDLGYPGVLPVLNKEAVEFAMKAAMALNCEIATDTKFDRKNYFYPDNPKAYQISQFDKPIGENGWIEIEVGGKTKKIGITRLHLEEDAGKLTHTGDGYSLVDFNRQGTPLVEIVSEPDIRTPEEAYAYLEKLKSIIQYTGVSDCKMEEGSLRCDANISLRPIGQEKFGTKTELKNLNSFAFVQKGLEHEEKRQEQVLLSGGVIQQETRRYDEATKKTILMRVKEGSDDYRYFPEPDLVELYIDDEWKERVRATIPELPDERRKRYIEELGLPAYDAMVLTLTKEMADFFEETVNKGAEAKQASNWLMGEVSAYLNAEQKELEDVALTPEGLAGMIKLIEKGTISSKIAKKVFKELIEKGGDAEKIVKEKGLVQISDESVLLKLVTDALDSNPQSIEDFKNGKDRAIGFLVGQIMKASKGQANPPMVNKILLEEIKKR				NA	NA	NA	NA	NA
D1-12_02754	1458	gatA		Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGTCATTATTTGATCACAAAATCACAGAACTGAAACAAATGATACATAAAAAAGAAATCAAGATTTCCGATCTTGTTGATGAATCTTACAAACGGATCGCATCCGTGGATGATAAGGTGCAGGCGTTTTTACAGCTTGATGAAGAAAGAGCCCGCGCTTACGCGAAAGAACTTGACGAAGCGGTTGACGGACGGTCTGAACACGGTCTTCTCTTCGGAATGCCGATCGGCGTCAAAGACAACATCGTGACCAAAGGGCTTCGCACAACATGCTCAAGCAAAATCCTCGAAAACTTCGATCCGATTTACGATGCGACGGTCGTGGAGCGCCTTCAAGCCGCTGAAGCCGTCACGATCGGAAAGCTGAATATGGACGAGTTCGCAATGGGTTCTTCTACTGAAAACTCCGCGTACAAAGCGACGAAAAACCCTTGGAATCTCAATACGGTTCCCGGCGGATCAAGCGGCGGTTCCGCAGCTGCGGTTGCCGCGGGCGAAGTGCCGTTTTCACTCGGATCTGATACGGGCGGCTCCATCCGCCAGCCGGCTTCTTTCTGCGGCGTCGTCGGATTAAAGCCTACATACGGACGCGTGTCGCGTTACGGTTTGGTCGCTTTTGCGTCTTCACTGGACCAGATCGGGCCGATCACAAGAACCGTAGAAGATAACGCATTCCTGCTTCAGGCGATTTCAGGCCCGGACAAAATGGACTCTACGAGCGCCAATGTCGAAGTGCCGGATTTTCTTTCCTCATTAACTGGCGATATTAAAGGCTTAAAAATCGCCGTACCGAAAGAATATCTCGGAGAAGGCGTCGGCAAAGAAGCGAAAGAATCGGTTTTAGCCGCTTTAAAAGTGCTTGAAGACCTCGGAGCGACATGGGAAGAAGTATCTCTGCCGCACAGCAAATACGCGCTTGCGACGTATTATCTGCTGTCTTCTTCCGAAGCGTCTGCAAACCTTGCGCGCTTTGACGGCATCCGCTACGGCTACCGCTCAGACAATGCGGACAACCTGATCGACCTTTATAAACAGACACGCTCTGAAGGCTTCGGCAATGAAGTGAAGCGCCGCATCATGCTCGGCACCTTCGCGCTCAGCTCCGGCTACTATGATGCATATTACAAAAAAGCGCAAAAAGTGCGCACGCTTATTAAGAAAGATTTTGAAGACGTATTTGAGAAATACGATGTCATCGTCGGACCGACAACGCCGACACCGGCATTCAAAATCGGCGAAAAAACCAGCGATCCGCTCACAATGTACGCCAACGATATTTTAACGATCCCTGTCAACCTCGCGGGTGTGCCGGGAATCAGCGTGCCGTGCGGATTTGCGGACGGGCTGCCGCTCGGATTGCAAATCATCGGAAAACACTTCGATGAAGGCACTGTATACCGCGTCGCTCATGCTTTTGAGCAGGCAACAGATCATCATAAAGCGAAACCTGAACTGTAA	MSLFDHKITELKQMIHKKEIKISDLVDESYKRIASVDDKVQAFLQLDEERARAYAKELDEAVDGRSEHGLLFGMPIGVKDNIVTKGLRTTCSSKILENFDPIYDATVVERLQAAEAVTIGKLNMDEFAMGSSTENSAYKATKNPWNLNTVPGGSSGGSAAAVAAGEVPFSLGSDTGGSIRQPASFCGVVGLKPTYGRVSRYGLVAFASSLDQIGPITRTVEDNAFLLQAISGPDKMDSTSANVEVPDFLSSLTGDIKGLKIAVPKEYLGEGVGKEAKESVLAALKVLEDLGATWEEVSLPHSKYALATYYLLSSSEASANLARFDGIRYGYRSDNADNLIDLYKQTRSEGFGNEVKRRIMLGTFALSSGYYDAYYKKAQKVRTLIKKDFEDVFEKYDVIVGPTTPTPAFKIGEKTSDPLTMYANDILTIPVNLAGVPGISVPCGFADGLPLGLQIIGKHFDEGTVYRVAHAFEQATDHHKAKPEL				NA	NA	NA	NA	NA
D1-12_02755	291	gatC		Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C	ATGTCACGAATTTCTATAGAAGAAGTAAAGCATGTCGCTCATTTGGCGAGACTCGCCATTACGGATGAAGAAGCTGAAATGTTCACAGAACAGCTTGACAGCATCATCTCGTTTGCCGAGGAGCTTAATGAAGTGGACACGGATAACGTGGAACCGACAACACACGTGCTGAAAATGAAAAACGTAATGAGAGAAGATGAAGCGGGTAAAGGCCTTCCGGTCGAGGATGTCATGAAAAATGCTCCCGATCATAAAGACGGCTATGTCCGTGTGCCATCTATTCTGGATTAA	MSRISIEEVKHVAHLARLAITDEEAEMFTEQLDSIISFAEELNEVDTDNVEPTTHVLKMKNVMREDEAGKGLPVEDVMKNAPDHKDGYVRVPSILD	PGPT0023460_2137	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
D1-12_02756	1479	opuE	COG0591	Osmoregulated proline transporter OpuE	GTGAGTATTGAATTAATTATATCTCTTGGCATTTACTTTGCTGCCATGCTGTTAATCGGCTGGTACGCATTCAGGAAGACAACGAATATTAATGATTACATGCTGGGCGGAAGAGGACTAGGCCCGTTCGTAACGGCGCTGTCCGCAGGTGCGGCCGATATGAGCGCATGGATGCTGATGGGAGTTCCCGGCGCAATGTTCGCAACGGGGTTATCGACCTTATGGCTGGCGCTCGGTTTGACGATCGGCGCGTATTCAAATTATCTGCTGCTTGCTCCGAGGCTGCGCGCTTACACGGAAGTTGCGGATGATGCGATTACGATTCCCGATTTTTTCGATAAACGGTTCCGCCACTCGTCATCATTGCTGAAAATTGTTTCCGCCGTGATTATTATGATCTTTTTCACACTGTACACATCGTCCGGGATGGTATCCGGAGGCAGGTTATTTGAATCGGCATTCGGCGCCGACTACAAATTCGGTTTGTTTTTAACGGCCGGTGTTGTTGTGCTTTACACGCTGTTTGGCGGTTTCCTCGCTGTCAGTCTGACTGACTTTGTACAGGGAGCGATCATGTTTGCGGCATTAGTGCTTGTGCCGATCGTTGCTTTTACCCAGCTCGGGAGCGTTTCAACGACGATTGATTCGATCAACGCCGTTAACCCGAAACTATTGGATATCTTTAAAGGCGCGAGCGTCATTAGCATTATTTCTTATTTGGCATGGGGACTGGGCTATTACGGCCAGCCTCATATCATCGTACGATTTATGGCGATTAAAGAAGTGAAAGATTTAAAACCCGCCCGCAGAATCGGGATGAGCTGGATGGTTATTTCAGTTGTCGGCTCATTGCTTACCGGGATTATCGGGGTTGCGTATTCTCATCACTTCGGGGTCTCCGTAAAAGATCCGGAAACGATTTTCATTATTTTTTCTAAAATCTTGTTCCATCCGCTGATTACGGGCTTCTTGCTGTCCGCAATTTTAGCGGCGATCATGAGTTCCATTTCCTCACAGCTTCTCGTAACGGCAAGCGCCATTACGGAAGATTTATACCGCGCCTTTTTCAGACGGGAAGCGAGCGATAAAGAATTGGTCATGACCGGACGCCTGTCGGTATTGATCGTGGCCGTTATCGCCATTTTGCTTTCCTTGAATCCGAACAGCACCATTCTTGATCTGGTCGGATATGCGTGGGCAGGCTTCGGTTCGGCTATCGGCCCGGCGCTCTTGCTCAGTCTGTACTGGAAACGGATGAATGAATGGGGAGCGCTTGCGGCGATGATTACCGGGGCCGCAGCCGTTTTAATCTGGATCACGACAGGGCTTGCCGCTTCAACCGGCGTATACGAAATCATTCCGGGGTTCTTCCTCAGTCTGATTGCCGGTATTGCCGTCAGCCTGCTGACAAAAAAACCGGCCGATGCTTCTTATCAGCTGTTCAGCCGGATGGAAGCTCTTTTGAAAAACAAGAAATAG	MSIELIISLGIYFAAMLLIGWYAFRKTTNINDYMLGGRGLGPFVTALSAGAADMSAWMLMGVPGAMFATGLSTLWLALGLTIGAYSNYLLLAPRLRAYTEVADDAITIPDFFDKRFRHSSSLLKIVSAVIIMIFFTLYTSSGMVSGGRLFESAFGADYKFGLFLTAGVVVLYTLFGGFLAVSLTDFVQGAIMFAALVLVPIVAFTQLGSVSTTIDSINAVNPKLLDIFKGASVISIISYLAWGLGYYGQPHIIVRFMAIKEVKDLKPARRIGMSWMVISVVGSLLTGIIGVAYSHHFGVSVKDPETIFIIFSKILFHPLITGFLLSAILAAIMSSISSQLLVTASAITEDLYRAFFRREASDKELVMTGRLSVLIVAVIAILLSLNPNSTILDLVGYAWAGFGSAIGPALLLSLYWKRMNEWGALAAMITGAAAVLIWITTGLAASTGVYEIIPGFFLSLIAGIAVSLLTKKPADASYQLFSRMEALLKNKK	PGPT0013955_4066	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
D1-12_02757	693	sapB_2	COG1285	Protein SapB	TTGAGCTGGCCTATCGAACCAGACATTTTATTAAAGCTGGGCATTGCCACGCTGATCGGCATGATCATCGGTCTTGAACGCGAGCTGAAAAACAAACCGCTCGGACTGAAAACCTGTATCGTCATCGCCGTCAGCTCCTGTATGCTGACGATCGTCAGCATTAATGCGGCATATCATTTCCCAAAATATTACCGTATCATGATGGATCCGCTCCGCCTCCCCGCCCAAATCATTTCCGGCGTCGGTTTTATCGGCGCGGGCGTGATCCTGCGTAAAAGCAATGACGTCATATCCGGCCTGACGACATCGGCCATCATCTGGGGCGCGGCCGGGCTGGGTCTGGCTACAGGCGCCGGCTTTTATAAAGAGGCGTTCGCAAGCCTCTTGTTTATCCTGATCAGTGTCGAATTTCTTCCGTGGCTGATCAGAAAAATCGGTCCCAACCGCTTGAAGGAAAAGGATATCCGCGTGAGAATGTCTCTTTCCGATAAAGACAAAATGACTGAGATTTTAAAGGAAATGAAAAGCAAACAGCTCCGCATTCACTCCGTCCGGATTGATGATCTGGGTGAAAAAGAATTTCCGATTATGGAAGTGAAAGTCAGTGTTCATAAAAACCGCTACACCACTGACGTCTATTATGATATTAAAGAAATTCAGGGCGTCGTCGGAGTGAAATGTGATACGCTATAA	MSWPIEPDILLKLGIATLIGMIIGLERELKNKPLGLKTCIVIAVSSCMLTIVSINAAYHFPKYYRIMMDPLRLPAQIISGVGFIGAGVILRKSNDVISGLTTSAIIWGAAGLGLATGAGFYKEAFASLLFILISVEFLPWLIRKIGPNRLKEKDIRVRMSLSDKDKMTEILKEMKSKQLRIHSVRIDDLGEKEFPIMEVKVSVHKNRYTTDVYYDIKEIQGVVGVKCDTL	PGPT0014005_1489	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
D1-12_02758	996	srkA		Stress response kinase A	ATGCATAAAGATATTAAAGCGATTTTTGAGGAAGAGAAGGTGCTCGCTGAAGCAGGTGAAATATACGGCTTTACCAAGTTTCAATTTATCGCGGACGCAGAGAACTACGTATATGAAATTGTGAAAGATAACGAACCTTATATCTTAAAAATTACGCATACGATCAGAAGAACACCGGAATATATTCTCGGAGAAATGGAATGGCTTCATCATCTGGCAAAGGGAGGGCTTTCAGCAGCAAAGCCGATTCCTTCATTAAATGGCAAAGATGTCGAAGAAGTGCCGGATGGAAAAGGCGGAGCGTTTTTAGTAAGAGTTTATGAAAAAGCGCCCGGACGCAAAGTGGAGGAATCAGACTGGAACGGAACTCTGTTTTACGAGCTTGGAAAGTACACGGGGAACATGCACCGGCTGACGAAAAGCTACTGTCTGAGCGATCCGGCATATAAAAGGCAGGAATGGGATGAAGAGGAGCAGCTGAAGCTGAGAAAATACGTGCCCGCAGATCAGCATCTCGTATTTGAGCGGGCGGATGCTCTAATGGAAAAACTGCGCCGTTTGCCGAAGAATCCTGAAAACTACGGCCTTGTGCACGCCGATCTGCACCACGGCAATTTCAATTGGGACAACGGTAAAATCACTGCATTTGATTTTGATGATACCGGCTACAATTGGTTTGTGAATGATATCAGTATTCTGCTGTACAACATGTTGTGGTATCCGGTCATCCCGTATGAAGACAAGGCCGCGTTTACGGGTGAATTCATGACACACTTTATGAAAGGCTACAGGGAAGAAAATGACCTTGATTCCGCATGGTTTGAACATATCCCGGATTTCCTCCGGCTGCGCCATATGCTGATCTACGGATTATTGCATCAGGCGTTTGACCTCAATTCACTCGGGGACGAGGAACTCGGGATGCTGAAAGCCTTCAGGCGCGATATCGAAAATGAAACACCGATTACGGAGTATCAATTTTCTGCATTCGTATAA	MHKDIKAIFEEEKVLAEAGEIYGFTKFQFIADAENYVYEIVKDNEPYILKITHTIRRTPEYILGEMEWLHHLAKGGLSAAKPIPSLNGKDVEEVPDGKGGAFLVRVYEKAPGRKVEESDWNGTLFYELGKYTGNMHRLTKSYCLSDPAYKRQEWDEEEQLKLRKYVPADQHLVFERADALMEKLRRLPKNPENYGLVHADLHHGNFNWDNGKITAFDFDDTGYNWFVNDISILLYNMLWYPVIPYEDKAAFTGEFMTHFMKGYREENDLDSAWFEHIPDFLRLRHMLIYGLLHQAFDLNSLGDEELGMLKAFRRDIENETPITEYQFSAFV				NA	NA	NA	NA	NA
D1-12_02759	1197			hypothetical protein	TTGAAAAAGATGTTGGCATTGGCGGCGACGGCAACGGCGGCAGTACTCATGCTGTCGGCCTGTTCGCCGAGTTTCGGGGGGAACAAAGAGGAAGAGATCACGCAGAAAACGGCAAAGTCTTCTGAAAAAGCGATCATACCGAAATATAATATCTCTGATTCCTACTATAAAATGGTGCTTCCGTTTAAGGCCGGAAAAGCGCGCGGCCTGACCGCGGACCGGCTGAACACGAGGCTGGACATCGATGAATTCGAGACGGGTCTGATGCGGCTCGCTCAAGACACGTTCCCGACGGATGACTATTTGTATCAGGAAGGCCAGTATTTAGATGAGGACACGGTACTCAGCTGGCTTGACCGCAAAAAAGAGGGCAGTGATCTGAAAAAGGCGAAAAAGGCAGACGCCAATTTTCAGAATCTCGGCTTAAACCCGGTGCTGCCAAGTTCGGGATCGGCAAAAGAGAAAAATGAAAACAGCCCGATTTACTTAGCGTCTATGCTTGAACAGGATTACTTAGTAAGAAAAGATAAAAATTCCATCCAGCTTGGCGGTGTCATGATCGGTCTCGCTCTCAACTCTGTTTACTATTACCGCGAAAACACAGGTGATCCGCAGCAGGAAGTTGAGCTCAGTGACAAAACGATCCGCAGCCACGGTGAAGAAATCGCCCAGGAAGTCGTTAACCGCCTTCGGAAAATGGATAACCTGAAAAATGTGCCGATTACCGTCGCCCTTTATAAACAAGCGCCGAAAACATCAATCGTACCGGGGAATTACATTGCGAAAACAGAAGTCAAGGCCGGCTCATCCACCATTTCAAACTGGGATGATGTCAAAGAAAAGTACGTCTTCTATCCGGCGGATACAGACACGGCAAAGAAATACCCTGATGATTCCGAAGTGTTTAAACGCTTCAAAAACGCCATCGACAGCTACTTCCCGAATTACACCGGAGTCGTCGGAACGGCAATGTACGAAAACGATGAAATGAGAAAAATGAAGATTGAAATCCCGATGCAATTTTACGGGAAAAGCGAAGTTATCGCCTTTACCCAATACTTAACAGGTGAGCTGATGGATTATTATTCAAAAAGCTCAGTTGATGTCGAAATTAACATTACCTCGTCTGACGGACAGGAAGCGCTGATCGTCCGCAATGCGGGTGACAAAGAACCGACCGTCCATATTTACGATTAA	MKKMLALAATATAAVLMLSACSPSFGGNKEEEITQKTAKSSEKAIIPKYNISDSYYKMVLPFKAGKARGLTADRLNTRLDIDEFETGLMRLAQDTFPTDDYLYQEGQYLDEDTVLSWLDRKKEGSDLKKAKKADANFQNLGLNPVLPSSGSAKEKNENSPIYLASMLEQDYLVRKDKNSIQLGGVMIGLALNSVYYYRENTGDPQQEVELSDKTIRSHGEEIAQEVVNRLRKMDNLKNVPITVALYKQAPKTSIVPGNYIAKTEVKAGSSTISNWDDVKEKYVFYPADTDTAKKYPDDSEVFKRFKNAIDSYFPNYTGVVGTAMYENDEMRKMKIEIPMQFYGKSEVIAFTQYLTGELMDYYSKSSVDVEINITSSDGQEALIVRNAGDKEPTVHIYD				NA	NA	NA	NA	NA
D1-12_02760	2010	ligA		DNA ligase	ATGATGGACAAAGAAACAGCGAAACACCGGGCAGAAGAATTGCGCCGCACCATCGATCAGTACAGTTATGAATATTACACCTTAGATGAACCGAGCGTGCCGGATTCCGAGTACGACAGACTGATGCAGGAGCTGATTGCCATAGAGGAAGAGCACCCGGAGCTCAGAACGCCTGATTCGCCCACACAGCGGGTCGGGGGAGCGGTGCTTGAATCGTTTCAAAAGGTGCAGCACGGCACACCGATGCTCAGTCTCGGCAACGCATTTAACGATGATGATCTCCGCGATTTTGACCGCCGCGTCCGTCAGGCTGTCGGTGACGGCGTCGCTTATAACGTGGAGCTGAAAATAGACGGTCTTGCTGTTTCTCTCCGTTATGAAGACGGCTATTTCGTCAGAGGCGCGACAAGAGGAGACGGAACGACGGGCGAAGATATCACGGAAAACTTAAAAACGATCCGCAACATTCCGCTGAAAATGAAACGGAATCTTTCCATAGAAGTGCGCGGAGAGGCGTACATGCCGAAACAGTCATTTGAAGCGCTCAATGAAGAAAGGCTGAAACATGAAGAGGAGCCGTTCGCCAATCCCCGGAACGCGGCTGCGGGCTCACTCAGACAGCTCGATCCGAAAATTGCAGCGAAACGAAATCTTGACATCTTCGTCTACAGTATAGCGGAGCTTGACGAAATGGGTGTGGAAACACAGAGTCAGGGCCTGGATTTTCTGGATGAGCTCGGTTTTAAAACAAACCAGGAACGGAAAAAATGCGCCACGATAGATGAAGTCATTGAAATGATCGAAGAGCTGCAGGCGAAGCGGGCCGATCTCCCGTATGAAATTGACGGGATCGTCATCAAAGTCGATTCGCTCGATCAACAGGAAGAACTCGGGTATACGGCAAAAAGCCCGCGCTGGGCGATTGCTTATAAATTCCCGGCGGAAGAGGTCGTGACAAAACTGCTCGATATCGAACTGAATGTCGGAAGAACGGGCGTCATTACGCCGACCGCCGTTCTGGAACCGGTAAAAGTCGCGGGAACGACGGTCTCAAGAGCATCCCTTCATAACGAAGATTTAATTAAAGAGAAGGATATCCGCATTCTCGATAAAGTGGTCGTCAAAAAAGCGGGCGACATCATCCCTGAGGTCGTCAATGTCTTAATCGAACAGCGGACCGGGGAAGAAAAAGAATTCAATATGCCTACCAGCTGCCCTGAGTGCGAGAGCGAACTTGTCCGCATTGAAGGGGAAGTCGCGCTGCGCTGCATCAATCCGGAATGTCCGGCGCAGATCAGAGAAGGCCTGATTCACTTTGTCTCACGCAACGCGATGAATATTGACGGACTCGGAGAACGTGTCATCACACAGCTTTTCCGTGAACATCTCGTCCGTAATGTCGCTGATTTGTATAAGCTGACGAAAGAGCAGGTCATCCGGCTTGAGCGGATGGGGGAAAAATCAACTGACAATCTGATCAGCTCCATCCAAAAGTCGAAAGAGAATTCGCTGGAACGCCTGCTGTTCGGTCTCGGCATCCGTTTTATCGGCTCAAAAGCGGCCAAAACACTCGCCATGCATTTTGAAAGCCTGGAAAATTTGAAACAAGCCACGGAAGAAGAGCTGCTTGCGGTAGATGAAATCGGCGAAAAGATGGCCGATGCCGTTATCACCTATTTCCGCAAAGAAGAAATGCTTGAGCTATTGAATGAACTTGAGGAACTCGGTGTGAACACACTCTACAAAGGCCCGAAAAAAGTAAAAGCGGAGGACAGCGACTCTTATTTTGCCGGCAAAACCATCGTGTTAACCGGAAAGCTTGAAGAGCTGTCCAGAAATGAAGCCAAGGCGCAGATTGAAGCGCTCGGCGGAAAGCTGACGGGATCTGTCAGCAAAAAAACAGACTTGCTGATTGCCGGAGAAGCGGCCGGAAGCAAGCTGACAAAAGCGCAGGAATTAAACATTGAAGTATGGAATGAAGCACAGCTATTGGGAGAGCTAAAGAAATAA	MMDKETAKHRAEELRRTIDQYSYEYYTLDEPSVPDSEYDRLMQELIAIEEEHPELRTPDSPTQRVGGAVLESFQKVQHGTPMLSLGNAFNDDDLRDFDRRVRQAVGDGVAYNVELKIDGLAVSLRYEDGYFVRGATRGDGTTGEDITENLKTIRNIPLKMKRNLSIEVRGEAYMPKQSFEALNEERLKHEEEPFANPRNAAAGSLRQLDPKIAAKRNLDIFVYSIAELDEMGVETQSQGLDFLDELGFKTNQERKKCATIDEVIEMIEELQAKRADLPYEIDGIVIKVDSLDQQEELGYTAKSPRWAIAYKFPAEEVVTKLLDIELNVGRTGVITPTAVLEPVKVAGTTVSRASLHNEDLIKEKDIRILDKVVVKKAGDIIPEVVNVLIEQRTGEEKEFNMPTSCPECESELVRIEGEVALRCINPECPAQIREGLIHFVSRNAMNIDGLGERVITQLFREHLVRNVADLYKLTKEQVIRLERMGEKSTDNLISSIQKSKENSLERLLFGLGIRFIGSKAAKTLAMHFESLENLKQATEEELLAVDEIGEKMADAVITYFRKEEMLELLNELEELGVNTLYKGPKKVKAEDSDSYFAGKTIVLTGKLEELSRNEAKAQIEALGGKLTGSVSKKTDLLIAGEAAGSKLTKAQELNIEVWNEAQLLGELKK				NA	NA	NA	NA	NA
D1-12_02761	2220	pcrA	COG0210	ATP-dependent DNA helicase PcrA	ATGAATTACATTAGCAATCAATTATTAAGCGGATTAAATCCCGTTCAGCAGGAAGCGGTCAAGACGACGGACGGTCCGCTGCTTCTGATGGCGGGCGCGGGAAGCGGAAAAACACGTGTGCTGACGCACAGAATCGCATACTTAATGGCGGAAAAACACGTGGCGCCGTGGAACATTCTGGCGATTACATTTACAAATAAAGCAGCCAGAGAAATGAAGGAGCGGGTGGAGAGCATTCTCGGACCCGGCGCGGATGAAATCTGGATATCCACCTTCCACAGCATGTGCGTGCGGATTCTGCGCAGGGATATTGACAGAATCGGCATCAACCGAAATTTCTCCATTCTTGATACGGCTGATCAGCTTTCCGTTATTAAAGGGATTCTGAAAGAGCGGAATATCGATCCGAAAAAGTTTGATCCGAGAAGTATTTTAGGCTCCATCAGCAGCGCAAAAAACGAGCTGATCGAACCTGAGGAATTCGCAAAAACGGCCGGCGGCTACTACGATCAGGTCACGAGTGACGTGTATACCGATTATCAGAAAAAACTGCTGAAAAACCAATCGCTCGATTTTGATGATTTAATCATGACGACGATTAAGCTTTTCGAGCGTGTGCCGGAAGTGCTTGAGTTTTATCAGCGCAAATTCCAGTACATTCACGTAGACGAGTATCAGGATACGAACAGGGCGCAATACCTGCTTGTGAAGCAGCTTGCGGCCCGTCTTGAAAATATCTGCGTCGTCGGTGACTCCGACCAGTCCATTTACAGATGGCGCGGGGCGGATATCGCGAATATCCTTTCCTTTGAAAAAGATTATCCGAGCGCAAACGTGATTCTGCTCGAGCAAAACTACCGCTCAACAAAGCGGATTCTGCAGGCGGCTAACGAAGTGATCAAAAACAACTCAAACCGCAAGCCGAAAAACCTGTGGACGGAAAATGACGAAGGCATCAAGCTTTCTTATTACAGCGGCGACAATGAATTCGGCGAAGGCCAATTCGTCGCGGGCAAAATTTATGAGCTGAACAGTTCGGGCCGGCGGAAGCTTTCCGATATCGCGATTTTATACCGGACAAACGCCCAGTCGCGCGTCATTGAGGAAACCCTTTTAAAATCCGGACTGAACTACAATATCGTCGGCGGAACCAAGTTCTACGACAGGAAAGAAATTAAAGACATTCTCGCATACCTGCGCCTTGTGTCAAACCCGGACGACGACATCAGTTTTACGCGGATCGTCAATGTGCCGAAGCGGGGCGTCGGCGCAACTTCACTAGAAAAAATCGCTTCATATGCGGCGATGAACGGAATGTCAATGTTCCAGGCGGTCAAACAGGTTGATTTCATCGGCGTCAGCGCGAAAGCGGCAAACGCGCTTGACGGCTTTGGCGCGATGATTGAAAATCTGACGAACATGCAGGATTACCTGTCCATTACAGAACTCACGGAAGAAATTCTCGAGAAAACGGAATACAGAGAAATGCTGAAGGCCGAAAAATCAATCGAAGCCCAAAGCCGCCTTGAAAATATCGACGAGTTTCTTTCCGTGACGAAAAACTTCGAACAAAAAAGCGAAGACAAGTCTCTCGTCGCGTTTCTGACTGATTTGGCGCTGATTGCGGATATTGACCAGCTCGACCAGAAGGAAGAGGAATCAGGCGGAAAGGATGCCGTCACTTTAATGACACTGCACGCCGCTAAGGGGCTTGAATTTCCTGTCGTGTTCTTAATGGGCATGGAAGAAGGCGTGTTCCCGCACAGCCGCTCCCTGATGGAAGAAGCCGAGATGGAAGAAGAACGCAGGCTCGCATATGTAGGCATTACGAGGGCGGAGGAAGAACTGTATTTAACGAATGCCAAAATGCGCACCTTATTCGGCCGAACCAATATGAATCCGGAATCCCGCTTTATCAGGGAAATACCTGGCGATTTATTGGAGAACCTAAATGAGAAGAAAACACCTCGCATGCAGCCGGGAAGAAAAGTGCAGCCAAAACGCGGGCCCGTATCCCGTCCCGTTTCCTATGCGAACAAAACAGGCGGCGACTCGCTCAGCTGGGCGGTCGGCGATAAAGCGGGCCATAAAAAATGGGGCACCGGAACGGTTGTCAGCGTAAAAGGAGAAGGCGAAAGCACCGAGCTTGATATCGCATTCCCAAGCCCAGTCGGCGTGAAGCGTCTGCTTGCCGCTTTTGCGCCGATTGAAAAGCAGTAA	MNYISNQLLSGLNPVQQEAVKTTDGPLLLMAGAGSGKTRVLTHRIAYLMAEKHVAPWNILAITFTNKAAREMKERVESILGPGADEIWISTFHSMCVRILRRDIDRIGINRNFSILDTADQLSVIKGILKERNIDPKKFDPRSILGSISSAKNELIEPEEFAKTAGGYYDQVTSDVYTDYQKKLLKNQSLDFDDLIMTTIKLFERVPEVLEFYQRKFQYIHVDEYQDTNRAQYLLVKQLAARLENICVVGDSDQSIYRWRGADIANILSFEKDYPSANVILLEQNYRSTKRILQAANEVIKNNSNRKPKNLWTENDEGIKLSYYSGDNEFGEGQFVAGKIYELNSSGRRKLSDIAILYRTNAQSRVIEETLLKSGLNYNIVGGTKFYDRKEIKDILAYLRLVSNPDDDISFTRIVNVPKRGVGATSLEKIASYAAMNGMSMFQAVKQVDFIGVSAKAANALDGFGAMIENLTNMQDYLSITELTEEILEKTEYREMLKAEKSIEAQSRLENIDEFLSVTKNFEQKSEDKSLVAFLTDLALIADIDQLDQKEEESGGKDAVTLMTLHAAKGLEFPVVFLMGMEEGVFPHSRSLMEEAEMEEERRLAYVGITRAEEELYLTNAKMRTLFGRTNMNPESRFIREIPGDLLENLNEKKTPRMQPGRKVQPKRGPVSRPVSYANKTGGDSLSWAVGDKAGHKKWGTGTVVSVKGEGESTELDIAFPSPVGVKRLLAAFAPIEKQ				NA	NA	NA	NA	NA
D1-12_02762	690	pcrB	COG1646	Heptaprenylglyceryl phosphate synthase	ATGTACGATGTTAACGAGTGGAAGCATGTTTTTAAACTCGATCCGAATAAAGATTTACCGGATGAACAGCTGGAACGGCTTTGTGAATCAGGGACTGACGCCATTGTGATCGGAGGAAGCGACAATATCACCGAGGACAATGTGCTGAGACTGATGTCAAAGGTGCGGCGGTTTTTAGTGCCGTGCGTACTTGAGGTGTCGACGATTGATTCCATTGTGCCCGGGTTTGATCTTTATTTCATTCCGAGTGTGCTCAACAGCAAAAAGGCGGACTGGATTGTCGGCATGCATCATCAGGCGATGAAAGAATACGGAGAGCTCATGTCAATGGAGGAAATCGTGACGGAGGGCTACTGCATCGTCAATCCTGATTGTAAGGCGGCCGCTTTGACGGAGGCGGATACACATATAGAAACAGAAGATATTCTCGCCTATGCGCGGGTCGCGGAACATTTGCTTCATCTCCCGATTTTTTATCTGGAATACAGCGGGATGCTGGCGGACATAGAAACGGTGGAGAAAACGAAGGCTGTGCTGGACAAGTCCGTCCTGTTTTACGGAGGCGGCATTAAAGACGCGGAAACGGCGGAACGGTTCGGCCGTCATGCCGATGTCATCGTTGTCGGAAATGCCGTATATGAAGATTTTGATCAGGCGCTTAAAACAGTGGCGGCTGTAAAGACAAAGTAG	MYDVNEWKHVFKLDPNKDLPDEQLERLCESGTDAIVIGGSDNITEDNVLRLMSKVRRFLVPCVLEVSTIDSIVPGFDLYFIPSVLNSKKADWIVGMHHQAMKEYGELMSMEEIVTEGYCIVNPDCKAAALTEADTHIETEDILAYARVAEHLLHLPIFYLEYSGMLADIETVEKTKAVLDKSVLFYGGGIKDAETAERFGRHADVIVVGNAVYEDFDQALKTVAAVKTK	PGPT0024385_196	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATE_SYNTHASE_ACTIVITY,PGPT0024385-pcrB-K07094	NA	NA
D1-12_02763	1575			hypothetical protein	ATGGAACAAGCCATTATCGTACTGATTTGTATATTGATCTTTATTATTTTAGTTCCCGCCGCATTGTTTCTCTGGATATACATAAGAGACGAAAAGCAGGAAGAACATTCAGTGCTGCGCAATTATCCCGTAGCGGGAAAACTGCGCTATATATTTGAAAAAATCGGACCAGAGCTGCGGCAGTATTTATTCAGCAATGATAACGAAGAACAGCCGTTTTCCCGGAGAGAATATGAACAGACGGTCATGTCGGGAAAGTATAAAAGCAGAATGATGGGCTTCGGCTCAGAACGAGATTTCGATCAGCCGGGCTATTATATCCGTAACGCCCTCTTCCCAAAACAAAGGGAGGAGCTGCGCGCAGATCAGACGCCGAAGATCGACACGATGATATACAAAATTGACAAAGACAACCTGCTGAAACGCAGCGAACACCGCGAAAAAGCAAAGGCGGACCCTTATTACCTGCATCCGGACGATGTGCAAGTGATCGGCCGCGATACATGCAAGAAGCCGTTTTATGTGAAAGGGCTAATCGGACAATCAGCGATGAGCTACGGCTCACTTGGCGACCGGGCAATTACCGCCCTGTCAAAAGGGCTGCACCAGGCCGGCGGCACATGGATGAATACAGGCGAAGGCGGCCTGTCTGAGTATCACCTGAAAGGCGGCGCGGATATTATCTGCCAAATCGGCCCCGGGCTGTTCGGCGTCCGCACTGAAGATGGAGAATTTTCGTGGGAAGAATTTAAGAAAAAAAGCCGCCTCGAGCAGATTAAAGCCTTTGAATTAAAGCTTGCGCAAGGGGCGAAAGCAAGAGGCGGGCATATTGACGGTTCAAAGGTGACCGAAGAAATTGCCGCCATCAGAAATGTGCAGCCCGGACAATCCATTGACAGCCCAAACCGCTTCAACGAGTTCTCAAATGTTCCGGACATGCTTGATTTCATTGAGAAATTAAGGACTGTCGGAGAAAAACCGGTCGGCATCAAAATTGTCCCGGGCAGCCGCAAAGACCTTGAAGACCTTATTTCCTGTATGAGTTCCTCAGGCAAACATCCCGACTTTATTACGATTGACGGCAGTGAAGGGGGAACGGGAGCTTCTTTCCATGAGCTGGCGGATTCCGTCGGCCTGCCGATTCTGACCGGCCTCCCCCTTGTTGACGGCCTTTTGAAGACATACGGGATAAGAGATAAGCTGAAAATTTTCGCATCCGGAAAGCTGCTCACTCCGGATAAGATTGCCGTTGCCCTCGCGTTAGGCGCGGATTTTGTCAATATTGCCCGGGGAATGATGTTTTCAGTCGGCTGTATCCGCGCTCAAGTATGCCACACCAATCATTGTCCTGTCGGAGTGGCGACAACCGATCCAAAACTTCAGCGCGCGCTCAGTATCGAGGATAAACAGCACCGCGTCTGCAACTACGTGCTCTCGTTGCGTGAAGGGCTGTTTCACCTAGCCGCGGCGGCGGGCATCAGCTCGCCGGTTCATTTCTCAGCTGAACACATCGTATACCGGGAGGAAGACGGAAGCCTGAGGGAACTTCCCGGCCTTTTGAATCAGCACGCATAA	MEQAIIVLICILIFIILVPAALFLWIYIRDEKQEEHSVLRNYPVAGKLRYIFEKIGPELRQYLFSNDNEEQPFSRREYEQTVMSGKYKSRMMGFGSERDFDQPGYYIRNALFPKQREELRADQTPKIDTMIYKIDKDNLLKRSEHREKAKADPYYLHPDDVQVIGRDTCKKPFYVKGLIGQSAMSYGSLGDRAITALSKGLHQAGGTWMNTGEGGLSEYHLKGGADIICQIGPGLFGVRTEDGEFSWEEFKKKSRLEQIKAFELKLAQGAKARGGHIDGSKVTEEIAAIRNVQPGQSIDSPNRFNEFSNVPDMLDFIEKLRTVGEKPVGIKIVPGSRKDLEDLISCMSSSGKHPDFITIDGSEGGTGASFHELADSVGLPILTGLPLVDGLLKTYGIRDKLKIFASGKLLTPDKIAVALALGADFVNIARGMMFSVGCIRAQVCHTNHCPVGVATTDPKLQRALSIEDKQHRVCNYVLSLREGLFHLAAAAGISSPVHFSAEHIVYREEDGSLRELPGLLNQHA	PGPT0014521_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014521-yerD-NA	NA	NA
D1-12_02764	312			hypothetical protein	ATGCAAATCGATAAATTACGCGGAAAAGAACTGGACCAGTTATTTTTATCTATTTTATCGCTGAAAGATCTGGAGGAATGCTATCGTTTCTTTGACGATCTTTGTACGATTAATGAAATCCAATCGCTGGCGCAGCGTTTGGAAGTGGCAAGAATGCTCCGCGAAGGAAATACGTATCACAAAATTGAAAGCGAAACGGGTGCTTCCACAGCGACGATTTCCCGGGTGAAGCGCTGCTTAAATTACGGAAACGACGCCTATGAAATGGCGCTTGACCGCGTAAACAAAGGAGAATCCTCCTCAGCTACGTAA	MQIDKLRGKELDQLFLSILSLKDLEECYRFFDDLCTINEIQSLAQRLEVARMLREGNTYHKIESETGASTATISRVKRCLNYGNDAYEMALDRVNKGESSSAT				NA	NA	NA	NA	NA
D1-12_02765	996	yerB		Putative lipoprotein YerB	ATGAAAAGATGGAAAACCGTTTGTATGCTTTGTTTTGCGTTTTTGCTGCTTGCCGCCTGCCGGCAGAACAATGCCGATCAGGTGCAGCCGAAAGAAGCGGAAGCTCCTTTAACGGGGCTGAAAACTGAGCAGAAGCTTGCAGAACGCCGTCCGATTGCAGTCGCAGTGAACAATCATCCGAAGGCGAGGCCCCAATCCGGGCTGTCAAAGGCGGATGTTGTCATCGAGGCGCTTGCGGAGGGCCGGATTACGCGGTTTCTCGCGATTTTTCAAAGTGAGATGCCGGAAACGGTCGGGCCTGTGCGGAGCGCGAGGGGATATTTTGTCACGCTCAGCAGCGGGTTTAACAGCATATTTGTCCATCATGGCTGGAGTCCCGGCGCAAAAAAGCAGCTGGAGTCCGGAGCTTACGATTATATAAACGGTTTGGATTTTGACGGAAGCCTGTTTTGGAGAGCCGATTTCAGCAAGCCGCCCCACAATTCCTACACGTCGTATGACAATATCAGGAAGGCGGCGGAACAAAAAGGATACAAGCTGAACGGAAAAACAGAACCGCTCCCATTTCAGACATCAGATGCAAAACCCGGAAACGAAACCTACAATATTCGGATAGATTATGGAACACAAAACATTACAAATCTTGTCGAATACGATTATGATAAAAAAGCTGATGCTTATACAAGAAGCTCTGATGGTGTGAAAGCGACAGACCGGGAGACCGGAAAGCCTTTAGCCATGCACAACATTTTTATTGTTGAAGCCGGCCATCGCATGACAGACAAAGATGGAAGGCGGGCCATCGATATTCAGTCAGGGGGGAAGGGCCTCCTGCTTCAGCACGGCGATGTTATGGAGTCAGACTGGGAATATAAAGACGGCCGTATTCTGCCCGTAAAAGGCGGTGAGATTCTTCCGTTTGTGCCAGGAAAGACATGGATTAATATCGTGCCTGATCTCGATGCAGCTTCCATTAGTAAAGGAGAAGGTGTTTGA	MKRWKTVCMLCFAFLLLAACRQNNADQVQPKEAEAPLTGLKTEQKLAERRPIAVAVNNHPKARPQSGLSKADVVIEALAEGRITRFLAIFQSEMPETVGPVRSARGYFVTLSSGFNSIFVHHGWSPGAKKQLESGAYDYINGLDFDGSLFWRADFSKPPHNSYTSYDNIRKAAEQKGYKLNGKTEPLPFQTSDAKPGNETYNIRIDYGTQNITNLVEYDYDKKADAYTRSSDGVKATDRETGKPLAMHNIFIVEAGHRMTDKDGRRAIDIQSGGKGLLLQHGDVMESDWEYKDGRILPVKGGEILPFVPGKTWINIVPDLDAASISKGEGV				NA	NA	NA	NA	NA
D1-12_02766	1743	yerA	COG1001	Putative adenine deaminase YerA	ATGTCCGAACGTACCTTTAACTGGAAAAATAAAGACATCAGATCACAGGCGGATGTTGTAGACTCAAAGCTGCTTCCAACGCTACTTTTACGGGATGCTCTCGTATTAAATCCTTTTTTAAAACAATGGCTGAAAAAGAACGTCTGGATTTACGGAGACCGAATTGTATATGTTGGTGATGAGCTTCCTGATGCAGCTGAGCACATTCATACCATAAATTGTGAAGGAAAATACATTGTGCCAGGTTACATTGAACCGCATACACATCCTTTTCAAATATATAATCCCCAAACGCTCGCCGAATATGTGTCTCAATTCGGAACAACGACGTTTGTTAATGATAACTTGTTTTTTCTTTTGCACAGCGGTAAAAAGAAAGCGCTTACTATATTGGAAGAACTGAAAAAACAGCCGGTGCAATATTTCTGGTGGTCCAGATATGATCTGCAGACTGAAGTGCTGAATGAGGATCAGCTTCTTTCTTTTGATGTCCGAAAGCAATGGATTGAGCACCCGGATGTCATTCAAGGCGGAGAATTGACCGGATGGCCGCGCCTCATGGACGGCGATGACCTGATGCTTCATTGCATGCAGGCGACAAAGAAACTGCGCAAGCGGATAGAAGGGCATTTTCCCGGAGCCTCTGAGAAAACACTGACGAAGATGAAACTGTTCGGAGCTGATTCCGACCACGAGGCGATGAATGGCGGCGAGGTGATGAGACGGCTTGAATTGGGCTACTATGTTTCGCTCAGACATTCATCCATCCGCCCTGATTTGAGAACGATTTTGCAGGATCTCCATCAAAAAGGCTTCCGGCATTATGATCATTTCTTTTACACGACGGATGGAGCGACGCCGCATTTTTATAAAGGCGGCATGACGAATGAATTAATCAAAATCGCTTTGGAGGAAGGAGTTCCGGCGATTGACGCCTACAATATGGCCTCCTTTAATATCGCGAAGTATTATCAGATGGACGACTTTCTCGGTGTGATCGGTCCGGGCCGGCTTGCTTCATTGAACATTCTCGATGACCCGATGAATCCTGACCCGGTCACGGTGATCTCCAAAGGTATCCTGGTGAGGGAAGACGGCCGAAATATGAATGCGTTTACAGAAACGGATTGGAAAAAGGGCGGTCTTGTCCCTCTTGAGCTTTCATATGATATGACGATGGATGATTTACAGTTTTCAATGCCGATGGGTGTGTCCATGCGCAACGCGGTCATTATGGAGCCGTATATGATTGCGATTGATAATTCTGTTGACCAGCTTTCTTTTGATCATGATGAATGCTATCTCACGCTTCTCGATAAGCATGGAAAATGGCGGGTTAATACAATGCTGAAAGGTTTTGCCGATCGGGTGCAGGGCTTTGTCAGTTCCTACACGACAACAGGAGATATTATCGCTGCCGGAAAAAATAAGGAAGATATCCTGCTCGCTTTCTCACGGATGAAAGAAATCGGCGGCGGAATCGTGCTTGCCGAAAACGGGAAGATTCTGCATGAGATTCCCCTCGCCTTAAACGGTTCTGCATCTGCGGAGAATTATGAAGAAGTGCTTGAGAAAGAGCAAAAACTGAGGACGCTGCTGGAGGAGCGGGGCTACCGATTCTGCGATCCGATCTATACGCTGCTCTTTTTGCAGAGCACACACCTGCCTTATATCCGCATTACGCCGAGAGGAATATTCGACGTGATGAAAAAAACTGTACTCTTTCCATCGATAATGCGTTAA	MSERTFNWKNKDIRSQADVVDSKLLPTLLLRDALVLNPFLKQWLKKNVWIYGDRIVYVGDELPDAAEHIHTINCEGKYIVPGYIEPHTHPFQIYNPQTLAEYVSQFGTTTFVNDNLFFLLHSGKKKALTILEELKKQPVQYFWWSRYDLQTEVLNEDQLLSFDVRKQWIEHPDVIQGGELTGWPRLMDGDDLMLHCMQATKKLRKRIEGHFPGASEKTLTKMKLFGADSDHEAMNGGEVMRRLELGYYVSLRHSSIRPDLRTILQDLHQKGFRHYDHFFYTTDGATPHFYKGGMTNELIKIALEEGVPAIDAYNMASFNIAKYYQMDDFLGVIGPGRLASLNILDDPMNPDPVTVISKGILVREDGRNMNAFTETDWKKGGLVPLELSYDMTMDDLQFSMPMGVSMRNAVIMEPYMIAIDNSVDQLSFDHDECYLTLLDKHGKWRVNTMLKGFADRVQGFVSSYTTTGDIIAAGKNKEDILLAFSRMKEIGGGIVLAENGKILHEIPLALNGSASAENYEEVLEKEQKLRTLLEERGYRFCDPIYTLLFLQSTHLPYIRITPRGIFDVMKKTVLFPSIMR	PGPT0021510_880	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
D1-12_02767	234			hypothetical protein	ATGATGAAACCGAATATCAGTTTATTAAATGCCGTTATGCGCATCACTTGCGGCCTCACAATTTTGTCTGCTGCTTCAGCGAAATACACGAGAAAACCTTGGTGCAAGATGCATCTCTTCTGTATGATGATGGGCGCGATGAAAGCGGCGTCCGGCATCCTCCGCTTCTGTCCGGTGACATATATGTTCCAAGCCGGAATGAATCAGGATGACAGCCATCAGCAAGAAAAATAA	MMKPNISLLNAVMRITCGLTILSAASAKYTRKPWCKMHLFCMMMGAMKAASGILRFCPVTYMFQAGMNQDDSHQQEK				NA	NA	NA	NA	NA
D1-12_02768	1269	purD_1	COG0151	Phosphoribosylamine--glycine ligase	GTGAATGTATTGATTATCGGAAAAGGCGGCAGAGAGCATACATTGGCTTGGAAAGCGGCGCAAAGCCCGCTTGTTGACACGGTGTACGCCGCGCCCGGAAATGACGGTATGGCAGACTGCGCGACGCTGGCCAACATTGAAGAAAGCGATCATGCCGCACTCATTGCGTTTGCGAAAGAACATCATGTCGGGCTGACGATTATCGGCCCTGAAGTTCCTCTGATTGAAGGAATAGCGGACGAGTTTGAAAAAGCCGGACTGCTTGTTTTCGGACCGTCTGAAAAAGCGGCAATCATTGAAGGAAGCAAACAGTTTGCCAAGGATTTAATGAAAAAATACGGCATTCCGACGGCGGAATATGAGACGTTTACTTCATTTGAAGAGGCGAAAGCATATGTGCAGCAAAAAGGCGCGCCGATTGTCATTAAAGCGGACGGGCTTGCCGCCGGAAAAGGTGTCACGGTCGCGATGACGGAAGAAGAAGCGATTGAATGCCTGCACGATTTTCTTGAAGATGAGAAATTCGGCGAGGCGAGCGCATCTGTTGTCATTGAAGAGTTCCTCGCCGGCGAAGAATTTTCTTTAATGGCGTTTGTAAAAGGGGAGACCGTCTATCCGATGGTAATCGCTCAAGATCATAAACGCGCCTTCGATGGAGACAAAGGGCCGAATACGGGCGGAATGGGCGCCTACTCACCGGTGCCGCACATTTCCGATGATATCGTCAGAAGCGCAGTCGAAACGATTGTGAAGCCGGCGGCAAAAGCAATGGTGAAAGAGGGACGCTCCTTCACGGGCGTGCTGTACGCGGGGCTGATTCTGACGGAAAACGGATCAAAAGTCATTGAATTCAACGCGCGCTTCGGAGATCCGGAAACACAGGTTGTCGTGCCGAGAATGGAATCTGACCTCATCCAGGTGCTCTTAGATCTTCTGCATGAGAAGGATGTTGACCTAAGGTGGAAGGATACGGCCGCTGTCAGCGTTGTGCTGGCTTCTGAAGGCTATCCGGAAGGCTATGCGAAAGGGACGCCGATCGGCAGTTTGACGTCCGCTGAAGACGGGATCGCTGTTTTTCATGCCGGAACGAAAAAAGACGGCGGCCAATTTGTTACAAACGGCGGTCGGGTCGCCAATGTCACCGCATTTGCTGAGACATTTGAAGCGGCGAGAGATAAAGTGTACAGCGCCGTTTCAGGGCTGACAAAACCCGGACTGTTTTACAGAAGCGACATCGGCGCCCGTGCGCTGAAAGCTTCTCAACGATAG	MNVLIIGKGGREHTLAWKAAQSPLVDTVYAAPGNDGMADCATLANIEESDHAALIAFAKEHHVGLTIIGPEVPLIEGIADEFEKAGLLVFGPSEKAAIIEGSKQFAKDLMKKYGIPTAEYETFTSFEEAKAYVQQKGAPIVIKADGLAAGKGVTVAMTEEEAIECLHDFLEDEKFGEASASVVIEEFLAGEEFSLMAFVKGETVYPMVIAQDHKRAFDGDKGPNTGGMGAYSPVPHISDDIVRSAVETIVKPAAKAMVKEGRSFTGVLYAGLILTENGSKVIEFNARFGDPETQVVVPRMESDLIQVLLDLLHEKDVDLRWKDTAAVSVVLASEGYPEGYAKGTPIGSLTSAEDGIAVFHAGTKKDGGQFVTNGGRVANVTAFAETFEAARDKVYSAVSGLTKPGLFYRSDIGARALKASQR	PGPT0021575_3548	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
D1-12_02769	1539	purH		Bifunctional purine biosynthesis protein PurH	ATGACAATCAAACGCGCACTAATCAGTGTTTCTGATAAAACAAATCTCGTACCTTTCGTAAAGGAACTGACAGAGCTCGGCGTCGAAGTCATTTCGACCGGAGGAACAAAAAAACTACTTCAGGAAAACGGTGTGGATGTCATCGGCATTTCAGAAGTGACCGGATTTCCTGAAATTATGGACGGACGGTTAAAAACGCTCCATCCTAATATTCACGGCGGCCTGCTTGCCGTAAGAGACAATGAAGAGCATATGGCGCAGATCAATGAGCACGGCATTGCACCGATTGACCTTGTGGTTGTCAACCTTTATCCGTTTAAAGAAACGATTTCAAAAGAAGATGTAACATACGATGAAGCGATAGAAAACATTGATATCGGCGGCCCCGGCATGCTGCGCGCCGCATCGAAAAACCATCAGGATGTGACGGTCATCACAGATCCGGCCGATTACAGCTCCGTGCTCAATGAGATGAAAGAACACGGCGGTGTTTCGCTTAAAAGAAAACGCGAGCTTGCGGCCAAAGTATTCCGCCATACCGCGGCATACGACGCATTAATCGCTGATTACTTAACACGCGAGGCCGGTGAGAAAGACCCTGAGCAATTCACCGTTACATTTGAGAAAAAACAATCGCTCCGCTACGGTGAAAACCCTCACCAAGAGGCTGTTTTCTATCAAAGCGCACTTCCTGTCTCCGGTTCCATCGCGGCGGCAAAACAGCTTCACGGCAAAGAGCTTTCTTACAACAATATTAAGGACGCGGATGCGGCCGTTCAAATCGTCCGGGAGTTTACAGAACCCGCAGCTGTCGCCGTTAAACATATGAACCCGTGCGGAGTCGGTACGGGAGCTTCAATTGAGGAAGCATTCAATAAAGCGTATGAAGCTGATAAAACCTCCATTTTCGGCGGCATCATCGCGCTGAACCGTGAAGTTGATCAGGCAACGGCTGAAGCCCTTCACGGCATCTTTTTAGAAATCATTATCGCCCCTTCTTTCAGTGAAGAAGCGCTGAACGTGCTGACGGCGAAGAAAAACCTTCGTCTGCTCACGCTTGACGTGACCGCATCAGGGAAGAAAGAAAAACAGCTGACATCCGTACAGGGCGGCCTTTTGATTCAAGATTTAGACGTCCATGGATTTGATGACGCCGACATCAGCATCCCGACAAAAAGAGAGCCGAACGAGCAGGAATGGGAAGATCTGAAGCTCGCCTGGAAAGTCGTCAAACACGTAAAATCCAACGCGATCGTTCTTGCAAAAGACCATATGACGGTCGGTGTGGGCGCAGGACAGATGAATCGCGTCGGTTCAGCTAAAATCGCCATTGAGCAGGCCGGAGAAAAAGCAAAAGGCAGCGCGCTCGGATCAGACGCGTTTTTCCCGATGCCGGATACAGTCGAAGAAGCCGCAAAAGCCGGTGTCACGGCGATTATCCAGCCAGGCGGATCGGTCCGCGATGAAGATTCGATTAAAAAAGCGGATGAATACGGGATCGCCATGGTATTCACCGGCATCAGACATTTCAAACATTAA	MTIKRALISVSDKTNLVPFVKELTELGVEVISTGGTKKLLQENGVDVIGISEVTGFPEIMDGRLKTLHPNIHGGLLAVRDNEEHMAQINEHGIAPIDLVVVNLYPFKETISKEDVTYDEAIENIDIGGPGMLRAASKNHQDVTVITDPADYSSVLNEMKEHGGVSLKRKRELAAKVFRHTAAYDALIADYLTREAGEKDPEQFTVTFEKKQSLRYGENPHQEAVFYQSALPVSGSIAAAKQLHGKELSYNNIKDADAAVQIVREFTEPAAVAVKHMNPCGVGTGASIEEAFNKAYEADKTSIFGGIIALNREVDQATAEALHGIFLEIIIAPSFSEEALNVLTAKKNLRLLTLDVTASGKKEKQLTSVQGGLLIQDLDVHGFDDADISIPTKREPNEQEWEDLKLAWKVVKHVKSNAIVLAKDHMTVGVGAGQMNRVGSAKIAIEQAGEKAKGSALGSDAFFPMPDTVEEAAKAGVTAIIQPGGSVRDEDSIKKADEYGIAMVFTGIRHFKH	PGPT0008110_4041	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
D1-12_02770	588	purN		Phosphoribosylglycinamide formyltransferase	ATGAAAAAGTTTGCGGTATTTGCTTCAGGAAACGGATCGAACTTCGAGGCCATTGCCAAACGCATGAGAGAAGAGAAGTGGGATGCGGAGCTCTCGCTTCTCGTGACGGATAAGCCTCAGGCAAAGGCGGTGGAAAGGGCGGAGGCTTTACACATTCCGTCATTCGCCTTTGAACCGTCATCTTTTGAAAACAAAGCGGCCTTTGAACGGGCCGTTATTGAACAGCTGTGCCTGCACGGGGCGGAATTAATCGTTCTCGCCGGTTATATGAGACTGATTGGAGATACGCTGCTTGAAGCATACGGGGGCCGCATTATTAATATACATCCCTCGCTTCTTCCGGCATTCCCCGGGATTGACGCTGTCGGACAGGCGTATCGGGCCGGTGTGAAAGTGGCGGGCATTACCGTTCATTACGTCGACGAAGGCATGGACACAGGACCGATTATCGCGCAAAAAGCATTCGAAATACAGGAAAACGATACGCTTGAAGACATAGAGCATACAATACACGAGCTTGAGCACAAATGGTATCCGAGCGTTGTGAAACAGCTGCTGGGACTAAATAACAGAGGTGAAAAGGCATGA	MKKFAVFASGNGSNFEAIAKRMREEKWDAELSLLVTDKPQAKAVERAEALHIPSFAFEPSSFENKAAFERAVIEQLCLHGAELIVLAGYMRLIGDTLLEAYGGRIINIHPSLLPAFPGIDAVGQAYRAGVKVAGITVHYVDEGMDTGPIIAQKAFEIQENDTLEDIEHTIHELEHKWYPSVVKQLLGLNNRGEKA	PGPT0008095_3398	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
D1-12_02771	1041	purM	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGTCTGATGCTTATAAAAATGCCGGAGTTGACATCGAAGCCGGATACGAAGCCGTCAAACGAATGAAAAAACACGTGGAGCGCACGAAAAGGCTCGGCGTTATGGGAAGCCTAGGCGGTTTTGGCGGAATGTTTGATCTGTCAGAGCTTCCGTATCAAAAGCCTGTTTTAATTTCCGGAACAGACGGTGTCGGCACCAAGCTGAAACTCGCATTTTCAATGGATAAGCATGACACGATCGGCGTCGATGCGGTCGCGATGTGTGTAAATGATGTGCTTGCCCAAGGAGCGGAGCCGCTGTTTTTCCTTGATTATTTGGCGGTCGGCAAGGCTGATCCGGTAAAAATTGAGCAGATCGTTCAGGGCGTGGCGGACGGATGCGAGCAGTCAGGATCAGCGCTTATCGGCGGTGAGACGGCGGAAATGCCGGGACTGTATACGGTTGATGAATACGATATTGCGGGCTTTTCAGTCGGCGTCGCGGAAAAAGACGAAATCGTCACCGGTGAACATATCGAAGAGGGGCATCTCTTAATCGGACTTACTTCAAGCGGCCTTCACAGCAACGGATTTTCCCTTGTGAGAAAAGTGCTTCTTGATGACGGCGGACTTGATTTGGATACTGTCTATGAACCGTTTGCGCGTCCTCTCGGAGAAGAATTGCTGGAACCGACGAGAATATATGTGAAGCCGGTGCTCAAGGCGGTGAAAAGCGGTAAGGTGGACGGCATGGCGCATGTGACAGGCGGAGGATTCATCGAGAACATCCCGCGGATGCTGCCGGACGGATTGAGTGCGGAAATTGATCACGGATCATGGCCGATCCCGCCGATTTTTCCGTTTCTGCAGGAGCACGGCAAGCTGAAAGAAGAAGAAATGTTCAATGTTTTTAATATGGGCATCGGTTTTGTCCTTGCCGTTAAAGAAGAAAACCTGACAGACGTCATCGACACGCTTGAAGCTCAGGGCGAGAAGGCTTATTTGATCGGCCGGGTCAAGCGGGGCGAAGGCATTTCTTTCGGCGGTGCGGCTCTTTCATGA	MSDAYKNAGVDIEAGYEAVKRMKKHVERTKRLGVMGSLGGFGGMFDLSELPYQKPVLISGTDGVGTKLKLAFSMDKHDTIGVDAVAMCVNDVLAQGAEPLFFLDYLAVGKADPVKIEQIVQGVADGCEQSGSALIGGETAEMPGLYTVDEYDIAGFSVGVAEKDEIVTGEHIEEGHLLIGLTSSGLHSNGFSLVRKVLLDDGGLDLDTVYEPFARPLGEELLEPTRIYVKPVLKAVKSGKVDGMAHVTGGGFIENIPRMLPDGLSAEIDHGSWPIPPIFPFLQEHGKLKEEEMFNVFNMGIGFVLAVKEENLTDVIDTLEAQGEKAYLIGRVKRGEGISFGGAALS	PGPT0021570_2945	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
D1-12_02772	1431	purF	COG0034	Amidophosphoribosyltransferase	ATGCTTGCTGAAATCAAAGGCCTGAATGAAGAATGCGGTGTGTTTGGCATCTGGGGACATGAAGAAGCCCCGCAGATCACGTATTACGGCCTGCACAGCCTCCAGCACAGAGGACAGGAAGGCGCCGGCATCGTGGCGACTGACGGTGAAAAACTGACTGCGCATAAAGGACAGGGGCTTATTACCGAGGTTTTTCAAAACGGCGAACTGAGCAAAGTGAAGGGAAAAGGCGCGATCGGGCACGTCCGTTATGCGACGGCAGGCGGAGGCGGATATGAAAATGTCCAGCCGCTCCTGTTCCGTTCGCAAAACAACGGCAGCCTCGCGCTTGCCCATAACGGCAACTTGGTCAACGCCACACAGTTGAAGCAGCAGCTTGAAAACCAAGGGAGCATCTTTCAGACTTCCTCCGATACGGAAGTGCTGGCTCATCTGATTAAACGCAGCGGACACTTTTCGCTGAAGGATCAGATCAAAAATTCGCTGTCTATGCTGAAAGGCGCTTATGCCTTTTTAATCATGACTGAAACAGAAATGATCGTAGCGCTTGACCCGAACGGACTCAGACCGCTGTCAATCGGCATGATGGGTGACGCTTACGTCGTGGCATCAGAAACGTGCGCATTCGATGTGGTCGGCGCGACATACCTTCGCGAGGTAGAGCCGGGCGAAATGCTGATCATCAATGATGAAGGCATGAAATCAGAGCGTTTCTCCATGAATATCAACCGTTCCATCTGCAGCATGGAGTACATTTATTTCTCAAGACCTGACAGCAATATCGACGGCATTAACGTGCACAGCGCCCGGAAAAACCTCGGAAAAATGCTTGCCCAGGAGTCCGCGATTGAAGCGGATGTCGTCACAGGCGTGCCTGATTCCAGTATTTCTGCAGCCATCGGCTATGCCGAGGCAACGGGCATTCCGTACGAACTCGGTCTCATTAAAAACCGTTATGTCGGCAGAACGTTTATTCAGCCGTCCCAGGCTCTGCGCGAGCAAGGCGTCAGAATGAAGCTGTCCGCCGTCCGCGGTGTTGTTGAAGGAAAACGGGTCGTCATGGTTGATGATTCCATCGTGCGCGGGACGACAAGCCGCCGGATTGTCACAATGCTCAGAGAAGCGGGAGCGACAGAGGTGCACGTCAAGATCAGTTCACCGCCGATCGCTCATCCGTGCTTCTACGGCATCGACACATCAACCCATGAGGAGCTGATCGCTTCTTCTCATTCGGTGGAAGAAATCCGCCAGATCATCGGTGCTGACACGCTTTCTTTCTTAAGTGTAGACGGATTGTTAAAAGGAGTCGGCCGAAAATTTGAAGACACCAACTGCGGACAATGCCTCGCTTGTTTTACGGGCAAATATCCGACGGAAATTTATCAGGATACAGTGCTTCCTCACGTAAAAGAAGCGGTGCTGACAAAATAA	MLAEIKGLNEECGVFGIWGHEEAPQITYYGLHSLQHRGQEGAGIVATDGEKLTAHKGQGLITEVFQNGELSKVKGKGAIGHVRYATAGGGGYENVQPLLFRSQNNGSLALAHNGNLVNATQLKQQLENQGSIFQTSSDTEVLAHLIKRSGHFSLKDQIKNSLSMLKGAYAFLIMTETEMIVALDPNGLRPLSIGMMGDAYVVASETCAFDVVGATYLREVEPGEMLIINDEGMKSERFSMNINRSICSMEYIYFSRPDSNIDGINVHSARKNLGKMLAQESAIEADVVTGVPDSSISAAIGYAEATGIPYELGLIKNRYVGRTFIQPSQALREQGVRMKLSAVRGVVEGKRVVMVDDSIVRGTTSRRIVTMLREAGATEVHVKISSPPIAHPCFYGIDTSTHEELIASSHSVEEIRQIIGADTLSFLSVDGLLKGVGRKFEDTNCGQCLACFTGKYPTEIYQDTVLPHVKEAVLTK	PGPT0020225_4296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
D1-12_02773	2229	purL	COG0046	Phosphoribosylformylglycinamidine synthase subunit PurL	ATGTCGCTACTGCTTGAACCAAGTAAAGAACAAATAAAAGAAGAGAAACTCTATCAGCAAATGGGTGTCAGTGATGACGAGTTCGCACTCATTGAATCTATTATCGGAAGATTGCCGAACTACACGGAAATCGGGATTTTTTCCGTGATGTGGTCAGAGCACTGCAGCTATAAAAACTCAAAACCGGTTTTACGCAAATTCCCGACTAGCGGCGAACGCGTGCTGCAGGGTCCCGGAGAAGGCGCGGGAATCGTTGACATCGGTGACAATCAGGCGGTCGTGTTCAAAATTGAATCTCATAACCACCCGTCAGCGCTTGAGCCATACCAAGGTGCTGCGACGGGAGTGGGCGGCATTATCCGTGACGTTTTCTCAATGGGCGCCCGTCCGATAGCTGTATTAAACTCTCTTCGATTTGGTGAACTCACTTCACCTCGTGTGAAGTACTTGTTTGAAGAAGTAGTGGCGGGAATCGCGGGATACGGAAACTGTATCGGCATCCCGACGGTCGGCGGAGAAGTGCAGTTTGACGCAAGCTATGAGGGCAATCCGCTTGTCAATGCAATGTGCGTCGGCTTGATTGATCATAAAGATATTAAAAAAGGCCAGGCGAAAGGTGTCGGCAACACGGTCATGTACGTCGGCGCTAAAACGGGCCGCGACGGCATACACGGCGCTACTTTCGCATCAGAAGAAATGTCAGATTCATCTGAAGAAAAACGTTCCGCGGTGCAGGTCGGCGATCCTTTCATGGAAAAACTTCTCCTGGAAGCATGCCTTGAAGTCATCCAATGCGACGCCTTAGTCGGCATTCAGGATATGGGGGCGGCCGGTCTGACAAGTTCGAGTGCTGAAATGGCAAGCAAAGCCGGCTCCGGCATTGAAATGAACCTTGATCTCATTCCGCAGCGGGAAACAGGTATGACCGCTTACGAAATGATGCTTTCCGAGTCTCAGGAACGCATGCTTCTCGTCATTGAACGCGGACGTGAACAGGAAATTGTCGATATTTTTGATAAATATGATCTTGAAGCGGTTTCCGTAGGTCATGTTACGGATGATAAAATGCTCCGCCTCCGCCATAACGGAGAGGTTGTTTGCGAGCTTCCGGTCGACGCGCTGGCGGAAGAAGCGCCTGTATACCACAAGCCGTCAGCAGAACCCGCGTACTACCGCGAGTTTCAGGAAACGGAAGTTCCCGCGCCTGAAGTAAAAGATGCGACAGAGACGCTTTTTGCCCTGCTGCAGCAGCCGACAATCGCCAGCAAAGAGTGGGTGTACGATCAGTATGACTACATGGTGCGCACAAATACGGTGGTCGCTCCGGGCTCTGACGCGGGAGTGCTCAGAATCCGCGGCACGAAAAAAGCGCTGGCGATGACGACGGATTGCAACGCGCGTTATTTATATCTTGATCCAGAAGAAGGCGGGAAAATCGCCGTTGCCGAAGCGGCGCGCAACATCGTATGCTCCGGCGCCGAACCGCTTGCGGTCACGGATAATCTGAATTTCGGAAACCCGGAAAAACCTGAAATTTTCTGGCAGATCGAAAAAGCGGCCGACGGCATCAGCGAGGCGTGTAATGTTCTCAGCACTCCCGTCATCGGCGGTAACGTATCACTTTATAATGAATCGAACGGAACGGCGATCTACCCGACGCCTGTGATCGGCATGGTCGGCTTAATTGAAGATACCGCTCATATTACGACACAGCATTTCAAACAAGCGGGGGATCTTGTATACGTGATCGGCGAAACAAAACCTGAGTTTGCCGGAAGCGAACTGCAAAAAATGACAGAAGGCCGCATTTACGGCAAAGCGCCGCAAATCGATCTTGATGTAGAGCTGTCACGCCAAAAAGCATTGCTTGACGCGATTAAAAAAGGCTTCGTACAATCAGCGCATGATGTGTCTGAAGGCGGCTTAGGCGTAGCGGTTGCAGAAAGCGTCATGACGACGGAAAACCTTGGCGCGCACGTGACTGTAGAAGGGGAAGCGGCATTATTATTCTCTGAATCTCAATCACGCTTCGTCGTTTCGGTGAAAAAAGAACACCAAGCGGCGTTTGAAGCGGCTATGGCCGATGCGGTTCATATCGGCGAGGTAACGGCTGACGGACTTCTGGCGATTCAAAACCAGGACGGACAACAATTGGTTCACGCGCAAACGAAAGAACTTGAGCGCGCGTGGAAAGGAGCTATTCCATGCTTGCTGAAATCAAAGGCCTGA	MSLLLEPSKEQIKEEKLYQQMGVSDDEFALIESIIGRLPNYTEIGIFSVMWSEHCSYKNSKPVLRKFPTSGERVLQGPGEGAGIVDIGDNQAVVFKIESHNHPSALEPYQGAATGVGGIIRDVFSMGARPIAVLNSLRFGELTSPRVKYLFEEVVAGIAGYGNCIGIPTVGGEVQFDASYEGNPLVNAMCVGLIDHKDIKKGQAKGVGNTVMYVGAKTGRDGIHGATFASEEMSDSSEEKRSAVQVGDPFMEKLLLEACLEVIQCDALVGIQDMGAAGLTSSSAEMASKAGSGIEMNLDLIPQRETGMTAYEMMLSESQERMLLVIERGREQEIVDIFDKYDLEAVSVGHVTDDKMLRLRHNGEVVCELPVDALAEEAPVYHKPSAEPAYYREFQETEVPAPEVKDATETLFALLQQPTIASKEWVYDQYDYMVRTNTVVAPGSDAGVLRIRGTKKALAMTTDCNARYLYLDPEEGGKIAVAEAARNIVCSGAEPLAVTDNLNFGNPEKPEIFWQIEKAADGISEACNVLSTPVIGGNVSLYNESNGTAIYPTPVIGMVGLIEDTAHITTQHFKQAGDLVYVIGETKPEFAGSELQKMTEGRIYGKAPQIDLDVELSRQKALLDAIKKGFVQSAHDVSEGGLGVAVAESVMTTENLGAHVTVEGEAALLFSESQSRFVVSVKKEHQAAFEAAMADAVHIGEVTADGLLAIQNQDGQQLVHAQTKELERAWKGAIPCLLKSKA	PGPT0021730_1232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
D1-12_02774	684	purQ	COG0047	Phosphoribosylformylglycinamidine synthase subunit PurQ	GTGAAATTTGCGGTGATTGTGTTACCCGGCTCCAACTGTGATATTGATATGTTTCACGCCGTAAAGGACGAACTCGGCGAAGAAGTCGAGTATGTCTGGCACGAGGAAACAAGCCTTGACGGATTTGACGGCGTGCTCATCCCCGGCGGGTTTTCATACGGCGACTACTTGAGATGCGGCGCCATCGCCAGATTCGCAAACATCATGCCGGCCGTGAAAAAAGCGGCTGCCGAAGGAAAACCGGTTCTCGGCGTCTGCAACGGATTCCAGATTCTGCAGGAGCTCGGACTTCTGCCCGGCGCCATGAGACGCAACAAAGATTTAAAGTTCATCTGCCGCCCTGTTGAATTAATCGTACAGAACGGCGATACGTTATTCACATCTTCCTATGAAAAAGGACAATCGATTACGATTCCGGTTGCCCACGGCGAAGGCAATTTCTACTGTGATGACGAAACGCTTGAAAGATTAAAAGAAAACAATCAAATCGCCTTCACATACGGCGGCGATATTAACGGAAGCGTCAGCGGCATTGCCGGCGTCGTGAATGAGAAAGGCAACGTATTAGGCATGATGCCTCACCCTGAGCGCGCAGTCGATGAACTGCTCGGCAGCGCAGACGGTCTTACATTGTTCCGGTCTATCGTGAAAAATTGGAGGGAAACTCATGTCGCTACTGCTTGA	MKFAVIVLPGSNCDIDMFHAVKDELGEEVEYVWHEETSLDGFDGVLIPGGFSYGDYLRCGAIARFANIMPAVKKAAAEGKPVLGVCNGFQILQELGLLPGAMRRNKDLKFICRPVELIVQNGDTLFTSSYEKGQSITIPVAHGEGNFYCDDETLERLKENNQIAFTYGGDINGSVSGIAGVVNEKGNVLGMMPHPERAVDELLGSADGLTLFRSIVKNWRETHVATA	PGPT0020220_1135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265	NA	NA
D1-12_02775	255	purS	COG1828	Phosphoribosylformylglycinamidine synthase subunit PurS	ATGTATAAAGTGAAAGTTTATGTCAGCTTAAAAGAAAGTGTGCTCGATCCTCAAGGAAGCGCGGTGCAGCATGCATTGCACAGCATGACCTACAATGAAGTGCAGGATGTGCGCATCGGAAAATACATGGAGCTGACGATCGAAAAATCTGACCGCGATCTTGACGCGCTCGTGAAAGAAATGTGTGAAAAGCTCCTTGCCAATACAGTCATTGAAGACTACCGATATGAAGTTGAGGAGGTTGTCGCACAGTGA	MYKVKVYVSLKESVLDPQGSAVQHALHSMTYNEVQDVRIGKYMELTIEKSDRDLDALVKEMCEKLLANTVIEDYRYEVEEVVAQ	PGPT0021725_580	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264	NA	NA
D1-12_02776	720	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	GTGAATATTGTGAACAATAATCTTCTTTATGAAGGAAAAGCGAAACGGATTTATCAAACTGAAGACGAGCAGATTCTCCGCGTGGTCTACAAGGATTCCGCAACAGCCTTTAACGGTGAGAAAAAAGCGGAGATCAGCGGAAAGGGCCGTCTGAACAATGAAATTTCAAGCCTGATTTTCAAACATCTGCACGCCAAAGGAATTGACAACCACTTTGTGGAGCGTGTTTCAGAATCAGAGCAGCTCATCAAAAAAGTGAGCATCATTCCGCTTGAAGTCGTGGTCAGAAACATTGCCGCCGGAAGCATGTCGAAACGACTCGGCATCCCGGAAGGAACAGAGCTCCCGCAGCCGATTATCGAATTTTACTACAAGGATGACGCACTCGGCGATCCGCTCATCACAGAAGATCATATCCGGCTCTTAAAAGCGGCGGCTCCTGAGCATGTCGAAACGATCAAATCGATTACAAACCAGGTGAATCAAGAACTTCAGCATATTTTTGAAGACTGCGGGGTCAGATTAATAGATTTTAAGCTGGAATTCGGCTTAGACGCAGAGGGACGGGTGCTTTTAGCGGATGAAATTTCTCCTGACACGTGCCGTCTGTGGGACAAAGACACAAACGAAAAGCTCGATAAAGATTTGTTCAGACGGAACCTGGGAAGCTTAACCGACGCATATGAAGAGATTTTCAAAAGACTGGGAGGCATTTCATAA	MNIVNNNLLYEGKAKRIYQTEDEQILRVVYKDSATAFNGEKKAEISGKGRLNNEISSLIFKHLHAKGIDNHFVERVSESEQLIKKVSIIPLEVVVRNIAAGSMSKRLGIPEGTELPQPIIEFYYKDDALGDPLITEDHIRLLKAAAPEHVETIKSITNQVNQELQHIFEDCGVRLIDFKLEFGLDAEGRVLLADEISPDTCRLWDKDTNEKLDKDLFRRNLGSLTDAYEEIFKRLGGIS	PGPT0021565_3662	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
D1-12_02777	1293	purB	COG0015	Adenylosuccinate lyase	ATGATCGAACGTTATTCAAGACCTGAAATGTCCGCGATCTGGACGGACGAAAACAGATACCAGGCATGGCTGGAAGTCGAGATTTTAGCCTGTGAAGCCTGGGCTGAGCTTGGCGTCATTCCGAAAGAAGACGTCAAGGTCATGCGCGAAAACGCGTCTTTCGACATCAACCGCATTTTGGAAATCGAGCAGGATACGCGCCATGACGTCGTTGCATTCACCCGCGCGGTTTCAGAATCATTAGGCGAAGAAAGAAAATGGGTTCACTACGGCCTGACGTCAACAGATGTCGTGGATACCGCTCTTTCCTATCTATTAAAACAGGCGAATGAGATCTTGCTCAAGGACATTGAGAGATTTGTTGACATTATAAAAGAAAAAGCGAAAGAACATAAATACACGGTCATGATGGGCCGCACGCACGGCGTACACGCGGAACCGACGACATTCGGCCTGAAACTCGCGCTTTGGCACGAAGAAATGAAACGCAACCTTGAACGTTTCAAGCAGGCAAAAGAAGGGATCGAAGTCGGGAAGCTTTCCGGCGCGGTCGGCACATATGCAAATATTGATCCGTTCGTAGAGCAGTATGTCTGTGAAAAACTTGGCCTGAAAGCGGCGCCGATTTCCACTCAGACATTACAGCGCGACCGTCATGCGGATTACATGGCGGCACTGGCTTTGATCGCGACGAGCATTGAAAAATTCGCAGTGGAAATCCGCGGTCTGCAAAAGAGTGAAACACGTGAAGTGGAAGAGTTTTTTGCGAAAGGACAAAAAGGTTCATCGGCTATGCCTCATAAACGGAATCCGATCGGGTCGGAAAATATGACGGGCATGGCGCGCGTGATCCGCGGGTACATGCTGACGGCATACGAAAATGTACCGTTATGGCATGAGCGTGATATTTCTCATTCATCAGCTGAACGCATCATTCTTCCTGACGCGACAATCGCGCTGAATTACATGCTGAACCGATTCAGCAATATCGTCAAAAACTTAACGGTATTCCCGGAAAATATGAAACGCAACATGGACCGCACACTCGGTTTAATCTACTCTCAGCGCGTGCTGCTCGCTTTAATCGACACGGGTCTGCCTCGTGAAGAAGCATATGACACGGTTCAGCCGAAAGCGATGGAAGCGTGGGAAAAACAAGTGCCGTTCCGCCAGCTTGTCGAAGCGGAGGAAAAAATCACGTCCCGTCTCACACCGGAACAGATTGCCGATTGCTTTGACTACAATTATCATCTGAAAAACGTCGACTTGATCTTTGATCGTTTAGGTTTATAG	MIERYSRPEMSAIWTDENRYQAWLEVEILACEAWAELGVIPKEDVKVMRENASFDINRILEIEQDTRHDVVAFTRAVSESLGEERKWVHYGLTSTDVVDTALSYLLKQANEILLKDIERFVDIIKEKAKEHKYTVMMGRTHGVHAEPTTFGLKLALWHEEMKRNLERFKQAKEGIEVGKLSGAVGTYANIDPFVEQYVCEKLGLKAAPISTQTLQRDRHADYMAALALIATSIEKFAVEIRGLQKSETREVEEFFAKGQKGSSAMPHKRNPIGSENMTGMARVIRGYMLTAYENVPLWHERDISHSSAERIILPDATIALNYMLNRFSNIVKNLTVFPENMKRNMDRTLGLIYSQRVLLALIDTGLPREEAYDTVQPKAMEAWEKQVPFRQLVEAEEKITSRLTPEQIADCFDYNYHLKNVDLIFDRLGL	PGPT0021555_5629	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
D1-12_02778	1182	purK_1		N5-carboxyaminoimidazole ribonucleotide synthase	ATGCGACAAAACAAACGGTGCTGGAAAGCAGTGATCAGCTTGTCTGATAAAAAAACGATTTTTCCCGGCGCCGTCATCGGCATTATCGGAGGCGGACAGCTCGGAAAAATGATGGCTGTCGCCGCAAAACAGATGGGCTATAAAGTCGCTGTCGTCGATCCCGTGAAAGACTCGCCATGCGGACAGATCGCCGATATTGAGATTACCGCCCAGTACAATGACCGTGAAGCGATTCAAAAATTGGCCGGAGTCAGTGACATCATTACCTACGAATTTGAAAATATCGATTACGAGGCGCTCAACTGGCTCAAAGAACATGCATATCTTCCCCAGGGAAGCGAGCTGCTGCTCATCACCCAAAACAGGGAAACGGAAAAAAAGGCGATCCAGTCAGCAGGCTGTCAAGTCGCTCCTTATCGGATCGTAAACAGCGGACGGGAGCTTGAGGAAGCCGTTCAGGCACTGGGACTCCCGGCGGTGCTGAAAACATGCCGCGGCGGATATGACGGCAAAGGCCAATTTGTCATTAAGGAAGAAGGACAGACAGATGAAGCGGCTGCGCTGTTAGAAAACGGCACGTGCATACTTGAAAGCTGGGTATCGTTCCGGATGGAGCTTTCCGTTATCGTGACGAGATCGGTGCACGGTGAGATTTCAAACTTTCCGGCTGCTGAAAATATCCACAAAAATAATATTCTGTTCCAAAGCATCGTGCCCGCGAGAGCGGAGGAAACGGTTCAGAAGCGGGCAGAGGCGCTTGCCGTTCAGCTCGCGGAGAAATTGGAGCTTGTCGGGCCGCTTGCGGTGGAAATGTTTGTCACGGAAGACGGAGGCCTCTTGATTAATGAACTGGCGCCGCGTCCTCACAATTCAGGGCATTATACGCTCGACCTTTGTGAAACGAGCCAATTCGAACAGCACATCAGAGCGGTCTGCGGACTTCCTCTCGGCAGAACCGATCTTCTCAAACCGGGAATGATGGTGAATCTGCTCGGTGATGAAGTGAAGCTTGCGGAGGAGCATACGGAGCTTTTAAAGGAAGCCAAACTGTACCTGTACGGAAAACATGAGATTAAAAAAGGCCGCAAAATGGGGCATATGACATTTTTGCGGAAGCCTGATGAAACATGGATTCAGGACATCACGAACATATGGATGAATAGAGACGGAGGACGAGCATAA	MRQNKRCWKAVISLSDKKTIFPGAVIGIIGGGQLGKMMAVAAKQMGYKVAVVDPVKDSPCGQIADIEITAQYNDREAIQKLAGVSDIITYEFENIDYEALNWLKEHAYLPQGSELLLITQNRETEKKAIQSAGCQVAPYRIVNSGRELEEAVQALGLPAVLKTCRGGYDGKGQFVIKEEGQTDEAAALLENGTCILESWVSFRMELSVIVTRSVHGEISNFPAAENIHKNNILFQSIVPARAEETVQKRAEALAVQLAEKLELVGPLAVEMFVTEDGGLLINELAPRPHNSGHYTLDLCETSQFEQHIRAVCGLPLGRTDLLKPGMMVNLLGDEVKLAEEHTELLKEAKLYLYGKHEIKKGRKMGHMTFLRKPDETWIQDITNIWMNRDGGRA	PGPT0021550_755	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
D1-12_02779	489	purE	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGCAGCCGCTAGCAGGAATCATCATGGGAAGCACCTCCGATTGGGAGACAATGAAACATGCATGCGACATACTTGACGAACTTCACATTCCTTATGAAAAACAGGTGGTATCCGCGCACCGGACGCCTGATTTGATGTTTGAATATGCAGAAAGCGCCAGAGACAGGGGCTTAAAAGTCATTATTGCCGGAGCCGGAGGAGCGGCGCATCTGCCGGGAATGACGGCGGCCAAAACGACGCTGCCGGTGATCGGCGTACCGGTTCAGACGAAATCGCTTAACGGGCTTGATTCTCTTCTGTCTATCGTACAGATGCCCGGCGGCGTGCCGGTCGCGACGACGGCGATCGGGAAAGCGGGCGCAGTGAACGCGGGTCTGTTAGCCGCGCAAATTTTGTCGGCATTTGACGATGACATTGCGGATAAACTAGAGGCGAGAAGAAATGCGACAAAACAAACGGTGCTGGAAAGCAGTGATCAGCTTGTCTGA	MQPLAGIIMGSTSDWETMKHACDILDELHIPYEKQVVSAHRTPDLMFEYAESARDRGLKVIIAGAGGAAHLPGMTAAKTTLPVIGVPVQTKSLNGLDSLLSIVQMPGGVPVATTAIGKAGAVNAGLLAAQILSAFDDDIADKLEARRNATKQTVLESSDQLV	PGPT0021545_3133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
D1-12_02781	198			hypothetical protein	ATGACAAAGCCAAAAAAGAAACGGTTTGAAGTAACGGAAGATGAAACGATTGACACCATTCTCACTTTAATGAAGGAAGAGGGTTATATGCCCGTCCGGCGGATGGAAGAGCCGATCTTTACAGAAAAGAAAGAAAATGGATCAATTCAAGTCGTTCCTTGCGGGAAAAAAATCGTATTTGAAGGGAAATTGATCTAA	MTKPKKKRFEVTEDETIDTILTLMKEEGYMPVRRMEEPIFTEKKENGSIQVVPCGKKIVFEGKLI				NA	NA	NA	NA	NA
D1-12_02782	552			hypothetical protein	ATGCAGACGATTTTATCCAACAGTATAGGTATGGTTCTCATTATTCTCATCATTAACATTATATATGTCTCTTTCTTTACGATCAGGATGATTCTGACATTGAAGGGACAGCGCTATTTCGCCGCAGGCATCAGTACGATTGAAATCCTTGTGTATGTGACCGGCCTGAGTCTCGTGCTCGGCAATCTGAATCAAATTCAAAACGTCATTGCCTATGCGCTCGGCTACGGCCTCGGCGTCATAGTGGGAATGAAAATTGAAGAGAAACTGGCGCTCGGCTATATTACAGTCAACGTCATTACGAAGGAGCTCGATCTGGACCTGCCGAAACAGCTCCGGGAAAAAGGATACGGGGTTACAAGCTGGGTTGCGGGCGGACTTGAAGGAGACCGGACCGCCATGCAGATTCTGACGCCGCGCAAATATGAGCTTCAGCTTTATGATACGATTAAAACGCTTGATGAAAAAGCGTTTATTATCGCCTTTGAGCCGAAAACGATCCACGGCGGATTCTGGGTGAAAGCAGTGAAGAAGAGGAGAATTAAGGAATGA	MQTILSNSIGMVLIILIINIIYVSFFTIRMILTLKGQRYFAAGISTIEILVYVTGLSLVLGNLNQIQNVIAYALGYGLGVIVGMKIEEKLALGYITVNVITKELDLDLPKQLREKGYGVTSWVAGGLEGDRTAMQILTPRKYELQLYDTIKTLDEKAFIIAFEPKTIHGGFWVKAVKKRRIKE				NA	NA	NA	NA	NA
D1-12_02783	183			hypothetical protein	ATGATGAAGATGGCCCCGTTGTTGCGAGAAGCCATTAATCGGAAAAAGCAGCACCTGAGGACAAAGCTGATCCGCTCAGGGTTTTATCAAGACCATGTTCAGGAACTGTCCGGGTACACGCTGAGTGAACTTGAGAAGGAATATGAAGCCGTCAAACGATTGAAAAAAGCCGAGCTTCACTGA	MMKMAPLLREAINRKKQHLRTKLIRSGFYQDHVQELSGYTLSELEKEYEAVKRLKKAELH				NA	NA	NA	NA	NA
D1-12_02784	783			hypothetical protein	ATGACGGAAGAAAGAAAAGAAACGTTGGAAGAAGAAAAACAGCATCAGGGGACTGATGAAGAACCGCTGTCGAGAATGTCCAGAAATGCGGGACGTTATCAAAAGCAAAAGAAAAAAGTAAAGGAACGGCGCCCGGCTCCGGCTTTTACGGAAAAACTCGCTTCTGCATGGGCCGCGGCCAAACGTTATTGCCGTTTCGCGCTGCGCATTTTGACATCACCGGTGAAGGTCGTTGGGGAAGACGGCTTTTCCCGCTTTAAATATGCTCTTATTTCAATGCTTGTATTCAGTATCTTTTTCTCAATCGGAAATTGGTTTCAGCTGAGGGCAAGCCAGCAAAGGCCTCTCGGATACGGGGAGCGGCATCATACGTTTTTTGACGGCTTTACTGTCGTTCTCGTGTATACGCTCGTCTTTTTTGCCGCTGCGGCCGGCGCGGTCTGGCTTGTATCACGTTATATGATGAAACAGAAAATTACGATGCGGGATGCGGCCGCGGGGGTCGGATCGCTTTTGGTTCCGGCTGTCGCCTGCTCTATCGTGTGGATGATTTTCGCGATATTGAATCTGCCGGTCGTCACCGTGGTGTTTACGGCGCTGACCTTGTTTCTGGCCGCCTCGGCGATGGTGCAGTTTGTGCAGATTCTATACAAATCGGCTGAAAAGCCTGCGGCTGACGTGATGTACTGTATTTCCGCGGCGGTCATCATCATGCTCGTTTTTACGGCTGTGACATGGCCGCTCATTTCCGAGTACTTTACTGCTTCGCTGATCCCTTTATAA	MTEERKETLEEEKQHQGTDEEPLSRMSRNAGRYQKQKKKVKERRPAPAFTEKLASAWAAAKRYCRFALRILTSPVKVVGEDGFSRFKYALISMLVFSIFFSIGNWFQLRASQQRPLGYGERHHTFFDGFTVVLVYTLVFFAAAAGAVWLVSRYMMKQKITMRDAAAGVGSLLVPAVACSIVWMIFAILNLPVVTVVFTALTLFLAASAMVQFVQILYKSAEKPAADVMYCISAAVIIMLVFTAVTWPLISEYFTASLIPL				NA	NA	NA	NA	NA
D1-12_02785	1323	pbuG	COG2252	Guanine/hypoxanthine permease PbuG	TTGAAGCAATTTTTTCAGTTTGATGAGCTGGGGACAAGCTATCGTAATGAAATCATCGGCGGTTTAACGACCTTTTTGTCAATGGCGTACATTCTGTTCGTCAATCCGCTGACATTGTCTTTAAACGGTGTGAAGGGATTTCCGGAAGCATTAAAAATTGATCAGGGCGCGGTGTTCACCGCTACAGCCTTGGCGTCTGCGGCCGGCTGTATTTTAATGGGGCTCATTGCAAAGTATCCGATCGCGATTGCGCCGGGTATGGGATTAAATGCGTTTTTTGCTTTCTCTGTCGTCCTCGGCATGGGGATTTCATGGCAGGCTGCGCTTTCCGGCGTCTTGATTTCCGGAATTATCTTCGTGGCGCTTTCGCTGACGGGACTGCGGGAAAAAATCATTAATGCGATTCCGCCTGAGCTGAAATTGGCGGTCGGCGCGGGTATCGGTTTGTTTATCACATTTGTCGGTTTGCAGGGTTCGGGCATTATTGAAGCGAACTCATCGACTTTGGTGTCTATCGGCAATATTCACAGCGGCCCTGTGCTGCTGACGGTTTTCGGTGTTATTGTGACGGTCATTCTGATGGTGCTTCGCGTAAACGGCGGCGTATTTATCGGAATGCTTCTGACGGCGGTTGCCGGCATGGTCTGCGGACTGATTCCGGTTCCGACGCACATTGTCGGCAGCGTGCCGAGTCTTGCGCCGACTTTCGGACAGGCGTGGATGCATCTTCCGGATATCTTCTCCGTCCAAATGCTGATTGTCATTTTAACTTTCTTGTTCGTCGGGTTTTTCGATACGGCCGGAACGCTGGTGGCTGTAGCGACACAGGCCGGGCTGATGAAGGAAAACAAACTTCCGCGTGCGGGAAGAGCGCTTCTGGCAGATTCGACATCAATCGTTATCGGAGCCGTACTCGGTACGTCTACAACGACTTCTTATGTTGAATCCAGCTCAGGCGTTGCGGCGGGGGCGCGCTCCGGCTTCGCGGCTGTTGTGACGGGCATTCTCTTTTTGCTGGCGATGTTTTTCTCGCCGCTTCTGTCAGTTGTCACCACGAATGTGACGGCTCCGGCTTTAATTATTGTCGGCGCGCTGATGGTGGCGCCGCTCGGTAAGATCGCCTGGGATAAATTCGAGGTGGCTGTGCCGGCATTCTTAACGATGATTATGATGCCGCTGACGTACAGCATTGCGACGGGGATTGCGATCGGTTTTATATTCTACCCGATTACAATGATCTGCAAAGGAAAAGGAAAAAGCGTTCACCCGATTATGTACGGGCTGTTCGTCATCTTTATCCTGTATTTCATCTTCTTGAAATAA	MKQFFQFDELGTSYRNEIIGGLTTFLSMAYILFVNPLTLSLNGVKGFPEALKIDQGAVFTATALASAAGCILMGLIAKYPIAIAPGMGLNAFFAFSVVLGMGISWQAALSGVLISGIIFVALSLTGLREKIINAIPPELKLAVGAGIGLFITFVGLQGSGIIEANSSTLVSIGNIHSGPVLLTVFGVIVTVILMVLRVNGGVFIGMLLTAVAGMVCGLIPVPTHIVGSVPSLAPTFGQAWMHLPDIFSVQMLIVILTFLFVGFFDTAGTLVAVATQAGLMKENKLPRAGRALLADSTSIVIGAVLGTSTTTSYVESSSGVAAGARSGFAAVVTGILFLLAMFFSPLLSVVTTNVTAPALIIVGALMVAPLGKIAWDKFEVAVPAFLTMIMMPLTYSIATGIAIGFIFYPITMICKGKGKSVHPIMYGLFVIFILYFIFLK	PGPT0007325_3778	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
D1-12_02787	1443			hypothetical protein	ATGGAAAAGCATCAAATGAAGCAATTGTATCAGGACATTGACGTGCCGAAAGCTGAATTGAAAAATGTGATACACAGCGCCGCTGTCCGTGCCGGAAAAGAAGGCGCCGTCAGACGGAGATGGGGAAGAAAACTGATAAACGGACTCGCGGTTGCTGCTGCTTTGTTTATTCTGTATCTGTCCTCAGGCTTATTCATGCCCTCCGTTAATACGGCTATGGGAAACATTCCTGTTGCCGGACAAATTTACAGTCTGTTTCAGGATAAGGCAGGTTCTGCGCTGTTTAAAAGCAATTTGGTGACAAAACTGAATGAGAAAGCGGAATCACGCGGAATCACGGTGACAGTGAAAAGTGTGTATTACGACAGCGGACAGCTCGTTTACAATTTTACCGTTGACAATTTGAAATCAGATGAGGAGAGCATCTCTTTTCAAGTTGATTATAAAGATCCATGGAATATGTTAGCAGAGGATTATGACAACAGTGATATGAAAAAAATGAAAGACGGGCAGTACGCGGGACAGCTTCGCCTGTTCACGGACGGCTCAAAGCTGAAAGACGGTGATAAGCTTCCGCTTGTCATTACACAAATCAAGGATATCCCCGGAAACTGGCGCTTTACACTACCTATTAAAAAACAAAAGTCCGTTTCTCTGGAAGGAACGAAAGCCGTGAATGTAAATCACGGATTATACCGCTTTTTCGATATCAGGGCGGAAAACGGAACGACGGGATCGGCTCTCCTGTATTCTATCGACTTCTATGATGCAGCCAAAAATGATGCCATCTCGATTTACGAGGCAACGGATGATGCTGGAAACCATTATGAAATGACGGCGTCGAATATTGAACTTGGCGGCAGAAAGAATCTTCCCGGCGGCGGGAAAAGAATACGCGGCCAAACTCAATTCAGCAAACCGATAGACCCGAAAGCGAAAACACTTTTCATAACGGGCGATATAAAAACAGAATCAGAGCCGGGAGAAATCGTGCCTCTGAAAACAAAACTGCCCGTCAGTTATAAAACGAAACATCATCATGTCGGCATCACCATCAAAAAGATCAAACAGCAAGGCAGACGGGTGATCGTCGATTATCAATTCACAGGAATTAATTACAGCAAAGCGGATGAAGATCAGCTGATCAATGTCGGTGAGTCAATCGGTCTCGGCAATACGAAAAAAATGAAAACCTGGCCATCGCTTAATGAGTATGAAAAAGGCTATTATCTGAAAGGGAATAAGGCGAAAGTCACGAACCTTAAAACGGGTGAAATGGAATCCGTTTTTGAATTGGATGATTCATCCAATAAAGACTATTCGTTGCGCGATTTCTCATTCGATTCATACGCTTTGTACGTCAATCAAACGGTTATGAACTTGCTGGCGGATGATAAGGGGATCACATTCGCGGTGCCGGTTCGGTCTGCGGACGGAAAATGA	MEKHQMKQLYQDIDVPKAELKNVIHSAAVRAGKEGAVRRRWGRKLINGLAVAAALFILYLSSGLFMPSVNTAMGNIPVAGQIYSLFQDKAGSALFKSNLVTKLNEKAESRGITVTVKSVYYDSGQLVYNFTVDNLKSDEESISFQVDYKDPWNMLAEDYDNSDMKKMKDGQYAGQLRLFTDGSKLKDGDKLPLVITQIKDIPGNWRFTLPIKKQKSVSLEGTKAVNVNHGLYRFFDIRAENGTTGSALLYSIDFYDAAKNDAISIYEATDDAGNHYEMTASNIELGGRKNLPGGGKRIRGQTQFSKPIDPKAKTLFITGDIKTESEPGEIVPLKTKLPVSYKTKHHHVGITIKKIKQQGRRVIVDYQFTGINYSKADEDQLINVGESIGLGNTKKMKTWPSLNEYEKGYYLKGNKAKVTNLKTGEMESVFELDDSSNKDYSLRDFSFDSYALYVNQTVMNLLADDKGITFAVPVRSADGK				NA	NA	NA	NA	NA
D1-12_02788	534	sigV_1	COG1595	RNA polymerase sigma factor SigV	GTGAAGGAAGAACGATTGATCAAAAAGGCGAAAAAAGGTGATGCCGCAGCCTTTGAAAAACTGATCACAGCTCATCAGGAGACTTTATATAAAACAGCTTATCTCTATTTGCATCACAAGGAAGATACACTGGACGCTGTTCAGGAAACGGCTTACAAGGCTTTTCTTCATATCGCGCAACTGAAGGAGCCGAAATATTTTAAAACGTGGCTGATCCGGATTTTGCTTCATACAATTTTTGCGATGAGGAAAAAGCACGGTGACGTCATCCCGTTTGAGCCGCAGCATGATACGCGCGCGGAGAATAAGAACATTGAAGAATACATAGATCTTCGGAATGCCCTGGAAACGCTTGACGAACATATACAGCTGACCATTCAGCTTTATTATTTTCAAGATTTCTCGATTGCTATGATCGCTGAACAGACCGGTATGGCGGAAGGCACTGTAAAAACGCATCTGCACAGGGCGAGAAAAGCATTGAAGCAGGAGCTGGAAAAGGAGGATAAACATATATGGAAAAGCATCAAATGA	MKEERLIKKAKKGDAAAFEKLITAHQETLYKTAYLYLHHKEDTLDAVQETAYKAFLHIAQLKEPKYFKTWLIRILLHTIFAMRKKHGDVIPFEPQHDTRAENKNIEEYIDLRNALETLDEHIQLTIQLYYFQDFSIAMIAEQTGMAEGTVKTHLHRARKALKQELEKEDKHIWKSIK	PGPT0014960_9908	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-12_02789	1233	mdrP_1		Na(+), Li(+), K(+)/H(+) antiporter	TTGAAAGGCATACGATTAAGAATTCACCCTGTGGGCTGGAATATCATTTTAGGCACCTTGTTTAGCAGAATGTCAGTCTCGATGAGCATTCCCTTCCTTTCTATTTACCTAACACAAGTAAAAGGTGTTTCTCCTGCTTTGACCGGCATCATTGTTTCAGTAAGTTCGCTGGCTGGGATTGTAATGAGCTTTTACGGAGGGTATTTGTCTGATCTTTTTGGCAGGAAAATTGTGATGATAACGTCTGTATTTTGTTGGGCGCTTGTTTTTGTAAGTTTTATGTTTGCAGATAGTGTACTCGCATTTTTTGTCATCAATGCGCTTAACGGGCTGTGTCAATCTATCTTTGAACCGGCGTCAAGAGCATTATTATCCGATATAAGCAAAGAAGAAAATCGTTTGAAGATGTTTAATTTGCGGTATACTGCGATTAATATCGGCGTAGTTTTCGGTCCTCTTTTAGGCCTTAGATTGGGAGCTGCCAAGACGGCTCTCCCATTTCTGTTCGCAGGTTTTACATATTTTCTTTATGGTCTATCTCTCGTATTTTCATTCCGAAAATTTAAATTAGACGAGAACAATCGAAAAGAAAATAAAACGACTATTGCTACGGCTTTTAATGTGACAAGGAAAGACAAGGTTTTTCTTATCACATTACTTGGAGTGATATTATCAATATCCGGATATGCGCACTTTTCTACAACATTGCCCCAATATTTTGCCGCCAAAATAGAGGACGGGGTGACCATATTTTCATGGCTTTTAGCTTTGAATGCAATTGTCGTCTTAATTGTTCAATACCCTATTGTGAATATCATGAAAAAGTTCCCGCCGATTCATTCAATCATTCTGGGAAATGCTTTAATTAGTTTCAGTTTATTATTTTTTTCGCTATCGTCCAACCCATTCATATGGGGCTCTATCGTCGTGTTTTTCACAATAGGGGAAGTTTTGATTTTTTCGATGGTTGATATGCTGGTGGATGAAATTGCAAAACCAGGCTTCAAAGGGACATACTTTGGAGCAGCAGGCTTTAACCGTTTAGGAAATGTAATCGGTCCTTGGCTGGGAGGGATTCTTCTTTCCTTTTTTGGTGTAAACGGGTCCTTCTATATGTTTTTGATCATTTTTATAACGACAGCCTCGGGAATTCCGGTTTTATTTTTGGCAAAAAAACATCTTGATAAGAGCGGACATTCAAAAGTTGATGTAACAGAATCTCATAGGAGTTAA	MKGIRLRIHPVGWNIILGTLFSRMSVSMSIPFLSIYLTQVKGVSPALTGIIVSVSSLAGIVMSFYGGYLSDLFGRKIVMITSVFCWALVFVSFMFADSVLAFFVINALNGLCQSIFEPASRALLSDISKEENRLKMFNLRYTAINIGVVFGPLLGLRLGAAKTALPFLFAGFTYFLYGLSLVFSFRKFKLDENNRKENKTTIATAFNVTRKDKVFLITLLGVILSISGYAHFSTTLPQYFAAKIEDGVTIFSWLLALNAIVVLIVQYPIVNIMKKFPPIHSIILGNALISFSLLFFSLSSNPFIWGSIVVFFTIGEVLIFSMVDMLVDEIAKPGFKGTYFGAAGFNRLGNVIGPWLGGILLSFFGVNGSFYMFLIIFITTASGIPVLFLAKKHLDKSGHSKVDVTESHRS				NA	NA	NA	NA	NA
D1-12_02790	1200		COG0436	Aspartate/prephenate aminotransferase	TTGAATAAAAGATTATCCGATAGAGTCATGAATATAAAACCTTCGGCCACTATGTCATTAAATGCCAAAACGAAGATAATGGTAAAAGAAGGAAAAGACATTATAAATATGAGTGTCGGAGAACCGGATCTTCATCCGCCATTAACAGCCTCATATGCAGGAATTCAGGCAATAGTGAAGGGGAAAACCGGGTATACGCCGGCAGCAGGGCTGATTGAATTAAGAGAATCCATTGTGCGATATCTGCTTAACGAACGAGGTTTAGAATATAAACCAAACCAAATAATTGCATCTGCCGGGGGAAAACAGCCGCTATATAATGTTTTTCAAGCAATTTGTGATCAAGACGACGAAGTTATCCTCCCTTCACCTTACTGGGTATCTTATCCGGAACAAATCAAACTGTCGGGGGCGGTTCCTGTTATTGTAAGCTGTGATGAAACTACAAATTTTAAAATCACACCCGAGAAGCTTGCAGAAGTAATTACCCCTAAGACAAAAGCTGTTGTTATCACATCTCCCAATAATCCGACAGGGTCCGTTTATTCAGAAAATGAACTGAAAGCTTTAGGAAATGTGTTGAAAGATTATTCTGAAATTTTTATCATTTCCGACGAAATTTATGATCAGTTTGTGTATGAGGGCAAGCATATCAGTCTGCCGCTCATTTTTCCCGAATTGCTGAATCGGACCATCATAACGAATGGATTTTCCAAAGTCTTTGCAATGACTGGATGGAGGCTCGGCTATATCGCAGCCCCATCGGATATAGCCGAAGCCATTGCCAGCTTTCAAAGCCATGCTACAGGCAGCCCGTCAACTATTTCTCAATATGCCGGTATTTCTGCTTTAAACGGTTTTGACAAGTCGATGGTCGAAGAATACAAAAAAAGACGCGATATATTAGTCGATGGTTTAAATCAAATTGAGGGCATTCAATGCACCAAACCAAATGGAGCCTTTTATGCGTTTCCGAACGTTTCACAATTTTTCGGAACAATGTTTGAAGATCAACAAATAATTGATGCGGAGACATTTTGTCATCTTCTGTTGGAAAAACAGCACGTGTCAGCTGTTCCCGGCACAGCATTCGGAGAGCCGAACAACATTCGTTTGAATTTTGCCATCCCAAAGGATCTTATCACAGAGGCTTTGAAAAGAATTAATAATTTTACAACTCAGCTGGCAGTTAAGGTATAA	MNKRLSDRVMNIKPSATMSLNAKTKIMVKEGKDIINMSVGEPDLHPPLTASYAGIQAIVKGKTGYTPAAGLIELRESIVRYLLNERGLEYKPNQIIASAGGKQPLYNVFQAICDQDDEVILPSPYWVSYPEQIKLSGAVPVIVSCDETTNFKITPEKLAEVITPKTKAVVITSPNNPTGSVYSENELKALGNVLKDYSEIFIISDEIYDQFVYEGKHISLPLIFPELLNRTIITNGFSKVFAMTGWRLGYIAAPSDIAEAIASFQSHATGSPSTISQYAGISALNGFDKSMVEEYKKRRDILVDGLNQIEGIQCTKPNGAFYAFPNVSQFFGTMFEDQQIIDAETFCHLLLEKQHVSAVPGTAFGEPNNIRLNFAIPKDLITEALKRINNFTTQLAVKV	PGPT0020110_2210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-12_02791	885	pphA		Phosphonopyruvate hydrolase	GTGAAAAACAGAAAATCATCAATTTTTAGAGATGCTTTAAACAGTAAAGGTTTGGTGAAAGTTGCGGGAGCTCATGACGGTTTAAGCGCCAAATTAGCAGAGAAAAACGGATTTAATGCCGTATGGGCAAGCGGTTTGGGAATCTCGGCTGTGCAAACTGTACCTGATGCCAGTATATTAACGATGACTGAATTTCTTGAAGCCGCCGTCATTATGAATGAATCATGCAATTTGCCGGTCATCGCTGACTGTGATTCCGGCTACGGGAACATTCACAATGTCACCCGCATGATCAAAAAATACGAAGCTGCTGGTATTGCCGGAGTTTGTATTGAAGATAAAGTATATCCAAAATTAAACTCATTTGACGACAGACAACAGATTCTTGTCAGTACTGAAGAATTTTGCGCGAAAATTAGAGCCGCAAAGATGGCTCAGCAAAATGACGATTTTGTATTGATTGCCCGTGTCGAAGCTTTAATTGCTAAATTGGGTCAAGAAGAAGCCTATACAAGAGCAAAAGCTTATGTTCATGCTGGAGCAGATGCAATTTTAATTCATTCAAAAGAACAATCGCCTGATGAAATTATTGAGTTTGTTAACAATTGGGACGTGGATGCGCCGTTGGTTGTGGTTCCGACTAAATATCCGACGCTCTCAATGGAACAGCTTGAGAAATTGGGAGTGAAGGTTTCCATCTATGCGAATCAGGCGTTGCGCGCTTCTGTTAAGGCTATAAATGATACATTCGAAAGCATTATAAATAATAAATCGTCTTTGCAGATTGAAAATGACATCGTGAGCGTTAATGAGATATTTGACATTCAAGACGTTCCGGGGATGAAGCAACTGGAGCGTTTGATCCATAGACAGCCGGCTAACTGA	MKNRKSSIFRDALNSKGLVKVAGAHDGLSAKLAEKNGFNAVWASGLGISAVQTVPDASILTMTEFLEAAVIMNESCNLPVIADCDSGYGNIHNVTRMIKKYEAAGIAGVCIEDKVYPKLNSFDDRQQILVSTEEFCAKIRAAKMAQQNDDFVLIARVEALIAKLGQEEAYTRAKAYVHAGADAILIHSKEQSPDEIIEFVNNWDVDAPLVVVPTKYPTLSMEQLEKLGVKVSIYANQALRASVKAINDTFESIINNKSSLQIENDIVSVNEIFDIQDVPGMKQLERLIHRQPAN	PGPT0011300_241	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-FOSFOMYCIN_BIOSYNTHESIS,PGPT0011300-pepM|aepX-K01841	NA	NA
D1-12_02792	1212	purK_2		N5-carboxyaminoimidazole ribonucleotide synthase	ATGGAGAGGAAAAGACTGTTCCTGATCGGGATTCCTGAAACGCATATTGAGAAGGCCGTTACGAGGGCAAAACAACTTGGTTTTGACGTCTTATTAGGAGATACAGAAGCTTCATTAAAAAAATATGAGCATTTAATAAAGGAAGCTGACCAAAAAATCGCATTAGATTATACCAATCATGAGAATCTATTCTCAGTCGCTAAAGAAATCCATGACAAAGAGCCTTTAGATGCCATATTTACTTTCAAAGAAGCCGGCTTATTCAATGTATCCAAACTTCAGCAGGCATTTCATTTAAAAGGAAATCCTCCGTCTGTGGTGCAAGCATGCCTTGATAAATATACAACGCGCCGGCTTTTAAAAAAGGCAGGACTAAACTCTCCCGATTTTGGATTGTGCAGGAGCGTGGAAGACGTATACGATTTTTGGAATACATCTCAACATCCTATCATTTTAAAGCCGAGATCTCAGCAAGGCAGTATAGGCGTTATAAAAGTTGAGAAAAAAGAGGACATTGAGGCGTGTTTTAAAGAGTGTTCAAAACATGACGAGGAGAAGTCAGTATTAGCCGAAGAATTTATAGAAGGGCAGGAAATTTCAATAGAAGCCGATGTCTGCCAAGGCAAGGTCGACATATTTGGTGTGACCGAAAAGTTGCTATACCCCGGGACTTTTGTAGAATCTGGGCATATATCGCCGTATAAACATAAAGAAAAACATCAGGATTTGTATAAGAATCTGGTCAAGGAAGTTGTTCATGCCATGGGGATCGTATTTGGCCCCTTGCATATTGAAGGGTATCACACAAATAAAGGATTTGTGGTTGGCGAGGTACACACCCGCTATGGCGGAGACAACATAGTGACCATTACAGAAATCGCCATGAAATGTGATATGCATACACCTATTTTTGCGGAACTGGCGGGCATCCCATATCAACCGGAAAGGAAACATGCTCAAAGCGAAGTATGCGCCGTTCGTTTTTTAGAAACGAACCAAGGGGTTGTACGCGCAATCAAAGGGATCAGCGATCTCAAAATGATGGGGAATGTAGTAGATTTTCATGTAAATTGCAGTGTCGGTGATAGAATCAGACCGATCAAAAACAGCTACGATAGAGCAGGATGGATGATTGTAAAGGGGAAAAATGAGCGAGAAGTCAATCACGCATTACATGATGCGATTGACAAAATAAAAATAATCATTAGGTGA	MERKRLFLIGIPETHIEKAVTRAKQLGFDVLLGDTEASLKKYEHLIKEADQKIALDYTNHENLFSVAKEIHDKEPLDAIFTFKEAGLFNVSKLQQAFHLKGNPPSVVQACLDKYTTRRLLKKAGLNSPDFGLCRSVEDVYDFWNTSQHPIILKPRSQQGSIGVIKVEKKEDIEACFKECSKHDEEKSVLAEEFIEGQEISIEADVCQGKVDIFGVTEKLLYPGTFVESGHISPYKHKEKHQDLYKNLVKEVVHAMGIVFGPLHIEGYHTNKGFVVGEVHTRYGGDNIVTITEIAMKCDMHTPIFAELAGIPYQPERKHAQSEVCAVRFLETNQGVVRAIKGISDLKMMGNVVDFHVNCSVGDRIRPIKNSYDRAGWMIVKGKNEREVNHALHDAIDKIKIIIR				NA	NA	NA	NA	NA
D1-12_02793	1263	purD_2		Phosphoribosylamine--glycine ligase	ATGGAAAAACATATTTTATTTTTTAATGCTACTTATATTAAAAAAATTTCTACTTTGGAGACTGCTAAAAATTTGGGCTTGACGGTTTCTGTTGTCGGCCCTGAACTGCCTGAATGGTCGCGGCCATTCGTTGACCATTACATTTCCGCAAATACTTATCAGATTGATGAGACTATAGCTGTTCTGAAGGAAACTGCCAAAGAAAATCCTTTTGATGGAGTCATTACATTCTGGGATAGAGATGTGGTTCCGGTGGCGGTAACTGCCCGAGAACTTAACTTAAAGGGCAGTCCGGTGGAAGCGGCAGAACGGGCTCGAAACAAATGGAAGATGCGTCAATGTTTGAACCGCGCACAAGTTCCTCATCCAAAATATTGCAAATTTACAAATTGGACCGAATTATATCATGCAAGCATTGATATGGAATACCCATTGATCGTTAAACCTGTGGGTGCTTCTGCCAGTAAAGGCGTATTCCGAATATCAAAGCCTGAAGATTTAAATCGCGCATATCAGCAGCTGTTAAACGCCGCGGTGCCGGAAAACGATAAAATGTTTTCTTTTTATCAAAACGAGTATATTGTTGAAGAGTTTATGAACGGACAAGAAGTCAGCATTGAGGGAGTGATTTCCGACGGAGTCATTCACTTTGCAGGTGTTACTGAAAAATGGACGGATCAGTATTTCGAAGAATACCAGCATGCATTTCCCGCCAGGCTGCCGGAGGCTGTGGAACGTGAATTATTCCACATCACCAGTGAAGGGATAAAAGCTTTGGAGCTGAACAATTGTGGTTTTCATGCCGAGGTCATGATCACAGAGAAAGGGTGCAAGATTATCGAGATCAACGGTCGTCTGGGCGGCGATTTTATTACTACCCATTTGGTTCCTCTAGCCAAAGGTATAAATATAACGCGCGCAAACCTATTGGCTGTATTAGGAGAAACAATAAGCTTTGAAGCTTCGAAAAGAAGAGCTGCCTGCGTCAGGTTTTTAATTGCAGACCGTGCTGGTGTGATAGAAAAGTGGGAAGGTGTCGAATCGATCAAAGAAATGCCCGGGGTCGTTGAATTTGTTTTAGAAAAGCAGCCGGGCGATCATGTTGGCCTGCCGCCTGAAAAGTTTCATGATTCCCGGATTGCTTATGTCATCACAGAAGCCGAAGATACAGAAAAAGCGATCGAATATGCTGAAAATGCTTTATCTGAAGTGAGGTGTTTCATCAATGGAGAGGAAAAGACTGTTCCTGATCGGGATTCCTGA	MEKHILFFNATYIKKISTLETAKNLGLTVSVVGPELPEWSRPFVDHYISANTYQIDETIAVLKETAKENPFDGVITFWDRDVVPVAVTARELNLKGSPVEAAERARNKWKMRQCLNRAQVPHPKYCKFTNWTELYHASIDMEYPLIVKPVGASASKGVFRISKPEDLNRAYQQLLNAAVPENDKMFSFYQNEYIVEEFMNGQEVSIEGVISDGVIHFAGVTEKWTDQYFEEYQHAFPARLPEAVERELFHITSEGIKALELNNCGFHAEVMITEKGCKIIEINGRLGGDFITTHLVPLAKGINITRANLLAVLGETISFEASKRRAACVRFLIADRAGVIEKWEGVESIKEMPGVVEFVLEKQPGDHVGLPPEKFHDSRIAYVITEAEDTEKAIEYAENALSEVRCFINGEEKTVPDRDS				NA	NA	NA	NA	NA
D1-12_02794	1551	guaA		GMP synthase [glutamine-hydrolyzing]	GTGACAACCATGACGAAGTTAGTGAATGAAATGATTCTTGTTCTTGATTTCGGCAGTCAGTATAACCAGCTGATTACCCGCCGGATCCGTGAATTTGGCGTATATAGCGAGCTGCATCCCCATACGTTGACAGCTGAGGAAATCAAAGAAATGAATCCAAAAGGAATTATCCTTTCAGGCGGACCAAACAGTGTATATGATGAAGGGTCTTTCCGCTGTGATGAAAAAATCTTTGAACTTGATATTCCTGTATTGGGCATCTGCTACGGCATGCAGCTGATGACTCATTACCTCGGAGGGAAAGTCGAGGCGGCAAGCCAGCGCGAATACGGAAAAGCGAGCATTCAGATTCAAGGAACTCCTGACTTGTTCAAAGATCTTCCGGAAGAACAAGTTGTCTGGATGAGCCACGGCGACTTAGTCGTACAAGTGCCGGAAGGGTTTACGGTAGACGCGACAAGCCATCACTGCCCGAACTCGGCGATGAGCAAAAAAGACAAAAAATGGTACGGTGTTCAGTTCCATCCGGAAGTCCGTCATTCAGAATACGGAAATGACCTTCTGAAAAACTTTGTCTTCGGGCCTTGTGAATGTAAAGGCGAATGGTCAATGGAAAACTTTATCGAAATCGAAATGCAAAAAATCCGCGAAACCGTCGGAGACAAACAAGTGCTTTGCGCTTTGAGCGGCGGAGTCGATTCTTCTGTCGTAGCCGTTTTGATTCATAAAGCGATCGGCGACCAGCTGACTTGTATTTTCGTAGATCACGGCCTTCTCCGCAAAGGCGAAGCGGAAGGCGTCATGAAAACGTTCAGCGAAGGCTTTAATATGAATGTCATTAAAGTTGATGCGAAAGACAGATTCTTAAACAAGCTGAAAGGTGTTTCTGATCCTGAGCAAAAACGCAAAATCATCGGCAACGAATTCATTTACGTGTTTGATGATGAAGCGGACAGGCTGAAAGGAATCGACTACCTTGCACAAGGAACGCTTTACACAGACATTATTGAAAGCGGAACGGCAACTGCGCAAACGATCAAATCGCACCACAATGTCGGCGGACTTCCTGAAGATATGCAGTTTGAGCTGATCGAACCGCTGAACACTCTTTTCAAAGATGAAGTGCGCGCGCTCGGCACAGAGCTCGGCATCCCGGATGATATCGTATGGCGTCAGCCGTTCCCGGGCCCTGGACTTGGCATCCGCGTACTCGGCGAAGTAACGGAAGAAAAACTTGAGATCGTTCGTGAATCAGACGCGATTCTGCGTGAAGAAGTGGCGAACCACGGCCTTGAGCGCGACATCTGGCAGTACTTCACGGTTCTTCCTGACATCCGCAGCGTCGGCGTCATGGGAGATGCGAGAACGTATGATTACACAATCGGTATCCGTGCCGTAACATCAATTGACGGCATGACATCTGACTGGGCGCGTATCCCTTGGGATGTGCTTGAAGTGATTTCGACACGGATCGTCAATGAAGTGAAACACATCAACCGCGTCGTGTATGACATTACGAGCAAGCCGCCTGCAACGATTGAGTGGGAATAA	MTTMTKLVNEMILVLDFGSQYNQLITRRIREFGVYSELHPHTLTAEEIKEMNPKGIILSGGPNSVYDEGSFRCDEKIFELDIPVLGICYGMQLMTHYLGGKVEAASQREYGKASIQIQGTPDLFKDLPEEQVVWMSHGDLVVQVPEGFTVDATSHHCPNSAMSKKDKKWYGVQFHPEVRHSEYGNDLLKNFVFGPCECKGEWSMENFIEIEMQKIRETVGDKQVLCALSGGVDSSVVAVLIHKAIGDQLTCIFVDHGLLRKGEAEGVMKTFSEGFNMNVIKVDAKDRFLNKLKGVSDPEQKRKIIGNEFIYVFDDEADRLKGIDYLAQGTLYTDIIESGTATAQTIKSHHNVGGLPEDMQFELIEPLNTLFKDEVRALGTELGIPDDIVWRQPFPGPGLGIRVLGEVTEEKLEIVRESDAILREEVANHGLERDIWQYFTVLPDIRSVGVMGDARTYDYTIGIRAVTSIDGMTSDWARIPWDVLEVISTRIVNEVKHINRVVYDITSKPPATIEWE	PGPT0021580_3766	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
D1-12_02795	2208			hypothetical protein	ATGCCGCATGACGAGAACCAGGGAAGCAGGCTGAGTCTGCTGCTGTTTTATTTTCTCGCTTTTTTATTGTTATGGGAATGGCTCAGGCCGCTGCACAATTTTACGGATACAAAACATACCGGTTTTTTCATCGTTTTTATCGGTTTGGCATTTCTGCTGTCATTCTTCCGGATGAGGTGGTACGTAACCGTGCCGTCCTGCATTCTGTTTACGTTGATCAGTATTCACATCCTGTTTTATAAAGGTTCGGTTTTTCAGCCGGAATGGCTCGTTTCTTTTTTGCGGGACGTGATGCAAAATGCCCGCCACATCGGGACCGGAAGATGGAATGATATGAATCCGTCATTCCGCACATTGCTGTTTTTTGTGCTTTTATGGCTGCTCGTGTATTTGCTGCATTACTGGGTGATCTATCAGCGGAAAATCTTATTCTTTTTTATCATGACGGTGGCGTATATCACCGTGCTTGATACGTTTACTCCCTATGATGCCGCATACGCCGTCATCCGGATCGTCTTTATCGGCTTTTTGATGATGGGGCTTTTGTATATGGAGCGCATCCGGCTTACGGAACACATAGCGTTTAAAAAAAGATTGATACTCAAATGGTTTCTGCCGCTGATGCTGTTTATCTGCGCTTCCGTCGTATTCGGTCTGGCGGCTCCGAAATCAGACCCGAACTGGCCGGACCCCGTGCCGTTTCTTAAAAAAATAACAAACCACAAAGAAGTGCCCGCCGCCGAAAGCAAAATCGGCTACGGCAATCATGATGAAACATTGGGCGGCCCTTTTCAGGAGGATGATACGCCGGTTTTCACATGGAAGGGAAAAGAACGGGCGTACTTCCGGGTGGAAACGAAGGATACATACACGGGGAAAGGCTGGGTGGAGACCGATCAGGGCATGTCCTATAAACTGAACGGCGGCAACGTGGAAGATATATGGTTTGACCGGAGTGTGCAGACGAGACGATATACGGCACAGGTGTCCATTGATGAGAATTATCTCTATAATCACGTCATGTATCCGATCGGCGTCTCCAATATTAAACCGAAGCACTCGATTCAGCTTGAAATGAACGGAAACACCGAGCAAATTACGCCGGTCAGTGAACAAGTGGGCAACATCCGCAATATGGGACGGTACACGGTGACTTTTCAGGCGCCCGTCTTTAAGCTGAATGATCTCAGAAAAGTGAAAGTAAAACGATACCGTGAGCAGAATCAATTCAATGACCGGTATTTACAGGTCCCCGACAGCCTTCCGAAAAGAGTGAGACAGCTTGCGGACAGACTGACGCGGGATCATCATAATATGTTCGATAAAGCGAAGGCGATCGAGGATTATCTCGGATCTTCCGCATTTTCGTATCATACACAGGATGTCGCGGTTCCGGAGCACAATCAGGATTATGTCGATCAATTTCTGTTTGAAACGAAAAGAGGATATTGTGATAACTTTTCATCGGCAATGGCCGTGCTGCTCCGATCTGCGGGTATTCCCGCCCGTTGGGTGAAGGGTTATACATCCGGCGAGTATAAAGGGGCAGGCGACCATAACGGCCACATTTATGAAGTCACGAACAACAACGCCCATTCGTGGGTAGAAGTGTATTTTCCGGATCAGGGCTGGGTGACGTTTGAGCCGACGAAAGGCTTCACCAATCCGACGGAGTTTACGTCAGAGCAAAATCATACCGCGGCAAAAGACAGCGGAGGCTCAGCGGGGAACTCGGATGAACCGTCTGACAAGCAGCGTCAGGAAACAAAGCCGGAAAAAGAGGAAAAGCCGAAAAAGCGGGATCACAGCGCGGCACCGCAGCCTGTGATCCGCAACAAAACCGCGGCACAGCTATGGCCGTATGCAGCCATCGTCATTTTGATTTCAGCCGCGGCGGCACTCGCCTGGCTGCTCCGGGCGCGCTGGATTCCGCACGTTACAGCAGCCAGATTGAAGCGGCGAACGGATGAAGACGTCTTTTTCGACGCATATGCCGCACTGCTCCGACAGCTGAAACGAAAAGGGTTCAGCAGGGGAGACGGAGAAACGCTCCGTGATTTTGCCGCGAGGGTTGACGAGGCGCACCATACAAACGACATGTCCGAGCTGACGCTGCGCTATGAGCGTGCGTTATACCGCAGCGATAATGCCGCAAAGCTTTGGAATGAATCGGGACAGTTGTGGGAAAATATAATTAAAAGAAGATAG	MPHDENQGSRLSLLLFYFLAFLLLWEWLRPLHNFTDTKHTGFFIVFIGLAFLLSFFRMRWYVTVPSCILFTLISIHILFYKGSVFQPEWLVSFLRDVMQNARHIGTGRWNDMNPSFRTLLFFVLLWLLVYLLHYWVIYQRKILFFFIMTVAYITVLDTFTPYDAAYAVIRIVFIGFLMMGLLYMERIRLTEHIAFKKRLILKWFLPLMLFICASVVFGLAAPKSDPNWPDPVPFLKKITNHKEVPAAESKIGYGNHDETLGGPFQEDDTPVFTWKGKERAYFRVETKDTYTGKGWVETDQGMSYKLNGGNVEDIWFDRSVQTRRYTAQVSIDENYLYNHVMYPIGVSNIKPKHSIQLEMNGNTEQITPVSEQVGNIRNMGRYTVTFQAPVFKLNDLRKVKVKRYREQNQFNDRYLQVPDSLPKRVRQLADRLTRDHHNMFDKAKAIEDYLGSSAFSYHTQDVAVPEHNQDYVDQFLFETKRGYCDNFSSAMAVLLRSAGIPARWVKGYTSGEYKGAGDHNGHIYEVTNNNAHSWVEVYFPDQGWVTFEPTKGFTNPTEFTSEQNHTAAKDSGGSAGNSDEPSDKQRQETKPEKEEKPKKRDHSAAPQPVIRNKTAAQLWPYAAIVILISAAAALAWLLRARWIPHVTAARLKRRTDEDVFFDAYAALLRQLKRKGFSRGDGETLRDFAARVDEAHHTNDMSELTLRYERALYRSDNAAKLWNESGQLWENIIKRR				NA	NA	NA	NA	NA
D1-12_02796	1170			hypothetical protein	ATGAGAAAGAAGATGCATTGGCTTCTATATGGCTGGAAGCTGCTTATGTTGGCCGTACTGACGGCGGCTGTCTTCTCTTATGCCATGTTTCAGGGCGGATTTGTGAGCTGGTTTTTATTTTATGCGTTTTTGCCGTTTACCGTTTACGCCGGGCTGGTCGCTGTGTACCCGCTGCGGGCGTTTCAGGTGACGCGTGACGTGTCCTCCGCCCAGTTAACCTCAGGCGACAGGCTGTCTGTCACCATCAGGCTGACGAGGCGCCTGCCGTTTCCGCTGACATATATGGTCATTGAAGATGTGATGCCGGAAACGCTTGGTGAGAGGCGCAGTGCGAAACAGCTCGTGTTTCCGTGGTTTCAAAGGAAGCTGATGTTACAATATGAGCTGCCGCAGGTGCCGCGCGGAGAGCATCATTTACATACGATCAGAGTGCGGACGGGAGATGTTCTCGGGCTTTTGGACAAGACGGCGTCGTTTTCCGTAACGGATACGGTTCTGGTTTTCCCGGCGTACGGGCCTGTTCACTATAAGCCGCAGGCTGCATCAGGAGAAGAGGGTGCGGGTGCCGGCGCTCCGTTTCAGGTACACCGCACAGCAATGGCCGCGAGCGTCAGAAATTATCAGCCGGGCGACCGGTTTTCCGCACTTGACTGGAAAACATCGGCGCGGCGAAATGAGCTGATGACGAAGGAATTTGACCCGCTGCAGAGTATGAATATGATTCTCCTTTTGGACTGCAGGCCGTCCCCTTCGTTTGAAGCCGCGGTGTCAGCTTCGGCATCCCTGCTTTACACGGCGCTTGTGAAGGGCTCTCCCGCAGGATTTATTTCATTGGGGAGCGACCGGACTGTATTTCCCGTCCGGGAGGGAGACCGGCATTTCAGAAAGATGCTGCGTTACCTGGCATCAGCTTCAGAATCGGAAGAAGCCGATGCAGGCGGGCGTTTAGGGAAAGAACTGGGTGAAGCTTCCATTGCCGTCGTGACGGGCAGTCTTACAGAAGACCTTCTCAAACAGGCTGAGCCCGGCCGTGCTGACATGACGGTGTTTTTGGCGAAAGAAACGAATGCCGCGCTTTCGGAGAAAGAACGGAAACTCGCTCTCATCTTCGCTCAGAAAAATATTAAGGTGCAAATGATCAGGGACAAACGGGTGTCCCATGTTGTTTAG	MRKKMHWLLYGWKLLMLAVLTAAVFSYAMFQGGFVSWFLFYAFLPFTVYAGLVAVYPLRAFQVTRDVSSAQLTSGDRLSVTIRLTRRLPFPLTYMVIEDVMPETLGERRSAKQLVFPWFQRKLMLQYELPQVPRGEHHLHTIRVRTGDVLGLLDKTASFSVTDTVLVFPAYGPVHYKPQAASGEEGAGAGAPFQVHRTAMAASVRNYQPGDRFSALDWKTSARRNELMTKEFDPLQSMNMILLLDCRPSPSFEAAVSASASLLYTALVKGSPAGFISLGSDRTVFPVREGDRHFRKMLRYLASASESEEADAGGRLGKELGEASIAVVTGSLTEDLLKQAEPGRADMTVFLAKETNAALSEKERKLALIFAQKNIKVQMIRDKRVSHVV				NA	NA	NA	NA	NA
D1-12_02797	963			hypothetical protein	ATGGCTTATAAAGAAGAGCTGCATCCGCTGCTGGAGAAAGCCGTTGAGCATATTGAAAACATCATCATAGGAAAACGGGATATCGCCATACTCAGTCTGGCCGCCATTCTCGCAAAAGGGCATGTGCTGCTGGAAGACGTGCCGGGAGTCGGAAAAACGATGATGGTCCGCGCTTTGGCCAAACTGATCGGAGCTGACTTTAAGAGGATTCAGTTCACGCCGGATCTTCTGCCGTCAGATGTGACGGGTGTCTCTATTTATAATACGAAAACGATGGAATTTGAATACCGCCCGGGACCGATCATGGGGAATATCGTGCTGGCTGATGAAATTAACAGAACCTCTCCGAAAACACAGTCTTCTCTGCTTGAGGCAATGGAGGAAGGGAATGTCACGATTGACGGAAAGACAATGCGGCTGGCTGAGCCGTTTTTCGTCATGGCCACACAAAACCCGGTTGAATATGAAGGAACGTATCCGCTTCCCGAAGCCCAGCTTGACCGGTTTTTATTTAAGCTGCGCATGGGCTATCCGACTGCCGAGGAAGAGCTTCGGGTTCTGTCTTTGCAGGAAGGGCGCAATCCGCTTGAAACAATCGAGCCCGTCATTTCTAAAGAACAGTTTATCAGCCTTCAGCAAAAACTGGAGCAGGTGCGGGTGGATGATGGAATAAAAGCGTATATCGTCGGCATTACTCAGCATACCCGCCGGCATCCGTCCGTACATCTGGGCGTAAGTCCGCGCGGTTCAATCTCATTAATGAAAGCCGCGCAGGCGTACGCGCTGCTTCATGACCGCGATTACGTCATTCCTGATGACGTCCAGTATTTGGCTCCGTATACGCTGCCGCACAGAATGATCCTGACCGCAGAGGCGAAATTTAACGATGTGACGCCGGAAGCGATTATAGAAGACATCATGCAAACGGAAAAAGTGCCCGTCCAAAGGATGTCGGTCCGCTAA	MAYKEELHPLLEKAVEHIENIIIGKRDIAILSLAAILAKGHVLLEDVPGVGKTMMVRALAKLIGADFKRIQFTPDLLPSDVTGVSIYNTKTMEFEYRPGPIMGNIVLADEINRTSPKTQSSLLEAMEEGNVTIDGKTMRLAEPFFVMATQNPVEYEGTYPLPEAQLDRFLFKLRMGYPTAEEELRVLSLQEGRNPLETIEPVISKEQFISLQQKLEQVRVDDGIKAYIVGITQHTRRHPSVHLGVSPRGSISLMKAAQAYALLHDRDYVIPDDVQYLAPYTLPHRMILTAEAKFNDVTPEAIIEDIMQTEKVPVQRMSVR				NA	NA	NA	NA	NA
D1-12_02798	873	mneS_1	COG0053	Manganese efflux system protein MneS	GTGGAGAGATATCATGAATTGAAAAAAGGCGAAACCGGAGCGATTGTCAGTATTGGCGCATATGCGGCATTGTCGGCTGTGAAGCTTGTGATCGGTTATTTGTTTCACTCAGAAGCGCTTCAGGCCGACGGTTTAAATAATACGACTGATATCGTGGCATCTGCGGCTGTTTTCATCGGTTTGCGCATCTCTCAGAAACCTCCTGACGAAGATCATCCTTACGGCCATTTTCGGGCGGAGACCGTCGCGTCACTCATCGCTTCCATTATTATGATGCTTGTCGGAATGCAAGTGCTGTTCAGCGCCGCGCAATCTATTTTTTCCGTTAAAGAGGAAACACCGGATATGATAGCCGCCTGGACGGCCGCGGGGAGCGCCGTCGTGATGCTGATGGTCTACCGCTATACGAAAGGGCTTGCCAAAAAGGTAAACAGCCAGGCCCTTTCAGCTGCGGCCGCTGATAATAAATCAGATGCGCTCGTCAGTATCGGCACGTTTATCGGAATTTTTGCTTCACAGTTCCATTTGGCTTGGGTGGATACGGTTACCGCGTTTATCATCGGATTGATCATCTGCAAAACCGCGTGGGATATTTTTAAGGAATCCTCTCATTCGCTGACTGACGGTTTTGATGTCAAACATATTTCTGATTATAAAAAGACGATTGAACAGATTGCGGGCGTCAGCCGTTTAAAAGATATTAAAGCGAGATATCTGGGCAGCTCCGTTCATATTGATGTCGTCATTGAAGTGCCGTCTGATCTGAACATTAAAGAGAGTCATGAGATCGCAAATGAGGTAGAACGCAAGATGAAAGAGGAACATGCCATTGACCATTCACACGTTCATATGGAGCCTCTCCAGCTGAAATAA	MERYHELKKGETGAIVSIGAYAALSAVKLVIGYLFHSEALQADGLNNTTDIVASAAVFIGLRISQKPPDEDHPYGHFRAETVASLIASIIMMLVGMQVLFSAAQSIFSVKEETPDMIAAWTAAGSAVVMLMVYRYTKGLAKKVNSQALSAAAADNKSDALVSIGTFIGIFASQFHLAWVDTVTAFIIGLIICKTAWDIFKESSHSLTDGFDVKHISDYKKTIEQIAGVSRLKDIKARYLGSSVHIDVVIEVPSDLNIKESHEIANEVERKMKEEHAIDHSHVHMEPLQLK				NA	NA	NA	NA	NA
D1-12_02799	1386	gabP	COG1113	GABA permease	ATGAATCAGCCTAACTCTTTATCAAAGGGATTAAAAACCCGGCATATGACTATGATTTCAATTGCCGGCGTGATCGGCGCCGGATTATTTGTCGGAAGCGGATCCGTCATTCATTCCACCGGACCCGGAGCGATTGTCTCCTACGCTTTAGCAGGATTATTAGTGATTTTTATTATGAGAATGCTGGGGGAAATGTCCTCCGTCAACCCGACAAGCGGTTCGTTTTCACAGTACGCGCATGATGCCATCGGTCCTTGGGCCGGTTTTACGATCGGATGGCTGTATTGGTTTTTCTGGGTCATCGTCATTGCTATTGAAGCCATTGCAGGCGCCGGAATCATACAGTACTGGTTCCCGGGCATTCCGTTATGGCTGACGAGTCTGCTTCTGACCGTGCTGTTAACACTGACGAATATTTATTCAGTTAAATCGTTCGGCGAATTTGAATACTGGCTTTCCTTAGTGAAGGTAGCGACGATCGTTGTCTTCTTAATCGCGGGATTTGCGTTCATTTTCGGAATCGTCCCCGGCAGCAAGCCGGTCGGGCTGGAAAATCTGGCGGGCAGCGGCGGATTTTTCCCTAAAGGTCCAAGTTCCGTTCTGCTCGGCATCGTCGTTGTCATTTTTTCTTTCATGGGATCTGAAATCGTCGCAATCGCAGCGGGAGAAACGTCAAATCCGGTCGAATCCGTCACAAAGGCGACCCGCTCAGTCGTTTGGCGGATCATTATTTTTTACGTCGGCTCCATTGCGGTTGTGGTCACACTGCTGCCGTGGGATTCAGCCAATATTTTGGAAAGCCCCTTCGTTGCCGTTTTGAGCCATATCGGGGTTCCCGCAGCCGCTCAAATCATGAATTTTATCGTCCTGACAGCCGTTCTGTCCTGCCTGAACTCCGGGCTTTATACGACGTCACGGATGCTGTATTCACTGGCAGAGCGAAATGAAGCGCCGCGGCGTTTTATGAAATTGAGTAAAAGAGGCGTACCGGTTCAAGCCATTATCGCCGGCACCTTTTTCTCCTATATTGCCGTTGTTATGAACTACTTTTCTCCCGACTCCGTATTCTTATTTCTGGTCAATTCATCAGGGGCGATCGCACTGCTCGTCTATCTCGTCATCGCCGTCTCACATCTGAGAATGAGAAAGAAAATCGAACGGACAAACCCTGAATCTCTTAAAATCAAAATGTGGTTCTATCCGTACTTAACCTACCTGACGATCATCGCCATTTGCGCCATCTTGTTATCTATGCTGTTTATCAGCTCAATGCGGTCTGAATTTCTGCTGACAGGATTTATTACTCTGCTGGTGCTTGCCTCATATGTATTCCGCAAAAAACAAAAACCGAAAGAGAGCGCTTCCGAAAGCCGGGTTGCGCAATAA	MNQPNSLSKGLKTRHMTMISIAGVIGAGLFVGSGSVIHSTGPGAIVSYALAGLLVIFIMRMLGEMSSVNPTSGSFSQYAHDAIGPWAGFTIGWLYWFFWVIVIAIEAIAGAGIIQYWFPGIPLWLTSLLLTVLLTLTNIYSVKSFGEFEYWLSLVKVATIVVFLIAGFAFIFGIVPGSKPVGLENLAGSGGFFPKGPSSVLLGIVVVIFSFMGSEIVAIAAGETSNPVESVTKATRSVVWRIIIFYVGSIAVVVTLLPWDSANILESPFVAVLSHIGVPAAAQIMNFIVLTAVLSCLNSGLYTTSRMLYSLAERNEAPRRFMKLSKRGVPVQAIIAGTFFSYIAVVMNYFSPDSVFLFLVNSSGAIALLVYLVIAVSHLRMRKKIERTNPESLKIKMWFYPYLTYLTIIAICAILLSMLFISSMRSEFLLTGFITLLVLASYVFRKKQKPKESASESRVAQ	PGPT0007665_759	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007665-gabP-K11735	NA	NA
D1-12_02800	1539	cotA	COG2132	Spore coat protein A	ATGGCACTAGAAAAATTTGCAGATGAACTGCCGATTATCGAAACACTCCAGCCGCAGAAGAAATCAGACGGCAGCACGTATTATGAAGTCACCATGAAGGAATGCTTTCACAAGCTGCACCGCGATCTCCCGCCGACCCGGCTGTGGGGGTATAACGGTTTATTTCCCGGCCCGACGATCGACGTGAACCAAGATGAGAACGTCTATATTAAATGGATGAATGACCTGCCGGATAAGCATTTTCTGCCTGTGGATCATACCATTCACCATTCAGAAAGCGGCCATCAGGAACCCGATGTCAAAACCGTCGTCCATTTACACGGAGGAGCAACGCCGCCGGACAGCGACGGCTACCCGGAAGCCTGGTTCACAAAGGATTTTAAGGAAACGGGTCCTTATTTTGAGAAAGAGGTATACCATTATCCAAACAAACAGCGCGGGGCTCTGTTATGGTATCACGATCACGCCATGGCGATTACGAGGCTCAATGTGTACGCCGGGCTTGCCGGGATGTATATCATTCGCGAGCGAAAAGAAAAGCAGCTGAAGCTTCCCTCCGGAGAGTATGACGTACCGCTTATGATTTTGGACCGCACGTTAAATGACGACGGTTCCTTGTCTTATCCGAGCGGACCTGCTAACCCTTCCGAAACGCTGCCCGACCCTTCCATCGTCCCGTTTTTTTGCGGAAATACCATTCTCGTCAATGGTAAAGCGTGGCCGTATATGGAAGTTGAACCGCGGACATATCGTTTCCGCATCCTTAATGCCTCCAATACAAGAACATTTTCTCTCTCGCTCAATAACGGCGGGAAGTTTATCCAAATCGGTTCTGACGGCGGACTGCTTCCCCGCTCTGTCAAAACACAATCTATCAGCTTAGCCCCGGCAGAGCGGTATGATGTGCTCATCGATTTCTCCGCCTTTGACGGAGAACATATCATTTTAACGAACGGCACCGGCTGCGGGGGCGACGCCGATCCGGATACAGACGCCAATGTGATGCAATTCCGCGTCACAAAACCGCTGAAGGGAGAAGACACAAGCCGTAAGCCTAAATATCTTTCAACAATGCCTAATGTGACATCAAAGAGAATACACAATATCAGGACGCTTAAACTCACAAATACGCAAGACAAATACGGCCGGCCCGTTTTGACGCTGAATAACAAGCGATGGCATGATCCTGTGACAGAAGCGCCGAAGCTCGGCACAACGGAAATCTGGTCGATTATCAATCCGATGGGGGGCACCCATCCGATACACCTGCACCTTGTTTCCTTCCAAATCCTTGACCGGCGTCCTTTTGACTTAGAGCGTTATAACAAATTCGGCGACATTGTGTATACAGGCCCCGCCGTCCCGCCTCCTCCAAGTGAGAAAGGCTGGAAAGATACCGTGCAGGCGCACTCGGGAGAGGTCATCAGAATCGCGGCGACTTTCGCTCCTTACAGCGGACGCTACGTATGGCACTGTCATATTTTAGAGCACGAAGATTACGACATGATGAGACCGATGGACGTCACGGATAAGCAGTAA	MALEKFADELPIIETLQPQKKSDGSTYYEVTMKECFHKLHRDLPPTRLWGYNGLFPGPTIDVNQDENVYIKWMNDLPDKHFLPVDHTIHHSESGHQEPDVKTVVHLHGGATPPDSDGYPEAWFTKDFKETGPYFEKEVYHYPNKQRGALLWYHDHAMAITRLNVYAGLAGMYIIRERKEKQLKLPSGEYDVPLMILDRTLNDDGSLSYPSGPANPSETLPDPSIVPFFCGNTILVNGKAWPYMEVEPRTYRFRILNASNTRTFSLSLNNGGKFIQIGSDGGLLPRSVKTQSISLAPAERYDVLIDFSAFDGEHIILTNGTGCGGDADPDTDANVMQFRVTKPLKGEDTSRKPKYLSTMPNVTSKRIHNIRTLKLTNTQDKYGRPVLTLNNKRWHDPVTEAPKLGTTEIWSIINPMGGTHPIHLHLVSFQILDRRPFDLERYNKFGDIVYTGPAVPPPPSEKGWKDTVQAHSGEVIRIAATFAPYSGRYVWHCHILEHEDYDMMRPMDVTDKQ	PGPT0025135_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025135-cotA-K06324	NA	NA
D1-12_02801	210			hypothetical protein	ATGTCTTACTACAACAAACGTAATCAGGAACCGCTGCCTAAAGAAGATGTCAGTACGTGGGAATGCACAAAAGAGGACTGTATTGGCTGGAGCAGAAAGAATTTTGCCGGCAGTGATACCCCGACTTGCCCCCTTTGCGGCAGTAAAATGATCGACGGCGTCCGTTCGTTGGTAAATCTCCAAAACAATAATCAAACGGCATCAAGTTAG	MSYYNKRNQEPLPKEDVSTWECTKEDCIGWSRKNFAGSDTPTCPLCGSKMIDGVRSLVNLQNNNQTASS				NA	NA	NA	NA	NA
D1-12_02802	159			hypothetical protein	ATGAAAAACGATCGGCAGCAGAAAGATCTGAAGGAAATGGCAAAACGGCGGAAAATGAACCTTGCCGCACAGTCATTCATCGAAACGCTCCATTTTGCCGTTCCGATTCTCCGTTTTTTCAAATGGCTCGCCTCAGCCGCAGCCAGCTTTGTTCATTAA	MKNDRQQKDLKEMAKRRKMNLAAQSFIETLHFAVPILRFFKWLASAAASFVH				NA	NA	NA	NA	NA
D1-12_02803	1047	tolB		Tol-Pal system protein TolB	ATGAAAAAGAAACGATGGATCTGGATGTTGCTGGCCGCCGTTTTGGCGGCGGCGGTCATCGCGGCCGTTTTACTGATTAAAGGAAAAAGCGACGGCGGCGGAAAAGCCGTTGTCTCCGGCGGTCATGACAAGCTGCTTGTTTCCATTACAGACAAAGATCTGATGACGAAATATTACGAGGACGGCCGCGTGCTGTACGAGGAAAAGCTTTCGGCATATCCGGCGTTTGCGCTGGATGATGCCCATCAGGTGCTCTATTTTGTCGGGAATAATGACCAAAATGAGATGCGTCTGTATAAGCTTGATCTGAAGACGAAAAAGAAGACGGTGCTTTATAAAGGAACGGCAAGCGCTGACAGTCTGTTTTTATCAAAGGATCTGACGCACATTTATTTCCGTCTCGGAAAAGCGGATGAAGATATTTTCCGTCTCGCATCTTTTGATTTGAAAACGAAACGTTATGAAAACCTGTATCCCGCCGCCGATGAGAAAGACGACAGTGTGAGCAGCTTCTTTTATAACCGCAGCCAAAACGATTTTGCGCTTCTGCATTATTCCGTAAAAGAGGATTATCAAAAAACGGATGAGGCAAATGAGAAGGGGATTGACCCTGAACCGACGAATATCCGGTTTGCAGCAGGAGCGGGCGAACACCTTCAGGATCTGACAAACCTTGAACAGTTTATCAGCGACGTGGCGGTGTCACCGGACGGAAAGAACCTTGTCTTTACATCTTATACTCAAAAAGGGACGGAACAAAAAGCGTCCATCCGTCTGATGAATGTCAAAACGAAAAAAGATGAAACGATTATCTCAAACGGGAAGGACTTCGCTCCGCTGATTGATGCCCAGCCTCAGTTTTCTAAAGACGGCAGCATCATTTATTTCATGGCGGAAGCAAAAGGCGCTAAGCGTCTGAAGGATGAAACAGGGCGGAATGCGAAGGTCCGGACCATTTATGCTTATCATTTGGATACGAAAAAATGCGAAAAAGTCTGGGAAAATGACAACGGCATTATCAACAGTTTTTCCGTCATCCAATCATGA	MKKKRWIWMLLAAVLAAAVIAAVLLIKGKSDGGGKAVVSGGHDKLLVSITDKDLMTKYYEDGRVLYEEKLSAYPAFALDDAHQVLYFVGNNDQNEMRLYKLDLKTKKKTVLYKGTASADSLFLSKDLTHIYFRLGKADEDIFRLASFDLKTKRYENLYPAADEKDDSVSSFFYNRSQNDFALLHYSVKEDYQKTDEANEKGIDPEPTNIRFAAGAGEHLQDLTNLEQFISDVAVSPDGKNLVFTSYTQKGTEQKASIRLMNVKTKKDETIISNGKDFAPLIDAQPQFSKDGSIIYFMAEAKGAKRLKDETGRNAKVRTIYAYHLDTKKCEKVWENDNGIINSFSVIQS				NA	NA	NA	NA	NA
D1-12_02804	369	ydjM_1		putative protein YdjM	TTGAAGAAGTTATTCTTAGCCTTATTGATTTTAGCAGGAAGCACGCTGGGAGCGATCAGTTACTCTTCTGATGCAAGTGCTAAAAAAGTGAACGGAAATATTACATGGTATAATGGAGTCGGTAAAAAAGGATCTTCCGGTAAAAAACTGGGACACTGGGATTGCGCGACAAAATTAGGATTTGACGTTCCGAGAAACGGAACGAAAATCAGAGCTTATGCGAAAGCAAAACCGAAAAAGGTTATCACCGTATACAAAAATGATGTAGGCCGTCTGCCGAATGCCGTATTGGATGTCAGCCCGAAAGCGTTCAAAGCGCTCGGATATCCATTAAGCAAAGGAAGAGTATCCGGACACTACAGCTATTAA	MKKLFLALLILAGSTLGAISYSSDASAKKVNGNITWYNGVGKKGSSGKKLGHWDCATKLGFDVPRNGTKIRAYAKAKPKKVITVYKNDVGRLPNAVLDVSPKAFKALGYPLSKGRVSGHYSY				NA	NA	NA	NA	NA
D1-12_02805	1041	gutB_1	COG1063	Sorbitol dehydrogenase	ATGAAAGCGGCAAGATGGCACAATCAAAAAGACATTCGAATCGAAAACATTGATGAACCTAAAGCAGAACCGGGTAAAGTCAAAATTAAAGTCAAATGGTGCGGGATTTGCGGAAGCGACCTTCATGAATATTTGGGAGGCCCGATCTTTATTCCGGTCGGCAAACCTCATCCGTTAACAAACGAAATGGCGCCCGTCACGATGGGTCACGAATTCTCAGGAGAAGTCGTGGAAGTGGGCGAAGGCGTCAAAAATTACAGCGTCGGCGACCGTGTCGTCGTGGAACCGATTTTTGCCACACACGGACATCAGGGAGCCTATAACCTTGATGAACAAATGGGATTCTTAGGCTTAGCCGGCGGCGGCGGCGGATTTTCTGAATATGTATCCGTTGACGAAGAATTGCTGTTTAAGCTTCCTGAAGAGCTTTCTTACGAACAGGGCGCGCTTGTTGAGCCGTCAGCGGTAGCGCTTTACGCCGTCCGCCAAAGCAAATTAAAAGCGGGCGACAAGGCGGCAGTTTTTGGCTGCGGACCGATCGGGCTGCTTGTGATTGAAGCCCTGAAAGCGGCCGGCGCCACAGATATTTACGCGGTTGAACTTTCACCGGAACGTCAGGAAAAAGCGAAAGAACTCGGCGCTATCATCATTGATCCGTCAAAAACGGACGATGTCGTTGAAGAAATCGCTAAACGCACAAACGGCGGCGTTGATGTTTCTTATGAAGTAACAGGCGTTCCTGTCGTTCTCCGCCAGGCGATCCAGTCAACAAACATTGCCGGTGAAACGGTTATCGTCAGCATCTGGGAAAAAGGAGCGGAAATTCATCCGAACGATATCGTCATCAAAGAACGGACCGTAAAAGGCATTATCGGATACCGTGACATCTTCCCTTCCGTTCTTGCACTGATGAAAGAGGGCTACTTCTCAGCAGATAAGCTCGTCACGAAAAAAATCGTGCTCGACGACCTGATTGAAGAAGGCTTCGGCGCTTTAATCAAAGAGAAAAACCAAGTGAAAATCTTAGTCAAACCGAACTAA	MKAARWHNQKDIRIENIDEPKAEPGKVKIKVKWCGICGSDLHEYLGGPIFIPVGKPHPLTNEMAPVTMGHEFSGEVVEVGEGVKNYSVGDRVVVEPIFATHGHQGAYNLDEQMGFLGLAGGGGGFSEYVSVDEELLFKLPEELSYEQGALVEPSAVALYAVRQSKLKAGDKAAVFGCGPIGLLVIEALKAAGATDIYAVELSPERQEKAKELGAIIIDPSKTDDVVEEIAKRTNGGVDVSYEVTGVPVVLRQAIQSTNIAGETVIVSIWEKGAEIHPNDIVIKERTVKGIIGYRDIFPSVLALMKEGYFSADKLVTKKIVLDDLIEEGFGALIKEKNQVKILVKPN	PGPT0008200_817	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
D1-12_02806	498	sigV_2	COG1595	RNA polymerase sigma factor SigV	ATGAAGAACGAAACAGCCAAAGCGTCGCTTGTGACGTGCATAACTGAGCGCAAGGAAGACTTTTACCGGCTTGCGTACAGTTACGTAAAGAACAAGGATGACGCGTTAGATATTGTTCAGGAATCAATTCAAAAAGCGCTGACATCGGTCGAATCCGTCAAAAACCCCGATGTGATCAAAAGCTGGTTTTATAAAATTTTAGTGCGCACGGCCATTGATTTTCTCCGCAAACAGAAAAAACTGAAAGTGATGGACGATGAAACGATCGAGTTTTTAAGCCGCGGAAAGGAAGATCACTACAAGGACACAGACCTTCACGAAGCGCTCGATGACCTGCCGCATCAATATAAAACCATTATCATTCTGCGTTTCTTTGAAGACCTGAAATTAGAAGAAATCGCGGACATCACGGGGGAAAACATCAACACCGTCAAAACACGCCTTTACAGGGGGCTGAAGCTCATGCGCATTCAGCTGACGAAGGAGGATCTTTCTTAA	MKNETAKASLVTCITERKEDFYRLAYSYVKNKDDALDIVQESIQKALTSVESVKNPDVIKSWFYKILVRTAIDFLRKQKKLKVMDDETIEFLSRGKEDHYKDTDLHEALDDLPHQYKTIIILRFFEDLKLEEIADITGENINTVKTRLYRGLKLMRIQLTKEDLS	PGPT0014960_11760	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-12_02807	861	rsiV		Anti-sigma-V factor RsiV	ATGGAAAAGAGATTAGAACAATTAAGAGAAGAGTATAAAAGTGTGCCCATTCCTAAGGAACTGGACAGCATTGTCGAAAAAGCCCTTCGGCAGAAACCGAAGAAAAAACGAATCGTGATGTGGCCGACATCCGCGGCAGTCGCTGCGGCCGTCTTATTTACCGCCGTTGTCAATATCAATCCGGATGCCGCACAAGCCATGTCTAAAATCCCCGTCATCGGCAAAGTCGTCCAAGCCATCACATTCACGGAGATGAAGGAAGAAAAGAACCAATCAAGCATTGATGTGAAAACGCCCGCTCTGTCCGGACTTTCCGATCATAAACTCGAAGACAGCATCAACCGGCATTACATGAAAGAAAGCAAAAAGCTGTATCAGGAATTTATGAAGGCGACCTCAAAAAGCAAAAAAGGCCACCTCAGTATTTACAGCGATTATGAAACCGTTACTGACACAGCGGATCTGATCTCAATCCGACGTGATATCGAAAAAACGCAAGCTTCCTCTTATACACAAAGCCGTTACATCACGATTGATAAAAAGAATGAGGCCGTACTTACGTTAAAGAGCTTATTTAAAGATGACCGTTATATTAAAGTCATCAGCCAAAATATTAAAGAACAAATGAAAAAACAGATGAAAGAAGATCCGAATAAAATATACTGGATCGAAGATGATGATATGACGGAGCCTTTTAAAGCCATCCGCGCCGACCAGAATTTTTATATTACAGATAAGCACAAACTTGTTATTTCATTTGACGAATATGAAGCGGCACCCGGATATATGGGCGTTACAGAGTTTACAATACCGACCTCCGTCATCTCCAAGCTGCTTGTCGGAGACCGCTACATCAGATAA	MEKRLEQLREEYKSVPIPKELDSIVEKALRQKPKKKRIVMWPTSAAVAAAVLFTAVVNINPDAAQAMSKIPVIGKVVQAITFTEMKEEKNQSSIDVKTPALSGLSDHKLEDSINRHYMKESKKLYQEFMKATSKSKKGHLSIYSDYETVTDTADLISIRRDIEKTQASSYTQSRYITIDKKNEAVLTLKSLFKDDRYIKVISQNIKEQMKKQMKEDPNKIYWIEDDDMTEPFKAIRADQNFYITDKHKLVISFDEYEAAPGYMGVTEFTIPTSVISKLLVGDRYIR				NA	NA	NA	NA	NA
D1-12_02808	1932	oatA		O-acetyltransferase OatA	ATGTCAGACAAGTCACTGCATCACCGCTATATTCCCGGACTGGATGGACTTCGCGCCTTTGCCGTCCTCGCAGTTATCGCATATCATCTGAATTTTAACTGGGCCGACGGCGGTTTCATCGGTGTTGATATCTTTTTTGTTTTATCGGGGTATTTAATTACATCTATTATATTGCCTGCCCAAGGCAATGCCATCACCCTTGATTTGCGTGATTTTTGGGTGCGCCGGATCAGGCGGCTTCTGCCGGCGGCTTATCTCATGATTATCACGACGGTCATTTGGGTCGTATTGTTTAACAGCGAGCTCCTGCATACCGTACGCGGAGATGCGGTCTCCTCACTTTTTTACATAAGCAATTGGTGGTTTATCTTTCATAAACTTTCTTATTTCGACAGCTTCGGCTCCCCTTCGCCATTAAAAAACCTTTGGTCGCTGGCGATTGAAGAACAGTTTTATATCATATGGCCCTTCCTGCTGCTTGCGGGGATGTACATATGTAAAACACGGGCCCGGCTTGCGGCCGCGGTCATGTTCCTCGCGTTATGTTCAGCAGTCGTGATGAGTATGATGTATGTGCCCGGCGGAGATCCGAGCCGCGTTTATTACGGGACGGATACCCGCTCATTTGAATTGCTGATCGGCTGCGCTTTAGCTTTAGTGTGGCCGATGAAACGATTATCTTCCAAACGGCTGCCGAGCAGCATGAAACACTTGCTTCACGGGACGGAGCTTGCTGCTTTTGCCGCGCTGCTGCTTTGCGTCTTTTACACGGATGAATATGAACCCTTCCTGTACAAGGGCGGCATGCTTTTGATCAGCATCACCGCAGCGGTTCTTGTCGCATGTTTATGCCATCCGAGCAGCTTTTTGGGACATGTTCTTTCATGGAAGCCGCTTCGCTGGATCGGAACGAGATCATACGGAATCTATCTTTGGCATTACCCGGTTATCGTACTGAGCACACCCGTACAGGAAATCGGAAATCCGGTTTATTGGCACTGCGCCGTCAGAATCGGCGCCACTTTCATTCTTGCCGAGCTATCTTACCATTTCATTGAACAGCCGATCCGCACTGCGGGCTTCCGGCCATTTTTACGCCGCGTGTTTCTGAACCGCTTTCTGGAATGGAAGACATCCTCTGTCATCAGCAGAATGTCGCTCGGCCTCATTCTTGCCGCCATTCTCGTATTTGCGGGCGGGCTGTCAGGGATAGCCGAAGAGAAAAAACAGCCGCAATGGACGTACGCGCAAAATGATCAGCAAGAAACCGCCGCCTCTTCGCACAAAACGGCCGATCACGATCAGCCTGCAAAAGAAGAAGACAGCAAGAAAAAACACGGCGGCGAAAAAACGGACACCGCGTCAGACAAAAACAAGAAAGAACCAACAGACAAATCAAATACAAAGAAAAACGAAGAGAAAAAGGAACGGTCATCTCAAAAAACGGCTGATTCAAAACAAACACAGCCTCAGCAAGACGTGCTGGCCATCGGTGACTCGGTGATGCTGGACATTGCGTCATACCTGCGGCAGTCCCTCCCTCATGTCACCATCGACGGAAAGGTAGGAAGACAAGTCTCTCAAGCACTCCGGCTCACTTCGGAATATGCGTCATTTAATCAGCCGAACAAAGCGGTCATCATCGAGTTAGGGACGAACGGCTATTTCACAAACAGCCAAATTGAATCACTGATCAGCTCCTTTTCAAAAGCCGATATCTATCTTGTCAACACACGTGTGCCGCGGCAGTGGGAAAGCAAAGTAAACGAATCATTGCGCCGGCAGGCCGAGTCACGGAAAAATGTGACGCTTGTCGATTGGCACGCAAAAGCATTGCAGCACCCTGAATACTTCACACCGGACGGCGTCCATCTCATACCTGAGGGTTCTAAAGCGCTGACATCTCTCATCGTTCAAACAATGAAATCATGA	MSDKSLHHRYIPGLDGLRAFAVLAVIAYHLNFNWADGGFIGVDIFFVLSGYLITSIILPAQGNAITLDLRDFWVRRIRRLLPAAYLMIITTVIWVVLFNSELLHTVRGDAVSSLFYISNWWFIFHKLSYFDSFGSPSPLKNLWSLAIEEQFYIIWPFLLLAGMYICKTRARLAAAVMFLALCSAVVMSMMYVPGGDPSRVYYGTDTRSFELLIGCALALVWPMKRLSSKRLPSSMKHLLHGTELAAFAALLLCVFYTDEYEPFLYKGGMLLISITAAVLVACLCHPSSFLGHVLSWKPLRWIGTRSYGIYLWHYPVIVLSTPVQEIGNPVYWHCAVRIGATFILAELSYHFIEQPIRTAGFRPFLRRVFLNRFLEWKTSSVISRMSLGLILAAILVFAGGLSGIAEEKKQPQWTYAQNDQQETAASSHKTADHDQPAKEEDSKKKHGGEKTDTASDKNKKEPTDKSNTKKNEEKKERSSQKTADSKQTQPQQDVLAIGDSVMLDIASYLRQSLPHVTIDGKVGRQVSQALRLTSEYASFNQPNKAVIIELGTNGYFTNSQIESLISSFSKADIYLVNTRVPRQWESKVNESLRRQAESRKNVTLVDWHAKALQHPEYFTPDGVHLIPEGSKALTSLIVQTMKS				NA	NA	NA	NA	NA
D1-12_02809	1005			hypothetical protein	ATGGGTTTTTTCAGAAATCAGTTAGCAAATGTGGTGGAGTGGGAAGAATTCAGAGACGACATGGTTTTCTATAAATGGAACAACCGTGAAATTAAAAAAGGCAGCCGTCTGATCATCCGGCCGGGACAGGATGCCATCTTTTTATACAACGGGAAGATTGAAGGGATTTTCCGTGATGACGGCGATTATGATATCGAATCAGAAATCATTCCGTTTCTATCTACACTAAAAGGGTTTAAGTTTGGTTTTAACAGCGGCATGCGGGCTGAAGTGCTGTTTGTGAATACGAAGGAGTTCACCGTGAAGTGGGGCACAAAAAACGCCATCAACATTCCGGCGGCAGGTATGCCGGGCGGTATGCCGATCCGCGCAAACGGCACATTTAACTTCAAGGTCATTGACTACATCGGATTGATTGATAAGATTGCGGGTGTCAAAGACAGCTATTTAGTGGAGGACATTAAAATCCGGATTACGTCTATTCTCGATCAGCTTTTGATGAAATGGATCACCAGAGAAGGAAAAGACATGTTCAATCTGCAGTCGAATTCCTTTGAAATCGGAAAAGGGATTCAAGAAGATCTTGATATGCAGCTGATCGGAGACGGCATGTCGATTACGGGCTTCAATATTATGAGCTTTAACTATCCGCAGGAAGTTCAGGATATGATTACGAAAAACGCTTCTTACGGCATGGTGGGCGATGTGAACCGCTATCAGCAGATTTCCATGACGAACGGAATGTCATCCGGCAAAATGAACGGAAGCGGCGCCGCCTCAGACATGGCGGGCATGATGATGGGAATGAATGTGGCAAATCAAATGATGAACCAAATGAACCAAAATCAGCAGAACCAGCCGCAGCAAGATCAAAGTCAGCAGAATCAGGGGACGGCACCGGCGAACGGCTCGGAAGGAGCGGATAAGCCGAAATTCTGTCCGAACTGCGGAACGAAAACGGAAGGCGCGAATTTTTGCCCGAATTGCGGACAGAAGCTTGCCTGA	MGFFRNQLANVVEWEEFRDDMVFYKWNNREIKKGSRLIIRPGQDAIFLYNGKIEGIFRDDGDYDIESEIIPFLSTLKGFKFGFNSGMRAEVLFVNTKEFTVKWGTKNAINIPAAGMPGGMPIRANGTFNFKVIDYIGLIDKIAGVKDSYLVEDIKIRITSILDQLLMKWITREGKDMFNLQSNSFEIGKGIQEDLDMQLIGDGMSITGFNIMSFNYPQEVQDMITKNASYGMVGDVNRYQQISMTNGMSSGKMNGSGAASDMAGMMMGMNVANQMMNQMNQNQQNQPQQDQSQQNQGTAPANGSEGADKPKFCPNCGTKTEGANFCPNCGQKLA				NA	NA	NA	NA	NA
D1-12_02810	762			hypothetical protein	ATGAAAGTATCGATAAAAAAAGCGTGTCTCTTCTGCTTCGTCCTTTTTCTGATGCTGTCTTTTTCTTTACATACATCGGCGTCTGCCGCGGAACAGAAGCAATATGTTTACGACAATGCTCATTTATTAACGAAGGATGAAACGAAGAAACTTGAGGAATTGGCCGGGAAGCTGGGGGCAAAGCGCCATACCGATTTTATCATTCTTACCGCAAACGGAACGGGCGGTAAGGACATCGAGCAGTACGCCGGTGATTTTTATGACAGTCATTTTAGCGGAAGTACGGTGATATTGACCATTGATATGAAAAATCGGGAAGTATTTATCTCCGGATATAAAAAGGCGGAGACGTATTTGAATAACAGCCGGCTGAATACGATCAGGAATACGATCTCGTCAGATATTTCCGCAGGCCATTATGAAAAGGCGTTTCAGACCTACATCAAGATGGCTTATAAAGATATGGGGAAAAGCCCGGACGACAAGTCTGACAATCTGCTGCTCACATGGTGGTTTCAGCTCATTATTGCCGCAGCCGCGGCCGGAATCGCCGTCACCGTGATGGTGTACAATTCCGGCGGCAAGGTCACCGTCACCGGCAGCACGTATATGGATCACGATACGTCTGAAGTGCTGAGCCAGCACGACACATATATCCGAACCGACGTTACAAGAGAAAAAAAGCCTGATAAAGATAATGACAATGACGGCGGAGTCACGAGGGGCGGCACGAGTTACAGCGGAAGCAAGGGAAGTTTTTAA	MKVSIKKACLFCFVLFLMLSFSLHTSASAAEQKQYVYDNAHLLTKDETKKLEELAGKLGAKRHTDFIILTANGTGGKDIEQYAGDFYDSHFSGSTVILTIDMKNREVFISGYKKAETYLNNSRLNTIRNTISSDISAGHYEKAFQTYIKMAYKDMGKSPDDKSDNLLLTWWFQLIIAAAAAGIAVTVMVYNSGGKVTVTGSTYMDHDTSEVLSQHDTYIRTDVTREKKPDKDNDNDGGVTRGGTSYSGSKGSF				NA	NA	NA	NA	NA
D1-12_02811	1026			hypothetical protein	ATGATCATTTCTTATAAATGCCCGAACTGCGGCGATGATATGGTCTTTGACAGTTCATCCGGCATGCTGACATGTCACAGCTGCGGGCGGCAGGATCAGATTGAGAGCCTGCCAAAAGAGTATATAACGACGAGATTTTCCGAAAATGAGGCGAACGAGTACCGCTGTGAGAATTGCGGCGCGGTATTAATGACTGAGGCGGAAACGACGGCCACGACGTGCGGGTTTTGCGGAGGAGCCGCCGTTCTCGCCGACCGATTATCGGGAAATCTCGCGCCTTCGATGGTGATCCCTTTTACGATCAGTAAAGAAGAGGCCATGAGCGCTTTTAAAAAGTGGTGCCGAAACGGCCGTCTGACACCGAAAGGATTTATGTCTGCCGACCGGGTGAAGAGCATAACCGGCATGTACGTGCCGTTTTGGATGTTTGATTTAAACAGCAAGGTTCAGGTCAATGCCGTTTGTACGAGAGTGCATCACTATGATGATGGAGAATACCGGGTGACGGAGACCGAGTATTACAACGCGTACCGCGATATCAATCTTGATTATCTCAAAATTCCGGTCGACGCTTCAGAAAAAATGAATGATGAATTAATGGACAAATTGGAACCTTACTCATACAGTGAGCTGAAGGAGTTTAATACGGCCTATTTAGCGGGATATATAGCGGAAAAGTACAATTATACCGATGACGATCTCTTTCCGCGGGCGAAGGATAAAATCAGCCATTATATTGATTCTTATATCAGATCCACCTTCTCCGGATATACGACGGCTGACATTACGGATGAGCAGATTCAGACCGATAAAATCAGCAGCTTTTACGTACTGCTTCCGGTCTGGATGGTCAGCTACGACTATGAGCGGGCTGAACACATTTTTGCGATGAACGGGCAGACGGGCAAGGTTGTCGGCAAACCGCCGATCAGTGCCGGAAAAGTGGCCGCGTGGTTCGGCGGCATAACCGCCGGTGCGTTTGTAGCATTAAGACTCGTCTCACTTATGATAGGAGGCGGTTTTTGA	MIISYKCPNCGDDMVFDSSSGMLTCHSCGRQDQIESLPKEYITTRFSENEANEYRCENCGAVLMTEAETTATTCGFCGGAAVLADRLSGNLAPSMVIPFTISKEEAMSAFKKWCRNGRLTPKGFMSADRVKSITGMYVPFWMFDLNSKVQVNAVCTRVHHYDDGEYRVTETEYYNAYRDINLDYLKIPVDASEKMNDELMDKLEPYSYSELKEFNTAYLAGYIAEKYNYTDDDLFPRAKDKISHYIDSYIRSTFSGYTTADITDEQIQTDKISSFYVLLPVWMVSYDYERAEHIFAMNGQTGKVVGKPPISAGKVAAWFGGITAGAFVALRLVSLMIGGGF				NA	NA	NA	NA	NA
D1-12_02812	687	ydjF	COG1842	Phage shock protein A	ATGAGTATTTTAGGAAGATTTAAAGACATCATGTCAAGTAATATCAATGCGTTGCTGGATAAAGCTGAAAACCCTGAAAAAATGGTTGATCAATATTTGCGGAATCTGAACAGTGATTTAGGAAAAGTGAAAGCGGAGACGGCTTCTGTCATGGCTGAGGAACAGCGGGCGAAAAGAGCGCTAACTGAATGCCAGGCTGATGCCGAAAAGATGGAAAGTTATGCGATGAAAGCGTTGCAGGCCGGCAATGAAGCTGATGCGCGGACATTTTTGGAAAGGAAAGCGGCTGTTGAATCAAGACTGACTGAGCTGCAAACGGCTTATCAGCTCGCTTCATCCAACGCGTCTCAAATGCGCAAAATGCATGACAAGCTTGTCGCTGATATCGGAGAGCTTGAGTCGCGCCGAAATGCCATCAAAGCGAAGTGGTCTGTGGCAAAAACGCAGGAGAGAATGAACAAATTGGGGTCCTCTGTGTCAAATGCGGGCCAATCGCTGACAGCTTTCGGCAGAATGGAAGACAAGGTCAACCAAGCGCTTGATCACGCCAATGCGATGGCTGAGCTGAACGCGTCTCCGAAAGACGATATTGACGAGCTGACGGCTAAATATGACAGCAATCAAAGCAGTGTCGATGATGAATTGGCGGCGCTCAAGCAGAAAATGCTTTTCAGTAAAGATCAATAG	MSILGRFKDIMSSNINALLDKAENPEKMVDQYLRNLNSDLGKVKAETASVMAEEQRAKRALTECQADAEKMESYAMKALQAGNEADARTFLERKAAVESRLTELQTAYQLASSNASQMRKMHDKLVADIGELESRRNAIKAKWSVAKTQERMNKLGSSVSNAGQSLTAFGRMEDKVNQALDHANAMAELNASPKDDIDELTAKYDSNQSSVDDELAALKQKMLFSKDQ	PGPT0014646_1140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014646-pspA-K03969	NA	NA
D1-12_02813	963	scrK	COG0524	Fructokinase	GTGGGAAGCCGATCTGTTATTTGTATTGGAGAATTGTTAATTGATTTCTTTTGTACCGATGTGGATGTTGATTTGACGGAAGGGCGTAATTTCTTAAAAAGTGCCGGCGGGGCACCGGCGAATGTGTCGGCAGCGATTGCTAAGCTGGGCGGAGACGCGGCTTTCAGCGGAAAAACAGGCAAAGATCCGTTCGGGTATTTTCTGAAGCAGACATTGGACGCCGTACACGTCGATACCTCTATGCTCGTCATGGATGAGAAAGCGCCTACAACGCTTGCGTTTGTTTCATTAAAACAAAATGGGGAGCGCGACTTTGTGTTTAACAGAGGAGCGGACGCTTTGTTTACGCTGGAGGATATTGATCTGGAAAAGGTAAACGATGCGAAAATCCTTCATTTCGGATCAGCGACAGCATTGTTATCTGATCCGTTTTGCTCAGCCTATTTACGGCTGATGTCGATTGCGAAAGACAATGGACAGTTTATTTCCTTCGATCCTAACTACCGTGAGGATTTATGGAAAGGAAGAGTTTCAGAGTTTATAAACACCGCAAAAAAAGCCGTTGCCGTAAGTGATTTTGTGAAAGTCAGTGACGAAGAGCTTGAGATCATCAGCGGTGCGAAGAATCATAAAGAAGGTGTTGCGGTTCTTCATGAGATCGGAGCCGGCATTGTGGCGGTGACACTCGGGAAAAGCGGGACCCTTCTTTCAAATGGGAAGCATCTTGACATCATTCCGAGCATTCCGGTGACATCAATAGACTCAACGGGAGCGGGAGATGCGTTTGTCGGCGCGGCGCTGTATCAGCTGGCGCGCACCGATGAGATTCAGACGGCAGCCGATGATTTTGCGAAGCTGCGTGATATTGTCTCATTTGCCAATAAGGTGGGGGCGCTCGTGTGCACCAAAATCGGTGCGATCGATGCTTTGCCGAGCTTTAAAGAGGTTGAAGTATCACTGTAA	MGSRSVICIGELLIDFFCTDVDVDLTEGRNFLKSAGGAPANVSAAIAKLGGDAAFSGKTGKDPFGYFLKQTLDAVHVDTSMLVMDEKAPTTLAFVSLKQNGERDFVFNRGADALFTLEDIDLEKVNDAKILHFGSATALLSDPFCSAYLRLMSIAKDNGQFISFDPNYREDLWKGRVSEFINTAKKAVAVSDFVKVSDEELEIISGAKNHKEGVAVLHEIGAGIVAVTLGKSGTLLSNGKHLDIIPSIPVTSIDSTGAGDAFVGAALYQLARTDEIQTAADDFAKLRDIVSFANKVGALVCTKIGAIDALPSFKEVEVSL	PGPT0017625_1372	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
D1-12_02814	1377	xylP_2		Isoprimeverose transporter	ATGATTGAAACAGAAAAAGCAGCGGCAGTAAAGACGAAATATCGCGGCCTGTCATGGATGGAACGGATCGGCTACGGATTCGGCGATATGTCGTACAATATTATCTTTCAGTTTGTAAACGCATACTTATTATTCTACTATACAGACGTCGGCGGCATTAAGCCTGCGGTCATCGCAGCTTTGTTTCTTATCGTAAGGGTGCTGGATGCTATTTTTGACCCGATTATGGGCGTGATTTTAGACAAGACGAATACAAGGTGGGGAAAGGCAAGGCCGTATCTTTTGTGGGTGGCGTTTCCTTTTGCGCTATTTACGTTCTTATGCTTCACGACGCCTCATTTCGGCGAGACGGGGAACATGGTTTATGCGTACATCACTTATATTCTGCTTGGGATGTCCTTCAGCATGCAGACGATTCCGGTCAACAGCTTAACGGGGCGGATGACGAATTCCGTGGAGGAACGGACGGTTCTGACGACGACCCGGATGATTTTGGTTTATATCGGAATTCTGTTATCGATTTCCTGTGCGACACCGCTTGCAGATCTGATCGGCGGGAAAGATCAGGCGTTTGGATTCCAGATGACGGCGCTTATCTATGCGGCGGTGAGCATCGCGTTGAATCTGTTCAGTTTCTTTACTGTGCGGGAACGGATTCAGCCTGAAAAAAGAAAAAAACAAGGAATGAAAAAGACGTTGTCTGTTTTGTTCCGAAACAAGCCTTTGCTCATTTTGGTTTCTGCATTTTTGGCGTTTGCGATTGGGTTTAACATTAAGCTCAGCACGATGGTGTACTATTTTACGTATAACGTCAGCCATAAGGAATTTGTGTTTTTAGGAACCGTGTTGTTTTTCGGCGCAGCGCTGATCAGCAATCTGTTTATTCCTTTCTTTTCTGAGAAGCGGGGCCGGAAGCAGGTTATGATCATCACGGCGGCGCTATCGCTGATTTCTTATGCGGGCCTTCAGTTTACATCGTATTCTTCGCTGCCGCTTATTTTCTTTTGGCTTTTCGTTTCGGGATTTTTTACGACGCCTTTAAATACGCTTGCTTGGGGAATGGTTGCCGATTGTGTCGATTATGCGGAATGGAAAACCGGAGTCCGGGCTGATGGCGTGGTGATTTCGAGCATGAGTTTCATCAATAAGCTCGGAGTTGCGCTAGCCGGATCATTTTCGGCCGTTTATCTCGGAATCGCCGGATATGCCGCGAATACCGATCAGACGGCCTCGTCATTGAATGCGATTAAAAATATGAATGCGCTCATCCCGGGATTGTTCATTCTGCTGTCTATTATTCTTATTTCTTTTTATCCTTTAACTGAAAAAAAATATCAGCAGATGATGTCTGATCTGGAGCAAAGAGCTGCAAGATGA	MIETEKAAAVKTKYRGLSWMERIGYGFGDMSYNIIFQFVNAYLLFYYTDVGGIKPAVIAALFLIVRVLDAIFDPIMGVILDKTNTRWGKARPYLLWVAFPFALFTFLCFTTPHFGETGNMVYAYITYILLGMSFSMQTIPVNSLTGRMTNSVEERTVLTTTRMILVYIGILLSISCATPLADLIGGKDQAFGFQMTALIYAAVSIALNLFSFFTVRERIQPEKRKKQGMKKTLSVLFRNKPLLILVSAFLAFAIGFNIKLSTMVYYFTYNVSHKEFVFLGTVLFFGAALISNLFIPFFSEKRGRKQVMIITAALSLISYAGLQFTSYSSLPLIFFWLFVSGFFTTPLNTLAWGMVADCVDYAEWKTGVRADGVVISSMSFINKLGVALAGSFSAVYLGIAGYAANTDQTASSLNAIKNMNALIPGLFILLSIILISFYPLTEKKYQQMMSDLEQRAAR				NA	NA	NA	NA	NA
D1-12_02815	1062	gutB_2	COG1063	Sorbitol dehydrogenase	ATGACTCACACAGTGCCTCAAAACATGAAAGCGGCGGTTATGCACAACACGAGAGAAATCAAAATCGAAACATTGCCCGTGCCTGAGATCAATCATGATGAAGTGTTGATTAAGGTGATGGCTGTCGGAATTTGCGGATCTGATCTGCATTACTATACAAATGGCAGAATAGGCAATTATGTAGTGGAAAAACCATTTATCCTTGGGCATGAATGTGCGGGAGAAATCGCAGCTGTCGGCTCGTCTGTTGATCAATTCAAAGTCGGTGACCGCGTCGCTGTTGAACCTGGTGTTACGTGCGGACGCTGTGAGGCGTGTAAGGAGGGGCGTTATAACCTTTGCCCGGATGTACAGTTTTTGGCGACACCGCCGGTTGACGGCGCGTTTGTCCAATATATCAAAATGCGCCAGGACTTTGTTTTCTCGATTCCGGATTCACTATCCTATGAAGATGCGGCTTTGATTGAACCGTTTTCTGTCGGCATTCATGCGGCCTCGAGAACGAAGCTTCAGCCCGGTTCAACGGTTGCGATCATGGGAATGGGCCCTGTGGGGCTGATGGCCGTTGCGGCAGCGAAAGCATACGGGGCAGGCACAATTATTGTGACCGACTTGGAGCCGCTGCGGTTAGAAGCTGCGAAAAAAATGGGAGCGACGCATGTCATCAATGTCCGGGAACAGGATGCCGGTGAAGAAATCAAAACGATCACGAATGGCATAGGCGTTGATGCTGCTTGGGAAACAGCGGGGAATCCGGCGGCATTGCAATCCGCACTGGCTTCCGTGCGCCGGGGCGGAAAACTGGCGATTGTCGGTTTGCCTTCTCAGAACGAGATTCCGCTCAATGTGCCGTTTATTGCGGATAACGAGATTGATATTTACGGAATCTTCCGTTATGCGAATACGTATCCGAAGGGAATTGAATTTCTCGCTTCCGGCATAGTGGACACGAAGCACCTTATAACGGACCAATATCCGCTGGAGAAGACGCAAGAGGCGATGGAACGGGCCTTTCAATACAAAAATGAATGCTTAAAAGTGATGGTGTATCCAAATCGCTGA	MTHTVPQNMKAAVMHNTREIKIETLPVPEINHDEVLIKVMAVGICGSDLHYYTNGRIGNYVVEKPFILGHECAGEIAAVGSSVDQFKVGDRVAVEPGVTCGRCEACKEGRYNLCPDVQFLATPPVDGAFVQYIKMRQDFVFSIPDSLSYEDAALIEPFSVGIHAASRTKLQPGSTVAIMGMGPVGLMAVAAAKAYGAGTIIVTDLEPLRLEAAKKMGATHVINVREQDAGEEIKTITNGIGVDAAWETAGNPAALQSALASVRRGGKLAIVGLPSQNEIPLNVPFIADNEIDIYGIFRYANTYPKGIEFLASGIVDTKHLITDQYPLEKTQEAMERAFQYKNECLKVMVYPNR	PGPT0017541_993	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017541-gutB-K00008	NA	NA
D1-12_02816	2502			hypothetical protein	ATGGCTGAACTTGAAAACCGGACACAATTTGCAGAACTGCTGGCACCTGCCGTCAAATCGCTGAAACATCATCCTGATTACAAAATCAAAAGGACAAAGAACGTAAAATCCGGACAGTCTTATATAGATCAAATCGCACTCCGAATAGGCGTTTCCTCTAACACGATCAAAAGCTGGATCGGACAGATGGGCGCAAACTACATTCCCGGACGAATTGACGACGGAAAGCTGTTCGGCATGATCTGGATCATTATAGAAAAGACTGACATGGATCCTGAATGGCTGACCGGCCTTCTGGAAACCACCACCATTCCCGTCATCAAACCCGCATTGCCCGTTTGGACGGCGTCTTGTCTAAAAAAAGCAAAAATACTCCGGAAAGACGGATCATTCGGAGCGCCGAGTGATGAAGATGTTGAAAAAGCAGTAAAGCGGCTGTTTCATGACAGACCAAGCCATGAAACGAATGCGCTTACAAGAAAGTCCGTTACGCATAACTTACCGTCACGCCGGACCGGGAACTTTATCGGACGCGGCTTTGATATGGAAGCAATCCGGCAATGGATGCTGTCTCCGTCACCGGTCTGTTTAATCACGGGCTGGGCCGGCATGGGAAAAACAACAATCGCTCTTGAAGCAGCCTACCTTTGTGCCGGCAGTTCACCAGATTGGCCGGCATTCAACAGCATCATCTGGATCAGTGCGGATTGGAAAGGATTGAGCTTCAGCGATTTTTTAAACACGATCGCCTATCAGCTCGGACGCACAGAACAAATCGACAAATCAATCAACGAAAAACGGTTCGTCGTCCGCAATGCATTAGCCGCTCATTCAAACGAAAAACCAGTATTGCTGATCGTTGACAGCATTGATACAGCGGAACGTGACATTCACGAATTTATCATCGGCCTTCCGCAAGGCGTAAAAGTCCTCCTTACGGCACGGGAAAACGTAAAACAGACATACCGGGACGGCCTCGGGGAACTGGCGGCCATCCAGCTGAGCGGCCTTGAACAAACGGATGCCCTTGAATTTTTCCATCAAGAAGTGCACCGCTGTCTGCAAACATGCAACCTCCCGCATAAACGGGAAAAGCTGGAGCAGCTATTGCAGCTATCGCCTGACCTTAAGAATGAATTCATCTCGGCAGCCGCCGGCAATCCGAAGGCCATGGCACTCAGCATTGCATACATGTCAGACGACGACATCCCCGCTCCCCAGCTCATTCAAGAGCTTAAACAGGCAGGCTATTCACTATTGGAATTGTTTGAGGTTCTCTTTGGCCGCACATGGGACAGATGTCATGAAGACACACGAAAACTATGGCAGACGCTTTGCTTTTTCGCTAAGCCCCCTGATGAAAAAAGCTTGGCTCAAGCGGCCGGATTAGACGTCCGGCGGTTTCATTACGCGATTGAGCAAATGCGGTCATATGCTTTAATACAGCCGGAACGAAGCGAAGGAAGTATTCAATACGCTGCCCATCAAACCGTTGTCGCTTACGGAGAACAGCACTTATCCGAAAATCACGAATTTGCAAAAGAAGCCCGCAGCCGCTGGGCGCATTATTATATTGATTATGCGGAAACCCATATAAAGCGGGAACAGCCCAATTCTGTCTATTGGAGCTACCTGCTGGGACGGAATTTAGAGCAAATGAAAAAGGAATGGCCGAACATCCTAAAAGTCATCGAATGGTCGAGCGAAACCGGACAACATGACATCCTGATCAAACTCATCATCCGCATCAGCCATTTTCTAAGCAGAATCAACCTGCCCCTGCGAATCGAATATGGATTAAAAGCCGCCGATGCCGCCCGTCAATCAGGCGAACACACGCGGGAAGCTTACTTTCGGATCGACACGGCAGGCTGGGCGCTGATGGAAGTCAACGATTCAGACGAGGCTCTCAGGCAAATAGAAGCCGGCCTGAAGATACTCGAACAATCAGGCGCGCCGGATCACGACGACTTAAAAGTATGGGGAACCGCCCTGCAATCGAGGCTGCTGTTAAAAACCGGAGAACCGGACAAAGCGGCAGCAATGCTGGACGGCATCAAAGATCAGCCCGTCTCGCCCATTATCCGGCACAGGGTTCTTCTGGTCCGCGGCGACCTGAGTTTCGCCCGCTCTCACTACGAAGAAGCCATCACATTATACGAAGCGGCAAACACAACCAGCGCCGCATACGGCGGCGAAAAAACGATAGAAGCCTATTTCAACCTAGGCATGGCTTACGTAAAGTGTGATCAGCTCAAAAAAGCGGAAAAAGCCTTTGAACAGATGCTTTATGATAAACATAATCCCAATCAAGTTGAGTTGATCTACTATTATTACGGGATGGCACAGCTGTTGTATCGTAAAGGTGAAAAAACGAAAGCGATGGAATCGAATCAGAAGGCAATTCGTCTGATTGATTCGTGGGAGCCTGGGATTGGGATTCGGGGTGAGGTTGAGCAGCTGAGAATGGTGCTTGAAGGAAATGGTGAAGTCACATTGTAG	MAELENRTQFAELLAPAVKSLKHHPDYKIKRTKNVKSGQSYIDQIALRIGVSSNTIKSWIGQMGANYIPGRIDDGKLFGMIWIIIEKTDMDPEWLTGLLETTTIPVIKPALPVWTASCLKKAKILRKDGSFGAPSDEDVEKAVKRLFHDRPSHETNALTRKSVTHNLPSRRTGNFIGRGFDMEAIRQWMLSPSPVCLITGWAGMGKTTIALEAAYLCAGSSPDWPAFNSIIWISADWKGLSFSDFLNTIAYQLGRTEQIDKSINEKRFVVRNALAAHSNEKPVLLIVDSIDTAERDIHEFIIGLPQGVKVLLTARENVKQTYRDGLGELAAIQLSGLEQTDALEFFHQEVHRCLQTCNLPHKREKLEQLLQLSPDLKNEFISAAAGNPKAMALSIAYMSDDDIPAPQLIQELKQAGYSLLELFEVLFGRTWDRCHEDTRKLWQTLCFFAKPPDEKSLAQAAGLDVRRFHYAIEQMRSYALIQPERSEGSIQYAAHQTVVAYGEQHLSENHEFAKEARSRWAHYYIDYAETHIKREQPNSVYWSYLLGRNLEQMKKEWPNILKVIEWSSETGQHDILIKLIIRISHFLSRINLPLRIEYGLKAADAARQSGEHTREAYFRIDTAGWALMEVNDSDEALRQIEAGLKILEQSGAPDHDDLKVWGTALQSRLLLKTGEPDKAAAMLDGIKDQPVSPIIRHRVLLVRGDLSFARSHYEEAITLYEAANTTSAAYGGEKTIEAYFNLGMAYVKCDQLKKAEKAFEQMLYDKHNPNQVELIYYYYGMAQLLYRKGEKTKAMESNQKAIRLIDSWEPGIGIRGEVEQLRMVLEGNGEVTL				NA	NA	NA	NA	NA
D1-12_02817	99			hypothetical protein	ATGCAAATAAACAGCAAAAACCCTTGTTATATCAAGGGTGGATATTTGATTTCATCTGAATTGCTCATGCATTCTAGCAAAAAAGACCTTATCAGTTAA	MQINSKNPCYIKGGYLISSELLMHSSKKDLIS				NA	NA	NA	NA	NA
D1-12_02818	348			hypothetical protein	ATGAAAAGAACAACTGAATTTGTTTTAGGATTATTGGGTGGAATTTTTGGTTTTATTGGGGCGATCATGGCATTGATTATTGGTGGACTTGATGCCTCTTTTAATTCAAGCGGTACAAGCGAAATCATTGGTTTAGGCTGGGGAGCTGTTGTCCTATCAATTTTGGGTATTGTCGCTTCAGTAGTAGTTAAGAAGAAACCTAAAGTCGGAGGAGTATTGCTCCTTATCTCAGGAATTGGCGGAGTAATTTGTATATCAATGTTCTATTTACTGCCTGCTGTTCTTCTTATTATTCCAGGGATCATGGGACTTGTCAGAAAAGATAAAACGACAACAACAGCAGCTTAA	MKRTTEFVLGLLGGIFGFIGAIMALIIGGLDASFNSSGTSEIIGLGWGAVVLSILGIVASVVVKKKPKVGGVLLLISGIGGVICISMFYLLPAVLLIIPGIMGLVRKDKTTTTAA				NA	NA	NA	NA	NA
D1-12_02819	201			hypothetical protein	ATGACCGATTTTGAGCGTAAAGTGTATCGGATTATTTTTAACATGAGCCGCTTCGGGAAAAATCCCTCCATGGAACAATTGAAAAGGAAAACCGGGAAAGATGAGCAGGCGATACGTGCTGCTGTGAAAAGTTTGATGAGGCAGCGCATTTTGAAGTGGGATAAGAAAAAAGAAGAGTGGATTTTCCTAACTGTACGTTGA	MTDFERKVYRIIFNMSRFGKNPSMEQLKRKTGKDEQAIRAAVKSLMRQRILKWDKKKEEWIFLTVR				NA	NA	NA	NA	NA
D1-12_02820	855			hypothetical protein	ATGACAACACCTCAACCGATCAAAGTATTCAATACACATAGTGAGCAATTAGAAAAATTTAAAACACGAGGTCTTCGTATCGAAGATGAGTCTCTCGCTTTAAAAACACTAACAAGAATAAATTATTATAGACTTACGGGTTATATGCTTTCGATGAAAGACGGAGATAAATTTTATGAAGATGCTTCTTTTAATAAGGCTTTAAGACATTATGAATTTGATACTAAATTAAGACGATTACTTTTAAAAGCTACTGAATATATCGAAATTGTATTAAGATCTCAATTAGCTTATAAATTTTCTGAGAAGTACGACGGTTTAGGATACAAAGATTCAAAAAATTTTTACGACGAAGAAAAGCACCAAAAATTCCTTGTTATTATTGAGCGAAAAATCACTGAAAGTAAAGAATTATTTGTTCTTCATCATAAAAAAACTTATGATAATCAACTACCATTGTGGGTAGCTATTGAATTATTTTCGATGGACATGTTATCAAAATTCTTTAAAAATATGATTACAGCTGACAAAAAAGATTTATCTAATAACTACTATGGAGTTAATCATTCGCATTTAGGAAACTGGTTATATTGTTTAACAAATATAAGAAACATATCTGCCCATTATTCGAGATTATACAATAAAAACTTTCATTTTTCCGTGAAGCTGTTTAATGAAGTGAAATTGAATAGCAAAAAATTAGTTTCAGTATTCTATATCTTAAAAAAAATGTTACCACCTGATGAATGGAGAAGGTTTCTTGATAGTTTTCTTGTTTTAACAGAAGAGTATGGTGACGTAATAGAAATGCATCATATGGGTTTCTATGATAATTGGAAAGAATATATTAATTGA	MTTPQPIKVFNTHSEQLEKFKTRGLRIEDESLALKTLTRINYYRLTGYMLSMKDGDKFYEDASFNKALRHYEFDTKLRRLLLKATEYIEIVLRSQLAYKFSEKYDGLGYKDSKNFYDEEKHQKFLVIIERKITESKELFVLHHKKTYDNQLPLWVAIELFSMDMLSKFFKNMITADKKDLSNNYYGVNHSHLGNWLYCLTNIRNISAHYSRLYNKNFHFSVKLFNEVKLNSKKLVSVFYILKKMLPPDEWRRFLDSFLVLTEEYGDVIEMHHMGFYDNWKEYIN				NA	NA	NA	NA	NA
D1-12_02821	1164			hypothetical protein	ATGTCAGCATACAGAAACCAATATATTGATATTAATAAATGGACGCGGCCGGGAATCAAAAACAACGGCGTGAAGAAACTGGCTGTACATTACACGGCAAACCCCGGCGCGTCTGCTGCCAATCATTATAGATATTTTGGCCAAACGCTCCCCGCACAGAACAGAAATCTATCTGAGAAAAAACAGACGTTTGCATCGGCCCACATCTTTGTCGATCGTACAGAGGCTATTTGCATCATTCCGTTGAATGAGGTGGCCTATCATGCGAATGACGTTCAGCAATTCGTCAACGGACAGCCTTACCGGGGCATCGCGGCACTGAAACCGAATGCGAATTTCTTATCTGTAGGCGTGGAGCTTTGCATTGAAAAGAACGGCACTTTCCATCCGGATACCATTGCTCGTGCAGAACAAGTCTGCGCTGAGCTATGCAAGAAGTTTAAACTTGATCCGATCAATGACATCGTGCGGCACTATGACATTACACACAAAATCTGTCCGGCCCCATGGGTAAGCAGATCCCAAGGGTTTACTGATTTCAAGAATGGAGTAAAAGCGCGATTAGGTGGGGTAGTAATTAACAAACCAACTAACAACAAATCGAAAACCAACACCGATTCGAATAAAGGCCGTTTTATCAAAAACACGGTGGTTTCAAGTGACGGCCTTGTTTTACGTACGCAACGGAACGCCTCTTCTTCCATGGTGCTTAACCTGCCGAATGGTACGGTTGTAAAATATCAGCTTGGATCAACTGTCAACGGATGGGGATATGTTGAATACACCAATTCAAAAGGCCAGACATTCCACGGGTATGTGAATGTCTCCTATATCAAAAGTGATAACGAGCTGAAAAGCGGCGGCAAGAAGAAGGTAACAGCCTCAAAGCCTAAAAACACTCAGAAATCAAAATTCAGCCTGCCTGCGGGTACTTTTAAAGTCACAAGCCCATTGACCCGAGGAGAGGCCGTAAAACAGATTCAAACGGCGCTGGCGGCTCTTCATTATTATCCCGATAAGAGCGCAAAGAACTTCGGAATTGATGGCGCATATGGCCCGAAAACAGCAAACGCGGTCAAACGATTTCAATCTATGTACGGGTTAACTGCTGACGGCATCTATGGGCCGAAGACCAAAGTGAAGATCGAAGCGCTATTAAAATAA	MSAYRNQYIDINKWTRPGIKNNGVKKLAVHYTANPGASAANHYRYFGQTLPAQNRNLSEKKQTFASAHIFVDRTEAICIIPLNEVAYHANDVQQFVNGQPYRGIAALKPNANFLSVGVELCIEKNGTFHPDTIARAEQVCAELCKKFKLDPINDIVRHYDITHKICPAPWVSRSQGFTDFKNGVKARLGGVVINKPTNNKSKTNTDSNKGRFIKNTVVSSDGLVLRTQRNASSSMVLNLPNGTVVKYQLGSTVNGWGYVEYTNSKGQTFHGYVNVSYIKSDNELKSGGKKKVTASKPKNTQKSKFSLPAGTFKVTSPLTRGEAVKQIQTALAALHYYPDKSAKNFGIDGAYGPKTANAVKRFQSMYGLTADGIYGPKTKVKIEALLK	PGPT0019115_295	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
D1-12_02822	264			hypothetical protein	ATGAAAAAATTCGACAAAGGTACAGTCGTCCGGACTGTGCTTCTTTTTATTGCTCTCGTAAACCAAGTTTTAGTGATGTTTGGTAAGGATGTGCTACCAATTGCAGATGATCAAGTGAATGACCTTGCGGACGCGGTTTATTTAGGCGGCTCCATCGGTTTTACGATCATCATGTCATTGGTAGCATGGTTCAAAAACAACTATGTGACTGAAAAAGGCCATAAGCAAAAAGCCGTTTTAAAACAGCACGATTTAACCAGGTAA	MKKFDKGTVVRTVLLFIALVNQVLVMFGKDVLPIADDQVNDLADAVYLGGSIGFTIIMSLVAWFKNNYVTEKGHKQKAVLKQHDLTR				NA	NA	NA	NA	NA
D1-12_02823	279			hypothetical protein	ATGTCACAAATGACGGAGGTACCGGAAGTGAATGCTTTACAAAAAGAAATAACAGAGGTTAAAGCCGGGCAAAAGACTCTTGAACAGCGAGTGAGTGTCCTTGAGCGTTCTTCAGACAGGCATGATCAGCAAATCATTTCATTAAACGAAAAGCTGAACAAAATTGATGAAAATACGACTTGGATCAAACGGACCATCACAGGAGCCATAATAACGGCAGTCAGCACCGGTTTTATCGGCGGGGCTATCGCGATCATGTATAATCTGCTGCAAAAATAA	MSQMTEVPEVNALQKEITEVKAGQKTLEQRVSVLERSSDRHDQQIISLNEKLNKIDENTTWIKRTITGAIITAVSTGFIGGAIAIMYNLLQK				NA	NA	NA	NA	NA
D1-12_02824	222			hypothetical protein	ATGCAAGAAATGACAAAAGAGCAACTTCAGGACCAGTTACAAATTGCAGCATATAAAGCTGCTTCCCTACAGCAGGAATTGAATCTGAAGAATAATGAGCTGGCCGAATATAAAGCGCTATACACGTTTGCAGATAATAAACGCGAGGACCTTCAAGAACAATTAAATGCTGCACTGTCAGCGAAAGAAAATAATAGTGAACCAGCACCTGTAACCGAATAG	MQEMTKEQLQDQLQIAAYKAASLQQELNLKNNELAEYKALYTFADNKREDLQEQLNAALSAKENNSEPAPVTE				NA	NA	NA	NA	NA
D1-12_02825	168			hypothetical protein	TTGGAGAACCGAAGTGCTCTTTTCGGGTTTTTTGAGGATTGCTGGAAAAACGGAACTGTTTTGACTGTTGAAATGAGAAAAGCCGTTGAGAAAGGCCGCATCACACAAGCGGAATATGATGAAATTACAGAAAGCGAACGCGGTAATGCGTATCCCGATCAAGAGTAA	MENRSALFGFFEDCWKNGTVLTVEMRKAVEKGRITQAEYDEITESERGNAYPDQE				NA	NA	NA	NA	NA
D1-12_02826	129			hypothetical protein	ATGAAGCTTGAGCCCGTGGTATTAAATATTGAAGCAAAAGATAGAGAAAAGGAAAAGACTACAGAGGAAAAGTTGCAGGAACAAGTCCTTGACCTTCAGCGGGTTTGCAATCTCTTAATGAATCAATAA	MKLEPVVLNIEAKDREKEKTTEEKLQEQVLDLQRVCNLLMNQ				NA	NA	NA	NA	NA
D1-12_02827	390			hypothetical protein	ATGGTTGAAAAAAGGGATTTTAACATGAGTCTTTATTATGCGGACGGCATCGAAATAGAAGAAACCGGCGCGGGAATTGAAATAACTGCCGGCTCTATAAAAAAAGGAGACAAGACATATCCCATGGAGGCTGTTTCGTTCGATCTGCAGCCGGACGATACAACCAAAGTAGCGTATCAATTATATGTCCTTCATGATATAAAGTCTGATGAAATAAGCTATTTGCTCACAAAAACCTATGTAGAGCCTGACGGTTATTATCAAGGGTACAGTGGGAGCAAAAAGCTAATTATGATTCCAGTTCAAATTGTCGTTGATCCACAAGGCAACCGAGAGGGGCTTATAACAATCTACGTTCAAAATAAGGAGGATGGCAAAGATGAAGCTTGA	MVEKRDFNMSLYYADGIEIEETGAGIEITAGSIKKGDKTYPMEAVSFDLQPDDTTKVAYQLYVLHDIKSDEISYLLTKTYVEPDGYYQGYSGSKKLIMIPVQIVVDPQGNREGLITIYVQNKEDGKDEA				NA	NA	NA	NA	NA
D1-12_02828	3384			hypothetical protein	ATGGCTGACATTTATATACTTTCACCAGATGATAAATTATTGACAGTGCTGTCCAGCCACGGACGAGAAACCTGTACGTTCTGGGATGCGAAATACAAGGAAGAGCTGAACAAGGGCTCTTCTTTTTCTTTTGTAGCGGACGCCTCCCATCCTGACGCACGCTTCTTATTCGAAGAGAATCAAGTGGTGTTCAGAGATAAGGACGGTGTACTGCGTCTGTTTGTCATCAAGGAATTGGATGATACAAGTGAAGAAGGAGAGATTAACACTCAGGTTACCTGTGAAGCTGCCATGATGGAGCTTGCTGAAACCTTTGTAAAAGATTTTCGCCCTACCAATAAAACTGCTCAGTTTGTACTGGATAATGTTCTTTCTCGGTCAAGATGGGTGGCGGAAGTAACGGCGGAGCTTGGAGTGAATTCGACTACCTTCTATAAGAAAAAAGCGCTGGATTGTATCGCTGATGTGATCAATATATGGGGCGGAGAGCTTCAGGACACTATAGAATTTGATGGAAATCAGGTCGTCAAACGAATTATAAAAATACTTCCCCGTCGCGGTAAAGACAGCGGGAAGCGCTTTGAGAGTGATAAGGATACAACAAATATCCGGCGGACCGTTATCAGTTACCCGGTGACAGCCCTTTGGGGTTACGGAGCATCCATAGCATCTACGGATGAGGAAGGAGAGGAAACGGGCGGTTATTCCCGTTTTATTGATTTCTCTGAAGTAGAATGGAAAAAATCAAAAGGCGACCCGGTCGATAAGCCCTTAGGCCAGGAATGGGTTGGCGATCCGGATTTATTAGAAAGATTGGGGCGCCTTAAAGATGGAAAGTTGATCCATCGGGAAGGCCAGTTCAATAATGAAGACATAACGGAGCCGGAAGAGCTCTTAAAGGCCACGTATAATCATTTGATAACGACTGCATGTAAGACAGAAATCAATTATGAGCTGTCCGTGCAACTGCTTGAGAGCGTGCCGGGACACGAACACGAACATACGGAATTGGGAGATACAACGATCGCAATTGATCGAAACTTCGCTATCCCGATTGAGACATCTCAGCGCGTTATTTCAATGGAATACGATATTACCGACCCTGAAAATACTTGCGTCGTTGAGATCGGCCAATTCTTATCAGCATTACAAAAGGACGGCCGAATTGATCAAATTGAAAGCGTAATAGAAAAAAACCGTGGTACTTGGGAGAGCAAACCGGACGCCGGTGAGGTTACGGATGGAAGTTTCCCTGACAAAGCCCCGCCTGTTCCGTCTAATGTAGTGATCAAGTCAATGTTTCAGAATGTGGCTCTGACATGGGACTATGACCCGTCCAGTTATATCGCAGCCTATGAGGTATATGCTTCACAAGTAAATGGATTCACCCCATTAAAAGAGAATCGTATTTTCAGAGGCAAAACAGGCGGATATGAGCATTTTACGGGAGTAAATGAAGTTTGGTATTATCGCTTGCGCTCAATCAACACACGGGGCACAGCGAGCGAATTCACGGATCAGTTTTCCGCGACCACCCAGCGCATTCTGACTGATGATATTGTTTTCGGAGCGATCACAAAAGAAAAACTGGCCCAGCTGGCCGTTGACGCTGATAAACTTTCAAGAAACTTTGATGATGCTAATATCTTACCTGGCTCTCTTTTAAAATCTAAATGGTTCTATGATTACCCGGACACAAGCCACAGTGTTGAGGAAAAAGAATTTAACGAAATGACTGTTTCTCAAGTCATCAATGGAACAACTAGAATAGCTTTCGGAATATGTGGTAACAGGTCCTCGCCTGTTAATGTTCAAAGAATGGCCTTGGTCAAAGATCAACAATATACACTGTCTTTTGAAATAAAGCGGAATAATACCACCGACATAAATTATATTCATTTGAAAAAAGGCAGTACTTTCATACAAATTAGCAGCAATGAACAGAAAGATATTTCTGCTTTTCCGTCTGACCAATTTATAAGGGTTAATATAAAATTTACTGCACCGGAAACCGGCTCTGATTACACAATTGGAATCGGCGGATATAATCGAAACGGAAACACTGAGCCCTGTAGCTTTGTTATTCGTAAGGTACAGGTGCGCAAAGGCGATGTCATTTCTGATTATGGTTATAGCCCGTTTGATACTCAGCTGGTCGATGGTGTTATTGATGGCGACCACATCCAAAAGGCGGTAATAGAAACAGCTCATATAAAAAATGCAGCCATAACAAGTGCGAAAGTAGCTGAAGCGGCTATCGGGACAGCGGCTATTCAAAATGCGGCTATCGCAAAGGCGCATCTAAAAGAAGCAATAATTGATTCGGTACACATCATTGACGGTTCAATAACAAACGCCAAGATCAAAGACCTTTCAGCGGACAAAATAAACGTCGGGACGTTAAAAGGTATCACGATAGAGGGTGTGGACATAAAAGGGGCCCGTTTCGAGGCGCTGACACAATCAGAAGATGCCGAATACTATATCGAAGGTGATAAGATTTACCAATTCACCAGAGACTCTCATTATGATTACAACAAATTGGTTGTTAGTTCTGCGAAAATAACGCAGGAACAAGGAAGGTTTTACGATCCTGGTGATTCCTCTAATGAAATCTACAGAACAGTCTCAATTGGTGATGGCAAAATTGAGCTCCGTGGCGCAGGCGAGCAAACCGCATATGAAACGGTTCCAACTATTTCAATGTATTCAGAAATAGGAGATGTTGGACAAGTTATAAGCCATTTTAATATGAAAATGGAAAGACAGGCAGCTGTTGAAGAAGACGCCTTTCTTCTTACTGCTACTACCAATCCTAAAAATATAGGAGAGCCGTTCACATATAACCGTTATCAGGCCCTTTTTGAAGGATCAGCTACTATTTATCGCTTTAAACCGAATAATTTAGATATTGATGTCCCCGGGGTCATTCGACTGAAATCAGGCCAAAAAACGATTGTTGACGCATCAGATTTAACGCTACCATTGGGAACCAAAGTTGTAGCAGGGAATGCAAAAAATTGCGAATTCAAATTGATGGGTGGCAATGTTTCTACAGAATTAGAAGACGAGCATGGAGGCCTGCAATACGGTTTGATGGTTTACTGCTTTACTTGGGACATTAAACTGCCGCCTGACGGAGGGGCAACTGCGTACGCGCGCTACAATCGCATTCCTTTTGTTGATAGTTTTTATTATGCGCCTGAGAACGTTTTTGCGGCGGTAGGTACAGCGATTGGCGCATATTCTAATGCGGTTACGGTAGGATTAGAAAATATAAGCGCCAGTTCTGTTGATATTGGAGTGAGAGGGACCGGGACTACTGCCGGAGTTGCGGGAAAAACGATAAAGGTTCAAATTGTTATTTTTTACGAATCACAATAA	MADIYILSPDDKLLTVLSSHGRETCTFWDAKYKEELNKGSSFSFVADASHPDARFLFEENQVVFRDKDGVLRLFVIKELDDTSEEGEINTQVTCEAAMMELAETFVKDFRPTNKTAQFVLDNVLSRSRWVAEVTAELGVNSTTFYKKKALDCIADVINIWGGELQDTIEFDGNQVVKRIIKILPRRGKDSGKRFESDKDTTNIRRTVISYPVTALWGYGASIASTDEEGEETGGYSRFIDFSEVEWKKSKGDPVDKPLGQEWVGDPDLLERLGRLKDGKLIHREGQFNNEDITEPEELLKATYNHLITTACKTEINYELSVQLLESVPGHEHEHTELGDTTIAIDRNFAIPIETSQRVISMEYDITDPENTCVVEIGQFLSALQKDGRIDQIESVIEKNRGTWESKPDAGEVTDGSFPDKAPPVPSNVVIKSMFQNVALTWDYDPSSYIAAYEVYASQVNGFTPLKENRIFRGKTGGYEHFTGVNEVWYYRLRSINTRGTASEFTDQFSATTQRILTDDIVFGAITKEKLAQLAVDADKLSRNFDDANILPGSLLKSKWFYDYPDTSHSVEEKEFNEMTVSQVINGTTRIAFGICGNRSSPVNVQRMALVKDQQYTLSFEIKRNNTTDINYIHLKKGSTFIQISSNEQKDISAFPSDQFIRVNIKFTAPETGSDYTIGIGGYNRNGNTEPCSFVIRKVQVRKGDVISDYGYSPFDTQLVDGVIDGDHIQKAVIETAHIKNAAITSAKVAEAAIGTAAIQNAAIAKAHLKEAIIDSVHIIDGSITNAKIKDLSADKINVGTLKGITIEGVDIKGARFEALTQSEDAEYYIEGDKIYQFTRDSHYDYNKLVVSSAKITQEQGRFYDPGDSSNEIYRTVSIGDGKIELRGAGEQTAYETVPTISMYSEIGDVGQVISHFNMKMERQAAVEEDAFLLTATTNPKNIGEPFTYNRYQALFEGSATIYRFKPNNLDIDVPGVIRLKSGQKTIVDASDLTLPLGTKVVAGNAKNCEFKLMGGNVSTELEDEHGGLQYGLMVYCFTWDIKLPPDGGATAYARYNRIPFVDSFYYAPENVFAAVGTAIGAYSNAVTVGLENISASSVDIGVRGTGTTAGVAGKTIKVQIVIFYESQ				NA	NA	NA	NA	NA
D1-12_02829	765			hypothetical protein	TTGATCAATTATCAGGAACTACTGCCTAACCAATGGAAAATCACGTTTGATGGTATTGATATATCACCCTTCTTTTATGTGAAGACCACGGGCGGCCGGGGAGTGACAGGAAGAGAAGTGAATACAGCCACTATCGGGAATCGCCCCGGCGGTTTCCTGCGGAACACAAGAATCCCTGTAAGAGTCATAACCATTGAGGTTCTTTTTGCCTTCAGCAGTGAAGAAGAGTTGAAGAAAAAGCAGGAGGAATTGACTTTTATTCTGCACACTGAAGAGCCTAAACCGTTAATTTTTCATGATGAGCCCGACAGATTCTATAACGCTGTCTTTGAAAGCATTTCAGAAGGCGAAGAACAGGGAGGCTTTCAGACTGCAACATTGACTTTTATCTGTCCGGATCCAAAAAAATACGGCTTAGCGAAGGATTTTGAATTTGATTCAGGTGTTCATACTATTACTAATCCGGGCTATGCAGCCGTAGATCCAACAATCGAATGCGTTTTTGAAGAGAAAGCCACTTCATATGAGGTGGCTCTTCTTAATGCTGATGGGTCGGTATCGAAAACGATCAAGCTGCTGTACGATTTCATCGCTGGTGACACACTTGTAATTGATTCAGCAAAAAGAAAGGTCACTTGCAGCGGTAATTTAATCATGACAGCACTTCAAATTCAATCAGATTGGTTTCTGCTGCCGCCCAGAACGCCAGTTAAAATCAAGTTCAGTCATAATAGCAGCATCAAATTTAATGAGGCATATTTGTAA	MINYQELLPNQWKITFDGIDISPFFYVKTTGGRGVTGREVNTATIGNRPGGFLRNTRIPVRVITIEVLFAFSSEEELKKKQEELTFILHTEEPKPLIFHDEPDRFYNAVFESISEGEEQGGFQTATLTFICPDPKKYGLAKDFEFDSGVHTITNPGYAAVDPTIECVFEEKATSYEVALLNADGSVSKTIKLLYDFIAGDTLVIDSAKRKVTCSGNLIMTALQIQSDWFLLPPRTPVKIKFSHNSSIKFNEAYL				NA	NA	NA	NA	NA
D1-12_02830	5196			hypothetical protein	ATGATGCAATCCGCAACCACTTTGCAAAATTCGGACAAGGAATGGGGTGAGGGAATGATCGAAAGACTGACAGCAATAGTTGAAGCACAGACAAGAAAATTTAATCGCAGTATGGATCGTGTCAACGATATAATGCGCCGGATGGCTGATCATCACACAGTCGAGGTTGACGCCGAGATTGCCAGCTTTCAGGCAAGAGTACGGCAGGCGGCGCAACAAATAGATAACTTTGTTCATCGACATCAACGCACGCGAGTTGATTTAGATGCGGATTCAGACCCTTTAACTCGGGCCATCAATTGGGCGAAGCAAAGATTAAGACAGATTCCCCAAACTGTCACCACGCAATTAATGGGGAATGTGCGGCCGTTATCTTCCGCATTGGCACGCGCTAAAGCAGGGCTATCGGCAGTGGCGAACAGAATCACAACGACGATAGACGGAAATCCCACTCCTTTAGGGCGTGCTGTCGCTGTTGCGCGGTCAGCCATAGCATCAGTATCTCATAACGTAACTACCACTTTTAATGCGGCCACGTCGCCTATCATGCGCGGGGTTTCGGCAGTCCGTTCAGCTTTGGCTTCACTGCCAAACAGAATTACCACGGTCATAAACGGAAACACGGCTGCACTTATGCGCTCTGTGGCAACGGCTCGCGCTGCTCTGGCGTCCTTACCGAGAAGAGTATGGATCAGTATAGAGGCTCGAATTGATCGGTTTGAAACGTCAATGAACAGACTTGCCAAGATCACAAACTCAGTTTCAACAGTCATCGGTCATTCAATTGCCGGGGCACTAACGTCCCTACTCCCTGCAATCTCGCCAGCCCTTGCAAGTATTGTCGGGGTAATCGGCTCATTGGGTCCTATGCTCGGGGTGGCAGCCGGCGGAGTAATGGGGTTAACCAGTGCATTTGCAACAGCGGGAACAGGCGCGGCGGCATTCGGCGCCCTTGCTATTACTTCGATAAGCGGTGTATTCAAAGCATCCGAAGACCTTTCCAAGCTGCAGGAGAAGCTGGACAATGCAACAAGCGCAAAAGAGCGCGCTAAGATCATGAAACAGATCAATAATCTGCAAAAATCTCTTGGAAAAGAAGAGAGAGAGGCATTAAAGAACCTCGAAGACTTTAAAGACAACTGGCGGGACATCGGTACGATGGTTCAAAAGCCGATCTTGAAAACATTCGGTATGTCTCTAAATACGTTTAAACTCGCTCTCAACTCACTCATTCCAATGTTTGACGGACTGGCGAAAGAGGGCGTGGGACTGGCGAAAAGCATGGACAAAGCTTTTAAAGCTCCGGACATGCAGAGATTCATTTCCTATCTGAACAAAGAAGCTCCGAAGGCGTTTGCTTCATTCGGCCGATCTGCCGGGAATGTCTTACGGACAGTTTTTAATCTGATCGTAGCATTCGGACCGACCGGAAAGAGCATGACAAAATCCATCGAAGGAATGACCCAATCATGGGTGAAATGGTCAGCGAACTTGGGTTCTTCAAAGAAATTTCAGGCTTTCGTGGAGTATACAAAAACCAACGGCCCGAAACTGCTACAGATCATCAGAAACTTTTCGGGCGGCCTGACAAAGCTGTTTACTGGATTCGCTCCTATGTCTCAAGACATGATGACATCACTCGTAGATCTGACCAAGCGGTTCAATGAGTGGGCAGGCAGCGTTACGAAAACAAAAGAATTTCAATCGTTCATTGACTATATCAAAACCAACGGCCCTACAGTATGGAGCACATTGGGGCAGATCGCGAAGACTATCATCAACTTGCTTGTTGGCATGGCTCCACTCGGTAAAACGATTTTGGAGAATGTAAACGGGTTTTTGAAATTTACTAATGCTGCGATGGAGGCAAACCCGGCAATCGGGAAATTTATAGCAGCTGGTATTTCATTAATTGGTGCTTTAAGAGCTATTGTTCCAGCGATAGTAGCGGTCAGTGCTGTCACAAATGGGCTTAAAGATTTTATGACTGCAGCTCAATATTTGCGGAGCTTTGGTTCGGCGGTTTCAGGGATCAGAACTGTGGGATTGATTACCCAATTAAAATCAGCAATTGTCACGATGGGTCAATTCATTGCGAAGTATACAGCGATGGCAGCAAGCGCAACAGCTAATGCTGTGAAAATGGCGGCATCGTGGACAGCCATGAAAATATCAGCGTTTGTTTCTGCTCTGAAGCGCGGCATTGTTCAAATGGGTTTATGGATCAAGAATATGACTGTAATGGCTGCACAATCAATCGCAAGTGCTGCCCGTACAGCAACCGCATGGACAGCAATGAAGATCACCTCTTTTATCACAATGCTGACAAACGGGATTAAGCAGATGGGTCTTTTCATTGCCAAAATGACCGTGCTCGCAGCGCAATCCATAGCACAGGCAACCCGCATGGCAGCGGCTTGGACGGCGGCGCAGATCAGCAATTTTATATCTTTGTTGGTTGCAGGCGGTAAGCAAATGGTTTTATTCGGCCGTCAACTCGTCGTACTAGCGGCACAAGCGGCAGCACAGGCGGCACGCATGGCGGCATCATGGGTCATCGCAATGGGGCCTATCGGATGGATTACGGCGGCTGTCATCGGTCTGGTTGCCTTGATCATCGCGAATTGGGACACGGTGAAATCGGCTACAATTGCGGCATGGGGTGCTATTTCCAGTTGGCTGTCTACTGTCTGGACAGGTATAAAGACGATAGCAACATCAACATGGAACGGAATAAAGTCGTTCTTCTCTACTGTTTGGAATGGAATTGTATCGGCAGCTAAAAGCATTTGGAACGGCCTGAAAACATTCTTTTCATCACTCTGGAATGGGATGAAAACCGCGTTCACAACGGTTTGGAACGGCATTAAGTCATTCGCCACTTCAACTTGGAAAGGCATTGTGTCAGTCGGGAAATCTGTCTGGAATGGTTTAAAAACGTTCTTTTCATCTGTTTGGAATGGAATGAAAACAGCATTCACAAGCATTTGGAACGGCATCAAAACAATTGCTACTTCGATCTGGAAGGGCGTTGTATCAGTTGGAAAATCAATCTGGAATGGATTGAAAACATTCTTCACCAGTTGGCTAAATACGCAAAAGAAAATCTTCAGCACCGTTTGGAATGCGATAAAAACTGTTGTTACCACAGTATGGAAAGCTGTATCGTCTACTGCCAAGAGCATTTGGAATGGGTTGAAGTCATTTTTTAGCAGCATGCTGAATGGCACCAAGAGTGTTTTTACAAGCGTGTGGAACGCTGTTAAAGGTTTTGTGACAGGGCTCTGGAAAGGGCTTGTGAGTACAGCTAAAAGCCTATTCAATAGTATGAAAAACGCTATTTCCGGCATAATGAAATCAGCAAAATCAACAATTACAAGCATATGGAACGGTGTCATGAAGTTTTTCCGCGGCATTAACTTGTGGCAGATCGGTAAGAACATCATCCAAGGCTTAATAAATGGTATCAGCGGCATGGCGGGAGCATTAGCGAGCAAAGTAAAATCAATGGCAAATGCTATTCCCAACGGCATGAAAAAGCTTCTGGGAATCCATTCGCCGTCAAGGGTAATGCGTGACCAGGTCGGCTATCACGTCGGTACCGGTATGGCGGCTGGTATTGATAAATCGCAGGGCAAAGTAAAAGCGGCCGCGGCAAAAGCAGCGAAAGTGGCTCAGAAGGCAGCTGAGGTAAAGGTATCCAATAAAATTAAGAACGCTGAAGTGAAGTATGACACCAAGAAAATGGGCGCCGATACGTATATCAAAACATTGCAGAAGATTCAGAAGCAAAACAAGCTTACCAGCGAGCAAAACCGAAAAATACAGCGCGAGATATATCAGGCATCCAAAAGCGCCTCTGATAAGCAGAAGAAGCTTCTGAAAGAGCAGCAGCGCAAGGAAGCGAAGGCGAAACTGGCGTATACCAAGAAAGTATCAGATCAGATTAAGAAAGCTGAGGCAAAATACGATACAGGAAAAATCAGCGGGAATACCTATATCAAAACGCTTGAGAAAATCAAGAAGAAGAACAAGCTGAATTCTGACCAGCAAATAAAGGTTCAACGGGAAATCTATCAGGCTCAAAAAGCTATGACTGATAAGGCCAGAAAGCAGAAGGAAGCCGAAAAGAAAGCGGCTGACAAACTTAACAAGGGCATTCTTTCTGCAAACAATACTTATCTCTCAAAATTCAAAAAAGTGAATGATAAACTGACTGCCGATATTAAGGCGGCCAACGATGCCTATAAAAAGGAGCTGCAAGACCGAACTAACGCGATTTATAACGCCATCGGTCTATTTGACGATGTCTCAAGTCAAAATGTGAACGGCTCCAAGCTGACTTCAAATCTTAAAAAGCAGCTGGACAAGATCAAAACGTTCAACACTGACATCACAAAAATAGCAAGCCGGGCACCGAAGGCATTCACAGACGAATTGAAAGAAATGGGTGTCGGGTCAGCTGATCAGATTAATGCAATAGCCCGCATGACAGATTCGGAGCTAAATGAGTATGTCAGTCTGTGGAAAGAAAAGCACAAGCTGGCCAGTGACCAGGCTACCCAAGAATTAACCGGGTTGAAGAACGCGACGACCAAGAAAATAAATGAATTACGGTCGGCCGCAAATAAAGAACTGGCACTTCTGAAAAATGACTATCTCCGCAAAATTGGGGAGCTTACAGTGGATGTAAAACAGCTGGGTTCTCTGAAGAAAAGCGGTAAAGCCATCGGATCAAATACAATGGCCGGCATTATTTCTGGAATGAAGAACATGAAGGGCGAGTTGGCGAAAGAAGCAAACTCCATCGCATCGACTATTGAGAAAACCATTAAGAAAAAAATGAAAATCCACTCCCCATCCAGACTGATGCGGGATCAGGTGGGGATCATGGTTCCTGCTGGTATCGCTGTGGGGATTCAGAATGGTATCGGCACTGTTCAAAAAGCTATGGGAGCCGTCAGTGATGCCATGACTATTCAGCAGGAGGATCTGAATTTTGCATATGACACATCCATTTCTAGCAGCGAACTCGGCACGGTTAGAAAAGAATTGAGCGCGGACATCCGGAACCTTGAATTGCCTGACAGAATGATTGTTGTTGAGCTGGACAGCAAGAAGGTCGGTCAAGGCGTAGAAAAACCTGTCACAGACGCTCAGAAAAGGTCGAACGCAAGGAGGACGAGATTTAATTGA	MMQSATTLQNSDKEWGEGMIERLTAIVEAQTRKFNRSMDRVNDIMRRMADHHTVEVDAEIASFQARVRQAAQQIDNFVHRHQRTRVDLDADSDPLTRAINWAKQRLRQIPQTVTTQLMGNVRPLSSALARAKAGLSAVANRITTTIDGNPTPLGRAVAVARSAIASVSHNVTTTFNAATSPIMRGVSAVRSALASLPNRITTVINGNTAALMRSVATARAALASLPRRVWISIEARIDRFETSMNRLAKITNSVSTVIGHSIAGALTSLLPAISPALASIVGVIGSLGPMLGVAAGGVMGLTSAFATAGTGAAAFGALAITSISGVFKASEDLSKLQEKLDNATSAKERAKIMKQINNLQKSLGKEEREALKNLEDFKDNWRDIGTMVQKPILKTFGMSLNTFKLALNSLIPMFDGLAKEGVGLAKSMDKAFKAPDMQRFISYLNKEAPKAFASFGRSAGNVLRTVFNLIVAFGPTGKSMTKSIEGMTQSWVKWSANLGSSKKFQAFVEYTKTNGPKLLQIIRNFSGGLTKLFTGFAPMSQDMMTSLVDLTKRFNEWAGSVTKTKEFQSFIDYIKTNGPTVWSTLGQIAKTIINLLVGMAPLGKTILENVNGFLKFTNAAMEANPAIGKFIAAGISLIGALRAIVPAIVAVSAVTNGLKDFMTAAQYLRSFGSAVSGIRTVGLITQLKSAIVTMGQFIAKYTAMAASATANAVKMAASWTAMKISAFVSALKRGIVQMGLWIKNMTVMAAQSIASAARTATAWTAMKITSFITMLTNGIKQMGLFIAKMTVLAAQSIAQATRMAAAWTAAQISNFISLLVAGGKQMVLFGRQLVVLAAQAAAQAARMAASWVIAMGPIGWITAAVIGLVALIIANWDTVKSATIAAWGAISSWLSTVWTGIKTIATSTWNGIKSFFSTVWNGIVSAAKSIWNGLKTFFSSLWNGMKTAFTTVWNGIKSFATSTWKGIVSVGKSVWNGLKTFFSSVWNGMKTAFTSIWNGIKTIATSIWKGVVSVGKSIWNGLKTFFTSWLNTQKKIFSTVWNAIKTVVTTVWKAVSSTAKSIWNGLKSFFSSMLNGTKSVFTSVWNAVKGFVTGLWKGLVSTAKSLFNSMKNAISGIMKSAKSTITSIWNGVMKFFRGINLWQIGKNIIQGLINGISGMAGALASKVKSMANAIPNGMKKLLGIHSPSRVMRDQVGYHVGTGMAAGIDKSQGKVKAAAAKAAKVAQKAAEVKVSNKIKNAEVKYDTKKMGADTYIKTLQKIQKQNKLTSEQNRKIQREIYQASKSASDKQKKLLKEQQRKEAKAKLAYTKKVSDQIKKAEAKYDTGKISGNTYIKTLEKIKKKNKLNSDQQIKVQREIYQAQKAMTDKARKQKEAEKKAADKLNKGILSANNTYLSKFKKVNDKLTADIKAANDAYKKELQDRTNAIYNAIGLFDDVSSQNVNGSKLTSNLKKQLDKIKTFNTDITKIASRAPKAFTDELKEMGVGSADQINAIARMTDSELNEYVSLWKEKHKLASDQATQELTGLKNATTKKINELRSAANKELALLKNDYLRKIGELTVDVKQLGSLKKSGKAIGSNTMAGIISGMKNMKGELAKEANSIASTIEKTIKKKMKIHSPSRLMRDQVGIMVPAGIAVGIQNGIGTVQKAMGAVSDAMTIQQEDLNFAYDTSISSSELGTVRKELSADIRNLELPDRMIVVELDSKKVGQGVEKPVTDAQKRSNARRTRFN				NA	NA	NA	NA	NA
D1-12_02831	507			hypothetical protein	ATGGCTTACTTAACTATCGGAGATAAAGAATACAAATCACGTTGCGACTTTGCTTTTGACAGATTGGCAAACGAAAAATATTCCACTGCGGACGAAAAGGGCAAAGGCGGCACAATGAATATTTATATGAGCTTGCTCAACGAAGAGGCTTCCTATCTTTCTGCTTTTTGGGATTGTGCACTCGCTTACTTGAAGAAAGAAAAGCCATCAACTGAGGCTATTGAAGAAGCAATTATTAAAATCATTGATGAAGACGAAACAGGCGACGCAATTGACAAGATGATCAATGAAGCATTCACAACGCTGGACTCGGCGGGTTTTTTCAAAGGCGTAATCCGTCAGCGTTGGAAGATGATGGAGAAGATGAACAAAGGGAAGAAACCGGCTCCGAACGAAACACCGGAAATGGAAGCGAAACGGCTGGAGGACGAAGAGAACGGCAAGGAAGTCTTGAAGATGATGAAAGAGGCATACAAAGAGAGAACGGGATCGACTATGACCAAATAA	MAYLTIGDKEYKSRCDFAFDRLANEKYSTADEKGKGGTMNIYMSLLNEEASYLSAFWDCALAYLKKEKPSTEAIEEAIIKIIDEDETGDAIDKMINEAFTTLDSAGFFKGVIRQRWKMMEKMNKGKKPAPNETPEMEAKRLEDEENGKEVLKMMKEAYKERTGSTMTK				NA	NA	NA	NA	NA
D1-12_02832	291			Exochitinase 1	TTGGCGAGAATGCCAAAAAAACAACTACGCCCTAATGCGCCCCAAAATCTATCGTTCACGGCTACAGCTGACAGCGTGACCGTGAAATGGGATGCGGTAGATGGGGCAACTTCATATAAGGTATACAGGGGAGCGAGCAAGCAGCTGGACGCAACTGTCACTGGCACATCCCACACCTTGACAGGAATTGCGGCCGATACGAAACTCACGGTCAACGTCTCTGCTGTGAACGATGCGGGTGAGTCCTCAATGACTGAGATTGTTACGCAAACACAAGCGGTTACGCCCTAA	MARMPKKQLRPNAPQNLSFTATADSVTVKWDAVDGATSYKVYRGASKQLDATVTGTSHTLTGIAADTKLTVNVSAVNDAGESSMTEIVTQTQAVTP	PGPT0012130_1118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
D1-12_02833	525			hypothetical protein	ATGGCAGATTTATTGAATGGTATTGATGAGGTTTACTTTGTTCAACCGATGAATGCTACTTCGACTGAAGGTCTGTTTATCGCATTCCAAACAGAAGGCAGTCATACGAAAGAACAAGATACAAAAGATGAATCAACAAAGTCTGGCCGAATTGTTGGGTACGGCCCTAAATCTGAGAGCATCGAACTGACATATTATGCTGCTGTCTCTGATCCTGGTCAAACGGCGATTGAAGATGCTTATGACAACGAAGAGACAGTTCAGGTATGGAAAGTAAACCTGAATAAAAACAAAAACGATAAGCATGATTCTGAATATGGACATGCAATCATCGAGAACTTAGAAAAAAGTGCACCGCAAGATGGGTTTATTGAGGTTTCAACAACATTGCCTGTTCTCGGTAAGACCCGTAAAGGTGAACTTGATCCTCTGCCTCAAGAATTAATTGACGAGATCAGATCTTCTGCCGGTGCTAAAGAGTTCATGCAGTTTGGCGAGAATGCCAAAAAAACAACTACGCCCTAA	MADLLNGIDEVYFVQPMNATSTEGLFIAFQTEGSHTKEQDTKDESTKSGRIVGYGPKSESIELTYYAAVSDPGQTAIEDAYDNEETVQVWKVNLNKNKNDKHDSEYGHAIIENLEKSAPQDGFIEVSTTLPVLGKTRKGELDPLPQELIDEIRSSAGAKEFMQFGENAKKTTTP				NA	NA	NA	NA	NA
D1-12_02834	399			hypothetical protein	ATGCGATCTGCCCTGTGGCCGTTGCAGGCTGCTCTATTTAAGAGGTTATCAACAGACGAAGAGCTGAACGGGCGCGTCACGGGCGTCTTTGATGCAGTCCCGAAAGATCAGCAAAAACCTTATGTGACAATGGGCGATGATGATGTATCCCCATTTAAAACCAAGACATCCAGCGGTGAAGAAATCAATGTGGTTTTACACTGCTGGTCAGGTTACAACGGAAAAAAAGAAGCGATGGAGATTCTGAGTCTCATGCTTCAAGCGTTAACAAGCAGGCCCCTAACAGTAGAGGGCTTTTCTTTATGCCGTTCTGAGATGCGCAGCATGCAGGTGATCACCGATATTGACGGGTACACGCGTCACGGCATTCTCAGAATGCGCTTCACAATAAACAATTGA	MRSALWPLQAALFKRLSTDEELNGRVTGVFDAVPKDQQKPYVTMGDDDVSPFKTKTSSGEEINVVLHCWSGYNGKKEAMEILSLMLQALTSRPLTVEGFSLCRSEMRSMQVITDIDGYTRHGILRMRFTINN				NA	NA	NA	NA	NA
D1-12_02835	417			hypothetical protein	ATGGCTGAGGTGAGCGGTAGATGGGTCAGGCAGATGCAAAGAGCCACAAGCGAGTTCGGAAACCGGGTCATAGATGATATTAAGCAACTGGTCACAGACACGGCCGAGCTGATTTACGGCCATGCTGTTCTGAATGCACCGACCGCCGCAATAGATGGGGGGAACCTGAAAAATTCAATTGAAATCGACTACCAAGAGGGCGGCTTACGGGCCGTTATTTCTGTTGGTGCCGATTATGCCGTATATGTGGAATACGGAACAGGGATTTACGCAGAGGAAGGCGGCGGCCGGCAAACGCCGTGGGTTTATTATGACACCAAGCTTAATAGATGGGTGGTCACCCGGGGAATGCGGGCGCAGCCGTTCTGGAATCCAGCGGTGGACGAAGGCATGCGGTATTTTGCCAGTCAAATGTGA	MAEVSGRWVRQMQRATSEFGNRVIDDIKQLVTDTAELIYGHAVLNAPTAAIDGGNLKNSIEIDYQEGGLRAVISVGADYAVYVEYGTGIYAEEGGGRQTPWVYYDTKLNRWVVTRGMRAQPFWNPAVDEGMRYFASQM				NA	NA	NA	NA	NA
D1-12_02836	339			hypothetical protein	ATGATCTATGAAGAATTCCCGCATGTTGTCACGTTTCAGCGGGTGGAAAAGGTGCCGGACGGCGGCGGGGGCTATGTTGAAAAATTCACTGATTATCTCACAACAGAGGCTTTTGTTGGTGGGGTTACGTCCCGGGAATATTATCAGGCTCAGCAACTTCAGAACCCGGTTGATTGCAATGTATATTTCCCGTATCGCCATGATATTGAGAAGACAATGCGGATCATCTACGAAAACAAGGTGCTGACTTTCAAATCAGATCCGATCGACCAGGGCGGCATGCATGAGATTATGAATTTGAAATGTCAGGTTACGGGGGTGCTTAAGGGCAATGGCTGA	MIYEEFPHVVTFQRVEKVPDGGGGYVEKFTDYLTTEAFVGGVTSREYYQAQQLQNPVDCNVYFPYRHDIEKTMRIIYENKVLTFKSDPIDQGGMHEIMNLKCQVTGVLKGNG				NA	NA	NA	NA	NA
D1-12_02837	300			hypothetical protein	GTGGACATCGCACAAGTAAAGCGATTGGCGGAGATTAAGACAGATAGGCATGACGAATATTTGTCTGAAATAGTCCCTATTTTGATTGAGTCTGCCAGTGATTTTTGTAGCAACACTTTCGATCCGGAGGCTTTGCCAGCTGGCGTGAAGCTTTTTGTTGCGAAGGCTGCAGAATATAACATGAATCCTTCTGGACTCTCGGGAAGAAGCATGGGGGATGTGTCGTATTCGTACAATACAGAATTTCCTCGGTACATCACTAAACACCTTACGCCATATCGAAGGCTGAGAGTTAAATGA	MDIAQVKRLAEIKTDRHDEYLSEIVPILIESASDFCSNTFDPEALPAGVKLFVAKAAEYNMNPSGLSGRSMGDVSYSYNTEFPRYITKHLTPYRRLRVK				NA	NA	NA	NA	NA
D1-12_02838	252			hypothetical protein	ATGAAAGCATCTAACGGTTCCAAAACCATTGAATGCACTGAAAAGGCTTTTGAGGTGGTTTATTCTCACATTGGCTTTAAGAGAGTGGATGAGGTCAAGAAGCCAGCTGCCGATCTTCTTGATATGACTGAGGCTCAACTGCAGAAGGTAAACAAAGATGAGATTATTGCTTTCTTGAAAGAGAATGAATATGATTTTGACACTAAAGCGCCTAAAGACGAACTGATCAAGATTGTCTTAGGTGAAGAGTAG	MKASNGSKTIECTEKAFEVVYSHIGFKRVDEVKKPAADLLDMTEAQLQKVNKDEIIAFLKENEYDFDTKAPKDELIKIVLGEE				NA	NA	NA	NA	NA
D1-12_02839	336			hypothetical protein	ATGGGATACACATCTAAAAACTATAAAACTAATAACGGCGACAAATTGGTGATCGGCGGCGAGCTTGAAATAAAAGAGGGTGCGAAGGTGACCGGGTTATCGGGGTCTGCGCCTGCTCCTAAAACTATCACTTCGGAAATGATCGGCGACGGAGAAGTGAAAAACATCAATATCGGTGATGGTTCTGTCCAAAATCGTAACATCGGCACTGGTAGTGTACAAAATGCCAACATCGGTGCCAAGGCAGTTACTTTAGCTAAACTCGGTGACGATGTGACAGCCAAACTATCTGATTTAGAGAATCGGATAAAAGTACTGGAAGGAGGCGGCGCGTGA	MGYTSKNYKTNNGDKLVIGGELEIKEGAKVTGLSGSAPAPKTITSEMIGDGEVKNINIGDGSVQNRNIGTGSVQNANIGAKAVTLAKLGDDVTAKLSDLENRIKVLEGGGA				NA	NA	NA	NA	NA
D1-12_02840	918			hypothetical protein	ATGCCGACATTCGATCCAAACAATGTATTATTGCAAGACGCAGTAAACGGGAAAGTTCCAACTGAACAAGGAACGCTAGTTTTAAAGGAGTTTATGACGCAATCAGCTGTCACGAAACTAGCAAAATTTGAAGAAATGAATAAGCCGGAAAAAGAATTCACGTACTTAGCTTCTGGACCAGGGGCTTACTGGGTTGGAGAAGGAGAGAGAATCCAAACGTCTAAGGCTGAATGGTTAACAGCAAAAATGACTTCAAAGAAAATAGGCGTAATCATTCCGGTGTCTAAGGAATTTTTGCGTTACACTATCGCTGATTTCTTCACACAAATGCGCTCTTCAATCGCTGAAGCCTTTGCGATTAAATTCGATCAGGCTGCGTTATTCGGTATTAACTCACCATTTGGTAAAGGCGTATCTGTATTTGAAAAGATTCAAAAGTCTGGTAATACTATTGCCTTGAATTCATTGGGAAACCTATATGACGAACTAAACGGGTTAATGGCGCTTGTTGAGGATGCTGATAAGGATGTGAACGGTTTTACAACAACACGCCGTTTCCGTCAAAAACTTCGCGGCACAAAGGATGGTAACGGTCTTCCGATCTTCAACGATGCAACAGGCGGCGCCACACAGCAGGCTCTTGGACTTCCGATCGGATATGTGGATTCTAAGTCATGGGATTACGAAAAAGCGGCATTGCTTGCAGCTGACTGGAATTACACTCGTTTTGGTATCCCTCAGGGTATGGAATACAAAATCTCCGAGGATGCGACATTAACAACGGCGAAAGGCGAAGACGGCGCAGAAATCAACCTATTTGAGCGTGATATGGTTGCTCTTCGTGTGACTCAGCAAGTCGGATTCATGACATTGACCGATGATGCTTTTGCTGCTATTACACCAGCAACGGAGGCGTAA	MPTFDPNNVLLQDAVNGKVPTEQGTLVLKEFMTQSAVTKLAKFEEMNKPEKEFTYLASGPGAYWVGEGERIQTSKAEWLTAKMTSKKIGVIIPVSKEFLRYTIADFFTQMRSSIAEAFAIKFDQAALFGINSPFGKGVSVFEKIQKSGNTIALNSLGNLYDELNGLMALVEDADKDVNGFTTTRRFRQKLRGTKDGNGLPIFNDATGGATQQALGLPIGYVDSKSWDYEKAALLAADWNYTRFGIPQGMEYKISEDATLTTAKGEDGAEINLFERDMVALRVTQQVGFMTLTDDAFAAITPATEA				NA	NA	NA	NA	NA
D1-12_02841	582			hypothetical protein	ATGCCAACATTAGACGAAGTGAAAAAATTTTTCGAAGAAAATAAAGAGAACGAAGAAGTAAAAGGATTTGTAGGAGAACTTTCAGCCGTATCAGCAGATAAGGTGGAAGGGTTCCTCGAAACAGACGAAGGGAAACGACTTATTCAGCCTCGATTGGATTCCCATTTTACGAAAGGCCTTGAGACATGGAAGGCGAACAACCTTGATGCTCTGGTTGATGCAAAAGTAAAAGAGCTTTATCCGGAAGAAACAGAGGAACAAAAGCGCATCAGGAAGCTAGAAAAAGAGCTGGAGGATCAAAAGACAGCAGCACAACGTGAAAAGCTTTTAAACAAAGCTGTCTCTTATGCTTCTGAAAAGCAACTGCCGGCAGATGTAGTGGAATTCTTTATCGGTGAGGATGAAGAATCAACGATGAAGAACCTCGGAGCATTCGAAGAGAAGTACAACGCTGCACTTCAAAAGGCTATTGAATCCAAGTTTCAAGAGAATGGCCGTGATGTCCAGTCCGGCAGCAATGAACCGACAAATCAAGATTTAGACATCAGCTCGCTTGCAGCTGAAGCAAGTATTAGAAAATAA	MPTLDEVKKFFEENKENEEVKGFVGELSAVSADKVEGFLETDEGKRLIQPRLDSHFTKGLETWKANNLDALVDAKVKELYPEETEEQKRIRKLEKELEDQKTAAQREKLLNKAVSYASEKQLPADVVEFFIGEDEESTMKNLGAFEEKYNAALQKAIESKFQENGRDVQSGSNEPTNQDLDISSLAAEASIRK				NA	NA	NA	NA	NA
D1-12_02842	282			hypothetical protein	ATGAAAGTGAATGAACGTATTCAATATTTGCTTGAAATGCTGAATTGCGCTATTCGTTACGATGACTCTGATAGTTACGACGAGATTATGAGTGAGCTGAAACAAACACTGTTGCCAACAAAAACATTCGATGCAAAAAAAGCCAAAAAGCTTATTGAATCACAGGATATGTACAGGGCTAACTTAGAGGAGCTTGAAAAACAGAATGAACAAAGCAGTCTGACCGTTATTTTTAAGGGTGAAGCGTTGCAAAATTACCAGTTGTATAAAGATAGTCATTAA	MKVNERIQYLLEMLNCAIRYDDSDSYDEIMSELKQTLLPTKTFDAKKAKKLIESQDMYRANLEELEKQNEQSSLTVIFKGEALQNYQLYKDSH				NA	NA	NA	NA	NA
D1-12_02843	921			hypothetical protein	ATGAACCAGAATGATATTGATAAGTATCTGGACGACATGATCACTGAGGATGCTCAAAAGATTGATGTCGTTTTTGCATCTCGCTTAAAGGAGATCAATGCACAAATTGCCCGGCTGTATGCGAAGTACAGTAAGGACGGCCAGCTTACTTTAGCCGATGCCAACAAATACAATCGTCTGAACAAGGAAATGGAGAGGATGGCCGAGGAATCCCACAAGGCCTTTAAAACCATTCTGACTATTGTTGAGGCATTAGCAGCCAAGCAGTTTTTAGAGAATTATATGCGTTCTGCTTATCTATTTGAAATGGAATCCGTGGTTAACTTGGGTTTTAGCATCCCGACAGCCGAAGTCATTCGGCAGGCCATTCTAAACCCTATAGCTGAATTGACTTTGTCAGCGATATACAGGCGGCATCGAGACGATTATGTCCGGCAGATTCAAATTTCCGTCGCACAGGGCCTACAAGCGGGGGAGGATTATTCCAAGATCGCCCGCCGCATTGAAAGAGCGACCGAATTTGCCCGCAGGAAAGCCCGTGACGTGGCGAGAACAGAAGCTCATAGGGTACAAGTCTCGGCGAGGATGGAAAGCGCTGAAAAGGCCTCGAAACGGAGCAATCTTAAAAAGATGTGGAATGCTACCCTTGATCTTAAAACACGAGCCGGGCACAGGAAACTGGACGGCAAGACTGTTGAACGAAATGGGCTATTCAAATCTATTTACGGCGGCGTCGGCCCGGCTCCGGGGCACATGAATAATGCGAAAGATGACATAAACTGCCGTTGTACGATTGCTTTTAAAGTAAACGGCGTGCTGCCGGATACGAGAAGGGCGAGGGAAGGCGGCAGCGGGGCAGGCCAAACAATCCCATACCAAACCTATGAAGAGTGGTACAAATCCATTGAGGAAAAGGGGTAA	MNQNDIDKYLDDMITEDAQKIDVVFASRLKEINAQIARLYAKYSKDGQLTLADANKYNRLNKEMERMAEESHKAFKTILTIVEALAAKQFLENYMRSAYLFEMESVVNLGFSIPTAEVIRQAILNPIAELTLSAIYRRHRDDYVRQIQISVAQGLQAGEDYSKIARRIERATEFARRKARDVARTEAHRVQVSARMESAEKASKRSNLKKMWNATLDLKTRAGHRKLDGKTVERNGLFKSIYGGVGPAPGHMNNAKDDINCRCTIAFKVNGVLPDTRRAREGGSGAGQTIPYQTYEEWYKSIEEKG				NA	NA	NA	NA	NA
D1-12_02844	1404			hypothetical protein	ATGAATCAGTTTATAGACATGATTGAGCAGTCCGGCATAACGCCTGAATTGATTGACAAGATCATTCAGGAACATAAGCCAGATCATGACAGAATGAAAAAGCTTTATGAACGGTACGAGGCTGAGGTTCAAGGCGTTCCGATCTTATCCAGAGAAGCCATTGAATACGAGGATTTTGAAACAGGAAAATTAAAACGTATTGATCATAAAGTAAACAATCGGCTGAACAACTCGTTTGACTCTGAAATCATTGATACAAAAGTGGGCTATCTGTTTGGTCATCCCATTGCATATGAGTTTGATGAGAGTGATGCGACAAGCACTGCAATACCTGTAAAACAGCTGATCGAAGATTTTAATATGGAAAATAACATTGCTGATGAAGACAGCGAGTGGGGGAAGATGGCTTCTATTTGCGGTTACGGCGCCCGTCTCGCTTATGTTGATCGCTCCGGAAACGAGCGTGTAAAAAATATTGATCCATGGGAATGCGCCTTTATTACTGACGGAAGCATCCATGAACCTACTTACGCTTTGCGATACTACACGGTGTACGGCGGCAAGACCAAAGCAGAATTCTATGATGAGAAATATGTCTATTATTTCAGTACGAAAGACAGCTCGGCCTTCACTTTTGATAAAAAGGTCTTGCATCTTTTTGATGGCTGCCCCTTATTTGGTTTAGCAAATAACAAGGAGTTAAAGGGAGATGCAGAAAAGGTTCTTTCGTTAATTGATGCGTATGACCGCACATTGTCCGATGCATCGAATGAGATTGAACAATACCGGCTGGCATATCTGATTTTAAAAGGGCTTGGTGCTGATGAAGAGACGCTTGACCAGCTCAAAAAGAGCGGAGTCCTTGAATTGTATGACGAAAAAGATGACGTAAGCTATCTGACAAAGGATATAAACGATGCCATCATAGAAAACCATCTTGATAGGTTAGAAGAGAATATACTGCGCTTTGCGAAATCAGTCAATTTCTCCGATGAATCTTTTGGCGGGAATGTTTCAGGGGTTGCGATGAAATATAAATTGATGTCGCTTGAAAACAAATGCATCACGATGGAGCGGAAAATGACTGCTGCTCTGCGTTATCAATACAAACTGATCTTTTCCGCATGGGGCACTAAAAGGCAAGCGGCAGCGGAAGATTATAAAAAAGTTTGGTTTGGATTTAAGAGAAACCTTCCGGCAAATGTACTGGAAGAAGCAAACACGACGGGACAGCTTAAAGGAATGGTAAGTGAAGAAACTCGCCTGTCTCTGTTGTCGTTTGTTGATGATGTCCAGTATGAGCTGAAGAAGATGGAAGAGGAAGAAGAGGAATACAGGCTCAATATGCCGCCGTTAACGGATGTGGAAACAGACGCGGGCGGTGATGAAGATGAACCAGAATGA	MNQFIDMIEQSGITPELIDKIIQEHKPDHDRMKKLYERYEAEVQGVPILSREAIEYEDFETGKLKRIDHKVNNRLNNSFDSEIIDTKVGYLFGHPIAYEFDESDATSTAIPVKQLIEDFNMENNIADEDSEWGKMASICGYGARLAYVDRSGNERVKNIDPWECAFITDGSIHEPTYALRYYTVYGGKTKAEFYDEKYVYYFSTKDSSAFTFDKKVLHLFDGCPLFGLANNKELKGDAEKVLSLIDAYDRTLSDASNEIEQYRLAYLILKGLGADEETLDQLKKSGVLELYDEKDDVSYLTKDINDAIIENHLDRLEENILRFAKSVNFSDESFGGNVSGVAMKYKLMSLENKCITMERKMTAALRYQYKLIFSAWGTKRQAAAEDYKKVWFGFKRNLPANVLEEANTTGQLKGMVSEETRLSLLSFVDDVQYELKKMEEEEEEYRLNMPPLTDVETDAGGDEDEPE				NA	NA	NA	NA	NA
D1-12_02845	1209			hypothetical protein	ATGGAACTGAATAAAAAGCAAAAAGAAGTTTGGGACAGCTTTATTAAAGAGCAACCCAAAATTCTAATTTGTAGCGGTGCAAAGAGGGCAGGAAAAACATTCGTGCTCCTTTTGGCGTTTCTTGCTCACGTCAGTAAGTATCAAAATATGGGCCTGAATTTTATCATTGGCGGTGCGAATCTGGGAACTATCAGGCGGAACGTTCTGACTGATTTAGAGCAGATTCTTGGGAAGGAATTGAAGCTCAATATGTCAAGCGCCGTTGAGATATTCGGTAATCAGGTATATTGCTTTGACGGAGCAAACGCAAATTCATGGAAAAAAGCGCGGGGATTCACGTCAGCCGGTGCGTTTCTGAATGAGGCGACTGCCCTGCATGATTCATTTGTAAAGGAAGTCATTTCCCGGTGCTCTTATAAAGGTGCTGTGGTCATGATGGATACAAACCCCGAAAACCCGATGCATACCGTCAAAACCGATTATATCGACAAAGACGGGCAAAGATTGAAGAGCGGCCGGCTGAACATCCGGTCATTTCATTTCTCGCTGTTCGATAACAATTTTCTCGATCCGGAATATGTGGAGAGCATCGTGGCATCGACGCCGAGCGGCATGTTTACAGATCGGGATATACACGGTTATTGGGTGGCGCCTGAAGGAGTCATATACAAGGATTTCAATAAGGATATTCACTATATCAGCTCTGAGGAATTGGAAAACAGGCGCGTCAATTTCAAAAAGTATTTTGCGGGCGTTGACTGGGGATATGAGCACCCGGGTTCTATTGTTGTAATCGGACAAGATGACCAGGGGTGTTTTTATTTGCTCGAAGAATATGCCAAGCAACATGAGGAAATTGATTACTGGGTGAAGATAGCGAAGGACATCAAAGAGCGATACGGCAACATCAATTTCTACTGCGATACTGCGCGGCCGGAACACGTTCATCGGTTCCGCAGGGAGAAACTGCGTGCATTGAACGCTGATAAGGCGGTCATATCCGGTATCGAGGAAGTGGCGCGGCTGTTTAAGCGACATGAATTGTTCATCGTGAAAGATAAGGTCGCTCGCTTCGAAAAGGAAATTTTTATGTATGTTTGGAATCAAAAGACTGGCGATCCTGTGAAGGAATGGGACGACGTGCTGGACTCACTCCGGTACGCTCTGTATTCGCATAATAAACCGAAAAGGCGGAAAGGGGTGAGCTGA	MELNKKQKEVWDSFIKEQPKILICSGAKRAGKTFVLLLAFLAHVSKYQNMGLNFIIGGANLGTIRRNVLTDLEQILGKELKLNMSSAVEIFGNQVYCFDGANANSWKKARGFTSAGAFLNEATALHDSFVKEVISRCSYKGAVVMMDTNPENPMHTVKTDYIDKDGQRLKSGRLNIRSFHFSLFDNNFLDPEYVESIVASTPSGMFTDRDIHGYWVAPEGVIYKDFNKDIHYISSEELENRRVNFKKYFAGVDWGYEHPGSIVVIGQDDQGCFYLLEEYAKQHEEIDYWVKIAKDIKERYGNINFYCDTARPEHVHRFRREKLRALNADKAVISGIEEVARLFKRHELFIVKDKVARFEKEIFMYVWNQKTGDPVKEWDDVLDSLRYALYSHNKPKRRKGVS				NA	NA	NA	NA	NA
D1-12_02846	762			hypothetical protein	ATGGCTGAAAAGCACATTCAGGCGCAGAAAGATTACGTCAAAGGTATGAAATACAAGGACCTTGCCGAGAAATACGGGGTGTCAGTTAACACCATTAAATCGTGGAAGCAGCGGCATGGTTGGGAAAGAAAAAAGGGTGCACCCACTGAAAAAAGTGTGCACACAAAAAAGGCAGGCGCACCACCCGGCAATAAGAATGCATTAGGGAACAACGGCGGCGCACCACAGAGGAATCAAAACGCTGTGACTCACGGCTTTTTCTCTAAATTCCTGCCAGAAGAAACGCTTGAGATTATGGAAGAGATTCAGGAGCGTTCGCCTGCTGATATGATATGGGATCAAATTCAGATTCAATATGCAGCCATTATCCGGGCGCAGCGCATTATGTTCGTGCAGGATAAAGATGATCTTGCGAAAGAGCTGAAAAAGGCGAAATACGTTTATCAACCTCAAGAGGACGAAGATGGCAACGAGTATTTTGAAAAGTCTATTGCTGAAGAAGAGTTTGAAATACAATTTGCTTGGGATCGTCATGCGACTCTCTTAAACGCTCAATCTCGGGCAATGGGAGAGCTCCGGAGCCTGATCAAACAGTTCGACCAGCTGGCGCATGAGCAAGATGAGCGGCGCCTCAAATTGGAACAAATGCGCTTGAATATCGAGAAGACGAAGAAAGCTGTTAACGGCGGCGACGGAAACACCCAAGAAAATGATATTGCCGCAATGTTGAGGAAAATGGTGAACGCCGATGGAACTGAATAA	MAEKHIQAQKDYVKGMKYKDLAEKYGVSVNTIKSWKQRHGWERKKGAPTEKSVHTKKAGAPPGNKNALGNNGGAPQRNQNAVTHGFFSKFLPEETLEIMEEIQERSPADMIWDQIQIQYAAIIRAQRIMFVQDKDDLAKELKKAKYVYQPQEDEDGNEYFEKSIAEEEFEIQFAWDRHATLLNAQSRAMGELRSLIKQFDQLAHEQDERRLKLEQMRLNIEKTKKAVNGGDGNTQENDIAAMLRKMVNADGTE				NA	NA	NA	NA	NA
D1-12_02847	231			hypothetical protein	GTGAATCTTATTCAAGTTAACAATTCAGAATATGAGCATCAAGGATATGGAGCCGGTAGTGGCGACGTGATAAGAGAAGAATATAAATGTCCTTGTGGAAGTGGACTAGTAGTTTATGAAAAAGAAAATATTCCCGGTTTCAGAAGTACCGAGATTGATTGTTATTGCAAGCAATGTAATGAGAAATACGATTTCGGTAGAGGAACAGCAACATTAAAAAATAATTATTAG	MNLIQVNNSEYEHQGYGAGSGDVIREEYKCPCGSGLVVYEKENIPGFRSTEIDCYCKQCNEKYDFGRGTATLKNNY				NA	NA	NA	NA	NA
D1-12_02848	459			hypothetical protein	GTGTTTCTAATCGATAATGTATTAATTATTCTCTTAGCAATGGCCTTGTTTTTTGTAATATTTACTTTCTTTAATATTTATACTTTCGCGAAAGATTTTTTAACATCTGTATTCCTTACATTTATCTTCCTGGATTTGTTTTTTAAGATGCCATTAAAGGCAGTGAATTCTGTTTATGGTGATCGTGAAAAACTATTGGAAGCATTGAAGAATGATACAAAGTTAACTGATGAACAAAAAAACAAAATTAGACACATTTTAGCAAGACGATATAGACTTTTTATCGCTTTGTATAAAGCTGGTGAGTTTTCTTATACAGAATTAATGATAAGTTTAACAGATTGGTTCAAAAATAAACCATTTAGGGTTAAGGTGCGTATCTCTGCAGCGAAAGAAAAAAAGAAAACTTATGAAAGCAAATATCTAAACGAAAAAAGGAAAAAGACTTTATTTGCTTAG	MFLIDNVLIILLAMALFFVIFTFFNIYTFAKDFLTSVFLTFIFLDLFFKMPLKAVNSVYGDREKLLEALKNDTKLTDEQKNKIRHILARRYRLFIALYKAGEFSYTELMISLTDWFKNKPFRVKVRISAAKEKKKTYESKYLNEKRKKTLFA				NA	NA	NA	NA	NA
D1-12_02849	474			hypothetical protein	TTGAGATCTGTTAAATCTATAATTTTTATAATTGGCCTTTTCTTGGCGAATTATGTGGGAGGAATACCACAAGATGCAAGAAATTTGTTTATTACACAAACCATATTTTTCGCACCGTACCTTGTTGATTTTCATCCACTGACAAAATTAAAATCACCTTTAAGATTTTTAACTTTAATTATTTGGTTGGCAGGAATAATAATATTTGCAGCGAATATATTGGGTATAGCAGGGATACTGACAATTATTGATTCAAAAGTTACATTTAACCCTGACTATGTGTTTCCGATACCACTCGATCTAAAAGTTAAGACTTATTTGGTGAACGCTGGAATTGTTTACGGTGCTGTGTTTATGGGTACACTTTTATTAAATTACACAAAAGTTTACGATGAGAATATAATGAAAAAGAAAGAAAACAAAAAGAAGAAACAACATGCTTCTAATAACGGGGTAGTTCTAGAGAGGGGCTGA	MRSVKSIIFIIGLFLANYVGGIPQDARNLFITQTIFFAPYLVDFHPLTKLKSPLRFLTLIIWLAGIIIFAANILGIAGILTIIDSKVTFNPDYVFPIPLDLKVKTYLVNAGIVYGAVFMGTLLLNYTKVYDENIMKKKENKKKKQHASNNGVVLERG				NA	NA	NA	NA	NA
D1-12_02850	213			hypothetical protein	GTGTACAGTCTTAAAGAGCGTGATGCAATTAAAAAGTTTTTGAATGAGGAGATCGTTAATACAAGTGAAGCGATTGAAATATTAGGCTTTACTCGTCAATATCTTAATCAGCTAATTAAAACAGGTCAACTTGAACCGGTTAAAGAAATGCCGAGGGACAGGCTTTTTATTAAAGAGGATATATTGGAATTCCAGAAGCATAGGAAGAAATGA	MYSLKERDAIKKFLNEEIVNTSEAIEILGFTRQYLNQLIKTGQLEPVKEMPRDRLFIKEDILEFQKHRKK				NA	NA	NA	NA	NA
D1-12_02851	138			hypothetical protein	GTGGCTAAAATCGCAGTGATACTGGGCATCATACTTACAGCACTCACTATCTTTGAAAAAATTCTCATCATCAGAGAAAAGCTTAAAACAAAAAAGCCCAAAATCAAAAGACGCAGACCTCGCAGAAAGCGTACATGA	MAKIAVILGIILTALTIFEKILIIREKLKTKKPKIKRRRPRRKRT				NA	NA	NA	NA	NA
D1-12_02852	516			hypothetical protein	ATGCAAGATTTAATCATTGAGTACAAACGAGCTTTAAGAGAAACAAGAAAAATGTATCGGCTCTACAAAGATACAGCTGAAGTCAATCTGACGGCTGAACAGATCAACGACAAAAAGATTATCAGTAGTATGATCAGTGACATTGAATTCACTCTTGAATGGCTGCAGAACGGAAGACAGCCGGGCGCTCGCCGAGGTGCTGACAGAAGAGACGCATATCAAAGGACGATTCTTGCTGATCCGCGCTTAATTGATGCGCTGCCGGAAGAATACGCAATCGTTCAAGAGGCTGAGGGAGAGGTAAGTGATTGGGATAAGGAAAGAATCGCTGATGCCCTATCCGTGCTTACCGAAAGAGAAAAAGACATTTTCATGATGCACGCTGTGCAAAACATGTCATTCGAAGAGATAGCGCAGATATTGGGGATTAAAAAAGGAACCGTGCAGAAGAACATCGAACGTTCCCGCCTGAAAATGAAAAATAGAGCAGATCACAGCCTATTCTGTTTAGCATGA	MQDLIIEYKRALRETRKMYRLYKDTAEVNLTAEQINDKKIISSMISDIEFTLEWLQNGRQPGARRGADRRDAYQRTILADPRLIDALPEEYAIVQEAEGEVSDWDKERIADALSVLTEREKDIFMMHAVQNMSFEEIAQILGIKKGTVQKNIERSRLKMKNRADHSLFCLA	PGPT0011755_55	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS_RELATED_FUNCTIONS,PGPT0011755-xpf-K24072	NA	NA
D1-12_02853	129			hypothetical protein	ATGAAGCAGAAAAAGAAAAAGCCCAATAAAAACACGCAGGAGCGATCTGAACGCTTTTGGCAGCAAATGATGGGACAAGACATGCAAAGACTTAAACGAGGCAAGGGCGGCGCATTTAAGCGCAAATAA	MKQKKKKPNKNTQERSERFWQQMMGQDMQRLKRGKGGAFKRK				NA	NA	NA	NA	NA
D1-12_02854	276			hypothetical protein	ATGAAGAAGTACGAGGGGAAAGAAGTCACAAAAATGCAAAAAGTCTTGAAAAAAGTGACATGCGATACTTGTGGGAGGACTATCATTATAAATGATCGGTCAAACCATTACTATGAAGTCGCGACACATCATAGCAGGTGGGGAAACGAAAGTATAGACAGTTATAGGTATTTAGATTTTTGCAGTTATGAATGTCTTCTCGAAAACATGAATGACTATTTCAAAAATGGCGCTGATACAGATTGTTACGAAATTCAATTTGTATATGGAGATTAG	MKKYEGKEVTKMQKVLKKVTCDTCGRTIIINDRSNHYYEVATHHSRWGNESIDSYRYLDFCSYECLLENMNDYFKNGADTDCYEIQFVYGD				NA	NA	NA	NA	NA
D1-12_02855	183			hypothetical protein	ATGACGCTAAGAATAGTTTTTATGCTGATGGGGTTAGGATTCTGGTTTTATTTTCAGTACGAATACAGGCCGGACATGAAGGCGAATATCACATTAATAGGCTCAATCATTGCATTCACGGCCGCGGCGTTTTTTCAAGATATTGATAAGTATGTAGAGAAGAATAAGAACGAATCTAACTGA	MTLRIVFMLMGLGFWFYFQYEYRPDMKANITLIGSIIAFTAAAFFQDIDKYVEKNKNESN				NA	NA	NA	NA	NA
D1-12_02856	435			hypothetical protein	ATGAAAAAACTATTTAAATCAATCATTCTATCAGCAGCATTACTTATGGGAGCGGCGGCCGTTGCGCCGTCTGCTTCCGCAGCATGGTCAGGCTGGCAAAATGAATCCGGGTACAGCGGCAGGGTGTTTACAGATGCCGCGACATACACGGCCGGCGCCTCAACGGTGGACTGGAAAGCCGAGAAAAAAGGATCAAGGACACTTTATTACACGGCTGGCGTATACAAGAAGCGTAGCGGCGGCGGGCTTACTGATACAAATTTAGTACAGCGGGGCAGCTTCAAAACGGCAACGCCTCTGAAATCATTCAACGTGAAAACGATCCGAAATAAGACCGGGAAAGGAACCTATGTCATCCAGCTGGACTGCTACTCTGATTCTGGCAAGCGGAACTACATCGGGACATTTGAATCAGCAAAATTTCAAATCAAATAA	MKKLFKSIILSAALLMGAAAVAPSASAAWSGWQNESGYSGRVFTDAATYTAGASTVDWKAEKKGSRTLYYTAGVYKKRSGGGLTDTNLVQRGSFKTATPLKSFNVKTIRNKTGKGTYVIQLDCYSDSGKRNYIGTFESAKFQIK				NA	NA	NA	NA	NA
D1-12_02857	225			hypothetical protein	ATGAAGAAAAATGAATCAGTTTCAGTTATTGACGCAATCAAATGCCCGCATTGCGGAAATTTAATGGACTATGATCCTTATCTTAATCTTGATGAATGGGATTTGTCAGGTGAATTCGAAATGGATTGTGAAAAGTGCCGCAAGCCTTTTCATGTGGATTTTTGTAGTGCGTTTCATTTCACTTCTGAAAAAATAAATAGAGTATCCGAAAGGACGGAGGATTAA	MKKNESVSVIDAIKCPHCGNLMDYDPYLNLDEWDLSGEFEMDCEKCRKPFHVDFCSAFHFTSEKINRVSERTED				NA	NA	NA	NA	NA
D1-12_02858	375			hypothetical protein	GTGAAGACTGCATTATTCCCTGAGCCGTACAGCCCCATGATGGCTATAACAGCCAAAAAGCCGAATGATGAACCTTTGACGGCTGCTGTTCTTTTTAAATCAATGGACCAAGTATTTGCAGAAATAGAACCTGAAGCGCAACCGGAAATATTTGCCGACCCAATAACTCAGAGGGAATACGAAAGAAAAATGAGCAAAGACATTAAAATCTGGCACGGCTCGGAAATAATATGGGCTTTTGACAGAGAGGATATAGTGGCCATCAAAGAAATTCCCGGTGGCTCTCGGTTGGAATTGAAGAACGGCGACTGGTTCAATAGCATGAATTCGGTCCAAAAAATGAAAGAGATTCTGGGATTGGGGGAAACAAAATGA	MKTALFPEPYSPMMAITAKKPNDEPLTAAVLFKSMDQVFAEIEPEAQPEIFADPITQREYERKMSKDIKIWHGSEIIWAFDREDIVAIKEIPGGSRLELKNGDWFNSMNSVQKMKEILGLGETK				NA	NA	NA	NA	NA
D1-12_02859	183			hypothetical protein	ATGCCAAAAGTGAATGGAACATTGATCGGATACCATTGCGACGACTGCGAGGAATGGACATTCTTAGAAAGGCCTTCCAGCACGTCCGAAATTTATTGCCCTTTTTGTGGAGAACAAACTCTTGCGATAGATTCTGACGATTTAAGTTTACTGGAAGAGGCAATGAAGGAGGGGGCGGAGTGA	MPKVNGTLIGYHCDDCEEWTFLERPSSTSEIYCPFCGEQTLAIDSDDLSLLEEAMKEGAE				NA	NA	NA	NA	NA
D1-12_02860	219			hypothetical protein	ATGGCATACAAAGATAAATCAATTCAACTTTTCAATCTGTTTGATGAATTGAGCGAACAGGTTAACAACGTCATGCATGACGCGGTGATTTACAGAAAGCGAAACAGACTCAATGTGATAGATCAAGGTGCAAAAGAGGCCGAGCGGATCACGAAAGAGATTCAAATACTTGTGAATTCGATGCGGCGGAAGAAGGTGGACACGGAATGCCAAAAGTGA	MAYKDKSIQLFNLFDELSEQVNNVMHDAVIYRKRNRLNVIDQGAKEAERITKEIQILVNSMRRKKVDTECQK				NA	NA	NA	NA	NA
D1-12_02861	279			hypothetical protein	ATGACAAAGACAAAAATCACAATCAAAACAAGCGATAAGGTTGAGGTCACACAGGAACAGGCGCGGGCGATTGAGGAAGGGATAAAATGCTATGAAGATCAGGGTCTTTTGAAACGCGGAGATCGACTATATAGGCTTTTTGTTTTTGAACATTGGAGAGTGAAGAATGGAAAAACCGATCCGTGGGAAGGCGTATTCGAACCACTAAACAGCATGTCCGCTTACGAACTGAACAGGGCTCTCTTGAAAGGCTATATCATTAAGGAGGGCGCGGAGTGA	MTKTKITIKTSDKVEVTQEQARAIEEGIKCYEDQGLLKRGDRLYRLFVFEHWRVKNGKTDPWEGVFEPLNSMSAYELNRALLKGYIIKEGAE				NA	NA	NA	NA	NA
D1-12_02862	336			hypothetical protein	ATGAACCACACCGACAACCCGATCATTTCAGACATCCAAACATTTGAAGGGGGAAGAACAATGAAATTTTATGAAATCCATGATCCATATTACGCGCTTATCAAAGCGAAAGACGAGGCGGATGCTGAAAGGATTTACAACGAGTATATTTCTGACACGGACGATTACGAAAATTTTCAAGACGATGAAATCCGAGAAGTGGAACGAGACTATGCGCTCATTATGTATTCGCAAGTAAAGGGTGAAGATGGAGAGCTGATGTCTTACACCTATATTTCAGGGACTTTCAACAATCCGGACATTGAAGTCCTTATCATGGACGGTTCGCTCCTATGA	MNHTDNPIISDIQTFEGGRTMKFYEIHDPYYALIKAKDEADAERIYNEYISDTDDYENFQDDEIREVERDYALIMYSQVKGEDGELMSYTYISGTFNNPDIEVLIMDGSLL				NA	NA	NA	NA	NA
D1-12_02863	219			hypothetical protein	ATGAAAATAGGGAGCATCTCATCAACGGAAAGTAAACCATGTGCATTGTGCAATAGAAAAACTAGCACATATAAAATCTATGAACAGTCCAACATAGCCATAAAAATTCTTCTGTGCGATACAGAAGAGAGAAAATGTTTCCGCGTAACAGATGTGAAAGACATAGCTGCTCTCGCTTTGAAAATGATCAAAAAAGTTATACCGGGGGCAGCGGAATGA	MKIGSISSTESKPCALCNRKTSTYKIYEQSNIAIKILLCDTEERKCFRVTDVKDIAALALKMIKKVIPGAAE				NA	NA	NA	NA	NA
D1-12_02864	255			hypothetical protein	ATGCCATTACAAGTAGAACTGCAACGGAACGTGAAGGCCACGAAGGACGAAGCAATGACCGTCGAGCAGGCGGCCGAGCTTTTAAAGGTTCACCCGGACTACATCCCGACGCTTGTCGCGCGGTCTGACGATCTGAAAATGATCGGCGACCATACCATTATCGCTAAACGGGATAAAACAAATATCTGGCTGGTCGGGGCATGCGTGGGGCTTTTCTTCTTCGCTGTCTCTGTTCTGCCGGGATTGATGGGGTGA	MPLQVELQRNVKATKDEAMTVEQAAELLKVHPDYIPTLVARSDDLKMIGDHTIIAKRDKTNIWLVGACVGLFFFAVSVLPGLMG				NA	NA	NA	NA	NA
D1-12_02865	228			hypothetical protein	ATGAGCGAATTATCCCAAGAACAAACTTGTCCGTATTGCGATTGCACAGAAGAAGCATACCATTCTAACTGGGATTCAGACAGCGACGGGATCGTAACATGCACGAGTTGTTATAAAGAATATTATTCAATGCCCAAATATCACTTTGAGGGTTGGCAGGTTGAAAAAATATGCGAAGAATGCGGTCATGAAGAAAGTGAATGCCATTGCGAGGGGGAAGAAAAATGA	MSELSQEQTCPYCDCTEEAYHSNWDSDSDGIVTCTSCYKEYYSMPKYHFEGWQVEKICEECGHEESECHCEGEEK				NA	NA	NA	NA	NA
D1-12_02866	231			hypothetical protein	ATGAAGACAAGAAAAGTAACGATTCCCGCCCGCGATACCAATGGTTTCCTGATCGGGTTCAAGGAAGTTAATGCACTTTGGGAATGCCCTACTTGTGGCGGGGAAATGGGAAATCCTCAGCTCACGCAGCACGCTGAGGACGGATTTTTCGGCCAAGTTCATACTTGGGAAAATCCCTGCGGACATATAGCTCATTATAAAAATCTGCAGATTGCAGGTGATGCGGAATGA	MKTRKVTIPARDTNGFLIGFKEVNALWECPTCGGEMGNPQLTQHAEDGFFGQVHTWENPCGHIAHYKNLQIAGDAE				NA	NA	NA	NA	NA
D1-12_02867	384			hypothetical protein	ATGGATAAATTACAGGAAATTATAAGCGACTTGTCATTGTGGCACTTAGCTTCAAAAGAGGAATTGAAGCCACTCGATATAAATGCAGGACCTTGCTATATCATCGAGCAGAGTTATGTCAAAGACATAATGATCGGCTACATGAGAAAACAGCAGGCAATCATTGAGGAACACCAACGCCAGCAGGAAGTAACGGTCAATCAGTTTCGGCAGGCTCAGGAAGATATTAAGTTGCTGCAGGCGGAGAACAAGCGTTATAGAAACGCATTAGAATTTTACGCTAATGAAACGACGTATACAAACGAATTTGAAGACTGTCCACCAGCTGTCGAACTCGACGGAGGGCAAACGGCCAGAAAAGCATTGGAGGGGGCTGCGGAATGA	MDKLQEIISDLSLWHLASKEELKPLDINAGPCYIIEQSYVKDIMIGYMRKQQAIIEEHQRQQEVTVNQFRQAQEDIKLLQAENKRYRNALEFYANETTYTNEFEDCPPAVELDGGQTARKALEGAAE				NA	NA	NA	NA	NA
D1-12_02868	204			hypothetical protein	GTGAACAAGCCAACAGAAATAAAAAATCACGAAACAACTATTCAGCAAAGCATCGAGCCGGGGAAAGTCCGGATCATCGTTTTAGATGGTACTGAAGGGACAGCCCACTTAATGGATGCCCCGGAACACGGTAAAACAATCATTCAAACAATAAAAGGCGGCCTGGCTCGTTGTGATTACGAGATCGGCCACAAATTCAAATAG	MNKPTEIKNHETTIQQSIEPGKVRIIVLDGTEGTAHLMDAPEHGKTIIQTIKGGLARCDYEIGHKFK				NA	NA	NA	NA	NA
D1-12_02869	153			hypothetical protein	ATGCAAGAAAAAATCGATCCATACAAGCCTGGTCCAGTTAAGGAGTGGAAAATGACGCCGGAGCAGTTGGCGGCATACGTCGAAAAGCATCCGATCATCTACCGCGAGGAATTAAAGCCATCTGCTGGCGTAACGATGCGGCTGCCGTCGTAA	MQEKIDPYKPGPVKEWKMTPEQLAAYVEKHPIIYREELKPSAGVTMRLPS				NA	NA	NA	NA	NA
D1-12_02870	459			hypothetical protein	ATGTCAGCCAATAAATACGGCGCCAGAAAAACGCAGGTGGACGGCATCACGTTCGATAGCCGGGCCGAAGCTAAATACTATGAGCAATTGAAATGGCTCAAGGTGAGCAAGCAGATCAAAGATTTTAAGCTGCAGCCGCGGTTCCTGCTTCAAGAGGCATTCAAAAAGAACGGCAAAACTTTTCGGAAGATTGAATATATTGCAGACTTTGAGGTTCATAACTTGGACGGCAGCATAGAGATCATTGACATCAAGGGCGTGGAAACAACGGAATTTGCCATCAAACGCAAGCTGTATGAGCGGCTTTACGAGACGCCACTCAAGGTGCTGGCGCTGGATAAGGCACTCGGCTTCATTGAGCTGGACGAGCTGAAAAAACTCAAAAGAAAGGCGGGGAAGACCACTGCAAAACGTGGTAATCGCAGACGATCGGCCGTTGTGGGTGCAGGAAGAAGATAA	MSANKYGARKTQVDGITFDSRAEAKYYEQLKWLKVSKQIKDFKLQPRFLLQEAFKKNGKTFRKIEYIADFEVHNLDGSIEIIDIKGVETTEFAIKRKLYERLYETPLKVLALDKALGFIELDELKKLKRKAGKTTAKRGNRRRSAVVGAGRR				NA	NA	NA	NA	NA
D1-12_02871	300			hypothetical protein	ATGAAAGTGTTAGAGAATCAGACACTTTATCAGTGTGAACATTGCGGAAAGCGGCTGATGACAAAGCACGGAGCAAGGCTGCACGAAAGAGTATACTGCTCAGTTATCAGAGAGGCGAAACAGAAAAAACGTCAGGAATCCTGTGAACATAAGCACATGGAAATGAGTTACTGCACTATGCCGGGTGAAGATCATTTGCAGGTGCCCGACTATGAATGTTGTTCTGATTGCGGCATGACAGAAATGGAGATCGCAGAACAAAATAACAAGCTTCAGGAGGCATCACATGTCAGCCAATAA	MKVLENQTLYQCEHCGKRLMTKHGARLHERVYCSVIREAKQKKRQESCEHKHMEMSYCTMPGEDHLQVPDYECCSDCGMTEMEIAEQNNKLQEASHVSQ				NA	NA	NA	NA	NA
D1-12_02872	186			hypothetical protein	ATGAGAGAACTAAACCAAACCCCTTATACAGGTGAAATCTATCCGCCAATTAATTTCAAATTAGCAGCCCTATTATTTTATAGTGCGCTATCGGAAAAAGAAAAAAGAGTCATAACACAGTTTTTAAAATACAACGGTCAAGAGTTAGAGGCATGCACATTGAAAGAGAGGGGAGCGGCGGAATGA	MRELNQTPYTGEIYPPINFKLAALLFYSALSEKEKRVITQFLKYNGQELEACTLKERGAAE				NA	NA	NA	NA	NA
D1-12_02873	144			hypothetical protein	ATGGATAAACAGGTAAATTTCACGGCATCCGGCGGCATGTATCTGTTCGGGCCCGCCGAGCAAACGGCCGGCCAGGACCTTACCCCGGCAATCCGGGTGCTTGAGGAAAAAATCAAACAAATGGAGCTGATGCACAGTGCTTAA	MDKQVNFTASGGMYLFGPAEQTAGQDLTPAIRVLEEKIKQMELMHSA				NA	NA	NA	NA	NA
D1-12_02874	651	dnaA_3		Chromosomal replication initiator protein DnaA	GTGTGGGTACGGTGTGGATGCATTGAGCGGCGCCGCATCCGGAAATTAATGAATTCCAGTGACATCACCCCGGAATTTGAAAGGTTGCAATTCAAGAATTTTGTAACCGAAGGGAAGCCGGAAATGGTGAAAGTGACTTACGATACAGCGGTCGAATACTACAAGGAGTTTGATAACATACGCGGCACTCGAAACAACAGCATCGCCCTGCTCGGGCAGCCGGGGGCAGGCAAAACACATCTGCTTACTGCAATATCTAACAAGCTGATTAAATCAAAAAATATCGCGGTTCAGTATTTTCCATACGTCGAAGGATTCAACGATCTGAAAGATGATTTTGACAAGCTGGAAGAAAAGCTCAAGCGAATGAAAGAGGTTGAAGTCCTGTTTATAGATGATCTGTTCAAGCCTCTGAATGGGAAGCCACGGGCTACCGATTGGCAGGTCGAGCAAACATACTCTGTTATCAACTATCGCTATCTGAACCATAAACCGATCTTGATTTCAAGCGAGTTGAATATCGAGCAGATCGTAAAGATAGACGAGGCGCTCGGCACCCGGATTTACGAAATGTGTGCGGATTATGTTGTGATCATCAAGGGAGACAGAATGCTGTTAAATTATAGATTGGCGGGATTGAGAAATGGATAA	MWVRCGCIERRRIRKLMNSSDITPEFERLQFKNFVTEGKPEMVKVTYDTAVEYYKEFDNIRGTRNNSIALLGQPGAGKTHLLTAISNKLIKSKNIAVQYFPYVEGFNDLKDDFDKLEEKLKRMKEVEVLFIDDLFKPLNGKPRATDWQVEQTYSVINYRYLNHKPILISSELNIEQIVKIDEALGTRIYEMCADYVVIIKGDRMLLNYRLAGLRNG				NA	NA	NA	NA	NA
D1-12_02875	726			hypothetical protein	ATGAACTACCTGAAAGAAATGAACGGCTTCATGAATTGGTTAGAAACGAATCCGTTGTCTGCAACAACACAAGCGTTATGGTTCCATCTGATGCACATCAACAATAAAACCGGGTGGCGGGAGTGGTTCACCACTTCAAATACCACTCTTCAAGCAAAAATCGAGATAACAGAAAACACGTTGATAAAGCACCGGAAAATTCTGATCGAGCTCAAACGAATAGAATACGAGCCGCAGGGGAGAAAGGCCGGGAAATACAAACTGATCTCTTTTGAAAATCCAGTACGTTATGAGGAAATGGAGAACTGTAAAGCGGATACGCCAGACGTGGTATTGCTGAAAGAAGAATCATCGCCAAGAGCACAGCAGGAGGTTGACGAAAATATGAAAAACGCATTTGAACTATTCGAAAACAAAACAGCCCGCACCATTGGCACGATGGAGGTTCAGCGGCTCGGGTATATGGTGGATGATTATGGCGAAGAGAAAGTCATGGAGGCAATGAAACAGGCTTTTAGAAGCAAGGGCAACAACGTCAATCTGAATTACATTGAAGCAATCCTCTCAAACCCATTCAGCCAGAGACGAAAGGAGAAACAGCAGTATGCCAACAAACAACAGAACACAAAGTACGGACGAGGCGATGGCGGCAGTCATGAAAGAACTTCAGGAAAGGTCGGCTCAATTTTCGGCGGACAAGTCGGCCGCCTCAGAAGAAAAGGCTGA	MNYLKEMNGFMNWLETNPLSATTQALWFHLMHINNKTGWREWFTTSNTTLQAKIEITENTLIKHRKILIELKRIEYEPQGRKAGKYKLISFENPVRYEEMENCKADTPDVVLLKEESSPRAQQEVDENMKNAFELFENKTARTIGTMEVQRLGYMVDDYGEEKVMEAMKQAFRSKGNNVNLNYIEAILSNPFSQRRKEKQQYANKQQNTKYGRGDGGSHERTSGKVGSIFGGQVGRLRRKG				NA	NA	NA	NA	NA
D1-12_02876	843	recT	COG3723	Protein RecT	ATGGCTACAAATCAATCGCTTAAAAACAGCATTCAGAAGAAACAAAACAGTGCTCCAGCACAACAGCAAGGAACAACGATAAAGGGACTGCTTTCTTCTCCAGCGGTCATGGGCCGGTTCGAGGAAGTTTTAGGTAAAAGGGCGCCACAGTTCACAGCATCAATTCTGAGCCTTTACAACGGCGAAAAAATGCTCCAAAAGGCAGAGCCTATGAGCGTAATTTCATCGGCGATGGTGGCGGCTACGCTTGATCTTCCGGTTGATAAAAACTTGGGTTATGCGTGGATAGTTCCGTATGGCGGCAAAGCACAGTTCCAGCTCGGATACAAAGGGTATATTCAGCTGGCATTGCGAACAGGCCAATACAAATCTATCAACTGCATTGCTATTCATGAAGGGGAGCTTCAGAAATGGAACCCACTGACGGAAGAAATTGAAATTGATTTTGAACAACGTACGTCTGAGGACGTGATAGGGTACGCTGCATACTTTGAACTGCTAAACGGTTTTCGAAAAACTGTCTACTGGACAAAAGCTCAGGTCGAGAAGCATAAAAAGAAATTCAGTAAATCAGATTTTGGATGGAAAAACGATTGGGATGCTATGGCACTGAAAACAGTTTTGAAAGCTATTTTGAGCAAGTGGGGCATACTTTCTGTGGAAATGCAGAAGGCAGTCATTGAGGATGACGAGGAACGTGAACGGATCGACATTACTGACGAAATGGCAGATGCAGAAATCATTGATGCCGAAGCGTCGGAAGAAAAGCCAAGCGCGCAGAATGCTGATCCTTTTGACGGTAAGCCTGTTGACATTAGTGAAAATGACCTGCCATTTGATTAA	MATNQSLKNSIQKKQNSAPAQQQGTTIKGLLSSPAVMGRFEEVLGKRAPQFTASILSLYNGEKMLQKAEPMSVISSAMVAATLDLPVDKNLGYAWIVPYGGKAQFQLGYKGYIQLALRTGQYKSINCIAIHEGELQKWNPLTEEIEIDFEQRTSEDVIGYAAYFELLNGFRKTVYWTKAQVEKHKKKFSKSDFGWKNDWDAMALKTVLKAILSKWGILSVEMQKAVIEDDEERERIDITDEMADAEIIDAEASEEKPSAQNADPFDGKPVDISENDLPFD				NA	NA	NA	NA	NA
D1-12_02877	951			hypothetical protein	ATGCAAGCAGAGGTTTTCGCTTCGACAGCGGACATGAGTCGGGACGAATGGCTTCTTGAGCGACGGAAGGGCATCGGCGGTTCTGATGCCTCCGTAATCTTGGGGTTAAACAAATGGAGAACCGCATTTGAATTATGGCTGGACAAAACGGGACAAGTCCCGATCAGTGAGTCAGCCAGTGAGGCGGCTTACTTCGGCTCAATCCTTGAGGACATTGTCGCAAAAGAATTTGAAGTACGGAGCGGGAAAAAAGTTAGGCGTAAAAAGTCCATGCTGAAGCATCCTGAACATGATTTCATTTTGGCGAATGTTGACCGAATGATCGTTGGCGAAAAAGCCATATTGGAGTGCAAAACCACGTCAGCATACAACCTGAAAGAATGGGAAGATAACGAGATTCCTGACAGCTATATTGTTCAGGTTCAACATTATCTTGGTGTTCTTGGTCCCGAGTATAAAAAAGCATATTTCGCTGTGCTGATCGGCGGTAATAAATTCGTTTGGAAAGAGATTGAGCGTGATGACGAGCTCATTGCGATGATCTTTCAAGCTGAGGTTAAATTCTGGAATGAAAAGGTCTTGGGCGGAAAGGCGCCAGTTCTTGACGGTTCGAGTGCTGCGGAAGAATATCTCAAGCAACGTTATTCCGAGGCTGAAGGTGGTAAGGTTGTTGATCTCACATCTGCTAATAAAACACGCATTCAGCAGTATTTGCAGCTTAAAGAACAGATCAACGAGCTTACATTGCAGGCAAAGGAATTAGAAAACCAGATCAAACATGAAATGAAGGAAGCAGAATATGGCTTCATCGGAAATTATCAAACTAGCTGGAAGTCAGTTTCAACGAACCGGATCGACAGCAAGATATTAAAAGAGCAGTTTCCAGATGTATATGAGAAAGTCACAAAAGAAGTGCAGTACAGACGCTTTGGAATTAAGGAGGTTAGCTAA	MQAEVFASTADMSRDEWLLERRKGIGGSDASVILGLNKWRTAFELWLDKTGQVPISESASEAAYFGSILEDIVAKEFEVRSGKKVRRKKSMLKHPEHDFILANVDRMIVGEKAILECKTTSAYNLKEWEDNEIPDSYIVQVQHYLGVLGPEYKKAYFAVLIGGNKFVWKEIERDDELIAMIFQAEVKFWNEKVLGGKAPVLDGSSAAEEYLKQRYSEAEGGKVVDLTSANKTRIQQYLQLKEQINELTLQAKELENQIKHEMKEAEYGFIGNYQTSWKSVSTNRIDSKILKEQFPDVYEKVTKEVQYRRFGIKEVS				NA	NA	NA	NA	NA
D1-12_02878	186			hypothetical protein	ATGGCTAAACGAATAACAGCATCTTTTAGTGACCGGGTGGACGATCAGAAGCGCCTGAGAGAAGTCGGCGGCTCAATCATGTTCAGTAAGGGGAAACCGGTATTTTCCTTCCCGTCAATGGACGCATACCGAGAATGGCAGCGGCTTGGTGCGGAAACATACAAAAGAAAGGTAGGGATTATTTAA	MAKRITASFSDRVDDQKRLREVGGSIMFSKGKPVFSFPSMDAYREWQRLGAETYKRKVGII				NA	NA	NA	NA	NA
D1-12_02879	198	yqaI		putative protein YqaI	TTGAACATAGAAAACCCGATGATTCTGAACAACTGGCATGACAAGGCGACTGAGCCGGAAACAAAAAAGGACTTTTTCGGGGATGAAGTAACGTCAGCAGATAATTATGTAATCGACAGCGGCGAGGTGATTTTACAAGACAATCTTAAACGCTATTTGAAGGAGCAACTGGGGTTTAGGTTTCATTCAGCACAATAA	MNIENPMILNNWHDKATEPETKKDFFGDEVTSADNYVIDSGEVILQDNLKRYLKEQLGFRFHSAQ				NA	NA	NA	NA	NA
D1-12_02880	219			hypothetical protein	ATGAATCTCAGAAAATTTGAGCTCGCGGCAAGCTTCTTGCGACATGCCCAAAAGGCGAAATATTCAGAGGAAGAGATCAAAGGAGCTGTGAGCATTCTGCATAAGGAATTCTACTCTTTAGAGAATGCAATCGAGAGTCTTGCTGAATTGGCAAAGGTAAACGAAGGAGCTGAGGAAATTGAACATAGAAAACCCGATGATTCTGAACAACTGGCATGA	MNLRKFELAASFLRHAQKAKYSEEEIKGAVSILHKEFYSLENAIESLAELAKVNEGAEEIEHRKPDDSEQLA				NA	NA	NA	NA	NA
D1-12_02881	258			hypothetical protein	ATGAAAATCAAACAGTTTCTTAAATCAGATGCAGATTCAGCAAAAAGAAAAATCGAGTCGGCGGAAGAGCTCTCTATCATGCTCTCGGAGGCATTACGGGACGGCGATTATGAAGAAGCTATAAGTCTTGCAGGGAGCATCAAGGTTCTTACAGAGGACATCAGCCGACTTGCGAATAAAGGGAGGTTGTATCATACAGCAATAAAAATGCAACAGCGCGGCATTAATCTGGCAGTGATAAGTAGGTGTATGGGATGA	MKIKQFLKSDADSAKRKIESAEELSIMLSEALRDGDYEEAISLAGSIKVLTEDISRLANKGRLYHTAIKMQQRGINLAVISRCMG				NA	NA	NA	NA	NA
D1-12_02882	573			hypothetical protein	ATGGAGAACAACCCATACAATTTGCATAATCTACCCCGGATCATGCGTAGTGTCCGCAAAGCGGCAGGACTTGCACAATATCAGATCGGTAATTTGATAGGGGGAAAGGATCAGCGGTATGTTTCGGACGTTGAAAATGGATTCAGTAAGCTTACCCCGGAATTATGCATCAAGTGGTTTGAGGCGTGCGAGGCATACGAACATATTGATCTGGTACATTACCTCTTCAAATTGCACCCGACGACCGCGGCGCCAATTGATCCAGCACTTAACGAGAGCGCAAGCGCAGCGGTAATCAATATGATTCATCAGCTTGAAGAAGCATTGCAAGCAACAAGGCATTTAGCGCGCTGGCTGGCAAACGATAGGCCAGGCCGACAACCTGAAGAACTGCCAATGGCCGATATTAAACAGATTTTTGATCTGATCCCGGCAAATAAAACGCTGATATATTCGCTGGCCCGTAGTCATGGATTGAACATGAAGGAACTGGCCGAAAGGTGGACGCGGAAAGCGCTAATGAGTCAGGTTGCAATGGCGAAAACAGAAGAAAGACAGGCGGTGCTGTTATGA	MENNPYNLHNLPRIMRSVRKAAGLAQYQIGNLIGGKDQRYVSDVENGFSKLTPELCIKWFEACEAYEHIDLVHYLFKLHPTTAAPIDPALNESASAAVINMIHQLEEALQATRHLARWLANDRPGRQPEELPMADIKQIFDLIPANKTLIYSLARSHGLNMKELAERWTRKALMSQVAMAKTEERQAVLL				NA	NA	NA	NA	NA
D1-12_02883	729			hypothetical protein	ATGAGTCAATTGGTTTTCATCGAAGGCAATCAAGTTGTAACGGACAGCCTGACGGTCGCTGAAGTCTTTGGGAAACGGCATGACACGGTTCTTCGGGACATCAGAAACCTTGATTCCAGCAAAGAATTTAATCTCCACAATTTTGCGGAGGTTGATTATCAGGATGACAGAAACCGAACATACAAAAAATATCTCATAAAACGTGATGGACTCACATTTTTGGTTTTTGGTTACACAGGCGCAAAGGCCGCAATATTTAAAGAAAAATACATTGCAGAATTTAACCGTATGGAAAATGAGCTTCAAAGGCTCAATCAACCCTCTTACATGATTGATGATCCGATCAGCCGGGCAAAGCGATGGATCACCGAAGAGGAAGAGCGGCAACGACTTCAGCACACACTGAAGATTCAGCAGCCACTTATCAACTTTGCAGAGAGTTGTATGGCATCTGAAAAATCATTGCTTGTGAGGGAACTGGCGAAGCTTGCATCTAAAAAGGGTATCAGCATCGGAGAAAAACGGCTGTTCCAAAAGCTGCGCGAATGGAAGATGATCTTAGCAAATAAGAACGAGCCATACCAGGAATATATCGACCGTGGTTATTTTGAGATAGCACAGGGAGTGCGACAAGTAAACGGTTCATCTAAATCATGGCTGACTATCCGCATTACGCCAAAGGGACAGGCCTTTATCATCGACAAGCTGAGAAAACAGCAAGCAAGCTAG	MSQLVFIEGNQVVTDSLTVAEVFGKRHDTVLRDIRNLDSSKEFNLHNFAEVDYQDDRNRTYKKYLIKRDGLTFLVFGYTGAKAAIFKEKYIAEFNRMENELQRLNQPSYMIDDPISRAKRWITEEEERQRLQHTLKIQQPLINFAESCMASEKSLLVRELAKLASKKGISIGEKRLFQKLREWKMILANKNEPYQEYIDRGYFEIAQGVRQVNGSSKSWLTIRITPKGQAFIIDKLRKQQAS				NA	NA	NA	NA	NA
D1-12_02884	306			hypothetical protein	ATGTTCAATTTAGATCATGAAGCTTTTAGAAACATGTTCCGCGAAATCATAGCGGAAGAGGTCGCTGGAGCTCTTCAGGATTTCAGAACCACTCAACTCCCGCCAATGCTGACAAAGCAAGAGTTTATGGAGTTTATGAAAATCAAAGAAACAAAGGCATCCCAACTTATCAACCGTGCTGACTTTCCTGTTTTTAAAGAAGCCGGGTTAAGAATACCGACTCATTTGCTTTTCAAGTGGATCGAGAAAAACACAGATTGGGTTGCCGAAAACACTGACTACTACAAGAAAGGGGCTACAGCATGA	MFNLDHEAFRNMFREIIAEEVAGALQDFRTTQLPPMLTKQEFMEFMKIKETKASQLINRADFPVFKEAGLRIPTHLLFKWIEKNTDWVAENTDYYKKGATA				NA	NA	NA	NA	NA
D1-12_02885	252			hypothetical protein	ATGGGTAGAGCAAAAAGTCGTCATGTATTGACATCTTTAAGAAAAAAAGAAGGTTCTCAGTCTTTGGTAGCTAAAAAGCTTGGTATCTCTCGCCAGTATCTATCTGCAATGGAAAACGGTGAAAGAAACCCCGGTGTTAAGCTTATGGTTAAAATGTCAAATCATTTCAATGAGAAGTCTGAAAGTCTATTTCCGGACCTTTTTTTTGAAGATGATTGCCACGAAATGAGGCAAAAATCAAACACAGCATAG	MGRAKSRHVLTSLRKKEGSQSLVAKKLGISRQYLSAMENGERNPGVKLMVKMSNHFNEKSESLFPDLFFEDDCHEMRQKSNTA				NA	NA	NA	NA	NA
D1-12_02886	378			hypothetical protein	GTGTTAGGCAAAAGAATAACTTCTTTGAGAAAAAAAGCAAATTTAACCCAAGAACAGATGGCCACAAAACTAAATATCACACGTTCTGCACTTTCGCAATATGAGTTAGGAACTCGGAACCCTGACTATGATTTGTTAATAAAAATTGCGGATTTCTTTGATGTCTCTATAGATTATTTGCTGAGAGGCGAAGATCATTACAAAGATAAGGCCAGAGAACTCCGTAAACAGACTGACGTTCGTTTTGCCGCTGTCGATGGTCGGGAATTCACTGATAGTGAAAAAGAGGCAATTCTTGCAGATGCTTTAAAACGAATTGATGGCATTGAAAAACTCATTGAGGAGAATTTCAAAAAGAAGAACGAAGATAAGAATTAA	MLGKRITSLRKKANLTQEQMATKLNITRSALSQYELGTRNPDYDLLIKIADFFDVSIDYLLRGEDHYKDKARELRKQTDVRFAAVDGREFTDSEKEAILADALKRIDGIEKLIEENFKKKNEDKN				NA	NA	NA	NA	NA
D1-12_02887	561			hypothetical protein	TTGAAAAAGTGGTTAGTTTTATTCATGTCTTTGGGCTTGGCTCTTGCATTAGCAGCGTGTGGATCGTCTGAAAACGCCTCCTCTGACAACAACGGGGAAAGCAAAAATGAGAAAGCCGAAAAGAAATCCTCTGATAAAGAGGTTAAAATGGGCCAAGATATTAAGGTTGGCGATATGATTTATAATATCAAGTCCAGAAAAGCAGCTGATCAAGTAGGCCCGTCTGTACTGCCGGAGAAAGCAAATGACAAATACCTGGTCATTGAAGCAACGCTTAAAAATACTGGTAACGATAAAATCACTGTGGATGCCTCTTTCTTCAAATTGAAAAAAGGCAAAAAAACATATGAAGCCGATTCCGCGGCGAGTGTTTCAGCGAACCAAAAAGAAGACGGCAGCATCGACAACAGTTTTCTCATGCAGGATTTAAACCCTGATTCTACAATGAGTGGTAAAGTTGTTTTTGATGTGGCGCCGGAGGTTGCGAATGCAAAAGACCTAAAGCTTGTTGTCCAAACTGGCATTTACGGCACACAAAAAGGTACAATATCACTAAAGTAA	MKKWLVLFMSLGLALALAACGSSENASSDNNGESKNEKAEKKSSDKEVKMGQDIKVGDMIYNIKSRKAADQVGPSVLPEKANDKYLVIEATLKNTGNDKITVDASFFKLKKGKKTYEADSAASVSANQKEDGSIDNSFLMQDLNPDSTMSGKVVFDVAPEVANAKDLKLVVQTGIYGTQKGTISLK				NA	NA	NA	NA	NA
D1-12_02888	474			hypothetical protein	ATGGGGTATACGCAAAGTCACTTAGAGGATTGGATCGAAAGTTTTCTCAGGGAACACAAAATAACAACGCCTTCAGAACTTAAACTTGTTAAATTATGCAGGAAGCTCAATGTATTTGTACTTTTTGATGATCGAGAAAGTTATATGTTAGATATTGCGGGGGTTCATATCGTAGGCATAAATAACCGGTTAAGCTATCAACAGCAACGATCGGATTTAGCTCACGAGTTATGGCACATCTTATTAGAGGGCGGCGATAACGAGCTTATGCCGCCACACTGGAGACAGTATCAAGAATCAAAAGCAGGTTATTTTTCATATCACTTTTGTGTTCCAACATTCATGCTGCGGCAACTGAACTTACCTTCAGATGAGGAAGCCGCTGCACGGTTGGTATCGGATACATTCAAGGTGACTTTTGATTTTGCAAAAAAGAGATTAAGAATTTACTTTAATAAATTAAACTATCGTTAA	MGYTQSHLEDWIESFLREHKITTPSELKLVKLCRKLNVFVLFDDRESYMLDIAGVHIVGINNRLSYQQQRSDLAHELWHILLEGGDNELMPPHWRQYQESKAGYFSYHFCVPTFMLRQLNLPSDEEAAARLVSDTFKVTFDFAKKRLRIYFNKLNYR				NA	NA	NA	NA	NA
D1-12_02889	1212	Int-Tn		Transposase from transposon Tn916	ATGGTTGTCTTTAAAAAGGAGAAATCAAAGCGTTCATCCAAGGGGTATACTTGGTATTTCGTAATGGAAAACGGCCGCGATCCAAGAACAGGAAAACGCAGACAAATAAAAAGACGTGGTTTCCAATCAAAAGCATCGGCAGAAGCCGCTTATCTTGAATTGAAAACGAAGCTCATTTCAGGGATTGATGTCGGGAAAGAGAACATTCTTTTTCAGGAAATCAAAGACCTATGGTACAAGGAATACAAGCATACCGTCAAAGTCAGTACCCTGCGAGCACGAAAAAGTGAAATAGAGAGTTTGGAAGAATACTTCGGAAAGATGAAAATTAAAGATATAACCAGGGGTGTTTATCAGAAGTTTTTAGATTATCTGAGGGAGGAAAATTATTCCTTCAACACAATAAGTGGTATCCACACTACAGCAAGTATGATCTTCAAATATGCGAGACAGGAGGATATCATAAGCAAAAGCCCGACGGAATTTGTTAAACCGCAGCGTCCAAAGCTTACAGTAGAAGATATTGAATCTCAAGAAGAAGTCGAAAACTTTCTTGAAGGAGAAGAACTTGTTGAGTTTTTAGACCTTACAGAAAAACACGGCCTTTTTCTCGACTTTGAATATTTCTGTATGGCTGCATTTACAGGCACTCGTTCCGGTGAGCGATTGGCCGGCAAATGGAGAGACTTAACTTTAGAGGGAGACGACCTCAAAACATTTCGAGTTACCAAAACGCTTTATTGCCCATCAAACAAAGCATCTGACTATGAACTGTTGCCACCGAAAACGCCAGCTGCTGTTAGAGATGTACCTTTGTCGGACTTTTTAGCATCTTTGTTGAAAAGACTGAAGCTCAAACAAGCTAAAATAGCATATGCGAATGGGCGAACATTCAGTGATGATGATTTTATATTCGCTCGTCCTGACGGCCACCCTGAGAACATTAAAAAGATGGATACCAGAATGAGAAGGATTTTAAAACGGATGGACATAAACAAACATATTACCCAGCATACTTTTAGGCACACATTCACTTCGCTTGCAGCTGAAGCAGATGTACCTTTAGAAGAGATACAAAAAATATTAGGCCATCAAAATGATGACATAACGAAAAAAGTCTATTTACACACTACTAGAAAAACCAAAGAAAGAACTTCGCAAAAATTCAATTCATTCATAGGTGACCTCTCAATGAAAATACAGTTATCATGA	MVVFKKEKSKRSSKGYTWYFVMENGRDPRTGKRRQIKRRGFQSKASAEAAYLELKTKLISGIDVGKENILFQEIKDLWYKEYKHTVKVSTLRARKSEIESLEEYFGKMKIKDITRGVYQKFLDYLREENYSFNTISGIHTTASMIFKYARQEDIISKSPTEFVKPQRPKLTVEDIESQEEVENFLEGEELVEFLDLTEKHGLFLDFEYFCMAAFTGTRSGERLAGKWRDLTLEGDDLKTFRVTKTLYCPSNKASDYELLPPKTPAAVRDVPLSDFLASLLKRLKLKQAKIAYANGRTFSDDDFIFARPDGHPENIKKMDTRMRRILKRMDINKHITQHTFRHTFTSLAAEADVPLEEIQKILGHQNDDITKKVYLHTTRKTKERTSQKFNSFIGDLSMKIQLS				NA	NA	NA	NA	NA
D1-12_02890	1635	groL	COG0459	60 kDa chaperonin	ATGGCAAAAGATATTAAGTTTAGTGAAGAAGCACGCCGCGCTATGCTTCGCGGTGTCGATGCGCTTGCTGACGCTGTAAAAGTAACTTTAGGGCCAAAAGGACGCAACGTGGTTCTGGAGAAAAAATTCGGTTCTCCGTTAATTACAAATGACGGTGTGACAATCGCAAAAGAAATTGAACTTGAAGATGCGTTTGAAAATATGGGTGCGAAGCTTGTAGCTGAAGTAGCCAGCAAAACAAACGACGTTGCCGGTGACGGTACGACGACTGCGACTGTACTTGCGCAGGCTATGATCCGCGAAGGCCTTAAAAACGTAACTGCGGGGGCTAACCCTGTCGGCGTGCGTAAAGGTATGGAACAAGCTGTAACCGTTGCAATCGAAAACTTAAAAGAAATTTCTAAGCCGATCGAAGGCAAAGAGTCTATCGCTCAGGTTGCTGCGATCTCTGCTGCTGATGAGGAAGTCGGAAGCCTTATCGCTGAAGCAATGGAGCGCGTAGGAAACGACGGCGTCATCACAATCGAAGAGTCTAAAGGTTTCACAACTGAGCTTGAAGTTGTGGAAGGTATGCAATTCGACCGCGGATATGCGTCTCCTTACATGGTGACTGATTCTGATAAGATGGAAGCGGTTCTTGACAATCCTTACATCTTAATCACAGACAAAAAAATCACAAACATTCAAGAAATCCTTCCTGTGCTTGAGCAAGTTGTACAGCAAGGCAAACCATTGCTTCTGATCGCTGAAGATGTTGAAGGGGAAGCTCTTGCTACACTCGTTGTCAACAAACTTCGCGGCACATTCAACGCTGTTGCCGTTAAAGCTCCTGGCTTCGGTGACCGCCGTAAAGCAATGCTTGAAGACATCTCTGTTCTTACAGGCGGAGAAGTGATCACAGAAGACTTAGGCCTTGACCTGAAATCTACTGAAATCGGACAATTGGGACGCGCTTCTAAAGTTGTGGTAACGAAAGAAAACACAACAATCGTAGAAGGCGCCGGCGACACTGAAAAAATCGCTGCACGCGTCAACCAAATCCGCGCTCAAGTGGAAGAAACAACTTCTGAATTCGACAGAGAAAAATTACAAGAGCGTCTTGCGAAACTTGCCGGCGGCGTAGCTGTCATCAAAGTCGGCGCTGCGACTGAAACTGAGCTGAAAGAGCGTAAACTTCGCATCGAAGACGCCCTCAACTCAACTCGCGCAGCTGTTGAAGAAGGCATCGTATCCGGCGGTGGTACAGCGCTTGTCAACGTATACAACAAAGTCGCTGCAGTTGAAGCTGAAGGCGATGCGCAAACAGGTATCAACATCGTGCTTCGCGCGCTTGAAGAGCCGATCCGTCAAATCGCGCACAATGCAGGTCTTGAAGGATCTGTCATCGTTGAGCGCCTGAAAAACGAAAAAATCGGCGTAGGCTTCAACGCTGCAACCGGCGAATGGGTAAACATGATCGAAAAAGGTATCGTTGACCCGACAAAAGTTACACGTTCAGCCCTGCAAAACGCAGCTTCTGTAGCAGCAATGCTCTTAACAACTGAAGCCGTTGTCGCTGACAAACCGGAAGAAAACGCCGGCGGCGCAGGAATGCCTGACATGGGCGGCATGGGCGGTATGGGCGGAATGATGTAA	MAKDIKFSEEARRAMLRGVDALADAVKVTLGPKGRNVVLEKKFGSPLITNDGVTIAKEIELEDAFENMGAKLVAEVASKTNDVAGDGTTTATVLAQAMIREGLKNVTAGANPVGVRKGMEQAVTVAIENLKEISKPIEGKESIAQVAAISAADEEVGSLIAEAMERVGNDGVITIEESKGFTTELEVVEGMQFDRGYASPYMVTDSDKMEAVLDNPYILITDKKITNIQEILPVLEQVVQQGKPLLLIAEDVEGEALATLVVNKLRGTFNAVAVKAPGFGDRRKAMLEDISVLTGGEVITEDLGLDLKSTEIGQLGRASKVVVTKENTTIVEGAGDTEKIAARVNQIRAQVEETTSEFDREKLQERLAKLAGGVAVIKVGAATETELKERKLRIEDALNSTRAAVEEGIVSGGGTALVNVYNKVAAVEAEGDAQTGINIVLRALEEPIRQIAHNAGLEGSVIVERLKNEKIGVGFNAATGEWVNMIEKGIVDPTKVTRSALQNAASVAAMLLTTEAVVADKPEENAGGAGMPDMGGMGGMGGMM	PGPT0014570_4118	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
D1-12_02891	285	groS	COG0234	10 kDa chaperonin	TTGTTAAAGCCATTAGGTGATCGCGTTGTCATTGAACTCGTAGAATCTGAAGAAAAAACTGCCAGCGGAATCGTATTACCGGATTCTGCAAAAGAAAAGCCGCAAGAAGGCAAAATCGTGGCAGCCGGTTCAGGTCGCGTGTTGGAAAGCGGAGAGCGCGTTGCTTTAGAAGTAAAAGAGGGCGACCGCATTATCTTCTCAAAATACGCCGGTACTGAAGTGAAATACGAAGGTACTGAATACTTAATCTTACGTGAAAGCGACATTTTAGCTGTTATCGGCTAA	MLKPLGDRVVIELVESEEKTASGIVLPDSAKEKPQEGKIVAAGSGRVLESGERVALEVKEGDRIIFSKYAGTEVKYEGTEYLILRESDILAVIG	PGPT0014565_4541	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
D1-12_02892	735	MroQ		Membrane-embedded CAAX protease MroQ	TTGAGAAAACAGTATTGGTATATCATTTTGACATATGTTATCATGCAGCTTTCCGCATTGATCGGCATTCCTTTAATGTACAAATTCGGCTATGCGGGCGGGCACCCTACGAATGCGAATCTCACCATGGCTCAGGGGATTTATTCCGTCGTAAGCTTTTTTATCTGCCTGATTATCGTTCTCTTGATTTTGAGAACCGCGCCGAAGCAGACATTAAGAAACGGGAAGAAAGCATCCGCCGGCATGTCCGTTCTCTGGGCGGTCGCGGGAATATGGCTCGCTTTATTTTCTCAGGGAATCGCCGGGATGATTGAGCAGTATGTCTTTCATGTGGGCAGCGGTTCCGAAAACACGAAAGCCATTCTCAACATTATTAAAGCCATGCCGCTCATGATTATCGTTTCTTCTATCGTCGGGCCGATTCTTGAAGAGATCATTTTCCGGAAGATCATCTTCGGTGTATTATATGAAAAAACGAATTTCTTTGTCGCCGGACTGATCAGTTCCGTCATTTTCGGCATTGTGCATCAAGACCTCACGCACCTGCTGCTGTATACGGCCATGGGCTTTACCTTTGCGTTCTTGTATGTGCAGACGAAACGGATTATTGTGCCGATATTCGCCCATGTCATGATGAATACCATTGTCGTGGTCATGCAGCTCGGCCCCGCCCAAAAATATATTGAACAGCATAGTGAGCAAATGCAATTAATTATTGGAGGATTGTTTGTATGA	MRKQYWYIILTYVIMQLSALIGIPLMYKFGYAGGHPTNANLTMAQGIYSVVSFFICLIIVLLILRTAPKQTLRNGKKASAGMSVLWAVAGIWLALFSQGIAGMIEQYVFHVGSGSENTKAILNIIKAMPLMIIVSSIVGPILEEIIFRKIIFGVLYEKTNFFVAGLISSVIFGIVHQDLTHLLLYTAMGFTFAFLYVQTKRIIVPIFAHVMMNTIVVVMQLGPAQKYIEQHSEQMQLIIGGLFV				NA	NA	NA	NA	NA
D1-12_02893	192			hypothetical protein	ATGAGGAACCCAATGACTTGGGGCTTGATTTATTTCGCAGTCGGCTGTATCTTTACGTATTTGGCCGCAAGCTCTCCGGGAAGCATGTGGTCTTTTTATTCCATACTGCTGATGGTTTTCGCCGCTTATAATATCAGCATCTCGTTTAAAATGTTCGCCTTCTCATTTAAAGTGAAGAAAAATCAAAAATAA	MRNPMTWGLIYFAVGCIFTYLAASSPGSMWSFYSILLMVFAAYNISISFKMFAFSFKVKKNQK				NA	NA	NA	NA	NA
D1-12_02894	750	tatC2	COG0805	Sec-independent protein translocase protein TatCy	ATGAGAGTGAATCAAATGACGCTTGTGGAGCATATTGCCGAACTTCGGAAACGATTGCTGATTGTGGCGTTATCCTTTACGGTTTTCTTTATTGCAGGCTTTTTTCTGGCAAAACCTATCATTGTGTATCTTCAAAAAGCCGATGAAGTAAAAGAGCTCACCCTTAATGCTTTTAACCTGACGGATCCGCTGTTTATCTTTTTGCAGTTCGCGTTTATCATCGGCATCATTTTGACTTCGCCGATTATTCTCTATCAGATTTGGGCGTTTGTCAGCCCGGGTCTGTATGAGAAGGAGCGCAAAGTAACACTCAGCTATATTCCGATTTCGATCGTGCTGTTTGTCGGCGGTGTGTCGTTTTCTTATTATATTTTATTTCCGCTGGTCGTTGATTTTATGAAGCGGGTTTCGAATGACCTGGATGTCAACCAGGTGATCGGGATCACCGAGTACTTTCATTTTCTGCTGCAGCTGACGATTCCGTTCGGACTGCTGTTTCAGATGCCGGTGCTGATCATGTTTTTAACGAGACTCGGTGTTATCACGCCGAGGTTTTTATCGAAGATCAGGAAGTACGCGTATTTTGTGCTGCTTGTGATCGCCGCGATGATTGCGCCGCCTGAGCTGCTGTCTCACTTGATGATTACCATTCCGCTTTGCATTTTATACGAGATCAGCATTCTGATTTCAAAAGCGGCGTACCGGAAAAGACAGACCGGCAGTGAATCTGACCAGGACGTATCAGCATAG	MRVNQMTLVEHIAELRKRLLIVALSFTVFFIAGFFLAKPIIVYLQKADEVKELTLNAFNLTDPLFIFLQFAFIIGIILTSPIILYQIWAFVSPGLYEKERKVTLSYIPISIVLFVGGVSFSYYILFPLVVDFMKRVSNDLDVNQVIGITEYFHFLLQLTIPFGLLFQMPVLIMFLTRLGVITPRFLSKIRKYAYFVLLVIAAMIAPPELLSHLMITIPLCILYEISILISKAAYRKRQTGSESDQDVSA	PGPT0029295_3865	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
D1-12_02895	171	tatAy		Sec-independent protein translocase protein TatAy	ATGATCGGTCCTGGAAGCCTGGCGGTTATCGGTGTGGTGGCGGTGATTATTTTCGGTCCGAAGAAGCTTCCCGAATTAGGAAAAGCGGCGGGAGACACGCTTCGTGAATTTAAGAATGCTACTAAGGGATTAGCCGGTGAAGAAGAGGAAAAAAAGAAAGAAGAACAGTAA	MIGPGSLAVIGVVAVIIFGPKKLPELGKAAGDTLREFKNATKGLAGEEEEKKKEEQ	PGPT0029290_5066	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
D1-12_02896	648	rex	COG2344	Redox-sensing transcriptional repressor Rex	ATGAACAAGGATCAATCAAAAATTCCACAGGCGACGGCAAAACGGCTGCCGCTTTATTATCGCTTTTTAAAGAATTTACACGCGTCAGGAAAGCAGCGCGTTTCATCAGCTGAACTGAGCGACGCGGTAAAAGTCGATTCGGCCACGATCCGCCGGGATTTTTCCTATTTCGGGGCGCTCGGCAAAAAAGGATACGGCTATAATGTGGATTACCTGCTGTCATTTTTCAGAAAAACACTGGATCAGGATGAAACGACGAATGTCATTTTGATCGGTGTCGGGAATTTAGGGACGGCGTTTCTTCACTATAATTTCACAAAAAATAATAACACCAAAATATCTATGGCTTTTGATGTGAATCAGAGTAAAATAGGAACTGAGGTAGGCGGTGTGCCTGTCTTTGATCTTAATGATTTAGAGCTTCACATTAAGGATGAACCCGTGGCGATTCTTACCGTTCCGGCGGTTGCCGCGCAGTCAATCACCGACCGGCTCGTGTCGCTCGGAATCAAGGGAATCCTTAACTTTACGCCGGCCCGTTTGAATGTGCCGGATCACATTCGAATTCATCATATAGATTTAGCTGTAGAACTTCAATCATTGGTTTATTTCTTAAAGCATTATTCTGTTTTGGAAGAAATTGAATAG	MNKDQSKIPQATAKRLPLYYRFLKNLHASGKQRVSSAELSDAVKVDSATIRRDFSYFGALGKKGYGYNVDYLLSFFRKTLDQDETTNVILIGVGNLGTAFLHYNFTKNNNTKISMAFDVNQSKIGTEVGGVPVFDLNDLELHIKDEPVAILTVPAVAAQSITDRLVSLGIKGILNFTPARLNVPDHIRIHHIDLAVELQSLVYFLKHYSVLEEIE				NA	NA	NA	NA	NA
D1-12_02897	513	moaC	COG0315	Cyclic pyranopterin monophosphate synthase	ATGAATGGATTTTCTCATTTTAATGAAGAAGGCCGTGCCCGCATGGTGGATATAAGCGATAAATCTTCAACAGTCCGTACTGCCGCTGCGATATCCAGCGTACACATGAAGCATGACGTGTACAGCAGAATCAAAAACCGCGAGATCGGAAAAGGAGACGTGCTGGCTGTCGCACAGGTGGCAGGAATTATGGCCGCAAAGCAGACGTCAGCGATTATCCCGATGTGCCACCCGCTTTCTTTAAGCAGCGTCGACATTTCATTCGGCTGGGAGGAAAAGGATTCAGAAGCCGTTCTTCATATACAGGCAAGCGTAAAAACGAAAGGGAGTACAGGTGTGGAAATGGAAGCGCTAACTTCCGCTTCAGTCTGCGCTTTGACCGTTTATGACATGTGCAAGGCGCTGGATAAAGGAATGGTCATCGGCCCGACCTGCCTCATGGAAAAAACAGGAGGCAAAAACGGTGATTTTAAAAGAGATGCATCTGAGTATAAAGTGGAGGACCAATCATGA	MNGFSHFNEEGRARMVDISDKSSTVRTAAAISSVHMKHDVYSRIKNREIGKGDVLAVAQVAGIMAAKQTSAIIPMCHPLSLSSVDISFGWEEKDSEAVLHIQASVKTKGSTGVEMEALTSASVCALTVYDMCKALDKGMVIGPTCLMEKTGGKNGDFKRDASEYKVEDQS	PGPT0008405_468	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
D1-12_02898	1929	ybiT_3	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGATGATCTTACAAATTAATCAGCTATCCAAATCTTTTGGCGCTGATCCTATTTTAAACAATATAAAGCTTGAAGTCAGATCTCGGGATCGCATCGCCATAGTAGGCAGAAACGGAGCCGGCAAATCAACTCTCCTTAAAATTATCGCAGGTCACCTTTCATATGAAAAGGGTGAATTAATCAAACCGAAAGAATTAACGATGGGATATCTTGCCCAGCACACAGGCTTGGAATCCCAGCTTACCATAAAAGAAGAACTGCTGAGTGTTTTTGATTTCCTGAAAGCAATGGAAAAAGAGATGCGCTCTATTGAAGAAAAGATGGCCACGGCCGCCCCGGCGGAGCTTGAGACGCTGATGAAAACCTATGACAGGCTTCAGCAGGATTTCAAGGATAAAGGCGGCTATCAATATGAAGCGGACGTCCGCTCTATCCTTCACGGCCTCGGCTTCGGAAAATTTGACGATTCCGTGAAAGTGCAAAGCCTGAGCGGCGGTCAGAAAACAAGACTTGCGCTCGGAAAGCTGCTGCTGACCCAGCCTGATCTGCTTATTCTGGATGAACCGACGAACCATCTCGACATCGATACGCTTACATGGCTTGAGCATTATTTACAGGGATATTCAGGCGCCATTCTGATCGTTTCCCACGACAGATACTTTCTTGATAAAGTCGTCAGCCAAGTGTACGAGGTCTCACGGACAGAAAGCAAAAAATACCTCGGCAACTACAGCGCCTATTTAGAACAAAAAGCTGAGCAGTATGAGAAAGACCTGAAGCTGTATGAAAAACAGCAGGACGAAATCGCCAAGCTTCAAGATTTTGTCGACCGCAATCTGGCCAGAGCTTCTACAACGAAAAGAGCCCAAAGCAGACGAAAACAGCTTGAACGGATGGACGTCATGGCAAAGCCGCTCGGGGATGAAAAATCAGCCGCCTTCCGTTTTGACATTACAAAACAGAGCGGAAACGACGTCCTGCGCGTACAGGATGTTTCCATCAGCTATGACGGCCAGCCTCCGCTCTTGAAAAACCTGACCTTCGGCATGACAAGAGGCGAAAGCGCCGCCCTCGTCGGACCGAACGGAATCGGCAAATCAACCTTGCTGAAAACCATTATGAATACAATCAGTCCGGAATCCGGATCGATCACGTACGGTTCCAATGTCACAATCGGCTATTATGATCAGGAGCAGGCTGAACTGACCTCGTCCAAACGCGTGCTGGACGAGCTGTGGGATGAATATCCGGACATGCCGGAAAAAGAGATCAGGACATGCCTCGGCAACTTCCTGTTCAGCGGAGACGATGTCCTGAAACCGGTCCGTTCGTTAAGCGGCGGGGAGAAAGCAAGAGTCGCGCTTGCCAAGCTGATGCTTCAAAAAGCAAACTTTCTCATCCTTGATGAACCGACAAACCACCTTGACCTGGACAGTAAAGAGGTGCTGGAAAACGCCCTGATCGACTACCCGGGAACACTGTTATTTGTCTCGCATGACCGCTACTTTATTAACAGGATCGCCACAAGAGTGCTGGAGCTCTCACCTGATCATGCAGAAGAATATTTGGGAGACTATGACTATTACACCGAGAAAAAAGCCCAGCAGCTGGAACTGGAAGAAATGAAGCGGCAGGAAAAGGAGCAGGCTCAGCCTGCCGGCAAGGTCAAACAGGATACGAAAAGAACTTACGAGGAAGAAAAAGAATGGAAGAAGAAAGAACGGCAGCGCCTGAGACGCATTGAAGAAATCGAAGCAGCCGTCTCATCCGCCGAAGAGAAAATCAGCGCCAATGAGGAGCTGCTGTGCGATCCTGACGTGTATCAGGATCATGAAAAGGTACAGACCATTCACGCGGAGAATGAAGCTCTGAATCAAGAGCTCGAGAACTTATTAGCAGAATGGGAGGAACTCTCCTCAGAAGAATAG	MMILQINQLSKSFGADPILNNIKLEVRSRDRIAIVGRNGAGKSTLLKIIAGHLSYEKGELIKPKELTMGYLAQHTGLESQLTIKEELLSVFDFLKAMEKEMRSIEEKMATAAPAELETLMKTYDRLQQDFKDKGGYQYEADVRSILHGLGFGKFDDSVKVQSLSGGQKTRLALGKLLLTQPDLLILDEPTNHLDIDTLTWLEHYLQGYSGAILIVSHDRYFLDKVVSQVYEVSRTESKKYLGNYSAYLEQKAEQYEKDLKLYEKQQDEIAKLQDFVDRNLARASTTKRAQSRRKQLERMDVMAKPLGDEKSAAFRFDITKQSGNDVLRVQDVSISYDGQPPLLKNLTFGMTRGESAALVGPNGIGKSTLLKTIMNTISPESGSITYGSNVTIGYYDQEQAELTSSKRVLDELWDEYPDMPEKEIRTCLGNFLFSGDDVLKPVRSLSGGEKARVALAKLMLQKANFLILDEPTNHLDLDSKEVLENALIDYPGTLLFVSHDRYFINRIATRVLELSPDHAEEYLGDYDYYTEKKAQQLELEEMKRQEKEQAQPAGKVKQDTKRTYEEEKEWKKKERQRLRRIEEIEAAVSSAEEKISANEELLCDPDVYQDHEKVQTIHAENEALNQELENLLAEWEELSSEE				NA	NA	NA	NA	NA
D1-12_02899	1041	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGAGTGAAAAACAAGATATTTATGTATTAGGAATCGAAACAAGCTGTGATGAAACAGCGGCCTCAGTCGTAAAAAACGGGAATGAAATTATTTCAAACGTCGTCGCTTCTCAAATTGAAAGCCATAAACGTTTCGGCGGGGTCGTGCCTGAAATAGCGTCCAGACATCATGTGGAGCAGATCACCCTTGTGATTGAGGAAGCTCTTTCAAAAGCGGAGATGGGCTTTGATGATCTTGATGCGATTGCCGTAACGGAAGGACCCGGACTTGTCGGAGCCCTGTTAATCGGAGTCAATGCGGCAAAGGCGTTAAGCTTTGCCCATCAAATACCGCTAGTCGGTGTCCATCACATTGCGGGTCATATTTATGCAAACAGGCTGATAGGAGAGCTTCAGTTCCCGGCGCTTGCTTTGGTTGTGTCAGGCGGACATACGGAATTGGTTTATATGAAAGAGCACGGTTCATTTGAGGTTATCGGTGAAACGCTGGATGATGCCGCAGGCGAAGCTTACGACAAAGTGGCAAGAACGATGGGGCTTCCTTATCCGGGAGGGCCGCAGATTGATAAGCTGGCTGCTGTGGGAACGGATTCCATTCCGCTTCCGCGTGCGTGGCTGGAAGAAGGGTCTTACAATTTCAGCTTCAGCGGCCTAAAATCAGCCGTGATTAACACGCTTCATAACGCCTCGCAAAAAAATGAGGTGATTCCTCCGGAGGATCTTGCAGCAAGCTTTCAGCAGAGTGTCATTGATGTACTGACGGCAAAAACCTCTAAGGCCGCGAAAGAATACGGGGTTAAACAAGTGCTGCTGGCAGGGGGCGTAGCCGCTAACAAAGGGCTGAGAGCCGCACTTCAGCAGGAATTCAGCCATTCGGGAGATCCCGAGCTTATCATCCCGCCGCTTTCTTTATGCACGGACAATGCAGCGATGATTGCGGCTGCCGGAACCGTTGCTTTTGAAAAGGGGATTCGGGGCTCATATGATATGAACGGACAGCCCGGTTTGGAATTAACATCCTTTGATCGTCTCACGTTGTAA	MSEKQDIYVLGIETSCDETAASVVKNGNEIISNVVASQIESHKRFGGVVPEIASRHHVEQITLVIEEALSKAEMGFDDLDAIAVTEGPGLVGALLIGVNAAKALSFAHQIPLVGVHHIAGHIYANRLIGELQFPALALVVSGGHTELVYMKEHGSFEVIGETLDDAAGEAYDKVARTMGLPYPGGPQIDKLAAVGTDSIPLPRAWLEEGSYNFSFSGLKSAVINTLHNASQKNEVIPPEDLAASFQQSVIDVLTAKTSKAAKEYGVKQVLLAGGVAANKGLRAALQQEFSHSGDPELIIPPLSLCTDNAAMIAAAGTVAFEKGIRGSYDMNGQPGLELTSFDRLTL				NA	NA	NA	NA	NA
D1-12_02900	456	rimI	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGAAAACGAAAACGGCGATTCGAAGCATGCGGCCGGAAGATATTGATCAAATTTATGAAATTGAAACAGCATCCTTTACTTCTCCGTGGACGAAGGATTCATTTTATCATGAGCTTTTGGAAAATCCGTATGCCCACTACCTTGTCATTGAAAAGGACGGCTGTCTGGCGGGGTATTGCGGAATCTGGATTATTATAGATGACGCGCAGATTACGAACATAGCCATTAAGCCGGAATATCGGGGCCAATCATTGGGAGAAGCGCTGTTTCGCTCTGCGATAGAATTGTGCAGAGAAAAAAAGGCAAGAAGGCTCTCTCTCGAAGTCAGGGTCTCAAATCATCCCGCCCAATCCTTATATAAAAAATTCGGTCTTCAGGCCGGTGGAATCAGAAAACAATACTATACAGATAACGGGGAAGATGCGTTATTAATGTGGGTGACATTACATGAGTGA	MKTKTAIRSMRPEDIDQIYEIETASFTSPWTKDSFYHELLENPYAHYLVIEKDGCLAGYCGIWIIIDDAQITNIAIKPEYRGQSLGEALFRSAIELCREKKARRLSLEVRVSNHPAQSLYKKFGLQAGGIRKQYYTDNGEDALLMWVTLHE				NA	NA	NA	NA	NA
D1-12_02901	690	tsaB	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGACAATACTGGCAATTGATACGTCAAATTACACGCTGGGTGCCGCGCTCGTTCGTGACAAAACGGTGATGGCGGAGTATATTACATATTTAAAAAAGAATCATTCCGTGCGGGCCATGCCTGCTGTCAATTCATTGCTGAAGGATTGCGGCCTAACACCGCAGGATCTTACAAAAATAGCGGTGGCGAAAGGACCGGGATCGTATACAGGTGTCAGAATCGGTGTGACGCTGGCAAAAACATTGGCATGGTCGCTGAAGCTTCCGGTTTCCGCTGTCTCGAGTCTGGAGGTGCTGGCGGCTAACGGACGGCACTTTCAAGGACTGATCTGCCCGTTATTTGATGCCCGGCGCGGACAGGTATATACGGGACTTTATGAATATCAGGACGGCCGATTACAATCCGTTCTTCCAGATCAGAATGTCCTTTTGACTGATTGGCTCGGCATGCTGAAAGAAAAAGCGTCTCCGGTTTTATTTTTAGGGCACGATACAGCGATTCATGAAGAAACCATTCTGCATGAGCTGACATCTCAAGCAGTGATAGGAACGGCTGCACAGCATAATCCGCGGCCGTCAGAGCTGGCGTTTTTAGGCTTGGAAAAAGAAGAAGCGGATGTCCACAGCCTTGTTCCGGATTATTTGCGTCTGGCAGAGGCTGAAGCGAAATGGATGGAATCTCAAAAATAG	MTILAIDTSNYTLGAALVRDKTVMAEYITYLKKNHSVRAMPAVNSLLKDCGLTPQDLTKIAVAKGPGSYTGVRIGVTLAKTLAWSLKLPVSAVSSLEVLAANGRHFQGLICPLFDARRGQVYTGLYEYQDGRLQSVLPDQNVLLTDWLGMLKEKASPVLFLGHDTAIHEETILHELTSQAVIGTAAQHNPRPSELAFLGLEKEEADVHSLVPDYLRLAEAEAKWMESQK				NA	NA	NA	NA	NA
D1-12_02902	477	tsaE	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	TTGAAGACATTACAATGGAGAACGAAAAACCCCGAAGAAACGAAAGCCGTAGCCAAGCTTGCCGCTTCTTTGGCAAAGCCGGGAGACATTTTGACACTGGAAGGCGACTTAGGCGCGGGAAAAACGACTTTTACAAAGGGTTTTGCCGAAGGACTGGGAATCACGAGAGTGGTAAACAGCCCGACTTTTACAATTATAAAAGAATACCATGACGGTTCGCTTCCTCTATATCATATGGATGTGTATCGTATGGAGGATGAAAGCGAAGACTTAGGGCTTGAAGAATATTTTGAGGGACAAGGCGTCTGTTTAATTGAATGGGCTCATTTAATTCAGGATCAGCTGCCTGCTGAACGGCTGCAGATCGTTATCAAGAGAGCCGGTGATGAGGCAAGGGACATTACCTTTACGGCTTGCGGAACACGGTATGAAACGCTTTGTGAGGAGATAAATAAACATGACAATACTGGCAATTGA	MKTLQWRTKNPEETKAVAKLAASLAKPGDILTLEGDLGAGKTTFTKGFAEGLGITRVVNSPTFTIIKEYHDGSLPLYHMDVYRMEDESEDLGLEEYFEGQGVCLIEWAHLIQDQLPAERLQIVIKRAGDEARDITFTACGTRYETLCEEINKHDNTGN				NA	NA	NA	NA	NA
D1-12_02903	978	thiL	COG0611	Thiamine-monophosphate kinase	ATGGATGAGTTTGATTTGATTCACAGTATTACGCCGCATTCGCATTATCATCCTTCCGTCGATGTAGGGATCGGTGATGATGGTGCGGTTTATACAGCGTCACCCCATATGCAGCAAATTGTCTGCCTTGATACAATGGTGGAGAATGTCCATTTTAAATTAGAGTATTCCTCTCCTCATGATATCGGTTATAAGGCGCTTGCTGTTAACATTAGTGACGTGGCGGCGATGGGAGGCATTCCGAAGTTTTATTTGGTGTCTCTAGCGGTTCCTTCTTGCTGGCAGAAAGCTGACGTCCAGGCAATGTATGAAGGAATGGCGGAACTGGCGAAACTATATCAAATGGATTTGATCGGGGGAGATACCGTCTCCGCTTCCGGTCAAGCCGTAATTACCGTTACTGTCATCGGAGAAGTTGAGAAGGATCGCGCTTGTCTGCGAAGCTCGGCAAGACCCGGGGATGTTGTGTTTGTTACGGGGGATATCGGCTCGTCCGCAGCAGGACTGTCTCTTTTATTGGGAGAAACACTCCCTTCTGCTTTTCATACGAGTGATTATTTTATCCGAAAACATAAACGGCCCGTTCCGAGAGTTCAGGTCGGCCGCTTCTGCTCTCAGCTTCAGCGCGCGGCTTTGAATGATATCAGTGACGGATTGGCCAGTGAGCTGCATGAAATAGCTGCGGCAAGTTCAGTTACGATAGAAATTGAAGAACAACTTCTGCCGGTGCATCCGGATTTGCCTGAGGCAGATTCTGAGTGGAAGAAATGGGTGTTATTCGGCGGTGAAGATTTTGAATTGGTTGGAACGGTTTCTCAGCAAGAGTGGATTTCTTTGCTTGATTACTGCACTCAATCGGGCATTCCGATTGCGAAGATAGGGGCGGTATCTGAACGGAAGGAAGCATGTGTTCTTTTGACAGCCAATGATCAGAGACAAATCGTCCTTGAGAAAAAAGGATACAATCATTTTAAATAA	MDEFDLIHSITPHSHYHPSVDVGIGDDGAVYTASPHMQQIVCLDTMVENVHFKLEYSSPHDIGYKALAVNISDVAAMGGIPKFYLVSLAVPSCWQKADVQAMYEGMAELAKLYQMDLIGGDTVSASGQAVITVTVIGEVEKDRACLRSSARPGDVVFVTGDIGSSAAGLSLLLGETLPSAFHTSDYFIRKHKRPVPRVQVGRFCSQLQRAALNDISDGLASELHEIAAASSVTIEIEEQLLPVHPDLPEADSEWKKWVLFGGEDFELVGTVSQQEWISLLDYCTQSGIPIAKIGAVSERKEACVLLTANDQRQIVLEKKGYNHFK	PGPT0009010_1715	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
D1-12_02907	537	bslA		Biofilm-surface layer protein A	ATGAAACACAAGTTTTTCTCAACTGTCATGGCAAGTTTATTCGGCCTGGTTTTGCTTCTTTCTCTGCCGACAGCGTCATTCGCCGCTGAGTCAGGCTCAACCGTTCACGAGCCGGAAATGTCCACGAAAGCGACTGCTACCTTATTTGCAAAATATACAGGTGCCAGCCAGCAGGAATGGTCATTTTCTGATATCGAATTGACGTACCGTCCGAACACGATCCTGAGCTTAGGCGTTATGGAATTTACCCTTCCTAGCGGATTTGCGGCTACAACAAAAGATACAGTCAACGGACACGCTTTGCGTGAAAGACAAATTCTGAATAACGGCAAAACAGTCAGACTTCCGTTAAACATTGATTTGCTCGGCGCAGCGGAATTTAAGCTTTCTCTTAATAATAAAACATTGCCTGCTGCAGGTACATATAAGTTCCGTGCAGAAAATAAATCATTAAGCATCGGCTCTAAATTCTATGCTGAGGACACAATTGTTGTTCAAAAACGCAGCACACCGCCGACACAGCCTTGCGACTGCTAA	MKHKFFSTVMASLFGLVLLLSLPTASFAAESGSTVHEPEMSTKATATLFAKYTGASQQEWSFSDIELTYRPNTILSLGVMEFTLPSGFAATTKDTVNGHALRERQILNNGKTVRLPLNIDLLGAAEFKLSLNNKTLPAAGTYKFRAENKSLSIGSKFYAEDTIVVQKRSTPPTQPCDC				NA	NA	NA	NA	NA
D1-12_02908	669	ktrA_2	COG0569	Ktr system potassium uptake protein A	TTGGGAAAAATCAAAAATAAACAATTTGCCGTCATCGGACTCGGCCGTTTCGGCGGAAGCATCTGTAAAGAGCTTTTTAAAATGGGGCATGAGGTGCTTGCGGTCGATATCAGCGAAGAGCGGGTCAACGCATACTCCTCTTATGCCACGCATGCTGTGCGGGCAAATTCAACGGAAGAAAGCGAGCTTCAGTCGCTCGGCATCAGAAATTTTGAATATGTCATCGTAGCAATCGGCGCCAACATTCAGGCAAGCACGCTGACGACGCTGTTATTGAAGGAGCTGAACATCCCTAATATTTGGGTGAAAGCGCAAAACTATTATCATCACAAAGTGCTTGAAAAGATCGGTGCTGATCGTATTATCCATCCCGAAAAGGATATGGGCGTGCGGATTGCGCAAAGCCTTTCGGATGAAAACGTCTTAAATTATATTGATTTGTCAGATGAATACAGCATCGTGGAGCTTTCAGCCACGAAAAAGCTGCATTTAAAATCCATTCTTGATCTCGGCGTCCGGGCCAGATTCGGCTGTACCATTCTTGCCGTGAAACATAACGGAGACATTCAGCTGTCCCCTTCTCCGGAGACTGTCATTCATGAATGTGACTGCCTTGTGCTGATGGGGCATAAACGTGATATTAAAAGGTTTGAAACTGAAGGGATGTAA	MGKIKNKQFAVIGLGRFGGSICKELFKMGHEVLAVDISEERVNAYSSYATHAVRANSTEESELQSLGIRNFEYVIVAIGANIQASTLTTLLLKELNIPNIWVKAQNYYHHKVLEKIGADRIIHPEKDMGVRIAQSLSDENVLNYIDLSDEYSIVELSATKKLHLKSILDLGVRARFGCTILAVKHNGDIQLSPSPETVIHECDCLVLMGHKRDIKRFETEGM	PGPT0002710_3576	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-12_02909	846	lytG	COG1705	Exo-glucosaminidase LytG	ATGAAAAAGAAAGCAAAGACCAAAAGGGTGCTTGGATGCCTTTTTGCTGTATCTCTTATATTCGGATTATTTCTGGTATCAATGGTGTTTTCGAAATTCATAGTGACGGAAGAAAAACCGCCTGAAGAGGTGGACGAGCAGCAGGTCTTTATTGACAGCCTTTCCGGGCATGCTCAAATTTTATATGAGAAATATCATGTCCTTCCGAGCATCACCCTCGCACAGGCCATTCTCGAATCGGACTGGGGGAACAGTGAGCTTGCGGGGAAAGCGCGCAACCTGTTCGGTGTAAAAGGTGATTATAAAGGAAAACACGTCACGATGAAAACGGATGAATTTGAAAAAGGAAAACGAAAAACGATTCGGGCAAAATTCCGTAAATACAGCACGTTTTTTGAATCAATGGATGACCATGCAAAATTATTTGTCAACGGAACGTCTTGGAATAAAAAGAAGTACAAGCCCGTCATTGAAGCGGACAATTATAAAACAGCGGCGGCTGCCCTTCAAAAATCCGGCTACGCCACAGACCCCGGCTATGCTGAAAAAATTAAAGATGTCATAGAAACCTATAACCTGAATGAATATGACAAAATCAATGCCTCTCTTAAAGCAGTTGATATGAAAGGCGCCATCAAAGACCACGCCATTGAAGACGTGTGGTCGAAGCCGTCAAAAGAGCGGCATTCTATAAAACTGGCATCGGCGCAAAAGTTTACCGGCCAGCATATTAAAGTCGTATCTGAAAAACAAAACGGAGAATCCGTCTGGTACCAAATTCAAGTGAAAGATGAGCTGATCGGCTGGGTTGACCAAACCGCCGTCCAGTTAAGTGAAGAAACATAA	MKKKAKTKRVLGCLFAVSLIFGLFLVSMVFSKFIVTEEKPPEEVDEQQVFIDSLSGHAQILYEKYHVLPSITLAQAILESDWGNSELAGKARNLFGVKGDYKGKHVTMKTDEFEKGKRKTIRAKFRKYSTFFESMDDHAKLFVNGTSWNKKKYKPVIEADNYKTAAAALQKSGYATDPGYAEKIKDVIETYNLNEYDKINASLKAVDMKGAIKDHAIEDVWSKPSKERHSIKLASAQKFTGQHIKVVSEKQNGESVWYQIQVKDELIGWVDQTAVQLSEET	PGPT0018652_83	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-N_ACETYLMURAMOYL_L_ALANINE_AMIDASES,PGPT0018652-yubE-NA	NA	NA
D1-12_02910	1176	hmp_2	COG1017	Flavohemoprotein	ATGCTGGATGAGAGAACAATAGACATCATCAAAAGCACAGTACCCGTATTGAAAACACATGGAGAAAACATCACCGGACGCTTTTATAACCTGATGTTTCAAGATCATCCCGAACTGTTAAATATGTTTAACCAAACGAACCAAAAGAAACAGACTCAGCGCGCAGCATTGGCAAATGCAGTCATTGCGGCTGCGGCGAATATTGATCAATTAGAACAAATCATTCCGGCGGTCAGACAGATCGGCCATAAACACACAAGCATCGGTGTAAAACCGGAACATTATCCGATTGTCGGAAAGTATCTGCTTCTGGCAATTAAGGATGTGCTGCAGGATGCCGCAACTCCTGAGATTATGCAGGCATGGGAAAAAGCTTACGGTGTTATTGCGGAGGCTTTCATCGGCATTGAACAAGACATGTACAATGAAGCCGGATGGCAGGGGTATAAAGAATTTACGGTTATACAGAAAACGAAAGAAAGCAAAGATATTACATCATTTTATATCAAACCGAGTGACGGCTCTTCGCTTCCTGGATTTGAAGCGGGACAATATATCAGCATTAAAGTGCGGATTGCGGATTCTCCTTATACGCACATTCGCCAGTACAGCCTGTCTGATGCTTCTCAAAAAGGGGCATATCGGATTTCTGTGAAAAAGGACGGAGCGGTTTCTTCTCATCTCCACAATGAAGTTCAAGAGGGAGATAAACTTGAAGTCAGCGCACCCGCCGGGGATTTCAAGCTGTCTTCTGCCGAAAAACCGGTTGTTCTTATCAGTGCCGGTTCCGGAATCACGCCGATGATGAGCATGCTGAAAACAGCCGCCGAAAAACAGCCGGAACGTTCCGTTACTTTTATTCATGCCGCGAAAAACGGAGAGTACGCCGCGTTCCGCAAAGAGGCTGAACAAGCTGCGGAGAATCATCCGAATATTAACGTCATTTATGTATACAGTGAACCGGCAGAACAAGACCGCTCAGGAGACAAGCCTTTTTACAGCGGCAGGATTGATCAAACCTTCCTGGAGCAGCTTCATCTGAATCAAGATGCTGCATTTTACTTGTGCGGATCAGCGCAGTTTATGACACAAATGAAAGACATGGTTCTTGCCCTCGGGTTTGACTCTGATTCCGTTCAATATGAATTGTTCGGCCCTCAGCTGAGCATGGCATAA	MLDERTIDIIKSTVPVLKTHGENITGRFYNLMFQDHPELLNMFNQTNQKKQTQRAALANAVIAAAANIDQLEQIIPAVRQIGHKHTSIGVKPEHYPIVGKYLLLAIKDVLQDAATPEIMQAWEKAYGVIAEAFIGIEQDMYNEAGWQGYKEFTVIQKTKESKDITSFYIKPSDGSSLPGFEAGQYISIKVRIADSPYTHIRQYSLSDASQKGAYRISVKKDGAVSSHLHNEVQEGDKLEVSAPAGDFKLSSAEKPVVLISAGSGITPMMSMLKTAAEKQPERSVTFIHAAKNGEYAAFRKEAEQAAENHPNINVIYVYSEPAEQDRSGDKPFYSGRIDQTFLEQLHLNQDAAFYLCGSAQFMTQMKDMVLALGFDSDSVQYELFGPQLSMA	PGPT0013000_1697			NA	NA	NA	NA	NA
D1-12_02911	642			hypothetical protein	ATGGTTTCCGATATCGATTACACGTCTCCGAATACACAATTCACTTATGATGTGAATGAGAGCCGTTTTTTTACGAAAGATGCTCGGAACTTTATCAATGTATTGGGGATTAAACAGTTAAACACGCTTGAAAATATTTCATTATTAGATATCTTTCTGAGCAAAACAAATGTGATTGAACCGCATACCCATCAAAACGCCGCTGAATTGGTGTACTGTATTTCGGGTTCCGCGGTGGTGTCGATGCTGAATCCGTTCACCCAGAAAATACGGAATTATCCGATCTCTCCAGGACAAGTGGCGAATGTTCCGCAGGGGTGGTGGCATTATGAAGTCGCCACTTCAGACAAAACCCACCTTTTGGCCATATTTGACGCCCCTTCGCCTGAAGTGATATACGGCTCGGATATTCTCCGTCTGACGCCGCCTGAGATCATGGCGCATACGTACTGTCTGAATGAGCATGAGTGGGAAAAAGCCGTTTCACCGATCCGGCAATCAACTGTGATAGGTCCCGATAAATACTGCGGACAGACTGAAAACACGGGTATTCTTGATATGAATAAGCCTTATCAGCCAAATACGCATTATCCGAATGATCCGTATCGGCATTATGATACGCCGTTATATTGGGGATATTAA	MVSDIDYTSPNTQFTYDVNESRFFTKDARNFINVLGIKQLNTLENISLLDIFLSKTNVIEPHTHQNAAELVYCISGSAVVSMLNPFTQKIRNYPISPGQVANVPQGWWHYEVATSDKTHLLAIFDAPSPEVIYGSDILRLTPPEIMAHTYCLNEHEWEKAVSPIRQSTVIGPDKYCGQTENTGILDMNKPYQPNTHYPNDPYRHYDTPLYWGY				NA	NA	NA	NA	NA
D1-12_02912	321			hypothetical protein	ATGAAAAAGAAAATCTATCTTATATTATCTCTGTCAGCGGCACTGGCGCTTTTTTTGACAGCGCTTCCGGCTCTTTCTCCCGTCATCTTCACGTCTGCTTCAGAAAAAGGAGCCATCAGGCATGACATTTATAAAAAAGGATATCCGTATCAAAGCTACTTTGCGATTCTTCAAAAAGAAGAAGACGGCGGAGAGGCCGGGAACCTTTATTATGTAAATTGGTTCAATTGGAAAGATGAAACCGGACAGACGCCGCACGTATGTTATTCAAAAAAATCGTCCGAAGGCGAGTACAAAGTAAGCTGCGGAACCGGACCGTAA	MKKKIYLILSLSAALALFLTALPALSPVIFTSASEKGAIRHDIYKKGYPYQSYFAILQKEEDGGEAGNLYYVNWFNWKDETGQTPHVCYSKKSSEGEYKVSCGTGP				NA	NA	NA	NA	NA
D1-12_02914	831	uppP	COG1968	Undecaprenyl-diphosphatase	ATGACACTATGGGAGATGTTCACAGCAGCCGTTTTGGGAATCGTGGAAGGGCTGACGGAGTACGCGCCGGTTTCTTCCACGGGACATATGATCATAGCGGATGACATCTGGCTGAAATCCGGAAGCCTGATGAATCCGGAAGCCGCCAATTCCTTCAAAGTGGTGATTCAGCTCGGTTCGATTCTGGCGGTGGCCATTGTGTTTAAGGATCGGATATTACATTTACTCGGCCTCAAAAAAAACGTCACGCGCGATCAGCAGAAGGGATACAGGCTGACCATCGCGCAAATCGCCGTCGGTCTTGTTCCGGCGGCGGTGCTCGGCTTTTTATTTGAGGATTTCATTGACCGCTATTTATTCTCTGTCAGAACGGTAGCTTACGGATTAATTGCCGGAGCCGTGCTTATGCTTATAGCGGACTGGATCAATAAAAGGAAAGAAACGATCGATACGGTGGACAGAATCACCTACAAACAGGCTTTCTGTGTCGGATTATTCCAGTGTCTCGCCTTATGGCCCGGATTTTCCCGCTCAGGCTCAACGATTGCCGGAGGTGTCATTGTCGGCTTGAATCACCGGGCAGCCGCAGACTTCACATTTATTATGGCTATTCCGATTATGGCGGGCGCAAGCCTTCTGAAGCTGGTGAAATACTGGAGCAGTCTTTCTTATGACATGATTCCGTTTTTTCTTGTCGGCTTTATCTGCGCCTTTGTCGTCGCCCTCTTAGTCGTCAAGTTTTTTCTTCGGCTCATCAATCGGATTAAGCTTGTCCCGTTCGCCATTTACCGTGTCATCCTCGGCATCATTTTAATCATGCTCGTGCGATAA	MTLWEMFTAAVLGIVEGLTEYAPVSSTGHMIIADDIWLKSGSLMNPEAANSFKVVIQLGSILAVAIVFKDRILHLLGLKKNVTRDQQKGYRLTIAQIAVGLVPAAVLGFLFEDFIDRYLFSVRTVAYGLIAGAVLMLIADWINKRKETIDTVDRITYKQAFCVGLFQCLALWPGFSRSGSTIAGGVIVGLNHRAAADFTFIMAIPIMAGASLLKLVKYWSSLSYDMIPFFLVGFICAFVVALLVVKFFLRLINRIKLVPFAIYRVILGIILIMLVR	PGPT0024165_863	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
D1-12_02915	1161			hypothetical protein	GTGGAAACATTGCAAACATGGGGCGGCAGATTTAAACAGTTTTTCTTAGACAATAAATTTGTCTTGTTTTTGCTTGTATTGCTGCTCATCGGTCTCAATATCCTTGTCTTTATGAAGACATCATTTATTTTCACACCTATTATCGTCCTGCTCAAAACGATTGCGCTCCCCGTCATTTTGACAGGAATTGTTTATTATCTGCTTAATCCGATCGTAGATATATTGGAAAAAATAAGAGTGAAAAGAGTCTATTCCATCCTGCTCCTTTACCTCATTATTATAGGGCTGATTTCGATTACGATCGTTTCGATTATTCCGTTTTTAAAGGAACAGATCATGAGTCTGATCGACAATCTGCCGAAATATGTGGATATTGTTGAAGATCAGACGAAAAGCATGATCGGAAGCGATTTTGTAAATCAGGCGCAAAAGACGATGAATATCAACATTTCCGATCTTGCTAATAAAGTATCGGCGCAGGCTGCAACAATTGCAAACAGCACATTTACCGGAGTCGGGAATTTTATCGGCGCGCTGACGGAAGTGATTATTTCAATTGTGACCGTGCCGTTTATTCTGTTCTATTTGCTGAAAGACGGCAAAAAACTGCCAATCTATATCTTAAAGTTTGTGCCCACCCGTCTGAAAGAACAAACGTATACGATGCTTAGTGAAATGAACCACAGATTAAGCTCCTATATCAGAGGACAGGTCATCGTCAGCTTCTGCATCGGATTTTTATTATTTATCGGCTATCTGATTATCGGACTTGATTATGCGTCACTGCTTGCGGTCATTGCCGCTTGTACGAGCGTTGTTCCGTATTTAGGGCCGACCATTGCCATCACGCCGGCGATTATTATCGCGTTGGTCACTTCGCCTCTGATGTTGCTGAAGCTTGCGATTGTATGGACCGTTGTCCAGCTCGTGGAAGGAAAATTAATTTCGCCGCAGATCATGGGGAAAAATCTTCACATTCACCCGATTACCATCATCTTTGTTCTTTTAACCGCCGGAAAGCTGTTCGGGGTTGTCGGCATTATTTTAGCCATCCCGGGGTATGCGGTCATCAAAGTGGTCACGACCCATCTGTTTGATTGGTTCAAAATGCGTTCGCATTTATATGAAGAAGAAAAAAATGATGCTGTATCGAAGTCATAA	METLQTWGGRFKQFFLDNKFVLFLLVLLLIGLNILVFMKTSFIFTPIIVLLKTIALPVILTGIVYYLLNPIVDILEKIRVKRVYSILLLYLIIIGLISITIVSIIPFLKEQIMSLIDNLPKYVDIVEDQTKSMIGSDFVNQAQKTMNINISDLANKVSAQAATIANSTFTGVGNFIGALTEVIISIVTVPFILFYLLKDGKKLPIYILKFVPTRLKEQTYTMLSEMNHRLSSYIRGQVIVSFCIGFLLFIGYLIIGLDYASLLAVIAACTSVVPYLGPTIAITPAIIIALVTSPLMLLKLAIVWTVVQLVEGKLISPQIMGKNLHIHPITIIFVLLTAGKLFGVVGIILAIPGYAVIKVVTTHLFDWFKMRSHLYEEEKNDAVSKS				NA	NA	NA	NA	NA
D1-12_02916	987	iolU	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGATTCGATTTGCAACAGTCGGAACGAATTGGATTACAGAACGATTTCTGGAGGCGGCTTCTGCTATTGATGATTTTCAATTAACGGCGGTTTATTCCAGAACTGAGGAACGTGCGGCGGAATTCGCCGGCAAACACGGCGCTGCTCATTATTTCACCAGCCTGAAAGAAATGGCGGAAAGCAAAGCCTATGACGCGGTGTATCTCGCCAGCCCGAATGCATTTCACAAAGAGCAGGCGGTCCTTTTTATGGAACACGGCAAGCACGTACTGTGCGAAAAACCGTTTGCGTCTAACGCAAGGGAAACGGATGAAATGATTCACGCAGCCAAAACGAACGGCGTTCTCTTGATGGAAGCCATGAAAACAACGTTCCTGCCGAACTTCAGCATGCTTCAAAACCACTTACATAAAATCGGACCCGTCAGGAGATTCACGGCAAGCTACTGCCAATATTCATCACGATATGATGCATATAAAAACGGTACGGTGCTAAACGCGTTTAAGCCTGAATTATCGAACGGTTCGTTAATGGACATCGGCGTGTACTGCATTTATCCGGCCGTCGTCCTGTTCGGCAAACCGAAAAACGTCATTGCGACCGGTCATAAACTAGCATCCGGCGTTGACGGCGAAGGCACAGTCATTCTGTCATACGACGGATTTGAAGCGGTGCTGATGCATTCGAAAATCTCAAATTCGTTTGCCCCGGCGGAAATTCAGGGTGAGGACGGCACGATCGTGCTGGACAGCATTCACGGGCCGGAACGGGCGGAAATCCGCTATCGTGACGGACGGACGGAAGACATTTCAGTCCCTGATCTGAAACCGTCGATGTACTACGAAACGGCTGAATTCATCAATCTTCTTCGAAACGGACAGCGGGAGTCTTCCGAAAATACATTTGAACGTTCTTTCATTACGGCAAACATTATGGAAGAAGCGAGAAAACAAATCGGAATTGTCTTTCCCGCCGATCAAAACTAA	MIRFATVGTNWITERFLEAASAIDDFQLTAVYSRTEERAAEFAGKHGAAHYFTSLKEMAESKAYDAVYLASPNAFHKEQAVLFMEHGKHVLCEKPFASNARETDEMIHAAKTNGVLLMEAMKTTFLPNFSMLQNHLHKIGPVRRFTASYCQYSSRYDAYKNGTVLNAFKPELSNGSLMDIGVYCIYPAVVLFGKPKNVIATGHKLASGVDGEGTVILSYDGFEAVLMHSKISNSFAPAEIQGEDGTIVLDSIHGPERAEIRYRDGRTEDISVPDLKPSMYYETAEFINLLRNGQRESSENTFERSFITANIMEEARKQIGIVFPADQN				NA	NA	NA	NA	NA
D1-12_02917	525	yraA_2	COG0693	Putative cysteine protease YraA	ATGAGATTAGAAGGCAAAAAAGTCATAGCGCTTGTCAGTGACGATTTTGAAGACCTAGAGCTTTGGTATCCCGTCTACCGGCTGAGAGAGGAAGGCGCGATCGTTCATTTAATAGGAGAAGAAGCGGGCCGTTCATACAAAGGAAAATACGGCGTGCCCGCGACGGCGGATTACGATTTTAAGAGCCTGATTATTCAGGAGTATGATGCCGTGCTCGTGCCTGGCGGCTGGGCTCCTGACAAACTGCGAAGATATCCCGAAGTTTTGGAGATCATCCGTACGATGAACGAGCAGAAAAAGCCGATCGGCCAGATCTGCCATGCGGGCTGGGTGCTCATATCTGCCGGAATTCTCGCAGGAAAAAAAGTAACGAGCACGCCCGGCATCAAAGACGACATGACAAATGCAGGGGCACAGTGGCTGGATGAAGCTGTCGTAACTGACGGCCACATTGTATCAAGCCGCCGCCCGCCCGACCTTCCGCAGTATGCAAAAGCGTTTGCTGACCTGTTAGCGTCCAAATAA	MRLEGKKVIALVSDDFEDLELWYPVYRLREEGAIVHLIGEEAGRSYKGKYGVPATADYDFKSLIIQEYDAVLVPGGWAPDKLRRYPEVLEIIRTMNEQKKPIGQICHAGWVLISAGILAGKKVTSTPGIKDDMTNAGAQWLDEAVVTDGHIVSSRRPPDLPQYAKAFADLLASK	PGPT0015010_2830	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
D1-12_02918	2007	mcpA_1	COG0840	Methyl-accepting chemotaxis protein McpA	ATGAAACAACTGATACATTGGATCAAACAGCCATCCATCAGCAAGCCGCTGATCGCGGCATTTTTAGCCGTATTGGTGCTCCCGGTCGGCATACTCGCCTACTTCAGCTACCAAACGGCGGGGAATTCACTAGAAAGCGAACTGACCCACAGCGCTCAGGGAAATGTCAGCGAACTGAACAGCGTGCTGGAAAACATGCTCGAAGGCAAGCTCAAAGCGATTGACTACTACAGCGAATCAATCACTAAGGAAAAACTGAACACAAAAAATAAATCGGTACTGCTCGACAATATGAAGCAGTATGTCACCGTAAATGACGATGTCGCGTCAATTTACGCCGCGTCTCGCGACAAAGCGTTCGTGAAATATCCGTCCGCTGATATGCCGTCCGATTATAATCCGCTCACGCGCGAGTGGTATACAAAAGCGGTTGAAAAAAGCGGACAGCCGGTGTTTACCGAGCCTTATAAAGACGCTGCAACCGGACAGACGGTCGTTACGATTGCCCAGCAGACAAAAGACGGATCAGGCGTTGTGGCGCTTGATATTAATCTTGGCGACCTGCTGAACGCTTCCGAACGCGTCCAGATCGGTCATAAAGGATTTGCCTTCATTACAACGGGAGATAAAAAATACATCGCCCATCCGACTATAAAAGCGGGAACGGAAGGCTCCGGAGAGTGGACGAAAGAAGTGTTTTCCAAATCAAGCGGATCGTTTGAATACATGTTTGAAGGACAGCAGAAGAAAATGGCCTTCACGACAAACAAACTGACGGGCTGGAAAATCGCCGGTACATTTTTTGTCAGTGAGATCCATGACGCAGCCTCGCCTGTCATGAAAATGGCGCTGATCATCCTGGCGGTTTCTCTTATCGTCGGCGGGGTTTTAATCTTTTTTATCATTCGCTCGATTGCAAAACCGCTCAAAAAACTTGTTTCGACATCAGCTAAAATCAGTGACGGCGATTTAACGGAAGTCATTGATATCAAGTCAAAAAATGAATTCGGGCAGCTCAGCCAAAGCTTCAATGAGATGTCGGCCTCACTCCGGTCTGTCATCGGCGTCATTCAATCATCGGTCGAACATGTCGCTTCTTCATCCGAAGAGCTGACGGCATCTGCCGGACAGACAAGCAAGGCGACAGAGCATATTACACTGGCGATTGAACAATTCTCAAACGGAAACGAATCACAAAGCGAGAAATTGGAAGAGAGTGCTGATCACCTTTCCCAAATGAATGCCGGCATTGCCGAGACGGCGAATGTATCGGCGGAAATCACTGAATCCGCCATCCAAACCTCTGAAACGGCCGGAAGCGGAGAAGAATTAGTGGCGAAAACGGTCGGCCAGATGAAAACAATTGATCGTTCCGTACAGCAGGCGGAAGCGGTCGTAAAAGGGCTGGAAACGAAGTCGCACGACATTAAGAGCATTCTCAACGTCATTAACGGCATTGCCGATCAAACAAATCTGCTTGCCTTAAACGCGGCCATTGAAGCCGCCAGAGCAGGCGAATACGGGCGGGGCTTCTCCGTCGTTGCGGAAGAAGTGAGAAAGCTTGCCGTACAATCAGCCGGCTCCGCGAAGGAAATCGAAACGCTGATTCAGGAAATCGTCAAAGAAATCGCCACATCGCTTTCCGTATTCCAAGCGGTGAATCAAGATGTGAAGGAAGGCCTCGATATTACGGATCAAACGGCCGAAAGCTTCAAAAAAATCTCAGAAATGACGACTCAGATTTCAGGCGCCTTGCAGCATATGAACGGAACGCTTGAGAAGCTTGCAGCCGGGTCGCAAAATGTGACAAACGCGGTGGAGGACATTACCTCAGTCGCCAAAGAAGGGTCCGCCGGCATTCAAGACATCGCCGCCTCAGCTGAAGAGCAGCTGGCCTCCATGGAAGAAATCAGTTCATCCGCCGAAACGCTTGCGCATATGGCTGAAGAACTGCAGCAGGTCACACGGAAATTTACGATTCAGTCTGAAGACGAAGAACAGCTGTAA	MKQLIHWIKQPSISKPLIAAFLAVLVLPVGILAYFSYQTAGNSLESELTHSAQGNVSELNSVLENMLEGKLKAIDYYSESITKEKLNTKNKSVLLDNMKQYVTVNDDVASIYAASRDKAFVKYPSADMPSDYNPLTREWYTKAVEKSGQPVFTEPYKDAATGQTVVTIAQQTKDGSGVVALDINLGDLLNASERVQIGHKGFAFITTGDKKYIAHPTIKAGTEGSGEWTKEVFSKSSGSFEYMFEGQQKKMAFTTNKLTGWKIAGTFFVSEIHDAASPVMKMALIILAVSLIVGGVLIFFIIRSIAKPLKKLVSTSAKISDGDLTEVIDIKSKNEFGQLSQSFNEMSASLRSVIGVIQSSVEHVASSSEELTASAGQTSKATEHITLAIEQFSNGNESQSEKLEESADHLSQMNAGIAETANVSAEITESAIQTSETAGSGEELVAKTVGQMKTIDRSVQQAEAVVKGLETKSHDIKSILNVINGIADQTNLLALNAAIEAARAGEYGRGFSVVAEEVRKLAVQSAGSAKEIETLIQEIVKEIATSLSVFQAVNQDVKEGLDITDQTAESFKKISEMTTQISGALQHMNGTLEKLAAGSQNVTNAVEDITSVAKEGSAGIQDIAASAEEQLASMEEISSSAETLAHMAEELQQVTRKFTIQSEDEEQL	PGPT0015710_6411	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
D1-12_02919	1986	mcpA_2	COG0840	Methyl-accepting chemotaxis protein McpA	ATGAAAAAAATTGTGCAAATCATCAAGCAGAGATCGCTTACAAGAAAACTGCTCATTTCTTTTTTGGCCATTCTCATTCTTCCTATTTCAACGCTGGCTTTTATCGCCTATCAATCGGCGGTAAGCACGCTTGACAGGCAGATGATGGGAAGCGCATTAGATAATGTGCAGCAGATTAACGATATGATCAACACAAGCATCAGCCAAAAGGAAGACGGAACGGCATATTTCAGCGATTGGCTCACAAAGGATCGGTACAAGCCGAAAAACCAATCGCAAATTACCGATAAATTCACAGAGTACATGAAGATCAATAAAGACGTGGAATCCATTTTTACGAGTGACACGGAAGGACATTTCACACGGTATCCGGATCTGCAGATGCCTAAAGGATATAATCCGATTGAAAGAGACTGGTATAAAAAGGCCGTGGAAAATAAGGGGAAAGTTGTTGTAACAGATCCTTACCGCACGGCTTCCACCAATACGATGGTCGTGACGGTCGTTCAGCAGACGAAAGACGGCTCAGGAGTCGTCGCCATCAATATGAAAATCGATGAGCTTCTGAAAACGACAAAGAAAGTGAACATCGGAAAATCCGGCTACGCTTTTATCCTGACGAAAGACAAAAAAGTGGTCGCCCACCCGAACCGCACATCAGGCACAGTATTAAACGGGGAGTGGGCCGAACGGCTGTTCACCAGCAAAAAAGGTGATTTTCAATACAAATACGACGGCCAGGAAAAGAAAATGGTTTATGATACGAACAAGCTGACAGGCTGGAAGATTACCGGAACGATGTATCTGGACGAAATTCATGAAGCGGCCCTGCCGATTCTTCATCTGTCCCTGCTCGTTCTCGTATTAGCGATTGTGATCGGAACCATCGTCATGGTGCTGATTATCCGTTCAATCACAAAACCGCTCAAGCAGCTTGTGACATCATCGAAACAGATCAGTGAAGGCGATTTAACAGAAACGATCGAGATCCAGTCAAAAGATGAATTAGGCGAGCTTGGCAAAAGCTTTAACAATATGGCCGCTTCGCTCAGGTCTCTCATCCATGCCATCCAGGATTCCGTGAATAACGTCGCATCTTCCTCAGAGGAGCTGACGGCTTCAGCGGAGCAGACAAGCAAGGCAACCGAACATATCACATTGGCGATCGAACAATTTTCTAACGGAAATGAAAGCCAAAGTGAAAATATTGAAAGCGCGGCGGAACATATTTACCAAATGAACAGCGGGCTTGAAGATATGGCGAAAGCATCTGCCGTCATTACCGAATCCTCCGCCACATCAGCGGAAGTCGCCAATTCAGGCGGAAAGCTCGTCCACCAGACGGTCGGCCAAATGAACGTCATTGACCGGTCAGTGAAAGAAGCTGAACAAGTGGTGCGCGGACTTGAAACAAAATCAAAAGACATTACAAACATTCTCCGTGTCATTAACGGAATCGCTGATCAGACAAACCTTCTTGCGCTGAACGCGGCAATTGAAGCCGCGCGTGCGGGTGAATACGGCCGGGGCTTCTCAGTCGTCGCCGAAGAGGTCAGAAAACTTGCGGTCCAGTCTGCCGATTCAGCGAAAGAAATCGAAAGCTTAATTATAGAAATCGTCAACGAAATCAATACATCTCTCGGCATGTTCCAATCCGTCAACAAAGAGGTGGAGAGCGGACTGGATATTACGAACCAGACCGAAACGAGCTTCAAACGGATTTCTGAAATGACGAACCAGATCGCCGGAGAAATTCAAAATATGAATGCGACGGTAGAACAGCTGACAGCAGGATCTCAGCAGATTTCAGGAGCTTCTGAGCAAATCGCGTCCATCGCAAAAGAAAGCTCCGCCAGCATTCAGGATATTGCGGCCTCCGCCGAAGAACAGCTGGCTTCAATGGAAGAAATCAGTTCGTCTTCGGAAACGTTATCCCAAATGGCGGAAGAATTACGTGATATGACGAAACGATTTAAAATAGATTAA	MKKIVQIIKQRSLTRKLLISFLAILILPISTLAFIAYQSAVSTLDRQMMGSALDNVQQINDMINTSISQKEDGTAYFSDWLTKDRYKPKNQSQITDKFTEYMKINKDVESIFTSDTEGHFTRYPDLQMPKGYNPIERDWYKKAVENKGKVVVTDPYRTASTNTMVVTVVQQTKDGSGVVAINMKIDELLKTTKKVNIGKSGYAFILTKDKKVVAHPNRTSGTVLNGEWAERLFTSKKGDFQYKYDGQEKKMVYDTNKLTGWKITGTMYLDEIHEAALPILHLSLLVLVLAIVIGTIVMVLIIRSITKPLKQLVTSSKQISEGDLTETIEIQSKDELGELGKSFNNMAASLRSLIHAIQDSVNNVASSSEELTASAEQTSKATEHITLAIEQFSNGNESQSENIESAAEHIYQMNSGLEDMAKASAVITESSATSAEVANSGGKLVHQTVGQMNVIDRSVKEAEQVVRGLETKSKDITNILRVINGIADQTNLLALNAAIEAARAGEYGRGFSVVAEEVRKLAVQSADSAKEIESLIIEIVNEINTSLGMFQSVNKEVESGLDITNQTETSFKRISEMTNQIAGEIQNMNATVEQLTAGSQQISGASEQIASIAKESSASIQDIAASAEEQLASMEEISSSSETLSQMAEELRDMTKRFKID	PGPT0015710_7447	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
D1-12_02920	1989	mcpA_3	COG0840	Methyl-accepting chemotaxis protein McpA	TTGAAAAAAACAGCAAAAAAAATCGCCAGAAAATCAATAGCCAAAAAACTTATCATTTCATTTTTACTGATCTTAATTATTCCGGTAGCAGTATTGGCTGCCGGCGCCTACCGTTCGGCGGCTTTATCCGTTGAAAAGCAAATGATGGAAAGCGCCGAAGGAAATGTGCAAATCTTAAACAATATGATTGATGACCGGATCGGAATGTTTACAAAAAGCTCAGCATATTTCAGCGAATGGGCGACAAGCGCTAAATTTAAAGAAAAAAAACAAACGGAAATGCAAGAAAGGTTCAAACAGTTTATTGAAAGCAATGATAAAGCGTCCGCCATATTTTCAAGCAGCAAGGAAGGAACGTTTACCCGTTATCCGCATGCCGATATGCCGGCCGATTTCAATCCGCTTGAAAGAAGCTGGTATCAGGAAGCCATGGAGAATAAAGGCCAAACCATCATCACGGACCCTTATGAGTCCATCTCAAACAAAAAGATGGTCGTCACCATGGCCCGCGCGGCGCAAGACGGATCAGGCGTCGTCGCCATTGATATAAAAATCGACGATCTCATCACGATGACAAAAGAAGTGAACATCGGAAAAGAAGGATACGCCTTTATCCTCAGCAAAAATAAAAAAGCCGTTGCCTACAGTGATGAAAAAGCCGGCTCGGCGGTATCGGGAAAATGGGTTGATACATTATACAGCGGGCAAAAAGGCGTCTATGAATATACGCTGAACGGGAAAGCGAAAAAAATGGCGTACGTGACCAATGAAGCGACGGGCTGGAAGATCAGCGGAACCATGTCTGTGGATGAAATCAAAGATGCGGCAAGACCGGTTCTGACTCTGGCCGTTATCATATTGGCGATAGCCATTGCCGCAGGGATGATTTTCATTTATTTTGTCATCCGCTCAATTACCAAACCGTTAAAACATCTCGTAGCTTCAGCGGAAAAAATCAGCAGCGGAGATCTGACGGAAACCATTGATGTCAGCTCTCAAGATGAGCTCGGCGTGCTCGGTAAAAGTTTTAATCATATGACAGATTCACTCCGTTCGCTTATTCAGGGAATTCAGGACTCTGTTGAACATGTCGCTTCTTCCTCAGAGGAGCTGACGGCTTCGGCTGAGCAGACGAGCAAAGCAACGGAACATATCACCCTTGCGATTGAACAGTTTTCTAATGGAACGGAAGACCAAAGTGAGAGTATTGATAAAGCGACAGCCCAAGTGAATGAGATGAAAGACGGGCTCAGCGATCTGGCGGAAGCGGCAGCCGTGGTGACGGAAACTTCAATTGAATCGGCGGAGATATCCGGCACCGGTGAGCGGCTTGTCAAGAAAACAGCCGGCCAGATGGGCGCCATTGACCAATCCGTAAGCAAAGCGGAGCAAGTCGTACAAGGGCTTGAACTCAAATCGCAGGACATCAACAGCATTTTGCGCGTCATTAACGGCATTGCCGATCAAACGAATCTCCTTGCTTTAAATGCAGCCATTGAAGCGGCAAGAGCGGGAGAATACGGACGCGGTTTTTCAGTCGTTGCCGAAGAAGTGAGAAAGCTTGCCGTCCAATCCGCCGATTCAGCGAAAGAAATCGAATCCTTAATTCATGAAATCGTCAAAGAAATTCATACTTCGCTCGGAATGCTGGAATCCGTCAATCACGAGGTGAAAAGCGGACTTCAGTTAACGGACGAAACGGAAAAAAGCTTCCGGGACATTTCCGTTAAAACAAATCAGATTGCCGGTGAACTGCAAAATATGAATGCAACCGTGGAACAGCTTTCTGCCGGATCTCAGGAAGTATCTAACGCTTCAGAGGATATCGCGGCCGTCTCCAGACAAAGCGCGGCCGGCATTCAGGACATCGCGGCTTCAGCTGAAGAGCAGCTTGCGTCCATGGAGGAAATCAGTTCCTCCGCCGTCACGCTGGAAAAAATGGCGGAAGAATTACGCGAACTGACAAAGCGTTTTAAGATAAACTCTTAA	MKKTAKKIARKSIAKKLIISFLLILIIPVAVLAAGAYRSAALSVEKQMMESAEGNVQILNNMIDDRIGMFTKSSAYFSEWATSAKFKEKKQTEMQERFKQFIESNDKASAIFSSSKEGTFTRYPHADMPADFNPLERSWYQEAMENKGQTIITDPYESISNKKMVVTMARAAQDGSGVVAIDIKIDDLITMTKEVNIGKEGYAFILSKNKKAVAYSDEKAGSAVSGKWVDTLYSGQKGVYEYTLNGKAKKMAYVTNEATGWKISGTMSVDEIKDAARPVLTLAVIILAIAIAAGMIFIYFVIRSITKPLKHLVASAEKISSGDLTETIDVSSQDELGVLGKSFNHMTDSLRSLIQGIQDSVEHVASSSEELTASAEQTSKATEHITLAIEQFSNGTEDQSESIDKATAQVNEMKDGLSDLAEAAAVVTETSIESAEISGTGERLVKKTAGQMGAIDQSVSKAEQVVQGLELKSQDINSILRVINGIADQTNLLALNAAIEAARAGEYGRGFSVVAEEVRKLAVQSADSAKEIESLIHEIVKEIHTSLGMLESVNHEVKSGLQLTDETEKSFRDISVKTNQIAGELQNMNATVEQLSAGSQEVSNASEDIAAVSRQSAAGIQDIAASAEEQLASMEEISSSAVTLEKMAEELRELTKRFKINS	PGPT0015710_7278	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
D1-12_02921	1986	mcpB	COG0840	Methyl-accepting chemotaxis protein McpB	ATGAAAAAATTCATTAATTGGTGCACAAAGGCATCGATTTCACGTAAATTAATCATTTCATTTATCGTGATCTTAATCATACCGATTCTCGTGTTAGAATTCAGTTCATACCATACGGCGAGCAATTCGCTGGATGATCAGATTTCAGGCAACGCGAAAAATAACATCGAATCTTTTAACACAACGATTACAAATGATATCGGCGCAAAAGCAAAGGCGATTGAATTTTTCAGTGAAACGTTAAAAGGGTCATCCTTCTCAAAGAAAAACATGTCTGCTCTTGAAGAAAAGTTCGGGCAATACACGTCTATTCATAAGGACGTAGCCCGCATTTACGGAGGAACGGAAGACGGCAGCTACGCACAGGCGCCGAAGGAGAATACTCCGGCCGATTACGATCCGAGAACACGCACTTGGTATAAAGACGCTGTGAAGGCCGGCGGCACGCTCGTTGTCACCGACCCTTACACCGCGGCAAGCGACGGCAGGATGGTCGTCACCGTGGCAAAGCAGATGCAGGACGGAACAGGCGTAGTGGCCATGGATATTACGATTGACCAGCTGCTGAAGCAGATGCAGGGAATCAAAATCGGGCAAAAAGGCTTCGTGTTTATCACGTCCAAAAATAAAACCTATGTCGCGCATAAAGACCACAAACCGGGCGATAAAGTTTCAACCCCGTGGCTGAATGAGGTATACAGCAAAGACAGCGGCATTATTTCATACAAGCTCGATGATCAAAATAAAAAAATGGCGTTTACGACAAATAAACTGACCGGATGGAAAATAGAAGGGAGCATGGAGCTCAACGAAATTAAAGACGCCTCACAACCGGTGCTGACGATGGGAATGATCGTCCTTGCAGCATCCATTATCATCGGGGGCATTTTAATTCTGTTGATTGTCAGATCCATTACGTCACCGCTGAAACGGCTTGTCCGCTCTTCTAAACAAATCAGCGGCGGAGACTTGACTGAAACCATTGATATCCGCTCGAAAGATGAATTGGGCGAACTCGGCGCGAGCTTTAATGAAATGGGAGAATCTCTGCGCGGACTGATCAGCGCGATCCAAAACTCTGTCGACAACGTGGCCGCGTCATCGGAAGAGCTGACCGCTTCAGCTTCGCAGACAAGCAAAGCGACGGAACATATTACAATGGCCATTGAGCAGTTCTCAAATGGAAACGAAGAGCAAAGCGAAAAAGTCGATTCAAGCTCAGCCAAGCTGAATCATATAAATGACGGACTCGCCGCCGTTTCCCGCACATCATCATCCATTACGGAAGCATCTAAACAATCGAAGGAAGCTGCCGGCACCGGGGAAGAATATGTGCAGCAAACCGTCGGGCAGATGAATCTCATCAATCAATCGGTCCAGCAGGCGGAAGCGGTTGTAAAAGGTCTTGAGGCCAAATCAAAAGACATCACTCATATTTTAAGAGTCATCAACGGTATTGCCGATCAGACAAACCTGCTTGCTTTAAATGCAGCCATTGAAGCGGCAAGAGCGGGTGAATACGGGCGGGGCTTTTCAGTGGTTGCGGAAGAAGTGAGAAAGCTTGCCGTCCAATCCGCCGGTTCTGCCAAAGAGATTGAAAAACTCATTCAGGAAATCACGGCTGAGATTAATACATCGCTTCACATGTTCACATCCGTTAATGAAGAAGTTCAATCCGGACTTGCCGTAACGGACCGCACGAAAGAAAGCTTCCAGAATATCTTCGGCATGACGAACGACATCGCCGAGAAGCTTCAATCGATGAACGGCACGGTTGAACAGCTGTCAGACAGCTCTCAGCACGTTTCAGCTGCAGTGACGGATATTGCGGACGTATCACGGGAAAGCGCAGCAAGCATTCAGGATATTGCCGCATCCGCAGAAGAACAGCTTGCATCAATGGAAGAAATCAGCACATCCGCCGATACGTTGGCGCAAATGGCCGAAGAACTGCGGGAATTAACGAAACAATTTAAAATCAACTAG	MKKFINWCTKASISRKLIISFIVILIIPILVLEFSSYHTASNSLDDQISGNAKNNIESFNTTITNDIGAKAKAIEFFSETLKGSSFSKKNMSALEEKFGQYTSIHKDVARIYGGTEDGSYAQAPKENTPADYDPRTRTWYKDAVKAGGTLVVTDPYTAASDGRMVVTVAKQMQDGTGVVAMDITIDQLLKQMQGIKIGQKGFVFITSKNKTYVAHKDHKPGDKVSTPWLNEVYSKDSGIISYKLDDQNKKMAFTTNKLTGWKIEGSMELNEIKDASQPVLTMGMIVLAASIIIGGILILLIVRSITSPLKRLVRSSKQISGGDLTETIDIRSKDELGELGASFNEMGESLRGLISAIQNSVDNVAASSEELTASASQTSKATEHITMAIEQFSNGNEEQSEKVDSSSAKLNHINDGLAAVSRTSSSITEASKQSKEAAGTGEEYVQQTVGQMNLINQSVQQAEAVVKGLEAKSKDITHILRVINGIADQTNLLALNAAIEAARAGEYGRGFSVVAEEVRKLAVQSAGSAKEIEKLIQEITAEINTSLHMFTSVNEEVQSGLAVTDRTKESFQNIFGMTNDIAEKLQSMNGTVEQLSDSSQHVSAAVTDIADVSRESAASIQDIAASAEEQLASMEEISTSADTLAQMAEELRELTKQFKIN	PGPT0015710_7557	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
D1-12_02922	738	tgl		Protein-glutamine gamma-glutamyltransferase	ATGATTATCATATCCGGCCAAGTGCTTCGGCCTCAGGACATCGCGAACTGGCAGACGGAAGAAAGCCTTGTTCCGTATATAAATGAACTGCTCAATTCTCCCGTACAATTCGATTACGGGTCGATTGCTGAACTGATGTTCGAGGTGCGGCTGCGCCGCCATATTGTGGAAGCCGCAAGAGAACTGCACGGATCAGGTGTGAAATTTGCAACTTTCGCCAAAACATACGGAAATACGGCTTATTGGAGAGTGACGCCGGAAGGAGCCTTGGAGCTGAAGTACAGAATCCCCGCTTCAAAAGCGATTCGGGACATTATTGAAAATGGGGCGTTTTACGCATTTGAATGCGCTACCGCCATTGTTGTAATTTATTATCTGGCCGTCTTAAAGACAATGGGTGAAGAACGGTTTAACCGGCGTTTCCGGGATATCACTTTGTATGACTGGCACTATGAGCATCTGCCGATCTACACGGAAACCGGCAGCCACTTTTTACGGGGAGATTGTTTATATTTTAAAAATCCTGATTTTAATCCTGCAAAGGCTCAGTGGCGGGGAGAGAATGTCATTGTGATGGGGAATGATCAATATTTCGCCCACGGTCTCGGGATTCTGACGGCTGAACAAATCATCCAGAGATTGAATTCTTTAAGAAAAAAAAATGCCGTGCAGCCGGCTTATCTGCTTAACCAGGCAACAAGGCTTGATGCACCCGCGCTTTATCAGATCATGCATTAA	MIIISGQVLRPQDIANWQTEESLVPYINELLNSPVQFDYGSIAELMFEVRLRRHIVEAARELHGSGVKFATFAKTYGNTAYWRVTPEGALELKYRIPASKAIRDIIENGAFYAFECATAIVVIYYLAVLKTMGEERFNRRFRDITLYDWHYEHLPIYTETGSHFLRGDCLYFKNPDFNPAKAQWRGENVIVMGNDQYFAHGLGILTAEQIIQRLNSLRKKNAVQPAYLLNQATRLDAPALYQIMH	PGPT0024948_147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024948-tgl-K00686	NA	NA
D1-12_02923	255			hypothetical protein	ATGATGAAGATTCTTCAAATGTCCTACAAAAAAAGAGGGACTATTGAGTTTGTCTTTGAAGATTTTCCGCATTCCAAAGTCACCATGGCGCCGATTAAAGGGTATTACTTTGTCCGCGCCATTAAATGGAGCCGACGGGACAGAGCCGTCACCCGACATGATTTAGAGAAGTTTGAATGGGCTGTAAACCAAGCGCTCGGCACGACGGCTTTTTACCGGAAAAGAAAAGCATTCCGCATCCCATCGTCAAAATGA	MMKILQMSYKKRGTIEFVFEDFPHSKVTMAPIKGYYFVRAIKWSRRDRAVTRHDLEKFEWAVNQALGTTAFYRKRKAFRIPSSK				NA	NA	NA	NA	NA
D1-12_02924	1032	pnoA		Nitronate monooxygenase	ATGAGTGAGTGGATGAGTGCATTATCATTAACAAAGCCCGTCATTCAGGCGCCGATGGCCGGCGGGCTGGTCACGCCGCGTCTGGCTTCGGCGGTATCAAATGAAGGGGCGCTCGGAAGCCTCGCTTCAGGATACGTCAGCCCGCAAGCGCTTGAAAAACAGCTTATCGAGATGAAAGAGCTGACGGACCGCCCCTTTCAAGTAAATCTTTTCGTCCCGGAAGAAAGGCAGATGCCTGAGGCGGAACTGGTTGAAAAATGGAAAGCCCGCATCCCGAGGGCAAAAGACGCCAAGCCGTTCTCTGATCTGAAAGAAGAATGGAATGATTTCGAGGAAAAAGCGGAGCTTCTGATCCGTTACGGAGTCAAAGCGTGTTCATTCACCTTCGGCCTGCCGCCGGAAGAAACGGCGGAAAAGCTGAAGAAAAGCGGTTGTTTCCTTTTCGGCACGGCGACAACGCCGGAGGAAGCGAAGGCTTTTGAAGAACGGGGGATGGACGCCGTTATCCTTCAGGGAATAGAAGCCGGCGGACATCGCGGGTCGTTTCTGCCGGTTAAAGGAGAACCGGCTCTCGGCCTTATGGCGCTGATTCCGCAGGCTAAAGACGCGCTGAATATCCCGGTCATTGCGGCAGGCGGCATTTTTGACCGCCGCGGCGTGCAGGCGGCCCGATGTTTGGGTGCAGACGGCGTTCAAGTAGGAACACCGTTTCTCCTTTGTGAAGAAAGCAGCGCCTCACCGGCATATCAAAAAGCGATTGCCGAATCAAAAGGAGCCGACACGCGGCTGACCACCCTGTTTTCGGGAAAACAGGCGCGGGGAATCGTGAATCAGTTCATGAAAACATATGAGGCTGACGAGGGAAATACGCTGCCTTATCCGCTGCATAATACGCTGACAAAGCCGATGCGCGGGCACGCGGCTCAATCAGGAGACGCGGAGTATATGTCTTTATGGGCCGGCCAGTCCGCCGCGAAACTTGAAGGGCCGACAGACGTGAAAACCGTTTTGGACGGATTGTGCGAATCATAA	MSEWMSALSLTKPVIQAPMAGGLVTPRLASAVSNEGALGSLASGYVSPQALEKQLIEMKELTDRPFQVNLFVPEERQMPEAELVEKWKARIPRAKDAKPFSDLKEEWNDFEEKAELLIRYGVKACSFTFGLPPEETAEKLKKSGCFLFGTATTPEEAKAFEERGMDAVILQGIEAGGHRGSFLPVKGEPALGLMALIPQAKDALNIPVIAAGGIFDRRGVQAARCLGADGVQVGTPFLLCEESSASPAYQKAIAESKGADTRLTTLFSGKQARGIVNQFMKTYEADEGNTLPYPLHNTLTKPMRGHAAQSGDAEYMSLWAGQSAAKLEGPTDVKTVLDGLCES	PGPT0006800_2767	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
D1-12_02925	423			hypothetical protein	ATGCTGAAAAAATTGCAGATTCAAACAAACAGACGGGATGAAATGATCGACATCACACATGAAGCTGAAGCGTTTCTCCGCAAAACAGGCGTGAAAAACGGTTTGGCGCTCATATACTGTCCCCATACAACCGCCGGCATTACCATAAATGAAAATGCCGATCCGGATGTGAAGAGGGATATGCTCAGAAGGTTTGATGAAATGTATCCGTGGGAGCACGAACTGGACCGGCATATGGAGGGAAATACGGCGGCACATATGAAAGCGAGTACAACCGGCGCCTCCCAGCATGTCATCATAGAAGACGGGCGCCTGATACTCGGAACATGGCAGGGCGTTTATTTTTGCGAATTTGACGGTCCGCGAAACAGAACCTGTTATATCAAAATACAGGCTGAAACGGAGGAAAACACAAATGAGTGA	MLKKLQIQTNRRDEMIDITHEAEAFLRKTGVKNGLALIYCPHTTAGITINENADPDVKRDMLRRFDEMYPWEHELDRHMEGNTAAHMKASTTGASQHVIIEDGRLILGTWQGVYFCEFDGPRNRTCYIKIQAETEENTNE	PGPT0006800_41	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
D1-12_02926	1659	malL_1	COG0366	Oligo-1,6-glucosidase	ATGAAAACGGATTGGTGGAAAACGGCGGCCGTCTATCAAATTTATCCCCGAAGCTTTATGGATTCGAACGGGGACGGAATCGGCGACATGAACGGCATCAGAGCAAAGCTTCATTACATAAAAGAGTTGGGGGCGGATGTGATCTGGCTTTGTCCCGTTTTTGACTCGCCGGGCGCGGACAACGGCTACGATATTCGGAATTATAAACAAATTGCCGGCGAATTCGGGACGATGGAGGATTTTGACAGGCTCCTTGCGGATGTCCATGCGCTCGGCATGAAGCTGATTATAGACCTTGTCATCAACCATACAAGCGATGAGCACCCTTGGTTTATCGAATCACGCTCAGCGAAAGATTCCGAAAAACGGGACTGGTACATCTGGAGAGACGGAAAAAACGGCAAAGAGCCGAATAATTGGGAAAGCATTTTCGGCGGATCAGCGTGGGAATATGATCAAGAGACCGGCCAGTATTACCTGCACCTGTTTGACAAAAAACAGCCTGATTTAAATTGGGAAAACGAAGCGATGAGGCAGTCCGTTTATGAGATGGTCCGCTGGTGGCTTGATAAAGGCATAGACGGCTTCCGGGTGGATGCCATTTCTCACATTAAGAAAAAAGAAGGGCTCCCTGATATGCCGAACCCGGACGGTCTCCCGTACGTCCCGTCTTTCCCGTATCATATGAATGGGGAAGGCATAATGGATCTCTTGAAAGAGCTGAAGCGGGAAACATTTTCGCGCTATCCGATCATGACGGTCGGCGAGGCGAACGGAGTGGCGGCTTGGGAGGCGGCTGATTGGGCCGGTGAAGAAAACGGCGTCTTTCAAATGATTTTTCAATTTGAACATCTCGGCCTCTGGGATACGGAAGATAATCAAAGCATCTCCATTCCGGCGCTTAAGCGCGTCTTGTCCGGCTGGCAGAACAGTCTTGAAGGAAAGGGCTGGAACGCGTTGTTTATGGAGAACCACGATCAGCCCCGTTCCGTCTCGGTATGGGGTGACGAACGGTTTTTGACAGAAAGCGCCAAGGCACTCGCCGCGATGTATATGCTGATGAAAGGCACGCCGTTTATTTACCAGGGGCAGGAGCTCGGAATGACCAATGTTTCGTTTCCATCCATTGAAGATTATGATGACGCCGCAATGAAATATTTGTATGAAAAAGAGACGTCCCGCGGCGTTCCGCATGAAAAAGTGATGAAGATCATCTGGAAGAAGGGCCGGGATAATTCACGGACACCGATGCAATGGAACGGTGAGGCGAACGGCGGGTTTTCTGATGCTTCTCCGTGGCTCGGAGTGAATCCGAACCACACATGGCTGAACGCTGCATCACAAATGCAGGATGAAACATCCGTATACCATTTCTACAAACGGCTGCTCGCCCTCAGAAAAGAACACGGCGTATTGATCAGCGGCACATATGAATTGCTGCTTCCGAATGACCGGCAGATTTATGCCTATCTAAGAAAAAACGGAACAAAAACCGCCCTGATCATCACAAATCTGACCCGAACCCCCGCTTTATACAGACATCCCGGTTATCCGCTTGACTCCGATTCTCTCGTGCTTGCAAACGCGGAGACAGAAGCGCACCGCCATGTGACATCCTTTCTTTTAAAGCCTTATGAGGCCCGCGTATATATATGGTGA	MKTDWWKTAAVYQIYPRSFMDSNGDGIGDMNGIRAKLHYIKELGADVIWLCPVFDSPGADNGYDIRNYKQIAGEFGTMEDFDRLLADVHALGMKLIIDLVINHTSDEHPWFIESRSAKDSEKRDWYIWRDGKNGKEPNNWESIFGGSAWEYDQETGQYYLHLFDKKQPDLNWENEAMRQSVYEMVRWWLDKGIDGFRVDAISHIKKKEGLPDMPNPDGLPYVPSFPYHMNGEGIMDLLKELKRETFSRYPIMTVGEANGVAAWEAADWAGEENGVFQMIFQFEHLGLWDTEDNQSISIPALKRVLSGWQNSLEGKGWNALFMENHDQPRSVSVWGDERFLTESAKALAAMYMLMKGTPFIYQGQELGMTNVSFPSIEDYDDAAMKYLYEKETSRGVPHEKVMKIIWKKGRDNSRTPMQWNGEANGGFSDASPWLGVNPNHTWLNAASQMQDETSVYHFYKRLLALRKEHGVLISGTYELLLPNDRQIYAYLRKNGTKTALIITNLTRTPALYRHPGYPLDSDSLVLANAETEAHRHVTSFLLKPYEARVYIW	PGPT0018560_4178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-12_02927	1290			hypothetical protein	TTGCTTATATTAAAACTGATTCTCATTATGCTGTTAATCGGATTAACGGCCATCTTTGTCGCTGCGGAATTTGCGATTGTCAAAATCCGCGGTTCAAAAATTGCGGAGCTGGTTGAAACCGGAGACAGCCGGGCGCTCGCGGCGCACAGGGTGATTTCAAATCTCGATGAATATTTATCAGCGTGCCAGCTCGGCATTACGATTACGGCGCTCGGACTCGGCTGGCTCGGTGAACCGACGATTCAGCGGCTTCTTCATCCTGTTTTCAGCCTGATCGGAATGCCGTCATCTATTACGCACGTCGTCACGTTTATTGCGGCGTTTATCGCCGTTACGTATCTGCACGTCGTCATCGGAGAGCTTGCGCCGAAAACGATATCCATTCAAAAAGCCGAAGCCGTCAGTCTGTGGACGGCAAAACCGCTCATTCTGTTTTATAAAGTGATGTATCCGTTTATTAAGCTGTTAAACGGCTCAGCCGGATTTTTGGTCAAGCTGTTCGGTTTTCATTCGGTGAAAGAACATGAGGTCGTGGTCAGTGAAGAGGAATTGCGGCTGATTTTGTCCGAAAGCTATAAAAAAGGTCAAATCAATCAATCTGAATTCCGTTACGTCAATAAGATATTTGAATTCGATAACCGGGTCGCCAGAGAAATCATGGTGCCGCGCACCGAAATCGCCGCCATCTCGCTTGAACAGTCAGTTGATGAAGCCATACATTTGATCATCAACGAACGGTATACGCGATATCCGGTTATTAAGGAAGACAAAGATCACATTCTCGGCATTATTAACAATAAGGATTTATTTAAAGCGTATTTTCTCGGCCGCTCCATTGAATTAAAAGAAATGATGCGCCCGGTCATCAGAGTCATTGAAAGCATCCCTGTTCAGGAGCTTTTGCTCCGCATGCAGAAGGAGCGGATTCATATGGCGATTCTCGTTGACGAATACGGCGGCACGGCGGGACTTGTGACCGTCGAAGACATATTGGAGGAAATCGTCGGGGAAATCCGTGATGAATATGACCAGGATGAAATGCCCCACATCGTCAAAAAAGGCGAACACCATTATGTGATGGACGGCAAGGCGCTCATAGAAGAGGTGAATGATCTCCTTGATATCGCCATCGAAAATGAAGACATTGACACGATTGCCGGCTGGCTCTTAACACAAAAAATGGAGCTGAAAAATGGTGATGTGTTTCATGCCGAAGGGTGTGAATTTAAGGTGCTGGAAGCGGAAGACCATCATATCCGCTTCGTTGAAATTAAAAAAACTGATTTCTGA	MLILKLILIMLLIGLTAIFVAAEFAIVKIRGSKIAELVETGDSRALAAHRVISNLDEYLSACQLGITITALGLGWLGEPTIQRLLHPVFSLIGMPSSITHVVTFIAAFIAVTYLHVVIGELAPKTISIQKAEAVSLWTAKPLILFYKVMYPFIKLLNGSAGFLVKLFGFHSVKEHEVVVSEEELRLILSESYKKGQINQSEFRYVNKIFEFDNRVAREIMVPRTEIAAISLEQSVDEAIHLIINERYTRYPVIKEDKDHILGIINNKDLFKAYFLGRSIELKEMMRPVIRVIESIPVQELLLRMQKERIHMAILVDEYGGTAGLVTVEDILEEIVGEIRDEYDQDEMPHIVKKGEHHYVMDGKALIEEVNDLLDIAIENEDIDTIAGWLLTQKMELKNGDVFHAEGCEFKVLEAEDHHIRFVEIKKTDF	PGPT0014014_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014014-yugS-NA	NA	NA
D1-12_02928	678			hypothetical protein	ATGCTGTTTATCTTTTTAACAATTGCTGCATTGGGATTGTCGTTTTGGGCACAATTTAAAGTGAAAAGCAATTTTCAGAAATACTCAGACGTAGAAGCTTCCAGTCAGCGGACGGGGGCGGAAACGGCAAGACGGATTCTTGATATTAACGGTTTATATGATGTGCCGGTAGAACCGGTAAGAGGCACTTTAACAGACCATTACGACCCGACGGAGCGGGTGGTGCGTTTATCTGAGCCGGTATATTACGGCCGCTCCATTTCCGCCATTTCCGTCGCTTCCCATGAAGTCGGACATGCTTTGCAGCATCAGGAATCATACGGCGCGCTTGTGCTGAGGCACAAAATTTTTCCGGTCGTCAATTTTGCCTCCGGGGTTGCCCCTCTGCTTTTCTTGGGCGGGATGCTCCTGGGCAGCTTGAACTTAATCGGACTCGGCATTATTTTGTTTTCGGCCGCTGTTTTTTTCCAGCTTGTCACACTGCCTGTCGAGTTTAATGCCAGCGCGAGGGCGAAGCGGATTATCGTGTCGGAAGGATTCATTCGCAACAGTGAAGAACACGGCGTGAATAAAGTGCTGAACGCCGCCGCGCTGACGTATGTGGCTGCGGCGCTCGTTTCATTATTCGAGCTGCTTCGTTTTGTGATGATTTTCTTAAATGGTCGTGATGAGAATTAA	MLFIFLTIAALGLSFWAQFKVKSNFQKYSDVEASSQRTGAETARRILDINGLYDVPVEPVRGTLTDHYDPTERVVRLSEPVYYGRSISAISVASHEVGHALQHQESYGALVLRHKIFPVVNFASGVAPLLFLGGMLLGSLNLIGLGIILFSAAVFFQLVTLPVEFNASARAKRIIVSEGFIRNSEEHGVNKVLNAAALTYVAAALVSLFELLRFVMIFLNGRDEN				NA	NA	NA	NA	NA
D1-12_02929	264			hypothetical protein	ATGACAGTCATTCAAAAACTGCTGGCGGCGCTGGCCGGAGCGCAGCTGCTCGCTTCGGCGGCCGTATTGCTTATTTTTGATTTGAATGGACACAATCATATGTCCGGCGGATTTTCATGGCTTGTTTTTGCAAAAGAGACCGCAGGCACGTTTCCGTTTTACATCGGAATGGCCGGGTGTATCCTCATCATGCTCGGAGGATTGATTCCTGTCAGAAAAAAGAAGCGGATTTCTGTACAGGAAAGCGGACAATCATTAAAATAA	MTVIQKLLAALAGAQLLASAAVLLIFDLNGHNHMSGGFSWLVFAKETAGTFPFYIGMAGCILIMLGGLIPVRKKKRISVQESGQSLK				NA	NA	NA	NA	NA
D1-12_02930	255	mstX	COG1226	Protein mistic	ATGAAAGTGACAAATGGCGAGAAAGAACAGCTGAGCAATGCGATAGACAGAATGAACGAGGGGCTTGACGCCTTTATCCAGCTCTATAATGAATCGGAAAACGATGAACCTCTCATTCAGTTTGAAGATGAGACGGCCGATTTAATCAGACATGCGCGTGACTCATACGGCCAGGAACAGCTGGACGAAAAACTAAATACCATTATTAAGCAGATTTTATCCATCTCTCTGTCGAAAGAAGAGCCGGACGAATGA	MKVTNGEKEQLSNAIDRMNEGLDAFIQLYNESENDEPLIQFEDETADLIRHARDSYGQEQLDEKLNTIIKQILSISLSKEEPDE	PGPT0002715_270	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
D1-12_02931	987			hypothetical protein	ATGAAATCAAACCGTATATTTATTTCCTGGCTGAGATGGCCGTTATATGTTCGGATCGGACTGATCATTATCGCCTTGATCTTATTGTTCGGCCAACTCATTTACATGCTCGAACCGAAGCAATTCACGTCTGTGTTTGAAGGGGTTTGGTGGGCGGTTATTACGGTGGCCACAGTCGGCTACGGCGATTACGTTCCGCAGACGCCGCTCGGGCAGATTGCCGGCATGGTGCTTGTATTAAGCGGAGCGAGTTTTGTGACCGCCTATTTCGCCACGCTTTCTTCAGCCGTATTCAGCAAACAGCACCGCTATGTCGAAGGGAAGGTCGCTTTTAAAGGCAAGGGGCACGTCATTCTTATCGGATGGAATGAGAAATCGCATATGCTGCTGAAAGAACTGCAGCACATCGCGCCGTCAAAAACTGTCGTCCTGATTGATGATTCATTAAGGGAAGGGCCGCTTATTGAAAACGTCCATTTCATCCGCGGACATGCCGCTGATGACAGTACGCTCAATAAGGCGAATGTTACGGAAGCCGATACCGTCATTCTGACAGCGGATCAGCAGAAAAATGAATCCGAAGCTGATATGCTGTCGGTATTAACGCTTCTCGCCATCAAAGGGCTGCATCCGTCCGTTTATTGTATCGTAGAAATTTTAACGGAACGGTATGTCAAAAACGCCGAGCGCGCAGGAGCCAATAAGATTCTGTGCACATCACGGCTGTCGAGCCGGGTGATGTTTGAGCATTACCGGGTCAAGCTGCAGCTTGCCAAACCGCAAACGCTGTCAGATCTGACGCTGGAGAAAAAGGTTCGCATCATTCCCGTTCCCGGGGAATTAAAGGGCTCATCTTATCATGACTGTGCGCTCTATTATCTCAAACGGAATACCACGATCATCGGCATACAAAAAGAAGAGGGGCCGATGCTGACCCCTCCCCTGACATACAAGGTGCTCGATACTGATCTGTTTTTGGCTCTTTAA	MKSNRIFISWLRWPLYVRIGLIIIALILLFGQLIYMLEPKQFTSVFEGVWWAVITVATVGYGDYVPQTPLGQIAGMVLVLSGASFVTAYFATLSSAVFSKQHRYVEGKVAFKGKGHVILIGWNEKSHMLLKELQHIAPSKTVVLIDDSLREGPLIENVHFIRGHAADDSTLNKANVTEADTVILTADQQKNESEADMLSVLTLLAIKGLHPSVYCIVEILTERYVKNAERAGANKILCTSRLSSRVMFEHYRVKLQLAKPQTLSDLTLEKKVRIIPVPGELKGSSYHDCALYYLKRNTTIIGIQKEEGPMLTPPLTYKVLDTDLFLAL	PGPT0002715_2393	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
D1-12_02932	405			hypothetical protein	ATGATCAGCATTCCATCTTCACTTGAAGGGCAATCGTTTTTACTCCGCGAATTGGAACAGGTGCTGAAACCGATCGGTTATACCATCGGAGGCGGCTGGGAGTATGACCGCGGGTTCTTTGATTACAAAATTTCCGATCAGGACGGCTATTTATTTCTCCGCATCCCTGTTGAAGCAAATAAGGGACACCTGGATGAACGGGGGGCCGCCGTTACAATCGGCACACCCTTTTTGCTGAGGCACGTCTATCAGCAGGAAACGGATGATCACGCAGGCGGCGGTGTTTTTGAGTCATTATTCAACCAATTCTCCGAGCCGAAACGGCGGGATGCGGCAATTGACCGCTCATATACAGATATCGGCATCTCGCTTGTGAAAGAGCTGGAAGACGTCCTGCTGCATTAA	MISIPSSLEGQSFLLRELEQVLKPIGYTIGGGWEYDRGFFDYKISDQDGYLFLRIPVEANKGHLDERGAAVTIGTPFLLRHVYQQETDDHAGGGVFESLFNQFSEPKRRDAAIDRSYTDIGISLVKELEDVLLH				NA	NA	NA	NA	NA
D1-12_02933	354			hypothetical protein	ATGATACGACTCTTATGTAAGCATGCCGTCATTTCCGTCTGTTCCGCCGTTATTGTCTATTCGGCACTAAAACTGTCTCCTGAATCCCTCTTACAAACCATCCTGTTTTTCGCTTTCCCTCTCGGCTTGTTTACGGACATGGTCCGGCTGAAACTGAAGATTGGCCGGATGCATACGCTGATCACGAAGTGCTGTCTCTATGCCGCCGTTTTCTATATTTCAACGGAAGCCGTTCTCTCCGCAATTGTGACGTATGTTCTGATTGAATGCGCCGTTATCTCTTTCCGGCGTCTGTCTGCCGCTCCCGATTCTTCCCGGGCGCCGTATGAAGATGCCGCAGAGCGGGGACGCTAA	MIRLLCKHAVISVCSAVIVYSALKLSPESLLQTILFFAFPLGLFTDMVRLKLKIGRMHTLITKCCLYAAVFYISTEAVLSAIVTYVLIECAVISFRRLSAAPDSSRAPYEDAAERGR				NA	NA	NA	NA	NA
D1-12_02934	1353	pgi	COG0166	Glucose-6-phosphate isomerase	ATGACGCATGTACGCTTTGATTACTCAAGAGCGTTACCTTTTTTCAATGAACATGAACTTACATACGCACGTGATTTCGTAAAAACGGCACACCATAATATCCATGAAAAAACAGGCGCCGGAAGCGACTTTTTAGGATGGGTGGACCTCCCCGAAAACTACGATAAAGAAGAATTCGCGCGCATTAAAAAAAGCGCTGAAAAAATCAAATCAGATTCAGACGTGCTTCTCGTCGTGGGTATCGGCGGTTCATATTTAGGCGCCCGCGCGGCGATCGAAGCGCTCAATCATTCTTTCTATAATGTTCTGCCGAAAGACAAGCGCAAAAACCCTCAAGTTATCTTTATCGGCAACAATATCAGCTCAACTTATATGAAAGATGTTATGGATCTTTTGGAAGACGCTGATTTCTCTATCAATGTCATTTCTAAATCAGGCACGACGACGGAACCTGCAATCGCTTTCCGGATTTTCCGCAAACTTCTTGAAGAAAAATACGGAAAAGAAGAAGCGAAAGCGCGGATTTACGCGACGACAGATAAAGAGCGCGGCGCTTTAAAAACGCTTTCTAATGAAGAAGGCTTCGAATCATTCGTTATTCCTGATGATGTCGGCGGACGTTTCTCCGTTCTGACTGCGGTAGGCCTTCTGCCGATTGCGGTAAGCGGGGCTGATATCGATGAAATGATGAAAGGCGCTCTTGATGCAAGCAAAGACTTTTCCAGCTCGGAATTAGAAGAGAACGCGGCTTACCAATACGCCGTCGTCCGCAACGTTCTGTATAATAAAGGAAGAACCATTGAAATGCTCATCAACTATGAGCCTGCGCTGCAATACTTTGCGGAATGGTGGAAGCAGCTCTTCGGCGAAAGTGAAGGAAAAGATGAAAAAGGCATCTATCCTTCTTCCGCTAACTTCTCAACAGACCTTCACTCTCTCGGTCAATACGTGCAGGAAGGCAGACGCGATCTGTTTGAAACTGTATTAAACGTTGAAAAACCGAAGCATGAGCTGACAATTGAAGAAGCGGAAAATGATCTCGACGGCTTAAATTACTTAGCCGGAAAAACGGTCGATTTCGTCAACAAAAAAGCGTTCGAAGGCACGATGCTTGCCCATACAGACGGAAAAGTGCCGAACTTAATTGTCAACATTCCGGAGCTTAATGCATATACATTTGGATATCTCGTCTATTTCTTTGAAAAAGCGGTGGCGATGAGCGGTTATCTGCTCGGAGTCAACCCGTTTGATCAGCCGGGTGTTGAAGCCTATAAGGTGAATATGTTCGCGCTTCTCGGCAAACCGGGCTTTGAAGAGAAAAAAGCAGAGCTTGAAAAACGCCTTGAAAAATAA	MTHVRFDYSRALPFFNEHELTYARDFVKTAHHNIHEKTGAGSDFLGWVDLPENYDKEEFARIKKSAEKIKSDSDVLLVVGIGGSYLGARAAIEALNHSFYNVLPKDKRKNPQVIFIGNNISSTYMKDVMDLLEDADFSINVISKSGTTTEPAIAFRIFRKLLEEKYGKEEAKARIYATTDKERGALKTLSNEEGFESFVIPDDVGGRFSVLTAVGLLPIAVSGADIDEMMKGALDASKDFSSSELEENAAYQYAVVRNVLYNKGRTIEMLINYEPALQYFAEWWKQLFGESEGKDEKGIYPSSANFSTDLHSLGQYVQEGRRDLFETVLNVEKPKHELTIEEAENDLDGLNYLAGKTVDFVNKKAFEGTMLAHTDGKVPNLIVNIPELNAYTFGYLVYFFEKAVAMSGYLLGVNPFDQPGVEAYKVNMFALLGKPGFEEKKAELEKRLEK	PGPT0017735_4679	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
D1-12_02935	375			2-hydroxy-1,4-benzoquinone reductase	ATGACTAAAACCATTGGTCTTATTTGCGGAAGTTTACGAAAAAACTCGTATAATCGAGCAATTGCTCAATCATTGTTTGACTTCGATAATGCGGCTCAATTTCGTTGGGTTGAAATAGACAATCTTCCTTTTTTTAACGAAGATTTAGATATTGCCGGAGCACCAGACTCCGTAACATCCTTTAGAGCTGATATACAAGACGTTGACGGCGTCATCATTGTAAGCCCAGAGTACAATTCCGGAATTCCGGGGGTATTAAAAAATGCATTGGACTGGGCATCGAGACCGCGGACCTCTTCTGTTTTAAACAGAAAACCGGTTGGCTTAATCGGAGCAACCCCCGGAGGGTTCGGCACTGCCTTTGGTCAAACGTAA	MTKTIGLICGSLRKNSYNRAIAQSLFDFDNAAQFRWVEIDNLPFFNEDLDIAGAPDSVTSFRADIQDVDGVIIVSPEYNSGIPGVLKNALDWASRPRTSSVLNRKPVGLIGATPGGFGTAFGQT	PGPT0004195_1011	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
D1-12_02936	645	ycaC	COG1335	putative hydrolase YcaC	ATGTCTGATCTTTATTCCCGTCTTTCAAAAGATGATGCTGCCGTGCTTTTAGTTGACCATCAAACCGGCCTTATTTCCGGTCTCGTGCGTGACTATGGCGTTGATGAATTTAAAAACAATGTATTGGCTCTCGGTGATACGGCTAAATTCTTTGATTTACCGGTTATTTTAACAACCAGCTTTGAAAACGGACCCAACGGACCGCTCATGCAAGAACTCGTTGATCTCTTTCCTGATGCGCCAAAAATAGCCCGTCCCGGACAAATTAATGCATGGGACAATGAAGACTTTGTTAAAGCCATTGAAGCGACTGGCAAAAAACAGCTGATTATCGCGGGGGTGGTAACAGACGTCTGCGTTGCTTTTCCTGCGCTTTCTGCCATTAAAGCAGGCTACGAAGTGTTTGTTGTGACAGATGCTTCGGGGACGTTTAATAAGCAAGTAGCAGATGCATCACTAACCCGTATGGCTCATGGCGGCGCGCAGCTTATGAACTGGTTCAGCGTAGCATGCGAGCTTCAGCGTGATTGGCGCAACGATGTTGAAGGTTTTGGCGCATTAATCTCCAGTCATCTTCCCGGTTATCAAAACTTAATGGGAAGCTATATGGGGGCTCAGCGGGACCTTAGTACACAAAATGCATAA	MSDLYSRLSKDDAAVLLVDHQTGLISGLVRDYGVDEFKNNVLALGDTAKFFDLPVILTTSFENGPNGPLMQELVDLFPDAPKIARPGQINAWDNEDFVKAIEATGKKQLIIAGVVTDVCVAFPALSAIKAGYEVFVVTDASGTFNKQVADASLTRMAHGGAQLMNWFSVACELQRDWRNDVEGFGALISSHLPGYQNLMGSYMGAQRDLSTQNA				NA	NA	NA	NA	NA
D1-12_02937	1173	adh2_1	COG1979	Long-chain-alcohol dehydrogenase 2	ATGGAGAACTTTACGTACTACAATCCGACGAAACTGATTTTCGGAAAAGGTCAAATCGACCAATTGAAAAAAGAGCTGAAGCAATACGGGAAAAACGTGCTGCTTGTTTACGGAGGCGGCAGCATTAAGCGAAACGGCCTGTATGACCAAGTAACAGGCATCTTAAAAGAAGAAGGCGCAACCGTTCATGAGCTTGCGGGCGTTGAACCGAACCCGCGTCTGGAAACGGTAAATAAAGGAATTGAGCTGTGCAGACAGCATGAGATTGATTTCCTTCTCGCAGTCGGCGGCGGAAGTGTCATCGACTGTACAAAAGCGATTGCGGCCGGTGCGAAATATGACGGCGACGCATGGGACATTTACAGCAAAAAAGTAACGGCGCAGGACGCACTCCCGTTCGGCACGGTGCTGACGCTTGCGGCGACAGGCTCTGAAATGAACCCTGATTCCGTTATCACAAATTGGGAAACAAACGAAAAATTCGTATGGGGCAGCAATGTCACTCATCCGCGTTTCTCCATTTTAGATCCTGAGAATACTTTCAGCGTTCCGGAAAACCAAACCGTATACGGCATGGTGGATATGATGAGCCACGTATTTGAACAATACTTCCACAATGTTGAAAACACGCCGCTTCAGGACAGAATGTGTTTTGCCGTCCTTCAGACGGTAATTGAAACAGCGCCGAAACTTTTGGAAGACCTTGAGAACTATAAGCACCGTGAAACGATTTTATACGCGGGTACGATCGCATTAAACGGCACGCTGCAAATGGGCTATTTCGGCGATTGGGCTTCCCATACGATGGAGCACGCCGTCTCAGCGGTGTATGACATCCCTCACGCGGGAGGACTTGCGATTCTGTTCCCGAACTGGATGAGATACACGCTGGATACAAATGTAGACCGTTTTAAAAACCTGATGCTCAACATGTTTGACATTGATACTGAAGGCAAAACGGATAAAGAAATTGCGCTTGAAGGGATCGATAAATTGTCCGCGTTCTGGACAAGCCTCGGTGCACCGTCCCGCCTTGCGGATTATGACATCGGTGAAGACAAGCTTGAGCTGATCGCAGACATCGCCGCAAAAGAAATGGAATACGGCGGATTCGGCAATTTCCAAAAACTGAACAAAGATGACGTACTTGCCATCTTAAAGGCGTCTCTGTAA	MENFTYYNPTKLIFGKGQIDQLKKELKQYGKNVLLVYGGGSIKRNGLYDQVTGILKEEGATVHELAGVEPNPRLETVNKGIELCRQHEIDFLLAVGGGSVIDCTKAIAAGAKYDGDAWDIYSKKVTAQDALPFGTVLTLAATGSEMNPDSVITNWETNEKFVWGSNVTHPRFSILDPENTFSVPENQTVYGMVDMMSHVFEQYFHNVENTPLQDRMCFAVLQTVIETAPKLLEDLENYKHRETILYAGTIALNGTLQMGYFGDWASHTMEHAVSAVYDIPHAGGLAILFPNWMRYTLDTNVDRFKNLMLNMFDIDTEGKTDKEIALEGIDKLSAFWTSLGAPSRLADYDIGEDKLELIADIAAKEMEYGGFGNFQKLNKDDVLAILKASL	PGPT0008295_143	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008295-adh2_2-K19955	NA	NA
D1-12_02938	1164	adh2_2	COG1979	Long-chain-alcohol dehydrogenase 2	ATGCAAAACTTTACATATTGGAATCCGACCAAATTGATTTTCGGAAAGGGAGAGGTCGAAAAACTTCCTGAAGAAATCAAGCCGTACGGAAAGAACGTACTGCTCGTATACGGGGGCGGCAGCATTAAGCGCAGCGGTCTTTATGATCAAGTAACCGAACTGCTGAAAAAAGCAGGAGTTACCGTACATGAATTGGCAGGCGTAGAGCCGAATCCGCGTGTCTCAACGGTGAACAAAGGTGTTGCGCTCTGTAAAGAAAACAGCATCGATTTCTTATTGGCCGTCGGCGGCGGAAGTGTCATTGACTGCACGAAAGCCATCGCGGCGGGCGCTAAATATGACGGCGACGCGTGGGATATCGTCACGAAAAAACACCAGCCGAAAGAAGCGCTGCCGTTCGGAACAGTGCTGACACTTGCGGCAACCGGTTCAGAGATGAACTCCGGATCAGTCATCACAAACTGGGAGACACAAGAGAAATACGGATGGGGGAGCCCGCTCGTTTACCCTAAATTCTCTATTCTCGATCCGGTAAACACATTTACCGTTCCGAAAGACCACACCATTTACGGCATGGTCGATATGATGAGCCATGTGTTTGAACAATATTTCCACCACACGTCAAACACGCCGTATCAGGACCGGATGTGTGAATCGCTTCTGCGCACGGTGATTGAAACAGCGCCGAAGCTGATCAATGATCTGGAGAACTACGAGCTTCGTGAGACGATTTTATATACAGGCACGATCGCATTAAACGGAATGCTGTCAATGGGCGCAAGAGGGGATTGGGCCACACACAACATCGAGCATGCGGTATCAGCGGTTTATGATATACCGCACGCCGGAGGTTTAGCGATTCTGTTCCCGAACTGGATGAGACATGTGCTCAAAGAAAATCCGGCCCGCTTTAAACAGCTTGCCGTCCGTGTCTTCGATATTGACGAGACAGGCAGATCAGATGAAGAGATCGCACTTGAAGGAATCAGCAAGCTGTCTGATTTCTGGACGAGCCTCGGCGCTCCGAACAGACTCGCTGATTATGATATTTCTGATGAGAAGCTGGATACGATTGCAGGTAAAGCGATGGCAAACGGAGCATTCGGACAGTTCAAGTCACTGCAGAAAGAAGACGTGCTTGCGATACTGAAAGCATCATTGTAG	MQNFTYWNPTKLIFGKGEVEKLPEEIKPYGKNVLLVYGGGSIKRSGLYDQVTELLKKAGVTVHELAGVEPNPRVSTVNKGVALCKENSIDFLLAVGGGSVIDCTKAIAAGAKYDGDAWDIVTKKHQPKEALPFGTVLTLAATGSEMNSGSVITNWETQEKYGWGSPLVYPKFSILDPVNTFTVPKDHTIYGMVDMMSHVFEQYFHHTSNTPYQDRMCESLLRTVIETAPKLINDLENYELRETILYTGTIALNGMLSMGARGDWATHNIEHAVSAVYDIPHAGGLAILFPNWMRHVLKENPARFKQLAVRVFDIDETGRSDEEIALEGISKLSDFWTSLGAPNRLADYDISDEKLDTIAGKAMANGAFGQFKSLQKEDVLAILKASL	PGPT0008295_363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008295-adh2_2-K19955	NA	NA
D1-12_02939	237			hypothetical protein	ATGAGTGTTATTCAGCGTATCTGTCTCGTATTAACGATTATCGGCGCTATTAACTGGGGACTGATCGGATTTTTCCAATTTGATTTAGTAGCAGCAATCTTCGGCGGCCAAGGATCAGCTCTGTCGCGGATTATTTACGGTCTTGTCGGCATCGCCGGTCTGATCAATCTCGGCCTGCTGTTTAAGCCGAACGAAGAAACATCCCGCGAGGAAGCGGCAAATCCGGAAGTCAGATAA	MSVIQRICLVLTIIGAINWGLIGFFQFDLVAAIFGGQGSALSRIIYGLVGIAGLINLGLLFKPNEETSREEAANPEVR				NA	NA	NA	NA	NA
D1-12_02940	393	yugI	COG1098	General stress protein 13	ATGGCAGCAAAATTTGAAGTGGGCAGTGTTTACACTGGTAAAGTAACAGGATTACAAGCGTATGGTGCGTTTGTTGCATTAGATGAAGAAACTCAAGGACTTGTTCACATTTCTGAAGTCACTCACGGTTTCGTAAAAGACATTAACGAACACCTTTCTATCGGTGACGAAGTACAAGTAAAAGTACTTGCGGTTGACGAAGAAAAAGGCAAAATCAGCCTTTCTATCCGTGCGACTCAAGCGGCGCCTGAAAGAAAAGAAAGCAAACCAAGAAAACCGAAAGCGGCTCAAGCTTCTGAAGAAACATCTGCTCCGCAAGGTTTCAACACATTGAAAGATAAGCTTGAAGAGTGGATTGAACAGTCCAACCGCAAAGACCTTATCAAAAAATAA	MAAKFEVGSVYTGKVTGLQAYGAFVALDEETQGLVHISEVTHGFVKDINEHLSIGDEVQVKVLAVDEEKGKISLSIRATQAAPERKESKPRKPKAAQASEETSAPQGFNTLKDKLEEWIEQSNRKDLIKK	PGPT0014890_91	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014890-yugI-K07570	NA	NA
D1-12_02942	1170	dapX_3	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGGAAACGAAGACTTCTTATTTATCTGACTACGTGCAGCAGATTAAACCGTCAGGCATCCGCAAATTCTTTGATCTGGCTGCTACGATGGAAGGCGTCATTTCATTGGGAGTGGGAGAGCCTGACTTTGTGACGGCCTGGAACGTGAGGGAAGCGAGTATTCTTTCTTTAGAACAGGGTTATACGGCTTATACGGCAAATGCGGGTCTTTATGAACTGAGAGAAGAAATCAGCCGCTATTTAGATCAGCGGTTCGGCCTGAGTTATTCGCCTGACAGTGAACTGATCGTTACGGTAGGGGCAAGCCAGGCGCTTGATCTCGCTGTCCGCGCCATTATGAATCCCGGGGAGGAAATGTTAATTCCCGAACCGTGTTTTGTCGCATATGAATCACTCGTGACCCTGACGGGGGCGAAGCCGGTGCCGATTCAGACTGTCGCTGCAAAAGGTTTTAAAGCATCAGCAGCCGATTTTGAAGCAGCCCTGACGGACAAAACAAAAGCGCTGCTTCTATGTTCGCCGTCAAATCCGACAGGTTCTGTCTATTCGAAAGAAGAGCTTGAATCCATCGCTGCTTTCGCTGAAAAACACGACTTGATCGTGCTTGCCGATGAAATTTATGCCGAGCTGACGTATGATGAGCCATTTACGAGCATGGGGGCCATCCGCGGCATGAAGGAACGCACGGTTCTCATTTCCGGCTTCTCCAAAGCATTTGCCATGACGGGGTGGAGACTCGGATTTACGGCGGCGCCTCCCGTGATCAGGGATGCCATGCTCAAAATTCATCAGCACGCGATGATGTGCGCGCCTTCCATGGCTCAGTACGCGGCGCTTGAAGGGCTGAAAAACGGCCAGGAAGACGTCGAAAGAATGAAGAAAAGCTATCGGAGACGCCGAAACCTGATTGTGGAGACATTGAACGAAATCGGACTCGGCTGCCACCACCCCGGCGGAGCATTTTACGCCTTTCCTTCCATTCAGTCGACCGGCATGAGTTCAGAAGAATTCGCGGAACAGCTGCTCATTGAGGAAAAAGTAGCCGTCGTTCCGGGGAATGTATTCGGCCCGAGCGGCGAAGGCTACATCAGATGTTCCTATGCGACATCCATTGAGCAGATTCAGGAAGCGCTCGTCAGAATCAAACGGTTTGTTGAAAAAAGGGCATAA	METKTSYLSDYVQQIKPSGIRKFFDLAATMEGVISLGVGEPDFVTAWNVREASILSLEQGYTAYTANAGLYELREEISRYLDQRFGLSYSPDSELIVTVGASQALDLAVRAIMNPGEEMLIPEPCFVAYESLVTLTGAKPVPIQTVAAKGFKASAADFEAALTDKTKALLLCSPSNPTGSVYSKEELESIAAFAEKHDLIVLADEIYAELTYDEPFTSMGAIRGMKERTVLISGFSKAFAMTGWRLGFTAAPPVIRDAMLKIHQHAMMCAPSMAQYAALEGLKNGQEDVERMKKSYRRRRNLIVETLNEIGLGCHHPGGAFYAFPSIQSTGMSSEEFAEQLLIEEKVAVVPGNVFGPSGEGYIRCSYATSIEQIQEALVRIKRFVEKRA	PGPT0007145_518	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007145-yugH-K10907	NA	NA
D1-12_02943	501			hypothetical protein	ATGAAGCTGACCGAAAAAGAAACAGAAATATTAGAAATTTTAGACGAAAACAGCCGCGTTGATGCGGAAACGATTGCGAAAATGGCAAACATTCCCGCTGAAGAAGTCAAAAGCATCATTGAAAAGCTTGAAAAGGAAAAAGTCATCATTGATTATGCGGCGATGATCGACTGGCGCAAAGTCGACGGTTTGGAAGGCGTCACGGCGATGATTGACGTAAAAGTCACTCCGAAACGAAATGTCGGCTTTGATGAAGTCGCTGAGCGGATATACAGATTCCAGGAAGTTGAATCAGTGTACCTGATGTCAGGGGTGTATGACTTATCTGTCGTTATTCGCGGTAACACGATGTCAGACGTGGCAAGCTTCGTGTCTGAAAAATTGTCCACCCTTGAGTCCGTCGTTTCCACGACGACGCACTTTATCCTGAAAAAATATAAGCATGACGGCAAAGTCTTTGAAAGCGGAGACGATGACAAAAGAATCGTGGTGTCTCCGTAA	MKLTEKETEILEILDENSRVDAETIAKMANIPAEEVKSIIEKLEKEKVIIDYAAMIDWRKVDGLEGVTAMIDVKVTPKRNVGFDEVAERIYRFQEVESVYLMSGVYDLSVVIRGNTMSDVASFVSEKLSTLESVVSTTTHFILKKYKHDGKVFESGDDDKRIVVSP				NA	NA	NA	NA	NA
D1-12_02944	822	carC		2-hydroxy-6-oxo-6-(2'-aminophenyl)hexa-2,4-dienoic acid hydrolase	ATGGAAGCTGTTTCACCGATTAAACGGGCCGCGATAGACGGAGTTGAGCTGTATTACGAGCATTATGAAAATCCCGGCAGACAGACACTCGTCTGCGTACACGGTTTTTTATCTTCGGCATTCAGCTTCAGAAAACTGATCCCGCTGCTCAGAAACCATTATGATATTATCGCCGTTGACCTGCCTCCTTTCGGGCAATCGGAAAAGTCACGGACTTTCGTATATACTTACGCAAACCTCGCCAAGCTTCTGATCGGACTTCTGGAAAAGCTCGGTATCAGCCGGGCCGCACTCATCGGCCATTCAATGGGCGGCCAGATTTCCTTATCCGCGTCTCTTCTCAGACCCGAGCTTTTTTCTAAAATCGTCCTGCTGTGCAGCTCGGGGTATTTAAAGCGCTCGCACCCGTCGATTATATTCGGGACGCATCTCCCTTGTTTTGACCTGTATCTTAAGTATTGGCTTTCAAAAGACGGCGTGCTGAACAACCTGTTAAATGTCGTTCACGACCGGACGCTTATCGATCAGGAAATGATTGACGGTTACGAAAAACCATTTACAGACCGCCAGATTTTCAAAGCGATGACAAGGTTTATCAGACACAGGGAGGGCGATTTAGAGCCCGAGGATTTGAAGAAAGTGCAAAACCCCGCTCTTTTAATCTGGGGAGAAGAAGACCGGGTCGTTCCGGTCTCAATCGGAAAACGGCTTCATGACGACCTGCCGGATTCCATTCTGTATTCACTCAAGGATACGGGGCACCTCGTACCCGAAGAGCGCCCGGAGTTTGTTTCGGAGCGGATTTTTGAATTTATTCAATAA	MEAVSPIKRAAIDGVELYYEHYENPGRQTLVCVHGFLSSAFSFRKLIPLLRNHYDIIAVDLPPFGQSEKSRTFVYTYANLAKLLIGLLEKLGISRAALIGHSMGGQISLSASLLRPELFSKIVLLCSSGYLKRSHPSIIFGTHLPCFDLYLKYWLSKDGVLNNLLNVVHDRTLIDQEMIDGYEKPFTDRQIFKAMTRFIRHREGDLEPEDLKKVQNPALLIWGEEDRVVPVSIGKRLHDDLPDSILYSLKDTGHLVPEERPEFVSERIFEFIQ				NA	NA	NA	NA	NA
D1-12_02945	261			hypothetical protein	ATGGAAGAAAGCCAAGCGGTCATGGAAATGATGAAAATCATTGCCAAGTGGGACCCGTTTAAATATGGAGAAGATTTTTATGAGACAGAAGCCGTCGACATCGTTCAGGCCGTCTACAGTGAAGACCGTGCCGACAAGCTGGCAGCAGCCATTCAGGATATCTTTGAAGCTTCATTTGAGCAAAAGCTTCCGATCGAAGGCTGCCAAAAGGCCGCCGAGCAGCTTCTGTCCATAAAAGAAAGCAGCTCCTGCACCCCTTAA	MEESQAVMEMMKIIAKWDPFKYGEDFYETEAVDIVQAVYSEDRADKLAAAIQDIFEASFEQKLPIEGCQKAAEQLLSIKESSSCTP				NA	NA	NA	NA	NA
D1-12_02946	1164	patB	COG1168	Cystathionine beta-lyase PatB	ATGAACTTTGATCTTCGAGAAAACCGTCTTGGCACACAATCGGTGAAATGGGACAAGGCGGAAGCGTTATTCGGCGTATCGAATGCGCTTCCGATGTGGGTTGCCGATATGGATTTCCGCGCTCCCGAAGCGGTCACTGACGCCTTAAAAGCCCGCCTTGACCACGGCATATTCGGTTATACGTCTCCTGACGAAAACACAAGAGAAGCCGTCGCTTCATGGCTTGAGACGCGGCACGGCTACCGGCCCGATCCCGCAAGCATCGCGTTCAGTCCCGGTGTTGTCACGGCAATCAGCATGGCCGTACAAGCCTTTACCGAACCGGGCGATCCGGTGTTGATTCAATCACCGGTGTATACGCCTTTTTATCAGATGATCAAGGAAAACAAACGGCAGGTTTTACATAACCCATTACGGGAAGAAAACGGCGTCTACTGTATGGATTTTGAGGATCTTGAGAAAAAGCTGAACGATTCTGAGGTCAAGCTGATGATTCTTTGTAACCCCCACAATCCGTCCGGCAGAGCGTGGAGCCGGGATGAGCTTATGAAGCTCGGATCGCTGTGCGCCGCCCATAACGTCACCGTCGTTTCTGACGAGATACATTCCGACTTGATGCTGTACGGAAAGCCGCATACGCCTTTCGCTTCTCTGTCTGAGGAGTTTGCGCGGATTTCCGTTACTTGTGTCGCGCCGAGCAAGACGTTTAATATTGCCGGCATTCAGGCATCCGCCATTATCATTCCCGATCGTTATAAGCGGGCGAAATTCTCCGCCGCATTGCATCAGAACGGGATTTCCAGCCTCAACACATTTGCGGTTGCAGCAATTGAAGCGGCTTATACAAAGGGAGGCCCTTGGCTTGACGCGCTGATTCCTTACATTGAAGGGAATATGAAATTGGCTGAGGACTTTTTAAGACAAGAATTGCCGAAAGTCCGCATGATGAAGCCTGACGCTTCCTATTTGATCTGGATGGATTTCAGCGAGTACGGATTTTCGGATGCCGAGCTCAAAGAAAGAATGCTCAAAAAAGGGAAAATCATATTAGAGCCGGGAACAAAATACGGACCGGGCGGCGAAGGATTTATGAGACTTAATGTCGGCTGTTCAGCCGCCGCCGTAAAAGAAGGGCTTGAGAGAATGAAAGCAGCGCTCGCTTAG	MNFDLRENRLGTQSVKWDKAEALFGVSNALPMWVADMDFRAPEAVTDALKARLDHGIFGYTSPDENTREAVASWLETRHGYRPDPASIAFSPGVVTAISMAVQAFTEPGDPVLIQSPVYTPFYQMIKENKRQVLHNPLREENGVYCMDFEDLEKKLNDSEVKLMILCNPHNPSGRAWSRDELMKLGSLCAAHNVTVVSDEIHSDLMLYGKPHTPFASLSEEFARISVTCVAPSKTFNIAGIQASAIIIPDRYKRAKFSAALHQNGISSLNTFAVAAIEAAYTKGGPWLDALIPYIEGNMKLAEDFLRQELPKVRMMKPDASYLIWMDFSEYGFSDAELKERMLKKGKIILEPGTKYGPGGEGFMRLNVGCSAAAVKEGLERMKAALA	PGPT0001990_2112	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
D1-12_02947	1284	sasA_3		Adaptive-response sensory-kinase SasA	ATGGAGATTGTAAAGGATTACCTGCTTCACTTCTCTTTTATTTTATTCCCTATTTTTCTTTATCAAGTCTTCTGGCTCAGTAAGCCCGATTTGCTTGTGCCGAGAGCGAACCGCCTGCTGGTCGCCGTATTTGCAGCGTCATCTTCCTTATTATGTACGGCTTTTCCCATCCAGGAGCTTCATTCCGTCCGTTACGGTTTGCAGCTGATTCCCATTATCGTCTGCCTGCTTTATTCCGGTACCGGTGCAGGACTTGCCGCAGGGGCGGCATCCGTTTTTTTTCAGCTCATATGGTTTGAACCTTCCGCTCTTTTTTTCTTATCCTTAATTCCTTTTTTAATCATCATCCCTATCCAGCTCCAAACGAAATGGCCTTTTTTTTCAAAGCGGAAGAAACTGCTTTTCGCTCTTCTCATCGGCTGCACTGAAACCGCCTTATTAACCGCATCTGTCTTCATCTATTCCGCGACCAATATTTTCAATTTTCAAAATCTACCTTCCGTTTATTATGAGGCGGCAGTATCTGTTTTTTTTCAAGTCAGCGCCCTTTTGCTGTGCATTTATTTGATTGAGATCATTGATGAGAATGCGTCCATGCGGGCAAGGCTGATTCACTCAGAAAAAATGGCCGTCGTCAGCGAGCTTGCGGCAAGCGTCGCCCATGAAGTCCGCAATCCGCTTACGGTCGTCAGAGGTTTTGTGCAGCTGCTGTTCAGCGGCGAGCAGCTTCAGGACAAATCCCACTCCGGATATCAGAAACTTGTGCTGTCCGAACTCGACCGGGCTCAGACGATCATTACGAATTATCTCGATATGGCGAAGCAGGATGACTATGAAAAAGAAAAGTTTGATATTTCTCTGCTCGTAAAGGAAACAGGTTCCTTAATGGAGTCTTATGCCCATTTTAAATCGGTGACCGTTACGGTTCGAAGCGAGCCTGATTTATATGTGTTCGGCGATGTAAAAAAACTGAAACAGGCCTTCATTAATCTGATTAAAAACAGTATTGAAGCCGTGCCCTCTGAAAACGGCCGAATCGAGGTCTCCGTCCAAAAACAGGAAGAGATGATTCTCATTCAGATTACGGATAACGGAATCGGCATGTCCGATGAAGAACTGCAGAAACTCGGCAAGCCGTATTATACGCTGAAAACGAACGGCACCGGGCTCGGGCTTACCGTGACATTCTCGATTATTCAGCATCATGAAGGCTCCGTCTGTTTCACCAGCGGCGAGCACTCGGGCACAACGGCCTCAGTCAGGCTTCCGGCAGCTGTTCACTAG	MEIVKDYLLHFSFILFPIFLYQVFWLSKPDLLVPRANRLLVAVFAASSSLLCTAFPIQELHSVRYGLQLIPIIVCLLYSGTGAGLAAGAASVFFQLIWFEPSALFFLSLIPFLIIIPIQLQTKWPFFSKRKKLLFALLIGCTETALLTASVFIYSATNIFNFQNLPSVYYEAAVSVFFQVSALLLCIYLIEIIDENASMRARLIHSEKMAVVSELAASVAHEVRNPLTVVRGFVQLLFSGEQLQDKSHSGYQKLVLSELDRAQTIITNYLDMAKQDDYEKEKFDISLLVKETGSLMESYAHFKSVTVTVRSEPDLYVFGDVKKLKQAFINLIKNSIEAVPSENGRIEVSVQKQEEMILIQITDNGIGMSDEELQKLGKPYYTLKTNGTGLGLTVTFSIIQHHEGSVCFTSGEHSGTTASVRLPAAVH	PGPT0025285_190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
D1-12_02948	387	kapB		Kinase-associated lipoprotein B	ATGAATACGTTTGAAATCGGCACAATCGTAAAAGGGTTTTATAAAACAGGAGCATACATAGGGGAAGTGACAGACGTCAGGCCCAATCACTATTTAGTGAAAATTAAAGCCGTTCTGACGCATCCCGCTCAAGGAGATCTTCATCATCCGAAGCAGGCGGATGTTCCGTTTTTTCATGAAAGAAGAGCGCTTGCATTCGGGGAACAGACAAACATACCGCATCAGATGGTCAAACCGTTTGATGGCGAGGTGCCTGATTATACGGCTTCCTTACAAGCGGCGTCTGCCCGGCTGAAAGATCAGCTTACAGCGGACGGCTCAGAATGGGCGGAACGTTCGCTCGCCAACTTGGCCGCGTTAGAGCGTGACTATTTTAAAAGAACTTGA	MNTFEIGTIVKGFYKTGAYIGEVTDVRPNHYLVKIKAVLTHPAQGDLHHPKQADVPFFHERRALAFGEQTNIPHQMVKPFDGEVPDYTASLQAASARLKDQLTADGSEWAERSLANLAALERDYFKRT	PGPT0025295_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025295-kapB-K06347	NA	NA
D1-12_02949	699			hypothetical protein	ATGAAGAAAGTTTCAGAGGGGAAACTGATATACTATCATAAAATATCATTTTTGATCGGAGGAAAGGCAGGTGTAAAAAAAGTGGATCAGCGCAGTCTGCTCATTATTGATTTTGAATTTACAATGCCTGACGGAAAATACAGCCCGCAAAATTTCTTTCCCGAGATTATTGAAGCGGGGATTGTCAAGACGGTGAATGATGAAGTGACTGAAACGTTTTCGAGTTATATCAAACCGAAAAAATTTCCGAAGCTGACGAAACGATGCAAAACCTTTCTGAACATCACCCAAAAAGACGTGGACGGCGGAATCACGTTTAATGAATTCATCCGCAAATTAAATGAGCTTGATCCTGATAAAAACTGCACGATCGTCACCTGGGGCAATATGGATATGAAAGTGTTAAAGCAAAATTGCATGTTTAACCACATCCCTTTTCCGTTCAAAGGAGAACTTCGGGATCTGTCCCTTGAATACAAAAACTTCTTCGGCGACAGAACATTGACCGGCCTTTGGAAAGCGGCAGAAGAGTATGGCGATAAAGGGACGGGCACGCATCATAAAGCGCTGGATGATGCGCGGACGACATACAAATTATTCAAGCTTGTCGAGCGGGATAAACAATATCTTGAAAAACCGAAACCTCCGACGATCGGTGATCGCGTCGATCTGACTGAACTGTTTCGCCGGGCCACATAA	MKKVSEGKLIYYHKISFLIGGKAGVKKVDQRSLLIIDFEFTMPDGKYSPQNFFPEIIEAGIVKTVNDEVTETFSSYIKPKKFPKLTKRCKTFLNITQKDVDGGITFNEFIRKLNELDPDKNCTIVTWGNMDMKVLKQNCMFNHIPFPFKGELRDLSLEYKNFFGDRTLTGLWKAAEEYGDKGTGTHHKALDDARTTYKLFKLVERDKQYLEKPKPPTIGDRVDLTELFRRAT	PGPT0025294_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025294-kapD-K06348	NA	NA
D1-12_02950	1245	sbnD		Staphyloferrin B transporter	ATGATTAGATACACGAAAAGTAAAGAAGGTGATGTTATTTCTGTCCGTAAGAAGAACTTCGTCGTCATTTGGATTACAAATTTCTTTATTTCCGCCAGCATGACCATGATTGTTCCGTTTCTTTCGTTATATATCGAAACGATCAGCCCCCATTCGGGCGGGTATGTGCAGAGATGGAGCGGGTATGTGTTCGGCGTCACGTTTTTAATGGCATTTGTGATTTCCCCGTTTTGGGGAAGATTCGGCGATAAGCGCGGCTACAAAAAAATTCTCTTGATTACAGGAACCGGCATTGCCATCAGCATTTTATTGATGGGGTTTGTGACATCCGTTTATCAGCTGTTTGTCCTGCGGCTGCTTATGGGTCTAGTAACAGGCTTTGTTCCGACATCGCTTGCCATGATTTCGGCGCAGACGCCGAAAGAGACTGCCGGGAAGACGCTCGGCACGCTGCAGATGGGTCAGGTGTCAGGCACTTTATTCGGACCGATGCTGGGCGGGCTGCTCGCTGACAGCTTCGGGTTTACGTACACATTTTTTATTACGTCTTTTGTCATTTTCGCATCTGTGCTTCTCGTTTTATTTCAGGTGAATGAGCAGCCGCTCGGCGAGAAACAAAACAAGCGGAAAACCTACTCCAGAAAACAGGTGCTCTCTTATATTTTTCACCAGCCCGCGCTTTGGGCGATGATGGTGCTTACTATGATCGTGCAGACCGGCAATTTCAGCATCCAGCCGCTGCTCGCTTTATATGTCAATGAGCTGCACGGACCTGTTAATTTAGCTTTTTTCTCCGGAATGGCGTTTTCAGCGACCGGACTCGGAAGCTTATTGCTTGCCCGGAAATGGGGGGACTTCGGCGACCGCTTCGGCCACAGCCGGATCTTAATCGTGCTTTTGATTGCCTCAGCGGTGTTTTTCATTCCGCAGGCGCTCGCCTCCTCCCTCTCCATTCTGTTAGTCTTCAGATTTCTGTTCGGCATGGTCATGGGCGGCACGCTCCCCTGCATTACGGCCGCGATCCGCGTCAGGGCGCCGGGCAGCATCCAGGGAGAGGTGCTCGGCTATAACGTCAGCTTTCGTTTTCTCGGAAATGTGCTCGGCCCTCTGCTCGGAGGTGCGGTCTCGAGCGGTTTTTCCATTTCGGCTGCTTTCTACGTCACCGCCTTTCTCTTTTTAATAGGCGCGGGGCTTTTATGGATGGCGGGACATTTGCAAAAGGATACAGCGTCAAATGCGGGCTGA	MIRYTKSKEGDVISVRKKNFVVIWITNFFISASMTMIVPFLSLYIETISPHSGGYVQRWSGYVFGVTFLMAFVISPFWGRFGDKRGYKKILLITGTGIAISILLMGFVTSVYQLFVLRLLMGLVTGFVPTSLAMISAQTPKETAGKTLGTLQMGQVSGTLFGPMLGGLLADSFGFTYTFFITSFVIFASVLLVLFQVNEQPLGEKQNKRKTYSRKQVLSYIFHQPALWAMMVLTMIVQTGNFSIQPLLALYVNELHGPVNLAFFSGMAFSATGLGSLLLARKWGDFGDRFGHSRILIVLLIASAVFFIPQALASSLSILLVFRFLFGMVMGGTLPCITAAIRVRAPGSIQGEVLGYNVSFRFLGNVLGPLLGGAVSSGFSISAAFYVTAFLFLIGAGLLWMAGHLQKDTASNAG	PGPT0029185_123	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
D1-12_02951	1875	pbpD	COG0744	Penicillin-binding protein 4	GTGACCATGGTACGTAAAATAATCGGATGGATTTTGCTGCTCGGCATTATCCCGTTGTTTGCATTTACAGTTATTGCTTCCGGCAAAGAGGTAAAACAAATCAAGCCTTTTGATCAGGTGCTCGATAAACATATTGATTTAAAAGCGATCAACCTGGTTCAAAACAGTTACATGTATGACAGGGACGGAAGCCTTGTTTCTGAGATTGTCAGCGATCATGAGAACCGCGTGATCGTGCCCTTTAATAAAATACCGAATGAGGTAAAACAGCTGTTTTTAACCTCTGAAGACCGTCATTTTTATGAGCATAAAGGGTTTGACTTTATGGGGATGGTCAGGGCGGCCGCCTCCAATTTCAAAGATCATAAAATTGATCAGGGCGCCAGCACCATCACCCAGCAGCTGGCAAGGAATGTGTATTTAAGCCATGAACGCACCTTCAGCCGAAAACTGACGGAGCTGGCCTATTCCTATCAGCTTGAGAAAAAATACAGCAAAGATGAGATTTTAGAAGGCTACTTAAATACGATTTATTTTAATAACGGCGTATACGGCGTCGGTTCGGCGGCACAATTTTATTTCAGCAAGCCGCTGAAATCTCTCACTTTGGGAGAGATGGCCTTTATCTGCGCTATCCCTAATAACCCTACATTATATGATCCTCTCAAGCATTTTGATTATACGAAAAAACGACAAGTCAGATTGCTTAACGGATTGAAAAAAGCAGGCGTTATATCCGGGAAACAGCTGAAAAAAGCCGAAAAGGAAAAGATCAAGCTTGATATAAACGAAAAAACAAATAAATATCCTGACTATGTTTCCTATGTAAATGATGAATTCACACAGCTTGTTTCATCATCCGAAGGCTATGACAAACGTCTTGAAAAAGCTTCCGGAAAGGCGAAACAAAAAATACAGAGTGAGCTTTCCGACAGGGTCAGCACATTGTTAAAAGACGGCGTGAAGATTTATACGGCGCTGAATCCGTATATGCAAAACCAGGTCGTCGCCCAAGTGAATCAAAATCTGCCGTATGCAGGCGTCCAGGGCGGAGCGGCCGTAATTAATCATCAGACGCATCAGATTATCGCGCTTTCAGGCGGGAAAGATTATCATAAATATGATTTCAACCGCGCCTATCAAGCATACAGACAGCCCGGTTCATCCATTAAGCCGCTGCTTGATTACGGACCTTACATTGAAAAGACCGGCGCAACGCCACACAGCAAGATTGACGCAAGCAAATTCTGCAGTGCGGATTACTGCCCGCAGAACTATAATAACCGCACGTACGGCACGGTCACGCTGGAAACGGCGTTTAAATACTCGTACAACACACCAGCCATCAGAATCATGGACCGCGTCGGCGTCAATAAGGCGTTCAGCTACCTTGAACCGTTTCATTTCGCGAAGCTGGTCAGCGCGGATTACCGTCTGCCTGCGGCGCTTGGCGGTTTTACAAACGGCATGACGCCGCTTGAAATGACCAATGCGTATACCACGTTCGGCAACAACGGCGTTTATACGCCGAGTCACGCGATTACAAAAGTGACTGATTTAAAAGGAAAAACGATATTAAAATGGAAAGATGAGCCGACGCAGGTATTCAGCGTGCGGACCAACATGCAGATCAAAGAAATGATGAAAGCCGTCGTCAAAAGCGGTACAGGAAAGAAAGCGAACTTTAAAGCTCCGTACGTCGGCGGAAAATCAGGAACGTCAAATGACTATCACGATATGTGGTTTGTCGGTCTGACGGACGCTTATACGATGGGGGTATGGGTCGGCAAGGATACACCGTCAAGCGTCGAATATCTTCATGACGCAAGCCCTCAGCTTTCGATCTGGAAAAACACGCTGCAGGCAGCTTACTAA	MTMVRKIIGWILLLGIIPLFAFTVIASGKEVKQIKPFDQVLDKHIDLKAINLVQNSYMYDRDGSLVSEIVSDHENRVIVPFNKIPNEVKQLFLTSEDRHFYEHKGFDFMGMVRAAASNFKDHKIDQGASTITQQLARNVYLSHERTFSRKLTELAYSYQLEKKYSKDEILEGYLNTIYFNNGVYGVGSAAQFYFSKPLKSLTLGEMAFICAIPNNPTLYDPLKHFDYTKKRQVRLLNGLKKAGVISGKQLKKAEKEKIKLDINEKTNKYPDYVSYVNDEFTQLVSSSEGYDKRLEKASGKAKQKIQSELSDRVSTLLKDGVKIYTALNPYMQNQVVAQVNQNLPYAGVQGGAAVINHQTHQIIALSGGKDYHKYDFNRAYQAYRQPGSSIKPLLDYGPYIEKTGATPHSKIDASKFCSADYCPQNYNNRTYGTVTLETAFKYSYNTPAIRIMDRVGVNKAFSYLEPFHFAKLVSADYRLPAALGGFTNGMTPLEMTNAYTTFGNNGVYTPSHAITKVTDLKGKTILKWKDEPTQVFSVRTNMQIKEMMKAVVKSGTGKKANFKAPYVGGKSGTSNDYHDMWFVGLTDAYTMGVWVGKDTPSSVEYLHDASPQLSIWKNTLQAAY	PGPT0023950_58	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023950-pbpD-K18770	NA	NA
D1-12_02952	414			hypothetical protein	TTGAAACCAGCTCAGCTTCCGGACCGCGTGCTTTTGTTTGACGGCGTCTGCAACTTATGCAGCGGCGCCGTTCAATTCATCATTAAACGCGATCCGACCGGCAAAATCTCATTTGCTTCATTGCAATCAGATACCGCCCGGGAGCTTTTGGCATCAGAAGGACTTCCGACAGAACAATTTGACAGCATGATTTTTATCGAAAACGGGCGGATATACAAAAAATCCGCAGCCGTGTTAAAGGTTTCACGTCATCTCCGCGGAGCCTGGCGGCTGTCAGCGGTTTTTTTCGCAGTGCCCCGCCCCCTCAGGGACAGAGCCTATTCTTTCATCGCCCGGCGCCGTTACAAATGGTTCGGAAAAAGGGAAGCATGCATGCTCCCCTCCCCTGAGATCAAAAACAGATTTCTGTCTTAA	MKPAQLPDRVLLFDGVCNLCSGAVQFIIKRDPTGKISFASLQSDTARELLASEGLPTEQFDSMIFIENGRIYKKSAAVLKVSRHLRGAWRLSAVFFAVPRPLRDRAYSFIARRRYKWFGKREACMLPSPEIKNRFLS				NA	NA	NA	NA	NA
D1-12_02953	558			hypothetical protein	ATGAAAAATACTTATTGGACGGGTTATTTTCCGCTCGTTGCGATTCTGCTTTTTAGTTCGTCATTATCCATTTCTACCTCGCTTTATGTCATGAAGATACTTCAGACGCTCGGCATGTATCAGGGGATGCTGGATTATTTCTCTGAGAAAGGGATCAGACTGGCGCTTTTTGCAGCGTTCGCCCTTGTGTATTTTATGCTCTTTTCGGCTTTGAAGCTGATTGCAAACACAGTGACAGAGCTGTCTCTTTTGTTTTTCACAAATGACCCTGAGGGGGACAATCTGAAAAAAATCAGATTAGGCTCTTTAATTTATGTAGGCGGAGGAATTCTTTCCTTTGCGCTCGTGCAGAATGGTTTTTGGATTGCGGCGTTATTTGCCGTTGTTACGCTCGTTTATTTGATTTTCATGGTGTACAGAATCTATTCGACACTCTCTATCGTTTCGCTGATCGGTTTTATATTGCTTGAGATTCTGTTTTGGTTTACTTTTGTTATCGGTATTTTGTACATCTTTATCAAGCTTTATAATAGCATAATGGCTAGCTTACCTGTGTAA	MKNTYWTGYFPLVAILLFSSSLSISTSLYVMKILQTLGMYQGMLDYFSEKGIRLALFAAFALVYFMLFSALKLIANTVTELSLLFFTNDPEGDNLKKIRLGSLIYVGGGILSFALVQNGFWIAALFAVVTLVYLIFMVYRIYSTLSIVSLIGFILLEILFWFTFVIGILYIFIKLYNSIMASLPV				NA	NA	NA	NA	NA
D1-12_02954	1602	dcuS_1	COG3290	Sensor histidine kinase DcuS	ATGAAAAAAACATTAAAATTGCAAACCCGATTAACGATATTCGTCTGTATTGTCGTCCTTATCGCACTTTGTATCACCTTTTTCACGATCAGCGTCCAGACCGCAGACCGCGTGAAAGAAGAAGAACGGACAACCGCGCTGCGCACCGCAAAGCTGGTCGCGGAAACACCGAGTGTCACGCAGGCATTGCAAACAAGAAAAGGGCTGAAAGAGCTCCGGGATTATACATTAGACGTCCAGCATACGACAGGTACCGAATTTGTCGTGGTGATGGATATGAACAGCATCCGCCTCACCCACCCCGACGCAAATAAAATCGGGAAGAAATTCACCGGCGGAGACGAACAGCCGGCGATGCACGGCCATATCAAAACGAGCACATCAGCGGGAACCCTCGGGAAATCCATGAGAGCCTTCGTACCGATCTATGGAAAAGATAAAAAACAAGTGGGCGTCGTTTCGGTCGGAATTTCGCTTAACAAAATACAGGATGTCGTCAGCCACAGTTTGAGACCGCTTTATTTCATCATCTGCGTAAGTATTTTTGTCGGCGTCATCGGAGCCGTCATTGTCGCCCGCACCGTCAAAAACATTATGTACGGTCTTGAGCCTTATGAAATCGCCACCCTGCTGGAAGAGCGGAGCGCCATGCTCGAATCAACGAAAGAAGGCATTCTGGCGGTTGACGCGCGGGGAAAAATTAAGCTTGCCAATGCGGAAGCGAAACGGCTTTTTATTAAAATGGGTATTCCGACTAATCCGGTCGATCAAGATGTGAACGATATTCTCCCGAAAAGCCGGCTGAAACAGGTGATTGAAACGAAAAAACCGCTTCAGGACAGGGATATCCGCATTAACGGACTTGAGCTGGTCTTTAATGAGGTTCCGATTCATCTGAAAGGACAAACTGTCGGAGCGATCGCCACGTTCAGGGACAAAACGGAGGTCAAACATTTAGCAGAACAGCTGTCCGGTGTTAAAATGTATGCAAACGCATTAAGAGCCCAGTCTCATGAATTCATGAATAAGCTTCATGTCATTTTAGGGCTTGTCCAGTTAAAAGAATACGATGATCTCGGCACTTACATTAAAGACATTGCCATTCAGCAGAAGACGGAAACAAGCGAGATTATAAGTGATGTCAAAAGTCCGGTTCTCGCAGGGTTTCTTCTAGGAAAACAAAGCTACATACGCGAACAGGGTGCTGATCTGGACATTCAGCTCGGCAGCCTGATCCCGAATGCGGCGGATCCGGCCGTCATCCATGAGCTCATTACGATTATCGGAAACCTGTTAAACAACGCGCTCGACGCGGTGGCGCAGATGCCGAAAAAAAACATTACGTGCTCAATGCGGTTTCAGGATCGCCAGCTTGATATAGAGATTACGGACACGGGAGCCGGAATGTCTGCGGCAGACCAAGCCCGTATTTTTGAACAAGGTTATTCCACGAAAGGGACAAACCGGGGGTTCGGCCTCTATTTCACCCAGCAGGCAACAGAAAATTTAAAAGGCCATATGATTGTGACAAGTGAAAAGAATGAAGGAACGACTTTCAGTCTTCGCATTCCGTATGAACCGAAGGAGGAAAATGATGATTAA	MKKTLKLQTRLTIFVCIVVLIALCITFFTISVQTADRVKEEERTTALRTAKLVAETPSVTQALQTRKGLKELRDYTLDVQHTTGTEFVVVMDMNSIRLTHPDANKIGKKFTGGDEQPAMHGHIKTSTSAGTLGKSMRAFVPIYGKDKKQVGVVSVGISLNKIQDVVSHSLRPLYFIICVSIFVGVIGAVIVARTVKNIMYGLEPYEIATLLEERSAMLESTKEGILAVDARGKIKLANAEAKRLFIKMGIPTNPVDQDVNDILPKSRLKQVIETKKPLQDRDIRINGLELVFNEVPIHLKGQTVGAIATFRDKTEVKHLAEQLSGVKMYANALRAQSHEFMNKLHVILGLVQLKEYDDLGTYIKDIAIQQKTETSEIISDVKSPVLAGFLLGKQSYIREQGADLDIQLGSLIPNAADPAVIHELITIIGNLLNNALDAVAQMPKKNITCSMRFQDRQLDIEITDTGAGMSAADQARIFEQGYSTKGTNRGFGLYFTQQATENLKGHMIVTSEKNEGTTFSLRIPYEPKEENDD	PGPT0019555_109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019555-malK|yufL-K11614	NA	NA
D1-12_02955	708	dcuR_1	COG4565	Transcriptional regulatory protein DcuR	ATGATTAATGTACTCATAGTTGAAGACGACCCCATGGTGGGTGAATTAAATAAACGCTATCTCAGCCAGATTGAAGGATTTCAGCTGAAAGGGATCGCATCATCCTTTCAAAGCGCGCTGCACGTGCTGAGCGAGCATCATATCGATCTTATCCTTCTTGACATTTACATGCCGGGAAAAAACGGACTTGAGCTTTTAACGGAAATCCGCAAGCAAAATGAATCGGTTGATGTCATCGTCATTTCGGCCGCAAGCGAGCTGGACGTCATCAAAAAAACGCTTCGGTACGGCGCCGTCGATTATTTAATCAAACCATTTGAATTTGACCGCTTTCAAACCGCTCTTTCCGACTACAGACGCAAGCAGAAAGTTTATCAATCACACAGAAGCATGACACAGAAAGAATTGGATGCCGAGCTTTTTCAAAAGAAAGAAGCAGCGGAAAAGGTTCACCTTCCGAAGGGATTGACAAAAAGCACGCTTAAACTCATCTGGGCGAGCATTGAGTCTTTCGGTGACGGCTCTTTTACCACGGAAGATCTCGCCAAGCATACTGAAATCTCGCAAGTCTCCATCCGGAAATACCTTAAATTTCTGGAAGACATACAAGTGCTGAATGTAGAGATGGCGTACGGCACGATCGGCAGACCCGTCTTTCAATATCATATCAACACCGGCAATGTCAGCAGCATCAAACAATATTTATAA	MINVLIVEDDPMVGELNKRYLSQIEGFQLKGIASSFQSALHVLSEHHIDLILLDIYMPGKNGLELLTEIRKQNESVDVIVISAASELDVIKKTLRYGAVDYLIKPFEFDRFQTALSDYRRKQKVYQSHRSMTQKELDAELFQKKEAAEKVHLPKGLTKSTLKLIWASIESFGDGSFTTEDLAKHTEISQVSIRKYLKFLEDIQVLNVEMAYGTIGRPVFQYHINTGNVSSIKQYL	PGPT0019560_92	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019560-malR-K11615	NA	NA
D1-12_02956	1074	tmpC_2	COG1744	Membrane lipoprotein TmpC	TTGAAAAAACGCAAAATCGGAATGGCGATGGCGCTCATCGCGGCGGCCGGAACCATATTAAGCGCATGCGGTTCAAGTGACAAAGCAAACGGCTCCGGCAGCAAAAACTTTACCGTCGGCATGGTAACGGATATCGGCGGTGTCGATGACAAATCATTTAACCAGTCCGCCTGGGAAGGTATTCAGGCATTCGGAAAAGACAACGGGCTTACAAAAGGCAAAAGCGGTTTTGACTATCTTCAATCAAAATCAGATGCGGATTATACAACGAACTTAAATAAATTAGCGCGGGAACACTTTGACCTGATTTACGGCGTCGGGTATCTGATGCAGGATTCCATCAGCGAAATCGCCGATCAGCGCAAAGACACAAATTTTGCGATCATTGACGCCGTTGTCAAAAAAGACAACGTGGCGAGCCTTACATTTAAAGAGCAGGAAGGTTCATTCCTCGTGGGAGCGGCCGCTGCGCTATCGAGCAAAACGGGAAAAGTCGGATTCGTGGGCGGAATGGAGTCTGAATTGATCAAAAAATTCGAAATCGGCTTCCGCGCGGGTGTACAAGCCGCAAATCCGAAAGCGACCGTCGAAGTGAAATATGCGGGCGGATTTGACAAAGCCGATGTCGGTAAGGCGACGGCTGAAAGCATGTACAAATCAGGCGTTGACGTCATTTATCACGCGGCCGGCGCAACGGGAACGGGCGTCTTCACAGAAGCGAAAAATCTGAAAAAAGAAGATCCGAAGCGGAACGTATGGGTTATCGGTGTTGATAAAGACCAGTACGCGGAAGGTCAAGTCAAAGGCACAAAAGACAATGTCACTCTCACATCAATGGTCAAAAAAGTGGATACAGCCGTAGAGGACTTAACGAAAAAAGCGAGTGACGGGAAATTCCCGGGCGGCAAAACATTAACATACGGTTTGGCGCAAGATGCAGTCGGCATCTCGGATCACAAGGAGAACCTTTCTGACGATGTCATCAAAGCAACAGACGATTGGAAGAAGAAAATCGCGGACGGGCTCGAGATCCCTTCAACTGAAAAAGAATTGAAATCCTTCAAGGCTGAGTAA	MKKRKIGMAMALIAAAGTILSACGSSDKANGSGSKNFTVGMVTDIGGVDDKSFNQSAWEGIQAFGKDNGLTKGKSGFDYLQSKSDADYTTNLNKLAREHFDLIYGVGYLMQDSISEIADQRKDTNFAIIDAVVKKDNVASLTFKEQEGSFLVGAAAALSSKTGKVGFVGGMESELIKKFEIGFRAGVQAANPKATVEVKYAGGFDKADVGKATAESMYKSGVDVIYHAAGATGTGVFTEAKNLKKEDPKRNVWVIGVDKDQYAEGQVKGTKDNVTLTSMVKKVDTAVEDLTKKASDGKFPGGKTLTYGLAQDAVGISDHKENLSDDVIKATDDWKKKIADGLEIPSTEKELKSFKAE	PGPT0021055_2269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
D1-12_02957	1533	mglA	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	GTGGATTATATCATTGAAATGCTTAATATACGCAAGGAGTTTCCCGGAATCGTCGCCAATGATGACGTCACGCTTCAAGTGAAAAAAGGCGAAATACACGCCCTTCTCGGTGAAAACGGCGCCGGAAAATCGACACTCATGAACGTTTTATTCGGCCTGTATCAGCCGGAAAAAGGCGAGATCCGGGTGCGGGGCGAACGCGTTCACATCAACAGCCCGAACAAAGCCAACGATCTTGGCATCGGGATGGTGCACCAGCATTTTATGCTTGTGGATACCTTTACCGTCTCAGAAAATATCATTCTCGGAAAAGAGCCGAAAACATTCGGCCGGATTGACAGACAGCGCGCCGCCCGGGACGTGCGCGATATTTCCGACCGTTACGGCCTGCACATTGATCCTGAAGCCAAAGTTGCCGATATTTCCGTCGGTATGCAGCAGCGGGCGGAAATATTAAAGACCCTCTACCGGGGCGCCGACATTCTCATTTTTGACGAGCCGACCGCGGTGCTGACTCCGCACGAAATTCAAGAACTGATTCAGATTATGAAAAATCTTGTCAATGAAGGAAAATCAATTATCCTCATCACCCACAAATTAAAAGAGATTATGGAAGTCTGCGATCGTGTCACCATCATCCGGAAAGGAAAAGGCATTACAACACTCGATGTCGCACATACGGATCAAGATGAACTGGCAAGCCTGATGGTCGGACGCGAAGTGTCATTCAAGACGGATAAACAAGCGGCCGATCCGAAACAAGAAGTGCTTTCGCTTTCTGATGTAACGGTTAAAGACGCGCGCGGCGTTGAGGCGGTCAAGCAGCTCTCCCTCTCAGTCAGAGCCGGTGAAATCGTCGGCATTGCGGGCGTTGACGGAAACGGCCAGTCTGAATTAATTGAAGCCATTACAGGTCTCAGAAAAACAAATGCCGGCACGATCACGTTAAACGGCAAACAGCTGCAAAACATGCCGCCCAGGAAAGTCACTGAAGCCGGAATCGGGCATATACCGCAGGACAGGCATAAACACGGCCTCGTCCTTGATTTTCCGATCGGAGAAAATATCGTGCTGCAAAGTTATTACCAAAAGCCCTACTCTTCTTTCGGCATATTAAATAAACACACGATTTATGACAAAGCGCGAAGCCTGATTGAAGAATACGATGTCAGAACACCTGATGAATATACGCCTGCGCGCGCTCTCTCCGGGGGGAATCAGCAAAAGGCCATTATCGGCCGGGAAGTGGACAGAAATCCGGATCTTTTAATTGCGGCCCAGCCGACGCGGGGACTCGATGTCGGCGCGATTGAATTCGTCCATAAAAAGCTCATTGAGCAGCGTGATGCCGGTAAAGCGGTGCTTCTGTTATCTTTTGAACTTGATGAAATAATGAATCTCAGCGATCGCATCGCCGTCATCTTTGAAGGCAGCATCATCGCAAACGTCAATCCGCTTGAAACAAACGAGCAGGAGCTCGGACTTTTAATGGCGGGAAGTAAGCAAATGGAGGCGGAGAAAACACATGATTAA	MDYIIEMLNIRKEFPGIVANDDVTLQVKKGEIHALLGENGAGKSTLMNVLFGLYQPEKGEIRVRGERVHINSPNKANDLGIGMVHQHFMLVDTFTVSENIILGKEPKTFGRIDRQRAARDVRDISDRYGLHIDPEAKVADISVGMQQRAEILKTLYRGADILIFDEPTAVLTPHEIQELIQIMKNLVNEGKSIILITHKLKEIMEVCDRVTIIRKGKGITTLDVAHTDQDELASLMVGREVSFKTDKQAADPKQEVLSLSDVTVKDARGVEAVKQLSLSVRAGEIVGIAGVDGNGQSELIEAITGLRKTNAGTITLNGKQLQNMPPRKVTEAGIGHIPQDRHKHGLVLDFPIGENIVLQSYYQKPYSSFGILNKHTIYDKARSLIEEYDVRTPDEYTPARALSGGNQQKAIIGREVDRNPDLLIAAQPTRGLDVGAIEFVHKKLIEQRDAGKAVLLLSFELDEIMNLSDRIAVIFEGSIIANVNPLETNEQELGLLMAGSKQMEAEKTHD	PGPT0021040_2184	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
D1-12_02958	1047			hypothetical protein	ATGATTAATCGACTTTCTCATCTGGCTGTGCCGCTGATTGCGATCATCCTTGGGTTAGCTGCGGGTGCGGTCATCATGCTCGCCAGCGGCTACAATGTCGTAAGCGGGTATTCGGCTCTTTGGAGCGGCATTTTCGGTGAAGTGTATTACATCGGGGAATCGATCCGGCAGATTACGCCATATATTTTGTCCGGATTGGCCGTGGCATTCGCATTTCGGACCGGCCTGTTTAATATCGGGGTTGAAGGACAGCTCCTTGTCGGCTGGACCGCCGCGGTGTGGGTCGGTGCTTCCTTTGACGCCCCCGCTTACATCCACCTTCCGCTTTCGTTATTGGCGGCTGCGGCTGCAGGCGGCATTTGGGGCCTGATTCCCGGATTTTTAAAAGCCCGTTTTTTTGTCCACGAAGTGATTGTCACGATCATGATGAATTATATCGCTCTTCATTTAACCAATTATCTCATTTCCGATGTCATGACGGACCACCGGGACAAAACAGACAAAATTCATGAAAGCGCGTCGCTCCGCTCGCCGTTTTTAGAGCAGCTGACAGATTACTCCCGCCTTCACTGGGGCATTCTGATCGCTCTGTTTGCGGCAGTTCTCATGTGGTTTATCATTCATAAAACAAAAAGCGGATTTGAATTCCGGGCTGTCGGCTTTAACCAGCACGCCGCACAATACGCCGGAATGAGCGTCAGAAAAAATATGATGTACGCCATGATGATTTCCGGCGCCTTCGCAGGGCTTGCCGGCGCGATGGAAGGACTCGGAACCTTTCAATACGCGGCGGTTAAGGGCGCCTTTACCGGCGTCGGCTTTGACGGCATTGCGGTTGCGCTTCTCGGCGGCAGCACGGCAATCGGCGTTGTTCTGGCGGCATGTCTTCTCGGCGGCCTTAAAGTCGGGGCATTAAATATGCCGATTGAATCCGGGGTGCCTTCTGAAGTCGTTGACATCGTCATCGCCATTATTATTTTGTTTGTGGCATCAAGCTACGCCATCCGTCTCATCCTTGATAAATTGAAGAAAAAGGGGGCGAAGTAA	MINRLSHLAVPLIAIILGLAAGAVIMLASGYNVVSGYSALWSGIFGEVYYIGESIRQITPYILSGLAVAFAFRTGLFNIGVEGQLLVGWTAAVWVGASFDAPAYIHLPLSLLAAAAAGGIWGLIPGFLKARFFVHEVIVTIMMNYIALHLTNYLISDVMTDHRDKTDKIHESASLRSPFLEQLTDYSRLHWGILIALFAAVLMWFIIHKTKSGFEFRAVGFNQHAAQYAGMSVRKNMMYAMMISGAFAGLAGAMEGLGTFQYAAVKGAFTGVGFDGIAVALLGGSTAIGVVLAACLLGGLKVGALNMPIESGVPSEVVDIVIAIIILFVASSYAIRLILDKLKKKGAK	PGPT0021045_3072	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
D1-12_02959	960			hypothetical protein	GTGGACTTCCTGCAGATTTTATCCATTATTGTCCCGGCAACACTCGTATATGCGGCTCCGCTTATTTTAACCGCTCTCGGCGGCGTGTTTTCTGAAAGATCGGGAGTTGTCAACATCGGTCTTGAAGGACTGATGATTATCGGCGCCTTTACAAGCGTCATGTTCAACTTATTTTTCGGACGCGAGCTTGGCGCCGCCGCTCCGTGGCTCGCTCTGGCTGCGGCTATGATTGCCGGCGGACTGTTCTCACTGATCCACGCGGCGGCCGCAGTTTCTTTCCGCGCCGATCAGACGGTAACCGGTGTGGCGATCAATATGCTCGCGTTAGGAGCGACACTGTTTATCGTCAAGCTGATTTACGGAAAGGCGCAGACTGATAAAATCCCGGAGCCCTTTTACAAAACGAACATTCCCGGGTTAAGCGATATTCCGGTTTTAGGAAAGATTTTCTTTTCCGACGTCTATTATACGTCGATTTTAGCCATCGTACTGGCCTTTGTTTCCTGGTTTATTTTATTCAAAACGCCGTTCGGCCTCCGCATCCGTTCTGTCGGGGAACATCCGATGGCGGCCGATACGATGGGAATCAACGTGTTCGGCATGCGCTATATCGGCGTCATGATCAGCGGGCTGTTCGGCGGGCTCGGCGGCGGTGTATATGCTTCCACGATCGCGCTTGATTTCACCCACTCCACCATTTCCGGGCAAGGCTTTATCGCTCTTGCCGCGCTGGTTTTCGGCAAATGGCATCCGATCGGCGCGCTCGGGGCTGCACTGTTCTTCGGGTTTGCACAGAGTTTGAGCATTATCGGCTCGCTTTTGCCCCTGTTCAAAGACATTCCGAATGTATACATGCTGATGGCTCCTTACATTCTGACCATTCTCGCGCTTGCCGGCTTCATCGGCCGCGCGGACGCGCCTAAAGCCAACGGCATCCCTTACATTAAAGGAAAACGCTGA	MDFLQILSIIVPATLVYAAPLILTALGGVFSERSGVVNIGLEGLMIIGAFTSVMFNLFFGRELGAAAPWLALAAAMIAGGLFSLIHAAAAVSFRADQTVTGVAINMLALGATLFIVKLIYGKAQTDKIPEPFYKTNIPGLSDIPVLGKIFFSDVYYTSILAIVLAFVSWFILFKTPFGLRIRSVGEHPMAADTMGINVFGMRYIGVMISGLFGGLGGGVYASTIALDFTHSTISGQGFIALAALVFGKWHPIGALGAALFFGFAQSLSIIGSLLPLFKDIPNVYMLMAPYILTILALAGFIGRADAPKANGIPYIKGKR	PGPT0021050_1057	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
D1-12_02960	219			hypothetical protein	ATGAAGAGAAAGGCGGCGGCCTGTATTGGAATATTTTGTTCTATTATTGCAGGAACATTCATAGCGGATGATTTCTGCAAAACGCGGCAGCAGACGGAGGCGGATAATTGGGAGCGTTTTTTTCTCGGTGCGGAATACGCAGAAGTCAAGCTGAGTGCGGCTGAATCAATGCAAACGCCGTTTCGGCCGCGTGAGTATATCAGAATCGTATATAGATGA	MKRKAAACIGIFCSIIAGTFIADDFCKTRQQTEADNWERFFLGAEYAEVKLSAAESMQTPFRPREYIRIVYR				NA	NA	NA	NA	NA
D1-12_02961	2403	mrpA	COG1009	Na(+)/H(+) antiporter subunit A	TTGCAGCTGTTACATTTCACGATTTTGGCGCCTTTTTTATTTGCATTTATCGTTCCCTTTCTTTATAAACGGGTAAAACAAGTCCATACAGGCTGGTTTGTGCTGATAGTGCCCGTTGTGCTGTTTGTTTACTTTATCAGCAAGCTCCCTGTCACAATGGCTGGGGAAACCGTCCGGTATGCGGCCGAATGGATTCCGTCCCTCGGTATTAACTATACCGTTTATATTGACGGACTCGGGCTGTTATTCGCTTTATTGATTACGGGCATCGGCTCTTTGGTGACGCTTTACAGTATTTTTTACTTATCGAAGGACAAAGAAAAGCTCGGCCCCTTTTATGTGTACCTGCTGATGTTTATGGGCGCGATGCTCGGCGTTGTGCTCGTCGATAACGTTATCGTTCTTTATATGTTCTGGGAGCTGACAAGCCTGTCATCCTTCTTATTAATCGGGTATTGGCATAAGCGGAAGAAATCACGCTACGGGGCGGAAAAGTCACTGCTGATTACCGTCGGCGGCGGGCTGTGCATGCTCGGCGGCTTTATCCTGCTGTATCTGATGACGGATTCTTTCAGTATCAGGGAAATGGTCAACCAGGTGCATATTATCGCAGGCCATCCGTTCTTTATTCCGGCGATGGTTCTCCTGTTATTGGGGGCCTTTACGAAATCAGCGCAGTTTCCGTTTTATATCTGGCTGCCTGATGCCATGGAGGCGCCGACTCCTGTCAGCGCCTATCTGCACTCGGCTACAATGGTGAAAGCGGGCATTTATGTGATTGCCAGATTCAGTCCGGTTTTTGCATTTTCACCCGTCTGGTTTTGGACGGTTGCCTCAGTCGGTCTGATCACGATGGTATGGGCTTCCTTCAATGCGATTAAACAAACCGATTTAAAAGCGATTCTGGCATTTTCCACAGTCAGTCAGCTCGGTATGATTGTATCGATGCTCGGCGCAGGAGCCGCCGCGCTTCATTACCAGCATTCAGAGTATTTTACGGCGGCTGTCACCGCGGCTGTGTTTCACTTAATTAACCATGCTACTTTTAAAGGAAGTTTATTTATGGCGGTCGGCATTATCGACCATGAAACGGGAACACGGGACATCCGCAGGCTCGGCGGCCTGATGGCGCTTATGCCGGTAACGTTCACCGTTTCACTGATCGGAACGTTTTCCATGGCGGGCCTCCCTCCGTTTAACGGCTTTTTAAGTAAAGAAATGTTCTTTACAAGTATGCTGCGGATTGCTCATGCAGATATTTTCAGCCTGGATACGTGGGGCGTGCTGTTCCCCGTTCTCGCGTGGATCGGGAGCGTCTTCACTTTCATCTACAGCATGAAGCTGTTTTTCAGAACGTTCAGCGGCGCGCGCAAACCTGATCAGCTTGAAAAGACGCCGCATGAAGCACCGCTCGGCATGCTGATTTCGCCGGTGATCCTTGCCGCTTGCGCCGTCAGTCTGTTTTTTGCACCGAACGTTTTGTCTTACAGCCTGATTGAACCGGCGATGAACTCCATTTATCCGGCTCTGTTAACCGGCGGAGATACATTCCATGTCCATATTTCCCAGTGGCACGGGGTGACGGCTGAGGTAATGATGACCATCGGCATCATCATTGTCGGCACGATCGGTTACGTAACGCTGTCTAAATGGGAGCGTTTGTACGGTCTGTTTCCGAAAAAACTGACGCTGAACAAGCTTTACGATACGGTGACGGGCAGTATGGAAAAAAGATCTTACCAGCTGACGTCATCGTATATGACCGGATTTTTGCGGGATTATCTGCTGTATATTTTTGCGGCGTTTATCATTCTCATCGGAGCGGCGTTCGTCATGAAAGGCGGCTTTTCCATGACAACGAAAGGCATGGCTGAAATCGGCCTGTATGAAATCGTGCTGTCCCTCGTTATGGTGAGCGCAACGATTGCGACTGTGTTCGCCAAATCGCGGCTGACGGCCATTATCTCACTCGGTGTTGTCGGGTACACACTCGCGCTGTTTTTCGTGATTTTCAGAGCGCCCGATCTGGCGCTCACGCAGCTCGTCATTGAGACGATATCCGTCGCCTTGTTTCTTCTTTGTTTTTACCATCTGCCGAAAATGCGGCGGAAAAAGAAGACAAGAACATTCCGGATGACGAATTTTATCATTTCTCTCGGTGTCGGCGTCATCGTGACAATGCTCGGAATCGCGTCTTCCAGCGAAAAAACAAAAGACAGCATCTCCTCCTTTTTCACCGCTTACAGCCATAAGCTCGGGGGAGGAAACAATATCGTCAACGTCATCCTCGTTGATTTCAGGGGATTTGATACGATGTTTGAAATCACGGTGCTGTCGATTGCCGCACTCGGGATTTACGGCATGATCAGAACGAAAGTAAAAGAGGAGGGAGAAGAGCGTTGA	MQLLHFTILAPFLFAFIVPFLYKRVKQVHTGWFVLIVPVVLFVYFISKLPVTMAGETVRYAAEWIPSLGINYTVYIDGLGLLFALLITGIGSLVTLYSIFYLSKDKEKLGPFYVYLLMFMGAMLGVVLVDNVIVLYMFWELTSLSSFLLIGYWHKRKKSRYGAEKSLLITVGGGLCMLGGFILLYLMTDSFSIREMVNQVHIIAGHPFFIPAMVLLLLGAFTKSAQFPFYIWLPDAMEAPTPVSAYLHSATMVKAGIYVIARFSPVFAFSPVWFWTVASVGLITMVWASFNAIKQTDLKAILAFSTVSQLGMIVSMLGAGAAALHYQHSEYFTAAVTAAVFHLINHATFKGSLFMAVGIIDHETGTRDIRRLGGLMALMPVTFTVSLIGTFSMAGLPPFNGFLSKEMFFTSMLRIAHADIFSLDTWGVLFPVLAWIGSVFTFIYSMKLFFRTFSGARKPDQLEKTPHEAPLGMLISPVILAACAVSLFFAPNVLSYSLIEPAMNSIYPALLTGGDTFHVHISQWHGVTAEVMMTIGIIIVGTIGYVTLSKWERLYGLFPKKLTLNKLYDTVTGSMEKRSYQLTSSYMTGFLRDYLLYIFAAFIILIGAAFVMKGGFSMTTKGMAEIGLYEIVLSLVMVSATIATVFAKSRLTAIISLGVVGYTLALFFVIFRAPDLALTQLVIETISVALFLLCFYHLPKMRRKKKTRTFRMTNFIISLGVGVIVTMLGIASSSEKTKDSISSFFTAYSHKLGGGNNIVNVILVDFRGFDTMFEITVLSIAALGIYGMIRTKVKEEGEER	PGPT0013895_844	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565	NA	NA
D1-12_02962	432	mrpB	COG2111	Na(+)/H(+) antiporter subunit B	TTGAGACAGCAAAAAACAAACGACATCATCCTTCAGACGGCAACGAAGCTTGTATCTTTTATCATTCTGCTTTTCTCTTTCTATTTATTTTTATCGGGGCATAACGCTCCCGGCGGAGGATTTGTCGGCGGACTGATTACGTCTTCGGCCATCGTGCTGTTGCTTTTGGCCTTTGATTTAAAAACCGTCAAATCGATTTTGCCCGTCAATTTTATTTATGTGGCGGGCGCGGGTCTGCTTATCGCGATTGCAACGGGTGCAGGTTCGTTCTTATTCGGAGCACCCTTTCTCACCCATACATTCGGCCATTTTCATCTCCCGGTGCTTGGGAATACGGAGCTTGCAACGGCCACTTTGTTTGATTTAGGTGTGTATCTCGTTGTTGTCGGCGTGACGATGACCATTATTCAAACGATTGGAGAGGAAGAATAG	MRQQKTNDIILQTATKLVSFIILLFSFYLFLSGHNAPGGGFVGGLITSSAIVLLLLAFDLKTVKSILPVNFIYVAGAGLLIAIATGAGSFLFGAPFLTHTFGHFHLPVLGNTELATATLFDLGVYLVVVGVTMTIIQTIGEEE	PGPT0013900_793	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013900-mnhB-K05566	NA	NA
D1-12_02963	342	mrpC	COG1006	Na(+)/H(+) antiporter subunit C	GTGGAAATCTTAATGTCTGTCATTGCCGGTATTTTGTTTATGGCGGCAACCTACCTGCTGCTTTCTAAAAGTCTGCTGCGCGTGATTATCGGCACCGCGCTTTTAAGCCACGGCGTCCATTTGCTGCTCCTGACCATGGGCGGACTGAAAAAAGGCGCTCCTCCCATACTGGGCGGAAAAAGCACGTCGTTTGTCGATCCGCTGCCGCAGGCACTCATACTGACGGCGATCGTTATTTCGTTCGGCGTCACGTCCTTTTTGCTTGTGATGGCGTTTCGCGCCTATCAGGAACTGAAAACGGACGATATGGATCGAATGAGGGGAAATGATCAACATGAATAA	MEILMSVIAGILFMAATYLLLSKSLLRVIIGTALLSHGVHLLLLTMGGLKKGAPPILGGKSTSFVDPLPQALILTAIVISFGVTSFLLVMAFRAYQELKTDDMDRMRGNDQHE	PGPT0013905_1363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
D1-12_02964	1491	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	ATGATCAACATGAATAACTTTGTGATATTGCCTATTCTGGTGCCGCTGCTTGCCGCAGTGCTGCTGATTTTTATGAACAGGCGCGTGATGCTGATGCGGATATTCAGCACTGCCGCTTCCTGTGTCTCCATCGCCATCAGCGCCGCTCTCGTTCAGACGGTTTTCACACACGGGATTCAGACGCTGACACTCGGCGGATGGAAAGCGCCGTACGGCATTGTGCTCGCCGCGGATCAGCTTGCCGCACTGCTTGTTTTGACAACCGCCATAATCGGGCTGCTCGTCACCCTGTACTCCTTCCGCTCCATCGGAGAAAAAAGGGAGCGCGCTTTCTATTATTCAGGGGTGCAGTTTCTTCTGGCCGGCGTAAGCGGAGCGTTTTTGACGGGTGACCTGTTCAACATGTACGTCTTTTTTGAGCTTCTGCTTATCGCGTCCTATATGCTGATCGTGCTTGGCGGAACGAAAATTCAATTAAGAGAATCATTGAAGTATATCGTGTTTAACACTGTGTCATCCGCGTTTTTTGTCATCGGCGTCGGTTACTTATACGCGGTGACGGGCACGCTGAATATGGCTGATCTAAGCGTAAAAATAAGCGAATCGGGCCAGACCGGGCTGATCACCGTCATCGGCGTCCTTCTTCTCGTCGTTTTCGGTTTAAAGGGCGGGATATTCCCGCTGTATTTCTGGATGCCGGGCTCTTATTACGCCCCGCCGGCTGCAATTTCGGCTTTATTCGGGTCTCTTTTGACGAAAGTCGGTCTGTATGCCATTTTAAGAGTATTCACCCTGATCTTTATTCACGATACGGGCTTTACCCACCAATTGATGATGTGGCTTGCGATGCTGACGGTGTTATTCGGCGTAATCGGATCTATCGCCTTTTCGGATGTCATGAAAATCGTCATCTACAATATTATTACAGCCGTCGGCGTGATTTTGTTCGGCATTGCCATGAACACGCCGGCCTCCATTCAAGGAGCGGTTTATTACTTGATTCACGATATGCTGATTAAAGGAGCGCTGTTTATGCTTGCCGGCACGCTTATCGCATTGACAGGCACTGCCAGCCTGCATAAAATGGGCGGACTGATCACCCGTTATCCCGTTTTAGGATGGATGTTCTTTATTTCAGCCATATCTTTGGCCGGCATCCCGCCGTTCAGCGGATTTGTGGGCAAGCTGAAGATCGCGGAAGGCGGGTTCGATAAGGGGGAAACATTGTTTTCCGTATTGATTCTCTTATCAAGCCTGCTTGTGCTCTATTCCGTGCTGAAGGTTTTTACGACGGCTTTTTGGGGGGAAGAAAAAGAAATCCCCGGCGCAGGCGGACGGTCCGCAAAAGGACTTCTTTATCCGGCAGCCGCTTTTCTCCTTTTGTCGCTTCTGTTCGGGCTCGGAACCGAATGGGTTTCACCGTATGTTAATCAGACGGCTGAGAATCTGCTGAATCCGGAAAAATACATTGAAGCTGTTTTGAAGGAGTAG	MINMNNFVILPILVPLLAAVLLIFMNRRVMLMRIFSTAASCVSIAISAALVQTVFTHGIQTLTLGGWKAPYGIVLAADQLAALLVLTTAIIGLLVTLYSFRSIGEKRERAFYYSGVQFLLAGVSGAFLTGDLFNMYVFFELLLIASYMLIVLGGTKIQLRESLKYIVFNTVSSAFFVIGVGYLYAVTGTLNMADLSVKISESGQTGLITVIGVLLLVVFGLKGGIFPLYFWMPGSYYAPPAAISALFGSLLTKVGLYAILRVFTLIFIHDTGFTHQLMMWLAMLTVLFGVIGSIAFSDVMKIVIYNIITAVGVILFGIAMNTPASIQGAVYYLIHDMLIKGALFMLAGTLIALTGTASLHKMGGLITRYPVLGWMFFISAISLAGIPPFSGFVGKLKIAEGGFDKGETLFSVLILLSSLLVLYSVLKVFTTAFWGEEKEIPGAGGRSAKGLLYPAAAFLLLSLLFGLGTEWVSPYVNQTAENLLNPEKYIEAVLKE	PGPT0013910_1910	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568	NA	NA
D1-12_02965	477	mrpE	COG1863	Na(+)/H(+) antiporter subunit E	ATGGCTTTTCAACTATTATTAAATGTTCTTCTCGCTGTTTGCTGGATGTTACTCACAAACAGCCTCAGCGCGGCGGGTTTTTTGACCGGATTTATCGCGGGCTTGGCGGCGCTGTTTTTTTTCCGGCGCTTCTTCTCGCGGCCGTTTTACATTTGGAAAATATGGTCGGTCATCAAACTGATGCTGATCTTTATAAAAGAATTATATTTGGCCAATGTCAGCGTGCTGAAAACCGTTATATCGCCGAAACTGAACATCCGCCCGGGCATTTTCGCGTTTAAGACGGAATTGACGGAGGATTGGGAGATCACGCTGCTCTCGCTGTTAATCACTTTAACACCGGGTACGCTCGTGATGGATATCTCCGATGACCGGTCGATTCTCTATATACACGCCATGGACATTGAAGATGCGGAGAAAGCGATCCATGACATCCGCGTCTCTTTTGAGAAAGCCATTCAGGAGGTGAGCCGCTGA	MAFQLLLNVLLAVCWMLLTNSLSAAGFLTGFIAGLAALFFFRRFFSRPFYIWKIWSVIKLMLIFIKELYLANVSVLKTVISPKLNIRPGIFAFKTELTEDWEITLLSLLITLTPGTLVMDISDDRSILYIHAMDIEDAEKAIHDIRVSFEKAIQEVSR	PGPT0013915_1308	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569	NA	NA
D1-12_02966	285	mrpF	COG2212	Na(+)/H(+) antiporter subunit F	ATGTTTACGTTTATTCTGCAATTATCACTCGGCATTATGGCGGTTTCGACTCTTCTGTACGTCATTCGCGTCATAAAAGGGCCTACGATACCGGACCGGGTCGTCGCGCTTGATGGGATCGGCATTAATCTGATTGCCATGACCGCGCTTGTATCCATTCTCTTAAACACATCGGCCTTTTTGGACATCATTCTGCTGCTCGGCATTTTATCGTTTATCGGCACGATTGCCTTTGCTAAGTTTTTGGAGAAAGGAGAGATTATCGAAAATGATCGAAATCGTTAA	MFTFILQLSLGIMAVSTLLYVIRVIKGPTIPDRVVALDGIGINLIAMTALVSILLNTSAFLDIILLLGILSFIGTIAFAKFLEKGEIIENDRNR	PGPT0013920_704	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570	NA	NA
D1-12_02967	375	mrpG	COG1320	Na(+)/H(+) antiporter subunit G	ATGATCGAAATCGTTAAATGGGCCGTCGCCGTTTGTATTCTGATGGGATCGCTGATCTGCCTGGTCGCGTCTTTCGGCACACTCAGGCTTCCTGATGTGTATACGCGCGCCCACGCCTCTTCAAAAGGCTCGACACTCGGCGTTAATTTGGTATTGCTCGGGGTGTTAGGCTACTTGTGGATGCTGACCGGAGAAATTTCTGTAAAAATACTGCTCGGCATCATTTTTATCCTGCTGACGGCGCCGGTCGGAGCGCACCTCATATGCAGGGCCGCGTACAATTCGGGAGCGGCGCTTGATAAAAGAAGCGTTCAGGATGATTACAAAGGGATCAGAAACTTTGTGATCAAACGAAAAGAAGATTCATATTTGTAA	MIEIVKWAVAVCILMGSLICLVASFGTLRLPDVYTRAHASSKGSTLGVNLVLLGVLGYLWMLTGEISVKILLGIIFILLTAPVGAHLICRAAYNSGAALDKRSVQDDYKGIRNFVIKRKEDSYL	PGPT0013925_557	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571	NA	NA
D1-12_02968	384		COG2050	Putative esterase	ATGAATCTGAACAATACATTGCTCGGCGCACTCGGTATTGAAATCACTGAAAACACGCCGGAGAGATGCGTGGCGGTGATGCCGGTGGATAAGAGAACGGTGCAGCCTTTCGGATATCTGCATGGGGGCGCGTCAGCAGCGCTGGCGGAGACTGTTGCAAGTGTCGGGGCCCAGCATTTTATCGACCGATCGAAACAGGCGTGTGTCGGGCTTGAGATTAATGCCAATCATTTAAAATCCGTGAAAGAGGGCGGGACGGTCACGGCGATTGCGAAACCCGTTCACACAGGCAGGGCAACCATTGTGTACGAGATTAACATTTTCGATGAACGGGAAAGGCTGATCTGTGTTTCCCGCTGCACGCTGGCTGTTATAACAAAATAA	MNLNNTLLGALGIEITENTPERCVAVMPVDKRTVQPFGYLHGGASAALAETVASVGAQHFIDRSKQACVGLEINANHLKSVKEGGTVTAIAKPVHTGRATIVYEINIFDERERLICVSRCTLAVITK	PGPT0001845_2220	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
D1-12_02969	645	comA	COG2197	Transcriptional regulatory protein ComA	ATGAAAAAGATACTAGTGATTGATGATCATCCGGCTGTCATGGAGGGCACCAAGACGATTCTGGAAACGGACACGAATCTTTCTGTCGATTGCCTCAGTCCTGATGCCAGTGAACAATTCGTTCTTCGGCATGATTTTTCAGCTTACGATCTCATATTAATGGATTTAAATCTGGGTGATGACATCAGCGGCATAGAGCTTTCCAAGAAAATCTTAAAAGAGAATCCTCTCTGTAAAATCATTGTCTACACAGGCTATGAGGTTGAAGATTATTTTGAAGAATCCATCCGCGCGGGCCTGCATGGCGCCATCAGCAAAACCGAATCTAAAGAGAAAATCATGCAATACATATATCACGTGCTCAACGGACAGATTTTAGTTGATTTCTCCTATTTCAAACAGCTGATGACCCAGCAAAAAACAAAAACGTCTTCTTCCCCTCAAAGTGAGCAGGATCGGTTAACACAGAGAGAGCGCCATATTCTCCAAGAGGTCGAAAAAGGTTTGACCAATCAGGAAATCGCAGATGCGCTTCACTTAAGCAAGCGGTCGATTGAATACAGCCTGACATCCATTTTTAACAAGCTGAATGTCGGCTCCCGCACTGAAGCGGTGCTGATCGCCAAGTCAGATAACGTACTATAA	MKKILVIDDHPAVMEGTKTILETDTNLSVDCLSPDASEQFVLRHDFSAYDLILMDLNLGDDISGIELSKKILKENPLCKIIVYTGYEVEDYFEESIRAGLHGAISKTESKEKIMQYIYHVLNGQILVDFSYFKQLMTQQKTKTSSSPQSEQDRLTQRERHILQEVEKGLTNQEIADALHLSKRSIEYSLTSIFNKLNVGSRTEAVLIAKSDNVL	PGPT0025790_75	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025790-comA-K07691	NA	NA
D1-12_02970	2304	comP		Sensor histidine kinase ComP	TTGAAGAAGCTTATAAAGCCATTTACAATATCCATTATTATTTTAAGTGTTATCTATGTTTGTTATGTCGCTTTTATTAACATAAATGGAATTATTGTAGGCACGAAAATTGTAGAAAATAAGCATAAAGTACTCGAAGTTGCTGAAATGTCAAAAACCTCGTATGGAAAATTTGTAGGTTTAAAACAAGGTGATATGATTGTCAAAATTAATAATAAAAAACCATCTTTAAAATATCTAAAAGGGGATACTCTCTATCACGTTAAAAGCTTAGATATAAAAAGAAATGGACAGCAAATTCATTTAGATGATTTTGATATTGTTAATTTAAATGGATACTACAGTTACTTTTTATTTGTCCTGCCCCTTGTATTTTATTTTTTGAGTTTAATATGTATATTTTATATTGTAAAGGTGAGTCAAACCAGAAAATCGATAGCTGGGTATGTCCTAATTCTCTTCCTGTTAGATATCTCAATAGCTTATATGAGTGCTGGTGGTCCCTCAAGAGGTCATGAATTTAACAGATATATAAATTTGTTTACCTTCATTGCCTCACCTATATTTTATCTCCAGTTTATTCAAGAGTATTTCAAGGAATTAGGTAAAAAATTTGCCAATCGTTTGATTTCTTTTCTATATATCATACCGATAATTAATCTCTTAAACGAACCGTTTCGACATATTTATTCATATGACTTCACAACAAATTTAAATTTAGTATCGTTTTTCTTCGTGACTCTCTATGCATTTATATCTGTTTTCTATCATCTGTATAAATTCAAGTATTCAGAACATGCTTATATTCTTAAGATTTTAATTTTAACAAACACGCTCTCTTTTTTGCCCTTTTTGCTTTTTTATGTAATCCCAATTATTTTGACAGGAAGTTATATATTAGATGCGTTGGCAGCGGCATCCCTGCTCGTGCTTATCCCATTGGGGTTGGTATACCAGTTCGTAGCTAACAAAATTTTTGATATTGAATTCATTTTAGGCAGGATGAGGTACTATGGCTTGCTTGCCTTAGTTCCAGCCCTTTTTATTGTTGGGATTTCAGCTTGGTTCGAGTCAATAGATATACAAATGAATCCTGCTCAGCAAACTGTATTTTTCTTTATTATGATATTTGTCATTTTTTATTTTAAAGAAGTAATGGATTATAAATTTCGGTTAAAACGTTTTTCTGAAAAATTTAATTATCAAGATAGTATATTCAAATATACTCAGCTTATCAGAAGCATAACATCTTTAAAACAAATGTTTAAAGAACTAAAAAAGACGATTCTGGATGTTCTGCTTGTCAGTAAAGCTTATGTCTTTGAAGTTACCTCTGAGGGTGACATTTTATATCATGATAAAAAGGACAATGAGCCTGACTGGGAAATGTATTCAAAAGAATTTAAGAAAGTTACTTCAGAGATTGGAAAAATCATTGAGCTAAACCGCGGTTTTTTAATCAAGATAGGAGAACGCGGGGGAAGTTCTTATGTTTTGCTTTGTTTGTCCACTATTAATACACCGAGACTGACACGAGATGAGATTTCATGGCTGAAGACATTGTCTTTCTATACGAGTGTCTCTATGGAAAATGTGATACAGATCGAAGAACTCATGAACCATTTACAAGATCTAAAGCAACAAGGCTCAAACCCGGTCTGGCTCAAAAAGCTGATGTTTACGATCGAGGAAAAGCAGCGTTCGGATTTGGCCCGTGATCTGCATGATTCAGTGCTGCAGGACTTGATTTCTTTGAAGCGCCAGTGTGAGCTGTTTCTGGCCGATTTTAAGAAAGAGGAGCCTTGCCAGTTAGAGGTGCAGGACAAGCTTCATCAGATGAATGAGCAGATGTCGGATGTCATTTTGATGACCCGGGAGACGTGCCATGAGCTTCGTCCTCAGCTGCTGTATGATTTGGGTCTGGTCAAGGCGGTATCCAAGCTTGCCGCGCAGCAGCAGGAGCGTGCGCCATTTCATATCCGTCTGAATACGGGCCGGTTTACGGCGGCGCTGGATTTGGATACACAGCTGAATTTGTACCGCATCATTCAGGAATTTCTTTCGAACGCCATGAAGCATTCACAGGCGAATGAGGTGCTGATTATGCTGATCAGCATTCAAAATAAAGTGATTCTGCATTATGAAGACGACGGTGTCGGCTGCAATCAGGAAGAAGGCGGCGGGCAGTCGATGAGCATGGGTCTTTCGGGTATTAAGGAGCGTGTCCGGGCGCTTGACGGACGGATGAAAATCGACACAAGTGAAGGAAACGGTTTTAAAGCGGATATTGAAATGGAATTGTAA	MKKLIKPFTISIIILSVIYVCYVAFININGIIVGTKIVENKHKVLEVAEMSKTSYGKFVGLKQGDMIVKINNKKPSLKYLKGDTLYHVKSLDIKRNGQQIHLDDFDIVNLNGYYSYFLFVLPLVFYFLSLICIFYIVKVSQTRKSIAGYVLILFLLDISIAYMSAGGPSRGHEFNRYINLFTFIASPIFYLQFIQEYFKELGKKFANRLISFLYIIPIINLLNEPFRHIYSYDFTTNLNLVSFFFVTLYAFISVFYHLYKFKYSEHAYILKILILTNTLSFLPFLLFYVIPIILTGSYILDALAAASLLVLIPLGLVYQFVANKIFDIEFILGRMRYYGLLALVPALFIVGISAWFESIDIQMNPAQQTVFFFIMIFVIFYFKEVMDYKFRLKRFSEKFNYQDSIFKYTQLIRSITSLKQMFKELKKTILDVLLVSKAYVFEVTSEGDILYHDKKDNEPDWEMYSKEFKKVTSEIGKIIELNRGFLIKIGERGGSSYVLLCLSTINTPRLTRDEISWLKTLSFYTSVSMENVIQIEELMNHLQDLKQQGSNPVWLKKLMFTIEEKQRSDLARDLHDSVLQDLISLKRQCELFLADFKKEEPCQLEVQDKLHQMNEQMSDVILMTRETCHELRPQLLYDLGLVKAVSKLAAQQQERAPFHIRLNTGRFTAALDLDTQLNLYRIIQEFLSNAMKHSQANEVLIMLISIQNKVILHYEDDGVGCNQEEGGGQSMSMGLSGIKERVRALDGRMKIDTSEGNGFKADIEMEL	PGPT0025805_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025805-comP-K07680	NA	NA
D1-12_02971	993			hypothetical protein	ATGTGTTTAGATGCTGACCAAATCAAGAATAAAATGAAGAGTATAATAGAGCGGAACATATTTAATGAACATCTAATGCAGCTCCTTCTCAGTTTTATTGAACCAAAAAAAAATTTTTCTCTAGCTGAATCAGCTGTTTTGCATTATGTGATCTTTGACGGCGAAAATCAAGAAACCGCAGTGAACTTAGGTGCCGCTATTGAAATTCTTACACTTACTTCCGATATAATTGATGATCTGGAAGATGAGGATAATCGAGATGCTCCTTGGATGAAGATAGATCGTTCACTAGCATTAAGTGCAGCATTTTCATTATACACAGCAGGATTGCAAAGCATTAATTCGATTAGTACGAATCCTTTAGTGATTAAGTATGTATTAAAATATATTCAAGATGCAATGCAGGGTCAACATGATGATTTGATCAATAAACCAAAGACAGAAGATGAATGTTTAGAGGTAATCAAGTTAAAATGCGGAAGTTTATTTGCGTTAGCAAATGTTACTGGTACGCTTTTAGCAACTGGAGAATTCAATAAGTCTGTTGAAAGTTATTCCTATTATAAAGGGATATTTGAACAAATTTCCGGCGATTATCATGCTATTTTTAAGGATAATACTAGTGATATTCTGAAAGATAAACATACATTGATTAATTTATATCTTAAGCGCTTGTTTAATAAGTCTTCTCAAGAATTGCTTTGTATATTCTCAGATCAAAAATTATATTCGCAACTGCGGCTTAATAAAAAAGAGTTTATTCAAAAGCTGTATGATTCTGGAGCATCTCAATATGTTTCGGTTTTATACCAACTATACATGTATAAGTGTGAAACTGAAGTTGAAAATTTAAATTTAGATATAAAGAAGATAAAAATAATAAAAAAACACTTGTTGAATAATAAGAATAATAAGAAGGATGATGAAGATGCAGAATTTAATAAATTATTTTTTGAATTATCCGGATGTATTAAAGAAACTGAAAAGCAATGA	MCLDADQIKNKMKSIIERNIFNEHLMQLLLSFIEPKKNFSLAESAVLHYVIFDGENQETAVNLGAAIEILTLTSDIIDDLEDEDNRDAPWMKIDRSLALSAAFSLYTAGLQSINSISTNPLVIKYVLKYIQDAMQGQHDDLINKPKTEDECLEVIKLKCGSLFALANVTGTLLATGEFNKSVESYSYYKGIFEQISGDYHAIFKDNTSDILKDKHTLINLYLKRLFNKSSQELLCIFSDQKLYSQLRLNKKEFIQKLYDSGASQYVSVLYQLYMYKCETEVENLNLDIKKIKIIKKHLLNNKNNKKDDEDAEFNKLFFELSGCIKETEKQ	PGPT0025800_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0025800-comQ-K02251	NA	NA
D1-12_02972	141	degQ		Degradation enzyme regulation protein DegQ	GTGGAAAACAAATTAGAAGAAGTAAAGCAATTATTATTCCGACTTGAAAATGATATCAGAGAAACAACCGACTCATTACGAAACATTAACAAAAGCATTGATCAGCTCGATAAATTCTCATATGCAATGAAAATTTCTTAA	MENKLEEVKQLLFRLENDIRETTDSLRNINKSIDQLDKFSYAMKIS				NA	NA	NA	NA	NA
D1-12_02973	342			hypothetical protein	ATGCATTATGTGTATCCATGCTGTCCTGTTTTCGCCGCGCCATACCGGCATCCAGCGCCCAGTGCCCCGGTTCACGCAGATATTTTGACAGCGTCCGCAAAAGAAGCTGCGGGCATGCTGGAGGATGCGCGCCTGCTCCTTGCGCGGCTGTCGGCGTCAAAAGAGCTTGCGCGCCGCATCCTCACCGCAGCGCAATCATCTGACACCGCAGCGGTCAAGCGGCTCATTAAGCAGACCGGCATCAAAAATGACTTTGACGTGACGTATAATCCCGACGGCATCCGTGTCAGGCTGGTCAGAGAGCAAAGCCGGTTTATCATCGCCCTCAGGTGGTCGGCTTAA	MHYVYPCCPVFAAPYRHPAPSAPVHADILTASAKEAAGMLEDARLLLARLSASKELARRILTAAQSSDTAAVKRLIKQTGIKNDFDVTYNPDGIRVRLVREQSRFIIALRWSA				NA	NA	NA	NA	NA
D1-12_02974	1224	cdgJ	COG3434	Cyclic di-GMP phosphodiesterase CdgJ	ATGAAGGTGTTTGTTGCGAGACAGCCTATCTTCAACAGAAACGAACAGGTTGTTGCTTATGAACTTCTTTACCGGGAGAGCGAAGAGAACCGTTATTCGGCCGCTGACGGAGATAAAGCTACGACGGATCTCATTATTAACAGCTTTATCAACATCGGAATCGAAAAGCTGACTGAGGGGAAACGCTGCTTTGTGAATTTTACAGAAAGCCTGATGTTTTCAGATCTCCCTACCTCCTTTGATCCTGACCAGCTTATTATCGAAATTCTTGAGGACATACCGATCACTCCGGCACTCATCTCAAGATGCAGACAGCTGAAGAAATTAGGATATACATTAGCACTTGATGATTTTTACGCCATCAATCCGGAAAATGAAGAATTAGTGGAACAGCTGATGAAATATATTGATATTTTAAAAATCGACTTTTTGCAATCCTCGCGTCTGGAGCGCAAAAAAATCATTCAGACGTACAGCTGTAAAAGTCTGATTTATTTAGCGGAGAAAGTGGAGACGAGAAAAGATTATAAACAGGCGGCCATAGACGGCTTTCACCTGTTTCAAGGATATTTTTTCAGTGAACCGCGTGTCATCAGCGGAAATGATCTGACGTTTCATTTTCATTCTTACTACCAGCTTTTAAGCGAATTAAACAATGACCAGCCCAATATACAGCGCGTGACGGAATACATAGAGCGGGACGTCAGCTTATCGTATCAGATTCTGCGTTTTTTAAACGGATCGCAAACAAGGCTGAAAAAAAAGATAGACAGCATCCAGCAGGCCATCATGATGCTCGGGCTGAATGAGATTAAGCGCTTGATTTACATTCTTTCATTCAGAGATTTAACGGCGAAAAGCCACTCAAGCCAAAAAGAAATCATTAAGATTTCCTTAATCAGGGCCAAACTGTGCGAACTGCTGGCGAAAAGAACCGGAAGACCCCAGCCCTCTTCTTACATGCTGATCGGCATGTTTTCGCTCATCGATACGCTTCTCCACAGGGAGCTGGAGGATATCATCAAAGAACTGCCTTTAATCGATGAAGTCGGACAGGCGCTGCTCGGTTATGAAAACGATTATTATAAGATGCTCGCGCTCGTCAAAGCCATTGAATGCAACAACTGGGACTGTGACGAGTGGGGAAAAGAACTGAACAAAGAAGAAGCGTATGAATGTTACCTACAGGCGATCGAATGGTGCCGGCAGCTGATCGTGGATTGA	MKVFVARQPIFNRNEQVVAYELLYRESEENRYSAADGDKATTDLIINSFINIGIEKLTEGKRCFVNFTESLMFSDLPTSFDPDQLIIEILEDIPITPALISRCRQLKKLGYTLALDDFYAINPENEELVEQLMKYIDILKIDFLQSSRLERKKIIQTYSCKSLIYLAEKVETRKDYKQAAIDGFHLFQGYFFSEPRVISGNDLTFHFHSYYQLLSELNNDQPNIQRVTEYIERDVSLSYQILRFLNGSQTRLKKKIDSIQQAIMMLGLNEIKRLIYILSFRDLTAKSHSSQKEIIKISLIRAKLCELLAKRTGRPQPSSYMLIGMFSLIDTLLHRELEDIIKELPLIDEVGQALLGYENDYYKMLALVKAIECNNWDCDEWGKELNKEEAYECYLQAIEWCRQLIVD	PGPT0016220_178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016220-cdgJ-K07181	NA	NA
D1-12_02975	1467	pncB		Nicotinate phosphoribosyltransferase	TTGGTGGAGCATGGTTTTAAAGACGACAGTTTGTCTTTACATACAGATCTTTATCAAATTAATATGGCCGAAACGTACTGGAGAGACGGCATTCATGAGAAAAAAGCGATTTTTGAGCTTTTTTTCAGAAAGCTTCCCTTTGAAAACGGCTATGCGGTATTTGCGGGCTTAGAAAAAGCAATCGAATACTTGGAGAACTTCAAATTTACCGACAGCGATCTGAATTATTTAAAAACGGAATTGCACTATGCTGATGATTTCATTGATTATTTACGGGATCTTTCTTTTACCGGATCTCTTTACAGCATGAAAGAAGGCGAGCTCGTTTTTAACAACGAACCGATTATGCGGGTCGAAGCGCCCCTGATCGAAGCCCAGCTGATTGAGACGGCTCTGCTTAACATTGTGAATTACCAAACATTAATCGCCACGAAAGCGGCCCGCATTAAAGGCGTTGTCGGTGACGAAGACGCCCTCGAATTCGGAACGCGGCGCGCCCATGAAATGGATGCGGCTATGTGGGGAGCGAGAGCGGCTCTGATCGGCGGCTTCAGCGCAACGAGTAATGTAAGAGCCGGAAAGCGTTTTAATATACCGGTATCCGGCACGCACGCTCATGCGCTCGTACAAGCGTACCGCGATGAATATACGGCATTTAAGAAATATGCGGAGACCCACAAAGACTGCGTATTTCTCGTAGATACGTACGATACGATCCGTTCGGGCATGCCGAATGCGATTAAAGTCGCAAAGGAATTCGGCGACCGGATCAACTTCATCGGCATCCGCTTGGACAGCGGGGACTTGGCGTACCTGTCAAAAAAAGCGCGTGAAATGCTTGATGAAGCGGGTTTCACAGACGCAAAGGTCATTGCTTCAAGCGATCTTGACGAGCACACGATATTAAATCTGAAATCCCAAGGAGCGAAAATCGATACGTGGGGCATCGGCACGAAGCTGATTACCGCATACGATCAGCCGGCCCTCGGCGCGGTTTACAAGCTTGTCGCCATTGAAGAGGACGGCAAGCTGACTGACACCATTAAAATTTCGTCAAACCCTGAAAAAGTGACAACGCCGGGAAGAAAGAGAGTATACCGGATTATCAACAAGCTGAATCACCACTCGGAAGGTGATTATATCGCGCTTTATGACGAGCGGGTAAATGATCAGAAACGCTTAAAAATGTTCCATCCCGTCCACACGTTCGTCAGCAAATTCGTCACTGACTTCTATGCGAAAGACTTGCATGAGCCGATCTTTGAAAACGGCGTTTTATGCTATGATAATCCCGAAATTACCGACATCCAGCAATACGTGCAGGATAACCTCAAACTTCTGTGGGAGGAATACAAACGGATCAGCAAGCCGGAAGAATATCCGGTCGATTTAAGCGAAGACTGCTGGAGCAACAAGATGCAGCGGATTCATGAAATCAAAAGCGAGCTGAAACGGGAACTTGAATAG	MVEHGFKDDSLSLHTDLYQINMAETYWRDGIHEKKAIFELFFRKLPFENGYAVFAGLEKAIEYLENFKFTDSDLNYLKTELHYADDFIDYLRDLSFTGSLYSMKEGELVFNNEPIMRVEAPLIEAQLIETALLNIVNYQTLIATKAARIKGVVGDEDALEFGTRRAHEMDAAMWGARAALIGGFSATSNVRAGKRFNIPVSGTHAHALVQAYRDEYTAFKKYAETHKDCVFLVDTYDTIRSGMPNAIKVAKEFGDRINFIGIRLDSGDLAYLSKKAREMLDEAGFTDAKVIASSDLDEHTILNLKSQGAKIDTWGIGTKLITAYDQPALGAVYKLVAIEEDGKLTDTIKISSNPEKVTTPGRKRVYRIINKLNHHSEGDYIALYDERVNDQKRLKMFHPVHTFVSKFVTDFYAKDLHEPIFENGVLCYDNPEITDIQQYVQDNLKLLWEEYKRISKPEEYPVDLSEDCWSNKMQRIHEIKSELKRELE	PGPT0013375_949	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
D1-12_02976	552			hypothetical protein	ATGAAAAAAGCATTTATATGCATTGATTATACGAATGATTTTGCAGCAGAGAACGGGGCATTAACCTGCGGAGAACCCGCGAGACAGATTGAAGATACGATTGTCAGTTTGACGCAAGCATTTATAGAAAACGGTGATTACGTTGTCTTTGCGGTAGATTCGCATGATGCAGACGATGACTTTCATCCCGAGACACGCCTGTTTCCTCCGCATAATATCAACGGCACGGAGGGCAAAGAGCTGTACGGAAGGCTATCGCCTCTTTATGAGAAACATAAACACGCAAAAAACGTAAATTATATGGAAAAAACGAGATATTCTGCTTTTGCGGGAACGGATTTAGAGCTGAAACTGCGGGAACGGCAGATCACTGAGCTGCATCTTGCGGGCCTGTGCACGGACATCTGCGTTCTTCACACGGCGGTTGACGCCTACAACAAGGGCTTTCAGATCGTCATTCATCAAAACGCTGTGGCCAGCTTTAATCCGGAAGGGCATGAATGGGCCCTGTCCCATTTTAAGAACAGCATCGGAGCGCAAGTGGCAGAGTAA	MKKAFICIDYTNDFAAENGALTCGEPARQIEDTIVSLTQAFIENGDYVVFAVDSHDADDDFHPETRLFPPHNINGTEGKELYGRLSPLYEKHKHAKNVNYMEKTRYSAFAGTDLELKLRERQITELHLAGLCTDICVLHTAVDAYNKGFQIVIHQNAVASFNPEGHEWALSHFKNSIGAQVAE				NA	NA	NA	NA	NA
D1-12_02977	399	yueI	COG5506	putative protein YueI	ATGAGCGACAAAACGGTTGACCTTTATTTACAGCAGGGGATGTACGGCCCTCTGCAGACGAAACCGGATGAACGCCATTTATTTTTAGGCTCGCTCCGTGAAAGAGTCATCATTGCCCTGACGAAGGGACAGGTGCTGCAAAAGCAGCCGTATGAAGAAGTGAAACAGGCGCTGAAAAGCCGAAAAGACGCGGTGCTCTATATAAACGGAAGGCTCCCGTATCATGCTTATTCACCATATATGAAGCTTGCCGCACTTGCCGGTGTCCGAAGCTCCGTCATATCGGACCTTCAATTCGAAACGCCGCTCGGCCTGGTTTTTGCCGCCGATTATGCCGTGAACCTTGACGGCATTTACGTACAGGATGACATTTTTCAGCGCTCACTCCTGAAATCTTAA	MSDKTVDLYLQQGMYGPLQTKPDERHLFLGSLRERVIIALTKGQVLQKQPYEEVKQALKSRKDAVLYINGRLPYHAYSPYMKLAALAGVRSSVISDLQFETPLGLVFAADYAVNLDGIYVQDDIFQRSLLKS				NA	NA	NA	NA	NA
D1-12_02978	249			hypothetical protein	ATGAAAATCAGAAAAGCGAATATTACCGTGCAGTCCGGAATGATCGGTGATGTATATCTGCATGAAAATAAAAAAGAACAGCATACCCTTGTAGCCGTTCCGGAACTTGAGTGGAGCACGATCATTTCCTATGAGGAAGAGAAAAAGGCGCTGGCGCAGCGGCTTTTACAATCATTCAGCAAGCTGATTGAAGAAGAGCCCGCCGGAGAGCTCGCCGGAAAGATCTCCCATTGGGTGGCTGAAATGTAA	MKIRKANITVQSGMIGDVYLHENKKEQHTLVAVPELEWSTIISYEEEKKALAQRLLQSFSKLIEEEPAGELAGKISHWVAEM				NA	NA	NA	NA	NA
D1-12_02979	222	gerPF_3		putative spore germination protein GerPF	ATGCCTGCAATTGTGGGACCGATTTATATTATGAGTTTAGCCGGAGACGCTGCGGCGAGCTTCGGTGACGTGTTTGCCATTTCTCCCAAAGCCGTTGACCACTCAGGCGCGGGGGCAGGGGCGTTTCATTCCGGAGATTTTATCAAAGTTACTAATAAATTCAGCAAAACGCGCTTTGAAGACATCGATGTGTTTGACGAACCTGATTGGTTTAACGCGTGA	MPAIVGPIYIMSLAGDAAASFGDVFAISPKAVDHSGAGAGAFHSGDFIKVTNKFSKTRFEDIDVFDEPDWFNA	PGPT0025065_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025065-gerPA-K06299	NA	NA
D1-12_02980	1104			hypothetical protein	TTGAAATCAAAGGTCCATTTTTGGACGCTGCAAATTTTGCTCGTTTTGCTCATTATTTACGTATCAACGAAAGTCTCGTTTATTTTTCAGCCGTTTTTCGGTTTTATCACCACTCTGTTTTTTCCGATTTTGATCTCGGGCATTTTGTTTTTCATTTTTAATCCGATCGTGCGCCTGCTTGAGAAAAAAATCCCCCGGACATTGGCGATCCTGCTCATTTATCTCGTTTTCATCGGCCTGATTGCCTTTATGTTCACCGCCATCGGACCGATTGTGGCTTCCCAGGTCACGGGGCTGATTAACAATTTCCCTGATTACATTCATCAGATTCAAGTCTTGACGGCGCAATTATCCCATTCCAAATGGTTTACGTGGATGATGACGCAGGATTATGTGTCGATAGAAAAAATCCAGCAGTCTCTGACGGGATTTTTACAAAGCCTTCCGCAAAATATTACGGCAAGCCTGTCGGCCGTGTTCGGCGTCGTTACGAATATCACGCTTGTCGTGATCACCGTTCCGTTCATTTTGTTTTATATGCTGAAGGACGGCCGGCGGTTTCCGCTCTTGGCAGTCAAAATCCTGCCTTCTTCCTACCGGGCGGAAGGCAGGAAAATATTTAACGACTTATATGTCACATTGGCCGCCTATTTCCAAGGCCAGCTGCTGATTTGTCTCTTTGTCGGAACGGCATGCTTTATCGGATATTGGATCATCGGCCTGCAGTATGCGTTAATTCTCGGGATGGTGATCGCCGTCACCAATATCATTCCGTACCTGGGGCCGTTTCTCGGGGCGGCGCCCGCGGTGATTATCGCGTTTATGGATTCGCCGGCTAAGGCGCTGTTTGCCGTTATTGTTGTCGTTGTCGTCCAGCAGCTTGACGGGAACCTGCTTTCTCCGCTTGTCATCGGGAAACGGCTGAATACCCACCCGCTCACCATTATTCTTCTGCTTATCGGAGCGGGCAGTTTCGGCGGCATTCTCGCAATGATTCTGGCCGTGCCGGTTTACGCGGTTTTAAAAGCTTTTGTCTTAAATATCGTCCGGCTTATCAAACTTCGTCAGCGGTCAAAGCTCGAAGACAGCCGCAAGCCGAAATAA	MKSKVHFWTLQILLVLLIIYVSTKVSFIFQPFFGFITTLFFPILISGILFFIFNPIVRLLEKKIPRTLAILLIYLVFIGLIAFMFTAIGPIVASQVTGLINNFPDYIHQIQVLTAQLSHSKWFTWMMTQDYVSIEKIQQSLTGFLQSLPQNITASLSAVFGVVTNITLVVITVPFILFYMLKDGRRFPLLAVKILPSSYRAEGRKIFNDLYVTLAAYFQGQLLICLFVGTACFIGYWIIGLQYALILGMVIAVTNIIPYLGPFLGAAPAVIIAFMDSPAKALFAVIVVVVVQQLDGNLLSPLVIGKRLNTHPLTIILLLIGAGSFGGILAMILAVPVYAVLKAFVLNIVRLIKLRQRSKLEDSRKPK				NA	NA	NA	NA	NA
D1-12_02981	237			hypothetical protein	ATGGCCCATCAAGGAAGCCCGCAAATCGTCTCGTTAGTGGACCCTTACGTTTATCAGACCATCCATAAGCTTATCGGCTCAAGGTTTATTATTCAAACCGTCAGACGCATTATCAGAGGACGGCTGATTGATGCCACTCCGGATCACATCGCCATTGAAGAAACGCATGACCGTATATTTTATATCAGAAACCGCCATGTGGTTTCCGTCATGCCTGATTATACCGAACGCGTGTAA	MAHQGSPQIVSLVDPYVYQTIHKLIGSRFIIQTVRRIIRGRLIDATPDHIAIEETHDRIFYIRNRHVVSVMPDYTERV				NA	NA	NA	NA	NA
D1-12_02982	531			hypothetical protein	ATGAGAAATGTAACGTTAATGGATGTCTTCACCCATCCAATCGCACAAAAGTATTTACAGCGTTCCGGTGTCGCCCATGCGATCGCCTGCGCGTTTCATGCATACCGTCTTGCCGTAAAAGCAGGTGTCAGCCCGGATCTGGCGGCGAAAGCGGCTTTACTGCATGACGTCGGCCATTATGAATGGTACACAGACGGCAAATGGGATTATGAAAAGTACAGAAGAAACGATATCCATGCCATTAAAGGCGCGGAACGGGCGCATAAGCTGCTCATCCGGCTCGGTGAAGAACCGAAAGCGGCGAAGGACATTGCGCTGGCGATTCTGCTTCACACCGATTCCTATCTGCCTGAAGGCGAACTGGACAAGAATACGCTCCAGCAAATCGTGAAACAAGCGGATGAACTCGATGAAGAACCCGGCGGACATCACCATTACCGCCAAATGGATCACACGGCCGCGCTCAAACAAATCCAAAAGCTTGATCAGTTAATTGACCAAGCCCAATATCCCATAAGAAGCTCAGTCTAG	MRNVTLMDVFTHPIAQKYLQRSGVAHAIACAFHAYRLAVKAGVSPDLAAKAALLHDVGHYEWYTDGKWDYEKYRRNDIHAIKGAERAHKLLIRLGEEPKAAKDIALAILLHTDSYLPEGELDKNTLQQIVKQADELDEEPGGHHHYRQMDHTAALKQIQKLDQLIDQAQYPIRSSV				NA	NA	NA	NA	NA
D1-12_02983	732	yueD		Benzil reductase ((S)-benzoin forming)	ATGCAGTTTTTTCTTATAACAGGCGCGTCAAAAGGCTTGGGCCGGGCGCTTACGGAACAGGCGCTTCAAGAAGGAGCCGAAGTCGCCGCGCTTTCAAGAACGATAAGCGGGGAAAAGCGCGAGGGACTGACAGAATACAGTGTTGATTTAACCGATCTGGCAGATACCGGGCGGCAGATGAAGGCGATTCTTGATCAAGCAGAGGAGAAGGGATACTCCGCCGTCACACTGATCAACAATGCCGGAATGGTGGAACCGATCAAGCGGGCGAAAGAGGCTTCCGCCGAAGAATTGAACCGCCATTACACCCTTAATCTGACGGCGCCCGTTTTGCTCAGCCAAATGTTCACAAAGCGTTTCGAAGCGTTCAGCGGCAGCAAAACAATTGTCAACATCACATCGGGCGCGGCGAAAAATCCTTATAAAGGCTGGAGCGCGTATTGCAGCTCAAAAGCGGGGCTTGATATGTTTACGAGAACATTCGGGTTTGAACAGGAGGATGAAGAGCTGCCGGTCCGCATGATCTCATTCTCGCCGGGAGTGATGGATACAGACATGCAGGCTGTCATCCGTTCTTCGTCAAAAGAAGATTTTCATGACATCGAACGGTTCCGCAATCTGAAAGAAACGAAAAACCTCAGAAGTCCTGAATACATCGCCGGCGTCATTCACTCACTGATCGCGGGCGAGCCGGAAAACGGACGGATATACGATATCAAAGAATTTTTGTAG	MQFFLITGASKGLGRALTEQALQEGAEVAALSRTISGEKREGLTEYSVDLTDLADTGRQMKAILDQAEEKGYSAVTLINNAGMVEPIKRAKEASAEELNRHYTLNLTAPVLLSQMFTKRFEAFSGSKTIVNITSGAAKNPYKGWSAYCSSKAGLDMFTRTFGFEQEDEELPVRMISFSPGVMDTDMQAVIRSSSKEDFHDIERFRNLKETKNLRSPEYIAGVIHSLIAGEPENGRIYDIKEFL				NA	NA	NA	NA	NA
D1-12_02984	474			hypothetical protein	ATGGAAAAAGGATTGCTGCTGTTTGCTCTCTCCTTTTTCCTTTTCCTTCCCCAAGCCGCAGCCGCGAATGAGGAAAATACTGATGTCAAGCCGAATGAATATGAAAAGAAAGACATTGAAATTCGTACGGATTACCTGCACGACGATGCCTACTCCGAGGAAAAAACGGCGCTTCCGAAAGAACAGAAGGATATCACGTTTGATCAGCCGGCCGAAAACCCGGATGACAAACTGATATCAAATTTGTTTACATCGTCAGACACGGAGCCGAATACGATCAAAGCGCAATCGAAAAAACTGGGTATCACATTTGCCGAGCCGGCGGTGAGGCGTACCTCGGCAGATATGGAAACGGAAGAGAAAAAGACTTCTTATCTGCTGCCTGTCATTTATGCCGTCTTGATCCTCCTCGGGATTGCGGCGATGATCTATCTGATCCCGAAAGTCACGGCGCAGGAAAAGGCAAAGCGGTAA	MEKGLLLFALSFFLFLPQAAAANEENTDVKPNEYEKKDIEIRTDYLHDDAYSEEKTALPKEQKDITFDQPAENPDDKLISNLFTSSDTEPNTIKAQSKKLGITFAEPAVRRTSADMETEEKKTSYLLPVIYAVLILLGIAAMIYLIPKVTAQEKAKR	PGPT0030466_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030466-essA-NA	NA	NA
D1-12_02985	3135	yueB	COG1511	ESX secretion system protein YueB	ATGACTGAACAACGAAAAAGCCTGATCAAATTAATAGCCGCGGTCGTCATCATTCTGCTGCTGCCGGTGCTGTTTTTCCGGTTTATCGGCGATGACCCGGGAAAACAAAAAATCAACGCCACCCGCCAAATCGCAGTCGTGAATGAAGACATGGGCTTACAAACAGATGAAAATGAGGAAGAGGAATCCGTCCATTTCGGCAAAGAAGTAGCGGCCGCTCTCGGCGGCCGTCCGGATTATTCATGGACGGTTGTCAACAGGAGCGCGGCTGAAAACGGTCTGGCGGCTAAGAAGTATGACGCCGTCGTTTACATTCCATCCGATTTTTCAAAAGACATCTTAAGCTATGACAAGGAGCGTCCGCAAAAAGCCACGCTGACATTCAATATCCAAAGCAACCTGAACGCCGTCAACAAAGAAAAGGTGCAGCGTGAGCTTGAAGACGCCCAAAAATCAATGAATAAAAAAATGTCGGCATTATATTGGAATTTCGTCTCACAAAAAGTGAACAATGTCCGAGGCGATTTTGACAAGATCGTCAATAAAGAATCAGAGTTTCAAAACGTCATGTACAACTTTTACAAGCCGAGCTCCAATGACTTGGCAGGTGAAATCAAACGGCAAAAAGACCTGATTGACGAACTGAAAAAATCAATGAATGAAGCGCAGGGCGCGGCAAAAGAAAAACTGACTTCGGCAGATGAAGCCAAAACCACGCTCAAAGACTTTGCCGACACGGTCGAGCGCTACAAACAATATCAAGAAAATCAGAAAAAACTGCTGATGGCCGCGCAGGAACAAAATCAAAAGCAAATCACAACCGGACTGAACGCCATTAAAGCACAGCAGGCCGCCAACCAGTTCAGCACGATGATGAGCGGGCTGTCTTCAGGCATAAATCGGGCGCAGACACAGCTTGACCAGACGGGATCGGCTCTTTTGGCCGCCCAACAGGTGAGAGAAGCGCAGGTTCCTGAGCAGGAACGCGGGATGGCGAATATTCAATCCAATTTACTGGACAATTATTTGACTCAATATAAAGCGCAAGCAAGATTTGAAACACTGAACAGCATCCAAACCCTTATGAAAAGGGATCGGCCGGCATTAACCGTTCCGGAAAAGGACCCGGGGGATGACGGCTCGGATGACCCGAATGAAGAAGAAAAACCGGAAGAAGAAAAACCCGGCGATCTGAAAATTGACCTTGACGATCAGCGTGAAGAATTAAAACGCATCTCTGCTGAAATCAATCACATTTCTGACGGATTAAAAGAACCGGAAAAAGAAAAACCGGAACCGGAAAAACCGGGCCAAGGCGATGACGGTGAAAACTCCGGCGATACCGATCCGAATAACGGAACGGCTCCCGGAGAAGACGGAAAAACGGAAGACGGCACAAAAGAAGAGCAGCCTGCCTCCGATAACACAGGCGATCAGGAGCCAAAAACCGTCCAGACCGCGACAGCCGCTGAAAACGTCACTCCGCCTGCTGATGAGCCGGCGGACGATCCGAACGATCCGAACGATTCTGAAGGGGACGGCGGCACGGACATATCTGAGGCAAAAGAAAGGCTGAACCAAGCCGCAGAGCGCATTCAGCAAATTGAAAAAGAGCTGGAAGAGAAACAGCAGACTCATAATGAAGAACTGAAAAAACGTCTCGATGCTCTTGATGAAGAAATCCAAGGCCTTAAAAAGCAGATTGCCAAAGTTGAAAAACGGGCGGAGAAATTACAGGAAGATCTTGAAAAAACAGTAGAAAAGAGAAAACAAGACTTCAATACCATTTACAGAATGATTGTAAGAACAGAACAGAACATTTTGAACTACCCGTCATTGGATGGCGGCCGCAAATCTGCTCTTGAACAGATATTTACCGCTGTCATCAATACAAAAGAAATATCCGATTTAATGAGTTACTATAATGATTTATCCCTGTATGAGGCGACACTTTATCACTCTCTTGACGCGGGTTCGCTGCCTGATGTGAAAAACAGGGTGCTGAAAGCCCAGCAAGGCGAAGTTCAAACCGTTCTCGCCATCAAACCGGTGGAAACGGCAAGCTGGGAAAACCTGAAAAACAACAAGATGCAGACAGATGAAGACATCAGCAATTTCATTAAAGGCATGACCGAATTCTCGGATAACTACAGCTCGTATATCAGAGATGAACAAGCCGGAGTGCTCGATGAGCTCGCCAGCATTTCAGACAGCGCGGCGAAAGCATCCGATCAGCTGGCTGAAGGCGCTGTGCAGGAAGCGGCCGCGTTCAGCGGAGACGGATTAACCGGAACGATGGCGCTCGGCGCTCAGGATACCGTTGGCCGCGAAGTCCTGCAAATGTCTGACACGATGGGCCATCTGTCAGAACGCCAGTCCGGCATCATCAGCTATACCGACAATATGCAGCAAAGCGTAAATGACGTCCAGCAAAAAGCGGACACCCTGAACAGCAACTGGGGCAAAAACGTCGATTCCACGAAATTGATCAGAAATGACGTGTACGGCATTTTAGGGAACGCGCTCGTTGACGGACAGGAAAACGGCTACGTTTATGATTATCTCGCCAACCCGCTTAAAATCAGCGGAGAGGTGCCGGAAGACCGGGTTCAGAATGTTCCGCCGGTCGTCATTTTGGTGATCGTCCTGATCAGCAGTCTTCTGATCGGCTATTTCAGCTCGTATTATCAGCAGGCGCCGCTTCTTGTCAAAGGCGCGCTCTTTGGGATTTTAAACATTATGGTCGGATTGATGATCAGTCTGTTCGGTCTGAATATCTACTCGCTTCCGGACGATCAGACGATTAAATGGTCAGTCTTTACGATTCTCTTGCTTGCGGCGAGTTCAGCTTTTATCCGGGCAGCCTTTGTCTTCAGCTCGATTACCGGATGGATCGCATCATCAGCGCTCATTCTCTTTTATGTGGCGCCTTTGATCGACCTGATTATGCCGAACTTCACCTTTGACAGTCCGGTTTCGAAAGTCTATATCGATATTCAATACGGAACGGGCCATCTGTTTGCGATGGGGGTAACGGTTCTTGCGATCATTGCGCTGATTGCGGCGGCGCTTCCGCTCGTCATTCGGCTGTTTGCGGAAAAAACGGAGGAAAGTGATCAGTCTTATGAGGCGTAA	MTEQRKSLIKLIAAVVIILLLPVLFFRFIGDDPGKQKINATRQIAVVNEDMGLQTDENEEEESVHFGKEVAAALGGRPDYSWTVVNRSAAENGLAAKKYDAVVYIPSDFSKDILSYDKERPQKATLTFNIQSNLNAVNKEKVQRELEDAQKSMNKKMSALYWNFVSQKVNNVRGDFDKIVNKESEFQNVMYNFYKPSSNDLAGEIKRQKDLIDELKKSMNEAQGAAKEKLTSADEAKTTLKDFADTVERYKQYQENQKKLLMAAQEQNQKQITTGLNAIKAQQAANQFSTMMSGLSSGINRAQTQLDQTGSALLAAQQVREAQVPEQERGMANIQSNLLDNYLTQYKAQARFETLNSIQTLMKRDRPALTVPEKDPGDDGSDDPNEEEKPEEEKPGDLKIDLDDQREELKRISAEINHISDGLKEPEKEKPEPEKPGQGDDGENSGDTDPNNGTAPGEDGKTEDGTKEEQPASDNTGDQEPKTVQTATAAENVTPPADEPADDPNDPNDSEGDGGTDISEAKERLNQAAERIQQIEKELEEKQQTHNEELKKRLDALDEEIQGLKKQIAKVEKRAEKLQEDLEKTVEKRKQDFNTIYRMIVRTEQNILNYPSLDGGRKSALEQIFTAVINTKEISDLMSYYNDLSLYEATLYHSLDAGSLPDVKNRVLKAQQGEVQTVLAIKPVETASWENLKNNKMQTDEDISNFIKGMTEFSDNYSSYIRDEQAGVLDELASISDSAAKASDQLAEGAVQEAAAFSGDGLTGTMALGAQDTVGREVLQMSDTMGHLSERQSGIISYTDNMQQSVNDVQQKADTLNSNWGKNVDSTKLIRNDVYGILGNALVDGQENGYVYDYLANPLKISGEVPEDRVQNVPPVVILVIVLISSLLIGYFSSYYQQAPLLVKGALFGILNIMVGLMISLFGLNIYSLPDDQTIKWSVFTILLLAASSAFIRAAFVFSSITGWIASSALILFYVAPLIDLIMPNFTFDSPVSKVYIDIQYGTGHLFAMGVTVLAIIALIAAALPLVIRLFAEKTEESDQSYEA	PGPT0030471_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VII_SECRETION_RELATED_PROTEINS,PGPT0030471-esaA-NA	NA	NA
D1-12_02986	4476	eccC	COG1674	ESX secretion system protein EccC	ATGAGTCTGTTATGGGTCTTTTACCGAGAGCACGTACAAAAGATTCAGCTGTCTGAACTCCCGCCGTCTCAGCCGATTACGATCGGTCCGGATATGAAAGATACAATCACGTTCGGCACACTTCCGTTACGGCAAAACGCCGCAACCCTTTATCGAAAAGAAACAGATCGTTATGATGTTTTCCTGGGAAATAACTGTGCCGGCGAATTGACAATAGGAAATGAAATGCCCTGCCGGATTGAAGAAGAGACGATGCGGCTTCTGCTCACCCCTGACCAGGAAGAATCCTCCGTTTATTTTATCGGCGGGAAGGATGAGATCGTTTTCTCATCAGAAACAGAGGAAGCGGATATATACAAAGAGCCGTCCTCCGCTCAAACAGGGGCTTTTTATCTGCGAAAGTCGGCAGGATGCTGGTCTGTTGTCCCTGATGGCCAGGACGTTTATGTGAACGGAAAGCTTGCAGAAGCTCCCGAAAGGCTCCGGACGGGAGATGAGCTGCTGTGGAATTTTCTGCGTGTGAGGCTGACGGAGGACGACCTTTTAGAAGTCGTTCATCACGAAAAGCTTCAAACCGGTTTAACCAAAACGGTAAAACCAAGCACCGAAATGAAAAAGAAATACCCGCAATATCGAAGAACGCCGCGCATGGTCTACGATCTTCCCGAAGACCGCGTTTCATTCAGCTTTCCCTCGCAGGAAAGCGAACAGAATAACCGGGGGCTGTGGCTCGTCATTCTGCCTCCTTTGGTCATGCTGATTGTAATGGGGGTTGTCGCCATTATACAGCCGAGGGGCATATTCATCCTTGTCTCTTTGGCGATGTTTATGATGACTCTCATTACGTCCACCGTGCAGTATTTCCGTGAAAAAAACCAGCGGAAAAAACGGGAGGAAAAACGGGAGCGTGTGTACAAGCAGTATTTGGAAAGCAAACGAAAAGAGCTTCAGACGCTGTCGGAAAAACAGCTGCAAGTGCTGACGCATCATTTTCCCCCGTTTGAAAAAATGAAATATTTAACTTCTGAAGTCAGCGGCCGCATTTGGGAGAAATCGCTGGAAAGCAGGGATTTTCTGATGCTTCGGCTTGGAACGGGCACGGTCCCGGCAAGCTACGAGATTTCAATGAGCGGCGGAGACCTGGCGAACCGCGATGTGGATGACTTGATGGAGCAGTCGCAGCACATGCAGCGTGTGTATAAAGAGATCCGCCATGCGCCCGTGACCGTTGATTTACAAGAAGGGCCGATGGGGCTTGTCGGGAAACCCCAGATCGTCAAAAATGAAATTCACCAGCTGATCGGCCAGCTCGCGTTCTTCAACAGCTACCATGACCTGCGGTTTGTCTTTATCTTTCATGAGGACGAATATAAGGAATGGGAATGGATGAAGTGGCTGCCGCAATTTCAGCTGCCTCATATGTATGCGAAAGGATTTATTTACAATGAACAGACCCGCGATCAATTGTTATCGTCCATTTACGAGCTGCTGCGTGAGCGGGATTTGGAAGAAGATAAAGAAAAGAAGATCTTCCAGCCGCATTTTGTCTTTGTCATCACAAATCAGCAGCTGATCGCAGAGCACGTCATTTTAGAATATATCGAAGGCCGGCATGAGCATCTCGGCATCTCGGCAATCATCGCTGCGGAAACGAAGGAAAGCCTGGCGGAAAACATTCACACCCTCGTCCGCTACATTAATGAAGATGAGGGAGACATTCTCATTCAGCAGAAAAAAGCGGTACAGATCCCGTTTAAGCTGGACAGGCACGAACGGACAAACAACGAGCGGTTTTCCCGGACGCTTCGGACATTGCACCATCAGGTCGGAATGACGAATTCCATTCCTGAAACGGTCTCATTTCTGGAGCTGTTTCATGCGAAGGAAGTAAAAGAAATCGGCATCAGGCAGAAGTGGGAGACAAGTGAGTCTGCAAAATCGCTGGCTGTTCCGATCGGCTATAAAGGAAAAGACGACATCGTCTATTTAAACCTGCATGAAAAAGCGCACGGGCCGCACGGATTGCTGGCGGGAACGACCGGCTCCGGGAAAAGTGAATTTCTGCAAACGTACATCCTGTCATTGGCCGTTCACTTCCACCCGCATGAAGCGGCGTTTTTGCTGATTGACTATAAGGGCGGAGGAATGGCCCAGCCGTTTCGCAAGATGCCGCACCTTCTCGGGACCATCACGAATATTGAAGGAAGCAGAAACTTCAGTATCAGGGCGCTTGCATCCATTAAGAGCGAGCTGAAAAAACGGCAGCGGCTGTTTGATCAATATCGCGTCAATCACATCAATGACTATACAAAGCTGTATAAACAGGGAGAAACGGATATTCCGATGCCGCACCTGTTTTTGATTTCAGATGAATTCGCCGAGCTGAAAAGCGAAGAGCCTGACTTTATCAGGGAGCTTGTCAGCGCGGCCCGCATCGGACGGAGCCTTGGTGTGCATTTAATTCTCGCCACGCAAAAGCCGGGCGGCATCATTGACGACCAAATATGGAGCAACTCACGCTTTAAGGTCGCGCTGAAAGTGCAGGATGCAAGTGACAGTAAAGAAATCCTGAAAAACAGTGATGCGGCAAATATTACGGTCACCGGACGCGGCTACTTGCAAGTCGGAAATAACGAAGTGTATGAGCAGTTCCAGTCTGCCTGGAGCGGCGCCCCTTACATGGAAGATGTATACGGCACCGAGGATGACATTGCCATCGTTACCGATACCGGCTTAATTCCGCTGTCTGAGGTGGATGCGGATGATGCGGCGAAAAAAGACGCCCCGGCAGAAATAGAAGCCGTAGTCGAAGAAATCGAGCGGATTCAAAATGAAATGGGCATTGAAAAGCTGCCGAGCCCGTGGCTTCCGCCGCTTGCCGAACGTATCCCGCGCACGCTTTACCCTGCGCAGGAAAAAGACCGCTTCTTCATCGCCTGCGTGGATGAGCCTGATCAGCAAAGACAGGCGCCTCTCGCTTATACGATGATGGATGACGGCAATATCGGCATTTTCGGCTCATCCGGCTACGGCAAGTCAGTGGCTGCCATCACCTTCCTGATGAACTTCGCGGAAGGATACACGCCAGAAGAGCTTCATATGTACATCTTTGATTTCGGAAACGGCACGCTTCTGCCATTGGCAAAGCTTCCGCACACCGCAGACTATTTCTTAATGGATCAAATGAGAAAGATCGAAAAATTCATGATCCGCATCAAGGAAGAAATCGAGCGGCGGAAACGGCTGTTCAGAGAAAAAGAAGTCAGCCATATCAAAATGTACAATTCGCTCAGTGAAGAAGAGCTGCCATTTATATTTATCACAATTGACAATTTCGACATCGTAAAAGATGAAATGCATGAATTAGAAACAGAATTTATCCAGATTTCACGCGACGGGCAAAGCTTAGGCATTTACTTCCTGCTGACCGCAACGAGGGTAAACGCCGTCCGCCAGTCGCTGTTAAACAACATAAAAACGAAAGTCGTCCATTATTTAATGGATCAGTCAGAAGGATACTCCATTTACGGGCGTCCGCCGTTCAGTCTCGAACCGATCCCGGGCCGCGTCATGATCCAAAAAGAAGAACTGTATTTCGCGCAAATGTTTCTTCCGGCTGAAGCGGAAAATGACCTTGAGATGTTCCAGGCGCTGAAAGATGATGTCAAAGCTTTAGCTGAGCGCCACGCCGGAACAGCCGGCCCAGACCCGATTCCGATGCTTCCGGATAGGCTGACGGCCGGCGAATTTTCACTCCGTCTCGGCCCGCATCAAGAACCGTTCCGCATTCCTGTCGGGCTTCATGAGGAAAAGGTCAGCCCTGTGTACTTTGATCTGGGCAAAAATAAACATTGTCTTATTTTGGGCCAGACACAGCGTGGAAAAACAAACATCCTGAAAGTGATGCTGAATCACCTGCTGCGTGAAGGTACGGAACGGGTCGGGCTGTTTGACTCGATTGACCGCGGACTGTCGCAGTATGCGCAGGAAACAAAGGTCAGCTATCTGGACACAAAAGAAGACGTCCGGCAGTGGATCGAAACGGCAGAAGCCATTTTCACGGAGCGCGAAGCTCAGTATGCGCAGGCCGTCAAAAATGGCGATGTGCACAAACTCAGTTTCTCTCCGGTCGTGTTAATGGCCGACGGCATTACAAGATTCCAGCAGACGATCGACACCGCCATTCAGGACAAACTGGCGATGTTTATGAAATCTTACGCGCATGTGGGCTTCAGTTTTATTCCGGCGGGCAATCACAGCGAATTCTCAAAAGGCTATGATTCCTTAACGACGGAAATGAAACAGATCCGCCACGCGATGCTGCTTGTGAAAAAATCCGAACAAAATGTCATTCCGCTGCCTTACCAAAGGCAGGAACCGGACATTCAGCCGGGCTTCGGCTATTTGGTTGAAAACGGGAAGGAGCAAAAAATCCAAATACCTTTATGTTCAGCGGAAAGGGAGGCCGTCAGATGA	MSLLWVFYREHVQKIQLSELPPSQPITIGPDMKDTITFGTLPLRQNAATLYRKETDRYDVFLGNNCAGELTIGNEMPCRIEEETMRLLLTPDQEESSVYFIGGKDEIVFSSETEEADIYKEPSSAQTGAFYLRKSAGCWSVVPDGQDVYVNGKLAEAPERLRTGDELLWNFLRVRLTEDDLLEVVHHEKLQTGLTKTVKPSTEMKKKYPQYRRTPRMVYDLPEDRVSFSFPSQESEQNNRGLWLVILPPLVMLIVMGVVAIIQPRGIFILVSLAMFMMTLITSTVQYFREKNQRKKREEKRERVYKQYLESKRKELQTLSEKQLQVLTHHFPPFEKMKYLTSEVSGRIWEKSLESRDFLMLRLGTGTVPASYEISMSGGDLANRDVDDLMEQSQHMQRVYKEIRHAPVTVDLQEGPMGLVGKPQIVKNEIHQLIGQLAFFNSYHDLRFVFIFHEDEYKEWEWMKWLPQFQLPHMYAKGFIYNEQTRDQLLSSIYELLRERDLEEDKEKKIFQPHFVFVITNQQLIAEHVILEYIEGRHEHLGISAIIAAETKESLAENIHTLVRYINEDEGDILIQQKKAVQIPFKLDRHERTNNERFSRTLRTLHHQVGMTNSIPETVSFLELFHAKEVKEIGIRQKWETSESAKSLAVPIGYKGKDDIVYLNLHEKAHGPHGLLAGTTGSGKSEFLQTYILSLAVHFHPHEAAFLLIDYKGGGMAQPFRKMPHLLGTITNIEGSRNFSIRALASIKSELKKRQRLFDQYRVNHINDYTKLYKQGETDIPMPHLFLISDEFAELKSEEPDFIRELVSAARIGRSLGVHLILATQKPGGIIDDQIWSNSRFKVALKVQDASDSKEILKNSDAANITVTGRGYLQVGNNEVYEQFQSAWSGAPYMEDVYGTEDDIAIVTDTGLIPLSEVDADDAAKKDAPAEIEAVVEEIERIQNEMGIEKLPSPWLPPLAERIPRTLYPAQEKDRFFIACVDEPDQQRQAPLAYTMMDDGNIGIFGSSGYGKSVAAITFLMNFAEGYTPEELHMYIFDFGNGTLLPLAKLPHTADYFLMDQMRKIEKFMIRIKEEIERRKRLFREKEVSHIKMYNSLSEEELPFIFITIDNFDIVKDEMHELETEFIQISRDGQSLGIYFLLTATRVNAVRQSLLNNIKTKVVHYLMDQSEGYSIYGRPPFSLEPIPGRVMIQKEELYFAQMFLPAEAENDLEMFQALKDDVKALAERHAGTAGPDPIPMLPDRLTAGEFSLRLGPHQEPFRIPVGLHEEKVSPVYFDLGKNKHCLILGQTQRGKTNILKVMLNHLLREGTERVGLFDSIDRGLSQYAQETKVSYLDTKEDVRQWIETAEAIFTEREAQYAQAVKNGDVHKLSFSPVVLMADGITRFQQTIDTAIQDKLAMFMKSYAHVGFSFIPAGNHSEFSKGYDSLTTEMKQIRHAMLLVKKSEQNVIPLPYQRQEPDIQPGFGYLVENGKEQKIQIPLCSAEREAVR	PGPT0030468_332	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
D1-12_02987	1287	essB	COG4499	Type VII secretion system protein EssB	ATGACAGGTCATAACAGATCTTATTTAGAAACAGAATTAGACGCCGTCCGGGAAGAAACCGAATCAGGCTTCACGTTCACCTTCCAGCGGGAAAAAATCAAGCTTCTTGACGGGCTGGAAGCAAACGTGATTAAAGATGCTGATCCTTTTTTTCAAAAAGAGGTCTCAGTTTCAGAAGACGAAGTAACCATCACAATCAAACCTCCTTCTTCTTATCAGGCTTTCCGCTATATAAAAGGAAAAGATAAAAAAAGCAGGTGGCAATTTGCCTACCGTCTCGTCCAAGCCGTGAAACAGCATAAGCTGAAACGTCTCAATCTGATTGCCGCCCCTGAAAATATCGTGTTTGATAAAGCGCTGACGCCTTACTTTCTTCATTACGGCGTAAAGGAGAGCCTTCCGCCTTATGAGGAAGATAGAGAAAGGGTGTTAAAAGAGCTCAAAGCCTGTGCGGCGCTTGCAGCTGACGGGGCGTACACCTTCGATGAATATTTGAAGTACAAGGAGACGCTTCACTTCTCTCCTGAGGTGAAAAGCGTGCTAGAGGCGGAGACGATTGAAGAACTGGAAGAAACCATTCAAACCGCAATTGATTCCCTCGAAGAAAGGGACAAGACATACATAAAACTGCCGAAAAAGAAATGGAAAATCCAAAGATACGCCGGTCTGGCGCTTGCCGTCCTCCTTGTGCCGACACTTCTTTACTCCTTATACGTTCTGTTTTTCGCCCAGCCGAAGCAAGAGGCAATTACGGAAAGCAACCGCTATTTTTTAAATCAGCAGTACAGCAAAGTCATTGACACACTCGCTAAATACGATGCGGAAAGCCTCCCGGAATCTGTGCAGTATGAGCTTGCTTCCTCTTATGTGGCAGTTGAAAATCTGAGGGAAGAGCAGCGGAAAAACATCGGGAATCTGGTGACGCTGCAATCAGACCCAAAGCATTTCCTTTATTGGATTGATATCGGCAGAGGGGAAAATGAAGAAGCCATCAAAATCGGCCGCAATCTTGAGTACAACCCGTACATCTGGCTCGGACTTACAAAATATAAACAGCAATTATTAGCGGATGACAGTATGAAAGACGACGAAAAGCAGAAAGAACTGGACGCCGTGGAAAGCGAGCTTGCGAAGGCGAAAAAAGAGGCGGAGGAACAGCATAAAGAAGCGGAGGAAAACGGTGACACCGCCGAAGCTTCCGCCGGACAGGATGAAAGCAAACAAGACAAAGCGAAAGATAACAAAGAGAACGACAAGAAAGATGAGAAAAAAGATGAAAAAAAATAA	MTGHNRSYLETELDAVREETESGFTFTFQREKIKLLDGLEANVIKDADPFFQKEVSVSEDEVTITIKPPSSYQAFRYIKGKDKKSRWQFAYRLVQAVKQHKLKRLNLIAAPENIVFDKALTPYFLHYGVKESLPPYEEDRERVLKELKACAALAADGAYTFDEYLKYKETLHFSPEVKSVLEAETIEELEETIQTAIDSLEERDKTYIKLPKKKWKIQRYAGLALAVLLVPTLLYSLYVLFFAQPKQEAITESNRYFLNQQYSKVIDTLAKYDAESLPESVQYELASSYVAVENLREEQRKNIGNLVTLQSDPKHFLYWIDIGRGENEEAIKIGRNLEYNPYIWLGLTKYKQQLLADDSMKDDEKQKELDAVESELAKAKKEAEEQHKEAEENGDTAEASAGQDESKQDKAKDNKENDKKDEKKDEKK	PGPT0030467_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030467-essB-NA	NA	NA
D1-12_02988	246	yukD	COG5417	ESX secretion system protein YukD	ATGAATATGTATATCGATATTACAATAGATTTAACACATTATAACGGCAGCGTCTTCGATCTCAGATTGTCAGATTACCATTCTGTGAAAAAAGTCATTGATATTGCCCGGCAGGCTCAGCATGTATCCGTTCCGCCGCGTGAAGGCTATTGGATCAGAGTGGTCAATAAAGAAGCGGTTTTTTCCGGAGAACAAAAGCTATCTGACTGCGGCATTACGAACGGAGACCGCCTTGAAATTTTATGA	MNMYIDITIDLTHYNGSVFDLRLSDYHSVKKVIDIARQAQHVSVPPREGYWIRVVNKEAVFSGEQKLSDCGITNGDRLEIL	PGPT0030467_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030467-essB-NA	NA	NA
D1-12_02989	294	yukE	COG4842	Protein YukE	ATGTCTGGATTAATTCGTGTCACACCCGAAGAGCTAAGAGCGATGGCTAAGCAATATGGCGTTGAAAGTCAGGAAGTCATGAATCAGGTTGACCGCCTGAACCGCATGATTTCTGATTTGAAAGGCATGTGGGAAGGTGCTTCAAGTGAAGCATTTGCGGATCAATATGAGCAGCTGAAACCTTCATTTATTAAAATGTCTGAATTGCTGCAAGATGTGAATCATCAGCTCGATCAAACGGCAAATACGCTTGAGTCTACTGACCAAGATATCGCTAACCAAATTCGCGGATAA	MSGLIRVTPEELRAMAKQYGVESQEVMNQVDRLNRMISDLKGMWEGASSEAFADQYEQLKPSFIKMSELLQDVNHQLDQTANTLESTDQDIANQIRG	PGPT0030476_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030476-esxA-NA	NA	NA
D1-12_02990	1230	putR_1		Proline-responsive transcriptional activator PutR	ATGACCAATCCAAAGGATCCATTTAAGTACAGTTTCGACAGGCTTGAAGATGTTGCCGACCATATCAGTGAAGTTCTTCAATGCCCCATTACAATAGAAGACGTTAATCATAAACTGCTTGCATACAGCACGCACAGCGATTGTACAGATCCGGCCCGGACGTCGACGATTATCGGGCGGAGGGTGCCGGAAAAAGTCATCAACAAACTGTGGAAAGACGGAACCATTCCGGCGCTTTTAAAAACGGACCAGCCGATCAAAGTGAAAGAAATTGACGAGGTGGGCCTGAGCAACCGCGTGGCGATTTCCATCTGGAAAAACAGTCAGGTTCTCGGATTTATTTGGGCGCTTGAGATCAAAAAAAAGCTCAATGACGAAGATCTGAAGACACTCCAGCTGGCAGCCAAAGCGGTGCGGAACAAGCTTTTGCACCTGCAGATCCGCAAAACGAAAATCGAAGAGCGGGGCCAGGAGTTTTTTTGGAAAATGCTGACCGGCCATATTTATCAGGAAGCCGAAATGGCCGAAGGGTTTCATAAGCTCGGGATGGCGCTGCCGTCCGTGTTCAGCGTCATGATCATCCGTTTACATGATGAGCTGACTGAAAAGACGGAACAGCAGCTGCAATATTTGCAGGAAACGACACAGCAGATTCATGTCATGCTGGCGACTGTTGATTCAAATGAATTAATCTTATTAGCCGCGCCGAAAACCGATCAGCCTTTTAAAGATTTAAAGCACTTCGCCCTTCATATTCAAAAACAGCTGAAGGAACGATATAAAATTGAGGATGCGTCGATTGCGGTCGGCGGTATTTACGAATCGATTTCTTATGTTTACCGCTCCTATCAGGAAGCGCTTTCCGTATTAAAAGCGAAAGAGCGGTTTGAGAGAGAAACCAAACACCTTTTCAGCTTTTCGGAACTCGGCATTTATCAGTACCTGGATGTGTTGGATGAAAAACGCAAGCACAGCGGCTATATGAACTATTCCCTCTCAAAGCTTGAGCAGTATGACAGGGAGCACCAAGCCGATATGGTAAAAACGCTCGAACATTTTATTGATGCCGACAGCAACGTCAACACCGCCGCTAAAGCGCTTAACATCCATGTCAATACATTGAATTACAGGCTGAAAAGAATCAGCCAGATCGCAGAAATCGACTTAAAAAATGCAAATGAAAAGTTTACGATTTACCTTGATATCAAACTTCGCAGCATGGGTTCGTGA	MTNPKDPFKYSFDRLEDVADHISEVLQCPITIEDVNHKLLAYSTHSDCTDPARTSTIIGRRVPEKVINKLWKDGTIPALLKTDQPIKVKEIDEVGLSNRVAISIWKNSQVLGFIWALEIKKKLNDEDLKTLQLAAKAVRNKLLHLQIRKTKIEERGQEFFWKMLTGHIYQEAEMAEGFHKLGMALPSVFSVMIIRLHDELTEKTEQQLQYLQETTQQIHVMLATVDSNELILLAAPKTDQPFKDLKHFALHIQKQLKERYKIEDASIAVGGIYESISYVYRSYQEALSVLKAKERFERETKHLFSFSELGIYQYLDVLDEKRKHSGYMNYSLSKLEQYDREHQADMVKTLEHFIDADSNVNTAAKALNIHVNTLNYRLKRISQIAEIDLKNANEKFTIYLDIKLRSMGS				NA	NA	NA	NA	NA
D1-12_02991	1131	ald	COG0686	Alanine dehydrogenase	ATGATTATCGGGGTTCCAAAGGAAATCAAAAACAATGAAAATCGAGTGGCATTAACACCTGGAGGCGTTTCACAGCTTATCGGAAACGGCCATCGGGTTCTTGTGGAATCCGGAGCGGGACTCGGAAGCGGCTTTACAAATGAAGATTACGTATCAGCAGGGGCGGAAATTCTGGAGGACAGAAAGCAAGTATGGGATGCGGAAATGGTCATGAAGGTAAAAGAACCGCTGGCTGAAGAGTATGCGTATTTCCGTCAAGGTCTGGTCTTATTCACTTACCTTCATTTAGCTGCAGAGCCGGAATTAGCTAAAGCGCTTACAGAAAAAGGCGTGACAGCTATCGCGTACGAAACGGTAACGGACGGACGTTCCCTTCCGCTGCTTACGCCGATGTCCGAAGTGGCCGGCAGAATGGCCGCTCAAATCGGGGCTCAGTTTCTTGAAAAACCAAAGGGCGGAAAAGGAATTTTATTAGCCGGCGTACCGGGTGTATCCCGCGGAAAAGTCACAATCATCGGAGGAGGCGGCGTCGGAACAAATGCCGCGAAAATGGCTGTCGGACTCGGTGCCGATGTGACAATGATCGATTTGAACGCAGACCGACTGCGTCAGCTTGATGATATTTTCGGGCATCAGATTAAAACATTGATGTCAAACCCTGTAAATATTGCAGATTCCGTCGCGGAAGCGGATCTTCTGATCTGCGCCGTGCTCATCCCGGGAGCCAAAGCGCCGACTCTCGTTACGGAAGAAATGGTTAAACAAATGAAACCGGGTTCCGTCATTGTTGATGTTGCCATCGATCAGGGCGGCATTGTGGAAACCGTTGATCATATTACAACCCACGATAATCCAACTTACGAAAAACACGGCGTCGTTCACTACGCTGTCGCCAATATGCCGGGCGCCGTACCGCGTACGTCTACGCTCGCATTAACGAATGTAACCGTTCCTTACGCGCTTCAAATCGCCAATAAAGGCGCGGCACAAGCCATTGCAGACAGCCCTGCGCTTAAAGCGGGCTTAAATACGGCTAACGGACATGTCACGTATGAAGCGGTAGCCAAAGACTTAGGCTATGACTACGTGCCTGCTGAAAAAGCAATGCAAGGTTCGGCTGCAAAAGCTTAA	MIIGVPKEIKNNENRVALTPGGVSQLIGNGHRVLVESGAGLGSGFTNEDYVSAGAEILEDRKQVWDAEMVMKVKEPLAEEYAYFRQGLVLFTYLHLAAEPELAKALTEKGVTAIAYETVTDGRSLPLLTPMSEVAGRMAAQIGAQFLEKPKGGKGILLAGVPGVSRGKVTIIGGGGVGTNAAKMAVGLGADVTMIDLNADRLRQLDDIFGHQIKTLMSNPVNIADSVAEADLLICAVLIPGAKAPTLVTEEMVKQMKPGSVIVDVAIDQGGIVETVDHITTHDNPTYEKHGVVHYAVANMPGAVPRTSTLALTNVTVPYALQIANKGAAQAIADSPALKAGLNTANGHVTYEAVAKDLGYDYVPAEKAMQGSAAKA	PGPT0020070_381	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
D1-12_02992	678			hypothetical protein	ATGGCTGTTCAGCACTATGGTGTATTAAAAGGCACTGTGTCAGATATGAAAAGGGAAACAGATGATGATTCTCCGCATTTTCAAGTCGAGGTGCTAGGCGAGCCTGATACGCGCTATCGCTGTGCGATCAATGTCATGTCAAGTTCAAAAGAATCAGAGGTTCTGTATGCGGCACGCGATCATTTTGACGCAAGCGCGATCACCCTGCTGCCCAACATTCCGTATGGATATACCCCAATTGATGAAACCAGCCGTGAGCTGGCGCTGGATTATGTCCGCGGCGGATTGTTTGATCCCCGGAACATGGTGCCCCTCCCGCATGAAGTCACCGGTCCGGATAATGACTTAAATGACTTTATTGAGACGTACATGCAAAAAGCCAAATCAGAAAAAGCCACCGTCTATATTTACGGCTCTAAATTCGGGCCGGAGCCGGGCGCTGATAAGATTTTCGGGTTCAAGCCGACAAACGGCATGCATAATATTCATATGAATCAGGGAAACCCAATTGATACACGCTGGAAGAAGGATAACGGAACGTGGCACGACGGCGGTATTTTAATCCAGTTTGCAGACCAGTGGGCCGCGGTCTTTTTGGCTTTTCTGTCTCAGTCATGGTGCACGAATGAAGAAGGCCACCCTTATACATTTTGTGATCATACACAGCTTAACGGCTGA	MAVQHYGVLKGTVSDMKRETDDDSPHFQVEVLGEPDTRYRCAINVMSSSKESEVLYAARDHFDASAITLLPNIPYGYTPIDETSRELALDYVRGGLFDPRNMVPLPHEVTGPDNDLNDFIETYMQKAKSEKATVYIYGSKFGPEPGADKIFGFKPTNGMHNIHMNQGNPIDTRWKKDNGTWHDGGILIQFADQWAAVFLAFLSQSWCTNEEGHPYTFCDHTQLNG				NA	NA	NA	NA	NA
D1-12_02993	216	mbtH	COG3251	Protein MbtH	ATGACAAATCCATTTGAACGGGAAGACGGCTCATACCACGTGCTCGTCAATGCTGAAGGCCAGTACTCACTGTGGCCGGCCTATCTGGATGTGCCGGACGGCTGGGAAACCCGCCTCACGAATGAAACCCGCCCCGTTTGTCTCGAATATATTGAAACAAACTGGCGTGATATGAGGCCGGAAAGCCTGAAACAGGCCGAAGCCGCTAAAATGTAA	MTNPFEREDGSYHVLVNAEGQYSLWPAYLDVPDGWETRLTNETRPVCLEYIETNWRDMRPESLKQAEAAKM	PGPT0003370_682	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-NOCARDICIN_A-D_METABOLISM,PGPT0003370-mbtH|nocI-K05375	NA	NA
D1-12_02994	7128	dhbF	COG1020	Dimodular nonribosomal peptide synthase	ATGCATGATACACAACAGCTGCCTCTGACAGGCGCACAGGCCGGTATCTGGTTTGCGCAGCAGCTTGATCCTGATAATCCGATTTACAATACAGGCGAGTACGTTGAGATAAACGGCGCGATCGATGTGAACATATTTAAAACCGCTCTCGAACGCGTGCTGACAGAAGCCGCGTCATTACACGCCCGCTTCGAGGAGGGGGCAGACGGGCCGAAGCAGATCATCAATCCTCCATTTGAGGCTGCGATCGATGTCATAGATGTGAGTTCAGAAGCTGATCCGAAGCAGGCCGCACTCAGACTCATGCAGACAGATTTGGCTGAGCCCGTCGATATGGCGGCCGGGCCTTTGTTCCGCGACATTTTATTTCAGGCGGGACCGGAACGCTTTTTCTGGTATCAGCGCATTCACCACATTGCGATAGACGGCTACGGTTTTTCACTGCTGGCACGGCGTACGGCGCAAGTGTACACCGCAATACGGGAGGGACGTCCGGATAATGGGCGCTCCTTCGGTTCTTTGGAGGAGCTGGTAAAAGAAGATCAAGAGTACCGCGCGTCTGATCAATTCCTGAAAGATCGGGAATTTTGGATGGAGAAATTTGCGGATGAACCTGATGTCGTCAGTTTGGCGGAAAGAGCGCCGAGAACGTCAACACGTTTTCGGAGAAGCACGGCTTATCTTTCTGAAACGGCTTTACAGCATGTAAAAGCGATTCCGAACTGGCATGAAGCCGTCACGGCCGCAGCGGCGGTATATGTCCATCGGATGACAAACGCAGGGGATATCGTGATCGGCTTACCGATGATGGGGCGGATCGGCTCGATTTCACTGAATATTCCGAGTATGGTCATGAATCTTCTGCCTTTACGGCTTTCTCTTCGCCCGGATATGAATTTTCATGAGGCCGTCAGCCAAGTGGCAAAAGAAATCCGAAACATTCGGCGCCATCAGAAATACCGCCATGAAGATATGCGCCGCGACCTTAAATTGCTCGGAGAAAATCGCAGGCTGTTCGGCCCGCAAGTCAATGTGATGCCGTTTGATTACGCGCTTGATTTCGCCGGAGCGCCGGGCACCGTTCATAATTTATCAGCCGGGCCCGTTGATGATTTGTCAATTAACGTTTACGACAGAGCGGACGGAAGCGGAATGCGTGTGGACTTTGATGCGAATCCGGAAGTGTACAGCGCCGAAGATATTGAAAACCATCAAAAACGATTCCTGCTTCTGTTGGAATCCGCTGTGAAAGACCAGACACAAAAAATCGGCACACTCAACCTTCTGCTTGAAAGTGAACGTCTCCGCGTACTGGAAAGCTGGAATGACACGCGCAAGGCCGAGAAGCAGAAAAGTCTGCCGGAGCTGTTTTACGAACAGGCCGTAAAAACACCGGACCGGCCGGCAATCATCACCGAAAACGAAGAGCTCAGCTATGCCGAATTGAACAAGCGCGCGAACCAGCTTGCCGGCATGCTAAAGGAAAAGGGGCTCGGACCGGAACAATTTGCCGCTTTGCTGCTTCCGCGGTCACAGGAGTTGGCCGTGAGTATGCTGGCCGTTTTGAAAACGGGAGCCGCATACCTGCCGCTTGATCCTGATTTTCCTTCTGAGCGGATCGCATACATGCTCAAAGATGCACAGCCTGCATGCCTGATTACAACGATGGAATTATCCGGCCGCATGCCGGAAGACAGTGATGCAAAAAGGATCATTCTCGATGACCCGGATACGGTAAAAACCGTTGCCGCTCAAAATGCTGACTGTCCCGCTCAGGCGGAATGTTCGCCTTTGCACCCCGCTTATATCATTTATACATCGGGCTCAACGGGCAAACCGAAAGGCGTAGTCGTCACATTAAAAAGCGTAAGCAATTTCCTCTTATCCATGCGGGAAATGTTCCCGCTCGGCGAACAAGACCGCCTGCTTGCCGTTACGACTGCGGCGTTTGATATTTCCGGACTTGAGCTCTTCCTTCCGCTCATCAGCGGGGCGGGGTGCGTCATCGCACGTAAAGAGACGATTCAGGAACCGCGGGCGCTTGCGCACATGATTCACTCATACGGTATTTCAATCATGCAGGCAACGCCGACATTGTGGCATTCATTAGTCACCAATGAACCGGATTCTCTCCGGGCGCTGCGGGTGCTTGTCGGAGGTGAGGCGCTTCCGAACGCGCTTATGCATGCTTTGCTTGAATCAGGCTGTACGGTGACGAATCTGTACGGGCCGACTGAAACAACAATCTGGTCGGCCGCACAGCCGCTTGCAAAAGACCATACGGGGGCGCCTCCGATCGGAACGCCGATTTGGAACACGCGGGTATATGTGCTGGACGCCGCATTGCAGCCCGTCCCGCCGGGAATCGCGGGCGAGCTTTATATCGCGGGCGAGGGGCTTGCCAGAGGTTATTATAACCGTCCTGATTTAACAGCTGAAAGATTCATTGCCGATCCGTACGGCCCCGAGGGCGCGAGGATGTACCGGACGGGAGATCTCGTGCGCTGGCGTGAGGACGGCTCGCTTGATTATATCAGCAGAGCCGATCACCAAATTAAAATCCGCGGGTTCCGGATAGAATTAGGAGAAATTGAGTCAGTGCTGTCGAAATATCCGGGTATTTCGCAGGCCGCCGTCATTGTCCGTGAAGACCAGCCGGGAGATAAGCGGCTGGCGGCTTACGCTGTCGCGGATCAGCCCCTTGATGTCGGCGGACTTCGTGCATATATGGGCGAAAGCCTGCCGGATTATATGGTGCCGGGCGCGTTTGTACAGCTGAAAGAATTGCCGCTGACACCGAATAAGAAGCTCGATCGCAGCGCTCTGCCTGCCCCTGATTTTTCCGCTGTCCTGTCTGACAGAGGGCCGCGGACGCCGCAGGAGGAAATATTATGCGATCTGTTTGCCGAGGTTCTCGGTCTCGCGCGGGTCGGAATTGATGACGGGTTCTTTGAATTGGGCGGACATTCGCTCTTAGCCGGACGCCTGATGAGCCGGGTTCGGGAGACGATGGGCGCAGAGCTTGGCATCGGCCGTCTGTTTGATACGCCGACCGTTGCCGGGCTCGCCGCACAGCTTGACACCGCAAAGAGTGCGCGGCCTAAGCTCAAGCCGTTTGACCGGCCGGAGCATATCCCGCTGTCATTTGCGCAGCTGCGTCTTTGGTTTCTCTACTGTCTTGAAGGGCCAAGCCCGACTTACAACATTCCGGTGATTGTCCGCATGTCAGGCAAGCTTGACCAATCAGCGCTGAAACACGCCTTTTACGATGTTGTCAGCCGTCATGAAAGCCTGCGCACCGTTTTTCCGGAAAATAAGGGATCATCTCATCAGCTCATTTTATCTGCTGAAGAAGCCCGCCCTGTGTTTACAGTGACACGTGCGGACAAAAACGAGCTCCAAGACATGCTTGCCGCTGCGGCACGATATCGGTTTGATCTCGCTAAAGAGCCGGCCGTCCGGGCTGAGCTGTTTGATCTTGGTGGCGGCGAGTATACGCTGATGATTCTCCTGCATCACATCGCAGGTGACGGCTGGTCCTTGAATCCGCTCATGCGTGACTTATCCATAGCCTATATCGCCCGGCAAACAGGTGAAAAAGCAGAATGGGCGCCGCTGGCGGTTCAATATGCGGATTATGCGCTTTGGCAGCAGCAGCTTTTAGGCAGCGCGTCTGATTCTGAGAGCTTAATTGCGCGCCAGCTGGATTTCTGGAAGAAAACGCTTGAAAATGTACCGGATCAGCTGGAGCTGCCGTCTGATTTTCCGCGTCCTGCTGAATCAAGCTACAGGGGCGGCGTCATTCCGGTCAACATTGGCCAAGAGCTTCATGCCAGTCTTCTCTCACTTGCCAGAAATCAGCGCGTAAGCCTGTTTATGGTGCTTCAATCAGGGCTTTCCGCGTTACTGACCCGGCTCGGTGCAGGGACCGATATTCCGATCGGCAGTCCGATAGCCGGCCGCAGTGATGACGCATTGGGAGACCTTGTGGGTATGTTCATTAATACACTCGTACTGAGAACCGATACCTCTGGCGATCCGAGCTTTTGTGAGCTCCTTGAAAGGGTCAGGGAAATGAATCTCGCAGCATATGAACATCAGGACGTGCCGTTTGAACGTCTCGTGGAAGAATTGAATCCGGTTCGTTCCCGGTCAAGACATCCGCTGTTCCAAGTGATGCTCGCATTCCAAAATACGCCTGATCCTGTACTCAGTCTTCCTGATATGGAAACAAGTCTGCAAATCAGCAGTGTCGGATCGTCCAAATTTGATTTGACGCTGGAATTGGCTGAACAGCGCCATGACGACGGTACGCCTGCCGGTATTGAAGGCCTGCTGGAGTTCAGTACGGACTTATTCAGAAAAGAAACGGCTGAAGCACTTGCCGGACGCCTGCTTCTTCTGCTCGAAGATGCCGTATCACATCCGGATAAATCAATCGGAAGCTTAACCATTCTTTCTGATGAAGAGCGCCGGAAGCTTTTGCCGGTTAAACGGGCAAAACAGCATATTCAGCCTCGGCAGACACTGCCTGAATTGTTTGAAATACAGGCCGCCGCAAAATCGGATGAAACGGCGGCAGTATGTGAAGAGAGCGGACTCACTTATAAAGAGCTGAATGAAAGAGCCAATCAGCTCGCGCACATGATGATTGCCCGCGGCGTCGGCCCGGAGCAGTTTGTCGCACTGGCGCTGCCGCGTTCTTTAGATATGATTGTCGGGCTGTTAGCCGTCCTGAAGACGGGGGCAGCGTATCTGCCGCTTGATCCTGATTATCCCGCGGACCGCATCGCTTTTATGTTACATGATGCCAAGCCTGTATTTATGCTCACCAATCGTGAAGGCGCAAGTAAGCTCTCTATCGAAAGCGGCATGCCGGCCTTCATCTTGGATGATCCGCAGAACAAGGAAACACTTCGGCAATATGCCGTCACGAACCCTGAGAATGCCGACCGTATTCGTCCGCTGTCACCGCTTCACCCGGCCTATGTCATTTACACGTCGGGATCAACAGGTGTGCCGAAAGGTGTCATCATTCCGCACAGCAATGTTATCAGGCTGTTTGAGTCGACGCGGCATTGGTATCACTTTCATTCTGATGATGTATGGACGATGTTTCACTCCTACGCTTTCGATTTCTCTGTCTGGGAAATGTGGGGGCCGTTGCTTCACGGCGGACGTCTCGTCGTCGTGCCGCATGACATCAGCAGATCGCCGAAAGCGTTTTTACATCTCCTCGTGAAAGAGCGGGTGACCGTGCTTAACCAAACGCCGTCAGCGTTTTACCAGCTGATGCATGCGGAAAAAGAACACAAAGAGCTGGGGCGTCAGCTCGCACTCAGATATATCATCTTCGGCGGCGAGGCGCTTGAGCTGAGCCGGCTTGAGGATTGGTACAGCCGCCACGCGGACAATCAGCCGGTGCTCGTGAATATGTACGGCATTACGGAAACGACGGTGCACGTCAGTTACCTTGAATTAGACAAAAACATTGCCGAACTGAAGGCAAACAGCCTCATCGGCTGCGGCATTCCTGATCTGAACGTATATGTGCTTGATGACCGGCTGGAGCCTGTGCCTCCGGGCATCACGGGCGAAATGTATGTGGCCGGAGGAGGCGTGGCACGCGGTTACTTAGGGCGGCAAAGCCTGACCGCCGAACGCTTTGTGGCTGATCCGTACGGCCCGCCGGGGACGAGAATGTACCGGACAGGGGATTTAGCCCGTCTGCGGACGGACGGTTCTCTTGATTATATGGGCAGAGCGGACCACCAGATTAAAATCCGCGGCTTCCGGATTGAATTGGGAGAAATCGAAGCGGTTCTCGTCAAACATCCGGATGTCGAGGATGCTGCCGTAGTCGTCCGTGAAGACCGGCCGGGAGATAAACGGCTGGCCGCCTACCTTGTCCGATCTGCCGGCAGCACCTTGGACACGGGGGACATGCGCCGGTTTACCGAAGAAAGCCTGCCGGATTACATGGTTCCGTCAGCTTTTGTCAAAATGAATGAACTGCCGCTGACACCGAATGGAAAGCTTGACCGAAAAGCGCTCCCTGCGCCTGACTTCCAAACGGAGGTCACCGGCCGGGGACCGAGAACGCCGCAGGAAGAAATGCTGTGTGAGCTGTTCGCAGAGGTGCTTCACCTGCCGCGTGTCGGTATTGATGACAGATTCTTTGATTTAGGCGGCCATTCTTTGCTTGCGGTTCATTTAATGAGCCGTATTCGGGAAGCGATGGGAGCCGAGCTGAGTATCGGAACATTATTTGAAGCTCCTACGGTGGCAAGCCTTGCTGAAAGACTTGAGTCAGGAACGGGCGCAAGCGCGCTTGATGTTCTTCTTCCGCTCAGAACGGCAGGAGAAGAAACACCGTTGTTCTGTGTCCATCCGGCCGGCGGTCTCAGCTGGTGTTATGCCGGGCTGATGTCTTCTTTAGAGGCTGATTATCCGATATACGGCTTACAGGCGAGAGGCATCGGAAAAAAAGAACCGCTTCCGCAAAGCTTAGATGACATGGCGGCGGATTATATTGAAAAAATCCGCACCGTGCAGCCGAAAGGGCCGTACCGTCTGCTCGGCTGGTCTCTCGGAGGGAATGTCATTCAGGCCATGGCGACACAATTACAGAGCCGGGGTGAAGAGGTTTCGCTTTTGGTGATGCTTGACGCGTATCCGAATCATTTTCTGCCGATAAAAAATGCGCCTGATGACGAGGAAGCCGTCATCGCGCTGCTTGCCCTGGGAGGGTACGACCCGGACAGCCTCGGGGATCAGCCGCTTGATTTTGACACCGCGCTGACCATTCTCCGCCGTGAGGGAAGCGCATTAGCCAGTCTGGACGAGTCAGTGATGATGAATCTGAAAGACACGTACGTTAATTCTGTCGGGCTGTTAGGAACATACAAGCCGAAGCCGTTCCACGGAGATGTGCTGTTCTTCAGATCCACGATTATTCCGGAGTGGTTTGACCCGATTGAGCCGGATACTTGGAAACCGTATATTACAGGGAAAATCGAGCGGTATGACTTAGACTGCCGCCATAAAGATATGTGCCAGCCGGGCCCGCTTGCCGACATCGGCGCGATTCTGGCAGAGAAATTAAACGGACGGCGTACAGTCCGGTAA	MHDTQQLPLTGAQAGIWFAQQLDPDNPIYNTGEYVEINGAIDVNIFKTALERVLTEAASLHARFEEGADGPKQIINPPFEAAIDVIDVSSEADPKQAALRLMQTDLAEPVDMAAGPLFRDILFQAGPERFFWYQRIHHIAIDGYGFSLLARRTAQVYTAIREGRPDNGRSFGSLEELVKEDQEYRASDQFLKDREFWMEKFADEPDVVSLAERAPRTSTRFRRSTAYLSETALQHVKAIPNWHEAVTAAAAVYVHRMTNAGDIVIGLPMMGRIGSISLNIPSMVMNLLPLRLSLRPDMNFHEAVSQVAKEIRNIRRHQKYRHEDMRRDLKLLGENRRLFGPQVNVMPFDYALDFAGAPGTVHNLSAGPVDDLSINVYDRADGSGMRVDFDANPEVYSAEDIENHQKRFLLLLESAVKDQTQKIGTLNLLLESERLRVLESWNDTRKAEKQKSLPELFYEQAVKTPDRPAIITENEELSYAELNKRANQLAGMLKEKGLGPEQFAALLLPRSQELAVSMLAVLKTGAAYLPLDPDFPSERIAYMLKDAQPACLITTMELSGRMPEDSDAKRIILDDPDTVKTVAAQNADCPAQAECSPLHPAYIIYTSGSTGKPKGVVVTLKSVSNFLLSMREMFPLGEQDRLLAVTTAAFDISGLELFLPLISGAGCVIARKETIQEPRALAHMIHSYGISIMQATPTLWHSLVTNEPDSLRALRVLVGGEALPNALMHALLESGCTVTNLYGPTETTIWSAAQPLAKDHTGAPPIGTPIWNTRVYVLDAALQPVPPGIAGELYIAGEGLARGYYNRPDLTAERFIADPYGPEGARMYRTGDLVRWREDGSLDYISRADHQIKIRGFRIELGEIESVLSKYPGISQAAVIVREDQPGDKRLAAYAVADQPLDVGGLRAYMGESLPDYMVPGAFVQLKELPLTPNKKLDRSALPAPDFSAVLSDRGPRTPQEEILCDLFAEVLGLARVGIDDGFFELGGHSLLAGRLMSRVRETMGAELGIGRLFDTPTVAGLAAQLDTAKSARPKLKPFDRPEHIPLSFAQLRLWFLYCLEGPSPTYNIPVIVRMSGKLDQSALKHAFYDVVSRHESLRTVFPENKGSSHQLILSAEEARPVFTVTRADKNELQDMLAAAARYRFDLAKEPAVRAELFDLGGGEYTLMILLHHIAGDGWSLNPLMRDLSIAYIARQTGEKAEWAPLAVQYADYALWQQQLLGSASDSESLIARQLDFWKKTLENVPDQLELPSDFPRPAESSYRGGVIPVNIGQELHASLLSLARNQRVSLFMVLQSGLSALLTRLGAGTDIPIGSPIAGRSDDALGDLVGMFINTLVLRTDTSGDPSFCELLERVREMNLAAYEHQDVPFERLVEELNPVRSRSRHPLFQVMLAFQNTPDPVLSLPDMETSLQISSVGSSKFDLTLELAEQRHDDGTPAGIEGLLEFSTDLFRKETAEALAGRLLLLLEDAVSHPDKSIGSLTILSDEERRKLLPVKRAKQHIQPRQTLPELFEIQAAAKSDETAAVCEESGLTYKELNERANQLAHMMIARGVGPEQFVALALPRSLDMIVGLLAVLKTGAAYLPLDPDYPADRIAFMLHDAKPVFMLTNREGASKLSIESGMPAFILDDPQNKETLRQYAVTNPENADRIRPLSPLHPAYVIYTSGSTGVPKGVIIPHSNVIRLFESTRHWYHFHSDDVWTMFHSYAFDFSVWEMWGPLLHGGRLVVVPHDISRSPKAFLHLLVKERVTVLNQTPSAFYQLMHAEKEHKELGRQLALRYIIFGGEALELSRLEDWYSRHADNQPVLVNMYGITETTVHVSYLELDKNIAELKANSLIGCGIPDLNVYVLDDRLEPVPPGITGEMYVAGGGVARGYLGRQSLTAERFVADPYGPPGTRMYRTGDLARLRTDGSLDYMGRADHQIKIRGFRIELGEIEAVLVKHPDVEDAAVVVREDRPGDKRLAAYLVRSAGSTLDTGDMRRFTEESLPDYMVPSAFVKMNELPLTPNGKLDRKALPAPDFQTEVTGRGPRTPQEEMLCELFAEVLHLPRVGIDDRFFDLGGHSLLAVHLMSRIREAMGAELSIGTLFEAPTVASLAERLESGTGASALDVLLPLRTAGEETPLFCVHPAGGLSWCYAGLMSSLEADYPIYGLQARGIGKKEPLPQSLDDMAADYIEKIRTVQPKGPYRLLGWSLGGNVIQAMATQLQSRGEEVSLLVMLDAYPNHFLPIKNAPDDEEAVIALLALGGYDPDSLGDQPLDFDTALTILRREGSALASLDESVMMNLKDTYVNSVGLLGTYKPKPFHGDVLFFRSTIIPEWFDPIEPDTWKPYITGKIERYDLDCRHKDMCQPGPLADIGAILAEKLNGRRTVR	PGPT0003165_100	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003165-dhbF-K04780	NA	NA
D1-12_02995	927	dhbB	COG1535	Isochorismatase	TTGGCTATACCGTCTATTCCCGCATATGCGCTGCCGACAGCGTCAGATATGCCTGAAAATAAAGTATCGTGGACGCTGAATCCGAAACGCGCGGTGCTTCTGATCCATGACATGCAGAATTATTTCGTCGATGCTTTTGCGAAAGGTGAGGCTCCGATCACGGAGGCGGCTCAGAATATCAAAAAAATAAAAGAGCAATGCAAAGCACTCGGCATTCCGGTGGTGTATACCGCGCAGCCGGGCAGCCAAGACCCGGCGGACCGCGCGCTGCTGACGGATTTTTGGGGGCCGGGGCTAAAAAGCGGGCCTTATGAAGAAAAGGTCATTCCGGAGCTTGCCCCGGATGATCAGGACATTGTCCTCACAAAGTGGAGATACAGCGCGTTTAAACGGACGAATCTCCTTGACATCATGCGTGAAAGCGGCAGAGACCAGCTCATGATTACGGGAATTTATGCACACATCGGCTGTCTCGTCACAGCCTGTGAAGCATTTATGGATGATATCCAAAGCTTCTTTATCGGAGACGCCGTGGCTGATTTTTCTTCGGAAAAACATAAGATGGCCATCGAATATGCGTCTCAGCGCTGCGCTTACACGGCTTTGACAAACGAAGTACTGGAGCTGCTGGGCGGCGCGCCGGTTTCTGAAGGAGAAGAGAAGGCTTCCGCCGTATTGACAAAAGACCGGGTGCGGGAACAAATTGCGGCGATTCTTCAAGAATCACCGTCTGATATTCCGGATCATGAAGACCTGCTGGATAGAGGTCTTGACTCCGTCAGAATCATGAGCCTTGTCGAACAATGGCGCCGTGACGGAGCTGAAGTGACGTTTGTGGAACTGGCGGAGAACCCGACGCTGGAAGAGTGGTGGAGACTTCTTTCTTCCCGATCTCAAAAAGTCTTGCCGAACGCAGATTATTTATAA	MAIPSIPAYALPTASDMPENKVSWTLNPKRAVLLIHDMQNYFVDAFAKGEAPITEAAQNIKKIKEQCKALGIPVVYTAQPGSQDPADRALLTDFWGPGLKSGPYEEKVIPELAPDDQDIVLTKWRYSAFKRTNLLDIMRESGRDQLMITGIYAHIGCLVTACEAFMDDIQSFFIGDAVADFSSEKHKMAIEYASQRCAYTALTNEVLELLGGAPVSEGEEKASAVLTKDRVREQIAAILQESPSDIPDHEDLLDRGLDSVRIMSLVEQWRRDGAEVTFVELAENPTLEEWWRLLSSRSQKVLPNADYL	PGPT0003215_49	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|BACILLIBACTIN|VANCHROBACTIN|ACINETOBACTIN|CHRYSOBACTIN_METABOLISM,PGPT0003215-entB|vibB|viuB|vabB|angB|dhbB|basF|cbsB|aebB-K01252	NA	NA
D1-12_02996	1626	dhbE	COG1021	2,3-dihydroxybenzoate-AMP ligase	GTGCTGACTGGATTTACGCCATGGCCGGAAGAATGGGCTGACAAATACCGAAAAGACGGCTGCTGGAAGGGTGAGACGTTCGGAGGAATGCTGAAAGAGCGCGCGGCTTTATACGGAAATCAAACTGCCGTGACGTGTAAAGATGTACATTGGAGCTACAAAGAATTAGATGAAAGGGCCGATCGTTTAGCGGCGGGACTGCATAAGCTCGGAATTCAAAAGGAAGACCGCGTTGTCGTTCAGCTGCCGAATATCGCTGAGTTTTTTGAAGTGATTTTCGCGCTGTTCCGGCTCGGAGCACTGCCCGTTTTCGCACTGCCTTCTCATAGAAGCAGTGAGATTACGTATTTCTGCGAGTTTGCAGAGGCGAAAGCATACATCATTCCTGATATGCATTCAGGTTTTGATTACAGAGCGCTTGCCAGACAGGTGAAAGACAAACTTCCGGATTTGGCGCATGTCATTGTGGCCGGCGCAGCTGAAGAGTTTCAAGAACTGAGCAGCCTGCATAGAGAGCCTGTTCAGCTGGAAGATATAAGCCCGGCGGAAGTCGCCTTTTTACAGCTTTCAGGAGGCAGTACGGGGCTGTCCAAGCTGATTCCGCGAACACACGACGATTACATATACAGTTTGCGCATCAGCGCGGAAATATGCGGCTTGGATCATCACAGCGTTTATTTGGCCGCTCTGCCGACAGCGCATAATTATCCGCTCAGCTCGCCGGGTGTGCTGGGAACTTTATATGCCGGAGGCCGGGTTGTTCTGTCACCGACGCCGAGTCCGGATGACTGCTTCCCGTTAATTGAAAAAGAACGTGTCACAATTACAGCGCTCGTCCCGCCGCTTGCGATGGTGTGGATGGACGCATCCGGTTCGCGAAGTGATGATTTATCAAGCCTTCAAGTGCTGCAGGTGGGAGGCGCCAAATTCAGCGCTGAGGCGGCCCGCCGCGTGAAGAGCGCTTTCGGATGCACCCTTCAGCAGGTTTTCGGAATGGCGGAAGGATTGGTGAATTATACGAGACTGGATGATCCTGAAGAGATCATTGTCAATACGCAAGGCAGACCGATGTCACCTTTTGATGAGGTCAGGGTTTTAGACGATAACGGGCGGGATGTCGCCCCCGGTGAAGCGGGACATTTGTTTACACGCGGCCCTTACACGATTCGCGGATATTATAAAGCGCCTGAACATAATGAAAGATCATTCACAGCCGACGGATTTTATCAGACCGGCGATATCGTCAAACTGACGGCGGACGGCTATATCATCGTCGAAGGACGTGCGAAAGATCAAATCAATCGGGGCGGTGAAAAAATAGCCGCTGAGGAGGTGGAAAATCACCTTCTTGCGCATCCTGCCGTTCATGATGCGGCCATGGTTTCAATGCCGGATGATTTTCTCGGGGAGAGATCCTGTGTGTTCGTCATCCCGAAAGGAGAAGCGCCGAAACCGGGAGAGCTGAAAGCATTTTTACGTGAGCGCGGATTGGCGGCATATAAAATCCCCGACCGGATTGAATTTATCGCTTCTTTCCCGAAAACCGGCGTCGGCAAGGTCAGTAAAAAGGATCTTCGCGAAACGATCGCCCAAAAAGTAAAGCCGGCTGAAATCAAACAATCTTAA	MLTGFTPWPEEWADKYRKDGCWKGETFGGMLKERAALYGNQTAVTCKDVHWSYKELDERADRLAAGLHKLGIQKEDRVVVQLPNIAEFFEVIFALFRLGALPVFALPSHRSSEITYFCEFAEAKAYIIPDMHSGFDYRALARQVKDKLPDLAHVIVAGAAEEFQELSSLHREPVQLEDISPAEVAFLQLSGGSTGLSKLIPRTHDDYIYSLRISAEICGLDHHSVYLAALPTAHNYPLSSPGVLGTLYAGGRVVLSPTPSPDDCFPLIEKERVTITALVPPLAMVWMDASGSRSDDLSSLQVLQVGGAKFSAEAARRVKSAFGCTLQQVFGMAEGLVNYTRLDDPEEIIVNTQGRPMSPFDEVRVLDDNGRDVAPGEAGHLFTRGPYTIRGYYKAPEHNERSFTADGFYQTGDIVKLTADGYIIVEGRAKDQINRGGEKIAAEEVENHLLAHPAVHDAAMVSMPDDFLGERSCVFVIPKGEAPKPGELKAFLRERGLAAYKIPDRIEFIASFPKTGVGKVSKKDLRETIAQKVKPAEIKQS	PGPT0003270_379	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003270-entE|psmE|dhbE|basE|angE|aebE-K02363	NA	NA
D1-12_02997	1197	dhbC	COG1169	Isochorismate synthase DhbC	ATGACAAATCAACATTTATTGGCGGAAGTGTCAGCAAAAGAGGTGCTGGACGCTTACAAGCCCGGGGCGTTCTTTTTAGCTTCCCCGAAAAGTACGATGCTTGCGGAAGGAATGTTTGCGGAAGTGCCTGATACAGACGCGGAAAATCAGCTGGATTCACTGCCTGAACGCGTGAGACAGACGCTTCTTGAGGCAAAGCAAGCCGGCATCAAACATCCGATTGCGGCCGGCGCCATTCCTTTTGACAGCAGAAAAGCTTCCCGGCTTTTTGTACCGAAGAATGTCCATACGGCAGGCCCGCTTTCGTTTGCGGAATCTTCCGCAGAAAAGCCGCAATCCAATACATATGACATCTGTCCCGTTCCGGAGCCTGAGGGCTTTATGAGCGGTGTGGAACAAGGCGTATTCAACATTACGGACGGTCCGCTCAGCAAAATCGTGCTGTCAAGGACGCTTCATCTGACCGCTGAAAAGGATATCGACATTCCTCAGGCCGTCAAGCATTTGGCGCAGCACAACCCGCGCGGCTATACATTCGCTGCGGATGTGACGGGAACGTCAGAAACAAGAAAAACGCTTTTCGGCGCAAGTCCTGAACTGCTGCTGTCCAAAAACGGAACATCGATTCTGTCCAATCCGCTGGCAGGTTCCAGACCTCGCAGCACAGATCCCGCCGAGGATCAGAGAAGAGCGGAAGAACTGCTGCAATCAGCAAAAGATCTGCATGAACATGCCGTAGTCGTGGCCGCCGTGGCCGCCGCCCTTAAACCGTTCTGCCGTGTGCTTGATGTGCCGGAAAAACCGTCACTCATTAAAACTGAGGCGATGTGGCACCTGTCCACCGAGGTAAAGGGAGAGCTGCGTGATCCGTCAACGACATCACTTGAGCTGGCCATCGCCCTGCATCCGACACCCGCGGTATGCGGAACGCCGACGGATGCGGCGAGAGAAGCAATTCAGGATATTGAGCCGTTTGACCGCAATTTCTACACGGGAATGGCGGGCTGGTGTGATGCTGAGGGTGACGGAGAATGGATTATCGCACTCCGCTGCGCCGAAGCGGAAACAAGGTCTCTCCGGCTCTTTGCGGGTGCCGGGATTGTCGCCGGATCAAAGCCGCAGGATGAACTGGACGAGACCTCGGCCAAATTCCGCACCATGCTCCGGGCGATGGGGCTTTACCAAGATGAGTTGTAA	MTNQHLLAEVSAKEVLDAYKPGAFFLASPKSTMLAEGMFAEVPDTDAENQLDSLPERVRQTLLEAKQAGIKHPIAAGAIPFDSRKASRLFVPKNVHTAGPLSFAESSAEKPQSNTYDICPVPEPEGFMSGVEQGVFNITDGPLSKIVLSRTLHLTAEKDIDIPQAVKHLAQHNPRGYTFAADVTGTSETRKTLFGASPELLLSKNGTSILSNPLAGSRPRSTDPAEDQRRAEELLQSAKDLHEHAVVVAAVAAALKPFCRVLDVPEKPSLIKTEAMWHLSTEVKGELRDPSTTSLELAIALHPTPAVCGTPTDAAREAIQDIEPFDRNFYTGMAGWCDAEGDGEWIIALRCAEAETRSLRLFAGAGIVAGSKPQDELDETSAKFRTMLRAMGLYQDEL	PGPT0003220_284	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0003220-entC|vibC|viuB|angC|vabC|dhbC|basJ|cbsE|aebC-K02361	NA	NA
D1-12_02998	786	dhbA	COG1028	2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase	ATGGACGCATTGGGAATGAAAGGGAAAACGGCCGTTGTCACCGGCGCCGCTCAAGGCATCGGAGAAGCAACAGCGCTTGCCCTTGCTGAACAAGGCGTAAATGTGGCAGCTATAGATACAAATGAAGACCTGCTTCTCGGGCTTACTGACAGACTTCGGAAAAAAGGCGTGCAGGCGCAGGGGTTTGCCGCAGATGTATCTGACAGTGCGGCTGTCAATGATATCATCGCCGCCGTTGAACGCGACATGGGGCCTATTGAAATATTGGCGAACGTTGCGGGCGTGCTGCGGCCGGGTCCGGTGCAATCCCTCAGTGATGAAGATTGGGATCAAACATTTTCTGTTAATACGACCGGCGTTTTTCATGTATCGCGGGCTGTAAGCCGGTACATGATTGAGCGTCAAAAAGGCGCCATCGTTACGGTCGGTTCGAATGCAGCCGGCGTTCCGCGTGCTTCCATGGCGGCTTATGCGGCGTCAAAAGCGGCTGCCGTCATGTTTACGAAATGCCTCGGACTGGAGCTTGCGGCCCATCATATCCGCTGCAACATCGTATCTCCGGGTTCAACGGAAACCGACATGCAGCGGGCGCTGTGGCAGGACGAGAACGGAGCCCGGGACGTCATCAGAGGTTCGCTTGATACATATAAAACGGGAATTCCGCTTCAAAAGCTGGCGAAGCCTTCTGATATTGCAAATGCCGTTTTGTTTCTGGCTTCTGAACAGGCAAACCATATTACGATGCATGATTTATGCGTTGATGGCGGCGCTACTTTAGGCGTTTGA	MDALGMKGKTAVVTGAAQGIGEATALALAEQGVNVAAIDTNEDLLLGLTDRLRKKGVQAQGFAADVSDSAAVNDIIAAVERDMGPIEILANVAGVLRPGPVQSLSDEDWDQTFSVNTTGVFHVSRAVSRYMIERQKGAIVTVGSNAAGVPRASMAAYAASKAAAVMFTKCLGLELAAHHIRCNIVSPGSTETDMQRALWQDENGARDVIRGSLDTYKTGIPLQKLAKPSDIANAVLFLASEQANHITMHDLCVDGGATLGV	PGPT0003210_121	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-SIDEROPHORES	ISR-ENTEROBACTIN|ENTEROCHELIN,PGPT0003210-entA|vibA|viuA|vabA|angA|dhbA|cbsA|aebA-K00216	NA	NA
D1-12_02999	870	besA	COG2819	Ferri-bacillibactin esterase BesA	ATGGACGGAAAACAAATAAAGCGGGGTTTCGCGCCGGCCGGCCGATACGCGGTTCCGGGCACAGAAGTAAGAGAAATGCGCTCAAAAGGAGGCCGTACGTATCGTATCTTTGTCTCTTTTCCTCAAGAAGAACCGCCTGCATCCGGCTTCCCCGTCATATACCTGCTCGATGCGAATTCCGTATTCGGCACAATGGCCGAAGCTTTGCGGGTGCAAAGCCGACGGCCTGAAAAAACAGGCGTTGTTCCGGCGGTGATTGTCGGAATCGGCTACCCGACAGATCAGCCGTTTTCCGCCGAACGTCACAGTGATTTTACGATGCCGCTTTCTGAATCAGAACTGCCGGTGCATCCGCGCGGCGCGGCATGGCCCGAACAGGGAGGGGCGGAAGCATTTCTGGAGTTTATAGAAGAAGAAGTAAAGCCCGCGATGGAGCGGGATTATCCGATCGACAGAGGCAGGCAGACGATTTTCGGCCATTCGCTGGGCGGTCTTTTTGTGCTGCAAGTGCTTTTGACGAGGCCGGACATGTTTCAGACCTATGTTGCCGGGAGTCCGTCAATTCACTGGAACAAGCGTTTTATTCAGGAAAAAGCGGAACGTTTGTCAGACCGGCTCTCTGCGGAAAATCTTCAAGTCAGCGTATTGCTGGCTGCGGGAGAAATTGAAAAAACACATAAAAGCAGAATCCCGCAGCACGCAGAGGCGCTGTACTCTTTATTATCCGGGTTTGAAGATGATGGAGTCCGTGCTGAATACAGCGAGTTTGAAGGAGAAGGCCATATTTCTGTCCTGCCCGTTTTAATCAGCAGAGCCCTGCGTTTCTGCCTGAATCCGGGAGGGCCGCATACCCCGTATTCTCCCGTATGA	MDGKQIKRGFAPAGRYAVPGTEVREMRSKGGRTYRIFVSFPQEEPPASGFPVIYLLDANSVFGTMAEALRVQSRRPEKTGVVPAVIVGIGYPTDQPFSAERHSDFTMPLSESELPVHPRGAAWPEQGGAEAFLEFIEEEVKPAMERDYPIDRGRQTIFGHSLGGLFVLQVLLTRPDMFQTYVAGSPSIHWNKRFIQEKAERLSDRLSAENLQVSVLLAAGEIEKTHKSRIPQHAEALYSLLSGFEDDGVRAEYSEFEGEGHISVLPVLISRALRFCLNPGGPHTPYSPV				NA	NA	NA	NA	NA
D1-12_03000	597	yedY1	COG2041	Putative protein-methionine-sulfoxide reductase subunit YedZ1	ATGTTTTTCGGGAAAACGAAACAAACAAAACAGTCGGAACGGATTCCGCCAAACCAAAATGTCACAACGAAGTTTCCCGTGCTTCACGCCGGAAATGTTCCTTATTATGAAGATATGTCAAAATGGAATCTGCAAGTGTACGGACTTGTTGACCGTCCTATGCTGTTAAGCTTTGAAGATATCAAAGCCTTTCCGGAAGCCGAAGTGAAAAATGATATTCATTGCGTCACGGGCTGGTCCCGTCTTGATAATATCTGGCAGGGAATACGCGCCAAAGACATCGCTGAGAAAGCGGGCGTGCACAAAGAAGCGGGATTCGTCATTCTGCACGCTGAAGAGGGCTGGACGGCCAACCTGCCGCTTTCTGATTTTACGCGGGAAACATCCCTGCTGGCATATGCGCATAACGGCGAGCCGTTAACGCCAGAGCACGGCTATCCGCTCAGAGGCGTTTTCCCCCATCTTTATTTTTGGAAAAGCGCCAAATGGCTGCGCGGCATTCAGTTCACAAAGGAAAACCACCCCGGCTTTTGGGAGAAAAACGGCTACCATATGAGGGGAGATCCATGGAAGAATGAGCGCTTTACATGGGATTAA	MFFGKTKQTKQSERIPPNQNVTTKFPVLHAGNVPYYEDMSKWNLQVYGLVDRPMLLSFEDIKAFPEAEVKNDIHCVTGWSRLDNIWQGIRAKDIAEKAGVHKEAGFVILHAEEGWTANLPLSDFTRETSLLAYAHNGEPLTPEHGYPLRGVFPHLYFWKSAKWLRGIQFTKENHPGFWEKNGYHMRGDPWKNERFTWD				NA	NA	NA	NA	NA
D1-12_03001	594	bioY_2	COG1268	Biotin transporter BioY	ATGAAACAACGCAACCTTCGTGCGGGCGATATGGCGCTTATCGGCATGTTTGCCGCACTGATGGCCGTCGGCGCCAACATTACATCAATGGCTCCTTTTTTGCAAGTTGCGGGAATTCCGTTATCGCTGCAGCCTTTCTTTTGTCTGTTAGCCGCGATGCTTCTCGGCGCCAGACGGGCAGCCATTGCAATGACGGTATACGCATTGGCCGGACTCGCGGGGGCGCCTGTTTTCGCCCAATTCTCAGCAGGCTTTGCGCCGTTTATCGGAAAGAGCGGCGGATTTATTCTCGCTTACATCCCGGCGGCATTTGCAGCCGGATGGCTGCTGGAAAAAACAAAAAAACCCGGCCGCCTGCATTATGCATGGGCCTCTTTGATCGGTACCGCCGTCATTTATATCATTGGCACGACCTATACGTATATTGCGCTGAAATTATGGCTTCATGCTCCGATCAGCTACGGAATGGCCTGGTTTTACATGATATGGTTTTTCATAAAAGATATCGTTTTAGCACTGTTATTGGCATCAATCGCGCCTGCCGTATACAGGTCTATTCATAAAGCGACGGGGTTCAGCAGAAATCCGGCGTAA	MKQRNLRAGDMALIGMFAALMAVGANITSMAPFLQVAGIPLSLQPFFCLLAAMLLGARRAAIAMTVYALAGLAGAPVFAQFSAGFAPFIGKSGGFILAYIPAAFAAGWLLEKTKKPGRLHYAWASLIGTAVIYIIGTTYTYIALKLWLHAPISYGMAWFYMIWFFIKDIVLALLLASIAPAVYRSIHKATGFSRNPA	PGPT0022050_716	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
D1-12_03002	1329			hypothetical protein	ATGAATGCTGTTGTTGTCGCAGTATTGCTCATGCTCGTCTTAAGCCTGCTGCGTGTCAATATTATTATAGCTTTAATGATCGGCGCGCTTGCCGGCGGGCTGACCGGCGGCTTAGGCCTCGGAGAGACGGTGAAGGCTTTTACGGACGGTCTCGGCGGAAATGCCACCGTCGCGGTCAGCTACGCGCTGCTCGGAGCATTTGCCGCGGCGCTGACAAAGACGGGGCTTCCCGATGCAATGGTGGAAGCGTCTGTCAAACTAATCGGAAAAAAGGAAGATTCGCGGAAAAAAGCACTGTCAAAAGTGTTAATCGTACTGATTATTTTAATCATATCCTGTTTCTCGCAAAACGTGGTGCCCGTTCACATTGCGTTTATTCCTGTATTGATTCCGCCGCTTTTAAAAATATTTAACGAACTTGAAATAGACCGCAGGCTGATCGCGTGTGTGATGACATTCGGACTGACTGCGCCGTATATCGTTCTGCCTGTCGGATTCGGACAGATTTTCCAGGGGATGCTGAGAGATAATATGGCGTCAGCCGGTTTAAAGGTGCCGCTCAGTGATATCCCGTATGCTTTAATCATCCCGACGGCCGGGATGGCGGTCGGTTTAATTTTAGCCGTCATCGTCTTCCGGAAACCGAAGAAATATGAGACGAAGGAGATTGCCGGACTATCGTCTTCTCCTTATACGAAAAAAAGCATTGCCATCGCCCTGATCTCCATTGCCGTGTCGCTTGCCGTTCAGCTCTATCTGTCACAGGTGCTCGGAGTGGAAGGTATGATCATGGGCGCGCTTGCCGGCTTGTTTACGCTGTTTATCAGCGGAGTCATGAAGCGCAATGAAGCGGATAAGCTGATCACGGACGGCATGATTCTGATGGCTTTTATCGGGTTTGTCATGCTTGTTGCAGCCGGTTTTTCAAATGTATTGAATAAAACGGGCGATGTGGCTTCCTTGGTCAAAGCATCAACAGGCTTTATCGGCCACAGCCAATCATTAGGCGCGCTCCTGATGCTGGTGGTCGGTTTATTAATCACGATGGGAATCGGATCATCATTTGCAACCGTACCCGTCATTACGACCATATTTGTCCCGCTGTGCGCTCAGCTCGGATTCAGCCCGATGGCGACGATCGCCGTAATCGGAGCGGCCGCCGCGGTCGGTGATGCGGGTTCTCCTGCAAGTGACAGTACGCTCGGGCCGACGTCAGGCCTCAGCGCCGACGGACAGCACCACCACATTTGGGATACGTGCGTACCGACATTTATTTTCTATAACATTCCGCTTGTGATATTCGGCTGGATTGCCGCGCTTGTCCTGTAA	MNAVVVAVLLMLVLSLLRVNIIIALMIGALAGGLTGGLGLGETVKAFTDGLGGNATVAVSYALLGAFAAALTKTGLPDAMVEASVKLIGKKEDSRKKALSKVLIVLIILIISCFSQNVVPVHIAFIPVLIPPLLKIFNELEIDRRLIACVMTFGLTAPYIVLPVGFGQIFQGMLRDNMASAGLKVPLSDIPYALIIPTAGMAVGLILAVIVFRKPKKYETKEIAGLSSSPYTKKSIAIALISIAVSLAVQLYLSQVLGVEGMIMGALAGLFTLFISGVMKRNEADKLITDGMILMAFIGFVMLVAAGFSNVLNKTGDVASLVKASTGFIGHSQSLGALLMLVVGLLITMGIGSSFATVPVITTIFVPLCAQLGFSPMATIAVIGAAAAVGDAGSPASDSTLGPTSGLSADGQHHHIWDTCVPTFIFYNIPLVIFGWIAALVL	PGPT0020805_328	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
D1-12_03003	1491	pepA		putative cytosol aminopeptidase	ATGTTTTATGCATCTGATCAACTGCGGCATCCCGAAACACTGGTCATCGGTCTTTTTCAAAAAAGCACGCTGAACGGATTTACGAAGGAATTGGATGATAAATTGGACGGTCATCTGACCCAGCTGTTGAAGGATGGTGATGTGTCCGCCAAACGCAATCGTGTATCAAAAGTATACCCTCCGGCTGCGACCGGTATGAAACGTATTTATTTTATCGGCCTGGGAAGAGAAGCGGATTATTCGTTTGAAGATACGAAAGAATGCTTTGCACGAGTATTTCAGCAGGTTCATCAAGATAAAAAACAGGAAGTATCCGTGTTGCTCGATACATTCGTCTCCGGTGAAGTGCCTGCCGCCGATGCCGCTCATGCGCTTTCAGAAAGCTGTCTGCTTGCGGTTTACGAAGTGCAGGATTATAAACATAAATCGAATGAGCCGGATCAGGAACTGAAATCAGTCTGCGCCGTGACCGAAGAAGACCTGAGGGAAGTGCAGGCCGGCCTGAACGTCGGAGCGGCATACGGCCAAGGGACGAATTCAGCCCGCACGCTTGTGAATATGCCGGGTAATATGCTGACGGCCACTGATTTGGCGTCATATGCCGCTGAGCTTGCGGCAAAATACGATTTCGAGTGTGAAATTTTAGAAAAAGATGAAATGGAAGAGCTCGGCATGGGAGGGCTGCTTGCTGTTAACAAGGGCTCATCCGAACCGCCGAAAATGATCGTTCTGAAGTACCAGGGCAAAGATCAGTGGGAAGACGTCATCGGCCTGGTCGGTAAAGGAATTACCTTTGATACGGGCGGATATTCAATTAAGCCGAAAACCGGCATTGTCGGCATGAAAAGCGATATGGGAGGGGCCGCCTCGGTATTAGGGGCAATGGAGATTATTGGCGAACTGCGGCCTGAACAAAACGTGCTCGCTGTCATACCGTCTACGGACAACATGATTTCGTCCGATGCGATGAAGCCGGATGATGTCATCGTTTCGCTCAGCGGAAAAACCATTGAGATCCTGAACACCGATGCGGAAGGGCGTCTCGTGCTTGCCGACGGCATCACATACGCCAAGCAGCACGGAGCCTCTGTCCTCGTAGACGTCGCAACGTTAACGGGCGGTGTCATTGTCGCCTTAGGGAACGAAATGACAGGCGCTATGACCAATCACGCCGCGTTTTATGAACAGGTGGCGGAATCGGCGAAAGAATCCGGCGAGCCGATCTGGCAGCTTCCGATTACAGAAAAGGATAAAAAACGGGTGAGAAACAGTCAGATGGCTGATTTGAACAATTCTCCGGGAAGAGAAGGCCACGCGATTATGGCGGGGGCATTCATTGGTGAATTCGCGGAAAACACGCCGTGGGTTCATCTCGATATTGCGGGAACCGCAACGGCGAATAAAGCGACATGCTTCGGCCCTGCCGGCGCAACAGGCGTCATGGCAAGGACGTTGGCTGTTTTGACTGAGCGGTTTACGCCCGAAAGATAA	MFYASDQLRHPETLVIGLFQKSTLNGFTKELDDKLDGHLTQLLKDGDVSAKRNRVSKVYPPAATGMKRIYFIGLGREADYSFEDTKECFARVFQQVHQDKKQEVSVLLDTFVSGEVPAADAAHALSESCLLAVYEVQDYKHKSNEPDQELKSVCAVTEEDLREVQAGLNVGAAYGQGTNSARTLVNMPGNMLTATDLASYAAELAAKYDFECEILEKDEMEELGMGGLLAVNKGSSEPPKMIVLKYQGKDQWEDVIGLVGKGITFDTGGYSIKPKTGIVGMKSDMGGAASVLGAMEIIGELRPEQNVLAVIPSTDNMISSDAMKPDDVIVSLSGKTIEILNTDAEGRLVLADGITYAKQHGASVLVDVATLTGGVIVALGNEMTGAMTNHAAFYEQVAESAKESGEPIWQLPITEKDKKRVRNSQMADLNNSPGREGHAIMAGAFIGEFAENTPWVHLDIAGTATANKATCFGPAGATGVMARTLAVLTERFTPER				NA	NA	NA	NA	NA
D1-12_03004	477			hypothetical protein	ATGGATGTACTTATGAATTTTCCTTTACTGGCGAGTTTTGCCGCCATTATTTTTGCCCAAGTTGTAAAAGTGCCTATTCAATTTATCGTATCCAAAAAACTTGACTGGTCTCTTGTGACGAGCACCGGCGGCATGCCGAGCTCCCATTCCGCCGCCGTCACCGCGCTGTCAACCGGAGTCGCTTTGGAACAGGGACTGGACTCGCCCCTGTTTGCAGTCGCCGCGATTTTCGCCGTCATTACGATGTTCGACGCTACAGGTGTCAGGCGGCATGCGGGTGAACAGGCGACGGTCATTAATAAACTGGTCATCGACTTTAATCGGTTTGTCAGCGAAGCGAAGGACTTTCAGAAAGCGGAAGAGAAGGAAAAACAGAAGAAACTGAAAGAACTGCTCGGCCATCAGCCGATTGAAGTATTCTTCGGCGGCGTCACCGGTATTGTGCTGACATTGATTTTAGATTATTTCTTTATGTAA	MDVLMNFPLLASFAAIIFAQVVKVPIQFIVSKKLDWSLVTSTGGMPSSHSAAVTALSTGVALEQGLDSPLFAVAAIFAVITMFDATGVRRHAGEQATVINKLVIDFNRFVSEAKDFQKAEEKEKQKKLKELLGHQPIEVFFGGVTGIVLTLILDYFFM	PGPT0024535_469	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024535-yuiD-K09775	NA	NA
D1-12_03005	642	yuiC	COG3584	putative protein YuiC	TTGACGATAATCAGACGCGTATTCATGATCGTGCTCTTTTTGGGCGCATGCCATGCGACATACTTTTCCATAACCGGTGTTGAAGCAAAGGATCTGACAAATTGGATGACGGAACATCGCGGCGCCGTTTTGAAAAACATCGGCACTCCGTTTCAATCCTTACAGAATCAGCCGGAAAAGAAGGCATCAGACAGGGTAAAACCGCTGGAAGAAGCTTTTGACTGGGAACGCTATCCGTCACAAAAGGTGACGGCCACCGGTTATACCGCCGGAGCGGAATCTACCGGAAAATCTCCCGGGCATCCGCAGTACGGAATTACATATTCAGGCGTGAAGGTCAAACGAGATTTATATTCAACTGTTGCGGCCGATCCGTCTGTTTTCCCGATCGGGACGATTCTGTTTATACCGAATTACGGTTACGGGGTTGTCGCCGATACCGGCTCAAAAATTAAAGGCAGCCGCCTTGACCTCTACTTTGACACCGTCAAGGACGTCTATAACAATTGGGGCAAAAAAACACTTGAGGTCTACATGATTAAAAAAGGGAACGGCACAGTGACCGAGGACGAACTTGTAAAGCTGAACGAAACCAAGTCGCTGCAAGTGTTCAGAAATCAATACAAAACGGTAAAAGAATAA	MTIIRRVFMIVLFLGACHATYFSITGVEAKDLTNWMTEHRGAVLKNIGTPFQSLQNQPEKKASDRVKPLEEAFDWERYPSQKVTATGYTAGAESTGKSPGHPQYGITYSGVKVKRDLYSTVAADPSVFPIGTILFIPNYGYGVVADTGSKIKGSRLDLYFDTVKDVYNNWGKKTLEVYMIKKGNGTVTEDELVKLNETKSLQVFRNQYKTVKE	PGPT0025263_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025263-spsC-NA	NA	NA
D1-12_03006	321			hypothetical protein	GTGATTAGTTTGCCGGTTGTCCTGATCTCAATCGTACTATTTTTTGTACTGTTTTTCGGCATAGGCTTTCTGTTGAACATGCTGCTTAGAATGTCGTGGATTATGGCTGTTGTCTATCCGATTGTATGCCTTTTCATTATCAGCAATAAAAAGATGATCAGTTACGTGCAGGCGCCGGGGGAATCCTTTCAAAGCCTGTTTCAGCGCATCATGTCATTAGCGGTTGCGGATGTTGTGATTTTGGCGGGCGGACTGGCGGGAGCCATCATGTCAGGCATTGCCATAAAGGCGCTCAGAAAAAGAGGATATCAAATGTTTTAA	MISLPVVLISIVLFFVLFFGIGFLLNMLLRMSWIMAVVYPIVCLFIISNKKMISYVQAPGESFQSLFQRIMSLAVADVVILAGGLAGAIMSGIAIKALRKRGYQMF				NA	NA	NA	NA	NA
D1-12_03007	1221		COG1252	NADH dehydrogenase-like protein	ATGGCATTGAATAAACCCAAAATCGTGGTTTTAGGTGCAGGTTATGGTGGATTAATGACAGTAACAAGGCTTCCGAAGCATATCGGGGCAAATGACGCTGACATTACTTTGGTCAATAAACACAATTATCATTATGAAACGACATGGATGCATGAAGCGAGCGCAGGAACGCTGCATCATGACCGCTGCAGATATCAAATAAAAGATGTAATCAATGAATCACGGGTCAAATTTGTGCAGGATACCGTAAAAGCGATAGATGTGCAAAATAAAAAGGTGACGCTTTCACAAGGGGACATCCCTTATGATTATCTTGTCATCGGGCTTGGCGCCGTCCCTGAAACATTCGGGATTAAAGGCTTAAAAGAATTCGCTTTTCCGATCGCGAATATTAATACGTCGCGCCAGCTGAAAGACCATATTGAGCTCCAATTTGCGACATACAATACGGAGGCCGAAAAACGCCCTGACCGCTTAACCATCGTTGTCGGCGGAGCGGGCTTTACGGGAATTGAATTTCTCGGTGAACTTGCGAACCGCAAGCCGGAGTTATGCAGATATTATGATATAGATGAAAGTCTCGTCCGGATCGTCTGTGTCGAGGCCGCCCCGACGGTTTTGCCGGGATTTGATCCGGAGCTTGTCGATTACGCCGTTCAATACCTTGAGAGCAAAGGCGTTGAATTTAAAATCGGCACCGCGGTTCAAGAATGCCGCGCAGACGGTGTCACAGTCGGCAAGAAAGATGAAGAGCCGGAAGAAATCAAATCGCAGACCGTTGTCTGGGCCGCGGGCGTGCGCGGGCATCCGATCGTGGAGGAAGCGGGTTTTGAAAATATGCGCGGCCGTGTCAAGGTCAACCCTGATCTTCGGGCGCCGGGACATGATGACGTTTTTATTCTCGGGGACAGCTCGCTCTTTATCAATGAAGAGACGGAACGGCCGTACCCGCCGACTGCTCAGATCGCGATGCAGCAAGGAGAAACGGTCGCCAAAAATCTGGGCGGTTTGATTAAAGGAGGCCAGCTTGAAGAGTTCAAGCCTGACATTAAAGGAACCGTCGCCTCCCTCGGTGAGCATAACGCTGTCGGAGTCGTATACGGCAGGAAGCTCAAAGGCATGCCGGCGTCCTTTATGAAAAAGGTCATTGACAACCGCTCGCTCTTTATGATCGGCGGACTGGGCCTGACGCTGAAAAAAGGGAAGTTTAAATTCTTCTGA	MALNKPKIVVLGAGYGGLMTVTRLPKHIGANDADITLVNKHNYHYETTWMHEASAGTLHHDRCRYQIKDVINESRVKFVQDTVKAIDVQNKKVTLSQGDIPYDYLVIGLGAVPETFGIKGLKEFAFPIANINTSRQLKDHIELQFATYNTEAEKRPDRLTIVVGGAGFTGIEFLGELANRKPELCRYYDIDESLVRIVCVEAAPTVLPGFDPELVDYAVQYLESKGVEFKIGTAVQECRADGVTVGKKDEEPEEIKSQTVVWAAGVRGHPIVEEAGFENMRGRVKVNPDLRAPGHDDVFILGDSSLFINEETERPYPPTAQIAMQQGETVAKNLGGLIKGGQLEEFKPDIKGTVASLGEHNAVGVVYGRKLKGMPASFMKKVIDNRSLFMIGGLGLTLKKGKFKFF	PGPT0004020_4222	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
D1-12_03008	996	yumC	COG0492	Ferredoxin--NADP reductase 2	ATGCAAGAGGATTCAAAGGTTTATGATATTACGGTCATCGGCGGCGGCCCGGTCGGCCTGTTTACCGCTTTTTACGGGGGAATGAGACAGGCGAGCGTCAAAATCATCGAGAGCCTGCCTCAGCTTGGCGGCCAGCTCAGCGCGCTGTACCCTGAAAAATATATTTATGATGTAGCCGGATTCCCGAAAATCCGCGCCCAAGAACTTGTGAACAACTTAAAAGAGCAAATGGCAAAGTTCGATCAGACCATCTGCTTAGAGCAGGCCGTTGAATCTGTTGAAAAACAGGCGGACGGTGTGTTTAAGCTTGTCACGAATTCAGAAACGCATTATTCAAAAACGGTTATTATCACCGCGGGAAACGGCGCATTTAAGCCGAGAAAGCTTGAGCTGGAATCAGCGGAACAATATGAGGGCAAAAACCTGCATTACTTCATTGACGACCTCAATCAATTCGCAGGCAGACGCGTTGCCGTTCTGGGCGGCGGCGATTCCGCGGTGGACTGGGCGCTCATGCTTGAGCCGATCGCGAAAGAAGTCAGCATCATCCACCGCCGTGATAAATTCCGCGCGCATGAGCACAGTGTCGAAAACCTGCATAATTCTAAAGTCAACGTGCTGACACCGTTTGTTCCCGCTGAACTTGTCGGTGAAGACCGGATCGAACAGCTCGTTCTCGAAGAAGTGAAAGGCGACCGTAAAGAAATCATTGAAATTGATGACCTGATCGTAAACTACGGCTTTGTTTCTTCTCTCGGCCCGATTAAAAACTGGGGCCTTGAAATCGAGAAAAATTCCATCGTCGTCAAAAGCACAATGGAAACGAATATCGAAGGCTTCTTTGCCGCCGGAGATATCTGCACATATGAAGGCAAGGTCAAGCTGATCGCCAGCGGTTTCGGCGAAGCTCCGACAGCCGTGAACAACGCGAAGGCTTACATGGACCCGAAAGCGCGCGTCCAGCCTCTGCATTCTACAAGCATGTTTGAAAAATAA	MQEDSKVYDITVIGGGPVGLFTAFYGGMRQASVKIIESLPQLGGQLSALYPEKYIYDVAGFPKIRAQELVNNLKEQMAKFDQTICLEQAVESVEKQADGVFKLVTNSETHYSKTVIITAGNGAFKPRKLELESAEQYEGKNLHYFIDDLNQFAGRRVAVLGGGDSAVDWALMLEPIAKEVSIIHRRDKFRAHEHSVENLHNSKVNVLTPFVPAELVGEDRIEQLVLEEVKGDRKEIIEIDDLIVNYGFVSSLGPIKNWGLEIEKNSIVVKSTMETNIEGFFAAGDICTYEGKVKLIASGFGEAPTAVNNAKAYMDPKARVQPLHSTSMFEK	PGPT0013060_2137	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-12_03009	144			hypothetical protein	GTGGAACAAAAACAGCCCGGGCACAGCCCGAAAGCCCAGAAAATTCAGGACCGGATTATTTTAGGCACGATTTGGGTCGTGTCGGCGCTTGTCATTGCGCTTGTTGTCGGAACCGTCATGAATTATATTTGGATGTTTAAATAA	MEQKQPGHSPKAQKIQDRIILGTIWVVSALVIALVVGTVMNYIWMFK				NA	NA	NA	NA	NA
D1-12_03010	981	guaC	COG0516	GMP reductase	ATGGAAAATGTATTTGATTACGAAGATATTCAGCTGATTCCTGCAAAATGCATTGTTGAAAGCCGATCTGAATGTGATACATCAGTTACGTTGGGCGGACACACGTTTAAACTTCCGGTCGTACCGGCCAACATGCAGACGATTATAGATGAAAACATCGCGGCCTGGCTCGCGGAAAACGGGTATTTTTATATCATGCACCGCTTCGAGCCGGAAAAACGCCTGACTTTTGTCCGGGATATGAAAGCGCGCGGACTGATTTCTTCCATCAGTGTCGGCGTGAAGGAAAATGATTATGAATTCATCCGGGAGCTGAAAGCACAGGAGCTTGTGCCGGATTATATTACCATTGATATCGCACACGGCCATTCCAATGCCGTGATCAGCATGATTCAATTTATTAAAGAACATGTCCCGGAAAGCTTTGTCATCGCAGGGAATGTCGGGACGCCTGAAGCTGTAAGGGAGCTGGAACGCGCGGGCGCTGACGCGACAAAAGTGGGAATCGGCCCCGGGAAAGTCTGCATCACCAAAATTAAAACCGGCTTCGGAACCGGCGGGTGGCAATTAGCCGCGCTTCGCTGGTGCGCAAAAGCGGCGAGCAAACCGATCATTGCTGACGGCGGTATCCGCACGCACGGCGATATCGCGAAATCCATCCGTTTCGGCGCATCTATGGTCATGATCGGATCATTATTCGCCGGCCACGAAGAATCACCGGGACAAACGATCGAAATCGATGGAAAGCTTTACAAAGAATATTTCGGCTCCGCTTCTGAATTTCAAAAAGGCGAAAAGAAAAACGTCGAAGGCAAAAAAATGCATGTCGAACATAAAGGGTCTTTACAGGACACGCTGGTTGAAATGGAGCAGGATCTGCAATCTTCCATCTCTTACGCCGGCGGCAATACACTCGAAGCCATCCGCAATGTCGACTACGTGATCGTAAAAAACTCTATTTTCAACGGCGACAGATTTTAA	MENVFDYEDIQLIPAKCIVESRSECDTSVTLGGHTFKLPVVPANMQTIIDENIAAWLAENGYFYIMHRFEPEKRLTFVRDMKARGLISSISVGVKENDYEFIRELKAQELVPDYITIDIAHGHSNAVISMIQFIKEHVPESFVIAGNVGTPEAVRELERAGADATKVGIGPGKVCITKIKTGFGTGGWQLAALRWCAKAASKPIIADGGIRTHGDIAKSIRFGASMVMIGSLFAGHEESPGQTIEIDGKLYKEYFGSASEFQKGEKKNVEGKKMHVEHKGSLQDTLVEMEQDLQSSISYAGGNTLEAIRNVDYVIVKNSIFNGDRF	PGPT0021450_1030	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021450-guaC-K00364	NA	NA
D1-12_03011	222			hypothetical protein	ATGAGAAGTAAATTATCATTAATCGGTGTGCCGATTGTTATGATTATCGGTTATATCATTTCTTTATCCTTTGAGTGGCTGTTTCCTGTTCTTACTTTTGGGGTGGCAGGACTATATCTCTTTATATTTGCTCCGGTGCAAAATAAATTCATTCGTTACATCTTTTTGTTTATTTTTGTGATTAATCTGTTAGCCAGTGCGGCTCTTTATTTCGGTATTTAA	MRSKLSLIGVPIVMIIGYIISLSFEWLFPVLTFGVAGLYLFIFAPVQNKFIRYIFLFIFVINLLASAALYFGI				NA	NA	NA	NA	NA
D1-12_03012	525			hypothetical protein	ATGAACCGCATGTTGCCGGCAATCAGGACGTCTGTCATTCCGTTAACCGCGTCATTGCTGTTTTTTTCAGGCGGTGTGATCGCTGCGTTTTTTTCCGATCACTTTGTTTCATCAGCGTCTTACAACGGCTCGTCAGGCGCGGTTGAACTGCTGAAAAACAATGCAATCGCTTGTCTGTTTTTAGCCGCGGGTTTTTTTACCTTTGGATTGACCTCAATCTTTTATTTATTCACCAACGGGTTTATTTTAAGCGGCTCTATTATAGAAAATGTGCATAGCGGGGTTCCTTTTTATCAGATTTTTTTACTGCTAATTCCTCATGGTATATTTGAAGTTCCCGCGTTATTATTAAGTGGCGCCATTGGTTTTAAGGGCGTTGAATTGGTCATCAGGCTGTGTTTTTCTAAGGAAAAAAAGATAATCGCTTCAATGTTCAGGCATATTGGAATATTGGTGCTCATAATTATTTGTCTGCTGATCGCCGCTGCCATTATTGAAGCTTACATCACACCAATTTTTAAGTAA	MNRMLPAIRTSVIPLTASLLFFSGGVIAAFFSDHFVSSASYNGSSGAVELLKNNAIACLFLAAGFFTFGLTSIFYLFTNGFILSGSIIENVHSGVPFYQIFLLLIPHGIFEVPALLLSGAIGFKGVELVIRLCFSKEKKIIASMFRHIGILVLIIICLLIAAAIIEAYITPIFK	PGPT0024685_656	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
D1-12_03013	705	lnrL_3	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGATTAAATTAGTGAATATACAAAAAAACTATAGTGAAAAACAGGTGTTGAAAGATATTTCGTTTGAGGTGAAAAAAGGCTCAATTTATGCTTTGCTGGGGACTAATGGAGTCGGGAAAACAACGACTTTGAAAATCATTTCGGGCCTGCTTAAACCGACTTCAGGCCGCGTCATGATTGACGGCAAGGAACTGGATTCAGAAGAGGGGGGGCAACTATCGGCTGATATCGGTTTTGTGCCCGACCATGCTTTTTTATATGATTACTTAACGGGAGTCGAATACTTGCGTTTTACAGCGGAGATGTTTCAAGTGCCGTCTCAGCGGACAAATGATTATATAAAGAATATGTTAGAGACGCTGAAGCTTGCTCAAGACGGAAATCAGCTGATTAAAACATATTCACACGGAATGAAACAAAAATTATCAATTGCGGCCGCGCTCATTCATCAGCCAAAGATATTAATTCTTGACGAGCCGCTGACGGGCATTGATTTAATCAGCGGTAAAACGATACGGACGTTATTAAAGGAGTACGTCAAGCAGGGAAATACGGTCCTGTTATCGACTCACCTGCTGGAGCTGGCACATTCGCTGTGCGATACGATCGGTATTATACATGAGGGCGTTTTTGCGGCGGAGTATCAGTCATCCGAGCATTCATTAGAAGAGATTGAAGAATTGGCTGAGAGTATCTATACATGA	MIKLVNIQKNYSEKQVLKDISFEVKKGSIYALLGTNGVGKTTTLKIISGLLKPTSGRVMIDGKELDSEEGGQLSADIGFVPDHAFLYDYLTGVEYLRFTAEMFQVPSQRTNDYIKNMLETLKLAQDGNQLIKTYSHGMKQKLSIAAALIHQPKILILDEPLTGIDLISGKTIRTLLKEYVKQGNTVLLSTHLLELAHSLCDTIGIIHEGVFAAEYQSSEHSLEEIEELAESIYT	PGPT0006725_26762	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_03014	1656			hypothetical protein	ATGATAGTCAAACAAATTGCGGCTCTTATCAAATATAATACCCTGTCATCGTTTCGAAAAAGAAAGGAAGATTGGGGCATTCCTCAACTCAACAGCAAACTGCTGTCTGCCATTATTATTTCTCTGTTATGTTTATATCTCGTTTTCCTTGGATGCGGTGTTGTATTCGGGACAAAACTGATTCAGCTGCCCCTCAGCGCATGGGGGCAATTTGTTTTAATCGCCGTTTCACTTGAGCAGCTTTTTTGGGCTGCCGGCTTCTTTAAAGAACATCACAATGCCTTTCTGCTGGATACGCGTAAGGTCATTCATCAATTAAAAAAGGTGCGTTTTTTACAGCTGTTTTCTGTTTTTGCCGGCCAGGCGATCAAAAAAACCATTTTCGTATGGTATCTTTTTGTTTTTCCGGTCTTTTTGTTTTTATCAAGCGCAGGCATGACCGGGTCTGCGGCGATCATCGTATTTTTCTTGGGCTTCGTTTATTTTCTTCTCAATTTATTTTTATCTATGCTGTTTTCTTATGTTGTTTATCTCCTTACAAATATGTGGAGCAAATTGTTTTACTTGAAAATCCTGAAAGGCATTTTATTCAGCGTCAGCCTGCTGGTTCCGCTTGCAGTCGGGTATGCCGTTTATCTTCTCGTGTTTGGGGAGTATACCGCAAAGGATATTTCTAGCTTTACGGAGTCACCGGCTTTCCGGAACATCCTCATGAATACGCCGTATGTATGGTTAGCATTCCGCTCACATTCCGTGCTCGTTTTCGCTGCGGTGTTTGCGGCCGCCGTCCTTTTAACGGCGGGAATGTTTAAACTGTGGTCGGCCACCCTGAAGAAAATGGACCTTATTCCTTATATGTTTTTGACAAACGCAGATTTTGCGCCAAAGCTGAAATTATATAGAAATAACAAAATATTTCATGCCGTTTTTCAAAAGGACCTCCTGTTCTTATCGAGAATTGACGGGTTTTTTATCAGGAACTTCGGCAGTATGCTGTATTTGTTCATGCTGTTTTTAGGTTTTTGTATTCCGCTTTTATCGCATCACTTTATCGGGTATTCGGCAGCCGCCATCGTGTCTGCGGCGGTTATCATTGCGAACTTTTCGTATCAGCTCGTCGGAGATGCGCTCAAAACAGTATTATCAGTGGACGGGGAAATAAAAAATCAGCATTTGTTTCACCGGAATATCAAACATGCGTGGCAGCTGGTGTTTCCGAAAGTATGTATTTATAATCTCGCCGCTCTTATCTATTCGTTCATCATCACCATTTTGATTACGGTGTTTTTTCCGTCTTCTGCGGCGCTGACGATTTACTTGTTTATTGTGTTTTTATGTTCGGGTTTTTTATACAGTCTTGTCCAGATTTCAAGCACCGCCCTGTATCCTAAGAAAAACTGGGAGCATCTGTACGAAATTGGAGAAGCGGGGAAAGCAAAGACGTATAACAACTTATACAGTTCTTTCATTTTCATTGTGTCGCTTCAAATCGCTGCGATCACATCGTATTTTATCTATAAAAAGCCGGAACTTGAAACGATGCTTATTCATTCTGCATCAGGTATTTTTGTCCTGTTCACACTATTAAACTATGGAGTCATGTTTCTGTTTCTTCGCAGAATCAATATGGCGGAAAGGTTTGCGAACAATGATTAA	MIVKQIAALIKYNTLSSFRKRKEDWGIPQLNSKLLSAIIISLLCLYLVFLGCGVVFGTKLIQLPLSAWGQFVLIAVSLEQLFWAAGFFKEHHNAFLLDTRKVIHQLKKVRFLQLFSVFAGQAIKKTIFVWYLFVFPVFLFLSSAGMTGSAAIIVFFLGFVYFLLNLFLSMLFSYVVYLLTNMWSKLFYLKILKGILFSVSLLVPLAVGYAVYLLVFGEYTAKDISSFTESPAFRNILMNTPYVWLAFRSHSVLVFAAVFAAAVLLTAGMFKLWSATLKKMDLIPYMFLTNADFAPKLKLYRNNKIFHAVFQKDLLFLSRIDGFFIRNFGSMLYLFMLFLGFCIPLLSHHFIGYSAAAIVSAAVIIANFSYQLVGDALKTVLSVDGEIKNQHLFHRNIKHAWQLVFPKVCIYNLAALIYSFIITILITVFFPSSAALTIYLFIVFLCSGFLYSLVQISSTALYPKKNWEHLYEIGEAGKAKTYNNLYSSFIFIVSLQIAAITSYFIYKKPELETMLIHSASGIFVLFTLLNYGVMFLFLRRINMAERFANND	PGPT0006730_890	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_03015	339			hypothetical protein	ATGATGAACTTAGTAAAATCTAATAAAAAGTCTTTCATTTTGTTTGGCGCGGCTCTTGCTGCAGCAACATTGGTTTATGCACTATTATTAACGGGAACTGAATTAAACGTGGCGGCGGCTCATGCATTCTCAGCCAATGCTGAATTAGCTTCTACTCTCGGCATCTCTACAGCAGCAGCTAAAAAAGCAATTGATATTATTGATGCGGCATCAACAATTGCTTCTATCATTTCTCTTATCGGTATCGTTACAGGCGCAGGCGCGATTTCTTATGCAATCGTTGCAACAGCAAAAACAATGATTAAGAAATACGGCAAAAAATACGCAGCTGCTTGGTAA	MMNLVKSNKKSFILFGAALAAATLVYALLLTGTELNVAAAHAFSANAELASTLGISTAAAKKAIDIIDAASTIASIISLIGIVTGAGAISYAIVATAKTMIKKYGKKYAAAW				NA	NA	NA	NA	NA
D1-12_03016	573			hypothetical protein	ATGATAGGTCAATTGAGCAATAAAAAAATATTTTTAAGTTCTTTTTTCATCATTTTGATCTGTTCATTACTCTTCCAATTCAGTATTTCAGATAAAGTTCTGCAGTCGTATTATTCTTCCGTCGGAGAAAGTACCTACGATATCGGGGAGAAAAGTGTTCGTACGATTGTCATGTTTCTGCAAGGATTTATGATCTTCACAACTTTTGTGGAAATTCTGATAGGCGGATTTCTGTTATTCGTTGCCGCTTTTATTCTCGGCACAAAGAAACCGAAAAAAAATTATTTGCTTCTATATACGCTGACTTCTTTAATCTCGGCATTTAAAATGTTGATTCTTTCAGTTGTTAACTACTTAACGGCTGATTCCTCGCTTATATATTCTGCCGGCGGCACCAGCTTGAGTCTGCAGCTGCTGGACCCATTTCTGCTCATATCAATCGCGGCTCTTTATGCTGCCGCAGGAAAACTGACCGATCTCAGTAAAGGCAAGAGAATCATTTTGACTGGATGTTTTGTTTTACTAAAACTCTTTACTATTTTTTTAAACTATTTTATGGCGGATAAAATTTAG	MIGQLSNKKIFLSSFFIILICSLLFQFSISDKVLQSYYSSVGESTYDIGEKSVRTIVMFLQGFMIFTTFVEILIGGFLLFVAAFILGTKKPKKNYLLLYTLTSLISAFKMLILSVVNYLTADSSLIYSAGGTSLSLQLLDPFLLISIAALYAAAGKLTDLSKGKRIILTGCFVLLKLFTIFLNYFMADKI				NA	NA	NA	NA	NA
D1-12_03017	540	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	GTGCAGGAAGGAAACAGCGTTGATATCAGGCCGCTCAGCCTGAATGATGCAGAGCAGGAACTGGTTTTGCAGACGGAAAACCGCATGTTTTTTGAACGGTTTGCCATGTCGAGACAAGAGGATTTTTATACGCTGGAAGGCCGGAAAAAACGAATTGAACAATCACTGAAGAATGCGGAAAATGACACAGAATACAGCTTCGGCATTTTTCTTCAGGATCAGACCCTGATTGGCACGATCAGCCTTTTTCAGGTGGTTCGGGGTTCCCTCCAAAGCGCTTTTATCGGTTATTTTTTAGATGGCAAACATAACGGGAAAGGCTATGCGACGAAGGCTGTCAAGCTGGCAGTCGATTATGCATTCAATGAGCTGAAACTGCATCGGATAGAAGCCGGAGTCATGCCGCACAATAAGGCGTCAATCCGGGTGCTCGAAAAAGCTGGCTTTCATAAAGAAGGCATTGCGAGAAAAAATGTAAAAATAAATGGAAAATGGGAAGATCATCAGGTGCTGGCGATCATACATCCGGAGGATACATGA	MQEGNSVDIRPLSLNDAEQELVLQTENRMFFERFAMSRQEDFYTLEGRKKRIEQSLKNAENDTEYSFGIFLQDQTLIGTISLFQVVRGSLQSAFIGYFLDGKHNGKGYATKAVKLAVDYAFNELKLHRIEAGVMPHNKASIRVLEKAGFHKEGIARKNVKINGKWEDHQVLAIIHPEDT				NA	NA	NA	NA	NA
D1-12_03018	93			hypothetical protein	ATGAAACTGACGGGAAATACAATACTGATTACAGGCGGAAATGCCGGAATAGGATTGGCTTTCGCAGAACAAATTTTTAAAAGCGGGAAATAA	MKLTGNTILITGGNAGIGLAFAEQIFKSGK	PGPT0013220_303	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
D1-12_03019	663			hypothetical protein	GTGACCGGACGGCGTGAGCACGCTCTTCAAAAAGCAAAGGAAACATTCCCGGATCTTATTACATATGTCAGTGATTTGAGCATTCCATCTGAACGTATATCACTGTTTGATTGGGTGAAAGAAAATTATCCGGAAGTGAATGTGTTAGTAAACAACGCGGGGATTCAACAACGTTTTCACGTGCTGAAAGCGGATGCGAAGGACAATTGGGACTATTTCAATAAAGAAATCACAACGAACATTGAAGCTCCCTTCCACCTGTCTATGCTGTTCGCTCCGTTTTTTGCCGGAAAAAAAGATGCGGCTGTCATTAACGTCTCTTCGGGATTGGCTTTTACACCGCTTGCTATTGCACCGATCTATTCAGCAACGAAAGCGGCGCTTCATTCATTTACAATGAGTCTGAGACATCAGCTTTCTGATTCATCTGTAGAAGTGATTGAAGTTGCGCCTCCGGCGGTGAATACAGATTTAGGCGGAGCAGGGCTGCATACTCAAGGAGAACCGCTGGATGAATTCGCTGATGGGATTTTTAAAGGACTGAAAGAGGGCAAACAAGAAATCGGATATGGTTCTTCAGCGGAACGGCTGCGCATGTCACGGGATAAAGCCGATGAACATACGGCAAATATGTACAATGCAATGAAACATACAATTGAATAA	MTGRREHALQKAKETFPDLITYVSDLSIPSERISLFDWVKENYPEVNVLVNNAGIQQRFHVLKADAKDNWDYFNKEITTNIEAPFHLSMLFAPFFAGKKDAAVINVSSGLAFTPLAIAPIYSATKAALHSFTMSLRHQLSDSSVEVIEVAPPAVNTDLGGAGLHTQGEPLDEFADGIFKGLKEGKQEIGYGSSAERLRMSRDKADEHTANMYNAMKHTIE	PGPT0013220_306	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
D1-12_03020	363	erpA	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGAGTGTTCCAGTAACCATCACTGAAGCAGCGGCTTTGCATATAAAAGATATGATGAAAGAGCATGAAGAAGAAAACGCGTTCCTTCGTGTGGGCGTAAAAGGCGGCGGCTGCAGCGGCCTGTCTTACGGGATGGGATTTGAGCATGAAAAAGGCGAAAAAGACAGCATGTTTGAACAGCACGGAATCACCGTCTTGGTCGACAGCGAAAGCCTCGATATCATGACCGGCACGATCATTGACTTCAAACAGTCCATGATGGGCGGCGGTTTCACCATTGACAACCCGAACGCCATCGCTTCCTGCGGCTGCGGTTCATCTTTCCGCACGGCCAAAAACGCCGGTACGCCGGAAGAGTGCTAA	MSVPVTITEAAALHIKDMMKEHEEENAFLRVGVKGGGCSGLSYGMGFEHEKGEKDSMFEQHGITVLVDSESLDIMTGTIIDFKQSMMGGGFTIDNPNAIASCGCGSSFRTAKNAGTPEEC				NA	NA	NA	NA	NA
D1-12_03021	855	dapF	COG0253	Diaminopimelate epimerase	ATGAATTCATTCCGTTTTACCAAGATGCACGGTCTTGGAAACAGTTATATATATGTAAATCAATTTGAAGAACAGCTGCCGGAAGAACGGCTGGCTGAGATTGCCGTTAAAGTGTCCAGCATTCACACGGGCATCGGCTCTGACGGAATGATCCTCATCTGTCCGTCAGAAAAAGCGCCCGTCAAAATGCGGATTTTTAATAATGACGGCTCAGAAGGGAAAAATTGCGGCAACGGCCTTCGCTGTGTGGCAAAGTACGCATACGAACATAAGCTGACAGAAGAAACGTCCTTTTTCATTGAGACGCTTTCAGGTCTTGTGAAAGCAGACATTACAGAGGACAACGGGATTGTGCGTGAAGTCGCCGTCGATATGGGCGAACCGCGCCTCACCAAAAAAGAGCTGCCGATGCTCGGCAATGAAGATGAACGGACGATCGATGAAACCTTTGTTTTTGGAGAAACGGAGCTTTCCGGAACAGCCGTATCAATGGGAAACCCCCATATTGTTTTTCCGGTTGCGGATATCAATCAAGCGCCTCTTACAACGCTCGGTCCCGTCATTGAAAAAGACCCGAGATTTCCGGAAGGCGTCAATGTCGAATTTGTGGAAACCGTCAGCGCCGATGAACTTCATTTCCGCGTATGGGAACGCGGCTCCGGCATTACACAGGCTTGCGGAACAGGCGCCTGTGCGGCGGCTGTCGCATCCGTATTGAACGGTGTTTCCGAACGAAACCGGGATATCACCGTTCATTTAGCGGGAGGCGACCTTGTGATTAATTGGCAGGACAACGGGCACGTGCTGATGACGGGACCCGCCGAAACCGTATGCAGCGGCGTCTTTTATTTGTAA	MNSFRFTKMHGLGNSYIYVNQFEEQLPEERLAEIAVKVSSIHTGIGSDGMILICPSEKAPVKMRIFNNDGSEGKNCGNGLRCVAKYAYEHKLTEETSFFIETLSGLVKADITEDNGIVREVAVDMGEPRLTKKELPMLGNEDERTIDETFVFGETELSGTAVSMGNPHIVFPVADINQAPLTTLGPVIEKDPRFPEGVNVEFVETVSADELHFRVWERGSGITQACGTGACAAAVASVLNGVSERNRDITVHLAGGDLVINWQDNGHVLMTGPAETVCSGVFYL	PGPT0007230_1877	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
D1-12_03022	1218	nupX	COG1972	Putative nucleoside permease NupX	TTGAATATCGTTTGGGGGCTGCTCGGGGCAGTTGCTATATTAGCCATTGCTTTTTTGTTATCAGAGAAGAAAAGCAAAATTAACCTGCGAACCGTCATTGTCGGTTTATGTTTACAAATGGCCTTCGGATTCATCGTATTAAAGTGGGACGCCGGACGGGCCGTATTTTTATGGTTCTCAAGCCGTGTGCAGCTTCTCATTGATTATGCGAACGAAGGCATCAGCTTTATTTTTGGCCCGCTGTTAAAAGTGGGCAGCAGCCCGGCTTTTGCGCTGAGCGTTCTGCCGGTCATTATCTTTTTCTCAGCGCTGATTGCCGTTTTGTATCACTTGAAAATCATGCAGCTCATCTTTCGCGTCATCGGAGGCGGACTGTCAAAACTTCTTGGGACAAGCAGAACGGAATCGCTTGCGGCGGCTGCGAATATTTTTGTCGGACAGTCTGAATCACCGCTTGCCATTAAACCGCTGATTGCGGGATTGACCCGTTCCGAGCTGTTTACGATTATGACGAGCGGCCTTTCGGCTGTAGCGGGTTCGACGCTTTTCGGTTACGCCCTGTTAGGCATTCCGATCGAATACCTGCTGGCGGCCAGCTTTATGGCGGCTCCCGCCGGTCTCGTGTTCGGAAAAATGTTAATACCTGAAACGGAAAAAACGCAGACGATAAAAGGCGATTTTAATATGGACGAAGAAGGCGAGGGCGCCGCTAATGTGATTGATGCAGCGGCAAAAGGCGCGTCAACGGGTCTGCAGATTGCTCTAAATGTCGGCGCCATGCTGCTTGCGTTTGTCGCGCTCATCGCCGTAGTGAACGGAATTCTCGGCGGAATCGGCGGCTGGTTCGGTTTCAAACATATTACATTGGAATCCATTCTCGGTTACGTGTTTTCACCGATCGCATTTGTAATCGGCGTTCCTTGGCATGAAGCGCTCGGAGCGGGAAGCTATATCGGACAGAAACTTGTTCTGAATGAGTTTGTCGCTTATTCAAACTTCGGTCCGCATATTGCGGACTTTTCTAAAAAAACGTCTACGATTATCAGCTTTGCGCTGTGCGGATTTGCCAACTTCTCTTCGATTGCGATTATGCTCGGCACACTGGGCGGATTGGCCCCAAGCCGCCGTTCGGACATTGCGCGCCTCGGATTAAGAGCGGTTATTGCGGGAACACTCGCAAACCTTCTCAGCGCGGCGATTGCCGGCATGTTTATTTAG	MNIVWGLLGAVAILAIAFLLSEKKSKINLRTVIVGLCLQMAFGFIVLKWDAGRAVFLWFSSRVQLLIDYANEGISFIFGPLLKVGSSPAFALSVLPVIIFFSALIAVLYHLKIMQLIFRVIGGGLSKLLGTSRTESLAAAANIFVGQSESPLAIKPLIAGLTRSELFTIMTSGLSAVAGSTLFGYALLGIPIEYLLAASFMAAPAGLVFGKMLIPETEKTQTIKGDFNMDEEGEGAANVIDAAAKGASTGLQIALNVGAMLLAFVALIAVVNGILGGIGGWFGFKHITLESILGYVFSPIAFVIGVPWHEALGAGSYIGQKLVLNEFVAYSNFGPHIADFSKKTSTIISFALCGFANFSSIAIMLGTLGGLAPSRRSDIARLGLRAVIAGTLANLLSAAIAGMFI	PGPT0021070_1256	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021070-TC_CNT|nupX-K03317	NA	NA
D1-12_03023	237			hypothetical protein	ATGAATCCGATGATTGAATTCTGTGTCAGCAATTTAGCGCGCGGTTCCCAGGAAGCACTTGAGATCTTAGAGAAGGATCCGAACTTGGACGTGCTTGAATATGGCTGTTTAAGCTATTGCGGGAAATGCATGGAGTCCCTGTTCGCCCTAGTTAACGGCGAAGTGGTCACGGGGGGCACGCCTGCTGAATTGGTTGACAACATATATACATTCATAGAAGAAAATCCGATGTTTTAA	MNPMIEFCVSNLARGSQEALEILEKDPNLDVLEYGCLSYCGKCMESLFALVNGEVVTGGTPAELVDNIYTFIEENPMF				NA	NA	NA	NA	NA
D1-12_03024	1068	ndh	COG1252	NADH dehydrogenase	ATGAAAAAATTGGTCTTGATCGGCGGGGGTTACGGAAACATGCGGGTGCTGCACCGCTTACTGCCGAACCAGCTTCCGTCAGATATATCCATCACGCTGATTGACAGAAACCCGTATCACTGCTTAAAAACAGAATATTATGCGCTCGCCGCCGGCACGATTTCTGATCATCATATCAGGGTGTCTTTTCCTGAGCATCCGAATCTGGATGTTCAATACGGTGAGGTGGCTTCCGTCGACACGAAAAACAAACAGGTTCTGTTTCATGACCGCGAACCGATTTCTTACGATGACGCGGTGATCGGACTGGGCTGCGAGGATAAGTATCATAACGTGCCCGGCGCGCCGGAACATACTTACAGCATTCAGACCATTGATCAGTCACGCGAAGCCTATCAAAAGCTGAACAACCTCGGCGCCAATGCATCTGTCGCTATCGTCGGAGCGGGATTAAGCGGCGTGGAGCTTGCCAGTGAATTAAGAGAGAGCCGTGACGATCTGAAGATTATGTTATTTGACCGGGGCGACCTGATTTTATCAAGCTTTCCGAAAAGACTCAGCAAGTATGTTCAGAAATGGTTTGAAGAACACGGCGTCACCATTATCAATAATGCGAATATTACAAAAGTGGAAGACGGGATCGTTTATAATCATGATGAAGGAATACCGGCCGATGCCATCGTGTGGACGGCGGGAATTCAGCCGAATAAAGCCGTCAGAGAAATGGACGCTGAAAAAGATCCGCAGGGCCGCATCGTTTTAACACCGCACCACAATCTTCCGGGCGATGAGCATGTTTACGTCGTCGGTGATTGCGCGAGCCTGCCGCATGCGCCGAGCGCCCAGCTGGCTGAAGCACAAGCGGAACAAATTGTGCAGATCCTCCTGAAACGCTGGAACAACGAAGAGCTGCCGGAAACAATGCCGCAATTTAAGCTGAAAGGCGTTCTCGGTTCACTCGGAAAAAAAGCGGGCTTCGGTCTTGTCAACGACCGTCCGCTCATCGGGCGTGTGCCCCGTTTATTAAAATCAGGCCTTTTATGGATGTACAAGCATCATAACGGCTGA	MKKLVLIGGGYGNMRVLHRLLPNQLPSDISITLIDRNPYHCLKTEYYALAAGTISDHHIRVSFPEHPNLDVQYGEVASVDTKNKQVLFHDREPISYDDAVIGLGCEDKYHNVPGAPEHTYSIQTIDQSREAYQKLNNLGANASVAIVGAGLSGVELASELRESRDDLKIMLFDRGDLILSSFPKRLSKYVQKWFEEHGVTIINNANITKVEDGIVYNHDEGIPADAIVWTAGIQPNKAVREMDAEKDPQGRIVLTPHHNLPGDEHVYVVGDCASLPHAPSAQLAEAQAEQIVQILLKRWNNEELPETMPQFKLKGVLGSLGKKAGFGLVNDRPLIGRVPRLLKSGLLWMYKHHNG	PGPT0004020_5758	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
D1-12_03025	327			hypothetical protein	ATGACAAAGCCGGTTACGCTCAGTGTTTACGGCGCTGAAACGCTTTGCGCAAGCTGCGTGAATATGCCGAGCGCCAAAGATACGTTTGAATGGCTGGAGGCGGCGCTGAAACGGAAATATCCGGAGCAGCCTTTTAACATGCGGTATATTGATATTGACGCACCGCCTCAGCAAAAGGAGACAGAAGAGCTTGCGGAGCGCATCAGAAACGATGAATTTTTCTATCCGCTCGTGCTGGTGGAGGATGTCATTGTGGGGGAAGGGAATCCGCATTTAAAAGATATATATGAAGAAATGGAAAAGCGCGGCTATGTGGCGGGCTCTTAA	MTKPVTLSVYGAETLCASCVNMPSAKDTFEWLEAALKRKYPEQPFNMRYIDIDAPPQQKETEELAERIRNDEFFYPLVLVEDVIVGEGNPHLKDIYEEMEKRGYVAGS				NA	NA	NA	NA	NA
D1-12_03026	237	nfuA		Fe/S biogenesis protein NfuA	ATGACTGAGGTTGAAATGAAAGAGCAAGTACAGGAAGTATTGGATAAATTACGTCCGTTTCTGCTTCGTGACGGCGGTGACTGTGAGCTTGTTGATGTAGACGAAGGCATTGTAAAGCTTCGCCTCCTTGGCGCATGCGGCAGCTGCCCAAGTTCAACGATTACGCTGAAAGCCGGAATCGAACGCGCCCTTCTTGAAGAAGTACCGGGTGTCGTTGAAGTAGAACAAGTATTTTAA	MTEVEMKEQVQEVLDKLRPFLLRDGGDCELVDVDEGIVKLRLLGACGSCPSSTITLKAGIERALLEEVPGVVEVEQVF	PGPT0012225_450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
D1-12_03027	1977	dpp5	COG1506	Dipeptidyl-peptidase 5	TTGAAAAAACTCATAACCGAGGAGGACATTGCGTCACTCGTATCCGTGACAGACCCGCAATATGCCCCTGACGGCAGAAGAGCCGCTTACGTCCGGACAACAGTCAATCATAAGCGTGATTCCTATTCCTCAGCCATTATGGTATATGACACAGAATCCGGCATCTCAAACCCGTGGACTTTCGGGGACAATAGAAATACAAGTCCGCGGTGGTCGCCTGACGGACGGCGCCTCGCCTTTGTTTCTGACAGGGAGAACGGCGTCCCTCAGCTGTACATCATCGACGCTGCCGGCGGAGAGGCGGAACAGGCGGCCGATATTCCTTGGGGCGTATCAGATCCGATATGGGCGCCCGACGGCAGATCCGTGCTTGTGTCCGTCAGTCTGACATCAGCGGAGCGCGCCGATGAGAAAGAAAAAAAGAAGCATGACGAGTATGAGCCGGTTGACATTCAGTCATTAACATATAAACGTGACGGGAAAGGCCTGCTGAACGGAAGCTGGGCCCAGCTTGTGCTGATTCATCTTGAAACGGGGGAGATTCAGCAGCTGACGGATCATGAAGCGGATCATTATGACGCGGCCTTTTCACCGGATGGCAGGCAGCTTGCGTTTACCGCCAATTTATGCGAGCCGGGTGACGCCGGAAAGCCGAGCGATGTCTATCTGATGAATCTGGCGGATGGAAGCCTGAAGCAGATTACGCCGCACCGCGGTTCTTTCGGTTCCTGCGTGTTTTCACCGGACGGTTCTTATATCGCGATGCTGGGCCATGAAAATGAATTTCGCAATGCGACTTTAGAAAAAGCGTGGCTGTATGACGTGAAAACTGAGCGGCTCACCTGCCTGACCGACATGCTGGATGTTCATTTGAGCGATGCGCTGATTGCGGATTCAATCATAGGAGGAGTGACGCCCCGGCCGGTATGGACAAACGACGGGCAGGGTTTTTACGTTCTCGGGAGCGAGCAGGGAAGCACCGGTATTTATTATATCTCGATTGACGGCCTCGTATATCCGATCCGATTAGAAGAAGAGTACGTGAACGGTTTTGCTTTTCATCCTGATCAGAAAAGCTGTATCGCCGCAATCACCAAACCCGCACAGCCTTCCGAGCTTTACAGCATTTCGCTCGAAGATGGGGAAGAGAAGCAATTGACATCCGACAATGATCGGTTTATTGAGGAGCGCATCATATCCGTGCCGGAAAAGCTGCAATATGAAACAAAGGACGGGCTGACGGTAAACGGCTGGTTTTTAAAGCCCGCCGTTTTTGAAGAGGATCAAACTTATCCCCTCATTCTATACATACACGGCGGGCCTCACATGATGTACGGCCATACGTATTTTCACGAATTCCAAGTGCTGGCCGCACAAGGATATGCTGTCGTGTATGTCAACCCGAGAGGAAGCCATGGCTACGGACAGGATTTTGTCAATCGTGTCAGGGGTGATTACGGAGGCGGAGATTACCGTGATGTCATGCAGGCGGTGGATGAAGCCGTTCAGGCGTATCCGTTTATTGACAGCGGCCGTCTCGGTGTGACGGGCGGAAGCTACGGAGGGTTTATGACGAATTGGATTGTCGGGCAGACAGGCCGTTTTAAAGCAGCCGTCACGCAGCGCTCCATTTCAAATTGGTTCAGCTTCCACGGTGTCAGCGATATCGGTTTCTTTTTTACCGACTGGCAGCTCGGACATGATTTGTTTGAGGAAGCGGATAAGCTTTGGGATCGTTCTCCTGTAAAATATGCGTCCCGCGTTTCGACGCCGCTTTTGATTCTGCACGGTGAGCGAGATGACCGCTGTCCGATAGAGCAGGCCGAGCAGCTTTTTACCGCGTTGAAGAAACTGAACAAAACGACGTCGTTCATCCGATTTCCGAAAGCCACGCATGAGCTGTCGAGAAGCGGCCATCCGGAACAGCGGATGAAACGCATCCGTTATATTTGTTCATGGTTTGATGACTATTTGTAA	MKKLITEEDIASLVSVTDPQYAPDGRRAAYVRTTVNHKRDSYSSAIMVYDTESGISNPWTFGDNRNTSPRWSPDGRRLAFVSDRENGVPQLYIIDAAGGEAEQAADIPWGVSDPIWAPDGRSVLVSVSLTSAERADEKEKKKHDEYEPVDIQSLTYKRDGKGLLNGSWAQLVLIHLETGEIQQLTDHEADHYDAAFSPDGRQLAFTANLCEPGDAGKPSDVYLMNLADGSLKQITPHRGSFGSCVFSPDGSYIAMLGHENEFRNATLEKAWLYDVKTERLTCLTDMLDVHLSDALIADSIIGGVTPRPVWTNDGQGFYVLGSEQGSTGIYYISIDGLVYPIRLEEEYVNGFAFHPDQKSCIAAITKPAQPSELYSISLEDGEEKQLTSDNDRFIEERIISVPEKLQYETKDGLTVNGWFLKPAVFEEDQTYPLILYIHGGPHMMYGHTYFHEFQVLAAQGYAVVYVNPRGSHGYGQDFVNRVRGDYGGGDYRDVMQAVDEAVQAYPFIDSGRLGVTGGSYGGFMTNWIVGQTGRFKAAVTQRSISNWFSFHGVSDIGFFFTDWQLGHDLFEEADKLWDRSPVKYASRVSTPLLILHGERDDRCPIEQAEQLFTALKKLNKTTSFIRFPKATHELSRSGHPEQRMKRIRYICSWFDDYL				NA	NA	NA	NA	NA
D1-12_03028	930	thrB	COG0083	Homoserine kinase	ATGAATGAGGCGGAGATGCTGTTTTCCATTACGGTTCCGGGAAGCACCGCCAACTTAGGGCCTGGGTTTGATTCCGTCGGGATGGCGCTCAGCAGATATTTGAAGCTTTCGGTTTTCCGAAACGATGAATGGCAGTTCTCGGCGGAAACCGAAACTGTCGCGGGCATCCCTCAAGGAACGGACAACCTCATCTACCAAGTCGCCAAACGGACGGCTGACCGCTATCAGAAAGAGCTGCCGCCCGCCCATGTCAAAGTGTGGAGTGACATCCCCCTTGCGCGGGGTCTCGGAAGCAGCGCGGCCGCTATCGTCGCCGCCATTGAGCTTGCGGATGAGTTATGCGGCCTGCAGCTGTCGGAAAGTGACAAGCTGCACTTAGCCAGTCTTGAAGAGGGGCACCCTGATAATGCCGCTGCTTCCCTTGCAGGAGGGCTTGTGATCGGCCTTCACGAAGAAGATGAAACACATATCGTGCGTGTTGCCGAAGCGGATATCGACGTTGTGGCAGTGATTCCGTTTTACGAAGTTCTGACCAGGGACGCAAGAGACGTGCTCCCGAAAGAGCTGCCGTACCGGCACGCCGTTAAAGCAAGCGCCGTCAGCAACCTTCTCGTTGCTGCGATCATGTCAAATGACTGGGCGCTCGCCGGGAAAATGATGAGAAAAGACATGCTCCATCAGCCGTACCGCGCCATGCTTGTTCCTGAGCTTTCAAAGGTGGAACATGCGGCCGAAATGAAAGGCGCTTACGGAACGGCGCTGAGCGGAGCGGGACCGACGATTCTTGTTCTGATTGAAAAAGGAAAGGGAGAAGAGCTGAGAAAACAGCTTTCTGAGCATTTCCCTCACTGTGAGATTGCGGCGCTTACCGTCCCGTCAGAAGGAAGCGTAATTGAACGGAATCCTTTAGAGCAGGTGAAAAGTGTATAA	MNEAEMLFSITVPGSTANLGPGFDSVGMALSRYLKLSVFRNDEWQFSAETETVAGIPQGTDNLIYQVAKRTADRYQKELPPAHVKVWSDIPLARGLGSSAAAIVAAIELADELCGLQLSESDKLHLASLEEGHPDNAAASLAGGLVIGLHEEDETHIVRVAEADIDVVAVIPFYEVLTRDARDVLPKELPYRHAVKASAVSNLLVAAIMSNDWALAGKMMRKDMLHQPYRAMLVPELSKVEHAAEMKGAYGTALSGAGPTILVLIEKGKGEELRKQLSEHFPHCEIAALTVPSEGSVIERNPLEQVKSV	PGPT0020275_1518	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
D1-12_03029	1068	thrC	COG0498	Threonine synthase	TTGGAGCTAATGTGGAAAGGACTCATCCATCAATATAAAGAATTTCTGCCGGTGACGGATCGGACGCCGGCCCTGACATTGCATGAAGGCAACACGCCGCTGATTCACCTGCCGAAGCTTTCTGAAAAGCTCGGAATTGAACTGCATGTGAAAACAGAGGGCGTTAATCCGACGGGGTCCTTTAAGGACCGCGGCATGGTCATGGCGGTCGCCAAAGCGAAAGAAGAAGGCAATGATACCATCATGTGCGCCTCTACAGGCAACACATCCGCGGCGGCTGCGGCATACGCGGCGAGAGCCGGCATGAAATGCATCGTCATCATCCCAGACGGAAAAATCGCCTTCGGAAAACTTGCGCAGGCCGTCATGTACGGTGCGGAAATCATTGCGATTGACGGAAACTTTGACGACGCGCTGGCCATCGTCCGGTCAATTTGCGAAAAATCACCGATTGCATTAGTGAATTCAGTAAACCCTTACCGGATTGAAGGGCAAAAAACAGCGGCCTTTGAAGTATGCGAACAGCTCGGCGGAGCGCCGGACATTCTGGCGATCCCGGTAGGAAACGCCGGGAATATCACGGCCTACTGGAAAGGGTTCAAAGAATACCATGAGAAAAACGGCACCGGACTTCCGAAGATGCGCGGTTTTGAGGCGGAAGGTTCTGCGGCTATCGTCCGCGGCGAAGTCATTAAAAATCCAGAGACCGTTGCGACGGCAATCCGAATCGGGAATCCCGCCAGCTGGGACAAAGCGGTGCTCGCTGCGGAAGAATCAGCCGGAAAAATTGATGAAGTCACAGATGAAGAAATTCTTCACGCTTATCAGCTGATTGCCCGTGAAGAAGGCGTGTTTGCCGAACCAGGCTCCTGTGCATCCATCGCCGGCGTTTTGAAACAGGTGAAATCCGGTGAAATTCCAAAAGGCAGCAAGGTTGTCGCAGTTTTGACCGGAAACGGCCTGAAAGATCCGAACACGGCTGTGGACGTTTCTGACATAAAACCGATTACGCTGCCGACAGATGAGGACAGTATTCTGGAATACTTAAATGGAGCGGCGCGTGTATGA	MELMWKGLIHQYKEFLPVTDRTPALTLHEGNTPLIHLPKLSEKLGIELHVKTEGVNPTGSFKDRGMVMAVAKAKEEGNDTIMCASTGNTSAAAAAYAARAGMKCIVIIPDGKIAFGKLAQAVMYGAEIIAIDGNFDDALAIVRSICEKSPIALVNSVNPYRIEGQKTAAFEVCEQLGGAPDILAIPVGNAGNITAYWKGFKEYHEKNGTGLPKMRGFEAEGSAAIVRGEVIKNPETVATAIRIGNPASWDKAVLAAEESAGKIDEVTDEEILHAYQLIAREEGVFAEPGSCASIAGVLKQVKSGEIPKGSKVVAVLTGNGLKDPNTAVDVSDIKPITLPTDEDSILEYLNGAARV	PGPT0009175_5991	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
D1-12_03030	1302	hom	COG0460	Homoserine dehydrogenase	TTGGAAGCGATTCGTATTGGACTGTTAGGACTGGGAACCGTGGGAAGCGGTGTCGTCAAAATTATACAAGATCATCAGGATAAGCTTATGCACCAGGTCGGCTGTCCGGTGACGATCAAAAAAGTGCTAGTTAAAGATATTGATAAAAAACGAGACGCAGACCTGCCGAAGGATGTGCTGACGACAGAAGTCTATGATGTAATCGATGACCCTGAGGTCGACGTGATTATTGAAGTCATCGGCGGTGTCGAACAGACGAAGCAATATCTTCTTGATGCCTTGAAAGCGAAAAAACATGTTGTGACCGCAAATAAAGATCTGATCGCCGTATATGGCTCAGAGCTTTTAGCCGCCGCAAAGGAAAATGGCTGTGACTTGTATTATGAAGCGAGTGTCGCCGGCGGAATCCCGATTTTACGCACGCTCGAAGAAGGCCTTTCCTCTGACCGGATCACAAAAATGATGGGAATCGTCAACGGAACGACGAACTTCATCTTAACGAAAATGATTAAAGAAAAAAGCCCGTATGAGGAAGTGCTGAAAGAAGCGCAGGATCTCGGATTCGCGGAAGCTGACCCGACCGCCGATGTAGAAGGACTCGATGCCGCGCGCAAGATGGCGATTTTAGCCCGTCTCGGCTTCTCTATGAACGTCGATCTGGACGATGTCAAAGTAAAAGGAATTTCCCGGATTACGGATGAAGACATCAGCTTCAGCAAACGGCTCGGCTATACGATGAAGCTGATCGGCATCGCCCAGCGTGATGACAATAAAATCGAAGTCAGCGTTCAGCCGACACTGCTTCCGGATCATCATCCGCTCTCTGCGGTGCATAACGAGTTTAATGCCGTTTACGTGTACGGAGAAGCCGTCGGCGAAACGATGTTTTACGGCCCCGGAGCCGGAAGCATGCCGACTGCGACATCGGTCGTTTCCGATCTGGTCGCGGTCATGAAAAACATGCGTCTCGGCGTAAACGGAAACAGCTTTGTCGCCCCGCAGTTTGAAAGAAATCTGAAGCAGCCGTCTGATATCTATGCCCAGCAGTTTTTAAGAATTCACGTCAAAGACCAGGTCGGCTCTTTTTCAAAAATCACATCGGCCTTCTCAGAGCGCGGCGTAAGCTTTGAAAAAATTCTGCAGCTGCCGATCAAAGGCCACGACGACCTCGCGGAAATCGTCATCGTCACGCATCACACATCGGAAGAAGATTTCAGCGACATTCTGCAAAACTTAAATGACCTCGAAGTCGTACAAGAAGTAAAAAGCACATATCGCGTAGAAGGGAACGGTTGGAGCTAA	MEAIRIGLLGLGTVGSGVVKIIQDHQDKLMHQVGCPVTIKKVLVKDIDKKRDADLPKDVLTTEVYDVIDDPEVDVIIEVIGGVEQTKQYLLDALKAKKHVVTANKDLIAVYGSELLAAAKENGCDLYYEASVAGGIPILRTLEEGLSSDRITKMMGIVNGTTNFILTKMIKEKSPYEEVLKEAQDLGFAEADPTADVEGLDAARKMAILARLGFSMNVDLDDVKVKGISRITDEDISFSKRLGYTMKLIGIAQRDDNKIEVSVQPTLLPDHHPLSAVHNEFNAVYVYGEAVGETMFYGPGAGSMPTATSVVSDLVAVMKNMRLGVNGNSFVAPQFERNLKQPSDIYAQQFLRIHVKDQVGSFSKITSAFSERGVSFEKILQLPIKGHDDLAEIVIVTHHTSEEDFSDILQNLNDLEVVQEVKSTYRVEGNGWS	PGPT0020155_1883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
D1-12_03031	1017			hypothetical protein	ATGATGAAAAGCATCATTAAAGAAAAATACGGCATCCACGTCAGACAGCTCTCCGTTTATCAGAAATACCAATGCTTCCAGACGCCAAATTCCTTCTTTCTTATTATTCCCGTCTCCGGATTTTCGCAATCAGAGCTGACGGAGCTTTACTACATGAGTCAGTATTTACAAGAACAAAGTGACCCATACGTTTCAGTGTTTATCTTTACGAAGGAAGGAGAACTGACCTTTGAGGACGAAGGCAAAACGTATGCGCTCTTAAAAGCGCCGATTCCCGTCTCAAACCGGTCGTTTTCTGTCGGAGGGGAGCTTGCCGAATTTCACAGAAAAGGGCGGGGTTTTCCGTACGAAGTGAAAGAAGCGGGCAGGATCGGCCAATGGAAGGACTTATGGGGAAAACGGGTGGATCAGCTGGAATCATTCTGGATGCAGAAAATTCATATGTCTCCGCTTGAACCGTTCGAAAAGAAAATGATCGAAGCATTTCCTTATTATTCAGGCTTAGCGGAAAACGCCATTCAATATTTAGTGGATACGGAGCTGGATGACAATCCCGGCGCAGAGGACTCGGGGACAATCTGCCATCAGCGGATGGAACGGGATACCTGGTCGGAGGAATCATTGATCCGCATTCCGGGCGATTGGGTATTCGACCATGCCGCCCGTGATATTGCGGAATATATGCGCAGCACATATTTGTATCATCGTGACGACCTGCTCAAAAATGGGTTTTTGTTTCTGCAGGAATATGAGCAAGTTACGCCGTTATCCTCCTTTTCCAAGCGCCTGTTTTACAGCCGCCTGCTGTTTCCGCTCCATTTCTTCGAGACGGTGGAGAGCTATTACATTTCTCATGATTCTGAAAAACAGTTTTACGAAGAGCAGCTTGACTACATTCTTGCCGACTGCACCCGCTATGAACAGTTTTTACAGACATGTCACGACATGATGAATGTCAGGTCGGCGCAGGTTTTTGTCCCGCCTGTGGCGTGGCTCGGAAAAGGAATCAGTTCGTAA	MMKSIIKEKYGIHVRQLSVYQKYQCFQTPNSFFLIIPVSGFSQSELTELYYMSQYLQEQSDPYVSVFIFTKEGELTFEDEGKTYALLKAPIPVSNRSFSVGGELAEFHRKGRGFPYEVKEAGRIGQWKDLWGKRVDQLESFWMQKIHMSPLEPFEKKMIEAFPYYSGLAENAIQYLVDTELDDNPGAEDSGTICHQRMERDTWSEESLIRIPGDWVFDHAARDIAEYMRSTYLYHRDDLLKNGFLFLQEYEQVTPLSSFSKRLFYSRLLFPLHFFETVESYYISHDSEKQFYEEQLDYILADCTRYEQFLQTCHDMMNVRSAQVFVPPVAWLGKGISS	PGPT0025265_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025265-yutH-NA	NA	NA
D1-12_03032	537	ypjQ	COG1267	putative protein YpjQ	TTGTATAAACTAGTAAAAAAAGATTGGGTGAAGCAAATGTCAGAAAAGGAACAACTGAATCAGGTGGAAGCTGTCGCCAGGGCGCGTTTAAAAGAACGGGGGGTTGAGACGGACGATATTGCCGAGCTGGTGTATTTCCTTCAAAAAAAATATCATCCTGATTTGACGATGGAGGTATGCAGGCTCAATGTGGACCGTGTCATCGCAAAACGCGAGGTGCAAAACGCCATTTTAACGGGAATAGAATTAGATGTGCTCGCCGAACAAAAAAAGCTGTCTGAACCGCTTCAGACCATTCTGGCGATTGATGAAAGCCTGTATGGGGTTGACGAGGTACTCGCCTTCTCTATCGTGAATATATACGGCTCAATCGGCTTTACGAATTACGGCTACATTGACAAAGAAAAACCCGGCATTCTCGGGCGGTTAAATGATAAATCTACGGGCGAATGCCATACGTTTCTTGATGATATCGTCGGCGCAATCGCAGCAGCGGCTTCAAGCCGGCTTGCCCACAGCGCCAGAAATACAGAATAA	MYKLVKKDWVKQMSEKEQLNQVEAVARARLKERGVETDDIAELVYFLQKKYHPDLTMEVCRLNVDRVIAKREVQNAILTGIELDVLAEQKKLSEPLQTILAIDESLYGVDEVLAFSIVNIYGSIGFTNYGYIDKEKPGILGRLNDKSTGECHTFLDDIVGAIAAAASSRLAHSARNTE	PGPT0007710_785	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095	NA	NA
D1-12_03033	771	yutF	COG0647	Acid sugar phosphatase	ATGAAGGATTATAAAGGATATTTGATAGATTTAGACGGCACAATGTACAACGGGACGGAAAAAATCGAAGAAGCGTGTGAATTTGTGAGAACGCTTAAAGCGCGCGGCATTCCGTATTTATTCGTGACGAACAATTCTTCCCGGACGCCGAAGCAGGTGGCGGACAAGCTGATGAGCTTTGACATTCCGGCATCTGAAGAGCAGGTCTTCACGACGAGCATGGCGACTGCGCAGCATATCGCCCAGCAGAAAAAAGACGCGTCGGTATATGTGATCGGCGAAGAAGGCATCCGTCAGGCCATTGAAGAAAACGGGCTGAGCTTCGGAGAAGAAAACGCGGACTTTGTCGTTGTGGGAATCGACCGCGGCATTACATATGAAAAGTTGGCAACGGGATGCCTTGCGATCAGAAACGGCGCCCGGTTCATTTCAACAAACGGCGACGTCGCCATTCCGACTGAAAGAGGGCTTTTACCAGGGAACGGTTCGCTCACATCCGTTTTGACGGTGTCAACGGGCGTTGAGCCTGTCTTTATCGGCAAGCCTGAATCCATTATTATGGAACAGGCGATGCGTGTGCTCGGAACGGATATTTCCGAAACACTCATGGTCGGCGATAACTATGCAACGGATATTATGGCCGGCATCAATGCGGGCATGGATACGCTGCTGGTTCATACCGGAGTGACAAAGCGTGAGCATATGGCAGATTACGACCGGAAGCCGACATATGCGATTGACTCTTTAACCGAATGGATTGAACATCTATAA	MKDYKGYLIDLDGTMYNGTEKIEEACEFVRTLKARGIPYLFVTNNSSRTPKQVADKLMSFDIPASEEQVFTTSMATAQHIAQQKKDASVYVIGEEGIRQAIEENGLSFGEENADFVVVGIDRGITYEKLATGCLAIRNGARFISTNGDVAIPTERGLLPGNGSLTSVLTVSTGVEPVFIGKPESIIMEQAMRVLGTDISETLMVGDNYATDIMAGINAGMDTLLVHTGVTKREHMADYDRKPTYAIDSLTEWIEHL	PGPT0005420_946	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITROPHENYLPHOSPHATE_DEGRADATION,PGPT0005420-nagD|yutF-K01101	NA	NA
D1-12_03034	435			hypothetical protein	GTGTATTTTGTTGACAGAAATAATATCGAACAAACACTCCGTTTTTTTGAGACCCAGCTGGCGCTGTTTGACAGCACGCCTGCATGGCAGAGCGAAATCGAAAAAAGGGCGCTTGAGCGGATCAGCCATCTTATGATCGAATGCATTCTCGATGTCGGAAATGATATGATTGACGGCTTTATCATGCGCGATCCGGGGAGTTATGACGACATCATGGATATTCTGACGGATGAAAAGGTGGTAGCTGAGGATGAAGGAAATAAGCTGAAGCAACTGATCTCTTCCAGAAAGCAGCTTGTCCAGGAATATCAGCATGCCGACCATCAGGAGCTGTTAACGCTGATCACGTCAAACAGGGACGTGCTGAAAGCCTTTCCGGCCCGTGTAAGAACCTACCTGGAAACAGAATTAGGGCCTGTTTCCGCATTTAAATAA	MYFVDRNNIEQTLRFFETQLALFDSTPAWQSEIEKRALERISHLMIECILDVGNDMIDGFIMRDPGSYDDIMDILTDEKVVAEDEGNKLKQLISSRKQLVQEYQHADHQELLTLITSNRDVLKAFPARVRTYLETELGPVSAFK				NA	NA	NA	NA	NA
D1-12_03035	276	yutD	COG4470	putative protein YutD	ATGATTCTTATTCAAAATGCCGAGTTTGAACTCGTACACGATTTTAAAAACGGCTTTAATGAAGAAGCGTTCAAAGCCCGCTATTCGGACATATTAAATAAATATGATTACATTGTGGGAGACTGGGGATACAGTCAGCTGCGGCTCAAAGGCTTCTTTGATGACCAGAATCAAAAAGCAACCTTTGAAACGAAAATCAGCACATTGGACGAATACATTTACGAATACTGCAATTTCGGCTGCGCGTATTTTGTTTTAAAACGAATCAGAAAATAA	MILIQNAEFELVHDFKNGFNEEAFKARYSDILNKYDYIVGDWGYSQLRLKGFFDDQNQKATFETKISTLDEYIYEYCNFGCAYFVLKRIRK				NA	NA	NA	NA	NA
D1-12_03036	897	lipA	COG0320	Lipoyl synthase	ATGGCAAAGAAAGACGAGCATCTGAGAAAGCCGGAATGGCTCAAAATAAAGCTGAACACGAATGAAAACTATACGGGTCTGAAAAAATTAATGCGTGAAAATAATCTGCATACCGTATGTGAAGAAGCAAAATGCCCGAACATCCATGAATGCTGGGCTGTCAGACGTACGGCGACGTTCATGATTCTCGGTTCCGTCTGTACGAGAGCATGCCGCTTCTGCGCTGTAAAAACGGGTCTGCCGACTGAGCTGGATCTGCAGGAACCGGAACGCGTAGCTGATTCCGTCGCGCTGATGAATTTAAAACACGCCGTCATCACGGCCGTAGCGCGTGATGATCAGAAAGACGGCGGAGCAGGCGTCTTTGCGGAAACGGTCCGGGCGATCCGCAGAAAAAGCCCGTTCACGACAATTGAAGTGCTGCCATCCGATATGGGCGGAAATTACGACAACCTGAAAACATTAATGGATACCCGTCCTGATATTCTGAACCACAACATTGAAACCGTCCGCCGCCTGACACCGAGAGTCCGGGCCCGCGCAACATATGACCGTTCTTTGGAATTCTTGCGCCGTGCGAAAGAAATGCAGCCTGACATCCCGACGAAATCAAGCATTATGATCGGTCTCGGAGAAACGAAGGAAGAAATTATTGAAGTGATGGACGACCTGCTTGCGAACAATGTCGACATCATGGCGATCGGCCAATACCTGCAGCCGTCGAAAAAACATTTAAAAGTTCAAAAATATTACCATCCGGACGAATTTGCCGAACTGAAAGAAATCGCGATGCAAAAAGGCTTCAGCCACTGTGAAGCAGGCCCGCTTGTCCGTTCTTCCTACCATGCGGATGAACAAGTGAACGAAGCGTCTAAAAAACGCCAGGCCCAAGCATAA	MAKKDEHLRKPEWLKIKLNTNENYTGLKKLMRENNLHTVCEEAKCPNIHECWAVRRTATFMILGSVCTRACRFCAVKTGLPTELDLQEPERVADSVALMNLKHAVITAVARDDQKDGGAGVFAETVRAIRRKSPFTTIEVLPSDMGGNYDNLKTLMDTRPDILNHNIETVRRLTPRVRARATYDRSLEFLRRAKEMQPDIPTKSSIMIGLGETKEEIIEVMDDLLANNVDIMAIGQYLQPSKKHLKVQKYYHPDEFAELKEIAMQKGFSHCEAGPLVRSSYHADEQVNEASKKRQAQA	PGPT0003935_3934	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
D1-12_03037	978	lytH	COG0739	L-Ala--D-Glu endopeptidase	GTGAAAGTTCTGTTATCTGCTCTTCTCCTTTTATCAGTTTTCTGTCCGGCTGCAAGCGGGAAAGAACAATCGGCTCCTGTTTACGGCGAACGGATGCAGTTGTACCGCAAAGCCGAAGCAGTCACGCAGATTCCTTGGTATGTGCTTGCGGCGGTTGATCAATATGAAGAAAATGTCCGCTCGAACCGAAAGGATCTGCCGGAAAAAGCGGGAATCATCAGCATTTATATTCCGGATCATTTGTGGAGCGGCCCTGAAAATCCAAATCCTAAGGACGATGCGCCTCTCAGCATTAAAGTATTTGACGGGATCGGTTTGGACGGCGACGGCGACGGAAAAGCCGAGGTAAGCAATGATGAGGACATTCTTTATACATTTGCACAGTATTTAGCGGGATTCGGAACGGATCTTGATCATATCCGCATCGGCCTCTGGAATTATTACCGCCGCGATCAGACGGTCGGCATTATCACCGAATTCATAACACTGTTTAAAACGTTCGGCCGCCTTGATCTCGGAGAGCACGCTTTTCCGCTTCCCGTGAAGACGGATTACAGCTACCGCAGCACATGGGGCGCCGCACGGGGTTTCGGCGGGCGCCGGATTCACGAAGGAACGGATCTGTTCGCTCATTACGGGCTCCCCGTCAGATCGACCTGCTACGGTATTGTTGAAATGAAGGGCTGGAACCGTTTCGGCGGCTGGAGAATCGGCATCAGGGATATCAATAACACGTATCACTACTTCGCTCACCTGAACGGCTTTGCAAAAGGTGTGCATAAAGGCCAGATCGTCAAACCCGGAGAGGTGATCGGCTCTGTCGGCAGTTCCGGATACGGACCGCCGGGCACCGCGGGAAAATTTCCGCCGCATCTTCACTACGGGATGTATAAAGATAACGGCAGATCGGAATGGTCTTTTGATCCGTATCCTCATTTAAGGGCATGGGAACGTAAAGAAATCCGCAGGAAAAAGTAA	MKVLLSALLLLSVFCPAASGKEQSAPVYGERMQLYRKAEAVTQIPWYVLAAVDQYEENVRSNRKDLPEKAGIISIYIPDHLWSGPENPNPKDDAPLSIKVFDGIGLDGDGDGKAEVSNDEDILYTFAQYLAGFGTDLDHIRIGLWNYYRRDQTVGIITEFITLFKTFGRLDLGEHAFPLPVKTDYSYRSTWGAARGFGGRRIHEGTDLFAHYGLPVRSTCYGIVEMKGWNRFGGWRIGIRDINNTYHYFAHLNGFAKGVHKGQIVKPGEVIGSVGSSGYGPPGTAGKFPPHLHYGMYKDNGRSEWSFDPYPHLRAWERKEIRRKK	PGPT0024030_317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024030-lytH-K21472	NA	NA
D1-12_03038	759	yunB		Sporulation protein YunB	TTGCCTAGATACCGGAGCGCTCTTCGCAAGAGAGGGCCTTTGCCTTTTCGATATGTGCTTCTTCTGTCGTTTGCTTTTTTTATCATATCGACGGTCATCAGCCTTTGGATGATCAACTCCTCAATCAAACCGGTGCTGATGAACATCGGAGAAATGGAAACCAAACGGGTGGCGACAGAGGTCATTACGGAATCCATTGAAGAATACATGTCTCACAGCGACAATGTGAAAGATATGGTCGATATGAAAACGGATGAAAACGGAAAAGTCACAACGATGGATTTTAATACACAAATGGTCAACAGTATGAAGGCGAAAGTGACAAAGCAGCTTCAGGCTCATCTGAAGGAAGCGGAGTCGAACAATAAGCAGCATGAAACGGAAAAAGACGCGAAAACGGCCGATGAAATTATGATTAACATCCCTTTAGGGCAGGTCACGGGAAACAGCATTCTCGGAAATCTGGGGCCGAAAATCCCCGTGCGCTTTAACCTGATCGGTGATGCGTTAACTGATGTGAAAACAAAAATAAAGCCGTACGGCATTAACAATGCCCTGATCGATATCAGCATCTTTGTGGAAATAAAAGTGAAGGTCATTATTCCGTTTGCCAGTAAGACATCAGTCGTGACAAATAATATTCCGGTCTCCATTAAAGCGATTCAAGGAGAGGTGCCGCAGTTTTATAACGGAAGCGGCGGGTCAGGTGTGACGCCTTCCGTCCAGCTGCCGAATGAAAAACAGAAGAAAGATAAATAA	MPRYRSALRKRGPLPFRYVLLLSFAFFIISTVISLWMINSSIKPVLMNIGEMETKRVATEVITESIEEYMSHSDNVKDMVDMKTDENGKVTTMDFNTQMVNSMKAKVTKQLQAHLKEAESNNKQHETEKDAKTADEIMINIPLGQVTGNSILGNLGPKIPVRFNLIGDALTDVKTKIKPYGINNALIDISIFVEIKVKVIIPFASKTSVVTNNIPVSIKAIQGEVPQFYNGSGGSGVTPSVQLPNEKQKKDK	PGPT0025000_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025000-yunB-NA	NA	NA
D1-12_03039	1395	mggB	COG0737	Mannosylglucosyl-3-phosphoglycerate phosphatase	ATGTTAGAGAAGCTCCGTTTATATCATACGAATGATTTGCACAGCCATTTCGAAAATTGGCCGAAAATCGTACATTATATTGAGCAGAAGAGAAGTGAGCATGAAAAAGACGGGGAGGAAACACTCGTATTCGACATCGGCGATCATATGGACCGATTCCAAATGATAACGGAAGCGACCTTCGGCAAAGCGAATGTCGACTTGTTAAATCGGCTTGAGATCGATGCGGCTGCCGTCGGGAATAATGAAGGAATTACGCTGCCTCACGATGAGCTGGCGGATTTATATACCCATGCCGCGTTTCCCGTCATTGTGTCCAACCTGTTTGACGCGGACGGACAGCGGCCGGAATGGGCCGAGCCCTACGTGATTAAAACGCTGAAAAACGGGATGACCGCCGGCATACTCGGCGTCACGGTGCCGTATTATCCCGTCTATCAAAAACTCGGCTGGACGGTGACGGATGCGGAAAAAAGCATTCAAGAATCACTTGACGATATCAAGGGCAAAGCGGATATCATCATTCTGCTTTCTCATTTAGGCCTGGTCGATGACCGGGCCGCAGCGGAAAAATTTCCCGACATCGATGTCATTCTTGAATCACATACGCACCACCTTCTTGAGGACGGACAGGACATAAACGGCGTATTGCTTGCATGTGCGGAGAAATACGGGAACTATGTCGGCTGTGTCGAGCTGACGATAGAAAGTGAATCACGAACCATTGTCAGCAAACAGGCATCTGTACAGAAAATGGCTGATTGGCACGGGGAATCTGAAGATACGGCGGCTTTTCTGAAAGAGAAAGAACGGGAAGCGGAAATCCTGCTCTCCGAACAAGTCGCTAATCTGAATGAAGAAGCCGGCGTGAAGTGGTTTGAGGAATCGCCGCTTCCGCTTCTATTAGCCGAAGCGCTGAAAAGCTGGTGCGGCTGTGAAGTCAGCATGGTGAATTCAGGCGTCATTTTGGGGCCTTTACAGAAGGGGCCTGTCACAAAGCTTGACCTGCACCGCATCTGCCCTCATCCGATCAATCCGGTGGCCGTTCGTCTTTCAGGCAGGGAACTCCAGGAAACAATCAGCCAGGCCGCCTCGGAACAAATGGAGCAGCTGCGGATAAAAGGTCTCGGCTTCCGCGGGGAAGTGATGGGCAGGATGGTATATGCCGGAGCGGAGGCAGAGGCCGGCATTCTTGAAGACGGTGTGACGCATCTCCTCAATGTGAAAGTGAACGGAGAAGAGATTGATCCGGAGCGGATATACTCGGTTGCCGTTCTCGATATGTTTACACTCGGAAAGCTGTTCCCTTACATCCGCGATTCAAAAGAAAAACAATACTTTATGCCTGAGTTTTTAAGGGATCTGCTCGCCTGGAAGCTCGCGCGGCAGCCGTAA	MLEKLRLYHTNDLHSHFENWPKIVHYIEQKRSEHEKDGEETLVFDIGDHMDRFQMITEATFGKANVDLLNRLEIDAAAVGNNEGITLPHDELADLYTHAAFPVIVSNLFDADGQRPEWAEPYVIKTLKNGMTAGILGVTVPYYPVYQKLGWTVTDAEKSIQESLDDIKGKADIIILLSHLGLVDDRAAAEKFPDIDVILESHTHHLLEDGQDINGVLLACAEKYGNYVGCVELTIESESRTIVSKQASVQKMADWHGESEDTAAFLKEKEREAEILLSEQVANLNEEAGVKWFEESPLPLLLAEALKSWCGCEVSMVNSGVILGPLQKGPVTKLDLHRICPHPINPVAVRLSGRELQETISQAASEQMEQLRIKGLGFRGEVMGRMVYAGAEAEAGILEDGVTHLLNVKVNGEEIDPERIYSVAVLDMFTLGKLFPYIRDSKEKQYFMPEFLRDLLAWKLARQP	PGPT0013395_1891	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
D1-12_03040	822			hypothetical protein	ATGTCTTATCTTATTTTGATCATATTAGGATTTATCGCGGGAACGGTCGGCAGCCTGATCGGGCTTGGGGGAGGAATTATCATCGTGCCGGCGATGCTCTATTTAAGCACGATGACTCCGTTTTTTCATGACGTAACACCGCAGACTGCCATCGGCACGTCCCTTTTGGTGATTATTTTTACGGGCCTGTCATCAACTCTGGCCTATATGAAATATAAAACCGTTGACTACAAAAGCGGACTGATATTTTTTATCGGCTCCGGCCCGGGAAGCATCATCGGCGCGTATTTGTCTAAACTTTTTAATGCGCATACGTTTTCCGTCTGGTTCGGACTTTTTATGATTTTGATTTCCATTACATTAATGTTGAAGGCGAAAGCAAAACCGGTCAATAAAGCGCATAAAGGCATGATCCGGACATATGAGGATGAATCAGGTGAGCTTTATACATATTCGTACCGTATTTTCACCGGTATCGTGATTGCCTTTTTCGTCGGTTTATTGGGCGGTCTTTTCGGCATTGGCGGCGGCTCTCTTATGGTTCCGGCCATGATGCTGTTATTTTTGTTCCCGCCGAAAGTGGCTGTGGCGACGTCAATGCTCATTATTTTCTTATCCTCCGTGACGGGTTCCGTGTCACATATCGCAGAGGGCCATGTCAATTGGCTGTATGCGCTGTGCCTCGTTCCGGGCGCGTGGTTCGGCGGCAAAATGGGCGCGTGGGTCAATAAGCGGGTGCAGACGAAAACGATCGTGCTTTTCATGCGGGTCGTCTTGATTTTGATCGGCTGTGAATTGATTTATCAAGGGATATTCAGCTAA	MSYLILIILGFIAGTVGSLIGLGGGIIIVPAMLYLSTMTPFFHDVTPQTAIGTSLLVIIFTGLSSTLAYMKYKTVDYKSGLIFFIGSGPGSIIGAYLSKLFNAHTFSVWFGLFMILISITLMLKAKAKPVNKAHKGMIRTYEDESGELYTYSYRIFTGIVIAFFVGLLGGLFGIGGGSLMVPAMMLLFLFPPKVAVATSMLIIFLSSVTGSVSHIAEGHVNWLYALCLVPGAWFGGKMGAWVNKRVQTKTIVLFMRVVLILIGCELIYQGIFS				NA	NA	NA	NA	NA
D1-12_03041	852			hypothetical protein	GTGATTTATATCGGACTGACGGGGTGGGGGGATCATGACAGCATCTATCCGCCTAAAACGGCGGGCCCGCAAAAACTGCAGGCGTATTCCTCCCATTTTCCCATCGTTGAGCTGGACGCGAGCTTTTACGCGATACAGCCCGCCCGCAATAATGAAAGATGGGTCAAAGAGACGCCGGAATCTTTTCAATTTGTCATTAAGGCATATCAAGGAATGACGGGCCATCAGCGCGGCGATATTCCCTTTGAATCGAAGGAAGAAATGTTTGAGGCGTTTAAGCTGTCATTATCGCCGTATATAGAGCATAGAAAGCTTGCCATGGTGCTGTTCCAATTCCCGCCGTGGTTTGACTGCAAGAAAGAAAACGTCGCATATTTAAGATGGTGCAGGCAGCAGATGGGCGATATTCCGTGCGCGCTTGAATTCCGCAACCGGTCTTGGTTTTCCCCGCCATTTTACGAGCAGACGCTTTCCTTTATGAAGGAGGAAGGCTGGATTCACAGCATATGTGACGAGCCGCAAATCGGCGAGGGCAGCATTCCGACCGTCCTGAAAGCAACGGATGAAGAAAAAACGCTTGTCCGTTTTCACGGACGGAACAAGCAGGGCTGGATCAAACCAGACGGCGGACAAAACTGGCGTGAAGTCAGATATTTATACCGCTATAACAAACAGGAGCTCAAAGATTGGAAAAACAATCTTCAGGAGCTGAAAAAGCAGTCGCGCAATCTGTATGTGCTCTTCAACAATAACTCAGGCGGAGACGCCGCCGATAACGGGCTTGAGATGCTTGAAATGTTAGATATCTCATATACCGGGCTTGCTCCGAAGCAGCTCGACCTATTCAGCTAG	MIYIGLTGWGDHDSIYPPKTAGPQKLQAYSSHFPIVELDASFYAIQPARNNERWVKETPESFQFVIKAYQGMTGHQRGDIPFESKEEMFEAFKLSLSPYIEHRKLAMVLFQFPPWFDCKKENVAYLRWCRQQMGDIPCALEFRNRSWFSPPFYEQTLSFMKEEGWIHSICDEPQIGEGSIPTVLKATDEEKTLVRFHGRNKQGWIKPDGGQNWREVRYLYRYNKQELKDWKNNLQELKKQSRNLYVLFNNNSGGDAADNGLEMLEMLDISYTGLAPKQLDLFS				NA	NA	NA	NA	NA
D1-12_03042	354			hypothetical protein	TTGTATGATCAAATCTTGAACATATTAACGGCATCCTGGTCGCGCAAGACCAGTACAAAATGGACGGAAGATTGCCCGGCCAAAGGCCAGTGCGGCGTGACGGCTTTAGTCATCCAAGATGTTTACGGCGGTGACATTCTCAAAACAAAAACCGGCACAAGCTGGCATTTTTATAACCGAATAGACGGGGAGATATATGATTTCACGAGCGGTCAGTTTTCAGAGCCGATCGTCTATCAGCACATATTTTCTTCCAGAGATGAGGCATTTTCGGACACCAATGAACATCAATACCGGTTCCTGAAAAGTGCATTCAGAAAAAACATGGAAACGGAAAGAGAAAAACACCTGTGA	MYDQILNILTASWSRKTSTKWTEDCPAKGQCGVTALVIQDVYGGDILKTKTGTSWHFYNRIDGEIYDFTSGQFSEPIVYQHIFSSRDEAFSDTNEHQYRFLKSAFRKNMETEREKHL				NA	NA	NA	NA	NA
D1-12_03043	1365	allB	COG0044	Allantoinase	ATGGCCTATGACGTAATTGTAAAGGGTGCGAAAGCTGTGCGAAAAGGCGGAACAGAGCGGGTTGATATCGCCGTCAAGGACGGGAAAATTGCCTTAATCGGGCCCGGCATTGACGAAAAGGCGGAACAAGTGGTGCAGGCGGACGGCATGTATGTGTTTCCGGGAGCGGTCGATTGTCACGTGCATTTCAATGAACCCGGCCGCGAAGAATGGGAAGGCATTGAAACCGGCTCAAACATGCTGGCTGCCGGCGGCTGTACGTCTTATTTTGATATGCCGCTTAACTGCATCCCTTCGACGGTAACTGCTGAAAACCTGCTGGCAAAGGCGGAAATCGCCGAACGAAAGTCAGCGGTTGATTTTGCGCTTTGGGGCGGTTTGATGCCCGGATATACCGAACATATCCGGCCGATGGCAGAAGCGGGGGCAATCGGGTTTAAAGCGTTTCTGTCTAAATCGGGAACGGATGAATTTCAATCAGCCGATGAACGGACTCTTTTAAAGGGAATGAAGGAAATCGCGGCGTGCGGCAAGGTTTTGGCTCTGCACGCAGAAAGCGACGCCCTCACCCGATTCCTTGAAGCCGAGTACGCGCTCCAAGGGAAAATTGATGCCCGCGCTTACGCTTCCTCACGTCCGGAAGAGGCCGAATGCGAGGCTGTGCAGCGGGCGATTGAGTATGCAAGAGCGACGGGATGCGCGCTTCATTTTGTACATATCAGCACGAAACGGGCCGTGCTCTCCATTCAGCAGGCGAAAAAAGACGGATTGGATGTCACCGTTGAAACGTGTCCGCACTACTTATTATTCAGCTTTGAAGACTTCCTCAAAAAAGGGGCGGCTGCCAAATGCGCTCCGCCGCTCCGCTCAGAGGCTGATAAAGAGGAATTGATCGGGGTTTTGGCTGAGGGCCTGATTGATATGGTGTCTTCGGATCATTCTCCCTGTCATCCGTCTTTGAAACGCGAGGATAATATGTTTCTGTCGTGGGGCGGGATCAGCGGAGGCCAATTTACGCTTCTCGGCATGATTCAATTAGCGATCGATCATGGGATTCCGTTTGAACATGTGGCCCGATGGACGGCCGAAGCACCGGCCAAGCGCTTCGGTTTAACGAATAAAGGACGGCTTGAAGAAGGATTTGACGCTGATTTTGCCATTGTTCGGCCGGAACCTTTTACCGTCACAAAAGAAACGATGTTTTCCAAACATAAGCAAAGCCTGTATGAAGGCCGCACCTTTCCATACCGAATTGCTGCGACCTACAGCAAGGGGCGCTGTGTGTACCAGGATGGCGGTCGTAAGCAGAGCGGGGCTTTCGGAACATTCCTGAAGCCTTCTGAAATAAAAGAGCCGATTCTCTGA	MAYDVIVKGAKAVRKGGTERVDIAVKDGKIALIGPGIDEKAEQVVQADGMYVFPGAVDCHVHFNEPGREEWEGIETGSNMLAAGGCTSYFDMPLNCIPSTVTAENLLAKAEIAERKSAVDFALWGGLMPGYTEHIRPMAEAGAIGFKAFLSKSGTDEFQSADERTLLKGMKEIAACGKVLALHAESDALTRFLEAEYALQGKIDARAYASSRPEEAECEAVQRAIEYARATGCALHFVHISTKRAVLSIQQAKKDGLDVTVETCPHYLLFSFEDFLKKGAAAKCAPPLRSEADKEELIGVLAEGLIDMVSSDHSPCHPSLKREDNMFLSWGGISGGQFTLLGMIQLAIDHGIPFEHVARWTAEAPAKRFGLTNKGRLEEGFDADFAIVRPEPFTVTKETMFSKHKQSLYEGRTFPYRIAATYSKGRCVYQDGGRKQSGAFGTFLKPSEIKEPIL	PGPT0000870_757	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000870-allB-K01466	NA	NA
D1-12_03044	1596	pucR	COG2508	Purine catabolism regulatory protein	ATGAATATTTATGATGTGATGAAGATTCCCGCTTATGAGCGGGCCGCATTAATCGCAGGCAAATCCGGCGGCTGGAGGGAGGTGCAGCACGTCAACATGATGGATGCGCCGGACATCGCTGATTTTTTACATAAAAACGAATTGCTCGTCACCACGGCTTACCACTTGAAGGACCGCCCGCAGCTGTTGAAAGATTTGATCCGCCTCATGGCAAAACGGGGCTGCGCGGGACTGGGGATCAAAACGAAACGTTATCTTAATGTCATTCCGAAAGATGTTGCGGAGCTTGCCGACCGGTATGAATTTCCGATTATTGAGCTGCCGGAAGACATCAGGCTCGGAGATATCGTCAACGCCACACTGAGCCATATTCTTGATATGCGTTCAAATGAGCTGCAGCAGGCCATTTACGCCCATAAAAAATTCACAAACCACATCATGAGCGGCAAGGGGCTTCAATCCCTGCTTAAGAAGCTCTCAGACATTCTCCGGCTTCCCGTGCTGCTTTTGGATCAGCATACAAAACTCTTATCATCGTCCCACCGCATACCCATTGACACGTCTGTATTGAAAAACATCTGTTATTCCCTTTCCGGGCCTTATTTCACCTGCTTTTCCATGCTGTCTGACAGAAAGGCGTATTCTGTCCTTCCGATTCTGAACGTTGAAAAAAACTGCGGTTATCTGGTGATTCCGGAGCTGGTGCAGACCGCTGATAAAGGCATGATTTTGACAATTGAACAGGCGGCCAACGTCATTTCCTTTGAACTGCTGAAAGAAAATGCCATCAAACAATTCGGCAGACGGGCGCGCAATGAATTTTTCAGCAATTTCATCGACCGCTCGTTTACCGGCCATGAAGAAATCAAAAGCCGCGCCAAAGAATTCCGGCTCCGCTGGGATCAGAAATACATGTGCATTTGCGGAAAACTCGACCGAAATGAGAAAACGATCAGCTTTACCGAAAATCAGCTCGTTTCCGATCATGTATTTGAACTGCTTGAAGGGGAGCTGTCATCCTTTCCGTTTCCCCCTCATCTCTTTATTAAAGGAAATGTCGGTATTCTTTTAATTGAAGCGACAGACAGCTGGAATGAAATGCACGCGTCTGTCATCAGCTTTTTGGAGCAGTTTCAAAAGCAGGTCCGGACGCAGTTTAAACGGACTGTCTCCTTCGGCATCTCAAACATATGCCAAAAGCTGATCGACGTCCCTGACGCTTTTACCGAAGCTTCAGACGCCATTTCATCCGGGCATTTGTCCAGAAGCGCGGAGTTTATTCAAATCTATCATGCCAAAGACGTGCCGGAGCTGCTCCGCCTGCTTCCCGCGGAAGATGTGAAAAAGTTTTACGAAGCCACCCTCCAAAGCCTGGCCGACCGGCAAAAGGAGGACCAGAGCCTGCTTCATACGCTGTCTGTTTATCTGGAGACCCACTGCCAGATTTCAGAAACGGCTAAGCGCCTGTACGTCCATCGAAATACGGTGATCTATCGTTTAGAAAAATGCGAGGAACTGCTCGGCAAAAGCTTAAAAGATCCGGAGACGACGATGCGCCTGCGGCTCGCGCTGAGAATGCAGCGGCTGATCGGTTAA	MNIYDVMKIPAYERAALIAGKSGGWREVQHVNMMDAPDIADFLHKNELLVTTAYHLKDRPQLLKDLIRLMAKRGCAGLGIKTKRYLNVIPKDVAELADRYEFPIIELPEDIRLGDIVNATLSHILDMRSNELQQAIYAHKKFTNHIMSGKGLQSLLKKLSDILRLPVLLLDQHTKLLSSSHRIPIDTSVLKNICYSLSGPYFTCFSMLSDRKAYSVLPILNVEKNCGYLVIPELVQTADKGMILTIEQAANVISFELLKENAIKQFGRRARNEFFSNFIDRSFTGHEEIKSRAKEFRLRWDQKYMCICGKLDRNEKTISFTENQLVSDHVFELLEGELSSFPFPPHLFIKGNVGILLIEATDSWNEMHASVISFLEQFQKQVRTQFKRTVSFGISNICQKLIDVPDAFTEASDAISSGHLSRSAEFIQIYHAKDVPELLRLLPAEDVKKFYEATLQSLADRQKEDQSLLHTLSVYLETHCQISETAKRLYVHRNTVIYRLEKCEELLGKSLKDPETTMRLRLALRMQRLIG				NA	NA	NA	NA	NA
D1-12_03045	123			hypothetical protein	ATGAAAAAAAGCATCTTCATTATTATGGGTCTGTCGTTATCTTTGATATGCGGATTGGGTGTGAACACAGTGGAAAAAACACATGATACCTTTCAAACTGCTTCGGATCGTTTTCAGACTTGA	MKKSIFIIMGLSLSLICGLGVNTVEKTHDTFQTASDRFQT				NA	NA	NA	NA	NA
D1-12_03046	129			hypothetical protein	ATGAATTTTAGAAAAGGCGTATTTATCATTGTGTCGGCTGTCGTTTTAATGTCAGGGGTCGGTCTAGCAACATCGGCTGTTTCATTTGATGGATCATATCAAGTTTCGTCTGATCGTAATCAAACCTAA	MNFRKGVFIIVSAVVLMSGVGLATSAVSFDGSYQVSSDRNQT				NA	NA	NA	NA	NA
D1-12_03047	1131	rapH_2		Response regulator aspartate phosphatase H	GTGAGTTCTGTTTTACCATCATCGGAGGTTGGCGTTAAGATTAATGAATGGTACAAAATGATACGTCAGTTCAGTGTTCCGGATGCGGAGATTTTGAAAGCGGAAGTGGAACAAGAAATCAATGAGATGGAAGAAGACGAGTATCTACTGATTTACTACACCCTCATGAAATTCCGCCATCAGCTTATGCTGGATTATTTAGAACCGGTGACTACCCGCGTGAGACCGACAATTGACGAGCTGCTGGAAAAAATCGAAGCATCAAATAAAGGAATTTCCGGCCTGCTGTTCTATTATTCTTTATTTTTCCGCGGCATGTATGAATTTGATCAAAAGCAGTATGTAAAGGCGATCGGCTTTTATAAAGAGGCTGAAAAACAACTCGTTCATGTGCATGATGAAATTGAGAGAGCGGAGTTTCATTTTAAACTGGCTGAAGCATATTACGGTATGAAACAAAGCCACGTCTCCATGCATCACGTAAAGCAAGCGCTCGATATTTACGATCAGTATGAGTTGTATAAGGTCAGGAAAATTCAATGTCTATTTGTCATATCAGGGAACTATGTAGACTTTAAACGTTATGAAAAAAGCTTGCCGCATTTAGAAAAAGCTTTAGAGTTGTCGAAACAAGTAAACAATAATGAAAGGCTGCTCAGTTCTGCTTATTACAACATAGGAAAGAATTACGGAGACTTAGAAGAATACAATAAAGCTGAAATCTACTTAAAAAAAGCAGCGGAGATATCTGAGAAGTATAAATTGGGTAACCTTCCGCATTCCTTGTTTACATACGCAAAGCTTCTATTTAAACAAGGGAAAACAAGCGAGGCGATTCAAATCAGCAAAAAGGGACTTTCATCAGCGATATTTCAAGGAGATAAGCTGTTTGAATCTCTGCAAAAATATTTGGAGGCTTTATATATTAATGCAATAGACCAAATGGGAATTAAAAAAACAATTGATTACCTTGAGAAAAATAAAAACTATTCGTATGTAGAAGATATTGCTCTTGATACGGCTGCTGTTTATGCAGAGTCAAAGCAATATGACAAATCTTATTTTTATCATCAAAAAATGATTCAAACGCAAAAACAAATTCAGAGGGGAGAATGCCTGTATGAATTTTAG	MSSVLPSSEVGVKINEWYKMIRQFSVPDAEILKAEVEQEINEMEEDEYLLIYYTLMKFRHQLMLDYLEPVTTRVRPTIDELLEKIEASNKGISGLLFYYSLFFRGMYEFDQKQYVKAIGFYKEAEKQLVHVHDEIERAEFHFKLAEAYYGMKQSHVSMHHVKQALDIYDQYELYKVRKIQCLFVISGNYVDFKRYEKSLPHLEKALELSKQVNNNERLLSSAYYNIGKNYGDLEEYNKAEIYLKKAAEISEKYKLGNLPHSLFTYAKLLFKQGKTSEAIQISKKGLSSAIFQGDKLFESLQKYLEALYINAIDQMGIKKTIDYLEKNKNYSYVEDIALDTAAVYAESKQYDKSYFYHQKMIQTQKQIQRGECLYEF	PGPT0025780_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025780-rapH-K06366	NA	NA
D1-12_03048	1134			hypothetical protein	ATGAATAGACTTAAAATCCTGTTTATTTTCATTTGCATACTGATCGTCACAACCTCTTGCGGTCTCATCCCAACTGGGAATGAAAAAGAGGAAAGAAGCAGCAATCAAAAGACTGTATTAAAGGATATTGACAATGCAAAATTTATTGTTGGTTTTTCCAACACTTTAGATAGGGGAAGTGAGATTGGGGTTTACAGTGAAGATGGTACTAAAATGGATAGCTTGGAATTGAAAGATGGTATAAATTTTACGATGTCTTCACATAACAAAAACGATACGTACTTCTCATCAAATAGAAGCAATAATCACTTGATGATAGACAATAAAACCGGAACAATAAACACAATAAATGAAAAGAGTTTGTCAAAAACAACTGAGGATGAAGGTGCTTTCTTTATAAATAGTTCTGACGGTTATATCATCCATGACATTAACGTTGGATATACAGACAAAGGGCTGGAGAGTGAATTGGTATATTGGAAGGAAAACAGCCGAAAAAACAAGAAACAAATAAAGCTTGACGGAGAACTTGGATCAGCAATCGTCGCTAAAAATAAAATTTATGTCATTTCAAGTGATGAAGAAAGTATGTCCATCCTTTCAATTAACCCAGAGACAAATAAGCAAGAGAACAAGGCATCCATACCGAATAAAGGGATATACTTCATGGATGAAAAGGATGCGTTCCAAGCTCTAGATGAAAATACATTTGTACTGGCAGTTAATGATAACGTGAATGAGAAAGAGAATTCTAAGCTCATATTAATAGACAGAGAGACGCTAAAGGTAAAAAAAGAAGTCGAGATGGAGAAAGGGTTTCATCCTGCAAAATTGAAAATAGTAAAAGATAAAGTCTTAGCCGTTTCTTTTGATGGGAAGCTGCAGATATTTGATAAAAAAATGGTTAAGAAAAACTCTTTCAATTTTTATGCGGGGGATGATAACAAATTAATGAATGATGTTCAATTCACTGATAGAGAGATGTATGTTTTAATCAAAAACTTTGATATCCAGCGCGATAACAAGCTTGGAGACATCACGTCTTATGATTTGAAATCAGGCAAAAAGGTAAAAACAATCCCGCTAAAAGCAAACAAAGAGTGGGAAATTGCACGTTTTGAAATTTTAAAATAA	MNRLKILFIFICILIVTTSCGLIPTGNEKEERSSNQKTVLKDIDNAKFIVGFSNTLDRGSEIGVYSEDGTKMDSLELKDGINFTMSSHNKNDTYFSSNRSNNHLMIDNKTGTINTINEKSLSKTTEDEGAFFINSSDGYIIHDINVGYTDKGLESELVYWKENSRKNKKQIKLDGELGSAIVAKNKIYVISSDEESMSILSINPETNKQENKASIPNKGIYFMDEKDAFQALDENTFVLAVNDNVNEKENSKLILIDRETLKVKKEVEMEKGFHPAKLKIVKDKVLAVSFDGKLQIFDKKMVKKNSFNFYAGDDNKLMNDVQFTDREMYVLIKNFDIQRDNKLGDITSYDLKSGKKVKTIPLKANKEWEIARFEILK				NA	NA	NA	NA	NA
D1-12_03049	1197	tetA_2		Tetracycline resistance protein, class B	ATGGCGTACATAGGCCGATTGTCAATTTTAATGCTGAATATGTTTATTGCGATGCTTGGAATCGGATTGATTATTCCGATTATGCCCACCTATATTACCGAATTCGGAGCGACGGGCAGCACGATGGGTCTGCTTGTTGCGGCGGCGGGGCTTACACAGCTTTTATTTGCGCCTATTGCCGGGGAAATAACCGACAAATACGGACGGCGGAAACTGATTATTTTCGGCATCGCCGCCTTTGCCGTGTCACAATTGATCTTCGCCTTTGCCGGAAGCCTCTGGCAATTGTTCGCATCCCGCCTTTTGGGCGGAATGGGCGCGGCGTTTTTAATGCCGTCAATGTTCGCTTACATTGCGGATATTACGACCGAAGAAGAACGCGGGAAAGGAATGGGGCTGTTCAGCGCGGCGATGACGCTCGGTGTTGTCATCGGGCCCGGTGTCGGAGGCTATTTGGTTCATTACGGCATGTCTGTGCCGTTCATCGTGTCCGCAAGTCTCGCCTGCTTTTCAAGTGTGCTTTCATTTTTCTTTCTGCCCGAAACGCTGGGGCGTGAAAAGCAGCTGGAAGCCCGGGCTAAAACGGAAAAACGTGAGCATCTGTTTAAGCAAATGTCACGCGCGCTCAAATCGCCGTTCGCGTTTATGCTGATTCTGGTTTTTGTGCTGAACTTCGGAATTATGAACTTTGAATCCGTTTTCGGCCTTTACGTTGACCATAAACACGGATTTAAAGCGTCTGATATTGCCTTTATTATTACGGCTGCGGGTCTCATCGGCGTGTTTGTGCAGGCGGTCGGCGTCAGTTATCTCGTCCGCAGGTTCGGGGAAAAACGCGTCATTAACGTGACGTTGATCGGGGCGGCTGCAGGACTTGTGTGGTGCCGGTTTGCGGGTTCATATTGGACTGTTTTTGCCGCGGCAATCTTTTTTCTGACGCTGACATCGCTGCTCCGGCCGGCGGTTAATACGATGCTGTCGAAGCTTGCCGGTGACCAGCAGGGGTTTGCCGGAGGGATGAATACCTCATTCATCAGCTTAGCGAATATCGCCGGACCGTCTGCTGCCGGTTTTCTCTTTGATGTAAATATGGAATTTCCGTATATGCTGGGAGCGGCCATTCTCGCCATCAGTTTTCTGGCCGCGCTTGGCTGGGGCAAAAAGACACAGACCCGGCCGTTCACGCAGCAAGGATAA	MAYIGRLSILMLNMFIAMLGIGLIIPIMPTYITEFGATGSTMGLLVAAAGLTQLLFAPIAGEITDKYGRRKLIIFGIAAFAVSQLIFAFAGSLWQLFASRLLGGMGAAFLMPSMFAYIADITTEEERGKGMGLFSAAMTLGVVIGPGVGGYLVHYGMSVPFIVSASLACFSSVLSFFFLPETLGREKQLEARAKTEKREHLFKQMSRALKSPFAFMLILVFVLNFGIMNFESVFGLYVDHKHGFKASDIAFIITAAGLIGVFVQAVGVSYLVRRFGEKRVINVTLIGAAAGLVWCRFAGSYWTVFAAAIFFLTLTSLLRPAVNTMLSKLAGDQQGFAGGMNTSFISLANIAGPSAAGFLFDVNMEFPYMLGAAILAISFLAALGWGKKTQTRPFTQQG	PGPT0003185_540	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003185-blt-K08153	NA	NA
D1-12_03050	1254	pucG	COG0075	(S)-ureidoglycine--glyoxylate transaminase	GTGCCGACCAGAAAAGAATTGTGCATTCCGCAAAGAACGATTATGACACCGGGACCGACAGAAGCTGAACCGAGAGTGCTGAGGGCGATGGGCGCTCCGATCATCGGCCAGTTTGACCCGGCATTTACCGGCATCATGAACGAAACGATGCAAATGCTCCGTGAATTGTTTCAAACGGAAAACCGCTGGGCCTATCCGATTGACGGTACATCAAGAGCGGGGATTGAGGCTGTTCTCGCAAGTGTGATAGAACCGGGCGACAGTGTGCTCGTTCCGATATACGGACGCTTCGGATACCTGCTGACTGAAATCGCCGAGCGGTACGGAGCGGACGTTCATACGATCGAGTGTGAATGGGGAACGGTCTTCCGGCCTGACGAGATTATCAGCGAGATGAAAAAGATTTCCCCGAAAATCGTCACTATGGTGCACGGAGAAACATCAACGGGGCGGATTCACCCGCTGAAAGAAATCGGGGAAGCGTGCCGCGCCCAAGACGCACTCTTTATCGTGGATGCCGTGGCCACGATCGGAGGCTGCGCCGTAAAAACGGATGAATGGAAGATTGACGCAGTCATCGGGGGAACGCAAAAATGCCTATCGGTCCCTTCCGGAATGGCGCCGATTACTTATAATGACCGGACGGCAGCTGTCATTGCCGCGCGTAAAAAAATAGAACGGGGCATTGCGACGGCGGCTGACGGCAACATGCTGTCCGGTCACCGTCCGATTACGAGCAACTATTTTGATCTGAGCCAGCTCGAAGATTATTGGAGTGAAAGAAGGCTGAATCACCATACAGAAGCGACAGCAATGCTTTATGCGCTGCGGGAGGGTGTGCGTCTTGTCCTGGAAGAAGGACTTGAAGAACGGTTCCGCAGACATCGGCGTCACGAAAAAGCGCTTACGGCGGGACTTGCAGCGATGGGCCTTGATTTATTCGGCGATCCGGAGGCGAAGCTGCCTGTCGTCACATGTGTGCAGATTCCGCCGGAAGCAGACGGCGAATCGATCAGAAGTATGCTTTTGTCTCAATTCGGAATTGAAATCGCCAGCTCATTCGGTCCGCTGCAGGGGAAAATTTGGCGAATCGGAACGATGGGCTACAGCTGCAGAAAGGAAAATGTGCTGTTTGTGCTGGCCGGACTTGAAGCGGTTCTGATCAGACACGGAGTTGCCGTTAAAGCTGGGGAAGCGCTGCAGGCGGCCCTTAACATATATGATCTGCCGGCTGAAACCGGTGTGCTGTCATGA	MPTRKELCIPQRTIMTPGPTEAEPRVLRAMGAPIIGQFDPAFTGIMNETMQMLRELFQTENRWAYPIDGTSRAGIEAVLASVIEPGDSVLVPIYGRFGYLLTEIAERYGADVHTIECEWGTVFRPDEIISEMKKISPKIVTMVHGETSTGRIHPLKEIGEACRAQDALFIVDAVATIGGCAVKTDEWKIDAVIGGTQKCLSVPSGMAPITYNDRTAAVIAARKKIERGIATAADGNMLSGHRPITSNYFDLSQLEDYWSERRLNHHTEATAMLYALREGVRLVLEEGLEERFRRHRRHEKALTAGLAAMGLDLFGDPEAKLPVVTCVQIPPEADGESIRSMLLSQFGIEIASSFGPLQGKIWRIGTMGYSCRKENVLFVLAGLEAVLIRHGVAVKAGEALQAALNIYDLPAETGVLS	PGPT0021460_94	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021460-pucG-K00839	NA	NA
D1-12_03051	1242	pucF	COG0624	Allantoate amidohydrolase	ATGGAACATCAGCAGCTTTCGGGGGCGAATATCGGGATTTCCGATGACATACAATGGCTGTCTCAATTCGGCGCTTCCGCTTCCGGCGGAGTGACGAGGCTTTTATATACGAAAGAATGGATGGACGCCCAGCTTGCCGTCAAAAAGAAAATGGAGGCGTTCGGGCTGGAAACGGCATTTGACGATGTCGGTAACGTGTTCGGCCGTCTGAGCGGCACAGAATCGCCTGATGAGGTGATTCTGACCGGGTCGCATATTGACACCGTTATTGACGGCGGCAAATATGACGGAGCGTTCGGCGTGCTGGCGGGCATGCTGGCGATCCGGCATTTGCATGAGACGTGCGGGCGTCCGAAAAAAACGCTGGAAGCTGTGTCGCTCTGTGAAGAGGAAGGGAGCCGTTTTCCCATCACCTATTGGGGCTCAGGCAATATCACCGGTGCTTTCTCACTTTCAGATGCGGAAACGCCGAAAGACGCGTCCGGCATTTCTCTGAAAGAAGCCATGCGGCATAACGGCTTCGGTGCAGGCCGTTATCCGGCGCCGCTGCGCACTGATATTAGTGCCTTTCTGGAAATTCATATAGAACAGGGGCAAACGCTTGAACGATCGGGAAAGGATATCGGGATTGTCACCGGGATTGCCGGACAGAGACGCTATACCGTTACGCTTGACGGTGAATGCAACCATGCGGGGACCACTTCAATGAAATGGCGGAAAGATCCGCTCGCGGCGGGAAGCAGCATCATCCATGAACTGATGCTTTCAGCGGAAAGACAGCCGGAAGAGCTCCGCCTGACGTGCGGGAAAATGACGGTTGAGCCGAATATGGCGAATGTCATTCCGGGCCGTATCCAGTTTTCCGTTGATATTCGCCACCGGCAGGAAGACGTGCTGGCAGCCTTCCATCAGAAACTGGTATCGATTGTTGAAAACATCAGCCGCAGCAAAGGAGTCAGACCCTTTATTGATGAATATATGAGGATAGAGCCGGTTCAAATGGATCAGAAACTGACGCGAACCGCAGCAGAGGCTGCAAAAGAGCAGGGGGCGGACCCGGAGAAGATCGTAAGCGGAGCGGGACATGACGCCCAGATGCTCGGCAAAACCTTTCCGGCCTGCATGCTGTTTGTGCCGAGCCGTGGCGGGATCAGCCACTCGCCGCTTGAATTCACACCCGCACATCAGCTTGAAACCGGCGTCCTTACGCTGGCGAATGTATTACATAAACTTGCCTATTAA	MEHQQLSGANIGISDDIQWLSQFGASASGGVTRLLYTKEWMDAQLAVKKKMEAFGLETAFDDVGNVFGRLSGTESPDEVILTGSHIDTVIDGGKYDGAFGVLAGMLAIRHLHETCGRPKKTLEAVSLCEEEGSRFPITYWGSGNITGAFSLSDAETPKDASGISLKEAMRHNGFGAGRYPAPLRTDISAFLEIHIEQGQTLERSGKDIGIVTGIAGQRRYTVTLDGECNHAGTTSMKWRKDPLAAGSSIIHELMLSAERQPEELRLTCGKMTVEPNMANVIPGRIQFSVDIRHRQEDVLAAFHQKLVSIVENISRSKGVRPFIDEYMRIEPVQMDQKLTRTAAEAAKEQGADPEKIVSGAGHDAQMLGKTFPACMLFVPSRGGISHSPLEFTPAHQLETGVLTLANVLHKLAY	PGPT0000875_185	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083	NA	NA
D1-12_03052	870	bsn	COG2356	Extracellular ribonuclease	ATGACAAAAAAACTTTGGTTTCTGCCGATTGTCTGCCTGTTTTTCATTTTTGGATGGGCCGCGCCGTCAGCCTCTGCAGGCGCGCCGGCTGACACGAATCTGTACAGCCGGATGGCGGTTTCAACTGCCGGCGGCACAACTCTTTTTCCGCAAACTGCCTCAGCTGTCATCACTCCGTCTGCGGATACGGACACATATTACAAAGAAGCTTCCGGAAAAAGCGGAACGGCCTTAAAGAGCGCCCTGCACCGCATCATCAGCGGACATACAAAGCTGTCTTACAGCCAAGTCTGGAATGCATTGAAGGAAACTGACGAAGATCCGGCAAATCCGAACAATGTCATCTTGCTCTACACCCAGGAATCACGGGCCAAAAGTAAAAACGGCGGCAGCGTCGGGGACTGGAACCGCGAACACGTGTGGGCAAAGTCACACGGAAACTTCGGAACAGCTGCCGGCCCCGGGACGGACATTCATCATCTGCGCCCTGCAGACGTCCAGGTGAACAGTGCCAGAGGAAACATGGATTTTGATAACGGCGGCTCAGAATACCCGAAAGCGCCGGGCAATTATTACGACGGTGATTCCTGGGAGCCGCACGATGAGGTCAAAGGAGATGTCGCCCGCATGCTGTTTTACATGGCGGTGCGTTATGAAGGAGAAGACGGGTATCCCGACCTTGAGCTGAATGATAAAACCGGAAACGGCTCAGCTCCTTACATGGGAAAACTGTCCGTTTTGCTCAAATGGAATCAACAAGACCCCGTCGACAGTAAGGAAAAACGGCGGAACGAAATCATTTACGAAGACTATCAGCATAACCGCAATCCGTTTATCGACCATCCGGAATGGGCGGACGAAATCTGGTAA	MTKKLWFLPIVCLFFIFGWAAPSASAGAPADTNLYSRMAVSTAGGTTLFPQTASAVITPSADTDTYYKEASGKSGTALKSALHRIISGHTKLSYSQVWNALKETDEDPANPNNVILLYTQESRAKSKNGGSVGDWNREHVWAKSHGNFGTAAGPGTDIHHLRPADVQVNSARGNMDFDNGGSEYPKAPGNYYDGDSWEPHDEVKGDVARMLFYMAVRYEGEDGYPDLELNDKTGNGSAPYMGKLSVLLKWNQQDPVDSKEKRRNEIIYEDYQHNRNPFIDHPEWADEIW				NA	NA	NA	NA	NA
D1-12_03053	1107	msmX_2	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCATCATTAACATTTGACCATATCAAAAAAACATACGGCGCCCAATCGGCGGCAGTGAAGGATTTTCACTTAGATGTAAAAGATGAGGAGCTGCTGGTGCTTGTCGGTCCCTCCGGCTGCGGCAAATCTACGACACTCAGAATGATTGCCGGACTGGAGAGCATTTCTGAGGGGAAGCTTTATATCGACGGAGACGCGGTAAACGATCTGCCCCCGAAGGATCGTGATATCGCGATGGTTTTTCAGAATTACGCGCTGTATCCCCACATGACGGTTTTTGACAATATGGCGTTCGGTTTGAAGCTCAGAAAGCTGCCGAAAAAAGAAATCGCAGAGCGAGTCCGGACGGCCGCTGATATTTTGGAAATCGGGCATCTGCTCAAGCGGAAACCGAAGGCTCTTTCAGGCGGGCAGCGGCAGCGGGTTGCGCTCGGCCGGTCGATCGTGCGGGAGCCGAAAGTGTTTCTGATGGACGAGCCGCTTTCCAACTTAGATGCGAAATTGCGAGTGACGATGCGCGCCGAAATCAGCAAGCTCCATCAGCGTTTGAAAGCGACCATCGTTTATGTGACGCATGATCAGACGGAAGCGATGACAATGGGCGACCGGATTGTCGTGATGAATGAAGGAGATATTCAGCAGGCCGCAAGCCCCCATGAGATTTATCATTATCCGGCGAATATGTTTGTGGCGGGTTTTATCGGTTCTCCGAGTATGAATTTTATAAAAGGCCTCATTGAAGAAAGTCACGGGCAATGGTATTTTGCCGGTTCGTCCGTTCGTCTGCCCATTCCGAAAGAAAAAGCGGCCGTTCTTGTGCAGAAAGGATACAGCGGTAAGGAGATGATTGCGGGGCTGCGTCCGGAGCATTTGACGCTTGCCGGACAATCAGAGCACCCGCCTGAAGCGGTGTGCCGCGCTGTGGCGGAAGTATGTGAAAACTTAGGCGCGGAGATGTACGTTCATGCGGTGAGCGGAGGTGACCGCATGACGATCCGTCTTGACGGCGCTTCACAGGTGAAACCCGGCGATGCCATTCTGCTTGCGGTCAATATGAACCGGGCCGTCTTTTTTGATGCCGACACTAAAAACGCCGTATATTGA	MASLTFDHIKKTYGAQSAAVKDFHLDVKDEELLVLVGPSGCGKSTTLRMIAGLESISEGKLYIDGDAVNDLPPKDRDIAMVFQNYALYPHMTVFDNMAFGLKLRKLPKKEIAERVRTAADILEIGHLLKRKPKALSGGQRQRVALGRSIVREPKVFLMDEPLSNLDAKLRVTMRAEISKLHQRLKATIVYVTHDQTEAMTMGDRIVVMNEGDIQQAASPHEIYHYPANMFVAGFIGSPSMNFIKGLIEESHGQWYFAGSSVRLPIPKEKAAVLVQKGYSGKEMIAGLRPEHLTLAGQSEHPPEAVCRAVAEVCENLGAEMYVHAVSGGDRMTIRLDGASQVKPGDAILLAVNMNRAVFFDADTKNAVY	PGPT0016310_2974	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
D1-12_03054	729	yurK	COG2188	putative HTH-type transcriptional regulator YurK	TTGTTAAATAACGGGAGCTCGAAACCTTTATATATTCAGCTGAAACAAATTATCGCGGACGATATCAAGAAGGGCGTTTATTCGCCGTCCGTAAAACTGCCGACTGAAAATGAGCTGTGCGAAACGTACAACGTGAGCCGCATAACGGTCAGGAAGGCCATCCTTGATCTTGTGGAAGAAGGCTGGCTCGTCCGGCAGCAGGGAAAGGGAACGTTCGTTAAAAGCCCTAAACTGAAGCGGGAGCTCATCGCGGTCAACGGCTACTCTGAATTTATGGAATCAACGGGGAAAAAACCGAAACACCAGATCCTTTCTCATGAAATCATTGAAGCGCCTAAATCCATCGCCCAAAAACTTCGCGTCGATTCCGAAAGTCCCGTTCTTGAATTAAAACGCATTTTATTTCACGACGACCAGCCGCTCTCATTCGAAATCGCCCACTATCCGCTCAGTTTATTTCCCGACATCGGCAAGCATATTAAAGGCGGCGTGTCGATGCATGACATTTTGAAACAGCACTATCAGGTGGTGCCAACCCATAATACGAAGCTGTTAAATGTCGTATACGCCAAGCAGGAAGAAAGCCGCTATCTGGCTTGTGATATCGGGGATGCGCTTTTTGAAATTGACAAAACCGCTTTTATGTCAAAAGACCAGCCGATATACAGCTCGCTGTTTGTAATGCATACCGACCGCGTCACGTTTACCATTAACAGTCCCTATGCGTAA	MLNNGSSKPLYIQLKQIIADDIKKGVYSPSVKLPTENELCETYNVSRITVRKAILDLVEEGWLVRQQGKGTFVKSPKLKRELIAVNGYSEFMESTGKKPKHQILSHEIIEAPKSIAQKLRVDSESPVLELKRILFHDDQPLSFEIAHYPLSLFPDIGKHIKGGVSMHDILKQHYQVVPTHNTKLLNVVYAKQEESRYLACDIGDALFEIDKTAFMSKDQPIYSSLFVMHTDRVTFTINSPYA				NA	NA	NA	NA	NA
D1-12_03055	855	frlD	COG0524	Fructosamine kinase FrlD	ATGAAACTGATAGCGGCCGGAGATAATGTAGTAGATTATTATCAGGATCAGGAGACGTTTTACCCGGGCGGAAATGCGTTAAACGTAGCCGTGCTTGCCCGGCGCTTAGGCCACGAAACTTCTTATATCGGGATTCTCGGCAGTGATGAAGCGGCGGATCACGTATTGAATGTGCTGAAATTGGAAAAGGTGAATGCCGATCTGATCCGCCGGGCATACGGAGAAAACGGGATGGCGGTCGTCACGCTTGATGAAAGAGGGGACAGGATATTTGCCGGATCAAATAAAGGCGGCGTGCAATCGCGTCTGACGCTCGCTTTTCAGGAGAATGACATCTCATTTATCGCCGGACATGATTTGCTGCATACGAGCGTATACAGCAGGATAGAACGTGACCTCCCGATGCTGAGCGGCCATGCGCCGATTTCCTTTGACTTCTCTGTAAAACGTGACGAAGCCTATTTAGAAGCAGTCTGTCCGTACGTGACGTATGCGTTTTTTTCCGGGAGTGATTTGAGTGAAAGTGAATGTGTGCGGCTTGCCGAAAAAGCCCGCGGTTTCGGAGCGAAAATCGTCTGTCTGACAAGGGGGGAATATGGCGCGGTGTTATCGGATGGGGAACGCGTCTATCATCAGCCGGTGGTAAGAGCTGATATAATAGATACATTGGGCGCGGGTGATTCTTTTATCGCCGGGTTTCTTACCGATTTCTTCGAGCACCAGGATATTCGGCGAGCGCTTACTGCGGCCGCCGGGACGGCTGCCAAAACATGCGGAGGGTTCGGAGCGTTCGGTTACGGGCATCCCTACAGGCCGGGCGGCGGGAAAAGCAGTGAAAAAACGAGAATACGATAA	MKLIAAGDNVVDYYQDQETFYPGGNALNVAVLARRLGHETSYIGILGSDEAADHVLNVLKLEKVNADLIRRAYGENGMAVVTLDERGDRIFAGSNKGGVQSRLTLAFQENDISFIAGHDLLHTSVYSRIERDLPMLSGHAPISFDFSVKRDEAYLEAVCPYVTYAFFSGSDLSESECVRLAEKARGFGAKIVCLTRGEYGAVLSDGERVYHQPVVRADIIDTLGAGDSFIAGFLTDFFEHQDIRRALTAAAGTAAKTCGGFGAFGYGHPYRPGGGKSSEKTRIR	PGPT0018980_72	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_FRUCTOSELYSINE_BIOSYNTHESIS,PGPT0018980-frlD-K10710	NA	NA
D1-12_03056	885	ngcG	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGCTTCCTGAAAAGACGGACTTGCGTCATGCCCGTCAGGCCGTCAGAACAGGCGGAAAACCGAGAAAATGGTATGTCGGGGAAACGTCTGTGTGGCTGTTTCTCTTTATCTACCTCATTGCCGTTGCTTATCCGCTGTTATGGATGGCGGTCAGCGCCTTTAAAAGCTCGGATGAGATTTTTGAGCACAGCTGGTCGCTGCCCTCTGTCTGGCATCCCGAAAACTTCGTATCCGCATGGAACCAAGGGATTTCCGCTTATTTTATGAACAGCGTCATTGTGACCGTGCTGACTTGTCTCATCACCGTATTTGTGAGCGCCTGGGCGGCATACGGGCTGGCCCGTTTTCAATTTAAAGGAAAAGGGTTTGTGCTGATCATTTGTCTTGGCGGCTTGATGCTGACGCCGCAGGTCAGTCTTGTGCCGCTGTACTCCATTATCCAGTCATTGGGACTGTACAATACGTATTGGGCATTGATTCTTCCGTACGCCGCCTATCGTATTCCGTTTACCGTGATTCTGATCCGTTCCTATTTTTTGTCGATTTCCAAAGAGCTTGAGGAGGCTGCCTATCTGGATGGATGTACAAGTTTCGGAATATTTTTCAGAATATTCTTACCTATGAGCGTGCCGATTCTGGTGACATCAGGCATTTTGACGGCTTACCATACATGGAATGAGTTTATGTTTGCGATTATTTTTATCGATGATGAAAATTTACGGACGATTCCGGCCGGGCTGATGCAGTTCAGAGATGCGCTGCAGACGGATTGGGGCGTGCTGCTGGCCGGGCTGACGATTTCTGCTGCTCCGATCATCGCGTTGTTTTTATTGATGCAGAGATATTTTATCCGCGGCATTGCAGCGGGAAGCGTGAAAGGATAA	MLPEKTDLRHARQAVRTGGKPRKWYVGETSVWLFLFIYLIAVAYPLLWMAVSAFKSSDEIFEHSWSLPSVWHPENFVSAWNQGISAYFMNSVIVTVLTCLITVFVSAWAAYGLARFQFKGKGFVLIICLGGLMLTPQVSLVPLYSIIQSLGLYNTYWALILPYAAYRIPFTVILIRSYFLSISKELEEAAYLDGCTSFGIFFRIFLPMSVPILVTSGILTAYHTWNEFMFAIIFIDDENLRTIPAGLMQFRDALQTDWGVLLAGLTISAAPIIALFLLMQRYFIRGIAAGSVKG	PGPT0016340_426	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
D1-12_03057	891	ngcF	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGAGGATTTCCTTGGTCAGCCGAAAACGTTTCATTCCGTATCTGTTTCTCGCGCCCGCGCTGATTTTTCTGCTGTTCGTTTACATTCCGATTATTGAGAATGTGTTTTTCAGTCTGTTTGAATGGAGCTCATTTCAACCCGAAAAGACGTTTATCGGTTTGAAAAATTATATTGACCTGTTTCACGATCCCGTGTTTTTTACAGCACTCCGCAACAATGTGCTGTATGCGGTCATATCGCTGATTTGCCAGGTTGGCGGCGGCTTAATTCTGGCGGCCGTGCTGGAAGACAGATTGGTAAGAAAATGGTCGCCGTTTTTCCGCACGGTCTTTTTTCTTCCGGTCGTTATTTCCATGACCGTTATTGCGCTGTTGTTTGATTTTATTTATAACCCGGAAATCGGTCTCTTGAATCAGCTGCTGGAAGCCGTCGGACTTGATGAACTGACCCGGGCGTGGCTGGGCGATGAAAACACCGCTATGCTGTCTGTCATTTTTGTGTCTCAATGGCAGTCTGTCGGTTACATCGCCATGCTGTACATTGTCTCGATTCAGAGCATTCCCGCTGAATTATATGAATCGGCGCAGCTGGACGGAGCCGGAAAAATCCAGCAGTTTTTTCACATTACGGTGCCGCAGACGAAAGAAATGTCGTTTGTTGCCGTGGTGATGACGCTGACCGGCGCATTTACCGTATTTAATGAACCGTATATTCTGACCGGCGGAGGGCCGGGCAATGCTTCAGAAGTGCTGAGCACATTTTTGTATAAGAGCGCTTTTACAAAGGATATGATGGGCTACGCTTCTGCGATCGCGACGGTGGTGCTTTTGCTGACGCTTGCTCTGTCGCTTATTCAGATGAAATTCTTTAAGACCGGAAAGGAGGAGTAG	MRISLVSRKRFIPYLFLAPALIFLLFVYIPIIENVFFSLFEWSSFQPEKTFIGLKNYIDLFHDPVFFTALRNNVLYAVISLICQVGGGLILAAVLEDRLVRKWSPFFRTVFFLPVVISMTVIALLFDFIYNPEIGLLNQLLEAVGLDELTRAWLGDENTAMLSVIFVSQWQSVGYIAMLYIVSIQSIPAELYESAQLDGAGKIQQFFHITVPQTKEMSFVAVVMTLTGAFTVFNEPYILTGGGPGNASEVLSTFLYKSAFTKDMMGYASAIATVVLLLTLALSLIQMKFFKTGKEE	PGPT0016335_1457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
D1-12_03058	1287	msmE	COG1653	Multiple sugar-binding protein	GTGACAAAGGAGGAAAAGCATCTGAAAAAGCTCATCTGCCTGTTCGTTCTGTTAGCCGTATGTCTGTCAGCCGCCGCCTGTTCAAGCCAAAGCAGTTCCTCTGACGGAAAAGTGACCTTGAAGTTTTTTCACAGGTGGCCGAAGGAGCCGGAAAAAAGCTATTTTGAAGAAGCGGTCAAAGAATTTGAAGCCGCTCATCCGGATATTCATATCCAAACGGAAGCGGTCTTAAACGATTCTTATAAAGACAAGGTGAAAGTCATGCTCGGAACAACGAGCCCCCCTGATATTTTCTTTTCATGGAGCGACCGGTTTGCTTATAAATTCATCAAAGGAGATAAAGCCCTCGATCTGTCGTCTTACTATCAGCAGGATAAAGATTGGTCCTCACAGCTTGTGCAGTCACAAATCAAACCCTTTACGCATGACGGAAAACAGTACGGTGTTCCGTGGCAAATGGACGCTAAATCATTCTTTTATAATAAGGACATTTTTCATACATTACATTTGAAGCCCCCGGCGACATGGGATGAACTGATCACAGTCTCTGAGAAATTGAAAGAGAACGGATATATTCCGATCAGTTTCGGCACAAAAGCGCCTTGGACGATTTCTCATTATATCGGGACGCTGAACCAGCGTATGGTGGATGAAAAAACGCGGGCGAAGGATTACAGCCCGGAAACCGGGGAGTTTACGGACGAAGGCTATGTCAAAGCGCTTGAAAAGCTTCAGGAACTGCTGCCGTACTTTACAAAGCACGTGAACTCCGTTGATCACGAATACGTGCGCCAGCAGTTTACAAGCGGCAAAGCGGCGATGATTTATGCGGAAACGGCAGAAATTAAGCTCGTCGAACCGGTCAATCTGGGCTTGTTTCCTTTCCCGAAAATCAGCGGCGAAAAGGGATCTCCCCGTGCACTGACCGGATCTCCGGAAGGATTTATGATTTCCTCAAAAACGAAGCACCCGAAAGAAGCCATGGAATTTCTTCAGTTTTTAACCTCGAAAAAAATGGGAGAGAAGCTGATAAAAGACGTCGGTAAATACAGCGCGGTTCAAGGAACGGCGACAGAAAACAATTCCGCCCCGATCCAGCGCGAAGCCGTGCAGGATATCGTCCGCGCCGAATCAATGGTGCCCTGGTTTGATATGGATGTTGACGTTGAAATCGCCGATGTGTATGCGGCAGGCGTTCAGCAGATGCTCGGCGGCACAATGACACCGCGCGAGGTGATGAATTCCGTGCAGAAAGCGGCGCGTCAGGTCAGAGCGTCATCTGAATAG	MTKEEKHLKKLICLFVLLAVCLSAAACSSQSSSSDGKVTLKFFHRWPKEPEKSYFEEAVKEFEAAHPDIHIQTEAVLNDSYKDKVKVMLGTTSPPDIFFSWSDRFAYKFIKGDKALDLSSYYQQDKDWSSQLVQSQIKPFTHDGKQYGVPWQMDAKSFFYNKDIFHTLHLKPPATWDELITVSEKLKENGYIPISFGTKAPWTISHYIGTLNQRMVDEKTRAKDYSPETGEFTDEGYVKALEKLQELLPYFTKHVNSVDHEYVRQQFTSGKAAMIYAETAEIKLVEPVNLGLFPFPKISGEKGSPRALTGSPEGFMISSKTKHPKEAMEFLQFLTSKKMGEKLIKDVGKYSAVQGTATENNSAPIQREAVQDIVRAESMVPWFDMDVDVEIADVYAAGVQQMLGGTMTPREVMNSVQKAARQVRASSE	PGPT0016330_1964	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
D1-12_03059	987	frlB	COG2222	Fructosamine deglycase FrlB	TTGAGTCAAACTGCCGCACAAGTGAATCACAAGGTTCAGGCTTTCTTGGATGATCTGAAAGGAAAAACGATTGACCACGTCTTTTTCGTCGCTTGCGGGGGTTCTTCAGCCATTATGTATCCGAGCAAGTACGTGTTTGACAGAGAGGCGAAAGCCATCAGCTCTGATCTCTACAGTTCAAATGAATTTATTCAGCGCAATCCCGTTCAGCTCGGAGAGAACTCGCTCGTGATTTTATGTTCTCATTCAGGCAATACGCCGGAAACGGTGAAAGCCGCCGGTTTCGCCAGAAAAAAAGGTGCGCTTACGATTGCGATGACCTATGAGCCTGATTCGCCGTTAGCGAAAGAAGCCGAATATGTCGCGGTTTATGACTGGGGTGAGAACGCACAGGCGATAAATACGAATTACGGGGTTCTGTATCAAATCGTGTTCGGCGCTTTACACGTGCTGGAAAACCATCCCGCGTTTGAGCAGGCGATCGACGGACTCAATAAACTCCAGACCGTATATAACAAAGCGCTTAAACAAGAAGCGGATCACGCAAAGGCATTCGCGAAAGCCCACGAAAAAGAAGATATCATTTACACGATGGCAAGCGGTGCGAACTACGGCGTCGCTTACTCCTACAGCATCTGCATTCTCATGGAAATGCAATGGATTCATTCCCACGCCATTCATGCCGGAGAATATTTTCACGGACCGTTCGAAATCATTGATGAATCCGTTCCATTTATTATCCTGCTCGGCTTAGACGAAACAAGACCTCTTGAAGAACGGGCGCTTTCCTTCTCAAAAAGATACGGCAAAAAACTGACTGTGCTTGATGCGGCAGCATATGATTTTTCCGGAATTGACGATTCTGTAAAAGGCTATCTGGCTCCTCTCGTATTAAACCGGGTGCTCAGAAGCTATGCGGATGCGCTGGCGGAAGCAAGGAACCATCCGTTAAGCCAGCGGCGTTACATGTGGAAAGTCGAATATTAA	MSQTAAQVNHKVQAFLDDLKGKTIDHVFFVACGGSSAIMYPSKYVFDREAKAISSDLYSSNEFIQRNPVQLGENSLVILCSHSGNTPETVKAAGFARKKGALTIAMTYEPDSPLAKEAEYVAVYDWGENAQAINTNYGVLYQIVFGALHVLENHPAFEQAIDGLNKLQTVYNKALKQEADHAKAFAKAHEKEDIIYTMASGANYGVAYSYSICILMEMQWIHSHAIHAGEYFHGPFEIIDESVPFIILLGLDETRPLEERALSFSKRYGKKLTVLDAAAYDFSGIDDSVKGYLAPLVLNRVLRSYADALAEARNHPLSQRRYMWKVEY	PGPT0018970_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_FRUCTOSELYSINE_BIOSYNTHESIS,PGPT0018970-frlB|yurP-K10708	NA	NA
D1-12_03060	927			hypothetical protein	ATGAATATAAAAGAAGCCGCCAGACAGACGGGTCTCACGAAAAAAGCCATCAAATATTATGAGCAGGAAGGTTTAATCACCGTCAGCAAAAACCCTGATAACGGATACCGTGAGTATTCCGCTCAGAACGTGAATACGCTGAAAATGATTGCCGCCCTCCGAATGCTGGCACTGTCTGTAAGCGATATTAAAGCGTTCCTCTTAGAGGGCAGCAGTCTGCATGATATACTGCGCCAGCAGCATCAAAAGCTCAGCCGGCAGATTGAAGAGCTTGAGCAGGAACGGAAACTGACTGAAATGCTGATCAAGCGCGTGGAAGATGCGGAAAATGTCGATTCCATTCTGCATGATATCGGCGAGGTCAAAATAGATGAACCGAAGTATATGGGACTTCAGCTGAAAAAACTGTTCCCGGGAGATTTCGGAGAATTTATCGCCGCGCTGTTTGAACCGTTCCTCGACTTTTCTATTGATACAGATGAGAAAAAAGCGATATGGGCGGAGCTTATTAAAGTATTGGATGATATGGAAGAAGTTCCGGCTGAACACCCGATGATGCAGCTGGTCGGCAAGGAGGATCCGGCTCAGCTCCAGCAGCACAAAGTCCAGCATGACCAATTTATCGAGCGGATTTTGGAGAGAGACCCTGCCACTTGGGACACTCATAAAAACATCATCATTCAGCTTGTGAAAAGAGTGCAGACAGATGAAGAATACAGAGAAAGCCTGATCAAGGTCGGAGAATCCGCTTCTGATCTGCCCGCGCTGAAGGCGGGATCGCCTTTCAGCAATCTTCTTCAAAAGCTCAGCCCGAAATATGACACGTACGTGCGACTTCAGCTTGAACTGAAAAAAGAAGCCGACGAGGAACTCGGCTTTGATTCAGAAGCATATTTAAAAGAGATGCTTCAATCAAAAAAACGCTAA	MNIKEAARQTGLTKKAIKYYEQEGLITVSKNPDNGYREYSAQNVNTLKMIAALRMLALSVSDIKAFLLEGSSLHDILRQQHQKLSRQIEELEQERKLTEMLIKRVEDAENVDSILHDIGEVKIDEPKYMGLQLKKLFPGDFGEFIAALFEPFLDFSIDTDEKKAIWAELIKVLDDMEEVPAEHPMMQLVGKEDPAQLQQHKVQHDQFIERILERDPATWDTHKNIIIQLVKRVQTDEEYRESLIKVGESASDLPALKAGSPFSNLLQKLSPKYDTYVRLQLELKKEADEELGFDSEAYLKEMLQSKKR				NA	NA	NA	NA	NA
D1-12_03061	591	sdpC		Sporulation delaying protein C	ATGGTTAAAAGCAAGAAGTCCGCAGCTGCCATGATGCTGGTGTTTGTTTTAATGGTCGCATTAGTCGGCCCGCATGCCGCGGCAAAAACTGAGCCGTCCGTCTCTTATTCGGGTGAAGACATTTTTTCCGGCATCTTTTTCGGACAAGGTGAGGTCGCAAAGCTCCTTCCTGAAGTATGGGATACCAAGGCTGTTAAAAAGATTGATCAGGATGAATTAAAGCAAGTTTCCGATCAGGTGATTGCTGATATTAAAAAGTCATCGCCGGATTATTTTAAAGAGTTAAAAGCGGCGGTCTACAGCGGCGATTATGAGAAAGTGAACAGCGTCATTGATCAAGGTTCGCAGATTATGGCGAAAGTGCTGAAAGAAGAGTTTGACAAAAAGAGCATGGACAAAGGAAAATCAACGGCCATCGGCCAATGCGCAACGGCTGTATGGGTATTTTTAAACGCGGCGGCCGCCATTGAGACGATCGCTCTTGCGGTAGCGGCTATCATTTTGACAGTAGCAAGCGTTGACGAAGATTCCGACTTAGGAAAAGAGCAGCTCATCGCTAATGTCGTTGACCGCATTAACGCGCAGCACTGA	MVKSKKSAAAMMLVFVLMVALVGPHAAAKTEPSVSYSGEDIFSGIFFGQGEVAKLLPEVWDTKAVKKIDQDELKQVSDQVIADIKKSSPDYFKELKAAVYSGDYEKVNSVIDQGSQIMAKVLKEEFDKKSMDKGKSTAIGQCATAVWVFLNAAAAIETIALAVAAIILTVASVDEDSDLGKEQLIANVVDRINAQH				NA	NA	NA	NA	NA
D1-12_03062	945	sdpB		Sporulation-delaying protein SdpB	TTGATTCAGGATGCAAAAAAGCAGCTCACCTTATGGATGATGAAGAATCCGCCTTGGACAAATGTGTACGGGCTTGCCAGAAGCTTAATCGCGCTCGGCACGCTGCTGACATTGCTGTTCAATCCGGCGTCTGTCTTCTTCAAAACGCAAAATCAAATGCTCAGCTTTTCCGACACGTTCAGCCTGTTTCTGCTGTTTCCCGATTTCCGTTACATTGAGATCGTCAAAGCCGTCTGTATCTGTATGTTAATCCTTGTCGTCATTGGCTGGCGGCCCCGCCTCACCGGTTTTTTTCACTGGTGGGTTTCGTACAGCTTCCAAAACTCCGCCGTTACCCTTGACGGGGGAGATCAAGTGGCTGCCGTTTTTACGCTGCTGCTGCTCCCGCTGACATTAACCGATCCGCGGAAATGGCACTGGTCTCCGTACGAGGCGTCTTTTGAGAAAAGGCCGCTTGAGCCTTATTACCGCTCCTTATGCTGGGCCACACTGACAATCATCAGAATACAGGTCGCGATGCTGTACTTTAACTCTGTCATTGCCAAACTGATGGAAGAAGAGTGGCAGAACGGGACCGCCGTTTATTACTATTTGAATGATCCGATGCTGGGTCTGCCGGATGCGCTTCACAGTCTGTTTGACTTTATCCTGCAGTCCAAGCTTGTCATCATCCCGACTTGGGGCACGCTCATTGTACAAACCATTATGTTTTGCGCTTTGTTCGCTCCGAAAACATATTGGCGTCCGATATTGTTTATATCCATTTTTATGCACGAAATCTTTGCCGTTATGCTGGGGCTGACCTCGTTTTCCATTACGGTGGCTGGTATTTTGGTCCTGTTTTTGGTGCCGGCAGAGAAAACAGTAGCTTTGAACCATTACAATCCCCTTTTTATCAGATACAATTTTTTCAATAAAAGGAAAAGGAGGAAATTATATGGTTAA	MIQDAKKQLTLWMMKNPPWTNVYGLARSLIALGTLLTLLFNPASVFFKTQNQMLSFSDTFSLFLLFPDFRYIEIVKAVCICMLILVVIGWRPRLTGFFHWWVSYSFQNSAVTLDGGDQVAAVFTLLLLPLTLTDPRKWHWSPYEASFEKRPLEPYYRSLCWATLTIIRIQVAMLYFNSVIAKLMEEEWQNGTAVYYYLNDPMLGLPDALHSLFDFILQSKLVIIPTWGTLIVQTIMFCALFAPKTYWRPILFISIFMHEIFAVMLGLTSFSITVAGILVLFLVPAEKTVALNHYNPLFIRYNFFNKRKRRKLYG				NA	NA	NA	NA	NA
D1-12_03063	531			hypothetical protein	TTGACTGACAAGAAGCAAACCAGCATGTTTTCATTCTTTCTTTTTATCATGGCCGCCTGGATCATCGTTTTGTTTTTTACCATCATCGCGGCACTGCCAAGCTCCGCCATCCAATTAACCAAGCACCAATCCAAAACCGTTTCCATGATTTATCCGCAAAGCTGGGGATTTTTCAGTAAAGATCCGAGAGAAGACAGCTTGAACATCTATCTTCTTGATGCCGATGAGGAGCTCAGATGGCCGAATAATTCTCTGAAAAATGTCATCGGCTTAAACCGTTACGGCCGGACGCAAGGAATAGAGCTCGGCCTTATGCTGGAAAAGCTGCCTTCCAAAGAGAAGTGGGAAGACTTCACGACTGGCCAAGACATTAAGGATACCACATTTTTGAAAATGAAAAATGAGTCTCCCTCCCCAAGGCTGAAAGGGAAAATGATCATTACATATGAACGCATTACCCCATGGGCATGGAGCCAGCATACCGAAACGAAAAGAACCATCAAAAAATACATCGGAGTGGATGTCAATTGA	MTDKKQTSMFSFFLFIMAAWIIVLFFTIIAALPSSAIQLTKHQSKTVSMIYPQSWGFFSKDPREDSLNIYLLDADEELRWPNNSLKNVIGLNRYGRTQGIELGLMLEKLPSKEKWEDFTTGQDIKDTTFLKMKNESPSPRLKGKMIITYERITPWAWSQHTETKRTIKKYIGVDVN				NA	NA	NA	NA	NA
D1-12_03064	273	ybgB	COG5658	putative membrane protein YbgB	ATGTTTTTGATGAATGATAAGGTGCTGTGGGGAGCTGTGGTTCTCGCCTTTATTCTGTCGATTGTGTTTTATCCGTTTCTTCCTGCTGATATGGCCATTCACTATGACGTGTCGAACCGTCCGAATACATCAATCAATAAAACGGCCGGCGTCCTGATTTTTCCTGTGCTCATGATGATCTGCATGTTATTCAGAAAAAAGGTCGTCCAGCTGTTCCTCGTCGTTTACTGTCTGCTGATCGTGCATATTGCAGTGATGTGGCTGGCACTGTAA	MFLMNDKVLWGAVVLAFILSIVFYPFLPADMAIHYDVSNRPNTSINKTAGVLIFPVLMMICMLFRKKVVQLFLVVYCLLIVHIAVMWLAL				NA	NA	NA	NA	NA
D1-12_03065	375	uvrC_2		UvrABC system protein C	TTGATAAAAATAAACCTTCCTGCTCCTGATGTAACCATTACGGAACGGCAGCAGTCACCGTCGGAAAATGAACCGGCGATTAAAGCGATTTACGGTTTCATTGATTTTCACCAAATTCCGAGAGACAAAGGCGGCATCTTTATGTTTTATAACATTCATGATGAGCTGCTGTTTGTCGGGAAAGCCCGTAAATTAAGACAAAGAATCAAAAAGCATTTTGAAGACAATGTGTCGCCTGTTAAACATCACAGGGACGAAGTGTATAAAATTGAAGTATGTGTCGTCAATGATCCGATGGAAAGGGAGATTTACGAAACGTACGCGATCAATACCCTTCAGTCGAAATACAACATTGAGAAAGTATTTTATAAATAA	MIKINLPAPDVTITERQQSPSENEPAIKAIYGFIDFHQIPRDKGGIFMFYNIHDELLFVGKARKLRQRIKKHFEDNVSPVKHHRDEVYKIEVCVVNDPMEREIYETYAINTLQSKYNIEKVFYK				NA	NA	NA	NA	NA
D1-12_03066	1116	thiO_2		Glycine oxidase	ATGAAGTCTTATATGATTATCGGGGCCGGCATTCTCGGTGCGTCCGCGGCTTATCATCTCGCAAAGGCCGGGGCGGATGTAACGGTCATTGACCGGAAACACCCGGGGCAGGCGACTGACGCCGCGGCGGGGATCGTTTGCCCGTGGCTGTCGCAGCGGCGCAATCAGGCATGGTATGCGATCGCAAAAGGCGGCGCCCGTTATTATGAACGATTGATACAGCAGCTTGAAGCGGACGGAGAAACGGACACCGGCTATCAAAAGGTCGGTGCCGTCAGTCTCCATACGGATGAAAAAAAGCTCAGCCAAATGGAGGAAAGAGCTTATAAAAGAAGAGAGGACGCTCCTGAAATCGGTGACATTACGAGACTGACTCCGGCAGAAACGAAGGCGCTGTTCCCCGCGCTGTCGGAGGAATACGGGGCGGTTCATGTCAGCGGCGCGGCCCGGGTGAACGGGAGGGCGCTTCGTAAGGCGCTGTTAAACGCGGCCGTTAAGCACGGCGCGGCTGTTTACAATGAAGAAGCGTCAATATTGACAGAGGACGGTGCCGTTATCGGTGTGAAAACCGCAGAACGCACGCTTACTGCCGGCCAGGTTCTCGTAACGGCCGGCGCTTGGGCGAGAGAGCTGCTTGAACCGCTCGGCATCCGTTTTTCAGTATCATACCAAAAGGCACAGATCGTTCATTTAGAGCTTCAGGGAGAGGATACGGGCGGCTGGCCTGTCGTCATGCCCCCAAACGATCAATACATTCTCGCGTTTGCAAACGGTCGGATTGTAGCGGGCGCGACTCATGAAAACGATACCGGCATGGATTTGCGGGTGACGGCCGGCGGCCTCCGTGAGATTTTTGACAAAGCATTAACCGTGGCGCCGGGCCTTTCAGACAGTACTGTGATAGAGACAAGAGTCGGTTTCAGGCCGTTTACTCCCGGTTTTCTTCCCGTCATCGGCAAAGTGCCGAATATCAGCGGACTCCTCGTTGCCAACGGGCTGGGCGCCTCAGGGCTGACGAGCGGGCCGTATCTGGGGGCGGAACTGGCAAAACTCGCACTCGGCCAGCAGACGGAAATTGATTTGAGCCTTTATGATCCGGCCGGGGCGCTTGAATAA	MKSYMIIGAGILGASAAYHLAKAGADVTVIDRKHPGQATDAAAGIVCPWLSQRRNQAWYAIAKGGARYYERLIQQLEADGETDTGYQKVGAVSLHTDEKKLSQMEERAYKRREDAPEIGDITRLTPAETKALFPALSEEYGAVHVSGAARVNGRALRKALLNAAVKHGAAVYNEEASILTEDGAVIGVKTAERTLTAGQVLVTAGAWARELLEPLGIRFSVSYQKAQIVHLELQGEDTGGWPVVMPPNDQYILAFANGRIVAGATHENDTGMDLRVTAGGLREIFDKALTVAPGLSDSTVIETRVGFRPFTPGFLPVIGKVPNISGLLVANGLGASGLTSGPYLGAELAKLALGQQTEIDLSLYDPAGALE	PGPT0020315_3930	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
D1-12_03067	702	COQ5_2		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGACAACACGATACGGAATTGATGCGCCTTATGGAGCGTTTGGATTTATCTTTCTTGCGCTCCTTTATGCCGCAGCCACGTTATGCGGTATGATTCCTCCTTACTGGGGCTGGCTGACGGGCACCTTGTTTTTAGTGCTCGGTCTTTGGATGCTCTTGTATTCAACGGCCATTAAACTTTTACACCGCCACCGCATTCTTGCGCTTTCCGGTTTAAAGCCGGACATGGAGGTGCTTGATATTGGGACGGGACGGGGGCTGCTAGCCATCGCCGCTGCTCAAAAAGGCGCTGACGTCTCAGCGATTGACAAATGGTCAGGCTGGGATCTGGGCGGAAACGGGAGAGACGCATTTGAAAAGAACAGACGGGCAGAAGGAGCGCCGGAAATTGATTTGTATGACGGACTCGCGCAAGACACGCCGTTTCCTGATAAAACGTTTGACCTTGTCATTTCGCATTTTGTCGTACACAACATTTCAGGCAGAAAAGAGAGGGAACGGGCGATTGCGGAAATGGTGAGGGTGCTGAAGCCTGGCGGCACATTGGCCGTGTCAGATATAAAAAATACATCACAATACAGAGAGATTCTTGAGGAAAACGGCTTTCAGACAAGGACGTATTCCTTTTATTATACGTTTCCGTTTTCGAAACTCATCATTGCCGTCAGGACTCCGGTAGGAACCGGGCGCTCCATTTGTTAA	MTTRYGIDAPYGAFGFIFLALLYAAATLCGMIPPYWGWLTGTLFLVLGLWMLLYSTAIKLLHRHRILALSGLKPDMEVLDIGTGRGLLAIAAAQKGADVSAIDKWSGWDLGGNGRDAFEKNRRAEGAPEIDLYDGLAQDTPFPDKTFDLVISHFVVHNISGRKERERAIAEMVRVLKPGGTLAVSDIKNTSQYREILEENGFQTRTYSFYYTFPFSKLIIAVRTPVGTGRSIC				NA	NA	NA	NA	NA
D1-12_03068	465			hypothetical protein	ATGAAACGCGGCATTACATTTAACATCCCAAATCAATTCGGACGGTTTGCGGCAGACATATTAAAACCGTTCCCCATCTCTTCCTATACATGGTTTATCGGTGATGGAGAGGCGTATACTGACTTCAAAGAAGACACCGATACAGACCTGTTTCCGCAAAATAAGCGCATCATTGAGGGTCAAGAACTTCGTCAGCGTCTGGAAGGAAACCCTTATTATATGATTTTTGCTGAATTGAAAGCTTTCCCGAGCGGGATGGTAACGGAAATCAATACGTATGAGGAATATTTGGAGAGTTCCTGTGAACTTGTGCTTCTCATCGCAGATTGCTCGTATGTAACGTTATATTGCAAAGATCGGGACATGCTCGAAGCCCTTTTTCAGCAGGCTGTACAATGCGGGTTTCACCGCGTTGACTATGTTACAGATGAGAATGATGCGAGAACGGGATTGTCTGTCTGGTGA	MKRGITFNIPNQFGRFAADILKPFPISSYTWFIGDGEAYTDFKEDTDTDLFPQNKRIIEGQELRQRLEGNPYYMIFAELKAFPSGMVTEINTYEEYLESSCELVLLIADCSYVTLYCKDRDMLEALFQQAVQCGFHRVDYVTDENDARTGLSVW				NA	NA	NA	NA	NA
D1-12_03069	837	csn		Chitosanase	ATGAAAATCAGTTTGAAGAAAAAAGCAGGTTTTTGGAAGAAGACGGCGGTTTCATCTCTTATTTTCACCATGTTTTTTACCCTGATGATGAGCGGTACGGTTTTTGCGGCCGGGCTGAATAAGGATCAGAAGCGCCGGGCGGAACAGCTGACCAGCATCTTTGAAAACGGAAAGACGGAAATCCAATACGGCTATGTTGAAGCATTGGATGACGGAAGAGGTTACACCTGCGGGCGGGCCGGCTTTACGACGGCTACCGGAGATGCGCTGGAAGTAGTCGAAGTCTACACGAAAGCGGTGCCGAATAACAAATTGAAAAAGTATTTGCCTGAATTGCGCCGTCTTGCGAAGGACGAAAGCGATGACATCAGCAATCTGAAAGGATTCGCTTCTGCCTGGCGCTCACTTGGCAATGATAAAGCCTTCCGCGCTGCCCAAGATAAGGTAAATGACAGCTTGTATTATCAGCCGGCGATGAAACGTTCAGAAAATGCCGGACTGAAAACGGCCTTGGCCAAAGCGGTGATGTACGATACGGTGATTCAGCATGGCGACGGCGATGATCCAGACTCCTTTTATGCCCTGATTAAACGCACGAACAAAAAAATGGGCGGGTCACCGAAAGACGGAACGGACGAGAAGAAATGGCTCAATAAATTCTTGGATGTACGCTATGACGATCTGATGAATCCGTCAGATGAGGACACCCAGGATGAATGGAGAGAATCGGTTGCCCGTGTCGACGTTTTCCGCGATATTGTCAAAGAGAAGAACTACAATTTAAACGGGCCGATTCATGTCCGGTCAAGCGAATACGGAAGTTTCACTATTCAATAA	MKISLKKKAGFWKKTAVSSLIFTMFFTLMMSGTVFAAGLNKDQKRRAEQLTSIFENGKTEIQYGYVEALDDGRGYTCGRAGFTTATGDALEVVEVYTKAVPNNKLKKYLPELRRLAKDESDDISNLKGFASAWRSLGNDKAFRAAQDKVNDSLYYQPAMKRSENAGLKTALAKAVMYDTVIQHGDGDDPDSFYALIKRTNKKMGGSPKDGTDEKKWLNKFLDVRYDDLMNPSDEDTQDEWRESVARVDVFRDIVKEKNYNLNGPIHVRSSEYGSFTIQ	PGPT0012190_178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0012190-csn-K01233	NA	NA
D1-12_03070	1398			hypothetical protein	ATGGCTAAAAAAATGCCTGAAATTGGTGAATACAAGTACGGTTTTCACGATAAGGACGTTTCCATTTTCCGTTCAGAGCGCGGATTGACAAAAGAAATCGTAGAAGAAATTTCACGCATGAAAGAAGAGCCTCAATGGATGCTTGATTTCCGCCTGAAATCTCTTGAGCATTTCTACAACATGCCGATGCCGCAGTGGGGCGGGGATTTAAACTCTTTAAACTTTGACGAAATTACGTATTACGTAAAGCCGTCTGAGCGTTCAGAGCGTTCTTGGGATGAAGTGCCTGAGGAAATTAAACAGACATTCGACAAACTCGGTATTCCTGAAGCTGAGCAAAAATACCTTGCCGGTGTTTCTGCACAGTACGAATCCGAAGTTGTGTACCACAATATGAAAGAAGATCTTGAAGAGCAAGGCATCGTCTTCAAAGACACAGACAGCGCGCTGAAAGAAAATGAAGACATTTTCCGCGAGCACTGGGCGAAAGTTATCCCGCCGACTGATAACAAGTTTGCGGCGCTGAACTCAGCTGTTTGGTCCGGCGGATCTTTCATCTACGTGCCTAAAGGCGTGAAGGTTGAAACACCGCTTCAAGCTTACTTCCGCATCAACTCTGAAAACATGGGTCAGTTCGAACGTACGCTGATCATCGTTGACGAAGAAGCAAGCGTTCATTACGTAGAGGGCTGTACGGCTCCTGTGTACACAACAAACTCGCTTCACAGCGCGGTTGTTGAAATCATCGTCAAAAAAGGCGGCTACTGCCGTTATACAACAATTCAAAACTGGGCGAACAACGTTTACAACTTAGTAACGAAACGTACGGTTTGTGAAGAAAACGCGACAATGGAATGGGTTGACGGAAACATCGGTTCTAAATTGACGATGAAATATCCGGCTGTCATTCTGAAAGGTGAGGGCGCGCGCGGCATGACGCTCTCTATCGCTCTTGCGGGCAAAGGACAGCATCAGGACGCAGGTGCGAAAATGATTCACCTTGCACCGAATACGTCATCCACAATCGTATCAAAATCGATTTCGAAACAGGGCGGAAAAGTAACATACCGCGGTATCGTCCACTTCGGACGGAAAGCGGACGGCGCCCGTTCAAACATCGAGTGTGATACGCTCATTATGGATAACAAATCAACTTCTGATACAATCCCTTACAATGAAATCCTGAACGACAACATTTCATTGGAGCACGAAGCGAAAGTATCAAAAGTTTCTGAAGAACAGCTTTTCTACTTGATGAGCCGCGGTATTTCTGAAGAAGAAGCAACAGAAATGATCGTTATGGGCTTCATCGAGCCGTTCACAAAAGAACTTCCGATGGAATACGCAGTTGAAATGAACCGTTTGATTAAGTTCGAAATGGAAGGTTCTATCGGTTAA	MAKKMPEIGEYKYGFHDKDVSIFRSERGLTKEIVEEISRMKEEPQWMLDFRLKSLEHFYNMPMPQWGGDLNSLNFDEITYYVKPSERSERSWDEVPEEIKQTFDKLGIPEAEQKYLAGVSAQYESEVVYHNMKEDLEEQGIVFKDTDSALKENEDIFREHWAKVIPPTDNKFAALNSAVWSGGSFIYVPKGVKVETPLQAYFRINSENMGQFERTLIIVDEEASVHYVEGCTAPVYTTNSLHSAVVEIIVKKGGYCRYTTIQNWANNVYNLVTKRTVCEENATMEWVDGNIGSKLTMKYPAVILKGEGARGMTLSIALAGKGQHQDAGAKMIHLAPNTSSTIVSKSISKQGGKVTYRGIVHFGRKADGARSNIECDTLIMDNKSTSDTIPYNEILNDNISLEHEAKVSKVSEEQLFYLMSRGISEEEATEMIVMGFIEPFTKELPMEYAVEMNRLIKFEMEGSIG				NA	NA	NA	NA	NA
D1-12_03071	444	sufU	COG0822	Zinc-dependent sulfurtransferase SufU	ATGTCTTTTAATGCAAATTTAGATACATTATACAGACAAGTGATCATGGATCATTACAAAAATCCGCGCAACAAAGGGGTTTTGGATGACAGCATCGTCGTCGATATGAACAACCCGACTTGCGGCGACCGGATCAGACTGACAATGAAGCTTGACGGCGATACCGTTCAGGAAGCGAAGTTTGAAGGAGAAGGCTGCTCCATCTCCATGGCTTCAGCTTCCATGATGACGCAGGCGATTAAAGGAAAAGATATTGATACCGCCCTTTCCATGTCTAAGATTTTCTCAGACATGATGCAAGGGAAAGAGTATGACGACTCAATAGATCTCGGGGATATTGAAGCCCTTCAAGGCGTTTCGAAATTCCCGGCCCGGATTAAATGTGCCACCCTTTCATGGAAAGCACTTGAAAAAGGAGTCGCTGGCGAAAAAGGCGGCAATTAA	MSFNANLDTLYRQVIMDHYKNPRNKGVLDDSIVVDMNNPTCGDRIRLTMKLDGDTVQEAKFEGEGCSISMASASMMTQAIKGKDIDTALSMSKIFSDMMQGKEYDDSIDLGDIEALQGVSKFPARIKCATLSWKALEKGVAGEKGGN	PGPT0000075_1306	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
D1-12_03072	1221	sufS	COG0520	Cysteine desulfurase SufS	ATGAATATCACCGATATTCGTGAACAGTTCCCGATCCTTCATCAGCAAGTGAACGGACATGACCTCGTGTACCTTGACAGCGCGGCGACTTCCCAGAAGCCGCGTGCTGTCATTGAAGCAGTGGATCAGTATTACAACAAATACAACTCCAATGTCCACAGAGGCGTTCATACTCTTGGCACGAGAGCGACAGACGGCTATGAAGGTGCGCGTGAAAAAGTCCGTAAGTTTATCAATGCGAAGTCAATGGCTGAGGTCATTTTCACAAAAGGCACGACAACTTCACTGAATATGGTGGCGCTGAGCTATGCCCGCGCCAGCTTAAAACCCGGTGATGAAGTGGTCATCACCCAAATGGAGCATCATGCGAATATCATTCCGTGGCAGCAGGCTGTCAAAGCAACCGGCGCGACTTTAAAATATATCCCGATGCAGGAAGACGGCACGCTTTCGTTGGACGACGTCCGGCAGACTGTCACAAGCCATACGAAGATCGTGGCAGTCGCTCATGTGTCAAACGTGCTCGGCACGATCAACCCGATTAAAGAGATCGCCAAAATCGCTCATGACAATGGCGCGGTCATCGTGGTGGACGGGGCGCAAAGCACACCGCACATGAAAATCGACGTTCAGGACTTGGATTGCGACTTCTTCGCGCTTTCTTCCCATAAAATGTGCGGCCCGACGGGAATCGGCGTGCTGTACGGCAAGAAAGAACTGCTTGAGAATATGGAGCCGGCCGAATTTGGCGGCGAGATGATCGACTTTGTAGGGCTTTATGAATCAACTTGGAAAGAGCTTCCGTGGAAATTTGAAGCAGGCACGCCGATCATTGCAGGCGCGATCGGATTGGGAGCCGCGATTGATTTTCTTGAAGAGATCGGACTCGACGAGATTTCCCGGCATGAGCATAAGCTTGCAGCCTATGCGCTTGACCGTTTCGAGCAGCTAGACGGCGTGACGGTATACGGTCCGAAAGAGCGGGCGGGACTTGTGACATTTAATCTTGATGAGGTTCACCCTCATGATGTCGCGACTGTCCTCGATGCTGAGGGCATTGCGGTCAGAGCCGGCCATCATTGCGCCCAGCCGCTCATGAAATGGCTGGATGTATCTGCTACTGCGAGAGCGAGTTTTTATCTGTATAATACAGAGGAAGAGATCGATAAGCTCGCGGAAGCCCTCCAAAAGACAAAGGAGTACTTTACAAATGTCTTTTAA	MNITDIREQFPILHQQVNGHDLVYLDSAATSQKPRAVIEAVDQYYNKYNSNVHRGVHTLGTRATDGYEGAREKVRKFINAKSMAEVIFTKGTTTSLNMVALSYARASLKPGDEVVITQMEHHANIIPWQQAVKATGATLKYIPMQEDGTLSLDDVRQTVTSHTKIVAVAHVSNVLGTINPIKEIAKIAHDNGAVIVVDGAQSTPHMKIDVQDLDCDFFALSSHKMCGPTGIGVLYGKKELLENMEPAEFGGEMIDFVGLYESTWKELPWKFEAGTPIIAGAIGLGAAIDFLEEIGLDEISRHEHKLAAYALDRFEQLDGVTVYGPKERAGLVTFNLDEVHPHDVATVLDAEGIAVRAGHHCAQPLMKWLDVSATARASFYLYNTEEEIDKLAEALQKTKEYFTNVF	PGPT0020195_3410	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
D1-12_03073	1314			hypothetical protein	ATGACATTGGAAACGAAACTATCCGTAGATCAGGAATATGTCAAAGGCTTTTCCGAAAAGCATCAAGAACCTGCCTGGCTGAAAAACCTGCGCTTACAGGCTCTTGAAAAAGCTGAAGATCTGCCGCTGCCTAAGCCTGATAAAACAAAAATCACAAATTGGAACTTTACAAAGTTCAACAAGCATACAGTAGAAAATGCGCCGCTTGCTTCTTTAGAAGATTTAGCTGATGAAGCAAAAGCGCTGATCGATATCGAAAACGAAGACAAAACGTTATACGTGCAGCGTGACCAAACGCCCGCTTTTCTTTCTCTTTCTAAAGAACTGAAAGACAAAGGCGTCATCTTTACGGACATCTTAACGGCTGCCCGTGAGCACAGCGACCTTGTTGAGAAGTATTTCATGAAAGACGGCGTTAAGGTCGACGAACATAAACTGACTGCGCTTCATGCAGCATTAATGAACGGCGGGGCATTCCTTTATGTTCCTAAAAACGTTCAGGTGGAGACGCCTGTTCAGGCCGTTTACGTTCATGAAAGCAATGACACGGCATTGTTCAACCACGTGCTGATTGTCGCTGAAGATCACAGCTCCGTCACTTACGTTGAGAACTACATCAGCACGGTGAATCCGAAAGAAGCTGTATTCAACATTATCAGTGAAGTGGTCACAGGCGATAATGCCAGCGTGACGTACGGCGCCGTTGACAACCTGTCAGCAGGCGTCACAACATACGTCAACCGCCGCGGAGCCGCGCGCGGACGCGACAGCAAAATCGAGTGGGCGCTCGGACTGATGAACGACGGCGACACGATTTCTGAAAACACGACAAACCTCTACGGTGACGGCACATACGGCGATACGAAAACCGTAGTTGTCGGAAGAGGAGAACAGACGGAAAACTTTACGACGCAGATCATCCACTTCGGTAAGGCTTCTGAAGGCTATATCCTGAAGCACGGAGTCATGAAAGATGCCGCATCTTCCATCTTTAACGGAATCGGCAAAATCGAGCACGGCGCGTCTAAAGCAAACGCTGAACAGGAATCCCGCGTTCTGATGCTGAGTGAAAAAGCACGCGGAGATGCAAACCCGATTCTTTTAATTGATGAAGACGATGTAACTGCAGGACATGCGGCATCTGTCGGCCGTGTGGACCCGATCCAGCTTTACTACTTAATGAGCCGCGGAATTCCGAAAGAAGAAGCGGAGCGCTTAGTCATTTACGGATTCCTTGCTCCGGTGGTAAAAGAGCTTCCGATTGAAGGAGTTAAGAAACAGCTCGTCTCCGTCATCGAAAGGAAAGTAAAATAA	MTLETKLSVDQEYVKGFSEKHQEPAWLKNLRLQALEKAEDLPLPKPDKTKITNWNFTKFNKHTVENAPLASLEDLADEAKALIDIENEDKTLYVQRDQTPAFLSLSKELKDKGVIFTDILTAAREHSDLVEKYFMKDGVKVDEHKLTALHAALMNGGAFLYVPKNVQVETPVQAVYVHESNDTALFNHVLIVAEDHSSVTYVENYISTVNPKEAVFNIISEVVTGDNASVTYGAVDNLSAGVTTYVNRRGAARGRDSKIEWALGLMNDGDTISENTTNLYGDGTYGDTKTVVVGRGEQTENFTTQIIHFGKASEGYILKHGVMKDAASSIFNGIGKIEHGASKANAEQESRVLMLSEKARGDANPILLIDEDDVTAGHAASVGRVDPIQLYYLMSRGIPKEEAERLVIYGFLAPVVKELPIEGVKKQLVSVIERKVK				NA	NA	NA	NA	NA
D1-12_03074	786	sufC	COG0396	Vegetative protein 296	ATGGCTGCTTCAACATTAACGATCAAGGATCTTCACGTTGAAATCGAAGGAAAAGAGATCTTAAAAGGTGTAAACCTTGAAATAAAAGGCGGCGAATTCCACGCTGTCATGGGGCCGAACGGTACCGGTAAATCCACGCTCTCAGCAGCGATTATGGGACACCCGAAATACGAAGTTACAAAAGGCAGCATCACGCTTGACGGCAAGGATGTACTGGAAATGGAAGTGGACGAGCGCGCTCAGGCGGGTCTTTTCCTTGCGATGCAGTACCCAAGCGAAATCAGCGGTGTGACAAATGCCGATTTCCTTCGCTCTGCGATTAACGCCCGCCGTGAAGAAGGCGATGAAATTTCTCTTATGAAATTCATCCGCAAAATGGACGAAAACATGGAGTTCCTTGAAATGGACCCTGAAATGGCGCAGCGTTACCTGAACGAAGGTTTCTCAGGCGGGGAGAAAAAACGCAACGAAATCCTTCAGCTTATGATGATCGAGCCGAAAATCGCCATTCTTGACGAGATCGATTCAGGTCTTGATATCGATGCGCTTAAAGTCGTTTCTAAAGGAATTAACAGAATGCGCAGCGAAAACTTCGGCTGCTTAATGATCACTCACTACCAGCGCCTTCTGAACTACATCACGCCTGATGTCGTTCACGTTATGATGCAGGGACGCGTAGTGAAATCCGGCGGCGCGGAGCTTGCACAGCGCCTTGAAGCGGAAGGTTATGACTGGATTAAACAAGAACTAGGCATTGAAGACGAAACTGTAGGCCAAGAAGCGTAA	MAASTLTIKDLHVEIEGKEILKGVNLEIKGGEFHAVMGPNGTGKSTLSAAIMGHPKYEVTKGSITLDGKDVLEMEVDERAQAGLFLAMQYPSEISGVTNADFLRSAINARREEGDEISLMKFIRKMDENMEFLEMDPEMAQRYLNEGFSGGEKKRNEILQLMMIEPKIAILDEIDSGLDIDALKVVSKGINRMRSENFGCLMITHYQRLLNYITPDVVHVMMQGRVVKSGGAELAQRLEAEGYDWIKQELGIEDETVGQEA				NA	NA	NA	NA	NA
D1-12_03075	372			hypothetical protein	GTGGCCCAATACCAGGATAACGGGAAAAGCGTGCATGACGCATTGAAACAATATAAAGAAGGTTTAGGCATATTCGAGCAAAAAATGCCGATGATGGGGCGGAAGTTTAATGAATTTACTGAACAGTGTTTCTCTGCGGATTCATTAACTGAAAAAGAGAAACAATTAATCGCTCTGGGCATCAGCATCAGCGCTCAAGATGAATTTTGCATGATTTATCATACGAAGGGCTGCCTTGACCAAGGGGCGACAGAAGAAAACATCCTTGAGGTCATCGGCGTCGCGGCGGCATTCGGGGGCGGCGCGGCTCTCAGTCAGGGAGTGACCCTCGTGCAGCAGTGCATTCAGGAATTCGGACATACGACGCATTAG	MAQYQDNGKSVHDALKQYKEGLGIFEQKMPMMGRKFNEFTEQCFSADSLTEKEKQLIALGISISAQDEFCMIYHTKGCLDQGATEENILEVIGVAAAFGGGAALSQGVTLVQQCIQEFGHTTH				NA	NA	NA	NA	NA
D1-12_03076	816	metQ_2	COG1464	Methionine-binding lipoprotein MetQ	TTGAAAAAGATTGTATTAAGTGCGCTGCTGCTTGTGTTCGCGGGAGTTTTGGCCGCCTGCGGATCAAACGGCTCAAATAAAAAGGAAATCGTCGTCGCCGCGACAAAAACACCGCATGCTGAAATCTTAAAAGAAGCGGAACCGCTCTTGAAGGAAAAAGGCTACACATTAAAAGTAAAAGTGCTGAACGATTACAAAATGTACAACAAAGCGTTAGCTGATAATGAAGTGGATGCGAACTACTTCCAGCACGTTCCTTACCTTGAACAGGAAATGAAAGAAAATAAAGATTACAAACTCGTGAATGCCGGAGCCGTTCACCTTGAGCCATTCGGAATTTACACGAAAAAATACAAATCACTGAAAGACCTGCCTAAAGGTGCGACCATCATCATGACTAACAATGTCGCTGAACAAGGCCGTATGCTGGCGATGCTTGAAAAAGCCGGACTGATCACACTTGATCCGAAGGTAAAAACGATTGAAGCCACTACGAAAAACATTACGAAAAATCCGAAAAACCTGACATTCAAAAAAATCGCCCCTGAATTAACGGCGAAAGCATATAATGAAGAAGAAGGCGATGCAGTCTTCATTAACGTCAACTATGCGATTCAAAACAAACTGAATCCGTTAAAAGATGCGATTGAAGTGGAATCAACGAAAAACAACCCGTACGCAAACATCATCGCCGTACGCAAAGGTGACGAAAAATCAGAGAAAATCAAAGCGCTTATGGAAGTGCTTCACTCTAAGAAAATCAAAGACTTTATTGAGAAAAAATACGACGGAGCCGTGCTTCCCGTATCTGAATAA	MKKIVLSALLLVFAGVLAACGSNGSNKKEIVVAATKTPHAEILKEAEPLLKEKGYTLKVKVLNDYKMYNKALADNEVDANYFQHVPYLEQEMKENKDYKLVNAGAVHLEPFGIYTKKYKSLKDLPKGATIIMTNNVAEQGRMLAMLEKAGLITLDPKVKTIEATTKNITKNPKNLTFKKIAPELTAKAYNEEEGDAVFINVNYAIQNKLNPLKDAIEVESTKNNPYANIIAVRKGDEKSEKIKALMEVLHSKKIKDFIEKKYDGAVLPVSE	PGPT0020510_3723	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
D1-12_03077	669	metP	COG2011	Methionine import system permease protein MetP	ATGTTTGAAAAATGGTTCCCGAACGTTGATATAACCGAGCTGTGGACGGCCACATACGAGACCCTTTATATGACGGTCATCGCATTAGTTTTTTCATTTGTCATTGGAGCGATTCTCGGTCTTCTGCTCTTTTTAACGGGCAAGGGAAGCTTATGGGAAAATAAAATCATTAACACCGTGATTGCGGCGGTCGTTAATATTTTCAGGTCTATTCCGTTTCTTATTTTAATTATTCTGCTTCTCGGCTTTACTAAGATTTTGGTCGGATCGATTTTAGGACCGAACGCCGCATTGCCGGCGCTGATTATCGGCTCCGCGCCGTTTTACGCCCGTCTTGCGGAAATTGCGCTCCGGGAAGTCGATAAAGGAGTCATCGAAGCTGCCAGATCAATGGGAGCAAAGACATCGACGATTATCTTCAAAGTGCTGATTCCTGAATCAATGCCTGCTTTAATTTCAGGCATCACCGTTACAGCCATCGCCCTGATCGGATCTACCGCCATTGCCGGCGCCATCGGTTCAGGCGGACTCGGAAACCTTGCATATGTAGAAGGCTACCAGTCCAATAATACGGATGTAACGTTTGTAGCGACAGTATTTATACTCATCATCGTCTTTATCATTCAGATTATCGGTGATGTGATTACAAATATAATAGACAAAAGATAA	MFEKWFPNVDITELWTATYETLYMTVIALVFSFVIGAILGLLLFLTGKGSLWENKIINTVIAAVVNIFRSIPFLILIILLLGFTKILVGSILGPNAALPALIIGSAPFYARLAEIALREVDKGVIEAARSMGAKTSTIIFKVLIPESMPALISGITVTAIALIGSTAIAGAIGSGGLGNLAYVEGYQSNNTDVTFVATVFILIIVFIIQIIGDVITNIIDKR	PGPT0020515_1598	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
D1-12_03078	1026	metN	COG1135	Methionine import ATP-binding protein MetN	TTGATCCATCTTCAAAATGTTTCAAAAATTTACAAAGCGAAGCATGGGGATGTCAATGCTGTCCAAGATGTCACTCTTGATATCAAAAAGGGCGAAATATTTGGAATTATAGGATATAGCGGAGCTGGTAAAAGTTCCTTAATCCGTCTCCTGAACGGCCTTGAAAAGCCGACGTCGGGAACCGTGGAAGTCGCGGGGACGGAATTAAATAAAGTAAGCAGCCGCGGGCTGAGAAAAGCGCGCCAGGAAATCAGCATGATCTTCCAGCATTTTAACCTTCTGTGGTCACGCACCGTCCGGGAGAACATTATGTTCCCGCTGGAAATCGCCGGCGTGAAAAAAAGCGAACGGGTCCGCCGCGCTGATGAATTGATTAAACTGGTCGGATTAGAGGGGAAAGAAAAATCTTATCCGTCGCAGCTGAGCGGCGGTCAAAAGCAGCGTGTCGGCATCGCCCGGGCGCTCGCCAATAATCCGAAAGTCCTTCTGTGCGATGAAGCGACATCAGCGCTCGATCCGCAGACGACCGATTCAATTTTGGATCTTTTATCCGATATAAATGACAGACTCGGTCTGACGATCGTGCTCATTACCCATGAAATGCACGTCATCCGAAAAATCTGCAACAGAGTCGCCGTCATGGAAAACGGGAAAGTCGTTGAAGAAGGCGAAGTACTCCAAGTTTTCAGAAACCCGCGCGAACCGATGACTAAGCGTTTCGTTCAGCAGGTGACAGAACCGGAGGAGACGAAAGAAACCATCCAGCATTTTCTGCAGGAAACAGCGACAGGAAAAACGATTCAGCTTTCATTTGTCGGGCAGGCCGCCGAGCAGCCCCTCATTACGGAAATGATCCGAAACTTTGATGTGGACGTCAATATTCTGCAGGGGAAAATTTCACAGACGAAGGACGGAGCCTACGGTTCTTTATTCATTCATATTGACGGTCAGGAAAAAGAAGTAGAAAACGTGATCCGGTTCATCAAAGACAAACAGGTAGAAGCAGAGGTGATCACAAATGTTTGA	MIHLQNVSKIYKAKHGDVNAVQDVTLDIKKGEIFGIIGYSGAGKSSLIRLLNGLEKPTSGTVEVAGTELNKVSSRGLRKARQEISMIFQHFNLLWSRTVRENIMFPLEIAGVKKSERVRRADELIKLVGLEGKEKSYPSQLSGGQKQRVGIARALANNPKVLLCDEATSALDPQTTDSILDLLSDINDRLGLTIVLITHEMHVIRKICNRVAVMENGKVVEEGEVLQVFRNPREPMTKRFVQQVTEPEETKETIQHFLQETATGKTIQLSFVGQAAEQPLITEMIRNFDVDVNILQGKISQTKDGAYGSLFIHIDGQEKEVENVIRFIKDKQVEAEVITNV	PGPT0020520_2323	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
D1-12_03080	351			hypothetical protein	GTGGAGAAAATAGAAGTTTCAGAGAATGACGGACAGCATCTGTTTTTGAAACCGCTATTAAACGCCTCAACTCTGCTGATTACATTCCAAGGAGAAACAGAAGCCTTAACGGTCTCAATTAACGGACAGGGAGAAATGAGAAAAACGTCGGTTTCAAAGGAAAAATCTAATTTGACCTTCTACGGAAACCAGACAGAAATCATCCATCTCCTTCATGGTGATGTCTCTTTGCAAAAGCTTATCCAAAGCGGAAAACTCAAAGTGAAAGGATCATTCAGAGCTCTGCTGAAGCTGGAGGCCATCCTCTGGCTGACAAACGGATTTTTTCAGGCGATCAGTAAACGGCCTTAA	MEKIEVSENDGQHLFLKPLLNASTLLITFQGETEALTVSINGQGEMRKTSVSKEKSNLTFYGNQTEIIHLLHGDVSLQKLIQSGKLKVKGSFRALLKLEAILWLTNGFFQAISKRP				NA	NA	NA	NA	NA
D1-12_03081	321			hypothetical protein	ATGAAAGAACTCCAAGAAAATGAACTCGAATCGATTCAGGATGACGTTTATCTCCTGTATTTGTACACCCCGTTTTGCGGCACATGCCAGCTGGCGTCCAAAATGCTTACTGTCGTTGAAGAAATGCTGCCCGGCGCTGCCTTCTATAAAAACAACGTGAATTATTCCCCCGCATTCGCCAAAGCCTATCAGATTGAAAGCGTTCCGTGCTTTTTGCTGTTTAAAGGCGGAGAGCTTGTTGAGAAAGGATACGCCTTCCGCTCCGTTTCCTATTTATATGAGCTGATTAAACAAAAAACATCGCAAACGTTCCCGATGTGA	MKELQENELESIQDDVYLLYLYTPFCGTCQLASKMLTVVEEMLPGAAFYKNNVNYSPAFAKAYQIESVPCFLLFKGGELVEKGYAFRSVSYLYELIKQKTSQTFPM	PGPT0013063_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013063-yusE-NA	NA	NA
D1-12_03082	366	rnmV_1		Ribonuclease M5	ATGTACAACGGAGATGAAAAGGTCATTATCGTAGAAGGAAAATCTGATAAAATCAAAGTCAGGGAAGTGCTCATCGAACCCGCGGAAATCGTCTGTACTAACGGAACAATCGGCCAAACCGAACTGGAAGATTTGGCGGACCGCCTGTTTGACAGAGACGTCTATATTTTAACGGACGCAGATGACTCCGGAGAAAAATTAAGAAAACAGCTGAAACGGGAGCTTCCCGAAGCGCGCCATATTTATATAGACAGAACATACAGGCAAGTCGAGTCATGCCCGGGCCATCATCTCGCATCTGTGCTGATCAGAGCCGGCTTTGATGCTGACACTGTATTTTTGAAAAAGAACGACCTGAGGTGGTAA	MYNGDEKVIIVEGKSDKIKVREVLIEPAEIVCTNGTIGQTELEDLADRLFDRDVYILTDADDSGEKLRKQLKRELPEARHIYIDRTYRQVESCPGHHLASVLIRAGFDADTVFLKKNDLRW				NA	NA	NA	NA	NA
D1-12_03083	237			hypothetical protein	ATGGCTTTTGATAAACAAAAGGTCGATGTGACGGAGAACGTTACGGGCCGCTTTCAAAACGGCCGGTTTTCCTTGTTTCATGAAAATGAAGCCATCGGCGAGATGACAGGCATGGACCAGTACGAGCTCAAACAGGGCTTTTCATTTGAAAATCAAAAATTTTATAAAACAGCCGATGTCATAAACGGCAGCGATCCGAAATATGTCGATTGCGATTATGAGAATGGCTGGTGTTAA	MAFDKQKVDVTENVTGRFQNGRFSLFHENEAIGEMTGMDQYELKQGFSFENQKFYKTADVINGSDPKYVDCDYENGWC				NA	NA	NA	NA	NA
D1-12_03084	384	gcvH	COG0509	Glycine cleavage system H protein	ATGAGCACACCGAAAGATATGCGTTATTCCAAAGAGCACGAATGGGTCAAAGTTGAGGACGGAAAAGCCCGCATCGGGATTACACATTTCGCGCAAGCCGAACTTGGCGACATCGTCTTTGTCGAGCTTCCGGAAGTCGGCGCCGAAATTAAAGCGGACGAGCCATTCGGCAGCGTGGAATCCGTCAAAACCGTTTCCGAACTGTACGCACCGATTAACGGAACGGTGACGGAAGTGAACGAAGACCTTGATGACAGTCCTGAATTCGTAAACGAGTCTCCGTATGAAAAAGCGTGGATGATCGTCGTGGAACCGGCTGATGCTGAAGAAATCGAAAACCTCATGACTTCCGAGCAATATGACGAAATGACACAGGAAGACTGA	MSTPKDMRYSKEHEWVKVEDGKARIGITHFAQAELGDIVFVELPEVGAEIKADEPFGSVESVKTVSELYAPINGTVTEVNEDLDDSPEFVNESPYEKAWMIVVEPADAEEIENLMTSEQYDEMTQED				NA	NA	NA	NA	NA
D1-12_03085	357	mgsR_2	COG1393	Regulatory protein MgsR	ATGTCGTTAAATTTTTACTGGTACCCTAAATGCGGAACGTGCCGTAATGCGAAAAAATGGCTGGAAGACCGCGGTAAGGAAATAAACGAAATACATATCGCGGAGGAAACTCCGTCGAAAGAAGAAATTAAAGACCTCTATGAAAAGAGCGGTCTTGAGCTCAAAAAGTTTTTCAACACGAGCGGAATGAAATACCGCGAGCTGAACTTAAAGGAAAAACTGTACCATATGTCAGAGGACGAACAGCTTGAACTCCTGGCATCAGACGGTATGCTCCTGAAACGCCCGATTACGACAGACGGCGAAAAAGTCACTGTCGGCTTTAAAGAAGACCAATTCGAAAAATATTGGATGTAA	MSLNFYWYPKCGTCRNAKKWLEDRGKEINEIHIAEETPSKEEIKDLYEKSGLELKKFFNTSGMKYRELNLKEKLYHMSEDEQLELLASDGMLLKRPITTDGEKVTVGFKEDQFEKYWM	PGPT0004720_2266	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
D1-12_03086	1785	fadE	COG1960	putative acyl-CoA dehydrogenase	ATGAAACAGGAAACGGTCAACGTCAAAAAAGGCGGCAGCTTTCTGATTGAAGAGACGGGATATGATCAAATATTCACTCCGGAGGACTTTACAGACGAACATAAAATGATCGGAAAAACGACAGAAGACTACGTCGTAAACGATGTGCTTCCTTATATTGATGAAATTGAAAATCATCAGTTCGAGCATTCGGTCAGACTGCTGAAAAAAGCCGGAGATCTCGGCCTCCTCGGAGCAGACGTGCCTGAAGAGTACGGCGGCATCGGCCTGGATAAAATCAGTTCAGCCTTCATTACGGAAAAGTTTTCACGTGCCGGCAGCTTTTCGCTGTCTTACGGCGCTCACGTCGGGATCGGCTCATTGCCGATCGTGTTCTTCGGAACGGAAGAACAGAAAAAAACCTATTTGCCGGACTTGGCTTCAGGACAAAGAATCGCGGCATACGCCTTAACTGAGCCCGGTTCAGGTTCAGATGCCCTCGGCGCGAAAACGACGGCTGTTTTGAATGAAGCGGGCACACACTATATTCTTAACGGAGAAAAGCAATGGATTACAAACTCCGCCTTTGCAGATGTCTTTGTCGTCTACGCTAAAGTGGACGGAGATAAGTTTTCCGCATTTATCGTAGAAAAGAACTATCCGGGCGTGTCAACGGGACCGGAAGAGAAAAAAATGGGGATTAAGGGTTCGTCGACAAGAACGCTGATTTTAGATCAGGCGGAAGTCCCGAAAGAAAACCTTCTAGGCGAAATCGGAAAAGGCCATGTCATCGCCTTTAATATCCTGAATATCGGGCGCTACAAGCTTGCCGTCGGCACAATCGGCGCTTCAAAACGGGTGATTGAGCTGTCCGCCGCTTATGCAAACCAGCGCCGGCAATTTAAAACGCCGATCTCAAGCTTCACGCTCACTCAGGAAAAGCTTGCGACGATGTCAGCGCGGCTTTACGCCATGGAGAGCTCTGTATACAGAACAGTGGGCTTATTCGAAGATAATATGAGCAGACTGACGGAAGAGGAGCAAAAAGACGGACGCGAAGTCGCGAAGTCAATCGCCGAGTACGCGATTGAATGCTCGCTCAACAAAATGTGCGGTTCTGAAACGCTTGATTACATTGCCGATGAAGGCGTTCAAATTCACGGCGGTTACGGATTTATGCAGGAATATGAAGTGGAGCGCGCTTATCGCGACTCAAGAATCAACAGAATTTTTGAAGGCACAAATGAAATCAACCGCCTGATCGTAACGAGCACGTTCCTGAAAAAAGCCGTAAAAGGTCAGCTGCCGCTCTTTGAAAAAGCAAAAGCGCTCCAAGAAGAACTCATGATGCTGATGCCTGAAGAGCCGGGCTCAGAACCTCTTGAACAGGAAAAATACATTGTCAGACAGGCGAAAAAGATCGCCCTCTTGACAGCGGGTCTCGCGGCGCAGAAATACGGCAAAGAGATCGAAGGCGAGCAGGAAATCATGGTGAACATTGCCGATATTGTCAGCGCGCTTTACGCTTTGGAATCTGCCGTCCTCAGAACGGAAAAAGCAATTGCGGCGGACGGTGCCGAAAAAGCCGCGCAGAAGCTGTTATATACGGAAATCTTTGCTCAGGAAGCCCTTCAGAACATTGAAGCGCACGCCAAAGAATCACTGATCGCCATGGAGGAAGGAGATTCCCTCCGCATGATGCTTTCCGTGCTGCGCAAACTGACGCGCCTGACGCCGAAAAACCTCATTCAGAAAAAACGTGAAGCGGCAGCCGCCGTCTTCCGTGAAGAAAAATATACGGTCTGA	MKQETVNVKKGGSFLIEETGYDQIFTPEDFTDEHKMIGKTTEDYVVNDVLPYIDEIENHQFEHSVRLLKKAGDLGLLGADVPEEYGGIGLDKISSAFITEKFSRAGSFSLSYGAHVGIGSLPIVFFGTEEQKKTYLPDLASGQRIAAYALTEPGSGSDALGAKTTAVLNEAGTHYILNGEKQWITNSAFADVFVVYAKVDGDKFSAFIVEKNYPGVSTGPEEKKMGIKGSSTRTLILDQAEVPKENLLGEIGKGHVIAFNILNIGRYKLAVGTIGASKRVIELSAAYANQRRQFKTPISSFTLTQEKLATMSARLYAMESSVYRTVGLFEDNMSRLTEEEQKDGREVAKSIAEYAIECSLNKMCGSETLDYIADEGVQIHGGYGFMQEYEVERAYRDSRINRIFEGTNEINRLIVTSTFLKKAVKGQLPLFEKAKALQEELMMLMPEEPGSEPLEQEKYIVRQAKKIALLTAGLAAQKYGKEIEGEQEIMVNIADIVSALYALESAVLRTEKAIAADGAEKAAQKLLYTEIFAQEALQNIEAHAKESLIAMEEGDSLRMMLSVLRKLTRLTPKNLIQKKREAAAAVFREEKYTV	PGPT0002285_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-12_03087	1176	fadA_4	COG0183	3-ketoacyl-CoA thiolase	ATGAGAGAAGCAGTCATTGTGGCCGGTGCGAGAACCCCGGTCGGTAAAGCGAAAAAAGGATCGCTTGCAGCCGTTCGTCCTGATGATTTAGGCGCGCTTTGTGTAAAAGAAACGCTGAAACGGGCAGGCGGCTATGAAGGAAACATCGATGACTTAATTATCGGTTGTGCAACACCTGAAGCCGAACAAGGATTAAATATGGCGCGGAATATCGGTGCGCTGGCGGGGCTTCCTCATACGGTGCCGGCCATTACGGTGAACCGCTACTGCTCTTCCGGGCTCCAATCCATCGCTTACGGTGCTGAAAAAATCATGATCGGCGCGGGTGACACCGTCATTGCGGGCGGTGCGGAATCCATGTCGCAAGTTCCGATGATGGGGCATGTGACACGGCCGAATATCGCTTTGGCGGAGCATGCGCCTGAGTATTACATGAGCATGGGGCACACAGCGGAGCAGGTCGCCGAAACGTACGGCGTATCCAGAGAAGACCAGGATGCATTTGCCGTCCGCAGCCATCAGAATGCCGCAAAAGCCCTTAAAGAAGGCAAATTCAATGACGAAATCGTGCCGGTTGAAGTATCGCTGACAGAAGTCGGTGATGACCATAAGCCGCGGAAAAAACAATTTACCTTTTCACAAGATGAAGGCGTTCGTCCCGGCACATCGGCTGACGTCTTGGCGAAGCTCCGTCCGGCTTTTTCTAAAACGGGAACCGTGACGGCCGGGAACTCTTCACAAACAAGTGACGGCGCGGCGGCTGTCATGCTGATGGATCGCGAAAAAGCATCGTCGCTCGGGTTGGCGCCGCTTGTCAAATTCCGTTCCTTTGCCGTAGGCGGCGTTCCGCCTGAGGTAATGGGGATCGGTCCGATTGAAGCCATTCCGCGGGCGCTCAAGCTTGCCGGACTCGAATTACAGGATATCGGGCTTTTTGAATTGAATGAGGCCTTTGCTTCACAGGCCATTCAAGTCATCAGATCGCTTGGGATAGATGAAGAAAAGGTGAACGTCAACGGAGGCGCCATCGCGCTCGGACATCCGCTCGGATGCACGGGAACGAAGCTGACCCTGTCACTCATTCATGAAATGAAACGGAGAAACGAGCAATTCGGCGTGGTGACGATGTGCATCGGAGGCGGCATGGGCGCTGCCGGCGTATTTGAGCTCATTTAA	MREAVIVAGARTPVGKAKKGSLAAVRPDDLGALCVKETLKRAGGYEGNIDDLIIGCATPEAEQGLNMARNIGALAGLPHTVPAITVNRYCSSGLQSIAYGAEKIMIGAGDTVIAGGAESMSQVPMMGHVTRPNIALAEHAPEYYMSMGHTAEQVAETYGVSREDQDAFAVRSHQNAAKALKEGKFNDEIVPVEVSLTEVGDDHKPRKKQFTFSQDEGVRPGTSADVLAKLRPAFSKTGTVTAGNSSQTSDGAAAVMLMDREKASSLGLAPLVKFRSFAVGGVPPEVMGIGPIEAIPRALKLAGLELQDIGLFELNEAFASQAIQVIRSLGIDEEKVNVNGGAIALGHPLGCTGTKLTLSLIHEMKRRNEQFGVVTMCIGGGMGAAGVFELI	PGPT0001565_3218	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
D1-12_03088	2370	fadN	COG1024	putative 3-hydroxyacyl-CoA dehydrogenase	ATGCACAAGTTTATAAAGAAAGCAGCCGTTCTCGGATCAGGCGTCATGGGGTCCGGAATTGCCGCGCACTTGGCTAACATCGGAATTCCCGTCCTGCTGCTTGATATTGTGCCAAACGAGCTGACAAAGGATGAGATGAAAAAAGGGCTGACATTAGAAAGCCCGGAGGTCCGCAGCAGGCTGAGCCGATCGGCCATGCAAAAGCTGCTGAAGCAAAAACCGGCGCCGCTGACTTCGGCTGCCAATCTCGACTATATAACTGCGGGGAATTTGGAAGATGACGCAGCTCAATTAAAGGATGCTGATTGGATTATTGAAGTCGTCGTCGAAAATCTTGACGTAAAAAAACAGATTTTCTCACTCGTTGATGAATACCGGAAACCGGGAAGCATCGTGTCGAGCAATACGTCCGGTATCTCCGTCACAAAAATGGCGGAAGGCCGATCTGCCGATTTTAAAGCCCATTTCTTAGGAACCCATTTCTTTAATCCGGCCCGCTACTTAAAGCTTCTGGAAATCATTCCGATTCAGGAAACAGATCCTGACGTGCTGGAGTTTATGACTTCATTTGCAGAAAACACGCTCGGGAAAGGTGTCGTCATCGCGAAAGATACGCCTAATTTTATCGCCAACCGCATCGGTACGTACGGCCTGCTGGTCACGGTAAGAGAAATGCTTTCTTCCGGCTGCCGCATCGGCGAGGTGGACACGGTGACCGGGCCTTTGATCGGCAGACCGAAAAGCGCGACCTTCAGAACCCTTGACGTTGTGGGGCTTGATACTTTCGCCCATGTGGCAAAAAATGTGTATGATAAAGCCGACGGTGCTGAAAAAGACATGTTTAAGCTTCCTGAATTTATGAATGACATGCTGAAAAACAATTGGCTGGGCAGCAAATCAGGCCAAGGTTTTTACAAAAAAGAAGGTAAAACAATATATGAACTCGATCCGCTGACCATGACATACGGTGAGCGCTCGAAAATGAAGACGCCCGCGTTAGAAGCCGCCAAACAGGCAAAGGGTGCCAAAGGCAAAATGAAAGCGCTTATATACTCCGATGACCGCGCCGGACGCCTGCTTTGGAATATTACATCGCAAACACTCTTATACTCAGCCCGGCTTTTAGGTGAGATCGCTGATGATATCAAAGCGATTGACGACGCCATGAAATGGGGCTTCGGATGGGAGCTCGGCCCGTTTGAGATGTGGGATGCCATCGGCGTCAGAAAATCAGCGGAGCGGCTCGAAGAAGAAGGCGCAGAAATCCCCGGCTGGGTGAAAGATATGCTTGATCAGGGCCATGAAACATTTTATATGAAGGAAAACGGAACACCATTTTACTATTCAGACGGCCAATACAGGGCTGTGAAAGAAAATCCGAAACGGATCAGCCTGCAAACGTTAAAAGAAACAAAAGGCGTTATCACTAAAAACAGCGGCGCAAGTCTGATTGATCTCGGCGATGATGTCGCGCTGCTGGAATTTCATACGAAAAGCAACGCGATCGGCTTAGACATTATTCAGATGATTGACAATGCGCTTGAGGAAACCGAGCGGAATTATAAAGGACTTGTCATCGGAAACCAAGGCAGACATTTCTGCGCGGGGGCAAACCTTGCGATGATTTTGATGGAAGCTCAGGATGATAACTTCATGGAAGTCGATTTTGTCATCCGCCGTTTTCAGCAGACGATGCTGAACATCAAATACAGCGCTAAACCCGTTGTCGCGGCGCCATTCGGGATGACACTCGGCGGCGGCACGGAAGTCTGTCTCCCGGCGGCACGCGTTCAGGCGGCGAGCGAATCGTATATGGGTCTTGTTGAAACCGGCGTCGGCCTTATTCCGGGCGGCGGAGGAAACAAAGAGCTGTACATGAATTATTTGAACGGCGGAAGTGAACTGATGGACGCGGCCATTAAAACCTTCGAAACAATCGCGCTTGCCAAAGTGTCCGGTTCGGCACACGAAGCCCGTGATATGCAGATTTTGTCCGCGGCAGACCGTGTCAGCATGAATCAGGATCACCTGCTGCACGATGCGAAACAGCTGGCTGCTTCCTTATATGACAGCGGATACCGCCCGCCTGCCCGCAAAAAAGTGAAAGTCACCGGAGAAACCGGCTGTGCGGCATTACTGCTCGGAGCAGACCAAATGAGACGGTCGGGTTATTTATCCGATCACGATATGAAGATTGCGAAGAAGCTGGCCCATGTCATTGCCGGCGGAAGAGTCCCGTTCGGCACGGAGGTTTCAGAAGAATATTTACTCGAGATTGAAAGAGAAGCCTTTTTAAGCCTCGCTGGCGAGGCGAAATCTCAAGCGAGAATGCAGCATATGCTCGTCAAAGGCAAACCTTTACGGAACTAG	MHKFIKKAAVLGSGVMGSGIAAHLANIGIPVLLLDIVPNELTKDEMKKGLTLESPEVRSRLSRSAMQKLLKQKPAPLTSAANLDYITAGNLEDDAAQLKDADWIIEVVVENLDVKKQIFSLVDEYRKPGSIVSSNTSGISVTKMAEGRSADFKAHFLGTHFFNPARYLKLLEIIPIQETDPDVLEFMTSFAENTLGKGVVIAKDTPNFIANRIGTYGLLVTVREMLSSGCRIGEVDTVTGPLIGRPKSATFRTLDVVGLDTFAHVAKNVYDKADGAEKDMFKLPEFMNDMLKNNWLGSKSGQGFYKKEGKTIYELDPLTMTYGERSKMKTPALEAAKQAKGAKGKMKALIYSDDRAGRLLWNITSQTLLYSARLLGEIADDIKAIDDAMKWGFGWELGPFEMWDAIGVRKSAERLEEEGAEIPGWVKDMLDQGHETFYMKENGTPFYYSDGQYRAVKENPKRISLQTLKETKGVITKNSGASLIDLGDDVALLEFHTKSNAIGLDIIQMIDNALEETERNYKGLVIGNQGRHFCAGANLAMILMEAQDDNFMEVDFVIRRFQQTMLNIKYSAKPVVAAPFGMTLGGGTEVCLPAARVQAASESYMGLVETGVGLIPGGGGNKELYMNYLNGGSELMDAAIKTFETIALAKVSGSAHEARDMQILSAADRVSMNQDHLLHDAKQLAASLYDSGYRPPARKKVKVTGETGCAALLLGADQMRRSGYLSDHDMKIAKKLAHVIAGGRVPFGTEVSEEYLLEIEREAFLSLAGEAKSQARMQHMLVKGKPLRN	PGPT0008395_1012	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
D1-12_03089	909	fadM	COG0506	Proline dehydrogenase 1	TTGCTGCGGAACATATGTTTATTTTTGTCGAAAAATAAAATGCTTACAAAATTCGCCCAAGCTTACGGAATCCGCTTCGGCGCGGGAAGGTTCGTTGCAGGGGAAACACTCACAGAAGCTGTGAAAACGGTAAAGCGGCTGAACCAAAAAGGGCTGTCGGCTTCGATTGATTATCTAGGTGAATATGCGGGTTCAGAGAAGGATGCGAAAAGGACGGCGGAAGAATGTAAAAAAGCAATCAGGGCGATTGCCGAGAATCAACTGGATTGTGAGCTGTCTCTGAAATTAACATCCATCGGTCTGGATATTTCCGAGAAGCTCGCGGAACAGCATGTCAGAGACATATTGACGGAGGCAAAAGAACGCTGCGTGCCTGTAACGATTGATATGGAGGACTATTCAAGATGCGGCCGTACACTCGAGCTGTATAAGCGGTGCAAGCCGGATTTCCCGATGCTCGGCACCGTCATTCAGGCTTATTTGTACCGGGCAGCTGAAGACATCAGCGGTCTGATGCCATACAAGCCGCGGCTCAGGCTTGTAAAAGGCGCTTATAATGAATCGGCGGCCGTTGCATTCCCTGATAAAAAAGCAACCGATCTTCATTTTCAGCAGCTGATTAAGCTGCAGCTTTTGAGCGGCCATGAAACGGCGGTGGCGACTCATGATGATGACATCATTTCTTATACGAAAACACTCATCAGTGAACATCAAATTCCCCGGGAGCAGTTTGAATTCCAAATGCTGTACGGCATCAGAACGGAGCGCCAGAAGGAGCTTGCCGAAGAAGGATACAGGATGAGGGTGTATGTCCCGTACGGAACCGATTGGTACGGGTACCTGATGAGAAGAATCGCCGAGCGCCCGGCAAACGCGGCGTTTGTGCTGAAAGGGATCTTCAAAAAATAA	MLRNICLFLSKNKMLTKFAQAYGIRFGAGRFVAGETLTEAVKTVKRLNQKGLSASIDYLGEYAGSEKDAKRTAEECKKAIRAIAENQLDCELSLKLTSIGLDISEKLAEQHVRDILTEAKERCVPVTIDMEDYSRCGRTLELYKRCKPDFPMLGTVIQAYLYRAAEDISGLMPYKPRLRLVKGAYNESAAVAFPDKKATDLHFQQLIKLQLLSGHETAVATHDDDIISYTKTLISEHQIPREQFEFQMLYGIRTERQKELAEEGYRMRVYVPYGTDWYGYLMRRIAERPANAAFVLKGIFKK				NA	NA	NA	NA	NA
D1-12_03090	258			hypothetical protein	ATGAACAACCAAGAGCAGCACGGAAACTTGCCGCCTGCCGTCATCTCAACGAAAGACCATTTGTATCTTGAGGACATGCTGAACTGGAATCTGCTTGCCATGAAAAAAGCGCATTTTATGGCGGAACATTGCCAGAATCAGACGTTAAAACAAGAGCTTGATCAGATCGGCCGGATGCATCAGAAGCATTATCAGCACATATTGGGCCGCTTGAACCCCGATCAAGGCGGACAGACAACAACAGGCTATATGCAATAG	MNNQEQHGNLPPAVISTKDHLYLEDMLNWNLLAMKKAHFMAEHCQNQTLKQELDQIGRMHQKHYQHILGRLNPDQGGQTTTGYMQ				NA	NA	NA	NA	NA
D1-12_03091	333			hypothetical protein	ATGGAACAGCAAAATCAAAAAATCACGAATCCGCAAACGCCCGTGCCCAATACGGCGCAAATGAATGACAGAGACTTGGTGAATGAGCTGCTGACGACGGAAAAATACATCACGTCTTCATATTGCACAGCCCTGCACGAGTTCAGCCACGAGTCTCTTTATCAAGATATTCAGGCGATTTTCGATGAGTCACAAAAAGCGCAAAGAAGATTATACGATGTGATGTTTCAAAATGGCTGGTATTCCATTGAAGCAGCCGATACCCAAAAGCTTCAGCAATCGTATGAGAAGTTCCGGCAGACCATTCAGCAGCAGTCTCCCTATCAGCAGTAA	MEQQNQKITNPQTPVPNTAQMNDRDLVNELLTTEKYITSSYCTALHEFSHESLYQDIQAIFDESQKAQRRLYDVMFQNGWYSIEAADTQKLQQSYEKFRQTIQQQSPYQQ				NA	NA	NA	NA	NA
D1-12_03092	462	yusO		putative HTH-type transcriptional regulator YusO	ATGAAAAACGCGGATCAATATGTGTCTGACATCCAGAAATCTCTTCAGACGCTGCTGCAAAACATACAGCCTGAAATGGTGGAAAGCATGGCAAAACACGAGGTGACGCCTGCCCAATTATTTGTTTTAGCCAGCCTGAAAAAACACGGGAGCTGCAAAGTTTCCGAAATTGCGGAACGCATGGAGGTAAAACCGAGCGCAGTGACGCTGATGGCCGACCGCCTCGAGCAAAAAGGACTTATCGTCCGCAAACATAACCAGCAGGACAGACGCGTCATCGACATCAGCCTCACCAAAAAAGGCGAAACAAAATTCGAAGACGTTGTGGAAGGACGGAAAGCGATACTGGCGCGAAACCTATCCGTTCTGACTGACGATGAACTGATTCAGTCCGTGAACATCATCCGCAAAGTAGCGGAAGCCGCCGAGAAATACGCGGCTGATCAAAAAGAAAACGAATAG	MKNADQYVSDIQKSLQTLLQNIQPEMVESMAKHEVTPAQLFVLASLKKHGSCKVSEIAERMEVKPSAVTLMADRLEQKGLIVRKHNQQDRRVIDISLTKKGETKFEDVVEGRKAILARNLSVLTDDELIQSVNIIRKVAEAAEKYAADQKENE	PGPT0013155_3476	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-12_03093	1596	bmr3_2		Multidrug resistance protein 3	ATGAGCATTGAAAAGAAAGATCCAAAACGCACATTATTAATAACCGGCTTAATCATCGCCATGTTTTTCTCAGCCCTTGACGGCACCATCGTAGGAACGGCGATTCCTAAAATCGTGGGTGACCTCGGGGGATTAAGCATGATGACGTGGCTGACCACGGCATATCTTTTAACTTCGACGACAATCGTTCCGATTGCGGGGAAACTCGCAGATTTATTGGGGCGCCGCGTCGTCTATGTGTCAGGTTTACTGATTTTTATGGGAGCTTCCGCACTGTGCGGTATGGCCAGCAACATGACGGAACTGATTATTTTCCGCGGACTTCAGGGAATCGGCGGCGGTGTCATGATGCCGATGGCTATGATCGTCATCGGGGATTTGTTCACAGGAAAACAGCGTGCCAAGTTCCAAGGGCTTTTCGGGGCGATTTACGGGCTTGCTTCCGTGATCGGCCCGCAAATCGGGGGCTGGATTGTTGACTCATTAAATTGGAAATGGGTTTTCTATATCAACCTGCCTGTCGGAATTTTAGCCGTGATCTTTATCGCAAGAGGACTTCAAGGCAGAAAACAGACCGGGCCGATTAACTTTGACATCGCCGGCATTTTCACAATGATCGTCGGAATCGTCAGCCTCCTCCTCGCGCTCAGCTTCGGAGGAAAGGATTACGCATGGGGCTCTTGGCAGATTCTCGGTCTCTTTGCGCTTGCGCTTGCCGGGATTGTCGGATTCATTTTCGCTGAAATCAAAGCAAAGGAGCCGATTCTGCCGATGTACCTGTTTAAAAACAGAACGTTTACCGTACTGAATCTGATCGGCTTTTTCATGAGTATCGGCATGTTCGGCGCCGTTACGTTCGTTCCTTTCTTTATGCAGGGAATTATCGGAGTCAGCGCCACCGCGTCCGGAACGATTATGACGCCGATGATGGTATCTATGATTATCACAAGTATTATCGGAGGCCAGCTGGTTTATAAGATCGGTATTAAACCGCAAATCATGATCGGCATGCTGATCATGGCCGTCGGCTTCTTCTTATTAACGACATTGCAGCTGGATACAAGCAAGCTCGCGGCGACGTGCTATATGGCCGTGATCGGTCTGGGAATGGGGCTCGTCATGCCGCTTCTCACACTCGCTCTGCAAGAAACGTTTTCAAAAGAAGAGCTGGGTGTTGTGACCTCTTCAAGCCAATTTTTCCGGATGATCGGGGGAACGTTCGGCATTACGGTGCTCGGCGCTGTCATGAATGCCAGATCAGGAAGCCTTTTAACCGACAGACTGGTGCCTTACTTAGACTCACTGCCGAAACAGGCAAGTGCCTTTGCCGCCCAGTTTAAAGGTATGATTGACAAGAATCCTGAAGGGCTGCTTCAATCCCTGTTCAGCCAGGAATCGATTAAGCAGATTCCGGCCGCATTTTCTTCCCATATCGTGCCGGTTTTGAAAACGTCACTGATGGATTCGCTTCACAGCGTGTTTTTCACAGGCCTGGCCTTTATCGCTGCCGGATTGATCCTCACGCTGTTTGTTAAATCAATTAAACTGACAAACAAAAAGACAGGCAAACAAGAAGAAAAGGCGAAAGCCGTTTAA	MSIEKKDPKRTLLITGLIIAMFFSALDGTIVGTAIPKIVGDLGGLSMMTWLTTAYLLTSTTIVPIAGKLADLLGRRVVYVSGLLIFMGASALCGMASNMTELIIFRGLQGIGGGVMMPMAMIVIGDLFTGKQRAKFQGLFGAIYGLASVIGPQIGGWIVDSLNWKWVFYINLPVGILAVIFIARGLQGRKQTGPINFDIAGIFTMIVGIVSLLLALSFGGKDYAWGSWQILGLFALALAGIVGFIFAEIKAKEPILPMYLFKNRTFTVLNLIGFFMSIGMFGAVTFVPFFMQGIIGVSATASGTIMTPMMVSMIITSIIGGQLVYKIGIKPQIMIGMLIMAVGFFLLTTLQLDTSKLAATCYMAVIGLGMGLVMPLLTLALQETFSKEELGVVTSSSQFFRMIGGTFGITVLGAVMNARSGSLLTDRLVPYLDSLPKQASAFAAQFKGMIDKNPEGLLQSLFSQESIKQIPAAFSSHIVPVLKTSLMDSLHSVFFTGLAFIAAGLILTLFVKSIKLTNKKTGKQEEKAKAV				NA	NA	NA	NA	NA
D1-12_03094	888	gltC_3		HTH-type transcriptional regulator GltC	ATGGAATTGCTGCAGCTAAAATACTTTCAGACAGTTGCCTATACTGAACATATTTCTAAAGCAGCAGAACAATTAAAGATTGCCCAGCCTTCTTTAAGTCTCACTATAAAAAGACTTGAGAATGAACTGGGAACAACCTTGTTTGAGAGAAAAGGCAGAAATATTAAGCTGAGTTCAGCAGGGAAAATTCTTTTAAAACATGTAAACAGGATTTTTACTGAGATTGAAAATGCACAAACGGAAATTCAATTGGAGGAACATCAAATGTCTGACACCATCAGAATATCTATTTCCAATCCAAGATTCCTTGCAGGACTGATGAGTGAATATATCAACCGCTCCCCTCAATCAAAAATTCTCCAAGCAATCGGAGTTAAAAGCGAGATCATAACAAGTTTAAAAAAAGGGGACATTGATTTAGGAATAACAGGTCATCCGATTCAAGATGAAGAGATAGAGAGTTGTGTGCTGGTAAATGAAGATATTGTTCTGGCTTTGCCCTCAAACCACCGATTTACGGGTAAAACAGAAATTTCTTTACGTCTTGCCGCCGATGAACCATTTATTACCCTTGCTAATAATGAAGAGTACAGCGGTTTTACAGCCTCGCTTTGTGAGAAAGCCGGTTTCACCCCAAATATTGCATTTGAGGCAGATTCTCATTTACTGGTCGAGATTATAAAGCTGGATCAAGGTGTTGCGTTGCTTCCTATTTCAGTTTGCAGAACATTGGGGCTGAATTTTATAAAAGTGACTGATCACTCTGCTTCATATCCAGTCGGCTTATCTTGGTTAAGACATAAGCTGTTATCTTCTTCGATAAGAAATTTTCGTGACTTTATTATGTCGTACTATAAAGATAACTATGAAATGTTTAAGGTTTATTAA	MELLQLKYFQTVAYTEHISKAAEQLKIAQPSLSLTIKRLENELGTTLFERKGRNIKLSSAGKILLKHVNRIFTEIENAQTEIQLEEHQMSDTIRISISNPRFLAGLMSEYINRSPQSKILQAIGVKSEIITSLKKGDIDLGITGHPIQDEEIESCVLVNEDIVLALPSNHRFTGKTEISLRLAADEPFITLANNEEYSGFTASLCEKAGFTPNIAFEADSHLLVEIIKLDQGVALLPISVCRTLGLNFIKVTDHSASYPVGLSWLRHKLLSSSIRNFRDFIMSYYKDNYEMFKVY				NA	NA	NA	NA	NA
D1-12_03095	747	adc		Acetoacetate decarboxylase	ATGAAAATTGATGTGAATAACATTGTGAAAAATTTAAACACACCTTTAACATCACCTGCTTACCCCGTGCCAACCTATAAATTTGTTAACCGGGAATATCTTAATATTATTTACCGAACGGATGAAAAAGCTTTACGTGCGGCAGTGCCGGAACCTCTTGAAATTACTGAACCTTTAGTGAAATTCGAAGTGATGTGGATGCCCGATGTTTCCGGACTTGGTGCCTATACAGAGGCGGGACAAGTCATCCCTGTCAGCTTTAATGGTGAAGAAGGGGATTATGTACATTCTATGTATGTAGACAATTTCCCGGCTATTGCAAGCGGACGGGAACTTACTGCATATCCAAAGAAATTGGGTGCCCCTAAGCTGTATATAGACTCTGATACTCTTGTTGGCACATTAGATTATGGCAGTCTTCGTGTGGCAGCTGCGACTATGGGATATAAACATTTCGAAATGGACAAGGAAAAAGCGAAAAGGGAAATTTGCCGACCTAATTTTATGGTGAAGATTGCTACTGATTACAATGGTGATTTAAGGGTTTGTGATTTGGTGAGAACGCAAATAACGAATATAGAAGTTAAAGGTGCCTGGACTGGACCGGCGCGGCTTCAATTATTTGAACATGCTCTGGCACCGCTTGCAGATTTGCCTGTACTAGAAGTTGTTTCAGCATCTCATATTATTACGGATTTAACCTTAAATGCAGCACAGCCGGTTTATAACTACTTAGAGGAAAAATAA	MKIDVNNIVKNLNTPLTSPAYPVPTYKFVNREYLNIIYRTDEKALRAAVPEPLEITEPLVKFEVMWMPDVSGLGAYTEAGQVIPVSFNGEEGDYVHSMYVDNFPAIASGRELTAYPKKLGAPKLYIDSDTLVGTLDYGSLRVAAATMGYKHFEMDKEKAKREICRPNFMVKIATDYNGDLRVCDLVRTQITNIEVKGAWTGPARLQLFEHALAPLADLPVLEVVSASHIITDLTLNAAQPVYNYLEEK	PGPT0008281_271	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNALLING_VOLATILES	PLANT_SIGNAL-HYDROXYACETON_VOLATILE_METABOLISM	PLANT_SIGNAL-HYDROXYACETON_VOLATILE_BIOSYNTHESIS,PGPT0008281-acd-K01574	NA	NA
D1-12_03096	1041			hypothetical protein	ATGAGAATTGCAGTTTTAGGAGCAGGTTCTTTAGGAACCATTGTTGGAGCATATCTGTCTGCTGGCGGAATGGATGTCGAATTGATTGATTCATACAAAGAACATGTAGATACTTTAAATCAAATAGGTGCTAAAGTAGTTGGTACAACGGAATTTCAAGCAAAGGTGAAAGCCATTACCCCTGAAAACAAGTCAGGCAAGTATGATTTCATATTACTTCTGACGAAACAATTATATAATGACTCCATTCTTAAGGAGTTACTGCCTTTTTTAAAGGATGACAGTGTAGTATGTTCCTTGCAAAACGGTATACCTGAACAGAAAGTCGCTTCGATCGTTGGTGATGAACGTGTTATTGCAGGTTCTGTTGAATTTGGTGCTACGTTTATTGAACCGGGCGTATCCAGACTTACAACTGAGTATACTCAATTTAAAGAGTACGCTTTTCAAATTGGAGAATTACATGGTGAAACAACAGAAAGAATCCAGCGTATTAAATCGGTTTTAGACCTTATCGGCGGAACACATATTTCCGATAATTTAGTTGGAACGAAGTGGTCAAAATTACTTATCAATAATGCATTCAGTGGTTTATCGGCAGCATTAAACGGAGAATACGGAGACATTCTTGACCATGAAATCGGCATTGTTAGTGCAGTTCATATCGCAGATGAGACGATTAAGGTTGGACACGCCAATGGTGTCAAATTTGCGAAAATGGGCGGCCTTGATTTAGAATCTTTGGAATTAAGAAGCGAAAATGATATTCCTGAACGTATCCAAACATTTAGGTCAGCCATGGAACCATCTAGGCTGCTAAGAGCAAGTATGCTTCAGGATCTTGAGAAAAAACGCAAAACTGAAATTGATTATATTAATGGAGTTATTCCCAAAATGGCAGAAGGTACTGGCATTTCAACACCTTTTCATGATTTGGTTGTAGCACAAGTCAAATGTGCCGAGGAATCTCAAACAGTGCCCAATTTTGATACAAATATAAAAGCATTTGAAGAGTTATTACGTATCCGAAAGGAAATGTGA	MRIAVLGAGSLGTIVGAYLSAGGMDVELIDSYKEHVDTLNQIGAKVVGTTEFQAKVKAITPENKSGKYDFILLLTKQLYNDSILKELLPFLKDDSVVCSLQNGIPEQKVASIVGDERVIAGSVEFGATFIEPGVSRLTTEYTQFKEYAFQIGELHGETTERIQRIKSVLDLIGGTHISDNLVGTKWSKLLINNAFSGLSAALNGEYGDILDHEIGIVSAVHIADETIKVGHANGVKFAKMGGLDLESLELRSENDIPERIQTFRSAMEPSRLLRASMLQDLEKKRKTEIDYINGVIPKMAEGTGISTPFHDLVVAQVKCAEESQTVPNFDTNIKAFEELLRIRKEM	PGPT0008745_418	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
D1-12_03097	246			hypothetical protein	ATGGAAGAGAAACTGCAGCAGCAGCTGGACGGCCTGCTTGAAAAATACACGGAACTATTGCTTGGCGAAACAAACCCGGATGTAAAGGAAGAAGTCAGGCAGTGGATTTTGTATACACATATCGCAAAAAGCATGCCTCCGCTCGTCAAACATTGGAACCAATCCTACCCGGACGCCAAAGAGGGCATCAAAGCTGCGATACAGCACATTAAACAGCTCAATGAAGCACACAGAAAAAAACAATAA	MEEKLQQQLDGLLEKYTELLLGETNPDVKEEVRQWILYTHIAKSMPPLVKHWNQSYPDAKEGIKAAIQHIKQLNEAHRKKQ				NA	NA	NA	NA	NA
D1-12_03098	825	yusV_1	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGAGTGCAATTTCTACAGAGACGCTGAGCTTAGGGTACGGAGAAACTGTTATCATTGACGAATTGGATGTCGCGATTCCAAAAGGCGAAATAACTGTATTGATCGGAAGCAACGGCTGCGGAAAATCGACGCTTTTACGTTCATTGGCCCGGCTTATGAAACCGAGGGGCGGTTCTGTGCTTTTAGAAGGAAAAGCCATCGCTAAGCTTCCGACGAAGGAAGTGGCAAGAGAGCTCGCTATTTTGCCGCAGAGTCCGTCAGCTCCCGAAGGCCTGACGGTGCATCAGCTTGTGAAGCAGGGAAGATACCCTTATCAAAGCTGGCTGAAGCAATGGTCTAAAGAGGACGAAGACGCAGTGGCAAACGCGCTTAAAGCGACGAAGCTTGAGGAAATGGCCGACCGTCCGGTAGATTCCTTGTCAGGCGGACAGCGCCAGCGCGCATGGATTGCGATGACACTCGCTCAGGATACAGATATCATTCTGCTTGACGAGCCGACAACCTATCTCGACATGACGCATCAAATTGAAATTCTTGATTTGCTGTTTGAATTAAATGAAAAAGAAAAACGCACAATCGTCATGGTGCTGCACGACCTCAATCTGGCATGCCGTTATGCCCATTATCTGGTCGCCATTAAGGATAAACAGATTTACGCAGAGGGCCGTCCCGAAGAAGTCATCACTTGCGAGCTTGTACAGCAGGTCTTTGCGATGAACTGCCAGGTAACGCAAGACCCGCTGTTCGGCACGCCGCTTTGCATTCCGCACGGACGCGGCAGATGTATCGTGCAGGAAGCGGCCCTCACCGCCCGATTGTCATAA	MSAISTETLSLGYGETVIIDELDVAIPKGEITVLIGSNGCGKSTLLRSLARLMKPRGGSVLLEGKAIAKLPTKEVARELAILPQSPSAPEGLTVHQLVKQGRYPYQSWLKQWSKEDEDAVANALKATKLEEMADRPVDSLSGGQRQRAWIAMTLAQDTDIILLDEPTTYLDMTHQIEILDLLFELNEKEKRTIVMVLHDLNLACRYAHYLVAIKDKQIYAEGRPEEVITCELVQQVFAMNCQVTQDPLFGTPLCIPHGRGRCIVQEAALTARLS	PGPT0003760_3126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
D1-12_03099	438			hypothetical protein	ATGAAATGGTTCAGGACGGCGGGCGTTTTATGTCTTACGCTGATGCTGATTGCCGGCTGCCGATTGATTGAAGAAAAACGGGAAGCGGAACAAGACAGCACACCCGTGTCATCTGCGAAGCAGGTTCCTTACAGCAGCTTTTCCCTGCGCGTCAGCTACGGAGCCGGAGAGCATAACCGCTATGAAGGTTTGTATGAAAGAAAAAGCGGTCATGAAAAGGCGGACATCCGGGACAAGCTCTCAGGGGTTCACAGAGAGGGCGAGGAAGCGCTTGATGAAATGAAGATGATCCTCGGAGAACTTGCCGTAAACAGCCGGATGCAGGAAAGCGAGGTCGTCCGGCAGGTGCTCTCGGCTTTTAATTTAGACAGCCGCTATGACCATTTTTATCTGAAACTGAAAAAGAACGACGGAGAAATGACAGAAATAAAAAAATAA	MKWFRTAGVLCLTLMLIAGCRLIEEKREAEQDSTPVSSAKQVPYSSFSLRVSYGAGEHNRYEGLYERKSGHEKADIRDKLSGVHREGEEALDEMKMILGELAVNSRMQESEVVRQVLSAFNLDSRYDHFYLKLKKNDGEMTEIKK				NA	NA	NA	NA	NA
D1-12_03100	1782	pepF1_2		Oligoendopeptidase F, plasmid	ATGGCATTAAAGGGATTGAAGGAAACATGGGATTTAAACTCCATTTTTGAGGGCGGGAGCCGGTCGGAAGAGTTTCAGCAATACATACAAGAGCTCAAAAAGCATCTAAGTGCTTTTCAACATGCGGTTGAAGCGTTTACAGTTCCGGCGCATGCGGATGAAAGCCGGGACCTGATCAATCTGATCGATAGGTTTGAACGGTCAGCGATCATGATCAGGCAGGCGGGAGCGTTCGTCGGCTGTCTTCAGGCTCAGAACACTCATGATCAGAAAGCGAATGAATGGAGGGCGCGGATTAATCAGCTGAGCAGTGATTTTAAATCCGCTCTGGTCACCCTTGACGATACACTTGCCCGGATTGACGAGCGGGTCTGGGAGGAGCTGCTGCAAAAACCGGAACTTCAGGATCTCACATATGTTTTAAATGAGAGAAGAGACCGTGTCAAAGAGAAGCTCAGCGCTTCGGAAGAAAGGCTGATTGAAGGCCTGGCCGTTGACGGCTATCACGCATGGGGCGACCTGTATAATGCGGCTGTCGGCAGAATGAAGATTCCGTTTGAGGATAAAGAGCTGTCGGTCGGCCAAGCGGAAAATATGATGGCGCACCCGGACCGCCGCATCAGACGCCAAGTGTTCAAAGAGCTTAATGAAGCCTGGAAAGGAGAAGAGGAGCTTTTCGGCAGCACGCTGAACCATCTGGCCGGCTTCCGCACGGAAATCTATAAAGCGCGGGGCTGGAAAAGCGCTTTGGAAGAGCCGCTTGCGATCAACCGGATGAAAAAAGAAACGCTGGATGTCATGTGGCAGGTCATTACAGATCATAAAAAACCTCTTGCCGAATACCTGAATCGAAAGGCATCTCTTTTAGGGCTTGAGCGGCTGAACTGGTATGATGTGGACGCGCCGATCGGCGAGGCTCCGAAAGAATACACATTTGATGAAGCGGCCAATCTGATCGTCAGCCAATTTTCGACGTTTGGCAAAAAGCTGTCCGCATTTGCGGAAAAAGCGTTCCGCGATCGGTGGATAGAAGCGGAAGACCGCAGCGGCAAACGGGTCGGCGGTTTCTGCACCAGCTTTCCCGACAGCGGGGAATCCCGGATTTTTATGACGTTTTCCGGAAGCGCTTCGAATGTATCGACGCTGGCGCATGAGCTCGGTCACGCGTTCCATCAGGAGGCCATGCTTCAAGTGCGGCAGCTGAACAGAGCCTACGCTATGAATGTCGCTGAAACAGCCTCGACCTTTGCGGAAATGATCGTCGCCGACGCCGCTTTGAAACAAGCGGAAACAAAGGATGAAAAGCTGTTCTTGCTTGAGGATAAAATTCAAAGAAGCGTAGCTATGTTTATGAATATTCATGCGAGATTTTTATTTGAAACGCGTTTTTATGAAGAGCGCAAGCAGGGCGTCGTTCCGGCTGAGAAACTGAATGAACTGATGGAAGCGGCGCAGAAAGAAGCGTTTTGCGATTCATTAGGGGAATACCACCCTCATTTCTGGGCGTCAAAACTGCATTTTCATATTACGGGAGTGCCGTTTTACAACTTTCCGTATACGTTCGGTTACTTATTTTCGCTTGGAATATATGCAAGAGCTCTTCGGGAAAAAGCGGATTTTGAAGAAAAATATATCGCGCTTTTGTGTGACACGGCTTCGATGACTGTTGAGGATTTGGCGATGAAGCACCTTGGAGCGGATCTGACGGAACGGTCGTTTTGGGAAGACGCGGTCCGCCTTGCTGTACAGGATGTGCAGGAATTTTTAGAGCTGACTGAATGA	MALKGLKETWDLNSIFEGGSRSEEFQQYIQELKKHLSAFQHAVEAFTVPAHADESRDLINLIDRFERSAIMIRQAGAFVGCLQAQNTHDQKANEWRARINQLSSDFKSALVTLDDTLARIDERVWEELLQKPELQDLTYVLNERRDRVKEKLSASEERLIEGLAVDGYHAWGDLYNAAVGRMKIPFEDKELSVGQAENMMAHPDRRIRRQVFKELNEAWKGEEELFGSTLNHLAGFRTEIYKARGWKSALEEPLAINRMKKETLDVMWQVITDHKKPLAEYLNRKASLLGLERLNWYDVDAPIGEAPKEYTFDEAANLIVSQFSTFGKKLSAFAEKAFRDRWIEAEDRSGKRVGGFCTSFPDSGESRIFMTFSGSASNVSTLAHELGHAFHQEAMLQVRQLNRAYAMNVAETASTFAEMIVADAALKQAETKDEKLFLLEDKIQRSVAMFMNIHARFLFETRFYEERKQGVVPAEKLNELMEAAQKEAFCDSLGEYHPHFWASKLHFHITGVPFYNFPYTFGYLFSLGIYARALREKADFEEKYIALLCDTASMTVEDLAMKHLGADLTERSFWEDAVRLAVQDVQEFLELTE	PGPT0020965_2183	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
D1-12_03101	843			hypothetical protein	ATGAACAGAAAAATTGCCATTGTAACCGGCGCGACGAGCGGATTCGGGCTGCTGACAGCGCTGAAGCTCGCCCGGTCCTATCACGTCATCGCAACAGCCAGACAGCCGGAGAAAGCTGAAATACTGAAAGAGGCCGCCGCTCAAGCGGGTGCATCCGATCATGTTACGGTCGTTTCTTTAGATGTGACAAATGAGCAGTCGGTGTCTGACTTCGGGAACACCATCAGCGGTTTCGGACCGATTGACCTGCTCGTCAATAACGCCGGCTCTGCGTACGGGGGGTTTATTGACGATGTGCTGATGGAACATTACAGACAGCAGTATGAAACAAATGTATTCGGTCTGATTCACGTCACAAAAACCGTGCTGCCTTATATGCGAAAACATGGCGGGGCGAAAATCTTCAATATCAGCAGTATCAGCGGACTGACCGGTTTCCCGGCTCTATCTCCGTACGTCTCTTCCAAATTCGCGGTTGAAGGATTTACAGAGTGTCTGCGCCTCGAACTGCTGCCTTTAGGAATTGATGCCGCTTTAATAGAACCGGGCTCCTATAAAACGTCTATTTGGGAAACGTCTCTCTCCAATCATCTTACGGCACCCGCCAAAGATTCGCCTTATTACCGCTATTATCAGCAAATCGAAGCTTACTTCAAAGCCAACGCATCCAAAAGCGGCGATCCTGATGACGTAGCGGAGCTGATTTATCAATTGGCACAAAGGAAACGGCTGAAGAAACTGCGGTATCCGATCGGCAGGGGCGTTAAGCTGGCATTGGCTTTCCGCTCACTCTTCTCGTGGTCCGCCTGGGAATCTGTTGTGAAGAAAAAGCTGTTCACTTAA	MNRKIAIVTGATSGFGLLTALKLARSYHVIATARQPEKAEILKEAAAQAGASDHVTVVSLDVTNEQSVSDFGNTISGFGPIDLLVNNAGSAYGGFIDDVLMEHYRQQYETNVFGLIHVTKTVLPYMRKHGGAKIFNISSISGLTGFPALSPYVSSKFAVEGFTECLRLELLPLGIDAALIEPGSYKTSIWETSLSNHLTAPAKDSPYYRYYQQIEAYFKANASKSGDPDDVAELIYQLAQRKRLKKLRYPIGRGVKLALAFRSLFSWSAWESVVKKKLFT				NA	NA	NA	NA	NA
D1-12_03102	465	mrgA	COG0783	Metalloregulation DNA-binding stress protein	ATGAATACACAAAACGCGAAAAAAACTGAAACTCTTGTTGAGAAATCAATGAACACACAATTATCAAACTGGTTTATCCTTTACTCTAAACTGCACCGCTTCCATTGGTATGTAAAAGGCCCTCATTTCTTTACGCTTCATGAAAAATTTGAAGAACTGTATAACGAAGCGGCGGAAACGGCGGATGCCATCGCAGAGCGGCTTCTGGCCATCGGCGGACAGCCTGCGGCGACTTTACACACTTACCTTGAACAAGCTTCCATTACGGATGAAGGCCAGGAAAAAACGGCTTCTGAAATGGTGGAATCACTGGTTCAAGACTATAAACAAATCAGCCGCGAATCAAAATTTGTCATCGGCATCGCCGAGGAACAAAATGACTCGTCAACTGCCGACCTGTTTGTCGGATTAGTTGAAGAAGCGGACAAGCACGTGTGGATGCTGTCAGCCTACTTGGGAGAATGA	MNTQNAKKTETLVEKSMNTQLSNWFILYSKLHRFHWYVKGPHFFTLHEKFEELYNEAAETADAIAERLLAIGGQPAATLHTYLEQASITDEGQEKTASEMVESLVQDYKQISRESKFVIGIAEEQNDSSTADLFVGLVEEADKHVWMLSAYLGE	PGPT0004055_3086	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
D1-12_03103	1359	htrB	COG0265	Serine protease Do-like HtrB	ATGAATGATCATCGAGATGACGGCAGAAGCCGCGATCAGTCAGATCTTTCACATACGGAACAAAACAGAAATGAACAGCAGCGGATCAGCCATCAGGAGCCGGAGCTGCTCGAAGGTCCCGTCTCGAAAGCGGAAAACGAGACGGCTGCCGGCGCGGAATTTGAAAAAACGGCTGCCGTGAAAAAAGAAAAAAAACGGAGAGCCGCTTGGCTGAGCCCGATTTTAGGCGGTATTATCGGCGGCGGCCTCGTGCTTGGCATTGTGCCGAACCTGCCGAGTGAGCAGCATAAGACAGAAGCCGTTTCTGATACGAAACAAGTTCAGTCTTCGAATTTTACGTCAACGCCTTTGAAAAATACCTCAAGCGTAGCGGATATGGTGGAAGACTTGGAGCCTGCGATTGTGGGAGTGTCCAACTACCAAGCTTCGCAAAGCAGCCAGTTCGGACTTGACGGCGGTTCAAGCTCTGAAACGGAAAGCGGCACGGGGTCAGGCGTCATCTTCAAAAAAGACGGCGAAAAAGCGTACATCATTACAAACAATCATGTCGTAGAAGGGGCGAACAAACTGTCGGTCACTCTTTACAATGGGAAAACCGAAACGGCAAAGCTTGTCGGAAAGGATGCCATCAGTGACTTGGCTGTATTGGAAATCAGCTCGTCCAATGTCAAAAAAGCGGCCAGCTTCGGGGATTCCTCCAAGCTCCGCATTGCCGATAAAGTAATTGCCATCGGCAACCCGCTCGGCCAGCAGTTTTCCGGCACCGTCACACAAGGTGTCATCAGCGGGCTGAACAGAACGGTAGACGCCGATACATCCCAAGGCACGGTGGAAATGAACGTGATTCAGACGGATGCGGCGATTAACCCCGGAAACAGCGGCGGCCCGTTAATCAACTCAAGCGGCCAGGTTATCGGGATCAACAGCATGAAAGTCAGTGAAAACGGCGTGGAGTCACTCGGCTTTGCCATTCCGAGCAATGATGTAGAACCGATAGTCGACCAGCTGCTTGCAAAAGGAAAAGTCGAGCGCCCGTTTTTAGGTGTGCAGATGATTGATATGTCGCAAGTGCCGGAAACCTATCAGGAAAACACGCTCGGACTGTTCGGCGACCAGCTGTCTAAGGGTGTTTACGTAAAAGAGGTACAATCCGGCTCACCGGCTGCGAAAGCGGGCATCAAATCAAATGACGTCATTGTACAATTGAACGGCAAAGATGTCGGCAGCAGCGCCGATATCAGACAGATCTTATATAACCAGCTGAAAATCGGCGATAAGACGACTGTTCAAGTGCTCAGAAGCGGAAGCAAAAAGACGCTGAACGTCACATTAACGAAACAAACCGAAAGCGCAAGCTGA	MNDHRDDGRSRDQSDLSHTEQNRNEQQRISHQEPELLEGPVSKAENETAAGAEFEKTAAVKKEKKRRAAWLSPILGGIIGGGLVLGIVPNLPSEQHKTEAVSDTKQVQSSNFTSTPLKNTSSVADMVEDLEPAIVGVSNYQASQSSQFGLDGGSSSETESGTGSGVIFKKDGEKAYIITNNHVVEGANKLSVTLYNGKTETAKLVGKDAISDLAVLEISSSNVKKAASFGDSSKLRIADKVIAIGNPLGQQFSGTVTQGVISGLNRTVDADTSQGTVEMNVIQTDAAINPGNSGGPLINSSGQVIGINSMKVSENGVESLGFAIPSNDVEPIVDQLLAKGKVERPFLGVQMIDMSQVPETYQENTLGLFGDQLSKGVYVKEVQSGSPAAKAGIKSNDVIVQLNGKDVGSSADIRQILYNQLKIGDKTTVQVLRSGSKKTLNVTLTKQTESAS	PGPT0015105_4363	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
D1-12_03104	678	cssR		Transcriptional regulatory protein CssR	TTGTCATACACCATTTATCTAGTTGAAGATGAGGATAACCTGAATGAACTGCTCACAAAATATTTAGAGAATGAAGGCTGGAACATTACATCTTTCACAAAAGGCGAAGATGCCAGAAAGCAGATGCAGCCGTCTCCCCACTTGTGGATTCTCGACATCATGCTTCCGGATACGGACGGCTATACATTGATAAAAGAAATAAAAGAAAAAGATCCCGATGTGCCCGTCATTTTCATTTCCGCGCGGGATGCCGATATTGACAGAGTCCTCGGGTTAGAGCTTGGAAGCAATGATTATATCGCCAAGCCTTTTTTGCCGAGAGAGCTCATTATACGGGTTCAGAAGCTGCTGGAGCTCGTGTATAAAGAACAGCCCGCCGCAAAGAAAACCGGCATCACCGTTTCTTCCTACAATGTGATCGAAGATGCCCGAGAGGTTTATGATGAAACCGGCAGCCTGGTCAATTTGACGTCTAAGGAATTTGATCTGCTGCTTTTATTTCTTCACCATAAAGGACACCCCTTTTCCAGGGAAGATATTCTGCTGAAAATATGGGGCCATGATTATTTCGGCACTGACCGGGTGGTCGATGATCTTGTGCGGAGGCTGCGGAAAAAAATGCCGGAGTTAAAGGTTGAGACCATTTACGGATTCGGCTACAGGATGATGACGTCATGA	MSYTIYLVEDEDNLNELLTKYLENEGWNITSFTKGEDARKQMQPSPHLWILDIMLPDTDGYTLIKEIKEKDPDVPVIFISARDADIDRVLGLELGSNDYIAKPFLPRELIIRVQKLLELVYKEQPAAKKTGITVSSYNVIEDAREVYDETGSLVNLTSKEFDLLLLFLHHKGHPFSREDILLKIWGHDYFGTDRVVDDLVRRLRKKMPELKVETIYGFGYRMMTS	PGPT0015125_108	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015125-cssR-K07770	NA	NA
D1-12_03105	1356	cssS		Sensor histidine kinase CssS	ATGAAAAATAAGCCGCTTGCTTTTCAAATATGGGTGGTCATCTCAGGCATCCTCTTAGCCATTTCGATTCTGCTGCTCGTGCTGTTCTCAAATACGCTGCGTAATTTTTTCACGGATGAAACGTATACGACCATTGAAAATGAACAGCATGTACTGACGGAGTACCGGCTGCCCGGATCGATCGAGCGTGGATATTACAGCGAGGATGCGACCGCTCCGACGACTTTCCGATCCGTTCAGCACGTTCTTCTGCCGGAACGGGAGGAATCGGCCAGTGACAAAGACTTGAACTACTTTTCTTCTTCCTTTATCCATAAGGTGTACAAGCTCGCGGGCCGCCAGCACAGCGTCACGAAACGATACAGCGCGGACATCAGCGGTGAAAAAGTATTTTTCGTCATTAAAAAAGGCCTCACCATTAACGGCCAGGATGCGATGATGCTGTCTTACGCCCTTGATTCTTATCGTGATGATCTGGCATTCACCCTGTTCAAGCAGCTGCTCTTTATCATTGCCGGCGTGATTTTGTTAAGCTGGATTCCGGCGATTTGGCTTGCCAAATATCTCTCGCGCCCGCTCGTTTCCTTAGAGAAGCATGTCAAACGGATTTCAAAACAGGATTGGGATGATCCGGTCATCGTCGACAGAAAAGACGAAATCGGAAAATTAGGCCATACCATTGAAGACATGCGGAGCAAGCTGGTACAAAAGGATGAAACGGAAAGAACGCTCCTGCAAAATATCTCTCATGATTTAAAAACGCCTGTCATGGTGATAAGGGGCTATACTCAATCAATAAAGGACGGGATTTTTCCTAAGGGGGATCTGGAAACCACAATTGATGTCATTGAAGGCGAAGCAGAAAAACTTGAGAAGAAAATTAAGGATTTATTATATTTAACGAAGCTTGATTATTTAATGAAGCAGCGGGTGCACCATGAGACATTTGACATTGTGAAGGTCACGGAAGAAGTCATTGAACGGCTCAAATGGGCCCGGAAGGAATTATCGTGGACCGTTGAAACAGAAGATGCATTAATGATGCCCGGTGATCCGGAACAATGGAGCAAACTTCTTGAAAACATTCTCGAAAATCAAATCCGCTATGCAGAAACGGCGATTCACATTCGGATCAGCCAAAATCAGCAGCAGATTGTCATGACGGTTAAAAATGACGGGCCTCCGATTGAGGATGAGATGCTATCCAGCTTGTACGAGCCTTTTAATAAAGGGAAGAAAGGCGAGTTCGGCATAGGACTCAGCATCGTAAAACGGATTTTAACCCTGCATAAAGCATCAATTTCAATTGAAAATGGCCAATCGGGTGTAATCTACCGAATTATCGTACCAAAGTAG	MKNKPLAFQIWVVISGILLAISILLLVLFSNTLRNFFTDETYTTIENEQHVLTEYRLPGSIERGYYSEDATAPTTFRSVQHVLLPEREESASDKDLNYFSSSFIHKVYKLAGRQHSVTKRYSADISGEKVFFVIKKGLTINGQDAMMLSYALDSYRDDLAFTLFKQLLFIIAGVILLSWIPAIWLAKYLSRPLVSLEKHVKRISKQDWDDPVIVDRKDEIGKLGHTIEDMRSKLVQKDETERTLLQNISHDLKTPVMVIRGYTQSIKDGIFPKGDLETTIDVIEGEAEKLEKKIKDLLYLTKLDYLMKQRVHHETFDIVKVTEEVIERLKWARKELSWTVETEDALMMPGDPEQWSKLLENILENQIRYAETAIHIRISQNQQQIVMTVKNDGPPIEDEMLSSLYEPFNKGKKGEFGIGLSIVKRILTLHKASISIENGQSGVIYRIIVPK	PGPT0015120_93	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015120-cssS-K07650	NA	NA
D1-12_03106	165	yuzO		putative protein YuzO	ATGAAAGAATTAGATGAAATGATCAGCCGCTTGCGAAACAGAGGAATTAAAGTCGAAAAGGTGAAATATCCGAAAAAGACAATTTGTGAAAAGAAATGGGTTCATCAATGCCAAAAACCGCTGAAAACAAACTACAGAGATTTTAACGGCTATTCCTTCACATAA	MKELDEMISRLRNRGIKVEKVKYPKKTICEKKWVHQCQKPLKTNYRDFNGYSFT				NA	NA	NA	NA	NA
D1-12_03107	876			hypothetical protein	TTGAAGGAAAAAGAAAAGCTGATCATTGAAGCAGCAATTAAACTGTTTGCCCGAAAAGGGTACAAATCTACATCGGTTCAGGAAATCGCCGATGAATGCAAAATCTCAAAAGGCGCTTTTTATCTATACTTTCCTTCCAAAGAAGCACTGCTTCTATCCATGCTGAATTACTACTATGATAAAACGTTTACCCGAATCACGACGATCCAAACGGAGGGTGACAGTCCGAGAGCCGCTTATCAAAAACAGCTTGCGGTGTTTTACGAATCGATTCTCACCCATCAGGATTTTATTACCATGCAGATGAAAGACGGTTCGCTTCCTTATACCGAAGAAGCGGCGCAGTGCGGAAAGAGAATCCGCCGGTCGATCCTGCAGTTTCATATCGACAGTCTTCTTGCTATTTACGGAGAAAAAGCTGAACCATACACAGCCGAGCTTTGTTTTTTAATAGAAGGAATCAGTCAGATGTATCTTGAATATCTCATTCTGACCGGCCGGTCCGTACAGCCTTCGCTTTTGGCAAATACCGTGATTCACAGAATTGATGACATCGTAAACGGAATGGCGGACAGACATGATGAAGCGTTTATTTCTCTTGATGAGGCAAGCTCACTGTTTGGGCCCCTTCATAACGGGCAGCCCGATCCTTTAAGCCAATCGATCTTGCAGACCCTCCGCACGCGCATCGGCACGATGGACAAGGCGCAAGCATCCGAATTCACCGAGAGCTTGGATATTCTGGAAGCGGAAATGAAGAAAAAGTCGCCGAAACCGGCAATCATCAAAGGAATGATTTTGAATTTGAAGGAATCCGACCTGCTGGCTGAAGATGCAGAACAGCTCAGATTTTTACTGAAACAGCAGTTTATTTAG	MKEKEKLIIEAAIKLFARKGYKSTSVQEIADECKISKGAFYLYFPSKEALLLSMLNYYYDKTFTRITTIQTEGDSPRAAYQKQLAVFYESILTHQDFITMQMKDGSLPYTEEAAQCGKRIRRSILQFHIDSLLAIYGEKAEPYTAELCFLIEGISQMYLEYLILTGRSVQPSLLANTVIHRIDDIVNGMADRHDEAFISLDEASSLFGPLHNGQPDPLSQSILQTLRTRIGTMDKAQASEFTESLDILEAEMKKKSPKPAIIKGMILNLKESDLLAEDAEQLRFLLKQQFI				NA	NA	NA	NA	NA
D1-12_03108	1389	fumC		Fumarate hydratase class II	ATGGACTACAGAATTGAAAAAGACACCATGGGAGAAGTTAAAGTTCCGGCAGATAAATTTTGGGGCGCTCAGACACAGCGCAGCAAAGAGAACTTCAAAATCGGTTCAGAGAAAATGCCTCAGCGTGTTGTGAAGGCGTTTGCAATATTGAAAAGAAGCACAGCGATCGCCAACGAACGCCTCGGCAACTTAGAGTCTGAAAAAGCACAGGCGATTGCCGCTGTATGTGACGATGTTTTAAACGGCAAATACGACGATAACTTTCCGCTCGTTGTCTGGCAGACGGGAAGCGGCACGCAAAGCAACATGAACATGAATGAAGTGGTGGCCAACCGCGCGACTGCTTTATTGAAAGAAAAAAATTCCGAGCTGAAGATTCATCCGAATGATGACGTTAACCGCAGCCAAAGCTCAAACGATACATTCCCGACGGCGATGCACGTTGCGGCGGTTCTTGCTGTATATGAGCAGCTCGTTCCGGCGCTTGATCAGCTGCGCGCGACGCTTGATGAAAAAGCGAAAGCTTATCAGGATATTGTGAAAATCGGACGCACGCATTTGCAGGACGCCACTCCGCTGACGCTCGGACAGGAAATCAGCGGCTGGGTATACATGCTTGACCGATCGAAAGAAATGATTCTTGAGTCAACGGAAAAAATCCGCGCGCTTGCCATCGGAGGCACGGCAGTCGGCACGGGAATCAACGCCCATCCGCAGTTCGGTGAATTCGTCGCGGAAGAAATCACAAAAGTAACGGGGCAGACATTCAAGAGTTCGCCTAACAAATTCCATGCGCTCACAAGCCATGATGAAATCACTTACGTTCACGGCGCGTTAAAAGCATTGGCTGCCGACCTGATGAAGATTGCCAACGATGTCAGATGGCTGGCCAGCGGCCCGCGCTGCGGAATCGGCGAAATCGTCATTCCTGAAAATGAGCCGGGAAGCTCTATCATGCCGGGCAAAGTCAACCCGACGCAAAGTGAGGCGCTGACAATGATCGCCGCGCAAGTGATGGGAAATGACGCGACAATCGGATTTGCGGCCAGCCAAGGAAACTTCGAGCTGAATGTCTTCAAACCGGTTATTATTTATAACTTCCTGCAGACCGTGCAGCTGCTCAGTGACGGAATGAATTCCTTCCATGACAAATGCGCTGTCGGTATTGAGCCGAACCAAGAGACGATTCAGGAAAATCTCTCTAACTCATTAATGCTTGTTACGGCGCTTAACCCGCACATCGGTTATGAAAACGCCGCGAAAATCGCCAAGCTTGCCCACAAAGAAGGCCTGACGCTGAAAGAAGCGGCATTACAGCTGAACCTTCTGACAGAAGAACAATTTAATGAAATGGTGCGTCCGGAAGATATGGTGCACCCGAAAGCATAA	MDYRIEKDTMGEVKVPADKFWGAQTQRSKENFKIGSEKMPQRVVKAFAILKRSTAIANERLGNLESEKAQAIAAVCDDVLNGKYDDNFPLVVWQTGSGTQSNMNMNEVVANRATALLKEKNSELKIHPNDDVNRSQSSNDTFPTAMHVAAVLAVYEQLVPALDQLRATLDEKAKAYQDIVKIGRTHLQDATPLTLGQEISGWVYMLDRSKEMILESTEKIRALAIGGTAVGTGINAHPQFGEFVAEEITKVTGQTFKSSPNKFHALTSHDEITYVHGALKALAADLMKIANDVRWLASGPRCGIGEIVIPENEPGSSIMPGKVNPTQSEALTMIAAQVMGNDATIGFAASQGNFELNVFKPVIIYNFLQTVQLLSDGMNSFHDKCAVGIEPNQETIQENLSNSLMLVTALNPHIGYENAAKIAKLAHKEGLTLKEAALQLNLLTEEQFNEMVRPEDMVHPKA	PGPT0001650_3572	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
D1-12_03109	186			hypothetical protein	GTGGCACAAGTCAGACTGGCAGGAAATGCCGAAGAAATTGAACAGCTCATCAAATCATTTGAAGCGCATTACGAAGTGGCTTACACGTCGAAAGAATACCGTAAAACAAATCCGAAGTATAAATACTCAAAGGATTCGCGCGTCTATCTTGAGCTGAAATTAAAAACGGCCAAGGCCGAAAAATAA	MAQVRLAGNAEEIEQLIKSFEAHYEVAYTSKEYRKTNPKYKYSKDSRVYLELKLKTAKAEK				NA	NA	NA	NA	NA
D1-12_03110	1443	gerAA		Spore germination protein A1	ATGACGCAATCGGAATTCAAGGAATACATACACGTTAATCTGGCACTGGTGCTTCCCCACGTAGAGCAGAATGATGACCTGGTTCAAAATAAAAAGATGCTTCCGAACGGGCTTGTTTTTTATTATATGTATCTGAGTGAAATGAACGACGAAGACAAAATAAAAGAGGCGATGGAAACACTGCTTCGGGAGGAAGACACTCTGACGCTGGATACGGTGGCGAAACGTCTTGATAAGATCGACGCCCGTCCCGTCTTTACGTCGAAGGAAGCCGTCATCTCCATTCTGCGGGGAAAATGCGCCGTGTTTATTAACGGACTTGACAGCGTATACATTTTGTCCACGGGAAAAAGAGAAAAAAGAAGCGTGAATGAACCCACATCCGAAAAGGTCGTAAGAGGTCCGAAAGTCGCCTTCATAGAAGATTCTGATACAAACGTCGCCATGATCAGGCAGCGCACGAACCATCCGAAGCTGAAAACGAAAAAGGTTCCGATCGGAGAAAATAAGTTAAAATACGCTACTGTCATGTACATAGATGATGAGGCGGACCCGTCTGTCGTCAGCGATGTTGTAAAGCGCCTCAGCGAAGTGAAGATGGACGACATCCAGGATTCCGGAACGCTTGAGGAGCTTATTGAGGATAATAAGTATTCGCCCTTTCCGCAAATACAAAATACGGAACGGCCTGATAAAGTCTCTTCCGCCTTGTTCAACGGCCGCGTCGCCATCCTTGTCGACAACTCGCCGTTTGCGCTGGTGGTTCCGGCTTCTTTAGGAATTTTAATGCAGTCTCCCGATGATTATTATGAACGGTGGATTTCCGCCTCGCTCATCCGGGCGCTGCGGTTTACGTCTATTTTTATTACGCTGTTTTTTTCGTCCATTTATATCGCCCTCGTTTCGTTTCACCAAGGGCTGCTGCCGACGTCGCTTGCAGTCACCATCGCGGCGAACAGAGAAAACGTTCCCTTCCCGCCTATCATTGAAGCGATGGTAATGGAAATTACGATAGAGCTGCTGAGAGAAGCGGGCTTGAGGCTTCCCAGCCCGCTCGGCCAGACGATCGGATTGGTGGGCGGAGTTGTCATCGGCCAAGCGGCCGTTGAAGCGAATATTGTCAGCTCCATCATGGTCATCGTGGTCAGCATTGTCGCGCTCGCTTCATTTACGGTGCCGCAGTACGGGATGGGTCTGTCGTTCCGTGTGCTCCGTTTCATTTCGATGTTTACCGCGGCAGCTTTCGGGCTGTACGGCATGATTTTATTTATGCTGGCGATCTACACTCATTTATCGAGACAGCGAAGCTTCGGTTCTCCGTATTTCTCGCCGAATGGATTTTTCAGCTTAAAAAACGCAAACGACTCTATTCTCCGTCTCCCTATTAAAAATCAACCAAAAGAGGCGAAAAACGTAAATGAGCCAGAAAACAACTCACAATAA	MTQSEFKEYIHVNLALVLPHVEQNDDLVQNKKMLPNGLVFYYMYLSEMNDEDKIKEAMETLLREEDTLTLDTVAKRLDKIDARPVFTSKEAVISILRGKCAVFINGLDSVYILSTGKREKRSVNEPTSEKVVRGPKVAFIEDSDTNVAMIRQRTNHPKLKTKKVPIGENKLKYATVMYIDDEADPSVVSDVVKRLSEVKMDDIQDSGTLEELIEDNKYSPFPQIQNTERPDKVSSALFNGRVAILVDNSPFALVVPASLGILMQSPDDYYERWISASLIRALRFTSIFITLFFSSIYIALVSFHQGLLPTSLAVTIAANRENVPFPPIIEAMVMEITIELLREAGLRLPSPLGQTIGLVGGVVIGQAAVEANIVSSIMVIVVSIVALASFTVPQYGMGLSFRVLRFISMFTAAAFGLYGMILFMLAIYTHLSRQRSFGSPYFSPNGFFSLKNANDSILRLPIKNQPKEAKNVNEPENNSQ	PGPT0025010_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025010-gerAA-K06288	NA	NA
D1-12_03111	1101	gerAB		Spore germination protein A2	ATGAGCCAGAAAACAACTCACAATAAGCTTACAAGCTATCAAGGGACAGCGTTGATTTCAAACACGATGCTCGGCGCGGGACTCCTCACCATGCCGCGGGCGCTGTCATCAAGGGCAAATTCTCCGGACGGCTGGATCGCGTTATGTCTGGAAGGCGTCATCTTTATCTTTTTGATTTATCTCAATACGCTCATTATGAAAAAGCATCAGTACGGATCATTATTTGATTATATGAATGAAGGACTCGGCAAATGGGCGGGAAATATCGTCAATCTTATGATCTGTCTCTATTTTATAGGAGTCGCCAGCTTCGAAGCCCGGGCGATGGCGGAAATGGTCAAGTTTTTTTTATTGGAAAGAACGCCCGTGCCGGTCACGCTGTTTATCTTTATCGCCTGTTCCGTTTATTTAATTATCGGCGGCATGAGCGATATCGGCAGGCTCTTTCCTTTCTATTTAACGATTACGATCATTATTTTGCTGGTGGTGTTTTCTTTCAGCTTTAAAATATTTGATCTGGACAACCTGCGGCCGGTGCTCGGGCAGGGGTTTTCTCCCGTTATGGCTTCCTTGACCGTCGTTTCTGTTTCCTTCTTGGGAATTGAGATTATGCTGTTTCTCCCCGAGTACCTCAAAAATAAAAAGCACACATTCCGCGTATCGGCCATGGGCTTTGGCATCCCGATTATTTTATACATCATTACCTACGTACTCGTCGTCGGCGCCTTAACCACCCAAGATGTCAAAACAATGATCTGGCCTACGATCGCGCTCTTTCAATCATTTGAAATCAAAGGGCTTTTTATTGAAAGGTTCGAGTCCTTTTTGCTTGTTGTCTGGATCATCCAATTTTTCGCCACCTATGTCTCGTACGGGTATTTCGCGACATCAGCTCTTAATAAAATTTTCGGGCTGAAGCAGAAAAAAGGGATCATCTTCGTAGGGATCGCGACATTCTTCGGATCATTGATGCCAAAAGACGGCAACAAGCTGTTGATGTTCAGTGATATTCTCGGCTATATCTTCTTGGTTTTCTTTTTGCTGCCTTTACTGATGTTTGGAGTCGTCGCTGTGAAAAGGAAGGTGAAAAAAGCGCAATGA	MSQKTTHNKLTSYQGTALISNTMLGAGLLTMPRALSSRANSPDGWIALCLEGVIFIFLIYLNTLIMKKHQYGSLFDYMNEGLGKWAGNIVNLMICLYFIGVASFEARAMAEMVKFFLLERTPVPVTLFIFIACSVYLIIGGMSDIGRLFPFYLTITIIILLVVFSFSFKIFDLDNLRPVLGQGFSPVMASLTVVSVSFLGIEIMLFLPEYLKNKKHTFRVSAMGFGIPIILYIITYVLVVGALTTQDVKTMIWPTIALFQSFEIKGLFIERFESFLLVVWIIQFFATYVSYGYFATSALNKIFGLKQKKGIIFVGIATFFGSLMPKDGNKLLMFSDILGYIFLVFFLLPLLMFGVVAVKRKVKKAQ	PGPT0025015_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025015-gerAB-K06289	NA	NA
D1-12_03112	1113	gerAC		Spore germination protein A3	ATGAAGAAATACATCGTAATCATGCTTTGCACATTGCTTTTGGCCGGGTGCTGGGACAGCCGCAATATAGAAGACTTGAGCCTCGTTATCGGGGTCGGGCTCGATAAACCCGAGGAAGAAAATGTGGAAGTGACACAGCAGATTCTGATCCCGCAAAAAGCAAGTTCCCAGCAGTCGTCGTCAGGCGATACGACAAAAGTAACGTCCACTCCCGGGGAAACCGTCCATCAAGCATTAAGAACGGCATCGTTAAAAAATCACCCCGCATTCTCCCAGCACTTGCGTATCATGCTGTTTTCCGAAGTGCTGTTAAAGGATAACATTCCGCTTGACGCATTGATGAACCAATTTATCAGAGACAACGGTACGAGAAGAAGCTGCAATGTGATGACGGTGCCGGATAAAACGAAAGATATTTTCAAAATCAGTGACCAGGGAGAACCTGCGTCAAATACGATCTATGACTTAACGGAGAATAATTCGGTCACCATCCGGATGATGGAGCCCGTGACATTGGGGGAAATATCCGAGAAAATCGCCAAAGGCGAGACCTTTGCCCTTCCTCAAGTGCGCCAAGTGGGCAGCAGACTGGAAATCTGGGGCGCTACCATTATTAAAAATAAATTCTGGTATGCGAATTTAACGCCTTTACAAGTCCAGAATATGAACCTGTTCACAGGCACAGTAAAGGGGGGCGTCACGTTTGCAAAGCATGACAATCATTATTTATCCTTCGAAGTATTTTCCAGCAAATATAATGTGAAAACACAATATAAACACGGAAAATTCAAGTTTATCGTCACCCGGTTTGTTGAAGGCCGTCTGTCTGAGGATTGGAATCCGAAAGAAGATTCCTTCAAGGAGTCCTATATAAATGAAATCAAAAACGCGGTAAAACACAGCATTCATTCAGATGTCATGGCATTCATTGATTACATGCAGCATGAGTTGAAAGTGGATATTACCGGGTTAGGCGATCAAGTCCGGATTCATTATCCCGATAAATGGAAAAAGATATCCTCTGACTGGGACCATCACTTCAGTGAATCGGATATTGAATACAAAGTCAAAGTCGCCATCAGGGATTTCGGAACAAAGGGAATGTCCCAATGA	MKKYIVIMLCTLLLAGCWDSRNIEDLSLVIGVGLDKPEEENVEVTQQILIPQKASSQQSSSGDTTKVTSTPGETVHQALRTASLKNHPAFSQHLRIMLFSEVLLKDNIPLDALMNQFIRDNGTRRSCNVMTVPDKTKDIFKISDQGEPASNTIYDLTENNSVTIRMMEPVTLGEISEKIAKGETFALPQVRQVGSRLEIWGATIIKNKFWYANLTPLQVQNMNLFTGTVKGGVTFAKHDNHYLSFEVFSSKYNVKTQYKHGKFKFIVTRFVEGRLSEDWNPKEDSFKESYINEIKNAVKHSIHSDVMAFIDYMQHELKVDITGLGDQVRIHYPDKWKKISSDWDHHFSESDIEYKVKVAIRDFGTKGMSQ	PGPT0025020_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025020-gerAC-K06290	NA	NA
D1-12_03113	633	liaR_2	COG2197	Transcriptional regulatory protein LiaR	GTGATTCGAGTGTTACTGATTGATGATCATGAAATGGTCAGGATGGGTCTGGCCGCATTTTTAGAAGCACAGCCGGACATTGAAGTCGCCGGTGAAGCATCAGACGGGCAGCAGGGCGTCGATCTGGCCGCAGAGCTTTTGCCGGATGTGATTTTAATGGACCTTGTCATGGACGGCATGGACGGCATCGAAGCGACAAAACAGATCTGCGCGAAACTCAATGACCCGAAAATCATCGTGCTGACGAGCTTTATTGATGACGACAAAGTGTATCCGGTGATCGAAGCGGGAGCGCTCAGCTATTTGCTGAAAACGTCCAAGGCGGCAGAAATAGCCGAAGCCATCAGAGCGGCTGCCAAGGGCGAACCGAAGCTTGAATCGAAGGTGGCGGGAAAAGTGCTGTCAAGGCTGCGCCATTCAGAGAATCAGCTTCCGCATGAAACGCTGACAAAAAGAGAACTGGAAATCCTCTGTCTCGTCGCGGAAGGCAAGACGAATAAAGAGATTGGTGAAGAGCTGTTCATTACGATTAAAACGGTAAAAACCCACATTACGAATATATTGTCAAAGCTTGATGTCAGTGACCGCACGCAGGCAGCCGTATATGCCCACCGCAATCATCTCGTGACATAA	MIRVLLIDDHEMVRMGLAAFLEAQPDIEVAGEASDGQQGVDLAAELLPDVILMDLVMDGMDGIEATKQICAKLNDPKIIVLTSFIDDDKVYPVIEAGALSYLLKTSKAAEIAEAIRAAAKGEPKLESKVAGKVLSRLRHSENQLPHETLTKRELEILCLVAEGKTNKEIGEELFITIKTVKTHITNILSKLDVSDRTQAAVYAHRNHLVT	PGPT0014870_437	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
D1-12_03114	1083	liaS	COG4585	Sensor histidine kinase LiaS	ATGAGGAAAAAATTACTCGCCAATATTCAGTGGCGCGCCATGCGGATGACCGCGGGACTCAGTCTGCTCCTTTGCGCGGTGTTTATTACGCTGATGCTGCTGTATTACGGGCTTGACCCGATGCTGCTGTTTTCTTCCGGCTGGTTCGGTATTCCGTTTGTGGTCATCCTGCTTTTGGCGTCTCTTTCGGCGGGATTGATTTCCGGTTATGTATACGGCGGCCGCCTGAAAACAAGAATGGATACACTGATTGAAGCGGTTTTGAAATTTGAAAACGGTAATTTTGCTTATCGGGTGCCGCCGCTCGGCGATGATGAAATCGGTCTGGCGGCAGACCAGCTCAACGAAATGGCCAAGCGGGTCGAGCTCCAGGTCACATCGCTGCAAAAGCTCTCCAACGAACGGGCGGAATGGCAGGATCAAATGAAAAAATCGGTCATCACTGAAGAACGCCAGCGGCTGGCGCGCGATCTGCACGATGCCGTCAGCCAGCAGCTCTTTGCCATTTCTATGATGACATCCGCCGTTTTAGAGCAGGTGAAAGATGCGGATGACAAAATCGTCAAACGGATTCGCATGGTTGAACATATGGCGGGGGAAGCGCAAAACGAGATGAGAGCGCTGCTATTGCATTTGCGGCCCGTCACTTTAGAAGGAAAAGGCTTAAAAGAAGGGCTGATTGAGCTGTTAAAAGAGTTCAAAGCGAAGCAGCCGCTGGATATTGAGTGGGACATCAGCGATACGGGTGTGTCAAAAGGCGTTGAAGACCATCTGTTCCGCATCGTGCAGGAGGCGCTTTCCAACGTTTTCAGACATTCAAAGGCGACCAAGGTCACCGTCAGGCTCGGCGCGAAACATCAAAAGCTGCAGCTTAAAGTCATTGATAATGGGGCGGGTTTTACGATGGATCAAGTGAAAGCATCCTCATACGGCCTGCATTCCATCAAGGAAAGAGCGAGTGAAATCGGCGGCATAGCGGAAATTATCTCCGTAAAGGGAAAAGGCACGCAGATCGACGTGAAAGTCCCGATTTATCAGAAAACAAAAGGAGAGAACGACAGTGATTCGAGTGTTACTGATTGA	MRKKLLANIQWRAMRMTAGLSLLLCAVFITLMLLYYGLDPMLLFSSGWFGIPFVVILLLASLSAGLISGYVYGGRLKTRMDTLIEAVLKFENGNFAYRVPPLGDDEIGLAADQLNEMAKRVELQVTSLQKLSNERAEWQDQMKKSVITEERQRLARDLHDAVSQQLFAISMMTSAVLEQVKDADDKIVKRIRMVEHMAGEAQNEMRALLLHLRPVTLEGKGLKEGLIELLKEFKAKQPLDIEWDISDTGVSKGVEDHLFRIVQEALSNVFRHSKATKVTVRLGAKHQKLQLKVIDNGAGFTMDQVKASSYGLHSIKERASEIGGIAEIISVKGKGTQIDVKVPIYQKTKGENDSDSSVTD	PGPT0014865_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014865-liaS-K11617	NA	NA
D1-12_03115	732	liaF	COG4758	Protein LiaF	ATGGCAAAAAAACAGATTCTCGGACTTATCATCGCCTTATTAGGCGTCAGCATGTTTTTGCGTATTATCGGCATCGGCGACTTCTTGTTTTGGCCGCTCTTTTTTCTGATCACAGGTTATATTTTTAATAAATATTCCCGCGGCTGGCTCGGCTCCGTCCTGTATATCTTCGCCGCTTTTTTATTTTTGAGAAACCTGTTCAGCGCCACCTTTAACCTGTTCGGCTATGCCTTCGCCGCCTTTCTCATCTACGCGGGCTACAGGCTCCTGAAAGGAAAGCGCGTGTATGAACATAAAGAGAAGAAAATCAATCTTGAAAAAGAAGAGCAGCCAAAGCCTTCCGCCCAGACGGAAAGCAGGCAGCCGGACCTCCGCAGCTTTTTTATCGGCGAGCTCCGGATGATGAAGGACCCGTTTGAGCTGAATGATTTAAATGTTTCCGGATTCATCGGCGATGTGAAAATTGATTTGTCAAAAGCGATGATTCCCGAAGGAGAAAGTACGATGACCATCAGCGGTGTCATCGGCAATGTTGATGTGTACGTCCCGCCGGATATCGAAGTGTCCGTCAGTTCATCGGCTTTTATCGGCGATATGAACCTGCTCGGCTCTAAGAAAAGCGGCATGAGCCCGAATCTGTATAAAGTATCGTCTGAGTACGGCGACTCGCCGCGGCGGATTAAAATTTCAATTTCGTTATTCATCGGCGATGTGGATGTGAAGTATTTATGA	MAKKQILGLIIALLGVSMFLRIIGIGDFLFWPLFFLITGYIFNKYSRGWLGSVLYIFAAFLFLRNLFSATFNLFGYAFAAFLIYAGYRLLKGKRVYEHKEKKINLEKEEQPKPSAQTESRQPDLRSFFIGELRMMKDPFELNDLNVSGFIGDVKIDLSKAMIPEGESTMTISGVIGNVDVYVPPDIEVSVSSSAFIGDMNLLGSKKSGMSPNLYKVSSEYGDSPRRIKISISLFIGDVDVKYL	PGPT0028815_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028815-liaF-K11622	NA	NA
D1-12_03116	870	liaG	COG3595	Protein LiaG	ATGAAGCGTAAGATTGCCAAAGGACTGATGGCGGCGTCCGTTCTGATCTGCTGTCTGTTTTTGGTGAAAGAAGTGTTTGCCGGGCGTTTTTTTCCGCTTTACGAAACAGAAGCGGAATCGGCAAGCATACCGCCGCGTGCCGTCAACAGCCTGTCGGTTTCATCGGAACAGACGGATGTGAAAATCATCGCGGAAGCGCGGAATGATATCGCGGCAAACATGACGGGACCGGCGGGGAAAATGTTTGTCCAAAACAGGGGAAAGATCCTCAATCTTAAAGCGAAGGAGAAAGGGTTCCAATTTCTGAATCTCTTTCAGCGCCCTCTGCTGATTGTCCGCATTCCGTATGATTATCATCGGGACATCACCGTCCATACATCAAGCGGCAGCATTGCCGTCGACGGAAACAAGGGGCTGTCTCTTGCCCACCTCGGCGTCCGTTCTGTAAGCGGGAACATGTCGCTGAAGCACGTGAAGACGGAGGTGTTTGAAGCGAAGGGGCTGTCGGGCAATCTCACAGCAGCAGGCCTTGCGGCAAAAACGGGGGATGTCCGCTTATCCTCGGGACATGTCGGGCTTCAACATGTGGCGGGGGCCCTTGACGTGCGGGTCGCTTCCGGCAGTGTCGACGCCTCGCTTGAGACGGCGGATGCTCCCGTATCCGTCAGGCTTGCGAGCGGCAGCGCAGCGATTACCCTGCCGAAAGACGGAAGTTTTACGGTGAACGCCGAGACGGCAAGCGGAAGGATTCAGCCGTCTTATTCCTTTGAGAAAACGAGTAAGGAAGGCGGGGCATTTACCGGCATGAAAGGCAGCGGCGCCAGGCCGATTGATATAAAGGTGACGAGCGGCAATATTGCACTGCAATAG	MKRKIAKGLMAASVLICCLFLVKEVFAGRFFPLYETEAESASIPPRAVNSLSVSSEQTDVKIIAEARNDIAANMTGPAGKMFVQNRGKILNLKAKEKGFQFLNLFQRPLLIVRIPYDYHRDITVHTSSGSIAVDGNKGLSLAHLGVRSVSGNMSLKHVKTEVFEAKGLSGNLTAAGLAAKTGDVRLSSGHVGLQHVAGALDVRVASGSVDASLETADAPVSVRLASGSAAITLPKDGSFTVNAETASGRIQPSYSFEKTSKEGGAFTGMKGSGARPIDIKVTSGNIALQ	PGPT0028810_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028810-liaG-K11621	NA	NA
D1-12_03117	678	liaH	COG1842	Protein LiaH	ATGGTCTTAAAAAGAATAAGAAATATGTTCGTCGCATCTGTTAACGAAGGGCTTGATAAATTAGAAAATCCGAAAGTCATGCTGAATCAATATGTGCGTGATATGGAAAGTGACATCGCCAAGGCGAAACAAACGATTGTCAAACAGCACACGATCGTTCATCAGTTTAAGAAAAAACAGGAAGACGCCTCCGAAACGGCGGCAAAACGGAAAAACCAGGCTCAGCTTGCTTTTGACGCCGGGGAAGAGGAGCTAGCGAAAAAGGCGCTGACTGAAATGAAATACCTTGAGGGAAAAGCGGCCGAACATGAAAAAGCGTATGAGCAGGCGAAAACACAGCTGGCAGAGCTGAAAGAGCAGCTGGAAACTTTAGAAACGCGCCTCCGCGACGTAAAGGATAAAAAACAGGCGCTCATCGCCCGCGCGAACGCGGCAAATGCGAAGGAACATATGAACGCTTCTTTCGACAAAATTGACAGCGAAAGCGCCTACAGAGAGTTCCTTCGAATGGAAAGCCGCATTGAAGAAATGGAAGTCCGCGTCAAATACGGCACTTCAGCTGAGGCGAACACAGAATACAGCCGCTCCCAATATTCAGATGAGGTGGAAGCTGAGATTGAAAAAATGCGCTCGCTTTCTCTGGAAAAAACAGAGCGTCAAAAAGCGGCTCATGAATAA	MVLKRIRNMFVASVNEGLDKLENPKVMLNQYVRDMESDIAKAKQTIVKQHTIVHQFKKKQEDASETAAKRKNQAQLAFDAGEEELAKKALTEMKYLEGKAAEHEKAYEQAKTQLAELKEQLETLETRLRDVKDKKQALIARANAANAKEHMNASFDKIDSESAYREFLRMESRIEEMEVRVKYGTSAEANTEYSRSQYSDEVEAEIEKMRSLSLEKTERQKAAHE	PGPT0028805_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028805-liaH-K11620	NA	NA
D1-12_03118	381	liaI		Protein LiaI	ATGAATATAAATGGTAAAACGGCAGGCGGCTTTCTGCTGATTGTGTTCGGACTTTCTGTCTTTTTCGGAGGAGGCCATTTCGCATTTATCATCCCGCTGGCGATCGGAGGCCTGATGCTTTACTGGGGAATCAAACGTTTTTCAAAAGGCCGGGCGGTATCGGGTATCATCGCGGGCGTCATCGGAGCTATGATTCTCGTCGGTTCTCTTCCATTTATCGTTGCGATCGGACTGGCCGGCGCCATGGTGTATTTCGGGTGGAAGATGATGAAGCAGGGCGGCTCAGACACCGCTTCCCGCCAGTATGAACCGGAAGCGGCATCACCGGGCTATCAATCCGGATTTGACTCTGAGTGGGAAGAATTTCTGAAGAAAAAATAA	MNINGKTAGGFLLIVFGLSVFFGGGHFAFIIPLAIGGLMLYWGIKRFSKGRAVSGIIAGVIGAMILVGSLPFIVAIGLAGAMVYFGWKMMKQGGSDTASRQYEPEAASPGYQSGFDSEWEEFLKKK	PGPT0028800_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028800-liaI-K11619	NA	NA
D1-12_03119	1269			hypothetical protein	ATGGATACATATAATAAGAGCGAGAGCATCTGGAATAAAAATTTCACCCTTCTGTTTATCTCAAGGCTGGTTAAATTGTCAGGCGACGGTTTTGCCTTTAATTCCATTCTGTGGTTTTTGATTTTTGACGGGGAAGGCGCGATCGGCACGTCCCTGCTCATTGCGGTCACGTTCCTTCCGGAGGCGATGCTGGCGCCGATTACCGGGCCTTTTATGAAGCAGCATACGCTGAAATTCTGGATGTATTTCTCCGACCTCACGCGCGCGGCGGTTGTGCTGATTATTCCGATCTGTTATTTTAACGGTTTTTCTCCTTTATGGTTTGTCATGCTTCTCATGATTGTGCATTCAGCCACGGGAGCCGCTTATAATCCTGCATCCATCTCGTTAATCCCCAATATTGTCAGAGAAAACAGCCTGCAGAAAGCGAATGCGGTCATCCAGTCATCAGGCCAGATCGTCAGGCTTGCCGCCATTACGCTGAGCGGGGTGTTCTTAACATTTATCAGTCCCGCTTATTCTTTGTTTATCGCTCTTATATTCTATCTTCTATCAGGTTTTCTCGTACTCTTTATGTCATACCAAGTCCGGCATGCCAAACAGGATACCGTCGCCGTCAGACAGCGCGGGACGTATTTCGGAAGGCTCAAACGGGGTTTCGTTCTTGTCAGGAAACACCAGATTTTATACCCGCTCGCCATCTATTGTATCTTCATGAATTTTGCGGCCGCTCCGTGGGAGGCGCTCTCTGCCGTTTATGTCGCCGAAGATTTAAACATGCCGCCGATCATCTACTCGCTTTTGAAAGCGACAGGAACGGGCGGAGCCTTTTTAATGGGTTTTATTTTGGCTAAGGTGAAGGTGAACAAATACGGTCTCCTGTTTGTGTCAGCGGGAATCATAGAAGGAGCGGCATTTTTCATTACCGGCCTCAACACTTTTCTGCCGCTCGTCTTCCTCGCCGCGTTTGCGTTCGGATCTGCCGTCAGCGCGATTAATGTGCCGGAATATACGATTATTCAGACGTCTGTGGACCATGATGACCAGCCGCAAGTCTATGCTGTCATCCATATGATTTCAAACATATCCATTCCGCTCGGCGCGGTTCTTTGCGGATATGCGGCTAACGCCTTCGGTCCCGGAAAAGTCATTGCCGCCGGCGGTCTCGTTGAAGTCCTGTCCGGTCTCGGAATATTGTTCTTTACGAAGCTGGCCAAAGCCGAACGCTCAGATCTCATCAGGGAAAAAGAAGCGAGCATCAGAATATAG	MDTYNKSESIWNKNFTLLFISRLVKLSGDGFAFNSILWFLIFDGEGAIGTSLLIAVTFLPEAMLAPITGPFMKQHTLKFWMYFSDLTRAAVVLIIPICYFNGFSPLWFVMLLMIVHSATGAAYNPASISLIPNIVRENSLQKANAVIQSSGQIVRLAAITLSGVFLTFISPAYSLFIALIFYLLSGFLVLFMSYQVRHAKQDTVAVRQRGTYFGRLKRGFVLVRKHQILYPLAIYCIFMNFAAAPWEALSAVYVAEDLNMPPIIYSLLKATGTGGAFLMGFILAKVKVNKYGLLFVSAGIIEGAAFFITGLNTFLPLVFLAAFAFGSAVSAINVPEYTIIQTSVDHDDQPQVYAVIHMISNISIPLGAVLCGYAANAFGPGKVIAAGGLVEVLSGLGILFFTKLAKAERSDLIREKEASIRI	PGPT0027965_583	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
D1-12_03120	570	yvqK	COG2096	Corrinoid adenosyltransferase	ATGAAGCTGTATACGAAAACCGGCGATAAAGGACAGACAAGCCTGATCGGCGGCAGAACGGATAAAGACAATCTGCGGGTTGAAAGCTACGGGACGATCGATGAGCTGAACAGCTTTATCGGGCTTGCGATTGCGGAACTTGATGATTGTGAGAATTGCGGTGATGTGAAAGCCGAACTCCGAAACATTCAAAATGAGCTGTTTGACTGCGGCGGCGACTTGGCGACGGTCACTGAACATAGAAGCTATACATTAAGAGAGACATCTATTTCCGCATTGGAAGAGTGCATAGACCGTTACACGGCTGAAGCGCCCCCGCTTGAGAAATTTATTCTTCCGGGCGGGCATAAGGCGGCTGCTCAGCTTCACATCGCGCGGACCGTCACGAGACGGGCTGAGCGTCTCGTCGTGAAACTGGGCAAAACAGAAGAGATAAACGATACGGTGATGCGTTACTTGAACCGCCTGTCTGATTATTTTTTCGCGGCGGCAAGAGCAGTTAACGCAAGACAGGGCGTTCAGGATATAGAGTATGAAAGAAGCGCCGCGGTATTCCGTGATGATGAATAA	MKLYTKTGDKGQTSLIGGRTDKDNLRVESYGTIDELNSFIGLAIAELDDCENCGDVKAELRNIQNELFDCGGDLATVTEHRSYTLRETSISALEECIDRYTAEAPPLEKFILPGGHKAAAQLHIARTVTRRAERLVVKLGKTEEINDTVMRYLNRLSDYFFAAARAVNARQGVQDIEYERSAAVFRDDE				NA	NA	NA	NA	NA
D1-12_03121	1227	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGATCAGGGTGAGCAGCCTGTCCGGCGGGTACGGAGGCCGGATGATTGTGGAAGATGTTAGCTTTACCGCCGGAAAAGGTGAATTTGTCGGCATACTTGGTCCGAACGGCTCGGGAAAAACAACGCTGATGAAATTGCTGACGGGAATGCTCTCTCCGTCAAAAGGCGAGGCGCTCGTCGCAGGCAGGCCTGTCGGCGGATACAAGCCGCGGGAGCTTGCGAAAATCATGGCCGTTTTGCCGCAGCATACGGAGCAAGCTTTTACATTTACCGTTAAGGAAACAGTGTCCTTCGGCAGATACCCGTATCAAAAAGGACTCTTCAGACAGATGGATCAACATGATGAAGACATTGTCCGGGAAGCGATGGAAATGACGGGCATCGACCGATATGCGCAGCAATCCGTCCGCAATCTGAGCGGCGGGGAGCGGCAGCGCGTCTATCTGGCGCAGGCGCTGGCTCAGCAGCCGGAGGTACTGTGTCTGGATGAGCCGACGACCTTTCTTGATCTCAAATATCAGAAAGACCTGTTTGATACGGTGAAGCGGCTGACGAGAGAAAGAGGCCTGACGGTCATCAGTATTTTTCACGACCTAAACGCCGCAGGCCAATATTGTGATCAGCTCCTGATGATGAAAGACGGACGCGCTTTTCCGAAGCAGACGCCGGATCAGGCTTTGAAAAAAGAGACGATTGAAGACATTTACGGTATCACCGTCAGCGCTGTTGCCCAGCAATCATCGCCGAAACCGCTGATCGCTTTCATGCCGGAAGCGCGGGAGGAAGGAGAGCCTGTCAACGTTCCGTTCGCCTCTCTGATAAACAAAAGCGGAAATACCGTAACGCTTCATACAGAACGGCCGTTCAGAATGTTGACAACCGCATCTGACGGCCCGGGATTTTCGTGGAGCCGCCGGCTTTCCGGCTCAGCGGCCGCTGGTTTGATCTGCCGTACGTTTGATTCGGTCACAATTGCCGTGACTGCGCAGCATACCGTTTGGGTGCTGATCAGCGGACGTTTATCGGAACAGGGATTTGTACGGCTGTTAACGGCAGCGGCAGAAGCGAGAATGCAGGCTCTTTCCGGCAGACAGGCAAAAGGCGACATTGTCATTTGTGCCTTGCAGACAGGAGAGGCGATGGACGTCCCTCAAGCGGAAAGAGCCATCAGAAGAGGAACCGCGGCATGTGTAAAAGCGGCGGAAGAAGGAGGAATACAACGATGA	MIRVSSLSGGYGGRMIVEDVSFTAGKGEFVGILGPNGSGKTTLMKLLTGMLSPSKGEALVAGRPVGGYKPRELAKIMAVLPQHTEQAFTFTVKETVSFGRYPYQKGLFRQMDQHDEDIVREAMEMTGIDRYAQQSVRNLSGGERQRVYLAQALAQQPEVLCLDEPTTFLDLKYQKDLFDTVKRLTRERGLTVISIFHDLNAAGQYCDQLLMMKDGRAFPKQTPDQALKKETIEDIYGITVSAVAQQSSPKPLIAFMPEAREEGEPVNVPFASLINKSGNTVTLHTERPFRMLTTASDGPGFSWSRRLSGSAAAGLICRTFDSVTIAVTAQHTVWVLISGRLSEQGFVRLLTAAAEARMQALSGRQAKGDIVICALQTGEAMDVPQAERAIRRGTAACVKAAEEGGIQR				NA	NA	NA	NA	NA
D1-12_03122	1047	hmuU	COG0609	Hemin transport system permease protein HmuU	TTGCAGAAAGCGTTTATCCTGAAACGTTTAAAAAGTAACCGCCCGCTGGCCTACACGGTCAGCCTGCTGTTTTTAGCCGTTTGTACGGCACTCGGCATTTCAATCGGCAGTCTGCATATTCCTTTATCCGACGTTTTTTGGATCGGGATCGGCCGGACATCCTCGGCTGACCCTATGAATTTAAATATTATGATGAATATCCGCCTGCCGAGAGTCGTTCTGGCTGCCCTTGTCGGAGCCGCGTTATCCATTGCGGGAGCGGCGTTTCAGGGACTTCTGAAAAATCCGCTCGCCGATCCTTATACACTCGGGGTATCTTCGGGAGCCTCGGCGGGAGCCGTTATCACCTTGTTTTTCGGCATTCAGATACCCGTCATCGGCCGGTTCACACTACCGGTTGTCAGCATCGCCGCAGCCATTGCGGTCATGGCGGCGGTTCTGTTTTTCAGCCGCCTCGTTCATGCGTCGATGTCGGTTTCGACACTCATTTTGACAGGCATCATCATGAATTCTTTTCTCGGAGCTCTCATTTCGCTTGTGATCGCTTTAACGGGCAATGATCTGCTCCCGATTGTCCGCTGGCTGTTAGGAAGCGTGTCAATGAGGGGCTGGGGCTATGTCGCGCTGTTTCTGCCTTTTTTTCTGGCCGGGACGGCGCTTCTGCTTATCAATGGCAAAGAATTAAACATTATGACTTATGGAGAAGAAAAGGCAAGGCTGTTAGGCGTCAGTACGGGAAAAAGAAAACTGCTGATGATCGCCGCCGGATCTCTGCTGACGGGAGGAGCGGTTGCCGTCTCGGGGACGATCGGATTTGTCGGCCTTGTCATTCCCCACGTGACACGGCTCTTATGGGGAACGGATCATCGCCATTTACTGCCGCTGTCAGCATTGACGGGGGCCGGGTTTCTCATTTTGGCGGATTTGTTTTCCCGCACCGTCATTGAGCCTGTCGAATTGCCGATCGGCATTATGACGGCTTTGGCGGGAGCGCCTGTATTTGCCTTGATTCTGCTTCGCCAGCATCATGGAGGGAAACGCTTATGA	MQKAFILKRLKSNRPLAYTVSLLFLAVCTALGISIGSLHIPLSDVFWIGIGRTSSADPMNLNIMMNIRLPRVVLAALVGAALSIAGAAFQGLLKNPLADPYTLGVSSGASAGAVITLFFGIQIPVIGRFTLPVVSIAAAIAVMAAVLFFSRLVHASMSVSTLILTGIIMNSFLGALISLVIALTGNDLLPIVRWLLGSVSMRGWGYVALFLPFFLAGTALLLINGKELNIMTYGEEKARLLGVSTGKRKLLMIAAGSLLTGGAVAVSGTIGFVGLVIPHVTRLLWGTDHRHLLPLSALTGAGFLILADLFSRTVIEPVELPIGIMTALAGAPVFALILLRQHHGGKRL	PGPT0003770_1235	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
D1-12_03123	945	btuF		Vitamin B12-binding protein	ATGAAGAAGATCACTGCCGTCTGGGCGGCGCTCTTGGTCACCGCCTTTGTGATCGCCGGCTGTTCCGGCGCACAGGAAGAAGGAAGCGCGGCCAAACAAAAAGCCGTCTCAACCGAAGCATTCCCGGTAACCATTAAGGATGCCGCGAACGAAAAAGTAACCATAAAGCAGGCACCGGAAAAAATCGTTTCCCTCATGCCGAGCAATACGGAAATTACATACGCGCTCGGACTGGGAGATAAGGTCGCAGGCGTCACGACAAATGATACATATCCGAAAGAAGCGGTAAAAAAACCGAAAGTCGGAGATATGAATGTGAACGCTGAAAAAGTCATCGCGCTGAAGCCGGATCTCGTGCTTGCCCACGCGTCCTCTATGTCCGCTTCCGCCGATGCGATGAAGCAACTGAAAGATGCGGGCATCACCGTCTTAACGGTCAATGATGCGCAATCGTTCCAAGACGTGTACAAATCAATCAGCATGATCGGAAAAGCGGCCGGCAAAGAAAAGCAGGCGGATAAGCTGATCAAATCGATGAAATCCGACCTTTCCGGCATAGAAAAGAAAGCGGCGGCCATTTCTGAAAAAGACGAAAAGAAAGTATTCGTCGAAGTGTCTCCTGACGGCTACACGACGGGGAAAGGTACGTTTATGAACGAAATGCTTGAAGATATACATGCGAAAAACGCCGCCGGCAGCCAGACCGGCTGGGTGCAATTGACGGATGAAGCGATTGTCAAAATGAATCCGGATGTCATCATTACGACAGACGGCGTAAAGGCCGCTGAAGTGGAAAAACGCGCCGGCTGGGGTGCCGTCAATGCGGTCAAACACCACAATGTCTATTCTGTTGATCCTGACCTTGTCACACGCTCAGGCCCGCGCCTTGTCAAAGGGGTCGAGAAGCTTGCAGAAAGCGTTTATCCTGAAACGTTTAAAAAGTAA	MKKITAVWAALLVTAFVIAGCSGAQEEGSAAKQKAVSTEAFPVTIKDAANEKVTIKQAPEKIVSLMPSNTEITYALGLGDKVAGVTTNDTYPKEAVKKPKVGDMNVNAEKVIALKPDLVLAHASSMSASADAMKQLKDAGITVLTVNDAQSFQDVYKSISMIGKAAGKEKQADKLIKSMKSDLSGIEKKAAAISEKDEKKVFVEVSPDGYTTGKGTFMNEMLEDIHAKNAAGSQTGWVQLTDEAIVKMNPDVIITTDGVKAAEVEKRAGWGAVNAVKHHNVYSVDPDLVTRSGPRLVKGVEKLAESVYPETFKK	PGPT0003765_8400	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
D1-12_03124	792	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGAATTACAGCTTGAACGAAAGCTCGTGTTGATTACAGGATCAACTTCAGGGATCGGAAAAGCCGCGGCAAAAAGCTTTTTAGCCGAAGGCGCCGAGGTGATTATAAACGGAAGAAAAAAAGAAACTGTGGAACGGACGGTTGAGGAGCTTTCCGCTTACGGAACGGTCCACGGCATCGCTGCGGATTTATCGCGTCAGGATGAGGCGGATGACTTGATCAAGCGCGCCGGCGGAATCGGGGAAGTCGATATTCTCGTCAATAATCTCGGCTTTTTTGAAGTAAAGGACTTCGCTGAGGTGTCTGATGACGAATGGACTCGGTATTTTGAAGTGAATGTTATGAGCGCCGTGCGCCTGTGCCGGCGTTTTCTGCCGCAAATGCTCGAAAGAAACAGCGGACGGATTCTGAACATCTCCAGTGAAGCCGGAGTCAAACCGCTTGCGCAAATGATTCCGTATTCAATGACGAAAACGGCGTTAATCAGCTTGTCCCGGGGAATGGCTGAAATGACGAAAGGCACAAATGTCACGGTCAACTCCGTGCTGCCGGGACCGACATGGACCGAAGGCGTCGCTTCTTACATGGAAGGAGCCGCAAAGGCTGCCGGAGAAGACACGGACAGCTTCGTCCGGAATTATTTTAAAGTGAATGAACCGACATCATTGATTCAGCGCTATGCAACCCCGGAAGAAGTCGCCAATACGATTGTATTTCTCGCTTCATCAGCGGCTTCTGCCATTAACGGCACCGCACAGCGGGTTGAAGGCGGCATCATCCGCTCCATTTAA	MELQLERKLVLITGSTSGIGKAAAKSFLAEGAEVIINGRKKETVERTVEELSAYGTVHGIAADLSRQDEADDLIKRAGGIGEVDILVNNLGFFEVKDFAEVSDDEWTRYFEVNVMSAVRLCRRFLPQMLERNSGRILNISSEAGVKPLAQMIPYSMTKTALISLSRGMAEMTKGTNVTVNSVLPGPTWTEGVASYMEGAAKAAGEDTDSFVRNYFKVNEPTSLIQRYATPEEVANTIVFLASSAASAINGTAQRVEGGIIRSI	PGPT0003180_3172	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
D1-12_03125	879			6-deoxy-6-sulfogluconolactonase	ATGGAAGCAGCATTACGAGCAGATACGAGAGCAGTAATCGGAGAAGGCCCTTTATGGGAGAAGGACAAGCAATGCCTGTACTGGGTGGATATACTGGGCAGCCAGCTCCATATCTTCACTCCGGCTGACGGAATCAACCGTTCCGTTAAATTCAAATCATTTGTCACGGCCCTGGCCTTGTATTCAAAGGAAGAGCTGGTGATGACGATGAAAGACGGTTTTTACCTGTACAATCTTCGGGAAGATACATTGACGAAGATGAAGCAGCCTAGAGACATGCGGGAAGATATCCGTTTCAATGACGCAAAATGCGACCCGTCCGGCAGATTATGGGCAGGAACGACGAGCATGGAAGGCAAAGAAGAGGAGGCTTCGCTGTACCGTCTGAATACGGACGGCAGCCTTGCCAAAATAAAAGACCAGGTCTCCACCTCGAACGGTTTGGATTGGGATCGGGACCGAAACCTGATGTACTATATCGATACTCCGACGCAGGAAATCGTCTGTTATTCATATGATCCTGAAACCGGAGCCGTATCAGATCCGAAAACGGTCTACCGCTTTCCGGAGTCGCAAGGATCTCCCGACGGAATGACCATTGACCGTGACGGAATGCTGTGGGTGGCTCTGTTCGGAGGCGGCCGTGCCGTCCGGATTGACCCGTTTTTGCATAAGGAAATTGCATCTATCGAAGTTCCGGCGAAATACGTCACCTGCTGCGCGTTCGGAGGCAGAGACTTGAACACGTTATACATTACGACCGCGACGGAAAAATTGACGGAAGCCGAAAGACTTGAGCAGCCGCATGCGGGCGGCCTGTTTTCAGCAGAGCTTGAGACGGGCGGCTGGGAGCCGGTTCCGTTTGCAGGCATGATGTAA	MEAALRADTRAVIGEGPLWEKDKQCLYWVDILGSQLHIFTPADGINRSVKFKSFVTALALYSKEELVMTMKDGFYLYNLREDTLTKMKQPRDMREDIRFNDAKCDPSGRLWAGTTSMEGKEEEASLYRLNTDGSLAKIKDQVSTSNGLDWDRDRNLMYYIDTPTQEIVCYSYDPETGAVSDPKTVYRFPESQGSPDGMTIDRDGMLWVALFGGGRAVRIDPFLHKEIASIEVPAKYVTCCAFGGRDLNTLYITTATEKLTEAERLEQPHAGGLFSAELETGGWEPVPFAGMM	PGPT0014335_23	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014335-yvrE-K14274	NA	NA
D1-12_03126	1743	rcsC_3		Sensor histidine kinase RcsC	ATGAGAATGCGCGGAAAATTTCTGCTCCACTTTTTCGGACAGCTGCTGCTTGTCATCCTGCTGATGTCCGTTTTGGCCGTCGCTTCTTTCTTCTATTTGGATTGGCGTTTCAGCGAAGCGGAAGCCAATGCGGGACTGACCAAAGCGACGGCAGACTCGTTTGAAGCGTGGCTTGATAAAAACGAAGACGGCACATGGGATGTCGATGAGTTTTTAAAGATGTCGGTCAGAAAGCAGAAGGGCTGGCTGCAGATCATTAATGACAATGAAAAAACGGACTACGCGTACAGAGTGCCGAAAGACGTCCCGAGCCATTACAGCAGAAAAGACCTCTTATCCATTTATCAGTACCGGAATTTTGACAACTACAAGCTGAATTACTGGACGGTCACGATAAATGATGAGACCTATTTGATTCTGTTCGGCTGGAAATCCGCCAGTGAGCAGCTTCTCACATACATCGAATCACAGGAGCCATCCCTCGCTTCCCTTTCTCAATATAAAAAAAGCACGATTGATTATATTAAACGGGAAAAAGGGGCGGTCTACCTTCTCGAAGACAGCGGCAGACTGCTCGGGGATATCAACAGCACGAAAAAAGAACGGAACACCGTCAATGAGCTTGAATTGCTGAAATACAATTCCAAGCCGTGGAATTACAAACGGGAAATTTCTTTTAAAAGACTCGATAAAACGAAATGGATGGTCGCGTCGGTGCCGAACCCCGTGTACATCCCCGATCACGAGTTTAACAAATCATTTTTGAGAAATGTGATGAAAACCCTCTTCCTCTTGATCGGAATCCTGGTATTTATGATCTGCATCCTGACCATCTGGTACTCTTTCCGTTTCGGCTGGCCGCTGTTTCATACCATCAAATGGCTCGTCAATTTATCAAAGGGCCGGCTTGAAGAGCCGAAGAACCGCAAAGGACAGCCGGTCAGCAAAAACAAAAAAGGCAAAACAAAACAGCCGTTCCGCTTTTTCGCCGAGATTTTCGAATCGATGGATCAGCTGACCGACACGCTGAAGCGGGATAAGAAAAACAGAGAAAAAATCCAGGCGACAAGGGAAGAATGGATCGCCGGGCTGAGCCATGACTTAAAAACCCCGCTGAGCACGATTTACGGCTACAGCATGATGCTTGAATCGAAGCAATACGACTGGACCCCGGAAGAAGTCAAAGAAATGGGGCAGATCGTCCGGGAAAAATCAGAATATATGTCCAAGCTGATTGAGGACTTAAACTTAACATACCGCCTCAAAAACGCGGCCCTCCCGATCGAACGGCGGCTGATCAACGTCGTGCCGTTTATCAGAAACGTCACGAACGATTTCACGAAAAACACGTTTTCGGAAGGCTATGACATCGCCTTTGAAACCAAAAAGGAAGACATTCTTTTCGCCATTGATGAAGCGTGGTTCCGCCGTGTTCTGGAGAATCTGCTGGCAAACGCGGTTAAGCATAATAAGAAAGGGACCGCCATTCGGGTCATGCTTGAGGAATCAGCCGAACAGCTCATTCTGAAGGTGAAAGATAACGGAAGAGGGATGGACGACGAAACGATTCACCAGCTGTTTAACCGTTATTACCGGGGAACGAATACGAAGGGGCCGTCAGAAGGAACGGGACTCGGGCTCGCCATTGCCAAAGAGCTGGTACACCTTCATAACGGAACCATCCATGTCAACAGCAGAATCAGCGCCGGAACGGTGATTACGATTCTTTTTAAAAAAGATTGA	MRMRGKFLLHFFGQLLLVILLMSVLAVASFFYLDWRFSEAEANAGLTKATADSFEAWLDKNEDGTWDVDEFLKMSVRKQKGWLQIINDNEKTDYAYRVPKDVPSHYSRKDLLSIYQYRNFDNYKLNYWTVTINDETYLILFGWKSASEQLLTYIESQEPSLASLSQYKKSTIDYIKREKGAVYLLEDSGRLLGDINSTKKERNTVNELELLKYNSKPWNYKREISFKRLDKTKWMVASVPNPVYIPDHEFNKSFLRNVMKTLFLLIGILVFMICILTIWYSFRFGWPLFHTIKWLVNLSKGRLEEPKNRKGQPVSKNKKGKTKQPFRFFAEIFESMDQLTDTLKRDKKNREKIQATREEWIAGLSHDLKTPLSTIYGYSMMLESKQYDWTPEEVKEMGQIVREKSEYMSKLIEDLNLTYRLKNAALPIERRLINVVPFIRNVTNDFTKNTFSEGYDIAFETKKEDILFAIDEAWFRRVLENLLANAVKHNKKGTAIRVMLEESAEQLILKVKDNGRGMDDETIHQLFNRYYRGTNTKGPSEGTGLGLAIAKELVHLHNGTIHVNSRISAGTVITILFKKD				NA	NA	NA	NA	NA
D1-12_03127	720	sphR	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein SphR	GTGGAAAATGCGTCAATTTTAATTGTAGACGATGAGAAGGCGATCGTTGATATGGTCAAACGCGTTCTCGTCAAAGAAGGCTATCACAACATTAAGACAGCCGGAAGCGCTGAGGAAGCGATCGAGTTTGTTAAACATGAAACCGCGGATCTGCTCGTGCTGGATGTGATGATGGAAGGCATGTCCGGTTTTGAAGCATGCACCGAAATCCGGAACTATACCGACGCTCCGATCTTTTTTCTGACTGCCCGTTCTTCTGATGCGGATAAGCTGTCAGGATTTGCATTGGGAGCTGACGATTATATAACAAAGCCGTTTAATCCGCTCGAATTGGCGGCGCGGATCAGGGCGACGTTAAAGAGAACCTATAAGCGCGAAGAGAAAACGGCGGTAAAGACGTATTCATACAGCCATTTTTCCTATTCGCCGCAAAACGCCGAGCTGATCGTCGGGGGCGAGCCCGTCAGCTGCTCCGCACAGCTTCTGCAGCTGCTTCAATATTTCTGTGAACACCCTGATGTGGTGCTCTCAAAAGATCAGATCTATGAAAAAGTATGGGGATATCCGTCTTACGGCGACAACAACACCGTCATGGTGCATATCCGCAAGCTCAGAGAAAAGATTGAAAAAGACCCCAGCAATCCGTCCTATATTGTAACGGTGCGCGGCCTCGGTTATCGGTTTATTCCCGATCAAGGAGAAAAAGGAACCCGCTCATGA	MENASILIVDDEKAIVDMVKRVLVKEGYHNIKTAGSAEEAIEFVKHETADLLVLDVMMEGMSGFEACTEIRNYTDAPIFFLTARSSDADKLSGFALGADDYITKPFNPLELAARIRATLKRTYKREEKTAVKTYSYSHFSYSPQNAELIVGGEPVSCSAQLLQLLQYFCEHPDVVLSKDQIYEKVWGYPSYGDNNTVMVHIRKLREKIEKDPSNPSYIVTVRGLGYRFIPDQGEKGTRS	PGPT0002675_87	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
D1-12_03128	237	rsoA		Sigma-O factor regulatory protein RsoA	GTGAACGGGCCATTTGACTTCAGCAAAGAGAACACAGATACCGACGAAATGGAACTTTTGATTTCGCGTTTTTCGCCAATGATAAAAAAAAAACTGAGCAATACATCATACCAGGAAAGAGAAGATCTTGAACAAGAATTGAAGATTAAAATAGTTGAAAAAGCGGACATGCTGTTATGCCAGGAAGTGCCGGGTTTTTGGGAATTTATTCTTCATCTTATAAATGAAAGCTCCTGA	MNGPFDFSKENTDTDEMELLISRFSPMIKKKLSNTSYQEREDLEQELKIKIVEKADMLLCQEVPGFWEFILHLINESS				NA	NA	NA	NA	NA
D1-12_03129	579	sigO		RNA polymerase sigma factor SigO	ATGGACTATCAAGTTCTTTTACGGTCAAAATGCAAGGAAATTATGAAACATCCGATCGTTAAACATTTTTTAAGTGACCCAAAGCATTACGAGAAATTTAAAAATGTGCTGGAACATTCAGACGAGAAGGATGCAAAATCACTGGACGACCATTTTAAACAGTTTTATAAGGAAATCCGGATCATCAAATATATGAACTCTATGATCCGGATTTTCTCCATCGATTTTGACAAGCGCATCCGTAAAAATCAGAAGCGCTATCCGCTGACGGTGGATCAGCCGGAGGGAGGTGAAGCGCTTCCCTATGAAATGGGAAAAGACGCGTATGAAGAGTTTCTGCGGAAGCAGGGGGATTTGAGCCAGCATGTCCAAAACCGTGATTTATACGAAGCGCTTCAGACGTTAACCGATAAGCAAAAAAGCGTGCTGACGAATATTTATCTTCACGGAGCGACGATGAAGGAGATTGCCGAGTCGCTGGGTGAATCACGGCAGAACATTTCCAATATTCATAAAAAAGGGCTCGACAATCTCAGAAAGCAGCTGGACAAGCAAAAAAAGGGGGAAAATAAGCAGTGA	MDYQVLLRSKCKEIMKHPIVKHFLSDPKHYEKFKNVLEHSDEKDAKSLDDHFKQFYKEIRIIKYMNSMIRIFSIDFDKRIRKNQKRYPLTVDQPEGGEALPYEMGKDAYEEFLRKQGDLSQHVQNRDLYEALQTLTDKQKSVLTNIYLHGATMKEIAESLGESRQNISNIHKKGLDNLRKQLDKQKKGENKQ	PGPT0014685_1514	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
D1-12_03130	156	yvrJ		putative protein YvrJ	ATGGATCAGGTTTTTATAGAAGAAGCGGTCAGACAGATCGGCAATCTCGGCTTTCCGGCTCTGATTGCCATGTATCTTCTCACACGGTTTGAGAAGAAGTTTGACGCCCTGATCGAACTGATGACGGAACTGAAAGATCAGAAAATGAAAAATTAA	MDQVFIEEAVRQIGNLGFPALIAMYLLTRFEKKFDALIELMTELKDQKMKN				NA	NA	NA	NA	NA
D1-12_03131	1161	oxdC_2	COG2140	Oxalate decarboxylase OxdC	ATGTCAAAAGAAAACAACTGCAATATCCCGCAGCCGATCAGAGGAGACAAAGGGGCGACCGTCACGATTCCGCGCAACCTTGAAAGAGACCGCCAAAATCCGGATATGCTGACGCCGCCGGAAACGGATCACGGCACAGTGGATAATATGAAATTCTCTTTCTCAGATGTGCACAACCGGCTGGAAAAGGGCGGATACGCGCGTGAGGTGACCGTTCGCGAGCTGCCGATTTCTGAAAATCTGGCATCTGTCAACATGCGTTTAAAACCGGGCGCCATCCGTGAGCTGCACTGGCATAAAGAAGCGGAATGGGCATATATGCTGACGGGCAAAGCGCGGGTCACGATTGTTGATGAACAGGGACGCAGTTTTATCGATGACGTGAAGGAAGGAGATCTGTGGTACTTCCCGTCAGGCCTGCCGCACTCCATTCAGGCGCTGAAAGAAGGCTGTGAATTCCTCTTGGTTTTTGATGACGGTTCCTTCTCAGAAAACAGCACATTCCAAGTGACTGACTGGCTTGCCCACACACCGCTTGATGTCATCGCCAACAACTTCGGGGTTTCAGAAAAAGACCTCGCCGGCCTGCCCGGGAAAGAAAAATATATCTTTGAAGAGCCGGTTCCCGGGAAGCTGAAAGATGACATTGTGGAAGGCCCGAACGGTGAAGTGCCATATCCGTTCACTTACCGCCTGCTGGATGAAGGCCCGACTGCTGAGACGGATGGCGGCAAAGTATATATCGCGGATTCCACAAACTTCAAAGTGTCCAAAACGATCGCTTCAGCGCTTGTCGTGGTCGAACCGGGCGCAATGAGAGAGCTGCACTGGCATCCGAACACGCATGAATGGCAGTATTATATTTCCGGTAAAGGGCGGATGACGGTTTTTGCATCGGACGGCCATGCAAGAACATTTAACTATCAGGCCGGGGATGTCGGTTACGTTCCGTTCGCAATGGGCCACTATGTGGAGAATTTGGGAGATGAGCCGCTCGTCTTCCTGGAAATCTTCAAGGATGACCACTATGCCGATGTGTCCCTGAACCAATGGCTTGCCATGCTTCCCGAGAAATTCGTCCAGCAGCATCTGGATCTGGGCAAAGACTTTACGGATATTCTTTCGAAAGAGAAACACCCTGTCGTCAAAAAGAAATGCTGA	MSKENNCNIPQPIRGDKGATVTIPRNLERDRQNPDMLTPPETDHGTVDNMKFSFSDVHNRLEKGGYAREVTVRELPISENLASVNMRLKPGAIRELHWHKEAEWAYMLTGKARVTIVDEQGRSFIDDVKEGDLWYFPSGLPHSIQALKEGCEFLLVFDDGSFSENSTFQVTDWLAHTPLDVIANNFGVSEKDLAGLPGKEKYIFEEPVPGKLKDDIVEGPNGEVPYPFTYRLLDEGPTAETDGGKVYIADSTNFKVSKTIASALVVVEPGAMRELHWHPNTHEWQYYISGKGRMTVFASDGHARTFNYQAGDVGYVPFAMGHYVENLGDEPLVFLEIFKDDHYADVSLNQWLAMLPEKFVQQHLDLGKDFTDILSKEKHPVVKKKC				NA	NA	NA	NA	NA
D1-12_03132	423	yvrL		Membrane-bound negative regulator YvrL	ATGATCAATCAAAACGGGACGAAAATGTTATTTCTTCAGGTGCTCCGGTATGCCCTGGCAGCCGCTGCCGTATTATTCGGGTATTTTATCGTGATGATGGCCGTATTTTCATTAGCCGGGACGAGCTACGGATCGATGGCGTACGTCCTGCTTTTTTCCGTGCTTTTTATTCTTCTCGGTTTATGTTTTGAACCGCTTGAGCGGCTGATGATACATAGCTTTACCTTTTTTGGGACGGGCAGGCTGCCTTTTCTCCTTTTAGCCAGCACCGTTCAGCTGCTGTTCCTCTGGATGACCGCGTATACGACGGATAAACTGATTGAAAAGATTTGGCTGTCAACGACGGAGGAGCTGATTGTGGCGGGAGTTTTTTTCGTTTTGGATAAATGCGTCTCCGGACAAAAGCAGCCCCGGGCGCAATAA	MINQNGTKMLFLQVLRYALAAAAVLFGYFIVMMAVFSLAGTSYGSMAYVLLFSVLFILLGLCFEPLERLMIHSFTFFGTGRLPFLLLASTVQLLFLWMTAYTTDKLIEKIWLSTTEELIVAGVFFVLDKCVSGQKQPRAQ				NA	NA	NA	NA	NA
D1-12_03133	804	yusV_2	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGAACTCATTATCGGCGGAACAGCTTACTGTCGGTTATGGCGACCGTTTGATAGCGAAAGAATTGGATATCGCCATCCCGAAAGGAAAAATTACAACGCTGATCGGTCCGAACGGCTGCGGAAAATCGACGGTTCTCAAAACGATGTCAAGAATCATGAAACCGAAATCCGGCGCCGTCTATTTAAACGGACAGGCGATCATGCAAAAATCCACGAAGGACATCGCCAAGGAAATGGCAATTCTTCCGCAGACGCCTGAAGCGCCGAGCGGGCTGACGGTGTACGAACTTGTTTCTTACGGCAGGTTTCCGCATCAGTCCGGAATGGGCCGTTTGAGTGATAAAGACCGTGACATGATCAAATGGGCGCTTGAAGAGACGGGGATGGCCGAATTTTACGACCGGCCGATCGAAGCGCTTTCCGGGGGGCAGCGGCAGCGTGTGTGGATCGCCATGGCGCTCGCTCAAGAAACGGAGCTGCTGCTTCTTGATGAACCGACCACTTATTTAGATCTCGCCCATCAGCTTGAAATTTTGCAGCTGCTGGACAAATTAAACAAGGAGCAGGGCCGCACCATTTTAATGGTCATTCATGATCTGAACCATGCCGCCCGTTTTTCCCATTACATGATCGCCCTGAAAAAAGGGCGCGTCATCAAGGAAGGAACGGCGGAGGAAGTCATGACTCCCGGCATATTGGAAGACGTTTTTCAGATTGACGCACAGATTGTAAAAGATCCGCGCACGAACAAACCGGTCTGCTTAACCTACGATTTAATCCGGCATGAAAACGCAACGGTATGA	MNSLSAEQLTVGYGDRLIAKELDIAIPKGKITTLIGPNGCGKSTVLKTMSRIMKPKSGAVYLNGQAIMQKSTKDIAKEMAILPQTPEAPSGLTVYELVSYGRFPHQSGMGRLSDKDRDMIKWALEETGMAEFYDRPIEALSGGQRQRVWIAMALAQETELLLLDEPTTYLDLAHQLEILQLLDKLNKEQGRTILMVIHDLNHAARFSHYMIALKKGRVIKEGTAEEVMTPGILEDVFQIDAQIVKDPRTNKPVCLTYDLIRHENATV	PGPT0003760_2795	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
D1-12_03134	1011	feuC_2	COG0609	Iron-uptake system permease protein FeuC	ATGAATGTAAAATCGAAAAAACCGCTGGCGGTCATGGCCGTTACGTTTTTGCTCATATGCATCGTCTTTTTTATCAGTTTAAACATGGGGGTGATCCGGATTGCGCCTCTTGATACGCTGCGTGTCTTTTTCGGACAGGGGGATGCCCGGGATCAGCTCGTTTTATTTGAATTCAGACTGCCGCGCATGGTGCTGTCATTACTGGTCGGCGCCGGAATCGCGGTTTCAGGCGCGATTTTTCAAAGCGTGTCTCAAAATGACTTGGCGGAGCCGGGCATTCTCGGTATTAACGCCGGGGCGTCTTTGGCGGTCGTTCTGTTTATCTTCTTTTTCCAAGGATCAGCTGTTGATTTAAGCATGGCCGGTACATGGCTGCTTCCGGTGAGCGCTTTGGCGGGGGCTTTTCTGGCTGCGCTGCTCATCTATGTTCTGGCTTGGAAAAAAGGCGTTTCACCTGTCCGGCTCGTTTTGGTCGGGATCGGCGTCAATGCGGGGTTTAATGCGCTTCTCTTGATTTTTCAGCTGAAGATGGACCCGCGGGATTTCATGCAGGCGCTTGTATGGATTTCCGGTTCGATTTGGAACGCCAATTGGAAAATGGTGCTGTCTATTTTGCCGTGGCTGCTGGTTCTTTTACCGTTCAGCCTCTATAAAGCCAGGTATTTAAATGTGCTTCAGCTCGGTGATCAGCTGGCGGCGGGGCTTGGCACCCGGGTTGAAAAGGAGCGGCGCGTTCTGCTGATGTGCGCCGTTGCCCTGACCGCGTCATGTGTTGCGGCAGCCGGCGGAATCGCTTTTCTCGGACTCATTGCGCCGCATTTGGCCAGAAGGCTTACCGGCCCGCGCCACCAGACGCTTATCCCGGTTTCGGCTTTAATCGGCGCATTTTTATTTCTGCTTGCCGATACGCTGGCGAGAAATGTGCTTGCACCGTCCGAAGTTCCCGTCGGCCTGGTGATTTCCGTGCTCGGAGCGCCGTATTTTGTATATTTGCTGATGAAAACGAAATAG	MNVKSKKPLAVMAVTFLLICIVFFISLNMGVIRIAPLDTLRVFFGQGDARDQLVLFEFRLPRMVLSLLVGAGIAVSGAIFQSVSQNDLAEPGILGINAGASLAVVLFIFFFQGSAVDLSMAGTWLLPVSALAGAFLAALLIYVLAWKKGVSPVRLVLVGIGVNAGFNALLLIFQLKMDPRDFMQALVWISGSIWNANWKMVLSILPWLLVLLPFSLYKARYLNVLQLGDQLAAGLGTRVEKERRVLLMCAVALTASCVAAAGGIAFLGLIAPHLARRLTGPRHQTLIPVSALIGAFLFLLADTLARNVLAPSEVPVGLVISVLGAPYFVYLLMKTK	PGPT0003770_6908	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
D1-12_03135	1068	feuB_2	COG0609	Iron-uptake system permease protein FeuB	GTGTTGGGTCTATTGAAAAAGAAACAGACAATGACGGCTCAAGGGGCATCAGGGAGTGAAATCCAGTGGACGGCGCGTTCATTCCGGGCTGCTGTGCTGCTGTGTGCCGGTATTGCGGTTTTATTGATCGGCGCGGCTCTGTCTGTTTCCATCGGAGCTGCCGATATTCATCTGCGGACGGTGTGGGATGCTCTCTTTCACTTTCAGCCGCAAAATACATCTCATCAAATCATACGCGATCTGAGGCTGCCGAGAACTGCCGCCGCCGCGCTCGTCGGGGCTTTTTTAGCTGTGTCCGGGGCGATTATGCAGGGGCTGACGCGGAACCCGCTTGCTGAGCCTTCCATTATGGGCGTGACGTCGGGGTCAGGATTTGCGATCGCATTGGCATTTGCTTTTTTTCCGGGTCTGTCTGCGGCGGGACTTGTTTTGTGGTCCTTTGCGGGAGCGGGAATCGGAGCGCTTATTGTGTTTGGCATCGGCCTGTTTTCAAAAGGCGGTCTGACACCGGTGAAGCTCGCGCTGGCCGGTACGGCAGTCGGCTATTTCTTAACGGGGCTTTCAAGCGCGATTGCGATCCGTTTTGATGTCGCCCAGGATGTGAAGTTCTGGTATGCCGGAGGAGTTGCTTCCGTGAAATGGGAAGGCGTGCAGCTGCTTTTGGCGGTCGGGGTTATCGGGCTTTTGCTGGCATTTCTGATTGCGCGCTCAGTGACGGTGCTGAGCTTGGGTGAGGAACTGGCCAAAGGGCTCGGGCAGTACACATCGCTTGTGAAAGTAATCGGAATGTTTGTCGTTGTCCTCTTGACGGGGGCTTCAGTCTCAGTCGCCGGAGCCATTTCTTTTATCGGCTTGGTGATTCCGCATATCACCCGGTTTTTAGTCGGGGTAGATTACAGGTGGATCATTCCCTGTTCGGCGGTATTCGGCGCCGTTCTGTTAGTCTTCAGTGATATTGCCGCAAGACTCGTCAATGCGCCGTTTGAAACACCGGTCGGCGCTTTAACCGCCCTTATCGGCGTTCCCTTTTTCTTTTATTTGGCGCGCAGGGAAAGGAGAGGGCTGTAA	MLGLLKKKQTMTAQGASGSEIQWTARSFRAAVLLCAGIAVLLIGAALSVSIGAADIHLRTVWDALFHFQPQNTSHQIIRDLRLPRTAAAALVGAFLAVSGAIMQGLTRNPLAEPSIMGVTSGSGFAIALAFAFFPGLSAAGLVLWSFAGAGIGALIVFGIGLFSKGGLTPVKLALAGTAVGYFLTGLSSAIAIRFDVAQDVKFWYAGGVASVKWEGVQLLLAVGVIGLLLAFLIARSVTVLSLGEELAKGLGQYTSLVKVIGMFVVVLLTGASVSVAGAISFIGLVIPHITRFLVGVDYRWIIPCSAVFGAVLLVFSDIAARLVNAPFETPVGALTALIGVPFFFYLARRERRGL	PGPT0003770_2053	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
D1-12_03136	939	fhuD	COG0614	Iron(3+)-hydroxamate-binding protein FhuD	ATGTTCCATACATACAAGAAAATCGGCGCAGCGCTGATTGCCGTGCTGCTCATCGCCGCTTTGGCCGCATGCGGCAATTCTTCAGACACGAAAGGTTCTTCTGAAAAAGAAGAAACCATCACGTATAAAGCCGAAAACGGCAATATTAAAATTCCGAAGCACCCGAAACGGGTCGTCGTCATGGCTGACGGCTACTACGGCGACTTTAAACAGCTCGGCATCAATGTTGTCGGCGCGCCGCAAAACGTATTTAAAAACCCTTATTACAAAGGGAAAACAAAGGGTGTGACAAACATCGGCGACGGCACGTCCGTTGAAAAAATCATTGACTTAAAGCCGGATTTAATCGTTGTCTGGACGACACAAGGCGCCGACATTGAAAAACTGGAAAAAATCGCGCCGACAATCGCCATTAAATATGACAAGCTCAGCAACATTGATCAATTCAAAGAGTTTGCGAAAATGACAGGCACTGAAGATAAAGCAGACAAATGGCTGACTGAATGGGATAAGAAAACCGCTGCCGCTAAAACAAAGGTTCAAAAAGCGGTCGGCTCAAAAACCATCTCCATCATGCAGACAAACGGAAAAGACATCTATGTATTCGGTAAAGACTTCGGCCGCGGCGGAAGCATCATTTATGACAAACTCGGGCTGAAGGCCACAAAACTGACGCAGGAAAAAGCCATTAATCAAGGGCCGGGCTACGCCAGCATTTCACTCGAGAAACTGCCTGACTTCGCGGGAGACTACATCTTTATGGGGCCATGGCAGGCCGGCGGTGACGACAAAGGCGTGCTTGACAGCTCAATCTGGAAGAACCTCGATGCCGTCAAACAAAACCATGTCTACCGCATTGATCCGATCGGCTTCTATTTCTCAGACCCGATCTCACTTGAAGGCCAGCTCGACTACATCACAAAAAGCTTAACGAAGTAA	MFHTYKKIGAALIAVLLIAALAACGNSSDTKGSSEKEETITYKAENGNIKIPKHPKRVVVMADGYYGDFKQLGINVVGAPQNVFKNPYYKGKTKGVTNIGDGTSVEKIIDLKPDLIVVWTTQGADIEKLEKIAPTIAIKYDKLSNIDQFKEFAKMTGTEDKADKWLTEWDKKTAAAKTKVQKAVGSKTISIMQTNGKDIYVFGKDFGRGGSIIYDKLGLKATKLTQEKAINQGPGYASISLEKLPDFAGDYIFMGPWQAGGDDKGVLDSSIWKNLDAVKQNHVYRIDPIGFYFSDPISLEGQLDYITKSLTK	PGPT0003765_9035	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
D1-12_03137	915			hypothetical protein	ATGAAAGAAAACAAGGCGAGTATGACTTCCCTGCTGTCCGCTTTCGGAAGGGCGTACCACAGTAAATACGACACCCCGGTGATATTTGATGATTTTTTGGCACAAGATCTGATTTCTGAAAAAGAGCATTCGGACATCCGCGATCATCTGATTCAAGGTATATCATTTTTCAGCAAAGACATGGCCCAGAGGCTTCAAGGCCAACCGGATGACATCTTAAAATGGGTGACTCAAGTCCAGCTGTCTCCTACACCGTTAGCCCGTGCCGCATATTGTGAAGAAGTGCTTTTCAATGAAGTGAAGCTCGGGGCCAAACAGTATGTCATCCTTGGCGCGGGGCTGGATACTTTTTGTTTCAGGCATCCTGAGGTGACAAACGCCTTAGACATATTTGAAATCGATCATCCCGCTTCACAGGAAGACAAAATAAACAGATTGAAACATCTGAACCTCGGCATTTCCCATCATCTTCATTTTGTACCGATGGACTTCGCCGCTTCGCTTTCTTTCAGCCGTCTGTATCAGGAAGGTTTTTCACGCCAAAAAACCTTTTTCAGCCTGCTCGGTGTGTCATACTATCTTACGAAAAAGCATCTCGCCCGCCTGCTCACACAATTATTTGCCGAAGTCCCGCCGGGAAGCTCTATCGTGTTTGATTATGCAGATGAGTCGCTCTTTGAAGAAAGAGGACTGTCAAACAGAGTGGAAAACATGGTGAAAATGGCTGCAGCAAGCGGGGAACCGATGTTATCGTGTTTCAGTTATAAAGAAATCGAAAAAATATTAGAATCATCAGGTCTGCTTATTTATGAACATTTATCTCCGGCGGACGTCAATGACCGTTTTTTCAGCGGACGCACTGACCATTTAACCGCATTCGAGACCATTCATTATATACACGCCGTCAAAAAGTAA	MKENKASMTSLLSAFGRAYHSKYDTPVIFDDFLAQDLISEKEHSDIRDHLIQGISFFSKDMAQRLQGQPDDILKWVTQVQLSPTPLARAAYCEEVLFNEVKLGAKQYVILGAGLDTFCFRHPEVTNALDIFEIDHPASQEDKINRLKHLNLGISHHLHFVPMDFAASLSFSRLYQEGFSRQKTFFSLLGVSYYLTKKHLARLLTQLFAEVPPGSSIVFDYADESLFEERGLSNRVENMVKMAAASGEPMLSCFSYKEIEKILESSGLLIYEHLSPADVNDRFFSGRTDHLTAFETIHYIHAVKK				NA	NA	NA	NA	NA
D1-12_03138	1413	ydgI	COG0531	Putative arginine/ornithine antiporter	ATGGAACAGACGAAAAAATGGGGTTTTTGGTTATTAACGGCGTTTGTCGTAGGAAATATGGTAGGCTCGGGCATCTTTTCGCTTCCGAGTACGCTCGCAAAAATCGCGAGCCCGTTCGGCGCTACATCGGCATGGCTTTTAACGGGAGCCGGTGTGTTAATGATCGCGCTGGTCTTCGGCCACTTATCCATCCGCAAGCCTGAGCTGACGGCGGGGCCGCAAAGCTATGCGCGTGCGCTGTTCAGTGATCGGAAAAAAGGGAATGCAGCGGGCTTCACGATGGTATGGGGCTACTGGGTGGCGAGCTGGATCAGCAACGTGGCGATCATCACGAGCCTTGCCGGATATTTAACATCATTTTTCCCGATTTTAACGGATAAGCGTGAAATGTTTTCGATCGGCGGTCAGGCGGTTACGCTCGGCCAGCTGCTGACGTTTGCCGTATGTACGGTTTTATTATGGGGCACTCACACGATTCTCGTCACCAGCATTAACGGTGCGAGTAAATTAAATTTTGTCACGACGTTTTCAAAAGTATTAGGATTTATCTTCTTTATCATTGCAGGTTTGTTTGTGTTTCAAACGTCGTTTTTCGATCATTTTTATTTTCCGGTTCAAACAGGTCCTCACACAGTTGAGGGAATCGGCGGGCAGATCCACAATGCGGCGATTTCAACATTATGGGCGTTCGTCGGAATTGAATCTGCAGTCATCTTATCCGGACGCGCCCGTTCGCAGCGCGACGTGAAACGCGCCACCATTACCGGATTATTGATCGCGCTTGGCATCTATATCATCGTGACATTGATTACGATGGGCGTGCTTCCGCATGGTAAGCTTGTCGGCTCGGAAAAACCGTTTGTTGACGTATTGTACGCGATCGTCGGCAATGCGGGAAGCGTCATCATGGCGATTCTGGCGATTTTGTGTCTGTTCGGAACGATGCTCGGCTGGATTCTTCTCGGCTCTGAAGTTCCGTATCAAGCGGCGAAATCCGGAGACTTTCCGGCTGCTTTTGCAAAAACGAATAAACAGGGAAGCCCGGTTGTGTCGTTAATCGTAACGAACGTGATGTCACAGATCTTTATCTTTTCAGTTATTTCCCGGACGATCAGTGACGCGTTTACGTTTTTAACGACGGCGGCGACGCTCGCTTATCTGATTCCGTATCTCGTATCAGCGTTTTACAGCCTGAAGCTCATTTTTACGGGTGAAACGTATGACGAGATAAAGGGTTCAAGAGTAAGAGACGGTATCATCGCCATCCTTGCCTGCATTTATTCTTTTTACGTCATTATTACCGGAACGGCCGATTTAACGACCTTTATTCTCGGTATCGGGCTGTTTTTCGTCGGTTTGCTGTTATATCCTTTCGTCTCAAAGAAATTTGCAAACAACAGACAATCGGTATGA	MEQTKKWGFWLLTAFVVGNMVGSGIFSLPSTLAKIASPFGATSAWLLTGAGVLMIALVFGHLSIRKPELTAGPQSYARALFSDRKKGNAAGFTMVWGYWVASWISNVAIITSLAGYLTSFFPILTDKREMFSIGGQAVTLGQLLTFAVCTVLLWGTHTILVTSINGASKLNFVTTFSKVLGFIFFIIAGLFVFQTSFFDHFYFPVQTGPHTVEGIGGQIHNAAISTLWAFVGIESAVILSGRARSQRDVKRATITGLLIALGIYIIVTLITMGVLPHGKLVGSEKPFVDVLYAIVGNAGSVIMAILAILCLFGTMLGWILLGSEVPYQAAKSGDFPAAFAKTNKQGSPVVSLIVTNVMSQIFIFSVISRTISDAFTFLTTAATLAYLIPYLVSAFYSLKLIFTGETYDEIKGSRVRDGIIAILACIYSFYVIITGTADLTTFILGIGLFFVGLLLYPFVSKKFANNRQSV	PGPT0020620_978	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
D1-12_03140	141	sspJ		Small, acid-soluble spore protein J	ATGGCTTTCTTTAACAAAGAAAAAGGAAAAAACAGCGATAAAAACAAAAACGTCATTCAAGGCGCGCTTGACGACGCCGGTGCAGCTCTGAAAGACGATCCGCTTCAAGAAGCTGTTCAAAAGAAAAAAAACAACCGCTGA	MAFFNKEKGKNSDKNKNVIQGALDDAGAALKDDPLQEAVQKKKNNR	PGPT0024905_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024905-sspJ-K06427	NA	NA
D1-12_03141	483	ydjM_2	COG1988	Inner membrane protein YdjM	ATGACAGGAAAAACACACATCATGGGAGGCATCGCTTCTTGTTCCGCAATTGCGTATTATTACGGGTATGATCCGGTCCTTATGACCTCAGCGGGTGCCCTCGGGGCGCTGATTCCCGACATATGCCATACGAAAAGCAAAATCGGCAGGACGCTGCCCGTTCTGTCCAAAGTCGTAAGCACGGTGTTCGGGCACAGAACGTTTACACACAGCCTGCTGTTTATGCTTATTATGTTTTTCATTACGGCCTCGTATATTCCGAATCCGAGCATTTCCGCCGGACTGATGATCGGAATGGCAAGCCATCTTGTACTTGACGCATGGACTGTCAACGGCATTAAACTGCTGTTTCCGTCCGCCATCCGCTTCCGTCTTCCCCTTTATATGAGAACGGGGAGCTTTTCGGAGCAGCTTGTGCTGGCCGGCTTAACAATTGTATCCTGCTATTATTTATACGAACTGGTTCACGGCCGCATCTCATAA	MTGKTHIMGGIASCSAIAYYYGYDPVLMTSAGALGALIPDICHTKSKIGRTLPVLSKVVSTVFGHRTFTHSLLFMLIMFFITASYIPNPSISAGLMIGMASHLVLDAWTVNGIKLLFPSAIRFRLPLYMRTGSFSEQLVLAGLTIVSCYYLYELVHGRIS				NA	NA	NA	NA	NA
D1-12_03142	1857	ltaS2_2	COG1368	Lipoteichoic acid synthase 2	ATGAAGAAAACCTTTTTCAGCAATCATCGGTTTTTATGCCTGTCCATCCTGTTCATGTGGATGAAAACCTATGCCGTTTATAAGCTCGGTTTTGATCTGCAGAACAATTCGGTTCTTGAGGAATGTCTGCTTCTCATTAATCCGCTGAGCTTCATTGTGCCGCTGTTCGGCATCGCCCTGCTGCTGACGGAAAAAAAACAGCGGATCTTTCTGCTTTCGGCGAATGTGATGCTGACGGGGATTTTAATCGCAAATACGGTGTTTTACGGGTTTTATATTGATTTTATCACCATACCGGTTTTGTTTCAGGCGAGCAATATGGGCGATATGGGGAGCAGCGTCCAAGAGCTGTTTCACCCGCTTTATATCGCTTTATTTTTGGATATTGCGGTTTTGTTTTACCTTGGTAAAAGACATAAAGCCGGTAAAGGAAAAGCCAGCACCCGTACCGTTAAAGCGTATGCGTGGGCATCAGCCGGCCTCATGCTGTGCAACCTTGCGCTGTCTGAGGCCGAGCAGCCGAAGCTGTTCAAGCACCCTTTTGATCGTGAAGCGCTCGTAAAAGGAATCGGCCTGTTCCACTTTCATTTGTATGACACCATTTCGCAGACGCTGAATGCAGGGGCAAAAGCGTTTGCCGACGAAGACAGCCTTGCCGCGGTCGCGAATTACACTCAAGCCGACTACAGCAGGCCGTCCGAATCAAAGTTCGGGCTCGCAAAAGGGCGCAATGTGATTTTTGTTACGCTCGAATCAACACAGCGTTTTGTAATGGATGAGCGGGTCAACGGGCGGGAGATTACCCCGTTTTTAAATAAACTGCGGAAAAAAAGTTATGACTTCACTCATTTTTATCAGCAGACTGAACAGGGAAAAACCTCAGATTCAGAATTCATTACTGCAAATTCGCTGTATCCGTCTTCAAGCGGCGCCGTTTTTTTTACAAAAAGCGGCCACCGGTTCAATACGATGTACCATATGTTAAAAGACCGTCAATACTATTCAGCCGTTCTGCATGCCAATCATAAGGCCTTTTGGAACCGGGATGAGATGTACGGGACATTCGGAATCGACCGTTTTTTCGACGCGGATGAATTTAAGGTGACACAGGAAAATTCAACAGGCTGGGGCCTGAAGGATAAGGAATTTCTCGAACAGTCAGCGGAAAAATTAAAGAAGCTTCCGCAGCCGTTTTACGCGAGCCTGCTGACTTTGACCAACCATTTTCCTTTTGAAATTGAAAAACAGGATCAGCTCATTGAAGAACCGGACACAAGCAGCGATTTATTAAACCGCTATGTGACGACGGTCCGCTATGAAGATGAGGCCCTGAAACACTTTTTCAAGAAGCTGAAAAAAGAAGGACTGTATGACAACGCGATGATCGTCCTGATGGGAGATCATTACGGTATATCCGAAGCCCATAATCAAGGACTTGCCGAATTCTTAGGGAAAGAGGAAATCACTCCGTTTGATACGGTTCAGCTTCAGCGCGTGCCGTTTATCATTCATATTCCCGGGGTGACCGACCGTGCGCCGGAAACGATTGCTTCCGCCGCGGGACAGGTTGATGTAAGACCGACGCTGCTTCACCTGCTCGGCATTGAAACGAAAGGCAGCATTCAGTTCGGCAATGATCTGTTTTCCGGAGAGCGGACCCCGTTTGCGGTGCTGAGAAACGGCAGCTTTATCACGGATGATCATATTTATACGAAAAATACGTGTTACAGCCGTAAAACGGGTGAACCGCTTTCTGACATGAGCGCGTGCAGCGATGAGAAAGAAAAAGCGGAACAAGAGCTGATGCTTTCCGATAAAATATTAAACGGCGACCTGCTGCGGTTTTACAAGCAATAA	MKKTFFSNHRFLCLSILFMWMKTYAVYKLGFDLQNNSVLEECLLLINPLSFIVPLFGIALLLTEKKQRIFLLSANVMLTGILIANTVFYGFYIDFITIPVLFQASNMGDMGSSVQELFHPLYIALFLDIAVLFYLGKRHKAGKGKASTRTVKAYAWASAGLMLCNLALSEAEQPKLFKHPFDREALVKGIGLFHFHLYDTISQTLNAGAKAFADEDSLAAVANYTQADYSRPSESKFGLAKGRNVIFVTLESTQRFVMDERVNGREITPFLNKLRKKSYDFTHFYQQTEQGKTSDSEFITANSLYPSSSGAVFFTKSGHRFNTMYHMLKDRQYYSAVLHANHKAFWNRDEMYGTFGIDRFFDADEFKVTQENSTGWGLKDKEFLEQSAEKLKKLPQPFYASLLTLTNHFPFEIEKQDQLIEEPDTSSDLLNRYVTTVRYEDEALKHFFKKLKKEGLYDNAMIVLMGDHYGISEAHNQGLAEFLGKEEITPFDTVQLQRVPFIIHIPGVTDRAPETIASAAGQVDVRPTLLHLLGIETKGSIQFGNDLFSGERTPFAVLRNGSFITDDHIYTKNTCYSRKTGEPLSDMSACSDEKEKAEQELMLSDKILNGDLLRFYKQ	PGPT0023375_1246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
D1-12_03143	927			hypothetical protein	ATGACAGAAGCCACTTCCTATACAATAGAAGAAGTTGCGGGCCTTTTGAAGGTCTCAAAACTGACAGTATATGATTTGATAAAAAAAGGACTCATTCCGGCGTACAGGGTCGGAAGACAGATGAGGGTCGATGAAGAGGACTTAAAACAATATAAAACAAACATGAGAATGTCAAAAAAGCCATCCGTATCAGAAGCTGCTGACCCGTCCCGCGGGCGGGAGCCGGAAAAAAGGCAGTCCGTTATCATCAGCGGGCAGGATGTGTCGATGGACCTCCTCAGCAAACAGCTGGAACAAACAATACAGGCGGCCCCGCTCCGCAAGTACAGCGGCAGTTTGAACAGCCTGATCGAGATGTACCGCGGGGCTTGTGACATCGTCAGTCTGCATTTATACGATGGGGAGACGGGGCAGTATAACATCCCGTACGTGAAGCGCATTCTTTCAGGGGAGCCGTTTGCGCTTTTTCATGTCGTGCTGCGGCAGGCCGGATTATATGTGAAAAAGGGCAATCCGCTGAACATTCAGGGCTTTCAGGACTTGAGCCGAAAGGATGTCCGTATCGTCAATCGCGAAAAAGGATCAGGCGCGAGGGTGCTGCTGGATGAACAGCTCAGATCTTTCGGTATTACGCCGTCTGATGTCGCCGGCTACCATGACATTGTCACGGATCATCTGTCAGCGGCTTCACAAGTATCAAGCGGAAAGGCGGATATCGGAGTCGGGTCGCAGCATGCGGCGCATATGGCAGGCACGGACTTTATCCCGGTGATCAGTGAACAGTACGATGTGGTCGTCTTAAAACAAAACCGGGAGCTTGTTCAAAGCGTGCAGGACATCCTCAATTCTGAGGAATTCAAGTCTCAGCTTTCTCAATTATCCGGATATGATACGAAAATGACCGGACGGCTCATATATGAAACATGA	MTEATSYTIEEVAGLLKVSKLTVYDLIKKGLIPAYRVGRQMRVDEEDLKQYKTNMRMSKKPSVSEAADPSRGREPEKRQSVIISGQDVSMDLLSKQLEQTIQAAPLRKYSGSLNSLIEMYRGACDIVSLHLYDGETGQYNIPYVKRILSGEPFALFHVVLRQAGLYVKKGNPLNIQGFQDLSRKDVRIVNREKGSGARVLLDEQLRSFGITPSDVAGYHDIVTDHLSAASQVSSGKADIGVGSQHAAHMAGTDFIPVISEQYDVVVLKQNRELVQSVQDILNSEEFKSQLSQLSGYDTKMTGRLIYET				NA	NA	NA	NA	NA
D1-12_03144	798	modA	COG0725	Molybdate-binding protein ModA	ATGTTGAAAAAGAAAGCGACACTACTCACAACTGCGGCTATGGCCGTTTTCCTCGCAACTGCGGGCTGCTCATCCGGACAATCGTCCAAAGGCGGACAAAACGAAAAAGTCACGCTGACCGTTTCTGCGGCAGCCAGCGCTCAGGATGCACTTGAAGAAATCCAGACCAACTACGAAAAATCACATTCAAACGTAACCATTCAAGATAACTTCGGATCATCAGGCACATTGCAGAAACAAATTTCACAAGGCGCGGGAGCTGATTTATTCTTCTCGGCAGCCGAAGATAAATTCGAAAAGCTCGTTCATGACGGAGATATCGATAAAAAGGACAGCACGGATCTTTTGAAAAATGATCTCGTCATGATCGTGCCTGAGAAAAACAGCGCACACCTGACACATCTGAATGACCTGAAAAAAGACAGCGCGGAAAAAATCGCGCTCGGCACGCCTGAATCCGTTCCGGCCGGACAATACGCCAAACAGTCATTGACGGCATTATCCATGTGGGACAAGGTAAAAGATAAAGTCGTCTATGCAAAAGACGTTCGCCAGGTGCTTTCTTATGTTGAAACCGGAAATGTCGATGCCGGGCTTGTCTATAAAACAGACGCGCTGATTTCGAAAAAGGTGAAAATCACCGATGAAGCGCCGGCGAAAACGCACGATCCGATCGTGTATCCGCTCGGCATCGTCAAGGATACAAAGCACCCTAAAGAAGCAGAGGCGTTTTATCAGTATCTGCAGTCTGATGAAGCGATGAAAGTGTTTAAGAAATATGGATTTACTGCCAAGTAA	MLKKKATLLTTAAMAVFLATAGCSSGQSSKGGQNEKVTLTVSAAASAQDALEEIQTNYEKSHSNVTIQDNFGSSGTLQKQISQGAGADLFFSAAEDKFEKLVHDGDIDKKDSTDLLKNDLVMIVPEKNSAHLTHLNDLKKDSAEKIALGTPESVPAGQYAKQSLTALSMWDKVKDKVVYAKDVRQVLSYVETGNVDAGLVYKTDALISKKVKITDEAPAKTHDPIVYPLGIVKDTKHPKEAEAFYQYLQSDEAMKVFKKYGFTAK	PGPT0008435_1337	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
D1-12_03145	612	modB	COG4149	Molybdenum transport system permease protein ModB	TTGGCATCGGGCCTCGCCGTCATCATTCTCGGGACGCTTGCCGGCGCCTGGATGGCGAAAGCGCGATTTCCCGGAAAAACGGCTGTGGAGACCCTGTTTATGCTCCCGCTCGTTCTTCCTCCTACCGTTGTAGGCTTCATTCTCATTATCATTTTCGGGAAACACAGCTTTATCGGCCGGGCGATTGAGCGGATTTTTCACCAGCCCGTCATTTTCACGTGGTCGGCCGCGGTGATCGCTTCGGCTATTGTCGCCTTCCCGCTTATGTATCAGTCCGCTAAAACCGGCTTCGCCGCGGTTGATGCCGACATCGAGGGAGCGGCGAAAGTAGACGGAGCCGGCAGGTGGCAGGTGTTCACCCGTATTTCCGTCCCGCTTGCCTTTCCCTCCCTCTTGACCGGAAGCATTCTCAGTATTGCAAGGGCGCTAGGTGAATTCGGAGCGACTTTAATGTTTGCGGGAAATATTCCCGGCGTCACCCAAACGCTGCCGACAGCGATTTACGTCGCGATGGACTCCGGCAATGAAACACTCGCCTGGGTGTGGGTGATCTGTATTGTGATCATTTCTTTTCTGATGCTGTTTTTCATCCAATTGAAAAAACCCGCTTGA	MASGLAVIILGTLAGAWMAKARFPGKTAVETLFMLPLVLPPTVVGFILIIIFGKHSFIGRAIERIFHQPVIFTWSAAVIASAIVAFPLMYQSAKTGFAAVDADIEGAAKVDGAGRWQVFTRISVPLAFPSLLTGSILSIARALGEFGATLMFAGNIPGVTQTLPTAIYVAMDSGNETLAWVWVICIVIISFLMLFFIQLKKPA	PGPT0008440_3660	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
D1-12_03146	648	lnrK	COG2197	Transcriptional regulatory protein LnrK	ATGAAGATTAATGTCATTATCGCGGATGATAATTCTTTCATCAGAGAAGGAATGAAAATCATTTTGCATACATATGAGGAATTTACTGTATCGGCAACGTTGGAAAATGGCCTGGAGGCGGCAGAGTATTGTAAACACAATCCCGTCGATATCGCCTTGTTGGACGTCCGCATGCCGGTGATGAACGGCGTCGAAGCCGCAAAACGGATCGCGGAGGAAACGGATACGAAGCCGATGATCCTGACGACATTTGACGACGATGAGTATATTTTAGAAGCGATTAAAAACGGCGCGAAAGGATATTTATTAAAAAATACCGAACCGGAACGGATCCGCGATGCGATCAAAAGCGTCTTCAACGGGCACAGCATTCTTCAGGACACCGTGCTGGATAAAATAAAAGACAGCCTTTTCCGGCCGGCCGAAGCCGCGCATCAGATTGATGAAAGCCAGTTTACTGAAAGAGAGCTCAGCATCATGTCGCTTATTGCGAAAGGACTGTCGAACAGGGAAATTTCAAAACAGCTTTTCATTTCTGAAGGGACGACGGCCAATTATATTTCATCTATTTTAGGGAAAACAGGGCTTGAGCACAGAACGCAGATCGCCATTTTTTATATCACCGGGAAGGTGGATAACGGGCGTTGA	MKINVIIADDNSFIREGMKIILHTYEEFTVSATLENGLEAAEYCKHNPVDIALLDVRMPVMNGVEAAKRIAEETDTKPMILTTFDDDEYILEAIKNGAKGYLLKNTEPERIRDAIKSVFNGHSILQDTVLDKIKDSLFRPAEAAHQIDESQFTERELSIMSLIAKGLSNREISKQLFISEGTTANYISSILGKTGLEHRTQIAIFYITGKVDNGR				NA	NA	NA	NA	NA
D1-12_03147	1113			hypothetical protein	TTGAACGGTATGGATTTTTGGATGCTGATGAGCAGACTGATCGCCATTTTTTATACGGCTTTTTTGTTCGTATCGGCAGACCGCCCTTACACGCCGTACGCCGTCTTGTTTCTGCTGCTTTATCTGTCTTTGGGCATTGCGGTCTGCATGATCAGGCCGCCCGCTTGGAGGCGCGGGATCACCCTCATGGCGCTGGCATTGACTGCTTGGCTTTCCGCCTTAGGCCATCCGGCGTTTCTGTTTCTTTTGCCGCCCGCCATTTTTGCCGTTCTTGCCGAATATCCGGTTCACCGCTATGTGTTCTGCCTGCTCGTGTTTTTGCCGTTTTTATTTATCCCGTACGGCGACCTTCCGACTTATATCGTCATGACCTTGTTCTGCTTGGCGATATTCGTTTTGGCCGCCCGGTCCAGCGACCGGCTGAAAAAATATGAAGAGCAGTCAGACAGCATGCGCTCAAGCATTGAAAAACTGACGAAACAGCTGCACAGCAGCACAGAATATATCAAACAATCGGAGTATACCGGCAAACTCGAAGAAAGAAACAGATTGTCCCAAGCCATCCATGACAAAATCGGCCATTCCATGACAGGCGCGCTCATTCAGATGGAAGCGGCGAAGCGGATGCTCGGCTCCCATCCGGACAAAGCGGCTGAACTGCTCCAAAACGCCATTACCATTTCCAAAGAAGGCATAGAGGATATCCGCATAACGCTGAAAAATATGAAACCGCCCGCTGAACAAATGGGCATTCACAGATTAAGAACGTTTATTGATGAATTTTCGGCCAAAAACGGCATGCCGGTTCCGTTTACGCATCAAGGCGATTTGGACAGGCTGACGCAAATGCATTGGAGAGTCATTCAGGAAAACGTAACCGAAGCCTTGACCAATGCAATGAAATACGCCGATGCCACGCAGATTTTCATTGATATCCATGTGCTGAACAAAGCCGTGAAAGCGGAAGTGAAAGATAACGGAAACGGCGCCGTCCGCTTTAAAAAAGGCCTCGGCATGCTCGGTATGGAAGAACGGGCGGCCGTCCTGCACGGAACCGTTATTTTTGACGGCACGGCCGGTTTTTCCGTCACGACATTGCTTCCGGTTGAATAA	MNGMDFWMLMSRLIAIFYTAFLFVSADRPYTPYAVLFLLLYLSLGIAVCMIRPPAWRRGITLMALALTAWLSALGHPAFLFLLPPAIFAVLAEYPVHRYVFCLLVFLPFLFIPYGDLPTYIVMTLFCLAIFVLAARSSDRLKKYEEQSDSMRSSIEKLTKQLHSSTEYIKQSEYTGKLEERNRLSQAIHDKIGHSMTGALIQMEAAKRMLGSHPDKAAELLQNAITISKEGIEDIRITLKNMKPPAEQMGIHRLRTFIDEFSAKNGMPVPFTHQGDLDRLTQMHWRVIQENVTEALTNAMKYADATQIFIDIHVLNKAVKAEVKDNGNGAVRFKKGLGMLGMEERAAVLHGTVIFDGTAGFSVTTLLPVE				NA	NA	NA	NA	NA
D1-12_03148	936	lnrL_4	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGAACATTTTGGAGCTCAAACAGCTGAGTAAGAAATTCGGTGATTATGCCGCCGTTGACCAGATGTCGCTTGCCGTAAAAGAAGGTGAGATTTTCGGGTTTCTCGGCGCAAACGGAGCCGGAAAAAGCACGACGATCAATATGATCTCAGGTCTTTTAAAACCTTCAGGCGGAGACATTCTGTTTCTCGGAAAAGATATTTTCAAATATAGCAAAGCAACGAAAATGAATATCGGCATCGTCCCTCAGGACCTCGCGATTTACGAAGAATTAAACGCCTATGAAAATGTGAAGTTCTTCGCCGGGCTGTACGGCCTGAGAGGGGCGGCTCTGAGAGAACGGGTCGAGGAAGCCCTGACATTCGTGGGCTTGAGCGATAAACACAAATATTTGCCGAAGCATTTTTCCGGCGGAATGAAGCGCAGGCTCAATATCGCCTGCGCCCTTGCCCACCGGCCGAAACTGATCATCATGGATGAACCGACGGTCGGTATTGACCCGCAATCAAGAAATTATATTCTGCAGTCAGTGAAAAAGCTGAATGAAATGGGCTGCACGATCATCTACACGAGCCACTACATGGAGGAAGTGGAAGAAATATGCACGCGCATCGCCATCATTGACCACGGGAAAGTCATCGCAGAAGGCACAAAAGAACAGCTGACCTCCATCATTACCGACACGAAGGACGTCGTGATTGAGCTTTCATCCGGAAACGGCATCAGCCTCGGCGATATTCAGGAGCTGCCCGGCGTCAGAGCCGCCGCACTGGAAGAAAACAGCGTGAAAATCAGCTCTGACACAGGGGTGAACAATTTAAACCGCCTGATCCGGTACTTCATGGACAAAGGAATTGAAATCCGCTCCTTGCAGGAACAGGCCCCTGACTTAGAAACGGTATTTCTCACGCTGACAGGCAGAAGCCTGCGCGACTGA	MNILELKQLSKKFGDYAAVDQMSLAVKEGEIFGFLGANGAGKSTTINMISGLLKPSGGDILFLGKDIFKYSKATKMNIGIVPQDLAIYEELNAYENVKFFAGLYGLRGAALRERVEEALTFVGLSDKHKYLPKHFSGGMKRRLNIACALAHRPKLIIMDEPTVGIDPQSRNYILQSVKKLNEMGCTIIYTSHYMEEVEEICTRIAIIDHGKVIAEGTKEQLTSIITDTKDVVIELSSGNGISLGDIQELPGVRAAALEENSVKISSDTGVNNLNRLIRYFMDKGIEIRSLQEQAPDLETVFLTLTGRSLRD	PGPT0006725_8672	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_03149	1095			hypothetical protein	ATGAATATTCTGCACATCGCCGTGAAAGAAATCAAAATCAGTTTCCGCGACAGACGGACTTTTATTTTCATGCTTGCTTTTCCGATCGTCTTCATGCTGATTTTTACTGCGGCATTATCAAACGCCTTTGATTCAGAGGTGACGGTCGGAAACATCAAGGTCGTATATACGGACCAGTCAAACGGCCCTCTTTCTCATTATTTTACTGAGTTTATGAAAGCCGCCAAAAAAGAGCATGTCTATTTTCAAAAAGCGGACACGGAGGCAAAAGGCAAAAACGAGGTTCGAGAAAATCAGGCGGATGCTTTCGTCACTGTAAAAAACACCGGTTTTCAAGTCTATACAAATGACCGGAGCGGCATAAACGGCACGATCGTCCAAGGCATGCTGACCGCTTTTACCAATCAATACAAAGCAGGCGCCGCCGCTTACAAGGCGCATAAGGCGCCTTCCGCCGGACAAATCAAAAGCGATTATATGAAGCAGACGTCTTTACACAAAGCGAAAGAACCGAAAGCGAAAGATTTTTACGCGATATCCATGACGACGATGATCGGGCTGTACGCCTCGATTTTTGCAAGCACCTTATTCCGCGGGGAAAGAATACGGCACACCGCGGATCGCCTGATCGCCGCTCCGCTCCGGAAAAGCGATATCTTTCTCGGAAAGATGCTCGGCATTTTGGCTGTGAATGTTCTGACGATTCTTGCCGTTGTCGCCTTCAGCAAATTTATCTTAAAAGCGAATTGGGGCAGCCACATGGGCCTTGTGCTTCTGATTCTCGTTTCTGAAATTCTTTTGGCCGTCAGCTTCGGGCTCAGCCTGAGCTATTTGACCAGAAAACCCGAAAGCGCCAGATTAATCACCGTCATCATCGTTCAGGTGATGTCCATTATCGGCGGCGCCTATTACAAATATGAAGGCGGAGGAATTTCCGTCCTGTCGCCCTTATCATGGATCAATAAGGCGATTAACAACATCATTTACGCAAATGATGTATCAGCGGCATGGCCTGCACTCGGTTTAAATACAGCATTGGCGGCACTCTTTTTGCTGATCGCCGCATTTACGTTTCAAAGACGGGAGGGATTGTAA	MNILHIAVKEIKISFRDRRTFIFMLAFPIVFMLIFTAALSNAFDSEVTVGNIKVVYTDQSNGPLSHYFTEFMKAAKKEHVYFQKADTEAKGKNEVRENQADAFVTVKNTGFQVYTNDRSGINGTIVQGMLTAFTNQYKAGAAAYKAHKAPSAGQIKSDYMKQTSLHKAKEPKAKDFYAISMTTMIGLYASIFASTLFRGERIRHTADRLIAAPLRKSDIFLGKMLGILAVNVLTILAVVAFSKFILKANWGSHMGLVLLILVSEILLAVSFGLSLSYLTRKPESARLITVIIVQVMSIIGGAYYKYEGGGISVLSPLSWINKAINNIIYANDVSAAWPALGLNTALAALFLLIAAFTFQRREGL				NA	NA	NA	NA	NA
D1-12_03150	1146	lnrN_1	COG0842	Linearmycin resistance permease protein LnrN	ATGAAAAACTTCTGGTGGCTGTTTGCACACACTCTCAAAGGGATTACAAAAAGCAAAAAACAGCTTATTCTTTATATCGGGGCTCCGCTGATCGGCGTCTTCCTCTCTTTCATGACCAATGCCAACGGCGGAGCCGAAACGCTCAATATCGGCATTCTCAATCAGGACGGCGGAGAAGTGGCACAGGATACGGTCACGTTTTTAAAAGGACTGGATCATGTGAAGATTTCGGAGGAAACGGCTGCGTCCGCCACATCCAAGATCGCTTCAGGAAAAATGGAGGCGCTCATTACGTTTGAAAAAGGCTTCTCCCAAAGCGTAAAAGACGGGAAACCGGCTCACATCGGCATGACCTCGCTGAAAGGCGCCCAGGTCACCGGATATGTCAGCTCTTATTTGTACAATTATATGAACAGCGCCGCCTCAATCGGCAAATCTTCCGGCGGGGACGCAAAGGCCTTTCAGGCGATGTACGCCGATTTCAAGCATTCTCCGATTCAAACGGAGTCCGCTGTTTTACAAGATACATCGAACCATAAAGAAATGACTTACTCAGTCATCGGGTATCTCATTATCATTATGCTCTATTCCGCCGGCAACCTGACGGAACTGATGATTAAAGAGCGGGAAAACAGGACGTACTACAGGCTTCTGTCAACGCCGATCACATCAAAGCAGTATGTACTGGCAAACGCGGCGGTGAATATCATTATCATGGCCGTCCAAATTCTATTCGCCGTTCTCTTTATGGGCGCCGCTTTTCATATTCATCCGTCATTCCCGCTGTGGCAGCTGTTCGTCCTGATGATGCTGTTTGCATTAAGCGCGATCGGAATCGCCTTTATTGCCGTCGGTTTTTCCAACAGCAGCGCTTCAACATCGGCGCTTTTGAATTTGATCGTCGTGCCGACATGCTTGCTCGCCGGCTGCTTCTTTCCGAGCAATATTATGCCGAAAACGGTGCAGACAATCGCCGAATTTCTGCCTCAGCGCTGGGTGCTCGATACGGTCGATCAATTGCAGCACGGCCGCACGCTCCAAAGCCTGGTGCTGAACATCATCATTTTGGGAGCCTTCGCCGCCGCCCTGTTATTAATAGCCGCATACAGGTTCAGCGTAAAACGTCAGACACAGACATTCATGTAA	MKNFWWLFAHTLKGITKSKKQLILYIGAPLIGVFLSFMTNANGGAETLNIGILNQDGGEVAQDTVTFLKGLDHVKISEETAASATSKIASGKMEALITFEKGFSQSVKDGKPAHIGMTSLKGAQVTGYVSSYLYNYMNSAASIGKSSGGDAKAFQAMYADFKHSPIQTESAVLQDTSNHKEMTYSVIGYLIIIMLYSAGNLTELMIKERENRTYYRLLSTPITSKQYVLANAAVNIIIMAVQILFAVLFMGAAFHIHPSFPLWQLFVLMMLFALSAIGIAFIAVGFSNSSASTSALLNLIVVPTCLLAGCFFPSNIMPKTVQTIAEFLPQRWVLDTVDQLQHGRTLQSLVLNIIILGAFAAALLLIAAYRFSVKRQTQTFM				NA	NA	NA	NA	NA
D1-12_03151	831	yvgN	COG0656	Glyoxal reductase	GTGGCAAAAAGCTTAAAAGATACTGTAAAGCTTCATAATGGCGTTGAAATGCCGTGGTTCGGCCTAGGCGTCTTCAAGGTGGAAAACGGAAGCGTAGCGGCGGACTCCGTCGAAGCGGCAATCAGAAACGGCTACCGTAGCATTGATACGGCGGCTATTTATAAAAATGAAGAGGGTGTCGGCGAAGGCATCAGAGCTGCGGGCGTTGCCAGAGAAGAGCTGTTCATCACGTCAAAAGTGTGGAATGAAGATCAAGGATACGAAACGACACTTGACGCGTTTGAGAAAAGCCTTGAGCGCCTCGGCCTCGATTACCTCGATCTGTACCTGATTCACTGGCCGGGCAAGGATAAATATAAAGACACATGGCGCGCTCTTGAAAAGCTGTACAAAGACGGCAAAATCCGCGCCATCGGCGTCAGCAACTTCCAAGTGCATCATTTAGAAGAGCTGCTGAAAGATGCTGAAATCAAGCCGATGGTCAACCAGATTGAATTCCACCCGCGCCTGACTCAAAAAGAAGTAAGAGATTTCTGCAAAGCGCAGGGCATTCAAGTGGAAGCTTGGTCTCCATTGATGCAGGGACAGCTCCTCGATAACGAAGTGCTGTCACAAATTGCGGAAAAACATAACAAATCAGTTGCTCAAGTGATTTTGCGCTGGGATCTTCAAAACGAAGTCGTTACCATTCCGAAATCCATTAAAGAGCACCGCATCATAGAAAATGCCGATATTTTTGATTTCGAACTGTCACAGGAAGAAATGGAAAAGATCAGCGCATTGAACAAAGACGAGCGTGTCGGCCCGAATCCGGACGAGCTTCTGTTCTAA	MAKSLKDTVKLHNGVEMPWFGLGVFKVENGSVAADSVEAAIRNGYRSIDTAAIYKNEEGVGEGIRAAGVAREELFITSKVWNEDQGYETTLDAFEKSLERLGLDYLDLYLIHWPGKDKYKDTWRALEKLYKDGKIRAIGVSNFQVHHLEELLKDAEIKPMVNQIEFHPRLTQKEVRDFCKAQGIQVEAWSPLMQGQLLDNEVLSQIAEKHNKSVAQVILRWDLQNEVVTIPKSIKEHRIIENADIFDFELSQEEMEKISALNKDERVGPNPDELLF	PGPT0014985_347	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0014985-yvgN-K23257	NA	NA
D1-12_03152	486	yvgO_2		Stress response protein YvgO	ATGAAACGTATGCGTATCCCGATGACCGTTGCCCTTGGCGCCGCTTTGTCTCTGACTCCTCTGTCCTTTGTATCCGCTAAAGAAACCCCGGTCCCTCAAAACATGGCACAGCAATCATCAGATGTCTCAGCAAAAGATGTCGGATTAAACATTGACGTTGACCTGCTCGGCATCGGCAATTCGATTGCTGACGCGATTAAGTCGGCGCAAAACCGTGACGGCTTCGTCAAAAACTTAATGGAATCTTCATTCTACGCTTCCGGACAAAAATATAACGTCATGGTGTTTAATTTAAGCCAGGAATATGAAGATCATTTTAACGGCGTTCAGTTTTACGGTTCCGCCGTTTATGACGGCATCACGTACGGCATTTGGGTGTTTGAAGACGGAAGCTTCACCAATAAAGGTGATGGCGGCTGGATCAACTGGGCCTTCAGAGGCTGGTTTGACCGCGACGGCGATCACGTCGAATTCCATCGTCCGTAA	MKRMRIPMTVALGAALSLTPLSFVSAKETPVPQNMAQQSSDVSAKDVGLNIDVDLLGIGNSIADAIKSAQNRDGFVKNLMESSFYASGQKYNVMVFNLSQEYEDHFNGVQFYGSAVYDGITYGIWVFEDGSFTNKGDGGWINWAFRGWFDRDGDHVEFHRP				NA	NA	NA	NA	NA
D1-12_03153	2016	nhaK	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	TTGGACATATTTTTAGTCGTACTCGTACTTTTAACCATCATCGCGATCTCAAATATCGTAAATCGGTTTGTCCCCTTTATCCCGGTGCCTCTGATTCAGGTGGCGCTCGGTATCATTGCGGCGTCATTTCCGCAGGGGCTTCATTTTGAACTGAATACTGAATTGTTTTTTGTTTTGTTTATCGCTCCGCTGCTTTTTAACGATGGAAAACGGACGCCGCGTGCGGAACTTTGGAATTTAAGAGCGCCGATTTTGCTTCTTGCGCTCGGGCTCGTGTTTGCCACGGTGATTGTCGGCGGTTACACGATTCATTGGATGATTCCGAGCATCCCGCTGGCTGCCGCGTTCGGGCTGGCGGCGATACTGTCACCGACTGACGTTGTCGCGGTCAGCGCGCTGTCAGGGCGAGTGAAGATGCCAAAAGGCATTCTGCGTCTCCTTGAAGGAGAAGGACTGATGAATGACGCATCCGGCCTGGTCGCTTTTAAATTTGCGATTGCGGCTGCCGTGACGGGCGCATTTTCGCTGGCGCAGGCCGCCTTCAGTTTCGTTCTGATTTCAGCCGGAGGTTTACTCAGCGGTGTCGTCATTTCTTTTTTGATTATCCGTTTCCGGCTGTTTTTGCGCCGCCTCGGCATGCAGGATGTCACGATGCATATGCTGATTCAAATTCTGACGCCGTTCGTCATCTATCTCGCGGCTGAAGAAATCGGCGTTTCCGGCATTTTAGCGGTTGTGGCCGGCGGCATCACGCATGCGGTGGAGCAGGACCGTCTTGAATCAACGATGGTCAAACTGCAAATCGTCTCTTCAAGTACGTGGAATATTATTTTGTTCATTCTGAACGGTCTTGTTTTCGTTATTTTAGGTGCGCAAATACCGGATGTGGTTTCCGTCATCTTTAATGATACCGCGTTTAACAATATGATGGTCATCGGGTACATTATCGTCATTACGCTGACGTTAATGATTCTCAGGTTTTTGTGGGTGCTGTTTTTTTGGAATGGCAAGTGGTTTTTTAACAAGGATCAGAGCATTTATAAACCCGGCCTGCGCTCGACCCTGCTGATTTCGGTTTCAGGCGTCAGGGGAGCGGTCACGCTTGCGGGTTCCTTTTCCATTCCGTACGTGCTCTCTGACGGCTCGCCGTTTCCTGAACGGAATTTGATTCTCTTTTTAGCCGCGGGCGTTATTATGTGCACATTGGTGCTGGCAACAATCGTACTGCCGATTTTGACAGATAAGCCGGAAGACAATGTGAAAGAGAAGAAAGTCAAATTGCTGACAGCGAGACGGAAGCTGATAAAAGCTGCCTTAACCGCCATTAAAGAAAATATGAATGAGACAAACAAAACGGCTTCTTTTGCGGTCATTGCCGAATACAATGAGAAAATGAAAAATCTCAGGTTTCAGCAGTTCACCGTCAAAAACCGCACGAAAAAAGATGAGCGGAAAGTCCGCGCCCAAGGGATACAGGCTGAACAGGAAGAATTGCTGCGGCTGATTGAGCGGGGCGACATACCGGAAGAAACGGCTGACAGCCTTCAGGAACGGTTTGATGAACTGGAAGTGCTGTATACGAATCCGTTTAAAGTCGGCTTATCTAAGAAAAAGCTGAAACGCCTGATGTACTGGATCTTTTTCGGTGAACAAAAAAAGCCGGAAATGTCGATTTTAAATGAAGAAGGCCTCATCCGCACCACGAGGGTTAAAACGGCAAAAGCGGCCATTGAAAGCCTGAAAAAACACATGACTGAAGAAAATAAAGATGTGACGCTTGCCGTCATTTCCTTTTACAATCACTTGATTTTCAGGCTGGGGCACTCGTATCACGAACAGAGTCCGAGCCGCCGTTTTGAAAATCAAAAACTCGAAATCAAACTGCGGGCCGTGCAGGCCATCCGCAACGAAATCCAAACATTATTCGAAGAGCGGGAAATTTCCCGCGATATGTCACATGAGCTTCGCCAATACATCAATGATGTGGAAGCGGCCATGCTTGACGGAGGTGAATAA	MDIFLVVLVLLTIIAISNIVNRFVPFIPVPLIQVALGIIAASFPQGLHFELNTELFFVLFIAPLLFNDGKRTPRAELWNLRAPILLLALGLVFATVIVGGYTIHWMIPSIPLAAAFGLAAILSPTDVVAVSALSGRVKMPKGILRLLEGEGLMNDASGLVAFKFAIAAAVTGAFSLAQAAFSFVLISAGGLLSGVVISFLIIRFRLFLRRLGMQDVTMHMLIQILTPFVIYLAAEEIGVSGILAVVAGGITHAVEQDRLESTMVKLQIVSSSTWNIILFILNGLVFVILGAQIPDVVSVIFNDTAFNNMMVIGYIIVITLTLMILRFLWVLFFWNGKWFFNKDQSIYKPGLRSTLLISVSGVRGAVTLAGSFSIPYVLSDGSPFPERNLILFLAAGVIMCTLVLATIVLPILTDKPEDNVKEKKVKLLTARRKLIKAALTAIKENMNETNKTASFAVIAEYNEKMKNLRFQQFTVKNRTKKDERKVRAQGIQAEQEELLRLIERGDIPEETADSLQERFDELEVLYTNPFKVGLSKKKLKRLMYWIFFGEQKKPEMSILNEEGLIRTTRVKTAKAAIESLKKHMTEENKDVTLAVISFYNHLIFRLGHSYHEQSPSRRFENQKLEIKLRAVQAIRNEIQTLFEEREISRDMSHELRQYINDVEAAMLDGGE				NA	NA	NA	NA	NA
D1-12_03154	1716	cysI	COG0155	Sulfite reductase [NADPH] hemoprotein beta-component	ATGGTGAACAACATTTTAAAAGCGCCGGAAGGCCCTCCAAGTGATGTTGAGGAAATTAAAGAAAAAAGCGATTATTTGCGCGGCACATTGAAAGAAGTCATGCTCGACCGGATTTCAGCCGGCATCCCGGACGAAGACAACCGGCTGATGAAGCATCACGGAAGCTACTTGCAGGATGACCGCGATCTCCGTAATGAACGTCAAAAACAAAAGCTTGAACCGGCTTATCAGTTCATGCTGCGCGTTCGGATGCCAGGCGGCGTTTCAACTCCGGAACAATGGCTTGTCATGGATGAACTGGCGCAAAAATACGGAAACAATACATTGAAGCTGACAACGCGTGAAACGTTCCAAATGCACGGAATTTTAAAATGGAACATGAAAAAAACGATTCAGAAAATCAATGCGGCGCTGCTTGATACCATTGCGGCCTGCGGAGATGTCAACCGAAACGTCATGTGCGCTTCAAATCCGCACCAGTCTGAAATTCATGCGGAAGTATACGAATGGTCGAAGAAATTGAGCGATGACCTTCTTCCGCGCACGAGAGCCTATCATGAAATCTGGCTTGATGAGGAACGTGTGGCGGGCACTCCTGACACGGAAACGGAACCGATGTACGGGCCGCTGTACCTGCCGCGGAAATTCAAAATCGGAATCGCCGTGCCTCCGTCCAATGATATCGATGTCTTTTCTCAAGATCTCGGCTTCATTGCCATCGTGGAGGAAGGCCGTCTTATCGGATTCAACGTGGCAATCGGCGGCGGTATGGGAATGACGCACGGCGATACGGCCACTTATCCGCAGCTTTCAAAAGTCATCGGCTTCTGCAAACCGGAGCAGCTGTATGATGTAGCGGAAAAAACCATTACGATTCAGCGCGATTACGGAAACCGTTCCGTCAGAAAGAATGCCAGATTCAAGTACACCGTTGACCGTCTCGGGCTGGAAAACGTAAAAGCCGAGCTGGAAAACCGCCTCGGCTGGCAGCTGGATGAAGCGAAACCTTATCATTTTGACCATAACGGCGACCGTTACGGATGGGTGAAGGGCGTAAAAGGGAAATGGCACTTTACGATGTTTATCGAAGGCGGCCGCGTCACGGACTATGAGAATTATAAGCTGATGACGGGATTGCGTGAAATCGCCAAAGTCCATACGGGAGATTTCCGTCTCACCTCTAATCAAAACCTGATTATCGGCAATGTCTCGAGCCAGAAAAAGAAACAAATCAGCGCATTAATCGAACAATACGGTCTGACAGACGGCCGGCAGCATTCCGCCCTCCGCCGCAGTTCAATGGCTTGCGTCGCGCTTCCGACATGCGGGCTCGCCATGGCCGAAGCCGAGCGGTATCTGCCGAAATTGATTGATAAAATTGAAGACATTGTTGACGAAAACGGGCTGCGGGATGAAGAAATCACCATCCGTATGACCGGGTGCCCGAATGGCTGCGCCCGCCATGCGCTCGGCGAAATCGGATTTATCGGAAAGGCGCCCGGAAAATATAATATGTATTTAGGAGCGGCGTTTGACGGCAGCCGTTTGAGCAAAATGTACCGGGAAAATATCGGTGAAGAGGAAATTCTGAGTGAGCTTCGCACCATTCTCCCGCGCTACGCGAAAGAGCGTGAGGAAGGCGAACACTTCGGCGATTTCGTCATCCGCGCGGGCATCATTAAAGCGACGACAGACGGCACGAATTTTCACGAATAA	MVNNILKAPEGPPSDVEEIKEKSDYLRGTLKEVMLDRISAGIPDEDNRLMKHHGSYLQDDRDLRNERQKQKLEPAYQFMLRVRMPGGVSTPEQWLVMDELAQKYGNNTLKLTTRETFQMHGILKWNMKKTIQKINAALLDTIAACGDVNRNVMCASNPHQSEIHAEVYEWSKKLSDDLLPRTRAYHEIWLDEERVAGTPDTETEPMYGPLYLPRKFKIGIAVPPSNDIDVFSQDLGFIAIVEEGRLIGFNVAIGGGMGMTHGDTATYPQLSKVIGFCKPEQLYDVAEKTITIQRDYGNRSVRKNARFKYTVDRLGLENVKAELENRLGWQLDEAKPYHFDHNGDRYGWVKGVKGKWHFTMFIEGGRVTDYENYKLMTGLREIAKVHTGDFRLTSNQNLIIGNVSSQKKKQISALIEQYGLTDGRQHSALRRSSMACVALPTCGLAMAEAERYLPKLIDKIEDIVDENGLRDEEITIRMTGCPNGCARHALGEIGFIGKAPGKYNMYLGAAFDGSRLSKMYRENIGEEEILSELRTILPRYAKEREEGEHFGDFVIRAGIIKATTDGTNFHE	PGPT0002790_783	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
D1-12_03155	1809	cysJ	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	TTGCAACTTCAGGTCATGAACAGTCCGTTTAATCAGGAGCAGGCAGAGCTCCTTAACCGCCTTCTGCCGACCTTGACAGAATCACAGAAAATCTGGCTGAGCGGTTATTTGGCTGCTGCCCGGTCCGAATCCGGTGAAACAGCCGCACCCGCTGCTCAGGCTCCAGCAGAAAGCTCGGCAGTCTCAAGAGAAGTGACCGTATTATACGGATCGCAAACGGGAAATGCGGAAGGTCTTGCGAAACAGACGGTAAAGACGCTTGAGGAACGGGGATTCCAGGTCACCGTCGCGTCGATGAACGATTTTAAGCCGAATAATCTGAAAAAAGTAAACAATTTACTGATCGTGGTGAGCACGCACGGAGAAGGTGATCCGCCGGATAACGCGCTGGCCTTTCATGAATTTCTTCACGGCAGACGCGCGCCGAAGCTTGAAGCGCTCCGTTACTCCGTTTTGGCGCTCGGGGACAGCTCGTATGAATTTTTCTGCCAGACCGGCAAAGAGTTTGACGAGCGTCTTCAAGAGCTCGGCGGCACCCAGCTTGCGCCGCGGGTTGATTGCGATCTTGATTATGATGAGCCGTTTTCGGAATGGCTTGACGCGGTCATCGGCGGTTTGAACGAAGGAGCGGGAAATCAAACAGCCGAAGCGCCTGCCGAGACGCCGGCTCTCGGTGAATCCGTTTATTCCAGAACGAACCCGTTTCGGGCGGAGGTTCTTGAGAACATCAATCTGAACGGACGCGGTTCGCATAAAGAAACACGCCATCTCGAGCTTTCGCTTGAAGGATCGGGCCTCGCGTATCAGCCCGGAGACAGCCTCGGCATCTATCCGGAAAATGATCCGGCGCTCGTGGATGAGCTGATCAATGAGCTGAAATGGGACCCAAAACAGGAAGTAGCGGTGAATAAACAGGGAGAGCGCCTCCCGCTGAAAGACGCGCTTACTTCTCATTTTGAAATAACCGTCTTAACAAAACCGTTCCTGCAAAAGGCCGCACAGTTTACGGCTGACCAAAAGCTTAGTGAACTTCTGGCCGAAGGAAACGAAGAGCAGGTGAGAGCATACATCAACGGCCGTGATCTGCTTGATCTCGTCCGGGATTTCGGTCCGTGGGAAGCTTCCGCGGAAGACTTTCTTTCCATCCTGCGTAAAATGCCGGCCCGGCTCTATTCGATCGCAAGCAGTTTAGAAGCGAATCCGGAAGAGGTGCATCTGACAATCGGAGCGGTCAGATATGACGCGCACGGCAGAGAACGAAAAGGCGTCTGCAGCATTCTGTGTGCGGAAAGACTTCAGCCGGGAGATACGCTTCCGATTTACATTCAGCACAACCAAAACTTCAAGCTGCCGGAAAATCCGGATACACCGGTCATTATGGTCGGGCCGGGGACAGGCATCGCGCCGTTCCGTTCCTTTATGCAGGAGCGTGAAGAAACCGGAGCTGAGGGGAAAACATGGCTGTTTTTCGGGGATCAGCACTTTGTCACTGATTTTCTGTACCAGACGGAATGGCAAAAATGGCTGCAAAACGGTGTTCTCACAAAAATGGACGTCGCTTTTTCTCGGGATTCGGAGGAAAAGGTATATGTGCAGCACCGCATGAAAGAACAAAGCAAAGAGCTGTATGAATGGCTGCAGCAGGGAGCCGCCGTATACATCTGCGGTGATGAACAGCATATGGCGCATGACGTGCACCAGGCGCTTCTCGATATCATTCAGGAAGAAGGCGGCATGAGCCGTGAAAAAGCGGAAAGCTTCCTGGCAGACATGCAGCAGAAAAAACGCTATCAGCGTGACGTATATTGA	MQLQVMNSPFNQEQAELLNRLLPTLTESQKIWLSGYLAAARSESGETAAPAAQAPAESSAVSREVTVLYGSQTGNAEGLAKQTVKTLEERGFQVTVASMNDFKPNNLKKVNNLLIVVSTHGEGDPPDNALAFHEFLHGRRAPKLEALRYSVLALGDSSYEFFCQTGKEFDERLQELGGTQLAPRVDCDLDYDEPFSEWLDAVIGGLNEGAGNQTAEAPAETPALGESVYSRTNPFRAEVLENINLNGRGSHKETRHLELSLEGSGLAYQPGDSLGIYPENDPALVDELINELKWDPKQEVAVNKQGERLPLKDALTSHFEITVLTKPFLQKAAQFTADQKLSELLAEGNEEQVRAYINGRDLLDLVRDFGPWEASAEDFLSILRKMPARLYSIASSLEANPEEVHLTIGAVRYDAHGRERKGVCSILCAERLQPGDTLPIYIQHNQNFKLPENPDTPVIMVGPGTGIAPFRSFMQEREETGAEGKTWLFFGDQHFVTDFLYQTEWQKWLQNGVLTKMDVAFSRDSEEKVYVQHRMKEQSKELYEWLQQGAAVYICGDEQHMAHDVHQALLDIIQEEGGMSREKAESFLADMQQKKRYQRDVY	PGPT0002795_1549	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
D1-12_03156	2316	helD	COG3973	DNA helicase IV	ATGGCAAAACGTGATAAAGAGTGGAAAGAAGAGCAGGAAAGAATCAATTTTGTCATGAAGGAACTGGAACAGAAACAAACTCATCTTGAAGCCTCATCGGGCGGATTGAAGCAGGATATTGTGGGCTTGAGAAAAACGTTTTGGGATGATGTCACCGTGAATATGGATGATGCCCACGAAGCGGCTGAGACATTTTCAAGCATTAAACAGCAGGCAGAAATGCTTTCTGAACGTGAACGGACTCATCGGCTTCAATATCGGCAGCTTCAAAAAATCCAAAAGCTGAAAACCTCTCCTTACTTCGGCCGTGTCGATTTTACGGAAAAAGGGGAGTCCTCTTCCGAGCGGATTTATATCGGGCTGACTTCTTTGATGGATGAAAACAACGAGCAATTTCTCATTTACGATTGGCGCGCGCCCATCTCATCTCTTTACTATCAATATTCCCCGGGAAAAGCCCGCTATGAAGTTCCGGAAGAAACAATAGAGGGAGACATCACACTGAAGCGGCAGTTTATCATTAAAAACGGGACGCTTAAAGCGATGTTTAACACGGATATGACGATTGGTGACGAAATGCTGCAAGAGGTGCTGAGCGGCCATTCCGGACAGCATATGAAAAACATCGTGTCAACCATCCAAAAAGAACAGAACGAAATCATCCGGGATGAAAAAAGCAAATATCTCATTGTTCAGGGAGCCGCCGGAAGCGGGAAAACATCCGCGGCGCTTCAGCGGGCCGCTTACTTGCTATACCGCGGGCGCGGGGTGCTTGATGCCCGTCAGATTGTATTGTTTTCCCCGAACATTTTGTTCAACAGTTATGTGTCCGCCGTATTGCCGGAATTAGGAGAAGAGAATATGGAGCAGGCCACCTTTCAGGAATATATCATCCGCCGGCTTGGACGAAAGTTTGATTGTGAAAGCCCGTACGAGCAGCTTGAATATTGCCTGACTGAACAAAACCAGGACGCACTTTCCGTAAGGCTCGCAGCCATTGCTTACAAAGCGTCATCAGCTTTCCAGGCCATGATTGACCGCTATGCCGGCTCGCTTTCCGGCTCGGGCCTGATGTGTAAACAGATCAGCTTCCGGGGAGACATCCTGATTTCAAAAGAGCGGATTGAAGACTATTTTTATTCACTTGATCAGCAGCTGCCGATTCCGAACAGAGCTGAACTGACGGCGGAATGGCTTCTCGCGGAAATCAGCGCTCTCGAAAAAAAGGAGCGTAAGAAGGAATGGGTCTTGCAGGAGAGCGAGCTGCTTGATAAGGAAGACTATGCTGAGGTTTATCAAACACTCAAGAAGCAGGCGGCAGATGATGAACCTGTATTTGACGACCATCAGCGCGAACAGCGGCTGCTTGGCGCCATTATTGTCGGCAAAGCCTTTAAACCGATTAAGCAGGCCGTCAGACGGCTCGGCTTTCTCGATATAAAACGGATGTATCTCCGGCTGTTTTCAGACTGGGGAGCTGATGAAAAGCCCGATCATTGGGAGAGCATCGGCGCTTTGACCAGAAACGCATTTGCAGAACGGTCACTTCCGTATGAAGATGCCGCTCCGTATCTGTATTTGCAGGATCTGTTAGAAGGAAAAAGAAAAAACACACAAATGAAGCACGTCTTCATTGATGAAGCGCAGGATTATTCCCCATTTCAGCTCACGTATATTCAAAGCATCTTCCCAGCGGCAAAGATGACGGTGCTCGGTGATGTCAGCCAGTCGATTTATGCCCACACCATTACGGGCCCTTCTTCCCTCGCCGGCTGCTTTCGCAATGGTGCAGAAAAGTATGTCAGCCTGAAGCGGACTTACAGATCGACGCGGCAGATTGTTGAATTTACGAAAGCGCTGCTGGCTGACGGCGATGATATTGAGCCTTTTAACCGAAACGGGGAAAAACCTCGTGTTTTGCGGACGGATACAGAAAATGCGCGGCGGGAACAATTGGCGGATACAATCCGGGAGCTCAGACAAAAAGGCTGGGAGACGGTCGCCGTCATCTGCAAAACGGCCGCGGAAGCCAAAAAAGTGTTTCAGGCGGTCAGCGACGGTAGCGGTGTCCGCTTGATCAATAAAGAAAACCAGCCTTTTCAAAAAGGGGTATGCGTCATTCCCGTGTATTTGGCAAAAGGCATTGAGTTTGACGCCGTCATTGCCGCTGACGCCTCTGCTGCCCAGTACAAAAGCGAACATGATCGTAAGCTGTTATATACGGCCTGTACGCGGGCGATGCATCATCTGACCGTATTGTCTCCGGGAGAACCCTCTCCTTTTATAAAAGAAGTGCCCGCCGGCTTATTCGTGTAA	MAKRDKEWKEEQERINFVMKELEQKQTHLEASSGGLKQDIVGLRKTFWDDVTVNMDDAHEAAETFSSIKQQAEMLSERERTHRLQYRQLQKIQKLKTSPYFGRVDFTEKGESSSERIYIGLTSLMDENNEQFLIYDWRAPISSLYYQYSPGKARYEVPEETIEGDITLKRQFIIKNGTLKAMFNTDMTIGDEMLQEVLSGHSGQHMKNIVSTIQKEQNEIIRDEKSKYLIVQGAAGSGKTSAALQRAAYLLYRGRGVLDARQIVLFSPNILFNSYVSAVLPELGEENMEQATFQEYIIRRLGRKFDCESPYEQLEYCLTEQNQDALSVRLAAIAYKASSAFQAMIDRYAGSLSGSGLMCKQISFRGDILISKERIEDYFYSLDQQLPIPNRAELTAEWLLAEISALEKKERKKEWVLQESELLDKEDYAEVYQTLKKQAADDEPVFDDHQREQRLLGAIIVGKAFKPIKQAVRRLGFLDIKRMYLRLFSDWGADEKPDHWESIGALTRNAFAERSLPYEDAAPYLYLQDLLEGKRKNTQMKHVFIDEAQDYSPFQLTYIQSIFPAAKMTVLGDVSQSIYAHTITGPSSLAGCFRNGAEKYVSLKRTYRSTRQIVEFTKALLADGDDIEPFNRNGEKPRVLRTDTENARREQLADTIRELRQKGWETVAVICKTAAEAKKVFQAVSDGSGVRLINKENQPFQKGVCVIPVYLAKGIEFDAVIAADASAAQYKSEHDRKLLYTACTRAMHHLTVLSPGEPSPFIKEVPAGLFV				NA	NA	NA	NA	NA
D1-12_03157	609			hypothetical protein	ATGGCCTGGGAGCTGCTTAGTGTAATCGGCATCATTGCGTTTGCGGTCAGCGGAGCGATTGTTGCGATGGAAGAGGAGTATGATATTTTAGGCGTGTATATTTTGGGGATTGTAACGGCGTTCGGCGGAGGAGCCATCCGAAATCTGCTGATCGGTGTTCCGGTCTCCGCCTTGTGGGAGCAAGGCGCGTTTTTTCAAATCGCTCTCGCATCAGTTACGATTGTCTTTTTGTTTCCGAAGCTGCTGTTAAGGCATTGGAGTAAATGGGGCAACCTATCCGATGCCATCGGGCTTTCGGCGTTTGCCATCCAAGGCGCTTTATATGCCGTGAAAATGGGCCATCCGCTCAGTGCGGTGATTGCGGCAGCGGTCCTGACCGGCAGCGGGGGCGGCATCATACGGGATCTGCTCGCGGGCAGGAAGCCGCTTGTGCTCAAGGCGGAAATTTATGCGGTCTGGGCCGCGCTCGGAGGGTTAATCGTGGGCCTCGGCTGGGCCGGGGATGCCGCCGGTTTGTATGTGCTGTTTCTTGTGCTTGTGGCATGCCGCATCTGCAGTTATGTGTTCAGGTGGCGCCTGCCGAATCGTTCCTATCATATAGATCAGTAA	MAWELLSVIGIIAFAVSGAIVAMEEEYDILGVYILGIVTAFGGGAIRNLLIGVPVSALWEQGAFFQIALASVTIVFLFPKLLLRHWSKWGNLSDAIGLSAFAIQGALYAVKMGHPLSAVIAAAVLTGSGGGIIRDLLAGRKPLVLKAEIYAVWAALGGLIVGLGWAGDAAGLYVLFLVLVACRICSYVFRWRLPNRSYHIDQ				NA	NA	NA	NA	NA
D1-12_03158	801			hypothetical protein	ATGAAAATCAGTTCACTTGTTTTTCCTGTTTTATTGGCCGCCGGATTAATTCCCGGCCTGCCGTCAGCCGAAAGCCATACACATTCGCACACTCATGCGGAGCCGGCGAAAACGGTGTATACGGACCCGCTTCCGAAAGCCGATCATTTTAAAGATCTGAAGGGCCCGGTCCAAGTTGAACAGACGGTTGACACAAAAATTCTGGATGAAAACGGCAAGCAGGTCGGCACGAAACGATTTAATGCCAATGTCAGTCAGGATAAAGCCTCAACTAAAGCCAGTACGGGCAGCCAGAAGGTCAGAGTGCTGGCGGTGGCGGACGCTGAATACCGCGCCAAATACAGCGACTGGCAAACGCGAATCGTCCAGATCGTGGAGCAGGCGGATGTCGCTTTTAACCGTGATCACAACATTGATTTCGTCGTACAGGCCGTGCAGGCTTGGAATTCTTCCGGCTCAAACAGTTCTCAGATTTTATCGAATCTCCAAGGCAGCTTCAGAAATCAAAATTATCATTTTGTCGTCGGTTTTACCGCAAAATCAAGTTTTGACGCCGGCGGTATCGCGTATGTATATAACGGCAAACCGAGCGGCCCTGCTTTCAGCGTGAACCTTGATCAAGGAACGGCCAACACGGCGAAAGCGGCACAGCACGAGTTTTCCCATAACTTCGGACTTCAGCATGACGCCCAAGGCAGCGGCATCCGCTGCGTCATGAATTATGATTATGCCTATGCCGTGGATATTTGGGACAGCTCCCATAACAGACAGATTGAGACAAACAAAGCTTGGTACAAATAA	MKISSLVFPVLLAAGLIPGLPSAESHTHSHTHAEPAKTVYTDPLPKADHFKDLKGPVQVEQTVDTKILDENGKQVGTKRFNANVSQDKASTKASTGSQKVRVLAVADAEYRAKYSDWQTRIVQIVEQADVAFNRDHNIDFVVQAVQAWNSSGSNSSQILSNLQGSFRNQNYHFVVGFTAKSSFDAGGIAYVYNGKPSGPAFSVNLDQGTANTAKAAQHEFSHNFGLQHDAQGSGIRCVMNYDYAYAVDIWDSSHNRQIETNKAWYK				NA	NA	NA	NA	NA
D1-12_03159	420	bdbC	COG1495	Disulfide bond formation protein C	ATGAAAAATAGAATCGTATTTTTATATGCTTCTTGGGTGATAGCTCTTGCTGCCATGCTCGTCAGCCTTTATTTCAGCGAGATCAGAAAATTCATACCGTGCGAGCTGTGCTGGTATCAAAGAATTCTCATGTACCCGCTTGTCCTGATTTTAGGAATCGCCACCTTCCAGGGTGACACGCGCGTGAAAAAATATGTGCTGCCGATGGCCGTCATCGGCGCGTTTATATCGATCATGCATTACCTTGAGCAGAAGGTGCCCGGTTTCAGCGGCATCAAGCCGTGTGTCTACGGCGTGCCTTGCTCATCTGAATATATTAACTGGTTCGGTTTCATTACCATTCCTTTCCTGGCATTGACGGCATTTATTCTCATTATTATCTGCATGTGTTTTGTCAAAACGGAACGCACGGCAAAATAA	MKNRIVFLYASWVIALAAMLVSLYFSEIRKFIPCELCWYQRILMYPLVLILGIATFQGDTRVKKYVLPMAVIGAFISIMHYLEQKVPGFSGIKPCVYGVPCSSEYINWFGFITIPFLALTAFILIIICMCFVKTERTAK				NA	NA	NA	NA	NA
D1-12_03160	672	bdbD	COG1651	Disulfide bond formation protein D	GTGAAAAAGAAACAATCGTCTGCGAAATTTGCGGTGATACTGACGTTAATCGTTGTCGTTTTATTTGCGGCCATCGTAATTATTAACAACCAAACGGAAAAAGCGGGCGAAACAGTCGCCGAACAGCCTTCCATTAAAGGACAGCCCGTGCTCGGCAAAGACAGCGCGCCTGTTACGGTAGTTGAATTCGGAGATTACAAATGTCCGTCATGCAAAGTATTTAACAGCGATATCTTTCCGAAAATCAAAAAAGATTTTATCGATAAAGGCGACGTGAAATTTTCATTTGTGAACGTCATGTACCACGGAAGCGGCTCGCGTCTGGCGGCTCTTGCTTCAGAAGAGGTGTGGAAAGAAGACCCGGCATCATTCTGGGCTTTCCATGAAAAGCTGTTTGAACAGCAGCCGTCAAGCGAACAGGAATGGGTCACGCCTGCATTGCTTGAAAAAACGGTCAAAAGCACCGCGAAAAAGGTTGATCCTGACAAGCTGAAGGAAAACCTTGATAAAGAAACCTTTGCAAAAGAGCTGAAAGCTGACACTGACCTGAATGATAAATTAAACATTACGGCGACACCGACGATTTATGTAAATGACAAGGTGATTAATGACTTCTCTAAATATGATGAGATTTCAAAAACGATTAAGAAAGAGCTGAAAAATGAAAAATAG	MKKKQSSAKFAVILTLIVVVLFAAIVIINNQTEKAGETVAEQPSIKGQPVLGKDSAPVTVVEFGDYKCPSCKVFNSDIFPKIKKDFIDKGDVKFSFVNVMYHGSGSRLAALASEEVWKEDPASFWAFHEKLFEQQPSSEQEWVTPALLEKTVKSTAKKVDPDKLKENLDKETFAKELKADTDLNDKLNITATPTIYVNDKVINDFSKYDEISKTIKKELKNEK				NA	NA	NA	NA	NA
D1-12_03161	2112	cadA	COG2217	Cadmium, zinc and cobalt-transporting ATPase	ATGAAAGCAGCCAAAGGTGAATTTGTTTTAGACGGACTTGATTGCAGCAACTGTGCAAAAAAAATAGAAAACGGCGTAAAAGCCATTGACGGCATAGACGGCTGTGCTGTCAATTTTGCGGCAAGCACCATCACGGTCTCAGCCGGCGGCAAAAACGAGCAATGGATGAAAGACGAAGTCGCGAAAAAAGTAAAGTCCATTGATCCTCATGTGACCGTCCGTGCGAAACATGAAGATAAACCCGGCGAGGATGAATACCGCAAAAAGCTGCACCTGATGTTAGTGAGGCTGGCAGCGGGAGCCGTTTTGGCCGTCATCGCTTACTTCGCGCACACGGGCGCCGTCCTTGAGTTTCTGCTCTTTTTTGCTTCATATTTGATCATCGGCGGCGATATCGTAGCCAGAGCGGGAAAAAACATTGTCCGCGGCCAGGTATTTGATGAGCATTTTCTGATGGCGCTTGCCACGATCGGCGCATTTGTGATTCATCAGTATCCGGAAGGCGTCGCGGTCATGCTGTTTTACCAAATCGGTGAATTGTTTCAGGGAGCGGCCGTCAGCCGATCCAGAAAATCGATCAGCGCGTTATTGGACATCCGTCCTGAGTACGCCAATGTGAAAACGGAAAACGGCATGACTGCCGTTCCGCCGCAGGACGTCAAAGTCGGACAGGTCATCGTCGTGAATCCCGGAGAACGGATTCCGCTGGACGGAAAGGTGCTGAGCGGTTCTTCGATGGTTGATACATCCGCTTTAACGGGCGAATCCGTGCCGAGAAAAGCGGAGCCGGGGCAAGATGTGATGGCCGGATTTATGAATCAGAACGGCGTGCTTCATATTGAAACCTCTAAAGGATATGAAGACTCTGCCGTGTCAAAAATATTGGATCTGGTCGAAAATGCGGCCGGACGTAAAGCGAAAACGGAAAACTTTATTACGAAGTTTGCCAAGTATTATACACCGGCCGTTGTCATTGTTGCGGTGCTTCTCGCCTTTTTACCGCCGCTTCTCGTGCCTTCAGCCGCGCTATCCGACTGGGTGTACCGCGCGCTGATTTTCCTTGTGATTTCTTGTCCGTGCGCACTCGTCGTCTCCATTCCGCTCGGGTTTTTCGGCGGTATCGGGGCTGCGTCTAAAGCAGGGGTGCTCGTGAAAGGCAGCAACTATTTAGAAGCGCTCAATCAGGTGGCATACGCCGTGTTTGATAAAACGGGAACCTTAACGAAAGGCAATTTCGCCGTTACTGATATCAAGCCGGCGGCGGGATTTACGAAAGACAGCCTGCTTCATGCGGCCGCGCTTGCGGAAGTCCATTCCAATCATCCGATTGCTTCTTCCATCCGTGAAGCTTACAATCAACCGCTCGCGGCTGAGGAGATTGAAGAATATGAAGAAATACCCGGACACGGCATTCGGGTGAAAACCGGCGGATCAACGATTTTGGCCGGAAATCAAAAACTGATGGCAAAAGAACAAATCGCTTCCGGCACAGCTGAAAATAACGGAACCGTCGTCTATGTCGCCGTTGATCAGCGGTATGCGGGGGCGATCGTGATCGCCGACGAAATCAAAGAGGACGCCAAACAGGCCATTGCCAATTTAAAAGCGCTCGGCGTGAAGCGGACAGTGATGCTGACGGGTGATTCAAAGCAGACCGGAGAAGCTGTCGGCCGAGAGCTCGGTATTGATGACGTGTACACAGAGCTTTTGCCGGGTGACAAGGTAGACCGCGTCGAAGAACTTGAAGCGGCGCTTGCACCGAATGAAAAACTGATGTTTGTCGGCGACGGGATTAATGATACGCCTGTGCTTGCCAGAGCTGACATCGGAGCTGCCATGGGGGCTCTCGGCTCTGATGCCGCCGTCGAAGCGGCCGATGTCGTCCTGATGACAGACCAGCCGTCAAAAGCATCCGAAGCGATCCGGATTGCACGCCGCACACGCCGGATCGTCTGGCAGAACATCGGATTTGCTTTAGGCGTAAAAATCATTTTTCTCCTGCTTGGCGCATTCGGATTTGCCACCATGTGGGAAGCGGTCTTTTCAGATGTAGGCGTCACGCTGATCGCCGTTGCCAACGCGATGCGCGTCATGAGAGTGAAAGCGGAATAA	MKAAKGEFVLDGLDCSNCAKKIENGVKAIDGIDGCAVNFAASTITVSAGGKNEQWMKDEVAKKVKSIDPHVTVRAKHEDKPGEDEYRKKLHLMLVRLAAGAVLAVIAYFAHTGAVLEFLLFFASYLIIGGDIVARAGKNIVRGQVFDEHFLMALATIGAFVIHQYPEGVAVMLFYQIGELFQGAAVSRSRKSISALLDIRPEYANVKTENGMTAVPPQDVKVGQVIVVNPGERIPLDGKVLSGSSMVDTSALTGESVPRKAEPGQDVMAGFMNQNGVLHIETSKGYEDSAVSKILDLVENAAGRKAKTENFITKFAKYYTPAVVIVAVLLAFLPPLLVPSAALSDWVYRALIFLVISCPCALVVSIPLGFFGGIGAASKAGVLVKGSNYLEALNQVAYAVFDKTGTLTKGNFAVTDIKPAAGFTKDSLLHAAALAEVHSNHPIASSIREAYNQPLAAEEIEEYEEIPGHGIRVKTGGSTILAGNQKLMAKEQIASGTAENNGTVVYVAVDQRYAGAIVIADEIKEDAKQAIANLKALGVKRTVMLTGDSKQTGEAVGRELGIDDVYTELLPGDKVDRVEELEAALAPNEKLMFVGDGINDTPVLARADIGAAMGALGSDAAVEAADVVLMTDQPSKASEAIRIARRTRRIVWQNIGFALGVKIIFLLLGAFGFATMWEAVFSDVGVTLIAVANAMRVMRVKAE	PGPT0004200_2521	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
D1-12_03162	2430	copA	COG2217	Copper-exporting P-type ATPase	TTGAGTGAACCGAAAGAAATGACCATTCAAGTGGGGGGCATGACATGCGCCGCCTGCGCTTCAAGAATTGAAAAAGGGCTGAAACGGATGGACGGCGTCAATGACGCTTCCGTCAATCTTGCGCTTGAGACTTCAAACATTTCCTATCACCCTGACAAAATCGAAGCAAGCGCCATAAAAGAAAAAATTGAAAAACTCGGCTATCACGTCGTGACGGAAAAAGCCGAGTTTCAGATTGAAGGCATGACGTGCGCCGCTTGCGCCAACCGGATTGAAAAGCGCCTGAACAAAATAGGGGGAGTTGACAGCGCACCGGTGAATTTCGCACTGGAAACAGTCACCGTTGAATACAATCCGAAAGAGGTGACACCGAAAGAGCTGAAAGAGACCGTGGCAAAACTCGGCTACAGATTAGACGAGAAGAAAGCGGTTGATGGAGACGGCGGATTATCCCAAAAGGAGAAAGAGCAGCGAAAACAGCTGATCAGGCTGATATTTTCTGCCGTTCTCTCCTTTCCGCTTCTATGGTCGATGGTCAGCCATTTTTCTTTTACTTCTTTTATCTGGATGCCGGATATCCTGATGAATCCGTGGCTGCAATTCGCGCTTGCCACCCCGGTGCAGCTCGTCATCGGCTGGCCTTTTTATATGGGGGCGTACAAGGCGCTGAGAAACAAAAGCGCCAATATGGATGTTCTCGTTGCGCTCGGAACGACGGCCGCTTACGCATACAGCCTGTACATGACGATTGCGTCTCTCGGACGAGACGGACATGTTGAGGGGCTTTATTATGAAACGAGCGCCATTTTGCTGACTTTGATTTTGCTTGGAAAGCTTTTAGAGATGAAAGCGAAAGGCCGCTCATCAGAAGCGATTAAAAAGTTAATGAAGCTTCAGGCGAAGACGGCGGCGGTTGAGCGGGACGGCAAAGTACAGGTGATTCCGATTGATGAGGTCCGGACGGGGGACATCGTATACGTGAAACCGGGAGAACGCGTCCCTGTCGATGGCGAAGTGATTGAAGGCCATTCCGCAATTGATGAATCGATGATTACGGGAGAGAGCATGCCTGTCGATAAGTCTCCCGAAAGCAGTGTCACCGGTGCGACGATCAATGCAAACGGCTTTCTCAAAATCAGAGCGGTGAATGTCGGGAAAGATACCGCGCTTGCACACATTATTAAAATCGTGGAAGAAGCCCAAGGATCAAAAGCCCCCATTCAGCGGCTCGCGGATCACATTTCAGGCATTTTCGTCCCGATTGTGCTGGGGCTGGCCGTGCTGACTTTTCTCATTTGGTATGTATGGGCCGCGCCGGGACAGTTTTCTGAAGCGATCGGCAAATTCATCGCCGTGCTTGTCATTGCCTGTCCGTGCGCACTCGGGCTCGCCACACCGACGAGCATTATGGCGGGCTCGGGCCGCGCAGCTGAATTCGGCATTCTTTTTAAAGGCGGAGAGCATTTAGAAAAAACACAGCGTCTGACGACAATCGTACTGGATAAAACAGGAACGGTGACAAACGGCAGACCTGTTCTGACAGACGCCGTGCCGGCAGCGGGAATGAACGAAGAGGAACTCCTGCGGCTGGCGGCGGCCGCCGAAACGGGATCAGAGCACCCGCTTGGAGAAGCCATCGTGTCAGGAGCCGAAAAACGGGGGATTGCCATCCCGAAAATCACCCGGTTCCAAGCCCGGATCGGTTCCGGAATCTATGCAGAGGCTGACGGCAGAACGATTCTAGCCGGATCAAGACGGCTGATGGAATCAGAACACATTGAACATGAGGCGCTGCTTCCGCAAATGGCCCGCTTGGAGGCGGAAGGAAAAACGGTGATGCTTATTGCGGCAGACGGCAAAGCGGCGGGGCTTATCGCAGTCGCCGATACAATCAAAGAAACATCTCCGGCCGCGGTGAAACGCCTGAATGATATGGGGCTTGACGTCATCATGATGACCGGTGACAACAAAAAGACCGCAGAAGCCATTGCAAAAGCCGCGGGCATCGGCAGCGTGATCGCCGAAGTGCTTCCCGAACAAAAGGCGGCGGAAATTTCCCGGCTGCAAAAAGAAGGCCGGCGCGTGGCGATGGTCGGTGACGGCATCAATGATGCTCCGGCGCTGGCTGTGGCCGATATCGGAATGGCCATCGGCACCGGCACAGATATCGCAATGGAAGCGGCGGATATTACGCTGATCCGCGGTGACCTGAACGGCATTGCCGACGCCATCGGCATGAGCAGGCTGACCATGAGAAACATCAAGCAGAATTTAGGCTGGGCATTGGGATACAACAGCATCGGCATTCCGATTGCGGCATCCGGCTTTCTGGCCCCGTGGGTGGCAGGCGCTGCCATGGCGTTCAGCTCAGTATCGGTCGTGCTTAATGCTTTGCGTTTACAGAAGGTGAAAAAAGACAAAATGGGCTGA	MSEPKEMTIQVGGMTCAACASRIEKGLKRMDGVNDASVNLALETSNISYHPDKIEASAIKEKIEKLGYHVVTEKAEFQIEGMTCAACANRIEKRLNKIGGVDSAPVNFALETVTVEYNPKEVTPKELKETVAKLGYRLDEKKAVDGDGGLSQKEKEQRKQLIRLIFSAVLSFPLLWSMVSHFSFTSFIWMPDILMNPWLQFALATPVQLVIGWPFYMGAYKALRNKSANMDVLVALGTTAAYAYSLYMTIASLGRDGHVEGLYYETSAILLTLILLGKLLEMKAKGRSSEAIKKLMKLQAKTAAVERDGKVQVIPIDEVRTGDIVYVKPGERVPVDGEVIEGHSAIDESMITGESMPVDKSPESSVTGATINANGFLKIRAVNVGKDTALAHIIKIVEEAQGSKAPIQRLADHISGIFVPIVLGLAVLTFLIWYVWAAPGQFSEAIGKFIAVLVIACPCALGLATPTSIMAGSGRAAEFGILFKGGEHLEKTQRLTTIVLDKTGTVTNGRPVLTDAVPAAGMNEEELLRLAAAAETGSEHPLGEAIVSGAEKRGIAIPKITRFQARIGSGIYAEADGRTILAGSRRLMESEHIEHEALLPQMARLEAEGKTVMLIAADGKAAGLIAVADTIKETSPAAVKRLNDMGLDVIMMTGDNKKTAEAIAKAAGIGSVIAEVLPEQKAAEISRLQKEGRRVAMVGDGINDAPALAVADIGMAIGTGTDIAMEAADITLIRGDLNGIADAIGMSRLTMRNIKQNLGWALGYNSIGIPIAASGFLAPWVAGAAMAFSSVSVVLNALRLQKVKKDKMG	PGPT0004090_3606	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
D1-12_03163	207	copZ		Copper chaperone CopZ	ATGGAACAAAAAACACTGCAAGTCGAAGGCATGTCCTGTCAGCACTGCGTCAAAGCAGTAGAGACCGGAGTAGGAGAACTGAACGGAGTGACGGCGGTTCAGGTGAAATTGGAAGCCGGACAGGTGGATGTGACGTTTGATGAGAACAAAGTCTCCGTATCAGATATAAAAGACGCGATTGAAGATCAAGGTTATGACGTCGTATAG	MEQKTLQVEGMSCQHCVKAVETGVGELNGVTAVQVKLEAGQVDVTFDENKVSVSDIKDAIEDQGYDVV	PGPT0004125_724	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
D1-12_03164	306	csoR	COG1937	Copper-sensing transcriptional repressor CsoR	ATGGACAAACATACCGAGCATCAATCGTTAAATCATAAAAGCGCCAAAGAAAAAGACCAGATCCTGAACCGGCTGAAACGGATTGAAGGCCAGGTCAGGGGCATTCAGAATATGGTGGAGAACGAACGATACTGCGTGGATATTCTTGTGCAGATCTCAGCCGTACAGGCAGCCATGCAGAAAGTCGCGTTTCATCTGCTGGAAGATCACGCCCATCACTGCGTAGCCGGCGCCATTGAGAGCGGAAACGGGGAGCAGGCGATTGCCGAGCTGCTTGACGTTGTGAAAAAAATCGCAAAATCGTAA	MDKHTEHQSLNHKSAKEKDQILNRLKRIEGQVRGIQNMVENERYCVDILVQISAVQAAMQKVAFHLLEDHAHHCVAGAIESGNGEQAIAELLDVVKKIAKS	PGPT0004175_933	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
D1-12_03165	1041	iolW	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	TTGAAAACGATACAGGTTGGCATATTGGGATATGGTTTGTCGGGTAAAGTCTTTCATGCGCCGCTTTTGGACGTCCTTGATGATTATCAGATCAAAAAAGTCATGACGTCCAGAACGGAGGAGGTCAAACGTGATCTGCCGGGGGCTGAAGCCGTGCGCGCGATTGAAGACATTACCGGTGATCCTGACATTGACCTCGTCATCGTCACGACACCGAGCGGAATGCATTATGAATCAGCGATGAAATGTCTACTGGCGGGAAAACACACCGTCGTGGAAAAACCGATGACGGCGACTTCAGCAGAAGCGGAGGAACTGAGAAGAACGGCTGAAGATAAAGGCGTCTTACTGAGCGTGTACCACAACCGGCGGTGGGACAATGACTTTTTAACGATACAAAAGCTGATTCGGGACGGGGCGCTTCAAGACATTCATACATATCAAGTCAACTACGATCTATACAACCCGGTTGTACAGGAAAAATGGCGCGAAAAGAACGGACCCGCCACGGGAACGCTGTATGATCTCGGTTCACATATTATTGACCAGACACTTCTGCTTTTCGGAATGCCGGAATCCGTCACCGCACATGTGATGAAGCAGCGGGACAACAGCGAAACCGTTGATAATTTTCTGGCCGCGCTCCATTACGGCAAGCTTCAGGTCATCCTTCAATCCGGCTCCATGAATGCGGCAAGCGGCCCGCGCTATCAGATTCACGGACGGAATGCAAGCTTTATCAAATACGGAATGGATGGACAGGAAGATGCGCTTTCAGCGGGCAAAAAGCCGGTTGACGAGAGCTGGGGCGCCGATGATCCTGACAACTTCGGAGAGCTGACAACCGCAGCGGATGAAAAACGGCATACAGAAACAATCCCCTCTGAGAACGGCTCTTACCTTACGTACTACAAACTGCTGGCAGACAGCATCTTAAACGGAAAACCGCTTCCCGTTACGGCAAAAGAAGGCATCGATGTCATCCGTGTTATTGAAGCGGCGATGAAAAGCAGCGAACAAAAACGGACGATTGCCCTTTAA	MKTIQVGILGYGLSGKVFHAPLLDVLDDYQIKKVMTSRTEEVKRDLPGAEAVRAIEDITGDPDIDLVIVTTPSGMHYESAMKCLLAGKHTVVEKPMTATSAEAEELRRTAEDKGVLLSVYHNRRWDNDFLTIQKLIRDGALQDIHTYQVNYDLYNPVVQEKWREKNGPATGTLYDLGSHIIDQTLLLFGMPESVTAHVMKQRDNSETVDNFLAALHYGKLQVILQSGSMNAASGPRYQIHGRNASFIKYGMDGQEDALSAGKKPVDESWGADDPDNFGELTTAADEKRHTETIPSENGSYLTYYKLLADSILNGKPLPVTAKEGIDVIRVIEAAMKSSEQKRTIAL	PGPT0018530_518	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
D1-12_03166	636	azoR2	COG1182	FMN-dependent NADH-azoreductase 2	ATGGCAAAAGTACTTTATATCACTGCTCATCCTCATGATGAAAAGACATCTTACAGCATGGCGACAGGAAAAGCGTTTATCGATTCTTATAAAGAATCAAACCCGAATGATGAGGTTGTACATATCGACCTTTACAAAGAGAACATTCCTCATATCGACGCGGATGTATTCAGCGGCTGGGGAAAACTTCAATCCGGCACAGGTTTTGAAGAGCTTTCTGAAAACGAAAAGGCGAAAGTCGGCCGTCTGAACGAGCTGAGCGATCAATTCGCGGCAGCTGACAAATACGTATTCGTCACACCGCTTTGGAACTTCTCATTCCCGCCGGTTATGAAAGCGTACCTTGATTCCGTTGCTGTAGCCGGAAAATCATTCAAATATACAGAGCAAGGCCCGATCGGTCTGTTGACAGACAAAAAAGCGCTCCACATTCAGGCGCGCGGAGGCTATTACTCTGAAGGACCGGCGGCTGACATGGAAATGGGCCACCGTTACATCGGCATCATGATGAACTTCTTCGGCGTTCCTTCTTTCGACGGATTAATCGTTGAAGGCCATAATGCTGAACCGAATAAAGCACAGCAAATTAAAGAAGATGCGATTGCCCGCGCGAAAGAAGCCGGAAAATCATTCTGA	MAKVLYITAHPHDEKTSYSMATGKAFIDSYKESNPNDEVVHIDLYKENIPHIDADVFSGWGKLQSGTGFEELSENEKAKVGRLNELSDQFAAADKYVFVTPLWNFSFPPVMKAYLDSVAVAGKSFKYTEQGPIGLLTDKKALHIQARGGYYSEGPAADMEMGHRYIGIMMNFFGVPSFDGLIVEGHNAEPNKAQQIKEDAIARAKEAGKSF	PGPT0006790_256	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
D1-12_03167	1329	moxC	COG2141	Putative monooxygenase MoxC	ATGAGCCGGACGGATCTTATTCAATTCGGAGCCATGATTCACGGTGTCGGCGGCACAACGGACGGCTGGCGTCATCCCGACGCCGATCCGACAGCAAGCACGAATGCGGCGTTTTACAGACAAAAAGCGCAAACTGCTGAAAGAGGGCTGTTCAGCTTTGCTTTTATTGCGGACGGCTTGTTCATTTCTGAAAAGTCCATCCCGCATTTCTTAAATCGGTTTGAGCCGATCACTATTTTATCGGCGCTTGCCGCCTCTACAACCCATCTTGGTTTAATCGGCACATTTTCCACATCGTTCACTGAGCCGTTCACCATCGCAAGACAGCTGATGTCTCTTGACCATATCAGCGGCGGCCGGGCGGGCTGGAATCTCGTCACCTCTCCGCAGGCGGGAGCCGCGCGCAATCACAGCAAAGAAAGCCTTCCCGACCACAGCCGGCGCTATGCCATCGCCCAGGAACATGTGGACGTGGTGCGCGGCCTGTGGAATTCCTGGGAAGAAGATGCCTTCGTCCGCAACAAAGAAACCGGGCAGTTTTTTGACCCTGACAAACTGCATCGCCTGTATCACAAAGGCGAGTATTTTCAAGTGGAGGGCCCGCTGAATATCGGCCGGTCCAAACAGGGAGAGCCGGTCGTTTTCCAAGCGGGGTCTTCAGAAACCGGCCGGTCGTTTGCCGCGAGGAATGCAGATGCAGTCTTTACGCACTCCAATTCACTTGAGGAAACGAAAGCTTTTTATGATGATGTGAAGAAGCGGGCGGCGGATTACGGCCGGGACGCTTCCAAGCTGCGGATCTTTCCGGGAATCAGTCCGATTATAGCCGGCTCACAAGAAGAAGCGGAAGCGAAATACCAAGAATTCGCCGAGCTCATTCCGATAGAGAACGCTGTTAAATATGTGGCCAGATTCTTTGACGATTATGATCTGAGCCGTTTTCCGCTGGATGAGCCGTTTCCTGATTTGGGCGACGTCGGGAAAAACGCGTTTCAAAGCACGACAGACCGTATCAAAAGAGAGGCGAAAGCCCGGAATCTTACGCTGCGTCAAGTGGCGCGCGAAGCCGCGTTTCCGCGAACCCATTTTATCGGCACACCGGAACGTGTGGCGTCATTAATTGAAACATGGTTTCAGCGCGAAGCGGCGGACGGGTTTATCATTCACTCTGACATCCCCGGCATGCTTGAAGCCTTTGTGGATCAAGTCATACCGATCCTTCAGGAAAAGGGGCTGTACCGAAAAAGCTATCCGGCCGATACACTGCGGGGGAATCTCGGATTGGATATTCCGGCCTGCAGACCCAATCCGATTTTGAGCAGAAACTGA	MSRTDLIQFGAMIHGVGGTTDGWRHPDADPTASTNAAFYRQKAQTAERGLFSFAFIADGLFISEKSIPHFLNRFEPITILSALAASTTHLGLIGTFSTSFTEPFTIARQLMSLDHISGGRAGWNLVTSPQAGAARNHSKESLPDHSRRYAIAQEHVDVVRGLWNSWEEDAFVRNKETGQFFDPDKLHRLYHKGEYFQVEGPLNIGRSKQGEPVVFQAGSSETGRSFAARNADAVFTHSNSLEETKAFYDDVKKRAADYGRDASKLRIFPGISPIIAGSQEEAEAKYQEFAELIPIENAVKYVARFFDDYDLSRFPLDEPFPDLGDVGKNAFQSTTDRIKREAKARNLTLRQVAREAAFPRTHFIGTPERVASLIETWFQREAADGFIIHSDIPGMLEAFVDQVIPILQEKGLYRKSYPADTLRGNLGLDIPACRPNPILSRN	PGPT0003040_16	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
D1-12_03168	288			hypothetical protein	ATGAGTCATGAAGTAAACGTAGTGGTCTGGAGCAAACAGGGCTGCTCCTATTGCGATGAAGTGAAAGGATATTTGCGGGAAAAAGCCGTTGCATACGAAACAATTGATGTGACAGAGCGGGATGAAATGCGTGACGTGCTGCAGACGAAGTACGGCATCCGTCATGTCCCCGTCGTTGAAATCGGCAGCGGTGACAGCCGTGTGTATCAGGCCGTTACTCAAGTCGGCATTGAACATGTAGAACGGGCGCTTGCCGATTACGAGGGGAAAAAGGGGGAGAGAAAATGA	MSHEVNVVVWSKQGCSYCDEVKGYLREKAVAYETIDVTERDEMRDVLQTKYGIRHVPVVEIGSGDSRVYQAVTQVGIEHVERALADYEGKKGERK	PGPT0013201_2904	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
D1-12_03169	1008			hypothetical protein	ATGATTCGTTTAAGCATTTTAGACCAAAGTGTCACCGCGGAAAACCAAACCGCAGAAGAAGCCTTGCGGCAAACGGTGAAATTGGCTCAGGAGGCCGAACAATACGGATATGACCGTTTCTGGGCGGCGGAGCATCATAACAATGAAGAGATAGCGGGATCAGCTCCGGAAATTGTTCTGGGGTATCTTGCCGCAAGCACGAAAAAAATCCGTCTCGCATCCGGCGGGGTGATGCTGCAGCATTACAGTCCCTATAAAGTGGCGGAGCAGTTCCGGGTTCTGTCCGCCCTTGCTCCCGGCCGTGTGGCGCTTGGTGTCGGCAAAGCGCCCGGCGGATTTCAGCTGTCAACCGATGCGCTGCAGCGGGAGCTTATCCAGCCCGCCCGTTTATTTGAAGAAAAGCTTGAGGAGCTGACTCATTTCATCCGAAATGATTTTCCGGACTCGCACCGCTACGCGTCATTGCGGCCGGCGCCGCATACTGAGTATGCGCCTGACCTCTTTTTGCTCGGCGGCAGCGCGGAAAGCGCGATATCCGCGGCCAAACTCGGCATTTCCTTCGTTTTCGCCTATTTCATAAACGGTGAAGAGGCTGCGTTAGAAAAAGCGCGCCATGCCTTTGACGAGCATCTGCCGAAAGGGTCGAAGGCGGAATTTCACCTTGCGCCGATGGTATTTACCGCGCATACAAAAGCAGAGGCTGAAAAACACGTGGTATCGCGTGAGTCGGTCAAAATCATTCTCGAAGACGGCAAAAAGGTGAATGTCGGTTCCCGGGAACAAGCGGAAGCGTTTCTTGAACAAGTCACGCAGCCGTATAAGCTGATTACACAAAAGACGGGTGTGATTGCCGGGACAAAAGAAGAGACAGCCGCCGAGCTGAGACGATTATCGGTTCAATACAGCATTACTGATTTTGTGATTTTGTCGCCTATCAAAAATGCTGAGGAAAAACGATTGTCTTACCGGCTGTTAAGCGAAGCGGTGCAGCCGGCCCCACAATTATAG	MIRLSILDQSVTAENQTAEEALRQTVKLAQEAEQYGYDRFWAAEHHNNEEIAGSAPEIVLGYLAASTKKIRLASGGVMLQHYSPYKVAEQFRVLSALAPGRVALGVGKAPGGFQLSTDALQRELIQPARLFEEKLEELTHFIRNDFPDSHRYASLRPAPHTEYAPDLFLLGGSAESAISAAKLGISFVFAYFINGEEAALEKARHAFDEHLPKGSKAEFHLAPMVFTAHTKAEAEKHVVSRESVKIILEDGKKVNVGSREQAEAFLEQVTQPYKLITQKTGVIAGTKEETAAELRRLSVQYSITDFVILSPIKNAEEKRLSYRLLSEAVQPAPQL				NA	NA	NA	NA	NA
D1-12_03170	780	tcyN	COG1126	L-cystine import ATP-binding protein TcyN	ATGATCGAAATCCGAAACATTCAGAAACATTTTGGCAGTCATCACGTGCTAAAGGGGATCAATTTAAGTGTCCGGAAAGGAGAAGTCGTGACCATCATCGGCCCGAGCGGTTCCGGGAAAACCACTTTTCTGCGCTGCCTTAATTTACTTGAGCGGCCGGATGAGGGCGCCATTTCGCTGCACGGTGAAGTCATTAACTGCAAAAAGCCTGCCAAAAAAGACATTCTCAGACTGAGGAAACAGACGGCGATGGTTTTTCAGCAATATCATTTGTTTTCGCATAAAACGGCGATTCAAAATGTCATGGAAGGCCTGACGGTCGCAAGGAAAATGAAAAAAACAGATGCGTACGCCATTGCCGAGCGGGAACTGGCCAAGGTGGGGCTTCAGGATAAATTGCACGCCTATCCGAATCAGCTATCGGGAGGACAGAAGCAGCGGGTCGGAATTGCCCGGGCGCTTGCCATTCATCCTGATGTGATGCTGTTTGACGAACCGACCGCAGCCCTTGATCCGGAGCTTGTCGGCGAGGTGCTCGATGTGATGCTTAACATTGTGCGGACCGGCGCCACCATGATCATTGTCACACATGAAATGGAATTCGCCAGAAGAGTGTCCGACCAAATTGTGTTTATGGATGAAGGAGCAATCGTGGAACAAGGAACGCCTGAGGAAGTCTTTTACAAGACGAAAAAAGAAAGAACGAAGAAGTTCCTCCGCCGCGTGCTGCCTGATTACGGTTATGACATAAAAGAGCGCATAAAGGAGCCTGTCGTATGA	MIEIRNIQKHFGSHHVLKGINLSVRKGEVVTIIGPSGSGKTTFLRCLNLLERPDEGAISLHGEVINCKKPAKKDILRLRKQTAMVFQQYHLFSHKTAIQNVMEGLTVARKMKKTDAYAIAERELAKVGLQDKLHAYPNQLSGGQKQRVGIARALAIHPDVMLFDEPTAALDPELVGEVLDVMLNIVRTGATMIIVTHEMEFARRVSDQIVFMDEGAIVEQGTPEEVFYKTKKERTKKFLRRVLPDYGYDIKERIKEPVV	PGPT0020745_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020745-tcyN-K16960	NA	NA
D1-12_03171	708	tcyM	COG0765	L-cystine transport system permease protein TcyM	GTGGAGCTGGACATTCCGTTTATCGGCACTGCGATAAAACAAATGGTGAAAACCGTTCCGCTTACATTGGCGATGACGGTCATTCCGATTATCACCGGATTTTTCATAGCTCTCGGCAATATCACGGTGCGTATATTCCGCATCAAATGGCTGCTGGCCTGCTCATCGTTTTACGTGTCTTTTTTCCGCAGCACCCCGGCGATTCTCCATATTATGCTGATTTATTTAGGGATTCCGCTGATTGCCGATCAATTCAGCCGCGCGTTTCATCTCGGCTGGTCGGCCAATCAGATTCCGGTCGCCGTGTTTGTCATCATGGCACTGTCATTAACGGCAGGCGCTTATATGACGGAAATTCTCCGATCCGGGATCATGGCCGTCGATACAGGGCAGGCGGAGGCGGCATATTCAATCGGCCTGACGCGGGGACAGATGATTCGGCGCGTGGTTCTGCCGCAGGCGTTCATGATATCGCTGCCGAACTTCACCAATATAGGCATCGGCTTTTTGCATACCACTTCCATCGCGGCAATTGTTGCAATGCCTGAAATTACAGGAACGGCGACGATTGCGGCATCCGATAACTATGCGTTTCTGGAAGCATTTATCGGGGCGGCCGTGATTTATTGGGGATTAACGCTGATTCTCGAAGCTGTAAACAGTCTGGCGGAAAAAAGAGCGGCCAGATATCAAGGAGGCGCATTATGA	MELDIPFIGTAIKQMVKTVPLTLAMTVIPIITGFFIALGNITVRIFRIKWLLACSSFYVSFFRSTPAILHIMLIYLGIPLIADQFSRAFHLGWSANQIPVAVFVIMALSLTAGAYMTEILRSGIMAVDTGQAEAAYSIGLTRGQMIRRVVLPQAFMISLPNFTNIGIGFLHTTSIAAIVAMPEITGTATIAASDNYAFLEAFIGAAVIYWGLTLILEAVNSLAEKRAARYQGGAL	PGPT0020740_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020740-tcyM-K16959	NA	NA
D1-12_03172	723	tcyL	COG0765	L-cystine transport system permease protein TcyL	ATGGAAAAAGCGTTTGATATCAGTATGATCGCGTCCTTTGTGCCGACATTGCTCGGGTATTTGCCCGTCACGCTGTATATATTGGCGGTGTCTTTGCTGTTCGGCTTTCTATTGGGGCTGCTTTTGGCGCTGCCCCGCATCTATCGCATTCCCGTTTTGAATCAGTTTGCGAAGCTGTATATCTCTTTTTTCAGAGGAACGCCTATCATGGTGCAGCTGTTCATTGTATTTTACGGCATTCCGGCGCTCACGGCGCTCGCCGGAATTGATACCTCCAAAATGGACCCTTTGTATGCGGCCATCGCCACGTATGCGCTGAGCAGCGCGGCAAGAGCGGCCGAAATCATCAGGGGAGGTGTGAACAGCGTCGACAGCGGGCAGGCGGAGGCGGCGTTCAGCATCGGGCTGAACGGGGGGCAGACATTCCGGCGCATCATTCTGCCGCAGGCGCTTGTGCAGGCCTTTCCCAACATCGGGAATATGGTGATCGGTTTCTTAAAAGATACATCACTCGCTTTTTCGATCGGGGTGATGGATATGTCGGGCAGAGGACAGACCTTGATTACATCGAGCAATCATTCTTTAGAAGTGTATATCTCGCTTTCTGTTCTGTATTATGCGGCCGCCCTTTTATTTGAATGTGTCTTCAGATGGGCCGAAAAACGAATCAAGAAAGATGAGACGCGCCTTGTGACGGTTTTTGACATGAGCGCGCACGGCTGA	MEKAFDISMIASFVPTLLGYLPVTLYILAVSLLFGFLLGLLLALPRIYRIPVLNQFAKLYISFFRGTPIMVQLFIVFYGIPALTALAGIDTSKMDPLYAAIATYALSSAARAAEIIRGGVNSVDSGQAEAAFSIGLNGGQTFRRIILPQALVQAFPNIGNMVIGFLKDTSLAFSIGVMDMSGRGQTLITSSNHSLEVYISLSVLYYAAALLFECVFRWAEKRIKKDETRLVTVFDMSAHG	PGPT0020735_61	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020735-tcyL-K16958	NA	NA
D1-12_03173	813	tcyK	COG0834	L-cystine-binding protein TcyK	ATGAAAATAAGATTGGCGGTCATGTCATTAACAATTGCCGCAACGGCGGCGTTATCAGCCTGCGGCGCGGGCGGGGAGGCGGCATCAGGCAATCAGAAAAACGTGAAGAACATCACGGTCGGCACGGGAACCCAATTTCCGAATATTTGCTTTATTGATGATAAAGGCAAATTGACGGGCTACGACGTTGAGCTGGTGAAAGAGCTTGACAGGCGCCTGCCGGACTATCGTTTCACTTTTAAAACGATGGATTTCTCCAACCTGCTTGTCAGCCTCGGCCAGCATAAAGTCGATATCGTAGCCCATCAAATGGAGAAAAGCGCCGAACGGGAGAAAAAATTTCTGTTCAATCAAGTCGCGTATAACAACTTCCCGCTGAAAATCACGGTGCTTCAAGAAAACGGGAACATTCACGGCATTGATGACTTGAAAGGGAAGCGGGTCATTACGAGTCCGACGTCAAACGGCGCGCTTGTGCTGAAAAAATGGAATGAAAAACACGGCAGTCCGTTTGAAATCGCTTATGCCGGCCAAGGTTCAAACGATGCGGCCAATCAGCTGAAATCCGGCCGCGCCGATGCGACGATTTCTACGCCGTTTGCCGTCGATTTCCAAAACAAAACGAGCGCGATCAAAGAAAAAACGGTCGGCGGGGTGCTGTCAAATGCCAAAGTGTTCTTTATGTTTAACAAAAATGAACAAACGCTGAGCGATGACATTGATAAAGCCCTGCAGGAAATCATTGATGACGGCACGCTTAAAAAGCTGAGTGAAAAGTGGCTCGGCGCGGATTATTCAAAGGAGCAATATTAA	MKIRLAVMSLTIAATAALSACGAGGEAASGNQKNVKNITVGTGTQFPNICFIDDKGKLTGYDVELVKELDRRLPDYRFTFKTMDFSNLLVSLGQHKVDIVAHQMEKSAEREKKFLFNQVAYNNFPLKITVLQENGNIHGIDDLKGKRVITSPTSNGALVLKKWNEKHGSPFEIAYAGQGSNDAANQLKSGRADATISTPFAVDFQNKTSAIKEKTVGGVLSNAKVFFMFNKNEQTLSDDIDKALQEIIDDGTLKKLSEKWLGADYSKEQY	PGPT0020730_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020730-tcyK-K16957	NA	NA
D1-12_03174	813	tcyJ	COG0834	L-cystine-binding protein TcyJ	ATGATAAAAAAACGGATCAGAGCCGGCTGTCTGCTTCTGCTGCTCGGCGTGCTGGCCGGGTGCGGGCAAGGAGAAAGCACAAAAGCGGGGAGCGGCGTGCAGACCGTCATTGTCGGCACGGGAACTGATTTTCCGAACATTGCTTTTATGGATGAAAAAGGCGAGCTGACCGGCTATGACATTGAAGTGATGAAAGCCATTGATAAACAGCTGCCGCAATACAAATTTGTCTTTAAGACGATGGATTTTTCGAATCTGCTCACAAGTCTCGGAAACCGGAAAATTGACGTGATCGCGCACAATATGGCGAAAAATAAGGAACGGGAGAAACGCTTTTTGTATCACAAGATCCCGTATAACTACTCGCCGATGTACATCACGGTGAAGGCGGATAATGACGCGATACACACGCTCCGGGATTTAAAAGGGAAAACCGTCATCGTCGGCGCGACGTCAAACGCGGCGGACTATATGACGGCATACAACAAAACCCACGGCAGCCCGATACATTTGAAATACGCCGGGCAGGGCAGCAATGATACAGCAAACCAAATTGAGACGGGACGCGCTGACGCCACCGTATCCACGCCGTTTGCCGTCGATTTTCAAAATAAGACGCACGCGTTCAAACAAAAAACGGTCGGTGATGTGCTGCTGGATACCGAGGTGTATTTTATGTTCAATAAAAACAGCCAAACCCTGGCGGACGATACGGATCGGGCGATTCAAAAGCTTGAGAAGGACGGCACATTGAAAAGGCTGAGTGAAAAATGGCTCGGCGCGGATTATTCAAAATCAAGTTTCACGAAATAA	MIKKRIRAGCLLLLLGVLAGCGQGESTKAGSGVQTVIVGTGTDFPNIAFMDEKGELTGYDIEVMKAIDKQLPQYKFVFKTMDFSNLLTSLGNRKIDVIAHNMAKNKEREKRFLYHKIPYNYSPMYITVKADNDAIHTLRDLKGKTVIVGATSNAADYMTAYNKTHGSPIHLKYAGQGSNDTANQIETGRADATVSTPFAVDFQNKTHAFKQKTVGDVLLDTEVYFMFNKNSQTLADDTDRAIQKLEKDGTLKRLSEKWLGADYSKSSFTK	PGPT0020725_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020725-tcyJ-K16956	NA	NA
D1-12_03175	540	ytmI		putative N-acetyltransferase YtmI	ATGAGTGAAGACATATTTCGATTGGCTGAGAAAAAGGATGCGCCGGAGTTTTTAGAGCTGCTGTACAGCGCGTTTCAGCCGATCCGCAATTTGGAGATTGACTGGCCGTCGGCGCGGGCCGACATCGATATGGTAACAGAAAATATTGAAAATCATTCAGCCGTCGTGCTCGAACGGGACGGACGGCTTCTTTCAACAATTACGATCCGTTTTCCGTGGGAGAGTGACACGCCTCCGTCAAAATATCCGTTTGTCTGGTGGTTTGCGACGCTTCCTGAGCTGAAGGGGCAGGGCATCGGCAGCAAACTTTTGACTTATGTGGAAGAACACGTGCTGCGGGATACGCTGAAGGCCCCGGCCATCACGCTCGGCACTTCGGCGCGCAAGCATCCCTGGCTTGTAGATATGTACAGACGGAGGGGGTATGAAGTGTATTTTGAGCAGGAGAAAGACGGAGACATCGGAGTCATGATGAGAAAGGTGCTCATACCGGAGCGGTTTGACGCGTCGCTGTTAGGCACACCGAGCTGGGCGCAATGA	MSEDIFRLAEKKDAPEFLELLYSAFQPIRNLEIDWPSARADIDMVTENIENHSAVVLERDGRLLSTITIRFPWESDTPPSKYPFVWWFATLPELKGQGIGSKLLTYVEEHVLRDTLKAPAITLGTSARKHPWLVDMYRRRGYEVYFEQEKDGDIGVMMRKVLIPERFDASLLGTPSWAQ				NA	NA	NA	NA	NA
D1-12_03176	891	cmpR	COG0583	HTH-type transcriptional activator CmpR	TTGGAATTACGCACCATTAAAACGTTTCATACCATCGTACAGTCAGGCAGCTTTTATAAGGCCGCCGAAATTCTGAACTACTCACAGCCGACGATTTCAATGCGGATTAAACAGCTGGAACAAGATGTAGGCGCGCAGCTGTTTGAACGGGGAAAGAAGCTGAAACTGACAAGGGCGGGGCGGCTGTTTCATGAGCGGGCCGGGCAGCTTCTCGCGCAATACGAGGTGCTTGACCATACTTTGGCCGACATCAGACAGGGCCAGGCCGGCCTTATTCAGATCGGCATATCCGAACCGACGGCAAGCCTGATCTTCCCTGCCGTACTGCGGGGTTTCTTACATGATTATCCTGACATGTCGGTCAATGTCAGCGTGGATGATGCCAATACATGCAGCCGCAAACTGCTGGAGGGCGCCATTGATTTTGCCGTATGCGGCGAGCCGGAGCTGATTCTGGAAAATTATTTCGATCCGTTTTTCCATGACTCGCTCAATGTCATCGTGTCAGACAGACATCCCCTTGCCGACAAAGCAAGCGTCAATCTCGAGGATTTAGAAAATGAATGCCTGATTTTCACGCCCGCCAATTGCCCGATCCGGATTCAAATTGAACAGCACCTGCAGCGTGCCATCGGGAGCCGCTATCGAAAAATGGAGCTGACCAGCAGCATGGCTCATCAATACTATGTCAGGGAAAATATCGGCGTCTCAATCTTTACGGCGACGGCGCACTCAGAACCGATCGAGGGCACGAAGGTCATTCCGATCAATAACTTAACAATTTCACCACCGGTCGGGCTGTTGACAAACCAAAAAGAAGAGCATTTTGACTGCGCCACAAAAGATTTAATCAGCAGGATCATCGGCCGGTTTCAGCGTGATCCGCATTAA	MELRTIKTFHTIVQSGSFYKAAEILNYSQPTISMRIKQLEQDVGAQLFERGKKLKLTRAGRLFHERAGQLLAQYEVLDHTLADIRQGQAGLIQIGISEPTASLIFPAVLRGFLHDYPDMSVNVSVDDANTCSRKLLEGAIDFAVCGEPELILENYFDPFFHDSLNVIVSDRHPLADKASVNLEDLENECLIFTPANCPIRIQIEQHLQRAIGSRYRKMELTSSMAHQYYVRENIGVSIFTATAHSEPIEGTKVIPINNLTISPPVGLLTNQKEEHFDCATKDLISRIIGRFQRDPH				NA	NA	NA	NA	NA
D1-12_03177	795	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGATTTGCAGTTGAAAGGGAAGACGGCGCTTGTGACAGGATCTACGTCAGGCATCGGGAAGGCGATTGCGGCTTCGCTGATTGCAGAAGGTGCGGCCGTGATCATTAACGGCCGCCGTGAAGAAAAGGTGAACGAAACGATCCGGGAACTAGAGAAACAGACGCCGGATGCCCGTCTCTATCCGGCCGCATTTGATTTAGGCACGGCGGAAGGGTGCGGCGCGATTTTTCAGCAGTATCCGGATGTGGATATTCTCGTCAACAATTTAGGAATCTTTGAACCTGCGGAATACTTTGATATTCCTGACGAAGAGTGGCTCCGGTTTTTCGAGGTGAATATCATGAGCGGCGTGAGGCTGACACGCCGGTATGCAAAGCGGATGATTGAACGGAAGGAAGGGCGGGTGATTTTTATCGCGAGTGAAGCGGCCGTCATGCCTTCTCAGGAAATGGCCCATTACAGCGCTACGAAAACGACGCAGCTGTCGCTGTCACGCAGTCTGGCCGAGCTCACGGAAGGGACGAATGTGACGGTGAATACGGTCATGCCCGGCTCCACGAAAACAGAGGGCGTCGAAACAATGCTCGAGTCGCTTTATCCCGGTGAAAACCTAACCGCGGTGGAGGCGGAGAGACGATTTATGAAGGAAAATCGTCCGACGTCGATCATTCAGCGATTGATCCGTCCGGAAGAAATCGCCCACTTTGTCGCCTTTTTAAGCAGCCCGCTGTCGTCTGCCATTAACGGATCTGCATTGCGGATCGACGGCGGCTTGGTGCGGAGCATTATATAA	MDLQLKGKTALVTGSTSGIGKAIAASLIAEGAAVIINGRREEKVNETIRELEKQTPDARLYPAAFDLGTAEGCGAIFQQYPDVDILVNNLGIFEPAEYFDIPDEEWLRFFEVNIMSGVRLTRRYAKRMIERKEGRVIFIASEAAVMPSQEMAHYSATKTTQLSLSRSLAELTEGTNVTVNTVMPGSTKTEGVETMLESLYPGENLTAVEAERRFMKENRPTSIIQRLIRPEEIAHFVAFLSSPLSSAINGSALRIDGGLVRSII	PGPT0003180_3081	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
D1-12_03178	306		COG2732	Barstar	ATGGAAATCGTCATCATAGACGAAAAAGATGTTACAAGCACAGAAGCATTACACCGAATCTTAAAAGATCAATTAGATTTCCCGGACTATTATGGTGAAAATCTGAATGCCTTATGGGATTGTCTGACAGGCTGGATAGAATATCCGCTGACTTTGGTGTGGAAGAATTTTGAGGCCAGTCAAAAGGCATTGGGTTCGGATGCTGATGATGTATTAAGGATATTAAAAAAGGCTCAGGCAGAATTAGATGGTGAATTTTTCATTCAAATCGATCAGCCGTCAGCCGGGACAACGGACAGGCACTAA	MEIVIIDEKDVTSTEALHRILKDQLDFPDYYGENLNALWDCLTGWIEYPLTLVWKNFEASQKALGSDADDVLRILKKAQAELDGEFFIQIDQPSAGTTDRH				NA	NA	NA	NA	NA
D1-12_03180	471	smpB	COG0691	SsrA-binding protein	ATGCCAAAAGGATCAGGCAAAGTATTATCGCAAAACAAAAAAGCAAATCATGACTACTTTATAGAAGAAACCTATGAAACAGGCATCGTGCTGCAGGGAACGGAGATTAAGTCCATCCGCGCCGGCCGCGTAAACATGAAGGATTCCTTTGCGAAAATCGAGCGCGGCGAAGTGTTCCTCCACAACATGCACATCAGCCCGTACGAGCAGGGAAACCGCTATAACCACGACCCGCTCCGGACGAGAAAGCTTTTGATGCACCGGAAAGAAATCAATAAACTGATCGGCCTGACAAAAGAGAAAGGCTATTCCCTCGTGCCGCTGAAGCTGTACTTGAAAAACGGCTTCGCCAAAGTATTAATCGGCCTCGGAAAAGGGAAGAAAACATACGATAAACGTGATGATTTAAAACGAAAAGACGCCAAAAGAGAAATCGAAAGAGCGTTCAGAGACAGACAAAAAGGCTTCTGA	MPKGSGKVLSQNKKANHDYFIEETYETGIVLQGTEIKSIRAGRVNMKDSFAKIERGEVFLHNMHISPYEQGNRYNHDPLRTRKLLMHRKEINKLIGLTKEKGYSLVPLKLYLKNGFAKVLIGLGKGKKTYDKRDDLKRKDAKREIERAFRDRQKGF	PGPT0014355_2405	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
D1-12_03181	2334	rnr	COG0557	Ribonuclease R	ATGGAAAAAGAAGCGTTTATGGACCGTCTTCTCGCGTTTATGAAGGAAGAGGCGTACAAGCCCCTTACCGTTCAGGAACTCGAGGAGATGCTGAACATCACGGAAGCAGATGAATTTAAAGAGCTGGTAAAAGCGCTGGTGGCGCTCGAGGAGACGGGACAGATCGTCCGCACCAGAAGCAACCGCTACGGGCTTCCGGAAAAAATGAATTTAGTAAAAGGAAAAATTTCCGCGCATGCAAAGGGATTCGCGTTTCTATTGCCGGAGGATACCTCTTTAAGCGACGTGTTTATTCCGCCGAATGAGCTGAATACGGCCATGAACGGCGATATCGTTATGGTGCGGCTCAATTCCCAGTCAAGCGGATCGAGACAGGAAGGCACGGTCATCCGCATCCTGGAAAGAAGCATCGACCGCGTCGTGGGCACATACACAGAAACGAAAAGCTTCGGCTTTGTCATCCCGGATGATAAGAAAATCACGAGTGATATTTTTATTCCGAAACATGCCAATAACGGCGCTGCGGAAGGCCATAAAGTCGTCGTCAAACTGACAAGCTACCCTGAAGGCAGAATGAACGCCGAAGGAGAAATCGTTGAAATACTCGGCCATAAAAATGATCCGGGCATCGATATTTTATCCATCATCCATAAGCACGGCCTGCCGGGAGATTTTCCGGCTGAAGCGATGGAGCAGGCAACAAGCACGCCCGATACCATCGATGAAAAAGACATCAAAGACCGCCGTGATCTCCGCGATCAGGTCATTGTCACCATTGACGGCGCCGATGCGAAGGATCTGGATGACGCCGTCACCGTGACAAAGCTTGATAACGGCAGCTACAAGCTCGGCGTTCATATTGCCGATGTCAGCCATTACGTCACGGAGAATTCCCCGATTGACAAAGAAGCGCTGGAAAGAGGGACAAGCGTGTACTTGGTTGACCGGGTCATTCCGATGATCCCGCACAGACTGTCTAACGGAATCTGTTCTTTAAATCCGAAGGTCGACCGGCTGACGCTTTCCTGCGAAATGACAATCAACCAGCAGGGACAGGTGACGGAGCACGAGATCTTCCAAAGCGTCATTAAAACGACGGAAAGAATGACCTATTCAGATGTCAACCGGATCCTCACAGAAGACGACGCCGAGCTGAAAGAAAGATATGAGCCGCTCGTCCCGATGTTTAAAGACATGGAACGTCTGGCGGAAATTCTCCGGGCGAAACGGATGGACCGCGGCGCCGTGGATTTTGATTTCAAAGAGGCGAAGGTGCTCGTCGATGAGGAAGGCGCCGTTAAAGACGTCGTCATCAGAGAGCGCTCAGTAGCGGAAAAGCTGATCGAAGAATTCATGCTTGTCGCAAACGAAACGGTGGCCGAGCACTTCCATTGGATGAACGTGCCGTTTATTTACCGGATTCACGAAGAGCCGAACGCCGAAAAACTGCAAAAGTTCTTGGAGTTCGTCACGACATTCGGTTATATCGTCAAGGGGAAAGCCGGAGACATTCATCCGCGCGCGCTGCAAAGCATTCTTGATGAAGTGCGGGACCGTCCGGAAGAAACGGTGATTTCAACGGTTATGCTCCGTTCCATGAAGCAGGCGAAATACGACCCGCAAAGCCTGGGCCATTTCGGGCTGGCGACTGAATTTTATACGCACTTCACATCGCCGATCCGCCGATATCCTGACTTAATCGTTCACAGGCTGATCAGAACGTATTTGATCAACGGACAATCGGACGAAGCAACTCAGGAAAAGTGGGCCGAACGCCTTCCGGAAATCGCTGACCATACGTCAACGATGGAACGGCGCGCCGTTGATGCAGAGCGGGAAACGGACGATCTGAAAAAAGCGGAATATATGCTTGATAAAATCGGCGAGGAATTTGACGGCATGATCAGTTCCGTCACGAATTTCGGAATGTTCGTCGAGCTGCCGAATACGATTGAAGGGCTTGTGCACGTCAGCTTTATGACGGATGATTATTACCGTTTTGACGAGCAGCATTTCGCCATGATCGGTGAACGCACGGGCAACGTTTACCGCATCGGAGACGAAATCACGGTCAAAGTCGTCGACGTCAATAAAGATGAGAGAAACATCGACTTTGAAATTGTCGGCATGAAAGGCACCCGCCGTCCGAGAGAAACAACAGGCGACCGCAGAAAACGAGGCAGACCGGCGCGGAAACGCGTGTTAAACAGCAATACCCCGGCTTCACCGCCGAAATCGGAGGAAAAAGGGGAATGGTTTACAAAACCGAAGAAGAAAAAGAAAAAACGCGGTTTCCAAAACGCGCCGAAACAAAAACGCAAAAAGAAGAAGTAA	MEKEAFMDRLLAFMKEEAYKPLTVQELEEMLNITEADEFKELVKALVALEETGQIVRTRSNRYGLPEKMNLVKGKISAHAKGFAFLLPEDTSLSDVFIPPNELNTAMNGDIVMVRLNSQSSGSRQEGTVIRILERSIDRVVGTYTETKSFGFVIPDDKKITSDIFIPKHANNGAAEGHKVVVKLTSYPEGRMNAEGEIVEILGHKNDPGIDILSIIHKHGLPGDFPAEAMEQATSTPDTIDEKDIKDRRDLRDQVIVTIDGADAKDLDDAVTVTKLDNGSYKLGVHIADVSHYVTENSPIDKEALERGTSVYLVDRVIPMIPHRLSNGICSLNPKVDRLTLSCEMTINQQGQVTEHEIFQSVIKTTERMTYSDVNRILTEDDAELKERYEPLVPMFKDMERLAEILRAKRMDRGAVDFDFKEAKVLVDEEGAVKDVVIRERSVAEKLIEEFMLVANETVAEHFHWMNVPFIYRIHEEPNAEKLQKFLEFVTTFGYIVKGKAGDIHPRALQSILDEVRDRPEETVISTVMLRSMKQAKYDPQSLGHFGLATEFYTHFTSPIRRYPDLIVHRLIRTYLINGQSDEATQEKWAERLPEIADHTSTMERRAVDAERETDDLKKAEYMLDKIGEEFDGMISSVTNFGMFVELPNTIEGLVHVSFMTDDYYRFDEQHFAMIGERTGNVYRIGDEITVKVVDVNKDERNIDFEIVGMKGTRRPRETTGDRRKRGRPARKRVLNSNTPASPPKSEEKGEWFTKPKKKKKKRGFQNAPKQKRKKKK				NA	NA	NA	NA	NA
D1-12_03182	741	est	COG1647	Carboxylesterase	ATGAAAATTGTGACACCAAAACCATTTACATTTAAAGGCGGAGACAAAGCGGTGCTTCTGCTGCACGGATTTACGGGAAATACGGCAGACGTCAGAATGCTCGGCCGCTACTTGAATGAGCGCGGCTACACTTGTCACGCGCCTCAATATAAAGGGCACGGCGTTCCGCCGGAAGAGCTGGTACATACGGGGCCTGAAGATTGGTGGAAAGACGTCATGGACGGTTATGGATATTTACGGTCTGAAGGCTATGAAAACATTGCGGCCTGCGGACTGTCGCTTGGCGGGGTTTTTTCATTGAAATTGGGTTACACTGTACCCATAAAGGGAATTGTTCCTATGTGTGCGCCGATGCACATTAAAAGTGAAGAGGTTATGTACGAAGGAGTTCTTTCCTACGCGCGCAATTATAAAAAATTCGAAGGAAAACAGCCGGAGCAGATTGAAAAGGAAATGAAGGAGTTTGAAAAAACACCGATGAATACGCTCAAATCGCTTCAAGAGCTGATTGCCGATGTGCGCAAAAACGTCGACATGATCTATTCCCCGACATTTGTGGTTCAGGCACGGCATGACCATATGATCAATACAGAAAGTGCGAACATCATTTACAACGAGGTGGAAACGGACGACAAACAGCTGAAATGGTATGAAGAATCAGGCCATGTCATCACGCTCGATAAAGAACGGGACCTCGTTCATCAGGATGTGTACGAATTTTTAGAGAAACTCGATTGGTAA	MKIVTPKPFTFKGGDKAVLLLHGFTGNTADVRMLGRYLNERGYTCHAPQYKGHGVPPEELVHTGPEDWWKDVMDGYGYLRSEGYENIAACGLSLGGVFSLKLGYTVPIKGIVPMCAPMHIKSEEVMYEGVLSYARNYKKFEGKQPEQIEKEMKEFEKTPMNTLKSLQELIADVRKNVDMIYSPTFVVQARHDHMINTESANIIYNEVETDDKQLKWYEESGHVITLDKERDLVHQDVYEFLEKLDW				NA	NA	NA	NA	NA
D1-12_03183	231	secG	COG1314	putative protein-export membrane protein SecG	ATGCACACATTATTGATTACCTTATTGGTTATCGTCAGTATTGCACTTATTATTGTCGTATTGCTTCAAACCAGCAAAAGCGCCGGTTTATCGGGTGCAATTTCAGGCGGGGCGGAGCAGCTTTTCGGAAAACAGAAAGCAAGGGGCCTTGATCTGATTCTTCACCGCACAACCGTTGTGCTGGCAGTCTTGTTTTTCGTGTTGACGATTTCGCTGGCGTATATCGTATAA	MHTLLITLLVIVSIALIIVVLLQTSKSAGLSGAISGGAEQLFGKQKARGLDLILHRTTVVLAVLFFVLTISLAYIV	PGPT0025720_3890	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
D1-12_03184	231			hypothetical protein	GTGGTCGAAAAGATACAGATCAGAAGAGATTATGTGCTGCAGTATATGGTCAATAATGACTACTCGTTAAACCAGCTCGCCCTGGAGATCGGAATATCTCCCGCCACACTGAGCCGTGTACTGAATGGAGAGCGGAGGCCGGGACAGCTGGTCATCGGAAAAATGCTCTATTACTTTGACATGAAATTTGAAGATCTTTTTTACTACGACTTTGTTGACAAAAGTCAATGA	MVEKIQIRRDYVLQYMVNNDYSLNQLALEIGISPATLSRVLNGERRPGQLVIGKMLYYFDMKFEDLFYYDFVDKSQ				NA	NA	NA	NA	NA
D1-12_03185	411	rghR_1		HTH-type transcriptional repressor RghR	GTGGAAAGCTTCGGGAAACAATTGCGGACATTGCGGGAAAAAAGGCATCTGACAGTGAACCAGCTGGCAACGTATTCAGGCGTCAGCGCCGCGGGAATCTCGCGGATTGAAAACGGCAAACGCGGGGTGCCGAAACCTGCAACCATTAAAAAGCTCGCAGATGCGTTAAAAATCCCGTATGAGGAACTGATGCAGACGGCGGGATACATAGAGACCGTCCAGGAAACGAGAGCCCCGTACGACACGGGCTGCACCTTGCTGGAAAAAGCCGAAACGTATGAGCTGCATGATTTATCCCTATTGGAGCGGGAGAACTGGCGGCACCTGTCGAAAGAAGACTTGGTTCTGCTTGATAAATACTTTGCGTTCTTATCGGCGGAAGCCAAAAAAAGAACAAACGAAGACTCATGA	MESFGKQLRTLREKRHLTVNQLATYSGVSAAGISRIENGKRGVPKPATIKKLADALKIPYEELMQTAGYIETVQETRAPYDTGCTLLEKAETYELHDLSLLERENWRHLSKEDLVLLDKYFAFLSAEAKKRTNEDS	PGPT0015710_28798	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
D1-12_03186	432	rghR_2		HTH-type transcriptional repressor RghR	TTGAACACATTCGGAAAGCAATTAAGAGAGCTGCGCCGCGCCCGGAAGCTTACCGTCAATCAGCTTGCCGTCTATTCCGGTGTCAGCTCGGCGACCATTTCCAGAATTGAAAACGGGCACCGCGGCATTCCTAAACCCGCGACCATCAGAAAATTGGCGGACACATTAAAAATTCCGTACGAGGAGTTAATGGCGCGGGCCGGACACATCAAGGCATTTCAGGAGGAAATCCGCGAAACATCCGAAAGCTATCAATCCATCTGCGCCATCTATCAGACCGCCGTTGACAGAGGCGCGGAGCATCTGCCGCTGTTTGACAGCAAAAAGTGGCAGCACTTCACAAAAGAAGATATTGAAAGCGTCAGCAAATACTTTGATTTTATCGCGGCTGAAGCGAAAAAGCGCTCCCCGGATTCCTCATCCTCTTTTTGA	MNTFGKQLRELRRARKLTVNQLAVYSGVSSATISRIENGHRGIPKPATIRKLADTLKIPYEELMARAGHIKAFQEEIRETSESYQSICAIYQTAVDRGAEHLPLFDSKKWQHFTKEDIESVSKYFDFIAAEAKKRSPDSSSSF				NA	NA	NA	NA	NA
D1-12_03187	318	yodB_2	COG1733	HTH-type transcriptional regulator YodB	ATGAACCAATCAGAAATGTGCCCCAGATTCGAAAAAGCGGTCGACATCCTAAGTAAACGCTGGGTGGCTCTAATCGTCTTTCAGTTATTGAACGGACAGCAGCGATTTAGCGAAATTGAAGCGGCGCTTCCGAATTTAAGCGGAAGAGTCTTGTCAGAACGTCTGAAAGAACTTGAAACAGAAGGTGTCATCAAACGGGATGTTATCCCCGAAACGCCTGTCCGCATTGAGTATTCATTAACGGAAAAAGGCTGCGCATTAGCCCCTATTTTAGAGGAAATTTCCAAGTGGTCTTCACAATGGATTGATCCTTCCTGA	MNQSEMCPRFEKAVDILSKRWVALIVFQLLNGQQRFSEIEAALPNLSGRVLSERLKELETEGVIKRDVIPETPVRIEYSLTEKGCALAPILEEISKWSSQWIDPS	PGPT0028512_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028512-yodB-NA	NA	NA
D1-12_03188	1404	rcsC_4		Sensor histidine kinase RcsC	ATGGGAATAGCAAAAGGAAAATCCAGCATCCGCAAAGAGCTTGTCAAATTTACCATCACGCTGTGTCTGAGCACGATGGGGGTGGCGGCATTATGTGTCGCCTTAAATGCCATTGCCATGAATGCCGGAGCGATCCTGCCCGCAAACTACAGCGAGCATGAGGCGGAACAGATCAAACCCCGCCTGAAATCAGCGGAAAAGATAACAGAAGATATGATCCCCGCAGGTATGACATACGCCGTTTTTGATAAAAAAACAAAGCGGATGACGAAAGGAACGATGACGGAACAAGATGCGGCCAACGCCAGAAAAAAGATTCAGCATCAGCCGTATTTTAATTATGCTCAAAAAGGATTCATGGTGATAAATCGGAAAGATGAATACGGCGTTCTCCAATATTCACTCAGGTCGGAATTTCAGTCGCCGCTGTTAAGGCGCTATCTGCCGAATTATGAATGGACGGGTCTTACGATTCTGATCACTTTGCTTCTTTTGACCGTTTTTATCGTGACGACGCGTTTCGCCAATCAGCTGAGACGGCATTTCAGCACACTCAGCTCCATTACGGCAAGCATTCAAAAACAGAATTTAAATATCAATCCAAAAAGGTCGCGTATAAAAGAATTTGACGATGTCATTGACTCTCTGCTGAAAATGAAAGACGCGCTTCAAGCATCTCTGGCGGCGCAGTGGGAGGCGGAGCGGATAAAGAAAGAACAGATCGGCGCGCTTGCGCATGATATTAAAATTCCGGCAACGATCATTAAAGGAAATGCCGAGCTGCTTCAGTTAACAGAGCCTGATGAGGAGCAGGCGGAATATGCGCAGTATATTCTGGATGCCGGAAACAAAATCGAGCATTATGTCGGACAGCTGATCCAGCTTTCCAAAGCGGAGGAGGCAGTTGCCGTTCATGTGGAATATACTGACCTCAAAGAGTGGATTCAAAACATATATCGTGACGCGGCGGCGCTTGCGGGGCCGAAGCAGATTGATCTCGTCCTCAGCGAACGGGGAAGTGACCGAAAAGAAGCGCCGATCGATCATGAGCTGCTCCACAGGGCGGTCATGAATATCGCGGCAAATGCCGTCGACTATACGCCGGAAGGAGGAGAAATCCGTGTGGACGTCCTGTGCACCGATTCCGCCCTCCATCTTGCCGTATCCGACAGCGGAAGCGGGTTCTCGCCGGAAGCGCTGAAAAGAGCGACACAGCTTTTTTACACGGAGGATAAAAGCAGACATTCGGCGGGGCATCACGGCATGGGGCTTACATTCGCCCATCATGTCGTACATCTTCACCACGGCGAATTAATACTTGAAAATCAGGAGTCTGGAGGAGCCCGGGCGGAGATTCGAATTCCGCTGGAAGGCGTCAGACAAAAACAAGCCCTGCACGTATGA	MGIAKGKSSIRKELVKFTITLCLSTMGVAALCVALNAIAMNAGAILPANYSEHEAEQIKPRLKSAEKITEDMIPAGMTYAVFDKKTKRMTKGTMTEQDAANARKKIQHQPYFNYAQKGFMVINRKDEYGVLQYSLRSEFQSPLLRRYLPNYEWTGLTILITLLLLTVFIVTTRFANQLRRHFSTLSSITASIQKQNLNINPKRSRIKEFDDVIDSLLKMKDALQASLAAQWEAERIKKEQIGALAHDIKIPATIIKGNAELLQLTEPDEEQAEYAQYILDAGNKIEHYVGQLIQLSKAEEAVAVHVEYTDLKEWIQNIYRDAAALAGPKQIDLVLSERGSDRKEAPIDHELLHRAVMNIAANAVDYTPEGGEIRVDVLCTDSALHLAVSDSGSGFSPEALKRATQLFYTEDKSRHSAGHHGMGLTFAHHVVHLHHGELILENQESGGARAEIRIPLEGVRQKQALHV	PGPT0011705_130	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011705-nisK|spaK-K20487	NA	NA
D1-12_03189	663	arlR	COG0745	Response regulator ArlR	GTGGCATACATTTTAGCAATTGATGATGAAAAAGATATTCTCGTTCTGATCAGAAACATTTTACAGCGTGATCAGCATACAGTAACGATTCTGGAAAAAGCGGAGGATCAGTCATTGGATTTTTTTCAAGGCTATGATTTGATTCTTCTCGATGTCATGATGCCCGGAACGGACGGGATTGAACTCTGCCGGCGGATTCGGCCGCTGGTGGACAGCCCGATCCTGTTTTTAACGGCAAAGTCTGACGAAGAATCCATTGTGAAAGGCCTCATGACAGGCGCTGATGATTACATCACAAAGCCGTTCGGCGTACAGGAATTGATGGCAAGGGTAAACGCGCATGTCAGAAGGGAACGGCGTGAGAAGCATCAGACGAAACGGCTGATATCAGGCTTCATGTTTGATTTTGACAATAAAGAAGTGTGGATGGATGACCGGAAACTGCCTCTTACGAAAAACGAATATAAAATCGTTGAATTTCTGGCACAGCATAAAAACAGAACATTCTCACGGGAGCAGATTTACGAGGAAGTGTACGGCTTGGACGGCGATGCGCTCTATTCAACCATTACGGAGTTTATCAGAACCATCCGGAAAAAATGTAAAGAACACGGGGCTGATCCGATCAAAACGGTGTGGGGTGTCGGATACAAATGGGAATAG	MAYILAIDDEKDILVLIRNILQRDQHTVTILEKAEDQSLDFFQGYDLILLDVMMPGTDGIELCRRIRPLVDSPILFLTAKSDEESIVKGLMTGADDYITKPFGVQELMARVNAHVRRERREKHQTKRLISGFMFDFDNKEVWMDDRKLPLTKNEYKIVEFLAQHKNRTFSREQIYEEVYGLDGDALYSTITEFIRTIRKKCKEHGADPIKTVWGVGYKWE	PGPT0011710_245	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011710-nisR|spaR-K20488	NA	NA
D1-12_03190	774			hypothetical protein	ATGACCGTGCTTTTACGATATATGTGGGCCGATGTATTAAAAATGAAGCGCACGCCGCTCATATGGATGCATGTTGCGGCGCCGGCCGTATGCGCGGGATTTTTCCTGTTATATATGATGTATGGAAGGATTCAGGAGCCTTATGTGCTGTACAGCGTCTTCTTCAGCGCGATTGCCGTTTTATACCCTTTCATCATCAGTATTGTCTGCGGCATGTCTGCCTCCGTCGAGGAACAGGCGGGCCATTTTCAGATGATGCTGGCGGTTCCGTATTCGAAAATCGTCAGTTTTGCGGGCAAGCTGCTTCTATTGCTGCTGTTGAATGTGTTATCGATAGGTCTTGTCATCTGTCTTTATTTGGCGGGGATGAAATTTGTTCTTCACATCAATGATCTCCCCTATCTTACGTTTTTAAAAGGAGGGGCGTGGCTGATTGCCGGCAGTATTCCGCTTTATATGATGTCTTTTTTTGTCGGCGTAAAGTACGGCATGGGACCGTCCGGACTTTTAGGGGGTGCGGGATTATTAATGGCGGCGCTCATGAATACGGGACTTGGCGATATCATCTGGCGTTTTTTCCCGTGGGGATGGAGCGTGCGGCTTTCAGGCCTTGCAGGACTGCTGCATTTTGACAAAGTCAAAAAAGAGTTCCTCCCTTATGTAAGATACGATATGAGATTCGGAGAAATAATGTTATATTTTTCTATAGTGATATTATGTCTGGCCGGCCTCTTTTGGTGCAGAAGATGGGAAGGGCGGCGTTCATATGAATAA	MTVLLRYMWADVLKMKRTPLIWMHVAAPAVCAGFFLLYMMYGRIQEPYVLYSVFFSAIAVLYPFIISIVCGMSASVEEQAGHFQMMLAVPYSKIVSFAGKLLLLLLLNVLSIGLVICLYLAGMKFVLHINDLPYLTFLKGGAWLIAGSIPLYMMSFFVGVKYGMGPSGLLGGAGLLMAALMNTGLGDIIWRFFPWGWSVRLSGLAGLLHFDKVKKEFLPYVRYDMRFGEIMLYFSIVILCLAGLFWCRRWEGRRSYE	PGPT0011740_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-LANTIBIOITC_RESISTANCE,PGPT0011740-nisG|spaG|cprC-K20492	NA	NA
D1-12_03191	735			hypothetical protein	ATGATTCAGTACATGCAGGCGGAACATCTTACATCTAAAAGAACATTTATCAGAAAGCTCATCATTCTGATTCCGCTTCTGAACACGGCTTTTTCTTTTCTGCTGAATACGGCTTATTTTATGACGGGCACGTTCAATTGGTGGGCGGTTATTTTCATGCCGCTCATGATTTCTCTAATGTGCGGTTTATCTGTTAAAAAAGAGAAAAAATCTGCGAATGACCGCGCGGTGTACTCATTGCCGGCAGATTTAAAAAGCATATGGCTCTCAAAAATAAGCTTGATCGCGCTGTATTCACTCCTGTCGCAAATCGTTTTTTTCATCATCATGTTTTTACTTGGCCTTGTATTTCCGGGAATTGCTGCGCTGCAGCTGAAAGGCGTTGAAGCAGGCTCCCTTTTATGGCTGACGACGCTTTGGGAAATTCCGTTCTGCTTATGGATTGCCAGACAGTTCGGATTTACGGCAGTCATTCTCGTGAATATGATCGCCGCTTTTGTTTTGGGTATTGTGCCGGCGTCCGGTTCATTGTGGTGGCTGAGCCCATGGAGCTGGTCAGTCCGGGTGATGTCACCGATTCTCGGGATCCATCCGAACGGAATTCCGCTTCCCGCAGACAGCGGCTTATTAAACGGAAACGTGATCATTCCGGCTATTATTCTTTCTATTCTTTCTTTTATCGCGATAAGTTTTGTTTCCGCAGTGTCTTTTTCAAAAGGGGGAAACCGGTCATGA	MIQYMQAEHLTSKRTFIRKLIILIPLLNTAFSFLLNTAYFMTGTFNWWAVIFMPLMISLMCGLSVKKEKKSANDRAVYSLPADLKSIWLSKISLIALYSLLSQIVFFIIMFLLGLVFPGIAALQLKGVEAGSLLWLTTLWEIPFCLWIARQFGFTAVILVNMIAAFVLGIVPASGSLWWLSPWSWSVRVMSPILGIHPNGIPLPADSGLLNGNVIIPAIILSILSFIAISFVSAVSFSKGGNRS	PGPT0011735_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-LANTIBIOITC_RESISTANCE,PGPT0011735-nisE|spaE|cprB|epiE-K20491	NA	NA
D1-12_03192	714	bcrA_4		Bacitracin transport ATP-binding protein BcrA	ATGAGCAACATCATAGAAACGAGACAGCTGCAAAAATCATTCGGCAGACAACAGGCAGTGGCTGATGTGTCTCTATCAGTGAAGCGCAACAGTATATACGGCCTGCTTGGTCCGAACGGCGCGGGAAAATCAACAACACTTAAAATATTGACCGGCATGCTGCAGCAAACATCCGGCGAGGTTCTGTTCGACGGACATACATGGAAGCGCGAAGACTTGAAAAGCATCGGTTCCCTGATTGAAGCGCCGCCGCTTTACAGCAACCTGACAGCCGCTGAAAATCTGAAAGTCCGCTGTGTTATGCTCGGACTGCCTGATTCAAGAATTGCGGAAGTGCTGGAAATCACGGGATTAACGGGAACCGGAAAAAAGCGCGCCGGACAATTTTCCATGGGAATGAAACAGCGTCTCGGCATTGCGTTAGCATTATTAAGCCGTCCGTCGCTCTTAATTCTTGATGAGCCGACAAACGGATTGGACCCGATGGGAATTCAGGATTTGCGGGAATTTATCCGCTCCCTCCCCGGACAGGGCATGACGGTTATTTTATCAAGCCATCTGTTATCAGAAGTCGAGCAGATCGCAGACCATATCGGGATCATCAGTGACGGCGTTTTAGGATATCAGGGAGAAATCAGCCGGGAAGATGATCTGGAGCAGTTGTTTCTGGAGGTAGTCAAATCAACACGGGAGAAAGCGGGGACAGGAAAATGA	MSNIIETRQLQKSFGRQQAVADVSLSVKRNSIYGLLGPNGAGKSTTLKILTGMLQQTSGEVLFDGHTWKREDLKSIGSLIEAPPLYSNLTAAENLKVRCVMLGLPDSRIAEVLEITGLTGTGKKRAGQFSMGMKQRLGIALALLSRPSLLILDEPTNGLDPMGIQDLREFIRSLPGQGMTVILSSHLLSEVEQIADHIGIISDGVLGYQGEISREDDLEQLFLEVVKSTREKAGTGK	PGPT0011730_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-LANTIBIOITC_RESISTANCE,PGPT0011730-nisF|spaF|cprA|epiF-K20490	NA	NA
D1-12_03193	678	opuCD_1	COG1174	Glycine betaine/carnitine/choline transport system permease protein OpuCD	ATGGACACGATGAAGGAGCTGTTTACGTATTACGCTCAAAACGGCAGCTATGTTCTGTATGAGTGCTGGCGGCACTTTCTCATGTCGGCGTACGGCGTCGTTTTCGCCGCCGTTTTCGCCATTCCGGCCGGAATTGTGACAGCCAGGCACGGGCGTCTCTCCGGCTGGGTGTTTGCTGTGGCGAATGTGATTCAAACCGTTCCGGCACTGGCGATGCTCGCCGTCCTGATGCTTGTCATGGGACTCGGCGCCAATACGGTCATCACGGCTTTGTTTTTGTATTCCCTGCTGCCGATTCTCAGAAATACGCACACGGGCATTATCAATATCGAGCACGCTTATCTCGAGTCGGGAAAAGCGATGGGCATGACGAAATACCAAATCCTTCGTATGGTGGAGCTGCCGCTTGCGCTTTCCGTCATTATGGCGGGGCTCCGAACGGCGCTCGTCATTGCCATCGGCATCACGGCGATCGGCACCTTCGTCGGGGCGGGCGGCCTCGGCGATATGATCGTCAGAGGGTCGAACGCGACAAACGGAACCGCCATTATTCTGGCGGGCGCCATCCCGACCGCGCTGATGGCGGTGGCCGCAGACCTGCTGATGGCGTGGCTGGAACGAGCCCTCAGCCCGGTGAAAAAACAAAAAAGAAAGCTGATCGTACGCTCAGCCTCATGA	MDTMKELFTYYAQNGSYVLYECWRHFLMSAYGVVFAAVFAIPAGIVTARHGRLSGWVFAVANVIQTVPALAMLAVLMLVMGLGANTVITALFLYSLLPILRNTHTGIINIEHAYLESGKAMGMTKYQILRMVELPLALSVIMAGLRTALVIAIGITAIGTFVGAGGLGDMIVRGSNATNGTAIILAGAIPTALMAVAADLLMAWLERALSPVKKQKRKLIVRSAS	PGPT0013581_57	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA	NA	NA
D1-12_03194	918	opuBC	COG1732	Choline-binding protein	ATGGGGAATAGATGCAAAAAACGGCTGCTCGCAATCGCCTGTATCGGCATGCTGCTCCTTGGCGGATGCTCGCTCCCGGGATTGAGCGCCGCATCGGAGGATACCATTAAAATCGGCGCGCAAAGCATGACCGAATCAGAAATTATCGCGAGCATGCTCGGACAGATGATCGAACATCACAGCGGGTTGAAAACATCCGTTATTAAAAATCTCGGTTCCAACGCCGTACAGCAGCAATCCTTGATCAACGGTGATATTGATATCGCCGCTACGCGCTATACAGGTGACGCGCTGACCGGGACGCTTCGCATGGAGCCGGAAAAAGACCCGGACAAAGCGCTGCGGCTCGTTCAGCGTGAATTTCAAAGCAGATATGACATGAAATGGTTTGATTCTTACGGCTTTGATAATACATACGTCTTTACCGTTTCCGGACAGCTTGCCCGCAAGTACCATTTAGAATCGGTATCCGATGTCAAAAAAGAAGCGTCTCATCTGAAATTCGGCGTAGATAACTACTGGATGAAGCTGAGAGGCAACGGATATCAGGATTTTATGAAAACATACGGAATGTCATTTGAAGGCACGTATCCGATGCAGATCGGCCTCGTTTACGACGCGCTGAAAAGCAGAAAGATGGATATCGCGCTCGCTTATTCCACAGACGGAAGAATCATCGCTTACGGACTGAAAACGCTGAAGGATGATAAGCGGTTCTTTCCTCCGTATGACTGTTCACCCGTCGTTCCGGATCATGTATTAAAAGAGCATCCCGAACTGGAGGGCGTGATCAATAAAATGATCGGCGCGATTGATACAAAGATGATGCAGAAAATGAATTACGAAGTCGACGGCCGATTAAAAGAGCCGTCCGTCGTGGCCAAGGAATATTTAGAAAAACATCATTACTTTGAATAA	MGNRCKKRLLAIACIGMLLLGGCSLPGLSAASEDTIKIGAQSMTESEIIASMLGQMIEHHSGLKTSVIKNLGSNAVQQQSLINGDIDIAATRYTGDALTGTLRMEPEKDPDKALRLVQREFQSRYDMKWFDSYGFDNTYVFTVSGQLARKYHLESVSDVKKEASHLKFGVDNYWMKLRGNGYQDFMKTYGMSFEGTYPMQIGLVYDALKSRKMDIALAYSTDGRIIAYGLKTLKDDKRFFPPYDCSPVVPDHVLKEHPELEGVINKMIGAIDTKMMQKMNYEVDGRLKEPSVVAKEYLEKHHYFE	PGPT0013582_90	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013582-opuCC|yvbC-NA	NA	NA
D1-12_03195	654	opuCB_1	COG1174	Glycine betaine/carnitine/choline transport system permease protein OpuCB	ATGAATCAGACCGTGCAATTTTTACAGGCAAATGGAGGAGAGATGCTTTATAAAACATGGGAGCATCTGTACATCTCATTAATCGCCGTCATGGCGGGCATTCTCGCCGCCGTTCCGCTCGGCGTCCTGCTGACGAGGATGAAAAGAGGAGCCGGCGCCGTCATCGGCATCGTCAACATCATTCAAACCTTGCCGAGCCTTGCCATTCTTGCGTTTTTTATTCCGCTTTTAGGCGTAGGAAAGGTCCCGGCCGTTGCGGCGCTGTTTTTCTATTCCATGCTGCCGATTCTCAGAAACACGTATACGGGGATTCTCGGCGTCAATCGGCATCTTCTGGAATCGGGAAAAGGAATCGGCATGACGGCATGGGAGCAGATCAGGCTTGTAGAGCTCCCGCTTGCCGCTCCGGTCATCATGGCGGGCATCAGAACGTCTTCGATTTATTTAATCGGCTGGGCGACGCTCGCCTCCTTTATCGGCGGAGGCGGGCTGGGAGATTACATTTTTATCGGCTTGAACCTTTATCAGCCGGAGTATATTATCGCAGGCGCCGTTCCGGTCACAGTGCTGGCGGCCGCCGTCGATTACATGCTGGGGATGACAGAACGGAAAGTCACGCCTGACGGGCTGAAGAGCATAAAGGATGCTTCATAA	MNQTVQFLQANGGEMLYKTWEHLYISLIAVMAGILAAVPLGVLLTRMKRGAGAVIGIVNIIQTLPSLAILAFFIPLLGVGKVPAVAALFFYSMLPILRNTYTGILGVNRHLLESGKGIGMTAWEQIRLVELPLAAPVIMAGIRTSSIYLIGWATLASFIGGGGLGDYIFIGLNLYQPEYIIAGAVPVTVLAAAVDYMLGMTERKVTPDGLKSIKDAS	PGPT0013581_83	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA	NA	NA
D1-12_03196	1146	opuBA	COG1125	Choline transport ATP-binding protein OpuBA	TTGCTGACATTAGAAAATGTCTCGAAAATGTATAAAGGCGGGAAAAAAGCCGTCAACAGCATCAACCTGAATATCGCCAAAGGCGAATTTATTTGTTTTATCGGACCGAGCGGCTGCGGCAAAACGACGACGATGAAAATGATCAACCGCTTAATTGAACCGACAGAAGGCAGAATCCTGATAGAAGGCCGAAACATTATGGAACAAGACCCGGTGGAACTCAGAAGAAGCATAGGCTATGTCATCCAGCAGATCGGGCTGTTTCCGCATATGACCATTCAGCAGAACATTACGCTCGTTCCGAAGCTTTTAAAGCATCCTGCCGAAAAACGGAAGGAACGGGCGCGGGAGCTTTTAAAGCTCGTTGATATGGGGCCTGAATATTTAGACCGTTACCCTCATGAACTGAGCGGAGGACAGCAGCAGCGAATAGGTGTATTACGGGCACTTGCCGCAGAGCCGCCGCTCATCTTAATGGATGAACCGTTCGGGGCGCTTGACCCGATTACGAGAGATTCCCTTCAGGAAGAATTTAAAAAACTGCAAAAAACCTTACATAAAACCATCGTATTTGTTACCCATGATATGGATGAAGCCATCAAGCTAGCGGACAGAATCGTCATTCTGAAAGCGGGAGAAATCGTCCAGGCCGGAACGCCTGATGAGATTCTCAGATTTCCGGCGAATGAATTTGTTGAGGAGTTTATCGGCAAGGAACGGCTGATCCAATCATCCAGCCCTGATATTGAACGGGTGGAGCAGATCATGAATCCCGATCCCGTGACGGTAACACCTGAGAAAACACTGTCAGCCGCCATTCAGCTGATGCGTGCCGAGCGGGTGGATTCGCTGCTCGTCATTGATGAAAAGAACGTTCTCCAAGGTTATGTCGATGTGGAGATGATTGACCGCAAACGAAGACAGGCGGTAACCGTCGCGGAAGTGCTTGAACGGGATCTGTACACGGTCAGAAGCGGCACTCTGCTCCGCGACGCCGTCCATAAAATTTTAAAAAGAGGCATGAAATTTGTGCCGGTCCTTGATGAAGCCGGCCGATTAACGGGAATCGTGACAAGGGCAAGCCTCGTTGACATCGTCTATGACTCCATCTGGGGAGAAGAGAATCAGCTCGCGGTGATGTCATGA	MLTLENVSKMYKGGKKAVNSINLNIAKGEFICFIGPSGCGKTTTMKMINRLIEPTEGRILIEGRNIMEQDPVELRRSIGYVIQQIGLFPHMTIQQNITLVPKLLKHPAEKRKERARELLKLVDMGPEYLDRYPHELSGGQQQRIGVLRALAAEPPLILMDEPFGALDPITRDSLQEEFKKLQKTLHKTIVFVTHDMDEAIKLADRIVILKAGEIVQAGTPDEILRFPANEFVEEFIGKERLIQSSSPDIERVEQIMNPDPVTVTPEKTLSAAIQLMRAERVDSLLVIDEKNVLQGYVDVEMIDRKRRQAVTVAEVLERDLYTVRSGTLLRDAVHKILKRGMKFVPVLDEAGRLTGIVTRASLVDIVYDSIWGEENQLAVMS	PGPT0013585_817	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
D1-12_03197	534	opcR_1	COG1510	HTH-type transcriptional repressor OpcR	TTGGAGAAAGATCCGTTACACGTAATCGAACAAGCTGAAGATCATTTGATAGAACGAATCGCTGAAAATATGCATACATTCGGAATGCCCGCGACGGTGGGGCGCATTTTAGGCATTATTTATATGAACCGCAAGCCGATGACCTTAACTGAATTATCAGAAGCGACCGGCATGAGCAAGACGAGAATGAGCCAGGCGGTCCGTGAAATGCTTGACGTCAATCTGGCGGAAAAAGTGTTTGAAAAAGGCGTCCGCAAAGATTTATACGACGTCGAGCAGGATTATTACCAAACCTTTATTACGCTGTTTACGGCCACATGGAGCAAGGTCGTCAGCAAAAATAAAATGATGCATAAAAAGCTGAACCGCGAACTGACAGCCGTCCTTGAAAACGGCGTGCCGGAAGAAGCTGAGGAAAAAATCAACGAACTGCTGAAAGAATTAAAGGATTGGCTTGATTACTACAACTGGATCAGCCGCCTGATCGAGTTTTTTGAAAGCGAAGAAATTTTCAAGCATGTTCCGAAGCCATAA	MEKDPLHVIEQAEDHLIERIAENMHTFGMPATVGRILGIIYMNRKPMTLTELSEATGMSKTRMSQAVREMLDVNLAEKVFEKGVRKDLYDVEQDYYQTFITLFTATWSKVVSKNKMMHKKLNRELTAVLENGVPEEAEEKINELLKELKDWLDYYNWISRLIEFFESEEIFKHVPKP	PGPT0013690_232	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109	NA	NA
D1-12_03198	1515	lcfB_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGGAGACATTACAGCATCTGATTCTGCATGACATTTCAAATAGCGAAGAGATCGAAGCTGTAAAAAGCGGTGCGTATACCCTGACCTACGCGGAATATCGAAAACGAATCAACCAGCTTGCACAAGCGCTTCTTGATAAAGGAATAAAAAAAGGCGACAGAGTGGCGATGCTTTGCAAAAACGGCCACGCGGCATCCATTGTCATGTTTGCGGCACTCGAAATCGGCGCGGTGGTTGTGCCGGTCAGCTGGCAATTAACACCTTACGAAATGAAAGGCATTTTAGCAGCCTGTGAACCGAAAGCTGTTTTTTACAGCACTGAATTTAAAGAGATCATGGAAGAAGTGCTTCCTGCGCTTGCATCTTCTCTTAAACTGAAGGTCGTAACAGGAACAGCTGCGGAGACAACGCCTGAGTTTGACGCTTTATTGACAGGCTCCGGTGATACACCGGATGTCGAAACGGTGTCTGAAAACGATACGGCATTGCTGATGTTTACCTCAGGTACAACCGGCAATCCGAAACGCTGCATGATCACTCACGGCGGCATATACAACTACGTAAACGCGACATTGGCATACACGGGGAGAATGCAGCATGTCCGCTTCTTAGCATGCCATCCGAATTACCATACGAGCGCGATTATCTGCCAGATGGTCGGCACGATGAGCGGAACGACATTCATTATGACAGACAATCAGGACCCTGTGGAAAACTTGAAGCTCATCGAAAAAGAGAAAATTCAAACCGTGATGGCGCTTCCGGTCTATTACACATACCTGCTGAAAGCATGGGAAACGCATCAGACTGACATGTCTTCTATCGTTTATATGATGACGGGAGGCACAAAGGTGCCAAGCAGTCTGATCCAGCAGTATCTCGACATCGGCATCCCGCTCATGCACGGATACGGAAGCACGGAAGCGTGGGGCATCAGCTCTTGGAATCCGCAAATGGGAATGGATAAAGCCGCTTCCGCGGGTAAACCGATGGAAGAAGTGGACGTCCGCGTTGTAGATCCGGAAACAGGTGAAGTCCTTCCGCAAGGCTCAATCGGAGAAGTCGTTGTGACAAGTCCGTTTTTATTCAAAGGCTACGAAGGTAACGAAGAAGCGACACGAAAAGTGCTGAAAGACGGCTGGTTCCATACCGGCGATTCCGGTTATGTGGATGAAGACGGATTTATCTTTATCACCGGACGTTATAAAGATGTCATCATCTACGGCGGGGACAATATTTATCCCGACCAGATTGAAGAGGTCATTCAGCAAGTGCCGGGAATTCTCGAAACGGCGGTTGTCGGTATCCCTGATCCGCTCTACGGCGAAAAGCCGAAAGCGTTCATCGTGACAAACGGCAGAGAAGGCCTGACAGAAGAAGAAGTGACCCGATTCCTTCAAGAACGTCTTGCCGCCTTTAAAATTCCGGAAATTGAGTTCGTCAGCGAACTTCCGAAAAACAACCTTGGAAAAGTGAGAAAAGACGTGCTCCGCAAACAAGCGGTACGTTCATAA	METLQHLILHDISNSEEIEAVKSGAYTLTYAEYRKRINQLAQALLDKGIKKGDRVAMLCKNGHAASIVMFAALEIGAVVVPVSWQLTPYEMKGILAACEPKAVFYSTEFKEIMEEVLPALASSLKLKVVTGTAAETTPEFDALLTGSGDTPDVETVSENDTALLMFTSGTTGNPKRCMITHGGIYNYVNATLAYTGRMQHVRFLACHPNYHTSAIICQMVGTMSGTTFIMTDNQDPVENLKLIEKEKIQTVMALPVYYTYLLKAWETHQTDMSSIVYMMTGGTKVPSSLIQQYLDIGIPLMHGYGSTEAWGISSWNPQMGMDKAASAGKPMEEVDVRVVDPETGEVLPQGSIGEVVVTSPFLFKGYEGNEEATRKVLKDGWFHTGDSGYVDEDGFIFITGRYKDVIIYGGDNIYPDQIEEVIQQVPGILETAVVGIPDPLYGEKPKAFIVTNGREGLTEEEVTRFLQERLAAFKIPEIEFVSELPKNNLGKVRKDVLRKQAVRS	PGPT0008380_14130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-12_03199	2085	mtlR		Transcriptional regulator MtlR	ATGTATATGACAGCGAGAGAACAAAAATTAATGAAACATCTTTTACTGCAGAACCGGTACGAGACAGTGCATGAACTGGCGGAAGCTTTACAAGTCAGCACAAGAACCGTTCACCGCGAGTTGAAAACAATCAAACCGATGATGGAATCATTCGGTCTGGCACTTGATAAACAGCCCGGCAAAGGACTGAAAGCGGTAGGAAACCCGGAGGACAAACAAAAACTCCTGTCAGACCTGTCCTATGAACAGCATGAATACAGCGCTGAGGAGCGGAAACTTTTAATTCTATGTTCACTATTAGAGTCTCAAGAGCCGATCAAGCTCTACAGTCTGGCGAACGAACTGCAAGTGACAAACGCGACGATCAGCTATGACCTGGATGAGCTGGAGACTTGGATTGCGCCCTTCGGCTTGACGCTGATCCGAAAAAGGGGCTTCGGCATTCAGCTGACGGGGCCGGAAAATGCGAAACGGAAAATCGTCGGCAATCTCATCGTCAACCGCCTTGATATTCAAAGCTTTTTGGAAGCAGTTGAATTGAATATTAAAGGAAAACCGGACGATGCTGAAAAAATGTTCGGCGTCGTAAATAAAGCGGAACTTTTGAAAATGGACCGGCTCTTAATTCAGCTCAAGGAAAAAATCGCGATCGCCTTATCTGACAGCTCATACATGGCGCTTGCGGTTCATTTAACCTTTGCGATGGACCGGATCAGGCTCGGAGAAACCATCACGATGGAGGCTTCGGAACTAAAAGCGCTGCAGCAGACGAAGGAGTACGGCTCTGCGCTGGAAATGGCAAAAGAGCTTGAAAAAGCGTTCGGCGTTTCAATTCCGGAAGCTGAGATCGGTTATATCACCATTCATTTGCGGAGCGCCAACCGCAAATACAAAACGGAATTCAAACCGGAAGACATAGAGGTTGAAACGGCCTTGCAAACGAAGCAGCTGATCGGCTTCATTTCTGAAAAAATTAAAATTAATCTGACGGAAAACGGTTCTTTATACGACGGTTTAATCGCCCATCTGGAGCCTGCGATCAACCGGGTAAAAGAAAATATCGACATGTACAACCCGATGACCGAGCAAATTAAACGCGACTACTTTCTGCTGTACATGGCCGTAGAAGAAGGAATGGAAAAATTCTTTCCGGGGCTTCTTTTCTCTGATGATGAGATCGCTTTCATCGTTCTTCACTTCGGCTCCGCTCTGGAAATCAAACGGGAAGAAGCGAAGATCAAAGCGCTGATCGTCTGTTCTAGCGGCATCGGGTCGTCCAAAATGCTCGCATCCAGGCTGAAAAAAGAGCTTCCGGAAATCCGTTCCTTTGATATGTCTTCCCTCATCGAACTGAAGGACCGAGACACCGCTGCGTATGACATGATCGTATCCACTGTTCCGATCCCGTATGAAAACATTGATTACGTCATGGTCAGTCCGCTTTTAAACGAAGAAGACGCTGATCAGGTCAAGCAGTACATCAAAAGAAAAATTCCGCTGATTCTTGACAAAAAAAGAAACGGTAAAAGAGAAGAGAAGCAGCCGGAGACGCCTGATATGCTGGAAGCGGCCGGCCGTATGGCGCATTACGCGGCGGTTATCCAAAGCGTGCTGCGGAACTTTTCGGTCAAATCCATTGATTCAAACACGGCGTATGAGCTGTTTTTGAACCGTATGTTTGACATGCTGGAGCAAGAAGGATTGGTTCATAATGCCCAAAAAACCGCACAGCGCCTTGTTGAGCGTGAACGACAGGGCGGACTCGGCATTCCGGGAACGGCGATGGCTCTTTATCATCTCAAAAATGAAGAAATTGTCACGCCTTTTTTCAAAATTTATGATTTGACAGCTCCATGCAGTGTCAAAGGCATGGACGGAAATTCCCTGACCGTCGACCGCGCTTTGGTGATGATGGCGCCGGCTGATATGCCCGCTGAAGGGTCGGAAATACTAAGTGCGGTCAGCTCGGCCATCATCGAGTCTGAAGACAGTATAAAAGCCTTCCGGACGGAGGATGAGGCCGATTTATACAAACGTTTAAACAAGCTGTTTTATCATTTCATTCAGGAGAAAGGACAGCGGTAA	MYMTAREQKLMKHLLLQNRYETVHELAEALQVSTRTVHRELKTIKPMMESFGLALDKQPGKGLKAVGNPEDKQKLLSDLSYEQHEYSAEERKLLILCSLLESQEPIKLYSLANELQVTNATISYDLDELETWIAPFGLTLIRKRGFGIQLTGPENAKRKIVGNLIVNRLDIQSFLEAVELNIKGKPDDAEKMFGVVNKAELLKMDRLLIQLKEKIAIALSDSSYMALAVHLTFAMDRIRLGETITMEASELKALQQTKEYGSALEMAKELEKAFGVSIPEAEIGYITIHLRSANRKYKTEFKPEDIEVETALQTKQLIGFISEKIKINLTENGSLYDGLIAHLEPAINRVKENIDMYNPMTEQIKRDYFLLYMAVEEGMEKFFPGLLFSDDEIAFIVLHFGSALEIKREEAKIKALIVCSSGIGSSKMLASRLKKELPEIRSFDMSSLIELKDRDTAAYDMIVSTVPIPYENIDYVMVSPLLNEEDADQVKQYIKRKIPLILDKKRNGKREEKQPETPDMLEAAGRMAHYAAVIQSVLRNFSVKSIDSNTAYELFLNRMFDMLEQEGLVHNAQKTAQRLVERERQGGLGIPGTAMALYHLKNEEIVTPFFKIYDLTAPCSVKGMDGNSLTVDRALVMMAPADMPAEGSEILSAVSSAIIESEDSIKAFRTEDEADLYKRLNKLFYHFIQEKGQR				NA	NA	NA	NA	NA
D1-12_03200	903	ydhF	COG4989	Oxidoreductase YdhF	ATGCAGCGCATTCAATTGGCTGAAGACCTGGAATTTTCAAGAGTGATACACGGGCTTTGGCGTCTGAACGAATGGAATGTTTCAGACGGAGAGCTGCTGAATCTGATTGAATGGTGTATCAGCCAAGGCATCACCACCTTCGACCATGCCGATATATACGGCGGTTATACGTGTGAAAAGCTGTTCGGCGGCGCTTTGTCCCTTTCGCCTTCAATAAGGGAGCGAATCGAAATCGTCACAAAATGCGGGATTGTCATTGAGTCACCGGAACGGCCCGGAAACAAGTCGCATCATTATAATACGTCGAAGTCTCACATCTTAGCGTCGGCGGAGCAGTCGCTTTTGAATCTGAATACGGATTATCTGGATGTGCTGCTCATTCACAGACCGGACCCGCTCATGGACCCGGAGGCTGTGGCTGAAGCGTTTCATGCGCTGAAAAGCTCGGGAAAGGTCAGATATTTCGGAGTATCGAACTTTAAAGCGCACCAGTACAGAATGCTCGAATCCTATTTGGATGATCCGCTCATCACAAACCAAATTGAAATCTCGGCGTACGAGCTGGAAAATATTCATGACGGCACGCTGGATTTCTGTCAGGAAAAACGCATTCCGCCGATGGCGTGGTCACCGCTTGCGGGCGGGAGCGTCTTTACCGGACAATCAGATAAGGACGTCCGAATCCGTGCCGCACTTCGTTCCGTACAGGAAGAAATCGGCGCCGCTTCCATTGACGAAGTCATGTACGCATGGCTGTTCACCCACCCGGCAGACATTATGCCGATTGTCGGCAGCGGAAAAAAGAACCGCATTTCCGCCGCGGTGCGTGCATCCGCGTACAAACTCAGCCATGATCAGTGGTTCCGGATTTATACCGGTGTCCAAGGCTGTGATATTCCATAA	MQRIQLAEDLEFSRVIHGLWRLNEWNVSDGELLNLIEWCISQGITTFDHADIYGGYTCEKLFGGALSLSPSIRERIEIVTKCGIVIESPERPGNKSHHYNTSKSHILASAEQSLLNLNTDYLDVLLIHRPDPLMDPEAVAEAFHALKSSGKVRYFGVSNFKAHQYRMLESYLDDPLITNQIEISAYELENIHDGTLDFCQEKRIPPMAWSPLAGGSVFTGQSDKDVRIRAALRSVQEEIGAASIDEVMYAWLFTHPADIMPIVGSGKKNRISAAVRASAYKLSHDQWFRIYTGVQGCDIP				NA	NA	NA	NA	NA
D1-12_03201	2004	mrdA		Peptidoglycan D,D-transpeptidase MrdA	GTGAAAAAAGGGTTATACCTATTACTTTTACTCGCAGGAATCATAGGTTTGATCGGCTGCTCGAAAACGGAATCGGCCGAAGACAGAATGAAAGATTTCGTAAAAGACTGGAACGGCGGTCATTACGATAAGATGTACCAAAGCCTCACCCAGGATGAAAAGAAAAAACTATCCAAAAAGGATTTTGTAAAACGATATGAAACCATTTATGAACAAGCAGGGGTCAAAAGTCTGAAAGTCACTGCCGAAAAACAGGACGAAGACGACAAGAAAAAAGATGACCTCCAGCACATCGATTATAAAGTCAGCATGGATACAAAAGCAGGGAAGGTCGCTTTTGAAAATACGGCCGTCCTGAAAAAAGAAAAAACAGACGATGGAGAATCATGGAACATCGACTGGAATCCTTCTTTTATTTTCAAACAGCTTTCCGATGACAAAACCGTGCAGATCGCAAATGAAGAACCGAAGCGCGGACAAATTTACGACAAAGACGGAAAAGGTCTCGCCGTGAATACCGAGGTGCCGGAAATCGGCATTATCCCTGGAAAACTCGGCAAGGATAAAGACAGCGTGATCAAAAAACTGTCTGAAAAACTGGACCTTTCTGAAGACGATATCAAAAGCAAACTGAACCAGGGCTGGGTAAAAGACGACTCCTATGTCCCGATTCAAAAAATCAGACCGGATGATGAAAGCAAGATCAAAAGCCTGCTCGCATTAGACGGCGTGACGAAAACGAAAGTCAGCTCCCGCTACTATCCGTACGGCGAAAAAGCGGCCCATCTGACCGGCTATATTAAAACCATCACAGCGGAGCAGCTGAAAAAAGCGAAAGACGGCCAATACAGCGATACTTCCAAAATCGGCATCGCCGGCCTTGAGAATGTATATGAAGACAAGCTGCGCGGCACGACCGGCTGGAAAATTTACGTCCCGCAAACAGGTGAGGTCATTGCTGAAAAGAAAGCCGAAAGCGGGCAGGATATTCATGTAACGATTGACATGAAAACGCAGACGAAGCTGTATGATTCTATGAAAGATGACAGCGGAGCGGCAGTCGCTCTCGAACCGCAAACGGGAGAGACACTCGCGCTCGTCAGCGCACCGTCTTATGACCCGAACGGCTTTATTTTCGGCTGGAGCGGCAAAGAATGGAAAAAGCTGAATGAAGATAAAAACAATCCGTTTTCAGCGAAATTCAACAAACTTTATGCGCCGGGATCAACGATTAAACCGATCGCCGCGGCAGTCGGCCTGACAAACGGCACATTGAAAGCGTCAGAAAAGAAAAAAATCACCGGAAAAGAGTGGCAGAAAGATTCAAGCTGGGGCGGTTACCATGTCACACGCGTATCAGAGCGCCTGAATGAAGTGGATCTCGAAAACGCGCTGATCACATCGGACAACATCTACTTTGCGCAAAATGCCATAGATGCCGGAGCGGACGCGTTTACAAAAGGATTAAAAACATTTGGCTTTGATGAAGAGATTCCGTACCAATTTCCGATTGAAAAGTCTTCAATCGCTAACGGCAAGCTTGATTCCGAGATCCTTCTCGGAGATACGGGCTACGGCCAGGGGCAGATGCTGATGTCTCCGCTGCACTTAGCGGCTGACTATACCGCATTTGTAACAGACGGAAATCTCGTCAAACCGACATTGATCAAAGACGGAGAAAAAACACCGCAAATCTGGCATAAGCAAGTGGTGTCGGAAGCCAATGCCGAAGAAATCACAAAAGGGCTGAGAGGCGTCGTTGAAGATCCGCGAGGCTCTGCATATCAGCCGGCCGTAAGCGGCATTACCGTAGCCGGGAAAACCGGTACAGCCGAGCTGAAAACCTCTAAAGAAGATAAAGACGGCAAAGAAAACGGCTGGTTTGTCGGTTACGATTATAAAAAGAAAGACCTCTTGATCGCGATGATGATTCAAGACGTCAAAAAACGCGGCGGAAGCCATTACGTCGTTGAAAAAGCGAAAAAGCAGTTTCAGAATCATTAA	MKKGLYLLLLLAGIIGLIGCSKTESAEDRMKDFVKDWNGGHYDKMYQSLTQDEKKKLSKKDFVKRYETIYEQAGVKSLKVTAEKQDEDDKKKDDLQHIDYKVSMDTKAGKVAFENTAVLKKEKTDDGESWNIDWNPSFIFKQLSDDKTVQIANEEPKRGQIYDKDGKGLAVNTEVPEIGIIPGKLGKDKDSVIKKLSEKLDLSEDDIKSKLNQGWVKDDSYVPIQKIRPDDESKIKSLLALDGVTKTKVSSRYYPYGEKAAHLTGYIKTITAEQLKKAKDGQYSDTSKIGIAGLENVYEDKLRGTTGWKIYVPQTGEVIAEKKAESGQDIHVTIDMKTQTKLYDSMKDDSGAAVALEPQTGETLALVSAPSYDPNGFIFGWSGKEWKKLNEDKNNPFSAKFNKLYAPGSTIKPIAAAVGLTNGTLKASEKKKITGKEWQKDSSWGGYHVTRVSERLNEVDLENALITSDNIYFAQNAIDAGADAFTKGLKTFGFDEEIPYQFPIEKSSIANGKLDSEILLGDTGYGQGQMLMSPLHLAADYTAFVTDGNLVKPTLIKDGEKTPQIWHKQVVSEANAEEITKGLRGVVEDPRGSAYQPAVSGITVAGKTGTAELKTSKEDKDGKENGWFVGYDYKKKDLLIAMMIQDVKKRGGSHYVVEKAKKQFQNH	PGPT0023945_179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023945-pbpC-K21467	NA	NA
D1-12_03202	321			hypothetical protein	ATGATCAGAGAAGCAGCCATGCTGTATGTAAAAGAAGGTCTTGAGGGGGAATTCGAAGAGGCATTCCGCCGGGCGGAGCCGATTATCGCGGGCATGAAAGGTTATCTGTCCCATTCCTTGTCCAAATGTATGGAAAAGACGCATAAATATTTGCTGCTTGTGGAATGGGAGACATTGGAAGATCATACAAAAGGCTTTCGCGGATCGCCGGAATATCAGGAATGGAAAGCCTTACTGCACCGTTTTTATTCACCATTTCCCGTTGTGGAGCATTTTCAGGATCTATCAGACTCAGATCGCGTGAAGCGTAAAACCGATTAA	MIREAAMLYVKEGLEGEFEEAFRRAEPIIAGMKGYLSHSLSKCMEKTHKYLLLVEWETLEDHTKGFRGSPEYQEWKALLHRFYSPFPVVEHFQDLSDSDRVKRKTD				NA	NA	NA	NA	NA
D1-12_03203	246			hypothetical protein	TTGCTGCGCGCCTTAAAACTGTCACTCGCGATGCTGATTATTATACTTGCGGCCGCCGCATTTACGTATGCGGAACATACCTCTGTCATACAGCCGGTTATGCTCGTGTTTCTCGGTGCAGTCATGTTCATTCAGGGGCTGGAGGAAAAACGGAAAGAAAACGACGGTTCCGGGAAATTCAATATCTATACCGCCGTTTTTGTATGGTCGATCTCCTTAATCGGTTTTACGCTTCACGCGATCTGA	MLRALKLSLAMLIIILAAAAFTYAEHTSVIQPVMLVFLGAVMFIQGLEEKRKENDGSGKFNIYTAVFVWSISLIGFTLHAI				NA	NA	NA	NA	NA
D1-12_03204	642	lipC_2	COG2755	Spore germination lipase LipC	ATGGGACTTGTTTATACGGCGCTGGGGGATTCTTTGACGACGGGGAGGGGGGCCGGGCCGTTTTCCGCCGGTTTTGTCCAGCGGTTCGGGCGTATGATGGCAGAAGATTTACAGACAAGAACCGACGTATCCATCTTTGCCAAATCAGGCCTTGAGACGGGAGAAATTCTCGGGCTTATGTCCTTGCCGTACATTCAGAGGCGGATTCAGGCTGCTGATATGATTACGATTACAGGCTGCGGCAACGATTTGATCGATTCGGTTCAGGCATATCAGCAAACATCGGACGCTTCGGTGTTCACCAGCGTGTCCAGTCACTGCCATGAGAACTTTGAAAAGATGATAGCCAAGATCGCTGCCTTAAAAGGGCCGCACCCGTCTCCTTATGAGATCCGCGTCTTTAATTTATACAATCCTTTCCCGGGAATCTCCATTGCAGAAAAATGGATATCCTCTTATAATGCGCACCTCAGCACACTCGCATCGGCGCCGCACGTCAAAATCGCCGACGTCCACAGCGCTTTCAAAGGAAAAATGAATGAATATCTCTCTCATGACCGCGTACACCCCAACAGCAAGGGATATGAAGTCATGGCATGCGTCCTGCGGGCGCTCGGATACGGAAGCCTCGCCCGCTCATAA	MGLVYTALGDSLTTGRGAGPFSAGFVQRFGRMMAEDLQTRTDVSIFAKSGLETGEILGLMSLPYIQRRIQAADMITITGCGNDLIDSVQAYQQTSDASVFTSVSSHCHENFEKMIAKIAALKGPHPSPYEIRVFNLYNPFPGISIAEKWISSYNAHLSTLASAPHVKIADVHSAFKGKMNEYLSHDRVHPNSKGYEVMACVLRALGYGSLARS				NA	NA	NA	NA	NA
D1-12_03205	780	kipR	COG1414	HTH-type transcriptional regulator KipR	ATGGCTGATCTGACAAAGGGGCTAAAGACCATGGAAAACAAAAACAAAACCGTCATCAAATCAATGGAACTGCTTCATTTGTTTCTGACTGAACCGAGCCTGAGCTTAAATGAGCTGGTTTCTCTATCGGAAATGCCGAAGACCTCGGTTCACCGGATGGCAAGCTCACTGGAGGAAACGGGGTTTCTCACCCGGGCGGCGGACGGCCGTTATCAGCTTGGTCTGATCTTTTTACAATTCGGCCAGCTCGTCTCTGAACGTCTGGACATCAGGAAAATAGCCAAACCGATTATGGAAGAGCTGTGCAGCGAAGTGGATGAGGCCGTTCAGCTGATCATGAGGGACGGGGATGAAGCCATTTACGTCGAAAAAATTGAAGGCACCCAAACCGTCCGCCTGTATACGGCAATCGGCCGCCGGTCGCCGCTGTACGCGGGAGCGTGCGCCAGAAGCATTTTATCGTTTCTGCCAAAAGAGGAGATTGACACATACATTCAGAAGACAAAGCTTGCCGCAATCGCCTCAGGCACGATGACGGATCGGGCTGAACTGCTTCAATCTATTGAAAGATCCTTACAATCAGGGTATACGATCAGCTATTCGGAATTAGAAGATTACACGGCGGCGATCGGGGCGCCGATTTTCAATCACGAAGGTAAGGTGGCTGCCGGAATCAGCATCGCCGGCTTCGAAGCCCGGTTTTCAGAGGACAGGCTGACGTATTTAACCGAAAAGGTCAAAAACGCAGCACAGCATATTTCTGAGAAATTGGGTTATTGA	MADLTKGLKTMENKNKTVIKSMELLHLFLTEPSLSLNELVSLSEMPKTSVHRMASSLEETGFLTRAADGRYQLGLIFLQFGQLVSERLDIRKIAKPIMEELCSEVDEAVQLIMRDGDEAIYVEKIEGTQTVRLYTAIGRRSPLYAGACARSILSFLPKEEIDTYIQKTKLAAIASGTMTDRAELLQSIERSLQSGYTISYSELEDYTAAIGAPIFNHEGKVAAGISIAGFEARFSEDRLTYLTEKVKNAAQHISEKLGY	PGPT0018213_799	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
D1-12_03206	1014	pxpC	COG1984	5-oxoprolinase subunit C	ATGAGTATGAAAGTGGTAAAACCCGGTCTCTTGACGACGGTTCAGGACACGGGGCGGACGGGGTATCAGAAATACGGTGTACTGGGAAGCGGCGCAATGGATACGATCTCTCTGCGCATCGCCAATCTTCTTGCCGGAAATCAAGAAAAAGAGGCGGGGCTGGAAATTACGCTCATGGGGCCCGGGCCTTCCTTTGAATTTTCAGAACCTGCGGTTATTGCCGTCACGGGAGCTGATTTTGCCCTTCATATTAATGGGGAGCCCGCTCCTCTGTGGAAACCGGTTTTGATAAAGGAAAACAGCGTCGTCTCGTTCGGGCCGTGCAAGATGGGGAGCCGCGCATATCTCGCCGTCGCGGGGGGATTTGACGTGCCCGCCGTCATGGAAAGCAAAAGCACGTATGTCAGAGCGGGGATCGGCGGTTTTTGCGGAAGAGCGCTGCAAAAAGATGATGAGCTGCCGCTCGGCCGTATGACGCCATGTTCGGAATCAATCGCGTACCGTCTGAGCGATTCTTTCGGACAGCATGGTTTCTCAGCGCCTGATTGGTCTGTCAGCAGCAGGGGATTTCTGCCGCTGAAAAAAAATCCGGTCATACGAGTGCTTGAAGGCGCTCAATTTCACGCTTTTACAGAAGAAGCAAAATTGCGTTTTTATCAAGAGTCATATACGGTCACGCCTCAATCCGACCGAATGGGCTACCGGCTGAAGGGCGCTCCGCTTGAATTGCGGGAGCCGCTGGAGATGGTATCTGAGGCCGTGACGTTCGGAACGGTGCAGGTGCCGCCGGACGGCAATCCGATTATTCTGCTGGCTGACAGACAGACGACGGGGGGCTATCCGCGGATGGCGCATATCATATCCGCCGATCTTCCTCTCGTCGCCCAAACGATGCCGGGGGAACATATCACGTTCCGGGCCGTTTCGCTGGAGGAAGCGGAAATGCTGCTTTTGGAGAAGGAACAGCAGCTGAAGGAGCTGAAAGCAAGGCTCAAAATGGAATGGCTGATCTGA	MSMKVVKPGLLTTVQDTGRTGYQKYGVLGSGAMDTISLRIANLLAGNQEKEAGLEITLMGPGPSFEFSEPAVIAVTGADFALHINGEPAPLWKPVLIKENSVVSFGPCKMGSRAYLAVAGGFDVPAVMESKSTYVRAGIGGFCGRALQKDDELPLGRMTPCSESIAYRLSDSFGQHGFSAPDWSVSSRGFLPLKKNPVIRVLEGAQFHAFTEEAKLRFYQESYTVTPQSDRMGYRLKGAPLELREPLEMVSEAVTFGTVQVPPDGNPIILLADRQTTGGYPRMAHIISADLPLVAQTMPGEHITFRAVSLEEAEMLLLEKEQQLKELKARLKMEWLI				NA	NA	NA	NA	NA
D1-12_03207	732	pxpB	COG2049	5-oxoprolinase subunit B	ATGATGCAGTATAGCGGAAATACAGCGCTTGATATACAGCCGTACGGTGATTCCGCCGTTATCATCCGCTTTGGCGGGCACATCAGCGAAGAGGTCAACAGCCGGGTGCATGCGGCGGCAGCCTGTATGGAAGAACGGCCGTTTCCGGGCTTCGTTGAATGTATTCCGGCATTCACAAGCTTAACGATCTTTTATGATATGTATGCCGTCTCAAACATAAAAAAAGGCGTCTCTCCTTTTGCCCTGGTCAAGAAAGAAGTGACAGAACGTCTCAGTCATATAATGACCGACCGCCAGGAAGAGCGCCGGGTGATGGAAATCCCCGTTTGCTACGGCGGTGATTTCGGTCCCGATTTAGAAGAGGTCGCTGAGATGAACGATCTGACCCCGGAAGACGTCATCCGCATTCATACTGAAGGCGAATATCTCGTTTATATGCTCGGATTTGCGCCGGGATTTCCGTTTTTAGGAGGAATGTCTGAGCGGATCAGAGCGCCGAGAAAGGCGTCGCCAAGGCCGTCCATCCCGGCCGGTTCAGTAGGAATCGCGGGAATGCAGACCGGTGTGTATCCGATATCCACTCCCGGCGGCTGGCAGCTGATCGGCAGCACCCCGCTCCGGCTTTTCAGGCCGGAAGAACATCCGCCGAGTCTTTTGAGAGCGGGCGATACGGTGAAATTCGTCCGGATCACGGCAGAGGAATACAGCCGCATCAAGGAGGGAGCCGAATGA	MMQYSGNTALDIQPYGDSAVIIRFGGHISEEVNSRVHAAAACMEERPFPGFVECIPAFTSLTIFYDMYAVSNIKKGVSPFALVKKEVTERLSHIMTDRQEERRVMEIPVCYGGDFGPDLEEVAEMNDLTPEDVIRIHTEGEYLVYMLGFAPGFPFLGGMSERIRAPRKASPRPSIPAGSVGIAGMQTGVYPISTPGGWQLIGSTPLRLFRPEEHPPSLLRAGDTVKFVRITAEEYSRIKEGAE				NA	NA	NA	NA	NA
D1-12_03208	795		COG4336	Putative hydro-lyase	ATGAAAAAACATATGAGAGACATGAGCCCCGAAGAAATCAGACAGCTGATCAGGAAGGGGCAGATGACCGGGCCGACGGCGGGGGTGGCCGCTTCTTACGCACAAGCCAATCTCGTCGTTTTGCAAAAGGATCTTGCCTTTGATTTTCTCTTATTCTGCCAGCGCAATCAAAAGCCTTGTCCGGTGCTTGACGTGACGGATGCGGGTTCACCCGTTCCGGCAATAGCGGCGCCGGGAGCTGATATCCGGACGGACTTGCCGAAATACAGGATTTATCGGCATGGCGTGCTTACTGAAGAGGTAACGGATATTACGCCGTATTGGAAGGATGATGATGTCGGGTTTTTGATCGGCTGCAGTTTTTCATTCGAGCAAGCCCTTATCAATCAGCAAATTCCAATCAGGCACATCGATGAGGGTGTGAATGTCCCCATGTATAAAACAGACATTGACTGTGTTCCCGCAGGCCCGTTTTCGGGAAAGATGGTCGTCAGCATGAGACCGATTCCGGAAAGGCTTGCAGTCCGCGCGGCGCAGGTCACGTCACGTTTTCCCGCCGTGCACGGCGCCCCCGTCCGCATCGGAAATCCGCAAAGCATCGGTATCAGCGATTTGCATCAGCCGGATTTTGGAGATGCCGTAACGGTGCGGGAAGGTGAAGTTCCCGTATTCTGGGCTTGCGGCGTTACACCCCAGGCGGTGATCATGGAAGCAAAGCCTGACATCGTAATAACACATTCACCGGGGCACATGCTGATCACCGATATACGAAATGAATCGCTTGCTGTCCTGTAA	MKKHMRDMSPEEIRQLIRKGQMTGPTAGVAASYAQANLVVLQKDLAFDFLLFCQRNQKPCPVLDVTDAGSPVPAIAAPGADIRTDLPKYRIYRHGVLTEEVTDITPYWKDDDVGFLIGCSFSFEQALINQQIPIRHIDEGVNVPMYKTDIDCVPAGPFSGKMVVSMRPIPERLAVRAAQVTSRFPAVHGAPVRIGNPQSIGISDLHQPDFGDAVTVREGEVPVFWACGVTPQAVIMEAKPDIVITHSPGHMLITDIRNESLAVL				NA	NA	NA	NA	NA
D1-12_03209	1215			hypothetical protein	ATGGAGCAAAAGAAAAAAACAGCCGGAAAGGCTTCCGGCAGATGGTCGCTTCTTTTAGGCGCGACATTTTTGATGGCGACATCATCAATCGGGCCCGGCTTTCTGACGCAAACGGCCACGTTTACCAATACATTGGCGGCAAGCTTCGGCTTTATCATTTTAATTTCTATTATTTTGGACATTTTCGCGCAAACCAATGTATGGCGGATTATCGCGGTTTCCGGAAAGCGCGGCCAAGAGATTGCCAATATGGTGCTTCCGGGCGCCGGTTATGCCATTGCTTTTCTGGTCGTGCTCGGCGGACTTGCGTTTAATATCGGAAACATCGGCGGCGCGGGTCTCGGTCTTCAAGTATTATTCGGGATCAAACCGGAGATCGGCGCTTTAATCAGCGCAGCGGTCGCGGTGCTGATTTTTGTCATAAAGGAAGCCGGAAAAGTCATGGATCGTTTTATGCAGATCGCCGGCATCGTCATGATCGTATTGACGGTGTATGTTGCCGTAACGACGGCTCCGCCGGTCGGACACGCCGTTGTGAAAACTTTTATGCCTGATCATATCAGTGTGCTGGCGATCGTGACGCTTGTCGGCGGCACAGTCGGCGGGTACATTACATTTGCCGGCGGCCACCGTTTGCTTGATTCAGGCATCCAAGGGAAAGAAGTCATCCCCCAGGTCACGAAAAGCTCCATCACAGGCGTTCTGATTACATCGATTATGCGGATTGCCCTGTTTCTCGCCGTGCTCGGCGTCGTCTCAAAGGGCCTGAGCATTGATCCTGATAATCCCGCAGCTTCTGTATTCCGGCTTGCGGCGGGAAATGTAGGCTATAAAATTTTCGGCGTCATCATGTGGTCTGCCGCTATCACGTCTGTCATCGGCGCCGCCTATACATCGGTGTCATTCTTCAAATCGTTTTCAACAAAAATCGAAAAGCACTCACATGGCGTAATTATCGGCTTTATCATCGTATCCACTCTTATTTTTGTCACGATCGGCCAGCCTGCCAAAATTTTGGTCGCGGTCGGTTCGCTTAACGGCTTAATTCTGCCGCTTGCATTAGCGATGATTCTGTTGGGCGCTTATAAGAAAAAAATCGTCGGCGATTACAAGCATCCGATCTGGCTCACGATTGCAGGGGCGATCGTAGTGGTTGTCATGGCGGTTATGGGCATCTATACATTATTCACGCAGATGCCGCAGCTATGGAGCTGA	MEQKKKTAGKASGRWSLLLGATFLMATSSIGPGFLTQTATFTNTLAASFGFIILISIILDIFAQTNVWRIIAVSGKRGQEIANMVLPGAGYAIAFLVVLGGLAFNIGNIGGAGLGLQVLFGIKPEIGALISAAVAVLIFVIKEAGKVMDRFMQIAGIVMIVLTVYVAVTTAPPVGHAVVKTFMPDHISVLAIVTLVGGTVGGYITFAGGHRLLDSGIQGKEVIPQVTKSSITGVLITSIMRIALFLAVLGVVSKGLSIDPDNPAASVFRLAAGNVGYKIFGVIMWSAAITSVIGAAYTSVSFFKSFSTKIEKHSHGVIIGFIIVSTLIFVTIGQPAKILVAVGSLNGLILPLALAMILLGAYKKKIVGDYKHPIWLTIAGAIVVVVMAVMGIYTLFTQMPQLWS	PGPT0020786_14	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0020786-ycsG-NA	NA	NA
D1-12_03210	765	pxpA	COG1540	5-oxoprolinase subunit A	ATGTTTCAGATTGACATCAATTGTGATTTAGGAGAGAGTTTCGGTGCTTATAAAATCGGGCTGGATGAAGAGATTTTGGACTATGTGACATCTGCAAACATCGCCTGCGGCTTTCATGCGGGTGATCCCAGCGTGATGCGCAAAACGGTTGCGCTTGCGGCGGAAAAAGGCGTGAAAATCGGCGCTCATCCGGGACTGTTCGATCTTCAGGGATTCGGGCGGCGGCAGATCGCGATTACACCCGAGGAAGCGTATGATCTGACGCTGTACCAAATCGGCGCGCTGTCAGGTTTTTTAAAAGCAGAAGGTGTCGAGATGCAGCATGTGAAGCCGCACGGCGCTTTATATAATATGGCCGCCGTCAATCCCGGCCTGTCAGAAGCCATCGCTCAGGCGGTCTGTCATTTTGATCCCGGGCTTATTCTTTTCGGGCTTTCCGGAAGCGAGCTGATTAAAGCGGGAGATCGAATCGGACTGAGGACGGCAAGCGAAGTGTTTGCGGACCGCACCTATCAGGAAGACGGCACGCTGACGCCGCGTTCAGAGCCGGATGCGCTGATTCAGGATGACAAAAAAGCGGTCGGTCAAGTGATTCAAATGGTGAAAGACAGCACGGTGACATCACGTAAGGGACAAGCTGTAAGCCTGAAAGCGGACACGGTCTGCATTCACGGAGACGGAGCCCACGCCCTCACATTCGCAAAAACAATCAAAAAAGAATTAAAAGCGGCAGACATTCAAATCAGCGCGCTTGCAAAAGACTGA	MFQIDINCDLGESFGAYKIGLDEEILDYVTSANIACGFHAGDPSVMRKTVALAAEKGVKIGAHPGLFDLQGFGRRQIAITPEEAYDLTLYQIGALSGFLKAEGVEMQHVKPHGALYNMAAVNPGLSEAIAQAVCHFDPGLILFGLSGSELIKAGDRIGLRTASEVFADRTYQEDGTLTPRSEPDALIQDDKKAVGQVIQMVKDSTVTSRKGQAVSLKADTVCIHGDGAHALTFAKTIKKELKAADIQISALAKD				NA	NA	NA	NA	NA
D1-12_03211	750	ycsE		5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YcsE	ATGCCGATACAAAGAGAAGACGCAGATATTAAACTGATCGCGATTGATATGGACGGAACCCTGCTCAATGACGAGCAGCTCATCCCGGAGGAAAACCGGCGGGCGATCAAGGAAGCGGAGGCGAAAGGAATTCACGTCGTCATCAGCACAGGACGCACGCTGATGACCTGCCGCGAACTGGCTGAGTCTCTCGAGCTGTCATCCTTTTTAATCACGGCAAACGGCAGCGAAATCTGGGATTCCAACTTTGAGCTGGTTGAGCGCAAGCTTCTTCATACCGATCATATTCAAAAATTATGGGATCTGCGGAATAAGCACAACACGAATTTCTGGGCCTCTACCGTCGATAGAGTGTGGAGAGGGGAATTCCCGGAAACGATTACGGATCATCAGTGGCTTAAGTTCGGATTCGAAATCGAGGATGACGAAGTGCGGAATGAGGTGCTGAAAGAGCTCAAAGAATACAAGGAGCTCGAGATCACAAACTCAAGTCCGATCAACATCGAAGTCAATGCCCTCGGTATCAACAAAGCGGCTGCGCTTGCGAAGGTATCGGAAAAACTCGGCTTCACGATGGAAAATGTGATGGCCATGGGTGACAGTCTGAATGACATTGCCATGATTGAAAAAGCGGGTGTCGGCGTCGCCATGGGGAATGCGCAGGACATTGTGAAAGAAACAGCTGACTGGGTGACTGATCTCAACACGGAAAACGGGGTCGCCAAAGCGATCCGCCACTGGGTGTTATAA	MPIQREDADIKLIAIDMDGTLLNDEQLIPEENRRAIKEAEAKGIHVVISTGRTLMTCRELAESLELSSFLITANGSEIWDSNFELVERKLLHTDHIQKLWDLRNKHNTNFWASTVDRVWRGEFPETITDHQWLKFGFEIEDDEVRNEVLKELKEYKELEITNSSPINIEVNALGINKAAALAKVSEKLGFTMENVMAMGDSLNDIAMIEKAGVGVAMGNAQDIVKETADWVTDLNTENGVAKAIRHWVL	PGPT0008595_835	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
D1-12_03212	165			hypothetical protein	ATGAAAGAAAGAAAACAAAAGAACAAACCGAATGAAAATCCTGAACATCATGATTTAACCGATCCGATTCCGCTGGAAGAGCTGAAAGAAAACGCCAATGACGAAAAACACAAACATGACCAAAGGGACAATTCACAAAGTGAAAGAGATTATGATACAAAATAA	MKERKQKNKPNENPEHHDLTDPIPLEELKENANDEKHKHDQRDNSQSERDYDTK				NA	NA	NA	NA	NA
D1-12_03213	396	fabZ_2	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGAATCAGAAGCTATTGCCCCATCGTTTTCCGTTTCTTTTGATTGACGGCACGACGAACAGTGAAGCCGGAAAATGGGCGGCTGCTTACAAAAACATCAGTGAAAATGACTGGTTTATAACTGAATCCCAAAGAGAGATGCCATTTTCGTTCGTCGTTGAAGCAATGGCCCAAACGGCGGCTTGCGCGGGAATTACCGGCGGTGACGGCCTCGGTCTCTTATCCGCGGTGAAGAAAGCGGAAAGGTTAGGTGCCGCTTTGCCGGGAGACCGTCTGGATCTTTTTTTTGAGGTCACGCGAATCAGACGCGGTTTTGTGTTCGGCCGGGCGAAAGCTTCCGTTGCCGGGAAGCCTGTGGCGGAAGCTGAGCTCAGCATATTTATCCAGCCATCGTAA	MNQKLLPHRFPFLLIDGTTNSEAGKWAAAYKNISENDWFITESQREMPFSFVVEAMAQTAACAGITGGDGLGLLSAVKKAERLGAALPGDRLDLFFEVTRIRRGFVFGRAKASVAGKPVAEAELSIFIQPS	PGPT0008365_4046	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
D1-12_03214	1122	mtlD	COG0246	Mannitol-1-phosphate 5-dehydrogenase	ATGATTGCCCTTCATTTCGGAGCGGGAAACATCGGGCGGGGCTTTATCGGCGCCCTGCTCCATCATTCCGGCTATGAGGTAGTTTTCGCTGATGTGAATGAAACGATGGTCAGCCTTCTCAATGAAAAGAAGGAATATACCGTGGAGCTTGCCGACGGCGGCCGGCAGACAGAAATCATCGGCCCCGTTTCAGCCATCAACAGCGCGGTGCAAGAACAAGAGCTGTACGGGCTGATCAATGAAGCGGTGATCATTACGACGGCGGTGGGCCCGAACGTTCTCAGACTCATCGCCCCGTCCATCGCGGAAGGGCTGAAGCGCAGAACGTCCTCTGAGCCTCTCAATATCATTGCCTGTGAAAATATGATCAGCGGCAGCAGTTTTCTGAAAAAAGAAGTTTTCGGACATTTGACGGAAGCGGAGCGGGAACTCGTGAACCGGACGGTCGGCTTCCCGGATTCTGCGGTGGATCGGATCGTGCCGATTCAGCACCATGAAGATCCGCTGAAAGTATCCGTAGAACCGTTTTTTGAATGGGTCATAGACAGAACCGGCTTTGCCGGCGGCCAGCCGGTACTGGAAGGTGCGTTGTTTACGGATGATCTTACGCCTTTCATCGAGAGAAAGCTGTTTACCGTCAATACCGGCCATGCCGTTACGGCGTACGTCGGCTATCAGCGCGGATTAAAAACCGTCAAAGAGGCCATCGGCCATCCGGAAATCCGGCGTGTCGTGTACGATGCACTTTCAGAAACGGGCGAGTACTTGGTGAAAGCGTACGGCTTTAAGCAATCCGAACACGAGCAGTACATGAAGAAAATCATCGGCCGCTTTGAAAATGAATACATCACGGATGATGTGACAAGAGTCGCCAGATCACCGCTTAGAAAACTCGGAGCGAATGACAGATTAGTAGGGCCGGCCAAAAAAATAAAAGAACCGAACGCGCTGGCAGAAGGCATCGCCGCCGCCCTGCGCTTTGACTATCAGGATGATCCGGAAGCGGTTGAGCTGCAAAAGCTTATCGCGGAAAAAGGCACGAGCGGCGTTCTTCAAGACATTTGCGGTATTCAGCCGCATGAACCGCTGCACGGCATCGTGCTCAAAAAGCTCAATCAATAA	MIALHFGAGNIGRGFIGALLHHSGYEVVFADVNETMVSLLNEKKEYTVELADGGRQTEIIGPVSAINSAVQEQELYGLINEAVIITTAVGPNVLRLIAPSIAEGLKRRTSSEPLNIIACENMISGSSFLKKEVFGHLTEAERELVNRTVGFPDSAVDRIVPIQHHEDPLKVSVEPFFEWVIDRTGFAGGQPVLEGALFTDDLTPFIERKLFTVNTGHAVTAYVGYQRGLKTVKEAIGHPEIRRVVYDALSETGEYLVKAYGFKQSEHEQYMKKIIGRFENEYITDDVTRVARSPLRKLGANDRLVGPAKKIKEPNALAEGIAAALRFDYQDDPEAVELQKLIAEKGTSGVLQDICGIQPHEPLHGIVLKKLNQ	PGPT0013700_910	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0013700-mtlD-K00009	NA	NA
D1-12_03215	432	mtlF	COG2213	Mannitol-specific phosphotransferase enzyme IIA component	ATGGAAGTATTGGCTAAAGCGAACATCAAACTGAACCAGACGGTGAACTCAAAAGAGGATGCCATCCGCCTCGCGGGACAGACATTGATTGATAACGGCTACGTGACGAACGGCTATGTGGAAAAAATGTTCGAACGTGAAGAAACATCATCCACGTTTATGGGGAATTTCATCGCGATCCCGCACGGCACGGAAGATGCGAAGGATGAGGTGCTTCATTCAGGCATTTCCGTCATCCAGATTCCGGACGGTGTGGAATACGGTGAAGGCAATACGGCAAAGGTCGTTTTCGGTATCGCCGGAAAAAACAATGAACATTTAGACATCCTGTCAAACATCGCCATCATCTGCTCAGAGGAAGAAAACATCGAACGGCTGATCAGTGCAAAGACGGAAGAAGAACTGGCCGCTATTTTCAGCGAGGTGAACTGA	MEVLAKANIKLNQTVNSKEDAIRLAGQTLIDNGYVTNGYVEKMFEREETSSTFMGNFIAIPHGTEDAKDEVLHSGISVIQIPDGVEYGEGNTAKVVFGIAGKNNEHLDILSNIAIICSEEENIERLISAKTEEELAAIFSEVN	PGPT0016940_472	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL_PTS_SYSTEM,PGPT0016940-cmtB-K02798	NA	NA
D1-12_03216	1434	mtlA		PTS system mannitol-specific EIICB component	ATGCAGCAAGAACAGCAAGCTGGCATGAAAGTGAAGATACAGCGGTTCGGCAGTTATTTAAGCGGTATGATCATGCCGAATATCGGCGCATTTATCGCATGGGGAATTATTACCGCACTGTTTATACCTAAGGGATGGTTTCCGAATCCGCAGCTGAATACATTGGTAACCCCGATGATTACGTATCTACTGCCGCTTTTAATCGCATATACGGGCGGAAAAATGATCTATGATCACCGCGGGGGAGTCGTCGGAGCGACGGCCGCCATCGGAGTCATTGTCGGAGCGGACATTCCGATGTTCTTAGGGGCAATGATTATGGGGCCTTTGGGCGGTTATCTCATTAAACAATTAGACCGTGTGTTTAAAGATAAAGTCAGACAGGGTTTTGAAATGCTGATCAACAACTTCACGGCGGGAATTATCGGCGCGGTGCTGACGATTATCGCGTTTTATGCGATCGGCCCGGTCGTCCTGTCTCTTAACAAATTGCTGGCGGCGGGTGTGGAAGTCATTGTCCACGCGAATTTGCTGCCGATTGCAAGCGTTTTCGTAGAACCGGCGAAAGTCCTGTTCCTGAATAACGCGATCAACCACGGCATTTTAAGTCCGATCGGAATCGAGCAGGCCGCCAAAGCGGGTAAATCCATTCTGTTCTTAGTGGAAGCGAACCCCGGGCCGGGACTCGGTATTTTACTGGCATATATGTTCTTTGGGAAAGGCTCTTCAAGATCGACGGCTCCGGGAGCGGCGATCATTCATTTCTTCGGGGGGATACATGAAATCTATTTCCCTTACATTTTAATGAAACCGATGCTGATCCTCGCGGCGATCGCCGGGGGAGCGAGCGGACTGCTTACATTCTCGATCTTTAACGCAGGTCTTGTCGCCGCATCATCTCCGGGAAGCATCATCGCCATTTTAGCGCTGACGCCGAAAGGAAGCTACCTCGGCGTGCTGGCGGGCGTCATCGTTGCCGCGGCCGTATCGTTTATCGTCTCGGCGCTTATTCTGAAATCGTCTAAAGCGGGCGAAGAAGATTTGACAGCCGCGGCGGAAAAAATGCAGGAAATGAAAGGCAGGAAAAGTGAAGCGGCGGCCGCGTTGGCAGACAAAGAGGAAGAGCCGGAAAACAGCGCCGCTGATATTTCCGCTGACCAAGTCAGCCGCATTATCTTCGCGTGTGACGCGGGTATGGGATCGAGCGCAATGGGCGCCTCCATTTTAAGAAACAAAGTGAAAAAAGCAGACCTGGATATTGATGTGACAAATACGTCGATCAATAATCTTCCGAATGACGCGGATATCGTCATTACGCATAAGGACCTGACTGACCGCGCGAAAGCGAAGCTGCCGCAGGCGGTGCACATTTCGGTTGATAATTTCTTGAACAGCCCGAAATACGATGAACTGATTGAAAAGCTTAAAAACTAA	MQQEQQAGMKVKIQRFGSYLSGMIMPNIGAFIAWGIITALFIPKGWFPNPQLNTLVTPMITYLLPLLIAYTGGKMIYDHRGGVVGATAAIGVIVGADIPMFLGAMIMGPLGGYLIKQLDRVFKDKVRQGFEMLINNFTAGIIGAVLTIIAFYAIGPVVLSLNKLLAAGVEVIVHANLLPIASVFVEPAKVLFLNNAINHGILSPIGIEQAAKAGKSILFLVEANPGPGLGILLAYMFFGKGSSRSTAPGAAIIHFFGGIHEIYFPYILMKPMLILAAIAGGASGLLTFSIFNAGLVAASSPGSIIAILALTPKGSYLGVLAGVIVAAAVSFIVSALILKSSKAGEEDLTAAAEKMQEMKGRKSEAAAALADKEEEPENSAADISADQVSRIIFACDAGMGSSAMGASILRNKVKKADLDIDVTNTSINNLPNDADIVITHKDLTDRAKAKLPQAVHISVDNFLNSPKYDELIEKLKN	PGPT0016945_911	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0016945-mtlA|cmtA-K02800	NA	NA
D1-12_03217	342	ycnL		putative protein YcnL	ATGAAAGAAACGACCTGCCCGAACTGCGGCAAGCCGATTACAGGCGACATGGTCAGATCATCCATGATCCCGTGCCAGTTTCAGTGCGGGCATTGCCATGTGAAATTGCGTGAATATAAAGTATCCGCTCCGATTATGGCTGCGGCCATTGCGATCACGGTGCTTTTGATTTATCTTGTGCAGATGGCCAGAACCGCCGTCATGCCGATGTTTCCGGCAGCGCGGTATGTGCCGGCCGCCATTTTCGCGCTCGTATGTGCGTATCCGGTGTTTATTGTCAGTGAGCGGCTCATTGCCAAACTCGTTGTCACAAAAGGACACATTATATACAGAAAGCGGTAA	MKETTCPNCGKPITGDMVRSSMIPCQFQCGHCHVKLREYKVSAPIMAAAIAITVLLIYLVQMARTAVMPMFPAARYVPAAIFALVCAYPVFIVSERLIAKLVVTKGHIIYRKR				NA	NA	NA	NA	NA
D1-12_03218	573	ycnK	COG1349	HTH-type transcriptional repressor YcnK	TTGCTTCCGATTCACAGACAGCAAACCTTGCTTGAATGGCTGAAAGAAGAGGGCGCGCTGAAAATCTCTGACATAAGCGAGAGATTCGGCGTCTCCGAGATGACCGTGTACAGAGACGTCAATCAGCTGGCGGATGCAAACCGGATTATCCGGACACCCGGCGGCATTACGCTCCCGCCCGCTTCAGAACGAAGCGCCAATCAATGCGGCTATTGCCTGCGGCCGATTCAGCATTCGTATTCTGTTCAGCTTATTACCGTTTCACAAGCCGTTGAGCAGATGTGCTGCATTCATTGCGCGATTTTGCGGTATGAGGATAAAAAGGAAGAAGTGTCCCACGTCATTTGTAAAGATTTTCTTCTTCAGACGACACTGACGGCAGCTTCCGCATACTTTTTAGTCCATGCCGATATTGACCTTCACTGCTGCCGGCCTCAGGCGATTCCCTTCTCAACGCTTGATTACGCAGAACGGTTTCAAAAAGGATTCGGCGGGGTCATTTGCACCTTTGACGAGGCGGCGGACATCATCTTACACGACAGGCAGAAGGGATGCACCTGCAGCAAGACATAA	MLPIHRQQTLLEWLKEEGALKISDISERFGVSEMTVYRDVNQLADANRIIRTPGGITLPPASERSANQCGYCLRPIQHSYSVQLITVSQAVEQMCCIHCAILRYEDKKEEVSHVICKDFLLQTTLTAASAYFLVHADIDLHCCRPQAIPFSTLDYAERFQKGFGGVICTFDEAADIILHDRQKGCTCSKT	PGPT0004170_32	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004170-ycnK-K21601	NA	NA
D1-12_03219	1629	ycnJ	COG1276	Copper transport protein YcnJ	ATGAGACAGAACAAACGCTGGCTCATCTTTTTGCTGTTCCTTGTTTTGATTCCGAAAACAAGCTTCGCCCACGCCTACATCACAAACTCAAATCCGGGTGAGAACAGCGAATTAAAACAAGCGCCGAAGCAGATTGAAATTGAGTTTAATGAACAGATTGAAGAAGGCTTCCACTCCATTAAGGTCTATAATTCATCCGGCGAACGGGTTGACGCGGGCAAAACGGTGATTCAAAAAAATGATGCCCGCATCATGACCGCGGCATTGAAAAAAAACCTGCCGCATGATATTTACAGAGCGGAATGGAACGCGGTATCGGCCGACGGACATCCGGTATCCGGCGTCATCCCTTTCAGTATCGGAAAAGCCGGCGGAGAACTTCAGGAGCAGACATCATCGCAAGCGGCGCTTCATCCCGAAGCGGCCATCGACCGCGGTATTTTGTACACCGCTCTCTCCCTGTTTATCGGCACGGCTTTTTTCCATCTGTTTTGGTACAGAAATAATAAAGATTCATCAAAAGCAAAACGAACTGTAAAGCTGCTCGTGATTTCTTTGTGTTTAACGGGGCTCGCGCTTATCTGCCAGCTCCCGATCCAGACGAAAGAAAACGCGGGCGGCGCTTGGAGCGCCGCGTTTCAGCCGGACTATGTAAAAGAAACGCTTCTGAAAACGGCAGGCGGGTACGTCTGGATGATCCAGATCAGCTTATTTATCCTGCTCGCCCTGTCCATGATCCCGCTGCTGAAGAAGAAAGCATTCCGGTCATTTGCGTACTGGACGGCGCCGCTGTTGTTCTTCTTCGCTTCGCTTTTGGCAAAAGCATTCGCCGGGCACGCGGCGGTTATCGACGAAAAAGCGGTCGGCATCGCAATGGACTTTCTCCATTTATCGGCCGCGTCTGTATGGATGGGCGGTATCGCCGCGCTTGTGCTGCTTCTTTCATCAGAGTGGAGAAAACCCGATAAAACCATCGCTTGGGAAACGGTCAGACGGTTTTCTCCTTGGGCGTTCGCCTCTGTCGGCGTGCTGTTATTTTCAGGTGTACTGAACGGATTTTTCATTATCCGCACGTTTGATTCACTCTTTCACACCGCTTACGGTAAGACGCTCCTTTTGAAAATCGGACTGTTTGTCATCATGCTTGCGCTCGGCGCCGTTCACGTATGGATGACGAAGTTCAGCAGAAAAAGGAGCATCAGCGCAACGATAAAGGCCGAATGGGCACTAGGCATCGCGGTATTATTCACAACCGCCGTCTTCACAAGCCTGCCCAGCCCGCCGCCGCCTGCGCCATTGCCTTTTAACGGCTCAGAAACGATCGGAAACGGGGAAACCCTGTCCTTGCACATTACGCCGAACCAGCCGGGTAAAAATGAATTTCAAGTCATTGTCAACGATCACAACGGCAGCTTGGTAAAAGACATTCAGCAATTTACGGTCACTGTTTACCAGACGGGCTTCAGCGGCAAACAGCATGAAAGCACCTTTGATTTGAAGAAGACGAAGGAAGGCACATTTGAAGCCGCCAACCTATCCATCACCGAAAAGGGAAACTGGAAGATCAAAGTCCACGGGCTGACAAACGATTTTAATGAAATCAACCAAATATTCTCAACGACAAACTAA	MRQNKRWLIFLLFLVLIPKTSFAHAYITNSNPGENSELKQAPKQIEIEFNEQIEEGFHSIKVYNSSGERVDAGKTVIQKNDARIMTAALKKNLPHDIYRAEWNAVSADGHPVSGVIPFSIGKAGGELQEQTSSQAALHPEAAIDRGILYTALSLFIGTAFFHLFWYRNNKDSSKAKRTVKLLVISLCLTGLALICQLPIQTKENAGGAWSAAFQPDYVKETLLKTAGGYVWMIQISLFILLALSMIPLLKKKAFRSFAYWTAPLLFFFASLLAKAFAGHAAVIDEKAVGIAMDFLHLSAASVWMGGIAALVLLLSSEWRKPDKTIAWETVRRFSPWAFASVGVLLFSGVLNGFFIIRTFDSLFHTAYGKTLLLKIGLFVIMLALGAVHVWMTKFSRKRSISATIKAEWALGIAVLFTTAVFTSLPSPPPPAPLPFNGSETIGNGETLSLHITPNQPGKNEFQVIVNDHNGSLVKDIQQFTVTVYQTGFSGKQHESTFDLKKTKEGTFEAANLSITEKGNWKIKVHGLTNDFNEINQIFSTTN	PGPT0004095_420	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004095-ycnJ-K14166	NA	NA
D1-12_03220	612	ycnI	COG4549	putative protein YcnI	ATGTTGAAAAAAAAGGCTTTATTATTCATATCCGCCGTGACCCTGTCACTCGTCGGTTTTACGGCGACAGCAAGCGCCCACGTCTCAGTCAAACCCGCGGAATCCGCGGCCGGTTCTTGGGAAACGTACACGATGAAAGTGCCTGTGGAAAAGAATGAGCCGACAACGAAAGTCGTGCTGAAAATGCCCGCAGGCGTTGAATTTCAGCAGTATCAGCCGATTCCGGGCTGGAAAACATCCGTATCCAAACATGATGACAAAGCGGTCTCCGTCACTTGGGAAGCAAAGGACGGCGGCATTCAGCCCGGCCAATTCCAGCAGTTCACGTTCGTTGCGAAAAATCCTGAAAAGAGCGGAGATGCCGCTTGGGACGCTTACCAATATTACAAAGACGGCAGCATTGTAGAATGGACGGGTGATGAGAAAGCCGACACGCCTCACTCGATTACGAAAATCACGAAATCGGCGAGCGTGACGGATGCGCACGGAGCTGAACAGTCAAACGAAGAAAGCAAATCCGGCGTATCAGCGCTTGATATTGCAGCCATCGTTCTGTCAGCTGCGGCAATTATCCTTTCCATCGCGGCGCTTGTAAAGAAAAAACGTGTGTAA	MLKKKALLFISAVTLSLVGFTATASAHVSVKPAESAAGSWETYTMKVPVEKNEPTTKVVLKMPAGVEFQQYQPIPGWKTSVSKHDDKAVSVTWEAKDGGIQPGQFQQFTFVAKNPEKSGDAAWDAYQYYKDGSIVEWTGDEKADTPHSITKITKSASVTDAHGAEQSNEESKSGVSALDIAAIVLSAAAIILSIAALVKKKRV				NA	NA	NA	NA	NA
D1-12_03221	786	gdh	COG1028	Glucose 1-dehydrogenase	ATGTACACGGATTTAAAAGGAAAAGTCGTTGCCATTACGGGAGCTTCATCAGGATTAGGAAAAGCGATGGCGATCCGCTTCGGACAGGAGCAGGCGAAAGTCGTGGTTAACTACTATAGTAATGAAAAAGACGCCCAAACCGTTAAAGAAGAGATTCAAAAAGCGGGAGGCGAAGCTGTCATCGTTCAAGGAGACGTCACAAAAGAAGAAGATGTCAAAAACATCGTGCAGACCGCAGTGAAGGAATTCGGCACATTGGATGTCATGATCAATAACGCCGGCATGGAAAATCCGGTTCAGTCGCATGAAATGCCGCTTAAAGACTGGAACAAAGTTATCAATACCAATCTGACCGGCGCTTTCTTAGGAAGCCGCGAAGCCATAAAATATTACGTAGAGAATGATATTCAAGGAAACGTCATTAACATGTCAAGCGTACATGAAATGATTCCGTGGCCGCTGTTTGTCCACTACGCGGCGAGTAAAGGCGGCATCAAATTGATGACGGAAACGCTGGCGCTTGAGTACGCGCCGAAGCGCATCCGTGTTAACAATATCGGACCGGGCGCCATCAATACGCCGATCAACGCGGAAAAATTTGCCGATCCCGTTCAGAAAAAAGATGTGGAAAGCATGATTCCGATGGGATATATCGGTGAGCCGGAAGAAATCGCGGCTGTCGCCGTCTGGCTTGCTTCAAAGGAATCAAGCTATGTGACCGGGATTACGCTGTTTGCTGACGGGGGAATGACCAAATATCCGTCTTTCCAGGCAGGCCGCGGATAA	MYTDLKGKVVAITGASSGLGKAMAIRFGQEQAKVVVNYYSNEKDAQTVKEEIQKAGGEAVIVQGDVTKEEDVKNIVQTAVKEFGTLDVMINNAGMENPVQSHEMPLKDWNKVINTNLTGAFLGSREAIKYYVENDIQGNVINMSSVHEMIPWPLFVHYAASKGGIKLMTETLALEYAPKRIRVNNIGPGAINTPINAEKFADPVQKKDVESMIPMGYIGEPEEIAAVAVWLASKESSYVTGITLFADGGMTKYPSFQAGRG	PGPT0014705_690	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
D1-12_03222	864	glcU	COG4975	Glucose uptake protein GlcU	ATGGATATATTACTGGCTCTTCTCCCGGCTTTATTTTGGGGGAGCATCGTGTTATTTAACGTCAAATTAGGCGGCGGGCCTTACAGCCAGACGCTGGGAACGACAATCGGGGCGCTCATCGTTTCGTTTGTGCTGTATCTGTTTGTCCATCCGGTGCTGTCCGGGCGCATTTTTATTGTCGGCATCATCTCGGGGCTGTTTTGGTCGCTCGGCCAAAGCAATCAGCTTAAAAGCATACAGCTGATGGGCGTTTCAAAAACTATGCCGATATCAACGGGAATGCAGCTCGTCTCGACTTCTTTGTTCGGTGTGATCGTATTCAAAGAATGGTCAACCCCGATCGCGATTACGCTGGGTATTCTCGCCCTTATTTTTATCATCATCGGGATTGTGCTCACATCTTTAGAAGATAAAAAGGGGCGGGCGGACGGAGAACCGGGAAACTTAAAAAAAGGCATTGTCATCCTGCTGATCTCCACGCTCGGCTATTTGGTCTATGTCGTCGTCGCCCGGCTGTTCGGTGTATCCGGATGGTCAGCGCTTCTGCCGCAGGCGATCGGGATGGTCATCGGCGGACTGCTCCTGACGTACAAGCATAAACCGTTTAATAAGTACGCCCTCAAGAACATTCTGCCGGGAATCATCTGGGCGCTCGGGAACATGTTTCTGTTCATCTCACAGCCGCGCGTCGGAGTTGCGACAAGTTTTTCCCTCTCTCAAATGGGGATCGTCATCAGCACGCTCGGCGGAATCTTCATTCTCCGTGAGAGCAAAACGAAGCGTCAGCTGGTCGCCATTGCTATCGGGATTATCCTGATCATTGTAGCCGCGGTATTCTTAGGCGTTGCGAAATCAAATTCATAA	MDILLALLPALFWGSIVLFNVKLGGGPYSQTLGTTIGALIVSFVLYLFVHPVLSGRIFIVGIISGLFWSLGQSNQLKSIQLMGVSKTMPISTGMQLVSTSLFGVIVFKEWSTPIAITLGILALIFIIIGIVLTSLEDKKGRADGEPGNLKKGIVILLISTLGYLVYVVVARLFGVSGWSALLPQAIGMVIGGLLLTYKHKPFNKYALKNILPGIIWALGNMFLFISQPRVGVATSFSLSQMGIVISTLGGIFILRESKTKRQLVAIAIGIILIIVAAVFLGVAKSNS				NA	NA	NA	NA	NA
D1-12_03223	1389	gabD	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)]	ATGCCAGAACAATTAACAGTGTACAACCCGGCAACGGGAGAGGCGATCGAAAGCATCCCCCAGCAGACGGCCGAAGATGTTGAAAAAGCGATTGAACGTTCACATCAAGCGTTTCAATCATGGTCCAAAACATCAGCGGGAGAACGTGCCTCACTTTTGAGAAAATGGTATGAGCTGATTGTTGAAAATAAAGAAGAACTTGCGGAATTAATTACGAAAGAAAACGGCAAACCGTACGAAGAAGCGGTCGGAGAAGTTTTATACGGCGCCGGCTATATTGAATGGTTCGCCGAAGAAGCAAAACGGATTTACGGCAGAACCGTACCTGCGCCGACAACGGGCAAACGGATTGTCGTCACCCGTCAGGCGGTCGGACCGGTAGCCGCGATCACGCCGTGGAATTTCCCGAATGCGATGATTACAAGAAAAGCCGCGCCCGCTTTGGCGGCAGGCTGTACGTTCATCATCAAACCGGCGGAGGATACGCCGCTTTCCGCTTACGCCCTTGCGCGTCTCGCATATGAAGCGGGAATTCCGAAGGACGTGCTGCAAGTGGTGATCGGTGACGGAGCCGAAATCGGAAACGTCTTCACCAGCAGCCCGAAAATCCGTAAAATTACCTTTACCGGCTCAACGCCTGTCGGTAAAATCCTGATGAAAAACAGCGCCGACACCGTAAAACATATGTCAATGGAGCTTGGCGGACATGCGCCGCTGATCGTGGATGAAGACGCTGATCTTGATCTGGCGGTAGCCCAAACAATGGCCTCTAAATTCAGAAATGCCGGCCAAACCTGCGTCTGTGCGAACCGGCTGATCGTACACGAATCCGTGAAAGACGAGTTTGCGAAAAAACTGAGTGAAGAAGCTGCGAAACTCAAAGTCGGAAACGGTCTTGAAAAAGGCGTAAACGTCGGCCCTGTCATCAACAAAAAAGGCTTCGATAAAATCGTCGGCCAAATTAATGACGCCGTGGAAAAAGGTGCAGAAGTGCTGACGGGCGGAACGTATGACCAAAACGACGAAAAAGGATGCTATTTCGTGACGCCGACCGTGCTTTCAAATGTAGATACATCCATGAACATCATGCATGAAGAAACATTCGGCCCGGTTGCGCCGATCGTTACGTTCTCAGATATTGATGAAGCGATCAAGCTTGCGAACGATACGCCGTTCGGGCTTGCGGCTTATTTCTTCACAGAAAACTACCGCCGCGGCATCTATATTTCTGAACAGCTTGAATACGGCATCATCGGCTGGAATGACGGCGGTCCGTCCGCGGTTCAAGCGCCGTTCGGAGGAATGAAAGAAAGCGGCATCGGCCGTGAAGGCGGTACGGAAGGCATTGAACCGTACCTGGAAACCAAATACATGTCTATCGGACTTTAA	MPEQLTVYNPATGEAIESIPQQTAEDVEKAIERSHQAFQSWSKTSAGERASLLRKWYELIVENKEELAELITKENGKPYEEAVGEVLYGAGYIEWFAEEAKRIYGRTVPAPTTGKRIVVTRQAVGPVAAITPWNFPNAMITRKAAPALAAGCTFIIKPAEDTPLSAYALARLAYEAGIPKDVLQVVIGDGAEIGNVFTSSPKIRKITFTGSTPVGKILMKNSADTVKHMSMELGGHAPLIVDEDADLDLAVAQTMASKFRNAGQTCVCANRLIVHESVKDEFAKKLSEEAAKLKVGNGLEKGVNVGPVINKKGFDKIVGQINDAVEKGAEVLTGGTYDQNDEKGCYFVTPTVLSNVDTSMNIMHEETFGPVAPIVTFSDIDEAIKLANDTPFGLAAYFFTENYRRGIYISEQLEYGIIGWNDGGPSAVQAPFGGMKESGIGREGGTEGIEPYLETKYMSIGL	PGPT0001580_5720	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-12_03224	1308	davT	COG0160	5-aminovalerate aminotransferase DavT	ATGAGTCGAACAGCATCAACGGAAGTGACAACTGCCCAGTGGCAGCAAAAACGGGATCAATTCGTTTCCAAGGGGGTCGGCAACGGAAACCGCGGCATGGCGGTAAAAGGGGAAGGGGCGCTTTTGTACGATTTGGACGGCAGACGATTCATTGATTTTGCCGGAGCGATCGGAACGCTGAATGTCGGCCATTCCCATCCGAAAGTGGTGGAGGCCGTGAAGAAACAGGCGGAGGATCTGATTCACCCGGGATTTAACGTCATGATGTATCCGTCTTATATTGAGCTGGCCGAAAAACTTTGCGCCCTTGCGCCGGGAGATCATGCGAAAAAAGCGATTTTTCTCAATTCGGGAGCGGAAGCGGTGGAAAACGCCGTGAAAATCGCCAGAAAATATACGAAGCGCCAGGCTGTCGTGTCATTTACAAGAGGGTTCCACGGCCGCACGAACATGACGATGAGCATGACGAGCAAGGTGAAGCCTTATAAATTCGGTTTCGGCCCATTTGCCTCAGAGGTGTATCAGGCGCCGTTTCCTTACTATTATCAAAAGCCGGCCGGCATGAGCGACGAGCAGTATGACGACTTTATCATCAGCGCTTTTGAGGATTTCTTTATCGCCGCAGTTGCACCGGAAACCGTCGCCTGTGTCGTAATGGAGCCGGTTCAGGGAGAAGGCGGCTTCATCATTCCGTCAAAACGTTTCGTGCAGCACGTCGCCGCTTTTTGTAAAAAACACGGCATCGTTTTTGTAGCGGATGAGATCCAGACCGGATTTGCCAGAACGGGAACATATTTTGCGATTGAGCATTTCGGAGCCGTTCCTGATTTGATCACCGTATCCAAATCACTTGCGGCCGGATTGCCGCTGAGCGGCGTCATCGGCCGGGCGGAAATGCTTGATGCCGCCGCGCCGGGTGAACTCGGGGGCACATATGCGGGAAGCCCGCTCGGCTGTGCGGCTGCGCTTGCGGTCTTGGATATTATTGAAGAAGAAGGGCTGAATCAGCGTTCCGAGGAGATCGGCCGGATCATCGAGCATCAAGCGCTTGAGTGGAAAAAAGAGCATGCCTGCATCGGAGAAGTGCGCAGGCTCGGCGCGATGGCGGCCATCGAAATTGTCAAAGATCCGGACACGCGGGAACCGGACAAAGCAAAAGCCGCGGCGATCGCTAAAACGGCGAACGAGAACGGACTGCTGCTGCTGACGGCCGGCATTAACGGCAACATTATCAGATTCCTGACGCCGCTTGTCGTGACGGATGAGCAGCTCAAAGAAGGCCTTTCCATTATCGAAGCAGCTCTGTGA	MSRTASTEVTTAQWQQKRDQFVSKGVGNGNRGMAVKGEGALLYDLDGRRFIDFAGAIGTLNVGHSHPKVVEAVKKQAEDLIHPGFNVMMYPSYIELAEKLCALAPGDHAKKAIFLNSGAEAVENAVKIARKYTKRQAVVSFTRGFHGRTNMTMSMTSKVKPYKFGFGPFASEVYQAPFPYYYQKPAGMSDEQYDDFIISAFEDFFIAAVAPETVACVVMEPVQGEGGFIIPSKRFVQHVAAFCKKHGIVFVADEIQTGFARTGTYFAIEHFGAVPDLITVSKSLAAGLPLSGVIGRAEMLDAAAPGELGGTYAGSPLGCAAALAVLDIIEEEGLNQRSEEIGRIIEHQALEWKKEHACIGEVRRLGAMAAIEIVKDPDTREPDKAKAAAIAKTANENGLLLLTAGINGNIIRFLTPLVVTDEQLKEGLSIIEAAL	PGPT0007660_1006	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
D1-12_03225	1410	gabR_2	COG1167	HTH-type transcriptional regulatory protein GabR	ATGCTGACGATTTCCATTGATCATTCGGAAACGGCGGATTATATCTATCAGCAGATCTATCAGCACATAAAAGCGGCTGTTTTGAAGCGCAGCCTGATGCCTCATACAAAGGTGCCGTCTAAACGGGAGCTTGCCGAGACGCTGAAGGTCAGCGTGAATTCAGTGAATTCAGCTTATCAGCAGCTGCTTTCGGAAGGTTATTTATATGCAGTCGAAAGAAAAGGCTTTTTCGTGGAGGAAATTGATACGGTTTATCATGAAGAAGCGCCTTCGCTCCTATTGCCTGATGATTTGAAAGAGCGGGAGACGGATAAAAGCGGCTGGATTTCGTTTTCTCATATGAGCGTGGATACGGCGCATTTCCCCCTGAAAAGCTGGTTCCGCTGTGAGCATAAAGCAGCCGCCCGTTCATTTCATACACTCGGAGAACTCGTCCACCCGCAAGGTTTATATGAAGTCCGTGAAACAATTTCGCGGCTTATTTCCCTGACAAGGGGCGTTACATGCCGCCCGGAACAAATCGTGCTCGGGGCGGGCACGCAATTGCTGGTGCAGCTGCTGACGGAACTGCTGCCAAAAGACGCGCTCTACGCCATGGAGAACCCGGGATATATGAGGATGTACCGGCTGCTGCAAAACCTCGGGAAAAAGGTTGCGACGATCAGCCTTGATGAAAAAGGCATGTCCATGGACGAAATCGAAAAACGCCGGCCCTCTGTATTGATCACCACGCCTTCCCATCAATTCCCCTCAGGCGTGATCATGCCCGCTTCCCGGCGGATTCAGCTTTTAAACTGGGCCGCCGAACAGAACGGCCGCTTCATCATTGAAGATGATTATGACAGTGAATTTAAATATGACGCCGATACGATACCGGCGCTTCAAAGCCTTGACCGGTTTCAAAATGTCATCTACATGGGGACCTTTTCAAAATCCCTTTTCCCAGGTCTGCGCATCAGCTATATGGTTCTGCCGCCCGGGCTTTTGCGGACGTTCAAAGAGAGAACGTATGACCTGCATACGTGCAGCACACTTGCCCAGCTCGCGCTGAAAGAATTTATCGAATCAGGTGAATATCAGAAACATATTAAAAAGATGAAGCAGCATTATAAGAACATGCGGGAACGCCTCATTTCGGCTTTGGAAGAAACATTCGGAGATAGAATCAGTGTAAAGGGCGCCAATGCGGGGCTTCATTTTGTCACTGAGTTTGACTGCGCCCGTTCAGAAAAAGAGATATTGGCACGGGCGGATGCAGAACAGCTCGATCTGTTTGCGATGAGCCGGTTCCGTCTGAAAGCGGGAGGCGATTCAAACAAACCGCAGCTCATTCTGGGATTCGCCCGCCTGAAGGAGAGCGATATTCAAGAAGGCGTCTACAGGCTTTACCGGGCGGTTTTCGGCGCATAA	MLTISIDHSETADYIYQQIYQHIKAAVLKRSLMPHTKVPSKRELAETLKVSVNSVNSAYQQLLSEGYLYAVERKGFFVEEIDTVYHEEAPSLLLPDDLKERETDKSGWISFSHMSVDTAHFPLKSWFRCEHKAAARSFHTLGELVHPQGLYEVRETISRLISLTRGVTCRPEQIVLGAGTQLLVQLLTELLPKDALYAMENPGYMRMYRLLQNLGKKVATISLDEKGMSMDEIEKRRPSVLITTPSHQFPSGVIMPASRRIQLLNWAAEQNGRFIIEDDYDSEFKYDADTIPALQSLDRFQNVIYMGTFSKSLFPGLRISYMVLPPGLLRTFKERTYDLHTCSTLAQLALKEFIESGEYQKHIKKMKQHYKNMRERLISALEETFGDRISVKGANAGLHFVTEFDCARSEKEILARADAEQLDLFAMSRFRLKAGGDSNKPQLILGFARLKESDIQEGVYRLYRAVFGA	PGPT0016790_3931	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
D1-12_03226	315			hypothetical protein	ATGAACATTCCAAACCATCCTGAAACCGAACGCTTACAGCTGACAAAGGTTCTTCATGCTCTGAGTGATCCGCTCCGCTTAGAGCTGGTCAAACAATTGGCGGAAACAACAGAAAAAACGTGCGGAACCTGCGCTGATGTCCGGGTAGCTAAATCAACGCTGTCCCATCACTTCAAAGTGCTGCGGGAAGCGGGGATCGCCCAAGTGCGCATAGACGGGAAGCACCGTTATTATTCCCTGCGCAAAGATGATTTACAAGCGGCGTTTCCCGGCCTGCTGGAGGCGATTTTGCAGACAGAGCCGGACCGCTGGTAA	MNIPNHPETERLQLTKVLHALSDPLRLELVKQLAETTEKTCGTCADVRVAKSTLSHHFKVLREAGIAQVRIDGKHRYYSLRKDDLQAAFPGLLEAILQTEPDRW				NA	NA	NA	NA	NA
D1-12_03227	288	ycnE	COG1359	Putative monooxygenase YcnE	ATGATCGTCTTACAGGCTTACATGAAAGTAAAAGCGGATAAACGCGAGGAATTTTTAGGAGAAGCGCAATCACTTGTTCAGCATTCACGCGCGGAAGAAGGAAATGTGCAATACGACCTTTTCGAAAAAGTCGGTGAGGAAAATACATTCGTCATGCTTGAGCAATGGAAAGATGAAGAAGCGATGAAATTCCACAACGCAACTGACCATTTCCAAGGATTTGTGGCAAAAGCAAAAGAACTGCTGAGTGCGCCGCTTGACGTCGTCCGCACAGAACTGTCAGAGTAA	MIVLQAYMKVKADKREEFLGEAQSLVQHSRAEEGNVQYDLFEKVGEENTFVMLEQWKDEEAMKFHNATDHFQGFVAKAKELLSAPLDVVRTELSE				NA	NA	NA	NA	NA
D1-12_03228	747	nfrA2	COG0778	FMN reductase [NAD(P)H]	ATGAACGAAGTCCTTCAATTATTAACAGACCACCGTTCCATCCGCAGCTACACAGATGAACCCGTATCGGATGAACAGCTGGATCTTATCATCCAAGCCGCTCAAGCAGCGCCGACTTCCATTAACGGCCAACAATTTACCGTTATAGCGGTGAAAGATAAGGAACGGAAGAAAAAAATATCCGAATTGGCGGGCGGCCAGCCGTGGATTGACCAAGCGCCGGTTTTCCTTTTATTCTGCGCTGATTTTAACCGCGCCAAAATTGCGCTTGAAGAATATAATGATACACCGCTTGAGATCACGAACGGTTTAGAGTCCGTACTTGTCGGAGCCGTAGATGTCGGGATTGCGCTGGGTACGGCAACGGCTGCGGCTGAATCAATGGGACTCGGCACTGTGCCGATCGGCGCCGTGCGCGGCAAGCCGGACGAACTCATAGAATTGCTGAAACTCCCGAAATACGTTTTCCCGGTTTCCGGTCTCGTCATCGGCCATCCGGCAGACCGCTCCGCGAAAAAACCGCGTCTGCCGCAAGCAGCCGTTCTGCATCATGAAACGTATCAAGAAGAAGATGTTAGAACACATATCGAGGCCTATGACAAGCAGATGTCCGAATACATGAAAAAACGCACCGACGGACAGGAAACGAGAAACTGGTCACAAGGCATCACCTCCTACTATAAGCAGCTTTATTATCCTCACATTCGTGAAATGCTTGAAAAGCAAGGGTTTAAGACGGATAAATAA	MNEVLQLLTDHRSIRSYTDEPVSDEQLDLIIQAAQAAPTSINGQQFTVIAVKDKERKKKISELAGGQPWIDQAPVFLLFCADFNRAKIALEEYNDTPLEITNGLESVLVGAVDVGIALGTATAAAESMGLGTVPIGAVRGKPDELIELLKLPKYVFPVSGLVIGHPADRSAKKPRLPQAAVLHHETYQEEDVRTHIEAYDKQMSEYMKKRTDGQETRNWSQGITSYYKQLYYPHIREMLEKQGFKTDK	PGPT0000295_46	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CHROMANON_RESISTANCE,PGPT0000295-nfrA2|ycnD-K19286	NA	NA
D1-12_03229	876			hypothetical protein	ATGAATGATAAGAAAACGGATATTCTGCTGGCGGCAAGAAAGCTTTTTTCCGGGAAAAGCTTTTCGTCAGTTTCGATGCAGGCGATCGCAGAGGAGTGCAAAGTCTCCAAAGCATCTTTATATAAGCTGTTTGAATCAAAGGAAGACCTGCTCCTGGAGCTGCTCGACTTTAACCAGAAACAGATGGTAGCCGCCGCTTCATTATTGAATGAAGAAACAAGCCTCTCCCCTGAGGAACGGTTTGCCAAAAAACTGATGGCTGAGCTTGAAGGCTTCAGGCGCAATCAGCAGTTTTTTAATATGCTGATGTACGGAAGCCCCTCTTCCATTAATGAGCGGGTAAAACGGCATATTCACAGGGCCCGCTCCACCTTTATCTGCTGGCATCGCGATTCACTGATTCAGACGTACGGCGAAGACATTATTCCTTATGTATGGGAGCTGGTGATCGTCCTGCAGGGGCTCCTGAGAGAATGCATCACGCTGATTAAGCTGGAAAAAGAACCGCTCGCCCTGGAGCCGCTCACGGAGTTTATCATCCGCCATCTCAATCTCATCGTCGAAAACAGGACAACCGAAACCGCTTTGCCTCAGGAGATGATTGACCTTTATATCGCCTCCGCTTCCTCATTTGAGCCGAAAGGCAAAACCGTATTACTGGCTGAAAGCCTGAAGGAACTGAAAGAAGCCGTCTCAGCCCTTCCGGAGGAAAAATATGACGCCGCAGGACTCGCTTCCGCGGCGGCTATGTTGGAGAAAGAATCAGCGGACAAACAGCCGCGGGATTTTCTCATCAAAGCGCTCATCGGTTATTTGGAGCAGGCCGGACCGCTGCACCAGCCGCTTGCAGCCGTTAAAACATTGCTCAAACTATAA	MNDKKTDILLAARKLFSGKSFSSVSMQAIAEECKVSKASLYKLFESKEDLLLELLDFNQKQMVAAASLLNEETSLSPEERFAKKLMAELEGFRRNQQFFNMLMYGSPSSINERVKRHIHRARSTFICWHRDSLIQTYGEDIIPYVWELVIVLQGLLRECITLIKLEKEPLALEPLTEFIIRHLNLIVENRTTETALPQEMIDLYIASASSFEPKGKTVLLAESLKELKEAVSALPEEKYDAAGLASAAAMLEKESADKQPRDFLIKALIGYLEQAGPLHQPLAAVKTLLKL				NA	NA	NA	NA	NA
D1-12_03230	1425	farB		Fatty acid resistance protein FarB	TTGAATAAGAGTATTAAAACTGCACCATACAACCGCTCTGTCATTGTCGGGATTCTTTTGGCGGGTGCGTTCGTCGCCATTTTGAACCAGACACTGCTTATCACGGCGCTGCCGCACATTATGAATGACTTCAATATAGACGCCAACAAAGCGCAATGGCTGACAACGTCGTTTATGCTGACGAACGGGATTTTGATTCCGATTACCGCGTTTTTAATAGAGAAATTCACAAGCCGCACCCTCTTGATTTCCGCCATGAGTATTTTCACGGCGGGCACCATTGTCGGCGCATTCGCCCCGAACTTTCCGGTGCTCTTAACGGCCCGGATTATTCAGGCGGCCGGCGCCGGAATTATGCTGCCTCTCATGCAGACGGTATTTCTCACGATTTTCCCGATGGAAAAGCGCGGCCGCGCCATGGGTATGGTCGGCTTGGTTATTTCGTTCGCGCCGGCGATCGGCCCGACGCTTTCCGGTTGGGCGGTCGAAACATTCTCTTGGCGGTCTTTGTTTTATATTATCTTCCCGATCGCAGTCATCGATTTGCTTTTAGCGATTATTCTGATGAAAAACGTCACGACATTACGAGAAACACAGATTGATATTTTATCTGTGATCTTATCGACCCTCGGATTCGGCGGTCTGCTTTACGGCTTCTCAAGCGCCGGTTCATCAGGGTGGACCAGTACTGAAGTGCTGACTTCACTGCTTGTCGGAGCGGCCGCGCTGATTTTCTTTATCGCAAGACAGATGAAGCTCAAAAAACCGATGCTGGAATTCCGCGTGTTTTCTTTCGGGATTTTCAGCCTGACCACCCTGCTCGGAACGCTTGTTTTCGCGCTGCTGATCGGAACGGAAACCATTCTCCCGCTTTACACGCAAAAAGTCCGGGGCGTATCCGCGTTTGATACCGGATTAATGCTTTTGCCGGGCGCGATTGTGATGGGGATGATGTCTCCGTTTATCGGCCGGGTGTTTGACAAAATCGGCGGAAAAGGCCTTGCGATGACCGGATTCTTCATCATCCTGCTCACGTCCCTGCCGTTTATGAATCTCACGGACTCGACGTCTCTCATTTGGATTGTCGTCGTTTATACCGCGCGGCTTTTGGGAACAGCCATGATTATGATGCCGGTAACGACAGCGGGAATCAACGCCCTGCCGCGCCACTTAATTCCGCACGGCACAGCCATGAACAATACCGTCCGCCAAGTCGGCGGTTCTATCGGTACGGCGCTTTTAGTTTCCGTGATGAGCAGCCAGGCCGCGCACGCAAATGCGTCAACTCCGGCAAACGCCGCCCTGCACGGCATGAATGCGGCATTTGTCGTAGCCGCCTGCATCGCGCTGGCCGGCTTCCTCCTATCTTTTATATTGAAGAAAAAACCGCGTCAGCCCGAGCAGCAGCAGGCCGTTACGCGGTAA	MNKSIKTAPYNRSVIVGILLAGAFVAILNQTLLITALPHIMNDFNIDANKAQWLTTSFMLTNGILIPITAFLIEKFTSRTLLISAMSIFTAGTIVGAFAPNFPVLLTARIIQAAGAGIMLPLMQTVFLTIFPMEKRGRAMGMVGLVISFAPAIGPTLSGWAVETFSWRSLFYIIFPIAVIDLLLAIILMKNVTTLRETQIDILSVILSTLGFGGLLYGFSSAGSSGWTSTEVLTSLLVGAAALIFFIARQMKLKKPMLEFRVFSFGIFSLTTLLGTLVFALLIGTETILPLYTQKVRGVSAFDTGLMLLPGAIVMGMMSPFIGRVFDKIGGKGLAMTGFFIILLTSLPFMNLTDSTSLIWIVVVYTARLLGTAMIMMPVTTAGINALPRHLIPHGTAMNNTVRQVGGSIGTALLVSVMSSQAAHANASTPANAALHGMNAAFVVAACIALAGFLLSFILKKKPRQPEQQQAVTR	PGPT0029035_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029035-mdeA-K18936	NA	NA
D1-12_03231	945	yclQ	COG4607	Petrobactin-binding protein YclQ	ATGAAAAAAATCGCATTGCTATTCATTGCGCTAGTTACGATTTTTGTTGTTTCTGCATGCGGAAACGGGGACAAAACATCAGGCAAATCAAAAGAAACAATCACAATCAAAGATGACCTGAACAAAGAAGGAGTCAAAGTGCCGAAGAATCCGAAAAAAGTCGTCGTATTCAACTTCGGAATGCTGGACACGATGGATGAACTCGGTTTACAGGATCACGTGGCGGGACTTCCGAAACAAAACCTTCCAAAATACTTATCTTCATATAAAAGTGATAAATACGCCAATACCGGCGGTTTAAAAGAACCGGATTTTGAAAAAGTCGCGGATATTGATCCGGATTTAATCATTATCGCCCACAGACAATCTGATTCTTATAAAGAGTTCTCAAAAATCGCGCCGACGATTTATCTTGATGATGACTATACAAACTACGTTGACAGATTCAAGCACAACACCGAAGTGATCGGCAAAATCTTTAACAAAGAAAATGAAGTGAAAGATAAGCTAGCGAAAATTGACAAATCTATTGCGGATCTGAAGAAAAAGACAAGCAGCACGGATAAAAACGGGTTAGTGGTGATGGCGAACGACGGCAAAATCAGCGCGTTCGGATCTAAATCAAGATACGGCTTCATTCATGATGTGTTCGGCGTCAAACCGGCTGACAAAAACATTGAAGCCTCACTGCACGGACAAAGCATTTCCTATGAATATATCGCCAAAACAAACCCTGATTACATGTTTGTCGTTGACCGCGGAACAGCGATCGGCACAAAATCTTCAACAAAACAAGTAGTTGAGAATGATTATGTAAAATCGGTGAAAGCCGTGAAAAACAACCATGTTGTCTACCTTGATTCAGCTACATGGTATTTATCAGGAGGCGGCCTGGAATCCATGGCGCAAATGGTGAAAGAAGTAAAAGACGGAATCGAGAAGTAA	MKKIALLFIALVTIFVVSACGNGDKTSGKSKETITIKDDLNKEGVKVPKNPKKVVVFNFGMLDTMDELGLQDHVAGLPKQNLPKYLSSYKSDKYANTGGLKEPDFEKVADIDPDLIIIAHRQSDSYKEFSKIAPTIYLDDDYTNYVDRFKHNTEVIGKIFNKENEVKDKLAKIDKSIADLKKKTSSTDKNGLVVMANDGKISAFGSKSRYGFIHDVFGVKPADKNIEASLHGQSISYEYIAKTNPDYMFVVDRGTAIGTKSSTKQVVENDYVKSVKAVKNNHVVYLDSATWYLSGGGLESMAQMVKEVKDGIEK	PGPT0003765_8747	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
D1-12_03232	759	yclP	COG4604	Petrobactin import ATP-binding protein YclP	ATGGTAGAGGTCAAAAATGTAAGCAAACAATACGGAGGGAAAGTCGTCCTTGAGAAAACGTCTCTATCCATTCAAAAGGGCAGGCTCACCTCATTTATCGGTCCGAACGGCGCGGGAAAAAGCACGCTGCTGTCTATCATGAGCCGGCTGATTAAGACGGATTCCGGGGAAATCACGGTCGACGGGCAAGAGATCGGGGCCTGTAAAAGCAACGATCTGGCGAAAAAAATCAGCATCTTGAAGCAGACGAACCAAATCAATATCAGACTGACAATTAAAGACCTGGTCAGCTTCGGCAGATTTCCGTATTCCCAAGGGAAACTGACGGATGAAGATTGGGTGCATATCAACCAGGCCCTCAGTTATATGAAGCTGGATGATTTAAAGGATAAATACCTCGATCAGCTCAGCGGAGGCCAGTGCCAGAGGGCATTTATCGCGATGATCATCGCTCAGGATACCGACTATATTTTTCTCGATGAGCCGCTGAACAATTTAGATATGAAGCATTCCGTTGAAATGATGAAGCTGTTGAAGCGGCTTGTGGAAGACTTCGGAAAAACGGTCGTCGTAGTGATTCACGATATCAACTTCGCATCCGTATATTCAGACCATATCGTCGCACTGAAAAACGGCCGGATCGTCAAAGAAGGGCCGGCGGAGGAGATCATTGAAACCTCCGTGCTTGAAGATATTTATGATATGACCATCCCGATTCAAGAGATTGACAGTCAGCGGATCGGTGTGTACTTTTCTTAA	MVEVKNVSKQYGGKVVLEKTSLSIQKGRLTSFIGPNGAGKSTLLSIMSRLIKTDSGEITVDGQEIGACKSNDLAKKISILKQTNQINIRLTIKDLVSFGRFPYSQGKLTDEDWVHINQALSYMKLDDLKDKYLDQLSGGQCQRAFIAMIIAQDTDYIFLDEPLNNLDMKHSVEMMKLLKRLVEDFGKTVVVVIHDINFASVYSDHIVALKNGRIVKEGPAEEIIETSVLEDIYDMTIPIQEIDSQRIGVYFS	PGPT0003760_7557	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
D1-12_03233	948	yclO	COG4605	Petrobactin import system permease protein YclO	ATGAGTCATAATAAAAAAATTACGCTGCTGGCGGCGCTCGCCATGATATGTATCGGATTCTTCCTGTTCTACGGACTGGGCAATTGGGAATACTCCCTGCCGAGACGATGCTTCAAAGTGCTTGCCATGATGCTTACCGGAGGAGCGATCGCGTTTTCAACGGTCATCTTCCAGACGATTACAAATAACCGCATACTGACACCGGGCATTTTAGGCCTCGATTCCCTGTATATGCTCATTCAGACCGTCATCGTGTTCCTGTTCGGTTCAATGAATATCGTCATGATGAACAAAAATCTTAATTTCGTCATCTCCGTCGGGCTGATGGTGCTCTTGTCACTCGTTTTGTATCAGCTCATGTTTAAAGGCGAGGGGCGGAACGTGTTTTTCCTTCTGCTTGTCGGCGTCGTGTTCGGCACGCTGTTCAACAGTCTGTCATCCTTTATGCAGATGCTGATTGATCCGAATGAGTTCCAGGTTGTTCAGGACAAAATGTTTGCCAGCTTTAACAATATCAACACCGATCTTTTATGGTTTGCCGGTGCTGTCTTTCTTCTGACGGGCATTTATGTCTGGCGGTTCACGCGGTTTTTTGACGTGCTGTCGCTCGGCAGGGAGCACGCCGTCAACCTGGGGATTGACTACGATAAGCTTGTGAAACAGATGCTCATTGTCGTCGCCATTCTTGTGTCTGTCTCTACGGCTCTTGTGGGGCCGATTATGTTTTTAGGACTGCTTGTCGTCAATCTGGCGAGAGAGTTTTTAAAAACCTACAGGCACACGTATTTAATCGCGGGTTCTGTCCTGATCAGCATCGTCGCGCTCGTCGGAGGCCAGTTCGTCGTGGAGAAAGTGTTCACGTTTTCCACGACGCTGAGCGTCATCATTAATTTTGCCGGCGGGATTTATTTTATCTATCTGCTGTTAAAGGAGAATAAATCATGGTAG	MSHNKKITLLAALAMICIGFFLFYGLGNWEYSLPRRCFKVLAMMLTGGAIAFSTVIFQTITNNRILTPGILGLDSLYMLIQTVIVFLFGSMNIVMMNKNLNFVISVGLMVLLSLVLYQLMFKGEGRNVFFLLLVGVVFGTLFNSLSSFMQMLIDPNEFQVVQDKMFASFNNINTDLLWFAGAVFLLTGIYVWRFTRFFDVLSLGREHAVNLGIDYDKLVKQMLIVVAILVSVSTALVGPIMFLGLLVVNLAREFLKTYRHTYLIAGSVLISIVALVGGQFVVEKVFTFSTTLSVIINFAGGIYFIYLLLKENKSW	PGPT0003770_11120	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
D1-12_03234	954	yclN	COG4606	Petrobactin import system permease protein YclN	ATGAAGCTACGTTACTTACTTTTGCTACTGGCGGTTTTGGCGTGTACTTCTATATTTATCGGTGTAGAAGATTTGTCGCCGCTGGATATTTTTCATTTAAATAAAGAACAGGCGGGTACATTGTTTGACAGCCGGCTGCCGCGTTTGGTGAGCATTATCATCGCCGGCATGAGCCTGAGCATCTGCGGATTAATCATGCAGCAGATCAGCCGGAATAAATTTGTATCGCCGACGACTGCGGGAACGATGGATTGGGCAAGGCTCGGAATTTTGATTTCATTAATGCTTTTTACGTCAGCGAGTCCGCTTGTGAAAATGTCTATCGCTTTCGTTTTCGCGTTGGCGGGAAATTTCCTTTTCATGAAAATCCTCGAGAGAATCAAGTTCAATGATGCGATTTTTATTCCTCTCGTCGGTTTAATGCTTGGGAACATCGTCAGCTCAATCGCCACGTTTATCGCATATAAATATGACCTGATCCAAAACCTGTCGTCTTGGCTGCAGGGAGATTTCTCACTGGTCGTCAAAGGCCGGTATGAGCTTTTATATCTGAGTATCCCGCTGGTGATCATCGCTTATGTGTATGCGGATAAATTTACGGTGGCGGGAATGGGAGAGAGCTTTTCCGTCAATCTCGGCCTGAAATACAAACGCGTCGTTAATATCGGTCTGATTATCGTGTCGCTCATCGCTTCACTGGTGATCCTGACCGTCGGGATGCTGCCGTTTCTCGGTTTGATCATTCCCAATATGGTGTCGATTTACAAAGGGGACAACCTGAGGAGCAGCTTGCCTCACACCGCTCTGCTGGGCGCTGTTTTTGTGCTGTTTTGCGACATTTTGGGAAGGGTGATCATCTTCCCGTACGAAATTTCCATCGGCCTGATGGTCGGTGTTATCGGCAGCGGCATCTTCCTGTATATGCTGTTAAGGAGAAAAGCATATGAGTCATAA	MKLRYLLLLLAVLACTSIFIGVEDLSPLDIFHLNKEQAGTLFDSRLPRLVSIIIAGMSLSICGLIMQQISRNKFVSPTTAGTMDWARLGILISLMLFTSASPLVKMSIAFVFALAGNFLFMKILERIKFNDAIFIPLVGLMLGNIVSSIATFIAYKYDLIQNLSSWLQGDFSLVVKGRYELLYLSIPLVIIAYVYADKFTVAGMGESFSVNLGLKYKRVVNIGLIIVSLIASLVILTVGMLPFLGLIIPNMVSIYKGDNLRSSLPHTALLGAVFVLFCDILGRVIIFPYEISIGLMVGVIGSGIFLYMLLRRKAYES	PGPT0003770_10718	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
D1-12_03235	1365	yclM	COG0527	Aspartokinase 3	ATGAAAGTTGTAAAATTCGGAGGCAGCTCTCTTGCGTCAGGAGCCCAGCTTGAGAAAGTGTTTCAAATCGTGACGGCTGATCCCGCGCGGAAAGCCGTCGTCGTATCGGCACCGGGAAAACGCTTCTCGAACGATACAAAGGTGACGGATCTGTTAATCCGCTGTGCGGAGCATTATTTGCAAAAAGGTGCAGCACCCGGGCTTGCCGAAACGGTCATTGAACGGTACGCAGCCATCGCGCGTGAGCTGAACCTGGATTTCTCTATTATAGAAAGAATCCGCAGTGACCTATTCGCTCTCTTAAACAGCTGTAAAACCAATCCCGAACAATATATGGATGCGGTGAAGGCGAGCGGCGAGGACAACAACGCGAAGCTGATCGCAGCCTACTTCCGGCGCCAGGGCGTGAAAGCGGAATACGTAAGTCCGAAAGAAGCGGGGCTGTTTGTGACGAATGAACCCGGAAGCGCGCAGGTGCTCCCTGAGTCTTATGATCATTTGTACCGCCTGAGAAACCGGGAAGGCTTGATCATTTTTCCGGGATTTTTCGGTTACACGAAGGAGCATGAGATTGTGACGTTTTCCCGGAGCGGTTCTGATATTACCGGCTCCATTCTCGCTAACGGCTTAAAAGCCGATCTGTACGAAAACTTTACTGATGTGGACGCCGTCTATTCCGTCAACCCGTCAATCGTGCGGCATCCGAAAGAAATTAACGAACTGACGTATCGGGAAATGCGTGAGCTCTCCTATGCCGGATTTTCCGTTTTTCATGATGAAGCGCTGATTCCCGCATTTCGGGCCGGCATCCCCGTTCAAATTAAGAATACGAATAATCCGGATGCGAAAGGAACACGCGTCGTCAGCAGCCGTGACAATACGAACGGGCCAGTCATCGGCATCGCAAGCGACACGGGCTTTTGCAGCATTTACATAAGCAAATATTTAATGAACCGGGAAATCGGTTTCGGCCGCAAAGCCCTTCACATTTTGGAGGAAGAAGGATTGACGTATGAACACGTTCCATCCGGCATTGACGACATCACGATCATCCTTCGGCACAATCAGATGGACTCAGAACTGGAACACAGGCTCGTCACCCGTCTGAAGCAGGAACTTCAAGCAGATGAAGTCACAGTCAGGCACAATCTGGCGCTGATTATGGTCGTCGGGGAAGCGATGCGCCATAATGTCGGCACAACCGCCAGGGCATCCAAAGCACTGTCGGAAGCCGGCGTCAACATCGAGATGATTAATCAAGGGTCATCGGAAGTCAGCATGATGTTCGGAGTGAAAGAAGAACAGGAAAAACACGCGGTGCGGGCGCTGTATGACGAATTTTTCGCCGGAGTCTTACTCTCATAG	MKVVKFGGSSLASGAQLEKVFQIVTADPARKAVVVSAPGKRFSNDTKVTDLLIRCAEHYLQKGAAPGLAETVIERYAAIARELNLDFSIIERIRSDLFALLNSCKTNPEQYMDAVKASGEDNNAKLIAAYFRRQGVKAEYVSPKEAGLFVTNEPGSAQVLPESYDHLYRLRNREGLIIFPGFFGYTKEHEIVTFSRSGSDITGSILANGLKADLYENFTDVDAVYSVNPSIVRHPKEINELTYREMRELSYAGFSVFHDEALIPAFRAGIPVQIKNTNNPDAKGTRVVSSRDNTNGPVIGIASDTGFCSIYISKYLMNREIGFGRKALHILEEEGLTYEHVPSGIDDITIILRHNQMDSELEHRLVTRLKQELQADEVTVRHNLALIMVVGEAMRHNVGTTARASKALSEAGVNIEMINQGSSEVSMMFGVKEEQEKHAVRALYDEFFAGVLLS	PGPT0014040_1321	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
D1-12_03236	120			hypothetical protein	ATGAAATTGAAATCTAAATGGTTTGTTATTTGTTTAGCAGCCGCCGCGATTTTTACAGTGACAGGTGCAGGCCAGACAGATCAGGCTGAATTCCATGTAGCTGAAAGAGGAATGACGTGA	MKLKSKWFVICLAAAAIFTVTGAGQTDQAEFHVAERGMT	PGPT0025675_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_BIOSYNTHESIS,PGPT0025675-phrC-K06353	NA	NA
D1-12_03237	1149	rapF_3	COG0457	Response regulator aspartate phosphatase F	ATGAAGAGCGGGTTAATTCCTTCTTCAGCAGTCGGGCAGAAAATTAACGAGTGGTATCGATACATCAGAACATTCAGCGTGCCGGATGCGGAGATCTTGAAAGCCGAGATCAAACAAGAGCTTGACCGTATGGAGCCTGATTCGAACTTAGTGCTTTATTATTCCCTCATGGAATTTCGCCATCAGCTGATGCTGGACTACTTGGAGCCGCTGGAAAAACTGAAGATAGAAGACCAGCCGACCCTGTCGGAAATTCTTGATAACATTGATAACAGCCAGGCCGGCCTCAAAGGGCTTCTCGATTATTATGTCAACTTTTTCAAAGGCATGTTTGAATTTGATAAAAGAGAATTTATCTCAGCGATTACATATTATAAACAAGCTGAGAAAAAACTGGCCTTCGTATCGGACCACGTGGAACGGGCGGAGTTTTATTTTAAAGTGGCCGAAGCTTATTATCATATGAAACAAACGTATTTTTCTTTGATACATATAAAAAACGCTTATGAAATTTACGTAGAGCAGGACACATATAACGTCCGGATCATTCAATGCCATTTTGTATTCGGCGTCAATTTAATGGATGAAAGGCGCTTTGAACAGGCGGCCAAACATTTTCAGCACGCTCTGCAAATGGCCGAAAAAGAACAAAAAGCGCAGCTTGTCGGGAGGGCGCTGTATAACCTCGGACTGTGCTACTACAATCAGGACCGCATCGGTGAAGCGATTCCGTACTTTGAACGGGCGGTCGATACATTTGAATCACAAAGAATCGTCAATTCTCTTCCTCAAGCATATTTTCTAATCACACTCATTTACTTTAAACTCGGAAAAAAAGAAAAAGCGTCGGAATATCACAAGCGGGGATATGAATATGCTAAAGAAACAGACGATCCCGTTTACACGGTAAAATTCGAATGGCTGCAGGCTCTGTATCAGGCGAAACCGGATGAGGAAACAATCAGCGCGTGTTTCCGTTACCTGGAAGATAAAAATTTATACGCCGATATAGAGGATTTAGCACTAGAAGCAGCTAAATATTACTATGAACAAAATTGCTTTAAAATTTCTTCTGACTATTTTCTGAAAGTCGAAGAGGCAAGGAAACAAATACAAAGGAGTGAGGGTTTGTATGAAATTGAAATCTAA	MKSGLIPSSAVGQKINEWYRYIRTFSVPDAEILKAEIKQELDRMEPDSNLVLYYSLMEFRHQLMLDYLEPLEKLKIEDQPTLSEILDNIDNSQAGLKGLLDYYVNFFKGMFEFDKREFISAITYYKQAEKKLAFVSDHVERAEFYFKVAEAYYHMKQTYFSLIHIKNAYEIYVEQDTYNVRIIQCHFVFGVNLMDERRFEQAAKHFQHALQMAEKEQKAQLVGRALYNLGLCYYNQDRIGEAIPYFERAVDTFESQRIVNSLPQAYFLITLIYFKLGKKEKASEYHKRGYEYAKETDDPVYTVKFEWLQALYQAKPDEETISACFRYLEDKNLYADIEDLALEAAKYYYEQNCFKISSDYFLKVEEARKQIQRSEGLYEIEI	PGPT0025760_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025760-rapC-K06361	NA	NA
D1-12_03238	1425	rcsC_5		Sensor histidine kinase RcsC	ATGAGGATTAAATACTTATATCAGCTGCTGTTAAGCCATGTCAGCATTTTGATTTTGGCCTTTTTCATCATCATTTCCCTGTTTTCGCACTTTGTGAAAGATTTTGCGTATCAAAATAAAGTGGATGAGCTGTCATCTTACGCCCAACAGATCACAAGTGAGCTGAACAGCCGCGATCTTGATCTGCGCCGCCTGTATCCGTATCAGGACATGTTAAAAACGCGCGAGACCAGATTTATTATTTTTGATGAACATCAGCAGCCTTACTTTTTTCCTGACGATATGCCGCCGCGCGAGAAGCTGAAAAGTAAAGAGTGGCACATGCTGAAGCAAGGGAAAACCGTTCAGATCAGAGCGGAGATGAACCGTTTTAATACGGAAGGCTTGGAAGTATCGCTTGTTGCAAAACCGCTTTTTATCAACGATCAATTTAAAGGAGCGGTGCTGCTCGTGTCTCCCGTCAGAGGGGTCGAGCAGATGATCAGCCAGGTCAACCGCTATATGATTTACGCGATCATCAGCACCCTTATCATCACGATTCTGCTGAGCTGGCTTTTATCTAAATTTCACGTCAAGCGGATTCAGACATTGCGGGATGCGACCGGAAAAGTGGCATCCGGTGATTACGATATTTCGCTCAAGAACAGCGGCGGCGATGAAATCGGCATGCTGGCGTCCGATTTCAACACCATGGCCAAAAATCTAAAGCAATCAAGAGAGCAGATTGACCGCCTGGAAAAACGGAGGCGCCAATTTATCGCCGATGTCTCCCATGAGCTGAGAACGCCTTTGACGACCATTAACGGACTTGTGGAGGGGCTTAACAGCAACACCATCCCGGAAAAAGATAAAGAGAAATGCTTCTCGCTGATCAGCGAAGAAACGAAGCGGATGCTCAGGCTCGTGAAAGAAAACCTGGATTATGAAAAAATCAGATCCCAGCAAATCAAACTGGACAAGCTCAGCCTGCCGCTCATCGAGGTGTTTGAAATTATTAAAGAGCATCTCAATCAGCAGGCGGAGGAAAAACAAAATCAGCTGCGGATTCAAGTGGAGGACGGCGTCAAAGTGTTCGCCGATTATGACAGGCTGATCCAGATTCTCGTCAACATCACGAAAAACAGCATACAATTTACGCAAAAGGGAGACATCACGCTGCGCGGGTATGAAGGCTATAAAGAAACGGTGATTGAAATCGAAGACACCGGGATCGGCATCTCCAAAGAGGAAATTGAGCATATATGGGAGCGGTTTTATAAGGCGGACGTGTCCCGGAGGAATACGGCATACGGCGAATACGGACTCGGCCTGTCCATCGTCAGGCAGCTCGTCGAAATGCACAAGGGTACGATAGATATTAACAGCGAAAAAGGAAAAGGCACGACCTTTACAATCCGCCTTCCGCTGAATACGAAAAATGAATAA	MRIKYLYQLLLSHVSILILAFFIIISLFSHFVKDFAYQNKVDELSSYAQQITSELNSRDLDLRRLYPYQDMLKTRETRFIIFDEHQQPYFFPDDMPPREKLKSKEWHMLKQGKTVQIRAEMNRFNTEGLEVSLVAKPLFINDQFKGAVLLVSPVRGVEQMISQVNRYMIYAIISTLIITILLSWLLSKFHVKRIQTLRDATGKVASGDYDISLKNSGGDEIGMLASDFNTMAKNLKQSREQIDRLEKRRRQFIADVSHELRTPLTTINGLVEGLNSNTIPEKDKEKCFSLISEETKRMLRLVKENLDYEKIRSQQIKLDKLSLPLIEVFEIIKEHLNQQAEEKQNQLRIQVEDGVKVFADYDRLIQILVNITKNSIQFTQKGDITLRGYEGYKETVIEIEDTGIGISKEEIEHIWERFYKADVSRRNTAYGEYGLGLSIVRQLVEMHKGTIDINSEKGKGTTFTIRLPLNTKNE				NA	NA	NA	NA	NA
D1-12_03239	684	srrA_2	COG0745	Transcriptional regulatory protein SrrA	ATGAAGATATTAATGATAGAAGATAATATAAGCGTATGCACCATGACGGAAATGTTCTTTTTTAAAGAAGGATTTGAAGCCGAATTTGTCCATGACGGAGTGGAAGGCTATCAGCGGTTCACGGAAGAGGACTGGGATTTGGTCATTCTGGACATTATGCTCCCATCCATGGACGGAGTGACGATCTGCCGGAAAATAAGAGAGACGAGCAGTGTGCCGATTATTATGCTGACCGCAAAGGACACGGAGTCTGATCAGGTGATCGGGTTTGAAATGGGGGCCGACGACTATGTCACCAAGCCGTTCAGCCCGCTGACACTAGTAGCGCGGATTAAAGCGGTGATTAGAAGATACCGGGCGACGGGGCAGGCCGTAAAAAGCGACGACTTGATCGAAACGGCGTGTTTTTCAATCAATAAGAAGACGCGGGAAGTGTTTCTGCACGGAAAACCTGTCGAGAATCTGACGCCGAAGGAATTCGATCTGCTCTTTTATCTCGCACAAAACCCGCGCCAGGTTTTTTCGAGAGAGCAGCTGCTTGAGCAGGTGTGGGGCTATCAATTTTACGGCGATGAACGTACGGTTGATGTTCATATTAAACGGCTGCGCAAAAAACTGTCCAGTGACGAAAAACCGTTTTTATACACGGTGTGGGGGGTAGGATACAAATTTGATGAGGATTAA	MKILMIEDNISVCTMTEMFFFKEGFEAEFVHDGVEGYQRFTEEDWDLVILDIMLPSMDGVTICRKIRETSSVPIIMLTAKDTESDQVIGFEMGADDYVTKPFSPLTLVARIKAVIRRYRATGQAVKSDDLIETACFSINKKTREVFLHGKPVENLTPKEFDLLFYLAQNPRQVFSREQLLEQVWGYQFYGDERTVDVHIKRLRKKLSSDEKPFLYTVWGVGYKFDED	PGPT0013765_570	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
D1-12_03240	1434			hypothetical protein	ATGAACTTTATAAAAAGAGCCTTTTGGAGCATGAAGGCAAAAAAGGGAAAAACATTTTTGCAGCTGGTTGTGTTTTCAGTGATTTGCATTTTTGCCCTGTCCGGTCTTGCGATCCAGTCAGCGGCAAAGAAATCAAGCGAACTGGCAAGGCAGCAGCTCGGCGGGAGCGTCACACTCCAGGCTGACCGCCAAAAGCAAATGGCGCAGCAGCAAAAAGACGGTGAAAAGAGGACGTTTGAATCAACACCGATTTCCGTCTCAGATGCCAAGAAGCTTACATCTTTACAGCATGTTAAAAATTACAATTTCCTCACGACAGCGTCAGCAAATGCAGAAAGCTTTGATGCGATAAAAAGCTCAGGCGAATCAGCCGATAACAGTTCCGGCGCCGGCCGTTTTCAAGGCGGCGGAAGACAGATGATTTCAGCGGATATCTCGATCGAAGGCGTGCTCTCTACGGCATTGCTTGATGATTTCACGGACGGGAGCTCAAAAATCACTGACGGACGCGCCATCACAAAAACAGATGCGGACGCAAAAGTCGCCGTGATTAATGAATCGCTGGCAGATCAAAACAAGCTGAAGGTCGGCGGCTCCATTACCGTTTCTTCAGCAGCGGATGATTCTGTGAAAACGAAGCTTAAAATTGTGGGAATCTATAAAACAACATCATCAGGAGACGATCAGGCACAGCACTTTTCATTCTTAAATCCTGACAATAAAATCTATACGCCTTACACCGCCGCGGCGGCGTTAAAAGGGTCTGATAACAAAAACAAAATCAGCTCAGCCGTTTATTATATGGATGATGCCAAATATATTGACTCATTCGTTGCGGCTGCGAAAAAAACATCTGTAGATGATAAAACCTACGCGCTGACGACAAATGATCAGGTGTATCAGCAAATGGTCGGCCCGATTGAAAATGTCGCGTCATTTTCTAAAAACGTGGTATACCTTGTATCCATCGCGGGCGCGGTCATTCTTGGGTTGATCGTGACGATGTCGATCAGGGAACGCAAGTATGAAATGGGTGTCTTGATGGCGATCGGCGAAAAGCGCTGGAAGCTCATCGGACAATTCTTAACGGAAATTCTGGTTGTCGCGGTTATCGCCATCGGGATCGCATCCGTCACGGGCAGCCTTGTGGCGAATCAGCTCGGAAATCAGCTTCTTTCCCAGCAGGTCAGCTCAGCCGATGATTCGCAGCAAACAAGCGGCTGGGGCGGAGGAGAAATGCCGCGGGGAGGCGGCATGTTCGGTCAGCATTCATCCGGCGCGGATGTCATCAGTACAATGCAGGTAAACGTCTCGCTGAATGACCTTCTGATTCTTAGCGGGATCGGCGTCGCAATTGCCGTCATTGCCACATTACTGCCGTCTGTATCAGTCATGCGGCTTCACCCTAAAACGATCCTGACCAAGCAGGAATAA	MNFIKRAFWSMKAKKGKTFLQLVVFSVICIFALSGLAIQSAAKKSSELARQQLGGSVTLQADRQKQMAQQQKDGEKRTFESTPISVSDAKKLTSLQHVKNYNFLTTASANAESFDAIKSSGESADNSSGAGRFQGGGRQMISADISIEGVLSTALLDDFTDGSSKITDGRAITKTDADAKVAVINESLADQNKLKVGGSITVSSAADDSVKTKLKIVGIYKTTSSGDDQAQHFSFLNPDNKIYTPYTAAAALKGSDNKNKISSAVYYMDDAKYIDSFVAAAKKTSVDDKTYALTTNDQVYQQMVGPIENVASFSKNVVYLVSIAGAVILGLIVTMSIRERKYEMGVLMAIGEKRWKLIGQFLTEILVVAVIAIGIASVTGSLVANQLGNQLLSQQVSSADDSQQTSGWGGGEMPRGGGMFGQHSSGADVISTMQVNVSLNDLLILSGIGVAIAVIATLLPSVSVMRLHPKTILTKQE	PGPT0013350_11617	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-12_03241	684	lolD	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGAGCCTATTAACCTTTCAACAGACCGGCTACTGGTACCAAGACAAATCACAGCCGCTGTTTCAGGATATAACGATCAGCTTTGAAAAAGGGAAGTTTTATACAATTGTCGGTGCCTCCGGAACGGGAAAAACAACGTTTCTGTCTCTGGCGGGCGGCCTTGACACACCTAAAGAGGGAAGCATCCTTTATAACGGAGAAGACATCTCCAAAATCGGATTAACCAAATTCAGAAATCAATATGTCTCTATCGTCTTTCAATCTTATCATCTGATCCCGTATATGACGGCGCTCCAAAATGTCACAACGGCGATGGAGATCACCGGCTCTAAGGAGAACAACAAAGATGCGTTCGCGCTCAGCATGCTGAAAAAAGTCGGCTTCACCGAACAGCAGGCCCGTCAGCGGGTGCTGACATTAAGCGGCGGACAGCAGCAGCGCGTTTCAATTGCGCGGGCTTTCTGCTGTGACACGGATTTGATTTGCGCGGACGAGCCGACGGGAAATCTCGACGAGGATACGTCAAAGGAAATCGTCCGGCTCTTTCAGGACTTGGCGCATAAAGACGGCAAATGCGTCATCATGGTTACGCACGACGAACAAATTGCCAAAGTTTCGGATATCAACATCCGCTTATCAAGAGGAGGTTTCACGGTAAAAGAAAACGGCACGGCCGTTTCCTGA	MSLLTFQQTGYWYQDKSQPLFQDITISFEKGKFYTIVGASGTGKTTFLSLAGGLDTPKEGSILYNGEDISKIGLTKFRNQYVSIVFQSYHLIPYMTALQNVTTAMEITGSKENNKDAFALSMLKKVGFTEQQARQRVLTLSGGQQQRVSIARAFCCDTDLICADEPTGNLDEDTSKEIVRLFQDLAHKDGKCVIMVTHDEQIAKVSDINIRLSRGGFTVKENGTAVS	PGPT0013345_13378	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-12_03242	1347			hypothetical protein	TTGAATACGGAAAATCTGACGGCCGGGCTTGCTCAGGCCGTCATGTCGTCTGTGCCGGAAACATCCGCTGAAGCGATGAAAGAAGCGCGCAAAGGACTGCTTGATTTTACAGCGGCAGCCTTTGCGGGGAGACGGGATAAAGGGGTTGAGAAGCTGGTAAAACTGGCCGAAGAAGAAGGCGGGGTGCCGATAGCGCCGCTTATCGGCAGAAATCAAAAAACCACGCCGTCCCAATCCGCGCTCATTAATGGATTCATCGCACATGCGCTTGATTTTGACGATGTTCATTCTGATGTAAGAGGACATCCGAGCGCAGTCATCCTTCCGGCTTTGATTGCAGCCGCATCAGCCGGCCGGATAGACAAGAGCCGTTTTCTCGGTGCTTATGTGACGGGGATCGAAGTGATGGCGCGGCTCGGCGAGTCAGCTGGAAGGCATCATTACGAGAAAGGCTGGCACAATACAGGAACGTTAGGTGCCATTGCGGCCGCGTGCGCCGTCGGATTCGCAGAGAATCTGAATCAAACCCAATTACAGAAAGCAATCGGGTTTGCGGCTGCCCGTTCCGGAGGCATGAGAGTGCAATTCGGGACAGAAATGAAGCCGCTCCACGCCGGACTGGCCGCTCAAGCCGGATTGTTCGCCGTAAAGCTTGCAAAGGCCGGTTTCGGCGGCTCAGTTCATGCGCTCGACGGGGAGAAAGGTTTTTTCGGACTGTACGGCGATCTTGAACGGGCAGAAACCCTGCTTGTAAACGGGTGGGGAAAACCTTGGCGGATCGTGAGCCCGGGACTTTGGTTTAAGGTTTATCCGTTTTGCTCGGCGGCTCATCATGCGGCGGACGCCATTCTCAAGCTGAAGGCCGAACATGGTCTCACTTTCGGCCAAACGGAACGGATCGACGTGATTTATCCGCCGGGCGGTGACGCCGCATTGACAGAACGGCGCCCGAAAACAGGCGAAGCGGGACGGTTCAGCGTAGAATATGTGATCACCTTAGCTTTGCACGGTAAGGATTTTTCAGTTGAACATTTCACATCCGAGCCGATTCCGGAATCCTTTCAAAAAGGATTTGAGCGGATTCACCGCAGCTGCGATGAACAAATTCAGCCGGCTGAAAACGCCGTTCCGAAGGGCCGTTTTACAATTGTACGGGTTACGGCTTCCGGCGGTCATGTCTATGAAACACGTATCGACTGTCCGAAGGGAGCGCCGGGAAACGGCCTTTCTGAAAAAGACATTGAAGACAAACTCCGGCTCGCTTTGCCGGGGGAAGAGGAAAAGGCGGCAGAATTGATCAAAGCAGCCGGACAATCAAATATTGACCGTTATTTACAGCTGATATAA	MNTENLTAGLAQAVMSSVPETSAEAMKEARKGLLDFTAAAFAGRRDKGVEKLVKLAEEEGGVPIAPLIGRNQKTTPSQSALINGFIAHALDFDDVHSDVRGHPSAVILPALIAAASAGRIDKSRFLGAYVTGIEVMARLGESAGRHHYEKGWHNTGTLGAIAAACAVGFAENLNQTQLQKAIGFAAARSGGMRVQFGTEMKPLHAGLAAQAGLFAVKLAKAGFGGSVHALDGEKGFFGLYGDLERAETLLVNGWGKPWRIVSPGLWFKVYPFCSAAHHAADAILKLKAEHGLTFGQTERIDVIYPPGGDAALTERRPKTGEAGRFSVEYVITLALHGKDFSVEHFTSEPIPESFQKGFERIHRSCDEQIQPAENAVPKGRFTIVRVTASGGHVYETRIDCPKGAPGNGLSEKDIEDKLRLALPGEEEKAAELIKAAGQSNIDRYLQLI				NA	NA	NA	NA	NA
D1-12_03243	1152	scmP_1	COG1473	N-acetylcysteine deacetylase	ATGGCAAATGAAACGTATGAATCATTAAACAAACGTTTAATCAATATCCGCCGCGACCTTCATGAACACCCTGAGCTGTCAGGCGAGGAATACGAAACGACGAATAAAATCCGCCGCTGGCTGGAGGAAGAAGGAATCACGGTTCTTGATGTGCCGAAACTTCAAACCGGAGTGATCGCTGAAATCAAAGGAGACAAAAGCGGCCCCGTCATCGCCGTCAGAGCGGACATCGACGCATTGCCGATCGAAGAGAAAACAAACCTTCCGTTTGCTTCGCGAAACAGCGGCGTGATGCACGCCTGCGGCCATGATTTCCATACGGCATCTATTCTCGGCACGGCTTTCTTATTAAATGAGAGAAAGCATGAGCTGAAAGGAACGGTGCGGTTTATTTTTCAGCCCGCGGAAGAAATCGCCGCCGGAGCAAGACAGGTCATTGAAGCCGGCGCGCTTGACGGTGTATCGGCGATATTCGGCATGCATAACAAACCTGACCTCCCCGTGGGCACGGTCGGTCTGAAAGAAGGCCCGCTGATGGCGAGTGTCGACCGCTTTGAAATCACTGTTAAAGGAAAAGGCGGCCACGCCGGAATCCCTGATAACAGCATTGATCCGATTCAGGCGGCAGGACAGATCATCGGCGGCCTGCAATCGGTTGTCAGCAGAAATATCAGCTCGCTTCACAATGCCGTCGTCAGCATCACAAGAGTTCAAGGCGGCAGCTCTTGGAATGTCATCCCGGACCATGTTGAAATGGAAGGTACCGTCCGGACGTTTCAAAAAGAAGCGCGGGCCGCTGTTCCGAAACATATGAAGCGGGTTGCCGAAGGAATCGCGGCAGGGTTCGGGGCAGAGGCCGAATTCCGCTGGTACCCTTACCTTCCGTCAGTGATGAACGACGCCCGTTTCATTCAGGCGGCGGAGCAAACGGCTGAAGATCTCGGGCTTCAAACCGTTCGGGCAGAACAGTCGCCCGGCGGCGAAGACTTCGCGTTATATCAAGAAAAAATCCCCGGCTTTTTCGTCTGGATGGGAACAAACGGAACAGAAGAATGGCACCATCCCGCCTTCACACTCGACGAAAAAGCGCTCCCGGCAGCGGCTGAGTTTTTCGCCCGGCTGGCCGTCAACGTATTGGAGCAGACGGATTGA	MANETYESLNKRLINIRRDLHEHPELSGEEYETTNKIRRWLEEEGITVLDVPKLQTGVIAEIKGDKSGPVIAVRADIDALPIEEKTNLPFASRNSGVMHACGHDFHTASILGTAFLLNERKHELKGTVRFIFQPAEEIAAGARQVIEAGALDGVSAIFGMHNKPDLPVGTVGLKEGPLMASVDRFEITVKGKGGHAGIPDNSIDPIQAAGQIIGGLQSVVSRNISSLHNAVVSITRVQGGSSWNVIPDHVEMEGTVRTFQKEARAAVPKHMKRVAEGIAAGFGAEAEFRWYPYLPSVMNDARFIQAAEQTAEDLGLQTVRAEQSPGGEDFALYQEKIPGFFVWMGTNGTEEWHHPAFTLDEKALPAAAEFFARLAVNVLEQTD				NA	NA	NA	NA	NA
D1-12_03244	750	yxeO	COG1126	putative amino-acid import ATP-binding protein YxeO	ATGATACAAGTCAGACATATTCGAAAAGCATTTAAAGACCTTACCGTACTTGACGGGATCGATCTTGAGATCAAAAGCGGCGAAGTCACGGCCATCATCGGCCCGTCAGGCTCGGGAAAATCAACGCTCCTCCGCTGTTTGAATCTGCTGGAGCGCCCGGATGACGGCATCATTGAAATCGGTGATGCAAAACTGAATGCAGCGTCCTATTCGCGCAAAGACGTTCATAAGCTTCGCCAGCAGACGGCGATGGTGTTTCAGAATTACAACCTGTTCAAAAACAAAACCGCCCTGCAAAATGTGACAGAGGCGCTGATCACCGCGCAAAAGAAACCGAAAAAAGAAGCGGAACAGATCGGTATGGATCTGCTGCGGCAAGTCGGTTTAGAACACAAAGCGGACAGCTACCCGATTACGATGTCAGGCGGGCAGCAGCAGCGGATCGGGATTGCGCGCGCCTTGGCCGTTGATCCTCACGCGATTTTACTGGATGAACCGACTTCGGCCCTTGACCCTGAGCTTGTAGCCGGGGTGCTCCAAGTCATCAAATCAATTGCCGAAAAACAGACAACCATGATCATTGTCACGCATGAGATGGCTTTTGCTCGTGAAGTGGCCGACAAGGTTATTTTTATGGCAGACGGACGCATCATCGAACAGGGAACGCCGGAAGAGCTGTTTGACAATCCGCAGAACGAACGGACGAAAAAATTCATTAAGCAAGTGGGAGAGCCCGCCGAACTTGTCTAA	MIQVRHIRKAFKDLTVLDGIDLEIKSGEVTAIIGPSGSGKSTLLRCLNLLERPDDGIIEIGDAKLNAASYSRKDVHKLRQQTAMVFQNYNLFKNKTALQNVTEALITAQKKPKKEAEQIGMDLLRQVGLEHKADSYPITMSGGQQQRIGIARALAVDPHAILLDEPTSALDPELVAGVLQVIKSIAEKQTTMIIVTHEMAFAREVADKVIFMADGRIIEQGTPEELFDNPQNERTKKFIKQVGEPAELV	PGPT0020710_103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020710-yxeO-K16963	NA	NA
D1-12_03245	675	yxeN		putative amino-acid permease protein YxeN	ATGAACAGCATTGATTGGGGATTTATGTTTTCAGCTTTTCCCGCGTTAATCGAAGCCTTGCCGATCACATTACTAATGGCCGTCGCGGCCATGGTATTTGCCGTGATCGGCGGCCTTATATTAGCGCTTATCACAAAAAATCGTGTTCCTGTGCTTCACCAGCTGTCAAAGGTGTATATTTCATTTTTCCGGGGCGTGCCGACGCTCGTGCAGCTTTTCTTAATTTATTACGGCCTGCCTCAGCTGTTTCCCGGAATGAGCAAGATGACGGCGTTAACTGCGGCGATTATCGGGTTAAGCCTGAAGAATGCCGCCTACTTGGCCGAAATCTTCCGCGCGGCGCTCAACTCAGTCGATGAGGGGCAGCTTGAAGCCTGTCTGTCTGTCGGAATGACAAAATCCCAGGCGTACAGACGGATCATTTTCCCGCAAGCCGTCAGAAACGCGCTTCCCGCGACGGGAAATACATTTATCGGCCTGTTAAAAGAAACATCGCTCGCCTTTACATTAGGAGTGATGGAAATGTTCGCCCAAGGAAAAATGTACGCATCAGGCAACCTCAAATATTTTGAGACGTATTTAGCCGTCGCGGTCATGTACTGGATTCTTACGATTATTTACAGTGTGCTGCAGGATCTGCTCGAACGGGCGATCAGCAAGCCTTATCGCACATAG	MNSIDWGFMFSAFPALIEALPITLLMAVAAMVFAVIGGLILALITKNRVPVLHQLSKVYISFFRGVPTLVQLFLIYYGLPQLFPGMSKMTALTAAIIGLSLKNAAYLAEIFRAALNSVDEGQLEACLSVGMTKSQAYRRIIFPQAVRNALPATGNTFIGLLKETSLAFTLGVMEMFAQGKMYASGNLKYFETYLAVAVMYWILTIIYSVLQDLLERAISKPYRT	PGPT0020705_31	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020705-yxeN-K16962	NA	NA
D1-12_03246	792	yxeM	COG0834	putative amino-acid-binding protein YxeM	ATGAAGAAGAAAACATGGGCTTTGCTGCTGTCTGCCGCGCTTTTGGCGGTCTTATCAGCATGCGGAAACGGAAAAGAAAGCGAAGGCGGCGATAACGTACTGCATGTAGGCGCCACCGGACAAAGCTATCCGTTCGCATATAAAGAAAACGGCAAGCTGACCGGCTTTGACGTGGATGTCATGGAAGCCGTCGCGAAAAAAATCAACATGAAACTGGACTGGAAGCTGCTTGAATTCAGCGGTCTGATGGGAGAGCTCCAGACCGGCAAACTCGATACCATCTCTAACCAGGTCGCTGTCACGGACGAACGCAAGAAAACGTATAACTTCACAGAACCGTATTCGTATGCGGGCACTCAAATCGTCGTCAAAAACGATAACAAAGACATCAAATCAGTCAACGATCTAAAAGGAAAAACAGTGGCGGCCGTTCTGGGCTCAAACCACGCGAAAAACCTTGAGAGCAAGGACCCGGATAAAAAAATCAACATTAAAACATATGAAACACAAGAAGGCACGCTGAAAGACGTGGCTTACGGACGGGTTGACGCTTATGTAAACAGCCGCAGCGTCCTGATCGCCCAGATCAAAAAGACCGGTCTGCCTCTGAAATTAGCAGGAGACCCGATTGTCTATGAAAAAGTCGCTTTCCCGTTTGCGAAAGATGCGGCTCACGATAAAATCCGCAAAAAAGTAAACAAAGCCATTGAAGACCTGCGGAAAGACGGCACTCTGAAAAAGCTGTCTGAAAAGTACTTTAACGAAGATATCACAACGGAAGCAAAGCATTAA	MKKKTWALLLSAALLAVLSACGNGKESEGGDNVLHVGATGQSYPFAYKENGKLTGFDVDVMEAVAKKINMKLDWKLLEFSGLMGELQTGKLDTISNQVAVTDERKKTYNFTEPYSYAGTQIVVKNDNKDIKSVNDLKGKTVAAVLGSNHAKNLESKDPDKKINIKTYETQEGTLKDVAYGRVDAYVNSRSVLIAQIKKTGLPLKLAGDPIVYEKVAFPFAKDAAHDKIRKKVNKAIEDLRKDGTLKKLSEKYFNEDITTEAKH	PGPT0020700_131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020700-yxeM-K16961	NA	NA
D1-12_03247	492	scmL		S-(2-succino)cysteine N-acetyltransferase	ATGTCAAGACAATACCGGCTCGCAACGGAGGCAGACGCTGATGAGCTGCTTTCACTGACACTGCGGGCGTATGAACCGATCCGCAAGCTCGGCATCAACTTTGCCGCTGCCACGGCGGATAAGGAGCTCGTTTTGAATAACATACAAAAAAACGCCTGTTACGTTTTGGAAGAAGACGGACGGATTCTGGCGACGATTTCTCTGCGGATGCCGTGGGGGCCGAATCCCGGGCCGTATGGTGTCCCTCATATTTGGTGGTTCGCCGTCGATCCTGAAACCGGAAAAAAAGGGACGGGCTCGGACATGCTGGAGTGGCTGGAGAATACAGTGCTCCGCGATACATTAAAAGCGCCTTTCGTGTCACTGGGCACAGCGGACAAGCATCCGTGGCTGATCGGCATGTACGAGCGGAAAGGCTACGTCCGTGCAGGCGAAAAGGATTTAGGAAAAGGGCACATCACCATTTATTTAAAAAAACAATTGCAGGATTAA	MSRQYRLATEADADELLSLTLRAYEPIRKLGINFAAATADKELVLNNIQKNACYVLEEDGRILATISLRMPWGPNPGPYGVPHIWWFAVDPETGKKGTGSDMLEWLENTVLRDTLKAPFVSLGTADKHPWLIGMYERKGYVRAGEKDLGKGHITIYLKKQLQD				NA	NA	NA	NA	NA
D1-12_03248	1323	ntaA		Nitrilotriacetate monooxygenase component A	ATGACAAAGAAAAAAAAAATCAAACTCGGTGTGTTTCTCGCGGGCACCGGCCATCATGTCGCTTCTTGGAGACATCCTCAGGCACCGGCGGACGCGAGCATGAATTTGGATTATTTCAAAGAACTGGCGAAAACGGCTGAGCGGGGGAAATTGGACATGCTGTTTTTGGCGGACAGTTTATCAATAGACGGCAAATCACATCCGAATGTGCTGACGCGCTTTGAGCCGTTTACGCTGCTGTCGGCGCTCGCTCAGGTCACATCCCGCATCGGTCTGACGGCGACCGCATCTACCACATACAGCGAACCGTTCCATATCGCGAGGCAATTTGCATCACTTGATCATCTTTCCAACGGCCGCGCGGGCTGGAATGTCGTCACATCTTCGATTGAATCGACCGCGCTTAATTTCAGCGGCGAAAAGCATCTTGAGCACCATCTCAGATATCAGCGCGCGGAAGAATTCGTTGAAGTCGTCAAAGGATTATGGGATTCGTGGGAGGAAGACGCCTTTATCCGTGACAAAGAATCAGGAGCATTTTTCGATAAAGACAAAATGCATGAATTGAACCATAAAGGAACATATTTCTCCGTGAGAGGGCCGTTAAATGTCGCCCGCACACCTCAAGGGCGCCCGGTCATTATTCAGGCCGGATCATCAGGAGACGGAAAAGCGCTGGCCGCCAAAACGGCGGAGGTCATTTTCACCGCGCAAAATCATTTGGAATCCGCGCAGGATTTCTATCAATCTATTAAAGAACAAGCGGCTTCTTTCGGCCGTGATCCTGAAAAAATCGCGATCATGCCGGGAATTTTTCCCGTTATCGCCGATACCGAAGAAGAAGCAAAGGCAAAATATGAAGAGCTCCAAGACCTCATCATTCCGTCTGTCGGCCTGAACATTCTGCAAAACTATCTGGGCGGCGTCGACCTTTCCGCCTTCCCGCTTGACGGCCCGCTGCCTGAATTGGATGCGGATGCGTCGAATGCCGTTAAAAGCCGGTTCAAGCTCGTTCAGGAGATGGCCAAACGCGATAACATGACCATCCGCGAACTTTACAAATATGTGGCGGGTTCAAGAGGCCATCATATCTTTGTCGGAACGCCGGAACAGCTTGCCGATAAGATGGAAGAATGGGTCGGAAAACAAGCTTGTGACGGTTTTAACATCATGCCGCCGCTTTTGCCTGAAGGTCTCACTCTTTTTGTAGACAAAGTGATTCCGATTTTACAAGAACGGGGCGTGTTCAGAAAAGAGTATGAAGGAACGACGCTCAGAGAACATTTCGGACTGGAAAAACCGGCAAACCGATATGCCGGCTAA	MTKKKKIKLGVFLAGTGHHVASWRHPQAPADASMNLDYFKELAKTAERGKLDMLFLADSLSIDGKSHPNVLTRFEPFTLLSALAQVTSRIGLTATASTTYSEPFHIARQFASLDHLSNGRAGWNVVTSSIESTALNFSGEKHLEHHLRYQRAEEFVEVVKGLWDSWEEDAFIRDKESGAFFDKDKMHELNHKGTYFSVRGPLNVARTPQGRPVIIQAGSSGDGKALAAKTAEVIFTAQNHLESAQDFYQSIKEQAASFGRDPEKIAIMPGIFPVIADTEEEAKAKYEELQDLIIPSVGLNILQNYLGGVDLSAFPLDGPLPELDADASNAVKSRFKLVQEMAKRDNMTIRELYKYVAGSRGHHIFVGTPEQLADKMEEWVGKQACDGFNIMPPLLPEGLTLFVDKVIPILQERGVFRKEYEGTTLREHFGLEKPANRYAG	PGPT0003040_16	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
D1-12_03249	1119	yndE_2		Spore germination protein YndE	ATGGAAAATGCGAAAATCGGCACGCGTCAGCTGTTTATTATGATCATTTTGTTTGAATTGGGCAGTTCGTTATTGATCCCGCCGGGAACGATGGCCGGGCGGGATGCGTGGCTGTCCGTGCTTCTCGGGTGCGTTATCGGTCTCGGGCTTTTCTACGTTTATCAGGCGCTGTATCAATTTTTTCCTGAGTCTTCTCCGAGAGATTACATGAACGAACTGATCGGCAGACATCTGAGCTGGGCTGTCTCCCTTCTTTATATTCTCTATTTTGCTTATATCGCGGCCCGCGTATTGCGGGATTTTGGCGAAATGCTTGTCACCTTCGCCTACCAGGACACGCCGCTTTTAATTGTGAATGCCATGCTGATGATCGCCGCGATATTTGCGGTCAGAAAGGGAATTGAAGTGATAGCGAGAGCCGGCGAGCTGCTGTTTGGCATTATGTATTTCCTGACAGCCGTCGGGCTGATCCTCATTATCAGCTCAGGCACGATAAACCTCAGATTTCTCCAGCCCGTTTTAGCGGAGGGTGCAGGAACGGTCATTTATTCCGTGTTTAAACAGACGATGTTCATCCCATTCGGTGAATTAATCGTGTTTGTCATGATTTTCCCTTATTTAAAAGATCGGAAAAAGGTGAAGAAAACCGGATTTCTGGCGATTATCATCAGCGGGCTGTTTTTGGCGATGTCAGTGGCGATTAATATTTGTGTGCTGGACGTCAACTTAATGCTCCGCTCTCAATTTCCGCTGCTGAGCACCATACAGACAATTAAAGTGGAAGAGTTTTTAGACCGGCTGGATGTCTTTTTCATGCTCGTGCTCGTCATCGGCGGTTTTTTCAAAGTCAGCCTTTTTACATATGCGGTTGTCGTGGGCGTGTCCACGCTGTTTAAAGAAAAAAATCCGTCCCAGCTGGCCTTCCCGGTCGGATTGGGGGTGCTGATTCTCTCCATCAGCATCGCAAGCAATTTTTCGGAACACATGAATGAAGGCTTAAACATTGTGCCGATCTATATTCATCTTCCATTTCAAGTGCTGTTCCCCGTTTTGCTGCTTATCATTGCCGTTATTAAGAAAAAGGTCAAAGGGACCGTCTATACAGTTTCGAAGAAATAA	MENAKIGTRQLFIMIILFELGSSLLIPPGTMAGRDAWLSVLLGCVIGLGLFYVYQALYQFFPESSPRDYMNELIGRHLSWAVSLLYILYFAYIAARVLRDFGEMLVTFAYQDTPLLIVNAMLMIAAIFAVRKGIEVIARAGELLFGIMYFLTAVGLILIISSGTINLRFLQPVLAEGAGTVIYSVFKQTMFIPFGELIVFVMIFPYLKDRKKVKKTGFLAIIISGLFLAMSVAINICVLDVNLMLRSQFPLLSTIQTIKVEEFLDRLDVFFMLVLVIGGFFKVSLFTYAVVVGVSTLFKEKNPSQLAFPVGLGVLILSISIASNFSEHMNEGLNIVPIYIHLPFQVLFPVLLLIIAVIKKKVKGTVYTVSKK	PGPT0025055_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
D1-12_03250	1227	gerBC_2		Spore germination protein B3	ATGAAAAGACGTAAATGGATGCTTATCCTTTGTACGATGGTTTCCCTTATGTTTGTATCCGGATGCTGGGATAAAAGGGAGCTGACCGATTTAGCGGTGATCTCCGCCATCGGTATTGACCGGACCGAAACGGGAAAATACGTCCTTCATTTCCAAATTATCAATCCGGGAAATGTGGCCGGCGGTCTGCAGGGCGGCGGAGCGGGAGACCGGCCTCCGGTTTCCGTCTATTCGGTGTCCGGAGACAATATGACGGAAGCTTTGAGAAAAGGCTCGATGAAAGTGTCCAGAAGGCTCTATTTTGCCCATACGAATCTCGTGGTGTTCAGTGAAAAACTGGCGAAAGAGGAAGGGCTCAGTTTTATTCTGGACAATCTTGACCGCGACACCGAATTCAGGACGACTGCAACCGTTGTGATCGCGCATAATTGCAAGGCTGAAGACATTATTAAAGTGCTGACGCCGATTGATAAAATCCCTTCCAATAAAGTGAACAAGACGCTCAGCTTCACGCAGGAACAATACGGCAGAGTCATTAAAACCAGCCTTCAGGACGTTCTGATTGATCTCGCTTCTCCGACCGGGTCGCCGTTTATTCCGGGTTATGAAATGCACGGAGACGATAAAGCCGGTCCTACGATGGAAAATACGCAGACAACTGAACCGAAAGCAGTGCTGTCAGCGGACGGACTGGCGGTGTTCAAAAAGGATGGGAGGCTGGATTACTGGATTGAGGATGACGACAGTGTGGGGGCTGTATGGCTGCTCAATAGGATCAAGCATACGTTCATCAATGCGGATTGGAAGAACGTGAAGCATGCAATCAGTCTGCAGGTCACCCGCCAGAATACAAAGGTGACGGCCACTTTTCCGAACGGAAAACCGTATATTCACGTGCATGCTCAGGTCGAGGGGCTGGTGGACGCTGTCAGATACCCTTTCCATCTGTCTGATCCGCAAGTGCTGATGACGATGCAAAAGGCGCTCAGCGTGCAGCTTGAGAAAGATATCACCAAATCGATTGAAGATATAAAAGCCCATAAGAATGACTTCGTCGGCTTCGGAGACCTGATCTATCGGAAGCATCCGGACAAATGGAAAAAGTTCAAAGGGAAGTGGGATGAAGAATATTTCCCAAATCTCCCCGTAGATGTCAAAACGGAAGTCATTATCAGAAGAACGGGCTTGCGGAATAATCCTCTCTCAGACAAGCTTGAGCATGATTGA	MKRRKWMLILCTMVSLMFVSGCWDKRELTDLAVISAIGIDRTETGKYVLHFQIINPGNVAGGLQGGGAGDRPPVSVYSVSGDNMTEALRKGSMKVSRRLYFAHTNLVVFSEKLAKEEGLSFILDNLDRDTEFRTTATVVIAHNCKAEDIIKVLTPIDKIPSNKVNKTLSFTQEQYGRVIKTSLQDVLIDLASPTGSPFIPGYEMHGDDKAGPTMENTQTTEPKAVLSADGLAVFKKDGRLDYWIEDDDSVGAVWLLNRIKHTFINADWKNVKHAISLQVTRQNTKVTATFPNGKPYIHVHAQVEGLVDAVRYPFHLSDPQVLMTMQKALSVQLEKDITKSIEDIKAHKNDFVGFGDLIYRKHPDKWKKFKGKWDEEYFPNLPVDVKTEVIIRRTGLRNNPLSDKLEHD	PGPT0025060_162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
D1-12_03251	1641	gerBA_3		Spore germination protein B1	ATGCCGCCATTTTTTAAGCAGAAGAAACAAAAAAAAGCCGATCAAAACGACCGTGACAATGAAGGCAGAAAAGAAGCGGACAGCCAGCCGGACAAAGAGCCGGATGAGCCGATCTCCCTCAGCTTAAAGCAAAATATGAAGAAACTGTCTGAGAGGTTCGGCAACAGTGCCGATGTCGTCATCCGCCGGCTGAAAATCGGAAAAGAAGAGCTTCCGGCCGCAATTGTGTATATCGCCGGTTTGGTAGACGAACAGCTTGTCAGCCAATCCCTTCTGGAGGATTTAATCGACATCCCGTCCGTTCAGCCGGAACAAGCGGTCTGCCTGATATACGATAAAACGCTTGCGATCGGCGGGGTGAAAGAGGAAGAAAAATGGAAAAGTCTTTATGCCGGGCTGGTGGCGGGCAGCACGCTCATTTTTGTCGACGGGGCTGACAAGGCGCTGATCGCCAGCACGGAAGGGGGAGAGCACCGGTCCATTCAAGAGCCGAGCACCCAGGTCTCTTTCCGCGGCCCGCGGCAGGGATTCACTGAATCTCTGCAAACCAATATTTCCATGATCCGCAGGTATGTAAAAACGCCTGATGTATGGGTTGAAAAAATGGAGATCGGACACGAAACGAATACGGATGTCGCGCTGATGTATATTAACGGAATTTGCGATAAAAAGCTGATTAAGGAAGTCCGCAAGCGGCTGAAGCACATTGACATCGACAGCATTCTGGAATCCGGCTACATTGAACAGCTCATTGAAGACGCGCCGTTTTCTGTGTTCCCCACCGTATATCATACGGAGCGGCCGGACGTCGTGGCGGGGAATCTGCTGGAAGGACGATTTGCGATTATCGTGGACGGAACGCCGTTCGTTCTCCTCGCGCCGGCATTATTTATTCAATTTTTTCAATCCGTTGAGGATTATTATTCACGATTTGATATCGCCACCAGCATCAGGGTGCTGCGGGTTTTGATCTTCTTCATTTCACTGGTGGCGCCGGGGATTTATGTGGCGGCGACGACTTTTCACCAGGAAATGATTCCGACGCAGCTGCTGATTGTCATCGCGGCTCAGCGGGAGACGGTGCCGTTCCCGGCCGTGATTGAAGCGCTGACGATGGAAGTGGCCTTTGAGATTCTCAGGGAGGCGGGTGTCCGGCTTCCGAGAGTTGTCGGCTCCGCCGTTTCCATCGTCGGAGCGCTTGTCATCGGCCAGGCCGCCGTGCAGGCCGGCATCGTCTCCCCGGCCATGGTTATCGTCGTCGCGCTGACGGCGATTGCCAGCTTTGCGACCCCGGCTTTTGACATGGCGATATCTGCGCGGCTGATCCGGTTTCTCTTTATTCTGTCAGCGGCGGTTATGGGATTTTACGGACTGATTCTGGGCATTATCATGATGTTTGTCCATCTGTGCGGCCTGCGTTCATTCGGATTTCCGTATATGTCCCCGCTCGCTCCTTTAACCCCGGGCGGACTGAAGGATTCCCTCCTCCGCGCTCCGTTATGGGCGGATGAAAAAAGGCCGGGACTGCTCGTGCAGGAAAACAACAGGCGCCAAGGGGAACATCAAAGACCGAAACCGGAGACATCCAGAGGAATGGTTAATAAAGATGTAGAAGAGGGCGACGGTAATGAAAAGACGTAA	MPPFFKQKKQKKADQNDRDNEGRKEADSQPDKEPDEPISLSLKQNMKKLSERFGNSADVVIRRLKIGKEELPAAIVYIAGLVDEQLVSQSLLEDLIDIPSVQPEQAVCLIYDKTLAIGGVKEEEKWKSLYAGLVAGSTLIFVDGADKALIASTEGGEHRSIQEPSTQVSFRGPRQGFTESLQTNISMIRRYVKTPDVWVEKMEIGHETNTDVALMYINGICDKKLIKEVRKRLKHIDIDSILESGYIEQLIEDAPFSVFPTVYHTERPDVVAGNLLEGRFAIIVDGTPFVLLAPALFIQFFQSVEDYYSRFDIATSIRVLRVLIFFISLVAPGIYVAATTFHQEMIPTQLLIVIAAQRETVPFPAVIEALTMEVAFEILREAGVRLPRVVGSAVSIVGALVIGQAAVQAGIVSPAMVIVVALTAIASFATPAFDMAISARLIRFLFILSAAVMGFYGLILGIIMMFVHLCGLRSFGFPYMSPLAPLTPGGLKDSLLRAPLWADEKRPGLLVQENNRRQGEHQRPKPETSRGMVNKDVEEGDGNEKT	PGPT0025050_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
D1-12_03252	222			hypothetical protein	ATGAAAATATTGGGGGTTTCATTTTTTTTGCTTGCTGCCTGTCTGATCATTTCAGTGACGATGGATATGCTGCAAGGTTTCAGTTTCTATAGAGCGGTCCAAAACAACCTGTCCGCTTTTAAATTGACCACCTTCTCAGAATGGCTGATGCTGTTTTTATTCGCCCTCTTTTTAATCAGAGAAATGATCGTTTTATATAAATCAGGTAAAAAAGATGCCTGA	MKILGVSFFLLAACLIISVTMDMLQGFSFYRAVQNNLSAFKLTTFSEWLMLFLFALFLIREMIVLYKSGKKDA				NA	NA	NA	NA	NA
D1-12_03253	1746			hypothetical protein	TTGCCGAATCGTATATTGGATATTACGGATTGCGGTGTGGCGGCAGACGGAAAAACCGACGTGACGGGCGCCATCAACCAATGCTTGGCCAGGGCCGTCAGCGAAGGCTGTCATACGGTGTTTTTTCCGCCCGGAACGTATAAAATCAACGGCACGCTTGGCGGGGACAGAAGCCAGCCGTTTCGGAACGCCGGGATTAACGTGCCGAGCCATCTCACCATCGTTTTAGATCCGGAATGCACGATTAAAGTGGCGCCGAACAGCTCCTGGGGCTACTCGGCTTTCTATATAGGCAGGCGTGAAAATGTCACCATCACCGGCGGCCGGATCATCGGGGAACGGGATGAACACACGTATACCAATGTCCCTTTGCGGTCGACCCATGAATGGGGGTTTGGAATCTGTATTGAAGGCAGCAGCAATGTGCTGATCGAAAATGTGAAGATTTCCGATTTTACGGGAGACGGCATTATTGTCAGCCCGCTCGGGTTAAAAACAAACAGTGATTACGAAACTTCAGAACAGGTGACCATCCGCCGCTGTGAGATCAGGCAGTCAAGGCGGAACAACATTTCAATCACCGGCTGCAATACCGTTACGGTGGAAGAATGTGTAATTGAAGACGCCGGGCAAGGGAACGGAACGGCTCCGAAATTCGGAATCGATATTGAATCGTACGGAGAAGGCGATATTGATTATGAAGAAGCTCTTCATATTACGGTCCGCAACAACTTTTTTTCCGGAAACGCCGCAAGCTCAGTCACCAACTTTAACGGATATAATGTGTTAATTGAAGGAAATCATTCCGATAACACAATCAGCTACGGGTATGGGGCACATACCGTCATTTCGGGGAATGTTTTCTTTCGGTCAGACGGCGGCTCAAGGACCGCAGTTGCCGGACAAGGTGTGTCACAAGGACAGGACAGCAGCAATGCCGTCATTTCCAACAATCTGATTACCGGTTTTTCCACCGGAATAGATGTAAGGGGAAAAAGCGTCCTCGTCACCCATAACAAAATCAATCAATTTGAAAATACGGGCATTTCCGTCTATCAGGCAGAAGATGTGACCGTTGACGGCAATGTCATTGAAAACGGACGTTCCGAAACGAGACGAAGCACGGGGATGCGGGCGACGCTGTCGGAAAACGCCGTCTTTATGAATAACACTCTGAATCAGGTGACAGACGGAATCAGCATGTCGGCCGGCAATATCACCGTAAAGCAAAATGTGCTGACATCGTTCAGCCGGGGCATATGGGTCACAGGCGGAAATGCCGTTATTGAAGGAAATACGCTGATTCCGAATGCGTATCAGGGCGCCGCGGAGTCCTATGCCGTATCTGTGACAAATGATGCCAGGGCTGTCATCAAGGGAAATCTCTTCAAAAGCTACAAAAACTATCCCGTGTTCAGTTCAACATCCTCGGGAACCTCTGTCATCAGCAACCGCTTTGAATCATCACCGCTTATCGTTACCGTGTATCTGAACTCAGGCACGCATGAAGTCATAGACAATACGCTCACGATCAATCGAACGGCGGGCAGCCCGATCGGCATCTATCTGAACGGAGCCTCCAATTCCCTCGTGTCGGGCAATACCATCAACAACCTTTCCGCCGCTTCTGCTTCCGCCATCCAAACCAATTCCTCCGTAAGTACTAAAATCATCGGCAACCGCATTATCAAAGGCGTCATTGTGAAACACACGACAGATACGGAAAGCGGAAATATCCTCATCTGA	MPNRILDITDCGVAADGKTDVTGAINQCLARAVSEGCHTVFFPPGTYKINGTLGGDRSQPFRNAGINVPSHLTIVLDPECTIKVAPNSSWGYSAFYIGRRENVTITGGRIIGERDEHTYTNVPLRSTHEWGFGICIEGSSNVLIENVKISDFTGDGIIVSPLGLKTNSDYETSEQVTIRRCEIRQSRRNNISITGCNTVTVEECVIEDAGQGNGTAPKFGIDIESYGEGDIDYEEALHITVRNNFFSGNAASSVTNFNGYNVLIEGNHSDNTISYGYGAHTVISGNVFFRSDGGSRTAVAGQGVSQGQDSSNAVISNNLITGFSTGIDVRGKSVLVTHNKINQFENTGISVYQAEDVTVDGNVIENGRSETRRSTGMRATLSENAVFMNNTLNQVTDGISMSAGNITVKQNVLTSFSRGIWVTGGNAVIEGNTLIPNAYQGAAESYAVSVTNDARAVIKGNLFKSYKNYPVFSSTSSGTSVISNRFESSPLIVTVYLNSGTHEVIDNTLTINRTAGSPIGIYLNGASNSLVSGNTINNLSAASASAIQTNSSVSTKIIGNRIIKGVIVKHTTDTESGNILI				NA	NA	NA	NA	NA
D1-12_03254	1479	dtpT	COG3104	Di-/tripeptide transporter	GTGGCATCTATTGATAAGGACTCTATAACAGAAACTGTGCCGCAACGAGGCTTTTTCGGTCATCCCCGCGGCTTGTTCACACTGTTTTTCACCGAATTTTGGGAGCGTTTCTCCTACTATGGTATGAGAGCCATATTGCTTTACTATTTATACACGGAAGTCGCTCATGGCGGTCTCGGCTTTGATAAAACGACCGCAGTTGCCATCATGTCCATATACGGGTCTCTCGTATACATGTCGAGCGTCATCGGCGGATGGCTGGCCGACCGGGTATTCGGCACGGCAAACACCGTATTTTACGGCGGAATTTTAATTATGTTCGGGCACATCGCTCTTGCCTTCCCTGGCAGCACGGCGGCGTTTTTCACCAGCATGGCTCTGATCATTATCGGAACCGGCCTGCTTAAACCAAACGTATCCAGCGTTGTCGGAGATTTATATACGAAGGAAGACGAGCGCCGCGACTCAGGTTTCAGCATCTTTTACATGGGCATCAACCTCGGCGGATTGCTTGCGCCGCTAATTGTCGGAACACTCGGACAGAAGTACAACTACCACTTAGGCTTCGGATGCGCCGCGGCCGGTATGTTCCTCGGACTGATTGTTTTCGCTCTTACGAGAAAGAAATACCTCGGCAAAGCAGGCTCCAATGTACCGAATCCGATTTCTAAATCATCAGTGATCGGCACGGGAATCGGAGTGGTCATCGCAGCAGCCGTTATCATCGTTCTGATCCAAACCGGCTGGCTGACGATCCAGCGTGTGATTGACACCGTCAGTATCCTCGGCATTGTCATTCCGGTCATTTACTTTATCGTGATGTTCACGAGCAAAAAAGCGACGAAAACGGAAAAATCAAGGCTTGCGGCTTATGTTCCGCTGTTTGTTGCAGCGGCAATGTTCTGGGCGATTCAGGAGCAGGGCGCGACGATTCTTGCTTTATATGCGGATCAGCGCACGAGACTTTCCTTTGCGGGCATGCATCTTGAGTCTTCATGGTTCCAGTCTCTGAATCCATTATTCATCGTTATTTTCGCGCCGGTGTTCGCCTGGATCTGGATGAAGCTCGGCAAACGCCAGCCTTCAACACCGATTAAATTCGCGATCGGCATTATCCTTGCCGGATTATCATTTTTAGTCATGGTGCTTCCGGTTATGGGCGGAAGCGGCGAGCTTGTGAGCCCGCTTTGGCTTGTGCTCAGCTTCCTTTTGGTTGTGCTTGGTGAGCTTTGCCTTTCACCGGTCGGTTTATCCGTCACAACGAAACTTGCGCCTGCCGCTTTCTCAGCGCAGACGATGAGCATGTGGTTTTTAACAAACGCCTGCGGTCAAGCCCTGAACGCAAAAGTAGTCGGTTTGTTTGATAAGATTTCTGAAGCGGCCTACTTCGGCTCAATCGGTCTTGTTTCGATCATTCTCGGTATTATTTTGATTCTTCTGTCTCCCGTCATTAAACGGGCGATGAAAGGCGTACAATAA	MASIDKDSITETVPQRGFFGHPRGLFTLFFTEFWERFSYYGMRAILLYYLYTEVAHGGLGFDKTTAVAIMSIYGSLVYMSSVIGGWLADRVFGTANTVFYGGILIMFGHIALAFPGSTAAFFTSMALIIIGTGLLKPNVSSVVGDLYTKEDERRDSGFSIFYMGINLGGLLAPLIVGTLGQKYNYHLGFGCAAAGMFLGLIVFALTRKKYLGKAGSNVPNPISKSSVIGTGIGVVIAAAVIIVLIQTGWLTIQRVIDTVSILGIVIPVIYFIVMFTSKKATKTEKSRLAAYVPLFVAAAMFWAIQEQGATILALYADQRTRLSFAGMHLESSWFQSLNPLFIVIFAPVFAWIWMKLGKRQPSTPIKFAIGIILAGLSFLVMVLPVMGGSGELVSPLWLVLSFLLVVLGELCLSPVGLSVTTKLAPAAFSAQTMSMWFLTNACGQALNAKVVGLFDKISEAAYFGSIGLVSIILGIILILLSPVIKRAMKGVQ	PGPT0021010_2942	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021010-TC_POT-K03305	NA	NA
D1-12_03255	462			hypothetical protein	ATGCTGCCGGAGCAGCTGCCGGAGGCGCTTTACACGCTTTTAGACGGGACGGAGCTTGAAAAAAAGCAGCACGACGCGTTTGTGCTCCAATCTGTGACGAAAGAAGGCCGTCCGCACGCGGCCATGATCAGTGCCGGTGAAATCGTGGCCGTGAGCAGAACGAATCTCCGGCTCGCCTTATGGAAAAACACGACGACCGTAAGCAGCCTGCTGCATTCGGGACAAGCGCTTTTCATCGCCTGGAACGGAGGAGCCGCATATTATGTCACATTGGAATGTGAGGCGCTTCCGCCGCTGAAAGAGGCGAAACACGAGCGGGAACGGTTCAGCTGCCGCGTGATCACCGTCAAGGAAGATCGGGCGAAATACGCGGATCTGACATCCGGACCGGCCATCCAGCTCCACGAACCGGAAGATGTCTTGAAGAGATGGAGAGAAGCACTTGAGGAGTTAAAACGATAG	MLPEQLPEALYTLLDGTELEKKQHDAFVLQSVTKEGRPHAAMISAGEIVAVSRTNLRLALWKNTTTVSSLLHSGQALFIAWNGGAAYYVTLECEALPPLKEAKHERERFSCRVITVKEDRAKYADLTSGPAIQLHEPEDVLKRWREALEELKR	PGPT0005445_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0005445-bsdD-K21759	NA	NA
D1-12_03256	228	bsdD		Protein BsdD	ATGAAAACATGCCCGCGCTGTGAATCGAAAAAAGGAGAAACCGTCAGCCAATCGCCGGTCAAAGGCGCTTGGGAAATATACCAATGCCAAACCTGCTTTTTCACATGGAGATCCTGTGAACCGGAAAGCATCACGAATCCGGCGGCATTCAACCCGGCATTTAAAATCGATCCGAAAGAAACAGAGACGGCCGCACATGTTCCCGCTGTTCCGGAAAGAAAAGCGTAA	MKTCPRCESKKGETVSQSPVKGAWEIYQCQTCFFTWRSCEPESITNPAAFNPAFKIDPKETETAAHVPAVPERKA	PGPT0005445_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0005445-bsdD-K21759	NA	NA
D1-12_03257	1422	bsdC	COG0043	Phenolic acid decarboxylase	ATGGCCTATCAGGATTTTAGGGAATTTCTCGCCGCTCATGAAAAAGAAGGGCAGCTCTTAACAGTCAACGAAGAGGTAAAACCGGAGCCGGATCTGGGCGCCGCCGCGCGTGCAGCCAGCAATCTCGGGGATAAAACCCCTGCGCTTTTGTTTAACAATATTTACGGACATCACGATGCGCAGGTGGCTCTGAATGTCATCGGCTCGTGGCCGAATCACGCGATGATGCTCGGCATGCCGAAAGATACGCCTGTAAAAGAACAATTCTTTGAGTTTGCCAAACGGTACGATGCATTTCCGGTGCCGGTCAAACGGGAAGAAACCGCGCCGTTTCATGAAAATGAAATAACGGAAGATATCAATCTATTTGACATCCTTCCGCTATTCAGAATCAACCAGGGGGACGGCGGCTACTATTTGGATAAAGCGTGTGTCATTTCCCGCGATCTTGAAGATCCGGACAATTTCGGCAAGCAGAATGTCGGTATTTACAGAATGCAGGTAAAGGGAAAAGACCGCCTCGGCATTCAGCCCGTGCCTCAGCATGATATTGCGATTCATCTTCGCCAAGCTGAAGAACGCGGCGTGAATCTTCCCGTTACGATCGCGCTCGGCTGTGAGCCGGTGATTACGACAGCTGCATCAACTCCGCTGTTATACGATCAATCCGAGTATGAAATGGCCGGCGCAATTCAAGGGGAGCCCTACAGAATCGTCAAATCTAAATTGTCTGATTTAGACATCCCTTGGGGCGCTGAAGTCGTTCTGGAAGGAGAGATCCTTGCGGGAGAACGGGAATACGAAGGACCTTTCGGTGAGTTCACGGGCCATTATTCCGGCGGCCGCAGCATGCCGGTGATCAAAATCAAACGGGTATATCATAGAAACAATCCGATTTTTGAACATTTATACTTAGGCATGCCGTGGACGGAGTGCGATTATATGATCGGCATTAATACGTGCGTGCCGCTTTACCAGCAGCTCAAGGAAGCTTATCCGAACGAAATTGTCGCCGTGAACGCGATGTATACGCACGGGCTGATCGCCATTATTTCCACGAAAACGCGCTACGGCGGCTTTGCCAAGGCGGTCGGCATGCGCGCCCTGACCACGCCGCACGGACTCGGCTACTGCAAAATGGTCATTGTCGTGGATGAGGATGTCGATCCGTTTAACCTCCCGCAAGTCATGTGGGCGCTCTCAACGAAAATGCATCCGAAACACGATGCAGTCATCATTCCTGACCTGTCCGTCCTTCCGCTTGACCCGGGGTCTGATCCGGCAGGGATGACACACAAAATGATTCTTGACGCGACAACGCCTGTCGCGCCGGAAACAAGAGGCCATTATTCTCAGCCGCTTGATTCTCCGCTGACAACGAAAGAGTGGGAACAAAAACTGATGGACTTGATGAATCAATAA	MAYQDFREFLAAHEKEGQLLTVNEEVKPEPDLGAAARAASNLGDKTPALLFNNIYGHHDAQVALNVIGSWPNHAMMLGMPKDTPVKEQFFEFAKRYDAFPVPVKREETAPFHENEITEDINLFDILPLFRINQGDGGYYLDKACVISRDLEDPDNFGKQNVGIYRMQVKGKDRLGIQPVPQHDIAIHLRQAEERGVNLPVTIALGCEPVITTAASTPLLYDQSEYEMAGAIQGEPYRIVKSKLSDLDIPWGAEVVLEGEILAGEREYEGPFGEFTGHYSGGRSMPVIKIKRVYHRNNPIFEHLYLGMPWTECDYMIGINTCVPLYQQLKEAYPNEIVAVNAMYTHGLIAIISTKTRYGGFAKAVGMRALTTPHGLGYCKMVIVVDEDVDPFNLPQVMWALSTKMHPKHDAVIIPDLSVLPLDPGSDPAGMTHKMILDATTPVAPETRGHYSQPLDSPLTTKEWEQKLMDLMNQ	PGPT0005435_164	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0005435-bsdC-K01612	NA	NA
D1-12_03258	579	bsdB	COG0163	putative UbiX-like flavin prenyltransferase	ATGAAGCTCGTCATCGGAATGACCGGGGCAACGGGAGCCATATTCGGGATCAGGCTTTTAGAATATTTAAAAGCCGCGGAGATCGAAACCCATCTTGTCGTGTCTCCTTGGGCAAATGTCACCATTACACATGAAACCGATTATACGTTAAAAGATGTCGAGAAACTCGCATCCTATACGTATTCTCACAAAGACCAGGCAGCGGCGATTTCAAGCGGCTCGTTTGAAACGGACGGGATGATCATCGCTCCGTGCAGCATGAAATCACTGGCAAGCATCCGCACCGGAATGGCTGACAATCTGCTGACCAGAGCGGCTGACGTCATTCTGAAGGAGCGGAAAAAACTTGTACTGCTGACAAGAGAAACGCCGCTCAGCCAAATCCATTTAGAAAATATGCTAGCGCTTACAAAAATGGGTTCCGTCATTCTTCCGCCGATGCCGGCATTTTATAACAAGCCGGCTGACATGGATGAATTGATCGACCATATTGTGTTCCGGACGCTCGATCAGTTCGGCATCCGTCTGCCGGAAGCGAAACGGTGGTACGGAATTGAAAAACAAAAAGGAGGAATCTGA	MKLVIGMTGATGAIFGIRLLEYLKAAEIETHLVVSPWANVTITHETDYTLKDVEKLASYTYSHKDQAAAISSGSFETDGMIIAPCSMKSLASIRTGMADNLLTRAADVILKERKKLVLLTRETPLSQIHLENMLALTKMGSVILPPMPAFYNKPADMDELIDHIVFRTLDQFGIRLPEAKRWYGIEKQKGGI	PGPT0009565_1744	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
D1-12_03259	873	gltC_4		HTH-type transcriptional regulator GltC	ATGGATATCCGGCAATTGCGTTATTTCATCACCATTGCCCAAGAGCAGAAAATCACGACGGCCGCCAAAAAGCTTCATATGGCACAGCCGCCTTTAAGCAGACAGCTGAAACAGCTCGAAGAAGAATTGGGCGTCATTCTGTTTGACCGCCATAAAAAGAAACAAATGACCCTTACATATGAAGGAAATGTCTTTTTGAAAAGAGCGAAAGAGATTCTTCATAAGTTTGAGGATGCCATAATCGAGGTACAAGAGCTGAAGGAAGAAGTGGCCGGCACACTTGCCGTCGGGTCAACCATTTACTGCGCAGCGTTCATGCTTGAGAAAGTGTCACAGATGAAAGAGCGGTTTCCGCATCTCACCTTTAACATTTGGGAAGATGAACCCGTCTCACTGCTCGAGCTTCTGGAAACCCGGCAGATTGACGCCGCCGTGACCACCACCTTGATTAAAAACGACGGCATTGAATCGAAGGAGCTTGAAGACATTCCGTGTGTATTGGTGCTGTCCGAGCATTCAAAACGACTGTGCGGTGAAACGATTAAACTGAATGACATCGCCTCTTTGCCTCTGATCCTTTTGCGCACCGTCAATGGAAGAGGTGTGTATGACCAAGTCCTCCAAGTTTGTGAACAGTACGGTCTCGACCTTCAGGTTGTCTGTGAATGTCATGACTCCGCGACGCTTTTGAGCCTCGTATCGTCAGGGTTCGGCGCCACGATTCTGCCTTTGACGATGATTCCCGTCCATATGCGCTCGCATGTCAAAACGGTTATCATCGAAGACAACCCGTTTGTCATGACACCGGCCGTCATCTGGAGGAAAGACAGCTACCTGCCGAAGCCTGTCAGACAGTTTTTGGAATTATTTTGA	MDIRQLRYFITIAQEQKITTAAKKLHMAQPPLSRQLKQLEEELGVILFDRHKKKQMTLTYEGNVFLKRAKEILHKFEDAIIEVQELKEEVAGTLAVGSTIYCAAFMLEKVSQMKERFPHLTFNIWEDEPVSLLELLETRQIDAAVTTTLIKNDGIESKELEDIPCVLVLSEHSKRLCGETIKLNDIASLPLILLRTVNGRGVYDQVLQVCEQYGLDLQVVCECHDSATLLSLVSSGFGATILPLTMIPVHMRSHVKTVIIEDNPFVMTPAVIWRKDSYLPKPVRQFLELF	PGPT0019770_228	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0019770-bsdA-K21755	NA	NA
D1-12_03260	798	tcyA	COG0834	L-cystine-binding protein TcyA	ATGAAAAAAGCATTATTCGCTTTGTTCATGATGGTCAGCATCGCGGTGCTTGCAGCCTGCGGAAACTCACAGGACAGCGGATCTAAGTCAAAAGACGGCGATCTTTGGGCTTCTGTCAAGAAAAAAGGCGTACTGACCGTCGGCACAGAAGGAACGTACGAACCGTTTACCTTCCATGATAAAAAGAGTGACAAACTGACCGGATATGATGTTGAAGTGATTCAAGAAGTCGCGAAACGCCTCGGTCTGAAAGCTGACTTTAAAGAAACACAATGGGACAGCATGTTTGCCGGTTTAAACGCGAAACGGTTTGACGTCGTCGCCAACCAAGTCGGCAAAACAGGCCGTGAGAACCAATATGATTTTTCTGATAAATACACAACGTCAAATGCAGTCGTCGTGACGAAAAAAGACAGCACGATTGCGAAAGAGGCTGATGTCAAAGGAAAAACAGCGGCTCAGTCATTAACAAGCAATTACAATAAATTAGCGAAAGAAGCCGGCGCGAAAATTGAAGGCGTTGAAGGCATGGCGCAATCCCTTCAGCTCATTCAGCAGGGCCGCGCTGATCTGACTTATAACGATAAGCTTGCCGTACTGAACTACTTAAAAACGTCCGGCAATAAAAACGTGAAAATCGCGTTTGAAGCAGGCCAGCCGCAGCAGACGTATTTCGCATTCCGAAAAGGAAGCGGCGAACTTGTGACTCACGTCAACAAAGCGTTAAAAGAAATGAAAGAGGACGGGACTCTTTCTAAAATAGCTAAAAAATGGTTCGGCGAAGATGTTTCTAAGTAA	MKKALFALFMMVSIAVLAACGNSQDSGSKSKDGDLWASVKKKGVLTVGTEGTYEPFTFHDKKSDKLTGYDVEVIQEVAKRLGLKADFKETQWDSMFAGLNAKRFDVVANQVGKTGRENQYDFSDKYTTSNAVVVTKKDSTIAKEADVKGKTAAQSLTSNYNKLAKEAGAKIEGVEGMAQSLQLIQQGRADLTYNDKLAVLNYLKTSGNKNVKIAFEAGQPQQTYFAFRKGSGELVTHVNKALKEMKEDGTLSKIAKKWFGEDVSK	PGPT0015635_1019	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
D1-12_03261	690	tcyB	COG0765	L-cystine transport system permease protein TcyB	ATGCCGGAACCCGTGATTGCAACAGCCATTCCGTGGGATTTGGTGCAGCAGTCATTCTGGCCGATTCTTTCCGGGGGAATCTATTATTCGATTCCCCTTACCATTCTTTCCTTTATTTTCGGAATGATCATCGCGCTGATTACGGCGCTCGCCAGAATGTCAAATATGAAACCATTGAGATGGGTGTTCAGCGTATACGTATCAGCGGTGCGCGGCACTCCTCTTCTCGTTCAATTGTTCATCATTTTTTATCTGTTCCCGACATTTAATATTACGCTGGACCCTTTCCCAAGCGCAGTCATCGCGTTTTCATTAAACGTGGGCGCCTATGCTTCTGAAATCATCCGGGCATCTATTTCATCCGTGCCGAAAGGGCAATGGGAAGCCGGTTATACGATCGGCATGACCTATCGCAAGACATTGTTCCGCGTGATCCTGCCGCAGGCGTTTCGCGTGTCCATTCCGCCATTATCAAATACATTTATCAGCCTGATCAAGGATACATCTCTCGCGTCACAGATTCTCGTCGCGGAGCTGTTCAGAAAAGCGCAGGAAATCGGCGCGCAAAACCTTGATCAAATCTTGGTCATCTATATTGAAGCCGCCTTTATTTATTGGATCATCTGCTTCTTGCTGTCAATCGTACAGCATGTGATCGAACGGCGTCTCGACCGTTATGTGGCCAAATAA	MPEPVIATAIPWDLVQQSFWPILSGGIYYSIPLTILSFIFGMIIALITALARMSNMKPLRWVFSVYVSAVRGTPLLVQLFIIFYLFPTFNITLDPFPSAVIAFSLNVGAYASEIIRASISSVPKGQWEAGYTIGMTYRKTLFRVILPQAFRVSIPPLSNTFISLIKDTSLASQILVAELFRKAQEIGAQNLDQILVIYIEAAFIYWIICFLLSIVQHVIERRLDRYVAK	PGPT0020715_262	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
D1-12_03262	744	tcyC	COG1126	L-cystine import ATP-binding protein TcyC	ATGCTTTCCGTCAAAGGATTAAATAAATCATTCGGACAGAATGAAATTTTAAAAAAGATAGATATGGAGATAGAAAAAGGGAAAGTCATCGCCATTCTGGGACCGTCCGGTTCTGGAAAAACGACGCTTCTGCGCTGTCTGAACGCGCTTGAGATCCCCAATCGCGGCGAGCTGGCATTCTCCGATTTTTCAATAGATTTCTCTAAAAAAGTGAAGCAGGCTGATATTCTCCGCCTCCGCCGCAAATCAGGCATGGTCTTCCAGGCGTATCATCTGTTTCCTCACCGCACGGCGCTTGAAAACGTCATGGAAGGACCCGTTCAAGTGCAAAAGCGCGACAAGGAGAAAGTCAGAAAAGAAGCGATGGAGCTTCTGGAAAAAGTCGGACTGAAAGACAAAATGGATTTATATCCGTTCCAGCTTTCCGGCGGTCAGCAGCAGCGGGTCGGCATCGCCCGCGCGCTTGCGATTCAGCCCGAGCTGATGCTGTTTGACGAACCGACGTCAGCGCTTGATCCGGAGCTGGTCGGCGAGGTGCTCAAAGTGATTAAGGATTTGGCGAACGAAGGCTGGACGATGGTCGTCGTCACCCATGAAATCAAATTCGCGCAGGAAGTGGCCGATGAAGTCATCTTCATTGACGGCGGCGTCATTGTGGAACAAGGACCGCCGGCCCAGATTTTTTCCGCGCCGAAAGAAGAACGCACGCAGCGGTTTTTAAACCGTATACTGAATCCTTTGTAG	MLSVKGLNKSFGQNEILKKIDMEIEKGKVIAILGPSGSGKTTLLRCLNALEIPNRGELAFSDFSIDFSKKVKQADILRLRRKSGMVFQAYHLFPHRTALENVMEGPVQVQKRDKEKVRKEAMELLEKVGLKDKMDLYPFQLSGGQQQRVGIARALAIQPELMLFDEPTSALDPELVGEVLKVIKDLANEGWTMVVVTHEIKFAQEVADEVIFIDGGVIVEQGPPAQIFSAPKEERTQRFLNRILNPL	PGPT0020720_846	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
D1-12_03263	630			hypothetical protein	TTGAAGCGGGAATTCTTGATGCGCTGGACGTTTTATTTTGCCGGTCTGTTGATTTTGTCTTTCGGGGTATCGTTAACCATTAAAGGAAAAGCTCTCGGCATCAGCCCTTGGGATGCCTTTCATTATGGGCTTTTTCAGCATTTCGGGCTTTCTGTCGGACAATGGTCCATCGTGGTCGGCGCGGTCATCGTGGCTTTAACCTGCCTGTTCACGAGGACGCTCCCGAAAATCGGCGCTATCTTAAATATGGTGCTGATGGGAATGTTTATTGATTTCTTTTCGTTTCTGCTTCCTGAGGCGCACGCTTTTTCCTTAGCGGCCGTGTTTTTTTCGATCGGATTGCTGCTAATCGGCTGCGGCGTCGGTATTTACGTATCAGCAGGGCTCGGCGCGGGCCCCCGGGACTCTCTGATGATGCTGATATCTGAAAAAACGGGCTGGAACGTGCAATGGGTGCGGAACGGCATTGAGCTGACGATTCTTGCCGCAGCCTGGATGATGGGCGGGCCGATCGGCGCCGGAACCATTATTACGGCTGTTTTGACGGGGCTGATTCTGCGTTTTTCTTTGCCGCAGTCCTCTAAACTGTTAACATACGCGATCTCCGGGCGGGCAACGTCCGTTCATTAA	MKREFLMRWTFYFAGLLILSFGVSLTIKGKALGISPWDAFHYGLFQHFGLSVGQWSIVVGAVIVALTCLFTRTLPKIGAILNMVLMGMFIDFFSFLLPEAHAFSLAAVFFSIGLLLIGCGVGIYVSAGLGAGPRDSLMMLISEKTGWNVQWVRNGIELTILAAAWMMGGPIGAGTIITAVLTGLILRFSLPQSSKLLTYAISGRATSVH	PGPT0026395_827	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0026395-yczE|yyaS-K07149	NA	NA
D1-12_03264	675	sfp	COG2091	4'-phosphopantetheinyl transferase Sfp	ATGAAGATTTACGGAGTATATATGGACCGCCCGCTTTCTGCAGAGGAAGAGGATCGGATGATGGCGGCCGTGTCCGCCGAAAAGCGGGAAAAATGCCGGCGCTTTTACCATAAGGAGGATGCTCACCGCACCTTGATCGGCGACATGCTGATCCGCACCGCTGCGGCGAAGGCTTACGGACTTGATCCGGCCGGGATTTCATTCAGCGTCCAGGAATACGGAAAGCCGTACATCCCCGCGCTTCCGGACATGCACTTTAACATTTCCCATTCCGGGCGCTGGATCGTGTGTGCCGTTGATTCAAAACCGATCGGCATTGATATTGAAAAAATGAAGCCCGGCACGATTGATATCGCCAAACGTTTTTTTTCGCCGACGGAATACAGTGATCTGCAAGCGAAACACCCCGATCAGCAGACCGATTATTTTTACCACCTGTGGTCGATGAAAGAAAGCTTTATCAAACAGGCCGGAAAAGGGCTTTCCCTGCCGCTTGATTCATTCAGCGTCCGCCTTAAAGACGACGGCCATGTGTCCATTGAGCTCCCGGACGGACATGAACCTTGTTTCATCCGCACATATGATGCGGACGAGGAGTATAAGCTGGCCGTTTGTGCGGCGCATCCCGATTTTTGTGACGGGATTGAGATGAAAACGTATGAAGAGCTGCTGTAA	MKIYGVYMDRPLSAEEEDRMMAAVSAEKREKCRRFYHKEDAHRTLIGDMLIRTAAAKAYGLDPAGISFSVQEYGKPYIPALPDMHFNISHSGRWIVCAVDSKPIGIDIEKMKPGTIDIAKRFFSPTEYSDLQAKHPDQQTDYFYHLWSMKESFIKQAGKGLSLPLDSFSVRLKDDGHVSIELPDGHEPCFIRTYDADEEYKLAVCAAHPDFCDGIEMKTYEELL	PGPT0008845_2186	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008845-LYS5|acpT-K06133	NA	NA
D1-12_03265	1311	hisC_2		Histidinol-phosphate aminotransferase	ATGAATGATGCAGCAAAAGAGCTGAACAGAACATTATCTGAAGAAAACCCGCACGTGCTTCATATGCTTTCTGATTTGGGCAGAGAGTTGTTTTATCCGAAAGGGGTGCTGACACAATCGGCGGAAGCGAAAGCCAAGGCCGGAAAGTATAACGCCACGATCGGGATTGCCACCTCACAAGGCGAGTCCATGCACTTTTCCCATATTCAAGAGACACTGTCCGCCTATAACCCCGATGATATCTACGATTATGCTCCGCCGCAGGGAAAAGAGCCGCTCAGACAGGAATGGCTGAAAAAAATGCGTCTCGAAAATCCTTCATTAGCCGGCAAAGACATCAGCACGCCGATCGTGACAAACGCTTTAACACACGGACTGAGCATTGCTGCCGACTTGTTCGTCAATGAAGGGGATGCGCTGCTTCTGCCTGATAAATATTGGGGAAATTACAATTTCATTTTCGGTGTCCGGCGCAAGGCATCCATTGAGACGTACCCGCTTTTTCAGCAGGATGGGCGTTTTAATGCGGCGGGGCTGTCCGAGCTGCTGAAAAAGCAGGAAGAAAAGGCGATTGTCGTGCTGAATTTCCCGAATAATCCGACAGGCTACACGCCGGGAGAAGAGGAAGCGGCAGAAATCGTCAGCGTGATCTTGGAGGCGGCAGAAGCCGGCAAAGAGATTGTCGTGCTCGTAGACGATGCGTATTACAATCTGTTTTACGATGAAACGGCCATTCAGGAATCCATCTTCAGCAAACTCGCCCAAGTGCACGACCGGGTGCTTTGCGTGAAAATAGACGGCGCGACGAAGGAAAATTACGCATGGGGCTTCCGCGTCGGTTTTATTACGTACAGCACAAAAAGCGAAAAAGCGCTGCGCGTGCTCGAGGAAAAAACGAAAGGGATTATCAGGGGAACGATTTCAAGCGCCCCGCACCCGTCCCAAACATTCATGCTTCGGGCGATGCAGTCACCGGAATACGAGAAAGAAAAATCGCTGAAATATAACATCATGAAAAAACGGGCTGACAAAGTGAAAGCCGTTCTTGCAGAAAACAAGCATTATGAAGACGTATGGACGCCTTATCCGTTTAACTCGGGTTATTTCATGTGTGTCCGGCTGAAAGACATAAACGCCGGCGAATTGAGAGTGTCGTTGCTTGAAAAGAGAGGAATCGGAACGATATCCATTAATGAAACCGATTTGCGAATCGCATTTTCATGTGTTGAAGAAGAACACATCGCGGATCTGTTCGAAGAAATTTATCAAGAAGCAAAGCAGCTGCAGAAACAGGCGGAAATATCAGGCTGA	MNDAAKELNRTLSEENPHVLHMLSDLGRELFYPKGVLTQSAEAKAKAGKYNATIGIATSQGESMHFSHIQETLSAYNPDDIYDYAPPQGKEPLRQEWLKKMRLENPSLAGKDISTPIVTNALTHGLSIAADLFVNEGDALLLPDKYWGNYNFIFGVRRKASIETYPLFQQDGRFNAAGLSELLKKQEEKAIVVLNFPNNPTGYTPGEEEAAEIVSVILEAAEAGKEIVVLVDDAYYNLFYDETAIQESIFSKLAQVHDRVLCVKIDGATKENYAWGFRVGFITYSTKSEKALRVLEEKTKGIIRGTISSAPHPSQTFMLRAMQSPEYEKEKSLKYNIMKKRADKVKAVLAENKHYEDVWTPYPFNSGYFMCVRLKDINAGELRVSLLEKRGIGTISINETDLRIAFSCVEEEHIADLFEEIYQEAKQLQKQAEISG				NA	NA	NA	NA	NA
D1-12_03266	732	srfAD	COG3208	Surfactin synthase thioesterase subunit	ATGGTCCAGCTCTTTAAATCGTTCGATACCACGGAAAAAACGCAGCTTATCTGTTTTCCGTTCGCAGGAGGCTATTCCGCATCATTCCGCCCGCTCCACACCTATCTTCAAGGTGAGTGTGAGATGCTTGCCGCGGAACCGCCGGGACACGGAACAAATCAAATGTCCCCCGTTGAGGATTTTGAACAGCTTGTCAGTTTATACAAGCAGGAGTTGAATCTCCATCCTGACCGCCCGTTTGTGCTGTTCGGCCACAGTATGGGAGGCATGGTCGCTTTCAGGCTGGCGCAAAAGCTGGAGCGGGAGGGCATTTACCCGCAGGCCGTGATCATCTCAGCCATTCAGCCGCCGCATGTGGAAAGGAAAAAAGTGTCTCATCTTGATGATGAAAAATTTCTCGCCCATATTATCGAGCTTGGCGGAATGCCGCAGGAGTTAGTGGAGAATAAGGAGGTCATGTCATTTTTCCTGCCTTCTTTCAGATCCGACTACCGCGCGCTTGAAAGCTTCCGTCCGTCTGATTCTCACATGATTCAATCACCCGTCCATATTTTTAACGGGCGGAAGGATAAAAAATGTATCAAAGATGCGGACGGATGGAAAAAATGGGCCGGCAATCCCGTATTTCATGAGTTTTCGGACGGCCACATGTTCATATTAAGTGAAACTGAAAAAGTGGCGGAACGAATCTATGAGATTATTAACAGGAGCACTGCAGGCCAATTGTTATAG	MVQLFKSFDTTEKTQLICFPFAGGYSASFRPLHTYLQGECEMLAAEPPGHGTNQMSPVEDFEQLVSLYKQELNLHPDRPFVLFGHSMGGMVAFRLAQKLEREGIYPQAVIISAIQPPHVERKKVSHLDDEKFLAHIIELGGMPQELVENKEVMSFFLPSFRSDYRALESFRPSDSHMIQSPVHIFNGRKDKKCIKDADGWKKWAGNPVFHEFSDGHMFILSETEKVAERIYEIINRSTAGQLL	PGPT0009855_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009855-srfATE|srfAD|lchAD-K15657	NA	NA
D1-12_03267	3837	srfAC	COG3319	Surfactin synthase subunit 3	ATGAGCCAATTCAGCAAAGATCAGGTTCAGGACATGTATTATTTGTCGCCGATGCAGGAGGGAATGCTGTTTCATACTCTCCTGAATCCCGGCCAAAGCTTTTATATCGAACAAATGACAATGAAAGTAAAAGGCAGCTTGAATATCAAATGCCTTGAAGAAAGCATGAATGTGATCATGGACCGGTACGATGTATTTCGTACCGTGTTCATTCACGAAAAAGTAAAAAGACCGGTCCAAGTCGTATTGAAAAAACGTCAGTTTCAGATAGAAGAAATCGATCTGACACATGTAACGGACAGCGAGCAAACAGCCAAAATCAATGAATACAAAGAACAGGATAAGATCAAGGGCTTTGATTTGACGCGGGATATTCCGATGCGGGCAGCCATTTTTAAAAAATCGGAAGAAAGCTTTGAATGGGTGTGGAGCTACCACCACATCATTTTGGACGGCTGGTGCTTCGGCATCGTCGTGCAGGATCTGTTTAAGGTATACAATGCCCTGCGCGAACAAAAGCCGTACAGCCTGCCGCCGGTCAAACCGTATAAAGACTATATCAAGTGGCTTGAAAAGCAGGATAAACAAGCATCACTGCATTACTGGCGCGGGTACTTAGAAGATTTTGAAGGACAAACGACATTTGCGGAGCAAAGAAAGAAACAAAAGGACGGCTACGATCCGAAAGAGCTGCTCTTCTCACTGCCGAAGCAGGAAACAAAAGCATTTACCGAGCTTGCAAAATCGCAGCATACCACTTTGAGTACGGCGCTGCAGGCGGTTTGGAGTGTATTAATCAGCCGCTACCAGCAGTCCGGCGATTTGATCTTCGGCACAGTCGTTTCCGGGCGCCCCGCAGAAATCAAAGGCGTTGAACATATGGTCGGGCTGTTTATCAATGCTGTTCCGAGGCGGGTGAAGCTGTCTCGGGATACCACATTTAACGGCTTGCTCAAGCAGCTGCAGGAGCAATCGCTGCAGTCTGAGCCGCATCAATATGTGCCGCTCTATGACATCCAAAGCCAGGCCGATCAGCCAAAGCTGATTGACCACATCATTGTGTTTGAAAATTATCCGCTTCAGGATGCAAAAAATGAAGAGAACAGTGAAAACGGCTTTGATATGGAGGATGTACACGTTTTTGAGAAATCGAATTATGATCTCAACCTGATGGCTTCTCCAGGTGATGAGATGCTGATTAAGCTTGCCTATAACGGGAATGTGTTTGATGAGGCGTTTATCCTGCGCTTGAAATCTCAGCTTCTCACAGCGATTCAGCAGCTCATCCAGAAGCCGGATCAGCTTGTCAATACGATCAGACTTGTTGATGAAAAGGAAAGAGAGCTTCTGCTTACCGGCTTAAACCCGCCGGCTCAGACTCATCAGGCGAAGCCCCTGACGGATTGGTTCAAGGAAGCGGTGAATGTAAATCCTGATGCGCCGGCGCTTACGTATTCCGGCCAGACTCTTTCCTATCGTGAATTAGATGAGGAAGCGAACCGTCTTGCGCGCCGTTTGCAAAAGCAAGGTGCGGGCAAAGGCTCCGTTGTCGCGTTGTACACGAAGCGCTCGCTTGAGCTGGTGATCGGCATTCTCGGCGTATTAAAAGCAGGAGCGGCTTATCTGCCGGTTGATCCGAAGCTGCCGGAAGACCGAATCTCGTATATGCTGGCTGACAGTGCGGCAGCCTGTCTGCTGACACATCAGGAGATGAAAGAAAAAGCGGCTCAGCTGCCGTATACAGGAACAACACTCATCATCGATGATCGGGCACGGTTTGAGGAACAGGCAAGCGATCCTGCAGCCGCAATTGATCCCGATGATCCGGCGTATATTATGTATACGTCCGGCACAACCGGAAAGCCGAAGGGCAATATCACCACTCATGCCAATATTCAAGGATTGGTCAAGCATGTAGATTACATGGCATTTTCTGAACAAGATACGTTCTTATCTGTTTCCAATTACGCCTTTGACGCATTTACCTTTGATTTCTACGCATCAATACTGAATGCGGCACGGCTCATTATCGCAGATGAACATACACTGCTTGATACAGAACGGCTCACTGATCTGATCCGGCAGGAGAATGTCAATGTCATGTTTGCGACAACCGCACTTTTTAATCTTCTCACCGATGCGGGAGAGGAGTGGCTGAAGGGGCTCCGCTGTGTGTTATTCGGGGGTGAGCGCGCGTCAGTGCCTCACGTCAGAAAGGCGCTTGAGATCATGGGGCCTGGCAAGCTGATTAATTGCTACGGGCCGACTGAGGGCACGGTGTTTGCGACAGCTCACGTCGTGCATGATATCCCGGATTCCATTTCCTCATTGCCGATCGGAAAGCCGATCAGCAATGCCAGTGTTTATATTCTGAACGGGCAAAATCAGCTTCAGCCGTTCGGAGCTGTCGGTGAACTGTGCATCAGCGGAATGGGTGTATCAAAAGGGTATCTGAACCGTCCTGACCTGACGAAGCAAACGTTTATCCCAAATCCGTTCAAGCCGGGAGAAACGCTTTACCGCACAGGGGATTTAGCACGCTGGCTGCCGGATGGAACAATTGAATACGCCGGGCGTATTGACGACCAGGTCAAAATACGCGGACACCGGATTGAGCTTGAAGAAATCGAAAAGCAGCTGCAGGAATACCCGGGTGTGAAAGATGCGGTCGTTGTTGCAGACACCCATGAGTCCGGAGATGCATCAATCAATGCCTACCTCGTGAACCGGACGCCGCTTTCAGCTGATGACGTAAAGAGGCACTTGAAAAAACAGCTTCCTGCTTACATGGTGCCGCAAACCTTTACTTTCTTAGAGGAGCTTCCGTTAACGACAAACGGGAAGGTCAATAAACGGCAGCTGCCGAAACCGGATCAGGCTCAGCCGGCGAAAGAATGGATCGGGCCTCGAAACGCGACGGAAGAAACAATTGCGCACATCTGGTCCGACATCCTCGGCAGACAGCAGATCGGGATTCATGATGATTTCTTCGCGCTCGGAGGCCATTCCTTAAAAGCGATGACGGCAGCGTCGCGCATTAAAAAAGAGCTCGGTGCTGATATCCCGGTGCAGCTGTTGTTCGAAGCGACGACAATCGCAGACATTGCCGGTTATCTGCTTCACGGTGAAGAAAAAGGAATGAAAGATCTCACCATCATGAATAAAAATCAGTCTGACACACTGTTTGCGTTCCCGCCGGTTCTCGGTTACGGGCTGATGTACCAGCCGCTGGCAAAACAGCTGTCCGGCTATCGAATCTGCGCGTTTGATTTTATCGAAGAAGACAACCGCATCGAACGCTACACAGAGCTGATCAATCAGCTCCAGCCGGAAGGACCGGTCAAGCTGTTCGGATACTCGGCAGGCTGCACGCTCGCCTTTGAAACGGCCAAACAGCTTGAAGCCGAAGGACGTAAAGTGGAGCGGCTGATCATGGTCGATTCCTATAAAAAACAAGGCGTCAGCGACTTAGAAGGCCGCACCGTAGAAAGTGATGTCCAGGCGCTGATGAAGGTAAACCGGGACAATGAAGCGCTGAATAACGAAGCCGTCAAAGAAGGTCTCGCCAAAAAAACAAACGCGTTTTATTCTTATTTCGTGCATACCGTCAGCACCGGCACGGTCAATGCGGATATAGATCTATTAACGTCAGAACCGGACTTTGCGATGCCGCCGTGGCTCGCTGCGTGGGAGGAAGCCACGACAGGTGAATACCGTGTGAAAAAAGGCTGCGGCACTCACGCAGAAATGCTTCAGGGAGAATGTCTCGAAAGGAATGCGGCATATTTGCTCGAATTCCTAAGGAAGGAACATCTGAAGCTGACAACTTCACGATAG	MSQFSKDQVQDMYYLSPMQEGMLFHTLLNPGQSFYIEQMTMKVKGSLNIKCLEESMNVIMDRYDVFRTVFIHEKVKRPVQVVLKKRQFQIEEIDLTHVTDSEQTAKINEYKEQDKIKGFDLTRDIPMRAAIFKKSEESFEWVWSYHHIILDGWCFGIVVQDLFKVYNALREQKPYSLPPVKPYKDYIKWLEKQDKQASLHYWRGYLEDFEGQTTFAEQRKKQKDGYDPKELLFSLPKQETKAFTELAKSQHTTLSTALQAVWSVLISRYQQSGDLIFGTVVSGRPAEIKGVEHMVGLFINAVPRRVKLSRDTTFNGLLKQLQEQSLQSEPHQYVPLYDIQSQADQPKLIDHIIVFENYPLQDAKNEENSENGFDMEDVHVFEKSNYDLNLMASPGDEMLIKLAYNGNVFDEAFILRLKSQLLTAIQQLIQKPDQLVNTIRLVDEKERELLLTGLNPPAQTHQAKPLTDWFKEAVNVNPDAPALTYSGQTLSYRELDEEANRLARRLQKQGAGKGSVVALYTKRSLELVIGILGVLKAGAAYLPVDPKLPEDRISYMLADSAAACLLTHQEMKEKAAQLPYTGTTLIIDDRARFEEQASDPAAAIDPDDPAYIMYTSGTTGKPKGNITTHANIQGLVKHVDYMAFSEQDTFLSVSNYAFDAFTFDFYASILNAARLIIADEHTLLDTERLTDLIRQENVNVMFATTALFNLLTDAGEEWLKGLRCVLFGGERASVPHVRKALEIMGPGKLINCYGPTEGTVFATAHVVHDIPDSISSLPIGKPISNASVYILNGQNQLQPFGAVGELCISGMGVSKGYLNRPDLTKQTFIPNPFKPGETLYRTGDLARWLPDGTIEYAGRIDDQVKIRGHRIELEEIEKQLQEYPGVKDAVVVADTHESGDASINAYLVNRTPLSADDVKRHLKKQLPAYMVPQTFTFLEELPLTTNGKVNKRQLPKPDQAQPAKEWIGPRNATEETIAHIWSDILGRQQIGIHDDFFALGGHSLKAMTAASRIKKELGADIPVQLLFEATTIADIAGYLLHGEEKGMKDLTIMNKNQSDTLFAFPPVLGYGLMYQPLAKQLSGYRICAFDFIEEDNRIERYTELINQLQPEGPVKLFGYSAGCTLAFETAKQLEAEGRKVERLIMVDSYKKQGVSDLEGRTVESDVQALMKVNRDNEALNNEAVKEGLAKKTNAFYSYFVHTVSTGTVNADIDLLTSEPDFAMPPWLAAWEEATTGEYRVKKGCGTHAEMLQGECLERNAAYLLEFLRKEHLKLTTSR	PGPT0009840_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009840-srfAC|lchAC-K15656	NA	NA
D1-12_03268	10761	srfAB		Surfactin synthase subunit 2	ATGAGCAAAAAATCGATTCAAAAGGTGTATGCACTCACACCGATGCAGGAGGGAATGCTGTATCATGCGCTGCTTGATCCGCATTCTTCCTCCTACTTCACACAATTAGAGCTTAGGATTCACGGAAGCTTTCAGCTTGAGCTTTTTGAAAAAAGCGTCAATGAGCTCATCCGGACATATGACATCCTGCGTACGGTATTCGTGCACCAGCAGCTTCAAAAACCGCGCCAAGTCGTATTAGCAGAGCGGAAGACGAAGGTGCACTATGAAGATATCAGTCAATTAGATGAAGCGCGCCAAACCGAATATATTGAACGCTATAAACGCGATGTGCAGCAGCAGGGCTTTCATCTGGCGAAGGATATTCTCTTTAAAGCGGCGGTGTTCAGGCTCAGTGAGAAGGAGCTGTATCTCGTCTGGAGCAATCATCATATCGTCATGGACGGCTGGAGTATGGGCGTTTTGATGAAAAGCCTGTTTCAAAACTATGAAGCGCTTCGTGCCGGCCGGCCCGCCGGGGGAAACCAGGGCAAACCTTACTCTGACTATATCAAATGGCTCGGAGGCCGGGATTATGAGGAGGCGGAACAATATTGGAGCAGCCGCCTGGCGGATTTCGAACAGCCGAGCCTGCTCCCGGGCCGTCTGGCAGCAGAAAAGAAAGACTACCAAAATGAAGAATATTCTTTTGTCTGGGATGAGGAGCTGGTCGCGCAGATTCAGCAGACCGCCAACCGGCATCAAGTCACGGGGCCTAACCTGTTTCAGGCCGTTTGGGGTGCGGTGCTCAGCAAATACAACTATACAGACGATGTGGTGTTCGGCACCGTCGTATCAGGCCGTCCTTCAGAAATCAACGGCATTGAAACGATGGCGGGGCTGTTCATCAATACGATTCCCGTCAGAATCAAGATTGACAAAGATGCAGCCTTTTCGGACGTGATGGCGGCAGTTCAGAAAAACGCCGTGGAAGCCGAGCGCTATGATTATGTGCCGCTCTATGACATTCAAAAGCGCTCCGCCCTGGACGGCAGCCTCTTGAATCATTTGGTCGCGTTTGAAAACTATCCGCTGGACAAAGAGCTGGAAAACGGGGGCATGGAGGAAAGACTCGGCTTTTCCATTAAAGTGGAACATGCTTTTGAGCAGACGAGCTTTGATTTCAATCTCATCGTGTATCCGGGAAAAACGTGGACTGTCAAAATCAAATACAACGGAGCGGCTTTCGCCCATGATGCCATCGAACGAACGGCGCACCATCTGACCCGCATGATGAAAGCCGCGGTCGGAACGCCTGACGCGCCCGTGCGGGAACTCGGCCTTGTTTCAGGCGAAGAAGAGCGGCAGATTGTTGAGGTATTCAATGATACGAAAACGGCGCTTCCGGAAGAGGAGGCCGTTCACCGTTTGTTTGAAGCACAGGCAAACCGGACGCCTGCAAGTATCGCGATAAAAGAAGCGGGACGCGAATGGACCTACCGTGAAGTGAACGAAGCGGCCAACCGCCTGGCGAGGCGCCTTGTGAAGAGCGGGCTGGAAAAAGGCCGGACCGCCGCTATTATGAACGACCGGTCTGCGGAAACCGTTATCGGAATGCTTGCCGTCTTAAAAGCAGGCGGCGCATATGTGCCGATTGATCCGGCTTTTCCGGAGGACCGTCTCCGCTTTATGGCGGAAGACAGCTCGATTCGGCTCGTGCTGACAGTTCAGGACTATCAAGAACAAGCGGGCGCATTGCAAGTCCCGGTCATCATGCTGGATGAAAGCGCGGATGAAACGGTAAGCGGAACAGACTTGAATCTTCCGGCCGGCGGCAACGACTTGGCGTATATCATGTATACATCCGGATCGACCGGCAAACCGAAAGGCGTCATGATTGAACACAGAAATATCATCAGGCTCGTCAAACATTCGAATTACGTGCCGGTTCATGAAGAAGACCGGATGGCGCAAACGGGAGCCGTCAGCTTTGATGCCGGAACCTTCGAAGTCTTCGGCGCATTGCTGAACGGAGCGTCATTGCATCCGGTGAAAAAAGAGACGCTGCTTGACGCCGGACAATTCGCCCAATTTCTGAAAGAGCAGCGGATCACGACCATGTGGCTGACGTCTCCGCTGTTTAATCAGCTTGCCCAAAAGGATGCCGGCATGTTTAACACGCTCCGGCACCTCATCATCGGCGGTGACGCGCTTGTGCCGCATATCGTCAGCAAAGTGAGGAAGGCATCACCGGAGCTGTCGCTTTGGAACGGCTACGGGCCGACGGAGAATACGACGTTTTCGACGAGTTTTCTCATTGATCAGGACTACGACGGCTCGATTCCGATCGGGAAGCCGATCGGAAATTCCACTGCGTACATTATGGACGAAAACCGCAACCTCCAGCCGATCGGCGCGCCCGGTGAGCTGTGCGTCGGCGGAAGCGGAGTGGCAAGAGGCTATGTGAATCTGCCTGAATTAACGGAGAAGCAGTTTGTCCGCGATCCGTTCAGACCGGATGAAATGATATACCGGACGGGGGACTTGGCGAAGTGGCTTCCGGACGGCACGATCGAGTTTCTCGGCAGAATTGACAACCAAGTAAAGGTCCGCGGTTTCAGAATCGAGCTCGGGGAAATCGAGGCGAAAATCAGCCAGGCGGAGAATGTGACGGAATCTGCGGCTGTGATCCGGAAAAATAAAGCGGATGAAAATGAAATCTGCGCTTACTTTACCGCAGACCGGGACCTTTCACCGGAAGACCTGCGCAAAACGCTTTCGGAATCACTTCCGGAATACATGATTCCCGCGCACTTCATCCAGATGAATCAGTTTCCGCTGACGGCGAACGGAAAGATTGATAAAAAAGCGCTGCCTGAGCCTCAGGCTGAAGCCGTTCAAAAAGAATACGAAGCGCCGAAAACGGAAGCGGAGCAGAAACTCGCGGACATTTGGGAAGGCATTCTCGGTGTAAAAGCGGGTGTGACTGACAATTTCTTCACGATTGGCGGACATTCTTTAAAAGCTATGATGATGACCGCTAAAATCCAGGAGCACTTTCAAAAAGAAGTGCCGATTAAAGTGTTATTTGAAAAGCCGACCATTCAGGAGCTTGCGCATTATTTGGAGCATGAGAGCGAGGAGGAACAGCAGTTTGAACCGATCCGACAAGCGCCTTATCAGAAGCATTATCCTGTTTCCTCAGCACAGCGCAGGATGTATATCCTTAATCAGCTCGGACAGGCCAGCACGAGCTACAACGTCCCTGCTGTACTTCTGCTGGAAGGATCAGTAGACAAAAAGCGTCTTGAAGAGGCCATGCAGGCATTAATCAACCGTCATGAGACACTGCGTACGTCGTTTGACATGGCAGATGGAGAAGTCGTGCAGACCATTCATAAAAATGTGTCGTTTGAGCTTGAAACCGCCGAGGGCCGGGAAGAAGATGCAGAAGAGCTGACAAAAGCCTTTATCAGGCCGTTTGCGCTCAGTCATGCGCCGCTGGTCCGTTCGAAGCTGATCCGGCTTGAAGAAGACCGGCATCTTCTGCTGATTGACATGCACCACATTATTACGGACGGAAGCTCAATGGGCATTTTCATCGGTGATCTTGCGAAGCTTTATCAAGGCACGGAGCTTGAGCTGCCAAAGATTCATTATAAGGATTTTTCAGTCTGGCAGCGTGAAAAAGCAAATCTCGATCAGCACGAAGCCTACTGGGTTGATACGTTCAAAGGCGATCTGCCGGTGCTGGATCTGCCGCTTGATTTCCCGCGTCCTGCCGAGCGCAGTTTTGAAGGGGAACGCGTCATCTTCGGGCTTGATAAACAGGTGACGGCGCAGATTAAGAAGCTGCTGGCTGATACGGATACGACGATGTATATGTTCTTGTTAGCCGCTTTTCAAGTGCTGCTGTCCAAATATTCGGGACAGGAAGACATCATAGTCGGGTCTCCGGCGGCCGGAAGACAGCATCCTGATCTCCAAGACGTGCCGGGCATGTTTGTCAACACCGTGGCGCTTCGGTCGCATCCTGCCGGCAAAAAAACGTTCAAGCAATTTCTGGATGAAGTGAAAACGGCGAGCCTTCAAGCTTTTGAGCATCAAAGCTATCCGCTTGAAGAATTAATTGAAAAACTGCCGTTAACGAGGGACACAAGCCGGAGTCCGCTGTTCAGCGTGTTATTTAATATGCAGAACATGGAGATCCCGGCCCTGCGGCTCGGAGATTTGGAGATTTCTTCTTACTCCATGCATCATCATGTCGCTAAATTTGATCTTTCCTTAGAAGCGGCTGAGCGCGGAGAAGAGGTCGGATTGAGCTTTGATTACGCGAAAGCCTTATTTGCGGACGAAACCATCCGCCGCTGGAGCGCTCATTTTGTCAATCTGATTAAAGCCTGCGCCGAAAATCCGGATATTCAGCTGTCCGACGCAAGCCTGCTGTCCGCTCCTGAGCGGGAAGCGCTCCTTTCTGATGAAAAACGGACGGAAGCGGATCTGCCTGAGGGCACTTTTGTTTCGCTGTTTGAACGGCAAGCGCAAAAAAAGCCTGATCTCACGGCGGTTGCGGGCGAAACAAGTCTGACATATCGTGAGCTTGATGAACGCTCGAACCGGTTTGCCCGCCACCTTCAGGCTTGCGGAACGGGCAGTGAGGACATCGTGGCCATTATGATGGATCGTTCGGCCGACTTGATTACCGCGATTCTCGGCGTCATGAAAGCCGGAGCGGCATTTCTCCCGATTGATCCGGAGACTCCTGAAGAGAGAATCCGCTACTCTCTCGAAGACAGCGGAACGAAGCTTCTGGTCGTCAATGAGAGAAACATGACCGCGGCCGCCGTTTATAAAGGAAAAACGGTCGTAATGGAAGACGGAGAATGGCAGAACGAAAGCGCCGACCGGCTTGAAACGGAGCCCGGCGCCGACCAGCTTGCCTATATCATTTATACCTCGGGAACAACGGGCAAACCGAAAGGCGTCCAGCTGGAGCACCGCAATCTAATCAATTATGTCACATGGTTCAGCCGTGAAGCCGGTTTGACCGAAGCTGACAAATCCGTGCTGCTGTCTTCTTACGCATTTGATCTCGGCTATACGGCCATATTCCCGATTCTTCAGGCGGGCGGCGAGCTGCACATTGTGCCGAAAGAGACGTACACCGCGCCTGATCAGCTTGGTGAGTATATACAGAAAAACGGCATTACGTATATGAAACTGACGCCGTCATTGTTCCATATGATCGTCAATACAGCCCGTTTTACGTCAGAACGCCGTTTCAGCCCGCTTCGTTTAGTGGTGCTCGGCGGAGAAAAGATCATCACGTCCGATGTCCGCAAGTTTCATGACGTATACGCCCATACCGACTTCATCAATCACTACGGGCCGACGGAAACGACGATCGGCGCCATTGCGGAACGGATCAATATGGAGCGTCTTGATCAATATGAGCAGCGTCCCGTCATCGGCCGCCCGATCGCAAATACCGGCGCGCTTGTATTGGACGGAGCAATGCAGCTCGTTCCTCCGGGCGCAAGCGGCGAGCTTTATATTACCGGGAAGGGGCTTGCCAGAGGATATCTTCACCGTCCGCAGCTGACGGCGGAGAAATTTCTCTCAAATCCTTTTTCACCGGACAGCCTGATGTACAAAACGGGAGATGTCGTCCGCAGGCTTCCTGACGGGACGATTGAATTTATCGGCCGTGCGGATGATCAGGTGAAAATCCGGGGCTACCGCATTGAATTAAAAGAGGTTGAAACCGTGCTGTTAAGCGTAAACGGCATTCAGGAGGCGGTCGTTCTCGCAGTCAGCGAAGGCGGGCTGCCGGAACTGTGCGCGTACTATAAAGCCGACAGCGGGCTGAAAGGCTCTGAGCTTCGCAAACGGCTTTCCGAAACACTGCCGTCTCATATGCTTCCGGCTTATTTCGTGCAGGTAGACCGCATTCCGCTCACAGCCAACGGAAAAACCGATAAAAACGCCCTCCCGAAACCGGGCGTCAGCCAAACGGCGCAAACAGCTTCAGCCTTGCCGGAAACGGAATTGGAGGAAAAGCTGTGCCGCATTTGGAAACAGACACTCGGTACGGATACGCTCGGCATCGACGATAATTTCTTCGATTACGGCGGGCACTCTTTAAAAGGCATGATGCTCCTCGCCAATATTCAGGCTGAACTGGACAAAACGGTTCCGTTAAAAGCGCTGTTCGAACAGCCGACTGTCCGCCTGCTTGCCGCATATATCGAAAAATCGGCGGTATCTGAGGGATATCGGATGATCACACCGGCAGACAGTGCAGACGCGTACCCGTTATCATCCGCCCAAAAACGGATGTACGTCCTGAACCAGCTTGACCGGGAGACAATCAGCTATAATATGCCGTCCGTTCTTCTGATGGAAGGAGAAGTCAATATTTCAAGGCTTCAGGAAGCGCTCAATCAGATGATCAATCGCCACGAATCTTTGCGGACGTCCTTTATCGATCAAAAAGGCCAGCCGATGCAGCAGATCGCAGAACAGACTGACATTGACCTGCACATCTTTGAAGCAGCGGACGAGGAGAAGGCGGATCTTATCATTCAGGCATTCATTAAGCCGTTTGATCTGAGTGCGGCTCCGCTCATTCGGGCCGCTCTTGTCAGACTGAATGAAAAGAAACACCTGCTGCTGCTGGATATGCATCATATTATTGCCGACGGCGTGTCCAGAAGCATGCTGGTCAAAGAGCTCGCTCACCTTTACAAAGGCGGAAGTCTGCCGTCGCCGAACCTGCACTATAAAGACTTCGCCGTCTGGCAGAATGAACCCGGGCAGGCCGAACGGATGAAAGACCATGAGCGTTATTGGCTCTCCGCATTTTCCGGCGAGCTTCCTGAATTGAATCTGCCGACCGATTTTCCCCGTCCGCCGGTTCAAAGTTTTAAAGGACAATCCGTCCGTTTCAGAGCGGGACGTGAAACGGAAAAAGCGGTGCGTGAATTAATGGAATCATCGGGAGCGACTCTTCATATGGTGCTTCACGCCGCGTTCCATATCTTTTTGAGCAAAATCACGGGGCAGCGTGATATCATTATCGGCTCGGTGACCGCCGGAAGAACGAGCGCCGAAGTTCAGGAAATGCCGGGGATGTTTGTCAATACGCTTGCGCTTCGCAATGAAACGCGAAAAGAGCAGACCTTCGCCGGGCTGCTCGAACAGGTGAAACAAACCAATCTCGACGCGCTGGCGCATCAGGATTATCCGTTTGAGGATTTGATCGGAAAGCTTGACCTGCCGAGAGATATGAGCCGCAACCCGTTGTTCCAGGTGATGGTGACGACAGAAGATCCGGATAAAGAAACATTGGAACTGGAGAACCTGCGCATCACTCCGTATGAGTCAAACCAAGGCACGGCGAAATTCGATCTGACACTCGGCGGCTTTACGGATCAAGAAGGTCTCGGCCTTCAGTTTGAATATGCGACTGATCTGTTTAAAAAAGAAACCATTGAAAAGTGGAGCGCCGGGTTCCTGCGGATTCTGAAGCAAGCGGCGGAAAGCCCGGACAGAAAGCTGCCTGAGATTTCACTGATCAGCGATACTGAAAAACAAGCCCTTCTTGACGCATGGAAAGGAAAAACACTCTCTGTGCCGCGGGACAAAACGGTTCACCGTCTCTTTGAAGAAACGGCCGCCCGCCATGCGAACCGGCCGGCCGCGGCATATAACGGCGCGAAATGGACGTACGGCGAGCTGAACGCAAGGGCGAACCGGATCGCGCGCATTCTCATGGACTGCGGCGTCACGGCTGACGAACGTGTCGGCATTTTGACGAAACCGTCCTTGGAAATGGCCGCGGGCGTACTCGGCGTCTTAAAAGCGGGCGCGGCATTTGTGCCGATTGACCCCGACTACCCGGAAGAGCGCATCAGCTACATTCTGCAGGACAGCGGCGCCAAGCTTCTTCTCACACAGGAAGCGCTCGACGTGCCGGATGGCTACAAAGGTGAAACGATCCTGCTTGACGGCAGCCGCTCCATTCTGAGCCTGCCGCTTGATGAAAACGATGAAGCGAACCCGCAGACGGAAACAACGGCGGATCATCTCGCTTATATGATTTACACGTCAGGAACGACCGGACAGCCGAAGGGTGTCATGGTCGAACACCATGCGCTTGTGAACCTGTGCTTCTGGCACCACGACGCATTCGCCATGACGGCGGATGATAAAAGCGCCAAATACGCGGGCTTCGGTTTTGACGCCTCCATCTGGGAGATGTTCCCGACATGGACCATCGGCGCGGAACTTCACGTCATTGACGAAGCGATCCGGCTGGATATCACCCGCTTAAATCACTATTTCGAAGAGCACGGCGTGACCATCACCTTCCTGCCGACGCAGCTCGCCGAACAATTTATGGAGCTGGAAAATACCTCTCTCCGCATGCTTCTCGTCGGCGGCGATAAGCTGAAGCGGGCGGTGAAACAGCCGTACACGATCGTCAACAACTACGGCCCGACGGAAAACACCGTCGTCGCGACAAGCGGCGTCATCAATCCGGAGGAAGGGTCGCTTTCGATCGGACGGGCGATTGCCAATACGAGAGTTTATATTCTCGGCGACGGAGATCAGGTGCAGCCGGAAGGCATTGCCGGTGAATTGTGCGTGGCCGGCCGCGGTCTGGCGCGCGGATACCTGAACCGTGAAGAAGAAACGGCGAAGCGGTTTACCGCAGATCCGTTAGTGCCCGGCGAGCGCATGTACCGGACCGGCGACCTCGTCAAATGGAACGCGCAGTGCGGGATCGAATACATCGGCCGTATCGACCAGCAGGTCAAAGTGCGGGGCTACCGGATCGAGCTTTCAGAAATCGAAGTCCGCCTCGCCCAGCTTGCGGACGTTCATGACGCAGCGGTGACGGCGGTGGAAGACAAAGCGGGCAATACCGCGCTTTGCGCCTATGTCGCGCCTCAGCAGGACGATATTGAAGCGCTCAAAGCCGCGCTGAAAGACACGCTGCCTGACTACATGGTGCCGGCGTTCTGGGTGGAGATGGACGAGCTTCCGGTCACCGCAAACGGCAAGATTGACAAAAAAGCCTTGCCGGCGCCTGACATTGAAGCGGGAAGCGCCGCGTACAAAGCGCCGGAAACGGAGATGGAGACGCTGCTTTCTGACATTTGGCAGGAAGTGCTCGGTCTTGACCAGATCGGCGTAAGCGATAATTTCTTCACGCTCGGCGGCGACTCGATCAAAGGCATCCAAATGGCGAGCCGCCTGAACCAGCACGGCTACAAATTGGAGATGAAAGACCTCTTCCAGCACCCGACCATCGAAGAACTCGTCTCTTATGTGGAGCGGACGGAAGGCAAGCAGGCCGACCAGGGACCTGTCGAAGGCGAAGCGGAGTTAACGCCGATCCAGCGCTGGTTCTTTGAGAAAAACTTCACGGACAAACACCGCTGGAACCAATCCGTCATGCTTCACGCGAAAGACGGCTTTGATCCGGACCTGGTGGAAAAAACCCTGCAAGCATTGATTGAACACCATGATGCGCTCCGCATGGTTTACCGTGAAGAAAGGGAAGGCATCATTCAGACATACCTCCCTGTCACAGAATGCAAGGCAAGCTTTGACATCGTTGATCTGTACGGAACTGACGAGGATATGCTGAAAAGCCAGATTCAGCGGCTTGCCGATCATCTTCAGGGCAGTCTTGATCTGGAGAACGGCCCGCTGTTAAAAGCGGAGCAATACCGGACAGAACAAGGCGATCATCTGTTAATCGCGGTTCACCATCTCGTCGTGGACGGGGTTTCATGGAGAATTCTGCTTGAGGATTTCGCTTCAGGTTATAAACAGGCGCAGCAGCAAAACAGCATCGTCCTCCCGCAAAAAACCCACTCCTTTAAAGATTGGGCGGAGGCGCTGAACACATTTGCGCAATCAGAAGAGCTGAAAAAGCAGGCGGATTATTGGGCACAGGCAGATGCGGAAGAACTCCGGCCGCTGCCGAAAGACCATGATCCGAACAAACGGCTCGTCAAACATACGGCGGCCGTGAAATGTGAATTAACTGAGGAAGAAACGGCACAGCTGCTTACAGATGTTCATCATCCGTACGGAACGGAAATCAACGACATTCTGCTCAGCGCGCTCGGCTTAACGATCGGTGAATGGACGGAAAACGGCAAAGTCGGCATCAACTTAGAAGGACACGGCCGGGAAGAAATCATACCGAATGTCAATATTTCACGGACGGTCGGCTGGTTTACTGCCCAATATCCTTTGATTCTGCAAATCAGCAAGGAAGACGGCGTCTCTTCCGTCATTAAAACGGTAAAAGAGACGGTGCGGCGCGTTCCTGATAAAGGTGTAGGATACGGGATTCTCCGGTATCTGTCATCCGATGAAACAGAACAAGGCGCCGCGCCTGAAATCAGTTTTAACTACTTAGGGCAGTTTGACAATGAAGTGAAAACGGAATGGTTTGAGCCGTCTCCATATGATATGGGACGTCAAGTCAGCGAAGAGTCAGAGGCGTTATACGCACTGAGCTTCAGCGGGATGGTTACAGGCGGCCGCTTCGTCATTTCCTGCTCATACAATCAGGAAGAATATGAAAGAAGCACCGTCGAAACACAGATGCAGCGGTTTAAAGACAATCTCTTAATGATCATCCGCCATTGCACGGCCAAAGAAGAGAAAGAATTTACGCCGAGCGATTTCAGCGCGCAGGATCTTGAAATGGATGAAATGGGAGACATCTTTGACATGCTTGAGGAGAATTTAACGTGA	MSKKSIQKVYALTPMQEGMLYHALLDPHSSSYFTQLELRIHGSFQLELFEKSVNELIRTYDILRTVFVHQQLQKPRQVVLAERKTKVHYEDISQLDEARQTEYIERYKRDVQQQGFHLAKDILFKAAVFRLSEKELYLVWSNHHIVMDGWSMGVLMKSLFQNYEALRAGRPAGGNQGKPYSDYIKWLGGRDYEEAEQYWSSRLADFEQPSLLPGRLAAEKKDYQNEEYSFVWDEELVAQIQQTANRHQVTGPNLFQAVWGAVLSKYNYTDDVVFGTVVSGRPSEINGIETMAGLFINTIPVRIKIDKDAAFSDVMAAVQKNAVEAERYDYVPLYDIQKRSALDGSLLNHLVAFENYPLDKELENGGMEERLGFSIKVEHAFEQTSFDFNLIVYPGKTWTVKIKYNGAAFAHDAIERTAHHLTRMMKAAVGTPDAPVRELGLVSGEEERQIVEVFNDTKTALPEEEAVHRLFEAQANRTPASIAIKEAGREWTYREVNEAANRLARRLVKSGLEKGRTAAIMNDRSAETVIGMLAVLKAGGAYVPIDPAFPEDRLRFMAEDSSIRLVLTVQDYQEQAGALQVPVIMLDESADETVSGTDLNLPAGGNDLAYIMYTSGSTGKPKGVMIEHRNIIRLVKHSNYVPVHEEDRMAQTGAVSFDAGTFEVFGALLNGASLHPVKKETLLDAGQFAQFLKEQRITTMWLTSPLFNQLAQKDAGMFNTLRHLIIGGDALVPHIVSKVRKASPELSLWNGYGPTENTTFSTSFLIDQDYDGSIPIGKPIGNSTAYIMDENRNLQPIGAPGELCVGGSGVARGYVNLPELTEKQFVRDPFRPDEMIYRTGDLAKWLPDGTIEFLGRIDNQVKVRGFRIELGEIEAKISQAENVTESAAVIRKNKADENEICAYFTADRDLSPEDLRKTLSESLPEYMIPAHFIQMNQFPLTANGKIDKKALPEPQAEAVQKEYEAPKTEAEQKLADIWEGILGVKAGVTDNFFTIGGHSLKAMMMTAKIQEHFQKEVPIKVLFEKPTIQELAHYLEHESEEEQQFEPIRQAPYQKHYPVSSAQRRMYILNQLGQASTSYNVPAVLLLEGSVDKKRLEEAMQALINRHETLRTSFDMADGEVVQTIHKNVSFELETAEGREEDAEELTKAFIRPFALSHAPLVRSKLIRLEEDRHLLLIDMHHIITDGSSMGIFIGDLAKLYQGTELELPKIHYKDFSVWQREKANLDQHEAYWVDTFKGDLPVLDLPLDFPRPAERSFEGERVIFGLDKQVTAQIKKLLADTDTTMYMFLLAAFQVLLSKYSGQEDIIVGSPAAGRQHPDLQDVPGMFVNTVALRSHPAGKKTFKQFLDEVKTASLQAFEHQSYPLEELIEKLPLTRDTSRSPLFSVLFNMQNMEIPALRLGDLEISSYSMHHHVAKFDLSLEAAERGEEVGLSFDYAKALFADETIRRWSAHFVNLIKACAENPDIQLSDASLLSAPEREALLSDEKRTEADLPEGTFVSLFERQAQKKPDLTAVAGETSLTYRELDERSNRFARHLQACGTGSEDIVAIMMDRSADLITAILGVMKAGAAFLPIDPETPEERIRYSLEDSGTKLLVVNERNMTAAAVYKGKTVVMEDGEWQNESADRLETEPGADQLAYIIYTSGTTGKPKGVQLEHRNLINYVTWFSREAGLTEADKSVLLSSYAFDLGYTAIFPILQAGGELHIVPKETYTAPDQLGEYIQKNGITYMKLTPSLFHMIVNTARFTSERRFSPLRLVVLGGEKIITSDVRKFHDVYAHTDFINHYGPTETTIGAIAERINMERLDQYEQRPVIGRPIANTGALVLDGAMQLVPPGASGELYITGKGLARGYLHRPQLTAEKFLSNPFSPDSLMYKTGDVVRRLPDGTIEFIGRADDQVKIRGYRIELKEVETVLLSVNGIQEAVVLAVSEGGLPELCAYYKADSGLKGSELRKRLSETLPSHMLPAYFVQVDRIPLTANGKTDKNALPKPGVSQTAQTASALPETELEEKLCRIWKQTLGTDTLGIDDNFFDYGGHSLKGMMLLANIQAELDKTVPLKALFEQPTVRLLAAYIEKSAVSEGYRMITPADSADAYPLSSAQKRMYVLNQLDRETISYNMPSVLLMEGEVNISRLQEALNQMINRHESLRTSFIDQKGQPMQQIAEQTDIDLHIFEAADEEKADLIIQAFIKPFDLSAAPLIRAALVRLNEKKHLLLLDMHHIIADGVSRSMLVKELAHLYKGGSLPSPNLHYKDFAVWQNEPGQAERMKDHERYWLSAFSGELPELNLPTDFPRPPVQSFKGQSVRFRAGRETEKAVRELMESSGATLHMVLHAAFHIFLSKITGQRDIIIGSVTAGRTSAEVQEMPGMFVNTLALRNETRKEQTFAGLLEQVKQTNLDALAHQDYPFEDLIGKLDLPRDMSRNPLFQVMVTTEDPDKETLELENLRITPYESNQGTAKFDLTLGGFTDQEGLGLQFEYATDLFKKETIEKWSAGFLRILKQAAESPDRKLPEISLISDTEKQALLDAWKGKTLSVPRDKTVHRLFEETAARHANRPAAAYNGAKWTYGELNARANRIARILMDCGVTADERVGILTKPSLEMAAGVLGVLKAGAAFVPIDPDYPEERISYILQDSGAKLLLTQEALDVPDGYKGETILLDGSRSILSLPLDENDEANPQTETTADHLAYMIYTSGTTGQPKGVMVEHHALVNLCFWHHDAFAMTADDKSAKYAGFGFDASIWEMFPTWTIGAELHVIDEAIRLDITRLNHYFEEHGVTITFLPTQLAEQFMELENTSLRMLLVGGDKLKRAVKQPYTIVNNYGPTENTVVATSGVINPEEGSLSIGRAIANTRVYILGDGDQVQPEGIAGELCVAGRGLARGYLNREEETAKRFTADPLVPGERMYRTGDLVKWNAQCGIEYIGRIDQQVKVRGYRIELSEIEVRLAQLADVHDAAVTAVEDKAGNTALCAYVAPQQDDIEALKAALKDTLPDYMVPAFWVEMDELPVTANGKIDKKALPAPDIEAGSAAYKAPETEMETLLSDIWQEVLGLDQIGVSDNFFTLGGDSIKGIQMASRLNQHGYKLEMKDLFQHPTIEELVSYVERTEGKQADQGPVEGEAELTPIQRWFFEKNFTDKHRWNQSVMLHAKDGFDPDLVEKTLQALIEHHDALRMVYREEREGIIQTYLPVTECKASFDIVDLYGTDEDMLKSQIQRLADHLQGSLDLENGPLLKAEQYRTEQGDHLLIAVHHLVVDGVSWRILLEDFASGYKQAQQQNSIVLPQKTHSFKDWAEALNTFAQSEELKKQADYWAQADAEELRPLPKDHDPNKRLVKHTAAVKCELTEEETAQLLTDVHHPYGTEINDILLSALGLTIGEWTENGKVGINLEGHGREEIIPNVNISRTVGWFTAQYPLILQISKEDGVSSVIKTVKETVRRVPDKGVGYGILRYLSSDETEQGAAPEISFNYLGQFDNEVKTEWFEPSPYDMGRQVSEESEALYALSFSGMVTGGRFVISCSYNQEEYERSTVETQMQRFKDNLLMIIRHCTAKEEKEFTPSDFSAQDLEMDEMGDIFDMLEENLT	PGPT0009850_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009850-srfAB|lchAB-K15655	NA	NA
D1-12_03269	10755	srfAA	COG0318	Surfactin synthase subunit 1	ATGGAAATAACTTTTTATCCTTTAACAAATGCTCAAAAACGTATCTGGTATACAGAAAAATTCTATCCGAACACAAGCATTTCAAATCTAGCCGGCTTCGGGAAACTCATTTCTGAAGACGGCGTACAGGCTCATTACGTTGAGAAAGCGATACAGGAATTCGTCCGGCGGTATGAGTCGATGAGAATCCGTATGCGGCTTGATGATGAGGGGGAGCCCGTTCAATATGTGAGCGAATACCGTCCGCTCTCTATCGGGCACACGGATATCAGGCAAGCCGGCTGCTCTGCGGACGAGCTGTCCAAATGGGGGCGTGAAGAAGCTGGCAAGCCTCTGGCGTTATATGATCAGGATTTATTCCGTTTTTCCGTGCACACGATCAGTGAAAATGAGGTCTGGTTTTACGCTAATGTGCATCACATTATTTCAGACGGGATTTCCATGACAATTCTGGGCAATGCGATTACTGATATTTATTTGGAGCTTTCAGGCGGGACAAGTGAGGAACAGACGGAGATTCCTTCTTTTATTGAGCACGTGCTGACAGAGCAGGAATATGTGCAGTCGAAGAGGTTTAAAAAGGATCGGGATTTTTGGAACGGGCAGTTTGAGACCGTGCCGGAGCTTGTGTCCCTGAAACGGAGCCAGGCAGATGCGGGTCTTAATGCGAAACGGTTTTCTCAAGAAATTCCTCACGACTTATATGGCCGCATTCATTCATTCTGCGAGGAGCATAAAGTCAGCGTACTGTCTCTGTTCCAGTCAGCTCTGATCACTTATCTCTACAAAGTGACCGGTCGTGATGACGTTGTCACGGGTACGTTTATGGGAAACCGGACGAATGCGAAAGAAAAGCAGATGCTCGGGATGTTCGTATCTACGGTGCCTGTGCGGACAAGCGTTGACGGAGGACAGTCGTTCTTGGAATTCGTTAAAGGCCGGATGAAGGATCTGATGAAAATTCTCCGCCACCAAAAGTATCCGTATAACCTGCTTGTCAATGATTTGCGCGCTTCGAAAAGTTCGCTGAGCAGATTGTTTACGGTGGCTCTGGAGTACCAGGTGATGCAGTGGCAGAAAAAAGAGAATCTGTCCTTCCTGACAGACCCTATTTTCAGCGGAAGCGGTACAAATGATATTTCAATTCATGTGAAGGAACGATGGGACACCGGGAAATTGACAATTGATTTTGACTATCGCAGCGACATTTTCAAGGGGGAAGAGATTGAATCTGTTTCTGAACGTTTGATCACGCTGATTGAAGATGCGATTTCATCTCCTGATCGCATAATTGATGAACTTACTCTTCTTTCTGAATCCGAGAAAGAGCGGCTGCTGAAACGGGCCTCCGGCAATCCGGTGAATTACCGCAAGGAGATGACGATTCCGGGGCTGTTTGAAGAGAAAGTGAAGTCACTGTCTGACAAACCCGCGGTTGTGTATGAAGGCCGAACATTGTCCTATCGCACATTGCATGAACAGTCAGGACGTATTGCCGGACGTCTTCTTCAAGCCGGGATATCAGCCGATTCTCCTGTCGCGGTGCTGCTTGGCCGTTCTGAGCGTGTCATTGCGGCAATATTGGGAATTTTGAAAGCGGGCGGCGCCTATGTGCCGATAGATCCTGACTTTCCAGCGGATCGGATTCAGTACATTTTGGAGGACAGCGGAGCGAAGGCTGTTCTGACGGAAGCCGGAATACAGGCGCCTGCAGCGGATGCCGAACGGATTGATTTTGACGAGGCTGTTCAGTATGAGACGGCTGCGGACGGTGTCAGCACACAATCAGACCGGCTGGCTTACATCATCTACACGTCAGGTACAACGGGGCGGCCGAAAGGCGTGATGATTGAGCACCGGCAAGTTCATCATCTGGTGCAATCACTGCAGCAGGAGATTTATCAATGCGGTGAGCAGACATTAAGAATGGCGCTTTTGGCTCCGTTTCATTTTGATGCGTCCGTCAAACAGATATTCGCCTCGCTTCTTTTGGGACAGACGCTTTATATCGTGCCGAAAACGACTGTAACGAATGGCTCGGCACTGCTGGACTATTATCGTCAAAACCGGATTGAAGCCACTGACGGAACGCCTGCGCATCTGCAGATGATGGTTGCGGCGGGAGATGTCAGCGGAATTGAACTCAGCCACATGCTCATTGGGGGAGAGGGCCTGTCCGCGGCTGTTGCTGAACAGCTGATGACGCTCTTTCATCAATCGGGCAGGACGCCGCGTCTGACGAATGTCTACGGGCCGACAGAAACGTGCGTAGATGCGTCCGTGCATCAGATGTCAGCCGATAACGGAATGAATCAACAGGCGGCGTACGTTCCGATCGGAAAACCGCTCGGCAACGCCCGTCTGTATATATTGGATAAGCACCAGCGGCTTCAGCCCGACGGCACGGCCGGTGAGCTGTATATCGCGGGTGATGGTGTAGGCCGCGGCTATTTAAATCTTCCGGATTTGACCGCAGAGAAGTTTTTGCAGGACCCGTTTAACGGAAGCGGCCGCATGTACCGCACGGGTGATATGGCGCGCTGGCTGCCGGACGGGACGATCGAATATATCGGCCGTGAAGATGATCAGGTGAAAGTCCGCGGCTACCGTATTGAGCTGGGAGAAATTGAAACGGTGCTCAGAAAAGCTCCGGGCGCGGCGCAGGCCGTCGTGCTGGCACGGCCGGATCAGCAGGGCAGCTTAGATGTCTGCGCATATATCGTTCAGGAAAAAGGAACCGAGTTTCACCCTGCCGAGTACAGGGAGTATGTGTCCAAGCACCTTCCTGATTACATGGTGCCCGCTTACTTTACAAAAACGGACGAAATTCCGCTCACGCCGAGCGGGAAGGCGGACCGCAAAAAGCTGTTTGCGCTTGATGTGCAGGCTGTCAGCTCATCCGAATATGCCGCGCCGAGAAATGAAACGGAGGAAATGCTCACCGTCATCTGGCAGGAAGTCCTCGGAATGGACAAGGCGGGCATTTATGATCATTTCTTCGAGTCAGGCGGTCATTCATTAAAGGCAATGACGCTTCTGACGAAAATTCATAAGCAAATGGGCGTTGAAATTCCGCTGCAATACTTGTTTGAGCATCCGACGATTGCGGCGCTTGCCGATTATGCGGAAAACCGAAACGAAGGACCGGCATTCAGTGCAATTGAGCCGGCTGAGAAGCAGGCGAGCTATCCGCTTTCGCTCGCTCAGCAGCGGACTTATATCGCAAGCCAATTTGAAGACGCGGGAGTCGGATATAACATGCCGGCTGCGGCCATGATTGAGGGCGCTTTAGACCGTGAAAAGCTTGAGCGTGCATTTTCTGCCTTAATCAGCAGGCATGAAGCGCTCAGAACATCGTTTCAATCAGAGGACGGCACGCCGAGACAAGTGATTGGCGAGCATGTTCCGTTTCATATTGAAATGATCGAAGCGCGCGGAAGAACGAATGAACAGGTCATGAAGGACTTTGTGCGCCGTTTTGATTTATCTGAGGCGCCGCTGTTCAGAATCGGCCTGCAAACGCTCGGTCACAATAGCCATCTGCTGCTGTTTGATATGCATCACCTGATTTCTGACGGGGTGTCTATTTCCATCATGCTGAAGGAACTGGCTGACATCTACGGGGGAAATCAGCTGCCTGAATTGCGCATTCAATATAAAGATTATGCCGTATGGCAGGCGGAACGGGCGAAAGAAGGCTACAAGAAGGAGCGGGCGTACTGGAAAGAAGTCTTCAGCGGGGAACTGCCGGTGCTTCAGCTGCTCCCTGATTATCCGCGGCCGCAGGTGCAAAGCTTTGAAGGTGACCGCGTGTCCGTCAAGCTGCCGAAAATGCTGCGGGAACGGCTGCAGAAGCTTGCCGAGAAAAACGGAGCCACCCTTTACATGGTGCTGTTATCGGCATACTATACGCTGCTTTCTAAGTATTCAGGACAGGAAGACATCATCGTGGGAACACCATCAGCGGGAAGAAACCACTCTGATACCGAGGGGCTTATCGGGATGTTTGTCAACACGCTTGCGCTGCGAAGCTCCGTGAAGCAGGGTCAGACATTTGCCGGCTTGTTAGGTCATGTGCGCAAGCAGGTGCTGGATGCGTTTTCCCACCAGGATTATCCGTTTGAGTGGCTGACCGAGGAGCTGAACGTACCCCGGGACATGAGCAGGCATCCGATATTTGACACGATGTTCAGTCTGCAAAATGCTTCGGACGGAATTCCGGAGATCGGTAATCTGACGCTGGCTCTTTATGAAACAAACTTCAATATCGCCAAATTCGACCTGACCATGCAGGCCCGGGAAACAGCGGAAGGCATTGCGCTTGATTTGGATTATTGCACGAAGCTGTTTAAGCGCTCAACTGCGGATCGCATGCTTGCGCACTATGTCCGTCTGCTGGAGAGAGCGGCAGCTCAGCCGGATGCGAAAATCAGCGAATATGATCTGCTTTCTGAACGGGAGGCTTTGACTCAATTACAGCGGTTCAACCCGGAACGCACGGCATACCCGAAAGAGCAAACGATCGTGCAGATCTTTGAAGAACAAGCCCGAAAGAACCCTGACCGGACGGCTCTTCAGTTCGAAGGGGAAACCCTGTCGTATCAGCAGCTGAATGAACGCGCCAACAGGCTTGCGCGGCATATTCTTTCGGTCGGAGGCGGCGGAAAAACAGCGGCTGTTCTGTGTGAACGGTCAATGGATATGATTGTTTCCATTATGGCTGTGTTAAAAGCGGGGTCCGCCTATGTGCCGATTGATCCTGAGCATCCGGTTCAGCGGATTCAGCATTTCTTCCGCGACAGCGGGGCGAATGTGCTCATGACTCAGCAAAGCCTCAAGCCGCTTGCGGAAAAGGCCGGTTTTCAAGGCGTCATTGTGCTTGCTGATGATGAGGCGAGCTATGAAAAGGACTCTCGCAATCCAGCATTGCCGTTTGATTCCAAAACGATTGCCAATCTCACTTATACATCAGGCACGACGGGAACGCCGAAAGGAAACATCGTCACACATGCCAACATTTTGCGGACGGTAAAAAACACGAACTATTTGACTGTTTCTGAAGAGGACACAGTGCTCGGTCTGTCAAACTACGTCTTTGACGCTTTTATGTTTGATATGTTCGGTTCGCTGTTAAACGGTGCAAAGCTTGTGATCGTCCCGAAAGATACGGTGCTGGATATGTCACGCCTGTCCCGTGTGATCAAACGGGAGAACGTCAGCATTCTGATGATTACGACGGCCCTGTTCCACCTGCTTGTTGATATGGAGCCGTCCTGTCTGACGACGCTTCGGAAAATCATGTTCGGGGGCGAAAGAGCGTCTGTAGAACATGTCAAAAAAGCGCTGGCGGCAGTCGGAAAAGGAAGACTGCTTCATATGTACGGCCCGTCGGAAAGCACGGTGTTTGCGACATACCATCCGGTGGATGTCATTGAAGAGGATACGCTCTCCGTTCCGATCGGGAAACCGGTCAGCAATACGGAAGTCTTTATTATGAACTCAGCCGGACGCATTCAGCCGGCGGCTATCGCGGGAGAGCTGTGCGTCAGCGGGGAAGGTCTCGTAGAAGGGTACTACAACCGTCCTGAACTGACGGAAGAAAAATTTGTAGAGCATCCGTTTAAGGAAGGTGAACGGATGTATAAAACGGGCGACTTGGCCAGATGGCTTCCGAATGGCGATATCGAGTTTATCGGACGTATCGATCATCAGGTGAAAATCCGCGGTCAGCGGATTGAGCTTGGCGAAATTGAGCATCAGCTCCAAAGCCATGACCAGATTCAGGAATGCATTGTGCTCGCTGTGGATCAGGGCGCGGGTGACAAACTTCTTTGCGCGTATGTTGTCGGCCTCCGAGAAATCTCTTCCCGGGAGCTGAGGGAGCATACGGCGAAGGATCTTCCGGCTTATATGATTCCGTCCGTCTTTATTCAATTGGATGAACTGCCTCTTACAGGGAACGGAAAAATCGACAGACGGGCGCTGCCGATGCCGGATGTGACCGCAGCGAATGCCGTGGCATATACGGCGCCGCGCAATGAAACAGAACAAAAACTGGCGGATATTTGGGCTGAGGTGCTGCAAATGGAACGTGTCGGCGTCCATGATCAGTTCTTTGAGATCGGGGGCCACTCGTTAGCGGGGATGAAACTGCTGGCCCTTATCCAGAAGACATTCGGCGTGCAGCTTACCTTAAAGGATCTGTTCACTTCTCCGACAGCTGCGGGGCTGGCGCAGCTGATTGAAGGGGCTGAGCGGAAGGCGGCTGAGAGCATCACACCGGCGGCCGAGCAGGAAACGTATCCGGTTTCTTCACCGCAGAAGCGGATGTTCGTGCTCCAGCAGCTGGAGGGCGCTGAAACAAGCTATAACATGCCGTCTGTGCTCCGCTTAAAAGGAAAGCTTGATGCAGAAAAGCTGAAATCCGTTATAAAACAGCTGACAGAACGCCATGAAGCCTTCAGAACGACATTTGACATAAAGGATGGAGAAACGGTTCAGCGTATATGGGCGGAAGCTGATATCGACATGGAATATTATGAAGCCTCTGAAGAAGATGCTGAACAGATTATTCAGAGCTTTATCCGGCCGTTCCGTCTGGATCAGCTTCCTCTCGTCAGAACGGGACTGGTCAAGCTGGCTGAACATGACCACCTGCTGCTGTTTGATATGCACCATATCATTTCGGACGGCGCTTCAGTCGGCGTGCTGATAGATGAACTGTCCCGCTTGTATGGCGGCGAAACGCTTGAGCCGCTGCGGATTCATTATAAAGACTATGCGGTATGGCAGCAGAAATTTATTCAATCAGAGCAGTACCGCAAGCAGGAGGAGCATTGGCTTCGGGAGCTTGACGGCGAGCTTCCGGTATTGACGCTGCCGGCTGATTACAGCCGTCCGGCCGTGCAAACCTTTGAAGGAGACAAGCTGGTCTTTTCTCTGACTGAGGAACAGACGTCGGCTCTTCGCAGTCTTGCGAAACAAACGGATTCTACCATGTACATGGTGCTGCTGGCGTCATACAGCGCCTTTCTCTCAAAACTGAGCGGACAGCATGACATCATTGTCGGCTCGCCGGTTGCGGGACGATCACATGCGGATCTCGCAAACGTCATCGGTGTTTTTGTGAATACACTCGCGCTTCGTACGTATCCGGAAGCGGACAAAACGTTCACGGACTATCTTAAAGAAGTAAAACAAACCGCTTTACATGCATTTGACGCGCAGGATTATCCGCTTGAAGACCTTCTGCAAAAGGTTGAGGTGCAGCGTGATACGAGCCGAAATCCGCTGTTTGATGCGGTATTCTCAATGCAAAATGCAAATGCTGAAGATCTGGTCATGGAAGGAATTGAGCTGAAGCACCATCCGTTTGACAGAAAAACAGCCAAGTTTGACCTGACAATGACGGCTGAGGACACAGGCGAAGGCTTAACGTTTGTGCTTGAATATAACACCGCGCTGTTTAAACCGGAAACGGCAGAGACGTGGAAGCATTACTGGCTTCAGCTGTTAAAAGCCGCAACGGAAAATCCGGCTGCGAAGCTTTCTGAGCTTTCATTGGTGAATGAAACAGAAAAACAAGCCCTCCTTGACGCATGGAAAGGAAAAACAATTTCTGTGCCGCGGGACAAAACGGTTCACCGTCTCTTTGAAGAAACGGCCGCCCGCCATGCGAACCGGCCGGCCGCGGCATATAACGGCGCGAAATGGACGTACGGCGAGCTGAACGCAAGGGCGAACCGGATCGCGCGCATTCTCATGGACTGCGGCGTCACGGCTGACGAACGTGTCGGCATTTTGACGAAACCGTCCTTGGAAATGGCCGCGGGCGTACTCGGCGTCTTAAAAGCGGGCGCGGCATTTGTGCCGATTGACCCCGACTACCCGGAAGAGCGCATCAGCTACATTCTGCAGGACAGCGGCGCCAAGCTTCTTCTCACACAGGAAGCGCTCGACGTGCCGGATGGCTACAAAGGTGAAACGATCCTGCTTGACGGCAGCCGCTCCATTCTGAGCCTGCCGCTTGATGAAAACGATGAAGCGAACCCGCAGACGGAAACAACGGCGGATCATCTCGCTTATATGATTTACACGTCAGGAACGACCGGACAGCCGAAGGGTGTCATGGTCGAACACCATGCGCTTGTGAACCTGTGCTTCTGGCACCACGACGCATTCGCCATGACGGCGGATGATAAAAGCGCCAAATACGCGGGCTTCGGTTTTGACGCCTCCATCTGGGAGATGTTCCCGACATGGACCATCGGCGCGGAGCTTCACGTCATTGACGAGGCGATCCGGCTGGATATCACCCGCTTAAATCACTATTTCGAGGAGAACGGCGTGACCATCACCTTCCTGCCGACGCAGCTGGCCGAACAATTTATGGAGCTGGAAAATACCTCTCTCCGCATGCTTCTCGTCGGAGGTGACAAGCTGAAGCGGGCGGTGAAACAGCCGTACACGATCGTCAACAACTACGGCCCGACGGAAAACACCGTCGTCGCGACAAGCGGCGTCATCAATCCTGAGGAAGGATCGCTTTCGATCGGACGGGCGATTGCCAATACGAGAGCTTATATTCTCGGCGACGGCGATCAGGTGCAGCCGGAAGGCATTGCCGGTGAATTGTGCGTGGCCGGCCGCGGTCTGGCACGCGGATACCTGAACCGTGAAGAAGAAACGGCGAAGCGGTTTACCGCAGATCCGTTCGTGCCCGGCGAGCGCATGTACCGGACCGGCGACCTCGTCAAATGGAACGCGCAGAGCGGCATCGAATACATCGGGCGTATTGACCAGCAGGTCAAAGTGCGGGGCTACCGGATCGAGCTTTCAGAAATCGAAGTCCGCCTCGCCCAGCTTGCGGACGTTCATGACGCAGCGGTGACGGCTGTGGAAGACAAAGCGGGCAATACCGCGCTTTGCGCCTATGTCGCGCCTCAACAGGACGATATTGAAGTGCTCAGAGCCGCGCTGAAAGACACGCTGCCTGACTACATGGTGCCGGCGTTCTGGGTGGAGATGGACGAGCTTCCGGTCACCGCAAACGGAAAGATTGACAAAAAAGCCCTGCCGGAACCGGACATTGAAGCGGGAAGCGCCGCGTATAAAGCGCCGGAAACGGAGATGGAGACGCTGCTTTCTGACATTTGGCAGGAAGTGCTCGGTCTTGATCAGATCGGCGTAAGCGATAATTTCTTCACGCTCGGCGGCGACTCGATCAAAGGCATCCAAATGGCGAGCCGTCTGAACCAGCACGGGTATAAATTGGAGATGAAAGATCTCTTCCAGCATCCGACCATCGAAGAGCTCGTCTCTTATGTGGAGCGGACGGAAGGCAAGCAGGCCGATCAGGGACCTGTCGAAGGCGAAGCGGACTTAACGCCGATCCAGCGCTGGTTCTTTGAGAAAAACTTTACCGACAAACACCACTGGAACCAATCCGTCATGCTTCATGCGAAAGACGGCTTTGATCCGGAGATAACAGAAAAAACATTACATGTCCTGACGGTGCACCATGATGCGCTCCGGATGATTTATCGTGAACAAAAACCGTATTACAGAGGGCTTGAGGATGCGTCTGTTGAACTGAACGTCTTTGAGCTGAACGGACCTGCTGAAGACCATGAGGACCGTATCGAACGAGAAGCAGACCGTCTTCAAAGCAGTATTTCACTGGAAACAGGACATCTGCTGAAGGCCGGGCTCTTCCGGGCTGAAGATGGAGACCACCTTCTTCTCGCAATCCATCACTTAGTCGTGGATGGTGTATCTTGGCGGATTTTACTGGAGGACTTCACGTCCGTTTATACGCAGCTGAAGCAAGGCAATGAACCGGCGCTGCCTCCGAAAACACATTCATTCGCCGAATTTGCTGAAAGAATCAAAGAATACGCAAATACGAAGGCGTTTCTGAAAGAAGCGGATTACTGGAGAGAGCTTGAGGAAAAAGAGGTATGCACTCAGCTTCCGAAAGACAGGCAGTCTGGCGATCAGCGCATGAGACATACGAGAACGGTCAGCTTCTCTCTGACGCCTGAACAAACTGAACAGCTGACGACAAACGTACATGAAGCCTACCATACGGAAATGAACGACATCCTGCTCACGGCGCTCGGACTGGCGCTGAAAGAGTGGACGGGTGAAGACACGATCGGCGTTCATTTGGAAGGCCACGGGCGCGAAGACATTCTTGACGGCCTGAATATCACCCGGACGGTCGGATGGTTTACGAGCATGTATCCGATGATCCTTGAGATGAAGCACGCCGACGATCTTTCATATCAGCTGAAACAAATGAAAGAAGACATCAGACACATCCCGAACAAAGGAGTCGGCTACGGCATTCTGCGTTATGTAACGGCGCCTGAGCATAAAGAGAATCTTACATTTAAGATTGATCCGGATATCAGCTTTAACTACTTAGGCCAGTTTAATGAGATGTCGGATTCCGGCTTATTTACAAGATCCGGGATGCCGTCAGGACAATCGCTGAGCCCTGACACAGAGAAGCCGAATGCGCTTGATATTGTCGGATTTATAGAAAATGGGCAGATGACGATGACGTTTGCCTATCATTCTCTCGAATTTCATGAAAGAACCATTCAATCGTTCAGTGACAGCTTTAAAGGGCACCTCTTGAAAATCATAGATCACTGCCTGGCCCAAGACGGACCTGAGCTTACGCCTAGCGATCTTGGCGATGATGATCTGACGCTTGATGAACTTGATAAATTAATGGAAATTCTCTAA	MEITFYPLTNAQKRIWYTEKFYPNTSISNLAGFGKLISEDGVQAHYVEKAIQEFVRRYESMRIRMRLDDEGEPVQYVSEYRPLSIGHTDIRQAGCSADELSKWGREEAGKPLALYDQDLFRFSVHTISENEVWFYANVHHIISDGISMTILGNAITDIYLELSGGTSEEQTEIPSFIEHVLTEQEYVQSKRFKKDRDFWNGQFETVPELVSLKRSQADAGLNAKRFSQEIPHDLYGRIHSFCEEHKVSVLSLFQSALITYLYKVTGRDDVVTGTFMGNRTNAKEKQMLGMFVSTVPVRTSVDGGQSFLEFVKGRMKDLMKILRHQKYPYNLLVNDLRASKSSLSRLFTVALEYQVMQWQKKENLSFLTDPIFSGSGTNDISIHVKERWDTGKLTIDFDYRSDIFKGEEIESVSERLITLIEDAISSPDRIIDELTLLSESEKERLLKRASGNPVNYRKEMTIPGLFEEKVKSLSDKPAVVYEGRTLSYRTLHEQSGRIAGRLLQAGISADSPVAVLLGRSERVIAAILGILKAGGAYVPIDPDFPADRIQYILEDSGAKAVLTEAGIQAPAADAERIDFDEAVQYETAADGVSTQSDRLAYIIYTSGTTGRPKGVMIEHRQVHHLVQSLQQEIYQCGEQTLRMALLAPFHFDASVKQIFASLLLGQTLYIVPKTTVTNGSALLDYYRQNRIEATDGTPAHLQMMVAAGDVSGIELSHMLIGGEGLSAAVAEQLMTLFHQSGRTPRLTNVYGPTETCVDASVHQMSADNGMNQQAAYVPIGKPLGNARLYILDKHQRLQPDGTAGELYIAGDGVGRGYLNLPDLTAEKFLQDPFNGSGRMYRTGDMARWLPDGTIEYIGREDDQVKVRGYRIELGEIETVLRKAPGAAQAVVLARPDQQGSLDVCAYIVQEKGTEFHPAEYREYVSKHLPDYMVPAYFTKTDEIPLTPSGKADRKKLFALDVQAVSSSEYAAPRNETEEMLTVIWQEVLGMDKAGIYDHFFESGGHSLKAMTLLTKIHKQMGVEIPLQYLFEHPTIAALADYAENRNEGPAFSAIEPAEKQASYPLSLAQQRTYIASQFEDAGVGYNMPAAAMIEGALDREKLERAFSALISRHEALRTSFQSEDGTPRQVIGEHVPFHIEMIEARGRTNEQVMKDFVRRFDLSEAPLFRIGLQTLGHNSHLLLFDMHHLISDGVSISIMLKELADIYGGNQLPELRIQYKDYAVWQAERAKEGYKKERAYWKEVFSGELPVLQLLPDYPRPQVQSFEGDRVSVKLPKMLRERLQKLAEKNGATLYMVLLSAYYTLLSKYSGQEDIIVGTPSAGRNHSDTEGLIGMFVNTLALRSSVKQGQTFAGLLGHVRKQVLDAFSHQDYPFEWLTEELNVPRDMSRHPIFDTMFSLQNASDGIPEIGNLTLALYETNFNIAKFDLTMQARETAEGIALDLDYCTKLFKRSTADRMLAHYVRLLERAAAQPDAKISEYDLLSEREALTQLQRFNPERTAYPKEQTIVQIFEEQARKNPDRTALQFEGETLSYQQLNERANRLARHILSVGGGGKTAAVLCERSMDMIVSIMAVLKAGSAYVPIDPEHPVQRIQHFFRDSGANVLMTQQSLKPLAEKAGFQGVIVLADDEASYEKDSRNPALPFDSKTIANLTYTSGTTGTPKGNIVTHANILRTVKNTNYLTVSEEDTVLGLSNYVFDAFMFDMFGSLLNGAKLVIVPKDTVLDMSRLSRVIKRENVSILMITTALFHLLVDMEPSCLTTLRKIMFGGERASVEHVKKALAAVGKGRLLHMYGPSESTVFATYHPVDVIEEDTLSVPIGKPVSNTEVFIMNSAGRIQPAAIAGELCVSGEGLVEGYYNRPELTEEKFVEHPFKEGERMYKTGDLARWLPNGDIEFIGRIDHQVKIRGQRIELGEIEHQLQSHDQIQECIVLAVDQGAGDKLLCAYVVGLREISSRELREHTAKDLPAYMIPSVFIQLDELPLTGNGKIDRRALPMPDVTAANAVAYTAPRNETEQKLADIWAEVLQMERVGVHDQFFEIGGHSLAGMKLLALIQKTFGVQLTLKDLFTSPTAAGLAQLIEGAERKAAESITPAAEQETYPVSSPQKRMFVLQQLEGAETSYNMPSVLRLKGKLDAEKLKSVIKQLTERHEAFRTTFDIKDGETVQRIWAEADIDMEYYEASEEDAEQIIQSFIRPFRLDQLPLVRTGLVKLAEHDHLLLFDMHHIISDGASVGVLIDELSRLYGGETLEPLRIHYKDYAVWQQKFIQSEQYRKQEEHWLRELDGELPVLTLPADYSRPAVQTFEGDKLVFSLTEEQTSALRSLAKQTDSTMYMVLLASYSAFLSKLSGQHDIIVGSPVAGRSHADLANVIGVFVNTLALRTYPEADKTFTDYLKEVKQTALHAFDAQDYPLEDLLQKVEVQRDTSRNPLFDAVFSMQNANAEDLVMEGIELKHHPFDRKTAKFDLTMTAEDTGEGLTFVLEYNTALFKPETAETWKHYWLQLLKAATENPAAKLSELSLVNETEKQALLDAWKGKTISVPRDKTVHRLFEETAARHANRPAAAYNGAKWTYGELNARANRIARILMDCGVTADERVGILTKPSLEMAAGVLGVLKAGAAFVPIDPDYPEERISYILQDSGAKLLLTQEALDVPDGYKGETILLDGSRSILSLPLDENDEANPQTETTADHLAYMIYTSGTTGQPKGVMVEHHALVNLCFWHHDAFAMTADDKSAKYAGFGFDASIWEMFPTWTIGAELHVIDEAIRLDITRLNHYFEENGVTITFLPTQLAEQFMELENTSLRMLLVGGDKLKRAVKQPYTIVNNYGPTENTVVATSGVINPEEGSLSIGRAIANTRAYILGDGDQVQPEGIAGELCVAGRGLARGYLNREEETAKRFTADPFVPGERMYRTGDLVKWNAQSGIEYIGRIDQQVKVRGYRIELSEIEVRLAQLADVHDAAVTAVEDKAGNTALCAYVAPQQDDIEVLRAALKDTLPDYMVPAFWVEMDELPVTANGKIDKKALPEPDIEAGSAAYKAPETEMETLLSDIWQEVLGLDQIGVSDNFFTLGGDSIKGIQMASRLNQHGYKLEMKDLFQHPTIEELVSYVERTEGKQADQGPVEGEADLTPIQRWFFEKNFTDKHHWNQSVMLHAKDGFDPEITEKTLHVLTVHHDALRMIYREQKPYYRGLEDASVELNVFELNGPAEDHEDRIEREADRLQSSISLETGHLLKAGLFRAEDGDHLLLAIHHLVVDGVSWRILLEDFTSVYTQLKQGNEPALPPKTHSFAEFAERIKEYANTKAFLKEADYWRELEEKEVCTQLPKDRQSGDQRMRHTRTVSFSLTPEQTEQLTTNVHEAYHTEMNDILLTALGLALKEWTGEDTIGVHLEGHGREDILDGLNITRTVGWFTSMYPMILEMKHADDLSYQLKQMKEDIRHIPNKGVGYGILRYVTAPEHKENLTFKIDPDISFNYLGQFNEMSDSGLFTRSGMPSGQSLSPDTEKPNALDIVGFIENGQMTMTFAYHSLEFHERTIQSFSDSFKGHLLKIIDHCLAQDGPELTPSDLGDDDLTLDELDKLMEIL	PGPT0009845_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009845-srfAA|lchAA-K15654	NA	NA
D1-12_03270	363	hxlR	COG1733	HTH-type transcriptional activator HxlR	GTGAGCCGAATGGATGAGAAAACGTTTAATTGCGAAAAGGAATTGACGCTTGCCGTGATAGGCGGGAAGTGGAAAATGCTGATTATGTGGCACTTGGGAAAAGGAGGGACGAAGCGGTTTAATGAGCTGAAAGCTTTAATTCCGGATATTACGCACAAAATTCTTGTGAATCAGCTCAGGGAGCTGGAGCAGGATCTGATCGTTCACAGGGAAGTTTACCCTGTCGTCCCTCCGAAAGTGGAGTATTCTTTAACGGCGCAAGGAGAAAGCCTTATGCCGATTCTGGACGCCATGTATAAGTGGGGAAAAGATTATATGGAATTAATCAATATTGATAAAACTGCAATAAAGGAATCTTTTTGA	MSRMDEKTFNCEKELTLAVIGGKWKMLIMWHLGKGGTKRFNELKALIPDITHKILVNQLRELEQDLIVHREVYPVVPPKVEYSLTAQGESLMPILDAMYKWGKDYMELINIDKTAIKESF				NA	NA	NA	NA	NA
D1-12_03271	636	hxlA	COG0269	3-hexulose-6-phosphate synthase	GTGGAATTACAGCTGGCATTAGACTTAGTAAATATCCCGGAAGCAATTGAACTTGTGAAAGAGGTCGAACAATATATAGATGTTGTAGAAATCGGCACTCCCGTTGTCATTAATGAAGGACTGAAAGCCGTGCAGGAAATGAAAACAGCCTTTCCTCACTTGAAAGTGCTTGCCGATCTTAAAATCATGGATGCAGGCGGTTACGAGATCATGAAAGCGGCAGAAGCGGGAGCCGACATCATCACCGTTTTAGGAGCGACAGACGACTCAACGATCAAAGGGGCGGTTGCCGAAGCAAAAAAACAGCAGAAAAAAATCCTTGTCGACATGATTAACGTAAAAAACCTTGAAACACGGGCAAAAGAAATTGACCAACTCGGTGTTGATTATATTTGTGTTCACACAGGTTATGATCTTCAAGCAGAAGGAAAAAATTCATTCGAGGAACTGACGGCGATTAAAAAAGCGGTCAAGAGCGCTAAAACCGCAATTGCCGGAGGCATTAAACTTGATACGCTTCCTGAAGCCATCAAACAAAACCCAGATTTAATCATTGTCGGCGGAGGCATTACGGGAGCTGACAATAAAGCGGATGCTGCTGCTAAAATGAAACAGCTGATCACACAAGGATCATGA	MELQLALDLVNIPEAIELVKEVEQYIDVVEIGTPVVINEGLKAVQEMKTAFPHLKVLADLKIMDAGGYEIMKAAEAGADIITVLGATDDSTIKGAVAEAKKQQKKILVDMINVKNLETRAKEIDQLGVDYICVHTGYDLQAEGKNSFEELTAIKKAVKSAKTAIAGGIKLDTLPEAIKQNPDLIIVGGGITGADNKADAAAKMKQLITQGS	PGPT0013295_236	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013295-hxlA|yckG-K08093	NA	NA
D1-12_03272	558	hxlB	COG0794	3-hexulose-6-phosphate isomerase	ATGAAAACGACTGAATACTTACATGAAATACTAAATGAAATATCCCGCACCGCAGCATTAATATCCGACAGTGAAGCTGACAAGCTTGCGGATCAGATTTTATCGGCAGATCAAATCTTCACGTCCGGAGCGGGCCGTTCCGGCTTTATGGCTAAAGCGTTCGCCATGAGGATGATGCACATCGGCCTGAACGCTTACATCGTCGGTGAGACGCTTACCCCTCCCCTCCAAGAAGGCGGTCTCGTCATCATCGGCTCAGGCTCAGGCGAAACAAAAAGTCTGCTTCATACGGCTGAAAAAGCCAAAAACCTTAACGGCATCATCACTGCATTAACGATTAACCCCGGCTCAAGTCTCGGCAAACTTGCGGATCTTACAATAACGATTCCCGGCTCTCCTAAGGAAGAGACCGGCGGAGACAGAAAGACGATTCAGCCGATGGGTTCTTTATTCGAACAAACTCTTCTGCTGTTTTACGATGCGGTTATTCTAAAAATCATGGAGAAAAAAGAATTGAATTCAGCAGACATGTTTACAAAGCATGCGAATCTGGAATGA	MKTTEYLHEILNEISRTAALISDSEADKLADQILSADQIFTSGAGRSGFMAKAFAMRMMHIGLNAYIVGETLTPPLQEGGLVIIGSGSGETKSLLHTAEKAKNLNGIITALTINPGSSLGKLADLTITIPGSPKEETGGDRKTIQPMGSLFEQTLLLFYDAVILKIMEKKELNSADMFTKHANLE	PGPT0013290_429	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013290-hxlB|yckF-K08094	NA	NA
D1-12_03273	438			hypothetical protein	TTGAAAACATTAAAAGCACTGCTGCTTGTTCTTATCATCATTGCCGGAGCAGTCGCGGCCCTGATCAAGGGTGATCTTTTCTCAGATAACGAGCAGACCGTTCAGAAGAGTGATTACGACAAGGTAATCCTATTTCCGTCCGATCGATATCCGGAAACAGCAAAGCATATTAAGGACGCGATAAAAGAAGGACATTCCAGCATATGCACCATTGACAGAGACGGAGTACATAAGCGGCGTGAGCAATCTCTTAAACATGTGCCTGTCAAAACGGGATACGATAGGGATGAATGGCCGATGGCGGTTTGTAAACAGGGCGGAAATAATGCCTCCGTAGAATATATTTCTCCGGCAGACAACCGCGGAGCCGGCTCTTGGGTCGGACACCAGCTTACCAATGATCCCGACGGAACGAGAGTATTATTTAAAATCAAGTAA	MKTLKALLLVLIIIAGAVAALIKGDLFSDNEQTVQKSDYDKVILFPSDRYPETAKHIKDAIKEGHSSICTIDRDGVHKRREQSLKHVPVKTGYDRDEWPMAVCKQGGNNASVEYISPADNRGAGSWVGHQLTNDPDGTRVLFKIK				NA	NA	NA	NA	NA
D1-12_03274	399	nin		DNA-entry nuclease inhibitor	TTGATTAAATCATGGAAACCGCAAGAACTGGCCATTTCTTATCATCAATTTACAATCTTCCAAAAAGATTCAGAACCGCCTGTTATCGATTGGACCGATGAAGCCATTGAAAAAGGATATGCGGAAGCTGACGGAGCTGTTTCATTTGAGGCAAGGAGAAATACGAGGGCATTTATCGTCCTCAGGCTTAACACAAGTGAACCGGTACCATCCTATGAGAAAAAAGCGACTGTTCCCTTTGAGGCTGTAAAAGATGGAATTGAGATTGAAAGCGTGATGTCAAAGCGGCTTTCTTTTAATATTCCGAAAGGCCGATACAGCCTTACCTGTTATTCAGTGCCTGCCGAAATATCCGATCTTCATGCGGATACGTATATTATTGATGCAGCCGCAATGTAA	MIKSWKPQELAISYHQFTIFQKDSEPPVIDWTDEAIEKGYAEADGAVSFEARRNTRAFIVLRLNTSEPVPSYEKKATVPFEAVKDGIEIESVMSKRLSFNIPKGRYSLTCYSVPAEISDLHADTYIIDAAAM				NA	NA	NA	NA	NA
D1-12_03275	1437	bglC	COG2723	Aryl-phospho-beta-D-glucosidase BglC	ATGATACATAAAAAACAGGGCCTGTTCCCTGATACATTTCTATGGGGGTCAGCCTCGGCTGCCTATCAGGTTGAAGGAGCCTGGAATAAAGACGGTAAAGGACCTTCAGTATGGGACTTATTCACGAAAATACCGGGTAAAACGTTTAAAGGCTCAAATGGTGATACAGCAGTCGGCCATTATGAGCGCTATAAAGAAGATATCGCCTTGATGGCAGAAATGGGTTTGAAAGCTTACCGATTTTCTGTCAGCTGGCCGAGAATTTTTCCGAATGGCAGAGGGGAAATTAACGAATCAGGGGTCGCATTTTACGAAGACTTGATCGATGAATTGATTTCTAACGATATTGAGCCGGTGCTGACTCTTTATCATTGGGACTTGCCTCAGGCGCTGATGGATGAATACGGCGGCTTTGAATCAAGAAAAATTATTGATGATTTCAATGATTACTGCATTGCGTTATACAAAAGATTTGCCGGCAAGGTGAAATACTGGGTCACGTTAAATGAGCAGAATTATAATTTTCATAACGGGTTTATAACAGCTGCACATCCGCCCGGCGTAAAGGACAGAAAACGATTTTATGCAGCGAATCATATCGCATTTTTAGCTAATGCCAAAGCGATTGACTCCTTCAGACAATATGTTCCTGACGGTTTGATCGGCCCGAGCTTCGCTTATTCACCGGCTTATCCGCTTACAAGTCACCCTGAAGACATAACTGCATTTGAAAACGCAGAGGAATTTATGAACCATTGGTGGCTTGATATGTATTGCCGGGGGACTTATCCGCAAATTCCTTTCAATTATTTAAAGGAAAAGGGCTGGGCGCCCGCCATTGAAGCCGGGGATATGGAATTGCTTGCGAAAGGCAAGCCGGATTTTATCGGTGTTAATTATTATCAGACGATTACGTACGAAAGAAATCCTCTTGACGGTGTATCGGAGGGGAAAATGAACACGACTGGTCAGAAAGGGACAAACCAGGATACCGGTATACCGGGGCTGTTTAAAACGAAAAAGAATCCTAATCTCGTGACGAGTAATTGGGATTGGACGATTGACCCGATAGGTCTGCGCATCGGCCTCCGGCGTATAACGAGCCGCTATGAGCTGCCGGTTTTTATAACAGAAAACGGGCTGGGGGAATTCGATAAAATAGAAGAAGACGGCTCAATTCAGGATGACTACAGAATTGACTATTTACGCTCCCATCTTGAACAGTGCAGAGAGGCCATTAGTGACGGAGTTCGTCTCATCGGCTACTGCAGCTGGTCATTCACGGATCTGTTAAGCTGGCTGAACGGCTATCAAAAACGCTACGGTTTTGTCTATATCAATCGAGATGAAGAAGATGAAAAGGATTTGAAACGGATCAGGAAAAAAAGTTTTTATTGGTACCGAAATGTAATTGAAACAAACGGTAAAAGTTTATAA	MIHKKQGLFPDTFLWGSASAAYQVEGAWNKDGKGPSVWDLFTKIPGKTFKGSNGDTAVGHYERYKEDIALMAEMGLKAYRFSVSWPRIFPNGRGEINESGVAFYEDLIDELISNDIEPVLTLYHWDLPQALMDEYGGFESRKIIDDFNDYCIALYKRFAGKVKYWVTLNEQNYNFHNGFITAAHPPGVKDRKRFYAANHIAFLANAKAIDSFRQYVPDGLIGPSFAYSPAYPLTSHPEDITAFENAEEFMNHWWLDMYCRGTYPQIPFNYLKEKGWAPAIEAGDMELLAKGKPDFIGVNYYQTITYERNPLDGVSEGKMNTTGQKGTNQDTGIPGLFKTKKNPNLVTSNWDWTIDPIGLRIGLRRITSRYELPVFITENGLGEFDKIEEDGSIQDDYRIDYLRSHLEQCREAISDGVRLIGYCSWSFTDLLSWLNGYQKRYGFVYINRDEEDEKDLKRIRKKSFYWYRNVIETNGKSL	PGPT0019255_933	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0019255-bglA-K01223	NA	NA
D1-12_03276	324			hypothetical protein	ATGAAAAAAGCTGCATTGTCTTTAGCTGCGTTTTTCATTACAGCAATGGTTTTCACAATGCCGGCACACGCCGCCGGAACAAAAATGCCTTCAACAATGTCACTCACGGAACAGCAGAAAAAAGAAATTGAATCACTTGAAAAAGAAGTGCTCGAAAAACGAAAACATGTCATATCCAAATATGTTGAGTACGGGGTCCTGCCGAAAGAAAAAGCAGAACATATTAAACAGCATATGGACAGGCGCTTTAACATGATGAAACAAAATGGGTTTGTCCCGAAGCCTCCGCCTCATAAATTGGAAAAGCGGCATCATCATTCTTAA	MKKAALSLAAFFITAMVFTMPAHAAGTKMPSTMSLTEQQKKEIESLEKEVLEKRKHVISKYVEYGVLPKEKAEHIKQHMDRRFNMMKQNGFVPKPPPHKLEKRHHHS				NA	NA	NA	NA	NA
D1-12_03277	435			hypothetical protein	ATGAATATTTACAGACCGGCGGGATTTTGGATCAGATTGGGAGCCGTGGTACTCGACTATTTAATTACTTCAGTGCCTTTGGCGATTATTTTTATGCTGGCAACAGGAAAAGATCCGAATGAGAGCGCAATGATCAGCATCATTTTGACTCTTTATGGTATTTTGCTCCCTGTATACTGGAACGGTTATGTTATCGGCAAAAAGATCTGCGGTATCCGCATCGTCAAAAAAGACGGAACTCAGGTAGGCTTTCTCACTATGATTTTGAGAGTGCTTGTGGGCGGCCTGATATATGGCGTGACGTTTGGAATCGGTGTGATCGTGAGCGCATTCATGGTCGGAATGAGAGAAGACAGACGGTCAATCCACGATTTTGTAGCAGGAACGTATGTCACATACGCGCTGCCGGACGAATCGATTGAAAAGAGCGAATAA	MNIYRPAGFWIRLGAVVLDYLITSVPLAIIFMLATGKDPNESAMISIILTLYGILLPVYWNGYVIGKKICGIRIVKKDGTQVGFLTMILRVLVGGLIYGVTFGIGVIVSAFMVGMREDRRSIHDFVAGTYVTYALPDESIEKSE				NA	NA	NA	NA	NA
D1-12_03278	1137	fdhA		Glutathione-independent formaldehyde dehydrogenase	GTGAAAGCACTGACATACCAAGGAAAAGAACATATGGAAGTGAAAGAAGTCCCGGCACCCGCCATTCAAGATGAGAGAGATGTCATCGTTCGAATCACCGCAACCGGGATATGCGGTTCAGACCTTCATTTATATAAAAACGGAATACCCGCCGATCCGGGTTATATCGTCGGGCATGAGCCGATGGGAATCGTTGAAGAAACGGGCAGTCAAGTCAAAAAGCTGAAAAAAGGCGACCGGGTCGTGATTCCTTTTAATATCGGCTGCGGAGAATGTCATTATTGCAAGCACCAGATGGAAAGCCAGTGTGATGAATCTAATCCAAATCCTCATACAGATGCCGGCGGCTTATTCGGTTTTTCGGAGTTTAACGGTAATTATCCCGGCGGGCAGGCTGAATATTTACGTGTTCCTTATGCTGATTTCTCTTCTTTTCTGGTTCCGGCAGACAGTGAGCTTGAAGATGAGCAGGTGCTGCTTCTGTCAGATGTCATGCCGACCGCCTTTTGGAGCGTCCAGCACAGCGGAGTGAAAAAAGGAGATACAGTCGTGATTCTGGGATCAGGTCCGATCGGCTTAATGGCGCAAAAATTCGCGTGGAAAAAAGGAGCTAAACGGGTTATCGCAGTTGATCAAGTCCCGCACCGCCTTGAACATGCGAGACGCATAAACGGAGCAGAGACCTTCAATTTTTCAGAACATGATGAGATCGGGAAACTGCTGCATGAACAAACGTCAGGGGGCGCGGATGTAGTGATTGATTGTGTCGGAATGGACGGCACGCCGCTTTCAAAAGAAAAAACAGAGCAAAAACCGAATCAGTTCGGAACGATCAGTCCGATTCTTACAGCAGCAGAAGCCGTTAAGAAGTTCGGAACCGTGCAGCTCACGGGCGCATACATTTCTGAAGCGGACGGCTTTCCGCTCGGTGATTTTTTCACACGCAACGTTTCTTTAAAAATGGGCCAGGCACCCGTTATTCATCTGATGCCGATGCTGTATCAAATGATCGAACAAAATGAAATTGATCCGACGGATATCATTACACACAAAATGAGTCTTGCGGAAGCTCCTGCTGCATATGATATATTTGACAAAAAAGAAGATGGCAACATTAAAGTGATTTTGAAGCCATAG	MKALTYQGKEHMEVKEVPAPAIQDERDVIVRITATGICGSDLHLYKNGIPADPGYIVGHEPMGIVEETGSQVKKLKKGDRVVIPFNIGCGECHYCKHQMESQCDESNPNPHTDAGGLFGFSEFNGNYPGGQAEYLRVPYADFSSFLVPADSELEDEQVLLLSDVMPTAFWSVQHSGVKKGDTVVILGSGPIGLMAQKFAWKKGAKRVIAVDQVPHRLEHARRINGAETFNFSEHDEIGKLLHEQTSGGADVVIDCVGMDGTPLSKEKTEQKPNQFGTISPILTAAEAVKKFGTVQLTGAYISEADGFPLGDFFTRNVSLKMGQAPVIHLMPMLYQMIEQNEIDPTDIITHKMSLAEAPAAYDIFDKKEDGNIKVILKP	PGPT0006355_928	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
D1-12_03279	1203	yciC	COG0523	Putative metal chaperone YciC	ATGAAAAAAATTCCGGTTACAGTATTGAGCGGCTATCTTGGTGCCGGAAAGACGACCGTTTTGAATCATATTTTACAAAACCGCAACGGTTTAAAAATTGCCGTCATCGTCAATGACATGAGCGAAGTAAATATAGACGCGGGATTGGTGAAGCAGGGAGGCGGCTTGTCAAGGACGGATGAGAAACTCGTAGAATTATCCAACGGCTGTATCTGCTGCACGCTGCGTGAGGATCTATTAGTCGAAGTTGAGAAACTCGCGAAAGACGGCAGATTTGATTATATTGTGATTGAATCAACAGGGATCAGCGAACCGATTCCCGTTGCCCAGACATTTTCTTATATAGATGAAGAAATGGGCATTGATCTGACAACATTCTGCAGGCTGGACACAATGGTGACCGTGGTGGATGCAAACCGCTTCTGGCATGATTTCCAGTCCGGTGACAGCCTTCTTGACCGGAAGGAAGCGGCGGGAGAAGAGGATGAACGGGTGATTGCCGATTTATTAATTGACCAAATCGAGTTTTGTGATGTGCTCATTTTAAATAAATGCGACATGGTGGGCGAAAAAGAGCTTGAACAGCTGGAAACGGTCCTTCGCGCATTACAGCCCCGTGCCAGACTGATCCGGTCCGTCCGCGGAGAAGTGCCCGCCGAATACATATTGAATACCGGTTTATTTGAGTTTGAGGAAGCGAGTTCATCAGCAGGATGGATAAAGGAACTGACGGCAGGTCATGAAGCGCACACTCCGGAAACGGAAGAGTACGGCATCACTTCGTTTGTGTACTCGCGGCGTCTGCCGTTTCATACCGCTCGTTTTGACAGCTGGCTACATCAATCAATCCCTGACAACATTGTGCGCGCAAAAGGAATTGCTTGGTGCGCAACCCGCAACAGCCTTGCGCTGCTGATGTCTCAGGCGGGTCCGGCGGTTTCGATTGAGCCTGTTTCTTATTGGGTGGCGGCAATGCCGAAACTTGAGCAGGAGCAGATCAAACAGCAGGAACCAGAGATTCTGGAAGATTGGGACGACCAATTCGGAGATCGTCATACGAACCTGGTGTTTATCGGAACAGATTTAGATGAAGCAGCCATTACAAAGGAATTGGATCAGTGCCTGCTCACGCCGTCTGAGTTCGATTCCGACTGGTCGCAGCTTGAAGATCCTTTTCAATGGGATATTCAGCGGGCCGAATAA	MKKIPVTVLSGYLGAGKTTVLNHILQNRNGLKIAVIVNDMSEVNIDAGLVKQGGGLSRTDEKLVELSNGCICCTLREDLLVEVEKLAKDGRFDYIVIESTGISEPIPVAQTFSYIDEEMGIDLTTFCRLDTMVTVVDANRFWHDFQSGDSLLDRKEAAGEEDERVIADLLIDQIEFCDVLILNKCDMVGEKELEQLETVLRALQPRARLIRSVRGEVPAEYILNTGLFEFEEASSSAGWIKELTAGHEAHTPETEEYGITSFVYSRRLPFHTARFDSWLHQSIPDNIVRAKGIAWCATRNSLALLMSQAGPAVSIEPVSYWVAAMPKLEQEQIKQQEPEILEDWDDQFGDRHTNLVFIGTDLDEAAITKELDQCLLTPSEFDSDWSQLEDPFQWDIQRAE				NA	NA	NA	NA	NA
D1-12_03280	1206	nasA		Nitrate transporter	ATGAAGCTGTCGGAATTAAAAACAAGCGGCCATCCGCTCACTCTGCTCTGTTCCTTCTTATATTTTGATGTGAGTTTTATGATTTGGGTCATGCTGGGGGCGCTCGGCGTTTATATTTCTCAGGATTTCGGGTTATCTTCTTTTGAAAAAGGATTTGTCGTGGCTCTGCCGATCTTATCAGGATCTGTGTTTCGGATCATTTTAGGCGTGTTAACGGACAGGATCGGGCCGAAGAAAACAGCCGTGATCGGGATGCTGATCACGATGATCCCGCTGCTTTGGGGGGCATTCGGCGGCCGTTCTTTGACTGAGCTGTATGCGATCGGCATTCTGCTGGGCGTGGCGGGCGCAAGTTTTGCTGTCGCGCTTCCGATGGCGAGCCGGTGGTATCCGCCTCACTTGCAGGGGCTTGCGATGGGGATAGCAGGTGCCGGCAACAGCGGCACTTTGTTTGCGACATTGTTCGGTCCCCGCCTTGCAGAACAGTTTGGGTGGCACAGTGTAATGGGAATTGCGCTTCTTCCGTTGATGATCGTTTTTATACTGTTTATCGTCATGGCGAAGGACTCTCCTGCACAGCCCGCACCGCAGCCGCTTAAAAACTATCTTCACGTTTTCAGGCAGAAGGAGACATGGTGTTTCTGTCTTTTGTACGGCGTCACTTTCGGAGGTTTTGTGGGATTATCAAGTTTTTTGGCGATTTTTTTCGTTGATCAATATCAATTGTCAAAAATCCATGCCGGTGATTTCGTCACAATATGTGTTGCAGCGGGCAGTTTCTTTCGCCCTGCAGGAGGCTGGATTTCAGACCGTGCGGGAGGTGCGAAAGTTCTCGCTGTACTGTTTGTCATCGCGGCTCTGTGTATGGCGGGAGTCAGCAGCCTGCCTCCGCTTACAACGGTGATCGTTCTGTTGTTTATCGGAATGATGGCGCTCGGTATGGGCAACGGAGCAGTATTTCAGCTTGTCCCTCAGCACTTTGCAAAAGAAATCGGAATGGTGACGGGGATTGTCGGAGCGGCCGGCGGCATAGGAGGTTTTTTCCTTCCGAATATTTTAGGATCATTGAAGCAGATGACGGGAACTTATGCGATCGGTTTTATCTCTTTTTCATGTATCGCATTGCTCGCATTTGTGCTTGTTCTGGCCGCAGGCTATTTTTGGAGAAAAAGCTATGGCACTGAAAACAGTCCTGCGGATGTTTAA	MKLSELKTSGHPLTLLCSFLYFDVSFMIWVMLGALGVYISQDFGLSSFEKGFVVALPILSGSVFRIILGVLTDRIGPKKTAVIGMLITMIPLLWGAFGGRSLTELYAIGILLGVAGASFAVALPMASRWYPPHLQGLAMGIAGAGNSGTLFATLFGPRLAEQFGWHSVMGIALLPLMIVFILFIVMAKDSPAQPAPQPLKNYLHVFRQKETWCFCLLYGVTFGGFVGLSSFLAIFFVDQYQLSKIHAGDFVTICVAAGSFFRPAGGWISDRAGGAKVLAVLFVIAALCMAGVSSLPPLTTVIVLLFIGMMALGMGNGAVFQLVPQHFAKEIGMVTGIVGAAGGIGGFFLPNILGSLKQMTGTYAIGFISFSCIALLAFVLVLAAGYFWRKSYGTENSPADV	PGPT0000300_3821	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
D1-12_03281	2328	nasB	COG1251	Assimilatory nitrate reductase electron transfer subunit	ATGAAGAAACAACGATTAATTGTTGCAGGGAACGGAATGGCCGGAATCCGCTGTATTGAACACATTTTAAAGATGAACCGTGACATGTTTGAGATTGTTATTTTCGGAACCGAACCTCATCCCAATTACAATCGCATTCTCTTATCCTCCGTTTTACAAGGTGAGGTTTCGCTTGATGACATTACGCTGAATAGCCGCGAATGGTACGAAAAAAACGGAATTACGCTTTACACGGGAGAAACGGTTGTACACATAGATACAGAACGGCAGGTTGTCACAACGGATCGGAAGCGCAGCATGACTTACGATCATTTCATCGCGGCAACTGGCTCCTCTCCTTATATTCTCCCCATACCCGGAGCAGAGAAAGAAGGCGTCTGCGGCTTTCGGACAATAGAAGACTGCCAATCCCTTATCAATGCGGCCGGCCGGTATCAAAAGGCGGCGGTCATCGGCGCCGGTTTATTAGGTCTTGAAGCGGCCGTCGGCTTACGGCAGCTCGGCATGGACGTCAGCGTCATTCACCACTCTTCCGCCATTATGCAAAAACAGCTTGATCAAACGGCATCCCATCTGCTGCAGAAAGAACTGGAGCGAAAAGGCTTAGTCTTTCTTTTAGAGAAAGACACGGCATCCATTACAGGAAACTCACGGGCGGAAGGCATCCGTTTCAAAGACGGTTCTTCCATAGAAGCAGACCTGATTGTCATGGCCGCCGGTGTGAGGCCCAATATCCGATTGGCTGCATCTGCCGGACTTTCAGTGAACCGAGGAATCATCGTCAATCAATTCATGCAGACGAACAAACCGAATGTGTATGCCGTCGGTGAATGCGCGGAGCATGACGGGATTGTACACGGATTGGCTGCACCGCTTTATGAACAGGGAAAAGTGCTCGCACAGCATCTATGCGGCGTTCCGTGTGAAGGGTTTCAAGGCTTTGCACAATCTGCGGCCTTAAAAATAGCCGGTATTGATGTATGGTCGGCAGGAAAGGTGCACGAGGATGAGCACACAGCCGGCATATTGTTCCATGATGAGCATGGAGGCATCTACAAAAAAGCGCTCTTTGAGGACGATAAACCGGCCGGCTTTATTTTATTCGGGGACACGCGCGGTAAACAGCGGCTTCTCGACAGTCTTGTGAAGCAAAGGGACATTTCCATCGTGAAAAAACAGCTCATGGAACCCGATCAAGGCGGTATATCCTTTGAATCCATGCCACCCCATGAAACCATTTGCCAATGCAGCTCAGTGACCAAGGGCTCCATTGAAGAAGCGGTGAACAAATATGGCTTAAAAACCGCGGAGGAAGTGAAGCACATGACAAAAGCGTCCGGGTCTTGCGGGGGATGCAGGCCGCTCGTCGAAGACTTGCTGAAGTATATGGTAAGCGATGATTACACAAAACCTTCCCGCCAGCCTTCGTTTTGCGGCTGCACCGATTTGACGGAAGAAGAAGTCATCGCCGAACTTCGGCGCCGTCCATTCACTGATACCGCCGAGGTGATGGAAGTGATCGGCTGGAAAACAGAAAACGGCTGCCGCATTTGTATTCCGGCGCTTCACTACTACCTGGAAAGGATGCGGCCTGATTTTATGCAGTTCAATGAAATATCGGCAGAAGAGACATGCACCCTGATTCCGCAAATGTACGGCGGACTGACAAGTGCGGGAGAGCTCAAAAACATCGCAAACGTCATTGAAACATACGGCATCCCCGGCGTTTCAATTACTGACAGTCACCGGCTGAAGCTTTCCGGAATCAGGCCAAATGACCTTGCAAGCATCAGAAAAGCACTGAACATGCCGGTTTTCTCCCCCCGGCACCGCTGGACGATTCAAATCAAAGCATGTACGTGCGGACAGCATCGCTCCTTTCAAGAGCTGGCAAGCAGGATTGAACGAGATACCGACACACTTGCCGTCCCCGCTTATGTATCCGTCAGCTTGTCATGTGAAAACAATTGCAGCGATGCTTACATTCAGGATATCGGCGTGCTTCAGACACAAACTTGCTGGGAAATTTATATCGGGGGCGTCCGCGGAAAACAAGCCCGCGCCGGCATCCTTTTTTGTGTGACGAATAACGAAGACAGTACCGCCGCTATGATGAAAGGCCTTATTCAATATTATCGCGAAACGGCTCACTACAACGAAGCGATTTATCAATGGGTTGACAGACTCGGCCTCGTCCATATCAGAGAAATGCTGTTTGAAGAAGATATGCGGACACAGCTTCTGAAAAATCTCCGTTCAGACATATCCCTGCTGCAAAACCTGTCTGCCGGGAAAACGCCATACGAAAGGATGAAGCTTTTTGACTGA	MKKQRLIVAGNGMAGIRCIEHILKMNRDMFEIVIFGTEPHPNYNRILLSSVLQGEVSLDDITLNSREWYEKNGITLYTGETVVHIDTERQVVTTDRKRSMTYDHFIAATGSSPYILPIPGAEKEGVCGFRTIEDCQSLINAAGRYQKAAVIGAGLLGLEAAVGLRQLGMDVSVIHHSSAIMQKQLDQTASHLLQKELERKGLVFLLEKDTASITGNSRAEGIRFKDGSSIEADLIVMAAGVRPNIRLAASAGLSVNRGIIVNQFMQTNKPNVYAVGECAEHDGIVHGLAAPLYEQGKVLAQHLCGVPCEGFQGFAQSAALKIAGIDVWSAGKVHEDEHTAGILFHDEHGGIYKKALFEDDKPAGFILFGDTRGKQRLLDSLVKQRDISIVKKQLMEPDQGGISFESMPPHETICQCSSVTKGSIEEAVNKYGLKTAEEVKHMTKASGSCGGCRPLVEDLLKYMVSDDYTKPSRQPSFCGCTDLTEEEVIAELRRRPFTDTAEVMEVIGWKTENGCRICIPALHYYLERMRPDFMQFNEISAEETCTLIPQMYGGLTSAGELKNIANVIETYGIPGVSITDSHRLKLSGIRPNDLASIRKALNMPVFSPRHRWTIQIKACTCGQHRSFQELASRIERDTDTLAVPAYVSVSLSCENNCSDAYIQDIGVLQTQTCWEIYIGGVRGKQARAGILFCVTNNEDSTAAMMKGLIQYYRETAHYNEAIYQWVDRLGLVHIREMLFEEDMRTQLLKNLRSDISLLQNLSAGKTPYERMKLFD	PGPT0000450_2433	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-12_03282	2133	nasC	COG0243	Assimilatory nitrate reductase catalytic subunit	TTGACTGAACCGATGCTCCGTTATTTCCGTGACAAACTGCAAGATGTCCAATCGGAAAAAACATATGAGACGCAATGCCCGTTCTGCAGCATGCAATGCAAAATGCAGCTTACGGAACAAACCTTCGCGGCACGGAAGAAATACACTGCAATCGGCATTGATAATCCGACGACACATGGCCGTTTATGTACAAAAGGCATGAATGCCCATCAGCATGCCGTGCACTCTTCCCGCATTACACGCCCCCTGCTTAAAAAAAACGGTGAATTTGTGCCTGTCTCTTGGGCTGAAGCACTGAATCGCATAAAGGAACAAATCAATCTGATCCAAACCGAACACGGCAATGATGCGATGGCCGTCTATGGGAGCGCCTCAATTACAAATGAAGAAGCCTATCTGCTTGGAAAGTTCGCACGGGTCGGCTTACAGACGAAATACATCGATTACAACGGGCGGCTCTGTATGTCTGCCGCAGCAACGGCGGCCGGCCAGACATTCGGCGCGGACAGGGGCCTGACGAATCCATTATCGGACATTCCGCATACACGTGTCATCATCCTGGCAGGCACCAATATCGCGGAATGCCAGCCGACGATCATGCCGTATTTTGATAAAGCGAAAGAAAACGGGGCTTACATTATCGCCATTGATCCCCGGGAAACGGCGACGACCAAAATAGCCGATCTTCACCTGAAAATCAAGCCCGGCACAGACGCCGCCCTGGCAAACGGACTCGTCAAAATCTGCATTGACGAACAGCTTACAGACAAAGACTTTATCCGCACACGCACAAACGGATTCAATAAGCTCAAACGGCATACCGACGCTTTGGATCTGAAAGAGATTTCCGAGCAGACAAGTGTGCCTTTGGAGCATATGCGAAAGGCCGCCGTGAAGTTTGCCAAGGAAACATCCGGCATGCTGTTTACAGCGCGGGGGATCGAACAGCAGACTGACGGTACCGCAGCGGTGAAAGCTTTCTTAAATATGGTGCTGATCACCGGAAAAATCGGCAAGCCCTTCTCAGGTTACGGGACGATTACCGGTCAAGGCAACGGACAAGGCGCGAGAGAACACGGCCAAAAAGCGGATCAGCTTCCGGGCTACCGTTCTATCGAAATTGAAGAACACCGGGCGCATATTGCGAAGGTGTGGGGGATTCATCAGGATGAGCTGCCGCGAAAAGGTGTCTCAGCCTATGAAATGATAGAAAAAATAGATAACGGCGACATCAAAGGACTGTTTCTCATGTGTTCCAATCCGGCTGTTTCCGGCCCAAATGCGAATTTCGTCAAGCAGGCAATCAAGAAACTGAGATTTTTTGTCGCAGTTGACTTATTTATTTCTGAGACCGCGGCATTCGCAGATGTGATTTTACCCGCCTCCTCTTATTTGGAAGACGAAGGCACGATGACAAATGCAGAAGGCCGCGTGACATTAAGAGAAGCGAGCCGGTCATGTCCCGGCGAAGCGAAGCATGATTGGCAGATCATTTGTGATCTCGCATCCGCTCTCGGCAAGGGCCGCTACTTTTCTTATACGTCAGCGGAGGATATTTTTAATGAATTGAGAGAAGCGAGCCGAGGCGGGATTGCCGATTATTCAGGCATCTCATACGACAGGCTCAGACGTGAAGGCGGCATTCATTGGCCGTGTCCGGAATCTGATCATCCCGGAACTGGGCGCTTGTTTACAGAATCATTTGCTCATCCGGATCAAAAAGCGGCATTAAGTGTGATTCCAAACGAACCACCTGTTCCAAAAGAGAAGCCGAGCGCCGCCTATCCGCTTTATTTAACGACAGGCAGAGTCATGTCTCACTACTTAACAGGCGTCCAAACAAGAAAAAGCTCTGCCTTGGCTGCAAGACATTTCGAATCCTTTGTGGAAATCCACCCAAAAACGGCGGCCGACTATCATATCGAAGACCGTGTTCTCGTGAAGATAGAATCCCCCCGGGGCAGCATCACGGTGCGGAGCAGATGGTCGGAGAACGTACGAAAAGACACATTGTTTGTCCCCATCCATTGGTCTGACACGCAAAACGTCAACGATTTAATTGGTGAAGCCTTGGACCCGGACTGTAAAATGCCCGGTTTTAAGATGTGCGCGGTACGAATCAGCCCTATATAA	MTEPMLRYFRDKLQDVQSEKTYETQCPFCSMQCKMQLTEQTFAARKKYTAIGIDNPTTHGRLCTKGMNAHQHAVHSSRITRPLLKKNGEFVPVSWAEALNRIKEQINLIQTEHGNDAMAVYGSASITNEEAYLLGKFARVGLQTKYIDYNGRLCMSAAATAAGQTFGADRGLTNPLSDIPHTRVIILAGTNIAECQPTIMPYFDKAKENGAYIIAIDPRETATTKIADLHLKIKPGTDAALANGLVKICIDEQLTDKDFIRTRTNGFNKLKRHTDALDLKEISEQTSVPLEHMRKAAVKFAKETSGMLFTARGIEQQTDGTAAVKAFLNMVLITGKIGKPFSGYGTITGQGNGQGAREHGQKADQLPGYRSIEIEEHRAHIAKVWGIHQDELPRKGVSAYEMIEKIDNGDIKGLFLMCSNPAVSGPNANFVKQAIKKLRFFVAVDLFISETAAFADVILPASSYLEDEGTMTNAEGRVTLREASRSCPGEAKHDWQIICDLASALGKGRYFSYTSAEDIFNELREASRGGIADYSGISYDRLRREGGIHWPCPESDHPGTGRLFTESFAHPDQKAALSVIPNEPPVPKEKPSAAYPLYLTTGRVMSHYLTGVQTRKSSALAARHFESFVEIHPKTAADYHIEDRVLVKIESPRGSITVRSRWSENVRKDTLFVPIHWSDTQNVNDLIGEALDPDCKMPGFKMCAVRISPI	PGPT0000390_1369	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
D1-12_03283	2418	nasD	COG1251	Nitrite reductase [NAD(P)H]	ATGGGAAAAAAACAGCTAGTCCTTGTTGGAAATGGAATGGCCGGGGTAAGAGCGATTGAAGAAATACTGCGTGTTTCAAAAGACGAATTTGAGATTACAATATTCGGGGCCGAACCTCATCCCAACTATAACCGAATCCTTCTGTCAAAAGTGCTGCAAGGCGATACCGACATTCAAGACATTACGTTAAACGATTGGAACTGGTACAAAGAAAACAACATTCAGCTGTATACCGGTGAAACAGTCATCAAAGTCGACACGGAAAACAAAACCCTCATCACCGATGCAGACAGAATCCAGCCTTACGATGAACTCATCCTGGCGACAGGCTCTGTCCCTTTTATCCTTCCGATTCCGGGCGCAGACAAACAAGGCGTCACGGCATTCCGGGACATAAAAGATACAGACACGATGCTCGCCGCGTCAAAACAATATAAAAAAGCAGCCGTCATCGGCGGAGGACTGCTGGGTTTGGAAGCCGCACGCGGACTGCTGAATCTCGGAATGGACGTGTCTGTCATCCACCTCGCCCCATTCCTGATGGAGCGCCAGCTTGACGCAGCGGCGGGACGCCTGCTGCAAAACGAATTAGAAAAACAAGGCATGACCTTTTTCCTTGAAAAGCAAACCGAAGAAATTCTCGGTACTGACCGTGTCGAAGGGGTACGCTTCAAAGACGGCACAAGCATCGAAGCTGACCTGGTCGTCATGGCGGTCGGCATCCGCCCGAATACACAGCTTGGCACAGAAAGCGGCATTCCGGTAAACCGCGGAATCATTGTCAACGATTATATGCAGACTGACATTCCGCACATTTACGCGGTCGGTGAATGTGCCGAGCACCGCGGAATCGCATACGGTCTTGTGGCGCCGCTCTATGAACAGGCAAAAGTGCTGGCCAAACATATTTGCGGCATTGAAACAAAACCGTATGAAGGCTCCGTTCTCTCCACTCAATTAAAGGTATCAGGCGTCGAAGTCTTCTCTGCCGGTGACTTTAACGAATCAGAGGACAAAAAAGCGATTAAAGTGTTCGATGAGCAGGACGGCATTTATAAAAAAATCGTCCTGAGGGGCAATCAAATTGTCGGCGCTGTTTTGTTCGGAGACAGCAGCGAGGGCAGCCGCCTGTTTTCAATGATTCAAAAAGAAGCCGATATCTCCGAAACTTCCAAGATATCAATCTTACAGCCTCTTGACCAGGAAGCAGGCGCAAGCATGACCGCGGCGATGAGCGACGATGAAATCATCTGCGGATGCAACGGTGTATCAAAAGGCGCGATTATTCAAGCCATTCAGGAAAAAGGCTGCACATCAACGGACGAAATCAAAGCATGCACCGGGGCATCCCGTTCCTGCGGAGGCTGTAAACCGCTCGTGGAAGACATTCTTCAATATACACTGGGCTCAGAATTTGACGCGTCCGCGCAAAAAGAAGCGATTTGCGGCTGCACCTCACTGTCGAGAGATGAAGTCGTAGAAGAAATCAAAGCCAAAGGGCTGTCCCATACAAGAGAAATCATGAACGTGCTCGGCTGGAAAACGCCGGAGGGCTGCTCCAAATGCCGTCCTGCCCTCAACTACTACTTAGGCATGATTAATCCGGCTACATACGAGGATGACAGAACATCCCGTTTTGTGAACGAACGGATGCACGCCAATATTCAAAAAGACGGAACATACTCAGTCGTGCCCCGTATGTACGGCGGCGTGACCAACTCTCAGGATCTCCGCAAGATCGCCGATGTCGTCGACAAATATGAGATCCCGCTCGTTAAAATGACCGGCGGCCAGCGGATTGATCTCATCGGCGTCAAAAAAGAAGACCTGCCGAAAGTATGGGCCGAGCTTGATATGCCGTCAGGCTACGCGTACGGAAAAACACTCCGCACGGTAAAAACGTGCGTAGGCGAACAATTCTGCCGCTTCGGCACGCAAGACTCCATGGCACTGGGCATTGCGCTTGAGAAAAAATTCGAAGGGCTCAATACGCCTCATAAGGTTAAAATGGCCGTGTCCGCCTGCCCTCGGAACTGTGCGGAATCAGGCATTAAGGACCTTGGCATTGTCGGCATCGACGGAGGCTGGGAGCTTTATGTCGGCGGAAACGGCGGAACCCATTTGCGCGCCGGTGATTTGCTGATGAAAGTAAAAACGAATGAAGAAGTCTTAGAATATGCGGGGGCTTACCTTCAGTACTACAGAGAAACGGCAAACTATCTGGAGCGGACATCCGCATGGCTTGAGCGCGTCGGTTTATCTCATGTCCAATCCGTATTAAACGATCCGGAAAAACGGCAGGAGCTCAACGACAGAATGAATGAGACACTCTCTGTCCACAAAGATCCGTGGCAATACTTCCTTAAAGATAAAAAAGCATCTAAAGATCTATTCGAAAATGTCGTCACGACTTCATAA	MGKKQLVLVGNGMAGVRAIEEILRVSKDEFEITIFGAEPHPNYNRILLSKVLQGDTDIQDITLNDWNWYKENNIQLYTGETVIKVDTENKTLITDADRIQPYDELILATGSVPFILPIPGADKQGVTAFRDIKDTDTMLAASKQYKKAAVIGGGLLGLEAARGLLNLGMDVSVIHLAPFLMERQLDAAAGRLLQNELEKQGMTFFLEKQTEEILGTDRVEGVRFKDGTSIEADLVVMAVGIRPNTQLGTESGIPVNRGIIVNDYMQTDIPHIYAVGECAEHRGIAYGLVAPLYEQAKVLAKHICGIETKPYEGSVLSTQLKVSGVEVFSAGDFNESEDKKAIKVFDEQDGIYKKIVLRGNQIVGAVLFGDSSEGSRLFSMIQKEADISETSKISILQPLDQEAGASMTAAMSDDEIICGCNGVSKGAIIQAIQEKGCTSTDEIKACTGASRSCGGCKPLVEDILQYTLGSEFDASAQKEAICGCTSLSRDEVVEEIKAKGLSHTREIMNVLGWKTPEGCSKCRPALNYYLGMINPATYEDDRTSRFVNERMHANIQKDGTYSVVPRMYGGVTNSQDLRKIADVVDKYEIPLVKMTGGQRIDLIGVKKEDLPKVWAELDMPSGYAYGKTLRTVKTCVGEQFCRFGTQDSMALGIALEKKFEGLNTPHKVKMAVSACPRNCAESGIKDLGIVGIDGGWELYVGGNGGTHLRAGDLLMKVKTNEEVLEYAGAYLQYYRETANYLERTSAWLERVGLSHVQSVLNDPEKRQELNDRMNETLSVHKDPWQYFLKDKKASKDLFENVVTTS	PGPT0000450_2263	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-12_03284	321	nasE	COG2146	Assimilatory nitrite reductase [NAD(P)H] small subunit	ATGGTTAATAAAGATATGACAAAGGTTTGCATAGGCAAAGTAAACGAATTACCGGAGGAGTTAGGAAAAACCGTATATATAGAAGATAAAGAGCTTGCCGTATTTAAGCTTTCTGACGGGAGCGTCCGCGCCGTCGAAAACCGCTGTCCCCATAAAGGGGGCGTCCTGGCTGAAGGCATCGTCAGCGGAGAATACGTCTTCTGCCCGATGCATGACTGGAAAATCTCCTTAGAAGACGGAAAAGTCCAAGAGCCGGATCATGGCTGTGTCAAAACATACGAAACACTGATTGAAGGAGAGAATGTATACCTCCTGTATTGA	MVNKDMTKVCIGKVNELPEELGKTVYIEDKELAVFKLSDGSVRAVENRCPHKGGVLAEGIVSGEYVFCPMHDWKISLEDGKVQEPDHGCVKTYETLIEGENVYLLY	PGPT0000455_1844	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
D1-12_03285	1440	nasF	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGAAAAACGGAATCGTATATTTTGTCGGTGCCGGCCCAGGAGACCCGGGGCTGATCACCGTAAAAGGAAAACAGGCTCTGGAGAAAGCGGATATTATTTTGTATGACCGGCTCGCAAACCCAAAGTTTCTTGAATATGCCTCACCGGACTGCCGGTTCATTTATTGCGGAAAGCTGCCCGACCGCCATTTTATGAAACAGTCTGAGATAAATGCCCTGCTGATTGAAAAAGCGGCGGAGGGCTGCACCGTCGTCCGCTTGAAAGGCGGAGACCCAAGTGTGTTCGGCAGAGTCGGCGAAGAAGCAGAGGCGCTTCATCAGCACGGCATCCGCTACGAAATGGTGCCCGGCATCACCTCGGGAATCGCAGCGCCGCTGTATGCGGGAGTCCCCGTCACCCATCGTGATTTCGCTTCGTCCTTCGCGATGATCACCGCTCATGATACATCATTGCAAGGCAGGCCGAATCTCGACTGGGAAGGGCTTGCCCGAAGCGTTCAAACGCTTGTGTTTTACATGGGCGTTAAAAATCTGTCATTTATATGCCGGCAGCTTACGGAGTACGGAAAATCCCCTTCCGTTCCCGTACTCGTCATTCAATGGGGGACGTGGGGGCGGCAGCGGAGTGTTAAAGGAACGCTTCAGGATATCCATGACAAAGTTCAAAGCCAAAACATCACCAATCCTGCCATTATCGTCATTGGTGATATTGTCAATTTTCAAACACACAGCTGGTTTGAAAGCAAACCGTTCATCGGGCGGCATATCATGGTTGTCACTCATGGCGATGATGAACATACACTGACAGACAAGCTGCGCGAGTATGGCGCCGATGTTATTGAATGGCCGAAGCGGATCGTTAAAAAAATGCCCGCAAACGAAAACATCCTGAAACAGATCAGCGCCTTTGAACAACTATTTTTCACATCGCGCCTTGCGGTATGCGAATTCTTTGACACACTGGCTTTCAAGCAGATCGACATCCGCCGGGTGACCGCAAGCCTGAATGCAGCAACTGAGGCCGCAAAGACGGAACTGACAAAACGGGGCTTTCTCCTATCCGAATGTCAAATTGATTCTCCGCATTCGCTCATTGTAGGAAGCCGTCAAGCAGCAGAAAACTTGTCAGACTCAAAATCATGCCCGCTTTATATCACCCATGAACATATCGCAGATGAGCGGTTCACTTCCATGATCGAACGCACGATCAGTGAGTCTCCTCTGCAAATGATTATCTGTACGGGCAAAGAATCCGCTCAGCATTTGATCAGCGCCGGAAAACAAATCGGCATATCACCGGATCCGTCGGCAAACCGCCCTCCCGTCATCTGCATGGGCGAAGACGTCCCCGCCGGCTGCGGGTTTACCGCTGTGAAAAACCAGGAGCAGTTATTTGCGTTTATACGAAATGAAATGAAAGACATGCTCGTTCACAGCTGA	MKNGIVYFVGAGPGDPGLITVKGKQALEKADIILYDRLANPKFLEYASPDCRFIYCGKLPDRHFMKQSEINALLIEKAAEGCTVVRLKGGDPSVFGRVGEEAEALHQHGIRYEMVPGITSGIAAPLYAGVPVTHRDFASSFAMITAHDTSLQGRPNLDWEGLARSVQTLVFYMGVKNLSFICRQLTEYGKSPSVPVLVIQWGTWGRQRSVKGTLQDIHDKVQSQNITNPAIIVIGDIVNFQTHSWFESKPFIGRHIMVVTHGDDEHTLTDKLREYGADVIEWPKRIVKKMPANENILKQISAFEQLFFTSRLAVCEFFDTLAFKQIDIRRVTASLNAATEAAKTELTKRGFLLSECQIDSPHSLIVGSRQAAENLSDSKSCPLYITHEHIADERFTSMIERTISESPLQMIICTGKESAQHLISAGKQIGISPDPSANRPPVICMGEDVPAGCGFTAVKNQEQLFAFIRNEMKDMLVHS	PGPT0003670_1093	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003670-cobA_hemD-K13542	NA	NA
D1-12_03286	1011	ycgT	COG0492	Ferredoxin--NADP reductase 1	ATGGCGGAAAATCATGAGGTGTACGACGTCACGATTATAGGCGGAGGCCCGATCGGCCTGTTTGCGGCTTTTTATTGCGGGATGCGCGAGCTGAAAACGAAAGTGATCGAGTTTTTGCCGCGGCTCGGAGGGAAAGTGTCTATGTTTTTCCCTGAAAAAATCATCCGTGATATCGGCGGAATACCCGGGATTGCCGGAGAACAGCTGATTAAGCAGCTGAAGGAGCAGGCGGCGACATTTGAGCCGGATATCGTGTTGAATCAGCGGGTGACCGGATTTGAACGGCTGGAGGACGGAACCATTGTGCTGGAAAGTTCCGAAGGGGAAAAGCACTATACACGCACGGTGATTTTGGCCGTCGGCATGGGGACGCTTGAGGTCAATGAACTTGACAGCGCGGATGCGAGCCGTTATTCGGGAAAGAACCTTCATTATAAGGTGGAGAAGCTGGATGCGTTTCAGGGGAAGCATGTCGTGATTTCCGGAGGGGGAGATACCGCGGTTGACTGGGCGAATGAGCTGGAACCGATTGCGGCGTCTGTTACCGTCTTGCACCGCAGGGAGGAGTTCGGCGGTTTGGAAAGCAGCGTGGCGAAAATGAAGCGGTCTTCCGTGCGGGTGCTTGCGCCGTATCGTCTGAAGCATCTCAACGGCACCGGAGAACTGATCGAGAGCGTCACCGTTTGCCAAACTGAGTCCGGACTTTCTGAAGTCATCAAGCTTGATGAGCTCATTATCAACCACGGGTTTAAAATTGATCTCGGTCCGATGAAGGACTGGGGGCTTGAGATAGAAGAAGGCAGGATTAAAGCTGATAGACATATGCGGACGAATCTTTCGGGCGTGTTTGTCGCCGGTGACGCCGCCCATTATGAAAGCAAGCTCAGATTGATTGCAGGCGGTTTCACGGAGGGGCCGACCGCCGTGAACAGCGCCAAAGCCTATTTGGACCCGCAGGCGGATCAGATGGCGATGTATTCGACTCATCATAAAAAATTGGTGACACAATAA	MAENHEVYDVTIIGGGPIGLFAAFYCGMRELKTKVIEFLPRLGGKVSMFFPEKIIRDIGGIPGIAGEQLIKQLKEQAATFEPDIVLNQRVTGFERLEDGTIVLESSEGEKHYTRTVILAVGMGTLEVNELDSADASRYSGKNLHYKVEKLDAFQGKHVVISGGGDTAVDWANELEPIAASVTVLHRREEFGGLESSVAKMKRSSVRVLAPYRLKHLNGTGELIESVTVCQTESGLSEVIKLDELIINHGFKIDLGPMKDWGLEIEEGRIKADRHMRTNLSGVFVAGDAAHYESKLRLIAGGFTEGPTAVNSAKAYLDPQADQMAMYSTHHKKLVTQ				NA	NA	NA	NA	NA
D1-12_03287	1236	putR_2		Proline-responsive transcriptional activator PutR	ATGGAAGAGCTTTTAGAGAGAGTTTTTTCATTTACGGACATTGATAAATTAATTGATTTCATCAGTTATGAATTGCAGAAGCCCGTTATTCTGGAAAGCGCGGATTTCTTTTTGCTTGCCTATAATTCTTATTACATTAATCACTTCGACTCCGCCAACCAGCAGACGATATTCTCAAAAAAATGCCCCGTGCAGATTTTTGAAAGGTTTCTGAAGGACGGGGTGATCGAAAAGCTGAAAACCGTTCCTGAACCGTTCCGTGTCGAAAAAATAGACAGTATCGGACTGAATCAGAGAGTGGTTGTAAGCGCAAAACATAAAGGGGAAGTGATGGGCTACATCTGGATTCAGGAGCTCGACCGAAACTTGACGGACGAGGAGCTCGATTTTTTATATGAAACTTCATTCCATGTCGGAAAAATCATCTATAAAACGAACCGGCTGAAACAGGAAAAAGAAGAGAGAGCGGAAGACCTGGTGAAACGGGCGATCTTTCAGCAATTCTCCTCTGAAAAGGAGTTCAGGCGGGAAGCGGAAAAGATGAACGCCGTGCTGCCGTCGGTTTTTTCGGTAGTCGTCCTGCATGCCGCAAATGGGGATGGGGAGGCAGTCGAAGATGTAAAGGAAAATATCAAATCGTACTTGAATTTGCGGGATAAAGTCAGCCACGTCTTAACCATTGATTCCAATATTGTCATCGTCGTCGCAAGCTTCTCGCAAAAAAGCTCCGGCACTTCGGCAGCATCTGAATTCATCCACAAACTGCTGACTCATTTTCACTTTCAGAAGATCCCCACTCCCATCTATATCGGAATCGGCAATGAATACAGCAGCATCCTGAAGCTCGGCAAAAGTTATATAGAAGCCCTTGAAGTTATAAAGGCCGCCGAAATTACCGGAAACCAGGAAAATATCCCGTACGAATACAGTAAGCTCGGGATTTACCGCTATCTTGAAAGCATCGAAGAAAAAAACGCCTCACTGGAATATGTAAACAATGATTTAGCGTTATTAAAAGCCAAAGACAGAGAAAGCAGTACAGAACTGCTGAAAACGTTAGAAATCTATCTCCTCAATAACTGCAAAACAAAACCAGCCGCAGAACAGCTTTTTATTCATCAAAACACATTGAACTACCGTATCAAACAGATTCTTGACATGACATCAATTAATTTAAACGACTTCAGGACAAGGTGCCAGCTGTATCTCGATATCATGCTGATGAAAAAGAGATAA	MEELLERVFSFTDIDKLIDFISYELQKPVILESADFFLLAYNSYYINHFDSANQQTIFSKKCPVQIFERFLKDGVIEKLKTVPEPFRVEKIDSIGLNQRVVVSAKHKGEVMGYIWIQELDRNLTDEELDFLYETSFHVGKIIYKTNRLKQEKEERAEDLVKRAIFQQFSSEKEFRREAEKMNAVLPSVFSVVVLHAANGDGEAVEDVKENIKSYLNLRDKVSHVLTIDSNIVIVVASFSQKSSGTSAASEFIHKLLTHFHFQKIPTPIYIGIGNEYSSILKLGKSYIEALEVIKAAEITGNQENIPYEYSKLGIYRYLESIEEKNASLEYVNNDLALLKAKDRESSTELLKTLEIYLLNNCKTKPAAEQLFIHQNTLNYRIKQILDMTSINLNDFRTRCQLYLDIMLMKKR				NA	NA	NA	NA	NA
D1-12_03288	1431	putP	COG0591	High-affinity proline transporter PutP	ATGGCGGGCATGCTGTTTATCGGTTATTTCGCCTACAGACGGACGTCGAATCTGACGGATTACATGCTCGGTGGGCGTTCTTTAGGCCCTGCCGTCACAGCGCTCAGCGCGGGAGCGGCGGATATGAGCGGATGGCTCTTGATGGGGCTTCCGGGCGCTATGTTCTCGACAGGATTAAGCGGCGCTTGGATTGTGCTCGGGCTTGTGCTCGGGGCGTGGGCGAACTGGCTTTTCGTGGCGCCGAGACTGAGAACGTATACCGAAAAAGCGGGGAATTCCATCACCATTCCGGGTTTCCTTGAAAACCGTTTCGGTGATCATACGAAGCTTCTCAGACTGTTTTCGGGTCTTGTCATTCTCGTCTTTTTCACATTTTACGTATCATCCGGCATGGTATCCGGAGGCGTCTTATTCAACAGCATTTTAGGGTTGAATTACCACACGGGACTGTGGGTCGTGACAGGCGTCGTTGTCGCCTACACCTTGTTCGGGGGCTTTTTGGCGGTAAGCTGGACGGACTTTGTCCAAGGGATCATTATGTTTGCGGCGCTTATTCTCGTGCCGATTGTGACGATTTTTCATACGGGCGGACCGGGGGAAACCGTTGCCGATATCCGTTCCGTCAACCCGGAACTGTTTAACATGTTCAAAGGGACGACCGTCCTCGGCATTATTTCTTTATTTGCGTGGGGGCTCGGCTATTTCGGGCAGCCGCATATTATTGTGCGCTTTATGGCGATCACATCTGTGAAAGAAATCAAACGCGCCAGACGGATCGGAATGGGATGGATGATTTTGTCTGCACTAGGCGCGCTGTTTACGGGTCTTGCGGGAATCGCGTATTACCATCAGCACGGACTGAAGCTGGCTGATCCGGAAACCATTTTTATTCAGCTCGGCAACATTCTGTTCCACCCGATTATTACGGGATTTCTCATTTCTGCGATTTTAGCGGCCATTATGAGTACGATTTCGTCTCAGCTGCTCGTTACGTCCAGTTCTTTAGTGGAGGACTTGTATAAGTCCATGTTCAGGCGTTCAGCTTCTGATAAGGAACTCGTATTTCTGGGGAGAATGGCAGTGCTTGCGGTGTCAATCGTCGCCCTGGTGCTCGCCTGGGAGAAAAACAACACGATACTTGGTCTTGTCAGCTATGCATGGGCGGGATTCGGCGCTTCATTCGGGCCGGTCGTACTGCTCAGTTTATTTTGGAAACGGATGACGAAATGGGGGGCACTCGCCGGCATGATTGCGGGAGCGATTACCGTAATCATTTGGGCGAATGCCGGTCTTTCAGACTTTTTGTACGAAATCATTCCGGGCTTTGCTGTAAGCCTTGCCGCTGTATTTGTCGTCAGCTTATTGACACAGGCTCCGTCAAAAGATGTCACAGATCAGTTTCATGAGTACCGTGATACACTTTCTCAATAA	MAGMLFIGYFAYRRTSNLTDYMLGGRSLGPAVTALSAGAADMSGWLLMGLPGAMFSTGLSGAWIVLGLVLGAWANWLFVAPRLRTYTEKAGNSITIPGFLENRFGDHTKLLRLFSGLVILVFFTFYVSSGMVSGGVLFNSILGLNYHTGLWVVTGVVVAYTLFGGFLAVSWTDFVQGIIMFAALILVPIVTIFHTGGPGETVADIRSVNPELFNMFKGTTVLGIISLFAWGLGYFGQPHIIVRFMAITSVKEIKRARRIGMGWMILSALGALFTGLAGIAYYHQHGLKLADPETIFIQLGNILFHPIITGFLISAILAAIMSTISSQLLVTSSSLVEDLYKSMFRRSASDKELVFLGRMAVLAVSIVALVLAWEKNNTILGLVSYAWAGFGASFGPVVLLSLFWKRMTKWGALAGMIAGAITVIIWANAGLSDFLYEIIPGFAVSLAAVFVVSLLTQAPSKDVTDQFHEYRDTLSQ	PGPT0013970_1581	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
D1-12_03289	1548	putC	COG1012	1-pyrroline-5-carboxylate dehydrogenase 2	ATGACTACACCTTATAAACACGAACCATTCACAAATTTCCAAGATCAATCGAACGTTGAAGAATTTAAGAAAGCGCTTGCGACGGTAAATGAGTATCTGGGAAAAGATTATCCGCTTGTCATCAACGGTGAAAAGGTAGAGACGGAAGCGAAAATCGTTTCAATCAATCCGGCTGATAAAGAAGAAGTCGTCGGAAAAGTGTCAAAGGCGTCCCAGGAGCACGCTGAGCAAGCGATTGAAGCAGCTGCGAAAGCGTTCGAAGAGTGGAGATACACCTCCCCTGAAGAAAGAGCGGCCGTTTTGTTCCGCGCAGCTGCCAAAGTCCGCCGCAGAAAGCACGAATTCTCCGCCCTGCTCGTCAAGGAAGCGGGAAAACCTTGGAACGAAGCTGATGCGGATACGGCGGAAGCCATCGACTTTATGGAATACTACGCGCGCCAAATGGTTGAATTGGCAAAAGGCAAGCCGGTCAACAGCCGCGAAGGCGAGAAAAACCAATATGTCTACACACCGACCGGCGTAACGGTCGTCATTCCGCCATGGAACTTCCTCTTTGCGATTATGGCGGGAACGACGGTGGCACCGATCGTAACGGGCAACACGGTCGTTCTTAAACCGGCAAGCGCGACACCGGTCATCGCGGCGAAATTCGTAGAAGTGCTTGAGGAATCAGGTCTTCCGAAGGGCGTTGTCAACTTTGTGCCGGGAAGCGGAGCGGAAGTGGGAGACTACCTCGTCGATCACCCGAAAACAAGCATCATTACGTTTACGGGATCACGTGAAGTCGGTACGAGAATTTTCGAACGCGCGGCGAAAGTGCAGCCGGGCCAGCAGCACTTAAAGCGTGTTATCGCTGAAATGGGCGGTAAAGATACGGTTGTTGTCGATGAGGACGCGGACATTGAATTGGCGGCTCAATCCATCTTTACATCAGCATTCGGCTTCGCTGGACAAAAATGTTCTGCAGGTTCACGTGCAGTTGTCCATGAAAAAGTGTATGATCAAGTATTAGAGCGCGTCATCGAAATCACTGAATCAAAAGTGACGGCAAGCCCTGACAGCGCTGACGTGTATATGGGACCTGTCATCGACCAAGGTTCTTACGACAAGATCATGAGCTACATCGAAATCGGAAAAGAAGAAGGCCGTTTAGTAAGCGGCGGCACCGGAGATGATTCAAAAGGCTACTTTATCAAGCCGACGATCTTCGCTGACCTTGATCCGAAAGCCAGACTCATGCAGGAAGAAATTTTCGGGCCGGTCGTGGCGTTTTCTAAAGTATCAAACTTTGATGAAGCACTGGAAGTGGCCAACAATACTGAATACGGTTTGACAGGCGCGGTCATTACAAATAACCGCAAACATATTGAACGGGCGAAACAGGAATTCCATGTCGGCAACCTGTACTTCAACCGCAATTGTACGGGAGCGATTGTCGGCTACCATCCGTTCGGAGGCTTCAAAATGTCCGGCACTGATTCAAAAGCGGGCGGCCCGGATTATTTGGCCCTCCACATGCAGGCGAAAACAATCAGTGAAATGTTTTAA	MTTPYKHEPFTNFQDQSNVEEFKKALATVNEYLGKDYPLVINGEKVETEAKIVSINPADKEEVVGKVSKASQEHAEQAIEAAAKAFEEWRYTSPEERAAVLFRAAAKVRRRKHEFSALLVKEAGKPWNEADADTAEAIDFMEYYARQMVELAKGKPVNSREGEKNQYVYTPTGVTVVIPPWNFLFAIMAGTTVAPIVTGNTVVLKPASATPVIAAKFVEVLEESGLPKGVVNFVPGSGAEVGDYLVDHPKTSIITFTGSREVGTRIFERAAKVQPGQQHLKRVIAEMGGKDTVVVDEDADIELAAQSIFTSAFGFAGQKCSAGSRAVVHEKVYDQVLERVIEITESKVTASPDSADVYMGPVIDQGSYDKIMSYIEIGKEEGRLVSGGTGDDSKGYFIKPTIFADLDPKARLMQEEIFGPVVAFSKVSNFDEALEVANNTEYGLTGAVITNNRKHIERAKQEFHVGNLYFNRNCTGAIVGYHPFGGFKMSGTDSKAGGPDYLALHMQAKTISEMF	PGPT0020210_2515	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
D1-12_03290	912	putB	COG0506	Proline dehydrogenase 2	GTGATTACAAGAGATTTTTTCTTATTTTTATCCAAGAGCAGCTTTCTCAATAAGATGGCGCGAAGCTGGGGAAGCCGTGTGGCAGCCGGCAAAATCATCGGAGGAATGGATTTCCGCAGTTCTATCCCGACAATCCGACATTTGAACAGCCAGGGGCTGTCAGTTACTGTCGATCATTTGGGGGAATTTGTCAACAGCGGTGATGTCGCGAAAGAACGCACCGAGGAGTGCATGCAGACCATCGCCTTAATCGCTGATGAACAGCTGAATTCCCAAGTGTCATTAAAAATGACGTCTTTAGGTCTTGATATAGATCTCGATCTCGTCTATGAAAATATGACGAAAATCCTCCAGACGGCTGAAAAACATAAAGTCATGGTGACGATTGACATGGAAGATGAAACGAGATGCCAGAAGACGCTGGATATCTTTAAAGACTTCCGGAGCCGGTATGAATATGTTAGCACCGTGGTGCAGGCTTATCTGTACAGAACGGAGAAGGATCTTGATGACCTCAGCCCGCTGAATCCGTTTCTGCGGCTTGTCAAAGGGGCCTATAAAGAATCGGAAAAGGTGGCCTATCCTGAAAAAAGCGACGTCGATGAAAATTATAAAAGACTCATCCGCAAACAGCTTTTAAAAGGACATTATACGGCAGTTGCCACGCATGATGACAAAATGATCGAGTTTACAAAACAGCTTGCCAAAGAGCACGGCATTCCAAACGACCGTTTTGAGTTTCAGATGCTGTACGGCATGCGCTCGCAAACCCAGCTCAGCTTGGTGGAAGAAGGATACCGCATGAGAGTCTACCTGCCTTACGGGGATGACTGGTACGGCTATTTCATGAGACGGCTCGCCGAACGCCCCTCAAACATCGCATTCGCCTTTAAAGGGATGACTAAGAAGTAA	MITRDFFLFLSKSSFLNKMARSWGSRVAAGKIIGGMDFRSSIPTIRHLNSQGLSVTVDHLGEFVNSGDVAKERTEECMQTIALIADEQLNSQVSLKMTSLGLDIDLDLVYENMTKILQTAEKHKVMVTIDMEDETRCQKTLDIFKDFRSRYEYVSTVVQAYLYRTEKDLDDLSPLNPFLRLVKGAYKESEKVAYPEKSDVDENYKRLIRKQLLKGHYTAVATHDDKMIEFTKQLAKEHGIPNDRFEFQMLYGMRSQTQLSLVEEGYRMRVYLPYGDDWYGYFMRRLAERPSNIAFAFKGMTKK				NA	NA	NA	NA	NA
D1-12_03291	786			hypothetical protein	ATGAAACAAAGGATCATCGAAGAATTAAAACGAATTGAAGCACAGCACGGCGTCAAGGTGCTTTACGCCGTAGAATCAGGGAGCCGCGCATGGGGATTTCCGTCAAGCGACAGCGACTACGATGTGCGGTTTCTCTATGTGCCGAAAAAAGAATGGTACTTTTCGATCGAACCGCATAGGGATGTCATAGAAGAGCCGATTCATGACATGCTAGACATCAGCGGCTGGGAACTGAGAAAAGCGCTGCGGCTTTTTAAAAAATCAAATCCGCCTCTTTTGGAATGGCTCTCTTCTGAGATGATCTATTATGAAGCTTTCTCAGCGGCTGAAAAGCTTCGAAAACTGAAAATCCGCGCCTTTTCGCCTGAAGCCTGCATTTATCATTATCTCAATATGGCAAAACGGAATGAAAAAACGGAATTGCAGGGCAGTGAAGTGAAGATTAAAAAGTATTTTTATGTTCTGCGTCCTCTCCTTGCCTGCAGATGGATTGAAACGTTCGGCTCCGTACCGCCGATGTCATTTCCCGTACTGGCCGATGCCTTATTGACGGATGAAGCGCTCATTTCTGAAATCAATATACTGCTTACAAGGAAAAAAAGCGGTCAGGAGCTGGCTCCGGAACCGAGAAATACGATGATTCATGCGTTTATAGAAGAAGAAATAGAACGCATCGGGCACTATGTCAAAACGATCAAAACGCCGAAACCTGACATAACGGAGGAACTGAATCAGCTATTGATTCAGACCGTCGAAGAGGCGTGGGGGGAAAAAGGCGGAAATTGA	MKQRIIEELKRIEAQHGVKVLYAVESGSRAWGFPSSDSDYDVRFLYVPKKEWYFSIEPHRDVIEEPIHDMLDISGWELRKALRLFKKSNPPLLEWLSSEMIYYEAFSAAEKLRKLKIRAFSPEACIYHYLNMAKRNEKTELQGSEVKIKKYFYVLRPLLACRWIETFGSVPPMSFPVLADALLTDEALISEINILLTRKKSGQELAPEPRNTMIHAFIEEEIERIGHYVKTIKTPKPDITEELNQLLIQTVEEAWGEKGGN				NA	NA	NA	NA	NA
D1-12_03292	957	cah	COG3458	Cephalosporin-C deacetylase	ATGCAATTATACGACTTGCCGCTCGACCAACTGCAAACCTATAAACCAAATAAAACCGCTCCTCATGACTTTTCGGATTTTTGGGCATCATCATTACATGAGCTTGCAAAGGAAGAGGCAAAGCCTGAATTGACGGCTGAAAGCTACCCGGCTGACGGTGTGAAAGTATTCCGGCTGACATACCGGAGCTTCGGCAAGGCGGAAATTGAGGGATGGTACGCCGTTCCCGACCGAAAAGGCCCGCATCCGGCCATCGTGAAATACCACGGCTACAACGCAAGCTATGACGGGGACATACATGACATCGTAAATTGGGCGCTTCACGGATATGCCGCGTTCGGGATGCTTGTCCGCGGCCAGCACAGCAGCACAGATACAAGCGTCTCACCGCATGGACACGTTCCCGGCTGGATGACGAAAGGGATTTTAGATAAAGATATATATTATTACCGCGGCGTGTACTTAGACGCCGTCCGGGCTTTGGAAGTCATCAGCGGCTTTGATGAAGTGGATGAAACGAGAATCGCCGTCATCGGCGGGAGCCAGGGAGGCGGACTTTCAATCGCCGCGGCGGCACTATCTGACATTCCGAGAGCGGTTGCGGCCGATTATCCTTATTTAAGCAATTTTGAGCGGGCCATTGATGTCGCTCTTGATGAGCCGTATCTTGAGATTAACTCCTTTTTCAGAAAGAACGGCAGCCCTGAAACGGAGAAGGCCGCGATGAATACACTGGCCTATTTTGATATCATGAATCTGGCGGACCGCGTAAAAGTTCCGGTGCTCATGTCCATCGGGCTGATTGACCGCGTGACTCCGCCGTCGACGGTGTTTGCCGCTTACAATCATCTGGAAACGGAAAAAGAATTGAAGGTGTACCGATATTTCGGACATGAATACATACCTTCTTTCCATACGGAAAAGCTGGCCTTTCTGAAAGCGCATCTGAAAGGCTGA	MQLYDLPLDQLQTYKPNKTAPHDFSDFWASSLHELAKEEAKPELTAESYPADGVKVFRLTYRSFGKAEIEGWYAVPDRKGPHPAIVKYHGYNASYDGDIHDIVNWALHGYAAFGMLVRGQHSSTDTSVSPHGHVPGWMTKGILDKDIYYYRGVYLDAVRALEVISGFDEVDETRIAVIGGSQGGGLSIAAAALSDIPRAVAADYPYLSNFERAIDVALDEPYLEINSFFRKNGSPETEKAAMNTLAYFDIMNLADRVKVPVLMSIGLIDRVTPPSTVFAAYNHLETEKELKVYRYFGHEYIPSFHTEKLAFLKAHLKG	PGPT0011020_749	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060	NA	NA
D1-12_03293	561	aroK	COG0703	Shikimate kinase	ATGAACGCAAAACGTGCCATTCCCGTAAGAGAAAGAAACATCGTACTGATCGGATTCATGGGTGTCGGAAAGACAACAATCGGCCAGCTGGTCGCTAAGAAATTATACAGAGACTTCATTGATATTGATTTGCAGATTGAGAAAGATTTCAATATGTCCATCCCTGAAATGTTTGAGAAAAAAGGTGAAGCCTTTTTCCGTCAGACCGAAAAGGATTATATATTAGATATCTGCCGCAATACGAAATTCAAGATCGTGTCACTTGGGGGCGGTTCGTTTAAACAAGAGGAAATCAGACAGTGCTGTCTTGAAAACTGTCTCGTGCTCCATCTTGATTTATCATGGGAGAATTGGAAGCAGCGGGCTGACCTGCTGATTGAAAGCCGTCCCGTTCTGCATAACCGTTCCATGGATGAAATGCAGCAGCTCTTTAACGAGCGCCAAAGCATCTATGATAAACATAATTCAAAAGTGGCGACGGATAATCTGGAACCAGAAGAAATCGCCGATTATATCGTAGAAACGTTAAAAATCGGCTGGGATCTGTATCAGCCGATGTAA	MNAKRAIPVRERNIVLIGFMGVGKTTIGQLVAKKLYRDFIDIDLQIEKDFNMSIPEMFEKKGEAFFRQTEKDYILDICRNTKFKIVSLGGGSFKQEEIRQCCLENCLVLHLDLSWENWKQRADLLIESRPVLHNRSMDEMQQLFNERQSIYDKHNSKVATDNLEPEEIADYIVETLKIGWDLYQPM	PGPT0012900_1518	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
D1-12_03294	1311	dgoT		D-galactonate transporter	TTGAAAAATGAAACGGAGCTGACGGACTTCAGTCCCGTCCGCAATAAACCGACTCGCGCTCGTTATGTGATACTGATTCTTTTGTTTTTTATCACTGCGATTAATTATATAGACCGTGCCAGTGTATCCATCGCCGCCCCGTCCATTCAGACATCGCTGAACATAAGCCCCGCGCTTTTGGGCGTCGTCTTTTCCGCATTCAGCTGGACTTATACGGGAATGCAGATTCCCGGCGGGCTCATTTTGGACAAATTCGGGTCAAAACGGACGTACGGCGTTTCTTTATTGATCTGGTCGGTTTTCACCGGAGTGCAGGCTTTTGCGGCCAGTTTCGGATTTTTATTCGGCTGCCGCCTGATTATCGGGCTGGCTGAATCGCCTGCGTTTCCGGCAAACAACCGGATTGTCACGACATGGTTTCCAAGGCGGGAACGCGCCTTTGCGACGGGTGCTTATACGGCGGGAGAATATGTGGGGCTGGCGTTCGCCACACCGGTTTTATTCTGGGTGTTAACGGCATTTGACTGGCGCGCCGTCTTTATTTCCTCAGGGGTGCTCGGGCTTGTTTTCTCCATTTTCTGGTTCAAAATGTATCACGAGCCGAATCGGTGCCGGAAAGTGAACCGGGAGGAGCTTGATTATATTAGAGAAGGCGGCGGACTGACAGAGGTGTCAGAATCAGCCGGCAGGATCACGTGGCCGGATTTCGTCCAGCTTCTTAAATACCGCAAGCTTGTCGGCTTGTATATCGGCCAGTTCGCCGTAGCCTCCACGCTGTTCTTCTTTTTGACATGGTTTCCGACTTATCTGGCGGAGGCAAAGCACATGGCTTTCTTAAAAGTCGGCTTCGCCGCATCAATTCCGTATATCGCCGCCTTTTTCGGCGTATTGTTCGGCGGATATTGGTCTGACGGAATGATGAAACGGGGCGTCTCGGTGAACGTTGCCCGGAAAACGCCCGTCATCCTCGGTCTTCTGCTGACAGGCTCCATCGTGCTCGCGAATGTTACGGATTCTGCTCCTGCGGTTTTGACGATCTTATCCATTGCTTCTTTTGCGCAGGGCATGTCCAATATATCCTGGACGATGCTGAGTGAGGTGGCGCCAAGCGAGACAATCGGATTGGCAGGAGGCGTGTTTAACTTTTTCGCCAATATGGCCGGCATTATCACCCCGCTTATCATCGGGTTTATCGTTTCTGCGACCGGTTCATATAACGGAGCGATTCTGTTTGTCGGCGCTGTCGCATTTATCGGGGCATTTTCTTATATTTTCATTGTCGGAAAGGTGGAGCGCATTACGCTCCGATAG	MKNETELTDFSPVRNKPTRARYVILILLFFITAINYIDRASVSIAAPSIQTSLNISPALLGVVFSAFSWTYTGMQIPGGLILDKFGSKRTYGVSLLIWSVFTGVQAFAASFGFLFGCRLIIGLAESPAFPANNRIVTTWFPRRERAFATGAYTAGEYVGLAFATPVLFWVLTAFDWRAVFISSGVLGLVFSIFWFKMYHEPNRCRKVNREELDYIREGGGLTEVSESAGRITWPDFVQLLKYRKLVGLYIGQFAVASTLFFFLTWFPTYLAEAKHMAFLKVGFAASIPYIAAFFGVLFGGYWSDGMMKRGVSVNVARKTPVILGLLLTGSIVLANVTDSAPAVLTILSIASFAQGMSNISWTMLSEVAPSETIGLAGGVFNFFANMAGIITPLIIGFIVSATGSYNGAILFVGAVAFIGAFSYIFIVGKVERITLR	PGPT0002190_528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
D1-12_03295	789	asbF		3-dehydroshikimate dehydratase	ATGAAACTGAGTTTTTGCACGACAGGATTTAAAAAAAAGCATATTTTCGACATCATTTCTTTCGCGAAGGAGCACTCCTTTGACGGAATCGAACTGTGGTACGGACACGCTAAACAATATATAGAGGAAATCGGCCCGCTCGACAGGCTTGATCAGCAGCTTCAGGAGGAAGGCATCGGGGTACCTGCCGTCAGTTTGTACACTGACTTCGCCACTCAGGATGAAAAGCAGGCGTTAAAGGATGTTCAAAGGGCATTAAGCGCGGCACGACAGCTGCACAGTCCCTTGATCAGAGTCTTTGCCGGCAATCTTCCTTCGCATCGGACGTCACCGGAAAAGTGGCAACGTGCGGTTGATCAATTTCAGCAGGCGGCACGGCTCGCAGATGACTATGAAGTCGATATCGGGCTTGAGATTCATTACGATACGTACGCGGATACACCGGAGGCGGCGCTGGCATTTTTGGAGGATGTCGGACATCCGCGGGTCCGCACCATTTTTGACGGCTCCAACCTACACGTCAATCACGTTGACCAAATGCCCGCTTTAGAAAAACTGTATCATACCGTCAGCCACATTCATCTGAAAAACTATCACTGGAATTTTGACAACTGGTATCTCAGCAAGCCAACTCCGATTTTTCAAGGAGATCTCGATCAAAAAGCATTTTTAAAAGAGCTGATGAACAGACAATATGACGGTTTTGTTTCTCTTGAGTATTTTGGAGAACATGCCTTTACGCATATAAAGGAATCGCTCCGCGAATATACGTCTGTTTTTTCCCGCTGA	MKLSFCTTGFKKKHIFDIISFAKEHSFDGIELWYGHAKQYIEEIGPLDRLDQQLQEEGIGVPAVSLYTDFATQDEKQALKDVQRALSAARQLHSPLIRVFAGNLPSHRTSPEKWQRAVDQFQQAARLADDYEVDIGLEIHYDTYADTPEAALAFLEDVGHPRVRTIFDGSNLHVNHVDQMPALEKLYHTVSHIHLKNYHWNFDNWYLSKPTPIFQGDLDQKAFLKELMNRQYDGFVSLEYFGEHAFTHIKESLREYTSVFSR	PGPT0003570_108	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003570-asbF-K15652	NA	NA
D1-12_03296	594	tmrB		Tunicamycin resistance protein	ATGATCATTTGGATAAATGGGGCTTTCGGTTCCGGAAAAACACAAACAGCGTTTGAACTGCACAGAAGACTGAAACCGTCTTACGTATATGATCCTGAAAAGATGGGGTTTGCGATGCGTTCGATGATACCGCCGGATATCGCTGATGATGACTTTCAAAGCTACCCTCTGTGGCGGGAATTCAATTACAGCATGCTTTCCTATTTGTCAGATACATATCAGGGCATCATCATTGTGCCCATGACCATTACGAACGATCAATACTTCCATGACATGATCAGCAGGCTGAGACAGGATGGCCGGACCATTCACCACTTTACCCTGCTGGCTTCAAAGAAAACATTGCTGAAACGCCTGCGCACCAGAGCGGAAGGAAAAAACTCCTGGGCCGCAAAACAAATCGACCGCTGCATCAACAGCCTGTCTCATAGCCTCTTCACAGAACATCTCCATACAGACCAAATGTCTATTCAGCAGGTCGCAGAAACGATCGCTGCCCAAGCAAATCTGCCTCTTGAGCCTGATTCGAGAGGCAGCCTTCGAAGATTCACCGACAGATTGATGGTGAATCTGAATCATATCCGCATCAAATAA	MIIWINGAFGSGKTQTAFELHRRLKPSYVYDPEKMGFAMRSMIPPDIADDDFQSYPLWREFNYSMLSYLSDTYQGIIIVPMTITNDQYFHDMISRLRQDGRTIHHFTLLASKKTLLKRLRTRAEGKNSWAAKQIDRCINSLSHSLFTEHLHTDQMSIQQVAETIAAQANLPLEPDSRGSLRRFTDRLMVNLNHIRIK				NA	NA	NA	NA	NA
D1-12_03297	279			hypothetical protein	ATGAAATTCAAAAAAGTGTTAACCGGTTCTGCGCTGTCTCTTGCCTTACTGATGTCTGCCGCTCCTGCCTTTGCCGCATCACCAACAGCATCCGTGGAAAATAGCCCAATCTCAACGAAAGCAGATGCCGGCATTAATGCCATCAAACTCGTTCAAAGCCCTAACGGCAACTTCGCTGCTTCTTTCGTTTTAGATGGAACAAAGTGGATTTTTAAAAGCAAATACTATGACAGCAGCAAAGGGTATTGGGTAGGGATTTATGAAAGTGTAGATAAATAA	MKFKKVLTGSALSLALLMSAAPAFAASPTASVENSPISTKADAGINAIKLVQSPNGNFAASFVLDGTKWIFKSKYYDSSKGYWVGIYESVDK				NA	NA	NA	NA	NA
D1-12_03298	819	nadE	COG0171	NH(3)-dependent NAD(+) synthetase	ATGAGCATCCAGAAACAAATTATGAATGATCTCCATGTAAAGCCCTCAATTGATCCGAAACAAGAAATTGAGGACAGAGTGAACTTTCTGAAACAATATTTAAAAAAAACAGGTGCCAAAGGCTTTGTGCTCGGCATCAGCGGGGGGCAGGATTCCACGCTTGCGGGACGCCTCGCCCAGTTGGCGGCTGAAAGCATCAGAGAAGAAGGCGGAAACGCTGAATTTATCGCCGTCCGCCTTCCGCACGGCACACAGCAGGATGAGGATGACGCCCAATTGGCGCTCAAATTCATTAAACCTGATAAATCATGGACATTTGATATTAAGTCCGCTGTCAGCGCGTTCGCTGATCAGTATAAAAAAGACACGGGCGATCAGCTGTCTGACTTTAACAAAGGAAATGTAAAAGCCAGAATGAGAATGATCGCTCAATATGCCATCGGCGGACAAGAGGGGCTGCTTGTCATCGGAACCGACCATGCGGCCGAGGCGGTGACCGGTTTCTTCACGAAATACGGTGACGGCGGAGCTGATCTGCTGCCGCTGACCGGATTAACGAAACGCCAGGGCAGACGTTTATTAGAAGAACTCGGCGCGCCGGAACGCCTGTATTTGAAATTACCGACGGCCGATCTGCTCGATGAAAAACCGCAGCAGACTGATGAGACCGAACTCGGCATCACATACAATGACATTGATGATTATTTAGAAGGCAAGGATGTTTCTTCCGAAGTGATTGAAGCGCTGGAAAAACGCTACCTCAGTACGGAGCATAAGCGCCAGGTGCCGGCATCGATGTTTGATGATTGGTGGAAATAG	MSIQKQIMNDLHVKPSIDPKQEIEDRVNFLKQYLKKTGAKGFVLGISGGQDSTLAGRLAQLAAESIREEGGNAEFIAVRLPHGTQQDEDDAQLALKFIKPDKSWTFDIKSAVSAFADQYKKDTGDQLSDFNKGNVKARMRMIAQYAIGGQEGLLVIGTDHAAEAVTGFFTKYGDGGADLLPLTGLTKRQGRRLLEELGAPERLYLKLPTADLLDEKPQQTDETELGITYNDIDDYLEGKDVSSEVIEALEKRYLSTEHKRQVPASMFDDWWK	PGPT0013445_2227	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
D1-12_03299	597			hypothetical protein	ATGACACAGCAATTTATCGTACCGCCGAAAAAAGGGCTCGGCCTGAAGGTTCACAAAGGGCAGATTATAAAAGTAGTCGATGTGGAAGGGCAGCAGGTGGCTGATTTTACGGCGTATCATGCCAAGGACTTTTATGAACATCTTGATCAGGGCGCGACGATTGATGCCAACCAGTCCATTCATGTAAAAACGGGTGATCATATTTATTCGAATTTATACAAGCCGATGCTGACGCTGATTGAGGATACAGTCGGCAAGCATGACCTGCTGCTTCCCGCCTGCCGTCCGGATATGAACAGGCTTTTATACGGAAAGCATAAAGACGAGCTCCAGGATACGTGCTATGACAATATGAGCGGGGCGCTTGAACCGTTCGGGGTGCCGCGGCCGCATATGCATTACCCATTTGCCATCTTTATGAACACGGTGCTCGATGAGAAGGGGAACTTATCAGTCGAAACGCCTCTTTCTGACGCGGGTGATTATGTACGGCTCCGTGCGGAAATGGATCTCGTCGTCGCGTTTTCATCCTGTCCGATTGAAAAAGGAAAATGCAACGGAGACAGCATCACGGCGCTGCGGGTGGAAATCAGCTGA	MTQQFIVPPKKGLGLKVHKGQIIKVVDVEGQQVADFTAYHAKDFYEHLDQGATIDANQSIHVKTGDHIYSNLYKPMLTLIEDTVGKHDLLLPACRPDMNRLLYGKHKDELQDTCYDNMSGALEPFGVPRPHMHYPFAIFMNTVLDEKGNLSVETPLSDAGDYVRLRAEMDLVVAFSSCPIEKGKCNGDSITALRVEIS	PGPT0001000_1711	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
D1-12_03300	1329	potE		Putrescine transporter PotE	ATGAGTAAATCACAGGACCAGCCTAAAGGGAATCTCGCTTGGTGGCAGCTCTCCTTAATCGGCGTCGGCTGCACAATCGGGACGGGCTTTTTTCTCGGGTCCAGCATCGCTATTGTCAAAAGCGGATTTTCCGCGCTGATCTCATTTCTTATTGCCGGGCTTGGCACCTATTTTGTCTTTGAGCAGCTCGCGAAGCTCTCGGCCAAACAGCCCGAAAAGGGGTCTTTTTGCGCTTATGCGAGAAAGGCTTTCGGCACTTGGGCCGGTTTCAGCAACGGATGGGTGTACTGGTCGTCCGAGATGCTGATCACTGGAAGCCAGCTGACAGCGATCTCGCTATTTACGAAGCATTGGTTTCCGAATGTGCCGCTGTGGATTTTCGCCTCCATCTATGCGGTGCTCGGTCTCTTGATTATATTTACGGGGCTGTCCGTTTTTCAAAAAACGGAAAATGTGCTCGCTGTTGTCAAGACGGCGGCGATTGTTATGTTTATCGTCATCGCCATATTGGCGCTGTGCGGTATATTTTCTCATAAACCGGATGTGCAGGTGCCGAACGAATCAAAGGATTTGTTCCCGCACGGAGCGATGGGGTTATGGACCGGATTGATTTATGCGTTTTACGCCTTCGGAGGAATTGAAGTCTTGGGGCTGATGACCGTGCATTTGAAAAAGCCGGAGGAAGCCTCAAAATCAGGCCGGCTGATGCTTGCCGTTCTTGCGGTGATTTACGTCATTTCTCTCGGCCTGGCGCTGCTGTTAGTGCCGCTGGGCAAATTCACCGAACAGGACAGCCCGTTTATTACATCGCTGAAGGGTTTTCATTTAGATATCATTCTTGATATTTTTAACGGGATTTTTATTATTGCGGGATTTTCCACGCTCGTCGCCTCGCTGTTTGCCGTGACGACATTGCTTTGTACGATGGCAGATGACGGAGATGCGCCGAAATGCTTCAGATTAAAGGAAAACAAAAAAATCTGCTGGCCTGCGCTCGGATTGACGTTTGCCGGACTCATCGTCTCCATCATCCTGTCATTGGTGCTGCCGAAAAATATATATGAACACATGACGACCGCGGCGGGCCTGATGCTTCTTTATACGTGGCTGTTCATTTTGTTCTCGGGCAAGAAACTGCTCGAAACGACAAAGATGGGAACCGTACAGATTGTTATCGCCCTTGTGCTGATTGTCGCGGCCGTCTACGGGACGCTGTTTGAGAAATCGAGCCGGCCCGGTTTTCTGGTCAGCCTTTGTTTTCTCGCCGTCATTGCGATCGTGACATGGATCGTACAAAAAAAGCAGGGACACAGCCCTGCCGGATCATAG	MSKSQDQPKGNLAWWQLSLIGVGCTIGTGFFLGSSIAIVKSGFSALISFLIAGLGTYFVFEQLAKLSAKQPEKGSFCAYARKAFGTWAGFSNGWVYWSSEMLITGSQLTAISLFTKHWFPNVPLWIFASIYAVLGLLIIFTGLSVFQKTENVLAVVKTAAIVMFIVIAILALCGIFSHKPDVQVPNESKDLFPHGAMGLWTGLIYAFYAFGGIEVLGLMTVHLKKPEEASKSGRLMLAVLAVIYVISLGLALLLVPLGKFTEQDSPFITSLKGFHLDIILDIFNGIFIIAGFSTLVASLFAVTTLLCTMADDGDAPKCFRLKENKKICWPALGLTFAGLIVSIILSLVLPKNIYEHMTTAAGLMLLYTWLFILFSGKKLLETTKMGTVQIVIALVLIVAAVYGTLFEKSSRPGFLVSLCFLAVIAIVTWIVQKKQGHSPAGS	PGPT0020806_196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020806-ycgH-K16237	NA	NA
D1-12_03301	762			hypothetical protein	ATGGCAAGCGAGCTGTACACAAAAAGTTGCCTTGAGGAAAAGTTATTGGATCTGCCAAATTGGCAGAGAATCGCTTTTGAGCTTCTATCAGAAAAAGTAGGCGATAAAGCGGACGCGTTTCCGTGCATTCCCGGACGTCAGGGATTTTTGACAGATCAGCTCCGGATATCCTTTGCGGGTGATCCCCGCGAAGAGGGAACCCCGGAGGAAGTGGGACTACTGCTGTCCGAGTACGGAAAGATCTCAAGGAATACCGGAAAATACGCGTCGCTGCTTGTGATTTTTGATACGCCTGAGGATTTAGCTGAGTATTATTCCATTGAGGCGTATGAAGAGCTGTTCTGGTCTTTTTTAAACCGGCTGAGCGGCTGCGATCCGAAAGACTGGCCGGAAGACATACCGGAAGACCCTGAACATTATAAATGGGAGTTCTGCTTTGACGGCGAGCCGTATTTTATTCTGTGCGCGACGCCTGCGCATGAAGCGAGACAAAGCAGAAGCTTCCCGTTTTTTATGCTGGCGTTTCAGCCGAGATGGGTTTTCGAAGGATTAAATGATTCAACCGCGTTCGGACGAAACATGAGCCGGCTGATCAGAAAACGCTTAGAGGCGTATGATGAAGCCCCTCTTCATCCCCGATTGGGGTGGTACGGAGGAAAAGACAATTTAGAATGGAAGCAATATTTCCTCCGTGATGATGAGACGCAAGTGTCAAAGTGTCCCTTTTCTTATTTGAAGAGACTGTTTAAACCGACGAAATAA	MASELYTKSCLEEKLLDLPNWQRIAFELLSEKVGDKADAFPCIPGRQGFLTDQLRISFAGDPREEGTPEEVGLLLSEYGKISRNTGKYASLLVIFDTPEDLAEYYSIEAYEELFWSFLNRLSGCDPKDWPEDIPEDPEHYKWEFCFDGEPYFILCATPAHEARQSRSFPFFMLAFQPRWVFEGLNDSTAFGRNMSRLIRKRLEAYDEAPLHPRLGWYGGKDNLEWKQYFLRDDETQVSKCPFSYLKRLFKPTK				NA	NA	NA	NA	NA
D1-12_03302	630			hypothetical protein	ATGAACATCTTTTTAAGCTACATCGTTCTCGGGCTGTCATTGTCAGCACCTGTCGGACCGGTCAATGCGGCGCAAATTGACAAAGGCATCAAAAACGGCTTTTGGCATGCATGGATTTTCGGTCTCGGCGCTATGGCCGCGGACGGGCTGTATATGATTCTGATCTATTTCGGGCTGTCTCAATTTTTGACCGCTCCTTTTGTAAAAACGTTTTTGTGGCTCTTCGGTTTTTTCGTGCTGACCTATACGGGAGTCGAAACGCTAAAAAATATCAGGGAAGCCATGAATGTCAGAAGCGGAAAAGGAAAACCGGCTTTTTACAAAACATTCGGCGCGGGATTTTTTATTTCTCTTTCCAATCCGCTGAGCATTTTATTCTGGCTCGGCATATACGGCAGCATCCTCGCTAAAACCGCTGAATCCTTCGATGCAAATCAGCTTTTGATTTACAGCTCCGGCATTCTTCTCGGCATTTTGATCTGGGATTTCTGCATGGCGGTCGCCGCGAGCACTTTCAGAAATCTCCTTCATGAAAAAGCGCTCCGCTGGCTGACGGGAGCGGCGGGTGTGTCTTTGATCGTTTTCGGGTTTTATTTCGGATGGCAGGGGATTCAAATGCTCATCTCATAA	MNIFLSYIVLGLSLSAPVGPVNAAQIDKGIKNGFWHAWIFGLGAMAADGLYMILIYFGLSQFLTAPFVKTFLWLFGFFVLTYTGVETLKNIREAMNVRSGKGKPAFYKTFGAGFFISLSNPLSILFWLGIYGSILAKTAESFDANQLLIYSSGILLGILIWDFCMAVAASTFRNLLHEKALRWLTGAAGVSLIVFGFYFGWQGIQMLIS	PGPT0020651_748	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
D1-12_03303	462			hypothetical protein	TTGTCAACAAGAAATACCAGAAGCGAGACGGAGGAAACCGCGATACAGTTATTCCGGAAGATGGCCACAAGAACGATCCTTTTTCATCAGGCCGCCGCTCAATCTCTCGGTCTGTTTCCGACCGATTTGAAATCAGCTGATATCTTAAATGAAGCAGGCCCGATGACCGCAGGCGAGCTTGGGAAAAAAACCGGCCTCAGCACAGGTTCGGTAACGGCGCTCATTGACCGGCTCGAAAAAGCGGGATATGTCATGAGGAAAAAAGACCCCGAAGACAAACGGCGTGTGATCATCGTGCCGCTGACAGCAGGAAAAGCGAATGTGAAGCAATTGTTCAGCTCCTTATCCCAGTCCACGATCAGCCTTTGCCGGCAATATAAAGAAGAAGAACTGCGGCTGATATTCGATTTTTTAGGAAAAGCGACGGACATGATGGAAGACGAGCTTGAGAAATTAAAATAA	MSTRNTRSETEETAIQLFRKMATRTILFHQAAAQSLGLFPTDLKSADILNEAGPMTAGELGKKTGLSTGSVTALIDRLEKAGYVMRKKDPEDKRRVIIVPLTAGKANVKQLFSSLSQSTISLCRQYKEEELRLIFDFLGKATDMMEDELEKLK				NA	NA	NA	NA	NA
D1-12_03304	1533	bmr3_3		Multidrug resistance protein 3	ATGGAACAAACAGCCGCGAAGGACGCCACGACAAAGTTTGTCGTCATCGGTCTTTTGCTGGGCATTTTAATGTCGGCTATGGATAATACAATCGTTGCCACTGCGATGGGAAATATCGTGGCGGACCTCGGAAGTTTCGATAAGTTCGCGTGGGTGACGGCATCATACATGGTAGCCGTTATGGCCGGTATGCCGATTTATGGAAAACTGTCCGATATGTACGGACGCAAACGTTTCTTTTTATTCGGTCTTATTCTTTTCTTAATCGGATCTGCATTATGCGGAATCGCCCAAACAATGGATCAGCTCATTATTTACCGCGTTATTCAGGGAATCGGCGGAGGCGCGCTGATGCCGATCGCCTTCACGATCATTTTTGATTTATTTCCGCCGGAAAAACGCGGAAAAATGTCGGGCATGTTCGGTGCCGTTTTCGGCCTTTCCAGCGTTCTCGGGCCGCTTTTAGGCGCGCTCATTACCGACTCCATCAGCTGGCACTGGGTGTTTTACATCAACGTGCCGATCGGTATTTTATCATTGTTTTTCATTCTGCGTTATTATAAAGAGTCCCTTGAACACAAGAAACAGAAAATCGACTGGGCCGGCGCAATCACGCTGGTGGTTTCCATTGTCGGTCTGATGTTCGCTCTTGAGCTCGGCGGAAAAACGTATGATTGGAACTCCGTGCAGATCATCGGTCTGTTCGCTGTATTCGCCGTGTTCTTTATCGCCTTTTTTATTGTGGAAAGAAAAGCGGAAGAACCGATTATCTCATTTTGGATGTTTAAAAACCGTTTATTTGCTACGGCACAGATTCTGGCGTTCCTTTACGGAGCCACGTTCGTCATTTTAGCGGTGTTTATCCCGATCTTCGTTCAGGCTGTGTACGGAAGCACCGCGACAAGCGCGGGCTTTATTTTGACGCCGATGATGATCGGTTCTGTTATCGGAAGTATGATCGGCGGAATTTTCCAGACGAAAGTGCGGTTCCGCAATTTAATGCTGATTTCCGTGGTCGCTTTCTTTATCGGAATGCTGCTGCTTTCCAATATGACACCGGATACGGCGCGTACGATGCTGACGGTATTCATGCTGATCTCAGGATTCGGCGTCGGCTTTAACTTCTCACTGCTGCCGGCCGCGTCCATGAACGATCTGGAGCCGCGTTACCGCGGAAGCGCCAACTCAACAAACTCGTTTTTGAGATCATTCGGCATGACACTCGGTGTGACGATTTTCGGAACCGTCCAGACGAATGTGTTTACCAATAAGCTCACAGATTCATTCAGCGGCATGAAAGGAGCGGGCGGCGCGATGCAGAACATCGGAAATCCGCAGGAGATCTTCCAGGCCGGCACGCGCGCTCATATTCCGCCGTACATTCTGGATCGCATTATTGACGCCATGTCGCAAAGCATCACATATGTATTTACGCTTGCGCTGGCGCCGATCGTCATTGCGGCCGTTACCATTTTGTTTATGGGAAAAGCGAGAGTAAAAACCTCTCAGGAAATGGCGAAAAAAGCGAATTAA	MEQTAAKDATTKFVVIGLLLGILMSAMDNTIVATAMGNIVADLGSFDKFAWVTASYMVAVMAGMPIYGKLSDMYGRKRFFLFGLILFLIGSALCGIAQTMDQLIIYRVIQGIGGGALMPIAFTIIFDLFPPEKRGKMSGMFGAVFGLSSVLGPLLGALITDSISWHWVFYINVPIGILSLFFILRYYKESLEHKKQKIDWAGAITLVVSIVGLMFALELGGKTYDWNSVQIIGLFAVFAVFFIAFFIVERKAEEPIISFWMFKNRLFATAQILAFLYGATFVILAVFIPIFVQAVYGSTATSAGFILTPMMIGSVIGSMIGGIFQTKVRFRNLMLISVVAFFIGMLLLSNMTPDTARTMLTVFMLISGFGVGFNFSLLPAASMNDLEPRYRGSANSTNSFLRSFGMTLGVTIFGTVQTNVFTNKLTDSFSGMKGAGGAMQNIGNPQEIFQAGTRAHIPPYILDRIIDAMSQSITYVFTLALAPIVIAAVTILFMGKARVKTSQEMAKKAN				NA	NA	NA	NA	NA
D1-12_03305	954	ldh_2	COG0039	L-lactate dehydrogenase	ATGATGAACGAACGAGTGAACAAAGTAGCATTAATCGGAGCAGGTTTTGTTGGAAGCAGTTATGCATTTGCGTTAATTAACCAAGGGATCACAGATGAACTTGTGATCATTGATGTAAATAGAGAAAAAGCCATGGGAGATGTCATGGATTTAAATCACGGAAAGGCATTTGCGCCTCATCCGGTCAAAACGTCTTACGGCACATATGAGGATTGCAAGGATGCCGATATCGTGTGCATCTGTGCAGGGGCCAATCAAAAACCGGGCGAAACGAGACTTGAGCTGGTCGAAAAAAATCTCGCCATTTTTAAAAGCATTGTCGGTGAAGTAATGGCAAGCGGATTTGACGGCATCTTCCTCGTTGCCACAAACCCGGTCGACATTCTCACTTATGCGACATGGACATTCAGCGGGCTGCCGAAAGAACGCGTCATCGGCAGCGGCACGACACTGGATTCTGCGCGATTCCGTTATATGCTGAGTGAATACTTCGGAGCCGCTCCGCAAAACGTACACGCCCACATTATCGGCGAGCACGGCGATACCGAGCTTCCTGTATGGAGTCACGCCAATATCGGCGGAGTGCCGGTGCAGCAATTGCTGGAGAAAAATGCAGCTTACAAACAGGACGAGCTGGATCAGATCGTTGACGATGTGAAAAACGCGGCCTACCATATTATCGAGAAAAAAGGCGCGACATATTACGGAGTGGCGATGAGCCTCGCCCGCATCACAAAAGCGATTTTGCGTAATGAAAACAGCATTTTAACCGTCAGCACATATCTGGACGGCCAATACGGTGTTAACGACGTCTTTATCGGCGTTCCGGCCGTCGTCAATCGGAACGGCATCGCAGGTGTGACGGAACTTGAGCTGAATGAAACAGAACAGGCTCAATTCAGCCGCAGCGCAAACGTGCTGAAAGATATTCTCGCTCCGCATTTCGCAGAGTAA	MMNERVNKVALIGAGFVGSSYAFALINQGITDELVIIDVNREKAMGDVMDLNHGKAFAPHPVKTSYGTYEDCKDADIVCICAGANQKPGETRLELVEKNLAIFKSIVGEVMASGFDGIFLVATNPVDILTYATWTFSGLPKERVIGSGTTLDSARFRYMLSEYFGAAPQNVHAHIIGEHGDTELPVWSHANIGGVPVQQLLEKNAAYKQDELDQIVDDVKNAAYHIIEKKGATYYGVAMSLARITKAILRNENSILTVSTYLDGQYGVNDVFIGVPAVVNRNGIAGVTELELNETEQAQFSRSANVLKDILAPHFAE	PGPT0001760_1721	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
D1-12_03306	1980	amyE		Alpha-amylase	ATGTTTAAAAAACGATTCAAAACCTCTTTACTGCCGTTATTCGCCGGATTTTTATTGCTGTTTCATTTGGTTTTGTCAGGCCCGGCGGGTGCAAACGCTGAAACTGCAAACAAATCGAATGAGGTGACCGATTCATCGGTCAAAAACGGGACCATCCTTCATGCATGGAATTGGTCATTCAATACGTTAACAGAAAATATGAAAGAGATTCGTGATGCGGGTTATGCAGCTATTCAGACGTCTCCGATTAACCAAGTAAAGGAAGGGAACCAAGGAGATAAAAGCATGTCGAACTGGTACTGGCTCTATCAGCCGACATCGTACCAAATCGGCAACCGTTACTTAGGCACTGAACAAGAATTTAAGGACATGTGTGCAGCCGCGGAAAAGTATGGCGTAAAAGTCATTGTCGATGCGGTTGTCAATCATACCACCAGCGATTATGGCGCGATTTCTGATGAGATTAAGCGTATTTCAAACTGGACCCATGGAAACACACAAATTAAAAATTGGTCGGACCGATGGGACATCACTCAAAATGCATTGCTTGGGCTGTATGATTGGAATACTCAGAATACTGAGGTGCAAGCCTACCTGAAAGGTTTCTTGGAAAGAGCATTGAATGACGGAGCAGACGGGTTCCGCTATGATGCCGCCAAGCATATAGAGCTTCCGGATGATGGGAATTACGGCAGCCAATTTTGGCCGAATATCACAAATACATCGGCGGAGTTCCAATACGGAGAAATCCTGCAAGACAGCGCGTCCAGAGATACTGCTTATGCGAATTATATGAATGTGACGGCTTCTAACTATGGGCATTCCATCAGATCCGCTTTAAAGAATCGTAATCTGAGTGTGTCGAATATCTCCCATTATGCATCTGATGTGTCTGCGGACAAGTTAGTCACATGGGTGGAATCACATGATACGTATGCCAATGATGATGAAGAGTCCACATGGATGAGTGATGACGATATTCGTTTAGGCTGGGCAGTGATTGGTTCCCGCTCAGGAAGCACGCCTCTTTTCTTTTCCAGACCTGAGGGCGGAGGAAATGGTGTAAGATTTCCCGGAAAAAGTCAAATAGGAGATCGCGGGAGCGCCTTATTTAAAGACCAGGCGATCACTGCGGTCAATCAATTTCACAATGAAATGGCCGGGCAGCCTGAGGAACTCTCAAATCCGAATGGCAACAATCAAATATTTATGAATCAGCGCGGCTCAAAAGGCGTTGTGCTGGCAAATGCAGGATCGTCTTCTGTCACCATCAATACTTCAACGAAATTACCTGACGGCAGGTATGATAATAGGGCCGGCGCCGGTTCATTTCAAGTAGCGAACGGCAAACTGACAGGTACGATCAATGCCAGATCCGCGGCTGTTCTTTATCCTGATGATATTGGAAATGCGCCTCATGTCTTTCTTGAGAATTACCAAACAGAGGCAGTCCATTCTTTCAATGATCAGCTGACGGTCACCCTGCGTGCAAATGCGAAAACAACAAAAGCCGTTTACCAAATCAATAATGGGCAGGAGACAGCATTTAAGGATGGAGACCGATTAACGATCGGGAAAGAAGATCCAATCGGCACGACATACAACGTCAAGTTAACCGGAACGAACGGCGAGGGTGCATCGAGAACCCAAGAATACACGTTTGTCAAAAAAGACCCGTCCCAAACCAACATCATTGGCTATCAAAATCCGGATCATTGGGGCAATGTAAATGCTTATATTTACAAACATGATGGAGGCGGGGCCATAGAATTAACCGGATCGTGGCCGGGGAAAGCCATGACTAAGAATGCAGATGGAATTTACACACTGACGCTGCCTGCGAATGCGGATACGGCCGACGCCAAAGTGATTTTTAACAATGGCAGCGCCCAAGTGCCCGGACAGAACCATCCCGGCTTTGATTATGTGCAGAATGGTTTGTATAACAACTCTGGTTTGAATGGTTATCTTCCGCATTAA	MFKKRFKTSLLPLFAGFLLLFHLVLSGPAGANAETANKSNEVTDSSVKNGTILHAWNWSFNTLTENMKEIRDAGYAAIQTSPINQVKEGNQGDKSMSNWYWLYQPTSYQIGNRYLGTEQEFKDMCAAAEKYGVKVIVDAVVNHTTSDYGAISDEIKRISNWTHGNTQIKNWSDRWDITQNALLGLYDWNTQNTEVQAYLKGFLERALNDGADGFRYDAAKHIELPDDGNYGSQFWPNITNTSAEFQYGEILQDSASRDTAYANYMNVTASNYGHSIRSALKNRNLSVSNISHYASDVSADKLVTWVESHDTYANDDEESTWMSDDDIRLGWAVIGSRSGSTPLFFSRPEGGGNGVRFPGKSQIGDRGSALFKDQAITAVNQFHNEMAGQPEELSNPNGNNQIFMNQRGSKGVVLANAGSSSVTINTSTKLPDGRYDNRAGAGSFQVANGKLTGTINARSAAVLYPDDIGNAPHVFLENYQTEAVHSFNDQLTVTLRANAKTTKAVYQINNGQETAFKDGDRLTIGKEDPIGTTYNVKLTGTNGEGASRTQEYTFVKKDPSQTNIIGYQNPDHWGNVNAYIYKHDGGGAIELTGSWPGKAMTKNADGIYTLTLPANADTADAKVIFNNGSAQVPGQNHPGFDYVQNGLYNNSGLNGYLPH	PGPT0018575_813	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
D1-12_03307	489			hypothetical protein	ATGAATCAGCGTCGGAACGGACTTTCAAACGTGAATGGAAAGAGTGAGAGTGTGAAAGAGAAAGAACGAATGATTTGGTCAGAAGTCGGAATGCTTGTGGGCACACTGTCTTTGCTTGACATCATCGTACGCGGACTTGTTCTGAACTGTCCGTTTAGGGAATGGGCCGGAAGCTTGGCGGTTTTCTTCATTATAATTGTTTATTATTGCATCAGGGCGGGAGCGTCGGGAATGCTCATGCCGAGAATAGACACCAAAGAAGAACTGCAAAAGCGGGTGAAGCAGCAGCGGATAGATTCAATTGCGGTCACTTTTGCGGCAGCGGCGCTTACGATGTACGACAGGGGGTTTCCCCATACATTCTTTGCTTGGCTGAAAATGATCTTTCTTTTTATCGTCTGCGGAGGCATTCTGTTTCTGCTTCGGTATGTCATTGTGAAGCTGTCTTACAGAAGAGCGATAAAAGAAATAAAAAAGAAATCATCTTGA	MNQRRNGLSNVNGKSESVKEKERMIWSEVGMLVGTLSLLDIIVRGLVLNCPFREWAGSLAVFFIIIVYYCIRAGASGMLMPRIDTKEELQKRVKQQRIDSIAVTFAAAALTMYDRGFPHTFFAWLKMIFLFIVCGGILFLLRYVIVKLSYRRAIKEIKKKSS				NA	NA	NA	NA	NA
D1-12_03308	1281			hypothetical protein	GTGACGTCCGCCGTCCCGGGAAGCTATCATTCTTTGAACCAGTCTCCGGTCAGCCCGATCGCTTTTTTTACCGCGATTCAGGAAGGGATGACAAGTTCCGCGCCGATTATTTTTTTAATCCTGTTTACAGGCGGCACCATTGCGATTTTGGAGAAAACGGGCGCCATCAATGGATTGATCAATAATGTCATCAGTACGTTCCGCACAAAACAGCTGCTGTTTATTGCGATTGTCGGATCTCTATTTTCGATCCTCGGTACAACCGGCATCATCGTTAATTCCGTGATCGGCTTTATTCCGATCGGCCTGATTGTCGCCCGTTCGCTGAAATGGGACGCCGTGGCCGGAGCGGCAGTCATTTATATCGGCTGTTATGCCGGGTTTAACGCGACGATTTTATCACCTTCACCGCTCGGGTTATCACAAAGCATCGCGGAGCTGCCGCTGTTTTCCGGCATCGGCCTGCGGATTGCCGTCTACATTTGTTTTCTGCTATCATCTATTTTATATATTTATCGGTATACGAGAAAACTCAGAAAAGCAAAGGAAGCCAGTCTGCTGGGGAACGATTGGTTTCCGGCGGCAGGTTCACTCCCGCAGGTTTCTGAGCCGGAGGACAAGCATGTCCCGTTTACTGTCCGCCATAAACTGATTCTGGCTGTTGCGGCTTTGTCGCTTGCCGGCTTTTTATACGGTGCGCTTACTCTTGGCTGGTCTGATTCAGAGATGGCCGCCGTGTTCATTTTTATCTCAATCGTGTCCGGCCTGATTGCGGGAATGGCGGCAAATGATGTCGCAAAAACATTTATTACAGGCTGTCAGGGGCTCGTTTACGGCGCGCTGATCGTCGGAATGGCGAGAAGCATTTCCGTTATCCTGGAACATGGAAAGCTGCTTGATACGGTAGTCAATGGACTTGCGTCACTGCTGCACGGTTTCAGCCCGATGGCAGGCGCAATCGGGATGTATATTTCCAGCGCCCTGCTTCATTTTCTGATTTCATCGGGCTCAGGGGAGGCGGTCGTATTTATTCCGATCTTGGCGCCGCTTGCCGATCTGATGGGCATCACGAGACAGGTCGCGGTTGAAGCGGTCATGCTCGGAGAAGGCGTCGTAAACTGTGTCAATCCGACTTCCGGCGTGCTGATGGCCGTACTGGCTGCCAGCGGCATTCCGTACGTAAAGTGGCTTCGCTTCATGATTCCGCTGGCGCTGATTTGGTTTGTCATCGGCCTCGTGTTTATTTGCATAGGCGTCCTGATCAATTGGGGTCCTTATTAA	MTSAVPGSYHSLNQSPVSPIAFFTAIQEGMTSSAPIIFLILFTGGTIAILEKTGAINGLINNVISTFRTKQLLFIAIVGSLFSILGTTGIIVNSVIGFIPIGLIVARSLKWDAVAGAAVIYIGCYAGFNATILSPSPLGLSQSIAELPLFSGIGLRIAVYICFLLSSILYIYRYTRKLRKAKEASLLGNDWFPAAGSLPQVSEPEDKHVPFTVRHKLILAVAALSLAGFLYGALTLGWSDSEMAAVFIFISIVSGLIAGMAANDVAKTFITGCQGLVYGALIVGMARSISVILEHGKLLDTVVNGLASLLHGFSPMAGAIGMYISSALLHFLISSGSGEAVVFIPILAPLADLMGITRQVAVEAVMLGEGVVNCVNPTSGVLMAVLAASGIPYVKWLRFMIPLALIWFVIGLVFICIGVLINWGPY				NA	NA	NA	NA	NA
D1-12_03309	147			hypothetical protein	ATGGCTGTTCCCAAGGCCGAACCTGTATTGAAAAAGAAGAAATTGTTTGTGATGCCTGATGCTTATGTGCTGCTGTTCATTGTCGCTTTACTATGCGCGATAGCATCGTACATCGTTCCCGCGGGGGAATTTGACAGGGTGACATAG	MAVPKAEPVLKKKKLFVMPDAYVLLFIVALLCAIASYIVPAGEFDRVT				NA	NA	NA	NA	NA
D1-12_03310	1122	scmP_2	COG1473	N-acetylcysteine deacetylase	ATGAACAGACTCACAGAGCATGAAAAGCAAGTCATTATGGATATTTTTGACCACCTGCACGCCAATCCCGAAGTAAGCTGGAAAGAATATCAAACAACTGAATATCTGACTGAAAAACTGAAAGCGGCCGGCTGCCGGACCCGCACGTTTGATGATTGTACCGGTGTTGTCGGCGAAATCGGAGAAGGCTCGCCCGTTGTGGCTGTCCGGGCGGATATTGACGCGCTGTGGCAGGAAGTGGACGGTGTCTTTCAGGCGAACCATTCATGCGGACATGATTCACATATGACGATGGCGCTCGGCACGATGATGCTTTTAAAAAGTCAGCCGCAGCTTCCGAAGGGCACCATCCGCTTTATTTTTCAGCCGGCGGAAGAAAAAGGCGGCGGAGCGCTGAAAATGATTGAAAAAGGCGTACTGGGTGATGTTGACTTCCTATACGGCGTGCACGTGCGCCCCGTACAGGAAACGGCAAACGGCCGATGCGCACCGTCCATTCTGCATGGCTCAAGCCAGCATATTGACGGCCTGATTATCGGAGAAGAAGCCCACGGCGCGAGACCGCATCTCGGCCTTAACAGTATCGAAATCGCCGCTCTTCTCGTCCAAAAACTCAGCTTCATTCATCTTGATCCCGGCATCCCGCATTCCGTGAAGATGACAAAGCTTCAGGCAGGCGGAGAGAGTTCCAATATCATCCCGGGAAAAGCATCGTTCAGCCTTGATCTCCGCGCACAGACCAATGCCGCCATGGAGAAATTAACCGCCGAAACCGAAAGAGCCTGCGAAGCGGCTGCTGCCGCATTCGGCGCAAAAATTGAACTGCAAAAAGAACACAGCCTCCCGGCAGCCGAGCGAAACAAGGAGGCGGAAGCCATCATGGCATCTGCGATAAGCGGCATTCTCGGAGAAGAACATGTGGATGAACCTCTTGTGACAACCGGTGGAGAGGATTTTCATTTTTACGGGTTAAAGGTGCCGAACTTGAAAACGACGATGCTCGGCCTGGGATGCGGTCTGGAGCCGGGACTTCACCATCCGCATATGACATTTGACCGAAGCGCCATCTTTACTGGCGTTGAGATATTAACGGCCGCCGTCCTCAAATCGTTTGAAGCTTAA	MNRLTEHEKQVIMDIFDHLHANPEVSWKEYQTTEYLTEKLKAAGCRTRTFDDCTGVVGEIGEGSPVVAVRADIDALWQEVDGVFQANHSCGHDSHMTMALGTMMLLKSQPQLPKGTIRFIFQPAEEKGGGALKMIEKGVLGDVDFLYGVHVRPVQETANGRCAPSILHGSSQHIDGLIIGEEAHGARPHLGLNSIEIAALLVQKLSFIHLDPGIPHSVKMTKLQAGGESSNIIPGKASFSLDLRAQTNAAMEKLTAETERACEAAAAAFGAKIELQKEHSLPAAERNKEAEAIMASAISGILGEEHVDEPLVTTGGEDFHFYGLKVPNLKTTMLGLGCGLEPGLHHPHMTFDRSAIFTGVEILTAAVLKSFEA	PGPT0013588_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013588-opuAC-NA	NA	NA
D1-12_03311	882	opuAC	COG2113	Glycine betaine-binding protein OpuAC	ATGCTTAAGAAAATCATCGGTGTCGGCGTTACCGCTGCGCTGGCTCTTTCTTTGGCTGCCTGCGGTTCGCAGACTGATGGTAAGGCAACGGCTGCGGACCAGGTGAACAAAACCATTATCGGTATTGATCCGGGATCGGGGATCATGGCCCTGACGGATGAGGCCGTGAACGATTACGGATTGAAAGACTGGAATGTCGTCACGGCGTCAAGTGCTGCCATGACGGCGACATTGAAGAAATCATATGACCGGAAAAAGCCGATCATCGTAACGGGCTGGACGCCGCACTGGATGTTCTCCAGATACAAGCTGAAGTTCCTTGATGATCCGAAAAAAACGTACGGAACTGCCGAGCAGATTCATACGATTACAAGAACCGGCTTCAGTAAGGAACAGCCTAACGCGGCCAAAGTTCTCAGCCAGTTCAAATGGACGCAGGACGATATGGGAGAAGTCATGATTGCCGTTGAGGAAGGCGAAAAGCCGGCCAAAGCCGCTGCTGAATATGTGAAAAAACATAAAGATCAAGTAGCTCAATGGACAAAAGGCGCTCATAAAGTAAAAGGTGATAAAATCAACCTGGCTTATGTGGCGTGGGACAGTGAAATCGCAAGTACGAACGTGGTCGGAAAAGTATTTCAAGACCTCGGCTATGACGTGAAGCTGACGCAAGTGGAGGCAGGACCGATGTGGACTGCGATTGCGACAGGCAGCGCGGATGCGTCATTGTCTGCTTGGCTTCCGAATACCCATAAGGCATATGCGTCTAAATATAAAGGCAAATATGAAGATGTGGGAACGAGTCTGACAGGCGTCAAGATGGGTCTGGTCGTTCCTCAGTATATGAAAAACGTCAATTCAATTGAAGATTTGAAGAAGTAA	MLKKIIGVGVTAALALSLAACGSQTDGKATAADQVNKTIIGIDPGSGIMALTDEAVNDYGLKDWNVVTASSAAMTATLKKSYDRKKPIIVTGWTPHWMFSRYKLKFLDDPKKTYGTAEQIHTITRTGFSKEQPNAAKVLSQFKWTQDDMGEVMIAVEEGEKPAKAAAEYVKKHKDQVAQWTKGAHKVKGDKINLAYVAWDSEIASTNVVGKVFQDLGYDVKLTQVEAGPMWTAIATGSADASLSAWLPNTHKAYASKYKGKYEDVGTSLTGVKMGLVVPQYMKNVNSIEDLKK	PGPT0013588_97	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013588-opuAC-NA	NA	NA
D1-12_03312	849	opuAB	COG4176	Glycine betaine transport system permease protein OpuAB	ATGGACAGATTGCCTAGAATTCCGTTAGCAGATATCGTTGACCGGTTTGTTGACTGGCTTACCATGACGTTCGGAGGTTTCTTTGACGGAATCTCAAACGGTTTGGCCGCTTTCGTAAACGCGATTGTGAGCGGTTTGGGTTTCATCCCGTCTATTTTATTGACTGTTATTTTTGCAGCTCTCGCTTGGTGGATCAGTACGAGAGGAATTGCACTCTTTACGTTAATCGGATTCCTTGTTATTGATTATTTGGGCTATTGGTCGCCGATGCTGCAAACGTTGGCGCTTGTCGTCACATCTGTTTTGATTTCCATTATTATCGGGGTTCCGATCGGCATATGGGCGTCTCAGAAAGAAACGGTCCGCCGCATTGTCACACCGATTCTGGATTTAATGCAGACCATGCCGGCTTTCGTATATCTGCTGCCTGCAATTTTCTTCTTTAATATCGGGGTTGTGCCAGGCGTCGTAGCATCTGTTATTTTCGCGATGCCTCCGACGATCCGCATGACGGTTCTCGGTATTAAACAAGTTCCGGCTGATTTGATCGAAGCGACGGAAGCATTCGGTTCAACGACGTCTCAGCGTCTGTTCAAGGTCCAGCTTCCGCTTGCCACAAAAACGATTCTTGCCGGTATTAACCAAAGCATCATGCTTGCTTTGTCAATGGTCGTTATCGCGGCCATGGTCGGTGCGCCGGGCCTCGGTTCTGAAGTATACAGCGCCGTGACACAGTTGAAAACCGGTGTCGGAGTGGAAGCGGGTATCGCGATCGTCATCGTAGCGATTACACTCGACCGTATCACGCAAAACATTAAAGTGAAGAAGAAGAGCAGGGGGAATGCCTGA	MDRLPRIPLADIVDRFVDWLTMTFGGFFDGISNGLAAFVNAIVSGLGFIPSILLTVIFAALAWWISTRGIALFTLIGFLVIDYLGYWSPMLQTLALVVTSVLISIIIGVPIGIWASQKETVRRIVTPILDLMQTMPAFVYLLPAIFFFNIGVVPGVVASVIFAMPPTIRMTVLGIKQVPADLIEATEAFGSTTSQRLFKVQLPLATKTILAGINQSIMLALSMVVIAAMVGAPGLGSEVYSAVTQLKTGVGVEAGIAIVIVAITLDRITQNIKVKKKSRGNA	PGPT0013587_143	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013587-opuAB-NA	NA	NA
D1-12_03313	1257	opuAA	COG4175	Glycine betaine transport ATP-binding protein OpuAA	ATGAATTTGGATGAGAAACCAATTAAGATAAAAGTCGAAAATGTATCTAAGGTTTTCGGAAAACAGACAAAAAAAGCCATTCAGATGCTGTCCAGCGGAAAAAACAAAAAAGAGATCCTGAAAGCGACCGGATCAACCGTTGGTGTCAATCAAGCAAACTTTGATGTATATGATGGGGAGATATTTGTCATCATGGGTCTATCGGGGAGCGGTAAATCAACTTTAGTTCGGCTGTTAAACCGGCTTATTGAACCGACTGCCGGGAATATTTATATTGATGGTGACATGATAACAAATATGTCAAAAGACCAGCTCCGGGAAGTGCGCCGGAAAAAAATCAGCATGGTCTTTCAAAAATTTGCGCTGTTTCCGCACAGAACAATTCTTGAAAATACGGAATACGGCCTGGAGCTTCAAGGCGTCGACAAAAAAGAGCGTGAGCAAAAAGCGCTTGATTCGCTTAAACTTGTCGGTCTTGAAGGCTTTGAACACCAATTCCCAGATCAGCTCAGCGGAGGAATGCAGCAGCGTGTCGGACTTGCCCGCGCATTGACGAATGATCCTGACATTCTTCTGATGGATGAAGCTTTCAGTGCGCTTGATCCGCTGATCCGCAAAGACATGCAGGATGAGCTTTTAGACCTTCATGACTCTGTCGGCAAGACGATCATCTTCATCACGCATGATCTTGATGAAGCATTGCGCATCGGCGACAGAATCGTGCTGATGAAAGACGGTAACATCGTTCAGATCGGGACGCCTGAAGAAATTCTGATGAGCCCGTCCAATGAATACGTTGAGAAATTCGTTGAGGACGTTGATTTATCCAAAGTTCTGACAGCGGGCCACATCATGAAGCGCGCTGAAACCGTGCGGATTGACAAAGGGCCTCGTGTAGCGCTGCAGCTCATGAAGAATCTCGGTATTTCTTCTATTTACGCCGTTGATAAACAGAAACAGCTTCTCGGCGTCATTCACGCGGCGGATGCGAAAAAAGCGGTGGAATCCGACTTATCACTTCAGGATATTTTAAATACTGAATTTACGACTGTGCACGAAAGCACGTACTTGACGGAAATTTTCGATGTCGTGTCTGATGCGAATATTCCGATCGCCGTCACGGACGATAAGGACCGCATGAAAGGCATTGTCGTGAAAGGCGCATTAATCGGCGCGCTTTCAGGAAATAACGATTATATAAATGTTGAAGATTCTGCTGAACAAGCTCAGGATTCTTCTGTTCAGGGGGTGAAGTAA	MNLDEKPIKIKVENVSKVFGKQTKKAIQMLSSGKNKKEILKATGSTVGVNQANFDVYDGEIFVIMGLSGSGKSTLVRLLNRLIEPTAGNIYIDGDMITNMSKDQLREVRRKKISMVFQKFALFPHRTILENTEYGLELQGVDKKEREQKALDSLKLVGLEGFEHQFPDQLSGGMQQRVGLARALTNDPDILLMDEAFSALDPLIRKDMQDELLDLHDSVGKTIIFITHDLDEALRIGDRIVLMKDGNIVQIGTPEEILMSPSNEYVEKFVEDVDLSKVLTAGHIMKRAETVRIDKGPRVALQLMKNLGISSIYAVDKQKQLLGVIHAADAKKAVESDLSLQDILNTEFTTVHESTYLTEIFDVVSDANIPIAVTDDKDRMKGIVVKGALIGALSGNNDYINVEDSAEQAQDSSVQGVK	PGPT0013630_286	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
D1-12_03314	1203	naiP		Putative niacin/nicotinamide transporter NaiP	ATGAACAAACAACCTGCCGTCACTCCGCGAAAACTTCTGGCGATTGCCGGAATGGGCTGGCTGTTTGATGCGATGGATGTCGGAATTTTATCGTTTATTATCGCCGCGCTTCACACTGATTGGAATTTAACACCCGATCAAATGAAATGGATCGGAAGCGTCAATTCCATCGGTATGGCAGCGGGCGCCTTTGTATTCGGAATGCTGGCCGACAGGATCGGCCGGAAAAAAGTGTTTATGATCACGCTGTTATTCTTTTCTGTCGGAAGCGGCATATCCGCTTTCGCAACGGGATTGACGGTTTTTCTCATATTGCGTTTTCTGATCGGAATGGGGCTTGGCGGGGAACTGCCTGTCGCCTCAACGCTCGTGTCAGAAGCGTCCGCTCCCGAAAAGCGGGGACGGATCATCGTGCTGCTTGAGAGCTTTTGGGCCGCGGGCTGGCTTCTTGCGGCGGTGATTTCCTACTTTGTCATACCGTCATTCGGCTGGCAGGCCGCGCTGCTCTTAACGGCGCTGGCCGCATTTTATGCGCTGTACTTGCGGAAAAGCCTTCCGGAATCACCGGCGCATCAGGCATTGCCGCAGAAAAAAAGCATACGCGGGCAGGCGGGAAGTGTCTGGACGAAACCGTATATCCGGCCGACGGTGCTGCTGTCTGTCGTTTGGTTCTGCGTCGTCTTTTCATATTACGGCATGTTTTTATGGCTGCCGAGCGTGATGCTGATGAAAGGCTACAGCATGATTGAGAGCTTCGAATACGTCCTTCTGATGACACTTGCTCAGCTTCCCGGATATTTCTCTGCGGCGTGGCTGATCGAAAAAGCGGGGCGGAAGACCATCTTAGTCATCTATTTGCTCGGAACGGCGGGCAGCGCTTATTTCTTCGGTGCCGCGGATTCATTGGCCATGCTGCTCACAGCGGGCATGCTGCTGTCCTTCTTCAATCTCGGCGCATGGGGCGTGCTTTACGCCTATACACCGGAGCAGTATCCTGCGGCGATCCGTGCGACCGGTTCCGGCACAACGGCGGCTGTCGGCAGAATCGGCGGCATTTTCGGTCCGCTTCTCGTCGGATCGCTTGCAGCCCGGAACGTTTCGTTTACTGCAATTTTCGCCGTCTTTTGTGCGGCCATCCTGGTTGCTGTCATCACGATTCTTATTCTCGGAAAAGAAACGAAACAGACAGAGCTTGCGCAATGA	MNKQPAVTPRKLLAIAGMGWLFDAMDVGILSFIIAALHTDWNLTPDQMKWIGSVNSIGMAAGAFVFGMLADRIGRKKVFMITLLFFSVGSGISAFATGLTVFLILRFLIGMGLGGELPVASTLVSEASAPEKRGRIIVLLESFWAAGWLLAAVISYFVIPSFGWQAALLLTALAAFYALYLRKSLPESPAHQALPQKKSIRGQAGSVWTKPYIRPTVLLSVVWFCVVFSYYGMFLWLPSVMLMKGYSMIESFEYVLLMTLAQLPGYFSAAWLIEKAGRKTILVIYLLGTAGSAYFFGAADSLAMLLTAGMLLSFFNLGAWGVLYAYTPEQYPAAIRATGSGTTAAVGRIGGIFGPLLVGSLAARNVSFTAIFAVFCAAILVAVITILILGKETKQTELAQ	PGPT0014435_2121	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
D1-12_03315	1089			TelA-like protein	ATGACAGAAAATCAAAATCCGCTTGTTCTTGATAAAAATGAAGAGATTTCTGAACAGAAAGCAGATGACATCAGGGTGCAGCTGCGCCAAGACCCTGAGGTGCAGCGCATTTCGCAGCAGATTGACGTGAAAAACCAAATGGAGCTGCTTGAGTACGGAAAAGAACCGGCAGTTGAAATCTCGAAGTTCTCAGACCGCATCTTAAATATGATGAAAACAACAAGTGTCACGGATTCAGGCACAATGCTGACGCAGCTCGGAAAAATCATGGACCGTTTCGACAAAAATGATTTCGATGAACCAAAAGGATTTCTCGCTAAAATGTTCAAACGCGGCAACAGCATGATTGAAAAGATTTTTCAAAAGTACCGCACGTTGGGCGGAGAAATTGAAAAAATCCACGTCGAAATTTCAAAATACAAAGATGAAATGGCAAAGACGAACCATACGCTAGAAGAGATGTATGAAAACAACATTAACTACTACATGGAGCTTGAAAAATATGTCGTTGCCGGGCAGATGAAGCTTGAGGAAATGCAGGCGCTCATTCCTTCTTATGAAGAAAAAGCGGCAGGCGGAAACCAGCTTGCGCAAATGCAGCTCGATACGCTTCGTGACGGGCTTCAGGCGCTTGAGGAACGTGTCTATGATTTAGATATGGCGCGGATGGTGGCGCTGCAAACGGCGCCGCAGATCCGCCTCCTTCAGCGCGGAAATACGAAGCTCATCGGGAAAATCAATTCCGCTTTCGTCATTACGATTCCGATTTTCAAAAACGGCATCATTCAGGCTGTCACAGTGAAACGGCAAAAGCTTGTGGCTGATTCAATGAGCGAGCTTGACCGCCGCACGAATGAAATGCTGAAGCGCAACGCTGAAAATATTTCAAACCAAAGCGTGGAGATTGCCCGTATGGCAGGCCGTCCGAGCATTGACATTGAGACGATTGAAACGTCTTGGAACACGATTGTCAGCGGTATGCAGGAAACGAAACAGATCGAAGAAGAGAACAGACGTATCAGAGAAGACGGCGCGAAACGGATTCAACAGCTTCAGGATAATATTAAAAACGCAGTCTTAAAGAATTAA	MTENQNPLVLDKNEEISEQKADDIRVQLRQDPEVQRISQQIDVKNQMELLEYGKEPAVEISKFSDRILNMMKTTSVTDSGTMLTQLGKIMDRFDKNDFDEPKGFLAKMFKRGNSMIEKIFQKYRTLGGEIEKIHVEISKYKDEMAKTNHTLEEMYENNINYYMELEKYVVAGQMKLEEMQALIPSYEEKAAGGNQLAQMQLDTLRDGLQALEERVYDLDMARMVALQTAPQIRLLQRGNTKLIGKINSAFVITIPIFKNGIIQAVTVKRQKLVADSMSELDRRTNEMLKRNAENISNQSVEIARMAGRPSIDIETIETSWNTIVSGMQETKQIEEENRRIREDGAKRIQQLQDNIKNAVLKN	PGPT0004947_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TUNGSTATE_RESISTANCE	TUNGSTATE_RESISTANCE-YCE_SYSTEM,PGPT0004947-yceH-NA	NA	NA
D1-12_03316	1623			hypothetical protein	ATGAAGCAGGAAGAATTGGTGATCCGAAAGGCCGAGCCGGAAAACGGTGACTGGGAAACGTTTCTGATGCGGCCGCTGCCGGAACGTCCCGGTTATGAGCGGGAAAACGGGCTGGCGTTTACCCGGCTTGCCGTCCGGATTTTGGGCACTCCTTATGATGAGACGGAGTATTACAATAAGCTTTTCGAGCTGTCTTCTCATGAAAACATCCATGTGTTAAGCGAGACGCTGGATAAGACTATCGCGCCTGAAACGTTTCAGGCGCTCCAGCACATTCATTCCGTCAATCAAAAGGAGAAAGGGCTTTCGGTTTCCAGGTTTGTCGCGTTTCTCGATGGAGGCAGGCTGCTTGCCAAACACGCTGATCCGCTTATGCACCGCCGGCTGAGAACCGCGTTTATGACGCTTTTAGAAACCTTTGCGGACCGGCATGAAAACGGGCTGAATCATCCCGATTTCCGGCGTGTGCTCTTGGATGTGTCAAAGTTTTCGCTGAACCACCTGAATCCATGGCTCGAACAAGCCGATATAGAGCGTGAGATGCCGAAGGTGGTGTGGTATGGAGACGCTACCAAAAGCCAGCTCTATTTTCTCTATTATATAATGCTGATCGGCTGTGACGTCCTATTGTTTCATCCGGCTGCGGAAGATCCGTTCAGCTTGATTGATCCGGATGAGGAACTCAGCTTTGTGATAAAGCTCCCCGCAACAGGCGGCCTTGAGCCATTCCCGAAAGAAAAGCCGGACAGAACGTCCACGACGGCCTACCGGTCAACGAAAGAAATTGAGCATGTGCTGAATCATGAGGAATCCATGATGTATAAGCCTTGGCAGTTCAGGGATCATACCCCGCAGTCCGTGACATTAAAAACGACGTATGATGAGTTATTTCTCATTGCGAAGGAGCGGGCGTTTATCCGGCCGCAATTTAAAGCGGACAGGGAGCGGGTGGCCGTTCCGAACCTTTTTGCGAAAGTGATGGGGGTTTCCAAAGATACGAAAGAATATTGGAACAGACTCCATACCGCCGCGGACTATCAGGAGACACACATGATCCGCAGTTTTCCGTTTACGGAAGAGCTGAAAGCCAACTACCAGTATCACTACAGTCAGGTTTTGAACGAAGAAGGAGCGATTGACGCGGACAGGCTGAAAAGAAGCAACATCTGGCAGTACAAGCATCTGCCTTCAGGTGTGCAGAGCGCCATCGCCAATGTGATTTCTGACATGTGCAGAAACCCCGGGCTGAAGGCTTTGCCCGGCGAGCAGGCAAGGGATGCCGCAATCTATTTGTTCCGCCAGGCGACGAACCTGCCCGCTTCGCTGCTGCAATTGATTCAGACGTTTGATTACGCCCAAACCGTTCCGAAACTCGTTTTATATCATACGGAACAAAATGGCGAACTCACACGTTCTGACGCCGCCGCTCTGTTGTTTTTAAATAAATTCGGCGTCGATATCATCTTGTATAATCCGCCGGGGCATCAAGATATTGAGCATTATATTGAAGAAAGCCAATTTGATGTCCATTGGCTGGAGGACATGGTGTTTCGGCAGGAATATAAGGAGCCGTCACTCGTAAGAAAGCTGTTTAGAACCATTACGCAAAAGCAGGGAGAGTAA	MKQEELVIRKAEPENGDWETFLMRPLPERPGYERENGLAFTRLAVRILGTPYDETEYYNKLFELSSHENIHVLSETLDKTIAPETFQALQHIHSVNQKEKGLSVSRFVAFLDGGRLLAKHADPLMHRRLRTAFMTLLETFADRHENGLNHPDFRRVLLDVSKFSLNHLNPWLEQADIEREMPKVVWYGDATKSQLYFLYYIMLIGCDVLLFHPAAEDPFSLIDPDEELSFVIKLPATGGLEPFPKEKPDRTSTTAYRSTKEIEHVLNHEESMMYKPWQFRDHTPQSVTLKTTYDELFLIAKERAFIRPQFKADRERVAVPNLFAKVMGVSKDTKEYWNRLHTAADYQETHMIRSFPFTEELKANYQYHYSQVLNEEGAIDADRLKRSNIWQYKHLPSGVQSAIANVISDMCRNPGLKALPGEQARDAAIYLFRQATNLPASLLQLIQTFDYAQTVPKLVLYHTEQNGELTRSDAAALLFLNKFGVDIILYNPPGHQDIEHYIEESQFDVHWLEDMVFRQEYKEPSLVRKLFRTITQKQGE	PGPT0004946_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TUNGSTATE_RESISTANCE	TUNGSTATE_RESISTANCE-YCE_SYSTEM,PGPT0004946-yceG-NA	NA	NA
D1-12_03317	774	alx	COG0861	Putative membrane-bound redox modulator Alx	TTGGATTTTCTACATCATATTATGTCGACCTACGCTTCCTTTTTTGATTGGAAAATGTGGGGTGAGGTGCTGACTGACCCTGTATCATGGGGGCTGATCGGTTCCTTGGTTCTGCTGGAAGGGCTGCTGTCGGCCGACAATGCGTTAGTGCTTGCGGTGATGGTAAGGCATCTGCCTGAAAAACAGCGGAAGAAAGCATTAACATACGGATTGTTCGGGGCATATATTTTCCGTTTTATCTTTATCGGGATCGGAATGCTGCTCATTAAGTTCTGGTGGATCAAAGTGCTTGGCGCGCTGTACCTGGCTTGGCTCGTCATTAAGCATTTCTGGATCGGAGAAGGTGATGACGATACGGAAGGCATGAAGAAAAATTCATGGATGGTCCGTACGTTCGGAATTTTCTGGGCCACTGTCGTTTCAGTTGAGTTAATGGATCTGGCCTTCTCTGTTGACAGCATTCTGGCCGCGTTTGCGGTATCGGAAAAAGTGTGGGTGCTCTTGATCGGCGGTATGCTTGGCATTCTCATGATGCGTACAGTCGCAAAAGTATTCCTTGTTTTAATTGATAAAATCCCTGAGCTTGAAAACACGGCTTTCGTGCTGATCGGGATTATCGCCGTGAAAATGGCGGCGAGCGCCTTTGATTATGAAATGCCGCACGTGGTGTTCTTCGGAATCATCATCGCTGCGTTTGTGGTAACGTTTATTATCCACTATTTCAACAAACAAAAGCAGGTTCAGGAGCAAACGGCTGCATCTAAAGAAGAATAA	MDFLHHIMSTYASFFDWKMWGEVLTDPVSWGLIGSLVLLEGLLSADNALVLAVMVRHLPEKQRKKALTYGLFGAYIFRFIFIGIGMLLIKFWWIKVLGALYLAWLVIKHFWIGEGDDDTEGMKKNSWMVRTFGIFWATVVSVELMDLAFSVDSILAAFAVSEKVWVLLIGGMLGILMMRTVAKVFLVLIDKIPELENTAFVLIGIIAVKMAASAFDYEMPHVVFFGIIIAAFVVTFIIHYFNKQKQVQEQTAASKEE	PGPT0003866_8	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003866-yceF-NA	NA	NA
D1-12_03318	579	yceD_1	COG2310	General stress protein 16U	ATGGCTATTCAATTGGCGAAAGGACAGCGTGTTGATCTGACAAAAACGAACCCCGGTCTTACAAAAGCGGTGATCGGCTTAGGCTGGGATACGAACAAGTACTCCGGAGGGCATGACTTTGACCTTGACGCGTCGGCTTTTCTTGTCGATGCCCATGACAACTGTGTAAATGATCTTGATTTTGTTTTCTACAATAACCTGGAACACCCGAGCGGGGGCGTCATCCATACGGGAGACAACCGGACGGGCGAGGGCGAGGGAGACGATGAACAAATTATCGTCGACTTCTCAAAAATACCCGCAAATATTGAAAAGATCGGCATCACCGTCACGATTCATGATGCGGAAGCGCGCGGCCAAAATTTCGGACAAGTGTCTAACGCGTTCGTGCGCGTCGTCGATGAAAACAGCCAGAATGAACTGCTTCGTTTCGATTTAGGGGAAGACTTCTCGATTGAAACGGCGGTTGTCGTTTGTGAGCTTTACCGCCATGGGGCTGAGTGGAAGTTTAACGCCATCGGCAGCGGGTTTTCCGGCGGTCTGGCATCACTTTGCCGGAATTACGGCTTGCAGGTGTAA	MAIQLAKGQRVDLTKTNPGLTKAVIGLGWDTNKYSGGHDFDLDASAFLVDAHDNCVNDLDFVFYNNLEHPSGGVIHTGDNRTGEGEGDDEQIIVDFSKIPANIEKIGITVTIHDAEARGQNFGQVSNAFVRVVDENSQNELLRFDLGEDFSIETAVVVCELYRHGAEWKFNAIGSGFSGGLASLCRNYGLQV	PGPT0004910_448	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
D1-12_03319	582	yceD_2	COG2310	General stress protein 16U	ATGGCAATTTCATTGGCAAAAGGACAAAAAGTAGATTTGACTAAAACAAATCCGGGTCTTTCTAAAGTCGTTGTCGGCCTTGGCTGGGATACAAACAAATACGACGGCGGACATGATTTTGATTTAGATTCCAGCGTCTTTCTATTAAATGAAGCAGGAAGATGCGCGTCGCCCGATGATTTCATTTTCTATAATCAGCTTGAAGGCGGAAACGGCTCTGTCGCACATTCAGGCGACAACCTGACAGGCCAGGGCGAAGGCGATGACGAAAGCGTAAGGGTCAACCTGAGCGCGGTGCCTGCCGCTATTGACAAAATTTCATTCGTCATCACGATTCATGAAGCGGAAGCGCGCGGCCAAAACTTCGGACAAGTTTCCAACGCGTTCGTGCGCATTGTCAATGAAGAGACAAATGAAGAGCTGATCCGTTATGATCTGGCTGAAGATTTCTCAATTGAAACAGCCATTATCGCAGGGGAGCTTTACAGACATAACGGCGAATGGAAATTTTCCGCGATCGGCTCAGGCTACCAAGGCGGACTGGCCCGTATTGCGACAGATTACGGCCTGCAAATCGGCTGA	MAISLAKGQKVDLTKTNPGLSKVVVGLGWDTNKYDGGHDFDLDSSVFLLNEAGRCASPDDFIFYNQLEGGNGSVAHSGDNLTGQGEGDDESVRVNLSAVPAAIDKISFVITIHEAEARGQNFGQVSNAFVRIVNEETNEELIRYDLAEDFSIETAIIAGELYRHNGEWKFSAIGSGYQGGLARIATDYGLQIG	PGPT0004910_213	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
D1-12_03320	597	yceC	COG2310	Stress response protein SCP2	ATGGCGATCTCTTTACAAAAAGGACAGCGGATTGATTTAACAAAAGGAAAAGCCGGCCTGTCAAAACTGCTGGTCGGACTCGGCTGGGACCCTGTATCATCCGGGGGCTTTTTCGGAAAGCTGTTCGGCGGAGGCGGTGCCAATATCGACTGTGACGCTTCCGTACTGATGCTTGAAAATGATAAAATGACAGACAGCAAAAACGTCATCTATTTCGGCAATCTGAAAAGCCGGTGCGGCGGTGTCGTACATACGGGTGACAACCTGACGGGTGAAGGCGACGGCGATGATGAACAAATTCTCATCGATTTAGCGAAAGTGCCCGCTCAGATTAATAAACTTGTATTTGTCGTCAATATTTACGACTGCGTCAGACGAAAACAGGACTTCGGCATGATTCAAAACGCGTTCATCCGCGTTGTTGATCAGGCTAATCGCGAAGAACTGGTGACTTACAATTTAAGAGATAACTATTCAGGCAGAACGAGCCTGATCGCGGCTGAAATCTACCGCCAGGACGGCGAGTGGAAATTCGCCGCAGTAGGAGAAGGCACAAACGATACAAAAATCGGCGATATCGTTAACCGATACGCCTAA	MAISLQKGQRIDLTKGKAGLSKLLVGLGWDPVSSGGFFGKLFGGGGANIDCDASVLMLENDKMTDSKNVIYFGNLKSRCGGVVHTGDNLTGEGDGDDEQILIDLAKVPAQINKLVFVVNIYDCVRRKQDFGMIQNAFIRVVDQANREELVTYNLRDNYSGRTSLIAAEIYRQDGEWKFAAVGEGTNDTKIGDIVNRYA	PGPT0004910_122	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0004910-terD|terE|terF-K05795	NA	NA
D1-12_03321	996			hypothetical protein	GTGATTGATTTAAGCATACTTGATCAGGCGCCCGTATCCAAAGGAAACGGGCCGCCCGAGACGCTCCGCCATTCAGCGGTACTCGCCCGCCTCAGTGAAGGATGGGGCTATAAGCGGTACTGGTTTGCCGAGCATCACGGCACAAGAGGGCTCGCAAGCGTTTCGCCGGAAATTATGATCGCTCATACCGCCGCAGCCACAACGTCCATCCGTGTCGGATCAGGCGGCGTGCTGCTGCCGCAGTACAGCCCCTATAAAGTCGCGGAAACTTTCCGTCAGCTTGAGGCGCTGCATCCGAACCGGATTGACCTCGGGGTCGGACGCTCACCGGGCGGCACAACGAAAATCCGGCTCGCCCTCACAGACGGGGTAAAGAAAAGCATGACCGAATTCAACAGGCAGCTTGAGGATTTATCATCCTTTCTGACAGATTCGATTCCCTCGAACCATGCTTATGCAGGAATAAAAACAGCGCCTTTGATTGAAACAGCTCCGCAGCTTTGGGTGCTCGGACTCGGGGAAAACAGCGCCAGACGCGCCGCTCTTCAAGGTGCGGGCTATGTCTTCGGCCATTTCATTAATCCGGAACGCGGGGAAAAAGCTTTTCAGATCTATCGGGACCATTTCCGGGCCTCCGCCCATTTTTCCGCTCCCGCCTCGCTCTGTGCCATTTTCGTCATATGCGCGGCTACGGATGAGAAAGCGGAAGAACTCGCCTTAAGCCAGGATTTATGGCTTCTTCGTGTCGGAAAAGGCGCCGACAGCCGCGTGCCGAGTGTGGAAGAAGCGAAGGCTTATCCGTATTCGCCGGAGGATCGTAAACAGATAGAAGAAAACAGGAAGCGGATGGTGGTCGGCTCTCCTGCCGCAGTGAAACGCCGTCTGCTTGAACTTTCCGAGCGGTATCAGACAAAAGAGATAATGGTGCTGTGCAACGTCTTTGATTTCGAAGCAAAAAAAGAGTCATATGAGCGTCTTGCTGATATATTTCTGTAA	MIDLSILDQAPVSKGNGPPETLRHSAVLARLSEGWGYKRYWFAEHHGTRGLASVSPEIMIAHTAAATTSIRVGSGGVLLPQYSPYKVAETFRQLEALHPNRIDLGVGRSPGGTTKIRLALTDGVKKSMTEFNRQLEDLSSFLTDSIPSNHAYAGIKTAPLIETAPQLWVLGLGENSARRAALQGAGYVFGHFINPERGEKAFQIYRDHFRASAHFSAPASLCAIFVICAATDEKAEELALSQDLWLLRVGKGADSRVPSVEEAKAYPYSPEDRKQIEENRKRMVVGSPAAVKRRLLELSERYQTKEIMVLCNVFDFEAKKESYERLADIFL				NA	NA	NA	NA	NA
D1-12_03322	834	znuB	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGTTTGACTTGGAATTCATGCGACGAGCTTTTCTAGCGGGAAGCATGATCGGAATTATGGCGCCGATATTAGGCGTATATCTCGTGCTGAGAAGACAGGCGCTGATGGCGGATACGCTGTCTCATATTTCATTGTCGGGCGTGGCCATCGGTTTTTTTCTCAGTACCAATATTACGGCGGCGAGCATCGTTGTCGTCACGATCGGAGCGATCGGCATTGAATACATGCGGCGGGCGTACCGTACATATTCAGAGGTATCTATCGCAATCTTAATGGCGGCCGGGCTGTCGTTTGCGATGTTTCTGATCAGCCTGTCAAAAGGCGGCGCGTCGATGAGCATCGATCAATATTTATTTGGATCGCTTGTCACGGTCAGCCAGCAGCAGGTCTATATTATCGGAGGCATTACCCTGCTGATTCTGCTTTATTTTATTATACTAAACAGACCGCTCTACCTGCTTACCTTTGACGAGGCGACGGCTAAGACATCAGGCATTAACACAAACCTCCTGTCAATGTCATTCAGCATCGTGACGGGGCTGGCGATTTCGGTCATTATTCCGATTATCGGCGTGCTGCTCGTTTCCGCGCTCCTCGTACTGCCCGCGGCTTTTGCAATCCGTATTGCCAAAGGGTTTAAATGGGTGTTTGCGGCGGCCATTATTATTTCTCTTTTCAGTGTGTTCATGGGGCTGACGTCTTCGTACCAGCTCGGAACGCCTCCTGGGCCGTCAATCACTTTACTGTTAATCATTCTGCTTCTGCTCGGGTTTACGCTGCAGGGGATTTGGAATGCGTTTAAAAAAGGAAAAGAACGAAAAAACCGCCGTTAA	MFDLEFMRRAFLAGSMIGIMAPILGVYLVLRRQALMADTLSHISLSGVAIGFFLSTNITAASIVVVTIGAIGIEYMRRAYRTYSEVSIAILMAAGLSFAMFLISLSKGGASMSIDQYLFGSLVTVSQQQVYIIGGITLLILLYFIILNRPLYLLTFDEATAKTSGINTNLLSMSFSIVTGLAISVIIPIIGVLLVSALLVLPAAFAIRIAKGFKWVFAAAIIISLFSVFMGLTSSYQLGTPPGPSITLLLIILLLLGFTLQGIWNAFKKGKERKNRR	PGPT0004225_989	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
D1-12_03323	696	znuC	COG1121	High-affinity zinc uptake system ATP-binding protein ZnuC	ATGAATCTCGTTACATTAAAAGATATCGTTTTTGGTTATTCTCATACACCGGTGCTTGACGGCGTGTCGCTGGAAATCAAAAGCGGCGAATTCGTCGGCATTACAGGACCGAACGGCGCGTCAAAATCGACGCTCATGAAAGTCATGCTTGGCATGCTCAGACCTTGGGAAGGAACGGCCGAGATCAGTAAAAAAAATGCAGCCGGAAAACGCCTGACAATCGGCTATGTTCCGCAGCAGATTTCTTCATTTAACGCAGGATTCCCAAGCACGGTTCTGGAGCTTGTGCAATCAGGCCGTTATACGAAAGGAAAATGGTTTAAACGATTGAACGAAACGGATCACCACGAGGTGGAAAACGCGCTGAAGATGGTGGAAATGTGGGATTTCCGCCACCGGAAAATCGGCGATTTATCCGGCGGACAGAAGCAGAAAATCTGCATTGCGAGAATGCTTGCGAGCAATCCGGATCTGCTGATGCTTGATGAGCCGACAACCGCGGTTGATTATGAAAGCAGACAGGGTTTCTACGAATTTATGCACCATCAGGTGAAAAATCACAACCGCACCGTCGTCATGGTGACACACGAACAAAACGAAGTACAGCAGTATCTGGATAAAGTCATACGGCTTGAGAGGGGGGAAAAAGGCGGATGGAAATGTTTGACTTGGAATTCATGCGACGAGCTTTTCTAG	MNLVTLKDIVFGYSHTPVLDGVSLEIKSGEFVGITGPNGASKSTLMKVMLGMLRPWEGTAEISKKNAAGKRLTIGYVPQQISSFNAGFPSTVLELVQSGRYTKGKWFKRLNETDHHEVENALKMVEMWDFRHRKIGDLSGGQKQKICIARMLASNPDLLMLDEPTTAVDYESRQGFYEFMHHQVKNHNRTVVMVTHEQNEVQQYLDKVIRLERGEKGGWKCLTWNSCDELF	PGPT0004230_2373	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
D1-12_03324	1005	znuA	COG0803	High-affinity zinc uptake system binding-protein ZnuA	TTGGAAATCGTCATCATTCTGATTTACAGAACAGGGGGAAACGGCTTGTTTAAAAAATGGAGCGGAATCATTGTCATTGCGGCATGCTTTTTAATCGCGGCGGGCTGCGGCAATTCATCTTCAAAAGGTTCGTCAGGTTCTTCGAAAAGCGGCAAACTGCACGTCGTGACGACCTTTTATCCTATGTACGAATTCACGAAACAAATTGTCAAAGACAAAGGCGATGTAGACATTCTCATCCCGTCTTCGGTCGAACCCCATGATTGGGAGCCGACGCCGAAAGATATCGCCGGCATTCAAAACGCCGATCTTTTCGTATACAACAGCGAATATATGGAGACATGGGTTCCTTCAGCGGAAAAAAGCATGAGCTCTGATCATGCGAAGTTTGTAAAGGCGTCAAAAGGAATTGACTTACTCGAAGGTTCGGATGAAGAGGAAGAGGAACATGGACACGGCGGTCATGACCACAGCCACAGCATGGACCCTCACGTGTGGCTCAGCCCGGTTCTTGCGCAAAAAGAGGTCAAAACCATTACGGCGCAGATCGTAAAACAGGACCCGAAGAATAAAGCATACTATGAGAAAAATAGTAAAGAATATATTGCAAAACTGCAGGATCTTGATAAACTATACCGTACAACATTAAATAAAGCGGCGAAAAAAGAATTGATCACACAGCACGCGGCATTCAGCTATCTCGCCAAAGAATACGGCTTAAAACAAGTCGCGATTGCAGGCCTTTCTCCTGAAGAAGAGCCGAGTGCGGCCAAACTGGCGGATCTCAAAACGTTTGCCAAAAAGCATGATGTGAAGATCATCTACTTTGAAGAAGTTGCATCGCCTAAAGTTGCAGATACACTTGCCGGTGAAATCGGCGCGAAAACGGAAGTGCTCAATACACTGGAAGGTTTAAGCCAAAAAGAACGGGATAAAGGCATCGGTTATATCGACATTATGGAGAAAAACCTTGATGCACTGAAAGATTCGCTATTGGTTAAATAA	MEIVIILIYRTGGNGLFKKWSGIIVIAACFLIAAGCGNSSSKGSSGSSKSGKLHVVTTFYPMYEFTKQIVKDKGDVDILIPSSVEPHDWEPTPKDIAGIQNADLFVYNSEYMETWVPSAEKSMSSDHAKFVKASKGIDLLEGSDEEEEEHGHGGHDHSHSMDPHVWLSPVLAQKEVKTITAQIVKQDPKNKAYYEKNSKEYIAKLQDLDKLYRTTLNKAAKKELITQHAAFSYLAKEYGLKQVAIAGLSPEEEPSAAKLADLKTFAKKHDVKIIYFEEVASPKVADTLAGEIGAKTEVLNTLEGLSQKERDKGIGYIDIMEKNLDALKDSLLVK	PGPT0004220_907	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
D1-12_03325	1680	ycdG	COG0366	putative oligo-1,6-glucosidase 2	ATGGCGAATGACTGGTGGAAAGACGCCGTTGTCTATCAAATCTATCCGCGAAGCTTTCAAGATACGAACGGCGACGGCATAGGCGACCTGCGGGGGATTATCGCGCGTCTCGATTATATAAAAGAACTTGGCGCTGATGTGATATGGATCTGCCCGATTTACCCGTCGCCAAACGTTGATAACGGCTACGATGTGACGGATCATCAAGCGATTATGGAATCCTACGGAACGATGGAGGATTTTCACGATCTGCTTACAGAATGCCGCAGCCGCGGATTAAAGCTCGTGATGGATTTCGTCTTAAATCATACATCCACGGAGCATCCTTGGTTCAAAGAGGCGGAAATGAATCCGGACAGCAAATACCGCGATTATTATATTTGGCGGCCGGGTACCGCGGACGGCCCGCCGACCGATTGGGTGTCGGATTACGGACAATCCGTCTGGCAGTACGAAGAACATACGGGCGAATATTATCTGCATATGAACGCCGTCAAACAAGCCGATCTGAATTGGGAAAATCCCGAGGTTCGGCAATCAGTATACGAGATGATGAGATTTTGGCTCGATAAAGGCGTGGACGGATTGCGAATAGACCAGCTTCATCTTCTGTCAAAAAAAGAATATTTGCCGCCATATGAAGATTACATCGCCCGCCGGGCCGATCCGAAGCCTTTCCGGCCAAACGGGGCACGGATACATGATTACTTAAAAGAAATGACGAAAGAGGTATTTTCCAAATATGACGTGATGTCAGTCGGCGAGGCCGGATCAGTGACGCCTGAGGAAGGGCTCGTCTACACGGGAACCGATGAGCATGAACTGAATATGATTTTTCATTTTCAGCATATGGAGCTTGATCAAAAGCCGGGCCAAGAGCATTGGGATGTAAAACCGCTTGAGCTGTCCGATTTAAAGAAAGTGCTCACAGACTGGCAGGAAAAACTGGAACATCAAGGCTGGAATACGCTGTATTGGTGCAATCATGACCAGCCCCGGATCGTATCCCGTTTCGGAGACGAAGGCACATACCGCAAAGCATCCGCCAAAATGCTTGCCGCCCTGCTTTATTTCATGAAAGGCACGCCGTACATTTACCAGGGGGAAGAAATCGGCATGACAAACGCTCCGTTTGACAGAATAGAGGATTATCAAGATATTCAGACCGTCAATATGTATCACAAAAGGGTATTTGAAATGGGCCGCAACAGAGAAGAAGTCATGGCGTCCATTATGGCGAAAAGCCGGGATCATGCCCGTACACCGATGCAGTGGGACGGCAGCAAGAATGCCGGATTTACGGAGGGCGAACCGTGGCTGAAGGTCAATCCCGATTACAAAACCGTCAATGCGGCCGAGGCTCAGGATGATCCCGATTCTATATTGAACTTTTACAAAAAACTGATCCGCCTGAGAAAACAGTATGCTGATATCATAAAAGGCAGCTACACTCTGCTGCTTCCTGATGACCCGCAGCTGTTTGTGTATGAAAGACAGGCAAACGGACAAAAACTCATGTCCATCAGCAACGTATCGAAAGAAGAAGCCGCCTTTTATTGGCCGGACGGCTCCGAACCTGAAAGGGCCGAGCTGCTTCTCAGCAACTATGAAAATGACGGCGGCACGGAATCCCGCATCACATTCCGCCCTTATGAAACAAGAGTTTATCTGCTTGCCTGA	MANDWWKDAVVYQIYPRSFQDTNGDGIGDLRGIIARLDYIKELGADVIWICPIYPSPNVDNGYDVTDHQAIMESYGTMEDFHDLLTECRSRGLKLVMDFVLNHTSTEHPWFKEAEMNPDSKYRDYYIWRPGTADGPPTDWVSDYGQSVWQYEEHTGEYYLHMNAVKQADLNWENPEVRQSVYEMMRFWLDKGVDGLRIDQLHLLSKKEYLPPYEDYIARRADPKPFRPNGARIHDYLKEMTKEVFSKYDVMSVGEAGSVTPEEGLVYTGTDEHELNMIFHFQHMELDQKPGQEHWDVKPLELSDLKKVLTDWQEKLEHQGWNTLYWCNHDQPRIVSRFGDEGTYRKASAKMLAALLYFMKGTPYIYQGEEIGMTNAPFDRIEDYQDIQTVNMYHKRVFEMGRNREEVMASIMAKSRDHARTPMQWDGSKNAGFTEGEPWLKVNPDYKTVNAAEAQDDPDSILNFYKKLIRLRKQYADIIKGSYTLLLPDDPQLFVYERQANGQKLMSISNVSKEEAAFYWPDGSEPERAELLLSNYENDGGTESRITFRPYETRVYLLA	PGPT0019145_776	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019145-malL-K01182	NA	NA
D1-12_03326	780	ycdF	COG1028	Glucose 1-dehydrogenase 2	ATGTATCAGGATTTACAGGGAAAAACAGCGATCGTAACAGGTTCTTCGAAAGGAATCGGAAAGGCCATTGCCGAACGCTTCGGCAAGGAGCGGATGAATGTGGTTGTGAACTACCTCGGTGATTCCTCCGGAGCGGAAGAAGCGGCGGACATCATTGAGAAAGCGGGAGGCCGAGCCGTCACCGTAAAAGCCGATGTATCCTCAGAAGAAGGGATTCAGACGCTGTTTCATGCCGCGCAGGAGCATTTCGGGGGTGTGGACGTGATGGTCAACAATTCGGGCTTTAACGGAGCCGAAGCGATGCCCCATGAAATGAGCCTGGAGGATTGGCAAAGGGTCATCGACGTCAACGTGACCGGCACCTTTTTGGGGGCGAAAGCGGCACTGAAACATATGCTCGAGCGCGGCAAAAAAGGAACGGTCTTAAACATATCGAGCGTTCATCAGCAAATACCCCGCCCTGAAAACGTGCAGTACTCGGCATCCAAAGGCGGAATCAAAATGATGACGGAAACGATGGCGCTCAATTACGCAGACAAAGGCATCCGGGTGAATGCCATCGCTCCCGGCACGATCGCCACGGAGTCCAATAAGGATCTGGAAGATGAAACACATAAACAGGCCCAGCTGAAAAAAATTCCGATGAACGCCTTCGGAAAACCGGAAGAAGTCGCCGCGGCCGCCGCATGGATGGTGTCGGAAGAAGCGAGTTACGTGACCGGAACGACACTTTTCGTCGACGGAGGCATGACGCTTTATCCGTCTCAGCTGGACAGATAA	MYQDLQGKTAIVTGSSKGIGKAIAERFGKERMNVVVNYLGDSSGAEEAADIIEKAGGRAVTVKADVSSEEGIQTLFHAAQEHFGGVDVMVNNSGFNGAEAMPHEMSLEDWQRVIDVNVTGTFLGAKAALKHMLERGKKGTVLNISSVHQQIPRPENVQYSASKGGIKMMTETMALNYADKGIRVNAIAPGTIATESNKDLEDETHKQAQLKKIPMNAFGKPEEVAAAAAWMVSEEASYVTGTTLFVDGGMTLYPSQLDR	PGPT0014705_779	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
D1-12_03327	1122	rapJ		Response regulator aspartate phosphatase J	ATGAAATCCAAGATTCCATCTGAAGAAGTGGCCGTAAAGATGAATGAATGGTATAAGCTGATCCGCGCGTTTGAAGCCGATAAAGCTGAAGCGCTGAAACGGGAGATTCAATTTGAACTCGAAGATATGGAAGAGAACCAGGATTTATTGTTGTATTTTTCATTGATGGAATTTCGGCACCGCATCATGCTGGATAAATTAAAACCCATGAAAGACGGCGACTGCCAGCCTCCGTTCTCTGAAATGCTCACTGAGATTGAGATGAACCAGCAAAAGCTGACCGGCTTACTGGAATATTATTTTTACTATTTCAGGGGAATGTATGAATTTAAGCAGAAAAACTTCATCTCAGCGATTTCTCATTATAAGCGGGCTGAGGAAAAGCTTGAATATGTGGAAGATGACATAGAGAAAGCCGAGTTTTTGTATAAAATTTCTGAGGTGTACTATCATATCAAGCAGACTTTCTTTTCGATGAATTACGCAGGACAGGCGCTTGATATTTACAAGAAATATGAATTATACGGAATGAGAAGGGTGCAGTGCAAATTTATCATTGCCGGAAATCTGATGGACGCCCAGCAGCATAAAAAAGCGCTGGAATACCTCGAATGCGCCTTGGAGCACGCGGAGCGGCTTGATGATCAATATATGATTGCTGCGGCCTATTATAATATCGGGCACTGTATGTACAGTCTGGGTGACTTTTGCAAGGCGGCGGAGGATTTTGAACGGGCGGCCGCCGGATTTGAAGCACACAGCTTCCGGCAGGTCATCCAGGCTGTTTTTTCACTCACGCATATCTACTTTAAAACGGAAAAATACAGTGAAGCCGCCGCCAGCTGCGCGCGGGGCATGAGAAGCGCGGCGGAATGGGAAGATGAGATCTATCTGACGAAATTCCGTCTGATTAAAGAGCTTTATCAGGGGGAAGGCGGACAGGATTCGCTCAAAGAGTATTTTGACATTCTGGAATCAAAAGAGCTGTTGGCTGACACAGAGGAACTGCTTCAGGACGCGGCTCATTTCTTTCATCAACGGGAGAACTACAAAGCGGCATCTTATTTTTTCAGCAGGCTTGTCGGCGTGCAAAAAAGGCTGCAAATGAACAACTACGCATAA	MKSKIPSEEVAVKMNEWYKLIRAFEADKAEALKREIQFELEDMEENQDLLLYFSLMEFRHRIMLDKLKPMKDGDCQPPFSEMLTEIEMNQQKLTGLLEYYFYYFRGMYEFKQKNFISAISHYKRAEEKLEYVEDDIEKAEFLYKISEVYYHIKQTFFSMNYAGQALDIYKKYELYGMRRVQCKFIIAGNLMDAQQHKKALEYLECALEHAERLDDQYMIAAAYYNIGHCMYSLGDFCKAAEDFERAAAGFEAHSFRQVIQAVFSLTHIYFKTEKYSEAAASCARGMRSAAEWEDEIYLTKFRLIKELYQGEGGQDSLKEYFDILESKELLADTEELLQDAAHFFHQRENYKAASYFFSRLVGVQKRLQMNNYA	PGPT0024645_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024645-rapA|spo0L-K06359	NA	NA
D1-12_03328	504	cwlK		Peptidoglycan L-alanyl-D-glutamate endopeptidase CwlK	ATGAAACTATCAGTCAGAATTGCGCTGCTTTTGATCCTCTTCTTTTCCGCAGACCTATGTTTTTCCTATGTGCAGAAAGAATTGAGGCCGCAGACGGCATTACAAGACAGAGCCATTCCAAGCGCTCTTCATCCGCTCGTGAAACAGAATGCGGAGCTATTGCAGACGGCCGCTCTGAAAAAAGGCATCACCGTCGTTATCACAGAGGGTTTCAGATCAATTGAGGAACAAAACGAATTGTACCGTCAAGGACGTTCAAAAAAAGGAAATATCGTCACCTATGCAAAAGGCGGGGAATCTTACCACAATTACGGCCTTGCGATCGACTTCGCCCTGCAAAAAAAGGATGGAAGCCTGATTTGGGATATGACGTACGACGGAAACCGAAACGGCACGCCCGATTGGCTTGAGGTCGTATCGATTGCCAAAACGCTCGGTTTTGATTGGGGAGGCGATTGGAGAGGCTTTAAAGATTATCCTCATTTACAAATGATCCCTGGCTAA	MKLSVRIALLLILFFSADLCFSYVQKELRPQTALQDRAIPSALHPLVKQNAELLQTAALKKGITVVITEGFRSIEEQNELYRQGRSKKGNIVTYAKGGESYHNYGLAIDFALQKKDGSLIWDMTYDGNRNGTPDWLEVVSIAKTLGFDWGGDWRGFKDYPHLQMIPG	PGPT0024025_534	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024025-cwlK-K17733	NA	NA
D1-12_03329	1359			hypothetical protein	TTGCTGAAAGAACATCTGAGAAAAAAAGCGCTGGAAATCGGGAACATACCGCCGCACTATGAGCTTGAAATAGAAGATTATGATGAAAAACAAAAAACGAAAGCCTATTATATATGGAAAGATCGTAACCAGCCGGATAAAACGGTCACGATTGAGCTGGGCGACGACGGATCTTTGCTTACTTATTCACGCAACGACTGTCCGGGTTCAGACATGCAGCTGTCAGACGCCGAATTAAAGCTGACGGCTCTTCGGTTTGCGGCGGGACACCGCCCGCTTACTTTTATGAATTTCATCTTTCAGGCGAAGGAAGAACGCAATGGGTGCATCCGATTTATCTATACAAAAAAAGTGCTCGGCCGGCCGCTTCCCGATTCAGGTTTTTTCGTTGATGTAACCAGGAGCGGCTTCGTCGTGCAGTTTATCTATTACGGGGATAAGGGTGAAGCGCCCGTTCCGGAAACATTCGTCGATCGGGAAAAAGTCGTCTCGCATTATATGAGTGTGCTGACATTCAGTCTCGTCTATGATGTGGTCAATTTTGAGAAAATACCGCGTCTCGTCTATGAACCGATTCTGCCGGCTTACAGCTATCCGGCCGGTGAAGATGATATCGTGCCGGATCAGCAGCTTTGCGAAGACAGGAATGAGCCGGCAAAACCGCTTCCCGCGTTTGAACATAAACGGGAAATCAGCCTGGATGAATTAATGGGGTTTACCGCGGATATGGTTCAGACGCGGCGTCGCGATCTCGGGGATGAGATCGGAACGACATGGCGGAAAGGATCGGTTCCGGAACGGAAAGATTTGAGTATCGAAAGCTATTTTGAAAGCAGCAACAAAAATACAATGAAGATGAAAACGGACAAAAAGACAGGGAAAATGACAGCCTTTAAATCTTTTATTGAGCATCAGGGCCCGGCCTTTTATTCTGCGGAAGAGTGTGAGGCCGTCGCGCTTCAATTTTTATACAAGCTTTATCCGAGAGCGGACGAGTTTTTTAAAATGAACCCGGTGAAAACGGACGGAAGGGGCAGGTTCCGCTTCCATTTTTCCATATGGCATCAGGATATTCCGCTGCGGTTCGGCGCTGCGAGAATACTTGTCAGTCCCGTAACGGGGCTTGTGGAAGCTTACATGGCGCCTGACATTGACCCGGAGCAGCTGGAGAAGATCAATCCGGTGCCGGCCGTTACTCCCGAAGAAGCAAAGGCCGCTTTTTTATCCGATTTCCATCTGCGGCTGGAGTGGCAGCGCGATTTTACGCCGTCCGGCAATGAAGGATATAAGCTTGTGTACAGGCCTGTCTATCCTCCGTACATTGATGCGCAAAAGCGAAAAAAGAAAAGGTTTTATTAG	MLKEHLRKKALEIGNIPPHYELEIEDYDEKQKTKAYYIWKDRNQPDKTVTIELGDDGSLLTYSRNDCPGSDMQLSDAELKLTALRFAAGHRPLTFMNFIFQAKEERNGCIRFIYTKKVLGRPLPDSGFFVDVTRSGFVVQFIYYGDKGEAPVPETFVDREKVVSHYMSVLTFSLVYDVVNFEKIPRLVYEPILPAYSYPAGEDDIVPDQQLCEDRNEPAKPLPAFEHKREISLDELMGFTADMVQTRRRDLGDEIGTTWRKGSVPERKDLSIESYFESSNKNTMKMKTDKKTGKMTAFKSFIEHQGPAFYSAEECEAVALQFLYKLYPRADEFFKMNPVKTDGRGRFRFHFSIWHQDIPLRFGAARILVSPVTGLVEAYMAPDIDPEQLEKINPVPAVTPEEAKAAFLSDFHLRLEWQRDFTPSGNEGYKLVYRPVYPPYIDAQKRKKKRFY				NA	NA	NA	NA	NA
D1-12_03330	1401			hypothetical protein	ATGAAAAAAGAAGAGTTGAAACAGCTGGCTCTCCGAATCGGAAACGTACCTGCCCGCTATGAGAGTAATGTGGAAGAATACCAGGAAGATGAGGTTCTGTTTTGGTGGGAAGATAAGAATGATCCGGAAGCCGGCATCATGGTCGAATTAGACCGGGACGGAAAACTGAAATACTTATCCCGTCCGGCTTTCCAGACTGATCTGCCGGCTCTTTCGGAATCGGACATAGAAAAACGGATGCGGGCGTTTTTAGAAACCCATCGTCCTGGGGCATTGGCTGAGTTCGAATTGGAAAACAGCGGCTCCGCCAATGATGGCGATGTGAGATATTCCTATGTTCAGATGGCTGACGGTCTGCCGCTTCCGCTGACCGGGTTTTACGTCGACCTGGCTGTGACAGGGGAAGTAACCGGCTTTTCTTACCAAGGGAAGGCCGATGATCTTGTAAGGCCCGGGACAATTGCGGACAAGCGGGAAGCATTGGCTCACTTTGCCAAACATATTGAAGCAGAGCTGTTGTTCACCGTACTGCATCAGTCCGTCTATGTGCAGGGGGATGACAAGCCCCATCTCGTCTATGAAATCGTGTCTCCGACGCGGCCGATATCGGCCGACCTGAAGGAAGAGAATGCAGAAATAGACGAATATGAAGAGCTGGAAGACGACACGCTGCCGTATGTCCCGATTTCACGCCCTGCACCTGAAGCGGAAAAGATGAGCATCAATGACATGATCGGGCTGCATGACGGTTTTTATAAAGAGAGGGAAACTGATCTTGGAGACGGCCGCATCGGCATTGCCTGGCGTCCTGAAAAAACAAAATCCGTACGGGAAGATAAAAGCTTAGAAAGTCTGTTCAAAGAGCGGAGTGAACACGTATTGAAAACAATGCATGATAAAGAATCGGGCCGGCTCACCGGGGTGATGTCATTTATAAAAGTTGAAGGCGAACCGGTGTTTTCCGAGGAAGAATGCCATCACATGGCCATCCGCTTTTTATTCGCCATGTTTCCGGAAGCGGATCAGTATTTCCGGGTTCAATATGATGAGCCGGATGATGAAGGAGAAAACGTGGGACTTACATATAAGGCTTGTTCGGGCGGCGTTGATTTGCGATTCGGAGAGGGGAGAATCTGTGTCAGCAAAAAGACGGGTCTTGTCACTGTATATATGCCGCCGGAAATTGATCCGAAAGAGCTGGAGGAAATCGATCCCGTTCCTTCATTGACAATGGAAGAGGCGAAGGATGCGATCCGCCGGGCCATCAAAGCAGAGCTCGCTTGGGACCGTTGTTACGATGACGACAGCTGCGGAAAAGTGTACAGGCTCGTATACAAGCCGGTTTTCCCGCGGTTTATTGAGGCTCATACAGGGGAAGCGATCACGAGTTTAATAGGCTGA	MKKEELKQLALRIGNVPARYESNVEEYQEDEVLFWWEDKNDPEAGIMVELDRDGKLKYLSRPAFQTDLPALSESDIEKRMRAFLETHRPGALAEFELENSGSANDGDVRYSYVQMADGLPLPLTGFYVDLAVTGEVTGFSYQGKADDLVRPGTIADKREALAHFAKHIEAELLFTVLHQSVYVQGDDKPHLVYEIVSPTRPISADLKEENAEIDEYEELEDDTLPYVPISRPAPEAEKMSINDMIGLHDGFYKERETDLGDGRIGIAWRPEKTKSVREDKSLESLFKERSEHVLKTMHDKESGRLTGVMSFIKVEGEPVFSEEECHHMAIRFLFAMFPEADQYFRVQYDEPDDEGENVGLTYKACSGGVDLRFGEGRICVSKKTGLVTVYMPPEIDPKELEEIDPVPSLTMEEAKDAIRRAIKAELAWDRCYDDDSCGKVYRLVYKPVFPRFIEAHTGEAITSLIG				NA	NA	NA	NA	NA
D1-12_03331	996	ycdA		putative lipoprotein YcdA	ATGTCCATCAAAAAAATGAGCGCCGTGTTTTTCATTCTGCTTCTCACGGCATTTACCGCCGCATGCAGCAGCGAAACGAGCGGCGGCCAGGAAAGCAGCACGGCGAAAGTGAAAATAAAAGATACGGCATGGGCCGCTTCCGACGATACTGAGCATTCGGCCGCGCTGAAAGTAACGGTCACCGTCAAAAATACGGGCAAAGACCCGCTTACCGTCAAAAACAGCGACTTCTCGCTTTATCAGGATGACGCGAAAACAGCCAAGGCCGATAAGGAAGACTTGTTGCAGAGCGGCACGCTTCATGCGGGTAAGACAGTGACGGGCAATCTGTACTTCACGGCTGACGAAGGCAAATCCTATGAATTGGTATATCAGCCGCAGGCAAAAGACGCGAAGCCTTTATCTTATAAACTGAAAGTCAAAGGCACAGCCTCAAACGCAAAACCTGACCCGGCGGACGCATTATCCGCATACATTGATGTGATGCTGTACGGCAAGCACAATAAAGATTTCACCCGCCTGACCGGTGTAAATGAAAAAATGACGGCCGCCGCATATCAGGAATCGGCGAAAGCCAGCTTTATCACTTCTGCAGGCATTTCACAAGAACAGGCGGATTCAAAAGCCATTACCGCTATTATTGACGCCATGTCATCAGCGCTTCGGGATAACACAGAGCTCAAGGTGCATACCAAATCCATGTCAGGCAAAAAAGCCGTCCTTGAAGCAAAAGTGACGCCGCTTGATATGTCTCCGCTTGCGGGCCAGCTGCAAGACCGCGTGCAAGACTATGCCGGAAAGCACCCCGATGCGGATGAAAACGAAATTGTCAGCCACCTGCTTTCTGTCTATCCGGAAGAGTTTATGCGCCTGAAACCGGCTTCTTCTTCCGTTACAAGAGAAATCGAGATGAAGAAAAACGCCCGCGGCCAGTGGTATCTGGATACAGACGCCGATCTGGAAGGATTGACAGAAGCGTTTTTGAAAACGTCCTGA	MSIKKMSAVFFILLLTAFTAACSSETSGGQESSTAKVKIKDTAWAASDDTEHSAALKVTVTVKNTGKDPLTVKNSDFSLYQDDAKTAKADKEDLLQSGTLHAGKTVTGNLYFTADEGKSYELVYQPQAKDAKPLSYKLKVKGTASNAKPDPADALSAYIDVMLYGKHNKDFTRLTGVNEKMTAAAYQESAKASFITSAGISQEQADSKAITAIIDAMSSALRDNTELKVHTKSMSGKKAVLEAKVTPLDMSPLAGQLQDRVQDYAGKHPDADENEIVSHLLSVYPEEFMRLKPASSSVTREIEMKKNARGQWYLDTDADLEGLTEAFLKTS				NA	NA	NA	NA	NA
D1-12_03332	933	iolS_3	COG0667	Aldo-keto reductase IolS	ATGGATGAGACACGTACGCTGGGCAGGACGGATTTACGGGTAAAGCGTATCGGCTTTGGCGCTAATGCGGTCGGAGGACATAATCTGTTTCCGAATCTTAATGATGAAACGGGAAAAGAACTCATCCGCACAGCGCTGGACGGCGGCGTCAATTTTATTGATACGGCGTTTATATACGGTTTGGGGCGTTCCGAAGAGTTAATCGGTGAAGTTGTCGCAGAGCGCGGCGTGCGGGACAGCCTCGTGATTGCGTCAAAAGGCGCGCACAAAGAGGTCAACGGACAGATCGAGCTGGACAACAGCCGTGAATTTCTCCGGAGTGAGGCGGAAAACAGCCTGAAGCGGCTGAAAACAGACGTGATTGATTTGTATTACGTCCACTTCCCTGACGGCAAAACACCGCTCTCCGAAGTGGCGGGCACGTTAAAAGAACTGAAGGACGAAGGGAAAATCAGAGCAATCGGCGCGTCCAATCTCAGCTTCCGGCAATTGCAGGAGTTTAACGCCGACGGCTATTTAGAGGTTTTTCAATCGGAATATTCACTGATTCAGCGTGAGGCGGAGCACGATCTGCTGCCTTATTGTGAAAAGAACGGCATTTCCTTTATTCCTTATTTTCCGCTTGCTTCCGGCTTGCTGACGGGAAAGTTTACAAAAGACACAGTCTTTGAGGACAGCCGAAAGAACAGGCCGCCGTTTCAGGGAGAAGCTTTTCACCAAAACCTGGAGCGAGTGGATAAGCTTCGGGCCGTTGCGGAAGAAAAAGGGGCGCAGACAGCGCATATCGCACTCGCATGGCTTCTGTCGCAGCCGGCGGTGGATGCGATCATTCCCGGAGCCAAACGCCCCGACCAGCTGAAACACAATCTGGACGCGCTTCATGTGCAGTTAACCGAGGATGAGGTTCAATTTATCAGTGACATCTTTAAGTGA	MDETRTLGRTDLRVKRIGFGANAVGGHNLFPNLNDETGKELIRTALDGGVNFIDTAFIYGLGRSEELIGEVVAERGVRDSLVIASKGAHKEVNGQIELDNSREFLRSEAENSLKRLKTDVIDLYYVHFPDGKTPLSEVAGTLKELKDEGKIRAIGASNLSFRQLQEFNADGYLEVFQSEYSLIQREAEHDLLPYCEKNGISFIPYFPLASGLLTGKFTKDTVFEDSRKNRPPFQGEAFHQNLERVDKLRAVAEEKGAQTAHIALAWLLSQPAVDAIIPGAKRPDQLKHNLDALHVQLTEDEVQFISDIFK	PGPT0018520_212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018520-iolS-K06607	NA	NA
D1-12_03333	1071			hypothetical protein	GTGGGAAAAGTGAAAAGAAATGCCCCTTGCCCATGCGGCAGCGGGAAGAAATATAAAAAATGCTGCGGAAGCAAAGAAGCTGCCATTCCGGCAGACATCGCGGCAAAAGAAGCGAAACAGATTCAGGAAAGCCTAATGGAGTACGCCTTTACAGCACATAGAGACGGCATATCATCATTTATTAACCAGCACGCGTTCATTACGGAGCTGGACAGACAGACAAAAGACATCGGAGTCTTCAACCTCGGCATCTGGGGAATTTTCTTCCGTCCGCTGGCAGGCGGCAAGACGATTTTTGAAGAATATCTTCAGAAAAAAGCCGGCGGCATCAACCGCCCGAAAACACGGGAAATCGTTGAATCATGGACAAGCATGACACCTGCCGTTATGGTGCTTGAAGATGTGAAAGAAGGAATGATTCACTTTGAAGATGTGATGACGAAGAAACAATTCAAAGTGGAAATGGACGTCAGCCAGCAGGATCTTCCGCCGGCGGGAAGCCTGATTCTCGGCTATCCGATCCACGAAGCGGAAAAAGCGGAGTTCTTCATGCAATTTACGATCTTCCCTGTGAAGCGGACCGAAGCTCTAATCAGCAAAGTGAAAAAGGCGGCGGCCCCGGCCCTTGCGGAAGGAAAATCGCCTGAGCGCTTTATGCAGGAAAACTTCGACACTGTGCTGGCCGCTCTTTTAACAACGGCGGAAGAGACTGAGCAGGCTGCTGAAGAAAAACAGACAGAGTGGGCCAACGACATGGAGAAGGAAACGGCAGACGCCATTGAAAAAGGCCTGAGCGGGGATGAATACCCGGCTGAGCTGGTTCCGGCCGTGATTGATCTGTGGAAAACGTTCTGTGTCAAAAAAACACCGACGATCAGAAAGCCTGAAGCTTTCGCAGCGGCGGTCGAATATTACGTGAACAGCATTTCTCTGAACGGCGCGTCCGTTTCTCAAGCCAAGCTGGCGAAGAAGTACGGCGTCAGCGCCTCAACGATTTCCAGCCGCTATAAGGAAATCGAGGGTGCTCTCACGGATGAAGCCGAACGCTTCGCCGCAGCTCTGACATCTTAA	MGKVKRNAPCPCGSGKKYKKCCGSKEAAIPADIAAKEAKQIQESLMEYAFTAHRDGISSFINQHAFITELDRQTKDIGVFNLGIWGIFFRPLAGGKTIFEEYLQKKAGGINRPKTREIVESWTSMTPAVMVLEDVKEGMIHFEDVMTKKQFKVEMDVSQQDLPPAGSLILGYPIHEAEKAEFFMQFTIFPVKRTEALISKVKKAAAPALAEGKSPERFMQENFDTVLAALLTTAEETEQAAEEKQTEWANDMEKETADAIEKGLSGDEYPAELVPAVIDLWKTFCVKKTPTIRKPEAFAAAVEYYVNSISLNGASVSQAKLAKKYGVSASTISSRYKEIEGALTDEAERFAAALTS				NA	NA	NA	NA	NA
D1-12_03334	645	estA		Lipase EstA	ATGAAACATATAAAAAGCAAAATCCTAGTCATCCTTACAGTTTGTATGCTGTCCGTCATTTCCGTATTTGCCTTCCAGCCGACCGTATCGAAAGCCTCCTCAGGGCATAACCCTGTTGTCATGGTCCACGGAATCGGCGGGGCGTCCTTTAACTTCGCGGGAATCAAAACATACTTGGCATCCCAAGGCTGGTCAAGAAAAGAGATGTACGCCATTGATTTCTTAGACAAAACCGGAAACAACAGACACAATGCGCCGAGACTGTCCAATTACGTGAAAAAAGTGCTCAGCGAAACAGGTGCGAGTAAAGTCGATATCGTCGCGCACAGCATGGGCGGAGCCAACACACTCTATTACATTAAAAATCTTGACGGCGGAGACAAAATCGCAAACGTCGTAACACTGGGCGGAGCGAACGGCCTTGTGACCAACCGGGCGCTTCCGGGGACTGATCCGAACCAAAAGATTTTATATACATCGATTTACAGCTCAGCGGACTTAATCGTCATGAACCCGCTGTCACGGCTGATCGGCGGGAAAAACGTGCAGATTCACGGTGTCGGACACATCGGACTTTTGATGAACAGCCAAGTAAACGGGCTGATTAAAGAAGGTCTGAACGGCGGCGGACAAAATACAAATTAA	MKHIKSKILVILTVCMLSVISVFAFQPTVSKASSGHNPVVMVHGIGGASFNFAGIKTYLASQGWSRKEMYAIDFLDKTGNNRHNAPRLSNYVKKVLSETGASKVDIVAHSMGGANTLYYIKNLDGGDKIANVVTLGGANGLVTNRALPGTDPNQKILYTSIYSSADLIVMNPLSRLIGGKNVQIHGVGHIGLLMNSQVNGLIKEGLNGGGQNTN	PGPT0024445_2186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
D1-12_03335	1116	ansZ	COG0252	L-asparaginase 2	ATGAAAAAACAATTCATGCCCTTCATTACATTTATCACGGCTCTGCTCTTCATCGCGGCCGGCTGCTCCCAATCTCCTCAAGCGAAAGAAACACCGCCCCGGATGGCAGCCGCAGCCCCAGCGAAAAAAGACGGACTTCCGAATATTAAAATTCTTGCCGCCGGCGGCACAATTGCAGGCGCTGCTCCTTCAAAGACGTCCGCTACGGAGTACACGGCGGGGGCAATCGGAGTTGATGCCCTGATTCAGGCCGTTCCGGAGATAAAAGAGGTCGCGCATGTGAGCGGAGAACAGGTTGTGAATATCGGCAGCCAGAATATGAATAACGAGACACTGCTGAAACTTGCAAAACGGGTAAACAAGCTGCTCAAGTCTGATGATACAGACGGCATTGTCATTACACATGGAACAGACACACTTGAGGAAACCGCCTACTTTCTCAATCTGACGGTCAAAAGTGACAAGCCCGTTGTTGTCGCCGGGTCAATGAGGCCATCCACGGCGCTCGGAGCGGACGGGCCGTCCAACTTATATAACGCTGTAAAAACAGCGGCTGCGCCTGATGCGAAAGGCAAGGGGACGCTTGTCGTATTAAATGACAGAATCGCTTCGGCGCGCTATGTGACAAAAACCAATACAACCGCGGCCGACACATTCAAATCGGAAGAAATGGGTTATATCGGAACAATTGCTGATGACGTCTATTTTAATAACATCATGACCCGAAAGCATACGAAGGATACAGATTTCAAGATAGATAAACTTGATAAACTGCCGCAGGTCGATATTATATACGGCTATCAAAATGACGGAAGCTATCTCTTTGAAGCCGCCGTAAAATCAGGGGCTCAAGGCATTATTTTTGCAGGCCCGGGAAACGGCTCAATGTCTGATGAGGCCCAAAAAGGCGCCGTAAAGTCGGTCAAAAGCGGGCTGGCGGTCGTCCGCTCCACAAGGACGGGAAACGGAACGGTAACACCTAATCGAGAGTATGAAAAAGACCATTTGACAGCTTCAAACTCTCTCAACCCTCAAAAAGCGCGGATTCTTCTGATGCTTGCGCTGACAAAAACGCATGATCCTAAGCGGATTCAAACCTATTTCAATGAGTACTAG	MKKQFMPFITFITALLFIAAGCSQSPQAKETPPRMAAAAPAKKDGLPNIKILAAGGTIAGAAPSKTSATEYTAGAIGVDALIQAVPEIKEVAHVSGEQVVNIGSQNMNNETLLKLAKRVNKLLKSDDTDGIVITHGTDTLEETAYFLNLTVKSDKPVVVAGSMRPSTALGADGPSNLYNAVKTAAAPDAKGKGTLVVLNDRIASARYVTKTNTTAADTFKSEEMGYIGTIADDVYFNNIMTRKHTKDTDFKIDKLDKLPQVDIIYGYQNDGSYLFEAAVKSGAQGIIFAGPGNGSMSDEAQKGAVKSVKSGLAVVRSTRTGNGTVTPNREYEKDHLTASNSLNPQKARILLMLALTKTHDPKRIQTYFNEY	PGPT0020180_299	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
D1-12_03336	567	yxaF_1		putative HTH-type transcriptional regulator YxaF	ATGAGCTATGGAGATTCTCGTGAAAAAATCCTCGCCGCGGCAACCAGGCTGTTTCAGCTTCAGGGGTATTACGGCACGGGGCTGAATCAGATTATTAAAGAAAGCGGTGCGCCGAAAGGTTCTCTTTACTATCATTTTCCGGACGGCAAAGAGCAGCTCGCCATTGAGGCTGTCAATGAAATGAGCCATTATATCCGTATGAAAATAAAAGAAAGCCTTGATGCCCATCCTGATCCTGCGGAAAGCATTCAAGCGTTTTTACAGGACTTATCAAGCCAATTCACATGTCCGGAGAACTTTGAAGGGTTTCCTGTCGGTTTACTGGCTGCCGAGACGGCTTTAAAGAGCGAAAAGCTCCGGCAGGCCTGTCAATGCGCTTATCAGGAATGGGAGAATCTGTTCGCGGGCAAATTGAGATCAGCCGGTTTTTCTGATGAGAAAGCGGCGGAAATCAGCACTGTTTTAAATGCCATGATAGAAGGCGGCATCATTGTGTCCTTAGCCAAAAAAGACAAAATGCCGATCCTCCATATTTCTAAACAAATCCCGAACCTGCTGAAGACATAA	MSYGDSREKILAAATRLFQLQGYYGTGLNQIIKESGAPKGSLYYHFPDGKEQLAIEAVNEMSHYIRMKIKESLDAHPDPAESIQAFLQDLSSQFTCPENFEGFPVGLLAAETALKSEKLRQACQCAYQEWENLFAGKLRSAGFSDEKAAEISTVLNAMIEGGIIVSLAKKDKMPILHISKQIPNLLKT				NA	NA	NA	NA	NA
D1-12_03337	1434	emrB_3		Multidrug export protein EmrB	TTGGAAAACGCTCAGCCTTCCAAACAATATAAAGTCATGCCGATCATGATTTCTTTACTGACGGCAGGGTTTATCGGCATGTTCAGTGAAACGGCGCTGAATATCGCCCTGACTGACCTGATGAAGGAGTTACATATCACTCCTGCGACCGTCCAGTGGCTGACGACGGGCTATCTGCTCGTTCTCGGTATTCTTGTCCCGGTATCGGGTCTGCTTTTGCAATGGTTTACGACGAGACAGCTGTTTATCGTTTCACTCGCTTTTTCCATTATCGGCACGCTGATTGCAGCGCTTGCGCCGAGCTTTCCGTTTCTTTTGGCGGCAAGAATCGTGCAGGCTTTAGGAACCGGGCTGCTGCTGCCGCTGATGTTTAATACAATCCTCGTCATCTTCCCGCCGCATAAGCGCGGAGCGGCAATGGGGACGATCGGGCTTGTCATCATGTTCGCTCCTGCGATCGGTCCGACGTTTTCAGGGCTTGTGTTAGAGCATTTGAACTGGCATTGGATTTTCTGGATTTCCCTGCCGTTTCTTGTGTTGGCTCTTTTATTCGGCATCGCCTACATGCAGAACGTGTCTGACATTACAAAACCGAAAATTGACGTGCTTTCCATTATTCTGTCTACGATCGGGTTTGGCGGCATCGTATTCGGATTCAGCAATGCGGGCGAAGGATCAGACGGCTGGTCAAGCCCGACGGTTATCGGTTCACTCACTGTCGGTGCGATCGCGCTCATCTTATTTTCCATCAGGCAGCTGACAATGAAGCAGCCGATGATGAATCTGCGCGCTTTCCGCTATCCGATGTTTGTTCTCGGTGTCGTGATTGTGTTTATCTGTATGATGGTTATCTTATCGACAATGCTCCTATTGCCTATGTATTTACAAAGCGGACTGATGCTGACGGCGTTTACGTCCGGGCTCATCCTGCTGCCGGGCGGTATTTTAAACGGCTTTATGTCTCCGGTGACGGGGCGTCTGTTTGATAAATACGGGCCGAAGTGGCTTGTCATTCCCGGATTTGTCATCACGGCAACTGTGCTTTCGTTTTTCTCAAACATTAACGGCGCTTCAACGGCGCTTCTGATTGTCGCGCTTCATACATGCCTGATGATCGGCATTTCCATGATCATGATGCCGGCGCAAACGAACGGCTTAAACCAGCTGCCGCCGGAATTTTATCCGGACGGAACGGCCATTATGAATACGCTCCAGCAGATGGCCGGCGCAATCGGCACTGCGGTGGCGGTCAGCATCATGGCTGCCGGCCAGAAGAATTATATGAGCACCGCGAAAAACCCGAATGATCCTTCCGCATACTCTCACGCGCTGATTGCGGGCGTCCAGCACGCCTTTATCTTCGCGATGATTGTCGCTGTTATCGGCTTGATCAGCGCTTTCTTTATGAAACGGGTCAAAGTGAATCACTCATAA	MENAQPSKQYKVMPIMISLLTAGFIGMFSETALNIALTDLMKELHITPATVQWLTTGYLLVLGILVPVSGLLLQWFTTRQLFIVSLAFSIIGTLIAALAPSFPFLLAARIVQALGTGLLLPLMFNTILVIFPPHKRGAAMGTIGLVIMFAPAIGPTFSGLVLEHLNWHWIFWISLPFLVLALLFGIAYMQNVSDITKPKIDVLSIILSTIGFGGIVFGFSNAGEGSDGWSSPTVIGSLTVGAIALILFSIRQLTMKQPMMNLRAFRYPMFVLGVVIVFICMMVILSTMLLLPMYLQSGLMLTAFTSGLILLPGGILNGFMSPVTGRLFDKYGPKWLVIPGFVITATVLSFFSNINGASTALLIVALHTCLMIGISMIMMPAQTNGLNQLPPEFYPDGTAIMNTLQQMAGAIGTAVAVSIMAAGQKNYMSTAKNPNDPSAYSHALIAGVQHAFIFAMIVAVIGLISAFFMKRVKVNHS	PGPT0028570_665	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028570-lmrB-K18926	NA	NA
D1-12_03338	1128	csd		putative cysteine desulfurase	TTGAATTCGCCTCTGGTGCAATACCGATCTTTATTTCCGGCGCTCCGCACACATACGATGCTCGCCAGCTGCTCTCAAAGCGCTCTTGCCCTGCCGGTTTCAAAAGCGATCAATGACTACCAGGAAAGCCTGCTTCAGCATGGCGGAAACTGGGAAGAAGCCATTGGACGAACGGAGCAGGCAAGGTGTGAATTTGCGAAATTGATCGGCGCCCATCCTGAAGAAATCGCCGTTTTACCTTCAGTAACGGCTGCTGTCTCTGCCGTCGTTTCTGCTTTACCGGATTGCCGAAAGAAACAGGCGGTGTATACGGAATTGGATTTTCCGGCGATCGCCCACATTTTGAAGGCACAGACTGAGATGGAGCTTTCAGTCGTGCCGTCTGAAGATGGAATGATCCCGTTAGAGCGGTATGAGACGTACATATCGGAACAGACGCTTTTCACCTGTGTGCCCCATGTGTCATATACGTCCGGTTTTGTCCAGGATATGAAGCGCATTGCCGAGATATCCGCAAAGAAGGGATCGCTTCTTTTTGTCGATGCTTATCAATCGGCGGGGCACATCCCGATTGATGTAAAAGAATGGGGAGTTGATATGCTGGCCGCGGGTGCGAGAAAGTATATGCTCGGCATACCGGGAACGGCGTTTCTTTATGTCAGAAAGGAACTTGCCGAACGGCTGAAGCCGAAAGTCACCGGGTGGTTCGGGCAGCAGCGGGCGTCGATGCTGGATTTAACCCGTTTTTCTTATGCGGACGGAGCCAAACGCTTTGAGACCGGAACCCCGGCATTTATCAGCATATATGCGGCACAGGCGGCTTTATCTCTAGTAAACGATGCCGGCACAGACCGCATTCACCAAGAAGTAAAAAAACTCAGCGCATTTGCGTATGAATACGCTTCTGAAAAAGGACTGAATCTCACAGGGCCGCCGTCTGCCGATGACAGACCCGGCATGATTTCCATACGGGATGAAAAAGCGGCGGAAACGGCTGCGCTGTTGAGGCGGAAAAACATCGTATGCGCACCCAGCGGACAAATCATCCGGCTGGCGCCTCATTTCTATAACACGGCCGATGATCTGATCTATGCGATTGATGAACTGGCTGAAGCGCGCGGTATATAA	MNSPLVQYRSLFPALRTHTMLASCSQSALALPVSKAINDYQESLLQHGGNWEEAIGRTEQARCEFAKLIGAHPEEIAVLPSVTAAVSAVVSALPDCRKKQAVYTELDFPAIAHILKAQTEMELSVVPSEDGMIPLERYETYISEQTLFTCVPHVSYTSGFVQDMKRIAEISAKKGSLLFVDAYQSAGHIPIDVKEWGVDMLAAGARKYMLGIPGTAFLYVRKELAERLKPKVTGWFGQQRASMLDLTRFSYADGAKRFETGTPAFISIYAAQAALSLVNDAGTDRIHQEVKKLSAFAYEYASEKGLNLTGPPSADDRPGMISIRDEKAAETAALLRRKNIVCAPSGQIIRLAPHFYNTADDLIYAIDELAEARGI	PGPT0020195_5103	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
D1-12_03339	648	pcp	COG2039	Pyrrolidone-carboxylate peptidase	ATGGAGAAAAAAGTATTGCTGACAGGCTTTGACCCCTTCGGCGGGGAAACGGTCAATCCTTCATGGGAAGCGGTCAAACGGCTGGACGGTGCCGCTGAGGGCCCCGCCTCTATCGTATCTGAACAAGTGCCGACCGTTTTTTATAAGTCCCTTGCCGTGCTGCGCGAGGCGATCAAAAAGCATCAGCCTGACATTATCATCTGTGTCGGACAGGCAGGCGGCAGAATGCAGATCACGCCGGAACGGGTCGCGATCAATCTCAATGAGGCGCGCATACTGGATAACGAAGGAAACCAGCCTGTCGGGGAAAACATTTCTCAAGACGGTCCCGCGGCCTATTGGACCGGCCTTCCGATCAAACGGATCGTTGAGGAAATCAAAAAGGAAGGCATTCCCGCGGCTGTATCCTACACGGCGGGGACGTTTGTATGCAATCACCTCTTTTACGGCCTGATGGATGAAATCGCCTGCCATCATCCCCACATCCGCGGCGGGTTTATACACATCCCGTACATTCCGGAGCAAACTTTGCAGAAGTCTGCGCCGAGCCTCAGCCTGGATCTCGTGACAAAAGCGCTCAAAATCGCCGCGGTGACCGCCGCGGCGCATGAGGACGATATTGAGACCGGCGGAGGCGAACTTCACTAA	MEKKVLLTGFDPFGGETVNPSWEAVKRLDGAAEGPASIVSEQVPTVFYKSLAVLREAIKKHQPDIIICVGQAGGRMQITPERVAINLNEARILDNEGNQPVGENISQDGPAAYWTGLPIKRIVEEIKKEGIPAAVSYTAGTFVCNHLFYGLMDEIACHHPHIRGGFIHIPYIPEQTLQKSAPSLSLDLVTKALKIAAVTAAAHEDDIETGGGELH				NA	NA	NA	NA	NA
D1-12_03340	726	tatC1	COG0805	Sec-independent protein translocase protein TatCd	TTGGATAAAAAAGAAACCCACTTGATCGGGCATTTAGAGGAAGTCCGGCAGCGTCTCATTAAAACCGTTATCGCCTTTCTCGTGTGTTTTATCGGCGCCTGCTGGTTTGTGCAGGATATTTATGACTGGCTGATCAAGGATTTGGATGGCAGGCTGGCCGTTTTAGGGCCGAGCGAGATTTTATGGGTGTATATGATGATTGCGGGAATATGCGCCCTTACGGCAGCGATTCCGGTTGCGGCCTTTCAGCTCTGGCGTTTTACGGCGCCGGCTTTGACCCCGTTTGAACGCCGCGCCGCTTTGCTTTACATTCCGGGGCTTTCGGTTTTGTTTATCATCGGAATTTCCTTCGGGTATTTTGTGCTGTTTCCGATTGTGCTCGGATTTTTAACACAATTATCCGCCGGCCATTTTGACATGGTATTTACGGCGGACAAGTATTTTACCTTTATGCTGAATCTTACATTGCCGTTCGGATTTTTATTTGAAATGCCTCTGGCCGTCATGTTTCTGACACGGCTCGGAATCGTGAATCCAACCCGGCTGGCAAAGGCGCGGAAGCTTTCGTATTTTGTGCTGATCGTCGTCTCTGTGCTGATTACGCCTCCGGATTTTATGTCTGACTTTCTCGTTATGATTCCGCTGCTTGTCCTCTATGAAATCAGTGTGACGCTGTCCCGCATCGTTTACCGGAAGAAATGGGCCGAGGCGCCGTCTGCAGCTTAG	MDKKETHLIGHLEEVRQRLIKTVIAFLVCFIGACWFVQDIYDWLIKDLDGRLAVLGPSEILWVYMMIAGICALTAAIPVAAFQLWRFTAPALTPFERRAALLYIPGLSVLFIIGISFGYFVLFPIVLGFLTQLSAGHFDMVFTADKYFTFMLNLTLPFGFLFEMPLAVMFLTRLGIVNPTRLAKARKLSYFVLIVVSVLITPPDFMSDFLVMIPLLVLYEISVTLSRIVYRKKWAEAPSAA	PGPT0029295_4417	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
D1-12_03341	198	tatAd		Sec-independent protein translocase protein TatAd	ATGTTTTCAAATATCGGCATTCCCGGGTTGATCCTGATTTTCGTCATCGCTCTCATCATTTTCGGACCTTCAAAGCTTCCGGAAATCGGCCGTGCAGCCGGCCGCACGCTGCTTGAATTTAAAAGCGCCGCAAAAACACTGGTCTCAAATGAAGAGCCGGACAAGCAGACGGCTGAGAAAGACAAAACGGCAGGCTGA	MFSNIGIPGLILIFVIALIIFGPSKLPEIGRAAGRTLLEFKSAAKTLVSNEEPDKQTAEKDKTAG	PGPT0029290_4326	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
D1-12_03342	1752	phoD	COG3540	Alkaline phosphatase D	ATGACACATGACGGCCGTTTAGATGAATGGATCAAGGAATTGGAGAACAAAAGCTTTCAGAACAATACGTTTGACCGCCGCGCATTTATACAAGGCGCCGGGAAAATCGCCGGTCTTTCCCTCGGGTTAGCGATCGCGCAATCCATCGGCGCGTTTGAAGTGAATGCCGCTCCGAAATTTTCAAACTATCCGTTCACCCTCGGCGTAGCCTCCGGCGACCCGCTGTCTGACAGCGTCATTCTCTGGACGCGTCTTGCCCCGGACCCGCTGAATGGGGGCGGCATGCCGAAGCAGGCCGTGCCGGTAAAATGGGAAATCGCTACTGATGAACATTTCCGTCACATCGTCAAACGCGGAACGGAAATGGCCAAGCCGAATCTCGGACACTCCGTCCATGTCGAGGCGGACGGGCTCAAGCCCAATAAAGTGTACTATTACCGGTTTAAAAGCGGGCATGAGCTCAGTCCCGTCGGCCGGACGAAAACGCTGCCCGCTCCCGGCGCTGACGTATCCGCCATGACGTTTGCATTTGCCTCATGCCAGCAGTATGAACACGGCTATTATACGGCGTATAAACATATGGCGAAGGAAAAGCTTGATCTCGTGTTCCATCTCGGAGATTACATTTATGAATACGGACCGAACGAATATGTGTCAAAAACGGGAAATGTCAGGACGCACAGCAGCGCTGAAGTGTATACACTGTCAGATTACCGCAACCGTCATGCCCAATACCGCTCTGATGCCAATCTGAAAGCCGCCCACGCCGCATTTCCGTGGGTCGTGACGTGGGACGATCATGAGGTGGAAAACAATTATGCCAATATTATCCCTGAAAAAGGCCAATCCGTTGAAGCGTTTGTGCTCAGGAGGGCCGCCGCTTATCAGGCTTATTATGAACACATGCCGCTCAGGCGCATGTCATTGCCGAACGGTCCTGATATGCGGCTGTACAGGCAATTTTCTTATGGCAATTTAGCGTCGTTCAATGTGCTTGATACAAGACAGTACAGAGATGATCAGGCCAACGGCGACGGGAATAAGCCGCCTTCTGATGAGTGGAGAGACCCGAAGCGCACATTGATGGGGACAGAACAGGAGCAATGGCTGTTCGGCAATTTAGCCGCCTCAAAAGCGAAGTGGAATGTGCTGGCGCAGCAAATCTTTTTCGCGCAATGGAATTTCGGAACAACCGCCAATCCGATATACAGCATGGATTCATGGGACGGCTACCCGGCTCAGCGGGAGCGGGTCATCAATTTTATAAAAAGCAAAAATCTGAACAATGTCATCGTGCTGACAGGTGATGTTCACGCAAGCTGGGCGTCAAACCTGCATACCGATTTTAACCAAACGAATTCAAAGATTTTCGGAGCCGAATTCGTCGGGACTTCCATTACATCTGGAGGAAACGGGGCGGATAAACGGGCCGATACGGATCAGATCTTAAAACAAAACCCGCATATTAAGTTTTTCAACGATTACCGCGGCTATGTCCGCTGTACGGTGACCCCTGCCCAATGGAGAGCGGATTACAGAGTGGTGCCGTACGTGACGGAGCCGGGGGCTGAGGTATCCACGCGGGCTTCATTCATTTATCAGAAAGACCAGACGGGGATTCGGAAGGTCTCTCAAGCTGCGGTTGCAGGCGGTTTAAAGCAGTCGAACGAGGTGGAAGAGGATCGTTTCTTCGCCCATAACAATGCGCATGAAAAGCAAATGAGAAAGAAACGGGCCAAAATCTCACAATAA	MTHDGRLDEWIKELENKSFQNNTFDRRAFIQGAGKIAGLSLGLAIAQSIGAFEVNAAPKFSNYPFTLGVASGDPLSDSVILWTRLAPDPLNGGGMPKQAVPVKWEIATDEHFRHIVKRGTEMAKPNLGHSVHVEADGLKPNKVYYYRFKSGHELSPVGRTKTLPAPGADVSAMTFAFASCQQYEHGYYTAYKHMAKEKLDLVFHLGDYIYEYGPNEYVSKTGNVRTHSSAEVYTLSDYRNRHAQYRSDANLKAAHAAFPWVVTWDDHEVENNYANIIPEKGQSVEAFVLRRAAAYQAYYEHMPLRRMSLPNGPDMRLYRQFSYGNLASFNVLDTRQYRDDQANGDGNKPPSDEWRDPKRTLMGTEQEQWLFGNLAASKAKWNVLAQQIFFAQWNFGTTANPIYSMDSWDGYPAQRERVINFIKSKNLNNVIVLTGDVHASWASNLHTDFNQTNSKIFGAEFVGTSITSGGNGADKRADTDQILKQNPHIKFFNDYRGYVRCTVTPAQWRADYRVVPYVTEPGAEVSTRASFIYQKDQTGIRKVSQAAVAGGLKQSNEVEEDRFFAHNNAHEKQMRKKRAKISQ	PGPT0002575_508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
D1-12_03343	429	cwlJ	COG3773	Cell wall hydrolase CwlJ	ATGGCAGTCGTAAAAGCGTCGAGCGCCGATGTCGATCTAATGGCAAGGCTGCTCAGGGCGGAAGCGGAAGGCGAAGGGAAGCAGGGAATGCTTTTGGTCGGCAATGTGGGAATCAATAGGGTGCGGGCGAATTGTTCTGATTTTAAAGGCCTGCGCACCATCAGGCAGATGGTGTTTCAGCCGCACGCGTTTGAAGCGGTGACTCACGGATACTTTTACCAGAGACCGCGTGAATCCGAGCGGAGGCTTGCCCGCAGGAACATTAATGGAGAACGGTTTTGGCCGGCTAAATTCAGCCTGTGGTATTTTAAGCCGCCGGGCAACTGCCCGCAGACTTGGTATGGCCAGCCGTTTGTCGCCAGATTCAGATCCCACTGCTTCTATCAGCCGACAGGTGAGACGTGCGAAAACGTGTACAATACATTTTAA	MAVVKASSADVDLMARLLRAEAEGEGKQGMLLVGNVGINRVRANCSDFKGLRTIRQMVFQPHAFEAVTHGYFYQRPRESERRLARRNINGERFWPAKFSLWYFKPPGNCPQTWYGQPFVARFRSHCFYQPTGETCENVYNTF				NA	NA	NA	NA	NA
D1-12_03344	384			hypothetical protein	ATGGAACACATTAAAGCGCTTGCCATTAAAGGCATTATGACCATCATTATTCTGTATCTGATACTCGGCTTAGGTTTTCGCTTTACATTCGGCGACGTGCTGCTGATGACCATTGTGCTGGGAGCCGTTTCCTACTTTACGGGCGACTTGTACGTGCTTCCGAGATGGAATAATATCACGGCGGCGTCCGCTGATTTCGGAATCGCGTTTCTTGTCGTCTGGCTGATGGGAATGCCGCTGTCCATGGGCATTTCCGGGGGAAGACTGGCGTTTGCCGCTCTTATTTCCGCCGTCATCATCGCCGTCGGAGAATATTTTTTCCATATTTATCTGATGAGAAAAGACTTGGGCGGGTCCCGTTTTTTAGAACCCCGGTCCGAATAA	MEHIKALAIKGIMTIIILYLILGLGFRFTFGDVLLMTIVLGAVSYFTGDLYVLPRWNNITAASADFGIAFLVVWLMGMPLSMGISGGRLAFAALISAVIIAVGEYFFHIYLMRKDLGGSRFLEPRSE				NA	NA	NA	NA	NA
D1-12_03345	165	rtpA		Tryptophan RNA-binding attenuator protein inhibitory protein	ATGGTGATCGCAACCGACGATCTTGAGCTCACGTGTCCGCATTGTGAAGGAACCGGCGAGGAGATAGAAGGGACGCCCTGTCCGAAGTGCGGCGCGAAGGGTGTCATATTGACCGCTCAAGGAAACACGCTGCTGCATTTTATCAGAAAGCATATGGATCAGTGA	MVIATDDLELTCPHCEGTGEEIEGTPCPKCGAKGVILTAQGNTLLHFIRKHMDQ				NA	NA	NA	NA	NA
D1-12_03347	921			hypothetical protein	ATGACAAAACAAAGGGAAATAGAAACCGTTCTGAACATCGCAAAGGAAAATGGCTTACGGTTAAAGTATGAAGGGGCGGACATAAATGAAACGGGTATGGACTTCCAAGTCGTATTTGCTGAAGATGACAGCGGCATGACATGGGTGCTCCGAAAGCCGCGCCGTCCCGATGTTATCGAAAGAGCGGCTGCAGAAAGCGGCGTTCTCGCGTTTCTCCGCAGCCATGCCGCGGTAGCAGTGCCCGATTGGCGGATTCATACACCGGAACTGATCGCTTATCCGAAACTGGACGGAATACCAGCTGCCGCAATTGATCTGGATAAGAAACAGTATGTCTGGAATATGGAACACGAGCCGCCTTCAGACGGTTTTGTCGGCTCGCTTGCCGCGGCATTAGCCGAGCTGCACGGGGCAGACCCGGATGCGGCCTCCAGATCCGGAATTGAAATCATAAAACCGGATGACGTCAGGCAAAGGGCGGCGGAATCAATGGATCACATAAAAAAAGAAATCGGGGTCTCAGAGCCGCTTTGGAAAAGATGGCAAACGTGGATAAATGACAGTTCGTACTGGCCTGATTTTTCCGCGCTGATCCATGGCGACTTGCATCCTCCGCATATTTTGATCGGCGAAAATCAGCGTGTGACGGGTCTCCTCGATTGGACGGAGGCAAAGGTTGCCGATCCGGCCAAGGATTTTGTCCTTTATCAAGTGATATTAGGAGAAAAAGAAACAAAACGGCTGATGAAGAGCTACGAAGCTGAAGGCGGGCGCGTCTGGCCGAAAATGCAGGAGCATGTGACAGAATGGCAGGCCGCTTATCCCGTGGAAACGGCGAAATTCGCGCTTCAGACGGGGCAAGAGGAGCATATGCAAATGGCGCGGGACATGCTCGGCCTGTCCGATCCGAAAGGTTATTGA	MTKQREIETVLNIAKENGLRLKYEGADINETGMDFQVVFAEDDSGMTWVLRKPRRPDVIERAAAESGVLAFLRSHAAVAVPDWRIHTPELIAYPKLDGIPAAAIDLDKKQYVWNMEHEPPSDGFVGSLAAALAELHGADPDAASRSGIEIIKPDDVRQRAAESMDHIKKEIGVSEPLWKRWQTWINDSSYWPDFSALIHGDLHPPHILIGENQRVTGLLDWTEAKVADPAKDFVLYQVILGEKETKRLMKSYEAEGGRVWPKMQEHVTEWQAAYPVETAKFALQTGQEEHMQMARDMLGLSDPKGY	PGPT0028010_210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028010-mph-K06979	NA	NA
D1-12_03348	948	spo0A_2	COG0784	Stage 0 sporulation protein A	ATGCGTTTTTTTATAGCTGATGATGACCGGGCGATCCGTTCCATTTTAAAACAGATGATCGAGGACGAGGACTTAGGCGAAGTCGTCGGTGAGGCAGAGGACGGAAGCCAGATTGAAGGGCATTATCTCCATTTTAAACAAGTCGATATTTTATTAATTGATCTGCTGATGCCGGGTCGGGACGGGATTGAGACGATCCGGCATCTTCAGGGATCGTACAACGGAAAAGCGGTGATGATATCGCAGGTGGAGGCAAAGGAAATGGTGGGAGAAGCTTATTCTCTCGGCATCGAATACTTTATCCACAAACCGATCAACAAAATCGAGATCGTCACCGTTTTGCGAAAAGTAAAAGAGCGGATTGAACTGGAAACCTCGATCGGCGATATCCAACACTCGTTAAGCCGTCTTATTCAGCGGAATGAGCCGAAAAAAAGCGGGCCGGGGGGGATGCACGAGAAATCAATCAAAGAAACAGGAAAATTTCTTTTATCGGAATTAGGCATCGTGGGAGAAAGCGGGGCGCATGACCTCATGGCCGTCCTTCACTATTTATTTGAGGATGAACAGGCGGAAAGAAACATCCCGTCTTTAAAGCAGATGTTTACAAACGTCGCCATCCGGAAGCTGGGGCCTGCGGCGGCACAAGCCGAGGTTAACAGAGAAATCAAAGCCTCGGAACAGCGGATCAGAAGGGCCGTCATTCATTCGTTAAACCATTTCGCTTCATTGGGCACAACTGATTTTTCAAACCCCAAATTTGAATATTACGCCTCGAAATTCTTTGATTTCCCCGCTGTCAGCAAGAGAATGAAAGAAATGCAGGCTAAGGAAACCGTGCCGCTTTCTCCGGTTAAAGTGAATATGAAAAAATTCATTCACGTCTTCTTTTTGGAGGCGAAAGATTTACGCGAAGGATCAAAATTTGTCAGCGGAGGCAGCCGGTAA	MRFFIADDDRAIRSILKQMIEDEDLGEVVGEAEDGSQIEGHYLHFKQVDILLIDLLMPGRDGIETIRHLQGSYNGKAVMISQVEAKEMVGEAYSLGIEYFIHKPINKIEIVTVLRKVKERIELETSIGDIQHSLSRLIQRNEPKKSGPGGMHEKSIKETGKFLLSELGIVGESGAHDLMAVLHYLFEDEQAERNIPSLKQMFTNVAIRKLGPAAAQAEVNREIKASEQRIRRAVIHSLNHFASLGTTDFSNPKFEYYASKFFDFPAVSKRMKEMQAKETVPLSPVKVNMKKFIHVFFLEAKDLREGSKFVSGGSR	PGPT0000740_8	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000740-ycbB|glnL-K07719	NA	NA
D1-12_03349	1293	glnK	COG0642	Sensor histidine kinase GlnK	ATGATCAGGCTCGACTATTTACTGAAAAAAGACGGCTATCTTTTCGCCCTTATGCTGATCACCGTGCCGCTGGCGGGGGAACTGAAATTTTACCCCCTGAATGAGGTATACCGGATCAGCTTCGGCGCCCCGGCTTTTTTCTTTTTTCTGCTGCTGCTTCGACATGTGCCGGCAGTATTGTCAGGGCTGTTGACAGGTGCAGCCGTTGTGGCATTCCGGATCGGCCTGGCGTGCTGGGGAGGAGAGCATGCCGGCTTTATGGAGGCTTTTTTCAGCCAATATCCCAGTTTCTTTTTTTACTTTACATATGCCTGCTTGTTTTATGTGCTGAAGGTCAGGCTTTTTTGGGATCGGCCGCTGATGATCGGGTTTCTCGGTTTTCTCATTGAAATTGCGTCCGATGCCGTTGAAATGACGGTTCAGTTTTCCGGCGGCCGGCAGATTATGATGCCGGACAAGCTGGCGGATATTACGGTTATCGCTGTTTCTCACACATTTATTGTGCTGAGTTTTTTCAACGTGATGAAGCTGCACGAATCTCAGGTCAGGGAAAAACAAACGAGAAAGCAGCATGAGCACATGCTGATGATTGTGTCTAACTTATATGAAGAAACGATTCATTTGAAAAAAACGCTGAAAACGACGGAGCATGTGACGAAAGAATCCTATCAGCTATATCGGGAAATGAGCGGGAACGACCGGGAGCTCGGGAGCCGAATGCTGCGCCTTGCGGGAGAAATTCATGAAGTGAAAAAAGACAATCAGCGAATATTCGCCGGCCTGTCGAAGCTGATTTCCAATGAGAGATTCCGGGATTACATGAATGCCGCCGCTCTGGTCGGCATCGTCATCCGAATCAATGAAAAATACGCCGAATCTTTAGGCAAGGACATTCAATTCCAGAGCGTGATTGAAGGAGAGCATCCCGATTATCACGTCTTTACCGTCTTGTCGATCTTAAATAATCTGACAGCCAATGCCGTCGAAGCCATGGGTGACAGGGGTGAGATCCGCCTCGCGCTGCGCAGGGCGGAGAGGGAGATGGCCGAATTTGAGGCGGAAGATGACGGTCCCGGCATTCCGGAAAAAATCGGAGAGGTCGTTTATGATCCCGGATTTACGTCCAAATACGATGAATTCGGCACACCTTCAACGGGCATCGGGCTTACTTACGTGAAGGAAATCGTAACTGAACTTGACGGAGACATTTCCTTTCATAACAAGCCAAAAGGCGTCATATTTACGATTAAACTGCCGGTGAAGCATTTGATTGCAGAAAGGATGAACTCATAA	MIRLDYLLKKDGYLFALMLITVPLAGELKFYPLNEVYRISFGAPAFFFFLLLLRHVPAVLSGLLTGAAVVAFRIGLACWGGEHAGFMEAFFSQYPSFFFYFTYACLFYVLKVRLFWDRPLMIGFLGFLIEIASDAVEMTVQFSGGRQIMMPDKLADITVIAVSHTFIVLSFFNVMKLHESQVREKQTRKQHEHMLMIVSNLYEETIHLKKTLKTTEHVTKESYQLYREMSGNDRELGSRMLRLAGEIHEVKKDNQRIFAGLSKLISNERFRDYMNAAALVGIVIRINEKYAESLGKDIQFQSVIEGEHPDYHVFTVLSILNNLTANAVEAMGDRGEIRLALRRAEREMAEFEAEDDGPGIPEKIGEVVYDPGFTSKYDEFGTPSTGIGLTYVKEIVTELDGDISFHNKPKGVIFTIKLPVKHLIAERMNS	PGPT0000735_140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0000735-ycbA|glnK-K07717	NA	NA
D1-12_03350	984	glsA1	COG2066	Glutaminase 1	ATGAAAGATATGGTCAGAGAGCGCCTTGAAAAAGAGGAACTGGCTTCACTTTTACAAGATTGGGTCGAGCATTACCGACCGTTTTCCGTCAATGGAAAAAGCGCAAATTATATACCCGCCCTCGGAGAAATCAACGACTCTCAGCTGGGCATTTGCATATTAGAGCCGGATGGCTCAATGATTCATGCCGGTGAATGGAATGTACCGTTCACATTGCAGAGCATCTCAAAAGTCATCAGCTTTATTGCCGCCTGCATGAACAGAGGCATTTCTTACGTGCTGGATCGTGTGGACGTGGAACCGACGGGTGATGCGTTTAATTCTATCATCCGGCTTGAAATCCATAAACCCGGGAAGCCCTTCAACCCGATGATCAATGCCGGCGCCATTACCGTCGCCTCGCTGCTTCCGGGTGAAACGGCGCATGATAAATTAGAATATCTCTTTTCCGTTTTTGAAAAATTAATAGGAAAACGGCCTCACGTTCACGAGGAGGTCTTCCGTTCTGAATGGCAGACCGCGCATCGGAACAGAGCGCTCGCCTACTATTTAAAAGAAACGAACTTTCTCGAGGCGGATGTGGAAGAAACGCTTGAAGTGTATTTAAAGCAGTGCGCCATGGAGGGTACAACCGAGGACATCGCTTTAATCGGATTGATACTTGCGCATGACGGCTACCATCCGATCCGACGGGAACAGGTCATTCCGAAAGATGTCGCGAAACTCGCCAAAGCCCTGATGCTGACATGCGGGATGTACAATGCGTCAGGAAAATATGCGGCTTTCGTCGGCGTCCCCGCCAAAAGCGGGGTATCCGGCGGCATTATGGCATTGGTTCCCCCAAGCGCCAGAAGAGAACAGCCTTTTCATAACGGCTGCGGCATCGGCATTTACGGTCCGGCCATTGATGAATACGGCAACAGCCTGACCGGCGGCATGCTGCTGAAACATATCGCACAGGAGTGGGAGCTCAGTATTTTTTAA	MKDMVRERLEKEELASLLQDWVEHYRPFSVNGKSANYIPALGEINDSQLGICILEPDGSMIHAGEWNVPFTLQSISKVISFIAACMNRGISYVLDRVDVEPTGDAFNSIIRLEIHKPGKPFNPMINAGAITVASLLPGETAHDKLEYLFSVFEKLIGKRPHVHEEVFRSEWQTAHRNRALAYYLKETNFLEADVEETLEVYLKQCAMEGTTEDIALIGLILAHDGYHPIRREQVIPKDVAKLAKALMLTCGMYNASGKYAAFVGVPAKSGVSGGIMALVPPSARREQPFHNGCGIGIYGPAIDEYGNSLTGGMLLKHIAQEWELSIF	PGPT0020215_1073	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
D1-12_03351	1437	alsT_2	COG1115	Amino-acid carrier protein AlsT	ATGCAGGAATTCTTTGAAAATGTAATCGGCTCGGCAAATGATTTTTTATGGTCAAAACTGTTAATCGTACTGCTTCTTTCTCTGGGACTGTTTTTTACGTTCAGATCAAAGGGTCTGCAAGTCCGCATGCTGAAGGAAATGATCCGGGTTTTGAAGGAAGGCGCGGCCGCCCGGACAAAAAACAGCATTTCCCCGTTTCAGGCATTTTGCATCAGTATGGCGGCGCGTGTCGGAACCGGGAATATTACCGGAATCGCCATTGCGATCGCACTCGGCGGTCCGGGCGCTATTTTCTGGATGTGGATTATCGCAGTCATCGGTTCGGCTTCAAGCTTTGTTGAAAGCACGCTGGCCCAAATTTATAAAGTAAAAGATCAAAACGGATTCCGCGGGGGCCCGGCCTATTACATGGAAAAGGGCCTGAAGAAACGCTGGATGGGCGCGCTGTTCGCCGTATTAATCACACTGTCATTCGGAGTTGTTTTTAATTCCGTTCAATCCAATACGATCAGCGTCGCCTTTCAAAACGCATTCGGCACCAGCCGGCTTACATTGGGCATTATGTTAATCTTGGTTTTCGGCGGCGTAATCTTCGGCGGCGTCAAACGAATTGCGAAAATGGCGGAATACATCGTAGTCGTTTTGGCCGTTTTATATATCGGTGTCGCTTTCTTTGTCATTCTGACGAACATCACCCAATTGCCCGGCGTTCTGTCGCTAATCGTAAAAAATGCGTTCGGCATTGATCAGGCAGCGGGCGGCGCTTTAGGTGCGGCCTTGATGCAAGGTGTAAGACGCGGGATTTTCTCAAATGAAGCGGGTATGGGAAGCGCTCCGAACGCGGCGGCGACAGCTACGACGAGCCACCCGGTGAAACAGGGGCTCATTCAGGCATTCGGCGTCCTGACGGATACGCTTGTCATTTGTACAAGCACGGCGCTTATCATTTTATTTTCAGACGCTTATCACCAGTCGGGACTGAGCGGCATCGCGCTTTCTCAGGCCGCCTTGAGCGACCATGTCGGCGCGTGGGCGTCAGGTTTCCTTGCCGTCTTAATGCTTTTGTTCGGCTTCAGCGCTCTGATGGGCAACTATTATTACGGAGAAACCAATATCGGATTTTTAAGCCAGAACAAAAAATGGCTGTTCATTTACCGCATCTGCGTGCTCGGAATGGTACTGTTCGGCTGTATTTCCAAAGTCCAGCTTGTGTGGGATATGGCTGACTTGTTCATGGGCTTAATGGTGGTCGTGAACTTAATCGCGATTTTCCTTCTGTCGAAAAAAGCGTTTGCCGCTTTGAGCGATTATGTCCGGCAAAAGAAAGCCGGAAAGGACCCCGTCTTTTACAGAGATGTGCTCCCTGATGATGAAGGGATCGAATGCTGGGAGTATTCAGACATCGCGAAAAGTGCGAAAGGCAAACACATTTCCTAA	MQEFFENVIGSANDFLWSKLLIVLLLSLGLFFTFRSKGLQVRMLKEMIRVLKEGAAARTKNSISPFQAFCISMAARVGTGNITGIAIAIALGGPGAIFWMWIIAVIGSASSFVESTLAQIYKVKDQNGFRGGPAYYMEKGLKKRWMGALFAVLITLSFGVVFNSVQSNTISVAFQNAFGTSRLTLGIMLILVFGGVIFGGVKRIAKMAEYIVVVLAVLYIGVAFFVILTNITQLPGVLSLIVKNAFGIDQAAGGALGAALMQGVRRGIFSNEAGMGSAPNAAATATTSHPVKQGLIQAFGVLTDTLVICTSTALIILFSDAYHQSGLSGIALSQAALSDHVGAWASGFLAVLMLLFGFSALMGNYYYGETNIGFLSQNKKWLFIYRICVLGMVLFGCISKVQLVWDMADLFMGLMVVVNLIAIFLLSKKAFAALSDYVRQKKAGKDPVFYRDVLPDDEGIECWEYSDIAKSAKGKHIS	PGPT0000745_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000745-glnT-K11626	NA	NA
D1-12_03352	948	mmuM	COG2040	Homocysteine S-methyltransferase	ATGAATCCCATTACACAAATATTAAATGAATACCCGGTGATGATCATAGACGGCGCGATGGCAACCGAGCTTGAGCGGATGGGGTGTGATTTACATGACGATCTGTGGTCGGCCAAAATTCTTTTGGAGAGGCCCGAACTGATCAAACAGGTGCATGCAGAATATTTTGCCGCCGGCGCTGATTGCGCGATCACCGCCAGTTATCAATCGACAATCGAAGGATTTGCAGCGCGCGGCATCCCTGAAGCCGATGCGATACGTCTCATTCAGACATCTGTTGAACTTGCCGCACATGCACGCGATGAATTTTGGGCGCATGAAGAAAACCGTTTACACCGGCCCAAACCTTTGGTCGCCGCTTCTATCGGACCTTACGGCGCGAGCCTCGCTGACGGCTCAGAATATCGCGGGCATTACGGACTGACGGAGGATGAGCTGATCAGCTTTCACCGCCCCCGGATGAAAGCTCTCATAGAATCCGGCGCCGATCTTTTGGCCTGCGAGACCATTCCGTGCCTGTCAGAAGCAAAAGCGATCACAAGGCTGCTGGAGGAATTCCCCGGCACTTATGCATGGATCAGCTTCAGCGCCAAAGACGGACGGCATATCAGCGAAGGCACGCCTATTTCCGAATGCGCGGCCCTGCTTGACTCCTGCAGCCAAATCGCAGCGATCGGCATCAACTGCACACCGATTGAACATATTCCGCCGCTGATAGAAGAAATCAAACGGTCAGCATCCAAACCGATTATCGCCTATCCGAACTCCGGCGAACAATATGACCCAGTGACAAAAACCTGGAAAGGCGCAGCGTGCGAAAACCATTTCGGAAAAAGCGCGCAAAGCTGGTACGAAAACGGCGTGAGCCTGATCGGAGGCTGCTGCCGGACGAAACCTGCGGACATTCAGGCCATTGCCGATTGGGCCAAGACCTTAAAAACAACTTGA	MNPITQILNEYPVMIIDGAMATELERMGCDLHDDLWSAKILLERPELIKQVHAEYFAAGADCAITASYQSTIEGFAARGIPEADAIRLIQTSVELAAHARDEFWAHEENRLHRPKPLVAASIGPYGASLADGSEYRGHYGLTEDELISFHRPRMKALIESGADLLACETIPCLSEAKAITRLLEEFPGTYAWISFSAKDGRHISEGTPISECAALLDSCSQIAAIGINCTPIEHIPPLIEEIKRSASKPIIAYPNSGEQYDPVTKTWKGAACENHFGKSAQSWYENGVSLIGGCCRTKPADIQAIADWAKTLKTT	PGPT0017810_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
D1-12_03353	1464	rocC_2	COG0833	Amino-acid permease RocC	GTGCCGTTCGCCGGCATGAGATTTTTTATTAGAACGGCCCTCGCAGAAAGTTGGAAAACAATGAACAACAAGAACGAGACGAATTTTCAGAGAAGTATGAAAAGCAGACACCTCTTTATGCTATCACTCGGAGGTGTGATCGGAACGGGGCTGTTTTTAAGCTCTGGGTATACCATTCATCAGGCGGGTCCGGCGGGCACCATTTTCGCTTACCTTTTGGGCGCGGGCATCGTCTATCTTGTCATGCTTTGCCTTGGTGAACTGTCAGTAGCTATGCCCGTGACGGGCGCATTCCATACTTATGCGAAAACCTATATTGGGCCGGCGACGGGCTTTACGGTCGCATGGCTGTACTGGCTGACGTGGGCGGTGGCGCTGGGCTCTGAATTCACGGCGGCCGGGCTTTTCATGCAGCGCTGGTTCCCGCATACTTCAGTTTGGATGTGGAGTGCGGTATTCGCTCTTCTCATCTTTTTATTAAACGCCTTCTCCGTGAAATTTTTTGCTGAATCGGAGTTTTGGTTCTCAAGCATTAAAGTCTTAGCCATCTTACTGTTTATTTTATTGGGCGGAGCGGCGATGTTCGGCATCGTCCCGATGAAAAGCGGTGAGGCCGCACCTATGCTGTCGAACTTTACGGATAGCGGCAGCCTTTTTCCAAATGGCTTTTTCCCGATACTGATGACAATGCTTTCAGTAAACTTCGCTTTTTCAGGGACGGAATTGATCGGAATCGCCGCCGGGGAAAGCGCCGATCCGGAAAAAACCGTTCCGCGCGCCATTAAGACCACAGTCTGGCGGCTGGCGCTTTTCTTTATCGGAACGATTTTTGTGCTGTCAGGGATGATCTCCATCAAGGAAGCCGGTGTGATTGAAAGCCCGTTCGTCACGGTATTTGACAGAGTCGGCGTGCCTTATGCGGCCGATCTGATGAATTTCGTCATTTTAACGGCGCTTCTGTCTGCGGCCAATTCAGGGCTGTACGCGTCATCACGTATGCTGTGGTCCCTGTCTAAAGAAGGGGAGCTTCATCCCGCCTTTGCCAGGCTGACTTCTAGAGGCATTCCTTTTAACGCTCTGATCTTCAGTATGATCGGCGGCATTCTGTCGTTGTTGTCAAGCGTGGTTGCAGCGGATACAGTCTATCTTGTTCTCGTCTCCGTCTCAGGATTTGCGGTAGTGGCTGTGTGGATGAGCATCGCCGCATCGCAATTTTTGTTCAGAAGACGGTTTCTTACAGAAGGGCACCAGCTTTCAGACTTGAAATACAGGACGCCGGGATATCCGGCCGTACCGATAGCGGCCTTTCTCCTGTGCCTCGCCTCCTGTATCGGCATCGCTTTTGATCCGAACCAGGCCATCGCCCTTTATTGCGGGATTGCATTTATGGCCGTTTGCTACAGCGCTTATTACTTGAAAAACCGGAAAAGCAGAGCCCGCGTGCAAGCCGTAAAATCCCAATAA	MPFAGMRFFIRTALAESWKTMNNKNETNFQRSMKSRHLFMLSLGGVIGTGLFLSSGYTIHQAGPAGTIFAYLLGAGIVYLVMLCLGELSVAMPVTGAFHTYAKTYIGPATGFTVAWLYWLTWAVALGSEFTAAGLFMQRWFPHTSVWMWSAVFALLIFLLNAFSVKFFAESEFWFSSIKVLAILLFILLGGAAMFGIVPMKSGEAAPMLSNFTDSGSLFPNGFFPILMTMLSVNFAFSGTELIGIAAGESADPEKTVPRAIKTTVWRLALFFIGTIFVLSGMISIKEAGVIESPFVTVFDRVGVPYAADLMNFVILTALLSAANSGLYASSRMLWSLSKEGELHPAFARLTSRGIPFNALIFSMIGGILSLLSSVVAADTVYLVLVSVSGFAVVAVWMSIAASQFLFRRRFLTEGHQLSDLKYRTPGYPAVPIAAFLLCLASCIGIAFDPNQAIALYCGIAFMAVCYSAYYLKNRKSRARVQAVKSQ	PGPT0020525_22	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020525-mmuP-K16235	NA	NA
D1-12_03354	1068	ilvE	COG0115	Branched-chain-amino-acid transaminase 1	TTGAATCAACTGATTGAAAGACGTAAGGTCACAGCAAGAAAAGAAAAACCGGATTCCGCTTCATTGGGATTTGGCAAGTACTTCACAGATTACATGTTTGTCATGGATTACGAAGAGGAGAGAGGGTGGCATGATCCGAGAATCACACCTTATGAACCGGTCCGCCTTGACCCTTCCGCATCGGTTTTCCATTACGGGCAGGCCGTATTTGAAGGGCTGAAGGCTTACAGGTCAGAAGACGGCCGGGTGTTGATGTTCCGTCCTGACCAAAATATAAAACGGCTGAATAAATCGTTACGGCGGATGAGCATGCCGCCTCTTGACGAGAAGCTGGCGCTGGAAGCATTGATACAATTGGTGGAGCTGGAGCAGGAATGGATACCGATAGAAAAAGGAACCTCTTTATATATCCGTCCGTTTGTGATTGCGACTGAGCCTTCTTTAGGCGTCCGGCCTTCAAAGCGTTACAAGTTCATGGTTGTTCTGACGCCTGTCGGTTCGTACTACGGCGATCAGCTCAAACCGATCCGTATTTATGTGGAGGATGAGTATGTGCGTGCCGTCACCGGCGGAGTGGGCGACGTCAAAACATCCGGAAATTATGCGGCCAGCTTACAGGCTCAGCGGAAAGCCGAAGAACTGGGGTATGATCAGGTGCTTTGGCTCGACGGGGTGGAAAAGAAATATGCCGAAGAGGTAGGAAGTATGAATATCTTTTTCATCATAAACGGAGAGGCCGTAACGCCGTCATTAAACGGAAGCATTCTCGGGGGCATCACACGCGCATCTGTGATAGAGCTGTTAAAAAGCTGGGGCATCCGTGTCAGGGAAGAACAGGTCGCCATTGATGACATCTATGAGGCTGCGATGAGAGGCGAGGTGTCAGAGGTATTCGGTACGGGAACAGCGGCCGTCATCTCGCCGGTCGGCGCGCTGCACATTCACGGAGAAACGATTGAGCTGAATAACGGTTTGATCGGTGAAGTGTCAGAAAGGCTCTATGAAACGATTGCCGGCATCCAAGTCGGGAAGGTGCGGGATTCGTTCAGATGGGTGGTTGAAGTATAA	MNQLIERRKVTARKEKPDSASLGFGKYFTDYMFVMDYEEERGWHDPRITPYEPVRLDPSASVFHYGQAVFEGLKAYRSEDGRVLMFRPDQNIKRLNKSLRRMSMPPLDEKLALEALIQLVELEQEWIPIEKGTSLYIRPFVIATEPSLGVRPSKRYKFMVVLTPVGSYYGDQLKPIRIYVEDEYVRAVTGGVGDVKTSGNYAASLQAQRKAEELGYDQVLWLDGVEKKYAEEVGSMNIFFIINGEAVTPSLNGSILGGITRASVIELLKSWGIRVREEQVAIDDIYEAAMRGEVSEVFGTGTAAVISPVGALHIHGETIELNNGLIGEVSERLYETIAGIQVGKVRDSFRWVVEV	PGPT0008860_2735	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
D1-12_03355	1251	gltP	COG1301	Proton/glutamate-aspartate symporter	TTGAAAAAATTTATCGCATTCCAGATTTTGATCGCTTTAGCCATCGGAGCATTGATCGGCCATTTCTTCCCGGATTTCGGGATGGCGCTGCGGCCCGTCGGAGACGGATTTATCCGCCTGATTAAAATGATTGTCGTGCCGATCGTGTTTTCAACCATTGTCATCGGAGCCGCCGGCAGCGGCAGTATGAAAAAAATGGGCAGTCTCGGCATCAAAACGATTATTTGGTTCGAAGTGATTACGACGCTTGTTCTGGCGCTCGGTCTGTTATTGGCGAACGTGCTGAAGCCGGGAGTCGGACTTAACCTCTCTCATCTTGCTAAAAAAGATATTCACGAGCTTTCCGGCTATACGGAAAAAGTAGTCGACCTGAAACAAATGCTTCTTGATATTATCCCCGTTAACATCATTGACGTCATGGCGAAAAACGATCTTCTCGCCGTCATTTTTTTCGCGATTTTATTCGGTGTTGCCGCAGCCGGCATCGGCAAAGCCTCCGCACCTGTCATGAGTTTCTTCGAATCCACGGCAAATATTATGTTCAAACTCACGCAGATGGTGATGGTCACCGCTCCGATCGGCGTTCTCGCCCTGATGGCCGCCTCCGTCGGGCAATTCGGAATCGCGCTTTTGCTTCCGATGCTGAAGCTGATCGGCACTGTGTTCCTCGGGCTGTTCCTGATACTCTTCGTTCTGTTTCCGATCGTGGGGCTTATCTTTAAAATCAAGTACTTTGAAGTGCTGAAAATGATTTGGGATCTGTTTTTGATCGCTTTCTCCACGACAAGCACAGAAACCATTCTGCCTCAGCTGATGGATCGGATGGAAAAATACGGCTGTCCGAAGCGGGTCGTCTCCTTTGTGGTTCCGTCAGGTTTATCGCTGAACTGTGACGGCTCAAGCCTCTATTTATCGGTGTCCTGTATTTTCCTGGCGCAGGCGTTTCATGTGGAGATGCCGCTTTCTCAGCAGCTTCTGATGATGCTTGTCCTCGTGATGACAAGCAAAGGCATTGCCGCCGTCCCGTCAGGCTCACTCGTCGTGCTTCTGGCGACAGCGAATGCCGTCGGTCTCCCCGCGGAAGGTGTCGCCATCATTGCCGGTGTCGACCGCGTCATGGACATGGCGCGGACCGGCGTCAACGTGCCCGGCCATGCGGTCGCCTGCATCGTCGTGTCCAAGTGGGAAAAAGCATTCAAATATAAAGGACCCGTCACGGCAGACCAGACCGCCCGGACAGAAAGTATGTAA	MKKFIAFQILIALAIGALIGHFFPDFGMALRPVGDGFIRLIKMIVVPIVFSTIVIGAAGSGSMKKMGSLGIKTIIWFEVITTLVLALGLLLANVLKPGVGLNLSHLAKKDIHELSGYTEKVVDLKQMLLDIIPVNIIDVMAKNDLLAVIFFAILFGVAAAGIGKASAPVMSFFESTANIMFKLTQMVMVTAPIGVLALMAASVGQFGIALLLPMLKLIGTVFLGLFLILFVLFPIVGLIFKIKYFEVLKMIWDLFLIAFSTTSTETILPQLMDRMEKYGCPKRVVSFVVPSGLSLNCDGSSLYLSVSCIFLAQAFHVEMPLSQQLLMMLVLVMTSKGIAAVPSGSLVVLLATANAVGLPAEGVAIIAGVDRVMDMARTGVNVPGHAVACIVVSKWEKAFKYKGPVTADQTARTESM	PGPT0000805_987	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
D1-12_03356	969			hypothetical protein	ATGGAAAAACAATATAGAGTTTTACTTTATTATAAATATGTAAAGATTGATGAGCCTGAGGAGTTCACGGCTCAGCATTTGAAGTTTTGTAAGGAGCTCGGTCTGTTAGGCCGTATTTTGATTTCTGAGGAAGGCATTAACGGTACGGTGTCCGGAACGGTTGAACAGACGGATCAATACATGAATGCGCTGAAAGCTGATCCGCGCTTTGCCGACATGCCGATTAAAATTGACGAGGCTGACGGACATGCATTCCGCAAAATGTTTGTGCGCCATAAAAAAGAATTGGTGACGCTTCGTCTCGAAGATGATGTTGATCCGAATGTCACGACGGGCAAGCATTTGAAACCGAAAGACTTTTATGAGCAAATGCAGGACCCTGACACGATCGTGATCGACGCCAGAAACGACTATGAGTATGATCTCGGTCATTTCCGCGGAGCGGTCAGACCTGATATTGAGGCGTTCCGTGAGCTGCCGGACTGGATTGAAGAGCACAAAGACATGCTTGAAGGCAAAAAAATCCTCACGTACTGCACAGGCGGCGTACGCTGTGAAAAATTTTCCGGCTGGCTGCTGAAAAAGGGCTTTGAAGACGTGTCCCAGCTTGACGGCGGTATCGTCACTTACGGTAAAGATCCTGAAGTGCAAGGGCAACTGTGGGACGGACAGTGCTACGTGTTTGACGAAAGAATCAGCGTACCGGTCAACCGCGTAGAGCACGTTATCATCGGAAAAGATTATTTCACGGGCGAGCCGTGCGAGCGTTATGTGAACTGCGCAAATCCGGCATGTAATAAAAAAATGATCTGCACACCTGAGAATGAATACAAATACATGCGCAGCTGCAGTCACGAATGCCGTACGAACGAACGCAACATGTATGTGAAAGAGCACGAAATGACTCAGGAAGAAATCAATGAACGCCTTGCTTTGATTGAAAAAGAGGATCATGCGGCGATTGATTAA	MEKQYRVLLYYKYVKIDEPEEFTAQHLKFCKELGLLGRILISEEGINGTVSGTVEQTDQYMNALKADPRFADMPIKIDEADGHAFRKMFVRHKKELVTLRLEDDVDPNVTTGKHLKPKDFYEQMQDPDTIVIDARNDYEYDLGHFRGAVRPDIEAFRELPDWIEEHKDMLEGKKILTYCTGGVRCEKFSGWLLKKGFEDVSQLDGGIVTYGKDPEVQGQLWDGQCYVFDERISVPVNRVEHVIIGKDYFTGEPCERYVNCANPACNKKMICTPENEYKYMRSCSHECRTNERNMYVKEHEMTQEEINERLALIEKEDHAAID	PGPT0013330_973	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
D1-12_03357	276			hypothetical protein	ATGGAAGAAAAGGATTTGGCAAAGCTGATAGAGCAGTACCAGCATACAGGGGATCAGCAAATTCTTGAAGCCGTGCGGGACGCATGCCGGCCTGTCATTGAGGCGCTCATCTCAGAACTGGCTGAAGACAGCGCCGATCTTCTGCGGACAAAAGGCCGTGAACGTTTTCCGTTTATTATCGGCAAGTATCAGACCGCGGCCGGCCTTTCGCTTGAGACCTTTTTGCGCAATACGTATCGGTTTTATTTTCAGCAGGTTTTAAAAGGCGAAGCGTGA	MEEKDLAKLIEQYQHTGDQQILEAVRDACRPVIEALISELAEDSADLLRTKGRERFPFIIGKYQTAAGLSLETFLRNTYRFYFQQVLKGEA				NA	NA	NA	NA	NA
D1-12_03358	816	psd	COG0688	Phosphatidylserine decarboxylase proenzyme	ATGTTTAATACTGCCGCTAAAGTTCTTTATCGTTCATTGATTGAACTGACTAATAATCGATTGACGTCTTATCTCATTAAAAACTTCTGTGAATCGAAACTGAGCAAGCCGGTGATTCCGCTGTTTTCCAAACACTATCGCATCAACTGGAATGAAACGGAACGCACGGCTTCTGACTTTGATTCACTGGCGTCATTTTTTATTCGTGATATTAATTTGAATCTCCGCCCCGTGGCAAAAGAGAAGAACGCCATCGTCAGCCCGGTGGACGGCGTCGTTCAGACGGTGGGCATGATTAATCCCAATCAAACTTTCATGGTAAAAGGGAAGGATTATTCGTTCGCCGAACTGACGGGGTTTAAAAGCGCCGATCACAAGTATAACGGCGGGTGTTTTGCCGTGCTTTACCTGAGCCCGAGACATTACCACCGCTTCCATTCTCCCGTCAGCTGCACGTATCAGAAGCTGGCCGAGCTGGGGAAACGCTCCTATCCCGTTAATACGATGGGGTTAAAGTACGGGAAAGATGTGCTCTCAAAAAATTACCGTTATGTGTACGAGCTGACCCGTGCTGATCAGCAGATGCTCATGATTCCGGTAGGTGCGATGAATATTAACTCGATCGTTCAGACAAACACCGGAAACAGGCTTGAGACGGGGGAAGAGCTGGGCTATTTTTCATTTGGATCGACCGTTATTTTAGTATTCGAGAAAGATATGTTTACCCCTTCGGATAACCTGACTGAAGGCCGTGAATTACAGGTCGGCCAGATCATCGGTTATGCGGAGTCACAGGAGGAGGCGTCCGCTTTATAA	MFNTAAKVLYRSLIELTNNRLTSYLIKNFCESKLSKPVIPLFSKHYRINWNETERTASDFDSLASFFIRDINLNLRPVAKEKNAIVSPVDGVVQTVGMINPNQTFMVKGKDYSFAELTGFKSADHKYNGGCFAVLYLSPRHYHRFHSPVSCTYQKLAELGKRSYPVNTMGLKYGKDVLSKNYRYVYELTRADQQMLMIPVGAMNINSIVQTNTGNRLETGEELGYFSFGSTVILVFEKDMFTPSDNLTEGRELQVGQIIGYAESQEEASAL	PGPT0007700_2837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
D1-12_03359	489	dedA	COG0586	Protein DedA	ATGGAATTAGTTCAGCAATTAATATCCGATTACGGATATATCGCAATTTTTCTTATGCTGACACTCGGAATTATCGGATTGCCTATTCCGGATGAAGTCATGATGACGCTTGTGGGCTACTTCGCTCATTTAAACGTGCTGAATTACGGGCTCTCCATTCTGGTCAGCTTTATCGGAGCGCTCCTTGGGATGATTATCAGCTACTTCATCGGCAGAAAAGCCGGCCGGCCGTTTATTAATAAGTTCGGGAAATGGGTCGGCCTGAAGGAAAAGAGGATGGAGAAAGTAGACAGGTGGATGAAGAAGTACGGGCCGTACACCATTATTTTAGGTTATTTCATCCCCGGCATCAGACACGTGACCTGCTACTTTTCCGGAATCGGCAGAATGGAATTCAAAACCTACTTATGCTTCGCCGCCATCGGAGCGTTTTTATGGTGTTTTATTTTTATTACTATAGGAAAATTCATAGGAGTAATCAATGTTTAA	MELVQQLISDYGYIAIFLMLTLGIIGLPIPDEVMMTLVGYFAHLNVLNYGLSILVSFIGALLGMIISYFIGRKAGRPFINKFGKWVGLKEKRMEKVDRWMKKYGPYTIILGYFIPGIRHVTCYFSGIGRMEFKTYLCFAAIGAFLWCFIFITIGKFIGVINV				NA	NA	NA	NA	NA
D1-12_03360	534			hypothetical protein	GTGAATTATATACCTAGTATGATTACAATTGGAAATTTTATTTGCGGGCTCTTATCGATTCATTCCCTTTTGTATCATAATATACACTCTGCGGTGATCTTTATTTTCACCGGGATGTTTCTTGATTTCTTTGACGGTTTGGCCGCCCGTAAGCTGAACGCGGTATCGGAGATGGGAAGAGAGCTTGACTCCTTTGCTGATCTCGTGACGTTCGGCGTAGCGCCGTCCATGCTCGCTTACAGTGTTTCACTATATACGATTCCGTTCATCGGAATTTTAATCGCGCTTTCCTACAGCATCTGCGGGATGATCCGTCTTTCCAGATTTAATATTGAACAAAGCAAGCTGCCGACGTTTATCGGGATGCCTATTCCGTTTGCGGGTATGTGTCTTGTCATTTTGAGCTTTATCAATAACGCTTTTCTTCTGGGGGCGGGAACGATCGCGCTCGGTTATTTAATGGTCAGCAACATTAAATTTCCGCACTTTAAAAAACAGGCGCCTGAAAACCTGGAGAGCAGAAGATGGAATTAG	MNYIPSMITIGNFICGLLSIHSLLYHNIHSAVIFIFTGMFLDFFDGLAARKLNAVSEMGRELDSFADLVTFGVAPSMLAYSVSLYTIPFIGILIALSYSICGMIRLSRFNIEQSKLPTFIGMPIPFAGMCLVILSFINNAFLLGAGTIALGYLMVSNIKFPHFKKQAPENLESRRWN	PGPT0007695_3116	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
D1-12_03361	1155	purT	COG0027	Formate-dependent phosphoribosylglycinamide formyltransferase	ATGTATCAGGCGAAGAAGATGTTGTTATTAGGATCAGGCGAGCTGGGGAAAGAAGTCGTCATTGAAGCGCAGCGGCTCGGGGTTGTCACTGTAGCCGTTGACAGCTATGAGCATGCTCCCGCCATGCAGGCCGCGCACAAAAGCTATGTGATTGATATGCTTGGCAAAGCGCAGGTCAGAGAAGTCATTGATAAAGAAAAACCGGACTTGATCGTGCCGGAAGTGGAAGCCATTGCGACGGATGAGCTGCTGAAGCTTGAGGAAGAAGGTTTTCACGTCATTCCGAATGCGCGTGCGGCAAAGCTGACGATGGACCGTGAAGGCATCAGACGGCTTGCGGCAGAGACGCTTCATCTTCCGACTGCCGGCTATGAATTCGCGAATACATATGAAGAATTTAAAGAAGCGGCGGAAACAATCGGCTTTCCGTGCGTGGTAAAGCCGCTGATGAGCTCTTCCGGAAAAGGGCAAAGCGTGTGCCGCTCGGCTTCCGGGCTGAAAAGCTGCTGGGACATGGCGATGGAAGGCGGCCGGGTGAAAAACGGCCGGGTCATCGTTGAGGAATTCATTCCGTTTGAATCAGAAATCACTCTTCTGACAGTGCGCGCGGCGAACGGTACGTCCTTTTGCGCGCCGATCGGACATGAACAAAAAGACGGTGACTATATTGAATCATGGCAGCCTCATCATATGACGGAACAGCAGATTGAAGAGGCGAAACACATTGCGAAAAGCATTACGGACGAGCTCGGCGGATACGGTTTGTTCGGGGTGGAGCTTTTCCTTACTGAAGATAAAGTATATTTCAGCGAGGTGTCTCCCCGTCCGCATGATACGGGGCTCGTTACGCTTGTGACGCAAAATTTGTCGGAGTTTGCGCTGCATGTCCGCGCGGTATTGGGATTCCCGATTCCGGAAATCACTCAGCTGTCGCCGGGGGCAAGCCGTCCGCTGAAGGCGCCAAAAGAGCTTGCTGATTATGCGGTTGAAGGTTTGGAGAAGGCTTTGGCGGTAAAAAGCACTCAGGTCCGCGTATTCGGTAAACCCGTCACGAAAGTCGGACGCCGTATGGCGGTTGCGCTTTCTGCAGCCGGGACCGTTGAAGAGGCCAGAGAAAGAGCGGCCGAAGCACTCAGTCATTTATCAATTACATAA	MYQAKKMLLLGSGELGKEVVIEAQRLGVVTVAVDSYEHAPAMQAAHKSYVIDMLGKAQVREVIDKEKPDLIVPEVEAIATDELLKLEEEGFHVIPNARAAKLTMDREGIRRLAAETLHLPTAGYEFANTYEEFKEAAETIGFPCVVKPLMSSSGKGQSVCRSASGLKSCWDMAMEGGRVKNGRVIVEEFIPFESEITLLTVRAANGTSFCAPIGHEQKDGDYIESWQPHHMTEQQIEEAKHIAKSITDELGGYGLFGVELFLTEDKVYFSEVSPRPHDTGLVTLVTQNLSEFALHVRAVLGFPIPEITQLSPGASRPLKAPKELADYAVEGLEKALAVKSTQVRVFGKPVTKVGRRMAVALSAAGTVEEARERAAEALSHLSIT	PGPT0008100_222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008100-purT-K08289	NA	NA
D1-12_03362	1071	hcxA	COG0371	Hydroxycarboxylate dehydrogenase A	ATGAAGCCTGAAGATATCGTCCGAAGCGGCCCGAATCAGTACATATGCAAGGAAGGAATCGCAAAAGAGCTTCCGGGGCTGCTGGAGACATTCAGAAAACCCGTTATTGTGACCGGAATCAAATCCTATCAGGCGTTCTCCGATTACGGCGGCGGTTCTTCCTGGGATGTGATTCAGCATAAAGGATACTGTTCACCTGAGGCGGTGCGTAAGGTCTGTGAGCAGGCGGAAGACGCGGATGTGATCATCGGTATCGGAGGCGGCACGATTTTGGATTTGGCAAAAGCGGCGGCAGACCGGCTTGATATAGAGGCTGTGATGGTTCCTTCCATTGCGGGGACGTGTGCGGCAAGTACGCCGTTAAGTGTCATGTATGATGAGAGCGGCAATTTTATCAGAGTGGATTATCATAAGCGTTCAAGCTATTTGACGCTTGTTGATCCGCTGTTTTTACTTTCCTCTCCCATTGAATATATGAAAAGCGGGATCGGTGATACGCTGGCGAAATGGTATGAGGCTGAGGCGGTCATCAGAAATACGGAGGAGGCGGCGCCGCTGATGGCGCAGGCGGGGCTGAGACAGGCGGAATATATCCGTAATCTGTTATTGCGTTACAGTGAAGCGGCCGTCGGAAGCATGGAGAAAGGCGAGCTGTCCGTGCCGTTCATCCATACGGCGGAAACGATCATTATGCTTGCGGGAACGGTCGGCGGGTATGGCGGCCGTTTGTGCAGGATGGCAGGGGCGCATGCGGTCCACAACGGACTCAGTTTTCTTCAGGAGACACATCAGGTGCTGCATGGCCAGAAGGTTGCTTACGGCATATTGGTGCAGCTCGCGCTCGAGAATCGGAGACCTGAGATTGAGGAGCTGCTTCCGTTTTACCGCCGGCTCGGTTTCCCTGTCAGCCTCTGTGATCTCGGCATCCTTGACAACCATGAGGAAGCCAAGCGCCGCATCGCTTCTCACGCCTGCCGGGCGGAAGAATCGTTATGCTTAATGGGGCAATATCGCGAGAAGGACGTGTCAGCGGCGATTGAATCGCTCGAATCAGCGCAAAAGACAGGATAG	MKPEDIVRSGPNQYICKEGIAKELPGLLETFRKPVIVTGIKSYQAFSDYGGGSSWDVIQHKGYCSPEAVRKVCEQAEDADVIIGIGGGTILDLAKAAADRLDIEAVMVPSIAGTCAASTPLSVMYDESGNFIRVDYHKRSSYLTLVDPLFLLSSPIEYMKSGIGDTLAKWYEAEAVIRNTEEAAPLMAQAGLRQAEYIRNLLLRYSEAAVGSMEKGELSVPFIHTAETIIMLAGTVGGYGGRLCRMAGAHAVHNGLSFLQETHQVLHGQKVAYGILVQLALENRRPEIEELLPFYRRLGFPVSLCDLGILDNHEEAKRRIASHACRAEESLCLMGQYREKDVSAAIESLESAQKTG	PGPT0013245_350	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013245-hcxA|ybdH-K08317	NA	NA
D1-12_03363	471			hypothetical protein	ATGGATCAAGATTATATGACTGAGCTTGTCTCAGTCCAGCTGAAGAAAATCCGGTCGGAGAGAGGCTACACACAGGAGAAAATGGCGGATGTGATCGGCCTTTCTAAAAAGTCGCTGGTGCAGATTGAGAAAGGGCGGGCGCTTGCGGAATGGCCGCACGTTGTGGCGGTTTGCGCGCTTTTCAGATCAAGTGAAACACTGCAATCCGTATTAGGAGATGATCCGCTGGAGGTCATTGAAACGGTTGCTCACCGCACAATTGACAGGCCGAAGGGGAAGACGATGGGCGGCAAGGTGTGGTGGAAAGCCATCGAGAAAAAAGGCGAGTTCCGCTTGCAGCAGCATTTGATTTCCCACCATTACCGTATCCTTGATTCCTATGATGATCTGTGGTTCAGCAGTTTTGAAAAGGCAGAGGCTTTGGAGCGGCTTGATGAGCTGTTTTTGGAGGCGGAAGAAGCGAAGCGCTGA	MDQDYMTELVSVQLKKIRSERGYTQEKMADVIGLSKKSLVQIEKGRALAEWPHVVAVCALFRSSETLQSVLGDDPLEVIETVAHRTIDRPKGKTMGGKVWWKAIEKKGEFRLQQHLISHHYRILDSYDDLWFSSFEKAEALERLDELFLEAEEAKR				NA	NA	NA	NA	NA
D1-12_03364	444			hypothetical protein	ATGAAAAGCAAAAAGATTTTTAAGTCGCTAATTATTATTTTTACTCTTTTAATCAGCGGAATTGGTTTTATGGGTTTTTCTTCTCCGCAAAAAGCAGAGGCTAAAGATTGGCTTCATACTTATAAAAGCGGGTATTTCACTAACTATGTGATCAATACCTATCACCCTAAATTCACTAAGACGACAAAAAAGTACAGCTTGAGAGCCGTGACTTTTAAATCCAACAGTAAAGGGAAGGGCACGTATAAAATATACGTCCAAAAGCAAGTCAACGGTAAAGGTGCCTGGAAAACAATCAAAACCGCCAATGCAAAGAAAAATGGAACGACTTATTTTGAAACACCTTCGTTGAAAAAAGGAGATTCATACAGATTTAAATTGGTCAATCAGGGTTCGAAAAAACGTGTCAATTATAGTGCAAGATGGATTGTATTCGCTTCATAA	MKSKKIFKSLIIIFTLLISGIGFMGFSSPQKAEAKDWLHTYKSGYFTNYVINTYHPKFTKTTKKYSLRAVTFKSNSKGKGTYKIYVQKQVNGKGAWKTIKTANAKKNGTTYFETPSLKKGDSYRFKLVNQGSKKRVNYSARWIVFAS				NA	NA	NA	NA	NA
D1-12_03365	2208			hypothetical protein	ATGGACGAAATGGTCCTGGAAACACAACAATGGCTGAATGAGACGTACAAAGGCAGACACGGGTACAACAAGGTGCCGGAAAACGGAAAAACAGGCTGGGATACCATTTACGGTCTGACACGGGCGCTTCAAATTGAGCTTGGTATTTCAGAACCCGCCGATAACTTCGGACCGACGACACAAAGATTGTTTAAACCGCTGAAAAAGCAGGCTCCCGATTCTAAGCCGACAAACATGAATTACATTCTGCAGGGGGCGCTGTGGTGTAAAGGATTTAACCCGGGCGGATTTTCTGGCGTTTTCTATGAAAATACCGAAAGCGCTGTAAAAGAGTTTCAAAAAGCGGCCGGACTTACTAAGCAAGACGGCATCGTCACGGCACTCATTATGAAGGCCTTGCTGGATATGAGCGCTTTTCGGTTAGTAGCTGGAGGCGACAAAAGAATCCGCCAAATCCAGCAGAACCTGAACCGGGATTACAATGACTACATCGGCTTGATGCCTTGTGACGGCTTATATGCCCGCGATACGAACAAGGCTCTCATTTATGCTCTGCAAAAAGAAGAAGGCATGAGCACAAGCGTCGCCAATGGATTTTTCGGGAACGGAACGACCAGCTTATGTCCTACCTTGACTCCCGGCGATTCACGGACAGGCTTTGTTTTGATTGTGCAATACGCGCTTTACTGTAATGGGAAATCATTTGACCCCGGTGAATTCGACGGAAAATACGGCGTCGGAGTTGTATCGGCAGTGAAAGCTTTCCAAGAATTTATGTGCCTGCCGCAGACAGGTTATGCGGACATGCCGACGATTAAAGCTTTATTATCAAGCTCAGGCGACACAACGCGGGCTGCTTCAGCTTGTGACACCGCTGCCATTTTGACGGCAGATACGGCTAAAACTTTGCGTGAGAATGGCTATAAGATCGTGGGAAGATATCTGACCGGGAATGTGCGGACGAGCAGCGGACTGACATCGAAAGCGTTAACGTCAAAAGAACTTTCCGCGATTTTCAATGCCGGCTTAAGCGTGTTTCCGATTTATCAGGACGGCGGCTATGAATCTTCTTATTTTGTAAAAGACCAAGGAACGAGAGATGCGTACAGCGCTGCATCAGCCGCCCGAAGATTAGGCTTTCCGTCAGGAACGACCATTTACTTTGCCGTCGATTTCGATGCGTATGATTATGAAGTCACAGATAAAATCATCCCTTACTTTCAAGAAATCAAGTCAGCTTTTATGAAAATGCAGGCGTTCTCAACTGCGCCGAAATATGAAATCGGTGTATACGGACCGAGAAACATTTGTATCCGGACGTCAGAAGCAGGTCTGACCAAATATAGCTTTACGGCTAACATGTCGACCGGATTCAGCGGAAACCTCGGATACCCGATGCCGAAAAACTGGGCTTTTGATCAATTTTATGAAGGAACGATCGGAAGCGGAGCGGGAAAAGTCGCCATTGACAAAGACGGATACTCCGGAAAAGACTCGGGTGCAAGCAGCGTCCATCCGCCTTCTGATCCTGTGTATGATGCAAGACTAAACACATTAACCAATATTCTGTCAACAATTCCAGCATTGGAAAATTCATCTGGTCTGGCCAATATGATGTTCGAATTCGGTACAACCGAAACCATTTTAGCCTCTCCAACTTTAGATATCTTATTGTCTACTTCAATTCTGTATACGATCCCAAGTGAGGGGTCTGCTAATACAATGACAATAACGAATGGAAAGCCCGGGGCTTATGTTACTGGTTTACTGGGAGATACACAAACAATACTTACGGCTTCAGACATCCGTTCTTATCAAAATTTATTAGACAATCTGAGCCTATCTGTAAGAAACGGTTATCTGGAAATGGCAGTGACCCCATCTGCTCAATCATTAGATGTTTCAATTAAAATCTATACACCTGACATTCCAGTTGCCGATGGGTCCACAACTGGACTTACGACCATGTTTACGTTTAGAATTAAAACGTATAAAGGTGTACCGGTTTCAGCTGCAGAAAGTGAATTAGCGAAGGACTGGGATCTTCTCCCTTCAGGCCTCGTTATTGTTGCAGGGGTGTCTGCTTTCTATTTCTCCTCTAAGATCCTTACTGTTGAAAAACCGACCGAGAATAAAACAGTAGAAGCGGTAACTGAATTCGCCGCAGTTTTACTAGCCCTTTACGCTTATATGACTGATCTCTACTAA	MDEMVLETQQWLNETYKGRHGYNKVPENGKTGWDTIYGLTRALQIELGISEPADNFGPTTQRLFKPLKKQAPDSKPTNMNYILQGALWCKGFNPGGFSGVFYENTESAVKEFQKAAGLTKQDGIVTALIMKALLDMSAFRLVAGGDKRIRQIQQNLNRDYNDYIGLMPCDGLYARDTNKALIYALQKEEGMSTSVANGFFGNGTTSLCPTLTPGDSRTGFVLIVQYALYCNGKSFDPGEFDGKYGVGVVSAVKAFQEFMCLPQTGYADMPTIKALLSSSGDTTRAASACDTAAILTADTAKTLRENGYKIVGRYLTGNVRTSSGLTSKALTSKELSAIFNAGLSVFPIYQDGGYESSYFVKDQGTRDAYSAASAARRLGFPSGTTIYFAVDFDAYDYEVTDKIIPYFQEIKSAFMKMQAFSTAPKYEIGVYGPRNICIRTSEAGLTKYSFTANMSTGFSGNLGYPMPKNWAFDQFYEGTIGSGAGKVAIDKDGYSGKDSGASSVHPPSDPVYDARLNTLTNILSTIPALENSSGLANMMFEFGTTETILASPTLDILLSTSILYTIPSEGSANTMTITNGKPGAYVTGLLGDTQTILTASDIRSYQNLLDNLSLSVRNGYLEMAVTPSAQSLDVSIKIYTPDIPVADGSTTGLTTMFTFRIKTYKGVPVSAAESELAKDWDLLPSGLVIVAGVSAFYFSSKILTVEKPTENKTVEAVTEFAAVLLALYAYMTDLY				NA	NA	NA	NA	NA
D1-12_03366	888			hypothetical protein	TTGAATGAAAATCAATCCGCATTTAACACAGCAAAGCAAACTGCACAAAGATTGTTAAAATGTAAGAATGAACAAGAAATGATGGACTTTTTAGCTGAACAGGATGTACATACGCTCAGTCTTTTAAAGTACTATTACTCTGCTCCGGCTCTTCCTTTTCAAATGCTCATGAAGATTGCTTTTTGCTGTATAGTGATGGCGTTGATCTTCACTTCATTCTTGTTTATTCAAGTCAAAACACTCATACCTGTTCCCATTTTATCTGATCTGTTGCCGGCAGTGTTTTCACTGTTTACAATCGGATGTATTGTCGCGTTTTATATGTTTTTTTCGCGCGAAAAGAAAGACCGGTTACCTGACAGCCGCTTAAGAAGAAACACTTACTCCTTCCGGGTTATAAATATGATAAATACAAATCTGGAAAAGAAATATCGTACACTGGCTTCTTTAGCGGGCGGTAAACAAAGTGATGATACACTCGAAGAAAGCATGAAGCAGATTAGCTCTTGTAAAAATGATGAAGAACTGATGAAATGTCTTGAAGAACAAGATACTGAGAAGTTATTCAAGCTGAAAAATCAGTTTTCCAAACCTGACTCCTCATTATTTGATTTTATGAAATGGATTTTTATCGGAAGCGTTATTGCTATGTTTCTGACTGCACTTTTCTCAGGTCAAGTCAGCTATGTTCATGTTCCCCGCCTGCTTCCGTATCTCCTGCTTGTATTATTCGCCAGGGGCTTAATATATCTAATAAAACTGCTGAAACTATACCAAAAAGGGCCTTTGCACTCCATTTCTCACTTTACAAAGAACGCTGAAAACACCCGTATCACCGGAATGATAGACTTTGTCCTCGAACAACGATACAAAGACATGATCAGTTAA	MNENQSAFNTAKQTAQRLLKCKNEQEMMDFLAEQDVHTLSLLKYYYSAPALPFQMLMKIAFCCIVMALIFTSFLFIQVKTLIPVPILSDLLPAVFSLFTIGCIVAFYMFFSREKKDRLPDSRLRRNTYSFRVINMINTNLEKKYRTLASLAGGKQSDDTLEESMKQISSCKNDEELMKCLEEQDTEKLFKLKNQFSKPDSSLFDFMKWIFIGSVIAMFLTALFSGQVSYVHVPRLLPYLLLVLFARGLIYLIKLLKLYQKGPLHSISHFTKNAENTRITGMIDFVLEQRYKDMIS				NA	NA	NA	NA	NA
D1-12_03367	1449		COG2368	4-hydroxyphenylacetate 3-monooxygenase oxygenase component	ATGATGGGTATCATTAACGGCAAAATGTTCATTGACCGATTAAATCAGCTTGGAAATGAGATTTGGCTTGATGGTGAAAAGATCGAGGGACAGATTTCTGAACATCCCGCATTTAAGGGCCTTCTGGAAACGAAGCGCTCTCTTTATGATTTGCAAACGAAACCGGACATGAAAGATCAAATGACTTACAGTCTTCCCGGTAAAAAAGAACGGGCCGGGCTTTCATACCTGCAGCCGAAAACGAAAGAAGACGTAAAAAGAAGAAGAAACATGTTCGAACATTGGGCCAGACACACGCACGGAATGATGGGACGAAGCCCGGATTATATGAATACCGTGCTGATGAGCTTCGCCTCCTCTGCCGCGCTTTTGAAAGACCGCGAGCATTGTTTTCCGGAACATGTTCAAGCGCTGTACGAACGCGCTGCTGCTCAGGATCTTTCTTTTACGCACACGTTTATCACCCCTCAGGTGAATCGTTCACAAATGGGTGTAAACGTATCGCCGACACCTATCTCGGCAAAAGTCGTCGATAAAAATGAAAAAGGCCTCATCATACACGGCGCCCGGATTTTAGCCACACAAGGCGGCCTGACGGATGAAGTGCTCGTGGTTTCTCTGCCTAAAATGTATTTTGAATCGGATGAAGCGTTCGCTTTTTCAATCCCTTCCAATACAAAGGGAGTAAAATTCATCTGCAGGGAATCTTTCGTACTCGGAAAATCATCGTTTGATTATCCGCTCAGCTCAAGATATGAAGAAATGGATTCTATCGTTGTATTTGATCACGTTTTGGTCCCTTGGGAACGCGTATTTTTTTATAATAATTACGAGGCGGCTTTTGATTTTAATATGAAAAGTTCTTTTAACGCCTTCGCATTTCATCAAGTTATCACGAGACAAATTGTAAAGACGGAGTTTCTCCTGGGCCTCGCCCAAACGCTTGTCAAAGCGATAGATGTGGGCGAATATCAGCATATTCAGGCTAAGATGGCTGAAATCATCACCGGTCTGGAAACGATGAAAGCCCTTTTGGAAAAGTCGGAGAATGATGCGGAAACAGATGAATGGGGTTATATGCGCCCGAGTGTCACTCCGCTTCGTGTGGTCAGCGCGATTTTTCCCGACATCTACCCGCGCTTCACGGAAATCATTCAGCTGATCGGGGCAAGCGGAATGGTGACTTTGCCGACTGAAAAAGCGTTCCGTTCTGACATCAGAGGAGACCTTGACCAATATTTGCAGGCGGCCGAATTGAACGCTGAAGACCGGGTAAAAGTGTTCCGCCTCGCATGGGATTTGACCATGAGCCCCTTCGGAACAAGACAGACACAATATGAGCGGTACTTCTTCGGTGACCCCGTCCGCTTAACCAGCCATCTGTACAGAAGCTATCCGAAAGAAGAACAGACCGCGGTCATCAAGGAATTCCTGCACATTCATAAATAA	MMGIINGKMFIDRLNQLGNEIWLDGEKIEGQISEHPAFKGLLETKRSLYDLQTKPDMKDQMTYSLPGKKERAGLSYLQPKTKEDVKRRRNMFEHWARHTHGMMGRSPDYMNTVLMSFASSAALLKDREHCFPEHVQALYERAAAQDLSFTHTFITPQVNRSQMGVNVSPTPISAKVVDKNEKGLIIHGARILATQGGLTDEVLVVSLPKMYFESDEAFAFSIPSNTKGVKFICRESFVLGKSSFDYPLSSRYEEMDSIVVFDHVLVPWERVFFYNNYEAAFDFNMKSSFNAFAFHQVITRQIVKTEFLLGLAQTLVKAIDVGEYQHIQAKMAEIITGLETMKALLEKSENDAETDEWGYMRPSVTPLRVVSAIFPDIYPRFTEIIQLIGASGMVTLPTEKAFRSDIRGDLDQYLQAAELNAEDRVKVFRLAWDLTMSPFGTRQTQYERYFFGDPVRLTSHLYRSYPKEEQTAVIKEFLHIHK	PGPT0020455_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483	NA	NA
D1-12_03368	243			hypothetical protein	TTGATTGATGAATTGGATTTTGCGTTCGGTGTTCTGCCGCTTTGTATCATCATCTTGTCAGTCGCCGGAACGTATTTGTTTAAAAACGCGTTCATTATGCCGGCTGCCGCTTTAGCCGTTTGCCTTATATGCACATTTACCGTATTGAATTTCTCGTTTATCGGGTGGGCCGTTGTGTATACGCTTGTCTCTTTCGCGTTATCGCATATTACGATGGTGGTGATCAGCCAAAATAAAAAATAG	MIDELDFAFGVLPLCIIILSVAGTYLFKNAFIMPAAALAVCLICTFTVLNFSFIGWAVVYTLVSFALSHITMVVISQNKK				NA	NA	NA	NA	NA
D1-12_03369	1335	glpT	COG2271	Glycerol-3-phosphate transporter	ATGTTTCAATTGTTTAAGCCGGCTCCGCATATTGAGAGATTGGATGATTCAAAGACGGATGCGGCCTATAAACGGCTCAGGCTGCAAGTATTTTTGGGGATTTTCATCGGGTATGCCGGGTATTATTTGCTTCGCAAAAACTTTGCTTTCGCTATTCCTTATTTTCAGGAACAAGGGTTTTCAAAAGGGGAACTCGGCTTGGTGCTTGCGGCCGTATCAATCGCTTACGGCTTCAGTAAATTTATTATGGGGATGGTGTCTGACCGCTGCAACCCGAGGTATTTCCTTGCGACAGGTCTGTTTTTGTCAGGTGTCGTAAACATTTTATTTGTTTCCATGCCATGGGTCACGTCAAGCGTGACGATTATGTTCATTTTTATGTTTATTAACGGATGGTTTCAAGGAATGGGCTGGCCGCCTTGCGGACGGACGATGGCTCATTGGTTTTCCATCAGTGAACGCGGCACGAAAATGTCGATATGGAATGTCGCCCATAACATAGGCGGAGGTATTCTCGCCCCGCTCGTGACTCTCGGCATCGCCATGTTTGTTACTTGGAAAAGCGTGTTTTTCTTTCCGGCGATTATCGCCATCGTCATTTCATTTGTGATTGTTCTTCTCGTTCGGGACACGCCGCAATCCTGCGGGCTTCCGCCGATTGAAGAATACCGGAATGACTATCCGAAACATGCGTTCAAAGACCAGGAAAAAGAGATGACGACCAAAGAAATTCTTTTCAAATACGTGCTGAATAATAAATTTCTGTGGTATATCGCATTTGCCAATGTCTTTGTTTATTTCGTGCGGTACGGTGTCGTTGACTGGGCGCCGACTTATTTGACGGAAGCGAAAGGATTCTCTCCTGAAGACTCCAGATGGTCTTATTTCCTTTATGAATATGCGGGAATTCCGGGAACGATTTTGTGCGGCTGGATCAGCGACCGGTTTTTCAAAAGCCGCCGCGCGCCGGCAGGCGTACTGTTCATGGCCGGCGTATTTATCGCTGTATTGGTCTACTGGCTTAACCCTGCCGGTCATCCGCTCATCGATAATATCGCGCTGATCAGCATCGGCTTCTTAATCTATGGACCTGTCATGCTGATCGGGCTTCAGGCCATTGACCTTGCGCCTAAAAAAGCGGCGGGAACGGCAGCCGGCTTAACCGGGTTTTTCGGCTACATCGGAGGCTCTGCTTTCGCCAACGCCATCATGGGTTATGTCGTAGACCGCTTTGACTGGAACGGCGGCTTTATCATGCTTATCTCCTCATGCGTGCTGTCCATCGTCTTCTTGGCTATGACGTGGAATACGGGCAAGCGGGCGGAGCATGTGTAA	MFQLFKPAPHIERLDDSKTDAAYKRLRLQVFLGIFIGYAGYYLLRKNFAFAIPYFQEQGFSKGELGLVLAAVSIAYGFSKFIMGMVSDRCNPRYFLATGLFLSGVVNILFVSMPWVTSSVTIMFIFMFINGWFQGMGWPPCGRTMAHWFSISERGTKMSIWNVAHNIGGGILAPLVTLGIAMFVTWKSVFFFPAIIAIVISFVIVLLVRDTPQSCGLPPIEEYRNDYPKHAFKDQEKEMTTKEILFKYVLNNKFLWYIAFANVFVYFVRYGVVDWAPTYLTEAKGFSPEDSRWSYFLYEYAGIPGTILCGWISDRFFKSRRAPAGVLFMAGVFIAVLVYWLNPAGHPLIDNIALISIGFLIYGPVMLIGLQAIDLAPKKAAGTAAGLTGFFGYIGGSAFANAIMGYVVDRFDWNGGFIMLISSCVLSIVFLAMTWNTGKRAEHV	PGPT0016821_731	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_GLYCEROL_TRANSPORT,PGPT0016821-glpT-K02445	NA	NA
D1-12_03370	888	glpQ_3	COG0584	Glycerophosphodiester phosphodiesterase	ATGCGGAAACATAAATTGTTTGCTTTGGTATTGCTTTCATTCGGTTTATTGTCATTCATCGTCACGCCTGTATCGGCGGCGGGAAAAGGAAACCTCTTGTCTCCTGACAGAATTTTGACCATTGCCCATCGCGGTGCTTCGGGGTATGTCCCGGAGCACACGATCCTTTCTTATGAAACTGCGCAAAAAATGAAGGCTGACTATATTGAGCTGGATTTACAAATGACAAAAGACGGCAAGCTGATCGTCATGCATGATGAAAAATTGGACCGCACCACAAACGGACAAGGCTGGGTGAAGGATCATACATTAGCCGAGATTCAAAAGCTCGACGCCGGCTCTTGGTTCAATAAGGCCTATCCGGAAAAAGCAAAACCGCAATACGCCGGACTTCGCGTTCCCACACTTGATGACGTGTTAAAACGGTTCGGCAGACATGCAAACTATTATATTGAAACAAAGGCGCCCGAAACATATCCGGGTATGGAAGAAAAACTGATCGCTTCACTGAAAAAATACAAATTGGCAGGTAAGCATGCGAAACTTGGACAAGTTATCATTCAGTCTTTCAGCAGGGACAGCCTTCTGAAAATCAAACAGCTCGATCCGAAACTTCCCGCCGTCCAATTGCTTGAAGCGGAACAGATGACGTCAATGACTGACACAGATTTAACGGACATTAAAACATATGCCGTCGGAATCGGACCGGATTACAAAGCGCTGAACGCTCAAAATGTCCGAAACATTCGCAGCCACGGCCTTCTGCTTCACCCTTATACCGTGAACAGCGAGGCGGACATGCGCCGTCTGCTGAATTGGGGCGTAACCGGTGTGTTTACCAACTATGCGGATATATTCCAAAAGGTTAAAAAAGAATACAAATCATAA	MRKHKLFALVLLSFGLLSFIVTPVSAAGKGNLLSPDRILTIAHRGASGYVPEHTILSYETAQKMKADYIELDLQMTKDGKLIVMHDEKLDRTTNGQGWVKDHTLAEIQKLDAGSWFNKAYPEKAKPQYAGLRVPTLDDVLKRFGRHANYYIETKAPETYPGMEEKLIASLKKYKLAGKHAKLGQVIIQSFSRDSLLKIKQLDPKLPAVQLLEAEQMTSMTDTDLTDIKTYAVGIGPDYKALNAQNVRNIRSHGLLLHPYTVNSEADMRRLLNWGVTGVFTNYADIFQKVKKEYKS	PGPT0018470_3601	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-12_03371	249			hypothetical protein	ATGGATGAGCTAGATCTTGCTTTTGGTATTTTACCACTTTCTATTATCGTCTTATCGATTATATTCACTTATATTTTCAAAAAAGTGTATATAATGCCGCTTGTCAGTATAGTTGTTTCAGTCATATTAATGTTCACTGTTTTTAATCTATCCTTCTGGGGATGGGTGGTTGTCTATGGTTTAGTATCACTTGTATTATCGTCTATTACAAATAGTATAAGAAAGAAAATAGATAATAGAAATAAATAA	MDELDLAFGILPLSIIVLSIIFTYIFKKVYIMPLVSIVVSVILMFTVFNLSFWGWVVVYGLVSLVLSSITNSIRKKIDNRNK				NA	NA	NA	NA	NA
D1-12_03372	1203			hypothetical protein	TTGAACAAAATTAAGTGGTTAATTATAATTGCGGTCATAGTATTAATAGGTATATTTATATGTATCGGAACTTTTAAATATACTAATACAGTTTCTGATGTTAAACAAACTGAAACAGAAAAGGAAAAGTATTTCTTGAAGGATAAAATTGCAGCTATATATTATTCAGCTAGAATAGATTACCCTAAAGATGGGAGTTATACTGTATATATTGATGAAAAAGGAAAGGCAACAGCTGTAAAAGGAGATGCCATTGAGGTTGGAACCATTGCACAAGATGAAAAAAACATAGTTAGACAGGACAAAAAAGAAGTATATATGATAGGTGATAGCTTTAAGAAATTCCCGATGCAACATCAAGTACATACAATTTATGGGCAATCATCAGGCCATTTAATAAAAGGAAATATCTTTTATTTTTTGAATAATCAAGGAGTCGGTGAAAACCATTATAATAGTTTAATTAGATGGGGTAACGGCAGTGGATTTCATGAAAAGATTATTCCGGGTTTCTATACAAGTACCGGTAATGACGGTGAATATATTTACGTGATAAATGAAGATTCTTCAATCAAAACACCGACTTTTCAGGGTATTAAAATAGATAAAGATAAAGTTACAGTAGGGAAAGGAACAACAATTCCTATATTAAATGAAGAAAATTGGAGTGTTTATTCACAGATAATAGTTAAAAAAAGCTCAGCCTTTTTTATACTATATAACCAAACGGATAAATCAAACAAAGTACAATTCAAAGTAGCAGAAATTGATTTAAAGCATAATAAGTACAAAGGGGCTTTTCCTTTAGGCAGCTATAATATCCCTGAGGAAATTTCTCAACTGGCAATTCCTCTTTCCACTAATAACTTTTTTGTGAAAAATGACACTTTATATCATTTGGCAGCTAATTCAATACTTTATACTTTCGATCTGAAAAGTATGAAGCCGGGAAAAAAAATCCCGTTAAATAGGTCGACAAAATTTGAAAACCAAGCAAAATTCACTTATTTTGACGAGTCTAAAATTTTCTTGTTAGAAATAAGCAAGGGCGGGAAATATGTGATTAATTCTTACTCTTATAAAAACGGAAAAAAATTAAAATCTACTCCTATCAGAGGACTTGAAAAAATTATTAACAATGCCCATGTTTCTGAATATGACTTTTTTATGATTAAGAAAAACAAAGAAATATGGAGTGATTAG	MNKIKWLIIIAVIVLIGIFICIGTFKYTNTVSDVKQTETEKEKYFLKDKIAAIYYSARIDYPKDGSYTVYIDEKGKATAVKGDAIEVGTIAQDEKNIVRQDKKEVYMIGDSFKKFPMQHQVHTIYGQSSGHLIKGNIFYFLNNQGVGENHYNSLIRWGNGSGFHEKIIPGFYTSTGNDGEYIYVINEDSSIKTPTFQGIKIDKDKVTVGKGTTIPILNEENWSVYSQIIVKKSSAFFILYNQTDKSNKVQFKVAEIDLKHNKYKGAFPLGSYNIPEEISQLAIPLSTNNFFVKNDTLYHLAANSILYTFDLKSMKPGKKIPLNRSTKFENQAKFTYFDESKIFLLEISKGGKYVINSYSYKNGKKLKSTPIRGLEKIINNAHVSEYDFFMIKKNKEIWSD				NA	NA	NA	NA	NA
D1-12_03373	165			hypothetical protein	ATGCAGAATGTTACAAAAAATTTTCGCTTTTTCATACTTATTACCATCGACTATTTGTTCATTTTTCTATATTTTAATTTATTATACAATTATTTCAAACACGACTTACGTACTGTATTTTCTCTATGGTTAATTATTTGTTTTGTCTCTAAAACTTTGACTTGA	MQNVTKNFRFFILITIDYLFIFLYFNLLYNYFKHDLRTVFSLWLIICFVSKTLT				NA	NA	NA	NA	NA
D1-12_03374	246			hypothetical protein	ATGCGGAAACATAAGTTGTTTGCTTTAGTATTGCTTTCATTCAGTTTATTGTCACTCATCGTCACGTCTGTATCGGCAGCGGGAAAAGGAAACCTTTTGTCTCCTGACAGCCACGGCCTTCTGCTTCATCCTTATACCGTAAACAGCGAAGCGGACATGCGCCGTCTGCTGAATTGGGGCGTAACCGGTGTGTTTACCAACTATGCGGATATATTTAATTTTGTTAAATCTAATAGGGATCAATAG	MRKHKLFALVLLSFSLLSLIVTSVSAAGKGNLLSPDSHGLLLHPYTVNSEADMRRLLNWGVTGVFTNYADIFNFVKSNRDQ				NA	NA	NA	NA	NA
D1-12_03375	1890			hypothetical protein	ATGATATTTACTGTAGCTATTCCGGTTTATAATGATCAAAACACAATTAGAGATTGTCTCGATAGCGTAGTGAACCAAACAGTTGGAGAGGACAAACTTGAAATTATCTGTGTAAATGATGGTTCAACTGATAAAAGCGGTAATATTTTAGATGAATACATGAGCAAGTACAAGTTTATTAAAGTAATTCATCAGCAGAATAGCGGCGCACCTGGCAGACCGAGGAACAAAGCTATAGAAGCAGCAACAGGTGATTATATTTATTTTCTAGACGGAGATGATTATTTAGGACCTGAAGCTTTAGAAAAGATGGAAGAAAAAATAGTTCAGTATCAAAGTGATATAATTATCGGCCGTTATGAAGGAATTAATAGAGGTGTTCCTGTGGCTGTATTTAAAAAGAATCCAGATTGTTTTTCCTTCCCTGGTTCCAATGCTCTTTTTACGATGAGTGCTCAAAAGCTATTTAAACGGGAGTTATTAATTAAACATAATATTCGTTTTCCGGAACACTTCTCTCTAGGAGAAGATCAACCGTTTATGATTCAAGCGTATGCATATTCAAATTCCATAGCCCTTGTTAAAGATTACCCATGTTATTATTTGACCAATCATCAAACAATAGGAAGGGTTCAACTTACTAAGAAACCATTATCAGGTAAAAGTTTTATGTTCAGAATCGAAGAAACATTGGCATCTATTGAATTACTGAACCTTGAAACAGATAAAAAACGGCTGATTTTCTTTCATTACTGGGAAAGGATTATGGAAGTGGAGTTAAGCGCTCTGATTTCAAAGTCTTTTCTAATTGAAGATAAAATCTATATTTTTAATACATTAAAGAAAATGCTTGACAAGTACCAATACTTAGATTACTACCAGCAGTTTTCTTCCCGCCATAAACTCTTATTACGTTTAATTGAGAAAGGACAATTGGAGGATTTAATTGCTTTCTGGTACGCTGAAAAACAACCTGGTAACATGGTAGTACAACATGGGAAGGTCTATCCAAAACCAGAATTAGCATACAATTTGGCCTTGCATGAGTCCATTTCCTTTCATCGTAATAATAAATTTGAAGGAGAAATAACAAAAATAGAGAAATTAGAGAATGCCGTTTTGTTAGAGGGTTTTTGTTATCATTCACATGTTGACTCCTCAAATGAGCGTTTATTTATCGAAGTCTCTTTGAGAGAACAAAAAGATAAAACAATTTCATTTCCAGCTTATAGAAGCCTTTTTGAAAAAAAATATCCTTTTGAAATAGATACGCAAATTATAAAAAAAGAAAAAGTTACTTATTTTTATGCATATATTTCTATAGAATCTTTACTCCATTTAAATAGCGAAGATGGTATATTAGATTTAAGATTAATTAGTAAGATAGAAGATTATACGAAATCATTGAGATTAAAATCGAAAGAAAGCGTTTATTTAAAAAATGCTTCTTATATTGCAAAAGGATGTAAAGAACCTATCGTTATAAACTCGTATCTAACTAAATGGGGTAATCTTTCTCTTGTTGTTAAACATCAAATGTTACATTTTAAAAACTTTGTGTTAACCTGCAGCGGTTCTAGGATTAAAGGACATTTTGATTGTGAAACAGATTTAAGTTTTGAAGAACAGAATTCTTTCCAGGTGAATTTTGGAAGGTTTCTTGTGTTTAAACCTGATGTGGTACTTAAAGATTCTACCCGAAAAAAAATGTCATATGACTTTAGTTTTGAAGTAACTAAGCAGGAGTTAAAACAAATTAGGCTAAAAAAGAATGCAGAAGTGATTATTGGTCATTTGCAACAAAGTGTTCCTGTTATTTATAAGGGCAAATCTATTAAAGCAAAAGTTAAGAATATACTAAGACCCTTATTTAAAGGGAGAAATATTTAA	MIFTVAIPVYNDQNTIRDCLDSVVNQTVGEDKLEIICVNDGSTDKSGNILDEYMSKYKFIKVIHQQNSGAPGRPRNKAIEAATGDYIYFLDGDDYLGPEALEKMEEKIVQYQSDIIIGRYEGINRGVPVAVFKKNPDCFSFPGSNALFTMSAQKLFKRELLIKHNIRFPEHFSLGEDQPFMIQAYAYSNSIALVKDYPCYYLTNHQTIGRVQLTKKPLSGKSFMFRIEETLASIELLNLETDKKRLIFFHYWERIMEVELSALISKSFLIEDKIYIFNTLKKMLDKYQYLDYYQQFSSRHKLLLRLIEKGQLEDLIAFWYAEKQPGNMVVQHGKVYPKPELAYNLALHESISFHRNNKFEGEITKIEKLENAVLLEGFCYHSHVDSSNERLFIEVSLREQKDKTISFPAYRSLFEKKYPFEIDTQIIKKEKVTYFYAYISIESLLHLNSEDGILDLRLISKIEDYTKSLRLKSKESVYLKNASYIAKGCKEPIVINSYLTKWGNLSLVVKHQMLHFKNFVLTCSGSRIKGHFDCETDLSFEEQNSFQVNFGRFLVFKPDVVLKDSTRKKMSYDFSFEVTKQELKQIRLKKNAEVIIGHLQQSVPVIYKGKSIKAKVKNILRPLFKGRNI	PGPT0023435_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023435-tarS-K22708	NA	NA
D1-12_03376	1638	yveA_1	COG0531	Aspartate-proton symporter	TTGAAAGGTGTTAACTTTATGAATCAATTACATCGCAGAATGGGAACGTTTGCACTCATGATGGTCGGACTTGGGTCGATGATTGGCTCCGGCTGGCTATTCGGGGCGTGGCGGGCGGCTCAGATTGCGGGACCTGCCGCAATTATTTCCTGGATTATCGGTATGATCGTTATTTTGTTTATCGCACTTTCTTACAGTGAATTGGGTTCAATGTTCCCGGAAGCCGGGGGAATGGTAAAATATACTCAATATTCTCACGGATCATTTATTGGATTTATCGCAGGATGGGCAAACTGGATTGCGATTGTTTCCGTTATTCCGGTGGAAGCGGTTGCGTCTGTTCAATATATGAGCTCATGGCCGTGGGAATGGGCAAAATGGACAAGCAATCTCGTTCACAACGGCACTCTTACGGGAGAGGGGCTCGGCTTCGCATCCGTATTACTGATTATTTACTTTTTACTGAATTTTTGGACAGTTAACTTATTTTCAAAAGCGAATTCATTGATTACCATATTTAAAATCATTATTCCGGGGCTGACAATCGGAGCGCTGCTGTTTACCGGTTTTCACGGCGGAAACTTCACATCCGGTTCAAGCATTGCGCCGAACGGCTGGGCAAGCGTGCTGACGGCGGTGGCCACATCAGGTATCGTATTTGCGTTTAACGGGTTTCAAAGCCCGATTAACATGGCCGGCGAAGCAAAAAATCCCGGCAAATCGATTCCGATTGCGGTTGTCGGTTCGCTGCTGGTCGCAACCGTCATTTACGTCCTATTGCAAATCGCATTTATCGGGGCGGTTGAACCTTCCATGATCGTTCACGGCTGGAGTCACCTGAACTTCAACTCTCCATTTGCCGATTTGGCGATCGCATTGAATATCAACTGGCTTGTCATTATTCTTTATGCGGACGCGTTCGTATCTCCGTCAGGAACGGGTATCACTTATACCGCTACGACGTCCCGCATGATTTACGGCATGGAAAAAAATAAATATATGCCGAGCATTTTCGGAAAGCTTCATCCGCTGTACGGCGTGCCGCGCCAAGCGATGATTTTCAATCTGATCGTATCGTTTATCTTTTTGTTTTTATTCAGAGGATGGGGCGTGCTTGCTGAAATCATTTCCGTTGCGACGCTGATTTCTTATATCACGGGTCCCGTGACGGTGATGACGCTGCGGCGGACGGCGGCGGATTTGTACCGGCCTCTCCGTCTGAAAGGCCTGAGCGTGGTTGCACCGCTCGGCTTCGTGTTCGCGTCTCTCGTGCTGTATTGGGCGCGCTGGCCGTTAACAGGGCAGGTGCTGTTTATCATTTTGATCGGCCTTCCGATTTATTTCTACTACCAAGCGAAAGCGAAGTGGAAAGGATTCCGCAGAAACTTTAAAGGCGGCGTCTGGATGGTTGTCTATCTGCTCAGCATGATGGTCATTTCATGGCTCGGAAGTGAAAAATTCGGCGGTCTGAACATCATTCCGTACGGCTGGGATATGGGGCTGATCGCAATCGTTGCCCTTGCCTTCTATGCGTGGGCGCTGAAGAGCGGATTCAAGACTGAGTATTTGAAAGACGCCAAAGCAATCAACGATCAATTAAAAGGCGGACAGGCGGAAGCCGCTGCCGGAAAAGAATAA	MKGVNFMNQLHRRMGTFALMMVGLGSMIGSGWLFGAWRAAQIAGPAAIISWIIGMIVILFIALSYSELGSMFPEAGGMVKYTQYSHGSFIGFIAGWANWIAIVSVIPVEAVASVQYMSSWPWEWAKWTSNLVHNGTLTGEGLGFASVLLIIYFLLNFWTVNLFSKANSLITIFKIIIPGLTIGALLFTGFHGGNFTSGSSIAPNGWASVLTAVATSGIVFAFNGFQSPINMAGEAKNPGKSIPIAVVGSLLVATVIYVLLQIAFIGAVEPSMIVHGWSHLNFNSPFADLAIALNINWLVIILYADAFVSPSGTGITYTATTSRMIYGMEKNKYMPSIFGKLHPLYGVPRQAMIFNLIVSFIFLFLFRGWGVLAEIISVATLISYITGPVTVMTLRRTAADLYRPLRLKGLSVVAPLGFVFASLVLYWARWPLTGQVLFIILIGLPIYFYYQAKAKWKGFRRNFKGGVWMVVYLLSMMVISWLGSEKFGGLNIIPYGWDMGLIAIVALAFYAWALKSGFKTEYLKDAKAINDQLKGGQAEAAAGKE	PGPT0000711_7	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0000711-yveA-NA	NA	NA
D1-12_03377	261			hypothetical protein	GTGAAACAAAAACTGCTCATTTCAGGACTTGCCGTGTCGACTGTCGGAGTGACTTCCTACCTGCTCAAAGATAAATCAAACCGCCAAAAGGTGATGAACTTTATCCGCAATATGAAAACATCGCTCTCCGGGAAGCAGGATATTGAATCATTCCCCGTCAACAAAGCAGGCAACCCGCATCCCGAAGATATTGAAGATAACAAAATGGTATCCGAAGGCTCCATGTACCCGGTTCAATATTATGATGACAAGAAGAAATAA	MKQKLLISGLAVSTVGVTSYLLKDKSNRQKVMNFIRNMKTSLSGKQDIESFPVNKAGNPHPEDIEDNKMVSEGSMYPVQYYDDKKK				NA	NA	NA	NA	NA
D1-12_03378	699			hypothetical protein	ATGAAGGAAATAAAAAAACAGACGGTTCTTGAGTTGTCATCGGTTGAAAAAGCTTTGGTTTTTCTGGTGCCGCCATTATTGGGGCTGGTCATCGGATGGTTTCTGCCGGTCATTGCGAAGTGGGCCGTAACATTGGATTGGCTGCCTGTTATCGGGCCGCTGGAAATGATCGCTTCTTTTCACGGATGGAAGGCTGCGGCTGTCATCGCCGTTATCGGCTTAATCGGGGGAATGTGGCTGACGCGAACTGTTTTTAAAGAATGTCTTACGGCGGTCGTGACGGACAGCGAGGTGTCCTTAACCATATATAATGAAGAAAGCGTGTTTTCGAAAGACAGCATCTCCGGTGTGTTTACGGATGAGAAGCATCTTGTCTTATTAGGCACTGAAGGACAGGAGCTTTTTCGGGAGAAGCTTGAGCCGGCGGTTGAAAAAGCGGCTGATGCGTTTCGCGCGCATGGGTATGCCTGGCTGGGGATGGAAGATCCTTTTAAAGAAGAATACAAACGGTGGGTGCCGGACACGCCGGATTTGGAGCCGGGGGCAAATGCTCTTTTAAAAGCGAGAGAAAAGGCGCTGAAAGAGGAGGAAAAGGCTGATGCGAAAGAGCTGAAAGCGGAAATATCCAAACTGGGCATTACTGTGCGGGAGAAAGGATCGCGCCAATATTGGCGGACCTATAAAACGCCGTCTGCATAA	MKEIKKQTVLELSSVEKALVFLVPPLLGLVIGWFLPVIAKWAVTLDWLPVIGPLEMIASFHGWKAAAVIAVIGLIGGMWLTRTVFKECLTAVVTDSEVSLTIYNEESVFSKDSISGVFTDEKHLVLLGTEGQELFREKLEPAVEKAADAFRAHGYAWLGMEDPFKEEYKRWVPDTPDLEPGANALLKAREKALKEEEKADAKELKAEISKLGITVREKGSRQYWRTYKTPSA				NA	NA	NA	NA	NA
D1-12_03379	252	csgA		Sigma-G-dependent sporulation-specific SASP protein	ATGATGGACAGGACACTCGGATATTTGCGCGAGTCGCTTTCGAACCACTTGGAGCATGATGTGTGCCGAAGGATTTATAAAAAGCTTCAGGTGAAGCATTATGAAAATGAGGGCGAGTTTGTGAAAGATCTAAATGATTTGGAAATGAATGCGCTGAATCAGGTGCTTGAAAAGGAAATCAAATATGCTGAGAACGAGCAGGATGAGAAGCGCACGATGGAATTGAATGAAGTATATGAGCTCCTGTTTTAA	MMDRTLGYLRESLSNHLEHDVCRRIYKKLQVKHYENEGEFVKDLNDLEMNALNQVLEKEIKYAENEQDEKRTMELNEVYELLF				NA	NA	NA	NA	NA
D1-12_03380	477	yolA_3		SPbeta prophage-derived uncharacterized protein YolA	ATGAAAAAGAGACTCGTTATGCTATTTGCGGCGGCCGCCGCTGTTTTGTTGCTTGTGAGCGGGTTGTGGGCTCCATCAGCGTCTGCGGCGCCGGCTCCTGCTTTAACACAAATCCGTATTATCGGTGTGACGTCTGACGGTCAGAGTTACCAATGGGAAAATATCGGGCCGAACCAAATCAGCGCATCAAAACCGATGAAGGGTACAACGGGTTATTTAGCCGTATATTTCCAAGGGTATCCGAACAATAACACGATCCAGGCGTTTAACAACGGAACGAATATTACAAATCTTACGTCAAAAGCGCTGGAAGATGAATATACGAAAAACGGCAATATCGTTACAGGCTATATTAAATATTACAGTGTTCCTCTTTCTTATGTCAGTTCAGGAACGTTCTCTTTCTCCGCAACGGGGCTGAACGGGCCGTACACACCGTTAAGCAGCGGATTTTTCTCCATTCAGGTACAGAGTTAA	MKKRLVMLFAAAAAVLLLVSGLWAPSASAAPAPALTQIRIIGVTSDGQSYQWENIGPNQISASKPMKGTTGYLAVYFQGYPNNNTIQAFNNGTNITNLTSKALEDEYTKNGNIVTGYIKYYSVPLSYVSSGTFSFSATGLNGPYTPLSSGFFSIQVQS				NA	NA	NA	NA	NA
D1-12_03381	180			hypothetical protein	TTGTATATGGCAGAAATGATCGGAATCATAGAATTGCTCGCGGGAGCCGCAATGAACGTATGGATCGGGAGGCTCGGAAAAAACTTCTTCGGTAAAGATGACAGAAGTTCGAGAGTCGTGTTAAGAATCTGCGGCATCTTTCTCATGATCAACGGCGTTTCAAGAGCGTTTCATATCTAG	MYMAEMIGIIELLAGAAMNVWIGRLGKNFFGKDDRSSRVVLRICGIFLMINGVSRAFHI				NA	NA	NA	NA	NA
D1-12_03382	1143	lnrN_2	COG0842	Linearmycin resistance permease protein LnrN	ATGATGCAGCTGTTATTCATGATCAGACATCAGCTGAAACTGATGCTGCAAAATCGGGCTGCCATCTTTGCGACGATTTCCGCCCCGCTCCTTCTCACATATTTCTTTTCCTTTTCTGCGGATGGCAGTCAGCAGAAGGAAGTATATGTAGCTGATGAGGATCAGAGCGCCTATTCAGCGCAATTTATGAAAATGATTCAGACAGCCGGCCATATAAAAGTCACGAAGGTCACGGAGGACGTATTAAAAACAAAGGTTAATCATCAGGATATATCCTTTGGATTGCTGATCGGCTCTCATTTTGAAGAGACATTATTTTCCGGAGATGAATTGAACGTTTCATTTATTCAGAATGAAGAAAAGGGTGATGCTGTTTTGACAGAGCAGCTGATTGCGCAGCAGGCGGGCGCGCTGAAAAAAATAGTCCGCGATGCAAAAGTGATATCCCGTACGCTGCACACCGACGGGAAGCAGGCGGCAGCTGATCTCTTGAAGGATATTCAGGGTCATTCCGCCGTCACCGTTGACCGCCATCACGTTTATGCAGGCGGGCAGGCGGCTGACAGACTTATCGGATTTTTAGTGATGTTTATCTGGTTCGTTGCAGTCCAAAGCCTGCGATCATTTATAGATGAACAAGAAAATCATACATACGACAGATTGCTGAGCACGCCCGTTTCCTATACGGCATATGCAATTTCTAAGTTTGCGGCGGCGTATCTTTTCGGACTTCTCCATATTATCGTGATCCTCGCTGCCGGAACATTCATGCTGCATATCCGTTTTGCTGATCATGTTTTTGCTGCGGGAGCGGTGCTTGCGGCCTGCTCGTTTGCGCTGACTGCTGTAACGATGGCCGTGATACCGTTCATGAAGAGCCAAAAGCAATTCACGTCGCTTGCTTCCGTTTTTATAGCTGTCACGGGTTTATTGGGAGGGGCTTTCTTCACTTTAGACGCGGCTCCGGAGTACATGCGGATGCTGTCGTTGTTTACTCCTGAAAAATGGGCGATCGGCTCATTTCAAAACAATGGCGGAGGCAGCATGCAGATCGTGCCGCTGAGCCTGTTTCTTGCTGCCGGTGCAGCGTCATTAGTCTTATCACTTTATATGATAAACCGTCATATGAAAAAAAACGGTTAG	MMQLLFMIRHQLKLMLQNRAAIFATISAPLLLTYFFSFSADGSQQKEVYVADEDQSAYSAQFMKMIQTAGHIKVTKVTEDVLKTKVNHQDISFGLLIGSHFEETLFSGDELNVSFIQNEEKGDAVLTEQLIAQQAGALKKIVRDAKVISRTLHTDGKQAAADLLKDIQGHSAVTVDRHHVYAGGQAADRLIGFLVMFIWFVAVQSLRSFIDEQENHTYDRLLSTPVSYTAYAISKFAAAYLFGLLHIIVILAAGTFMLHIRFADHVFAAGAVLAACSFALTAVTMAVIPFMKSQKQFTSLASVFIAVTGLLGGAFFTLDAAPEYMRMLSLFTPEKWAIGSFQNNGGGSMQIVPLSLFLAAGAASLVLSLYMINRHMKKNG				NA	NA	NA	NA	NA
D1-12_03383	1188	lnrM	COG0842	Linearmycin resistance permease protein LnrM	ATGAAAATATTATTCAGGCTGATCTTATTAGATTTTCGGTTATTGGCCGGCGCAAAGTCTTTCTATATAAAACTGCTTCTGTTTCCGGCGCTGATGATTTTCATTTTAGGAACGGTTTTTCACGGCGATTCGAAAGTGAAGCCATTTCAGACTGCGTTTTATAATGCGGATCACGCGGAGAGTTCTTTGGGTGACCAATTAAAGAATGACGTGCTGAACCAAAATGATCTCATCCGTGTAAAAGATATAGGCAGTTATCAAGAAGGGAAACAGCTTGTCGAAAGCGGCAAAGTCTCCGTTTTTGTATACGTGCCGAAAGGCTTTGCAAAAGCGGCGGAACACAATGAAAAAACAAGTATCAAAGTCATCTCGGACCAACAAGGCTCTGTAAACGGAGACATTGTGGAAATGATGGCCAATTCGTTTGTCACCAGAGTAAAAGCGGAATTCAGCGAAGAAAAAGCGGGGCTGAAGCAGTCGGGACATCTGTCAAAGGGAGATGTCAGCAAAATCATCAGCGGCCTTTCGGGTGAACGTGGACAGACTGTCACCATTCCGAAGCAGTCCGCAGGCAATCACGCGGCTCCGATTGATGCGATGCAGTATTATTCAATCGCAATGGTCGTCATGTTCTCCATTATGACCGCGTTTGCGCTCATTCACGGGATAGTGGAAGAGAGACAGCAGCACACGTTATTCAGAATCAAATCAATGCCTGTTTTACGTATCCAATACGTGGCGGGTAAGCTTTTGGGAATCATGTTTGCCATCCTGATGCAAATGGCTGCCGTCATCATCGCAAGCAGCATCTTATATCAGGTAAAATGGGGCAATTTGTTTGAAGTATTGCTGGTGACGATCGTTTATTCATTTGCGATCGGCAGTATTGTGCTCCTTTGGGGGGTTACTGCAAAAAACCACGAGACCGTCTCAAGCATGGCGGCTCCTATTCTGTATGGCTTCAGTTTTTTAGGCGGAAGTTTTATCGCAAAAGACGGCTTGCCTGACAGTTTGAAAATCGTGCAGGAGCTGATACCGAACGGCAAAGCGATCAACAGCTATGTCAGTGTCGCGCAGCATGCCGGTCTGAGCGGTATTGCGGCGGATTTGGCAGAGCTTGCCGCCATCGGCGCCGTGTTTTTATGTTTGACCGTCTGGGTGTTTAAACGGAAGGAGGCTGTTTCATGA	MKILFRLILLDFRLLAGAKSFYIKLLLFPALMIFILGTVFHGDSKVKPFQTAFYNADHAESSLGDQLKNDVLNQNDLIRVKDIGSYQEGKQLVESGKVSVFVYVPKGFAKAAEHNEKTSIKVISDQQGSVNGDIVEMMANSFVTRVKAEFSEEKAGLKQSGHLSKGDVSKIISGLSGERGQTVTIPKQSAGNHAAPIDAMQYYSIAMVVMFSIMTAFALIHGIVEERQQHTLFRIKSMPVLRIQYVAGKLLGIMFAILMQMAAVIIASSILYQVKWGNLFEVLLVTIVYSFAIGSIVLLWGVTAKNHETVSSMAAPILYGFSFLGGSFIAKDGLPDSLKIVQELIPNGKAINSYVSVAQHAGLSGIAADLAELAAIGAVFLCLTVWVFKRKEAVS				NA	NA	NA	NA	NA
D1-12_03384	936	lnrL_5	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGCTTGAATTAACCGATTTGACAAAGAAGTACGGCGATTTTACCGCTGTCAATCATATATCGCTGCGCGTCGAAAAAGGAGAGATATTCGGTCTGCTGGGACCAAACGGCGCCGGTAAATCAACAACGGTGTCAATGATCAGCACCGTGCTCCCGCCGACGGGCGGAACAATCTGCATTGACGGAATCTCATTACAGGAGCAGCCTGCGGCCATAAAAAAAGTGATGGGAGTCGTCCCGCAGGAAATCGCTTTATATCAAGCGTTAAGCGCAAAGGATAATTTGGCTTTTTTTGGAAGCCTGTACGGACTTTCCGGTAAGGAACTTTGTAAACGGGTTGATGAAGTGCTGGACATCATCGAATTACAGGAACAGCGAAATCAAAGAATATCTGAGTTTTCGGGCGGCATGAAAAGACGGGTGAATATCGGTGCCGCGCTAATGAATGAACCGAAACTATTCATTTTAGATGAACCGACCGTCGGAATTGATCCGCAATCCAGACACCACATTCTTGAAACCGTGAAGACGTTAAATCAAGAAAAAGGGATGACCGTCATCTACACGAGCCATTACATGGAAGAGGTCGAATACCTCTGTGAAAAAGCGGCGATCATGGATCACGGCTCAATCATTGCCTGCGGGACGAAAGACGAATTGAAGCAGTCAGCCAAAGCCTCTGATACCCTGACCGTGAATGCAGAGGGGCTGAATGATGATGCCGTTAAAAAAATCCGCCGCATTCCCGGTGTTGCCGAGGCTGCTGTCAGCCGGCAGACCATTACGATGCTCGTCTCTGCGGCAGATCGCAATATCCTTGATATTGCGGATGATATCAGGAAAACCGGTATCACCATTAAGGGCATTCATTTCGAGGAAGCCAATCTGGAAAGCATTTTCCTCCGGCTCACCGGCAAAACGCTGCGGGATTCATAG	MLELTDLTKKYGDFTAVNHISLRVEKGEIFGLLGPNGAGKSTTVSMISTVLPPTGGTICIDGISLQEQPAAIKKVMGVVPQEIALYQALSAKDNLAFFGSLYGLSGKELCKRVDEVLDIIELQEQRNQRISEFSGGMKRRVNIGAALMNEPKLFILDEPTVGIDPQSRHHILETVKTLNQEKGMTVIYTSHYMEEVEYLCEKAAIMDHGSIIACGTKDELKQSAKASDTLTVNAEGLNDDAVKKIRRIPGVAEAAVSRQTITMLVSAADRNILDIADDIRKTGITIKGIHFEEANLESIFLRLTGKTLRDS	PGPT0006725_9502	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_03385	645	degU_1	COG2197	Transcriptional regulatory protein DegU	GTGAATGTCATGATTGCAGACGACCAGTCCATTGTGAGAGAGGGGCTGAAAATGATTCTGAGTCTTCACGAAGGAATTCAAATATCGGGAGAGGCTTCTTGCGGCGAAGAGGTTCTCCGGCTGCTTTCTCAAACCGAAACCGATGTGATTTTGATGGATATCAGAATGCCCGGTATGGACGGAATCGAAACGACAAAAGCGGTAAAAGCGCGATATCCTTCCGTAAAAGTCATCATTCTGACAACGTTTGAAGATGATCACTATATTTTTGCCGGGCTGAAAAGCGGAGCCGACGGCTATCTCTTGAAGGATGCTGATTCAGATGAAATTACCGCCTCCCTTCAAGCCGTTTATGAAGGGAAGATGATGCTGAATCCCAAAATCACGGTTTCCGTCGTAAAAGCGCTGAACAATTTGGAGATCCCTGCGGTGCAGGAGGAGCCGCAGCCAAAGCTGACGGAGATTCTCACGCCGAGAGAGCTTGATGTCGCAAAACACATTATGGAAGGCAAAAGCAATAAACGCATTGCCGCAGACTTATTCCTGACTGAAGGCACTGTGAAAAACTATGTATCCAGAATCCTCGATAAGCTTGAAGTGACAAACAGGACTGAGCTTACATTATATTTGCAAAAAATGATATAA	MNVMIADDQSIVREGLKMILSLHEGIQISGEASCGEEVLRLLSQTETDVILMDIRMPGMDGIETTKAVKARYPSVKVIILTTFEDDHYIFAGLKSGADGYLLKDADSDEITASLQAVYEGKMMLNPKITVSVVKALNNLEIPAVQEEPQPKLTEILTPRELDVAKHIMEGKSNKRIAADLFLTEGTVKNYVSRILDKLEVTNRTELTLYLQKMI	PGPT0012750_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692	NA	NA
D1-12_03386	1131			hypothetical protein	ATGAAGATTGCACATACGAAGTTACTGATCAGGGGTTTTGCATTACTATCAATCTTTCATGCGATTCTTCAGCTTCCTCCCGGCCGGGGGGAGCTGAAGGTTTTTTTGTCTGTGCTCGTGATGATGCTGACGGCTAATGACTGCCTGCGGCCGCTGTATATGAAGAGAAGACCGGCTATATATCAAGGCTCTTTTCTCCTGAGCAGCGTTATCGCGGGAGTTCTTTTGTACAATGTCTATAGTGTGGGGACACAGGCCGTAATGGTGCTTTTATTGGCGGAGGTGCTTATTACTGATAAGCAGATTTCGGCTGTTTTGTTAACGATGAATGCCGCCGCATTTGCCGCAGCTTTATACGCCGGCGGAGCGGGTGTCAGTGATATCGTGCCGCCATACTTCATCATGTTTGCGGTGATTTATTTATATAGGAAAAACCTGCAGGAGAAGTCGAAGGTTGAATTGCTGAACCGAGAGCTGAAGATCGCTAATGATACACTGAAGGAATATTCAGACCGGATTGAGGAACTGGCCGTTACGAAAGAAAGAACAAGAATTGCGCAGGAGCTGCATGATTCTCTCGGTCATTATCTGGCTGCTCTGAAAATGAATTTGGAATTTGCCGGGAAGACAGCCGGGCATCAGCCGGACAAAGTGAAGCAGATCATTCATAAGGCGCATGATCTTACGAAAGAATCCATTTTAAAGCTTCGCCAGGCCGTTATGCTGCTGCAGGGCTCTTTGCCGGGGCGGGGATTTGAGCAAGAGCTTCGTGACATTTTCAGCCATTTTCAAGAGGCGGGAGGCATACGCTTCGAGCTGGAGATGGATGCGGCCATAGAAGCGGAACAGCCGGATGTGAAGCATTGTCTTTATCAATCCGTTCAGGAAACGATTACGAATGCGATAAAGCATGGACATGCTTCATATGTTTCTGTCCGGATTCAAAAAAACCGAAACATGATATTGGCGCATATTCATAATAACGGCTCAGCCTGCGGAACGATCATAAAATCAAATGGTCTGAAAGGAATTGAGAAAAGAGCAGCCGCACTTGGCGGAGAGGCTGTTTTCTCGTCTGGGAAGGAAACGGGTTTTGACGTGAAAATAAGGATTCCGTGCAAGGAGGATTAA	MKIAHTKLLIRGFALLSIFHAILQLPPGRGELKVFLSVLVMMLTANDCLRPLYMKRRPAIYQGSFLLSSVIAGVLLYNVYSVGTQAVMVLLLAEVLITDKQISAVLLTMNAAAFAAALYAGGAGVSDIVPPYFIMFAVIYLYRKNLQEKSKVELLNRELKIANDTLKEYSDRIEELAVTKERTRIAQELHDSLGHYLAALKMNLEFAGKTAGHQPDKVKQIIHKAHDLTKESILKLRQAVMLLQGSLPGRGFEQELRDIFSHFQEAGGIRFELEMDAAIEAEQPDVKHCLYQSVQETITNAIKHGHASYVSVRIQKNRNMILAHIHNNGSACGTIIKSNGLKGIEKRAAALGGEAVFSSGKETGFDVKIRIPCKED				NA	NA	NA	NA	NA
D1-12_03387	714	yfnB	COG1011	Putative HAD-hydrolase YfnB	ATGAGTCATTACCGTACGTTATTATTTGATATAGACAATACGCTGCTGGATTTTACCGCTTCAGAAACCGATGCTCTTCAAAAATTGTTTCAAGGTTCAAAGCTGGAGCTGACGGCAGAGGTGGAAGCCCGTTATAAAGCGTTAAATCAGGGGCTGTGGAAAGCGTTTGAAGAGGGGGAAATGACCCGCGATGAAGTGGTGAATACACGGTTTGCCCTTTTGTTTAAAGAATACGGCCTCGAAGCCGACGGCGTGCTGTTGAATCAGGCGTACCGCCAATACTTAGAAGAAGGGCACCAGATGATAGACGGAGCTTATGAGCTGATTGAACGGCTGAGTCCTTTATTTGATTTATACATCGTGACGAACGGCGTCTCAAGATCACAATATAAGCGGCTGGGCGACTCCGGTCTGTATCCGTTCTTTAAAGATGTGTTTGTATCTGAGGACACGGGTTTTCAAAAGCCGATGAAGGAATACTTTGATTACGTGTTTGCGAGAATTCCCGGTTTTTCTGCCGAGGGCGGACTTATTATCGGCGATTCACTGAGCGCGGACATAAAAGGCGGTCAGATGGCGGGAATTGATACGTGCTGGTTTAATCCCGGAAAGAAAGCAAATGAGTCCGGAATCATCCCGACATACGAGATTCATTCGCTTGATGAGCTGTATGATGTGCTGAACGTGGAGCGGAAAGCCGCCGCTCATTTGTAA	MSHYRTLLFDIDNTLLDFTASETDALQKLFQGSKLELTAEVEARYKALNQGLWKAFEEGEMTRDEVVNTRFALLFKEYGLEADGVLLNQAYRQYLEEGHQMIDGAYELIERLSPLFDLYIVTNGVSRSQYKRLGDSGLYPFFKDVFVSEDTGFQKPMKEYFDYVFARIPGFSAEGGLIIGDSLSADIKGGQMAGIDTCWFNPGKKANESGIIPTYEIHSLDELYDVLNVERKAAAHL	PGPT0006885_773	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-12_03388	1386	yifK	COG1113	putative transport protein YifK	GTGGCAAACAAAGAATTAAAGAGAGGCTTAGGCGCGCGTCATATACAGATGATTGCGCTGGGCGGCACGATCGGTGTCGGTTTATTCATGGGGTCATCCAGCACGATCGGATGGACCGGGCCGTCTGTCCTGCTGGCTTATGCGATCTCGGGTATCTTTATCTTTTTTATCATGCGTGCGATGGGCGAAATGCTCTATGTAGAGCCGAGTACAGGGTCGTTTGCGACATTCGGCCATAAGTATATACATCCGTTAGCCGGCTATATGACGGCGTGGAGCAACTGGTTTCAATGGGTGATCGTCGGGATGTCTGAAATTATCGCCGTCGGTTCGTATATGAAATATTGGTTTCCTGATCTGCCGGCATGGATTCCCGGCATTATCGCCATGGCCATTCTCGGTGCGGCGAATTTAATTTCAGTAAAATCTTTCGGTGAGTTTGAATTTTGGTTTGCCATGATCAAAATCGTCACCATTATTCTGATGATTGTGGCCGGAATCGGAATTATTTTCTTCGGTTTCGGTAACGGAGGGCATGCGATCGGATTATCTAATTTATGGTCGCACGGCGGTTTCTTTACAAATGGTTTTTCAGGATTTTTCTTTGCTTTGTCTTTGGTTGTTGCGGCCTATCAAGGGGTCGAGCTGATCGGAATTACGGCAGGGGAAGCGAAGGACCCGCAAAAAACGCTGCGAAGCGCGATTCAGAGCATTATCTGGCGGATTTTAATTTTCTACATCGGTGCGATTTTCGTAATCGTTACCGTATATCCGTGGAATGAGCTTCACTCACTCGGCAGTCCGTTTGTTTCGACATTTGCGAAAGTCGGGATTACGGCGGCGGCCGGTTTGATTAACTTTGTTGTGATTACCGCTGCGATGTCCGGATGCAACAGCGGGATATTCAGTGCGGGACGCATGCTTTATACATTGGGCGTGAACGGACAGGCCCCGAAATTCTTTAAGAAAGTTTCTTCGAGCGGTGTGCCGATATTCGGTACGCTTGCGGTATTAATCGGACTTGTGATCGGTGTCGTGCTGAACTACATCGCGCCTCCGAAAGTTTTTGTCTATGTGTACAGCGCGAGTGTGCTACCGGGAATGATTCCGTGGTTCGTCATTTTAATCAGCCATCTCGGTTTCAGAAGAGCGAAGGGCGCTGAGCTTGATAAGCATCCGTTTAAGATGCCTTTTGCGCCGTTTACAAACTATTTGACGATCGCTTTCTTACTCATGGTATTGATCGGCATGTGGTTTAACAAAGATACGCGGATTTCTTTGGTTGTCGGGGTGATTTTCCTGGCGATTGTGACGGTCAGCTATTATGCGTTCGGTATCGGCAAGCGCATGCCTGGTGAAAAATCGAAAATAGAAGACGCTGTATAA	MANKELKRGLGARHIQMIALGGTIGVGLFMGSSSTIGWTGPSVLLAYAISGIFIFFIMRAMGEMLYVEPSTGSFATFGHKYIHPLAGYMTAWSNWFQWVIVGMSEIIAVGSYMKYWFPDLPAWIPGIIAMAILGAANLISVKSFGEFEFWFAMIKIVTIILMIVAGIGIIFFGFGNGGHAIGLSNLWSHGGFFTNGFSGFFFALSLVVAAYQGVELIGITAGEAKDPQKTLRSAIQSIIWRILIFYIGAIFVIVTVYPWNELHSLGSPFVSTFAKVGITAAAGLINFVVITAAMSGCNSGIFSAGRMLYTLGVNGQAPKFFKKVSSSGVPIFGTLAVLIGLVIGVVLNYIAPPKVFVYVYSASVLPGMIPWFVILISHLGFRRAKGAELDKHPFKMPFAPFTNYLTIAFLLMVLIGMWFNKDTRISLVVGVIFLAIVTVSYYAFGIGKRMPGEKSKIEDAV	PGPT0000815_1380	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
D1-12_03389	105			hypothetical protein	ATGCATGATTTTTGCCGGGTTAAGCAGGATTATGGCGTATACAAGGGAGAATGGAAGAGAGTAAGACTTTACGCCATTCTGCTTAGCAAAAATAATATTGAATAG	MHDFCRVKQDYGVYKGEWKRVRLYAILLSKNNIE				NA	NA	NA	NA	NA
D1-12_03390	432			hypothetical protein	TTGTCAAAACTAGATCCGATTGAATTAATTGAATATGAGCTCACCACTTTTATCAGGAGAGCTGTTTATCTTGATAACTCCGACCGTAAAATCGGACATCTGGAAAGGGCTGCGTATTTGTTATTACGGCAGCTGGATGAATTCGGACCGGCGCGTGTAAAGGAATTAGCCGAATCTTTTAAGCTGGATATTTCCACATTGTCTCGCCAGGCCGCGGCCTTGGAGTCGAAAGAGCTGATCCAGCGTTTTTCCGATCCTTCTGACGGGCGGGTCAGTCTGTTTGCGATTACGAAGCTTGGCAAACAGAGGTTAAAAGCTGATAAAAAGATGCGTCTTGATCGATACCGACATATGCTTGACGATTGGTCAGGCGATGAAAAAGAAATGTTCAGCCGGCTTTTGCTGCGGCTGAATGAGGCATTTATCGATTAA	MSKLDPIELIEYELTTFIRRAVYLDNSDRKIGHLERAAYLLLRQLDEFGPARVKELAESFKLDISTLSRQAAALESKELIQRFSDPSDGRVSLFAITKLGKQRLKADKKMRLDRYRHMLDDWSGDEKEMFSRLLLRLNEAFID				NA	NA	NA	NA	NA
D1-12_03391	498	cidA		Holin-like protein CidA	TTGTATAGTACAAATATATGCGCAAAAAGTAAAGAAACATATCGAAGCATCAAGAAAGGGGGAAGCTGCTCTTCTCCAAAGAACAGCATTGTCGTGAAAGTCATACGCATCATCTTGCAAATCATTATTTTATTCGCATTTTCCTTTATCGGGGGAGCCGTTCAGCAGTTCTTTCACCTGCCCATTCCCGGAAGTATCATCGGTTTGATCCTGCTGATCATATGTTTATCGGTTAAGATCATTCCCGTCAAAATGATTGAAGACGGAGCCGGATTTTTGCTGTCTTTTCTTCCGCTGTTATTCATTCCGGCCATGACGGGCGTCATCAATTACCCGTCACTGTTTTCCGCCAGCGGGGCTGCTCTGTTTCTGATCATCGTGCTGAGCACCATCGTCACAATGATCGCCGCAGGGTACGCCAGCCAGCTGTTAGAGCACAAAGCCAATCAGAGAAAGGAGAAAAAGAAGTGCAGCAAACATGTATCGCAATCTTTATAA	MYSTNICAKSKETYRSIKKGGSCSSPKNSIVVKVIRIILQIIILFAFSFIGGAVQQFFHLPIPGSIIGLILLIICLSVKIIPVKMIEDGAGFLLSFLPLLFIPAMTGVINYPSLFSASGAALFLIIVLSTIVTMIAAGYASQLLEHKANQRKEKKKCSKHVSQSL				NA	NA	NA	NA	NA
D1-12_03392	693	cidB	COG1346	Holin-like protein CidB	GTGCAGCAAACATGTATCGCAATCTTTATAATTTTGTTCACGGCCGCCGCCTATCTGGCTATGGTGAAATTATATGTGCGCTTTCCATATCCCTTTCTCATACCGGTTTTGACGACTACGATTTTCATTATCGCCGTGCTGCTTGTTTTTCATATTTCGTATAAAGACTATATGATCGGCGGCCAATGGATCAATTCACTGCTCGGCCCCGCCGTGGTGGCTTTGGCATACCCGCTTTATAAGCAGCGCCGGGTGTTAATCAAGTATATGTTTCCGATCATCGGCGGCGTGTTGGCCGGTTTATTCTCCGGAATGGTCAGCGGCCTGCTATTTGCAGAGCTGTTCGGCATCAGCCGGAGTTTGATTTTGTCAATTATCCCAAAATCAATTACGACGCCTGTCGCCATACAGATTGCGTCCGGTATCGGCGGTGTCCCTTCCATGACAGTCGTGTTCGTCATGATCGCAGGGTTTTCCGGCGTTATCTTAGGACCGCTGCTTCTCAAGTGGATCCGCATCCGCAGCTCACTCGGGAAAGGAATTGCATTCGGGAGCGCTTCCCATGCGCTCGGCACCTCAAAAGCAATGGAGTACGGAGAATTAACGGTCTCCATGAGCTCTGTTTCCATGACGCTCTGCGCCGTGTTAGGGTCGGTCTTCGGCCCCGTCGTAGCATGGATGTTTCAAATTTAA	MQQTCIAIFIILFTAAAYLAMVKLYVRFPYPFLIPVLTTTIFIIAVLLVFHISYKDYMIGGQWINSLLGPAVVALAYPLYKQRRVLIKYMFPIIGGVLAGLFSGMVSGLLFAELFGISRSLILSIIPKSITTPVAIQIASGIGGVPSMTVVFVMIAGFSGVILGPLLLKWIRIRSSLGKGIAFGSASHALGTSKAMEYGELTVSMSSVSMTLCAVLGSVFGPVVAWMFQI				NA	NA	NA	NA	NA
D1-12_03393	846	dkgB		2,5-diketo-D-gluconic acid reductase B	ATGATGACTGGAGCAATTCCGCAAAAGAAACTGCTGGATGGGACAAGCATTCCCGCGATCGGCTTCGGTACATACGCTCTTAATGGAAACAACGGCGTTCATGCCATTACCAGCGCCATTGATATCGGCTACCGTCTGATTGACACCGCTTATAACTATGAAAATGAAGGATCGGTCGGAGAAGCCATCAAGAGAAGCTCTGTTCCGAGAGAACAGCTATACGTGACGTCCAAGCTGCCCGGGCGCTACCATGACTATGACAAAGCTGTACAAACCATCCAAGAATCTTTATACCGCGCCGGTCTGGACTACTATGACCTGTATCTCGTCCATTGGCCGAACCCGAAACAAGACCGCTACACGGAAGCATGGAAGGCACTGATTGATGCGAAAAAATGGGGCCTGATCCGATCCATCGGCGTCTGCAATTTCCTGCCTGAGCATATCGAACGGCTCGAACGTGAAACCGGCGTAAAGCCCGGCATCAACCAAATTGAACTGCATCCCGCTTTTAATCAGCAGCAGCAGCGCCAATGGCACGAAGAACAGGGCATCGTGACAGAATCATGGAGTCCGTTATCCCGCGCCGGCGAAGTATTGAACGATCAAAAACTCGGACGGATTGCGGACAAATACGGCAAAACCATTTCTCAAGTCATTTTACGCTGGCATATCCAGCTGGGCGCCATCCCGATTCCAAAATCAGCATCGCCCGAGCGCCAGCTTGAAAACATCTCCGTTTTTGATTTCTCCCTTGATGAAAACGACATGAGCATTATCGACTCGCTTACCCGCCCCGACGGACGCATAAACGGCCAAGACCCGGCGGAGTATGAGGAGTTTTAA	MMTGAIPQKKLLDGTSIPAIGFGTYALNGNNGVHAITSAIDIGYRLIDTAYNYENEGSVGEAIKRSSVPREQLYVTSKLPGRYHDYDKAVQTIQESLYRAGLDYYDLYLVHWPNPKQDRYTEAWKALIDAKKWGLIRSIGVCNFLPEHIERLERETGVKPGINQIELHPAFNQQQQRQWHEEQGIVTESWSPLSRAGEVLNDQKLGRIADKYGKTISQVILRWHIQLGAIPIPKSASPERQLENISVFDFSLDENDMSIIDSLTRPDGRINGQDPAEYEEF	PGPT0001320_1642	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001320-dkgA-K06221	NA	NA
D1-12_03394	1167			hypothetical protein	ATGCGCCTAAACGCTCGATATATAAAAAATCAAGTAATGGCTCAGCAAGTGCTTCAGCGGTATTCTTCCAAAACAAATGTGAAAGATGCGGCAAAAGGATCGGACAGCTTATTGATTCAGACAGGCGGGAGCCGCGATCTGAGCCAGGTGAATTATTCAAGGAGCGGTGTCACTGAGAAAGGGAGCAGCCTGTCCCGTTTATATCAATCTGCAAATCAGAAAACGATTACGGATAATGGGATTGAGACGGTAATAGACGCTAATAATCCATATGAGTCTGAGAGTGATATTGCGAGCAAGATTCTTGATGAGAAATACAGCCGTATCAATGAAATCAATAAACGAAAACCAGATCCTTTGCATTATATTAAGGACAAATACCAGCGTGCCGACTCACCTTATTTCAGAAGTGATTTATCAGAATCGGAGCGTCAGGCCGCTTATCATAATGAAACGGAATGGCTGTTTAAGGGGAAAGCCCAGAGCTATGATTTCCGTGATGCGGCGTTTCGGGGTGAAACGCTCAACGGAGAGATTCAAGTCGAAAATGAAAAGGTGTTTCAGCGCGGGCAGGTGAATCAGCAGATTGAGATGCTTTTCCATCGGAATCATATTCAGATTCCGGAGGGTGCGAATCTTACATTTACGATATCACCGATTGATTATCTGTTAAAAGTGAGCGGGACTGACGATAAAGAGCTCACTCAGCAGATTGAAGCTGTCTTAAACTCCGGGGAAAACAGCAAAGAGCTGTTTGCGCACATCATTCGCAGCCGGAGTGATGACTCCTCGCAGTTTACGCCGGAAACATATGAGAAATATCAAGTCGTTCGGGAAATGTACGAGGTGACCGGCTATCATCTGAAAGACTTGCAGATCGTGGACGGAAAGTACGTCACAGAAGACGGACGCGACCTTTTAGACGTCTATAAGGAAGCGCTGCAGCAAGATCCTTTGTTGAGACATACGGCGGCAGAAGCGGCCGCCCATTACGGACAGGGGCTCACGAAGCTTGCGAGAACGGGTTATGACGCCATTCCTGATTTGGTTCTGTCCATTGAGTATAAAAACGGATCTCTGCGTGATGTCGGCCAAAGCAGGCAATACGGATCTGGGGATACAGATTGGCTTTCTGAATGGAAACGGGAGCTGGGTGTGCGTATATAA	MRLNARYIKNQVMAQQVLQRYSSKTNVKDAAKGSDSLLIQTGGSRDLSQVNYSRSGVTEKGSSLSRLYQSANQKTITDNGIETVIDANNPYESESDIASKILDEKYSRINEINKRKPDPLHYIKDKYQRADSPYFRSDLSESERQAAYHNETEWLFKGKAQSYDFRDAAFRGETLNGEIQVENEKVFQRGQVNQQIEMLFHRNHIQIPEGANLTFTISPIDYLLKVSGTDDKELTQQIEAVLNSGENSKELFAHIIRSRSDDSSQFTPETYEKYQVVREMYEVTGYHLKDLQIVDGKYVTEDGRDLLDVYKEALQQDPLLRHTAAEAAAHYGQGLTKLARTGYDAIPDLVLSIEYKNGSLRDVGQSRQYGSGDTDWLSEWKRELGVRI				NA	NA	NA	NA	NA
D1-12_03395	882			hypothetical protein	ATGAAGAAGTGTATATTGATTCTATTTGTCAGTGCAATCGTATTATCAGGCGCATTGTTTGCATCTTCACCTTCAGCCTCTGCGTCTCAAAAGAACTCGTTACAAATAAGCGCCATTACAGGAAATCATTCATTTGAAACTGCCAATCCGGTAGGCTACTGGAAATATAAAAATATTGATACTGCCGTATTGCCGGAAGGGGAAAAAGAATCGTACTTCACTTTCACGGCAAATAAGGGAGAAAGACTCTATGTCAGGAGCTCAACAAGAAGTGAATACAAGGGAATGAGCATTGAAATTTATAATAAAAACAAAGTGCTGATCAGTAAAGGCACAGAAGTGATAAACCCTGATACGCCGCTTCCTTTTATCTATGCCATTACAGATGCGAAAGAAAACAACGAGACGTTCTACGTGAAAGTGTCCCGCGGCTCATACACTGACGATATATACTTTACACTCTCCATTTACGATCGAATCAAAACCGGAAGCGAGACCTTCTCATTCAGCGGCACGGCTGAAAATAAAGGAAATACAAGCCTCAGTTCGAATGGATCAGATTCAACTGTTCTCAGGCTCGACTTAACCAAACAAACAAGCATTCCAAAAGACGCCATAGTGAAAAGAATCAGTACCGCCGCGACTCAAACACCAAGCCAAGGAAACACAAGACACTGCATAATGTCTGAAGAAAATAAAGTGTGGCACCACGCACTCGCAAACAGCTCCACTCAAGGAAATTACGGTATCACACTGGATGATAACCTCTCAGTCTCAAGCATCTGGAATTTTAAATACAACACACTCGCAACAGCAAAATCGACTATGAAAAATGTAAAATTGAAGATTGATTATGAGTACGATGTGACAACGCAGTTTTAA	MKKCILILFVSAIVLSGALFASSPSASASQKNSLQISAITGNHSFETANPVGYWKYKNIDTAVLPEGEKESYFTFTANKGERLYVRSSTRSEYKGMSIEIYNKNKVLISKGTEVINPDTPLPFIYAITDAKENNETFYVKVSRGSYTDDIYFTLSIYDRIKTGSETFSFSGTAENKGNTSLSSNGSDSTVLRLDLTKQTSIPKDAIVKRISTAATQTPSQGNTRHCIMSEENKVWHHALANSSTQGNYGITLDDNLSVSSIWNFKYNTLATAKSTMKNVKLKIDYEYDVTTQF				NA	NA	NA	NA	NA
D1-12_03396	663			hypothetical protein	TTGAGAGGTCTGTTACTGACTAACTATTACTTGGTTTATCGGAGTTTCTTTGCATACACAGGGTTGGCCATATTGGTATCAGCAGTCATTTTTTATTTTGGGGATGCTTCAATGCATCGTTTTGTTGCTATGCTGATTATTTTGTTTGTCGTCATGCCCGCACTTGAGGTTATAAAGTATGAGAGCAAGTCTGGCTATGACAGGTATGTCCTGACTTTACCGGTCAGCAGAACAAATATTGTTCAAAGTCACTATGTCTTTTATCTTTTGATTGTTGTGATCGGAGCTGTAATATCTTATGGTATTTTCCTTGTATACAGCCTGGGTTCTGATGAACCAATTGACGGCATATTGAATATTGTCTCTTTTGGAACGTTCATCGTTCTCTTTGCCGGTGCAATCGTTTATCCTCTTCTCTACATGATAGGCCCGGAAAAATCCGATGCTATCGTGATTGGAGGTGCAATGGGGGGACTTTTTGCTACCTTTGGATTGCAAAGTGTCGTTGGGTATGCAGCAGAACAAGTACCGCTGTCATTTTTGCACATAAATCCTTCTTTATATGTTCCGATTATATATCTCATGATCGGCGTTATCTTATATATCATTTCATTTTTCATTGCTGCGGCTATCTATCATAAAAAAGAATTTACAACAGGATAA	MRGLLLTNYYLVYRSFFAYTGLAILVSAVIFYFGDASMHRFVAMLIILFVVMPALEVIKYESKSGYDRYVLTLPVSRTNIVQSHYVFYLLIVVIGAVISYGIFLVYSLGSDEPIDGILNIVSFGTFIVLFAGAIVYPLLYMIGPEKSDAIVIGGAMGGLFATFGLQSVVGYAAEQVPLSFLHINPSLYVPIIYLMIGVILYIISFFIAAAIYHKKEFTTG	PGPT0006730_24900	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_03397	873	ytrB_1	COG1131	ABC transporter ATP-binding protein YtrB	ATGTCAAACCTTTTAGAAATCAGAAACATCAGCAAATCTTTTGGTCATAAAGTTGTTTTAAAGGATGTCACATTCAATGTGCCTGCCGGATCCATTGTCGGTTTTATCGGTGATAACGGCGCAGGCAAATCAACAACATTTAAAACGATATTAGGGTTAATCTCTCAGGATAGAGGTAAAGTGAAAATCTTTGGTAAAGAGAATCTGGATAAACATATAAAGTTCAAAGAAGATATAGGGGTCGTATTTGATGCGATGAATTTGCCCGCGCATCTTACGATAAAACAGCTGAATCATGTATTTAAAAAACTATTCGGTGCTTGGGACCAAGACAATTTTTATCGGTTGGTTCATTCTTTCTCTTTACCTATGGACAAAAAAGTGAATACATTCTCGCGCGGCATGTCAATGAAGTTATCAGTAGCTGTTGCTTTGTCGCATAATGCAAAATTATTACTCCTGGATGAAGCAACGGGAGGGCTTGATCCCTCTTCAAGAGATGCTCTGTTAAATGAATTAAAAAGCTTTGTGAGTAAAAGCAACGGCGGTATTTTACTTTCATCGCACATTATGACTGATGTCGAGAAGATAGCCAGCCATATCATTATGATGAAAGATGGCGAAATTTTATTAAATGAAGAGAAAGACAAGGTTCTTGAAAGCTATACTGTTATAGACGTTGATGAAGGCCAATTGGCTGAGCTTGACGAAGATATCGTTCTAGCAAAAAGGAATCATGGATCTTATTGGAGTGTGCTTGTATCGGATCAACAGAAATTGCCGAATGGCGTAACGGCCAACACCATTTCCATAGAAGAAATCAGCGTCTTTTTAACGAGGAGTGAAAACATTGAGAGGTCTGTTACTGACTAA	MSNLLEIRNISKSFGHKVVLKDVTFNVPAGSIVGFIGDNGAGKSTTFKTILGLISQDRGKVKIFGKENLDKHIKFKEDIGVVFDAMNLPAHLTIKQLNHVFKKLFGAWDQDNFYRLVHSFSLPMDKKVNTFSRGMSMKLSVAVALSHNAKLLLLDEATGGLDPSSRDALLNELKSFVSKSNGGILLSSHIMTDVEKIASHIIMMKDGEILLNEEKDKVLESYTVIDVDEGQLAELDEDIVLAKRNHGSYWSVLVSDQQKLPNGVTANTISIEEISVFLTRSENIERSVTD	PGPT0006725_17912	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_03398	981	ydaD_3		General stress protein 39	ATGGATCAAAAGGATCAAAGTCGTCAATTAGACCAAATAAAGCAAATGCAACAAATGTTTAAAGCGAACATGAAAACTCAACCTTATCCCATGTACCCTAACTATGGTAAAATCACACGTTACGAAGAAATTCCGATAAGTTTACCTGAACAGCGCCAGCTGCGCCATCCCGGAGTGGAAAAATTTATGGTGCCCCTTCCAATTATCGAAAACCCGAACTATAAAGGGAGTGGAAAGTTAACAGGAAAAGTAGCACTTATTACAGGGGGTGACAGTGGTATTGGTGCAGCAGTAGCAATTGCGTTTGCTAAAGAAGGCGCAGATGTTGCTATTTCATACTTAGATGAACATGAGGATGCAAATAGAACAAAAACGAGGATTGAACAACTCGGACAACGTTGTTTTCTAATGCCTGGGGACTTGCGAGACAAACAACAGTGTATCTCCATTGTAGAACAAACAGTAAATACGTTTGGACGTCTCGATATTCTTTGTAACCACGTTGGTATCCAATTCCAACAACTAAGTCTGCTTGACATTACAGATGAGCAATTCGATGACACCTTCAAAGTTAATATATACTCTCATTTTTACACAACAAGAGCAGCGCTTCCTCATTTAAAACCAGGCAGCTCAATAATTGGCACTTCTTCAGTGGTGACGTATGTAGGTGAGCAGCAAATGATTGATTATACGGCCACAAAAGGCGCAATAGTTGGTTGGACACGTGCCTTGGCTAAAAATGTCGTGAAACAAGGGATCCGAGTCAATGCCGTCGCCCCCGGCCGAATTTGGACCCCACTTATTTCAGCAAGTTTCTCGTCAGACCAAGTCGCTGTATATGGAGCATTTAATCCAATGGAACGAGTTGCCCATCCATTTGAACTCGCACCAACCTTTGTCTATCTTGCTTCTGATGATTCTCGTTTTGTTACTGGTCAAGTTCTTCATGTTGATGGGGGAGAATCCACACATTCCTAA	MDQKDQSRQLDQIKQMQQMFKANMKTQPYPMYPNYGKITRYEEIPISLPEQRQLRHPGVEKFMVPLPIIENPNYKGSGKLTGKVALITGGDSGIGAAVAIAFAKEGADVAISYLDEHEDANRTKTRIEQLGQRCFLMPGDLRDKQQCISIVEQTVNTFGRLDILCNHVGIQFQQLSLLDITDEQFDDTFKVNIYSHFYTTRAALPHLKPGSSIIGTSSVVTYVGEQQMIDYTATKGAIVGWTRALAKNVVKQGIRVNAVAPGRIWTPLISASFSSDQVAVYGAFNPMERVAHPFELAPTFVYLASDDSRFVTGQVLHVDGGESTHS	PGPT0003180_12563	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
D1-12_03399	1134		COG1063	putative zinc-binding alcohol dehydrogenase	ATGAAGGCTGTAACTTATCAAGGACCAAATCATGTACAGGTTAATCAAGTAGAGGATGCAAAATTAGAAAAAAAAGACGATATTATTGTTAAGATTACTTCTACCGCTATTTGCGGATCTGATTTGCATTTATATCAAGGTAACATGCCATTACCCCCAGGATATATTATTGGCCACGAACCAATGGGTATTGTGGAAGAAGTTGGACCTGAAGTCACAAAAGTAAAAAAGGGAGACCGTGTTGTCGTTCCCTTTAATGTTTCATGTGGACATTGCTTTTATTGCCAACATGAAATGGAAAGCCAATGTGATAACTCAAACCCTCATTATGATTCTGGCGGATACTTTGGTTATACTGAGAAGTTCGGTAACCATCCGGGTGGTCAGGCTGAATATTTAAAAGTCCCTTTTGGAAACTTCACTCCCTTTGTTATCCCGGAGTCATGCGAATTGGAGGATGAGTCACTGCTCTTTTTATCGGATGTTCTGCCAACAGCTTATTGGAGTGTAAAAAATGCAGGTGTAAAATCAGGCGATACAGTTATTGTTCTTGGATGCGGACCTGTTGGGTTGATGGTACAAAAATTTGCCTGGATGGAAGGTGCAAAGCGTGTAATAGCAGTTGATTACTTGGATTACCGAATCAATCATGCGAAAAAGATGAACAATGTTGAGGTATTTGAGTTCACAAAATACCCTGATATGGGGGAACATTTAAAAGAAATCACACATGGTGGGGCAGATGTCGTCATCGATTGTGTAGGTATGGATGGAAAGAAATCCCCCCTAGAGTTTCTGGAACAAAAATTCAAACTGCAGGGCGGAACCCTTGGACCTATTCAAATTTCTACTAAAGCTGTCCGAAAGTATGGGACAGTGCAAATGACTGGTGTTTATGGAGGTAACTATAATCTATTTCCATTAGGTGCATTTTGGATTAGAAATATTAATCTTAGAATGGGACAGGCTCCAGTCATTCATTTTATGCCAGAATTGTTTAAAAAAATAACAAATAACGAATTTGACCCAAGAGATATTATCACACACAAAATGTCCCTTGAAGAAGCAAGTCATGGTTATCGAATTTTTAATAATCGTGAGGATGAATGTATAAAAGTCGTTTTAAAACCGTAA	MKAVTYQGPNHVQVNQVEDAKLEKKDDIIVKITSTAICGSDLHLYQGNMPLPPGYIIGHEPMGIVEEVGPEVTKVKKGDRVVVPFNVSCGHCFYCQHEMESQCDNSNPHYDSGGYFGYTEKFGNHPGGQAEYLKVPFGNFTPFVIPESCELEDESLLFLSDVLPTAYWSVKNAGVKSGDTVIVLGCGPVGLMVQKFAWMEGAKRVIAVDYLDYRINHAKKMNNVEVFEFTKYPDMGEHLKEITHGGADVVIDCVGMDGKKSPLEFLEQKFKLQGGTLGPIQISTKAVRKYGTVQMTGVYGGNYNLFPLGAFWIRNINLRMGQAPVIHFMPELFKKITNNEFDPRDIITHKMSLEEASHGYRIFNNREDECIKVVLKP	PGPT0006355_1299	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
D1-12_03400	342			hypothetical protein	TTGCGAGGTATTTTTGCTCAAACTTTATTCCAAAGCTACACTGCATTCTCTGAAGGCCAAGGAACAAGCGCAACAGATTCAGCATTTGGAACTGGAGCTACTCTTGCAGCGTTAGCTAAAAAGTACAGCAAATTACCTGTTATCGCAAATGGAAGCCTTCATGACTCAGAAAAAGCAAAAGAAATTATCGAAAAAGGTGAAGCTGATGTTATCACTTTAGGTCGTGGAGCTCTTGCTAACTATGACTGGGCAAACAAAGTGAAAAGTGGAGAACAACCAAATGAATTTGAACCGGAGAAGACATTAAGTCCTGATGCTAAAATCAAAGGATTTGAAGTATAA	MRGIFAQTLFQSYTAFSEGQGTSATDSAFGTGATLAALAKKYSKLPVIANGSLHDSEKAKEIIEKGEADVITLGRGALANYDWANKVKSGEQPNEFEPEKTLSPDAKIKGFEV				NA	NA	NA	NA	NA
D1-12_03401	1533			hypothetical protein	ATGAGCAAACAACAGGTTAAAATTGCTTGGCCTTTTGCAAAAGGTGAAAAAGCACAACTGCTATGGATTGGTGAACCATTCCGATATGATCATAAAATGATGATTAAAGCTTATTTTCGCTCACAAGGCCGTTCAGAAGGTATATTAATGGATTGGGGTACATTACCATGCCTAGCAATCCAACATTTTTATACTGATGGCATCATAACGGCAAGTAAAGCCCCTGAAGGTGTACAAGAGATAGATATGACTATTTATCCTAATAAAGTTAAATATCACGAACGCCCTTGGTCTATTCAAGGAAGCAGTGATCCTGCAACTTCTCGTAGTTTCGTGTTCTCTTTCAATGGGAAGAATGTTATTTTACCAGTCATTGAAGTATTGCGTAGCATATTAGCTCCTAATGGCTTTCTTTTATATCGCTTGTTTGAATCAAATTCATTTCCTCAGTTCTTCACAGAAACATATGAATCTAATAAAATTCATCTTAGCTTTTCATCACAATATGAATTGAAATACACAAAGACTACGTTCATTTATCAATTGGTGTGGTTGTTGACGAACCGTGATTTACTACAAGCTTATGAAAATATAGCATTTACTTGGTTGCAGGAAAAGACTTTGAAATTTGAATGGAACTTTACACAACCGATTACAATAACAGCTCGTGTAAAGGAGAAGAATAACATGTGTACAGTATTACAAATTGTTAATGTGAAAAATAAAGATATTCCGTACCAACATATTTCAATTTCACATCCAGAAATACAAGATCAAGAGAAATCCAATGAGGCAAAGAAATATACTTATCATTCTCTGAATAGACAGGGTGATGAAGAGGGCTTTACATTAGATGAACAATTAGATGGTTCTACAGAAGACTTTGATCTTGTACAAATGAATCAGTTAAAACATGAATATACATCAATTCCCAGAATTGAACGTGTTAAAGGTAGTCTCTCCAAGCAACGAATGAAGGAAGATGAAAACACAAAGAAATACTACATTAATCATGATTCTATTCGATCTACAGCAGACAGTGGTGGCCAAAAACTTGTTCGAGGCTTAGAGCATAAAATGCTACATGAAATTCGGGCACAAGGCGAGCTGCAAGATTTTATTAATGTGTTGAAAGTAATGGAACAGCACCCCAAAGTACAGGCGATTAGGGCTTTTACCGATGTGCTACCAGAGGGCATAGGGGAACGTAAATTTATAAAGCTAAGTGATGGTGTAACGAAAAGACGATATGTGATTGCTGAAATATCTCTTATGAATGGTAAACAATTCAATATTGTGGAGATAGAACGTGAAAATCGTTCGCTGTCGATCCTCATTTTATCATCGTCTACTATTCATAACTGGAACTCTATTTATAAGAGTTTACTTGTGAACCTTGTTAATGACAATGGCACCTGGACAAGTAAAATATTAAAGATTATTGAAAATCAAGGTGTTATTGTGATGAAGGCGAAGCATAGTTCTAAAGGTGTTCAGCATAGGAGTAAGGTGTTGTTAAATAAGCTAGTATAA	MSKQQVKIAWPFAKGEKAQLLWIGEPFRYDHKMMIKAYFRSQGRSEGILMDWGTLPCLAIQHFYTDGIITASKAPEGVQEIDMTIYPNKVKYHERPWSIQGSSDPATSRSFVFSFNGKNVILPVIEVLRSILAPNGFLLYRLFESNSFPQFFTETYESNKIHLSFSSQYELKYTKTTFIYQLVWLLTNRDLLQAYENIAFTWLQEKTLKFEWNFTQPITITARVKEKNNMCTVLQIVNVKNKDIPYQHISISHPEIQDQEKSNEAKKYTYHSLNRQGDEEGFTLDEQLDGSTEDFDLVQMNQLKHEYTSIPRIERVKGSLSKQRMKEDENTKKYYINHDSIRSTADSGGQKLVRGLEHKMLHEIRAQGELQDFINVLKVMEQHPKVQAIRAFTDVLPEGIGERKFIKLSDGVTKRRYVIAEISLMNGKQFNIVEIERENRSLSILILSSSTIHNWNSIYKSLLVNLVNDNGTWTSKILKIIENQGVIVMKAKHSSKGVQHRSKVLLNKLV				NA	NA	NA	NA	NA
D1-12_03402	1869			hypothetical protein	ATGCTGCCATTCTTTACAGAACCATATCCAGATGAATTGATGTATTCGGCTATCGCACGTTACCACTTTTACAGTGGGAATATCGATTGCAAAGATACGTTAGAAGAAGTATTTCAAAGTCGTTCAGTGATTCCGAGTATTGAGATTGGCATCCATTTTAATATTCTCGCTAATCAGATGGGCACGCATTATTCGGCAGAAAGTTTATTAGCCAAGCATACAATTTATCCTTTTTATGCTCCGTTTCTTTCCAAGCAACGCCAGAAAAAACTTCTACAAGATGTTCAAGGAGATGGAAAAGGACTTTATACAAGACTTGGAATGGTTGCAGGAGGTATTTGTAAAAAGGATGGACTCTATTATTGTCCAGAATGTGCAGCTAATGATATCGGGCAACATGGAGAACCCTATATTCATCGTGAGCATCAACTACAAGGGATTCATTTCTGCGCACATCATGAATTGAAATTAAAGAAGTATCCTATCGATTTTTCAAAGCAAAGTCGAATTGAGTTTATTCGATTTGATAAAAAGCTAATGAACTTATCGATCCTTCAAGAAGTTGAACCAAAAGAGTTTGTAACTATTCAAATTGCTTTGGCAAAGATGGCCAATCAACTGCTACAAGTCCCAATACATCAATTTTCAAGAGAAACTATTAATCTTAAATATCGTGTTCTTTTACGTGAGCGTAATTTAATAACAACTTCTAATCGAATTCGGCAAAATGAGCTATACAAAGCATTCCAATCAAAGTTCCCAAAAGGATTTTTAGTTAAGTGTGAATCAGCAATCGATGTTGATGATGAATACAATTGGCTGAAGGTCATTACACGCAATCTAAAACGTCATGCACATCCTTTCCGTCATTTGCTTATGCTTTATTTCTTAGAACAAGATGTAGATTCTTTTTTACAAGTTGAAGCTGATACAGGTCCTTTCGGTAGTGGCCCATGGCCTTGTTTAAATAAAGCAGCTAATCATTATAAGGAATTTGTGATTCCTGAAGTAAATGTTACGAGAGATTTTAAATCAAAAGCACCCATTGGTACGTTTGAATGCTCTTGTGGATTTATTTACGCTAGAAAGGGTCCTGATAGATTATCTGAAGATAAATATCGTATAGGTCGTACAAAAGCGTATGGAGATGTCTGGAAGGCTAAATTACGTGAGTTGGAAGCCGAAGGGACGTACAGTACAAGAACATTAGCTAAAATGCTTGGTGTAGATTCGAAAACGGTTAAAAAATATCTTTCTTCAGAGATAAAAATCGAAGATTTATCAGAAAATGATATTCCTTCGATGTTGCTAATTTATCGAAAACAATTATTAAAAGGAATGCGGCAATACCCAAGTTATTCAAGAACACAAATTCGTAAGTGTTTCCCAAAAGAATATATGTACTTGTATCGTCACGATAAAGAATGGCTGTTTGAACAGTTGCCTATAATTCAGGAGAAGAAGAATAACCAATCAATTGTCGATTGGGCCTCACGTGATCGAGAATACTGCTCTAAAGTGGAGAAGCTTTACCAGGAGCTAATCGAACTAGATAAACCTGTTCGAATTACAATCTCGATTATTGGAAAACGGCTTGGAATATTATCAAACTTGGAGAAACATCTTGATAAGCTCCCCCAGACTAAAAAGCTCCTATCAGAAACTACGGAATCTACTCAACAATTCCAAATCAGACGTTGTTGTAAGATTATTGACCGAATATTACAGAGGCAAGAACCAGTTGTATTATGGAAAGTACAGCGTATTGGCGCTGTGAAGTCACATCATTTTCATGAAATAAAACCGTATTTGGAAGAATATTTACGAACAAAACAGGAAGTGAAAAGTTATGAGCAAACAACAGGTTAA	MLPFFTEPYPDELMYSAIARYHFYSGNIDCKDTLEEVFQSRSVIPSIEIGIHFNILANQMGTHYSAESLLAKHTIYPFYAPFLSKQRQKKLLQDVQGDGKGLYTRLGMVAGGICKKDGLYYCPECAANDIGQHGEPYIHREHQLQGIHFCAHHELKLKKYPIDFSKQSRIEFIRFDKKLMNLSILQEVEPKEFVTIQIALAKMANQLLQVPIHQFSRETINLKYRVLLRERNLITTSNRIRQNELYKAFQSKFPKGFLVKCESAIDVDDEYNWLKVITRNLKRHAHPFRHLLMLYFLEQDVDSFLQVEADTGPFGSGPWPCLNKAANHYKEFVIPEVNVTRDFKSKAPIGTFECSCGFIYARKGPDRLSEDKYRIGRTKAYGDVWKAKLRELEAEGTYSTRTLAKMLGVDSKTVKKYLSSEIKIEDLSENDIPSMLLIYRKQLLKGMRQYPSYSRTQIRKCFPKEYMYLYRHDKEWLFEQLPIIQEKKNNQSIVDWASRDREYCSKVEKLYQELIELDKPVRITISIIGKRLGILSNLEKHLDKLPQTKKLLSETTESTQQFQIRRCCKIIDRILQRQEPVVLWKVQRIGAVKSHHFHEIKPYLEEYLRTKQEVKSYEQTTG				NA	NA	NA	NA	NA
D1-12_03403	1695			hypothetical protein	ATGAGGAATTTGGGAAAGACAAATGACATGGTTGTCTTAAAAGGGGATTTTGAGAAAGCTGTCTATAAGGAGCAATTTTTAAATGAATATACCAATAATCCTTTCATCGAAGCTCTTCCACCTATATTTAATGAGGATGATGTGCTGGAGCGATTTATGGTGACTCCACGAATTAGTGAGCAAGATAAATTAAGTGAAACGAATATTCGTTATCACGTCTTAAAACGTGTAAGGAATTTTATCCAGCCGTTACCGATTCATTTCGAGGTAGAACGCCGATTGTCTACATTGATTCGGAGAGGTTACTTGGCGCGAAATCCATTAGATAGAACATTTCTAGAGCGTGTTCGGGTGTTACATGAATTGCGTGAAGAAGAGGAAGCAGCTCATAAATATATAGATGAACGACTAAATTATATTCGTTCAACTGCCGATAGCTTATCCATTATCGGTATTTCTGGAATTGGTAAAACAACAGCAATTGAACGTCTTTTGCTTATGTATCCACAAGTGATCAAGCATGAAGAATACAAAGGACAACCGTTTAATCGAACTCAAATTGTTTGGCTTAAAATTGACTGCCCGTATGATGGAAGTTTATCTACACTTTGCAAAAGCTTTTTCAAAGCAATTGATGATTTACTAGGAACTCGATATTTAGAAAAGTACGGTTATTTGAACCGTGTGACATCGACAATGTTATTGCACATGACATCGTTAGCAAGTATGTACGGCATCGGTGTTCTAGTAATTGATGAAATCCAGCACTTACTACATTCCAAAAATGAACAGGAAGAAATGTTAAATTTTTTTGTAACACTGTCTAATACAGTTGGCATTCCTACGGTTTTAATCGGCACTTCTAAAGCACAAAAACTATTCAAAGGAAACTTCAGACAGGCAAGACGGGCAGCAAGTGATGGAGCTATTATTTGGGATCGTATGGATGAAAATAGTGAAGAGTGGGAGTTTTTCCTAGAGACACTTTGGGAATTACAGTGTTTAAAAACCCATTCTGAGCTTACAGAGGAGACAAAGAAGGCATTTTATTATGAATGCCAAGGGATTACTGCTGTTGCCGTGAATCTATTTATTCTAGCGCAAGAACGAGTATTATTTGATGAGGACAACCCGGCTGAAATCATTACACCACAAGTGTTAAAAAAGACTGCTAGGGAAGATATGCAAACGATTCAACCAATGATGACAGCTATTCGGACGAACAATTTTGCCGATATGATGAAATATGAAGATATTATGATTAACTTGGATGAAGTCATGCTGAATCACAAGCGAAATACTGAAATGACAGGACGTATTCAAGAAGCATTTAAAGAGCGCCAAAATACAATCGAGTATAAACGTCAAGACATGATTGGGAACTTAAGTGTTGAAGTGGCAGCCCTTGGTATTTTTGATAGTTTGAAAGAAAACGATATTAAAAAGCTCGCACAAAATATAGTTGAGGGAAATCCACTTGATACTGAATTTAATCAACTTAAATCAGATGTGATTCAGCAAGCAATTGCATTAAACCAGCAAAGGAAGGAACAAAAAAGTAAACCAAAACCTCAAAATACCGATGTATTACCATTGTTGGCACTTAGAAAGAAAGCATTAGAGAAAAAACAGCACCCATACGAATTGTTGAAAGCAAGTGGATATATTAAAAATCCATTAGAGGAATTCTACTAG	MRNLGKTNDMVVLKGDFEKAVYKEQFLNEYTNNPFIEALPPIFNEDDVLERFMVTPRISEQDKLSETNIRYHVLKRVRNFIQPLPIHFEVERRLSTLIRRGYLARNPLDRTFLERVRVLHELREEEEAAHKYIDERLNYIRSTADSLSIIGISGIGKTTAIERLLLMYPQVIKHEEYKGQPFNRTQIVWLKIDCPYDGSLSTLCKSFFKAIDDLLGTRYLEKYGYLNRVTSTMLLHMTSLASMYGIGVLVIDEIQHLLHSKNEQEEMLNFFVTLSNTVGIPTVLIGTSKAQKLFKGNFRQARRAASDGAIIWDRMDENSEEWEFFLETLWELQCLKTHSELTEETKKAFYYECQGITAVAVNLFILAQERVLFDEDNPAEIITPQVLKKTAREDMQTIQPMMTAIRTNNFADMMKYEDIMINLDEVMLNHKRNTEMTGRIQEAFKERQNTIEYKRQDMIGNLSVEVAALGIFDSLKENDIKKLAQNIVEGNPLDTEFNQLKSDVIQQAIALNQQRKEQKSKPKPQNTDVLPLLALRKKALEKKQHPYELLKASGYIKNPLEEFY				NA	NA	NA	NA	NA
D1-12_03404	2157	tnsB		Transposon Tn7 transposition protein TnsB	ATGATTTATATTAATCAAGTGTTTCAATATGTGACCGATTCGACAAGGATTCGGGTAATTGATATTGAAGAACCACATGTCTATATTGTTAATATTGACACGAGTAGTGCTATGCCGAGGAGGGAGCTATATTCCAACCTAATTACAGATATGAATCAAGGAGAGCTACTTGCGATTAATGATCCATATGCAAAAGTGATTTCAGAAAGTGATTTAACAGAAGTGCAAATTCGTAAGCGCGAAGAAGATTGGGAAACTATACAAAAATACTGTGTCCCCAATATGCAAGATTTGCTCTACAAACGAGGAAGAGAAAATAAAATTCGTGAAATCGTTCGGGACAGCAACTTAGGCAAGACAAAAGTTAAAAAGTTACTGACTCGCTATTGGCAGAGGGGGATGACAAAAAACGCTATGTTACCCGACTACTCTAATTCAGGTGGTAAAGGGAGAACAAAAGTCCTAACAAATGCAAAGGTTGGTCGTCCTAGAAAGATAAACATAAATAATGAATATCAAACCGGTATTAACATTACTGACGAGGTAAAGGTCCAAATTGAGCACGTTATCAACAAGTACTACAGGATAAAGAATAATTACTCTTTACGAGATGTTTATAATTTCATGCTGCGTGACTTTTACTCTGATCGCTATAAGGAAAATGGTGAGCTAAAGTACCGTATTTGGGAGGCCACTCGAATTCCCTCGTACCATCAGTTTTACTACTGGTTTAAAAAGCTGGAAGACCCGAAAAAGGATATTCAGTTTCGTAAAAGTACAAAGGAATATGAATTGAAGCATCGTCCGATTTTAAGTGATTCTAAATCAGAAACAAATGGTCCCGGTACTAGATTTCAAATTGACGCAACTATCGCAGATATTTATTTAGTCAGTTCACTTGACGTAAATAAAGTAATTGGGCGACCAGTTATTTATGCTGTACTTGATGTGTATTCACGCATTATTACAGGTCTTTATGTTGGGCTAGAAGGGCCGTCATGGATTGGTGCAATGATGGCTTTGGATAATATGGTTGCTGACAAAGTAGAGTTCTGTATGCAGTACGGAATTAATATTACACCTGAGCAATGGCCAACACATCATTTACCTGAAATTATTATCGCTGACCGAGGTGAGTTTGAAGGCTATTCGGTAGAGAATTTAATTAACAATCTTAATATTAAAATTGAGAATACCACAGCTTATCGGGGAGATTTGAAAGGGATTGTTGAAAGGAAGTTCCGTACATTAAATGGAAAAGTAAAGCAAAAAGCACCTGGGGCGATTCAAAAGGAATATCGAGAACGTGGTGATCAAGATTATCGCTTAAACGCTACGCTGAATCTAAAGGAATTTACATCTCTTGTTATTACGATGGTTTTGCATCATAACAAAAAAATCATTGATAAATATCCTATTGAAAAAGAAATGGTAGCTGATGGGCTAGTGCCAACGCCAATTAATTTATGGAATTGGGGTATTCAAAACCGCAAAGGAAGGTTAAGAACAGTTGATCGAAATATTCTTCGTCTGAACGTGCTTCCACGTGGAAAAGCGACAATTTCAAGAGCTGGAATCAAGTTTAAAAATCTTCTTTATGGTTCTCGTCAAGCGATTGAAGAGCAATGGTATTTGAAGTTGAAAAATAGAAGTTTAGAAATCGTTTATGATCCACGACACATTGAAAAAGTCTATATTCCCCACGATGACGGAATAGATTTTGAGACGTGTATTTTATTAGAACCTAGTCAGCAATATAAAGGTGACTTCCTAGAGGAAATTGTCTTTCAACAACAACTTCGGAATGAACTAGAAGAAATGGAACGAACAAATCAAATTCAGCTTACAGTGAATACTGATGCTGCATTGGAAGAGATTATTAAAAAGGCTGCGAAGAACAAAAAACAATCTTTTAATCAACCAACAAGTAAGAAGGCTAAAATAGCAGCTATTCGTGAAAACAAGGATGTTGAAAAACAGTTAAATCGTGAAGCTGAAAAGTTTGATTTATCACCTAATAAGGTTAGTGAAGCAGCTGACGTAATCGACTTTGTTACAAAAGAGAAGATTGATGAAACACCACCTAAGAAATCAGGCTCACGTCTTATGGAAAAACTAAAGAAGAAGCGAGATGAGGAATTTGGGAAAGACAAATGA	MIYINQVFQYVTDSTRIRVIDIEEPHVYIVNIDTSSAMPRRELYSNLITDMNQGELLAINDPYAKVISESDLTEVQIRKREEDWETIQKYCVPNMQDLLYKRGRENKIREIVRDSNLGKTKVKKLLTRYWQRGMTKNAMLPDYSNSGGKGRTKVLTNAKVGRPRKININNEYQTGINITDEVKVQIEHVINKYYRIKNNYSLRDVYNFMLRDFYSDRYKENGELKYRIWEATRIPSYHQFYYWFKKLEDPKKDIQFRKSTKEYELKHRPILSDSKSETNGPGTRFQIDATIADIYLVSSLDVNKVIGRPVIYAVLDVYSRIITGLYVGLEGPSWIGAMMALDNMVADKVEFCMQYGINITPEQWPTHHLPEIIIADRGEFEGYSVENLINNLNIKIENTTAYRGDLKGIVERKFRTLNGKVKQKAPGAIQKEYRERGDQDYRLNATLNLKEFTSLVITMVLHHNKKIIDKYPIEKEMVADGLVPTPINLWNWGIQNRKGRLRTVDRNILRLNVLPRGKATISRAGIKFKNLLYGSRQAIEEQWYLKLKNRSLEIVYDPRHIEKVYIPHDDGIDFETCILLEPSQQYKGDFLEEIVFQQQLRNELEEMERTNQIQLTVNTDAALEEIIKKAAKNKKQSFNQPTSKKAKIAAIRENKDVEKQLNREAEKFDLSPNKVSEAADVIDFVTKEKIDETPPKKSGSRLMEKLKKKRDEEFGKDK				NA	NA	NA	NA	NA
D1-12_03405	840	tnsA		Transposon Tn7 transposition protein TnsA	GTGTCGAAAAGAAAAAGAACATCTAAAATTGATAAGTGGATTAAAGAGGGCCGAGGAACTGGCAGTGGAGCAGATTATCAGCCTTGGCTTAAAATTCAAGATGTTTCCTCATTAGGTCGGTCAACAAGATTAAAAGGTATAAAAACCGGCAGACAACATGAGTTTTTATCGGATTTGGAACGGAACTACTTTTATTTGACTGAATTTTCTGATGTTATTTTGGATATTCGTGAACAATTTCCTTTATTACCACAAGAAGAGACGATTATCATTGCTGAAGAGCTTGGGATTAAACATCCAGCTGATCCAAAAACAGGCGATCCCATTGTTATGACAACGGACTTTTTATTAACAGTTGATAAAGGACAAGGTGTATTTGAAGTCGCTCACACTATCAAAATGAAAGATAAGCTGTTAGAAGAACGTGTGTTAGAGAAGTTTGAAATTGAACGGGAATATTGGAAGCGTAGAAGCATTAATTGGGCAACTATAACAGAGGAAGAAATTCATAAAACAATGGCTAAAAATATTAGTTATATCCATGATTATTTTGATATTCGTAGCTATGATGTATATCAAGAAATGGATGACCAAAATATTGAGGATTTATCCATGTCTCTTATGAATCGCCTATTGAATAATTCACGAAGTATCCGTGAAATTACTAATGAGTTTGATACAGATACACACTTACCTTTTGGAAGTGGTGTTACACTATTTTATCACTTGCTTGCTAGAAAAATCGTAGTCATTGATATGCAAAAGCCGATTGATTTAGAGCAAACAATTGATATTAAGTGTATTGATGAAGGTAATTTAGAGAAGGTGAAATACGGATGA	MSKRKRTSKIDKWIKEGRGTGSGADYQPWLKIQDVSSLGRSTRLKGIKTGRQHEFLSDLERNYFYLTEFSDVILDIREQFPLLPQEETIIIAEELGIKHPADPKTGDPIVMTTDFLLTVDKGQGVFEVAHTIKMKDKLLEERVLEKFEIEREYWKRRSINWATITEEEIHKTMAKNISYIHDYFDIRSYDVYQEMDDQNIEDLSMSLMNRLLNNSRSIREITNEFDTDTHLPFGSGVTLFYHLLARKIVVIDMQKPIDLEQTIDIKCIDEGNLEKVKYG				NA	NA	NA	NA	NA
D1-12_03406	1803	glmS	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATTGTAGGTTATATCGGTCAGCTTGATGCGAAAGAGATTTTGTTAAAAGGATTAGAGAAGCTTGAGTACCGCGGCTATGACTCTGCCGGTATCGCTGTGGCGAATGAGCAGGGCGTGCATGTGTACAAAGAAAAAGGCCGCATCGCCGACCTTCGTGAAGTGGTGGATCACACGGTTGAATCTCAAGCGGGAATCGGCCATACACGCTGGGCGACTCACGGCGAACCAAGCTTCCTGAACGCTCACCCGCATCAAAGCGCACTCGGCCGCTTTACACTTGTTCACAACGGTGTGATCGAGAACTATGTTCAGCTGAAGCGCGAATATCTTGAAAACGTTGAACTGAAAAGCGACACGGACACTGAAGTAGTCGTTCAAATGATCGAGCAATTTGTGGCGGGAGGACTTAGTACAGAAGAAGCGTTCCGCAAAACACTGACTCTGTTAAAAGGCTCTTACGCAATTGCATTATTTGACGGTGAAAACACAGACACCATTTACGTTGCAAAAAACAAAAGCCCTCTGTTAATCGGCCTTGGAGATACGTTTAACGTCGTGGCATCTGACGCGATGGCTATGCTTCAAGTAACGAATGAATACGTTGAGCTTTTGGACAAAGAAATGGTGATCGTGACAAAAGACGAAGCCGTGATTAAAAACCTTGACGGTGAAGTCATGACACGTGCATCTTATATCGCTGAGCTTGACGCCAGTGATATCGAAAAAGGCACATACCCTCACTACATGTTAAAAGAAACGGATGAGCAGCCGCTTGTTATGCGCAAAATCATCCAAACGTATCAGGACGAAAACGGCAGACTGGCCGTGGCCGGCGATGTCGCTGACGCCGTGGCGGAAGCGGACCGCATTTATATCGTGGCTTGCGGAACGAGCTACCATGCCGGTCTTGTCGGGAAACAATATATTGAAATGTGGGCAAACGTACCGGTTGAAGTGCATGTAGCGAGTGAATTCTCTTACAACATGCCGCTTCTGTCTAAGAAGCCGCTCTTTATCTTCCTTTCTCAAAGCGGAGAAACAGCGGACAGCCGCGCCGTGCTTGTTCAAGTCAAAGCGCTGGGTCACAAAGCGCTGACGATTACAAACGTTCCGGGATCAACGCTTTCCCGTGAAGCGGATTACACATTGCTTCTGCACGCAGGCCCTGAGATCGCGGTTGCATCAACAAAAGCGTATACGGCTCAGATTGCCGTCCTCGCGATCCTTGCGTCCGTTGCAGCAGAACGCAACGGCGTTGATATCGGTTTTGATTTGGTCAAAGAATTAGGTATCGCGGCAAACGCCATGGAAGCCCTCTGCGACCAGAAGGACGAAATGGAAATGATTGCGCGTGAGTACCTGACTGTTTCAAGAAACGCTTTCTTCATCGGCCGCGGCCTTGACTACTTCGTGTGTGTCGAAGGCGCCCTGAAGCTGAAAGAGATTTCTTACATCCAGGCGGAAGGCTTCGCCGGCGGCGAGCTGAAGCACGGAACAATCGCTCTGATTGAAGAAGGAACACCGGTCTTTGCACTGGCGACACAAGAACACGTCAACCTGAGCATCCGCGGAAATGTGAAGGAAGTCGCAGCCCGCGGCGCCAACACTTGCATCATCTCGCTGAAAGGCTTAGAAGACGCAGACGACAGATTCATCCTGCCGGAAGTCAACCCTGCGCTTGCTCCGCTGGTATCTGTTGTGCCATTGCAGCTGATCGCTTACTACGCTGCACTGCACCGCGGCTGTGACGTTGATAAACCGCGCAACCTTGCGAAGAGTGTTACGGTGGAATAA	MCGIVGYIGQLDAKEILLKGLEKLEYRGYDSAGIAVANEQGVHVYKEKGRIADLREVVDHTVESQAGIGHTRWATHGEPSFLNAHPHQSALGRFTLVHNGVIENYVQLKREYLENVELKSDTDTEVVVQMIEQFVAGGLSTEEAFRKTLTLLKGSYAIALFDGENTDTIYVAKNKSPLLIGLGDTFNVVASDAMAMLQVTNEYVELLDKEMVIVTKDEAVIKNLDGEVMTRASYIAELDASDIEKGTYPHYMLKETDEQPLVMRKIIQTYQDENGRLAVAGDVADAVAEADRIYIVACGTSYHAGLVGKQYIEMWANVPVEVHVASEFSYNMPLLSKKPLFIFLSQSGETADSRAVLVQVKALGHKALTITNVPGSTLSREADYTLLLHAGPEIAVASTKAYTAQIAVLAILASVAAERNGVDIGFDLVKELGIAANAMEALCDQKDEMEMIAREYLTVSRNAFFIGRGLDYFVCVEGALKLKEISYIQAEGFAGGELKHGTIALIEEGTPVFALATQEHVNLSIRGNVKEVAARGANTCIISLKGLEDADDRFILPEVNPALAPLVSVVPLQLIAYYAALHRGCDVDKPRNLAKSVTVE	PGPT0017630_5777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-12_03408	1347	glmM	COG1109	Phosphoglucosamine mutase	ATGGGCAAGTATTTTGGAACAGATGGTGTAAGAGGTGTTGCCAACAGCGAGCTTACGCCAGAGCTGGCCTTTAAAGTTGGGCGTTTTGGCGGTTATGTCCTGACCAAAGATAAGCAGCGCCCGAAAGTGCTGATCGGCCGTGATACACGTATCTCCGGACATATGCTGGAGGGAGCCCTTGTCGCCGGACTTTTATCGATCGGAGCTGAAGTGATGCGCCTCGGCGTTATTTCTACGCCAGGGGTATCCTATTTAACGAAAGCCATGGATGCTGAGGCGGGCGTCATGATCTCCGCTTCTCACAACCCCGTACAGGATAACGGGATTAAATTTTTCGGAGGGGACGGCTTTAAGCTTTCTGATGAGCAGGAGGCCGAGATTGAACGTCTTATGGATGAACCGGAAGATAAGCTGCCGAGACCGACAGGCGCGGACCTCGGGCTTGTGAACGATTATTTTGAAGGCGTTCAAAAGTATCTGCAATTTTTAAAGCAGACGGCGGACGAAGATTTCACAGGCATTCATGTAGCGCTTGACTGCGCCCATGGTGCGACATCTTCCATTGCGACGCACCTTTTTGCCGATCTCGATGCTGACGTATCTACAATGGGGACGTCTCCGAACGGATTAAACATTAATGATGGCGTCGGTTCTACTCACCCGGAAGCGCTGAGTGCTTTCGTCAAAGAAAAAAACGCCGATATCGGCCTTGCGTTTGACGGAGACGGCGACCGCCTCATTGCCGTTGATGAAAAAGGAAACATCGTCGACGGTGATCAAATCATGTACATATGCGCGAAGTATTTGAAATCAGAAGGCCGTCTGAAGGATGATACCGTCGTATCGACCGTGATGAGCAACCTCGGTTTCTACAAAGCGCTTGAAAAAGAAGAAATCAAAAGCGTTCAAACGGCAGTCGGCGACCGCTATGTCGTAGAAGCGATGAAAAAAGACGGCTATAATGTCGGCGGCGAGCAGTCAGGGCACCTTATTTTCCTTGATTACAACACTACCGGCGACGGTCTCTTGTCCGCGATCATGCTTGTAAATACGCTGAAGGCGTCCGGCAAAACCCTTTCAGAACTTGCGGATGAAATGAAAAAATTCCCGCAGCTCTTAGTGAATGTGAAAGTGACGGATAAATATAAGGTAGAAGAAAACGCTAAGGTGAAGGCCGTTATTTCTGAAGTGGAAAAAGAAATGAACGGAGACGGCCGGATTTTAGTGCGCCCGTCAGGCACCGAACCGCTCGTCCGCGTGATGGCCGAAGCGAGAACAAAAGAGCTTTGTGACGAATATGTCACAAAAATCGTGGATGTCGTGCGGACAGAAATGGGAGCGGAGTAG	MGKYFGTDGVRGVANSELTPELAFKVGRFGGYVLTKDKQRPKVLIGRDTRISGHMLEGALVAGLLSIGAEVMRLGVISTPGVSYLTKAMDAEAGVMISASHNPVQDNGIKFFGGDGFKLSDEQEAEIERLMDEPEDKLPRPTGADLGLVNDYFEGVQKYLQFLKQTADEDFTGIHVALDCAHGATSSIATHLFADLDADVSTMGTSPNGLNINDGVGSTHPEALSAFVKEKNADIGLAFDGDGDRLIAVDEKGNIVDGDQIMYICAKYLKSEGRLKDDTVVSTVMSNLGFYKALEKEEIKSVQTAVGDRYVVEAMKKDGYNVGGEQSGHLIFLDYNTTGDGLLSAIMLVNTLKASGKTLSELADEMKKFPQLLVNVKVTDKYKVEENAKVKAVISEVEKEMNGDGRILVRPSGTEPLVRVMAEARTKELCDEYVTKIVDVVRTEMGAE	PGPT0018950_477	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
D1-12_03409	1440	cdaR_2	COG4856	CdaA regulatory protein CdaR	ATGGATAAATTCTTAAACAACCGCTGGGCTGTAAAGATCATTGCATTGCTCTTTGCGCTGCTGCTTTACGTTGCGGTTAACAACAACCAGGCGCCGACTCCGAAAAAGCCGGGGGAATCCTTTTTTCCGACATCAACGACTGACGAGGCTACGCTTACTGATATTCCTGTAAAAGCATACTATGATGAAGCGAACTATGTCGTCACCGGCGTGCCCCAGACCGTAAATGTCACGATTAAAGGCTCGACAAGCGCGGTGAAAAAGGCGAGACAGACGAAGAATTTTGAGATATACGCCGATATGAATAAGCTGAAGACCGGGACTCATAAGGTCGAATTGAAAGCGAAAAACGTATCGGACGGACTGACGATCTCCATTAACCCGTCAGTCACGACGGTTACGATTCAGGAAAAAACGGCTGAGAGTTTTCCCGTGGAAGTTGAATACTACAATAAAAGCAAAATGAAAAAGGGATACACCCCTCAGCAGCCGATTATCAGCCCGAAAAACGTGCAGATTACAGGTTCGAAAAATGTGATTGATAACATTTCACTTGTCAAAGCATCCGTGAACCTTGAAAATGCAAATGAGACCATTGAAAAGGAAGTGAAGGTGACCGTCTATGACAAAGACGGCAACGCACTTCCTGTTGATGTTGAACCGTCAGTCATTAAAGTGACGGTTCCCGTAGCCAGTCCGAGCAAAAAGCTTCCTTTCAAAATCGAAAGGAAGGGAAGTCTTCCGGACGGGGTGAGCGTTGCGAGTATTGACTCGAATCCGAGTGAGGTGACGGTTTACGGCCCGCAGGATGTGCTGGATTCACTGGAATTTATTGACGGCGTATCTCTTGATTTAGGCAAAATTGATAAAGATACCGATATCAATGCCGATATCCCGCTTCCTAAGGGTGTCACTAAGGTATCACCGGAAAAAATCACGCTTCATGTTAAAGTGGACAGTGAAGACAAAAAGGATTTTGACAATGTCGGAATCAAGACGGTCGGACTGGGAGGCTCACAGCAGATTGAGTTTCTCGATCCTGAATCGCAGGCGATAAATATTACGGCCAAAGGCTCTCCCGCCAACATTAAGGCGCTGAAAAAGTCGGACATTGAACTGTATGCCAATGTCTCGGACTTGGATGACGGAGAGCACTCTGTAAAGCTTGAAGTAAACGGCCCGCAAAACGTCACATGGTCCCTGTCAAAAGACACGGTTAAGATCAAGCTGACTTCTAAGAAAAACACAAGTTCAAATAAAAATAACGGCGGTTCCGCTGATTCCGGCAATAAGAACGGCACAAGCGGAGACGCAGACAAAGACAAGAACAAGAACCGGGAAGACGACACTGACAGCGATCAGAATAAAAGTCAAAACCAGGATCAAAATCAAGACCAGGATGAAGACGGATCAAGTGCTGATTCTTCTTCAACAGAATGA	MDKFLNNRWAVKIIALLFALLLYVAVNNNQAPTPKKPGESFFPTSTTDEATLTDIPVKAYYDEANYVVTGVPQTVNVTIKGSTSAVKKARQTKNFEIYADMNKLKTGTHKVELKAKNVSDGLTISINPSVTTVTIQEKTAESFPVEVEYYNKSKMKKGYTPQQPIISPKNVQITGSKNVIDNISLVKASVNLENANETIEKEVKVTVYDKDGNALPVDVEPSVIKVTVPVASPSKKLPFKIERKGSLPDGVSVASIDSNPSEVTVYGPQDVLDSLEFIDGVSLDLGKIDKDTDINADIPLPKGVTKVSPEKITLHVKVDSEDKKDFDNVGIKTVGLGGSQQIEFLDPESQAINITAKGSPANIKALKKSDIELYANVSDLDDGEHSVKLEVNGPQNVTWSLSKDTVKIKLTSKKNTSSNKNNGGSADSGNKNGTSGDADKDKNKNREDDTDSDQNKSQNQDQNQDQDEDGSSADSSSTE				NA	NA	NA	NA	NA
D1-12_03410	822	cdaA	COG1624	Cyclic di-AMP synthase CdaA	ATGGCTTTTGAGGACATCCCATTTTTGCAATACCTCGGCAATGCCGTTGATATTCTCCTTGTTTGGTATGTGATATATAAATTAATCATGGTCATACGCGGGACGAAGGCGGTTCAGCTTTTAAAAGGAATCGTCGTCATCGTATTGGTCCGGATGGCCAGTTCATATTTGGGACTCAGCACGCTTCAGTGGCTGATGGACCAAGCGATAACATGGGGATTTTTAGCGATCATCATTATATTCCAGCCTGAGCTGAGACGGGCGCTTGAACAGCTCGGACGGGGCCGGTTCTTTTCCAGGAGCGGAACCCCCGTGGAGGAAGCGCAGCATAAGACAATTGAAGCGATTACAAAATCGATCAGCTACATGGCAAAACGCCGCATCGGCGCACTCATCGCGATTGAGCGCGATACGGGAATGGGCGATTATATTGAGACGGGCATCCCGCTTAATGCGCAGGTCAGCTCGGAGCTTTTGATTAATATCTTCATCCCGAATACACCGCTGCATGATGGAGCGGTCATTATGAAAAATAACGAGATTGCGGCGGCTGCCTGTTATCTGCCGCTTTCTGAAAGCCCGTTTATTTCAAAGGAGCTGGGGACGCGTCACAGAGCGGCTGTCGGCATCAGTGAAGTGACGGACAGCTTAACCATTATTGTATCTGAAGAGACGGGCGCCATCAGTGTGGCCAAAAACGGAGACCTTCACAGAGAATTGACGGAAGAAGCACTGAAAGAAATGCTTGAAGCCGAGTTTAAGAAGAACGCCAGAGATACTTCTTCTAACCGCTGGTACTGGAGGGGCAAGAAAAATGGATAA	MAFEDIPFLQYLGNAVDILLVWYVIYKLIMVIRGTKAVQLLKGIVVIVLVRMASSYLGLSTLQWLMDQAITWGFLAIIIIFQPELRRALEQLGRGRFFSRSGTPVEEAQHKTIEAITKSISYMAKRRIGALIAIERDTGMGDYIETGIPLNAQVSSELLINIFIPNTPLHDGAVIMKNNEIAAAACYLPLSESPFISKELGTRHRAAVGISEVTDSLTIIVSEETGAISVAKNGDLHRELTEEALKEMLEAEFKKNARDTSSNRWYWRGKKNG				NA	NA	NA	NA	NA
D1-12_03411	627	rsiW	COG5662	Anti-sigma-W factor RsiW	ATGAGCTGTCCTGAACAGATCGTGCAGCTTATGCATAAGCATCTTGATGGAGATATCCTTCCTGAAGATGAAAACGTATTAAAACAACATTTGCAGTCGTGCGGGAATTGCAAACGGCATTTTCATGAAATGGAGAAATCCGTAGCACTCGTCCGAAGCACATCGCATGTCACGGCCCCTGCTGATTTTACTGCCAAAGTTATGGCGAATCTTCCAAAAGAGAAAAAACGCGCTTCTGTAAAACGATGGATCAAAACTCATCCGATGATTGCAGCCGCAGCGGTTTTTGTGATTTTAATGGGCGGCGGTTTTTTCAACAGCTGGCATAATGACCACAATTTCAGTGTGTCCAAACAGCCGAACCTTGTCGTGCAGAATCACACGGTCACCGTCCCTGAAGGCGAGACCGTAAAGGGCGATGTCACAGTAAAAAACGGCAAGCTGTTCATTGAAGGAAAAGTCGACGGCAATGTGACCGTCGTCAACGGAGAAAAATACATGGCCTCAGCCGGACAAGTCACCGGGCAGATTGAAGAGATTAACCAATTGTTTGACTGGGTCTGGTACGAACTGAAATCGGCGGGCCAGGGCGTCGTGAGCGCTTTGGACCCGAATGAAGATGAGTAA	MSCPEQIVQLMHKHLDGDILPEDENVLKQHLQSCGNCKRHFHEMEKSVALVRSTSHVTAPADFTAKVMANLPKEKKRASVKRWIKTHPMIAAAAVFVILMGGGFFNSWHNDHNFSVSKQPNLVVQNHTVTVPEGETVKGDVTVKNGKLFIEGKVDGNVTVVNGEKYMASAGQVTGQIEEINQLFDWVWYELKSAGQGVVSALDPNEDE				NA	NA	NA	NA	NA
D1-12_03412	564	sigW	COG1595	ECF RNA polymerase sigma factor SigW	ATGGAAAACCTGATTAAAAAAAGAATCAAGCAAGTCAAAAAAGGCGATCAAAATGCGTTTGCAGAAATCGTTGACCTTTATAAAGATAAGATTTACCAGCTTTGCTACCGCATGCTCGGCAATGTTCACGAAGCGGAAGATATTGCGCAGGAAGCTTTTATCAGAGCGTATGTCAATATCGACAGTTTCGATATCAACAGAAAGTTTTCAACGTGGCTTTACAGAATTGCGACCAACCTGACCATTGACCGCATCCGCAAGAAAAAGCCTGATTACTATCTGGACGCAGAAGTAGCGGGAGCAGAAGGGCTGACGATGTATTCGCAGATCGCCGCGGACGGGGTTCTCCCTGAAGACGCCGTATTGTCATTGGAGCTGTCGGACACAATTCAGAAAAAGATTTTAAAGCTGCCTGACAAGTACAGAACGGTTATTGTATTAAAGTATATTGACGAACTCTCTTTAATTGAAATCGGGGAGATTCTGAATATCCCTGTCGGCACCGTCAAGACAAGGATACACAGAGGCAGAGAGGCTCTTAGAAAACAATTGAGGGATCTTTAA	MENLIKKRIKQVKKGDQNAFAEIVDLYKDKIYQLCYRMLGNVHEAEDIAQEAFIRAYVNIDSFDINRKFSTWLYRIATNLTIDRIRKKKPDYYLDAEVAGAEGLTMYSQIAADGVLPEDAVLSLELSDTIQKKILKLPDKYRTVIVLKYIDELSLIEIGEILNIPVGTVKTRIHRGREALRKQLRDL	PGPT0014960_8112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-12_03418	453			hypothetical protein	ATGATCTTAGTCAGCTCTTGTCTCGGCGGTATCGAATGCAGGTATAACGGCTCTCACGCCGCTTCGGAAAAAATCCGCAGACTCGTAGAAGAAAAGAAAGCTGTTATGGTCTGCCCCGAACTTTTGGGCGGCTTCACCACTCCCCGCGAACCGGCGGAAATCATCGGCGGCACGGGCGAAGACGTGCTGAACGGAACAGCAAAAATCGTAACGGCATCAGGCGAAGACGTTACGGCTTTATATATGGACGGCGCGGAAAAAACGTTAGCATACGCAAAAGAAATAGGCGCCGCAACGGTCATCCTTAAAGAAAACAGCCCGTCCTGCGGCAGCAGCTTTATCTATGACGGCACTTTCTCAGGAAAAAAAATACTCGGAGACGGCATCACTTCCGCTCTTTTAAAACGGGCAGGCTGCCGTGTTCTATCAGAAGATGAATTGGATCAATTATAA	MILVSSCLGGIECRYNGSHAASEKIRRLVEEKKAVMVCPELLGGFTTPREPAEIIGGTGEDVLNGTAKIVTASGEDVTALYMDGAEKTLAYAKEIGAATVILKENSPSCGSSFIYDGTFSGKKILGDGITSALLKRAGCRVLSEDELDQL	PGPT0020050_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
D1-12_03419	477			hypothetical protein	ATGGATGTAGCCCTGTCCTTTTATAAACCGGAGCATGCAGACGGGCTTAACGGGTTTGTGCTGAGTGAAGAAGATAAAAAGTTCACAGCTCTGCCGATAGATGTACTGCCGCAGGCTCTTGTCATCCGGGATCGCTACCCGACAGTCATTTTAAAAGAAGACCGCCCCGTCGGTTTTTTTATTTTACATACCTCAAAAGAAACCATTGCCCCGTATTCGAATAATGTGTCTGCCATTTTGCTGAGTGCGCTGTCCTTACATGCACCGCATCAGGGAAAAGGTTATGCCAAACAAGCGATGCTGCAGCTCCCCGCTTTTGTCGCAAATTACTTTCCTTGGTGTGATGAAATCGTGCTTGCAGTAAACCATCGCAATCATCGTGCAAAGAACCTGTACCGGTCTTCCGGTTTTATTGATAAAGGGCGGCGCAGGATCGGCCCGATCGGTGAACAGCACATTCTGCATCATTTTTTGTGA	MDVALSFYKPEHADGLNGFVLSEEDKKFTALPIDVLPQALVIRDRYPTVILKEDRPVGFFILHTSKETIAPYSNNVSAILLSALSLHAPHQGKGYAKQAMLQLPAFVANYFPWCDEIVLAVNHRNHRAKNLYRSSGFIDKGRRRIGPIGEQHILHHFL				NA	NA	NA	NA	NA
D1-12_03420	930	murQ	COG2103	N-acetylmuramic acid 6-phosphate etherase	ATGACAGACCGGCTTAACATTCACAGATTGACCACAGAAACCAGAAATCCGCAGACCGCTTCAATTCATCAAGCAGACACGATGGAAATTCTCCGCATCATTAACGAAGAGGATTTCAAAGTGGCTGAAGCCGTTCAGCAGGTGCTGCCCGATATTCAGATTGCCGTTCAATTCGCCCATCAGTCCTTACGGCGAAACGGCAGGCTGATTTATGCGGGAGCGGGCACAAGCGGCAGACTCGGTGTACTGGATGCGGTTGAATGCCCGCCTACATACAGCGTAAGTCCCGACACCGTCATCGGTCTGATGGCCGGAGGGGCAGACGCCTTTTTGCAAGCGGCTGAAGGTATAGAAGACAGCGAGGAAACCGGCGCTCTCGATCTCAAAACGATCGGGCTTACCGCAGAAGACACCGTGATCGCCATCGCGGCAAGCGGGCGCACGCCGTATGCGGCCGGTGCGCTGAAATACGCAAAAACAATCGGCGCCAAAACTGTCGCGCTCACATGCAATAAACACTCATTGATCAGCACTTATGCCGATCACAGCATCGAAGTCGTCGTCGGCCCCGAAGTGATTACAGGGTCAACACGAATGAAAGCGGCGACGGCACATAAAATGATTCTGAACATGATTTCCACGGCCGTGATGATCAAAAGCGGCAAAGTGTACGAAAATTTAATGGTGGACGTTCATGTCAGCAACGAAAAATTGAAAGAACGCGCAATCGGCATTATCCAAAGCATCACGGGCGTTCCGTACGACAAGGCAAAAGAAACGCTTGAGGCCGCAGGCAGCCATGTCAAAACGGCAATCGTCATGCTGAAGACGAATTCGGACGAAACACACGCGAAGGCACTGCTCAAAGAATCAGACGGCTTCATTGACAAAGCCATTGAACAGCACGTTTCAAAAGAAAAAGAACGCTGA	MTDRLNIHRLTTETRNPQTASIHQADTMEILRIINEEDFKVAEAVQQVLPDIQIAVQFAHQSLRRNGRLIYAGAGTSGRLGVLDAVECPPTYSVSPDTVIGLMAGGADAFLQAAEGIEDSEETGALDLKTIGLTAEDTVIAIAASGRTPYAAGALKYAKTIGAKTVALTCNKHSLISTYADHSIEVVVGPEVITGSTRMKAATAHKMILNMISTAVMIKSGKVYENLMVDVHVSNEKLKERAIGIIQSITGVPYDKAKETLEAAGSHVKTAIVMLKTNSDETHAKALLKESDGFIDKAIEQHVSKEKER	PGPT0019040_415	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019040-murQ-K07106	NA	NA
D1-12_03421	1368			PTS system EIIBC component	ATGAGCAAAGAGGCATTTTATCAGTCACTGGCCAAAGATATCCTGGACAATTGCGGCGGTTCATCGAATATTTCAGGCTTTACCCACTGTATGACACGCCTGAGGATTACACCTTTAGATCAGGACAAAACGGATATTGAAGCGCTGAAACGGCTTGACGGGGTAATAGGCGTCGTCGAAGCCGAAACACTGCAGATCATTCTCGGCACGGGTGTCGTCAATCATGTCGCCGACGCTTTCGCAAATCTTATGTCATCCGGAAAAAACATTGATTTAAAAGAAGCCGCCTCACGGAAAAAAGCCGATCTCAACAGAAAAAACACCACACCCATCACACTGTTTCTGAGAAAAATATCAAGCATCTTCATTCCCCTTATTCCCGCACTCATTGCATCAGGTTTAATCACCGGTATTACGAAAGCCGTCATTCAGGCCGGCTGGCTCCCGAAAGAATCCCAAATCGCACTTATTTTAACGGTTATCGGTTCAGGCTTATTCGCTTACCTCGGCGTCCTTGTCGGCATCAACACGGCGAAGGAATTCGGCGGGACTCCCGCGATGGGCGGCCTTGCGGGCATATTGATCCTTAACCCTGAGATTGCCAATATCAGTTTGTTCGGAGAGAATCTGCTCCCTGGCAGGGGAGGGTTAATCGGCGTTCTTTTCGCTGCGGTTTTTATCGCTTATACCGAACGGTTTATCAGAAAGTACGTCCATCAATCCATCGACATTATCGTCACGCCTACATTGTCTTTACTTATCACCGGGCTGGTGACATATGTCGTTTTTATCCCTGCAGGCGGTTTTATTTCTGATCTGATTACATCAGGTTTATTGTCGCTGCTGAATGTCGGGGGAGTGCTCTCAGGGTTTGTACTGGGAGCCGCCTTCCTGCCGCTTGTCGTCACCGGCCTGCATCAAGGCTTGACTCCCGTACATTTGGAATTAATCCGATCAATCGGAGATGACCCGCTTCTTCCGATTCTCGCGATGGGAGGCGCGGGTCAAGTAGGGGCAGCCTTCGCCATCTTTATGAAAACAAAAAAAGCCTCATTGAAAAGAGCGATCGGCGGCGGACTTCCATCCGGTCTGCTCGGAATCGGAGAGCCGCTCATCTTCGGCGTCACGCTCCCGCTCGGCCGGCCGTTTTTGACGGCGTGTTTAGGGGCGGGAATCGGCGGCGCCTTTCAAGCCCATTTTCAGGTGGCTACTTTTTCAATCGGTGTCTCCGGCCTTCCGCTCTCGTTTCTCGTACAGCCGGCTCAAATCGTTTTGTATATCATCGGTCTCTTCATCTCTTACGCGGCGGGCTTTGTCTTCACTTATGCGTTCGGATTTAAGGATGACATGGCTGCTGAATTTGAATAA	MSKEAFYQSLAKDILDNCGGSSNISGFTHCMTRLRITPLDQDKTDIEALKRLDGVIGVVEAETLQIILGTGVVNHVADAFANLMSSGKNIDLKEAASRKKADLNRKNTTPITLFLRKISSIFIPLIPALIASGLITGITKAVIQAGWLPKESQIALILTVIGSGLFAYLGVLVGINTAKEFGGTPAMGGLAGILILNPEIANISLFGENLLPGRGGLIGVLFAAVFIAYTERFIRKYVHQSIDIIVTPTLSLLITGLVTYVVFIPAGGFISDLITSGLLSLLNVGGVLSGFVLGAAFLPLVVTGLHQGLTPVHLELIRSIGDDPLLPILAMGGAGQVGAAFAIFMKTKKASLKRAIGGGLPSGLLGIGEPLIFGVTLPLGRPFLTACLGAGIGGAFQAHFQVATFSIGVSGLPLSFLVQPAQIVLYIIGLFISYAAGFVFTYAFGFKDDMAAEFE	PGPT0014190_1301	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SUCROSE_PTS_SYSTEM,PGPT0014190-scrA|sacP|sacX|ptsS-K02810	NA	NA
D1-12_03422	1284	amiE		N-acetylmuramyl-L-alanine amidase	ATGAAAACACTGACAGCCGCCATACTCACAATGGTCATCAGCCTCTCTTTTCTGCCGCAGCACAAAGCCGAAGCCCAATCCAAATTATACGACGCAGCAAAGCTCAGAAAGGTTGATCAAATGATTGAAAAAGACATCGCAGCTGGATTCCCCGGAGCCGTCCTCGTCGTCGTAAAGGACGGACGGGTGATCAAAAAGAAAGCATACGGCTACAGCAAAAAATATGACGGGAACACCCTTTTATCCCGTCCGAAAAAAATGAAAACATCAACCATGTTTGATCTAGCTTCCAATACAAAAATGTACGCGGCCAATTTTGCATTACAGCGACTCGTCAGCCAGGGAAAGCTTGATGTGTATCAAAAAGTCTCGGCTTACCTTCCTGATTTCAAAGACAGAAAAAGCGATCCGATTCAAGAAAAAGACCGCATTCGCGTCATCGATGTGCTCCAGCACCAATCCGGTCTGCCGGCAAGCTTTTATTTCTATCAGCCGGACACCGCAGGCCCTTTGTATTCACAAGAACGGGATAAAACGATCCGTTTTCTCACCCAAATCCCGCTTGAATATAAACCGGGAACAAAACACGTATACAGCGATATCGGTTACATGCTTCTCGGCTGCATCATTGAAAACATAACCGGAAAAACCCTTGATGCCTATGCGGAACAAGAACTGTACAAACCGCTGAAACTGACGCACACACTGTTCAACCCGCTGCAAAAAGGCTTTAAAGAAAAAGCATTCGCAGCTACTGAACGTTTAGGCAACACACGTGACGGAGTCATCCATTTCCCTCACATCAGGACATATACGCTGCAGGGGGAAGTTCACGATGAAAAAGCATTTTACTCCATGGGAGGGGTGTCCGGTCACGCCGGGCTGTTTTCCAGAGCTGATGATATGGCCGTCCTTCTTCAAGTCATGCTGAACGGCGGCAGTTATAAACACGTTTCTCTCTTCAATAAAAGAACGGCCGATTTGTTCACAACGGCGGCATCCTCTGATCCGACTTTTGCTCTCGGCTGGCGGAAAAACGGCAGCCCGGATATGGAGTGGATGTTCGGCCCTTATGCAAGCAGGCAGGCATACGGCCATACGGGATGGACCGGCACCGTCACGATTATTGATCCCGCTTATAAGCTGGGGATCGCACTTTTGACCAATAAAAAGCATTCCCCCGTCGTCAGCCCCGGTGAAAACCCGAATGTTTTTGAAGGGGATCATTTCCCGACCGGAAGCTACGGCAGCGTCATAAAAACGATTTATGAAGCCATTGAATGA	MKTLTAAILTMVISLSFLPQHKAEAQSKLYDAAKLRKVDQMIEKDIAAGFPGAVLVVVKDGRVIKKKAYGYSKKYDGNTLLSRPKKMKTSTMFDLASNTKMYAANFALQRLVSQGKLDVYQKVSAYLPDFKDRKSDPIQEKDRIRVIDVLQHQSGLPASFYFYQPDTAGPLYSQERDKTIRFLTQIPLEYKPGTKHVYSDIGYMLLGCIIENITGKTLDAYAEQELYKPLKLTHTLFNPLQKGFKEKAFAATERLGNTRDGVIHFPHIRTYTLQGEVHDEKAFYSMGGVSGHAGLFSRADDMAVLLQVMLNGGSYKHVSLFNKRTADLFTTAASSDPTFALGWRKNGSPDMEWMFGPYASRQAYGHTGWTGTVTIIDPAYKLGIALLTNKKHSPVVSPGENPNVFEGDHFPTGSYGSVIKTIYEAIE	PGPT0024045_262	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024045-pbp4b-K21469	NA	NA
D1-12_03423	1914	nagZ	COG1472	Beta-hexosaminidase	ATGAAACTTGTCATTTCAGCTGTATTACTGTTGTTCATTGTTTTCGGCACGCATCATGCATCGACAAAACCGGACATTCCGTCACAGGCGGAACAAGCGGTATCCCGTATGACATTAGATGAAAAATTAGGGCAGATGCTCATGCCTGATTTTCGCAATTGGCAAAAAAAGGGGCATTCATCACCTGAGGCTCTTACCCAAATGAATGACGAAGTCGCAGGGCTTATTCAAAAGTACCGGTTCGGCGGCGTTATCTTATTTGCAGAAAATGTAAAAAAAACTGAGCAAACGGTACGCCTGACAGATGCCTTTCAAAAGGCGAGCCCTGACATTCCGCTATTATTAAGCATTGATCAGGAGGGCGGCATCGTAACTAGACTTGGTGAGGGCACTCATTTCCCAGGCAATATGGCGCTCGGAGCCGCTAGAAAAACAGCCTACGCGTCCCAAACCGGCGCCATTATCGGCAAAGAACTGAAAGCACTGGGCATTAATACGAATTTCGCGCCCGTTCTCGATATCAATAATAATCCCGGAAACCCTGTCATCGGCGTCAGGTCGTTCAGTTCAGACCGAGATCTGACAGCTTCACTCGGTCTTGCCTCAATGAAGGCTCAGCAAAAGCAGGATGTCGCTGCCGCCGTCAAACATTTCCCGGGACACGGCGACACGGATGTCGACAGCCACTACGGCCTTCCGCTTGTCACCCACAATCAAGAAAGGCTGCGTCAAATTGAACTTTATCCGTTCCGGAAGGCCATTCAGGCCGGAGCTGATATGATCATGACAGCCCATGTGCAATTTCCCGCTTTTGACGATACAACCTATAAAAGCAAGCTGGACGGTTCAGACATCCTCGTACCCGCCACACTCTCGAAAAAAGTGATGACTCATCTTCTCCGTGAGGAAATGGGATTTAACGGCGTCATCGTTACGGATGCATTAAATATGAAAGCCATTGCCGATCATTTCGGCCAGGAAGAGGCGGTCGTCATGGCAGTAAAAGCAGGAGTCGATATTGCCCTGATGCCGGCCCAAGTGACATCGCTGCAAACGGAAAACCGCTTTGCCCGGGTTCATTCCGCTTTAAAAAAGGCGGTACAAAAAGGGGAAATTCCTCTTCAGCAAATTAACAAATCAGCGGAACGCATCATTTCCCTGAAAATAAAAAGAGGGATATATCCCGCACCGAAAGAGACAAATCTGAAAAAGAAGATTGCAAAAGCAAAGAAAACCGTCGGCAGCAAAAATCACCTGAAAGCTGAAAAACAAATCGCGGCAAGGTCCGTCACCGTCTTACAAAACAAAAACCGCACGCTCCCATTCAAACCGAAAAAGAACAGCCGCGTTCTCATTGCCGCTCCTTATGAAGATCAAACAGCATCAATGGAACAAACCATTCGGCAGCTCATCAAGAAGAAAAAAATCCGGCCGGTAACCATCAGTAAAATGAACTTCGCCGAGCGCACTTTTCATGATGAGCACAAAAAGCTGGTATCCGACGCGGATTACGTGATTACAGGCTCCTATGTCGTGAAAAATGACCCTGTCGTAAACGACGGCGTGATTGATGATTCCGTCACAGATCCCGGCAAGTGGACGACTGCATTTCCGCGGGCCGTCATGAAAGCCGCACAATCGAACCAAAAACCCTTTGTGCTGATGAGCCTGCGTAATCCATATGACGCTGCGAACTTTGAAGAAGCTGAAGCCCTTATCGCAGTCTACGGCTTTAAAGGATATACAGACGGACAATTTCTCCAGCCAAACATTCCGGCAGGCGTTGAAGCGATATTCGGACAGACAAAACCGCAAGGCAGGCTGCCCGCTGACATTCCTTCCGTCACTCATCCGGGAACGACACTCTATCCTTATGGTTTCGGTATCAATCTGAAGACCGGAAAACCGCTTTAA	MKLVISAVLLLFIVFGTHHASTKPDIPSQAEQAVSRMTLDEKLGQMLMPDFRNWQKKGHSSPEALTQMNDEVAGLIQKYRFGGVILFAENVKKTEQTVRLTDAFQKASPDIPLLLSIDQEGGIVTRLGEGTHFPGNMALGAARKTAYASQTGAIIGKELKALGINTNFAPVLDINNNPGNPVIGVRSFSSDRDLTASLGLASMKAQQKQDVAAAVKHFPGHGDTDVDSHYGLPLVTHNQERLRQIELYPFRKAIQAGADMIMTAHVQFPAFDDTTYKSKLDGSDILVPATLSKKVMTHLLREEMGFNGVIVTDALNMKAIADHFGQEEAVVMAVKAGVDIALMPAQVTSLQTENRFARVHSALKKAVQKGEIPLQQINKSAERIISLKIKRGIYPAPKETNLKKKIAKAKKTVGSKNHLKAEKQIAARSVTVLQNKNRTLPFKPKKNSRVLIAAPYEDQTASMEQTIRQLIKKKKIRPVTISKMNFAERTFHDEHKKLVSDADYVITGSYVVKNDPVVNDGVIDDSVTDPGKWTTAFPRAVMKAAQSNQKPFVLMSLRNPYDAANFEEAEALIAVYGFKGYTDGQFLQPNIPAGVEAIFGQTKPQGRLPADIPSVTHPGTTLYPYGFGINLKTGKPL	PGPT0012175_522	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
D1-12_03424	1245			hypothetical protein	ATGAAAAAACAAACGGCTGCGCTTCTTGCCGGATTAGTCGTCATCAGTGCCATGACGGCAGTCTCGGCGGCTTCTGACAGAAACCTTCATACCGCCAAGAAACCAAGCATCCAAACAGGCATCGACCGCCTGCTGAAAGATTATAAACAGGAACTGAAGGGAAAAAGGGTCGGGCTGATCACCAACCCGACCGGTGTGAACAATTCATTGAAAAGCAGCGTTGACGTGCTGTATGAGGCACCAGACATCCAATTGACGGCATTATTCGGACCGGAGCACGGTGTCCGCGGCGATGCTCAGGCCGGAGACAAAGTCACATCCTATATAGACGAAAAAACAGGGCTTCCCGTCTACAGCCTGTACGGGGAAACGAGGAAACCGACGCCTGACATGCTGAAAGATACAGATGTGCTGATTTTCGATATTCAGGATGTCGGAACGCGATACTACACCTACATTTATACAATGGCCTATGCCATGGAAGCGGCCAAAGAAAAAGGCATTCCTTTTTATGTCTTGGACCGGCCGAATCCGCAAGGCGGACGAAATCCGGACGGCCCGGTTCTTGAACCGGATTACGCTTCATTTGTCGGACTGTATCCGATCCCGCTGAAGCACGGCATGACGATCGGTGAGCTTGCTCTTTTATTCAATAAAGAGTTTCATATTGGCGCCGACCTCACCGTCGTAAAAATGAAGCGCTGGAAGCGGACGATGACGATTGAAGATACCGGCCTGCCGTTCGTCCTCCCTTCGCCTAATATCCCGACCCCGGACAGCATATTCGCATATTCGGCGACAGGACTAATCGAAGGCACAAACGTATCCGAAGGAAGGGGCACGACAAAGCCGTTTGAACTGATCGGCGCGCCTTATATGAAAAGCACCGAGCTCGAAGAACGCCTGAACAGTCTCAAGCTTCCGGGCGTCACCTTCAGAGCCGCATCATTTATCCCCAGCTTCTCCAAGCACCAGGGCAAGCTGTGCCACGGCGTACAAGTCTACGTAACAAACAGAAACACATTTGAAGCGGCAAAAACAGGGCTTTCCATTCTGAAAACCATGCATGACTTATATCCGAATGACTTTTCGTTCTTGCCGACAGGCTCTTTTGACAAGCTGATCGGTAACGGCTGGGTACGCAAAAAAATAGAAAAAGGCGCTTCCATTGAAGACATCACCGGCACATATCAACGCCGGCTGGACCAATTCAAAACTCTAAGAAAACAATACCTCATATACTGA	MKKQTAALLAGLVVISAMTAVSAASDRNLHTAKKPSIQTGIDRLLKDYKQELKGKRVGLITNPTGVNNSLKSSVDVLYEAPDIQLTALFGPEHGVRGDAQAGDKVTSYIDEKTGLPVYSLYGETRKPTPDMLKDTDVLIFDIQDVGTRYYTYIYTMAYAMEAAKEKGIPFYVLDRPNPQGGRNPDGPVLEPDYASFVGLYPIPLKHGMTIGELALLFNKEFHIGADLTVVKMKRWKRTMTIEDTGLPFVLPSPNIPTPDSIFAYSATGLIEGTNVSEGRGTTKPFELIGAPYMKSTELEERLNSLKLPGVTFRAASFIPSFSKHQGKLCHGVQVYVTNRNTFEAAKTGLSILKTMHDLYPNDFSFLPTGSFDKLIGNGWVRKKIEKGASIEDITGTYQRRLDQFKTLRKQYLIY	PGPT0012175_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
D1-12_03425	1596	btr	COG0614	HTH-type transcriptional activator Btr	ATGAAAAACACATTATTCTTTCAGCCCATTGATATCATCTCCGTAAAAAAAACAGCCGACCTTCTGTCAGAGCATCAGCTCACTGATTCCCCCGTATTGATCTTTCATGTGAAAGGCGAGGGACAAATTGATATCGGAACAGACAGCTTTCCGCTGCAGAAGGAAACGCTCTACATCTGTCCTTGTGATGAGACATTCAATATTGCCCCTATATCGTCAGGCGGCATCCATTTGTATATCGTCAGACTCCGTGTTTTCTCCTATTCATCAGATGATGAAGCGATGCTTCCGGATAACGGGGAAGACATCTTCCACGGACTTCAGCAAATGAATATACAAACGGTTGATCATTTGACAAGCCGGCTTCAGTCACTTTCTGAAAACGTGCGATCGGCGGATGCATTGCAGAAAATGAAATATACAGCCGACTTTCAGCAGCTGATGTACGACCTTTATGCCGCAAAAGTATGCCATCAAAATAATACGAAAGCGGCGATCGAACAGACAAAACAATTCATACATGCTCAGTCCGACACAAAAATCACGCTCACCCAGCTCGCTCATATGGCGGGAATCAGTCCCAAGCACTACAGTGAAACCTTTAAAAAACTATACGGGCAGAGCGTAACTGAATATATCACAGACATCCGCATAACCAATGCGAAAAAACTGATGGCCAAGGCAAACTGCAAACTGCGGGAAATCGCTCATCAAATCGGCTACCAGGACGAATTTTATTTCAGCCGCATCTTTAAAAAACATACCGGCAGCTCACCTACAAGCTATATGAAAAAAAGGCGCATAAAAATGGCCGCGTACGGAAAAGAAACGATGGGGCATCTGATTCCTCTGCATCACGTGCCTTACGCTGCGGCGCTGCACCCGAAATGGACGGCCTATTATTACAAACAATTCTCTTCCGATATTCCGGTTCACCTGAGTGCTTACCGTTATAATGCAAATTGGGAAGAGAACCTGCACACGCTGTCCCAAGCTGCTCCGGACATCATTTTCAGTCTTGATTCTGTCAGTGAAGAAGAAAAACAGCGCCTGAATGACATCACTGACGTTTTTTACCTTCCGGCTCAAGAGAATTGGAGAGACCAGTTTCTTCGCACAGCCGCATATTTGAATGAAGAGCAGGAAGCGCGGCACTGGCTTAAAGCTTATCAAAGTCTCGCCCATTCAGCGAAAGATGCTCTTAAACACGTGCGGCATCAGCGGTTCTTATTTGTCCGTGTATATAAAGAAAATATGTACATCGCCCATAACAACAGTATTGAGGATGTCTTCTTCGGTGATTTAGGCTTTGCCTCCGCAAAACCGGAATCTTTTGCTCCTGACGAAAAGATTTCCTTGGAAATGCTGGCGGATTGCCAAGCTGACTGCATCATGCTTTTCACTTGTAAAGAACCGGAAACGCTTCGTTATTTTCAGCGGATTCAGCAGACCGGGATATGGCAGAACCTTAGAGCCGTCAGCAATAAACGCGTGTTTCCCATTTCATCTGACCCGTGGATTGAATATTCTCCAAGCGGACATCAGCGGATGATCGAGCAAAGCATTTCCATTTTATCCGAAGATCGTCCATGGTAA	MKNTLFFQPIDIISVKKTADLLSEHQLTDSPVLIFHVKGEGQIDIGTDSFPLQKETLYICPCDETFNIAPISSGGIHLYIVRLRVFSYSSDDEAMLPDNGEDIFHGLQQMNIQTVDHLTSRLQSLSENVRSADALQKMKYTADFQQLMYDLYAAKVCHQNNTKAAIEQTKQFIHAQSDTKITLTQLAHMAGISPKHYSETFKKLYGQSVTEYITDIRITNAKKLMAKANCKLREIAHQIGYQDEFYFSRIFKKHTGSSPTSYMKKRRIKMAAYGKETMGHLIPLHHVPYAAALHPKWTAYYYKQFSSDIPVHLSAYRYNANWEENLHTLSQAAPDIIFSLDSVSEEEKQRLNDITDVFYLPAQENWRDQFLRTAAYLNEEQEARHWLKAYQSLAHSAKDALKHVRHQRFLFVRVYKENMYIAHNNSIEDVFFGDLGFASAKPESFAPDEKISLEMLADCQADCIMLFTCKEPETLRYFQRIQQTGIWQNLRAVSNKRVFPISSDPWIEYSPSGHQRMIEQSISILSEDRPW	PGPT0003170_192	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003170-btr|ybbB-K21701	NA	NA
D1-12_03426	957	feuA	COG0614	Iron-uptake system-binding protein	ATGAAGAAATTGGCATTCGCTTTCATGATTTTGCTTTTGGCTTTCACGGCCGCGGCTTGCGGAAGCTCAGAAACATCCGATACAGCAAGTAAAGGAAAGGACGCTTCTTCAGATAAAAAGAAAATCGAATATCTAGGAAAAACATATGAAGTCAAAGCGCCGACTGACAAAATCGCCATTACAGGCAGCGTAGAATCAATGGAAGACGCCAAATTGCTTGACGTTCATCCGGCAGGAGCAATTTCTTTCTCCGGCAAATTCCCGGAACTGTTTAAAGATATTACAGATAAATCCGTATCAACGGGAGAAAAAATGCAGCCGAACATGGAAAAAATTCTTGAGCTGCAGCCGGACGTCATTCTGGCATCAACCAAATTCCCGGAAAAAACGTTGAAAAAATTGAGCGGCACCGCTGAAACGATCCCTGTCTCTCATATCTCATCAAACTGGAAAGAAAACATGATGCTGCTCGCCCAGCTTACAGATAAAGAGAAAAAAGCGAAAAAAATCATCGCAGATTACGAACAGGACCTGAAAAAGACAAAAACAAAGATCAACAGCAAAGCGAAACAGTCAAACGCGCTGGTCATCAGAATCAGACAAGGCAATATTTATATTTATCCTGAACAAGTATATTTCAACTCCACGCTTTACGGTGATTTAGGCCTGAAGGCGCCGGACGAAGTCAAAGCGGCGAAAGCGCAGGAACTGATTTCTCTTGAAAAATTAAGCGAAATGAACCCTGACCATATCTTCGTACAATTCTCTGATGACGAAAACGCAGATAAGCCGGACGCTTTGAAAGACTTAGAGAAAAATCCGATCTGGAAGAGCCTGAAGGCAGTCAAAAAAGACCATGTATACGTCAATACGATTGATCCATTAGCCCAAGGCGGAACCGCATGGAGTAAAATCAGCTTCTTACAGGTTGCGGCTGACAAATTGACTCAAGACTAA	MKKLAFAFMILLLAFTAAACGSSETSDTASKGKDASSDKKKIEYLGKTYEVKAPTDKIAITGSVESMEDAKLLDVHPAGAISFSGKFPELFKDITDKSVSTGEKMQPNMEKILELQPDVILASTKFPEKTLKKLSGTAETIPVSHISSNWKENMMLLAQLTDKEKKAKKIIADYEQDLKKTKTKINSKAKQSNALVIRIRQGNIYIYPEQVYFNSTLYGDLGLKAPDEVKAAKAQELISLEKLSEMNPDHIFVQFSDDENADKPDALKDLEKNPIWKSLKAVKKDHVYVNTIDPLAQGGTAWSKISFLQVAADKLTQD	PGPT0003765_7978	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
D1-12_03427	1008	feuB_3	COG0609	Iron-uptake system permease protein FeuB	ATGTATGCAAAACGGCGGACACACATTATTATCATTGCTTCACCGATTGCCATTGTTCTGTCACTGCTGCTTTCCGTTTTATACGGCGCAAAGCAGCTTGACTTCCATACCGTGTTCTCCGCATTGCTGCACTTTAATCCGGAGAATACCGACCATCAGATCATATGGCATTCAAGAATCCCGAGGGCTGCCGGCGCTATGTTTATCGGCGCCGCCCTTGCTGTTTCCGGAGCGCTCATGCAGGGAATCACACGGAACTATCTGGCCTCGCCTTCGATCATGGGGGTGTCGGACGGCTCCGCTTTTATCATCACCCTTTGCATGGTATTGCTCCCTCAATCGACATCCATTGAAATGATCATATACTCGTTTATCGGTTCCGCATTCGGCGCCGCTCTTGTTTTCGGGCTGGCCTCCATTCTTCCCGGCGGTTTTACCCCGGTGCAGCTTGCCATTATCGGAACGGTGACCAGTATGCTTCTCAGCAGTCTGTCGGCTGCGCTTTCGATTTATTTTCAAATTTCGCAGGATCTCAGTTTTTGGTACAGTGCGAGACTGCATCAAATGAACCCTGATTTTTTGAAACTGGCCGTCCCGTTTTTTGCGATCGGAATCATCACGGCCATGATTCTCAGCAAAAAGGTCACTGCCGTATCATTAGGAGACGACATTTCAAAAAGTCTGGGACAGCAGAAAAGAACCATCAAACTCATGGCGATGGCGGCCGTTGTCATATTGACCGGAAGCTCGGTGGCACTCGCCGGAAAAATTGCCTTTGTCGGTTTGGTCGTTCCGCACATCACACGTTTTCTCGTCGGATCGGACTACAGCAGGCTGATCCCATGCGCGTGCATCATCGGCGGCGTCTTCCTGACCCTTTGCGACCTTGCCAGCCGATTCATCAATTATCCGTTTGAGACGCCTATTGAAGTTGTCACTTCTATCATCGGTGTTCCTTTCTTTCTTTATTTGATTAAAAGAAAAGGAGGGGATCAGCGTGGTGCGTAA	MYAKRRTHIIIIASPIAIVLSLLLSVLYGAKQLDFHTVFSALLHFNPENTDHQIIWHSRIPRAAGAMFIGAALAVSGALMQGITRNYLASPSIMGVSDGSAFIITLCMVLLPQSTSIEMIIYSFIGSAFGAALVFGLASILPGGFTPVQLAIIGTVTSMLLSSLSAALSIYFQISQDLSFWYSARLHQMNPDFLKLAVPFFAIGIITAMILSKKVTAVSLGDDISKSLGQQKRTIKLMAMAAVVILTGSSVALAGKIAFVGLVVPHITRFLVGSDYSRLIPCACIIGGVFLTLCDLASRFINYPFETPIEVVTSIIGVPFFLYLIKRKGGDQRGA	PGPT0003770_7258	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
D1-12_03428	1023	feuC_3	COG0609	Iron-uptake system permease protein FeuC	GTGGTGCGTAAAATGGCCGGAATTTATATCATTCTGATTGCTCTCATATTGCTCGTAAGCTATTTCAGCATGACAAGCGGTTCTTTTTCCGCAAAGCCGGGTGAACTGCTCAGTACGCTTTTCCGCATCCATCCGAATCCGCAATATGACATTTTGCTGTTTCAGCTGAGGCTGCCGCGCATTGTCATGGCTGCTGCCATCGGGCTCGGATTGGGGATAGCCGGAGCCGTTATTCAGGCCATTACCAAAAACGGGCTTGCCGATCCCGGTATTCTGGGCATTAATGCAGGAGCCGGAGCGGGAATCGTCGCGTTTATGCTTCTGTTTCAGGGACAATCTGAAGCGACGGCACTTGCCTCTGCGATGGGTATGCCTGTCTTCGGCCTCATCGGAGGATTGATGGCGGCCGTGCTGATCTATATTTTCGCCTGGCACCGGGGGCATCTGGAATCGGGCAGAATTATTCTCGTCGGGATCGCCATGAATTCAGGATTCAGCGCGCTGTCTTTATTTCTTTCATTAAAAATGGACCCGCAGGATTATGAGATGGCGATGGTTTGGAAAAACGGCAGCATCTGGTCGGCAAACTGGATGACCATTACGGCGATCCTTCCGTGGCTGATCTTGTTCATTCCTCTTCTTATGGCGAAAACGTCATTGCTGGATACCATTCGTTTCGATGAGGACACGGTGAAAAGTCTCGGTGTTTCAACCAATAAAGAAAAAACGATTTTACTCATTGCCTGCATCGCTTTGATCAGCGCATGTGTAACCGCAGCGGGCAGCATGGCATTTGTCGGGCTGATCGCGCCCCATATTTCCCGCAGGCTCGCCGGGATTGAGCACAGATACTCATTACCGGTCAGCGGATTGGTCGGTATGCTCCTCGTCATATCCGCCGACTTTGCGGGCAAATTGTTCTTTCAGCCTTCAGAAGTGCCGGCGGGAATTATTCTTGCGATTCTCGGCGTTCCTTATTTCTTTTTTCTTCTGTTTAAGCAGAAGAAGGGGCTGGATGCATGA	MVRKMAGIYIILIALILLVSYFSMTSGSFSAKPGELLSTLFRIHPNPQYDILLFQLRLPRIVMAAAIGLGLGIAGAVIQAITKNGLADPGILGINAGAGAGIVAFMLLFQGQSEATALASAMGMPVFGLIGGLMAAVLIYIFAWHRGHLESGRIILVGIAMNSGFSALSLFLSLKMDPQDYEMAMVWKNGSIWSANWMTITAILPWLILFIPLLMAKTSLLDTIRFDEDTVKSLGVSTNKEKTILLIACIALISACVTAAGSMAFVGLIAPHISRRLAGIEHRYSLPVSGLVGMLLVISADFAGKLFFQPSEVPAGIILAILGVPYFFFLLFKQKKGLDA	PGPT0003770_5822	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
D1-12_03429	753	ybbA	COG2819	putative protein YbbA	ATGAGAGGCACCCTTACAGAACACCGGATAAACGGAAAGGAATGCACTGTGTATCTTCCTCCCTCCTATTCGGTTCAAACAGGGGCTTTACCCTGTGTGTACGTACTGGACGGGGGTTCTTTGTTTTTAGAACAGATGGATAAGCTTGAATCCCAATTTGCGAACGGAACACTTCCCGAATTGATTTTTGCCGGCATCAAACCGGCTGACAGGCTCGATGAGTACACACCGTGGCCCGCGCCTTCCCTGAGCCCTGCATTTCATGATTTCGGCGGCAAAGGGAGGCTCTTTCTCGAGGAGCTGACAGATGCCATCATTCCAACTGTAGAAGATATGCATCACATTTCTGCACATCCGGAAACAAGAGGACTGATCGGCGCGTCATTAGGCGGACTGTTTTCGATATACGCGATGCTACAAAAGCCTGTAATATTCGGCAGAATCGGCTGTATTTCCGGTTCCTTCTGGTATGAAAAATCAGCAGATTATGTCCGCTCCGCATCTTTGCGTCCGGCACGGCGGCGTATCTATATGTCTGTAGGCAGCCGCGAAGCTGAGCATAAAAACAACATCCAAAACACCATGATCCGACAAAATAAAGACGTGCATGAAAGCCTGAGGCAAAAAGGCTTTTCTCAATCTCAGCTCTCTTTCACTGTTGAAGAAGGCGCCGTGCACCATCAAGAAGCATTCAAACGACAATTCAATGCAGCACTAAGCTGGCTGTACGGAAAAAACCGCTCACGTAGCTGA	MRGTLTEHRINGKECTVYLPPSYSVQTGALPCVYVLDGGSLFLEQMDKLESQFANGTLPELIFAGIKPADRLDEYTPWPAPSLSPAFHDFGGKGRLFLEELTDAIIPTVEDMHHISAHPETRGLIGASLGGLFSIYAMLQKPVIFGRIGCISGSFWYEKSADYVRSASLRPARRRIYMSVGSREAEHKNNIQNTMIRQNKDVHESLRQKGFSQSQLSFTVEEGAVHHQEAFKRQFNAALSWLYGKNRSRS				NA	NA	NA	NA	NA
D1-12_03430	984			hypothetical protein	ATGATGTGGCTACAGAAGTTGAACCAAGTGTTGGGGAGAATCATGCCGCTTTTGACTCCGTCAAGTGTGGCGGCGGGTGTGCTGTTATCTCAGCATATCAGCTGGATGGCCGGCGCTGTGCCGTGGATATTTGCATTTATTACATTTACGGGCAGTCTGAGTGCCAATTTTCAATCGCTGAAGCGCAGTATCGAGAAGCCGCTCCCGATGATCATGGCATTGTTTGTTCTGCATATTTTCATGCCTGTTTTTGCATGGGGAAGCGGCCATCTGATTTTCAGCGGTGACCCTTTAACTGTGACGGGGCTGATTATGGGTGTGGTGATTCCGACCGGAATTACGAGTTTGATTTGGGCTGCGATGTATAAGGGAAATGTCGGATTGACGCTGTCTATTATCCTGGTTGATACCGTGCTTTCTCCTTTTATCGTACCGTTAAGCCTGTCTGTCCTGGCCGGGGCGAATGTTCAGATGGATGTGTGGGGAATGATGAAAGGGCTGGCGGAGATGGTGGTGATTCCGTCCATCGCAGGGATGATGGTCAACCAGTTTTCCCCGCCGGTAAGGACTCAGGCGATAAGCCGGTCGCTGTCTCCTTTTTCAAAAATCTGTCTGATGATTGTCATTGCCATTAACAGTTCGGAAATCGCGCCGTATGTCACGCACGTGGATATCAAATTTGCGGGCATCGCAGGCATGGTATTTTTTATTGCCATGACGGGTTATGCCGTGGCTTGGCTGATCGGAAGACTGATGAAGCGGAGCCAGGATGAAATCGTGTCTCTGATTTATACAGGGGGCATGCGCAATATCAGCGCCGGAGCCGTTCTCGCCGTGTCTTTCTTTCCGTCTCAAGTGGCGGTTCCGGTCGTCATCGGGATGCTCTTTCAGCAAATCCTTGCCGCTTTGTTCGGCTATTTGCTGAGACGCTTTGAACTTAAGCCGGTCGTGATGAAGTATGAAAAAAACCGCTCAGCTACGTGA	MMWLQKLNQVLGRIMPLLTPSSVAAGVLLSQHISWMAGAVPWIFAFITFTGSLSANFQSLKRSIEKPLPMIMALFVLHIFMPVFAWGSGHLIFSGDPLTVTGLIMGVVIPTGITSLIWAAMYKGNVGLTLSIILVDTVLSPFIVPLSLSVLAGANVQMDVWGMMKGLAEMVVIPSIAGMMVNQFSPPVRTQAISRSLSPFSKICLMIVIAINSSEIAPYVTHVDIKFAGIAGMVFFIAMTGYAVAWLIGRLMKRSQDEIVSLIYTGGMRNISAGAVLAVSFFPSQVAVPVVIGMLFQQILAALFGYLLRRFELKPVVMKYEKNRSAT	PGPT0013890_867	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
D1-12_03431	1434	dauA_1	COG0659	C4-dicarboxylic acid transporter DauA	TTGAAAGATTATACGTTACAGCAGCAATGGTTCGGGAATGTCCGTAAAGACATTCTGGCCGGTATTCTGGTTGCTCTCGCTCTGATCCCTGAGGCGATCGGATTTTCAATTATTGCAGGTGTCGATCCGATGGTCGGCCTTTATGCATCATTTTGTATCGCGATTATTATTTCTATCTTCGGCGGTAGACCGGGAATGATTTCAGCCGCTACGGGTTCAATGGCGGTTGTCATGGTGACATTGGTGGCTGATTACGGGCTGCAGTATTTGTTTGCGGCAACCATTTTGACAGGTATTATTCAATTTATTCTTGGTGTCAGTAAGATAGCGAAATTGATGAAATTTATTCCGCGTTCGGTCATGATCGGATTTGTGAATGCTTTGGCGATCTTGATTTTTTCTGCGCAGCTGCCGCAGTTCAAAGGAGCTTCATGGGTCATGTACGCCATGCTTGCCGGATCACTGGCTATCATATATCTATTGCCGAAGGTTACGACGGCTGTGCCGTCTCCGCTGGTGGCGATTATTGTCATGACGATCATTGCGGTGGTCTTCCATGCGGATGTCCGCACGGTCGGTGATATGGGCGGGATTACAAGTTCACTTCCGCATTTCTTGATACCGGATGTTCCGTGGACGTTTGAGACATTGCGGATTATTTTCCCGTATTCACTGGCGCTTGCATTCGTCGGATTGCTCGAGTCATTGCTGACAGCCCAGATCATTGATGAAATGACGGATACGGTTAGTGATAAGAACAAAGAAAGCCGCGGACAAGGCATCGCCAATATTGTGAACGGATTTTTCGGAGGCATGGCCGGATGCGCCATGATCGGCCAGTCTGTCATTAATACGAAAGCCGGCGGACGCGGCCGGTTATCGGCTTTTACGGCCGGCGCGTTTTTAATGTTTTTAATTGCCGTATTAAGCGGTATCGTCATGAAAATTCCGATGGCTGCGCTGGTGGCCGTGATGGTTATGGTGTCCATCGGCACGTTCGACTGGTCATCGATTAAAGGTTTACGGAAAGCGCCCCTTACTGATTCGATCGTTATGGTTATTACCGTCGTGACGGTCGTCCTGACAAATGATTTATCAAAGGGTGTCTTCGCGGGTGTGCTGCTAAGCGCGATCTTTTTTACGGCTAAAATTTCTAAGCTGAAGATTGTGTCACATTCCGAACAGAAAGATGTCAGAACATATAAGGTAACGGGACAAATCTTTTTTGCTTCCGTGTCTGAACTGATGAATGCCATCGTTTATGATGAAGACGTGAAACGAATTGTCATTGATTTGACCGATGCCCACGTGTGGGATGATTCGGGAGCGGCGGCTCTTGAGAAAATTGTCGCCAAATGTAAAGAATACGGAATTGAGGCTGAATTAAAGGGATTAAATCAGAAAAGCCGAGATTTAATGAAACAAATGGCATAG	MKDYTLQQQWFGNVRKDILAGILVALALIPEAIGFSIIAGVDPMVGLYASFCIAIIISIFGGRPGMISAATGSMAVVMVTLVADYGLQYLFAATILTGIIQFILGVSKIAKLMKFIPRSVMIGFVNALAILIFSAQLPQFKGASWVMYAMLAGSLAIIYLLPKVTTAVPSPLVAIIVMTIIAVVFHADVRTVGDMGGITSSLPHFLIPDVPWTFETLRIIFPYSLALAFVGLLESLLTAQIIDEMTDTVSDKNKESRGQGIANIVNGFFGGMAGCAMIGQSVINTKAGGRGRLSAFTAGAFLMFLIAVLSGIVMKIPMAALVAVMVMVSIGTFDWSSIKGLRKAPLTDSIVMVITVVTVVLTNDLSKGVFAGVLLSAIFFTAKISKLKIVSHSEQKDVRTYKVTGQIFFASVSELMNAIVYDEDVKRIVIDLTDAHVWDDSGAAALEKIVAKCKEYGIEAELKGLNQKSRDLMKQMA	PGPT0003020_5902	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-12_03432	1047	gutB_3	COG1063	Sorbitol dehydrogenase	ATGAAGGCGTTGGTCTGGACTCCTAATGATAAGCTTGAATATCAAGAGGTGGACGAGCCTCAAATTCGGAAATCCAATGATGTGAAAGTGAAAATTTTCGGAACCGGTATCTGCGGAACGGACTTAAATGTGCTGAAAGGAAAAATGAATGCAACCCATCATATGATTATGGGGCATGAATCGGTGGGAGCGGTCGTGGAAATCGGACCGGACGTGACAAATGTAAAAGTCGGAGACCGCGTCGTGATAGATCCTACGCAGTTTTGCGGGAAATGTCATTATTGCCGGAGAGGGCTGACGTGTTATTGCGAAACCTTCGAGGATTGGCAGCTCGGAATCGGGGCGCACGGAACGTTTGCGGAATATTACGTGGGGGAAGACAGGTTCATGTACAGAATTCCGGATTCAATGGAATGGGAGCGGGCCACATTGGTTGAGCCTCTCTCCTGTGTGCTGAATGTTGTGGACAAGGCTTCGATTCAGCCGGAGGACTCGGTCTTGGTTTTGGGGTCGGGACCGATCGGACTGCTTGTGCAAATGATGGTGAAAAAACTGGCGCGATTGACGGTTGCGACTGAAATAGGCAGTTTCCGAAGCGAGGCGGCGAGCCGGATATCGGATTATGTCTACCACCCTGAAGCATTAACCGTGGATGAAGTGAAACGGATTAATCAAGGAAGAAAATTTGATGTGATTTTTGACGCGATCGGCAATCAGCTTGATTGGGCTTATCCTTTTATTGAAAAGGGAGGCAGAATCGTGCCGATGGGCTTTGATGATACGTATGAGATGACGGTCAGGCCGTACCAGCTGCTGTCAAACGGCGTGACGATTGTGGGCACAGGTGAAGCCCGCCAGATCATGGAGGCCGCGTTAGCATGCGCGTCCGACCTTCCGCAGCTCTATGATTTTATTACGGAAAAGACGGAACTGAAGAATTATGAAGAAGCCATTGATCATCTCATGGGCATCGACCCGGTGACAAAAGAAAGAAAGGATATCAGCGCAATAAAAACGATTCTTGTGTCTGATCCGGAACTTTTATAA	MKALVWTPNDKLEYQEVDEPQIRKSNDVKVKIFGTGICGTDLNVLKGKMNATHHMIMGHESVGAVVEIGPDVTNVKVGDRVVIDPTQFCGKCHYCRRGLTCYCETFEDWQLGIGAHGTFAEYYVGEDRFMYRIPDSMEWERATLVEPLSCVLNVVDKASIQPEDSVLVLGSGPIGLLVQMMVKKLARLTVATEIGSFRSEAASRISDYVYHPEALTVDEVKRINQGRKFDVIFDAIGNQLDWAYPFIEKGGRIVPMGFDDTYEMTVRPYQLLSNGVTIVGTGEARQIMEAALACASDLPQLYDFITEKTELKNYEEAIDHLMGIDPVTKERKDISAIKTILVSDPELL	PGPT0008200_733	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
D1-12_03433	951			hypothetical protein	GTGAGAGATTATATCATTGGGCTTGGACAATTTGTTTATCAAAAGGTGAAAAATCAAAAAGGCACGCTGAAAAACCGGCTCGTAAACGGCTATTCTCCGGGAGGCGACGCCCAATTTAACATAGACGCCGCTGCTGAGGAGGCGGTGCTGGATTATATTCAAGAAAAGGGCCATCCGGTTGCTTTTTACACGGAGGATGGCGGACTGAAGCTGATTGGAGAAGATCCGCAATATATTTTAATTGTAGATCCGATAGACGGAACGCGCCCGGCCGCCGCGGGGCTTGAAATGTCGTGTATTTCGATTGCGCTTGCTTCGTATAAGCCAAACGCAAAGATTAAGGATATCGAATTTGCTTTTTTACTTGAATTGAAATCAGGCGCTTATATGTACGGTGATATATACAGCGATGCGATTCATTTTGAAGGGTATCATGGAGAATTGCCGAATTTGAGCGGAGTGCGGGATATTAAAAATATGTTTTGGAGCCTTGAATTTAACGGGCATCCGGCGCAGCTGATGACGGACGCATACGGCCATCTGATTGACCAGTCGGCCAATAATGGCGGGGTTTTTGTTTTCAACAGCGCTTCTTATTCGATTTCGCGAATTATCACGGGGCAGATGGATGCTTATGTGGATATCGGCAATCGTCTGCTGAAAGATGATCCGAAGCTGCTTTCAGATTTTCAGCAGGTCGGGAACGGGCAGGTGCTGCATTTGTTTCCTTATGATATTGCCGCAAGCGTCTTTTTGGCGAAGAAGGCGGGAGTGGTCATTACGGATGCATACGGCCGGTCTTTGGACGAAACGCTTCTGACAGATTTAAGTTATCAGAATCAGCAATCATGTATTGCGGCATCAACGAAGGAGCTTCATCAAACATTGTTAGACCAAATCCGCTGGGGCAGAAAGGAAGAGAAATATGAAGGCGTTGGTCTGGACTCCTAA	MRDYIIGLGQFVYQKVKNQKGTLKNRLVNGYSPGGDAQFNIDAAAEEAVLDYIQEKGHPVAFYTEDGGLKLIGEDPQYILIVDPIDGTRPAAAGLEMSCISIALASYKPNAKIKDIEFAFLLELKSGAYMYGDIYSDAIHFEGYHGELPNLSGVRDIKNMFWSLEFNGHPAQLMTDAYGHLIDQSANNGGVFVFNSASYSISRIITGQMDAYVDIGNRLLKDDPKLLSDFQQVGNGQVLHLFPYDIAASVFLAKKAGVVITDAYGRSLDETLLTDLSYQNQQSCIAASTKELHQTLLDQIRWGRKEEKYEGVGLDS	PGPT0018535_412	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
D1-12_03434	1269	lysJ	COG4992	[LysW]-aminoadipate semialdehyde transaminase	GTGGGAACGAAGGAAATCACGAATCCAGACAGCTTGTATTACAGTGTTGACGATGTAGTAATGGAGCGCGGAGAAGGGATTTACCTGTACGATCAAGAGGGAAATGAGTACATTGATTGCGCTTCTGCCACATTTAACTTGAATTTAGGATACGGTAACAAAGAAGTGATTGATACGGTTAAAGAACAAGCCGATAAGCTGATCCATGTGACATCATCCTTTCAAACAGACGCCGTAAATAAACTGGCAGAAAAACTAGTAGAAATCGCCCCCGATAATCTCACAAAAGTACACCCTAAAGTCAGCAGCGGTTCCGGTGCAAATGAAGGAGCTATTAAAATGGCTCAGTATTACTCCGGAAAAACCGATGTCATCTCCTTATTTCGAAGCCACCTCGGACAAACGTATATGACTTCCGCTTTGTCCGGCAACTCATTCAGAAAAGAACCTTTCCCGCCGCAAATTTCTTTTGGCCTGCAAGTCCCCGATCCGTATTGCAGCCGCTGTTTTTATAATCAGAAACCTGATTCATGCGGTATGCTGTGCGTAGAAAGAATTAATGATTTTATTGAGTATGCGAGCAATGGAAAAATTGCCGCCATGATTATTGAACCGATATCCGGAAACGGTGGAAACGTCGTTCCGCCTAAAGAGTATTTTAAACAGCTGAGAAAGCTTTGTGATGAACATGATATCGCCCTGATTTTTGATGAAATTCAGACCGGGTTCGGACGGACGGGTAAAATGTTTGCCGCGGACCACTTCGATGTGAAACCTAATATGATGACGGTAGCAAAAGGGCTCGGGGGCACAGGCTTCCAAGTCGCCGCCACTCTGACGGAGGACAAGTATACCGGGCTTCCGGGGTATACGCACTCCTTCACGTACGGCTCAAATGTGATGGCCGCCGCTGCCGCGTGTAAAACCATAGATATTATGCAGCGCCCGGGATTTTTGGAAAATGTAACGACAGTCGGTCATTATATTATGGATCGCTTAGAAACAATGAAAGAGGATTTCGCTTTTATTTCTGAGGTAAGAGGCGTCGGTCTTATGATCGGTGTGGAGATTGTTAAAGAGAACAATGAACCGGATGTGGAGCTGACCAATTATATTGCTAAACGGGCAATGGATTACGGGCTGATTCTCCGGACATCCCGTTACGGATTCGGAAATGTATTTAAAATCCGTCCGCCTTTAACCATTACACTTAGTGAAGCCGAAGTGCTCTGCTACAGACTTCGCAAGCTATTGGAGGAAATCAAGTGA	MGTKEITNPDSLYYSVDDVVMERGEGIYLYDQEGNEYIDCASATFNLNLGYGNKEVIDTVKEQADKLIHVTSSFQTDAVNKLAEKLVEIAPDNLTKVHPKVSSGSGANEGAIKMAQYYSGKTDVISLFRSHLGQTYMTSALSGNSFRKEPFPPQISFGLQVPDPYCSRCFYNQKPDSCGMLCVERINDFIEYASNGKIAAMIIEPISGNGGNVVPPKEYFKQLRKLCDEHDIALIFDEIQTGFGRTGKMFAADHFDVKPNMMTVAKGLGGTGFQVAATLTEDKYTGLPGYTHSFTYGSNVMAAAAACKTIDIMQRPGFLENVTTVGHYIMDRLETMKEDFAFISEVRGVGLMIGVEIVKENNEPDVELTNYIAKRAMDYGLILRTSRYGFGNVFKIRPPLTITLSEAEVLCYRLRKLLEEIK	PGPT0007140_548	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007140-puuE-K00823	NA	NA
D1-12_03435	1215	glcP	COG0738	Glucose/mannose transporter GlcP	ATGATGAAAACTCGTCTGCTGTGGATAAGCTGTTTTTCTTATGGATCGATTGCTTTTACACTTGTTATTCTGGGAGCCGTACTGCCTGAGTTACTCACACATTATTCACAAAGCTACAGTAATGGCGGAGTATTGGTATTCTCTCAGTTCATGGGCTTTCTCATCGGTGTCATCGGAATGCCATACATGGTGAAAAAGCTTGGGCGCAAAAACGTCGTTATCTTTGGCCTGGCACTCATCAGCTGTGAAATGTTCATCACCTTCCTGCCGCCCTGGCCGCTGCTCTTTTTTCTCGTCAGCATCGCAGGGCTTGGCGCCGGACTGGTGGAATCCTGCGTAGGCACGATCATCCTCACCGCTATTAAAGAAAGACAGGCTGTGGCCATGAGCAAGATGGAAGTGGCCTACGGATTAGGTGCGCTGTTCATGCCTCTGCTCTCAGGCTTTCTTATCAACAACCACATGTGGACAATTGCTTTTTTAGTATTAGGGTTATCCAGTTTTGCACTTCTAATCGCATGGAAGCAGATGAGTTTCGGCAGTATTGATCAGCTTCTCATCCGCAAAGAGGTCTCTTCTGCTGACACTCAAAAAGAAAGCACCGGTTATCGGTCACAAGGATTGCTGTTTATTGCCTTGGCGGGTGCTTACTTCTTCTTTTACGGCGGCAGTGAAGTTTCCATTGTACATTTTATCCCCTCCATCTTCGCTGAGAAATGGGATATCCCCAACTCTTTGGCAACAATAACAGTTACAGTGTATTGGACGGGTATGATCATCGGAAGGTTATTAACAGGCCCGGTATCAGAAAAGCTGACATATCACCGTTATCTTCGTCTCATAAGCATTGGCGGTCTGGCAGCACTTACCGTATTAGCATTAAGTAAAAACGTATGGTTCGGTTTTGCCCTTTGCTTCTTTTTAGGACTGTTCATGGCAGGCATGTTTGCAATAGCCCTAATCATCACGAATCATTTTTATCCAGGAAAGACAGAAACAACTACCAGTATTCTGCTCGCTTCAAACGGATTAGGAGGTTCACTCCTTCCGATAGCCGTCGGCTGGAGCTTAGATGAATATCCCGCACAAACTGCGTTCTGGCTGTTTACTGCACTGATGCTCCTTATGCTGCTGATTGTGTTCAGTTTAAGAATGCTCGAGACAATAAAATCAAACAATCTTCAACATCACAACAGCAAAGCAAAATCAATGTAA	MMKTRLLWISCFSYGSIAFTLVILGAVLPELLTHYSQSYSNGGVLVFSQFMGFLIGVIGMPYMVKKLGRKNVVIFGLALISCEMFITFLPPWPLLFFLVSIAGLGAGLVESCVGTIILTAIKERQAVAMSKMEVAYGLGALFMPLLSGFLINNHMWTIAFLVLGLSSFALLIAWKQMSFGSIDQLLIRKEVSSADTQKESTGYRSQGLLFIALAGAYFFFYGGSEVSIVHFIPSIFAEKWDIPNSLATITVTVYWTGMIIGRLLTGPVSEKLTYHRYLRLISIGGLAALTVLALSKNVWFGFALCFFLGLFMAGMFAIALIITNHFYPGKTETTTSILLASNGLGGSLLPIAVGWSLDEYPAQTAFWLFTALMLLMLLIVFSLRMLETIKSNNLQHHNSKAKSM	PGPT0014430_86	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014430-glcP-K08174	NA	NA
D1-12_03437	861	ydaD_4		General stress protein 39	ATGGAAAACTATCCGAAGGAATTCCCGGCGGAATCACAAAACCGCCAGCCGGGCATTGAAAGCGAAATGAATCCGGCGCCTGTTTACGAATACAAAGAATATAAAGGCGCTGATAAATTAAAAGGGAAAACCGCACTTATCACAGGGGGCGACAGCGGTATCGGACGCGCCGTAGCGGTTGCTTACGCGAAGGAAGGCGCAAATGTCGCGATCGTCTATTTTGATGAACATGGTGATGCGGAAGATACAAAAAAACGAGTGGAAGAAGAAGGCGTAAAATGTCTGTTAATCCCTGGCGATGTCGGTGAGGAAGACTTTTGTAATGAAGCCGTTGAAAAAACGGTTGAAGAATTCGGGCGTCTTGATATTCTCGTGAATAACGCCGCGGAACAGCATCCGAAAGAAAGCATTAAAGACATCACAAGCGAGCAGCTTCACAGAACCTTTAAGACAAACTTTTACTCACAATTTTATTTGACTAAAAAAGCGATTGATTACATGAAGCCGGGCAGCGCGATCATCAATACGACATCCATTAATCCTTACACAGGCAATCCGCAGCTGATTGACTACACGGCTACGAAAGGCGCGATTAACGGTTTTACGAGATCCATGGCGCAAGCACTCGTCAACGACGGTATCCGTGTCAACGCCGTGGCGCCGGGGCCGATCTGGACACCGCTTATTCCGGCGACATTCTCAGAAGAAACAGTCGCTTCCTTCGGTCAGACTACGCCGATGGGCCGGGCAGGCCAGCCTGTTGAACATGTCGGCTGCTATGTGCTCTTGGCCTCAGATGAATCATCTTATATGACCGGGCAGACGCTGCATGTCAACGGCGGCAAATTTGTGACCACATAA	MENYPKEFPAESQNRQPGIESEMNPAPVYEYKEYKGADKLKGKTALITGGDSGIGRAVAVAYAKEGANVAIVYFDEHGDAEDTKKRVEEEGVKCLLIPGDVGEEDFCNEAVEKTVEEFGRLDILVNNAAEQHPKESIKDITSEQLHRTFKTNFYSQFYLTKKAIDYMKPGSAIINTTSINPYTGNPQLIDYTATKGAINGFTRSMAQALVNDGIRVNAVAPGPIWTPLIPATFSEETVASFGQTTPMGRAGQPVEHVGCYVLLASDESSYMTGQTLHVNGGKFVTT	PGPT0003180_15626	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
D1-12_03438	504	ydaE	COG3822	putative D-lyxose ketol-isomerase	ATGACGATATCGAAACATGACGTGAATGCATACTATCAAAAAGCGGGAATCGTTCTGACTGATGATGAAGTCGAAGACATTCAAATCATGGATTACGGCTTAGACAAGCTTGAGGAAACCGGGCTTCAGCTGTTTATTTACGTGAATACCGACCGCTACTGTTCGAAAGAATTGGTGCTCTTCCCGCGCCAGACGTGTCCGGAACACCGCCATCCGCCGGTCGGCGGCGAGAAGGGAAAACAAGAGACTTTCCGCTGCCGCTGGGGGAAGGTGTATCTCTACGTGGAAGGTGAAAAGACAGAGAACCCAAGCGTCCTCCCGCCGGAAGAAGACAAGGAATACTACACCGTCTGGCATGAGATTGTGCTTGAGCCGGGCGGACAATACACCATTCCGCCGGATACGAAGCATTGGTTTCAAGCGGGAGAAGAAGGGGCGGTCATTACGGAAATGTCATCGACAAGCACGGATGATCACGATGTTTTCACCGACCCGCGCATTTAA	MTISKHDVNAYYQKAGIVLTDDEVEDIQIMDYGLDKLEETGLQLFIYVNTDRYCSKELVLFPRQTCPEHRHPPVGGEKGKQETFRCRWGKVYLYVEGEKTENPSVLPPEEDKEYYTVWHEIVLEPGGQYTIPPDTKHWFQAGEEGAVITEMSSTSTDDHDVFTDPRI	PGPT0014710_393	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0014710-ydaE-K09988	NA	NA
D1-12_03439	624	ydaF	COG1670	Putative ribosomal N-acetyltransferase YdaF	GTGTTTTCCTGTCAAATCCGGGAACATCTGACGATCAGATTGCTTGCCAAAGAAGATACGGACGAATTGTATTCTGTTATGAAGCGAAATCAAAACCATCTCAGCGAATGGCTCAGCTGGGCGGAAGAACTGGCTGATATCGATACGTACCGCGATGTGATCATCCCCGAATGGCGCTATAAATACGCGGAAGAGAATGGGTTTGACGCCGGAATTTTTGTGAAGGGCCGGTTTTGCGGCATGATCAGCATCCATAATGCCGATACAGTCAATCAAAAAGCAGAGATCGGCTACTGGCTGGATCGAGAGCATGAAGGATTCGGCATTATCACCGCAAGCTGCCGGGCGGTCATCACCCATGCATTTCAGGATCTCGGCCTGAACCGCATCATGATCAGCGCGGCTGAAAAAAACACGAAAAGCAGGGCGGTGGCGGAGCGGCTCGGATTTCAGAAAGAAGGACTGACGAGAGAAGGCATTTTCGTACAGGGCGCCTATCATGACACGGTGACCTACAGCATGCTGAAGCGGGAATGGAGCGAAGATCGGCAGAAGAGCACATTTCTTGGTTTAAATGTCTCCCCAATGTGGAAAAGTAACAGCGGAGACGTTAAAAAGGAGTGA	MFSCQIREHLTIRLLAKEDTDELYSVMKRNQNHLSEWLSWAEELADIDTYRDVIIPEWRYKYAEENGFDAGIFVKGRFCGMISIHNADTVNQKAEIGYWLDREHEGFGIITASCRAVITHAFQDLGLNRIMISAAEKNTKSRAVAERLGFQKEGLTREGIFVQGAYHDTVTYSMLKREWSEDRQKSTFLGLNVSPMWKSNSGDVKKE				NA	NA	NA	NA	NA
D1-12_03440	423	ydaG	COG3871	General stress protein 26	ATGAATCAAAATGAAATCAAAGAAAAAGTGCTTGAAGTACTGGATCATCATAAAGTCGGTTCGCTTGCGACGGTAGAGCAAGGCAAACCGCATTCACGCTACATGACATTTTTCCATGACGGCTTAACGATTTACACGCCGACGAGCAAAGACACTCATAAAGCGGAAGAAATTGAAAACAATCCGAATGTTCATATTCTGTTAGGGTATGACTGTGAAGGATTCGGAGACGCTTATGTGGAAGTGGCCGGAACCGCCAAACTGAACAACTCAGCCGATTTAAAAGAAAAGCTGTGGGATCCGAAACTGGAACGCTGGTTTGACGGAAAAGACGATCCGAACCTGGTGATTCTTGAAATTGAACCGAAGCAGATCAAGCTCATGAACGCGGGTGAAAAAACGCCGGCCGAGCTGGAACTTTAA	MNQNEIKEKVLEVLDHHKVGSLATVEQGKPHSRYMTFFHDGLTIYTPTSKDTHKAEEIENNPNVHILLGYDCEGFGDAYVEVAGTAKLNNSADLKEKLWDPKLERWFDGKDDPNLVILEIEPKQIKLMNAGEKTPAELEL	PGPT0015019_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015019-ydaG-NA	NA	NA
D1-12_03442	810	amj		Lipid II flippase Amj	TTGCACGTTATTACTTCACAAGTACTGTTTATCTTCTGTTTTCTGCTGCTGATACATTCGATTGAAACGCTTGCCTATGCAACACGGCTTTCCGGCGCGAGAGTCGGATTTATCGCGTCCGCGCTGTCATTATTTAATGTCATGGTCATCGTGTCGCGCATGTCAAACATGGTTCAGCAGCCGTTTACCGGACATTTGATTGATGCCGCCGGATCAAACGCCCTGTCTCTTGTGGGCGCCCAGTTTCGATTTTTAATATTCGGCTCCACGGTCGGAACGATACTCGGCATCTGTCTTTTGCCGACATTCGTCGCGTTATTCACCAGGGCGATTATACACTTGGCGGACGGAGGAGGCTCCGTCATGCAGGTATTTAAAAAAGGATTTTCACTGAACGGGCTGAAGCATGCGCGTTCTTATATCAGACTGCCGTCAGTCTCCTATTTAAAAGGGCTTCAATTCCGAATGATCCCGAAACGCTTGTTTGTCATTAATATGGTCATTACGTCTATTTACACGATCGGTGTTCTGTCCGCTCTGTACGCCGGCCTTCTGGCGCCTGAGCACAGCACGACGGCCGTGATGGCATCAGGCTTAATCAACGGAGTTGCGACTATGCTGTTGGCTGTGTTTGTTGACCCGAAAGTCTCCGTACTGGCAGACGATGTGGCGAAGGGCAAGCGCAGCTACGTCTCCTTAAAATGGACATCATTGACGATGGTGACATCAAGGGTCGCGGGCACGCTTCTCGCTCAGCTCGTATTCATCCCCGGCGCTTATTATATCGCCTGGGTGACGAAATGGATGTAA	MHVITSQVLFIFCFLLLIHSIETLAYATRLSGARVGFIASALSLFNVMVIVSRMSNMVQQPFTGHLIDAAGSNALSLVGAQFRFLIFGSTVGTILGICLLPTFVALFTRAIIHLADGGGSVMQVFKKGFSLNGLKHARSYIRLPSVSYLKGLQFRMIPKRLFVINMVITSIYTIGVLSALYAGLLAPEHSTTAVMASGLINGVATMLLAVFVDPKVSVLADDVAKGKRSYVSLKWTSLTMVTSRVAGTLLAQLVFIPGAYYIAWVTKWM				NA	NA	NA	NA	NA
D1-12_03443	291			hypothetical protein	ATGTTACACACGCCGATCGGCAGACTTCGCACGATGGGGTTTATTGAAGGAATGTCGCTTTTGGTGCTGCTGTTTATCGCGATGCCGCTGAAGTATTGGGCTCATCATCCGCTCGCCGTCACTATTGCCGGTTCCATTCACGGCGGTTTGTTTATCATTTATCTGGCGGTGCTGGCGTATGCGGCGTTTACTGTCAAATGGCATGTGAAATGGTCAGCCGCCGGTTTTATCGCGGCCTTTATTCCGTTCGGTAATTTTATTTATGATCGCGGCCTGAGACATTATCAATAA	MLHTPIGRLRTMGFIEGMSLLVLLFIAMPLKYWAHHPLAVTIAGSIHGGLFIIYLAVLAYAAFTVKWHVKWSAAGFIAAFIPFGNFIYDRGLRHYQ				NA	NA	NA	NA	NA
D1-12_03444	435	lrpC	COG1522	HTH-type transcriptional regulator LrpC	ATGAAACTAGATAATGTTGATCTGAGCATCATTAAAGAGCTGCAGCGGGACAGCCGCCTGTCCATGCGGGAGCTTGGCAGAAAAATCAAATTGTCAGCCCCGTCCGTCACAGAGCGTGTCAGACAGCTTGAATCCTTCGGCGTTATTAAGCGCTATACATTGGACATTGATCAAAAAAAGATCGGACTTCCCGTTTCCTGCATTGTCGAAGCGACGGTGAAAAACGGAAAATACGATCAATTCAAAACCTACATTCAATCCATTCCCAACATTGAATTTTGTTTTCGGGTCGCCGGCGCGGCGTGTTATATGCTGAAGATGAACGCGGACAGCCTGGAAACGATCGAACACTTCATTAACCGCACCTCTCCGTATGCCCAAACCGTGACCCACGTCATTTTCTCAGAAATTGACACAAAAAACGTCCTCGATTAG	MKLDNVDLSIIKELQRDSRLSMRELGRKIKLSAPSVTERVRQLESFGVIKRYTLDIDQKKIGLPVSCIVEATVKNGKYDQFKTYIQSIPNIEFCFRVAGAACYMLKMNADSLETIEHFINRTSPYAQTVTHVIFSEIDTKNVLD				NA	NA	NA	NA	NA
D1-12_03445	2211	topB		DNA topoisomerase 3	GTGAAAGAAAGAGAAGTGAAAAGCATGTCAAAAACAGTTGTATTAGCTGAAAAACCTTCAGTCGGCCGGGACTTGGCCCGCGTGCTGAAGTGTCATAAAAAAGGAAACGGATATCTTGAAGGCGACCGCTACATCGTCACATGGGCGCTCGGGCATCTGGTAACGCTCGCTGACCCTGAAGGATACGGCAAAGAATTTCAATCATGGCGGCTTGAGGATCTGCCGATTATTCCGGAGCCTTTAAAGCTCGTCGTCATTAAAAAAACAGGAAAACAGTTCAATGCGGTCAAAGCTCAGCTTGTCCGGAAAGACGTCAGCCAGATCGTAATCGCTACAGACGCAGGACGGGAAGGGGAGCTTGTGGCCCGCTGGATTATCGAAAAGGCAAACGTCCGCAAACCGATTAAGCGGCTGTGGATTTCCTCTGTGACAGATAAGGCGATTAAAGAAGGATTCCAGAAGCTCCGCAGCGGCAAAGAGTACGAAAACCTGTATCATTCCGCGGTTGCCAGAGCGGAAGCGGATTGGATCGTCGGCATCAACGCGACCCGCGCCCTGACCACGAAATTTAACGCGCAGCTGTCATGCGGACGCGTCCAGACTCCGACACTGGCGATGATCGCCAAGCGTGAAGCGGACATTCAGGCGTTCAAACCCGTTCCTTATTACGGTCTCCGCGCGGCGGCTGATCAGATGACGCTGACATGGCAGGATAAAAAAACAAAGCAGACAAGAACATTCGATCAGACGGTGACCGGCCGTTTGGCAAAAGATCTGCAAGGAAAGCCGGCAGTCATCTCAGAATTGAAAAAAATGGCGAAGAAAAGCTTCGCACCCGGTCTTTACGACTTGACGGAATTGCAGCGGGACGCTCATAAGCGCTTCGGTTTTTCCGCAAAAGAGACGCTGTCCGTGCTTCAAAAGCTGTATGAACAGCATAAGCTTGTCACTTACCCGCGGACGGATTCCAGATTCCTTTCCGCAGACATCGTACCGACTTTAAAAGACCGTTTAAACGGCATGGAAGTTAGGCCGTACGCACAGTACGTCAATCAAATACTGAAGCGGGGCGTCAAAGCGCATAAAGGATTCGTCAATGATGCGAAAGTATCGGATCACCATGCCATCATTCCGACAGAGGAGCCGCTGATCCTTTCAAGCCTCAGCGACAAAGAACGAAAGCTTTACGATCTGATTGCCAAACGTTTTCTCGCCGTGTTAATGCCGGCGTTCGAATACGAAGAAACAAAGGTTACAGCCGATATCGGCGGCGAAACATTTACCGCAAAAGGGAAAACGGTTCAATCGCCTGGCTGGAAAGCCGTGTATGATATGTACGAGGATGACGACGATCACGAGGAAGACAAAGACCAGACGCTCCCGGATCTTCAGCAGGGTCAGCGCCTCACTGTCTCATCATTGAAAGAAACGAGCGGACAGACGAAACCGCCGGCGCGCTTTAATGAAGGCACGCTGTTATCCGCAATGGAGAACCCAAGCGCCTTTATGCAGGGAGAAGAGAAGAACCTTGTGAAAACATTGGGTGAAACCGGCGGACTCGGAACAGTCGCCACCCGCGCTGATATCATTGAAAAACTGTTCAACAGTTTCTTAATCGAGAAAAAAGAAAAAGATATTTTCATTACGTCAAAAGGGAAGCAGCTCTTACAGCTCGTCCCGGAAGATTTAAAATCGCCGGCCTTAACCGCTGAGTGGGAGCAAAAGCTCTCCGCCATCGCAGCGGGCAAACTGAAATCCGCCGTGTTCATTAAAGACATGAAAACATATGCGGGCAAAACGGTGAAGGAAATCAAAAACAGCAGCCAAACTTTCAGACATGACAACATTTCAGGCACCGCCTGCCCTGATTGCGGCAAAATGATGCTTAAAGTCAACGGCAAACGCGGCACGATGCTCGTATGTCAGGATCGTGAGTGCGGCAGCCGGAAAACGCTGGCAAGAAAAACAAACGCCCGCTGTCCGAACTGTCATAAGAAAATGGAGCTTCGCGGCCAGGGCGAAGGCCAAACCTTCGCATGTGTATGCGGCCACCGGGAGAAACTGTCCGTCTTTGAAAAGCGCAAGGCGAAAGATAAATCCGGACGCGCATCCAAGCGGGACATCAACTCTTATATGAAAAGCCAAAACAAAGAGGAACCGATGAACAACGCGCTGGCAGAACAGCTGAAAAAACTCGGCCTGGATAAATAA	MKEREVKSMSKTVVLAEKPSVGRDLARVLKCHKKGNGYLEGDRYIVTWALGHLVTLADPEGYGKEFQSWRLEDLPIIPEPLKLVVIKKTGKQFNAVKAQLVRKDVSQIVIATDAGREGELVARWIIEKANVRKPIKRLWISSVTDKAIKEGFQKLRSGKEYENLYHSAVARAEADWIVGINATRALTTKFNAQLSCGRVQTPTLAMIAKREADIQAFKPVPYYGLRAAADQMTLTWQDKKTKQTRTFDQTVTGRLAKDLQGKPAVISELKKMAKKSFAPGLYDLTELQRDAHKRFGFSAKETLSVLQKLYEQHKLVTYPRTDSRFLSADIVPTLKDRLNGMEVRPYAQYVNQILKRGVKAHKGFVNDAKVSDHHAIIPTEEPLILSSLSDKERKLYDLIAKRFLAVLMPAFEYEETKVTADIGGETFTAKGKTVQSPGWKAVYDMYEDDDDHEEDKDQTLPDLQQGQRLTVSSLKETSGQTKPPARFNEGTLLSAMENPSAFMQGEEKNLVKTLGETGGLGTVATRADIIEKLFNSFLIEKKEKDIFITSKGKQLLQLVPEDLKSPALTAEWEQKLSAIAAGKLKSAVFIKDMKTYAGKTVKEIKNSSQTFRHDNISGTACPDCGKMMLKVNGKRGTMLVCQDRECGSRKTLARKTNARCPNCHKKMELRGQGEGQTFACVCGHREKLSVFEKRKAKDKSGRASKRDINSYMKSQNKEEPMNNALAEQLKKLGLDK				NA	NA	NA	NA	NA
D1-12_03446	1077			hypothetical protein	GTGAAGCAATTCGTTTTTCGTCTGATGATCCTTTTGATTTCGATCGTTCTGACGGCGGGGTGCGCGGAGGCCGGCACTGAAAAACAGGCGGCGGCCGAACCGCTTCAGCCCGCAGAGCATTTTATTTATCATAAATTGATGAACGGGCGGGGGATGATCCGGACGAACATATCCGGTGAGCCGGAATATTTATCTGAGTCTCTCGGACTATGGATGGCATTTTTGCTGAACAGGAAAGATGAACGGCAGTTTCAAGCGCAATATCAGCTTCTCACCGATTCGTTTCTGACGAAAAACGGGCTCGTGTCGTGGAAGATTGACGGGAATAAAGCGAGCGGCATCAATGCCTTAATTGATGATTTCAGAATCATGAACTGTCTGAATGAGGCCGGAACCCTGTGGGGTAACAGTGAATACGGGAAAACAGCGGTGCAGATCGGGAAGGCGCTGGAAAAATACAATACGAATGACGGGTATTTTACGGATTATTATGATGCCGCTTCAAATGCCGCATCAAAGACCGTGACGTTGTCCTATGTCGACCCCGGCGCCTTACAGATGCTCAGAGAAAAGGGGATTATCGATGAGAAAACGGAAAACCGGAACCTTGATGTTCTCAATCTTGCGCCCCTGAAAAATGGTTTTCTGCCGAAATCGTTCAATACTGAAACAAAGGAATACAAATATGACAGCGAAGTGAATGTCATCGACCAGCTGTACGCCGCCGTGAATCTGAAGCGGGGCGATGACAAAGCCGCCGTGCTGTCAAAATGGATCATAGAAGAATGGAAGTCGCGCGGACAGCTGTACGGACGGTACATCGCAGACACGAAGGAGCCGGCGGTTCAATACGAATCACCGTCCGTTTACGCCCTGGCCGTTCTTTTTTTAGCAGAACAAAAAGCTGATCCGGCTGTCATCAAGCCGCTTTATGAAAGAATGACTTCATTTGAAACACTGGACACGCTGAAACCTGATTACGGCGGCTATATGAGCGGGGGCGATACACATTCTTTCGATAACCTGCTGCCGCTTCTGGCTGAAAGGAAATTGTTTAATGAAAATATCATTCAATGA	MKQFVFRLMILLISIVLTAGCAEAGTEKQAAAEPLQPAEHFIYHKLMNGRGMIRTNISGEPEYLSESLGLWMAFLLNRKDERQFQAQYQLLTDSFLTKNGLVSWKIDGNKASGINALIDDFRIMNCLNEAGTLWGNSEYGKTAVQIGKALEKYNTNDGYFTDYYDAASNAASKTVTLSYVDPGALQMLREKGIIDEKTENRNLDVLNLAPLKNGFLPKSFNTETKEYKYDSEVNVIDQLYAAVNLKRGDDKAAVLSKWIIEEWKSRGQLYGRYIADTKEPAVQYESPSVYALAVLFLAEQKADPAVIKPLYERMTSFETLDTLKPDYGGYMSGGDTHSFDNLLPLLAERKLFNENIIQ				NA	NA	NA	NA	NA
D1-12_03447	849	dgcC		putative diguanylate cyclase DgcC	ATGAAAATATCATTCAATGAATCACAAAAACTGTGCAGCTACACAGCAGTTATGCTGGTGCTGCTGTCTTTTTTTATTTACTATGCGTCTCAGCAATCCGCAGGGCTTCTGATAACCTGCATCACATTGCTTGTCACGGGAGCCGGCATATGGTTCGGGGCAATCTACGCGCTCGTCATCACCTTACTCGTCTTATTTGTTCTCGGCAGCCTGCTCCTGTGGTTTCAGACCGGGGGCTTTATGGCGTCTGCCGGTGCCGAAAGTCTGCAGGTGCTGGTCATTTGGGGGATTGCACTGCTGCTCTTTTCTTACATAGCGGGAAGGATTCACGAGTTGGCGAAGGGGCTTGAGCGCTCAGTGAAACAGCTGCGTGAAGAGATTACGAGCTTTGTCGCCGTCGACAGGGTGACCGGCTTTGACAACCATCTGCGGATGAAGCTGGAGCTTTCTGAGGAAATCAAGCGGGCGGAACGCTACGGCAATTCCTTCGTCTTTTTGCTGCTGCACATGCATTATTTCAAGGAATTCAAATCCCTCTACGGAGAAAAAGAGACCGACCGTCTGCTGGCATTTATCAGCCGCCAAATCCGGTCAAGCGTTCGGGAAACAGACAAAAAATTCAGGCCGTCCGCCGAACGGTTCGGCATCGTGCTGACCCATACGCCTGAAGAAAACATGCCGGCCGTTCTGGCGAAGCTGAAAAAGGAATTGGATACGTACCGGCTGCAAAACGGTAAATACGTCTCCATCACCTTCCGTGTATGTTACTTGGCGTACCGAAAGGATTTACAAACGGCCGAGCAATTTTTAAATGAACTGGAAAACGAGATGATGATGAATGAACTCTAA	MKISFNESQKLCSYTAVMLVLLSFFIYYASQQSAGLLITCITLLVTGAGIWFGAIYALVITLLVLFVLGSLLLWFQTGGFMASAGAESLQVLVIWGIALLLFSYIAGRIHELAKGLERSVKQLREEITSFVAVDRVTGFDNHLRMKLELSEEIKRAERYGNSFVFLLLHMHYFKEFKSLYGEKETDRLLAFISRQIRSSVRETDKKFRPSAERFGIVLTHTPEENMPAVLAKLKKELDTYRLQNGKYVSITFRVCYLAYRKDLQTAEQFLNELENEMMMNEL				NA	NA	NA	NA	NA
D1-12_03448	1728			hypothetical protein	ATGAACTCTAAATGGATACGTCTCTTACTCTCGGCGCTCTTCATGATTTCGGCGGTTTATGTTCCCCTTACGGCGGAAGCAAAAGACAAAAAGGACGGCATTCTCATTATTTATACAAGCACGGACGGCAAAGAAACCGCTGAGGTCAAAATGCTTGATCTGACCGCGGGCCATTTCTCATCAGCCGTCACCGTGAAAAGCGACGGAGACATCACAGCCGCGGACCTCAAAAAGAATCGGCGAGTCATCTATTACGGCGTCACGAAAAAAAAGCTCAGCACATCATTTGTGTCTCTGATCAGCAGCATGCCGCAGCAGCTTATCAGCATCGGCTATAACGCCGGACAGTTCCGCCAATTTGCGGGTTTGTCCCTGACAGAAAAAGAAACGGTATACCGCATTTACAGCAAGAAAGAAAAAACAGACATGCCGCTTGAAAAAGGAATGTCCGTGCTCGGCGTATCGGGAGTAAAAGGAAAGCCCCTTTATACATACCGGTCCGGTGACGGCGGCACCCGCCCTTTTATGTGGAAAACGGCGCGCTCTGACTATTATTTCGGTGTGACGAGCCTGTTAAATGATTCGTTTCTGACGGCGAAAGCGCTGCGCAGCGCTTTCGGAGAATCAGAGGGCGGCACCCTCCTTTACTTGCGGCTTGAAGACATCAGTCCGATGTCAGATGAAACATTGCTTTACGAAGCGGGATCTTACCTGCATAAAAGACACATTCCGTTTATTCTGGCGGTCATTCCGGTCTATCTCAATCCGGAAAACGGAGAAAAAGTATACCTGGCGGACAAGCCGAAAATGGTCAGCGTCCTGAAAAAACTTCAGCAAATGGGCGGCAGCATCATTATTCACGGCTACACGCACGCATACCGATACAGCGAAACGGGAGAAGGCTTTGAATTTTGGGATGCCAAAGCGGATCAGCCGATTACGTCAGAAAATGCGGATGATACTCCGGTCAAGCTTGAAAAGGAACAGGATTTTCCGAATGAAGAAGCGTACCGGGCGTATGTGAAGCCTTTCCGTGAAAAAGAAAACATCTACACGAGAACGAAGCTGGAGCAGGCGATTGACGATCTGACAGAGCTCGGCCTTTACCCGCTGTCATTCGAAGCGCCGCACTATACGATGTCTGAAGAAGGCTACAAAATCGCATCTTCTTATTTCTCCAGCATTTTCGGACAAGTGCAGCTCAGCGGCACGACGTGGAAAACCTCGGGCGCCCCTCCGTTCGTCTCAAAGCCGGCTATGCTGGACGGGATGACGCTGTACCCTGAAACAATCGGTTATGCCGATAACTCAAAGGAAAATCCGCTCGGAGATATGGAGAATCATATTTCGCAGATGATTGATTTCGGCGGCGGAACGGCGGGCGGTTTCTACCATCCGTATCTCGGCATGAAATACCTCCCCGAGCTCGTCAATCAGATGGAGCGGATTCCCGGCGGCGAGTGGCTCGATCTGAAGAAAACGAAGCAAACGGTAACGTCGGACAGCGTCAGGATCAAAACGGACGGAGACGGAACCATTCATGTGGAAAACAAGATTCATCCGATAACGGCCTTTTTCAATCACCATCAGCAGACGCCTCTGGAAAAAGCGCTTTGGATTCTCTCCGGCGTGGTGTTATTGTTTATCATCATGTTCGCCTGCTACGTTCTTTATTTGCGCGCCACATTAAAAAAACGAATCTTTAAGGAGAGAAGGAGCCTTGAGTAA	MNSKWIRLLLSALFMISAVYVPLTAEAKDKKDGILIIYTSTDGKETAEVKMLDLTAGHFSSAVTVKSDGDITAADLKKNRRVIYYGVTKKKLSTSFVSLISSMPQQLISIGYNAGQFRQFAGLSLTEKETVYRIYSKKEKTDMPLEKGMSVLGVSGVKGKPLYTYRSGDGGTRPFMWKTARSDYYFGVTSLLNDSFLTAKALRSAFGESEGGTLLYLRLEDISPMSDETLLYEAGSYLHKRHIPFILAVIPVYLNPENGEKVYLADKPKMVSVLKKLQQMGGSIIIHGYTHAYRYSETGEGFEFWDAKADQPITSENADDTPVKLEKEQDFPNEEAYRAYVKPFREKENIYTRTKLEQAIDDLTELGLYPLSFEAPHYTMSEEGYKIASSYFSSIFGQVQLSGTTWKTSGAPPFVSKPAMLDGMTLYPETIGYADNSKENPLGDMENHISQMIDFGGGTAGGFYHPYLGMKYLPELVNQMERIPGGEWLDLKKTKQTVTSDSVRIKTDGDGTIHVENKIHPITAFFNHHQQTPLEKALWILSGVVLLFIIMFACYVLYLRATLKKRIFKERRSLE	PGPT0015296_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0015296-ydaL-NA	NA	NA
D1-12_03449	1263	arnC		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	TTGAGTAACATTCTGTTTTTTATCTCATTAAGTTTAATATGGGTGATGCTTCTCTATCACATGTTTCTGATGCAGGGCGGATTCAGGCATTATATGACCTTCGAACGGAACATTCCGAAATGGCGCGCAAAGATGGGGGAGCTCCCGAAGGTCAGCGTGCTCATTCCCGCGCATAACGAGGAGGTCGTCATCAGGCAGACGCTGAAGGCGATGGTGAACCTGTATTATCCGAAAGACAGGCTTGAGATCATCGTCGTTAACGATAATTCCTCCGACCGGACGGGAGACATCGTCAATGAATTTTCCCGTCAGTATGACTTCATTAAAATGGTCATCACAAAGCCTCCGAACGCCGGAAAAGGAAAATCTTCGGCGCTGAACTCAGGGTTCGCGGAATCGAACGGAGACGTGATCTGCGTGTATGATGCGGACAATACGCCGGAAAAAATGGCGGTGTACTACCTGGTTCTCGGTCTGATGAATGATGAGAAAGCGGGAGCGGTTGTCGGGAAATTCCGTGTCATCAACGCGGCCAAAACGATCCTGACAAAGTTTATCAATATTGAAACCATCTGCTTTCAGTGGATGGCGCAGGGCGGCAGATGGAAATGGTTCAAAATCGCCACCATCCCGGGGACGAACTTCGCGATCAGGCGGAGCATTATCGAACAGCTCGGCGGCTGGGATGATAAGGCGCTGGCGGAGGATACCGAGCTGACCATCCGCGTGTATAATCTCGGCTACCATATCCGCTTTTTCCCGGCGGCCGTGACATGGGAGCAGGAGCCTGAGACATGGAAGGTCTGGTGGCGTCAGCGGACAAGATGGGCGCGCGGCAACCAATACGTCGTTCTCAAGTTTTTATCCCAATTTTTCAAGCTGAAACGCAAGCGGATCATCTTCGATCTGTTTTATTTCTTTTTTACGTATTTTTTGTTTTTCTTCGGTGTGATCATGTCAAACACGATTTTTATCATCAATCTTTTTTACGACCTGCATCTGGCAGTCGGGTTTTTGGCGATGATTTTGTGGATACTGGCCTTTTTCCTGTTTATGACTGAGGTCATGATTACTTTAAGCATTGAAAAAACAGAAATGAACAAACAAAACTTCTTTATCGTATTTCTGATGTACTTTACATACTCTCAGGCTTGGATCGTGCTCGTCATCTGGTCATTATTCACAGAGATCAAGCACCGCTTGTTCAAGCAGGAAGTCAAGTGGTACAAAACGGAGCGATACAATCAAAATAAAAGCGGGTGA	MSNILFFISLSLIWVMLLYHMFLMQGGFRHYMTFERNIPKWRAKMGELPKVSVLIPAHNEEVVIRQTLKAMVNLYYPKDRLEIIVVNDNSSDRTGDIVNEFSRQYDFIKMVITKPPNAGKGKSSALNSGFAESNGDVICVYDADNTPEKMAVYYLVLGLMNDEKAGAVVGKFRVINAAKTILTKFINIETICFQWMAQGGRWKWFKIATIPGTNFAIRRSIIEQLGGWDDKALAEDTELTIRVYNLGYHIRFFPAAVTWEQEPETWKVWWRQRTRWARGNQYVVLKFLSQFFKLKRKRIIFDLFYFFFTYFLFFFGVIMSNTIFIINLFYDLHLAVGFLAMILWILAFFLFMTEVMITLSIEKTEMNKQNFFIVFLMYFTYSQAWIVLVIWSLFTEIKHRLFKQEVKWYKTERYNQNKSG	PGPT0015297_13	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0015297-ydaM-NA	NA	NA
D1-12_03450	2115			hypothetical protein	GTGACCTTTTTGAAAAAAGCGATCATATTGATAACCGGCCTTTTGCTATTGATGTATAACGGGCAGGCGGCCGCGGCCCGGGAACTGAAAACGGACGGTTCCGCCCTCGGAACAAGCGCCGGCGCAAAAGAGCAGCAGGCGCTGACTGGCGATCTGATGACACTGTACGGGGCGAAAGACAGCGCAGAGCTGACCTATCAGATTCCTGCGGGAGCTTCGAATGCCGATCAGTCGCTTCTGATTGATTACGAGGCGTCAAACTTATTAATTGCCCCGTCTTCTTTAACCATCGCCATTGATGATGAACCCGTCAAATCCATAAAGCTTGACGGCAGTTCCAAGAAGAAAACGGTGAAGCTCAATCTCAGCAAAAGCCAATCCGCCCAAGGCTATCACAATGTATCATTACGATTTTACGGCGTATTAAAAGAGGGCGTCTGCGTCAGGCAGGATACGTCAGGCAACTGGATAAAAATTTATCCCGACAGCCGGCTTGTACTTTCAGAAGCAAGCAAGTCAAAGGGAGCGGATCTCGGCCATTTCCCGTATCCGTTTGCCCAATCAGGCAATACGGGTGAAGAAACCGATATTATTCTTCCTGACAAACCGACCTCGGCGGAAGCTGAAGCCGCAGTCAAAACAGAAGCATTTCTGAAAACGGCAGACAGCAGGCTGAAGGTATCCTATGTAAAAGAATCCGACGCCGGCAAAATCAGCAATCCGTCAATTGTCATCGGCGCTGATCAACATTGGAACGGGAAAATAAAAGAACTTTTCGAACAGGGGAACATCAAAGCGGAAGACAACAAACTTCTTCTCGCTGAACGGGTTCTGACATCAGGGGACAAACGGCAGCCCGTCCTGTTTGTCACGGCGCAATCAGACAAAACGCTGGCGGATAAAATCCGCGTCATCACAGACAGCGCTTATTCAGCTCAGCTGGGCGGAGATACTTTGACAATCGGCCGCCTTCAGCCCGCTGCGGAAAAGACAGGCAATAAACTGACATTAGAGGACTTCGGCGCGGGAAATGTAACGGTCGGATCAAACAAAACGGCGTCAGAGCACTTCTTTTACCCTGCGGCGGCCGCTGTTGATAAAGACGGTAAGGTCAAGCTTTCACTTACATTAAAAACGTCGGAATCGATCCGGACGAAGGCGGATTCAGCAAATGACGCCGAGAGAGCGGAGCTGAACGTCATGGTCAACGGACAGCCGAATGCGGTGCGTCTTGATGATCTCGGCAATAAAGATAAAGACGGCTTTTACCACGTCTCAATCCCGATTGATCCGAAGCTTTTGCGAAGCAGCAGGTACATTGATCTGCAATTTGTCACATCAGGCTTGAAACATAACAATCCGTGTATCGACCGTGACGAAAACAAATGGGTCTATATTGATAAAAGCAGCACGCTGACGTATCCGGTAAGCGATGCGGCGCAGAAAGCTGATTTCGGGCAATGGCCGCTCCCGTTTGCGGGCGGCGGGAAAGAGAAAACAGTGATCGTCATCCCGGATGACGTAAACATGCAGACACTGAAAGAGCTTTCTCTGGTGGCGGATTCATTCGGAAACGGCTTTACCGTAAAGACGGCATCAGACATGAAGGAAGCGGATGCCAAAGGCCGGAATGTTGTGTTTATCGGAGGCCTGCCGCAAATTCCGCTTTTGAAATCAAACGCCTCTAAGCTTCTCGTGCCCTCAGACCGCAGCGGCGCGTACGATGTTTCTTCGTTTCAGATGCTGAATGAGACAACGAAACAAGTCGCGTTTACCCAGGAATCACCTTGGGACTCCGGCCGGAGCATCGCTGTTTTTGCTCCGTTATCAGGCAGCGGCGCGTCTGTCACAAAAGAGCTGATCAGCTTTTTAGACAGCACAAGCGATGCCGCAACCGTCATTAACGAAACGGCCGGCCGGCAGCTGTTTTCGAATCATCAGCAAATCAAGTCCGATGACAGCAGTCCATCGGCTGATACGAAAAGCCGTTCCGCAGCACTAAACGTTACGTATATCGCTGTTTTCGCGGCGCTTATGATCATTGCGGCCGGTCTGATCTGGCTGACGGCAAGAAGGAAAAAAAGAAAAACGGATCATGAAAAAAGCGAAGAGTAA	MTFLKKAIILITGLLLLMYNGQAAAARELKTDGSALGTSAGAKEQQALTGDLMTLYGAKDSAELTYQIPAGASNADQSLLIDYEASNLLIAPSSLTIAIDDEPVKSIKLDGSSKKKTVKLNLSKSQSAQGYHNVSLRFYGVLKEGVCVRQDTSGNWIKIYPDSRLVLSEASKSKGADLGHFPYPFAQSGNTGEETDIILPDKPTSAEAEAAVKTEAFLKTADSRLKVSYVKESDAGKISNPSIVIGADQHWNGKIKELFEQGNIKAEDNKLLLAERVLTSGDKRQPVLFVTAQSDKTLADKIRVITDSAYSAQLGGDTLTIGRLQPAAEKTGNKLTLEDFGAGNVTVGSNKTASEHFFYPAAAAVDKDGKVKLSLTLKTSESIRTKADSANDAERAELNVMVNGQPNAVRLDDLGNKDKDGFYHVSIPIDPKLLRSSRYIDLQFVTSGLKHNNPCIDRDENKWVYIDKSSTLTYPVSDAAQKADFGQWPLPFAGGGKEKTVIVIPDDVNMQTLKELSLVADSFGNGFTVKTASDMKEADAKGRNVVFIGGLPQIPLLKSNASKLLVPSDRSGAYDVSSFQMLNETTKQVAFTQESPWDSGRSIAVFAPLSGSGASVTKELISFLDSTSDAATVINETAGRQLFSNHQQIKSDDSSPSADTKSRSAALNVTYIAVFAALMIIAAGLIWLTARRKKRKTDHEKSEE	PGPT0022280_857	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022280-bcsB|celB-K20541	NA	NA
D1-12_03452	1821	kimA	COG0531	Potassium transporter KimA	ATGTACCATTCAATCAAAAGATTTTTGATTGGGAAACCGCTGAAATCACAGGCGGCCGGAGAGCAGAAACTCACGAAACTCAAGGCGCTCGCCATGCTTTCTTCAGACGCGCTGTCATCAGTTGCTTACGGAACGGAACAGATTCTGATCATTTTGGCTGCGGTAAGCGCGGCCGCGTTTTGGTATTCCATTCCGATCGCAGCCGGCGTTCTCATTTTGCTGCTTGCTTTGATTCTGTCCTACAGACAGATTATTTACGCTTATCCGCAAGGCGGGGGCGCTTATATGGTTTCAAAAGAAAACCTTGGTGAGAAGCCGGGTCTGATTGCGGGCGGCTCATTGCTTGTTGATTATATTCTGACGGTGGCGGTAAGCATTTCTGCCGGAACTGACGCCATTACATCGGCATTTCCGGCCCTGCACCCGTATCATTTACTCATTGCTGTTTTGCTTGTAATTCTGATTATGATTTTAAATTTGAGAGGACTGTCAGAGTCGGCGTCCATTTTGGCGTATCCCGTCTATCTGTTTGTGGCGGCGCTTGTCCTTTTGATCGTCGTCGGACTGTTTAAGCTCATGACGGGCCAGGTTCATCCGGCCGAACACACGCCGATCGGCACACCCGTGGCGGGCATCACGCTGTTTTTGCTGCTGAAGGCCTTTTCATCCGGCTGTTCGGCACTGACCGGTGTGGAAGCCATTTCAAACGCGATCCCGGCCTTTAAAAATCCTCCGGCAAAAAACGCGGCCCGCACTTTGGCCATGATGGGGATTCTGCTGGCGATCTTATTTACGGGGATTACGGTGCTGGCGTACGGATACGGCACGGGACCGAAGCATGACGAGACCGTTATTTCGCAAATCGCCGCGGAAACTTTCGGACGGCATACGGTGTATTATTTCATTCAAGGCGTTACATCCTTGATTCTCGTGCTTGCGGCGAATACGGGCTTTTCCGCTTTTCCGCAGCTGGCGTTTAATTTAGCGCGCGATCAGTATATGCCGAGAATGTTTACGGTACGAGGCGACCGGTTAGGATTTTCAAACGGAATCATCTTTCTCGGTATCGCATCCATCTTGCTCATTCTTTTATTCGGCGGCCGCACGGAACATTTAATTCCGCTTTATGCCGTCGGCGTGTTCATTCCGTTTACGCTGTCGCAGACGGGAATGTGCATCAAGTGGATCAGGCAGAAGCCGAAGGGCTGGGCGGTAAAAATGCTGATCAACTCATGCGGCGCCGCCATTTCATTTATGGTGCTGTGTATTTTATTCGCGACGAAGTTCAATCTTGTCTGGCCGGTGCTGTTATTCATGCCTGCTGTCGTCATGCTGTTTTTCGTCATTAAAAATCACTACACCGCGGTCGGCGAACAGCTGCGGGTCGTTGATCAGCAGCCTGAGGAAATCAGGGGAACCGTCGTCATCGTGCCTGTCGCCGGTGTCACCACCGTCGTCCAAAAATCGATTCAGTATGCGAAATCATTATCGGATCAGGTCATTGCGGTTCATGTTTCCTTTGACAGAGAAAACGAAAAAAAGGTGGAAAAGCGCTGGGAAGAACTTCATAACGGCGTCCGCCTCGTCACCCTGCATTCCTCATACCGCAGTTTGGTTCACCCGTTTGATAAGTTTTTAGAAACGGTCGAACAAAAAGCGAAAAAAGAACAGTTCTCCGTGATGGTGCTGTTTCCGCAATTCATTACGAAAAAACGCTGGCAGACCATCCTTCACAACCAATCAGCCTTTTTACTCCGCGTCCGGCTGTTTTGGAAGAAGGACATCATCGTCGCCACCCTGCCGTATCATTTTAAAAAGTAA	MYHSIKRFLIGKPLKSQAAGEQKLTKLKALAMLSSDALSSVAYGTEQILIILAAVSAAAFWYSIPIAAGVLILLLALILSYRQIIYAYPQGGGAYMVSKENLGEKPGLIAGGSLLVDYILTVAVSISAGTDAITSAFPALHPYHLLIAVLLVILIMILNLRGLSESASILAYPVYLFVAALVLLIVVGLFKLMTGQVHPAEHTPIGTPVAGITLFLLLKAFSSGCSALTGVEAISNAIPAFKNPPAKNAARTLAMMGILLAILFTGITVLAYGYGTGPKHDETVISQIAAETFGRHTVYYFIQGVTSLILVLAANTGFSAFPQLAFNLARDQYMPRMFTVRGDRLGFSNGIIFLGIASILLILLFGGRTEHLIPLYAVGVFIPFTLSQTGMCIKWIRQKPKGWAVKMLINSCGAAISFMVLCILFATKFNLVWPVLLFMPAVVMLFFVIKNHYTAVGEQLRVVDQQPEEIRGTVVIVPVAGVTTVVQKSIQYAKSLSDQVIAVHVSFDRENEKKVEKRWEELHNGVRLVTLHSSYRSLVHPFDKFLETVEQKAKKEQFSVMVLFPQFITKKRWQTILHNQSAFLLRVRLFWKKDIIVATLPYHFKK				NA	NA	NA	NA	NA
D1-12_03453	447	rppH_2		RNA pyrophosphohydrolase	ATGGCTCAAGGCGCTTTTGTCATCATACAAAATGAGGAGCGGAAGATATTGCTCGTAAAACGAAAAGACATTCCCTTATGGGATTTGCCCGGGGGCAGGATCGCAGAAGGTGAAACACCTGAATCCGCAGCCGTAAGAGAGGCCTTCGAAGAAACCGGTTATAACGTGACCATCATAAAAAAAGCCGGTGAGTATGAAAGGCCGGCATTTGAAGATACACAACATGTCTTCATCGGAGCCATTACCGGAGGAACACCGCTGATGAACGGGCCGGAAACCGCCGCATTACGCTGGTTTTCCCCAAACCGGCTGCCGCTGTTCATGGTGCCGAACAGGAAACTCCAAATAAAAGACGGACTCAATGGGGCGGCAAATCGTAAGGCAGTCCTTAAAGACCGAAATCTGTTATCCATCCTTGATCTGCTGAGAAAAAAGCTGAGAGTATAG	MAQGAFVIIQNEERKILLVKRKDIPLWDLPGGRIAEGETPESAAVREAFEETGYNVTIIKKAGEYERPAFEDTQHVFIGAITGGTPLMNGPETAALRWFSPNRLPLFMVPNRKLQIKDGLNGAANRKAVLKDRNLLSILDLLRKKLRV				NA	NA	NA	NA	NA
D1-12_03454	1722	ydaP	COG0028	Putative thiamine pyrophosphate-containing protein YdaP	ATGCCAAGTAAAACAGCAGGACACGTAATGACGGAGCTGCTTGAACAATGGGGAGTCGGTCATATATACGGCATTCCCGGAGACAGCATTAATGAATTTATCGAAGAACTGAGACATGAACGAAATAACCTGACATTCATCCAAACCCGGCACGAAGAAGTCGCAGCCCTGGCCGCCGCGGCTGAGGCAAAACTGACCGGGCAGATCGGTGTCTGCCTTTCAATCGCAGGACCGGGGGCCGTTCATCTGCTGAACGGTTTATACGACGCCAAAGCGGACGGTGTTCCGGTGCTGGCGATTGCGGGACAGGTTGCCTCAGATGAAATCGGCCGTGACAGCTTTCAGGAAATCAAATTAGAGCAAATGTTTGAGGACGTGGCGGTGTTCAACCAGCAAGTACATACGGCAGAAGCGCTGCCCGATCTTCTGAATCAGGCGATCCGCACGGCTTACAGCAAAAAAGGCGTTGCCGTTTTAACCGTTTCTGATGATTTATTCGCGCAAAAAATCAAACGGGAGCCGGTTTACACATCGCCGATATACCTCAAAGCTGATATAGAGCCGAAAAAAGAACATCTCGTGACATGCGCGCAATATATTAACAACGCAAAAAAACCGGTCATTCTCGCCGGCCAAGGGTTAAAATCAGCAAAAGAGGAGCTGCTCGCATTCGCCGATAAAGCGGCCGCTCCGATTGTCATTACCCTTCCGGCAAAAGGCGTCGTGCCTGACAGCCATCCCCACTTTCTCGGGAATCTCGGGCAAATCGGCACAAAGCCCGCCTACGAAGCAATGGAGGAATGCGATCTGCTGATCATGCTCGGTACGTCGTTCCCATACAGGGATTATCTCCCGGATGATACGCCTGCTATTCAGCTTGATTCGGATCCGGCGAAAATCGGGAAGCGCTATCCCGTCAATGCGGGAATCGTCAGTGATGCGGCTCTGGGACTGAAAGAGCTGACGGAATACATTGAATATAAAGAAGACAGAAGATTTTTGGACGCCTGCACCGAGCACATGAAGCATTGGTGGAAGGAAATCGAAAAGGATGAAACCGAAGCGACTCATCCGCTCAAGCCGCAGCAGGTCATTGCCCGGCTTCAGGATGCCGCCGCAGAGGACGCCGTCCTGTCGGTGGATGTCGGAACGGTTACGGTGTGGATGGCCCGCCATTTTAAGATGAAGAAGCAGGACTTTATCGTCTCAAGCTGGCTCGCCACGATGGGATGCGGGCTTCCGGGAGCGATTGCCGCAAGCCTTGCCGAACCTGAGCGGCAGTCCATCGCCATTTGCGGAGACGGCGGATTTTCAATGGTGATGCAGGATCTGCCGACGGCTGTTAAATACAAACTGCCGATTACGGTTGTCGTTTTAAACAACGAAAATTTAGGCATGATTGAATATGAACAGCGGGTCAAAGGCAACATTGACTACGTCACCCAGCTGCAAAATATGGATTACGCCGCCTTTGCAGAAAGCTGCGGGGCAAAAGGCATCAAAGTGACGAAACACGAGGAATTGGCTCCCGCTTTTCATGAAGCGCTCAACTCAAATGAGCCGGTGGTCATCGACGCCGTCATCGGCGACGAGCCGCCGCTTCCGGGAAAAATCACTTACGGCCAAGCGAAGGGCTTCAGCAAATACATGCTGAAAAACTTCTTTGAAAACCAAAAAATCGAAATGCCGTCACTCAAGAAAAGCTTAAAACGGCTGTTTTAA	MPSKTAGHVMTELLEQWGVGHIYGIPGDSINEFIEELRHERNNLTFIQTRHEEVAALAAAAEAKLTGQIGVCLSIAGPGAVHLLNGLYDAKADGVPVLAIAGQVASDEIGRDSFQEIKLEQMFEDVAVFNQQVHTAEALPDLLNQAIRTAYSKKGVAVLTVSDDLFAQKIKREPVYTSPIYLKADIEPKKEHLVTCAQYINNAKKPVILAGQGLKSAKEELLAFADKAAAPIVITLPAKGVVPDSHPHFLGNLGQIGTKPAYEAMEECDLLIMLGTSFPYRDYLPDDTPAIQLDSDPAKIGKRYPVNAGIVSDAALGLKELTEYIEYKEDRRFLDACTEHMKHWWKEIEKDETEATHPLKPQQVIARLQDAAAEDAVLSVDVGTVTVWMARHFKMKKQDFIVSSWLATMGCGLPGAIAASLAEPERQSIAICGDGGFSMVMQDLPTAVKYKLPITVVVLNNENLGMIEYEQRVKGNIDYVTQLQNMDYAAFAESCGAKGIKVTKHEELAPAFHEALNSNEPVVIDAVIGDEPPLPGKITYGQAKGFSKYMLKNFFENQKIEMPSLKKSLKRLF	PGPT0007160_432	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_INDOLE-3-ACETALDEHYDE_METABOLISM,PGPT0007160-poxL-K00158	NA	NA
D1-12_03455	438			hypothetical protein	ATGATAATCAGAAGCGCAGAACCCTATGATGTAAAACAATTGACCAATTTAATGTATTTATATATCGTGGATTTTTATAAAAGGCCTAAGCCACCGATTGAAAAGATACATCATTTAATTGAAATGTTATTTGAGAAGAACAGGGGTATTCAATTCGTTGCTGAACAAGATGGGGAACTTGTTGGCTTTGCAACATTATATTTTAGTTTTAGTACGACGAAAGCAGATAAAATAACAGTAATGAATGATTTATTCGTGATAGAAAAAGCAAGAGGTACAGGAGCAGCCAAAGAATTGTTTAAAAGTTGCGAGAGATTTACAAAAGAAAACGGGTATGCGCATATGTCGTGGATAACTGCATCCGATAATTACCGTGCACAAAAATTCTATGAAAAGATGGGTGGCTCTCTTGGAACTTGGCTGACCTATTCCATTTAA	MIIRSAEPYDVKQLTNLMYLYIVDFYKRPKPPIEKIHHLIEMLFEKNRGIQFVAEQDGELVGFATLYFSFSTTKADKITVMNDLFVIEKARGTGAAKELFKSCERFTKENGYAHMSWITASDNYRAQKFYEKMGGSLGTWLTYSI				NA	NA	NA	NA	NA
D1-12_03456	231			hypothetical protein	ATGATATTGTTTATTGGCAAGTTCATGTTGCTCTTTTTACTCTGTTCGCTGGCATATTATTTGTTTAAAATTGTTTATTACAATATAGGGAAGAACATTGCGCTTAAAACCCCGAAAGGGACACAGACAAACCGGACGGCACATGTGTTTGTCAAAAATGGAACTACACTGAATGATGGAGATTACTTTATGATCGCTGTTGTGACCGCTCTCTGGCTGTTCTTGAGATGA	MILFIGKFMLLFLLCSLAYYLFKIVYYNIGKNIALKTPKGTQTNRTAHVFVKNGTTLNDGDYFMIAVVTALWLFLR				NA	NA	NA	NA	NA
D1-12_03457	180			hypothetical protein	ATGAGGATCATGACATATATATCCTACTTTTCTATTTCTTTAGTTTTGCAGGTGGTATGGCTGCTATTAATAAAAGATACTCCTAATATATTTCTGATAGATATGATTACGGTGTCCTTCTTATTCACCCTCTTTATGTTCATCTTAGATCAAATTTTCAAAAAAAAGCGGACACATTAG	MRIMTYISYFSISLVLQVVWLLLIKDTPNIFLIDMITVSFLFTLFMFILDQIFKKKRTH				NA	NA	NA	NA	NA
D1-12_03458	558			hypothetical protein	ATGACTGTCTTTTTTACTGTTTTGCTCACTTTCTTATGCTGCCTTGTGATTTCATCTCTTATTTTTATGATTCTATTAAAAAAAGAGATCGTGGATACACCGCCAAACCGCTTAGCTCATGCAGCATTCATCATACTTATTGGATTCGCCCTGTTCTTCGCTATAACTGTACCTAGCCTAGTTATTTATTTTGTAGCTATAACTGTAAATCATTTTTTCGGAGAGTATATCATCTATGGTTCACTTTCAGACTTATACATATTTTCTGTCGTCGTCAGTATTTTAGCTTTAGTTTATATGCTTATCCTTACGGCAATTGTAAAAGGAATGACTCATGTTTTGACATTGCCTGCTTGGTTAGCCTATATACTTGAATTCATTTTTGCATGGGCTGCTGTTTACTTCTCAGTTCAATACGTTTCCAATCATATCATTGAGAACATATCTATATTTCAAGGTGGAGAAGTGCTTCTTTCATTGTTCATCACTTTCTTATTTTCGGGATTGGATATCCTTTTCACTAATTTGGATAAGATCACAAAAGAGAAATTAGGTTAA	MTVFFTVLLTFLCCLVISSLIFMILLKKEIVDTPPNRLAHAAFIILIGFALFFAITVPSLVIYFVAITVNHFFGEYIIYGSLSDLYIFSVVVSILALVYMLILTAIVKGMTHVLTLPAWLAYILEFIFAWAAVYFSVQYVSNHIIENISIFQGGEVLLSLFITFLFSGLDILFTNLDKITKEKLG				NA	NA	NA	NA	NA
D1-12_03459	618			hypothetical protein	ATGAAAATCCTATTTACCCCAAAAATACCTATTGATAGAATGGTATCTGAGAGGGGAAAATGTTCAAAGCGGATAATAAAGGTCCCGCCTAAATACATAGTCTTTCATTTCTCTCTACACTACATTTCTAAAGGAGGATTTCCCATTAGACACGCAGCTAAAGGCATTCTGTTTGCCGCATCTTTAGCCCTTGTAACTACTACTTTTGTCCCCGCATCCTTAGCTAAAGAAAATCATAATAATACTGCCAATGCCACTGGAACGACCAAATCATTTTTTTATCAGACTGATACGCAATTTTCCTACGGACTTAAAGCACAAAGCGATGCATCTGTGTCAAAACCAGTCAAAGATGTAATCAGAGAAGTGCTGAAAAATAAAACAAAATTATTCAATCTTGTTGAAAAATTAGCAGGAAAGAAAATAAGAAATGAACTTGAATCCGTTTTCAATCAACACATAGAACCGGTTTTAAAGAAAATGCTGAACGAGTATGTCGCCTTAAGCTGGACTGACGTGGAAAAGAATCTTTATCTTTCACTTAAAAAGTCCGGACTTTCTGACATCCAGGCTAAAAACCTCGCTCATTTGACAACTTTAGCAATGAAAGCATTTTAA	MKILFTPKIPIDRMVSERGKCSKRIIKVPPKYIVFHFSLHYISKGGFPIRHAAKGILFAASLALVTTTFVPASLAKENHNNTANATGTTKSFFYQTDTQFSYGLKAQSDASVSKPVKDVIREVLKNKTKLFNLVEKLAGKKIRNELESVFNQHIEPVLKKMLNEYVALSWTDVEKNLYLSLKKSGLSDIQAKNLAHLTTLAMKAF				NA	NA	NA	NA	NA
D1-12_03460	267			hypothetical protein	ATGTCAGTATTTATCCTTTTTTATCTGTGGATTGTGCCGATTGTCATCGGCATCTTCTGTTCTCTTTTTGCTTATCGGACAACGGGTAAGAAACGTCTGATTCCCGGCTTTTTGATGATCGCATTAAGCATCGTTTCCTTAATCACGGGGCTTTGGATCGGCGGGGTGAACTATCATGTGTTCATCGGGGGCATGTTTTTATTCGGTACGTTATTGGCCGGCTCCGCCTTCCCGTTTTTCTTCGCTCTTTCACGCAAACGAAAATAA	MSVFILFYLWIVPIVIGIFCSLFAYRTTGKKRLIPGFLMIALSIVSLITGLWIGGVNYHVFIGGMFLFGTLLAGSAFPFFFALSRKRK				NA	NA	NA	NA	NA
D1-12_03461	1275	mntH	COG1914	Divalent metal cation transporter MntH	ATGAGCAAAGACATCTCAGCACAATCACTGCAATCAAAAGCCGTGCAGGATGCACTTGACGGCAAAAGCAAGGGATTCAAACGGCTTCTGCCTTTTTTAGGCCCCGCCTTTATCGCGGCGATTGCCTACATTGATCCGGGAAACTTCGCTACGAATATCTCAGCTGGTTCGAAATATGGGTATATGCTGCTGTGGGTCATCCTCTTTTCAAACTTGATGGCTTTTTTAATTCAAGTTCTTTCCGCGAAGCTCGGCATTGCCACGGGTAAAAACCTTCCGGAAATCGCCAGAGACCGGTATCCGAAATGGGTATCCGCCGGGCTGTGGATACAGGGTGAACTGGTGATTATGGCAACTGATCTGGCAGAATTTATCGGGGCGGCGCTCGGGCTCAACCTGCTGTTCGGCATACCGATGGTTGAAGCGGCCATTATCGCGGCGATCGGATCATTCGCGATTTTAGAGCTGCAGCGCAGGGGTTACCGGGCGCTGGAAGCGGGCATCGCCGGACTTCTGTTTGTTGTGGTGATCGCCTTCGCTCTGCAAACCTTCTTTGCCAAACCTGACGCCGCCTCCGTTCTCGAAGGGCTGTTTATCCCGAAAATTGACGGAATGGACAGTGTGCTCTTGGCAACCGGGATACTCGGCGCAACCGTGATGCCGCATGCCATTTACTTACATTCCGCACTGACACAGCGCCGTGTCGTCGGAAAAACGGATAGTGAGCGGAAAAAGATTTTTAGATTCGAGACGATTGACATACTTATCGCGATGGTGATCGCCGGGGCGATTAACGCAAGCATGCTCATCGTCGCTGCCGCGCTTTTCTTCAAGAACGGGCTGTATGTAGAAGATTTAGACGTGGCTTATCAGCAATTCGGCCACTATATCGGACCGGCTTCAGCCATTCTCTTCGGGATCGGGCTGCTGGCCGCAGGGCTTTCAAGCTCTTCTGTCGGCACATTGTCAGGCGATATTATCATGCAGGGCTTCATCCGTTACCGTATCCCGCTTTATTTGCGGCGTTTCATTACCATCATTCCGCCGATGATCATCATTATCTCGGGGGTCAACGCCACAGAAGCGCTCGTATGGAGCCAGGTCGTTCTTTCATTCGGCATCGCCTTTGCGCTCGTGCCGCTGATTATGTTTACAAGCAACAAACGCCTGATGGGCGCCCTGACGAACCGAAAATGGGTGACGGCTCTCGCCTGGCTGATTGCGGTTTTGGTGATCGCGCTTAATCTGTTTGTGATCTACGATTCATTCCGTTAG	MSKDISAQSLQSKAVQDALDGKSKGFKRLLPFLGPAFIAAIAYIDPGNFATNISAGSKYGYMLLWVILFSNLMAFLIQVLSAKLGIATGKNLPEIARDRYPKWVSAGLWIQGELVIMATDLAEFIGAALGLNLLFGIPMVEAAIIAAIGSFAILELQRRGYRALEAGIAGLLFVVVIAFALQTFFAKPDAASVLEGLFIPKIDGMDSVLLATGILGATVMPHAIYLHSALTQRRVVGKTDSERKKIFRFETIDILIAMVIAGAINASMLIVAAALFFKNGLYVEDLDVAYQQFGHYIGPASAILFGIGLLAAGLSSSSVGTLSGDIIMQGFIRYRIPLYLRRFITIIPPMIIIISGVNATEALVWSQVVLSFGIAFALVPLIMFTSNKRLMGALTNRKWVTALAWLIAVLVIALNLFVIYDSFR	PGPT0004370_1686	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
D1-12_03462	354			hypothetical protein	TTGGTACGTCGTTTGTCGATCATTTCTTTAGCCATGATTTTTGCTGTTTCTTTATTCGCTTTTGGCGGCTCTGCATCAGCAGCAGCTTTCAAACCTAAAGCTGAACCGGACGTTTCCATTTTAGCCAGCGGGGGTACAGTCGGTATTTACGGTGCTAATATGCGCTCATGCTCTAAGGTCAGCTGTTCAACGATCACAACATTCTCAAGCGGTAAAAAAATTACAGGTTCTTGGGTAACCGGAGAATATGTTCAAGGCCACTACACCAATTCTAATAAATGGCTGAAAGTCACGTATGCAGGAGCGACAGGCTACGTTTCAGTCACCACACTATCTTATTATTACGGTTTATAA	MVRRLSIISLAMIFAVSLFAFGGSASAAAFKPKAEPDVSILASGGTVGIYGANMRSCSKVSCSTITTFSSGKKITGSWVTGEYVQGHYTNSNKWLKVTYAGATGYVSVTTLSYYYGL				NA	NA	NA	NA	NA
D1-12_03463	225			hypothetical protein	ATGCCTTGGTCTATGAAGGATTATCCGCAATCATTGAAGAATCTCGAGGAACCTGTGAAGAAAAAAGCGATCGAAATCGCGAATGCGATGATAGATGAGGGTTATGAAGAAGGACGGGCCATTCCCATTGCGACAAGTCAGGCGAAAGAGTGGAAAAAAAACGCTTCTAAGGAAGAAATCGATCAGCTGATGAAACACGATGATGAAACGAAACGCGGAAATTGA	MPWSMKDYPQSLKNLEEPVKKKAIEIANAMIDEGYEEGRAIPIATSQAKEWKKNASKEEIDQLMKHDDETKRGN				NA	NA	NA	NA	NA
D1-12_03464	408			hypothetical protein	ATGATGAAAGGGTTAAAGGTTCTCTTCCTCATTACAGATATTGGATTTATCGTTTATTGGATTGTTACTTTTTTTGAGTGGATTCCAAAAAACATGGTGTTTAAAGATTATGATAACGCCATGATCATGGCCTGGAACTGGTCATTCTTTCCCTTAGATATTTTCATTTCGATAACCGGGCTGTACAGCTTGTTTCTTTATAAACGGAAACATGCATTATGGCGCTCTTTCACATTAATATCACTTGTGCTGACCTTTTGTTCAGGCCTGCAAGCGATTGCCTTTTGGGTATTTATCGGCGATTTTGATTTTATGTGGTGGGCATTCAATCTGTACTTGCTTCTTTATCCTTTATATTTTATTCGGAAATTGCTGGTCTCTCATAAAAATAGCTGTCATTCTTTTTGA	MMKGLKVLFLITDIGFIVYWIVTFFEWIPKNMVFKDYDNAMIMAWNWSFFPLDIFISITGLYSLFLYKRKHALWRSFTLISLVLTFCSGLQAIAFWVFIGDFDFMWWAFNLYLLLYPLYFIRKLLVSHKNSCHSF				NA	NA	NA	NA	NA
D1-12_03465	366	emrE	COG2076	Multidrug transporter EmrE	ATGCAATGGATTTATTTAAGTTTAGCGATCATTTTTGAAGTATTGGGTACGGTCAGCATGAAATTATCAAATGGATTTACAAAACTTGTCCCAAGTATTTTATTATTATTGTTTTATATCGGCAGCCTTTGTTTTCTTACTTTGACTTTGAAATATATAAGTGTCTCCATCGCGTATGCGGTCTGGTCGGGAATGGGGATCGTGCTGATTTCCATGATCGGAATTTTTTTCTTTCATGAACAGTTCTCTGTCATAAAAGCTGTCTCTGTTCTTCTGATCATCATCGGTGTCGTTTCCTTAAACTTTATTTCTGAAAGTGAAACGTCATCAAACGGCATCAGCGTTCATACGGATAGAAACAGATGA	MQWIYLSLAIIFEVLGTVSMKLSNGFTKLVPSILLLLFYIGSLCFLTLTLKYISVSIAYAVWSGMGIVLISMIGIFFFHEQFSVIKAVSVLLIIIGVVSLNFISESETSSNGISVHTDRNR	PGPT0029230_234	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
D1-12_03466	807			hypothetical protein	GTGACAGAAGAGCGGACAGACCTGGAAAGACAACTGAGAGACATTCAAAAATGGGAAAAGGCGCAGCAGAGGGTGATGTTCTGGCAAACATTCACCCGCTTGCCGTTTCAGCTTTTGGACAAGCTGACACCGCAATTTATTCAGAGGAAAATCGGACTCATTCTCGATGAAACGGGAACGTTTATTCAGTCAGGCGGACAGTACCTTACATCAGAAAAGCGCATCATGAAAAAGTTTCAAAAACGGCTGCCGCACGGTACATGTCAAACGCTTCACGACATCCGCAATGCGCCGCTTGCCGTCATGGACGAAATCGCAGAAGCCATAGCGCGTACAAGCGTAAAGGCCGCGACGGTGCAGGGGGCCGCAACGGGAGTCGGCGGCGTATTCACGCTGGCGGCAGACATTCCGGCGATGCTCGGCCTGTCCTTAAAGACGCTGCAGGATATCGCGGTTGCTTACGGCTTTGATCCGAAAGACAAAAAAGAACGCGTGTTTATCGTCAAATTGCTTCAGCTTGCATCCAGTGACGTCATCGGAAAAAAAGCGATCCTGCAAGATTTACGGCAATATGATCAAAACGACCGCGTCTATCAGCGCGTCGCCTCGCAAATCCAAGGCTGGCGGGAAGTCGTTTACAGCTACCGCGATACGTTCGCCGCGAAAAAACTGCTGCAAATGGTTCCGGCCGCAGGCATCATCTTCGGCGCGTCCGCCAACCGTTCAGCTTTAGAAAGCATCGCGGAAACAGGCATCATGCTTTATAAAAAACGCCGGATTCTAAAACGCATGAAGGATACAGAATAA	MTEERTDLERQLRDIQKWEKAQQRVMFWQTFTRLPFQLLDKLTPQFIQRKIGLILDETGTFIQSGGQYLTSEKRIMKKFQKRLPHGTCQTLHDIRNAPLAVMDEIAEAIARTSVKAATVQGAATGVGGVFTLAADIPAMLGLSLKTLQDIAVAYGFDPKDKKERVFIVKLLQLASSDVIGKKAILQDLRQYDQNDRVYQRVASQIQGWREVVYSYRDTFAAKKLLQMVPAAGIIFGASANRSALESIAETGIMLYKKRRILKRMKDTE				NA	NA	NA	NA	NA
D1-12_03467	372	gsiB	COG3729	Glucose starvation-inducible protein B	ATGGCACAAGATAATAACAAAATGAGCAGAGAAGAAGCAGGTAAAAAAGGCGGAGAAGCGACAAGCAATAACCATGACAAAGAATTCTATCAGGAAATTGGTCAAAAAGGCGGAGAAGCCACAAGCAAAAATCACGACAAAGAATTCTATCAGGAAATCGGTGAAAAAGGCGGAGAAGCCACAAGCAAAAATCACGACAAAGAATTCTATCAGGAAATCGGTGAAAAAGGCGGAGAAGCCACTAGCAATAACCATGACAAGGAATTCTATCAAGAAATCGGCCAAAAAGGCGGAGAAGCCACTAGCAAAAATCATGACAAAGATTTTTATAAAGAAATCGGCCAAAAAGGCGGAAACAGACGAAGCAGCTAA	MAQDNNKMSREEAGKKGGEATSNNHDKEFYQEIGQKGGEATSKNHDKEFYQEIGEKGGEATSKNHDKEFYQEIGEKGGEATSNNHDKEFYQEIGQKGGEATSKNHDKDFYKEIGQKGGNRRSS				NA	NA	NA	NA	NA
D1-12_03468	342			hypothetical protein	GTGTCTGACATGCTGAATTTGCTCGCTATCGCCAATAAAGTCAAAGAAAAACACGACAATTTTTCAATCGCGGAGATCAATGACCACTGTGTGCGCCTCGCAGTGTTTACGGGAGAATATGACTGGCACCATCACCCTGACTCAGATGAATGGTTCATCGTTCTGGAAGGGGAGCTGCTGATTGATTTTAAGGACAAAGAAACCGCAGTGCTCAAAGCAAATGACAGCCTGCTCATCCCGAAAGGCACGATTCACCGCACCCGCTCTTACGTCAGAACCGTCAATCTCTGTGTCGAGCATGCGCATGCGAAAACAGTCATCACAGAGGAACGGTCATGCTGA	MSDMLNLLAIANKVKEKHDNFSIAEINDHCVRLAVFTGEYDWHHHPDSDEWFIVLEGELLIDFKDKETAVLKANDSLLIPKGTIHRTRSYVRTVNLCVEHAHAKTVITEERSC				NA	NA	NA	NA	NA
D1-12_03469	360			hypothetical protein	ATGCTGATCAAAAAGATTGTATGTGAAACAGACGCCGCAAACGCTGAAGCATTTGCGCAAGCACAGTCAAGGTGGGGAGCATTATCATGTGTAAATGGCTTCGTCAAACAGGCCGGCGGCTGGCGGAAAAACGCAGACGGCCTGTTCATTGCAGAGATCATCAGCGTTTGGGAGAACAGACAGGCCTATGATGATTTTATGGAGAACGAACATGACCGCATATACGAAGAAAACGAGCAGAAGGCTGCGATTCTTTCAATAGAAGTGATGCTGTACGAAGAGGATGAACCTGTCATTTATAAGCTGTTACATCACCCGGACATTCAATACGAACCGGACTGGACGGTTCTGAAGGCATAA	MLIKKIVCETDAANAEAFAQAQSRWGALSCVNGFVKQAGGWRKNADGLFIAEIISVWENRQAYDDFMENEHDRIYEENEQKAAILSIEVMLYEEDEPVIYKLLHHPDIQYEPDWTVLKA				NA	NA	NA	NA	NA
D1-12_03470	822	ydbD_2	COG3546	putative manganese catalase	ATGTTTACACATACGAAAAAACTGCAGCATCCGGCTAAACCGGATCGTCCTGACCCGCTGTTCGCAAAAAAGATGCAGGAAATTTTAGGGGGACAATACGGGGAAATATCCGTCGCCATGCAATATTTGTTCCAAGGATGGAATACACGGGGCAATGAAAAATATAAGGATCTTCTGATGGATACCGCGACGGAAGAAATCGGCCATGTCGAAATGATCGCGACGATGATTGCGAGACTGTTAGAAGACGCCCCGCTGGCAGAGCAGGAAAAAGCGGCTGATGATCCGGTCATCGGGTCCATTTTAGGCGGCATGAATCCGCATCATGCGATCGTGTCAGGACTCGGCGCAATGCCGGAGAGCAGCACGGGCGTTCCGTGGAGCGCAGGCTATATCGTCGCAAGCGGAAACCTTCTGGCAGACTTCCGCGCCAATCTGAACGCCGAATCACAAGGAAGGCTTCAAGTCGCACGCCTGTATGAAATGACCGATGATAAAGGCGTGAAAGATATGCTCAGCTTTTTATTGGCCCGCGATACCATGCATCAAAACCAATGGCTTGCGGCCATTAAAGAATTAGAAGAACAGGAAGGTCCGATCGTTCCTTCCACATTCCCGAAGGCGCTGGAAAAACAGTCATTCTCCCATAAGCTTATTCATTTCTCAGATGGCGGACAAAGCGCTGAACAAAATTGGCTGAAGGAAACAGCGCCGGACGGAGAACCATTCGAATACGAAAAAGAACCGAAAGCGCACGGCGAAATAGCTAAGCTGGACCCTGTCCCGCCGTATGTCCACAACACGCTTCCCGGACGCGAGTAA	MFTHTKKLQHPAKPDRPDPLFAKKMQEILGGQYGEISVAMQYLFQGWNTRGNEKYKDLLMDTATEEIGHVEMIATMIARLLEDAPLAEQEKAADDPVIGSILGGMNPHHAIVSGLGAMPESSTGVPWSAGYIVASGNLLADFRANLNAESQGRLQVARLYEMTDDKGVKDMLSFLLARDTMHQNQWLAAIKELEEQEGPIVPSTFPKALEKQSFSHKLIHFSDGGQSAEQNWLKETAPDGEPFEYEKEPKAHGEIAKLDPVPPYVHNTLPGRE	PGPT0013240_916	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
D1-12_03471	1053	dctP	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	ATGAAAAGCTTGCTGACTTGTCTCAGCCTGATGGTACTCGGTATCGGAACCGCTTTATTCATCGGCTTTCATGATCGTTTCTCAACGGAAGAACCGTATTATGATGACGAACAGGAAGGCCTGAAAGATCAAATCGTTTTCAAATTCAGCCATGTCGTTGCTGAAAACACGCCAAAAGGGCGGGCGGCGAATAAGTTTGCCGACCTTGTCTATCAAAAGTCCGGCGGCACCATTAAAGTAGAGGTGTTTCCAAACGGGAGCCTCTATTCAGATAATGAAGAAATAAACGCCCTTCAAAACGGGGACGTGCAATTCATCGCTCCCTCCACCTCAAAGCTCGGATCACTGTCTCCCGAATGGGGTGTTTTGGATCTGCCGTACGCGTTTACAAACTATAAAGCCGTGCAAGAAGGCCTCAACGGCAAAATCGGCACACGCCTGTTCGCTTCATTAGAAAAGCATCATTTGAAAGGACTGGCGTACTGGACGAACGGGTTTAAGCAGCTCACGTCAAATAAAGGGCCGATCTTCACTCCGGACGATTTGAAAGGACAGGCGCTCAGGATCATGCCGAGCAGCGTGATCGAAGACCAGTACCGCCTGCTCGGCGCGCACCCGCGGCAGGATTCCTTTAATTCCACGTTTCAGCTCTTGGAAAGCAATCTCGTAGACGGAGAAGAAAATACGATTTCAAATATCTATTCTAAAAAATTTTATAATGTTCAAGATTATTTGACAATCAGCAATCACGGGTACCTCGGTTATGCCGTGATGACCGACGAGCATTTCTGGAATTCGCAGACAGAAAAAACGAAAACCATCTTAACGGAGGCGATGAGAGAAACGACGGAATGGAACGAAGCCTCCGCTGAGAAAATGAATAAAGACCAGCTTGAAGAGATAAAGAAGAATTCATCCATTCATATTCATGTGCTGAGCAAAGCGGAAAAGAACACATGGATGAAACGCCTCGACCCGATTTACGAACAATATGAACAGGTGATCGGCCGCGGGCTTGTGCAGGATTTGTTATCCTTGCGCCGCGAGCCTTAG	MKSLLTCLSLMVLGIGTALFIGFHDRFSTEEPYYDDEQEGLKDQIVFKFSHVVAENTPKGRAANKFADLVYQKSGGTIKVEVFPNGSLYSDNEEINALQNGDVQFIAPSTSKLGSLSPEWGVLDLPYAFTNYKAVQEGLNGKIGTRLFASLEKHHLKGLAYWTNGFKQLTSNKGPIFTPDDLKGQALRIMPSSVIEDQYRLLGAHPRQDSFNSTFQLLESNLVDGEENTISNIYSKKFYNVQDYLTISNHGYLGYAVMTDEHFWNSQTEKTKTILTEAMRETTEWNEASAEKMNKDQLEEIKKNSSIHIHVLSKAEKNTWMKRLDPIYEQYEQVIGRGLVQDLLSLRREP	PGPT0017325_18	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
D1-12_03472	1623	dcuS_2	COG3290	Sensor histidine kinase DcuS	ATGACGAAAAAAAAGCTCACCATCCGCTGGAAAATCACCATACTTTCGTATATCGTCGTGCTTTTTACCTTTTTGATCGTCGGCATCGTGCTGATCGGCAATATTCAGCATACAGAGGAGCGCGAGCTGAAAAAACGGCTGATGAATACCGCGCGGACGGTATCTGAGATGACCGATGTCAAACGCGCCCTCGAGCAGAAAAAACAAAGGGAAGACGTGCGCCATGCGGTCGAAGAAATAAGGATCATCAATGAAGCGGACTACATCGTCGTTATGGATATGGATCATATTCGCTATTCACATCCCGTCAGCACAATGATCGGAAAGCGTTCAAGGGGTGAGGACGAAGCCGCGGCGTTCGCCGAGCACATTTATTTTTCCGAAGCAAAGGGAGAGATCGGCACCGCCGTCCGCGCTTTTTATCCCATCAAAGACCGGGATTTGAATCAGATCGGCGTCGTTCTGGCCGGTAAAACGCTGCCCGGATTCGGTGAAATTCTTCTTCAGCTGAAACATGAAATACTGTTTATCGTTCTGCTGGCGCTCGGGTTCGGACTGGCCGGCTCCTTTTTGCTGGCCCGCCACATCAAAAAACAAATGTTTTGGCTGGAGCCCCATGAGATCGTGAGAATGTATGAGGAACGGACCGCTACGTTTCATTCGATGAATGAGGGCGTCATCGCGATCGATAATCAGCATCACATCACCATTTTTAATGAAAAAGCGAAGCAGATATTCAATGTCAGACAAGAGACCGATGGCAGGCTGATCTGGGACGTGTTAAAAGATTCGCGGCTCCCTGAAATCGTCGAGCGGAACCGAGCCGTATATAATGAAGAAATCCAAGTCAGCGGAAAGGTGATCATGAGCAGCAGAATTCCGATCGTCATGAAAAAGAAGGTCATCGGAGCCGTCGCTATTTTTCAGGACAGGACGGAAGCGGCGAAAATGGCGGAAGAACTGACCGGCGTGAAAAATTTTGTCGATGCGCTCAGAGTCCAAAATCATGAACATATGAACAAGCTTCACACCATCGCGGGACTGATTCAGCTCGGAAAATCAGAAAAAGCGCTCCAGCTTGCTTTTAAGGAATCATCAGAACAAGAAAGCGTCACCGATTTTCTTCATCAGGCCATTCAGAATGACGCTGCGGCGGGGCTGCTGTTAAGCAAAATCAAAAGAGGAAAAGAGCTTGGCATTTCTGTGAAAATTGATGAAAACAGCAGTTTCTCGGCATTTCCGGAGCATGTCGACCAGCATGACATTGTCGTCCTGCTCGGCAATTTAATTGAAAATGCGTTCGGCGCATTCGAAACAGCGGACACGGAGGACAAACATATTGACATCAGTATCGAGCAAAATGATGAAGTGCTTGCTATATTAATAGAAGACAACGGAAGCGGGATTTCCGATCAGCACATCCCGCGCCTTTATGAAAAAGGGTTTACCGTCAATAAAACGGGAGGAACGGGATACGGCTTGTACCTCGTCAAACAAATCGTCGACAAAGGGATGGGCGTTATTGAAGTCGACACACGGCAGGGACAGGGAACGGCATTTTCTATTTTATTTCCGATGAAGGGGGAGGAATCATTCGATGGACATCAAGGTGCTGCTTATTGA	MTKKKLTIRWKITILSYIVVLFTFLIVGIVLIGNIQHTEERELKKRLMNTARTVSEMTDVKRALEQKKQREDVRHAVEEIRIINEADYIVVMDMDHIRYSHPVSTMIGKRSRGEDEAAAFAEHIYFSEAKGEIGTAVRAFYPIKDRDLNQIGVVLAGKTLPGFGEILLQLKHEILFIVLLALGFGLAGSFLLARHIKKQMFWLEPHEIVRMYEERTATFHSMNEGVIAIDNQHHITIFNEKAKQIFNVRQETDGRLIWDVLKDSRLPEIVERNRAVYNEEIQVSGKVIMSSRIPIVMKKKVIGAVAIFQDRTEAAKMAEELTGVKNFVDALRVQNHEHMNKLHTIAGLIQLGKSEKALQLAFKESSEQESVTDFLHQAIQNDAAAGLLLSKIKRGKELGISVKIDENSSFSAFPEHVDQHDIVVLLGNLIENAFGAFETADTEDKHIDISIEQNDEVLAILIEDNGSGISDQHIPRLYEKGFTVNKTGGTGYGLYLVKQIVDKGMGVIEVDTRQGQGTAFSILFPMKGEESFDGHQGAAY				NA	NA	NA	NA	NA
D1-12_03473	672	dcuR_2	COG4565	Transcriptional regulatory protein DcuR	ATGGACATCAAGGTGCTGCTTATTGAAGATGATCCGATGGTGCAGGAGGTGAATAAAGAATTTATCACCGGTGTTTCGGGGTTCAGCGTCATCGCCACAGCCGCTGACGGAGACGAGGGAATCAGGCTTATTAAAGATCTGCGGCCCGGGCTCGTGGTATTAGACGTATATATGCCGAAAAAAGACGGAATTAAAACGCTCCAGGAAATCAGAAAACAAAAGCTCGAAGTGGACGTCATCATCGTCTCGGCCGCAAAAGACAAAGAAACAATCCAGCTTATGCTGCAAAACGGTGCGGCCGACTATATTTTGAAGCCGTTTAAGCTGGAGCGGATGAGACAGGCGCTCGAAAACTATAAACAATATAAACGGAAAATTGAAGAGCATGACACCATGTCGCAAGAGCAGCTTGACATGCTGCTTAAAATTCCGCAAAATCCGTCCCGGGATCTGCCGAAGGGGTTAAATCATTTTACGATGAATGAAATTTTGACCTATATGAAACAGCAGACGGAGCCGCTTTCAGCTGAAGAAGCCGCCAAAGCGCTCGGAATCGCCAGGGTGACGGCGCGGCGTTATCTTGATTTTCTTGAGAAAGACGGCCAGATTAAGCTCGACATTCAATACGGGGGAGTGGGCCGGCCGGTTAACCGCTACAAATTCGTCCGCTAG	MDIKVLLIEDDPMVQEVNKEFITGVSGFSVIATAADGDEGIRLIKDLRPGLVVLDVYMPKKDGIKTLQEIRKQKLEVDVIIVSAAKDKETIQLMLQNGAADYILKPFKLERMRQALENYKQYKRKIEEHDTMSQEQLDMLLKIPQNPSRDLPKGLNHFTMNEILTYMKQQTEPLSAEEAAKALGIARVTARRYLDFLEKDGQIKLDIQYGGVGRPVNRYKFVR	PGPT0019560_136	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019560-malR-K11615	NA	NA
D1-12_03474	1257	dctA	COG1301	C4-dicarboxylate transport protein	ATGAAAATTTTTAAAAATCTTACGGTGCAGGTCATCACGGCGGTGATCATCGGCGTCATTGTCGGACTCGTTTGGCCTGAGGCCGGGAAGCAGATGAAGCCGCTCGGCGATACATTTATCAATGCGGTAAAAATGATTATCGCACCGATCATATTCCTGACGATCGTGCTTGGCATCGCCAAGATGGGAGACATGAAAAAAGTCGGCAAAGTCGGGGGAAAAGCATTTATTTATTTTGAAGTCGTGACCACCATCGCCCTTATTATCGGACTTCTGGTCGTCAATATCATGAAACCCGGTGAGGGGCTTGATTACAGCAAGCTTGAAAAAGGGGATGTCTCTCAGTACACGCAAAACGGGGGACAGGGGATTGACTGGATTGAATTTATCACTCACATCGTTCCGTCAAATATGGTTGACGCTTTCGCAAAAGGCGACATTCTTCAGGTCTTATTCTTTTCTGTTTTATTCGGTGTCGGCTTGGCGGCGCTCGGTGAAAGAGGCAAAAGCATTATTGATTTCTTTGATAAACTGTCGCATGTTTTTTTCAAAATCATCGGCTACATCATGCGCGCGGCGCCGATCGGCGCATTCGGGGCCATGGCCTATACGATCGGGCACTTCGGCCTTGATTCCATCAAGCCGCTGGCGAGTCTGATGCTGTCTGTGTACGTTACGATGTTCCTGTTTGTATTTGTCGCTTTGAATATCATTTGCAAACTATTCGGTTTCAGCTTGTGGAACTATCTCCGTTTTATTAAAGATGAACTGCTCATCGTTCTCGGCACAAGCTCTTCTGAGTCCGTCCTTCCGCGGATGATGGATAAAATGGAGCGCTACGGCTGTTCCAAATCGGTTGTCGGCCTTGTCATTCCGACGGGATATTCTTTTAACCTGGACGGCACCTCGATTTATCTTTCCATGGCGACGGTTTTTCTGGCGCAGGTGTTCGGCGTTGACCTTACCATCGGCCAGCAGGTTACGATCATTCTCGTGCTGATGCTGACATCAAAAGGCGCGGCGGGCGTAACCGGAAGCGGATTTATCGTGCTCGCCTCCACTTTATCGGCGCTTCAGGTTATTCCGCTGGAGGGGCTGGCGCTGCTCCTCGGCGTCGACCGCTTTATGAGTGAAGGAAGGGCGATCGTCAACCTGATCGGAAACGGAATCGCCACCATCATCGTAGCCAAGAGCGAAAATGAGTTTGACGAAGCGAAAAGCACACAGGCCGTAAAAGAAATGAAAACGGCGGTATAA	MKIFKNLTVQVITAVIIGVIVGLVWPEAGKQMKPLGDTFINAVKMIIAPIIFLTIVLGIAKMGDMKKVGKVGGKAFIYFEVVTTIALIIGLLVVNIMKPGEGLDYSKLEKGDVSQYTQNGGQGIDWIEFITHIVPSNMVDAFAKGDILQVLFFSVLFGVGLAALGERGKSIIDFFDKLSHVFFKIIGYIMRAAPIGAFGAMAYTIGHFGLDSIKPLASLMLSVYVTMFLFVFVALNIICKLFGFSLWNYLRFIKDELLIVLGTSSSESVLPRMMDKMERYGCSKSVVGLVIPTGYSFNLDGTSIYLSMATVFLAQVFGVDLTIGQQVTIILVLMLTSKGAAGVTGSGFIVLASTLSALQVIPLEGLALLLGVDRFMSEGRAIVNLIGNGIATIIVAKSENEFDEAKSTQAVKEMKTAV	PGPT0001450_1665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-12_03475	1050			hypothetical protein	ATGGCGGCTATTTTTAAATTTTTTCAGCATCCGGGTGTCAGACGTTTTTCGGTTTTTCTTGTTTTGACTGGGGTGTTAGTTGTATTCCGAAGTATGATTAATTTGATTTTGCTTACGTTTATTTTTACTTTTCTGATGGATCGGCTGGAGACTGTCATCCGGCACGTGTTGAACCATTTTTTCCGGATCAGCCAGAGGGTGGTCATCACCGTTTTATATATTGCGCTGGCTGTCGGGGCGACTGTCGGAGGCTTTGTCTTTTACCCGATTGTTGCCAAGCAGATTGAACAGCTGATTAAGCAGATCAAGCACATCGCGTATCATCCCGATGTCATTCCGTTTTATGATGAGATATCGAGCGTGTTCGGCGATATCAATATCGGTTCCTATGTAAAAGAAGGTTTTAATGTACTGTATACATACTTGGCCGATATCAGCACTTTCGGTTTGCAGGTCGTGATGTCACTGATTCTCAGCATGTTTTTCCTGTTCGAGAAAAAGCGGCTCACGGAGTTTATGAAAAAATTTCAGCACAGCAAGCTGTCTGTTTTTTACTACGAACTTGCTTTTTTCGGCAGCAAATTTGCGAGAACATTCGGCAAAGTGCTTGAAGCCCAATTTATTATCGCGCTGGTGAACTGTATCCTCACCTTGATCGCATTGGCGATTCTGCATTTTCCGCAGCTGTTCGGCCTGTCAATCATGGTCTTTTTCCTCGGGCTCATTCCCGTGGCGGGTGTGGTGATTTCGCTCATTCCGCTCAGCATCATCGCGTATACGACGGGCGGCGCTGCGTATGTCATCTACATCGTGCTGGTCATTTTCGTCATCCATGCGATTGAGACGTACTTCCTTAATCCGAAACTGATGTCAGCGAAAACGGAACTGCCGATCTTTTTTACCTTTACGGTTCTGATTTTCTCGGAACATTTCTTCGGCATTTGGGGCTTGATTATCGGAATTCCGATTTTTGTGTTCCTGCTTGATATTCTGGATGTCGTCAATAATGAAGAGAAGGAAAAAAACGGACCGGTCCCGGATAAGACATAA	MAAIFKFFQHPGVRRFSVFLVLTGVLVVFRSMINLILLTFIFTFLMDRLETVIRHVLNHFFRISQRVVITVLYIALAVGATVGGFVFYPIVAKQIEQLIKQIKHIAYHPDVIPFYDEISSVFGDINIGSYVKEGFNVLYTYLADISTFGLQVVMSLILSMFFLFEKKRLTEFMKKFQHSKLSVFYYELAFFGSKFARTFGKVLEAQFIIALVNCILTLIALAILHFPQLFGLSIMVFFLGLIPVAGVVISLIPLSIIAYTTGGAAYVIYIVLVIFVIHAIETYFLNPKLMSAKTELPIFFTFTVLIFSEHFFGIWGLIIGIPIFVFLLDILDVVNNEEKEKNGPVPDKT				NA	NA	NA	NA	NA
D1-12_03476	927	bcrA_5		Bacitracin transport ATP-binding protein BcrA	ATGACTGAGCCGATTTTACATATTGAGGGCCTTGACAAAACAATAGGCAAAAAGCACATTTTAAAAAACATCAGCATGGATGTCAGGCAGGGCGAGATCATCGGTTTGCTCGGTCCGAACGGGTCGGGAAAAACCACACTTATCCGAATCATCGTCGGTCTTTTAAAGAAAAACAGCGGCACGATTACAATTAACGGCTTTCAGCACGATGCTGATTTCGAAAAAGCGCTTGAATCCGTCGGAGCGATCGTGGAAAATCCTGAATTCTACCCGTACCTGACGGGGTGGGAAAATCTGAAGCACTTTGCCAACATGCACAAAAACATCAAAGAGGACAGGCTTCAGGAAGTCATCGAGCGGGTCGGGCTCACAAATGCCGTTCATGACAAAGTTAAAACGTATTCCCTTGGTATGCGTCAGCGTCTCGGGATTGCACAGGCCATTCTTCACCGTCCGAATCTGCTCATTTTAGATGAACCGACAAACGGGCTTGATCCCGGCGGAATGAAGGATTTCCGCGATCACTTAAAGGAACTCGCGGAGCTTGAAGGGACGAGCATCCTTTTTGCGACGCATTTATTGCGTGAAGTGGAGGACCTTTGCGACCGTGTCATCATCATTCAAAAAGGTGAGATCAAAACAGAGGTTGTTCTGCGCGGCGCTGAGGAAAAAGAAGAAAAAGCCGTCCTCGACATTCAGCCGGCTGACGAAGCATTCGAATGGCTGTCCCAACAGCAATTTGCTCCGGAGAAAAACGGCGGGGGCATTACCGTCACCGTAGCGAAGAAGGACATCCCGGCATTAAACCGTGCGCTCGTCGGACAAGACTTTCTCGTGTATTCCATCATGCCGTATGCGGAATCGCTGGAGGATGAATTCATGAAAGTGACGACGGCGCTTCAAGAGGAGGGGGAGACGAATGTTTAA	MTEPILHIEGLDKTIGKKHILKNISMDVRQGEIIGLLGPNGSGKTTLIRIIVGLLKKNSGTITINGFQHDADFEKALESVGAIVENPEFYPYLTGWENLKHFANMHKNIKEDRLQEVIERVGLTNAVHDKVKTYSLGMRQRLGIAQAILHRPNLLILDEPTNGLDPGGMKDFRDHLKELAELEGTSILFATHLLREVEDLCDRVIIIQKGEIKTEVVLRGAEEKEEKAVLDIQPADEAFEWLSQQQFAPEKNGGGITVTVAKKDIPALNRALVGQDFLVYSIMPYAESLEDEFMKVTTALQEEGETNV	PGPT0006725_4582	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-12_03477	768			hypothetical protein	ATGTTTAAATTGACAGCGAATGAGCATATGAAACTCTTTAACCGAAAAGTCTCATTGGTGGCGCTGATTCTGATGGCCGTTCTCCAATTTATTATGGCGCTTGTCATTAAACGGCTTGTCATCAGTTCCGGAACGGATGAGAATTTCATCGGCTATATGGCGTACGCGCCCGGGCTGAATATTCTGCTTGAGGCGTTAACAATCGTGATCGCGGCAACGATCATTTCCGCTGAATTTGATAAGAAAACGATCAAATTTTTGTTAATCCGCCCGGTAAAGCGGGAGCGGATTTTTGTATCTAAACTCATTACCGTATTTTTGGTCAGCTTGTACCTGTATGCGGCGTACTATATTCTGTCTCTGCTGTTCGGCATGGCTTTCTTCGGCGTGTCGGTGACATCTGAATCAGGGACGCTTCTGATGAACACCCTGAAAGTAATCGGCACGAACTGGGTCGAGGCGTTTGCGATGGCATGCTTTGGCTTGTTGTGTTCTTCTGTATTCCGAAACAGCGCAACGGCCGTCATTTTGTCATTTATCGTGCTGTACGGCGCAAAATCACTCGTGACGATTATGTCGCTCTTCCAAAACAAATGGGGAAGTTTTCTGCTGTTCGCAAATACTGACCTGACGCAATATATGAGCGGGGCGAAACCGCTGTTTGCGGGAATGACGCCGTTATTTTCCGCAGGCATTATCATTATCCATATCGTATTCTTCTTAGCCGTCGCTTGGTGGAGCTTTTGCAAACGCGATGTTCGGGTATAA	MFKLTANEHMKLFNRKVSLVALILMAVLQFIMALVIKRLVISSGTDENFIGYMAYAPGLNILLEALTIVIAATIISAEFDKKTIKFLLIRPVKRERIFVSKLITVFLVSLYLYAAYYILSLLFGMAFFGVSVTSESGTLLMNTLKVIGTNWVEAFAMACFGLLCSSVFRNSATAVILSFIVLYGAKSLVTIMSLFQNKWGSFLLFANTDLTQYMSGAKPLFAGMTPLFSAGIIIIHIVFFLAVAWWSFCKRDVRV	PGPT0006730_19131	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-12_03478	336			hypothetical protein	TTGAGAAATTTTATTACCGCATTACCGATTGTGTTATTGCTTGGTTTTTCCTTTGTGTCATTCATGTTCCAATTCGAACATCTTGTTTATTTCAGGCTTGCGCTGGGTTTGTTTTCTACAGTGGGGCTGTTTCTCTTATATAAAATGAAGTCGGGATTCCGTTATTTCATCATCTACCTGTATGCAAGCTGGATCGTGCTTGCGGCGGTTACCGCGTTTGAAGAGCCGATTTTTTCAAGCTTTTTCTTTGGCGGGCTTGTGATGACGATGGGTTATCTCACATATATGCTGATTTATCTCGGGCTCAAGCAGGACCGCGGCCCGGAAGCAGTCTGA	MRNFITALPIVLLLGFSFVSFMFQFEHLVYFRLALGLFSTVGLFLLYKMKSGFRYFIIYLYASWIVLAAVTAFEEPIFSSFFFGGLVMTMGYLTYMLIYLGLKQDRGPEAV				NA	NA	NA	NA	NA
D1-12_03479	1146	ydbM		Putative acyl-CoA dehydrogenase YdbM	GTGTCTTTATGGATACAGAATGAACGGCAGAGGGAATGGGTGGAAAAAATCGGCCTGCTTGCAGACGAATTTCAAAAAACAGCCGCGCTTGATGATGAGGCGGGCCGTTTTCCCGCGGAGAAAATTCAAAGACTGCGCGACGCAGGATATACGGCGTTAACGGTACCTGAGGCATTCGGCGGTGCAGGCATTTCCGTTTATGATATGGTGCTGTTTCAGGAACGGCTGGCGCGGGGAGACGCGGCCGTTGCTCTCGGAATCGGCTGGCATTTATCCGTCATGGGTGAGCTCGGAGAAGGAAACAGCTGGGATGAAGGTGTCTTTTCATTTATCACAGAAGAGGTGAAAAAGGGAGCTGTCCTGAACAGGGCAGCGACGGAACGGCAGACCGGCAGTCCGACGAGGGGAGGAAGACCCGGCACCTCCGCTGTCAAAAAAGACGGAAAATGGGTGCTGAACGGCCGAAAAACCTTTACAACCCTTTCGCTGACTTTGGATTATATGCTTGTGACGGCATGGATTGAAGAAAAACAAACGACCGGTGTTTTTCTCATTCATAAAGATCAGGCAGGCGTTTCAGTCGAAGAAACATGGGATATGATTGCCATGAAGGCGACCGGAAGCCATGATCTCCTTTTAGATCATGTCACGGTCAGTGATGAGCGGCTTGTGGAGCTTATCAGCGGGCCGAGAGCGGCGAAAGTGAATGGCTGGCTGCTTCACATTCCCGCTGCTTATCTGGGCATCGCTCAAGCGGCAAGGGACTATGCCGTCCGGTTTGCATCCGAATATTCGCCGAACAGCCTGAACGGACCGATTAAAGACGTGCCGGCCGTTGGGCAGCGTGTCGGGGAAATGGAGCTTGAATTGTTAAAAGCGAGACAGTTTCTCTTCACGGCGGCGCAAATGTATGATGACCCGAAACGCCGCCCTTTCATCAAAAGCGAGCTCGGCGCCGCAAAACATATTGTGACAAATGCCGTCCTTTCTGTTGTTGATAAAGCAATGAGAATCACCGGGGCAAAAAGCCTTGAGCGAAATAATCCGCTTCAGCGGTATTATCGGGATGCCCGGGCCGGCCTTCACAATCCGCCGATGGACGATGCGGTCATCGGCAAATTAGCGGCGGAAGCCTTTGAGCAATAA	MSLWIQNERQREWVEKIGLLADEFQKTAALDDEAGRFPAEKIQRLRDAGYTALTVPEAFGGAGISVYDMVLFQERLARGDAAVALGIGWHLSVMGELGEGNSWDEGVFSFITEEVKKGAVLNRAATERQTGSPTRGGRPGTSAVKKDGKWVLNGRKTFTTLSLTLDYMLVTAWIEEKQTTGVFLIHKDQAGVSVEETWDMIAMKATGSHDLLLDHVTVSDERLVELISGPRAAKVNGWLLHIPAAYLGIAQAARDYAVRFASEYSPNSLNGPIKDVPAVGQRVGEMELELLKARQFLFTAAQMYDDPKRRPFIKSELGAAKHIVTNAVLSVVDKAMRITGAKSLERNNPLQRYYRDARAGLHNPPMDDAVIGKLAAEAFEQ				NA	NA	NA	NA	NA
D1-12_03480	147			hypothetical protein	ATGGCGAAACGTAAAATAAAAACATACGAACAGCTGATAAAAGAAAACAAGGCGGCCATTATGAATAATCAAAAGCTGATGAATGTGATCTATGACAGAATTGACCGCAAGCATCAAAAACTGCTCCGGCACAACAGCCATACATAA	MAKRKIKTYEQLIKENKAAIMNNQKLMNVIYDRIDRKHQKLLRHNSHT				NA	NA	NA	NA	NA
D1-12_03481	180			hypothetical protein	ATGAGGTCTTCTCCTCAGCTCAGATCATCAGTTGAAGGACGAAAAAAACATCTGATCCATTTGCTGATCAATAACGGAATATACAAAAAGTCGGAACGGCATTTATATGAATTATCGCTCGGAGAATTAGAAAGCGAATACAAATATGTAAGGGAGGTGCAGGCTCATGGCGAAACGTAA	MRSSPQLRSSVEGRKKHLIHLLINNGIYKKSERHLYELSLGELESEYKYVREVQAHGET				NA	NA	NA	NA	NA
D1-12_03482	894	mneS_2	COG0053	Manganese efflux system protein MneS	ATGAATGATCAAACGGCAAACTTAAAACGGGGCGAAAAAGGCGCGATTCTTAATATCGCCGCGTACCTCATCCTTGCCGCCGTCAAACTGGTAATCGGTCTTATTTATCATTCCGAAGCGCTCAGAGCGGACGGGTTAAATAATGCCACGGATATTGTCGCATCACTGGCTGTGCTGATCGGGCTCCGGATTTCCCAGCGCCCCGCGGACAGTGATCATGCCTACGGACATTATCGGGCTGAAACAATTTCTTCATTAATTGCGTCTTTTATTATGATGGCGGTCGGTATTGAAGTGCTGATCGGAGGAGCAAAGGCGATTGTCAGCGGAACGGAGGCCGAGCCGAGCTTCATTGCGGCATGGACGGCGCTCGGAAGCGCGATTATAATGTACGGCATGTATGTATATAACAGCCGACTTGCGGATCGGGTTAAAAGTTCTGCGCTTCATGCGGCGGCGAAAGACAGCCGTTCTGACGCCTATGTCAGTATTGGGGCGTTTATAGGCGTCTTAACCGCCCGGCTTCATCTGCCGTGGATTGATCCGGTCATTGCTTTTCTGATCGGAATCATCATCTGTAAGACGGCATGGGACATCTTCAAAGATGCTTCCCACTCATTGACGGACGGGTTTGATCTGAAAGATTTGGAGCCGTATAAACACACGGTGAAAGAAATAAAAGAGGTCAGCAGGCTGAAGGATGTGAAAGCAAGGTATTTAGGGAGCACGGTTCATGTGGAAATGGTCATTACGGTAGATCCGGGACTGTCTGTGAAAGAAGGCCATGCAGTAGCCGATGAGGTCGAATATGCAATAAAACATGAACATGATGTGACTCATGTCCATGTTCATGTAGAGCCTGAAGTCATAAACAAAGATCGTGAAACGAATTAA	MNDQTANLKRGEKGAILNIAAYLILAAVKLVIGLIYHSEALRADGLNNATDIVASLAVLIGLRISQRPADSDHAYGHYRAETISSLIASFIMMAVGIEVLIGGAKAIVSGTEAEPSFIAAWTALGSAIIMYGMYVYNSRLADRVKSSALHAAAKDSRSDAYVSIGAFIGVLTARLHLPWIDPVIAFLIGIIICKTAWDIFKDASHSLTDGFDLKDLEPYKHTVKEIKEVSRLKDVKARYLGSTVHVEMVITVDPGLSVKEGHAVADEVEYAIKHEHDVTHVHVHVEPEVINKDRETN				NA	NA	NA	NA	NA
D1-12_03483	318	ydbP	COG0526	Thioredoxin-like protein YdbP	ATGAAAAAAATCAATACAACAGAACAATTTAATGAACTTATTCAATCCGACAAGGAAATCATCGTGAAATTTTTCGCTGACTGGTGCCCTGACTGCACGCGCATGAATATGTTCATCGGCGATATTTTGGAAGAATATAATCAAAATGATTGGTATGAACTGAACAGAGACGAGCTCCCTGAGCTTGCCGACAAATATCAGGTAATGGGCATACCGAGCCTTCTGATCTTTAAAAACGGCGAAAAGAAAGCGCATCTTCACAGCGCAAACGCGAAAACGCCCGAAGAAGTCACAGAGTTTTTATCACAGCATATTTAA	MKKINTTEQFNELIQSDKEIIVKFFADWCPDCTRMNMFIGDILEEYNQNDWYELNRDELPELADKYQVMGIPSLLIFKNGEKKAHLHSANAKTPEEVTEFLSQHI	PGPT0013055_7942	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
D1-12_03484	1086	ddl		D-alanine--D-alanine ligase	TTGAAAACAAGTCTAGGATTGGTGTACGGCGGAAAGTCAGCCGAACACAATGTATCGCTGCAGACAGCATTAGCTGTAACAAAAGCGCTTAATACTGAGAAGTTTGATATACATCCGATTTACATCACTGAAAAAGGAGAATGGCAAAGAGGCCCGCTGCTGACTGAGCCGGTTTCCAACGTGAAAATGCTTCAGCTGGAACAAAACGGTGAAAGTTTCGCTCTATCAGCATTGAACCGGGAAATGTTTCCTGAAGCGTCGCCTGACGAAAAGGCGCCGATCGATGTCGTATTTCCGCTTCTGCACGGACCGAACGGTGAAGACGGCACCATTCAGGGTCTGCTGGAATTGCTGAACGTTCCTTATGTCGGCAACGGGGTGCTTGCATCATCAGCCGGCATGGATAAAGTCATCATGAAGCATTTGTTCGCTCAAGCGGGGCTTCCGCAGGCGAAGTACGCCGCTTTCTTAAAAAAGGACTGGAAACAGACGCCGGACAGCTGCTTACAGCAGGTTGAAGAGGAGCTGGGTTATCCGTGCTTCGTCAAACCGGCGAACCTCGGATCAAGCGTCGGAATCAGCAAATGCCGAAACCGTGAAGAGCTTGAAAAAGCCTTCGAACTGGCTTTTGAATATGACCGGAAAATTGTGGTGGAAGAAGGAATCGCCGGAAGAGAAATCGAAATCGGCGTACTCGGAAATGACGAACCGAAATGCTCCGCCGTCGGTGAAATCGCGCCGAAAACCGACTTTTACGATTACAAAGCGAAATATGAAGACGGCGACACGGATTTAATGATTCCCGCGCAAGTGACGGATGAACAATATGCGGAAATCAGCGAGATGGCGATTAAAGCCTTCAAAGCGATTGACGGATCAGGCCTTGTCCGCGCCGATTTCTTCCTGACCAATGACGGTCAAGTGCTCATTAACGAAGTGAACACAATGCCGGGCTTTACGCCATTCAGCATGTTCCCGCTGCTTTGGAAAGAAGCAGGCGTAGATTACAGTGATCTGATCGAACAGCTGGTTGAGCTGGCAAAAGAACGCCATGCCGAAAAACAGCTGATTAAACATACATTTTAA	MKTSLGLVYGGKSAEHNVSLQTALAVTKALNTEKFDIHPIYITEKGEWQRGPLLTEPVSNVKMLQLEQNGESFALSALNREMFPEASPDEKAPIDVVFPLLHGPNGEDGTIQGLLELLNVPYVGNGVLASSAGMDKVIMKHLFAQAGLPQAKYAAFLKKDWKQTPDSCLQQVEEELGYPCFVKPANLGSSVGISKCRNREELEKAFELAFEYDRKIVVEEGIAGREIEIGVLGNDEPKCSAVGEIAPKTDFYDYKAKYEDGDTDLMIPAQVTDEQYAEISEMAIKAFKAIDGSGLVRADFFLTNDGQVLINEVNTMPGFTPFSMFPLLWKEAGVDYSDLIEQLVELAKERHAEKQLIKHTF	PGPT0020050_1675	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
D1-12_03485	1371	murF	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	TTGATAAAGCGAACTGTAAAACGAATCGCAGACATGGTCAAAGGCACACTGACAAATCCCGAATTTGAACAAACAATGATTGAGGGCGCCGCAACCGATACGCGGACTTTGGAAAAAAATCAGCTGTTCATTCCTTTAAAAGGCGAGCATTTTAACGGCCACACCTTTGTGCCGCAAGCATTCGAAAAAGGCGTTTCCGCGGTGTTGTGGGACCGCTCTGAACCGAATCCGCCGGAAGAGCGTGCTGTCATCCTGGTCGATGACACGCTGGAGGCGCTGCAAACATTGGCAAAAGCTTATTTGAAAGAGCTCGGCACACGGGTTATCGGGGTGACTGGGAGCAACGGAAAAACGACAACGAAAGACATGCTTCACGCCGTTCTCGGCACGCAGTACCGCGTTCACAAAACCGCCGGCAATTTCAACAACCATATCGGCCTGCCGCTGACCGTGCTTGCCATGCCTGAAGATACAGAAATCGCCGTTTTAGAAATGGGAATGAGCGCGAGAGGCGAAATTGATTTTCTGAGCCGTCTTGCTGAACCGGAAGCTGCCGTCATTACCAATATCGGCGAATCCCACATGCAGGATTTAGGCTCAAGAGAAGGAATTGCGGAGGCAAAACTTGAAATTATAAACGGACTTCGGGAAGACGGCGTTCTGTTTTATTTCGGGGATGAGCCGCTGCTTCGCGAAAAGACGTACACTTGCCGGACAACGACATACGGCGCAGGCGCGGACAATGATCTCCGCCTGAAAGAAATAAAACAGGCGGAAGAAGGCACGTACTTTAATATCGACGGGATCGACCGTTCTTTCTTTATTCCCGTTCTCGGCAGACATAATGTGATGAATGCCATGGCCGCATACGCCGCCGGCATCTATTTCGGCATTACGCCGGAAAATGCCGCTCTGGGACTGAGCCGCCTGAAGGTGACGGGGATGAGATTGGAACTGGTCAAAACGGAAAACGGCATCTCGATCGTAAACGACGCATATAATGCGAGCCCGACGTCAATGAAAGCGGCGGTCGAATTAATCGAAACGATGAAAGGCTATCGGAAGAAAATGCTCGTGCTCGGTGATATGCTTGAACTTGGTGATGAAGAAAAAGCATTCCACGAAGAATGCGGTGCTGCGGTCAATCCGGCGGAAATCGACCATGTATTTACTTACGGCACACTCGGCGCATTCATCGCTGACGGAGCACGCCGGCATTTTGAAGAAGGGCGCGTCAGCCATTATCTTGACAAAAAAGAACTGCTTCACGCCATACAGGATATGGCCGCTTCCGGCGATCTCCTTCTGTTTAAAGCATCGAGAGGTATGAAGCTCGAAGAAATCGTTAAAGATTTATTAGAGAAGCACTGA	MIKRTVKRIADMVKGTLTNPEFEQTMIEGAATDTRTLEKNQLFIPLKGEHFNGHTFVPQAFEKGVSAVLWDRSEPNPPEERAVILVDDTLEALQTLAKAYLKELGTRVIGVTGSNGKTTTKDMLHAVLGTQYRVHKTAGNFNNHIGLPLTVLAMPEDTEIAVLEMGMSARGEIDFLSRLAEPEAAVITNIGESHMQDLGSREGIAEAKLEIINGLREDGVLFYFGDEPLLREKTYTCRTTTYGAGADNDLRLKEIKQAEEGTYFNIDGIDRSFFIPVLGRHNVMNAMAAYAAGIYFGITPENAALGLSRLKVTGMRLELVKTENGISIVNDAYNASPTSMKAAVELIETMKGYRKKMLVLGDMLELGDEEKAFHEECGAAVNPAEIDHVFTYGTLGAFIADGARRHFEEGRVSHYLDKKELLHAIQDMAASGDLLLFKASRGMKLEEIVKDLLEKH	PGPT0024145_3322	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
D1-12_03486	1485	cshA	COG0513	DEAD-box ATP-dependent RNA helicase CshA	TTGACTATAACGTTTCAAGATTTCCAATTAAGTTCTGATCTCATGAAATCAATCAATCGTATGGGATTTGAAGAAGCAACACCGATCCAGGCACAAACGATTCCGCTCGGACTTTTAAATAAAGATGTCATCGGACAAGCGCAAACAGGTACAGGTAAAACAGCTGCGTTCGGTATACCCCTTGTTGAAAAAATGAACCCCGAGTCTCCTAATATTCAAGCAATCGTAATCGCGCCAACCCGTGAATTAGCCATTCAAGTATCTGAAGAGTTATATAAAATCGGACAAGATAAGCGTGCGAAAGTACTGCCTATTTACGGCGGCCAGGATATCGGACGTCAAATCCGCGCATTGAAGAAAAACCCGCATATCATCGTAGGTACGCCGGGGCGTCTTCTTGACCATATCAACCGCCGCACGATCCGTTTAAATAACGTGAACACGGTTGTCATGGATGAGGCTGATGAAATGCTGAACATGGGATTCATTGATGACATTGAATCCATTCTCTCAAACGTGCCGAGCGACCACCAAACGCTCTTATTCTCAGCAACAATGCCTGCGCCGATCAAACGGATCGCAGAGCGTTTCATGACTGAGCCGGAACACGTAAAAGTAAAAGCGAAAGAAATGACTGTGTCCAACATTCAGCAGTTCTACTTGGAAGTGCAGGAGCGCAAAAAATTCGATACGCTGACTCGTCTTCTTGACATTCAGTCTCCGGAACTTGCGATCGTATTCGGACGTACGAAACGCCGTGTCGATGAGCTTGCTGAAGCCCTGAACCTTCGCGGATATGCGGCTGAAGGAATTCACGGCGACTTAACGCAGGCGAAACGTATGGTTGCGCTCCGCAAGTTTAAAGAAGGTGCGATCGAAGTGCTTGTAGCGACTGACGTTGCCGCCCGCGGACTTGATATCTCAGGCGTTACCCACGTTTACAACTTTGACGTGCCTCAAGATCCTGAAAGTTACGTTCACCGTATCGGAAGAACGGGCCGTGCAGGAAAAACGGGTATGGCGATGACGTTTATCACACCGCGTGAGAAAAGCATGCTTCGCGCGATTGAACAAACGACAAAACGCAAAATGGACCGCATGAAAGAGCCGACGCTTGACGAAGCATTAGAAGGACAGCAGCAGGTGACGGTTGACCGTCTGCGCACGGCGATCAGCGAAAACAACCTGAACTTCTACATGACGGCAGCTGCGGAATTGTTAGAAGATCATGATGCAGTGACAGTTGTGGCTGCAGCCATTAAAATGGCGACAAAAGAGCCGGACAGCACGCCTGTACGCCTCACTGATGAAGCGCCTATGGTCAGCAAACGCTATAAAAACCAGCGTACTTCTAAGCGCAGAGACGGCCAAGGCGGCGGCTACCGCGGCGGCAAAGGGAAAAACAACAACCGTTCTTCCTACGATAAAAAACGCTCAAGCGACCGCCGTTCTTCAGGTGACAGACGCCAGAAAAAATCATACTAA	MTITFQDFQLSSDLMKSINRMGFEEATPIQAQTIPLGLLNKDVIGQAQTGTGKTAAFGIPLVEKMNPESPNIQAIVIAPTRELAIQVSEELYKIGQDKRAKVLPIYGGQDIGRQIRALKKNPHIIVGTPGRLLDHINRRTIRLNNVNTVVMDEADEMLNMGFIDDIESILSNVPSDHQTLLFSATMPAPIKRIAERFMTEPEHVKVKAKEMTVSNIQQFYLEVQERKKFDTLTRLLDIQSPELAIVFGRTKRRVDELAEALNLRGYAAEGIHGDLTQAKRMVALRKFKEGAIEVLVATDVAARGLDISGVTHVYNFDVPQDPESYVHRIGRTGRAGKTGMAMTFITPREKSMLRAIEQTTKRKMDRMKEPTLDEALEGQQQVTVDRLRTAISENNLNFYMTAAAELLEDHDAVTVVAAAIKMATKEPDSTPVRLTDEAPMVSKRYKNQRTSKRRDGQGGGYRGGKGKNNNRSSYDKKRSSDRRSSGDRRQKKSY	PGPT0013740_3056	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
D1-12_03487	483			hypothetical protein	ATGTTGAGAGCACAGCCAAAAAATCGAATCAGTCCAAGCGGCTTAAAAGTCTGGCGTCTTCAGGAAATCATCCTGTCCGCCTTCTGTCTTCTGGCCGTTATAGCAGCAGCTGTTTTAAGCCATTTCTTCCATTGGCCGTATTGGATCACCGGAGTCCTCGGCATCATTTGGGTTATCGGTTCAGTAATATCCGTCTATGCCATACCGAAAATCAGGCACAGGATCTGGCGCTATGAAGTCCATGAAAATGAAATTGATATTCAATCCGGCATTTTTATTGTCAAACGGGTCATTGTGCCGATGGTGAGGGTGCAGCACGTAGATACTTCACAAGGCCCGCTCCTCAGAAGGTACCGTCTGGCCTCAGTCAAAATCTCCACGGCGGCAACCGTTCATTCCATTCCGGCGCTTGATATGGAGGAAGCTGACCGGCTGAGGGATTCCATTTCCCGTCTGGCAAGGGTGACGGAAGATGATGTCTGA	MLRAQPKNRISPSGLKVWRLQEIILSAFCLLAVIAAAVLSHFFHWPYWITGVLGIIWVIGSVISVYAIPKIRHRIWRYEVHENEIDIQSGIFIVKRVIVPMVRVQHVDTSQGPLLRRYRLASVKISTAATVHSIPALDMEEADRLRDSISRLARVTEDDV				NA	NA	NA	NA	NA
D1-12_03488	1464			hypothetical protein	ATGTCTGAGCCGAAACGTCTGCATCCGGCGGCCGTGATTTTGAACTTATTCCATATTATTATCGAAACCATTAAAAACATTATTCTGCCATTTTTTCTCGTCTATATTGTAAACTCCAACCACTTCATCCGCTTTTACGGAGGCATTGCGCTCGCCGTCCTGCTTATCTGGCTGATTACGGCTAGTGTGATCGAGTGGAGAAAATTTACATACCGGATTGAGGACGGAGAATTCAGAATTGAAGAAGGCTTGTTTTTTACGAAAAAGAGATACATCTCCATTGACCGGATTCAATCAATGAATACGAGTGCCGGCATCATTCAGCAGCTTTTTAAGCTTGTTAAGCTTCAAATCGAAACGGCCGGCGACGGGAAAAACGCTGAAGCCGTCTTATCCGCCATTACTGTGGAAGAGGCGGAACGGATCAGAGCGGCTGTTTTTCAGCAAAAAGCGGAGCAAGAAGAACGAGGGGAGACCGCAGCGGAGCAGGAACCGATGCGCGGGGAAGATGTGCAATCCGTTTACCGCCTGTCTGTAGGTGAGCTGCTTATGGCCGCCTCAACATCCGGGGGAATCGGTGTCATCATCTCAGCGGTATTCGCCCTCTTTTCTCAGATTGATGAAGTACTTCCGATGGACTGGCTCTATGACAGGTTTTCCTTTCTCAAGCATGCGAGCATCGGCATATACGCCGTGATCATTTTCATAGGATTGTTCATCGCCTGGCTGTTAAGCATCGCCGGTATGATGATCAAGCATGCCAACTTTAAAATAGAAAAAAAGGAACACGAATTGGTCATTACCAGAGGAATTATTGAAAAGCATCAAGTGACAATCCCGCTCCGTAAAATCCAAGCCATTAAAATGAAAGAAAATGTGATCAGGCAATTATTCGGATACGCGACGGTTGCGATTGTCAGCGCCGGCAGTGCGGGGAATGAGAAAGAAGGAGCTCAGACGATTCTGTTTCCGATCATCCGCAAATCAAAGCTCGGAGTGATGCTGAACGGTTTCACACCGGATTACGTGCTGGAAGAAAACCGGAATCATTTGCCGAAAAGGGCGCTGCGCCGGTATTTATTCCGATCCATAATCTTCTCGGTTTTCGTGATCATCCCGCTTTGTATTCTGTTTAAGCCGTGGGGATATGCATCGCTCCTCGTGCTTCCTGTCGAACTGGTGCTAGGATATGCCTCGTTTAGGACAGCGTCATGGTGCATAAACGGCGGCAGGCTTCAGATCACCACGAGGCTGATCGGGAAGACGACCACGATTATGCTGAGAAGAAGAATGCAGATGTTTGAAGTCAGCCGCTCCTTTCTGCAAAAAAGAAGGCGGCTCGCATCTGTGGCTACCGCAGTGAAATCAGCTCACCACATGGAGCATGTCATGCTGAAGGATGTCAGCGAGGAAGATGCCGAACGCATCGGGCGCTGGTATTCATATGAAAAAGCGGACGGTTAA	MSEPKRLHPAAVILNLFHIIIETIKNIILPFFLVYIVNSNHFIRFYGGIALAVLLIWLITASVIEWRKFTYRIEDGEFRIEEGLFFTKKRYISIDRIQSMNTSAGIIQQLFKLVKLQIETAGDGKNAEAVLSAITVEEAERIRAAVFQQKAEQEERGETAAEQEPMRGEDVQSVYRLSVGELLMAASTSGGIGVIISAVFALFSQIDEVLPMDWLYDRFSFLKHASIGIYAVIIFIGLFIAWLLSIAGMMIKHANFKIEKKEHELVITRGIIEKHQVTIPLRKIQAIKMKENVIRQLFGYATVAIVSAGSAGNEKEGAQTILFPIIRKSKLGVMLNGFTPDYVLEENRNHLPKRALRRYLFRSIIFSVFVIIPLCILFKPWGYASLLVLPVELVLGYASFRTASWCINGGRLQITTRLIGKTTTIMLRRRMQMFEVSRSFLQKRRRLASVATAVKSAHHMEHVMLKDVSEEDAERIGRWYSYEKADG				NA	NA	NA	NA	NA
D1-12_03489	600	glpG		Rhomboid protease GlpG	ATGTTTATACGAACGGAAAATTTCCAGACTTTTATCAGACGTTATCCGGCCGTCAGCTGTATCTTGGCGCTGCAGGCGTTCTTATGGCTGTTTTTCAGTATGCCGCTTCATTCCGTCATGATGTGGTCAGATGCTGTGACCGGCTATAATTACGGCGTTTCCTCGGGAGAATGGTGGCGGCTGGTGACACCGATGTTTTTACACGCGAATTTCACTCACCTTTTGTTTAACTCCATGTCTCTCTTTTTATTCGCGCCCCCGCTTGAGCAGATGCTCGGAAAAGTCCGTTTTCTGATTGTGTACATCGCATCGGGCATTATCGGCAATATCGGCACGTATCTTGCCGAACCGCTTGATTATGTGCATGTCGGCGCATCCGGCGCGATCTTCGGACTTTTCGGCGTGTATGTGTTTCTGACTGTTTTCCGCAAGGAGCTGATCGGCCGGGATCAGTCGAAAATGATTATGACCCTGCTTATCATCGCGGTGCTGTCGACGTTTATCAACTCTAATATTAACATTATGGCGCATTTGTTCGGACTGGCAGGCGGATTTTTGCTTTCCTTTTTATGCGTGCAGCAAAAAAAGCGGCGGTATTAA	MFIRTENFQTFIRRYPAVSCILALQAFLWLFFSMPLHSVMMWSDAVTGYNYGVSSGEWWRLVTPMFLHANFTHLLFNSMSLFLFAPPLEQMLGKVRFLIVYIASGIIGNIGTYLAEPLDYVHVGASGAIFGLFGVYVFLTVFRKELIGRDQSKMIMTLLIIAVLSTFINSNINIMAHLFGLAGGFLLSFLCVQQKKRRY				NA	NA	NA	NA	NA
D1-12_03490	366	acpS	COG0736	Holo-[acyl-carrier-protein] synthase	ATGATTTTCGGAATCGGAATCGACATCGTTGAACTGCACAGAATTGAAAACATGCTCAGCCGGCAGGCGAGGTTTCCGCAAAGAATATTGACGGAGGCTGAATACGCCCGTTTTACATTGCTGTCGGACAAAAGGAAAATTGAATTTCTCGCGGGAAGATTTGCGGCAAAAGAAGCCTTTTCGAAAGCATACGGCACAGGTATCGGCAAAGAGCTCAGCTTTCAGGATATTGAAACCGGAAACGACACGGCGGGAAAACCAGTGCTGACCTGCGCCAAGCTGGACGGCGCGGCGGTTCACGTCTCCATTACCCATACAAAAGAATACGCCGCGGCACAGGTCGTGATTGAAAGGTTGTCACGCTAG	MIFGIGIDIVELHRIENMLSRQARFPQRILTEAEYARFTLLSDKRKIEFLAGRFAAKEAFSKAYGTGIGKELSFQDIETGNDTAGKPVLTCAKLDGAAVHVSITHTKEYAAAQVVIERLSR	PGPT0008840_2912	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
D1-12_03491	1008	ydcC	COG2834	Sporulation protein YdcC	GTGAGAAAAAGCTTTGTTTTGCTTTTAACGGGACTGCTTGCCGTCCTTATTCTTTCGGCCTGCGGCCAAAAATCACAGGAAGATATCGTGAACGGTTTAGATAAGAAGGCGAAAGAATACACCTCGTACAAAGCGAAAGCCAAAATGACCATCGAAACGGGGAGTGATCCGCAAGTATACAATGTGGAAATCTGGCATAAAAAACCTTCCCTGTACCGGGTCTATTTGGAAAATCCGAAAAAAGACCAAAACCAAGTCATTTTACGGAACGCCAACGGAGTCTTTGTCCTCACGCCGTCTTTAAATAAGAGCTTCAGATTCCAAAGCGACTGGCCGAATAACAGCAGCCAAGTATATTTGTTTGAGTCACTTGTAAAGGACGTGCAGCATGACAAAGACGCCGTCTATTCCGCCAAAGATAAAAAGTACACGTTTGAAACAAAAACAAACTATCAGCACAACAAAATGCTGCCGACTCAGGAAATCACTTTCAACAAAAAGGACATGAGCCCGTCGCTCGTTAAAGTTATGGATACAGACCGGAAAGTGATGGTAAAAGTCGAATTCAAAAGCTTTGAATTCAACAAACCGTTTGATAAAGACTCTTTTGACGAGAAGAAAAATATGACGCTTTCCCAGATGGACGTCGCCACAAGCGCCAAGCCGTCTGATTCATTTGCGGTCAAAACACCGCTTCAAGTGCCGGCCGGCGTCAAAAAGCTTGAAGAGAAAGATATTTCAACGGCGGACGGCAAACGGATCGTCATGACTTACGGCGGAGAAAAATCATTCACCCTTATTCAAGAAAAAGCCCATATCGCAAAAGCCGCCTCTGCCGTCACGCTGAAAGGCGAACCGGTTAATCTCGGCTTCACGGTGGCCGCATTATCTGATACGTCTTTAACGTGGACATATGACGGAGTGGATTATCTTCTGTCATCACAGGATCTGACAAAAGATGAAATGGTGGCCGCCGCCAAAAGCATGCAGGGACAGTCGTCAAAATAA	MRKSFVLLLTGLLAVLILSACGQKSQEDIVNGLDKKAKEYTSYKAKAKMTIETGSDPQVYNVEIWHKKPSLYRVYLENPKKDQNQVILRNANGVFVLTPSLNKSFRFQSDWPNNSSQVYLFESLVKDVQHDKDAVYSAKDKKYTFETKTNYQHNKMLPTQEITFNKKDMSPSLVKVMDTDRKVMVKVEFKSFEFNKPFDKDSFDEKKNMTLSQMDVATSAKPSDSFAVKTPLQVPAGVKKLEEKDISTADGKRIVMTYGGEKSFTLIQEKAHIAKAASAVTLKGEPVNLGFTVAALSDTSLTWTYDGVDYLLSSQDLTKDEMVAAAKSMQGQSSK				NA	NA	NA	NA	NA
D1-12_03492	1170	alr		Alanine racemase	ATGAACACAGCATCCTTTTACAGAGAAACGTGGGCGGAAATCAACCTGTCCGCGATTAAAGAAAATGTCACGCATATGAAAAAACACATCGGGCAAAACGTCCATCTCATGGCGGTTGTAAAGGCGAACGCTTATGGCCACGGAGATTTGGAAGTTGGGAAAGCCGCGCTTGAAGCGGGTGCCTCTTGTCTTGCCGTAGCCATACTGGATGAAGCGATTTCATTGAGAAAGCAGGGCATTACGGCGCCGATTCTCGTGCTTGGCGCCGTGCCGCCCGAATATGTACAAGCAGCTGCCGAGTATGACGTAACACTCACGGGATATTCTGTTGAATGGCTTCAGGAAGCCGCGCGCCACCTCGGAAGTGCAACAGTGCCGTTCCACCTGAAAGTCGACACCGGCATGAACAGACTCGGAGTCAAAACGGAGGAAGAAATCCAAAGCGTGTTAAAAATCCTCGGTCAAAATCCCGGTTTAGTCTGTAAAGGCGTATTCACCCATTTTGCTACCGCGGATGAGAAAAACAGAGATTATTTCCTCTTCCAGTTTGACCGCTTTAAAGAATTGATCGCTCCGCTTCCTTTAAAAGAATTGATGGTGCACTGCGCGAACAGCGCTGCCGGACTTCGTCTTAAAAAAGGCTTTTTTAACGCGGTTCGTTTCGGCATCAGTATGTACGGGCTCCGTCCTTCTGCTGACATCCAAAGCGAAATTCCTTTTCAATTGAAGCCGGCTTTTGCGCTGCACTCTGTTTTATCCCATGTGAAAAAGATCCGCAAAGGGGAAAGCGTCAGCTACGGCGCAACATATACGGCAGAGAAGGATCAATGGATCGGAACGGTTCCCATCGGCTATGCAGACGGGTGGCTCCGCAAGCTGAGCGGCACGTCTGTGCTGATCGGCGGCAAACGGATGAACATCGCGGGAAGAATCTGCATGGATCAATTGATGGTCGAATTAGATCAATCTTATCCGCCGGGCACCAAAGTCACCCTGATCGGCAGCCAGAAGGAAGCAACGATCACGATGGATGAAATCGCCGGGCGGCTTGGGACGATTAATTACGAGGTCCCTTGTACCATTAGTTCCCGCGTTCCCCGTATGTTTTTGGAAAATGAGAGTATAATGGAAGTAAGAAATCCTTTACTGCAAGATAATACAAGCAAGTAG	MNTASFYRETWAEINLSAIKENVTHMKKHIGQNVHLMAVVKANAYGHGDLEVGKAALEAGASCLAVAILDEAISLRKQGITAPILVLGAVPPEYVQAAAEYDVTLTGYSVEWLQEAARHLGSATVPFHLKVDTGMNRLGVKTEEEIQSVLKILGQNPGLVCKGVFTHFATADEKNRDYFLFQFDRFKELIAPLPLKELMVHCANSAAGLRLKKGFFNAVRFGISMYGLRPSADIQSEIPFQLKPAFALHSVLSHVKKIRKGESVSYGATYTAEKDQWIGTVPIGYADGWLRKLSGTSVLIGGKRMNIAGRICMDQLMVELDQSYPPGTKVTLIGSQKEATITMDEIAGRLGTINYEVPCTISSRVPRMFLENESIMEVRNPLLQDNTSK	PGPT0020040_1110	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
D1-12_03493	282	ndoAI	COG0864	Antitoxin EndoAI	TTGTCTGAATCCAGCGCAAGAACCGAAATGAAAATCAGCTTGCCCGAAAACTTAGTAGCTGAATTGGATGGTGTAGCGATGCGGGAGAAACGAAGCAGAAACGAACTGATATCACAAGCAGTGAGAGCGTATGTCAGCGAACGGACAACTCGCCATAACCGTGATTTGATGAGACGCGGGTATATGGAAATGGCGAAAATCAACTTGAATATCTCTTCTGAGGCTCACTATGCTGAGTGCGAAGCAGAAACGACCGTTGAGCGCTTAGTCAGCGGAGGATAA	MSESSARTEMKISLPENLVAELDGVAMREKRSRNELISQAVRAYVSERTTRHNRDLMRRGYMEMAKINLNISSEAHYAECEAETTVERLVSGG	PGPT0027400_164	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027400-REGULATION|antitoxin_ndoAI-K07723	NA	NA
D1-12_03494	351	ndoA	COG2337	Endoribonuclease EndoA	TTGATTGTAAAGCGCGGCGATGTTTATTTTGCTGATTTATCTCCTGTTGTTGGCTCAGAGCAAGGCGGCGTACGCCCGGTTTTAGTGATCCAAAATGATATCGGAAATCGCTTTAGCCCGACTGCTATTGTTGCAGCCATAACAGCCCAAATACAGAAAGCGAAATTACCAACCCACGTCGAAATTGATGCAAAACGCTACGGTTTTGAAAGAGATTCCGTTATTTTGCTGGAGCAAATTCGGACGATTGACAAGCAAAGATTAACGGATAAAATAACTCATCTGGATGATGAAATGATGGATAAGGTTGATGAAGCCCTGCAAATCAGTTTGGCACTCATTGATTTTTAG	MIVKRGDVYFADLSPVVGSEQGGVRPVLVIQNDIGNRFSPTAIVAAITAQIQKAKLPTHVEIDAKRYGFERDSVILLEQIRTIDKQRLTDKITHLDDEMMDKVDEALQISLALIDF	PGPT0027390_1037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027390-toxin_mazF|ndoA|chpApemK-K07171	NA	NA
D1-12_03495	822	rsbRA	COG1366	RsbT co-antagonist protein RsbRA	ATGTCGAATCAGAAAGTGTATCAGTTCATCATTGATCAGCATGATGAACTGCTTGATACTTGGACAGCCAAACTAAAAGAAGTAGGCAATCAGGAAGACTATCAGCTTACGAATCACATATGTGAAAATATTTGTAAAGACTATATAGACATTCTTTTATTATCGACTAAAAATGACGAGGCTACGGAAGAGCAGATCAGTGAGCTCGCACTGCGCGCCGTTCAGCTCGGTCTGTCACTGAAACTTCTTTCAGCTACTCTGTCAGAGTTTTGGAAACTGCTTTACGAAACGATGGTCGACCTTAATATGGCCGATCAGGACAGAGCAGATTTGATTTTGGAAATAGACAGCTTTTTCAATCCGATCAACACGGAAATTTTAAATCAGTATTCTATCTCCTGGGAAAAAACGGTTACTTTGCAAAAAATCGCGCTTCAGGAATTGTCGGCTCCGCTGATCCCGGTATTTGAGCATGTAACGGTCATGCCGCTTGTCGGGACGATTGATACGGAGCGTGCAAAGCACATTATGGAAAATCTGTTAAACGGCGTCGTAAAGCACCGTTCACAGGTTGTATTAATTGATATCACGGGCGTGCCGGTCGTTGATACGATGGTGGCGCACCATATTATTCAGGCATCAGAAGCGGTGCGGCTTGTCGGCGCGAAATGCCTGCTCGTCGGAATCCGTCCGGAGATTGCGCAGACGATCGTTAATCTGGGAATTGATTTGTCGCAGGTTATTACGAAGAATACCCTTCAAAAAGGAATTCAAACAGCGCTTGAAATGACAAATCGAAAAATCGTTTCATTGGGGGAATAA	MSNQKVYQFIIDQHDELLDTWTAKLKEVGNQEDYQLTNHICENICKDYIDILLLSTKNDEATEEQISELALRAVQLGLSLKLLSATLSEFWKLLYETMVDLNMADQDRADLILEIDSFFNPINTEILNQYSISWEKTVTLQKIALQELSAPLIPVFEHVTVMPLVGTIDTERAKHIMENLLNGVVKHRSQVVLIDITGVPVVDTMVAHHIIQASEAVRLVGAKCLLVGIRPEIAQTIVNLGIDLSQVITKNTLQKGIQTALEMTNRKIVSLGE	PGPT0014945_1250	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
D1-12_03496	366	rsbS	COG1366	RsbT antagonist protein RsbS	GTGAGACATCCAAAAATCCCGATCCTGAAACTGTATAACTGCTTATTGGTATCCATCCAATGGGAACTTGACGACCAGACAGCTTTGCATTTTCAAGAAGATCTGCTGAACAAAATCTATGAAACCGGCGCAAACGGGGTCGTCATTGACCTGACATCCGTTGACATGATCGATTCATTTATCGCGAAAGTGCTCGGCGATGTCATCACCATGTCTAAATTGATGGGCGCAAAGGTCGTATTGACGGGAATTCAGCCGGCTGTGGCGGTCACATTGATTGAACTCGGAATCTCACTTGAGGAAATTGAAACGGCGCTCGATTTAGAGCAAGGGCTTGAGACATTGAAGCGGGAATTGGGGGAATAG	MRHPKIPILKLYNCLLVSIQWELDDQTALHFQEDLLNKIYETGANGVVIDLTSVDMIDSFIAKVLGDVITMSKLMGAKVVLTGIQPAVAVTLIELGISLEEIETALDLEQGLETLKRELGE	PGPT0014945_1390	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
D1-12_03497	402	rsbT	COG2172	Serine/threonine-protein kinase RsbT	ATGAACGACCAATCCTGTGTGAAAATCATGACAGAATGGGATATCGTAGCCGCAAGACAGCTTGGCCGCAACGTTGCGAAGGAATTAGGCTTCGGCACGGTGGACCAGGCCAGAATCACGACGGCTATCTCAGAATTGGCCAGAAACATTTACTTATATGCAGGCAAGGGCCAGGTCAGCATAGAACAAGTAAACGACAGAGGGAAAAAAGGCCTTAAAATTATAGCGGAAGACAAAGGACCCGGAATCCCCGACATCCGTAAAGTGATGGAAGACGGCTTTTCAACGTCAGGCGGACTGGGAGCGGGACTTCCGGGCGTCAAAAGGCTGATGGACGAATTCAGCCTGCAATCTGTTGCAGAGGAAGGAACAGAGATTCAAGCCGTGAAATGGCTTCGGTAG	MNDQSCVKIMTEWDIVAARQLGRNVAKELGFGTVDQARITTAISELARNIYLYAGKGQVSIEQVNDRGKKGLKIIAEDKGPGIPDIRKVMEDGFSTSGGLGAGLPGVKRLMDEFSLQSVAEEGTEIQAVKWLR				NA	NA	NA	NA	NA
D1-12_03498	1008	rsbU	COG2208	Phosphoserine phosphatase RsbU	GTGGATTTCAGGGAGGTTATTGAGCAGCGGTATCATCAGCTGCTTAGCCGATATATAGCCGAATTAACAGAAACATCTTTATATCAAGCCCAAAAATTCAGCCGAAAAACGATTGAACATCAGGTTCCTCCGGAGGAGATCATCAGCATCCACCGAAAAGTAGTAAAGGAACTGTATCCGGATCTGCCGGAAGATGTTTTTCATTCGCTGGATTTTTTAATAGAAGTCATGATTGGCTACGGGATGGCTTATCAGGAACATCAAAGTCTGAGAGATATCCAGCAGGAGCTTCGTTCAGAAATTGAAATTGCCGCAAATGTTCAGCAGACGCTGCTTGGCACAAAAATTCCTGAAGAAGAAGATCTGGATATCGGGGCAATCAGCGTCCCCGCCAAACAGATGAGCGGGGATTATTATCACTTTGTCAAAGACAAGGAATCGATTAACATCGCGATAGCCGATGTCATCGGAAAAGGAATACCCGCCGCATTGTGCATGTCGATGATCAAGTATGCCATGGACTCTCTTCCGGAGACCGGCATTCACCCCTCCCAAGTGCTGAAAAATCTTAACCGCGTTGTAGAACAGAACGTGGACTCAAGCATGTTTATCACCATGTTTTACGCAAACTACAATACGAAAAATCACCAATTTACATATGCTTCTGCGGGGCATGAACCGGGCTTCTACTACTCTGAAAAAGAAAAAAAGTTTTATGATCTGGAGGCAAAAGGATTGGTGCTGGGAATTTCTCAGGATTTTGATTACAGCCAATATGAACAGCACATGGACGAAGGAGATATGATCGTTCTTTTTTCTGACGGCGTCACCGAATGCCGTACCGAAAACGGTTTCTTAGAACGCAGCGACATTCAGCGCATGCTGGAAGAACATATGGACTGCTCCGCGCAGGATATGGTCAAAAATATTTACGACAGCCTGCTGAGACTCCAGGACTTTCAGCTTCATGACGATTTTACGTTAATTGTTTTGAAAAGAAAGGTTTAA	MDFREVIEQRYHQLLSRYIAELTETSLYQAQKFSRKTIEHQVPPEEIISIHRKVVKELYPDLPEDVFHSLDFLIEVMIGYGMAYQEHQSLRDIQQELRSEIEIAANVQQTLLGTKIPEEEDLDIGAISVPAKQMSGDYYHFVKDKESINIAIADVIGKGIPAALCMSMIKYAMDSLPETGIHPSQVLKNLNRVVEQNVDSSMFITMFYANYNTKNHQFTYASAGHEPGFYYSEKEKKFYDLEAKGLVLGISQDFDYSQYEQHMDEGDMIVLFSDGVTECRTENGFLERSDIQRMLEEHMDCSAQDMVKNIYDSLLRLQDFQLHDDFTLIVLKRKV				NA	NA	NA	NA	NA
D1-12_03499	330	rsbV	COG1366	Anti-sigma-B factor antagonist	ATGAATTTAACGGTAGATATGAAGGAGAATCTTTCAGATATACAAATCAATATCGCTGGAGAAATCGATGTATACTCAGCTCCGGTGGTTCGTGAAAAGCTGATGCCCCTGGCAAACGAGGGGAAGGACATGAGAATCTGCTTAAAAGATGTAAACTATATGGACAGTACGGGTTTAGGCGTTTTTGTAGGCGTGTTTAAAACGGTGAGCAAGGAAGGCGGCTCTCTGAAGCTTGAGAATCTTTCCGACCGGCTCGTCCGTCTGTTTGAAATTACGGGGCTTAAGGACATCATCGACATTTCGGCAAAGTCAGAAGGTGGCGTGCAATGA	MNLTVDMKENLSDIQINIAGEIDVYSAPVVREKLMPLANEGKDMRICLKDVNYMDSTGLGVFVGVFKTVSKEGGSLKLENLSDRLVRLFEITGLKDIIDISAKSEGGVQ	PGPT0014350_2454	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
D1-12_03500	483	rsbW	COG2172	Serine-protein kinase RsbW	ATGAGTACATCAGTTGATTATATAGAGATGAAAATTCCGGCCGAACCGGAATATGTAGGAATCGTCAGGCTTACGTTATCAGGGGTCGCAAGCAGAATGGGCTATACCTATGATGACATTGAAGATTTGAAAATCGCTGTCAGCGAAGCTTGTACAAACGCTGTCCAGCATGCATACAACGATGAAAATAAGGGAGAAGTATCCGTGCGGTTCGGTGTGTTTGAGGATCGGCTGGAGGTCATTGTCGCCGATCAGGGAGACAGCTTTGATTTTGATCAGAAGCAGCAGGATCTCGGGCCGTACACACCTTCGCACACAGTCGATCAATTGTCAGAAGGAGGGCTCGGTCTGTATTTAATGGAAACGCTCATGGATGAAGTCAAAGTTCAAAGCAACTCTGGCGTAACCGTGGCGATGACAAAGTATTTAAATGGGGAGCGAGTTGATCATGGCACAACCATCAAAAACTACGAAACTAACTAA	MSTSVDYIEMKIPAEPEYVGIVRLTLSGVASRMGYTYDDIEDLKIAVSEACTNAVQHAYNDENKGEVSVRFGVFEDRLEVIVADQGDSFDFDQKQQDLGPYTPSHTVDQLSEGGLGLYLMETLMDEVKVQSNSGVTVAMTKYLNGERVDHGTTIKNYETN	PGPT0014950_335	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
D1-12_03501	789	sigB	COG1191	RNA polymerase sigma-B factor	ATGGCACAACCATCAAAAACTACGAAACTAACTAAAGATGAAGTTGATCGGCTCATACGCGACTTTCAAACACATGATAATAAAGAAGCCCAGGAAACACTCGTCGAGGTGTATACCAATCTCGTCGAAATGCTGGCAAAGAAATATTCAAAAGGAAAAAGCTTTCACGAAGACCTCCGCCAGGTCGGAATGATCGGACTTCTCGGAGCCATTAAACGGTATGATCCCGAGGTCGGCAAATCCTTTGAAGCATTTGCGATTCCGACCATCATCGGCGAGATCAAACGCTTCCTCAGAGATAAAACATGGAGCGTACACGTTCCGAGACGGATTAAAGAACTCGGGCCGCGCATTAAAATGGCGGTGGATCAGCTGACGACAGAGACGCAGCGGTCGCCGAAAGTCGAAGAAATCGCAGCCTTTCTCGATGTGTCAGAAGAGGAAGTGCTTGAAACGATGGAGATGGGAAAAAGCTATCAGGCGCTTTCTGTCGATCACAGCATCGAAGCGGATGCGGACGGAAGCACCGTCACGATTTTAGATATCGTCGGTTCGCAGGAGGAAGGATACGAACGCGTCAACCAGCAGATGATGATCAAAAGCGTGCTTCATGTGCTGTCCGACCGCGAAAAACAGATTATCGATCTAACATTTGTGCAAAATAAAAGCCAAAAAGAAACAGGGGACATTCTCGGAATATCTCAAATGCACGTCTCGCGCCTGCAGCGGAAAGCGGTGAAAAAACTGAGAGAGGCCTTGATTGGAGATCCCTCCATGGAGCTAATGTAA	MAQPSKTTKLTKDEVDRLIRDFQTHDNKEAQETLVEVYTNLVEMLAKKYSKGKSFHEDLRQVGMIGLLGAIKRYDPEVGKSFEAFAIPTIIGEIKRFLRDKTWSVHVPRRIKELGPRIKMAVDQLTTETQRSPKVEEIAAFLDVSEEEVLETMEMGKSYQALSVDHSIEADADGSTVTILDIVGSQEEGYERVNQQMMIKSVLHVLSDREKQIIDLTFVQNKSQKETGDILGISQMHVSRLQRKAVKKLREALIGDPSMELM	PGPT0015025_953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	OTHER_MOTILITY_REGULATION,PGPT0015025-sigM|rpoE-K03090	NA	NA
D1-12_03502	603	rsbX		Phosphoserine phosphatase RsbX	ATGATTCAGGTTGAAGAAAATGAACATGTTCAAACTCTTGTATACCAATTAAATAAAGAAGGCAAGTCCATATGCGGCGACAGCTTTTTTATGAAGGCGAATGAAGAAGAATTAGTTTGCGCGGTAGCGGACGGTCTCGGCAGCGGATCTCTTGCCAACGAATCCTCGTCAGCCATTAAAGACATCGTGGAAACGTATGCGGATGAGGATGTGGAAAGCATCATTGAGCGCTGCAATCAAGCGATGAAAAACAAAAGAGGGGCGACTGCCTCCATCTTAAAAATCAACTTCATCAAAAGGGAATTGACATACTGCTCGATCGGCAATGTCCGTTTCTTCCTGCACTCCCCATCAGGCGAAGTCTTTCATCCGCTGCCGATTTCGGGTTACCTCTCAGGCAAACCGCAAAGATACAAAACGTATACGTCATCATACGAAAAAGGGGCGAGGTTCATCATCTACACGGATGGGCTTGAGGTCCCGCATATCCGCACCTGCTTAAAGCAGGGACACTCAATAGAAGATATATCAAAATCACTTCATCCGTACACAACATCCAGACGTGATGATTTGACCTATATTCTAGGGCAGCTTTTATCGTAA	MIQVEENEHVQTLVYQLNKEGKSICGDSFFMKANEEELVCAVADGLGSGSLANESSSAIKDIVETYADEDVESIIERCNQAMKNKRGATASILKINFIKRELTYCSIGNVRFFLHSPSGEVFHPLPISGYLSGKPQRYKTYTSSYEKGARFIIYTDGLEVPHIRTCLKQGHSIEDISKSLHPYTTSRRDDLTYILGQLLS	PGPT0014955_53	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014955-rsbX-K05518	NA	NA
D1-12_03503	2160	yhgF	COG2183	Protein YhgF	ATGGAAACGTTAGCCCTTTTGAAAAAACAAATTGCTGAAGAAACAGCGTTATCCCAAAAACATGTCGAAAGTGTCATCCGCCTGCTGGAAGACGGCAATACCGTCCCGTTTATTGCGCGGTACCGAAAAGAGCAGACCGGCTCAATGGACGAGGTGCAGATTCAGGCAATCTCCGAGCGGTGGCAATACATACAAAACCTGACGCAGCGGAAAGAAGAAGTCATCAGATTGATCTCTGAGCAGGACAAGCTGACGGAAGGGCTGAAGCAAAAAATCGAACAAGCGGTCAAGCTTCAGGAAGTCGAGGATTTATATCGTCCCTTCAAACAAAAACGGAAAACAAAAGCCACCGTCGCCAAAAGCAAAGGCCTTGAACCGCTTGCGGACTATATTCTTTCTCTCCCGAAAGAAAACCGCCTTCCCGACATCGCTGATCAATATATCAGTGCAGAAAAAGAAGTCGCTTCAAGAGAGGAAGCCATTGAAGGCGCGAAGCACATCATAGCCGAACAAATCTCGGATGATCCTCATTTCAGAAAGTGGATTCGCCAGGAAACGTATAAAAAAGGAATTCTCACTTCCGCGGCAGGCAAGTCAGCCGCAGATGACGAGAAAAACGTCTATGAAATGTACTACGAGTACGAAGAGCCGATCCAAAAGGTCGTTCCTCACAGAGTGCTTGCGATGAACCGCGGTGAAAAAGAAGGCATTTTAAAGATTGCGATCGAACCGCCCGCCGATCAGATAAAAACTTATTTAGAAAAGCAAATCATCAAACACCGTGAAACGCCTGTGAAAGAAACGCTGAAAGAAGCCATTGAGGACAGTTACAAACGTCTGATCCAGCCGGCTATTGAGCGCGATATCCGCAAAGAGCTGTCAGAAAAAGCAGACGCGCAGGCGATTCATATTTTCGCTGAAAACCTGCGTAAGCTCCTGCTGCAGCCGCCGATGAAGGGAAAAGTCGTGCTCGGCGTCGATCCGGCCTTCCGTACGGGGTGCAAACTGGCAGTTGTTGATGAGACGGGAAAAGTGTTGAAAATCGACGTCATTTACCCGCACGCTCCCGTAAAAAAGACAGCGGAAGCCCGGAAAAAAATCAAAGAATTGCTGGACCGGTACGAAGTCGAGGTTGTGGCGATCGGAAACGGCACGGCATCACGGGAGACAGAGCAATTCGTCGTTGATGTGCTGAAAGAAACAGAGCGTGACATTTATTATGTCATCGTCAATGAGGCCGGAGCAAGCGTGTATTCCGCGTCAGAAATCGCCCGTGAAGAATTTCCGGATTTTCAGGTCGAAGAGCGCAGCGCCGTCTCCATCGCGCGGAGGTTGCAAGACCCGCTGGCCGAGCTTGTAAAAATCGATCCTAAATCCGTCGGCGTCGGGCAATACCAGCATGATGTGAGCCAAAAGCATTTAAATGAATCACTCCGTTTTGTCGTAGAGACCGTCGTCAACCAAGTCGGGGTGAATGTCAATACAGCATCAGCCGCGCTTCTTCAATATGTAGCCGGGTTATCCAAAACCGTTGCCGGCAATATCGTTAAAAAAAGGGAAGAGCTCGGCAAATTCACAAACCGCAAAGAGCTGAAAGAAATCCCGCGTCTCGGCGCAAAAACATATGAACAGTGCATCGGCTTTTTGAGAGTGCCCGGAGGACCGGAGCCGCTCGACCGCACCGGGATACACCCGGAAAGCTATAAAGAGACAAAGGCGCTGCTCAAAAAACTGCAGCTCACTGCGAATCAGATCGGAAGCGCGGACGTAAAAGAGAAAATAAGCGCACTGCCGCTGTCTGAAACGGCTGAAGAGCTCGGTATAGGGGAAATTACACTTACGGATATTTGCGGGCAGCTGACAAGGCCGGAGCGAGATCCTCGTGACGAAGTGCCGAAGCCTTTGCTGAAAAAAGACGTTCTGCAGCTTGAGGATTTAAAGGAAGGAATGGAATTGCAGGGCACCGTCCGCAACGTTGTAGACTTCGGCGCTTTCGTCGATATCGGCGTCAAACAGGACGGGCTTGTGCACATTTCAAAACTGAGCAATCAATTCGTCAAACATCCTCTCGACGTCGTATCGGTCGGAGACATCGTCACCGTATGGGTCGAAGGGGTGGACGTGCAAAAAGGCAGAGTGTCGCTGTCTATGGTAAAATAA	METLALLKKQIAEETALSQKHVESVIRLLEDGNTVPFIARYRKEQTGSMDEVQIQAISERWQYIQNLTQRKEEVIRLISEQDKLTEGLKQKIEQAVKLQEVEDLYRPFKQKRKTKATVAKSKGLEPLADYILSLPKENRLPDIADQYISAEKEVASREEAIEGAKHIIAEQISDDPHFRKWIRQETYKKGILTSAAGKSAADDEKNVYEMYYEYEEPIQKVVPHRVLAMNRGEKEGILKIAIEPPADQIKTYLEKQIIKHRETPVKETLKEAIEDSYKRLIQPAIERDIRKELSEKADAQAIHIFAENLRKLLLQPPMKGKVVLGVDPAFRTGCKLAVVDETGKVLKIDVIYPHAPVKKTAEARKKIKELLDRYEVEVVAIGNGTASRETEQFVVDVLKETERDIYYVIVNEAGASVYSASEIAREEFPDFQVEERSAVSIARRLQDPLAELVKIDPKSVGVGQYQHDVSQKHLNESLRFVVETVVNQVGVNVNTASAALLQYVAGLSKTVAGNIVKKREELGKFTNRKELKEIPRLGAKTYEQCIGFLRVPGGPEPLDRTGIHPESYKETKALLKKLQLTANQIGSADVKEKISALPLSETAEELGIGEITLTDICGQLTRPERDPRDEVPKPLLKKDVLQLEDLKEGMELQGTVRNVVDFGAFVDIGVKQDGLVHISKLSNQFVKHPLDVVSVGDIVTVWVEGVDVQKGRVSLSMVK				NA	NA	NA	NA	NA
D1-12_03504	114	cmpA		Cortex morphogenetic protein A	ATGCCGAATTGGCTGATGAAACAAATGCAAAAAGCGTTTTTAGAAAAGGACAATTACCAAATCAAACTGCTGAATCAGTGCTGGTATTTCTACAGAAAAAAACACTGCTCGTAA	MPNWLMKQMQKAFLEKDNYQIKLLNQCWYFYRKKHCS				NA	NA	NA	NA	NA
D1-12_03505	333			Protein SprT-like protein	ATGCTGTCTTCCCATAACATCGAATTAAACCGCAAATATCTGATCGAACACGGGCAGAGCGAGCTGGTAGGAATCATCAAACACGAGCTGTGCCATTATCATCTTCATCTTGAGGGAAAAGGGTACAAGCACAGAGACAAAGACTTCAGAGACCTGCTTCAGAAAGTCGGAGCGCCGAGATTCTGCACGCCGCTGCAAACCAAAAAGCCACAAAAGAAAACATATATGTATAGATGCGCGGCTTGCGGCCAACAGTATATAAAGAAGCGGGCAATGAACCCGGAAAGATATGCCTGCGGAAAGTGCAGAGGAAAAATCAAAAGAATTTTTTAA	MLSSHNIELNRKYLIEHGQSELVGIIKHELCHYHLHLEGKGYKHRDKDFRDLLQKVGAPRFCTPLQTKKPQKKTYMYRCAACGQQYIKKRAMNPERYACGKCRGKIKRIF				NA	NA	NA	NA	NA
D1-12_03513	1404	proP		Proline/betaine transporter	ATGAAGTTTAACAAGAAAAAAATTAACGTTGTAGACATTCAAAAAGCGAAGAAAAGCGTGTTTGCTACAGGGATAGGAAACGCGATGGAATGGTTTGATTTTGCTTTATATTCTTATTTGGCAGTTATTATTAGTAAAAACTTTTTCAGTCCGGTTCAAAACGATGAATTAAAGTTAATATTTACTTTTGCTACATTTGCAATTGCCTTCTTACTTAGACCGGTAGGCGGAATTATTTTTGGTAAAGTGGGTGATAAATTTGGTCGGAAAATAGTATTAACAATTACTATTTTAATGATGGCTTTATCTACTTTAATAATTGGTGTGCTTCCTACCTATGACCAGATTGGTGTATGGGCCCCTATATTATTACTCTTAGCTCGTATTCTGCAAGGTTTTTCTGTGGGTGGAGAGTACGCTGGTGCAATGGTATATATCGCAGAATCTTCTCCAGATAATAAACGTATAAGGTTAGGCAGCGGTTTAGAAATCGGCACATTATCTGGTTATATAGTAGCGTCTGTTTTAGTTACAGTACTTTTCTGGACTTTATCTGATGTTCAAATGAATAGTTGGGGATGGAGAATTCCTTTCTTCTTGAGTATTCCAATAGGATTATTTGGTTTATATTTGAGAAGTCATTTAGATGAATCACCAATCTTTGAAAATGACATCTCTGAAAACCAAGAACAACAACCAGGTTTATTAGAAGTCATTAAAACATATAAAAAAGATATCTTTTTATGTATCGTATTTGTGGCATTTTTCAATATAACCAATTACCTATTGTTAGGTTATATGCCTTCTTATTTAGATGAGAACCTTGGTATAAGTGATAATATAAGTACACCGGTTACAGCAATTGTATTGATTATTATGGTACCGTTCGCTTTAACTTTTGGTAAATTGGGAGATAAATTAGGAAATAAAAAAGTTATAACAATTGGATTAGTATTAGGAATTGTATTTTCGATTGTCTCTTTTCAATTTCTTAATATGGGGAGTCTAATATTCTTATTTATAGGACTTTTAATGTTAGGTATTGTATTATCTGTATACGAAGGTACTATGCCAGGATCTTTACCTACGTTGTTCCATACTGACATTAGATATCGAACATTATCCTGGACATTCAATTTATCAGTTTCTATTTTTGGCGGAACAACACCTTTAGTTGCTTCTTGGTTAACCCATGTGACAAGAAACAATTTGGCGCCGGGTTTCTATTTATTAGCAGTTAGTTTAATTGGCTTAATAGTTGTGTTAACCTTATTTAAAGATACTTCAGGTAAATCTTTAAAAGGTTCTTACCCAACAGTTGCTTCTAAAGCTGAGTTTCAAGAAGCTGTTGAAAATCCAAAAGATTCACTGTGGTGGAAAATGGAACAAACAGAAAAGGAATAA	MKFNKKKINVVDIQKAKKSVFATGIGNAMEWFDFALYSYLAVIISKNFFSPVQNDELKLIFTFATFAIAFLLRPVGGIIFGKVGDKFGRKIVLTITILMMALSTLIIGVLPTYDQIGVWAPILLLLARILQGFSVGGEYAGAMVYIAESSPDNKRIRLGSGLEIGTLSGYIVASVLVTVLFWTLSDVQMNSWGWRIPFFLSIPIGLFGLYLRSHLDESPIFENDISENQEQQPGLLEVIKTYKKDIFLCIVFVAFFNITNYLLLGYMPSYLDENLGISDNISTPVTAIVLIIMVPFALTFGKLGDKLGNKKVITIGLVLGIVFSIVSFQFLNMGSLIFLFIGLLMLGIVLSVYEGTMPGSLPTLFHTDIRYRTLSWTFNLSVSIFGGTTPLVASWLTHVTRNNLAPGFYLLAVSLIGLIVVLTLFKDTSGKSLKGSYPTVASKAEFQEAVENPKDSLWWKMEQTEKE	PGPT0013645_906	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-12_03514	483			hypothetical protein	TTGTCAGTCACCTTCATCCTTCTGTTGACTGCGTGCGGCGGTAGTAAATATGATAATGCAATTAATGAAGTGATGAAGCAGGAGAAGAAAGTCAGAAAAGAAATGCGAGCAGATTCAGATGAGTACAAAAGAGATAACGCCATAATTCGTGTATATGATGACGGGAAGTATATTCAACTTGCGTTTTATCAGCCAGAAGAAAGTTCTCGCAAGCTTACTGCTTATTCTTATTATGAGAAGCTTGGAGATTCTTATGAGGAAATGACACATATGCCGGGTGATAGTGATGGCGACCGCCTTGGTCTTTATAAGAAAACACCTGATTATAAAGAGGTTAAAAGCAAGGAAACCAAAACAATGTGCTTGTTCATTCCTGATAGGGGAACAATTGTTTCACCGTTAAGTTGTTGTGTGAGAGCCAGTATGTTAAAATGCTACGTAGATTTAATAATAAAGTTTAGATTCAAGGAGATTTATTTATGA	MSVTFILLLTACGGSKYDNAINEVMKQEKKVRKEMRADSDEYKRDNAIIRVYDDGKYIQLAFYQPEESSRKLTAYSYYEKLGDSYEEMTHMPGDSDGDRLGLYKKTPDYKEVKSKETKTMCLFIPDRGTIVSPLSCCVRASMLKCYVDLIIKFRFKEIYL				NA	NA	NA	NA	NA
D1-12_03515	426			hypothetical protein	ATGAAGTTGGATGAATTTACCATCGGGCAGGTTTTTCAAACTAAATCTTTTGAATTAACAAAAGAGAATATAATGAATTTTGCAGAAGTGTATGACCCACAATACATGCATTTAAATGAAGAAAAAGCAAAAATGGGCAGATTTAATGGAATTATTGCTTCTGGAATACAAACGTTATCTATTACTTTTAAGCTTTGGATTGAAGAAGGGTGTCATGAAGACGATATTATTGCTGGGACAGGAATGAATAATATAAAATTCCTAGCACCCGTTTACCCTAATGATAAACTGCACACTATTGTTAAGGTTATTGATAAAAAACCAAATAAAAGCCAGACGGGGATACTTACTGTATTGTTATCTACCTATAATCAGAAAGAAGAAAAAGTGTTTGAAGGTGAGTTATCAGTATTAATGAAACGCTAA	MKLDEFTIGQVFQTKSFELTKENIMNFAEVYDPQYMHLNEEKAKMGRFNGIIASGIQTLSITFKLWIEEGCHEDDIIAGTGMNNIKFLAPVYPNDKLHTIVKVIDKKPNKSQTGILTVLLSTYNQKEEKVFEGELSVLMKR				NA	NA	NA	NA	NA
D1-12_03516	342	yjbR	COG2315	putative protein YjbR	ATGAATTATGATGAAATAAAAGATTACTGCCTAACCTTTCCAAACTCTTATGAAGACCATCCTTTTGGAGATGGTTGGACTGCAATTCGGCACAAAGGGAATAAGAAAATATTTGCACTTATCTTCACCCGCGACGAACACTTATGTGTCAACCTTAAATGCGAACCTGAAAGGGCTGATTTTCTACGTGGTCTTTTTGAAGAAATCAAGCCCGGATACCATATGAACAAGGAGCATTGGAATACTCTTACCTTAGATGAGGGACTCCCAGAGCACCAAATCCATGACATGGTAAAGTACAGCTTTGAACTGACAAAACCAAAAAGTAAAAAGGAAACATAA	MNYDEIKDYCLTFPNSYEDHPFGDGWTAIRHKGNKKIFALIFTRDEHLCVNLKCEPERADFLRGLFEEIKPGYHMNKEHWNTLTLDEGLPEHQIHDMVKYSFELTKPKSKKET				NA	NA	NA	NA	NA
D1-12_03517	405	ywnA_2	COG1959	Putative HTH-type transcriptional regulator YwnA	TTGGCTCTTATTGAAATAAATGAAGACGGAATTAGCACTTCTGAATTTTTAGCTGGAAGTGTAAATACAAATCCCGCCTTCATAAGAAAAATTATGGGGATGCTGAAAAAAGCAGGTTTAGTAAAAGTTCGGCCAGGTATTGCAGGAGCTGAATTAGCGAGGGATTTAACTGAAATCACCTTACTTGATGTTTATAGAGCAGTTCATGTTGTTCAAGATAAAGAATTGTTTAGTATACATGAAAATCCCAATCCTCAATGTCCTGTAGGCCGGAACATTCAAAGTACAATTGGTCCAATATTTGAAATCGCCCAATCTGCCTTGGAAAAAGCTCTTGGGCATATCACAATTGATGATGTGGTAAAGGATATTATTGAAAAAGAAAAATTGACCAATAATTGTTAA	MALIEINEDGISTSEFLAGSVNTNPAFIRKIMGMLKKAGLVKVRPGIAGAELARDLTEITLLDVYRAVHVVQDKELFSIHENPNPQCPVGRNIQSTIGPIFEIAQSALEKALGHITIDDVVKDIIEKEKLTNNC				NA	NA	NA	NA	NA
D1-12_03518	639			hypothetical protein	TTGAAAATTGGAATCATTGGTGCAACCGGAAAAGCTGGAAGTCTTATCTTGAAAGAAGCGGTAAGCAGGGGACATGAAGTAACTGCAATTGTAAGAGATGCTGCAAAACTTAAAGGGGAAAAGATTTCAATCATTGAAAAAAATATAATTGATCTTACATCGGATGATCTAAAAAAGTTAGATGTAGCAGTTAATGCCTTCGGTGCTCCATTAGGAGAAGAACAGGCACATGTAGATGCTGGCCGGGCATTAATTAGGGCATTAAAAGGAACGGGCACAAGAGCTGTAATTGTAGGTGGAGCAGGGAGTCTTTATGTAGACGAAAATAAAACTGTCAGTGTAATGGATACACCTGATTTCCCGGAGATTTTTATTCCAACAGCTAAAGGGCAAGGTCGTAACTTGCAAGAACTAAAGGAAACTTCTGATATTAACTGGACATTTATCAGTCCTTCAGCGGTATTTGACCCAGACGGGAAAAGAACTGGATTTTATCAGTCAGGAAAAGATCATCTTCTTGTGAATTCGAAAGGCGAAAGTTATATCAGCTATGCAGACTATGCAATTGCAGTATTGGATGAAATTGAAAATCCAAAACATATAAATGAACGCTTTACAGTTGTTGGAGAAGCTGAATAA	MKIGIIGATGKAGSLILKEAVSRGHEVTAIVRDAAKLKGEKISIIEKNIIDLTSDDLKKLDVAVNAFGAPLGEEQAHVDAGRALIRALKGTGTRAVIVGGAGSLYVDENKTVSVMDTPDFPEIFIPTAKGQGRNLQELKETSDINWTFISPSAVFDPDGKRTGFYQSGKDHLLVNSKGESYISYADYAIAVLDEIENPKHINERFTVVGEAE	PGPT0020900_827	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
D1-12_03520	204	cspC	COG1278	Cold shock protein CspC	ATGGAACAAGGTACAGTTAAATGGTTTAATGCAGAAAAAGGTTTTGGATTTATCGAACGTGAAAATGGAGACGATGTATTCGTACACTTTTCTGCAATCCAAAGTGACGGATTCAAATCTTTAGACGAAGGTCAAAAAGTAACGTTTGACGTTGAGCAAGGTGCTCGTGGAGCTCAAGCTGCTAACGTTCAAAAAACTGCTTAA	MEQGTVKWFNAEKGFGFIERENGDDVFVHFSAIQSDGFKSLDEGQKVTFDVEQGARGAQAANVQKTA	PGPT0014675_6769	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-12_03522	462	carD	COG1329	RNA polymerase-binding transcription factor CarD	ATGTTTCAAATTGGCGATAACATTGTTTATCCAATGCACGGAGCAGGTACAATTGAAGCCATAGAAGAAAAACAATTCTTAGAGGAAAAACAACAGTATTATGTCATAAGAATGTCAATCAGTAATATGACAGTTATGATTCCAACGCGTAAAATATTGAGTTCAAATATACGGCCGGTTACTGATATACGTGCATTAAAACACATTATACACATTTTTCAGCATGGAGAATCAGATAGGCTACTGCCGTGGAAGCAAAGGTATATAGTAAACACGAACAAAATAAAAACGGGTGAAATACAAGAAGGCGCTGAAGTTGTACGTGATTTAAGACGGATGAAGAAAGAAAAAGCACTTAATTCAAGCGAAAAAAAAATGTTGGATAATGCATATGAATTTTTGATTAGTGAACTGGAATTCATTAAAGGAATCACTGAAAAACAAATAAAAAGTTTTTGCTAA	MFQIGDNIVYPMHGAGTIEAIEEKQFLEEKQQYYVIRMSISNMTVMIPTRKILSSNIRPVTDIRALKHIIHIFQHGESDRLLPWKQRYIVNTNKIKTGEIQEGAEVVRDLRRMKKEKALNSSEKKMLDNAYEFLISELEFIKGITEKQIKSFC	PGPT0014830_1553	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
D1-12_03523	681	racX	COG1794	Broad specificity amino-acid racemase RacX	ATGATTGGAATACTGGCAGGAATGGGGCCAAAATCTACTGGGCCATTTGTAGATAAAGTAGTAGACGAGTGCCAAAAAATATATGGAGCAATACACGACATGGATTTTCCTCATATGATGATTTATTCTTGTCCGACTCCTTTCTACATGAATAAACCTCTCAATCATACGGACATGGAAAATGCAATTATTGAGGGGGCTGTAAAGCTTGAAAAAACGGGTGTTAATTTTATTGCAATCCCATGTAATACCGCACATATTTATTTTAATCAAATAAAAAAATCGCTTTCAGTCCCTTTACTAAACATGGTTGATGAAACCATAAAAAAAATACCTAAAGGCTCAAAAAAAGCAGCTCTTTTAGCCACCGTTCCTACGGTTCAATCTGGAATATTTCAAGAAGCGTTAAACAGAGAAGGTTATGATTTTTTACATCAAGATAGTTGGCAAATCTATGTCGATCACATAATAGAAAAGATTAAACAAGGTCAAATCGATAAGGCTGGTACATTATATGATGAATTACACCGTGAATTAGCAGAAAAGGTTGATACGGTTATCATTGCATGTACGGATTTAAATATGGTCACGGATCAAAAAAGCAGCGAACTTACCTTTGTTGATTCATCAGCTTGTCTCGCTCAAGCCATTGTAAATAAGTATGTATCATTAACAAAATAA	MIGILAGMGPKSTGPFVDKVVDECQKIYGAIHDMDFPHMMIYSCPTPFYMNKPLNHTDMENAIIEGAVKLEKTGVNFIAIPCNTAHIYFNQIKKSLSVPLLNMVDETIKKIPKGSKKAALLATVPTVQSGIFQEALNREGYDFLHQDSWQIYVDHIIEKIKQGQIDKAGTLYDELHRELAEKVDTVIIACTDLNMVTDQKSSELTFVDSSACLAQAIVNKYVSLTK				NA	NA	NA	NA	NA
D1-12_03524	570			hypothetical protein	ATGAAGAAATTTAAGATGTTTTTTGATATTGAAAAAGAGGAGCAATGGCTGAACGAGCAATTACAAAAAGGCTATCGCTGTACAAATATCAGCGGATTAGGAATATACACTTTCGAAAAAACCGACAAAAAATATGTGATGAGACTGGATTATCAAGATTATTTATCAAAGAAAAAATTCGAAGATTACAGAGAGATATATGAAGACTTCGGCTGGAGTTATATAAATGGCCCTTGGGGGCTTGGAACTCGATATTGGCAAAAAGAAGATGATGATCAAAATGAAATCTTCTCGGATCGCCAATCAAAGAGTAATTATTATAAAAGACTAATGAGTTTTTCATCTTGTTTTGGGTTACTGTGCTTGTTTTATTGTAATATGATTTACACGAATTCAGGTTTGTATTTAGCTGAAGGTCTGTGGAGTATGGAAGGCGCAATGTTTTGGAAAGCATTTTTATTTGAAACTCCATTTGCCCTTTTAAGGTCGCTTCCCGCTCTTATGGCCGTTCTCTTTGGCTGCAGTTTCTATAAAGCGTATCGAAAATATTCAATGTTAAAAGAACAATAA	MKKFKMFFDIEKEEQWLNEQLQKGYRCTNISGLGIYTFEKTDKKYVMRLDYQDYLSKKKFEDYREIYEDFGWSYINGPWGLGTRYWQKEDDDQNEIFSDRQSKSNYYKRLMSFSSCFGLLCLFYCNMIYTNSGLYLAEGLWSMEGAMFWKAFLFETPFALLRSLPALMAVLFGCSFYKAYRKYSMLKEQ				NA	NA	NA	NA	NA
D1-12_03525	318			hypothetical protein	ATGAAACATAAATTATTACCGCTGTCTGAAACCATGCATTATATTTTATTAGCTCTGCGGGAGCCGCTTCATGGCTATGCCGCCATGCAGAAGATCGAGAAGATGAGTAACGGAACTGTTATTTTAGCAGCCGGCACATTATACGGCGCGATTGAAAACTTGAATAAGCATGGCTGGATTGAACCTGTTGGAGAGTCGGGCCGGAGAAAAGTTTATATGATAACTGCGGAAGGAAGCGCCATTTTGAAGATGGAACAAAACAGGTTACTGCATATTTTATCCCTGCACGAAGGAAGTGAATCGAATGAAGAAATTTAA	MKHKLLPLSETMHYILLALREPLHGYAAMQKIEKMSNGTVILAAGTLYGAIENLNKHGWIEPVGESGRRKVYMITAEGSAILKMEQNRLLHILSLHEGSESNEEI				NA	NA	NA	NA	NA
D1-12_03526	966	cotR	COG3621	Putative sporulation hydrolase CotR	TTGGCAAAATATCGGATCATGACCTTTGACGGGGGCGGTACCTTAGGTGCTTTAAGTTTACAACTATTGAACAGACTGGCTGAAGAAAATCCAGCATTAATAAGTCGAACCCATGTATTTGCGGGAAATTCAATCGGTTCATTTACTGCCCTTGCATTAGCAAGCGGAAGATCTCCGAAGGAAACACTTCAGTATTTTGAGGATGAAATCCTGCCCGCATTCAGCACTTCCCGGCCGGGCGGACCTGTTTTCAATCAACAATTCCCATATTCCGGTTTTATTAAAGCGGTACGAAACTTTTTCCCGCCAGGCCTTCGTCTTAAAGATGTAAGAAAACGAATTGTTGTCCCTTCATTCAAATTATACTCCCCAGCACTGGATCGTTGGACGCCCGTATTATTTCACAACTTTCCCGGCTCTCCCTATTTAAATGAGAAAGTGAGTGATGTCATACTGCGGAGCAGCGGTGCTCCCGCGACGCAACGAGCCTATCAAAACTACGTGGACGGATATGTAGTGGCAACGAACCCCAGTACGGCCAGTATCGCGTTTGCGGTTGGTAAAGCCAACGTGCCACTGGATCAAATTGCGGCGCTATCCATCGGTACAGGTGAAGCCCCGACTCGGTTAAGAAGAGATACGAGGGGGTGGGGAATGGTAAGTGCGGATAACATACGTCCCGAAAATCTGAAGAACCTTCCTCCAAATTGGGGAGTCCTTTTGGACAGGTCGCCTAATGAACCTTTACTGCCATTTCTTCAGATGATCTCCGGCGGAAATGGCTACTATGAATCCATGGTCAGCGCGAATCTGCTGGGAGATCGCTTTTTCCGGTTAGATCCGCGGATTCCTAACTTCTCCAAAACAGACCCTTCCGTGGTTCCCGCTGTCATTGAAATTGCGAACAAAACCAACTTACAGCCTGCTAATACTTTTATAGAGAAAAACTGGAACGACAGCCACTAA	MAKYRIMTFDGGGTLGALSLQLLNRLAEENPALISRTHVFAGNSIGSFTALALASGRSPKETLQYFEDEILPAFSTSRPGGPVFNQQFPYSGFIKAVRNFFPPGLRLKDVRKRIVVPSFKLYSPALDRWTPVLFHNFPGSPYLNEKVSDVILRSSGAPATQRAYQNYVDGYVVATNPSTASIAFAVGKANVPLDQIAALSIGTGEAPTRLRRDTRGWGMVSADNIRPENLKNLPPNWGVLLDRSPNEPLLPFLQMISGGNGYYESMVSANLLGDRFFRLDPRIPNFSKTDPSVVPAVIEIANKTNLQPANTFIEKNWNDSH				NA	NA	NA	NA	NA
D1-12_03527	477			hypothetical protein	TTGAATACGATTGACCTTATTGTTTTACATTTTGAAGAAGTAAGACGGCGAAGCATCAAGTTATGGACAGCTATACCTGAGGAAAAAATGGACTGGCGCCCGGATTCCGAAGCAATGTCGTGTAAGGAAATGATAAGACATGTAGTAGAAGCGGAATTTCTTTATCATCACATTTTACTAAAACAAATGAATGAGTCTTCAGAGGAATCTAAAAACCCGTATGAATCAAAAACGTTTACCACAGTAACCGAAGAATTAGAATTCGCAAAACCGTATCGGGCCGAGTTTTTGACATTCATCAAATCGTTAAACGAAACAGATTTAACAAATATAAAGATTGACAGGTCTGATGTTGGATATATTCGCGAACTAGGAGACATGTTATTAAGAATCGCTTACCATGAGTCCGTACATACCGGTCAGCTTTTAGACTATCTCAGAACTGCTGAGGTTGACAGGCCTTTAATTTGGGACTAG	MNTIDLIVLHFEEVRRRSIKLWTAIPEEKMDWRPDSEAMSCKEMIRHVVEAEFLYHHILLKQMNESSEESKNPYESKTFTTVTEELEFAKPYRAEFLTFIKSLNETDLTNIKIDRSDVGYIRELGDMLLRIAYHESVHTGQLLDYLRTAEVDRPLIWD				NA	NA	NA	NA	NA
D1-12_03528	1197	ygeX	COG1171	Diaminopropionate ammonia-lyase	TTGTTTGCGAATATTGATTGGGTTTCGAATCATTTCAGATCTGATACGTTACCTCAGGAATCTTCCTATTTCTCTGCAGAGGAAACAAAAAAAGCGCTTCATTTTCATTCCGGCATTCCCGGCTATCAAGCAACACCGCTTCACTCGTTAAGAAGTCTCGCACAATATCTCGGCATAAACAGTCTTTATGTCAAAGATGAATCTAAACGCTTTAGCCTTAATGCTTTTAAAAGCTTGGGTGCTTCATATGCGATTGCTTCTTACTATAGTAAAAAACTTAAAATCGACCTTAATTCCATTCATTTTAACGAATTGGTTGAACTTGTAAAAAGCGCTCCTTCTGCTACATTTGCTACAGCTACCGACGGTAATCACGGAAAGGGACTGGCATGGGCGGCTTCCCTTTTTGGACAGAAAGCAAAGGTATATATGCCGAAAGGTTCTTCTCCCGCGAGATTGGAAGCCATTAAACATTTAGGTGCTGATGCGTACATTACAGATTTAAATTATGATGACACTGTTCAAATGGCGGCAGATTTATCTGAGAAACATCATTGGATTTTAGTTCAGGATACGGCTTGGGAAGGATACCAGCAAATTCCTCTCTCTATCATGCAAGGATATACAACAATTATTGCAGAAATATACAAACAAAATGAAGATTTCTTCAATACAATCAGTCATGTTATCCTTCAGGCTGGAGTGGGATCTTTCGCTGCTTCAATGGCAGCTTCCCTATTAAATGTAAAAAGCGGGAATAAGCCCAAAATCTCCATAGTTGAACCCGAAAGCGCAAATTGTCTGTACCGGTCAGCCCAAAGCGCCTCTGGATCACCTGTCCGAGTATACGGTGATCTTTCTACAATGATGGCTGGGCTTGCCTGCGGCGAACCCAACCCATTAGGTTGGAACATTTTGAGAACATGCAGTGATTATTTCTTTTCCTGTAATGACAAGATAAGCGCATTGGGGATGAGAATATTGGGTAATCCTATTGATCCGGATCCGAAGATTATTTCTGGTGAGTCAGGTTCCGTACCATTAGGTTTGCTGCATGAGTTAAGTAAGAATACTTCAATGGAACAGATAAAGAAGAAATTAGAATTAGATCAGTCATCTAATGTGTTAATGATTAATACAGAAGGTGATACTGATCCGGAAAATTATCGGAAAGCGGTTTGGGGAACAGATCATTAA	MFANIDWVSNHFRSDTLPQESSYFSAEETKKALHFHSGIPGYQATPLHSLRSLAQYLGINSLYVKDESKRFSLNAFKSLGASYAIASYYSKKLKIDLNSIHFNELVELVKSAPSATFATATDGNHGKGLAWAASLFGQKAKVYMPKGSSPARLEAIKHLGADAYITDLNYDDTVQMAADLSEKHHWILVQDTAWEGYQQIPLSIMQGYTTIIAEIYKQNEDFFNTISHVILQAGVGSFAASMAASLLNVKSGNKPKISIVEPESANCLYRSAQSASGSPVRVYGDLSTMMAGLACGEPNPLGWNILRTCSDYFFSCNDKISALGMRILGNPIDPDPKIISGESGSVPLGLLHELSKNTSMEQIKKKLELDQSSNVLMINTEGDTDPENYRKAVWGTDH				NA	NA	NA	NA	NA
D1-12_03529	672	rspR_2	COG1802	HTH-type transcriptional repressor RspR	GTGACAATGAACCAACAGCACCAATTAAAACGAACATTTATGAAAGTTGAAGCTTATCAGTTTCTGAGAGAGTGGATTATAACAGGTAAGCTTGAGCCGGGAGAAAGACTGAGAAATCAAGATCTATCTGAGACACTCGGAATCAGCCGCACGCCGGTCCGGGAGGCGCTGCTTCAGCTTGAAAATGAAGGTCTTGTCATAACGAAAGCCAATCGGTGGACAGTGGTAGCACCTATTGACCTGGAAAATGCGAAAGAGGTTTACTCGGTCGTTTGGTCTCTCGAGTGTCTCGCTTTTGAACAGGCACTTTCAAGATTTACACAAGATCATATAGACGAGATGGAAAAATTAAATAAGCAAATGAATGCAATAATGGAGACGGATGATAAGGTAAAAGCGCTGGAATTGGATAATGCCTTTCATCAAAAGATCATTGAAGTCTCAAATAATACTGAACTGCAGAAATTACTGCAAGGACAAAAAACGAAAATACAGAGAATTGAAATTCGGTATTTCAGTCAAAATCACGCAATGAATGCATCCTGCAGTGAACACAATCAAATATTAGACGCAATGAAGAATAAAGATCTTAAACAAGGACTGAATGCCATAAGGAGTAACTGGGAAAACAGTCTGACTCGAATCATTTTAAACAGCCAATTAAAAGCCTGA	MTMNQQHQLKRTFMKVEAYQFLREWIITGKLEPGERLRNQDLSETLGISRTPVREALLQLENEGLVITKANRWTVVAPIDLENAKEVYSVVWSLECLAFEQALSRFTQDHIDEMEKLNKQMNAIMETDDKVKALELDNAFHQKIIEVSNNTELQKLLQGQKTKIQRIEIRYFSQNHAMNASCSEHNQILDAMKNKDLKQGLNAIRSNWENSLTRIILNSQLKA				NA	NA	NA	NA	NA
D1-12_03530	378	ridA	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGTTAAAAACAGTTTTTACAGAAAAAGCACCAAAAGCGATCGGACCTTATTCTCAAGGCATTAAAGTACAAGATTTTTTATTTTTATCAGGACAGCTTCCTGTTAATCCAAACACGGATGAAGTTCCGGCTGATATTAGGGAACAAACGATTCAAGTTTTAAAAAACATTGAATCCATTCTGAAATCAGAGGATTTAAAAATTGAAAATATAGTGAAAACGACTATTTTCCTTAAAAATTTAGGTGATTTTAAAGCTGTTAACGAGGAATATGGTAAATATCTTGGAGACCATCGTCCTGCGAGATCCACAATTGAAGTAAGCCGGTTGCCTAAAGATGTACAGATTGAAATTGAAGTCATCGCGTATTCCGGATAA	MLKTVFTEKAPKAIGPYSQGIKVQDFLFLSGQLPVNPNTDEVPADIREQTIQVLKNIESILKSEDLKIENIVKTTIFLKNLGDFKAVNEEYGKYLGDHRPARSTIEVSRLPKDVQIEIEVIAYSG	PGPT0020030_4030	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
D1-12_03531	1305	sdaC	COG0814	Serine transporter	ATGTCTATAGAACAGGATGTGGATGTGCGGTGCCGGAGTTCTTCATCGAATAATGCCTCTTATGAAGATCCGGCTAAATGGTGCAGGCAAAATACAATTTGGGTCTTAGGCCTGTTTGGCACAGCAATAGGCGCGGGCGTGCTTTTTTTGCCAATTAATGCGGGAATAGGGGGCATTCTGCCTCTGATGATCATCACTGTTCTGGCTTTTCCGATTACGTACTTTTCTCACAGAGCTTTGGCCAGATTTGTTTTATCGGCAGGTTCTGCAACAGACGGGATTTTAGCGGTGACAGGAGAATACTTTGGGGCGAAAGCAAGAAGAGTATTCACTGTCATTTATTTTCTTGCGATTTACAGCATCCTGTTAATGTATTCAGTTGCCATTACAAATACAGCTCAAAGCTTTATTGTGAATCAAATGAACATGCCAGAGCCGCCAAGGGGTTTAACTGCCGGATTTCTGATAGCAGGATTACTGTTTATCGTGCGTTTTGGTCAGGATGCGGTCATGAAGACTATGAGTTTGTTAGTTTATCCATTTATAGGTTCGTTATGTTTGATGGGGATCTATCTGATACCTAAATGGAATACAGCCATTTTGGATGTCACACACCTATCATTATCCGGATCAGGACAAGGGATGTTCATGACGGTATGGATGACATTCCCTGTCCTGGTGCTTTCATTTAATCATTATTCAATGATTTCACCATTCGTTGTAGCTCAAAGGCAGTGTTATGGAGACAAATTTGCTGATGATAAATGTGCCCAAATACAAAAATACAGTTATATATTGATGATACTTACTGTTTTATTTTTTGTATACAGCTGTGTATTCAGTTTGTCGCCGGCAGATCTTGCTATGGCAAAGAAACAAAACATCTCAATTCTCACTTATCTCGCCAACCATTTTCATTCAGCGTTTATTGCTTGTCTTTCCCCGATTATCGCATTTGTCGCAATTACGAAATCCTTTTTAGGACATTATATAGGAGCCTATGAGGCCATGCGGGATATCATTGTTGAGGTTTTTCCATCAAGAAATAATAAGAAAAAAACAGATTTTATCATTCTGTTTTTTATGTTTGTCACTTGCTGGCTAATAGCTTATATCAACCCAAGTATTCTAGGCATCATTGAAAGCATCAGCGGACCGATAGGGGCTGTTATTCTATTGCTGCTCCCTATGTATGCCATTCGTAAGCTGCCAGTATTAAAAATGTATCGAAATAAAATCAGTAATGTTTTTGTTGCGATTATTGGTGTCATCACTGTTTCGGCAATTATTTTTGCTTTATTTTAA	MSIEQDVDVRCRSSSSNNASYEDPAKWCRQNTIWVLGLFGTAIGAGVLFLPINAGIGGILPLMIITVLAFPITYFSHRALARFVLSAGSATDGILAVTGEYFGAKARRVFTVIYFLAIYSILLMYSVAITNTAQSFIVNQMNMPEPPRGLTAGFLIAGLLFIVRFGQDAVMKTMSLLVYPFIGSLCLMGIYLIPKWNTAILDVTHLSLSGSGQGMFMTVWMTFPVLVLSFNHYSMISPFVVAQRQCYGDKFADDKCAQIQKYSYILMILTVLFFVYSCVFSLSPADLAMAKKQNISILTYLANHFHSAFIACLSPIIAFVAITKSFLGHYIGAYEAMRDIIVEVFPSRNNKKKTDFIILFFMFVTCWLIAYINPSILGIIESISGPIGAVILLLLPMYAIRKLPVLKMYRNKISNVFVAIIGVITVSAIIFALF	PGPT0011650_177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|COLICINS,PGPT0011650-sadC|dcrA-K03837	NA	NA
D1-12_03532	1161	hipO	COG1473	Hippurate hydrolase	ATGAATGATATCACAATGAAAGATCAATTAATAAAATGGAGACATGACCTCCACATGATACCTGAAACAGCTTTTGAAGAACACATGACCTCAGTGTATATTGCTGAAGAATTAAAAAAAATGGGAGTAAGCGTTTGTTCGGGTCTGGGCGGAACAGGTATAGTCGCCACCTTAAAAGCGGGAGAAGGTTCAAAGGTTATAGGAATCAGAGCGGAACTGGACGCATTACACTTCACTGAAGCAGCAGATCATTCGTATGTGTCTAAAAATAAAGGGAAAATGCATGCCTGCGGTCATGACGGACATATGGCAATCCTTCTTGGGACAGCTAAAATATTGAGTGAAAGACAACATTTTAACGGCACCGTGTGTTTTATTTTTCAACCGGCGGAAGAACCGGGCAAGGGTGCGAGGGCCATGATTGAGGATGGACTTTTTGAACAATTTCCGCTCGATGAAATTTACGGATTGCATAATATGCCTGGATTGCCGGCGGGTACTTTTGCAACCCGCCCCGGGGGAATTATGGCCGGTGAAGATAACTTTGTCATCCGGATTAAAGGAAAAGGCGCTCATGCAGCCCGCCCTCATATGAGTATTGATCCATTGGTCATAGCGTCGCAAATTATTCTCGCCTTACAGACTATTGTGTCCAGAAATTTAGATCCAAGCGTTCCTGCCGTTATATCCTGTACGGAAATCGTAACAGACGGGGTGAGGAATGCGATTCCGACTTATGTGGAAATCAAAGGTGATACGCGAAGTTATTCTCCTGACACCCGACGTTTTCTCGAAGAAAAAATGAGGACTATCAGTTCCGGGATTTGTGAGATGCATGGTGCGGAGTGTCAGTTTGAGTATACACATGAATTTGCTCCAACGACGAATTGGGAAGAATATGTCGGGTTTACTGTTGAAGCTGCTGCTAAAACAGCCGGAAAAGAGAATGTCACTTCTAACATAAATCAGATGATGATTTCAGAAGATTTCTCGGCTTTTTTAGAGAAGGTTCCCGGTGTATTTGTTTTTCTTGGCAATGGTGATGAGCATGATCAAAAGGGCCATATTCCATTACACAGCCCGTCATATGATTTTAATGATGACATTCTTTTAACCGGTGCAGCGTATTTTGCGGAATTAGTTAAAATTCGCTTATCCTAA	MNDITMKDQLIKWRHDLHMIPETAFEEHMTSVYIAEELKKMGVSVCSGLGGTGIVATLKAGEGSKVIGIRAELDALHFTEAADHSYVSKNKGKMHACGHDGHMAILLGTAKILSERQHFNGTVCFIFQPAEEPGKGARAMIEDGLFEQFPLDEIYGLHNMPGLPAGTFATRPGGIMAGEDNFVIRIKGKGAHAARPHMSIDPLVIASQIILALQTIVSRNLDPSVPAVISCTEIVTDGVRNAIPTYVEIKGDTRSYSPDTRRFLEEKMRTISSGICEMHGAECQFEYTHEFAPTTNWEEYVGFTVEAAAKTAGKENVTSNINQMMISEDFSAFLEKVPGVFVFLGNGDEHDQKGHIPLHSPSYDFNDDILLTGAAYFAELVKIRLS				NA	NA	NA	NA	NA
D1-12_03533	897	melR_2		Melibiose operon regulatory protein	ATGCAAACGCAAAACTTTCTGATGGATGACAGTCTGCAAGATTTGACGAAACACCATACAATTGTTATGCCGGTTGCTTGCTATGAAAAAACCATTAAGAACCATTTGCACGGATATATTCCCCTTCATTGGCATGATGAAATTCAATTCGTGCTTATAATAAAAGGAGAAGCGCTGTTCCAAGTAAATGAGGAATGGGTGGTTGTCCGTCAAGGCGACGGGCTGTTTATTAACAGCGGCTGCCTGCATATGACAAAGGAGCATGGCAGTTCAGATTGTCTTTATATCTGTTTAAATGTCTCCCCGCATTTCGTTTTATCACAGGAACTCTACACGACCTATGTAAAACCTTTGATTCACGCAACGAATGTCCCTTACTTATATATCCACGCAGACGACCCTTTAGAAAAAAACATTCTGAATGCTGTATTAGAGATCCACAAATGCATCGAGCAAAAATCCCTCTTTTATGAAATAGATATCACGATGAAACTTACGTCTGTTTGGAAACACTTAATCGCCAATTGCTTCCACCTTGAATGTATCGAAACAGAATGGTTGAAGAACCAAAGGATGAAGAATATGCTGAGCTGGATCCATCAGCATTATGCTGAAAAAATCACATTGGAGGATATTGCGAAAGCCGGGCAGCTAAGCCGTTCTGAGTGCTGCCGCTATTTCAAGCGCTTTTTAAAATGTTCTCCGTTACACTACGTTATAGATTACAGAATTCAAAAAAGCTTATATTTATTGCAGCAAAGAGATGCGAGTGTGACAGACATTTCTTATCAAGTTGGTTTTAACAGCACAAGTTATTTCATCAGCAGGTTCAGACATGCCATGAAGATGACGCCGCTGGCTTATAAAAAACAAAAAAACAAAGAAAGACAGCACTGA	MQTQNFLMDDSLQDLTKHHTIVMPVACYEKTIKNHLHGYIPLHWHDEIQFVLIIKGEALFQVNEEWVVVRQGDGLFINSGCLHMTKEHGSSDCLYICLNVSPHFVLSQELYTTYVKPLIHATNVPYLYIHADDPLEKNILNAVLEIHKCIEQKSLFYEIDITMKLTSVWKHLIANCFHLECIETEWLKNQRMKNMLSWIHQHYAEKITLEDIAKAGQLSRSECCRYFKRFLKCSPLHYVIDYRIQKSLYLLQQRDASVTDISYQVGFNSTSYFISRFRHAMKMTPLAYKKQKNKERQH	PGPT0017780_37	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017780-rhaS-K02855	NA	NA
D1-12_03534	1248	hyuC	COG0624	N-carbamoyl-L-amino-acid hydrolase	ATGGCATCTGAACATGTGAACCTTTACATGAATTCTGAACGTTTACTCAGCCGTCTTAAGGAGCTTGGTGAAATCGGACGTGACCGCAATGACACACTCACAAGGTTAGCTGCTTCCGATGAAGATAAGGCGGGACGGGACTTATTGGTAACATGGATGAAAAAAGCAGGCTTAGAGGTTATGATTGATAAAATCGGAAATATTTTCGGGGTATGGTACGGTTCTGATCAGAATAATGATGCGCCCATTATGATCGGCTCTCATATCGACACGGTCATCAACGCGGGTATTTACGATGGATGTTACGGGGTTATTTCGGGACTTGAAGTCATAAACACTTTAAAGGAGTCCAGCTTCAAACCGGAGCGTCCGATTGTCATTGCGGCTTTTACCAATGAGGAAGGTGTGCGATATACTCCAGATATGATGGGATCACTCGTATTCGCCGGAGGACTTTCTTTAGAAAAGGCGCTTCAGACCCGCGGTACGGATGGGACGAAACTGGGTGAAGAACTTAAGCGTATAGGATATGAGGGAACAGAAAAGCCCGGCTTTTTAACACCGCACGCCTTTATTGAGCTTCATGTTGAGCAGGGGCCGATTTTAGACAAAACAGGCATTCCGGTCGGTGCCGTTGAGAATTTGCAAGGGATTTCCTGGCAGCGTATAACGGTTCAAGGCGTTTCAAATCATGCCGGGACAACTCCGACTGATATGCGTCAGGATGCCGGGCATGCAGCCGCACAAATCATAACGTATTTGCGCAAACGTGCCAATATGTCTAACGGCCAAACTGTCGCCACGGTCGGAACAATCAGTTTTGAGCCAAATGCTATCAATGTCATTCCATCATTGGCAGCACTTACAGTTGATTTGCGAGATCCGGACGAAAAGAGACTTCAAGAAGAAGAATCAGCACTGGCCGATTACCTGAAAGATTTGGAAGAGGCTGAAAACGTATCTATCACATCTGAACAATTAGTCCGTTTCAATCCCGTTGTATTTGATAAAAACATTGTTGCATTAATTGAGCGGGCTGCAAATAAACGGGGACTGGAATCAAAACGGATGACATCCGGTGCCGGGCACGATGCACAAATGATGGCCCGCATCTGTCCGACGGCTATGATTTTCGTTCCAAGTATAGAGGGGATCAGCCATAATCCTGAAGAATACACGAAAGATCATGACTTGGCTGCAGGTGTCAATGTATTATTAGATGTCGTTAGTGATCTTTCTTCTAACTAA	MASEHVNLYMNSERLLSRLKELGEIGRDRNDTLTRLAASDEDKAGRDLLVTWMKKAGLEVMIDKIGNIFGVWYGSDQNNDAPIMIGSHIDTVINAGIYDGCYGVISGLEVINTLKESSFKPERPIVIAAFTNEEGVRYTPDMMGSLVFAGGLSLEKALQTRGTDGTKLGEELKRIGYEGTEKPGFLTPHAFIELHVEQGPILDKTGIPVGAVENLQGISWQRITVQGVSNHAGTTPTDMRQDAGHAAAQIITYLRKRANMSNGQTVATVGTISFEPNAINVIPSLAALTVDLRDPDEKRLQEEESALADYLKDLEEAENVSITSEQLVRFNPVVFDKNIVALIERAANKRGLESKRMTSGAGHDAQMMARICPTAMIFVPSIEGISHNPEEYTKDHDLAAGVNVLLDVVSDLSSN	PGPT0021095_1557	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
D1-12_03535	1389	ptsJ	COG1167	Vitamin B6 salvage pathway transcriptional repressor PtsJ	ATGCCGATCAATTCTTTTGAAAACTATCCGATGAGCTGGAAGCCGGCGATTGATAAAACGGAAAAACCCATTTATAAAGCGATTGCAGAGAAATTAGAACAGGATATATTACAAGAAGTTTTATTACCCGGAACCAAACTGCCTCCTCAGAGAGAACTGGCTGATTTTTTGGATTTAAATGTAAGTACCATTTCAAAGGCTTTTAAAGTCTGCGAGTTAAAGGGTCTGCTGAGTGCCTCTGTCGGGAGCGGGACTTTTGTTGCTTATGATGCGTTATCGAATGCGTATCTGCTGGAAGATACAAAGCCGAAGCATCTGATTGAAATGGGGGCGACGCTTCCGGATCAGGCTTCTTATGAGCCGCTGCTGCTCCAGCTGAAAAGTATGCTGCAAGAGGAAGATTATGAAAAGTGGTTTGGCTATGGCCGGACGGGTGAAAGTCTTTGGCAGAAAGATGCGGCTGTTAAGCTGATTCGAAGAGGCGGATTTGAAACGTCCGTTGATCACATTTTATTTGCAAACGGCGGGCAAAATGCGATTGCCGCGGCATTGGCGAGTCTTTGTAAACCAGGAGACCGCATTGGAGTTGATCACCATACATACCCAGGCTTGAAAACTGCCGCTTCGATGCTGAGTGTGCAGATTGTGCCGATCAAATCAGAGAACAATGAGATGAGCCCTGCCTCATTTGAATATGCGTGTAAAAATGAAAATATTAAAGGCATCTACCTCATCCCGGATTATCATAATCCGACAGCGTCCTTTATGTCTGTTGAGAATCGAAAAATGATCGCGAAAATTGCAAAAAAATATAACCAATTCATTATTGAAGATGCCTCGTACCATCTTCTTGGCAAGAATCCGCTTCCGGCCATCGCATCATTTGCACCGGAACAGGTCATTCACATTGCCGGTTTATCAAAATCACTGGCACCAGGGTTAAGGATGGCGTATGTCGCCGTCCCGAGTCAATATAAGGAGCCGATTTCAAAGGCGCTTTACAATTTAAATATAACCGTTTCCCCGCTGTTAGCAGAACTCACTGCACGGACGATCGTATCGAATCAATTTGAAATCTTAATTGACAGTCATCGTGAACAGACTATTCGCAGAAACAAAATGGTCGATCAATATTTAACCGGCTATACGTGTGCAGGTGCTGAGACGGGAATCTTTCGATGGTTACTGTTACCCGGAAATATGACAGGTGCTGCATTTGAAAAATCAGCCGCACAGCATGGAGTGCAAGTATACGCGGCTGAACGTTTTGTCGTCGGGAACAGTTGTCCGGAAAAGGCTGTAAGGGTGTCTGTCTGTGCACCGAAAACGCTTGGGGAGCTTGAGCAGGGACTGCTGATTCTTAAACGCCTGCTGGATGAGCACATCTAA	MPINSFENYPMSWKPAIDKTEKPIYKAIAEKLEQDILQEVLLPGTKLPPQRELADFLDLNVSTISKAFKVCELKGLLSASVGSGTFVAYDALSNAYLLEDTKPKHLIEMGATLPDQASYEPLLLQLKSMLQEEDYEKWFGYGRTGESLWQKDAAVKLIRRGGFETSVDHILFANGGQNAIAAALASLCKPGDRIGVDHHTYPGLKTAASMLSVQIVPIKSENNEMSPASFEYACKNENIKGIYLIPDYHNPTASFMSVENRKMIAKIAKKYNQFIIEDASYHLLGKNPLPAIASFAPEQVIHIAGLSKSLAPGLRMAYVAVPSQYKEPISKALYNLNITVSPLLAELTARTIVSNQFEILIDSHREQTIRRNKMVDQYLTGYTCAGAETGIFRWLLLPGNMTGAAFEKSAAQHGVQVYAAERFVVGNSCPEKAVRVSVCAPKTLGELEQGLLILKRLLDEHI				NA	NA	NA	NA	NA
D1-12_03536	1296	rfnT		Riboflavin transporter RfnT	ATGCTTCACAAAGACAGTGCAAAAGGGTCAGATACTCAATCGGCATTATTGGAGCAATTCATAGGTTCTCCTGATAAACAAAAAAGATTATATAAGCGTACTTTGTTTGTCGTCAGTCTTTCACAAATTTTCGGCGGCGCAGGGTTGGCGGCCGGAGTGACTGTCGGTGCGCTTATTGCACAGCAAATGCTTGGTACAGATGCGTTTGCCGGTGTGCCCTCTGCTTTATTTACCTTAGGATCAGCAGGCGCCGCGTTATTTGTGGGGAGGCTTTCTCAGCGTTACGGCCGCCGGACAGGTCTTTCAGCCGGATTTATGATTGGTGGACTGGGAGCGATAGGAGTCATCATTGCGGCTATTTTAAATAGTGTGTTTCTGCTGTTTGCTTCTTTGATTATTTATGGTGCGGGAACAGCGACAAATCTGCAGGCCCGTTATGCGGGTACGGACTTGGCAAATCATAAACAGCGGGCGACTGCTGTCAGTATGACTATGGTTTTTACCACATTCGGTGCCGTTGCAGGCCCGAATTTAGTGAATGTAATGGGGAACTTCGCTCGCTCCATTGGTGTTCCGTCACTGGCGGGTCCATTCATTTTAGCGGCGGCAGCATATATGTTGGCAGGTGTTACTCTTTTCATCATGCTACGTCCTGACCCTTTAGTCATAGCAAGAACAATAGAAATGGCCGGCCAAACACCTGATGATAGAGGACAAGTGACCGCCGACGAACACACAGAGAACAAAAAAGGTATTATTGCGGGTGCGGCGGTTATGATTCTTACTCAAATTGTAATGACTGCTATTATGACAATGACACCGGTCCATATGAGACATCACGGCCATGGCTTAGGAGCGGTAGGTCTTGTTATCGGTTTTCATATAGGCGCCATGTATCTCCCTTCTTTGGTGACAGGTGTGCTTGCGGATAAATTAGGCCGTACTGTAATGGCTGTATCTTCCGGAATGACGCTGCTTTTGGCAGGGCTTATATCGGCATTTGCACCGGGAGATTCTATGATTCTTATGGTCATTGCTCTGTCTTTGCTCGGGTTAGGATGGAATTTTGGTTTGATAAGCGGAACGGCACTGATTGTTGATTCAACTGAAACGTCAACACGGGCTAAAACCCAAGGTACTGTGGATGTTTTGATTGCGTTGTCCGGAGCCGCCGGCGGAGCCTTGTCCGGAATGGTCGTAGCAGGTGCCAATTACCTGACATTATCACTTGGCGGAGGGATATTATCGTTATTATTAATTCCGGTGGTGATATGGTCGCTTGGAAGTAAGGAATAG	MLHKDSAKGSDTQSALLEQFIGSPDKQKRLYKRTLFVVSLSQIFGGAGLAAGVTVGALIAQQMLGTDAFAGVPSALFTLGSAGAALFVGRLSQRYGRRTGLSAGFMIGGLGAIGVIIAAILNSVFLLFASLIIYGAGTATNLQARYAGTDLANHKQRATAVSMTMVFTTFGAVAGPNLVNVMGNFARSIGVPSLAGPFILAAAAYMLAGVTLFIMLRPDPLVIARTIEMAGQTPDDRGQVTADEHTENKKGIIAGAAVMILTQIVMTAIMTMTPVHMRHHGHGLGAVGLVIGFHIGAMYLPSLVTGVLADKLGRTVMAVSSGMTLLLAGLISAFAPGDSMILMVIALSLLGLGWNFGLISGTALIVDSTETSTRAKTQGTVDVLIALSGAAGGALSGMVVAGANYLTLSLGGGILSLLLIPVVIWSLGSKE				NA	NA	NA	NA	NA
D1-12_03537	306			hypothetical protein	ATGGAAGAAGTTAAAGTTGTATACGCATTGATTAGAAATGAGTTCAATCAGATAGTAATGGTAGATAATCATGAGGGGCATTGGTCACTTCCAGGCGGAAAAGTTGAGCTTAATGAAAATCTAATAGAAGCAGCTGTACGTGAGGTATATGAAGAAACAGGGCTGGAAGTTGAAATTGGGGATATACTAGCTGTTAATGAAGCGAAATTTACATTATTATTGGAGCACACCAGAACATTCAGGTGTGTTTTTATTGTTGTATTCATTTCTGAAATGTGGTTATTCACTTATATCGATTTCCCATAA	MEEVKVVYALIRNEFNQIVMVDNHEGHWSLPGGKVELNENLIEAAVREVYEETGLEVEIGDILAVNEAKFTLLLEHTRTFRCVFIVVFISEMWLFTYIDFP				NA	NA	NA	NA	NA
D1-12_03538	405	czcD_1	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGGGTCACAATCACAATCACGCTGGCGGGTCCAATAAGAAGGTTTTATTGATCTCTTTTATCGTGATTACAGGTTATATGATAATAGAAGCGATAGGCGGATTTTTAACCAATAGTTTAGCGCTTTTGTCAGATGCAGGCCATATGCTGAGTGACTCGATCTCATTAATGGTTGCTCTGATTGCTTTTAAATTGGCTGAAAAAAAGGCAAGTCATCATAAGACATTCGGCTACAAACGATTTGAGATTCTCGCAGCTGTGATAAACGGTGTTGCATTAATAGTGATTTCCCTTTATATCATTTATGAAGCAATCAAACGTTTCTCTCATCCGCCGGAGGTAGCAACAACCGGCATGCTGACGATTAGTATCATCGGGTTAGCTGTGAATATATTGGTCGCTTAG	MGHNHNHAGGSNKKVLLISFIVITGYMIIEAIGGFLTNSLALLSDAGHMLSDSISLMVALIAFKLAEKKASHHKTFGYKRFEILAAVINGVALIVISLYIIYEAIKRFSHPPEVATTGMLTISIIGLAVNILVA	PGPT0004255_1187	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
D1-12_03539	534	czcD_2	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGCTGAACGGCGGAGATACAAAGAATAACCTGAACATAAGAGGGGCTTACTTACATGTGATAAGTGACATGCTCGGATCTGTAGGTGCCATACTGGCTGCGATTCTTATCATCTTCTTCGGGTGGAGCTGGGCAGATCCAGCGGCCAGTGTCATTGTGGCTATTCTTGTTCTGAGAAGCGGTTACCATGTGACGAAAGACTCCATTCACGTATTAATGGAAGGAACTCCGGAAAATATCAATGTCACTGACATCATTCATACAACTGAAGAGACAGAAGGAATTCAAAGCATTCATGATTTGCACATATGGTCTATCACAAGCGGATTGAATGCTCTTTCCTGCCACGCTGTTGTTAACGATCAACTGACCATTTCTGAAAGTGAAAGTATTTTACGCAAAATTGAACATGAACTTGGAGATAAAGGCATTACACATGTAACCATTCAAATGGAAACAGCAGCGCATAATCACGACAATACGATTCTTTGTCAGGCCCAAACTGAGAATCCGCGTGACCATCATCATCATTAA	MLNGGDTKNNLNIRGAYLHVISDMLGSVGAILAAILIIFFGWSWADPAASVIVAILVLRSGYHVTKDSIHVLMEGTPENINVTDIIHTTEETEGIQSIHDLHIWSITSGLNALSCHAVVNDQLTISESESILRKIEHELGDKGITHVTIQMETAAHNHDNTILCQAQTENPRDHHHH	PGPT0004255_3070	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
D1-12_03540	1038	czcO	COG2072	putative oxidoreductase CzcO	ATGTACGACACGATAGTAATCGGAGCCGGTCAGGCAGGAATCTCAGTAGGATATTATCTAAAGAAGTCGAAACAAAAGTTTATCATTTTGGATAAAAGTCATGAAGTGGGAGAAAGCTGGAACAAGCGGTATGACTCATTGGTTTTATTTACTTCTCGAATGTACAGCTCTTTGCCTGGAATGCCTCTTGAAGGAGACAAGCATGGACTCCCTTCAAAAAATGAAATTGCTGCTTATCTGAAAAAATATGTAGAAAGATTTGATATCCCGATCCAATTACGGACAGAAGTAATAAGTGTCCAAAAATTAAACAACGATTTCTTAATAAAAACAAACCGGGAAGAATATCAAACGAAAAATCTTGTGATGGCCGCAGGTCCTTTTCATACCCCTAACATTCCATCAATATCAAGGGATGTAGCCGATCATATTCATCAATTACATTCTTCACAATATAAACATTCAAAACAACTGGCGCCCGGGAATGTACTGGTAGTCGGCGGCGGGAATAGCGGAGCTCAGATAGCTGTTGAATTATCCAAAGAAAGAGTTACATATTTGGCTTGCAGTAATAAACCGGCTTATTTCCCTTTATGGATTGGAAAAAGAAGCATCTTTTGGTGGTTTGATAAATTAGGAGTTTTACATGCAAGTCATACATCAATAGTAGGCAAGTTCATTCAAAAGAAAGGCGACCCCATATTTGGGTATGAATTAAAACATGCAATAAGACAGAAGAAGATCATCTTAAAACAAAGAGTCATAGCCGGAAAGCAAAATGAAATCATTTTTAAAGATTCATCTTCATTAGAAGTAAACAATATCATTTGGGCAACTGGCTTTAAGAATCCGCTTTGTTGGATGAAAATAGAAGGTGTTTTGGATAAGGAAGGCCGAATTATACATCACCGGGGTGTTTCAGCTGCGGAGGGATTGTACTTTATTGGTTTGCCTTGGCAGCATAGGCGAGGTTCAGCGCTGCTTCAAGGTGTAGGAAATGATGCTGAATACATTGTAAAACAAATGAACGGCGGATAG	MYDTIVIGAGQAGISVGYYLKKSKQKFIILDKSHEVGESWNKRYDSLVLFTSRMYSSLPGMPLEGDKHGLPSKNEIAAYLKKYVERFDIPIQLRTEVISVQKLNNDFLIKTNREEYQTKNLVMAAGPFHTPNIPSISRDVADHIHQLHSSQYKHSKQLAPGNVLVVGGGNSGAQIAVELSKERVTYLACSNKPAYFPLWIGKRSIFWWFDKLGVLHASHTSIVGKFIQKKGDPIFGYELKHAIRQKKIILKQRVIAGKQNEIIFKDSSSLEVNNIIWATGFKNPLCWMKIEGVLDKEGRIIHHRGVSAAEGLYFIGLPWQHRRGSALLQGVGNDAEYIVKQMNGG	PGPT0013865_1648	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
D1-12_03541	636			hypothetical protein	ATGTATTATGATTATTATCCGTATTATGTATATGATTACAGACAGCAGCCTGATTTAAGTCAGGTAAATCATAAAATGCGAAGCCATTTATCTGCGATTCAACAAATTCTAATACACTCGTCCTCCTTTCAACAATCAATGGCTGCGGTAGTGAAACACTTGCAGGCTGTCAGCAGAGCACTCGCTCTGGGATGCGGTATGAGTTCAGAATTCAGATTTCTTCCAGACACTTGGGGATTACGAGAACTTCATATTGTACACGCGAAATATCTTACTCCGTTGAGCTATCACGTTTATTCCGCTTTAGGCGCAGCAGAGCTTCTCGCCTCCGGACAAGGCCGGGCTCCTCATTTTCCTCTTATGGTTGGCTGCATGAATTCAATACTTCGTCTATGGTCAAACTTCCCCGCAGCGATAGCAGACCTGCGAAGAGCAGCCGGTCACCAATACGCGTCATCTGTAGACGAGGCGGAAAATCTCCTAAGACCAATGGTTCCAGCCACACAACAGGCATTATCCATCAGTCAATCTGCAGTGAGTCCGGCTATTTGGCAGGCTTCCTTACGTGCCGCGCAGTTAGCTCGGGAAGTACGTCAGAATGTTGCACAATCAATGAGTCAGGGATCTTCTTATTAA	MYYDYYPYYVYDYRQQPDLSQVNHKMRSHLSAIQQILIHSSSFQQSMAAVVKHLQAVSRALALGCGMSSEFRFLPDTWGLRELHIVHAKYLTPLSYHVYSALGAAELLASGQGRAPHFPLMVGCMNSILRLWSNFPAAIADLRRAAGHQYASSVDEAENLLRPMVPATQQALSISQSAVSPAIWQASLRAAQLAREVRQNVAQSMSQGSSY				NA	NA	NA	NA	NA
D1-12_03542	534			hypothetical protein	ATGTATTATATACCTTTTTCGCATCAATGTTATTATTGTGTGAATGTACCGATGTATAGCGATGGAAGATCTGTTTATTGGACTGTTCCAAATAACTATGATCCTTCATACGAAGATAGAAACCTCCTCTTGAAAGATTATGGACCAAAACCATTTGTTGTGAATATTAATAAAGCCGCAAAACAAAACAATACGTTCCGTACGGCCCTATGGACAGGAAAGCATTTTCAAATTACTTTGATGAGTCTTGGTATTGGAGAAGATATCGGTTTGGAGATCCATCCTCACGTAGATCAATTCTTACGGATTGAGCAAGGCCGAGGGATAGTTAAAATGGGCAAGAGTAAAGATAATTTAAGTTTCCGAAGAAATGTCTATGATGATTATGCCATTGTTGTCCCTGCCGGCACTTGGCACAATGTTATTAATACGGGTAATACGCCGTTAAAACTATATTCAATTTATGCTCCTCCCAACCATCCGTTTGGTACAGTTCATGTGACAAAGGCAGATGCAGCGGCTGCGGAAGATTAG	MYYIPFSHQCYYCVNVPMYSDGRSVYWTVPNNYDPSYEDRNLLLKDYGPKPFVVNINKAAKQNNTFRTALWTGKHFQITLMSLGIGEDIGLEIHPHVDQFLRIEQGRGIVKMGKSKDNLSFRRNVYDDYAIVVPAGTWHNVINTGNTPLKLYSIYAPPNHPFGTVHVTKADAAAAED				NA	NA	NA	NA	NA
D1-12_03543	339			hypothetical protein	ATGGATCATCTTGTGGGAATGCTGTATTCTGCCGTTAATGAAAATGACAGCCGCTTAATATCCATTGTGTCAGACATGTCACAGCAGGAGATCGATTATAAAGGACCAAATCAAACATACAATAGTACAGCTCAGCTAATAAGACACTTAGCATATGTTGATCTCAACTGGATATTCAGAATAAAGGGTGAACCGATACCAAAGCAGCTTGAAGAGAAGTATGGACCAATGTTAGATCAGAACAATAAGATCCCTTTCATTTCCGGTGTTTCATTAAAACAAATCTCACTGATTATGAAAAAGTATTCAGCATGTTTAAGTCTGTTTGTTATCAATTAA	MDHLVGMLYSAVNENDSRLISIVSDMSQQEIDYKGPNQTYNSTAQLIRHLAYVDLNWIFRIKGEPIPKQLEEKYGPMLDQNNKIPFISGVSLKQISLIMKKYSACLSLFVIN				NA	NA	NA	NA	NA
D1-12_03544	795	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGCGAAATTTTAATGTTGCTATCCCTACGCCTTTTCATGAAGATGAAAGTTTATATTTAGAAGGATTTGATGCTATTGTCGAACATTTGAAAAACAGCGGTATCCATTCGTTACTCATATGCGGCACGACTGGTGAACAGCATTCACTCAGCATAGATGAGCGTCTTCAGATCATTGAGTATGTTAATCAGCGAAAATTTGAAGATGTTGAACTGATGTTCGGTGTTTCAGCCGTAAGAACCAGTGATGCCGTCAAACTGATGAAACACATCGAGAAAACCAATATTGATTCTGTACTGATTGGTTTTTCTCCTTATATAAGACCGACACAGCAGCAAGCCGTTTATTACGTTGACGAACTTCTCAGTCATACCTCTAAAGAGGCTGTGCTTTATAATAACCCCGGCCGGACCGGTTTTAATCTGAGTGAGAAAGCGCTTAAAGACTTAATAAGCCGGCATCCGGGGATAAGGGGGCTGAAAGAAGGAGGAGACGTTCTGCGTCATAAACAAACAGAGTTCCCTAATCACTTTATTTTGTTTGCGGCAGGAGACGTTGAATTTCCGAAGATGCTGAGTAACGGGTGTAACGGCCTGTCAAGCATGGCCGGAAATGTCTATCCTGAAGAAATCAGAGAAAGCTTCAACAGCTTATCAGAAAATAAACCGATTAATCTGGATCGAATAAACGATCTGATTGCTGAAGTGACAAATCATCATACTGTCATGAATATAAAAAATCACTATAAGAAGATTGGGATTCAAGCAGGCAGCTGCCGGTCACCCATTATATAA	MRNFNVAIPTPFHEDESLYLEGFDAIVEHLKNSGIHSLLICGTTGEQHSLSIDERLQIIEYVNQRKFEDVELMFGVSAVRTSDAVKLMKHIEKTNIDSVLIGFSPYIRPTQQQAVYYVDELLSHTSKEAVLYNNPGRTGFNLSEKALKDLISRHPGIRGLKEGGDVLRHKQTEFPNHFILFAAGDVEFPKMLSNGCNGLSSMAGNVYPEEIRESFNSLSENKPINLDRINDLIAEVTNHHTVMNIKNHYKKIGIQAGSCRSPII	PGPT0002080_9408	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-12_03545	204			hypothetical protein	ATGGTGATTATTGCTAATATTGACAAGAAAGAGGTGAAAGCGATGATAACGATTTATGGAATTTTGTATGGTGAAAATGCAAAAATTGGAAACATCTTGGCGGATAAAGGGAGCAGTCTGTCCTTTTTTAAGCCAAATCATCATACAAAAACAGTTATCGGTGCTTTTTCTCTATGTCAAATAAACGATAATCCAATGACATAA	MVIIANIDKKEVKAMITIYGILYGENAKIGNILADKGSSLSFFKPNHHTKTVIGAFSLCQINDNPMT				NA	NA	NA	NA	NA
D1-12_03546	1050	cfr		Ribosomal RNA large subunit methyltransferase Cfr	ATGCAACAAAAAAACAAGTATATAAGAATTCAAGAGTTCCTGAAACAAAATAAGTTTCCTGATTTTAGAATGAATCAAATCAAAAATGCTGTGTTCAAAGGGAGAATAAATCATTTTAATGAAATAACGGTTCTTCCTAAATCCTTGAGAAAATTGTTAATGAATGAGTTTGGAGAGTCAATTTTAAATATTGCTGCTTTAAAAGTGCAGCATTCTGAGCAAGTAACAAAAGTCTTATTTGAAATTTCAGGAGACGAAAAAATAGAAACGGTCAATATGAAATATAAAGCTGGCTGGGAGTCATTTTGTATATCCTCGCAGTGCGGCTGTCATTTTGGCTGTACATTTTGTGCAACAGGAGATATTGGTTTAAAACGCAGCTTAACATCAGATGAAATGACTGACCAAATTTTGTACTTTCACTTAAAAGGACATTCAATTGACAGTATTTCTTTTATGGGAATGGGAGAAGCATTAGCGAATGTACAAGTTTTTGATGCTTTACATGTGCTTACAAATCCGGAGTTGTTTGCTTTAAGCCCTCGTCGGTTATCTATTTCGACCATAGGTATTATTCCGGGCATTAAAAAAATCACTCAGGATTATCCGCAGGTCAACCTGACGTTTTCATTACATTCTCCTTTTAATGAACAGCGAAGCAAGTTAATGCCGATTAATGAACGCTTCCCGTTATTGGAGGTAATGGACACATTAGATGAGCATATACGTGTGACCTCAAGAAAAGTTTATATTGCTTATATTATGCTGCCGGGAGTTAATGATTCTATTGATCATGCGAATGAAGTAGTACGTCTTTTAAGAAGCAGATATAAGAGAGGGAACTTGTTCCATGTAAACATCATTAGATATAACCCGACTGTTAGTTCACCTATGAGATTTGAAGAAGTAAATGAGAAACAAGTTGTAAACTTCTATAAAAAATTAAAGTCAGCAGGAATTAACGTGACCGTCAGAAGTCAATTTGGCATTGATATAGATGCTGCTTGCGGACAATTATATGGAAATTATCAAAAAAATAAGAACCGATAA	MQQKNKYIRIQEFLKQNKFPDFRMNQIKNAVFKGRINHFNEITVLPKSLRKLLMNEFGESILNIAALKVQHSEQVTKVLFEISGDEKIETVNMKYKAGWESFCISSQCGCHFGCTFCATGDIGLKRSLTSDEMTDQILYFHLKGHSIDSISFMGMGEALANVQVFDALHVLTNPELFALSPRRLSISTIGIIPGIKKITQDYPQVNLTFSLHSPFNEQRSKLMPINERFPLLEVMDTLDEHIRVTSRKVYIAYIMLPGVNDSIDHANEVVRLLRSRYKRGNLFHVNIIRYNPTVSSPMRFEEVNEKQVVNFYKKLKSAGINVTVRSQFGIDIDAACGQLYGNYQKNKNR	PGPT0027930_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0027930-cfr-K15632	NA	NA
D1-12_03547	381			hypothetical protein	TTGCTGAAAAGGTTTTTTCTTGTTTTTCTTACGCTGATAATGTCTATATTTGCTGTATTCGCGGCTGCTGAAGAGTCTCCCGGCGATCGTGTCATTTCTTTTGACGAGCCTATGATTTTATTGATCTCACTCGGAATCATCTTATGTTTGTTCATTCCGCCAATCGTCATGTCCTTTTTTGGCAGCTTGGTTGTGAGAATCATATCCGGAGTCTATCAATGTTTTATCGTCCTCACGTTTGCGGGGCTCATTCCGATTGGATTTCTGATCCCCAATGGCTTTTTGACAATTCTTGCTGCCGTCCTGGGAACTTTGGTCAGTTCAGCCAGTGTTGCGGTCACCTTATTCGTTGGCAGGAAAAAAGAGGCCGGAAGGTTTTAA	MLKRFFLVFLTLIMSIFAVFAAAEESPGDRVISFDEPMILLISLGIILCLFIPPIVMSFFGSLVVRIISGVYQCFIVLTFAGLIPIGFLIPNGFLTILAAVLGTLVSSASVAVTLFVGRKKEAGRF				NA	NA	NA	NA	NA
D1-12_03549	465			hypothetical protein	GTGGCGACTAAAAAAGTTTTTCTGGCAGGGCCTTTTAAAAGTTTAGTAGATGAGAAAACTGGATTGATGAGTACGTATGAGAGGGGAAAGCTGGAATCATTAATTTCCTTTTTTGAGAATGAAGGATGGCTGGTTCATAATGCTCACAAGCGGGAAGGGTGGGGGAAAGATTTCATGACACCCCTTCAATGCACTAAAATTGATTTTGATGAAATAAGCACTTGCGACCTTTTTGCAGCATTCCCCGGATCACCCGCTTCTCCCGGAACACATATAGAAATTGGATGGGCTTCTGCCTTGAAAAAAAAGATCGTGCTATTTCTAGAAAAGGACAAGGATTATGCTTTCTTAATTCAAGGGTTAAATGCAGTGGCGGATGTTGAGTACATCAGCTATAAAGATACAGATGATTTATTAGAGAACATTAAAAATATCTTTGCAGCATATAAGGCGGAATCTCAATGA	MATKKVFLAGPFKSLVDEKTGLMSTYERGKLESLISFFENEGWLVHNAHKREGWGKDFMTPLQCTKIDFDEISTCDLFAAFPGSPASPGTHIEIGWASALKKKIVLFLEKDKDYAFLIQGLNAVADVEYISYKDTDDLLENIKNIFAAYKAESQ				NA	NA	NA	NA	NA
D1-12_03550	1011	thyA		Thymidylate synthase	ATGAGAAAGAGAACTTTTCATGAAGCATATACGGAAACGCTGTATGACATCTATCACAACCCTGAATTTTTCAATTCACCGCGCGGACAAAAAAGCAGAGAACAATTGAACTACCATCTGACTCTGGAAAATCCAATAGAACGTGTCACTTATTTATCCTCAAGAAAAACCAATATCGTGTTTAATTTTGCTGAAGTGTTATGGTATTTATCGGGGAGTAACGACTTAGATTTTATCAGTTATTACAATAAAAAAATGCCTTCATATTCAATGAATAAAAAAACATTAACAGGCACTGCGTACGGGCCTAAAATATTTGAATTCGGAAATGCAAAACTAAATCAATGGAATAGAATAAAAAATCTTTTGACACAAGAAGATATTGATTCAAAAAGGGCATTTATTCAAATATTCGATGCTTCGGAACTCTTCGTTTCAGAAAATATAGATGTTTCCTGCACAATCGGTTTGCAGTTTTTTGTGAGGGAAGGCGAATTATACATGTCTTCTGTCATGCGTGCAAATGATGCTTTTCGCGGGATGATCAGTGATCTTTTCTCATTTACGTTCATGCAGGAATTAATGGCCAGAGAACTGCGTTTAGAAGTCGGAGAATATTTTCATAATGCGGGATCAATCCATATTTATGATTCAGATCATGAATGGGCGAAAACGGTGCTTGAGGAAGCTGAAAATCACCATGATATTCGGGAATTTGAATTTCCGAAAATGCCTGAGGGAAATAACTGGCCGTCCATTGAAACAGTCTTAAAGTATGAAGAATTACTTAGGAAAGATCAAATTTCTATGACAAAAAACGATATTGAAATGCTTGATTTACCTGATTACTGGAAACAGATTCTTTTCCTTTTCAGTATATACCAGCATATTGCATATAAACGGGATATGGATCATTCTCTATTTCAAAGTTTACTTCCTATATATCAATTTTTCGTCAGGAATAAGTGGTTTCATTATTTCTCAATTGAGCAAAAGGAGGAAATTCAATGA	MRKRTFHEAYTETLYDIYHNPEFFNSPRGQKSREQLNYHLTLENPIERVTYLSSRKTNIVFNFAEVLWYLSGSNDLDFISYYNKKMPSYSMNKKTLTGTAYGPKIFEFGNAKLNQWNRIKNLLTQEDIDSKRAFIQIFDASELFVSENIDVSCTIGLQFFVREGELYMSSVMRANDAFRGMISDLFSFTFMQELMARELRLEVGEYFHNAGSIHIYDSDHEWAKTVLEEAENHHDIREFEFPKMPEGNNWPSIETVLKYEELLRKDQISMTKNDIEMLDLPDYWKQILFLFSIYQHIAYKRDMDHSLFQSLLPIYQFFVRNKWFHYFSIEQKEEIQ	PGPT0008145_202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
D1-12_03551	759	ind7		N-demethylindolmycin N-methyltransferase	ATGAAAACTTCATGGAAAGAAGACAGTGTTGCTGGTAAATTCGATGCTTATAATGACGTTTTAGAACAAACGTTAGGTTTTGAGTTTGTTTTTCGTACTTTTGATAAAGCGGAGATTAAAAAGGTGCTCGATTTCGGATGCGGTCCGGGAAAGGTAGCTTATAGGCTGGCTGACAGAATAGGCTGCAATGTAATCGCAGTCGATGAATCAAGGAAGATGTTAGATATAGCAAAGGCAAAAAGACAACATCCTCATGTGGACTATCATTTAATTGAACACGATAATCTTTCCTTCTTACCAGATCACTCAGTTGATGCTGCAATGGCCTGTTATGTTTTTATTAATACGGATAGTGACCAGCGTATCAAAGGTATCATAAATGAAATTTTTCGTGTGTTAAAACCAGGAGCTTCATTTGTCATACTCGATACGAATCCTGATTCAACCGGAATTGAATTTTCAACCTTCCGCAATGGAATACCGGGGAAAGAATATTCTTACGGAGAAGAAAGAAATGAATGGCTCCATGTTCCGGGACAAGCAGATTTAATTTTAAATGATTTTCATTGGCCGAAGTCAATGTATTATAAACTATTAACTCATGCAGGTTTTGAAAATGTAACTTTATCAGAACCAACGTTAAACGATATTGACCAAGAGCATGTAAAAGCCATAGAGAAAGAGTTTCAATTTAATAATTGGAAATGTGAAAAGGAATATCCGCCTTTTGTCATTTTTAAAGCAGTGAAACCTGCCTGA	MKTSWKEDSVAGKFDAYNDVLEQTLGFEFVFRTFDKAEIKKVLDFGCGPGKVAYRLADRIGCNVIAVDESRKMLDIAKAKRQHPHVDYHLIEHDNLSFLPDHSVDAAMACYVFINTDSDQRIKGIINEIFRVLKPGASFVILDTNPDSTGIEFSTFRNGIPGKEYSYGEERNEWLHVPGQADLILNDFHWPKSMYYKLLTHAGFENVTLSEPTLNDIDQEHVKAIEKEFQFNNWKCEKEYPPFVIFKAVKPA				NA	NA	NA	NA	NA
D1-12_03552	819	thiD_2		Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	TTGACGGATATTTATAAAGCGCTTTCGATTGCTGGGACTGATCCTTCCGGAGGGGCGGGAATTCATGCGGATTTAAAAACATTTCAGGAACAAAAGGTATATGGAATGGCTGTTATTACATCAGTTGTTGCACAAAACACACTTGGTGTGAAAAGTTTTGAGGAGATGTCTCTTCAGAATATATCTCAGCAAATAGACTGTGTCATGGATGATATAAAACCTGATGCTGTCAAAACCGGTATGCTTGCAAGTATAGGAATTATTGAATTGCTGGCAGAAAAGTTAAAAGACGCAAATATTCAATCGTATGTGATGGATCCGGTTATGATTGCTAAAAGCGGACATCATCTGCTCCATAAGGACGCCATTGATCATTTGAAGAAATTATTAATACCCCAAACAACTGTTATTACACCGAACATTCCGGAAGCGGAAGTAATCATCGGCAAATCAATCGAGACTGTACAGCAGATGCGTGATGCGGCGAAAGAAATGGTGGAGGTATACGGGGCGAAAAGTGCTGTCGTAAAAGGGGGGCACCTGAATGGAGAAGCCCGTGATATTTTGTACTTTGACGAGGACTTCGAGGAATTTGTTTCTCCCCGCTTTGATACAAAGCATACTCATGGAACAGGATGTACGTTTTCAGCTGTGATAACTGCAGAGCTGGCAAAGCAGCACAGCATACCGGAATCAGTGGCAACTGGAAAGGAATTCATTTCAGCAGCCATTAAACATCCCTTAGGAATCGGGAAAGGACAAGGCCCTACAAATCATTTTGCGTATCGCTCAACTATTAACCAAGAGACAACCGCTTAA	MTDIYKALSIAGTDPSGGAGIHADLKTFQEQKVYGMAVITSVVAQNTLGVKSFEEMSLQNISQQIDCVMDDIKPDAVKTGMLASIGIIELLAEKLKDANIQSYVMDPVMIAKSGHHLLHKDAIDHLKKLLIPQTTVITPNIPEAEVIIGKSIETVQQMRDAAKEMVEVYGAKSAVVKGGHLNGEARDILYFDEDFEEFVSPRFDTKHTHGTGCTFSAVITAELAKQHSIPESVATGKEFISAAIKHPLGIGKGQGPTNHFAYRSTINQETTA	PGPT0008915_1730	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
D1-12_03553	1236	nudC		NADH pyrophosphatase	ATGATCTCCAAGAATTATGATGTATTTTTATTTGATTTAGACGGAGTGATATATATAGGAGATAAAGCTTTACCAGGAGCTGTGGCCTCTTTAAAACGACTCCGTGAAGAAAAGAAAGCCATTCGCTTTTTAACGAATGATCCTTGTGTTACAAGAGAAACGATTGTGAAATGCCTTCATAAACTGGGGATTTCAGCAAGTATTGATGAAGTCGTTACTGCGGGGTGGGCAACAGCTGATTACCTTGTCAGTGAAGGAATAAAGAAGGCATATATATTGGGAAATGACCAACTTAAAAGTGAAATTCAAAAGGCCGGTATTGATCTTACGGAAGATCAGGCGGAGGCTGTTGTCATTGGATGGGATCAAAATATTACATTTCAGGATGTGCATAAGGCAGTAAACCTCATCCGTTGCGGAGCTTCATTTATCGCTGCAAACGGGGATAAAACATTTCCTGCCGCTAACGGACCAGCTCCCGCGACAGGCGCTATAGTCGCGGCTGTTAAAACAGCAGCTGCTAAAGAGCCGATGATAATTGGAAAACCGGCGTCTTCAATATTTGAAAAAGTACTAGAGCCTTTTGAGGATAAAGAGAGATGCGTTATGATCGGGGATACGCCTGAAACAGATATTGTCGGAGCAAACCAAATAGGCATAACTTCCGTATTAGTTTCTGATCAAAATACTTTATTTCCTGCAAAACATGATTTTAGAAATCCGGATGTTGTGATCCGCGATCTGAAAGACTTGTTCGATAATGAAATAAAGGCAGAAGTACGGAAAAAACCGGATTTCCAATGGACAGAACAAGTGAAAGCCGGAGTCGCTGGAATTATAATTAAAGAATCAAGTTCCGTTTTATTAATGAAGCGTGCTGATAATGGTTTATGGGGCATTCCTTCAGGACATGTGGAACCTGGTGAAACAGTTGAACAAGCAATTATAAGAGAAATAGAAGAGGAAACTGGATTAGTGGTGAAAGTCTCTAAAATGATAGGCGTTTATTCTGATCCGAGTTCACAAACCTTTATATACCCTGACGGCAGAGTCAGCCATTTTATTACCAATTGTTTTCAATGTGACATCATCGGCGGCACTTTGAAAAAGTCCACAGAGGAAGCCATGGAAATCAGATATTTTGATATCCATGAATTACCTGAACATCTCTTGCCGATGCACCCGAGATGGCTGGATGATGCTTTGGAAATGAAAGAGGATGCTTTTATTCGATAA	MISKNYDVFLFDLDGVIYIGDKALPGAVASLKRLREEKKAIRFLTNDPCVTRETIVKCLHKLGISASIDEVVTAGWATADYLVSEGIKKAYILGNDQLKSEIQKAGIDLTEDQAEAVVIGWDQNITFQDVHKAVNLIRCGASFIAANGDKTFPAANGPAPATGAIVAAVKTAAAKEPMIIGKPASSIFEKVLEPFEDKERCVMIGDTPETDIVGANQIGITSVLVSDQNTLFPAKHDFRNPDVVIRDLKDLFDNEIKAEVRKKPDFQWTEQVKAGVAGIIIKESSSVLLMKRADNGLWGIPSGHVEPGETVEQAIIREIEEETGLVVKVSKMIGVYSDPSSQTFIYPDGRVSHFITNCFQCDIIGGTLKKSTEEAMEIRYFDIHELPEHLLPMHPRWLDDALEMKEDAFIR	PGPT0024450_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117	NA	NA
D1-12_03554	963			hypothetical protein	ATGAAAATAACCAGAGAGACATTAGAAAAACAGCAAATTTGGATATATGGTGTGACTCTTGTGATCGGAGGAATAGCAGGGATCGCCGGGAAAGATTCAGGACTTCGCTGGGGATGGACGATATCACCGTTTATCGCTGTTCTCATGTATGCCATGTTTGCCCAAATCCCATTCTTGAAGCTGAGGGAAGCCTTGTCAAACCTCAAGTTTATGGCGGCTTTACTGATCGGTAATTTCTTAGCTGTACCTGTTGTTGTATGGGTGTTAACCGCCATTTTTCCTCAATCTCCTCCTATATTATTAGGGGTTTGTTTGGTATTGCTTACACCTTGTATTGATTACGTCATCGTCTTTACTCAGCTCGGCAAAGGAAATGAGAAATTAATCTTGGCTTCCACGCCGGTTTTGTTCGCCGTTCAGATGGTATTGCTTCCGTTATACCTGCGGCTGTTTATCGGGAAAGAAGTGATAGGGGCTGTTCATGCGGGACCGTTTCTGGAAGCATTCTTATTGTTAATAGCGGTGCCGCTGCTGGCGGCGGTGATGACTCAATTATGGGCTGATAAGAAGCCGGCGGGAGAAAAGGTGTTAGAGTGGACGGCGTGGCTGCCTGTTCCTTTTATGGCTCTGGTCTTACTGGCGGTCGTCGCCACACAAATCGGTAAGGTCATCAGTGATGCTGACATCATTCTACGTGTGATCCCGATCTATCTGTTATTCCTGCTCATTATGCCGTTTGTCTCCCGTTTTATCGCATATGCGTTCCGTCTGAATACAGGTGAAGGTAGAGCATTGATCTTCAGCACGGGCACAAGGAATTCTCTCGCAGTCCTTCCGTTAGCGCTGGCTCTGCCGGATGCTTGGGCCTCATTAGCCGCTGCTGTTATCGTCACACAGACGATTGTTGAGCTGATCGGTGAATTGGTTTATATCAAAGCGGTGCCCGGATGGCTGCTGAAATAA	MKITRETLEKQQIWIYGVTLVIGGIAGIAGKDSGLRWGWTISPFIAVLMYAMFAQIPFLKLREALSNLKFMAALLIGNFLAVPVVVWVLTAIFPQSPPILLGVCLVLLTPCIDYVIVFTQLGKGNEKLILASTPVLFAVQMVLLPLYLRLFIGKEVIGAVHAGPFLEAFLLLIAVPLLAAVMTQLWADKKPAGEKVLEWTAWLPVPFMALVLLAVVATQIGKVISDADIILRVIPIYLLFLLIMPFVSRFIAYAFRLNTGEGRALIFSTGTRNSLAVLPLALALPDAWASLAAAVIVTQTIVELIGELVYIKAVPGWLLK	PGPT0004705_3073	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
D1-12_03555	1050	adhA	COG1064	putative formaldehyde dehydrogenase AdhA	ATGTGTAATAATCATCCGACTCGTGTATTAAGCGCTCCGCATGCAAAAGCTAAATTTGAGCGGACGACGATTGAGAGAAGAGCATTACGGCCGCACGATATCCTGATTGATATTAAGTACAGCGGGATTTGTCACTCAGACATCCACAGCGCATTCGATGAATGGGGCGGCGGAATCTTTCCGATGGTTCCCGGGCACGAAATTGCCGGAGTTGTGGAAGCCGTGGGTGAAGACGTCACCACATTTGCCGTCGGCGACCGTGTGGGTGTAGGCTGTTTTGTAGACTCCTGCGGGGAATGTGAATACTGCCTTAACGGAGACGAACAATATTGCACAAAAGGCGTTGTTCAGACTTATAATAACCTGGACTACGACGGAAACCCTACATACGGCGGCTACAGCCAGAAAATAGTTGTCACTGACAGATTCGTTGTCCGGATTCCCGATCAGCTGGATTTGGATGCTGCCAGCCCGCTATTGTGCGCGGGCATTACCACGTATTCTCCGCTGAAACACTGGAATGCCGGCCCCGGCAAAAAAGTGGCGATTGTCGGAATGGGCGGGCTCGGACATTTAGCCGTTCAATTCGCGCACGCTTTAGGCGCAGAGGTCACCGTCCTCAGCCGCTCAATGAACAAAAAAGACGAAGCGCTTGAATTTGGAGCCGATCATTACTTTGCGACAAGCGATCCGGATACATTTACTGAGCTGGCCGGACGATTTGATCTTATTTTAAATACAGTATCCGCGAACCTTGACGTAGATGCCTACTTATCCCTGCTTCGCATTGACGGTACATTGGTAAATGTGGGAGCGCCCGCTAAGCCGGACTCATACAGTGTGTTCTCCTTAATCACGGGCCGCCGCAGCATTGCGGGTTCACTCGTCGGCGGTATTCCGCAGACTCAGGAGATGCTTGATTTCGCCGCCGAGCACGGCATTGCTCCTAAAATTGAAGTGATACCGGCCGATCAAGTCGACGAAGCGTACGAACGGGTTCTCCAAAGCGATGTCCGCTACCGTTTCGTTATTGATATTGCAACTTTATAA	MCNNHPTRVLSAPHAKAKFERTTIERRALRPHDILIDIKYSGICHSDIHSAFDEWGGGIFPMVPGHEIAGVVEAVGEDVTTFAVGDRVGVGCFVDSCGECEYCLNGDEQYCTKGVVQTYNNLDYDGNPTYGGYSQKIVVTDRFVVRIPDQLDLDAASPLLCAGITTYSPLKHWNAGPGKKVAIVGMGGLGHLAVQFAHALGAEVTVLSRSMNKKDEALEFGADHYFATSDPDTFTELAGRFDLILNTVSANLDVDAYLSLLRIDGTLVNVGAPAKPDSYSVFSLITGRRSIAGSLVGGIPQTQEMLDFAAEHGIAPKIEVIPADQVDEAYERVLQSDVRYRFVIDIATL	PGPT0024430_1148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
D1-12_03556	405	adhR	COG0789	HTH-type transcriptional regulator AdhR	ATGAAGATTGCGCAGGCTGCAAAGCAGGTTGAGTTATCAGCCGCAACGCTTAGGTATTATGAAAGTATAGGACTGATTCCTCCGGTAAAACGCGATGAAAGCGGCATCCGCGATTATGACGAAGATGATGTGAATTGGATTCAATTTATAAAATGCATGAGAAGTGCCGGGCTGTCGATTGAGGCGCTGATTGAATATACCGCTTTATTTATTGAAGGAGCCGATCATACGATCGAACCCCGAAAAAACATCCTGATAAATGAAAGGAAAAGGCTGACGGAGAAACAGAGGGAAATTGATGAAACCATAAAACGATTAAACAGGAAGATTGAGGATTACGAAGATATCCTTGAAAATGAAGCGAAACTTAAAAACAGATTGAAAGCTGAATGTATTTCTGAATGA	MKIAQAAKQVELSAATLRYYESIGLIPPVKRDESGIRDYDEDDVNWIQFIKCMRSAGLSIEALIEYTALFIEGADHTIEPRKNILINERKRLTEKQREIDETIKRLNRKIEDYEDILENEAKLKNRLKAECISE				NA	NA	NA	NA	NA
D1-12_03557	1290	nhaC_2	COG1757	Na(+)/H(+) antiporter NhaC	ATGAACAATAAAAAGAACCCTTGGGCGTTATTGCCTTTAGTCTTATTCGTAGGGCTTTTTGTCGGCTCTGGTCTGGTGACCGGAGATTTTTATAAATTGCCGATCTTGATTGCCGCGATCATTGCGTCAGCTTTTGCGCTGTTATTTAACCGGAAGAAATCGCTCAATCAAAAAATAGAATGGTTCGCTTCCGGTGCGGGACATCCTGATATTATCATTATGGTTATGATTTTTATATTGGCAGGTGCCTTTGCTTCAGCGGCTGAAGCAATGGGAGCGGTGCATTCAACTGTCAATCTTGCTTTGAGCGTTATTCCGCAGCAGTTTTTGCTGCCGGGGCTGTTTATCATTGCTTGTTTTATTTCTATATCAATGGGAACATCAATGGGCACGATTGCGGCGGTTGCGCCGATCAGCGCGGGTCTGAGCGGAGAGCTTGGCATCTCCGGCGCGATTGCGATGGCGGCTGTGGTCGGCGGAGCTATGTTCGGAGATAATCTTTCTTTTATTTCCGATACGACCATCGCGTCAGTCCGGACGCAAAAAACACAAATGATGGATAAATTCAAAACGAACTTTCTGATTGTTTTGCCTGCTGCCATTGTGACTGTTATTATCTTATTTTTTATTCCGGCAGGCCACGCCGGCCATACGGGTGCTGAATCTTACAACTGGATTAAGGTGCTTCCTTATGTCGCCGTGTTGGTTTTTGCGTTAATCGGTATTAATGTGATGGCTGTCATATTCGGCGGATTGGTTTTGACGGGAATCATCGGATTAGCGGGCGGCAGCCTGACGCTTGACTCTTATTTTAAGGCGATTACGGATGGAATTGCCGGAATGAGCGATCTGATCATCCTGTCCATGCTGATCGGAGGGATGGTCGGCGTGATGAAACAAAACGGCGGGATTGACTTTTTACTGGAGTTCATCACGAAACGAATCCGTTCGAAAAAAGGCGCCGAAGCCGGCATTGCCGGACTGGTCAGCATGACGAATCTGGCTGCGGCCAATAATACGATCTCCATTATCGCAGCCGGGCCGATTGCAAAGAATATCGCTGATAAATTCAACATCGACAACAGAAAATCGGCAAGTATTCTGGATATCTTTTCGTGCATGATTCAAGGATTGATTCCTTATGGCGCGCAGCTGTTATCAGCCGGAAAATTCGGGAATATTTCACCCGTCAGCATCCTGCCATACTCTTTCTATCCCGTTTTCATCGGAATCTGCGGCATCGCCGCCATCATATTTGGACTGCCGAAATTCACAAGAAATACGAAATAA	MNNKKNPWALLPLVLFVGLFVGSGLVTGDFYKLPILIAAIIASAFALLFNRKKSLNQKIEWFASGAGHPDIIIMVMIFILAGAFASAAEAMGAVHSTVNLALSVIPQQFLLPGLFIIACFISISMGTSMGTIAAVAPISAGLSGELGISGAIAMAAVVGGAMFGDNLSFISDTTIASVRTQKTQMMDKFKTNFLIVLPAAIVTVIILFFIPAGHAGHTGAESYNWIKVLPYVAVLVFALIGINVMAVIFGGLVLTGIIGLAGGSLTLDSYFKAITDGIAGMSDLIILSMLIGGMVGVMKQNGGIDFLLEFITKRIRSKKGAEAGIAGLVSMTNLAAANNTISIIAAGPIAKNIADKFNIDNRKSASILDIFSCMIQGLIPYGAQLLSAGKFGNISPVSILPYSFYPVFIGICGIAAIIFGLPKFTRNTK				NA	NA	NA	NA	NA
D1-12_03558	1383	gabR_3	COG1167	HTH-type transcriptional regulatory protein GabR	ATGAAAAATATGATTTTCGCTTTCGAAAGCGATACCCCGAAATACAAACAAATTTATGAGCAATTTAAAACATTGATTGAGCAGGGAAATATTCAGGCAGATGAGCGGCTGCCTTCAATTCGGGAGCTGGCAGATTCTCTGCGGGTAAGCCGTAATACAACGCTGATGGCCTATGATCTGCTTTTAGCGGAGGGATACATTCGCGGAGAAACACGCAAAGGATATTTTGCTAATGAAATAGAACCCTCTTTATTTCAACAAGAAAACGATGTTGTTTACGCTGAGAAAACCGAATCAACTCAGCCGATCCTGATTGATTTTCGTGCCGGAGCCGTCGATCAAAATCATTTTCCTCTGAAAACATGGAGAAAATTATACAATCAAGTTTTGACATCAGAGAAAAGCTTCCTTTACGGTGAACCGTTCGGCGAGAGAGACCTGCGTGAACAAATTGCCGCTTATCTCTTGGAATCCCGCGGAGTGAAAACAGATGCGGATTCCATTATCATCGGCAGCAGCACGCAGCAGATGCTGATATATCTCAGCCGGATTCTGAAAGAGGATTTTTCGGGAATGATCGTTGAAGACCCGGGATTTGACGGTGCCAGAGCGGCTTTTCAATTTCACGGGCTTTCTCTGGAGACGATGCCTGTCTATGAAAACGGAGCTGATTTTTCTCAATTACATGCAATGAAAGAAACATTAATCTATGTGACCCCTTCCCATCACAGCCCTTACGGCGTAAGCATGTCCATTCAGCAGCGCCAAACTCTGATCAATTGGGTGAATCATAGAGAGGGTTATATTCTTGAGGATGATTATGACAGTGAATTCCGTTATACACAGCAGCCGTTTCCCGCTCTTGCTTCCATTCAATCAGACCGGGTGATTTATTTGGGGAATTTCTCAAAATCCTTTCTTCCGGGCATCCGCATAAGCTATATGGTTTTACCGCAGCGCATTTTGCACCGGTATAAAAAAAGGTTTATTCATTTCGAAAGCACCGCTTCTTCGCTTAACCAGCTGACCATGGCTGAATTGATGAAGGCCGGTGAATGGACCCGCCATATTAAGCGCATGCGCATTGTTTATAAGCGCAAAATGCAGCACTTGATTTCACATGTAAAGCAGCAGTTCGGCGATCATGTGACGATCATCGGCGAGCAGTCGGGATTGTATATATTGGTGAGAGTTCACCTGAACTATACAGAAGAAACATTAATCGAACGCGCTTTTCAGTACGGAGTGAAGGTGTACCCTACCGCCATTTATTTCGTTGCCCAAAAACCCGAACCGCCGACTATAAAGCTGGGTTTCGCCCATCTCGATACGGATCAGATCACACAGGGCGTACAGCTTTTGAGAAATGCTTGGCTGTCATGA	MKNMIFAFESDTPKYKQIYEQFKTLIEQGNIQADERLPSIRELADSLRVSRNTTLMAYDLLLAEGYIRGETRKGYFANEIEPSLFQQENDVVYAEKTESTQPILIDFRAGAVDQNHFPLKTWRKLYNQVLTSEKSFLYGEPFGERDLREQIAAYLLESRGVKTDADSIIIGSSTQQMLIYLSRILKEDFSGMIVEDPGFDGARAAFQFHGLSLETMPVYENGADFSQLHAMKETLIYVTPSHHSPYGVSMSIQQRQTLINWVNHREGYILEDDYDSEFRYTQQPFPALASIQSDRVIYLGNFSKSFLPGIRISYMVLPQRILHRYKKRFIHFESTASSLNQLTMAELMKAGEWTRHIKRMRIVYKRKMQHLISHVKQQFGDHVTIIGEQSGLYILVRVHLNYTEETLIERAFQYGVKVYPTAIYFVAQKPEPPTIKLGFAHLDTDQITQGVQLLRNAWLS	PGPT0016790_4662	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
D1-12_03559	621	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTATATTCCCGCTCCATTTCAGCTGAGTGAAGCTGAAGCGTGCGATGTAATCAAAGAGTATGGTTTCGCAGCATTGTTTTCAACGGCGGAAGGCATGCCGTATGCAACCCACCTGCCATTGATGATGAGTAAGAATAACGAATGCTTATACGGTCATTTTGCATTGCCGAACCCCCAATGGAAAGAGATTGATGGCCAAAACGTGTTAGCCGTTTTTCAAGGGCCTCATTGTTATATCTCGCCTAAATGGTATGAGACGAATCAGGCTGTTCCCACATGGAATTATGTGGCGGTTCATGTTTACGGAGAGGCGGAGCTTTTGGATGAGGAAGAAACCGTGCAGTCGATGAGTGATCTCGTATTGAAATACGAAAGCCCCGACAGCCCGTACAAATTAGAGGATGTCGATGCGAAATTGCTGGCAGGCATGAACAAAGGGGTAAAAGGTTTTAAAATCAAAATCAGCAAAATAGAGGGGAAAGCAAAGCTGAGTCAAAATCATTCAGCCGCAAGACAAGGGCTGGTCGTACAACAGCTCAAACAGATTCCTCATACAAACGAACAGCTCATTTCCGGCTTGATGGAAGAAAACATCAAACGGATCACTACGAACAACTGA	MYIPAPFQLSEAEACDVIKEYGFAALFSTAEGMPYATHLPLMMSKNNECLYGHFALPNPQWKEIDGQNVLAVFQGPHCYISPKWYETNQAVPTWNYVAVHVYGEAELLDEEETVQSMSDLVLKYESPDSPYKLEDVDAKLLAGMNKGVKGFKIKISKIEGKAKLSQNHSAARQGLVVQQLKQIPHTNEQLISGLMEENIKRITTNN	PGPT0014760_1293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
D1-12_03560	363			hypothetical protein	ATGAAGAAGTATTTATATAAACACCTTTTGTTAGCTCTCGTTTCGTCCGTTTGCTTTTTATTGGTCTTTTACGTGAGTTTAAAAATGACACAAGAGGACACACCGCCGTTGTCTTCTTACCCGTTTTACCTTTTTATTTATCTCTACATAGCAGCCGGATATTTGACGGTCGGCCTTATTTTAGCTTGTATGACTGATATCTTGAAAAACCGCTGGACATTGAATAAAACGTCTTCCATTCTATTGAAACTTATCGTTTACTTACTCATACCGTATGCTATTTTTCATTCTTTCTTCATTTTAATGGCGCCGTTGATTTATGTGCTGTTTGAGTCGTTATTCATCCTGAGAAAAGCTTCATAA	MKKYLYKHLLLALVSSVCFLLVFYVSLKMTQEDTPPLSSYPFYLFIYLYIAAGYLTVGLILACMTDILKNRWTLNKTSSILLKLIVYLLIPYAIFHSFFILMAPLIYVLFESLFILRKAS				NA	NA	NA	NA	NA
D1-12_03561	1191			hypothetical protein	ATGGCTAAAGAAAACAAACAGACAGCAGATCAGGGAATTTCACCTGGTTTAACCCTTCTTCTCGCAACGGCATGCGGTATCATTGTCGCTAATCTTTATTATGCACAGCCCTTGGCAGGATTCATTAGTGCGGCAATCGGGCTTTCTCCAAGCAGCGCCGGACTGATTGTCACGCTGACTCAAATCGGATACGTTGCCGGCTTACTGTTTCTCGTCCCTTTGGGAGACATTATCGAAAACAAAAAACTTGTCGTTGTATCGCTCCTTCTAAGCGCAGCTGCTTTGACACTGACAGCATGTGTGAAGCATGGAACACTGTTTTTAGCCGCTGCGTTTTTCATCGGACTGGGATCCATCGCAGCCCAAGTGCTAGTTCCGTTCGCATCATACCTTGCACCAGATGCCGCACGAGGCCGGGTTGTCGGCAATGTGATGAGCGGCCTGCTTCTCGGTATTATGCTTTCCCGTCCGATATCCAGCCTGGTCGCTGATATATGGGGGTGGAATGCCATATTTGCTTTATCCGCCGCGTTAAGTGTTGTCCTGGCAATCGTCTTATCAAAAGTGCTTCCTGCCAGAAAACCAACAGCAAACACAAGCTACACCGTCTTACTCGGTTCAATGTGGAAGCTGCTGCGCACGACTCCGGTCTTACGCCGCCGTGCCATTTATCATGCGTTTGTATTTGGAGCTTTCAGCTTATTCTGGACGACTGTGCCTTTATTATTGTCCGGTCCTGCTTTTCATTTTTCTCAAAAGGCAATCGCGCTGTATGCATTAGCGGGCATTGCGGGTGCAGCGGCTGCACCGATAGGCGGCCGTCTGGCTGATCTCGGCTTGACCCGGCTTGCCACCGGAATCGCTCTCGGTGTTGTCATCGTTTCTTTATTACTCCCGCTCATGATTCAGAGCAGCTCCCCCGTCGGAATAGCAGTTCTGGTGGCCGCTGCTATCCTGTTGGATATGGGGGTATCTGCCAATCTCGTACTCAGTCAGCGTGCCATTTTTTCGTTGGCACCTGAATTTCGCAGCCGATTAAACGGATTATTTATGGCAATCTTCTTTCTGGGCGGTGCTATAGGATCATCAATCGGAGGATGGGCATACGCCTCAGGCGGGTGGAGTATCACATTATGGATTGGAATCGCTTTTCCGGTCATAGCATTGCTTTATTTCACCACAGAGAAATAA	MAKENKQTADQGISPGLTLLLATACGIIVANLYYAQPLAGFISAAIGLSPSSAGLIVTLTQIGYVAGLLFLVPLGDIIENKKLVVVSLLLSAAALTLTACVKHGTLFLAAAFFIGLGSIAAQVLVPFASYLAPDAARGRVVGNVMSGLLLGIMLSRPISSLVADIWGWNAIFALSAALSVVLAIVLSKVLPARKPTANTSYTVLLGSMWKLLRTTPVLRRRAIYHAFVFGAFSLFWTTVPLLLSGPAFHFSQKAIALYALAGIAGAAAAPIGGRLADLGLTRLATGIALGVVIVSLLLPLMIQSSSPVGIAVLVAAAILLDMGVSANLVLSQRAIFSLAPEFRSRLNGLFMAIFFLGGAIGSSIGGWAYASGGWSITLWIGIAFPVIALLYFTTEK				NA	NA	NA	NA	NA
D1-12_03562	579	aqdR		HTH-type transcriptional regulator AqdR	GTGCAGAGTAAACGAGGACGGCCGCGCGATGAAGGAACACATAAGGCGATTCTTTCTGCAGCCTATGACCTATTGTTGGAAAATGGCTTTGACGCGGTGACAGTCGATAAAATTGCTGAGCGTGCCAAAGTGAGTAAGGCAACGATTTATAAATGGTGGTCAAACAAGGCTGCCGTTATCATGGACAGCTTTCTTTCGACCGCTACGGACAGACTGCCTGTGCCTGATACAGGATCAACAGTGCAAGATATATTGACCCACGCCACGAATTTAGCAAGGTTTTTGACGAGCCGGGAAGGAACCGTTATTAAGGAATTAATCGGTGCGGGGCAGCTGGATGCAAAATTGGCGGAAGAATATCGCACGCGATTTTTCCAGCCCCGCCGCCTCCAAGCGAAAGGCCTTCTGGAAAAGGGAATTCAAAAAGGTGAATTAAGAGAGAATCTTGATATTGACGTAAGCATCGATCTCATTTACGGACCGATTTTCTATCGCCTGTTGATCACAGGTGATGAGGTGAATGATTCCTATGTGCATGATCTGGTGATGAGTGCGTTTAAGGGAGTTCAGCCTGCCTGA	MQSKRGRPRDEGTHKAILSAAYDLLLENGFDAVTVDKIAERAKVSKATIYKWWSNKAAVIMDSFLSTATDRLPVPDTGSTVQDILTHATNLARFLTSREGTVIKELIGAGQLDAKLAEEYRTRFFQPRRLQAKGLLEKGIQKGELRENLDIDVSIDLIYGPIFYRLLITGDEVNDSYVHDLVMSAFKGVQPA				NA	NA	NA	NA	NA
D1-12_03563	885			hypothetical protein	ATGAATAAAGCCGCAAACGGCTGGATTAACGGATTTATCGGCGTGCTCATTTTCAGCGGCTCGCTTCCCGCGACCCGCTTGGCTGTAGCGGACTTTGACCCGGTATTTCTCACCGTATGCCGCGCCGCTATAGCCGGTATATTGGCAGGCGCTCTGCTCCTCATTTTTCAGGAGAAACGCCCTGCCAAAAGCGACATCATTTCACTACTAACAGTAGCGCTCGGCGTCGTGATCGGTTTCCCGCTGCTTACAGCCTTAGCGCTTCAGCATGTCACATCCGCTCATGCCATTGTCTACATCGGGCTTCTCCCGCTTGCGACGGCGATCTTCGGCGTACTGCGAGGAGGCGAACGGCCCAGACCGGTCTTTTGGATTTTCTCGGCTGCCGGCAGCATCCTCGTAGCCGGATATGCTCTGCTGCAAGGAGGGGAATCCTCTCCGCTCGGTGATACGTACATGATCGCTTCGATTATCGTGTGCGGTCTCGGTTATGCCGAAGGCGCCCGCCTCTCCCGGCGGCTTGGCAACTGGCAGGTGATCTCTTGGGCTCTCGTTTTATCGCTTCCCCTTATGTTCATCCTGTCTTTCTGCTTCATGCCGGACTCATGGTCAAACATCGGCGCGCCCGCACTGCTCAGTCTTGCATATGTCTCAATATTCAGCATGCTGATCGGCTTCGTATTCTGGTATCGCGGACTCGCCCAGGGAGGCATCGCCGCGGTCGGACAGCTGCAGCTTCTGCAGCCTTTCTTCGGACTGTTACTGGCCGCCATGATTCTCCATGAAAAAGCGGGATGGGAACTTGCGGCGGTGAATGTCGGCGTTATCGCTTGCGTGGCGGCCGCCCGGCGGTTCGCAAATCAATCAGAAAAGGCCGAACAATGA	MNKAANGWINGFIGVLIFSGSLPATRLAVADFDPVFLTVCRAAIAGILAGALLLIFQEKRPAKSDIISLLTVALGVVIGFPLLTALALQHVTSAHAIVYIGLLPLATAIFGVLRGGERPRPVFWIFSAAGSILVAGYALLQGGESSPLGDTYMIASIIVCGLGYAEGARLSRRLGNWQVISWALVLSLPLMFILSFCFMPDSWSNIGAPALLSLAYVSIFSMLIGFVFWYRGLAQGGIAAVGQLQLLQPFFGLLLAAMILHEKAGWELAAVNVGVIACVAAARRFANQSEKAEQ				NA	NA	NA	NA	NA
D1-12_03564	1389	gabR_4	COG1167	HTH-type transcriptional regulatory protein GabR	ATGGATATCACGCCATTTTTAAATAGAGATTTGGATATTCCGCTTTATCAGCAGCTTTATCGGCATTTTAAGGAAAATATGCATCAGGGACGTATTCCTAAAGGACTGAAGCTTCCTTCAAAAAGGCTTTTGTCAAGTCAGCTTTCCGTCAGTCAGACGACTGTGGAGCGTGCCTATGAACAGCTTGCCGCCGAAGGCTATATTGTCAGTAAGCCGAGAAGCGGATGGTTTGCCGATTATGACTCGGACGCCGTCTATGTGAAAAAGCCGGGCGCTTCGCCTGTTCAAACAAAGGCGAAGGAAGACCGCCAATGGATTGATTTTCACTACGGCACTGTGGATGCCGCTCATTTTCCTTTTTCGGCATGGCGCAAAAGCATGGTTGCAAGCTTAGATCAATATGGGCACGAGCTGTATCGGCCCGGGGATGATTTGGGCGAGCTTGAACTGAGAACGCTCATTTCAGAATACTTATATCAGTCGCGCGGCGTGAATTGCCGTCCTGAACAAGTGATAGTCGGCGCCGGGAACCCTGCTCTTTTGCAAATGCTGTGCATAATATTTGAAGCAAATCTATCCATCGGATATGAAGATCCGGGTTATCCGAGAGCGAGGGAGATTTTTAAAGCCAATCACATGAAGATCATTCCGATACCCGTCGATGATGAAGGAGTCTGTATCCGGAAGCTGAATGAAGAGCGGCCGCGTCTTGTATATGTCACGCCTTCTCATCAATTTACGTTAGGAACGATTATGCCGGTAAACAGAAGGATTCAGCTGCTGAAATGGGCGAAGGAACATCAATCATTCATTATAGAAGATGATTATGACGGTGAATTCCGATACACCGGCCAGCCGATCCCATCATTGCAAGGGCTTGATCAGCATCACCGTGTTATTTATATGGGAACGTTTTCCCAATCTCTGCTTCCTTCGCTGCGCATCAGCTATATGATTCTTCCTTTGCCGCTTATCGAAAAAGGCAGGGAAATCGCTTCTTTATATAAGCAGACCGTCTCCTGCCACAGTCAGCTGACGCTGGCTCAATTTATCAAAAGCGGAGAGTGGCAGAAACATATTAACAGAATGAGAAAGCTGTACCGGAAAAAAAGAGCGGTATTATTAGAGGCCGTGCGGCGCGAGCTGGGACAATACGTCAGGATTCGCGGAGAAAATTCCGGGCTGCGGATTTTACTTGACGTTCAGCTGCCTTTCAGTGAAAAAGAGCTGATTGAAAAGGCGGAGGAACAAGGCGTCAAAATCTATCCCGTGTCTCTCACCTATCAAAAACAGCTCCCTGAAAAAACAGTTTCTCTCGGTTTCGCGGGGGTTTCTGAAACCAATATACAAGAAGGTATAAAAAAACTGAGAGCCGCCTGGGCGCTGTAA	MDITPFLNRDLDIPLYQQLYRHFKENMHQGRIPKGLKLPSKRLLSSQLSVSQTTVERAYEQLAAEGYIVSKPRSGWFADYDSDAVYVKKPGASPVQTKAKEDRQWIDFHYGTVDAAHFPFSAWRKSMVASLDQYGHELYRPGDDLGELELRTLISEYLYQSRGVNCRPEQVIVGAGNPALLQMLCIIFEANLSIGYEDPGYPRAREIFKANHMKIIPIPVDDEGVCIRKLNEERPRLVYVTPSHQFTLGTIMPVNRRIQLLKWAKEHQSFIIEDDYDGEFRYTGQPIPSLQGLDQHHRVIYMGTFSQSLLPSLRISYMILPLPLIEKGREIASLYKQTVSCHSQLTLAQFIKSGEWQKHINRMRKLYRKKRAVLLEAVRRELGQYVRIRGENSGLRILLDVQLPFSEKELIEKAEEQGVKIYPVSLTYQKQLPEKTVSLGFAGVSETNIQEGIKKLRAAWAL	PGPT0016790_3159	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
D1-12_03565	300			hypothetical protein	ATGAATCCGATTATTGAATACTTGACGGGAATGAATGCACTGACAGACCAAATTGTCGCAATGGATTTATTGAATTCGGCAAAAAGCGGTGTCAGAAACTATGCGATGGCGGCGACGGAAGCCGGAACGCCTGAAGTGAAAGCGATCCTCACCCGGCACTTAGAAGAAGCCCTTGACATGCACGAGCAAATCTCACGCTATATGATGGAAAAAGGCTGGTATCACCCGTGGAACACAAATGAACAAGTCCGGCTCAATTTGCAAAATATTGATACGGCGCTCCGCCTGCCCGTCCTATAA	MNPIIEYLTGMNALTDQIVAMDLLNSAKSGVRNYAMAATEAGTPEVKAILTRHLEEALDMHEQISRYMMEKGWYHPWNTNEQVRLNLQNIDTALRLPVL	PGPT0025245_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025245-yraD-K06439	NA	NA
D1-12_03566	207			hypothetical protein	ATGGCCAGCGCCTTACATGAATTACTCGAAATTCAGGAGATGGCTTCTTTTAAGTCACTTTGTCTGACGAAATCCAAAACCATGAAAGCGCTCGTATCCGATCCGCAGCTGAAAGAAATCATGCAGCAGGATGTGGATACATCAACAAGGCAATTGCAGGAATTTGCCTCGATTTTATCTGATGCACAGCATGAAATGAGGAGATGA	MASALHELLEIQEMASFKSLCLTKSKTMKALVSDPQLKEIMQQDVDTSTRQLQEFASILSDAQHEMRR	PGPT0025250_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025250-yraG-K06440	NA	NA
D1-12_03567	1137		COG1063	putative zinc-binding alcohol dehydrogenase	ATGAAGGCCGTAACGTATCAAGGAGTGAAAAACGTCGTTGTCAAAGACGTGCCTGATCCGAAGATTGAAAAACACGATGACATGATTATAAAAGTCACAAGTACGGCAATTTGCGGATCAGATTTACATTTAATCCACGGACTCATCCCGAATTTGCAGGAAGACTACATCATCGGCCATGAACCGATGGGCATCGTGGAAGAAACCGGTCCCGGCGTGACGAAAGTCAAAAAAGGCGACCGCGTCATTATTCCTTTTAATATCGCCTGCGGAGAATGCGTTTATTGTAAGAATCACCTGGAAAGCCAGTGTGATCAATCAAATGAGAACGGCGATATAGGCGCTTATTTCGGCTATTCAGGAAATGCCGGCGGCTATCCGGGAGGCCAGGCCGAATATTTGCGCGTTCCATTTGCGAACTTTACCCACTTTAAAGTTCCCGAAACATGCGAAGAACCGGATGAGAAACTGAGTGTTATTTCCGATGCGATGACAACCGGCTTTTGGAGCGTCGACAATGCCGGCGTAAAAGAAGGCGATACAGTTATCGTTCTCGGCTGCGGGCCCGTGGGCCTTTTCGCTCAAAAATTCTGCTGGTTAAAGGGAGCGAAACGCGTAATAGCCGTAGACTATGTCAACTACCGTCTCCAGCATGCGAAACGGACGAATAAAGTAGAAATCGTGAACTTCGAAGACCACGAAAATACAGGCAGCTACCTGAAGGAAATCACCAAAGGCGGCGCCGACGTTGTCATTGACGCCGTCGGCATGGACGGAAAAATGACGGATCTCGAGTTCCTCGCCAGCGGATTAAAACTTCAGGGCGGGGCGATGAGCGCATTGGTCATCGCGTCCCAAGCGGTGCGAAAAGGGGGAACAATCCAGATTACGGGTGTGTACGGCGGCAGATACAACGCGTTTCCCCTTGGCGATATCATGCAGCGGAACGTCAATATCCGATCAGGACAAGCTCCGGTCATCCACTATATGCCGTATATGTTTGAATTGGTGTCAACCGGCAAAATTGATCCAGGCGATGTTGTAAGCCATGTCATTCCGCTCAGTGAAGCGAAGCACGGCTATGAGATGTTTGACACGAAAACAGATGATTGTATTAAAGTTGTACTCAAACCTTAA	MKAVTYQGVKNVVVKDVPDPKIEKHDDMIIKVTSTAICGSDLHLIHGLIPNLQEDYIIGHEPMGIVEETGPGVTKVKKGDRVIIPFNIACGECVYCKNHLESQCDQSNENGDIGAYFGYSGNAGGYPGGQAEYLRVPFANFTHFKVPETCEEPDEKLSVISDAMTTGFWSVDNAGVKEGDTVIVLGCGPVGLFAQKFCWLKGAKRVIAVDYVNYRLQHAKRTNKVEIVNFEDHENTGSYLKEITKGGADVVIDAVGMDGKMTDLEFLASGLKLQGGAMSALVIASQAVRKGGTIQITGVYGGRYNAFPLGDIMQRNVNIRSGQAPVIHYMPYMFELVSTGKIDPGDVVSHVIPLSEAKHGYEMFDTKTDDCIKVVLKP	PGPT0006355_1012	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
D1-12_03568	369			hypothetical protein	TTGAATCATGACCATTTAGATCCGATCAATTCATTACATGTCCCTGAACTTGCGGATATGACATTCGCAATGGATTTTCTCATACGCGCCAAAGAAGGCGTCAGAAATACCGCCGTCGCTTTAACAGAAACCGCTTCACCTGATGTAAGAGCTTTGCTGCGCAAACAGCTCATGCAGGGAATCGCGATGCATCAGGAGATAACAGACTTGATGGTCAGCAAAAAGTGGTTTCACCCGCATGATTTGAGCGAACAGTATAAATTGGATCAGCTCTCTGCAAAAAATACCCTCATGGTCGGAAGCATGAACCTGTTTCCCGTTGAAACGAACAGAAAAGGGATGTTTGACCGCACACCTGATGAACACTAA	MNHDHLDPINSLHVPELADMTFAMDFLIRAKEGVRNTAVALTETASPDVRALLRKQLMQGIAMHQEITDLMVSKKWFHPHDLSEQYKLDQLSAKNTLMVGSMNLFPVETNRKGMFDRTPDEH	PGPT0025245_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025245-yraD-K06439	NA	NA
D1-12_03569	246			hypothetical protein	ATGGAAAAGCGTGAATTAGCGGCTCACGAGTCGCTGGACTTACATGAAATCATTAACTTCAAGACGCTTTGTGTAGCGAAATCCAAGCTCATGCAAGGGCTTGTGTTTGATCAGGATCTGAAAACGTTAATGGAAAAAGACGTTCAGCAAGCCTCTCAAGACCTGGCTGATCTGCAGGCGGTTTATGAACGGGCAACGTTTCAGGCCCCCGTTCCTCAAAACCGGCCGACTTCGATCATCAATTGA	MEKRELAAHESLDLHEIINFKTLCVAKSKLMQGLVFDQDLKTLMEKDVQQASQDLADLQAVYERATFQAPVPQNRPTSIIN	PGPT0025250_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025250-yraG-K06440	NA	NA
D1-12_03570	1278			hypothetical protein	ATGATGACAAATAGAATAAAACCTCGTGAGGCCGGTCGGCTAAAAGGAAGTGGACAGAGATTGTTTGGTACAAAACATCAAGAAGACTACGTCTCCCGTGACAGACGCTCATTGCATATGCTTGCGCTTCGGGTGCCCGGTCTGGCGTTTATTTTAATGGTATATGCCGCATCAGTCTCTTTGCAGTACATTTATGAAAGCTGGACGGTTTTTTTGCAGCTGTTATTCACGATATTGATCGTCATTTTTACCGTGCTGCACTGGCATTCCCATCGCTGGGTGAAGAAAAAGACGTTTCTTTATTTCATCGTACAGGGATTTATCATATATACATCGGCTAACTTGATGACCGGCGGCTATATCGCACTGGTCATCGGTCTCTATGCCTTTTTAATCGGGCAGATTATCGGAATGGCGGATAAGGGAAAAAAGCTGCTCATACTCTATCTTTTCATTTTAATGTCCATAACAGCCTTGCACCAGGAGCATCCGCATCATCTGCTGCGTTTCATCGTTATCGCCGCTCCCATCATGATCGTGATTATCACGTATGCGGCCACATTTTTCGCGCAAGTTGATGAAAAAATAAAAACACAGATGACGCTTGAAAAATTAGAGCTCGCTCACCGGCAAGTGAAACAGCTGACGCTTCAAAACGAAAGACAGCGGATGGCGAGAGACTTGCACGATACGCTTGCACAAGGGCTGGTCAGCTTGCATATGCAGCTTGAAGCGGTGCAAGTTCATCTTTCGAAAGATAACACTGACAGAGCGAAAGACATCATACGCCAGTCAATGGACAGAGTGAAGGGCACATTGGCTGATGCGCGCTCGGCCATTGACAACCTTCGCAGCAAATCAGAAGAGATCGGTTTCTTAAAAGAAAGCATCACTGAACAAATCAACCATTTTACAGAAGCCTCCGGGCTGTCTTGTTTTTTAGATTACAGCGTGCATCATGTGCTTGACGTTCATACGGCGGAGAATTGCCATTACATGATCGGAGAAGGCCTGACAAACGCCGCCAAGCATGCAGAAGCAAAGAATGTCTGGGTGTCCGTTCGGGAAGAAGAGAGACAGATCCGCATAACCGTCAAAGATGACGGGAAAGGCTTTGATGCCGGAACAGAAATGAGAAAAAGCGGACATTACGGGCTGCTTGGGATACAAGAACGCGTCAATATGATGAACGGTACTTTCCGTATAACAAGCGCCAGATCAGCGGGGACTCAAATTGAGATCATCATACCAATTCAGGGAGAGGCGGAACATGTATAA	MMTNRIKPREAGRLKGSGQRLFGTKHQEDYVSRDRRSLHMLALRVPGLAFILMVYAASVSLQYIYESWTVFLQLLFTILIVIFTVLHWHSHRWVKKKTFLYFIVQGFIIYTSANLMTGGYIALVIGLYAFLIGQIIGMADKGKKLLILYLFILMSITALHQEHPHHLLRFIVIAAPIMIVIITYAATFFAQVDEKIKTQMTLEKLELAHRQVKQLTLQNERQRMARDLHDTLAQGLVSLHMQLEAVQVHLSKDNTDRAKDIIRQSMDRVKGTLADARSAIDNLRSKSEEIGFLKESITEQINHFTEASGLSCFLDYSVHHVLDVHTAENCHYMIGEGLTNAAKHAEAKNVWVSVREEERQIRITVKDDGKGFDAGTEMRKSGHYGLLGIQERVNMMNGTFRITSARSAGTQIEIIIPIQGEAEHV	PGPT0028585_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TOXINES_NEUTRALIZATION_YDF_SYSTEM,PGPT0028585-ydfH-K11623	NA	NA
D1-12_03571	636	vraR		Response regulator protein VraR	ATGTATAAAGTGTTAATAGCAGATGACCATCTTGTCGTCAGAGAAGGTCTGAAGCTTTTGATAGAAACAAATGACCATTACACCATAACGGGAGAGGCGGAAAACGGGAAAACCGCCGTCCGGCTCGCAGAAGAACTAAAACCCGATGTCATTCTCATGGATCTGTACATGCCGGAAATGAGCGGGCTGGAAGCCATTAAACAGATAAAAGAGCATTCTGATGTGCCGATCATAATTTTGACGACCTATAATGAAGATCATCTGATGATAGAAGGCATCGAATCAGGCGCGAACGGTTATCTGCTGAAGGACACAAGCTCAGAAACCTTATTTCATACGATGGATGCGGCGGTCAGGGGAGAAGTGCTTCTGCAGCCGGACATCTTGCGGCGTTTCCGGGAAATGAAAATGGAACGGGCAAATGCCAATGAAACACAGCTGACGGAAAAGGAAATCATAGTTCTGCAAGCCGTTGCGCAAGGACATAAAAGCAAAGCGATCGCCTTCGATTTAGGAATCTCAGAGCGGACGGTAAAAGCGAGATTAACATCAATTTATAACAAATTAGGCGCTGATTCGCGGACGGAAGCCGTCACCATTGCCATGCAAAAAGGCATTCTGAAACTGAATATATAA	MYKVLIADDHLVVREGLKLLIETNDHYTITGEAENGKTAVRLAEELKPDVILMDLYMPEMSGLEAIKQIKEHSDVPIIILTTYNEDHLMIEGIESGANGYLLKDTSSETLFHTMDAAVRGEVLLQPDILRRFREMKMERANANETQLTEKEIIVLQAVAQGHKSKAIAFDLGISERTVKARLTSIYNKLGADSRTEAVTIAMQKGILKLNI	PGPT0028590_75	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TOXINES_NEUTRALIZATION_YDF_SYSTEM,PGPT0028590-ydfI-K11624	NA	NA
D1-12_03572	2154	ydfJ	COG2409	Membrane protein YdfJ	ATGTCTGGTTTTTTATATAAATTAGGGGGATGGTCTGCCCGCAATCGATTAAAAATGATCAGTGCGTGGCTCGTGATACTGATCGCTTCGATTGTGATCGCCATCTCGTTAAAACCTGCTTTTTCTGAGGATATGTCAATTCCCGACACACCTTCTGAAAAGGCGATGGATATGATTCAAAAAGAATTTTCAAAGGGTCCCGATAAAGGAAGCATACGGGTTATTTTCGGAGCTGAAGACGGGAAGAAATTGACGTCAAAACCGGAAAAACAAGCGATTGAAGAGACATTAAAGAAGATCAAAACAGATCATTCAGTCGCTTCGATTGCAAGTCCTTTTGAGACAGGAACCATTTCTAAAGACGGATCAGTAGCATATGCCGATATTACGTACAAAAAAGCGGCGGATGACATTACGGATGCGTCTGTTTCACATATTAAACACAGTCTGTCCGCCGCAGGAGACAAAGGTCTGCAGACGGAGCTCAGCGGCGATGTGCCGGGGGCCGGTGTTGAAATCGGCGGTGTATCTGAAATTGTCGGCGTTGTGCTGGCATTCGTCGTACTGGCTATTACGTTTGGTTCATTAGTCATCGCGGGGCTTCCGATTGTCACGGCCCTGATTGGGTTAGGCGTAAGCGTCGCGCTGACGTTAATCGGGACACAGTTCTTTACGATAGCCTCGGTCAGTCTCTCATTATCCGGAATGATCGGACTGGCCGTCGGGATTGATTATGCGCTGTTTATCTTTACGAAGCATCGTCAGTTTTTGGGCGAAGGTGTACAAAAAAATGAATCGATCGCTAAAGCCGCGGGAACGGCTGGCAGCGCCGTCGTTTTTGCGGGACTGACCGTGATCGTCGCGCTTTGCGGATTGACCGTTGTCGGCATTCCGTTCATGTCTGCCATGGGATTGACTGCGGCACTCAGTGTGCTGATGGCTGTATCGGCTTCTGTTACGCTGGTGCCTGCGGTGTTGTCAATCGCAGGAAAACGGATGATTCCGAAATCAAACAAGAAGAAAGAAAAGAAAAGCGCCGACACGAATGCCTGGGGGCGCTTCGTTACAAAGAAGCCTATTCTGTTAAGCATTTTCAGCATTATTCTTTTAGCCGTCATCAGTCTGCCGGCCATGCATTTAGAGCTGGGGCTGCCTGATGCGGGAATGAAAGCGAAAGACAGCCCGGATCGCCGCGCCTATGATCTGTTGTCTAAAGGATTCGGCGAAGGCTTTAACGGCAAGCTGACAATTGTTGCCGATGCAAAAGGGGTCAAGGGGAACAAAAGTGAAGCATTTCAAGACGCCGTGAACGAAATGAAGGACTTGCACAATGTGGCGAGCGTCACACCGGCCATGCCGAACGAAAAAGGGGACTATGCCATTATTACGGCAGTGCCTGAAACCGGGCCGAATGATAAGGCAACGAAAGAGTTAGTGCAGGATATACGGAAACGATCAGACAAAAACGGCATCCGCCTGCTCGTCACCGGTTCAACCGCGGTAAACATTGATATTTCAGACCGGTTAAACGATGCCATTCCGGAATTCGCCATTCTCATTGTCGGGTTTGCGTTTGTATTGCTGACCGTTGTTTTCCGCTCGCTTCTCGTGCCGCTTGCCGCCGTCGTCGGCTTTTTACTGACGATGACCGCTACACTCGGCTTATCGGTATTCGTTCTGCAGGATGGGAATTTCACCGGCTTGCTCAGCATTCCGGAAAAAGGCCCGATTCTCGCCTTCCTGCCTATTTTAGCGATCGGTATTCTTTTCGGACTGGCGATGGATTATCAAGTATTCCTTGTCAGCAGAATGAGAGAAGAATATGTCAAAACAAAAAATCCGGTACAAGCCATCCATGCCGGATTGAAACATAGCGGACCTGTCGTAACAGCGGCGGGACTGATCATGATTTTCGTCTTTGCGGGGTTCATCTTTGCGGGAGAAGCTACGATCAAATCCATGGGCTTGGCAATGACCTTCGGTGTTCTTTTTGATGCGTTCATTGTAAGAATGACCATTATTCCGAGTGTCATGAAGCTGATGGGACATGCGGCCTGGTACTTGCCGAAGTGGCTGGATAAAATCATTCCGAACGTGGATATCGAAGGCCATAAGCTGACACAAGGCAAAACACCGGAGAAACCGGAAGAATAA	MSGFLYKLGGWSARNRLKMISAWLVILIASIVIAISLKPAFSEDMSIPDTPSEKAMDMIQKEFSKGPDKGSIRVIFGAEDGKKLTSKPEKQAIEETLKKIKTDHSVASIASPFETGTISKDGSVAYADITYKKAADDITDASVSHIKHSLSAAGDKGLQTELSGDVPGAGVEIGGVSEIVGVVLAFVVLAITFGSLVIAGLPIVTALIGLGVSVALTLIGTQFFTIASVSLSLSGMIGLAVGIDYALFIFTKHRQFLGEGVQKNESIAKAAGTAGSAVVFAGLTVIVALCGLTVVGIPFMSAMGLTAALSVLMAVSASVTLVPAVLSIAGKRMIPKSNKKKEKKSADTNAWGRFVTKKPILLSIFSIILLAVISLPAMHLELGLPDAGMKAKDSPDRRAYDLLSKGFGEGFNGKLTIVADAKGVKGNKSEAFQDAVNEMKDLHNVASVTPAMPNEKGDYAIITAVPETGPNDKATKELVQDIRKRSDKNGIRLLVTGSTAVNIDISDRLNDAIPEFAILIVGFAFVLLTVVFRSLLVPLAAVVGFLLTMTATLGLSVFVLQDGNFTGLLSIPEKGPILAFLPILAIGILFGLAMDYQVFLVSRMREEYVKTKNPVQAIHAGLKHSGPVVTAAGLIMIFVFAGFIFAGEATIKSMGLAMTFGVLFDAFIVRMTIIPSVMKLMGHAAWYLPKWLDKIIPNVDIEGHKLTQGKTPEKPEE	PGPT0028595_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TOXINES_NEUTRALIZATION_YDF_SYSTEM,PGPT0028595-ydfJ-K11625	NA	NA
D1-12_03573	723		COG2071	Putative glutamine amidotransferase	ATGGCCAAACGCATCGGAATTACGGGAAACATTATGGCTGATCAATCCGGTCCTTTCCCGGGTTATAATCGGGCATATGTCAATAATGATTATATTCAGTCTGTTTCTGAGGCCGGCGGTGTGCCGTTTATATTGCCGGTGATTCAAGAGACGGCGCTTTTAAAGGAACAGGTCTCTCATGTTGACGGGATCATTCTGTCCGGCGGTCAGGATATAGACCCGCTGTTTTACGGTGAAGAACCTTTACAGGCTTTAAGAAAGACCTTTCCTGATCGGGACGCCTATGAGAAGGAGCTGATTCTCACGGCGGTTGCTTTAGAAAAGCCGATTCTGGCCATCTGCCGGGGGATGCATATGTTAAACGTCACTTACGGGGGAACTTTATATCAGGATCTGACACACGCTTCATTTGCTGAAATCAAGCACGATCAAGAAAAAGATCCGCCGTTAAAAACCCATCATGTTTCTTTTGAAAAAGGGACACGTCTCCATTCCTTGTTTGGCGATTCAGCGCGGGTGAATTCATTCCATCACCAGATCATAAAAGAGACGGCGCCTTCGTTTAAAGCCGCGGCTTATGCGAAAGACGGGGCCATTGAAGCGATTGAACAGACAGGTGAATTATTTGTCGTCGGCGTACAATGGCATCCTGAAATGCTGACAAAAAAACATGAAGACATGAAAAAGCTTTTTTCTCTTTTCATGAATGCGGTCAGCACATAA	MAKRIGITGNIMADQSGPFPGYNRAYVNNDYIQSVSEAGGVPFILPVIQETALLKEQVSHVDGIILSGGQDIDPLFYGEEPLQALRKTFPDRDAYEKELILTAVALEKPILAICRGMHMLNVTYGGTLYQDLTHASFAEIKHDQEKDPPLKTHHVSFEKGTRLHSLFGDSARVNSFHHQIIKETAPSFKAAAYAKDGAIEAIEQTGELFVVGVQWHPEMLTKKHEDMKKLFSLFMNAVST	PGPT0020950_77	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
D1-12_03574	1632	expZ	COG0488	Nucleotide-binding protein ExpZ	ATGAAAGAAATGTTAAAAATAAGCGGCATCAGTTATGAAATCAACAGCGTTCCCCTTTTTGAACAGATCAGCGCGAGCGTTCAGCAAGGTGACATCATCGGCGTTATCGGTAAAAACGGCGCCGGCAAATCGTTATTGCTGCAATTGATCTGCAATCAAAAAGCGCCGTCACAAGGACAGATTCAGATGATGCAAGATGTGAACATATATATGGTGGAACAAGAAACGGAAGCTTATGATTCCGGCCATCCGGAGCCTGCGGAGGCAGCCTTGTTAGAAAAGTGGAACGTGCCCGCACGCGCCTTTTCGCAATTGAGCGGCGGAGAAAAACTGAAAGCCCGTCTTGCCAAAGGTTTCTCCTCCTCAAGCAGCCTTTTGTTATTAGATGAGCCGACGAACCACCTCGATCAGCACAGTTTAGAAATACTGCTAAATCAGATCAAGAATTACAAAGGCACCATTATTTTCGTTTCGCATGATCGTGCTTTTATAGATGCAGCGGCGACAAAAATCTGGGCCATCGAAGGAAAGAAACTCATTGAACATAAAGGGAATTATTCAAGCTATATGGAGGTCCGCAAACAGAGAAGGCTGACACAGCAGCGGGAATATGAGAATCAGCAAAATATGATCAGACGGATTGAAGCTCAAATGAACGAGCTGAGCGCCTGGTCGAAAAAAGCCCATGCCCAATCAACGAAAATAGAAGGATTTAAAGAATACCATCGCGTAAAAGCAAAACGCACGGACGCCCAGATTAAATCAAAGCAGAAGCGTCTTGAAAAAGAGCTTGAAAAAGCGAAAGCAGAACCGGTTGAAGCGGAGTATGAAGTCCGTTTTTCCATTGAGCACCGCAAAAAAGCGGGAAAGCGTTTTTTAGAAGTAAGTGATGTCACAAAGTCATATGACGGCCGAACGCTTTTCAAAAACGTGAATTTCACTGTGATGCACGGTGAAAAGATCGCGATTACAGGCCCGAACGGCAGCGGGAAAACAACATTATTGAAGGTCATCCTCGGTCAGGAAAAAGCACAGGACAGCAGCATATGGATTTCTCCGTCTGCAAACGTCGGATATTTAACCCAGGAAGTATTCGACCTCCCGCTTGATAAAACCCCCGAACAGCTTTTTTACAAAGAAACGTTCGAAGCAAGGGGAAATGTTCAATCCCTCATGAAGCATTTAGGATTTACCGCAGCGCAATGGACGGAACCCATCGGCAAGATGAGCATGGGAGAGCGGGTCAAATGCAAACTGATGGCGTTTATTTTAGAGGAGAAAGATGTGCTGATTCTGGATGAGCCGACAAACCACCTTGATCTGCCGTCACGCGAGCAGCTTGAAGACACTTTGGCCCGATACGACGGAACGCTTATCATCGTATCTCATGATCGTTACTTTCTCGAAAAGACGACGGACATCCGGCTTGATATCTCAAATGGCAGCGTCCGAAAACAATGGAAAGAATCCCCCTCTGTCAGGGACGATGCTGAAGAACTGCGATTAAAGCTTGAAACCGAACGGCAGGAAGTCCTCGGAAAACTCAGCTTCATGACTCCGGCTGATAAACAATATCGTGAGCTTGATCAAAAATTCAAAGAGCTGACGGAAGAAATCAAGAAATTGAAATGA	MKEMLKISGISYEINSVPLFEQISASVQQGDIIGVIGKNGAGKSLLLQLICNQKAPSQGQIQMMQDVNIYMVEQETEAYDSGHPEPAEAALLEKWNVPARAFSQLSGGEKLKARLAKGFSSSSSLLLLDEPTNHLDQHSLEILLNQIKNYKGTIIFVSHDRAFIDAAATKIWAIEGKKLIEHKGNYSSYMEVRKQRRLTQQREYENQQNMIRRIEAQMNELSAWSKKAHAQSTKIEGFKEYHRVKAKRTDAQIKSKQKRLEKELEKAKAEPVEAEYEVRFSIEHRKKAGKRFLEVSDVTKSYDGRTLFKNVNFTVMHGEKIAITGPNGSGKTTLLKVILGQEKAQDSSIWISPSANVGYLTQEVFDLPLDKTPEQLFYKETFEARGNVQSLMKHLGFTAAQWTEPIGKMSMGERVKCKLMAFILEEKDVLILDEPTNHLDLPSREQLEDTLARYDGTLIIVSHDRYFLEKTTDIRLDISNGSVRKQWKESPSVRDDAEELRLKLETERQEVLGKLSFMTPADKQYRELDQKFKELTEEIKKLK	PGPT0027940_135	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027940-msrA|vmlR-K18231	NA	NA
D1-12_03576	528			hypothetical protein	ATGAATATCAAAACTGACAGGCTCGTCATTCGGACATTTGAGCCGGAAGATTGGCAGGATGTCTATGCGTACACGTCAAATCCGAATGTCATGAAATATATACCAGAGGGTGTCTTTACCGAAGAAGATGCCAGGAAATTCGTTACTGAAAACAGCGGTGAACATGCCGGGAAGTTTCCCGTTTTATTGAAGGATGAGAAAACGGTCATTGGCCACATTGCTTTTTTTCAGTATTTTGGCGATCATACGTATGAAATCGGCTGGGTGTTTCACCCGGAATACCAGGGCAAAGGATATGCTTCAGAGGCGGCGCGCGCCGTGCTGGCATTCGGGTTTAACAAGATGAACTTACACCGGATCATTGCGACATGTCAGCCGGAAAACACGGCTTCGCACCGAGTGATGGAAAAGATCGGGATGAGACGGGAAGGCTTTTTTAAAAAATGCATCCCCCATGATAATGAATGGTGGGATGAATATTATTATGCCGTTTTAGAAGAAGAGTGGGAAGCCTCCAATCTGGAATAA	MNIKTDRLVIRTFEPEDWQDVYAYTSNPNVMKYIPEGVFTEEDARKFVTENSGEHAGKFPVLLKDEKTVIGHIAFFQYFGDHTYEIGWVFHPEYQGKGYASEAARAVLAFGFNKMNLHRIIATCQPENTASHRVMEKIGMRREGFFKKCIPHDNEWWDEYYYAVLEEEWEASNLE				NA	NA	NA	NA	NA
D1-12_03577	858			hypothetical protein	ATGAAGAACATTTGCAAGGATATACTGATGATTATGGCCGGAGCCTTTCTTATTGCAGCGTCCGTGGAATTTTTCGTCATCCCGAATCATTTAGGGGACGGCAGCACCGTGGGAATCGCTCTCGTGTTATATTATCTTTTCCATATACCTGCAAGTATTACGACTCTGGTTGTAAATTTGATTTTTATCGGGCTGGCTTATAAATTTTTAACGAAAAAAACGATTTTATACACGATACTCGGTACGGGGATGACTTCTGTTTTTCTCAGCATCGTCAGCTTTATTCCGTTCGGCGTGCACGACATGGTGCTAGGGATTGTATTCGGCGCTCTGCTGATGGGAGCGGGGCTGGCATTGATCTTTATCGCTGACGGATCTACCGGCGGAACCACGCTTTTGGCGTATTTATTAAATTACACAAAGGGCTTTAACATCTCCAAAAGCATGTTTTATATGGATTGTGTCATCATTTTCGCATCCGTTTTAGCGATCGGCATCAATCACATGCTGTATACGTTTATATTCGTATATCTGTGCGCCAAAATCGTCGATATTGTCATTGAGGGTTTCCATAATAAAAAAGCCCTCACCATTATGTCTGACCAATACGAAGAAATCGCCAAAGCCATCACCTCCGAGTACGGCAACGCGGCGACGATTTTTTACGGATACGGGTATTACGGCAGCAAAGACAAGCGCATTATCTATGTCGTCATTAAAAAGAACGAATTGCTGAAAATCAAAAAACATGTTCAAAAAATTGACCCGAAATCATTTATCGTTATTCATGAAGTAAAAGAAGCTGTCGGAGGGCAATTCGGATTTACAAACCTGCCCGCCGCCGCGAATGAAAAATAA	MKNICKDILMIMAGAFLIAASVEFFVIPNHLGDGSTVGIALVLYYLFHIPASITTLVVNLIFIGLAYKFLTKKTILYTILGTGMTSVFLSIVSFIPFGVHDMVLGIVFGALLMGAGLALIFIADGSTGGTTLLAYLLNYTKGFNISKSMFYMDCVIIFASVLAIGINHMLYTFIFVYLCAKIVDIVIEGFHNKKALTIMSDQYEEIAKAITSEYGNAATIFYGYGYYGSKDKRIIYVVIKKNELLKIKKHVQKIDPKSFIVIHEVKEAVGGQFGFTNLPAAANEK				NA	NA	NA	NA	NA
D1-12_03578	1134	gldA		Glycerol dehydrogenase	ATGAAAGACAACGAAGAAGGGATGATGACATTGGAACGAATTTTTATCAGTCCGGCCAAATACGTGCAGGGAAAAAACGCCATTGAAACGATCGGCGGACATTTGGAGGGCGTTGGTGAAAAAGCCGTCGTCATTGCGGACAAAACCGTATGGGATATCGCGGGCCACAAGGTGACGGCTGAATTAAAGAAAAGCAATATTTCTTCTGAAGAGGCGGTTTTCAACGGCGAAGCCTCCCAGGAAGAAATGAAAAGAATTGCCGGCATCGCAGAAAAAGCAGGCGCGACTATTGTCATCGGAGTCGGCGGCGGTAAAACGCTTGATACCGCCAAAGCCGTATCAGATGAAATAAACGGCTACACCGTTATCGTGCCGACGGCCGCTTCAACGGATGCTCCGACAAGCGGGCTGTCTGTCGTATATTCTGAACAAGGCGCGTTCGAAAACTATCGTTTCTATCATAAGAATCCTGACTTGGTTCTGGTCGATACGAAAATCGTCGCGGAAGCTCCGCCGCGCTTTTTAGCATCAGGGATTGCCGATGCGATGGCGACGTGGATAGAGGCGCGCAGTGTCATCGCCAATGGCGGTAAAACGATGGCAGGCGGAATTCCTACCATCGCCGGAGAAGCTATCGCGGAAAAATGTGAAGCGGTGTTATTCAAATACGGCCGTCTCGCTTATGAGTCTGTGAAAGCGAAAGCCGTTACGCCCGCATTGGAAGCGGTGGTTGAAGCCAATACACTTCTGAGCGGACTGGGATTTGAAAGCGGCGGCTTAGCTGCGGCACATGCCATTCATAACGGATTTACCGCGCTTGAAGGTGAAATCCATCACTTGACCCACGGTGAAAAAGTGGCATTCGGCACGCTCGTTCAATTGGCGCTGGAAAAACGTTCGCTTGAGGAAATTGAGCGGTATATCGCGTTTTATATCAGCTTGGGGCTGCCTGTCACACTTGAAGACATCAAATTGAAAGACGCATCTAAAGAGGACATTATGAAAGTGGCAGAAGCCGCGACGATTGAAGAAGAAACGATTCATGCCGCTTTTGACGTGACGGCTGACGACGTGGCGGATGCCATTATAGCGGCTGATCAATACGCAAAAGCATTTAAAGAAAAACACGCGTAA	MKDNEEGMMTLERIFISPAKYVQGKNAIETIGGHLEGVGEKAVVIADKTVWDIAGHKVTAELKKSNISSEEAVFNGEASQEEMKRIAGIAEKAGATIVIGVGGGKTLDTAKAVSDEINGYTVIVPTAASTDAPTSGLSVVYSEQGAFENYRFYHKNPDLVLVDTKIVAEAPPRFLASGIADAMATWIEARSVIANGGKTMAGGIPTIAGEAIAEKCEAVLFKYGRLAYESVKAKAVTPALEAVVEANTLLSGLGFESGGLAAAHAIHNGFTALEGEIHHLTHGEKVAFGTLVQLALEKRSLEEIERYIAFYISLGLPVTLEDIKLKDASKEDIMKVAEAATIEEETIHAAFDVTADDVADAIIAADQYAKAFKEKHA	PGPT0008270_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008270-gldA|dhaD-K00005	NA	NA
D1-12_03579	1212	bcr_2		Bicyclomycin resistance protein	ATGCTGCATAATCCGACCGGTAAGGAGCGGCTTGCGCTTGCTTTTCTTCTCGGAATGCTTGCGATACTGGGGCCGCTCAATATAGATATGTATCTGCCGAGTTTCCCTGAAATCGCCGAAGATTTAAGCGCCCGCGCTTCGCTTGTCCAGCTCAGTTTAACCGCTTGTCTGATCGGACTGACAATCGGACAGGTTGTTGTCGGCCCGTTAAGTGACGCGAAGGGAAGAAGAAAACCGTTATTACTATGTATTTTTTTATTTGCGTTGTTTTCTCTGTTTTGCGCGCTTGCACCGAACATTGCAACACTAGTGATTGCCCGTTTTCTTCAAGGGTTCACCGCTTCGGCAGGACTCGTTTTATCCCGTGCAATCGTCAGAGATGTGTTTACGGGAAGAGAGCTTTCTAAATTTTTCTCGCTGCTGATGGTCATTACCGCCGTCGCGCCGATGGTGGCGCCGATGACGGGAGGCGCGATTTTACTGCTTCCGTTTGCATCATGGCATACGATTTTTCTCTTTTTAACGTTTATCGGTTTTTTGCTTGTAATCATCATTGCGCTCAAGCTGACAGAAACCCTGCCGCCGGAAAAGCGGATTCCGAGCTCCATCGGAAATTCCGTGCGGACAATGGGAAGCCTGCTGAAGGATCGGTCATTTATCGGCTATGCGCTGACGGTCGGTTTTATTCACGGCGGGAGCTTTGCGTATGTCTCCGGAACGCCTTTCGTGTATCAGGATATTTACGGAGTAACGCCTCAGGTATTCAGTGTTTTATTCGGCATAAACGGTCTGGCGATCATTACCGGAAGCTTTATCATCGGGCGTTTCGGCGGGATCATTCACGAAAAAAGCCTGCTGAGAATCGGCGTGATTACAGCGATGACGGCGACTGCCGTTCTGCTCGTCATGACAATCATTCACGGGCCGCTGGCGGCACTGGTGATTTCCATTTTTATTTATATGATTACGATCGGCATGACGCTGACAAGCACCTTTACATTGGCGATGGAAAAGCAGGGACACCGCGCGGGAAGCGCAAGCGCACTGCTCGGCATGCTTCCGCTTCTTCTCGGTTCCATCGTGTCGCCGCTTGTGGGGATGAATGAAGCGACGGCCGTGCCGATGGGGGCAATAATGTTCACGACATCCGTTATCGGTTCCATCGCTTTTTTCGCCTTAACAACAAAACCGGAGAAAGCAAAAAAGGAGTGA	MLHNPTGKERLALAFLLGMLAILGPLNIDMYLPSFPEIAEDLSARASLVQLSLTACLIGLTIGQVVVGPLSDAKGRRKPLLLCIFLFALFSLFCALAPNIATLVIARFLQGFTASAGLVLSRAIVRDVFTGRELSKFFSLLMVITAVAPMVAPMTGGAILLLPFASWHTIFLFLTFIGFLLVIIIALKLTETLPPEKRIPSSIGNSVRTMGSLLKDRSFIGYALTVGFIHGGSFAYVSGTPFVYQDIYGVTPQVFSVLFGINGLAIITGSFIIGRFGGIIHEKSLLRIGVITAMTATAVLLVMTIIHGPLAALVISIFIYMITIGMTLTSTFTLAMEKQGHRAGSASALLGMLPLLLGSIVSPLVGMNEATAVPMGAIMFTTSVIGSIAFFALTTKPEKAKKE	PGPT0029005_2714	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
D1-12_03580	1236	fabF_2	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGAAAAGAGTTGTGATCACCGGAATGGGAGTGATTTCACCTCTCGGCAATGATGTGCATACATTTTGGAAACACCTGACGGAAGGAAAATCGGGAATCTCTTTCATCGATTCGTTTGATGTCTCCGGTTCAAAGACAAAAATAGCCGGCACCGTCCGTGATTTTGACGCAGAAGAAAGATGGGGCAGAAAAGAAGCGAGACGGCTTGACCGTTTCAGCCAGTTTGCTTTAGCGGCAGCGGAACAGGCGCTTGAAAGCTCCGGGATTCAGCTCGATCAGATTGACCGTGAACGCCTCGGCGTGTACGTCGGCTCGGGAATCGGCGGCATCACGACTTTGGTTGATAACGTTCATACTTTAAATGAACGGGGAGCGCGAAAAGTGAGCCCGAGCCTTGTCCCCATGATGATCTCAAACGCGGCCGCCGCTCAAATCAGCATCAGATTAGGCGCGCTCGGCCCCTCACTTTCTCCCGTCACCGCGTGTTCCATCGGCAATACGTCGATCGGGGAAGCTTTCAACGCCATTCGGAATGATGACGCAGATATCATGTTTGCCGGGGGAGCGGAAGCGGCGATTACGAATTTGTCATTAGCCAGCTTCGGCAATGCCCACGCGCTGTCAGCGAGAAACGAAGACCCCGCCGCGGCAAGCCGGCCGTTTGACGCGGATCGCGATGGGTTTGTCATGAGTGAAGGCGCGGGCATCTTAGTATTGGAATCATTGGATAGCGCAATCGGCAGAAACGCCCCGATCCTCTGTGAGGTGCTCGGCTACGGCGCAAGCTCTGACGCCTATCATATGGTAGCCTCCCATCCGGAAGGAACGGGCGCATACCTGGCGATGAAAAACGCTTTGAAAAAGGCGAACGTTTCAGCGGAAGACATTGATGTCGTAAGCGCTCATGCGACAAGCACAAAAGCCGGAGATCTTTCTGAAACATTGGCCATCAAGACATTATTCGGGGAGCTTGCCTATGACATTCCGGTTACGGCCAACAAATCAATGCTCGGCCACATGCTTGGCGCGGCAGGCGGCGTTGAAGCCATCGCTCTGACAGAAAGCCTGAGACACGGCATCATTCCGCCGACGATCAATCTGCAGCACCCTGATTCGGCATGTGATTTGGACTATGTAGCAGACGGACCCCGCCAGCAATCGTTAACGATCGGCCTTTCCAACTCATTCGGCTTTGGGGGGCATAATTCGGCGATCGTGCTGAAGAAATATGAATAG	MKRVVITGMGVISPLGNDVHTFWKHLTEGKSGISFIDSFDVSGSKTKIAGTVRDFDAEERWGRKEARRLDRFSQFALAAAEQALESSGIQLDQIDRERLGVYVGSGIGGITTLVDNVHTLNERGARKVSPSLVPMMISNAAAAQISIRLGALGPSLSPVTACSIGNTSIGEAFNAIRNDDADIMFAGGAEAAITNLSLASFGNAHALSARNEDPAAASRPFDADRDGFVMSEGAGILVLESLDSAIGRNAPILCEVLGYGASSDAYHMVASHPEGTGAYLAMKNALKKANVSAEDIDVVSAHATSTKAGDLSETLAIKTLFGELAYDIPVTANKSMLGHMLGAAGGVEAIALTESLRHGIIPPTINLQHPDSACDLDYVADGPRQQSLTIGLSNSFGFGGHNSAIVLKKYE	PGPT0008360_6302	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-12_03581	840			hypothetical protein	ATGATACCAGAAGGAAGATTGCAGGCGCTTTCAGAGTTTTTAAAAACGCAGCGGGCCAAAATTTCTCCGCAGATGGCCGGGCTGCCGATGGGCACACGGAGAAGAACGCCCGGACTACGAAGAGAAGAGGTCGCGCAATTAGCCGGCGTAAGCACCACGTGGTATACGTGGCTGGAGCAGGGCAGAGATATTAAAGTGTCCGCAGCCGTATTGGACGCCGTTTCCGATGCGCTGCAGCTCAACAAAGATGAGAGAAATTATTTATACGCGCTTGCCATTGAGGAGGGCGTGAAGCAGCCGTTTACCGCGGAGGAAGAAGCGGTTATCAGCCCGTCGCTTTCAAAAATCCTGCAGGAGCTCCGTTATTGTCCCACCATTATCTCGGACAGGCGGTGTCATATCGTAGGATGGAACCAGGCCGCGGCTCACGTGTTTTTAGATTTTGAACAAATTCCTCCTGAAAAACGGAATCTCATAGAGCTATTGTTTTCCAGAAAAGAATTAAGAAGTTTAGCCGTGAACTGGGAGCACTTTGTGAAAGGATTCATCGCCATTTTCAGAACGTATTACGGCCAGTATGTAGCTGATACGTGGTATTCTCAGTTTATAGAAGAAATGGAGAAAACGTATTCGGAATTTCATACGCTGTGGAATGAGAGCGAAGTCAGCTCGGCACCCGAAGTATTAATTGAGTTCCGCCACGCGAAGGCGGGAAAAATGGTCTTTAACCTGACTTCATTTCAGGTTCAGGGCAACAGTGATCTGCGCTGCAGTGTGTATACGCCGGTAGATCATACCGAAACGGAAGCAAAGCTGAAAAAGCTCTTCGAAAACAGGTGA	MIPEGRLQALSEFLKTQRAKISPQMAGLPMGTRRRTPGLRREEVAQLAGVSTTWYTWLEQGRDIKVSAAVLDAVSDALQLNKDERNYLYALAIEEGVKQPFTAEEEAVISPSLSKILQELRYCPTIISDRRCHIVGWNQAAAHVFLDFEQIPPEKRNLIELLFSRKELRSLAVNWEHFVKGFIAIFRTYYGQYVADTWYSQFIEEMEKTYSEFHTLWNESEVSSAPEVLIEFRHAKAGKMVFNLTSFQVQGNSDLRCSVYTPVDHTETEAKLKKLFENR				NA	NA	NA	NA	NA
D1-12_03582	744			hypothetical protein	GTGCTTATTATACTCGTTATGTTTCTTCTCGGGATTATTCTCGGGTTTATCGGCGCCGGGGGAGCCGGTTTTGTCATTGCACTTTTAACTATACTGTTTCACGTACCGATTCATACGGCTTTGGGCACCTCCCTCGCCGGAATGGCTTTCACAAGTTTGTCGGGGGCTTTCAGCCACTACCGTGAAGGCAATATTCAGATGAAGATCGGCCTCATCGTCGGCGTTTTTGCGGCATTCGGTTCGTTTTTCGGGGCAAGGCTTACTTCCCTTATCCCCGCAGATTTGCTGCATTACTTGACGGCGGGCATGCTGTTTTTATCTGCTCTGCTTATTTTAGTCCGGTTATTTATTGTAAAAGAAACACATGAAGATTCCGGACGGCAAAGCAATCTGAATATATGGGTGAAAGCCGTTGTACTCGGTGTCATCGCAGGAATCTTGTCCGGAACATTCGGGATCGGCTCTGCCCCTTTCATCCAAATCGGCTTAATGATTCTTTTGCGCTTATCCATCCGCCAGTCGGTCGGCACCACCATGCTTGTCATTATCCCGCTTGCGGTCGGCGGAGGACTCGGTTATGTGACGGAAGGATTTGTCGATTATATGCTGTTGGTCAAAGTGCTGATCGGAACGATGTGCGGCGCATATGTCGGAGCGAAATTCACCAACCTCGTGCCGAAAGTCATTCTGAAATCAGCCATCTTTTTAACACCGGCCATCGCCGGTCTCATGCTTTTATTTTAA	MLIILVMFLLGIILGFIGAGGAGFVIALLTILFHVPIHTALGTSLAGMAFTSLSGAFSHYREGNIQMKIGLIVGVFAAFGSFFGARLTSLIPADLLHYLTAGMLFLSALLILVRLFIVKETHEDSGRQSNLNIWVKAVVLGVIAGILSGTFGIGSAPFIQIGLMILLRLSIRQSVGTTMLVIIPLAVGGGLGYVTEGFVDYMLLVKVLIGTMCGAYVGAKFTNLVPKVILKSAIFLTPAIAGLMLLF				NA	NA	NA	NA	NA
D1-12_03583	459	bltD	COG0454	Spermine/spermidine acetyltransferase	ATGACGATTGAAATCAGAACAGTCACGGAAGAAAACCGTGCCGATATACTGGCGCTTCATGTAAGTGAAAGCCAGACTTCATTTATTGAAACCGCGGAAGAGTGCTTACAAGATGCTGAGGATTGCCGGCATTATCAGCCGGCCGGTCTTTATGTTAACGGGGAATTGGTCGGCTTTGCCATGTACGGATGGTTTCCGGAATATGATGAGGAAAATGAAAACGGCAGAGTGTGGCTTGACCGTTTTTTTATTGATGAACGTTATCAGGGACGGGGATTGGGCAAGCTGTTGCTTGATGCCCTAATCCGTCATCTCGCTCAAATATATGATTGCAGACGGATTTATTTAAGCCTGTTTGAAGATAACGTCCACGCATTGCGGCTTTATCAAAAATTCGGCTTCTTATTCAATGGAGAGCTGGACTCAAACGGGGAAAAAGTGATGGTGAAAGAGCTGTAA	MTIEIRTVTEENRADILALHVSESQTSFIETAEECLQDAEDCRHYQPAGLYVNGELVGFAMYGWFPEYDEENENGRVWLDRFFIDERYQGRGLGKLLLDALIRHLAQIYDCRRIYLSLFEDNVHALRLYQKFGFLFNGELDSNGEKVMVKEL	PGPT0007790_1782	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
D1-12_03584	822			hypothetical protein	ATGAGCGAAGACGTCAGAAAATACTTCACAACGGGTGAATTTGCAAAACTGTGCCACGTAAAAAAACAAACCCTGTTCCATTATGACGAGATCGGCCTGCTTTCTCCGGAAATCAAAAAAGCGAATGGATACAGATACTATTCCTATCATCAATTCGAACTGTTCCAGGTCATCGGTCTGTTTAAGGAGGTCGGCGTGCCCTTAAAGCAGATCAAACCGCTCTTAACAGACAAAACTCCTGAAGGTATCATCACGCTTTTAAAAGAGAAATCTTCAGAAATCGAAAGCAAAATCAAAAAGCTGGAGCACCTGCAAAGGATGATTCAAACAAAGGTGAAGCTGACCGAACAAGCCTTGGAGACAGACTTTTCCTCCGTCTCATTGCAGCGATTAGATGAAGAGACACTTATGATAGGACGACCCGTACTCCATTTGCCAGAACGGCAATACACTGCCGCCATTTCCGAATTGATCCGCTATATGCGGGTACATGAACTCGATCAGGGGCATCCGGTCGGCGGACTGTTTGCGCGGGAGCAGATTCTGAAAAAAGAATTCTACAACTACACCCATTTTTATATGAAGACAGAAGAAGGCATAGAGAATAGAGACCTCCATATCAAGCCGAAAGGGCTTTATGCCGTCGGGTACCAAATAGGGGATGAAGCGGAAGCGGCTTACCGCAGCATCATGCAGTTTATTGAAGAGTATGGGCTGGAAATGGGCGATTATGCATATGAAGAATATATGTTTGATGAGGTTGTGGCGGACGGGTTTGACAATCAGATCACAAGAATCCAGCTGCAAGTCCGCAATCGATAA	MSEDVRKYFTTGEFAKLCHVKKQTLFHYDEIGLLSPEIKKANGYRYYSYHQFELFQVIGLFKEVGVPLKQIKPLLTDKTPEGIITLLKEKSSEIESKIKKLEHLQRMIQTKVKLTEQALETDFSSVSLQRLDEETLMIGRPVLHLPERQYTAAISELIRYMRVHELDQGHPVGGLFAREQILKKEFYNYTHFYMKTEEGIENRDLHIKPKGLYAVGYQIGDEAEAAYRSIMQFIEEYGLEMGDYAYEEYMFDEVVADGFDNQITRIQLQVRNR	PGPT0003907_44	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003907-bmrR-NA	NA	NA
D1-12_03585	873			hypothetical protein	TTGAAAAATACATTGTTCGGTTCGATTTATTTGACATTGGCCGCCAGTATCTGGGGAGGTATGTATGTCGTTGTAAAAGTTGTGGTAGCGGTCATTCCGCCGCTTGAACTGGTATGGCTGAGATATGCGGTGGCGCTTCTTTCGCTTTTGATTCTCAGTTTGTTTACACGCCAATCCTGGAAAGTTCATAAACGTGATTTATTACTGATCGCTGCGATCGGATTGATCGGCAACACGATTTCGATCGTCACGCAGGAAATCGGCACGAAATTATCAACCGCGCAGATGGGTGCGATTATTACGGCATCCACTCCCGCATTTATGGTTGTATTTGCCCGGCTGATGTTGAAAGAGCGGTTAACGCTGAAAAAAGGAATATCGACAGGGCTGGCGACGATCGGAGTATTGCTCATTGTGGGGAACGGAGATCTCGATATGTCGAGCCAGCTCGGCGGTCTCTCGCTTCTGGCTGCGGCGCTGACATGGGCTTTGATGTCCGTGCTGATGAAACGGGTTCCCGGCCATTACTCACCGCTTGTCGTCACAACGTATTCCATTTGCGTCGCATTTGTCATCCTGACCCCGTTTACAGCGGGCCCGCTTCAGGAGATTCCTTTGTCTCAGCTTGCCCGGCCTGAGATATGGGGCGGACTTTTATATTTGGGTGTGATCTCAACCGCCTGCGCGTTCATGCTTTGGAATCGCGGATTGCAATTGCTGAATGCGGCAAGCGGCGGTCTGTTTTTCTTCTTTCAGCCGCTTTCCGGGACATTGCTCGGCTGGCTGCTGCTGGGAGAGACGATCGGAGGAACCTTCTGGATCGGGGCGGCCCTTATTGTTTCAGGCGTCGTTCTCGTCATGAAAGAAAAATAG	MKNTLFGSIYLTLAASIWGGMYVVVKVVVAVIPPLELVWLRYAVALLSLLILSLFTRQSWKVHKRDLLLIAAIGLIGNTISIVTQEIGTKLSTAQMGAIITASTPAFMVVFARLMLKERLTLKKGISTGLATIGVLLIVGNGDLDMSSQLGGLSLLAAALTWALMSVLMKRVPGHYSPLVVTTYSICVAFVILTPFTAGPLQEIPLSQLARPEIWGGLLYLGVISTACAFMLWNRGLQLLNAASGGLFFFFQPLSGTLLGWLLLGETIGGTFWIGAALIVSGVVLVMKEK				NA	NA	NA	NA	NA
D1-12_03586	618			hypothetical protein	ATGGAGCCAAAATGGCTTGAATGGGCAAAACAGCTTCAATCCGCGGCGCAAGCGGGGCTGGCTTATTCCAAAGACATATATGATATTGAGAGATTTGAAGAAATAAGAAAAATAAGCGTGGATATCATGGCGCATCATACCGGCATCGATAAAAGGGTCATCAAAGACGTATTCGCCGGTGACACGGGCTATCCCACTCCGAAAGTTGATATCAGAGCGGCAGTTTTTAAAGATCAGAGCATATTAATGGTAAGAGAGAAAAGCGACGGCAGATGGGCGCTGCCGGGCGGATGGGCTGATATCGGGATTTCTCCGGGCGAGACCGCTGTCAAAGAAGTAAAAGAGGAGTCAGGAATCGACGTAAAGCCCGTTAAACTGTTAGCTGTAATGGATAAGAAATGCCATTCCCATCCGCCGTCCGCCGCCCACGTTTACAAAGTGTTTATCAAATGCGAGATCATCGGCGGCCGGATCAGGGAGGGAACAGAAACAAGCGCCGCCGGCTTTTTTGCGGAAACGGAACTGCCGCCGCTATCTGAAGCCCGCAATACAAAAAGTCAGATTGATAGGATGTTTGCATATCTCAAACATCCGGACGAACCCGTTTATTTTGATTAA	MEPKWLEWAKQLQSAAQAGLAYSKDIYDIERFEEIRKISVDIMAHHTGIDKRVIKDVFAGDTGYPTPKVDIRAAVFKDQSILMVREKSDGRWALPGGWADIGISPGETAVKEVKEESGIDVKPVKLLAVMDKKCHSHPPSAAHVYKVFIKCEIIGGRIREGTETSAAGFFAETELPPLSEARNTKSQIDRMFAYLKHPDEPVYFD				NA	NA	NA	NA	NA
D1-12_03587	783	ycgJ		putative methyltransferase YcgJ	ATGGAGGATTCAATTAAACAGCAGGCGCAGCGGCAATTTGCCAAAAACGCCGCGAAATATGTGACTAGTCCAGGACACGCCGCAGGAGAGGATTTGGCGTATCTCGTTTCAGCTTCCGGTGCCGAAAAGCATATGGACGTGCTGGATATCGCGACGGGAGGCGGACATACGGCTAACGCTCTCGCTCCTCTCGTACGCTCTGTTATCGCCTATGACCTCACGGAAGAAATGTTAGCAGCCGCTGAAGCATTTATAACCGGAAACGGATGGACGAACGTTTCATTCGAAAAAGGCGATGCTGAAAAGATGCCGTTTTCCGATGCTGCTTTCGATATCGTCACATGCAGAATCGCGGCGCATCATTTTCCCGATGTCAGAGCCTTTGTTCATGAAGCGTTTCGGGTTGTCAAACCGGGCGGCAGACTGCTTCTCATTGACAATACCGCACCTGAAAAGGATGAATATGACCATTTTTATAATGACATTGAGAAGAGACGGGATCAGAGCCACTTTCGGGCGTGGAAAAAAACAGAATGGCTCCGTTTTCTGGAGACAGCCGGCTTCCGGATTGAATCCGCTGTCTGCTTTTTGAAACCATTTCAATTTACCGTCTGGTGTGAACGGGCAGGCCTGACTGAAGAGAAAGCCGCATTACTGGAAAAACAGATGCTGGATGCTCCTCATGATATACAGCGGTTTTTTTCTGTAGAAAAGGATCAATCAGGCCGTATTGCGGGCTTCACAGGTGAATCGGCCTGTTTCTGCGCGATCCGTCCCGTCTGA	MEDSIKQQAQRQFAKNAAKYVTSPGHAAGEDLAYLVSASGAEKHMDVLDIATGGGHTANALAPLVRSVIAYDLTEEMLAAAEAFITGNGWTNVSFEKGDAEKMPFSDAAFDIVTCRIAAHHFPDVRAFVHEAFRVVKPGGRLLLIDNTAPEKDEYDHFYNDIEKRRDQSHFRAWKKTEWLRFLETAGFRIESAVCFLKPFQFTVWCERAGLTEEKAALLEKQMLDAPHDIQRFFSVEKDQSGRIAGFTGESACFCAIRPV				NA	NA	NA	NA	NA
D1-12_03588	1059	dmlA	COG0473	D-malate dehydrogenase [decarboxylating]	ATGAAAACTTACAAGATTGCCAGCATACCGGGGGACGGTGTGGGGAAAGAAACAGTTCCGCAAGCGGAGCGGGTGTTGAACGCGATCGCCGAATTACATGGAGGCATTGCCTTTGATTTCACTTCTTTTCCGTGGAGCTGCGAGTATTATTTGGAGCACGGGACTATGATGCCGGATGATGGATTAGAAACGTTACAGCACTTTGATGCTTTGTTTTTGGGGGCGGTGGGGAATCAAAAACTCGTCCCCGATCATGTTTCGCTGTGGGGGCTGCTCATCAAGATACGCCGGGAATTTGAACAGGTGATTAATGTGCGGCCGGCAAAGCTCCTGCCGGGAATCACTTCCCCCCTCGTTAACCCGAAGGATTTTGATCTGATAGTCGTCCGCGAAAACAGTGAGGGCGAGTACAGCTCTGTCGGCGGCAGAATCTATCAGGGTGAGGACGAAATCGCCATACAAAACGCGGTCTTTTCCCGACGGGGTACGGAAAGAGTAATGCGGTATGCTTTCGAACTGGCGGCAAGTCGGCGGAAACACGTCACAAGCGCGACGAAATCAAACGGTATTGTTCACTCGATGCCGTTCTGGGATGACATCTTTAAAGAGGTCAGCCGGGAGTACGCCGGGATTGAGACGGATTCCCAGCACATCGATGCACTGGCGGCCTTCTTTGTCACGCAGCCGGAACGCTTTGATGTCATTGTCGCTTCGAATCTGTTCGGAGATGTGCTGACAGATATCGGCGCGGCGATTATGGGAAGCATCGGAATCGCTCCCGCAGCCAACATCAATGTAAACGGCAAATATCCTTCCATGTTTGAGCCTGTTCACGGCTCCGCCCCGGATATTGTCGGAAAAGGAATTGCCAATCCTATAGGCCAAATATGGACGGCGAAATTAATGCTCGATTCATTCGGAGAAGAGGAACTGGGCCATCTCCTCTTACAATCTATTGAAACGGTCACAAACAGCGGCATTCTGACTCCTGATGTCGGCGGAAAACATTCAACGGAAGATGTCACTTCCGCTATTATTTCTCAAATCAAGAACAGATAA	MKTYKIASIPGDGVGKETVPQAERVLNAIAELHGGIAFDFTSFPWSCEYYLEHGTMMPDDGLETLQHFDALFLGAVGNQKLVPDHVSLWGLLIKIRREFEQVINVRPAKLLPGITSPLVNPKDFDLIVVRENSEGEYSSVGGRIYQGEDEIAIQNAVFSRRGTERVMRYAFELAASRRKHVTSATKSNGIVHSMPFWDDIFKEVSREYAGIETDSQHIDALAAFFVTQPERFDVIVASNLFGDVLTDIGAAIMGSIGIAPAANINVNGKYPSMFEPVHGSAPDIVGKGIANPIGQIWTAKLMLDSFGEEELGHLLLQSIETVTNSGILTPDVGGKHSTEDVTSAIISQIKNR	PGPT0001905_1253	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
D1-12_03589	687	rspR_3	COG1802	HTH-type transcriptional repressor RspR	ATGGATAATTTTAAATTAGATAAGCCAATCCCGTATTATCTGCAATTTTATTCCCAATTGAAAAAAATGATATTTGACGGGATTTTTAAACCGGGTGAACGGCTGAATGAGACTCAGCTGGCCAAGGATTTCGGAGTCAGCCGGTCGCCGGTCAGAGAAGCCATGCGGCTCCTTGAAAAGGACGGGCTTTTGACGGCAGACGATCGAAACGGCTTTGTCATTTATTCTTTGTCCGTTAAGGATGTTGAAGAGATTTATAAAATCAGAATGTCACTTGAATCACTGGCAGTCGAACTGGTTATTGATGAAGCGGCTGAGAGTGAAATTGACCTCATTGAAAAACAGCTGCGCAAGACGGAAGAAGCCATCAATAAAGGCGTCAAAGAGACTGAGATTATTTCCTTGAACGAGACGTTTCATCAGCTCCTTGTGGATTTCAGCCATAACAGCCGGCTGGCCATGCTGCTTGAGCATGTCAATGTGCTGATTCATTTTTGCAGAGTTCTTAATTTTAAAGGCGATGACCGTGCGGAGGTTATTCTGCATGAGCACCGAAAAATCTTTGAAGAAATAAAAAAGGGCGACAAAACAAAAGCCGTGCAATATATGACGGAGCATCTCAAGCATGATGAAGAACATCTGAAAGGCGTGCTGAGAGCGGAAGAAACAGACGAATCATCACGATAG	MDNFKLDKPIPYYLQFYSQLKKMIFDGIFKPGERLNETQLAKDFGVSRSPVREAMRLLEKDGLLTADDRNGFVIYSLSVKDVEEIYKIRMSLESLAVELVIDEAAESEIDLIEKQLRKTEEAINKGVKETEIISLNETFHQLLVDFSHNSRLAMLLEHVNVLIHFCRVLNFKGDDRAEVILHEHRKIFEEIKKGDKTKAVQYMTEHLKHDEEHLKGVLRAEETDESSR				NA	NA	NA	NA	NA
D1-12_03590	1194	tylCV		Demethyllactenocin mycarosyltransferase	ATGGCGAAACATATTCTGATGATCAATTTTCCTGCAGAAGGACACGTAAACCCGACATTGGGTATGACAAAGGCCTTCAGCGAACGGGGCGATCACGTTCATTATATCTCAACGGAAAAATACAAAAGCAGACTGGAAGGAGTAGGGGCGAAAGTTCATCTTCACAGCGATCTGCTCAGAATGACACCCATTGATCCCGGCAGTCCGTCCGGCATACTTGCATTTTTAAAGGTTCATATCAAAACGTCACTGGAGATTTTACATATTGTGCAGCGGCTGGCAGAGGACATTCAATTCGACGCCGTCTATTATGATAAATTCGGTGCGGGAGAGCTGGTGCGGGATTATCTCAACATTCCCGGCATCTCTTCTTCAGCGTCCTTCCTGTTCAATGAAGACCGTCTGAAAATACTGCCGCTCCACCCGGAATCGGCCGTGCCGTTTCAGCCGGACAGGGAATGTGAAGAGCTGTTGGCCGAGATGAAAGACAAATACGGTGTCGCCCCTGACAGCATGGTTCAATTTATGAACAACACAGGTGAATTGAACGTCGTCTATACAAGCAGATATTTTCAGCCCGAAAGTGAGACATTCGGAGATGAGTATTTATTTATCGGTCCGAGTTTTCCGAAGAGAAAAGGGCGCGTCGACTTCCCGATTGACGCATTAAAGAATGAAAAAGTCATTTATATCTCAATGGGAACGGTGCTCGGGGACACGGAAGCGTTTTTCAATCTGTGCATAGACGCGTTCTCAGATTTTGAAGGAAAAGTAGTCATTGCCGCCGGGGAAAAAGCCGATCTGTCAAAAATCAAACAGGCGCCGGAAAACTTTATCATCGCACCGTACGTGCCGCAGCTTGAAGTGCTGGAGCAGGCCGACGTGTTTGTCACGCATGGCGGAATGAACAGTGTAAATGAAGGCATTCATTATCAAGTGCCGCTGGTCGTCATCCCGCACGATAAAGACCAGCCGATGGTTGCGCGCCGCCTGACTGAATTGGATGCAGGCTATACCGTGCAAAAAGATGAAGTAAGCGCTGAAAAGGTAAAGCTTGCCGCGGAAGAAGTGCTGCATAACGGAAAATACAAACAAGGCATTCAAGCCATTAATGAAAGCTTTAAAGAATGTACGAACATGAAGGATGTTCTCGCCCGGATCGACCGGTTTATTGAACAAAAACATGCTCAATAA	MAKHILMINFPAEGHVNPTLGMTKAFSERGDHVHYISTEKYKSRLEGVGAKVHLHSDLLRMTPIDPGSPSGILAFLKVHIKTSLEILHIVQRLAEDIQFDAVYYDKFGAGELVRDYLNIPGISSSASFLFNEDRLKILPLHPESAVPFQPDRECEELLAEMKDKYGVAPDSMVQFMNNTGELNVVYTSRYFQPESETFGDEYLFIGPSFPKRKGRVDFPIDALKNEKVIYISMGTVLGDTEAFFNLCIDAFSDFEGKVVIAAGEKADLSKIKQAPENFIIAPYVPQLEVLEQADVFVTHGGMNSVNEGIHYQVPLVVIPHDKDQPMVARRLTELDAGYTVQKDEVSAEKVKLAAEEVLHNGKYKQGIQAINESFKECTNMKDVLARIDRFIEQKHAQ				NA	NA	NA	NA	NA
D1-12_03591	255			hypothetical protein	ATGTCAGCAGCAGGAAATCGGCAAAAATTTTGGGTCATGGCGATGCTTATAGCGGTCTTTGCCGTGTTCGTTTTCTCTTTTTCTGAGAATCATTCACAAAAGGACTGGCACACGGCGGTTGACCAGGCGTCTGTGAATGTCTTCGGCCAGCAGATCTTTGAAAAAAACCGTCTGGCAAAAACACTCGACGCACGTGAGGCAGAATCTCTTCTGACTCTTGTGAAACTTGCAAATGAAGAACATCACATCATCTAA	MSAAGNRQKFWVMAMLIAVFAVFVFSFSENHSQKDWHTAVDQASVNVFGQQIFEKNRLAKTLDAREAESLLTLVKLANEEHHII				NA	NA	NA	NA	NA
D1-12_03592	270			hypothetical protein	ATGCATATTCATATGATCAACAAAAACCAGTTTGAGAGTGACTTGGAGGCGGCCGGCTTCAGCCGTCAGGCAGATGATATTATCGGCAAAATGAAAGAGTACGTAACGGAATACGCGGCTTCATCCGAACGGTTCCTGATTGAAATTCAAACCGTCATGAACGAATACAAAGCCGTCGTCTGCGCGATGTTTTCGACCATGGAAATTGCCGGTGCAAATAAAGACGAGAAGCATGTTGAATTTGAAGCCTGCACAGTATTGTGTGAATAA	MHIHMINKNQFESDLEAAGFSRQADDIIGKMKEYVTEYAASSERFLIEIQTVMNEYKAVVCAMFSTMEIAGANKDEKHVEFEACTVLCE				NA	NA	NA	NA	NA
D1-12_03593	1359	pbpE	COG1680	Penicillin-binding protein 4*	ATGAACGATAAGAAAAAACAAGCTTTTGAACAGCTTTTCAGCACTTTAGACGAAAGAGATGAAATAAACGGCGCTGTATTGGCAGCGGAAAACGGCCGCATCTTATATCAGGGTTCATTCGGCGCTGCGGAACTGAAAACAAAGAGGATGCTGAATGACCAATCGGTCTTTGAATTGGCCTCAGTATCGAAGCCGTTTACAGCTTTAGGCGTTATCATTTTAGAGCAGCAAGGGAAGCTGCGTTATGACGATATGATAGAGCGGTGGCTTCCTGATTTTCCTTATCCGGGCATTACCATTCGGCATTTACTCCATCATACGTCAGGCTTGCCGGACTATATGGAGTTATTTTTAACACATTGGGACCGGGACAGAATTGCCGTTAATCAAGATGTGATCGATATGCTTAAGCAGCATAAACCGGATGCTTATTTCCCGCCGGGCAAGGAGTGGCTTTACAGTAATACGGGGTATGCGGTGTTAGCGGTTATTATAGAAATTGTATCGGGCATGAGTTTTGCTGAATTTATGAAACAAGCCGTATTTCATCCGCTTCGTATGCACGATACGCGGATTTATAACAGAAGGCTGAGTAAAGAAAACATTCCGAACTATGCATATGGCTATGTGTATGATGTTCATTCCAGAGAATATGTGCTGCCGGATGAACTTGAGGAAACCGATTATGTCGTCTTTCTTGACGGGATTCAAGGTGACGGAACCGTTAACTCCACTATTAGAGATTTATATCTGTTTGATCAGGCTCTTTATACGGAAGAAATCATCGGCAAAGAGTCTAAAGATCAAGCGTTTACGCCGGGCTATTGGAATGAAGAAGAGCAATTCGGATACGGATTTGGCTGGATGATTCAAAACAGCCGCCAAAAAGGGAAGGTTATCAGTCACGACGGAGGCTGGCCGGGCTATTCAACTCTGATGATCCGGTATATTGACCAGAACAAAACACTGATTTATCTCAGCAATATGGAACAATCGTATCAATTTGAACAAGCTGTGATTGCCGCGGCCGTAAACATCTTATTTGATCAGCCATACGTGATTCCGAAACGTCCGGCGGATCAGAAAAAAGCAGATATCGATCCTGCGATTTACAGCAGATTTACCGGCAATTACTCATTTCAGGATGACACACATGCATCGGTGACGGTAAAAGAAAACCGATTGTATCTTACAATAGACGGGCAGACACCATTCGAATTATTCCCAATGACGGAAACCCGTTATTTTGTCAGGGCGCTGCCGCTTGAAATTGAATTTGCAGGTGATAAAGCACAAACAGCCCCGCATTTCGTTTTATATCAGGACGGCACAGAAGAAACGGCTTTGCGGATAGACTGA	MNDKKKQAFEQLFSTLDERDEINGAVLAAENGRILYQGSFGAAELKTKRMLNDQSVFELASVSKPFTALGVIILEQQGKLRYDDMIERWLPDFPYPGITIRHLLHHTSGLPDYMELFLTHWDRDRIAVNQDVIDMLKQHKPDAYFPPGKEWLYSNTGYAVLAVIIEIVSGMSFAEFMKQAVFHPLRMHDTRIYNRRLSKENIPNYAYGYVYDVHSREYVLPDELEETDYVVFLDGIQGDGTVNSTIRDLYLFDQALYTEEIIGKESKDQAFTPGYWNEEEQFGYGFGWMIQNSRQKGKVISHDGGWPGYSTLMIRYIDQNKTLIYLSNMEQSYQFEQAVIAAAVNILFDQPYVIPKRPADQKKADIDPAIYSRFTGNYSFQDDTHASVTVKENRLYLTIDGQTPFELFPMTETRYFVRALPLEIEFAGDKAQTAPHFVLYQDGTEETALRID				NA	NA	NA	NA	NA
D1-12_03594	174			hypothetical protein	ATGAAAACGAAGGTTTTTGCGGTGGTATTGGGCGCTGTTTTAATGATTGCGGGGTTGGTTTTGGCAGAAGTTTCGCTTTATATGGAATACATCACAATGGTCGGAGCTATGATTTTTTCTTCTATATTTATGTCAGAGCCGAAAAGAAAATTTCGCGTCATCAAAGGGGTTTGA	MKTKVFAVVLGAVLMIAGLVLAEVSLYMEYITMVGAMIFSSIFMSEPKRKFRVIKGV				NA	NA	NA	NA	NA
D1-12_03595	567	ydhK		putative protein YdhK	ATGAAAGCGAGACTATTTTTATTCAGCATGTTTCTCCTGATCCCCGTTCTGGCGCTTGCCGGATGCAACAGCCAATCTTCAGGAGGAAGCGAAAAAGCGAAAGACAAAGAAACGCACTCTCACGAAGACATGAATCACTCAGGTTCATCCGAGGTGCCGAAAGGTTTAAAGAAGGCCGAAAATCCGACTTATAAAGTCGGCAGTGACGTCATGATTTTAGCTTCTCATATGAAAGGCATGAAAAATGCGCAAGGAACCGTAAAAGGTGCTTATGATACAACGGTTTACAGTGTATCTTACACTCCGGAAACGGGAGGAAAGCGCGTCGAAGATCACAAATGGGTCATTCAGGAAGAGCTGAAGGGCGCCGGTGATCAAACGTTAAAACCGGGTGACAAGGCCGTGATCGAGGCATCCCATATGAAAGGCATGAAGGGTGCCGAAGCCGTTATTGATTCAGCCAAAAAGACAACCGTTTATATGGTCGACTATACACCGACTGACGGCGGCCAAAAAGTAACCAATCATAAATGGGTGACAGAAGACGAGCTTGCTGCCGCAAAATAA	MKARLFLFSMFLLIPVLALAGCNSQSSGGSEKAKDKETHSHEDMNHSGSSEVPKGLKKAENPTYKVGSDVMILASHMKGMKNAQGTVKGAYDTTVYSVSYTPETGGKRVEDHKWVIQEELKGAGDQTLKPGDKAVIEASHMKGMKGAEAVIDSAKKTTVYMVDYTPTDGGQKVTNHKWVTEDELAAAK	PGPT0015018_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015018-ydhK-NA	NA	NA
D1-12_03596	1161	pbuE_3	COG2814	Purine efflux pump PbuE	ATGAATTTCAAAGTATTTCTGCTTGCAGCATCTACCATCGCAGTCGGTTTGGTTGAATTAATTGTGGGCGGTATTCTTCCGCAAATCGCTTCCGACTTAGATATATCCATCGTCAGCGCGGGGCAGCTGATCAGCGTGTTTGCGCTCGGTTATGCGGTATCCGGCCCGCTGCTTTTGGCAGTGACGGCAAAGGCTGAACGAAAGCGGCTTTATTTAATCGCACTGTTTATTTTCTTCCTAAGTAATCTGGTCGCTTATTTCAGTCCCAATTTCGCCGTTCTTATGGTGTCACGGGTGCTCGCTTCCATGAGCACAGGGCTGATTGTCGTCCTTTCTTTAACGATTGCTCCTAAAATCGTGGCGCCTGAATTCAGAGCGCGGGCGATCGGCATCATTTTCATGGGGTTCAGCTCCGCAATCGCTTTAGGCGTGCCTGTCGGCATTATCATCAGCAATGCCTTCGGATGGCGTGTTCTGTTCTTGGGAATCGGTGTATTATCTCTCATTTCCATGCTGATTATCAGCGTCTTTTTCGAAAAAATACCTGCTGAAAAAATGATTCCGTTTCGTGAGCAGATCAAGACGATCGGGACCGCCAAAATTGCCAGCGCACATCTTGTCACCTTGTTTACATTGGCGGGGCATTACACACTCTATGCCTACTTTGCGCCTTTTTTGGAAAGAACGCTTCATTTGAGTTCCGTTTGGGTCAGTGTATGCTACTTTTTGTTCGGTCTGTCAGCGGTATGCGGCGGCCCGTTCGGAGGCTGGCTGTATGACCGTTTAGGAGCATTTAAAAGCATCATGCTTGTGACCGTTTCTTTCGCTCTGATCCTGTTTATTCTTCCGCTGACAACGGTTTCTTTAATCATTTTCCTGCCTGCGATGGTGATCTGGGGATTGCTCAGCTGGAGCCTTGCGCCGGCGCAGCAAAGCTATTTAATCAAAATTGCGCCTGAGTCTTCCGATATTCAGCAAAGCTTCAACACGTCCGCTTTGCAGATCGGCATCGCGCTCGGGTCAGCCATCGGCGGCGGCGTGATCGGACAAACCGGTTCTGTCACAGCAACAGCCTGGTGCGGCGGTTTGATTGTCATTATCGCTGTCGCTTTAGCTGTATTCTCTTTAACGAGACCTGCTTTGAAAAGAAAATCCGCATAA	MNFKVFLLAASTIAVGLVELIVGGILPQIASDLDISIVSAGQLISVFALGYAVSGPLLLAVTAKAERKRLYLIALFIFFLSNLVAYFSPNFAVLMVSRVLASMSTGLIVVLSLTIAPKIVAPEFRARAIGIIFMGFSSAIALGVPVGIIISNAFGWRVLFLGIGVLSLISMLIISVFFEKIPAEKMIPFREQIKTIGTAKIASAHLVTLFTLAGHYTLYAYFAPFLERTLHLSSVWVSVCYFLFGLSAVCGGPFGGWLYDRLGAFKSIMLVTVSFALILFILPLTTVSLIIFLPAMVIWGLLSWSLAPAQQSYLIKIAPESSDIQQSFNTSALQIGIALGSAIGGGVIGQTGSVTATAWCGGLIVIIAVALAVFSLTRPALKRKSA	PGPT0021080_310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021080-pbuE-K18567	NA	NA
D1-12_03598	717	gmuR	COG2188	HTH-type transcriptional regulator GmuR	ATGAATAAGTACGAAAAAATCGCCAACGAAATGAGAAAGAGGATTAAAAGCAGTGTATATGACATAGATCAGCCGATCCCGGATGAAAAGACGCTCGCTGCGGAGTTCGGGTGCAGCCGGATGACGATGAAGCGGGCGCTTGATACACTTGCGGCTGAAGGGATGCTTTTCAGAAAAAGAGGGCACGGCACGTTTATCATTCAATCAGCCATGCAGGATGAGCACGTTCACGTAGTCAGCAACGAAATTCTCGGCTTGAGCAATTTGTTAAAAGGCAAAGATATCAAGAGCAAGGTCATCCGGTTTGAAGTGCAGTTTCCGTCTCAAGATGTCGCCGCACATTTGGCCATCGATGAAAAGACTCCCGTCTATTATGTAGTGAGGCTCAGAATCGTTGAAGGCGAACCGTACGTTCTTGAAAAAACGTACATGCCGGCGAGCCTTATACCCGGCATTAATGACGAGGTGCTCAACCATTCCATCTACGATCATATTACGCGGGAACTCCAGCTCAAAATCGCAGGCTCACACAGAAAAATCAGAGCGTGCAAGTCGGATGATATGGATCAGCAATATCTCGGCTGCCGGCCGGATGACCCGATACTTGAAGTCGAGCATGTAGGCTTTTTGGACAACGGCACTCCCTTTGAATATTCATTTTCCCGCCACCGTCATGACAAGTTTGTCGTGACCTCAGTCAATATAAAACGTTCATAA	MNKYEKIANEMRKRIKSSVYDIDQPIPDEKTLAAEFGCSRMTMKRALDTLAAEGMLFRKRGHGTFIIQSAMQDEHVHVVSNEILGLSNLLKGKDIKSKVIRFEVQFPSQDVAAHLAIDEKTPVYYVVRLRIVEGEPYVLEKTYMPASLIPGINDEVLNHSIYDHITRELQLKIAGSHRKIRACKSDDMDQQYLGCRPDDPILEVEHVGFLDNGTPFEYSFSRHRHDKFVVTSVNIKRS				NA	NA	NA	NA	NA
D1-12_03599	687	pdhR	COG2186	Pyruvate dehydrogenase complex repressor	ATGGAGATATCCAAAACAAGCAGACTGTCGCTCGTAGAACAAGTGGTGGCGCAAATTGAATCGCTAATTCAATCGGATAAATGGCCGGTCGGGACGCGCATTCCCCCTGAGCTGGATTTAATGAAGCAATTTGATGTGAGCCGAAACACATTGCGTGAGGCCATTCGGGCGCTCGTACATGCCGGCCTGCTTCAGACAAGGCAGGGAAGCGGTACGTATGTCAGCTCATCCAGTGTTCTCGGCGCGGCATTTTACCGCCATATTAAAAAATCAAATTTGCTTGAAACATTAGAAGTCAGGTACGCACTCGAAAGAGAAGCTGCACGATTGGCGGCGGAAAGGCGTAATGACGAAGACCTGAAAGCACTGAAGGCATGCTTGGATGAATGTGAAGCGGCCTTGCAAAATGAAGATCGAAAACGGTATGCCGAAGCCGACATTAAGCTGCACAAAACCATTGTACAGGCGGCCCATAACAACATGCTTTCTGATCTATACGAGCATATGACGGAGGCGCTTTGTGCGTCAGTCCATAACCTGTTGGAAATCACCCCTGCTATCCGGATCCACACCCAGCTTGCCGCCGCGATTATCGGACAGAAACCGGATCAGGCCATGGAGGCCGTCAACCAATACATCAGAGTATTTAAAGATACAATACACATGGAGGATGAACATGAAAATTAA	MEISKTSRLSLVEQVVAQIESLIQSDKWPVGTRIPPELDLMKQFDVSRNTLREAIRALVHAGLLQTRQGSGTYVSSSSVLGAAFYRHIKKSNLLETLEVRYALEREAARLAAERRNDEDLKALKACLDECEAALQNEDRKRYAEADIKLHKTIVQAAHNNMLSDLYEHMTEALCASVHNLLEITPAIRIHTQLAAAIIGQKPDQAMEAVNQYIRVFKDTIHMEDEHEN				NA	NA	NA	NA	NA
D1-12_03600	1215	yycB	COG2807	putative transporter YycB	ATGAAAATTAAAGACGAACATCAAATTCTGCAAGCAAGTCAGCGTAAAAAACTGATATTGCTGGTCATCGGAGTCATATTGATAGGGGCCAACCTCAGAGCGCCTCTGACATCGGTCGGGCCGCTCGTTTCCTCAATTCGGGACAGCCTCGGCATGACCAATGCGGCTGCCGGCACCATTACGACAGTGCCGCTTTTGGCCTTTGCATGTCTGTCACCGTTTGTACCTTTATTGTCCCGGCGCTTCGGGACCGAGATTGTCTTACTGTCATCATTAATTGTCCTGACAGCCGGAACTCTGCTGCGCTCCATCGCCGGAATCGGCACTCTCTTTTTCGGAACGATCCTGTTGGGATTGTCGATCGCCGTATGCAACGTCCTGCTGCCGAGTCTCATTAAACATAAGTTTCCCGGAAATTTAGGCATCATGACCGGCGTCTACTCGGTTTCTATGAATCTGTGCGGCGCGATTGCATCCGGCATCAGCGTGCCGATCGCCTCTTCAGCGGGGTTAGGCTGGAAAGGCGCGCTCGGCTGCTGGGCTATCCTTTCTTTCATTGCGTTCGTCATGTGGATTCCGCAAATGCGAGGACGCGAACTGCCCGTCCGCACGACTGGGACAAACGGAGAGAAGAAAAGCAGTCTGCTGCGGTCTCCGCTGGCTTGGAAGGTGACGATGTTCATGGGGCTGCAATCCCTTATTTTTTACACCGTCATCGCTTGGCTGCCGGAAATTCTTCAGCAGAATGGACTCAGCTCAAGTAAGGCGGGATGGATGCTTTCATTAATGCAATTCTCAGTCCTGCCGATTACTTTTATCGTGCCGATCGCTGCCGCTAAAATGAAAAATCAGCGCGCACTCGCCGGACTGACGGCTTTATTTTTCCTTATCGGCATTGCCGGCGTTCTTTTCGGAAGCCCGGCTCTCACTCCGCTATGGGTCATTTTGATCGGAATTGCGGGAGGCTGTGCGTTCAGCTTGGCGATGATGTTCTTCAGCCTGCGGACCCAGCATGTTCATGAAGCCGCGGCGCTTTCCGGCATGGCCCAGTCATTCGGATACCTGCTTGCCGCGTTCGGCCCGCTCGTATTCGGTTTGCTGCATGACATCACGCGCGGCTGGACGGTTCCGTTATTCATGCTGATCGCAGTCTCCGTTCTGATTTTCATTTTCGGAGTCGGAGCGGGAAAAGCGGAACAGATCAAAACAGCATAA	MKIKDEHQILQASQRKKLILLVIGVILIGANLRAPLTSVGPLVSSIRDSLGMTNAAAGTITTVPLLAFACLSPFVPLLSRRFGTEIVLLSSLIVLTAGTLLRSIAGIGTLFFGTILLGLSIAVCNVLLPSLIKHKFPGNLGIMTGVYSVSMNLCGAIASGISVPIASSAGLGWKGALGCWAILSFIAFVMWIPQMRGRELPVRTTGTNGEKKSSLLRSPLAWKVTMFMGLQSLIFYTVIAWLPEILQQNGLSSSKAGWMLSLMQFSVLPITFIVPIAAAKMKNQRALAGLTALFFLIGIAGVLFGSPALTPLWVILIGIAGGCAFSLAMMFFSLRTQHVHEAAALSGMAQSFGYLLAAFGPLVFGLLHDITRGWTVPLFMLIAVSVLIFIFGVGAGKAEQIKTA	PGPT0005211_1259	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-12_03601	315	gdx_1		Guanidinium exporter	ATGGCATGGCTGCTGTTATTTATTGCCGGAGCGGAGGAAGTTGTAGCGGCCGTTGCCATGAAACATATTGACGGTTTTAAAAAAAAGTGGCCGCTGATTGTCATGGTAACAGGCTTTATGCTTTCATTCTTTTGCCTTTCCGGAGCGATGCAGGTTCTTCCCACAGGTGTCGCGTATGCGGCTTGGACCGGCATGGGAAGCATCGGCGTTTCGGCCGTGGGCATACTTTGGTTTAAAGAAAAATTCAATCTGTCACAATTGGTGTCTCTGGGGCTTATCCTCATCGGTGTCATCGGCTTAAAACTGACAGCGTGA	MAWLLLFIAGAEEVVAAVAMKHIDGFKKKWPLIVMVTGFMLSFFCLSGAMQVLPTGVAYAAWTGMGSIGVSAVGILWFKEKFNLSQLVSLGLILIGVIGLKLTA	PGPT0028785_2447	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
D1-12_03602	330	gdx_2		Guanidinium exporter	ATGTATTGGCTGCTTGTATTGATAGCCGGACTGTTAGAAGTCGTTTGGGCGTCCGCCCTGAAGCATGCGGATTCGCTCTTTGATTGGATCGGTATTTTCCTTCTGATTGCCGTCAGCTTTCTGATGCTGATCCGCTCTTATAAAAAAATTCCGATGGCTGCCGCATATACCGTTTTTGTCGGAATAGGCACCGTCGGCACATATGTAACGGGCGTCATTTTAGGCGAATCGTTTTCAATCGGGCAAATATTCTTTTTGGCTTTGCTGTTGTCCGGCATTTTAGGAATGAAGGTATTTACGAAAGAAACTGAAACAAGGGGTGAACATTAA	MYWLLVLIAGLLEVVWASALKHADSLFDWIGIFLLIAVSFLMLIRSYKKIPMAAAYTVFVGIGTVGTYVTGVILGESFSIGQIFFLALLLSGILGMKVFTKETETRGEH	PGPT0029165_365	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029165-ykkC-K18924	NA	NA
D1-12_03603	582	yvdT		putative HTH-type transcriptional regulator YvdT	TTGGCAAAACAAAGCTCGGGAAAATACGAAAAGATCCTGCAAGCCGCGATTGAAGTCATTTCTGAAAAAGGATTAGACAAAGCATCCATTTCAGAAATCGTCAAAAAAGCCGGCACGGCCCAAGGTACGTTTTACTTATATTTTTCTTCTAAAAACGCACTGATATCCGCGATTGCAGAAAACCTGCTCGACACTACGCTGGACAGAATAAAAGGGAAAACGGACGGTTCTGAAGATTTTTGGACGTTGCTGGACATTTTGGTAGATGAGACATTTCACATCACCCGGCTTCATAAAGATATTATCGTTCTCTGTTATTCCGGTCTTGCCATCGATCATTCAATGGAGAAATGGGAAGCCATTTATCAGCCTTATTATTCCTGGCTGGAAGGCGTGATCAATACGGCCATTGAACAGGGTGAGGTCCACAGCGGCATTCATGTCAGATGGACGGCCAGAACGATTATCAACGTTGTCGAGAACGCGGCTGAACGGTTTTATATCGGCTGTGAACAGGATGTCGATCTCGAAGTATATAAAAAAGAAATATTCAGCTTTCTCAAAAGAAGCTTGCAGAAATGA	MAKQSSGKYEKILQAAIEVISEKGLDKASISEIVKKAGTAQGTFYLYFSSKNALISAIAENLLDTTLDRIKGKTDGSEDFWTLLDILVDETFHITRLHKDIIVLCYSGLAIDHSMEKWEAIYQPYYSWLEGVINTAIEQGEVHSGIHVRWTARTIINVVENAAERFYIGCEQDVDLEVYKKEIFSFLKRSLQK				NA	NA	NA	NA	NA
D1-12_03604	1563	yveA_2	COG0531	Aspartate-proton symporter	ATGTCTAAGCAAGGAAACTTCCAGAAAACTATGTCACTTTTTGATCTTATTTTAATCGGCATGGGAGCCATATTCGGTTCGGCATGGCTGTTTGCCGTCAGTAACGTCGCCTCTAAAGCGGGCCCATCAGGCATTTTTTCCTGGCTGATCGGCGGGGGAATCATCTTATTGATCGGCTTGGTTTATGCGGAACTGGGCGCCGCGCTGCCGCGGACCGGGGGAATTATCCGGTACCCCGTATATTCACACGGACACCTGGTCGGATATTTAATTTCCTTTGTCACCATTGTGGCATACACGAGTCTTATTTCTATAGAAGTCACGGCAGTCCGCCAATACGTGGCGTATTGGTTTCCCGGTTTGACCGTAAAAGGCTCCGATTCTCCGACAATTGCCGGGTGGATATTGCAATTTGCGCTGCTCTGCCTGTTCTTCCTCCTCAATTACTGGAGTGTCAAAACCTTTGCGAAAGCAAACTTCATTATTTCGATTTTTAAATATGTCGTACCGATTACGGTAATTGTGGTACTGATTTTTCATTTTCACCCGGGCAATATGACCGTTCACGGATTCGCGCCTTTTGGCTTCACCGGAATTCAGGCCGCGATTTCCACAGGCGGCGTCATGTTTGCATACCTTGGGCTGCATCCGATTGTGGCTGTCGCGAGTGAAGTGCAGAATCCGAAGCGGAACATTCCGATCGCATTGATTGTCTGTATTATCGTGTCTACTATTATTTACACCGTGCTGCAGCTCACTTTTATCGGGGCGATCCCGGCGGATACCCTGAAGCACGGATGGCCGGCTATCGGGACTGAATTCTCCCTTCCGTTCAAAGATATCGCCGTTTTGCTCGGTTTGGGGTGGCTGGCGACATTGGTCATTTTAGATGCGATTTTATCACCGGGCGGTAACGGAAATATCTTTATGAATACGACTTCACGTCTCGTCTATGCCTGGGCCAGAAACGGAACATTATTCAGCATTTTTTCTAAAGTCAATAAAGAAACCGGGACACCGCGTGCCTCCCTTTGGCTTTCGTTCGGTCTGGCTGTTTTTTGGACGCTTCCGTTCCCTTCTTGGAACGCTCTTGTCAACGTTTGCTCCGTCGCATTGATTCTGTCTTATGCGATTGCGCCGATTTCTTCTGCAGCGCTGAGAGTCAACGCGAAGAATATTAACAGACCGTTTTATTTAAAAGGGATGAGCATCATCGGACCGCTGTCGTTTATTTTTACCTCTTATATTGTATATTGGTCCGGATGGCGCACCGTATCCTGGCTTCTCGGTTCTCAAATTGTCATGTTTCTGATCTATCTCTGTTTCAGTAAATATGCTCCCAAAGATGATGTCAGCATACGGCAGCAGCTGAAATCAGCATGGTGGATCGTCGGCTTTTATGTCATGATGCTGATTTTCTCCTATCTCGGCTCGTTCGGCCACGGATTGGGCATTATCAGCAATCCGCTTGACCTGATTCTGATCGCCATCGGTTCGCTCGGTATTTATTACTGGGCAAAATATACGGGACTGCCGAAGGCTATGATCGACAGTGATAAATGA	MSKQGNFQKTMSLFDLILIGMGAIFGSAWLFAVSNVASKAGPSGIFSWLIGGGIILLIGLVYAELGAALPRTGGIIRYPVYSHGHLVGYLISFVTIVAYTSLISIEVTAVRQYVAYWFPGLTVKGSDSPTIAGWILQFALLCLFFLLNYWSVKTFAKANFIISIFKYVVPITVIVVLIFHFHPGNMTVHGFAPFGFTGIQAAISTGGVMFAYLGLHPIVAVASEVQNPKRNIPIALIVCIIVSTIIYTVLQLTFIGAIPADTLKHGWPAIGTEFSLPFKDIAVLLGLGWLATLVILDAILSPGGNGNIFMNTTSRLVYAWARNGTLFSIFSKVNKETGTPRASLWLSFGLAVFWTLPFPSWNALVNVCSVALILSYAIAPISSAALRVNAKNINRPFYLKGMSIIGPLSFIFTSYIVYWSGWRTVSWLLGSQIVMFLIYLCFSKYAPKDDVSIRQQLKSAWWIVGFYVMMLIFSYLGSFGHGLGIISNPLDLILIAIGSLGIYYWAKYTGLPKAMIDSDK	PGPT0000711_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0000711-yveA-NA	NA	NA
D1-12_03605	855			hypothetical protein	ATGTATTATTACAAAGAAGAGCTGATCAATATCATTAAACCGGACAAGCCGGACCCGGCCGCGGCCAAGGTGCTTCAGGAAATTTTAGGCGGGCACTACGGAGAAATGCGGACGATGATGCAATACTTTTTCCAAAGCTCTAATTTCAGAGGAAAAGAAAAACAGTTCCGCGATCTGCTTCGCGGTGTATTTTTAGAAGAGATCGCACACGTTGAACTCGTCCAAAGTACGATCAATGCGCTGCTAGATGAAAGCGGCGGTGAGGGCGCCGGAAATCAGGCAGCAGATCAGGCGCCGCTTGATGAAGCGGTGAAACACGCCAATCCGCACCATTTTATCATCGGGGCGCAAAGTTCTCTTCCTGTAGACGCCGGCGGCAATCCATGGAACGGGTCTTGGGTATACAACCACGGGAATCTGATTTCCGATTTATTGGACAATGTCGTGCTGGAATCAACCGGCGTGCTGCAAAAGACACGCATTTATGAAATGAGTTCAAATCAGACGTTCAGAGAAACACTCGGATTTCTGATCGTCCGTGACAACGCCCATCAAAATGCATTTACAAAAGCGTTGGAAACACTGGGTGTCGAATGGGGCAAATTATTTCCCGTGCCGAATTATGATATTGAAAAATACCCGGAATGCCGGAAATTCGTTGAGATGGGTTATCATAATACCCAATTTAATTTCAGACTGGATCCGACACGGATCGGAGAAATTCTGCAGGGAACGACGCCGAGCCGAAACGGCGGCGAATTAAGTGTGTCCGAGCCTCCTAAAGGTTTCCCCGTGCCGGAACTTCCCGAGCTTCCGAATGAGCACAGCCCCGGACTGAAAGATATGAACTTGTAA	MYYYKEELINIIKPDKPDPAAAKVLQEILGGHYGEMRTMMQYFFQSSNFRGKEKQFRDLLRGVFLEEIAHVELVQSTINALLDESGGEGAGNQAADQAPLDEAVKHANPHHFIIGAQSSLPVDAGGNPWNGSWVYNHGNLISDLLDNVVLESTGVLQKTRIYEMSSNQTFRETLGFLIVRDNAHQNAFTKALETLGVEWGKLFPVPNYDIEKYPECRKFVEMGYHNTQFNFRLDPTRIGEILQGTTPSRNGGELSVSEPPKGFPVPELPELPNEHSPGLKDMNL	PGPT0013240_740	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
D1-12_03606	465	yndB	COG3832	putative protein YndB	ATGTCTGATAAACAAAACAAAGATAACAACAACAACAGCGGCAATCAGCCATTACCGGACATTATTCATACCGCCGTTTTCAAGGCGCCGATACAAGTTGTCTGGGATACGGTCTCCACTGCGGACGGCCTGTCTCTCTGGTTTATGCCGAATGATTTCACACCTCAAGAAGACAGTGAGTTTCAGCTGGAATCTCCGTTCGGTCCGTCTCCTTGCAAGCTGCTGGATATTGAAGCGCCGTACCGCCTTTCTTTTTCGTGGGATACGGAAGGCTGGATCGTTTCTTTTGTCTTAAAGGAAACGGAAAGCGGAGATACGGAATTCACTCTCATTCACGGCGGATGGAAAGAGCCGGAAGCCGTCATCAATAAAGTCAATCGGAAAAGCTCCGAGATTCACAGTACGATGGATCAAGGATGGAACGGGCTTGTCAACACGAAACTTCGCGGGGCGGTTGAGGCTTAA	MSDKQNKDNNNNSGNQPLPDIIHTAVFKAPIQVVWDTVSTADGLSLWFMPNDFTPQEDSEFQLESPFGPSPCKLLDIEAPYRLSFSWDTEGWIVSFVLKETESGDTEFTLIHGGWKEPEAVINKVNRKSSEIHSTMDQGWNGLVNTKLRGAVEA				NA	NA	NA	NA	NA
D1-12_03607	1002	yhfP	COG0604	Putative quinone oxidoreductase YhfP	ATGACAGATCAATTTAAAGCGTTAGTAGTCGATCAACGTGAAGACCGGTTTTCAGTCAGCGTACGGGAGCTGGCGGTTCAGGACCTTCCCGAGGGTGAAGTGCTGATTAAGGTTTGCTACTCAGGGGTGAATTATAAAGACAGCTTGGCTGCCATTCCTGACGGCAAGATTGTAACGTCGTATCCTTTCGTGCCGGGAATTGATTTAGCGGGAATCGTCGTTTCCTCAGATGACGCCCGTTTCAAAGAGGGGGACAAAGTCATTGCGACAAGCTACGGCATAGGTGTTTCCCGCTTTGGCGGTTATAGCGGGATGGCCCGCATTCCGGCAGATTGGATCGTGCCGCTGCCTGAAGGTCTGACACTTAAAGAAGCCATGACGATCGGAACCGCCGGCTTCACTGCCGCATTGTCCGTCCAGCGTCTTGAAGAAAACCATGCCGCTCCTGAAAAAGGGAAGGTGCTGGTGACGGGAGCGACAGGCGGCGTCGGAAGCTTTGCCGTCTCCATTCTTTCAACCTTAGGTTACGAGGTCGAGGCCAGTACGGGAAAAGAGGAAGAAAGCGGCTATTTGAAGAGCCTCGGAGCGAAGACGGTCATTCACCGTGATGAAGTGTATAACGGCACGTTAAAACCGATGCAAAAACAAAAATGGGCAGCGGCCGTCGATCCGGTCGGAGGTGAGCCGCTTGCTTCAGTTCTCAGCCAGATTCAGTACGGCGGATCAGTTGCTGTGAGCGGACTGACAGCGGGAACGAAACTCCCTGCTACAGTCTTCCCGTTTATATTGCGCGGCGTCAGTCTCTTGGGAATCGATTCCGTATTCTGTCCGATGGAGACAAGAAAGAAAACATGGCAGCGTTTAGCTGATGACTTCAAGCCTGCAGATCTGGAGGCCTTTATTCAAAAGGAAATTACACTTGAAGAGCTGCCGGATACGCTTCCTGCCCTTTTAAAAGGAGAAGCGAGAGGGAGAACGATCGTTACGATAAACGAAGAATAA	MTDQFKALVVDQREDRFSVSVRELAVQDLPEGEVLIKVCYSGVNYKDSLAAIPDGKIVTSYPFVPGIDLAGIVVSSDDARFKEGDKVIATSYGIGVSRFGGYSGMARIPADWIVPLPEGLTLKEAMTIGTAGFTAALSVQRLEENHAAPEKGKVLVTGATGGVGSFAVSILSTLGYEVEASTGKEEESGYLKSLGAKTVIHRDEVYNGTLKPMQKQKWAAAVDPVGGEPLASVLSQIQYGGSVAVSGLTAGTKLPATVFPFILRGVSLLGIDSVFCPMETRKKTWQRLADDFKPADLEAFIQKEITLEELPDTLPALLKGEARGRTIVTINEE	PGPT0002275_326	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
D1-12_03608	1419	iolT		Major myo-inositol transporter IolT	ATGAATAAAAATAGCAGCCAGCATTCATTTTTAAGAACCATCATTTTAGTATCGACGTTCGGGGGTCTACTTTTCGGCTACGATACAGGTGTAATTAATGGGGCGCTGCCGTTTATGGCGGAAGCTGACCAGCTTAATCTTACGGCTTTGACTGAAGGGATGGTGGCGAGCTCCCTGCTCTTGGGGGCTGCGATCGGAGCAGTTTTCGGAGGGAGATTGTCGGACTATAACGGCAGACGTAAAAATATCCTTATCCTTGCCGTTTTGTTCTTTGCAGCGACGCTTGGATGTACACTGGCGCCTAACGTATCGGTTATGATCATCTCCCGTTTTCTGCTGGGGCTTGCCGTTGGGGGAGCATCCGTAACCGTTCCGGCATATTTGGCTGAAATGTCGCCGGCGGAAAGCCGAGGGAGAATGGTTACCCAAAATGAATTGATGATTGTAACGGGCCAGCTGCTTGCCTTCACGTGTAATGCTATCATCGGCAATGTGCTTGGTGATACCTCTCACGCCTGGCGTTATATGCTCGTTATCGCGGCCCTTCCGGCGGTATTCTTGTTTTTCGGTATGCTGAAAGTTCCTGAAAGTCCGCGCTGGCTGGTTTCTAAAGGAAGAAAAGAAGATGCTCTGCACGTTCTCCGGCGAATAAGGATTGAAGAGAAAGCGAAGTCTGAGCTCGCTGAAATTGAATCTGCCTTTCATAAGGAAGCTGAGATGGAGCAGGCCACCTTTAAGGATCTTGCCGTTCCGTGGGTGCGCCGCATTGTGTTTATCGGGATCGGAATTGCGGTAGTGCAGCAGCTCACCGGCGTGAATTCAATTATGTATTATGGAACTCAAATTTTAAAAGATGCCGGTTTCGAGACAAAAGCCGCATTAATCGGCAATATTGCCAACGGTGTGATTTCGGTGCTCGCGACTTTTGTGGGAATATGGCTTCTCGGCAAAGTCGGCCGCCGCCCGATGCTGATGACGGGGCTGATCGGAACGACTGCGGTGCTGCTTTTGATCGGAGTTCTGTCTGTCGTGCTGAAAGGATCGCCTGCTCTTCCTTATGTGGTTCTTTCATTAACAGTCACTTTCCTTGCGTTTCAGCAGGGGGCTGTCTCTCCGGTGACCTGGCTGATGCTGTCGGAGATATTCCCGCTTCGATTGCGGGGGCTTGGTATGGGGGTCACTGTCTTCTGCCTCTGGATCGTGAACTTCCTTGTTGGTTTAACTTTTCCGGTCCTGCTCGCCAACATCGGATTGTCTGTAACTTTCTTCATTTTTGTTCTATTAGGGATAGCGTCCGTTATATTTGTGAAAAGGTTCCTTCCGGAAACGAAAGGTCTGTCGCTCGAACAGCTTGAACAAAACTTCCGTGCTTATGAAAAAACAGATCGTAATAGCGCAGAAGCTGAGGTGAGCGGGTAA	MNKNSSQHSFLRTIILVSTFGGLLFGYDTGVINGALPFMAEADQLNLTALTEGMVASSLLLGAAIGAVFGGRLSDYNGRRKNILILAVLFFAATLGCTLAPNVSVMIISRFLLGLAVGGASVTVPAYLAEMSPAESRGRMVTQNELMIVTGQLLAFTCNAIIGNVLGDTSHAWRYMLVIAALPAVFLFFGMLKVPESPRWLVSKGRKEDALHVLRRIRIEEKAKSELAEIESAFHKEAEMEQATFKDLAVPWVRRIVFIGIGIAVVQQLTGVNSIMYYGTQILKDAGFETKAALIGNIANGVISVLATFVGIWLLGKVGRRPMLMTGLIGTTAVLLLIGVLSVVLKGSPALPYVVLSLTVTFLAFQQGAVSPVTWLMLSEIFPLRLRGLGMGVTVFCLWIVNFLVGLTFPVLLANIGLSVTFFIFVLLGIASVIFVKRFLPETKGLSLEQLEQNFRAYEKTDRNSAEAEVSG	PGPT0016801_361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_2,PGPT0016801-iolT-K06609	NA	NA
D1-12_03611	3705	dltA_4		D-alanine--D-alanyl carrier protein ligase	TTGTTCTTACCGCTGATTAGTGGTGGATCTCTTCTATTAAAGGGAGGAGACACGGAGGAAAGGCTGCGTGCAGCATTCAAAGATAACAGGGTAACTTTCCTTAAACTTACTCCGTCCCATTTAAAAATGCTGGAAACTTATGCAGACGGCGTAGATGTACCGAATTTAGAAACGCTGATTGTCGGTGGAGAAGAGTTAACCACAGATACGGCATGGAAAACGCAGAAGCTATTAGGAGACAGGGTCAAGATTCATAACGAATATGGCCCTACAGAGACTACCGTAGGATGCTGTGACTATGTCTATTCCAGCGAAAAAGATAAGGGTTTAAGTGTAGGAATCGGACATCCCATTGCCAATATGCAGCTCTATATACTGAATGAGATGGAGTTATGTAGTGTAGGCGTTCCTGGTGAGCTATGCATCGCAGGAGACGGAGTAGCCAAAGGCTATCTAAACCAGCCTGAATTAACAGCGGAGAAGTTTATCGACAATCCATATGGCGAAGGGAAGTTATACCGCTCTGGAGATTTGGCGAGATGGCTGCCTAACGGGGAGATCGAATACCTGGGAAGAATAGATGAACAGGTTAAAATCCGAGGATACCGGATCGAGTTGTCCGAGATCGAGAGCGTTCTAAGGAATCAGCCGGGTATATCTGATGTAGCCGTTGTTGCATTGGAAGTAGGCGGTGACAAGAGTATATGTGCCTACCTGATCCCGACAAATCAAGAGCAGCAACTGGATATGTCTGAAATCAAAAATGATTTGAGAGACAAACTGCCTGAGTATATGTTACCTGGCTTTATGATGCAGATTGATGCCTTGCCACTGACTCCAAATGGGAAGCTGGATGCAAAAGCACTGCCAGAACTAAATGCATTAGCAGGACAGGAATATATGCCACCAAGAACTAAAACAGAGAAAGTCATTACGGACATATTTGAAGAAATCTTAGGAATATCTCCAGTCGGAATAGAAGACAGTTTCTTTGAACTTGGCGGAGATTCTATTAAAGCGATTAAGGCCGTTTCGAAGTTACGGGAAAAAGGTTATAAGCTTTCTTTCGCCGCATTAATGTATCAGCAGACCCCAAGAAAGATTGGGGAAAATATTCAAATGGGAGAAGTAAATCAAGTATACGAACAGGGAGAAATCAATGGGGAAAGTCCATTAACCCCTATACAACTAGAATTTTTCAATAAGAATCACGTCGTACCTAATCATTATAATCAGGCCTTAATGTTAAGAAGTGATGAGCCATTTGACATACCTAGTTTAAAGACAGCAATTACTGAAATCATTAAACATCATGACGCTTTAAGAAATGTATATGACGGACAACGTCAAATCACGCTGTCTACAGAGGAAAGCAAGCTATATGATTGGTATGAAAAAGATTATACAAAAGTGCAAGATGTATCGAAAGAGATAGAGTATGCCAGCGATAAATTACAGGCAAGCATAGACCTAGCCACCGGGCCTTTAGTAAAAGTAGGGCTGTTCCATTCAGACAGTGGAGATCATTTACTAATTTGTGTACATCATCTGGTCATAGACGGTGTATCATGGAGAATTCTGCTGGAGGATTTATTTAGTGGATATCGACAAATACAAGAGACAGGTAAAATCACGCTGCCAATGAAAACGGCTTCGTACAAGGAATGGGCGAATGCTTTAACACAATATGCTAAGAGTGAAGTGCTTTCAGATGAAATAGCATACTGGAAAAATATATCGGATAAATCAAATAGTACTGAGACATTCAAGAGTACACAAACAGCAAGTGGTCAATATAAAAATAAAGTAGTGAAAGTGGACTCTGAAACGACGAAAAAGCTGTTGCTCGAAGCTGGAAAGACATATAAAACAGAAATAAACGACTTGTTACTGGCATCTCTGACCATTGCAGTAAAAGAATGGAGAAACTCTAAGTACCTAACCATAGAAATGGAAGGTCACGGGAGAGAGACAATAGATAGAGAGATCGCCATCGATCGTACAGTTGGTTGGTTTACAAGTGCATATCCTATTATTTTGGAGACAAAAGATACTGTTGAAGAAAGCATTTTGGAGACAAAACAAACATTGAAACAGGTCCCTAATCATGGAATTGGATATGGAGTTTTGAGATATCTTGGTGAGCATAGCGGACTTGAGATGAGCGCAGCAATAACATTCAATTATCTTGGAGAATTGGATAACGAGATAGACAGAATTGAAGGAATATCCATGTCGGGAATGCCATTAGGAAGAAGTATGTCAGAAAAAAATTCATCAGGAATGGGATTGTCTCTAAATGGGGCTGTTTTAAATGGGCAACTTGAATTTGACATCATATATGATACTGGATTGTATACTGACGAGGATGCTCAAACATTGGTATTGGCATATGAAAGAGCAATTAAGGATGTTGTCAAAACGTGTTTAACCAGAAAAGGAACAGTAAAAATGCCATTAGATGAAACATTAATTGGTGATAACCGTGATGGCGATCTAAAGTGCATGATACAAAAACAGTTGAATTATTATGGAGATAACCATATTAAAACACGTTCTACTTTAGAATGTCCTGTATTGACAGGACATGAGGACTTCTTGCGACCGGATACAGAAATTATTACTGAAATCATAACAATAGAAGGAACGGCAGAGAACGCTTCTTTATCACTCAGAGGAATAATTTCCAGGCATGGGGCATTAAGAACGAAATTAAATCAAAAAATGACCTATTTAGAAGAATACGATTATTCAGATGAGTGGGAAATTCCAGTAGTGAAAGGAACCTTAGAATTATCTGCAGAACAATTTAAAGAAATTGTGAATGAAATGAGTTTTCTAACTGATGATAAGCTGTTATCTAGATTTTTAATCGTAGAAATAGATGCAGACCATTGCTTAGTACTTAGTGCAATTCATCATTTAATATGGGATGGAGTCTCACAAGATTTGTTTAAGGTTATGCTTCATGAAACTTTGAACAACAGACTTACCACTCCCTATAACTATTCTTTCATAGAATATTGCAAAATGATTAAAAAGAAAGTTGACGAACTGGAAATTCCTGATGCTCAAGAGTCTAACATGGAAGAGTATATTGAAGCTGCTAAACAATCAGCTGATTTGGTCTCTCGACGAGACACTAAGAGGTCTACAGAAATTCATGTAAAACTAAATGAGTTACAATATCAGAAATTTAGCGAACAACCCATTAATACAGCAGTAGAATTTATATCAAGGCTTATGTATAGTGACTTACCTGAAGAATTAAATAACATCCCTGTTTCTGTTTTGACACATAACAGAGATGAATTCAATAAGGAAATGTTGGGGCTAACTTTAAATTTAGATTATTCAATTTATGATAGGAAAAGTAAAACGCAAAAACAGCTTTTATCAACATCAGAAAAATCGAGTATTAATCAATCTGCAATTACAGAAAAGTTGTTTCTTATAGCACAAAAGTACGGTTTTAATGAAATGTCCCATCGCATTCCAATCATTAATTATCAGGGAGTCCTTGATAAGTTTGCAAGTAGAGATGACATATCACTTGAGAAGATGTTTTTACAAACACAGATTATAGAGTCTGAAGATTTTGGAGTTAGCATGCACTTTTACATTCAAAATAGTACTCTAATTGCTCGCATTACAGGCATTACAATTGAAGAAGAGCTCCTTAATGATGTCATGAAGAATATTTAA	MFLPLISGGSLLLKGGDTEERLRAAFKDNRVTFLKLTPSHLKMLETYADGVDVPNLETLIVGGEELTTDTAWKTQKLLGDRVKIHNEYGPTETTVGCCDYVYSSEKDKGLSVGIGHPIANMQLYILNEMELCSVGVPGELCIAGDGVAKGYLNQPELTAEKFIDNPYGEGKLYRSGDLARWLPNGEIEYLGRIDEQVKIRGYRIELSEIESVLRNQPGISDVAVVALEVGGDKSICAYLIPTNQEQQLDMSEIKNDLRDKLPEYMLPGFMMQIDALPLTPNGKLDAKALPELNALAGQEYMPPRTKTEKVITDIFEEILGISPVGIEDSFFELGGDSIKAIKAVSKLREKGYKLSFAALMYQQTPRKIGENIQMGEVNQVYEQGEINGESPLTPIQLEFFNKNHVVPNHYNQALMLRSDEPFDIPSLKTAITEIIKHHDALRNVYDGQRQITLSTEESKLYDWYEKDYTKVQDVSKEIEYASDKLQASIDLATGPLVKVGLFHSDSGDHLLICVHHLVIDGVSWRILLEDLFSGYRQIQETGKITLPMKTASYKEWANALTQYAKSEVLSDEIAYWKNISDKSNSTETFKSTQTASGQYKNKVVKVDSETTKKLLLEAGKTYKTEINDLLLASLTIAVKEWRNSKYLTIEMEGHGRETIDREIAIDRTVGWFTSAYPIILETKDTVEESILETKQTLKQVPNHGIGYGVLRYLGEHSGLEMSAAITFNYLGELDNEIDRIEGISMSGMPLGRSMSEKNSSGMGLSLNGAVLNGQLEFDIIYDTGLYTDEDAQTLVLAYERAIKDVVKTCLTRKGTVKMPLDETLIGDNRDGDLKCMIQKQLNYYGDNHIKTRSTLECPVLTGHEDFLRPDTEIITEIITIEGTAENASLSLRGIISRHGALRTKLNQKMTYLEEYDYSDEWEIPVVKGTLELSAEQFKEIVNEMSFLTDDKLLSRFLIVEIDADHCLVLSAIHHLIWDGVSQDLFKVMLHETLNNRLTTPYNYSFIEYCKMIKKKVDELEIPDAQESNMEEYIEAAKQSADLVSRRDTKRSTEIHVKLNELQYQKFSEQPINTAVEFISRLMYSDLPEELNNIPVSVLTHNRDEFNKEMLGLTLNLDYSIYDRKSKTQKQLLSTSEKSSINQSAITEKLFLIAQKYGFNEMSHRIPIINYQGVLDKFASRDDISLEKMFLQTQIIESEDFGVSMHFYIQNSTLIARITGITIEEELLNDVMKNI	PGPT0009845_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0009845-srfAA|lchAA-K15654	NA	NA
D1-12_03612	1743	msbA	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGAATGAAAAAATTTCAAAAAGCATATACAAAAAGAATATAGGCTTATTTATTTTGTCCTGCTTACTTGGTATCATGACATCTATTCTGTTTATTGCATTGGCAATTATACTACAAAAGTTTATTGATTATTCTATTAATAAAGATATTGACAATATCTTTAAGGTGACTACTGTTTCCGTTATTTTATTGCCTTTAGGTGCAGTGGGAATGTATGTGGGGTATGCTGTTAAAAATTTATATACAAAAAGGGCAACGTTAAACCTGAAAAATACCCTTGTTGAAAATATTTTGCGGTTAGATATGAGAAGTTTCAACAAGGAGAGTAATGGAACCTACATATCACGATTGTCAAATGATATAACGATAATTCAAAACGATTATATAAAAGGGACCGTGGAAATATTTGTTCAGCTAGCTATGCTTGTAGGCGGAGTGCTTGCGATGTTTATCATTAATTCATTCCTTGCATTGAGTATATTACTCACTTGTATCATTCCACTTGCAGTTTCGAGTATATTTAATAATCGTATGCAAAAAGCACAAGGTGAAGTGGCTGAGCAAAATAAAAATTATGTATCTTTCATTAAAGATATATTGTCTGGAAATCAGGTTGTTAAGAGCTTTAACATCGAAAAGGAGATTTTTGAAAGGGCAAAGGCAAAGGCGAACAAGCAGGAAAAAGCAAAAATGGTATACGAAAATCTGTTGTCACTCATTATGTCACTTACTGATATTTCAACTTTTCTTGTTGCTGTAGTCATATTTATTGTGGGTACTCAGCAGCTAATGAAAGGAGAAATTACAGTAGGAGAGATTATGGCTTTTATTCAATTGTTAAATTGCGTAACAGTTCCCATTAATAGACTCATAACCGGTTTTACCAAAAGGCAGGCCAGTCGGGCTTTATTAATGAATTTCAATAAAATTGGAGAGGCAAAAACGGATCAAACTCAAAGAATTGATATCCCTAAATTCAGTAATAAAATTTCTCTAAATGGGCTTTCGTTAAGCGTAGATGGGAAAAAAATCTTAGATGATATTAATTTTGAATTTGAATATGGAAAGTCTTATGCCATTGTAGGAACAAGTGGGAGTGGAAAGACAACCTTATTAAAGATGTTGACTGGGTTTTATGATGGGTATGAAGGAAATATCAGGTATGACGGGGTTGATCTTGAGAAAATAAGTGATCAGTCCATGTTCCAAAATGTTAGTTTTATTCATCAGGACTGTTTTATCTTTGATGATACGATTGAACAAAATATTAAATTGTTTCGTGAATGTGACACAGATGAGTTTGAGCAAGTCATAAAGAAGAGTATGTTACAGAAATTGATTCATGACAGAGGCGGCTTTGATGTATTATGTGGAGAAAATGGAATCCATTTTTCAGGTGGGGAAAAACAGAGAATTTCTATAGCAAGAGCACTCCTGAGAAAATCACCTATATTACTTATGGACGAGGCGACTTCAGCGTTGGACAATCAAACAGCTAGTGACCTTGAGTGTATGTTAAGTGAAATGCAGGGCATTACGAGAATTTCCATTACTCATAGGCTGGATGAATCAATTCTTAGTGAATATGATGAAATTGTCTTATTGAATAATGGGAAAATTGAAGAACACGGCACGTATCATAAATTAATGGAAGCCAAACAAAGATTTTATGCATTGAGTATGTTGAGTAGACATAATAATGATCTTTTAATAGAGAAAGGTATAACTAGTCTTGTATTTTAA	MNEKISKSIYKKNIGLFILSCLLGIMTSILFIALAIILQKFIDYSINKDIDNIFKVTTVSVILLPLGAVGMYVGYAVKNLYTKRATLNLKNTLVENILRLDMRSFNKESNGTYISRLSNDITIIQNDYIKGTVEIFVQLAMLVGGVLAMFIINSFLALSILLTCIIPLAVSSIFNNRMQKAQGEVAEQNKNYVSFIKDILSGNQVVKSFNIEKEIFERAKAKANKQEKAKMVYENLLSLIMSLTDISTFLVAVVIFIVGTQQLMKGEITVGEIMAFIQLLNCVTVPINRLITGFTKRQASRALLMNFNKIGEAKTDQTQRIDIPKFSNKISLNGLSLSVDGKKILDDINFEFEYGKSYAIVGTSGSGKTTLLKMLTGFYDGYEGNIRYDGVDLEKISDQSMFQNVSFIHQDCFIFDDTIEQNIKLFRECDTDEFEQVIKKSMLQKLIHDRGGFDVLCGENGIHFSGGEKQRISIARALLRKSPILLMDEATSALDNQTASDLECMLSEMQGITRISITHRLDESILSEYDEIVLLNNGKIEEHGTYHKLMEAKQRFYALSMLSRHNNDLLIEKGITSLVF				NA	NA	NA	NA	NA
D1-12_03613	1065			hypothetical protein	ATGGAGCAAATCGCAGTTGTTGGGTGTGGCGGAATGATCGGTGAAGTCATCTGTAAGAACTTATGTAAAGACTTTATTGTTAAGGGCGGACAGCGGCGTGAACCTACAGCATTAATGAACCTTAATAATTTTAACTACCAATTCCTGGATGTTTCTGACTGGGAGAACTTGATTGCGTTCTGTACTGATTGTACGGTTGTCATTAATTGTGCAGGGCCTGAATTTGTAATTAAAGATAGAGTTGCTCAGGCAGCCATGAAAGTAGGAGCAAAATATGTTGATGCTTCCAATGCTTTATTATTGAATCAGGAGCAAAAGCTAGAGCTTAAAGCTAACGGTGTAAATTACATAGGAGCTGGTTTTTGTCCTGGAATTACAGGTCTGCTATTAAAACGAGTGATAAATCATTTATTAGACGAAACTAAGCATGTGAATTGTTATATTGGTGGTGCGGAACATTATACGAAAACTTCTATCTCAGATATATTAATGAGTGGCCATAGTGTAATTGGAAAAACAGACTCTTATTGGAGTGATCATTGTGTTAAAACGGAAAATATAAATATGATGCAGAAAGAATTTGTACCTGAAGTGGATGTTCCTGTCTATAAGAAACCGTATTTAAGTCAAGAGATCATTGATATTCTGGAAGTTAGTTCGGTACAAGAACTTCACTGGTACAATATAGCGGCAAATGATTATATTTTCCGTTTGGCAATGCAATTTTATCAAATGCAACTTGAGTCTTCGGTTGAAGAAGCAATGAAAAAACTAGACATTAGCTTAGAGGAGCAACCTAAAGAGGAATGGATAGCTTTAGTCATTGATGCTACAGGAGTGAAAGATGGAAAGAATGTTAGGTGCAGATTGAATTTACAAATGGAAACGAGTTCAGAGTTAACGGGTACAGTGGCTGCCGAAATCGCCCGACAAGCTGTTTCGAGTAATAGACCTAATGGTACCTACTGGGCTTATGAAGTGCTTCCTATAGATTTTATGAATCAATATGTTTTTTCTAATAAGCATGATTTTTATGAGGAAAAGTATGTTGAAATAAAGAAATGA	MEQIAVVGCGGMIGEVICKNLCKDFIVKGGQRREPTALMNLNNFNYQFLDVSDWENLIAFCTDCTVVINCAGPEFVIKDRVAQAAMKVGAKYVDASNALLLNQEQKLELKANGVNYIGAGFCPGITGLLLKRVINHLLDETKHVNCYIGGAEHYTKTSISDILMSGHSVIGKTDSYWSDHCVKTENINMMQKEFVPEVDVPVYKKPYLSQEIIDILEVSSVQELHWYNIAANDYIFRLAMQFYQMQLESSVEEAMKKLDISLEEQPKEEWIALVIDATGVKDGKNVRCRLNLQMETSSELTGTVAAEIARQAVSSNRPNGTYWAYEVLPIDFMNQYVFSNKHDFYEEKYVEIKK				NA	NA	NA	NA	NA
D1-12_03614	1068			hypothetical protein	TTGATTTCACTTGGAGTTATAGCTTACATACTGACAAAATACGCGCAGAACCATCAGGATTGGGCGGAAAAATACAGTAGGTCTGTATATCCGTTATTGTCAAAAATAGTAGGATTTGTACCTTCTTGGGTCACATTTTCTGTTAGTGAATGGCTCGTCGTGTTGGTTGTGTTACTTTTTCTATTTTATATCGTTTATTATGTGCGCAAGGTTATCATGAGTAAAGGTGCACGTAGGATGGTAGTTTATCGTGGTGCTCTAGGAATCGTTACGATCTGTAGCGTGATATATTTTTGTTATACTATTTTGGGTGGAATAAACTATTACAGATATTCTTTTTTGTCTTATACCGAATATAAAGAAGAGAACTACAGCAAGGAGGAACTGGTCAAATTGAGTAAGTCGCTTGCCGTTGAAATGGAATTGGCAAGGGAAAAGTTAGCGGATACTGATCTTTTGGCTCATGTACCAGAGGTTTTTGATTATTATGCACAACACGCAGTGTTCTCGATGCAAATGTTATCAAAGAAATATCCTGTTTTGGAGCATTCATATTCAACACCAAAACCAGTGGTGATGTCAAAACTAATGTCGCATGCAGGGATACATGGTATTTTTGTCCCTTTTACTTATGAATCCAATATCAATGTTAATGTGCCAGTTTTTTTGGTGCCTGCTACTATGGCGCATGAATTGGCACATCAGAGTGGTTTCATGCATGAGGATGAGGCTAATTTTATAGCTTATCTGGCATGTAAGCAGCAGGATGATCCAATGATACTATACAGTGGTTTATTTCTGGCATTTGATTATTCTATATCTGAGCTAAAGAAAGTGGATCCAGATAAGGCGTCTGATATAATGTCCAGTCTGTCCAAAGCGGTGCGGCATGATATAGAACAAAATGAGCAGTACCGGGATAAGTATGAGGGTGTTATTTCAAGTATTTCAAGAAATGTAAATGACGTATATCTGAAGGCAAATAATCAGACAGACGGTTTGAATAGCTATAGTGATATGGTGAATTTATTGCTGGCAGAGCAGCGAGAGATAGAGAAGTACAATTAA	MISLGVIAYILTKYAQNHQDWAEKYSRSVYPLLSKIVGFVPSWVTFSVSEWLVVLVVLLFLFYIVYYVRKVIMSKGARRMVVYRGALGIVTICSVIYFCYTILGGINYYRYSFLSYTEYKEENYSKEELVKLSKSLAVEMELAREKLADTDLLAHVPEVFDYYAQHAVFSMQMLSKKYPVLEHSYSTPKPVVMSKLMSHAGIHGIFVPFTYESNINVNVPVFLVPATMAHELAHQSGFMHEDEANFIAYLACKQQDDPMILYSGLFLAFDYSISELKKVDPDKASDIMSSLSKAVRHDIEQNEQYRDKYEGVISSISRNVNDVYLKANNQTDGLNSYSDMVNLLLAEQREIEKYN				NA	NA	NA	NA	NA
D1-12_03615	141			hypothetical protein	ATGCATATTATGAATGGAAAAAACTACTGCCGGATAGATATGAATTGTGTATATGTGAATTGGCTGGAAGAGGAACTCGATTCACAGAGCCTTGTTACCAGTCTGTTGGTGAAGCAAGTGAAGATATCGCCAAAAGAATAA	MHIMNGKNYCRIDMNCVYVNWLEEELDSQSLVTSLLVKQVKISPKE				NA	NA	NA	NA	NA
D1-12_03616	468	lgrE		Linear gramicidin dehydrogenase LgrE	TTGACTTATGAGATATATTATAAACTTAAGCAAATGGGAACTAAGGAACCAAGGCATCTGTTTTTTTCTGGGCGAGATGCTCCACATATTTTTGAAAAGAGAGAAGACATTGAAAATATGACTAATGAAACTTTCTTGACAAAGGTGGAACAATATGGGGGAATACCAGAGGAGTTTTATACAAAAGAGATTATGGATATGTTTCTTCCGATTTTGCGAGCAGATTTTATAATTTTGGACAATTATAAGTTTCAGCCCAAAGCAGAAAAAATAAGTTGTGGAGTAAGCGTTTTTTATGCGGATAGCGATTTTTCGACTCATATCAATGAAATGCATAAATGGAGTGAAGTTGTTGAAGGGAATGTGAAATTTCATAAGTTTAAAGGAGAACATTTTTTTTTGAATCGGTATCCTAATGATATTGTAAATACTATTGTTAAAGATACAGAGACTTATTCTTGTTCATGA	MTYEIYYKLKQMGTKEPRHLFFSGRDAPHIFEKREDIENMTNETFLTKVEQYGGIPEEFYTKEIMDMFLPILRADFIILDNYKFQPKAEKISCGVSVFYADSDFSTHINEMHKWSEVVEGNVKFHKFKGEHFFLNRYPNDIVNTIVKDTETYSCS				NA	NA	NA	NA	NA
D1-12_03617	1338	ribZ_3		Riboflavin transporter RibZ	ATGGGTTCAAAGAAAGAATGGGCGCTGATCGTTTCGCTTTTGCTGGGAGCCATACTCGTTCCCATCAATTCTACGATGATTGCAGTCGCCCTTTCATCCATTTCCCGCTCATTCAGCGAATCAATTGCCAGCATCACATGGGTAGTGACCGTGTATTTAATCGTGATGGCCGTGACACAGCCCATTGCCGGCAAACTCGGTGATATGTACGGAAACAAAAAAATGTATTTATGGGGCGTCGGCCTTTTTCTCATCGCATCATTGGGGTGCGCCCTCTCGCCAAGTCTTTTCTTATTGATTTTCTTCCGGGCGCTTCAGGCTGCCGGCGGCGCTTTGCTTACGCCAAACAGCATCGCCATCATCCGCCATGTCGTGTCTGAAAAACGGCTTCCGAAAGTATTCGGCTTTTTCGGCCTCGGTGCCGGGCTGGGCGCGGCTCTCGGTCCGTTTATCGGCTCTCTTTTAATTGAGAGCTTCAGCTGGCATTCGATCTTTTGGGTCAACATTCCGTTTCTTGCGATCGCACTCGTGACGGCATTAGTGATGTTTCCTAAATATAAAGAAGAAACGTCTGACGCTCCGCTTGATATCATCGGGTCCGTTTTGCTTGCCGGAAGCATTGTATCTATAATTCTTCTGACGAAAAATGAAAGCTCTTTGGGCTATTGGGTGTACGCGCTGCTCATTCTCGTATTTGTTCCGCTATTTTTCAGGCGGGAGCTGCGCACGAAACATCCGATTATTGATTTTGATCTGTTTAAAAACACGACCTTTACGAGCGCCAATCTGTCGGTTCTGTTAAGCAATTTAATGATGTACGCCGTGTTATTGATTATGCCGCTCTTTATGACCGGCCACTTCAGCATGAATACGTCGCACAGCGGCATGGCGCTGTCAGTCTTTTCTGTTTTCATGTCCGCCAGCAACTGGGGCGGAGCTCAGCTGCATCAGAAATGGGGCGCGCGAAGAATGATTTTTCTGTCCTTCGGGCTGATGGCTGTAGCCAATCTCTTATTTCTGCTTTTGGTTTATTCCCATTCCGTTCCGTTTCTTATGGCATCGCTTATTGTCGGAGGCATCGCGTCAGGTGCGGGGCTGACGAGCATGCAGGTATCTTCTCTTGCGACGGTAGAACCGGGCATGTCCGGCATCGCATCCGGGATTTTCTCCACCTTCCGTTATTTCGGAAGCATTATTTCTTCAGCGCTGATCGGTTTAATCTCCGGGTTTCATATTCTGTTTATCATATTGATCGGAGTTTCTGTGATCGGCTTGTTCGTATCACTTGGTATCAAGTCCAGGGAAACCGTTCAGACGAAAAAAAGCCATTCGGCATAA	MGSKKEWALIVSLLLGAILVPINSTMIAVALSSISRSFSESIASITWVVTVYLIVMAVTQPIAGKLGDMYGNKKMYLWGVGLFLIASLGCALSPSLFLLIFFRALQAAGGALLTPNSIAIIRHVVSEKRLPKVFGFFGLGAGLGAALGPFIGSLLIESFSWHSIFWVNIPFLAIALVTALVMFPKYKEETSDAPLDIIGSVLLAGSIVSIILLTKNESSLGYWVYALLILVFVPLFFRRELRTKHPIIDFDLFKNTTFTSANLSVLLSNLMMYAVLLIMPLFMTGHFSMNTSHSGMALSVFSVFMSASNWGGAQLHQKWGARRMIFLSFGLMAVANLLFLLLVYSHSVPFLMASLIVGGIASGAGLTSMQVSSLATVEPGMSGIASGIFSTFRYFGSIISSALIGLISGFHILFIILIGVSVIGLFVSLGIKSRETVQTKKSHSA				NA	NA	NA	NA	NA
D1-12_03618	627			hypothetical protein	ATGTTGAGAACGACGAACAAGAGAATTATTGACGCCGCGATGAATCTGATCATCCAAAAAGGATACCGCGCAGCGACAACAAAAGAAATCGCAGAAAAAGCAAAAGTAAGCGAAGCAACGATTTTCCGTAATTTTAAAAACAAACAAGGATTAATGAAAGCCATGATTGAACAGCAGACGCCGGCTCCGGAAAGCATGATCACCAAGGCGGAAGGCGATCTGTATGAGGATCTTCTTCATTTCGCCGCGACCCTTCTGCAGCAATTGGAACAAAAAAAAGAAGTGTTCCGCATCTGCCTGCGCGAACCGGAACTGTTCGAAGACGTCCTGCAGGATATTGTCGTATATCCGCAATCCGTGAAAAAGCATTTAATCGTTTACTTTAAGGAGCTGACAAAGAAAAATATGATAAGCCCCGGCAGCGAAGAAGCTAATGCAGACGTCTTTATGACGATGATTTTCGGTTATTTTATACACCGGCTGCAGCTGGGGAAAAGAGTCATTACACTCTCTGAGGAAACGATGCTGAAACACAGCACTGAGATTTTCATGAAAGGCATTACCGGCCGGTCATTTTCCGGCCCCAAGGAGGATGAAGGATGGGTTCAAAGAAAGAATGGGCGCTGA	MLRTTNKRIIDAAMNLIIQKGYRAATTKEIAEKAKVSEATIFRNFKNKQGLMKAMIEQQTPAPESMITKAEGDLYEDLLHFAATLLQQLEQKKEVFRICLREPELFEDVLQDIVVYPQSVKKHLIVYFKELTKKNMISPGSEEANADVFMTMIFGYFIHRLQLGKRVITLSEETMLKHSTEIFMKGITGRSFSGPKEDEGWVQRKNGR				NA	NA	NA	NA	NA
D1-12_03619	2502			hypothetical protein	ATGTATTCAGTGCGATTTCAAAAAGCGGAAGAATCGAGCCGCTCTGCAGGAGCAAAAGGAATGAACCTGATTAAACTGACGAAAAACGGGCTGCCCGTTCCCGGCGGTTTCATCATTCAGACGAATGCCCTGACACGTTTTATGGAAGACAACGGGCTTCAAGCAGATCAGGAACAGATGGAGCGCGCCATTATGAACGGCACGTTTTCAAAAGAGCTTCGGGAGGAACTGACCGCGTCGTTTTATGAATTGAGAGAAACATACGCCTCTGTCGCCGTACGTTCCTCCTCCGCGTCTGAAGATCTTGAAGGCGCTTCTTTCGCTGGCCAGTACGAAACCTATTTAAATATCAAAACAGAAGAAGAGTTTCTCGGAAAAGTGAAAGAATGCTGGGCTTCCTTCTTCTCGGCGCGGGTCAGCGGTTATAAAGAGAAAATGAACAATGACACCGCAGAACCGTTAATGGGCGTTGTCGTGCAAGGGCTTATCAATTCCGAGGTTTCAGGGGTCATTTTCAGCCGCAACCCCGTCACACACGATGACGGAGAACTGATGATCAGCGCGAGCTACGGTCTCGGAGAAGCAATCGTCTCCGGCAGCGTGACGCCCGACACATTTATCGTCAATAAAGACACATTTCTGATTGAAAAAGAAATCGGCTTAAAAGAAATGTATATCGTTTCTAAAGACGAAGGCGTGACGGAAAAAGAGACGACCGCTGACATGAGAAACCGCTTCTGCCTTGATGACGAGAGCGTCAAAGAGCTTGCCATGCTGACGATAAAGACGGAAGAACTGTACGGTTATCCCGTGGATCTCGAATTCGGATTTGCCGAAAATAAGCTGTATCTGCTTCAGGCCAGGCCGATTACAACAATCGTGCAGGATCAGAAAGCGGCAGACGAAGAACGGGAATTTATCATGACGCCCCGGGATCAGAAAGATTTTTGGCTCAATATGGAGGCCAATATTGAAGGACCCGTCAGCCCGTTATTCGCCTCACTCATTGTGCCGGCTTTGGAATACGGCCTCAAAGAGAGCACGAAGACATTCCCTGTAATGGGCATCGAAATCGAGCGTGTCAAACTTCATCAGGGCCGTGTTTTTTCCAGACAGCATAAGACGGACGACAAGCTGCCCGCAGAACAGTTAGAAGCGCTTTTCCCCGTCTTGGCTGACCGCATGTACGATATTATTCAGGAAACCTTTCTGCCTTTTTATCAAAAGCTGGACGAACTGGCGCATACAGACCATACGCCGGAGACTGCCCTTGATGCGTTCCGAAACCTGCAAGACTTCTATTTAAAAGGATACGCAGAACATTTCAATATTGTCTTTCCACAGGTTGCGTTAAACATGATACTGGAATCCATGTACGGACAGGTTGAGAAAGAAAACACCTCCCATCTGTACGAAATGCTGGCTGGCGTCATGAATAAGTCATTGGAGACCGACAGACAGCTCTGGCTGCTTTCCGGACAAGTAAAAGACAACCCTGAGCTGCGGCGAGTCTTTACGGTTTCTCATGCCGATGAGCTGCATCAGACGCTTCTGCAATCAAATGAGGGAAAACGCTTTCTCGAACAAGTCGGTCAATTTTTACAGGAATACGGCTGGAGATCCGTGAAAAGTCATGATCTCATTGAAGAAACTTGGGCGGAAAACCCTTATTTCGCTTTGGCCAACATTCAGAACTATGTCCGGAACGGATACGATTTTGACAGTGAATTTCATAAAACGATAGAAAAACGAAAACAGCTCTACGCCGACTTTATGGATAGAATTGAAGATGACGGCTTCCGGGAGACGTTTGACCGCTATTATCAGTGGACATTGTCTTCATCCGTCATCAAAGATGATCACCATTTTTATATTGATGCGATGCTGGACGCCAAAGCGCGCCTTTGCCTTCTGAAAATCGGCGAGCTGCTTCAAAAACAAGGCGTAATCGATGATCGGGAGGATATGTGGTACTTATACAGCGATGAAGTCGAGAAAGCGCTGGTGTCGCCGGTTCCGATGCAGGAAAAAGCCGCTGAACGAAAACAGCTCTTCCAGCAATATCAATTGCTTGAAGCCCCCGCTTATCTCGGGACTCCGACTTCGGAACAGCTGAAAACGGCTGAACAGATTACCGGCTCCATCACGGAAGATGAAAAAAACACTGAACATCAAATTTACGGACTTGCGGCGTCAAGCGGAATCGCAAGCGGCCCGGTGAAAGTCATTCGTGACGCAAGTGAATTTTCCCGTTTTTCAACAGGAGACGTGCTTGTCTGCAAAATGACGACACCGCTGTGGACCAGTCTGTTCCAGGATGCAAAGGCCGTCATTACGGACACGGGCGGCATCCTGTCACATGCGGCGATCATCGCGAGAGAATACGGGCTCCCGGCCGTTCTCGGCACACGTGCCGCGACTGACAGGCTCAACGACGGAGATATCGTCACGGTGGACGGGACAAACGGCAAGATTACGATTGTCAAACGCGCTTCATGCTAG	MYSVRFQKAEESSRSAGAKGMNLIKLTKNGLPVPGGFIIQTNALTRFMEDNGLQADQEQMERAIMNGTFSKELREELTASFYELRETYASVAVRSSSASEDLEGASFAGQYETYLNIKTEEEFLGKVKECWASFFSARVSGYKEKMNNDTAEPLMGVVVQGLINSEVSGVIFSRNPVTHDDGELMISASYGLGEAIVSGSVTPDTFIVNKDTFLIEKEIGLKEMYIVSKDEGVTEKETTADMRNRFCLDDESVKELAMLTIKTEELYGYPVDLEFGFAENKLYLLQARPITTIVQDQKAADEEREFIMTPRDQKDFWLNMEANIEGPVSPLFASLIVPALEYGLKESTKTFPVMGIEIERVKLHQGRVFSRQHKTDDKLPAEQLEALFPVLADRMYDIIQETFLPFYQKLDELAHTDHTPETALDAFRNLQDFYLKGYAEHFNIVFPQVALNMILESMYGQVEKENTSHLYEMLAGVMNKSLETDRQLWLLSGQVKDNPELRRVFTVSHADELHQTLLQSNEGKRFLEQVGQFLQEYGWRSVKSHDLIEETWAENPYFALANIQNYVRNGYDFDSEFHKTIEKRKQLYADFMDRIEDDGFRETFDRYYQWTLSSSVIKDDHHFYIDAMLDAKARLCLLKIGELLQKQGVIDDREDMWYLYSDEVEKALVSPVPMQEKAAERKQLFQQYQLLEAPAYLGTPTSEQLKTAEQITGSITEDEKNTEHQIYGLAASSGIASGPVKVIRDASEFSRFSTGDVLVCKMTTPLWTSLFQDAKAVITDTGGILSHAAIIAREYGLPAVLGTRAATDRLNDGDIVTVDGTNGKITIVKRASC	PGPT0002035_350	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
D1-12_03620	237	csbA	COG4897	Protein CsbA	GTGATTACAAAAGCCGTTTTTGCATTATGTTTCCCTTTTATGCTGGTCGTCCTTTTTACGCGCGTCACGTTTAACCACTATGTGGCGATCGCTCTCACAGCCGCACTGCTTTTCGCATCCTATTTAAAGGGTTACACCGAAACGTATTTTATCGTTGGATTGGATGTCGTATCGCTGGTGGCCGGAGGGCTGTACATGGCCAAAAAAGAAGCAGACAAAAAGAAAGACAATGCCTGA	MITKAVFALCFPFMLVVLFTRVTFNHYVAIALTAALLFASYLKGYTETYFIVGLDVVSLVAGGLYMAKKEADKKKDNA	PGPT0015022_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015022-csbA-NA	NA	NA
D1-12_03621	1986	uvrB	COG0556	UvrABC system protein B	GTGAAAGATCGTTTTGAGTTAGTCTCGAAATATCAGCCCCAGGGAGATCAGCCGCAAGCGATTGAGAAGCTTGTCAAAGGCATACAGGAAGGCAGAAAACACCAGACTCTCCTGGGTGCGACAGGGACGGGCAAAACCTTTACCGTGTCCAATCTGATTAAAGAAGTGAATAAACCGACACTGGTCATTGCCCATAACAAAACCCTTGCCGGACAGCTGTACAGCGAGTTTAAGGAGTTTTTCCCGAACAATGCTGTCGAATATTTTGTCAGCTATTACGATTACTATCAGCCGGAGGCGTACGTGCCTCAAACGGATACTTTTATAGAGAAAGACGCAAGCATTAATGATGAAATTGATAAACTGAGACACTCCGCGACGTCCTCTCTGTTTGAACGGAGAGATGTCATTATTATCGCGAGTGTGTCATGCATATACGGTCTCGGTTCGCCTGAAGAATACCGGGAAATGGTTGTGTCGCTCAGGCCGGAAATGGAGATTGAGCGGAACGAGCTGCTGAGAAAGCTTGTGGATATCCAGTATGCCCGCAATGATATCGACTTTCAGCGCGGTACGTTCCGCGTGCGCGGAGACGTTGTGGAAATCTTCCCGGCTTCCCGTGACGAACATTGTATCAGAGTGGAATTTTTCGGAGATGAAATTGAGCGGATCAGAGAGGTCGACGCTTTGACCGGAGAAATTCTCGGCGACCGTGACCATGTCGCGATTTTCCCGGCTTCCCACTTCGTCACCCGTGCGGAAAAGATGGAAAAAGCGATTCTGAATATTGAACAGGAGCTTGAGGAGCGCTTGAAAGTGATGCACGAAAACGGCAAGCTCCTTGAAGCGCAGCGGCTTGAGCAGCGGACGAGATATGATCTTGAAATGATGCGGGAAATGGGTTTTTGCTCAGGGATCGAGAACTATTCAAGACATTTGACACTCCGTCCGCCGGGCTCTACGCCGTATACGCTGCTTGATTATTTTCCGGACGATTTTATGATTGTCGTTGATGAATCACATGTGACGATTCCGCAGGTGCGCGGCATGTTCAACGGTGACCAGGCGAGAAAACAGGTGCTTGTCGATCACGGGTTCCGCCTGCCGTCAGCGCTTGACAACCGTCCGCTCCGATTCGAGGAATTTGAGAAACACATGCACAATATCGTGTACGTGTCGGCGACTCCGGGACCGTATGAAATTGAGCATACGCCGGAAATGATCGAGCAGATCATCAGACCGACGGGACTCCTCGATCCCCTCATTGACGTCCGGCCGATCGAAGGACAGATTGATGATCTGATCGGCGAGATACAGGCGAGGATTGAACGGAATGAACGCGTTCTCGTGACGACTTTAACGAAAAAAATGTCAGAGGATCTGACCGATTATCTCAAGGAAATCGGCATCAAGGTCAATTATCTGCATTCCGAGATTAAGACGCTTGAACGGATTGAAATCATCCGTGACCTCCGCCTCGGAAAACATGATGTGTTAATCGGCATCAACCTGCTGAGGGAAGGGCTTGATATTCCGGAAGTGTCACTTGTCGCCATTCTCGATGCGGATAAAGAAGGCTTCCTCCGTTCTGAACGTTCGCTGATTCAGACGATCGGACGGGCGGCACGAAACGCGGAAGGCCGCGTCATCATGTATGCCGATAAAATCACGAATTCGATGGAAATCGCGATTAATGAAACGAAGCGCCGCCGGGAACAGCAGGAGCGCTTTAACGAAATTCACGGCATTACGCCGCAAACGATCAATAAGGAAATCCGCGATGTGATCCGCGCGACGCAGGCCGCTGAGGATAAAGAAGAATATAAAACAAAAGCCGCGCCTAAACTGGCGAAGATGACGAAGAAAGAACGCCAGAAAGTCGTTGAGCAAATGGAGCACGAAATGAAAGAAGCGGCCAGAGCGCTTGATTTCGAGCGGGCGGCAGAGCTTCGTGATTTACTGTTAGAGCTCAAAGCGGAAGGATGA	MKDRFELVSKYQPQGDQPQAIEKLVKGIQEGRKHQTLLGATGTGKTFTVSNLIKEVNKPTLVIAHNKTLAGQLYSEFKEFFPNNAVEYFVSYYDYYQPEAYVPQTDTFIEKDASINDEIDKLRHSATSSLFERRDVIIIASVSCIYGLGSPEEYREMVVSLRPEMEIERNELLRKLVDIQYARNDIDFQRGTFRVRGDVVEIFPASRDEHCIRVEFFGDEIERIREVDALTGEILGDRDHVAIFPASHFVTRAEKMEKAILNIEQELEERLKVMHENGKLLEAQRLEQRTRYDLEMMREMGFCSGIENYSRHLTLRPPGSTPYTLLDYFPDDFMIVVDESHVTIPQVRGMFNGDQARKQVLVDHGFRLPSALDNRPLRFEEFEKHMHNIVYVSATPGPYEIEHTPEMIEQIIRPTGLLDPLIDVRPIEGQIDDLIGEIQARIERNERVLVTTLTKKMSEDLTDYLKEIGIKVNYLHSEIKTLERIEIIRDLRLGKHDVLIGINLLREGLDIPEVSLVAILDADKEGFLRSERSLIQTIGRAARNAEGRVIMYADKITNSMEIAINETKRRREQQERFNEIHGITPQTINKEIRDVIRATQAAEDKEEYKTKAAPKLAKMTKKERQKVVEQMEHEMKEAARALDFERAAELRDLLLELKAEG	PGPT0014920_4187	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
D1-12_03622	2874	uvrA		UvrABC system protein A	ATGGCAATTGACCGGATCGAGGTGAAAGGCGCAAGGGCGCACAATTTAAAAAACATTGATGTAACGATTCCGCGGGATCAGCTCGTCGTCGTGACGGGGCTGTCCGGATCGGGAAAATCATCCCTTGCCTTTGACACCATTTACGCGGAAGGACAGAGGCGGTATGTTGAATCGCTTTCTGCCTATGCGCGCCAATTTTTAGGACAGATGGATAAGCCGGACGTTGATGCGATCGAAGGGCTTTCTCCGGCGATCAGCATTGACCAGAAAACAACAAGCCGCAATCCGCGGTCAACCGTCGGAACGGTAACGGAGATTTATGATTATCTCCGGCTGCTGTACGCGAGAGTCGGGAAGCCGCACTGCCCGGAGCACGGCATTGAAATTACGTCGCAAACGATTGAACAGATGGTTGACCGGATTCTTGAATATCCGGAGCGGACGAAGCTTCAAGTGCTTGCGCCGATCATCTCAGGCAGAAAAGGCGCCCATGTCAAAGTGCTTGACCAAATCAGAAAGCAAGGTTACGTAAGGGTGCGGATTGACGGAGAAATGGCCGAGCTTTCCGACGATATTGAACTTGAAAAAAACAAAAAGCATTCCATTGAAGTAGTCATTGACCGGATTGTCGTCAAGGAAGGGGTTGCCGCCCGGCTTTCCGACTCACTGGAAACCGCGCTCCGCTTAGGGGAAGGCCGTGTCATGATAGATATCATCGGTCAGGAGGAGCTGATGTTCAGCGAGCATCACGCCTGTCCGCTGTGCGGTTTTTCTATCGGAGAGCTTGAACCCCGGCTGTTTTCGTTTAACAGCCCGTTCGGCGCCTGTCCGACTTGTGACGGTCTCGGCTTGAAGCTGGAAGTGGACCCTGAGCTCGTCATTCCCAATCCTGAGCTGTCATTAAAAGAACACGCCATCGCGCCGTGGACGCCGATCAGTTCACAATATTATCCGCAGCTGCTTCAGGCGGTCTGCCGCCATTACGGCATTGATATGGAGACTCCGGTCAAAGACCTGCCGAAGCATCAGCTTGATAAAGTGCTGTACGGCAGCGGCGATGAACGGATCTACTTTAAATACGAGAATGATTTCGGACAAGTGCGCGAAAATGAAATTGAATTTGAAGGCGTGCTGCGCAATATTGAGAGACGGTATAAAGAGACAAGCTCCGATTATATCCGTGAACAGATGGAGCAGTACATGTCACAGAAGCCGTGCCCGACGTGCAAAGGCTACCGGCTGAAGAAAGAAGCGCTTGCCGTTTTGGTTAACGGGCGCCACATCGGCACCATTACCGAGCTTTCCGTCGGCGATGCGCTGGAATTTTTCAAAAACCTGACGCTGTCTGAGAAAGATATGCAGATTGCCGATTTAATTTTAAGAGAGATTGTGGAGCGGCTCAGCTTCTTAGATAAAGTCGGTCTTGATTACCTGACGCTGAGCCGGGCGGCGGGAACGCTGTCAGGCGGAGAAGCCCAGCGTATCAGGCTTGCGACGCAGATCGGCTCCCGTTTGTCAGGCGTCCTGTACATTCTTGATGAGCCGTCCATCGGCCTTCACCAGCGTGACAATGACCGTCTGATCAGCGCGCTGAAAAACATGAGGGATCTCGGCAACACACTGATTGTCGTGGAGCATGATGAAGATACGATGATGGCTGCCGATTATTTGATAGATATCGGTCCCGGCGCCGGCATTCACGGCGGCCGCGTCATATCGGCGGGGACGCCTGAAGAAGTGATGAATGATGCGGACTCTCTGACCGGACGTTATTTGTCAGGGGCTCAATTCATCCCTATGCCTCCGGAGAGAAGAAAGCCTGACGGCCGGTTCATTGAAATCAAAGGCGCTTCAGAAAACAACCTGAAAAAAGCGAACGCCAAATTCCCGCTCGGCACTTTTACGGCGGTGACAGGTGTGTCCGGTTCCGGAAAAAGCACGCTTGTGAATGAAATTCTGCATAAGGCGCTTGCGCAAAAGCTTCATAAAGCCAAAGCGAAACCGGGAAGCCATAAAGAAATCAAAGGCCTTGACCACCTTGATAAGGTGATCGACATCGACCAGGCGCCGATCGGCCGGACACCGAGATCAAACCCGGCAACTTACACGGGCGTGTTTGATGATATCCGCGATGTATTCGCGCAGACAAATGAAGCAAAGGTGCGCGGCTATAAAAAAGGCCGGTTCAGTTTTAATGTAAAAGGCGGGCGCTGTGAGGCCTGCCGCGGCGACGGCATCATTAAAATTGAGATGCACTTCCTTCCTGACGTGTACGTTCCGTGTGAAGTGTGCCACGGCAAACGTTACAACCGGGAGACGCTGGAGGTCACATACAAAGGAAAAAGCATTTCTGACGTTCTGGATATGACGGTGGAAGATGCTCTGTCTTTCTTTGAAAATATCCCGAAAATCAAACGCAAGCTTCAAACGCTTGCCGATGTCGGACTCGGGTATGTGACGCTCGGCCAGCCGGCGACGACGCTGTCAGGCGGAGAAGCGCAGCGCGTCAAGCTTGCTTCCGAACTGCATAAGCGTTCCACCGGCCGGACGCTGTATATTTTGGACGAACCGACGACAGGCCTCCACGTTGATGATATCGCAAGGCTTTTGGTTGTGCTTCAAAGACTCGTCGATAACGGAGATACCGTTTTGGTCATTGAACATAATCTCGATATCATTAAAACGGCGGACTACATCGTCGATCTGGGACCTGAAGGCGGAGCGGGCGGCGGCATGATCGTAGCCTCCGGGACGCCTGAAGAAGTTGTCGAAGTGAAAGAATCATATACGGGCCGCTATCTGAAACCGGTAATGGAACGTGATAGAAAACGAATGAAAACATTGCTGGCCGAAAAAGAAACGGCAGCCACGTAA	MAIDRIEVKGARAHNLKNIDVTIPRDQLVVVTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMDKPDVDAIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLYARVGKPHCPEHGIEITSQTIEQMVDRILEYPERTKLQVLAPIISGRKGAHVKVLDQIRKQGYVRVRIDGEMAELSDDIELEKNKKHSIEVVIDRIVVKEGVAARLSDSLETALRLGEGRVMIDIIGQEELMFSEHHACPLCGFSIGELEPRLFSFNSPFGACPTCDGLGLKLEVDPELVIPNPELSLKEHAIAPWTPISSQYYPQLLQAVCRHYGIDMETPVKDLPKHQLDKVLYGSGDERIYFKYENDFGQVRENEIEFEGVLRNIERRYKETSSDYIREQMEQYMSQKPCPTCKGYRLKKEALAVLVNGRHIGTITELSVGDALEFFKNLTLSEKDMQIADLILREIVERLSFLDKVGLDYLTLSRAAGTLSGGEAQRIRLATQIGSRLSGVLYILDEPSIGLHQRDNDRLISALKNMRDLGNTLIVVEHDEDTMMAADYLIDIGPGAGIHGGRVISAGTPEEVMNDADSLTGRYLSGAQFIPMPPERRKPDGRFIEIKGASENNLKKANAKFPLGTFTAVTGVSGSGKSTLVNEILHKALAQKLHKAKAKPGSHKEIKGLDHLDKVIDIDQAPIGRTPRSNPATYTGVFDDIRDVFAQTNEAKVRGYKKGRFSFNVKGGRCEACRGDGIIKIEMHFLPDVYVPCEVCHGKRYNRETLEVTYKGKSISDVLDMTVEDALSFFENIPKIKRKLQTLADVGLGYVTLGQPATTLSGGEAQRVKLASELHKRSTGRTLYILDEPTTGLHVDDIARLLVVLQRLVDNGDTVLVIEHNLDIIKTADYIVDLGPEGGAGGGMIVASGTPEEVVEVKESYTGRYLKPVMERDRKRMKTLLAEKETAAT	PGPT0014915_2372	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
D1-12_03623	240			hypothetical protein	ATGGAGAAAGATCCCGAAAACGCCCAAGTAACGGAAGAGAGTCTTCGAAATTTAATTCGCGAACAGAAAAGAATGAACAGCGAAATGCTGGCTGAATTGGAACAGATCAAAGCAGCCCCTCTTCCCATTTCCCATGATATCCAATATATAAAAGTGCTGCTGGACAGCAGCAGCACCCATATTCTGCAGGACTTAATGCATTTAAGCAGACAGCTTCCCCAACAGAAAAAAAGCCTGTAA	MEKDPENAQVTEESLRNLIREQKRMNSEMLAELEQIKAAPLPISHDIQYIKVLLDSSSTHILQDLMHLSRQLPQQKKSL				NA	NA	NA	NA	NA
D1-12_03624	327			hypothetical protein	TTGAACCGAAATCAAGCGATTATCGCATCAATCTGTTATTTCAGCGTGTTTCTCGCGCCGCTCATTCTTCCGATTGTGGCTTACTTTGTCGTCGATGAAAAAGAGACGAAGCGGCATGCCATGCGCGCTCTGATTTCCCATATCATTCCGTTTGCGGGATTGCTGATTGTGACCGCGGGTGTTGTCGGCGGATTGATTACGGCTCAAGGGGAGAGTATGGTGCCCGTTTTTGTTATGATAACAGGAGCAGCTGTTTATTTTCTGATCCTCATCGGAATGGTCATTTGGAATATCGTGCAGGGAATTAAGGTGTTACGCCAGGTGTAA	MNRNQAIIASICYFSVFLAPLILPIVAYFVVDEKETKRHAMRALISHIIPFAGLLIVTAGVVGGLITAQGESMVPVFVMITGAAVYFLILIGMVIWNIVQGIKVLRQV				NA	NA	NA	NA	NA
D1-12_03625	1098			hypothetical protein	ATGAAACAGGAGAAAGAACGGATTTTAAAGCTTGTGGAAGACGGCATGCTGACGGCGCAGGAAGCACTGACGCTCATTGAAAAACTGGATCATGAATATAAAGAAAAAGAAGAGCAGATCACCGCATTATCTGCGGAGGTCCAGGAACCTGCGGAAGATTTCGAAAGCGGGGCAAAAGGAAGCCAAAAGCCGTCGCTCGGGGCGAAGCTGTTCGACTGGATTGATTCTGCCGTCAAAAAAGTGAAGGAAGCGGATCTTGATCTGAATTTCGGCCACGCACACGAAGTGCAGCATATTTTTCAATTTAAAGACAGTGAATTCTCGGCCATTGATATGCAGATCGCAAACGGCAGCGTCAATATCGTGCCGTGGGCGGATGAAGATATCAGAGCGGAGTGCCAGGCGAAAGTGTACCGGGCGGACAGTCAGGAGGCGGCGCGCACCGCATTTCTTCAGCACATTGAGTGTGAAGTGAAGGGCAATAAGTTTTTTGTCCGCACGGAAAAGAAAACGATGAAAACCAATGTCACGCTTTATGTTCCCCAGAAAGAGTACGATAAGATAAGAGTGAAGCTGTTTAACGGACCGATCAGAGGGGAACATTTACATGTAAAAGAATTCTCGGCGAAAACGACAAACGGCGTACTGTCATTCTCTCATTTGACGGCTGATAAAGCGTCGGCGGAAACGGCTAACGGACAAATCAAGCTGGCCGGACATCAATGCGGCGCGATTGAAGCGGAAACGATCAACGGCTTGATTGATTTGCGCGGATCGAGTGAATCCATTGACGTTCAAAGCTTTAACGGCAATATCATGCTTACCGTGACAGCGCCGCACTGCCGCTCCATCTACACGAAAACGACGACCGGAAACGTGGATATCGCTCTGCCTGATGATTCGGCGGTGAAAGCGGAGCTGAAAAGCAATCTCGGCTCTCTCAGCCATGAGCTGATTGATGTGGAAATTTTAAAGGAAAAGAATGACACCATTCAAAAAGAACTGATGCTGGCATCAAATCAAGGCCATGATCAGCATCTCTCGATTTTCTCAGAATCGTTAACAGGAGCCATTAAGCTCAAGCATACTCAGAGGTGA	MKQEKERILKLVEDGMLTAQEALTLIEKLDHEYKEKEEQITALSAEVQEPAEDFESGAKGSQKPSLGAKLFDWIDSAVKKVKEADLDLNFGHAHEVQHIFQFKDSEFSAIDMQIANGSVNIVPWADEDIRAECQAKVYRADSQEAARTAFLQHIECEVKGNKFFVRTEKKTMKTNVTLYVPQKEYDKIRVKLFNGPIRGEHLHVKEFSAKTTNGVLSFSHLTADKASAETANGQIKLAGHQCGAIEAETINGLIDLRGSSESIDVQSFNGNIMLTVTAPHCRSIYTKTTTGNVDIALPDDSAVKAELKSNLGSLSHELIDVEILKEKNDTIQKELMLASNQGHDQHLSIFSESLTGAIKLKHTQR				NA	NA	NA	NA	NA
D1-12_03626	195			hypothetical protein	ATGAAAAGACTTTACCGTTCAGAAAAAAACCGTAAAATCGCCGGTGTCGTCGGCGGTTTGGCGGAGTACATCAATATGGATGCGTCGCTTTTGCGCATTATCACCGTTGTATTAGCGCTTGTCACGAGCGGAATCGTGCCGATTGTATATATTATCTGGTGTTTTGTCGTACCTTTAGAAGGAGATTTGAAATAA	MKRLYRSEKNRKIAGVVGGLAEYINMDASLLRIITVVLALVTSGIVPIVYIIWCFVVPLEGDLK	PGPT0027520_1747	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-PspC-PspB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027520-toxin_pspC-K03973	NA	NA
D1-12_03627	360			hypothetical protein	ATGATCAAATGGGCAGTCAGCATTTTAGTAAATGCTTTATTATTAATCGTTATCGCGGGATATTTTGATTCCGTCCATATCAGCAGTATCGGAGCGGCTGTCATCGCCAGTGTGATTCTTTCTGTGTTAAATGTGCTGATCAAGCCGATCATCGTCATATTGACATTGCCCGTCACGGTTGTGACCCTCGGCCTCTTTCTGTTTGTCATCAACGCCATTACGTTAATGATGACCGCAGCCTTGATGGGAGACAGCTTTCAGATTGACGGGTTCGGCACCGCCATTTGGGCATCCGTCGTGCTGTCCGTTTTCCACTTGCTGATTCAAAAAGGCATATTGGAGCCGCTTAGAAAAGGGTAA	MIKWAVSILVNALLLIVIAGYFDSVHISSIGAAVIASVILSVLNVLIKPIIVILTLPVTVVTLGLFLFVINAITLMMTAALMGDSFQIDGFGTAIWASVVLSVFHLLIQKGILEPLRKG				NA	NA	NA	NA	NA
D1-12_03628	3870	cpdA_2		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGAAACTTGTGATGACGCTCTTTTTTCTGATTGGTTTGCTTTGTGTAAGTCCTTCTGCGGATGCGGCGCGCAAAGAATCGGCAATCCCCGTGAATCAGCAGGAATTCGGACAGCCGCCTCATTACATACCGCTTCTGGAGAATCCTCCCCAAATCGAAGTAAAGGCGGAAATGAAAAGAAACCTGTTCATACAGGCTCATGTACGGAATGCTGACTATCAAGCGTTTTCGGCGTTTCTTTTTTATAAACAAAGCAATGAGCTGGGGTTTAAAATGGTGCCGATGGAGCCCGCGCCAGGCGCAATCCGGCTGTTTACGGCCCAGGTTTCAAAGCGGGATATCTGGAATGGAGAATTGGAATATTACCTCGTATTCACCAACGGCAGACAACGGGCGGAATCGGAGAAAAAGCGGCTGAAGCTGGACGGCTATCAAGCCGATTTGAATCATATTCCCGAGCTGATGATTACGGAGCTTGCGGTTGATACGAAAAATGAAGACGGCACTGATGCCTATGAATTTATCGAGGTGTATAACACGACGGACAGGCCCATTCATTCTAAAGACTATCACATCCGCTACCGCTATCCGAAGGAAGGGCCGGAATCAGATATGATATGGAGGCCGAAAGAAGATACCGTCATTCCGTCAGGCGGGACTTACGTGTTTTGGCTGAGACGCGCCGCATCAGAACTGACGATAGATGATTTCAACCGCTATTACGGGACACGCCTGAAGGAGGGAAAACATCTCGCCGTCATCGAAGGGACGGACGGAATGTCCAACGGCCGCCCGCGTACGGTGGTGCTGTCGGCAAATACCGGAAAGGGTATCGCCTCAGCGCATTACCGGAAACACGCTTTCCGCCGGCTGACTTCTGTGCTGTACAAATATCCGCTGAACGGAACGGGAGAATTGCTGAGGATCTCCACGAGCGAGCATAAGCCGTCACCGGGCTCTGTTTTTCAGGCGCAGATCCCGGAGCAGAAAAGGGTGATAAAACCCGACAAGGAAAAACCGGTCATCGAAGACCTTACAGACAGAAAGCCCGTCCGGCCCGCTGAAAGCATTGAATTAAAGGCTGACATAAAAGACAAAAACCTTGTCAAAACAGCCGCGTTTTATTACCGGACCAATGAGAAAAAACCATTCAAACGAATTCTGGCCGAAAAAGACCGCAACGACAGCTTATACCATCACATTCTTTATTCCCCGGAACTGCTCGGCCAGGATCAGCTTGAGTATTATATCGCAGCCAGTGATGGAGAAAATGAAGCAAAAACGCCCGTCAAGATGATTGACATTGAACAGACGAGCAAATCACACGGACTCAGAATGAATGTTGAACCCGAAGATACGATATCCGGCACCTATCTGCTCAAAGCGACTTCCGACGTCAGCCCCGATAAGATCAAGCTGTGGATTGACGGCAAACGGCAGGAGACCCGGCCGGCCTTGGAAAAAGAAGTCTATTTCGCCTTCGATGCCCGGAAAACGAATCTTTATTTTCAAAACACCGTCATGATGGAAAACGAGGTGCTGCACATTTTTGACGATCCGTCTCACCGCTACAGAACGCACTCGGTTCTCCTTCCGGAACGTCTGCTGCAAAAAGGGGGCAAAACACAGAAAGTATCCATCCGTTCGGGCTCAAAGGTTTCTCCGTATGACACGGGAGAGAATCGGGATGATTTTGTCGTGAAACATGCCCGTCTGGTGCTTTCGGACGGAACGGTGATCAAAGACGGGAAGACGGATCCGGCTGAGCAGCTGTTTATCGGTGACGGCAGGTGGGCGAATCAGCAGAAGACCTTCTCATTCAGCCTGCCGGATCATTTGTTTACGTCACGGCTGCTGCCGTGGAACACGGCGAAGCTTTCGGAAGGCTATCACCATATTTTTGTTAGCGACGGTGAGGAGCAGCTGAGCCAGTCTGTGCGGGTGGACAATACGGGGCCGAAGATTGTCCCGAATATTAAAGAAGGCGCGGCGCTGAAAGGTAATGTTGAGCTGAATGCGGACATCCGTGACAAATGGAGCAAAGTGGAAGAGGTCAAAGCGTTTTTGGACGGAGAAAGCATTACGCTCCCGCATCACACGTCATCAGCCGATCTTAAGCCCGGAAAACATACCCTTACCATCATTGCGGCAGACCTTGCCGGAAATGAAACAACCTCCGTCCGCACCTTCCATATCAAACGGGAGGAGCCGAACCAGCCGGAGCTTGCCGATCAAAAAATCGGCGCCCACAAAGCAAAGCTGTCCGTCCGGGTAAAAGACCCGACGAAGGATGACATGAATGTATCATTTTACCGGGGCTTCCGTTATACCGCGCGGAATCCGGGCAGCGTGAAAGTGTATAAACACGCCTCATTAACGGAACCGCCGAGGGGCATAAAAGAAAATGAAATGCCGTTTACCCTGCCTGAAATGAACCGCATCTCGGCAAATGACGGAAAAACCGTTTCGACGGAAAGTATGGAGCGTTTTCCTTATCACCGATTCGAAGTCTCCGTTGACCCGTCTATCGACGAAACGGATCTGGCCGAGGCGGTCTGGAAAGGAAGCTCTCTGCCCGGCCGAAAGGTAACCATGTATATTTGGAATTACCGGACAAGCCGCTGGCAGGAGGCGGACAGCGTCCTTGCCAAAGATAAAAAGCCGTTTACATTAAAAGCCGCCGTTTCCGCAGCGGATGTGGTGAAGAACTCAAAAATGAATGTCATCGTGCAGGATCAAATACCGGCGAAAGGCAATTACACGTTTGTCTGGATGTCGGATACACAATATTACGCACAAGGGCACCCGCACATTTTTGACAAAATGACGGAGTGGATCAAAGAAAATAAGGAAAAGCACAATATTAAATATGTCTTTCATACCGGTGATATCGTCGATGATTCAATGGTGATGAAACAGTGGAAAAACGCCGATCACTCCATGCGGACGCTTGACAAGGCGGGGATTCCGTACGGAGTGCTTGCCGGCAATCACGACGTCGGCCATAAAGACGGCACATACCGAACCTTCGGGGATTTCTTCGGGAGCCGCCGGTTTGAACAGAACATGCATTACGGCGGATCATACAAAAATAACCGCGGGCATTATGACCTGCTGTCGGCAAGCGGGAACGATTTTATTATGATTTATATGGGCTGGGGCATTGGGGAACAAGAGATTGACTGGATCAATCAAGTGCTGAAGAGGTATCCGGACCGAACCGCCATCTTATGCTTTCATGAGTACTTGCTTGTGAGCGGAAATCGAAGTCCGATCGGGGAAACGATCTATCGAAAAGTCGTCAAGCCGAATCGCAATGTGGCGATGGTATTAAGCGGCCATTACCATAATGCCATGAAAAAAACCGATGCGCTTGACGATGACGGGGACGGAAAACCGGACCGCCTCGTCCACCAGATTCTGACCGACTACCAGGACGGTCCGGAAGGGGGGCAGGGCTTTATGCGCATGATGCAATTCGATCAGGCTGCCAATCAGGTTCACATGTTCTCCTACTCGCCGTACACGGATGACATCAATTACTATGACACCGATCTGTTCGCTGATAAAGACGAATTCTCAGCAGAAATGGATTTACAGCCGAAGAGGAAAAGGGTGGCGACCGATTATTTTGAATGCAACGTCTATACGAACGAACTGCTCGGTCATAAAAAACACGTAAAAAGCGGAAAAACCGCAAATTGGATCTGGGACGGCCTGCAGCCTGATTCCGTTTATTACTGGTACACCGTCGTTAAGGACCCGTACAACGGCAAAACAATATCACCGCTGTGGATGTTCAAAACGGGAAATACGCCGTATCGCCCGGCTCCGGATCAGTTTGATTTCAGGCATGCCTCAAACCCATAA	MKLVMTLFFLIGLLCVSPSADAARKESAIPVNQQEFGQPPHYIPLLENPPQIEVKAEMKRNLFIQAHVRNADYQAFSAFLFYKQSNELGFKMVPMEPAPGAIRLFTAQVSKRDIWNGELEYYLVFTNGRQRAESEKKRLKLDGYQADLNHIPELMITELAVDTKNEDGTDAYEFIEVYNTTDRPIHSKDYHIRYRYPKEGPESDMIWRPKEDTVIPSGGTYVFWLRRAASELTIDDFNRYYGTRLKEGKHLAVIEGTDGMSNGRPRTVVLSANTGKGIASAHYRKHAFRRLTSVLYKYPLNGTGELLRISTSEHKPSPGSVFQAQIPEQKRVIKPDKEKPVIEDLTDRKPVRPAESIELKADIKDKNLVKTAAFYYRTNEKKPFKRILAEKDRNDSLYHHILYSPELLGQDQLEYYIAASDGENEAKTPVKMIDIEQTSKSHGLRMNVEPEDTISGTYLLKATSDVSPDKIKLWIDGKRQETRPALEKEVYFAFDARKTNLYFQNTVMMENEVLHIFDDPSHRYRTHSVLLPERLLQKGGKTQKVSIRSGSKVSPYDTGENRDDFVVKHARLVLSDGTVIKDGKTDPAEQLFIGDGRWANQQKTFSFSLPDHLFTSRLLPWNTAKLSEGYHHIFVSDGEEQLSQSVRVDNTGPKIVPNIKEGAALKGNVELNADIRDKWSKVEEVKAFLDGESITLPHHTSSADLKPGKHTLTIIAADLAGNETTSVRTFHIKREEPNQPELADQKIGAHKAKLSVRVKDPTKDDMNVSFYRGFRYTARNPGSVKVYKHASLTEPPRGIKENEMPFTLPEMNRISANDGKTVSTESMERFPYHRFEVSVDPSIDETDLAEAVWKGSSLPGRKVTMYIWNYRTSRWQEADSVLAKDKKPFTLKAAVSAADVVKNSKMNVIVQDQIPAKGNYTFVWMSDTQYYAQGHPHIFDKMTEWIKENKEKHNIKYVFHTGDIVDDSMVMKQWKNADHSMRTLDKAGIPYGVLAGNHDVGHKDGTYRTFGDFFGSRRFEQNMHYGGSYKNNRGHYDLLSASGNDFIMIYMGWGIGEQEIDWINQVLKRYPDRTAILCFHEYLLVSGNRSPIGETIYRKVVKPNRNVAMVLSGHYHNAMKKTDALDDDGDGKPDRLVHQILTDYQDGPEGGQGFMRMMQFDQAANQVHMFSYSPYTDDINYYDTDLFADKDEFSAEMDLQPKRKRVATDYFECNVYTNELLGHKKHVKSGKTANWIWDGLQPDSVYYWYTVVKDPYNGKTISPLWMFKTGNTPYRPAPDQFDFRHASNP				NA	NA	NA	NA	NA
D1-12_03629	576	yxaF_2		putative HTH-type transcriptional regulator YxaF	ATGAACAGTAAAACCGGGACAAAAGAAAGAATTATTCAAACCTCTGCATATCTTTTTCAGATTCAGGGATACCATGCGACTGGTTTGAACCAAATTATAAAAGAGAGCGGAGCACCCAGAGGGTCTGTGTATCATCACTTTCCAAACGGAAAAGCAGAACTCGCCATTGCGGCGATCAAATATACGGGAAGATGCGTTGAAAAGCAAATACAGAATAGTATGTCTCAATTCGCGGACCCTATAGAAGCGATTCAGCACTTTATTCATGTAACGGCTGAACAGTTTAATGATCCGCAGAATATTGAGGGCGTGCCGGTTGGATTGCTGGCGGGTGAGACCGCTCTGATCAATGAAACGTTAAGATGCACATGTGTTGAGGTGTTCAAGAAGTGGACGGATGTGTTTGCGGCAAAATTTCTTGAGCATGGGTTTGAACAAGAGGAAGCGGAGAAGCTCGGGGTGACAATCAACTCGATGATTGAAGGCGCAATCATGTTTTCACTGGCTCATAAAAACAAAGAACCGCTGCTGCTGATTTCAAAACAGGTTCCGTATATTGTCCAAAACAGAGGGTAG	MNSKTGTKERIIQTSAYLFQIQGYHATGLNQIIKESGAPRGSVYHHFPNGKAELAIAAIKYTGRCVEKQIQNSMSQFADPIEAIQHFIHVTAEQFNDPQNIEGVPVGLLAGETALINETLRCTCVEVFKKWTDVFAAKFLEHGFEQEEAEKLGVTINSMIEGAIMFSLAHKNKEPLLLISKQVPYIVQNRG				NA	NA	NA	NA	NA
D1-12_03630	732	nagR_2	COG2188	HTH-type transcriptional repressor NagR	ATGCAGATTGATAAACAATCTCCGATTCCGATTTACTTTCAGATTATGGAACAATTGAAAACACAAATCAAAAACGGCGAGCTGAAAGCGGATGCGCTGCTTCCGTCGGAGCGGGAATACGCCGAACAATTCGGCATCAGCCGCATGACGGTGCGCCAGGCGCTTTCCAATTTGGTGAATGAAGGATTTTTATACAGACAGAAAGGCCGGGGAACGTTCGTCAGCAAACTGAAGATGGAACAGCCGCTTCAAGGGCTGACAAGCTTCACCGAAGATATGAGAAGCCGGGGCATGAAGCCGGGGAGCAGACTTGCCGAATACCAGCTGATTCAGGCGACGGAAGAATTATCTTCTATCCTGGGATGCGGCTATCCGGCAACGCTTCATAAAATCATCCGCGTCCGGCTGGCAAATGATATCCCGATGGCGATTGAGGCATCGTACATCCCGTTTGACAAGGCGGGAAAATTGGATGCCTCCCATTTTCAATCATCCATGTATGAGCATATTGAAGCGTACAATCAGATGCCGATCTCACGGGCAAAACAAGAGCTTGAACCGGGAGCCGCTTCCGAGGAAGAAGCTGAGTTGCTCGGTATCCAGCCCGGTGCCCCCGTCCTCTATATCAAGCGGACCACTTATCTGCAGGACGGCACTGCTTTTGAGCACGTCAAATCCGCCTACAGAGGCGACCGCTACACATTCGTGCATTATATGGACAGGGTGAAATGA	MQIDKQSPIPIYFQIMEQLKTQIKNGELKADALLPSEREYAEQFGISRMTVRQALSNLVNEGFLYRQKGRGTFVSKLKMEQPLQGLTSFTEDMRSRGMKPGSRLAEYQLIQATEELSSILGCGYPATLHKIIRVRLANDIPMAIEASYIPFDKAGKLDASHFQSSMYEHIEAYNQMPISRAKQELEPGAASEEEAELLGIQPGAPVLYIKRTTYLQDGTAFEHVKSAYRGDRYTFVHYMDRVK				NA	NA	NA	NA	NA
D1-12_03631	726	nagB	COG0363	Glucosamine-6-phosphate deaminase 1	ATGAATGTTATCACATGCAGACATTATGAAGAATTAAGTGAAAAAGCCGCAGCGATTATTGCTGAAACAGTGAAACAAAAGCCGGATGCCGTTCTCGGCCTTGCGACGGGGGGCACTCCTGAAGGCGTATACAAAGAACTTGTGCGGATGCACCGCTCAGAAGGCTTGTCATTCCGGAATGTCACGACGATCAACCTTGATGAATACGCCGGGCTTTCTCCCGAGGACAAAAACAGCTATCATTATTATATGAATACACATTTTTTTGCACACATCGACAGCCGAAAGGACCGCCACTTTCTCCCTGACGGACGGGCAGACGATCTTGATGCCGAATGCGGACGATATGACCGATTGATTCAAACACTCGGCGGAGCGGATATACAGCTTTTAGGCATCGGACACAACGGCCATATCGGCTTTAATGAACCCGGGACGCCATTTGAATCCCGAACCCATGTCGTTGAGCTGAATGAAGAGACAAGACAGGCGAATGCGCGGTACTTTCCGTCAATTGATCAAGTCCCTGAAAAAGCCCTGACAATGGGGATCGGGACGATTTTGTCCGGCAAACGGATTTTGATCATGGCATCCGGAAAAAGCAAGGCCCAAGCGGTGAAGCAGCTTCTGGACGGGCGCGTCAGCGAAGCATTCCCCGCCTCCGCCCTGCACGCGCATCCGGATGTGACGGTCTTGATTGATGAAAAGGCTGCGGGCGGCGATTGA	MNVITCRHYEELSEKAAAIIAETVKQKPDAVLGLATGGTPEGVYKELVRMHRSEGLSFRNVTTINLDEYAGLSPEDKNSYHYYMNTHFFAHIDSRKDRHFLPDGRADDLDAECGRYDRLIQTLGGADIQLLGIGHNGHIGFNEPGTPFESRTHVVELNEETRQANARYFPSIDQVPEKALTMGIGTILSGKRILIMASGKSKAQAVKQLLDGRVSEAFPASALHAHPDVTVLIDEKAAGGD	PGPT0018865_2818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018865-nagB-K02564	NA	NA
D1-12_03632	1191	nagA	COG1820	N-acetylglucosamine-6-phosphate deacetylase	GTGGCTGAAAGCTTGTTAATCAGCGGTGCGGACATCGTAACAGAAAAAGAAATCATCCGAAACGGTTTTCTCGGTATAAAGGACGGCATCATTTCTTACGCGGGAAAAACAAGACCGCAAGAAACGTATGAGAAGGAATGGAAGGCGCCCGCGGGCTCGTATGCGCTTCCCGGAATGATTGATATTCATATTCACGGCGGATACGGCGCGGATACGATGGATGCCGATGTTGCAGCTCTTGATACAATGTCCGCCCGGCTGCCCGAAGAAGGAACAACCGCTTTTTTAGCGACAACGATCACACAGCAGCACGAAAACATTGAAAAAGCGCTCATCAACGCCAAAAAATGGGCGTCTTCCTCACCGCAGGCCCAAAAAGGCGCTGAGTTGATCGGCATTCATTTAGAAGGACCGTTTGTCTCTCCGAAAAAGGCGGGAGCACAGCCGAAACAATGGATTACTCCTGCTGATGCCGGGCTCTTTCAGAAATGGGAGCGGCTCTCGGGAGGGCTGATCAAAATCGTGACGCTTGCGCCGGAAGAAGATCCTGATTTCAGCCTGATCCGTTATTTGAAAAACCAAAACATCATCCCGTCAATGGGACACACAGACGCAGGAGCCGAGCTTTTACAAAAAGCGGCGGATGCCGGGGCGGTGCATATGACGCACCTCTTCAACGCCATGAGCTCCTTTCATCACCGTGAGCCGGGGGGCATCGGCACGGCTCTCGCCTGCGGCCGCATCACGGCGGAGCTGATCACTGACGGCATTCATTCTCATCCTCTGGCTGTAAAGCTTGCCTATTTGGCGAAAGGAAGCCAAAACCTGATCATGATTACAGACTCCATGCGGGCAAAAGGGCTTAAGGACGGAGAATACGAATTCGGCGGGCAAACAGTCACCGTTCGCGGGGACACGGCGCTTCTCTCTGACGGAACGCTGGCCGGTTCCATTTTAAAAATGAATGAAGGCGCGGCGCTCATGCGCAGGTTTACAAACTGCTCATGGCTGGATATAGCAAATATGACATCGGCAAATGCGGCCCGCCGCCTCGGCATATTCGACCGTAAAGGAAGCATCGCCGAAGGAAAAGACGCCGACGTTGTTCTGACGGACGGACAGTGCGGCGTGCTGGCCACGATTTGCCGCGGAAACACCGCATATATCTCAAGGGAGGCTGATTGGACATGA	MAESLLISGADIVTEKEIIRNGFLGIKDGIISYAGKTRPQETYEKEWKAPAGSYALPGMIDIHIHGGYGADTMDADVAALDTMSARLPEEGTTAFLATTITQQHENIEKALINAKKWASSSPQAQKGAELIGIHLEGPFVSPKKAGAQPKQWITPADAGLFQKWERLSGGLIKIVTLAPEEDPDFSLIRYLKNQNIIPSMGHTDAGAELLQKAADAGAVHMTHLFNAMSSFHHREPGGIGTALACGRITAELITDGIHSHPLAVKLAYLAKGSQNLIMITDSMRAKGLKDGEYEFGGQTVTVRGDTALLSDGTLAGSILKMNEGAALMRRFTNCSWLDIANMTSANAARRLGIFDRKGSIAEGKDADVVLTDGQCGVLATICRGNTAYISREADWT	PGPT0018860_781	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
D1-12_03633	933	hprK	COG1493	HPr kinase/phosphorylase	TTGGCAAAGGTTCGGACCAAAGACGTAATGGAGCAGTTCCATTTAGAATTGATCAGCGGAGAAGAAGGGATTAACCGCCCGATTACGATGAGTGATTTATCACGGCCCGGTATTGAAATCGCCGGTTATTTTACATATTACCCGAGAGAACGGGTGCAGCTTTTAGGAAAAACGGAGCTGTCATTTTTCGATCAGCTTCCCGAGGAAGATAAGAAACAGCGGATGAAATCGCTGTGCACCGATGTGACGCCAGCTATCATACTTTCCAGAGATATGCCGATCCCGCCGGAGCTTGTAGAAGCTTCCGAGCAAAACGGCGTGCCTGTGCTCAGATCCCCTCTGAAAACAACCAGGCTGTCAAGCAGGCTGACGAATTTTCTTGAAAGCCGTCTCGCGCCGACAACGGCCATTCACGGCGTGCTTGTGGATATATACGGCGTCGGCGTGCTCATTACGGGAAAAAGCGGCGTCGGTAAAAGTGAAACGGCGCTGGAGCTTGTCAAACGAGGTCATCGTCTTGTCGCGGATGACTGCGTTGAAATCCGGCAGGAGGATCAGGATACCCTTGTCGGGAACGCGCCTGATCTGATTGAGCATCTGCTCGAAATCAGGGGGCTCGGCATTATAAATGTCATGACGCTGTTCGGGGCGGGCGCCGTCAGAAGCAATAAAAGAATTACAATCGTCATGGACCTTGAGCTTTGGGAGCAAGGAAAGCAATACGACCGTCTCGGACTTGAAGAAGAAAAAATGAAAATCATTGATACGGAAATTACAAAACTGACCATTCCCGTCCGCCCGGGGCGGAATCTCGCCGTTATTATCGAAGTTGCGGCGATGAACTTCAGATTGAAGCGGATGGGCTTGAATGCTGCCGAGCAATTCACGAATAAGCTGGCGGATGTCATTGAGGACGGCGAACAAGACGAATAG	MAKVRTKDVMEQFHLELISGEEGINRPITMSDLSRPGIEIAGYFTYYPRERVQLLGKTELSFFDQLPEEDKKQRMKSLCTDVTPAIILSRDMPIPPELVEASEQNGVPVLRSPLKTTRLSSRLTNFLESRLAPTTAIHGVLVDIYGVGVLITGKSGVGKSETALELVKRGHRLVADDCVEIRQEDQDTLVGNAPDLIEHLLEIRGLGIINVMTLFGAGAVRSNKRITIVMDLELWEQGKQYDRLGLEEEKMKIIDTEITKLTIPVRPGRNLAVIIEVAAMNFRLKRMGLNAAEQFTNKLADVIEDGEQDE				NA	NA	NA	NA	NA
D1-12_03634	816	lgt	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGAATGAAGCAGGAACACCGATCAATCCGATTGCCTTGCAGCTCGGGCCTTTATCCGTGCACTGGTACGGAATCCTTATCGGCGCGGGCGCGTTATTAGGGCTTTGGATGGCCATGAGGGAGAGTGAAAAGCGGGGGCTGAAAAAGGACATTTTTATTGATCTTGTTCTTTTCGCCATCCCGATCGCAATCATTTGCGCAAGGGCATATTATGTGCTTTTCGAGTGGAGCTATTACTCGGAACACCCCGGGGTAATCATTAAAACTTGGAAAGGCGGCATCGCGATTCACGGCGGATTAATCGGCGCGATCGCAACGGGAATTGTCTTTTCAAAAGTAAGAGGCATCTCATTCTGGAAGATGGCGGATATTGCCGCGCCGAGTATTCTGCTCGGCCAGGCCATCGGACGCTGGGGGAACTTTATCAACCAGGAGGCTCACGGTGAAGCGGTCAGCCGGTCATTTTTGGAAAGTCTGCATCTTCCGGATTTCATCATTAATCAGATGTACATAGACGGACAATATTATCACCCGACGTTTTTGTATGAATCGCTGTGGAGTTTTGCGGGCGTCGTGATTCTGCTTCTGCTCCGCCGCGTGAACCTGCGCAGGGGCAATCTGTTTTTGACGTATGTGATCTGGTATTCAATCGGCAGATACTTTATTGAGGGAATGCGGACGGACAGCCTGATGCTTACGAGCCAGCTTCGGATCGCGCAGGTCATTTCCATTGTGCTGATTGTACTTGCGATTATTTTAATGATTTTCAGACGCATGAAGGGGTATGCCGATAAGCGGTATGCTGACACGGACTGA	MNEAGTPINPIALQLGPLSVHWYGILIGAGALLGLWMAMRESEKRGLKKDIFIDLVLFAIPIAIICARAYYVLFEWSYYSEHPGVIIKTWKGGIAIHGGLIGAIATGIVFSKVRGISFWKMADIAAPSILLGQAIGRWGNFINQEAHGEAVSRSFLESLHLPDFIINQMYIDGQYYHPTFLYESLWSFAGVVILLLLRRVNLRRGNLFLTYVIWYSIGRYFIEGMRTDSLMLTSQLRIAQVISIVLIVLAIILMIFRRMKGYADKRYADTD				NA	NA	NA	NA	NA
D1-12_03635	651	ppaX_2	COG0546	Pyrophosphatase PpaX	ATGACTGATAAACGTGTAACCGCCATTTTATTCGATCTGGACGGCACGCTGATTGACACGAATGAACTGATTATCGCTTCTTACCTTCATACGCTTGATCATTATTACCCGGGGCAGTTTAAAAGGGAAGATGTGCTCCCTTTTATCGGCCCGCCTCTGTACGAAACGTTTTCAGGCATTAATGCCGAAAAGTGCGATGAGATGATCAGCATGTACAGAGCATTCAACCATGAAAAGCACGATGAGCTCGTCATGGAGTACGAAACGGTTTATGAAACGCTTGATGAATTGAAAAAAGCGGGCTATCAGCTCGGTATTGTCACCACAAAGCTGAGGGATACAGTCAATATGGGATTGAAGCTGACAGGCATCGGGGCGTTTTTCGATACTGTCGTCACGCTTGATGATGTAAAGCACCCGAAGCCTGACCCCGAGCCTGTGCGGCTTGCGCTCAGCCGGCTTGGGTGCGATCCGTCGGAAGCCATCATGGTCGGTGACAATTATCACGATGTCATGGCGGGAAAAAACGCCGGCACGAAAACAGCCGGCGTCGCGTGGACGATTAAAGGCGCACAGGCGCTTTCCGCCTATGAACCCGATTATATGCTCGAGAAAATGAGTGATTTATTGCACATCACCGGAGTGAAGTAA	MTDKRVTAILFDLDGTLIDTNELIIASYLHTLDHYYPGQFKREDVLPFIGPPLYETFSGINAEKCDEMISMYRAFNHEKHDELVMEYETVYETLDELKKAGYQLGIVTTKLRDTVNMGLKLTGIGAFFDTVVTLDDVKHPKPDPEPVRLALSRLGCDPSEAIMVGDNYHDVMAGKNAGTKTAGVAWTIKGAQALSAYEPDYMLEKMSDLLHITGVK				NA	NA	NA	NA	NA
D1-12_03636	519	dapH_2		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	GTGAGAAAAACAGACCGCCATCCTGTTTCAGGTGCAAATTCATTGTGGCATGTTTATCAGACGGTTCCCTTCCTGAAGGTGATGAAAAATTTCATCATCATTCAGATTGCAAGGTATACGCCGTTTTTAAGCGTGAAAAACTGGCTGTACCGAACCTTTTTGAAAATGAATGTCGGAAAACAGACGTCATTCGCGCTGATGGTGATGCCGGATATCATGTTTCCCGAAAAAATCACTGTCGGAAAAAACAGCATTATCGGCTACAATACGACGATTTTGGCTCATGAATATTTAATACATGAGTACCGGACCGGTTTTGTCACAATCGGTGACGAGGTGATGATCGGGGCAAACACAACCATTCTGCCCGGCGTCACCATCGGGAGCGGAGCCGTTGTATCAGCCGGCACGCTGGTGCACAAAGATGTCCCGGCCGGGGCGTTTGTCGGAGGAAACCCGATGAAGCTGATCTATACGCGCGAAGAAATGAAAAAACGAATGGAAAACCCCGCAGATTAA	MRKTDRHPVSGANSLWHVYQTVPFLKVMKNFIIIQIARYTPFLSVKNWLYRTFLKMNVGKQTSFALMVMPDIMFPEKITVGKNSIIGYNTTILAHEYLIHEYRTGFVTIGDEVMIGANTTILPGVTIGSGAVVSAGTLVHKDVPAGAFVGGNPMKLIYTREEMKKRMENPAD				NA	NA	NA	NA	NA
D1-12_03637	726			hypothetical protein	ATGAAGACGCTTGGAACATTATGTGTGCTGATTCTGACAGCCGTCCTTGTCTATCTGGGATATAACATCTATACAAACGATATTCATTTAAATTTTTTCAATCAGCAGTCCGACGAGCCTGATGAGAAAACACCGTTAAAAGGGAGCGCGTCACCGCTGAATGTCGTTCTGTACAGACAGATGGATTCTCCCAGACTGTACAATGGCTGTGAGGTGACCAGCCTTGCCATGATTTTGAACAATGCCGGATATCATGTGTCAAAAAATACATTGGCGGATAAAATCAATAAAGTTCCGCTCACATACAGCAGCGGGCTGAAGGGAGATCCGAATGAAGGATTTGCCGGAGATATGGAAAACGGCCCGGGTTTAGGCGTTTATCATGAGCCGGTTGATAAACTTGCCAAAGAATATGCGGGAAACAAAGTATACGATCTTACGGGAAAAGACATTTCTTCAGTGTACCGCCAGCTTGAAAAAGGGCGGCCGGTCTGGGTGATTACCACCACATCCTTTAAGCCGGTTGATCATATGCAGACTTGGGATACGCCGAACGGAAAGATCGACATTACGTTCAGTATGCATAGCGTAGCCGTAACCGGTTATGATCACGATTATGTATACGTTAATGATCCTTACGGCTATAAAAACAGAAAAACAGACCGGTCTGACTTTGAAAAAGCCTGGAAGCAGATGGGCAGCCAGGCCATTGTGATCAAGTCATAA	MKTLGTLCVLILTAVLVYLGYNIYTNDIHLNFFNQQSDEPDEKTPLKGSASPLNVVLYRQMDSPRLYNGCEVTSLAMILNNAGYHVSKNTLADKINKVPLTYSSGLKGDPNEGFAGDMENGPGLGVYHEPVDKLAKEYAGNKVYDLTGKDISSVYRQLEKGRPVWVITTTSFKPVDHMQTWDTPNGKIDITFSMHSVAVTGYDHDYVYVNDPYGYKNRKTDRSDFEKAWKQMGSQAIVIKS				NA	NA	NA	NA	NA
D1-12_03638	1173	hisZ	COG3705	ATP phosphoribosyltransferase regulatory subunit	ATGTTTATGTTTGAGAAACCGCATGGCATGAGAGATACGCTGCCCGGTTTATACGAAGCCAAGAAAAAAGTCCGTTCCACACTGACGGATTTAATTGATAAATGGGGTTATCAGTTTATGGAGACGCCGACCCTTGAATTTTATGAAACAGTAGGCGTCCAGTCAGCTATTGAAGAACAGCAGCTATTTAAGCTTCTCGATCAGGACGGAAAAACGCTTGTGCTTCGGCCTGACATGACCGGACCGATTGCCAGGGTGGCGGCGTCTAAGCTGCACAAACACAATCATCCGCTCAGAGCGGGGTACGCGGCAAGCGTCTATCGCGCTCAGGAGCGGGAAGGCGGACGTCCGGCAGAATTTGAACAGGTCGGCGCGGAGCTGATCGGCGACGGATCAACAAGCGCGGACGCCGAGGTGATTGCGCTGGCGGCCGGCGCTTTGAAAAACGCGGGATTGCACCGGTTTAAAATCGCGATCGGCCATGCCGGACTCGCTGATGAGCTGTTTGTCGAGGTTTTGGGCAATGCCGAGCGGGCGGATGTTCTGCGGCGCTTTCTCTTTGAAAAGAATTACGTGGGATACAGGGAACATGTCAAATCGCTTCCGCTTTCTTCAATAGACAAAAGCCGGCTGCTCGCACTTCTGGAATTGCGAGGCGGGAAAGAAATCTGCGCCAAGGCGGAGGAGATCATCGGCATCTCCGGACAAAGCTTGATTCAGGAGCTGGAAGACCTGTGGGACATTCTTGAGGATTACGGGTGTGCCGAGCATATTCGCCTTGATCTGAATATGGTCAGCCATATGAGTTATTACACGGGAATTTTATTCGAAGTGTACGCGGCAAATGTTGGTTTCGTCATCGGAAGCGGCGGACGCTATAACAATCTTCTCGGCCATTTCGGCAGTCCCGCTCCCGCCACGGGTTTCGGGCTCCGTATCGACAGGCTGATTGAAGCGCTCGGCATCCAGGAAGAAACTAGTGAAGCGGACGCTGTGATTTTCAGCAAGGAGCAGCGGGCGCAGGCCATTTTATTCGCGGAGGAAGAAAGGGCGAGAGGCAGAAAAGTCGTCCTGCAGGATTTAGCGGGCATTGAAAATATCGATCATATGACAAAATCATTCGTAAACGTCACATACTTTATCGGTGCAAGAAAGGAAGAGCAGAATGGGTAA	MFMFEKPHGMRDTLPGLYEAKKKVRSTLTDLIDKWGYQFMETPTLEFYETVGVQSAIEEQQLFKLLDQDGKTLVLRPDMTGPIARVAASKLHKHNHPLRAGYAASVYRAQEREGGRPAEFEQVGAELIGDGSTSADAEVIALAAGALKNAGLHRFKIAIGHAGLADELFVEVLGNAERADVLRRFLFEKNYVGYREHVKSLPLSSIDKSRLLALLELRGGKEICAKAEEIIGISGQSLIQELEDLWDILEDYGCAEHIRLDLNMVSHMSYYTGILFEVYAANVGFVIGSGGRYNNLLGHFGSPAPATGFGLRIDRLIEALGIQEETSEADAVIFSKEQRAQAILFAEEERARGRKVVLQDLAGIENIDHMTKSFVNVTYFIGARKEEQNG				NA	NA	NA	NA	NA
D1-12_03639	642	hisG	COG0040	ATP phosphoribosyltransferase	ATGGGTAAGGTACTCACAATGGCAATGCCAAAAGGACGGATATTCGAAGAAGCGGCCGGGTTGCTGCGGCAGGCCGGGTACAGGCTCCCCGAGGAGTTTGAAGAATCGAGAAAGCTGATCATTGACGTTCCTGAAGAAAATCTCCGCTTTATTCTGGCAAAGCCGATGGATGTGACGACTTATGTCGAGCATGGCGTCGCTGATGCCGGTATTGCCGGAAAGGATGTCATGCTTGAGGAAGAGCGTGACGTGTATGAGGTGCTCGATCTGAAAATCAGCAAATGCCATCTCGCCGTTGCGGGGCTTCCCGGAGCGGATTGGAACGGGGTCGCCCCGAGGATTGCGACGAAATATCCGAATGTTGCGTCAAGTTATTTCAGAGAGCAGGGCGAGCAGGTGGAAATCATTAAGCTGAACGGTTCGATTGAATTGGCGCCTTTAATCGGCCTTGCTGACAGAATCGTAGATATCGTATCAACCGGGCGGACATTAAAGGAAAACGGTCTCGTTGAATCAGAACATATTTGTGACATCACATCGCGTTTTATCGTCAATCCGGTCAGCTACCGCATGAAGGATGATGTAATCGACGAAATGGCGGCCAGGCTGGCCAGGGTTGTGGAAGGAGAAACGGCACAATGA	MGKVLTMAMPKGRIFEEAAGLLRQAGYRLPEEFEESRKLIIDVPEENLRFILAKPMDVTTYVEHGVADAGIAGKDVMLEEERDVYEVLDLKISKCHLAVAGLPGADWNGVAPRIATKYPNVASSYFREQGEQVEIIKLNGSIELAPLIGLADRIVDIVSTGRTLKENGLVESEHICDITSRFIVNPVSYRMKDDVIDEMAARLARVVEGETAQ	PGPT0017400_3718	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
D1-12_03640	1314	hisD		Histidinol dehydrogenase	ATGAAAATAACCGCAGTAAAAAGAAGCGAGCGGTTCTCACTGAAGCGTTCCATCGACAGCGGAACCGAAGAGCAGCGGAAAACCGTCAGGGGGATTATTGAAGACGTCAGACAAAACGGTGACAAAGCCGTTTTGGCCTATACAAAAACATTTGACGGCATCAGCCTGAATCAAATGGCCGTGAGCGCAGAGGAAGTCACCGAGGCGTACCGTCTGCTTGATGATCAGCTGCTGGAAGTGATCAGACAGGCGATTGCCAATATGAAAGAATATCACGAACGCCAGCTGCAATCTTCTTGGTTTTACCATCGCAAAGACGGCACGATGCTCGGGCAGAAAATAACGGCGCTCGATTCCGCGGGCGTATACGTGCCGGGCGGGACGGCCGCTTATCCGTCTTCCGTTTTAATGAATGTCATCCCCGCTCTCGCTGCGGGAGTGGAACGGATCGTTCTCGTCAGTCCTCCGGGGAAAGACGGCCGCCTTTCGCCGGGCGTTCTGGCGGCGGCCTCTGAGCTCGGCATAAAGGAAATTTACAAAGCGGGAGGATCGCAGGCGATTGCCGCGCTCGCTTACGGAACGGAAACGATACAGCCTGTAGATAAGATCACGGGCCCCGGAAATATATTTGTAGCACTCGCGAAGCGGGAAGTCTTCGGCGTTGTGGATATTGACATGATTGCCGGACCCAGTGAAATCGTGGTTCTGGCAGACGATACGGCGGTGCCCAAAGAAGTCGCTGCTGACCTGCTTTCACAGGCCGAACACGATACGCTCAGCTCAAGCGTGCTTGTCACCGACTCACGGAAGCTTGCCGAAGCAGTATCAGATGAGGTGGATAAACAGCTTCAGACCCTGCCGCGCAAAGAAATCGCCGAAGCATCGATCAGGGATCACGGCCGCATTTATATCGCGGAATCGATGGAAGATGCAGTGGACACGGTGAATGCGCTGGCGCCTGAGCATTTAGAAATCATGACGCATTCGCCGGAGGCTTTGCTTGGAAGCATCAGACACGCGGGGGCGATTTTCTTAGGACGATACAGCGCTGAACCGGTCGGCGATTATTTTGCCGGACCGAATCACGTTTTGCCGACAAACGGAACGGCGCGGTTTTCAAGCCCGTTGAATGTAACAGATTTTCAAAAGAAATCGAGCATCATCTCATACAGCCGGAAGGCATTTGAAACACACGCAGACAGCATTGCCGCATTTGCGAGACTGGAAGGGCTTGAAGCGCACGCAAGATCGATTGAAGCGAGAAACGGAGGAATGACCGATGAGAAAAGCGGAACGCGCCAGAACAACAAATGA	MKITAVKRSERFSLKRSIDSGTEEQRKTVRGIIEDVRQNGDKAVLAYTKTFDGISLNQMAVSAEEVTEAYRLLDDQLLEVIRQAIANMKEYHERQLQSSWFYHRKDGTMLGQKITALDSAGVYVPGGTAAYPSSVLMNVIPALAAGVERIVLVSPPGKDGRLSPGVLAAASELGIKEIYKAGGSQAIAALAYGTETIQPVDKITGPGNIFVALAKREVFGVVDIDMIAGPSEIVVLADDTAVPKEVAADLLSQAEHDTLSSSVLVTDSRKLAEAVSDEVDKQLQTLPRKEIAEASIRDHGRIYIAESMEDAVDTVNALAPEHLEIMTHSPEALLGSIRHAGAIFLGRYSAEPVGDYFAGPNHVLPTNGTARFSSPLNVTDFQKKSSIISYSRKAFETHADSIAAFARLEGLEAHARSIEARNGGMTDEKSGTRQNNK				NA	NA	NA	NA	NA
D1-12_03641	585	hisB	COG0131	Imidazoleglycerol-phosphate dehydratase	ATGAGAAAAGCGGAACGCGCCAGAACAACAAATGAGACCGATATTAAGCTGGCTTTCGAAATAGACGGAGAAGGAAAAGCCGACATCAGCACGGATGTGCCGTTTATGACTCATATGCTTGATTTGTTCACAAAGCACGGGCAATTCAATTTAACTGTTGACGCAAAAGGCGATACGGAGATAGATGATCACCATACGACTGAAGATATCGGCATCTGTTTAGGGCAGGCTTTTTTGGAGGCGCTCGGTGATAAAAAAGGGATCAAACGGTACGGATCAGCGCTTGTGCCGATGGACGAAGCGCTCGCCCAAGTCGCCGTAGACCTGAGCAACCGGCCGCACCTTGAGATGCGCGCTGCATTTCCGCAAGCGAAAGTCGGAACGTTTGATACCGAGCTGGTACATGAATTTCTATGGAAACTGGCGCTGGAAGCGAGAATGAATCTGCACGTCATCGTTCATTACGGCACGAATACCCATCATATGATAGAAGCCGTGTTTAAGGCGCTTGGCAGAGCGCTTGATGAAGCGTCATCCATTGATCCGCGCGTCAAGGGTGTGCCGTCTACGAAAGGAATGCTGTAA	MRKAERARTTNETDIKLAFEIDGEGKADISTDVPFMTHMLDLFTKHGQFNLTVDAKGDTEIDDHHTTEDIGICLGQAFLEALGDKKGIKRYGSALVPMDEALAQVAVDLSNRPHLEMRAAFPQAKVGTFDTELVHEFLWKLALEARMNLHVIVHYGTNTHHMIEAVFKALGRALDEASSIDPRVKGVPSTKGML	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
D1-12_03642	639	hisH	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGATCGGTGTAATTGATTACGGTATGGGCAATTTATTCAGCGTGTCGAAGGCGCTGGAACGCGTCGGCGTCCCGTATGTCGTATCAGACCGGCCGGAAGAGCTTGAAAAAGCGGATGCTTTTATTCTTCCCGGTGTCGGATCGTTCAGTGACGCCATGGACAATTTACGCAGCACGAAGCTTGATCAATTCATACACCGTATGGTTGAAGAGGGGAAGCTGCTCCTCGGCATCTGCCTCGGCATGCAGCTCATTTTCGAAGAAAGCACCGAAAACGGTTCTGCAAAAGGACTTGGTTTATTAGCCGGAAAAGCTGTGAGACTCAAAGACAGAGATGCCGAAGGAAAAAAGCTGAAGGTGCCGCATATGGGCTGGAACCGGCTGACGTTTCACCAAACGTCTCCTTTGCTTTCGGAAGCGGAAGAAGGCTTCGTTTACTTTGTCCATTCCTATTATATAGACGGGATGGAAGACGGCGATCTTCTGGCAAGCGCTGAGTACGGCGTTCGTGTTCCGGCCATCGTCGGGAAACGCAATGTCTTCGGTGCCCAGTTTCACCCGGAAAAAAGCGGTACGGCCGGAATGGCGATCTTAACGCAATTTACAAAAATGGCAGCGGAACAGAAGGTGAAGAAATGA	MIGVIDYGMGNLFSVSKALERVGVPYVVSDRPEELEKADAFILPGVGSFSDAMDNLRSTKLDQFIHRMVEEGKLLLGICLGMQLIFEESTENGSAKGLGLLAGKAVRLKDRDAEGKKLKVPHMGWNRLTFHQTSPLLSEAEEGFVYFVHSYYIDGMEDGDLLASAEYGVRVPAIVGKRNVFGAQFHPEKSGTAGMAILTQFTKMAAEQKVKK				NA	NA	NA	NA	NA
D1-12_03643	738	priA_2	COG0106	Phosphoribosyl isomerase A	ATGAACGCTTTTACATTATATCCGGCAATCGATATGAGAGACGGCAAATGCGTCCGCCTCATCCAAGGCGATTACGGCAAGGAAACGATATACGGTGACTCTCCTTTAGACATGGCGGCGCAATTTGCACAAGAAGGTGCCGAATGGATTCATCTCGTGGATCTTGACGGCGCGAAAGCAGGCAGGAAAGTAAACGACAGGCATGTTCTTGACATTGCGCGGCAGCTTGATGTCAAAGTCGAGATCGGCGGCGGGATCCGTTCTGAAGCGGATGTGTACGGTTATTTATCACAAGGCGTTGATCGCGTCATTCTCGGCAGCTCGGCCGTATCCGATCCGGCATTTGTGAAGAGCATGCTGAAACAATACGGCGGCAAAATCGCGATCGGCCTTGATGCAAGGAACGGATATGTCTCGACGGAAGGCTGGCTGGAAACATCCTCGGTAAGAGCGGCCGATCTGGGCCGTGAATTGGCGGCCGAAGGAGCGGAAACCTTCATTTTCACGGATATTGCAACTGACGGCATGCTGTCAGGACCGAACATCGAAAGCACCGTTCAGCTCGCAAAAGCAACGGGAAAAACCGTCATCGCTTCAGGCGGAGTCAGCTCAGTCGCCGATCTCAAAGCACTGGCCCGCTTCAAAGACGCGGGCGTATCGGGAGCGATTATCGGAAAAGCGCTGTATACAAAACAATTTACATTGGCTGAAGCGCTCAGCGGGGTGAAGGACGCATGA	MNAFTLYPAIDMRDGKCVRLIQGDYGKETIYGDSPLDMAAQFAQEGAEWIHLVDLDGAKAGRKVNDRHVLDIARQLDVKVEIGGGIRSEADVYGYLSQGVDRVILGSSAVSDPAFVKSMLKQYGGKIAIGLDARNGYVSTEGWLETSSVRAADLGRELAAEGAETFIFTDIATDGMLSGPNIESTVQLAKATGKTVIASGGVSSVADLKALARFKDAGVSGAIIGKALYTKQFTLAEALSGVKDA				NA	NA	NA	NA	NA
D1-12_03644	759	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGATCACGAAACGAATCATTCCGTGTCTCGATGTGAAAGAAGGACGCGTCGTCAAAGGCATACAATTTCTCGGGCTGAAAGATGCGGGCGATCCTGTCGAGCTGGCCGAAGCTTACGACAGGGAGGGCGCTGACGAACTTGTTTTTCTCGACATTTCCGCCTCTCACGAAGGCCGCAAGACGATGACAGACGTTGTAGAACAGGTTGCGGCAAAACTGGCGATTCCGTTTACGGTCGGCGGCGGAATTAATCAATTAAGCGATATGAAACGAATGCTTCGCGCCGGCGCTGACAAGGTATCCGTTAATACAGCGGCCGTCCTCCGCCCCGAGCTGATTACGGAAGGAGCGGATTTTTTCGGCTCGCAATGCATCGTCGCGGCGATTGACGCAAAGTATGACGAAGATTCGGATTGCTATAAAGTGTACACACACGGCGGCAGACAGAAAACCGACTGGGAAGTCACGGCCTGGGCAAAAGAAGCCGTCAGCCGGGGAGCGGGCGAAATCCTGCTGACAAGCATGGACGCAGACGGTGAGAAAACAGGCTTTAATCATACGCTCACACAGCTTGTCACACGTGCCGTCCCGGTGCCCGTCATTGCGTCAGGGGGAGCCGGCAGCGCGCGCCATATGCTTGAAGCCTTCACGATCGGTGAAGCGGACGCCGCGCTTGCAGCTTCCATTTTCCATTACAAAGAGACATCTATAAAAGAAGTGAAAGATTATATGAAGAAACACGGGGTGAATGTGAGATGA	MITKRIIPCLDVKEGRVVKGIQFLGLKDAGDPVELAEAYDREGADELVFLDISASHEGRKTMTDVVEQVAAKLAIPFTVGGGINQLSDMKRMLRAGADKVSVNTAAVLRPELITEGADFFGSQCIVAAIDAKYDEDSDCYKVYTHGGRQKTDWEVTAWAKEAVSRGAGEILLTSMDADGEKTGFNHTLTQLVTRAVPVPVIASGGAGSARHMLEAFTIGEADAALAASIFHYKETSIKEVKDYMKKHGVNVR	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
D1-12_03645	621	hisI		Histidine biosynthesis bifunctional protein HisIE	ATGAAACGGGCAGATGAACTGCGGTTTGACGAGGCCGGACTGATTCCCGCCATCGTACAGGATGCGGCAAGCAAAGAAGTGCTGACACTGGCTTATATGAATCGTGAATCCTACGAAAAAACGATAGAAACGAAAGAAACCTGGTTTTACAGCCGTTCACGGCAGGAGCTGTGGCATAAAGGAGCGACATCAGGGAATACCCAAAAGGTGAAAGCCATCCGTTATGACTGCGATCAAGATGCCCTCGTCGTGCTTGCGGAGCCCTCAGGACCCGCCTGCCATAAAGGAAGTTACAGCTGCTTTTCTCCGGAAAAAGCGGACGCGCAGGATCGTTTCGGCATCTTAAACGAACTGGAAAGCGTAATCGCCAAACGGCAGGCGGAGATGCCTGGCGGAGCCTACACAACGTATCTGTTTCGGGAAGGCGTCGATAAAATCCTCAAAAAAGTCGGCGAGGAAGCCGCAGAGGTTATTATCGCCGCCAAAAACCGCGACCATGAAGAATTAAAATGGGAAGCGGCGGATTTGCTGTATCATTTGCTCGTTCTTCTGCGTGAGCAGTCGCTTCCTTTGGACGACGTGCTTGACGTCCTTGCGAAACGCCATTCAGCATCTGAGTAA	MKRADELRFDEAGLIPAIVQDAASKEVLTLAYMNRESYEKTIETKETWFYSRSRQELWHKGATSGNTQKVKAIRYDCDQDALVVLAEPSGPACHKGSYSCFSPEKADAQDRFGILNELESVIAKRQAEMPGGAYTTYLFREGVDKILKKVGEEAAEVIIAAKNRDHEELKWEAADLLYHLLVLLREQSLPLDDVLDVLAKRHSASE				NA	NA	NA	NA	NA
D1-12_03646	1770	bmrA	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	ATGCCGAATAAACAACCAAAACCTAAAGGGAAATTCAGCTCATTCTTTTCATTAGTCAAAAAAACAAAACCATCATACGGTATGCTGGCCTTCGCGCTGTCTCTCAGTATTGTGACAACGCTCGTCAGCCTGCTGATTCCGCTATTGACAAAGCAGCTCGTTGACGGCTTTTCCATGTCGTCGCTGTCAGGCGTGCAAATCGGAATCATCGCAGCCGTGTTTATCGTACAGGCCGCATTAAGCGCCTACGCCACCTACGCCCTGAACTACAGCGGCCAGAAAATCATCTCGGGACTGCGTGATTTGTTGTGGCAGAAATTAATTAAACTGCCCGTCTCTTATTTTGACAAAAACGCCACGGGAGAAACGATCAGCCGTGTCACCAATGACACAATGGTGGTAAAAGAGCTGATCACAAACAATATCAGCGGATTTATTACCGGAATCATTTCCGTTATCGGGTCACTGACGATCTTATTTTTCATGAACTGGAAGCTCACATTGCTCGTGCTGATCGTCGTGCCGCTGGCTGCGATGATTTTAGTGCCGATCGGCCGGAAAATGTTTAAAATTTCTCGGGAAACACAGGATGAAACGGCGAGATTCACCGGATTATTAAACCACATCCTCCCGGAAATCAGGCTTGTAAAAGCGTCAAACGCTGAAGAAGCGGAATACGGACGCGGAAAAGCAGGCATCATGGCGCTCTTTAAACTCGGGCTGCGTGAAGCGAAGGTGCAGTCGCTCGTAGGCCCGCTTATTACACTTGTATTAATGGCGGCGCTGGTCGCTGTCATCGGGTACGGCGGGATGCAGGTGTCATCCGGTGAATTGACAGCCGGCGCACTCGTTGCCTTTATCCTGTATTTGTTTCAGATCATTATGCCGATGGGCCAGATCACTTCATTTTTCACACAGCTTCAAAAATCCGTCGGCGCAACGGAACGGATGATTCATATTCTTGCAGAAAAAGAAGAAGATATCCAAACCGGAAAAGCCATTGAAAACGCAGATCAGCCGATTAAGCTTGAACAAGTCTCATTCGGCTACAAAACAGATCAAACCATCTTAAAAGACATTACGGCTACGATTGAGGCCGGCAAAGTCACCGCGATTGTCGGACCGAGCGGCGGCGGAAAAACAACGTTATTTAAGCTGCTTGAACGATTCTACAATCCGACTGCGGGCAGCATCCTGCTCGGAAATGAACCGATTGATACGTATTCCCTTGAGTCATGGCGGGAGCATATCGGCTACGTGTCGCAAGAAAGCCCGTTAATGTCAGGCACCATCCGCGACAATATCTGCTACGGATTAAAACGCGAGGTGACTGATGAGGAACTGAGGCAAGCGGCTGACATGGCCTACGCCCTGCAATTTATTGAAGACTTACCGAAGAAATTTGAAACCGAGGTCGGTGAGCGGGGAATTATGCTGTCAGGCGGACAGCGCCAGCGCATCGCCATTGCCAGAGCGCTCCTTCGCAACCCGAGCATTCTGATGCTTGATGAAGCGACATCAAGTCTGGACAGCCAATCTGAAAAATGGGTGCAGCAGGCGCTGGAAGTTCTAATGGAAGGCCGCACCACCATCGTGATCGCCCACCGTTTATCCACGGTTGTGGATGCAGATCAGCTTCTCTTTGTCGAACAGGGTGAAATCACCGGACGGGGCACACACCATGAATTAATGGCATCCCATTCGCTGTACCGCGATTTTGCGGAGCAGCAGCTGAAGCTGAATGCCGACTTAGAAAACAAAGCTGTGTAA	MPNKQPKPKGKFSSFFSLVKKTKPSYGMLAFALSLSIVTTLVSLLIPLLTKQLVDGFSMSSLSGVQIGIIAAVFIVQAALSAYATYALNYSGQKIISGLRDLLWQKLIKLPVSYFDKNATGETISRVTNDTMVVKELITNNISGFITGIISVIGSLTILFFMNWKLTLLVLIVVPLAAMILVPIGRKMFKISRETQDETARFTGLLNHILPEIRLVKASNAEEAEYGRGKAGIMALFKLGLREAKVQSLVGPLITLVLMAALVAVIGYGGMQVSSGELTAGALVAFILYLFQIIMPMGQITSFFTQLQKSVGATERMIHILAEKEEDIQTGKAIENADQPIKLEQVSFGYKTDQTILKDITATIEAGKVTAIVGPSGGGKTTLFKLLERFYNPTAGSILLGNEPIDTYSLESWREHIGYVSQESPLMSGTIRDNICYGLKREVTDEELRQAADMAYALQFIEDLPKKFETEVGERGIMLSGGQRQRIAIARALLRNPSILMLDEATSSLDSQSEKWVQQALEVLMEGRTTIVIAHRLSTVVDADQLLFVEQGEITGRGTHHELMASHSLYRDFAEQQLKLNADLENKAV	PGPT0028965_21	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
D1-12_03647	615			hypothetical protein	ATGAAAAAACGCACAAAGATTTTTTATTGTCACGCGGCCGTACTGCTCGTATTCATGACTGCCGGGTGTACGGGCGGTAACGATGATGAGCCAGGCCATTCTTCAAGTCCGGCCGGGGGAAGCAGCATCAACAAGGCTGAAACAGCATCAGCGGCAGAAAAAAACGAACCCGTAAACAAAGATTCACATCACGTCTCTGCGGACAAAAGCGAACCGGATAACATGTCGACAGATTATTCTCCTCTGCAAATTGAATATGCCCGCATCTGGCTGCAGCTTGGGGAAAATCAGCAGATAGATGAATTGAACGTTCGCCGCATTCCGGCCGGAGCACTCGTCAACCCTGACGATCACACGAGCGCCCGCTATCCGGAAGATGTTACGCAGTTAGCAGGCTCCCGGTTAATCGATGGGTCAGTCACTTACAGCAGCAACGGCGACGGCACCATTCAGGTATACAATGTTCCTTTGCGCTGGGAGTCTCGTGAAGATACTGATCAAGGCGTAATGAAAGAAGTGACGGAAGAGATGATCCGCCATACAAAAAAAGTGTCTGTTGATACAGGAGACAATGAAAAAATAAGACGGTTAATAGACATCATGTCGATTCATTAA	MKKRTKIFYCHAAVLLVFMTAGCTGGNDDEPGHSSSPAGGSSINKAETASAAEKNEPVNKDSHHVSADKSEPDNMSTDYSPLQIEYARIWLQLGENQQIDELNVRRIPAGALVNPDDHTSARYPEDVTQLAGSRLIDGSVTYSSNGDGTIQVYNVPLRWESREDTDQGVMKEVTEEMIRHTKKVSVDTGDNEKIRRLIDIMSIH				NA	NA	NA	NA	NA
D1-12_03648	678	hssR		Heme response regulator HssR	ATGGCTGTCATATTAGTTGCGGATGACGACCGCCATATCCGTGAGCTTGTCCGCCTTATGATGGAGCAGAGCGGTTTTGACGTCGCAGAAGCGGAAGACGGGGAAGCGGCGGTGCGGCTGATCGAATCCGCACCTATAGATCTCATCATACTGGATGTGATGATGCCGAAAATGGACGGGTTTGAAGTCAGTGAAGCCGTCCGCAGCTTTACGGACATTCCGATTTTGATGCTGACGGCAAAAGGCGAAACGCTGGACAAAGTGCAAGGTTTTACTTCCGGAGCGGATGATTATCTCGTCAAACCGTTTGAGCCGCTTGAGCTGGAAGCAAGGGTCAAAGCATTGCTGAAACGGTACCGGATCACCGCTGAAAAACTGCTGACCATCGGAACGGTCACATTAGATAAGCAATCCCGCACCGTAACGCGCGGCGGCGGAGCGGGATTGACACTGCCCCGGCGTGAATTTGAGCTTTTATTTAAGCTCGCCGGTTATCCGAATAAGACGTTTTCAAGAGAACAATTAATAGAAGATATTTGGGGCTTTGATTATGAAGGTGACGAGCGGACCGTTGATGTGCATATTAAAAGGCTGAGAGAACGGTTTCCGGAAAAAGACTATCCGTTTGCCATCCATACGGTTCGGGGGCTCGGGTATCGGTTTGTGGTGACAGGATGA	MAVILVADDDRHIRELVRLMMEQSGFDVAEAEDGEAAVRLIESAPIDLIILDVMMPKMDGFEVSEAVRSFTDIPILMLTAKGETLDKVQGFTSGADDYLVKPFEPLELEARVKALLKRYRITAEKLLTIGTVTLDKQSRTVTRGGGAGLTLPRREFELLFKLAGYPNKTFSREQLIEDIWGFDYEGDERTVDVHIKRLRERFPEKDYPFAIHTVRGLGYRFVVTG	PGPT0002665_1745	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
D1-12_03649	1062	sasA_4		Adaptive-response sensory-kinase SasA	ATGAAACGGATCTTCAGAACGGCTGGGAAAATCATCATCCTTCTCACCGTCACCGCAATCTTATGGCTGGCGGCTCACCTGATCGTTCAGGGATTCGGTCTCATATGGCCGATTTTGCTTGTGCCGTACGCCGAGCAGATTCTGACGCTTTGGCTTGTTTTCGGCCTGCTGTTTGTAACGATGTTTATTTTTTCAAAGTCAGCACGTGAAAGACATCATGCGATCTGGGATTCGCTGACCGCCACGATCAAGCAAATGTCGAGCGGCAACTTCACAGCGGCCGCTTCCCGGAAAATGGAGAAGATTGAGCGGAACCACCCCGTGACGAAATTGGCTGATGAACTGTCGACACTCGCCGCGGAACTGAGTGAAATGGAAAAACTGAAACAAGAATTTATTTCGAACGTTTCCCATGAAATCCAAACCCCGCTCACTTCATTAAAGGGCTACGCGCATCTTCTGAAAAAACCGGATTTATCATATGAGGAGCGGGGGCGCTACTTACACATCATCGAAACAGAAACAGAACGATTATCAAAAATCAGTGAAAATCTGCTGAAGCTCACTGCGCTCGAACGCCAAACCGAACCGATACAAAAAAAACCGTTCCGCATTGACAAACAGCTGCGGCGCACCATATTGACCTGTGAGCCTGAATGGTCCGCCAAACAGATTGAGTTTCTCATTGATTTACAGGAGTCGTATGTGTACGGAGATGAAGCGCTGCTCAGCCAAGTATGGATGAATCTGATTCACAATGCCGTGAAATTTACCGGTGAAGGCGGCCGCATTTCCGTTAAAATTGCAGATCTGCCGGGAGCGGCGGCTGTCGAAATCGCCGACGACGGAATCGGAATGGAGCCTGAACAGGCGGAGCGTGTATTTGAACGGTTTTATAAAGCGGACAAGGCGAGAAACGCAGGGGGAAGCGGGCTCGGTCTGTCCATCGCCCAAAAAATCGCAGAGCTGCACGGCGGTTCGATAGAGGTTGAGAGCAAGCGCGGCGAAGGAACCCTTTTCCGCGTCATTCTTCCAGCCGAGCCTCGTGAAAAAAACAGCTAA	MKRIFRTAGKIIILLTVTAILWLAAHLIVQGFGLIWPILLVPYAEQILTLWLVFGLLFVTMFIFSKSARERHHAIWDSLTATIKQMSSGNFTAAASRKMEKIERNHPVTKLADELSTLAAELSEMEKLKQEFISNVSHEIQTPLTSLKGYAHLLKKPDLSYEERGRYLHIIETETERLSKISENLLKLTALERQTEPIQKKPFRIDKQLRRTILTCEPEWSAKQIEFLIDLQESYVYGDEALLSQVWMNLIHNAVKFTGEGGRISVKIADLPGAAAVEIADDGIGMEPEQAERVFERFYKADKARNAGGSGLGLSIAQKIAELHGGSIEVESKRGEGTLFRVILPAEPREKNS	PGPT0002705_4193	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-12_03650	1455			hypothetical protein	GTGGGAAAACACACTTCTGAACAGAAAAAGCACGCGCAAATTGTCCAGCTGCTTCAGGATGGACAATATTTTTTTCATAAAGGCTTAAAAGCATATAAAGAGCGGAATTTAAAACGGGCCAGCAAACTGATTCAGCGGGCCGTCCACCTCGAGCCGAATGATTCCGAAATGCTGTCCCGGCTGGCCGTCATTTATTCTGAAATGGGCCACTACCAGCAGTCAAATGAGCTGTTCGACTTTATTTTGGTGAACCTGAAAGAAGAAATGCCCGAGTGTCATTACTTTAAAGCGAATAATTTCGCGCATTTGGGGCTCTTTCAGGAAGCATACAAAGAAGCGGCGGCTTATTCAGATGCCGATCCGGACGGGGAATTCAGCGAAGAGATTGAAAATCTGATGGAGCTTTTGGATTTCGGCGAAGCGGGTGAAAACGAATCGCTCTATGACCAGGATGAGCTGCTGATCAGGCAGGACCGGGCAAAAACGCTTCTTGAGAGCGGCCAGCTTCATGAAGCGGTTGTCATGCTTGAAGAGATTACGGCCGATTACCCCGAGCTTTGGTCTGCATACAACAACCTGGCGCTCGCTTACTTTTACTCAGGCAATGTCACAAAAGCGAAACAAACGGTATTCGAAGTGCTTGAGAAAAATGAAGGCAATCTCCATGCCCTGTGCAACCTCCTTGTATTCTGCTATTACGAGAGGGAAGATGAAAAAGTCGGAGAATTGAGCGAAAGGCTCGCTAATGTGTATCCGATTTTATTCGAACAGCGCTATAAGCTGGGGGCGACGCTTGCGCTTGTCGGCAGACATGATCTCGGTTATAAATGGCTCCGTTCTCTTTACAAAAGCGGGTTCGAAGGCGACGACACGTTTTATTACTGGCTTGCCGCCTCAGCCTACGGGACAGGCCGCACAGAATTTGCGGAAACCATTTGGAAAAAGGCAGAAGCCGAATTTCCCGAATCAGACCGGCCCGCGCCTTGGGCGGAGCGGCAGGAACCGCTGCCTGCTTCACTTGAACAGCGGCTTGCCGCCTATTATATCAGCAGCGCTGAAGGAGAGCGGAACCAGCTTGAAAAAGTTCTGACGGCAAAACGCGCCGTTTCACCGTTTGAACAAGATTTCGTCAGACTGCTGCTTTCCGGTGAAAAAGGCGCTTCAGGCGTTTCCGGTGATGCGCTGTTCACGTATCGGACGGTCAAGCTTCTGGAGAAAGCGGAAGCCGACAGTTTAAAAACTGACGTCATGAGCTGCTGGGTTTTTCACGTCATTCAGCACATCCGCGCCGCCGCTGCCGTACAGAATGAGCGGGCATGGGCCGCAGCCATCGCATATGTATGGAAAGAAGCAAACGGCGAAAAAACGACGAAAAAAGAAACGGCCGCCGTTTACGGTATAACGCCGGCAACACTTTCGAAATACATCAGACAAATAGATGATATATTAGAATAG	MGKHTSEQKKHAQIVQLLQDGQYFFHKGLKAYKERNLKRASKLIQRAVHLEPNDSEMLSRLAVIYSEMGHYQQSNELFDFILVNLKEEMPECHYFKANNFAHLGLFQEAYKEAAAYSDADPDGEFSEEIENLMELLDFGEAGENESLYDQDELLIRQDRAKTLLESGQLHEAVVMLEEITADYPELWSAYNNLALAYFYSGNVTKAKQTVFEVLEKNEGNLHALCNLLVFCYYEREDEKVGELSERLANVYPILFEQRYKLGATLALVGRHDLGYKWLRSLYKSGFEGDDTFYYWLAASAYGTGRTEFAETIWKKAEAEFPESDRPAPWAERQEPLPASLEQRLAAYYISSAEGERNQLEKVLTAKRAVSPFEQDFVRLLLSGEKGASGVSGDALFTYRTVKLLEKAEADSLKTDVMSCWVFHVIQHIRAAAAVQNERAWAAAIAYVWKEANGEKTTKKETAAVYGITPATLSKYIRQIDDILE				NA	NA	NA	NA	NA
D1-12_03651	1413	cwlO	COG0791	Peptidoglycan DL-endopeptidase CwlO	GTGAAAAAGAGTTTATTAACACTTGGTTTGGCTTCCGTCATCGGGACAAGCAGTTTTTTGATCCCGTTTACAAAAACTGCATCGGCGGAAACATTAGACAGCAAAAAAGCGAAAATTGAAAGCAAGCAATCTGAGGTGGCTTCAAGCCTTGAAGCAAAAGAAAGAGAATTGTCTAAGCTTCAGGACAAGCAGGCTAAGATTGAAAAAGAACTGAAAGACATTAACGCTAAAGCGTTGGATACAAGCAATAAAATCGAAGATAAAAAAGCTGAAAACGAAAAAACGAAAAAGCAGATCGCTGATTTGAAAAAAGAAATCAAAGAAACAGAAGCGCGTATTGAAAAACGCAATGACATCCTGAAAAAACGCGTTCGTTCTTTACAGGAAAACGGCGGTTCTCAAGGATACATAGATGTTCTTTTAGGGGCGACAAGCTTCGGAGACTTCATTTCCCGTGCGACTGCGGTATCTTCTATCGTTGATGCGGATAAAGAGCTGATCAAACAGCAGGAGCAGGATAAAGCGAAACTCGAAGACGCAGAAGCTGAACTTAACGTGAAGCTGAAAAAAGTTCAAGATGATCTTGCGAAACTCGAGTCTATGCAAAAAGACCTGAACAAACAGCTTGATCAGAAAGACAAGCTTTTCGACGAAGCGAAAAACGGCCAGAAAAAAGCGGCTTCCGCTATCTCTGATCTGAAAAAAGAAGCATCAAAGCTTGCAAACGAAAAAGCTGACACTGAAAAAGAACAGAAGCGCATTAAAGCTGAGCAGGCTGCAGCGGCTGCCCTGATCAAAAAACAGGAAGAAGCGCAAAAAGCTTCTGAAGACCAAAACCAAAAAGATGACAGCCAGCCGGCACCGGCGGTTAAAACTGTGAAAAAAGCGGCTGTTTCAACATCATCTGATTCATCTGACAGCTCAAGCAAACCGAAGAGCACTTCAGGCGGATCATCTCATAACAGCGGCGGTTCAGATGATTCTGACGGCGGATCTGTTATTTCAAATTCAGGCGGTATTGAAGGCGCGATCAGCGTAGGTTCAAGCCTTGTGGGTCAATCCCCGTACAAATTCGGCGGCGGACGCACTCAATCTGATATTAACAACCGTATTTTTGACTGCTCTTCATTCGTACGCTGGGCTTATGCTAACGCAGGCGTTAACCTCGGACCTGCAAGCGGCACAAACACAGATACATTAATCGGAAGAGGTAAAGCAGTAAGCGCGTCTGACATGAAACGCGGAGACTTAGTATTCTTCAATACGTATAAAACAAACGGCCACGTCGGCATCTACTTAGGTAACGGAACGTTCCTGAACGATAATACATCACACGGTGTATCCATTGATTCTATGAGCAACCCTTACTGGAAGAAAGCATTCAACGGCAATGTAAGACGTGTCGTGCAATAA	MKKSLLTLGLASVIGTSSFLIPFTKTASAETLDSKKAKIESKQSEVASSLEAKERELSKLQDKQAKIEKELKDINAKALDTSNKIEDKKAENEKTKKQIADLKKEIKETEARIEKRNDILKKRVRSLQENGGSQGYIDVLLGATSFGDFISRATAVSSIVDADKELIKQQEQDKAKLEDAEAELNVKLKKVQDDLAKLESMQKDLNKQLDQKDKLFDEAKNGQKKAASAISDLKKEASKLANEKADTEKEQKRIKAEQAAAAALIKKQEEAQKASEDQNQKDDSQPAPAVKTVKKAAVSTSSDSSDSSSKPKSTSGGSSHNSGGSDDSDGGSVISNSGGIEGAISVGSSLVGQSPYKFGGGRTQSDINNRIFDCSSFVRWAYANAGVNLGPASGTNTDTLIGRGKAVSASDMKRGDLVFFNTYKTNGHVGIYLGNGTFLNDNTSHGVSIDSMSNPYWKKAFNGNVRRVVQ	PGPT0023995_417	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-12_03652	954	trxB	COG0492	Thioredoxin reductase	ATGGTGTCAGAAGAAAAAATTTATGATGTGATCATTATCGGCGCGGGTCCGGCGGGGATGACCGCTGCTGTTTACACATCACGAGCGAACTTATCCACATTAATGATCGAAAGAGGAATTCCGGGCGGCCAGATGGCCAACACGGAGGATGTTGAAAACTATCCGGGTTTTGAAAGCATTCTCGGCCCTGAACTTTCTAATAAAATGTTTGAACATGCGAAAAAATTCGGTGCGGAATATGCGTACGGCGATATTAAAGAAATCGTTGACGGCAAAGAATATAAAACGGTCAAAGCCGGTTCAAAAGAATATAAAGCGCGCGCCATCGTCATTTCTGCCGGAGCGGAATACAAAAAGATCGGCGTTCCCGGCGAAAAAGAACTGGGCGGCCGCGGCGTATCGTACTGCGCGGTTTGTGACGGCGCGTTCTTTAAGAATAAAGAGCTTGTCGTTGTCGGCGGCGGAGACTCCGCCGTTGAAGAAGGCGTCTATCTGACACGCTTCGCTTCAAAAGTCACCATCGTTCACAGACGTGACAAATTGCGGGCGCAAAGCATTCTTCAGGCGCGTGCTTTTGACAATGAGAAAATTGACTTCAAATGGAACAAAACCGTAAAAGAAATCCATGAGGAAAACGGAAAAGTCGGCAGACTTACTCTTGTGGATACCGTGACGGGAGAAGAAGAAGAATTCAAAGCTGACGGTGTCTTTATTTATATCGGTATGCTTCCGCTTTCTAAACCGTTCGAAAACTTGGGCATCACAAATGAAGAAGGCTACATTGAAACAAATGCTCAAATGGAGACAAAAGTTCCGGGCATTTTCGCCGCGGGAGACATCCGTGAAAAAACGCTCCGCCAGATCGTAACGGCGACAGGCGACGGAAGTATTGCGGCTCAAAGCGTTCAGCATTATGTGGAAGAGCTTGAGGAAACGCTCAAAACCGTTAAATAA	MVSEEKIYDVIIIGAGPAGMTAAVYTSRANLSTLMIERGIPGGQMANTEDVENYPGFESILGPELSNKMFEHAKKFGAEYAYGDIKEIVDGKEYKTVKAGSKEYKARAIVISAGAEYKKIGVPGEKELGGRGVSYCAVCDGAFFKNKELVVVGGGDSAVEEGVYLTRFASKVTIVHRRDKLRAQSILQARAFDNEKIDFKWNKTVKEIHEENGKVGRLTLVDTVTGEEEEFKADGVFIYIGMLPLSKPFENLGITNEEGYIETNAQMETKVPGIFAAGDIREKTLRQIVTATGDGSIAAQSVQHYVEELEETLKTVK	PGPT0013060_5929	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-12_03653	495	mutX	COG0494	8-oxo-dGTP diphosphatase	TTGTTGAGAAGGTTAGGTGACGTACTTGTGCAAAGAGTGACAAATTGTGTGCTGCAGACAGATGATCAGGTTCTCCTTCTCCAAAAGCCGAGACGGGGCTGGTGGGTCGCGCCCGGCGGGAAGATGGAAAGCGGCGAATCCGTCAGAGATTCCGTCATCAGAGAGTACAGAGAAGAGACGGGCATTTATATACTAAATCCGCAGTTAAAAGGCGTGTTTACCTTTATTATTAAGGAACAGGAACAAATCGTGTCAGAGTGGATGATGTTTACTTTCGTCGCCGATTCCTACACGGGGCGGAATGTCGCTGAATCAGAGGAAGGCGTTCTGAAGTGGCATGACGTAAAAGATATCCACAGCCTTCCGATGGCCCCCGGAGACGGGCATATCCTTGATTTTATGATCAAAGGCCAAGGGCTTTTGCACGGCACCTTTACGTATACGCCGGACTTCGAGCTGCTCAGCTATCGTTTAGATCCGCAGCTTATCAAATAA	MLRRLGDVLVQRVTNCVLQTDDQVLLLQKPRRGWWVAPGGKMESGESVRDSVIREYREETGIYILNPQLKGVFTFIIKEQEQIVSEWMMFTFVADSYTGRNVAESEEGVLKWHDVKDIHSLPMAPGDGHILDFMIKGQGLLHGTFTYTPDFELLSYRLDPQLIK				NA	NA	NA	NA	NA
D1-12_03654	888	yvcJ	COG1660	Nucleotide-binding protein YvcJ	ATGAGTATGAATGAAAACCATGATATTCAGCTCGTCATCATTACGGGAATGTCTGGAGCGGGGAAAACCGTCGCCATTCAAAGCTTTGAGGATCTCGGCTATTTTTGCGTCGACAATCTGCCGCCTTCCTTGCTGCCGAAATTTTTGGAGCTGATGAAAGAATCAAGTTCAAAAATGAGCAAGGTCGCGCTTGTCATGGATCTGCGGGGACGCGAATTTTTTGACAGGCTGATTGAGGCGCTGGATGAAATGGCGGAAAATCCGTGGATTACACCGCGCATTCTCTTTTTAGACGCTAAGGATTCCATTCTTGTGACGAGATACAAAGAAACGAGACGTTCTCACCCGCTGGCCGCTACCGGGCTTCCTCTTGAAGGAATCGCGCTGGAACGCCAGCTGCTTGAAGAATTGAAAGGGCGCTCTCAGCTGATTTATGACACATCGGATATGAAACCGCGTGATCTGCGTGAAAAAATCGTGGCGCATTTCGCCACGAACCAAGGTGAAACATTTACAGTGAACGTAATGTCATTCGGGTTCAAATACGGGCTTCCGATAGATGCCGACCTCGTGTTTGATGTAAGGTTTCTGCCGAATCCGTTCTACATTGAAAGCATGAGGCCGCTTACGGGGAAAGATGAGGAAGTGTCATCCTATGTGATGAAGTGGAACGAAACACAAAAGTTTATTGAAAAGCTTGTTGATCTGCTCGGCTTTATGCTTCCGTCTTATAAGCGGGAAGGTAAAAGCCAGCTTGTCATCGCGATCGGCTGTACGGGCGGCCAGCACCGCTCCGTCACGCTCGTTGAGTATTTGGCTGACTATTTTAAAAAAGATTTCTATACTCATGTCACTCACCGGGACATTGAAAAGAGAAGCCGGAAATGA	MSMNENHDIQLVIITGMSGAGKTVAIQSFEDLGYFCVDNLPPSLLPKFLELMKESSSKMSKVALVMDLRGREFFDRLIEALDEMAENPWITPRILFLDAKDSILVTRYKETRRSHPLAATGLPLEGIALERQLLEELKGRSQLIYDTSDMKPRDLREKIVAHFATNQGETFTVNVMSFGFKYGLPIDADLVFDVRFLPNPFYIESMRPLTGKDEEVSSYVMKWNETQKFIEKLVDLLGFMLPSYKREGKSQLVIAIGCTGGQHRSVTLVEYLADYFKKDFYTHVTHRDIEKRSRK				NA	NA	NA	NA	NA
D1-12_03655	954		COG0391	Gluconeogenesis factor	ATGAATAAGAAGCCGAAAATCGCAATCTTCGGCGGCGGAACGGGTCTGTCCGTGCTGCTTCGGGGGTTAAAGCATAAGCCCGTTGATATTACGGCGATTGTGACAGTTGCTGATGACGGCGGAAGTTCAGGCCGTCTGCGGGATGAACTTCAAATTCCGCCGCCGGGTGACATCCGTAACGTACTGGCCGCTTTGTCAGATGTTGAGCCGCTCGTTGAAAATCTGTTTCAGCACCGTTTCAACAAAGGAAGCGACTTAACCGGACATTCGCTCGGCAATTTGATTTTGGCAGCGATGACAAATATAACCGGTGATTTCTTTCACGCTGTCACCGAAATGAGCAAGGTGCTGAATGTGCGCGGCAGAGTGCTGCCGGCTGCCAACACCAGTGTCGTTCTTCACGCTGAAATGGAGGACGGGCAGGTCGTCTCCGGAGAATCGACAATCCCTTCTTACGGCCAGCGGATTAAACGGGTGTTTCTTACGCCTGAAAAAATTGATCCGCTCCCGGAAACGATTGACGTCATCCGTCAGGCCGATTTAATCATTATCGGTCCGGGAAGCCTGTACACAAGTATTCTTCCGAATCTGCTCGTGCCGAAAATCGGAGAAGAAGTCGTCAAGGCTGCGGCCAAAAAAGTATATATATGCAACGTCATGACACAGCCCGGCGAGACGCTGCAATACAGCGCGGCCGACCATGTCAAGGCGCTGAACGATCATATGGAGCAGCCGTTTATCGACACGATCTTAATCAACAATGAGGAGATCCCTGACGAAATCAAAAGCAAATATGCGAAAGAGCTGGCCCGGCCCGTCGACTTCAATATTGAAAAGCTGAAATCCATGGGGCTTGAGGTCATCAGGGATCAGATTATCACGTATAAAAATGGCGTAATCCGTCACGATACACATAAAGTGGCTTCTCTTCTTGTCGATTTATTAAGGGACTAG	MNKKPKIAIFGGGTGLSVLLRGLKHKPVDITAIVTVADDGGSSGRLRDELQIPPPGDIRNVLAALSDVEPLVENLFQHRFNKGSDLTGHSLGNLILAAMTNITGDFFHAVTEMSKVLNVRGRVLPAANTSVVLHAEMEDGQVVSGESTIPSYGQRIKRVFLTPEKIDPLPETIDVIRQADLIIIGPGSLYTSILPNLLVPKIGEEVVKAAAKKVYICNVMTQPGETLQYSAADHVKALNDHMEQPFIDTILINNEEIPDEIKSKYAKELARPVDFNIEKLKSMGLEVIRDQIITYKNGVIRHDTHKVASLLVDLLRD				NA	NA	NA	NA	NA
D1-12_03656	951	whiA	COG1481	putative cell division protein WhiA	ATGTCATTTGCATCGGAAACAAAAAAAGAACTGACGAATCTGGAAGTGAAGGACTGCTGCGCCAAGGCGGAGCTGTCCGCGCTGATTCGGATGAACGGTTCCCTGTCATTTTCAAACCGCCATCTCGTGCTTGACGTTCAAACCGAAAATGCGGCGATTGCCCGCCGCATTTATACATTGCTGAAGAAACAATATGATGTATCGGTCGAACTGTTAGTCAGAAAAAAAATGCGGCTGAAAAAAAATAATGTTTATATTGTGCGCTTTTCTGAAAATGCAAAGCTGATTTTAGAGGAATTGAAAATCCTTGGAGAGAACTTTGTATTTGAACGGAATATTTCTGAGGAACTGGTGGCGAAACGCTGCTGCAAACGTTCTTATATGAGAGGGGCGTTTTTGGCGGGGGGATCTGTGAATAATCCCGAAACATCGTCGTACCACTTGGAAATCTTCTCGCTTTATAAGGAACATAACGATTCATTATGCGCGCTGCTGAATGAATTTCATCTGAACAGCAAAACGCTTGAACGGAAAAAAGGCTATATTACGTATTTAAAAGAGGCGGAAAAAATCACTGAATTTCTGAATGTCATCGGCGCTCACAATTCACTGCTGCGTTTTGAAGATGTGCGGATTGTCAGAGATATGAGAAACTCAGTGAACCGCCTCGTCAATTGTGAAACAGCAAACTTAAACAAAACCATTGGGGCTTCGCTCAGACAGGTGGAAAATATTAAATACATTGATGAACGGATCGGTCTTGAAGCGCTGCCAGAAAAGCTTCGCGAAATTGCGCAGCTGCGGATTGATTATCAGGAGGTCACGCTGAAAGAACTGGGGGAAATGGTTGCAAGCGGGAAAATCAGCAAATCCGGCATCAATCACAGGCTGAGAAAGCTCGATGAAATCGCAGAACAGCTGCGTACAGGACAAAGCATCACTTTGAAATAA	MSFASETKKELTNLEVKDCCAKAELSALIRMNGSLSFSNRHLVLDVQTENAAIARRIYTLLKKQYDVSVELLVRKKMRLKKNNVYIVRFSENAKLILEELKILGENFVFERNISEELVAKRCCKRSYMRGAFLAGGSVNNPETSSYHLEIFSLYKEHNDSLCALLNEFHLNSKTLERKKGYITYLKEAEKITEFLNVIGAHNSLLRFEDVRIVRDMRNSVNRLVNCETANLNKTIGASLRQVENIKYIDERIGLEALPEKLREIAQLRIDYQEVTLKELGEMVASGKISKSGINHRLRKLDEIAEQLRTGQSITLK				NA	NA	NA	NA	NA
D1-12_03657	258	crh	COG1925	HPr-like protein Crh	ATGGTTCAGGAGAAAGTGGAAGTGCGTTTAAAGACGGGATTGCAGGCGCGTCCCGCTGCATTGTTTGTACAGGAGGCAAATCGCTTTGCATCAGATGTGTTTCTTGAGAAAAACGGCAAGAAAGTGAATGCCAAAAGCATTATGGGATTAATGAGCCTGGCGGTCAGCACGGGGACGGAAGTCACTCTGATCGCTGAAGGCGATGATGAAAAGGAAGCGCTGGAAAAGTTGTCCGCTTATGTGCAGGAAGAAGTGTAA	MVQEKVEVRLKTGLQARPAALFVQEANRFASDVFLEKNGKKVNAKSIMGLMSLAVSTGTEVTLIAEGDDEKEALEKLSAYVQEEV	PGPT0016875_2318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
D1-12_03658	747			hypothetical protein	ATGAATGAGTTTCTGAAAGATTGTTATCAAACGATAGGCTGGGAAAAGGATTCCCTCGATTTCAGCAACCTGCCGGAGTTTTTAAAGGCGCTCGCGTATCGGTTTCCGTTTGAAAATCGCGCGGTTTTGTCCAAAAAAGAATATGACGTCACGAAAGAAGGACTGTGGCGGCACATGGTGAAGGAACCTCATGGCGGCCTTTGTTATGACTTGAACGGACTGCTTTATTTCATCCTGAAAGATGCCGGATTTGATGTCAAATTGATCCGCGGAACGGTCTGGAAAAACGGCTGGGCGCTGCCCGGCACACATGCGGCCGTACTTCTTTCCGCCGGAGGGAATGAGTACATCGCTGATGCAGGCTTCGGCCTCAATCTCGCCATGCAGCCTGTGCCGATGTCGGGAGACGAGACGGTATCAGCGGCCGGAGCGTTCCGCGTGAGGATAGAAGAGACGGAATTCGGGACATACCTGCTTGAAATGAACAAAGGGGACGGCTGGCAGACAGGTTACGCATTTTCGCTTGAAGAAATCGATGAAAAGGACCTCAAGTCTATGAAACAAACAATCTTTGAACATGAACGCTCTCCTTTCAACAAACGCCTGCTTGCTTCAAAGCGGACACCGGAAGGGCACATGGTTCTGTCTGAACGCAATATAACAATAAAAAAACACGATGGCACGGCGGAAAACAGCAGAATAGACCGGTCAGAGTTTGAAGAAAAATTTACTGCTCATTTTATATGA	MNEFLKDCYQTIGWEKDSLDFSNLPEFLKALAYRFPFENRAVLSKKEYDVTKEGLWRHMVKEPHGGLCYDLNGLLYFILKDAGFDVKLIRGTVWKNGWALPGTHAAVLLSAGGNEYIADAGFGLNLAMQPVPMSGDETVSAAGAFRVRIEETEFGTYLLEMNKGDGWQTGYAFSLEEIDEKDLKSMKQTIFEHERSPFNKRLLASKRTPEGHMVLSERNITIKKHDGTAENSRIDRSEFEEKFTAHFI	PGPT0019890_1310	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
D1-12_03659	450			Ribonuclease	TTGAAAAAACGATTATCGTGGATTTCCGTTTGTTTGCTGGTGCTGTTCTCCGCGGCGGGGATGCTGTTTTCCACGGCTGCCAAGACGGATACATCTTCTCACAAGGCGCACACTGAAGCACAGGTTATCAACACGTTTGACGGGGTTGCGGATTATCTTCAGACCTATCATAAGCTTCCTGATAATTACATTACAAAGTCAGAAGCACAGGCCCTCGGCTGGGTTGCATCAAAGGGGAATCTTGCAGACGTCGCTCCGGGGAAAAGCATCGGCGGAGACATCTTCTCAAACAGGGAAGGCAAACTCCCTGCCAAAAGCGGACGGACGTGGCGTGAAGCGGATATCAACTATACATCAGGCTTCAGAAATTCAGACCGGATTCTTTACTCAAGCGACTGGCTTATTTATAAGACGACAGATCATTATAAAACCTTTACAAAAATGAGATAA	MKKRLSWISVCLLVLFSAAGMLFSTAAKTDTSSHKAHTEAQVINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPAKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYKTFTKMR				NA	NA	NA	NA	NA
D1-12_03660	966	ghrB	COG1052	Glyoxylate/hydroxypyruvate reductase B	TTGAAACCCTATGTATTCATCGCGAAACCGATACCGCCGGAAGTCGAACAAATGATAGGCGAGCATTGCCGATATGACATCTGGAAAGAAGATACCATTCCAAAAGAGGAACTGTACGAAAAAATGAAAGATGCTGAAGGGCTGCTGACATCCGGAACGGCGATTGACAGGGATTTACTGGATCACGCGCCGAAGCTGAAAGTCGTCAGCAATAATTCAGTCGGCTATGATAATTTTAACATTGAAGAAATGAAAAGACGCGGGGTTGTCGGCACGCATACGCCGTACACCTTAGATGACACTGTCGCTGATCTGGCTTTTTCATTAATCCTGTCTTCCGCCAGACGGGTTGCCGAATTGGATCGGTTCGTCCGCGCCGGCAAATGGGGAACCGTTGAGGAAGAATCTCTTTTCGGTATGGATGTCCACCATCAGACATTAGGAATTATCGGCATGGGCAGAATCGGTGAACAAGCTGCCAAACGGGCAAAATTCGGCTTCGACATGGACGTGCTGTATTATAACCGCAGCAGAAAACCGGACGCTGAGAAGGAACTCGGGGTTACATATGCCGACTTAGATACACTGCTGAAAACATCAGACTTTGTGCTGTTAATTACGCCGCTTACTGACGAAACGTATCATATGATGGGAGAGCGGGAATTTAAATTGATGAAAGATACGGCATGTTTCGTCAATATTTCCCGGGGAAAGACGGTTGATGAGAAAGCGCTCATCCGCGCATTGCAGGAGGGCTGGATAAAAGGCGCCGGTTTAGATGTGTTTGAAAAAGAGCCGATCGCCGAAGACAATCCGCTCCTGCAGCTGGAAAACGTCACATTGCTTCCGCATATCGGGTCAGCAACGGCAAAAATCCGCTTGAATATGTTCAAGCAAGCCGCACAAAACATGATTGACGCCGTATACGGAAAAACGCCGAAAAACCTCACGAAGGAATTTCAATGA	MKPYVFIAKPIPPEVEQMIGEHCRYDIWKEDTIPKEELYEKMKDAEGLLTSGTAIDRDLLDHAPKLKVVSNNSVGYDNFNIEEMKRRGVVGTHTPYTLDDTVADLAFSLILSSARRVAELDRFVRAGKWGTVEEESLFGMDVHHQTLGIIGMGRIGEQAAKRAKFGFDMDVLYYNRSRKPDAEKELGVTYADLDTLLKTSDFVLLITPLTDETYHMMGEREFKLMKDTACFVNISRGKTVDEKALIRALQEGWIKGAGLDVFEKEPIAEDNPLLQLENVTLLPHIGSATAKIRLNMFKQAAQNMIDAVYGKTPKNLTKEFQ	PGPT0001310_835	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
D1-12_03661	582	csh_1		Carbon disulfide hydrolase	ATGGTTTCTTTATCAAGCATTTTGGAGCACAACCAGCAGTTTGTCCAAGAAAGGAAATATGAACCTTACCAAACGACAAAATTCCCGAAAAAAAAGCTTGTCATCGTATCCTGTATGGATACAAGGCTGACGGAGCTTCTGCCGCAGGCGATGGGACTCAGAAACGGCGATGCCAAAATCATAAAAAACGCGGGAGCCATTGTTTCTCACCCATTTGGAAGTGTCATGCGGAGCATTTTGGTTGCCGTTTATGAACTGCAGGCAGAGGAAGTCTGCATCATAGGTCACCGCGAGTGCGGAATGTCGGGATTAAATGCGGCTTCCATATTAAATAAAGCGAAAGAGCGCGGCGTGGAGGACAAATGTCTCAGCCTTCTGCAGCATGCGGGAGTCGATTTGGAAACATGGCTGACCGGTTTTCACAGCGTCGAAGAAAGCGTGGCCCACAGCGTGAATATGGTCAGGCATCATCCGCTCTTGCCTGAAGAGGTGCCGGTGCACGGGCTGGTGATCGATCCGGGGACGGGGACGCTGGATGTAGTCGTTGACGGTTATGAAACAGTCAAAGGAGGATGCAGCTGA	MVSLSSILEHNQQFVQERKYEPYQTTKFPKKKLVIVSCMDTRLTELLPQAMGLRNGDAKIIKNAGAIVSHPFGSVMRSILVAVYELQAEEVCIIGHRECGMSGLNAASILNKAKERGVEDKCLSLLQHAGVDLETWLTGFHSVEESVAHSVNMVRHHPLLPEEVPVHGLVIDPGTGTLDVVVDGYETVKGGCS	PGPT0002415_6086	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-12_03662	1590	dauA_2	COG0659	C4-dicarboxylic acid transporter DauA	ATGCAATTTACCGGCAGATATCAAGGATACAATTTGCAGAAATTTCAGAAAGACCTAATCGCGGGAATTGTGGTCGGAATTGTAGCGATTCCACTGGGAATGGCCTTTGCCATCGCCTCGGGGGTCGGTCCGGAATACGGGCTTTACACCGTTATTGTGGCCGGAATTCTGATTTCGCTGTTGGGCGGCTCTAAATATCAGATCGGCGGGCCTACGGGGGCGTTTGTTCCCATTTTATTTGCCATTGTGATGCAGTATGGTTTTGAGAATTTACTTGTAGCCGGTTTTATGGCAGGCGTCATGCTCGTCCTGTTTGGCGTATTTAAGCTCGGAAAGATTATGAAATTCGTGCCGAAGCCGGTGATCGTCGGATTTACGGCCGGAATCGCGGTGCTGATTTTCTCGGAGCAGATTGCCCATTTTCTCGGTCTGCGCGATATTCAAAAGCATGAAAGCTTTATCCTCAACATTGCGGAAATCGGCAAGAAGATCGGAACCTTTAATTTGTACAGCATCCTCATCGCGGGAATTGCTTTGGCCATTTTGCTGTTATCAGCCAGGCTGATGCCGAAGATTCCGGGCGCGCTTGTGGCGCTGCTTGTCTCTACAGCCGCAGCGGTCATGTTTTTTCCTGACAAAATGGCGACAATCGGTTCTGCTTACGGGGAGATTCCGCGGCAGCTCCCGGCTTTTCAGCTTCCGGATTTCTCAATCGATAACATGGTGATGATGTTCCCGTCTGCTTTGATCATTGCGCTTCTCGGCGGTCTTGAATCCATATTATCGGCGATGGTCGCGGACAATATGAAAGGATCACGGCATGACAGCAATAGGGAGCTTGTCGGGCAGGGCATCGCCAATATGGCAGCGCCGCTTTTCGGCGGCATACCGGCAACGGGAGCGATTGCGCGGACCGCAACAAATATTAAAAACGGCGCAGTTTCTCCGATTTCCGGTGTTGTCCACGGAGTCACCGTCCTCCTCGTCCTGCTCGTCTTCGCCCCGCTTGCCGTTCATGTACCGCTGGCAAGCATGGCGCCGGTGTTGATGGTTGTGGCTTGGAACATGAGTGAGCGGAGGGAAGTCGCCAATATGATGCGGCTGAAAAACACTGATTCATTCGTACTGGCGGCAACCTTTTTACTGACGGTTCTGTTTGATTTAATCATCGGCGTTTCTGCCGGTCTCGTGCTCGCTTTTGTTTTCTTTATCAGAAAAATGAGCGAATCAACAAGCATCAAAACACCGCATGCCGCTGTCAAATCGGTTAAAAATGATTCGTCCGTCAGCACATATTCCATTGAGGGGCCGCTGTTTTTCGGTTCAATTGATTCACTGGAATCATCGCTGCTGGAGAGGCTTCAGGAAAAGCCGAAGACGCTTATTCTGCTGATGAATAATGTACATTACATGGATACCTCCGCAGAAGCGGTACTGGGGAATGTGATGAACCGGATCAAACGGCATAACGGGAGATTGATGATCGTCGGATTGCAATCACAGCCGAGAGAGCTGATCCGGAAGACAGGGCTGTTTCATAAAATCGGGAAACAGCATTTCTTTGAGCATCAGGACGAGATAACGGGATAA	MQFTGRYQGYNLQKFQKDLIAGIVVGIVAIPLGMAFAIASGVGPEYGLYTVIVAGILISLLGGSKYQIGGPTGAFVPILFAIVMQYGFENLLVAGFMAGVMLVLFGVFKLGKIMKFVPKPVIVGFTAGIAVLIFSEQIAHFLGLRDIQKHESFILNIAEIGKKIGTFNLYSILIAGIALAILLLSARLMPKIPGALVALLVSTAAAVMFFPDKMATIGSAYGEIPRQLPAFQLPDFSIDNMVMMFPSALIIALLGGLESILSAMVADNMKGSRHDSNRELVGQGIANMAAPLFGGIPATGAIARTATNIKNGAVSPISGVVHGVTVLLVLLVFAPLAVHVPLASMAPVLMVVAWNMSERREVANMMRLKNTDSFVLAATFLLTVLFDLIIGVSAGLVLAFVFFIRKMSESTSIKTPHAAVKSVKNDSSVSTYSIEGPLFFGSIDSLESSLLERLQEKPKTLILLMNNVHYMDTSAEAVLGNVMNRIKRHNGRLMIVGLQSQPRELIRKTGLFHKIGKQHFFEHQDEITG	PGPT0003020_3692	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-12_03663	321			hypothetical protein	ATGCAGATGGCTGAAGCAGAACGATGGACGAAAGATTTTTACGAAAAACGAGGATGGACGGCGTACGGGCCATTTATCAGAATCGGCTTTTTAATGGAAGAGGCGGGTGAGCTCGCCCGGGCGGTAAGAGCATATGAAATCGGCAGAGACCGGCCGGATGAAAAGGACGCGACCCAGGCTGAACGCAGGCAGGAGCTGATTGAAGAAATGGGTGACGTCCTCGGAAATCTGGCCATCCTTGCCGATAAGTACGGAATCACGTTAGAAGATGCGATGAAAGCCCATCAGGAAAAACTGATCAAACGCTTTGAAACCGAATAA	MQMAEAERWTKDFYEKRGWTAYGPFIRIGFLMEEAGELARAVRAYEIGRDRPDEKDATQAERRQELIEEMGDVLGNLAILADKYGITLEDAMKAHQEKLIKRFETE				NA	NA	NA	NA	NA
D1-12_03664	576	yvdD	COG1611	LOG family protein YvdD	ATGAAAACCATTTGTGTATTTGCGGGGTCAAACCCGGGGGTAAATGAAGAGTACAAACGCAAAGCGGCCGAACTGGGTGAATATATGGCGGAGCAGGGAATCGGCCTTGTTTACGGCGGTTCACGGGTCGGTCTGATGGGAACCGTCGCCGATGCGTTAATGGCAGGCGGCGGAAAAGCTGTCGGCGTCATGCCGAGCGGGCTGTTCAGCGGAGAGGTTGTTCATCAGAATCTGACGGAGCTGATTGAAGTCAGCGGCATGCATGAGCGGAAAGCGAAAATGAGTGAACTTGCCGATGGGTACATTGCCATGCCCGGCGGTTTCGGAACATATGAAGAGTTATTTGAAGTGCTGTGCTGGGCGCAAATCGGCATTCATCAAAAACCGATCGGACTGTACAATGTGAACGGGTATTTTGAGCCGATGATGAAGATGGTCAAGTACAGCATTCAGGAAGGATTTTCGAATGAGTCTCATTTAAAACTGATACACAGTTCCTCCCGGCCGGATGAGCTGATTGAGCAGATGAACAATTACTCGTACCCGATCCTTCAGAAAAAATGGACGGAAATATAA	MKTICVFAGSNPGVNEEYKRKAAELGEYMAEQGIGLVYGGSRVGLMGTVADALMAGGGKAVGVMPSGLFSGEVVHQNLTELIEVSGMHERKAKMSELADGYIAMPGGFGTYEELFEVLCWAQIGIHQKPIGLYNVNGYFEPMMKMVKYSIQEGFSNESHLKLIHSSSRPDELIEQMNNYSYPILQKKWTEI	PGPT0007225_762	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
D1-12_03665	951	purR_1	COG1609	HTH-type transcriptional repressor PurR	ATGGCGACGTTGTCAGATGTGGCTAAGAGAGCGAATGTTTCGAAAATGACGGTGTCACGTGTGATTAATCACCCTGATACGGTAACAGATGAACTGAAAAAGCTCGTTCATTCCGCAATGAAAGAGCTGAATTACATCCCTAATTATGCGGCAAGAGCGCTTGTGCAAAACAGAACACAGGTTGTCAAATTGCTGATTCTTGAGGAAATGGATACGACCGAACCCTATTACATGAACTTGCTGACCGGAATCAGCCGGGAGCTGGATCGCCATCATTATGCTTTGCAGCTTGTGACAAGAAATTCACTCAATATCGGGCAATGCGACGGCATTATTGCCACCGGCTTGAGAAAGGCCGATTTTGAATTTGTCATCAAAGCTTTTGAAAAGCCGTTAGTCGTATTTGGAGAAAATGAAATGGGCTATGATTTCGTCGATGTGAATAACGAAAAAGGGACTTTTATGGCAACCCGCCATGTCATGGGGCTGGGGGAGCGTGAGGTTGTCTTTTTCGGCATTGATTTGGATGAGCCATTCGAACGCTCAAGAGAACAGGGGTATATTCGGGCGATGAAAGAGAGCTGCAGAGAAACGAAGCTGTTTCGGATCGCTAACAGTTCAAAAAAAAGCGAAAGCCTGGCAAGAGAAGTTTTGAAAACGCTCGGCCGGCAAGCCGCGTTTGTCTGCGCCACCGACCGAATCGCGCTCGGGGTCATTCGTGCGGTGCAGTCACTCGGAAAACGAATTCCCGAAGATGTGGCCGTTACTGGAAATGACGGTGTTTTTCTTGACCGCATTTCCTCCCCGCGGCTGACTACGGTCAGACAGCCGGTTGTGGAAATGGGAGAGGCCTGTGCGAAAATGCTGCTGAAAAAAATGAATGAAGGCGGCGCAGCTCAAGGTCATTTGTTTTTTGAACCGGAGTTAATTGTGCGGGAATCAACTTTGTGA	MATLSDVAKRANVSKMTVSRVINHPDTVTDELKKLVHSAMKELNYIPNYAARALVQNRTQVVKLLILEEMDTTEPYYMNLLTGISRELDRHHYALQLVTRNSLNIGQCDGIIATGLRKADFEFVIKAFEKPLVVFGENEMGYDFVDVNNEKGTFMATRHVMGLGEREVVFFGIDLDEPFERSREQGYIRAMKESCRETKLFRIANSSKKSESLAREVLKTLGRQAAFVCATDRIALGVIRAVQSLGKRIPEDVAVTGNDGVFLDRISSPRLTTVRQPVVEMGEACAKMLLKKMNEGGAAQGHLFFEPELIVRESTL	PGPT0014791_450	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
D1-12_03666	1767	bbmA	COG0366	Intracellular maltogenic amylase	ATGGAATATGCCGCAATACATCATCAGCCGTTCAGTGCTGATGCTTATTCTTATGACGGGCGGACGGTGCATATCAAAATCCGGACGAAAAAAGGTGATGCTGATCAGATTCGATTGGTTTGGGGCGATCCTTATGAATACAGCGGCGGCAGATGGTCGGCAGCCGAGCAGCCAATGAGAAAAACAGCCGCAACCCAAAACCATGATTATTGGTTTGCTGAAGTGTCGCCGCCATTCAGGCGTTTGCAATATGCATTTATTGTCTCAGACCAGCATGAAAACATCTTTTTCGGAGCGTCAGGGGTCTGTCCTGTAAATAAAAAAACGCTGGAAACGATTCATTATTATTTTAAGCTTCCGTTTGTTCATGAGGCGGATACATTTCAAGCGCCTGAATGGGCGAAATCAACGGTTTGGTATCAAATTTTTCCGGAACGTTTTGCGAATGGAAGAGAAGACCTGTCACCGGAAGCTGCACTGCCTTGGGGGAGCAAGGACCCGGACGTTAATGATTTTTTTGGCGGAGATTTGCAGGGGATTATCGACAAGCTCGATTATTTAGAAGAATTAGGGGTGAACGGAATTTATTTAACTCCGATCTTCTCCTCTCCATCCAACCATAAATATGACACGCTGGATTACTATTCCATCGATCCGCATTTTGGGGATCGGGAGCTTTTCCGGACATTGGTCAGCCGGCTTCATGAGCGGGGAATGAAAATTATGCTTGATGCTGTTTTTAATCATATAGGCAGCGCTTCTCCGCAATGGCAGGATGTTGTAAAACACGGGGCCCGGTCCCGCTACAAAGACTGGTTCCATATTCACTCTTTTCCTGTGAAAGAAGACAATTATGACAGGTTTGCGTTTACGCCTGATATGCCGAAGCTGAATACGGCTAATCCGGAAGTACAGAGGTATTTGTTTGAGATTGCTTTGTACTGGATTCGTGAATTTGACATTGACGGCTGGCGTTTAGATGTGGCAAATGAAGTGGATCACGCTTTTTGGAAGGCATTCAGGCAGGCGGTAACGGCAGAGAAGCCCGATCTTTATATTTTGGGAGAGATATGGCATTCCTCCGAACCTTGGCTCAGAGGAGATGAGTTTCACGCTGTGATGAATTATCCTTTCACAGAGCCGATGATTGCTTATTTTGCTGACCGGGAGATTTCTGCTTCATCCATGGCCTATCGATTAAACGCGCACTTGATGAATGGGATGCGGCAGGCCAACGAGGTGATGTTTAATTTACTGGACAGCCATGATACAGAACGTCTTCTGACAAGGTGCGGAAATGATGAGAAAACAGCCCGTGCTCTGCTGGCCTTTATGTTTGCTCAGACAGGAGCGCCCTGCATCTACTACGGAACGGAAATCGGTCTGGACGGCGGGAGAGATCCATTATGCCGGAAGTGTATGGTTTGGGAAAAGGAAAAGCAAAACCAGGAAATGCTCAGCTTTATGAAACGCTTAATCACCTTACGCAAAAAAGAAAACGCTTTATTGACGTACGGAAGTCTTGAGTGGCATCTGCTTGATGATCAAAACGATTGTATCAGTTTTTCGAGGGTTTTCAATGGCAGGCAATTGATTTTCTATTTTAATCAGGGGAACCTGGCCTGGGATGTCCGTTTGCAAGATTTTAATATGGAGAGAAGCAGAAAAGTTTACGATGCGTGGACGGATCAGATCCTTCAACATGATGCCGCTATTGCTGTTCAGCCGGGAGAATTTTTGATTTTGAGTGCTGACGCCCCTGTCTGA	MEYAAIHHQPFSADAYSYDGRTVHIKIRTKKGDADQIRLVWGDPYEYSGGRWSAAEQPMRKTAATQNHDYWFAEVSPPFRRLQYAFIVSDQHENIFFGASGVCPVNKKTLETIHYYFKLPFVHEADTFQAPEWAKSTVWYQIFPERFANGREDLSPEAALPWGSKDPDVNDFFGGDLQGIIDKLDYLEELGVNGIYLTPIFSSPSNHKYDTLDYYSIDPHFGDRELFRTLVSRLHERGMKIMLDAVFNHIGSASPQWQDVVKHGARSRYKDWFHIHSFPVKEDNYDRFAFTPDMPKLNTANPEVQRYLFEIALYWIREFDIDGWRLDVANEVDHAFWKAFRQAVTAEKPDLYILGEIWHSSEPWLRGDEFHAVMNYPFTEPMIAYFADREISASSMAYRLNAHLMNGMRQANEVMFNLLDSHDTERLLTRCGNDEKTARALLAFMFAQTGAPCIYYGTEIGLDGGRDPLCRKCMVWEKEKQNQEMLSFMKRLITLRKKENALLTYGSLEWHLLDDQNDCISFSRVFNGRQLIFYFNQGNLAWDVRLQDFNMERSRKVYDAWTDQILQHDAAIAVQPGEFLILSADAPV	PGPT0012200_420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
D1-12_03667	1257	mdxE	COG2182	Maltodextrin-binding protein MdxE	ATGGCGGGGTTCGTCAAAAAGGGATTGGCTTTATTGACGGCATCAGTTTTGGCATTCTGTCTCGGCGCCTGTTCAAATTCAAAGGAATCGGCCGGCGCTGACGGCAAAAAGGTACTGACCGTGTCCGTTGAAGAAACCTATAAAAAATATATTGAAAGCATTAAAGGAGAGTTTGAAAAAGAGAATCACGTCACAGTCAACATTGCAGAAAAGCAAATGTTCGATCAGCTGGAGGCGCTTCCTTTGGACGGCCCGGCCGGCAATGCGCCTGACGTTATGCTTGCCGCATATGACCGGATCGGCAGTTTGGCGCAGCAAGGCCATTTGCTTGATCTAAAACCTGCTGATACAAAAAGCTTTGGAGATAAAGAGATGCAGCAGGTAACGGTTAACGGAAAGGTGTATGGAATGCCGCTGGTGATTGAGACGCTTGTTCTGTATTACAACAAAGATCTTATAAAAAAAGCGCCGGCAACATTTAAAGACCTTGAAACATTAACAGAGGATCCCCGGTTTTCATTTGCTTCTGAAAAAGGAAAGTCAACGGGATTTTTGGCAAAGTGGACTGACTTTTATATGTCGTACGGTTTGCTGTCCGGTTACGGCGGATATGTATTCGGGAAAAACGGCACAGATCCCGGGGATATCGGCCTGAACAATAAAGGGGCTGCAGAAGCGGTGAAATATGCGGAGAAATGGTTTAAAACGTATTGGCCAAAAGGCATGCAGGATAACTCAAGCGCAGACGATTTTATTCAGCAAATGTTTTTAGATAAGAAAGCGGCTGCAATCATCGGCGGGCCTTGGTCGGCTGCCAATTTTCAAGAGGCCGGCCTGAACTATGGCGCCGCTCCTATTCCGACATTGCCAAACGGAAAAGAATATGCTCCGTTTGCGGGCGGCAAAGGCTGGGTTGCTTCAAAATATACAAAGGAACCCGAGCTGGCTGAAAAATGGCTTGAGTATGCAACAAATGATGCCAATGCTTACGCCTTTTATGAGAAGACAAATGAAGTTCCGGCCAACACAGCCGCAAGGAAGAAAGCGGGAGAGCAAAAAAATGAGCTGGCGTCAGCTGTTATTAAACAATATGAGTCAGCGGCACCTGCGCCGAATATTCCTGAAATGGCCGAGGTATGGACTGGCGCTGAAAGTTTAATATTTGATGCGGCTTCGGGGAAAAAAACAGCAAAAAAATCGGCGGATGATGCGGTAAACGTCATAAAAGAAAACATCAAAGAAAAATATGTGAAATAA	MAGFVKKGLALLTASVLAFCLGACSNSKESAGADGKKVLTVSVEETYKKYIESIKGEFEKENHVTVNIAEKQMFDQLEALPLDGPAGNAPDVMLAAYDRIGSLAQQGHLLDLKPADTKSFGDKEMQQVTVNGKVYGMPLVIETLVLYYNKDLIKKAPATFKDLETLTEDPRFSFASEKGKSTGFLAKWTDFYMSYGLLSGYGGYVFGKNGTDPGDIGLNNKGAAEAVKYAEKWFKTYWPKGMQDNSSADDFIQQMFLDKKAAAIIGGPWSAANFQEAGLNYGAAPIPTLPNGKEYAPFAGGKGWVASKYTKEPELAEKWLEYATNDANAYAFYEKTNEVPANTAARKKAGEQKNELASAVIKQYESAAPAPNIPEMAEVWTGAESLIFDAASGKKTAKKSADDAVNVIKENIKEKYVK	PGPT0016315_757	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016315-cycB|ganO-K15770	NA	NA
D1-12_03668	1311			hypothetical protein	ATGAATAAAGATGATACACTTTTACACCAAAAACGGAAGGCGTCATGGTTTTTATCGATCATTCCGGGAATTGGACAGATCGCGAATCAGCAGATATCAAAGGGGATCTTATTTCTGGTCATTACGAGTTTGTTTGCTGTTGAATTATGCGTTTTCGGTATTGAGGCGCTGACCGGATTGGTTACCTTGGGAAGTGTTCCCGGTGAAGATCACTCACTGTTTATGCTGATTGAAGGCACGCTGCAATTGATCTTGACGTTGATTTTTCTCATGTTCTATATCTTTTCAGTTTATGATTTCCGTCATACCGCCGCTATGAAAGCGGCGGGTTTGAAGGTGAATACAGCGGCCAAGGATATCATCCGCCATGCGGGAGATAAAGGGTTTCCTTATTTATTTACACTGCCGGCATATCTCATGATGGTGTTTGTGATTATTTTTCCTGTTTTGGTGACTCTGTTTGTTGCCTTAACAAACTATGATTTTTATCATATACCGCCTAACAGTCTGATTGACTGGGTCGGCTTTAAAAATTTCTTGAATATCTTTTTTGTCGGTTCTTACCAGGAAACATTTGTGAATGTACTGGGCTGGACCATGATATGGACAATCTGTGCAACAACGCTGCAAATCATTTTGGGGATCGTAACGGCACTATTCGTGAATCAAGATTTTATTAAAGGCAGACGGATATTCCGAATGATTTTCTTATTTCCATGGGCTGTTCCGGCCTTTATCACAATTATGAGCTTTTCCAATATTTTTAATGACAGTATAGGGGCGATGAACACGCAGGTGATTCCATTAATTAACCACCTGCCGTTTGTGGAACTGCCGGCGATCGCGTGGAAGACTGATGCTTTCTGGACGAAGACCGCTCTGATTATGATTCAGACCTGGCTTGGCTTTCCTTATATTTATGTCATGGTAACGGGGGTCTTGCAGTCGATTCCGGGTGAATTGTATGAAGCCGCAAAGATTGACGGGGCTTCTTTTATGCAGCGTTTTCGCAATATTACATTACCGATGATTTTATTTGCGACGGCACCGGTGATGATTACACAGTACACATTTAACTTTAATAATTTTTCGATCATCTATTTGTTTAATGAAGGCGGTCCGGGAAGCGCGGGAGCCGGTGCCGGGTCGACCGATATTTTAATTTCCTGGATCTATAAACTGACAACCGGCACTTCTCCGCAATATGCTGTGGCAGCGGCCGTGACATTGTTAATTTCTTTCGTCGTCATTGGAATTTCACTGATTGCTTTTAAAAAGTCAAATGCTTTCGGCAATGAGGAGGTGATGTAG	MNKDDTLLHQKRKASWFLSIIPGIGQIANQQISKGILFLVITSLFAVELCVFGIEALTGLVTLGSVPGEDHSLFMLIEGTLQLILTLIFLMFYIFSVYDFRHTAAMKAAGLKVNTAAKDIIRHAGDKGFPYLFTLPAYLMMVFVIIFPVLVTLFVALTNYDFYHIPPNSLIDWVGFKNFLNIFFVGSYQETFVNVLGWTMIWTICATTLQIILGIVTALFVNQDFIKGRRIFRMIFLFPWAVPAFITIMSFSNIFNDSIGAMNTQVIPLINHLPFVELPAIAWKTDAFWTKTALIMIQTWLGFPYIYVMVTGVLQSIPGELYEAAKIDGASFMQRFRNITLPMILFATAPVMITQYTFNFNNFSIIYLFNEGGPGSAGAGAGSTDILISWIYKLTTGTSPQYAVAAAVTLLISFVVIGISLIAFKKSNAFGNEEVM	PGPT0016320_611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016320-ganP-K15771	NA	NA
D1-12_03669	837	malG	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGGGTTCCAGAACGGCCGGAATGCTTACGAAAATCTGCACCTATTTATTTTTGCTGGTTTTAAGCATTGTCATTTTATATCCGCTGCTGATTACGGCTTCCTCCGCTTTCCGTGCGGGAAATGTGACGGCTTTTCAGCTCGATTTCTCAGGTTCCTGGACTTTTGATCATTTTAAGCGGCTGTTTGAAGAGACGCTCTATCTTCATTGGTACAGCAATACGCTGGTTATCGCGCTGTCAGTCATGGTATTGCAGGTCACGATTGTAACGCTTGCCGGGTATACGTACAGCCGCTATCGGTTTGCGGGGCGAAAAAAGAGTCTTGTTTTCTTTTTAATCATTCAAATGGTGCCCACAATGGCAGCGCTGACTGCTTTTTATGTATTGGCCATGCTGATAGGCGCTCTTGATCAATACTGGTTTTTGACAGCGATCTATATCGGCGGCGGAATTCCGATGAACACGTGGCTGATGAAAGGTTATTTTGATACAGTTCCGAGAGAAATTGATGAGGCTGCGCGAATGGATGGAGCGGGGCATTTCAGGATATTTGCCTCCATTGTGCTGCCGCTTGTGAAGCCGATGCTTGCCGTTCAAGCGCTTTGGGCGTTTATGGCGCCGTTCGGGGACTATTTGCTGGCGAAGTTTTTGCTTCGCTCGCCGGAAAGGCTGACCATTGCAGTAGGGTTGCAGTCGTTCATTTCAAATCCGCAGCAGCAAAAAGTCGCCCTGTTTGCGGCGGGGGCTATACTTGCCGCACTGCCGATATGCATCTTGTTCTTTTTTCTCCAAAAGAACTTTGTATCCGGGCTGGCGGCGGGCGGAACAAAGGGGTAG	MGSRTAGMLTKICTYLFLLVLSIVILYPLLITASSAFRAGNVTAFQLDFSGSWTFDHFKRLFEETLYLHWYSNTLVIALSVMVLQVTIVTLAGYTYSRYRFAGRKKSLVFFLIIQMVPTMAALTAFYVLAMLIGALDQYWFLTAIYIGGGIPMNTWLMKGYFDTVPREIDEAARMDGAGHFRIFASIVLPLVKPMLAVQALWAFMAPFGDYLLAKFLLRSPERLTIAVGLQSFISNPQQQKVALFAAGAILAALPICILFFFLQKNFVSGLAAGGTKG	PGPT0016325_1138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016325-ganQ-K15772	NA	NA
D1-12_03670	885			hypothetical protein	ATGAAGAATGTGCAAAATGAAAGCTTTATGATCCGCAGTCTTAAAGCGTCGGTGTCTCCGTCAGGTATTTGCCGTTACGGGAAAACATTCAGCTGGCTTCAGCTTTCCTTTCTCTTTATGTTTTTGACGTCCTGCCTTATGGCGCCGTTTACGATGTCGTTTTTGAAAATGGACCGCTTCAGCCTCAAATTGGTTATGCCTGCGGCGCTTTCTGCAGTGAATGATCGTTTTGCCGAACAATTAAACGGTATTCAAATCAGGAACGGAAAACTGACAGGCGGACAGCGTTTTGATCAAATTGAAGAGGGCAACCATCTGATGGCAGTCGATATGGAGCATGAATGGAAACCAAACGGTGAAAATGGGCGTTTGCGTGTAAAAGGATATGACAACGCGGTCATATTCCAGCCTGACCGGCTGATTATTACCGACCAAAACGGAATGGGGTTTTCAGTTCGCTATGGGAAAGCGGACGCCAGTCTTACGGACCCGGGCGTATATGAGACGGAGGCTCTTATCGGTCAATTGTGGCTGGCACAGTATAAGCCGATGATCATGATGCTGGGGTGCGCAGTGATTTTTTTGATCCAGCTATTTTTTACAGCTGTGCTTGCGGGAGGCATCTGGATGGCAAAATTATCAAAAATGATCGATATCGCGTCATGTAAGGAAGCAGCTTCTGCAGCGATATGCGCATCGGCTCTGCCTGCATTCGCGGCAGCTGCTATCGGGCTGATCCGCTTTGATTTGATTACTGTATTAATGGTTCATACATGCGGCGTCACGTTGATGATTGCTTTTTTATTCAGATATATGGCCAAAACCCGCCGTCATAATGAAAATGTTCATTCGGGAGGAAGACATGATAAATCAGCGGTTGTTTGA	MKNVQNESFMIRSLKASVSPSGICRYGKTFSWLQLSFLFMFLTSCLMAPFTMSFLKMDRFSLKLVMPAALSAVNDRFAEQLNGIQIRNGKLTGGQRFDQIEEGNHLMAVDMEHEWKPNGENGRLRVKGYDNAVIFQPDRLIITDQNGMGFSVRYGKADASLTDPGVYETEALIGQLWLAQYKPMIMMLGCAVIFLIQLFFTAVLAGGIWMAKLSKMIDIASCKEAASAAICASALPAFAAAAIGLIRFDLITVLMVHTCGVTLMIAFLFRYMAKTRRHNENVHSGGRHDKSAVV				NA	NA	NA	NA	NA
D1-12_03671	2274	malP_2		Maltose phosphorylase	ATGATAAATCAGCGGTTGTTTGAGATTGATGAATGGAAAATCAAAACCAATACATTTCAAAAAGAGTATATACGGCTGCAGGAAAGCCTGACTTCTCTTGCCAACGGCTATATGGGCATCAGGGGGAATTTCGAAGAGGGCTATTCAGGCGGCAGCCATCAAGGCACATATATTGCGGGCGTGTGGTTCCCTGACAAAACGCGGGTAGGCTGGTGGAAAAACGGGTATCCGGACTATTTCGGAAAAGTGATCAATGCGATGAATTTTATTGGTATAGATGTGTATGTTGACGGTGAAAAAGTCGATCTCTATCAAAACCGACTCGAATCATTTGAGTTAGAGCTTCATATGAAAGAAGGAATTCTGAGGAGGAGCGCTGTTGTCCGTATTCAGGATAAAACCGTGCGAATCAAATCAGAACGATTTCTCAGCCTGGCCGTAAAAGAGCTATGTGCGATTCATTATGAAGCGGAGTGTCTGACAGGGGACGCCGTTATTACGCTTGTCCCTTATCTTGATGGCAATGTTGTAAACGAAGATTCAAACTATCAAGAGCGGTTTTGGCAGGAAAAAGAGACAGGAGCGGATTACCGCCGCGGGCATATAACGGCAAAAACGCTCGACAATCCGTTCGGAACGCCGCGTTTCACTGTCTCAGCCTTAATGGAAAATTTGACAGAAGGCTATGTAAGTCAAAGCTTTCAAACTTCCGGCATGTATGCTGAAAATCGCTTCAGCTACCAAAACAAAGCTTCATTGAAGAAGTTTATTGTTGTCACGACTTCACGCGATGTTCAAGAAGCAGAGCTTACTTCGAAAGGGGAGGAGCTTTTGGCGGCTATTCTTAAGCAAGGTTATGAAGAAGCGAGACAGCAGCATATTGCCAAGTGGAAGGAAAGATGGGCAAAAGCGGATATAGAGATAAAGGGAGATAAGGAACTTCAGCAAGGCATCCGCTACAATATCTTTCAGTTATTCTCGACATACTACGGGGCAGATGCCCGTTTGAACATCGGACCGAAAGGATTTACAGGCGAAAAATACGGCGGTGCCGCCTATTGGGATACCGAGGCGTATGCCGTTCCGATGTATTTGGCGACAGCCGAGCCGGAAGTCACGAAAAACCTGCTTTTGTACCGCTATCATCATTTGGAGGCTGCCAAACGGAACGCCGCCAAGCTGGGGATGAAGGGGGCGCTTTATCCGATGGTGACGTTTACCGGAGATGAATGCCACAATGAGTGGGAGATTACGTTTGAAGAAATTCACCGCAACGGCGCGATTTGCTATGCGATCTGCAATTATGTCCAATATACAGGTGATCGCGCCTATATGGAGGAATATGGGATAGACGTTCTTGTGGCAGTCAGCAGATTCTGGGCCGGCCGCGTTCACTTTTCGAAACGAAAAAATAAGTATATGATCCACGGCGTCACAGGGCCGAATGAATATGAAAACAACGTTAACAACAATTGGTATACGAATGTCATTGCGGCTTGGACGTTGGATTATACTCTGCAAAGTCTCGAAAGGATCTCAGCGGAGAAACGCCGCCTTCTGGATGTGCAGGAAGAAGAATTGAAAGTCTGGAGAGAAATCATCCGGCACATGTACTATCCGTATAGTGAAGAACTGCAAATTTTCGTTCAGCATGACACATTTTTGGACAAAGACCTGCAATCAGTTGACGAATTAGATCCAGCTGAACGGCCTCTTTATCAAAATTGGTCATGGGACAAAATCCTCCGCTCCAGCTTTATTAAACAAGCCGATGTGCTGCAAGGCATTTATTTATTTCCTGACCGTTTCTCTATAGACGAAAAACGCCGCAACTATGAATTTTATGAACCGATGACGGTTCATGAATCAAGCTTATCGCCCTCCATTCACGCGGTGCTCGCTGCCGAATTGAGGATGGAAAAGAAGGCGCTTGAATTATATAAGCGTACAGCAAGGCTTGATCTCGACAATTACAATCGCGATACGGAGGAAGGTCTTCACATTACTTCAATGACGGGAAGCTGGCTGGCGATCGTCCAAGGGTTTGCCGGCATGCGTACTTTAAAAGGAACGCTCTCATTCACCCCATTTTTGCCGAATGAATGGGACGGTTACTCGTTCCATATCAATTATCGAAACCGCTTGATCAAGGTGACGGTCGAAGAAAGGCGCGCCATTTTTGAGCTTGTCAAAGGCGAACCGGTGTCCATCACAGTTTATGGAGAACCGATGGTGCTGAATGAACGATGTGAAAGGAGAATGCCTGATGAGTGA	MINQRLFEIDEWKIKTNTFQKEYIRLQESLTSLANGYMGIRGNFEEGYSGGSHQGTYIAGVWFPDKTRVGWWKNGYPDYFGKVINAMNFIGIDVYVDGEKVDLYQNRLESFELELHMKEGILRRSAVVRIQDKTVRIKSERFLSLAVKELCAIHYEAECLTGDAVITLVPYLDGNVVNEDSNYQERFWQEKETGADYRRGHITAKTLDNPFGTPRFTVSALMENLTEGYVSQSFQTSGMYAENRFSYQNKASLKKFIVVTTSRDVQEAELTSKGEELLAAILKQGYEEARQQHIAKWKERWAKADIEIKGDKELQQGIRYNIFQLFSTYYGADARLNIGPKGFTGEKYGGAAYWDTEAYAVPMYLATAEPEVTKNLLLYRYHHLEAAKRNAAKLGMKGALYPMVTFTGDECHNEWEITFEEIHRNGAICYAICNYVQYTGDRAYMEEYGIDVLVAVSRFWAGRVHFSKRKNKYMIHGVTGPNEYENNVNNNWYTNVIAAWTLDYTLQSLERISAEKRRLLDVQEEELKVWREIIRHMYYPYSEELQIFVQHDTFLDKDLQSVDELDPAERPLYQNWSWDKILRSSFIKQADVLQGIYLFPDRFSIDEKRRNYEFYEPMTVHESSLSPSIHAVLAAELRMEKKALELYKRTARLDLDNYNRDTEEGLHITSMTGSWLAIVQGFAGMRTLKGTLSFTPFLPNEWDGYSFHINYRNRLIKVTVEERRAIFELVKGEPVSITVYGEPMVLNERCERRMPDE	PGPT0018605_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018605-mapA-K00691	NA	NA
D1-12_03672	1686	malL_2	COG0366	Oligo-1,6-glucosidase 1	ATGAGTGAATGGTGGAAAGAAGCTGTCGTGTATCAAATTTACCCGCGCAGTTTTTATGATTCCAATGGAGATGGATTTGGGGATTTACAAGGCATTATCAAAAAGCTTGATTATATCAAAAGACTTGGCGCGGATGTGATCTGGCTGTCGCCCGTGTTTGATTCTCCGCAGGATGACAACGGTTATGACATCAGTGACTACAGAAACATGTACGAAAAATTCGGAACAAATGAAGATATGTTTCAGTTAATTGATGAAGTGCATCAGCGCGGAATGAAAATCATCATGGATCTGGTCGTGAACCACACGTCGGATGAACATGCCTGGTTTGCTGAAAGCCGCAAGTCGAAGGACAATCCTTACCGGGATTATTATTTTTGGAAAGACCCGAAATCGGACGGTTCTGAGCCGAATAATTGGGGATCGATTTTTTCAGGCTCGGCGTGGACGTTCGATGAAGGGACAGGACAGTATTATTTGCACTACTTTTCGAAAAAACAGCCTGATTTAAATTGGGAAAATGAAGCCGTTCGCCGGGAAGTGTATGATCTGATGAAGTTCTGGATGGATAAAGGCGTTGACGGCTGGCGGATGGATGTGATCGGCTCCATTTCCAAGCACACTGATTTTCCGGACTATGAAACAGATAACAGCCGCCCCCATATCGTCGGCCGTTATCACTCTAACGGCCCCCGCCTGCATGAATTTATTCAAGAGATGAACAGGGAAGTGCTTTCTCATTACGACTGCATGACAGTCGGAGAGGCAAACGGTTCTGATATTGAAGAGGCGAAAAAATATACGGATGCAGGCAGGCAAGAGCTGAATATGATCTTTACATTTGAACATATGGATATCGATACAGAACAAAACTCGCCAAATGGGAAATGGCAGATCAAGCCGTTTGATGTGATTGCTTTAAAACAAACAATGACAAGGTGGCAGACCGGGTTGATGAATAGCGGCTGGAATACCCTGTATTTTGAGAATCATGATCAGCCGAGAGTGATTTCCCGCTGGGGCAATGACGGTGAGCTGCGAAAACAATGTGCGAAAGCATTCGCAACGGTTCTCCACGGGATGAAAGGCACACCGTTTATTTACCAGGGAGAAGAAATCGGCATGGTCAACAGTGATATGCCGCTGGAGATGTATGACGATCTTGAAATAAAAAATGCATACCGTGAACTAGTCATCGAAAACAAAACGATGTCAGAAAAAGAGTTTGTCAAAGCCGTGATGATAAAAGGAAGGGATCACGCGAGGACGCCGATGCAATGGGATGCAGGAAAACATGCCGGATTCACAGCCGGAGACCCTTGGTTAGCGGTCAATTCCCGCTATCAAGAAATCAATGTGAAAGAATCCTTGGAAGATCAAGATTCAATTTTCTATTACTATCAGAAGCTCATTCAATTACGAAAGCAATATAAGATCATGGTATACGGAGATTATCAGCTGCTGCTGGAAGATGATCCGCAAATCTATTGTTATATCCGTAAATATCAAGGGAAAAAGCTTCTCGTCGTTGTGAATTTATCGGAAGAAAAGGCCCGGTTCGAAGCGCCTCCGGAACTGATTCATGAGCGCTGGAAAGTGCTTATTTCCAACTATCCGGAGGAGCGGGCTGACTTGAAGCGTATCAGCCTCAAACCATATGAAGCTGTGATGGGCATCAGCATATGA	MSEWWKEAVVYQIYPRSFYDSNGDGFGDLQGIIKKLDYIKRLGADVIWLSPVFDSPQDDNGYDISDYRNMYEKFGTNEDMFQLIDEVHQRGMKIIMDLVVNHTSDEHAWFAESRKSKDNPYRDYYFWKDPKSDGSEPNNWGSIFSGSAWTFDEGTGQYYLHYFSKKQPDLNWENEAVRREVYDLMKFWMDKGVDGWRMDVIGSISKHTDFPDYETDNSRPHIVGRYHSNGPRLHEFIQEMNREVLSHYDCMTVGEANGSDIEEAKKYTDAGRQELNMIFTFEHMDIDTEQNSPNGKWQIKPFDVIALKQTMTRWQTGLMNSGWNTLYFENHDQPRVISRWGNDGELRKQCAKAFATVLHGMKGTPFIYQGEEIGMVNSDMPLEMYDDLEIKNAYRELVIENKTMSEKEFVKAVMIKGRDHARTPMQWDAGKHAGFTAGDPWLAVNSRYQEINVKESLEDQDSIFYYYQKLIQLRKQYKIMVYGDYQLLLEDDPQIYCYIRKYQGKKLLVVVNLSEEKARFEAPPELIHERWKVLISNYPEERADLKRISLKPYEAVMGISI	PGPT0019145_642	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019145-malL-K01182	NA	NA
D1-12_03673	690	yvdM	COG0637	Beta-phosphoglucomutase	ATGAAAGCGGTTATTTTTGATTTAGACGGAGTGATAACAGATACTGCGGAATATCATTTTCTTGCTTGGAAGCACATCGCAGAACAAATTGATATTCCCTTTGACAGGAATGTGAATGAAGGCCTGAAAGGAATCAGCCGGGAAGAGTCACTGGAAAGCATACTGATCTTTGGCGGAGCGGAAAAAAGGTTTACACATGCGGAGAAACAAGAACTGCTGCATCAAAAAAACCAATATTATCAAACGTTGATCAGCAGATTGACGCCGGAAGATCTCTTGCCGGGAATCGGCAGGCTTCTTTGTGAATTAAAAAATGAACATATAAAAATCGGGTTAGCATCTTCAAGCCGCAATGCCCGCGCGATCTTAAAACGTTTGGCGATTATCGATGATTTTCAAGCCATTGTTGACCCGGCGGCTCTTGCGAAGGGGAAGCCTGATCCCGAAATCTTTTTAACAGCTGCAGCGCTGCTCGGTGTTTCCACGGCTGATTGCGCGGCAATAGAAGATGCTGAAGCAGGAATATCTGCAATTAAATCTGCCGGGATGTTCGCGGTCGGTGTCGGGCGTGAACAGTCGATGCTTGGTGCTGATCTGGTTGTGAGGCAAACCGGTGAATTGTCGTTTGAGCTGTTGAAGGAAGAATGGAAGCAGTATAGGGGAAAGGTTTTAAAAAGCATCAGAGAGTGA	MKAVIFDLDGVITDTAEYHFLAWKHIAEQIDIPFDRNVNEGLKGISREESLESILIFGGAEKRFTHAEKQELLHQKNQYYQTLISRLTPEDLLPGIGRLLCELKNEHIKIGLASSSRNARAILKRLAIIDDFQAIVDPAALAKGKPDPEIFLTAAALLGVSTADCAAIEDAEAGISAIKSAGMFAVGVGREQSMLGADLVVRQTGELSFELLKEEWKQYRGKVLKSIRE	PGPT0017720_338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017720-pgmB-K01838	NA	NA
D1-12_03674	597	clpP	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGAATTTAATACCTACAGTCATTGAACAAACGAACCGCGGAGAAAGAGCTTATGACATTTACTCCCGTCTTTTGAAGGACCGTATTATCATGCTTGGATCTGCGATTGATGACAACGTTGCGAACTCCATCGTGTCACAGCTTTTATTCCTTGAAGCGGAAGACCCTGAAAAAGATATTTCCATTTACATTAACAGCCCTGGCGGATCAATCACTGCCGGTATGGCAATCTATGATACAATGCAGTTCATTAAACCGAAAGTATCCACGATCTGCATCGGTATGGCCGCTTCTATGGGAGCATTTTTACTTGCAGCCGGAGAAAAAGGCAAACGTTACGCGCTTCCTAACAGTGAAGTTATGATTCACCAGCCGCTTGGCGGAGCGCAAGGACAGGCGACAGAAATTGAAATCGCCGCAAAACGCATTCTCTTGCTTCGCGACAAATTAAACAAAGTGCTTGCTGAACGTACCGGCCAGCCGCTTGAAGTCATTGAGCGCGATACAGACCGCGACAACTTCAAATCAGCTGATGAAGCCTTAGAATACGGCTTAATCGATAAAGTGCTGACACGCAATACAGAAGACCAGAAGTAA	MNLIPTVIEQTNRGERAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLEAEDPEKDISIYINSPGGSITAGMAIYDTMQFIKPKVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPLGGAQGQATEIEIAAKRILLLRDKLNKVLAERTGQPLEVIERDTDRDNFKSADEALEYGLIDKVLTRNTEDQK	PGPT0014595_6771	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-12_03675	975	degA_2	COG1609	HTH-type transcriptional regulator DegA	ATGAAGCCTAACATTCATGATGTTGCGAAAATAGCGGGAGTTTCATCTACAACCGTTTCGCGGGTATTAAATAACCGCGGCTATATCAGCGAAAAAACAAAAGAAAAAGTGTACAAGGCGATGGAAGAAATCAATTACTTTCCAAACGATCTGGCCCGCTCTTTATTCCGAAAACGAACCAATTTAATAGGACTTATCATTCCAAACTCCAGCAACCCGTTTTTCGGCGAACTCGCCTTTCATATTGAAAGCATTTGTACGTCCATGGGCTACAAACTGCTGCTTTGCAACAGTTTACATCGAAAGGATAAGGAAGAAAAATATTTGGAGATGCTGATAAGAAACCAAGTGGACGGCGTGATCGCCGTGACTTACAACCGGGGAATTCTCAATTATCACAAGCAAAATCTGCCGATTGTCGCCATTGATCATTACTTATCGGACACGATTCCAGTCGTCGGCTCAGACAACTATGACGGCGGAAAAAAGGCGGCTGAACTGCTGATTGAAAAAGGGTGCCGGCACATCGTCCATCTCAACGGCCCGATTGAACTCGAAACACCGGCAAACCTCAGAAGAAAAGCATACGAAGACGTCATGCATGAACACGGACGGAAGCCTATTACATATGAAGTACCCTTTTATCAGCATTACCATGATATTATTTCAACATTATTCGATGAACAGCCTGACACCGACGGAATTTTTGCCAGCGATGATATCATGGCGGCTGCCGTGATGAACGAGGCTAAAAAACGGGGGAAAGACATCCCGAGTCAATTAAAAGTGATCGGTTATGACGGCACTGAAACCGTTCAATCGGTTCTGCCGGACTTGACAACCATCCAGCAGCCGATCGAATTGATTTCCAAAACAGCCATCGAGATTTTAGCAAAAGAAATTGAAGGCGAATTTGATGATTTGCCGCTGGAAACGTATTTGCCGATACGGCTTTTGGAAGGACGGACAACGTAG	MKPNIHDVAKIAGVSSTTVSRVLNNRGYISEKTKEKVYKAMEEINYFPNDLARSLFRKRTNLIGLIIPNSSNPFFGELAFHIESICTSMGYKLLLCNSLHRKDKEEKYLEMLIRNQVDGVIAVTYNRGILNYHKQNLPIVAIDHYLSDTIPVVGSDNYDGGKKAAELLIEKGCRHIVHLNGPIELETPANLRRKAYEDVMHEHGRKPITYEVPFYQHYHDIISTLFDEQPDTDGIFASDDIMAAAVMNEAKKRGKDIPSQLKVIGYDGTETVQSVLPDLTTIQQPIELISKTAIEILAKEIEGEFDDLPLETYLPIRLLEGRTT	PGPT0018830_793	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_SUCROSE_METABOLSIM|DEGRADATION,PGPT0018830-scrR-K03484	NA	NA
D1-12_03676	1311	rafB		Raffinose permease	ATGTATGTGATGAATATGAAGAAGGAAGTATGCGGCTCAAAACGGCTGTTAAAAGGTCCTATTAAAGGAGCGGTGCAAATGAAAAGCTCAAAAAGTCTGTATTGGAAACTGAGTGCTTATTTCTTCTTTTTCTTTTTTACTTGGTCTTCCAGCTATTCTTTATTTGCGATTTGGTTAGGGCAGGAAATCAATTTAAACGGATCAGCGACAGGCATTATCTTTTCTGTAAACGCCGTATTTGCCCTGTGCATGCAGCCTCTTTACGGTTTTATCTCTGACAAATTGGGGCTGAAGAAAAAGATATTGTTTATGATCAGCTGTCTTCTCATATTCACGGGTCCGTTTTATATCTTCGTCTATGGACCGCTTTTACAATACAACGTCTTTCTTGGCGCCGTTGTCGGAGGCTTATATTTGGGAGCCGCTTTTTTGGCGGGGATAGGCGCGATTGAAACGTACATTGAAAAGGTCAGCCGTAAGTATGATTTCGAGTATGGAAAATCAAGAATGTGGGGCTCGCTGGGCTGGGCGGCGGCTGCATTTTTTGCAGGTCAGCTTTTCAATATCAATCCCAATATCAACTTCTGGATCGCGTCTGTTTCAGCCGTCATATTAACGGCCATCATCATGTCTGTAAAAATTGAAATGACCGATCATGAGAAAAACAGAGCGGATTCGGTCCGGTTAAAAGATGTGGGGCGGCTCTTTTTACTAAGAGATTTCTGGTTTTTTATGATGTACATTATCGGGGTGACTTGCATTTACGGTGTATATGATCAGCAGTTCCCGATCTACTATGCGTCTTTGTTTCCTTCAGTGTCGACGGGTAACCAAGTATTCGGCTACCTTAATTCATTCCAAGTGTTTTTGGAGGCCGGCATGATGTTTCTTGCGCCTTTTATCGTCAATAAGTTCGGGGCGAAAAACAGTTTGATTTTAGCGGGGTTTTTAATGGCTTTCCGCATCGTCGGGTCGGGAATTGCAGTTGAGCCTGTAGGCATTTCATCAATGAAACTCATCCACGCACTGGAATTGCCGATTATGCTGATCGCTGTTTTTAAATATTTGGCTGCCAATTTTGATACGCGTCTGTCGTCCGTCCTTTATCTCGTCGGTTTTCAATTCGCATCTCAGGCAGGCGCGTCGATTCTGTCGCCGCTTGCGGGAGGATTATATGACAGTGCGGGGTTCCGTCAAACCTATCTCATCATGGGAATCGTCGTCTTCGGTTTTACCGTCATCTCCATATTTACTTTATTGGGCCCGAAACAAAACAGCAGGCGTGTCCAGCGTCTGCAAAAAATCGGATAG	MYVMNMKKEVCGSKRLLKGPIKGAVQMKSSKSLYWKLSAYFFFFFFTWSSSYSLFAIWLGQEINLNGSATGIIFSVNAVFALCMQPLYGFISDKLGLKKKILFMISCLLIFTGPFYIFVYGPLLQYNVFLGAVVGGLYLGAAFLAGIGAIETYIEKVSRKYDFEYGKSRMWGSLGWAAAAFFAGQLFNINPNINFWIASVSAVILTAIIMSVKIEMTDHEKNRADSVRLKDVGRLFLLRDFWFFMMYIIGVTCIYGVYDQQFPIYYASLFPSVSTGNQVFGYLNSFQVFLEAGMMFLAPFIVNKFGAKNSLILAGFLMAFRIVGSGIAVEPVGISSMKLIHALELPIMLIAVFKYLAANFDTRLSSVLYLVGFQFASQAGASILSPLAGGLYDSAGFRQTYLIMGIVVFGFTVISIFTLLGPKQNSRRVQRLQKIG	PGPT0016855_575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE_TRANSPORT,PGPT0016855-lacY|MFS_transporter|OHS_family|lactose_permease-K02532	NA	NA
D1-12_03677	1470	sacA		Sucrose-6-phosphate hydrolase	ATGGATAGAATTCAGCAGGCGGAAGAAGCTTTGAAGGAAGCCGAGGGTAAAGTGAAACAAAGATATCGATTGGGGTACCATATTATGCCCCGGGCGAATTGGATCAATGATCCGAACGGACTTATTCAGTTTAAAGGAGAATACCACGTCTTTTTTCAGCATCATCCGTATGATGAGCATTGGGGGCCGATGCATTGGGGACATGTAAAAAGTAAAGATCTCATTCATTGGGAGCACCTGCCGGTTGCCTTAGCTCCGGGGGATGAATTCGACCAAAGCGGCTGTTTTTCGGGAAGCGCGGTCGATGATCATGGAAGATTGGCCCTCATCTATACAGGACATAATATAATTGATCAAGAGAAAGACCTATTCTATCAAACTCAAAATATCGCTGTCAGCCAAGATGGAACCGTGTTTGAAAAGCTTCAGGAAAACCCCGTTATTGCGGAACCGCCGGAAGACAGCGCCCGTCATTTCCGCGATCCGAAAGTATGGAAGCATCGCGATGTTTGGTATATGGTCATCGGCAACTCCTCAAAAGAAAACGTCGGACGGGTCGTTTTATACCGTTCACCTGATTTGCGTGATTGGGAATACGCGGGGGTTCTCGCCCAAAGTGACGGTAATCTCGGCTATATGTGGGAATGTCCTGATTTCTTTGAATTAGGCGGCAAACATGTCCTGCTGATTTCGCCCCAGGGGATCGAGGCGGACGGTGATTCCTATCAAAATTTACATCAAACCGGTTATTTAATCGGTGACTATCATGATGAAACAAACAAATTTACACACGGCGCTTTTAAAGAACTGGATCACGGCCATGACTTTTACGCCGTGCAAACATTATTAGATGATAAAGGACGCAGAATTGCCATCGGCTGGATGGATATGTGGGAATCTGAGATGCCGACAAAAGCGGACGGATGGTGCGGTGCACTGACTTTGCCGCGAGAACTGACTTTGCGTGATGATCATAAACTTTTGATGAATCCCGTGGAAGAAACCAAGCAGCTGCGGAAAATGGAATATCGGGAATGTGCCGGACGATCGGTTTCAGGGAGTTACTTGGCAAAGACGTCCGAAGACCTGCTTGAAGTCCGAGTCGTGTTTGATATAAACGATTCTGATGCCGAAACGGCAGGTTTTAAGATTCGCGGCCTTGACGAAGAAGAACTTGTGCTGACATACAATCTGACGGATAAAAAGCTGACACTTGATTGCACCAAGATGGGGAAAGCGAAAGACGGTGTGAGAAGGGTGCAGACGGATACAAACGGCAAGCTGGCGCTGCGTATCTTTATTGACAGATCCTCGATTGAAGTATTCGCCAATCATGGAGAAACAACGATGACAAGCCGTATCTATCCGAATGAAGGCAGATTGGGGATTGAGCTGTTTTCTGAGAAAGGCGCCGTAAAGGTTGAGGAATTCACCTATTGGACGTTAAAGGACATTTGGAAAAAAAGCTGA	MDRIQQAEEALKEAEGKVKQRYRLGYHIMPRANWINDPNGLIQFKGEYHVFFQHHPYDEHWGPMHWGHVKSKDLIHWEHLPVALAPGDEFDQSGCFSGSAVDDHGRLALIYTGHNIIDQEKDLFYQTQNIAVSQDGTVFEKLQENPVIAEPPEDSARHFRDPKVWKHRDVWYMVIGNSSKENVGRVVLYRSPDLRDWEYAGVLAQSDGNLGYMWECPDFFELGGKHVLLISPQGIEADGDSYQNLHQTGYLIGDYHDETNKFTHGAFKELDHGHDFYAVQTLLDDKGRRIAIGWMDMWESEMPTKADGWCGALTLPRELTLRDDHKLLMNPVEETKQLRKMEYRECAGRSVSGSYLAKTSEDLLEVRVVFDINDSDAETAGFKIRGLDEEELVLTYNLTDKKLTLDCTKMGKAKDGVRRVQTDTNGKLALRIFIDRSSIEVFANHGETTMTSRIYPNEGRLGIELFSEKGAVKVEEFTYWTLKDIWKKS	PGPT0018815_1700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
D1-12_03679	312			hypothetical protein	ATGCCGACATTAGACGAACTTTTAGAACACAAGGACGACCCGATGAAGAAAAGGCTGCAGCGGCAGATGCTGAAAACAGGGATGACGCAGGCAGCGGGGACAAAATTGGAGACAGTGCGCCGAACGCTGAAACCGACATTCGAAATGGATACGTTGAAAGATGAATTATATGAAGTGTATTCAGCACTATTGAACAGCTTTGAAGGCAAGGCGCAAAAAGCTCTCGCGCAGCGGATCAGTGAAAGTGCGCGGCTGATTGCCGGCACCGAACATAACAGAGACACATTCGTTAACAGTTTCAAAACAAGATAA	MPTLDELLEHKDDPMKKRLQRQMLKTGMTQAAGTKLETVRRTLKPTFEMDTLKDELYEVYSALLNSFEGKAQKALAQRISESARLIAGTEHNRDTFVNSFKTR				NA	NA	NA	NA	NA
D1-12_03680	1428			hypothetical protein	ATGCCAAAAGGAAAAGAAATAACCGTCTCTAATGTCACAGATAAAGAATATTACCGTTTGAGTCAAGCAGCTTACCATTATAAAATGTTAGCCCTGCATATGAAATATAAAACTCCTTATAAAATAAGTAAGACGTCATATTGGTACGTTGAGAAAGTGAAGCAGGATTCTGATACGGGTCTTGATGCCTTTGTATTCTCAAAAGGCATCAAGTCCAAAAACGGTAAATGGATAAAATCAAAAAACCCCGAAAACGTGGTCGTCGCCTTTGCGGGAACTGATATCGCAAAAGACCCGATCAATGACGGCGTAAAAGCGGACGGCGGGAACATTGTTTTTGGAAGCGACCCCAAAAAAGAAGCTCATTATATCGTTGAAAAGGACGCGAAGGATACGTCTAAAACACTCGGAAAATATAACGGCACACCTTCTCAAGACGCCATGCTCACAACCGGAAAGTATAAGCTGATGACGAAAACATCGCAAATTGATCAAGCCGATCAGCTGGTACGCAGCGTAAAGAAAAAGTATGCCGGAACGTCAACGATTATTTCAACAACCGGCCATTCACTCGGCGGCGCTGAGGCCGAATACAGCGCGGTGAATAATGATGTGTATGCCGTCGCGTTTAACAGTCCTTCCGTCGTGAAGCTGCACGATGAAGAAACACAGAAAGAGATCAACAGCGGCATATATGATCCTTACATCCGGTCAATTATCAATCCGGACGACATGGTCGGGGCAGGTTATTGGAACGAATATGACCGCCACAACGGGACAACGATTTACACGAAAAACCCCTCTCTCTCACAGTTCAGCCGAAAGCAGCGGCTTGATGGGAAATTGAGCGAGCAGATCGGAAAAAATCTCGCTTATTTCTTCACTACCGTCATTCTGAGAAATCCGGATACACACGGCTTAAACGAAGCAAATTTCGTGTTCGACAGAAACGGAAATATCGCAAATCCGAACGGAGATGAATTAGTCTTTGATAAAAACCTCGGCGCTCTTCTGCCGGCCGGTGCAATCGGAAGCGCAGATACAATAAAAGTAACGCCGACAAACGCAAAGAAGCTGGCTGAAAAGGTGCAGGCAATGACTGAGGATTTGCGGACGATGAAAAAAGAAGCGCAAAACGCCTATCAGGAGCACGATGAAAAAATTGCCGAACTGAAAACAGAATTCTACGGTCAAGTCGGACACGGCTTGTATGATCAGCTTCAAGCACAGGACGTGACCAATACCATTGAAGATATTGCGCTATCTTACGATAAAGGCCCGATTTTTTATGACACTCAGGCTGAGCAGGCGTTTATTGATTCTTTGCAGGCAGCGATCACAGACCTTGAAGAGATCGGCGGATTCTTACATAAAATAGCAGACGAATTTCAGGAAAAAGACCAGATGCTCGCAAACTGGTTAAGATGA	MPKGKEITVSNVTDKEYYRLSQAAYHYKMLALHMKYKTPYKISKTSYWYVEKVKQDSDTGLDAFVFSKGIKSKNGKWIKSKNPENVVVAFAGTDIAKDPINDGVKADGGNIVFGSDPKKEAHYIVEKDAKDTSKTLGKYNGTPSQDAMLTTGKYKLMTKTSQIDQADQLVRSVKKKYAGTSTIISTTGHSLGGAEAEYSAVNNDVYAVAFNSPSVVKLHDEETQKEINSGIYDPYIRSIINPDDMVGAGYWNEYDRHNGTTIYTKNPSLSQFSRKQRLDGKLSEQIGKNLAYFFTTVILRNPDTHGLNEANFVFDRNGNIANPNGDELVFDKNLGALLPAGAIGSADTIKVTPTNAKKLAEKVQAMTEDLRTMKKEAQNAYQEHDEKIAELKTEFYGQVGHGLYDQLQAQDVTNTIEDIALSYDKGPIFYDTQAEQAFIDSLQAAITDLEEIGGFLHKIADEFQEKDQMLANWLR				NA	NA	NA	NA	NA
D1-12_03681	315			hypothetical protein	ATGAGAAAATACATTATTATCCTAATTGTTATAATTATAGCAGTGGGAGGGTTTTTCGTGAAGCGTCAATATGATAAACATAAAAACGAAGAAAAACTTGTGATTGAGGCGCAAGAGCACATGAAGAATTACTTAAAAAAAGACTATAAAAATGTAAAGGAAGTTCATTTTTCAAAAGACTACAATATCGATCCGACAGGCGGAGTTGAAGTTTCAGGCTACATAAATAATAATAAAGAAAAAGAATTTTCCGGTATATATGATCCAACGAACAAGGAGATAGGTATTTCAGTGGTCAATGCCGAAGAAAGGTAA	MRKYIIILIVIIIAVGGFFVKRQYDKHKNEEKLVIEAQEHMKNYLKKDYKNVKEVHFSKDYNIDPTGGVEVSGYINNNKEKEFSGIYDPTNKEIGISVVNAEER				NA	NA	NA	NA	NA
D1-12_03682	345			hypothetical protein	ATGAAAAAGAAAAAGTACATAATTATCCTTATTTTAATAATTATAGCAGTTGGGGGACTTTTTATGAAGCATCAGTATGATCGAAAGGAAAAAGAGATTGCGTTATTCGAAGAAGCCCAGAATCATATGAAAAAGTTTTTAACAACGAACTATAAAAATGTGAAAGATATCCATTTTTCTGAGGATTACTATATTAACCCAATGGGCGGTATTAGTGTTAAGGGTTATACTAATGGAAAAAAAGAGTTTGAAGGTCTATATGACCCAGGCAATAAAGAAATATTGTCATATACGGTTGATGCCGAACCAAAAGAAGAATGTAAAGATAAGCTTTGTACAAGATAA	MKKKKYIIILILIIIAVGGLFMKHQYDRKEKEIALFEEAQNHMKKFLTTNYKNVKDIHFSEDYYINPMGGISVKGYTNGKKEFEGLYDPGNKEILSYTVDAEPKEECKDKLCTR				NA	NA	NA	NA	NA
D1-12_03683	201			hypothetical protein	ATGAAGGAGAAGGGAATTCAAAGCCAGAAGGAATTGGCTGATTTAGTTGGTTCAACTGAGGTTATGATAAGCAGATTTAAAACAAATACAAGATATGATATCACAACACTATTCATTATTAACAGAGGATTAAAAAATGTACCTATGAAAAATTTGTTTTATGTCCAGGAGATTAGAGGAAGAGCAATACAACAAAATTAG	MKEKGIQSQKELADLVGSTEVMISRFKTNTRYDITTLFIINRGLKNVPMKNLFYVQEIRGRAIQQN				NA	NA	NA	NA	NA
D1-12_03684	348			hypothetical protein	GTGAAGAAATACATGATTGTCCTGATATTTGTAATAACTATAGCGTCAGGAAGTATCTACATGAAGTACCAACATGATAAAAAAGAAGCAGAACAAGAACTTTTTATCCAAGCGAAAAATAAAATGGAAAGCTTTATAAAAGCTAATTACAAAAATATAAAGCAAATTACATACATTAACGATTATAAAATAAATCCTATGGGTGGTATTTCCGTGAAGGGATACTTGAATGGTAATAAGGAAAAAGAATTTTTCGGACTTTATGACAAAACGAATGATGAAATAGGAGTTTCGTCAGTCGATGCTGAAGAGAAACCCGAATGTCAGGAAAAAGAATGTGAATACTAA	MKKYMIVLIFVITIASGSIYMKYQHDKKEAEQELFIQAKNKMESFIKANYKNIKQITYINDYKINPMGGISVKGYLNGNKEKEFFGLYDKTNDEIGVSSVDAEEKPECQEKECEY				NA	NA	NA	NA	NA
D1-12_03685	285			hypothetical protein	ATGAAGAGTATGAATGATAAAAATGTTCAGGCTGAAGAGATAAAGATTGCTCAAGAACGAATGGAGAAATTTACCAAAGCGAATTATGAAGGAATACATAACGTTACATTTAAAGATAAATACGAAATAGATCCAATGGGCGGGATAGAGGTATTTGGCTATTACAACGGTGATACATCGAATAAATTCGATGGTACTTACGATAAGGCAAATGACAAGATCATGGGGCACTCAATAGACGCTGTAAGAAAGAAAGAATGCAGAGATAAAGATTGCGATTACTAA	MKSMNDKNVQAEEIKIAQERMEKFTKANYEGIHNVTFKDKYEIDPMGGIEVFGYYNGDTSNKFDGTYDKANDKIMGHSIDAVRKKECRDKDCDY				NA	NA	NA	NA	NA
D1-12_03686	456			hypothetical protein	TTGAAGGAACCTTCTTTAAAAAAAGTGATGTCTCTGCAGATTGAAGTGGATGAACCGATCGTTGCGGGGCAGACTGGATTAGGGAAAAGGCAGTTGATTCCGATACGGGGCGGAACGGTCAGCGGCGCCGTAAAGGGACGTGTTCTTCCGGGCGGGGCAGATGCCCAGATCATCCGTCCGAACGGCCGGGTTGATCTTTCTGCCAGATATGCGCTGGAGACGGAGGAGCATGAAGTCATCTATGTAGAGAACAACGGCATCCGCCAAGTCAGTGAACCGTTCCGCCAACAGGCTGCAGAGGGGCGCATCATTGATCCCGAGCACGTGTATTTCCGCACTGTGCCTGTGTTTGAAACAAGCAGTGAGGCATATCAGTTTCTGCAGGACCGGCTGTTTATCGGGGCTGCGGTCAGATTGCCGGATGACATTCGGTTAGATATTTATGAAGTTCAATAA	MKEPSLKKVMSLQIEVDEPIVAGQTGLGKRQLIPIRGGTVSGAVKGRVLPGGADAQIIRPNGRVDLSARYALETEEHEVIYVENNGIRQVSEPFRQQAAEGRIIDPEHVYFRTVPVFETSSEAYQFLQDRLFIGAAVRLPDDIRLDIYEVQ				NA	NA	NA	NA	NA
D1-12_03687	489	padC	COG3479	Phenolic acid decarboxylase PadC	ATGGAAAACTTTATCGGAAGCCATATGATTTACACGTATGAAAACGGCTGGGAGTATGAAATCTATATTAAAAATGATCATACGATCGACTATCGGATTCATAGCGGAATGGTAGGCGGCCGCTGGGTGCGCGATCAGGAAGTGAATATCGTCAAGCTGACAGAAGGCGTATACAAAGTGTCATGGACTGAACCGACAGGCACAGACGTTTCCTTAAACTTTATGCCGAATGAAAAACGGATGCACGGAATTATTTTCTTCCCGAAATGGGTGCATGAGCATCCGGAAATCACGGTGTGCTACCAAAATGATTACATTGACGTGATGAAAGAGTCACGTGAGAAATATGAAACATACCCGAAATATGTCGTTCCCGAGTTTGCGGATATTACGTATCTCAACAATGCGGGAATCAATAACGAAACATTGATTTCAGAAGCGCCGTACGAAGGAATGACCGATGATATTCGCGCAGGAAAATTAAAATAA	MENFIGSHMIYTYENGWEYEIYIKNDHTIDYRIHSGMVGGRWVRDQEVNIVKLTEGVYKVSWTEPTGTDVSLNFMPNEKRMHGIIFFPKWVHEHPEITVCYQNDYIDVMKESREKYETYPKYVVPEFADITYLNNAGINNETLISEAPYEGMTDDIRAGKLK	PGPT0019910_250	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZENE|PHENOL_DEGRADATION,PGPT0019910-pdc-K13727	NA	NA
D1-12_03688	519	paiA	COG0454	Spermidine/spermine N(1)-acetyltransferase	ATGAGTATTCAATTAAAAAAGTGCAGCCTTAACGATATTACAGAGCTCCGGGAGATAAGCATTGAAACATTCAATGATACATTTAAGGATCAAAATTCACCTGAAAATATGAAAGCTTATTTGGAAAATGCATTCCGCTCTGAACAGCTGAAAAAGGAATTATCCAATCTGTCTTCTCAATTCTATTTTGTTTATTATCGTGATGACCTTGCGGGGTATATAAAAGTCAACATGAACGAAGCACAGTCAGAAAAAATGGGGGAAGATTCTCTTGAGATTGAGAGAATTTATATAAGAAAAAACCATCAGAAACACGGGCTTGGCAAATATCTGCTGAATGAAGCTGTGAAAATCGCAACAGCACACAATAAAAAGAACATCTGGCTGGGCGTATGGGAAAAAAACGAAAATGCAATCGCCTTTTATCAAAAAATGGGGTTTGTCCAAACCGGAGAACACTCTTTTTATATGGGGGATGATAAACAAGTCGACTTTATCATGACCAAAACCCTCTCGTAA	MSIQLKKCSLNDITELREISIETFNDTFKDQNSPENMKAYLENAFRSEQLKKELSNLSSQFYFVYYRDDLAGYIKVNMNEAQSEKMGEDSLEIERIYIRKNHQKHGLGKYLLNEAVKIATAHNKKNIWLGVWEKNENAIAFYQKMGFVQTGEHSFYMGDDKQVDFIMTKTLS	PGPT0007785_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441	NA	NA
D1-12_03689	630			hypothetical protein	GTGAAATATGTTTTTTATGTTTTAGGAATCATGATCTTGACCTTTGGTATTTCTGTCACGATTCAATCAGATCTTGGAACGTCGCCTTTTGATGCGCTTATTGTGGGATTGTCCGTCCATGCAGGGCTTACCGTGGGAAGCTGGGAAATCATCATCGCTTTCCTGTTAATTTGCTGTAATTCAATGTTAAAAAGGCAAAGGCCGGAATTTTCAGGGATGATTACGGCGTTTATAACGGGAATCGGGATTGATATGTGGCTTTTTTTTCTGCATCGAGTCATAACGCCTGAACTATGGTACGGAAAAGCGGGCTGTTTTGCAATCGGTTTAGTTGTGATAGGGATAGGAACCGCAACCTATCTGCACACAAATTTCGCCCCGATCCCGGTTGATCGGTTAACGTTAATTGTCCGCGATTTAACCGGGAGAAGCATCTTTTTTTCAAGAACGGTCATTTACTTCATATTTTTCATACTGGCCGTGATGCTAAAAGGTCCGGTAGGCATCGGAACGTTATTAACCGTTTGTTTAGGCGGGATCATCCTTCATTTCTTTATGCCGATTACCGGAAGATGGATAGACGGCATATTAACAGCATCTCCAAAGCAGGAAGAAACGAAAACCCGGTAG	MKYVFYVLGIMILTFGISVTIQSDLGTSPFDALIVGLSVHAGLTVGSWEIIIAFLLICCNSMLKRQRPEFSGMITAFITGIGIDMWLFFLHRVITPELWYGKAGCFAIGLVVIGIGTATYLHTNFAPIPVDRLTLIVRDLTGRSIFFSRTVIYFIFFILAVMLKGPVGIGTLLTVCLGGIILHFFMPITGRWIDGILTASPKQEETKTR	PGPT0026395_828	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0026395-yczE|yyaS-K07149	NA	NA
D1-12_03690	531			IS1595 family transposase ISCac2	ATGAGCGGTCAAAGAAAGCTCGTTTTTTACGGAGCTGTCAGCGCAGATGGCTATCTTGCGCGGGAAAATCACTCTTTAGATTGGTTAATCGGAACTGAAGGTGAAGACGGCACCGATTATGAAGCTTTCTATGAATCTGTCGATACGATTATCATGGGCAGAAAAACATACGAGGACATATTGGTTTTATTGCCTGAGGAATTTCCGTACAAAGGTAAAGAATGCTATGTGTTTTCGCGGACATTGACCGGGCGTACTGAACATGTGCGGTTTATTCATGAAGAGCCTGCCGATTTTATAAAAGCATTGAAACGCCAAGAAGGCAAGCGGATTTGGATTGTCGGCGGGAGTGATCTGCTGCACCCGGTTTTGGAGGAAAAACTTGTCGATGAGTTTATCATTCAGATCGCCCCCGTTCTGCTCGGCCGCGGAATTTCTTTGTTTAAACCCGGAGACCGGGAGACAGGACTGAAGCTGACTGATGTCAGGCGTTACAAACAATTTGCGGAGTTGCATTATGAAGTGAGATAA	MSGQRKLVFYGAVSADGYLARENHSLDWLIGTEGEDGTDYEAFYESVDTIIMGRKTYEDILVLLPEEFPYKGKECYVFSRTLTGRTEHVRFIHEEPADFIKALKRQEGKRIWIVGGSDLLHPVLEEKLVDEFIIQIAPVLLGRGISLFKPGDRETGLKLTDVRRYKQFAELHYEVR				NA	NA	NA	NA	NA
D1-12_03691	201			hypothetical protein	ATGGAGAAATCAAGTATTATCGGCACAGCTGCCGTTATAATCGGGGCGCTTATGACCTTAGTTTCTTTTATCTTCCTGCGCGACACTGTTTTCTATGCCGTGAGGTGGATAGGGGTTGTTATCATGGTTGCAGGATTTTCATGCGGTCCGGCCCACACCATTTCAAAACATAAAAACAAACATGAAAAAGAAACCCGGTAA	MEKSSIIGTAAVIIGALMTLVSFIFLRDTVFYAVRWIGVVIMVAGFSCGPAHTISKHKNKHEKETR				NA	NA	NA	NA	NA
D1-12_03692	1449	pnbA	COG2272	Para-nitrobenzyl esterase	ATGACAAAACTTACCGTTCAAACCCGCTGCGGCGCACTGAAAGGAACTGCCGGCCGCGGTGCCCGCACATGGAAGGGCATACCGTACGCGAAGCCGCCCGTCGGAGAGCTGAGATTTAAAGCGCCGGAGCCGCCCGCACCTTGGGACGGCGTAAAACATGCCGATTCGTTCGGACCGGTTTGTCCGCAGCCGGATGATATGCTGTCCATATCGTTTTCCGGGGATATACCGCCTCAATCTGAAGATTGCCTTTACCTCAACGTTTTCGCCCCCGATTCAGAGGGCGAAAAAAAGCCTGTCATGGTATGGATACACGGCGGGGCATTTTATTTAGGTGCCGGAAGCGAACCGCTTTACGACGGATCTGCCCTTGCCGCTGACGGAGATGTCATTGTCGTGACACTCAATTACAGGCTCGGACCGTTCGGCTTTTTACATTTATCTTCTATTCATGACGCGTATTCCGCCAATATCGGGCTGCTCGATCAGGTCGCCGCGCTGCGCTGGGTGAGGGACAATATCTCCGAATTCGGAGGAGACCCGGATAACGTCACGATATTTGGTGAATCGGCAGGCGGCATGAGCATCGCTGCGCTTATGGCAATGCCTGACGCAAAAGGCCTGTTTCATAAAGCCATTTTAGAAAGCGGCGCCTCTCATACGATCCCGGCGGACATGGCAAAAGACATCGCGGCGGCATTTATTCATGAAGCCGGCACTGATCAATTGCAGGAGCTTTCCGTTAATGACCTGCTTAAGACTGCGGATAAAGTGCGGCGCTCACTGGATCAAAACATTTTTCAGCTTTTGTTTCAGCCCGCCATCGATCCGGCCACATTGCCTGCGGAACCGGTGAAAGCCATAGCTGACGGGGCCGCAGAAGGGATACCTATGATCATCGGAACCAATCGTGATGAAGCATATTTGTTTTTCACCCCTGATACAGACATTCATTCCGAGAAAAAGCAGCAAGATTATTTGCATTATCACCTCGGAGAAAACTGCACCGAGCAAGCGGCAGATTTATATCCGCATTCATTAACGGGACAAATCGATATGATGACGGATCTGATTTTCTGGCGGCCGGCTGTCGCTTTCGCACAAGGACAGTCGCAGCACGCACCGGTCTGGATGTACCGCTTTGATTGGCATGGCGAAACACCGCCGTTTCATAAAGCCGTTCACGCTCTGGAATTGCCGTTTGTGTTCGGAAACTTTGATTCTTTGAGAAAGACGCTGCAAGAACCGCTCGGTGATGACGCAGAACAGCTTTCCAAACAAATCCAATCCGCATGGCTCGCTTTTGCAAAAACCGGAAACCCGAACACCTCTCACTTCAATTGGCCTGAATATGAAACCGATTCACGCGAAACTTTGCTTCTCAACACGGATACCGCTGTCGAAAGTGATCCCGATTCAGCAAAACGCCGCATCCTGTTTCAAGCATAA	MTKLTVQTRCGALKGTAGRGARTWKGIPYAKPPVGELRFKAPEPPAPWDGVKHADSFGPVCPQPDDMLSISFSGDIPPQSEDCLYLNVFAPDSEGEKKPVMVWIHGGAFYLGAGSEPLYDGSALAADGDVIVVTLNYRLGPFGFLHLSSIHDAYSANIGLLDQVAALRWVRDNISEFGGDPDNVTIFGESAGGMSIAALMAMPDAKGLFHKAILESGASHTIPADMAKDIAAAFIHEAGTDQLQELSVNDLLKTADKVRRSLDQNIFQLLFQPAIDPATLPAEPVKAIADGAAEGIPMIIGTNRDEAYLFFTPDTDIHSEKKQQDYLHYHLGENCTEQAADLYPHSLTGQIDMMTDLIFWRPAVAFAQGQSQHAPVWMYRFDWHGETPPFHKAVHALELPFVFGNFDSLRKTLQEPLGDDAEQLSKQIQSAWLAFAKTGNPNTSHFNWPEYETDSRETLLLNTDTAVESDPDSAKRRILFQA	PGPT0030515_2385	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
D1-12_03693	456			hypothetical protein	ATGATTGGAAGAATAATTCGTTTATACCGCAGAAGAAAAGGCTACTCTATTAATCAGCTAGCAGTTGAAGCAGGTGTCTCTAAATCTTATTTAAGCAAGATAGAACGGGGGGTTCACTCAAATCCGTCCATCCAATTTCTGAAAAAAGTATCCGCCACCCTTCAGGTCGATCTGACGGAGCTTTTTGATGCCGAAACGATGCTGCATCAGATGGGAGACACAGAAGATGAGTGGCGCATCCACCTTGTGCAGGCCGTGCAGTCGGGCATGCCGAAAGAAGAACTGTTCACCTTTACGAACAAACTGACTGAAAAACGGCCGGAGCCCGCACCCTACCGCAACAGAAAACTGACTGAATCCAACATTGAAGAATGGAAAGCGCTGATGCAGGAAGCAAAAGAACTCGGCTTGTCCGTTCAGGAAGTCAGATCATTTTTAGAACGGAAGCGTTACTGA	MIGRIIRLYRRRKGYSINQLAVEAGVSKSYLSKIERGVHSNPSIQFLKKVSATLQVDLTELFDAETMLHQMGDTEDEWRIHLVQAVQSGMPKEELFTFTNKLTEKRPEPAPYRNRKLTESNIEEWKALMQEAKELGLSVQEVRSFLERKRY	PGPT0026290_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026290-slrR-K19417	NA	NA
D1-12_03694	708	ywqC_2	COG3944	putative capsular polysaccharide biosynthesis protein YwqC	ATGAATGAGAATATGAGTTTTAAAGAATTATTTGACATTATTAAACACAGACTTTTACTGATTTTTATCATGACAGCAGTTGTAACGCTGGTGACGGGATACATCCAATTCCGGGTGATTTCGCCCGTTTATCAGGCATCGACCCAAGTGCTCATTCATGAAACAAGCGGTGAAAAAAATTCGAATCTCAGCGACGTTCAGCTGAATCTTCATTACAACAATACGTTTCAAACGATAATGAAAAGCCCGGTTGTGCTTGAGAAAGTGAAACAGAAGCTGCATCTTTCTGAGACGGCATCCGCTTTAAAAGCAAAGATCACGACAAGCAGCGAAACCGATTCAGAGATCATTACCGCAGCGGTGCAGGACGAGAATCCGAAACAGGCCGCCGCTATAGCGAACACGCTGATGAAGACATTTAAAAAAGAAGTCCGTGACAGGATGAATATAAAAGGCGTCATTGTTTTGTCCGAGGCAAAAGCATCGGAAAGTCCGATGGTCAAGCCTTCGCGCATCAGGAATATCATGATGGCGTTCGGTGCGGCTCTCATGGCGGGTGTGACGCTTGCGTTTTTTCTCCACTTTCTTGATGAAACCGTTAAAAGCGAGCGGCAGCTCAGCGAAAAAACAGACTTGCCTGTTTTAGGGGTTGTGTATGACATCAAAAATCAGCAGACACGGTCTGATGAAAAACATTTCGGGGAGTGA	MNENMSFKELFDIIKHRLLLIFIMTAVVTLVTGYIQFRVISPVYQASTQVLIHETSGEKNSNLSDVQLNLHYNNTFQTIMKSPVVLEKVKQKLHLSETASALKAKITTSSETDSEIITAAVQDENPKQAAAIANTLMKTFKKEVRDRMNIKGVIVLSEAKASESPMVKPSRIRNIMMAFGAALMAGVTLAFFLHFLDETVKSERQLSEKTDLPVLGVVYDIKNQQTRSDEKHFGE				NA	NA	NA	NA	NA
D1-12_03695	681	yveL	COG0489	Putative tyrosine-protein kinase YveL	TTGGGATTCAGAAAAAAGAAATCAAGAAGGGGACTGGCTCAAATATCCGTTTTACATCACAAATCATTGGTGGCTGAACAATACCGCACCATTCGGACAAATATTGAGTTCTCCTCTGTTCAGACCCATTTGCGCTCCATTCTCGTCACTTCCTCCGTTCCGGGAGAAGGAAAGTCATTCAGCGCCGCCAACCTTGCCGCGGTATTTGCGCAGCAGGAAAAAAAGGTGCTGCTCGTCGATGCGGATTTACGAAAACCGACGATACACGAGACCTATCAGCTTGAAAATGTACAAGGCCTTACGAATGTGTTAGTCGGAAACGCTTCCCTCGGCGAAACGGTGCAAAAAACGCTGATTGATAACCTTTACGTCTTAACGAGCGGGCCGACGCCGCCGAATCCGGCTGAGCTTTTATCTTCAAAGGCGATGGGAGAGCTGATTCAGGAGATGTACAGCCGGTACAGTCTGGTTATTTTCGATTCACCTCCGCTTTTGGCGGTGGCGGACGGACAGATTTTAGCGAACCAGACAGATGGAAGCGTTCTCGTCGTCTTGAGCGGAAAAACGAAAATGGATACCGTCCAAAAGGCGAGAGACGCGCTTCAGCAGTCTAAGGCAAAGCTTTTGGGGGCGCTGCTGAATAAAAAGAAAATCAAAAAAACAGAGCACTACTCGTATTGA	MGFRKKKSRRGLAQISVLHHKSLVAEQYRTIRTNIEFSSVQTHLRSILVTSSVPGEGKSFSAANLAAVFAQQEKKVLLVDADLRKPTIHETYQLENVQGLTNVLVGNASLGETVQKTLIDNLYVLTSGPTPPNPAELLSSKAMGELIQEMYSRYSLVIFDSPPLLAVADGQILANQTDGSVLVVLSGKTKMDTVQKARDALQQSKAKLLGALLNKKKIKKTEHYSY	PGPT0026560_539	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
D1-12_03697	1818	pglF	COG1086	UDP-N-acetyl-alpha-D-glucosamine C6 dehydratase	TTGACTTACCGGAGAAGACTTTCAATGATTTTTGCATTGGATACGTATCTCGTTTTACTTTCCGTTGTTATAGGATATCAATTTTTTGAGGATTCTTATCACTTTTATGACTCCGGAGCGTTGCTGCTGACCGCCGTGAGCATGCTGATCAGCCATCATGTATGCGCTTTTATGTTTCACCAGTATAAGCAGGTATGGACGTATACGGGAATAGGCGAGCTGCTTGATCTGCTGAAGGGGATCACGCTGTCCGCAGCTGTGACAGCCGCCGTCCAATACGGGGTGTTCCACACGATTTTATTCCGGCTTTTAGCCGTCAGCTGGATGATTCAGCTATTGTTCATCGGAGGAAGCCGGATGATTTCGCGCGTGCTGAAAGAAACGATCGGCAGGAAGCAAAATGACTCTTCCCGGGCGCTGATTATCGGCGCGGGCGCAGGAGGAACGCTGCTCGTCCGTCAGCTTACCCAGAAAAACGATCTTGGAATCATGCCTGTGGCTTTTATTGATGATGATCAGACGAAGCATAAGCTCAAAATTATGGGCCTGCCCGTCATCGGCGGAAAAGAAAGCATTATGCCGGCGGTGCAGAGGCTGAGAATTCACCACATTATCATCGCCATTCCGTCTCTTTGCACCCATGAGCTCCAGACGCTGTACAAAGAATGTGTACAGACGGGCGCCCATATTAAAATCATGCCGCAATTTGATGAGATCCTGCTCGGAACGCAGGCTGCCGGACACATCAGGGATGTGAAAGCCGAAGATCTCCTCGGCAGAAAGCCGGTCACCCTTGATACGAGCAAAATTTCTGACAGCATCAAAGGGAAAACGATTCTGGTCACGGGCGCCGGCGGCTCTATCGGTTCTGAAATCTGCCGCCAGATCAGCTCGTTTCTTCCGCATGAAATCGTCCTTCTCGGCCACGGGGAGAACAGCATTTATTCGGTGCATAACGAACTGTCCGCACGCTTCGGCAAAGAGGTGCTTTTTCACGCGGAGATCGCCGATATTCAGGACAGAGATAAAATCTTTACCTTGATGAAAAAATACGAGCCGCACGTCGTCTATCATGCGGCCGCCCATAAACATGTGCCGTTAATGGAACATAATCCGGAAGAAGCCGTCAAAAACAATATTATCGGCACGAAAAATGTCGCCGAAGCCGCCGATATGTGCGGAACGGAAACATTCGTGCTGATTTCTTCTGACAAAGCGGTCAATCCGGCCAATGTCATGGGCGCGACGAAGCGGTTTGCGGAAATGGTCATCATGAACCTCGGAAAGGTCAGCAACACCAAATTCGCCGCCGTCCGTTTCGGGAATGTGCTCGGAAGCCGCGGCAGCGTCATTCCGATTTTCAAAAAGCAGATTGAAAAAGGCGGACCCGTCACCGTCACGCATCCGGCGATGACAAGATATTTTATGACGATCCCCGAAGCGTCAAGACTCGTCATTCAGGCGGGGGCGCTTGCAAAAGGGCGGCAGATTTTCGTTCTGGATATGGGAGAACCCGTCAAAATCGTCGACTTGGCAAAAAATCTGATTCATTTATCAGGCTATACGACAGAACAGATTCCCATTGAATTCTCCGGCATCCGCCCGGGTGAAAAGATGTATGAAGAACTGCTGAATCATAATGAAGTACATACGGAACAGATTTTTCCGAAAATCCATATCGGGAAAGCGATCGACGGGGATTGGGCCGTGCTCATCCGTTTTATGGAGGAATTCAGCCGTCTGCCTGAAGATGAGCTGAGAAAACGGCTGTTTGAGGCGATCGAATCAGTACATGAAGAAGCGGCCGCAGGTGTGTGA	MTYRRRLSMIFALDTYLVLLSVVIGYQFFEDSYHFYDSGALLLTAVSMLISHHVCAFMFHQYKQVWTYTGIGELLDLLKGITLSAAVTAAVQYGVFHTILFRLLAVSWMIQLLFIGGSRMISRVLKETIGRKQNDSSRALIIGAGAGGTLLVRQLTQKNDLGIMPVAFIDDDQTKHKLKIMGLPVIGGKESIMPAVQRLRIHHIIIAIPSLCTHELQTLYKECVQTGAHIKIMPQFDEILLGTQAAGHIRDVKAEDLLGRKPVTLDTSKISDSIKGKTILVTGAGGSIGSEICRQISSFLPHEIVLLGHGENSIYSVHNELSARFGKEVLFHAEIADIQDRDKIFTLMKKYEPHVVYHAAAHKHVPLMEHNPEEAVKNNIIGTKNVAEAADMCGTETFVLISSDKAVNPANVMGATKRFAEMVIMNLGKVSNTKFAAVRFGNVLGSRGSVIPIFKKQIEKGGPVTVTHPAMTRYFMTIPEASRLVIQAGALAKGRQIFVLDMGEPVKIVDLAKNLIHLSGYTTEQIPIEFSGIRPGEKMYEELLNHNEVHTEQIFPKIHIGKAIDGDWAVLIRFMEEFSRLPEDELRKRLFEAIESVHEEAAAGV	PGPT0022960_25	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
D1-12_03698	1140	epsD		Putative glycosyltransferase EpsD	ATGACGAAAAAAGTATTATTCTGCGCCACTGTCGATTATCATTTTAAAGCCTTTCATCTTCCGTATTTTCAATGGTTTCAGGATATGGGGTGGGAAGTGCACGTCGCGGCAGGCGGCAATATGAATCTTCCGTTCGTTGATGAAAAGTTTTCCATTCCGATCCGGCGCTCGCCGTTTCATCCCGAAAATCTTTCTGTTTACAGGCGGCTGAAACGGCTCATTCAGGACAACGGCTACGACATGATTCACTGTCATACGCCGGTCGGCGGCGTGCTTGCACGCCTTGCGGCGAGACAAGCGCGCCAAAAAGGGACAAAGGTGCTGTACACCGCGCACGGCTTTCACTTCTGCGATGGAGCGCCCCTGAAAAACTGGCTTCTTTATTACCCGATCGAAAAATTTCTCTCTTCTTACACGGATTGTTTGATTACGATTAATGAAGAAGATTTCGAACGGGCCAAGCAAATGAAAAAAGCAGCTTGCGGCGCGAAGAAAATACACGGCATCGGCGTGAATACAGACAGGTTTCGCCCTGTGAGCCGGGCAGAGAGTGAACGGCTGAGAGAAAAACACGGCTTCGGCGCCGGGGAATTTATCCTCATATACCCTGCTGAATTAAACGGCAATAAAAACCAGGGACTTCTCATTGAGGCTGCGGCATTGCTGAAGAACCGCATTCCGGAGCTGAAACTCGTATTTGCCGGAGAAGGCGCGATGGAAGAACCGTACAGAAAAAAGGCTGAATCACTCGGGGTATCTGACATTGTGCGGTTTTACGGATTTTGCCGTGACATTCATGAACTGATTCAGCTTGCCGATCTGTCCGTCGCCTCAAGCATCCGCGAAGGGCTCGGCATGAATCTGCTTGAAGGAATGGCTGCCGAAAAGCCCGCCGTTGCCGCAGACAACAGGGGGCACCGTGAGATCATCGAAGACGGCGTGAACGGTTTTCTCGTGCCGGCAGGGGACAGCGCGGCATTTGCCGATCGGATTGAAAAGCTGTACCGATCCCCGGGTCTGCGAAAAGCAATGGGACAAGAAGGGCGCAGGACGGCGGAATGTTTTTCAGAAACACGTACGGTAAAGGAAATGGCGCACATTTACGCCGGTTATATGGATAAAAAGGAGAAAAGCGTATGA	MTKKVLFCATVDYHFKAFHLPYFQWFQDMGWEVHVAAGGNMNLPFVDEKFSIPIRRSPFHPENLSVYRRLKRLIQDNGYDMIHCHTPVGGVLARLAARQARQKGTKVLYTAHGFHFCDGAPLKNWLLYYPIEKFLSSYTDCLITINEEDFERAKQMKKAACGAKKIHGIGVNTDRFRPVSRAESERLREKHGFGAGEFILIYPAELNGNKNQGLLIEAAALLKNRIPELKLVFAGEGAMEEPYRKKAESLGVSDIVRFYGFCRDIHELIQLADLSVASSIREGLGMNLLEGMAAEKPAVAADNRGHREIIEDGVNGFLVPAGDSAAFADRIEKLYRSPGLRKAMGQEGRRTAECFSETRTVKEMAHIYAGYMDKKEKSV	PGPT0026610_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026610-epsD-K19422	NA	NA
D1-12_03699	843	epsE	COG0463	Putative glycosyltransferase EpsE	ATGAATGCAGGAGCACAACCGAAAATTTCCGTCATCATGGGAATTTATAATTGCGAAGAGACTTTAGCGGAGAGTATTGAATCCATCCTGAGTCAATCGTATAAGAATTGGGAACTGATTATGTGTGATGACGCGTCAACTGACGGAACGTATCAGATTGCGCGCCGTTACGCGGATCATTACAGCGACCGGATCACGCTGATTCAAAATAAGACGAATCAACGGCTTGCCGCTTCGCTGAACCGCTGTCTGACATACGCAACGGGGGATTATATCGCCAGGCAGGACGGTGATGACATCTCCAACCCGAGGAGACTGGAAAAACAGGCCGCTTTCTTAAACAAGCACGCCCACTATCAAGTCGTAGGCACGGGGATGCTCGTATTTGACGAATTCGGCGTCAGGGGCGCCCGGCTTTTGCCGCCCGTGCCGAAACCGGGAATTATGGCGAAAGGCACACCGTTCTGCCACGGCACCATTATGATGCGGGCTGAAGCGTACAAAGCGCTTGGCGGCTACCGGTCAGTCAGGCGGACGCGGCGGATGGAGGATATCGATTTGTGGCTGCGCTTTTTTGAAGCGGGTTTCCGTGGGTACAATCTCCAAGAAACGCTGTATAAAGTCAGAGAGGACAGTGATGCGTTCAAAAGGAGATCGTTTACGTATTCCATTGATAATGCGGTGCTCGTTTTTCAGGCATGCAGACGGCTGAAGCTGCCGATTTCCCATTACGCGTATATCGCAAAACCGCTCATCCGCGCCATTACACCGCCCGCGGTCATGAACCGTTATCATAAAAACAGGGACATCCGCCAAAAAGACGGGCTTGCCGAACATGACTGA	MNAGAQPKISVIMGIYNCEETLAESIESILSQSYKNWELIMCDDASTDGTYQIARRYADHYSDRITLIQNKTNQRLAASLNRCLTYATGDYIARQDGDDISNPRRLEKQAAFLNKHAHYQVVGTGMLVFDEFGVRGARLLPPVPKPGIMAKGTPFCHGTIMMRAEAYKALGGYRSVRRTRRMEDIDLWLRFFEAGFRGYNLQETLYKVREDSDAFKRRSFTYSIDNAVLVFQACRRLKLPISHYAYIAKPLIRAITPPAVMNRYHKNRDIRQKDGLAEHD	PGPT0026275_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026275-epsE-K19423	NA	NA
D1-12_03700	1071	epsF_2	COG0438	Putative glycosyltransferase EpsF	ATGATGATGAATTTGTACCGGAAGATGGACAGAACGAAGGTGCAGTTTGATTTTTTAACCCATAGAAACGATCCGTGCGCTTATGATGAGGAAATTCTCGCTCTCGGCGGACGGCTTTTTTATGTGCCGAGCATCGGCAGCACAAACCCGATTACATTTGTAAAACAGGTCAAGCGGGTGATTCAGGAAAAAGGCCCGTTTGCCGCCGTGCACGCCCATACCGATTTTCAGTCGGGATTTATCGCATTGGCCGCTCGTTTAGCCGGTGTCCCGGTGCGGATCTGCCATTCGCACAGTACGTCGTGGCGGGGGCGGGCGTCGCGGCTTGCCGGGATGCAGCTGTTTGTGTTCAGACGGCTGATCACGGCAAACGCCACGGCACTGTGCGCCTGCGGAAAAGAGGCGGGCCGTTTCTTATTCGGGAAAGAAAAAGGCGTGCATCTTTTGCCGAACGGCATTGATCTCGACTTATTTGCCGGCGGGTGCGCGGACACAGAAGCTGAAAAAAGGAAGCGGGGCATTGCAGACGGCCGTTTGGTGATCGGCCATATCGGCCGCTTTACAGAAGAAAAAAACCACGAATTTCTGCTCCGGCTGGCCGCTGATATGAAAGAGCGGGGCATCGGCTTACAGCTGATTCTCGCCGGAGACGGTCCGCTTCGCACCGACATGGAAAATCTGGCGGCGAAGCTGGGGCTTGATGATGATGTGCGTTTTATCGGCATAGAAGAACGCGTTCATGCCCTGCTGAAAACGCTGGATGTATTTGTCATGCCGTCTCTTTATGAAGGGCTGCCTGTCACGCTCGTTGAAGCGCAGGCCTCCGGGGTGCCGTGCGTGATATCAGACGGCATAACGGAAGAAGCCGATGCCGGGCTCGGGCTGGTCAAAAGGCTCAGCCTTAAAGAACCGCCCCGACAATGGGCATCCGTGGTTTTACGGGCAGCAGAGGCGACAAAGCCTGACGGGGCGCGCATTAAAGAAACCCTCAGACGGCAGGGATATGACGCGGGAGAAAATGCGGGGGCTGTTATGAAGCTTTACAATATGAATTGGAAAAAGGAACAGTAA	MMMNLYRKMDRTKVQFDFLTHRNDPCAYDEEILALGGRLFYVPSIGSTNPITFVKQVKRVIQEKGPFAAVHAHTDFQSGFIALAARLAGVPVRICHSHSTSWRGRASRLAGMQLFVFRRLITANATALCACGKEAGRFLFGKEKGVHLLPNGIDLDLFAGGCADTEAEKRKRGIADGRLVIGHIGRFTEEKNHEFLLRLAADMKERGIGLQLILAGDGPLRTDMENLAAKLGLDDDVRFIGIEERVHALLKTLDVFVMPSLYEGLPVTLVEAQASGVPCVISDGITEEADAGLGLVKRLSLKEPPRQWASVVLRAAEATKPDGARIKETLRRQGYDAGENAGAVMKLYNMNWKKEQ	PGPT0026615_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026615-epsF-K19424	NA	NA
D1-12_03701	1104	epsG		Transmembrane protein EpsG	ATGATTGTATACGTAGTCAATATGGGAATTGTGTATATTTGGTCATGGTTCGCGAAAATGTGCGGCGGGCGTGATCAATCGCTTTCGACCGGATACCGGCCGAATCAGCTCGTCATGATCGTTCCGCTGCTATCGCTCGTATTGGTCTCCGGTTTGCGCTACAGAGTCGGGACGGATTTTCAGACGTACGCGCTGATGTACAAGCTGGCGGGAAATTACGGCAGCATTTGGGAGATCTTCGGGTTCGGAGCGAAAAAAGCAGCCGTTGATCCGGGGTTTACGGCTCTCATCTGGCTCATGAATTTTATCACGAAAGATCCGCAAATCATGTATTTCACCGTGGCGGTCGTGACGTGCAGCTTTATTTTAAAGGGGCTCGTTGAGTTCGGCCGTCCGTTTGAGCTGAGTGTGTTTTTGTTTTTGGGCACGTATCACTATTATGCTTCCTTTAACGGGATCAGGCAGTATATGGTGGCGGCCGTTTTGTTTTGGGCCGTCCGCTACGTGATCAGCGGAAGCTGGAAGCGTTATATGTCAATCGTGCTGCTGTGTTCGCTTTTTCATTCCTCAGCGCTGATTATGATTCCGGTTTATTTTCTCGTCAGAAAAAGAGCCTGGTCGCCCGCGATTTTCGGACTGTCGGCATTGTTTCTTCTTATGACGTTTCTGTATCAGAAGTTCATTTCGCTGTTTGTCGTCGTGCTGGAAAACAGCTCGTACGGCCATTATGAGAAATGGCTGATGACCAATACGAACGGGATGAACGTCGTAAAAATCGCGGTGCTGCTTCTGCCGCTGTTTTTGGCTTTCTGCTATCGGGAGCGGCTGCGGAAGCTCTGGCCTGACATTGATGTCATCGTGAATTTCTGTCTGCTCGGCCTGCTCTTCGGTCTTTTGGCGACAAAGGATGTTATTTTTGCCCGGTTTAATATATATTTCGGCCTGTATCAAATGATCTTGATCCCTTATTTTGTGAGGATTTTTGATGAAAAATCAAATGCGCTGATTTATATCGCCATTATTGTCTGTTATTTTCTTTACAGTTACTTGCTTATGCCGGTCGATTCGTCTGTGCTTCCGTACAGAACGATTTTTTCCCGGTAA	MIVYVVNMGIVYIWSWFAKMCGGRDQSLSTGYRPNQLVMIVPLLSLVLVSGLRYRVGTDFQTYALMYKLAGNYGSIWEIFGFGAKKAAVDPGFTALIWLMNFITKDPQIMYFTVAVVTCSFILKGLVEFGRPFELSVFLFLGTYHYYASFNGIRQYMVAAVLFWAVRYVISGSWKRYMSIVLLCSLFHSSALIMIPVYFLVRKRAWSPAIFGLSALFLLMTFLYQKFISLFVVVLENSSYGHYEKWLMTNTNGMNVVKIAVLLLPLFLAFCYRERLRKLWPDIDVIVNFCLLGLLFGLLATKDVIFARFNIYFGLYQMILIPYFVRIFDEKSNALIYIAIIVCYFLYSYLLMPVDSSVLPYRTIFSR				NA	NA	NA	NA	NA
D1-12_03702	1038	epsH	COG0463	Putative glycosyltransferase EpsH	ATGGAAACACCCGCGGTCAGTTTATTAATTGCTGTGTATAATACGGAAACTTATTTAGAAAGATGCTTAGATTCATTGCTCAATCAGTCGCTCGCCAATATCGAAATCGTGGCCGTTAATGACGGGTCAACGGATCAAAGCCCGGCGATTCTTGAAACCTATCAGAAGCGGGATGAGAGAATCAGGGTCATTCATCAGCAAAACCGGGGGCTCGGCGCGGTCCGCAACAGGGGAATCGAGGCGGCGCGCGGCGAATTTATCGCTTTTATTGATGCGGACGACTGGGTTGAACCTGATTATTGCCTCAGCATGTATAAAAAAGCGAAGGCTGATCAGGCTGATCTCGTGATTTGCGAATATGCGGCCGAATTTGCGGATACGGGGAAAACCGCCGTTTCAACGATCGCTTCAGCGTACGCGGGCCGCCCGAAACAACGGTACCTGAAAGATTTATTTGAAGGAAGAGTCAGCGGTTTTTCATGGAACAAGCTGTACAAGAGAACGATGATCGAGCATCATCAGCTGCGCTTTCCGCTTCGTGATGAGCTGGAGCATGTGGAGGATCAGTACTTCAGCCTCAGGGCGCATGTTTTCGCAGGTGCGGTCTCGTACGTGGATCAGCCGCTCTATCATTATTGGATTCACTTGACTTCCATTGTGCAAAGCTATCAGAAAAAGCTGTTTGACTCAGGTCTCGTTCTCTATCGGCTGAACGAGGCTTTTTTGCGTGAAAACGGCTGCTTACAGGAATACCGGCAGGAGCTGGATTTTTTCATCGTTCAGCACGGAACAGTCTGCCTGCTGAATGAATGGAAGCGGAATAACGGCGGCCGGTTTTCTGAGAAATGGAAGAATATCAGCCGGATATGCGCTGATCCCGTGTTTCGCCTGAGCCTTTCCAAAACCGGAACGGCGCCGTTTGACGCCAAACGTTCATGCCTTCTGCTTTTGGCGAAGCTGAAGCTGATTCCGTTTGTGTCGCTGGCATCAGCCGCATATCAGCGGGCAATCGAGTACAAAATGAAAATCAGAGGGTGA	METPAVSLLIAVYNTETYLERCLDSLLNQSLANIEIVAVNDGSTDQSPAILETYQKRDERIRVIHQQNRGLGAVRNRGIEAARGEFIAFIDADDWVEPDYCLSMYKKAKADQADLVICEYAAEFADTGKTAVSTIASAYAGRPKQRYLKDLFEGRVSGFSWNKLYKRTMIEHHQLRFPLRDELEHVEDQYFSLRAHVFAGAVSYVDQPLYHYWIHLTSIVQSYQKKLFDSGLVLYRLNEAFLRENGCLQEYRQELDFFIVQHGTVCLLNEWKRNNGGRFSEKWKNISRICADPVFRLSLSKTGTAPFDAKRSCLLLLAKLKLIPFVSLASAAYQRAIEYKMKIRG	PGPT0026620_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026620-epsH-K19425	NA	NA
D1-12_03703	1077	epsI	COG5039	Putative pyruvyl transferase EpsI	ATGTCGATACAATCTTTAAAAATCAATCTCGCGGAATGGCTGTTGCTTAAGGTCAAATACCCGTCCCAATTTCATTTCGGAACGGCAGCGGATGGGGCGGGGCTTTCAGCGGCAAGAAAAAAGATCATTCTGACGCTGCTCCCGTCCCACGATAATCTCGGTGATCACGCCATCGCCTACGCAAGCAAAACGTTTCTTGAACGGGAGTATCCCGACTTTGACATCATTGAAGTGGATATGAAGGATATATACAGATCGGCAAAGGCGCTGATCAAAAAGCGCCACCCCGATGATATGGTATTCATCATCGGCGGCGGGAACATGGGGGATTTGTACCGGTATGAGGAATGGACGCGCCGCTTTATCATAAAAACATTCCGGCAATATCGGATCGTTCAGCTTCCGGCGACGGCTCACTTTTCTGAATCAAAAAAGGGACGGAAGGAACTGAAGCGCGCCCGAAAAGTGTACAATGCGCATCCCGACCTTTTGTTAATGGCGAGAGATGAGACGACGTATCAATGGATGAAGCGTCATTTTCCCGGAAAAACAGTGCTCAAACAGCCTGACATGGTCTTATATTTGGATAAAAGCGAGCGGCGCATCCCGAGGGAAGGGATCTACCTCTGTTTACGGGAGGATAAGGAGAGTGCGCTGACGGCTGAGGACAGAACGACGGTAAAAGAAGCTTTGGCAAAAGAGTACGGAGAGCTGCATTCCTTTACCACGACGGTCGGCCGGAGGGTCAGCCGCCATACACGCGAAAAGGAGCTGGAAACGCTTTGGAATACGCTGAAAGGCGCGGAGGCCGTCGTCACTGACAGACTTCACGGGATGATTTTTTGTGCGCTGACGAAAACGCCTTGTGTCGTCATTCGTTCGTTTGATCATAAGGTAATGGAAGGCTATCAATGGCTGAAAAACATACCGAACATGACATTGCTTGAACGTCCCGACCCTGAAGCCGTAACGTCCGCCGTAAACCGGCTGCTCAGCGGCAAGCATGAGGAAGGCGGTTCATTGCGAAGTGTTTATTTTGCCGGGCTGCGCTCGAAAATCAGCGGTGATGCCCAATGA	MSIQSLKINLAEWLLLKVKYPSQFHFGTAADGAGLSAARKKIILTLLPSHDNLGDHAIAYASKTFLEREYPDFDIIEVDMKDIYRSAKALIKKRHPDDMVFIIGGGNMGDLYRYEEWTRRFIIKTFRQYRIVQLPATAHFSESKKGRKELKRARKVYNAHPDLLLMARDETTYQWMKRHFPGKTVLKQPDMVLYLDKSERRIPREGIYLCLREDKESALTAEDRTTVKEALAKEYGELHSFTTTVGRRVSRHTREKELETLWNTLKGAEAVVTDRLHGMIFCALTKTPCVVIRSFDHKVMEGYQWLKNIPNMTLLERPDPEAVTSAVNRLLSGKHEEGGSLRSVYFAGLRSKISGDAQ	PGPT0026625_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026625-epsI-K19426	NA	NA
D1-12_03704	1035	epsJ	COG0463	putative glycosyltransferase EpsJ	ATGACCGCGCCGCTTGTGAGCGTGATCATGCCGATGTATAAGACAGAGCCTTTTATTAAAGAATGCGCGGTTTCTTTAACAAAACAGACGCTGAGAGACATCGAAATCATTTTTGTCAATGACGGTTCACCGGATCAGTCAGGCCGGATTGCCGAACAATTCGCCGCAGAAGATACGAGGATCCGGGTGATTCATAAAGAAAACGGCGGCCTCAGCTCGGCCCGCAATGCCGGAATAAAAGCCGCCCGCGGCCGTTATATCGGTTTTGCGGACGGCGATGACTATGTGACGGAAACGATGTTCGAGCGGCTTTATGAAGAAGCGGAGAAGAACCGGCTGGATATCGCCGGCTGCGGTTATTATAAGGAAACGCCGTCTAAAGAAAGAACATATATGCCGCCGTCCATTCCGGCGGGCCGCGTCTTCACAGCGGATGAAATGACTGCATTGCTGACACGCGCGCACGAACATCGGTTTATTTGGTATGTGTGGCGCTATATATACCGGCGAGAAGCATTGCAAGGGCTGTTGTTCCATGAAGATATCCGTTTTGCCGAGGACTCTCCGTTTAACTTGGCAGCGTTCCGCCAAGCCGCGCGTGTCAAAGTGATAGACGAAGGGCTGTATATCTACCGGGAAAATCCGCAAAGTCTTACAGAAACACCGTTTAAGCCCCACTTAGATCAAGAACTGCAAAAGCAATATAAAGCGAAAATGGCTTTTTATGAGGAAAACGGGCTGACGGACGCCTGCCGGAGCGATATCGATACATATTTGTGCAAGCATCAGATTCCGATGCTGATCGCCAACGCATGCGCCGCGCCGCAGCCGTCACACCAGATTACGGCGCACATCGGCAGAATCTTAACGTATGACATGGTAAAAACGGCGGTGCGCAGGACGCCGTGCCGCCATAAACAGCTGCTGGCGGGGGAGCGCGTGGTGCTCGGCCTGTGCAAAATGCGCCTTCCTCTTCTTCTGCATGCGTTTTTCGAACGGAAATCGAAAGAGAAAGGCAGTGCGGAAGGAGCATGA	MTAPLVSVIMPMYKTEPFIKECAVSLTKQTLRDIEIIFVNDGSPDQSGRIAEQFAAEDTRIRVIHKENGGLSSARNAGIKAARGRYIGFADGDDYVTETMFERLYEEAEKNRLDIAGCGYYKETPSKERTYMPPSIPAGRVFTADEMTALLTRAHEHRFIWYVWRYIYRREALQGLLFHEDIRFAEDSPFNLAAFRQAARVKVIDEGLYIYRENPQSLTETPFKPHLDQELQKQYKAKMAFYEENGLTDACRSDIDTYLCKHQIPMLIANACAAPQPSHQITAHIGRILTYDMVKTAVRRTPCRHKQLLAGERVVLGLCKMRLPLLLHAFFERKSKEKGSAEGA	PGPT0026630_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026630-epsJ-K19427	NA	NA
D1-12_03705	1518	epsK		putative membrane protein EpsK	ATGAAATTTGCCATTAATTTCGGCGCCAATGTGACGGCGTTTTTACTATCGGTGTTTTTATCAGTGTGGATGACTCCCTTTATTGTGAAAACATTAGGTGTGGAGGCTTTTGGGTTTGTCCATCTGACACAGAATATCATTAACTATTTCTCTATAATTACCGTTGCGCTGAGCTCTGTCGTTGTGAGGTTTTTCTCCGTCGCCGCCCACAGGGGGAACAAGGACGAGGCCAATGCGTATGTAAGCAATTATTTAGCCGCGTCTGTCGTGATATCTCTATTGCTCGCTGTGCCGCTCGCCGGGACGGCTTTTTTTATTGACAAGATTATGAATGTACCGGCCGGGCTCTTAACGGATGTGAGGCTCTCTATCGTGATCGGCAGCGTGCTGTTTATGCTGACGTTTTTTATGGCGGGGTTCGCGACGGGGCCGTTTTTCGCCAACAAGCTTTATATCACAAGCTCCATTCAGGCCGTGCAAATGCTGGTCAGGGTGCTGTGTGTGCTCGCTCTGTTTACGTGCCTGCCGCCGAAAATCTGGCAGATCCAGCTTTCGGCATTAGCGGGAGCCGTCTGTGCGGCCGTGCTGACTTTTTTCTTTTTTAAGAAATTGATTCCGTGGTTTTCTTTCAGCCGTAAAACCTTGTCATTACAGACGAGCAAAGTGCTGTTTTCGGCCGGTGCCTGGAGTTCTGTCAACCAGATCGGCGTGCTGCTGTTTCTGCAGATTGACCTCATGACGGCCAACCTCGTGCTGGGGCCGTCTGAAGCGGGTGTCTATGCGGCGATTATTCAATTCCCGCTCCTGCTCAGAAGTCTTGCCGGGACGCTTGCTTCACTGTTTGCGCCGGTTTTGACTTCCTACTATTCAAAAGGCGATATGGAAGGCCTCCTGTCTTACGCCAATAAGGCCGTGCGGCTGAACGGGCTTCTGCTCGCGCTTCCCGCCGCATTATTAGGAGGGCTCGCCGAACCGTTTCTGGCGATTTGGCTGGGCCCGTCGTTTGTGCAGACGGCGCCGCTTTTATACATTCACGCCGCGTATTTGGCGGTCAGTCTCTCTGTCATGCCGCTTTTTTACGTATGGACGGCTTTTAATAAACAAAAAACGCCCGCCGTCGTTACTTTATGTTTAGGCGGACTGAATGTCATATTGGCCGTGGTTCTCAGCGGACCGGCACATCTCGGGCTGTACGGCATCACCATCGCCGGTGCAGTCTCGCTCATTTTGAAAAATGCCGTCTTCACGCCGCTGTATGTTTCGCATATTACGGGCTTTCAGAAAACCGCGTTTTACAAAGGCATGTTCGGCCCGTTGGCGGCGGCCGTATTTGCCTGGGCTGTCTGCCGGGGTATCCGGCTGTTTTCACCGCTTGACAGCTGGGCCGGCCTGATCGCCGCGGGGCTTGCCGTATGCATAAGCTATGCCGCATTCGCTTTTTTCTTCATTTGTACGAAAGAAGAAAGGCGGCTTGCTTTACAGAAATGCCGAAAAGTGAAAGGAGCTGTTCAGATTTGA	MKFAINFGANVTAFLLSVFLSVWMTPFIVKTLGVEAFGFVHLTQNIINYFSIITVALSSVVVRFFSVAAHRGNKDEANAYVSNYLAASVVISLLLAVPLAGTAFFIDKIMNVPAGLLTDVRLSIVIGSVLFMLTFFMAGFATGPFFANKLYITSSIQAVQMLVRVLCVLALFTCLPPKIWQIQLSALAGAVCAAVLTFFFFKKLIPWFSFSRKTLSLQTSKVLFSAGAWSSVNQIGVLLFLQIDLMTANLVLGPSEAGVYAAIIQFPLLLRSLAGTLASLFAPVLTSYYSKGDMEGLLSYANKAVRLNGLLLALPAALLGGLAEPFLAIWLGPSFVQTAPLLYIHAAYLAVSLSVMPLFYVWTAFNKQKTPAVVTLCLGGLNVILAVVLSGPAHLGLYGITIAGAVSLILKNAVFTPLYVSHITGFQKTAFYKGMFGPLAAAVFAWAVCRGIRLFSPLDSWAGLIAAGLAVCISYAAFAFFFICTKEERRLALQKCRKVKGAVQI				NA	NA	NA	NA	NA
D1-12_03706	609	epsL	COG2148	putative sugar transferase EpsL	TTGAAGGCGAAACGTGTATTTGATATAGCGGCCGCGGTGTTGTTATTGTGCGGCGCGAGCGTTATCCTTCTCTTCGCCATGGCCGCCGTCAGATGCGCCATCGGGTCTCCGGTATTGTTCAAACAGACGAGACCGGGGCATAACGGGCGTCCGTTTACGTTGTATAAACTCAGAACGATGACGGATGCGCGTGATGAAAACGGTGTGCTGCTTCCGGATCATCTCCGCCTGACCAAAACGGGAAGGCTGATCAGAAAACTGAGCATCGATGAGCTTCCCCAGCTTTTTAATGTGCTCAAAGGAGATATCAGTCTGGTCGGCCCCCGCCCTTTGCTGATGGATTATCTGCCGCTTTACACGGCGGAGCAGGCGCGGCGCCACGAGGTGAAGCCGGGGATTACGGGCTGGGCGCAGATTAACGGGAGAAACGCGATTTCATGGGAGGAAAAATTCAAGCTCGACGTGTGGTACGTCGACAACCGCACATTTCTTCTCGACTTAAAGATTCTGCTTTTAACAGTGAAAAAAGTTCTCGTGTCAGAAGGCATACACCAAGCCGGCCATGTGACGGCAAAGCGCTTCACAGGCAGCGGAGATATGTCATCGTGA	MKAKRVFDIAAAVLLLCGASVILLFAMAAVRCAIGSPVLFKQTRPGHNGRPFTLYKLRTMTDARDENGVLLPDHLRLTKTGRLIRKLSIDELPQLFNVLKGDISLVGPRPLLMDYLPLYTAEQARRHEVKPGITGWAQINGRNAISWEEKFKLDVWYVDNRTFLLDLKILLLTVKKVLVSEGIHQAGHVTAKRFTGSGDMSS	PGPT0026635_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026635-epsL-K19428	NA	NA
D1-12_03707	648	epsM	COG0110	Putative acetyltransferase EpsM	GTGAAAAAGATCGTGCTGATCGGAAACGGCGGACACGGAAAAGTCGTGAAGGAAATCGTGCAGGCCCGTTCCGATATGGAGCTTGCGGGCGTATTGGATGACGGATTCAGCGGTTTTGCCGTTCGGAACGGTTTATATACGGGTCGGACGAAAGACGTGCCCATGCTTCGGAAACTCGTCCCCGAGGCCGTATTCACGATATGCATCGGCCGCAACGGCGTCAGAAAGCAGTTCGCTGAAACGCTTGGGCTTGAAGATGACGATTATGCCGCACTCATTCACCCCGGGGCGATCGTCAGTGAAACGGCTTCCGTCGGACACGGAACGGTTGTGATGGCGGGCGCCGTCATTCAGGCGGGCGCTGACATCGGCGCCCATTGCATCATCAATACGGGCGCGGTTGCCGATCATGACAATGCAATCGGAGATTACGTCCATCTTTCACCGCGCGCGGCGCTTGCCGGCGGAGTGAAAGTCGGGGAAGGAACGCACATCGGAATCGGCGCGTCCGTCATACCGCAGATTGACATCGGCCCTTGGTCCGTTATCGGGGCAGGGGCTGCGGTCATCAGCCAAATTCCCGGCCATGTGACGGCGGTCGGCGTTCCGGCCCGCATCATCTCCCCTATCCATAATGAAAAAGGATGA	MKKIVLIGNGGHGKVVKEIVQARSDMELAGVLDDGFSGFAVRNGLYTGRTKDVPMLRKLVPEAVFTICIGRNGVRKQFAETLGLEDDDYAALIHPGAIVSETASVGHGTVVMAGAVIQAGADIGAHCIINTGAVADHDNAIGDYVHLSPRAALAGGVKVGEGTHIGIGASVIPQIDIGPWSVIGAGAAVISQIPGHVTAVGVPARIISPIHNEKG	PGPT0026640_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026640-epsM-K19429	NA	NA
D1-12_03708	1173	epsN	COG0399	Putative pyridoxal phosphate-dependent aminotransferase EpsN	ATGCAAACAAACAAACGGATTTATTTGTCTCCGCCTCATATGAGCGGAAAAGAACAGGAATACATTGCAGAAGCTTTTCGTTCCAATTGGATTGCCCCGCTCGGTCCGCTCGTCAATTCGTTTGAAGCGCGGCTCGCGGAATATGCGGGAGTGAAAAGCGCGGCTGCCGTAAGCTCGGGAACGGCGGCCATCCATCTTGCCCTGCGGCTTGCGGGTGTGAAAAAAGGAGACGCTGTATTTTGTCCTTCCTTTACGTTTGTCGCCACGGCGAATCCGATTGTGTATGAGCAGGCTGAGCCCGTTTTTATTGATTCGGAATGGGAGACGTGGAATATGTCGCCTGATGCGCTTGAGCGGGCGCTGCGGGATGCAAAGCGGCGCGGCAGACTCCCGAAAGCGGTGATCGCCGTCAATCTTTACGGCCAAAGCGCGAAAATGGATGAATTAATGAGCCTTTGTGACGCATACGGCGTCTGTCTGATTGAAGACGCTGCCGAGTCCTTAGGATCAACATATAAAGGCAGGCAGAGCGGCACGTTCGGCCGTTTCGGTATTTATTCCTTTAACGGCAACAAAATCATTACAACATCGGGAGGCGGCATGCTCGTATCTGACGATGAAGCCGCGATTGAAAAAGCGAGGTTTCTTGCGTCACAGGCGAGAGATGCCGCCGTTCATTACCAGCACAGCGAGCTCGGTTATAACTACAGGCTCAGCAACATTCTCGCGGGCGTGGGGATATCGCAGCTGGAAGTGCTTGAAGATCGCGTCCGGGCGAGGAGAGAAATCTTTCACAGGTATCGGGAAGCGCTGGAAACGTATCCGGGCATCCGCATGATGCCGGAGCTTGAAGGAACGGTTTCAAACCGCTGGCTGACGGCTCTGACGCTTGATAACGGTGTGACGCCGGAAGAAGCCGTCGCCTGTCTTGCGGAACAGAATATTGAGGCCCGGCCGCTGTGGAAACCGCTGCATACGCAGCCGCTTTTCTCATCTTCCGTCTTTTATCCTCACAGCGAACATGAGCGTGTCTCTGAGAACCTTTTCAGCCGGGGCATCTGTCTGCCGTCCGGGTCTGACCTGTCTTCTGAGGAGCAGCAGCGTGTCATTGACGCACTTGCGCAACTGTTTGAAACGAAAGGGGAGAAAACATGGACAGCCGCCATGTTATGA	MQTNKRIYLSPPHMSGKEQEYIAEAFRSNWIAPLGPLVNSFEARLAEYAGVKSAAAVSSGTAAIHLALRLAGVKKGDAVFCPSFTFVATANPIVYEQAEPVFIDSEWETWNMSPDALERALRDAKRRGRLPKAVIAVNLYGQSAKMDELMSLCDAYGVCLIEDAAESLGSTYKGRQSGTFGRFGIYSFNGNKIITTSGGGMLVSDDEAAIEKARFLASQARDAAVHYQHSELGYNYRLSNILAGVGISQLEVLEDRVRARREIFHRYREALETYPGIRMMPELEGTVSNRWLTALTLDNGVTPEEAVACLAEQNIEARPLWKPLHTQPLFSSSVFYPHSEHERVSENLFSRGICLPSGSDLSSEEQQRVIDALAQLFETKGEKTWTAAML	PGPT0026645_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026645-epsN-K19430	NA	NA
D1-12_03709	966	epsO	COG5039	Putative pyruvyl transferase EpsO	ATGGACAGCCGCCATGTTATGAGCCGATTAAAAGAGAAGCTGACGGGTCTGCTCAGCGTTACACCGCCGCAATCAGACATCATATATGCCGACTATCCCCTCTACGGAAATGTAGGGGATTTATTGATTATGAAAGGGACGGAGGCGTTTTTTAAAGCGCACGGCATCCGCGTGAAACAGCGCTGGAATCCCGACAATTTTCCATTCGGGCGCCGGGCGGACAAAAAGACGATCATCGTCTGTCAGGGTGGCGGAAATTTCGGGGATCTCTATCCGTACTATCAGACGTTCAGGGAAAAAATCGTCAAATCCTTTCCGGAAAACAGGATCGTCATCCTGCCGCAATCGATTTATTATCAGGATGAGACACGGCTGCAAAAGACATCGGCGCTTTTTGCGGAGCACAAGGATCTCCACCTGTTTATGAGAGATCATGTGTCATACGAGACTGCGAAACACTTTTTTTCGGCGAATCATATCGGGCTTATGCCTGATATGGCCCATCAGCTGTATCCGATCGCGGCGTCAGCGGCTCCGTCACGCGGCAGGCTTCATTTTATCCGCACGGATGGGGAAATCAACCCGAAGCTGCAAAACAATTCTTCCGTTAAAAACTGTGACTGGCAGAATGTTCTGTCAGCAAGCGACCGCAGGGGAATCGCCTTTTTCCAAACGCTGAATGTTTTGAATAAAAAAGCGGGAAACCCGCTGCCGATTGCGCGGTTTTGGAAACGATATTCCGATTTCTTAACGAAAAAAGCGGTCCTGTTTTTCAGCAGGTACGAATCGGTGGAAACGTCAAGGCTCCACGGCCACATCCTGTCCTCGCTTCTCGGGAAACCGAATACCGTCATTGATAATTCATACGGGAAAAATGCCAACTATTATTACACCTGGACGCACGAAGCGCCGGACGTCCGGCTGATCGGTGAAACCGCCGGCACGAAGGAAAACCTTCCGCTTTGA	MDSRHVMSRLKEKLTGLLSVTPPQSDIIYADYPLYGNVGDLLIMKGTEAFFKAHGIRVKQRWNPDNFPFGRRADKKTIIVCQGGGNFGDLYPYYQTFREKIVKSFPENRIVILPQSIYYQDETRLQKTSALFAEHKDLHLFMRDHVSYETAKHFFSANHIGLMPDMAHQLYPIAASAAPSRGRLHFIRTDGEINPKLQNNSSVKNCDWQNVLSASDRRGIAFFQTLNVLNKKAGNPLPIARFWKRYSDFLTKKAVLFFSRYESVETSRLHGHILSSLLGKPNTVIDNSYGKNANYYYTWTHEAPDVRLIGETAGTKENLPL	PGPT0026650_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026650-epsO-K19431	NA	NA
D1-12_03710	219	yvfG		putative protein YvfG	ATGTCAGAACTTTTTTCTGTTCCCTATTTTATTGAAAACTTTACACAGCACATTGAAATGAATCCGAATGAAGACCGAATTCATGCGATGAACAGCTATTACCGCTCCGTCGTCTCAACCCTTGTACAGGATCAGCTGACGAAAAACTCGGTTGTGCTCAAAAGAATTCAGCATTTGGATGAGGCGTACAACAAAGTAAAACGCGGAGAAACAAAATAA	MSELFSVPYFIENFTQHIEMNPNEDRIHAMNSYYRSVVSTLVQDQLTKNSVVLKRIQHLDEAYNKVKRGETK				NA	NA	NA	NA	NA
D1-12_03711	1311	rpoN	COG1508	RNA polymerase sigma-54 factor	ATGGATATCAAACTTCAGCAAACACAAATGTTAAAGCCTCAATTAACGCAAGAGCTTAAACAGGCCATCACATTACTCGGATACAATTCCGCGGAACTGGCCGGATATATTGATGAGCTCTCACTGGAAAACCCTCTGATTGAACGAAAGGAAACAGACACGCCGCCACTATCTTACCATAAAACAAATAAAAACAGGATGAAAGAACGGGACGGAAGCCAGCAGATCAGACTTACCCGTAAAACCCTGCAGGATTCGCTCAAACAGCAAGCCTTAGACATGAAGCTGTCCGATGATGAGAAAAAAATTTTCAATTATCTGATACATTCATTGGATTCAAACGGATATTTAAAAGAGGACATATCAGCCGCCGCCGACCATGTATCCGCTTCACAAGAGGAGACGGAAGCGGTTTTGAAAAAGCTTCAATCCCTTGAGCCCGCGGGAATCGGCGCCCGGTCTTTGCAGGAATGCATCCTTCTTCAGCTCCGCCGTCTGCCCGAGCGGAACGAACAGGCGGAATGGATTGCCGAAGCCTATTTTGAGCTATTTGCAAGAAAGAACTGGAAAGCGCTTACACTGAAAACGGGCATTCCGCTTAAAGACATTCAGGACATCGCTGACATGATCAGCGCGCTTGATCCGAGGCCGGGGCTCCGTTATGCGCATGAGGAGCCGGGTTTTTACGTAGAACCGGATATTTTCATCACGGTGAAAAACGGCATCATTCAAGCGCGGCTCAACAGCCGTTCGTTTCCTGACATCCAGCTTCATGCCCATTATCGGCCGCTCCTGTCAGCTGCCGGGTGCCGTGACACGAAAAATTATCTGTCGGCAAAATATCAGGAATGGCGCTGGCTGAACCGGGCTTTGTCGCAAAGAAAACAAACGATCACGAGAATTATCGGCGTCCTGACTGAACGGCAGGAATCCTTTTTTCTCACAGGAAAAAGCGGAATGCAGCCGCTGACCTTAAGAGAGGTGGCGGAAACGCTGGAGCTCCACGAATCAACGATCAGCCGGGCCATCAAAGGGAAGTACGTTCAGACGCCGTACGGACTGTATGAAATGAAAACATTTTTCTCGGCGAAAGCTGAATCATCGGGGGACGGCGGCGCCTCCAATTATGCCGTAAAAGCGCATCTGGAAGCATTGGTCCGTAAAGAAGATAAAAAGAAACCTTTTTCAGACCAAAAGCTTGCCGATCTGCTGCATGAACAATATGACATCCGAATCTCAAGGCGCACCGTCGCCAAATACCGTGACCAATTAAATATTCCGCCGTCATCGGCGAGAAAACGGTACAGCTGA	MDIKLQQTQMLKPQLTQELKQAITLLGYNSAELAGYIDELSLENPLIERKETDTPPLSYHKTNKNRMKERDGSQQIRLTRKTLQDSLKQQALDMKLSDDEKKIFNYLIHSLDSNGYLKEDISAAADHVSASQEETEAVLKKLQSLEPAGIGARSLQECILLQLRRLPERNEQAEWIAEAYFELFARKNWKALTLKTGIPLKDIQDIADMISALDPRPGLRYAHEEPGFYVEPDIFITVKNGIIQARLNSRSFPDIQLHAHYRPLLSAAGCRDTKNYLSAKYQEWRWLNRALSQRKQTITRIIGVLTERQESFFLTGKSGMQPLTLREVAETLELHESTISRAIKGKYVQTPYGLYEMKTFFSAKAESSGDGGASNYAVKAHLEALVRKEDKKKPFSDQKLADLLHEQYDIRISRRTVAKYRDQLNIPPSSARKRYS	PGPT0000795_2888	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
D1-12_03712	1677	lutP	COG1620	L-lactate permease	ATGCAATGGACACAGGGGTACGCTCCTTTAGGGGGAAATTTGCTTTTATCGGCAGCTTGCGCGCTCGTGCCGATTATCTTCTTTTTTTGGGCGCTTGCGGTGAAACGGATGAAGGGGTACATCGCGGGGCTTTTCACGTTAGCCGTTTCACTTTTAATCGCTGTATTTGTTTACGGCATGCCGGCGGAAAAAGCGGTGATGTCCGCTTCTCAGGGAGCGGTGTACGGGCTGCTTCCGATCGGCTGGATTATCGTCACATCGGTCTTTCTGTATAAAATCACCGTGAAAACGGGACAGTTTGAGATTATCCGGAGTTCGGTGCTCTCAATTACAGATGATCGGCGTTTGCAGGCGCTGCTCATCGCCTTTTCATTCGGGGCGTTTTTAGAAGGCGCCGCCGGTTTCGGCGCTCCCGTCGCGATCTCGGCCGCTTTGCTCGTCGGACTTGGTTTTCAGCCGCTGTATGCGGCGGGGATTTGCCTGATTGCCAATACGGCGCCCGTTGCCTTCGGTGCGATCGGCATTCCGATTACCGCTGTCGAAGGTCCGACCGGGATACCGGCAATGGAAATTTCTCAAATGGTCGGCCGGCAGCTTCCGTTTTTATCCGTCTTTATTCCGCTTTACTTAATCATTTTGATGAGCGGGTTTAAAAAGGCTTTTGAGATATGGCCGGCCATTCTTGTTTCCGGCGTCTCCTTTGCGGCCGTGCAGTACGCAAGCTCGAATTTTTTAGGGCCTGAGCTGCCGGATGTGCTGTCGGCGCTTGTTTCCATGGCCGCGCTCGCTGTATTTTTGAAATTTTGGAAACCGAAAACGGCCTTTCGTTTCGCGGCAGAACGGGAATCAGCAGCGTCCGCTGACCGGGCGCCGATCAAGTACGGGGGCGCCGCAGTGTTTAAAGCGTGGTCTCCTTTCCTTCTTCTGACGGCCATGATATCCGTCTGGGGGATTCCCGGCGTGAAGGCTGCCTTAACCGGTCATTACGAAGGAACGTCAATGTGGCTTTCCTGGCTGAATGCAGCCGGGCGTGCATTGACCTTCACGCCTCCCGTACCATTTGTAAATCAGCAGATTCTTCAGGCGGACGGCACGCCGATTGAAGCCGTGTACAAACTTGAGCTTTTCGGTTCAGCGGGAACGGCGATTCTGATTGCCGCCGTCATCTCCAAGTTCGCCCTCGGCATGTCGTGGAAGACGTGGGGCGAAGCGTTTATAGAAACGGTGAAAGAGTTAACGCTTCCGGTCGTGACCATTGTTTCTGTTGTCGGCTTCGCTTATGTGACGAATGCTTCCGGCATGAGCACGACACTCGGTCTTGCGCTTGCCATGACGGGCGCGATGTTTACCTTTTTTTCGCCGGTGCTCGGCTGGCTCGGCGTATTTATTACCGGCTCTGATACGTCGGCCAACCTGTTGTTCGGCGGATTGCAAAAGGTGACGGCGCTCTCTGTCGGAATGGACCCGGTTCTCTCCGTTGCCGCCAATTCATCAGGCGGTGTCACCGGAAAAATGATTTCTCCGCAATCCATTGCGGTTGCCTGTGCCGCTGTCGGTCTGGCGGGCAAGGAAGCCGACCTTTTCCGCTTTACGATTAAGCACAGTCTGTTTTTGCTTCTGCTCGTCTGTCTTATTACATTTTTACAGCATCATCTGTTTTCATGGATGATCCCGTAA	MQWTQGYAPLGGNLLLSAACALVPIIFFFWALAVKRMKGYIAGLFTLAVSLLIAVFVYGMPAEKAVMSASQGAVYGLLPIGWIIVTSVFLYKITVKTGQFEIIRSSVLSITDDRRLQALLIAFSFGAFLEGAAGFGAPVAISAALLVGLGFQPLYAAGICLIANTAPVAFGAIGIPITAVEGPTGIPAMEISQMVGRQLPFLSVFIPLYLIILMSGFKKAFEIWPAILVSGVSFAAVQYASSNFLGPELPDVLSALVSMAALAVFLKFWKPKTAFRFAAERESAASADRAPIKYGGAAVFKAWSPFLLLTAMISVWGIPGVKAALTGHYEGTSMWLSWLNAAGRALTFTPPVPFVNQQILQADGTPIEAVYKLELFGSAGTAILIAAVISKFALGMSWKTWGEAFIETVKELTLPVVTIVSVVGFAYVTNASGMSTTLGLALAMTGAMFTFFSPVLGWLGVFITGSDTSANLLFGGLQKVTALSVGMDPVLSVAANSSGGVTGKMISPQSIAVACAAVGLAGKEADLFRFTIKHSLFLLLLVCLITFLQHHLFSWMIP	PGPT0001800_799	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
D1-12_03713	729	lutR	COG2186	HTH-type transcriptional regulator LutR	GTGATCGCGTTGAAATATAAACAAATTAAAACGAAAAAAATCTACGAAGAAGTCGCTGACGCATTGCTGGAGAAGATAAAAGCGGGCGAGCTTAAGCCGGGTGAAAAGCTTGATTCCGTTCAGGCGCTTTCTGAGAGTTTTCAGGTCAGCCGCTCGGCGGTCAGAGAAGCGCTGTCGGCTTTGAAAGCGATGGGGCTCGTCGACATGAAGCAGGGAGAAGGCACATACATAAGAGAATTTGAGCCGTCTCATGTTTCCCAGCCGCTTTCTTCCGCCCTCTTGATGAAAAAAGAGGACGTCAAACAGCTGCTCGAAGTCAGAAAGCTGCTTGAACTCGGCGTCGCCGCCATGGCCGCTGAAAAACGCACCGAAGACGATTTACAAAAAATCCGCCAAGCTCTCCTGGAGATGAAAGGCATTGACGGAGACGAAGAATTGGGCGAAAAAGCGGATTTCTCCTTTCACATGGCGCTGGCGGAAGCATCACAAAACGGGCTGCTCAAGCATCTCATGAATCATGTCTCCGCGCTCCTTTTGGAAACAATGAGAGAAACGAGAAAAATTTGGCTGTTTTCTAAACGAACGAGCGTGCAGCGATTGTATGAAGAGCATGAACGCATTTACAGCGCCGTCGCCGCCAAAGACGCGGATGAAGCGGAAGCGGCGATGACGGCGCATCTGACGAATGTGGAAGAAGTGCTGGGGGCTTATTTTGAAGAAAATGTATAG	MIALKYKQIKTKKIYEEVADALLEKIKAGELKPGEKLDSVQALSESFQVSRSAVREALSALKAMGLVDMKQGEGTYIREFEPSHVSQPLSSALLMKKEDVKQLLEVRKLLELGVAAMAAEKRTEDDLQKIRQALLEMKGIDGDEELGEKADFSFHMALAEASQNGLLKHLMNHVSALLLETMRETRKIWLFSKRTSVQRLYEEHERIYSAVAAKDADEAEAAMTAHLTNVEEVLGAYFEENV				NA	NA	NA	NA	NA
D1-12_03714	1191	lysN	COG1167	2-aminoadipate transaminase	ATGCAGGCCGAATCTTTTTTTTCTGACCATGTAAAGAAAGCTCTGACAAACGATCCTCCCGGGGAATGGATGCCGGCAGTTCCGAAAGCGTGCATCCCCCTGCATTCCGGCTATCCCGATCCCGCACTCGTTCCTGATAAGGAGCTGAAAGAAGCCGCCGCCCGCCTTCTGGATGAGGAGCGCGATCTGCCGCTGCATTATATGGGAAGCCCGAGGACGGCCGTTTTAAAAAAGCAGATTCAAGAACGGTTAGCCACCCGCGGCATTCACTGTCGGGACGATGAGCTGCTCGTGACGTCAGGCGCCTGTCAGGCGATAGATCTGGCAGCCCGGGTTTTCCTCGATGAACAAACCGCCGCTGCCGTTGAAGCTCCGGTCTATATGGAAGCGCTCGAGATTTTTAAAAATTACACACCGCATATCATGAGCATTCCGACAGATCAAGAGGGCCTGCAAACAGAAACATTAGCGTTCATGCTTGAGGAAAGAAAACGAAAAGGGCTTCTGATTCCCCGTCTTCTCTACACGATACCCGCTTTTCAGAATCCTGCGGGAACCGTAATGTCAGCGAAGCGGAGAACCCGCCTGCTTCAACTTGCCGAAGCGTATGATTTTCTCATCTTGGAGGATGATGCATACGGTGAGCTCGGATTCACTGATATTCCGCCGCCTTTGAAAGCTATGGATCAAAACGGCCGGGTGCTGTACGCCGGTTCATTATCAAAAGTCATCGCCCCGGGTATGAGGATCGGCTGGATTGCAGGGGACGCCGCATTCATCACGGCATTGTCATGGTTAAAAAAAGACTTAGGCCACCCGTTTTCCCAAGCGGTGACCGCCGTCTATCTGGAACAAACGAATGTGGAAGAACGGCTCGCCGCCTTGCGGGAAGCATATCGAAGCAAACGTGACGTTTTGCTCGCCGCATCAGCGCGATATCTTCCGGAATCCGCATCCTGGCACGTGCCTGAAGGCGGTTACTTTGTATGGGTGAAAGCGCCTGGGGCGGGTACATCCGCAATGCTGGCGAGGGCTCTTTCTCACGGCGTTTCCTATGTCCCCGGAAAATATTTTTTTCTGCATCAGGAAGACGGTGCGGAATATCTTCGCCTGTCGTTCAGTTATGCCGGTAAAGCCGCGATAAAAGAGGGTGTGCAAAAACTGGGACGCCTGCTGGAAAACGGGATGTAG	MQAESFFSDHVKKALTNDPPGEWMPAVPKACIPLHSGYPDPALVPDKELKEAAARLLDEERDLPLHYMGSPRTAVLKKQIQERLATRGIHCRDDELLVTSGACQAIDLAARVFLDEQTAAAVEAPVYMEALEIFKNYTPHIMSIPTDQEGLQTETLAFMLEERKRKGLLIPRLLYTIPAFQNPAGTVMSAKRRTRLLQLAEAYDFLILEDDAYGELGFTDIPPPLKAMDQNGRVLYAGSLSKVIAPGMRIGWIAGDAAFITALSWLKKDLGHPFSQAVTAVYLEQTNVEERLAALREAYRSKRDVLLAASARYLPESASWHVPEGGYFVWVKAPGAGTSAMLARALSHGVSYVPGKYFFLHQEDGAEYLRLSFSYAGKAAIKEGVQKLGRLLENGM	PGPT0007135_1410	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
D1-12_03715	717	lutA_2	COG0247	Lactate utilization protein A	ATGAAAGTCTCATTATTTGTCACGTGCCTTGTGGATATGTTCCAGACCAATGTCGGAAAGGCGACGGTTGAGGTGCTGGAACGGCTCGGGTGTGAGGTGGATTTTCCCGAGGGGCAGATTTGCTGCGGGCAGCCCGCATACAACAGCGGGTATGTGACGGATGCGAAAAAAGCGATGAAGCGGATGATTGCCGCGTTTGAAGAAGCGGAGTACGTCGTCAGTCCGTCAGGTTCCTGTACGACGATGTTCCGTGAATATCCGCATCTGTTTCAGGATGATCCGAAGTGGGCGGCAAAAGCGCAGCAGCTTGCGGACAAAACATATGAGTTAACAGATTTTATCGTCAACGTTCTCGGGGTGGAGGATGTCGGGGCGGTGCTGCAAAAAAAAGCGACAGTCCATACATCGTGCCACATGACGAGGCTGCTCGGCGTGTCGGAGGAGCCGATGAAGCTTTTGCGCCATGTCAAGGGGCTCGAGCTGACCGCGCTTCCCGGAAAGCACCAATGCTGCGGATTCGGAGGAACGTTTTCTGTGAAAATGGCGCAAATCTCTGAACAAATGGTGGATGAGAAGGTCGCCTGCGTGGAAGACACGGAGGCCGAGGTGCTGATCGGGGCGGATTGCGGATGTCTGATGAATATCGGAGGGCGTCTTGACCGTAAGGATAAAAACGTCAGAGTCATGCACATCGCCGAAGTGCTGAACAGCAGATAA	MKVSLFVTCLVDMFQTNVGKATVEVLERLGCEVDFPEGQICCGQPAYNSGYVTDAKKAMKRMIAAFEEAEYVVSPSGSCTTMFREYPHLFQDDPKWAAKAQQLADKTYELTDFIVNVLGVEDVGAVLQKKATVHTSCHMTRLLGVSEEPMKLLRHVKGLELTALPGKHQCCGFGGTFSVKMAQISEQMVDEKVACVEDTEAEVLIGADCGCLMNIGGRLDRKDKNVRVMHIAEVLNSR	PGPT0018090_1242	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
D1-12_03716	1431	lutB	COG1139	Lactate utilization protein B	ATGGCGATGAAAATCGGTACCGCCGCTTTTAAAGAGCGGGTATCAGAAGGAATAGATAATGAGTTTATGAGAGGAGCCGTCTCCGGTGCGCAGGAACGGCTCAGGACAAGAAGGCTTCAGGCGGCCGAGGAATTGGGAAACTGGGAGGATTGGCGTTCCCATGCGGAAGAAATCAGACAGCATGTGCTGGACAATCTTGATTTCTATTTGGAACAGCTCGCCGAAAACGTCGCCAACAGAGGCGGACACGTCTTTTTCGCCGAAACGGCGGAAGAAGCGTCCTCCTATATCCGCGATGTCATCCGGCAGAAAAACGCCAAAAAAATCGTAAAATCCAAATCCATGGTAACAGAAGAAATCAATATGAACGAAGTGCTTGAGGAAGAGGGCTGTGAAGTCACAGAAACGGATCTCGGCGAATACATTCTCCAGATTGACGACCACGATCCGCCGTCACATATCGTTGCTCCCGCTCTTCACAAAAACAAAGAGCAGATCCGTGACGTGTTTAAAGAGAGACTCGAATACAAACAGACGGAAAAACCGGAAGAGCTCGTCATGCACGCGCGCAGCGTTCTCCGGAAAAAATTTCTCGAAGCGGATGTCGGCATTACAGGCTGCAACTTTGCAATCGCGGATACCGGATCGGTCAGTCTCGTGACGAACGAAGGAAACGGCCGCCTTGTGTCCGCGCTGCCGAAGACGCAGATCACCGTGATGGGAATGGAGCGGATCGTTCCGTCATTTTCTGAGTTTGAAGTGCTTGTCAGCATGCTGACGAGAAGCGCGGTCGGCCAGCGGCTTACAAGTTACATTACGGCGCTGACGGGACCTCGTCAGCAAGGAGAAGCTGACGGGCCTGAGGAATTCCACCTTGTGGTTGTGGACAACGGGCGTTCCCGCATACTCGGCACGGAATTCCAATCGGTGCTGCAATGTATCCGCTGCGCCGCCTGCATCAACGTCTGTCCCGTGTACCGGCATGTCGGCGGACACTCGTACGGGTCCATCTATTCGGGTCCGATCGGCGCCGTCTTATCGCCTCTTCTCGGCGGATATGACGAATACAAGGAGCTCCCGTACGCATCTTCCTTATGCGCGGCCTGTACGGAAGCATGTCCCGTTAAAATTCCGCTGCACGAGCTGCTGCTCAAGCATCGGCAGAACATCGTGGAAAAAGAGGGCAAAGCGCCGATCAGCGAAAAACTGGCGATGAAAGCCTTCGGGCTCGGCTCGTCATCCCCGTCCCTTTATAAAATGGGATCGAAATGGGCGCCTGCCGCCATGACGCCGTTTACGGAAGATGACAAAATATCAAAAGGGCCGGGGCCGTTAAAAGAATGGACGGCAATACGGGATTTCCCGGCGCCGCATAAATCGAGATTCAGAGATTGGTTTAAAGACCGGGAAAAACAAAAGGGGGAAGAATGA	MAMKIGTAAFKERVSEGIDNEFMRGAVSGAQERLRTRRLQAAEELGNWEDWRSHAEEIRQHVLDNLDFYLEQLAENVANRGGHVFFAETAEEASSYIRDVIRQKNAKKIVKSKSMVTEEINMNEVLEEEGCEVTETDLGEYILQIDDHDPPSHIVAPALHKNKEQIRDVFKERLEYKQTEKPEELVMHARSVLRKKFLEADVGITGCNFAIADTGSVSLVTNEGNGRLVSALPKTQITVMGMERIVPSFSEFEVLVSMLTRSAVGQRLTSYITALTGPRQQGEADGPEEFHLVVVDNGRSRILGTEFQSVLQCIRCAACINVCPVYRHVGGHSYGSIYSGPIGAVLSPLLGGYDEYKELPYASSLCAACTEACPVKIPLHELLLKHRQNIVEKEGKAPISEKLAMKAFGLGSSSPSLYKMGSKWAPAAMTPFTEDDKISKGPGPLKEWTAIRDFPAPHKSRFRDWFKDREKQKGEE	PGPT0018095_993	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
D1-12_03717	720	lutC	COG1556	Lactate utilization protein C	ATGAAAGGGACGGTTACACATCAGGAATCCTTTTTAAACCGGATCGCCGAAAGTCTGGGCAGAGAGCGCAGGAAATCAGGCGTGTCCCTGCCTGAATGGAAGTATCAGCCTCAATATCAAACGCATGCGGACTGTACGGAAGACGATCTTGTCACGATGCTGAAAGACCACTGCGTCAACATTCATACCGAACTGATCGAAACGGATGCAGCCGGGCTTTACGACGCTTTGCGCACGCAGGTGAACCGCTTTGAAGGAGGGCCTGTCATCATTCCGAAGGACAGCCGGTTTGAAACGTACGGCTTGCAGACCCTTATGACAGAAGAGTGGCCGGATGAAGGGATTCCAGTTTGGGAATGGGACGCGGAACAAGGAGCGAAAAATATTGAAAAAGCGGAACAAGCGAATGTGGGCATCACATTCAGCGAGATTACGCTTGCAGAATCAGCCACCGTCGTTTTGTATGCGTCAGAGCATGCCGGCCGTTCTGTCAGCCTGCTTCCGACCACCTATATCGCAATCATCCCTAAATCTTCCATTGTGCCGAGAATGACACAGGCCAGCGATATACTGAAACAGCAGATCAGAGACGGCGTCACCGTTCCTTCCTGCATCAACTATATTACTGGACCGAGCAACTCGGCCGATATCGAAATGGATTTGGTTGTCGGCGTCCACGGACCCGTTAAAGCCGCTTATATCCTTGTGAATGACCGATAA	MKGTVTHQESFLNRIAESLGRERRKSGVSLPEWKYQPQYQTHADCTEDDLVTMLKDHCVNIHTELIETDAAGLYDALRTQVNRFEGGPVIIPKDSRFETYGLQTLMTEEWPDEGIPVWEWDAEQGAKNIEKAEQANVGITFSEITLAESATVVLYASEHAGRSVSLLPTTYIAIIPKSSIVPRMTQASDILKQQIRDGVTVPSCINYITGPSNSADIEMDLVVGVHGPVKAAYILVNDR	PGPT0018100_250	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
D1-12_03718	120			hypothetical protein	ATGGGGAAAACACGTAAAACTTATGATATTCACTTTAAGAAAAAAGTTGTTGATCTTCACCTAAATGATGGGATGGGTTATCAGACAATCGCCAGAGAAATGATTAGGCGCATATTATAA	MGKTRKTYDIHFKKKVVDLHLNDGMGYQTIAREMIRRIL				NA	NA	NA	NA	NA
D1-12_03719	1329	idnT	COG2610	Gnt-II system L-idonate transporter	ATGTTACTGTTTATTGTCATTGCCGCTATTATCGTTTTACTCTTATTGATTACGGTCGCTAAATTAAATCCGTTTATCAGTCTTTTGATTACATCCATCCTTGTCGGTTTCGCAACGGGCATGAATCTGCCGGACATTATCGCTTCGATGAAAACCGGGCTCGGCAATACGCTGTCGCTGCTTGCGATCGTGCTGGCCCTCGGTACGATGCTCGGAAAAATGATGGCTGAATCAGGCGGTGCGGAGCGTATCGCCCACACCCTGATCGGCCGCTTCGGCAAAAAGAAAGTGCATTGGGCGATGATGGCCGTCGCTTTTATCGTCGGCATCCCGGTCTTTTTCCAGGTCGGTTTCGTCCTGCTCGTGCCGCTTTTGTTTACGATTGCGATTGAAACCGGCGTTTCATTAGTGACGATCGGGATTCCGCTCCTTGCGGGACTTTCCGTCGTGCACGGATTGGTTCCGCCCCACCCGGCGGCGATGGCGGCTGTCGGCATTTATCACGCCAATGTCGGAAAAACGATTTTGTTTTCTTTAATCGTCGGCATTCCGACTGCCATCATCGCGGGGCCGCTTTACGGAAAATGGATTGGTAAGCGCATTCATAAACCCGTTCCCGAACTGTTGAAAAAACAATTTATTGAACGGAATGAAAAACGCAAGCTTCCGGGATTCGCAAATACATTGTTTACGATATTGGTACCGGTGATCCTGATGCTTATGGCAACGCTTGCCGAAATTGCGCTTCCGGAAAAAAGCGCGCTCTATGAAACTTTTAAATTTATCGGCGACCCTGTCACGGCGCTTTTGATCGCCACGGTGTACTCCTTTTTCAGCCTTGGTTTTTATCAGGGCTTTGACAGAGAAAGCATTTTAAAATTCAGCAATGACTGTCTCGGACCGATCGCTTCCATTCTGCTTGTGATCGGAGCCGGCGGCGCTTTTAACAACGTCCTGATTGATTCAGGCGTCGGCACGTATATTGCTGACATTGCGAAGCATTCAAGCTTCTCTCCCGTTCTTTTAAGCTGGACGATCGCAGCGGTCATCCGTGTCGCCACAGGTTCAGCGACTGTCGCCATGATGACGGCGGCCGGCATTGTTGCACCGATTGCATCTGTCATGCCGGGCGTCAGCAGTGAGCTTCTCGTTTTGGCAACGGGAGCGGGCTCTTTGATTCTGTCACATGTCAATGACTCCGGTTTCTGGCTCATTAAAGAGTATTTCGGAATGACAGTAAAAGAAACATTCCTGACATGGACGGCGATGGAAACGATTATTTCTGTCAGTGCGATCTGTTTTATCATGATTATTAACGCGTTTATATAA	MLLFIVIAAIIVLLLLITVAKLNPFISLLITSILVGFATGMNLPDIIASMKTGLGNTLSLLAIVLALGTMLGKMMAESGGAERIAHTLIGRFGKKKVHWAMMAVAFIVGIPVFFQVGFVLLVPLLFTIAIETGVSLVTIGIPLLAGLSVVHGLVPPHPAAMAAVGIYHANVGKTILFSLIVGIPTAIIAGPLYGKWIGKRIHKPVPELLKKQFIERNEKRKLPGFANTLFTILVPVILMLMATLAEIALPEKSALYETFKFIGDPVTALLIATVYSFFSLGFYQGFDRESILKFSNDCLGPIASILLVIGAGGAFNNVLIDSGVGTYIADIAKHSSFSPVLLSWTIAAVIRVATGSATVAMMTAAGIVAPIASVMPGVSSELLVLATGAGSLILSHVNDSGFWLIKEYFGMTVKETFLTWTAMETIISVSAICFIMIINAFI	PGPT0001340_2390	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
D1-12_03720	1545	xylB_2	COG1070	Xylulose kinase	ATGAAGGAAACCCAAGCTGTTATCGGTCTGGATATCGGCACAACCAGTACGAAAGCCGTTCTGTTCGGACCAAGAGGCAAAGTGTTAGCCAAGCATTCGGTTCACTATGATTTAATACAGCCAAAGCCGGCATGGGCCGAGCAGGATCCTGAGCACATTTTGGAAGCGGTTATCGGAAGCATCAGGGGAGCCGTCACAAAGGCCGGACTGAGTCCTGACAATCTGCTTGCAATCGGCATCAGCACCGCCATGCACTCATTGATAGCTGTCGATCAAAACGGCGGCCTGCTGACCAAAAGCATCATTTGGGCGGACAACCGCAGCGCCGAGCAATCAAAACGGATTTTAAAAGAGATGAACGGTTTTGATATTTATAAAAGAACGGGTACGCCGATTCACCCGATGTCTCCGCTTTCCAAAATTGTCTGGATGAAAGAACAGGACAAGGAGACATTCGCGAAAACCGCCAAATTCATCAGTATGAAAGAATATATTCTGCACGAGTTTTTCGGAACTTATGTCGTCGATTATTCGATCGCTTCGGCAACGGGGCTGTTCCGTTTAGATACGCTTTCCTGGGATGAAGAAGCGCTCCGGATTGCCGGAATCCGGGAAGATCAGCTGTCGGACATCGTGCCGACCACTCATCAGCTGCGCGGCCTTGCGCCGGAAATCGCTGCACGGATGGGCATTCATGCGGATACACCGTTTATTATCGGCGCAAATGACGGCGTGCTCGCCAACCTTGGAGTCGGCGCGATCGGCAAAGGCGAAGTGGCCGTTACGATCGGAACGAGCGGAGCCGTGCGTTCGGTGACGGATGCGCCGATTATGGATGAAAAAGCGCGGACATTCTGTTACGCGCTGACTGACAAGCATTGGGTCATCGGAGGCCCGACGAATAACGGAGGCATTATGCTGCGCTGGCTTCGAGACGAATTCGCTTCTCCGGAAGTCGAAACGGCGAAGCGGCTCGGCATTGATCCGTACGATTTAATGATTGATATCGCTGATAAAGTGCCCGCAGGCTCTGAGGGATTGCTGTTTCTGCCGTTTTTATCAGGGGAGCGCGCGCCGTTTTGGAATCCGAATGCCCGCGGAACGTTTTTCGGCATCAGCCTCCGCCATAAACGGGAGCATTTTATCAGAGCGGTGCTGGAAGGCGTCATCATGAGCGTCTTTTCAATCGGTGTCGCACTGAGAGATTTGGCGGGCCCCGCAAAAGACGTGCGGGCTTCAGGAGGATTTGCGAGATCGCCGCTTTGGAGGCAGATTTTGTCCGATACGATGGGACGGGAAGTCCTCGTTCCGGAAAGTTACGAAGCCTCGGCGCTCGGAGCGGCCGTTCTCGCTTTGCACAGCCTTGGCGAAATGGAACGGATCGAGGATGTTCAGGACTGGATCAGAATTTCTCACCGTCATGAACCGAACGTCAAAAACAGCGAAACATATATTGAGCTGTTTTACTTATACGAGCGGCTGTATGACAAGCTCAAAGATGAATTTGACGTCATCAGTGAATTTCAGCTCAAACAAAGCCGTTAA	MKETQAVIGLDIGTTSTKAVLFGPRGKVLAKHSVHYDLIQPKPAWAEQDPEHILEAVIGSIRGAVTKAGLSPDNLLAIGISTAMHSLIAVDQNGGLLTKSIIWADNRSAEQSKRILKEMNGFDIYKRTGTPIHPMSPLSKIVWMKEQDKETFAKTAKFISMKEYILHEFFGTYVVDYSIASATGLFRLDTLSWDEEALRIAGIREDQLSDIVPTTHQLRGLAPEIAARMGIHADTPFIIGANDGVLANLGVGAIGKGEVAVTIGTSGAVRSVTDAPIMDEKARTFCYALTDKHWVIGGPTNNGGIMLRWLRDEFASPEVETAKRLGIDPYDLMIDIADKVPAGSEGLLFLPFLSGERAPFWNPNARGTFFGISLRHKREHFIRAVLEGVIMSVFSIGVALRDLAGPAKDVRASGGFARSPLWRQILSDTMGREVLVPESYEASALGAAVLALHSLGEMERIEDVQDWIRISHRHEPNVKNSETYIELFYLYERLYDKLKDEFDVISEFQLKQSR				NA	NA	NA	NA	NA
D1-12_03721	858	ybbH_2	COG1737	putative HTH-type transcriptional regulator YbbH	ATGACCCCTGTGAATTCAAGCAGCATCGGGAAGATTCAGGCGGCCAGCAAAGGTTTGTCGCCAAAATTGAGAGCGATTGCAGACCATATCGTGAAGGAACCGAAAGACGTGGTTCACCTTTCCATCATTCAGCTGGCGGAAAAAACGAAAAGCTCTGAAGCGACGATTTTCAGGCTGTGCAAACGGCTCGGTTTTTCCGGCTATCAGGATTTAAAAATCGCGCTTGCTCAGGAGATCGTTCAGGAGCCGGTGCAGCACATTCATGAAGAAATGAGCCCCGACGACGATATCGAAGTCATCATCCAGAAAGTTTTCCGCACAAACATTTCCGGTCTGACCGATACCTTTCATTTATTAGATCCGGCCGACGTTGAAAAAGCGGTAGAAATGATCCACCGCGCAGACAGAATCGAATTTTACGGAAACGGCGGTTCCGGGCTGATCGCCACTGACGCGTATCATAAATTTATGCGTACGGGTATAAATTGCATCGCGCACACAGATTCTCACTTTCAGGCGATGTCAGCGGGTCTTCTCGGTCCCGAAAGCGCAGTCATCGGCATTTCTCATTCGGGAAGCAATAAGGACGTGCTTGACGCGGTGAAAATGGCCAAATCGCTCGGCGCTGGCACGATCGGCATTACAAGCTACCAAAAGTCGCCGCTCACCCAGATTTCCGACGTGGTGCTGTATACGTCAACAAGGGAGACGGCTTTCAGAACGGAAGCAATGTCCGCAAGGCTTGCCCAGCTGTCGGTCATTGATACACTGTATTTCGCCACGGCCCGGCTGCGGCAGGAGAAAACGCTCGCCAACTTGCAGCAAATCAGAAAAATGATCGCGCACAAACGTTTGTAA	MTPVNSSSIGKIQAASKGLSPKLRAIADHIVKEPKDVVHLSIIQLAEKTKSSEATIFRLCKRLGFSGYQDLKIALAQEIVQEPVQHIHEEMSPDDDIEVIIQKVFRTNISGLTDTFHLLDPADVEKAVEMIHRADRIEFYGNGGSGLIATDAYHKFMRTGINCIAHTDSHFQAMSAGLLGPESAVIGISHSGSNKDVLDAVKMAKSLGAGTIGITSYQKSPLTQISDVVLYTSTRETAFRTEAMSARLAQLSVIDTLYFATARLRQEKTLANLQQIRKMIAHKRL	PGPT0017985_833	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
D1-12_03722	159			hypothetical protein	ATGAAAAAAGTATGGATTCTCGTCATATCATTCGGCATTGCGCTTGCGCTGTTTTTATACGCAAACACAAAGGTGAAAGCGGAAAGCGCGGCGCCCGGAAAGCAAAGCCTTGTGTCCGGATTTCAGCTGAAATTTCCGAATCACCGGGTAGGACAATAG	MKKVWILVISFGIALALFLYANTKVKAESAAPGKQSLVSGFQLKFPNHRVGQ				NA	NA	NA	NA	NA
D1-12_03724	1341	yvbW	COG1113	putative amino acid permease YvbW	ATGGAAAAGGACAAGCAAACGTTAAAACGGACGATGTCGTCCAGACACATTATGATGATGGCGCTTGGAGGCGCGATCGGGGCCGGGCTCTTTAAAGGCAGCAGCACGGCGATTGATGAGGCGGGGCCGTCCGTGCTGCTGGCCTACCTCCTTGGCGGAATCATTCTGCTATTTATTATGCAAGGGCTGGCCGAAATGGCAGTCAGAAACAAACATGCAAGGACGTTCCGTGATTTGGTTCAGCAGTCGCTCGGATCGTACGCTGCATACTTTTTAGATTGGATCTATTGGAAAATGTGGGTGCTCAATATTGCCGCGGAGGCGGTCGTAGCCGCCATTTTCATTCAATATTGGCTGCCGGAATGTCCGATATGGATACTGGCTCTGATCATTTCCATCGTGGTGACGGTCGTAAACATGCTTTCTGTGAAACTGTTTGCCGAGACGGAGTACTGGCTCGCGCTTATTAAAATTACAGTGATTGTCATCTTTATTTTATGCGGGATTCTGCTTTTATTTTTCTCATTCGGCAATCACACGGCGCCGGGGCTGTCTCATTTAACGGATCACGGAGGATTTTTCCCGCATGGAGCGGGGGGCGTCATTACGGCGATGCTCGTCGTGATCTACTCATACGGCGGAACGGAAATCATCGGCGTCACGCTGGCGGAGACAAAAAATCCCGAAAAGGTGATCCCGAAAGCTGTCCGAAGCACGTTAACGCGGATTGTCGCTTTTTACTTGCTGCCGTTCTTCATCATCGTCAGCCTGATTCCTTGGAATCAAGTCAACAGCGTTCCCGAAAGCCCGTTTGTCATAGTATTTAAGATGATCGGAATTCCGGGTGCCGACCATATTATGAATGCCGTCATTCTTCTTGCGATTATCTCGTCTATGAATTCGGGACTGTACGGATCATCCCGCGTCTTGTTTACGCAGGCTTCTGACGGCCGGGTGCCGAAAGTTTTTTCAAAACTATCGAAGAAAAAGGTTCCCGTCTATGCGATTCTGACTTGTACGTCATTTTTATATGTAGGCGTCCTGATTTCTTTATTCGCAGGAAGCCGGACGTTTAATTATTTGATGGGTTCACTCGGCTATACGGTGCTGTTCATCTGGCTGATTATCGGCTTCGCCCATTTGAAATCAAGAAAACATTCAACAGAACAGCCGGCTTATTACGTCAAATGGTTCCCATACACGACATGGTTCGCGGTGCTTGCGCTTTTGGCCATCCTGATCGGCGTAATTGCGACGACATCCATCGTCATCACATGCATCACTGCGGCCATCTATCTCCTCATTACGGCTGCGTATCTTGTGAAAGGGAGACGTCAATAA	MEKDKQTLKRTMSSRHIMMMALGGAIGAGLFKGSSTAIDEAGPSVLLAYLLGGIILLFIMQGLAEMAVRNKHARTFRDLVQQSLGSYAAYFLDWIYWKMWVLNIAAEAVVAAIFIQYWLPECPIWILALIISIVVTVVNMLSVKLFAETEYWLALIKITVIVIFILCGILLLFFSFGNHTAPGLSHLTDHGGFFPHGAGGVITAMLVVIYSYGGTEIIGVTLAETKNPEKVIPKAVRSTLTRIVAFYLLPFFIIVSLIPWNQVNSVPESPFVIVFKMIGIPGADHIMNAVILLAIISSMNSGLYGSSRVLFTQASDGRVPKVFSKLSKKKVPVYAILTCTSFLYVGVLISLFAGSRTFNYLMGSLGYTVLFIWLIIGFAHLKSRKHSTEQPAYYVKWFPYTTWFAVLALLAILIGVIATTSIVITCITAAIYLLITAAYLVKGRRQ	PGPT0000815_2243	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
D1-12_03725	918	eamA	COG0697	putative amino-acid metabolite efflux pump	GTGAAACAGCTTTCGAAAATACAGACGGCTCTTATGCTGGCGTTTCTAGTCACGGTATGGGGAATTAACTGGCCGCTGACAAAGGCCGCGCTTGCCTATTCGCCGCCTCTTCTGTTTGCCGGAATCCGCACGCTGATCGGCGGACTTCTATTATTAATGGTGGCGCTGCCCCGTTTTAAAAAGCTGCGTTTTAAAGAAACGTGGCCGATCTATCTTATTTCTGCCATTTTAAATATTACTTTATTTTACGGCCTGCAAACGGTCGGCTTGAATTACCTGCCTGCCGGCCTATTTTCAGCCATCGTGTTTTTCCAGCCGGTGTTAATGGGCGTTTTTTCTTGGCTGTGGCTCGGGGAATCGATGTATCCTTTAAAAATAGCCGGTCTTATTCTGGGCTTTGCCGGTGTCGCCGTCATCAGCGCAGCCGGTTTCGGAGGCCATATTTCCATCGCCGGCATTCTTTTGGCCTTAGGCTCTGCGGTCAGCTGGGCGCTCGGCACGGTATATGTGAAAAGAACGGGCGGACGCGCGGATTCTATCTGGATGGTCGCTCTTCAGCTTCTGATCGGCGGCGTGCTGCTTGTCAGCTCCGGCCATTTTTCAGAAAGCTTTTCAGCGATTCAATGGAAAGCTCCGTTCATTCTGAGCCTTCTGTTCATTTCAGTTTTTGTTATCGCGCTCGGCTGGCTCGCCTTTTTTACGCTTGTCGGTTCAGGGGAAGCAAGCAAGGTTGCCTCTTACACCTTCCTGATCCCGCTCATATCCATTGTCGTCAGCTCGATATTCCTGCATGAGCCGCTTACCGTCAGCCTTTTAGCCGGACTGCTTCTGATCGTCACAAGCATTTGTTTTGTGAATATAACACCGAAAAAACTGAAAACACCTGCTCTGGCCGCAGAAAAAAAGGCCGTTCATTAA	MKQLSKIQTALMLAFLVTVWGINWPLTKAALAYSPPLLFAGIRTLIGGLLLLMVALPRFKKLRFKETWPIYLISAILNITLFYGLQTVGLNYLPAGLFSAIVFFQPVLMGVFSWLWLGESMYPLKIAGLILGFAGVAVISAAGFGGHISIAGILLALGSAVSWALGTVYVKRTGGRADSIWMVALQLLIGGVLLVSSGHFSESFSAIQWKAPFILSLLFISVFVIALGWLAFFTLVGSGEASKVASYTFLIPLISIVVSSIFLHEPLTVSLLAGLLLIVTSICFVNITPKKLKTPALAAEKKAVH				NA	NA	NA	NA	NA
D1-12_03726	894	oxyR		Hydrogen peroxide-inducible genes activator	ATGACGATTACACAACTGCGGGTTTTTGTTCAAATCGCTGAAACGGGAAGCTTTACAAAAGCGGGGCAGGCGCTGAATATGACGCAGCCCGCCGTCAGCCATGCCATCTCTGCGCTTGAGTCAGAGCTCGGCATCAAGCTGATCATCCGCGAGCGCCGCAACGGCGTAAGGCTCACGGACACGGGCGGAAAAATTCTCGTCCATATCAGAGAGGTGCTCAAAGGCATAGAAAAAGCCGAGCAGCTGGCGGCCGCGGAAAGAGGTCTTGAACAGGGAACGATTCACATCGGCACATTTCCGGCCGCTTCCGCTTATTTCATTCCAAAGCTGATCAGCGTGTTTAAAAAACGGTATCCGAAGCTTGAACTGGTGCTTCATGAAGGAACGGCGGACGAAGTAAAAGAATGGCTGCAATCCCGGATGATTGACGCGGGCATTCTGCTGTTCCCGACAGAGGATATGGATTCCTTTCTGCTGAAAAAAGACAAAATGGCAGCGGTTATGCATAAAGATCATCCTCTCGCCGCACGCTCAACCGTAACGATAAAAGATCTGGACGGTGAACCGATGGTGGTTTGCGAAGGCGGTTACACGTCACCTTTTGCAGGCCTGTTTAAACAAGCCGGTGCCGAACTTTGCGCGGCCTTTACCGTGTTTAATGTCAGCACGTCCATCAATATGGTGCGGGAGGGGTTGGGCATGGCAATCTTATCCGATATGTCCATGGCCGGCAATCCCCTCCCGGAAGAAGTGGTGATTAAAGAGTTTGCGCCGGATGTATTCAGGGAGGTGCAGCTGGCGGTTCCTTCCATGAAAGACGCATCACTTGCCGCCAAGCTTTTTATTGATGTCGCCGAGGAGCTGTTCATCCGTAAGAAAACCGCCGCTGACTGA	MTITQLRVFVQIAETGSFTKAGQALNMTQPAVSHAISALESELGIKLIIRERRNGVRLTDTGGKILVHIREVLKGIEKAEQLAAAERGLEQGTIHIGTFPAASAYFIPKLISVFKKRYPKLELVLHEGTADEVKEWLQSRMIDAGILLFPTEDMDSFLLKKDKMAAVMHKDHPLAARSTVTIKDLDGEPMVVCEGGYTSPFAGLFKQAGAELCAAFTVFNVSTSINMVREGLGMAILSDMSMAGNPLPEEVVIKEFAPDVFREVQLAVPSMKDASLAAKLFIDVAEELFIRKKTAAD				NA	NA	NA	NA	NA
D1-12_03727	1008			hypothetical protein	ATGGCTGAACATACATTGAAAGATACTGCGTTTTCCGTATTGAATTTATCGCCGGTCGTACAGGGAGGAACGGTTGCTGAATCGTTCCGCAACAGCATGGATTTAGCGCGCCGCGCCGAGGAGTGGGGCTATAACCGCTATTGGCTTGCGGAGCATCATAATATAGAAGGCGTTGCCAGCTCGGCAACAGCGGTGCTGATCGGCCACATCGCCGGCGGCACGAAAAAAATCCGCGTCGGTTCTGGGGGTATTATGCTGCCGAATCATTCGTCACTTATAATCGCGGAGCAATTCGGAACCCTTGAAACGTTATATCCAGGGCGGATTGACCTCGGACTCGGGCGTGCGCCGGGTACCGACCAATTAACGGCGAGGGCCTTAAGAAGAAACATAAACAGCGGGGAGGATTTCCCGGAGCAGCTTGAAGAATTGAGAAATTACTTCAAACCGTCAGGCAATGTGCGCAATCTAGTCCGCGCCATTCCGGGCGAAGGGCTGGACGTGCCGATCTGGCTTCTGGGCTCAAGCGGCTTCAGCGCGCGTCTTGCGGGAGAGCTCGGGCTTCCGTTCGCCTTTGCGGCTCACTTTTCACCGAAAAACACCGTGCCCGCCCTTGAGCTGTACCGCAGCTCCTTCCGTCCGTCAGATGTACTGGATAAACCGTACGCGATGGTCGGCGTCACCGTCATTGCCGCCGATACGGATGAAAAGGCGGAGCATCTGGCAACATCGCATTATCAAAGATTTTTAGACCTCGTCCGCGGCACGCCGAACCAGCTGAAGCCTCCTGTTGAAGACATGGATCAAATCTGGTCGCCGTATGAAAAAGCGATGGTCAATGAACAGCTCAGTTCAACGATCGTCGGCGGACCGGAGCGTGTGAAGGAGAAGCTGGAAAGCTTTATCCGGACAACACAGGCGGATGAAATCATGGTGAATTCAGAAAGCTTTGAGCATGCCGACAGAATGAGATCATTTGAGATCATCGCCGAATTAAAAAACAGCTGA	MAEHTLKDTAFSVLNLSPVVQGGTVAESFRNSMDLARRAEEWGYNRYWLAEHHNIEGVASSATAVLIGHIAGGTKKIRVGSGGIMLPNHSSLIIAEQFGTLETLYPGRIDLGLGRAPGTDQLTARALRRNINSGEDFPEQLEELRNYFKPSGNVRNLVRAIPGEGLDVPIWLLGSSGFSARLAGELGLPFAFAAHFSPKNTVPALELYRSSFRPSDVLDKPYAMVGVTVIAADTDEKAEHLATSHYQRFLDLVRGTPNQLKPPVEDMDQIWSPYEKAMVNEQLSSTIVGGPERVKEKLESFIRTTQADEIMVNSESFEHADRMRSFEIIAELKNS	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
D1-12_03728	1089	araR	COG1609	Arabinose metabolism transcriptional repressor	ATGCTACCGAAATATGCTCAAGTAAAAGAAGAAATTTGTTCATGGCTGAATCAAGGAAAAATACAGCCGGACGAAAAGCTGCCTACGGAAAATGAGCTGATGCAGCAGTTCGGCGTCAGCCGCCATACCATCAGAAAGGCGATCGGAGATTTGGTCTCGCAAGGGCTGCTGTACAGCGTTCAGGGCGGAGGCACCTTTGTCGCTTCACGCACGGCGAAATCAGCCATGCATTCAAACAAAACGATCGGCGTCATTACAACGTACATATCAGACTATATTTTTCCGAGCATCATCAGGGGAATCGAATCGTATTTAAGCGAACAGGGCTATTCCATGCTGCTGACGAGCACCAACAACAATACAGAAAGTGAACGGCGCGGCCTTGAAAACCTGCTGTCCAAAAATATAGACGGGCTGATTGTCGAGCCTACAAAAAGCGCGCTGCAGACGCCCAACATCGGCTACTATCTCAATCTGGAGAAAAACGGCATTCCGTTTGCCATGATTAACGCCTCTTATGCGGAGCTGGCCGCACCAAGCTTTTCCGTCAATGATGTCAAAGGCGGCATGATGGCTTGCGAATACGTCATGTCCCTCGGCCACACGCACATTATGGGAATCTTTAAAGCGGATGACACGCAGGGCGTCAAACGGATGAACGGCTATCTTCAGGCGCATCGGGAGCGCGGGATTTTTCCGTCTCCGGACATGATCGTGACTTACACGACTGAGGAAAAAGAAACCGTGCTTCTCCAAAAAATTAAGCATACCCTTGAGCAAAACAGCGGGTCACATCCGACGGCCATTCTTTGCTACAATGACGAAATTGCGCTGAAGACGATTAATCTTCTCAGAGAATTCGGGTTAAAGGTGCCTGATGACGTGTCGGTCATGGGCTATGACGATTCACATTTCGCCCAGATTTCCGAGGTGAAGCTCACCTCTGTCAAGCATCCGAAATCCATTATGGGGAAAGCGGCGGCAAAATACGTCATCGACTGCTTAGAACATAAAAAACCGAAGAAGGATGACGTCGTGTATGAACCGGAACTCGTCATCCGGAATTCAGTCAAGCGGATCGGCGAATAA	MLPKYAQVKEEICSWLNQGKIQPDEKLPTENELMQQFGVSRHTIRKAIGDLVSQGLLYSVQGGGTFVASRTAKSAMHSNKTIGVITTYISDYIFPSIIRGIESYLSEQGYSMLLTSTNNNTESERRGLENLLSKNIDGLIVEPTKSALQTPNIGYYLNLEKNGIPFAMINASYAELAAPSFSVNDVKGGMMACEYVMSLGHTHIMGIFKADDTQGVKRMNGYLQAHRERGIFPSPDMIVTYTTEEKETVLLQKIKHTLEQNSGSHPTAILCYNDEIALKTINLLREFGLKVPDDVSVMGYDDSHFAQISEVKLTSVKHPKSIMGKAAAKYVIDCLEHKKPKKDDVVYEPELVIRNSVKRIGE	PGPT0017490_373	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
D1-12_03729	1395	araE	COG0477	Arabinose-proton symporter	ATGAAGAATCACCCGGCACCAATTGGCTCAAATGTACCTGTCACTCGGCAGCATTCCAAGTGGTTTGTCATTCTCATCTCATGCGCGGCCGGACTGGGAGGGCTTTTGTACGGTTATGACACGGCGGTGATTTCCGGCGCCATCGGTTTCCTGAAAGATTTGTACCGCTTAAGTCCTTTTATGGAAGGGCTCGTGATTTCAAGCATAATGATCGGCGGTGTTTTCGGCGTCGGGATTTCCGGATTTTTGAGCGACCGTTTCGGACGGAGAAAGATTTTGATGGCAGCGGCGCTGTTGTTTGCGGTGTCAGCGGTTGTCTCTGCGCTTTCTCAAAGTGTGTCTTCCTTAGTGATCGCCAGAGTCATCGGCGGTCTGGGAATCGGCATGGGCTCCTCGCTTTCTGTCACGTATATTACCGAAGCCGCTCCGCCGGCAATACGCGGCAGTCTGTCTTCACTGTATCAGCTGTTTACGATATTAGGGATTTCCGGCACTTATTTTATTAACCTCGCCGTTCAGCAGTCCGGCTCATATGAATGGGGGGTGCACACCGGCTGGCGGTGGATGCTCGCTTACGGCATGATTCCGTCCGTCATCTTTTTTATCGTGTTGCTTATCGTGCCTGAAAGCCCGCGCTGGCTTGCGAAAGCGGGGCGCCGGAATGAAGCCCTCGCCGTGCTGACGCGCATTAACGGCGAGCAGACCGCGAAAGAAGAAATCAAACAAATCGAAACGTCTTTACAATTAGAAAAAATGGGGTCATTGTCTCAGCTGTTTAAACCGGGGCTGAGAAAAGCGCTTGTGATCGGGATTCTGCTGGCTTTATTCAATCAGGTCATCGGCATGAACGCAATTACGTATTACGGGCCGGAAATTTTCAAAATGATGGGCTTCGGACAGAATGCGGGGTTTATCACGACATGCATCGTCGGTGTCGTTGAAGTGATTTTCACCATTATCGCGGTTCTTTTAGTCGATAAGGTGGGCCGGAAAAAGCTGATGGGGGTCGGATCTGCCTTTATGGCGCTGTTCATGATCTTAATCGGGGCATCCTTTTATTTTAAGCTGGCGAGCGGTCCGGCTTTAGTCGTCATCATATTGGGATTCGTCGCCGCTTTCTGCGTATCAGTCGGGCCGATTACGTGGATCATGATTTCGGAAATCTTTCCGAACCACCTCCGCGCACGCGCCGCCGGTATTGCGACGATATTCTTATGGGGGGCCAACTGGGCGATCGGCCAGTTCGTGCCGATGATGATCAGCGGGTTGGGGCTCGCGTACACCTTCTGGATATTCGCCGTCATTAATATTCTCTGTTTCTTGTTTGTCGTGACGATCTGCCCTGAGACGAAAAATAAATCATTAGAAGAAATAGAAAAACTCTGGATAAAATGA	MKNHPAPIGSNVPVTRQHSKWFVILISCAAGLGGLLYGYDTAVISGAIGFLKDLYRLSPFMEGLVISSIMIGGVFGVGISGFLSDRFGRRKILMAAALLFAVSAVVSALSQSVSSLVIARVIGGLGIGMGSSLSVTYITEAAPPAIRGSLSSLYQLFTILGISGTYFINLAVQQSGSYEWGVHTGWRWMLAYGMIPSVIFFIVLLIVPESPRWLAKAGRRNEALAVLTRINGEQTAKEEIKQIETSLQLEKMGSLSQLFKPGLRKALVIGILLALFNQVIGMNAITYYGPEIFKMMGFGQNAGFITTCIVGVVEVIFTIIAVLLVDKVGRKKLMGVGSAFMALFMILIGASFYFKLASGPALVVIILGFVAAFCVSVGPITWIMISEIFPNHLRARAAGIATIFLWGANWAIGQFVPMMISGLGLAYTFWIFAVINILCFLFVVTICPETKNKSLEEIEKLWIK	PGPT0014420_282	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014420-araE-K02100	NA	NA
D1-12_03730	141			hypothetical protein	ATGAAAGCGTTTTACGACAAAAGTCCGCTCCGGCGGGCTTTTGTCTGTCACCTTCATTCCGTTTCTGTATATAATGACTGTATCAAGGAGATACTGGGAAATCCTGCGAAGAATGTCGACGAATTGACCTTTAACAGTTGA	MKAFYDKSPLRRAFVCHLHSVSVYNDCIKEILGNPAKNVDELTFNS				NA	NA	NA	NA	NA
D1-12_03731	1035	cggR	COG2390	Central glycolytic genes regulator	ATGAACCAGTTAATACAAGCTCAAAAAAAATTATTGCCTGATCTTTTGCTTGTGATGCAGAAAAGATTTGAAATCTTGCAGTATATCAGGCTTACCGAACCGATCGGCCGCAGAAGTCTTGCAGCCAGTCTCGGATTGACCGAGCGCGTTCTCAGAAGCGAGGTTCAGTTTTTGAAAGAACAGAATCTCATCGATATTAAAACAAACGGCATGACAATGACGGAAGAGGGCTACTCACTGCTTTCGATTCTGGAAGATACGATGAAGGATGTTTTAGGATTGACGCTTTTGGAAAAGACATTAAAAGAGCGGCTTAATCTGAAAGACGCCATTATCGTTTCCGGAGACAGCGACCAATCTCCTTGGGTCAAAAAAGAATTAGGGAGAGCGGCCGTTGCATGTATGAAAAAGAGATTTTCAGGCAAAAATATCGTCGCTGTAACCGGCGGTACGACAATTGAAGCCGTCGCCGATATGATGACGCCGGATTCAAAAAACCGCGAGCTCCTGTTTGTGCCCGCAAGAGGCGGTTTAGGCGAAGATGTGAAAAACCAGGCGAACACCATATGCGCGCATATGGCGGAAAAGGCTTCAGGCACTTACCGGCTTTTGTTCGTTCCCGGGCAGCTGTCACAAGGCGCCTACTCATCTATTATTGAAGAGCCTTCCGTAAAAGAGGTGCTTCACACGATTAAATCAGCGAGTATGCTCGTTCACGGAATCGGCGAAGCTAGAACAATGGCGGAGCGAAGAAACACGCCTTTGGAAGATTTGAAGAAAATAGATGACAATCATGCGGTGACAGAGGCATTCGGCTACTACTTTAATGCGGACGGAGAAGTCGTTCACAAGGTGCATTCAGTCGGAATGCAGCTCGATGACCTCGATGCCATTCCCGACATTATCGCGGTAGCGGGCGGATCATCAAAAGCAGAAGCAATCGAAGCTTATTTTAAAAAGCAGCGAAACACGGTTCTCGTCACGGACGAAGGAGCCGCAAAGAAGTTATTAAGGGATAACAGTCCCTCAATATAA	MNQLIQAQKKLLPDLLLVMQKRFEILQYIRLTEPIGRRSLAASLGLTERVLRSEVQFLKEQNLIDIKTNGMTMTEEGYSLLSILEDTMKDVLGLTLLEKTLKERLNLKDAIIVSGDSDQSPWVKKELGRAAVACMKKRFSGKNIVAVTGGTTIEAVADMMTPDSKNRELLFVPARGGLGEDVKNQANTICAHMAEKASGTYRLLFVPGQLSQGAYSSIIEEPSVKEVLHTIKSASMLVHGIGEARTMAERRNTPLEDLKKIDDNHAVTEAFGYYFNADGEVVHKVHSVGMQLDDLDAIPDIIAVAGGSSKAEAIEAYFKKQRNTVLVTDEGAAKKLLRDNSPSI	PGPT0019460_227	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CARBON_CATEBOLITE_REGULATION,PGPT0019460-cggR-K05311	NA	NA
D1-12_03732	1008	gapA	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 1	ATGGCAGTAAAAGTCGGTATTAACGGTTTTGGTCGTATTGGACGTAACGTATTCCGCGCAGCATTAAACAATCCTGAAGTTGAGGTAGTAGCGGTTAACGATTTAACAGACGCTAACATGCTTGCTCATCTTTTACAATATGATTCCGTACACGGAAAATTAGATGCAGAAGTTAAAGTTGACGGCAGCAACCTTGTTGTTAACGGCAAAACAATCGAAGTTTCTGCTGAGCGCGATCCTGCGAAACTCAGCTGGGGCAAACAAGGCGTTGAAATCGTAGTTGAATCTACTGGTTTCTTCACAAAACGCGCAGACGCTGCGAAACACTTAGAAGCAGGCGCGAAAAAAGTTATCATCTCTGCACCTGCTAACGAAGAAGATATCACAATCGTTATGGGTGTTAACGAAGACAAATACGATGCGGCTAACCACCATGTTATCTCTAACGCATCTTGCACAACAAACTGCCTTGCGCCGTTTGCAAAAGTACTTAACGACAAATTCGGCATCAAACGCGGTATGATGACAACTGTTCACTCTTACACAAACGATCAGCAAATTCTTGATCTTCCGCACAAAGACTACCGTCGTGCGCGTGCAGCAGCTGAAAACATCATTCCTACATCAACTGGTGCTGCTAAAGCAGTTTCCCTCGTTCTTCCTGAACTGAAAGGCAAACTGAACGGCGGAGCTATGCGTGTGCCGACTCCAAACGTTTCTCTTGTTGACCTAGTTGCTGAACTGAACAAAGACGTAACGGCTGAAGACGTAAACGCAGCTCTTAAAGAAGCGGCTGAAGGCGATCTTAAAGGAATCCTCGGCTACAGCGAAGAGCCATTAGTATCTGGTGACTACAATGGCAATGCAAACTCTTCAACAATCGATGCTCTTTCTACAATGGTAATGGAAGGCAGCATGGTGAAAGTGATCTCTTGGTACGATAACGAAAGCGGCTACTCTAACCGCGTTGTTGACCTTGCAGCTTACATCGCAAAACAAGGTCTTTAA	MAVKVGINGFGRIGRNVFRAALNNPEVEVVAVNDLTDANMLAHLLQYDSVHGKLDAEVKVDGSNLVVNGKTIEVSAERDPAKLSWGKQGVEIVVESTGFFTKRADAAKHLEAGAKKVIISAPANEEDITIVMGVNEDKYDAANHHVISNASCTTNCLAPFAKVLNDKFGIKRGMMTTVHSYTNDQQILDLPHKDYRRARAAAENIIPTSTGAAKAVSLVLPELKGKLNGGAMRVPTPNVSLVDLVAELNKDVTAEDVNAALKEAAEGDLKGILGYSEEPLVSGDYNGNANSSTIDALSTMVMEGSMVKVISWYDNESGYSNRVVDLAAYIAKQGL	PGPT0018000_4512	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
D1-12_03733	1185	pgk	COG0126	Phosphoglycerate kinase	ATGAATAAAAAAACAGTAATAGACATCGACGTAAAAGGCAAAGTCGTATTCTGCCGCGTTGACTTTAACGTTCCAATGAAAGACGGGGAAGTAACAGACGATACTCGTATCCGCGCTGCGCTTCCAACAATCAAACACCTTGCAGACCAAGGCGCGAAAGTCCTTCTTGCGAGCCACTTAGGCCGCCCGAAAGGCGAAGTGGTTGAGGAGCTTCGTTTAACTCCTGTCGCTGCACGCTTAGGCGAACTGCTCGGCAAAGAAGTGAAAAAAGCGGATGAAGCTTACGGCGATGCTGTAAAAGCACAAATTTCCGAGATGAAGGACGGAGACGTTCTTGTATTGGAAAACGTACGTTTCTACCCTGGTGAAGAGAAAAACGATCCTGAGCTTGCTAAAGCATTTGCTGAGCTTGCGGATGTATATGTCAATGACGCATTCGGTGCTGCCCACCGTGCTCACGCATCTACAGCCGGAATTGCCGAGCATCTGCCGGCGGTTGCAGGATTCCTGATGGAAAAAGAGCTTGACGTTCTCGGCAAAGCCGTGACAAATCCTGAGCGCCCGTTTACGGCAATCATCGGCGGCGCGAAAGTAAAAGACAAAATCGGCGTAATCGAAAGTCTGCTTGATAAAGTGGACAACCTGATCATCGGCGGAGGTCTTGCTTACACATTCGTAAAAGCGCTTGGCCATGAAGTCGGTAAATCTTTGCTTGAAGAAGATAAAATCGAACTTGCAAAATCATTCATGGACCGCGCGAAAGAAAAAGGCGTTACATTCTATATGCCGGAAGACGTGCTCGTTGCTGATGATTTCTCTAACGATGCAAACGTTCAAATCGTGCCGATCTCTGAGATTCCAAGTGATTTAGAAGCGATCGACATCGGAACGAAAACCCGCGAAACGTATGCTGAAGTTATCAAAAACAGCAAACTTGTCGTATGGAACGGACCGATGGGCGTATTCGAAATCGACTTGTTCGCTCAAGGCACAAAAGCAGTGGCTGAAGCATTGGCAGAGGCAAACGATACATACTCTGTCATCGGCGGAGGAGACTCTGCGGCAGCCGTTGAAAAATTCGGCCTTGCTGACAAAATGAGCCATATCTCAACAGGCGGCGGCGCATCCCTTGAATTCATGGAAGGCAAAGAGCTTCCGGGTGTAGCTGCGCTGAACGATAAATAA	MNKKTVIDIDVKGKVVFCRVDFNVPMKDGEVTDDTRIRAALPTIKHLADQGAKVLLASHLGRPKGEVVEELRLTPVAARLGELLGKEVKKADEAYGDAVKAQISEMKDGDVLVLENVRFYPGEEKNDPELAKAFAELADVYVNDAFGAAHRAHASTAGIAEHLPAVAGFLMEKELDVLGKAVTNPERPFTAIIGGAKVKDKIGVIESLLDKVDNLIIGGGLAYTFVKALGHEVGKSLLEEDKIELAKSFMDRAKEKGVTFYMPEDVLVADDFSNDANVQIVPISEIPSDLEAIDIGTKTRETYAEVIKNSKLVVWNGPMGVFEIDLFAQGTKAVAEALAEANDTYSVIGGGDSAAAVEKFGLADKMSHISTGGGASLEFMEGKELPGVAALNDK	PGPT0018015_4565	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
D1-12_03734	762	tpiA	COG0149	Triosephosphate isomerase	ATGAGAAAACCAATTATAGCCGGTAACTGGAAAATGAACAAAACACTCGGCGAGGCTGTCAGCTTCGTTGAAGAAGTGAAATCTTCCATTCCAGCAGCAGACAAAGCGGAAGCCGTTGTTTGCGCACCAGCTCTTTTCTTAGAAAAGCTGACTTCTGCTGTTAAAGGAACTGACCTGAAAGTCGGCGCCCAAAACATGCATTTTGAAGAAAACGGTGCGTTCACAGGTGAAATCAGCCCGGTCGCTCTGAAAGACCTTGGCGTGGATTACTGCGTCATCGGCCACTCTGAGCGCCGTGAAATGTTCGCTGAAACTGATGAAACAGTTAACAAAAAAGCGCATGCCGCTTTCAAACACGGCATTGTGCCGATCATTTGCGTAGGTGAAACGCTTGAAGAGCGCGAAGCCGGAAAAACAAATGGTCTTGTTGCCGATCAAGTGAAAAAAGGTCTTGCGGGTCTTTCTGAAGAGCAAGTTGCCGCTTCCGTTATTGCGTACGAGCCAATCTGGGCAATCGGAACAGGCAAATCTTCTACAGCGAAAGATGCTAACGACGTCTGCGCGCATATCCGTAAAGTCGTTGCTGAAAGCTTCAGCCAGGAAACTGCTGACAAGCTCCGCATTCAATACGGCGGCAGCGTAAAACCTGCAAATATTAAAGAATATATGGCAGAGTCCGATATTGACGGTGCTTTGGTCGGCGGCGCAAGCCTTGAACCGCAGTCATTCGTTCAATTATTGGAGGAAGGTCAATATGAGTAA	MRKPIIAGNWKMNKTLGEAVSFVEEVKSSIPAADKAEAVVCAPALFLEKLTSAVKGTDLKVGAQNMHFEENGAFTGEISPVALKDLGVDYCVIGHSERREMFAETDETVNKKAHAAFKHGIVPIICVGETLEEREAGKTNGLVADQVKKGLAGLSEEQVAASVIAYEPIWAIGTGKSSTAKDANDVCAHIRKVVAESFSQETADKLRIQYGGSVKPANIKEYMAESDIDGALVGGASLEPQSFVQLLEEGQYE	PGPT0017995_1778	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
D1-12_03735	1536	gpmI	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGAGTAAAAAACCAGCTGCACTCATCATTCTTGATGGGTTCGGATTACGCAATGAAACAGTCGGAAACGCAGTCGCACAAGCGAAAAAACCGAATTTCGACCGTTATTGGAACCAATACCCTCATCAGACGCTGACGGCATCAGGCGAAGCAGTCGGACTGCCTGAAGGACAGATGGGGAACTCTGAAGTCGGTCATTTGAATATCGGCGCAGGACGTATTGTGTACCAAAGCTTAACACGCGTGAACGTTGCCATCCGCGAAGGCGAATTCGAACGCAATCAAACGTTCCTTGACGCCATCAAAAACGCGAAAGACAACGACAAAGCGCTGCACCTGTTCGGCCTTCTTTCTGACGGAGGCGTACACAGTCATATCAATCATTTATTCGCGCTGCTGAAGCTTGCGAAAAGTGAAGGACTGACGAAGGTGTATATTCACGGTTTCCTCGACGGCCGCGATGTAGGTCCGCAAACAGCGAAAACTTACATTCAGCAGCTGAATGAGCAGATCGAAGAAATCGGTGTCGGCGAAATCGCCAGCATTTCCGGACGCTACTACTCCATGGACCGCGACAAACGCTGGGACCGTGTGGAAAAAGCGTACCGCGCAATGGCTTACGGCGAAGGCCCGTCTTACCGCAGCGCGATGGATGTAGTCGACGATTCTTATGCGAACGGCATTCATGATGAATTCGTCATTCCGTCCGTCATCACAAAAGAAAACGGTGAACCCGTTGCGAAAATTCATGACGGCGATTCTGTGATTTTCTATAATTTCAGACCGGACCGCGCCATCCAGATTTCAAACACGTTTACCAACAAAGATTTCCGCGATTTCGACCGCGGTGAACATCATCCGAAAAACCTGTATTTCGTCTGCCTGACTCACTTCAGTGAATCTGTTGACGGATATGTGGCTTTTAAACCGGTAAACCTTGACAATACGGTCGGTGAAGTATTAGCACAGCACGGGTTAAAACAGCTTCGCATTGCAGAAACTGAAAAGTATCCGCACGTTACGTTCTTTATGAGCGGCGGCCGCGAAGAAGAATTCCCGGGCGAAGAGCGCATCCTCATTAACTCGCCGAAGGTCGCGACATATGACCTGAAGCCTGAAATGAGCGCGTATGAAGTGAAGGATGCTCTTGTAAAAGAAATCGCGGCTGACAAGCACGACGCGATCATCCTGAACTTTGCAAACCCTGACATGGTCGGCCACTCCGGAATGGTCGAACCGACGATTAAAGCAATTGAAGCAGTGGACGAATGCTTAGGCGAAGTGGTTGACGCCATCATCGCTAAAGGCGGACATGCCATCATTACCGCTGATCACGGTAATGCGGACATTCTGATTACAGAAACAGGCGAACCGCACACTGCCCATACGACAAACCCAGTCCCTGTCATTGTGACGAAAGAAGGCGTGACGCTGCGCGAAGGCGGAATCCTAGGCGACCTCGCACCAACGTTATTAGACCTTCTCGGTGTTGAAAAACCGAAAGAAATGACAGGAACATCTTTAATTCAAAAATAA	MSKKPAALIILDGFGLRNETVGNAVAQAKKPNFDRYWNQYPHQTLTASGEAVGLPEGQMGNSEVGHLNIGAGRIVYQSLTRVNVAIREGEFERNQTFLDAIKNAKDNDKALHLFGLLSDGGVHSHINHLFALLKLAKSEGLTKVYIHGFLDGRDVGPQTAKTYIQQLNEQIEEIGVGEIASISGRYYSMDRDKRWDRVEKAYRAMAYGEGPSYRSAMDVVDDSYANGIHDEFVIPSVITKENGEPVAKIHDGDSVIFYNFRPDRAIQISNTFTNKDFRDFDRGEHHPKNLYFVCLTHFSESVDGYVAFKPVNLDNTVGEVLAQHGLKQLRIAETEKYPHVTFFMSGGREEEFPGEERILINSPKVATYDLKPEMSAYEVKDALVKEIAADKHDAIILNFANPDMVGHSGMVEPTIKAIEAVDECLGEVVDAIIAKGGHAIITADHGNADILITETGEPHTAHTTNPVPVIVTKEGVTLREGGILGDLAPTLLDLLGVEKPKEMTGTSLIQK	PGPT0018040_1756	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
D1-12_03736	1293	eno	COG0148	Enolase	ATGCCATACATTGTTGATGTTTATGCACGCGAAGTCCTTGACTCCCGCGGCAACCCAACAGTTGAAGTTGAAGTATATACAGAAACAGGAGCTTTCGGCCGCGCATTAGTGCCAAGCGGAGCTTCTACAGGTGAATACGAAGCGGTTGAGCTTCGTGACGGCGACAAAGACCGTTACCTTGGAAAAGGCGTGTTAACTGCTGTTAACAACGTAAACGAAATCATTTCTCCAGAGCTTCTCGGCTTTGACGTAACTGAACAAAACGCAATCGATCAGCTTTTAATCGAGCTTGACGGAACTGAAAACAAAGGCAAACTCGGTGCGAACGCAATCCTTGGCGTATCTATGGCTTGTGCGCGCGCAGCTGCTGATTTCTTACAGATTCCTCTTTACCAATACCTTGGAGGATTCAACTCAAAAACGCTTCCTGTACCGATGATGAACATCGTAAACGGCGGAGAGCATGCTGACAACAACGTAGACATTCAAGAATTCATGATTATGCCTGTAGGTGCGCCTAACTTCCGTGAAGCGCTTCGCATGGGCGCTCAAATCTTCCACAGCCTGAAATCCGTTCTTTCTGCTAAAGGAATGAACACAGCTGTAGGTGACGAAGGCGGATTCGCTCCGAACCTTGGTTCTAATGAAGAAGCGCTTCAAACAATCGTTGAAGCAATCGAAAAAGCCGGCTTCAAACCTGGCGAAGAAGTGAAACTTGCTATGGATGCTGCATCTTCTGAGTTCTACAACAAAGAAGACGGCAAATACCATCTGTCTGGCGAAGGCGTTGTGAAAACATCTGCTGAAATGGTTGACTGGTACGAAGAAATGGTTTCTAAATACCCAATCATCTCTATCGAAGACGGACTTGACGAGAACGACTGGGAAGGCCACAAACTTCTTACAGAGCGTCTTGGCAAAAAAGTTCAGCTTGTCGGTGACGACCTTTTCGTTACAAACACGAAAAAGCTTGCTGAAGGTATCAAAAACGGCGTAGGCAACTCTATCCTGATCAAAGTAAACCAAATCGGTACATTGACTGAAACATTCGATGCGATCGAAATGGCGAAACGCGCGGGCTACACTGCCGTTATCTCTCACCGTTCAGGTGAAACTGAAGACAGCACAATCGCTGATATCGCTGTGGCAACTAATGCAGGACAAATCAAAACAGGTGCTCCGTCCCGTACGGACCGTGTTGCGAAATACAACCAGCTTCTTCGCATCGAAGATCAGTTGGCTGAAACTGCTCAATACCACGGTATCAACTCTTTCTATAACTTGAATAAGTAA	MPYIVDVYAREVLDSRGNPTVEVEVYTETGAFGRALVPSGASTGEYEAVELRDGDKDRYLGKGVLTAVNNVNEIISPELLGFDVTEQNAIDQLLIELDGTENKGKLGANAILGVSMACARAAADFLQIPLYQYLGGFNSKTLPVPMMNIVNGGEHADNNVDIQEFMIMPVGAPNFREALRMGAQIFHSLKSVLSAKGMNTAVGDEGGFAPNLGSNEEALQTIVEAIEKAGFKPGEEVKLAMDAASSEFYNKEDGKYHLSGEGVVKTSAEMVDWYEEMVSKYPIISIEDGLDENDWEGHKLLTERLGKKVQLVGDDLFVTNTKKLAEGIKNGVGNSILIKVNQIGTLTETFDAIEMAKRAGYTAVISHRSGETEDSTIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLAETAQYHGINSFYNLNK	PGPT0018050_3059	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
D1-12_03737	462	yvbK		putative N-acetyltransferase YvbK	ATGCAAAAACTGAGTATCCGAAAAGCCGCGGAGCCGGATGAAGCGCTGTATGAACTATTGCTGCTGGCCGATCCGTCGAAAGAGATTGTCGATGATTATCTTGTAAGAGGAGAATGCTATACGGCTTGGACGTCAGACGAGCTTGCAGGGGTCTTCGTCCTTTTGAAAACAAGACCAAAAACAGTAGAAATCGTCAATATTGCGGTGAAAGAATCAATGCAGAACAATGGCATCGGCAGAAAGCTCATAGAAGAGGCCGTGAATAAGGCAAAACAAATGGGAGCGGCGACTATTGAAATTGGAACGGGCAACTCCAGTATAGGCCAGCTTGCCCTTTACCAAAAATGCGGCTTCAGACTTCAAGCCATCGACCATGATTTTTTCATCAGGCATTATGAAGAGGAGATTTTCGAAAACGGGATACAGTGCCGCGACATGGTAAGGCTTTATGCAGATATATAA	MQKLSIRKAAEPDEALYELLLLADPSKEIVDDYLVRGECYTAWTSDELAGVFVLLKTRPKTVEIVNIAVKESMQNNGIGRKLIEEAVNKAKQMGAATIEIGTGNSSIGQLALYQKCGFRLQAIDHDFFIRHYEEEIFENGIQCRDMVRLYADI	PGPT0028630_46	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028630-aac6_I-K18815	NA	NA
D1-12_03738	1779			hypothetical protein	ATGTCTTTTTGTAAGTATTGCGGCCAGCAGAACAACGAAGAGGCGCATTTCTGTAAAGAATGCGGAAAACCGATCGGGAAAGGAAGCCGGCTGGAGCGGCAGGCGGCTGAATCCGCATCACAGCCGAGAAAGCCGATCCCTAAAAAAACGCTCTTCCTATGGGGAGGCATTGCCGCAGCGCTGATCTTATTGATTGCCGCATATAAAACCGGAGCCTGGCTGACATCTGAAAAAAGGCTCACAGATCAATTCGAACAGGCGGTTCATGACGGGGACACGAAAAAGCTCGCAGCCCTGCTCACTCCTTCAGACAAAAAACTGAAGCTGAATGAGACCAATGTCAAACCGCTCCTTGCATACGCAAAGAAACACGATGAACTGCTGGCATCGCTTCGCGGCAATTCATCAGAAAAAGATGCGGTATACGTCAAAAAAGAGGGAAAAACCCTTCTTTTGTTTGACCATTACGAACTGAAAGTCGATCCGGTTTATTTCCGCGTCACAAGCAATTATAAAGGCGCCGATCTTTATATTAACAGCGAGAAAACAGGTACGGTCAAAAAAGCCGATGAAACCCAAATCTTCGGCCCGTATGCACCCGGTGTCTACACGGCGGAAGCCAAGCTTAAAAATGAGACGGTTGACGTTGTCAAAAAGCAAGAGGCAGAGGCGGCCGGCAGCCGGAATGTTGAGTTTGACCTGCCGTTAGACGCCGAGGATGTGACGTTCACTCCGGCAGACAGCTTCAAAAGCGTGAAAGGCGATCTGCTGATAAACGGCAAGTCCGTCCATAAAGATCCGTTTACATCCGTTACATACGGTCCGCTCTTAACTGACGGTTCCATGACAGCCGCCGTGGAGGCTGATTTTCCTTGGGGGAAAATGAAAACTGCCGATGTTCCGATCAACAGTACTGATGTGGACTTAACGCTTATCCCGGATCAAGATACACAACAAACAATCATGGACACGATTGTCAAAACAACGAAGCAGTATACAAAAGCGATGGCAGACGGAAATACTGATCAGATGACCGAGGCTGGTTCCGCCTGGAAAGAGCAGACGAAAGAAGCGGTATCCGGCATGAAGAGTTCCGGCACCTTTTTGAAGGATCAGTATAAAGAGACAAGCTTTGATCTGGATTCATTTGCGATTTCTCAAGAGAACGGCCGCTGGCAAGTAACTGTTACGGGTAAAGAGCTTCATGAGTCTGCTTATTTCGACGGGAATACGAAGCCTGATATGGAAGAGGCTGAGCCGAGCTTTCATTATGTACTCTCATATGATACAAAACATAAAAAATGGGTTTTTGAAAAAGCTGATCCAGCCTCAGATTCTTCTGGGACTAATGTCAAAAAAATAAAAAACGACCAGCCGAAAACCTATACATCAGCATGGGCATCTTCCAAAGGAAACACAGCTTCAGGCAGCGTGACAAACGAGCAAGTCACATCGTTTATGACTGATTACCTGACAAATCAATCAAGCGCCGTCAGCCTTAACAATTTTGCCATCATGGCGGGCAATTTAGAAGAGGGGAGCCCTTTGTATGCTGATCAGCAGAAACTGGTCAAAAAACTGCACAGCGAGGGAACGACCGAAGTATTTAATGAAGTGAATGTCAAAAGCTTTTCACAGAAAGGCTCTCATCTGACGATTCATACGTACGAGGAGTTTTATATTACGAAAGCCGGCGGCAGTCCGAAGCTCAGAACATACAATTGGACGTATGGCGGCGTTGTTAAAGACGGAAGAATTTATTTAACATCCATTCAATAA	MSFCKYCGQQNNEEAHFCKECGKPIGKGSRLERQAAESASQPRKPIPKKTLFLWGGIAAALILLIAAYKTGAWLTSEKRLTDQFEQAVHDGDTKKLAALLTPSDKKLKLNETNVKPLLAYAKKHDELLASLRGNSSEKDAVYVKKEGKTLLLFDHYELKVDPVYFRVTSNYKGADLYINSEKTGTVKKADETQIFGPYAPGVYTAEAKLKNETVDVVKKQEAEAAGSRNVEFDLPLDAEDVTFTPADSFKSVKGDLLINGKSVHKDPFTSVTYGPLLTDGSMTAAVEADFPWGKMKTADVPINSTDVDLTLIPDQDTQQTIMDTIVKTTKQYTKAMADGNTDQMTEAGSAWKEQTKEAVSGMKSSGTFLKDQYKETSFDLDSFAISQENGRWQVTVTGKELHESAYFDGNTKPDMEEAEPSFHYVLSYDTKHKKWVFEKADPASDSSGTNVKKIKNDQPKTYTSAWASSKGNTASGSVTNEQVTSFMTDYLTNQSSAVSLNNFAIMAGNLEEGSPLYADQQKLVKKLHSEGTTEVFNEVNVKSFSQKGSHLTIHTYEEFYITKAGGSPKLRTYNWTYGGVVKDGRIYLTSIQ				NA	NA	NA	NA	NA
D1-12_03739	711			hypothetical protein	ATGTATTGTTCTCAATGCGGCCATCATACTGATGGCGGAAAGTTTTGTGAAAAATGCGGGGCGCCCCAGCCCGGGCAGGGAGGCGCAGGCCAAACGCAGGGCCAGGCCGCTCAGGCCGGCGCCGCCGCTAAGCAGGCTTCAAAGCAATTTGCCTTATTCGTGCTTGATGTGTTAAAGAGACCGTACCAAACATGTAAAACGACAGGCGGCGAACAGCTTGTCAGCAGCATCATCAACATGGTGCTTTTCTGCCTGGTGACGCCGATTATGTTTTATATTCTTCTATCAGACGGCTTTCGTGACGTCAGTTTTACCGCAGTTGTGATCAAGCCGGCGCTTACCTTTGCATTATGCGTTTTCTGCCTGTATCTCTTGATTTTTATCGCTTTGAAGGCCGGCGGCGCGCAGGTGTCATTTAAAGATTCGCTGTCCAGATTCGGGGCCTTTTTGATTCCGTTTACAGCTATTTTGCTTCTTGCCCTCATTTTTATGCTGCTTCATACAACCGTTTGCTTCACCATTCTGGCTGTCGGTCTTTTAGGAGCGGCGTTTGCCGTGCCTCCGCTCATGCTGGCGAGCTATCAGCATCAGCTCACTACTAAGGCGGATATCATTTATTCTGTTATCGTCATCTATTTGATCATTTGCGTAACGTTTCAATTCACGATCAAGCATTATATAAAAGAACTCATGAATTATTTCTTCTTTTAA	MYCSQCGHHTDGGKFCEKCGAPQPGQGGAGQTQGQAAQAGAAAKQASKQFALFVLDVLKRPYQTCKTTGGEQLVSSIINMVLFCLVTPIMFYILLSDGFRDVSFTAVVIKPALTFALCVFCLYLLIFIALKAGGAQVSFKDSLSRFGAFLIPFTAILLLALIFMLLHTTVCFTILAVGLLGAAFAVPPLMLASYQHQLTTKADIIYSVIVIYLIICVTFQFTIKHYIKELMNYFFF				NA	NA	NA	NA	NA
D1-12_03740	633			hypothetical protein	ATGTTTTCATTCATCATTCATGTCTTCATTTCACTGTTTGCAGTCTCCAATCCCATCGGAAACGTGCCGATTTTTCTTTCACTGACGGAAGGGTACTCGGAGAAAGAACGGACAGCGATCGCGCGCAAGGCTTCCGTGCTGTCGTTTATCATCTTGGCGGCTTTTTTAATCTTCGGCCATCTGATCTTTAAACTGTTTGACATTAACATTCATGCCTTACGTATCGCGGGCGGCATTTTTATTTTCGGCATCGCTTATAATCTTCTGAACGCGAAGAAATCTCATGTACAGTCTCTCCATCATGAAGAGAAAGGGGAGAGCAAGGAGAAAGCCGATATATCTGTGACGCCTTTGTCGATTCCGATTATCGCCGGTCCCGGTACGATCGCGACAGTGATGAGTCTGTCGGCCGGCCATGGCGGCATCATCCATTACATCAGCGTGCTTATCGGCATTGCGGCCGTCATCGCGATGACGTTCATCTTCTTTCACTATTCTTCTTTCATCAGCAATAAGCTCGGGAAAACCGAAATGAACGTCATTACCCGACTGATGGGGCTGATTTTGGCGGTGGTGGCGATCGGCATGATCGGCGCCGGTCTGAAAGGCATGTTCCCGATATTGGTTTCCTGA	MFSFIIHVFISLFAVSNPIGNVPIFLSLTEGYSEKERTAIARKASVLSFIILAAFLIFGHLIFKLFDINIHALRIAGGIFIFGIAYNLLNAKKSHVQSLHHEEKGESKEKADISVTPLSIPIIAGPGTIATVMSLSAGHGGIIHYISVLIGIAAVIAMTFIFFHYSSFISNKLGKTEMNVITRLMGLILAVVAIGMIGAGLKGMFPILVS	PGPT0029250_1386	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029250-marC-K05595	NA	NA
D1-12_03741	558	opcR_2	COG1510	HTH-type transcriptional repressor OpcR	GTGGAAAAAAACGCTCTTGATATCATCGGGCATGCTGAAGAGCATCTCATTGAGAGAATCGCCGAGAATATGCATACATTCGGAATGCCGGCCACACTTGGACGTGTGCTCGGTATTATTTATATGAACCGCAAGCCGATGACGTTAAATGAGCTGTCAGAGGCGACCGGGATGAGCAAAACGAGGATGAGCCAGGTGGTCCGCGAAATGACCGATGCCAATCTGGCTGAAAAAGTGTTTGAAAAAGGCGTTCGGAAAGACCTTTACGACGTCGAGCGTGATTATTACCAGACGTTTATCTCCCTGTTTACGGCAAATTGGACAAAGGCGGTCAGCAAAAACAAAATGCTCTATAAAAAGCTGAACCGCGAGCTGACTGAGCTTCTGGAATCGGAAAATCTCAGTCCCGATATTGAAGAAAAAGCCCGCCAGCTTTTGGATGAACTGACGGATTGGCTCCATTATTATGACTGGCTGAGCCGTTTGATAGAATTTTTTGAGAGTGAAGAAGTGTTTCAGCATGTGCCGAAAATAGAAAAAAGCAGCACCCGAAGATAA	MEKNALDIIGHAEEHLIERIAENMHTFGMPATLGRVLGIIYMNRKPMTLNELSEATGMSKTRMSQVVREMTDANLAEKVFEKGVRKDLYDVERDYYQTFISLFTANWTKAVSKNKMLYKKLNRELTELLESENLSPDIEEKARQLLDELTDWLHYYDWLSRLIEFFESEEVFQHVPKIEKSSTRR	PGPT0013690_232	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109	NA	NA
D1-12_03742	1140	opuCA	COG1125	Glycine betaine/carnitine/choline transport ATP-binding protein OpuCA	TTGCTGAGATTAGAAAATGTATCGAAAGTCTATAAAGGCGGAAAAAAAGCTGTCAACAGCATTGATTTAAATATCGAAAAAGGCGAGTTTATTTGTTTTATCGGGCCGAGCGGCTGCGGAAAAACGACGACGATGAAAATGATTAACAGACTGATTGAGCCGTCATCCGGAAAGATTTTTATCGATGGCGAAAACATTATGGAGCAGGACCCGGTGGAGCTGAGACGGAAAATCGGCTACGTCATTCAGCAGATCGGACTTTTCCCTCATATGACCATTCAGCAGAACATTTCCCTCGTGCCGAAACTGCTGAAATGGCCGGAACAAAAGCGGAAGGAACGGGCGCGGGAGCTTTTGAAGCTCGTCGATATGGGCCCGGAATATTTAGACCGCTATCCTCACGAGCTGAGCGGCGGACAGCAGCAGAGAATCGGCGTGCTGCGCGCCCTTGCAGCGGAACCGCCTCTTATTCTTATGGATGAACCGTTCGGAGCGCTTGATCCGATTACGCGGGATTCCCTTCAAGAAGAATTCAAAAAACTGCAAAGAACATTGAATAAAACGATTGTGTTTGTAACACACGATATGGATGAAGCTATTAAGCTGGCTGACCGGATCGTCATTTTAAAAGCGGGAGAGATCGTTCAGGCCGGCACTCCTGATGACATTCTCCGGAATCCGGCTAATGAGTTTGTCGAAGAATTTATCGGCAAAGAACGGTTATTGCAATCAAGACCGGACATTGAACGCGTCGAGCAGATGATGAACAAAAAGCCTGTCACCGTTACGGCGGACAAAACGCTTTCGCAGGCGATACAGGTGATGCGGGAGCACCGTGTCGATTCCCTGCTTGTCGTTGATGACCTGAATGTGCTGCAAGGGTATGTCGATGTCGAGATCATTGATCAGAACCGGAAAAAAGCGAGCCTCGTCGGCGACGTGCTCCGCTCTGATCTGTATATGGTCGAGCAGGGGACACTGCTGCGCGATACCGTACGCAAAATTTTAAAGCGCGGAATGAAATATGTACCCGTCGTTGATGAACAAAGGCATTTAGTCGGAATTGTCACGCGGGCGAGCCTTGTCGACATCGTTTACGATTCAATCTGGGGCGAGGAAGACCAGCTGGTGACAGGCTGA	MLRLENVSKVYKGGKKAVNSIDLNIEKGEFICFIGPSGCGKTTTMKMINRLIEPSSGKIFIDGENIMEQDPVELRRKIGYVIQQIGLFPHMTIQQNISLVPKLLKWPEQKRKERARELLKLVDMGPEYLDRYPHELSGGQQQRIGVLRALAAEPPLILMDEPFGALDPITRDSLQEEFKKLQRTLNKTIVFVTHDMDEAIKLADRIVILKAGEIVQAGTPDDILRNPANEFVEEFIGKERLLQSRPDIERVEQMMNKKPVTVTADKTLSQAIQVMREHRVDSLLVVDDLNVLQGYVDVEIIDQNRKKASLVGDVLRSDLYMVEQGTLLRDTVRKILKRGMKYVPVVDEQRHLVGIVTRASLVDIVYDSIWGEEDQLVTG	PGPT0013585_903	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
D1-12_03743	654	opuCB_2	COG1174	Glycine betaine/carnitine/choline transport system permease protein OpuCB	ATGAATGAAATGATCAAGTTTTTGCAGACGAACGGCGGAGAACTGTTATATAAAACGTGGGAGCATTTATACATTTCGATCATCGCCGTCATATTAGGCATTGTCGTCGCCGTTCCGCTCGGAGTGGCGCTGACGAGAATGAAAAAGGGCGCAGGCGCCGTCATCGGCGCCGTCAACATTGTGCAGACCTTGCCGAGTCTCGCGATACTGGCATTTTTTATCCCGCTGTTAGGCGTGGGAAAGGTGCCCGCGATCGTCGCGCTGTTTTTCTATTCGGTGCTGCCGATTCTCCGGAACACGTATACAGGCATTCAAGGCGTAAACAAAAATCTGCTGGAATCGGGAAAAGGCATCGGGATGACGGTCTGGGAGCAGATCAGGCTTGTGGAACTGCCGCTTGCGGTTCCGGTGATCATGGCGGGCATCCGCACATCCACCATTTATCTGATCGGCTGGGCGACGCTTGCTTCCTTTATCGGGGGCGGCGGGCTCGGAGACTATATTTTTATCGGCCTGAATCTCTATCAGCCTGAATATATTATCGGCGGCGCCGTGCCCGTCACCATTTTAGCCATTATCATTGATTATCTGCTGGCGGCGACGGAACGGAAGGTGACGCCGAAAGGGCTGAAAGGACTGAAGGAAGTATCATAA	MNEMIKFLQTNGGELLYKTWEHLYISIIAVILGIVVAVPLGVALTRMKKGAGAVIGAVNIVQTLPSLAILAFFIPLLGVGKVPAIVALFFYSVLPILRNTYTGIQGVNKNLLESGKGIGMTVWEQIRLVELPLAVPVIMAGIRTSTIYLIGWATLASFIGGGGLGDYIFIGLNLYQPEYIIGGAVPVTILAIIIDYLLAATERKVTPKGLKGLKEVS	PGPT0013581_78	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013581-opuCB|yvbD-NA	NA	NA
D1-12_03744	918	opuCC	COG1732	Glycine betaine/carnitine/choline-binding protein OpuCC	TTGAAAAGAAATCAAAAGAGATGGATGTGCGCACTGGCGCTGTCGGCTGCTCTGCTTCTAGGCGGCTGTTCCCTTCCCGGCCTGAGCGGGGCTTCCGACGATACGATCAAAATCGGGGCGCAAAGCATAACGGAATCAGAAATTATCGCCAATATGATCGCACAGATGATTGAACACAATACAGACTTGAATACGGCATTAATTAAAAACCTCGGATCGAACTATGTCCAGCAGCAGGCGATGCTCGGCGGTGAAATCGATATCGCCGCGACGCGCTACTCGGGAACGGATTTAACGAGCACCCTCGGCATGGAAGCGGAAAAAGACCCGAAAAAAGCATTATCCATCGTCCAGAAGGAATTTGAGAAACGCTTCCATTACAAATGGTTTGATTCTTACGGATTTGAGAACACATACGCTTTTACCGTCACGAAAGAGCTTGCGGAAAAAGACCATTTAGACAAAGTGTCCGACATTAAGAAGCATGCCGATCAATTTAAGCTCGGTGTAGACAATGCGTGGCTGAAAAGAAAAGGTGACGGCTATAAAGGCTTTACCGACACGTACGGCTTTGAATTCGGCACAACCTATCCGATGCAGATCGGACTTGTATACGATGCCGTGAAAAACGGGAAAATGGATGCCGTCCTCGCCTATTCAACGGACGGACGGATCAAAGCGTACGATCTGAAAATTTTAAAAGACGACAAGCAGTTTTTCCCGCCGTATGACTGTTCGCCGGTCATTCCCGACAGCGTGCTGAAGCAGCATCCTGAACTGAAGGGCATTGTGAATAAACTGGTCGGCAAAATTGATACGGAAACGATGCAGGGATTGAATTACGAGGTGGACGGCAAGCTGAAAGAACCGTCCGTCGTCGCTAAAGAATTTTTGGAGAAACATCATTATTTTGAATAA	MKRNQKRWMCALALSAALLLGGCSLPGLSGASDDTIKIGAQSITESEIIANMIAQMIEHNTDLNTALIKNLGSNYVQQQAMLGGEIDIAATRYSGTDLTSTLGMEAEKDPKKALSIVQKEFEKRFHYKWFDSYGFENTYAFTVTKELAEKDHLDKVSDIKKHADQFKLGVDNAWLKRKGDGYKGFTDTYGFEFGTTYPMQIGLVYDAVKNGKMDAVLAYSTDGRIKAYDLKILKDDKQFFPPYDCSPVIPDSVLKQHPELKGIVNKLVGKIDTETMQGLNYEVDGKLKEPSVVAKEFLEKHHYFE	PGPT0013582_89	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013582-opuCC|yvbC-NA	NA	NA
D1-12_03745	675	opuCD_2	COG1174	Glycine betaine/carnitine/choline transport system permease protein OpuCD	ATGGAAGTGCTGCAGCAGCTCGGCACTTATTATTCTCAAAACGGCGCCTATGTGCTTCAGGAGTTTTACCGCCATTTTCTCATGTCGGTATACGGCGTTTTATTTGCGGCGATCGTCGGGGTTCCGCTCGGCATCTTCATTGCCAGGTACAGAACATTAAGCGGCTGGGTATTCGCGGTGACAAACGTGATTCAGACCGTGCCGGCGCTTGCGATGCTTGCGGTGCTGATGCTCGTCATGGGGCTCGGCGCCAATACGGTGATATTGTCGCTGTTTTTATATTCGCTTCTTCCGATCATCCGGAATACGTACACGGGAATCGCCAGCATTGAACACGCTTATCTTGAATCGGGAAAAGCGATGGGCATGACCAAATTTCAGGTGCTCCGCATGGTGGAGCTGCCGCTTGCGCTTTCCGTCATCATGGCGGGGCTGCGGACGGCGCTCGTCATCGCGATCGGCATTACGGCAATCGGTACGTTTGTCGGCGCGGGCGGACTCGGTGACATCATTGTCAGGGGCTCAAACGCCACGAACGGAACCGCGATTATTTTGGCCGGCGCCATTCCGACAGCGCTGATGGCCGTTATCGCAGATCTTGTGATGGCATGGCTGGAGCGGGCGCTGAGTCCGGTGAGAAAGAAAAAACGAACCAAAGCGCCGAATGCGGCATGA	MEVLQQLGTYYSQNGAYVLQEFYRHFLMSVYGVLFAAIVGVPLGIFIARYRTLSGWVFAVTNVIQTVPALAMLAVLMLVMGLGANTVILSLFLYSLLPIIRNTYTGIASIEHAYLESGKAMGMTKFQVLRMVELPLALSVIMAGLRTALVIAIGITAIGTFVGAGGLGDIIVRGSNATNGTAIILAGAIPTALMAVIADLVMAWLERALSPVRKKKRTKAPNAA	PGPT0013583_36	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013583-opuCD|osmY-NA	NA	NA
D1-12_03746	828	tagG	COG1682	Teichoic acid translocation permease protein TagG	ATGAATGCTGTAGTGAAAATACTAAAAGAGCAAGTAACATCATTTCCTTTAATCATGCGTTTAGCAGCCTACGAAACAAAGTCTAAATATCAAATGAATTATTTAGGCGTTTTATGGCAGTTTTTAAATCCTCTTATTCAAATGCTTGCTTATTGGTTTGTTTTTGGATTGGGGATCAGAAAAGGGGGGCCGATGGTTACAGGTGCCGGAGAAGTGCCTTTTATTTTGTGGATGCTTGCAGGTCTGATACCGTGGTTTTTTATAAGTCCGACAATATTAGACGGATCAAATAGTGTATTTAAAAGAATTAAAATGGTGGCTAAAATGAATTTTCCAATCAGTTCTTTGCCGTCTGTCGCCATCGCTTCTAATTTGTTCAGTTATGCAATTATGATGGTGATCTATATCATTGCATTGCTCGCCAGCGGAATCTATCCGAGCCTTCATTGGCTTCAATATATTTATTATTTTGTTTGTCTGATGGCTTTCTTATTTTCGTTCAGCTTGTTTAATTCGACAATCAGCGTGCTGATCCGAGACTATCAGTTTCTTCTGCAGGCAGTGACAAGACTTTTGTTTTTCCTCCTGCCGGTTTTTTGGGATATTAACTCAAAGCTGGGGGCAGCTCACCCGGAATTGGTTCCTGTCTTGAAGCTGAATCCGCTTTTTTATATAATTGACGGTTTCAGGAACAGCTTATTAGATGGTCAGTGGTTCTTTCAAGATGTGAAATATACACTGTATTTCTGGCTGTTCACCTTATTTTTGTTAACAGTCGGTTCTGTTTTACACATGAAATTCAGAGATAAGTTTATTGACTTTCTTTAA	MNAVVKILKEQVTSFPLIMRLAAYETKSKYQMNYLGVLWQFLNPLIQMLAYWFVFGLGIRKGGPMVTGAGEVPFILWMLAGLIPWFFISPTILDGSNSVFKRIKMVAKMNFPISSLPSVAIASNLFSYAIMMVIYIIALLASGIYPSLHWLQYIYYFVCLMAFLFSFSLFNSTISVLIRDYQFLLQAVTRLLFFLLPVFWDINSKLGAAHPELVPVLKLNPLFYIIDGFRNSLLDGQWFFQDVKYTLYFWLFTLFLLTVGSVLHMKFRDKFIDFL	PGPT0023465_396	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023465-tagG-K09692	NA	NA
D1-12_03747	1554	tagH	COG1134	Teichoic acids export ATP-binding protein TagH	ATGAAACTAAAGGTTTCGTTTCGAAATGTTTCAAAGCAGTATCATCTTTATGAAAAACAGTCGGATAAAATAAAAGGTTTGTTTTTCCCTGCTAAAGATAACGGTTTTTTCGCTGTGCGAAATGTCTCCTTTGATGTATATGAAGGGGAGACAATCGGCTTTGTGGGAATTAACGGATCGGGTAAATCGACGATGTCCAATCTGCTTGCAAAAGTGATACCGCCGACAAGCGGTGAAATTGAAATGAACGGCCAGCCGTCGCTGATTGCGATTGCAGCCGGTTTAAATAATGCTTTGACGGGCCGGGATAACATAAGGCTTAAATGTTTAATGATGGGGCTGACAAATAAAGAAATCGATGAGATGTATGAAAGCATAGTTGAGTTTGCTGAGATCGGTGATTTTATTAATCAGCCGGTGAAAAACTATTCAAGCGGTATGAAGTCCCGCCTTGGTTTTGCTATTTCCGTGCATATAGATCCGGATATTTTAATCATTGATGAAGCCCTCTCCGTAGGAGACCAGACATTTTATCAGAAGTGTGTTGACCGGATCCAGGAATTTAAAGAACAAGGAAAAACCATTTTCTTTGTGAGTCATTCCATTGGTCAGATTGAAAAAATGTGTGACCGTGTGGCTTGGATGCACTATGGTGAATTAAGAATGTTCGACGACACTGAAACCGTCGTCAAAGAGTACAAAGCATTTATCGATTGGTTTAATAAACTCTCCAAAAAAGACAAAGAGAAATATAAGAAAGATCAGGTTGCTGAACGTAAAAAAGAATCGCCTGAGCAGCAGGCAATTGTGAAGGAACAAAAGAAAAATAGTAAATCCGGATCAGCAGTCAATGCTATTCAAATTGCTATTTTATCAATACTGCTTGTGTTTATGGCAGGAACCATGTTTTTCAGCGCCCCGCTTCGTACTATCGCTTCCTTCGGTAAGATCGGATATCAAGATGATGTTAACAAGGGGAAAGACCAGATATTGGTGAACAAAAAAGGTTTCGTATTAAAAGACCAGACGCAGGCCTATAAAGATACAGAGCTGAAAAAAAAGGCGGACTTCCTTATTCCGTTCGGTGCTCAGGTGAAAGTGGTAACTGAAGACAGGCAATCAGCAAAGATTGAGGTCAATAATAAAACGTACTATATCCCGGAAAATGCAGCGGTCTATAACGAAAAAAGTTCAAATGTGAAAGCATCCGCTTTTTCTCCGTATGTAAAGCAGGGTGATATTGATCAACTTGTGTCACATCTCGGTGAGCGCGTTAATGATATTCAGCAAGAAATGAAAGAGCTGCAGAAAGAAGTAGTGAACGGCCGGGAGATGCTATATCTTAAAAATGGCGAGGTCAGTTATGTAGTGAATAATGGCAAGGCCGAGCAGCTTGTTTTCAGAGGAATATCAGCTATTACTCCGGCAGATCTATCCCTGAATAATAAAGATGTTATAAAGGGCAGCAGTGATCGGCAATTTATTGCGGCAAATGATAAATACGCTTTTATTATCAATAACGATAATCAAACTTTAACCTGCATTATAAAATAA	MKLKVSFRNVSKQYHLYEKQSDKIKGLFFPAKDNGFFAVRNVSFDVYEGETIGFVGINGSGKSTMSNLLAKVIPPTSGEIEMNGQPSLIAIAAGLNNALTGRDNIRLKCLMMGLTNKEIDEMYESIVEFAEIGDFINQPVKNYSSGMKSRLGFAISVHIDPDILIIDEALSVGDQTFYQKCVDRIQEFKEQGKTIFFVSHSIGQIEKMCDRVAWMHYGELRMFDDTETVVKEYKAFIDWFNKLSKKDKEKYKKDQVAERKKESPEQQAIVKEQKKNSKSGSAVNAIQIAILSILLVFMAGTMFFSAPLRTIASFGKIGYQDDVNKGKDQILVNKKGFVLKDQTQAYKDTELKKKADFLIPFGAQVKVVTEDRQSAKIEVNNKTYYIPENAAVYNEKSSNVKASAFSPYVKQGDIDQLVSHLGERVNDIQQEMKELQKEVVNGREMLYLKNGEVSYVVNNGKAEQLVFRGISAITPADLSLNNKDVIKGSSDRQFIAANDKYAFIINNDNQTLTCIIK	PGPT0023470_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023470-tagH-K09693	NA	NA
D1-12_03748	879	gtaB_2	COG1210	UTP--glucose-1-phosphate uridylyltransferase	GTGAAAAAAGTACGCAAAGCCATAATTCCCGCTGCAGGTTTAGGGACACGCTTTCTGCCGGCAACAAAAGCCATGCCGAAAGAGATGCTTCCGATTGTAGACAAACCAACGATTCAATACATAATTGAAGAAGCGGTTGAAGCGGGTATTGAAGACATTATTATTGTTACGGGAAAAAGCAAGAGAGCCATTGAAGACCATTTTGATTACTCACCAGAGCTGGAAAGAAACCTAGAAGAAAAAGGGAAAGTCGAACTCTTAGAAAAAGTCCGAAAAGCCTCTAATCTTGCTGACATTCATTATATCCGGCAAAAGGAGCCAAAAGGTCTTGGACATGCCGTTTGGTGCGCACGTAATTTTATCGGTGACGAGCCATTTGCCGTCCTTCTCGGAGATGATATCGTTCAAGCTGAAAAACCAGGGCTTCGCCAGCTGATGGATGAATATGAAAAAACACTTTCTTCTATTATAGGGGTTCAGCAAGTGCCTGAAGAAGAAACCCATCGTTACGGAATTATTGATCCGCTGACAAGTGAAGGCCGCAGATATCAGGTGAAGAACTTTGTTGAGAAGCCGGCTCAAGGGACTGCTCCGTCCAATCTGGCAATACTGGGACGTTATGTCTTCACTCCTGAAATCTTCATGTATCTTGAAGAACAGCAAATTGGTGCCGGAGGGGAAATTCAGCTTACAGACGCTATTCAAAAGCTGAATGAAATCCAGCGGGTTTTTGCTTACGATTTTGAGGGCAAAAGATATGATGTTGGTGAAAAACTAGGTTTTATTACCACTACATTAGAATTTGCGATGCAGGATCGTGAACTGCGTGATCACCTTATTCCTTTCATGGAAGACCTGTTAAGAAAAGATGAATTATAA	MKKVRKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIIEEAVEAGIEDIIIVTGKSKRAIEDHFDYSPELERNLEEKGKVELLEKVRKASNLADIHYIRQKEPKGLGHAVWCARNFIGDEPFAVLLGDDIVQAEKPGLRQLMDEYEKTLSSIIGVQQVPEEETHRYGIIDPLTSEGRRYQVKNFVEKPAQGTAPSNLAILGRYVFTPEIFMYLEEQQIGAGGEIQLTDAIQKLNEIQRVFAYDFEGKRYDVGEKLGFITTTLEFAMQDRELRDHLIPFMEDLLRKDEL	PGPT0014875_4279	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
D1-12_03749	1140	mnaA	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGAAAAAACTTAAAGTCATGACGGTATTCGGTACAAGGCCTGAAGCGATAAAAATGGCGCCCCTTGTGCTCGAATTAAAAAAACGCCCTGAAATAGAATCATATGTCACTGTGACTGCCCAGCATAGACAAATGCTGGATCAAGTTCTTCACGCATTTCAAATTAAGCCTGACTTTGATTTGAATATTATGAAAGAACGGCAGACGCTGGCTGAAATTACTTCAAACGCCCTGGTAAAACTGGACGGCCTGTTTAAGGAAATCAAACCTGATATTGTTCTTGTTCATGGTGACACGACAACAACCTTTGCCGGAAGCCTTGCAGCTTTCTATCACCAGATTGCAGTCGGACATGTGGAGGCCGGATTGCGCACGGGCAACAAATATTCACCTTTTCCGGAAGAATTGAATCGCCAAATGACTGGCTCGCTTGCTGATATCCACTTTGCTCCGACTCAGCAAGCGAAGCAAAATTTGTTGAATGAGAATAAAAAAGAAAGCTCCATTTTTGTTACCGGAAATACAGCGATTGATGCTTTGCATACAACGGTTCACTCTGAATACTCCCATAATATTATTGAAAAAATCGGCAATGACAGAATGATTTTACTGACGGCGCATCGCCGGGAAAATTTAGGTCAGCCGATGGAACTTATGTTTAAAGCCATCCGCCGGATCGCAGATGAATTCAGCGATGTGCAAGTCGTTTATCCGGTACACCTGAATCCCGCTGTACGTGAAGCTGCTGATAAGCACTTTGGTGATTCGGAGCGCGTCCATTTAATTGAACCTCTTGAAGTGATTGATTTCCACAATTTTGCGTCAAGGTCGTATTTTATTTTAACTGATTCAGGAGGCGTTCAGGAGGAAGCTCCTTCCTTAGGAAAGCCGGTTCTCGTATTGCGCGATACGACTGAACGGCCCGAAGGAGTGGAGGCGGGCACTCTGAAATTAGCCGGTACTGATGAAGAAACGATTTATCAGATGGCAAAACAGCTGCTGACAGACAAGCAGGAATATGAAAAAATGTCGCGGGCATCTAATCCCTATGGAGATGGCATGGCGTCAAGAAGGATTGCTGAGGGGCTGCTCTATCAATTCGGACTGCGTTCAGAGCGTCCTGATTCTTTCGAGGTGTAA	MKKLKVMTVFGTRPEAIKMAPLVLELKKRPEIESYVTVTAQHRQMLDQVLHAFQIKPDFDLNIMKERQTLAEITSNALVKLDGLFKEIKPDIVLVHGDTTTTFAGSLAAFYHQIAVGHVEAGLRTGNKYSPFPEELNRQMTGSLADIHFAPTQQAKQNLLNENKKESSIFVTGNTAIDALHTTVHSEYSHNIIEKIGNDRMILLTAHRRENLGQPMELMFKAIRRIADEFSDVQVVYPVHLNPAVREAADKHFGDSERVHLIEPLEVIDFHNFASRSYFILTDSGGVQEEAPSLGKPVLVLRDTTERPEGVEAGTLKLAGTDEETIYQMAKQLLTDKQEYEKMSRASNPYGDGMASRRIAEGLLYQFGLRSERPDSFEV	PGPT0018905_1194	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
D1-12_03750	921	tagU_1	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAGAAGTAAACGAAGAAAAAAGAAAAAGACTTTGTTACTGGTCTTTCTGACAATCATCGGCATTTTTATTTTAGTTTCCGGCGGCTTTACATACTATCTATGGCATAAAGCGGCATCAACCGTCGCCAGTATTCACGAAGACATTAACAAATCGAATAAACGCAGCACTGAGGTGAAAATAAATAAACAAGAACCGTTCTCTGTCTTGATCATGGGAGTGGACGAACGTAAAAATGATAAAGGAAGAGCCGACTCGCTCATTTACCTTACTGTCAATCCAAAGACAAAAACAACGGAAATGGTCAGTATTCCGCGTGACACTTATACAAAAATTATCGGCAAAGGCACGATGGATAAAATCAATCATTCATATGCATTTGGCGGTACGCAAATGGCAGTAGATACTGTGGAGAATTTCTTGAACCTTCCTGTAGATTATTTCATTAAAGTAAATATGGAAAGCTTTAAAGATGTCGTTGACACTTTAGGAGGCATCACTGTCAACAGTACATTCGCTTTCAACTATGACGGTTATTACTTCAGCAAAGGCAATATTTCATTAAACGGTGATGAAGCCCTCGCTTACTCACGAATGAGAAAAGAAGATCCTAAAGGGGATTTCGGGCGCCAAGACAGACAGCGGCAGATTATAGAGGGTATTATCAATAAAGGGGCAAGTATCTCTTCTGTCACGAAATTCGGAGATATGTTTAAAGTAGTAGAGAACAATGTAAAAACGAATTTAACCTTTGATGATATGTGGGATATTCAATCCGGCTATAAAGATGCCCGCAAGAAAGTGATTCAGCATGAGCTGAAGGGTGACGGCACTAAAATCAACGGAATTTACTATTATAAAGCAGATGAAAACGGTCTTGCTTCCATTACTAAAGAATTGAGAAGTAGCCTCAACCTTTAA	MRSKRRKKKKTLLLVFLTIIGIFILVSGGFTYYLWHKAASTVASIHEDINKSNKRSTEVKINKQEPFSVLIMGVDERKNDKGRADSLIYLTVNPKTKTTEMVSIPRDTYTKIIGKGTMDKINHSYAFGGTQMAVDTVENFLNLPVDYFIKVNMESFKDVVDTLGGITVNSTFAFNYDGYYFSKGNISLNGDEALAYSRMRKEDPKGDFGRQDRQRQIIEGIINKGASISSVTKFGDMFKVVENNVKTNLTFDDMWDIQSGYKDARKKVIQHELKGDGTKINGIYYYKADENGLASITKELRSSLNL	PGPT0023440_3315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
D1-12_03751	303	lytA		Membrane-bound protein LytA	ATGAAAAAAATTTTTGGATGTTTGTTCTTTATACTGCTTCTCGCCGGGTGCGGAGTTAATAATGAAAAATCTCAGGGCGAGGATGCGGGTGAAAAGCTGGTAACGAAAGAGGGCACTTATGTAGGACTGGCGGATACTCATACAATAGAAGTCACTGTGGATCATGAACCGGTAAGTTTTGATATCACTGAAGAATCAGCCGACGATGTTAAGAATTTGGATAATGGCGACAAAGTGACAGTAAAATATCAAAAAAATAGCAAGGGACAGCTTATGCTGAAGGATATCGAACCGGCAAATTAA	MKKIFGCLFFILLLAGCGVNNEKSQGEDAGEKLVTKEGTYVGLADTHTIEVTVDHEPVSFDITEESADDVKNLDNGDKVTVKYQKNSKGQLMLKDIEPAN				NA	NA	NA	NA	NA
D1-12_03752	2118	lytB	COG2247	Amidase enhancer	TTGAAAACTTGCAAACATTTAATAGGACTGACTCTAGCTGTTGTTATATTGCTTATACCGGCGGTTTCCTTTGCGGCAGATTCAAATATATCTGTTAAGCTGACAAATTACATAGGAAATCAATCAAGCATTTCTTTATCTCCAACCGGTTTTTATCAGGTTACCGGTGATCATGTGTCTGTAACCAACCGCTTTTCGGGGGCATCCCGATATGAGACGGCGGCTCTTGCATCTGACTCCCAATGGACGAATCCTAAAACCGTTATTCTCGTCAATCGTGATGTTTTTATCGATGCATTACCAGTAATTCCTCTGGCAAAAAAATTGGATGCGCCGGTGTTATTTACACAGCCGGACACTTTAACAAAAACAACAGAAAAACAGATTGCTAAGTTCAATCCCGATAATATTCTGGTCATCGGCGGGGCTAAAAGTATTTCAAAGGACGTTGAAAATAAGCTTAAGTCTTATGGAGCTGTGAAAAGAATCAGCGGGAAAAACCGTTATGTTCTGTCTGAAAACATTGCAAAACAAATGGGAAATTACGATAAAGCAATTGTTGTAACAGGTAATGTTTTTCAAGACGCTTTAGCCATTGCTCCGTATGCCGCTGCAAACGGCTATCCCATTCTACTGACTGAAAAGGATAAATTGCCGGATTATGATCTTCCGAAGCAAGTCTTAATTATCGGGAGTTCGTTCAGCGTGAGTGATGCTGTAGAAAATCAAATTAAAAAAACTTCAACTGTGCAGCGAATACCCGGATCAACACGGTATGAATTGACTGCTAATATCATTAATCAGCTAAAGTTGAAGGCTGATAAAGTCGTCATGACTAATGGAACGAAATATGCTGATGTCCTGGTTGGCGCTTCTTTAGCCGCCAAAAAAAACAGCCAAATATTATATATCAAACAAGATGATGTTCCTTCAGCAGCTAAATCAGTGACAAAAGAGAAGGCGTCGTATGCATACGACTTTATCGGAAGTACAAGCTCCATTTCCGCCGGGGTTGAAAATGAGCTTTCAAACCATTTTTACTTAGCCGGCGGAAGCACATACAACTTACAAATCAATAATGGAAAGTTAAATCTTAATCATATTAAAACATATGGGAATTCATTGAGAATAAAACCGGAAACGTACAATGAATCCAACCGGATCAGTTTGAATGGAAAAGAATACTTGGGGACGGTTAATTTTTCAATAGAGTCAGGCAAATATATCAGACCTGTAAATGAAAACATTCCTTTTGAAGATTATTTAAAAGGTGTCGTACCGAATGAAATGCCTGCAAGCTGGTCTCTTGAAGCGCTGAAGGCGCAAACGGTTGCGGCAAGAACATACTCAATTACGAAGACCGGGAGCACTGTTGCTGATACTACTGCTTTTCAAGTATATGGCGGGTACAGCTGGAATGCCAATACAACGAAAGCGGTGCAGCAGACAAAAAATAAGGTGCTGACTTACAAAGGGAATTTAATTACGGCGGCTTATTCATCGAGTAATGGCGGTTATACAGAATCAAGCGACGAAGTATGGGGTTCAAGCGTTCCTTATTTAACTGCGAAAAAAGACACAAAAGATCCTCAAACTGCCTGGAGTCTGACGCTTTCTAAGCAGCAAATCAATCCGGATTCAATTGATGTAAATAAGCCGGCCTCTTGGTTTGCTTCAAAGAATGAGACAAATGCAGCTCAACTGAGCGGTATTAAAAATTGGATTCTGAAAAATAAGGAAACAGGCGCTTCCGCCATTAAAATTTTAAAAATAGAAGATCTTACATTCAGCGGAACAACTAAAGGACAGCGGGCTAAAACAGCAACTTTGAAAGTGAATTACGCTGTCAAACAAAACAATGGAAATTACGAGGCAAATAAAACATCTGCAATGACTGTGCCGGTGACTGAATTGAGAACGATGATCGGAGCCTCCGTGTTTAAAAGCACTTATGTGACCGTCAGTCAAAACAGTTCTGCTTTTACAATCAGCGGAAAGGGATATGGACACGGCATCGGCATGAGCCAATACGGCGCTAAGGCAAGAGCGGATTCAGGAGATTCATATAGTTCAATTTTAAAATTTTATTATCCGGGCACTACATTGACTGACTATTAA	MKTCKHLIGLTLAVVILLIPAVSFAADSNISVKLTNYIGNQSSISLSPTGFYQVTGDHVSVTNRFSGASRYETAALASDSQWTNPKTVILVNRDVFIDALPVIPLAKKLDAPVLFTQPDTLTKTTEKQIAKFNPDNILVIGGAKSISKDVENKLKSYGAVKRISGKNRYVLSENIAKQMGNYDKAIVVTGNVFQDALAIAPYAAANGYPILLTEKDKLPDYDLPKQVLIIGSSFSVSDAVENQIKKTSTVQRIPGSTRYELTANIINQLKLKADKVVMTNGTKYADVLVGASLAAKKNSQILYIKQDDVPSAAKSVTKEKASYAYDFIGSTSSISAGVENELSNHFYLAGGSTYNLQINNGKLNLNHIKTYGNSLRIKPETYNESNRISLNGKEYLGTVNFSIESGKYIRPVNENIPFEDYLKGVVPNEMPASWSLEALKAQTVAARTYSITKTGSTVADTTAFQVYGGYSWNANTTKAVQQTKNKVLTYKGNLITAAYSSSNGGYTESSDEVWGSSVPYLTAKKDTKDPQTAWSLTLSKQQINPDSIDVNKPASWFASKNETNAAQLSGIKNWILKNKETGASAIKILKIEDLTFSGTTKGQRAKTATLKVNYAVKQNNGNYEANKTSAMTVPVTELRTMIGASVFKSTYVTVSQNSSAFTISGKGYGHGIGMSQYGAKARADSGDSYSSILKFYYPGTTLTDY				NA	NA	NA	NA	NA
D1-12_03753	1491	lytC_2	COG0860	N-acetylmuramoyl-L-alanine amidase LytC	TTGCGTTCTTATCTTAAAGTCCTGATCATTTCTATGCTGGGACTCATCTTATTTATCCCGTCAGCCTTAGCTGACAACGCGGTTAAAAGAGTAGGGGGAAGCAACAGGTACGGTACGGCTGCTGCGCTTTCCAAGCAGGTGTATTCAACAGCGAGTACAGCTGTTGTCGTCGGCGGAGGTTCGTATGCAGATGCTATATCCGCTGCCCCGATGGCATATCAGAAAAATGCGCCGCTGCTTTACACAAACAAAGATAATTTGTCATCAGAGACGAAAACCCGTCTGAAAGAATTAAAAACAAAAACGGTCATTATCGTCGGCGGAACGCCTGCTGTGTCAGCAAATACAGCAAATCAAATCAAAGCGCTCGGCATCAGTGTTAAGAGAATTTCAGGAAGCAACCGATATGATACGGCAGCTAAAGTAGCAAAGGAAATGCCTGCCGCCTCAAAAGCCGTTATTGCAAACGGATTTTTATATGCTGACGCAATAGCTGCAATTCCATATGCCGCAAAGAACGGATATCCAATTTTGTTTACGAATAAAACAGCTATCAACAGTGCCACAGCAGGAGCTATAAAAAGCAAGGGGATCAAAAGCTCTATTGTAGCAGGGGGAACCGGGAGCATAAATGCCTCTGTCTTTAAGAAACTCCCTTCTCCAAAAAGAATCAGCGGAAGCAATCGATACGAACTTGCGGCCAATCTAGTTCAGCAATTAAATCTTCCGACAGGCAATGTATTCGTCAGCAATGGTTTCGGGTATGCAGACTCCATAGCGGGTGCTGCTCTTGCTGCAAAGAAAAAACAATCTATCATTCTGACAAACGGCAGCAATCTTTCAAAAGAAACAAGAGTCTTTATCGGGAGAAAAAAATTAAGCAGCTTTACCATTATTGGGAATACCCCGGCTGTCAGCTCAAATGTTGCAAACCAGCTGAAAAATCCGGCAGCGGGAAAAACAATTTTAATTGATCCGGGTCATGGAGGGAAAGATTCCGGTTCTATAGGTAACGGCATTTTAGAAAAAGACGTCAATCTTGATATCGCTAAAAGGCTGAATACAAAATTAAATGCTTCAGGTGCTCTGCCGGTCATGACGAGGTCTAATGATACATTTTATTCCTTGCAGGAAAGGGTAAATAAAGGTGCAACCGCAGGAGCGGATTTATTCATCAGCGTTCACGGCAATGCAAATGATGCAACTTCTGCAAACGGAACTGAGACCTACTATGATGAGACATATCAAGCCGCTGCAAGCAAACGCCTGGCAGGACAAATTCAGCCTAAGGTTGTTAATGCATTAAAAACAAGAGACAGAGCGGTTAAAACAGCGCCATTCTATGTCATTAAGTATTCCAAAATGCCTAGTGTATTAGTAGAGACGGCTTTTATTACGAATCCGTCTGATGCAAGTAAATTAAAGCAAGCATCCTATAAGGAAAAGGCAGCTGCAGCCATCAATGATGGAATCGTGTCTTATTATAAGTAA	MRSYLKVLIISMLGLILFIPSALADNAVKRVGGSNRYGTAAALSKQVYSTASTAVVVGGGSYADAISAAPMAYQKNAPLLYTNKDNLSSETKTRLKELKTKTVIIVGGTPAVSANTANQIKALGISVKRISGSNRYDTAAKVAKEMPAASKAVIANGFLYADAIAAIPYAAKNGYPILFTNKTAINSATAGAIKSKGIKSSIVAGGTGSINASVFKKLPSPKRISGSNRYELAANLVQQLNLPTGNVFVSNGFGYADSIAGAALAAKKKQSIILTNGSNLSKETRVFIGRKKLSSFTIIGNTPAVSSNVANQLKNPAAGKTILIDPGHGGKDSGSIGNGILEKDVNLDIAKRLNTKLNASGALPVMTRSNDTFYSLQERVNKGATAGADLFISVHGNANDATSANGTETYYDETYQAAASKRLAGQIQPKVVNALKTRDRAVKTAPFYVIKYSKMPSVLVETAFITNPSDASKLKQASYKEKAAAAINDGIVSYYK	PGPT0024160_1483	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
D1-12_03754	660			hypothetical protein	GTGGGAGCAGAGAAAAGCATGAATGTAAATAATAACTATGCAGTGCGGCAGGGGACTTCCGCTGCCGTTACGGAAAGAACGGCCCGTTATTTGGCTTTTAAGCGATTCATGGACATTGTGTTTGCGCTTGCGGGGCTTTTGGCGGCGCTCCCGGTGATGGGCCTGTTCTCCATACTGATTCGTTTGGAGTCGCCCGGCCCGGCTTTTTATAAGCAGGAGCGGGTAGGCAAAGACGGGAAGCCGTTTTATTTGTATAAGCTCCGCTCTATGAAAATAGATGCTGAAAAATCGGGGGCGGTCTGGGCGCTGAAAAAGGATCCCCGCGTGACAAAGGTCGGCGCTTTTATCAGAAGGACCCGTATTGATGAGCTGCCGCAGCTGGTAAATGTGCTTCGGGGAGAAATGAGCCTGATCGGCCCGCGTCCCGAGCGGCCCGTGTTTACGGAACAGTTTCAGGCTGAGATTCCGGGGTTTACGGAGCGGCTGGCCGTTAAGCCGGGATTAAGCGGGTGGGCGCAGGTCAACGGGGGATATGACATGACACCGAGGGAAAAACTGATGTTTGACTTATACTATATCCGCAACCTGACCTTTTCATTGGAACTGAAGATTATGCTCAAAACGTGCAAAGTGATCTGGACCGGTGACGGGGCGCGATAA	MGAEKSMNVNNNYAVRQGTSAAVTERTARYLAFKRFMDIVFALAGLLAALPVMGLFSILIRLESPGPAFYKQERVGKDGKPFYLYKLRSMKIDAEKSGAVWALKKDPRVTKVGAFIRRTRIDELPQLVNVLRGEMSLIGPRPERPVFTEQFQAEIPGFTERLAVKPGLSGWAQVNGGYDMTPREKLMFDLYYIRNLTFSLELKIMLKTCKVIWTGDGAR	PGPT0015235_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015235-tuaA-NA	NA	NA
D1-12_03755	1449	tuaB	COG2244	Teichuronic acid biosynthesis protein TuaB	ATGCCTAGTATTACAAATCAAATCTTGAGCGGCGCCAAATGGACAAGTATTTCGACAGCGTGTATTACGGTCATTCAAATCATCCAATTCGCCCTGCTCGGGCGGGTCATGTCACTGGCTGAATTCGGTCTTGTCGGCATGATCACAACGGTAGTGGTGTTTGCCCAAATTGCGCTTGATATGGGTTTTGGCGCCGCGCTCATTCAAAAAGATCATGTGACTGATAAACAGATGTCTTCCTTGTACTGGCTGAATATCATAACGGGGCTTGCGCTGTTTGCGCTGCTGTTTTTCAGCAGTCCGCTCATCGCCGATTTTTATCGGCGGGAGGAGCTTGTCTATTTAATCCGCGTGCTGGCCGTCATGTTTTTAATCGCGCCGATCGGTCAGCAATACCAGTATATGCTGCAAAAAGCGCTGGCATTTAACACGTTAAGCAAGATTGAAATCTTTTCAAATGTGCTGTCCTTCGTGTATTTGGCGGCCGCGGTTTTTTATACGGACCCGATTCTCGCCTATGTGATTTCTCAGGTGCTGCTGCAATCGTCAAAAGGCATTCTGTACTGGATGTCCTGCAGAAAAACATGGAGACCGGCGTTGGTTTTTGATCTGAAAGGAATGAAAGGCTTCTTTTCTTTCGGGGCCTTTCAGCTGTCTTCCCGGCTTGTGAACCGGCTCGGAGCGAATATTGATATGATTCTGATCGGCAGTTTTATCGGCGCCGAGGCGCTCGGCATTTACAATCTGGCCTACCAGATTGTCACGCTTCCGGTATTAAAAATTAATCCGATCATTACGAGAGTTGCGTTTCCCGTCTTTGCGAAAAACAAGCATGAAAACAGCGTTATCAGAGAAGGATTTCTTAATATGACCAAAATACTGGCGCTGATATCCTTTCCGCTTTTGCTCGGTTTGGTTTCAGTGTCGGATGCATTCGTGGCTTCGGTATTCGGAGAAAAATGGCTGGCGGCTGTCCCGGTTTTAAACGTTCTCGCCATCGTCGGGATTTTAAGGGTCCTGATGAATCCGAACGGATCTGTGCTGCTCGCAAAAGGGCGGGCCGATCTGGCGTTTTATTGGGACGCCGGGGTGATGCTGCTGTATGGTGCATCTTTGTACGCCGCCGTGCTGTCCGGAAATCTCTTGACGGTAGCCTGGACGTACGCTTTCATCAGCATCCTGAATTTCCTGATCGGGCGCTGGCTGTTGGCATATGTCATTAAGCTGCGTCTGTCGGCTTACTTCAAAGCCGTGGCCAAACCGTTTCTCCTTACGGCGGCAATGGGTGTCATCGCCTTTACAGCCAGCTTCGGCACGGAGCGGATCAGCCTTGATGTCAAGCTGCGTCTGGCAATCTCCGTAGTCTGCGGCGCGTTGTGTTATTTATTCCTGTTAGGAAAAGCTTATCCGCATATGAAAAGTAAATTAAGAAAAGGACGTTTGCTATGA	MPSITNQILSGAKWTSISTACITVIQIIQFALLGRVMSLAEFGLVGMITTVVVFAQIALDMGFGAALIQKDHVTDKQMSSLYWLNIITGLALFALLFFSSPLIADFYRREELVYLIRVLAVMFLIAPIGQQYQYMLQKALAFNTLSKIEIFSNVLSFVYLAAAVFYTDPILAYVISQVLLQSSKGILYWMSCRKTWRPALVFDLKGMKGFFSFGAFQLSSRLVNRLGANIDMILIGSFIGAEALGIYNLAYQIVTLPVLKINPIITRVAFPVFAKNKHENSVIREGFLNMTKILALISFPLLLGLVSVSDAFVASVFGEKWLAAVPVLNVLAIVGILRVLMNPNGSVLLAKGRADLAFYWDAGVMLLYGASLYAAVLSGNLLTVAWTYAFISILNFLIGRWLLAYVIKLRLSAYFKAVAKPFLLTAAMGVIAFTASFGTERISLDVKLRLAISVVCGALCYLFLLGKAYPHMKSKLRKGRLL	PGPT0015230_120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_TRANSPORT,PGPT0015230-tuaB-K16694	NA	NA
D1-12_03756	1197	tuaC	COG0438	Putative teichuronic acid biosynthesis glycosyltransferase TuaC	ATGAAGGTATTGTGGATGACAAGTGTATATCCGAGCAGTGAGAAGCCGGGAGAAGGGGTTTTTCATGAGACGCAGGCCCAAGAACTGAGAAAGCTTGGCGCGGAGATGACTGTCATTTGTCCGCGGCCGAAACTCGCCGCGCCATTCCGGGTGCTGAAAAAGACGTATCGGCAAAAGGATATAAGGCCGGAGCATGAATGGCGGAAAGGCGTGTCCGTCCACCGGCCGTTTTATCAGGCGGTTCCCGGGCAGCTGAAATGGGCGCAGCCGCATAAAAGAATGGCGGCATCGGTTCTTTCCGCGATTAGAAATCATGGCCTGAAGCCCGATCTGATTCACGCGCATTTCGCCATGCCGTCAGGCGGAGCGGCCGCCATTGTGTCGAAGGCTCTAGGCATTCCGTATGTACTGACCTTGCATGGCAGTGATGTCAATGTCTATCCGCATTACAGCAAAAGCGCTCATCGCGCATTTACATTTGCGGTGCGGGAAGCAGCCGATATTTACGCTGTGAGCGGCAGTCTGCGGGAACAAATGAAAAAGCTCATCGAAGCGGAGTGCAGCGTGCTTCCGATCGGCATCACGCTTGACGCCTTCCGAGAAAGGAACGAGACGAAAGAAGCCGTCAGAAAACGGCTCGGCCTTCCTCCGGATAAAAAACTGATCGTGTTCATCGGCAGGCTTGTCAAAGAGAAAGGTGTTTTCGACTTATCAAAAGCCGTTCAGTCATTGGATGAAAATTATGAAGCTGTCTTTGTCGGTGACGGTCCCGCCGCATCTTCATTGCGGGAAGCCGCTCATATCGTCACGGGGCAAGTGCCGAACGACAAGGTACAGGACTATCTGCTGGCCTCGGATGTAATGGCGCTGCCGTCCTACAGCGAAGGCATGCCGACTGTGGTCATTGAGGCGCTCGCTCTGAAGGTGCCGGTAATCTGCACCGATGTCGGAGGATTGGCTTCTTTATTCGGGAAACACCGGGGGTTGCTGATCAAGCCGGGTTCACCTGAGACGCTGGCAGAATCGATTCTGCAATATGACGGAGGAGAGGCTTGGACGCCGCAAACAGCCGAGGAGCTTTATCAAACCGTCCGCACGTATTTTGACGCAAGCCAAAACGCGAAAGCACTGAAAGAGAAATACCGATCCGTAATGAACCGGGCCGGGCAAGAGGAGAACCTTTCGAAAGAGGGATGA	MKVLWMTSVYPSSEKPGEGVFHETQAQELRKLGAEMTVICPRPKLAAPFRVLKKTYRQKDIRPEHEWRKGVSVHRPFYQAVPGQLKWAQPHKRMAASVLSAIRNHGLKPDLIHAHFAMPSGGAAAIVSKALGIPYVLTLHGSDVNVYPHYSKSAHRAFTFAVREAADIYAVSGSLREQMKKLIEAECSVLPIGITLDAFRERNETKEAVRKRLGLPPDKKLIVFIGRLVKEKGVFDLSKAVQSLDENYEAVFVGDGPAASSLREAAHIVTGQVPNDKVQDYLLASDVMALPSYSEGMPTVVIEALALKVPVICTDVGGLASLFGKHRGLLIKPGSPETLAESILQYDGGEAWTPQTAEELYQTVRTYFDASQNAKALKEKYRSVMNRAGQEENLSKEG	PGPT0015210_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015210-tuaC-K16697	NA	NA
D1-12_03757	1341	tuaD	COG1004	UDP-glucose 6-dehydrogenase TuaD	GTGAAAAAAATCGCTGTATTAGGAACAGGGTATGTAGGTCTTGTATCTGGAACTTGTTTTGCGGAAATCGGCCATCATGTGACTTGCTGTGACATCAATGAAGCGAAAATCAGAAGCTTGCAAAACGGAGTCATCCCGATATATGAACCGGGGCTTGAGGAATTAGCCGAAAAAAATGTCAGTGCCGGGCGCTTATCCTTTACGGCCGATATTGAGCAGGCTGTGAAAGCCGCTGATATCATCTATATCGCCGTCGGTACGCCGATGTCAAAGACGGGTGAAGCCGATCTGACCTACATTAAGGCAGCGGCGCAAACAATCGGAGAACAGCTGAACGGATACAAAATCATTGTCACCAAAAGCACTGTTCCGGTCGGGACGGGAAAGCTCGTTTACCAAATCGTCAGCGAAGCGTCAAAGGGAAAATATCCGTTTGATGTCGCGTCAAATCCTGAATTCCTCCGCGAAGGTTCGGCGGTGCGGGATACGATGCAGATGGAGCGGGCGGTCATTGGCGCCACAAGCGAACATGCCGCTTCGGTCATTGAAGAGCTTCATAAGCCGTTCCGTACGAAGGTCGTAAAGACCAATCTTGAAAGCGCGGAAATGATTAAGTATGCCGCAAATGCTTTTTTAGCCGCCAAAATATCTTTTATTAATGATATCGCCAATATTTGCGAACGTGTCGGGGCGGACATTTCCCACGTGTCAGAAGGCGTCGGTCTTGACAGCCGGATCGGGAATAAATTTCTGCAGGCGGGCATCGGATTCGGCGGATCCTGCTTTCCGAAGGATACAACGGCTTTATTGCATATCGCAAACGCCGCCGGCTATCCGTTTCAAATGATGGAAGCCGTCATTGAAACCAATCAGAAGCAGCGGGTCCGTATTACGGAAAAATTGAACCGCGCCATCGGGCCCTTAAAAGGGAAAACCGTGGCCGTACTGGGGCTGGCCTTTAAACCGCACACAAATGACGTCCGCTCCGCCCCGGCTCTTGATATCATCACAAGTCTTAAAGAGCAGGACGCTCACGTGAAAGCGTATGATCCGATCGCGATTCCCGAAGCGTCAGCGATATTAGGAGACGGCGGCATTGAGTATCACACAGAGCTGTACAGTGCTATCAAAAACGCGGACGCATGCCTGATTACAACAGATTGGCCGGAAGTCAAGGAGATGGATCTTCAGAGAGTGAAGCAGCTGCTCAAACAGCCGGTCATCATTGACGGCAGAAATATGTTTCCGCTGGAGTATATGAGGGTTTCAGGATTCACTTATCATTCCGTCGGACGTCCGGCGGTTCATGCCGATCGGCAAATAAAAGAACTGGCAAGATAG	MKKIAVLGTGYVGLVSGTCFAEIGHHVTCCDINEAKIRSLQNGVIPIYEPGLEELAEKNVSAGRLSFTADIEQAVKAADIIYIAVGTPMSKTGEADLTYIKAAAQTIGEQLNGYKIIVTKSTVPVGTGKLVYQIVSEASKGKYPFDVASNPEFLREGSAVRDTMQMERAVIGATSEHAASVIEELHKPFRTKVVKTNLESAEMIKYAANAFLAAKISFINDIANICERVGADISHVSEGVGLDSRIGNKFLQAGIGFGGSCFPKDTTALLHIANAAGYPFQMMEAVIETNQKQRVRITEKLNRAIGPLKGKTVAVLGLAFKPHTNDVRSAPALDIITSLKEQDAHVKAYDPIAIPEASAILGDGGIEYHTELYSAIKNADACLITTDWPEVKEMDLQRVKQLLKQPVIIDGRNMFPLEYMRVSGFTYHSVGRPAVHADRQIKELAR	PGPT0017855_2357	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
D1-12_03758	1419	tuaE		Teichuronic acid biosynthesis protein TuaE	ATGCTGGAGGCGGTCAGAGCGGATGCCGGCTTCGGAAAAATCACCGTGCTGCTGCTTGCCGCCATGATCGGCATTGCCGGGCTTGCTTTGCTATCCGCCTTTACAACAAACGGTCAGATGTTTATGGGGCTCATTTACATACTGATCGCGTGTACATTTTTAAACCAGGCCTTCTTTGCGGTTCATCTCGGATTTTTCAGCTTATTTATATACCGGTTGTTATTAATCGGAGCGGGCGCCCTTCACATCGCCGGCATCCTGACAAACCGTCATCATATTGACAGATGGAATCGGGTGAATGTAAAAGGGGTTCTGATGTTTTTCGCCTTATGGTTTACATACGGTCTCCTATCGTTATTGTGGGCAAAATCCGTGACGTACGGGATTAAATATTTAGCTTTAATGGGAATGGGCATGTTTTTGATTTATCTTATTGTCATGTTCATTCAGCGCTTTGATCAGCTGATGGTTTTTTACGGCATATGGCTTGTGATGACCATTTTTGTGATGGCGATCGGCTTTTACAACCATTTTACACACCACCATCTGCCGAGCTCCACGCTTTATAACGGCCCGCAGTACAAACAGCATTATCCGACGTCCGTTTTCTTTAATCAAAATGATTTCGCGACGTTTTTGTGCATCAGTTTCTTTCTGTATGCGGCGGCGGTGAAAAATATGAAAAACGGCTATGTGAAGGCCGTCAGCCTGCTCTTTGCGATCTGCGCTTTGTATTTAATCATTTTGACCGGTTCGCGCGCGAGTCTGCTGGGCATATGCGCGGGGGCGGCTGTATACGTCTTCATCCTGCTGCCTTCCCTGTTGAAAAAACTCGCGCTGTACGTTGCGGGAGCGGGCGCGGCGCTGTTTGCGGTTTTATTTGCGGGCCGTATCACCAATGCCGTCTTGAATCTGTTTTCAGCTCCGCAGGCGATGCCGGGACAGCAACCGCTTCCTTCCAACCTCGCGAGGGCGAATCTTTTAAAGAACGCCTTTCACTATGTGATTGATTCCTGGGGGTTCGGAGTGGGTGCCGGAAACGTCTCTTACTATTTAAAAGCGGAGCCCGTTTATGATACGGGCGGCGTAGTTGAGGTGCACAACTGGCTCGTCGAGATTATGGCGAACTTCGGCGTGCTTACGATGCTCGGTTACCTGACAGTCTATTTGTTCCTTTTTTGGACACTTTATAAATGTCATGAAAGAAAATCGGAAAATCAGTCAAGACTGGTCACAGAAGGACTTATCACGGCGATGGCCGGTTTTTTGGTAAGCAGCATCAGCCCAAGCTCCGTATCAAATTTATTTTTCCACTGGGTATTTCTCTCGCTCGTGATCGCGGCGGTCAATATATTGAGGCGTTTACAAAAGGAGCCTGCCGTCACGGCGTACTATGAAAAACAGGGAGATGCGAGATGA	MLEAVRADAGFGKITVLLLAAMIGIAGLALLSAFTTNGQMFMGLIYILIACTFLNQAFFAVHLGFFSLFIYRLLLIGAGALHIAGILTNRHHIDRWNRVNVKGVLMFFALWFTYGLLSLLWAKSVTYGIKYLALMGMGMFLIYLIVMFIQRFDQLMVFYGIWLVMTIFVMAIGFYNHFTHHHLPSSTLYNGPQYKQHYPTSVFFNQNDFATFLCISFFLYAAAVKNMKNGYVKAVSLLFAICALYLIILTGSRASLLGICAGAAVYVFILLPSLLKKLALYVAGAGAALFAVLFAGRITNAVLNLFSAPQAMPGQQPLPSNLARANLLKNAFHYVIDSWGFGVGAGNVSYYLKAEPVYDTGGVVEVHNWLVEIMANFGVLTMLGYLTVYLFLFWTLYKCHERKSENQSRLVTEGLITAMAGFLVSSISPSSVSNLFFHWVFLSLVIAAVNILRRLQKEPAVTAYYEKQGDAR	PGPT0015215_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015215-tuaE-K16705	NA	NA
D1-12_03759	681	tuaF		Teichuronic acid biosynthesis protein TuaF	ATGAAGGATATGTTGACAAGAATAACCCGGCGTATCAAAAAGAATATCATTTGGATCATTGCGCTGCCCGTTGTGTTAGGGGCGGCGGGATATGTATTGCCGTCAAAAATCAGCGGAAACAGCAGTTTTACATCAGAAGCCGCGATCGCCGCGGGAAATTATGATCATCCGCTTTATAACAATACAAAAGAAATCCCGCTCCTTTTGACGAGCGATGCCTTTTTAAAGCAGGCTTTGCCTGATAAAACAGACGAAGAAAGAGCGGCCGTGAAAAGTAAACTGACTGTCGAAACACAATCAGATTCATTGATCACGGTCAGCTACAGCGGCCAAAACAAACAGGAGACCGAATCGGTGTTTCAAGCCGTCATAAAAACTTTTCTGAAGAATGACCAGGACCTGTTTGAAAAACGGGCAAAAGTAGTGCGGCAGAGTATTGCTGCGCTTGAAGGAGAAACCGTCAGCGCGGACGCCAAAGTGGATAAGGAACGATTTTTATACGAATTGAAAAATACGCAGCTGAACCTGAAAGCGGCCGGCGTCATCAATTCAGAGCCGATGAATGAAACGGCGGGACAAGGCATGCCGCCGAAAAAGAAAGCGGTTCTGGGCGTTTTAATCGGCATTGCAGTTGCATTTATGTTCATTGTCATTCCTGAGTTTTTTAGAGAGTCCTTGTAA	MKDMLTRITRRIKKNIIWIIALPVVLGAAGYVLPSKISGNSSFTSEAAIAAGNYDHPLYNNTKEIPLLLTSDAFLKQALPDKTDEERAAVKSKLTVETQSDSLITVSYSGQNKQETESVFQAVIKTFLKNDQDLFEKRAKVVRQSIAALEGETVSADAKVDKERFLYELKNTQLNLKAAGVINSEPMNETAGQGMPPKKKAVLGVLIGIAVAFMFIVIPEFFRESL	PGPT0015220_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015220-tuaF-K16706	NA	NA
D1-12_03760	759	tuaG	COG0463	Putative teichuronic acid biosynthesis glycosyltransferase TuaG	ATGACAAACTGGAAACCTTTCGTATCTGTCATTACACCGTCTTATAACGCAAGTGAATATATCGAAGACACGATTCAGTCTGTTTTACATCAAAGCCACCCGCATTGGGAAATGATTATCGCGGATGATTGTTCAACGGACGGAACGAGAGATATTTTACGGCAATATGAACAAAAGGATGAGCGGATCCGCGTCGTTTATTTAGAGAAAAACGGGGGAGCCGCGGCTGCCAGAAATACAGCCCTTAAACATGCCAAGGGCCGTTATGTCGCATTTCTGGACAGCGATGACAGATGGAAAAAGGAAAAGCTTCAAAAACAGCTTGCGTTTATGGCAGAGCGGTCCTGCGCTTTTTCATTTACGGGCTACAGCGTCATGGAGCAGGACGGAACGCCGACGGACAAAACGATTCAAGCCCCTGAAAGCCTGTCATATGATGAAGCTTTAAAAAACACGATTATCGGCTGTTTAACGGTCATGATTGACAGAGAGCAGACAGGGCAGATTCAAATGCCTGATATCAGAACGCGGCAGGATTTAGCGACATGGCTTTCCTTGCTGAAAAGGGGATTTACGGCTTACGGCCTGAATGAGTGCCTTTCAGAATACAGGCTTGTGCAGAATTCGATTTCAAGCAACAAGTGGAAAGCCGCAAAAAAAACGTGGTTTGTTTATAGAGAAATTGAGCGCCTGCATTTTATCAAGGCTTCGTGGTGTTTTATGCAATATGCGAAAAACGCGGTCTTGAAAAGACTGTAG	MTNWKPFVSVITPSYNASEYIEDTIQSVLHQSHPHWEMIIADDCSTDGTRDILRQYEQKDERIRVVYLEKNGGAAAARNTALKHAKGRYVAFLDSDDRWKKEKLQKQLAFMAERSCAFSFTGYSVMEQDGTPTDKTIQAPESLSYDEALKNTIIGCLTVMIDREQTGQIQMPDIRTRQDLATWLSLLKRGFTAYGLNECLSEYRLVQNSISSNKWKAAKKTWFVYREIERLHFIKASWCFMQYAKNAVLKRL	PGPT0015205_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015205-tuaG|ggaB-K16698	NA	NA
D1-12_03761	1197	tuaH		Putative teichuronic acid biosynthesis glycosyltransferase TuaH	ATGAAGGTGGAACCGATTATTCACGTAATCGTCGGAGCGGCGGAATGGGGGCATGACCGGCTGAGATACAGACGGCACCGGCTGGCTGAATTTCTCGCCCGGCAAAAAGAAACGAAAAGCGTCATTTGGGTATGCCCGTCTCCGCGAGCCAATGATGGTCAGATGGCCGGGATCGCCGAGGGAATCCGGCAGTTCACTGTAAAGGATCTCATGCAGAAAAAAGCTTTCCGCTTCGGCAGGTATACAGACATGTGCTACAGGCATAAGCTTTCACCATTGTTGAACATGCTGAAGGAAGAAGGAGAAGGGGCCCGCTGCTGCTTATGGTACACCTTCCCCGGTTTTCCGCTGCTGGCAGATCTGTTTCCTTGGGATGAAGTGATTTACGATTGCAGTGATCTGTGGGCCGCTCCGATCAGCGGCCGGTCCGGAGTTCTGTCAAATGTTAGAAGAAACATCATTAAACAAGCGGAAATGAGAATCATACAGCGTGCCGATTCCATTACGTGTACATCTGACTGTCTGCACCAAGAGGTCGGAAAAAAGCTGGAGAATCCGCACCAGAAAGTGTTCACCATTGAAAACGGAGTGGAATATGACCTGTTTTCACGGGAAAATAAACAGCCGGATGAAGACATTTTACGGGGACGGAACGGAACGGTTCTCGGTTTTATCGGCGGAATCAAACCGAAGCTCGATTTTGCGCTTATGGCGGAAACGGCAAATTTGAGGCCTGACTGGACGATTTTATTGGTAGGCCCTAACACGGCTCAGGACGATCCGGATTTCAAGTCGCTTCTGGAGCGTCCGAATGTCATCTGGACGGGACCTGCCGCGCCGAATGAAGTGCCGTCCTATATGCAGCTTGTCGACATCGGCATCATGCCGTATAAAAATTCACCTTATAATGATGCGGTATTTCCGCTCAAGCTTTTTGAATTTTTAGCCGCCGGGAAACCGGTTGTCGGCTGCAACCTTTCTTCTACGTCAAAAATCAAAAGGCCTTTCGTCTATGAATACGTTGAAGGCAGTGACCCCGCAGATTTCATCGCGGCCTGCGACGCGCTTCTGGCAGCGGACCGCAGCGGATCATATGAGGCTTTGCGCCGTGAATTGGCCCGGAGACGGGATTGGAATGTTTTATTCGGCCGAATGCTCGAATGCACGGGTATATTGAAAAATGCGCAATCCCATTAA	MKVEPIIHVIVGAAEWGHDRLRYRRHRLAEFLARQKETKSVIWVCPSPRANDGQMAGIAEGIRQFTVKDLMQKKAFRFGRYTDMCYRHKLSPLLNMLKEEGEGARCCLWYTFPGFPLLADLFPWDEVIYDCSDLWAAPISGRSGVLSNVRRNIIKQAEMRIIQRADSITCTSDCLHQEVGKKLENPHQKVFTIENGVEYDLFSRENKQPDEDILRGRNGTVLGFIGGIKPKLDFALMAETANLRPDWTILLVGPNTAQDDPDFKSLLERPNVIWTGPAAPNEVPSYMQLVDIGIMPYKNSPYNDAVFPLKLFEFLAAGKPVVGCNLSSTSKIKRPFVYEYVEGSDPADFIAACDALLAADRSGSYEALRRELARRRDWNVLFGRMLECTGILKNAQSH	PGPT0015225_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015225-tuaH-K16699	NA	NA
D1-12_03762	1077	tagO	COG0472	putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase	ATGCTTGACGAACGCATGTTTCGCATAGTTGTTGCGTTTTTTGTCTCTCTGCTAACGGTTTTAATCCTAACTCCTATCGTAAAAAAAATTGCGATCAAAATAGGTGCAGTTGACCAGCCCAGCAACCGAAAAGTACATGATAAAATAATGCCCCGTATGGGCGGCTTGGCCATCTTTATCGGCGTAGCGGCGGGTGTGCTCGCGGCCGGCATATATAATGAAACGAAAATGACCGCCATCACAGTGGGTGCGTTTATTATTGTTATTTTAGGAATCCTTGATGATAAATACCAATTAAGCGCAAAGGTAAAGTTTTTCGTCCAGCTGGCCGTGGCCATTATGATTGTGAGCACGGGACTGAAAATGGACTTTTTCTCCGTACCGTTTTTAACGGAACGTTTAGAATTGGGATGGGTCGCTTACCCGCTGACTGTGTTATGGATCGTCGGTATTACGAACGCGATGAACCTGATTGACGGTTTGGACGGACTCGCTGCCGGCCTGTCGGTCATCGGACTCTCCACTATCGCCGTTATGGCGTTGTCCGGAGGGAAAATCCTTATTCTGTCACTTTCACTTGTCGTGATAGGAAGCACACTCGGATTTTTATTTTATAATTTTCACCCGGCAAAGATATTTATGGGAGATACCGGATCGCTCTTTCTCGGATACGTCATCTCAGTACTCTCATTATTAGGTCTTTATAAAAGTGTTACTTTATTCAGTATCATCATTCCGATCATCATTTTGGGCGTGCCGATTTTTGATACGACATTCGCCGTCATCAGGCGGATTTTAAACAAACAGCCGATCTCAGCGCCTGATAAGTCACATATACACCACCGGCTGATGGCCTTCGGGCTGTCACACCGCACGGCTGTCATTATCATTTATTTAATCGGCTTTATTTTCAGCGTCAGTGCCATCCTGCTGAAAAGCGCGACCATTTGGCTTTCGCTGTTTATTATTTTTGTATTGATTGTATTTATGCAAATCATAGCAGAGGTCACAGGGTTAGTAAATGAACAATTTAAACCATTTACCAAGTTTTACAAAAGATTGGTAAAGAAAAATTAA	MLDERMFRIVVAFFVSLLTVLILTPIVKKIAIKIGAVDQPSNRKVHDKIMPRMGGLAIFIGVAAGVLAAGIYNETKMTAITVGAFIIVILGILDDKYQLSAKVKFFVQLAVAIMIVSTGLKMDFFSVPFLTERLELGWVAYPLTVLWIVGITNAMNLIDGLDGLAAGLSVIGLSTIAVMALSGGKILILSLSLVVIGSTLGFLFYNFHPAKIFMGDTGSLFLGYVISVLSLLGLYKSVTLFSIIIPIIILGVPIFDTTFAVIRRILNKQPISAPDKSHIHHRLMAFGLSHRTAVIIIYLIGFIFSVSAILLKSATIWLSLFIIFVLIVFMQIIAEVTGLVNEQFKPFTKFYKRLVKKN	PGPT0015240_1846	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015240-wecA|tagO|rfe-K02851	NA	NA
D1-12_03763	1215	tagU_2		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGGCTGAACGTGTAAGAGTGCGTGTTCGAAAGAAAAAGAAAAGCAAACGAAAGATCATATTCAAACGGATTTTGCTGCTGCTTACCCTCGTTTTGTTAGTCGCTGCCGGGTTTGGCGGATACAAAGTATACAAAACGATCAATGCGGCAGATAATGCATATGATGCCCTTTCCCGCGGAGACAAATCAAAATTGCGGGATAAAGTCATCAATATGAAGAAAAAACCGTTCTCCATTTTGTTTATGGGGATCGAAAATTATGCCACCAGCGGAAAAGGCGGACGATCAGATTCCCTTATTGTCGTTACCCTTGATCCGAGAAATAAAACAATGAAAATGCTGAGTATTCCGCGTGATACGCGGGTGACGCTTGCCGGCGACACAACCGGTAAAAAATCAAAAATCAATGCGGCTTTTGCTAAGGGCGGAGCGGATGAAACCGTGTCAACCGTAGAAGATTTATTAGACATACCGATTGATAAATATGTCACTGTCGACTTCAATGGCTTTAAGGATGTTATTGATGAGGTAGGCGGGGTCGATGTAAAAGTGCCTTTTGACTTCGACGAGATGAGTGACGTCAGTAAAAAGAAACGGATCTATTTCAAGAAAGGAAACATGCATTTGAACGGTGAGCAGGCTTTGGCTTATGCGCGGATGAGAAAACAGGATAAGCGCGGAGACTTCGGCCGGAATGACCGCCAAAAGCAAATCCTAAATGCACTGATCGACCAAATGTCCAGAGCTGGAAATATTGCTAAAATCGATAAAATCGCTGAAACAGCGAGCAACAACGTCCAAACGAATATCCGAATCACTGAAGGACTCGCTCTTCAGCAGATTTACAGCGGCTTTACCAGCAAGAAGATTGATACACTGACCATAACAGGATCAGATTTATATTTAGGCGGAACTGCAACTACGCGCGGAACATATTATTTCCAACCAGAACCGACCAATCTCGAAAAAATACGGCAGGAATTGCAGAAACATTTGGATTACCCATCCGGAAGCAGCACGGCGTCCGATCCTGCTTCTGACAGCACCGGAACGGACAGTACGACTGATTCGACTTCCGACAGCACGGGAACAGACGGCACAACCGATTCAACTTCCGGCGGCACAGGAACAGGCGGCACAACCGACTCAACCAACGGTACTGCTGGTGCAAATGGTACGGACAGCACACAGTCCGGCGGCACAACAGGCTATTAA	MAERVRVRVRKKKKSKRKIIFKRILLLLTLVLLVAAGFGGYKVYKTINAADNAYDALSRGDKSKLRDKVINMKKKPFSILFMGIENYATSGKGGRSDSLIVVTLDPRNKTMKMLSIPRDTRVTLAGDTTGKKSKINAAFAKGGADETVSTVEDLLDIPIDKYVTVDFNGFKDVIDEVGGVDVKVPFDFDEMSDVSKKKRIYFKKGNMHLNGEQALAYARMRKQDKRGDFGRNDRQKQILNALIDQMSRAGNIAKIDKIAETASNNVQTNIRITEGLALQQIYSGFTSKKIDTLTITGSDLYLGGTATTRGTYYFQPEPTNLEKIRQELQKHLDYPSGSSTASDPASDSTGTDSTTDSTSDSTGTDGTTDSTSGGTGTGGTTDSTNGTAGANGTDSTQSGGTTGY	PGPT0023440_1170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
D1-12_03764	648			hypothetical protein	ATGCTGCACAGCTATTTAACAGTTAAAGAAACGGGTGAACATGAGATTGTGATTGAAAAATCGCGTTTTATCTGTCACCTGAGCCGTGCTGCTTCTGAAGAGGAAGCGCAGGAATTTATACAAAAGATAAAAAAACAGCACTGGAATGCGACTCATAACTGCTCAGCTTATCTGATCGGCGAAACCGACCATATACAAAAGGCGAATGATGACGGAGAACCAAGCGGCACAGCCGGCGTCCCCATGCTGGAAGTGCTGAAAAAACGCGGTCTGAAAGATACCTGCGCGGTGGTTACCCGGTATTTCGGCGGAATAAAGCTCGGTGCAGGCGGATTGATTCGTGCATATGGGAAGTCAGTGTCTGAAGGCTTAAATCATATAGGAGTTACGGAGCGGAAGCTGATGCGGATTATGCATACATCAGCGGATTATACGTGGCTCGGCAAGATAGAGAACGAACTGAGAGAATCAGTTTTTTTACTGAAAGATATCCATTATGCGGATCATGTCGAATTTGAAACGTACGTTGAAGAAAAAGACAAAGAAGCATTTATCAAATGGATGACAGAACTGACGAACGGCAAGAGTAAGAATACAGAGGGAGAACTGACGTATTTAGAAACAGACGTCAGCCCTAAAGGAGACTAA	MLHSYLTVKETGEHEIVIEKSRFICHLSRAASEEEAQEFIQKIKKQHWNATHNCSAYLIGETDHIQKANDDGEPSGTAGVPMLEVLKKRGLKDTCAVVTRYFGGIKLGAGGLIRAYGKSVSEGLNHIGVTERKLMRIMHTSADYTWLGKIENELRESVFLLKDIHYADHVEFETYVEEKDKEAFIKWMTELTNGKSKNTEGELTYLETDVSPKGD				NA	NA	NA	NA	NA
D1-12_03765	1164	degS		Signal transduction histidine-protein kinase/phosphatase DegS	ATGAATAAATCGAAGATGGACTCCAAAGTTTTGGATTCTATACTTATGAAAATGCTGAAAACCGTGGACGGGAGTAAGGACGAGGTTTTTCAAATCGGAGAGCAGTCGCGCCAGCAATATGAGCAGCTGGTTGAAGAACTCAAACAGATCAAACAGCAGGTCTACGAAGTCATTGAGCTGGGCGACAAACTTGAAGTTCATACGCGGCACGCACGAAACCGCTTGTCTGAAGTAAGCAGAAATTTCCATAAGTTCAGCGAAGAAGAAATTCGCAACGCCTATGAAAAGGCGCACAAACTTCAAGTGGAACTGACGATGATCCAACAGCGTGAAAAGCAGCTGCGGGAGCGCAGAGATGATTTAGAACGCCGGCTTTTAGGTCTTCAGGAAATCATTGAACGGTCAGAATCGTTGGTCAGCCAAATAACCGTCGTTCTGAATTACCTGAATCAAGACCTTCGCCAAGTAGGGCTTCTTCTTGCCGATGCGCAGGCTAAACAAGATTTCGGTTTAAGAATCATTGAAGCCCAAGAGGAAGAAAGAAAAAGAGTTTCCAGAGAAATTCATGACGGTCCCGCGCAAATGCTGGCAAATGTCATGATGAGATCTGAATTAATTGAACGGATCTTCCGCGACCGCGGCACGGAGGACGGATTTCAGGAAATCAGAAATCTACGGCAGAATGTGCGGAATGCCCTTTACGAAGTCAGAAGGATTATATATGATTTAAGACCGATGGCATTGGACGATCTCGGGCTGATTCCGACACTGAGAAAATATCTTTATACAACTGAAGAATACAACGGAAAGGTGAAAATACATTTTCAGTGCATCGGAGACACGGAGAACCAAAGGCTTGCCCCGCAATTTGAAGTGGCGCTTTTCCGTCTCGCTCAGGAAGCCGTCACAAATGCACTCAAGCATTCAGAATCAGAGGAAATTACAGTAAAAGTGGAAGTAACCGCTGATTTTGTCGTTCTCATCATTAAGGACAATGGAAAAGGCTTTGATATTAAGGATGCTAAACAAAAGAAAAACAAGTCATTCGGCTTGCTGGGAATGAAAGAAAGAGTAGATCTGCTTGAAGGAACGATAACGATAGACTCTAAAATAGGTCTTGGGACATTTATCATGATTAAGGTTCCGTTATCTCTCGGCCTATAA	MNKSKMDSKVLDSILMKMLKTVDGSKDEVFQIGEQSRQQYEQLVEELKQIKQQVYEVIELGDKLEVHTRHARNRLSEVSRNFHKFSEEEIRNAYEKAHKLQVELTMIQQREKQLRERRDDLERRLLGLQEIIERSESLVSQITVVLNYLNQDLRQVGLLLADAQAKQDFGLRIIEAQEEERKRVSREIHDGPAQMLANVMMRSELIERIFRDRGTEDGFQEIRNLRQNVRNALYEVRRIIYDLRPMALDDLGLIPTLRKYLYTTEEYNGKVKIHFQCIGDTENQRLAPQFEVALFRLAQEAVTNALKHSESEEITVKVEVTADFVVLIIKDNGKGFDIKDAKQKKNKSFGLLGMKERVDLLEGTITIDSKIGLGTFIMIKVPLSLGL	PGPT0014285_156	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014285-degS-K07777	NA	NA
D1-12_03766	690	degU_2	COG2197	Transcriptional regulatory protein DegU	GTGACTAAAGTAAATATTGTTATTATCGACGACCATCAACTATTCCGTGAGGGTGTAAAAAGAATATTGGATTTTGAACCTACCTTTGAAGTGGTAGCAGAAGGTGACGATGGAGATGAGGCGGCTCGAATCGTCGAGCATTATCATCCCGATGTTGTCATAATGGACATCAATATGCCGAATGTAAATGGAGTAGAGGCTACTAAACAGCTTGTTGAGCTGTACCCTGAATCTAAGGTGATTATCCTTTCCATCCATGATGATGAAAACTATGTGACTCATGCTTTAAAAACAGGTGCAAGAGGCTATCTCCTGAAAGAGATGGACGCAGATACTTTAATCGAAGCAGTGAAAGTGGTAGCCGAGGGAGGTTCTTACCTTCACCCGAAAGTAACCCACAATCTTGTCAACGAATTCCGCCGTCTTGCGACAAGCGGAGTTTCTGCTCATCCTCAGCATGAGGTTTACCCGGAAATCCGGAGACCATTACATATATTAACGAGACGGGAATGTGAAGTGCTGCAAATGCTTGCAGACGGAAAAAGCAACCGCGGAATCGGTGAATCGTTGTTTATCAGTGAGAAAACAGTGAAAAATCACGTGAGTAATATTTTGCAGAAAATGAACGTTAATGACCGGACACAAGCCGTTGTCGTGGCCATTAAAAACGGCTGGGTAGAGATGCGTTAG	MTKVNIVIIDDHQLFREGVKRILDFEPTFEVVAEGDDGDEAARIVEHYHPDVVIMDINMPNVNGVEATKQLVELYPESKVIILSIHDDENYVTHALKTGARGYLLKEMDADTLIEAVKVVAEGGSYLHPKVTHNLVNEFRRLATSGVSAHPQHEVYPEIRRPLHILTRRECEVLQMLADGKSNRGIGESLFISEKTVKNHVSNILQKMNVNDRTQAVVVAIKNGWVEMR	PGPT0012750_114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692	NA	NA
D1-12_03767	849	degV	COG1307	Protein DegV	ATGAAGATTGCAGTTGTAACAGACAGTACAGCATATATTCCGAAAGAGATGAGAGAAGAACATCATATTCATATGATTCCTCTCCAAGTGGTTTTCGGTGAAAAAACATTCCGCGAAGAAACAGAACTCGACTGGAGAAGTTTTTATAAAGAAGTAAAAAATCATGATGAGCTGCCGACTACGTCCCAGCCTTCTTTCGGTGAATTAATCGCATTGTACGAAGAACTGGGCAAAACATATGACGCAGTCATAAGCATACATTTGTCCAGCGGAATCAGCGGAACTTATAACAGCGCCGCCTCGGCAAACACTATGGTTGATCATATTAAAGTTTATCCCTTTGATTCAGAGATCAGCTGTTTGGCACAAGGTTTTTATGCATTAAAGGCAGCACAGCTCATTAAAGACGGTGTTGACTCACCGGAAGAGATTATAAAAGAGCTGGAAGAAATGAAAAAAACAGTCCGTGCGTATTTTATGGTGGACGATTTATCACACCTCCAGCGGGGCGGGCGTCTAAGCAGTGCTCAGGCTTTTATCGGCGGTCTGTTAAAGGTAAAGCCTATTCTTTATTTTGACAATAAGGTAATTGTTCCTTTTGAGAAGATTCGGACACGCAAAAAAGCGATTTCGAGAATTTTTGAGCTGTTTGGGGAGGATGCAAGTAAAGGAATCCCGATGCGGGCCGCTGTCATCCATGCAAACAGGGAAGAAGAAGCGGCGGATATTATACAGGAGTTAAGCGGTAAATATCCTCATGTCGAATTCTATAACAGCTATTTCGGTGCCGTGATCGGAACCCATTTGGGCGAAGGTGCCATCGGAATCGGCTGGTGCTTTAAAAACTAA	MKIAVVTDSTAYIPKEMREEHHIHMIPLQVVFGEKTFREETELDWRSFYKEVKNHDELPTTSQPSFGELIALYEELGKTYDAVISIHLSSGISGTYNSAASANTMVDHIKVYPFDSEISCLAQGFYALKAAQLIKDGVDSPEEIIKELEEMKKTVRAYFMVDDLSHLQRGGRLSSAQAFIGGLLKVKPILYFDNKVIVPFEKIRTRKKAISRIFELFGEDASKGIPMRAAVIHANREEEAADIIQELSGKYPHVEFYNSYFGAVIGTHLGEGAIGIGWCFKN				NA	NA	NA	NA	NA
D1-12_03768	1386	comFA	COG4098	ComF operon protein 1	ATGTCCGAAGGTGCTTCAGAATTTTCAGAGGTGCGGGATTTCTTTTACGGCCGGCATTTATTGAGATCTGAGATACCGTTTTCAGATCATCGCATCAAGCGTTTTACAGAAAAAGAATATATAACGGCCGAGCCGTCAATCATCCGCCGGAAAAACCGTTACGTCTGCCAACGATGCGGTCAGTCTGATCAAGCCAGCTTTGCGGCATTTTGGGCGCCCTCTGCCAAAAGGCAGATTACCTATTGCCGTGCCTGTGTCATGATGGGAAGGGCTGATGAACTGACATCATTATATTCTTGGAATCAAACCCCTGAAAACAGCTGGGAGCCTGTAAAGCTTTCTTGGGAAGGAACACTGACAGACGGACAGAAGCGGGCGGCCGCCGCGCTTACAGATGCGATAAAAGAGAGACAAGAGCTGTTAGTATGGGCGGTTTGCGGATCAGGGAAAACAGAGATGCTGTTTCCGGGTATCGAGTTTGCGCTGAATCACGGTTTGCGCGTTTGTGTCGCGACTCCGCGTACAGATGTCGTACTTGAACTGCTGCCGAGACTGAAAAAAGCATTTGAGAAAGTCGAAGTCTCTGCTTTGTACGGCGGCAGCGAAGACAAAGGCCACCTGACTCCGCTGATGATTTCAACCGCTCACCAGCTGATGCGCTACCGAGACATTTTTGATGTCATGATAATAGATGAAGTAGATGCGTTTCCTTTTTCAGCCGATGAGACATTAAGATTCGCTGTTGATAAAGCGAGGAAGAAAAACAGCGCCCTTGTTTATGTAACGGCGACTCCTTCAGACACATTAAAAAAGAAGGCTGAAGCCGGTTTGCTGAAAAGCGTCCGCATACCGGCCAGATATCATCGGAAACCCCTCCCGGAGCCGCGTTTTTTGTGGTGCGGCAATTGGAAGAAGAAGCTTCAGAAAGGAAAACTGCCGCGCTCTGTAACGGATTGGGTCCGCCAAAAACTTCAATTACAGCTGCCGGTTTTCTTGTTCGTCCCGTCTGTACATGTATTGAAAAAGACAACGGATTATTTTCAGAAATTAAATGTAAGGGCAGAAGGCGTTCATGCGGAAGACACATTCAGAAAGGATAAAGTGAAACGATTCAGAGACGGCCGGCTTGACCTGCTGGTAACGACTACGATTTTAGAAAGAGGGGTTACCGTGCCCAAAGTTCAGACATGTGTCCTCGGCGCAGAAGCACCTATCTTTACTGAGAGCGCGCTCGTACAGATCGCGGGCAGAACGGGAAGGCATTATAAACATTTCAGCGGTGATGTCGTCATGTTTCATTTCGGAATTACAAACGGAATGAAAAAAGCAAAAAAACATATAGAGCATATGAACAAATTGGCACAAAAAAGTAAATTGTTGGACTAG	MSEGASEFSEVRDFFYGRHLLRSEIPFSDHRIKRFTEKEYITAEPSIIRRKNRYVCQRCGQSDQASFAAFWAPSAKRQITYCRACVMMGRADELTSLYSWNQTPENSWEPVKLSWEGTLTDGQKRAAAALTDAIKERQELLVWAVCGSGKTEMLFPGIEFALNHGLRVCVATPRTDVVLELLPRLKKAFEKVEVSALYGGSEDKGHLTPLMISTAHQLMRYRDIFDVMIIDEVDAFPFSADETLRFAVDKARKKNSALVYVTATPSDTLKKKAEAGLLKSVRIPARYHRKPLPEPRFLWCGNWKKKLQKGKLPRSVTDWVRQKLQLQLPVFLFVPSVHVLKKTTDYFQKLNVRAEGVHAEDTFRKDKVKRFRDGRLDLLVTTTILERGVTVPKVQTCVLGAEAPIFTESALVQIAGRTGRHYKHFSGDVVMFHFGITNGMKKAKKHIEHMNKLAQKSKLLD	PGPT0029425_193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029425-comFA-K02240	NA	NA
D1-12_03769	285	comFB		ComF operon protein 2	ATGCTTGTCAATTCTAAAGAAATCATATTAAAGGAACTTCTCGACCGCCATATGCCTAAGCTTCATATGAAATGCACATGCCGGGTATGCAAAAATGATGTACTGGCACTTTCACTAAACCGGGCTGAACCGGCATATGTTACAGATAAAAAGAAAGTTGCTTATGCAAAAGCAGAGATAGTTGATAAACAGAAAAATACGGCGCTGCTTGTCATTCTGGCTGAATCAGCGGCGATTGTTTCGGTTAATCCAAGCGAGTTCTGTGAAACTCGGGAAGGAGCGTAA	MLVNSKEIILKELLDRHMPKLHMKCTCRVCKNDVLALSLNRAEPAYVTDKKKVAYAKAEIVDKQKNTALLVILAESAAIVSVNPSEFCETREGA	PGPT0029430_99	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029430-comFB-K02241	NA	NA
D1-12_03770	477			hypothetical protein	TTGCTGCGGCAAAACCGTTCGGTATATTTGTATAATGATGCGATGAAGGACTCATTGGCCCGGTTTAAATTCAGGGGTGATGCGAAAATCATTCAAGCATTTGAACGTGACTTTGCTGCCGGCTTTAAAGCGGCATATCCATCAAATACACATACTCTCATCCCTATTCCGCTGAGCGGCGAACGGCTGGCGGAACGCGGATTCAATCAATCCGAGCTGCTGGCCTCTCTGCTCGGAATGCCCGTCATTTCCCCCCTCATCCGACTGAACAATGAAAAACAATCCAAAAAGAGCAAAACAGAAAGGCTGTCCGCAGAAAAAAAGTTTTCAGCAGCCGAAAACTCCGCCGAAGGTATGAACGTCATCTTAATAGACGATATTTATACGACGGGCGCCACACTGCATCAAGCCGCCGAAGTCCTGCTGACAGCGGGTAAAGCGTCATCGGTCTCCTCTTTTACTTTAATCAGGAGCTAA	MLRQNRSVYLYNDAMKDSLARFKFRGDAKIIQAFERDFAAGFKAAYPSNTHTLIPIPLSGERLAERGFNQSELLASLLGMPVISPLIRLNNEKQSKKSKTERLSAEKKFSAAENSAEGMNVILIDDIYTTGATLHQAAEVLLTAGKASSVSSFTLIRS	PGPT0029435_1068	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029435-comFC-K02242	NA	NA
D1-12_03771	420			hypothetical protein	ATGGGTGAATTGGCGAATTGTCCAAAATGCAATGCTTTATTTTTTAAAACGAACCTGCAGACCGTGTGTCAGGCATGTATTAAAGAAGAAGAAAAAGCATTTGAAACCGTCTATAAATTTTTGAGAAAGCAGATCAACAGACAGTCGACGATGCAGCAGATCACTGAGGAAACAGGTGTGGATGAAGAGCTGATCCTCAAGTTTATCAAACAAAAAAGGATTCAGATCAGCCAGCTTCCAAATTTGGCATATCCTTGCGAAAGATGCGGAAATCCAATCAGGACGGGGAAATTTTGCAAGTCCTGTCAGACAGATATTGAGTCGCAATTAGACCATATGAACCAAAAAACAGCCGCTGAATTCGATGAAAAAAACAGTACAAAAGACACATACTATGCCTATAATACCAAAAACACCTGA	MGELANCPKCNALFFKTNLQTVCQACIKEEEKAFETVYKFLRKQINRQSTMQQITEETGVDEELILKFIKQKRIQISQLPNLAYPCERCGNPIRTGKFCKSCQTDIESQLDHMNQKTAAEFDEKNSTKDTYYAYNTKNT				NA	NA	NA	NA	NA
D1-12_03772	267			hypothetical protein	ATGAAAATCAATCAGTACGGAACACAATCCGTTAATCCATACCAAAAAAATTACGAAAAGCAAGCCGTACAAAAAGAGGCTGCAAAGCCGAAGGACAAAGTGGAAATTTCTTCTCATGCAAAAGAGCTTCAAAATGCGTCAGATGCGGTCACTAAAACACGTCAGGAAAAAATCGCTCAGCTTAAAGCGGATATAGAGAGCGGAACATATAAAATAGATTCAAACAGCATCGCTGAAAATATAGTGAATTTCTATAAAAAGCAATAA	MKINQYGTQSVNPYQKNYEKQAVQKEAAKPKDKVEISSHAKELQNASDAVTKTRQEKIAQLKADIESGTYKIDSNSIAENIVNFYKKQ	PGPT0015530_1558	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398	NA	NA
D1-12_03773	483	yvyG		putative protein YvyG	ATGTCAGCAAAGCCAATTATTGATCAACTGAAGCGACTTTGCGCACTGCATGAACATCTGCTCACGCTGTCTGAGGAGAAAACGGAAGCGCTGAAAGCAGGTAAAACAAAAGAGCTCTCCAACATATTGACCAAAGAGCAAAAGTATATTCAGGCAATCGGGCAGACTGAGGAAGAACGAATCAGGTTAACTTCTCAGTTTCTCAGCCGCGGTGGGGACAATACAATTGCTGCATGCATCTCCAGAACTTCAGGCAGTGAAAAACAGGAGCTTGAAGGGTTATTTCACTCTTTGTCTGCGCTTCTTGACCGTCTGAAAGAAGTGAATGAGATGAACAAACAGCTCACGATTCAGGCTTTACAATTCATTTCCGGGGCATTCGATATGATCATGCCGGGTGAAAAAGAGAATATGAATTATAAAGAGCCGCAAGCGGCGCGCAAGCCTGTCAGCCGTTTGACATTATTCGATTCAAAAGCTTAG	MSAKPIIDQLKRLCALHEHLLTLSEEKTEALKAGKTKELSNILTKEQKYIQAIGQTEEERIRLTSQFLSRGGDNTIAACISRTSGSEKQELEGLFHSLSALLDRLKEVNEMNKQLTIQALQFISGAFDMIMPGEKENMNYKEPQAARKPVSRLTLFDSKA				NA	NA	NA	NA	NA
D1-12_03774	1518			hypothetical protein	ATGCCATCGACTTTTATGGGGCTCGAAACAGCAAGGCGTGCATTGAGTGCGCAGCAGACTGCATTAAGCACAGTTTCAAATAACGTTGCAAATGCAAATACAGAAGGATATACGAGGCAGCGCGTCACATTACAATCGACGAGCCCTTATCCCGCAGTATCAAAAAATAGTGATCTGACGGCCGGCCAAATCGGAACAGGAGTAAAAGCCGGTTCAGTTGAGCGCGTCAGAGACAGTTTTTTAGACTATCAGTACAGAACTGAAAATACAAAATTAGGGTACTATACAGCCCGTTCCAATTCATTGTCGCAAATGGAAGGCGTCATGAAAGAGCTTGACGATAACGGATTAAACGGATCGCTCAGTTCGTTTTGGAATGCCCTTCAGGATCTGGCGACGAATCCGGAAAATACGGGAGCGCGCTCAGTTTTGCAGGAGCAGGGGAAATCTCTTGCCGAAAGTTTTAACTATATATCTACCTCTTTGACTAACATTCAGGGTGATATTAAAAAGAACCTGGATAACACAGCGGATCAGGTCAATTCCATTCTCAATCAGCTGAATGACCTTAACAATCAAATAGCGGCAGTTGAGCCGAGCGGTATGCTCCCTAATGATTTGTATGACCAAAGAGACAGATTAATTGATCAATTATCTTCTATGGCAAATATAAAAGTTTCATATAATAAGTCGGGCGGACATGCCTTGGCGACTGCTGAGGGCACGGTTAACGTCGAATTGCTGAACGGGAACAACAATTCTCTCGGTACGCTGCTCGACGGTAACACAAAAACAGTTTCAGAAATGAAAATCAACTACGACAAGGACAGCGGCCTCGTGTCGAGTGTGTCAGTCGGCAGCAGTACGGTCAACGCGGATGCATTTACCGGTAAAGGCTCACTTTTAGGTCTTATTGAATCATACGGCTATATGTCAAATGGAGAAGAAAAAGGTCTTTATCCTGAAATGCTGACGGCTCTTGACAATATGGCACTATCCTTTGCTGACGCGTTTAATGCAGTTCATGAAAAAGGGAAGACCTATACAGGCGAACAGGGTGCAGCATTTTTTGATTTCAGCGGTGATGAAGCGGTGCCGGCAAAAGGTGCGGCAGCGAAAATAAAAGTCAGTGACAAAATTCTTGCGTCTACTGATAATATCGCAGCGTCGTTAAACGGAGAAAAAAGTGACGGCACAAACGCGACAAATCTTGCAGCCGTACAGAACAGCAAGCTGACTATTAACGGTGAAACCACTACAATTAATGACTTTTATGAATCCCTTATCGGAAAGCTGGGCGTTAATTCACAAAAAGCGGCCAATCTTATGAACAACTCTGAAAGCAACACCCTTTCAGCCGATGAACGGAGACAATCAGTCAGTGCAGTTTCTTTAGATGAAGAAATGACAAATATGATTCAGTTTCAGCACGCTTATAATGCGGCTGCGCGGATCATAACGATGCAGGATGAAATATTCGATAAAATTATTAACGGTATGGGCACCGGAGGAAGATAG	MPSTFMGLETARRALSAQQTALSTVSNNVANANTEGYTRQRVTLQSTSPYPAVSKNSDLTAGQIGTGVKAGSVERVRDSFLDYQYRTENTKLGYYTARSNSLSQMEGVMKELDDNGLNGSLSSFWNALQDLATNPENTGARSVLQEQGKSLAESFNYISTSLTNIQGDIKKNLDNTADQVNSILNQLNDLNNQIAAVEPSGMLPNDLYDQRDRLIDQLSSMANIKVSYNKSGGHALATAEGTVNVELLNGNNNSLGTLLDGNTKTVSEMKINYDKDSGLVSSVSVGSSTVNADAFTGKGSLLGLIESYGYMSNGEEKGLYPEMLTALDNMALSFADAFNAVHEKGKTYTGEQGAAFFDFSGDEAVPAKGAAAKIKVSDKILASTDNIAASLNGEKSDGTNATNLAAVQNSKLTINGETTTINDFYESLIGKLGVNSQKAANLMNNSESNTLSADERRQSVSAVSLDEEMTNMIQFQHAYNAAARIITMQDEIFDKIINGMGTGGR	PGPT0015195_2068	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
D1-12_03775	918	flaB3		Flagellar filament 30.7 kDa core protein	ATGAGAGTAACTCAAGGGATGATCGCAAAAAATTCTCTTCGATTTATCGGCTCAAGTTATGATAAGCTCGATCGGCTTCAGCAGCAAGTATCTACGGGGAAAAAAATCACGAAAGCTTCTGATGATCCGGTCGTTGCAATGAAGGGAATGCAGTACCGTACTCAGCTTGCGCAGGTAAACCAGTATCAGCGGAATGTTTCGCAAGGTTTTACATGGCTGGAAAACTCGGAATCAAGCGTAAACTCGGAAACGGATATTATGGGGAAAATCCGGGACTTGATGGTTCAGGCGAAAAGTGATTCGAACGGTGAAACAGAATTGAAAGCAATCGGTACAGAAATCGGCCAGCTGAAAAAGCAGCTCGTTTCTGTCGCGAATACTCAGGTAAACGGACGTTATCTGTTTAACGGAACAAATTCAGACGTCCCGCCGATCACTGAAAATGCCGACGGCACATATACGTACAACTATGAGAATTATACCGGTGCTTCGGATGTTAACATCAACATCTCAAACGGAGCAGTGCTTAAAGTGAATTCTGATCCAAACTCAGCTTTCGGAGGCGTCGCACAAAATGGAGATAATGTATTTGAATTTCTCAACTCCTTAGAAGCTTCTTTAAGCAAAGGCACGCTGTCCGAAGCAGATTCAGATCAAATTCTGTCAGATATTGACGGTTTTACCGATAAAATGAATGCTGAAAAATCCAATATCGGCGCACGCACAAACCGATTGGAACTCATTCAGACAAGATTGGAATCACAAGCGGCAACCGCTGAAAAAGTATTGTCCGATAATGAAGATGTAGAAATGGAAGATGTAATTGTTGATTATTTATCTCAACAGACGGTTCATAGAGCAGCGCTGTCAGTGAATGCGAATATCATTCAGCCGTCACTGATTGACTTTCTGAAATAA	MRVTQGMIAKNSLRFIGSSYDKLDRLQQQVSTGKKITKASDDPVVAMKGMQYRTQLAQVNQYQRNVSQGFTWLENSESSVNSETDIMGKIRDLMVQAKSDSNGETELKAIGTEIGQLKKQLVSVANTQVNGRYLFNGTNSDVPPITENADGTYTYNYENYTGASDVNINISNGAVLKVNSDPNSAFGGVAQNGDNVFEFLNSLEASLSKGTLSEADSDQILSDIDGFTDKMNAEKSNIGARTNRLELIQTRLESQAATAEKVLSDNEDVEMEDVIVDYLSQQTVHRAALSVNANIIQPSLIDFLK	PGPT0015505_2102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
D1-12_03776	570	yviE		putative protein YviE	GTGCAGATGCCGAGATTGATTATTGACAGTGTGCCTGCTAAAATCGGTATAACCTTTCAAAAGGAAGAAATCGAGATGGAACAGCCGCCCGCTGACCTGGAAATTGAGCAGCCGCCGGCAGAGCTGAACATTGAAAGCACGCCGGCCAAACTGACGATTGACCAGACGAGGGCGTGGGAGAACTTGAATCTCAAATCATTTGAAAAGCTGAACGCTGAAGCCGCCCAGAAAGGTGCGGAAGCCTGCAGCGAGTTTATTGCCAAAACAGTCAGGGAAGGGAAGGAAATGGCGGCTATCGAAAAGAAAACGGGCAATGTGATGGCCCGGCAGGCAGCAGATGTCAGTCCGCCCGATCCATTCGGCGAATTCAGCGACTTTCTGCCTGCGCAGTTTCTCGTCGACATTGACTGCATTCCTTCAAAGCTTACGATTGATATTGAAGCCCGCAAACCTTCAATTGAAGCAGCCGTCAATAAACCTGTATGGAATTATACGCCGGGGAAAGTTCAGATTGATATGATGCAAGACCCTAAGGTGACGATTTCGGTTGACGATGGCAACGCAGAATAA	MQMPRLIIDSVPAKIGITFQKEEIEMEQPPADLEIEQPPAELNIESTPAKLTIDQTRAWENLNLKSFEKLNAEAAQKGAEACSEFIAKTVREGKEMAAIEKKTGNVMARQAADVSPPDPFGEFSDFLPAQFLVDIDCIPSKLTIDIEARKPSIEAAVNKPVWNYTPGKVQIDMMQDPKVTISVDDGNAE				NA	NA	NA	NA	NA
D1-12_03777	432	fliW	COG1699	Flagellar assembly factor FliW	ATGATAATTAAAACAAAATATCACGGAGAAATCAGAATAGACGAAGGGCAGATTATCTCATTTGAAAACGGCCTGCCGGGATTTAATGACGAGACTCAATTTGTTGTTCTTCCTTTGTCGGAAGATTCACCGTTTTTGGCGCTGCAGTCTGTGAAACAGGAGCATATCGCCTTTATTGTCGCCAGTCCGTTTATTTTCTTTAAAGGGTACGAATTTGACATTGACCATGCGACGCTTGAGCTTTTGCATATTGAAGATATAGAGGACGTCGAAGTGATGGCGATTTTAACGCTGGAAGAGCCTTTTGAAAACACGACCGCCAATTTAAAAGCGCCGATTATCGTCAATAAAAAGGAAATGAAGGCGAAACAAATCATTTTACATGATGCTTCCTATGAAACAAAACATCTGATAGGAGGAGGATCATGCTAG	MIIKTKYHGEIRIDEGQIISFENGLPGFNDETQFVVLPLSEDSPFLALQSVKQEHIAFIVASPFIFFKGYEFDIDHATLELLHIEDIEDVEVMAILTLEEPFENTTANLKAPIIVNKKEMKAKQIILHDASYETKHLIGGGSC	PGPT0015630_556	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015630-fliW-K13626	NA	NA
D1-12_03778	225	csrA	COG1551	Translational regulator CsrA	ATGCTAGTTCTCTCAAGAAAAGTGAATGAGTCCATTCAGATCGGGCCGGATATTGAAATAAAGGTGATCGCAATCGAAGGAGAGCAAGTGAAGCTGGGAATTGAAGCGCCTCAGCACGTAGATATTCATCGGAAAGAAATCTACTTGTCGATCCTGGAAGAGAACAACAGAGCCGTATCTTTTAATACTGATTTATTACTTAACCTATCCTCACAAAAAAAGTGA	MLVLSRKVNESIQIGPDIEIKVIAIEGEQVKLGIEAPQHVDIHRKEIYLSILEENNRAVSFNTDLLLNLSSQKK	PGPT0015065_808	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
D1-12_03779	996	hag	COG1344	Flagellin	ATGAGAATCAACCACAATATCGCGGCTCTTAACACTAGCCGTCAGCTGAATGCAGGTTCAAACTCTGCTGCAAAAAACATGGAAAAATTATCTTCAGGTCTTCGCATCAACCGCGCTGGTGATGACGCTGCGGGTCTTGCGATCTCTGAAAAAATGCGTTCTCAAATTCGCGGTTTAGACATGGCGTCTAAAAACGCTCAAGACGGAATCTCTCTTATCCAAACATCTGAGGGTGCATTGAACGAAACTCACAGCATTCTTCAGCGTATGAGCGAGCTTGCTACACAAGCGGCAAACGATACAAACACAGATTCTGACCGTTCTGAGCTTCAAAAAGAGATGGACCAATTATCATCTGAAGTAACAAGAATCTCTACTGACACTGAGTTCAACACGAAGAAACTTCTTGACGGAACTGCAAAAGATCTTACGTTCCAAATCGGAGCTAACGAAGGTCAAACCATGACTTTGTCTATCAATAAAATGGACTCTGAAAGCCTGAAAGTTGGTACGACTTATACAGCTCAAGCTGATGGAACACTTAAATCAGGTGATGGAAATAGCACTGCTACTTGGGCAGATGAAGAAGTAACAGACGGTAAAGTTACAAAAGAAGCTGGTTATTATGATGATAAAGGTGCTCTAGTAGGAAGTGAAAAACTAGAAGAAGGCGAAAAGTTATCTAAAGGTATCGACATCTCTTCTTCAGCTAAAGCTGCGTCTTCAGCTCTTACAACAATCAAAACAGCTATCGACACAGTATCTAGCGAGCGCGCTAAACTTGGTGCGGTTCAAAACCGTTTAGAGCACACAATCAACAACCTTGGTACTTCTTCTGAGAACCTGACTTCTGCTGAATCACGTATCCGTGACGTAGACATGGCTTCTGAGATGATGGAGTACACGAAAAACAACATCCTTACTCAGGCTTCTCAAGCTATGCTTGCGCAAGCTAACCAACAGCCTCAGCAAGTTCTTCAATTGCTGAAAGGTTAA	MRINHNIAALNTSRQLNAGSNSAAKNMEKLSSGLRINRAGDDAAGLAISEKMRSQIRGLDMASKNAQDGISLIQTSEGALNETHSILQRMSELATQAANDTNTDSDRSELQKEMDQLSSEVTRISTDTEFNTKKLLDGTAKDLTFQIGANEGQTMTLSINKMDSESLKVGTTYTAQADGTLKSGDGNSTATWADEEVTDGKVTKEAGYYDDKGALVGSEKLEEGEKLSKGIDISSSAKAASSALTTIKTAIDTVSSERAKLGAVQNRLEHTINNLGTSSENLTSAESRIRDVDMASEMMEYTKNNILTQASQAMLAQANQQPQQVLQLLKG	PGPT0015190_2724	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
D1-12_03780	1521	fliD	COG1345	Flagellar hook-associated protein 2	ATGGTCACAAGAATCACAGGCCTTAATTCCGGTCTTGATGTAGATTCTCTGGTGAAAAAACTAATGGATGCCGAAAAGCAGCCGCTTAATAAATTAAATCAGCAAAAACAGACGCTTGAATGGAAGCGCGATGCTTATCGGGAAATGAATACCCAGATTGCCGACATGTATTCTACTACATTTAATAATATGCTGATGTCCACAAACTGGAATAAAAAAACAGTAACAAGTTCGGATTCCAGTGTCAGCGCGGCGGCCGTCAGTGCTGAGCAAAATATTTCAACGAGTATGTCTGTACAGCAGCTGGCCACGCCGACGACATATAAATCATCGGGTGCCATCAATTTCACTTCAGGTCAGAGCCAAACATTGAAATTCAATGTCACAAATCCGGGTGAAACGAAGCCGACTGAGGTAAACGTCACGATCGCCGCAACCGATACGATTGACGATGTCATTTCTAAACTGAACAGCTCAGGCCTTGGGGTGACGGCTTTAAAAGAGAAAATCTCTAATGGCACGGATTATGTGGACACGATTGCGTTCACTTCCAATAAAACGGGGGAAGGATTTACCCTTGCCGCAGGTGATGACGCAACCAAAAGCTTTCTGAAAGATCAGCTCGGTTTTGCCGTTGATGATGCGACAAATGAACTGACGGCCAATGCCGAAGGGAAAAATGCGAAGTTTACGTTCAACGGGCTTGAAATGACAAAAACGTCCAATAACTTTACGATCAACGGCATCAAATACACGCTGAACAGCGTGACGGACAGCAATAAAACGGTTACGATTAACAGCACGACTGATACGGACGGGATTTTTGACAACATTAAAGATTTCGTTGATAAATACAATACGTTAATTAAAAGCGCAAACGCGAAGGTGACAGAATCAAAATACCGCGATTATAAGCCGCTAACCGATGAACAAAGAGAAGCGATGACCGATAAGCAGATTGAGCAGTGGGAGGCAAAAGCCAAAAGCGGTTTATTACGGAGCGACAGCACGCTGCAGAACGGTTTGGCGGAGATGCGGCTTGATTTGTACTCAACGGTTACGATTGACGGGAAAAAATATCAGCTTGCCGATTTCGGAATTGAGACGTCTGATAGTTATACGGATCAAGGAAAACTTGTTATTAAAGACGAAGCGAAACTGAAACAGAAAATTACCGAGAACCCTTCTCTCGTGGCTAAACTGTTTAATGCAGACAGCCCTGATACAGCGAAAACCAAAAACCCGGAGGAACAGGGGATTGCCCGGAGATTAAAAGACACATTAAATAAAATGCAGATTCAAATTTCAAAACAGGCGGGTACGGAAAGCTCGGTATCAACCAGCTTTGCCATTGGAAAAAGCCTGGATGAAATAGAAACAAATATTTCCAATATGAAAACGAAGCTGGATGACATCGAGACGAGATATTATAAAAAGTTCAGCGCACTGGATACGGCATTGGAGAAATTGAACAGCCAATCTTCATATCTCACGTCAATGTTAGGATCTTCAACATCATAA	MVTRITGLNSGLDVDSLVKKLMDAEKQPLNKLNQQKQTLEWKRDAYREMNTQIADMYSTTFNNMLMSTNWNKKTVTSSDSSVSAAAVSAEQNISTSMSVQQLATPTTYKSSGAINFTSGQSQTLKFNVTNPGETKPTEVNVTIAATDTIDDVISKLNSSGLGVTALKEKISNGTDYVDTIAFTSNKTGEGFTLAAGDDATKSFLKDQLGFAVDDATNELTANAEGKNAKFTFNGLEMTKTSNNFTINGIKYTLNSVTDSNKTVTINSTTDTDGIFDNIKDFVDKYNTLIKSANAKVTESKYRDYKPLTDEQREAMTDKQIEQWEAKAKSGLLRSDSTLQNGLAEMRLDLYSTVTIDGKKYQLADFGIETSDSYTDQGKLVIKDEAKLKQKITENPSLVAKLFNADSPDTAKTKNPEEQGIARRLKDTLNKMQIQISKQAGTESSVSTSFAIGKSLDEIETNISNMKTKLDDIETRYYKKFSALDTALEKLNSQSSYLTSMLGSSTS	PGPT0015200_960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
D1-12_03781	402	fliS	COG1516	Flagellar secretion chaperone FliS	ATGGCAATAAATAATCCTTTTGCTGCTTATCAGCAGACATCCGTCTTTACAGCCGCTCCGGAAGAGCTGACCCTTATGCTTTATAACGGCTGCCTGCGATTCATTAAGCTGGCAAGGCAGGCGATGAAGCAAAACAACCTTGAAGCCAAAAATGAAAATATCGTAAAGGCGCAAAACATCATTCAAGAGCTCAGCATCACGTTAAACCGGGAGATTGAGATTTCTGAGCAGATGTCATCAATCTATGATTACATCCGCCGCCGGCTGATCGATGCGAACGTGCAGAATAACGGAGAGTTTTTAGATGAAGCGGAAAAGCTCGTTACTGAATTTCGCGACACGTGGAAGCAGGCCATGCAGAGTGAACGGAAAAACAGCCATGGCGCGGGCGGCCTTGCCTGA	MAINNPFAAYQQTSVFTAAPEELTLMLYNGCLRFIKLARQAMKQNNLEAKNENIVKAQNIIQELSITLNREIEISEQMSSIYDYIRRRLIDANVQNNGEFLDEAEKLVTEFRDTWKQAMQSERKNSHGAGGLA	PGPT0015620_1218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
D1-12_03782	345	fliT		Flagellar protein FliT	ATGAACAGCAATGTCTTTTCTTTGTATAACGAAACGAAGAACATGTACGCTGCACTGAAGGACGCCCCGGAAAGCGACGGTCTCATCAGCAGCGTTACGGCATTTACGGAGAAAAGGGAGGAGATGCTTGCGGGCATAAAGCCGCCTTTTTCCGAAGAAGAAAAAACGCTGCTTCAGCAGGTGGCCGCGATGGACCGTCTGATTACCGGCGAAGTGAAACGGATTCAGGATGGCATCCGAAATGAAATAAAAACGCTTAAGAAAAAACGAATCTACCATAATACGTATTTCAATCCGTATCAGCAAACGACAAGTGACGGCCGTTATTACGACAAACGCAAATAG	MNSNVFSLYNETKNMYAALKDAPESDGLISSVTAFTEKREEMLAGIKPPFSEEEKTLLQQVAAMDRLITGEVKRIQDGIRNEIKTLKKKRIYHNTYFNPYQQTTSDGRYYDKRK	PGPT0015625_441	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015625-fliT-K02423	NA	NA
D1-12_03783	378			hypothetical protein	TTGAGAAGTTTGAACGATTACCATTTGGTGTCAGCCTATTACCAGCTTCTTTTTACGATTGATGAGGGGCTTTGCTACCTGTTGGACACGCAGGATGATTTTTTTAAGACGGAGGGCGAGCGGATTTACAACGATTTGATTCAGGCTTTTTTTCATCTCGATTCCTCTCATGCGCTTCTGCTTTCTATCATTGAGTGCCGATGCGTGGAGACGGCGATCCGCTCATTTGACGAGATCTTTCAGGATTTCAGCATGTTAAATGATTATGATTTCCCGTCCGCCCCTTTTCAGGAGTTTTTAAAAACCATCTTTCTGCCGCATTATAAGCTATGGATGGAGCAGACGCACGACTGTATCAAACCGTATGTTCTTCACTAG	MRSLNDYHLVSAYYQLLFTIDEGLCYLLDTQDDFFKTEGERIYNDLIQAFFHLDSSHALLLSIIECRCVETAIRSFDEIFQDFSMLNDYDFPSAPFQEFLKTIFLPHYKLWMEQTHDCIKPYVLH				NA	NA	NA	NA	NA
D1-12_03784	567	yvyD	COG1544	Ribosome hibernation promotion factor	ATGAACTACAATATCAGAGGAGAAAACATTGAGGTTACACCTGCGTTAAAGGATCATGTGGAGAGAAAAATCGGCAAGCTGGAACGATATTTCGAGCAGAGCGTCAATGCCGATGTGAACGTCAACTTAAAATTCTATAACGATAAGGAATCCAAAGTTGAAGTCACCATTCCGATGACTGATCTGGCGCTTCGTTCTGAAGTGCATAACGAGGATATGTACAATGCAATTGATCTCGCAACAAACAAGCTGGAACGTCAAATCCGAAAGCATAAAACAAAAGTCAACCGAAAATTCCGCGAGCAGGGTCTTCCGAAACATTATTTCGAGAACGGCAGCGCTGCTGATACGGGCGTAGCGGTTCAGGACGAAATTGAAGATGACAGCCCGGAAATTGTCCGTCAAAAGCGTTTTAATTTAAAACCGATGGATAATGAAGAAGCGATTCTCCAAATGAATATGCTCGGACATAATTTCTTCGTATTCACCAACGCGGAGACGAATCTCACAAATGTCGTTTACCGCAGAAATGACGGCAAATACGGATTAATTGAACCGACTGAATAA	MNYNIRGENIEVTPALKDHVERKIGKLERYFEQSVNADVNVNLKFYNDKESKVEVTIPMTDLALRSEVHNEDMYNAIDLATNKLERQIRKHKTKVNRKFREQGLPKHYFENGSAADTGVAVQDEIEDDSPEIVRQKRFNLKPMDNEEAILQMNMLGHNFFVFTNAETNLTNVVYRRNDGKYGLIEPTE				NA	NA	NA	NA	NA
D1-12_03785	2526	secA	COG0653	Protein translocase subunit SecA	ATGCTTGGGATTTTAAATAAAATGTTTGATCCGACCAAACGTGCGCTGAACAAATACGAAAAAATAGCAAATGACATTGATGCCGTAAGAGGAGATTATGAAAATCTTTCTGACGAGGCGCTTAAAAATAAAACGGCAGAATTTAAAGAGCGGCTTGAAAAAGGAGAAACGACGGATGACCTTCTTGTCGAAGCGTTTGCCGTCGTTCGTGAAGCTTCCCGCCGCGTAACCGGCATGTTCCCGTTTAAAGTGCAGCTGATGGGGGGCATCGCCCTTCATGAGGGGAACATTTCCGAAATGAAAACAGGGGAAGGGAAAACGCTGACGTCTACGCTTCCCGTGTATTTAAATGCCTTGACGGGAAAAGGCGTTCACGTCGTAACGGTCAACGAATATCTGGCAAGCCGTGATGCCCAGCAAATGGGAGAAATCTTTGCGTTTCTCGGGCTTACAGTCGGCCTGAACCTGAATTCGATGTCAAAAGACGAAAAACGCGAAGCTTACGCAGCCGATATCACGTATTCAACGAACAATGAACTCGGCTTTGATTATTTGCGTGACAACATGGTGCTCTATAAAGAACAAATGGTGCAGCGTCCGCTTCATTTTGCCGTTATTGATGAAGTCGATTCAATTTTAGTCGATGAAGCGAGAACGCCATTGATTATTTCCGGACAAGCTCAGAAGTCCACAAAACTGTACGTGCAGGCAAATGCGTTTGTCCGCACACTCAAGAAAGATCAGGATTATACGTATGACGTCAAAACGAAAGGCGTTCAGCTGACGGAAGAAGGAATGACGAAGGCTGAAAAAACATTCGGCATCGACAACCTGTTTGATGTCAAAAACGTGGCCTTGAACCACCATATCAACCAGGCTTTAAAAGCCCATGCGGCGATGCAGAAAGACGTGGATTATGTTGTTGAGGACGGCCAGGTCGTCATCGTTGATTCCTTCACCGGCCGTCTGATGAAAGGACGCCGCTACAGCGAAGGTCTTCACCAGGCGATTGAGGCGAAAGAAGGCCTGGAGATTCAAAATGAAAGCATGACATTGGCGACGATTACGTTCCAAAACTATTTCCGTATGTACGAAAAGCTGGCCGGTATGACCGGTACCGCAAAAACGGAAGAGGAAGAATTCCGCAATATTTATAACATGCAGGTTGTATCCATCCCGACCAACCAGCCGGTCATCCGTGACGACCGTCCGGACTTGATCTACCGCTCAATGGAAGGGAAATTCAAGGCGGTGGCGGAGGATGTCGCCCAGCGCTACATGACCGGACAGCCGGTTCTTGTCGGTACGGTTGCCGTTGAAACGTCTGAATTGATTTCTAAACTTCTGAAAAACAAAGGGATTCCGCATCAGGTGCTGAATGCCAAAAACCATGAGCGTGAAGCTCAGATTATTGAAGAAGCGGGACAAAAAGGCGCTGTCACGATTGCGACCAACATGGCGGGACGCGGAACCGACATTAAACTCGGCGAAGGCGTAAAAGAGCTTGGCGGCCTTGCGGTCGTCGGTACGGAACGCCACGAATCCCGCCGGATTGATAATCAGCTCCGCGGACGTTCAGGACGTCAGGGAGACCCGGGCATCACACAATTTTATCTTTCAATGGAAGATGAATTGATGCGCCGTTTCGGAGCTGAACGGACGATGGCGATGCTTGACCGGTTCGGTATGGATGACTCCACGCCGATTCAGAGCAAAATGGTGTCACGCGCCGTGGAATCATCTCAAAAACGTGTCGAAGGAAACAACTTCGATTCACGTAAACAGCTTCTTCAATACGACGACGTGCTTCGTCAGCAGCGCGAAGTCATTTACAAGCAGCGTTTTGAAGTCATTGACTCTGAAAACCTGCGCGACATTGTGGAAGGCATGATCAAGTCTTCTCTGGAGCGTGCGATTGCCGCTTATACGCCGAAAGAGGAGCTTCCGGAAGAATGGAATCTTGACGGCCTCGTGGAGCTGGTGAATTCAACGTATCTTGATGAAGGCGCGCTTGAAAAGAGCGATATCTTCGGAAAAGAACCGGATGAAATGCATGAGATGATCATGGACCGCATCATGACAAAATATAATGAAAAAGAAGAGAATTTCGGTACAGAGCAGATGCGTGAATTTGAAAAAGTCATCGTATTGCGTGCCGTTGATTCAAAATGGATGGATCATATTGATGCGATGGATCAGCTGCGTCAAGGGATTCACCTTCGCGCTTATGCGCAGACAAATCCGCTGCGTGAATATCAAATGGAAGGCTTCGCAATGTTTGAGCACATGATTGAGTCCATTGAGGACGAAGTTGCGAAATTCGTCATGAAGGCCGAGATTGAAAGCAATCTGGAACGCGAAGAAGTTGTTCAGGGCCAAACGACGGCTCATCAGCCGCAGGACGGCGATGAGGCCAAACAAGCGAAAAAAGCGCCGGTCCGCAAAGTTGTGGATATCGGACGCAACGCGCCTTGCCATTGCGGAAGCGGAAAAAAATATAAAAATTGCTGCGGCCGGACAGAATAG	MLGILNKMFDPTKRALNKYEKIANDIDAVRGDYENLSDEALKNKTAEFKERLEKGETTDDLLVEAFAVVREASRRVTGMFPFKVQLMGGIALHEGNISEMKTGEGKTLTSTLPVYLNALTGKGVHVVTVNEYLASRDAQQMGEIFAFLGLTVGLNLNSMSKDEKREAYAADITYSTNNELGFDYLRDNMVLYKEQMVQRPLHFAVIDEVDSILVDEARTPLIISGQAQKSTKLYVQANAFVRTLKKDQDYTYDVKTKGVQLTEEGMTKAEKTFGIDNLFDVKNVALNHHINQALKAHAAMQKDVDYVVEDGQVVIVDSFTGRLMKGRRYSEGLHQAIEAKEGLEIQNESMTLATITFQNYFRMYEKLAGMTGTAKTEEEEFRNIYNMQVVSIPTNQPVIRDDRPDLIYRSMEGKFKAVAEDVAQRYMTGQPVLVGTVAVETSELISKLLKNKGIPHQVLNAKNHEREAQIIEEAGQKGAVTIATNMAGRGTDIKLGEGVKELGGLAVVGTERHESRRIDNQLRGRSGRQGDPGITQFYLSMEDELMRRFGAERTMAMLDRFGMDDSTPIQSKMVSRAVESSQKRVEGNNFDSRKQLLQYDDVLRQQREVIYKQRFEVIDSENLRDIVEGMIKSSLERAIAAYTPKEELPEEWNLDGLVELVNSTYLDEGALEKSDIFGKEPDEMHEMIMDRIMTKYNEKEENFGTEQMREFEKVIVLRAVDSKWMDHIDAMDQLRQGIHLRAYAQTNPLREYQMEGFAMFEHMIESIEDEVAKFVMKAEIESNLEREEVVQGQTTAHQPQDGDEAKQAKKAPVRKVVDIGRNAPCHCGSGKKYKNCCGRTE	PGPT0025735_4631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
D1-12_03786	984	prfB		Peptide chain release factor 2	ATGGCGGAACCGGAATTCTGGAATGACCAGCAGAAGGCCCAAACCGTCATCAACGAAGCGAACGGTCTGAAGGAATACGTGAACTCCTATCATCAGCTGAGCGAGTCTCACGAAGAGCTGCAAATGACACATGATCTTTTAAAAGAAGAACCTGACCAGGACCTTCAGCAAGAGCTTGAGAAAGAGCTGAAGTCATTAACGAAGGAATTGAATGAATTTGAGCTTCAGCTGCTGCTCAGTGAACCATATGACAAAAATAATGCGATTTTAGAACTTCACCCGGGCGCCGGCGGTACGGAATCTCAGGACTGGGGTTCCATGCTGCTCAGAATGTATACCCGCTGGGCGGAAAGACGCGGCTTCAAAGTTGAAACGCTTGATTATCTCCCGGGAGATGAAGCAGGAATTAAGTCTGTCACACTGCTTATTAAAGGTCACAATGCATACGGCTATTTAAAAGCGGAAAAAGGCGTACACCGTCTCGTGCGGATTTCTCCATTTGATTCATCAGGCCGCCGTCACACGTCATTCGTGTCATGTGAAGTCATGCCTGAATTCAATGAAGAAATCGACATTGATATTCGTACCGAAGATATTAAAGTTGATACGTACCGGGCGAGCGGTGCCGGCGGACAGCACGTCAATACGACTGATTCAGCCGTTCGGATCACCCACCTGCCGACAAATGTAGTCGTCACGTGCCAGACGGAACGCTCACAAATCAAAAACCGCGACCGGGCGATGAAAATGCTCAAAGCGAAGCTGTATCAGCGCAGAATTGAAGAACAGCAGGCGGAGCTTGACGAAATCCGCGGCGAACAGAAAGAAATCGGCTGGGGCAGCCAAATCCGCTCGTACGTCTTCCATCCGTACTCCATGGTGAAAGACCACCGCACCAATACGGAAATGGGGAACGTGCAGGCGGTTATGGACGGAGATATCGATATCTTCATTGACGCCTATTTACGTTCTAAACTGTCGTAA	MAEPEFWNDQQKAQTVINEANGLKEYVNSYHQLSESHEELQMTHDLLKEEPDQDLQQELEKELKSLTKELNEFELQLLLSEPYDKNNAILELHPGAGGTESQDWGSMLLRMYTRWAERRGFKVETLDYLPGDEAGIKSVTLLIKGHNAYGYLKAEKGVHRLVRISPFDSSGRRHTSFVSCEVMPEFNEEIDIDIRTEDIKVDTYRASGAGGQHVNTTDSAVRITHLPTNVVVTCQTERSQIKNRDRAMKMLKAKLYQRRIEEQQAELDEIRGEQKEIGWGSQIRSYVFHPYSMVKDHRTNTEMGNVQAVMDGDIDIFIDAYLRSKLS				NA	NA	NA	NA	NA
D1-12_03787	849			hypothetical protein	ATGGATGTGAATCACAATAAGCCGCTCCGTCTGATCAAAGATTACGTATATATCATGATCGGCGCGGCGATTACGGGGGTCGTGTTTAACGTATTTTTGCTGCCGAACCGTATAGCAGCGGGGGGAGTAAGCGGGATCAGCACCATTTTAGAAACGTTTGGTTTTGAACCGGCTTACGTGCAGTGGATTATTAACATCCCTTTGTTTATCGCCGGAGTGATCATTCTCGGCGGGAAGTTCGGAATGAAGACACTGGTCGGTTCCATCGTTCTGCCGCTCGCCGTCTTTTTAACAAGAGATCTGCCTGCCGCGACGACCCATGAACTGCTGGCGGCGATTTTCGGAGGCGTCGGGATCGGAACGGGAATCGGCATCGTGTATCTCGGCAAAGGCTCCACGGGGGGAACGGCTCTGGCGGCGCAGATCATTCACAAATACACGGGGCTGTCGCTGGGAACGTGCCTTGCCATCATGGACGGATTAATTGTGCTGAGCGCGATGCTCGTTTTCGGAGTGGAGCAGGGACTGTATGCGATGCTCGGGGTATTTATTTCAAGCAAAACGATTGATGTCGTGCAGGTTGGGTTCAACCGCTCCAAAATGGCTTTAATCATTACGCAGCATGAAGAAGCCGTCAGATCAGCTGTGTTTAAAGAAATCGACAGGGGTGTGACGAAGATTTCTGCAGTCGGCGGGTATACGGAACATGACCGGCCGATCTTAATGTGTGTCGTCGGTCAGACCGAATTCACAAAACTGAAACAAATCGTCAAACAAATTGATGAGTCAGCCTTTGTCATTGTCGCAGACGCAAGCGAGGTGCTCGGCGAGGGTTTCAAACGCGCGTAA	MDVNHNKPLRLIKDYVYIMIGAAITGVVFNVFLLPNRIAAGGVSGISTILETFGFEPAYVQWIINIPLFIAGVIILGGKFGMKTLVGSIVLPLAVFLTRDLPAATTHELLAAIFGGVGIGTGIGIVYLGKGSTGGTALAAQIIHKYTGLSLGTCLAIMDGLIVLSAMLVFGVEQGLYAMLGVFISSKTIDVVQVGFNRSKMALIITQHEEAVRSAVFKEIDRGVTKISAVGGYTEHDRPILMCVVGQTEFTKLKQIVKQIDESAFVIVADASEVLGEGFKRA				NA	NA	NA	NA	NA
D1-12_03788	342	cccB	COG2010	Cytochrome c-551	ATGAAATCAAAATGGGCGCTGCTGGCGCTGGTTCTGACCATGTCCGTCCTGCTGGCGGCATGCGGCGGATCCAATGAATCGAAAAAAGAAAGCTCTGACAGCTCAGGCGGATCAAAGGCATCTGCGTCAGCGGGCGAAGAGCTTTATCAGCAAAGCTGTATCGGCTGTCACGGTAAAGACTTAGAAGGCGGCGGAGGTCCGAATTTACAGGAAGTCGGCGGGAAGTATGATGAAGCTAAAATTGAAAGCATCATTAAAAACGGACGCGGCAATATGCCGAGCCATCTTGTAAATGATGAGGAAGCCGCGAAGATCGCAAAATGGCTGTCACAGAAAAAATAA	MKSKWALLALVLTMSVLLAACGGSNESKKESSDSSGGSKASASAGEELYQQSCIGCHGKDLEGGGGPNLQEVGGKYDEAKIESIIKNGRGNMPSHLVNDEEAAKIAKWLSQKK				NA	NA	NA	NA	NA
D1-12_03789	687	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGATAGAGATGAAAGAAGTATATAAATCCTATCCGAACGGTGTAAAAGCGATTAACGGGCTGTCAGTCATGATTCATCCCGGAGAATTTGTATATGTCGTAGGACCGAGCGGAGCCGGTAAATCTACTTTTATTAAAATGATTTACAGAGAAGAAAAACCGACAAAAGGGCAAATATTGATTAATCATAAAGATCTCGCGTCTGTGAAAGAAAAAGAGATTCCTTTCGTGCGGCGTAAAATAGGTGTTGTTTTCCAAGATTTCAAACTTCTTCCGAAACTGACGGTATTTGAAAACGTCGCGTTCGCGCTTGAGGTTATCGGAGAGCAGCAGTCAGTCATTAAAAAACGCGTGCTCGAAGTGCTCGATCTTGTGCAGCTGAAGCATAAAGCGCGGCAGTTTCCCGACCAGCTTTCCGGAGGAGAACAGCAGCGTGTTTCCATCGCAAGATCCATCGTCAACAATCCTGACGTCGTTATTGCTGACGAACCGACGGGCAACCTTGATCCGGTAACATCATGGGAAGTCATGAAGACGCTGGAAGAGATTAATAACCGCGGAACGACCGTCGTGATGGCGACACACAATAAAGAAATAGTAAACACCATGAAGAAACGGGTCATCGCGATCGAAGACGGAATTATTGTGCGTGATGAGTCAAGAGGGGAGTATGGTTCTTATGATTAA	MIEMKEVYKSYPNGVKAINGLSVMIHPGEFVYVVGPSGAGKSTFIKMIYREEKPTKGQILINHKDLASVKEKEIPFVRRKIGVVFQDFKLLPKLTVFENVAFALEVIGEQQSVIKKRVLEVLDLVQLKHKARQFPDQLSGGEQQRVSIARSIVNNPDVVIADEPTGNLDPVTSWEVMKTLEEINNRGTTVVMATHNKEIVNTMKKRVIAIEDGIIVRDESRGEYGSYD	PGPT0020520_2023	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
D1-12_03790	891	ftsX	COG2177	Cell division protein FtsX	ATGATTAAAATTCTCGGGCGCCATTTGCGTGAGAGTTTTAAATCTCTCGGAAGAAACACATGGATGACATTTGCATCCATCAGCGCCGTTACCGTTACATTGATTTTGGTCGGCGTGTTTTTAGTCATTATGCTGAATTTAAACAACATGGCTAAAAATGCTGAAAAAGAAGTGGAAATTAAAGTATTAATCGATCTGACGTCTAATAAGAAAACGCAGGATACGCTGCAGAATGAGATTAAAGACATCTCGGGAATCCAAAGCGTAGAGTTTTCATCTAAAGATAAAGAGCTTGATCAATTGGTCAAAAGCTTCGGCGACAGCGGAAAGGCCATGAAAATGCAAGATCAGGAAAACCCGCTGAACAACGCGTTTATCGTCAAAACGACAGATCCGCATGATACGCCGAAAGTCGCGAAAAAAATTGAGAAGCTTGATCATGTGTATAAAGTGACATACGGGAAAGAAGAAGTCAGCCGTCTGTTTAAGATCGTCGGGGTGTCACGCAACATCGGGATTGCGTTAATCATCGGCCTTCTGTTCACGGCGATGTTCTTAATTTCAAATACGATTAAAATCACGATTTTCGCCAGAAGAAAAGAGATTGAAATCATGAAGCTTGTCGGCGCGACAAACTGGTTTATCCGCTGGCCGTTCTTCCTGGAAGGGCTGCTGCTGGGGGTATTCGGTTCTATCATACCGATCGCTCTCGTGCTGAGTACGTACCAGTCGATGGTCGCTTGGGTGGCCCCGAAAGTTCAGGGCTCATTTGTTTCACTTCTGCCGTACAGCCCGTTTGTGTTCCAAGTATCACTAGTGCTCATTCTGATCGGCGCGGTTATCGGAGTATGGGGAAGTCTGACTTCCATCCGGAAATTCCTTCGTGTATAA	MIKILGRHLRESFKSLGRNTWMTFASISAVTVTLILVGVFLVIMLNLNNMAKNAEKEVEIKVLIDLTSNKKTQDTLQNEIKDISGIQSVEFSSKDKELDQLVKSFGDSGKAMKMQDQENPLNNAFIVKTTDPHDTPKVAKKIEKLDHVYKVTYGKEEVSRLFKIVGVSRNIGIALIIGLLFTAMFLISNTIKITIFARRKEIEIMKLVGATNWFIRWPFFLEGLLLGVFGSIIPIALVLSTYQSMVAWVAPKVQGSFVSLLPYSPFVFQVSLVLILIGAVIGVWGSLTSIRKFLRV				NA	NA	NA	NA	NA
D1-12_03791	1407			hypothetical protein	ATGAAAATAAAATTATCGATTTTATCCGCGGCGGTTCTGGCCGCAGGCATTACCGCCTTTGTCTGGCCAAAAACAGAGGCCAATGAAAAAATGCAGACGGACGCCCTGTATGTTTCTCCGGCAGGCAGCGACCAAAATGAAGGAACGAAAGAAAAGCCGTTCCGCACATTAAAACATGCGGCTGAAAAGGCAGAGGCCGGGACAACCGTATTGATTCGGGAAGGGACGTACGATGAAACGTTTGAAGTAAAGCACAGCGGCACGGCCGAAAAGCCGATTACATTTCGGAACTATCAGAATGAGCATGTCTCAATCAGCGGCAAATCTGCGCCAAAAAGCGATTCTGAAACTCCGTTAATTCAAATCCGCAATAAACAGTACATTACCATTCACGGCGTTACGCTTGAGAATCTCTCCGTATCATCAGAAGATGCAACGGCCATGGGAATCTTCGTCACCGGATCAAGCAGTCATATCAACATTGACGGCAACCATATCCGAAACATTAAAACCACGGCTGATGAGGGAAATGCACACGGCATCGCATTTTACGGCACAGGCGCCATGAAGGATGTCAGCATCACAAATAATACGGTTGAAAAACTGACGCTCGGCGCAAGCGAAGCGGTCGTGCTGAACGGGAATGTTGACGGATTTAAGATTGCCGGCAATACCATCCGGGACAATAACAATATCGGGATTGACGTGATCGGATACGAAGGAACGTCCAAGCAAAACGACTATGCGCGAAACGGCGTCATTGAAAACAATACGGTGAGCCATAACTCTTCTTACGGAAATCCCGCTTACGGAGATGAATATTCAGCGGGCGGTATTTACGTTGACGGCGCAGAACATGTGGACATTAAGAATAACACCGTTTACAACAATGATCTCGGCATTGAAGCCACTTCCGAACATAAAGGGAAATACGCGCGAGATATCCGGATTACGGATAACAAGGTGTACGGCAATGCTTACACCGGTATTTCAATCGGAGGCTATGACACGAAACGCGGCGGCACCATCAATTCGGTGATCGCTCATAACATTATGTATCGAAATGACACGAAGGACCTTGACGGCGGCCAGCTGCTGCTGCAGTACGGCACAAAAGGGAACACGATCGAAAAAAACATCATGACGGCAAGCGGTTCACGGATTTTTATCGCAAATGATTATACGAAAAACGAAGGCAATACCGTTAATCATAACGTCTATCACAAAGAAGCGGGAAAAGACGGCATTTGGAATTGGAAGAACAGAGAATATGATTCATTCACAGCGTACCAAAAAGGAACGGCAAACGATTTGGATTCCATTTATGCGGACCCGATGTACCGTGACGAATCGTCTTATGACTTTACATTAAAGCCCGGATCACCGGCCCTGCCCGTCATTCAGTAA	MKIKLSILSAAVLAAGITAFVWPKTEANEKMQTDALYVSPAGSDQNEGTKEKPFRTLKHAAEKAEAGTTVLIREGTYDETFEVKHSGTAEKPITFRNYQNEHVSISGKSAPKSDSETPLIQIRNKQYITIHGVTLENLSVSSEDATAMGIFVTGSSSHINIDGNHIRNIKTTADEGNAHGIAFYGTGAMKDVSITNNTVEKLTLGASEAVVLNGNVDGFKIAGNTIRDNNNIGIDVIGYEGTSKQNDYARNGVIENNTVSHNSSYGNPAYGDEYSAGGIYVDGAEHVDIKNNTVYNNDLGIEATSEHKGKYARDIRITDNKVYGNAYTGISIGGYDTKRGGTINSVIAHNIMYRNDTKDLDGGQLLLQYGTKGNTIEKNIMTASGSRIFIANDYTKNEGNTVNHNVYHKEAGKDGIWNWKNREYDSFTAYQKGTANDLDSIYADPMYRDESSYDFTLKPGSPALPVIQ	PGPT0018240_179	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_PECTATE_LYASE|ESTERASE,PGPT0018240-pelX-K22994	NA	NA
D1-12_03792	1401	ctpB	COG0793	Carboxy-terminal processing protease CtpB	ATGAAGCAGAAAATGATCGCAGTGATAGCTGCCGTCAGCATCATGTGCGGCGGAGCCCATATTGCCGGGGCGGCACAGCCGAATTCATCAGACGCAGAAAGAAGCCGGGCAATGGAAAAAATCGAAAAAGCATATGAGCTGATCTCGAACGAATACGTGGAAAATGTAGATAAAGAAAAGCTTCTTGAAGGAGCGATTCAGGGGATGCTGTCTACATTAAACGACCCTTATTCCGTTTATATGGACAAGCAGACCGCCAAGCAGTTTTCCGATTCTCTTGATTCTTCTTTCGAAGGGATCGGCGCTGAAGTCGGTATGAAAGACAATAAAATCATTATCGTATCACCGTTTAAGCAATCTCCGGCGGAAAAAGCGGGCCTCAAGCCGAATGATGAAATCATCAGCATAAACGGCGAGTCAATGAACGGGAAAGGTTTAAACGAAGCCGTGCTGAAAATCAGAGGAAAAAAAGGATCGAAGGTTTCTATTAAAATACAGCGTCCGGGTACTGATAAACAGCTGTCATTCCGGATTAAAAGAGCGGAAATCCCGCTTGAAACCGTATTTGCTTCCCGCAAAGAATCAGGCGGCCATCATGTCGGCTACATCGGCATATCGACATTTTCCGAGCATACCGCCCAGGACTTCGCCGCGGCGCTGAAAAAGCTTGAAAAACAAGGGATTGACGGTCTCGTCCTTGATGTAAGAGGGAATCCAGGCGGCTACCTTCAAAGCGTCGAACAAATTTTAAAGCATTTCATCACAAAAGACATGCCGTATATCCAAATTGCGGAGCGTAACGGCGATAAAAAACAATATTTCTCAACCTTAAAACATAAGAAGCCGTATCCCGTCAATGTCATTACGGATAAAGGAAGCGCCTCCGCTTCAGAAATTCTTGCGGGTGCGTTAAAAGAAGCGGGACATTATGACGTTGTCGGTGACACTTCTTTCGGTAAAGGAACGGTTCAGCAGGCCGTGCCTATGGGAGACGGGAGCAACATTAAATTGACGCTTTACAAATGGCTGACACCGAAAGGCAATTGGATTCACAAAAAAGGCATTGCTCCGACAATCGCTGTGAGCCAGCCGGATTATTTTGCGGCGGGACCGCTTCAGCTGAAACAGCCGCTTCAGCCTGATATGAACAGCGCGGATGTCAAGCACGCCCAAATCCTGCTGAAAGGCCTAGGCTTCGACCCGGGCAGAGCAGACGGCTATTTCAGCAAAACAATGAAAAAAGCCGTTCTGGCGTTTCAAGACCGGTACAAGCTTGATAAAACAGCGGTCATTGATAAAAAGACAGCGGAAAAAATGAATCAGCTGATGAATGAACAGAAATCTGACGAAAAAAATGATTTACAGCTGCAAATGGCGTTAAAATCATTATTTGTAAAATAA	MKQKMIAVIAAVSIMCGGAHIAGAAQPNSSDAERSRAMEKIEKAYELISNEYVENVDKEKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDSSFEGIGAEVGMKDNKIIIVSPFKQSPAEKAGLKPNDEIISINGESMNGKGLNEAVLKIRGKKGSKVSIKIQRPGTDKQLSFRIKRAEIPLETVFASRKESGGHHVGYIGISTFSEHTAQDFAAALKKLEKQGIDGLVLDVRGNPGGYLQSVEQILKHFITKDMPYIQIAERNGDKKQYFSTLKHKKPYPVNVITDKGSASASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPKGNWIHKKGIAPTIAVSQPDYFAAGPLQLKQPLQPDMNSADVKHAQILLKGLGFDPGRADGYFSKTMKKAVLAFQDRYKLDKTAVIDKKTAEKMNQLMNEQKSDEKNDLQLQMALKSLFVK	PGPT0015095_4383	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
D1-12_03793	336			hypothetical protein	GTGCGTGAAAAAAAATATTATGAATTAGTGGAACAACTAAAAGACAGAACAAAAGACGTCACATTTTCATCAACAAAAGCACTAAGTCTTCTTATGCTGTTCAGCAGATACCTGGTCAATTACACAAATGTTGAATGCGTTCACGAAATCAATGAAGAGTGTGCGAAGCATTATTTCACTTACTTAATGAAAAACCATAAACGTTTAGGAATCAATCTGACGGATATTAAGCGGTCCATGCTTCTGATCAGCGGCGTGATCGAGGTGGAGGTTGACCACTATCTGAAAGATTTCTCTCTCTCAAATGTAACGCTGTGGATGACGGAAGAGAGATAG	MREKKYYELVEQLKDRTKDVTFSSTKALSLLMLFSRYLVNYTNVECVHEINEECAKHYFTYLMKNHKRLGINLTDIKRSMLLISGVIEVEVDHYLKDFSLSNVTLWMTEER				NA	NA	NA	NA	NA
D1-12_03794	1191	minJ	COG0265	Cell division topological determinant MinJ	GTGTCTGTTCAATGGGGAATTGAACTTCTGAAAAGTATCGGTCTGTTTTTTTTGCACCCGATGTTCTGGTTTTTTATCATCATAAGTCTCGCATGCGGATATTTGCGGATCAAACGTGAACGCCATACGTTTCATACAAAAATCGCGGATATGTATGACGAGCTTATCTTTACATACATAAAAGGACTTATACCGGGTATTCTTCTCTCCATATTATTTTTTGGACTGGGAATTTCGATTCCATTCGGTCTTCTCGGCATAATCGCGGCTGTGACGGCTTTGGCTTCGCTGACGTTCCGTATGAATTGGCTGTCATCAGCTTATATTGTCAGCGCCGGCATGTTCATTGCGTTTATCCTTCAGTATACCGACACAGTGCCGTTTGCGGATCGGTTTCCGCAGGCATTCGGCGTGAATTGGGCATCGGCGGCCGTGTTTATGGGCCTTTTGATTATCACGGAGGGAGCGGCTGCCTGCCGTTCAGCGCATCTGAAAACATCTCCGGCGCTTGTCGTCAGCAGCAGAGGCCTGCCCATCGGCCGACAATTGGCGAATCGCGCATGGCTGTTTCCGCTTTTCTTATTGGTGCCGGGCAGCGGGCTTGAGTCACACCTTTCCTGGTGGCCTGTCTTTACCGTGCCGGGCGGCTCTTTCCATTTGATCTGGATTCCTTATATCGCCGGCTTCGGACAGCGTGTGCAGGGGTCACTTCCGGAAGTCAGCATAAGGATAACAGCGAAACGTGTCATGATTCTCGGGATTATCGTGGCCGTATTCGGGGCAGCGGCCCTTTGGTGGACTCCGCTTGCCGGAGCTGCCGCTTGTATTGCGGTGCTCGGACGCCTGTTTTTATCATTGAGACAGCGGCTGAACGATAACGCGGCTCCGTTTTATTTCTCTAAGCGGGATCAGGGCTTAATGGTGCTCGGCATCATTCCGAACACACCCGCGGACGATCTTGAGCTGAAGATCGGTGAGATTATTACGAAGGTAAACGGCATCCCCGTGAAGCATGTATCGGATTTTTATGAAGCACTTCAAAAAAACCGCGCATTTGTAAAAATGGAGATCATCGGCCTGAACGGTGAGATCCGGTTTGATCAGCGCGCGTCCTATGAAGGCGAACATCATGAATTAGGTATTTTATTCGTGCAGGATGAACACGAGCACGAAGAAATGACAGCATTATAA	MSVQWGIELLKSIGLFFLHPMFWFFIIISLACGYLRIKRERHTFHTKIADMYDELIFTYIKGLIPGILLSILFFGLGISIPFGLLGIIAAVTALASLTFRMNWLSSAYIVSAGMFIAFILQYTDTVPFADRFPQAFGVNWASAAVFMGLLIITEGAAACRSAHLKTSPALVVSSRGLPIGRQLANRAWLFPLFLLVPGSGLESHLSWWPVFTVPGGSFHLIWIPYIAGFGQRVQGSLPEVSIRITAKRVMILGIIVAVFGAAALWWTPLAGAAACIAVLGRLFLSLRQRLNDNAAPFYFSKRDQGLMVLGIIPNTPADDLELKIGEIITKVNGIPVKHVSDFYEALQKNRAFVKMEIIGLNGEIRFDQRASYEGEHHELGILFVQDEHEHEEMTAL	PGPT0016196_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016196-swrB|ylxL-NA	NA	NA
D1-12_03795	363			hypothetical protein	ATGTACTGTGAACAACAAGATTGGATATATTCAATTATGACTGAGGATGATATAAGAAAGGGATATAGCTTAAAAGGAACGACTTTTTCAAATCCTCTTGAACGGGGACAATATGATTCAGAAGGAAAGGCGTGTATTACTATGCAAGGGTTTATATATATGCTACATATAGAACTTTTAGATTTAATTGCAAATTCTTACGATTCTAGAAGAGGGGCTACGCCTAGAGAATTATGGGAAAGAGGAATGAAAGAAAATCCACAATTAAAATTTGGAACTATACAGTTAATGTTATTTGTCCCATACATAATTTGTATTTGGTTAATGAATGCCCAAGATGTAACAGTAAGATATCTCCGATAA	MYCEQQDWIYSIMTEDDIRKGYSLKGTTFSNPLERGQYDSEGKACITMQGFIYMLHIELLDLIANSYDSRRGATPRELWERGMKENPQLKFGTIQLMLFVPYIICIWLMNAQDVTVRYLR				NA	NA	NA	NA	NA
D1-12_03796	261			hypothetical protein	TTGTTAGATCATGTAAAGGTAGAAGAGGGTTGTATTAGTTTTGTTCATTTTTTTTATAATTTATATTATGAAATTAAAACCTTTGATACTCAAATAGATGCGATATGGAACCTTAAATTTGTAGAATTACTTAATTTAATGATTACAATTTGGTTAAGGATAGGAGGGTATAATAAAGAGAAGAGGCCAATTGTTGATTTTTCAATGCAAAATGAAGTAACTATTAAAAAAAATCTGGGAGGATTATGGTGGATATATTAA	MLDHVKVEEGCISFVHFFYNLYYEIKTFDTQIDAIWNLKFVELLNLMITIWLRIGGYNKEKRPIVDFSMQNEVTIKKNLGGLWWIY				NA	NA	NA	NA	NA
D1-12_03797	693			hypothetical protein	GTGGATATATTAATTACTGGGGCAAATAGGGGCTTAGGGCTTGGATTTGTCGAAGTTGGATTAGAAAAAGGGTACCGAGTTTTTGCTGGAGTCAGAGATCCGAATGAACAAAAAAGGACTCAATTAACCAAATTAAAAGAGAAAAATAGCAACCAGTTAGAAATTCTTCATTTAGATGTCACAGACGAGGAATCTGTTCGTGAAGCAGCTCGTAATGTAGGTGAAAGTCTTGATGTGATTATCAATAATGCTGCCATTCTTAATGGAAGGGGTACGTCTATTGAGGATCTTGATATAGAGGCTATCAAACTAGCATTTGATGTCACGTTAGGACCAGCCCGTGTGATTAAACATTTTCTACCTTTGCTGAAAAAGGGTGAGAATCAATCCATTATCAACATCTCGTCAGAAGGTGGTAGTCTAACAAATGCATATAGTGGTGATTATCCTTATGGATTGTCGAAAGCTGCCTTAAATATGTTGTCCGAGAAGCTCCATGTAGCATTAAAGAATGAAGGCATTCAAGTCCTTTCCGTCCATCCAGGGTGGGTAAGGACGGATATGGGAGGAATGATAGCCCCGACACATCCAAAAGAAACAGCAGAAGATATTTATAATCTCATTAATCGACAAGTTCGTATCGATAGTGAATTTGTTTTCGTTGACTATCAAGGGAAACCGATGAGCATTTGA	MDILITGANRGLGLGFVEVGLEKGYRVFAGVRDPNEQKRTQLTKLKEKNSNQLEILHLDVTDEESVREAARNVGESLDVIINNAAILNGRGTSIEDLDIEAIKLAFDVTLGPARVIKHFLPLLKKGENQSIINISSEGGSLTNAYSGDYPYGLSKAALNMLSEKLHVALKNEGIQVLSVHPGWVRTDMGGMIAPTHPKETAEDIYNLINRQVRIDSEFVFVDYQGKPMSI	PGPT0010015_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BUTIROSIN_METABOLISM,PGPT0010015-btrF-K20570	NA	NA
D1-12_03798	17103	dltA_5		D-alanine--D-alanyl carrier protein ligase	ATGAAACCCTATACAAAATCAGTATTAGAGGATGGAGTTAATATAACACTTGATCAATTACTTGGAATTTATGCTAACGAGAAATCAAGGGGAGTTTACTTTACTCAATCCGATGGCTCTGAATTGTTTGAGTCTTATGAAAGTCTTTATTTTAATGCCAAATCCATCTTAGGGGCACTACAAAAGCAGGGATTTCAGAAGGGCTCTTATATTATCTTTCAGACAAACAATAATTTATTCTTTATAAGGTTGTTTTGGGGTTGTATTTTAGGAGGCATGATCCCCGTTCCTCTGTCTGTACCGCTAATTGCATCGCCTGACACTGAAGCTTTCAAGAAGTTAGTGAAAGTAAGTGAGCAGTTGCCGAATGCGTGGATAATTACTGATGAAAGAAATTTAAATACGTTTAGAGAAAGTTATGAAGCCAATAATTTGAAATACTTAGAGTATGAAACCTTAGCATGTAATATGGAAGAGGGGCAATGCGTTACAGTAGATTGTCAGGACTTAGCGTATATACAATATTCGTCTGGCAGCACAGGTAACCCTAAAGGAGTAAAATTAACACATGAAAATCTAGTTTATAATTTGGCACAGATAGTAGATCGTTTGAAACTAGACACAAATGATGTCATGGCTAGTTGGTTACCATTGACACATGATATGGGCTTGATCGGTTATCATTTAACTCCGATATTTGCGGGTATATCTCATTCCCTTCTAAATTCGGGTACATTTTTAAAGAAATCTTGGCTATATCTTCAAAAATGTGCGCAATTAAAAGCAACGGTGCTTGTAAGTCCGAATTTTGGATTAGACTGGATGATAAAGACTGTAAAGGATTCACATTTAGAAAATATTGATTTATCTAGTGTGCGAAACATAATGTGTGGTGCAGAACCAATATCAATGGATACCATTAGACGATTTTATGAAAAATTCTCGTCTTCTGGCTTGCGTGAAAATACGATCCATCAAGTCTATGGTATGGCAGAAGCTAGTCTGGCTGTTACTATTCCTGAAGAAGGACATAATAGAAGTGTATGTATTAACCGTCATAAAGCTCGTATTGGTCAAGAAGTGGAGTATATAGAAACGAAGGAGCCAAATGCAGCAGAGTTTGCCATAGTAGGAGAACCATTATATGAATTAGAAATATTGATTGTAGATGATGAAGACCACATCTTAGGGGAAAATTACATAGGCAATATAGTGATCAAGGGGAAAAATGTATTTGAGGGATATATGAATCATGATAGTTCCCCTTTTAATGAACAGGGCTTCTTCTGTACAGGAGATTTAGGACTTTTACGCAATGGAGAACTCATTGTAATGGGCAGAAAGAAGGATATTCTGTTTGTAAATGGTCAGAATTATTATGCTAGCGATATAGAAAATATGTTAACATTGGCGATCCCAGAGTTGTCTCAAGTCGTTGTGTGTGGTGTTCGCAATCCGTCATCGATCAGGGATGAAATTATAGTATTTGTACATAATCGAAAAGATGCCAAGGCATTTTTGCCACTTGCCCATCAAGTGCAGGATATGGTATTAGAACGGGTTGGAATAGCTGCAGATTATGTAATTCCAATAAAAACGATACCGAAAACAACAAGTGGAAAGGTGCAACGTTTTCTTTTAATAGAGCGATTTGAGAATCATGAGTTTGATGATGTTATCGCAATAGCTCCATATTATTATGAGAGTAGCAAGGAATCTGCAAAGAAGCCAGCATGGAACAAAGCGGAGATTGAAAATCAAATCGTTGAAATTGCAAAAGAAGTATTCTCTATCCCTTCTTTGAAAGTAGACGATACGATTTCTCGGATGGGAGTTAGTTCGTTAACGTTGATTCGTTTCCAGGATGAAATCAATCAACGATTTCAAGTTGAAATCCCCATTGTAAGCCTTTTCAAAATGTCTACTCTAGAACAAATAATTACGATTGTAGGGGAACAACTACAGGTAGAGGATGTCCAAACATCTGAATTAACAGGGAATAAAGACATGTGGTATGAGCCATTTCCGGTAACAGAAATACAAGGAGCCTATTTAGTTGGAAGACAAAATATTATGGAAATGGGCAACATCTCCACACATGCCTATTATGAGTTTGAAACAGAATTAGATATTAAACGCTTAAACGATGCATTGAATCGAGTTTTAGAGCGTCAGCTTATGCTGCGTACTATTTTTGATGATACAGGAATGCAAAAAGTTCGGCGTTCTAATTCTTCTTATGATATTTGTATTGAAGATTTACAAGACTTGTCTTTAGAGGATCAACAAAAACGTATATTGGAAAAAAGAAATCACAGGTCACATTTTGTTTTTCAACAAGATCATTGGCCATTATTTGAGTTGTCTGCATTTATTCTTGGCGAGAAGAAAAATTATCTCTTCCTGGATATTGACTTATTAATTGCTGATGGAGGCAGTTTATTAATTTTAATACAAGAGATAATGGATTATTATGAGAAACCGAATATGGAGATTGAACCTTTAACCTTTCAATTTTCAGATTATGTAAGGGCATTGGAGAGCTTTCGTGAATCTTCCGCCTATCAAAAAGCTCAAGACTATTGGCAAGCCAAAATAGAGGATTTTCCCTATGCACCTCAGCTACCATTAGTTTGTGAGCCAGAATTCATAGAGAGACCAATATTTCAGCGCATGGAGAAGAGTCTGACAACTCATGAATGGAATGTTGTGAAAGGCTTAGCAGCTCAGTATGGTGTAACACCATCTGTATTCTTATGTACAATTTATGCGGAAGTTTTGGGCAAATGGAGCAATCAATCCAGAATGGCACTTAATTTAACTTTATTTAATCGGCAGTCCTTTCATCCAGACGTAATGAAGTTAATTGGAGATTTCACATCAGTTTTACTGTTAGATATTGATTTGTCTGTTCATAGTGCTTTTTGGGAGAGAGCATCTATGGTTCAAGATATATTATTTGAAGCAGTAGACCATCGTTTTTATAGTGGTGTTGATGTTATACGAAATATTGCAAGTAAGAGAGAAATGACTAGTAAAGCGATTATGCCAATTGTATTTACTAGTATGTTATTCGATAAATCGGAATTTACAGATGTTCTGCCAAAATTAGGAAAAATAAAATACGGAATAAGCCAGACCCCTCAAGTATTTTTAGATTTCCAAGTCACGGAAAGAGACGGACAATTAATGATGACTTGGGATTATGCGAAGGATCTGTTTGATGAAGATATGATCAGTGCCATGTTTGAAACGTATCAACTTCGATTGCAGCAAGTTATAGACAATAATCTTTCATCTATGCCGCTGCCTGTAACACAGTCTGAACTACTGCTTGATTACAATGATACACAAGGAGATTATGAAGGGGATTTACTGCAAAGATTAATAGACCAGCAATGCCAGAAGACGCCAGATGCTATTGCAGTCAAATTAGGACAAGATACATTGACCTATGGCGAGTTGGCGAGAAAATCCAATCAGGTCGCTCGCTATTTAGCAGAACAAAACTATGCGCACAATTCTTATATTGGAGTTTGGGCAGAGAGACGAATCGAGACCATTGTAAATACGGTGGGTATTTTAAAAGCCGGCCATGCTTATATTCCTGTGAATCCGGAACATCCTGAGGAAAGAATAAAATATATCGTGGAACATAGTGATATCAAGCTGATGATTCATCCGGATTTATATGAAAAAGAGAACCTGTCCACCTATAACGATGGCGCCTTAGAACTGTTAGAAGGCTGCCAGCAGGATAAAGCCTATGCTATCTATACGTCAGGAAGTACTGGACATCCTAAGGGTGTTGTGATCACCCATGAAGCAGTAGTGAATACATTATTAGATATTAATAAGAAATTCAAAGTAGGTAGCGAAGATAAAATCATTGCCCTATCATCGATGAGCTTTGATTTATCCGTCTATGATATTTTTGGAGCACTCATTAGTGGAGCCCAGTTAGTATTAATTCCAGATCTTTTAGATATGAGTAGCATTCATCAGATCATGATCGAAGAAGAAATCACGATATGGAATTCGGTTCCGGCCATTATGGATATGTATCTGGAAAGCACAAAACAAGACACAGTGCGGAGATCTGCAGCAGAGCGCTTACGTATGGTGATGCTAAGTGGAGACTGGATTTCTCTTGGTTTGCCGGAGAAAATCAAAACAAGAATGCCAAAAGCACAAGTGATCGGGTTAGGTGGAGCAACGGAAGGCTCTATATGGTCCATCTATTTCCCAATCACAGAAGTGAAGCCAGAGTGGAAAAGTATCCCTTATGGATATCCGTTGAAAAATCAACAAATTTACGTACTGGATGATTGTGGAGAAGAATGCCCGGTAGGCGTTCCAGGAGAACTGCATATTGGTGGAAAAGGAGTCGCCGTAGGTTATCTCAATGAAGAAGAGAAGACGAAGGCCGCCTTTATCAACCATAGATTAGGGTATCTGTACAAAACAGGTGATTATGGTGTGATGCGTCAGGAAGGATATGTAGACTTCCTTGGAAGAAAAGATAGTCAAGTAAAGATACGTGGACATCGTGTCGAACTGGGAGAAATAGAACACTGTATCAATCATTTGCCAAATATTCACCAGTCCGTAGTCGCTGATTATAGTGATTCCCATGGAGAGAAGCAGCTGTGTGGGTATATTGTTGCAGATGAGGTAGTAGAATTGGCAGAAATAAAAAGAGAGTTAGCCAAATATCTGCCTGATTATATGATCCCGGCACAATTCATACAGGTAGATGAGATTCCACTATCTGCAAATGGTAAGGTAGATCGTAAATTATTGCCGAATCCAGAAAAGTATATTGAAGAAAGTAAGATGATCAGGGGTTATGAGGCACCAAAGACCCAGACGGAAAAATTGGTAGTAGAGGCATTTGAACATGTACTTGGTATGGAAAGAGTAAGTGTAAATGACAATTTCTTTGATTTGGGTGGAGATTCGATCAAGGCCATCCATATTCTAAACAAGATAAGAGAAGCTGGATACGATAGCTCCATGCGAAATCTTTTGATGGAGAGAACACCGAAGCTAATAGCCATGAATTTATCCACGAAAAAAGAAATTATACCTGCGGAGCAAGGAGAAATAAGTGGTGAGATTTCACTGACACCAATTCAAAACTACTTCTTCGCACAAAATATGATGAATCCTGAACATTTTAATGTATGCCAAGTGTTTAAGGTTCGTGAAAAACTAAATGTCCTGGCACTACAAAAAGCTTTGTCTGCGTTAGTACAGCATCATGATATGTTGAGAGCTACGTACAAAGATAAGAAACAGGTTATAGGGAAAGTAGAAGATAAGAAATGGTACGGCTTTACAACAATAGCATGTGAATCTGAAGAGATTCAGGAAAAAATTAAGACAACGAAAGTAAAGATGGATTTGGCGGAAGGACCATTATTGCAGGCTGTTTTATTTAGTACGCCGGAGCAAGATTATATGATGTTGCTAGCTCATCATATGATAATGGATGTGATTTCCTGGCGAATTTTAAGTGAGGATTTGGAGAAGGGCTACTCTCAAGCTTTGAATCAGAAAGAGATAACATTACCAGCTAAAACCGTTTCCTTTAAAGTATGGAGCGAAGGATTAGCTCGTTACAGCCAGAGTGAAAAGTTAAAGAGAAGGATAGCTTACTGGTCAGAGTTAGAAAATAAATTGGTTGATGGCAAGTTAAAAGAAGATAGCACTGATGATAAATTCGAACCAAAGACAGCCGTGGTATGTCTTAATTCCACGATCACAGAAAAGTTATTAAAAGAAAGTGCACATGCTTATAATACAGAGATTAATGACTTACTTGTAACAGCACTGGGACGTGCGGTAAACAAAGTAACAGGTCAGAGAACGCTTGCTATACAGATGGAAGGACATGGTCGTGAAGAAACAGTAGGGTCTTTTGATTTAGGTAGGACAATAGGATGGTTCACTAGTATATATCCCGTAGTTTTAGAAGAGTTAGGCACTAATATTGCTCAGGATATTCGAAATACGAAAGAGAACCTACGACGTGTGCCAGCACATGGAATTGATTATGGCCTCATAAAGTATGCAGACATGGTTAATTCAGAAGAAATGGATGTGGAAGTGGCACCAGATATATCATTTAATTATCTTGGAGAACTAGGAACAAAGAAAGAATCTGGCGATCCATATTTTGAGTTTTCACAACTGGGTTATGGACAGGATACGGATCCTCGCAATCAATTTGGACCATCCATTAACGTCATAGGTCATGTGCAAAATGGTAGTTTATCTATGACAGTAACCTGCAACAGCAGTCGTTATTTAGCTGAGAGAATTGAGCAAATAGGAAAAGCATATGAAGAAGAACTGATAGCGGTCGCAGAACATTGCTCCCATGCACAGAAGAGTGAGTCAACGGCAAGTGATTTTGGTGAGAGGGTATGGAAAGATAGCGAATTTTGTTATGTACAGGAAGCTGCCAAAAACCGCGGCGAAGAAGTTCAACGTATCTATCCTTTGGCTCCTGTGCAAGAGGGAATGCTCTATGAGAAGCTTTTGGATGAATCCTCTACGAAGTATGTTGTTCAGCAGACGTTGCGATTGACGGAAGTAGATGTAGAGAAGATGCACAAAGCTTTTGAATCTCTAGCAACACAGCATGATATTTTACGTACAAAGATCTGTTATCGGGGAGTAAGTGTGCCAAGACAAGTTGTATTGAAAGAAAGAAATCTGGAATTTAATTATATGGAAGTAGATAATGAATCCGATTATCTTGATTTAAAGGAACAAGATGTAAAACGTGGATTTGATTTAGAAGAAGATACACTAGTTCGTATGAATCTGATAAAAATAAACAATAGTGGATATCGATTGATCATGACGAACCATCATATTATTTTAGATGGTTGGTGTTTGCCAATTTTGCGTAGAGATTTGTTTAATGCGTATATGGCAACAGACGAAGAGTGTTTAAAAATACCTAATAAGACTGCTTCTAATAAAATGGGCAGCTATGAAAAATTTGTAGATTATATAAATGAAAAAGATAAAGAGCCGAGCCTTAAATATTGGGAAGACCTTCTTCAAGGATATGAGACAAGGGCTGATATTCTGCCTATGGGTCGTCCAGAAGAAACAGAAGAAGAGAGTCAGAGTCAAGAGTTTAAGTTAAGCTTGGAGGTAACCGAACAAGCAGAAGCGGTATGTGCCAAGTACGATGTAACATTGAACACGCTAGTAGAAGCTTGTTGGGGCGTTTTATTGGAAAAATACAACTCAACCAATGATGTCGTTTTTGGAAAGGTTGTATCTGGTAGAAATGCAGAGATTGAAGGTATTGAAGAAATCGTTGGTTTATTTATCAATACAATACCTGTACGTATATCGACAACAAACGAAGACACATTTGCCGATTTGTTGAAATCATTACAGGACCAAGCAATTGCTGCAAATGATCACGATTTTCTTCCTTTAGCAGAAATACAGAATCGTACTTTATTAGGAAGGAATCTAATTGGAACCTTATTCTTCTTTGAAGGCTATCAAGGAACAAGTATCAATATTGATGGCAAATTAAATGTGGAATCTGAATATTACCGCGAACAAATCGGGTATGACTTGGGAATGACAGCATTTAAGAGTGATCGTCTTCATTTTAGAATTCTATTCAGTACAAAGCTATATAACAAGGAAGAAATAAACATTATCGGTTCCCATTTGCAAAGACTTATGGAACAAGCAATTGCAGCACCACACACGAAATTAACCGAATTAGGCATGACAAATGAAGCGGAAGAAATGAAAGAATTAGTACAGTTTAACGCAACGGATCGTGACTATCCAAGAGACAAGACCATTGTCCAATTATTTGAGGAACAAGTAGCAAGAACACCCCATAATACAGCAGTGGTATGCGGGAATGAGCAATTGAGTTACGCTGAATTAAATGCTCGTGCCAATAAACTTGCATTAAGGTTACGACGGGAATACCATGTCCAGCCTGATGATTTTGTTGCGATTATAGCAGAAAGAAGTATTGAGATGGTGGTCGGATTATATGCCATCCTGAAGTCGGGTGCAGCATATGTACCAATTGACCCGTTTTATCCAGAAGAACGCATCGAGTATATATTGGAAGATAGCCAGCCGAAAGCGGTTTTAATTGGTCATGGAAAGTATAATATTTCCCCTGAAAAGGTTGTCGACTTATATAGTGCAAGCAATTATGAAGAAGGTGCAGAGAATCCTGAACATGTAAATACTCCTCATGATCTTATTTATCTGGTTTATACATCGGGTACAACAGGAAAACCAAAAGGAGTTATGGTAGAGCATCGGAATATAGTCAATCAGCAGATGTGGACACAAAGAGAATATCCATTACACGAGGGAGAATCTCTTTTAATGAAGACCACTTGTGCCTTTGATGTTTTTGCCTGGGAAGTATTTTGGTGGATGTTAGCGGGTGGTAAACTTGTTATTTTGCAACAAGGAGAAGAAAGTCAAAGTGACAAGATCATCAAGGTAATTCAGGATTATAAAGTCAATGCAATCCAGTTCGTTCCTTCAATGTTCAATATGTTCTTAGAAGAATTAGATATGAGCAAAGAGAGAATAAATACGCTACGTTATATCATTAATATTGGTGAGAAACTGAATGCAGAAAGTGTGAGACATTATAATCAATTAAGGGAAAAAGGACAAGTAAGAGCAGAACTACTGAATCTCTATGGTCCAGCAGAAACTACAGTTAATTCCAGTGGATATCATTGTCCAACAGACTTAAATGTAGATAAAGTATGGATTGGTGAGCCTATTAGTAATACACAAATTTATATATTATCAAATGAAAAAATAGCCGGAATAGGTGTACCAGGGGAATTATGTATTGCAGGAGAAAGTGTGTCGCGTGGATACTTAAATCGTGAAGAATTGACAGCACAGAAATTTATTAAAAATCCTTTTGGTTCAGGAATGATGTATAAAACAGGTGATCTGGCACGGTGGATACCGGATGGAAATATTGAGTACCTTGGCCGTATAGATGATCAGGTTAAGATAAGAGGTTTCAGAATCGAACCAGGAGAAATTGAAAGTACTTTGATGGAACTCGAAGGAGTTAGTGGAGCAGCCGTTGTAGTACGACAAGACAAGCAAGGAGAAAAATATCTGTGTGCTTATGTAGTCGTTCATACAGAAGTAGAAAAATTAGACGAAGATACAATCAAGAGTGAATTACGCAAGAAGTTACCAGACTATATGGTTCCTTTATATATTATTCGAATTGACCAAATTCCATTAAGTCATAATGGAAAGCTGGACAAAGCGGCACTACCAGAACCAGAATACAAGTCTAAGGAATATGCAGCACCAACAAATAGAGAAGAGAAGTTAGTAGTTGAAGCATTTGAGAAAATCCTAGGAGTAACAGAAATTAGTGTCCATGATAGCTTTTTTGACTTGGGTGGTCATTCACTGAAAGTTACATTATTGTGTAATGAATTAGAAAAGACAATCGGTATAAAACTGAAGCTTAGTGAAATATTTGCTTTATCTACACCCAAACGTATTGCAGAAAGAATTGGAAGTTTACAATATGATAGTTTTTCGGAAATACCGAAAATAGCTAAAGCAGAGTTCTATCCTATGAGTTCTGTTCAAAAGCGACTTTATCTTCTCAATGAGATAGTAGGTCCTAGTATTTCCTATAACATTTCGAATGTCATAAAATATGAAAACACTCTGGATAAAGAGCAGCTACAGGGAGCGTTAGATAAACTCTTAGAGAGAGAAGAAGTATTGAGAACCAGCTTCCATCTTATTAATGGAGAGCCAGTTCAAGTGATTCAACCAGATGCGAGAGTAGTATTAGAATACAAAGAAGCAGATACACTAGATATTCAAGATGAATATGATCGTTTTGTTTGCCCATTTGATTTATCCAAAGCACCTTTGATGCGGGTTAAGTTACTACAGACGCCACAAGCTTCATACTTGATGCTGGATATTCATCATATTGTTTCTGATGGAGAAAGTCTGCCTATTATGATGAACTGGATAAGCGAGTTATATGAAGGAAATACTTTATCAATGCCAAGGGTTCATTATAAAGATTTCTCTGCTTGGCAAATGACTCAGGATATTACGAAGCAGGCGGCATATTGGAAGAACGAGTTCTCAGGCGAAATTCCAATACTAAATTTGAATACAGATTTCCAACGTCCTAAGAAAAAGAGCTTCAATGGAGCCGACGTAAAAACTAAGATTGAAGAACCAGTTTTTATGGAAATAAAAGAATTAGCGAAGAAGCATGGTGCTACGGAATTCATGATTATGTTATCAACCTTTATGCTTCTATTGAGCAAGTACAGTCAACAGGAAGAAATTATAGTCGGAACTCCTGTATCAGGTAGAACCCACGTTGATACACAAGACATGCTGGGGATGTTTGTAAACTCCTTGGCTATCAAAGGAAATGTGAAACAAGAGGAGAGTTTTGAACAAGTATTGCTAGGAGTAAAAGAAAAATGTCTTCTTGCGTACGATAATTCGGACTTTCAATATGAAGACTTGGTTGAGGCAGTAGATGTAAAGAGAGATTTATCAAGAAATCCATTATTTGATGTAATGTTTATGATGCCAGAGAGTGAAATTATGTCTGGTTCAAAGAGCATTATGAGTGGAACATGGGTACCAATGGAAGGAAAAGTAGCTAAGTTTGATCTGAATTTAATGGTAATACACACATCAGAGGGTTATGTGGTCAATTTAGAGTATTCTACAGATTTATTTAAACAGGAAACGATAAAGCAAATGTTGGATGATTATGTTTCATTGCTTTCAGAAGTTGTCAAGAATCCAGAAGATCGTTTGCAAAAGCTACTTAAGAAAGAGGATGTTAAGAAAGAGGAGAAAGATTTGACCCAAGCAGAGCTTGATAATCATGCCGATCTTTTGGCACGGCAAGTTTCAGATTTGATGAAAGCATTGCATCAAAGAGATCAAGCCTACTGGAAGAAGAAAGCAGGTGATTTCCCGGATGCACCACAGTTACCGCTTCTTTCTAATGGGAGTGCTGTAAACAACGCAACAGTAAAACGTTTAGAAACGAAAATTTCTGCAAAAGACTGGGCGATTGTGAGAAACAAAGCTTTGGATAACAGAATTGCACCATCTGCGTTATTGTGCACAATATATGCGGAAGTTCTATTTAAATGGAGCAATCAATCCAATATGGCACTTAGCTTAAATCTGTTTAGTAATCAGCCTTTTCATCAAGATGGAATGTCGCTGATGGGGGATTTTGTATCAAAATTGTTGTTGGATATCGATTTATCATCTCACAGACCATTTTGGGAAAGAACTACTGAGATTCAGAATCGGTTATTTGAAGCGTTAAACCACAGATTTTACAGTGGGGTTGATTTCCTGCGTGATCTGGCTGAACATCGTGGTCAAGAAGCTCAAGCTATAATGCCAATTATATTTACAAGCATGCTTCGTGGCGAAGTGGATTCTTTCAATGCCAATATAGGTAGTAGGGGAGAATTGAAATACGGAATAAATCAGGCCCCTGAAGTATTTTTGGACTTCCAAGTTGCGGAAAGCGACGGACAATTAATGATGACTTGGGATTATGTGGAGGATTTGCTTGATGAAGATATGATCCGTGCCATGTTTGAAACGTATCAACTTCGATTGCAGCAAGTTATAGACAATAATCTTTCATCTATGCCGCTGCCTGTAACACAGTCTGAACTACTGCTTGATTACAATGATACACAAGGAGATTATGAAGGGGATTTACTGCAAAGATTAATAGACCGGCAATGTCAGAAGACGCCAGATGCTATTGCAGTCAAATTAGGACAGGATACATTGACTTATGGCGAGTTGGCGAGAAAATCCAATCAGGTCGCTCGTTATTTAGCAGAACAAAACTATGCGCACAATTCTTATATTGGCGTTTGGGCAGAGAGACGAATCGAGACCATTGTAAATACGGTGGGTATTTTAAAAGCCGGCCATGCTTATATTCCTGTGAACCCGGAACATCCTGAGGAAAGAATAGAATATATCGTGGAAAATAGTGATATCAAGCTCATGATTCATCCGGATTTATATGAAAAAGAGAACCTTTCCACCTATAACGATGGTGCCTTGGAATCGCTAGAAGGCTGCCAGCAGGATAGAGCCTATGCTATCTATACGTCAGGAAGTACTGGACAGCCTAAGGGCGTTGTGATCACCCATGAGGCAGTAGTGAATACACTATTAGATATTAATGAGAGATTCAAAGTAGGCAGCGAAGATAAAATCATTGCCCTATCATCGATGAGCTTTGATTTATCTGTCTATGATATTTTTGGAGCACTCATTAGTGGAGCCCAGTTAGTATTAATTCCCGATCTCTTAGATGTGGCCAGCATTCATCAGATCATGATCGAAGAAGAAATCACGATATGGAACTCGGTTCCGGCCATTATGGATATGTATCTGGAGAATACAAAACAAGATACAGTGCAGAGATCTGCAGCAGAACGCTTACGTAGGGTGATGCTAAGTGGAGACTGGATTGCTCTTGGTTTGCCGGAGAAAATCAAAACAAGAATGCCAAAAGCACAAGTCATCGGGTTAGGTGGAGCAACAGAAGGCACTATATGGTCCATCTATTTCCCAATCACAGAAGTGAAGCCGGAGTGGAAAAGTATCCCTTATGGCTATCCGTTGAAAAATCAACAAATTTATGTACTGGATGAATGGGGAGAGGAATGCCCGATAGGCGTTCCAGGAGAACTGCATATTGGTGGAAAAGGAGTCGCCGCAGGTTATCTCAATGAAGAAGAGAAGACGAAGGCCGCCTTTATCAACCATAGATTAGGGTATCTGTACAAAACAGGTGATTATGGTGTCATGCGTCGGGAAGGATATGTAGACTTCCTTGGAAGAAAAGACAGTCAAGTAAAGATACGTGGACATCGTGTCGAATTAGGAGAAATAGAACACTGTATCAATCATTTGCCCAATATTCACCAGTCCGTAGTCGCTGATTATAGTGATTCCCATGGAGAGAAGCAGCTGTGTGGGTATATTGTTGCAGATGAAACAGTAGAATTGGCAGAAATAAAAAGAGAGTTAGCAAAATATCTGCCTGATTATATGATCCCGGCACAATTCATACAGGTAGATGAGATTCCACTATCTGCAAATGGTAAGGTAGATCGTAAATTATTGCCGGACCCGGAAAAGAATATTGAAGAAAGTCAGATGATCAGGGGTTATGAGGAACCAAAGACCCAGACGGAGAAATTGGTAGTAGAGGCATTTGAATATGTACTTGGTATGGATAGAGTAAGTGTAAACGACAATTTCTTTGATTTGGGTGGATACTCGCTTAATGTAATCCGGCTGTGTAATGAATTAGAGAAGAGTGCAGGGGTAAGGTTACCACTTAGAGAAATTTTTGATTTAGTTACACCAAAAAATATTGCAGAACAAATTAAAAACTCAAAGGTTGTAAATACGTTTGAAGAAATACCAGAAATAGCAGAAGCAGAAAGCTATTCTATAAGTTCAGCTCAAAAGAGACTTTATCTTTTAGACCAACTAACAGGTCCTGGTACAACTTATAATATTCCTTTAGTAATCAAGCTTAAAGTTAAACCAGACGATAAGCGACTTCAGAGAGCATTGGATCAATTAGTAGAGCAAGAGGAAATTTTGAGGACAAGCTTCCATATAGTGAATGGTGAGCCAATTCAAAAAATTTCCTCAGATGCAAGAATTGTGCTGGAGCACAGTGAAGTTAATACAGCAGATTCACAGTATATCCAGGATGAATATAATACTTTCGTCCAACCATTTGACCTGTCAAAATCACCACTAATGCGTGCAAAAATACTGGATACTCCAAATGATTCATACTTATTTTTGGATATTCACCATATTTTATGTGACGCAGAAAGCATGCCGATTATGCTCTACAAAATACAAGAGTTATATGAAGGAAGAGAATTGTTAACACCACGAGTACAGTATAAAGACTTTTGTGTTTGGCAAAATGCTAGAGATATAACAGAACAGGCAGCGTACTGGAAGAAAGAATTTTCTGGTGATATACCAGTCCTGGATTTAATCATGGATTATCCACGCCCTCATAAACAAAGTTTTAGAGGTGCTAATTTCCGAACACAGGTAGAAGAAAACACGAGTATTCAAGTAAAAGAGTTAGCGAAGAAGTATGGTGCAACTGAGTTTATGGTTTTGTTATCCATCTTTTTCTCTATGTTAGGAAAATACAGTCGACAGGAAGAAATTATAGTAGGAACTCCAATATCGGGACGAAACCATACGGATACCCGAAATATGTTGGGCATGTTTGTAAACACTCTGGCAATCAAAGGGAATGTCTGCTCCGATGATTCATTTGAGGATGTATTATTAGGTATAAAAGAGAAATGTTTACAGGCGTACGATAACAAGGATTATCAGTTCGAGGATTTAGTTGAAGCAGTGGGAGTAAAGAGAGATTACTCAAGAAACCCAGTATTCGATGTGATGTTTGTATTGCAGGACGATGAGAGAGAGAGTTATTCGGATCGAATTCAATTTGGAACGAGGGAATCCGTTGAAGGAAGTATTTCTAAATTTGATCTTACCTTAACCATGATAAGTGATTCAGAAGGCTATAAGATTGATTTTGAATATTCTACAGACTTATTCAAACCAGAAACGATCGAGTACATGGCAAAACACTTCTTAACACTAATTGAAGGAGTTTTAATGTCTCCGGAAAAGAAGCTGCAGGATATTGCCATGGTAGATATGAACGAAGAAGCAAAAATATTGGATGAGTTCAATATGACGGATGCAGAATACCCTGATAATAAGACGATTGTGCAGTTACTTGAAGAGCAGGCTGCCAGAATACCTAATAGTATAGCAATTACATTTAATGGACAACAGCTGACCTATGCACAATTAAATGAACGGGCGAATGCTCTGGCAAGAAAACTTCGAATGGACTATAACATTCAACCCAATGACTTTGTGGTGATCTCAACAGAGAAGTGTTTGGAGATGGTGGTGGGTATATACGCTATTTTAAAGGCTGGAGCAGCTTACGTACCGGTTGATCCATCTTATCCAGAGGAAAGAATTAATTATATCATTAATGACTGTAAACCAAAGGTCGTATTATGCGGTACAAAAGAACCTGAAGCTGACATTCCTATCATGAATCTTCATGATGAGGCAAATTATAAAATGGAATGCAGTAACCTTGTCCATGTAAATCAATCAAGTGATTTGATGTATGTAATTTATACCTCTGGTACGACTGGCAGGCCTAAGGGTGTTATGGTTCAGCATGTAAATGTAGTGCGATTACTTAAGAATGACAAGTTTAAGCTTGATTTCTATGAAAATGATATTTGGGTTCAATTCCATTCTTATTGTTTTGATGTTTCGGTTTGGGAAATATTCGGATGCCTATTAAATGGAGCAAAGCTTGTAATTCCTTCTGAAGATACGGTAAAAGATGGATATGCTTTTGGAGAGCTTTTGCAAAAAGAAGCGGTAACAATCTTATGCCAGGTACCTTCGCCATTTTATGCGTTGATCGATGCAACGACAGGACAAACAATAAATAGTTTACGATATGTTATTTTTGCAGGAGAGGCACTTTATCCAACACATTTGAAGAAATGGCATGAGAACAATAGGCATTGTCGTCTGGTTAATATGTACGGGCCTACAGAGACCACGGTATACGCTACTTATCGCGATATTGATGCTGAAGCCATCGAGAGAGGAATTAGCGACATAGGAAAGCCACTTCCAACATTGAAGATTTATATGTTAAATGGAAATGAACTTTGTGGAATTGGAGTTCCGGGTGAGTTATGTATAACAGGTGAGGGTGTATCTCAAGGATATTTAAATCGACAAGACCTGACAGACGAGAAGTTTGTACACAACCCATTTGGATCCGGAAAGATGTATCGGACAGGTGATTTGGCACGTTGGTTACCTAACGGAAACATTGAATATATTGGACGGATGGATGACCAAGCAAAAATCAGAGGATATCGTATTGAACCACGAGAAGTAGAAAGCCGTTTATTGGAGCTTGAAGGCATAAATGAAGCTGTAGTCATAGTGCGAGAAGACAAAAGGAATGAGAAATTCCTGTGTGCCTATGTAATAACTGAGACAGAAATAGAAGAAAAGGACGTTAAGATCAAGTTAAGTAAAGTATTACCAGATTACATGGTGCCTGCACATATTATTTCGGTTGATGCGATTCCGCTGACAAGTAACGGGAAACTTGACAAAGCCTCATTACCACAGCCGCAGTATAAGTCAAAGGAATATATTGCACCACGAAATGAATATGAAACTCTGATCGTGCAGGCATTTGAGAACATTCTAGATATTGAAAAAGTCAGTGTAACTGATAGCTTCTTTGATCTAGGGGGATCGTCACTGAAAGCAGTGCTCTTGTGCAATGAATTGGAGAAGGCCATAGGAGTAAGATTGTCAATTAGAGATGTTTTTACTTTTGGTACGCCCGAGCAGATAGCGGGAAATATCGAGTCGATTGAGAACGAGATGTTTGTGGCAATAGAACAAGCTTCAGCAGCTGAATACTACCCTACAAGTTCAGCTCAGAAACGACTCTATCTTCTAGACGAGATGACCGGACCTAACATTAACTACAACGTATCGGATGTCTATGCCTACGAAGAACCGCTGGATAAAGAAAGGCTACAGAAGGCTTTGGATAAGCTGTTACAGCAAGAAGAGATACTGCGAACTAGTTTCCATGTTGTGGACGGTGAACCCATTCAAACGATTTCTCCAGACGCAAGGGTTTTAATAGACTACAGCGAAGTGGACGAAATAGATGTACAAACAGAATACGATAAATTTATACAACCGTTTAATTTATCCGAAGCACCGTTGATGCGTGTGAAATTAATGAAGACAACAACGGCCTCCTATCTATTTGTTGATATTCATCACATTATATGTGATGGAGAAAGCCTGCCAGTTATACTGCATCAGGTGAACGAATTTTATGAAAATGATGAAACTGATCATGAATAA	MKPYTKSVLEDGVNITLDQLLGIYANEKSRGVYFTQSDGSELFESYESLYFNAKSILGALQKQGFQKGSYIIFQTNNNLFFIRLFWGCILGGMIPVPLSVPLIASPDTEAFKKLVKVSEQLPNAWIITDERNLNTFRESYEANNLKYLEYETLACNMEEGQCVTVDCQDLAYIQYSSGSTGNPKGVKLTHENLVYNLAQIVDRLKLDTNDVMASWLPLTHDMGLIGYHLTPIFAGISHSLLNSGTFLKKSWLYLQKCAQLKATVLVSPNFGLDWMIKTVKDSHLENIDLSSVRNIMCGAEPISMDTIRRFYEKFSSSGLRENTIHQVYGMAEASLAVTIPEEGHNRSVCINRHKARIGQEVEYIETKEPNAAEFAIVGEPLYELEILIVDDEDHILGENYIGNIVIKGKNVFEGYMNHDSSPFNEQGFFCTGDLGLLRNGELIVMGRKKDILFVNGQNYYASDIENMLTLAIPELSQVVVCGVRNPSSIRDEIIVFVHNRKDAKAFLPLAHQVQDMVLERVGIAADYVIPIKTIPKTTSGKVQRFLLIERFENHEFDDVIAIAPYYYESSKESAKKPAWNKAEIENQIVEIAKEVFSIPSLKVDDTISRMGVSSLTLIRFQDEINQRFQVEIPIVSLFKMSTLEQIITIVGEQLQVEDVQTSELTGNKDMWYEPFPVTEIQGAYLVGRQNIMEMGNISTHAYYEFETELDIKRLNDALNRVLERQLMLRTIFDDTGMQKVRRSNSSYDICIEDLQDLSLEDQQKRILEKRNHRSHFVFQQDHWPLFELSAFILGEKKNYLFLDIDLLIADGGSLLILIQEIMDYYEKPNMEIEPLTFQFSDYVRALESFRESSAYQKAQDYWQAKIEDFPYAPQLPLVCEPEFIERPIFQRMEKSLTTHEWNVVKGLAAQYGVTPSVFLCTIYAEVLGKWSNQSRMALNLTLFNRQSFHPDVMKLIGDFTSVLLLDIDLSVHSAFWERASMVQDILFEAVDHRFYSGVDVIRNIASKREMTSKAIMPIVFTSMLFDKSEFTDVLPKLGKIKYGISQTPQVFLDFQVTERDGQLMMTWDYAKDLFDEDMISAMFETYQLRLQQVIDNNLSSMPLPVTQSELLLDYNDTQGDYEGDLLQRLIDQQCQKTPDAIAVKLGQDTLTYGELARKSNQVARYLAEQNYAHNSYIGVWAERRIETIVNTVGILKAGHAYIPVNPEHPEERIKYIVEHSDIKLMIHPDLYEKENLSTYNDGALELLEGCQQDKAYAIYTSGSTGHPKGVVITHEAVVNTLLDINKKFKVGSEDKIIALSSMSFDLSVYDIFGALISGAQLVLIPDLLDMSSIHQIMIEEEITIWNSVPAIMDMYLESTKQDTVRRSAAERLRMVMLSGDWISLGLPEKIKTRMPKAQVIGLGGATEGSIWSIYFPITEVKPEWKSIPYGYPLKNQQIYVLDDCGEECPVGVPGELHIGGKGVAVGYLNEEEKTKAAFINHRLGYLYKTGDYGVMRQEGYVDFLGRKDSQVKIRGHRVELGEIEHCINHLPNIHQSVVADYSDSHGEKQLCGYIVADEVVELAEIKRELAKYLPDYMIPAQFIQVDEIPLSANGKVDRKLLPNPEKYIEESKMIRGYEAPKTQTEKLVVEAFEHVLGMERVSVNDNFFDLGGDSIKAIHILNKIREAGYDSSMRNLLMERTPKLIAMNLSTKKEIIPAEQGEISGEISLTPIQNYFFAQNMMNPEHFNVCQVFKVREKLNVLALQKALSALVQHHDMLRATYKDKKQVIGKVEDKKWYGFTTIACESEEIQEKIKTTKVKMDLAEGPLLQAVLFSTPEQDYMMLLAHHMIMDVISWRILSEDLEKGYSQALNQKEITLPAKTVSFKVWSEGLARYSQSEKLKRRIAYWSELENKLVDGKLKEDSTDDKFEPKTAVVCLNSTITEKLLKESAHAYNTEINDLLVTALGRAVNKVTGQRTLAIQMEGHGREETVGSFDLGRTIGWFTSIYPVVLEELGTNIAQDIRNTKENLRRVPAHGIDYGLIKYADMVNSEEMDVEVAPDISFNYLGELGTKKESGDPYFEFSQLGYGQDTDPRNQFGPSINVIGHVQNGSLSMTVTCNSSRYLAERIEQIGKAYEEELIAVAEHCSHAQKSESTASDFGERVWKDSEFCYVQEAAKNRGEEVQRIYPLAPVQEGMLYEKLLDESSTKYVVQQTLRLTEVDVEKMHKAFESLATQHDILRTKICYRGVSVPRQVVLKERNLEFNYMEVDNESDYLDLKEQDVKRGFDLEEDTLVRMNLIKINNSGYRLIMTNHHIILDGWCLPILRRDLFNAYMATDEECLKIPNKTASNKMGSYEKFVDYINEKDKEPSLKYWEDLLQGYETRADILPMGRPEETEEESQSQEFKLSLEVTEQAEAVCAKYDVTLNTLVEACWGVLLEKYNSTNDVVFGKVVSGRNAEIEGIEEIVGLFINTIPVRISTTNEDTFADLLKSLQDQAIAANDHDFLPLAEIQNRTLLGRNLIGTLFFFEGYQGTSINIDGKLNVESEYYREQIGYDLGMTAFKSDRLHFRILFSTKLYNKEEINIIGSHLQRLMEQAIAAPHTKLTELGMTNEAEEMKELVQFNATDRDYPRDKTIVQLFEEQVARTPHNTAVVCGNEQLSYAELNARANKLALRLRREYHVQPDDFVAIIAERSIEMVVGLYAILKSGAAYVPIDPFYPEERIEYILEDSQPKAVLIGHGKYNISPEKVVDLYSASNYEEGAENPEHVNTPHDLIYLVYTSGTTGKPKGVMVEHRNIVNQQMWTQREYPLHEGESLLMKTTCAFDVFAWEVFWWMLAGGKLVILQQGEESQSDKIIKVIQDYKVNAIQFVPSMFNMFLEELDMSKERINTLRYIINIGEKLNAESVRHYNQLREKGQVRAELLNLYGPAETTVNSSGYHCPTDLNVDKVWIGEPISNTQIYILSNEKIAGIGVPGELCIAGESVSRGYLNREELTAQKFIKNPFGSGMMYKTGDLARWIPDGNIEYLGRIDDQVKIRGFRIEPGEIESTLMELEGVSGAAVVVRQDKQGEKYLCAYVVVHTEVEKLDEDTIKSELRKKLPDYMVPLYIIRIDQIPLSHNGKLDKAALPEPEYKSKEYAAPTNREEKLVVEAFEKILGVTEISVHDSFFDLGGHSLKVTLLCNELEKTIGIKLKLSEIFALSTPKRIAERIGSLQYDSFSEIPKIAKAEFYPMSSVQKRLYLLNEIVGPSISYNISNVIKYENTLDKEQLQGALDKLLEREEVLRTSFHLINGEPVQVIQPDARVVLEYKEADTLDIQDEYDRFVCPFDLSKAPLMRVKLLQTPQASYLMLDIHHIVSDGESLPIMMNWISELYEGNTLSMPRVHYKDFSAWQMTQDITKQAAYWKNEFSGEIPILNLNTDFQRPKKKSFNGADVKTKIEEPVFMEIKELAKKHGATEFMIMLSTFMLLLSKYSQQEEIIVGTPVSGRTHVDTQDMLGMFVNSLAIKGNVKQEESFEQVLLGVKEKCLLAYDNSDFQYEDLVEAVDVKRDLSRNPLFDVMFMMPESEIMSGSKSIMSGTWVPMEGKVAKFDLNLMVIHTSEGYVVNLEYSTDLFKQETIKQMLDDYVSLLSEVVKNPEDRLQKLLKKEDVKKEEKDLTQAELDNHADLLARQVSDLMKALHQRDQAYWKKKAGDFPDAPQLPLLSNGSAVNNATVKRLETKISAKDWAIVRNKALDNRIAPSALLCTIYAEVLFKWSNQSNMALSLNLFSNQPFHQDGMSLMGDFVSKLLLDIDLSSHRPFWERTTEIQNRLFEALNHRFYSGVDFLRDLAEHRGQEAQAIMPIIFTSMLRGEVDSFNANIGSRGELKYGINQAPEVFLDFQVAESDGQLMMTWDYVEDLLDEDMIRAMFETYQLRLQQVIDNNLSSMPLPVTQSELLLDYNDTQGDYEGDLLQRLIDRQCQKTPDAIAVKLGQDTLTYGELARKSNQVARYLAEQNYAHNSYIGVWAERRIETIVNTVGILKAGHAYIPVNPEHPEERIEYIVENSDIKLMIHPDLYEKENLSTYNDGALESLEGCQQDRAYAIYTSGSTGQPKGVVITHEAVVNTLLDINERFKVGSEDKIIALSSMSFDLSVYDIFGALISGAQLVLIPDLLDVASIHQIMIEEEITIWNSVPAIMDMYLENTKQDTVQRSAAERLRRVMLSGDWIALGLPEKIKTRMPKAQVIGLGGATEGTIWSIYFPITEVKPEWKSIPYGYPLKNQQIYVLDEWGEECPIGVPGELHIGGKGVAAGYLNEEEKTKAAFINHRLGYLYKTGDYGVMRREGYVDFLGRKDSQVKIRGHRVELGEIEHCINHLPNIHQSVVADYSDSHGEKQLCGYIVADETVELAEIKRELAKYLPDYMIPAQFIQVDEIPLSANGKVDRKLLPDPEKNIEESQMIRGYEEPKTQTEKLVVEAFEYVLGMDRVSVNDNFFDLGGYSLNVIRLCNELEKSAGVRLPLREIFDLVTPKNIAEQIKNSKVVNTFEEIPEIAEAESYSISSAQKRLYLLDQLTGPGTTYNIPLVIKLKVKPDDKRLQRALDQLVEQEEILRTSFHIVNGEPIQKISSDARIVLEHSEVNTADSQYIQDEYNTFVQPFDLSKSPLMRAKILDTPNDSYLFLDIHHILCDAESMPIMLYKIQELYEGRELLTPRVQYKDFCVWQNARDITEQAAYWKKEFSGDIPVLDLIMDYPRPHKQSFRGANFRTQVEENTSIQVKELAKKYGATEFMVLLSIFFSMLGKYSRQEEIIVGTPISGRNHTDTRNMLGMFVNTLAIKGNVCSDDSFEDVLLGIKEKCLQAYDNKDYQFEDLVEAVGVKRDYSRNPVFDVMFVLQDDERESYSDRIQFGTRESVEGSISKFDLTLTMISDSEGYKIDFEYSTDLFKPETIEYMAKHFLTLIEGVLMSPEKKLQDIAMVDMNEEAKILDEFNMTDAEYPDNKTIVQLLEEQAARIPNSIAITFNGQQLTYAQLNERANALARKLRMDYNIQPNDFVVISTEKCLEMVVGIYAILKAGAAYVPVDPSYPEERINYIINDCKPKVVLCGTKEPEADIPIMNLHDEANYKMECSNLVHVNQSSDLMYVIYTSGTTGRPKGVMVQHVNVVRLLKNDKFKLDFYENDIWVQFHSYCFDVSVWEIFGCLLNGAKLVIPSEDTVKDGYAFGELLQKEAVTILCQVPSPFYALIDATTGQTINSLRYVIFAGEALYPTHLKKWHENNRHCRLVNMYGPTETTVYATYRDIDAEAIERGISDIGKPLPTLKIYMLNGNELCGIGVPGELCITGEGVSQGYLNRQDLTDEKFVHNPFGSGKMYRTGDLARWLPNGNIEYIGRMDDQAKIRGYRIEPREVESRLLELEGINEAVVIVREDKRNEKFLCAYVITETEIEEKDVKIKLSKVLPDYMVPAHIISVDAIPLTSNGKLDKASLPQPQYKSKEYIAPRNEYETLIVQAFENILDIEKVSVTDSFFDLGGSSLKAVLLCNELEKAIGVRLSIRDVFTFGTPEQIAGNIESIENEMFVAIEQASAAEYYPTSSAQKRLYLLDEMTGPNINYNVSDVYAYEEPLDKERLQKALDKLLQQEEILRTSFHVVDGEPIQTISPDARVLIDYSEVDEIDVQTEYDKFIQPFNLSEAPLMRVKLMKTTTASYLFVDIHHIICDGESLPVILHQVNEFYENDETDHE				NA	NA	NA	NA	NA
D1-12_03800	465	ctsR	COG4463	Transcriptional regulator CtsR	GTGGGACATAATATTTCTGACATCATTGAACAGTACTTGAAACAAGTATTAGATCAAAATGGCAAAGAAATTTTAGAGATCAAACGCAGTGAAATCGCTGATAAATTTCAATGTGTTCCTTCCCAAATAAATTATGTCATCAACACCAGATTTACAAGTGAAAGAGGATATATTGTTGAAAGTAAACGGGGAGGCGGCGGTTATATTCGTATTATCAAAATTAAAATGAATAACGAAGTCGTCCTCATCAATAATATTATTTCGCAGATTCATACCCACTTGTCCCAGGCAGCCTCTGATGACATTATTCTCAGACTGTTAGAGGACGGAGTTATTTCGGAAAGAGAAGCTAAAATGATGGTGAGTGTAATGGATCGTTCAGTGCTATATATTGATTTGCCCGAACGGGATGAACTAAGAGCCAGAATGATGAAAGCAATGCTCACATCTTTAAAACTAAAGTAA	MGHNISDIIEQYLKQVLDQNGKEILEIKRSEIADKFQCVPSQINYVINTRFTSERGYIVESKRGGGGYIRIIKIKMNNEVVLINNIISQIHTHLSQAASDDIILRLLEDGVISEREAKMMVSVMDRSVLYIDLPERDELRARMMKAMLTSLKLK	PGPT0014610_235	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014610-ctsR-K03708	NA	NA
D1-12_03801	381	mcsA	COG3880	Protein-arginine kinase activator protein	ATGGAGTCCTCATTTCAAAACACCGGTTCTCAAATGTTCGGCTACTCAGAGCAAGGCACAGCTTGTAAGAAATGCGGTATGACGTTTCAGCAGCTGAGAAAAACAGGGCGTTTCGGCTGTGCGGAATGTTACGATACGTTCTACAGCCAAATTACGCCGATCTTGCGAAAAGTTCACAGCGGGAATACGGTGCATGCCGGGAAAATTCCAAAACGAATAGGCGGAAACCTGCATGTAAGACGGCAAATGGAAATGTTAAAAAAAGAACTTGAATCTTTAATACACCACGAAGAGTTTGAAAGAGCAGCGGAGGTCAGGGATCAGATCCGATCGTTAGAGCAGGAATTAAAAAGTACAGACAGTGAGGGGGAACAAGGGTAA	MESSFQNTGSQMFGYSEQGTACKKCGMTFQQLRKTGRFGCAECYDTFYSQITPILRKVHSGNTVHAGKIPKRIGGNLHVRRQMEMLKKELESLIHHEEFERAAEVRDQIRSLEQELKSTDSEGEQG	PGPT0014655_88	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014655-mcsA-K19411	NA	NA
D1-12_03802	1092	mcsB	COG3869	Protein-arginine kinase	ATGTCGCTCAAGCATTTTATTCAGGACGCACTAAGCAATTGGATGAAGCAAAAGGGACCTGAAAGTGACATTGTACTCAGCAGCCGTATACGGTTGGCCCGAAACTTTGAAAATATAAAGTTTCCCGCCCGGTATACGAATGAAGAAGCCTCATCCATCATTCAGCAATTCGAAGATCATTTTTCAGGTAAGGAACTGCCTGATATCGGTCAATTTCATTTAATCAGAATGAGTGAAGCTCAGCCTTTGGAAAAACGGGTGCTGATGGAGAAACATCTGATCAGCCCGAATTTAACGGAATCTCCTTTTGGCGGCTGTCTGCTTTCTGAAAATGAAGAAGTCAGCATTATGTTAAATGAAGAAGATCATATCAGAATTCAATGCCTCTTCCCCGGCTTCCAGCTTCTCAATGCCATAAAAGCGGCAAACCAGGTTGATGACTGGATTGAGGAGAAAGTGGATTACGCCTTTGGAGAGAAGAGAGGGTACTTAACAAGCTGTCCTACAAATGTAGGGACGGGACTAAGGGCTTCAGTCATGATGCATTTGCCGGGCCTTGTATTAACTAGGCAAATGAATCGAATTATCCCGGCAATTAACCAATTAGGCTTAGTTGTTAGAGGAATTTACGGTGAAGGCAGCGAAGCATTAGGAAATATCTTTCAAATTTCAAATCAAATCACACTCGGAAAATCAGAACAGGACATTGTAGATGATTTAAACAGTGTGGCTGCCCAGCTGATTGAGCAGGAACGTTCAGCCCGAGAAGCGCTTTACCAAACTTCGAAAATTGAATTGGAGGACCGGGTATTCAGATCTTACGGCGTTTTATCCAACTGCCGTATGATTGAATCAAAGGAAACGGCGAAATGCCTTTCTGACGTTCGACTGGGGATAGACCTTGGGATCATCAAAGGGCTATCAAGCAATATACTTAATGAACTGATGATTTTGACACAGCCGGGTTTTCTCCAGCAATATTCGGGCGGTGCATTACGGCCGAACGAAAGAGACGCGAGAAGAGCGGCGCTTATCAGGGAAAGGCTGCATTTAGAAATGAGTGCAAATAGACAGGAGGATGATTCGATATGA	MSLKHFIQDALSNWMKQKGPESDIVLSSRIRLARNFENIKFPARYTNEEASSIIQQFEDHFSGKELPDIGQFHLIRMSEAQPLEKRVLMEKHLISPNLTESPFGGCLLSENEEVSIMLNEEDHIRIQCLFPGFQLLNAIKAANQVDDWIEEKVDYAFGEKRGYLTSCPTNVGTGLRASVMMHLPGLVLTRQMNRIIPAINQLGLVVRGIYGEGSEALGNIFQISNQITLGKSEQDIVDDLNSVAAQLIEQERSAREALYQTSKIELEDRVFRSYGVLSNCRMIESKETAKCLSDVRLGIDLGIIKGLSSNILNELMILTQPGFLQQYSGGALRPNERDARRAALIRERLHLEMSANRQEDDSI	PGPT0014660_60	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014660-mcsB-K19405	NA	NA
D1-12_03803	2436	clpC	COG0542	Negative regulator of genetic competence ClpC/MecB	ATGATGTTTGGAAGGTTTACAGAGCGAGCTCAAAAGGTATTGGCACTGGCACAGGAGGAAGCACTGCGCTTAGGCCATACAAATATCGGAACTGAACATATACTATTAGGGTTAGTCCGTGAAGGTGAAGGGATCGCATTTAAAGCTTTAGAAGCTCTTGGCCTTAATTCAGATAAAATGCAGAAAGAAGTGGAAAGTTTGATCGGTCGAGGGCAGGAAAGTGCCACCTCTGTTCCTCATTACACACCTCGAGCCAAAAAGGTAATAGAGCTATCAATGGATGAAGCCAGAAAGCTAGGACATTCTTATGTGGGAACAGAACACATACTTCTCGGATTGATCCGTGAAGGAGAAGGCGTGGCGGCGAGAGTTCTGAATAATCTCGGTGTCAGCTTGAATAAAGCGAGACAGCAAGTGCTGCAGCTTCTGGGAAGCAATGAGACGGGGTCTTCTGCATCCGGTACCAACAGCAATGCAAACACGCCGACGCTTGACAGTCTGGCGCGTGATTTAACTGCGATTGCGAAGGAAGACAGTCTTGATCCGGTTATCGGGCGAAGCAAAGAAATTCAGCGTGTTATTGAGGTATTAAGCCGCAGAACGAAAAATAATCCCGTTCTTATCGGAGAACCGGGTGTAGGTAAAACTGCGATTGCTGAAGGCCTTGCACAGCAGATCATCAATAATGAAGTGCCGGAAATTTTACGTGATAAACGCGTAATGACGTTAGACATGGGTACGGTTGTAGCCGGTACGAAATACCGCGGAGAATTTGAAGACCGCTTGAAAAAAGTAATGGATGAAATACGTCAGGCCGGCAATATTATTTTATTCATTGACGAACTGCATACACTGATCGGAGCAGGGGGAGCAGAAGGTGCGATTGACGCATCGAATATTTTAAAACCTTCACTGGCCCGCGGAGAGCTTCAATGCATCGGTGCCACAACGCTTGATGAATACCGTAAATATATCGAAAAAGACGCGGCTCTCGAGCGCCGTTTCCAGCCGATTCAGGTGGATCAGCCGTCAGCCGATGAAAGCATTCAAATTTTAAAAGGGCTCCGTGACCGCTATGAAGCGCATCACCGCGTATCCATTACCGATGAAGCGATCGAAGCCGCGGTTAAATTGTCCGACCGTTATATTTCTGACCGCTTCCTTCCGGATAAAGCGATCGATTTAATTGATGAAGCCGGTTCAAAAGTGCGTCTCCGTTCTTTCACAACGCCTCCGAACTTAAAAGAGCTTGAGCAGAAACTCGATGAAGTTCGCAAGGAAAAAGACGCTGCCGTTCAGAGCCAGGAGTTTGAAAAAGCGGCTTCCCTTCGTGATACGGAGCAGCGCCTGAGAGAACAGGTGGAAGACACGAAAAAAACCTGGAAAGAAAAACAAGGCCAGGAGAACTCCGAAGTTTCTGTAGAGGATATCGCGATGGTTGTATCCAGCTGGACCGGGGTGCCCGTATCTAAAATTGCCCAAACGGAAACAGATAAGCTTCTCAATATGGAAAGCATTCTGCATTCCCGCGTCATCGGCCAGGATGAAGCCGTTGTAGCCGTGGCAAAGGCTGTCAGACGTGCAAGAGCCGGACTGAAGGACCCGAAACGTCCGATTGGTTCATTCATCTTCTTAGGCCCTACAGGCGTTGGGAAGACAGAGCTGGCAAGAGCGCTGGCGGAATCCATTTTCGGTGATGAGGAAGCGATGATCAGAGTGGATATGTCCGAATACATGGAGAAACACTCGACTTCACGTCTTGTCGGTTCTCCTCCGGGATATGTCGGCTATGATGAAGGCGGCCAGCTGACAGAAAAAGTGAGAAGAAAACCTTACTCTGTCGTATTGCTTGATGAAATTGAAAAAGCACACCCTGATGTGTTTAACATTCTCCTGCAAGTGCTTGAAGACGGACGCTTGACTGATTCAAAAGGACGCACTGTGGATTTCCGCAACACGATCCTGATTATGACGTCAAACGTCGGGGCGAGCGAGCTGAAGCGCAACAAATATGTGGGCTTCAATGTCCAGGATGAATCACAAAACCATAAAGACATGAAAGACAAAGTCATGGGAGAGCTGAAGCGTGCCTTCAGACCTGAGTTTATCAACCGGATTGACGAAATTATCGTCTTCCACTCCCTTGAGAAAAAACATCTTACAGACATCGTGTCGCTTATGTCTGATCAGTTAACAAAACGTCTGAAAGAACAAGATCTCTCTATCGAGCTGACGGATGCTGCCAAAGCAAAAGTAGCAGAAGAGGGCGTCGATTTGGAATACGGCGCACGTCCGTTAAGAAGAGCGATTCAAAAGCATGTGGAGGACCGGTTATCAGAAGAACTCCTCAGAGGCAATATTGATAAAGGCCAGCACATTGTTCTTGATGTTGAGGACGGCGAATTTGTCGTAAAAACAACTGCTAAAACGAACTAA	MMFGRFTERAQKVLALAQEEALRLGHTNIGTEHILLGLVREGEGIAFKALEALGLNSDKMQKEVESLIGRGQESATSVPHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNETGSSASGTNSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDELHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSADESIQILKGLRDRYEAHHRVSITDEAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKTWKEKQGQENSEVSVEDIAMVVSSWTGVPVSKIAQTETDKLLNMESILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEEAMIRVDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDEIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASELKRNKYVGFNVQDESQNHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTDIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIDKGQHIVLDVEDGEFVVKTTAKTN	PGPT0014585_2924	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696	NA	NA
D1-12_03804	1380	radA	COG1066	DNA repair protein RadA	ATGGCTAAATCAAAAACAAAATTCATCTGCCACTCATGCGGTTATGAATCCGCAAAATGGATGGGAAAGTGCCCGGGCTGCGGGGCTTGGAATACAATGGTGGAAGAAACCATAAAAAAAGCGCCGGCGAATCGGCGGGCGGCTTTCTCCCACTCCGTTCAAACCGTCCAGAAACCATCACCCATTACATCAATTGAAACATCAGAAGAACCCCGCGTTCAAACAAAGCTCGAAGAATTCAACAGAGTGCTTGGCGGCGGCGTTGTGAAAGGCTCGTTAGTATTGATCGGCGGCGATCCCGGGATCGGAAAATCCACGCTCCTTCTCCAAGTATCCGCACAATTAGCAGATACGGCCGGCAGCGTGCTTTACATTTCAGGGGAAGAATCCGTGAAGCAAACGAAGCTGCGCGCCGACAGACTTGGCATCAACAGCCAAATGTTACATGTTTTATCTGAAACCGATATGGAGTATATTTCGTCTGCTATACAAGAGATGAAACCCGCATTTGTTGTCGTAGACTCCATTCAGACCGTTTACCAAAGTGATATCACCTCAGCTCCCGGCAGTGTATCACAAGTAAGAGAGTGTACGGCCGAATTGATGAAAATCGCGAAAACAAACGGCATACCTATTTTTATCGTCGGACACGTCACAAAAGAAGGATCGATCGCAGGGCCGAGATTGCTTGAGCACATGGTCGATACCGTTCTATACTTTGAAGGAGAGCGGCATCATACATTCCGTATTTTGCGGGCCGTAAAAAACCGTTTCGGCTCAACAAATGAAATGGGCATCTTTGAAATGCGGGAAGAGGGGCTTACGGAAGTGCTCAACCCTTCTGAAATTTTCTTGGAAGAGCGTTCTGCCGGGGCATCGGGTTCGAGTATCGTTGCGTCAATGGAAGGAACGAGACCGATTCTGGTTGAAATCCAGGCGCTCATATCACCGACCAGTTTTGGAAACCCGCGCCGCATGGCTACAGGCATTGACCACAACAGGGTATCGTTAATTATGGCTGTGCTTGAGAAGCGTGTGGGTCTTTTGCTTCAAAATCAAGATGCATATTTAAAAGTCGCCGGCGGGGTCAAACTGGATGAACCGGCGATTGATTTGGCAGTAGCCGTCAGCATTGCCTCAAGCTTCAGAGATACACCGCCGAATCCCGCAGATTGCTTTATCGGTGAAGTGGGACTGACAGGAGAAGTCCGCAGGGTGTCAAGAATCGAACAGCGCGTAAAAGAAGCGGCGAAACTCGGCTTCAAGCGCATGATCATACCTGAGGCGAATGCAGACGGGTGGACAATACCAAAAGGGATTGAGGTTGTCGGAGTAGCAAATGTTGCAGAAGCGCTTCGTACTTCATTAGGAGGATCATAA	MAKSKTKFICHSCGYESAKWMGKCPGCGAWNTMVEETIKKAPANRRAAFSHSVQTVQKPSPITSIETSEEPRVQTKLEEFNRVLGGGVVKGSLVLIGGDPGIGKSTLLLQVSAQLADTAGSVLYISGEESVKQTKLRADRLGINSQMLHVLSETDMEYISSAIQEMKPAFVVVDSIQTVYQSDITSAPGSVSQVRECTAELMKIAKTNGIPIFIVGHVTKEGSIAGPRLLEHMVDTVLYFEGERHHTFRILRAVKNRFGSTNEMGIFEMREEGLTEVLNPSEIFLEERSAGASGSSIVASMEGTRPILVEIQALISPTSFGNPRRMATGIDHNRVSLIMAVLEKRVGLLLQNQDAYLKVAGGVKLDEPAIDLAVAVSIASSFRDTPPNPADCFIGEVGLTGEVRRVSRIEQRVKEAAKLGFKRMIIPEANADGWTIPKGIEVVGVANVAEALRTSLGGS	PGPT0014905_1960	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
D1-12_03805	1083	disA	COG1623	DNA integrity scanning protein DisA	ATGGAAAAAGAGAAAAAAGGGGCGAAACAAGAGCTTGACCTGTCTGCAATTCTGCAGTTCGTTGCACCGGGCACCCCGCTCAGAGCCGGGATAGAGAATGTACTTCGGGCAAATACAGGCGGCCTGATTGTTGTCGGATACAATGATAAGGTAAAGCAAGTCGTCGATGGCGGTTTTCATATTAATACATCATTTGCGCCCGCTCACTTATACGAGCTGGCCAAAATGGACGGTGCCATTATTTTAAGTGATTCCGGCCAGAAAATTCTTTATGCGAATACACAGCTTATGCCGGAGGCGACCATTTCTTCTTCAGAAACGGGAATGAGGCACCGTACGGCGGAACGGGTGGCGAAGCAGACCGGCTGTCTCGTCATCGCCATTTCTGAGCGCAGAAATGTCATTACGTTATATCAGGACAGCATGAAGTACACACTAAAGGACATAGGTTTTATTTTAACAAAGGCAAATCAGGCCATTCAAACGCTCGAGAAGTATAAAACCATTTTAGACAAAACAATTACGGCTCTAAACGCATTAGAGTTTGAGGAGCTTGTGACATTCAGTGACGTGCTGTCTGTCATGCATCGGTATGAAATGGTGCTCCGAATAAAAAATGAAATCAATATGTATATTAAAGAACTCGGAACGGAAGGACACTTAATCCGTCTGCAGGTGATTGAACTGATTACGGACATGGAAGAAGAGGCGGCACTTTTCATCAAAGACTATGTCAAAGAAAAAATCAAAGATCCGTTCGTGCTGTTAAAAGAGCTCCAGGATATGTCCAGCTATGATCTGCTGGATGATTCCATTCTGTTTAAACTGCTTGGATACCCGGCTTCTACGAATCTTGATGATTATGTGCTCCCGAGAGGCTACAGGCTGCTGAACAAAATTCCGCGTCTGCCGATGCCGATTGTTGAAAATGTGGTTGAGGCGTTCGGATTTTTGCCAAGCATAACGGAAGCCACTGTAGAAGAGCTTGATGATGTCGAGGGTATCGGCGAAGTGCGCGCCCAAAAAATCAAAAAAGGCTTAAAACGCCTTCAGGAAAAACACTATATAGATAGACAGCTTTAA	MEKEKKGAKQELDLSAILQFVAPGTPLRAGIENVLRANTGGLIVVGYNDKVKQVVDGGFHINTSFAPAHLYELAKMDGAIILSDSGQKILYANTQLMPEATISSSETGMRHRTAERVAKQTGCLVIAISERRNVITLYQDSMKYTLKDIGFILTKANQAIQTLEKYKTILDKTITALNALEFEELVTFSDVLSVMHRYEMVLRIKNEINMYIKELGTEGHLIRLQVIELITDMEEEAALFIKDYVKEKIKDPFVLLKELQDMSSYDLLDDSILFKLLGYPASTNLDDYVLPRGYRLLNKIPRLPMPIVENVVEAFGFLPSITEATVEELDDVEGIGEVRAQKIKKGLKRLQEKHYIDRQL	PGPT0014770_280	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
D1-12_03806	1101	yacL	COG4956	putative PIN and TRAM-domain containing protein YacL	ATGTTAAAACGAATAGTTCAGGCGTTCTTCATTATTGTGGGCGGCGTTGTCGGTATCTTTTTAATACCTGAATTGTTTGTGCTGTCAAATATACAGGACATACCTTTAATAACAAACGCATATACGTCTGCTGCAATTGGTGCTATTATCTTTTTTCTCATCAGTATATGGACGACAGAATATGTGATTAATTGGGTAAAATGGATTGAAGATTCTTTGCTGAGAGCTCCGGTGCCGGATCTGTTATTCGGGAGTCTCGGATTGGTTTTTGGACTTATCATCGCATACCTCATTGTAAACGTGATTCCGCTGGACAATATTCCGTACCGTATATTCAGCACCATCATTCCGGTCTTTCTGGCTTTCTTTCTCGGTTATCTGGGCTTCCAAGTCGGATTTAAGAAAAAGGATGAACTGATCAGTCTTTTCTCCATTTCTGCAAGAATGCAGAAGAAAAAGGGAAGTGCTGATGAGGAGCAGGAAGAACAGGATAAAAGGCTGAAAATCTTGGATACAAGTGTTATTATTGATGGGAGAATTGCAGATATTTGTCAGACGGGCTTTTTAGAAGGCGTCATTGTCATTCCTCAATTTGTGCTGGAGGAATTACAGCATATCGCTGATTCTTCAGATGTTTTAAAACGTAACAGAGGACGCCGCGGACTGGATATCTTGAATCGCATTCAAAAGGAACTGGATATTACGGTTGAAATTTATGAAGGCGACTTCGAAGACATTCAGGAGGTTGACAGCAAGCTTGTCAAACTTGCGAAGCTGACATCCGGTGTCGTTGTGACGAATGATTTTAATTTAAATAAAGTATGTGAGCTTCAGAAGGTTGCGGTACTGAATATTAATGACCTTGCAAACGCGGTGAAGCCGGTTGTGCTTCCGGGCGAAGAGATGAATGTGCAGGTGATTAAGGACGGGAAAGAGCATAATCAAGGTGTGGCTTACTTGGATGACGGGACGATGATTGTTGTGGAAGAAGGCCGCAATTATATAGGGAAACATATTGATGTGCTCGTAACCAGCGTACTGCAGACAGCGGCGGGACGAATGATTTTTGCCAAGCCCAAGCTGCTTGAGAAAGCTCTTTAA	MLKRIVQAFFIIVGGVVGIFLIPELFVLSNIQDIPLITNAYTSAAIGAIIFFLISIWTTEYVINWVKWIEDSLLRAPVPDLLFGSLGLVFGLIIAYLIVNVIPLDNIPYRIFSTIIPVFLAFFLGYLGFQVGFKKKDELISLFSISARMQKKKGSADEEQEEQDKRLKILDTSVIIDGRIADICQTGFLEGVIVIPQFVLEELQHIADSSDVLKRNRGRRGLDILNRIQKELDITVEIYEGDFEDIQEVDSKLVKLAKLTSGVVVTNDFNLNKVCELQKVAVLNINDLANAVKPVVLPGEEMNVQVIKDGKEHNQGVAYLDDGTMIVVEEGRNYIGKHIDVLVTSVLQTAAGRMIFAKPKLLEKAL				NA	NA	NA	NA	NA
D1-12_03807	699	ispD	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGGAGTATGTTGTCGTTATTCCGGCTGCCGGACAAGGAAAACGGATGAAGGCCGGGAAAAATAAGCTGTTCATCAGCTTAAAAGGTGCGCCTGTTATTATACACACACTGCGGGTTTTTGAAAGCCACGCACCCTGTCAGAAAATAATCCTGGTGATAAACGAGAGTGAACGGGAAGATTTTCGCCAGCTGCTGGCCCAATTTCCGATTCAGACGGAAATTGAGCTTGTTACCGGAGGTGCGGAGCGTCAGCACAGTGTGTACGAAGGACTGAAAGTGATTGATAAGGAATCGGTCGTCCTTGTTCATGACGGAGCGCGCCCGTTTGTCACACATCAGCATATCGATAAGCTCGTTGAAACAGCAGAGGAGGCGGGAGCGGCTGTCCTGGCTGTTCCTGTGAAAGACACGATAAAACGGGCGGAAGGCTCCCGGGTTGCGGAGACCTTTGATCGTTCAAGCTTGTGGGCCGTTCAAACGCCGCAGGCTTTTCGTCTTTCTTTATTGAAAAAGGCGCATACGGAAGCGGAAAACAAAGGCTTCTTAGGGACGGATGACGCCAGCCTCGTCGAGCGTCTTGATGGATATCAGGTGAGTATCGTTGAAGGCAGCTATACCAATATTAAGCTGACAACGCCGGATGATCTGATATCCGCGGAAGCAATCATGAAAGCGGAAAGTGGGAATCATAATGTTTAG	MEYVVVIPAAGQGKRMKAGKNKLFISLKGAPVIIHTLRVFESHAPCQKIILVINESEREDFRQLLAQFPIQTEIELVTGGAERQHSVYEGLKVIDKESVVLVHDGARPFVTHQHIDKLVETAEEAGAAVLAVPVKDTIKRAEGSRVAETFDRSSLWAVQTPQAFRLSLLKKAHTEAENKGFLGTDDASLVERLDGYQVSIVEGSYTNIKLTTPDDLISAEAIMKAESGNHNV	PGPT0007590_1998	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
D1-12_03808	477	ispF	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGTTTAGAATCGGACAAGGATTTGATGTGCATCAATTAACGGAAGGCCGTCCTCTCATCATCGGCGGAATTGAAATTCCTTATGAAAAAGGGCTGCTCGGACATTCAGATGCTGATGTATTGCTGCATACAGTCGCAGACGCGTGTCTCGGAGCGGCAGGTGAAGGAGATATCGGCAAACATTTCCCGGATACTGATCCGGAATTCAAAGATGCGGATTCTTTTAAGCTGCTTCAGCATGTCTGGAACATTGTAAAAGAAAAAGGGTACGTACTCGGAAATATAGACTGCACGATTATTGCGCAAAAGCCGAAAATGGCGCCGCATATTGATGCTATGAGAAAACGGATAGCAGAAGGCCTTGAGGCAGACGTTTCTCAAGTAAACGTAAAAGCAACGACGACAGAAAAGCTCGGGTTTACCGGAAGAGCCGAAGGAATTGCCGCTCAGGCAACCGTTCTGATCCAAAAAGCCTGA	MFRIGQGFDVHQLTEGRPLIIGGIEIPYEKGLLGHSDADVLLHTVADACLGAAGEGDIGKHFPDTDPEFKDADSFKLLQHVWNIVKEKGYVLGNIDCTIIAQKPKMAPHIDAMRKRIAEGLEADVSQVNVKATTTEKLGFTGRAEGIAAQATVLIQKA	PGPT0007595_1125	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-12_03809	1452	gltX		Glutamate--tRNA ligase	ATGGGAAATGAAGTACGCGTTCGTTATGCACCGAGTCCGACCGGACATTTGCATATCGGTAACGCCAGAACGGCGCTTTTTAACTATTTATTTGCCCGCAGCCAAGGCGGAAAGTTTATTATCCGGATTGAGGATACGGACAAAAAGCGAAATATTGAAGGCGGAGAGCAAAGCCAGCTCAACTATTTGAAATGGCTCGGCATGGACTGGGATGAAAGTGTGGATGTCGGCGGAGAATACGGCCCGTACCGCCAGTCTGAGCGTAACGACATTTACAAAGAGTACTATGAAGAGCTTCTTGAAAAAGGGCTAGCTTATAAATGTTTCTGTACGGAAGAAGAACTTGAGAAAGAACGTGAAGAGCAAATCGCCCGCGGGGAAATGCCGCGCTATTCCGGCAAACACAGAAACCTGACTCAAAAAGAGCAGGAGCAGTTTTTAGCCGAAGGCAGACAGCCGAGCATCCGTTTCCGCGTGCCGGAAGGGAAAATCATCGCATTTAACGATATCGTAAAAGGTGAGATTTCTTTTGAATCAGACGGCATCGGCGACTTTGTCATCGTCAAAAAAGACGGAACACCGACGTATAACTTTGCCGTCGCGATTGACGATTACTTAATGAAAATGACGCACGTGCTCCGCGGTGAGGATCACATTTCAAATACACCGAAACAGATCATGATTTTCCAGGCATTCGGCTGGGATGTTCCTGTCTTCGGACATATGACGCTTATCGTGAACGAAAGCCGCAAAAAATTAAGTAAACGTGATGAATCAATTATCCAGTTTATTGAGCAGTATGATGAGCTGGGTTACCTGCCTGAAGCGCTGTTTAACTTTATCGGACTTCTCGGCTGGTCTCCCGTCGGTGAAGAAGAGCTTTTCACAAGAGAAGAATTCATTGACATTTTTGATGTAAATCGTTTGTCTAAGTCACCGGCTCTGTTTGATATGCATAAACTGAAATGGGTCAACAACCAATACGTCAAAGCGCTGGATCTTGATCAAGTTGTTGAGCTGACCCTGCCGCACCTGCAAAAAGCAGGAAAAGTCGGCACTGAGCTTTCTGCCGAAGAGCAGGAATGGGTTCGTAAATTAATCTCTCTTTACCATGAGCAATTGAGCTACGGCGCTGAAATTGTCGAGCTGACTGATTTGTTCTTTAAAGATGAGATCGAGTATAATCAAGAGGCAAAAGCCGTTCTGGAAGAAGAACAGGTGCCTGAAGTGCTCAGCGTATTTGCTGCGAAGCTTGAAGAGCTTGAAGAATTTACGCCTGAGCTGATCAAAGCCTCAATCAAAGCTGTTCAGAAAGAAACAGGCCATAAAGGCAAAAAGCTGTTCATGCCGATTCGTGTAGCGGTTACCGGTCAGACACACGGTCCGGAGCTTCCGCAGGCCATTGAGCTGATCGGCAGAGAAACAGCCGTAAGACGCCTGAAAAGCATTTAA	MGNEVRVRYAPSPTGHLHIGNARTALFNYLFARSQGGKFIIRIEDTDKKRNIEGGEQSQLNYLKWLGMDWDESVDVGGEYGPYRQSERNDIYKEYYEELLEKGLAYKCFCTEEELEKEREEQIARGEMPRYSGKHRNLTQKEQEQFLAEGRQPSIRFRVPEGKIIAFNDIVKGEISFESDGIGDFVIVKKDGTPTYNFAVAIDDYLMKMTHVLRGEDHISNTPKQIMIFQAFGWDVPVFGHMTLIVNESRKKLSKRDESIIQFIEQYDELGYLPEALFNFIGLLGWSPVGEEELFTREEFIDIFDVNRLSKSPALFDMHKLKWVNNQYVKALDLDQVVELTLPHLQKAGKVGTELSAEEQEWVRKLISLYHEQLSYGAEIVELTDLFFKDEIEYNQEAKAVLEEEQVPEVLSVFAAKLEELEEFTPELIKASIKAVQKETGHKGKKLFMPIRVAVTGQTHGPELPQAIELIGRETAVRRLKSI	PGPT0008460_5259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
D1-12_03811	654	cysE	COG1045	Serine acetyltransferase	GTGTTTTTTAAAATGCTAAAAGAAGACATAGATACAGTGTTCGATCAAGATCCGGCAGCAAGAAGCTATTTCGAAGTTGTTTTAACTTATTCTGGTTTACATGCTATATGGGCGCATCGGATTGCACATGCTTTATATAAACGGAGATTTTTCTTCCTGGCGCGCCTGATATCACAGATTGCCCGTTTCTTTACCGGAATTGAAATCCATCCCGGCGCGACCATCGGGAGAAGGTTTTTCATTGACCACGGTATGGGGGTCGTCATAGGGGAAACATGTGAAATCGGCAATAACGTGACGGTATTCCAGGGTGTCACTCTCGGGGGAACGGGAAAAGAAAAGGGAAAGCGGCATCCGACCATAAAAGATGATGCTTTAATTGCAACCGGAGCGAAGGTGCTCGGCTCTATTACGGTCGGTCAGGGTTCTAAAGTAGGGGCCGGCTCCGTTGTGCTTCGTGATGTTCCCGACTTTTCGACCGTTGTCGGCATACCGGGGAAAGTCGTCATTCAGAACGGAAGAAAAATCAAACGCGATCTCAATCACCAAGACTTGCCCGATCCGGTTGCTGACCGGTTTAGAGCATTGGAGCAGCAGATTTTTGAACTGCAGGCTGAACTGGAAGATAAAAAAGAAAGGATCAACCAAAAATGA	MFFKMLKEDIDTVFDQDPAARSYFEVVLTYSGLHAIWAHRIAHALYKRRFFFLARLISQIARFFTGIEIHPGATIGRRFFIDHGMGVVIGETCEIGNNVTVFQGVTLGGTGKEKGKRHPTIKDDALIATGAKVLGSITVGQGSKVGAGSVVLRDVPDFSTVVGIPGKVVIQNGRKIKRDLNHQDLPDPVADRFRALEQQIFELQAELEDKKERINQK	PGPT0020265_4256	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
D1-12_03812	1401	cysS	COG0215	Cysteine--tRNA ligase	ATGACCATTACACTTTATAATACATTGACACGGAAAAAAGAAACATTCGTTCCTCTTGAGGAAGGCAAAGTAAAAATGTACGTGTGCGGACCGACTGTATACAACTATATTCATATCGGAAACGCCCGTCCGGCGATTATGTATGATACCGTACGCAACTATTTGGAGTATAAAGGATACGATGTTCAATACGTATCGAATTTCACCGATGTTGACGACAAACTGATTAAGGCGGCCAACGAGCTCGGCGAGGACGTCCCGACCGTTTCTGAACGGTTCATTAAAGCGTATTTTGAAGACGTGGGCGCCCTCGGATGCCGGAAAGCGGATCTTCACCCCCGGGTCATGGAAAACATGGACGCCATTATTGAATTTGTCAGCGAGCTGATTAAAAAAGGCTACGCTTATGAATCAGAAGGCGACGTCTATTTCAAAACAAGGGCCTTCGAAGGCTACGGCAAGCTATCTCAGCAATCCATTGATGAACTCAGATCAGGCGCGCGTATCCGTGTTGGCGAGAAGAAAGAGGATGCGCTGGACTTTGCTCTTTGGAAAGCTGCTAAGGACGGAGAAATTTCATGGGATAGCCCTTGGGGAAAAGGCCGCCCGGGCTGGCATATTGAATGCTCCGCAATGGTGAAAAAGTATTTGGGTGACGAAATCGATATTCACGCCGGCGGTCAGGACCTGACATTCCCGCACCATGAAAACGAAATCGCGCAATCTGAAGCATTAACAGGCAAGACATTCGCAAAATACTGGCTTCACAACGGATATATCAATATCGATAATGAGAAAATGTCAAAATCGCTCGGCAACTTTGTTTTGGTGCACGATATCATTAAGCAATATGACCCGCAGCTTTTGAGATTTTTCATGCTGTCCGTTCATTACCGCCACCCGATCAACTATTCGGAAGAGCTGCTTGAGAAAACAAAAAACGCGTTTAACCGCCTGAAGACGGCATACAGTAATTTAAACCATCGTTTGATTAGCAGCACGAATCTGACTGACAATGATCAGGAATGGCTCGCTAAAATCGAAGAGCACCGCACTGCGTTTGAAGAAGCAATGGATGATGACTTTAATACGGCGAATGCGATTTCCGTTTGGTTTGATCTGGCGAAGCTCGCCAATTACTACATGCAGGAAGACAATACGGCGGATCACGTCATTAAAGCCTTTATCAGCATGTTTGACAGAATCGGATCTGTTCTCGGACTTACGCTCGGCGAAGAAGAGCTTGTCGACGAAGAGATTGAAGAGTTGATTGACAAGAGAAATGAAGCCCGCCGCAATCGCGATTTCGCTTTGTCAGACCAGATTCGCGATCAGCTGAAAAGCATGAATATCATTCTTGAAGATACAGCCCAGGGAACTCGCTGGAAGCGGGGAGAATAA	MTITLYNTLTRKKETFVPLEEGKVKMYVCGPTVYNYIHIGNARPAIMYDTVRNYLEYKGYDVQYVSNFTDVDDKLIKAANELGEDVPTVSERFIKAYFEDVGALGCRKADLHPRVMENMDAIIEFVSELIKKGYAYESEGDVYFKTRAFEGYGKLSQQSIDELRSGARIRVGEKKEDALDFALWKAAKDGEISWDSPWGKGRPGWHIECSAMVKKYLGDEIDIHAGGQDLTFPHHENEIAQSEALTGKTFAKYWLHNGYINIDNEKMSKSLGNFVLVHDIIKQYDPQLLRFFMLSVHYRHPINYSEELLEKTKNAFNRLKTAYSNLNHRLISSTNLTDNDQEWLAKIEEHRTAFEEAMDDDFNTANAISVWFDLAKLANYYMQEDNTADHVIKAFISMFDRIGSVLGLTLGEEELVDEEIEELIDKRNEARRNRDFALSDQIRDQLKSMNIILEDTAQGTRWKRGE	PGPT0002985_3922	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
D1-12_03813	432	mrnC	COG1939	Mini-ribonuclease 3	ATGCTTCAATTTGAACAAATCAAAGATTCAAAGCAGTTAAACGGTCTTGCGCTTGCTTATATGGGTGATGCCATTTTTGAAATATACGTCCGGCATCACCTGCTTAAGCAGGGCTTTACGAAACCGAATGACCTTCATAAGAAGGCGAGCCGGATTGTATCGGCAAAATCACAGGCAGACATATTGTTCCGCCTTCAGGACGAATCCTTTTTCACGGAGGAAGAGGAAGCCGTGCTGAGAAGAGGCAGAAACGCGAAATCAGGAACCACGCCTAAAAACACAGATGTACAGACGTACCGCCATAGTACAGCTTTTGAGGCTTTACTCGGATACCTTTTTCTTGAGAAAAGAGAAGAAAGACTGAATCAGCTGATTGCTGAGGCTATACAAGTCGGGACGTCAGGGAGGAAAGCAAATGAGTCAGCAACATGA	MLQFEQIKDSKQLNGLALAYMGDAIFEIYVRHHLLKQGFTKPNDLHKKASRIVSAKSQADILFRLQDESFFTEEEEAVLRRGRNAKSGTTPKNTDVQTYRHSTAFEALLGYLFLEKREERLNQLIAEAIQVGTSGRKANESAT				NA	NA	NA	NA	NA
D1-12_03814	750			Putative TrmH family tRNA/rRNA methyltransferase	ATGAGTCAGCAACATGATTACGTCATAGGAAAAAACGCTGTGATTGAGACGTTAAAGTCAGATCGCAAGCTGTATAAGTTATGGATGGCGGAAAACACAGTAAAAGGACAGGCGCAGCAAGTTATGGAGCTTGCTAAAAAGCGCGGCGTCACCATTCAATTTGTACCGAGGAAAAAACTCGATCAGATGGTGGAGGGGCAGCATCAGGGTGTTGTCGCCCAGGTGGCGGCATATGAATATGCACAATTAGACGAATTATATAAAAGAGCGGAAGAGAGAAACGAACAGCCTTTCTTTCTCATATTGGACGAGCTGGAAGACCCTCATAATCTCGGTTCCATCATGAGAACGGCTGACGCTGTCGGTGCACACGGCATTGTGATTCCGAAACGCAGAGCGGTCGGACTGACATCGACGGTCGCAAAAGCTTCGACCGGTGCGATTGAACACATTCCCGTCGTGAAGGTGACCAACCTTGCCCGGACACTTGATGAAATGAAGGAGCGGGGGATTTGGGTCGTCGGAACGGATGCATCCGCCCGGGAAGACTACCGCTCTATGGACGGCAAGATGCCTTTGGCGCTCGTTATCGGAAGCGAAGGCAGAGGAATGGGCCGGCTTGTGAAAGAGAAATGTGATTTTCTCATTAAACTTCCGATGGCCGGAAAAGTCACGTCTCTGAATGCGTCGGTAGCGGCCGGCCTTCTCATGTATGAAGTCTACCGGAAGCGCAATCCTTTAGGGGAATGA	MSQQHDYVIGKNAVIETLKSDRKLYKLWMAENTVKGQAQQVMELAKKRGVTIQFVPRKKLDQMVEGQHQGVVAQVAAYEYAQLDELYKRAEERNEQPFFLILDELEDPHNLGSIMRTADAVGAHGIVIPKRRAVGLTSTVAKASTGAIEHIPVVKVTNLARTLDEMKERGIWVVGTDASAREDYRSMDGKMPLALVIGSEGRGMGRLVKEKCDFLIKLPMAGKVTSLNASVAAGLLMYEVYRKRNPLGE				NA	NA	NA	NA	NA
D1-12_03815	513	yacP	COG3688	putative protein YacP	ATGGACATCCTGTTAGTAGACGGATACAACATGATTGGAGCTTGGCCGCAGCTAAAGGATTTAAAAGCGAACAGTTTTGAAGAAGCGAGAGATGTACTGATCCAGAAGATGGCGGAATATCAGTCCTACACGGGAATCAGAGTCATTGTGGTGTTTGACGCACATCTGGTAAAAGGCATAGAGAAAAAACAAACGAATCACAGAGTCGAAGTGATTTTTACACGGGAGAATGAGACGGCGGATGAGCGGATCGAGAAGCTTGCCCAGGCGCTGAATAATATTGCGACACAGATTCATGTCGCAACCTCCGATTATACGGAGCAGTGGGCGATTTTCGGACAAGGGGCTCTCCGTAAATCCGCCCGGGAGCTTCTGAGGGAAGTGGATACGATAGAACGGCGGATTCAAAGGCGGGTTTCAAAGATCACTTCTGAAAAACCACCGGGTAAAATCGAGCTGTCCGAAGAGGTTTTGAAAACGTTTGAAAAGTGGCGCCGAGGCGGTCTGGATTAG	MDILLVDGYNMIGAWPQLKDLKANSFEEARDVLIQKMAEYQSYTGIRVIVVFDAHLVKGIEKKQTNHRVEVIFTRENETADERIEKLAQALNNIATQIHVATSDYTEQWAIFGQGALRKSARELLREVDTIERRIQRRVSKITSEKPPGKIELSEEVLKTFEKWRRGGLD	PGPT0010355_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0010355-otrA|tetM|tetO-K18220	NA	NA
D1-12_03816	657	sigH	COG1595	RNA polymerase sigma-H factor	GTGAATCTACAGAACAGCAAGGGAAAGTTCAACAAAGTGCAATTTTGCCAGTTGGAGGACGAGCAGGTCATTGAAAAGGTTCATGTTGGGGATAGTGATGCGTTAGATTACTTGATTACGAAGTACCGTAATTTTGTACGGGCGAAAGCAAGGTCTTATTTTTTAATAGGGGCCGACAGAGAAGATATTGTACAGGAAGGGATGATAGGCTTATATAAGTCTATCCGAGACTTTAGAGAGGACAAGCTCACTTCATTTAAAGCTTTTGCAGAATTATGCATTACCCGCCAGATTATTACCGCAATAAAGACAGCTACCCGTCAGAAACACATTCCTTTAAATTCCTATGTTTCTTTAGACAAACCTATTTTTGATGAAGAATCTGACAGAACACTGCTTGATGTCATTTCAGGCGCTAAAACGTTAAATCCTGAAGAGATGATTATTAATCAGGAAGAATTTGATGATATCGAAATGAAAATGGGAGAACTGCTGAGCGATCTGGAGAGAAAGGTGCTTGTTCTGTACTTGGACGGAAGAAGTTACCAAGAGATTTCAGATGACTTAAACCGACACGTAAAATCAATCGATAATGCCCTGCAGCGCGTGAAGCGCAAGCTTGAAAAGTATTTAGAAATAAGAGAGATCAGCCTGTAG	MNLQNSKGKFNKVQFCQLEDEQVIEKVHVGDSDALDYLITKYRNFVRAKARSYFLIGADREDIVQEGMIGLYKSIRDFREDKLTSFKAFAELCITRQIITAIKTATRQKHIPLNSYVSLDKPIFDEESDRTLLDVISGAKTLNPEEMIINQEEFDDIEMKMGELLSDLERKVLVLYLDGRSYQEISDDLNRHVKSIDNALQRVKRKLEKYLEIREISL	PGPT0014795_1639	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
D1-12_03817	180	secE		Protein translocase subunit SecE	ATGCGCATGATGAGTTTCTTTAAAGATGTTGGGAAAGAAATGAAAAAGGTTAGCTGGCCTAAAGGCAAAGAGTTAACGCGCTATACGATCACGGTGATTTCAACGGTTATCTTTTTTGTTATCTTTTTTGCCCTCCTTGATACAGGAATTTCTCAATTAATTCGTTTAATAGTTGAATAA	MRMMSFFKDVGKEMKKVSWPKGKELTRYTITVISTVIFFVIFFALLDTGISQLIRLIVE	PGPT0025715_3688	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
D1-12_03818	591	nusG_2	COG0250	Transcription termination/antitermination protein NusG	TTGTTTTACACTTCATTTTTAAATGCGGGGAGGGAAGGACTGCAGAGTCCTGATAGAATGGAAAAGAATTGGTATGTTGTTCATACGTATTCCGGTTATGAAAACAAAGTAAAAGCGAACCTTGAAAAACGTGTGGAATCAATGGGAATGCAGGATAAAATTTTCCGCGTTGTCGTCCCTGAAGAAGAAGAGACTGATATTAAGAACGGCAAGAAAAAAGTAGTCAAAAAGAAAGTGTTCCCGGGTTATGTGCTTGTTGAAATCGTCATGACTGATGATTCCTGGTATGTGGTCCGCAACACGCCGGGCGTTACCGGATTCGTCGGATCAGCCGGTTCAGGCTCAAAGCCGACTCCGCTTCTTCCTGGCGAAGCGGAAACCATCTTAAAACGCATGGGCATGGATGAGCGGAAAACCGACATTGATTTTGAATTGAATGAGACAGTCAAAGTCATAGACGGACCTTTCGCCAACTTTACAGGATCAATTGAAGAGATTGATTATGATAAGAGCAAAGTGAAAGTATTCGTTAACATGTTCGGCCGTGAAACGCCGGTTGAACTGGAATTTACCCAGATCGACAAATTGTAA	MFYTSFLNAGREGLQSPDRMEKNWYVVHTYSGYENKVKANLEKRVESMGMQDKIFRVVVPEEEETDIKNGKKKVVKKKVFPGYVLVEIVMTDDSWYVVRNTPGVTGFVGSAGSGSKPTPLLPGEAETILKRMGMDERKTDIDFELNETVKVIDGPFANFTGSIEEIDYDKSKVKVFVNMFGRETPVELEFTQIDKL				NA	NA	NA	NA	NA
D1-12_03819	426	rplK	COG0080	50S ribosomal protein L11	GTGGCTAAAAAAGTAGTAAAAGTTGTAAAATTGCAAATTCCTGCTGGAAAAGCTAACCCAGCGCCGCCAGTTGGACCTGCACTAGGTCAAGCCGGTGTAAATATCATGGGATTCTGTAAGGAGTTTAATGCTCGTACAGCTGACCAAGCTGGTTTAATCATTCCTGTTGAAATTTCGGTTTACGAAGACCGTTCATTTACATTTATTACAAAAACTCCGCCTGCTGCAGTATTGCTTAAAAAAGCAGCTGGAATTGAGTCTGGTTCTGGTGAACCAAACCGTAATAAAGTGGCAACCGTTAAGCGCGATAAGGTTCGCGAAATCGCTGAAACGAAAATGCCTGACTTAAACGCAGCAGACGTTGAAGCGGCAATGCGCATGGTTGAAGGTACTGCCCGCAGTATGGGTATCGTTATCGAGGATTAA	MAKKVVKVVKLQIPAGKANPAPPVGPALGQAGVNIMGFCKEFNARTADQAGLIIPVEISVYEDRSFTFITKTPPAAVLLKKAAGIESGSGEPNRNKVATVKRDKVREIAETKMPDLNAADVEAAMRMVEGTARSMGIVIED				NA	NA	NA	NA	NA
D1-12_03820	699	rplA	COG0081	50S ribosomal protein L1	ATGGCTAAAAAAGGTAAAAAGTACGTTGAAGCTGCGAAGCTTGTAGACCGTGCGAAAGCTTACGACGTCGCTGAAGCAGTGGCGCTTACTAAAAAAACAAACACAGCTAAATTCGACGCTACAGTTGAAGTTGCTTTTCGTTTAGGGGTTGACCCTCGTAAAAACGATCAGCAAATCCGCGGTGCAGTTGTACTTCCTAACGGAACTGGTAAAACTCAGCGCGTGCTTGTATTCGCTAAAGGCGAAAAAGCAAAAGAAGCTGAAGCTGCCGGTGCAGACTACGTCGGCGATTCTGATTACATCGCGAAAATCCAGCAAGGCTGGTTCGAATTCGATGTAATCGTTGCGACTCCTGACATGATGGGTGAAGTCGGTAAAATCGGCCGTGTGCTTGGACCAAAAGGTCTTATGCCAAACCCTAAAACAGGAACCGTTACATTCGAAGTAGAAAAAGCAATCGGCGAAATCAAAGCTGGTAAAGTAGAATACCGCGTTGACAAAGCTGGTAACATCCATGTTCCGATCGGAAAAGTTTCTTTCGAGGATGAAAAACTTGTTGAGAACTTCACAACAATGTATGATACAATCCTGAAAGCAAAACCGGCTGCGGCTAAAGGTGTTTACGTGAAAAACGTTGCCGTTACTTCTACTATGGGCCCTGGTGTCAAAGTAGATGCTTCTACTTTCAACGTAAAATAA	MAKKGKKYVEAAKLVDRAKAYDVAEAVALTKKTNTAKFDATVEVAFRLGVDPRKNDQQIRGAVVLPNGTGKTQRVLVFAKGEKAKEAEAAGADYVGDSDYIAKIQQGWFEFDVIVATPDMMGEVGKIGRVLGPKGLMPNPKTGTVTFEVEKAIGEIKAGKVEYRVDKAGNIHVPIGKVSFEDEKLVENFTTMYDTILKAKPAAAKGVYVKNVAVTSTMGPGVKVDASTFNVK				NA	NA	NA	NA	NA
D1-12_03822	501	rplJ	COG0244	50S ribosomal protein L10	ATGAGCAGCGCAATTGATACAAAAAAAGTTGTTGTTGAAGAGATTGCTTCTAAACTGAAAGAAAGCAAATCAACGATCATCGTTGACTACCGCGGACTTAACGTTTCTGAAGTAACTGAACTCCGTAAACAGCTTCGCGAAGCTAACGTAGAGTTCAAAGTGTACAAAAACACAATGACTCGCCGTGCGGTTGAACAAGCTGAACTTGATGGTTTGAATGATGTCTTAACTGGACCGAATGCGATCGCATTCAGTACTGAAGATGTTGTCGCTCCGGCAAAAGTTCTTAACGAGTTCGCGAAAAATCACGAAGCTCTGGAAATCAAAGCGGGCGTTATCGAAGGAAAAGTATCTTCTGTTGAAGAAGTGAAAGCTCTTGCTGAACTTCCTTCACGCGATGGCTTACTTTCTATGTTGCTTAGCGTACTTCAAGCTCCAGTTCGCAACCTTGCACTTGCAGCTAAAGCAGTTGCAGACCAAAAGGAAGAACAAGGCGCTTAA	MSSAIDTKKVVVEEIASKLKESKSTIIVDYRGLNVSEVTELRKQLREANVEFKVYKNTMTRRAVEQAELDGLNDVLTGPNAIAFSTEDVVAPAKVLNEFAKNHEALEIKAGVIEGKVSSVEEVKALAELPSRDGLLSMLLSVLQAPVRNLALAAKAVADQKEEQGA				NA	NA	NA	NA	NA
D1-12_03823	372	rplL	COG0222	50S ribosomal protein L7/L12	ATGGCTTTAAATATCGAAGAAATCATTGCTTCCGTTAAAGAAGCAACTGTACTTGAATTGAACGACCTAGTAAAAGCAATCGAAGAAGAATTTGGCGTAACTGCTGCTGCTCCTGTAGCTGTAGCTGGCGGAGCTGCTGCTGGCGGCGCTGCTGAAGAGCAAAGCGAATTCGACCTTATCCTTGCTGGTGCAGGTTCTCAGAAAATCAAAGTTATCAAAGTTGTTCGTGAAATCACTGGTCTTGGCTTGAAAGAAGCTAAAGAACTTGTTGACAACACTCCAAAACCACTTAAAGAAGGTATTGCGAAAGAAGAAGCTGAAGAGCTTAAAGCTAAACTTGAAGAAGTTGGCGCTTCTGTAGAAGTTAAGTAA	MALNIEEIIASVKEATVLELNDLVKAIEEEFGVTAAAPVAVAGGAAAGGAAEEQSEFDLILAGAGSQKIKVIKVVREITGLGLKEAKELVDNTPKPLKEGIAKEEAEELKAKLEEVGASVEVK				NA	NA	NA	NA	NA
D1-12_03824	606	rlmG	COG2813	Ribosomal RNA large subunit methyltransferase G	ATGAGTGAACACTATTATTCAGAAAAACCTTCAGTTAAAAGCGATAAACAGACATGGTCATTTACACTGCGGAACAGATCTTATACATTCACAAGTGACAGCGGCGTTTTCTCGAAAAAGGAAGTTGATTTCGGTTCGCGTGTCTTAATTGAAGCGTTTGAAGAGCCGGAGATCGATGGTGACTTCCTGGATGCAGGCTGCGGTTACGGCCCGATCGGTCTGTCGCTCGCCGGTGCATTTACAGACCGGACCGTGCACATGATTGACGTGAATGAAAGAGCCGTAGAGCTGTCAAATGAAAATGCAGAAAAAAACGGAATAAAAAACGTTCGGATTTATCAGAGTGATTTATTTTCAAATATTGATTCTGCTCAAACATTTGCTTCTATTATTACAAACCCCCCAATCCGCGCCGGAAAAAAAGTTGTCCATGCCATTTTTGAAAAAAGCGCTGAGCATTTAAGGGCTTCAGGTGAATTGTGGATCGTTATACAGAAAAAACAGGGCGGGCCTTCTGCCATTGAAAAACTGAAGGAGCTTTTTGACGAAGTTTCTGTGGTTCAAAAAAAGAAAGGCTATTATATCATAAAAGCAAAAAAAGTTTGA	MSEHYYSEKPSVKSDKQTWSFTLRNRSYTFTSDSGVFSKKEVDFGSRVLIEAFEEPEIDGDFLDAGCGYGPIGLSLAGAFTDRTVHMIDVNERAVELSNENAEKNGIKNVRIYQSDLFSNIDSAQTFASIITNPPIRAGKKVVHAIFEKSAEHLRASGELWIVIQKKQGGPSAIEKLKELFDEVSVVQKKKGYYIIKAKKV				NA	NA	NA	NA	NA
D1-12_03825	3582	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	TTGACAGGTCAACTAGTTCAGTATGGACGACACCGCCAGCGCAGAAGCTATGCTCGCATTAGCGAAGTGTTAGAATTACCAAATCTCATTGAAATTCAAACCTCTTCTTATCAGTGGTTTCTTGATGAGGGTCTTAGAGAGATGTTTCAAGACATATCACCAATTGAGGATTTCACTGGTAACCTCTCTCTAGAGTTCATTGACTACAGTTTAGGAGATCCTAAGTATCCCGTTGAAGAGTCAAAAGAACGTGATGTGACTTACTCAGCTCCGCTAAGAGTGAAGGTTCGTTTAATTAACAAAGAAACTGGAGAGGTAAAAGACCAGGATGTCTTCATGGGCGATTTCCCTATTATGACAGATACCGGTACTTTTATCATCAACGGTGCAGAACGTGTTATCGTATCTCAGCTTGTTCGGTCTCCAAGTGTATATTTCAGTGGTAAAGTAGACAAAAACGGTAAAAAAGGTTTTACCGCGACTGTCATTCCAAACCGTGGCGCATGGTTAGAATACGAAACTGATGCGAAAGATGTTGTGTATGTCCGCATTGATCGCACACGTAAGTTGCCGGTTACGGTTCTTTTGCGTGCTCTCGGCTTCGGTTCCGACCAAGAGATTCTCGATCTCATTGGTGAGAACGAATATCTCCGCAATACACTGGATAAGGACAACACCGAAAACAGTGACAAAGCGCTTCTTGAAATCTATGAGCGCCTTCGTCCCGGAGAGCCGCCTACAGTAGAAAACGCAAAAAGCTTGCTGGATTCCCGTTTCTTCGATCCGAAGCGATACGACCTTGCGAATGTAGGACGCTATAAAATTAATAAAAAGCTTCATATCAAGAACCGCCTGTTTAATCAGCGCCTTGCAGAAACACTGGTGGATCCGGAAACCGGTGAAATTCTCGCTGAAAAAGGGCAGATTCTTGACAGAAGAACACTTGATAAAGTGCTGCCATACTTAGAAAATGGAATCGGCTTCAGAAAGCTTTATCCTAACGGCGGCGTTGTCGAGGATGAAGTGATGCTTCAATCCATTAAAATCTATGCTCCTACTGATGCAGAAGGAGAGCAGACGATCAATGTGATCGGCAATGCTTACATCGAAGAGGCGATTAAAAACATTACGCCTGCTGATATTATTTCTTCTATCAGCTACTTCTTCAACCTCCTGCACGGAGTGGGCGACACTGATGATATCGACCATCTCGGAAACCGCCGTCTGCGTTCTGTAGGTGAGCTCCTGCAAAACCAATTCCGTATCGGTTTAAGCCGGATGGAACGTGTCGTACGTGAAAGAATGTCTATTCAAGACACGAATACAATTACGCCGCAGCAGCTGATTAACATCAGACCTGTTATTGCGTCTATTAAAGAGTTCTTCGGAAGCTCACAGCTTTCTCAATTCATGGATCAGACGAACCCGCTTGCTGAATTGACGCACAAACGCCGTCTGTCAGCTCTCGGACCGGGCGGTTTGACACGTGAGCGCGCAGGTATGGAAGTACGTGACGTTCACTACTCTCACTACGGCCGTATGTGTCCGATTGAAACGCCTGAGGGCCCGAACATCGGTTTGATCAACTCATTGTCATCATTTGCGAAAGTAAACCGCTTTGGTTTCATTGAGACGCCATACCGCCGCGTTGATCCTGAAACAGGAAAAGTAACGCCTAGAATCGACTACCTGACTGCTGATGAAGAGGATAACTATGTCGTAGCCCAAGCGAATGCTAAGCTGAGCGATGACGGTTCTTTCTTGGATGACAGCATCGTAGCGCGTTTCAGAGGGGAAAACACCGTTGTAGCCCGCAACCGCGTGGATTACATGGACGTATCTCCTAAACAGGTTGTTTCTGCTGCGACAGCATGTATTCCGTTCTTGGAAAACGATGACTCGAACCGCGCCCTCATGGGAGCGAACATGCAGCGTCAGGCTGTGCCTTTGATGCAGCCGGAAGCTCCGATCGTCGGAACGGGTATGGAATACGTATCCGGTAAAGACTCCGGTGCAGCCGTTATTTGTAAACACCCTGGTATCGTAGAACGGGTGGAAGCGAAAAACGTATGGGTGCGCCGCTATGAAGAAATTGACGGCCAAAAAGTAAAAGGCAACCTGGATAAGTACAGCTTGCTGAAATTTGTCCGCTCCAACCAAGGTACGTGCTACAACCAGCGTCCGATCGTAAGTGTCGGCGATGAAGTAGTCAAAGGAGAAATCCTTGCTGACGGACCTTCAATGGAGCTTGGTGAACTTGCTCTCGGCCGCAACGTAATGGTCGGCTTCATGACATGGGACGGTTACAACTATGAGGATGCCATCATCATGAGTGAACGCCTTGTGAAAGATGATGTATACACATCTATTCACATTGAAGAATATGAATCAGAAGCACGTGATACAAAGCTTGGACCGGAAGAGATCACCCGCGATATTCCAAACGTAGGGGAAGACGCGCTTCGCAACCTTGATGACCGCGGAATTATCCGTATCGGTGCGGAAGTCAACGACGGAGACCTTCTCGTAGGTAAAGTAACGCCTAAAGGTGTAACTGAGCTTACGGCTGAAGAACGCCTTCTTCATGCGATCTTTGGAGAAAAAGCGCGTGAAGTCCGTGATACTTCTCTCCGTGTGCCTCACGGCGGCGGCGGAATTATCCACGACGTAAAAGTCTTCAACCGTGAAGACGGCGACGAACTTCCTCCGGGAGTGAACCAGCTTGTACGCGTATATATCGTTCAGAAACGTAAGATTTCTGAAGGTGATAAAATGGCCGGACGTCACGGAAATAAAGGGGTTATCTCGAAGATTCTTCCTGAAGAAGATATGCCTTACCTTCCTGACGGCACGCCGATCGATATCATGCTTAACCCGCTGGGTGTACCATCACGTATGAATATCGGTCAGGTATTAGAACTTCACATGGGTATGGCTGCCCGCTACCTCGGCATTCACATCGCGTCACCTGTATTTGACGGCGCGCGTGAAGAAGATGTGTGGGAAACACTTGAAGAAGCAGGCATGTCAAGAGACGCTAAAACAGTTCTTTATGACGGCCGTACGGGAGAACCGTTCGACAACCGTGTATCAGTCGGAATCATGTACATGATCAAACTGGCTCACATGGTTGACGATAAACTTCATGCCCGTTCTACAGGTCCTTACTCACTTGTTACGCAGCAGCCTCTCGGCGGTAAAGCCCAATTCGGCGGACAGCGTTTCGGTGAGATGGAGGTTTGGGCGCTTGAAGCTTACGGCGCAGCTTACACGCTTCAAGAAATCCTGACTGTGAAGTCCGATGACGTGGTCGGACGTGTGAAAACATATGAAGCCATCGTCAAAGGCGACAATGTTCCAGAGCCTGGTGTTCCGGAATCATTCAAAGTATTGATCAAAGAGCTTCAAAGCTTAGGTATGGACGTAAAAATCCTCTCAGGCGATGAAGAAGAAATAGAAATGAGAGATCTAGAAGACGAGGAAGATGCGAAACAGGCTGACGGCCTTGCATTATCAGGTGATGAAGCGCCGGAAGAAACAGCATCTCCAGACGTTGAACGTGACGCAGTAACGAAAGAATAG	MTGQLVQYGRHRQRRSYARISEVLELPNLIEIQTSSYQWFLDEGLREMFQDISPIEDFTGNLSLEFIDYSLGDPKYPVEESKERDVTYSAPLRVKVRLINKETGEVKDQDVFMGDFPIMTDTGTFIINGAERVIVSQLVRSPSVYFSGKVDKNGKKGFTATVIPNRGAWLEYETDAKDVVYVRIDRTRKLPVTVLLRALGFGSDQEILDLIGENEYLRNTLDKDNTENSDKALLEIYERLRPGEPPTVENAKSLLDSRFFDPKRYDLANVGRYKINKKLHIKNRLFNQRLAETLVDPETGEILAEKGQILDRRTLDKVLPYLENGIGFRKLYPNGGVVEDEVMLQSIKIYAPTDAEGEQTINVIGNAYIEEAIKNITPADIISSISYFFNLLHGVGDTDDIDHLGNRRLRSVGELLQNQFRIGLSRMERVVRERMSIQDTNTITPQQLINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSALGPGGLTRERAGMEVRDVHYSHYGRMCPIETPEGPNIGLINSLSSFAKVNRFGFIETPYRRVDPETGKVTPRIDYLTADEEDNYVVAQANAKLSDDGSFLDDSIVARFRGENTVVARNRVDYMDVSPKQVVSAATACIPFLENDDSNRALMGANMQRQAVPLMQPEAPIVGTGMEYVSGKDSGAAVICKHPGIVERVEAKNVWVRRYEEIDGQKVKGNLDKYSLLKFVRSNQGTCYNQRPIVSVGDEVVKGEILADGPSMELGELALGRNVMVGFMTWDGYNYEDAIIMSERLVKDDVYTSIHIEEYESEARDTKLGPEEITRDIPNVGEDALRNLDDRGIIRIGAEVNDGDLLVGKVTPKGVTELTAEERLLHAIFGEKAREVRDTSLRVPHGGGGIIHDVKVFNREDGDELPPGVNQLVRVYIVQKRKISEGDKMAGRHGNKGVISKILPEEDMPYLPDGTPIDIMLNPLGVPSRMNIGQVLELHMGMAARYLGIHIASPVFDGAREEDVWETLEEAGMSRDAKTVLYDGRTGEPFDNRVSVGIMYMIKLAHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEILTVKSDDVVGRVKTYEAIVKGDNVPEPGVPESFKVLIKELQSLGMDVKILSGDEEEIEMRDLEDEEDAKQADGLALSGDEAPEETASPDVERDAVTKE				NA	NA	NA	NA	NA
D1-12_03826	3600	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	TTGCTAGATGTGAACAATTTTGAGTATATGAACATCGGTCTTGCTTCACCGGATAAAATCCGTTCATGGTCTTTTGGTGAAGTGAAAAAGCCTGAAACGATAAACTATCGTACGTTGAAACCTGAAAAGGACGGCCTGTTCTGCGAACGCATTTTCGGACCGACTAAGGACTGGGAATGTCATTGCGGCAAGTACAAGCGGGTTCGTTATAAAGGCGTAGTTTGTGACCGTTGCGGAGTTGAAGTAACGCGGGCTAAAGTCCGTCGTGAGAGAATGGGGCATATTGAACTGGCTGCCCCGGTTTCTCACATTTGGTATTTCAAAGGTATTCCGAGCCGTATGGGTCTTGTATTGGATATGTCACCGCGTGCGCTGGAAGAAGTTATTTACTTTGCTTCTTACGTCGTAACTGACCCGGCCAATACACCGCTCGAAAAGAAACAGCTTTTATCTGAAAAGGAATACCGTGCGTATCTGGATAAGTACGGTAACAAATTCCAAGCCTCTATGGGTGCGGAAGCCATTAATAAACTTCTGCAGGACATCGACCTTGTCAAAGAAGTTGATATGTTAAAAGAAGAGCTGAAGACTTCTCAAGGACAGCGCCGTACACGTGCGATCAAACGCCTTGAAGTGCTTGAAGCCTTCCGTAATTCAGGAAACAAGCCGTCTTGGATGATTCTCGACGTGCTTCCGGTTATTCCGCCTGAATTAAGACCGATGGTTCAGCTTGACGGCGGACGTTTCGCAACGTCTGACCTGAACGACCTTTACCGTCGTGTCATCAACCGTAATAACCGTTTAAAACGTCTGTTAGACCTCGGCGCGCCAAGCATCATCGTTCAGAACGAAAAACGTATGCTTCAGGAAGCAGTCGACGCTCTGATTGACAACGGACGCCGCGGCCGTCCGGTTACCGGACCGGGTAACCGTCCGCTTAAATCTCTTTCTCACATGCTGAAAGGGAAACAAGGGCGTTTCCGTCAGAACCTTCTCGGTAAACGTGTAGACTACTCAGGCCGTTCCGTTATCGTCGTAGGCCCGCATCTGAAAATGTATCAGTGCGGTTTGCCGAAGGAAATGGCGCTTGAGCTCTTCAAGCCTTTCGTCATGAAAGAGCTTGTTGAAAAAGGCCTTGCTCACAATATCAAGAGCGCAAAACGCAAAATCGAACGCGTGCAGCCTGAAGTATGGGATGTACTTGAATCTGTCATTAAGGAGCATCCGGTCTTACTGAATCGTGCCCCTACTCTTCACAGATTAGGTATCCAGGCTTTCGAACCGACGCTTGTTGAAGGACGCGCCATCCGTCTTCACCCGTTAGTATGTACAGCTTATAACGCTGACTTTGACGGTGACCAAATGGCGGTTCACGTACCTTTATCAGCTGAGGCTCAAGCTGAGGCGCGCATTCTGATGCTTGCGGCCCAAAACATCTTGAACCCTAAAGATGGTAAACCGGTTGTTACGCCGTCTCAGGATATGGTATTAGGAAACTACTACCTGACGCTTGAGCGCGCCGGAGCAGTCGGCGAGGGTATGGTTTTCAAAAATACGGACGAAGCGCTTCTTGCTTATCAAAACGGTTATGTTCACCTTCATACGAGAGTAGCTGTTGCAGCGAACTCCCTTAAGAATGTGACATTTACTGAAGAACAGCGTTCAAAATTGTTAATTACAACTGTCGGTAAGCTCGTCTTCAATGAAATTCTTCCGGAATCATTCCCTTACATGAATGAACCAACGAAGAGCAACATTGAAGAGAAGACACCTGACCGTTTCTTCTTAGATAAAGGTGCTGACGTAAAAGCTGTGATTGCTGAGCAGCCGATCAACGCACCGTTTAAAAAAGGTATTTTGGGTAAAATCATCGCGGAAATCTTTAAACGATTCCATATCACGGAAACGTCTAAAATGCTTGACCGCATGAAAAACCTCGGTTTCAGATATTCAACGAAAGCCGGCATCACAGTAGGGGTTTCTGATATCGTCGTTCTCGATGATAAACAGGAAATCCTTGAAGAAGCACAAAGCAAAGTGGATAATGTTCTGAAACAGTTCAGACGCGGTTTAATCACCGAAGAAGAACGTTATGAAAGAGTCATTTCAATTTGGAGTTCAGCGAAAGATGTTATCCAAGGCAAACTGATGAAATCATTAGACGAAGTCAACCCGATCTACATGATGAGTGATTCAGGAGCCCGTGGTAACGCATCTAACTTTACACAGCTTGCGGGTATGCGCGGTCTGATGGCCAACCCGGCTGGACGAATCATTGAATTGCCGATTAAATCAAGTTTCCGTGAAGGTCTGACAGTATTGGAGTACTTTATCTCCACTCACGGTGCGCGTAAAGGTCTTGCCGATACCGCCCTGAAAACAGCTGACTCAGGTTACCTTACACGCCGTCTTGTTGATGTTGCGCAGGATGTTATCATTCGTGAAACAGATTGCGGAACAGACCGCGGTATTCTTGCAAAACCGCTCAAAGAAGGCACGGAAATCATCGAGCGTCTGGAAGAGCGTCTGATCGGACGTTTCGCCAGAAAACAGATCAAACATCCTGAAACGGGTGCTGTGCTCATTAACGAAAATGAATTGATCGATGAAGATAAAGCGCTGGAAATCGTTGAAGCCGGAATCGAAGAAGTGTGGATCCGTTCTGCGTTCACATGTAACACTCCTCATGGTGTATGTAAACGATGCTACGGACGAAACCTTGCAACCGGAACTGATGTTGAAGTCGGCGAAGCAGTAGGTATTATCGCCGCTCAATCTATCGGTGAGCCTGGAACACAGTTAACGATGCGTACGTTCCACACAGGCGGGGTTGCCGGAGACGATATCACACAAGGTCTTCCGCGTATCCAAGAGCTTTTCGAAGCGCGTAATCCGAAAGGTCAAGCGACGATTTCTGAGATTGACGGTACAATTGCCGAAATCAATGAAGTCCGCGACAAACAGCAGGAGATTGTTGTTCAGGGCGCTGTTGAGACCCGTTCATACACGGCACCTTACAACTCACGCCTGAAAGTGACTGAGGGTGATCAGATTACCCGCGGTCAAGTGCTGACGGAAGGTTCAATCGATCCGAAAGAACTTCTTAAAGTCACTGACCTGACAACGGTTCAGGAATATCTTCTGCATGAGGTTCAGAAGGTTTACCGTATGCAGGGGGTTGAAATCGGCGATAAACACGTAGAAGTAATGGTTCGCCAGATGCTTCGCAAAGTCCGTGTAATCGATGCCGGAGATACTGATGTTCTCCCTGGCACATTGCTTGATATTCACCAATTTACAGAAGCGAACAAAAAAGTGCTGCTTGAAGGCAATCGACCTGCTACAGGCCGTCCTGTCCTTCTCGGTATCACGAAAGCTTCACTTGAGACGGATTCATTCTTGTCTGCCGCATCATTCCAGGAAACAACACGCGTTCTTACAGATGCTGCGATTAAAGGCAAGCGTGATGAACTTCTCGGCCTGAAAGAGAATGTCATCATCGGTAAACTGGTTCCGGCCGGTACAGGTATGATGAATTACAGAAAAGTAAAACCTGTTTCAAACGTTCAGCCTTCGGAAGATATGGTTCCGGCTGAATAA	MLDVNNFEYMNIGLASPDKIRSWSFGEVKKPETINYRTLKPEKDGLFCERIFGPTKDWECHCGKYKRVRYKGVVCDRCGVEVTRAKVRRERMGHIELAAPVSHIWYFKGIPSRMGLVLDMSPRALEEVIYFASYVVTDPANTPLEKKQLLSEKEYRAYLDKYGNKFQASMGAEAINKLLQDIDLVKEVDMLKEELKTSQGQRRTRAIKRLEVLEAFRNSGNKPSWMILDVLPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPSIIVQNEKRMLQEAVDALIDNGRRGRPVTGPGNRPLKSLSHMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPHLKMYQCGLPKEMALELFKPFVMKELVEKGLAHNIKSAKRKIERVQPEVWDVLESVIKEHPVLLNRAPTLHRLGIQAFEPTLVEGRAIRLHPLVCTAYNADFDGDQMAVHVPLSAEAQAEARILMLAAQNILNPKDGKPVVTPSQDMVLGNYYLTLERAGAVGEGMVFKNTDEALLAYQNGYVHLHTRVAVAANSLKNVTFTEEQRSKLLITTVGKLVFNEILPESFPYMNEPTKSNIEEKTPDRFFLDKGADVKAVIAEQPINAPFKKGILGKIIAEIFKRFHITETSKMLDRMKNLGFRYSTKAGITVGVSDIVVLDDKQEILEEAQSKVDNVLKQFRRGLITEEERYERVISIWSSAKDVIQGKLMKSLDEVNPIYMMSDSGARGNASNFTQLAGMRGLMANPAGRIIELPIKSSFREGLTVLEYFISTHGARKGLADTALKTADSGYLTRRLVDVAQDVIIRETDCGTDRGILAKPLKEGTEIIERLEERLIGRFARKQIKHPETGAVLINENELIDEDKALEIVEAGIEEVWIRSAFTCNTPHGVCKRCYGRNLATGTDVEVGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQELFEARNPKGQATISEIDGTIAEINEVRDKQQEIVVQGAVETRSYTAPYNSRLKVTEGDQITRGQVLTEGSIDPKELLKVTDLTTVQEYLLHEVQKVYRMQGVEIGDKHVEVMVRQMLRKVRVIDAGDTDVLPGTLLDIHQFTEANKKVLLEGNRPATGRPVLLGITKASLETDSFLSAASFQETTRVLTDAAIKGKRDELLGLKENVIIGKLVPAGTGMMNYRKVKPVSNVQPSEDMVPAE				NA	NA	NA	NA	NA
D1-12_03827	249	rplGB	COG1358	Ribosome-associated protein L7Ae-like protein	ATGTCTTATGATAAAGTATCACAGGCCAAATCAATTATTATTGGTACGAAGCAAACAGTGAAAGCTCTAAAACGAGGTTCAGTGAAGGAAGTCGTCGTGGCAAAAGACGCGGATTCAGTTCTTACGGCTGGCGTTATCCAGCTTGCAAAGAACCAAAATACCGCTGTCTGTATGGTGGATTCCATGAAAAAGCTCGGCAAAGCCTGCGGAATTGAAGTGGGAGCAGCAGCTGTTGCCATTATGTTATAG	MSYDKVSQAKSIIIGTKQTVKALKRGSVKEVVVAKDADSVLTAGVIQLAKNQNTAVCMVDSMKKLGKACGIEVGAAAVAIML				NA	NA	NA	NA	NA
D1-12_03828	417	rpsL	COG0048	30S ribosomal protein S12	ATGCCTACAATTAATCAGCTAATTCGCAAGGGACGCGTGAGCAAAGTTGAAAACTCTAAGTCACCTGCACTAAACAAAGGATACAACAGCTTTAAAAAAGAGCACACTAACGTATCTTCTCCACAAAAACGCGGGGTATGTACTCGTGTCGGTACAATGACACCGAAAAAACCGAACTCAGCACTTCGTAAATATGCTCGTGTTCGTTTGACTAACGGAATCGAGGTTACTGCCTACATTCCTGGTATCGGTCACAACCTGCAAGAGCACAGCGTTGTACTGATCCGCGGCGGACGTGTAAAAGACTTACCGGGGGTACGCTACCACATCGTTCGTGGCGCGCTTGATACTGCCGGAGTTGAAAACCGTGCGCAAGGCCGTTCTAAATACGGTACGAAACGTCCTAAAGCAAAGTAA	MPTINQLIRKGRVSKVENSKSPALNKGYNSFKKEHTNVSSPQKRGVCTRVGTMTPKKPNSALRKYARVRLTNGIEVTAYIPGIGHNLQEHSVVLIRGGRVKDLPGVRYHIVRGALDTAGVENRAQGRSKYGTKRPKAK				NA	NA	NA	NA	NA
D1-12_03829	471	rpsG	COG0049	30S ribosomal protein S7	ATGCCACGTAAAGGTCCTGTAGCAAAAAGAGATGTTTTACCTGATCCGCTTTACAACTCTAAGCTGGTATCCCGCCTGATCAACAAAATGATGATCGACGGTAAAAAAGGTAAATCTCAAACAATCCTATACAAGTCATTCGATATCATTAAAGAACGCACTGGCAATGATGCAATGGAGGTTTTCGAACAAGCATTGAAAAACATCATGCCTGTACTTGAAGTAAAAGCACGCCGTGTAGGTGGAGCTAACTACCAAGTGCCTGTAGAAGTTCGTCCTGAACGCCGTACAACTCTTGGTCTTCGCTGGTTGGTTAACTATGCGCGTCTTCGCGGAGAAAAAACAATGGAAGAGCGCCTGGCTAACGAAATTCTTGATGCAGCTAACAACACTGGTGCTGCCGTTAAGAAACGTGAAGACACTCACAAGATGGCAGAAGCGAACAAAGCATTTGCTCACTACCGCTGGTAG	MPRKGPVAKRDVLPDPLYNSKLVSRLINKMMIDGKKGKSQTILYKSFDIIKERTGNDAMEVFEQALKNIMPVLEVKARRVGGANYQVPVEVRPERRTTLGLRWLVNYARLRGEKTMEERLANEILDAANNTGAAVKKREDTHKMAEANKAFAHYRW				NA	NA	NA	NA	NA
D1-12_03830	2079	fusA	COG0480	Elongation factor G	ATGGCAAGAGAGTTCTCCTTAGAAAAAACTCGTAATATCGGGATCATGGCTCACATCGATGCCGGTAAAACGACTACTACAGAACGGATCTTGTTCTACACAGGCCGTATCCACAAAATTGGCGAAACTCACGAAGGTGCTTCGCAAATGGACTGGATGGAGCAGGAACAAGAACGCGGTATCACAATCACTTCTGCAGCAACGACTGCACAGTGGAAAGGTTACCGTGTAAACATCATCGATACACCGGGACACGTAGACTTCACAGTTGAAGTTGAACGTTCACTCCGTGTACTTGATGGTGCGGTTGCCGTACTTGATGCTCAATCAGGTGTTGAGCCTCAGACAGAAACAGTATGGCGCCAAGCAACAACTTACGGAGTACCGCGTGTTGTATTTGTCAACAAAATGGACAAAATCGGCGCAGACTTCCTTTACTCTGTAGGCACTTTAAGAGACCGTCTTCAAGCTAACGCTCACGCAATTCAATTGCCGATCGGCGCTGAAGACAACTTCGAAGGTATCATCGACTTAGTAGAAAACGTTGCGTATTTCTACGAAGATGACCTTGGAACTCGTTCAGATGCGAAAGAAATCCCTGAAGAGTACAAAGAGCAAGCTGAAGAGCTTCGCAGCAGCCTGATTGAAGCTGTAGCTGAGCTTGATGAAGAGCTTATGGAAAAGTACCTTGAAGGTGAAGAAATCACTATCCCTGAACTGAAAGCTGCTATCCGTAAAGGTACACTGAATGTTGAATTCTACCCTGTACTTGTTGGTTCTGCTTTCAAAAACAAAGGTGTTCAGCTTGTACTTGATGCTGTTCTTGACTACCTTCCTGCGCCAACTGATGTTGCTGCAATCAAAGGTGTACGTCCTGATACAGATGAAGAGATCGTTCGTCATTCTTCTGATGAAGAGCCGTTCTCTGCACTTGCATTTAAAGTTATGACTGACCCTTATGTCGGTAAGCTGACATTCTTCCGCGTATATTCCGGTACACTTGATTCCGGTTCATATGTAAAGAACTCTACAAAAGGCAAGCGTGAGCGCGTAGGACGTATCCTTCAAATGCACGCTAACAGCCGTGAAGAGATCTCTACTGTTTACGCTGGAGACATCGCAGCTGCTGTAGGTCTAAAAGATACTTCTACTGGAGATACTCTATGTGATGAGAAGGATCTTGTAATCCTTGAATCAATGGAATTCCCAGAGCCTGTTATCGACGTAGCGATTGAGCCTAAATCAAAAGCTGACCAAGATAAAATGGGTATCGCTTTAGCGAAACTTGCTGAAGAAGATCCTACATTCCGTACACAAACAAACCCTGAAACGGGTCAAACAATCATCTCTGGTATGGGTGAGCTTCACCTTGATATCATTGTTGATCGTATGAAGCGTGAGTTCAAAGTTGAAGCTAACGTTGGTGCTCCTCAAGTTGCGTACCGTGAGACATTCCGTACCGGTGCAAAAGTTGAAGGTAAATTCGTACGTCAATCAGGCGGACGCGGTCAGTTCGGTCACGTTTGGATCGAATTTGAACCGAACGAAGAAGGCGCTGGCTTTGAATTCGAAAACGCAATCGTCGGTGGTGTTGTTCCTCGTGAATACATCCCAGCCGTACAAGCAGGTCTTGAAGACTCTCTTGAAAATGGTGTCCTAGCCGGATTCCCGCTAATCGACATCAAGGCGAAACTTTTTGATGGATCTTACCATGATGTTGACTCAAATGAAATGGCGTTTAAAGTCGCTGCTTCTATGGCATTGAAAAATGCAGTCAGCAAATGTAACCCAGTTCTTCTTGAACCAATCATGAAAGTTGAAGTTGTTATTCCTGAAGAATACATGGGAGACATCATGGGTGATGTTACTTCTCGTCGCGGACGCGTAGAAGGTATGGAAGCTCGCGGTAACGCTCAAGTTGTGCGTGCGATGGTACCTCTTGCTGAAATGTTCGGTTACGCTACTGCCCTTCGTTCTAACACGCAAGGACGCGGTACGTTCACAATGTTCATGGATCACTACGAAGAAGTGCCGAAGAGCATCGCTGAAGAAATTATCAAAAAAAATAAAGGCGAATAA	MAREFSLEKTRNIGIMAHIDAGKTTTTERILFYTGRIHKIGETHEGASQMDWMEQEQERGITITSAATTAQWKGYRVNIIDTPGHVDFTVEVERSLRVLDGAVAVLDAQSGVEPQTETVWRQATTYGVPRVVFVNKMDKIGADFLYSVGTLRDRLQANAHAIQLPIGAEDNFEGIIDLVENVAYFYEDDLGTRSDAKEIPEEYKEQAEELRSSLIEAVAELDEELMEKYLEGEEITIPELKAAIRKGTLNVEFYPVLVGSAFKNKGVQLVLDAVLDYLPAPTDVAAIKGVRPDTDEEIVRHSSDEEPFSALAFKVMTDPYVGKLTFFRVYSGTLDSGSYVKNSTKGKRERVGRILQMHANSREEISTVYAGDIAAAVGLKDTSTGDTLCDEKDLVILESMEFPEPVIDVAIEPKSKADQDKMGIALAKLAEEDPTFRTQTNPETGQTIISGMGELHLDIIVDRMKREFKVEANVGAPQVAYRETFRTGAKVEGKFVRQSGGRGQFGHVWIEFEPNEEGAGFEFENAIVGGVVPREYIPAVQAGLEDSLENGVLAGFPLIDIKAKLFDGSYHDVDSNEMAFKVAASMALKNAVSKCNPVLLEPIMKVEVVIPEEYMGDIMGDVTSRRGRVEGMEARGNAQVVRAMVPLAEMFGYATALRSNTQGRGTFTMFMDHYEEVPKSIAEEIIKKNKGE				NA	NA	NA	NA	NA
D1-12_03831	1191	tuf	COG0050	Elongation factor Tu	ATGGCTAAAGAAAAATTCGACCGTTCCAAATCACATGCCAATATCGGTACAATTGGACACGTTGACCATGGTAAAACAACATTAACTGCTGCTATCTCAACAGTACTTCATAAGAAATCTGGTAAAGGTACAGCTATGGCGTACGATCAAATTGATGGTGCTCCAGAAGAACGTGAGCGCGGTATCACAATCTCTACTGCACACGTTGAGTACGAAACTGACACTCGTCACTATGCACACGTTGACTGCCCAGGACACGCTGACTATGTTAAAAACATGATCACTGGTGCTGCGCAAATGGACGGAGCTATCCTTGTAGTATCTGCTGCTGATGGCCCAATGCCACAAACTCGTGAGCACATCCTTCTTTCTAAAAACGTTGGTGTACCATACATCGTAGTATTCCTTAACAAATGCGACATGGTAGACGACGAAGAGCTTCTTGAGCTTGTTGAAATGGAAGTTCGCGATCTTCTTAGCGAATACGACTTCCCTGGTGATGATGTACCAGTTGTTAAAGGTTCTGCTCTTAAAGCTCTTGAAGGCGATGCTGAGTACGAAGAAAAAATTCTTGAACTTATGGCTGCAGTTGATGAGTACATCCCAACTCCAGAACGTGACACTGACAAACCATTCATGATGCCAGTTGAGGACGTATTCTCAATCACTGGTCGTGGTACAGTTGCTACTGGCCGTGTAGAACGCGGACAAGTTAAAGTCGGTGACGAAGTTGAAATCATCGGTCTTCAAGAAGAAAACAGCAAAACAACTGTTACAGGTGTTGAAATGTTCCGTAAGCTTCTTGACTACGCTGAAGCTGGAGACAACATCGGTGCACTTCTTCGCGGTGTAGCTCGTGAAGACATCCAACGTGGACAAGTACTTGCTAAACCAGGTACAATCACTCCACACAGCAAATTCAAAGCTGAAGTTTACGTTCTTTCTAAAGAAGAGGGTGGACGTCATACTCCATTCTTCTCTAACTACCGTCCTCAGTTCTACTTCCGTACAACTGACGTAACTGGTATCATCAATCTTCCAGAAGGCGTAGAAATGGTTATGCCTGGAGATAACACTGAAATGATCGTTGAACTTATCTCTACAATCGCTATCGAAGAAGGAACTCGTTTCTCTATTCGTGAAGGCGGACGTACAGTTGGTTCAGGCGTTGTTTCTACAATCACTGAGTAA	MAKEKFDRSKSHANIGTIGHVDHGKTTLTAAISTVLHKKSGKGTAMAYDQIDGAPEERERGITISTAHVEYETDTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLSKNVGVPYIVVFLNKCDMVDDEELLELVEMEVRDLLSEYDFPGDDVPVVKGSALKALEGDAEYEEKILELMAAVDEYIPTPERDTDKPFMMPVEDVFSITGRGTVATGRVERGQVKVGDEVEIIGLQEENSKTTVTGVEMFRKLLDYAEAGDNIGALLRGVAREDIQRGQVLAKPGTITPHSKFKAEVYVLSKEEGGRHTPFFSNYRPQFYFRTTDVTGIINLPEGVEMVMPGDNTEMIVELISTIAIEEGTRFSIREGGRTVGSGVVSTITE	PGPT0015245_3123	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
D1-12_03832	966	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGATCGATAACTTCAAGAAAACCAATCGTATTTCAATGCTTCAGCAATTGCTGATTAATGGCAGTGAACAAACCATTATGATTAATGGTGATGACAGGAGTAATCCGCTGCTTTTATTTTTGCACGGCGGTCCCGGCACGCCTCAAATCGGCTATGCGAGAAAATACCAGAATAAGCTGGAAAAGCATTTCACCGTTGTGAATTGGGATCAGAGAGGGGCGGGTCTCTCTTATTCAAAGGAAATTCCGGGTTCATCTATGACTTTGGATCAGCTTACAGCTGACGCCATTCATTTGACCGAACGCTTATGCAAGCAATTCAGCAGGCAAAAAATATATATCGCCGGCTATTCGTGGGGGTCAGTTCTGGCGCTTCATGTTCTTCAAGAAAGGCCTGATTTGTATTATGGGTATATCGGTATCAGTCAGGTGGTTAATATTCAAAAGGAAGAAACGGAAGCTTACCGGCTGATGATGGAATGGAGCAGGCAACGCAAACATTTCCTGCTGGAAAAGACGCTGAGCTTTATCGGAGCGCCTCCATGGGAGAAACAGCTGCAGCGAACGTTGTTTCTGCTTTGTATCGAGATGAGGGGAGGGGGCTTTACCCATCATCCGATCGGCGCTCTTAAAGCAGGGGGGCGAATGCTGTTTGGTGAACCGTACGGTGTGAGAGGGAGCTTCTTAGCCGCGCGGGGTCAAATGTTCAGCCTGAAACACCTGTGGGAGGATCTCATTTTCTTTGATGCCGGAGAATCAGTTTCTTCTATTATAATACCGTGCTGTTTTATGTCAGGGAGATACGATTTGACGGTCCCGGGGACGACGTCTTATGAATATTATCAGAAGGTTGATGCGCCGTATAAAGAATGGCATTGGTTTGAGAACTCAGCCCATTCGCCTCACTTGGAGGAACCGGATCGCTTTGCCGAAGTTGTCAGCCGGTTCGCATCGTTCCATCTCTGA	MIDNFKKTNRISMLQQLLINGSEQTIMINGDDRSNPLLLFLHGGPGTPQIGYARKYQNKLEKHFTVVNWDQRGAGLSYSKEIPGSSMTLDQLTADAIHLTERLCKQFSRQKIYIAGYSWGSVLALHVLQERPDLYYGYIGISQVVNIQKEETEAYRLMMEWSRQRKHFLLEKTLSFIGAPPWEKQLQRTLFLLCIEMRGGGFTHHPIGALKAGGRMLFGEPYGVRGSFLAARGQMFSLKHLWEDLIFFDAGESVSSIIIPCCFMSGRYDLTVPGTTSYEYYQKVDAPYKEWHWFENSAHSPHLEEPDRFAEVVSRFASFHL				NA	NA	NA	NA	NA
D1-12_03833	309	rpsJ	COG0051	30S ribosomal protein S10	ATGGCAAAACAAAAAATTCGTATTCGTTTAAAAGCATATGATCATAGAATCCTTGATCAATCTGCAGAGAAGATTGTTGAAACGGCAAAACGTTCTGGTGCCAGCGTATCTGGTCCGATTCCGTTGCCAACTGAAAAATCAGTTTACACAATCCTTCGTGCGGTGCACAAATACAAAGATTCTCGTGAGCAATTTGAAATGCGTACACATAAACGTTTAATCGACATTGTGAACCCAACACCACAAACTGTTGATGCTCTCATGCGATTAGACTTACCATCTGGTGTCGATATCGAAATCAAACTTTAA	MAKQKIRIRLKAYDHRILDQSAEKIVETAKRSGASVSGPIPLPTEKSVYTILRAVHKYKDSREQFEMRTHKRLIDIVNPTPQTVDALMRLDLPSGVDIEIKL	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
D1-12_03834	630	rplC	COG0087	50S ribosomal protein L3	ATGACCAAAGGAATCTTAGGAAGAAAAATTGGTATGACGCAAGTATTCGCAGAGAACGGTGATCTTATCCCGGTAACTGTTATTGAAGCAGCTCCAAACGTTGTTCTTCAAAAGAAAACAGCTGAAAATGATGGCTATGAAGCGATCCAGCTTGGTTTTGACGATAAGCGTGAAAAGCTTTCAAACAAACCGGAAAAAGGACACGTTGCAAAAGCGGAAACTGCTCCTAAGCGCTTCGTTAAAGAATTACGCGGCGTGGATATGGATGCGTATGAAATTGGTCAGGAAGTCAAGGTTGAAATTTTCTCTGCAGGAGAAATCGTAGATGTAACAGGAGTATCTAAAGGTAAAGGTTTCCAAGGTGCGATCAAGCGCCACGGGCAATCTCGCGGACCTATGTCTCACGGTTCACGCTACCACCGTCGTCCTGGTTCAATGGGACCTGTAGATCCTAACCGTGTATTCAAAGGTAAACTATTACCTGGACGCATGGGCGGAGATCAAATCACTGTCCAAAACCTTGAAATCGTAAAAGTAGATGCTGAGCGCAATCTTCTTTTGATTAAAGGTAACGTACCTGGTGCGAGAAAAACTTTAATCACTGTTAAAAGTGCTGTTAAATCTAAATAA	MTKGILGRKIGMTQVFAENGDLIPVTVIEAAPNVVLQKKTAENDGYEAIQLGFDDKREKLSNKPEKGHVAKAETAPKRFVKELRGVDMDAYEIGQEVKVEIFSAGEIVDVTGVSKGKGFQGAIKRHGQSRGPMSHGSRYHRRPGSMGPVDPNRVFKGKLLPGRMGGDQITVQNLEIVKVDAERNLLLIKGNVPGARKTLITVKSAVKSK				NA	NA	NA	NA	NA
D1-12_03835	624	rplD	COG0088	50S ribosomal protein L4	ATGCCAAAAGTAGCATTATACAACCAAAACGGTTCTACTGCTGGTGATATCGAATTAAACGCGTCTGTATTTGGAATTGAGCCAAATGAGAGCGTAGTATTCGACGCTATTCTTATGCAAAGAGCTTCCTTACGTCAAGGATCTCACAAAGTAAAAAATCGTTCTGAAGTACGCGGCGGAGGTCGCAAACCATGGCGTCAAAAAGGTACAGGTCGTGCCCGTCAAGGTTCAATCCGTTCACCGCAATGGCGCGGGGGTGGTGTCGTATTCGGCCCAACACCACGCAGCTATTCTTACAAATTACCTAAAAAAGTTCGCCGCTTGGCAATCAAATCAGTATTGTCTTCTAAAGTGAACGACAACAACATTATTGTTCTTGAAGATCTTACTCTTGATACGGTTAAAACAAAAGAAATGGCAGCTATCCTTAAAGGATTATCTGTTGAGAAAAAAGCTTTAATCGTAACTGCGGATGCAAACGAAGCAGTATCTCTTTCTGCACGCAACATCCCTGGAGTTACAGTTGTTCAAGCTAACGGAATCAACGTGTTAGACGTTGTCAACCACGAGAAGCTTCTGATTACAAAAGCTGCGGTTGAAAAAGTAGAGGAGGTGCTTGCATAA	MPKVALYNQNGSTAGDIELNASVFGIEPNESVVFDAILMQRASLRQGSHKVKNRSEVRGGGRKPWRQKGTGRARQGSIRSPQWRGGGVVFGPTPRSYSYKLPKKVRRLAIKSVLSSKVNDNNIIVLEDLTLDTVKTKEMAAILKGLSVEKKALIVTADANEAVSLSARNIPGVTVVQANGINVLDVVNHEKLLITKAAVEKVEEVLA				NA	NA	NA	NA	NA
D1-12_03836	288	rplW	COG0089	50S ribosomal protein L23	ATGAAAGATCCTCGTGATGTTCTTAAGCGCCCCGTCATTACTGAACGTTCTGCTGATTTAATGACTGAAAAAAAATATACTTTTGAAGTTGATGTAAGAGCTAATAAAACAGAAGTGAAAGATGCAGTTGAAAGTATCTTTGGAGTGAAAGTTGACAAAGTCAACATCATGAACTACAAGGGGAAATCAAAACGTGTCGGCCGCTACACTGGTATGACTAGCCGTCGCAGAAAAGCGATCGTAAAACTTACTGCAGACAGCAAAGAAATCGAAATTTTTGAAGCTTAA	MKDPRDVLKRPVITERSADLMTEKKYTFEVDVRANKTEVKDAVESIFGVKVDKVNIMNYKGKSKRVGRYTGMTSRRRKAIVKLTADSKEIEIFEA				NA	NA	NA	NA	NA
D1-12_03837	834	rplB	COG0090	50S ribosomal protein L2	ATGGCGATTAAAAAGTATAAACCGACCTCTAACGGACGTCGTGGCATGACAACTTCAGATTTTGCTGAAATCACGACTGACCAGCCGGAAAAATCCTTGCTTGCGCCCCTTCACAAAAAAGGCGGACGTAACAACCAAGGTAAATTGACTGTACGTCACCAAGGTGGCGGACACAAACGCCAATACCGTGTTATCGACTTCAAACGCGATAAAGATGGTATACCTGGACGCGTTGCTACAGTTGAGTACGATCCAAACCGTTCAGCTAACATTGCACTAATCAACTATGTAGACGGAGAAAAACGTTACATTCTTGCACCAAAAGGAATTCAAGTAGGTACTGAAATCATGTCCGGCCCTGAAGCTGACATCAAAGTAGGTAACGCACTTCCGCTTATCAACATCCCTGTTGGTACAGTTGTGCATAACATTGAATTAAAACCTGGTAAAGGCGGACAGCTTGTACGTTCAGCTGGTACATCTGCTCAGGTTCTTGGTAAAGAAGGCAAATACGTTCTTGTACGTCTTAACTCTGGTGAAGTTCGCATGATCCTTTCTGCTTGCCGCGCTTCTATCGGTCAAGTAGGTAACGAGCAGCACGAACTGATCAACGTTGGTAAAGCAGGACGCTCTCGCTGGAAAGGCATCCGCCCTACAGTCCGCGGTTCTGTAATGAACCCTAACGATCACCCGCACGGTGGTGGTGAAGGTCGCGCGCCAATCGGACGTAAATCACCAATGTCTCCTTGGGGCAAACCGACTCTTGGATTCAAGACACGTAAGAAAAAGAACAAATCTGATAAATTTATCGTACGTCGTCGTAAAAATAAATAA	MAIKKYKPTSNGRRGMTTSDFAEITTDQPEKSLLAPLHKKGGRNNQGKLTVRHQGGGHKRQYRVIDFKRDKDGIPGRVATVEYDPNRSANIALINYVDGEKRYILAPKGIQVGTEIMSGPEADIKVGNALPLINIPVGTVVHNIELKPGKGGQLVRSAGTSAQVLGKEGKYVLVRLNSGEVRMILSACRASIGQVGNEQHELINVGKAGRSRWKGIRPTVRGSVMNPNDHPHGGGEGRAPIGRKSPMSPWGKPTLGFKTRKKKNKSDKFIVRRRKNK				NA	NA	NA	NA	NA
D1-12_03838	279	rpsS	COG0185	30S ribosomal protein S19	ATGGCTCGCAGCTTGAAAAAAGGACCATTTGTCGATGGACACTTGATGACAAAAATCGAGAAATTAAATGAAACGGACAAGAAACAAGTTGTAAAAACTTGGTCTCGCCGTTCAACTATTTTCCCACAATTTATCGGTCACACTATCGCAGTATATGACGGACGTAAACACGTGCCTGTATTCATTTCTGAAGACATGGTAGGCCACAAGTTGGGCGAATTCGCACCGACTCGTACTTACAAAGGCCACGCCAGTGACGATAAAAAAACAAGACGCTAA	MARSLKKGPFVDGHLMTKIEKLNETDKKQVVKTWSRRSTIFPQFIGHTIAVYDGRKHVPVFISEDMVGHKLGEFAPTRTYKGHASDDKKTRR				NA	NA	NA	NA	NA
D1-12_03839	342	rplV	COG0091	50S ribosomal protein L22	ATGCAAGCTAAAGCTGTTGCAAGAACAGTCCGTATTGCTCCTCGTAAAGCACGTCTAGTAATGGACCTGATTCGAGGTAAGCAAGTAGGCGAAGCAGTATCTATCCTGAACTTAACTCCGAGAGCTGCTTCTCCGATCATCGAAAAAGTTTTAAAATCTGCTATCGCAAATGCTGAGCACAACTACGAGATGGACGCTAACAATCTGGTTATTTCTCAGGCATTTGTTGACGAAGGCCCAACGTTAAAAAGATTCCGCCCGCGTGCTATGGGACGTGCGAGCCAAATCAACAAACGTACGAGCCACATTACAATCGTTGTATCAGAAAAGAAGGAGGGATAA	MQAKAVARTVRIAPRKARLVMDLIRGKQVGEAVSILNLTPRAASPIIEKVLKSAIANAEHNYEMDANNLVISQAFVDEGPTLKRFRPRAMGRASQINKRTSHITIVVSEKKEG				NA	NA	NA	NA	NA
D1-12_03840	657	rpsC	COG0092	30S ribosomal protein S3	GTGGGTCAAAAGGTAAATCCAGTCGGTCTTCGTATCGGAGTCATTCGTGATTGGGAATCTAAGTGGTACGCTGGTAAAGATTACGCTGACTTCCTGCACGAAGATTTAAAAATTCGTGAATTCATTAGCAAACGCCTTTCTGACGCTTCTGTTTCTAAAGTAGAAATCGAGCGCGCAGCAAACCGCGTTAACATTACGATCCACACTGCTAAGCCTGGTATGGTAATCGGTAAAGGCGGATCTGAAGTTGAAGCACTTCGTAAAGCCCTTAACAGCCTTACTGGCAAGCGTGTACACATTAACATTCTTGAAATCAAAAGAGCAGATCTTGATGCTCAGCTTGTAGCTGACAACATCGCTCGTCAACTAGAAAACCGTATTTCTTTCCGCCGTGCGCAGAAACAACAAATCCAACGCACTATGCGTGCTGGAGCACAAGGTGTGAAAACAATGGTTTCCGGCCGTCTTGGCGGAGCTGACATTGCTCGTTCTGAATACTACAGTGAAGGAACTGTTCCATTGCACACTTTACGTGCTGACATCGACTATGCAACATCTGAAGCTGACACAACTTACGGTAAGCTTGGTGTAAAAGTCTGGATCTATCGTGGAGAGGTTCTTCCTACTAAGAAGAAAACTGAGGAAGGAGGAAAATAA	MGQKVNPVGLRIGVIRDWESKWYAGKDYADFLHEDLKIREFISKRLSDASVSKVEIERAANRVNITIHTAKPGMVIGKGGSEVEALRKALNSLTGKRVHINILEIKRADLDAQLVADNIARQLENRISFRRAQKQQIQRTMRAGAQGVKTMVSGRLGGADIARSEYYSEGTVPLHTLRADIDYATSEADTTYGKLGVKVWIYRGEVLPTKKKTEEGGK				NA	NA	NA	NA	NA
D1-12_03841	435	rplP	COG0197	50S ribosomal protein L16	ATGTTATTACCAAAACGCGTTAAATATCGCAGAGAGCATCGCGGAAAAATGCGCGGTCGCGCTAAAGGCGGTACTGAAGTACATTTTGGTGAGTACGGTATCCAGGCTCTTGAAGCTTCTTGGATCACGAACCGCCAAATCGAAGCTGCACGTATTGCGATGACTCGTTACATGAAACGTGGCGGTAAAGTTTGGATTAAAATTTTCCCTTCAAAACCTTACACTGCTAAACCGCTTGAGGTACGGATGGGTTCCGGTAAAGGGGCTCCTGAAGGCTGGGTAGCTGTTGTAAAACCGGGCAAAGTTTTATTTGAAATTTCTGGTGTGTCTGAAGAGGTAGCTCGTGAAGCTCTTCGTCTTGCATCTCACAAATTGCCAATTAAAACGAAGTTCGTAAAACGTGAAGAAATTGGTGGTGAATCAAATGAAAGCTAA	MLLPKRVKYRREHRGKMRGRAKGGTEVHFGEYGIQALEASWITNRQIEAARIAMTRYMKRGGKVWIKIFPSKPYTAKPLEVRMGSGKGAPEGWVAVVKPGKVLFEISGVSEEVAREALRLASHKLPIKTKFVKREEIGGESNES				NA	NA	NA	NA	NA
D1-12_03842	201	rpmC	COG0255	50S ribosomal protein L29	ATGAAAGCTAATGAAATTCGTGACCTTACCACTGCTGAAATTGAACAAAAAGTAAAGTCTCTTAAAGAAGAACTTTTCAATCTTCGCTTTCAATTAGCGACAGGACAACTTGAAAATACTGCTCGCATTCGTGAAGTGCGCAAAGCTATCGCGCGCATGAAAACTGTGATTCGTGAAAGAGAAATTGCTGCCAACAAATAA	MKANEIRDLTTAEIEQKVKSLKEELFNLRFQLATGQLENTARIREVRKAIARMKTVIREREIAANK				NA	NA	NA	NA	NA
D1-12_03843	264	rpsQ	COG0186	30S ribosomal protein S17	ATGAGCGAACGTAACCAACGCAAAGTTTACCAAGGCCGTGTTGTTTCTGACAAAATGGATAAAACCATCACTGTTGTTGTTGAAACATACAAAAAGGATCCTATTTACGGTAAACGCGTAAAATACTCAAAGAAATTCAAAGCACATGATGAAAATAACCAAGCTAAAATCGGAGACATCGTAAAGATCATGGAAACTCGTCCATTATCTGCAACTAAGCGTTTTCGTCTAGTAGAAGTTGTCGAAGAAGCTGTTATTATCTAA	MSERNQRKVYQGRVVSDKMDKTITVVVETYKKDPIYGKRVKYSKKFKAHDENNQAKIGDIVKIMETRPLSATKRFRLVEVVEEAVII				NA	NA	NA	NA	NA
D1-12_03844	369	rplN	COG0093	50S ribosomal protein L14	ATGATTCAACAAGAGACTCGTTTAAAAGTTGCTGACAACTCCGGTGCGCGTGAGGTACTTACTATTAAAGTTCTTGGCGGTTCTGGACGTAAAACGGCTAACATTGGTGATGTAATTGTTTGCACGGTTAAACAAGCAACACCAGGAGGCGTTGTCAAAAAAGGTGAAGTCGTAAGAGCTGTTATCGTTCGCACAAAAAGCGGAGCACGCAGATCTGACGGATCATACATCAGCTTCGATGAGAATGCATGTGTTATCATCCGTGACGACAAGAGCCCGCGTGGAACTCGTATCTTCGGACCGGTTGCCCGTGAATTACGTGAAAACAACTTCATGAAAATTGTTTCTCTGGCTCCAGAAGTTATCTAA	MIQQETRLKVADNSGAREVLTIKVLGGSGRKTANIGDVIVCTVKQATPGGVVKKGEVVRAVIVRTKSGARRSDGSYISFDENACVIIRDDKSPRGTRIFGPVARELRENNFMKIVSLAPEVI				NA	NA	NA	NA	NA
D1-12_03845	312	rplX	COG0198	50S ribosomal protein L24	ATGCATGTGAAAAAAGGCGATAAAGTAATGGTTATCTCTGGTAAAGATAAAGGCAAACAAGGTACGATCCTTGCTGCTTTCCCTAAAAAGGACCGCGTTCTAGTTGAGGGCGTAAACATGGTGAAGAAGCACTCTAAACCAACTCAAGCAAACCCTCAAGGCGGTATTTCTAATCAAGAGGCGCCAATTCATGTATCAAACGTTATGCCGCTCGATCCTAAAACAGGTGAAGTGACTCGCGTAGGATACAAAGTGGAAGATGGCAAAAAAGTTCGTGTTGCAAAAAAATCTGGGCAAGTCTTAGATAAATAG	MHVKKGDKVMVISGKDKGKQGTILAAFPKKDRVLVEGVNMVKKHSKPTQANPQGGISNQEAPIHVSNVMPLDPKTGEVTRVGYKVEDGKKVRVAKKSGQVLDK				NA	NA	NA	NA	NA
D1-12_03846	540	rplE	COG0094	50S ribosomal protein L5	ATGAACCGCCTTAAAGAAAAGTACAATAAAGAAATTTCACCTGCTTTAATGACGAAGTTCAACTACGACTCTGTTATGCAGGTGCCAAAAATCGAAAAAATCGTAATCAACATGGGTGTCGGTGATGCTGTTCAAAACGCAAAAGCAATCGACAGTGCTGTTGAAGAATTAACGTTTATCGCAGGTCAAAAACCTGTCGTTACTCGTGCGAAGAAATCAATTGCTGGATTCCGTCTTCGTGAGGGAATGCCTATCGGTGCGAAAGTAACTCTTCGCGGAGAGCGCATGTATGATTTCCTTGATAAACTTATTTCTGTATCTTTACCGCGTGTACGTGACTTCCGCGGGATTTCTAAGAAATCTTTCGACGGTCGCGGAAACTACACTCTTGGTATCAAAGAACAGTTAATCTTCCCTGAAATTGACTACGATAAAGTAACAAAGGTTCGCGGAATGGACATCGTTATCGTAACGACTGCTAACTCTGACGAAGAGGCTCGTGAGCTATTAACTCAAGTAGGTATGCCGTTCCAGAAATAA	MNRLKEKYNKEISPALMTKFNYDSVMQVPKIEKIVINMGVGDAVQNAKAIDSAVEELTFIAGQKPVVTRAKKSIAGFRLREGMPIGAKVTLRGERMYDFLDKLISVSLPRVRDFRGISKKSFDGRGNYTLGIKEQLIFPEIDYDKVTKVRGMDIVIVTTANSDEEARELLTQVGMPFQK				NA	NA	NA	NA	NA
D1-12_03847	186	rpsN1	COG0199	30S ribosomal protein S14	GTGGCTAAAAAGTCAATGATTGCGAAACAACAACGTACACCAAAGTTTAAAGTGCAAGAGTACACTCGCTGTGAACGCTGCGGACGTCCGCACTCAGTCATTCGTAAATTTAAACTTTGCCGTATTTGTTTCCGTGAGCTTGCATATAAAGGACAAATTCCTGGCGTGAAAAAAGCCAGCTGGTAA	MAKKSMIAKQQRTPKFKVQEYTRCERCGRPHSVIRKFKLCRICFRELAYKGQIPGVKKASW				NA	NA	NA	NA	NA
D1-12_03848	399	rpsH	COG0096	30S ribosomal protein S8	ATGGTTATGACAGATCCAATTGCAGATATGCTGACTCGTATTCGCAATGCAAACATGGTACGTCATGAGAAGCTTGAAATTCCTGCTTCTAAATTGAAAAGAGAAATTGCTGACATTTTAAAGCGTGAAGGTTTCATTCGTGACGTTGAGTTCGTAGAAGACAGCAAACAAGGTATCATCCGCGTTTTCTTGAAATACGGACAAAACAACGAGCGCGTTATCACTGGTCTTAAAAGAATCAGCAAACCAGGTTTGCGTGTATACGCTAAATCAAATGAAGTACCTCGCGTACTTAACGGTCTTGGAATCGCGATTATTTCTACATCACAAGGTGTTTTAACGGACAAAGAAGCCCGTGCAAAACAAGCTGGTGGAGAAGTTCTAGCATACGTTTGGTAA	MVMTDPIADMLTRIRNANMVRHEKLEIPASKLKREIADILKREGFIRDVEFVEDSKQGIIRVFLKYGQNNERVITGLKRISKPGLRVYAKSNEVPRVLNGLGIAIISTSQGVLTDKEARAKQAGGEVLAYVW				NA	NA	NA	NA	NA
D1-12_03849	540	rplF	COG0097	50S ribosomal protein L6	ATGTCTCGTGTAGGTAAAAAACTGCTTGAGATCCCTTCTGGAGTTACAGTAACGCTGAACGAAGGCAACACTGTAGCTGTAAAAGGACCAAAAGGAGAATTAACTCGTACTTTCCATCCTGATATGGAAATCAAAATTGAGGACAACGTGCTTACAGTTACTCGTCCTTCTGATCACAAAGAGCACCGTGCGCTGCATGGTACGACTCGCAGTCTGCTTGGAAACATGGTTGAAGGCGTATCTAAAGGATTTGAAAGAGGTTTGGAATTAGTCGGTGTCGGTTATCGTGCGGCTAAATCCGGAAACAAACTTGTTTTAAACGTTGGATACTCTCACCCTGTTGAGATCGTTCCTGAAGAGGGCATCGAAATCGAAGTTCCTTCTCAAACTAAAGTAGTTGTAAAAGGTACAGACAAAGAGCGTGTAGGAGCTATCGCTGCTAACATCCGCGCTGTACGTTCTCCAGAGCCTTACAAAGGTAAAGGAATCCGCTACGAAGGTGAAGTTGTTCGCCGTAAAGAAGGTAAATCTGCTAAGTAA	MSRVGKKLLEIPSGVTVTLNEGNTVAVKGPKGELTRTFHPDMEIKIEDNVLTVTRPSDHKEHRALHGTTRSLLGNMVEGVSKGFERGLELVGVGYRAAKSGNKLVLNVGYSHPVEIVPEEGIEIEVPSQTKVVVKGTDKERVGAIAANIRAVRSPEPYKGKGIRYEGEVVRRKEGKSAK				NA	NA	NA	NA	NA
D1-12_03850	363	rplR	COG0256	50S ribosomal protein L18	ATGATTACGAAAACTAGCAAAAATGCTGCTCGTCAAAAAAGACATGCCCGTGTTCGTGCTAAACTTTCAGGCACAGCTGAAAGACCTCGTCTGAATGTGTTCCGTTCAAACAAACACATTTATGCTCAAATCATCGATGATGTAAATGGCGTTACACTTGCTAGTGCCTCTACTCTCGATAAAGATTTGAACGTGGAAAGCACTGGTGACAGCGCTGCTGCTGCTAAAGTCGGTGAACTCGTTGCGAAACGCGCTTCTGAGAAAGGTGTTTCTGACGTAGTATTTGACCGCGGCGGATACTTATACCATGGACGTGTAAAAGCTCTGGCCGATGCAGCTCGTGAAGCCGGACTGAAATTTTAA	MITKTSKNAARQKRHARVRAKLSGTAERPRLNVFRSNKHIYAQIIDDVNGVTLASASTLDKDLNVESTGDSAAAAKVGELVAKRASEKGVSDVVFDRGGYLYHGRVKALADAAREAGLKF				NA	NA	NA	NA	NA
D1-12_03851	507	rpsE	COG0098	30S ribosomal protein S5	ATGATTATGCGTCGTATTGACCCAAGCAAATTAGAGTTAGAAGAACGCTTAGTTACGGTTAACCGCGTAGCGAAAGTTGTTAAAGGTGGTCGTCGTTTCCGTTTCGCAGCTCTAGTCGTTGTCGGTGACAAAAACGGTCACGTAGGTTTCGGTACTGGTAAAGCACAAGAAGTACCTGAAGCAATCCGCAAAGCTGTTGAAGATGCGAAAAAGAATTTGATTGAAGTACCAATGGTTGGAACTACGATTCCACACGAAATCATCGGACGTTTCGGTGCAGGCAATATCTTGTTGAAACCTGCTTCTGAAGGTACTGGAGTTATCGCTGGAGGCCCTGTACGTGCGGTACTTGAGCTTGCTGGCGTTGCTGATATCCTTTCTAAGTCTTTAGGTTCTAACACACCGATCAACATGATCCGTGCAACACTTCAAGGTTTAAGTGAGCTTAAACGTGCCGAAGAGGTTGCGAAGCTTCGTGGAAAATCTGTAGAAGAACTGTTAGGATAA	MIMRRIDPSKLELEERLVTVNRVAKVVKGGRRFRFAALVVVGDKNGHVGFGTGKAQEVPEAIRKAVEDAKKNLIEVPMVGTTIPHEIIGRFGAGNILLKPASEGTGVIAGGPVRAVLELAGVADILSKSLGSNTPINMIRATLQGLSELKRAEEVAKLRGKSVEELLG				NA	NA	NA	NA	NA
D1-12_03852	180	rpmD	COG1841	50S ribosomal protein L30	ATGGCTAAATTAGAAATTACCCTCAAACGCAGTGTAATCGGTCGCCCGGAAGATCAGCGCGTTACTGTAAGAACACTTGGTTTAAAGAAAACAAACCAAACTGTCGTTCATGAAGATAACGCTGCGATCCGCGGTATGATTAATAAAGTATCTCATCTAGTTTCTGTTAAAGAACAATAA	MAKLEITLKRSVIGRPEDQRVTVRTLGLKKTNQTVVHEDNAAIRGMINKVSHLVSVKEQ				NA	NA	NA	NA	NA
D1-12_03853	441	rplO	COG0200	50S ribosomal protein L15	ATGAAACTTCATGAATTAAAGCCTTCAGAAGGTTCACGTAAAGTACGCAATCGCGTAGGTCGTGGTATTGGTTCTGGTAACGGTAAAACAGCTGGTAAAGGTCACAAAGGTCAAAACGCTCGTTCTGGCGGCGGTGTACGCCCTGGATTCGAGGGGGGACAAATGCCTTTATTCCAACGTCTTCCTAAGCGCGGTTTTACAAACATCAACCGTAAGGAATACGCTATTGTGAACGTAGACAAATTGAACGGTTTTGCGGAAGGAACGGAAGTCACTCCTGAACTTCTTCTTGAGACTGGTGTTATTAGCAAACTTAATGCAGGAGTAAAGATTCTTGGCAACGGTAAATTAGAGAAAAAATTAACTGTAAAAGCCAATAAATTCTCTGCTTCTGCGAAAGAAGCTGTTGAAGCTGCTGGCGGTACAGCTGAGGTGATCTAA	MKLHELKPSEGSRKVRNRVGRGIGSGNGKTAGKGHKGQNARSGGGVRPGFEGGQMPLFQRLPKRGFTNINRKEYAIVNVDKLNGFAEGTEVTPELLLETGVISKLNAGVKILGNGKLEKKLTVKANKFSASAKEAVEAAGGTAEVI				NA	NA	NA	NA	NA
D1-12_03854	1296	secY		Protein translocase subunit SecY	TTGTTTAAGACAATCTCCAACTTTATGCGTGTGAGTGATATTCGGAATAAAATCATTTTTACATTACTCATGCTTATCGTCTTTCGCATAGGTGCGTTTATCCCTGTGCCATATGTAAATGCTCAGGCGTTGCAGACACAAAGTTCGATGGGGGTTTTTGATCTCCTTAACACATTTGGCGGCGGTGCGCTTTATCAGTTCTCCATTTTTGCGATGGGAATTACACCTTACATCACTGCTTCGATCATCATTCAGCTGCTTCAGATGGATGTTGTGCCGAAGTTTACCGAGTGGTCTAAGCAAGGTGAAGTCGGCCGCCGTAAATTAGCTCAGTTCACGAGATATTTTACGATTGTGCTTGGTTTTATCCAGGCATTAGGTATGTCTTACGGGTTTAACAACCTGGCAAACGGTATGCTGATTGAAAAATCCGGCATATCGACATATCTGATTATTGCTTTAGTACTCACTGGAGGAACTGCTTTTTTAATGTGGCTGGGAGAACAAATTACTTCCAATGGAGTAGGTAACGGAATTTCGATCATCATCTTCGCGGGGATTGTGGCTAGTATTCCGAAAACTGTTGGGCAGATTTATGAGACTCAATTTGTCGGCAGCAGCGATCAGCTGTTTATTCATATTGTGAAAATCGCTTTACTGGTGATTGCGATTTTGGCCGTTATTGTTGGTGTTATTTTCATTCAGCAGGCCGTACGCAAAATCGCGATTCAATATGCAAAAGGGCAAGGTCGTTCACCTGTTGGCGGAGGCCAGTCAACTCACCTTCCGCTTAAAGTGAATCCGGCAGGGGTTATTCCGGTAATCTTTGCGGTTGCGTTCCTTATTACGCCGCGTACTATCGCGTCATTTTTCGGAGAAAACGATGTGACAAAGTGGATTCAAGCCAACTTTGACAATACACATCCGGTGGGCATGACGGTTTATGTCGCATTAATTATCGCCTTTACGTACTTCTATGCTTTTGTGCAGGTAAACCCTGAACAAATGGCTGATAACCTTAAAAAACAGGGTGGCTATATCCCGGGGGTTCGTCCAGGGAAAATGACTCAAGATAGAATTACGAGCATTTTGTATCGACTTACGTTTGTGGGTTCTATATTCTTAGCCGTGATTTCCATTCTTCCTATCTTTTTCATTCAATTCGCTGGATTGCCTCAAAGTGCACAGATTGGCGGAACATCATTGTTAATTGTCGTCGGGGTAGCCTTGGAGACAATGAAGCAGCTGGAGAGCCAGTTAGTGAAACGTAATTACCGAGGATTTATGAAAAATTAG	MFKTISNFMRVSDIRNKIIFTLLMLIVFRIGAFIPVPYVNAQALQTQSSMGVFDLLNTFGGGALYQFSIFAMGITPYITASIIIQLLQMDVVPKFTEWSKQGEVGRRKLAQFTRYFTIVLGFIQALGMSYGFNNLANGMLIEKSGISTYLIIALVLTGGTAFLMWLGEQITSNGVGNGISIIIFAGIVASIPKTVGQIYETQFVGSSDQLFIHIVKIALLVIAILAVIVGVIFIQQAVRKIAIQYAKGQGRSPVGGGQSTHLPLKVNPAGVIPVIFAVAFLITPRTIASFFGENDVTKWIQANFDNTHPVGMTVYVALIIAFTYFYAFVQVNPEQMADNLKKQGGYIPGVRPGKMTQDRITSILYRLTFVGSIFLAVISILPIFFIQFAGLPQSAQIGGTSLLIVVGVALETMKQLESQLVKRNYRGFMKN	PGPT0025725_3958	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
D1-12_03855	654	adk	COG0563	Adenylate kinase	ATGAACTTAGTCTTAATGGGACTTCCTGGAGCCGGTAAAGGCACACAGGGAGAACGAATTGTTGAGGATTATGGGATACCTCATATCTCAACGGGAGATATGTTCCGTGCTGCTATGAAAGAAGAAACACCACTCGGACTCGAAGCAAAGTCTTATATTGATAAAGGCGAGCTCGTACCGGACGAAGTCACAATCGGCATTGTCAAAGAAAGACTCGGCAAAAATGATTGTGAAAGAGGTTTTCTTCTGGACGGATTTCCGCGAACAGTCGCTCAGGCTGAAGCTCTTGAAAACATTCTTGAGGAATACGGCAAGCCGATTGATTATGTCATTAACATTAAAGTAGACAAAGACTCTTTAATGGAACGTTTGACTGGACGCAGAATTTGCAGTGTTTGCGGCACAACCTATCATTTGGTTTTCAATCCGCCGAAAACGCCGGGTGTTTGTGATAAAGACGGAGGAGACCTTTATCAACGGGCAGATGATAATGAGGAAACCGTCTCAAAACGGCTTGAGGTCAACATGAAGCAGACTCAGCCTTTACTCGATTTTTATTCTGAGAAAGGGTATCTTGTCAACGTCAATGGCCAGCAGGACATTAACGACGTGTACAAAGATGTGAAAGAGCTTCTTGGAGGATTGAGCAAATGA	MNLVLMGLPGAGKGTQGERIVEDYGIPHISTGDMFRAAMKEETPLGLEAKSYIDKGELVPDEVTIGIVKERLGKNDCERGFLLDGFPRTVAQAEALENILEEYGKPIDYVINIKVDKDSLMERLTGRRICSVCGTTYHLVFNPPKTPGVCDKDGGDLYQRADDNEETVSKRLEVNMKQTQPLLDFYSEKGYLVNVNGQQDINDVYKDVKELLGGLSK	PGPT0009040_3589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
D1-12_03856	747	map	COG0024	Methionine aminopeptidase 1	ATGATTATCTGTAAGACCCCTCGTGAGCTTGGCATCATGCGGGAAGCAGGGCGAATCGTGGCTTTGACTCATGAAGAGATGAAAAAGCACATTAAACCAGGAATCTCGACAAAAGAATTGGATCAAATTGCCGAACGTTTTATTGAGAAGCAGGGTGCAATCCCATCTTTTAAGGGGTATAATGGGTTTCGCGGGAGCATTTGTGTATCAGTTAATGAAGAACTCGTTCACGGAATTCCCGGTAAAAGGGTTTTGCGTGACGGTGACATTATCAGCATTGATATCGGTGCTAAATTAAATGGTTATCATGGTGACTCTGCTTGGACATATCCGGTAGGAAACATCAGTGATGATGATAAACGACTGCTGGAAGTGACAGAGGAGTCTTTATATAAAGGCTTGAAGGAAGCAAAACCAGGTGAACGTTTGTCGAATATTTCCCACGCAATACAAACGTATGTCGAAAATGAGCAGTTTTCAGTTGTTAGGGAGTATGTCGGACATGGTGTTGGTCAAGACTTGCATGAGGATCCGCAAATTCCTCATTACGGTCCGCCAAACAAAGGACCTAGGCTGAAGCCTGGTATGGTTCTCGCTATAGAACCGATGGTTAACGCTGGCAGCCGATATGTGAAAACATTGGCTGATAACTGGACGGTTGTAACGGTAGATGGGAAAAAGTGTGCTCATTTTGAACATACGATTGCGATTACGGAAACGGGTTTTGATATACTGACAAAAGTCTAG	MIICKTPRELGIMREAGRIVALTHEEMKKHIKPGISTKELDQIAERFIEKQGAIPSFKGYNGFRGSICVSVNEELVHGIPGKRVLRDGDIISIDIGAKLNGYHGDSAWTYPVGNISDDDKRLLEVTEESLYKGLKEAKPGERLSNISHAIQTYVENEQFSVVREYVGHGVGQDLHEDPQIPHYGPPNKGPRLKPGMVLAIEPMVNAGSRYVKTLADNWTVVTVDGKKCAHFEHTIAITETGFDILTKV	PGPT0020010_9070	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
D1-12_03857	219	infA	COG0361	Translation initiation factor IF-1	ATGGCGAAAGACGATGTAATTGAAGTGGAAGGTACGATTGTCGAAACACTGCCAAACGCGATGTTCAAAGTTGAACTCGAAAATGGCCATACGGTTTTGGCTCACGTATCTGGTAAAATCCGCATGCACTTCATTCGCATTTTACCTGGAGACAAAGTTACGGTAGAATTATCTCCATATGACTTAACTCGTGGCAGGATTACGTACCGTTACAAATAA	MAKDDVIEVEGTIVETLPNAMFKVELENGHTVLAHVSGKIRMHFIRILPGDKVTVELSPYDLTRGRITYRYK				NA	NA	NA	NA	NA
D1-12_03858	114	rpmJ	COG0257	50S ribosomal protein L36	ATGAAAGTGAGACCATCAGTTAAACCAATCTGCGAGAAATGTAAAGTTATTCGCAGAAAAGGAAAAGTAATGGTGATCTGTGAAAATCCAAAGCATAAACAAAAACAAGGATAA	MKVRPSVKPICEKCKVIRRKGKVMVICENPKHKQKQG				NA	NA	NA	NA	NA
D1-12_03859	366	rpsM	COG0099	30S ribosomal protein S13	ATGGCTCGTATTGCTGGTGTAGATATCCCACGTGACAAACGTGTTGTTATTTCTTTAACATATGTCTTCGGAATTGGCCGCACAACGGCTCAGCAAGTCTTGAAAGAGGCTGGTGTTTCTGAAGATACTCGTGTGCGTGATCTTACTGAAGAAGAACTTGGTAAAATCCGTGATGTTATTGACAAACTGAAAGTAGAAGGTGACCTTCGCCGTGAAGTTTCTCTTAACATCAAGCGTCTGATCGAAATCGGAAGCTACCGCGGAATCCGCCATCGCAGAGGTTTGCCTGTTCGCGGACAAAACTCTAAAAACAATGCGCGTACTCGTAAAGGTCCGCGTCGTACTGTAGCTAACAAGAAAAAATAA	MARIAGVDIPRDKRVVISLTYVFGIGRTTAQQVLKEAGVSEDTRVRDLTEEELGKIRDVIDKLKVEGDLRREVSLNIKRLIEIGSYRGIRHRRGLPVRGQNSKNNARTRKGPRRTVANKKK				NA	NA	NA	NA	NA
D1-12_03860	396	rpsK	COG0100	30S ribosomal protein S11	ATGGCTGCTGCTCGTAAACAAAACACGCGTAAACGTCGCGTGAAAAAGAATATTGAGTCAGGAATCGCTCATATTCGTTCAACTTTCAACAACACGATCGTTACGATCACTGATACTCATGGTAATGCTCTTTCTTGGTCAAGTGCCGGAGCTCTAGGATTCAGAGGTTCTCGTAAATCGACTCCTTTTGCTGCGCAAATGGCTGCTGAAACAGCTGCTAAAGGTTCAATCGAACACGGACTTAAAACTCTTGAAGTAACTGTTAAAGGACCAGGTTCTGGCCGTGAAGCTGCAATCCGTGCTTTACAAGCTGCCGGACTTGAAGTTACAGCTATCAGAGACGTAACTCCTGTTCCTCATAATGGATGCCGTCCACCAAAACGTCGCCGCGTGTAA	MAAARKQNTRKRRVKKNIESGIAHIRSTFNNTIVTITDTHGNALSWSSAGALGFRGSRKSTPFAAQMAAETAAKGSIEHGLKTLEVTVKGPGSGREAAIRALQAAGLEVTAIRDVTPVPHNGCRPPKRRRV				NA	NA	NA	NA	NA
D1-12_03861	945	rpoA	COG0202	DNA-directed RNA polymerase subunit alpha	ATGATCGAGATTGAAAAACCAAAAATCGAAACGGTTGAAATCAGCGACGATGCCAAATTTGGTAAGTTTGTCGTAGAGCCGCTTGAGCGTGGATATGGTACAACTCTGGGTAACTCCTTACGTCGTATCCTCTTATCCTCACTCCCTGGTGCCGCTGTAACATCGATCCAGATAGATGGTGTACTGCACGAATTCTCGACAATCGAAGGCGTTGTGGAAGATGTTACAACGATAATCTTGCACATTAAAAAGCTTGCATTGAAAATCTACTCTGATGAAGAGAAGACGCTTGAAATTGATGTACAGGGCGAAGGAACTGTCACAGCAGCTGATATTACACACGACAGCGATGTTGAAATCCTTAATCCGGATCTTCATATCGCGACTCTTGGTGAGAATGCGAGTTTCCGAGTTCGCCTTACTGCACAAAGAGGACGTGGGTATACACCTGCTGATTCGAACAAAAGAGACGATCAGCCAATCGGCGTGATTCCGATCGATTCAATCTTTACGCCAGTTTCTCGTTTATCTTATCAGGTAGAAAACACTCGTGTAGGCCAGGTTGCAAACTATGACAAACTTACACTTGATGTTTGGACTGACGGAAGCACTGGACCGAAGGAAGCAATTGCTCTCGGTTCAAAGATTTTAACTGAACACCTTAATATATTCGTCGGTTTAACTGACGAAGCTCAGCATGCTGAAATCATGGTTGAAAAAGAAGAGGACCAAAAAGAAAAAGTTCTTGAAATGACGATTGAGGAACTTGATCTTTCTGTCCGTTCTTACAACTGCTTGAAGCGTGCGGGCATTAACACGGTTCAAGAACTTGCGAACAAGACGGAAGAAGATATGATGAAAGTTCGCAACCTGGGACGCAAATCACTTGAAGAAGTGAAAGCGAAACTTGAAGAACTTGGACTCGGCCTTCGCAAAGACGATTGA	MIEIEKPKIETVEISDDAKFGKFVVEPLERGYGTTLGNSLRRILLSSLPGAAVTSIQIDGVLHEFSTIEGVVEDVTTIILHIKKLALKIYSDEEKTLEIDVQGEGTVTAADITHDSDVEILNPDLHIATLGENASFRVRLTAQRGRGYTPADSNKRDDQPIGVIPIDSIFTPVSRLSYQVENTRVGQVANYDKLTLDVWTDGSTGPKEAIALGSKILTEHLNIFVGLTDEAQHAEIMVEKEEDQKEKVLEMTIEELDLSVRSYNCLKRAGINTVQELANKTEEDMMKVRNLGRKSLEEVKAKLEELGLGLRKDD				NA	NA	NA	NA	NA
D1-12_03862	363	rplQ	COG0203	50S ribosomal protein L17	ATGTCATACAGAAAACTAGGACGTACGAGTTCACAGCGTAAAGCTATGCTTCGTGATCTTACAACAGATTTGATCATCAACGAAAGAATTGAAACAACTGAAACACGTGCGAAAGAACTTCGCTCTGTTGTTGAAAAGATGATCACTCTTGGTAAGCGCGGTGACTTGCATGCTCGTCGTCAAGCTGCTGCATACATTCGCAACGAGGTTGCTAATGAAGAAAATAACCAAGATGCACTTCAAAAATTATTCTCTGACATTGCAACTCGTTACGAGGAGCGCCAAGGCGGATACACACGTATTATGAAGCTTGGTCCTCGCCGTGGTGACGGTGCACCAATGGCAATCATCGAATTGGTTTAA	MSYRKLGRTSSQRKAMLRDLTTDLIINERIETTETRAKELRSVVEKMITLGKRGDLHARRQAAAYIRNEVANEENNQDALQKLFSDIATRYEERQGGYTRIMKLGPRRGDGAPMAIIELV				NA	NA	NA	NA	NA
D1-12_03863	846	ecfA1		Energy-coupling factor transporter ATP-binding protein EcfA1	GTGGATCAAAAACAGCTTATATCCGTAAAAGACATTCTATTCCGCTACCGCAAAGATGCAGAAAGACCGGCGCTGGACGGTGTGAGTCTGGAGGTATATGAAGGAGAATGGCTTGCTATCGTAGGTCACAACGGTTCAGGGAAGTCGACTTTGGCCAGAGCGCTGAACGGGCTGATTTTGCCTGAGGCCGGAGAAATTGAAGTCGGCGGCATCAAGCTGACTGAGGATACCGTGTGGGATGTGCGGAAAAAAATAGGGATGGTCTTTCAGAATCCCGATAACCAATTTGTCGGAACGACTGTTCGCGATGATGTGGCTTTTGGTTTAGAAAACAATGGTGTTCCGCGCGAAGAAATGATTGAGAGAGTAGATTGGGCTGTCACACAAGTCAATATGCAGGATTTTCTTGATCAAGAGCCGCACCATCTCTCCGGAGGTCAAAAACAAAGAGTGGCGATCGCGGGAATTATTGCCGCGCGTCCTGATATTATGATTTTGGATGAAGCGACATCCATGCTTGACCCGATTGGGAGAGAAGAAGTCCTTGATACTGTCAGACGCTTAAAAGATCAGGGCATGGCCACCGTCATTTCGATAACACATGACCTGGAAGAAGCCGCAAGGGCGGACAGGATCATTGTGATGAACGGCGGCAGGAAATATGCAGAGGGCACGCCTGAAGAGATTTTTAAATTAAATGAAGACTTGGTTCGCATCGGTCTTGATTTGCCTTTCTCATTCCAGCTCAGCCTGCTTTTGAAAGAAAGCGGACTGGCGTTAACGAAAAACCATCTGACTCAGGAAGGGCTGGTGAATGAGCTGTGGACATTAAAATCAAAGATGTAG	MDQKQLISVKDILFRYRKDAERPALDGVSLEVYEGEWLAIVGHNGSGKSTLARALNGLILPEAGEIEVGGIKLTEDTVWDVRKKIGMVFQNPDNQFVGTTVRDDVAFGLENNGVPREEMIERVDWAVTQVNMQDFLDQEPHHLSGGQKQRVAIAGIIAARPDIMILDEATSMLDPIGREEVLDTVRRLKDQGMATVISITHDLEEAARADRIIVMNGGRKYAEGTPEEIFKLNEDLVRIGLDLPFSFQLSLLLKESGLALTKNHLTQEGLVNELWTLKSKM	PGPT0004455_358	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006	NA	NA
D1-12_03864	870	ecfA2	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA2	GTGGACATTAAAATCAAAGATGTAGAACACCGCTATCATATGAAGACACCGTTTGAACGGCTTGCTCTGTATGATATCAATGCCGTGATAAAAGAGGGCAGCTACGTTGCCGTCATCGGGCATACAGGGTCGGGCAAATCGACGCTCCTGCAGCATTTAAACGGTTTGCTGAAACCGACTAAAGGACAGCTTGAGCTCGGGAGCTCGATTCTGGCAGCCGGTAAAAAGAATAAAGACCTTAAGACTTTGCGAAAAAAAGTCGGAATCGTTTTCCAATTTCCCGAACATCAGCTGTTTGAAGAGACTGTGCTGAAGGACATCGCATTCGGACCGATGAATTTCGGTGTAAAAAAAGAAGACGCTGAACGGAAAGCAAAAGAAATGCTGGGGCTTGTGGGCCTTCCGGAAGACATTTTGAATCGTTCACCATTTGAGCTCAGCGGCGGCCAGATGCGCAGAGTGGCGATTGCCGGCGTTCTCGCGATGGAGCCGGAAGTGCTGGTTTTGGATGAACCGACGGCCGGTCTTGATCCGAGAGGGCGCCAGGACATTATGGACATGTTCTATGCGCTTCATCAGCGGGGAAACCTGACTACCGTTCTCGTCACCCACAGCATGGAGGACGCCGCCCGCTATGCTGACGAAATGATCGTCATGCACAAAGGAACCATTAAAGCGACGGGGAGTCCGCGTGACTTGTTTGTAAAAGGTGAAGAGATGGCCGAAATGGGACTGGATCTTCCTGAATCGGTAAAGTTTCAGAGACGGCTTGAGAAGGCTCTCGGAGTCAAGTATGAGAAACCCATGCTGACCCTGCAGGATGCCGCCAGTGAAATTAAGGCTTTCTTTCAGGAGGAAAAGGACCAATGA	MDIKIKDVEHRYHMKTPFERLALYDINAVIKEGSYVAVIGHTGSGKSTLLQHLNGLLKPTKGQLELGSSILAAGKKNKDLKTLRKKVGIVFQFPEHQLFEETVLKDIAFGPMNFGVKKEDAERKAKEMLGLVGLPEDILNRSPFELSGGQMRRVAIAGVLAMEPEVLVLDEPTAGLDPRGRQDIMDMFYALHQRGNLTTVLVTHSMEDAARYADEMIVMHKGTIKATGSPRDLFVKGEEMAEMGLDLPESVKFQRRLEKALGVKYEKPMLTLQDAASEIKAFFQEEKDQ	PGPT0004455_338	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006	NA	NA
D1-12_03865	798	ecfT	COG0619	Energy-coupling factor transporter transmembrane protein EcfT	ATGATGGACAGCATGATTATCGGAAAGTATGTTCCCGGATCATCGCTTATTCACCGATTGGACCCGCGAACAAAACTTGTCAGCATCTTTCTTTTTGTATGTATCGTTTTTTTGGCAAACAACGTACAGACGTACGCTTTGCTCGGTTTGTTTACATTCGGGGTGATTGCCTTAACACGCGTGCCGTTCAGCTTTTTGCTGAAGGGGCTTAAGCCGATTATCTGGATTGTGGCGTTTACCTTTTTATTACACATTTTCATGACACATGAAGGATCTGTCATTTTTCGGCTTGGCTGGTTTAAAGTGTATGAGGGCGGACTTATACAGGGGATTTTTATCTCCCTCCGTTTCGTTTACCTTATCTTTATGACGACGCTGCTGACGCTGACAACAACGCCGATTGAAATAACGGATGGAATGGAGCAGCTCCTGAATCCTTTTAAAAAGGTGAAGCTGCCCGTACACGAACTCGCATTGATGATGTCGATATCGTTGCGATTTATCCCGACATTGATGGAAGAGACAGATAAAATCATGAAGGCGCAAATGGCAAGGGGTGCGGACTTTACAAGCGGCCCGGTGAAAGACAGAATCAAAGCGGTTGTTCCGCTGCTTGTCCCGCTGTTTGTCAGCGCCTTTAAACGCGCGGAAGAGCTCGCGGTCGCCATGGAGGCGAGAGGCTACCAGGGCGGTGAGGGGAGAACGAAATACAGAAAGCTCGTCTGGACCGGAAAGGATACCGGAGCTATTCTGCTCATCATCGTATTAGCCGTGTTATTGTTTTTCTTAAGAAGTTAG	MMDSMIIGKYVPGSSLIHRLDPRTKLVSIFLFVCIVFLANNVQTYALLGLFTFGVIALTRVPFSFLLKGLKPIIWIVAFTFLLHIFMTHEGSVIFRLGWFKVYEGGLIQGIFISLRFVYLIFMTTLLTLTTTPIEITDGMEQLLNPFKKVKLPVHELALMMSISLRFIPTLMEETDKIMKAQMARGADFTSGPVKDRIKAVVPLLVPLFVSAFKRAEELAVAMEARGYQGGEGRTKYRKLVWTGKDTGAILLIIVLAVLLFFLRS	PGPT0004015_1967	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
D1-12_03866	744	truA	COG0101	tRNA pseudouridine synthase A	ATGAGAGTGAAATGTACCATTGCTTATGACGGGCATTTATTTAACGGATATCAGGTTCAGCCTGGAAAGCGGACCGTTCAAAGTGAATTGGAAAAAGCCCTGGCCGTCATCCATAAAACGGACGGCAGAGTGCCTGTTTACTCATCCGGCCGCACGGACAGCGATGTTCATGCTGCCGGGCAGGTCATTCATTTTGATACGCCGCTGTCCATTCCGGCTGAGAAATGGCCGTTTGCGCTCAATGCCCTGCTGCCTGATGATATTGCCGTCAAAACAGCAGAGATTGCGGATGATGGGTTCCATGCACGATTTAGCGCGGTCCAAAAGGAATATCGCTACTTTGTATATACGGAGAAACACCCGGACGTATTTAAACGACATTACGCTTACCATTTTGCATATCCGCTTAATGTGCAGAAAATGAGGGAAGCTTCAAGGCACCTCATCGGGACACATGATTTCACAAGCTTTTGCGCGGCTGATACCGCGGTTCAGGATAAAGTCAGAACGATTTACGAGCTGGATTGGACTGAGACCGGAGACGGCCTGCAGATGCGGATCACCGGAAACGGTTTTCTCTATAATATGGTCAGAATCATTGCCGGAACATTATTGGATACAGGAGCTGGAAAATTTTCTCCCGATGATGTAAAAGCAATGCTCGAAGCGAAGGATCGCGAAGCCGCGGGGCGCACCGCACCGGGGCACGGGCTGTATTTATGGAGCGTTTGCTATGACAACTAA	MRVKCTIAYDGHLFNGYQVQPGKRTVQSELEKALAVIHKTDGRVPVYSSGRTDSDVHAAGQVIHFDTPLSIPAEKWPFALNALLPDDIAVKTAEIADDGFHARFSAVQKEYRYFVYTEKHPDVFKRHYAYHFAYPLNVQKMREASRHLIGTHDFTSFCAADTAVQDKVRTIYELDWTETGDGLQMRITGNGFLYNMVRIIAGTLLDTGAGKFSPDDVKAMLEAKDREAAGRTAPGHGLYLWSVCYDN				NA	NA	NA	NA	NA
D1-12_03868	438	rplM	COG0102	50S ribosomal protein L13	ATGCGTACAACACCTATGGCTAACGCAAGTACTATTGAACGCAAGTGGTTAGTTGTTGATGCAGCAGGCAAGACTTTAGGACGTCTTTCTACAGAAGTTGCATCTATCCTTCGCGGGAAACACAAACCGACTTACACACCGCACGTTGATACTGGAGATCATGTGATCATCATCAACGCTGAAAAAATCGAGTTAACTGGTAAAAAGTTAACTGATAAAATCTACTACCGTCACACTCAACATCCAGGCGGATTAAAATCAAGAACAGCTCTTGAAATGCGTACAAACTACCCTGAGAAAATGCTTGAGCTTGCTATCAAAGGCATGCTTCCAAAAGGTTCTCTAGGTCGTCAAATGTTCAAAAAATTGAACGTATACCGTGGTTCTGAGCATCCACATGAAGCACAAAAACCTGAAGTTTACGAACTTCGCGGTTAA	MRTTPMANASTIERKWLVVDAAGKTLGRLSTEVASILRGKHKPTYTPHVDTGDHVIIINAEKIELTGKKLTDKIYYRHTQHPGGLKSRTALEMRTNYPEKMLELAIKGMLPKGSLGRQMFKKLNVYRGSEHPHEAQKPEVYELRG				NA	NA	NA	NA	NA
D1-12_03869	393	rpsI	COG0103	30S ribosomal protein S9	TTGGCACAGGTTCAATATTACGGTACTGGCCGTCGTAAAAGTTCTGTAGCGCGTGTGCGCTTAGTTCCAGGAGAAGGTCGTATCGTCGTTAATAATCGTGAAATCAGCGAGCACATTCCATCTCCAGCTCTAATCGAAGATATCAAACAACCATTAACTTTAACTGAAACAGCTGGTACTTATGATGTTTTAGTAAACGTACATGGAGGCGGCTTATCTGGTCAAGCTGGAGCAATCCGTCATGGTATCGCTCGTGCTTTGCTTGAAGCAGATCCAGAATACCGTGCAACACTTAAACGTGCTGGTCTTCTGACTCGTGACGCTCGTATGAAAGAACGTAAAAAATACGGTCTTAAAGGCGCTCGTCGTGCACCTCAGTTCTCAAAACGTTAA	MAQVQYYGTGRRKSSVARVRLVPGEGRIVVNNREISEHIPSPALIEDIKQPLTLTETAGTYDVLVNVHGGGLSGQAGAIRHGIARALLEADPEYRATLKRAGLLTRDARMKERKKYGLKGARRAPQFSKR				NA	NA	NA	NA	NA
D1-12_03870	768			hypothetical protein	ATGAATAAGTTAGTCATACATAACAGCAAGGCATGGGATAAAAAAGTCGAAACAGGCAATGAATGGACGGTTGCGGTTGATTCTCATACGATTGGTGAAGCGAAAAAAGGCAATTGGAGCATCAGGATGACCCCCGGAAAAGATGTGCCGGCGGATTGGTTTCCGCCCATAGACGGTCTGAAGGTTCTTTGTCTCGCTTCAGGAGGAGGACAGCAAGGCCCGGTCCTGGCTGCTGCAGGAGCGGATGTCACCATCTTTGACAATTCGGAAAAACAGCTTGCGCAAGACAGAATGGTTGCCGAGCGGGACGATCTTACGCTTCGGACTGTCAAAGGCAGCATGAATGATCTGAGCTGTTTTGATGATGAGTCATTTGATTTTATCGTGCACCCGGTATCGAATTGCTTTGTTGATACGGTTCTTCCTGTATGGAAAGAAGCTCATCGCGTATTGAAAAAAGGCGGGTCTTTAGTCTCCGGTTTTGTAAATCCCGTCGTGTTCTTATTTGATATGGATTTAGAGCAGGAAGGCGTCCTAAAAGTAAAGTATTCCATTCCGTTTTCGGATGAAAAAGATCTGAGTAAGAAAAAGGTAAAGGAACTTATTGATAATCATGAAGCGCTTGAATTCGGCCATACGCTGGAGGATCAAATTAAAGGTCAGATTGACGCAGGCTTTATGGTTGCCGGTTTTTACGAAGACAAAGGCGGCCTCGTGCTGGATGAATACATTAATACATACTCCGTAACAAGAAGCATTAAAATATAA	MNKLVIHNSKAWDKKVETGNEWTVAVDSHTIGEAKKGNWSIRMTPGKDVPADWFPPIDGLKVLCLASGGGQQGPVLAAAGADVTIFDNSEKQLAQDRMVAERDDLTLRTVKGSMNDLSCFDDESFDFIVHPVSNCFVDTVLPVWKEAHRVLKKGGSLVSGFVNPVVFLFDMDLEQEGVLKVKYSIPFSDEKDLSKKKVKELIDNHEALEFGHTLEDQIKGQIDAGFMVAGFYEDKGGLVLDEYINTYSVTRSIKI				NA	NA	NA	NA	NA
D1-12_03871	474	yizA	COG2318	putative protein YizA	ATGAAAAAGCTGTTTCAATACAATTGGACGGTGCGTGACGAGTGGTTTAGGATATGTGAAAAGCTGAGCCGGGAGGAACTGACGAAAACCCGGACGGGCGGAATGGAGAGCATCTTGTGGACTTTATTTCATATCATTGATGTCGAGATCAGCTGGGCTCGTGCCATTTTAGGTAAAGATGATGTTTTACCTGCTGAGTCTGACTATACGAGCATTCAGGATCTCAGAAAGCTGTCTGAACAGTTTCGGGAGGATGTCATTCATGCGGTCTCCCGCAAAGGACCGGATCTTGTTACGCCGGACTGGATGGACCAAACCTTTCCTAAAGAAGATATTCTCCGCCACATCCTTGCGCATGAGATTCACCATATCGGACAACTGTCGGTTTGGGCCAGAAAAATTGGAATAGAACCGGTTTCGGCTAATGTGATCAGCCGTCCGCAGGAAAAAGCCGCAAAAAAACAGCACCTCTGA	MKKLFQYNWTVRDEWFRICEKLSREELTKTRTGGMESILWTLFHIIDVEISWARAILGKDDVLPAESDYTSIQDLRKLSEQFREDVIHAVSRKGPDLVTPDWMDQTFPKEDILRHILAHEIHHIGQLSVWARKIGIEPVSANVISRPQEKAAKKQHL				NA	NA	NA	NA	NA
D1-12_03872	444			hypothetical protein	ATGGCAGAAGTATTATCTTTTTCAGACGTGAAACGGCAGAAGGATTTTGAGCTTGAGAAGAGTTTACTAAAGGAGCTGTCACTGACGCAGATCATTCAGTCCGTAAAAGCATGTCTTACCCCTTTGTTTCCCTTTCTTCAAGACGAAAACGGCATTCTGAGTGAAGGATGCATAGATTTTGCAATTGAAGCGTATTTATTAGGCGGCCGGTTCGGCGTCTTTGGCTATTATGGTGAGTCTTTGCAGAGGGCAAACGCCCGTTCGGCTGAAGAAGAGGAAGAACTGACGGTCGATTTTTTTGAATATCTTTGCAATTGGACGCATGAGCAATATTCTTCCGTTGAACAAAAAGAAATCTATGAAGCGTCCTGCCGGTTTATCAACAGCTGGTGGACGGAAGGATTTCTGCAAAGAGAAAAACAATGTAAGCTCCGTATGAGGTAA	MAEVLSFSDVKRQKDFELEKSLLKELSLTQIIQSVKACLTPLFPFLQDENGILSEGCIDFAIEAYLLGGRFGVFGYYGESLQRANARSAEEEEELTVDFFEYLCNWTHEQYSSVEQKEIYEASCRFINSWWTEGFLQREKQCKLRMR				NA	NA	NA	NA	NA
D1-12_03873	714	cwlD	COG0860	Germination-specific N-acetylmuramoyl-L-alanine amidase	ATGACAAAAAAGCTGAAATGGCTCGGTTTTTTACTTGGCTTTATCATATTATTGTGTTTATTCCGGTTTCAATTCCATAATGATGATTCCTGGCGGCCGTGGAGTCTGCCGCTGAGCGGAAAAATCATCTATCTCGATCCGGGACACGGCGGGCCGGACGGAGGCGCCACGGGAGGCAGTCACCTTGAAAAGGACATTACTCTCGAAGTGGCCTCCAGGGTAAGAGACTATTTGCAGGAGCAGGGAGCTTTGGTCATTATGACGCGGGAGACGGATACTGATTTAGCTCCTGAAGGGACGAAAGGCTACAGCAGACGCAAAGCGGAAGATCTGAGAAAGCGCGTGGAAATCATCAACCGTTCAGAGGCGGAGCTTTATATCAGCATTCATCTGAACGCCATACCGTCACCGAGATGGAGCGGCGCCCAAAGCTTCTACTATGGAAAATACGAAGAAAATGAAAAAGTGGCAAAATATATACAGGACGAATTGAGAATCAATTTGGAGAATACAACGAGAAAGGCAAAACGGATACACGGCATTTACTTAATGCAGAATGTAACCAAACCGGGCGCGCTGGTGGAAATCGGATTTCTGTCCAATCCCGCGGAAGCGAAAAGGCTCGGACAGCCCAAATATCAGGACAAAATCGCTTCTTCCGTGTATAAGGGCGTATTGAGATACTTCACAGAGAAAGGAGACCCTCCCGAGTAA	MTKKLKWLGFLLGFIILLCLFRFQFHNDDSWRPWSLPLSGKIIYLDPGHGGPDGGATGGSHLEKDITLEVASRVRDYLQEQGALVIMTRETDTDLAPEGTKGYSRRKAEDLRKRVEIINRSEAELYISIHLNAIPSPRWSGAQSFYYGKYEENEKVAKYIQDELRINLENTTRKAKRIHGIYLMQNVTKPGALVEIGFLSNPAEAKRLGQPKYQDKIASSVYKGVLRYFTEKGDPPE	PGPT0024160_6859	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
D1-12_03874	1053	salA	COG0489	Iron-sulfur cluster carrier protein	ATGATAAGAGAAGATGAAGTAAGAAATATAGTCGGAAACATGCGCGAACCTTTTCTTCATAGACCGCTGGGAGAATTGGATGCCATTAAAGAAGTAAAGATCAAGCCGGAAAAACGGCATGTCAGTGTAAAAATTGCACTGGCAAAAACGGGGACGGCTGAACAGATGGGCATTCAGCAGGAAATCGTATCCGTTCTGAAAGAAGCGGGTGCGGAAACTGTGGGACTGCGGTTTGAAGAGCTGCCGGAAGAAACATTGGCGAAATTCAGCCGGCCGGCTGTTGAAAGCGAAACCCTGCTGAATAGGAAACATCCGCCGGTCTTTCTTGCGGTGGCAAGCGGAAAAGGCGGTGTCGGCAAATCAACGGTTTCCGTCAACCTGGCCATTTCTCTTGCGCGGCTCGGAAAAAAAGTCGGCTTGATTGACGCGGATATATACGGATTCAGCGTGCCGGACATGATGGGTATTACAGTTCGCCCGACAGTAGAAGGAGAAAAACTGCTTCCTGTCGAAAGATTTGGAGTAAAGGTTATGTCGATGGGCTTTTTCGTCGAAGAAAACGCTCCGGTTGTGTGGAGAGGGCCGATGCTGGGCAAGATGCTGAATAACTTCTTCCATGAAGTTGACTGGGGAGAGGTTGACTATATCGTTCTTGATCTGCCGCCCGGCACGGGTGATGTGGCGCTCGATGTACACACGATGCTTCCGAGCTGCAAAGAGATTATCGTATCAACGCCGCACCCTACAGCCGCATTTGTAGCGGCGAGAGCGGGATCTATGGCGATTAAGACCGATCATGAAGTTGTAGGGGTTATTGAAAATATGGCTTACTATGAAAGTGCAAAAACCGGCGATAGAGAATATGTGTTCGGTCAAGGCGGGGGAGATAAGCTTGCAGAGGAATTGCAAGTGCCGCTGCTTGGCAGAATTCCTTTAAAACAGCCTGATTGGGACAAGGACCAGTTTGCGCCTTCTGTCTATGACAGAAGTCATCCGATCGGGGAAATTTATATGGGGATCGCCCAGAAAGTCATTGAAAAAACAGCTGAATAA	MIREDEVRNIVGNMREPFLHRPLGELDAIKEVKIKPEKRHVSVKIALAKTGTAEQMGIQQEIVSVLKEAGAETVGLRFEELPEETLAKFSRPAVESETLLNRKHPPVFLAVASGKGGVGKSTVSVNLAISLARLGKKVGLIDADIYGFSVPDMMGITVRPTVEGEKLLPVERFGVKVMSMGFFVEENAPVVWRGPMLGKMLNNFFHEVDWGEVDYIVLDLPPGTGDVALDVHTMLPSCKEIIVSTPHPTAAFVAARAGSMAIKTDHEVVGVIENMAYYESAKTGDREYVFGQGGGDKLAEELQVPLLGRIPLKQPDWDKDQFAPSVYDRSHPIGEIYMGIAQKVIEKTAE	PGPT0013215_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-12_03875	558	gerD		Spore germination protein GerD	ATGTCAAAAGCCAAAACGCTATTGATAAGCTGTTTTGTTGTATTATCTGTAACAGCTTGTGCTCCAAAAGACCAAGCAGCGGATATGGATTATGACCAGACTAAAAAAATGGTTGTTGATATATTAAAGACAGATGATGGAAAAAAAGCAATTAAGGAAATATTAAATGATGATGCGATGAATGAGGCATTGGTGATTGATCAAAATGCCATTAAAGGCACAATAGAGAAAACCCTCACCTCTAAAAAAGGGGCGGAGTTCTGGAAAACCATTTTTGAAGACTCAAAGTTCGCCGAGAGCTTTGCAAAAACTCTTCAGCCTGAGCATGAAAAAATCATAAAAAAACTGATGAAAGACCCTGATTATCAGAAAAGTTTTATGCAGATCATGCAGGACCCCGGCATGGATAAAAAATACTATGAGCTGGTGAAAAGCCAAAAGTTCCGCAGTTACTTAGAAGATGTAATTACAGAGACACTTTCCAGCCCGCTTTTCAAAAAGCAATTCGAGGATGAATTGAAAAAAGCAGCTTCAAGCTCTGAAAAAGAAAGCCAATAA	MSKAKTLLISCFVVLSVTACAPKDQAADMDYDQTKKMVVDILKTDDGKKAIKEILNDDAMNEALVIDQNAIKGTIEKTLTSKKGAEFWKTIFEDSKFAESFAKTLQPEHEKIIKKLMKDPDYQKSFMQIMQDPGMDKKYYELVKSQKFRSYLEDVITETLSSPLFKKQFEDELKKAASSSEKESQ	PGPT0025045_200	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025045-gerD-K06294	NA	NA
D1-12_03876	597			hypothetical protein	ATGAAAAGCCGCGGGCTTGTTCGATTTTTCTTTTCGATTTTAGCTGTGGGCGCTCTTATTACAAGCGTCGTGGGATTTGCTCTGAAGTGGGGGGAGTACAAGGGGTTCTTCCTGAATTTTGATGCCGGTCAGATTTTCTCCGTTCTGATCTGGTTTATCGGGGTAGGCATGATTTTCAGTGTGATCAGCCAGATGGGATTCTTCGTTTTTTTGACGGTGCACCGGTTTGCCCTTGAAATTCTCAGATCAAGCTCGCTTTGGAATCTGCTTCAGCTGTTTATCATTCTGTTTGTCGCTTTTGATTTAATGTACGTCAGATTTTTGTTTTTCGGAGAGCGGGATGACTCGATTGCGGGGTTTGTCTGGCTGCCGCTGGCTCTGCTTGCCGTCGGCCTGTTGACGGCATATATAAAACAAAAGCAGTCCTCAAAAAATACGTTCGTTTCATCATTATTTTTAATGGTCGTTATTACAGCGCTTGAATGGGTTCCCGCGCTACGAGTGAATAATGAGGACTGGCTTTATTTAATGCTGATTCCGCTGATGGGCTGCAATGCGTTTCAGCTGCTAATGCTGCCGAAGTTTGCCCAGAGGTAG	MKSRGLVRFFFSILAVGALITSVVGFALKWGEYKGFFLNFDAGQIFSVLIWFIGVGMIFSVISQMGFFVFLTVHRFALEILRSSSLWNLLQLFIILFVAFDLMYVRFLFFGERDDSIAGFVWLPLALLAVGLLTAYIKQKQSSKNTFVSSLFLMVVITALEWVPALRVNNEDWLYLMLIPLMGCNAFQLLMLPKFAQR				NA	NA	NA	NA	NA
D1-12_03877	765			hypothetical protein	GTGAATCACTTCTACGTGTGGCACATCAGAAGGATAAAACAGCTGCTTATTATTATCATTGCCGCATTTGCAGCAGCCAGCTTTTTTTATATACAGAGAGCCGTCCCCCTTCCTGTATTTTTAACTGATAGCGGCCCGAAGGCGATCTCTAAAGGGGAGACGAAAGCGGGCGAAGTCGCATTAACATTCGATATCAGCTGGGGCGACGAAAAAGCGGTTCCGATTCTGAACGCGCTAAAAGCAAACGGCATTAAAAACGCCACTTTTTTTCTGTCAGCTTCTTGGGCGGAACGGCACCCGGACACAGTTGAACGTATGGTAAAAGACGGACATCAAATCGGCAGCATGGGATATGCGTATAAGAATTATACCAACCTAGAGGACAATGAAATAAAAAAAGATATCCTCCGGGCCCAGACCGCATTTAAAAAGCTTGGTGTGAAGAATGTTCATTTACTCCGCCCGCCGACCGGACAATTTAATAAAAAGGTTCTTACCATTGCACAGCAGTACCACTATTCAGTGGTTCATTACAGCGTTAACTCGCAGGATTGGACAAATCCCGGCCCTGATAAAATCATTGAAAATGTAAACAGTCATATAAAAGGCGGCGACATTGTCCTGCTGCACGCCTCTGATTCAGCAACACAGACTGAAGAAGCGCTCCCCGCCATCATTCACAATTTAAAGCAAAAAGGACTGAAAAACGTGACCGTCGGCGACCTGATCGCAAATACTGACGTCAAGTCATCAGAAGTGAAATAA	MNHFYVWHIRRIKQLLIIIIAAFAAASFFYIQRAVPLPVFLTDSGPKAISKGETKAGEVALTFDISWGDEKAVPILNALKANGIKNATFFLSASWAERHPDTVERMVKDGHQIGSMGYAYKNYTNLEDNEIKKDILRAQTAFKKLGVKNVHLLRPPTGQFNKKVLTIAQQYHYSVVHYSVNSQDWTNPGPDKIIENVNSHIKGGDIVLLHASDSATQTEEALPAIIHNLKQKGLKNVTVGDLIANTDVKSSEVK	PGPT0012156_528	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
D1-12_03879	195	csfB		Anti-sigma-G factor Gin	ATGAATGAAACGTCCAGCCATGAAGAAACATGTATTGTGTGTGAAACCAAAAAAAGCAGGGGAATCCATATATATACGAAATTTATATGTTTAGAGTGTGAGAAGAAAGTAGTTTCCACTCCGACCTCTGATCCGAATTATGAATTTTTCGTTCGTAAACTGAAAAGCCTTCATACACCGACGTTATATTCTTAA	MNETSSHEETCIVCETKKSRGIHIYTKFICLECEKKVVSTPTSDPNYEFFVRKLKSLHTPTLYS				NA	NA	NA	NA	NA
D1-12_03880	615			hypothetical protein	ATGAAACCGTTTATTCAATATATGAAATGGACGCTTTGCGGCAGCACAGTTTTTGTATTAGCGGGGATAACCTTCTTTACGATAGGGCATCAGCCTTTTCTGTATTCGCTTTTATACGGGGCAGCCAGCGGAGCCGCAGCCAGTGCGGCCGGTCTGTGGAATGCGAAGCGTCTCTTTTTAAAAAAACACCGGCTGACAAGAAAAGAATATGCTTATATCAAGGAAAATCTTGAGGAAGCAAAGGGTAAAATCATCCGATTACGCAGGGCGCTTTTTCGCTCTAAAAGTATACAAATGCTGAAGCAGAATGCAGAGATACTGCGGATAACCCGACGAATATATCTGCTCACAAAGCAGGAGCCGAAGCGTTTTTATCAGGCAGAGCGTTTCTATTATCAAACGCTTGATTCTGTTGTGGAACTGACGGAAAAGTATGCTTTGCTCTCCTCACAGCCGCGAAAAAATAAAGATTTATCAATGTCCTTGAGTGAGACGAGGATGACTCTAGCAGAGCTTTCCAGAAGGCTGGAAGAGGATCTTCATGAACTGATGAAGGAGGACATCGACGACCTGCACTTTGAATTAGATATGGCAAAGCATTCACTGAGAAAATAA	MKPFIQYMKWTLCGSTVFVLAGITFFTIGHQPFLYSLLYGAASGAAASAAGLWNAKRLFLKKHRLTRKEYAYIKENLEEAKGKIIRLRRALFRSKSIQMLKQNAEILRITRRIYLLTKQEPKRFYQAERFYYQTLDSVVELTEKYALLSSQPRKNKDLSMSLSETRMTLAELSRRLEEDLHELMKEDIDDLHFELDMAKHSLRK				NA	NA	NA	NA	NA
D1-12_03881	1119			TelA-like protein	ATGGCCAAAGACCGTTCCGACGACAGCGTGGGCGCCCAAAATGACCAGACTCATCTAAAGCTTGCAGATACGCTGCCGGAAGAAACAAGAGAAGCGGCACTTCAGCTCGCTGAAAAACTGGACCCTGAGAACATGCAAAGCATTGTTCTGTTTGGTTCACAGGCGCAGGCGAACCTTCTGGAATTTTCCCACACGATGATAGAGCATGTGCAAAGAAAAGATGCAGGAGAGATGGGACAGATACTGGTTGATCTGATGCTGAAGCTTGACCAGGTAAACCCTGATGATCTGCAGATGAAGAACAAAGGGTTTTTCGCCCGGCTGTTTAAAAGGGTATCCGGTTCTGTGCAGGAAGTGCTTTCGAAATATCAAAAGACAAGTGTGCAGATTGACCGTATCAGCAGAAGGCTGGAACATTCTAAAAATGTGCTGTTGAGTGACAATAAATTGTTAGATCAGCTGTACGCCCAAAATAAACAATACTTTTCTGATTTAACTATGTATATAGCAGCGGGGGAATTAAAATTAGATGAGCTGAAAACAAAGCTGATACCCGAAGCGGCAAGAAAAGCCGAATTACAAGAACACAATCAAATGGCCGCGCAGGAGGTGAATGATCTTCGCCAGTTTGCCGACCGTCTGGATAAGAGGGTGCATGATCTGCTGCTGAGCAGGCAGATTACGCTCCAGAGTGCGCCGCAAATCCGCCTGATTCAAAACACGAATCAGGCACTGGCAGAGAAAATTCAGTCCTCCATTGTTACGGCTATTCCTTTATGGAAGAATCAAGTCGCCATCGCGCTGACGCTTATGAGGCAGCGGAGTGCGGCAGATGTGCAGCAGAAGGCGGCGGATACAACAAATCAATTGCTGCTGAAAAACGCCGAACTTCTGAAAACAAGTACAGTCGAGACCGCTAAAGCCAATGAGCGCGGGCTTGTTGAGGCAGAAACCCTCAAAAAAGTGCAGGAAAGCTTAGTCAGCACACTTGAAGAAATCATGTCTATTCAAGAAGAAGGCAGGATGAAACGCAGGCGTGCCGAGGAGGAGCTTGTTATCATGGAAGGCGATTTAAAAAAGAAGCTGCGTGATATGGGGACCGGCCGGGATAACGGCTAG	MAKDRSDDSVGAQNDQTHLKLADTLPEETREAALQLAEKLDPENMQSIVLFGSQAQANLLEFSHTMIEHVQRKDAGEMGQILVDLMLKLDQVNPDDLQMKNKGFFARLFKRVSGSVQEVLSKYQKTSVQIDRISRRLEHSKNVLLSDNKLLDQLYAQNKQYFSDLTMYIAAGELKLDELKTKLIPEAARKAELQEHNQMAAQEVNDLRQFADRLDKRVHDLLLSRQITLQSAPQIRLIQNTNQALAEKIQSSIVTAIPLWKNQVAIALTLMRQRSAADVQQKAADTTNQLLLKNAELLKTSTVETAKANERGLVEAETLKKVQESLVSTLEEIMSIQEEGRMKRRRAEEELVIMEGDLKKKLRDMGTGRDNG				NA	NA	NA	NA	NA
D1-12_03882	1434	speA_2	COG1982	Arginine decarboxylase	ATGGACACACCTTTATATACAGCGCTGATGAAGCATGCGCACCGAAATACGTATTCTTTTCATGTTCCGGGACATCACAATGGAGATGTCTTTTTTGATGAAGCCAAATCTGTATATCAATCTCTTTTATCTATTGATATGACTGAGGTCACGGGTCTTGATGACTTGCACCACCCGACGGGGGTCATTAAGGAAGCGCAGGATTTGGTGAGCAGATTTTACGGCTCTCAGGAAAGCTTCTTTCTCGTCAATGGAACGACCGCCGGCAATCTGGCGATGATTTTAGCTGTTTGTGAACCGGGTGAACCCATTCTGATCCAGCGTAATTGTCACAAGTCTGTTTTCCATGCGGCGGCATTGGCCGGAGCCAAGCCGGTTTATTTGTCGCCGGAAATCGATGAAAACATGCATGTGCCGGCACATGTATCCCTTTCAGTCATCGAAAAAGCGCTGGCGTCATATCCGAACGCGAAAGGACTTGTTCTGACCAATCCGACTTACTACGGACACGCCGCCGATTTGACTGCGGCAGTTAACAAAGCCCATTCATACGGCGTTCCTGTACTGGTGGATGAGGCTCATGGGGCTCACTTTGTGTTAGGCCAGCCTTTCCCGCCTTCATCATTGGCTATGGGGGCGGACGCCGTTGTTCAATCGGCTCATAAAACGCTTCCGGCTATGACGATGGGGTCTTACTTTCATTTGAACAGCACCAGAATTGACAGAGATCGATTAACTTATTATGTAAGCAGTTTGCAAAGCAGCAGCCCGTCATACCCGATTATGGCATCTTTAGATACGGCGCGCGCTTATGTTCAGGATATTGCTGAAAAAGGGACACTTCCCGTTCATATGGAGCACATTGAGAAAATCAAAGGAAGGTTCGCATCAATTTCTTCTATTGAAATAATCGAGCCTTCCGGATATGGGCTGCGGGCGGACCCGTTAAAATTAATTCTTCGGTCAAAGCTCGGACATTCCGGCTATTCATTACAACGCATTTTGGAGAGTGAAGACATTGTTGCCGAGCTGGCTGACGAATACCAAGTATTGCTCGTCCTGCCGATAGGCGGCCGGCGGATGATAGAACAGGAAACCGTAAGAAACATACAGCAGAAACTGGAGAATACACCGCCCGATAAATTGCCGGATGCCGTGAATTGGACATTTCCGTCCATTTCGACACTTGAATATCCGCAAAATGAGATGCGGAAGTTTACAAAAGAGCCTGCAGATATAAATAAGGCGGCCGGGCGCTTGCATGCGGGGAACATTATTCCTTATCCGCCGGGAATTCCGCTGATCATGGACGGAGAACGGATAACAGAAGAGATCGTACAAAAGCTTTCCCGTTTAATCGGCATGGACGCGCATATTCAAGGCTTGTTAAACGGGGAACAATTACTTGTCTATATAGAAGAGGAGAAATCATGA	MDTPLYTALMKHAHRNTYSFHVPGHHNGDVFFDEAKSVYQSLLSIDMTEVTGLDDLHHPTGVIKEAQDLVSRFYGSQESFFLVNGTTAGNLAMILAVCEPGEPILIQRNCHKSVFHAAALAGAKPVYLSPEIDENMHVPAHVSLSVIEKALASYPNAKGLVLTNPTYYGHAADLTAAVNKAHSYGVPVLVDEAHGAHFVLGQPFPPSSLAMGADAVVQSAHKTLPAMTMGSYFHLNSTRIDRDRLTYYVSSLQSSSPSYPIMASLDTARAYVQDIAEKGTLPVHMEHIEKIKGRFASISSIEIIEPSGYGLRADPLKLILRSKLGHSGYSLQRILESEDIVAELADEYQVLLVLPIGGRRMIEQETVRNIQQKLENTPPDKLPDAVNWTFPSISTLEYPQNEMRKFTKEPADINKAAGRLHAGNIIPYPPGIPLIMDGERITEEIVQKLSRLIGMDAHIQGLLNGEQLLVYIEEEKS	PGPT0007770_2217	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
D1-12_03883	639	tmk	COG0125	Thymidylate kinase	ATGAGCGGTTTATTTATAACATTTGAAGGTCCTGAAGGTGCAGGGAAAACGACTGTGCTTCAGGAAATGAAAGAGATTCTGTCGGCAGAGGGGCTTCCGGTGACAGCGACAAGAGAACCGGGCGGCATCGACATTGCGGAACAGATCAGAGAAGTGATCTTAAATAAAAACAATACACTGATGGATGCAAAAACGGAGGCACTGCTTTACGCTGCGGCGAGAAGACAGCATTTAGCCGAAAAGGTGCAGCCTGCATTGAAAGAAGGGCGCATTGTGCTGTGCGATCGTTTCATCGACAGTTCGCTGGCTTATCAAGGCTATGCGAGAGGGCTCGGGATTGATGAAGTTCTTTCTATCAACCAGTTTGCAATCGGCGATACGATGCCTGATGTCACCATCTATTTTTCTATTGAGCCGGAAGAAGGGTTGAAACGGATTACGTCGAATGATTCAAGAGAAAAGAATCGTCTCGATCTTGAGGCCCTGCACTTTCACACGAAAGTACGGGAAGGATACCAAAAGGTAATGCAGCGTTTTCCGGAAAGATTCCAGACAATCGACGCATCGAAAAAGAAGGAACTCGTCATTCAGGATGCACTTCAAGTGATAAATGAAGCATTGAAAAAAATTCAGTTGTGA	MSGLFITFEGPEGAGKTTVLQEMKEILSAEGLPVTATREPGGIDIAEQIREVILNKNNTLMDAKTEALLYAAARRQHLAEKVQPALKEGRIVLCDRFIDSSLAYQGYARGLGIDEVLSINQFAIGDTMPDVTIYFSIEPEEGLKRITSNDSREKNRLDLEALHFHTKVREGYQKVMQRFPERFQTIDASKKKELVIQDALQVINEALKKIQL	PGPT0021395_2799	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
D1-12_03884	330	darA	COG3870	Cyclic di-AMP receptor A	ATGAAACTAATAGTGGCAGTGGTGCAGGATCAGGACAGCAACAGGCTTTTGAAAGTATTAACCGACCACAACTTCAGGGTGACGAAGCTTGCGACAACAGGCGGATTCCTTAAATCAGGCAATACGACGTTTATGATCGGGGTGGAAGATATCCGTGTCGATAAAGCGCTCAGCCTCATTAAAGAGAATGGCTGTAAACGTGATCAGATGATTGCCCCGGTATCCCCGATGGGCGGGAATGCGGATTCCTACGTTCCATATCCCGTCGAAGTGGAAGTCGGCGGAGCGACGGTCTTTGTCCTCCCGGTCGATGAATTTCATCAATTTTAA	MKLIVAVVQDQDSNRLLKVLTDHNFRVTKLATTGGFLKSGNTTFMIGVEDIRVDKALSLIKENGCKRDQMIAPVSPMGGNADSYVPYPVEVEVGGATVFVLPVDEFHQF				NA	NA	NA	NA	NA
D1-12_03885	441			hypothetical protein	GTGAAAATAAATTCTGACTTACGTACATTTATTGAGAAAAAGCAGCAGCCTGCTTATAAAGCGGCAGAGCTGTCCGGAACGTTTAAAAGTTCAATGGACAGCCAAAGCAGCAAGCTGAAATTTGATCAGCTGAGCAGGTTCTTAACGGATATAGAAACGTTCGGGAAAAGGCTGACGAAGTCGAGAAACTTCAAAGACTTAGTGAAATTCAAAGGATTGGTAAAACGTTTTGTAAAAGAGGCCGTAGACAGCGGATTATCGCATGAGACGGAGAAAAGCTTTGACCTGTACGGCAGCAGCCGGACTCTGGGGCTTGTGAAAGAAATAGATGAAAAACTGCTTCAGCTGACGGAAGAAATGTTAGATCAGGAAAAACCGGCAATTGATTTGCTGGATCGAATCGGAGAAATAAAAGGTTTATTGATTAACCTTTACACATAG	MKINSDLRTFIEKKQQPAYKAAELSGTFKSSMDSQSSKLKFDQLSRFLTDIETFGKRLTKSRNFKDLVKFKGLVKRFVKEAVDSGLSHETEKSFDLYGSSRTLGLVKEIDEKLLQLTEEMLDQEKPAIDLLDRIGEIKGLLINLYT				NA	NA	NA	NA	NA
D1-12_03886	990			hypothetical protein	ATGGCAATATCATGGAAGGAAATGACCGGGCAGCAGCCCAGAGTGATGGGGCTTTTGCATAACAGCATTGAAAAGAAAAGGCTTTCTCACGCATATCTGTTTGAAGGCAAAAAAGGTACGGGCAAATTGGATGCCGCACTGCTTCTCGCAAAAAGCTTTTTTTGCCTTGAAGACGGGACTGAGCCTTGCGGGGAATGCCGGAACTGTAAGCGTATCGAATCCGGAAACCATCCCGACCTGCATGTGGTTCAGCCCGACGGATTATCCATTAAAAAGGCTCAGATCCAATCTCTTCAGGAAGAGTTTTCTAAAACAGGACTGGAATCGCATAAAAAGCTGTACATTATATCCCATGCGGATCAAATGACGACAAATGCGGCAAACAGTCTGCTGAAATTTTTAGAGGAGCCGAGTCAAGACACCATCGCAATTCTTATTACTGAGCAGCTCCACCGAATACTGGATACCATCGTTTCGAGATGTCAGGTTCTTCCGTTCCAGCCGCTTCAGCCGAAAGCCATAGAAGAAAGGCTGATTGAACAGGAAGTGAGCCCTCACATGGCCCGGCTCTTAGCAAATATGACAAATAATATTGCGGAAGCAGTCGAATTAAGTCGAAATGATGAGTTTGCAGAGTCCAGAGCGAAAGTGATAAAATTGTATGAAGTCTTACATCAGCGGAAAGGACATGCCTTTTTCTTCATTCAGGATCAGTGGGTGCCCTTTTTCAAAGAAAAAACCCATCAAGAAATGGGTCTTGATATGCTCTTATTGATATACCGTGATGTATTATCCATCCAAATTGGAAATGAAGATAAACTGATTTATCAAGACTTATTCCAATCAATAAAACAGCATGCGCTGCAATTTACACAACAAAGCGTTACGAACCAAATTCTCGCTGTTTTAGAAGCAAAAAAACGGCTTCATTCCAATGTGAATGTGCAGGGATTAATGGAGCACTTGGTGTTAACGTTGCAGGAGGGATAA	MAISWKEMTGQQPRVMGLLHNSIEKKRLSHAYLFEGKKGTGKLDAALLLAKSFFCLEDGTEPCGECRNCKRIESGNHPDLHVVQPDGLSIKKAQIQSLQEEFSKTGLESHKKLYIISHADQMTTNAANSLLKFLEEPSQDTIAILITEQLHRILDTIVSRCQVLPFQPLQPKAIEERLIEQEVSPHMARLLANMTNNIAEAVELSRNDEFAESRAKVIKLYEVLHQRKGHAFFFIQDQWVPFFKEKTHQEMGLDMLLLIYRDVLSIQIGNEDKLIYQDLFQSIKQHALQFTQQSVTNQILAVLEAKKRLHSNVNVQGLMEHLVLTLQEG				NA	NA	NA	NA	NA
D1-12_03887	828			hypothetical protein	TTGTACAACGTAATAGGCGTCCGCTTTAAAAAAGCGGGAAAAATTTATTATTTTGATCCGAATGGATTTGATATAGAACAAGACAGCTGCGTCATTGTTGAAACCGTAAGAGGTGTCGAATACGGGCAGGTTGTCATCGCAAATAAACAAGTGGACGAGCATGATGTTGTGCTTCCGCTTCGAAAGGTCATACGCGTTGCTGATGAACGCGATCTTCTCATTGTAGAAGAAAACAAACAGGAGGCCTTGTCCGCTTTTGAAGTCTGTCAGAAAAAAGTGGCTGACCACGGCTTAGATATGAAGCTGGTTGATGTTGAGTTTACATTTGACCGCAATAAAGTCATTTTTTACTTTACAGCAGACGGACGGGTTGATTTCAGGGAATTGGTCAAAGACTTGGCTTCTATCTTTAAAACGAGAATCGAATTGCGCCAAATCGGGGTGAGGGACGAGGCGAAAATGCTCGGCGGTATCGGGCCCTGCGGGAGAATGCTTTGCTGCTCCACGTTCCTCGGTGATTTTGAACCGGTGTCCATCAAAATGGCGAAGGATCAAAATTTATCGTTGAACCCAACGAAGATTTCCGGTCTGTGCGGCCGTTTGATGTGCTGTTTGAAGTACGAAAATGATGAGTATGAGACGGCAAAAGAACAGCTGCCGGATTTAGGCGAAATGATTACGACGGCAAACGGCCCCGCAAAGGTTGTCGGTCTTAATATTCTGGAACGGGTGCTTCAGGTGGAACTGAAGAATCGTGAAAAAGTGATAGAATATACTTGGGAAGAGCTCTTGGAAGAGGGCGTCGTATCCGCACAAACCACAGATTAA	MYNVIGVRFKKAGKIYYFDPNGFDIEQDSCVIVETVRGVEYGQVVIANKQVDEHDVVLPLRKVIRVADERDLLIVEENKQEALSAFEVCQKKVADHGLDMKLVDVEFTFDRNKVIFYFTADGRVDFRELVKDLASIFKTRIELRQIGVRDEAKMLGGIGPCGRMLCCSTFLGDFEPVSIKMAKDQNLSLNPTKISGLCGRLMCCLKYENDEYETAKEQLPDLGEMITTANGPAKVVGLNILERVLQVELKNREKVIEYTWEELLEEGVVSAQTTD				NA	NA	NA	NA	NA
D1-12_03888	360	yabA	COG4467	Initiation-control protein YabA	TTGGATAAAAAAGAGTTATTTGATACTGTCATAAACCTGGAGGAACAAATCGGTTCGCTGTACCGTCAGCTGGGTGACTTAAAGCAGCATATCGGCGAAATGATTGAAGAGAATCACCATCTTCAGCTTGAAAATAAGCATTTGCGTAAGCGGCTTGATGACACGACAGAGCAAATTGAGAAATTCAAAGCCGATCAGAAAGAAACAAAAACACAGAAGGCAGAGCAGAGTGATATAGGAGAAGGGTACGACAATCTGGCCCGGCTGTATCAAGAAGGCTTTCATATTTGCAACGTCCATTATGGGAGCGTCCGCAAGGGAGATTGCCTTTTTTGTCTGTCCTTCTTAAATAAAAAATAA	MDKKELFDTVINLEEQIGSLYRQLGDLKQHIGEMIEENHHLQLENKHLRKRLDDTTEQIEKFKADQKETKTQKAEQSDIGEGYDNLARLYQEGFHICNVHYGSVRKGDCLFCLSFLNKK				NA	NA	NA	NA	NA
D1-12_03889	744	yfiC		tRNA1(Val) (adenine(37)-N6)-methyltransferase	ATGGTTTCATTACGTGATGATGAAAGATTGGATTACTTATTAGCAGAGGATATGAAAATAGTACAGAGTCCGACGGTTTTCGCTTTTTCATTAGATGCCGTGCTGCTGTCTAAGTTTGCATACGTTCCGATTCAAAAGGGGAACATCGTTGATTTATGTACGGGGAACGGCATTGTGCCGCTTTTGCTCAGCACAAGGTCAAAAGCCGATATCACCGGGGTTGAAATTCAGGAACGCTTGTATGATATGGCGCTCCGAAGCGTGGAATACAACGGGCTGGGCGGTCAGATCAGTCTCATTCATGATGATCTGAAAAATATGCCGGAAAGACTCGGACATAATAAATATGATGTTGTCACCTGCAATCCGCCTTATTTTAAAACACCGAAAGAAGCGGAGCAGAACCTGAACGAGCATCTCAGAATCGCAAGGCACGAAATCCTTTGCACGCTTGAAGATGTGATTTCCGTCAGCAGCAAACTGCTGAAGCAAGGCGGAAAAGCGGCTCTCGTTCATCGGCCGGGGAGGCTTTTGGAAATCTTTGAATTAATGAAAGCGTACCGAATAGAACCGAAACGGGTTCAGTTTATTTATCCGAAACAAGGTAAAGAAGCGAATACCATTTTGGTTGAAGGAATTAAAGGCGGCCGCCCTGATCTCAAAATTCTTCCCCCGCTGTTCGTATACAATGAACAAAATGAATATACGAAAGAGATCCGCACGATTTTATATGGAGACAAATAG	MVSLRDDERLDYLLAEDMKIVQSPTVFAFSLDAVLLSKFAYVPIQKGNIVDLCTGNGIVPLLLSTRSKADITGVEIQERLYDMALRSVEYNGLGGQISLIHDDLKNMPERLGHNKYDVVTCNPPYFKTPKEAEQNLNEHLRIARHEILCTLEDVISVSSKLLKQGGKAALVHRPGRLLEIFELMKAYRIEPKRVQFIYPKQGKEANTILVEGIKGGRPDLKILPPLFVYNEQNEYTKEIRTILYGDK				NA	NA	NA	NA	NA
D1-12_03890	300			hypothetical protein	ATGGAGACAAATAGTCATTTCTTTTATGTGCTGCTGTGCAATGACAACAGTCTGTATGCCGGTTATACAAATGATCTGCAAAAACGGCTGAAAACCCACAATGAGGGAAAGGGCGCGAAGTACACAAGGGCGCGGAGGCCGGTTTCGTTATGCCATTTGGAATCATTTGAAACAAAACGGGAAGCGATGCAGGCGGAATACCGTTTTAAGCAGCTGACCCGAAAGAAAAAAGAGCAATATATAGAAGAAAAACAACGCAGCAAGGAGGCTGTATATGTTAAGACGCCAGATGAGTTTTAA	METNSHFFYVLLCNDNSLYAGYTNDLQKRLKTHNEGKGAKYTRARRPVSLCHLESFETKREAMQAEYRFKQLTRKKKEQYIEEKQRSKEAVYVKTPDEF				NA	NA	NA	NA	NA
D1-12_03891	882	rsmI	COG0313	Ribosomal RNA small subunit methyltransferase I	ATGTTAAGACGCCAGATGAGTTTTAACGGAAAATCTGAAATGGGAACTCTGTACCTTGTTCCTACACCGATCGGCAATTTGGAGGACATGACCTTTCGTGCAGTAGAGACGCTGAAATCGGCCGATGTCATAGCTGCCGAAGATACGAGACAGACGAAAAAACTGTGCCATGTTTATGACATAGAAACATCTCTCATCAGCTATCATGAACATAATAAAGAAAGCAGCGGCCATAAAATCATTGAATGGCTGAGAAGCGGAAAGAATGTGGCATTGGTCAGTGATGCCGGCATGCCGACAATTTCCGACCCGGGGGCTGAGATTGTGAGAGATTTCACCCAAATCGGCGGATATGTCGTTCCGCTTCCGGGTGCAAATGCGGCATTAACCGCGCTGACCGCATCAGGCATCACCCCGCAGCCGTTTTTCTTCTACGGATTTTTAAACAGACAGAAAAAAGAAAAGAAGAAAGAACTCGAAATCCTGGAAAAACGGCAGGAAACGATGATATTTTATGAAGCGCCGCACAGATTAAAAGAAACATTAACAGCAATGCATGACGTTTTGGGTAATCGAACCATCGCCGTCACGAGAGAATTAACGAAAAAGTACGAGGAATTCATCAGAGGAACCATCGCCGAGGTGATGGAATGGGCAAATGAAGATCAAATCCGCGGTGAGTTCTGTCTCGTTGTCGAAGGAAATCAAACCGCTGAACCGGATGAAGAGGAAAAGCCCTGGTGGACGGAGCTTTCTGAGAAAGAACATGTGGAGCATTACATAAATGAAGGATCTTCTTCCAAACAGGCCATAAAACAAACAGCGGTAGATCGGGACGTGCCGAAACGCGAGATTTATGACGCTTATCACATTCAATCATAA	MLRRQMSFNGKSEMGTLYLVPTPIGNLEDMTFRAVETLKSADVIAAEDTRQTKKLCHVYDIETSLISYHEHNKESSGHKIIEWLRSGKNVALVSDAGMPTISDPGAEIVRDFTQIGGYVVPLPGANAALTALTASGITPQPFFFYGFLNRQKKEKKKELEILEKRQETMIFYEAPHRLKETLTAMHDVLGNRTIAVTRELTKKYEEFIRGTIAEVMEWANEDQIRGEFCLVVEGNQTAEPDEEEKPWWTELSEKEHVEHYINEGSSSKQAIKQTAVDRDVPKREIYDAYHIQS				NA	NA	NA	NA	NA
D1-12_03892	285	abrB	COG2002	Transition state regulatory protein AbrB	ATGAAATCTACTGGTATCGTACGTAAAGTTGATGAACTTGGACGCGTAGTTATCCCTATCGAACTTCGCCGTACACTGGGCATCGCAGAAAAAGACGCTCTTGAAATTTATGTTGATGATGAAAAAATCATCCTTAAAAAATATAAACCAAACATGACTTGCCAAGTAACTGGTGAAGTTTCTGATGATAACCTTAAACTTGCCGGCGGCAAATTGGTACTCAGCAAAGAAGGCGCTGAGCAAATCATCTCTGAAATTCAAAACCAGCTTCAAAACCAAAAATAA	MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMTCQVTGEVSDDNLKLAGGKLVLSKEGAEQIISEIQNQLQNQK	PGPT0014790_128	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
D1-12_03893	1992	metG		Methionine--tRNA ligase	ATGCCGCAAGACAATAATACTTTTTATATTACAACCCCGATATATTATCCGAGCGGAAAATTACATATCGGCCATGCTTATACTACCGTGGCCGGCGATGCGATGGCGCGTTACAAAAGATTAAAAGGATTTGACGTACGCTACTTAACCGGAACGGATGAGCACGGACAGAAAATCCAGCAGAAAGCGGAGGAAGAGAATATCACGCCTCAAGCTTATGTGGATCGTGCAGTTGCTGAAATCCAAAAACTATGGAAGCAGCTCGACATTTCTCACGATGATTTCATCCGGACGACGGAAAGCCGGCACAAAGAAATTATCGAGAAAGTGTTTCAAAAACTTCTTGATAATGGTGACATTTACCTGGATGAGTATGAGGGCTGGTACAGCATCCCTGATGAAACATTCTATACGGAAACACAGCTGGTGGATGTGGAACGAAATGAGAAGGGTGAGGTTGTCGGCGGAAAAAGCCCTGACAGCGGACACCCGGTCGAATTAATCAAAGAGGAGTCATACTTCTTCCGCATGAGCAAATACGCAGACCGCCTGCTGAAGTTTTATGAGGAAAATCCTTCTTTCATCCAGCCTGAATCACGCAAAAATGAAATGATTAACAACTTCATTAAACCGGGGCTTGAAGATTTGGCCGTTTCCAGAACGACGTTCGACTGGGGCGTAAAAGTGCCGGGAAATCCGAAGCATGTCGTGTATGTATGGATTGACGCACTGTTCAACTATATTACAGCGCTCGGTTACGATACGGAAAATGATGAGCTTTACAAAAAGTACTGGCCGGCTGACGTCCACCTTGTCGGTAAAGAAATTGTCCGTTTTCATACCATTTACTGGCCGATTATGCTGATGGCGCTTGATCTCCCGCTGCCTAAGCAAGTATTCGCGCATGGCTGGTTATTGATGAAAGACGGAAAAATGTCGAAATCAAAAGGAAATGTCGTTGATCCGGTAACGTTAATTGAACGCTACGGCTTGGATGAACTTCGCTATTACCTGCTTCGCGAAGTACCGTTCGGTTCTGACGGTGTCTTTACGCCGGAAGGTTTCGTAGAACGGATTAATTATGACTTGGCGAACGACTTAGGAAACCTTCTGAATCGTACAGTCGCAATGATCCAAAAATATTTTGACAGTGAGATTGGTTCATATGAAGGAAATGTGACAGATTTTGATTCAGAGCTTTCTTCTGTAGCCGGTGAAACGGTTAAAGCTTATGAAAAGGCAATGGAAAACATGGAGTTTTCAGTCGCTTTATCAACGCTATGGCAATTAATCAGCCGTACGAACAAATATATTGATGAAACTGCTCCGTGGGTGCTTGCTAAAGATCAGGAAAAAGAAAAAGAATTACGTTCTGTCATGTATCATTTAGCTGAATCATTACGTATCTCAGCCGTATTGCTCCAGCCTTTCTTGACACAAACGCCTGAAAAAATGTTTGCCCAGCTAGGAGTTGAGGATCAGTCTCTTAAAGCATGGGACAGCATTCAGACATTCGGCCAATTGAAGAACACGAAAGTGAAAAAAGGGGAGCCGCTTTTCCCTCGTCTTGAAGCTGAAGAAGAAGTAGCTTACATCAAGCAAAAAATGCAAGGAACTGCTCCTGCTAAAGAAGAAAAGGCGGAAGAGCCGCAAGAAGCAGAGCATCTTCCTGAAATTACGTTTGATCAATTTATGGATACAGAACTTCGCGTCGCAGAAGTCTTGTCCGCAGAGCCGGTGAAAAAAGCAGATCGGCTGCTGAAATTGCAAATTGATCTGGGCTTTGAACAGCGCCAAGTTGTATCAGGTATCGCGAAGCATTACACACCGGATCAGCTTGTGGGAATGAAGATCATTTGTGTAACGAATTTAAAACCGGTAAAACTGAGAGGCGAGCTTTCTCAAGGAATGATACTGGCAGGAGAATCGGACGGCGTTCTCAAAGTTGTAGCTGTCGACCAGTCATTACCGAAAGGCACTCGAATTAAATAA	MPQDNNTFYITTPIYYPSGKLHIGHAYTTVAGDAMARYKRLKGFDVRYLTGTDEHGQKIQQKAEEENITPQAYVDRAVAEIQKLWKQLDISHDDFIRTTESRHKEIIEKVFQKLLDNGDIYLDEYEGWYSIPDETFYTETQLVDVERNEKGEVVGGKSPDSGHPVELIKEESYFFRMSKYADRLLKFYEENPSFIQPESRKNEMINNFIKPGLEDLAVSRTTFDWGVKVPGNPKHVVYVWIDALFNYITALGYDTENDELYKKYWPADVHLVGKEIVRFHTIYWPIMLMALDLPLPKQVFAHGWLLMKDGKMSKSKGNVVDPVTLIERYGLDELRYYLLREVPFGSDGVFTPEGFVERINYDLANDLGNLLNRTVAMIQKYFDSEIGSYEGNVTDFDSELSSVAGETVKAYEKAMENMEFSVALSTLWQLISRTNKYIDETAPWVLAKDQEKEKELRSVMYHLAESLRISAVLLQPFLTQTPEKMFAQLGVEDQSLKAWDSIQTFGQLKNTKVKKGEPLFPRLEAEEEVAYIKQKMQGTAPAKEEKAEEPQEAEHLPEITFDQFMDTELRVAEVLSAEPVKKADRLLKLQIDLGFEQRQVVSGIAKHYTPDQLVGMKIICVTNLKPVKLRGELSQGMILAGESDGVLKVVAVDQSLPKGTRIK				NA	NA	NA	NA	NA
D1-12_03894	768	ycfH	COG0084	putative metal-dependent hydrolase YcfH	ATGCTTTTTGATACACATGCGCACTTAAATGCCGAACAATTTGACACAGACTTAGAGGAAGTCATTGCGCGTGCAAAGGCTGAAAAAGTTGAACGAATCGTCGTTGTCGGATTCGATAAACCCACTATCACGCGTGCGATGGAGCTGATTGAGGAATATGACTTTATATACGCTGCGATCGGCTGGCATCCGGTAGATGCAATTGACATGACAGAGGAAGATTTATCATGGATTAAGGAACTGTCCTCTCACGAAAAAGTCGTGGCAATCGGAGAGATGGGCCTTGATTACCACTGGGATAAATCACCAAAAGACGTTCAGAAAGAAGTATTTCGGAAACAAATCGCTCTCGCCAAAGAAGTGAACCTTCCAATTATCATTCATAATCGTGATGCAACGGAAGATGTTGTCACGATTTTGAAAGAAGAGGGGGCGGAAGAAGTCGGCGGCATTATGCACTGCTTTACGGGGAGCGCGGAGGTTGCGCGGCAGTGTATGGATATGAATTTTTATATTTCATTCGGCGGACCGGTTACCTTCAAAAATGCGAAGAAACCAAAAGAAGTAGCAAAGGAAATTCCGAATGACCGTTTGCTGATTGAAACGGACTGTCCTTTCCTGACACCGCATCCTTTCCGCGGTAAACGAAATGAGCCAAGCTATGTAAAATATGTTGCTGAACAGCTCGCTGCATTAAAAGGGCTGACATATGAAGAAATTGCCTCAATTACAACCGAAAACGCAAAAAGACTTTTCCGCATGAACTGA	MLFDTHAHLNAEQFDTDLEEVIARAKAEKVERIVVVGFDKPTITRAMELIEEYDFIYAAIGWHPVDAIDMTEEDLSWIKELSSHEKVVAIGEMGLDYHWDKSPKDVQKEVFRKQIALAKEVNLPIIIHNRDATEDVVTILKEEGAEEVGGIMHCFTGSAEVARQCMDMNFYISFGGPVTFKNAKKPKEVAKEIPNDRLLIETDCPFLTPHPFRGKRNEPSYVKYVAEQLAALKGLTYEEIASITTENAKRLFRMN				NA	NA	NA	NA	NA
D1-12_03895	1362			hypothetical protein	ATGTCTCTCTTCCTTTTTTTGCTTTGTTTTTGCATAATGAGGGATACGCTGAAGGTTTTTCATCTTCGAGATGGGAGGGTTGACAGCATTTTAGATACTCTATATAATCTCTCCGAGGAGAAGGAGGCGTTTTTCATCACACAAAAAATGAAAAAACTGTTTTCCGTAAAGCTTGGTAAAAGCAAGGTTATTCTTATTGCAGCTATTATTCTGCTGGGCGGAACCGGAACTGCATACGGGGCACATGAGCTCTCAAAACAATCAGTTTCTGTTTCCATCAACGGCAAGAAAAAGCAAATACGCACTCATGCAAAAACGGTTGGGGAACTTCTGGAAGATTTACATATAGAGACGAGAAATGAAGACCGGATTACCCCGTCTAAGCAGACAGCATTGGCAGACAACATGAATGTCGTGTATGAAGCTGCAAAGCAGATCCGTGTGACAAGAGGCGGAGAAGAAAAGACTTTATGGTCAACGGCAAAAACAGTCGGCGCATTTCTGAACGAACAGCATACACCTGTGAATCAGCACGATAAAATAGATCCAGCAGCAGATACGAAAGTGACAAACGGCATGAAAGTCACGGTCGACCCGGCTTTTCAGGTCACTGTAAATGATGCGGGAAAGAAAAAGAAAATATGGACGACTTCGACTACGGTCGCTGACTTTTTAACGCAGCATAAGATGGACATGAAAGACGAAGATAAAGTAAAACCGGCATTACACGAAAAGCTTACAAAAAATCAGGCCGGTATACAAATCACTCGTATCGAAAAAGTCACCGATGTAGTTGAGGAAAAAATAGCGTATCAAGTGAAAGAAAAAGAAGATGCGTCTCTCGACAGCGGGAAAGAAAAGATCGTTCAAAAAGGAAAAGAAGGCAAACTTAAAAAGCATTTTCATGTTGTCAAAGAAAATGGAAAAGAAGTTTCAAGAAAGCTTGTTAAAGAAGAAACATCTGAAAAAAGCAAAGATCAGATCATTGCGGTCGGCACAAAGCGGCACAGTCCCAAGATTGAGCAGCTCAGTGCACCTGTGAAGGCATCTTCGGGCGAAACCGGATCTTCCGGTAAAGTGATTACCGTGTCTTCCACGGCTTATACCGCAAGCTGCAGCGGCTGTTCCGGCCATACGGCTACAGGCGTTAACCTGACAAGCAATCCGAATGCCAAAGTCATTGCGGTAGACCCAAGCGTCATCCCGCTCGGCACAAGAGTCCACGTAGACGGATACGGGGATGCCGTGGCCGCTGATACGGGCTCAGCCATTAAAGGAAGACGGATTGATGTCTTTTTCCCTGAAAAATCTTCAGCTTACCGCTGGGGAAAGAAACAGGTCAAAATAAAAATCTTAAATTAA	MSLFLFLLCFCIMRDTLKVFHLRDGRVDSILDTLYNLSEEKEAFFITQKMKKLFSVKLGKSKVILIAAIILLGGTGTAYGAHELSKQSVSVSINGKKKQIRTHAKTVGELLEDLHIETRNEDRITPSKQTALADNMNVVYEAAKQIRVTRGGEEKTLWSTAKTVGAFLNEQHTPVNQHDKIDPAADTKVTNGMKVTVDPAFQVTVNDAGKKKKIWTTSTTVADFLTQHKMDMKDEDKVKPALHEKLTKNQAGIQITRIEKVTDVVEEKIAYQVKEKEDASLDSGKEKIVQKGKEGKLKKHFHVVKENGKEVSRKLVKEETSEKSKDQIIAVGTKRHSPKIEQLSAPVKASSGETGSSGKVITVSSTAYTASCSGCSGHTATGVNLTSNPNAKVIAVDPSVIPLGTRVHVDGYGDAVAADTGSAIKGRRIDVFFPEKSSAYRWGKKQVKIKILN				NA	NA	NA	NA	NA
D1-12_03896	564	rnmV_2	COG1658	Ribonuclease M5	ATGAAAATTAAAGAAATTATTGTAGTCGAGGGACGCGATGACACTGCGCGCATAAAACTTGCCGTTGATGCGGATACGATTGAGACAAACGGTTCCGCAATCGGAGACGAAGTCATCAGGCAGATTCGGCTGGCGCAGGAAACGAGAGGGGTCATCGTGCTGACGGACCCGGATTTTCCGGGGGAAAAGATCCGGAAAACCATTTCTGAAGCAGTACCCGGCTGTAAACACGCATTTCTGCCCAAACATCTTGCCAAACCGAAAAACAAGCGCGGCATTGGCGTTGAGCACGCATCCATTGAAAGCATCAGAGCATGTCTGGAAAATGTGCATGAAGAGATGGATGCAAAGCCGAGTGAGATTTCAGCTGAAGATGTCATACAGGCCGGTCTGATCGGCGGACCGGCTGCCAAAAGACGCCGCGAACGATTGGGCGACCTGCTGAAGATCGGCTATACAAACGGCAAGCAGCTTCAAAAACGGCTGCAAATGTTTCAAATCAAAAGAAGTGATTTTATTGATGCGCTCGATGCTATGAGGCAGGAGGAACAGGATGAACAATAA	MKIKEIIVVEGRDDTARIKLAVDADTIETNGSAIGDEVIRQIRLAQETRGVIVLTDPDFPGEKIRKTISEAVPGCKHAFLPKHLAKPKNKRGIGVEHASIESIRACLENVHEEMDAKPSEISAEDVIQAGLIGGPAAKRRRERLGDLLKIGYTNGKQLQKRLQMFQIKRSDFIDALDAMRQEEQDEQ				NA	NA	NA	NA	NA
D1-12_03897	882	rsmA	COG0030	Ribosomal RNA small subunit methyltransferase A	ATGAACAATAAAGATATCGCGACACCTATCAGAACGAAGGAAATTCTGAAAAAGTACGGTTTCTCTTTTAAAAAGAGTCTGGGACAGAATTTCTTAATTGATACAAATATATTGGACAGAATTGTGGACCATGCGGAAATTACGGATCGGACCGGAGTCATTGAAATCGGGCCCGGAATCGGCGCGCTGACAGAGCAGCTTGCCAAACGGGCGAAAAAGGTCGTCGCGTTTGAAATTGATCAGCGCCTGCTTCCCATTCTCAATGATACGCTGTCTCCGTATGACAATGTAACGATCATTCATCAAGATGTGCTGAAAGCAGACGTCAAATCCGTCATTGAAGAGCAGTTTCAGGATTGTGATGAAATTATGGTGACGGCGAATCTCCCATATTATGTGACGACGCCGATCATCATGAAGCTCTTGGAAGAACATCTTCCGTTAAAAGGGATTGTCGTGATGCTGCAAAAAGAGGTCGCTGAGCGGATGGCCGCTGATCCTTCCTCTAAGGAGTACGGATCGCTTTCCATTGCGGTTCAGTTCTATACGGAGGCCAAAACCGTCATGACCGTCCCGAAAACGGTGTTTGTGCCTCAGCCTAATGTCGATTCAGCCGTCATCCGTCTCTTGCTTCGTGACGGCCCGGCGGTTGACGTCGATAATGAACCGTTTTTCTTCCAGCTGATTAAAGCAAGCTTCGCACAGCGCCGGAAAACCTTGCTGAACAACCTTGTGAACAATCTTCCGGGCGGAAAAGAGAAAAAAGCTCAAATTGAAGAAGTTCTTCAAGAAACGAATATTGACGGAAAGCGGCGCGGTGAATCCCTGTCCATAGAAGAATTCGCGCTCCTGTCCAACGGATTGCATAAAGCCCTTTTCTAA	MNNKDIATPIRTKEILKKYGFSFKKSLGQNFLIDTNILDRIVDHAEITDRTGVIEIGPGIGALTEQLAKRAKKVVAFEIDQRLLPILNDTLSPYDNVTIIHQDVLKADVKSVIEEQFQDCDEIMVTANLPYYVTTPIIMKLLEEHLPLKGIVVMLQKEVAERMAADPSSKEYGSLSIAVQFYTEAKTVMTVPKTVFVPQPNVDSAVIRLLLRDGPAVDVDNEPFFFQLIKASFAQRRKTLLNNLVNNLPGGKEKKAQIEEVLQETNIDGKRRGESLSIEEFALLSNGLHKALF				NA	NA	NA	NA	NA
D1-12_03898	876	yabG		Sporulation-specific protease YabG	GTGCAATTTCAAATAGGAGATATGGTAGCCAGGAAATCCTATCAAATGGATGTTTTATTTCGCATTATCGGTATAGAGCAAACAAGCAATGGGAATTCAATTGCCATCCTGCATGGTGACGAAGTCAGATTGATTGCGGATGCTGATTTTTCTGATTTGGAGCCTGTCAGAAAAGACGAACAGGCCATGAGAAAGAAAAGAGATGAAAGCAGGATGAATGAATCTCTCGAGCTGCTCCGCCAGGATTATAAGCTGCTTCGGGAAAAACAGGAATATTATGCGACAAATCAATATCAGCATCAGGAGCACTACTTTCATATGCCCGGAAAGGTATTGCATCTGGACGGCGATGAGGCCTATTTGAAAAAGTGCCTGAACTTTTATGAAAAAATCGGTGTGCCGGTATACGGAATTCATTGCCATGAGAAAAAAATGCCGGCATCAATTGACGAGCTGCTTGATAAATACAGGCCGGATATTTTAGTCATCACCGGCCATGATGCATATTCCAAGCATAAGGGAGGCGTGAACGATTTAAGCGCCTACAGGCATTCCAAACACTTTGTCGAAACCGTTCAAAGAGCGAGGCGTAAAGTACCTCATTTGGATCAGCTGGTCATATTCGCGGGGGCGTGCCAATCTCATTTCGAGTCTTTAATCAGGGCAGGCGCGAATTTTGCAAGTTCGCCGTCACGCGTCAATATCCATGCGCTTGACCCGGTATATATTGTCGCGAAAATCAGCTTCACCCCGTTTATGGAGCGGATCAATGTATGGGATGTCCTGAGAAATACGCTGACGAGAGAGAAAGGGCTGGGAGGAATTGAAACGAAGGGTGTGCTGCGTGTCGGTATGCCGTATAAATCAAATGGATGA	MQFQIGDMVARKSYQMDVLFRIIGIEQTSNGNSIAILHGDEVRLIADADFSDLEPVRKDEQAMRKKRDESRMNESLELLRQDYKLLREKQEYYATNQYQHQEHYFHMPGKVLHLDGDEAYLKKCLNFYEKIGVPVYGIHCHEKKMPASIDELLDKYRPDILVITGHDAYSKHKGGVNDLSAYRHSKHFVETVQRARRKVPHLDQLVIFAGACQSHFESLIRAGANFASSPSRVNIHALDPVYIVAKISFTPFMERINVWDVLRNTLTREKGLGGIETKGVLRVGMPYKSNG	PGPT0025240_170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025240-yabG-K06436	NA	NA
D1-12_03899	261	veg	COG4466	Protein Veg	ATGGCGAAGACGTTGTCCGATATAAAAAGATCGCTTGATGGGAATTTAGGTAAACGGCTTACGTTAAAAGCAAACGGCGGCCGCCGAAAAACGATTGAGCGTTCGGGCATTTTAGCTGAGACGTACCCTTCTGTTTTTGTGATACAACTAGATCAAGACGAGAATTCGTTTGAAAGAGTTTCATACAGTTATGCTGATATTCTGACTGAGACTGTTGAATTGACATTCAATGACGATGCGGCAAGCTCAGTAGCATTTTAA	MAKTLSDIKRSLDGNLGKRLTLKANGGRRKTIERSGILAETYPSVFVIQLDQDENSFERVSYSYADILTETVELTFNDDAASSVAF				NA	NA	NA	NA	NA
D1-12_03900	189			hypothetical protein	TTGGGCAGACGTCGTGGAGTTATGTCAGATGAGTTCAAATATGAGCTGGCGAAGGACCTTGGTTTTTACGATACGGTGAAAAACGAGGGCTGGGGAGGCATTCGGGCGCGTGACGCCGGGAATATGGTAAAGCGCGCGATTGAGATTGCCGAACAGCAGATGGCGGCTCAGAACCAAAATAACCGATAA	MGRRRGVMSDEFKYELAKDLGFYDTVKNEGWGGIRARDAGNMVKRAIEIAEQQMAAQNQNNR	PGPT0024885_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024885-sspF-K06423	NA	NA
D1-12_03901	870	ispE	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGCGTATTTTAGAAAAAGCGCCGGCCAAAATCAATCTGTCCCTCGATGTGACGAGTAAACGCCCGGATGGTTATCACGAAGTGGAGATGATCATGACGACAATTGATTTGGCAGATCGGATTGAACTGACAGAACTGCCCGAAAACGTTATCAGAGTGGCGTCGCATAATCGCTTTGTTCCGGATGATCAAAGGAATCTGGCTTATCAGGCAGCCAAACTGCTTAAAGAACGGTTTCAAGTCAAAAAAGGCGTTTCCATTATGATTACAAAAGTGATCCCTGTTGCGGCAGGCCTTGCCGGCGGAAGCAGCGATGCGGCAGCCACGCTCAGAGGGCTGAACAGGCTTTGGGATTTAAAGCTTTCTGTCGAAGAGCTCGCGGAGCTTGGAGCTGAAATCGGTTCAGACGTGTCCTTCTGTGTATACGGAGGCACTGCCTTGGCAACCGGACGCGGTGAGAAGATTAGGCACATTAGTGCTCCGCCTCATTGCTGGGTCGTGCTCGCCAAACCGACGATCGGGGTATCGACTGCCGAAGTGTACCGCCGGCTGAACTTACAGCAGGTTCGGCATCCTGATGTGCAGGCGATGATTGACGCGATTGAAGAAAAAAGCTTCCAAAAGGTATGCGGACAATTAGGAAACGTATTGGAGTCGGTTACGCTCAGCCTCCATCCCGAGGTGGCGATGATTAAAAATCAAATGAAACGCTTCGGCGCTGATGCGGTGTTAATGAGCGGAAGCGGACCGACTGTATTCGGTTTGGTTCAATACGAATCGAAGGTGCAGCGGATTTATAACGGGTTAAGAGGTTTCTGTGATCAAGTGTACGCGGTGCGGATGATCGGCGAACAGAATGCTCTTGATTAA	MRILEKAPAKINLSLDVTSKRPDGYHEVEMIMTTIDLADRIELTELPENVIRVASHNRFVPDDQRNLAYQAAKLLKERFQVKKGVSIMITKVIPVAAGLAGGSSDAAATLRGLNRLWDLKLSVEELAELGAEIGSDVSFCVYGGTALATGRGEKIRHISAPPHCWVVLAKPTIGVSTAEVYRRLNLQQVRHPDVQAMIDAIEEKSFQKVCGQLGNVLESVTLSLHPEVAMIKNQMKRFGADAVLMSGSGPTVFGLVQYESKVQRIYNGLRGFCDQVYAVRMIGEQNALD	PGPT0007605_1974	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
D1-12_03902	858	purR_2	COG0503	Pur operon repressor	ATGAAGTTTCGTCGCAGCGGCAGATTGGTGGACTTAACAAATTATTTGTTAACCCATCCGCATGAATTAATACCGTTAACGTTTTTCTCAGAACGGTATCAATCAGCAAAGTCATCAATCAGTGAAGATTTAACGATTATTAAACAGACCTTTGAACAGCAAGGCATTGGGACGCTGCTTACAGTGCCGGGAGCTGCCGGAGGCGTCAAATACATTCCGAAAGTGAAACAGGCTGAAGCAGAAGCGTTTATACAGGAGCTGGGACAGTCTTTAGTAAATCCTGAGCGTATCCTTCCGGGCGGTTATGTATATTTAACGGATATCTTAGGAAAACCATCTGTCCTCTCTCATGTAGGCAGGCTTTTTGCTTCCGTTTTTGCGGAGCGGGAGATTGATGTGGTGATGACCGTTGCGACAAAAGGAATCCCTCTTGCTTACGCAGCGGCCAGTTATCTGAACGTTCCGGTTGTCATCGTGCGAAAGGACAACAAAGTGACGGAAGGCTCCACGGTGAGCATCAATTATGTATCAGGGTCATCTAACCGCATTCAAACGATGTCGCTTGCGAAAAGAAGTTTGGCTACGGGTTCGAACGTTTTGATTATTGACGACTTTATGAAAGCCGGCGGCACCATTAACGGCATGATCAGCCTGCTTGATGAGTTTAATGCAAACGTCGCGGGAATAGGTGTCTTGGTTGAAGCCGAGGGAGTGAATGAACGGCTTGTCGATGAATACATGTCACTGCTCACGCTTTCAACCATCAATATGAAAGACAAAACGATTGAGATTCAAAACGGCAATTTTCTGCGATTTTTTAAAGAACAGCATTTAAAGAATGGGGAGACAGAAAAATGA	MKFRRSGRLVDLTNYLLTHPHELIPLTFFSERYQSAKSSISEDLTIIKQTFEQQGIGTLLTVPGAAGGVKYIPKVKQAEAEAFIQELGQSLVNPERILPGGYVYLTDILGKPSVLSHVGRLFASVFAEREIDVVMTVATKGIPLAYAAASYLNVPVVIVRKDNKVTEGSTVSINYVSGSSNRIQTMSLAKRSLATGSNVLIIDDFMKAGGTINGMISLLDEFNANVAGIGVLVEAEGVNERLVDEYMSLLTLSTINMKDKTIEIQNGNFLRFFKEQHLKNGETEK				NA	NA	NA	NA	NA
D1-12_03903	381	yabJ	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGACAAAAGCAATCCATACAAAACACGCGCCGGCAGCGATCGGGCCATATTCACAGGGAATCATCGTAAACAACATGTTTTACAGCTCAGGCCAGATTCCTCTTACTGCTGAAGGAGAAATGGTAAACGGTGATATCACAGAACAAACGCATCAGGTGTTCAGCAATTTAAAAGCTGTGCTGAAAGAAGCGGGCGCTTCGCTCGAGACGGTTGTCAAGGCAACGGTGTTTATTGCTGATATGGAGCAGTTTGCGGAAGTGAATGAAGTGTACGGACAATACTTTGATGTACATAAGCCGGCAAGGTCTTGTGTGGAAGTGGCGAGACTGCCGAAAGACGCTCTCGTGGAAATTGAAGTCATTGCGCTGGTGAAATCTTAA	MTKAIHTKHAPAAIGPYSQGIIVNNMFYSSGQIPLTAEGEMVNGDITEQTHQVFSNLKAVLKEAGASLETVVKATVFIADMEQFAEVNEVYGQYFDVHKPARSCVEVARLPKDALVEIEVIALVKS	PGPT0020030_3286	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
D1-12_03904	294	spoVG	COG2088	Putative septation protein SpoVG	GTGGAAGTTACTGACGTAAGATTACGCCGCGTGAATACCGATGGTCGCATGAGAGCGATTGCATCCATCACGCTGGATCACGAATTTGTCGTACATGATATTCGTGTGATTGATGGAAACAATGGTCTTTTCGTTGCGATGCCGAGTAAACGCACCCCTGATGGAGAATTCCGCGATATTGCTCATCCTATTAATTCCAGCACGCGGGGCAAGATCCAGGATGCTGTTTTAAATGAGTATCATCGTTTGGGTGACTCTGAAGCATTAGAATATGAAGAAGCCGGGGCTTCTTAA	MEVTDVRLRRVNTDGRMRAIASITLDHEFVVHDIRVIDGNNGLFVAMPSKRTPDGEFRDIAHPINSSTRGKIQDAVLNEYHRLGDSEALEYEEAGAS	PGPT0024830_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024830-spoVG-K06412	NA	NA
D1-12_03905	1371	glmU		Bifunctional protein GlmU	ATGGATAAGCGGTTTGCAGTGATTTTAGCTGCCGGAAAAGGAACGAGAATGAAATCGAAGCTTTACAAGGTCCTTCATCCGGTATGCGGAAAGCCTATGGTAGAGCACGTCGCAGACGAAGCTCTGAAATTATCTTTAGCGAAGCTTGTCACCATCGTAGGACACGGCGCCGAAGATGTGAAGAAGCAGCTCGGACAGAAAAGCGATTACGCTCTCCAAGCAGAACAGCTCGGTACGGCTCATGCGGTCAAACAGGCAAAACCATTTCTTCACGGAGAAAAGGGTGTCACGATCGTTATTTGCGGCGATACACCGCTTCTGACGGCGGAGACGATGGAAGCCATGCTAAATGAACATACAGACAAAGGTGCAAAAGCCACGGTGTTAACGGCCGTTGCCGACGATCCCGCCGGATACGGAAGAATCATCCGCAGTGAAGACGGCGCCGTTCAAAAAATCGTGGAGCACAAGGATGCTTCGGAGCAAGAACGTCTTGTGAAAGAAATTAACACGGGGACGTACTGTTTTGATAACGAGGCTCTTTTTCGTGTCATCGAACAGGTTTCGAATGAAAATGCCCAAGGCGAGTATTATCTGCCGGATGTGATCGAAATCCTCAAAGACGAAGGCGAAACTGTTGCCGCTTACCAGACTGGTAACTTCCAAGAGACGCTCGGAGTGAATGATAGAGTCGCTCTTTCTCAGGCTGAAATGTATATGAAAGAGCGTATTAACAAACGGCATATGCAGAACGGAGTCACTTTAATCGATCCGATGAATACGTACATCTCACCTGATGCACGTATCGGACAAGATACAGTTATTTATCCCGGAACTGTGTTAAAGGGACAAGCTGAAATCAGCGATGAATGTGTCATCGGCCCTCACACTGAGATAGAGGACAGCTCAATCGGCAGCCGCACTGTGATTAAACAATCCGTTGTCAATCGCAGCAAAGTTGGGAATGATGTAAATATCGGTCCTTTTGCTCACATCAGACCCGATTCCGCAATCGGCAATGAAGTGAAGATCGGAAACTTTGTTGAAATCAAGAAAACACAATTCGGCGACCGAAGCAAAGCATCTCATTTAAGCTATATCGGTGATGCCGAAGTGGGCACGGATGTGAATCTGGGCTGCGGCTCCATCACGGTCAATTATGATGGGAAGAAAAAGTATTTAACCAAAATTGAAGACGGCGCCTTTATAGGCTGCAACTCCAATCTGGTCGCTCCTGTTACAGTGGGAGAAGGCGCGTACGTCGCTGCGGGTTCAACCGTAACTGAAGATGTGCCGGGCGAAGCGCTTGCCATTGCCAGAGCAAGACAAGTAAATAAAGAAGATTATGTGAAAAACATTCATAAAAAATAA	MDKRFAVILAAGKGTRMKSKLYKVLHPVCGKPMVEHVADEALKLSLAKLVTIVGHGAEDVKKQLGQKSDYALQAEQLGTAHAVKQAKPFLHGEKGVTIVICGDTPLLTAETMEAMLNEHTDKGAKATVLTAVADDPAGYGRIIRSEDGAVQKIVEHKDASEQERLVKEINTGTYCFDNEALFRVIEQVSNENAQGEYYLPDVIEILKDEGETVAAYQTGNFQETLGVNDRVALSQAEMYMKERINKRHMQNGVTLIDPMNTYISPDARIGQDTVIYPGTVLKGQAEISDECVIGPHTEIEDSSIGSRTVIKQSVVNRSKVGNDVNIGPFAHIRPDSAIGNEVKIGNFVEIKKTQFGDRSKASHLSYIGDAEVGTDVNLGCGSITVNYDGKKKYLTKIEDGAFIGCNSNLVAPVTVGEGAYVAAGSTVTEDVPGEALAIARARQVNKEDYVKNIHKK	PGPT0018955_2106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
D1-12_03906	954	prs	COG0462	Ribose-phosphate pyrophosphokinase	ATGTCTAACGAATACGGAGATAAGAATTTAAAGATTTTTTCTTTGAATTCAAATCCAGAACTTGCAAAAGAAATCGCGGATAATGTAGGGGTTCAATTAGGAAAGTGCTCTGTTACAAGATTCAGTGACGGAGAGGTCCAGATCAACATAGAAGAAAGTATTCGCGGCTGTGATTGCTATATCATTCAGTCTACAAGTGCGCCGGTTAATGAGCACATTATGGAATTGCTGATTATGGTTGACGCTTTAAAGCGCGCTTCCGCGAAAACAATCAACATTGTGATTCCGTACTACGGTTATGCGCGCCAGGACAGAAAAGCAAGATCACGTGAACCGATTACGGCAAAACTTTTTGCAAACCTGCTTGAAACAGCGGGTGCGACACGCGTGATCGCGCTTGATTTACACGCGCCGCAAATTCAAGGTTTCTTTGATATTCCGATTGACCACTTAATGGGTGTTCCGATTTTAGGCCATTACTTTGAAGGTAAAGACTTGAAAGATATCGTCATTGTTTCTCCTGACCACGGCGGTGTGACGCGCGCCCGCAAACTTGCGGACCGTCTGAAAGCGCCGATCGCGATTATCGACAAACGCCGTCCTAGACCGAATGAGGTAGAAGTGATGAATATCGTCGGTAACGTGGAAGGAAAAACAGCGATTCTGATCGATGATATTATTGATACGGCCGGCACAATCACACTTGCCGCTAACGCGCTGGTTGAAAACGGAGCTGCAGAAGTGTATGCATGCTGTACGCACCCTGTACTGTCAGGCCCTGCCGTTGAGCGGATCAATAACTCTAAAATCAAGGAGCTTGTCGTAACGAACAGTATCAAGCTTCCTGATGAGAAAAAAATCGACCGCTTTAAGCAGCTTTCTGTCGGACCGCTTCTGGCTGAAGCGATTATCCGCGTTCACGAGAAACAATCTGTCAGCTATTTATTCAGCTAA	MSNEYGDKNLKIFSLNSNPELAKEIADNVGVQLGKCSVTRFSDGEVQINIEESIRGCDCYIIQSTSAPVNEHIMELLIMVDALKRASAKTINIVIPYYGYARQDRKARSREPITAKLFANLLETAGATRVIALDLHAPQIQGFFDIPIDHLMGVPILGHYFEGKDLKDIVIVSPDHGGVTRARKLADRLKAPIAIIDKRRPRPNEVEVMNIVGNVEGKTAILIDDIIDTAGTITLAANALVENGAAEVYACCTHPVLSGPAVERINNSKIKELVVTNSIKLPDEKKIDRFKQLSVGPLLAEAIIRVHEKQSVSYLFS	PGPT0021480_3777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
D1-12_03907	609	ctc	COG1825	General stress protein CTC	ATGGCAACTTTAAAAGCAAATGAAAGAACAGATTTTAAACGTTCGACGCTTCGGAAAATCCGTCATTCAGGACATGTTCCAGGGATTATATACGGTAAAGAAACAACGAATACGCCTGTCTCTTTAGACAGTGTCGAATTGCTTAAAACATTGCGGGACGAAGGAAAAAACACGATTATCACAATTGATGTCAACGGAAATCAGCAATCGGTTATGGTGACTGATCTTCAGACAGACCCGCTCAAAAACGAATTGACGCACGCCGATTTTCAAGTCGTGAATATGAGTGAGGAGCTGGAGGCCGAGGTGCCGATTCAGCTGACGGGAGAGGCGAAGGGAGTCAAAGACGGAGGCGTCATCCAGCAGCCGCTGCATGAGCTTTCGATTAAGGCCAGACCGAAGGACATCCCTCAGACAATCAATGTTGATATTTCAGGACTTGAAATGAATGATGTGCTGACCATCGCAGATCTGACTGCTGACGGCAATTATACATTTACAAACGACCCGGAAGAAGTCGTGGCTTCCATCCTTCCTCCTAAGCAGGAAGCATTCGAAGAAGATGCAGAACCGTCTCCTGGGGAAGAGCCCGAAGGAGAAAATCAATAA	MATLKANERTDFKRSTLRKIRHSGHVPGIIYGKETTNTPVSLDSVELLKTLRDEGKNTIITIDVNGNQQSVMVTDLQTDPLKNELTHADFQVVNMSEELEAEVPIQLTGEAKGVKDGGVIQQPLHELSIKARPKDIPQTINVDISGLEMNDVLTIADLTADGNYTFTNDPEEVVASILPPKQEAFEEDAEPSPGEEPEGENQ				NA	NA	NA	NA	NA
D1-12_03908	567	pth	COG0193	Peptidyl-tRNA hydrolase	ATGCTTGTGATTGCCGGTCTCGGTAACCCCGGGAAAACCTACGAGAACACGAGACATAATGTCGGCTTTATGGCCATTGACGAGCTTTCTAAAGAATGGAATATTGAACTGAATAAAACGAAATTCAACGGACTTTACGGAATGGGGTTTGTTTCCGGAAAAAAAGTTCTACTTGTTAAACCGCTTACATATATGAATTTATCAGGGGAATGTTTGCGGCCGCTACTGGATTATTATGATGCCGATCATGAAGATCTGAAAGTCATATACGATGACCTTGATCTTCCGACGGGAAAAATCAGGCTCCGGACGAAGGGGAGCGCAGGCGGACATAACGGAATTAAATCGCTTATACAGCACCTCGGAACCCCCGAATTTGACCGGGTCAGAATCGGAATCGGCCGCCCCGCTGGCGGAATGAAAGTCGTTGACTATGTACTGGGAGCTTTTACGAAGGAAGAATTGCCGAATATCAATGATGCCGTCTCAAAAACCGTAAAAGCCTGCGAAGCTTCCTTAACGAAACCATTTTTAGAAGTCATGAACGAATTTAATGCAAATGTATAA	MLVIAGLGNPGKTYENTRHNVGFMAIDELSKEWNIELNKTKFNGLYGMGFVSGKKVLLVKPLTYMNLSGECLRPLLDYYDADHEDLKVIYDDLDLPTGKIRLRTKGSAGGHNGIKSLIQHLGTPEFDRVRIGIGRPAGGMKVVDYVLGAFTKEELPNINDAVSKTVKACEASLTKPFLEVMNEFNANV	PGPT0023420_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023420-tarL-K18704	NA	NA
D1-12_03909	231	fin		Anti-sigma-F factor Fin	ATGGCTTTGCATTATTTCTGCCGCCACTGCGGCTTTAAGGTAGGGAGCCTGGAATATTCGACGGTGCCGACACAGTCACTTGGATTTCAGCACTTAACAAATGAGGAAAGAAACGATATGATTTCATATAAAGACAATGGAGATGTCCATGTTCTTACAATTTGTGAAGACTGCCAAGAGGCGCTGGAACGCAATCCGCACTACCATGAACACAACACATTTATTCAATAA	MALHYFCRHCGFKVGSLEYSTVPTQSLGFQHLTNEERNDMISYKDNGDVHVLTICEDCQEALERNPHYHEHNTFIQ				NA	NA	NA	NA	NA
D1-12_03910	3534	mfd		Transcription-repair-coupling factor	ATGGACAACATTCAAACCTTTATTAAAGAAAGCGATGATTTTAAATCCATTGTCAACGGTTTACATGAGGGGCTGAAGGAACAGCTGCTTGCGGGTCTGTCAGGTTCCGCGCGTTCTGTTTTTACCTCCGCCCTTGCACAGGAAACGAAAAGGCCGATTTTCTTTATCACCCATAATTTATATCAGGCCCAAAAAGTGACGGAAGATCTGACGGCGCTTCTCGGGGATCAATCTGTTTTTTTATACCCCGTAAATGAATTGATTTCTTCAGAAATTGCGGTAGCGAGCCCTGAACTGCGCGCTCAGCGGCTTGATGTCATTAATAGATTAACAAACGGAGAAGCGCCGGTCGTTGTGGCGCCCGTTGCGGCAGTGAGAAGAATGCTTCCGCCGAAGGAGCTGTGGAAAAGCAGCCAGCTCGTCATTTCACTCGGAGACGAAATAGAACCGGATCAGCTGTCCGCGCGCCTTGTAGAGGTGGGGTATGAGCGTTCCGATATGGTTTCTGCACCCGGTGAATTCAGTATTCGCGGCGGAATTATCGACATTTATCCGCTGACGTCGGAGCATCCGGTGCGAATTGAACTGTTTGATACGGAGGTCGATTCCATCAGAAGCTTCAATTCTGATGACCAGAGATCAATTGAGACGCTCAAACATGTGGCGATAGGACCGGCGAAGGAATTGATCATCAGGGCGGAAGAAAAAGCCCGTGCGATGGAAAGGCTCGATAAAGGGCTTGCCGACAGTCTGAAAAAGCTGAAGCAGGACAAACAAAAGGAAATGCTTCATATCAATATCTCACATGATAAAGAACGGTTATCAACGGGACAGACTGATCAGGAACTTGTGAAGTATCTCTCGTACTTTTACGAAAAGCCTGCTAGTTTGCTAGATTATACACCGGCAGACACGTTGTTACTGTTAGACGAGGTCAGCCGCATTCATGAAATGGAGGATCAGCTGCAAAAAGAAGAGGCCGAATTTACGACAAGTCTGCTCGAGGAAGGGAAAATTCTGCACGACATTCATTTATCCTTCAGCTTTCAGGAGCTTATGAGCGAAAAGCGGCGCCCGGCTATTTATTATTCATTATTTTTGCGTCATGTCCAGCATACAAGCCCTCAGAATATCGTGAATGTGACAAGCAGGCAGATGCAGAGTTTTCACGGGCAGATGAATGTGCTTGCAGGTGAAATGGAGCGCTTTAAGAAATCAAACTTCACCGTCGTCTTTTTAGGCGCGAATAAGGACAGAACCGACAGATTGGCATCCGTGCTGGCTGATTACGAAATTGAAGCCGCAAAAACGGACAGCTCCAAAGCGCTTGTGCAAGGACAGGTCTATGTCATGGAAGGCGAGCTGCAATCCGGTTTTGAACTGCCGCTGATGAAGCTGGCCGTCATTACGGAGGAAGAGCTGTTCAAAAACCGAATTAAGAAAAAGCCGAGAAAGCAGAAGCTGACAAATGCCGAACGGATCAAAAGCTATTCCGAGCTTCAGGTCGGTGACTATGTCGTCCACGTCAACCACGGGATCGGTAAGTATTTGGGGATCGAAACACTAGAAATCAAAGGCATTCATAAAGATTACCTCAACATTCATTATCAGGGCAGCGATAAGCTGTACGTCCCTGTAGAACAAATCGACCAGGTGCAGAAGTACGTCGGCTCTGAAGGAAAAGAACCGAAGCTTTATAAACTGGGCGGCAGTGAATGGAAACGGGTGAAGAAAAAAGTTGAAAACTCCGTTCAGGATATTGCCGATGATCTGATTAAGCTTTATGCGGAACGGGAAGCAAGCAAAGGCTATGCGTTCTCGCCGGATCATGAAATGCAGCGGCAGTTCGAATCTGCTTTCCCTTATCAGGAAACAGAGGACCAGCTCCGTTCCATTCAGGAGATTAAAAAGGACATGGAAAGAGAGCGCCCGATGGACCGTTTGCTTTGCGGTGATGTCGGTTACGGGAAGACGGAGGTAGCCATCCGAGCGGCTTTTAAAGCGATCGCAGACGGAAAGCAGGTCGCGCTTCTTGTGCCGACGACAATACTCGCGCAGCAGCATTATGAAACCATTATGGAGCGTTTTCAGGACTATCCGATTAACATCGGTCTTCTCAGCCGATTCAGAACGAGAAAAGAATCCAATGAAACGATTAAAGGCCTGAAAAACGGAACGGTAGACATCGTAATCGGAACCCACAGGCTCTTATCTAAAGACGTCGTCTATAAAGATCTCGGCTTGCTCATCATTGATGAAGAGCAGCGCTTTGGCGTAACGCATAAGGAAAAAATCAAACAGATCAAAGCCAATGTCGATGTGCTGACTCTTACAGCGACGCCGATACCGCGTACGCTTCATATGTCCATGCTCGGTGTGCGGGACTTATCTGTTATTGAAACGCCGCCGGAAAACCGTTTCCCTGTTCAGACATATGTCGTGGAATACAATGGCGCGCTTGTGCGGGAAGCCATCGAAAGAGAACTGGCGCGCGGAGGACAGGTATATTTCTTGTACAACCGCGTGGATGACATCGAGCGGAAGGCTGATGAAATTTCCATGCTTGTTCCCGATGCGAAAGTGGCATATGCCCACGGAAAAATGACTGAAAATGAATTGGAAAGCGTCATGCTCAATTTTCTGGAAGGGGAATCAGACGTCCTTGTCAGCACGACTATTATTGAGACAGGCGTAGATATACCGAATGTCAATACCTTGATTGTGTTCGACGGAGACAAAATGGGGCTGTCTCAGCTGTATCAGCTGAGAGGACGGGTCGGCCGTTCCAACCGCGTCGCTTACGCGTATTTTACGTACCGCAGAGACAAAGTGCTCACTGAGGTGGCGGAAAAACGGCTGCAGGCGATTAAAGAATTTACCGAGCTGGGATCTGGCTTTAAAATCGCCATGCGTGACTTGACGATCAGGGGAGCGGGGAACCTTCTCGGCGCCCAGCAGCACGGCTTTATCGACTCAGTCGGTTTTGACCTGTACTCGCAAATGCTCAAGGAAGCGATTGAAGAGCGGAAAGGCGATATTCCGAAAAGCGAACAGTTTGAGACAGAAATCGATATCGAGCTAGACGCGTATATTCCTGAAAACTATATACAAGACGGCAAGCAAAAAATCGACATGTACAAACGCTTCCGGTCGATCGCCACAATTGAGGAGAAAAATGAGCTTCAAGATGAAATCATCGACAGGTTCGGCAGCTACCCTAAAGAGGTTGAATGGCTGTTTACGGTTGCTGAGATGAAGGTATACGGAAAATATGAACGCGTCGAACTCATCAAGCAGGATAAAGACGCGATCAGATTTACCATTTCTGAAGAGGCCAGCGCACAGATTGACGGCCAGAAATTGTTCGAACTCGGCAATAAATACGGCCGGCAGATCGGACTGGGAATGGAAGGGAAAAAGCTGAAAATCTCAGTACAGACGAAAGGCCGCAAAACGGAAGAGTGGCTGGAGACCGTGCTCGGCATGCTGAAAGGCCTTCAGGATGTGAAGAAAGAAACAATCGCGTCTTCATAA	MDNIQTFIKESDDFKSIVNGLHEGLKEQLLAGLSGSARSVFTSALAQETKRPIFFITHNLYQAQKVTEDLTALLGDQSVFLYPVNELISSEIAVASPELRAQRLDVINRLTNGEAPVVVAPVAAVRRMLPPKELWKSSQLVISLGDEIEPDQLSARLVEVGYERSDMVSAPGEFSIRGGIIDIYPLTSEHPVRIELFDTEVDSIRSFNSDDQRSIETLKHVAIGPAKELIIRAEEKARAMERLDKGLADSLKKLKQDKQKEMLHINISHDKERLSTGQTDQELVKYLSYFYEKPASLLDYTPADTLLLLDEVSRIHEMEDQLQKEEAEFTTSLLEEGKILHDIHLSFSFQELMSEKRRPAIYYSLFLRHVQHTSPQNIVNVTSRQMQSFHGQMNVLAGEMERFKKSNFTVVFLGANKDRTDRLASVLADYEIEAAKTDSSKALVQGQVYVMEGELQSGFELPLMKLAVITEEELFKNRIKKKPRKQKLTNAERIKSYSELQVGDYVVHVNHGIGKYLGIETLEIKGIHKDYLNIHYQGSDKLYVPVEQIDQVQKYVGSEGKEPKLYKLGGSEWKRVKKKVENSVQDIADDLIKLYAEREASKGYAFSPDHEMQRQFESAFPYQETEDQLRSIQEIKKDMERERPMDRLLCGDVGYGKTEVAIRAAFKAIADGKQVALLVPTTILAQQHYETIMERFQDYPINIGLLSRFRTRKESNETIKGLKNGTVDIVIGTHRLLSKDVVYKDLGLLIIDEEQRFGVTHKEKIKQIKANVDVLTLTATPIPRTLHMSMLGVRDLSVIETPPENRFPVQTYVVEYNGALVREAIERELARGGQVYFLYNRVDDIERKADEISMLVPDAKVAYAHGKMTENELESVMLNFLEGESDVLVSTTIIETGVDIPNVNTLIVFDGDKMGLSQLYQLRGRVGRSNRVAYAYFTYRRDKVLTEVAEKRLQAIKEFTELGSGFKIAMRDLTIRGAGNLLGAQQHGFIDSVGFDLYSQMLKEAIEERKGDIPKSEQFETEIDIELDAYIPENYIQDGKQKIDMYKRFRSIATIEEKNELQDEIIDRFGSYPKEVEWLFTVAEMKVYGKYERVELIKQDKDAIRFTISEEASAQIDGQKLFELGNKYGRQIGLGMEGKKLKISVQTKGRKTEEWLETVLGMLKGLQDVKKETIASS				NA	NA	NA	NA	NA
D1-12_03911	537	spoVT	COG2002	Stage V sporulation protein T	ATGAAAGCTACAGGTATCGTACGTCGTATTGATGATCTAGGACGGGTCGTCATTCCTAAAGAAATTCGGAGAACACTGCGAATCAGGGAAGGAGACCCGCTTGAAATATTCGTTGACCGCGACGGAGAAGTTATATTGAAAAAATATTCTCCTATCAGTGAGCTTGGCGATTTTGCGAAGGAATATGCAGATGCTTTGTATGACAGTCTCGGCCATTCCGTTTTGATTTGCGACCGTGACGCGTATATTGCCGTTTCAGGCAGTTCGAAAAAAGAATTTCTGAACAAAGCCATCAGCGATTTGCTCGAAAAAACGATGGATCAGCGCAGCTCAGTGGTAGAAAACGACGTGAAGTCCGCGCAGCTTGTTAATGACATTGATGAAGATATGAGCTCCTATACAATAGCCCCGATCGTGGCAAATGGCGATCCTATCGGCGCCGTGGTCATCTTTTCCAAGGAACAGGCGCTTGGAGAAGTAGAACATAAAGCGGTAGAAACGGCAGCCAGTTTTTTGGCGAGACAAATGGAGCAGTAG	MKATGIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIFVDRDGEVILKKYSPISELGDFAKEYADALYDSLGHSVLICDRDAYIAVSGSSKKEFLNKAISDLLEKTMDQRSSVVENDVKSAQLVNDIDEDMSSYTIAPIVANGDPIGAVVIFSKEQALGEVEHKAVETAASFLARQMEQ	PGPT0024790_300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024790-spoVT-K04769	NA	NA
D1-12_03912	1581	murJ_2		lipid II flippase MurJ	ATGAACGATTCAGTTGGCGCCAAGCGGCAATCGGCATGGAAAGGTGCTTTTGTGCTCGTCGTTGCGGGCATCGTGACGAAGATATTAAGCGCCGTGTACAGGGTTCCTTTTCAGAATATTGTCGGTGACGTCGGATTTTACATTTATCAGCAGGTGTACCCGTTTTTAGGGATCGCGGTCATGCTGTCAACATCCGGTTTTCCGGTAATCATCTCTAAATTAATGAACGATTATAGCGATCATAAACAAAAAATAATGAAAATTTCCGCCCTTTATGTCACGGCGGCCGGACTTGTTCTGTTTGCGCTCATGTATGCCGGCGCGGCGCCGTTGGCCGGTTTTATGGGTGACGCCCGCCTTGTGATGCTGATAAGGGTCGCGGCGTTCGCTTTCATACTGTTTCCGTTTACGGCGGTTTTCAGGGGGTATTTCCAAGGCGTGCATGATATGATGCCGTCAGCCTTATCCCAGATTACGGAACAGCTTCTTCGCGTGGCGGTGCTTCTCGGTTTATCCTTCTGGCTTTTGAAAAACGGCCGTTCATTATACGCGGCGGGTGCGGGGGCGGCCTCGGGATCAATTGCCGGAAGCTTGGCAGCCCTTTGTGTATTGGCTGTTTTCTGGTATAAGCGGGAAGAAACAAAGAAGGACGGCGGACATATCGAAACGGCCGTCATTATAAAAAAGCTGCTGCTTTATTCAGTCACCATCTGTATCAGCAGTGTACTTATGCTTTTGCTTCAGCTTGTAGACGCCTTAAACTTATATTCACTGCTTTCAGACGGGACGGAGAGCCATGCCGCGAAACAGCTGAAAGGCATATATGACCGCGGACAGCCGCTCCTTCAGCTGGGAACCGTGTTTGCCGTCAGTATCGCCGCGTCATTGGTTCCTTCAATTTCAAAAGCGGTGCATGAGAATAAGCCGTTTATCATAAAAGAGAAAGCGACATCAGCCGTCAAGCTCTGCCTTGCGGTAGGGATCGGTGCATCAGCCGGGCTTTTTTGCATTTTAGAGCCGGTGAATATCATGCTTTTCCAAAACAGTGAGGGGACGCAGACCTTACAAATATTCAGCTTATCTATCTTTTTTGCCTCGATTGCGCTTACGGCAGCCGCGATTCTGCAAGGAGCGGGACATACCGTTTTCCCCGCCGTATCCGTTTTGGCGGGAGGGGCGCTGAAATGGGTGCTGAATGTTTGGCTGGTCCCCGGCTGGGGTATTACAGGAGCGGCACTGGCGACCGTCTTGGCATTTGCCGCAGTTGCGTGCCTGAATCTCCGGAGAATTTGGTCGAAGGGCTGGCTGACGAATATCGGCGGCGTGATTGCCCGTCTATGCTGGTGCAGCCTGCTGATGGTCTTCTTTCTGCTCGTATATATGAAGCTTTGGCAGTTATTTGTTCCTGTCAGCAGGGCCGGAGCTGTATGTGAGAGTCTGTCTGCGTCAGTCATCGGAGGGCTATTGTTTATTTATTGTATGATAAGAATGAAGATTTTCACGGACGAAGAGCTGAGCGGCCTTCCTTTCGGCAGTGCTTTAAGCAAATTGAAAAAGAGGAGAGAAAAACATGGCAGGTAA	MNDSVGAKRQSAWKGAFVLVVAGIVTKILSAVYRVPFQNIVGDVGFYIYQQVYPFLGIAVMLSTSGFPVIISKLMNDYSDHKQKIMKISALYVTAAGLVLFALMYAGAAPLAGFMGDARLVMLIRVAAFAFILFPFTAVFRGYFQGVHDMMPSALSQITEQLLRVAVLLGLSFWLLKNGRSLYAAGAGAASGSIAGSLAALCVLAVFWYKREETKKDGGHIETAVIIKKLLLYSVTICISSVLMLLLQLVDALNLYSLLSDGTESHAAKQLKGIYDRGQPLLQLGTVFAVSIAASLVPSISKAVHENKPFIIKEKATSAVKLCLAVGIGASAGLFCILEPVNIMLFQNSEGTQTLQIFSLSIFFASIALTAAAILQGAGHTVFPAVSVLAGGALKWVLNVWLVPGWGITGAALATVLAFAAVACLNLRRIWSKGWLTNIGGVIARLCWCSLLMVFFLLVYMKLWQLFVPVSRAGAVCESLSASVIGGLLFIYCMIRMKIFTDEELSGLPFGSALSKLKKRREKHGR	PGPT0017190_134	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017190-TC_PST-K03328	NA	NA
D1-12_03913	1476			hypothetical protein	ATGGCAGGTAACATTACGGTCGTCGGCCTCGGCGCCGGAGACATGGATCAGTTGACAGTGGGCGTACATAAGCTGCTGACTCAGGCGAAGCATTTATATATAAGAACGAAAGACCACCCTTTGATTCCGGAATTAGAGCAAGAGACGGAAGCGGACATCCGGTATTTTGATGATATTTATGAAAAACATGATCAGTTTGAAGCGGTCTATGAAGAGATCGCGGACATTCTGTTTGAAAAAGCGAAGCAAGAGGATATCGTCTACGCTGTACCCGGGCATCCGTTTGTCGCTGAGAAAACCGTTCAGCTGTTATTTGAACGCCGGGAAGAACAACAGATAGCTGTTCATACTGCCGGAGGGCAAAGCTTTCTGGATGCCACTTTTAATGCATTGCGAATTGATCCGATTGAAGGGTTTCAATTTACGGATGCGCAAACAATGACGCCGGATGAGCTCGAACTCCGCCATCACCTGATCATTTGCCAGGTTTATGACCAGATGACGGCCTCTGAGGTAAAGCTGACGCTTATGGAGAAATTGCCTGACGATTATGAAGTGGTCATCGTCACGGCAGCCGGAAGCAAGGGAGAAAAGATGACCAAGGTGCCTTTGTTTGAACTTGACCGCAATGTAGAAATAAATAACTTAACAAGCGTGTATGTTCCGCCGATTAAAAAAGAAGAACTCCTTTACCAGGAATTTTCTGCATTCCGAAGTATTATTCGCGAGCTTCGCGGGCCGAACGGCTGTCCGTGGGATCAAAAGCAGACACACCAGTCATTAAAGAAATATATGATTGAGGAATGCTACGAACTGCTTGAGGCCATTGACGAAGAGGACACGGATCACATGATAGAAGAACTCGGGGACGTCATGCTTCAGGTTATGCTGCACGCCCAGATCGGAGAAGACGAGGGGTATTTCTCAATTGATGATGTCATCAGAGACATCAGTGCGAAGATGGTCAGACGGCACCCGCACGTGTTTAAGGATGTTAAGGTTCAGGATGAACATGATGTCGTCGCCAACTGGGAAGAAATCAAAAAGACGGAAAAGCAAACAACATCCTCTTCATTGCTGGATGCCGTGCCGAAAACACTGCCTTCTCTTGCAAAAGCGGCCAAGCTTCAGAAAAAAGCCGCAAAAACCGGCTTTGACTGGGATGACGTTCAGGATATATGGGATAAAGTAAATGAAGAGCTAAAGGAATTTTCTGCAGAGGCTTCCGCCGAATCAGCAGATGAAATCAGCTTAAAAGCTGAATTCGGCGATGTTTTATTTGCATTGGTCAATATCGGCCGATACTATAAAATTGAGCCTGAGGAAGCGCTCGCCATGACAAATGACAAATTCCGCAGACGCTTTGCTTATATTGAGAAAGAAGCGGCAGCAAAGGGACTTGAATTGACCGCAATGTCACTTGAAGAAATGGACAAATTGTGGGATGAAGCAAAAGAAATGGAGAGGAGATTCTGA	MAGNITVVGLGAGDMDQLTVGVHKLLTQAKHLYIRTKDHPLIPELEQETEADIRYFDDIYEKHDQFEAVYEEIADILFEKAKQEDIVYAVPGHPFVAEKTVQLLFERREEQQIAVHTAGGQSFLDATFNALRIDPIEGFQFTDAQTMTPDELELRHHLIICQVYDQMTASEVKLTLMEKLPDDYEVVIVTAAGSKGEKMTKVPLFELDRNVEINNLTSVYVPPIKKEELLYQEFSAFRSIIRELRGPNGCPWDQKQTHQSLKKYMIEECYELLEAIDEEDTDHMIEELGDVMLQVMLHAQIGEDEGYFSIDDVIRDISAKMVRRHPHVFKDVKVQDEHDVVANWEEIKKTEKQTTSSSLLDAVPKTLPSLAKAAKLQKKAAKTGFDWDDVQDIWDKVNEELKEFSAEASAESADEISLKAEFGDVLFALVNIGRYYKIEPEEALAMTNDKFRRRFAYIEKEAAAKGLELTAMSLEEMDKLWDEAKEMERRF				NA	NA	NA	NA	NA
D1-12_03914	261		COG1188	putative protein	ATGAGACTTGATAAGTTTTTAAAAGTATCCAGATTAATTAAACGCCGCACATTGGCGAAAGAGGTCGCCGATCAAGGGAGAATCACCGTTAACGGGAATCAGGCGAAAGCCAGCTCAGACGTAAAAGCCGGTGATGAACTGACGGTCCGCTTCGGCCAGAAGCTTGTCACCGTGAAGGTAAACGAATTGAAAGAAACAACGAAAAAAGAAGAAGCCGCGGGCATGTATACAATCGTCAAAGAAGAAAAACTCGGCGAATAG	MRLDKFLKVSRLIKRRTLAKEVADQGRITVNGNQAKASSDVKAGDELTVRFGQKLVTVKVNELKETTKKEEAAGMYTIVKEEKLGE	PGPT0012225_994	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
D1-12_03915	303	yabP		Spore protein YabP	ATGAATTCATATTATGAGCAAAAAGGTTCTTCTTCTGTTCCGGAACAGCATGATGTAACGATGAAAGGGAGAAAGCATTTAGACATTTCGGGCGTCAAGCATGTGGAAAGTTTTGACAACGAAGAGTTTTTGCTGGAAACAGTTATGGGAATGCTTTCCGTCAGAGGCGAGAACCTGCAGATGAAAAACCTTGATGTGGAAAAAGGGATTGTATCTATAAAAGGCAGGGTGTTTGACCTTGTATATTTAGACGAGCAGCAAGGGGATAAAGCTAAAGGGTTTTTTAGCAAGTTGTTTAAATGA	MNSYYEQKGSSSVPEQHDVTMKGRKHLDISGVKHVESFDNEEFLLETVMGMLSVRGENLQMKNLDVEKGIVSIKGRVFDLVYLDEQQGDKAKGFFSKLFK	PGPT0024990_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024990-yabP-NA	NA	NA
D1-12_03916	636	yabQ		Spore protein YabQ	ATGACACTGACGACCCAATTTTATACGATGCTGGCAATGACCGGTATGGGCGCCTGGCTCGGAGCGTCGCTTGATACATACAGGCTGTTTGTCAGCCGCGCCAAAACGGCCAGATGGCTGTTATTCATTCATGACATTCTCTTTTGGATTGTACAAGGTCTGATGTTTTTCTATGTGCTGCTCAACGTGAATGAAGGAGAACTCAGGGTATACATTTTCTTGGCTGTCTTACTGGGTATTGCGACGTACCAAAGCCTGTTTAAACGAATGTATATAAAAATACTGAAATTTTCCATTCATCTTGCGGTGTCTCTTTACCAATTCGCAAAAAAGCTCATTCAGCACGTGCTGTTCCGTCCGGTGCTTCTGCTCTTTAAGCTGCTCATCGGGCTGATCACGGTTATTTCTTTATACTCCTATCGGGTGAGTGCCTTTTTTGCGAAGTGTCTTTTTAAGATCGTAGCTTTTTTGCTGTATCCGCTGTTCTTCCTGTTGAAACAATTATTGAAACTTCTTCCTGAAAAATGGCGTCTTACTTTCAAACGATATTTTCAAAAAAGTGCAGGATTTTCACAAAAGAGCAAGAAACTAATCATAACAATCAGATCGACCATGATACGTATTTTGAAAAGGTGA	MTLTTQFYTMLAMTGMGAWLGASLDTYRLFVSRAKTARWLLFIHDILFWIVQGLMFFYVLLNVNEGELRVYIFLAVLLGIATYQSLFKRMYIKILKFSIHLAVSLYQFAKKLIQHVLFRPVLLLFKLLIGLITVISLYSYRVSAFFAKCLFKIVAFLLYPLFFLLKQLLKLLPEKWRLTFKRYFQKSAGFSQKSKKLIITIRSTMIRILKR				NA	NA	NA	NA	NA
D1-12_03917	378	divIC	COG2919	Cell division protein DivIC	TTGAATCTATCTAGAGAACGTACAATAACTGAAATTCAAAACGACTATAAAGAGCAGGTTGAACGGCAATCCCAGCTTATGAAAAGAAGGCGGAAAGGGCTTTTCAGACGGTTGATCGTATTCGGCGCCCTTGTGTTGTTGACGGCTATTGTCTTAGCGGGTTCTCTGTGGTCACAGACCTCTTCCCTTAGCGCAAACGAAGAAAAGAAAGCTCAGCTGGAAAAACAAGTGAAAAAATTGAACGCGAAACAGGCTGATTTAAAAGATGAAATTTCCAAATTAAAGGATGAGGATTACGTCACAGAGCTTGCCAGAAGAGACTTGTTTATGTCAGGAAATGGTGAGATTCTCTTTAATGTAGAGAAGAAGAGCAAGTAG	MNLSRERTITEIQNDYKEQVERQSQLMKRRRKGLFRRLIVFGALVLLTAIVLAGSLWSQTSSLSANEEKKAQLEKQVKKLNAKQADLKDEISKLKDEDYVTELARRDLFMSGNGEILFNVEKKSK				NA	NA	NA	NA	NA
D1-12_03918	387	pnp_2		Polyribonucleotide nucleotidyltransferase	ATGTCGATTGAAGTTGGCAGCAAGTTGCAAGGGAAAATAACAGGTATTACAAATTTCGGAGCATTTGTTGAATTGCCTGGAGGCTCAACCGGTCTCGTTCATATCAGTGAGGTAGCCGATAATTATGTAAAAGACATTAACGAGCATTTAAAAGTCGGCGATCAAGTTGAAGTGAAAGTCATCAACGTTGAAAAAGACGGGAAAATTGGTTTATCAATTAAAAAAGCTAAAGACCGTCCGCAAGCCAGACCTAGAAATGATTTCCGTCCGAAAGAATCTTTTGAACAGAAAATGAACAAGTTTCTTAAAGATAGCGAAGACCGCTTATCATCTTTAAAACGAAACACGGAATCAAAACGTGGAGGGCGCGGAGCAAGAAGAGGATAA	MSIEVGSKLQGKITGITNFGAFVELPGGSTGLVHISEVADNYVKDINEHLKVGDQVEVKVINVEKDGKIGLSIKKAKDRPQARPRNDFRPKESFEQKMNKFLKDSEDRLSSLKRNTESKRGGRGARRG				NA	NA	NA	NA	NA
D1-12_03921	2490	spoIIE	COG2208	Stage II sporulation protein E	ATGGAAAAAGCGGAAAGAAGAGTGAACGGGCCGATGGCGGGACAAGCTCTGGAAAAACTGCAATCGTTTTTTGAAAAGGCGGCAAAGCTTACAGTCCATCAAGCGCATTCACTTTTTTTCTATAAGGGTTTCATTTATGTCGTGATCGGTTTTTTACTTGGACGGGCTTTCATATTATCTGAGGTTCTTCCGTTTGCGCTGCCGTTTTTCGGAGCGATGCTGTTGATCAGAAGAGATAAAGCCTTCTATGCTTGTCTGTCTTTACTTGCGGGCGCTTTAACCATTTCGCCGAAACACTCTTTATTGATTCTCACAGCTTTGGCCGTCTTCACTCTATTTTCAAAAATCGGTACATATATCGTGCAGGACCGGGTGAAGATGCTGCCGATCGTGGTGTTTTTCTCTATGGCTGCCGCGAGAATCGGATTTGTTTATTTTGAAAGCGGCGCTTTTACCACCTATGATTATGTGATGGCTGTTGTCGAGGCGGGCCTGGCCTTTATTTTGACGCTGATCTTTTTACAAAGCCTGCCGATCTTCACGATCAAAAAAGTGAAGCAATCGTTAAAAATAGAAGAAATCATCTGTTTTATGATCTTGATCGCATCCGTTTTAACCGGGCTTGCCGGTGTTTCATTTCAGGGAATGCAGGCTGAACATATCCTGGCCCGCTATGTCGTGCTGAGTTTTTCCTTTGTCGGCGGGGCAAGCATCGGCTGTACGGTCGGTGTTGTGACCGGACTGATCCTCGGGCTTGCGAATATCGGGAATCTCTATCAAATGAGTCTGCTTGCGTTTTCCGGGCTTCTTGGCGGGCTGCTGAAAGAAGGAAAGAAAGCCGGCGCCGCAGTCGGATTAGTGATCGGCTCACTGCTGATTTCATTATATGGAGAAGGATCTGCCGGATTAATGACCACTCTTTATGAATCTTTGATTGCCGTTGTTTTGTTTTTGATTACGCCCCAATCGATTACGAAAAAGGTGGCGCGATACATACCGGGCACTGCTGAGCACAGTCAGGAACAGCAGCAGTACGCAAGGAAAATCAGAGATGTCACCGCCCAGAAAGTAGACCAGTTCTCCAATGTGTTTCATGCCTTGTCGGAGAGCTTCGCCACCTTTCATCAGACGTCTTCTGATGAGCAGGCGGAAGAAGGGGAAGTGGATCTCTTTTTAAGCAAAATCACCGAGCATTCCTGCCAATCCTGCTATAAGAAAAGCAAATGCTGGGTTCAAAACTTTGATAAAACATATGACTTAATGAAACAGGTTATGCATGAAACAGAAGAAAAACAGTATGCCTCAAACCGCAGATTAAAAAAGGAGTTTCAACAACACTGCTCCAAATCCAGACAGGTGGAAGAGCTGATTGAGGACGAACTTGCCCACCATCACGCCCATCTGACACTGAAGAGAAAAGTTCAGGACAGCAGAAGGCTTGTTGCCGAGCAGCTGTTGGGGGTTTCTGAGGTCATGGCGGACTTTTCTCGGGAAATAAAACGGGAGAGGGAGCAGCATTTTATTCAAGAAGAACAAATGATAGAGGCGCTTCAGCATTTCGGAATCGAGATTCAGCATGTCGAGATATACAGCTTGGAGCAGGGCAATATTGATATCGAAATGACAATCCCGTTCAGCGGAGGACACGGCGAGAGTGAGAAAATTATCGCCCCGATGCTGTCTGACATTCTTGAGGAGCAGATACTTGTCAAAAGCGAACAGCACTCGACTCATCCGAATGGCTACAGCCATGTCGCGTTCGGTTCGACCAAGTCGTACCGGGTATCGACAGGCGCGGCTCATGCGGCAAAAGGCGGCGGCCTTGTCTCCGGCGACAGCTACAGCATGATGGAACTGGGGGCGAGAAAGTATGCGGCCGCGATCAGTGACGGCATGGGCAATGGGGCGAGGGCCCATTATGAGAGCAATGAAACGATTAAGCTGCTCGAAAAAATTCTCGAATCAGGTATTGATGAAAAAATAGCGATCAAAACGATCAACAGTATTCTGTCTTTACGGACGACAGACGAAATCTACTCAACTCTCGATCTTTCTATCATTGATCTTCAGGATGCAAGCTGCAAATTCTTGAAGGTCGGTTCAACGCCGAGTTTTATCAAGCGGGGAGATCAAGTCATGAAAGTGCAGGCCAGCAATCTGCCGATCGGCATCATCAATGAATTTGATGTAGAGGTTGTAAGTGAACAGTTAAAAGCGGGAGATCTGCTCGTCATGATGAGTGACGGTATTTTTGAAGGGCCGAAGCACGTTGAAAACCACGACCTGTGGATGAAACGGAAAATGAAAGGGCTGAAAACCGAAGATCCGCAGGAAATCGCTGATATATTAATGGAAGAGGTCATCAGAACGCGTTCCGGCCAAATCGAAGACGATATGACGGTGGTTGTTGTCCGGATTGATCACAACACGCCGAAATGGGCTTCCATCCCGGTGCCGGCGGTTTTCCAAAATAAAAAGGAGATTTCTTAA	MEKAERRVNGPMAGQALEKLQSFFEKAAKLTVHQAHSLFFYKGFIYVVIGFLLGRAFILSEVLPFALPFFGAMLLIRRDKAFYACLSLLAGALTISPKHSLLILTALAVFTLFSKIGTYIVQDRVKMLPIVVFFSMAAARIGFVYFESGAFTTYDYVMAVVEAGLAFILTLIFLQSLPIFTIKKVKQSLKIEEIICFMILIASVLTGLAGVSFQGMQAEHILARYVVLSFSFVGGASIGCTVGVVTGLILGLANIGNLYQMSLLAFSGLLGGLLKEGKKAGAAVGLVIGSLLISLYGEGSAGLMTTLYESLIAVVLFLITPQSITKKVARYIPGTAEHSQEQQQYARKIRDVTAQKVDQFSNVFHALSESFATFHQTSSDEQAEEGEVDLFLSKITEHSCQSCYKKSKCWVQNFDKTYDLMKQVMHETEEKQYASNRRLKKEFQQHCSKSRQVEELIEDELAHHHAHLTLKRKVQDSRRLVAEQLLGVSEVMADFSREIKREREQHFIQEEQMIEALQHFGIEIQHVEIYSLEQGNIDIEMTIPFSGGHGESEKIIAPMLSDILEEQILVKSEQHSTHPNGYSHVAFGSTKSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGMGNGARAHYESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASNLPIGIINEFDVEVVSEQLKAGDLLVMMSDGIFEGPKHVENHDLWMKRKMKGLKTEDPQEIADILMEEVIRTRSGQIEDDMTVVVVRIDHNTPKWASIPVPAVFQNKKEIS	PGPT0024675_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024675-spoIIE-K06382	NA	NA
D1-12_03922	738			hypothetical protein	GTGAATAAGGGACATTTAAATCAAGTTCTGCTGATTACAGATGGCTGCTCCAATCATGGTGAAGACCCGATCGCAATGGCGGCTTTCGCCAAGGAGCAGGGGATTACGGTGAATGTTATAGGAATTATGGAAGAAAATGCGATTGACCAAGAGGCAATGAAGGAAGTTGAAGGCATCGCCATGGCCGGAGGCGGCGTCCATCAAGTTGTGTATGCGTCACAATTGTCTCAGACGGTTCAAATGGTGACGAAAAAAGCAATGACCCAGACGCTGCAAGGCGTCGTCAATCAAGAGCTTAAACAAATTTTAGGAAAAAACGTTGAAATGGAAGAGCTTTCTCCTGAAAAACGCGGCGAAGTGATGGAAGTTGTTGATGAACTCGGCGAAACGGTTCATCTGCAAGTGCTTGTGCTGGTTGATACGAGTGCGAGTATGGCGCCGAAACTGCCGACGGTGAAAGAAGCGCTGATCGATCTTTCCATCAGTTTAAATTCCCGGGCCGGACAAAATGAATTTGCAATGTGTATATTTCCCGGGAAAAGCCAGGAAGTTGAGCTTGTACTGAATTGGACGCCGAAGCTTGAATCCCTTTCTGCACTCTTTGCGAAGCTGTCGACCGGCGGTATCACCCCTACGGGCCCCGCTATCCGGGAAGCGACGCAGCAGTTTGAGAGAATCCGCTCAAGAAGGAGCATGTTGGCAGATGATGAACGACGCTTTAACGAGTTTGGCATGTAG	MNKGHLNQVLLITDGCSNHGEDPIAMAAFAKEQGITVNVIGIMEENAIDQEAMKEVEGIAMAGGGVHQVVYASQLSQTVQMVTKKAMTQTLQGVVNQELKQILGKNVEMEELSPEKRGEVMEVVDELGETVHLQVLVLVDTSASMAPKLPTVKEALIDLSISLNSRAGQNEFAMCIFPGKSQEVELVLNWTPKLESLSALFAKLSTGGITPTGPAIREATQQFERIRSRRSMLADDERRFNEFGM	PGPT0014015_7218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-12_03923	1002	yabT	COG0515	putative serine/threonine-protein kinase YabT	ATGATGAACGACGCTTTAACGAGTTTGGCATGTAGTCTGGCACCGGGGACGGCAATTCAGGGCAAATGGAACGGCAAATCCTACAGATTGCTCAAACAGCTTGGAAAAGGGGCTAACGGTATTGTATATTTGGCAGAAGCATCAGGCGGACAGGTCGCTTTGAAAATAAGCAGCGACAGCATGTCTGTTACCTCTGAAGTGAATGTCTTAAAATCCTTTTCAAAGGCCCGGTCGCAAACGATGGGGCCTTCTTTTTTTGATGCGGACGACGCGTTTATACCGCAGCTGAATAAAAATGTCTCTTTTTACGTGATGGAGTACATAGAAGGGCCGCTTCTTCCGCAATATATCAGCAGTAAGGGAGCGGAGTGGATTCCGGTGCTGATGGTGCAGCTTCTTTCCAGCCTGTCAGTCCTTCATCAGCAAGGGTGGGTTTTTGGCGACCTCAAACCGGACAATCTCATTGTAACCGGGCCACCGGCTGCCATTCGCTGCATTGATGTAGGGGGAACGACAAAACAGGGCCGCGCGATTAAAGAGTATACGGAGTTTTACGACAGGGGCTATTGGGGGTATGGAACAAGAAAAGCAGAACCATCCTATGACCTGTTTGCTGTCGCAATGATCATGATCCACTGTGTCCAGAAGAAAGAGTGCAAAAAGTCAGGACAGCCGAAAGAACAGCTTCGTTCTATCATTGAAGGCCACCCGTTTCTGAATAAGTATAAGAAGGTTCTGTTTTCTGCTTTAAACGGTCAATATCCGTCTGCGGAAGCCATGAAGCATGACATCCTGACGGCGGGCCAGAGCGCCGGGAGCAAAAGGAAAGCCGCCGCCAAGCCTAAGCCGCCGCATTCAAAACCGCGGCAGGGCACTGTATCTCAGACGCGGTATAAACCTAAACAAAAACCCGCAAAGCACAATGGTTTGTTTGAAACAACACTTATTTTAATCAGCGTTCTCGCCCTTTATTTCGCTTACATCGTCTTTTTTCTCATCTAG	MMNDALTSLACSLAPGTAIQGKWNGKSYRLLKQLGKGANGIVYLAEASGGQVALKISSDSMSVTSEVNVLKSFSKARSQTMGPSFFDADDAFIPQLNKNVSFYVMEYIEGPLLPQYISSKGAEWIPVLMVQLLSSLSVLHQQGWVFGDLKPDNLIVTGPPAAIRCIDVGGTTKQGRAIKEYTEFYDRGYWGYGTRKAEPSYDLFAVAMIMIHCVQKKECKKSGQPKEQLRSIIEGHPFLNKYKKVLFSALNGQYPSAEAMKHDILTAGQSAGSKRKAAAKPKPPHSKPRQGTVSQTRYKPKQKPAKHNGLFETTLILISVLALYFAYIVFFLI				NA	NA	NA	NA	NA
D1-12_03924	1419	tilS	COG0037	tRNA(Ile)-lysidine synthase	GTGAAAAGCGTGGAAGATTTTTTCAAAACATATCATCTTCAGGCGGAGGGAGAAACGATTATTGCCGGGGTCTCCGGAGGCCCTGATTCAATGGCGCTTCTCAGTATGCTGAATAAGCACTTCGGGCATTCCTCCGTTATCATAGCGGCGCATGTCGACCATCAGTTCAGGGGTCCTGAATCTGAAGAAGATATGAAGTTTGTGCAGTCATATTGCGAGGCTGAACACATCCTCTGTGAAACGGTACAGATTGATGTTTCTGCATACGCAAAGAAGAATAAGCTGAACAAGCAGGCTGCCGCGCGTGATTGCAGATATCAGTTTTTCGAAGATCTGATGACAAAACACCAAGCGAAGTTTTTGGCGCTGGCTCATCACGGCGATGACCAGGTTGAGACAATGCTCATGAGGCTTGCGAAAGGTACGCTCGGGGCAGGGCTTGCGGGAATGCAGCCCGTTCGCGAATTTGCATCCGGCTGGCTGATCAGGCCTTTCCTCTATACGGCAAAGGATGAAATCCTTGAATACTGCCGTCAAGAAGGGCTCAGCTACAGAACGGATGAGAGCAATGCAAAAGACGATTATACAAGAAACAGATTCAGAAAGACCGTGCTTCCTTTTTTAAAACAAGAATCACCTGACGTTCATAAAATGTTTCAAAAGGTGAGTGAAGCACTGACAGAAGACGAACAATACCTGCAGTCATTAACGAAAGAACGAATGAATAAGGTTATTACAAGCAAGTCTGACACATCGGTTGAAGTCAATTCCTCTCAATTGCTTGCCCTTCCGATACCTTTACAAAGAAGAGGAGTTCAACTAATATTAAACTATCTTTATGAAAACGTTCCATCGTCGTTTTCCGCCCGCCACATACAGCAGTTTCTCGAATGGGCGGAAAATGGAAGCGCCTCGGGAGTGCTTGATTTTCCGAAAGGGCTGAAGGTGGTCAAATCATATCAGACATGTTTGTTTACATTTGAACAATGGCAATGTGAAAAGGTTCCCTTTGAGCTGCAGCTGCAAGGAGCGGAAGGCGAGACTGCTGTTCTCCCCAACGGCTTTATGATAGAGGTGGCCGATCAGGCTGACCCTCATATCAAAAATGGGAATGCTGTTTTTATGACAAGCAGAAATAAGGTGCAATTTCCTTTAACAATCCGGACGAGAAAAATCGGCGATCGGATCAAACTTAAAGGGATGAATGGCTCGAAAAAGGTGAAAGATATATTTATTGATCATAAACTGCCTCTGCGGGATCGGGACGAATGGCCGATTGTAACGGATGCGAGCGGTGAAATTATCTGGCTGCCTGGCTTGAAAAAATCCATCTTTGACGATCTTGTGATTTCAAACAGTGACCGCATTGTATTACAATATAGACAGCATGAAAAGTGTAGGGGGCAAGCATTAACATGA	MKSVEDFFKTYHLQAEGETIIAGVSGGPDSMALLSMLNKHFGHSSVIIAAHVDHQFRGPESEEDMKFVQSYCEAEHILCETVQIDVSAYAKKNKLNKQAAARDCRYQFFEDLMTKHQAKFLALAHHGDDQVETMLMRLAKGTLGAGLAGMQPVREFASGWLIRPFLYTAKDEILEYCRQEGLSYRTDESNAKDDYTRNRFRKTVLPFLKQESPDVHKMFQKVSEALTEDEQYLQSLTKERMNKVITSKSDTSVEVNSSQLLALPIPLQRRGVQLILNYLYENVPSSFSARHIQQFLEWAENGSASGVLDFPKGLKVVKSYQTCLFTFEQWQCEKVPFELQLQGAEGETAVLPNGFMIEVADQADPHIKNGNAVFMTSRNKVQFPLTIRTRKIGDRIKLKGMNGSKKVKDIFIDHKLPLRDRDEWPIVTDASGEIIWLPGLKKSIFDDLVISNSDRIVLQYRQHEKCRGQALT				NA	NA	NA	NA	NA
D1-12_03925	540	hpt		Hypoxanthine-guanine phosphoribosyltransferase	ATGAAACAGGATATCGAAAAAGTGCTGATCTCAGAAGATGAGATCCAGCAGAAAGTAAAACAGCTTGGAGAACAATTAACAAGCGAGTACAGCGACACGTTTCCGTTGGCAATCGGTGTGTTAAAGGGAGCGCTTCCTTTTATGGCTGATCTTATAAAGCATATTGATACATATTTGGAAATGGACTTCATGGATGTATCAAGCTACGGAAATTCCACGGTTTCTTCCGGAGAAGTCAAAATCATCAAAGATTTGGATACATCTGTAGAAGGCCGGGACATCTTAATCATTGAAGATATTATCGACAGTGGGTTAACCTTGAGCTATCTCGTAGAACTCTTCCGATATCGTAAAGCGAAATCAATTAAGATTGTTACCCTGTTGGATAAACCAAGCGGAAGAAAAGCGGACATTAAAGCAGACTTCGTAGGCTTTGAAGTTCCTGACGCGTTTGTTGTGGGTTACGGACTTGATTATGCCGAACGCTATCGCAATCTGCCTTACATCGGAGTATTAAAACCGGCGATTTATGAAAGCTGA	MKQDIEKVLISEDEIQQKVKQLGEQLTSEYSDTFPLAIGVLKGALPFMADLIKHIDTYLEMDFMDVSSYGNSTVSSGEVKIIKDLDTSVEGRDILIIEDIIDSGLTLSYLVELFRYRKAKSIKIVTLLDKPSGRKADIKADFVGFEVPDAFVVGYGLDYAERYRNLPYIGVLKPAIYES	PGPT0007295_2791	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
D1-12_03926	1920	ftsH	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGAATCGGGTCTTCCGTAATACCATTTTTTATTTACTTATTTTATTAGTAGTAATCGGGGTTGTGAGTTACTTCCAGACTTCAAACCCGAAAACAGAAAATATGTCGTACAGTACGTTTATCAAGAACCTCGATGAGGGGAAAGTTGATAGCGTATCGGTTCAGCCTGTCAGAGGTGTTTATGAGGTAAAAGGACAGCTGAAAAAATACGACAAAGACCAGTACTTTTTAACACATGTTCCTGAAGGAAAAGGAGCAGACCAGATATTTGATGCAATTAAAAAGACGGACGTAAAAGTTGATCCCGCACAGGAAACAAGCGGGTGGGTGACGTTCTTAACGACGATCATTCCGTTTGTCATCATCTTTATTCTGTTTTTCTTCCTGCTCAATCAGGCTCAGGGCGGCGGCAGCCGTGTCATGAACTTCGGAAAGAGCAAAGCGAAGCTGTATACGGAAGAAAAGAAACGCGTGAAGTTTAAAGATGTAGCCGGCGCGGATGAGGAGAAGCAGGAGCTTGTTGAGGTTGTTGAGTTTCTGAAAGATCCTCGCAAATTCGCCGAGCTTGGCGCCAGAATCCCTAAAGGCGTGCTGTTGGTCGGACCTCCGGGAACCGGTAAGACGCTGCTTGCGAGAGCCTCAGCCGGTGAAGCGGGCGTTCCTTTCTTCAGCATCAGCGGATCTGACTTCGTTGAAATGTTTGTCGGTGTCGGTGCTTCCCGTGTGCGTGATTTATTCGAAAATGCGAAAAAGAATGCGCCTTGTCTGATCTTCATTGATGAGATCGACGCGGTGGGACGTCAGCGCGGCGCAGGTCTTGGCGGCGGGCATGATGAACGCGAACAGACGCTGAACCAGCTGCTTGTAGAGATGGACGGTTTCAGTGCGAATGAAGGAATCATTATTATCGCTGCGACAAACCGTGCGGACATTCTCGACCCTGCATTGCTTCGTCCGGGACGTTTTGACCGTCAGATTACGGTAGACCGTCCGGATGTCATCGGCCGTGAAGCCGTATTACAGGTCCATGCGAGAAACAAACCGCTTGATGAAACGGTGAACTTAAAAGCGATCGCTTCAAGAACACCCGGTTTCTCAGGCGCCGATTTAGAAAACCTTCTTAACGAAGCGGCACTTGTTGCTGCCCGTCAAAACAAGAAGAAAATTGATATGCGCGACATTGATGAAGCGACGGACCGTGTCATTGCGGGCCCTGCGAAGAAGAGCCGCGTCATATCGAAAAAAGAACGCAATATCGTGGCGTACCACGAGGGCGGTCACACCGTTATCGGACTTGTGCTGGATGAAGCCGATATGGTTCATAAAGTAACGATCGTTCCGAGGGGGCAGGCGGGCGGATACGCGGTCATGCTTCCGAGAGAAGACCGTTACTTCCAGACAAAACCTGAACTTCTCGATAAAATTGTCGGTCTTCTGGGCGGACGCGTTGCCGAGGAAATTATCTTCGGCGAAGTCAGCACGGGCGCTCACAATGACTTCCAGCGGGCAACGAACATTGCCAGAAGAATGGTGACAGAGTTCGGTATGTCAGAAAAACTCGGACCGCTTCAGTTCGGTCAATCTCAAGGCGGTCAAGTATTCCTGGGCCGGGATTTCAACAACGAGCAAAACTACAGTGATCAGATCGCTTACGAAATCGATCAGGAAATTCAGCGCATCATTAAAGAATGTTATGAGCGTGCGAAAACCATCCTGACTGAAAATCGCGATAAGCTTGAATTGATTGCTCAGACATTGCTTGATGTGGAAACATTAGATGCGGAACAAATCAAGCATCTCGTGGATCACGGAAAACTCCCTGAGCGCAATTTCTCAGATGACCATCTTCAAAAAGACGATGTGAAAGTAAACATCCTGTCTAAAACAGAAGACGAAAAGAAAGACGAGCCGAAAGAATAG	MNRVFRNTIFYLLILLVVIGVVSYFQTSNPKTENMSYSTFIKNLDEGKVDSVSVQPVRGVYEVKGQLKKYDKDQYFLTHVPEGKGADQIFDAIKKTDVKVDPAQETSGWVTFLTTIIPFVIIFILFFFLLNQAQGGGSRVMNFGKSKAKLYTEEKKRVKFKDVAGADEEKQELVEVVEFLKDPRKFAELGARIPKGVLLVGPPGTGKTLLARASAGEAGVPFFSISGSDFVEMFVGVGASRVRDLFENAKKNAPCLIFIDEIDAVGRQRGAGLGGGHDEREQTLNQLLVEMDGFSANEGIIIIAATNRADILDPALLRPGRFDRQITVDRPDVIGREAVLQVHARNKPLDETVNLKAIASRTPGFSGADLENLLNEAALVAARQNKKKIDMRDIDEATDRVIAGPAKKSRVISKKERNIVAYHEGGHTVIGLVLDEADMVHKVTIVPRGQAGGYAVMLPREDRYFQTKPELLDKIVGLLGGRVAEEIIFGEVSTGAHNDFQRATNIARRMVTEFGMSEKLGPLQFGQSQGGQVFLGRDFNNEQNYSDQIAYEIDQEIQRIIKECYERAKTILTENRDKLELIAQTLLDVETLDAEQIKHLVDHGKLPERNFSDDHLQKDDVKVNILSKTEDEKKDEPKE				NA	NA	NA	NA	NA
D1-12_03927	741	coaX	COG1521	Type III pantothenate kinase	GTGATTGGTGTATATCATGATGGGGAATTAGAATATCATTGGCGCATAGAAACGAGCAGGCACAAAACAGAAGACGAATTCGGCATGCTGCTCCGCTCCTTATTTGAACATTCCGGACTCATGTTTGAACAGATTGAAGGGATTATCATCTCATCCGTGGTGCCGCCGATTATGTTCTCTTTAGAAAGAATGTGCACAAAATACTTTCACATCGAGCCGCAAGTTGTCGGCCCGGGAATGAAAACAGGTTTAAATATAAAGTATGACAATCCGAAAGAAGTGGGAGCTGACAGGATCGTCAATGCCGTTGCGGCGATCCAGCAGTATGGCGGCCCCTTAATTGTTGTTGATTTCGGAACGGCGACGACGTATTGCTACATTGATGAAAACAAACAATACATGGGCGGCGCGATTGCTCCCGGCATTACGATTTCGACGGAAGCGCTGTACTCACGTGCGGCGAAGCTTCCGAGAATTGAAATTGCCCGTCCGGACAATATCATCGGCAAAAACACGGTAAGCGCCATGCAGTCCGGCATCCTTTTCGGCTATGTCGGACAAGTTGAAGGTATAGTGAAGCGGATGAAATGGCAGGCAACACAGGAACCGAAAGTCATTGCGACAGGCGGGCTTGCGTCATTAATCGCAAACGAATCAGACTGTATTGATATTGTTGACCCGTTTCTCACTCTGAAAGGGCTGGAAATCATTTATGAGCGAAATCGTGTGGGTCACGTATAG	MIGVYHDGELEYHWRIETSRHKTEDEFGMLLRSLFEHSGLMFEQIEGIIISSVVPPIMFSLERMCTKYFHIEPQVVGPGMKTGLNIKYDNPKEVGADRIVNAVAAIQQYGGPLIVVDFGTATTYCYIDENKQYMGGAIAPGITISTEALYSRAAKLPRIEIARPDNIIGKNTVSAMQSGILFGYVGQVEGIVKRMKWQATQEPKVIATGGLASLIANESDCIDIVDPFLTLKGLEIIYERNRVGHV	PGPT0008780_2524	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
D1-12_03928	876	hslO	COG1281	33 kDa chaperonin	ATGGATTATTTAATTAAAGCAATTGCATATGACGGTAAAGTGCGGGCTTATGCAGCCAGAACGACAGATATGGTTAATGAAGCGCAAAGAAGGCATGACACGTGGCCGACGGCATCAGCCGCAATCGGCCGGACGATGACAGCTTCTCTGATGCTCGGAGCGATGCTTAAGGGTGAAGATAAGCTGACAGTCAAAATAGAAGGCGGCGGCCCGATCGGAGCCATTGTCGCAGATGCGAACGCAAAGGGTGAGGTAAGAGCATACGTATCAAACCCGCACGTTCATTTTGACCTCAATGAACAAGGGAAACTGGATGTCAGACGGGCGGTCGGAACTGACGGAACACTCAGTGTCGTAAAAGATTTGGGCTTGCGTGATTATTTTACGGGACAAGTAGAGATTGTCTCGGGTGAACTCGGTGACGACTTCACGTATTACCTTGTTTCTTCTGAACAAGTCCCTTCATCTGTCGGCGTAGGTGTTCTAGTAAATCCTGATAACACGATTCTCGCTGCGGGCGGGTTCATCATTCAGCTTCTTCCGGGGACTGATGAAGAAACCATTTCAACAATTGAGAAGCAATTATCTCAAATCGAACCGATTTCAAAATTGATTCAAAAAGGCCTGACACCGGAAGAAATCTTAGAAGAAGTTCTGGGTCAAAAACCGGACGTTCTCGAAACAATGCCGGTCAAATTTCACTGTTCTTGTTCAAAAGATCGATTCGAAACGGCCATTTTAGGACTAGGCAAAAAAGAAATACAAGATATGATAGAAGAAGACGGAAAAGCCGAAGCGGTTTGCCATTTTTGTAATGAGAAATATTTATTTACAAAAGAAGAACTGGAAGAGCTTCGTGACGAAACAACCCGCTAG	MDYLIKAIAYDGKVRAYAARTTDMVNEAQRRHDTWPTASAAIGRTMTASLMLGAMLKGEDKLTVKIEGGGPIGAIVADANAKGEVRAYVSNPHVHFDLNEQGKLDVRRAVGTDGTLSVVKDLGLRDYFTGQVEIVSGELGDDFTYYLVSSEQVPSSVGVGVLVNPDNTILAAGGFIIQLLPGTDEETISTIEKQLSQIEPISKLIQKGLTPEEILEEVLGQKPDVLETMPVKFHCSCSKDRFETAILGLGKKEIQDMIEEDGKAEAVCHFCNEKYLFTKEELEELRDETTR	PGPT0014645_2385	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
D1-12_03929	891	prsA2	COG0760	Foldase protein PrsA 2	TTGAAATCGAGAACACTTTTGACGATTATTGTAGCGGCGCTGTTAGTATGCAGTGTGACAGTGGCGTATAAGTTAACAAAATCCCAAGCCGCGGGGTCATCTGAAGAATCCATCGCGACAATCGGTGATAAACATATCACACGGCAAGACTGGATGAAAAAGATGGAAGACCAGTACGGAAAATCAACTCTGGAAGACATGATTAATGCACAAGTAGTGGAAGAGCTTGCGAAAAAGAATAAACTCACAGTTTCAAACAGCGAATTGGAGCGGGAGTTTCTTTTAATCAAAGCGGTGAATAATTCATTTTATGAAGACAGCCATATTACCGAAAAAGAATGGAAAGACCAGATCCGCTACAACATTCTTCTTGAAGAACTGCTGACGAAGGACATCGATATATCGGATAAGGAAATGCAATCATTTTATAATAAAAATAAAGAATTATACCATTTCGATGATTCCTACAGAATCCGGCACATCGTCGTCAAAAACAAAGAAGAGGCGGACAGGGTGCTTGCTGATTTGAAAGGCGGTTCCAGCTTTGAAGCAGTCGCCGCTGAGCGTTCCACGGACAGATACACGTCTCAGTATGGCGGAGACCTTGGCTTTGTGACAGAAAACCAGGAAAATATCCCGCAGGCATATATCACAGAAGCTAAAAATCTTAAAGAAGATGAATGGTCCGCTGAACCGATTAAAGTTTCCTCAAGATACGCCGTCATTCAGCTGAAAGAAAAGCTTAAAGCGAGGACTTTCTCATACAATGAAGTGAAGAGCCAAATCAGACGCCAGATCGCGATGGATCAATTAGGTGACAAGGCGACAGTCAAAACGCTGTGGAAAGAGGCGGGGGTCTCTTGGTTCTACGGGGAAAAAAGAACTAAATGA	MKSRTLLTIIVAALLVCSVTVAYKLTKSQAAGSSEESIATIGDKHITRQDWMKKMEDQYGKSTLEDMINAQVVEELAKKNKLTVSNSELEREFLLIKAVNNSFYEDSHITEKEWKDQIRYNILLEELLTKDIDISDKEMQSFYNKNKELYHFDDSYRIRHIVVKNKEEADRVLADLKGGSSFEAVAAERSTDRYTSQYGGDLGFVTENQENIPQAYITEAKNLKEDEWSAEPIKVSSRYAVIQLKEKLKARTFSYNEVKSQIRRQIAMDQLGDKATVKTLWKEAGVSWFYGEKRTK				NA	NA	NA	NA	NA
D1-12_03930	927	cysK_2	COG0031	Cysteine synthase	ATGGTGCGTATTGCAAATTCTATTACTGAACTAATCGGAAATACTCCTATTGTGAAATTGAATCGCCTGACGGATGAAAACAGTGCAGATGTATATCTGAAGCTTGAATACATGAATCCGGGCAGCAGCGTAAAAGACCGGATCGGAGTGGCGATGATTGAAGCGGCTGAAAAAGAAGGAAAATTAAAAGCCGGCGACACAATCATTGAACCGACAAGCGGAAATACAGGGATCGGTCTTGCAATGGTGGCAGCGGCTAAAGGTCTCAGAGCCATTCTCGTTATGCCTGATACAATGAGTATGGAACGACGCAATCTGCTGCGCGCATACGGAGCGGAGCTTGTGCTGACTCCCGGCGCAGAAGGAATGAAGGGCGCCATTAAAAAGGCGGAAGAACTTGCGGAGGAACACGGATACTTTGTGCCTCAGCAATTCAACAATGCGGCAAACCCGGAAATTCACCGCCAAACGACGGGGAAAGAAATCGTAGAACAGTTTGGTGACGACCAGCTTGATGCGTTCGTGGCCGGAATCGGTACCGGCGGAACCATCACGGGAGCGGGCGAAGTGCTGAAAGAAGCATATCCATCCATCAAAATCTATGCGGTAGAGCCGGCGGATTCTCCAGTTCTTTCCGGCGGAAAACCGGGCCCGCATAAAATTCAGGGTATCGGAGCGGGATTTGTCCCTGAAACATTGAATACGGACATCTATGATCAGATCATTCCCGTCAAAAACGAGGATGCATTTGAATATGCCCGTAAAACGGCAAAAGAAGAAGGGATTCTCGGCGGCATTTCTTCCGGAGCGGCCATTTACGCGGCACTGGAAATCGCGAAAAAACTGGGGAAAGGCAAGAAAGTGCTTGCGATCATCCCTAGTAACGGAGAACGTTACTTAAGCACACCGCTTTATCAGTTTGAATAG	MVRIANSITELIGNTPIVKLNRLTDENSADVYLKLEYMNPGSSVKDRIGVAMIEAAEKEGKLKAGDTIIEPTSGNTGIGLAMVAAAKGLRAILVMPDTMSMERRNLLRAYGAELVLTPGAEGMKGAIKKAEELAEEHGYFVPQQFNNAANPEIHRQTTGKEIVEQFGDDQLDAFVAGIGTGGTITGAGEVLKEAYPSIKIYAVEPADSPVLSGGKPGPHKIQGIGAGFVPETLNTDIYDQIIPVKNEDAFEYARKTAKEEGILGGISSGAAIYAALEIAKKLGKGKKVLAIIPSNGERYLSTPLYQFE	PGPT0002810_6246	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
D1-12_03931	1425	pabB	COG0147	Aminodeoxychorismate synthase component 1	ATGATGGCACAACGCAGACCGGCAGGAAGAAAAATACCTTTTACGAAACAAGCATTTTTACAGCGATATGAAAACCTTTCGAAATCGAGAAAACGGCATGTTCTGCTCGAAAGCGCGAGAGGGGGAAGATTCAGTATAGCCGGTCTAGATCCGATTGCGTCCGTCAGAGGGAAAGACGGAATTACAACGATCAAGCATGAGGGGGAAACACTGTTTAAAGAAGGTGACCCGCTGCGGGCCTTTCATGAATGGTTTGGAACGCTCGGAACGGAAACAAACGTTGAGTTTCCGGACTTTCAGGGCGGTGCGATTGGTTTTATCAGTTACGACTACGCCCGATATATTGAGAATTTTAAGATGCTGTCGTTAGATGATCTGGAAACACCTGATATTTACTTTCTTGTTTTTGATGATGTGGCCGTTTATGACCATGAGGAAGAGGCGTTATGGCTCATTACCCATACTGAAGCGGAAGAAGCGGATCTTGCGGAAGAAAAGCTGTCCGGCTTAGAGGACATGTGGTGTTCCCTCCAAACGGCGGACGAGCCTTTTTCACCGCTGGATCGGAATGGGGACGGATCGTACGCCGCTCCGTTCACTGAAGAAGGATTTTCGCAGGCTGTAGAACAAATTAAACAATATATCGCGAGCGGCGATGTGTTCCAGGTTAATTTGTCCATCAGGCAGTCTCAGTCCTTATCCGTTCATCCGTATGAGGTGTATAAACACTTGAGAAACGTCAATCCGTCTCCTTACATGGCCTATCTCGAGACACCGGGGTTTCAAGTGATATGCGGGTCGCCGGAGCTATTGGTGACAAAGAAGGGGAAGAAGCTTGAAACGAGACCGATCGCGGGTACGCGTTCAAGAGGAAAAGACGATGCTGAAGACAAGGCTTTGGCTGACGAATTAATTCACAATGAAAAAGAACGTGCGGAACACGTCATGCTTGTTGATCTTGAGCGCAATGACCTCGGGCGCGTATCGCGCTACGGCTCCGTGCGCGTTAACGAATTTATGGCGATCGAAAAGTATTCCCACGTCATGCATATCGTGTCAAACGTACAGGGAGAGCTGCAGGACGGATATGACGCGACAGACATTATTCATGCGGTGTTCCCGGGGGGCACCATCACGGGAGCGCCCAAAGTGAGAACGATGGAAATTATAGAAGAGCTTGAGCCGACAAGACGGGGGCTTTATACTGGATCTATAGGCTGGTTCGGATTCAACGGAGATTTGCAGTTTAACATTGTGATCCGGACGATCTATGCAGCCGGCGGACATGCTTTTATGCAGTCCGGAGCAGGAGTGGTCATTGATTCGGTTCCGAAGCATGAATACAAGGAATCGTTCAAAAAAGCTTTTGCGATGAAAAAGGCGTTAGAGCTGAGCGAAGAAGAGACAAAAAATCAGACGAGGTGA	MMAQRRPAGRKIPFTKQAFLQRYENLSKSRKRHVLLESARGGRFSIAGLDPIASVRGKDGITTIKHEGETLFKEGDPLRAFHEWFGTLGTETNVEFPDFQGGAIGFISYDYARYIENFKMLSLDDLETPDIYFLVFDDVAVYDHEEEALWLITHTEAEEADLAEEKLSGLEDMWCSLQTADEPFSPLDRNGDGSYAAPFTEEGFSQAVEQIKQYIASGDVFQVNLSIRQSQSLSVHPYEVYKHLRNVNPSPYMAYLETPGFQVICGSPELLVTKKGKKLETRPIAGTRSRGKDDAEDKALADELIHNEKERAEHVMLVDLERNDLGRVSRYGSVRVNEFMAIEKYSHVMHIVSNVQGELQDGYDATDIIHAVFPGGTITGAPKVRTMEIIEELEPTRRGLYTGSIGWFGFNGDLQFNIVIRTIYAAGGHAFMQSGAGVVIDSVPKHEYKESFKKAFAMKKALELSEEETKNQTR	PGPT0008005_337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
D1-12_03932	588	pabA	COG0512	Aminodeoxychorismate/anthranilate synthase component 2	ATGATTTTAATGATTGACAATTATGATTCATTTACGTACAACTTGGTTCAATATTTGGGTGAGCTCGGGGAGGAACTGATCGTCAGACGGAATGACGAGATTACGATTGAGCAGATTGAAGAGCTGGGTCCGGACTTCTTAATGATTTCACCCGGGCCGTGCAGTCCTGATGAAGCGGGGATCAGCCTCGAAGCCATCAAACATTTTGCCGGCAGTATTCCTATTTTCGGCGTATGTCTCGGGCATCAGTCGATTGCGCAAGTATTCGGCGGCGATGTCGTCAGAGCAGAGCGGCTCATGCACGGCAAAACGTCAGAAGTTATGCATGACGGACAGACGATTTTTAAAGGCCTGCAAAATCCGCTGGTCGCCACCCGGTACCATTCACTTATTGTCAAAGCGGACACGCTGCCGGATTGTTTTACGGTATCCGCTCAAACCAAAGAAGGAGAAATTATGGCAATCCGCCATAATGAGCTGCCTGTTGAAGGTGTTCAGTTCCATCCGGAATCCATCATGACCTCCTTCGGCAAAGAGATGCTCAGAAACTTTATTGAGACACACCGCAAGAAGGAAGTGACGGTGTGA	MILMIDNYDSFTYNLVQYLGELGEELIVRRNDEITIEQIEELGPDFLMISPGPCSPDEAGISLEAIKHFAGSIPIFGVCLGHQSIAQVFGGDVVRAERLMHGKTSEVMHDGQTIFKGLQNPLVATRYHSLIVKADTLPDCFTVSAQTKEGEIMAIRHNELPVEGVQFHPESIMTSFGKEMLRNFIETHRKKEVTV	PGPT0008000_910	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
D1-12_03933	885	dat_2		D-alanine aminotransferase	GTGATTATATATTTGAATGGTCAATATATAGAGGAGAAAGAAGCGGCGCTTTCTCCTTTTGACCATGGTTATCTGTACGGGATCGGCGCGTTCGAGACGTTCAGGCTTTACAACGGCCGGCCGTTTTTGCCGGATGCGCATGTCGCCAGGCTCAACAGGGCGCTTCGGGATTTGCAGATTGCGTACGAGGTGAATAAACAGGAGCTGCTTGATATGCTTGCAAGCCTGTTGCTCCTCAATGACATCAATGACGGCAGCGCGCGTGTCCGGCTTAACGTATCGGCAGGCGTCAGCGATAAAGGATTTACCGCCCAGACTTATGAAAAGCCGACCGTCCTTTGTTTCGTCAGCCGGCTTAATCCGGAAGCTTTGCCTCTTGAAAAAGAAGGCAAACTTCTCTCTGTCCGGAGAAATACGCCTGAAGGATCTTTTCGGTTAAAATCCCATCACTATTTAAACAATATGTATGCTAAACAAGAAATCGGCAATGATCCGAATCTTGAAGGGATTTTCCTGACCCGAGAAGGAGATGTTGCGGAAGGCATTGTCTCCAATGTGTTTTGGCGAAAAGGAGACAAGGTCTTTACGCCATCTTTGGATACGGGAATTCTCGACGGCGTAACGAGACAGTTTGTCATTGATGAATTGAAACGGCAGGGGACAGAAGTCACTGAAGGCCGATTCCGTTTTCAATCAATGCTTGAAGCGGATGAAGCATGGATGACAAACTCCGTGCTTGAAATCATCCCGTTTTCTAAAATAGAGGAAGTGCCGCTGCCCGGAATGAGCGGGAAAACGGTGCAATTGCTCCGTAAGCAGTATCAGCAGGAAATAAACAAAATGAATGTACAGGAGGAGGAACAAAATGGCGCAGCAAACAATTGA	MIIYLNGQYIEEKEAALSPFDHGYLYGIGAFETFRLYNGRPFLPDAHVARLNRALRDLQIAYEVNKQELLDMLASLLLLNDINDGSARVRLNVSAGVSDKGFTAQTYEKPTVLCFVSRLNPEALPLEKEGKLLSVRRNTPEGSFRLKSHHYLNNMYAKQEIGNDPNLEGIFLTREGDVAEGIVSNVFWRKGDKVFTPSLDTGILDGVTRQFVIDELKRQGTEVTEGRFRFQSMLEADEAWMTNSVLEIIPFSKIEEVPLPGMSGKTVQLLRKQYQQEINKMNVQEEEQNGAANN	PGPT0008020_336	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
D1-12_03934	858	folP		Dihydropteroate synthase	ATGGCGCAGCAAACAATTGAACAGCCTAAACTGATTCATACAAAAAAAGGCGCTCTGTCCTATAAAGAGAAGACGCTCGTTATGGGGATATTAAATGTAACGCCAGACTCCTTCTCTGACGGTGGCAAATACGACAGTACGGAAAGGGCGCTTCTGCGTGCGGTGAAGATGGCTGAAGAAGGGGCGCATATTATAGATATCGGCGGTGAATCGACAAGACCCGGCGCATCACTCGTGTCGGCTGATGAGGAAATGTCACGAGTCATCCCCGTCATAGAACGGATTACAAGCGAGCTGGACATTCCGCTTTCAATCGATACGTACAAAGCGTCCGTGGCAGACGAAGCGGTCAAAGCGGGAGCCTCTATCCTTAATGACATCTGGGGGGCGAAAGGTGACCCTGACATGGCGTCAGTAGCCGCCGCACACGGGGTTCCGATTATCTTAATGCATAATCGTATGGAAAGAAACTACAACGATCTTATTCCTGATATGCTTGCAGACCTGATGGAAAGCGTAAAAATTGCCGCAGAAGCCGGCGTCACAGATGAAAACATGATTCTGGATCCGGGGATCGGCTTTGCGAAAAACTATGAGGACAATCTGGCTGTCATGAACAAGCTGGAGGTGTTCAGCGGGTTAGGTTATCCGCTGCTCCTGGCGACATCGAGAAAAAGGTTCATCGGCCGTGTACTTGACCTTCCCCCTGAAGAACGTGCTGAGGGAACGGGAGCGACAGTATGCCTTGGCGTCCAGAAAGGCTGCGACATTGTGAGGGTGCACGATGTCAAAGAGATCGCAAGAATGACTAAGATGATGGATGCTATGCTGAACAAAGGAGGCGCACATTATGGATAA	MAQQTIEQPKLIHTKKGALSYKEKTLVMGILNVTPDSFSDGGKYDSTERALLRAVKMAEEGAHIIDIGGESTRPGASLVSADEEMSRVIPVIERITSELDIPLSIDTYKASVADEAVKAGASILNDIWGAKGDPDMASVAAAHGVPIILMHNRMERNYNDLIPDMLADLMESVKIAAEAGVTDENMILDPGIGFAKNYEDNLAVMNKLEVFSGLGYPLLLATSRKRFIGRVLDLPPEERAEGTGATVCLGVQKGCDIVRVHDVKEIARMTKMMDAMLNKGGAHYG	PGPT0007915_2329	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
D1-12_03935	363	folB	COG1539	Dihydroneopterin aldolase	ATGGATAAAGTATATGTGGAAGGTATGGAGTTTTACGGATATCACGGCGTGTTCGAAGAAGAAAACAAACTCGGCCAGCGCTTCAAAGTAGACCTGACTGCCGAACTGGATTTGAGCAAAGCGGGAAAAACGGATGACCTTTCTTATACCATTAACTATGCGGAATTGTACAGTGTCTGCCGCGGCATCGTTGAGGGCGAGCCCGTTAATTTGGTCGAGACCCTTGCGGAACGAATCGCAGACACCGTCCTTAAGAAATTTGAGCCGGTGCAGCAATGTACGGTAAAGCTTGTTAAGCCTGACCCGCCGATTCCCGGCCATTATAAATCAGTAGCTATAGAAATGACGAGAAAGAAATCATGA	MDKVYVEGMEFYGYHGVFEEENKLGQRFKVDLTAELDLSKAGKTDDLSYTINYAELYSVCRGIVEGEPVNLVETLAERIADTVLKKFEPVQQCTVKLVKPDPPIPGHYKSVAIEMTRKKS	PGPT0007905_2205	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
D1-12_03936	504	sulD	COG0801	Bifunctional folate synthesis protein	ATGAACAATACGGCATATATCGGCCTCGGTTCCAATATGGGCGACCGTGAACATTATTTGCGTCAGGCAGTGGCCATGCTCAGCCGGCATCATGGCGTGACGGTGTCAAAGGTGTCCTCCATATATGAAACAGATCCCGTCGGCTATGAGGATCAAGATCAGTTTCTCAATATGGCGGTTGAAGTGAAAACGTCGTTATCTCCTTTTGAACTTCTTGATGTAACGCAGAGCATTGAAGCTGAATTAGGCAGAACGAGAGAGATTCGCTGGGGACCGCGGACGGCAGACCTTGACATTTTGCTGTATAATCGTGAAAATATTGAAACAGAGCGGCTGATTGTTCCGCATCCGAGAATGTATGAGCGCTTATTTGTCCTTGCGCCGTTAAAAGAAATATGTCCGCAGGCGGATCATATCACGATAAGCGCTGAAACAAACCAAGAAGGTGTAAGAGTATGGAAGCAGAAATCTGGGGTAGGCGAATTCGTGCATTCAGAAAGCTGA	MNNTAYIGLGSNMGDREHYLRQAVAMLSRHHGVTVSKVSSIYETDPVGYEDQDQFLNMAVEVKTSLSPFELLDVTQSIEAELGRTREIRWGPRTADLDILLYNRENIETERLIVPHPRMYERLFVLAPLKEICPQADHITISAETNQEGVRVWKQKSGVGEFVHSES	PGPT0007910_2075	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
D1-12_03937	210			hypothetical protein	ATGGAAGCAGAAATCTGGGGTAGGCGAATTCGTGCATTCAGAAAGCTGAAAGGTTATACTCAAGAAGGATTTGCAAAAGCATTAGGTATATCAGTTTCTATTGTCGGTGAAATTGAACGCGGAAACCGATTGCCGTCAGATGCCATCATTCAAGATGCGGCAGATGTTTTAAATATAAGTGCGGACGAATTGGCCCCGCCTGAAAAATAG	MEAEIWGRRIRAFRKLKGYTQEGFAKALGISVSIVGEIERGNRLPSDAIIQDAADVLNISADELAPPEK				NA	NA	NA	NA	NA
D1-12_03938	1002	dusB	COG0042	tRNA-dihydrouridine synthase B	ATGTTTAAAATCGGTGATATTCAATTGAAAAACCGGGTTGTGCTTGCCCCTATGGCCGGTGTCTGCAACTCAGCGTTCAGATTGACTGTAAAGGAATTCGGAGCCGGATTGGTATGCGCTGAAATGGTCAGTGACAAAGCGATCCTTTACAACAACGCAAGAACAATGGGGATGCTTTACATTGATGAACGTGAAAAACCGCTCAGCCTTCAGATTTTTGGAGGAAAAAAGGAAACCCTTGTGGAAGCGGCGAAGTTTGTAGATCAAAACACGACTGCTGATATTATTGATATTAACATGGGATGTCCCGTACCAAAGATTACAAAATGTGATGCGGGCGCCAAATGGCTTCTCGATCCTGATAAGATTTATGAAATGGTATCCGCAGTAGTAGATGCTGTTGATAAGCCGGTTACAGTGAAGATGAGAATGGGTTGGGATGAAGATCACATTTATGCGGTGAAAAACGCCCAAGCCGTTGAACGTGCCGGCGGAAAAGCCGTTGCCCTTCACGGCCGCACAAGAGTGCAAATGTATGAAGGCACTGCGAACTGGAATATCATTAAAGAAGTGAAGCAATCCGTCTCCATTCCCGTCATCGGAAACGGTGATGTCAAAACGCCTCAGGACGCGAAACGCATGCTTGAGGAAACAGGAGTTGACGGCGTCATGATCGGCCGGGCCGCACTCGGCAACCCGTGGATGATTTACCGTACGGTGCAGTACCTTGAAACCGGTGAGTTAAAAGACGAGCCGAAAGTCCGTGAAAAAATGTCGGTATGCAAATTGCACTTAGACCGCCTGATTAAGTTAAAAGGCGAAAATGTGGCAGTCAGAGAAATGAGAAAACACGCTGCCTGGTATCTGAAAGGTGTCAGAGGCAATGCGAATGTACGCAATGAAATTAACCAATGTGAGACGCGTGAAGAATTTGTGCAGCTTTTAGATGCATTTACCGCCGAAGCAGAGGCAAAAGAGCTTCAAGATGCAAAAGTAGGTTAA	MFKIGDIQLKNRVVLAPMAGVCNSAFRLTVKEFGAGLVCAEMVSDKAILYNNARTMGMLYIDEREKPLSLQIFGGKKETLVEAAKFVDQNTTADIIDINMGCPVPKITKCDAGAKWLLDPDKIYEMVSAVVDAVDKPVTVKMRMGWDEDHIYAVKNAQAVERAGGKAVALHGRTRVQMYEGTANWNIIKEVKQSVSIPVIGNGDVKTPQDAKRMLEETGVDGVMIGRAALGNPWMIYRTVQYLETGELKDEPKVREKMSVCKLHLDRLIKLKGENVAVREMRKHAAWYLKGVRGNANVRNEINQCETREEFVQLLDAFTAEAEAKELQDAKVG				NA	NA	NA	NA	NA
D1-12_03939	1500	lysS		Lysine--tRNA ligase	ATGAGTCAAGAAGAGCAAAATCATGAGGAATTGAACGACCAGCTACAAGTCAGACGAGATAAAATGAACCAGCTGAGAGAAAACGGCATTGACCCTTTCGGCGAACGTTTCGAGAGAACGCATCAATCTCAACAAATCATTGAAGCCTACCAGGAGCTTTCTAAAGAAGAACTGGAAGAAAAAGCGATCGAAGTGACCATTGCAGGCCGTATGATGACAAAGCGCGGAAAAGGGAAAGCCGGCTTTGCGCATCTGCAGGACTTAGAAGGTCAAATTCAAATTTACGTAAGAAAAGACAGTGTCGGCGAAGAACAATATGAAATCTTTAAATCTTCAGACCTCGGAGACGTTATCGGCATCACCGGGAAAGTTTTCAAAACAAACGTAGGCGAGCTTTCTGTCAAAGCGACATCTTTTGAACTGCTGACAAAAGCACTGCGTCCTCTTCCTGATAAATATCATGGGTTAAAAGATGTTGAACAGCGTTACCGCCAGCGCTATCTCGATCTCATCGTAAACCCTGACAGCAAACAAACGTTTATCACACGCAGCAAAATCATCCAAGCGATGAGAAGATACTTAGATGACCATGGATACTTAGAAGTTGAAACACCTACGATGCACAGCATACCGGGAGGAGCGTCTGCACGCCCGTTCATCACGCACCATAACGCGCTAGACATGCCTCTTTATATGCGTATTGCGATTGAACTGCACCTGAAACGCCTGATTGTCGGCGGATTGGAAAAAGTCTACGAAATCGGCCGCGTGTTCCGTAACGAAGGTGTTTCTACACGCCATAACCCTGAATTCACGATGATCGAGCTGTATGAAGCGTACGCCGATTATAAAGATATTATGAGTCTTACGGAAAACCTCGTAGCACATATTGCGCAGGAAGTGCTTGGAAGCACCACAATCCAGTACGGCGAAGAGCAGATTGATCTGAAACCTGAGTGGAAACGACTCCACATGGTAGATGCGGTCAAAGAAGCGACAGGCGTAGATTTCTGGAATGAGATGACTGTTGAAGAAGCGCGCGGTCATGCAAAAGAGCATGGTATCGAGATCACAAACTCAATGACGGTGGGTCATATCATCAATGAATTCTTCGAACAAAAAATTGAAGAAACACTCATTCAGCCTACATTTATTTACGGCCACCCTGTAGAGATTTCTCCTCTTGCTAAGAAAAATCCGGAGGACCCTCGCTTTACAGACCGTTTTGAGCTGTTTATCGTCGGCCGTGAGCACGCTAATGCGTTTACGGAGCTGAATGACCCTATTGACCAGAGGGAACGCTTTGAAGCGCAATTAAAAGAAAGAGAAGAAGGAAACGATGAAGCGCATATGATGGATGAAGACTTCGTTGAAGCTCTTGAATACGGCATGCCGCCGACCGGGGGATTGGGTATCGGTATCGACCGCCTTGTCATGCTGTTAACAAATGCTCCGTCTATCAGAGACGTTTTATTATTCCCTCAAATGAGACAACGCTAA	MSQEEQNHEELNDQLQVRRDKMNQLRENGIDPFGERFERTHQSQQIIEAYQELSKEELEEKAIEVTIAGRMMTKRGKGKAGFAHLQDLEGQIQIYVRKDSVGEEQYEIFKSSDLGDVIGITGKVFKTNVGELSVKATSFELLTKALRPLPDKYHGLKDVEQRYRQRYLDLIVNPDSKQTFITRSKIIQAMRRYLDDHGYLEVETPTMHSIPGGASARPFITHHNALDMPLYMRIAIELHLKRLIVGGLEKVYEIGRVFRNEGVSTRHNPEFTMIELYEAYADYKDIMSLTENLVAHIAQEVLGSTTIQYGEEQIDLKPEWKRLHMVDAVKEATGVDFWNEMTVEEARGHAKEHGIEITNSMTVGHIINEFFEQKIEETLIQPTFIYGHPVEISPLAKKNPEDPRFTDRFELFIVGREHANAFTELNDPIDQRERFEAQLKEREEGNDEAHMMDEDFVEALEYGMPPTGGLGIGIDRLVMLLTNAPSIRDVLLFPQMRQR	PGPT0012225_4454	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
D1-12_03940	1185	mdrP_2		Na(+), Li(+), K(+)/H(+) antiporter	ATGCCGCGCGCTTTGAAGATATTAATCATCGGAATGTTTATCAATGTGACGGGCGCATCTTTTTTGTGGCCGCTGAATACGATCTATATTCATAATCATTTAGGGAAATCGCTGACTGTTGCGGGGATTGTTCTGATGCTGAATTCCGGTGCCAGTGTGGCGGGGAATTTATGCGGCGGATTTTTGTTTGATAAAATCGGCGGATTCAAATCCATTATGCTCGGCATTATGATCACATTGGCAAGTCTTCTCGGACTCGTTCTGTTTCACCAATGGCCTGTTTATATTTGGCTGCTCATCATTGTCGGCTTCGGTTCCGGTATCGTGTTTCCGGCCAGTTACGCCATGGCGGGAGCGGTATGGAAAGAAGGCGGGCGGAGAGCTTTTAATGCGATTTATGTAGCTCAGAACGCAGGTGTCGCCGTCGGCTCGGCACTCGGCGGGATGGTTGCGGCGTACTCGTTTACGTACGTGTTTTTAGCCAATGCTATGCTGTATGTGCTGTTTTTCCTTATCGTATTTTTCGGGTTTCGAAATATCAAAACCGGAAATGCGAGCCAGGTTTCTGTCCTGGACTACGAGCCTGTCAGCAGCAGAACGAAATTTACGGCGCTTCTCATATTGAGCGGCGGGTATGTTCTCGGGTGGATTGCCTATTCGCAGTGGTCCACAACCGTTGCGTCACATACTCAAAGCATCGGTATGCCGCTTTCATTATACAGTGTGCTCTGGACCGTAAACGGAATATTAATTGTCGCCGGACAGCCTCTCATAGGAGCGGTTCTGAAAAAATGGTCCGGTGCGTTAAAAACGCAGATGGTCATCGGCTTTTGTATTTTTATCGTCTCGTTCGGCGTGCTTCTCAGCGCCAAGCAATTTCCGATGTACCTCACCGCAATGGTGATTTTAACCGTCGGAGAAATGCTTGTCTGGCCTGCCGTTCCTACCATTGCCAATCAGCTTGCGCCTAAGGGGAAAGAAGGGTTTTACCAAGGATTCGTCAACAGTGCGGCGACGGGCGGCAGAATGATCGGGCCGCTCCTTGGCGGCGTGCTAGTCGATCAGTACGGAATGAGCGTGCTGCTGTTGATCCTGATGGTGCTTCTTGTTGTCAGCATCGCAGCGACGGTGCTGTACGACAAACGCCTGAAAACCGTTAATAAACAAAACGTCCAAGTGCGATGA	MPRALKILIIGMFINVTGASFLWPLNTIYIHNHLGKSLTVAGIVLMLNSGASVAGNLCGGFLFDKIGGFKSIMLGIMITLASLLGLVLFHQWPVYIWLLIIVGFGSGIVFPASYAMAGAVWKEGGRRAFNAIYVAQNAGVAVGSALGGMVAAYSFTYVFLANAMLYVLFFLIVFFGFRNIKTGNASQVSVLDYEPVSSRTKFTALLILSGGYVLGWIAYSQWSTTVASHTQSIGMPLSLYSVLWTVNGILIVAGQPLIGAVLKKWSGALKTQMVIGFCIFIVSFGVLLSAKQFPMYLTAMVILTVGEMLVWPAVPTIANQLAPKGKEGFYQGFVNSAATGGRMIGPLLGGVLVDQYGMSVLLLILMVLLVVSIAATVLYDKRLKTVNKQNVQVR				NA	NA	NA	NA	NA
D1-12_03941	720			hypothetical protein	ATGCAGAAGTATTTTCAATTGAAATCTGAAACAGGAGCCTTTCATCTTTTTTCCAAGGAACACATTTTCACGCTGTTGATCATCGGATTGCTGGGGGCGGGCGTGATCGTATTCCGGAAAAAGCTCAACCAGAGGTGGCCGAATCGCGTTTTCCGATATGTGCTGTTCATTCTTCTTGCCGTGTCGCAGATCAGCTATCATATATGGCTGCTATGTCATCATGCCTGGTCGCTGAAAACAGCTCTGCCGCTGCAGCTGAGCGACCTTTCCGTCTATTTGGCGATGCTGATGGTCATGACAAAAAGCGAAAAACTGTTCGCCTTCCTCTATTTTGCCGGTTTGGGCAGCGCCGTACAGGCGATGGCAACACCTGATTTAGGGGCGTATTCTTTCCCGCATTTTCGGTACATCGTGTTTTTCGTCTCCCACGGCTGTGTTTTTCTTACCTGTCTATTCATGGCCGCTTCAGAAAGGTACAGGCCGTCGGCGCGCGGGCTGTGGGTATCGGTGCTGATCGTAAATCTGTACGGGGCGTGTGTCTTTTTTATTGACCGTGTGCTGAATGCAAATTACCTATATTTAATGAAAAAACCGAAGACCGCTTCGCTTCTGAACGTTTTCGGACCTTGGCCGTGGTATCTTCTATCAATGGAAGCGGCGGTGATATTGAGCTTTTTCATTCTGTATATCCCGTTTTGGCTGCTGAGGAAAAGAGCATGA	MQKYFQLKSETGAFHLFSKEHIFTLLIIGLLGAGVIVFRKKLNQRWPNRVFRYVLFILLAVSQISYHIWLLCHHAWSLKTALPLQLSDLSVYLAMLMVMTKSEKLFAFLYFAGLGSAVQAMATPDLGAYSFPHFRYIVFFVSHGCVFLTCLFMAASERYRPSARGLWVSVLIVNLYGACVFFIDRVLNANYLYLMKKPKTASLLNVFGPWPWYLLSMEAAVILSFFILYIPFWLLRKRA				NA	NA	NA	NA	NA
D1-12_03942	1941	bceB	COG0577	Bacitracin export permease protein BceB	ATGAGTATTCATCATTTGATCTTCCAGAACCTGAAAAAGAATATGAAAAACTATTACCTTTACGTTTTTGCGCTGGTGTTCAGCGCCGCCCTTTATTTCGCGTTTGTCACGATGCAATACGATCCGGCGCTTGATGAAATGAAAAGCTCCATAAAAGGAGCGGCGGCAATCCGGGCCGCCTCTGTACTGCTTGTGGCGATCGTGTCGGTATTTCTTTTATACGCCAACACCATTTTTATTAAACGGCGCGGCCGGGAAATCGGCTTATTCCGATTAATCGGCATGACGAAAATGCACATTTTCCGCATACTTAGCACAGAAAATTTCATTTTGTATTTCGGATCGATTTGGATCGGTATTTTTGCCGGCTTTTCTCTCTCGAAATTATGTATGATGATGCTGTTTCATACAGTCGGTGTGAAAGCCTCTGTCTCACTATTTTTTTCAAGCAAGGCGCTCGTTCAGACGTTAATTGTGTTCGGGGCAATTTACGTGCTGATTATGATGATGAATTACTTATTTATTAAACGGCAAAGCATTTTGTCTTTATTTAAAACCGCGTCATCGTCAGAAAGCGGCATAAGACGGCTTTCTTGGGGGCAGATGTCGATCGGCGTTATCGGTATTGCGGCCATTATCGCCGGCTATGCCGTGTCCGCGGATTTATTCGGAGGCAGTTTTACGAGCATGAATGAACTGTTTTCGGCAATGGTGTTTATTCTCGGCTCGGTCATTATCGGAACCTATCTGTTTTATAAAGGTTCGGTCAGCTTTCTGGCAAATCTCATCCGGAAATCAAAAGGCGGATATCTGAATGTCAGTGAAGTGCTGTCTTTGTCATCCATCATGTTCCGGATGAAGTCAAACGCCGTCCTGCTGACGATTATTACGACTCTTTCGGCGCTGGCAATCGGTTTGCTGTCTCTAAGCTATATCTCGTACTATTCCGCGGAAAAATCGGCTGAGCAAAATACAGCCGCGGACTTTGCCTTTGATAACCAAAAGGAGACTGACTCATTTACCGCTTTATTGAAGAAAAACGGAATTGAACACAAAGTGAAAACAATCAAGACCATTCAAGCCGGTGTCAATATGAAGAACATCATAAACGGCGATATGAAAAGCTTTCAACAAGACCCGTCCAGCTTGGCGCTGCCGATTATAAGCGAGAAAGACGCAGAAGGGACGGAGCTTTCTGACGGAGAAGCCGTGTTTACCGGATATAATGATATGATGAAAAGATTTCTTGACCTGAAAACGTCAGGTTCCATTGATATAAACGGCAAAACGGATAAAATACCGCTGGCGTATAAGGGCTTGAAGAACGACTTCCTCCTGTCATATACATTTACAAGCGGAGGGCTGCCGACCGTTATCGTCACGCAGCAGGTATTTGATCGGATCGAGAAAGATATCGACCCGTCCATCCAGGGAAAATCAAATCGGTTTTTCGGCATTACACTCAAACGTGAAGAGGACATCCAAAAAGCTGATGGTCTGTTTCAGGCGCAGCACTATTCAGACGGCGCGCTTTCGCAATTTGAAACGGCTGACACCCAAAAGAAAAACATGGGGCTGATCATGTTTATTGTCGGCTTTTTGGGATTAACCTTTCTGATCACCTCAGGCTGTATCCTTTATTTTAAACAAATGGGCGAGTGTGAGGATGAGAAGGCTGATTACACGATATTGCGGAAACTCGGCTTCACAACGGGGGATCTGCTGAAAGGCATACGCCGGAAGCAGGCGTATCATTTCGGCATCCCGCTCGTTCTCGGGCTGTTCCACAGCTATTTTGCCGTTCAGTCAGGATGGTTTTTATTCGGAACGGAAGTGTGGACGCCGATGATCATCGTCATGGCGCTGTATACGCTGCTGTACTCCATCTTCGGCATGCTGTCGGTGCTATACTATAAAAAGGTCATTCAATCCGCATTGTAA	MSIHHLIFQNLKKNMKNYYLYVFALVFSAALYFAFVTMQYDPALDEMKSSIKGAAAIRAASVLLVAIVSVFLLYANTIFIKRRGREIGLFRLIGMTKMHIFRILSTENFILYFGSIWIGIFAGFSLSKLCMMMLFHTVGVKASVSLFFSSKALVQTLIVFGAIYVLIMMMNYLFIKRQSILSLFKTASSSESGIRRLSWGQMSIGVIGIAAIIAGYAVSADLFGGSFTSMNELFSAMVFILGSVIIGTYLFYKGSVSFLANLIRKSKGGYLNVSEVLSLSSIMFRMKSNAVLLTIITTLSALAIGLLSLSYISYYSAEKSAEQNTAADFAFDNQKETDSFTALLKKNGIEHKVKTIKTIQAGVNMKNIINGDMKSFQQDPSSLALPIISEKDAEGTELSDGEAVFTGYNDMMKRFLDLKTSGSIDINGKTDKIPLAYKGLKNDFLLSYTFTSGGLPTVIVTQQVFDRIEKDIDPSIQGKSNRFFGITLKREEDIQKADGLFQAQHYSDGALSQFETADTQKKNMGLIMFIVGFLGLTFLITSGCILYFKQMGECEDEKADYTILRKLGFTTGDLLKGIRRKQAYHFGIPLVLGLFHSYFAVQSGWFLFGTEVWTPMIIVMALYTLLYSIFGMLSVLYYKKVIQSAL	PGPT0010195_211	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010195-bceB|vraE-K11632	NA	NA
D1-12_03943	753	bceA	COG1136	Bacitracin export ATP-binding protein BceA	ATGATTTTAGAAGCAGGCAATATCCAAAAAAGCTACGGAAACAAGCTGAATAAACAAGAGGTGCTGAAAGGAATTGATCTTCAGATTCACAAAGGGGAATTCGTCAGCATTATGGGCCCGTCGGGATCAGGGAAAACGACCCTTTTGAATGTGCTTTCCTCCATTGATAAAGTGAGCGCGGGCACCATTAAACTGAATGAGACGGAGATTACATCCATGAAAGAAAAACAGCTTGCCGAATTCAGAAAACGGCATCTTGGCTTTATTTTTCAGGATTATAATTTATTGGACACCCTGACCGTGAAAGAAAACATACTCCTGCCGTTATCCATTACGAAAATGTCTAAGAAAGAGGCGGACCTGCGATTTGCCGAGACGGCAGAGGAGCTTGGGATCTATGATTTGCGACATAAGTATCCGAGTGAAATTTCCGGCGGGCAAAAACAGCGGACGTCTGCCGCAAGAGCTGTTATTCACGAGCCGGGCATTATTTTTGCTGATGAGCCGACCGGAGCGCTCGATTCAAAGGCTGCCATGGATTTACTGAATAAACTCAGCCGTCTGAATCAAAAACGCCGCGCCACCATTGTGATGGTGACGCATGATCCGGTTGCCGCCAGCTATTCCGGACGTGTGGTTTTCATTAAAGACGGCCGTGTGTATACACAGCTGAATAAAGGCGGCCAGGACAGACCGGACTTTTTTCAGGATATTATGAAAACGCAAAGTGTATTGGGCGGAGTTCAGGCATGA	MILEAGNIQKSYGNKLNKQEVLKGIDLQIHKGEFVSIMGPSGSGKTTLLNVLSSIDKVSAGTIKLNETEITSMKEKQLAEFRKRHLGFIFQDYNLLDTLTVKENILLPLSITKMSKKEADLRFAETAEELGIYDLRHKYPSEISGGQKQRTSAARAVIHEPGIIFADEPTGALDSKAAMDLLNKLSRLNQKRRATIVMVTHDPVAASYSGRVVFIKDGRVYTQLNKGGQDRPDFFQDIMKTQSVLGGVQA	PGPT0010200_303	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010200-bceA|vraD-K11631	NA	NA
D1-12_03944	963	graS_2		Sensor histidine kinase GraS	ATGTTTCTTTTGCAGCAGGCTGTGCTCCTTTTTGCGGCATATATTGATCCGTCTATTCCGTTTTTTTCGGTGCTGTATTTCGTTTACCTGTCGCTTCTTGTGTTTCTTGTATTTCTCTTGTTCCGCTATCGTAAAGAGACCGCCTATTATAAAAGCTTAAGAGAATGGGACGCCAATTTAGACATGTCTTATCTTAAAGCGCCTGACAGTCCGTTTGAGTCTATCGTTGAAGAAAGCATTGAAGGGCAGACGGAGCAGTTAAGAAAAAGCTCCCTTCATCTTCAGGCGGCGTCAGAGCATGAAAAGGACGATCTGATGTCATGGATTCACGAGGTCAAAACACCGCTGACAGCGATGCATCTCATGATCGAGCGCCTTGATGAACAGCAGCTGAAAGCCCCTTTGCTGTATGAATGGCTGCGGATTCACCATCTCCTGGACCAGCAGCTTCATCAGAAACGATTGTCCTTTATTGAAAATGATTTATCATTCCAGCGAATTCAGCTCAGACCGCTCGTTTTCAAAGAAATTAAAAATCTGCAATCATGGTGTATACAAAAAGGGATCGGGTTTGACATTCAGCTTGATTCACCAGACGTTCACAGTGACGGAAAATGGCTTTCCTTCATCATCAGGCAGCTGTTAAGCAATGCCGTCAAATACAGTGAAGCGGATGACATTACCGTAAAAAGCTATGAACAAAACGGCCGGGTGCATGTGGATATCGAAGACCGCGGCATCGGCATCGAGCCCAAAGATCTTCCGCGCATTTTTGAAAAGGGATTTACCTCGACGCGAATGAGGCGTGATCACGCGTCAACGGGGATGGGCCTGTATTTGGCTCGAAAAGCCGCGGCTCCGCTTCTTATCCGGATCAGCGTGCGCTCTGAGCCGGAAAGCGGCACGGTTTTTACCTTGGTGTTTCCGAAACAGAACGATGCCGTCAGCATGTTCAGCGTGTGA	MFLLQQAVLLFAAYIDPSIPFFSVLYFVYLSLLVFLVFLLFRYRKETAYYKSLREWDANLDMSYLKAPDSPFESIVEESIEGQTEQLRKSSLHLQAASEHEKDDLMSWIHEVKTPLTAMHLMIERLDEQQLKAPLLYEWLRIHHLLDQQLHQKRLSFIENDLSFQRIQLRPLVFKEIKNLQSWCIQKGIGFDIQLDSPDVHSDGKWLSFIIRQLLSNAVKYSEADDITVKSYEQNGRVHVDIEDRGIGIEPKDLPRIFEKGFTSTRMRRDHASTGMGLYLARKAAAPLLIRISVRSEPESGTVFTLVFPKQNDAVSMFSV	PGPT0010225_136	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010225-bcsS-K11629	NA	NA
D1-12_03945	696	graR_2	COG0745	Response regulator protein GraR	ATGTTTCACATTTTGTTAATAGAAGATGATAACACTTTGTTTCACGAGATGAAAGAGAGATTAACGGGCTGGTCATTTGCGGTGCACGGAATAAAAGATTTCAGCCGTGTCATCCGGGAGTTTTCCGAAATTAAGCCTGATTTGGTGATCATTGATGTACAGCTGCCGAAATTTGACGGCTTTCATTGGTGCAGAATGATACGCTCCCAATCAAACGTGCCGATTCTCTTTTTGTCCTCGCGCGATCATCCCGCGGATATGGTCATGTCGATGCAGCTCGGGGCAGATGATTTTATTCAGAAGCCTTTTCACTTTGATGTGTTAATCGCGAAAATACAGGCGGTGTTCCGCCGTATGCATCAATACGGCACAGAACCGGCCCTGATGAAAAGATGGTGCGGGGCGGTCATTGACACAGAAACCAACACGGTCAGCCGTAAAAACGGTTCGGTCGAGCTGACCAAAAACGAAATGCTGATCTTAAAACTGCTGGCTGAGCAGAAAAATAAAATCGTCAGCCGGGAAGAACTCATCAGAAGCCTATGGAATGATGAGCGTTTCGTCAGTGATAATACGCTGACGGTGAATGTCAACCGGCTGCGGAAAAAACTCGATCAATTAGGCATCGGGAAAATGATTGAAACCAAGGTGGGGCAGGGATACATCGCAAAGGAAGAAGACGGTCTTTATGATTAA	MFHILLIEDDNTLFHEMKERLTGWSFAVHGIKDFSRVIREFSEIKPDLVIIDVQLPKFDGFHWCRMIRSQSNVPILFLSSRDHPADMVMSMQLGADDFIQKPFHFDVLIAKIQAVFRRMHQYGTEPALMKRWCGAVIDTETNTVSRKNGSVELTKNEMLILKLLAEQKNKIVSREELIRSLWNDERFVSDNTLTVNVNRLRKKLDQLGIGKMIETKVGQGYIAKEEDGLYD	PGPT0010230_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010230-bceR-K11630	NA	NA
D1-12_03946	1311	ytrF	COG0577	ABC transporter permease YtrF	TTGAGATTTAAGGATCAGATTCACTTTATCAGAAGAAATATGAAGAAAAACCGGCTGCGTGTTTTCATGACGGTGCTGGCAACGACAATGGCGTGCGCGTTTTTGGTCGTGCTGGCGTCCGTCGGATTCGGCATCCAAAAAACGATTACAGACATTACGATGAGCCAGCAGATTGTTACGGAAATCAATGTGCTCGGCCAAGAGAACGGAAAAGCCGTGAAGAAATCAGACTTGGAAAAGTATAAGAATGTCAAGTCTGTCGTTGAAAGAACACAAGTGTATGAACCGAACAAAGCGTCATTGGGAAACCGAACCAATGAAGATTCCGCCATTGTGCTGACAAACATGAACGATGAAGTCAAAGCCAATATGGAGCTTGATCAGGGAAGGGTCGCCCGTACAGAGAATGAAATCGTGGTCGGCTATGATTTTGCGAAGAACCTATTGACGAAAAAAGAGGCTGACGCTTACGACAAAGAGTTAAAGGATCACCAAGGCGACATGTCGGAGGTGAAAAAACCAAAAGGCTATACGAAAGACCTGCTTAATAAAACGATACAGCTGAGCATCTCCAAAACAAACAAAGACGGAGACGTTGAGAAAACGAAAACGTACGACTTTAAAGTAGTCGGAATTACAAAAAAACCGTCCCAAGATTGGATAGAGGATACAAATATTTTTGTGAGTGATCAATTCAAGAAGGACTTCTCAACATTCTTGGATCTGAAGAATGGAAATGTGGAAAAAAACATCAATGTGTATGCGGACAAATTCGAACATGTCGATCAGCTTACCCATGACCTCACGGATGACGGCTTTTATGTCAGGTCTGTCACAACCGAGCTGAAGGGCGTTAATACCTTTTTCCTCGTCTTTAAAATCGGCCTGATCTTTGTCGGCTTTATCGCCGTCGTGATTTCTGCCATCGGTATTTTCAATACGATGACGATGGCGGTGACGGAACGAACGCAGGAAATCGGGATTATGAAAGCGATCGGCGCAAGCCCGTCAATCATCCGCAGAATGTTCCTGATGGAAAGCGCCTATATCGGGATATTAGGTTCTGTCATCGGGATTATCATTTCTTACGGAGTGAGTTTTGCCGTCAATCTGGCTGTGCCGGTTATCTTGAAAGCGGTAGGGGGAAACACCGGAGCTGAAGATCTTCATTATACCTTCTCCTATATCCCGCTCAGCCTCGTTGTGATCGCAGTTGTCATTTGTGCGGGGGTCGCGGTGATTTCCGGTATGAATCCGGCCCGCAAAGCGACAAAAACCAATGTTCTGACTGCATTAAGAAGAGAACTGTAA	MRFKDQIHFIRRNMKKNRLRVFMTVLATTMACAFLVVLASVGFGIQKTITDITMSQQIVTEINVLGQENGKAVKKSDLEKYKNVKSVVERTQVYEPNKASLGNRTNEDSAIVLTNMNDEVKANMELDQGRVARTENEIVVGYDFAKNLLTKKEADAYDKELKDHQGDMSEVKKPKGYTKDLLNKTIQLSISKTNKDGDVEKTKTYDFKVVGITKKPSQDWIEDTNIFVSDQFKKDFSTFLDLKNGNVEKNINVYADKFEHVDQLTHDLTDDGFYVRSVTTELKGVNTFFLVFKIGLIFVGFIAVVISAIGIFNTMTMAVTERTQEIGIMKAIGASPSIIRRMFLMESAYIGILGSVIGIIISYGVSFAVNLAVPVILKAVGGNTGAEDLHYTFSYIPLSLVVIAVVICAGVAVISGMNPARKATKTNVLTALRREL				NA	NA	NA	NA	NA
D1-12_03947	696	ytrE	COG1136	ABC transporter ATP-binding protein YtrE	ATGATAGAAGTACAGCATATTGATCATTCATTTAAAATCGGCAGGAAAGGCAGAGAGAGTGAGGTTCCGGTATTGAAGGATGTTTCTTTGACCGTTGAAAAAGGGGAAATCGCCTGTATCGTCGGGCGGAGCGGTTCCGGAAAATCAACGCTTCTGAATTTAATTTCCGGATACATAGCGCCGACGAAGGGCCGTATCGTCATTAATGGCACTGATGTGACGGGCTTCAGTGAAAAAGAGTGGGCGCAGTTCCGCCTCGGGCATTTCGGTTTTATTTTTCAAAGTTTTCAGCTCATTCCGAGTCTGACAACCTATGAAAATGTTGAAATGCCGCTTGCCTTAAAAGGCGTCAAACCGTCTGAACGCAAGCAGAAAGTCGCGGACATGCTGAAACGGGTCGGACTTGAGAATCATGCGAATCATTATCCGAATGAGCTGTCAGGCGGCCAGCAGCAGCGTGTCAGTATCGCAAGAGCCCTGATTTTAAATCCGTCGATTATTTTAGCTGATGAGCCGACGGGAAGTCTCGATTCAGAAACGGAGCTTGAGGTGCTTGCGTTAATTCAGCAGCTGAACCGGGAGCGCGGGATTACATTTGTCATCATTACGCATGACGATGAAGTCGCTTCGATCGCGCATTCAAAATTCCAGCTGCATGACGGTGTATTAAAAGGGGGCGTTACTGTTGAGATTTAA	MIEVQHIDHSFKIGRKGRESEVPVLKDVSLTVEKGEIACIVGRSGSGKSTLLNLISGYIAPTKGRIVINGTDVTGFSEKEWAQFRLGHFGFIFQSFQLIPSLTTYENVEMPLALKGVKPSERKQKVADMLKRVGLENHANHYPNELSGGQQQRVSIARALILNPSIILADEPTGSLDSETELEVLALIQQLNRERGITFVIITHDDEVASIAHSKFQLHDGVLKGGVTVEI	PGPT0013345_9515	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-12_03948	981	ytrC_1		putative ABC transporter permease YtrC	GTGCCGATTAGCGGTTTGCTTTATAAAGAATGGAAGCAGCGGCAGACGCTGCTGCTTCTTACATCGGGGTTCTTAGCTATTTTAGGCCCTTTGGCAATTATAAATGAGTATTTTCACTATAAGGATTGTTTAAAAACACTTCATCAATATTCAGGTTCAGTTTGTACGTTCAGCATTGATTACAGCAATCGGAATTTGATTGGGCTGCATTTCATTCCTCCGGTTATGATGGGGCTTTTTCTGATAAGAGGAGGCAGGGCTGAAAGGATGTTTACACTGAGTCTTCCGTATTCGAGAAGCCGGATATTTCATACGAAGTTTTTCTTGGGAGCAGCCGTGTTAGCCGGCTCGCAGTTTGTTTCTTACGGAGTATCTGACCTATTGTTTCTAGCGCTTAAACCTGACGCTGTCCATCATTTTCAATCATTCAGCTCAGGGATGCTGGTCATCAGCTTGATGATTTATGCATTAGTGACAGCTGCCGGCACGATAACGGGCAATTTAGCGGCGCAGCTGATCACGGCGTTCACGGTTTCCGTCTTTCCGATCGTGGTTATGACGATTTACTTGTTAAACGCTGAGTTCCTTTTTGGCAGGCAGGCTGTGCCGGATATTGATTTCCCTTGGAGCGGATTTCTGATCTATTTCATGCCTGCCGCTTACATCCATACCTCATGGATGTATTACATGAAACACGCATTGTTAATTTCCGCAATTATGGGATTTTGTTTCTATCTATTCGGCTATGCGAATTTCCTGAAAATGCCGAGTGAACGAAGCGGACATTTTATCCTAAGCAAACACATTGAACGCACCATTCAAGTGCTCGTCATGGTGCTCAGTATGCTGGGAAGTGCGGGGGTATGCGGATATGCTTATAACGGTTCGTATACCGGTTACATATTCGGCATGCTTATCGGCGCGGTGATCGGGTTTTTCATCAGTTATTACTTCATCTATAAAAAAACGAAACAGATATAA	MPISGLLYKEWKQRQTLLLLTSGFLAILGPLAIINEYFHYKDCLKTLHQYSGSVCTFSIDYSNRNLIGLHFIPPVMMGLFLIRGGRAERMFTLSLPYSRSRIFHTKFFLGAAVLAGSQFVSYGVSDLLFLALKPDAVHHFQSFSSGMLVISLMIYALVTAAGTITGNLAAQLITAFTVSVFPIVVMTIYLLNAEFLFGRQAVPDIDFPWSGFLIYFMPAAYIHTSWMYYMKHALLISAIMGFCFYLFGYANFLKMPSERSGHFILSKHIERTIQVLVMVLSMLGSAGVCGYAYNGSYTGYIFGMLIGAVIGFFISYYFIYKKTKQI				NA	NA	NA	NA	NA
D1-12_03949	987	ytrC_2		putative ABC transporter permease YtrC	ATGATACCGCGGGGATTGTTGTACACAGAATGGAAAAAAAATCAGTGGTTGTTTTTATGCAGCGGCATTCTTTTAATGGCGGCAAACCCTTTTATGGTTTATAACAACTACTCAACATATCAAGAATGTTTGAATAACCCAGCTCTTCAAGATTGTGAATTCGTTGTCAATTATACGAATGGGTCGCCTCTTTCCTTCAGCTGGATTGTGAGTGTCATCATTGCCGTCTTCTTATTAGGCTTGGAACGGACAAAGGGAACGATGGATGCCTTGTTAAGCATGCCTTACAGCAGAGGCCAAATCTTTCAGACGAAATTCTGGCTCGGCGGGGCAGTCATTGTTGTTCCTCAGGCGATAGGCTATGGAACGGCGTCATTGCTGATATCTTTGCTGAAACCGAGCCATACGTACGATTTTGATCATTTTTCAATCGGAATGATTGTCATCAGTTTTATGGCTTACGCCTTGTTAATGGCATCCGGCGCATTAACGGGACAGATATTCGCCCAGCTGTTAACGGCGTTTACCGTCACAGTTCTGCCCTTTTTACTCATCGGTCTGCCGGCCGCGAATTTGGAGGTCGTATTCGATTTTAGTGTCGGAGATCAATTTTCTTTTATCAGCAGTTATATCGAATCCCGTCTTTTTATATTTGTAACCCCTATTGGATATGTGTTTAACGACTGGATCAGAGAAAGGGATTTGATTTTAATCATTCCGATTGTGATGAGCCTTGTCTTTTATCTGATCGGTTACGTCAGCTTTCTGAAACATCCGAATGAACGGAACGGCAGATTCTTTCTTTGGAGAAAATTGGACCGGCCGGTGCAGATCTTGGTGATTGCCTTTGCCGTTATGGGTTTCGGCGTTTTCGGATATGGGGTCACAGACACGATGTTCGGCTATTTAGCCGGCATTATCTTCGGCGCGATTATCGGGTTTTTCATCAGTTATTTTACGGTTTACAGGAAGTCAAAGCATATGTAG	MIPRGLLYTEWKKNQWLFLCSGILLMAANPFMVYNNYSTYQECLNNPALQDCEFVVNYTNGSPLSFSWIVSVIIAVFLLGLERTKGTMDALLSMPYSRGQIFQTKFWLGGAVIVVPQAIGYGTASLLISLLKPSHTYDFDHFSIGMIVISFMAYALLMASGALTGQIFAQLLTAFTVTVLPFLLIGLPAANLEVVFDFSVGDQFSFISSYIESRLFIFVTPIGYVFNDWIRERDLILIIPIVMSLVFYLIGYVSFLKHPNERNGRFFLWRKLDRPVQILVIAFAVMGFGVFGYGVTDTMFGYLAGIIFGAIIGFFISYFTVYRKSKHM				NA	NA	NA	NA	NA
D1-12_03950	987	ytrC_3		putative ABC transporter permease YtrC	ATGGTAGACAGGGGATTGCTGTACAGGGAATGGGTGCAGAATCGAACTGTTCTTGTGATGGTCGGTATTTTTTTAGCGGCGGTCAATCCATTTGAAGTGTTAAATACCTATCTGGTCTATCAAGGCTGTCTGGACACCCCGGAAGCATATTGTAACTTTTATGTGAATTCTCTGGAGAGCGGAATGCTGAACTTAAACTGGGCGCCCGCTGTCATTTTGGCGGTTTGCTTATTCGGACTGGAGCGTACGAAAGGAACGATTGATGCGCTGTTCAGTCTGCCTTATTCCCGCGCTCAGGTGTTTCACACTAAATTTTGGCTCGGGGCGGCGCTCATTACCGGCGCTCAGGTGATCGGCTACGGGCTGGCTGAGCTGCTCATTCTTCTGTTAAAGCCTGAGCGCGTATATTTCTTTCACCATTACAGCGTCGGAGAGATTATTGTGAGTGTTTTGGCTTTTACATTGGTTGCGAGCGCAGGCTGCTTAACGGGCAATACATTCGCCCAGCTGTTAACGGCGTTTACTGTGTCGATATCACCATACTTGATCATTACGTTGCCATTGTCCAATGTAGAAGTCATCTTCGGAGCCGGCATGTATGAGCTGATGCCGTCAGTCGATGCTTATATCAAAGTATACAATTTTTTTCAATATCTGAATCCAATAACGTACGGTGATACCGATTGGGTATCTGCCAGCAAGTATATATTAATCATTCCGGCAGTGATGAGCATTGTATTTTATGCCATCGGGTACTTTTGCTATGTCAGGCAGCCGGTGGAACGGAACGGCCGTTTTTTTCTCTGGAGACAGCTTGACCGGCCCATTCAGATTGTGGTGATCATAATCGCCGTTCTCGGTTTTGGCCTGGCGGGGTACTCGACGGGACATACGATGACAGGGTATGTGGCCGGGATGCTGGTCGGAGGAGCGATCGGATTTTTGGTCAGTTATTTTGTGATTTATAAAAAAACGAAGCATGTGTAA	MVDRGLLYREWVQNRTVLVMVGIFLAAVNPFEVLNTYLVYQGCLDTPEAYCNFYVNSLESGMLNLNWAPAVILAVCLFGLERTKGTIDALFSLPYSRAQVFHTKFWLGAALITGAQVIGYGLAELLILLLKPERVYFFHHYSVGEIIVSVLAFTLVASAGCLTGNTFAQLLTAFTVSISPYLIITLPLSNVEVIFGAGMYELMPSVDAYIKVYNFFQYLNPITYGDTDWVSASKYILIIPAVMSIVFYAIGYFCYVRQPVERNGRFFLWRQLDRPIQIVVIIIAVLGFGLAGYSTGHTMTGYVAGMLVGGAIGFLVSYFVIYKKTKHV				NA	NA	NA	NA	NA
D1-12_03951	879	ytrB_2	COG1131	ABC transporter ATP-binding protein YtrB	ATGATTGAATTGCGGAATCTCTCAAAAACAATAGACGGTAAAGAAGTGCTCAAGGATATTTCGCTCACCATCGGAAAAGGGGAAATTTTCGGACTGCTCGGGCGAAACGGATCAGGGAAAACAACACTGCTCCGGCTCATTCAGCAGATTCTGCTGCCGGATCAAGGGACGGTTTTATTTAATCAGGTGGAAATAAAGCGACATCCGAAAGTAAAACAGAACATCATTTATATGCCTGTTGAAAATCCTTTTTATGACAAGTATACATATAAACAGCTTGTTGCGATTGTAAGCAGAATCTATCCGAATTTTGATGTGACTTACGCCAATGAGCTGATGAACAGGTACGGCATTCCGGAAACGAAGAAATACCGTGAATTATCGACAGGCCTGAAAAAACAGCTTGCGCTCGTCCTTGCCTTTGCTTCACGTCCGGCTCTTATCCTTTTGGATGAACCGACGGACGGAATTGACGCCGTAACGCGTCATGACGTGCTTCAGCTTATGGTGGATGAAGTGGCTGAACGGGAAACGAGCATTCTGATTACCTCACACCGTTTAGAAGATATTGAGCGAATGTGCAACCGGATCGGGTTTTTGGAAGGAAATCAGCTGACGAATGTGATGGACTTGGATGATATGAAGGAAGAGTACATGAAAATTCAAATGGCATTTGAAGAGGACGTCGCCTTGAAGATCAGAGAACAAAACATACCGATTCTCGACCATGCCGGTGTGTTTTATACGGTGCTGATTCAAAAGAACGATGAAAAGAAAAAGAACTTTCTGCAAGAGCTGCAGCCGAAAGTATGGAACGAACTTCCTGTGAACTTAGAAGAAGTCTTCATCGCGAAGTTCGGAGGGAACCGGAGATGGTAG	MIELRNLSKTIDGKEVLKDISLTIGKGEIFGLLGRNGSGKTTLLRLIQQILLPDQGTVLFNQVEIKRHPKVKQNIIYMPVENPFYDKYTYKQLVAIVSRIYPNFDVTYANELMNRYGIPETKKYRELSTGLKKQLALVLAFASRPALILLDEPTDGIDAVTRHDVLQLMVDEVAERETSILITSHRLEDIERMCNRIGFLEGNQLTNVMDLDDMKEEYMKIQMAFEEDVALKIREQNIPILDHAGVFYTVLIQKNDEKKKNFLQELQPKVWNELPVNLEEVFIAKFGGNRRW				NA	NA	NA	NA	NA
D1-12_03952	393	ytrA_2	COG1725	HTH-type transcriptional repressor YtrA	ATGATTCAAATCGATCCGAGAAGCTCAACTCCGATTTATGAGCAGATCATACAGCAACTGAAAGAGCTTTGTTTAAAAGGGATCATGAAGCCGGGGGATAAACTTCCTTCTGTCAGGGAATTGGCAACGATCATTATCGCCAATCCGAACACAGTCAGCAAAGCGTACAAGGAGCTCGAACGCGATGGTGTCATTGAAACGCTGAGGGGAAGAGGGACGTATATATCGGAGAATGCAAAAACGACATTGGTTGAAGGGAAGATGACGATGATAAAAGAGCAATTGAAACAGCTCATCATCGATGCCCATTACGCGGGAGTTGAGCTGGAGAAGCTGCAGGAATGGATAAAGGAAATCAGCGCTGATCTGAAAGGAGGCAAGGATCATGATTGA	MIQIDPRSSTPIYEQIIQQLKELCLKGIMKPGDKLPSVRELATIIIANPNTVSKAYKELERDGVIETLRGRGTYISENAKTTLVEGKMTMIKEQLKQLIIDAHYAGVELEKLQEWIKEISADLKGGKDHD				NA	NA	NA	NA	NA
D1-12_03953	117			hypothetical protein	ATGAAAAACAAAAGATCCGTAAAACAAGATGTGCCTCTTATTATCGCCGCCTCGGTTTTGGCCAGCAGTCTGTTTGCCGTTCTTGTCGTCATCGGATTTCAATGGCAGAACATTTAA	MKNKRSVKQDVPLIIAASVLASSLFAVLVVIGFQWQNI				NA	NA	NA	NA	NA
D1-12_03954	273			hypothetical protein	ATGGCAACAAGACAATCAGTAGATGAACATCTCCAAAGAAGCGAACAGGCGTATGAATTTGCGAATGAACAATTTATGACCGCTTCGAAACAAGAGCATTATAATGATAATGAGTACAGTGAAGCGCAAATGATGCTTGAAAACGCGGTGAATGAATTAAACAAGCTGTCATTATCTGCGAATGATCAGCAAAGAGAGCAGCTTTATCGAATGAGATTGCAGCTGCAGACCTTGCAAAACAATATGATTTTGCAGCGTAATTTTGATTACTGA	MATRQSVDEHLQRSEQAYEFANEQFMTASKQEHYNDNEYSEAQMMLENAVNELNKLSLSANDQQREQLYRMRLQLQTLQNNMILQRNFDY				NA	NA	NA	NA	NA
D1-12_03955	1113			hypothetical protein	ATGGGGTGTGAAAAAGTGCGCTTAATAATTAATGACAGTGTTTCAGAATTCTTTGACAAGATATCCTCTATTCTATTCTTAAAACACGAGGAATTCTTCAACGATTATACAACCAAATTGGGGCTGAATTTAGATAATGAATATTTTGTATTACTAGATGATCTTAAAAGAATAAAAGAGTTAGATAGTGAGTTTTTACATTTTTATTTTGGCAGCTTTTGCGACTACAAAGATGTTAGGAATGCAAATATTTTTTGTTTAGCCACAACCTTTTTTAAAATACCACAAATTTATACGAAAGATTTTTTTGAAATTATTAATTATTTGTCTGCAGTTACAGAAGAAGAGATAAGAAAAAATATTTTAGAGTCTCTAATTTATTTACAAGGAGATCTTAAAACCGAAACATCTACCCAACAGTATTTAAATGATAGGGAAAGTTTATTTGAGCTGCTTAATAATCTAAATATAAAGCCCGAATTCAAGTGGATCATATTTCAGGTAATGAAATCTCCTAAAACTTATGTAGATCAATTTTGCAATAAATTAATATTGGTGAATGGTTATCTTAACGATGCGATTTATAATTTAATTAAATTTAGAGATGAGTGGATGAATCAATTAAAAAACATAAATATGGATTTTCCAAAAAAGATAATCAGTACGTTAAAAGGTAAGGAATACTTATCTTGTAATTATATTAATATATATCCAACACTTTTACCTTACACTGCAACTATTACGAAAAGTGAAGATAACATTTATGTTGGACTGGGTTATAAAGTTGATAAAATTTTTGAAAATACATTAGAGAAAGCAGAGATTAATCACATCATTGATTTTTTGAAGCTTTTATCGGATAAAAGTAAGTTCAAGATATTAATCTTACTTAGTCATAAAAAAATGTATGCTAATGAGATTGCTGAACAACTAAATTTAACCAACGCAACGATTTCACACCATATGAGAATTTTGACATTGCAAGGTTTAGTTGAGAGTACGAGAAATCAAAATAAAACATACTATTATCTTAATTCTTCAAAATTCGATTCTCTTTTGAACGGTTTGTTGAAAAAATTTAAAGCTGTTCCAGGCTTAGATGGGGATGATTAA	MGCEKVRLIINDSVSEFFDKISSILFLKHEEFFNDYTTKLGLNLDNEYFVLLDDLKRIKELDSEFLHFYFGSFCDYKDVRNANIFCLATTFFKIPQIYTKDFFEIINYLSAVTEEEIRKNILESLIYLQGDLKTETSTQQYLNDRESLFELLNNLNIKPEFKWIIFQVMKSPKTYVDQFCNKLILVNGYLNDAIYNLIKFRDEWMNQLKNINMDFPKKIISTLKGKEYLSCNYINIYPTLLPYTATITKSEDNIYVGLGYKVDKIFENTLEKAEINHIIDFLKLLSDKSKFKILILLSHKKMYANEIAEQLNLTNATISHHMRILTLQGLVESTRNQNKTYYYLNSSKFDSLLNGLLKKFKAVPGLDGDD				NA	NA	NA	NA	NA
D1-12_03956	1668	stp		Multidrug resistance protein Stp	TTGAATTTCAAAAAATTAATTATGTTATCTGCATTATTATTAGGTACATTCATTTCGGTAATGGACACCACTATAGTAAATATTGCCTTACCTAAGATGCTGGATTATTTTTCGAGTAACCTTTCTCAAGTAGCTTGGGTGGCTACAGGTTATACTTTAGCTTTTGCGGTTTTATTAGTAGGTGCATCAAAGCTGGCAGACCATTTTGGAAGAAAAAAAGCTTTTATGTTTGGATTAGCACTTTTTATTTTGACATCAGTTATTGCATGTTTGAGCACTTCAATTGAAATGCTTGTCACAATTAGAGTGATTCAGGGATTATCTGCTGCTTTCATTGTACCTGTTACAATGCCTATAGCTTTAGCTATCGTACCTCAAAATAAAAAAGGAATGATCATTGGAATCTGGGGTGCTTTCTCAGGATTAGCAGCTACATTAGGACCTGTACTTGGAGGATTATTAACTGAAAATTTTAATTGGCAAGCTATCTTCTTCATAAATATTCCTTTAGGTCTGATTTCTCTGTTTTTAGCAGCATTTTTTATTACTGAGAGTTATGATGAAACAGTGAGCAAAAAAATTGATTACATGGGGATTCTTATTTTATCCGGAGCTCTCTTCTGTTTAACCTTTGGCTTTGCAAAAGTATCTGACTTAGGCTGGTCATCACCAGTAATTATCTCTCTTTTTGTAATCTCTGTATTATTATTCTGTTTGTTTTTCTTTATTGAATCTAAAATTAAAAACCCGATGATTCCCTTATCCATGCTGAAGATACGTACGTTTAGTTTCAGTTCTTTCACCCTCTTTATGCAGGGCCTTGGATTAACAAGCGGTACCCTTATTATTACTTTACTCCTCACGAATTTAATGGGAAAAACTGAATTAGAAGCGGGGTTAATTGTTTCTACATTAGCTCTATCATCTATGTTTACCTCTGTACTTTCTGGAAAGCTATCTGATAAACTCGGGGGCATTTGGCTTTCGGGTCTAGGTATGCTCGGTTTAACAATCACAACATATTTATATGGATACATACGATACGACAGTTCTATAACGTCAGTAACTATTCTGTTATGTTTGACCGGCTTAGCTTTAGGGCTTGTAATAGGACCAGCAATGAGTTCAGGGATACGGCTTATTCCTCCTGAGAAAGTAGGAATTGCCTCAGGTATTCTTAATATGATGCGGACAGTTGGACAAGCGCTAGGCATTGCCATACTTACATCTGTGCTTACAATGAACATAAATGATCACGCAGCTTCTGCAAAAAAAGAAGCCATAAAAATCGTTGAAAACAACCAGGTTTTTGATAAAAATGCAAAGAACGAGATAATAACTCACTTAAAGCATTCAGACAGTAAAGGTTTCGATCGAAGCAAAAGTATTGCTGAATTAAACAAAAAAGAGGAAGAAATTCTCTCTATAACCCCGGATCCGTATAAAGAAAAAGTACAAAAAAGCTTTAATATTCAAAAGAAGGAAGTTATCGCTATCCAGAAAAAAATTTCAAATTTATATAATGAAAAAATAAGTGATAGTTTTAATAATACATTCAAAGTAGGCAGTGTAATTCTTATTTTAGGAATTATTTTTGCATTGTTCAGTGATATTTCTCCAAAACGTTTAAAACAACAACAGAAAAACCAGGTAGATATTACGTCTTGA	MNFKKLIMLSALLLGTFISVMDTTIVNIALPKMLDYFSSNLSQVAWVATGYTLAFAVLLVGASKLADHFGRKKAFMFGLALFILTSVIACLSTSIEMLVTIRVIQGLSAAFIVPVTMPIALAIVPQNKKGMIIGIWGAFSGLAATLGPVLGGLLTENFNWQAIFFINIPLGLISLFLAAFFITESYDETVSKKIDYMGILILSGALFCLTFGFAKVSDLGWSSPVIISLFVISVLLFCLFFFIESKIKNPMIPLSMLKIRTFSFSSFTLFMQGLGLTSGTLIITLLLTNLMGKTELEAGLIVSTLALSSMFTSVLSGKLSDKLGGIWLSGLGMLGLTITTYLYGYIRYDSSITSVTILLCLTGLALGLVIGPAMSSGIRLIPPEKVGIASGILNMMRTVGQALGIAILTSVLTMNINDHAASAKKEAIKIVENNQVFDKNAKNEIITHLKHSDSKGFDRSKSIAELNKKEEEILSITPDPYKEKVQKSFNIQKKEVIAIQKKISNLYNEKISDSFNNTFKVGSVILILGIIFALFSDISPKRLKQQQKNQVDITS				NA	NA	NA	NA	NA
D1-12_03957	969			hypothetical protein	TTGAACGAGAATAACCCTTTTCCTTATTCAAATACGGAAAAACGGTACCATACATTAAATTATCATCTGCGGGAGCATTTCGGGCATAAAGTGTTTAAAGTCGCGCTTGACGGCGGTTTTGACTGCCCGAATCGGGACGGCACGGTTGCACACGGAGGCTGCACATTCTGCAGCGCGGCGGGCTCCGGCGATTTTGCCGGCAATCGGGCCGATGACTTACTCACGCAATTTCACGATATCAAAAACCGTATGCACGAAAAGTGGAAAGACGGCAAATATATCGCATATTTCCAAGCGTTCACGAATACGCATGCCCCGGTAGAGGAGCTGCGTGAAAAATTTGAATCCGTCCTCAAGCTTGACGGCGTTGTCGGCATGTCGATCGCGACCCGTCCGGACTGCCTGCCGGACGATGTCGTGGAATATTTGGCCGAACTGAATGAGCGGACCTATTTATGGGTTGAACTCGGGCTGCAGACCGTGCATGAGCGGACCGCCCTTCTGATCAACCGCGCCCATGACTTTGACTGCTATGTTGAGGGTGTCAATAAACTGAGAAAACACGGCATCCGCGTTTGTTCCCATATCATTAACGGGCTTCCGCTTGAAAACAGGGACATGATGATGGAGACGGCCAAAGCCGTCGCTGATTTGGATGTGCAAGGCATTAAAATTCACCTGCTTCACTTATTAAAAGGCACACCGATGGTGAAGCAATATGAAAAAGGAAAGCTGGAGTTCCTTTCTCAAGAAGAATATGTAAGTCTTGTATGTGATCAGCTCGAAATCATTCCCCCGGAAATGATTGTTCACCGCATTACGGGAGACGGGCCGATCGAATTAATGGTCGGACCGATGTGGAGCGTCAATAAGTGGGAAGTACTGGGCGCCATTCAAAAAGAGCTGGAAACACGGGGAAGCTATCAAGGAAAGCTCTTCAGAAAGATCGGGGAGGAGACCGCCCTATGA	MNENNPFPYSNTEKRYHTLNYHLREHFGHKVFKVALDGGFDCPNRDGTVAHGGCTFCSAAGSGDFAGNRADDLLTQFHDIKNRMHEKWKDGKYIAYFQAFTNTHAPVEELREKFESVLKLDGVVGMSIATRPDCLPDDVVEYLAELNERTYLWVELGLQTVHERTALLINRAHDFDCYVEGVNKLRKHGIRVCSHIINGLPLENRDMMMETAKAVADLDVQGIKIHLLHLLKGTPMVKQYEKGKLEFLSQEEYVSLVCDQLEIIPPEMIVHRITGDGPIELMVGPMWSVNKWEVLGAIQKELETRGSYQGKLFRKIGEETAL				NA	NA	NA	NA	NA
D1-12_03958	582	rsmH_2		Ribosomal RNA small subunit methyltransferase H	ATGACCTTGATGCACATCCTCCCTTTCAGTAAAGAATTGCTGAAGTCCGCCGCACAGGAAGGTGATATCACGGTTGACGCGACGATGGGCAACGGACATGATACATATTTTCTGGCCGGCCTTGTCGGTGAGACAGGACATGTTCATGCTTTTGATATTCAAGCGGACGCACTCGCTAAAACGAAGGAGCGGCTCGGTGCCGACTTCGGCCCGCGCGTCACGCTTCACCATAAGAGCCATGATCAAATAAAGGCATCGCTGCCTGAAGATGCGCTCGGTCGTGTGGCTTGCGCCGTCTTTAATCTCGGCTATCTGCCCGGCGGCGATAAAAGCATTACGACAAACGGTCACTCAACCATTTCCGCGATCGAACAGCTCCTTGAACTGCTGAAGGAGAACGGGCTGATCGTTCTCGTTGTGTACCACGGGCATCCTGAAGGCAAGACGGAAAAAAGTGCATTACTGGAGTACTGCAGCAATCTTGATCAGGAAAAAGCGCGCGTGCTGAGCTACGGCTTTCTCAACCAGCGAAACGACCCGCCGTTTATTATAGCGATTGAAAAGAAATCTGCCGGCAAATAA	MTLMHILPFSKELLKSAAQEGDITVDATMGNGHDTYFLAGLVGETGHVHAFDIQADALAKTKERLGADFGPRVTLHHKSHDQIKASLPEDALGRVACAVFNLGYLPGGDKSITTNGHSTISAIEQLLELLKENGLIVLVVYHGHPEGKTEKSALLEYCSNLDQEKARVLSYGFLNQRNDPPFIIAIEKKSAGK	PGPT0008955_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
D1-12_03959	195			hypothetical protein	TTGAATATTCTTCGCATCATATTTTCAAGTGTTCCCTATGTGATGTTCGTCATCATTTTATCAAGACATTTAGGATTTGAGTTCGCAAAAACCTATTACTGGTGGTTTGCTGCATTTTTTGTCATCGGGCTGATTGGCAAATTCGCAATGCACCTTGCGGCAAAAAAGAAACCGTTAAAAAAAGAGACAGCGTAA	MNILRIIFSSVPYVMFVIILSRHLGFEFAKTYYWWFAAFFVIGLIGKFAMHLAAKKKPLKKETA				NA	NA	NA	NA	NA
D1-12_03960	810	glpQ_4	COG0584	Glycerophosphodiester phosphodiesterase	ATGAAAAAATTAAAGTATTTAGCGGTTATAGCATTACTTTCCATTTCCGGAGGCTGCTCCGTCATCCATGCTTCCGCCGGCTATCATCCTGTCTTGATAGCGCACAGGGGCTCTTCTGCGATTGAGCCGGAACATACAGCTTTGTCTTATGCGCGTGCCATTAAAGACAAAGCAGATTATATTGAGATAGACTTACGGGAGACAAAGGACGGCCATCTGATTGCAATTCACGATAAAACGGTAGATCGGACAACAGATGGTAAAGGGATGGCAGATGATCTGTCTTTGGCTCAGATTAAGAAACTGAATGCGGGAAAAGGAGAAAAGATTTTAACATTAGAAGAAATCATACAGAAATTCGGACAAACTGCCAATTACTATATTGAGACAAGAGAAAGCAACGGCAGCCTGGTGATGGAAAAGAAACTGATTGACATATTACAAAAACATAAGCTGATTTCCGGCCATAAAGCAGTCATTGAGTCTTTTAGCGGGAAGAGCTTAAAGAAAGTTCGATCTATGAATAAAAAAGTTCCTCTTGTTCGATTATTAAAAGATAACGAGGCTGAGAAGATAAATGATAAGCAGCTGCAAACCATCAGAACGTATGCTGATACAGTCGGGCTCAACGCCAAATTGGCAAATGAAGCAGTCGTGAAGCGCATTCATCACAATAAGATGAAAGTGCACGTGTTTTTTGATAAGGAAGACGAGCATACGCTGACGCCTATTATGCTGAAACAAAAAGCAGATGGTATCTTTACAAACAATCCCGCTTATACACGCGGCGTGCTGCAAAACAGTAAATAA	MKKLKYLAVIALLSISGGCSVIHASAGYHPVLIAHRGSSAIEPEHTALSYARAIKDKADYIEIDLRETKDGHLIAIHDKTVDRTTDGKGMADDLSLAQIKKLNAGKGEKILTLEEIIQKFGQTANYYIETRESNGSLVMEKKLIDILQKHKLISGHKAVIESFSGKSLKKVRSMNKKVPLVRLLKDNEAEKINDKQLQTIRTYADTVGLNAKLANEAVVKRIHHNKMKVHVFFDKEDEHTLTPIMLKQKADGIFTNNPAYTRGVLQNSK	PGPT0018470_5020	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-12_03961	1083	ytpB		Tetraprenyl-beta-curcumene synthase	ATGTTGACAGTACCGGAACATCCTTTTAACCTTATGGCAAAAGTGTATCGGGAAATTTTTCCGCTCGTTCATCAGGAATTGAACATGTGGCGGGAAAAATCAGATTCCATTAAAAATACCGAGCTGCGGCAGCAGGCGGCTGCAAGTATCCGCGATAAATCGTTTCATTGTGAAGGCGGCGGCATTTTAGCCCTGCTTTCGGGAGAGCAAAAACAGAAATGCGTGCAATTTATCATCGCGTATCAGACAATCAGTGATTATCTGGACAATCTGTGCGACCGCAGCACCTCGCTTGATCCCGAGGACTTCCGCATGCTTCATCTTTCCATGCGTGACGCGCTGACGGTCGGTGCCGAGGTGCGGCCGTACTATCAGTACAGAGACGAGCGGGATGACGGCGGTTATCTTCATGAGCTGGTCAGAACATGCCAGCGGGTGCTCGGGTCAATAGAACATTACGGTATCATTAAACCTTATTTGCTTGAGCTGTGTGATTATTATTGCGATCTTCAGGTTCATAAGCATGTCGTTGAGCATGAACGCGTTCCGAGGCTTAAAGGCTGGTTTGAGCAGTACCGGTCACAGCTTCCGGAAATGGAGTGGTTTGAATTCTCGGCTTGTGCCGGATCGACGTTAGGCATTTTCTGTCTCGTTGCTTACTCATTCCAGCCTGATTTTAACGAACATACCGCTGAGAAAATCCGCAGCAGTTATTTTCCGTACATACAAGGGCTGCATATACTGCTCGATTATTTAATTGACCAGGAAGAGGATCTGCTTGAAGGCGATCTGAATTTCTGTACGTATTATCAGTCTCATGAAGAAATGATGCAGAGACTGCAGCATTTTATTGAAAAAGCGGATGAACATTTGAAAGGCATTCCGCATGAAAATTTTCACCGGCTGATCAACAGGGGGCTGCTCGGCGTCTATTTATCCGATGACAAAGTCGCCGGCCAAAAAGAAATGGGCCGCCTCGCGCGAAAGCTGATCAGGGCAAGCGGAAAAACGTCATTTTTCTTTTATATCAACGGAAGAGCCTACCGCAAATTTCAGAAGATGGCTTGGACGAAAAGTTCGTAA	MLTVPEHPFNLMAKVYREIFPLVHQELNMWREKSDSIKNTELRQQAAASIRDKSFHCEGGGILALLSGEQKQKCVQFIIAYQTISDYLDNLCDRSTSLDPEDFRMLHLSMRDALTVGAEVRPYYQYRDERDDGGYLHELVRTCQRVLGSIEHYGIIKPYLLELCDYYCDLQVHKHVVEHERVPRLKGWFEQYRSQLPEMEWFEFSACAGSTLGIFCLVAYSFQPDFNEHTAEKIRSSYFPYIQGLHILLDYLIDQEEDLLEGDLNFCTYYQSHEEMMQRLQHFIEKADEHLKGIPHENFHRLINRGLLGVYLSDDKVAGQKEMGRLARKLIRASGKTSFFFYINGRAYRKFQKMAWTKSS				NA	NA	NA	NA	NA
D1-12_03962	780	ytpA	COG2267	Phospholipase YtpA	ATGTGGACTTGGAAAGCAGACAGGCCCGTCGGTACCATTGTCATTATCCACGGGGCGAGCGAATACCACGGGCGTTATAAATGGCTCGTTGAAATGTGGAGATCTTCCGGATATAACGTGGTGATGGGCGATTTGCCCGGTCAGGGAACGTCGACCCGCGCCAGAGGGCATATTCGCTCTTTCCAAGAATACATTGATGAAGTAGATATATGGATTGATAAAGCGAGAACGCTTGAAGCGCCCGTTTTCCTTTTGGGCCACAGCATGGGCGGACTGATTGCGATAGAATGGTTTAAGCAGCAGAGAAATCCCCGCATTACGGCACTCATTTTATCATCACCTTGTCTGGGTCTGCAAATAAAAGTCAATAAAGTCCTTGATTTTGCGTCTAAAGGACTGAACGTCCTCGCTCCGTCCCTCAGAGTGGATTCCGGCTTATCACCTGATATGGCAACGAGGAATGCGGATATGATTGAAGCGGATCAAAACGATTCTTTATATGTCACGAAGGTATCCGTAAGATGGTACAGAGAGCTTTTAAAAACCATTGATGCCGCTATGGTGCCGACTGATGCGTTTTTAAAGGTGCCGCTTTTGCTTATGCAGGGCGGAGATGACAAAATCGTCGATAAAATGAAGGTCCGCAAATGGTTTTCCGGTGTGGCTTCCCATAATAAATCGTACCGGGAATGGGAAGGGCTTTATCATGAAATTTTTAATGAACCGGAAAGAGAAACTGTGTTTAAGGCGGCAAAAGCCTTTACAGATCAGTATATTTGA	MWTWKADRPVGTIVIIHGASEYHGRYKWLVEMWRSSGYNVVMGDLPGQGTSTRARGHIRSFQEYIDEVDIWIDKARTLEAPVFLLGHSMGGLIAIEWFKQQRNPRITALILSSPCLGLQIKVNKVLDFASKGLNVLAPSLRVDSGLSPDMATRNADMIEADQNDSLYVTKVSVRWYRELLKTIDAAMVPTDAFLKVPLLLMQGGDDKIVDKMKVRKWFSGVASHNKSYREWEGLYHEIFNEPERETVFKAAKAFTDQYI	PGPT0023520_1295	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
D1-12_03963	519	yrdA	COG0663	Protein YrdA	ATGATAATCTACCCTTATAAACAATTTACGCCTGACATACATCCTGAAGCGTTCATTGCGGATAACGCCGTCATTACGGGCGACGTCGTGATCGGAGAACAATCAAGCATCTGGTTCTCGGCCGTCATCCGGGGGGATGTTGCGCCGACAAGGATCGGAAAAAGAGTCAGCATACAGGACTTGAGCTGTCTGCATCAAAGTCCGAACCGCCCGCTTCTTATTGAAGATGACGTCACGATCGGCCATCAGGTTACACTGCACAGCGCAATCATCAAAAAGAATGCTTTAATCGGTATGGGCTCCGTCATTCTTGACGGGGCGGAAATCGGAGAAGGCGCGTTTATCGGCGCCGGAAGTCTCGTTCCTCCGGGCAAAACCATTCCTCCCGGCTGTCTTGCGTTCGGCCGGCCCGCAAAGGTTATCCGCCGGCTGACAGAAGAAGACATACAGGACATGGAAAGAATCAGAACGGAATATGTTGAAAAAGGCCGATATTATAAAACACTGCAAAAGAAATAA	MIIYPYKQFTPDIHPEAFIADNAVITGDVVIGEQSSIWFSAVIRGDVAPTRIGKRVSIQDLSCLHQSPNRPLLIEDDVTIGHQVTLHSAIIKKNALIGMGSVILDGAEIGEGAFIGAGSLVPPGKTIPPGCLAFGRPAKVIRRLTEEDIQDMERIRTEYVEKGRYYKTLQKK	PGPT0002425_594	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
D1-12_03964	1404	proY	COG1113	Proline-specific permease ProY	ATGCAAAACAAAGAAAAAACGCTTCACCGCGGCTTGGAAGAGCGGCATATCTCGCTTATGTCGTTGGGCGCCGCGATTGGAGTCGGGCTGTTTCTCGGGTCGGCTTCTGCCATAAAGCTTGCCGGGCCGGGGATTTTAGCCGCTTACGCCTGCAGCGGACTGATTATGTTTTTTATTATGCGGGCATTAGGGGAAATGGCGATTCAAAAGCCTGTAGCCGGCTCATTCAGCCGGTATGCCAGAGATTATCTCGGTCCGCTTGCCGGGTTTTTAACAGGCTGGAATTATTGGTTTTTATGGGTTGTTACCTGCATGGCGGAAATCACCGCGGTCGGCATTTATATGGGCTACTGGTTCCCTGACGTGCCGTCATGGATCTGGGCGCTTTGTGCACTCGTCATTATGACGGCTGTCAACTTTCTGGCGGTCAAAGCGTACGGTGAGCTTGAATTCTGGTTTGCGCTCATTAAAGTCTTGGCGATTCTGTCAATGATCGCGATCGGTCTGGTGATGATCGTATTCGGTCTCGGAAACGGAGGCGTTGCGCTCGGAATCAGCAATTTATGGAGCCACGGCGGCTTTTTCCCGAATGGGATTAAAGGGGTGCTGCTGTCGCTTCAAATGGTCATGTTTGCCTATCTCGGGATTGAGCTGATCGGTGTCACAGCCGGTGAGGTCAAAAATCCGGAAAAATCACTGGCGCGGGCCATAGATACTGTTTTTTGGCGCATTCTCATTTTTTACGTCGGAGCTTTGTTTGTCATTATGTCAATTTATCCGTGGCAGGAAATCGGTTCAGGCGGAAGCCCGTTTGTTTTGACATTTGAAAAAATCGGAATACCCGCTGCAGCCGGAATCATTAATTTTGTCGTATTGACGGCGGCTCTTTCTTCCTGCAACAGCGGGATCTTCAGTACGGGGCGCATGCTGTTCAATCTGGCGGAACAAAATGAAGCGCCTAAAGCATACGGTACGGTCACAAAAGGCGGTGTGCCGGGAAAAGCGGTATTGGTTTCAGCGGGCGCGTTGTGCATCGGCGTTTTGTTGAACTACGTGGTGCCGGCGAAAGTGTTTACGTGGGTGACGAGCATTGCGACGTTCGGGGCGATTTGGACATGGTCGATTATTTTGCTTTCCCAAATGAAATACCGTAAAAGCTTACAGCCGGAACAACGGAAAAAACTGAAATATAAAATGCCTTTATACCCCTTTTCCTCATATATCTCGCTGGCATTTCTCGCTTTTGTCGTTGTGCTGATGGCTTTTGATGCAGAGACCAGGGTGGCCGTCATCATCGGTCCTGTCTGGTTCGGCATATTATTAGCCGCCTATTACGGGAAAGGTTTCCATAAAAGAAAAGACATAGGTCTGGAAAACGGACAGACATTCGCCGAAAAAGCGTAA	MQNKEKTLHRGLEERHISLMSLGAAIGVGLFLGSASAIKLAGPGILAAYACSGLIMFFIMRALGEMAIQKPVAGSFSRYARDYLGPLAGFLTGWNYWFLWVVTCMAEITAVGIYMGYWFPDVPSWIWALCALVIMTAVNFLAVKAYGELEFWFALIKVLAILSMIAIGLVMIVFGLGNGGVALGISNLWSHGGFFPNGIKGVLLSLQMVMFAYLGIELIGVTAGEVKNPEKSLARAIDTVFWRILIFYVGALFVIMSIYPWQEIGSGGSPFVLTFEKIGIPAAAGIINFVVLTAALSSCNSGIFSTGRMLFNLAEQNEAPKAYGTVTKGGVPGKAVLVSAGALCIGVLLNYVVPAKVFTWVTSIATFGAIWTWSIILLSQMKYRKSLQPEQRKKLKYKMPLYPFSSYISLAFLAFVVVLMAFDAETRVAVIIGPVWFGILLAAYYGKGFHKRKDIGLENGQTFAEKA	PGPT0000815_867	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
D1-12_03965	1899	asnB	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGTGGATTTGTCGGTGTTTTTAATAAGCATCCATTAACTCAAACCGCAGATCAAGAAGAGCTAATCAAACAAATGAACCAAATGATCGTTCACCGCGGTCCTGACAGCGATGGGTATTATCATGACGAGCACGTCGGATTCGGCTTCAGACGGCTCAGTATTATTGACGTAGAAAACGGCGGACAGCCTTTATCATATGAAGACGAAAAATATTGGATCATTTTTAACGGCGAAATCTATAACTACATTGAATTGAGAGAAGAGCTTGAAGCGAAAGGCTACACTTTCAATACAGATTCCGATACTGAAGTGCTCCTTGCGACATACCGTCATTATAAAGAAGAAGCCGCTTCAAAGCTTCGCGGAATGTTTGCGTTTTTAATCTGGAACAAAGCTGACCGCGTTATGTACGGCGCGAGAGACCCGTTCGGCATTAAGCCGCTGTATTACACAACCATCGGGGACAAAGTATATTTTGCATCTGAAAGAAAAAGTTTAATGGCCGCTCAAAACGGCATTGATCTTGATACAGCTTCTTTACAGCAATATATGTCTTTCCAATTCGTTCCTGAACCGAGCACGCTTGACGCTGAAGTGAAAAAAGTCGAGCCGGGCAGCCAGTTTACGATCCGCCCGGAAGGCGACATCGCGTTTAAAACATATTTCAAAGCGAACTTCAAGCCTGTTCAGTCTGATGAAGATAAATTGGTGAAAGAAGTCAGAGACGCAATCTTTGACTCTGTCAAAGTTCACATGAGAAGTGACGTTCCTGTCGGTTCGTTTCTATCCGGCGGTATCGACTCTTCTTTTATCGTCTCAGTTGCGAAAGAATTTCACCCGAGCCTTAAAACATTTTCCGTCGGTTTTGAGCAGCAGGGCTTCAGTGAGGTTGACGTAGCGAAGGAAACGGCTGCCGCGCTCGGGATTGAAAATATCAGCAAAGTCATTTCTCCTGAGGAGTATATGAACGAGCTTCCGAAAATCGTCTGGCACTTTGATGACCCGCTTGCAGATCCGGCGGCGATTCCTTTGTACTTTGTCGCAAAAGAAGCGAAAAAACATGTAACGGTCGCGTTATCCGGGGAAGGCGCGGACGAGCTGTTCGGCGGGTACAATATTTACCGCGAACCGCTTTCGCTTAAACCGTTTGAACGCATTCCGTCCGGTCTGAAAAAAATGCTTCTTCATGTGGCGTCCGTCATGCCTGAAGGAATGAGAGGGAAAAGCCTCTTAGTCCGCGGCTGCACACCGCTTGAGGAGCGTTATATCGGTAATGCGAAGATTTTTGAAGAGCCCGTGAAAAAACAGCTGCTCAAACATTACAATCCAGAGCTTTCATACCGTGATGTCACGAAGCCGTACTTTACGGAAAGCCGTTCATACAGCGACATTAATAAAATGCAGTATGTTGACATCCATACGTGGATGCGCGGCGACATCCTGTTAAAGGCTGACAAAATGACGATGGCCAACTCATTGGAACTGCGCGTGCCGTTCCTTGATAAAGTCGTGTTTGACGTGGCTTCTAAAATTCCGGATGAACTGAAAACGAAAAACGGCACGACGAAATACCTTCTGCGCAAAGCTGCTGAAGGGGTAGTGCCTGATCATGTGCTTAACCGCAAAAAACTCGGCTTCCCTGTGCCGATCCGCCACTGGCTGAAAAATGAAATGAACGAATGGGTTCGCAACATCATTCGTGAAAGTGAAACAGATGCTTATATTGAAAAGGATTATGTCCTTCAGCTTCTAGAAGATCATTGTGCCGACAGAGCGGACAACAGCCGCAAAATCTGGACCGTGCTGATCTTCATGATCTGGCACAGCATCAATCTTGAAAAAAGACTGGTGCCGGAAGAGCTGAATCATCAGCCGAAAGAAGTCATTTTCGTTTAA	MCGFVGVFNKHPLTQTADQEELIKQMNQMIVHRGPDSDGYYHDEHVGFGFRRLSIIDVENGGQPLSYEDEKYWIIFNGEIYNYIELREELEAKGYTFNTDSDTEVLLATYRHYKEEAASKLRGMFAFLIWNKADRVMYGARDPFGIKPLYYTTIGDKVYFASERKSLMAAQNGIDLDTASLQQYMSFQFVPEPSTLDAEVKKVEPGSQFTIRPEGDIAFKTYFKANFKPVQSDEDKLVKEVRDAIFDSVKVHMRSDVPVGSFLSGGIDSSFIVSVAKEFHPSLKTFSVGFEQQGFSEVDVAKETAAALGIENISKVISPEEYMNELPKIVWHFDDPLADPAAIPLYFVAKEAKKHVTVALSGEGADELFGGYNIYREPLSLKPFERIPSGLKKMLLHVASVMPEGMRGKSLLVRGCTPLEERYIGNAKIFEEPVKKQLLKHYNPELSYRDVTKPYFTESRSYSDINKMQYVDIHTWMRGDILLKADKMTMANSLELRVPFLDKVVFDVASKIPDELKTKNGTTKYLLRKAAEGVVPDHVLNRKKLGFPVPIRHWLKNEMNEWVRNIIRESETDAYIEKDYVLQLLEDHCADRADNSRKIWTVLIFMIWHSINLEKRLVPEELNHQPKEVIFV	PGPT0020150_1787	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
D1-12_03966	1203	metK		S-adenosylmethionine synthase	ATGAGTAAAAACCGTCGACTATTTACATCTGAATCTGTTACTGAGGGTCATCCGGACAAAATCTGTGACCAAATTTCTGACAGTATCTTAGATGAGATTTTAAAAAATGACCCGAACGCGCGCGTGGCCTGCGAAACATCTGTAACGACAGGACTTGTGCTGGTAAGCGGAGAGATTACTACATCAACATACGTTGACATTCCGAAAACAGTCCGTGAAACGATTAAAGAAATCGGCTACACACGCGCCAAATACGGATTTGATGCGGAGACTTGCGCTGTTTTAACATCAATTGATGAACAGTCTGCGGATATCGCAATGGGTGTCGATCAGGCTCTTGAAGCGCGTGAAGGCACAATGAGCGATGCTGAAATCGAAGCAATCGGAGCGGGAGACCAAGGCCTGATGTTCGGTTATGCGTGTAACGAAACGAAAGAGCTTATGCCGCTTCCGATCTCTTTGGCGCATAAATTAGCCCGCCGTTTGAGCGAAGTCCGCAAAGAAGACATTCTTCCGTATCTTCGCCCTGACGGCAAAACGCAAGTTACCGTTGAATATGATGAAAACAACAAGCCGGTCCGCATCGACGCGATCGTTATTTCAACTCAGCACCACCCGGAAATTACGCTTGAGCAGATTCAGCGCAATCTGAAAGAGCATGTCATTAATCCTGTCGTGCCTGAGGAACTGATCGATGAAGAAACAAAATACTTCATCAACCCTACGGGACGTTTCGTAATCGGCGGACCTCAAGGTGACGCGGGTCTTACCGGCCGTAAAATCATCGTTGACACATACGGCGGATATGCACGCCACGGCGGCGGCGCATTCTCCGGTAAGGATGCGACGAAGGTAGACCGTTCTGCGGCATACGCTGCGAGATACGTAGCGAAAAACATCGTGGCAGCAGGCCTTGCTGATTCTTGTGAAGTGCAGCTTGCATACGCAATCGGCGTGGCACAGCCTGTTTCTATTTCCATCAATACATTTGATACAGGAAAAGCTTCTGAAGAAAAACTGATCGAAGTCGTACGGAATAACTTCGACCTGAGACCTGCCGGCATTATTAAAATGCTTGATCTGCGCCGCCCGATCTATAAGCAGACTGCTGCTTACGGCCACTTCGGACGTCATGATGTGGATCTTCCTTGGGAGCGTACTGACAAGGCGGATGCGCTTCGCAAAGAAGCACTAGGAGAATAA	MSKNRRLFTSESVTEGHPDKICDQISDSILDEILKNDPNARVACETSVTTGLVLVSGEITTSTYVDIPKTVRETIKEIGYTRAKYGFDAETCAVLTSIDEQSADIAMGVDQALEAREGTMSDAEIEAIGAGDQGLMFGYACNETKELMPLPISLAHKLARRLSEVRKEDILPYLRPDGKTQVTVEYDENNKPVRIDAIVISTQHHPEITLEQIQRNLKEHVINPVVPEELIDEETKYFINPTGRFVIGGPQGDAGLTGRKIIVDTYGGYARHGGGAFSGKDATKVDRSAAYAARYVAKNIVAAGLADSCEVQLAYAIGVAQPVSISINTFDTGKASEEKLIEVVRNNFDLRPAGIIKMLDLRRPIYKQTAAYGHFGRHDVDLPWERTDKADALRKEALGE	PGPT0020000_2123	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
D1-12_03968	1584	pckA		Phosphoenolpyruvate carboxykinase (ATP)	ATGAAATTAGTTGATTTAACCGCAGATCTTCAAGCATTACTTGCAAGTCCGAATGTGCATCATAATTTATCGGCTCCAAAACTTACCGAAAAAGTGATCAGCCGAAATGAAGGAACGCTGACATCAACGGGCGCCGTACGCGCCACCACCGGCGCTTATACAGGCAGGTCACCTAAAGATAAATTTATCGTCCGTGAACAAAGCACAGAAAATCAAATTGATTGGGGCGCGGTGAATCAGCCCATTTCTGAAGAGGCGTTTGAAAAGCTGTACGCCAAAGTCGTCAGCTACTTAAAACAGCGGGATGAACTGTTTGTTTTTGAAGGATTCGCAGGAGCGGATGAAAAATACAGACTCCCGATTACGGTCGTAAATGAATTTGCGTGGCACAATTTATTCGCACGCCAGCTGTTTATCAGACCGGAGACGGATGAAAGAGATCCGCAAGCGCAGCCTTTCACCATTCTCTCGGCTCCGCATTTTAAAGCAGATCCGGAGACGGACGGCACGCATTCGGAAACATTTATCATTGTCTCTTTCGAAAAGCGCGTCATTTTAATCGGCGGCACCGAATACGCCGGAGAAATGAAAAAATCAATATTCTCCATTATGAACTTCCTGCTTCCGCAGCAGGATATACTGCCGATGCACTGCTCAGCCAATGTCGGTGAAAAAGGCGATGTCGCCCTGTTTTTCGGTCTTTCCGGCACAGGGAAAACGACGCTTTCAGCCGATGCGGACCGCAAACTGATCGGCGATGACGAGCACGGCTGGTCAGATTCCGGCGTTTTCAACATTGAAGGCGGATGTTACGCTAAATGTATCAATCTGAGCGAGGAAAAAGAACCGCAGATTTTTCGTGCGATCCGCTTCGGGTCTGTTCTTGAGAATGTCGTGCTTGATGAAAAAACGGGTGAAGCGGATTACGATAATTCCTTCTACACGGAAAACACAAGAGCCGCATATCCGATTGAGATGATCGGCAATATCGTGCAGCCGAGCATTGCCGGCCATCCGCAGGCGATCGTCTTTTTAACGGCGGACGCATTCGGTGTGCTCCCTCCGATCAGCAAACTGACGAAGGAACAGGCGATGTATCACTTCTTAAGCGGGTACACCAGTAAACTCGCGGGAACCGAGCGCGGCGTGACATCTCCGCAAACGACTTTCTCGACGTGCTTCGGTTCACCGTTCCTTCCGCTTCCGGCGCATGTATATGCCGAAATGCTCGGGCATAAAATCGACGAACACGGCGTTCAAGTCTTCCTGGTCAACACAGGCTGGACCGGCGGAGGGTACGGAGTCGGAGAACGGATGAAACTTTCGTATACAAGAGCGATGGTCAAGGCCGCTATTGAAGGCAGACTGAACCAGACTGACATGACGGCAGACAGCATTTTCGGCCTGCGCAGTCCCGTTCATGTTCCGGGCGTTCCGGATGAAGTTCTTCAGCCTGAAAACACATGGAGCGATAAACAAGCATACAACGAAAAAGCGCTGTTTTTAGCCAATGAGTTTAAAGAAAACTTTAAAAAGTTTTCCCATGCAGACTCGATTGCCAAAGCCGGCGGACCTCTCGTGTAA	MKLVDLTADLQALLASPNVHHNLSAPKLTEKVISRNEGTLTSTGAVRATTGAYTGRSPKDKFIVREQSTENQIDWGAVNQPISEEAFEKLYAKVVSYLKQRDELFVFEGFAGADEKYRLPITVVNEFAWHNLFARQLFIRPETDERDPQAQPFTILSAPHFKADPETDGTHSETFIIVSFEKRVILIGGTEYAGEMKKSIFSIMNFLLPQQDILPMHCSANVGEKGDVALFFGLSGTGKTTLSADADRKLIGDDEHGWSDSGVFNIEGGCYAKCINLSEEKEPQIFRAIRFGSVLENVVLDEKTGEADYDNSFYTENTRAAYPIEMIGNIVQPSIAGHPQAIVFLTADAFGVLPPISKLTKEQAMYHFLSGYTSKLAGTERGVTSPQTTFSTCFGSPFLPLPAHVYAEMLGHKIDEHGVQVFLVNTGWTGGGYGVGERMKLSYTRAMVKAAIEGRLNQTDMTADSIFGLRSPVHVPGVPDEVLQPENTWSDKQAYNEKALFLANEFKENFKKFSHADSIAKAGGPLV	PGPT0001405_2228	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
D1-12_03969	243	ytmB		putative protein YtmB	TTGGGAATGCCTGTTGAATTTAATACCATGATTGTGACAAAAGGCAATGAAAAACGGATAGAGGAAAATATCTTTTTATTGGAGAAAGAGGGCTACCGCGTCTATCCTCTTGATATTCCGATGGACGTGCGCAAAACGAAAACCGGCGAGAAATCCGGCACCGGCGAGGTCCAAAAGCTCGAATGGGCGAACGGCCGGACAAGCATTACATACAGACTCACGTCGCTTCATTCGACAAACTGA	MGMPVEFNTMIVTKGNEKRIEENIFLLEKEGYRVYPLDIPMDVRKTKTGEKSGTGEVQKLEWANGRTSITYRLTSLHSTN				NA	NA	NA	NA	NA
D1-12_03970	774			hypothetical protein	TTGCTGGCAGAAAAGAAAAGGTTCCCGTCTCCGAGTCCGCATGTCCGCCTCTTTGAGGTATGCTATGAGTCAGAAGGGCTGAAGGTAAAGGGGCTCCTTGCCGAGCCTGCGGCGCCGGGCACATATGACGGTTTTTTATATTTGCGCGGCGGCATAAAAAATGTCGGCATGGTACGCCCCGGAAGAATCGTTCAATTCGCTTCCCAAGGCTTTGTCGTGTTTGCGCCTTATTACAGAGGCAACCAGGGCGGCGAGGGAAATGAAGATTTTGCGGGAGAGGACAGAGAGGACGCGTTTTCCGCTTTTCGCCTGCTTCGGGAGCATCCGAACGTCAGGGAAGGGCGGGTGCATATTTTCGGTTTTTCCCGGGGCGGAATCATGGGGCTTTTGACCGCGATTGAAATGGGGCATCAAGCGGCTTCGCTCGTATCATGGGGCGGTGTGAGCGATATGGTGCTTACTTATGAAGAGCGGAAGGATATGCGGCGGATGATGAAGCGGGTGATCGGCGGCACGCCGAAAAAGGTGCCGGATGAATACAGATGGCGTTCGCCGTTTGAAAACGCAGACCGCATTCAGGCCCCTGTACTTCTCATCCATGGAGAGAATGATAAGAATGTTTCGATCGAACACGCCCGGATGATCGAGGACAAGCTGAAAGAGGCGGGGAAACCGGTGGAAACCTGGTATTACAGCGGTTTTACGCATTATTTTCCGCCGCAGGAAAACAGACGCATTGTCCGGCGGCTGGCGGAATGGATGAAGACACGGTAA	MLAEKKRFPSPSPHVRLFEVCYESEGLKVKGLLAEPAAPGTYDGFLYLRGGIKNVGMVRPGRIVQFASQGFVVFAPYYRGNQGGEGNEDFAGEDREDAFSAFRLLREHPNVREGRVHIFGFSRGGIMGLLTAIEMGHQAASLVSWGGVSDMVLTYEERKDMRRMMKRVIGGTPKKVPDEYRWRSPFENADRIQAPVLLIHGENDKNVSIEHARMIEDKLKEAGKPVETWYYSGFTHYFPPQENRRIVRRLAEWMKTR				NA	NA	NA	NA	NA
D1-12_03971	1005			hypothetical protein	GTGAACAAATGGCTCAAAACGGGCTGCGTTTTTGTCATATGCGCCTTTTTCCTGCTCATTCTTCCGGCCTGCAGACAGGAAGAAAGTCTGACGAAGGTAAAGGTGGCGGAAGTCACACACTCCATCTTCTATACGCCTCTGTATGTCGCTGAAGCAAAAGGTTTCTTTAAAAAAGAAGGGCTCCAAGTGTCACTTCAAACAACATGGGGCGGAGACAAAACGATGACATCGCTTTTGTCAAACGGGTCTGATATCGCGCTGGTCGGTTCTGAAACATCCATTTACGTGGAAGCGCAGGGAGCAAAAGATCCGGTCATCAACTTCGCGCAGCTGACACAGACGGACGGCACATTTCTCGTGTCACGGAAGGATGAGAAATCATTCAAATGGAGCGATTTAAAAGGAAAAACATTTCTCGGCCAGCGAAAAGGCGGCATGCCCCAAATGGCCGGTGAGTACGCCCTGAAAAAGAATCACATAGAACCGAAAAAAGACATTAACCTCGTTCAAAACATTGATTTCGCCAATATTTCCAACGCATTCGCATCCGGAACGGGTGATTATGTGCAGCTGTTTGAACCGACGGCATCCCAATTTGAAAAAGAAGGCATCGGCCATATCGTCGCATCCTTCGGAGAAGCTTCCGGCCAAGTGCCATACACAACCTTTATGGCAAAAGAAAGTTATTTGAAAAGCAATGAAAAGACGGCGGAAAAATTCACCCGCGCCATCTATCGCGCCCAGCAATGGGTGGAAAGCCATCCGGCCAAAGACATCGCAAAAACGATTCAGAAGGAATTTGCCGATACAGATCCGGCCATTATCGAAACATCAATAGAGCGCTATAAAAAACAAAAGTCATTCTCTGCAGACCCAGTTCTGCAAAAGGATGAATGGGAACAGCTTCAATCTATTATGGATGAAGCCGGAGAGCTCCCGAAACACATTCCGTACAGCAAACTCGTCAACACAAAAATCGCCAAAAAAGTCACCTCAGAACAATAG	MNKWLKTGCVFVICAFFLLILPACRQEESLTKVKVAEVTHSIFYTPLYVAEAKGFFKKEGLQVSLQTTWGGDKTMTSLLSNGSDIALVGSETSIYVEAQGAKDPVINFAQLTQTDGTFLVSRKDEKSFKWSDLKGKTFLGQRKGGMPQMAGEYALKKNHIEPKKDINLVQNIDFANISNAFASGTGDYVQLFEPTASQFEKEGIGHIVASFGEASGQVPYTTFMAKESYLKSNEKTAEKFTRAIYRAQQWVESHPAKDIAKTIQKEFADTDPAIIETSIERYKKQKSFSADPVLQKDEWEQLQSIMDEAGELPKHIPYSKLVNTKIAKKVTSEQ	PGPT0001135_5331	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-12_03972	783	ssuB_2	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGTCTTTTTTACATGTCGATCATGTAACACATACTTATTTCTCGCTGAAAGAAAAGACAACCGCCGTGAAAGATATACATTTTCAGATTGAAAAAGGGGATTTCATCTCCTTTCTCGGGCCGAGCGGATGCGGAAAAACAACACTCCTGTCCATTCTGGCCGGCCTTATCACCCCTGCGCAAGGCCGGGTGCTGATTGAAGGAAGCGTGCCGAACCATAAAGAACACCAAATCGGTTATATGCTTCAGCAGGATTATTTATTTCCTTGGAAATCAATTGAGGAAAACGTGCTGCTCGGTTTACACATTTCAAAAACATTAACAGAAGAAAAAAGAGCTGAAGTTCTCAGCCTTCTGCCTAAGCTCGGATTAATCGGCGTTGAAAAGAAATACCCGAAAGAGCTGTCAGGCGGGATGCGGCAGCGGGCGGCACTTGCCAGAACTCTTGCGCCGGACCCGGGCCTGCTGCTCCTTGATGAACCGTTTTCCGCGCTGGACTTTCAAACGAAGCTTTCTTTAGAAAACCTTGTCTTCAGAACATTAAAGGATTTTCAAAAAACCGCCGTGCTCGTCACCCACGATATCGGTGAAGCCATCGCCATGAGCGATACGATCTATTTATTTTCGAATCAGCCGGGCACCATCCACCAAATATTCACCGTGCCTAAGGAGCTCGCGGCTTTAGATCCGTTTGACGCGCGTCAGGATCCGGCCTTTCAGCCGCTGTTTCAAACCATATGGAAGGAGCTGAATTCCCTTGAAAAACAGCAGCGGCACGATTGA	MSFLHVDHVTHTYFSLKEKTTAVKDIHFQIEKGDFISFLGPSGCGKTTLLSILAGLITPAQGRVLIEGSVPNHKEHQIGYMLQQDYLFPWKSIEENVLLGLHISKTLTEEKRAEVLSLLPKLGLIGVEKKYPKELSGGMRQRAALARTLAPDPGLLLLDEPFSALDFQTKLSLENLVFRTLKDFQKTAVLVTHDIGEAIAMSDTIYLFSNQPGTIHQIFTVPKELAALDPFDARQDPAFQPLFQTIWKELNSLEKQQRHD	PGPT0001140_5577	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-12_03973	813	ssuC_2	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	TTGAAAAACAGCAGCGGCACGATTGAACAGCTTCATCAGCAGTTTAAGAAAAGACACCAAAAAGAAAAGTTCCGGATCCGTGCGTATCAGGCCGCCATTTTCATCGTATTTTTTGCCGGCTGGGAAATATCGAGCAGGGCGGGCTGGATCGATCCGTTAATCTTCAGCTCACCCTCCGCCGTTTGCAGGCTTTTAGTTGAAAAGATTGCGGACGGATCCCTTGCGGCGCACATCGGCGTTACCTTAGGCGAAACCGTTCTCGGCTTTTTGCTCGGCACGCTCCTCGGCACATGCCTCGCCGCTCTGTTATGGTGGTCAAACAGGCTCGCCCGGGTTTTAGACCCGTACCTCGTCATTTTAAACGCGATGCCGAAGGTCGCACTCGGACCGATTCTCATCGTGGCACTCGGACCGAATTTCACAAGCATTGTCGCCATGGGAGCAGTCATCAGTGTCATTATCACGACAATCGTCGTCTTTACGGCTTTTCAGGAAGTGGATGAAAACTATATTAAGGTGATGAAAACCTTCGGAGCGAAAAAAAGCATCATGTTTAAAGAAGTCATTCTGCCGGCGTGCGCCCCCGCGATTATTTCCGCGCTTAAAGTGAACGTCGGTTTATCCTGGGTCGGTGTCATCGTCGGCGAGTTTCTCGTTTCCGAAAAAGGTCTGGGCTACATGATCATTTACGGATTCCAGGTCTTCAATTTCACTCTTGTGTTCTTAAGCCTTCTGATCATCGCGATTTTTGCAACATTGATGTATCAGGGAGTCGAACTGTTAGAAAGAAAATGGACGAAAGGAAAAATATAA	MKNSSGTIEQLHQQFKKRHQKEKFRIRAYQAAIFIVFFAGWEISSRAGWIDPLIFSSPSAVCRLLVEKIADGSLAAHIGVTLGETVLGFLLGTLLGTCLAALLWWSNRLARVLDPYLVILNAMPKVALGPILIVALGPNFTSIVAMGAVISVIITTIVVFTAFQEVDENYIKVMKTFGAKKSIMFKEVILPACAPAIISALKVNVGLSWVGVIVGEFLVSEKGLGYMIIYGFQVFNFTLVFLSLLIIAIFATLMYQGVELLERKWTKGKI	PGPT0001145_5086	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-12_03974	480	ytkD	COG0494	Putative 8-oxo-dGTP diphosphatase YtkD	ATGTACGAGTTTAAAGACTATTATCAGAACACTGTTCAGCTCTCCTTTGAACACCAGCCTTTTTCAGACAGCCCGAAGCACGTATGGGTCATATGCCGATATGGAGATAAGTGGCTTTTGACCGAGCATGAAGACCGGGGGTTTGAATTTCCGGGCGGAAAAGTGGAGCCGATGGAATGTGCGGAGGAAGCGGCCCTGCGCGAGGTGAAAGAAGAAACCGGTGCCGCGGTAAGACATCTGAAGTACGTCGGACAGTATAAAGTTCTCGGCAGGGAAAAGGTAATCGTGAAGAATATTTATTTTGCCGATATTGAAAAGCTTGAAAAACAGGCTGACTATTTTGAAACAAAGGGGCCGGTGCTGTTCAGCGAACTGCCGGAGAATCTCCCCCGAAATAAAAAATTCAGTTTCATTATGAAAGATTCGGTGCTTCCGATCAGTCTGAAAAAGCTGAAAGAGGACGGCGTATTTCAATCATAA	MYEFKDYYQNTVQLSFEHQPFSDSPKHVWVICRYGDKWLLTEHEDRGFEFPGGKVEPMECAEEAALREVKEETGAAVRHLKYVGQYKVLGREKVIVKNIYFADIEKLEKQADYFETKGPVLFSELPENLPRNKKFSFIMKDSVLPISLKKLKEDGVFQS				NA	NA	NA	NA	NA
D1-12_03975	405			hypothetical protein	GTGGGCAAAGACTTTGGCATCTTTTCGTTTTTTGCAGTGATCGTGTCGGCAGCGGGGTTTTTCTTCGGAGGTTTTCAGTATTCGTTTCTGATTTTGCTATCGGTCATGGCGATTGAGTTTATCAGTACAAGCTTAAAAGAATCTCTTTTGCAGCAGCTGAGCGCAAGAAAGCTTTTTGCGCGGCTGGTCAAAAAAATCGTGACCCTGGCATTAGTCTCAGTTTGCCATTTTTTTGACCAGCTGCTTCATACCGAAGGCGCCATCCGTAATTTGGCTATCATGTTTTATATCTTATACGAATCGGTTCAGATCGTGATTACGGCAAGCTCGCTGGGCATACCGGTTCCGCAGGTGCTCGTCGACCTATTGGATACCCTGAAAAATAAATTCAAGCGCAAACCGTAA	MGKDFGIFSFFAVIVSAAGFFFGGFQYSFLILLSVMAIEFISTSLKESLLQQLSARKLFARLVKKIVTLALVSVCHFFDQLLHTEGAIRNLAIMFYILYESVQIVITASSLGIPVPQVLVDLLDTLKNKFKRKP				NA	NA	NA	NA	NA
D1-12_03976	438	dps	COG0783	General stress protein 20U	ATGTCAGAAAAACTATTGGATGCAGTCAATAAGCAAGTTGCAAACTGGACGGTCATGTATGTGAAATTACATAACTATCATTGGTACGTCAAAGGGAAGGACTTTTTCACATTGCATGAAAAGTTCGAGGAGCTGTATAACGAAACGGCTACATATATTGATGATCTGGCAGAACGTCTGCTGGCATTAAACGGCAAGCCGATCGGCACAATGACGGAATCATTGAAGACAGCGTCTGTAAAAGAAGCGGAAGGCAATGAGAGCGCAGAACAAATGGTACAGAACATTTATGATGATTTCACTGTCATTGCTGAAGAGCTGAAAAGCGGCATGGACCTCGCAGATGAGGTAGGAGACGAAACGACCGGTGATATGCTGCTTGCCATTCACCAGAATATCGAGAAACATAACTGGATGCTGAAAGCGTATTTAGGATAA	MSEKLLDAVNKQVANWTVMYVKLHNYHWYVKGKDFFTLHEKFEELYNETATYIDDLAERLLALNGKPIGTMTESLKTASVKEAEGNESAEQMVQNIYDDFTVIAEELKSGMDLADEVGDETTGDMLLAIHQNIEKHNWMLKAYLG	PGPT0004055_3981	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
D1-12_03977	150			hypothetical protein	ATGCTGCTTCTTCTGAGCTTCGGCTTTCTTATCGTGCTCGCCGTGCTGCTTTTATCCATCTGGTCGACTGTAAGAGCTTATAATGTAAAACATACGATTGACCCGCCGGAGGACGCATCAAAAGGCTTGACGGATAAAAAAAATCCTTAA	MLLLLSFGFLIVLAVLLLSIWSTVRAYNVKHTIDPPEDASKGLTDKKNP				NA	NA	NA	NA	NA
D1-12_03978	444			hypothetical protein	ATGAAACGGGCTGTATTGGCAGGTATGTGCGGTATGGTATTTCTATTATCTTCCTGCGGGGGCAATTCGGACAAAACCTCCGCGGATGAGGAGCCTAAAGCGCTTGAGGTCAAGCTTACAGGACCGGAAACGGCAGCGCCGCATGAAAAAGCGGAATACAAGGCGGAGGTTTTTTACGGCGGCAAGCGTGTCACGGATGCGGATGAAGTCATGTTTGAAGTATGGAAAGAAGGAAAAAAAGGCAGCAGCAAAACAAGCAAGGCCAAGGAGGAAAAAGGGGCGTATCACCTGCGGACTGAATTTGATGAAGAGGGTGTCTATACCGTTCAATCCCACGTAACGGCAAAACAGCAGCATAATATGCCGACTGTAAAAGTGCGTGTCGGGGATGCTGAAGCTGCCGATGATTCCTCCGGCCATGAGGAACAGACGCATCATCATTAA	MKRAVLAGMCGMVFLLSSCGGNSDKTSADEEPKALEVKLTGPETAAPHEKAEYKAEVFYGGKRVTDADEVMFEVWKEGKKGSSKTSKAKEEKGAYHLRTEFDEEGVYTVQSHVTAKQQHNMPTVKVRVGDAEAADDSSGHEEQTHHH				NA	NA	NA	NA	NA
D1-12_03979	474	luxS	COG1854	S-ribosylhomocysteine lyase	ATGCCTTCAGTAGAAAGTTTTGAGCTTGACCATAATGCGGTTGTGGCTCCGTATGTAAGACATTGCGGAGTGCATAAAGTCGGAACAGACGGCGTCGTGAATAAGTTTGACATTCGCTTCTGCCAGCCGAACAAACAGGCGATGAAGCCGGATACGATTCATACGCTTGAGCACTTGCTTGCGTTTACGATTCGCACACATTCTGAGAAATACGATCACTTCGACATCATAGATATCTCACCGATGGGCTGCCAGACAGGCTATTATCTTGTTGTCAGCGGCGAGCCGACAGCGGAAGAAATTGTGGACCTGCTTGACGCTACGCTGAAAGAAGCCATCGATATTACGGAGATTCCGGCGGCCAACGAAAAACAGTGCGGCCAGGCGAAACTTCATGATTTAGAAGGCGCGAAACGTCTGATGCGTTTCTGGCTGTCACAAGATAAAGAAGATTTGCTGAAAGTGTTCGGATAA	MPSVESFELDHNAVVAPYVRHCGVHKVGTDGVVNKFDIRFCQPNKQAMKPDTIHTLEHLLAFTIRTHSEKYDHFDIIDISPMGCQTGYYLVVSGEPTAEEIVDLLDATLKEAIDITEIPAANEKQCGQAKLHDLEGAKRLMRFWLSQDKEDLLKVFG	PGPT0016265_966	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016265-luxS-K07173	NA	NA
D1-12_03980	228	yidD	COG0759	Putative membrane protein insertion efficiency factor	ATGAAAACCATAATGATTGCGTTCATCCGCGGATACCAGAAGTTCATCTCTCCGCTGACACCGCCGTCATGCCGCTTTTATCCGACGTGTTCGCAGTACGGAATCGAAGCCGTCAAGACTCACGGCGCATTAAAAGGCGGATGGCTGACACTGAAGCGGATTTTAAAGTGCCACCCTTTTCATCCGGGCGGTGTTGATCCCGTACCGGACAAAAAACAAAAACATTAG	MKTIMIAFIRGYQKFISPLTPPSCRFYPTCSQYGIEAVKTHGALKGGWLTLKRILKCHPFHPGGVDPVPDKKQKH	PGPT0024530_183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0024530-yidC|spoIIIJ|oxaA|ccfA-K03217	NA	NA
D1-12_03981	570	csh_2		Carbon disulfide hydrolase	ATGAGTCTTCTAAACGATATCATGCAATTTAATGAGCAGTTCACTAAAAACAAAGATTATGAAAAATACCAAACATCTAAATTCCCGGATAAAAAGATGGCGATTTTGTCTTGTATGGACACGCGTCTTGTAGAATTGCTTCCGCATGCGATGAACATGCGAAACGGCGATGTGAAAATTATTAAAAGTGCCGGCGCGCTTGTCGCCCACCCGTTCGGAAGTATCATGCGCAGCCTTTTAGTGGCCGTATACGAATTAAACGCCGATGAAGTCTGCGTTATCGGCCACCATGATTGCGGCATGAGCAAAATCAACAGCGAGGATATGCTTGATAAAATTATCGACCGCGGTATTCCGAAAGAGCGGATTGACATGCTGAAGCACTCAGGAGTTGATCTTGATCAATGGCTGAAAAGCTTTGATTCAGTAGAAGCGAGTGTTACAGACAGCGTAAACGTCATTAAACACCATCCGCTATTCCCTGACAATGTGCCGGTGCACGGTCTGGTGATTGATCCTGAAACCGGTAAACTTGATCTGGTGATCGACGGCTACCAGCATATGGACTAA	MSLLNDIMQFNEQFTKNKDYEKYQTSKFPDKKMAILSCMDTRLVELLPHAMNMRNGDVKIIKSAGALVAHPFGSIMRSLLVAVYELNADEVCVIGHHDCGMSKINSEDMLDKIIDRGIPKERIDMLKHSGVDLDQWLKSFDSVEASVTDSVNVIKHHPLFPDNVPVHGLVIDPETGKLDLVIDGYQHMD	PGPT0002415_5990	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-12_03982	249	rpmE2	COG0254	50S ribosomal protein L31 type B	ATGAAAAAAGATATTCATCCGGATAACCATCAAGTGATTTTTCAAGATGTGAACAGCGGCTACCGCTTTTTAAGCCATTCAAGGAAAACGTCAGAGGAAACGGCAGAGTGGGAAGACGGAAAAACATACCCGCTGATTAAAGTAGAAGTCAGCTCAGATACGCATCCGTTTTATACAGGCCGCCAAAAATTCAACGAAAAAGGCGGGAGAGTCGAACAGTTCAATAAAAAATACAATATGGGGAAATAA	MKKDIHPDNHQVIFQDVNSGYRFLSHSRKTSEETAEWEDGKTYPLIKVEVSSDTHPFYTGRQKFNEKGGRVEQFNKKYNMGK	PGPT0014325_1942	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
D1-12_03983	1332	ythA	COG1271	Putative cytochrome bd menaquinol oxidase subunit I	GTGGATGATTTAGTGTTAGCCAGAAGCCTGTTCGGGACAACCATGGGCTTTCATATTATTTTTGCGACGCTTGGTGTCGGCTTGCCTCTGATGATTTTAATGGCTGAATTGATTTATCAGAAAACAAAAGATCCGCATTATGCCATTATGGCGAAAAGGTGGACGAAGGCGCAGGCTGTTCTGCTCGGCGTGGCGATACCGACCGGAACGATCGCGGGTACACAGCTTGCCCTTTTGTGGCCCGGATTCATGGAAGTCATCGGCAGGGTGATGTCACTCCCGTTTCAGATTGAAATTTATGCTTTCTTTATCGAAGCGCTGTTTATGTCCATTTATGTCTACGCCGCTGACCGGCTGACTCCGGCGATGCGCATCATTGCCGTTATTTTCGTTTTGATCGGCGCCGCGGCATCCGCCGTCTTAATCACAAATGTTCACGCATTTGAAGGAACGCCGGCCGGCTTTAAAATTTTAAACGGCAAAATCACTGACGTCGAACCTTGGGCAGCGTTTTTTAATCCAAGCTTTTTCACCACCGCGGGCCATGTCGTACTGACGGCTTTCATGACCGGTGCATTTATCGTTGCGTCAGTTGCGGCTTATAAAATGCTGAGAACGAGAAAACAGGAGCAGGTATACCGCTTTCACCGAAAAGCGCTGCTGCTCGCCTTAACGATCGGCGGAATCTTTTCCATTCTTGCCTCTTTAAACGGTCACGAGTCAGCCCAGCTTCTTTACGAATACCAGCCTGAGAAGCTTGCGGGCGCAGAAGGGCTGTTTGAAACTAGATCACACGCTCCGCTTGCGATCGGGGGTTTTACTGACGCAAAAGAAGAAAAAGTAAAATGGGCGATAGAAGTACCGTGGGCTTTAAGCTTTTTGGCTGCAAACAGCTTTGATACCGTCGTCAAAGGATTGAACGCGTTTCCGAAAGACGAGTGGCCGCCTTTATTCATCCATACACTTTTTAACGGAATGGTCGGCATCGGGATGCTGCTCATTTTGTACTCAATCGTCGGCATCGTCTGGAGAAAAATTTTAAAGAAAGACAGCTTTCCGACTTGGCTTTTGATTTTATTTTTAACCGCAGGACCGCTTAGTCTGATCGGAATTGAATTCGGGTGGATATTCGCTTGTACGGGGCGGCAGCCATGGGTGATTTACCATCTCTTGAAAACGTCTGATGTCGTCACGACAACCGGTTCAATCGGTTTGCTGTTCATCCTGTTTACGGTCGTTTACGCCATTTTGGCAGCCGCAGTCATTTATGTACTGCTTTATTATTTCCGCAAACATCCTGTTGAAGAGGATGTAAAAGCGGCGGAATCCTAA	MDDLVLARSLFGTTMGFHIIFATLGVGLPLMILMAELIYQKTKDPHYAIMAKRWTKAQAVLLGVAIPTGTIAGTQLALLWPGFMEVIGRVMSLPFQIEIYAFFIEALFMSIYVYAADRLTPAMRIIAVIFVLIGAAASAVLITNVHAFEGTPAGFKILNGKITDVEPWAAFFNPSFFTTAGHVVLTAFMTGAFIVASVAAYKMLRTRKQEQVYRFHRKALLLALTIGGIFSILASLNGHESAQLLYEYQPEKLAGAEGLFETRSHAPLAIGGFTDAKEEKVKWAIEVPWALSFLAANSFDTVVKGLNAFPKDEWPPLFIHTLFNGMVGIGMLLILYSIVGIVWRKILKKDSFPTWLLILFLTAGPLSLIGIEFGWIFACTGRQPWVIYHLLKTSDVVTTTGSIGLLFILFTVVYAILAAAVIYVLLYYFRKHPVEEDVKAAES	PGPT0026700_4831	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
D1-12_03984	1041	ythB	COG1294	Putative cytochrome bd menaquinol oxidase subunit II	ATGGACATTACCATGGATGCTCTCATTGCGATATCAATCGTATGGGGCTTCGTGTTTATCTACGCGGTCATGGCAACGATGGACTTCGGAGCAGGCTTTTGGTCGATGATTTATTTAAATAGAGAACAAACAAAGGCGACAAACATCGCCAACCGTTATTTGTCCCCGACATGGGAAGTGACCAACGTCTTTATCGTCGCGATCGTTGTCGCCCTATTCAGCTTCTTTCCAGGGGCAACCTTCGTGCTGGGAACCGTTTTATTGATCCCGGGGAGTATTATTTTGCTGCTTTTGGCCATCCGCAGCGGCTTTCTCGTCTTCTCCAATACTGCGAAGGAAAGAAAAATCATGAGATATATCTCCGGAATTTCGGGCTTCATTATTCCCGCTGTTCTGATTTTGGTCCTTCCGGTCACACACGGAGGATTTATTGAGAAGACGGGCGGCGTGTATCACCTGAATTTGGAAAATGTCTTTACAAGCCTTAATGCGTATGCGTTTATCGGCTTTGCCATTTTAAGCACTTTATTTTTATCTTCACTGCTTCTGGCCGATTTTTCAAATGTTGCGGAAGAGGAGCATGCGTACCGCATCTACAGACGGAGCTCTTTACTAACAGGGCCGCTGTCGCTTCTTTTTGCCTTCTTCATTATGCTGACATTACGCTCTGAAGCCGGCTGGCTGTATACGGGGATGATGAAAGACAAGACATGGCTCATTCTGTCTGTCATTACATTTATCATTGCCGGTGTGGCTCTGTTTTTGCCGAATAAGCGCTTCGGCCGCAACCTCGGCAAACCGAGAATCGCCATGATCGCCATTGCGCTTCAATACTTTCTGGCAAGCTATGCATACGGACGGGCGCATCTTCCTTATATGATTTATCCGGATATTACGGTCATGTCAGGATTTACGGAGCCGGCAACCTTCAGGGCGCTGTTTATGACGTATATCGTCGCTTTCATCATTTTGTTTCCCGGGTTTTATTTCTTCTGGAAGCTCTTTATGAAAGACAGACGTTATATCCGCCAGGAGGAATAA	MDITMDALIAISIVWGFVFIYAVMATMDFGAGFWSMIYLNREQTKATNIANRYLSPTWEVTNVFIVAIVVALFSFFPGATFVLGTVLLIPGSIILLLLAIRSGFLVFSNTAKERKIMRYISGISGFIIPAVLILVLPVTHGGFIEKTGGVYHLNLENVFTSLNAYAFIGFAILSTLFLSSLLLADFSNVAEEEHAYRIYRRSSLLTGPLSLLFAFFIMLTLRSEAGWLYTGMMKDKTWLILSVITFIIAGVALFLPNKRFGRNLGKPRIAMIAIALQYFLASYAYGRAHLPYMIYPDITVMSGFTEPATFRALFMTYIVAFIILFPGFYFFWKLFMKDRRYIRQEE	PGPT0026705_1905	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
D1-12_03985	192			hypothetical protein	ATGGCGTACCTTTTATCTTGGAGGGGAGCCAGCATGGACCAAAAAATTCTGTGTGAAGTCAATAACTGTTCATATTGGGGCAGAGGAAACAAATGCACGGCCGACGCTATTTATGTGGTCAGCCATACAGGCGAAACCGCTGAAAAAAGTGAAGAAACGGATTGCAAAACCTTTAAACCGCATGATTTATAA	MAYLLSWRGASMDQKILCEVNNCSYWGRGNKCTADAIYVVSHTGETAEKSEETDCKTFKPHDL				NA	NA	NA	NA	NA
D1-12_03986	882	mntD	COG1108	Manganese transport system membrane protein MntD	ATGAGTTATGAAGCGTGGATTTTCGCAACGGGAATCTTAGTCGGCGTGAGCTGCGCGTTAATCGGCACTTTTCTTGTGCTGAGAAACATGGCGATGCTTGCTGACGCGATCAGCCACACGGTGCTGCTCGGAATTGTCGGCGCTTTCCTTGTGACGGGAGCCCTTAACGGAATTCCAATGTTTATCGGAGCTGCGGCATCCGGGCTGCTGACGGCTTTTTTCGTACAGTTTCTGCACAGTAAAGGCGTGCAGTCTGACGCGGCTATCGGTGTCGTTTTTACGTCCTTGTTTGCGATCGGCGTCATTCTGCTGTCTGTATACGGCAAACATGTACATCTTGATATAGAACATTCGCTTATGGGAGAAATTGCTTTCGTTCCGTGGAATACAGCTCAGCTGTTCGGCTTCGATATCGGCCCTAAAGCGTTTTGGATGATTTTATCTGTGCTTATCATCAATGTGCTGTTGATTGTCTGCTGCTATAAAGAATTTAAAATCGCCGCCTTTGACCCGGAAATGGCGATAGCCATCGGCATTCCTGTCCTGGTCATTCATTATGTGCAGATGGGTATGCTGTCGCTTACGACGGTTGCTTCTTTTGATTCAGTGGGAGCGGTTTTAGTCGTTGCGATGCTGATTGTACCGCCTGCAGCCGCCTATTTACTGACAAACCGCCTTTCTTCCATGCTTTTCATCAGTGCGGGTATCGGCGGGCTGTCAGCCGTATTGGGATATGGCGCCGCCACATGGCTCAACGTGTCAATTTCAGGTGCGATGGCTGCGATGACCGGCGTGTTTTTTCTGCTGGCCTTTCTGTTTTCTCCGGCTCAAGGGCTGATTTCAAAAAGGCTTGCGGCGCGGAAATTAAAAAGAGCTGTATAA	MSYEAWIFATGILVGVSCALIGTFLVLRNMAMLADAISHTVLLGIVGAFLVTGALNGIPMFIGAAASGLLTAFFVQFLHSKGVQSDAAIGVVFTSLFAIGVILLSVYGKHVHLDIEHSLMGEIAFVPWNTAQLFGFDIGPKAFWMILSVLIINVLLIVCCYKEFKIAAFDPEMAIAIGIPVLVIHYVQMGMLSLTTVASFDSVGAVLVVAMLIVPPAAAYLLTNRLSSMLFISAGIGGLSAVLGYGAATWLNVSISGAMAAMTGVFFLLAFLFSPAQGLISKRLAARKLKRAV	PGPT0003850_378	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003850-troD|mntD|znuB-K11709	NA	NA
D1-12_03987	1287	mntC	COG1108	Manganese transport system membrane protein MntC	ATGGCGCTGCATCATATATGGCTTCAGCTTCAGGAACCGAATACCCAATGGGTGTTGGCGGGAACTTTGCTTCTCGGCATGGCAAGCGGCGTGCTGGGAAGCTTTGTGCTTCTCAGGAGGCAGAGTCTGATCGGCGACGCCATGGCTCATTCGGCTTTGCCCGGAGTATGTCTTGCGTTTCTCATTGCCGGAGAAAAGACGATGCTGTTCTTCTTGATCGGAGCGGCTGCCGCGGGGCTTGCTGGAACTTGGTGCATCCAGAACATCACGGAGCATTCAAAAACGAAGGAGGATTCTGCGATCGGCATCGTATTGTCCGTGTTTTTCGGGATCGGCATTATTCTTCTGACCTATATTCAAAGACTCGGTTCCGGAAGCCAGAGCGGGCTTGATTCTTTTTTATTCGGTCAGGCGGCGTCACTCGTTAAACAGGACATTGTCATCATCGGAGTCATTTCTGCCGTTCTGCTTTTATTGTGCGCCGTCTTTTTTAAGGAATTCAAATTGATCACATTTGATATGGCATTTGCGAAAGGGGCAGGACTGCTTGTCAGGTTTCTGAACGGACTGCTGGTTTTTTTAATTGTTTGTGCGGTTGTGATCGGGCTGCAGACGGTCGGTGTCATCTTAATGGCGGCCATGCTTATTACGCCGGCGATCGCCGCAAGGTATTGGACGGAGCGTTTAACGGTCATGATCGTGCTGTCCGGATTAATCGGCGGGTTATCCGGTGTGGCGGGAACGCTTTTAAGTACGACGACGGACGGTATGGCGACCGGGCCGTTAATTATTTTAAGCGCGGCTTCCGTTTTTCTGTTTTCTCTATTATTCGCTCCGGATCGCGGACTGGTGTCAAAGACGGTTAAACTTTTCCGGCTGAGAAAAAAGACCGCTTTTGAACAAACGCTCTCAGCTATTTACGAGATGAGTGAACAAACGAATGAAACCTCAGTCACCGGGCAGATGTTGAAAAAAGAATGGGAGCGCCCTATCAGGAAACTGGAGAAAAAGGGATACCTCAAGCGCAGCGGAGCCGAACAATGGCGGATGACGGAGGCAGGGCTGACGAAGGGATACGAAATTGTCTTATCACAGCGCATGTATGAAGTTTACCTCATGCATGAAACGGAACTGGCCGGTATAGAAACGGCCGCCAGGGACGAATTTCATCCGGATCTTCTGCCGAAAGAACTGAAAGAAAAGCTTTTGCAGCTTTTACGATTGCACGGGCGAATGCCGAATGAATCACTTCAAAAGGAGAAAGGAGGCGCTTACAATGAGTTATGA	MALHHIWLQLQEPNTQWVLAGTLLLGMASGVLGSFVLLRRQSLIGDAMAHSALPGVCLAFLIAGEKTMLFFLIGAAAAGLAGTWCIQNITEHSKTKEDSAIGIVLSVFFGIGIILLTYIQRLGSGSQSGLDSFLFGQAASLVKQDIVIIGVISAVLLLLCAVFFKEFKLITFDMAFAKGAGLLVRFLNGLLVFLIVCAVVIGLQTVGVILMAAMLITPAIAARYWTERLTVMIVLSGLIGGLSGVAGTLLSTTTDGMATGPLIILSAASVFLFSLLFAPDRGLVSKTVKLFRLRKKTAFEQTLSAIYEMSEQTNETSVTGQMLKKEWERPIRKLEKKGYLKRSGAEQWRMTEAGLTKGYEIVLSQRMYEVYLMHETELAGIETAARDEFHPDLLPKELKEKLLQLLRLHGRMPNESLQKEKGGAYNEL	PGPT0003840_105	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003840-troC|mntC|znuB-K11708	NA	NA
D1-12_03988	753	mntB	COG1121	Manganese transport system ATP-binding protein MntB	GTGTATCCTGTCAGCATTGAAAATGTGACGGTAGCCTATCACAAAAAACCGGTCCTGCAGAACGTCACCATGCAGGTGCCGGAAGGAAAACTGATCGGGATTATCGGGCCGAACGGAGCCGGAAAATCAACGTTGATAAAAGCTGTTTTAGGATTAACGCCAAGCGCCTCCGGAACGGTCTCTATTTATGGGAAATCATCAGAAAAGGAGCGGAAGAGGATCGGCTATGTTCCGCAGCGCGGTTCTGTGGATTGGGATTTTCCGACAAGCGCTCTGGATGTCGTTTTAATGGGAAGATATGGGCATATCGGCTGGTGCAGGCGTCCGAAAAAACGTGATATTGATTTTGCTGAAGCCTGTTTGGATAAGGTCGGTATGCTTGATTATGCCAAAAGGCAGATCAACCAGCTTTCAGGAGGCCAGCAGCAGCGGGTTTTTCTGGCCCGGGCTTTATGTCAGGATGCGGATATATACTTTATGGATGAACCGTTTGTGGGAGTTGACGCCGCTACGGAGCGGGCGATTATCACGCTGTTGACGGAATTAAAACAAAAAGGAAAAACCGTGCTCGTCGTCCATCATGACCTGCAGACGGCAAAGGAGTATTTCGATTGGATGCTGCTGCTGAACATGAGAAAGATTGCTTTCGGACCGACTGAACACGTGTTTACAATCGAAAATTTACAAAAAACGTACGGAGGAAGGCTTGCATTTTTGAAAGATCACCTCCTGGCCGAAGGGGGAACGGGCTGA	MYPVSIENVTVAYHKKPVLQNVTMQVPEGKLIGIIGPNGAGKSTLIKAVLGLTPSASGTVSIYGKSSEKERKRIGYVPQRGSVDWDFPTSALDVVLMGRYGHIGWCRRPKKRDIDFAEACLDKVGMLDYAKRQINQLSGGQQQRVFLARALCQDADIYFMDEPFVGVDAATERAIITLLTELKQKGKTVLVVHHDLQTAKEYFDWMLLLNMRKIAFGPTEHVFTIENLQKTYGGRLAFLKDHLLAEGGTG	PGPT0003845_299	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003845-troB|mntB|znuC-K11710	NA	NA
D1-12_03989	1020	mntA	COG0803	Manganese-binding lipoprotein MntA	TTGTCCTGTATCAATCATTTGTTCTTAAATATAAAGAATTGTCATAAGACTGACATCAACATCACATTTAAAAGAGAACGGGACAAAGGAAAGGGGACGGATATGAAAAAAAGCAGTGTAATGGCGTCTGTGCTGATGGTTTGTTTTGCATTGTCTTCATGCAGCTCTGAATCTTCAGGCGGACAAAAAGGAAAGCTCACGATTACGGCTACCACTTCTCAGGTGGCTGACGCCGCTGAACATATCGGCGGAGACCATGTTGAAGTGACGTCACTGATGGGGCCTGGAGTCGATCCGCATCTTTATAAAGCATCACAAGGAGATACGAAAAAATTAACGGAGGCGGATGTTGTTTTATACAGCGGACTTCACTTAGAGGGGAAAATGGAGCATATGTTAACGAAAATCAGCAGGCAAAAGCCGTCCGCAGCAGTGGCTGAATCAATACCGAAGGAGAAATTGATTCCAGCGGGTGAGAATATGTATGATCCGCATGTATGGTTCAGCATTCCGTTATGGCTGTATGCCGTTGACGAAATTGAAGCGCAATTAAAAAAAGCAAAACCGGAATATGCAGACGACTTTACAAAAAACGCCCAAGAGTATAAAGAGAATTTGAAATCTTTAGATAAAAAATCGAGAGAAAAGATCGGGACAATTCCCGAAAAAAGCCGTGTACTAGTTACAGCACATGATGCCTTTGCGTATTTTGGCAAGGAATACGGATTTGAGGTCAGAGGACTTCAAGGGCTGAGCACGGACTCTGATTACGGACTGAAAGATGTTCAAAAGCTTGTCAGTCTGCTTGCGGATAAGGAAATTAAAGCTGTGTTTACGGAAAGCAGCGTATCGAAAAAGTCAATAAACGCGGTTGTTGAGGGCGCCAAAGAAAAAGGTCATGATGTTTCGGTCGGCGGCTGGCTGTATTCAGATGCAATGGGCGAAAAGGGGACAAAAGAGGGCACGTACGCCGGTATGTTCGCCCATAACATAGATACGATTGTCAGCTCATTAAAATAA	MSCINHLFLNIKNCHKTDINITFKRERDKGKGTDMKKSSVMASVLMVCFALSSCSSESSGGQKGKLTITATTSQVADAAEHIGGDHVEVTSLMGPGVDPHLYKASQGDTKKLTEADVVLYSGLHLEGKMEHMLTKISRQKPSAAVAESIPKEKLIPAGENMYDPHVWFSIPLWLYAVDEIEAQLKKAKPEYADDFTKNAQEYKENLKSLDKKSREKIGTIPEKSRVLVTAHDAFAYFGKEYGFEVRGLQGLSTDSDYGLKDVQKLVSLLADKEIKAVFTESSVSKKSINAVVEGAKEKGHDVSVGGWLYSDAMGEKGTKEGTYAGMFAHNIDTIVSSLK	PGPT0003835_37	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003835-troA|mntA|znuA-K11707	NA	NA
D1-12_03990	1116	menC	COG4948	o-succinylbenzoate synthase	ATGATTAAGATTGAAAAAATCACCCTTTATCATGTAAGTATGAGGCTGAAAAAACCGTTTAAAACAAGTATTGAAACGCTGCAGGACCGTAAATTTTTGATCGTGGAAGCGATCGATGAAACCGGGAGAACCGGCTGGGGGGAGGTATCGGCGTTTTCTTCTCCGTGGTATACAGAAGAAACGATTCAGACATGCGCGCATATGCTGAGAGATTTTTTCATCCCGAATGTCGTAGGCCGCGAGTTTTTTCATCCGTCAGAGGTGCCTGACAGTCTCGCGCGTTTCAAAGGAAACCGCATGGCAAAAGCGGGGCTTGAATCAGCCGTGTGGGATCTATATGCCAAGAAAAAAGGGATATCACTCGCAGAAGCCTTAGGGGGCAAAAGAGATAAAGTGCCCGCCGGCGTGGCGGTGGGTCTGGCTTCGGCTGATGAGATGCTTCGGGAAATTGAGCAATACGTAAAAGAAGGTTATCAACGTATAAAAATAAAAATTCAGCCCGGCCATGACGTTGATCTGGTCAGAGCCATCCGCAGCCGTTTTCCGAACGTACCGCTGATGGCGGATGCCAACTCGGCATATGAACTGAAAGACATCAGCAGGCTGAAAGAGTTGGATGAATTCCAGCTCATGATGATAGAACAGCCGCTTCAGGCAGATGATATTGTCGATCACCGCCACCTGCAGAAACACTTGAGAACCGCGGTATGCCTTGATGAAAGCATATGCTCATATGATGACGCAAGGCGGGCGATTGAGCTTGGGAGCTGTAAAATCATTAACATAAAACCGGCGCGTGTAGGAGGCCTGACAGAGGCTTTAAAAATACATGACTTATGCAGAGAGCATCACATGCCGGTTTGGTGCGGCGGAATGTTTGAAACCGGCATTTCGAGAGCGCAGACAGTCGCGCTTGCTTCGCTGCCGCAATTTACGATACCGGGTGACATTTCCTCATCAGACCGATACTGGGAGGAGGATATTGTCACTCCCGACATCCGTATCGAAGAGGGGTTCATCTCTGTTCCGGACGGTCCCGGACTGGGTGTCGAAGTCAATCAGGAAATAATGAGAAAATACGTCACCCAAATGGACGTTTTTACGACAAACAACTGA	MIKIEKITLYHVSMRLKKPFKTSIETLQDRKFLIVEAIDETGRTGWGEVSAFSSPWYTEETIQTCAHMLRDFFIPNVVGREFFHPSEVPDSLARFKGNRMAKAGLESAVWDLYAKKKGISLAEALGGKRDKVPAGVAVGLASADEMLREIEQYVKEGYQRIKIKIQPGHDVDLVRAIRSRFPNVPLMADANSAYELKDISRLKELDEFQLMMIEQPLQADDIVDHRHLQKHLRTAVCLDESICSYDDARRAIELGSCKIINIKPARVGGLTEALKIHDLCREHHMPVWCGGMFETGISRAQTVALASLPQFTIPGDISSSDRYWEEDIVTPDIRIEEGFISVPDGPGLGVEVNQEIMRKYVTQMDVFTTNN	PGPT0009375_284	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
D1-12_03991	1464	menE_2	COG0318	2-succinylbenzoate--CoA ligase	ATGCTGACAGAACAGCCGAATTGGCTCATTCAAAGGGCTCAGCTGACACCAGAGAGAATCGCTCTCATATTTGAAAACAAACAGATGACATTCAGAGAATTATATCATGCTTCTAAACAAATGGCCGCGCGGCTGTCCAAATACTGCTCGCTTAAAAAAGGAGACCGTGCCGCGATTTTGCTTTCTAACAGACCGGAAATGGTTTATGCCGTTCATGCATGCTTCTTATTAGGGGCGGAAGCTGTGCTGTTGAATACGAAACTCTCAAAACAGGAACGGTTGTTTCAGCTCGAAGATTCACAGGCAAAGCTTTTATTGACGGAGGACGGTTTTTGCCGCGAAGATTATGAATCTGCGGTCGCCGCCGCGGACGTGGACGAGCTGCAGGCCAAAGCCGCGGGAGACATTGAACCTGAAGCTTATGTAACGCTTGATGATACGGCGACTCTTATGTATACGTCAGGAACAACGGGAAGGCCGAAGGGGGTGCAGCAGACTTTCGGTAATCATTATTCCAGCGCTGTATCGTCTGCGCTGAATCTGGGGGTCACGGAGCGGGACCGCTGGCTTATTGCGCTGCCGCTGTTTCATATCAGCGGTCTGTCTGCGCTGTTTAAGTCGGTCATTTACGGCATGCCTGTCGTGCTTCATCAAAAATTTTCTGTCACTGATGTGCTGGACAGCATCAGTTCCCATCAGGTCACGATCATTTCAGCGGTGCAGACCATGCTTTCGGGCCTGCTTGCGGAAACTGAACAATGTCCTGAATCACTGCGCTGCATTCTGCTTGGCGGGGGGCCGGCACCGCTGCCGCTCCTTGAAGAATGCCGCAGGAAACAATTTCCGGTATTCCAATCTTACGGCTTGACTGAAACCTGCTCGCAGATTGTCACGCTTTCTCCGGAATTCAGCATGGACAAGCTCGGCTCGGCCGGTAAACCGCTGTTTTCATGCGAAATTAGAATTGAAAAAGACGGAAACCCTTGTGCGCCGTTTGAACACGGTGAAATTACGGTGAAAGGCCCGAATGTAATGAAAGGGTATTACCATCGTGACGACGCAAACCAGGCCGCTTTTCATAATGGATGGTTTAAAACGGGCGATCTTGGCTATTTGGATGATGAAGGGTTTTTATACGTGCTGGACAGGCGGTCGGACCTCATTATTTCAGGCGGAGAGAACATCTACCCGGCAGAAGTGGAAGCGGCGCTGCTTGCCCATCCGGCTGTAGCGGAGGCCGGTGTTTCGGGAGCCGAAGATCCGAAGTGGGGGAAAGTGCCGCATGCTTTTCTCGTGCTGACTTCTTCTGTCAGTTCTGAGGAGCTGACCGTCTTTTGCCGTGAGCGGCTTGCAAAATATAAAATACCGGCTGCTTTTTTCGAGGTTGACGAGCTCCCGCGGAACGCGTCCAATAAACTGATGAGACATCGGCTGAATGAGCTTCGTAAAGGAGAATTGTCATGA	MLTEQPNWLIQRAQLTPERIALIFENKQMTFRELYHASKQMAARLSKYCSLKKGDRAAILLSNRPEMVYAVHACFLLGAEAVLLNTKLSKQERLFQLEDSQAKLLLTEDGFCREDYESAVAAADVDELQAKAAGDIEPEAYVTLDDTATLMYTSGTTGRPKGVQQTFGNHYSSAVSSALNLGVTERDRWLIALPLFHISGLSALFKSVIYGMPVVLHQKFSVTDVLDSISSHQVTIISAVQTMLSGLLAETEQCPESLRCILLGGGPAPLPLLEECRRKQFPVFQSYGLTETCSQIVTLSPEFSMDKLGSAGKPLFSCEIRIEKDGNPCAPFEHGEITVKGPNVMKGYYHRDDANQAAFHNGWFKTGDLGYLDDEGFLYVLDRRSDLIISGGENIYPAEVEAALLAHPAVAEAGVSGAEDPKWGKVPHAFLVLTSSVSSEELTVFCRERLAKYKIPAAFFEVDELPRNASNKLMRHRLNELRKGELS	PGPT0009380_243	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911	NA	NA
D1-12_03992	819	menB	COG0447	1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGGCTGCAGAATGGAAAAGTGAACGTCAGTACGATGAAATCCTGTACGAGACGTATAACGGTATTGCAAAAATAACAATTAACCGCCCGGAGGTACATAACGCATTTACTCCTAAGACGGTATCAGAAATGATTGACGCGTTTGCTTGTGCGCGTGATGACTCCAATATTGGTGTCATCGTTCTTGCGGGAGCGGGAGATAAAGCATTCTGTTCAGGCGGAGACCAAAAAGTACGCGGTCACGGCGGATATGTCGGAGACGATCAGATCCCGCGTCTGAATGTGCTTGATCTTCAGCGTTTGATCCGTGTTATTCCTAAACCGGTCGTAGCGATGGTATCAGGCTATGCCATCGGCGGAGGCCATGTGCTTCATATCGTCTGTGATTTAACGATTGCGGCCGATAACGCGATTTTCGGCCAAACCGGACCGAAAGTGGGAAGCTTTGATGCCGGTTACGGCTCAGGTTACCTGGCGCGTATCGTCGGACATAAGAAAGCCCGTGAAATCTGGTACCTGTGCCGTCAATACAACGCGCAGGAAGCGCTCGACATGGGGCTTGTCAATACGGTTGTCCCATTAGAGAAACTTGAAGAGGAAACAATTAAATGGTGTGAAGAAATGCTTGAGAAAAGCCCTACAGCCCTTCGTTTCCTTAAAGCGGCATTTAACGCAGATACAGACGGCCTCGCCGGAATTCAGCAATTTGCAGGAGATGCAACGCTTCTTTATTACACGACTGACGAAGCGAAAGAAGGCCGCGATTCCTTTAAAGAGAAACGCAGTCCCGATTTCGGTCAATTCCCTCGTTTTCCGTGA	MAAEWKSERQYDEILYETYNGIAKITINRPEVHNAFTPKTVSEMIDAFACARDDSNIGVIVLAGAGDKAFCSGGDQKVRGHGGYVGDDQIPRLNVLDLQRLIRVIPKPVVAMVSGYAIGGGHVLHIVCDLTIAADNAIFGQTGPKVGSFDAGYGSGYLARIVGHKKAREIWYLCRQYNAQEALDMGLVNTVVPLEKLEEETIKWCEEMLEKSPTALRFLKAAFNADTDGLAGIQQFAGDATLLYYTTDEAKEGRDSFKEKRSPDFGQFPRFP	PGPT0009385_1362	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661	NA	NA
D1-12_03993	825	menH_2	COG0596	2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGGAAACTGTAACTGTTAAAACGGCCGACGGCGTATGCTATCGGGCTGCTGATAGCGGACACGAATCGTCTGAAGCTATTGTTTGTCTGCATGGATTTACGGGCAGCAAAGAATCATGGATGTTTTTACGCGGCATGTTTCCCGGCGAACGAATGGTGATGATTGACTGCCTGGGTCACGGGGAGACAGACGCGCCTGGGCAAGCGGCAAGGTATAGTACGAGCCGGCAGGTTGCGGACCTTGCCGCCGTTTTTGATCAATTAAAACTTCACAAAGTGAAACTTATTGGTTATTCTATGGGGGGGAGACTTGCGTATTCCTTTGCACAGGCATTTCCGCATCGGGTGTCAGCGCTTGTTTTGGAAAGTACAACCCCGGGCCTGAGCACGCTTCAGGAACGCAAGAAGCGGATTCAGTCAGACCGGAAGCTTGCTGACTTTATATTGCGGGAAGGTATAACATCGTTTGTCGATTATTGGGAGAGCATTCCGTTGTTTGCCACGCAGCTTTCTCTGCCGGACAGCGTAAAGGCATCCATCCGTGCCGGCAGGCTGAAAAATAATCCGTCCGGACTTGCAGGCAGCCTGCTCGGAATGGGGACGGGCTCACAGCCTTCCTGGTGGGAGGCATTACACCGCATCAAGGCGCCCGTCCTGCTCATATGCGGTGAATGGGATGAAAAGTTTTGCGCTATTAATCAAAAGGTGCATAACCTGCTCCCATCAAGTAAAATAGAGGTTGTCAAACAGGCGGGGCACACGGTACATGTGGAACAGCCGCGAATTTTTGGTAAGATAGTAAGTGAGTTTTTATACGGCTTGTAA	METVTVKTADGVCYRAADSGHESSEAIVCLHGFTGSKESWMFLRGMFPGERMVMIDCLGHGETDAPGQAARYSTSRQVADLAAVFDQLKLHKVKLIGYSMGGRLAYSFAQAFPHRVSALVLESTTPGLSTLQERKKRIQSDRKLADFILREGITSFVDYWESIPLFATQLSLPDSVKASIRAGRLKNNPSGLAGSLLGMGTGSQPSWWEALHRIKAPVLLICGEWDEKFCAINQKVHNLLPSSKIEVVKQAGHTVHVEQPRIFGKIVSEFLYGL	PGPT0009370_245	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009370-menH-K08680	NA	NA
D1-12_03994	1737	menD	COG1165	2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	TTGACAAACCCGATTACACATTATATCGGAAGCTTTATTGATGAATTCGCTCTATCGGGTGTCACCGACGCGGTTGTTTGCCCGGGATCGAGGTCAACTCCCTTGGCGGTTTTGGCGGCGGCCCACCCGGATATTCAAGTCCATATACAGATTGATGAACGGTCCGCAGGTTTTTTCGCACTCGGTCTTGCAAAAGCCCGCCAGCGTCCGGTCATGCTGATTTGTACGTCAGGAACGGCAGCGGCTAACTTCTATCCGGCCGTGATTGAAGCTCATTATTCAAGAGTGCCGCTTATTGTCCTGACTGCTGACCGGCCTCATGAATTGAGGGAAGTGGGGGCGCCTCAGGCGATTAACCAGCATTTTCTGTTCGGTAACTTTGTTAAGTTTTTCACAGACTCGGCTCTGCCTGAAGAAAATCCTCAAATGCTGAGCTATATCAGAACATTGGCCGGCAGAGCCGTAAGTGAAGCCGGGAAGCGCCCGATGGGGCCGGTCCATATCAATGTGCCGCTCAGAGAGCCTTTGATGCCGGATTTATCAGCCGGACCTTTTGAAAGAATGAGAAAGGGGCGGCACGTCTCAGTCACAACAGGGATTCAGTCAGCTGATCAAGATTCTCTCTGTCATATTACAGAGCGTCTCGCGGGGACCGAAAGAGGTATGATCGTCTGCGGCGAAATTCACGGTGAAGCAGAAAAGCAGCAAATCATCGCGCTTGCCGAGATGCTTCAGTTCCCGATTTTGGCTGATCCGCTTTCAAACCTCCGAAACGGGGAGCATGATAAGACGCTGATTATTGATGCTTATGACTCGTTTTTAAAAGATGAAGAAATAAAAGAGGCGCTGCGCCCTGACGCTGTGATCCGCTTCGGTCCGATGCCGGTTTCCAAACCGCTCTTTTTATGGCTCAGAGATGATCCTGCCATTGAGCAGTTTATCGTCGATGAAGACGGAGGATGGAGAGATCCCACCCAGGCCGGCGCGCATATGATTCATTGCCATCCGTCGGTGTTTTTGGAAGCGGTCCGTTCAGCTGAAACCGGAAAACGGCCGTCCGAATGGCTTGAGAAATGGCAATTTGTCAATGACCGGTTCCGGAGTCATTTACAGGCCGCGAACATGGATGATTTATCATTTGAAGGAAATGTATATCGTCAGCTTCAGCACCTTGTCCCTGAAGGCAGTTCGATTTTTGTCGGCAACAGCATGCCGATTCGCGACGTGGATACGTTCTTTGAAAAACAAGATCGTTCCTTCCGTGTTTATGCCAACCGCGGCGCTAACGGCATTGACGGAGTTGTCTCCTCGGCTATGGGACTGTGTGAGGGTACAAAAGCTCCTGTCACGCTTGTAATTGGAGATTTATCGTTTTACCATGATTTAAACGGGCTGTTAGCGGCTAAAAAACTTGGAATTCCGCTTACGGTTATTTTAATAAACAATGATGGCGGCGGGATTTTCTCGTTTTTGCCGCAGGCATCTGATAAGACTCATTTTGAAGAACTGTTCGGTACGCCGACGGGTCTTGATTTCCGGCATGCCGCCGCACTGTACGGCGGGACGTATACTTGCCCTGAGACATGGGAAGCATTTAAGGATGCGTATCAGCCGCAGGCGGACAAGCCCGGACTTCATATAATCGAGCTGAAAACAGATCGGACATCAAGAGTTCAATTCCATCGCGATCTGCTGCAGGCCGCAGTGCGGGAAGTGAAAAAAGAATGGAAACTGTAA	MTNPITHYIGSFIDEFALSGVTDAVVCPGSRSTPLAVLAAAHPDIQVHIQIDERSAGFFALGLAKARQRPVMLICTSGTAAANFYPAVIEAHYSRVPLIVLTADRPHELREVGAPQAINQHFLFGNFVKFFTDSALPEENPQMLSYIRTLAGRAVSEAGKRPMGPVHINVPLREPLMPDLSAGPFERMRKGRHVSVTTGIQSADQDSLCHITERLAGTERGMIVCGEIHGEAEKQQIIALAEMLQFPILADPLSNLRNGEHDKTLIIDAYDSFLKDEEIKEALRPDAVIRFGPMPVSKPLFLWLRDDPAIEQFIVDEDGGWRDPTQAGAHMIHCHPSVFLEAVRSAETGKRPSEWLEKWQFVNDRFRSHLQAANMDDLSFEGNVYRQLQHLVPEGSSIFVGNSMPIRDVDTFFEKQDRSFRVYANRGANGIDGVVSSAMGLCEGTKAPVTLVIGDLSFYHDLNGLLAAKKLGIPLTVILINNDGGGIFSFLPQASDKTHFEELFGTPTGLDFRHAAALYGGTYTCPETWEAFKDAYQPQADKPGLHIIELKTDRTSRVQFHRDLLQAAVREVKKEWKL	PGPT0009365_676	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
D1-12_03995	1416	pchA	COG1169	Salicylate biosynthesis isochorismate synthase	ATGGTGACAACGGTGCAGCATACGTTCCGAGAGGAAGCAGATCATGCATTACATAAAGCCAAACAAGTCAACCATGCTGTCTTATTGAGCTATTCAAGACGTATTGCGTCTTTAGACCCTCTATCATTTTTCAAAGACGGAGCAAAAAAATATAAAGGCAAACGATTTTTTTGGTCAGAACCCGGTAGTGAATTAACAATAGTCGGTCTTGGCACAGAAGCGCTGTTCCAATCGAATGAAAAAAATGGAAAGCGTTATCACGACGTTTTTGAACAATGGGAGCGCTTTAAAAAGATGGCTTTTCATATTCATGAAGAAGAAGAGGCGGCGCATACCGCGGTCGGCCCTGTCTTATTCGGCGGTTTTTCATTTAATCCCGCTGAAGAGAGAGGAGACGAATGGAACGGGTTCGAAGAAGGGCTGTTCTTTATCCCCTCACTCATGCTGACAAAGACGGCAGATGGTGATTATTTAACCGTCAATCAATGGGCAGCAGACGGTAATCAGGCAGAAGATACGCTGAAACGTCTGAAATCTTTTTCGGAAGCTTTTTCAGTTTCTTCAATCGAGTATGAAGAATATCCTGTTTTAACAAAAGCGGAAGAACTTGATGTGGAAAACTGGCTTGAAGCCATTAAAACAGCAACAAATGATATGAAAGCAAATCAATATGATAAAGTCGTGCTGGCAAGGGAAGTCGTTTTGTCATATGATGGGCCTATTCCGGCAGAGAGCGTTGTCCGTAAGCTTTTGACGGACCAAACGACAAGCTATGTTTTTGCGATTGAGCAGGGAGATAAATGCTTTGTCGGCGCTTCACCGGAACGGCTGATCAAAAAATCCGGCAAAGACGTCATGTCCACCTGTCTGGCAGGTTCAATTAAGCGCGGAGAAAATCAACAAGAAGATGACCGTCTCGGCAAGGAATTGCTGCATGACGAAAAAAATCTCGCGGAACATGATTTTGTGGTTCAGATGATACACGATTCTTTCTTGTCGAGCTGCAGCGATGTGAAAAAGCCTGCAGGTCCGCAATTATATAAAACAAAAAGTGTTCAGCATCTATATACGCCGATCACAGGCCATCTTAAAACGTCCGCTTCGCTGTTTGATTTAATTGAAAAGCTGCATCCCACACCGGCATTGGGCGGAGCTCCCCAGCAGAAAGCTGTTGAGGTTATCGCTGATATTGAACCGATGACACGCGGATGGTACGCGGCTCCGATCGGCTGGATGGACGGCAGGGAAAACGGAGAATTTGTCGTGGCTATCCGATCAGGGCTGATTGAAGGCAAAAGTGCGCGGCTTTTCGCAGGCTGCGGTATTGTTGAAGATTCAGATCCGCAATCAGAATATGAAGAAACACAAATTAAACTAAAGCCGATGATCTCTGCTTTAGGAGGTGAAAGGCTTTGA	MVTTVQHTFREEADHALHKAKQVNHAVLLSYSRRIASLDPLSFFKDGAKKYKGKRFFWSEPGSELTIVGLGTEALFQSNEKNGKRYHDVFEQWERFKKMAFHIHEEEEAAHTAVGPVLFGGFSFNPAEERGDEWNGFEEGLFFIPSLMLTKTADGDYLTVNQWAADGNQAEDTLKRLKSFSEAFSVSSIEYEEYPVLTKAEELDVENWLEAIKTATNDMKANQYDKVVLAREVVLSYDGPIPAESVVRKLLTDQTTSYVFAIEQGDKCFVGASPERLIKKSGKDVMSTCLAGSIKRGENQQEDDRLGKELLHDEKNLAEHDFVVQMIHDSFLSSCSDVKKPAGPQLYKTKSVQHLYTPITGHLKTSASLFDLIEKLHPTPALGGAPQQKAVEVIADIEPMTRGWYAAPIGWMDGRENGEFVVAIRSGLIEGKSARLFAGCGIVEDSDPQSEYEETQIKLKPMISALGGERL	PGPT0009360_263	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552	NA	NA
D1-12_03996	720	dksA		RNA polymerase-binding transcription factor DksA	GTGCTTACAAACGAACAGATCACACACTTAAAAAAAGAATTGGAAGAAGCCAGACATGATATTTTAAGCCGCTTTAAAGAAAATGATCAATTTCAGTTAACTGATGAATTCCCGTATCAGTCATCCGGCGAATTGTCTTCCTATGACAATCATCCCGGCGATCAGGCGACCGAATTATACGAGCGGGAAAAAGACCTGGCTCTGCTCGACCATGAACGGGAGCACCTTCGCGACATTGATTACTCTCTGAAACAAATTGAAAACGGCACATACGGCACATGTGAAGTCAGCGGCAAGGACATTCCTTATGACAGACTTGAAGCTCTGCCGACGGCTACGACATTGGCGGAATATTCCTCGCAGGATGCCGTTTCCAAAGACAGGCCGATTGAAGAGGAAACACCGTTCGGACAGTTTGAATTTGATGATGATGAATCAATCCGGGCGGCTTACGATAGTGAAGATGCTTATCAGGATGTTGAGGAATACGGAAACTCAGAAACGCCTCAGGATTTAGAGGATCCTCCGCTCAGCTATGGGGATATGACAATGAACTCAGAAGAAAACATCGGCTATGCTGAGGATTATGAAAACTTTATCGCGACAGATATTACCGGAAAAAACATTTCCGTGTATCCAAGCAAAGCACACGAAAAATATGAACAGGAACTTGACGAAGAAAGAATTATGACGACATTCGGCGATCTTCATGCTGATTAA	MLTNEQITHLKKELEEARHDILSRFKENDQFQLTDEFPYQSSGELSSYDNHPGDQATELYEREKDLALLDHEREHLRDIDYSLKQIENGTYGTCEVSGKDIPYDRLEALPTATTLAEYSSQDAVSKDRPIEEETPFGQFEFDDDESIRAAYDSEDAYQDVEEYGNSETPQDLEDPPLSYGDMTMNSEENIGYAEDYENFIATDITGKNISVYPSKAHEKYEQELDEERIMTTFGDLHAD				NA	NA	NA	NA	NA
D1-12_03997	471	tspO	COG3476	Tryptophan-rich protein TspO	ATGAAAAAGAAGTATATCGGTGCGATTATTGTATTTATCATTACATATGTCTTGTTTTCTTTAGCGGGGGTTCTCTTTCCCATCGACCGGGAATGGTATGACGCGCTGCAAAAAACCGACTGGACGCCGAGCGGATCAGTGATCGGTATCATATGGGCGGTTTTGTTTGCGCTTATTTCGCTCTCAGCAGCCTTGATATACGCAAAGTTTTCATGTAAAGAATCCAAAGCTTTTTGGGTGATGCTTCTCATCAATTATATCGTGAATCAAGGATTCAGCTATTTTCAATTCACACAGAAAAGTTTGCTTGCTGCATCTATCGATTGCCTGCTTGTGGCGGTGACAACACTCATTCTGTTGCTCATTGCCGGTAAATACAGTAAAGCTTCAGCCTGGCTTCTGGTTCCTTATTTATTATGGAGCGCTTTTGCCACATACCTGTCTTTTACCATTTATGCTATGAACGCATAA	MKKKYIGAIIVFIITYVLFSLAGVLFPIDREWYDALQKTDWTPSGSVIGIIWAVLFALISLSAALIYAKFSCKESKAFWVMLLINYIVNQGFSYFQFTQKSLLAASIDCLLVAVTTLILLLIAGKYSKASAWLLVPYLLWSAFATYLSFTIYAMNA	PGPT0014330_1836	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770	NA	NA
D1-12_03998	165			hypothetical protein	ATGAATTATTGGGTATTGGCACTATATTATAAATGGGCCACTCCGGAGATGGTGAAAAAGGCAATGTATTACGACGATTGTTCTGCAGCCGATTTACAGCAGGGCGTTGAAAAGAAGCTCGTTACCCCGGAACAGTATATAGAGATCACTGGTAAAGCCTTATAG	MNYWVLALYYKWATPEMVKKAMYYDDCSAADLQQGVEKKLVTPEQYIEITGKAL				NA	NA	NA	NA	NA
D1-12_03999	339	xkdW		Phage-like element PBSX protein XkdW	ATGAATATAGGTGAAGCAATCCTTTATAAATATCCCGATGCCGATCCGACTAAAGATTTTATCATTCAGAATAATGGCGATGGTACCCCCTCTTACATTGCACGATGGAATATCCGGGCTCCTATCCCTACAGAAGCGGATTTACAAGCTTGGTGGGACGAATTAAAACAAAATCCGCCATTTGAACTGCCTGATCAAATTCAATTACTGGCACAGAAGCTTTCGGAAGAAAAACTGGCCCGTAAACAGCTTGAAGAATTAAATCAAACACTTGGACGGCAGCTATCGGAACTAAAGCTCGCCATTATGTCATGGATAGAGAGGGATGAATCAAAATGA	MNIGEAILYKYPDADPTKDFIIQNNGDGTPSYIARWNIRAPIPTEADLQAWWDELKQNPPFELPDQIQLLAQKLSEEKLARKQLEELNQTLGRQLSELKLAIMSWIERDESK				NA	NA	NA	NA	NA
D1-12_04000	1098			hypothetical protein	ATGGCTTACGAAGCAAAAACAAATTGGCTTCCAGACGACCCGATTAACGAAGGTGATGTTAACCGCTGGGAAAAAGGAATAAAAGACGCCCATACGGACCTTGCATCTCATAAAAACGACATGAATAACCCGCATAAAACGACAAAGGGACAAGTCGGCCTCGGGAACGTGGACAACGTGCAGCAGGCTCCGAAACGAGACTTTGATATTCATGTGAATGATGCTGAACTTCATATCAATAAAGAAGAGCGGGAAAACTGGAACAACAAAGAAACCCCTGAAGGAGCAAAAGAAAAAGCTAAGCAGGCATTGACTGATGCTATCAATTATGTGGATTCCAATTTCAAAAACGAGAACCTAATTTGCATTCGTGATGGAGATGAAAGAGCGATCGTCGATGCAAGAACACCAGGCACTGATTACCCTGAAGGAATAACTTTTATGGGTATCTATGAGGGCAATGACACAGGCTACCCTCTTGGCTATGGCTTAATTAAAAATGAAAATTTAAACAAATGGCGCTTTGCTCAGTATTTCTATGGTAATGGCGATGGAACAAAGAGGAAGAATATCGGGACATGGATCCGCCATTGGTGGGATAGTACAGGCTGGACAAAATGGGAAAAGATATCAGGTTTTGCTCACGCAAGTGTGGGAGTATCCGATGTTCAATATTTAAAGCAGATTGATCACACCAAGATAGCTTTTAATCGAAAAATAAAAGACAGTCATGATGCTTTTGATATTAAAAATAATAGATTTGTCGCGCCGAATGATGGAATGTACTTGGTGAATGTTGGGCTTTATATGATCAATTACGCTATGTATATCAACTTTCATTTGAAGGTGTATCTGAACGGAAAAGAGTATAAAACCCTTGACCACTATAGAGGATATTTTGATAACGGCAAAGAAATGAATTTAGGGTTAAACGGAACAGCCACTATTCCAATGAACAAGGGCGATTATGTGGAAATCTTCTGCTACTGTAATTATGGCGGAGATGAAACCGTCAAGAGAGGCATTACTGATAAGAATGATGTTTACAACTTCTTTGATATTCAAGAAGTTGGAGGATTAAATTATGCCAATGTGTGA	MAYEAKTNWLPDDPINEGDVNRWEKGIKDAHTDLASHKNDMNNPHKTTKGQVGLGNVDNVQQAPKRDFDIHVNDAELHINKEERENWNNKETPEGAKEKAKQALTDAINYVDSNFKNENLICIRDGDERAIVDARTPGTDYPEGITFMGIYEGNDTGYPLGYGLIKNENLNKWRFAQYFYGNGDGTKRKNIGTWIRHWWDSTGWTKWEKISGFAHASVGVSDVQYLKQIDHTKIAFNRKIKDSHDAFDIKNNRFVAPNDGMYLVNVGLYMINYAMYINFHLKVYLNGKEYKTLDHYRGYFDNGKEMNLGLNGTATIPMNKGDYVEIFCYCNYGGDETVKRGITDKNDVYNFFDIQEVGGLNYANV				NA	NA	NA	NA	NA
D1-12_04001	273			hypothetical protein	ATGATTTCAGAAGCATATAGAGAGCGAACTGCTGCAGATTTAAAAGATCGAATCAGCAAAGTGCTGCTGAATGGAAAAGAGACTGAAATCGTGGAGCTTTCGATCAGTGGCGCGGTGGTTACGGTGCTCACACATCGTGAAGAGGATATTAAGCACATTGAATCAGTGCAGATCATTGATGACTTGGGAAATGTGATTACTGAACGAAAGACTGATTTAAATGTCAGTGATAACAGAACGTTAGATTTTAGGTTTACTTTTGAGGTGGTATAA	MISEAYRERTAADLKDRISKVLLNGKETEIVELSISGAVVTVLTHREEDIKHIESVQIIDDLGNVITERKTDLNVSDNRTLDFRFTFEVV				NA	NA	NA	NA	NA
D1-12_04002	579			hypothetical protein	TTGAGCAAACTCGATGAAATGACGGCTTACCTGCCACCGTTCTTAACAAAGTTGAAAGAAATGACTCAAATCCTTCAGACAGAAGCACCGGAATTTGAAAAGCAAAATGAGGGCATCTTTGATCTGACAGATCAGCTGTTTGTCACAACAGCTACCTGGGGGCTTGAACGCTGGGAAAAAATATTAAATGTGCCGCGCGAGTCGGGTGATACGTATGAGATTCGCAGGCTGCGCCTGATTTCCAAAATGTCCAATATTCCTCCGACAACATATTTGGCCATCGAGCGGGCGCTTAACAGGTTCTTGAAAAATCCGTCTGCCTGCGTCCGTCTGATTCCTGGAGAGTATCACTTTAACGTTGATATTGATATAGATGATCTGCAGCACATGACTGAGCTTATTGAGACGTTAGAGAACATGAAGCCGGCACATTTGGCTTACACACTCAGGCCGGCCTTTAATGAGAGTCTGCAAATAAAGGATACAGTGATATTGAATCACAGGAGATACCGTAAAGTGAGTGAGCTTCGCGTAGGTTATTCCGTAACTCTTAATAACAATGAGGTGATCTTGACATGA	MSKLDEMTAYLPPFLTKLKEMTQILQTEAPEFEKQNEGIFDLTDQLFVTTATWGLERWEKILNVPRESGDTYEIRRLRLISKMSNIPPTTYLAIERALNRFLKNPSACVRLIPGEYHFNVDIDIDDLQHMTELIETLENMKPAHLAYTLRPAFNESLQIKDTVILNHRRYRKVSELRVGYSVTLNNNEVILT				NA	NA	NA	NA	NA
D1-12_04003	1047			hypothetical protein	ATGTTTGAAGATCAAACGTTTGAGGAGATTATGGATCGTATGCTGTCCCGTATCTCTGCGGATATTGATACAAGAGAAGGCAGCGTCATTTACAATGCGCTCGCGCCTGCGGCAGCTGAGCTCGCAAAGTCTTATATTTGGCTTGATACCGTGCTGGAGCTCGTGTTTTCCGATACGGCTCAGGGCGAATTTCTGGACAGGCGGGCTGCTGAAGCGGGGATTGAAAGAACGGCGGCCACAAAAGCTGTAAGGGCGGGCGAATTCACATCAGGGGTGAAAATTCCTGCGGGTTCCCGCTTCTTTGTTGATAATCTCTATTTTCAATATACAGCGGATGGAACATTAGAATGTGAAACGGCCGGTGAAGCTGGTAATGCAAATATCTCCGGACAAAATCTTTTGTCGCTCGATACGATACCAGGACTTCAAAAGGCGATAGTGAAAGAGATCCTGATTCCTGGCCGCGAAGAGGAAGACGACAATAATTTGAGAGAACGCTATTTTACCCGCGTGCGCCGAGAAGCCGTAAGTGCTAATAAAGAGCATTATAAGCAGTGGGCGGAAGAAGTGGACGGAGTGGGTAAAGCGAAGGTCTTCCCGCTTTGGAAGGGAGACGGCACTGTCAAGATTGTGGTGACGGATGCTAAGCTGGAACCGGCTTCGGATATTCTGATAACAAAGGTCAGTGACTATATTGATCCGGAGCCCGGACAAGGAGAAGGCCAGGCGCCAATCGGTGCGTTTGTGACTGTAGAAAGTGCAGAATGGAAAGAGATTGAGATTTCCGCCTCTGTGCTGCCTGAAATCAATAGTTCGATTGACCAAGTTAAAGATGAAATAGAAGCGGGGGTCCTGAATCTTTTCAAGAAGATGGCCTTTGAAGATAATGTGATCCGGCTCTCTCAAATTAACAACATCGTGTATAATTCGCCATCCGTGAGCGATTACTCTGATATTAAAATTAACGGATTGGCTGAAAATTTGGTTCTGGATGATATTGAAATCCCTAAGCTCAGGCAGGTGACGATCGTTGAGCAAACTCGATGA	MFEDQTFEEIMDRMLSRISADIDTREGSVIYNALAPAAAELAKSYIWLDTVLELVFSDTAQGEFLDRRAAEAGIERTAATKAVRAGEFTSGVKIPAGSRFFVDNLYFQYTADGTLECETAGEAGNANISGQNLLSLDTIPGLQKAIVKEILIPGREEEDDNNLRERYFTRVRREAVSANKEHYKQWAEEVDGVGKAKVFPLWKGDGTVKIVVTDAKLEPASDILITKVSDYIDPEPGQGEGQAPIGAFVTVESAEWKEIEISASVLPEINSSIDQVKDEIEAGVLNLFKKMAFEDNVIRLSQINNIVYNSPSVSDYSDIKINGLAENLVLDDIEIPKLRQVTIVEQTR				NA	NA	NA	NA	NA
D1-12_04004	426			hypothetical protein	TTGGCCCTTTCACCAGAAATAGTATTTGATGATTTTGAAGATGACAGCGAAGCAATAGAGACATCGCGCACATATAGAATTGACTTTGAAAATGGGCGAATTACTAATGAGCTGATCGCAGGACTTGAGGCAATTAAACAATTTGTTTATATGGCCCTGCATACAGAGCGGTATTCCTATTCTGTTTTCAGTCATGACATTGGTAATGAGCTTCAAGAGGTTCTTTCTGATAACGAGACAACAGATGCATATAAAAAAATGGAGATCCCGAGGCTGATCGAAGAAGCTTTAATTTATGATGATCGAATTTCTTCTGTCACTGATTTTGAGATTGATAAATCAGGTGATAGGTTCATAGTTTCTTTTATCGTAGAGACAGACGAGGGCACGCTGGAGATCGAGGAGGTGCTTGGCGAGGATGTTTGA	MALSPEIVFDDFEDDSEAIETSRTYRIDFENGRITNELIAGLEAIKQFVYMALHTERYSYSVFSHDIGNELQEVLSDNETTDAYKKMEIPRLIEEALIYDDRISSVTDFEIDKSGDRFIVSFIVETDEGTLEIEEVLGEDV				NA	NA	NA	NA	NA
D1-12_04005	267			hypothetical protein	ATGAGGTTAAGTGAAGCAATTAAACATCTGGCTATCGGTGCTGTTGGTTCTGAGTCGCCGGTGGATATGCTGCCGGCTGAAGTCGTTTCTGTTTCCCCTGTTGAAATTAAGCTCAATGAAAACGAAAAATTGATCATTCCTTCTGACTTAATTATTATCCCTAAACGCCTGCGCGCCGGGGGAGAAGATGAGCTTAAAAACGGTGAGAATGTAATGGTTGTCTCCTTAAAAGGCGGACAATCATTTTTTATTCTCGACAAAATATAG	MRLSEAIKHLAIGAVGSESPVDMLPAEVVSVSPVEIKLNENEKLIIPSDLIIIPKRLRAGGEDELKNGENVMVVSLKGGQSFFILDKI				NA	NA	NA	NA	NA
D1-12_04006	981			hypothetical protein	ATGATTGAGCTTTTTGTCATTAAAGAAACAGAATGGCTTGAGCTGGTAACAGAGACAGTCTCTCTTGAAGGACAGCGATATCAAGCGCCGCGTTCAATCACGGCCACGATCATAACAAAGCAAGGAAATCACTCTTATTACAGCGTAACTGAAGGCGATACCGTTCTATTCAAGTGGAAAGGTAAAGAGTTATTCCGCGGCATTGTGTTTTCCCGTAATCCGGATGATCATAAATTGACTTTTACGGCTTATGACATGCTTCAATATCTGGTAAAGAACAAAGATGTTTACGTCTTCTCAAATCAGCGTGCTGATCAAATAGTAAAGCGGCTGGCTCGAGATTTTCAGATTCCCGCCGGGTCTATCACAAAAACAGCCTATACTATTAAATCATTGGTCTTTAAAGATGATACAAGCCTTTATGACATGATATTAAAGGCATTGAAGCAAACAAAAAAACAGACCGGTCATAATTATCAGTTATATGCCTCAAAGGGTAAGCTTTGTCTCAGGGCTTGGCCTGACCCGTCGGAAGTTTGGGTGTTAGAGACAGGCGTAAACATCACAGGATACCAGTATAGCACCTCAATTAATGAGACAGCTACGAAGGTCAAACTCCGGCGCCAGAAAGACAATAAGACGTATACTGCCACTGCAAAAGATAATTCAGGAATTAATAAATACGGGGTTCTGCAGTATGTGGAAACTGTCTCGGATAATATTAATCAGGCGCAGCTTCAGCAGCGAGCGAACGTACTCCAATCACAGAAAAAAGGTGTGAAAAAGGAATTAAAGAGTATTCAAGCTATTGGTATTCCTGACTTGCAGAGCGGGCTTCCGGTGTATATTTCTATTCCGGAAGTGGGGGTCAAGAAAACATATTGGATTGATTCTGACAAGCACGAATTTAAAGGCAGCTCCCACACGATGACAATTGATGTGGTTGAGAAAAACACAATCCCGGACGGGGCTTCATCATGA	MIELFVIKETEWLELVTETVSLEGQRYQAPRSITATIITKQGNHSYYSVTEGDTVLFKWKGKELFRGIVFSRNPDDHKLTFTAYDMLQYLVKNKDVYVFSNQRADQIVKRLARDFQIPAGSITKTAYTIKSLVFKDDTSLYDMILKALKQTKKQTGHNYQLYASKGKLCLRAWPDPSEVWVLETGVNITGYQYSTSINETATKVKLRRQKDNKTYTATAKDNSGINKYGVLQYVETVSDNINQAQLQQRANVLQSQKKGVKKELKSIQAIGIPDLQSGLPVYISIPEVGVKKTYWIDSDKHEFKGSSHTMTIDVVEKNTIPDGASS				NA	NA	NA	NA	NA
D1-12_04007	660			hypothetical protein	TTGACTAAGTCTGTTTATGAGTTTTGGATATCACAGGGTAAGGACAGGCTGCGGCTGCCCGTCCTTCCGGAACAGATCGACATATCTGATACGATTCAAAATGACTCTGTAAAGGTTGCCCGCTTCGGTGAGATTACCTTTATAGATAATCCTGGAGCGAAAGAAATTTCGTTCTCTTCCTTTTTTCCAAAGAAGCATAGTCCGCTCTCCGAATATAAAGGGTTTCCTTCCCCAGAAAACGCAATTGCAAGAATAGACAAATGGTTGAAATCGAAAAAGCCTGTTCAGTTTTTGATTACCGGAACAAAAATAAACTTAACCTGCAGCATTGAGGCTTTTTCGCACAGTGAGGGACAAAAGGACATAGGGGATCGAGATTTTGAAATCAAGCTGAAGGAATACAGGACCGCTTCACCCCGGAAGATAAAACAAAAGAAGAAAACAAAGAAAAAACGGCCGTCAAAATCTGCTCCCAAAACATATACCGTGAAAAAAGGGGATACTCTTTGGGATCTGGCGGGCAAATTCTATGGGAACAGCATGCAATGGCGGAAAATATGGAATGCCAATAAAACGGCAATGATTAAACGCAGCAGAAGAAACATCAGGCAGCCGGGCCACTGGATATTCCCCGGACAAAAATTAAAGATTCCGCAATAG	MTKSVYEFWISQGKDRLRLPVLPEQIDISDTIQNDSVKVARFGEITFIDNPGAKEISFSSFFPKKHSPLSEYKGFPSPENAIARIDKWLKSKKPVQFLITGTKINLTCSIEAFSHSEGQKDIGDRDFEIKLKEYRTASPRKIKQKKKTKKKRPSKSAPKTYTVKKGDTLWDLAGKFYGNSMQWRKIWNANKTAMIKRSRRNIRQPGHWIFPGQKLKIPQ				NA	NA	NA	NA	NA
D1-12_04008	5307			hypothetical protein	ATGGCGAAACTAACAGCCACATTTGATCTACACGATAAGATGACCAAAAAGCTCCGCAAAATACAAGGAAATGCTGAAAGACTTCAGAGGGCCGCTAATGGCCCTCTTGTTTTTGAAGCTGATGACCGGACACAACGGACCATACGGAGGATAGACCGCTCAGCTACCCAATTGACGCGGCGCCCCCGCTCTCTCGATGTCCGTCTCGATGATCAAGCTTCAGGAGGGTTAACTCGCATCAGGCGGCAGACTGAGGACATCACAGAAGGGGAACATGAGGTCAGGGTATCGGTGGATGACCGGGCGACCCCGCGTCTGCGTTTAATCAGGGGAAGTCTGTCTGATTTACAACGATCAGACGCAACGCCGACTGTCTCCGTCAGAGACCGCGCATCTGGGGATTTAAATTCTCTCCGACATCGCGTTTCAGATTTAGATGGATCTGAGGCAACGCCGACTGTGTCTATTAAAGACAAAGCTTCCGCTGCTCTCGATGCTATCGAGAAGAGGTTGGACAGCTTAAAGACTGTCACGATTACATTAGCGGCAGCGGGTGGATTATCAGGCGGCGCAATTATGAACTCCGGAAAAAATGCAATGGCTCAGGACGCCTATGTCTCAGCAACCTCAAACGTGAGCAAAAAAGATGCAGGACGGATGACTGACGACATTTTCTACAAAAACAAAGTCGGTGGATCCCGGGAGGAAGTAAGCTCAGCATTAAGGGGACTCTCGCAACTGACGGGGGCATCCGGCCGGGCGCTGGCGGAACTCACCGAGTCTTCAAGCAAAATCGCTCAATTGATGAATGCTGACCAAGCTGAAGTAGACCGGGCGTTCAGTGCTATGTATAACAACTTGAAAATGACTGGTAAAGAGAGCGGGGACACCATCGCTTACATTTACCGGAATGCTGGTGACCAGGCTGACGATTTGCTGGACACAATGAATGAATACAGTTCCACTTTCAAAGACATGAAGCTTACGGGCGGTCAAATCGCAAACGCCATGATAAAAGGGACCAAGGGCGGCGCCCGGAACTTCGACAACCTTGCCGACAGTATGCGTGAATTTAACATCCGTCGCACGGAGATGTCAGATAACCAAGTCGCCGCGTTTGAACAATTATTTGGCGGCAAAGAAACGCAAAAAATGTTCAAAGGCTTCAAAGACGGTTCTATCAGTGGACAGGAAAGCCTCTTTAAAGTGGCTGATGCGCTATCCAAGGTCAAAGACAAGACCAAGCGTGCTGCCATTGCAACTGAGCTTATCGGGACGCAGTACGAGGACTTAAAGCAGCCAATCCTTGATATGGCTGAGGGAATCGGCACAAGTGCGAAAACAACCGGCGAGCTAAACCGCAGCTTTACTCAGCTTCGGAATAACAATCCGATGACGCCTGTAAATGATGCTATTAGGGATTTTGAGAGTATATCAAAGGATATGGGAACCTCATTGTTAACCGGTCTTGGCCCTGCTTTTGATAAGATTAGTGACTTCCTGAACAGTAAAGAAGGCAAAGAAAAGCTGAAAGAGATTAAGAACGACATAACCGATCTTGGAGAAGCTGTCGGTGACAAGCTGAATAAGGCTATCGAATTTACAGTTAATCACTGGGATGAACTGAAAACAGGGTTTAAGGTTGTGGTCCCGCCTCTGATCGGTTTAATAGCTTATCTGAAGATTCTCCGTCCGATCCTGAAAGGAATAGGCACAGCCGGCGGCGATGCTGCCCGCGTCATAAAAAAACTGATTCCTTCACGAGCGGGTTCAGCATCCGCAGATCCCAATACGAGAAACGGTAGAAGAAACGGAAGGGCCGGCAGAGCAAGCCCAACGAGTATAGCAAGGAGCGGCAGTCTGACAGGCTGCTGTTGTGCTGGCGGTTTCGGCGGGGAAGGCCGGGGAAAAGGCAGATCATCTGGCCGACAAGGAGGCGCTGCCCGCAGGAATCCCGCTCGTGGGACAATCAGCGTGCCTGCTGATCGCTTAGGAAGAGAACGGGGGCGTACAGGGGCGGGCTCCGCTGCCGGTAGGGATGGAATTTCAACCACAAGAACAGAACTCCGGTCTGCCGGCCAGGCTTCGTCCAAAATGGGGAAAATCCTTAAACCGCTTTCCGGAGTTGGAAAGTTTGCGAAAGGAATCCCGGTACTTGGTACAGCGTTGGCGGCAACGGGGCTTATCGGTATGAATAAAGATAATGCCGGTGAAAAGCTCGGCTCTTTCGGGGGCAACATGGCAGGGGCGGCTGCAGGCGGGGCAACCGGCGCGGCAATAGGCTCTGTCGTTCCAGTTGTGGGAACAGCTGTCGGTGGATTAGTCGGCAGTGCTGTTGGCGGCATTGCGGGATCAGATGTAGGTTCGTCAGTGGGGCAGTGGTTTGATAAGGGCGGCATGTCAAAGACATGGGATAGCATCAAGACTGGCGGCGGAGATGCCTTTGCCTGGGTATCCGAAAAAGGGCAGGACGCCTTAGACTGGATCACCGACACCTGGGACGATCTATCATCTTGGTTTACGGACAACGTCTGGGACCCAATTGGTGATTGGGTCGGTGATACCCTTGACGACATAAAAAAGAAATTTGAAGACGGAAAAAAGTGGGTTACTGATACCTGGAATACAGTATCAAATTGGTTTGATAAGAATGTGTGGACGCCCATCTACAATACAGCTGTCCCGATTATCAATTTCGTAGTCGGCATTTTTGCTTTTGCTTGGGATGGCATCAAAAAGATATGGTCTATCGCCTCAACTTGGTTCATGGATAATGTTTGGAATCCAATGAGTAAGGCGGTAACCAGCGTGGCAAAATGGATCTGGACAAAGATCACTGATGCGTGGAATTGGATCTCCGATACATGGTCTACAGTCTCAACTTGGTTTATGGATAACGTTTGGAATCCAATAAGTGACGCTGTTGCGACTGTGGCCGGCTGGATACAAACACATATTGATTATGCTCGAATCTGGATCCAATTAAAGTGGCTTCAAGTGGCGACATGGTTCTATGACAACGTCTGGAATCCAATCAGTACAGCAGTTAGTGATGTAGCAAACTGGATTTGGACGAAGCTTAATGATGCGTGGACTTTTATTTCGGACTTATGGTCAACTGTGTCAACTTGGTTCATGGACAATGTCTGGAATCCAGTAAGTGATGCGGTGACAACGGCAGCAAAGTGGATCTGGACGAAGCTTAACGATGCGTGGAATTGGATCTCCGATACATGGAATACGGTTTCCACTTGGTTCACTGAAAATGTATGGAACCCCATTGTCACAAAAGTGGAAAATGCTAAAAAATCAATCACGAAAAAGTTTAAGGATGCCAAAAACGCAGTTACCGGCGCTTGGGGAGGAATTGAGGCTTGGTTCAAAACAAATGTCGGTGATCCCCTGGGGAAAGTGGCCGACGGAATTAAAAAGAAGTTTGAGAAAACGTTTTGGTGGGTCATTAAACTTAAAGAGTTAGCCGACGCCGGTGGGGAGTTTATCGGTTCCATTATACATCGTGGTGAACAAGTCACTGGACTGCACCAAAAGGGGAAAACTTCAACAAACAACAATTCGGCAGGAACAGGAATTGGCTTAGCTCGTACGCAACAACAGCCTGCAAATAGTGTTTTTCCGCCAAAACAAAAAAGCGTACTGCAAAAGAATGCCACAGGCGGCTTCATCACAAAGCCTACTATTTCATGGATCGGTGAAGCCGGTAAGGAGTTTGTTATCCCCGTCGATAATAATCGTGGTCGCGGTAAGATGCTTCTTTCACAGGCGGCTTCTAAGCTCGGCATGAGTGTTGTGGACGATATGGCTGCAGCTTCAAGCGGCGGTGGTGAATCTTCTGTTTCTCCATTATCCAGTGGTGCGGCAGTTTCCGCTTCTGTCTCTCCAACAGTAGACACGTCCAGCCTGAATGACCAGGCAGCTACATTTGGTCAACAGTTCTCACAAGGCTTTGATCAAGGTATAAGCGACAATGTTGTGTCTATGGATGCTTGGAAACAGAAAAACGTTGGTCAGCCTATGAACAGCTTAATTTCCTACTCGCCGAATTATGGGAAACAGGTTATCAATGGGTTTGCCAGTGGCCAGAACAGCACTGCGACAGGTACGGATGGATTTCTGCAAACCAAAGTCAAAACCCCTTTCCAAAATACTGTTAACAAATCAGGGTCATGGGGAAGCGGGACGGTGAAGGGATTCGCTTCCGGCCAGAACAGTACGGATCCCGGCACTGCCCAGTATGTCAGCTCTCGTATAGAAAAGCCTTTTCTCCGTTCTAAAGAGTCCTCCAACGGATGGGGGAGCGGAATGATCGGCAACTTTATTACTGGGATGGCATCCAAGGGCAGCGAAGTATCTGAAGCCGCGAAGGAACTTGCTAAAAAAGTAGAAAAAGCATTCCGTGAGGAGCTTGATATCCATTCGCCTTCCCGTGTCATGATGAGTCTTGGCCGCTTTGCATCAGTAGGGGTTGTTAAAGGTCTCGGCTCAGTCGATGTGAAAAAGTTTGCCGAAAAACAAGCGGGTTCACTTGCGGCTGCCTATTCCGGAATGGGGGCAGTCAGCGGCAACGTGAAGGAATGGCTAATGTCTGCAATGATCGCAACTAAAACTCCATTCAGCTGGCTTCCGGGCTTGATGACAATTGCACAGAATGAATCAGGCGGCAACCCTAATTCCATTAACTTATGGGACAGCAATGCCAAAGCCGGCCACCCGTCACAAGGGTTAATGCAGACGATCCCAAGCACCTTTGAATCTCATAAGGCGCCGGGAATGAATGATATCAGCAACCCAATTCACAACGCTGCTGCCGCTATCGGCTATATTAAAAGCAGATACGGATCGATAAACAATGTGCCCGGGATTAAGAGCCTGGCGCGCGGCGGCCCATACGTCGGTTATGCCAATGGTGGTTTGATCACTAAGGAGCAGATCGCCCGTGTTGGTGAAGGGAATAAACGGGAGTGGATCATTCCTGAAGAGCGGGGCATCCGCGGCCGTTATTTGCTTGGTCGTGCCGCTCAAGCGCTTGGAATGGAGGTAACTGATCCTGCGCAGACGGGAACAACTGAACTCTCTTCCGGGAAAGTATCTGCGGCCACCTCGGGCGGCACGCAGACAGCGGTTGCCGCTTCCGGCAGCAAAGAAATTGTAATTCAACTTAACGGCGATCAACATTTTTATAACAATCAAGACGCCGATAGCCTCGTGGCCAAAATCAAACAAGCTCTGATAGATGAATTAGAGAAGGATATCAATACCGGAACGAAAGGAGTCGTAGCTTTTGACTAA	MAKLTATFDLHDKMTKKLRKIQGNAERLQRAANGPLVFEADDRTQRTIRRIDRSATQLTRRPRSLDVRLDDQASGGLTRIRRQTEDITEGEHEVRVSVDDRATPRLRLIRGSLSDLQRSDATPTVSVRDRASGDLNSLRHRVSDLDGSEATPTVSIKDKASAALDAIEKRLDSLKTVTITLAAAGGLSGGAIMNSGKNAMAQDAYVSATSNVSKKDAGRMTDDIFYKNKVGGSREEVSSALRGLSQLTGASGRALAELTESSSKIAQLMNADQAEVDRAFSAMYNNLKMTGKESGDTIAYIYRNAGDQADDLLDTMNEYSSTFKDMKLTGGQIANAMIKGTKGGARNFDNLADSMREFNIRRTEMSDNQVAAFEQLFGGKETQKMFKGFKDGSISGQESLFKVADALSKVKDKTKRAAIATELIGTQYEDLKQPILDMAEGIGTSAKTTGELNRSFTQLRNNNPMTPVNDAIRDFESISKDMGTSLLTGLGPAFDKISDFLNSKEGKEKLKEIKNDITDLGEAVGDKLNKAIEFTVNHWDELKTGFKVVVPPLIGLIAYLKILRPILKGIGTAGGDAARVIKKLIPSRAGSASADPNTRNGRRNGRAGRASPTSIARSGSLTGCCCAGGFGGEGRGKGRSSGRQGGAARRNPARGTISVPADRLGRERGRTGAGSAAGRDGISTTRTELRSAGQASSKMGKILKPLSGVGKFAKGIPVLGTALAATGLIGMNKDNAGEKLGSFGGNMAGAAAGGATGAAIGSVVPVVGTAVGGLVGSAVGGIAGSDVGSSVGQWFDKGGMSKTWDSIKTGGGDAFAWVSEKGQDALDWITDTWDDLSSWFTDNVWDPIGDWVGDTLDDIKKKFEDGKKWVTDTWNTVSNWFDKNVWTPIYNTAVPIINFVVGIFAFAWDGIKKIWSIASTWFMDNVWNPMSKAVTSVAKWIWTKITDAWNWISDTWSTVSTWFMDNVWNPISDAVATVAGWIQTHIDYARIWIQLKWLQVATWFYDNVWNPISTAVSDVANWIWTKLNDAWTFISDLWSTVSTWFMDNVWNPVSDAVTTAAKWIWTKLNDAWNWISDTWNTVSTWFTENVWNPIVTKVENAKKSITKKFKDAKNAVTGAWGGIEAWFKTNVGDPLGKVADGIKKKFEKTFWWVIKLKELADAGGEFIGSIIHRGEQVTGLHQKGKTSTNNNSAGTGIGLARTQQQPANSVFPPKQKSVLQKNATGGFITKPTISWIGEAGKEFVIPVDNNRGRGKMLLSQAASKLGMSVVDDMAAASSGGGESSVSPLSSGAAVSASVSPTVDTSSLNDQAATFGQQFSQGFDQGISDNVVSMDAWKQKNVGQPMNSLISYSPNYGKQVINGFASGQNSTATGTDGFLQTKVKTPFQNTVNKSGSWGSGTVKGFASGQNSTDPGTAQYVSSRIEKPFLRSKESSNGWGSGMIGNFITGMASKGSEVSEAAKELAKKVEKAFREELDIHSPSRVMMSLGRFASVGVVKGLGSVDVKKFAEKQAGSLAAAYSGMGAVSGNVKEWLMSAMIATKTPFSWLPGLMTIAQNESGGNPNSINLWDSNAKAGHPSQGLMQTIPSTFESHKAPGMNDISNPIHNAAAAIGYIKSRYGSINNVPGIKSLARGGPYVGYANGGLITKEQIARVGEGNKREWIIPEERGIRGRYLLGRAAQALGMEVTDPAQTGTTELSSGKVSAATSGGTQTAVAASGSKEIVIQLNGDQHFYNNQDADSLVAKIKQALIDELEKDINTGTKGVVAFD				NA	NA	NA	NA	NA
D1-12_04009	150			hypothetical protein	GTGTATTTCTATTTCGCAATGCACGAGCTGAAATATTCCCCGTCTGAATTGAGAGAGCTCTATGAAGCTCCGCGTGAATACAAGGCGCTGCTGTACGGCGCAATTGCTTATAAACTTGATTTGCTTGAAAAAGAAGCGAAAAAATCATAG	MYFYFAMHELKYSPSELRELYEAPREYKALLYGAIAYKLDLLEKEAKKS				NA	NA	NA	NA	NA
D1-12_04010	450	yqbN_2		putative protein YqbN	ATGAGCGAAAAACAAAACGAAAAAGTATATGATCTTTCATTCTTTATGCCAGGACAAACAATCGAAGCGGAAGAGGTAAAAGTGCCGATTTCAAAGCGGTTTAAAGACAAGGCGGGGAACGTGGTTCCGTTCGTTTTCAAAGCAATTACGACTGAGCGCATCGATGAGTTAGAGAAAGAAAACACAACATACAAAAATGTCAAAGGCCGCGGCCGTGTGAAAGAACTGGACAGCCAGCGCTTCTATGCACGAATTGCTGTTGAAACGACTGTTTACCCGAACTTTAAATCAAAAGAGCTGCGTGAAGCTTACAAGACAGAAGATCCGGTGGAAGTGGCAAAGCGCATCCTTTCTGTCGGCGGGGAATACGCTAACTGGCTGAACAAGGCAATCGAGATCAACGGTTTTGAAGATGATCTGGAAGACCTTGAAGAAGAAGCAAAAAACTAA	MSEKQNEKVYDLSFFMPGQTIEAEEVKVPISKRFKDKAGNVVPFVFKAITTERIDELEKENTTYKNVKGRGRVKELDSQRFYARIAVETTVYPNFKSKELREAYKTEDPVEVAKRILSVGGEYANWLNKAIEINGFEDDLEDLEEEAKN				NA	NA	NA	NA	NA
D1-12_04012	444	xkdM_2		Phage-like element PBSX protein XkdM	GTGGCTTTTAAAGCGCAGAATACGATATCTGGTAAAGAGGGGCGCCTCTTCTTGGATGGTGAGGAATTGGCTTTTATCAAAACGTTTGAAGCAAACGTGGAGAAAAACAAATCAGAAGTCAATGTCATGGGCCGCCGTATGACCGGCCACAAAACAACTGGTGCGAATGGAACGGGAACAGCGACATTTTATAAAGTCACATCCCGCTTTGTGCAGCTGATGCTGAACTATGTGAAAAAAGGTGAAGATCCGTATTTCACTCTGCAAGCGGTGCTTGATGATAAATCATCTGGCCGGGGGACTGAGCGGGTTACTCTCTATGATGTGAACTTTGATTCTGCGAAGATCGCGGGGCTGGATGTGGATTCCGAAGCATTGGAAGAGGAAGTGCCGTTTACCTTTGAGGACTTTGATCTTCCTGAAAAGCTGAAGGATTCGTTTTAA	MAFKAQNTISGKEGRLFLDGEELAFIKTFEANVEKNKSEVNVMGRRMTGHKTTGANGTGTATFYKVTSRFVQLMLNYVKKGEDPYFTLQAVLDDKSSGRGTERVTLYDVNFDSAKIAGLDVDSEALEEEVPFTFEDFDLPEKLKDSF				NA	NA	NA	NA	NA
D1-12_04013	1401			hypothetical protein	ATGAACGGCGGAACATTTACACCAGGCAAGGAAAAAGAGCGTGCGGGTATCTACTTTAATTTTAAAACGACCGCCGAGGATCGTGTGTCTGTCGGTGAAAGGGGAACCGTGGCGCTCCCGATCGCATCTAGTTGGGGAGAGCTGAAAAAATTCATTTCTATCTCTTCCATTGAGGATTTGAATAAGAAGATCGGATTAAACATTGATAATCCTTCGCTCCTTCTGCTGCGTGAAGCAATGAAGAAGGCAAAAACAGTATTGCTTTATCGGTTGACTGAGGGTCTTCGCGCATCTGCAGAAATCAGTGAAGGCGTTAAGGCAACCGCTCTTTATGGCGGGACCAAAGGGAATGACATCATTATCCGTATCACTGAGAATGTCATTGATTCAAAAAAGGTTGATGTCATTACGTATCTCGATGAGTCAGAAGTTGATAAGCAGACCGTAGCGGCCGCGGAGGAATTGAAGGCAAACAGCTATGTATCCTTTACTGGAAAAGGAGATTTGACCGTATCCATCCCGCTTACCGGTACATCACCTGCCGATGCAAGCGGAGACCTACCGGCATCCGCCGGCACCCGTCTTTCCGGCGGCACAGATAAGATCCCAACGAACGCCGACTATATGGATTTCTTAGATGCAGCTGAAACGGAATACTTCGACACCATTGCTCTGCCAGTAGAAGACAATGACCAGCTGAAAGCCACGTTCGTGGCATTTGTGAAGCGGCTAAGAGATAACCAAGGTCAGAAGATTCAAGGCGTCCTCTCGAATTATAAAGGGGATCATGAAGGCATTATCAATGTGACAGGCGGGGTCCTGCTGGAAGACGGTACTGAGATTACGCCTGAAAAAGCTACTGCCTGGGTGGCCGGGGCCAGCGCGGGGGCTACCTTTAACCAATCCCTTACGTTTGTTGAATATGAAGGGGCTGTGGACGTTTTAAACCGCATTGATAATGATGAAATTGTTGAACGACTCGCTAAAGGTGAATTTTTGTTCACTTTCGATCCCCGCGATAAGGCGGTGGCTGTTGAAAAGGATATTAACTCCCTGACCAGCTTAACGGCTGAGAAAAACAAGGTGTTCCAGAAGAACAAAATTGTTAGGGTCCTTGATGCAATTAATAACGATCTGACATCTCAGCTGAAAGCATTAATTAAGTCCAGAAAAGCGAGCGGTAGCGATGTCCCGGCTTCGGATGACGGCCTACAGTTCGTGAAAACCCTGATCACTCAATACATGGGAATCCTTCAAGATGGGGGCGGCATTACGGGGTTTGACTCTGAGTCTGATATCGCGATTGTTCTAAATGAGGATCGGGATGGATTCATCATTGACTTGGCCGTGCAACCTGTTGATGCAGCAGAGAAATTCTACTTTAACGTGGAGGTGAAGTAA	MNGGTFTPGKEKERAGIYFNFKTTAEDRVSVGERGTVALPIASSWGELKKFISISSIEDLNKKIGLNIDNPSLLLLREAMKKAKTVLLYRLTEGLRASAEISEGVKATALYGGTKGNDIIIRITENVIDSKKVDVITYLDESEVDKQTVAAAEELKANSYVSFTGKGDLTVSIPLTGTSPADASGDLPASAGTRLSGGTDKIPTNADYMDFLDAAETEYFDTIALPVEDNDQLKATFVAFVKRLRDNQGQKIQGVLSNYKGDHEGIINVTGGVLLEDGTEITPEKATAWVAGASAGATFNQSLTFVEYEGAVDVLNRIDNDEIVERLAKGEFLFTFDPRDKAVAVEKDINSLTSLTAEKNKVFQKNKIVRVLDAINNDLTSQLKALIKSRKASGSDVPASDDGLQFVKTLITQYMGILQDGGGITGFDSESDIAIVLNEDRDGFIIDLAVQPVDAAEKFYFNVEVK				NA	NA	NA	NA	NA
D1-12_04014	192			hypothetical protein	ATGATGGCCACTAAGTCAGAAAAAGCAGAAACTGCTTTCTATATCAAGGATTTGAGGGGGCACAGTCGTGAGCTCTTTGGGGTAAAGCCCGAAGTATTTGACGGTGCTCTTTTTCATGTAGACAAAGAAAGAATTACAAAAACAGAAGCGAAGAAGCTCATAACTCAGTTTCTTCAAAAGGAGGTTAAATAG	MMATKSEKAETAFYIKDLRGHSRELFGVKPEVFDGALFHVDKERITKTEAKKLITQFLQKEVK				NA	NA	NA	NA	NA
D1-12_04015	438			hypothetical protein	ATGAATAGTGAAGTTGGCTCAATCATGGGCTATCTATACAATTTGTATCCTGTCCAGGTATATGAGGAAGAGATACCGCAAGACTTCGCGGTCCCATCTCTTTACTTCCCGCCGGCTTCTACCGCCGACGGTCCAGACACAGTTTCAACATTTCAGAAAGTCTATGTGCTAAACGTGAAGCTTTTTCATAAAAATGCACAGAAGGCTCATACAGAAGCGGAAAGGATAGCGGATGTCCTTAGAAGTAAGAGAGGATTAATCCCACTCCTGAAGGAATCTGGTGAAGGTACGGGTGATTTTATTCGTCTGTCACGGATTGAAACCCGAGTAACGGATGATTATGCAAGTATTGTCCTGAATTGGACAGGCCGCTATTGGTACGAGCGAGAAGAAAAGCCAGCTCTGAATGATTTTGATTTTACAAGCGGGGTGAAATGA	MNSEVGSIMGYLYNLYPVQVYEEEIPQDFAVPSLYFPPASTADGPDTVSTFQKVYVLNVKLFHKNAQKAHTEAERIADVLRSKRGLIPLLKESGEGTGDFIRLSRIETRVTDDYASIVLNWTGRYWYEREEKPALNDFDFTSGVK				NA	NA	NA	NA	NA
D1-12_04016	504			hypothetical protein	ATGAGAATTAAGGGGCTCGATCAATTCGTTCAAGCGCTGCACCAGGCAACCCACGGAGGACTGCGGCAAGAATATGAGATTTGGCTTGAAGGAATGGGGTATCAATTCCTTGATATTGTCCAGGATGAAGTGATCCAGACTCAGACGGTAGACACGCGCCGCCTGCTTAACTCATTTCATAAGGGCGATCAGGAGAACATCTTTTCTATGACAGCCGGTAAATTAAAGCTGGATGTTGGAACGAATCTGGATTATGCCTCTTACGTCAATGACGGGCATTTTACCATTGATCCGTCCAAGAATCAGGACCGTCGCTGGGTGCCGGGCCGGTGGAAAGGTGATCGCTTTGAATATGATCCTGCTGAAAAAAACTCCGGAATGCTGCTGAAGTTCAAATGGGTTGACGGTTCAGGGTATTGGGATAATGCAATGGCCATCTTTGAAATGATGTTTGAGCGCAGTCTTGAGCGGAAGCTCCAGCAATGGATTGAAAATAAATTTTAG	MRIKGLDQFVQALHQATHGGLRQEYEIWLEGMGYQFLDIVQDEVIQTQTVDTRRLLNSFHKGDQENIFSMTAGKLKLDVGTNLDYASYVNDGHFTIDPSKNQDRRWVPGRWKGDRFEYDPAEKNSGMLLKFKWVDGSGYWDNAMAIFEMMFERSLERKLQQWIENKF				NA	NA	NA	NA	NA
D1-12_04017	363	xkdH_2		Phage-like element PBSX protein XkdH	ATGAGTTACCGCTCCTTATTGACTCACCGGTGCGATGTTTATCATCTGCAGGAGAAACACGAAGATCAAAAAATGAGATACGGCGTGCCTGTTCCCGATGCACCGCCTGCTTACTCTTATCCCGATGAGCCTGATATAAAGAGTCAGCCCTGCTATTTTACTGAGAAGAGCCAATCAATTGTTCAGCAGGAGCCGAACGCGGCCATCTATCAGTCATTTATGATTCATTTCCCTGCTTCTGCAGATATTCGAATCAATGACAGAGTGAAATGGGAAGGCACTGCCTACAAACTGCAGCAGCCGCGTTTGATTAAAAATCACCATTGGGAAGTGACGGCGGTCAGGGAGGTTAATTACCTATGA	MSYRSLLTHRCDVYHLQEKHEDQKMRYGVPVPDAPPAYSYPDEPDIKSQPCYFTEKSQSIVQQEPNAAIYQSFMIHFPASADIRINDRVKWEGTAYKLQQPRLIKNHHWEVTAVREVNYL				NA	NA	NA	NA	NA
D1-12_04018	402	yqbG_2		putative protein YqbG	GTGAGCGGCATGTTAATTACCCCCGCTGACTTAAAGGCTTACTCGGTTTTTGATTCAGTCAAAGATCGGCCGGACGTGCTGCTTACCCAGGACATCATAGAAGCCGTTGCTGAAATTTCGTTAGAAGTTGGCCATGATTTTTCAGGGGAGGAATATGATCCTCTTCCTGAAAGGGTCAGGCTTGCCGTTTTAAAGATGGCGCAGTTTTATGCACTGATCAATTCGGATGAGTCAATCACAAAAGGATACACGTCCGAGAAGATAGGCGATTATTCGTACACTCTCGGGAATGGAAGCACCATTCAAAAACCCAATATCTATTCACTGATTAAGGATTACGTGGTGCCGGCTGATTCAGATCTTGAAGGCACAGAAGTAAAAATGAGGATGAGGTCTATATGA	MSGMLITPADLKAYSVFDSVKDRPDVLLTQDIIEAVAEISLEVGHDFSGEEYDPLPERVRLAVLKMAQFYALINSDESITKGYTSEKIGDYSYTLGNGSTIQKPNIYSLIKDYVVPADSDLEGTEVKMRMRSI				NA	NA	NA	NA	NA
D1-12_04019	351	yqbF		putative protein YqbF	ATGGCCGACACATATACAGCGAAGTTGATAGCAGGTCAGACATACGATGTTATGGGGTATGTCTTCCTGCTTAATCAAAAGCGTGAAGTGGAGAAGCCCGTCTATTCTTATTTGAAGAATAATGAGCAGTTTGAGTGTCATTTAATTAAAGAAGAGCCGAAGGAAACGGAAAAACCTAAAAGCGATGATGACACGGCAACAAAGAAGAAGTACACAGAAACAGATTTGAAGGGCATGAATAAAACTGAACAAGAAGCCATTGTTACTGATCTTGGCGGCAATCCGTCTGACTTCAAGAATGCAGATGAAAGAATTGCCTTCATCCTTGAACAACAAGGAAAAGAAGAGTGA	MADTYTAKLIAGQTYDVMGYVFLLNQKREVEKPVYSYLKNNEQFECHLIKEEPKETEKPKSDDDTATKKKYTETDLKGMNKTEQEAIVTDLGGNPSDFKNADERIAFILEQQGKEE				NA	NA	NA	NA	NA
D1-12_04020	936	xkdG_2		Phage-like element PBSX protein XkdG	ATGAGAAATCACGAGGTAATTGAAAAGGCAGAGATGACGCTTGCCAGCTTAAAGAGCGGCGGCATGATGAACCCAACACAGGCAAATGCTTTTATTCGAATGGTTCAAGATGCGCCGACTATCTTAAATGAGGCGCGTGTCATTCCTATGGATCACGATACGCAAAAAATTGAGAAGATCGGGTTTGGGCAGCGGATTCTCAGAGCTGCCCAGGAAGGTGTTTCGCTGACAAAAGATCAAAAGGTTGTTCCGTCAACAAGCACTGTCAGCTTGAGCACAAAAGAAGTCATTGCAGAAGTAAATATCACCTATGACACACTTGAAAACAACATTGAAAAAGAGGGATTGCAAAATACAATTATGCAGATGCTCGCTGAACGTGCGGCCGTTGATATTGAAGAGCTGTTAGTAAACGGTGATACAGCATCTTCAGACTCATATCTTGCGCAAATAGACGGAATTCGAAAGCAAGCCACATCTCATATTGTGGATGTAGCGGGCGAAGAGCTGACTCGCCAGGTCTTCAAGCGTGGATATAAAGCAGTTCCTTCAAAATATCTCCGGATTCCGCAGGAGTACCGTTTTTATACCTCTCCTGGCATGGAAGTTGAATGGAAAGACCGAGTGGCTGACCGTCAGACTTCTTTAGGAGACACTGCGGTACAGGGCGGACTTTCTTCAGCGTTTGGTGTTCCGGTCAAAGGCATTGCCAACTTGCAGCCGTACACCACAGGTGAAGGGGATAGCGCGTCAGATGTGTCAGATATTATCCTGACTCACCCGAAAAATATCATTCTCGGTTTTTCGCGCAACATTCGTATTGAAGTAGATAAGGATATCCGCCGCCGTATGTTCGTGATCGTCCTGACGGCTAAGCTGGACAGTAAATTCGAAGAAGAAGACGCTGTGGCTAAAATCATCAAAGTGAAAGAGTAG	MRNHEVIEKAEMTLASLKSGGMMNPTQANAFIRMVQDAPTILNEARVIPMDHDTQKIEKIGFGQRILRAAQEGVSLTKDQKVVPSTSTVSLSTKEVIAEVNITYDTLENNIEKEGLQNTIMQMLAERAAVDIEELLVNGDTASSDSYLAQIDGIRKQATSHIVDVAGEELTRQVFKRGYKAVPSKYLRIPQEYRFYTSPGMEVEWKDRVADRQTSLGDTAVQGGLSSAFGVPVKGIANLQPYTTGEGDSASDVSDIILTHPKNIILGFSRNIRIEVDKDIRRRMFVIVLTAKLDSKFEEEDAVAKIIKVKE				NA	NA	NA	NA	NA
D1-12_04021	1176			hypothetical protein	ATGCCAAGAGAATTGGTGAACGCAAAAATCACACATGTTTCTTATGTAGACAAGGCTGCTAATCAAAAGCAGTTCTTTTTTATGAAATCAGAAAAACAGCCGGACTTTCAAAAGGAAGTCAAGGTCCTTGCAAAAGAAGCGGACGAGCAAAAACTTGTTTACGGTATCGTTTATGAACCGGACACAGTGGATGCTCACGGGGATTTCATGACAGCTGCAGAAATTGAGAAGGCCGCTCACGGCTTCCTGAAAGATGCCCGTGAAATTGATAAGCAGCATGACTTTCAAGGCGGTGTCGGTGAAGTTGTTGAATCTTATGTCGCCCCTGCTGATTTTGAAATGAACGGTGAAACCATCAAAAAAGGATCCTGGGTGCTTGTGACAAAGGCTTCCGAGGCAGTTTGGGATGAAATCAAAAAGGGCGAGATTACCGGTTATTCAATGGCCGGCATCGCGGATATCGCAAAACAAAAAGAAAAGCCTGTTTCTCCAGAGGACAACCACGAGAAAGGGCTTTTTAATTTGGTCAAAAACTTTTTTAATGCCAGTGTGGCCAAGGGCGCGGTTCGGGACAAATATGACGAGGGGCGCCAACGCCGTGAGTTTTGGGCCGCACAAGATGCGTTAAACTCAGCTTTATTCAAATGGGACTATCCCGGAGAGATGGAAAATGACCCTGCAAAAATCAAAGAAGCTCTGCAAGACTTCGTGGATATCGCTCAGGATGTATTGATTTCCGATGACATTCTAAAAGCGATCGGGCCGAAGCCGGAAGAGCTGCAAAAGGCCGGCCGGAAATTCTCGGCTTCAAGCTTACAAGAAATTAAAAGCGCTCATACCGCTCTCGGCAACTTGCTGAGTCAGGTGGAGACGGAAGGAGAGGAAGAAGAAATGAACTCAGAGGATGTAGCAAAATCCATCGAAGCAGCGTTAGAGCCAATTCAGAAGCGGCTCGCGGAATTGGAAAAAGAGGAAGAACCTAAAAAGAAGAAAGACGAGGAAAAAGCATCTGAGGAAGAAGAGGCTGAGAAGTTGAAAAAAGCCATCACAGACGCTGTTCAACCGCTCGCTGATCGTATTGATGCCATTGAAAAAAGCCGCGGCTTTTCTAAACAAGAAGAGACCACGCAGGAAACCGCAGATGTTAAAAAATCAATCTGGGCCGGGCTTCTTTAA	MPRELVNAKITHVSYVDKAANQKQFFFMKSEKQPDFQKEVKVLAKEADEQKLVYGIVYEPDTVDAHGDFMTAAEIEKAAHGFLKDAREIDKQHDFQGGVGEVVESYVAPADFEMNGETIKKGSWVLVTKASEAVWDEIKKGEITGYSMAGIADIAKQKEKPVSPEDNHEKGLFNLVKNFFNASVAKGAVRDKYDEGRQRREFWAAQDALNSALFKWDYPGEMENDPAKIKEALQDFVDIAQDVLISDDILKAIGPKPEELQKAGRKFSASSLQEIKSAHTALGNLLSQVETEGEEEEMNSEDVAKSIEAALEPIQKRLAELEKEEEPKKKKDEEKASEEEEAEKLKKAITDAVQPLADRIDAIEKSRGFSKQEETTQETADVKKSIWAGLL				NA	NA	NA	NA	NA
D1-12_04022	645			hypothetical protein	ATGGAATGGAGCAAGGTTTTTGATCTTCTAAAAACAATCTTAACTTCATGGCCGTTGGCTGCAGTAGTAATAGTATTTGCTATTCGTAAAAGTCTAAAGACGGTTATAGAAAATAGGCTATTTAGCTTTAAAGTAGGGAACGTAGAGATTATTTTCGATAGACTCTTGGAAAAAGTGGATCAAAGTTTACAAGAGGCGAGTCAACGATCTGAAGAAGAAAAGGTAGATTCTGAGACAATGAAAGAAGCTGAGAATACTAAAACAGAAAAATTTGAATACAAGCTACCAGAGACCCCGCCTTCAATCGTAAAAGAGTCGAATGATTATTCTTACATTGTAGCAACAAAGCCAAGGCTATTAGTGAAAGAATCCTGGAGGGAAGTTGAACGTAAAATTAGAAGTTTAGTGATCGAAAGTGGAGGTAACGATTTTCGTTTCAAGCACCCTAAAAATAGCATGATTTATTTAACTAAAGAATACCCACAGTTAGGGAAAGCACTTAAGTCTCTTTTAGAGCTACGAAACTTCTTATTAAATGAAAACTACGAGCTAAAAAGTGTCGATGCGACTATTTTTCGTTCTCGGTGTCTAAGCGCAATTGACGAATTAAATAAATACATGGAAAAGTCTAATGTTGCAAATTAG	MEWSKVFDLLKTILTSWPLAAVVIVFAIRKSLKTVIENRLFSFKVGNVEIIFDRLLEKVDQSLQEASQRSEEEKVDSETMKEAENTKTEKFEYKLPETPPSIVKESNDYSYIVATKPRLLVKESWREVERKIRSLVIESGGNDFRFKHPKNSMIYLTKEYPQLGKALKSLLELRNFLLNENYELKSVDATIFRSRCLSAIDELNKYMEKSNVAN				NA	NA	NA	NA	NA
D1-12_04023	918			hypothetical protein	ATGAACAAAACCGATAAGCTGCTGGTCAGTCTTAACTCATTCATTCAAAAAGCCGAGGAAAGCGAAGGTCAGAAGCTTGTGGAGACGATTCCTGACTTCCCCGGCCGCTCTAGGATACCTCGTTACGTGGAAGATTATGAAAAAGGCATCGCCAGATTGTTCAGGAGCCAGCGTAAGAGGTTTTTAAAAGGATTGAACGGCTTTGTAAGCAAAGCTGATTCAGAGACGCTACAGGAGCTTCTGGTGTTTTTTACGCAGAACCTTTTTGCAGAGGATGATTTTCAGGAAGAGTTCCAGGAACTGACCGAGGATTTTCTGCAGCAGACGCTTGAAGAGCTGGCCGCTGTCATAATGGATTCAATCGATCCTGAAGTTCCGTTCAAAGTTCTTTCCGCTCGCTCGATCGACTGGATTAAGGGGTGGTCAAAGAGACTGGCCGAGATTATGCAGCTCAACACACATGAGGCGGTGGAAACGGTGCTGACGGAAGCTATTGACTCAGGCTCGTCTATCCAGGAGATTGAACTGACTCTGAAGGATATGCCGCATTTCGATAGACCGAGAGCCCGGACAACGGCCATAACCGAGGTGCTTGCCGCTTCCTCTGCCGCTCAGCATGAATCTTATACGCAGTCCCCGGCGGTATCTAAAAAGAAATGGCGGCACAGCGGAGGAAAGAAAAACAACCCGCGTGAGAATCATATAGACCTCGACGGCACCATTGTTGGTGTTGATGAAGAATTCAAGATACCAGGAAGCAGCGAAACCTGTATGTATCCGCGAGACACAAAGCTTTCCGCTGCTGAGCGGGTTCATTGTCATTGTGTATTATCTCCTGTAGTAGATAACAAGATTTTAGGTTTGTCAGCTGACGAAAAAGAAGAGATTCGCAGAGAAGCCTTAGCAAACATGGAATAA	MNKTDKLLVSLNSFIQKAEESEGQKLVETIPDFPGRSRIPRYVEDYEKGIARLFRSQRKRFLKGLNGFVSKADSETLQELLVFFTQNLFAEDDFQEEFQELTEDFLQQTLEELAAVIMDSIDPEVPFKVLSARSIDWIKGWSKRLAEIMQLNTHEAVETVLTEAIDSGSSIQEIELTLKDMPHFDRPRARTTAITEVLAASSAAQHESYTQSPAVSKKKWRHSGGKKNNPRENHIDLDGTIVGVDEEFKIPGSSETCMYPRDTKLSAAERVHCHCVLSPVVDNKILGLSADEKEEIRREALANME				NA	NA	NA	NA	NA
D1-12_04024	1548			hypothetical protein	ATGACGAAGCAATCAGTCAAAGCACGAGTGATTAAAGCCGCTCCGCCTGCCGAAACGACAAAACAAATATATGCTGATGAATTTGCAGGCCATTACACGGAAAACATGATCATGGAGCCGCCATACAACCTGAAGGAATTAAAAATGATAGCTGAGTATTCAACAATGCTCCAGCAATGTGTGGATGCCTATAGGACAAATATTCTTGGTTTTGGCTTTGACATGCGATACACAAAGGATATCAATTCACATGAAGTAGATCCTGCAGAAAAAGCGGATGCGGATAAAGAATGGCAACAGCTCGAGGAGTTCATAAAGCATCTTCATTTTGATGAATCAGCAGAAACACTGCTCGGCTTCTGTTTAGAAGATCGGGAAAAGACAGGAAACGGATATATAGAGGTTATCCGTAACGGTAAAAATCAGCCTGCCGGCATTGAATACATGGCTGCGGAATATGTCCGGGTGTGCAAGCTATCTGATCCTATAGAAGTTCCTTTCAAATACTTTGAATCAGGTCAACTAAAGACTATGAAAAGGCAGAAGCGGTTTCGGAAATATGCTCAGATGATTGATGGGCGAGTCATTTATTTTAAGGAGTACGGCGACCCGCGCACCCTTAACCTTGAGACAGGGCAGTATGAAGAAAACACTCCTATAGAAAAGCAGGCCAACGAGGTTGTGCATTTTAAGATAGGAAGCGGCGCTTATGGGAAGCCGCGGTGGATCGGTCATATTGTCAATCTATACGGCGCCCGCAAAGCAGAAGAGCTGAATTTCATGTACTTTAAACAAGGCCGGCATATTCCCGCTGCTATTACGATCGAGAACGGAATGCTCTCGGAGGATTCGTATAAACAGCTGCAGGACTATATGAACGGCCTTGAAGGCGTGGAAAACTCACATAAATTTCTTTTGCTCGAAGCTGAAGGGATAGCCAAAGGGAAGAATATTCATGGTGATGAAGAAATCGTACCGGTCAAAGTGGACATCAAGTCACTGGCCGAGATTCTTCAGGAAGATGCTTTGTTCCTGGAATATGACCAAAAGAGCCGGGATAAAATCCGCTCTGCTTTCCGGTTACCGCCGATTTATACCGGGGAAGCGCAGGATTACAACAGGGCGACAGCTGACACAGCCAGAAAGATTACTGAAGAGCAAGTCTTTCAGCCGGAACGAAATGTACTTACCGGCAGACTGAACGCGTTATTTTTAAATGATCTTGAAATTCATAAAGTAGAGCTGCAGTTGAAAGGCCCGGACTTTCAGGATCCGCTTGAAATTGCAAAAGTGCTGACTCCTTTCATTACGGCTGGTGCTGTATCACCTAACGATCTGAGGGATCTGGCCGGGCGCGTACTCGGCAAAACGCTTGAGGAATGGCCGGAGGAAGAATACAATCGGCCAATTGGTAAGAACGAATCAACGCCTGCAGCGGATCCATTTACGGCTCTGTTTAAATCCGAGAGCGGCACTCCTGATGTGATCGGGCTGTTGAAAGATATGCGGGATGTGTTGGAGGATTTGAAAAATGAACAAAACCGATAA	MTKQSVKARVIKAAPPAETTKQIYADEFAGHYTENMIMEPPYNLKELKMIAEYSTMLQQCVDAYRTNILGFGFDMRYTKDINSHEVDPAEKADADKEWQQLEEFIKHLHFDESAETLLGFCLEDREKTGNGYIEVIRNGKNQPAGIEYMAAEYVRVCKLSDPIEVPFKYFESGQLKTMKRQKRFRKYAQMIDGRVIYFKEYGDPRTLNLETGQYEENTPIEKQANEVVHFKIGSGAYGKPRWIGHIVNLYGARKAEELNFMYFKQGRHIPAAITIENGMLSEDSYKQLQDYMNGLEGVENSHKFLLLEAEGIAKGKNIHGDEEIVPVKVDIKSLAEILQEDALFLEYDQKSRDKIRSAFRLPPIYTGEAQDYNRATADTARKITEEQVFQPERNVLTGRLNALFLNDLEIHKVELQLKGPDFQDPLEIAKVLTPFITAGAVSPNDLRDLAGRVLGKTLEEWPEEEYNRPIGKNESTPAADPFTALFKSESGTPDVIGLLKDMRDVLEDLKNEQNR				NA	NA	NA	NA	NA
D1-12_04025	1347			hypothetical protein	ATGACTGTTAAAAAAGTAAACCCACATTTCGAGGATTTCCTTTTTGACTGGAACCAAAAGTTTCAGTTTTTGGTTGGCGGCTATGGGTCATCGAAAAGCTATCATGCTGCGCTGAAGATCATTCTGAAATTACTCACAGAGAAGCGGACAGCGCTTGTTATCCGGGAAGTTTATGACACACACAGAGACTCAACCTTTTCTCTCTTCGAAGAGATTGTCAACGAATTAGAGATTGATCACGTTGTTAGGTGTGTTTCGTCACCGATGCAAATACGGTTTCCGAATGGCAGCCGAATTATTTTTAAAGGGCTGGATAAGCCGGCCAAGCTGAAATCAATTAATAACATTTCGATCATATGGATTGAGGAATGTTCTGAGGTGAAGTATGAAGGCTTTAAGGAATTGCTTGGGCGCCTACGTCACCCGACATTGCCGCTCCACATGATTCTTTCTACAAACCCGGTCGGAGAGGATAACTGGACATTCCGGCATTTCTTCAAAGATGACCGCCAAAAACGGTTTGTGCTTGATGATAAAGAGCTTTATGAAAAGCGGACGATCGTTGTGAATGACACCTATTATCATCATTCAACTGCGGAAGATAATCTGTTTCTGCCCGAAAGCTATGTGAAGCAGCTCGATGAACTGAAAGATTATGATCCAGACCTTTACCGTATTGCGCGGAAGGGGCGCTTTGGCGTTAATGGTGTGCGGGTTCTTCCTCAATTTGAAGAGCGTCCGCACGAAGAAGTCATGGAGGCTATCGAAAACATTCACCGCCCACTTAAACGAGTCGGCATGGACTTTGGTTTTGAGGGATCGTATAACGCTATTGTCCGGCTCGCTGTGGACACGGAGAAGAAGTACCTCTATATCTATTGGGAGTATTACAAAAATCAAATGACGGACGATAGGACGGCCGAAGAGATAAAGGAATTTGCGGAGACAAAGGAATTGATCAAAGCGGATGCCGCCGAGCCGAAAACAATCCGTTATTATCAGCAGCAAGGGTTCAATATGGTGGGGGCTCGGAAGTTCCAGGGTTCACGTCTTCAATACATTAAGAAGATCAAGCGGTTTAAAAAGATCATTTGCTCTGACCGTTGTGAAAATACGGTGTATGAGCTGAAGCCGCTCACCTATGCTACCGATAAGCTGGGTCACATCATTGAAGACAAGTTCACGATTGACCCACATACTTTTTCAGCGATATGGTACGCGCTGGATGATTACGAGGTTTCCGATCTTAAAGAAAAACCAAAAGGACGCCCGCAGCGGGCCAGACCGGTTAGGGAAGAAAGGGGGTTATCAGATGACGAAGCAATCAGTCAAAGCACGAGTGATTAA	MTVKKVNPHFEDFLFDWNQKFQFLVGGYGSSKSYHAALKIILKLLTEKRTALVIREVYDTHRDSTFSLFEEIVNELEIDHVVRCVSSPMQIRFPNGSRIIFKGLDKPAKLKSINNISIIWIEECSEVKYEGFKELLGRLRHPTLPLHMILSTNPVGEDNWTFRHFFKDDRQKRFVLDDKELYEKRTIVVNDTYYHHSTAEDNLFLPESYVKQLDELKDYDPDLYRIARKGRFGVNGVRVLPQFEERPHEEVMEAIENIHRPLKRVGMDFGFEGSYNAIVRLAVDTEKKYLYIYWEYYKNQMTDDRTAEEIKEFAETKELIKADAAEPKTIRYYQQQGFNMVGARKFQGSRLQYIKKIKRFKKIICSDRCENTVYELKPLTYATDKLGHIIEDKFTIDPHTFSAIWYALDDYEVSDLKEKPKGRPQRARPVREERGLSDDEAISQSTSD				NA	NA	NA	NA	NA
D1-12_04026	840			hypothetical protein	TTGTGGAAAGAGAGCGGCGGAACCAAGAAATTAAAAGACATTGCCGATGAATTGGGCGTCACCAGCAGCACTGTCCGCAAATGGAAAGCGAATGATAAATGGGAAGAAAAAATCAATGGGAGCGCTCCTAAATCGAAAGGGAGCGCTCCTTTTCGTCCGGGCGCTCCAAAAGGTAACAAAAATGCCCGGGGTAATAAAGGAGGCAAGGCGCCGCCTGGCAACAAAAACGCCAAAGGGAACAGAGGCGGTGCCGCTCCCAAAGGAAATAAAAACTCTGTGCGTACAGGTGAGTATGAATCAATCTTGTTTGATTTCATGGATGATACAGAAAAAGAGCTGTTTGATCAGATTGAAACTGACCCGCTCTATCAAATTGAGTTAACGATCCGGGAGCTTTATTTAAAAGAGCGGCGTATGATGCAACGCATTATGAGAATTGAAAATGGATTAAATGAGAAGCAGCGCCGTGTTCTTCAACAAATGCGCAAGGTAAAAGACATCATCCCAACTAATGACAAGAAAACAGGACTTGTAAAGCATGTGCCGCTTATGAACGAGCGGCTGGTTGTCACGGAAGTGGAAGAAACAGCGATGCGGTCCATTGACGATATCTTAAATATTGAAGAAGCAATGACCCGTGTTACCGACAGGCGGCTGAAGGCTATTCGTCAAAAGCATGATATCACCCGCTCTATGGATGAACACGATCTGAAGCTACGCGCCATGTATCTGACAAACGAGACAAAACAAGCTGAGCTTGAACGCTTGACCGCAAGACCTGTGGATAACTCTGTGAATATCATAATAGAGCGTAAGCGCAAGGATAAGGATGACAGCTGA	MWKESGGTKKLKDIADELGVTSSTVRKWKANDKWEEKINGSAPKSKGSAPFRPGAPKGNKNARGNKGGKAPPGNKNAKGNRGGAAPKGNKNSVRTGEYESILFDFMDDTEKELFDQIETDPLYQIELTIRELYLKERRMMQRIMRIENGLNEKQRRVLQQMRKVKDIIPTNDKKTGLVKHVPLMNERLVVTEVEETAMRSIDDILNIEEAMTRVTDRRLKAIRQKHDITRSMDEHDLKLRAMYLTNETKQAELERLTARPVDNSVNIIIERKRKDKDDS				NA	NA	NA	NA	NA
D1-12_04027	531			hypothetical protein	ATGACATTAAATTTTACAAAAGAGCAGCGAGCTATATTAATCAACCAAATGGAAATCCTAAAAAGATTAGACCCTCAAAGCGAGGCTGAATATGAAAGAAACATAGAAGTGCTTTATAATGGCTATTCTCACTTTTATGAAGAGATTTTTGGGCACATTGAAGATGAGTTTTCTCCTGAAATTACCCGTAAGGTTTTTGATGTTTTAACTATGTATAGAGCTCTATATTTTGGCTTCAAGAATCTGACAAGTGAAGAACAAGAGGAAATTTCTGAAGAAGATGTTTTATTCCAAGGGTTTGATGGGAATGAAGAACCGGATCATTACTGTTTTGCAAACCATGTTGTGAAAGAAGCGGGACTTTATTCTGAAATGGAAGACCTGATCAAAGAAGGAAAGATAGAAATGAATTCTCATAGAAACAGAGTTCGTTATTATAATGAGTTGCTCTCACGTTGGACAAAAGTCAGAGAAGATGCTGGCGGAGAACATCTAACACTTCAACAAATAAAAAATGTATTAGGTAAATGA	MTLNFTKEQRAILINQMEILKRLDPQSEAEYERNIEVLYNGYSHFYEEIFGHIEDEFSPEITRKVFDVLTMYRALYFGFKNLTSEEQEEISEEDVLFQGFDGNEEPDHYCFANHVVKEAGLYSEMEDLIKEGKIEMNSHRNRVRYYNELLSRWTKVREDAGGEHLTLQQIKNVLGK				NA	NA	NA	NA	NA
D1-12_04028	249			hypothetical protein	ATGACAAGAGAAAAAACAAACGTATGTTCCTATTCTGATGAAGAGAAGGAAAAGCTTCTGCTTTTACATAAAGCCGATGTTCTTGAAAATATCAGTGAATCAAAAGAGAAGTATCGGAAAATCGTTAGTGCAGGCATTGCACAGTGGATCAGAGACTTTCAAAACGGTCGAATAGAGGTAAACACTGTGGACGACTTAAAAAAGCTCATAGAGCTTGATATACAGCTTCAGAAGGATGAAGAAATATAA	MTREKTNVCSYSDEEKEKLLLLHKADVLENISESKEKYRKIVSAGIAQWIRDFQNGRIEVNTVDDLKKLIELDIQLQKDEEI				NA	NA	NA	NA	NA
D1-12_04029	198			hypothetical protein	ATGAATAAAGATATTTTAGATCTTAAAACTACGGCAGAAGCGGCTCGTGCAGCCTACAAAATGGGGCACTTAAGCCGAGAGGAAGCGATAATTAAAATAGAACCTTACTTGATTAGAGTAAATGAAAAAGCAGTGGCTATCGCAAAGAAATATAACCAACGCCCTCGTAAAGTTTCATTAACTTCTTTTTTAAGATGA	MNKDILDLKTTAEAARAAYKMGHLSREEAIIKIEPYLIRVNEKAVAIAKKYNQRPRKVSLTSFLR				NA	NA	NA	NA	NA
D1-12_04030	1338			hypothetical protein	ATGAATATTAGAACTATACCAGTAGAAAAGATTAACCCCGCTACATACAATCCTCGGATTGATCTTCAGCCAGGTAATCCCGATTATGAAAAATTAAAGTCTTCAATAAATAAATTTGGTACTGTAGAACCTCTTGTGTGGAACGAGAGAACAGGGAATTTAGTTGGTGGCCATCAACGATTTAAAATACTTATGGAGCGCCAGCCGGCAGAGTTAGAAGTATCAGTTGTAAACCTGAGTGAAACCGATGAGAAAATACTCAATCTTGCACTCAACAAAACCGGCGGCGACTGGGACGAGGATAAGCTCGAACAAATACTAAGAGAATTAAACGATCTTAATATAGACATTGATCCCACTGGATTTAGTACAGAGGAATTAGAAGGCATACTCGATTTAGATGTATCTGAAGATGTTGATTTTGATTTTAACGAGTCTGGGGAAACAAATACTAATGAGAGTTTAGTTGATAGGTTTATCATCCCTCCGTTTTCAATTTTCGATGCTCGCCAGGGGTATTGGCAGGAAAGAAAACGGGCATGGCACGCTATAGGAATTAGTTCAGATGAAGGAAGAGAAGAGAATCTTTTATACCCGGATTTTTCGAAGTACGCAAAAAAAATGAAAGGAACGTCAATTTTTGATCCTGTCTTATGTGAAATAATTTATAAATGGTTCAATATTGATGGCGGAAAAATTTATGATCCGTTCGCGGGTGGAAGTGTAAGAGGGATTGTGGCTTCTTTCTTAAATTATGAATATTACGGAATCGATATAAGGGAGGAGCAGGTTAAAGCAAATAAAATGAACGCAGCTACTATTGAAGGGCTAAAAATGCCTAACTGGATTTGTGATGACAGTTTAAATGTTAACAGTCACATTACTGAAAATGAAATAGATTTGATGTTTAGCTGCCCGCCTTATGGTGATCTTGAAGTTTATTCCGATAATCCAAATGATATTAGCACTATGGAGTATGATGATTTTGTTGCCGCTTATTCGGAAATAATAAAGAGGGGTGCCTCCAGGCTGAAAAATGATAGGTTTGCAGTTTTTGTGGTCGGTGATATAAGAGATAAAAAAGGCATATACAGAAATTTTGTTGACGATACCAAAAAGGCATTCCTGGAATCGGGCCTTCACTTTTATAACGAGATAGTTCTTATTAATGCATTTGGAACAGCTGGTGTAAGAGCAGCGAATACCTTTGTTAATAGAAAAGTAGTAAAGGTTCATCAAAATGTGTTGGTTTTTTATAAAGGAGATCCAAAGAACATAAAGGATAATTTTAAAGAAATTGATGTTTCCCACTTGGAAGAATTTATTGAGGAAGCATAA	MNIRTIPVEKINPATYNPRIDLQPGNPDYEKLKSSINKFGTVEPLVWNERTGNLVGGHQRFKILMERQPAELEVSVVNLSETDEKILNLALNKTGGDWDEDKLEQILRELNDLNIDIDPTGFSTEELEGILDLDVSEDVDFDFNESGETNTNESLVDRFIIPPFSIFDARQGYWQERKRAWHAIGISSDEGREENLLYPDFSKYAKKMKGTSIFDPVLCEIIYKWFNIDGGKIYDPFAGGSVRGIVASFLNYEYYGIDIREEQVKANKMNAATIEGLKMPNWICDDSLNVNSHITENEIDLMFSCPPYGDLEVYSDNPNDISTMEYDDFVAAYSEIIKRGASRLKNDRFAVFVVGDIRDKKGIYRNFVDDTKKAFLESGLHFYNEIVLINAFGTAGVRAANTFVNRKVVKVHQNVLVFYKGDPKNIKDNFKEIDVSHLEEFIEEA				NA	NA	NA	NA	NA
D1-12_04031	519	yvgO_3		Stress response protein YvgO	TTGAATAAAAAGATAATCACATCCGTCACCGCTCTGATGCTCGCTACTTCCAGTCTGCCTGCTTTTGCCCACGCTAAAGAAAAAGAGGCTGAACCCACTGTTTCCTCAGCACCAGCCGTTAAACAAACAATGAACCTTAATCAGCCTAAAGCCGGAACTGGTATCCCTGGTGTTAATTTCAATGTAAATCTTGACGTCCTCGGCATAGCAAATTCAATCCGAGATGCTGTTGTGCAAAACGCAAATCGACCGGGTTTTGTCAAAAATATGATGGAATCTACTTTTTACTCTGCGGGGCAGAAATATAATGTCATGGTATTTAATTTGGCCCAGAATTACGACGATCACTTCAGAGGCGTCAAATTCTATGGATCTGCCGTTCTAAATGGAGTGGTATACGGGATCTGGGTGTTTGAAGATGGGGAATTCACAAACCAAGGAGATGGCGGCTGGGATAACTGGGCGTTCAGAGGCTGGTTTGACAGAGATGGCAAATACGTAAAATTTTATAGACCGTAA	MNKKIITSVTALMLATSSLPAFAHAKEKEAEPTVSSAPAVKQTMNLNQPKAGTGIPGVNFNVNLDVLGIANSIRDAVVQNANRPGFVKNMMESTFYSAGQKYNVMVFNLAQNYDDHFRGVKFYGSAVLNGVVYGIWVFEDGEFTNQGDGGWDNWAFRGWFDRDGKYVKFYRP				NA	NA	NA	NA	NA
D1-12_04032	171			hypothetical protein	ATGAAGATGAGAGACATTTTATCTGCAGAAACGAAACAGCAACTTGAAAAAGAGAAAAGCCCCTCAACAAAGGAAGCTGATCCTTTGACGAGAAGGGATTGGGAAGAAATCATGGGAGTCAGAAAAGACACCTATAAACGGACAGGCGGCCGTATTCGCCGTAAACAATAG	MKMRDILSAETKQQLEKEKSPSTKEADPLTRRDWEEIMGVRKDTYKRTGGRIRRKQ				NA	NA	NA	NA	NA
D1-12_04033	573			hypothetical protein	GTGAAAAAAATATTCTTTGTAAGTGCTATTGTTGCAGGGTTTTTTATGTCTGGGATCGGTGTTAACACGGTTAAAGCGGAAGAGTATAAAATTGATCCTATTGGAGATGAAATTGGTTCGGAAGATGGACGATCTGATGTGATTGATCCAGTTGTAGCAAAAGATGGTCCAGAAGATGGGGTTAACGATGAATCTAGCGTGCAGCCTAAGATCAGAAAAATATCAGATGACATAAGCTTATTTTCTCTTCTAGGAGCCGGAGAGTGGGATTACTTAGGTTCTTCAACATTTAAAACTCGTTCAAAAACATTCTATTCTGGTGGAGGAGACCTTGGAATTCAGATTTCTCAGCCATATATTGGCCCTGGATTCGCATGGCAGTATAAGCTTGTAGAAGAAGATCCAGTTATCAATGATACAGTCTCTCGCTTTAATTTAGCTAACCAAAAAGGAACATACGAAGTAGTATTCAATGTACGTAGTTTTGTTGATGGAGATAATAAAAAAGCAGAATTACACCTGGAGAAACTAACAAACCCTGCAACAAGTGTCTCTACAAAATGGTGGGATTGA	MKKIFFVSAIVAGFFMSGIGVNTVKAEEYKIDPIGDEIGSEDGRSDVIDPVVAKDGPEDGVNDESSVQPKIRKISDDISLFSLLGAGEWDYLGSSTFKTRSKTFYSGGGDLGIQISQPYIGPGFAWQYKLVEEDPVINDTVSRFNLANQKGTYEVVFNVRSFVDGDNKKAELHLEKLTNPATSVSTKWWD				NA	NA	NA	NA	NA
D1-12_04034	150			hypothetical protein	ATGATGAAAGACTTAAAAGTGTGGAAAATACTCTTACTAACGTTGGTTTGTTCAGTGATTTTTTCTGTCGTGTTTGTGACTGTTCAAAGGATTGACCTGTATTTTAATCCGTCAGAAGTACCTGTTAAATCGATTGAAAAAATAAAATAA	MMKDLKVWKILLLTLVCSVIFSVVFVTVQRIDLYFNPSEVPVKSIEKIK				NA	NA	NA	NA	NA
D1-12_04035	162			hypothetical protein	ATGGATGATAAAAAGAAAGAGGTTCAAAGAAAATATAGAGAAGAGATTAAGAGAAAGAAACAGCAAAAAGAAGATGATAAAAACTTCACAAGAGAAGCCTTTATTGTTGTGACGATAATCGTGCTGTTTATTTTTTTGAATTTCATGTTCAAAAGTTTTTAA	MDDKKKEVQRKYREEIKRKKQQKEDDKNFTREAFIVVTIIVLFIFLNFMFKSF				NA	NA	NA	NA	NA
D1-12_04036	387			hypothetical protein	GTGCAAGCAGTCAAACAATTGTCATTCATTCCAGAAGTAAATGAAAAAGAAGTACGTAACATCGTCATTAAAGAGCTCAAAACGTATAGATCATTAAAAACCCAAGCGGAAAATAGACAAGAGCAAAAGGAAAAGGGAATCATCGGGCTGTTTCCGCAGTTACGAAAAAACACTGATTATAATGAGCTGAAGGTCAAGCAGATGGATAGGGCGCTAGAGAACTGCCTTGACCAAGATGAGCGCAGTATTCTTGAAAAGAAATATTTGTCTCCAAGAAAAATAAAGGATTTAGAAATTATGACTGAGCTCGGCCTCAAAAGAGATAAGTTTTATCAGGTGAAAAGACAGGCCATCTACAATATCGCGACAGCGCTCGGAATAATCTGA	MQAVKQLSFIPEVNEKEVRNIVIKELKTYRSLKTQAENRQEQKEKGIIGLFPQLRKNTDYNELKVKQMDRALENCLDQDERSILEKKYLSPRKIKDLEIMTELGLKRDKFYQVKRQAIYNIATALGII				NA	NA	NA	NA	NA
D1-12_04037	435			hypothetical protein	ATGAAAAAACGATTCAAATCAATCATGCTATCAGCAGTATTACTTACGGGAGCCGCGGCCGTTGCGCCGTCTGCTTCCGCCGCATGGTCCGGTTGGCAAAATGAATCCGGGTACAGCGGCCGGGTGTTTACGGATGCCACGACTTACACGGCCGGCGCCTCAACGGTGGACTGGAAAGCCGAGAAGAAAGGCTCAAGGGCACTTTATTACACGGCTGGCGTGTACAAGAAGCGTAGCGGCGGCGGGCTGACTGATACAAATTTGGTTCAGCGGGGCAGCTTCAAAACGGCAACGCCTCTGAAATCATTCAATGTGAAATCGATCCGGAATAAGACCGGGAAAGGAACCTATGTCATTCAGCTGGACTGCTATTCTGATTCCGGCAAACGGAACTATATCGGAACATTTGAATCAGCGAAATTTTACGTCAAGTGA	MKKRFKSIMLSAVLLTGAAAVAPSASAAWSGWQNESGYSGRVFTDATTYTAGASTVDWKAEKKGSRALYYTAGVYKKRSGGGLTDTNLVQRGSFKTATPLKSFNVKSIRNKTGKGTYVIQLDCYSDSGKRNYIGTFESAKFYVK				NA	NA	NA	NA	NA
D1-12_04038	264			hypothetical protein	ATGGACGGAAGATATAAGCGGTTTATCGTATTCGGCTATGATTTGTTTTACCCGAGCGGCGCCCTGTCTGATAGCATATTTGACTTTGATTCAATCGACGAACTGACAGAACAAACACGAAACACACCTGAAAGATTTTTATACGACACTTTGGAGATATTCGACTTGCAAGAACGAAAAATCATCTGGGAAGGCGGTTCGAGTATCTCTTACCGAGATTTAAAAAAGATTGAAGAGATGATGAAGGAGGATGCACAATCATGA	MDGRYKRFIVFGYDLFYPSGALSDSIFDFDSIDELTEQTRNTPERFLYDTLEIFDLQERKIIWEGGSSISYRDLKKIEEMMKEDAQS				NA	NA	NA	NA	NA
D1-12_04039	285			hypothetical protein	ATGAGTGAGAGAGTTGAACGGTTAAAACAGCTTACTTACATCCCACAAAAGGAAATAGGATGGCTTCTTGAACAAGCTGAACTGGCTGACAAACAGCGGGCTATCATTGAGGAACACCAGCGCCAGCAGGACATTGCGGTCAATCAATTTCGGCAGGCTCAAAAGGACATTCAGCATCTAAGCGGGGAAAGGAGCAGATACAAGAAGGCTTTACAGCAAACTATTAAGAATATGCAATTCACTATAACGGTTGCCCAAAATGAATTGGAGGGGGAAGCAAAATGA	MSERVERLKQLTYIPQKEIGWLLEQAELADKQRAIIEEHQRQQDIAVNQFRQAQKDIQHLSGERSRYKKALQQTIKNMQFTITVAQNELEGEAK				NA	NA	NA	NA	NA
D1-12_04040	222			hypothetical protein	ATGGCCATGAAGGGAGAATGTCTCAGCGCAGACATTACACCGCTTGAAAAAGGAAAAGAGTATTTCCTCTTTCCTTTAGGAGAAAGTCATTTCTACGTATCAAAATTTAACAATGTAAACGCCCATTGCGGAGCCTATCAAAAGAAACTATTCCGGATAACTGATGCCAGTCAGAGTGAAGTGCCTGAACCGAATGAATGGCATCAAATGAGTTTGTTTTGA	MAMKGECLSADITPLEKGKEYFLFPLGESHFYVSKFNNVNAHCGAYQKKLFRITDASQSEVPEPNEWHQMSLF				NA	NA	NA	NA	NA
D1-12_04041	204			hypothetical protein	ATGAACAGACCTGAAAAAATTGAAAATTTACATCAACTTTCCGTTAAGGACTTAATGGAAGATCAAAAAACGAAGCTGATCATCTTGGATGGCTCAAGCGGGTCAGCCTATCTTGTAGATACACCGGAATATGGAAAGACCATTGTACAGACAGCCAATAGCAAGCACACAAAGCTGAATTACGATTATGGCTTCTTGCCGTAA	MNRPEKIENLHQLSVKDLMEDQKTKLIILDGSSGSAYLVDTPEYGKTIVQTANSKHTKLNYDYGFLP				NA	NA	NA	NA	NA
D1-12_04042	276			hypothetical protein	ATGATTGAGATATTTGAAGGTGATTGGGTAAGAGCAAAGGGGAACGGGATCGTCGTAACGGGATATGTAGAGGAAATCAGAAGGAACTCAGTTGTTATCCGCCTTGTAGATGGAGAAATAATAAATGCTTCAAGCCGGGTAGTGAAGAAGATGGATGACACGCTGCATGCCGAAGACCTTGATACAATGATTGATTTTTCCTTATTTATGGGGGATGAAGAATGGTTTCGGGAATTGTCTGAACTGAAATACAAACGCGGTGCCCGTATAACATAA	MIEIFEGDWVRAKGNGIVVTGYVEEIRRNSVVIRLVDGEIINASSRVVKKMDDTLHAEDLDTMIDFSLFMGDEEWFRELSELKYKRGARIT				NA	NA	NA	NA	NA
D1-12_04043	252			hypothetical protein	ATGAGCGTAAGACATCATCTGAAAATCTTACCGGAATATTTTAAAGCGCTGAAGGATGGCCGAAAAACTTTTGAAATAAGGCACGATGATAGAGGATTTAAGGAAGGGGATACCCTCTCTCTAAATGAATGGCAGGACGGATACACTGGCCGCTCAATTGAAGTAGAAGTGACATACGTTACAGATTTTGAACAGAAGTCAGGCAATGTCGTTCTCGGCATTAAAAAGAAAGTAGGAGAAGGCGATGATTGA	MSVRHHLKILPEYFKALKDGRKTFEIRHDDRGFKEGDTLSLNEWQDGYTGRSIEVEVTYVTDFEQKSGNVVLGIKKKVGEGDD				NA	NA	NA	NA	NA
D1-12_04044	180			hypothetical protein	ATGACAGAGAAGAGAAAAAAGCTCTTAGAAAAATTGAGTGATTTCCGCATGGTTCCTGGCCATGGTCCTGATCTTTCCGCGATGACAGATGAGCAATTAGAAAAACAACTATGGTTTTTAGAAACTGCTTTCAAGACGGCTTGGGAAGAAGCAGATAATGAGGACGGTGATGATATATGA	MTEKRKKLLEKLSDFRMVPGHGPDLSAMTDEQLEKQLWFLETAFKTAWEEADNEDGDDI				NA	NA	NA	NA	NA
D1-12_04045	138			hypothetical protein	ATGGGGAGAAGGAAAAAGCAGCCGCGTTGGTATCTGCTGTTTCGCATAGAGGATGGACAAGCTGTCCACCTCTATGAACCTTTAAAGAAATACGAGCTGGTGAGCCGGATCCGGAATGGATGGAGGGTAAGAAGATGA	MGRRKKQPRWYLLFRIEDGQAVHLYEPLKKYELVSRIRNGWRVRR				NA	NA	NA	NA	NA
D1-12_04046	693			hypothetical protein	ATGTCTTTCGTTGACTTCAAAGGAATCGTAAAAAAGGTGAACCACAAACCCAAAGGAATTACCGAGGTCGTTCTGGAGGTCCCAACTAAAGAGGTAGGAAGCGGCATTCAAAATTTAGCCGAGATGATTGATAAGGACGTTCAGGCGCAACTGGAGAGCGAGGTTGTACAGTTTAATGTACAAGTCAACGCGCTCACCGATCGCCCGATTATTAATTACACAGTTGGCTCTGATGGAATTGTAAAGGTAGCAGATCCGGAACCAGAACAACTTGAGGCAAACCTCGGGCTTCCTAAAGAGAAGCCAAAAATCGAAGAAGTAACAGAGGAAATCGAGAGAAAGGTTGTTGACTCCTTCATTACTGAAGATATGGCCCCGATCCTTGATGGATTCCCTGTATACATTACTGAAATGGCTAAGCGGCGCATAGAGGGTGAATCATACCGGAAGATTGCGAATGATTATGTAATGTCTGCAGAGGGCCTTATAGACCTTATCAACGAGTACAGAAAAGAAGTTGCTCCGTATGCTCAAGCTTGGTGGGACTGGAAGCAGGATCAGGAAGCGGAGGCAGAGCCGATGGAAAAGCAGGCGCCGCGTGTTCCTCTTGATGAAGCTGATAAACCCGAGCCGTCAACCGAGGATGAAAAAGAGGATGAGAATAAGGACGAGGACGAACACGGAGCGGCATAA	MSFVDFKGIVKKVNHKPKGITEVVLEVPTKEVGSGIQNLAEMIDKDVQAQLESEVVQFNVQVNALTDRPIINYTVGSDGIVKVADPEPEQLEANLGLPKEKPKIEEVTEEIERKVVDSFITEDMAPILDGFPVYITEMAKRRIEGESYRKIANDYVMSAEGLIDLINEYRKEVAPYAQAWWDWKQDQEAEAEPMEKQAPRVPLDEADKPEPSTEDEKEDENKDEDEHGAA				NA	NA	NA	NA	NA
D1-12_04047	459			hypothetical protein	ATGATCCAATTTACTATTTATGGGGAGCCAGTTGCACAGGGGCGCCCCAGGGCAGCCACAAGAAACGGCATGACCAGGTTATATGATCCAAAGAAATCAAGGGATTTTAAGCAATACGTTAAACTTGCCGCCTCAGATCATCGGCCAAGTTCCTTGCTGACGGGCCCGCTTGAGTTAAGAGTCAAGGTCTATAAATCTACCTTGAAGAGTTTCAGTAAGAAAAAAGCGGCTGAAGCTGAACAAGGATTACTAAGACCCAGCAAAAAGCCTGATGTGGACAATTATATAAAGGGCATTAAAGACGGCTTAAATAAAGTCCTCTGGCATGATGACAGTCAAATTGTAGACCTCCATGTCAGTAAGTATTACAGCCAAAACCCAAGAATCGAAATTCTAGTAAAACCACTATCACAAGAGGAGGAACAATTATGTCTTTCGTTGACTTCAAAGGAATCGTAA	MIQFTIYGEPVAQGRPRAATRNGMTRLYDPKKSRDFKQYVKLAASDHRPSSLLTGPLELRVKVYKSTLKSFSKKKAAEAEQGLLRPSKKPDVDNYIKGIKDGLNKVLWHDDSQIVDLHVSKYYSQNPRIEILVKPLSQEEEQLCLSLTSKES				NA	NA	NA	NA	NA
D1-12_04048	93			hypothetical protein	ATGTACACCGTCCTGGCACTCATTTACGTGGTAAAGGAAGGCGAACAGCAGGAAATGATCATACAGCAGTGGATTCAGGATGACGGGAGGTAA	MYTVLALIYVVKEGEQQEMIIQQWIQDDGR				NA	NA	NA	NA	NA
D1-12_04049	183			hypothetical protein	ATGCCAAATAATGAAGTGGAGAAGCGGAGAGAATTTCTAATCAATGAATTGATTCGGTATGGCTATTCCATTGAAAAAGGAGCGGACTTGAGCCATTTGACGCTATTCGATCTGGAGAACCTCACAATTCAAGTAAAATGCCAGTTTGGCCGCAAGCTATCCGAAGAGGAGGAATCCTGCTGA	MPNNEVEKRREFLINELIRYGYSIEKGADLSHLTLFDLENLTIQVKCQFGRKLSEEEESC				NA	NA	NA	NA	NA
D1-12_04050	1299	dnaC_2	COG0305	Replicative DNA helicase	ATGCAAAACATGCTAAAAAACCTTGAAGCAGAAGAGAGCCTGTTGGGCTGTATCCTTGTTGAAAATGAATTGATTAAGGAAACCACCTTGGAGCCGAAACACTTCGCAGATGAGCGGCATAAACGGATTTTTAAGGCTATGCGAGATGTAGATTCCTCTGGCCAGCCTGTTGAAATCGTGACGGTGGTTACAGAGTTAGGAGAAACTGTCGAAGCGATCGGCGGCACCGGCTATCTTGTCGATTTAGCCAGTGCTGTTCCATCTGTTATTAACTTCGAGACCTATCAGACATTAATCTACGAAGCTTTTAAACTGCGTGATATGCAAAAGGCCGCTCTTGATTTTGCAAATAATCCAAGCGATGAGGGAATTTTGCAGGTTTATCAGAAGACCGTGGAGCTGCAGGAGATCGGTGTTACAAATAAACGAACTAAGATGGATGTTTTAACCGAGATTTACGAAGACATGTATCAAGAAAAAGGAGAAATAACAGGTGTGGAATCCGGTTTGGCCGATTTAGATGCTATGACTGGCGGCTGGCAGGACAGTGATTTAATTATCGTAGCTGCCCGGCCTTCTATGGGAAAGACTGCTTTCGCTCTAAGTTTGGCGCAGAATGCAGCGCTAAAAGGTGGGGTTGTCGATGTTTTTTCTTTGGAGATGTCCGACCGTCAACTCGTTAACCGGATGCTCAGCAATTTAGGTTCAATCGAGGGTACAAAATGGAGAAACCCGCACAAGTATTTCAGTGAAAAAGACTATGAAAATGCAAATCGGGCCATTGGTGAATATGAAAAATTAGACATCTATATTCATGATAAACCGTCACAGTCAGTGGCTGATATTCGTTCTGCCATTCGGAAGACCAAAAAGGACCACCCGGACAAAAAACATTTGGTTGTGATTGATTATCTTCAATTAATCCGACCTATCGGCAAATTTGAAACGAAAAACTTAGAGGTCGCAAGCATAACGGGCGAATTGAAGAACATAGCCCGGACCTTCAATGTGCCAATCATTCTTCTTTCTCAACTTTCTCGCGGCGTTGAGCAGCGGCAAGATAAGCGGCCGATGATGTCTGACCTTCGAGATTCAGGCAGCATTGAGCAGGATGCCGATATCGTTAGTTTTCTCTACAGGGATGACTATTACGATAAACAAAGCGATCTGAAAAACGTAGTGGAAATCATTTTTGCAAAACAAAGAAACGGATCCGTCGGCACTGTCATGGCTGCCTTTATTAAAGAGTACGGACGATTCTTAAACCTTGATAGACAAATGGAAGCCCTTGTGGGTTAA	MQNMLKNLEAEESLLGCILVENELIKETTLEPKHFADERHKRIFKAMRDVDSSGQPVEIVTVVTELGETVEAIGGTGYLVDLASAVPSVINFETYQTLIYEAFKLRDMQKAALDFANNPSDEGILQVYQKTVELQEIGVTNKRTKMDVLTEIYEDMYQEKGEITGVESGLADLDAMTGGWQDSDLIIVAARPSMGKTAFALSLAQNAALKGGVVDVFSLEMSDRQLVNRMLSNLGSIEGTKWRNPHKYFSEKDYENANRAIGEYEKLDIYIHDKPSQSVADIRSAIRKTKKDHPDKKHLVVIDYLQLIRPIGKFETKNLEVASITGELKNIARTFNVPIILLSQLSRGVEQRQDKRPMMSDLRDSGSIEQDADIVSFLYRDDYYDKQSDLKNVVEIIFAKQRNGSVGTVMAAFIKEYGRFLNLDRQMEALVG				NA	NA	NA	NA	NA
D1-12_04051	291			hypothetical protein	GTGATCATATTGAAAAAAGAAGAAGCAATGAAAATTCTAAGGCGGCTCTCCGCCGCGTATACCCGCTTTGATTTAACAGGGGATGTGGGTATGGAGCGGATTGGATTATGGATGGAGCATCTGACTGAAATGCCGTTCAAACCTGTTTATGACAAAGTCAATGAGCATATTTCTAATAAACCATTTCCTCCGACTATCTCAGAAATTAAAGTCAAACAACCAGAGAAAAATGAGTTTTTAGAGCAACAGAAAGAGTGGGAACGGAATGCAAAACATGCTAAAAAACCTTGA	MIILKKEEAMKILRRLSAAYTRFDLTGDVGMERIGLWMEHLTEMPFKPVYDKVNEHISNKPFPPTISEIKVKQPEKNEFLEQQKEWERNAKHAKKP				NA	NA	NA	NA	NA
D1-12_04052	756			hypothetical protein	TTGTCAGGCTGGGTGAAATTATACAAGTCAGTCGTCGATCATGAGATCTTTACAGATAATGTGGGCTTTAGGCTATTTACCTTCTTAATGGCTAAAGCAGCTTATCAGGACGGTATGAAAATAAATGATTATGAATTGAAGAAAGGACAATATATCCGCTCGTATTCAAAACTATGTGATGATTTAGCAGTAAAAAAGGGACGAGGGTTAACCAGATTTACGAGAGCGGCAATTAAGGCTGCAGCTGAAAGGCTTCAAGCAAAAGGCATGATTGCTGCAGAGGAAACGGAATACGGAATGCTCTGGACCATTGTGAACTATTCGAAATTTCAAGGCTCTGAAAGAATCGTAAATGAAGAGAGCTTTTCAGAAAGGCGGCAAATATCCCAACCAATTGATGAGAAACTGTCTCCTTTCCAAAAAATCGAGGAAAAGTACCTGTCCCGAAAGGGCGGCATGTTTACAACCCCATATGATGTGGCTGCCATAAACAGAATCCTTGATCAACAAATTCCAATTGGGGACGTCCTGACTTGGATAGATGAAATATTTGATCGTTACGTTCCTAAGCATCGAGCGGATGGTATCAAATCCTTTACTTACTGTGAGCAAGGTATTTTAGACAGGTGGCACGCTAAACAGAATCCACCTCCAAAAACAAACGTTTCGGAGTTCCGGCCGCGCGGATCAAAACAAGAGGAGAGTTTTGCCGCACTTGAAGCATATGCCAAAGAAAACGGCATTTCGATGGGGTGA	MSGWVKLYKSVVDHEIFTDNVGFRLFTFLMAKAAYQDGMKINDYELKKGQYIRSYSKLCDDLAVKKGRGLTRFTRAAIKAAAERLQAKGMIAAEETEYGMLWTIVNYSKFQGSERIVNEESFSERRQISQPIDEKLSPFQKIEEKYLSRKGGMFTTPYDVAAINRILDQQIPIGDVLTWIDEIFDRYVPKHRADGIKSFTYCEQGILDRWHAKQNPPPKTNVSEFRPRGSKQEESFAALEAYAKENGISMG				NA	NA	NA	NA	NA
D1-12_04053	180			hypothetical protein	GTGAGTGAACTGATTAAAACTACGTATCCTTATTGCTATGTGTTTTTGGCACAGACTTCTGCTCCGCATATGAGAAAAGCTGTGCTTGAGAATTATATTAAGACATTCATGAGCAAGTATGAGCCGAGCCTTGAATATGTGGCTATTAAAGGCACTTACGCTCTTTGTCGAAGAAAATAA	MSELIKTTYPYCYVFLAQTSAPHMRKAVLENYIKTFMSKYEPSLEYVAIKGTYALCRRK				NA	NA	NA	NA	NA
D1-12_04054	702	yycJ_2	COG1235	Putative metallo-hydrolase YycJ	TTGATTGAAATTACAGCCCTGTCATCAAGCAGTAAGGGGAATTGCTATCGGGTTACCGATGGTAAGACCCCGCTTCTTTTGGAATGCGGCATCAGCTTTAAACAGATGCAAAAAGGCTTTCAGTTTAGAATGTCTCAATTCGCTGGCTGCCTTGTCTCTCATGAACATGGGGACCACTGCAAAGCTATTAAGGATGTTCTGAACGCCGGCATTGATTGTTATATGTCTCCTGGGACGGCCGGAGCAATTGGCCTCACTCATAACAGAATTAAGCCTGTGCCCGTAAAACAGCCGTTTAAGGTTGGTTCCTGGTCTATTATGCCCTTTGACGTGCAGCACGATGTAGCGGAGCCGTATGGCTTCCTATTGGCGAATGACGCCGGGGATAAACTGCTTTTCGCCACTGATACCTATTACATACGCTATAGGTTCCCTGGTCTCACTCATATCATGGTGGAATGCAATTACTCAGAGGAGATATTGAATGAAAATATTGAGAGCGGCATTACCGCTCCCGCCATGAAAAAGCGCCTTTTACAATCTCATTTTAGTTTAGAAAACGTCAAGAAATTTTTAATGGCCAATGATTTAAGCAAAGTACAGGAGATATGGCTGCTTCATCTTTCAGAATCAAACAGCGACGAAAAGATCTTTAAAGAAGACATCATGAAATTGACAGGAAAGGTTGTCTATATCCCGTGA	MIEITALSSSSKGNCYRVTDGKTPLLLECGISFKQMQKGFQFRMSQFAGCLVSHEHGDHCKAIKDVLNAGIDCYMSPGTAGAIGLTHNRIKPVPVKQPFKVGSWSIMPFDVQHDVAEPYGFLLANDAGDKLLFATDTYYIRYRFPGLTHIMVECNYSEEILNENIESGITAPAMKKRLLQSHFSLENVKKFLMANDLSKVQEIWLLHLSESNSDEKIFKEDIMKLTGKVVYIP				NA	NA	NA	NA	NA
D1-12_04055	930			hypothetical protein	ATGAGTAATCAACAAGTAGCAAATACAACGAAGAAGAGCACTGTGGTCGATCAAGTAGCTGCAAAAGTTCAGACGTTTCAGGAAAATGGGGAGATTCATTTCCCCCCTTCATATTCACCGGATAACGCCTTGAAATCGGCATATCTCATGCTACAGAACACGAAAACCGGTAAACAAGATGGGAACCGACCTGTACTCGATGTTTGTACAAAGGAGAGCGTTGCTAATGCACTGCTAGACATGGTTGTGCAGGGTCTTAACCCGATGAAGAAGCAAGGATACTTTATCGCTTATGGGAATACACTGACTTTTCAACGTTCGTATATGGGAACAATGGCTGTAACAAAAAGAGTGGCTAAGGTTAAAGAGATAAATGCTCAAGTCATCTATGAAGGTGATGACGTTGAGTATGAGATCGAAAAAGCGAAAATTACAAATTTCAAACATAAAACCAAATTTGGAAATATCAATAAAGATAAGATCATGGGTGCTTATTGTGTACTTGAATTTGAAAATGATACTGACTATATAGAACTCATGACAATTGATGAAATCAGAAAAGCATGGAGTAAAGCGCAATTTTGGGGAAAAGATCAAACCGCAGAGAAGAAAGGATCGACACATGATGACTATAAGCAGGAGATGGCAAAGAAGACCGTAATAAATCGGGCCTGCAAACGGTTTTTAAATAGCTCAGACGATGAAAGCCTTCTGATGAATACTATTCAAAAATCAGATGATACAGCAATTGAGGAAGCCACAAAGGCCGAGATTGAGGAGAACGCAAATTCTGAGGTTTTGGACATGCAATATGAAGAAGTTTCAGAGACTCAATCCGGGGACGAGCTTAGGGAAGAACCGGCGGTAGAAGCAAAGACTGAAGCTCCAGAGAACAAACCCTCTGCTTTTGAGAACGGACCAGACTTTTGA	MSNQQVANTTKKSTVVDQVAAKVQTFQENGEIHFPPSYSPDNALKSAYLMLQNTKTGKQDGNRPVLDVCTKESVANALLDMVVQGLNPMKKQGYFIAYGNTLTFQRSYMGTMAVTKRVAKVKEINAQVIYEGDDVEYEIEKAKITNFKHKTKFGNINKDKIMGAYCVLEFENDTDYIELMTIDEIRKAWSKAQFWGKDQTAEKKGSTHDDYKQEMAKKTVINRACKRFLNSSDDESLLMNTIQKSDDTAIEEATKAEIEENANSEVLDMQYEEVSETQSGDELREEPAVEAKTEAPENKPSAFENGPDF				NA	NA	NA	NA	NA
D1-12_04056	252			hypothetical protein	ATGAGTGAAATTGTCACAGTAACAGTAGTTACGGGGAAAGGTTGGGAAGATCAACGCCGTGAAACCTTGCGTATAAATTCGGAAGAGATTATGCATGTGGGTCCGCTTTCTGAATGTCCAGAAGATGCGATTTTAGAAAGAGATTTAGTCGGACCCTCCGACTTTGCTGAACTGCTTAAAAATTTTCTAATTGAGCATAAGGGAAAACAGGTGAAATTTGTGTACGAGGATGAGGAGGATTCAAATGAGTAA	MSEIVTVTVVTGKGWEDQRRETLRINSEEIMHVGPLSECPEDAILERDLVGPSDFAELLKNFLIEHKGKQVKFVYEDEEDSNE				NA	NA	NA	NA	NA
D1-12_04057	1989			hypothetical protein	ATGAAAAAGGAAATGAAGCTATTGAAGTTGGAACTGCTGAATTTCAAGGGTGTTAAGCAATTCACCCTTGATACTCAAGGTGAGAATGCCAAGGTGTACGGAGATAATGCCACTGGTAAAACAACCCTATTTGATGCCTTCATCTGGCTGCTGTTTGACAAAGACAGTCAAAACAAAAAGGATTTTCAAATTAAGACACTGACAAAAGAAAATGAACCGGTATCCGGATTGAATCATGAGGTAACAGGAGTTTTCGTTGTTGACGGTAGTCATCTCACTCTTAAAAAAGTTTATTCCGAGAAATGGACGAGAAAGCGCGGCAGCAGTCAGGCTGTATTTTCTGGCCATACCACAGATTATTTTATTGATGGTGTGCCGGCAAAGAAAAAAGAGTTCAATGATCGTGTAAATGGGATCATTTCGGAAGATATTTTCCGCCTTGTCACTTCTCCATCATTTTTCAATGAACAAATGAAATGGCAGGACAGACGAAAGATTCTCCTTGAAATTTGCGGTGACATTACGCAAGAAGAAGTTTTTAAAGCGAATCCATCCGTAAAGGCTTTAGAGAGCATCTTAAACAAACGATCAATTGAGGATCACAGAAAAGTAATCTCGGCCAAACAAGCGAAGATAAATAAAGAGTTGAAGGCGATTCCTGTCAGGATTGATGAAGCGCTCCGGTCGGTCGAGGATATATCTGACCTAAATGAACAGGAATTAAACGACGAAATCAATTGTCTCCAAAATGATATCGATTTGTTGGATGATCAGCTGCAATCCGCTCGAAATGGAGAGGCGGTATCGGAAAAAAGAAATGCCATCCTGCATATAGAGAACGAGCTTCAGGAAATGAAAAATGCTCATCAGGAGAAAGAATACAGCAATATCAGGGCACTGAAAGAAAAACTGTTCTCAGTAAAAAATAAGCTGGAGGAAATTTCTCTGGAGATTAAATCGAATACCCGTCAGCTGTCGCTTGAAAAAGACAACCAGGAAAGATTAACTGCGGAAATCCAGTCGCTGCGCCAGAATTGGCTCGATAAGAATGAGGAAACGTTTGATCAGCATCAAACTGAATGCCCTACATGCGGCCAGGCATTACCGCCGGAACAGGTTGAACAAGCGAAAGAGAATTTCAATTCTCACAAAAGCAGTGAATTAGAAAAAATTAATGAGCGGGGTAAATCGCGTAGCGAAGAGCTGAAGAGATCAGAAGACATAATTGCAGAAATAGAGTCATCCGCTCAAAAACTGCAGAAGGATTATGAGAGCAAAAGTGAGGAATGGTCACAACTTGATACTGAAATCAAGGCGGCCGAGAGCAACATGTCAGATATCACCACGGATGATGCTTACAAAAACAAACAATCAGAAATTGATAGCATCCGTAAACAGATTGAGCAATTGGAGTCATCAAAGAACGAAGCAATTCAATTGATCAAAGATGATATTAACGGCAAAAAACAGGAGATGCTGCTGCTTCAAAAAGATTTGGCGAAAATTTCGCATTCTAAAAAAGTGAACAAGCGGATCATGCAGCTTGAAGAGGAACAGAAGGGCTTAGCCGAGGAGTATGAAGGGCTTCAGCATCAACTCTATTTGACTGAGGAATTTGTTCGTACAAAGGTAGATCTCCTGGAAGAAAAAATAAACAACAAATTCAAATTTGCCCGCTTTAAGCTCTTTAAGAGTCAGATCAATGGAGGTCTTGAAGAGACGTGCGAAACGCTATATGAAGGCATTCCGTACTCTTCCGGCTTGAACAACGCCGCCCGAATAAATGTTGGACTGGACATCATTAATACCCTTAATGAGCATTACGGCATTTCTGCTCCAATCTTCGTAGATAACTCTGAAGCGGTGACTAAATTGATCGATACAAATTCACAGATTCTCAGTCTGATTGTCTCTGAAAAAGACAAGCAGCTGCGGATTGAATTAGAAGATAGTACGCTCATTCCAGTGGATTGTGAGGTAAGTGCATGA	MKKEMKLLKLELLNFKGVKQFTLDTQGENAKVYGDNATGKTTLFDAFIWLLFDKDSQNKKDFQIKTLTKENEPVSGLNHEVTGVFVVDGSHLTLKKVYSEKWTRKRGSSQAVFSGHTTDYFIDGVPAKKKEFNDRVNGIISEDIFRLVTSPSFFNEQMKWQDRRKILLEICGDITQEEVFKANPSVKALESILNKRSIEDHRKVISAKQAKINKELKAIPVRIDEALRSVEDISDLNEQELNDEINCLQNDIDLLDDQLQSARNGEAVSEKRNAILHIENELQEMKNAHQEKEYSNIRALKEKLFSVKNKLEEISLEIKSNTRQLSLEKDNQERLTAEIQSLRQNWLDKNEETFDQHQTECPTCGQALPPEQVEQAKENFNSHKSSELEKINERGKSRSEELKRSEDIIAEIESSAQKLQKDYESKSEEWSQLDTEIKAAESNMSDITTDDAYKNKQSEIDSIRKQIEQLESSKNEAIQLIKDDINGKKQEMLLLQKDLAKISHSKKVNKRIMQLEEEQKGLAEEYEGLQHQLYLTEEFVRTKVDLLEEKINNKFKFARFKLFKSQINGGLEETCETLYEGIPYSSGLNNAARINVGLDIINTLNEHYGISAPIFVDNSEAVTKLIDTNSQILSLIVSEKDKQLRIELEDSTLIPVDCEVSA				NA	NA	NA	NA	NA
D1-12_04058	186			hypothetical protein	ATGAACGAAGTTTTTTACACTGAGCCATTTAGCGAGAATTATCGCGATCAGGTCAATCTGGCATCTGCCGGGGGATCTATCTCTTTTGATATTCAAGGGAATGCGGCTTTTCGTTTTCCTACTGCCGCCGCTCGTGAGGAATATCGCGCTCTTAAACAAAGAGCTGAAGGAGGCGGCAACAAATGA	MNEVFYTEPFSENYRDQVNLASAGGSISFDIQGNAAFRFPTAAAREEYRALKQRAEGGGNK				NA	NA	NA	NA	NA
D1-12_04059	195			hypothetical protein	TTGGGTAATACGTTTGACGCTGTGGAGGACTTAGTCGCGGCAACAAAAATTATCGGCGAGCTCCGTGCAGATATGTCGATTGTGAAGACAATGGCATCCTTATTGGCAGAGAGTAAAGATATTAACGTTCTGCAGAATACATTGAACAAAATATCTGATGACATTTCAGCATCACTGGCAAAACACAAATTTTAA	MGNTFDAVEDLVAATKIIGELRADMSIVKTMASLLAESKDINVLQNTLNKISDDISASLAKHKF				NA	NA	NA	NA	NA
D1-12_04060	177			hypothetical protein	ATGAAATTTGTCTTGTCTGTCAGCAAAGTCATGAAGGGGCGCCAAGTTAGAGAAAAGATTGAGGAGTCACGTGAAAATCCTGCGAAATTATACTTAGCAGACGCTGAAGCGAGAAAAGAATGTCAAATCAGAATGGAACAAATAAAAAAGCAGCAAGCCGGCACGCTCACTGCATAA	MKFVLSVSKVMKGRQVREKIEESRENPAKLYLADAEARKECQIRMEQIKKQQAGTLTA				NA	NA	NA	NA	NA
D1-12_04061	279			hypothetical protein	ATGAAAAACGAAATGGAAAAGCCAGTCTATACGGGCATTCATCATAGTGGAATAACACTGGAAATGATCTGTATTGAAACATTGCACACAAGAATCATGGAAGCGTTAAAAACGGGAGACACAGCTAAAGCGTTTGAGGCTCATAAAGATGTGTTGCGTTCGTTGATCCAGATCAAACGATATCAGACTGCCGAACGAGTGGAAAAGTTGAAGGCATCATCAAAAATAGTATCTGTCCAGTATCCGGAATCATTAAAAAAATTGAGAGGAATGGTTTGA	MKNEMEKPVYTGIHHSGITLEMICIETLHTRIMEALKTGDTAKAFEAHKDVLRSLIQIKRYQTAERVEKLKASSKIVSVQYPESLKKLRGMV				NA	NA	NA	NA	NA
D1-12_04062	258			hypothetical protein	TTGAAATTAGGGGCACTACTTCGAAGCACACGGGAGCGGGCGGGTCTTTCTCAAGAACATCTAGCTGAATTACTACACCGATCCCGCAGCTGTATATCAAAATTTGAAAACGACAAAAAATCTTTAGATGTTCCTACATACGTACGATGGATGGAAGCGACAAATGCAAAGGAGGCTATGATTGCAACGTTATGCGGCATTGATCCGAGTGCAGTCGCTCAAAGCATCCAAAACATCATGACTCTATTTGGAGGTTGA	MKLGALLRSTRERAGLSQEHLAELLHRSRSCISKFENDKKSLDVPTYVRWMEATNAKEAMIATLCGIDPSAVAQSIQNIMTLFGG				NA	NA	NA	NA	NA
D1-12_04063	195			hypothetical protein	TTGCAACGAACAGCATTAAGCCCTCAAGAAACAGCTGCTTTTTTGGGGGTTCATAAAGAAACCATTTATAGCATGGTAAGAAACAACCAAATCCCTCATTTTAGGGTGGGGAGGAAGATTTTCTTTAGGGTTGATTCACTCAATGCATGGATAAAAGAACAGGAAGAAAACAGCGTGCTTACTATTGAAATGTAG	MQRTALSPQETAAFLGVHKETIYSMVRNNQIPHFRVGRKIFFRVDSLNAWIKEQEENSVLTIEM				NA	NA	NA	NA	NA
D1-12_04064	234			hypothetical protein	ATGCAGCAGCTTAATTTAATTTTCATCAAGAATAGACGTAAAGAATTAAAAATCTCTCTGCAATATATGGCGACAAAATTAGGTTTCAAAACTGGCTCAAGTTATTTGAAATATGAGCAAGGCCTATACGCTTTTAAAGCTGAACAATTGCCGATCTTAGCACACCATTTACAATGCAAAATAACAGATTTTTTTGCAGAAAACGTTTCTGATTTAGAAACAAGTAGTGCTTAA	MQQLNLIFIKNRRKELKISLQYMATKLGFKTGSSYLKYEQGLYAFKAEQLPILAHHLQCKITDFFAENVSDLETSSA				NA	NA	NA	NA	NA
D1-12_04065	336			hypothetical protein	GTGAAAACATTGAATATAGGTGATCGGATCGTTTTATTAAGAGAAAGAAAAGGCTGGTCCCAAAGGGAGTTGGCTCGCCGTGTAAACCTAAATTATGCTGTTATGAACCGTATAGAAAAAGGTACTCGCCCTATTACTGATTCAGAAATTATTAGTTTATCTAAAGTATTGGATGTCTCTACAGACTACCTTCTAAAAGGTGACTCCCATGACTCAAAAATAGATGAACTCTTAAATGACCCTGAAACTTTAATTGCTGGCCGTGACGGAAAAATCACCAAGGAACAAGCGAAAGAGCTTTTAGAGTATCTTCTCAAAAAAGGGTTCGATGAATAG	MKTLNIGDRIVLLRERKGWSQRELARRVNLNYAVMNRIEKGTRPITDSEIISLSKVLDVSTDYLLKGDSHDSKIDELLNDPETLIAGRDGKITKEQAKELLEYLLKKGFDE				NA	NA	NA	NA	NA
D1-12_04066	264	bofA		Sigma-K factor-processing regulatory protein BofA	ATGGAGCCTTTTTTCATTATCGGTGTGATTGTCGGTCTGGTTGCTTTGCTTTTTTTATGGGGAGTATCTTCAAAACCGCTAAGATGGATTGGTGTGACTGCGATTAAGTTTATTGCCGGTGCGATTTTGCTGGTGGGTGTGAACTTGTTCGGGGGCAGTCTCGGTATTCATATCCCTGTTAACCTGATTACAACGGGCATCAGCGGGATTCTGGGGATTCCCGGCATCGCGGCTTTGATAGTCATTAAACGCTTCATCATTTAA	MEPFFIIGVIVGLVALLFLWGVSSKPLRWIGVTAIKFIAGAILLVGVNLFGGSLGIHIPVNLITTGISGILGIPGIAALIVIKRFII				NA	NA	NA	NA	NA
D1-12_04067	225			hypothetical protein	ATGGGTTTTCTTCGCAGAAATACATTAAGAAAAGAGTTTGATGAGAAGCTGATAGAACAGCTCTTTAAACAAAAAGAAGAATGGAACAGACAGAAGAGTCTGGTCGAGAAAAGTCTCGAGCCCTCCGCTGAGGTGTTGTTTGAGCTGAAAGTCGCTGAATCTAAGTACTTTTTTTATTTGAAAGAAGCGAAGCAGCGGAATTTGAAAATGAGCAGATGGAAGTAA	MGFLRRNTLRKEFDEKLIEQLFKQKEEWNRQKSLVEKSLEPSAEVLFELKVAESKYFFYLKEAKQRNLKMSRWK				NA	NA	NA	NA	NA
D1-12_04068	597	recR	COG0353	Recombination protein RecR	ATGCAGTATCCTGAACCAATATCAAAGCTGATTGACAGCTTTATGAAATTGCCAGGGATCGGACCGAAAACAGCGGTTCGTCTGGCTTTTTTTGTTCTAGGTATGAAAGAAGACACAGTATTGGATTTTGCTAAGGCGCTTGTCAATGCGAAGCGGAATCTGACATATTGCTCAATTTGCGGACATATAACAGATCAGGACCCTTGTTATATATGTGAGGACACAAGGAGGGATAAGTCTGTTATTTGTGTCGTGCAAGACCCTAAGGATGTGATCGCAATGGAGAAAATGAAGGAATATAACGGCCAGTATCATGTTCTTCACGGCGCGATTTCACCAATGGACGGCATCGGCCCGGAGGATATTAAGATTCCGGAGCTGCTGAAACGTCTTCAGGATGACCAAGTGACAGAAGTTATTCTCGCAACCAACCCTAATATTGAAGGGGAAGCAACAGCGATGTATATATCAAGGCTGTTAAAGCCCTCAGGCATCAAGCTCTCCCGTATTGCCCACGGTCTGCCCGTCGGCGGTGATTTGGAATATGCTGATGAGGTCACTCTTTCAAAAGCTCTTGAAGGAAGACGTGAATTGTAA	MQYPEPISKLIDSFMKLPGIGPKTAVRLAFFVLGMKEDTVLDFAKALVNAKRNLTYCSICGHITDQDPCYICEDTRRDKSVICVVQDPKDVIAMEKMKEYNGQYHVLHGAISPMDGIGPEDIKIPELLKRLQDDQVTEVILATNPNIEGEATAMYISRLLKPSGIKLSRIAHGLPVGGDLEYADEVTLSKALEGRREL				NA	NA	NA	NA	NA
D1-12_04069	324		COG0718	Nucleoid-associated protein	ATGCGTGGCGGAATGGGAAACATGCAAAAAATGATGAAACAAATGCAAAAAATGCAAAAGGATATGGCGAAGGCTCAGGAGGAGCTTGCTGAAAAAGTGCTTGAAGGCACAGCGGGCGGCGGTATGGTGACTGTAAAAGTCAACGGCCAAAAAGAAGTTGTAGACGTTGCCATTAAAGAAGAAGTCGTTGATCCGGAAGATATCGAAATGCTTCAGGACCTGGTTCTTGCTGCGACAAACGACGCCCTCAAAAAAGTGGATGACATGACGAATGAGACAATGGGACAATTTACAAAAGGAATGAACATACCGGGTTTATTCTAG	MRGGMGNMQKMMKQMQKMQKDMAKAQEELAEKVLEGTAGGGMVTVKVNGQKEVVDVAIKEEVVDPEDIEMLQDLVLAATNDALKKVDDMTNETMGQFTKGMNIPGLF				NA	NA	NA	NA	NA
D1-12_04070	1692			hypothetical protein	GTGGGTTACCAAGCTTTATATCGAGTATTTAGGCCTCAGCAGTTTGAAGATGTGGTCGGACAGGAACACATTACGAAAACGCTGCAAAATGCCCTTTTGCAAAAGAAATTTTCTCATGCATATCTGTTTTCTGGACCGCGGGGAACGGGAAAAACCAGTGCAGCTAAAATATTTGCGAAAGCAGTCAACTGTGAGCACGCCCCCGTAGAAGAACCGTGCAATGAATGTGCGGCGTGCAAGGGGATCACAAACGGCTCTATATCAGATGTGATTGAAATAGATGCGGCGTCGAATAACGGCGTAGACGAAATCCGCGACATCCGTGACAAAGTAAAATTCGCCCCGTCGGCCGTCACCTACAAAGTATATATTATAGATGAGGTGCATATGCTCTCTATCGGCGCATTCAATGCGCTTCTGAAAACGCTGGAAGAACCGCCGGCACATTGCATTTTCATATTAGCTACGACTGAGCCTCATAAGATTCCTTTAACCATTATCTCCAGATGTCAGCGTTTTGACTTCAAACGGATTACATCCAAAGCAATTGTCGGACGAATGAAGACAATCGTCGATGCAGAGCAGCTGAAGGTGGAAGAAGAAGCCCTTGATATCATAGCGAGTGCTGCGGACGGAGGAATGAGGGACGCGCTGAGCCTGCTCGATCAAGCCGTATCATTCAGCGGCGAGGAGCTGTCGGTGGATGACGCATTGCTCATTACCGGAGCCGTTTCTCAGCACTATATTGGAAAACTGGCATCTGCTCTTCACCGCAAACAGGTTTCCGAGGCATTGGAAACACTGAATGAATTGCTCCAGCAGGGGAAAGATGCGGCCAAACTGATTGAAGATATGATTTTCTATTTCAGGGATATGCTCTTGTACCAGGCCGCTCCCGGTTTAGAAGGAGTCCTGGAAAAGGTGAAGGTCGATGAAACGTTTCGGAATCTGAGCGGTGACATACCGGCCCCCGCTTTATATGAGATGATTGATATCCTGAATAAAAGCCATCAGGAAATGAAGTGGACGAACCACCCAAGAATCTTTTTTGAAGTGGCTGTCGTGAAAATATGCCAGACGGCACAGCAATCCGCCGGAGACATCCCTGAGGTCGGCATGCTGATGAATAAGATCCAGCAGCTTGAGCAGGAAGTAGAAAGGCTGAAAACCTCCGGTGTGAAGGTTCAGATGGAAAGCGCTCCGAAAGAAGCTCCGCGTCCTCAAAAAGGCGGAAAAAGCCATTATAAAGCCCCGGTCGGAAGAATTCATGAGATATTGAAGGAAGCCACAAGACCTGATCTTGAACAGCTTAAAAGCAGCTGGGGCAAGCTGCTGGCACACCTGAAACAGCAGAATAAGGTGTCTCATGCGGCTCTTTTGAATGACAGTGAACCGGTGGCTGCTGCTCAAAAGGCATTTGTGCTTAAATTTAAATACGAAATCCATTGTAAAATGGTTGCAGAAGACAATAACGGAGTCCGTACGAATCTTGAACAGATTCTCGAATCAATGCTCGGGAAAAGAATGGATTTGATTGGCGTTCCGGAAGCACAATGGGGTAAAATAAGAGAAGAATTTTTAAATGATCACCAGCAGGAAAGTGAAGGATCAAACGAACCGGCTGAAGAAGATCCGCTGATTGCAGAGGCGAAAAAACTTGTCGGAGCGGATTTAATCGAAATAAAAGACTAA	MGYQALYRVFRPQQFEDVVGQEHITKTLQNALLQKKFSHAYLFSGPRGTGKTSAAKIFAKAVNCEHAPVEEPCNECAACKGITNGSISDVIEIDAASNNGVDEIRDIRDKVKFAPSAVTYKVYIIDEVHMLSIGAFNALLKTLEEPPAHCIFILATTEPHKIPLTIISRCQRFDFKRITSKAIVGRMKTIVDAEQLKVEEEALDIIASAADGGMRDALSLLDQAVSFSGEELSVDDALLITGAVSQHYIGKLASALHRKQVSEALETLNELLQQGKDAAKLIEDMIFYFRDMLLYQAAPGLEGVLEKVKVDETFRNLSGDIPAPALYEMIDILNKSHQEMKWTNHPRIFFEVAVVKICQTAQQSAGDIPEVGMLMNKIQQLEQEVERLKTSGVKVQMESAPKEAPRPQKGGKSHYKAPVGRIHEILKEATRPDLEQLKSSWGKLLAHLKQQNKVSHAALLNDSEPVAAAQKAFVLKFKYEIHCKMVAEDNNGVRTNLEQILESMLGKRMDLIGVPEAQWGKIREEFLNDHQQESEGSNEPAEEDPLIAEAKKLVGADLIEIKD				NA	NA	NA	NA	NA
D1-12_04072	483	tadA_2	COG0590	tRNA-specific adenosine deaminase	ATGAATGATGAATATTATATGAGAGAAGCCATAAAAGAAGCGAAGAAAGCCGAAGCGAAAGGTGAAGTGCCGATCGGAGCAGTTCTTGTTCTGCATGATGAGATCGTGGCGCGGGCGCATAATCTGCGGGAGACTGAACAGAGGTCGCTTGCCCACGCCGAAATGCTGGCGATAGACGAAGCGTGCCGTAAGCTGGGGACATGGAGACTTGAGGATGCCGTTCTTTATGTCACTTTGGAGCCGTGTCCGATGTGCGCGGGAGCCGTCGTGCTTTCGAGAGTCGATAAGGTCGTATTCGGCGCATTTGATCCCAAGGGGGGCTGTACAGGAACGCTGATGAACCTCTTGCAGGAAGAGCGGTTCAACCACCAAGCGGAAGTGGTGAGCGGAGTGCTCGGAGAAGAGTGCGGAGAAATGCTCAGCGCTTTTTTCAGAAAGCTGCGCCGGCAAAAGAAAGACATGAGGAAAAAGTTGTCTGAGTAG	MNDEYYMREAIKEAKKAEAKGEVPIGAVLVLHDEIVARAHNLRETEQRSLAHAEMLAIDEACRKLGTWRLEDAVLYVTLEPCPMCAGAVVLSRVDKVVFGAFDPKGGCTGTLMNLLQEERFNHQAEVVSGVLGEECGEMLSAFFRKLRRQKKDMRKKLSE	PGPT0018175_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-12_04073	552	entB	COG1535	Enterobactin synthase component B	TTGTCTGAACCTAACAACACAGCCCTTCTGATTGTCGATATGATTAACAATTTTCAATTTGATATGGGCGAACGACTTGCTGAAAAAACCAAACAAATTGTCCCCCGTATTTTATCATTAAAGAAGCATGCAAAACAAAGCAACTGGCCGATTATTTATATTAATGATCATTACGGGCTTTGGAAGGCTGATATTGATGCCATCAGGGAGGAATGCAGCAACGACAGAAGCGCCCCCATTATAAAAGATATTTCGCCTCAGCTGGATGATTATTTTCTCATTAAACCGAAGCATTCCGCTTTTTACGAAACGGCGCTTCACACCCTTCTGACCGAATTACAAGTGAACCGATTAATTATCACGGGGATTGCCGGGAACATTTGTGTGCTGTTCACGGCCAACGACGCCTATATGAGAGAATACAGCATTACCATTCCGAAAGACTGCACCGCTTCCAATAACGACGAAGACAATGATTTCGCTTTGACCATGATGGAGAATGTTCTCTTCGCAGAAATAACCACGGAAAAACAAATTACCGCCGAAAAATAA	MSEPNNTALLIVDMINNFQFDMGERLAEKTKQIVPRILSLKKHAKQSNWPIIYINDHYGLWKADIDAIREECSNDRSAPIIKDISPQLDDYFLIKPKHSAFYETALHTLLTELQVNRLIITGIAGNICVLFTANDAYMREYSITIPKDCTASNNDEDNDFALTMMENVLFAEITTEKQITAEK				NA	NA	NA	NA	NA
D1-12_04074	1281	sleL	COG3858	Cortical fragment-lytic enzyme	GTGAAACGGGGCGACACGCTTTCCGCTATTGCGGCGCGCTACCGGACAGCCGCAAATGTCATTGCGGAAGCAAATAAACTGCCTAATCCAAATACATTGGTTGTCGGACAAACCCTTGTCATCCCGATTGAGGGTCAATATTACGAAGTGAAACAAGGTGATACTCTCGCGTCAATCGCCGGCCGTTTTCATATATCGGCCGCGGAGCTTGCGAAGGTGAACGGAATTCAGCCCGGCACCACATTGAGAGTCGGAACCCGCCTTTACATTCCGCAGCAGGCGAATAAGCCCGATATCGAATCAAACGCATATATAGAACCGCGGGGAACGAGCGTAAGCGCTAATCTGCAGCAGGCGGCAAGGGAGGCCTCTCCTTATTTAACATACCTCGGCGCATTCAGTTTTCAAGTGCAGCGGAACGGGACTTTAAAGGAACCGCCTCTGACCAATTTAAAAAGCATCAGTGACAGGCACAACACCACACTGATGATGATCATCACCAACCTTGAAAATGACGCATTCAGCGATGAACTCGGGCGGCTCATCTTGAATGACAATACAGTGAAAACAAAACTTTTTCAGGAAATCGTCTCCACGGCTAAAAAGCACGGCTTTCGCGATATTCACTTTGATTTCGAATATTTACGTCCACAGGACAGAGAAGCCTACAATCGTTTTTTACGTGAAGCGAGAACGATTTTTCATCGGGAAGGCTGGAAGATTTCAACGGCGCTTGCTCCGAAAACGAGCGCGACTCAGGCCGGCAAATGGTACGAAGCACATGACTATAGGGCACATGGAGAAATCGTCGATTTTGTCGTGATCATGACATATGAGTGGGGATACAGCGGAGGCCCGGCTCAGGCCGTATCACCTATCGGCCCTGTAAGAAATGTCATTGAGTACGCACTGACGGAAATGCCTTCTTCAAAAATCGTCATGGGCCAGAATATGTACGGCTACGATTGGACACTGCCTTTCAAACAGGGAACGACAGCGAAAGCCGTCAGTCCTCAGCAGGCAATCGCTCTGGCAGCACGCCATAAAGTCGACATTCAATATGACGAAACCGCCCAGGCTCCATTCTTTCGTTACACGGATGAAAATCAGAGACGGCATGAAGTATGGTTTGAAGATGCCCGGTCCATTCAAGCGAAATTCAATTTAATTAAAGAACTGCATTTAAGAGGGATCAGCTATTGGAAACTCGGCCTTTCTTTCCCGCAAAACTGGCTTTTGCTCAACGATCAATTTCATATTGTAAAAGAGACGTTTCGTTAA	MKRGDTLSAIAARYRTAANVIAEANKLPNPNTLVVGQTLVIPIEGQYYEVKQGDTLASIAGRFHISAAELAKVNGIQPGTTLRVGTRLYIPQQANKPDIESNAYIEPRGTSVSANLQQAAREASPYLTYLGAFSFQVQRNGTLKEPPLTNLKSISDRHNTTLMMIITNLENDAFSDELGRLILNDNTVKTKLFQEIVSTAKKHGFRDIHFDFEYLRPQDREAYNRFLREARTIFHREGWKISTALAPKTSATQAGKWYEAHDYRAHGEIVDFVVIMTYEWGYSGGPAQAVSPIGPVRNVIEYALTEMPSSKIVMGQNMYGYDWTLPFKQGTTAKAVSPQQAIALAARHKVDIQYDETAQAPFFRYTDENQRRHEVWFEDARSIQAKFNLIKELHLRGISYWKLGLSFPQNWLLLNDQFHIVKETFR	PGPT0025110_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
D1-12_04075	624	dgk	COG1428	Deoxyguanosine kinase	ATGAACAGAGCCCCTTTTATCGCGGTAGAAGGTCCTATCGGGGCAGGAAAAACGACACTCGCTACGATGCTTTCTGAAGAGCTCGGTTTTCCTATAATTAATGAGATTGTGGAAGACAATCCTTATCTCGATAAGTTTTATGACAATATCGAGGAGTGGAGTTTCCAGCTTGAAATGTTTTTTCTATGTCACAGGTATAAACAGCTTGAAGACACCGATCGAGATTATTTAAAACAAGGACAGCCCGTTTTGTCCGATTATCATATTTATAAAAATGTTATTTTCGCAGAGCGTACATTGCACGGCCAAAAGCTTGAGAAATATAAGCAGATTTATCATCTGCTCACTCACGACCTGCCGAAACCGAATGTTATTGTATACATAAAGGCAAGCCTGCCGACATTGCTTCAACGCATTGAAAAACGCGGGCGCCCGTTTGAGAAAAATATCGAACATCAATATCTGGAACGTCTCATTGCAGATTACGACACAGCCATCAGGCAGCTTCAGGAAGAAGATCCGAATATATCTGTACTGACCATTGACGGTGATACTGAAGACTTTGTTTTGAATAAGACAGACTATGAAAGAATTGCCCGTCAGGTAAAGGAGCTTATTAAATGA	MNRAPFIAVEGPIGAGKTTLATMLSEELGFPIINEIVEDNPYLDKFYDNIEEWSFQLEMFFLCHRYKQLEDTDRDYLKQGQPVLSDYHIYKNVIFAERTLHGQKLEKYKQIYHLLTHDLPKPNVIVYIKASLPTLLQRIEKRGRPFEKNIEHQYLERLIADYDTAIRQLQEEDPNISVLTIDGDTEDFVLNKTDYERIARQVKELIK	PGPT0021655_609	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021655-dgk-K15518	NA	NA
D1-12_04076	654	dck	COG1428	Deoxyadenosine/deoxycytidine kinase	ATGAAAGACATTCATATTCCAAACAACGCCATTATAACAGTAGCGGGAACGGTAGGAGTCGGAAAATCGACTTTGACCAAAGCTTTAGCAAAACGGCTCGGGTTTCATACCTCACTCGAGGAAGTGGATGAAAATCCTTATTTAGAGAAGTTTTATCACGATTTTGAACGCTGGAGCTTCCATTTGCAAATTTATTTTCTGGCTGAGCGGTTCAAAGAGCAGAAAAACATGTTTGAATCAGGCGGCGGATTCGTGCAGGACCGTTCGATTTATGAAGATACAGGCATATTCGCAAAAATGCATGCCGATAAAGGAACCATGTCGCTGACAGATTACACAACATACACAAGCCTATTTGAGGCGATGGTCATGACGCCGTACTTCCCGCATCCTGATGTTTTGATCTATTTAGAAGGCGACCTTGAAAACATTATAAACCGGATTGAAAAGCGGGGCCGCGAGATGGAGCTGCAGACAAACCGCTCCTATTGGGAAGAGATGTATACACGGTACGAAGACTGGATCAGCGGTTTTAATGCCTGCCCTGTGCTGAAAGTACGCATTGAAGATTATGACCTTGAAGCTGATGAGCAGTCACTGGAACCTTTGATCGAAAAAATCAGTCACGTGATCAACGAAAACAGAAACAAATAA	MKDIHIPNNAIITVAGTVGVGKSTLTKALAKRLGFHTSLEEVDENPYLEKFYHDFERWSFHLQIYFLAERFKEQKNMFESGGGFVQDRSIYEDTGIFAKMHADKGTMSLTDYTTYTSLFEAMVMTPYFPHPDVLIYLEGDLENIINRIEKRGREMELQTNRSYWEEMYTRYEDWISGFNACPVLKVRIEDYDLEADEQSLEPLIEKISHVINENRNK	PGPT0021370_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021370-dck-K15519	NA	NA
D1-12_04078	1146	garK	COG1929	Glycerate 2-kinase	ATGAAAATCATCATTGCACCCGATTCTTTCAAAGAAAGCATGACATCAAAAGAAGCAGCTGACAGCATAGAAAAAGGATTCAAAGCGGTCTTCCCTGACGCGGAATATATCAAGATACCCGCGGCTGACGGCGGAGAAGGAACCGTTCAGGCTTTGACGGATGCCACTGGCGGGAGCATCATCAAAAAAACTGTGACCGGTCCGCTGGGAACGCCGGTAAACGCCGCATATGGACTTCTGGGAGACGGACGCACGGCAGTCATTGAAATGGCGGAAGCATCGGGACTTCATCTCGTTCCCCGCCATCTCAGAGATCCGTTGAACACAACGACAAGAGGAACGGGTGAACTGATAGCAGATGCAGCTTCCCGCGGGGCGGGTGAGATCATCATCGGTCTTGGCGGGAGCGCAACCAATGACGGCGGAACAGGAATGGCGAGCGCGCTCGGTGTGCGTTTCTTAAATGAGGAAGGTCAGGAGATACCTGATGGCGGAGGCGCTCTGCACACCTTAGCTTCTATTGATATAAGCGGTCTCTCTCCTGATCTGAAACATATCCGTATCCGTGCCGCATGTGATGTCGAAAATCCCCTGACCGGTGAAAACGGCGCGTCATATGTCTTCGGCCCGCAAAAAGGGGCGTCCGAGAAGACTAAAGTTGTATTGGATCGCAACTTACGCCATTTCGCTGAGGTATTGAGACGTCAGCACGATATCGAAGCGGATACCGTAAAAGGCGCGGGTGCCGCAGGGGGACTGGGCGCCGGACTGATTGCTTTCTTACAGGCAGAACTTCAAAGCGGGATTGATGTTGTATTAGATACACTGTCCTTCTCAGATCAGATAAGAGGCGCTGACCTTGTCATTACCGGAGAGGGGCAGATAGACGGACAAACGATATTCGGCAAAACCCCCGTCGGGATCGCCGCACGCGCATCTGCTCAAGAAATTCCCGTTATCGCATTGGCGGGCTCCTTAGGCAAAAATTTCGAGCATGTTTACAGCGCAGGAATAACAGCTGTATTTTCTATCGTGCCGGGTGCTGTAAGTCTTGAAGACGCCTTAGCATCCGGCCGTTTTAACCTTGAAAGCACAGCCCGGAATGCCGCCGCTCTATACCGGGCAGCAAAAAAGGCGCGCCTCTAG	MKIIIAPDSFKESMTSKEAADSIEKGFKAVFPDAEYIKIPAADGGEGTVQALTDATGGSIIKKTVTGPLGTPVNAAYGLLGDGRTAVIEMAEASGLHLVPRHLRDPLNTTTRGTGELIADAASRGAGEIIIGLGGSATNDGGTGMASALGVRFLNEEGQEIPDGGGALHTLASIDISGLSPDLKHIRIRAACDVENPLTGENGASYVFGPQKGASEKTKVVLDRNLRHFAEVLRRQHDIEADTVKGAGAAGGLGAGLIAFLQAELQSGIDVVLDTLSFSDQIRGADLVITGEGQIDGQTIFGKTPVGIAARASAQEIPVIALAGSLGKNFEHVYSAGITAVFSIVPGAVSLEDALASGRFNLESTARNAAALYRAAKKARL	PGPT0018175_1287	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-12_04079	1278	serS	COG0172	Serine--tRNA ligase	ATGATTGATACGAAGGTGCTGAGAGCCAATTTTCAAGAGGTAAAAGCGAAGCTCATTCCAAAAGGCGAAGACTTATCTGACTTTGACAAGTTTGAAGAGCTGGACGAAAAGAGAAGAGAGCTTATCGGTAAAGTAGAAGAACTGAAGGGAAAACGCAATGAAGTGTCTCAGCAGGTCGCCGTTTTGAAACGGGAGAAAAAAGACGCTGATCATATTATTAAAGAGATGCGTGAAGTGGGCGAAGAAATTAAGAAGCTTGATGAAGAGCTTCGTACTATCGAAACGACGCTCGAAACCATCCTTCTGTCTATTCCGAACATCCCGCACGATTCAGTGCCCGTCGGGGAAACGGAAGATGATAACATTGAAATTCGCAAGTGGGGAGAGGCGCCGGCATTTTCATATGAGCCGAAACCGCATTGGGATATCGCAGACCATTTAAACATTCTTGATTTTGAACGCGCTTCAAAAGTAACAGGCAGCCGGTTTGTGTTTTATAAAGGATTAGGCGCCCGCCTCGAACGCGCGCTCTACAACTTTATGCTGGATCTTCACGTTGATGAATATGATTACACGGAAGTCATTCCTCCTTATATGGTAAACCGTACGAGCATGACAGGTACGGGACAGCTTCCTAAATTTGAAGAGGATGCTTTTAAAATCAGAGAAGAGGATTATTTCTTAATTCCGACGGCGGAAGTGCCGATTACAAATATGCACCGCGATGAAATCTTATCCGGTGAGAACCTGCCGATCAATTATGCCGCATTCAGCGCTTGCTTCCGTTCAGAAGCGGGATCTGCCGGCCGTGATACACGCGGTTTGATCCGCCAGCATCAGTTCAACAAGGTTGAGCTTGTGAAATTCGTGAAGCCTGAAGATTCTTATGAGGAGCTTGAAAAACTGACAAATCAAGCCGAGCGGGTGCTTCAGCTGCTCGAACTGCCGTATCGTGTCATGAGCATGTGTACCGGTGATCTCGGCTTTACAGCCGCGAAAAAGTACGATATTGAGGTATGGATTCCAAGCCAAGACACATACCGTGAAATTTCTTCTTGCAGTAACTTTGAGGCCTTCCAGGCGAGACGCGCAAACATTCGATTCAGACGCGAAGCGAAAGGCAAGCCGGAGCATGTGCATACATTAAACGGTTCAGGTCTTGCAGTCGGCAGAACAGTAGCTGCCATCTTAGAAAACTATCAGCAAGAGGACGGAAGTGTCATTATTCCGAAAGTGCTTCGTCCTTATATGGGAAATAAAGAAGTCATCAAACCGTAA	MIDTKVLRANFQEVKAKLIPKGEDLSDFDKFEELDEKRRELIGKVEELKGKRNEVSQQVAVLKREKKDADHIIKEMREVGEEIKKLDEELRTIETTLETILLSIPNIPHDSVPVGETEDDNIEIRKWGEAPAFSYEPKPHWDIADHLNILDFERASKVTGSRFVFYKGLGARLERALYNFMLDLHVDEYDYTEVIPPYMVNRTSMTGTGQLPKFEEDAFKIREEDYFLIPTAEVPITNMHRDEILSGENLPINYAAFSACFRSEAGSAGRDTRGLIRQHQFNKVELVKFVKPEDSYEELEKLTNQAERVLQLLELPYRVMSMCTGDLGFTAAKKYDIEVWIPSQDTYREISSCSNFEAFQARRANIRFRREAKGKPEHVHTLNGSGLAVGRTVAAILENYQQEDGSVIIPKVLRPYMGNKEVIKP				NA	NA	NA	NA	NA
D1-12_04081	591	pdxT	COG0311	Pyridoxal 5'-phosphate synthase subunit PdxT	ATGTTAACAATTGGTGTACTTGGACTTCAAGGAGCAGTAAGAGAACATATTCGTTCAATTGAAGCATGTGGTTCAAAAGGTGTCGTCATTAAGCGTCCTGAACAGCTGAATGACATCGACGGCTTAATCCTGCCGGGCGGGGAAAGCACGACGATGCGGCGTTTAATGGATACGTATCATTTTATGGAGCCACTTCGCGAGTTTGCCGCCCAAGGCAAGCCGATGTTCGGCACATGCGCCGGTCTGATTATCTTAGCCAAAGAGATAGCGGGAACGGATAACGCTCATTTAGGGCTGTTGAACGTTGTCGTCGAGCGTAATTCCTTTGGCCGTCAGGTCGACAGCTTTGAAGCTGATCTGACGATTAAAGGCCTTGATGAGCCGTTTACGGGTGTATTTATTCGCGCGCCGCATATTTTAGAAGCCGGAGAAGATGTTGAAGTGCTTTGTGAGCATAACGGACGCATCGTGGCTGCAAAGCAGGGGAATTTCCTCGGCTGCTCGTTCCATCCTGAACTGACGGATGATCACCGGGTGACAGAGCTGTTTGTGAAGATGGCGGAAAAGCATAAGCAGGAAACAGCTGTATAA	MLTIGVLGLQGAVREHIRSIEACGSKGVVIKRPEQLNDIDGLILPGGESTTMRRLMDTYHFMEPLREFAAQGKPMFGTCAGLIILAKEIAGTDNAHLGLLNVVVERNSFGRQVDSFEADLTIKGLDEPFTGVFIRAPHILEAGEDVEVLCEHNGRIVAAKQGNFLGCSFHPELTDDHRVTELFVKMAEKHKQETAV	PGPT0009185_1127	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009185-pdxT|pdx2|yaaE-K08681	NA	NA
D1-12_04082	885	pdxS	COG0214	Pyridoxal 5'-phosphate synthase subunit PdxS	ATGGCTCAAACAGGTACTGATCGTGTAAAACGCGGCATGGCGGAAATGCAAAAAGGCGGCGTCATCATGGACGTTGTAAATGCTGAACAAGCGAAGATTGCAGAAGAGGCGGGAGCTGTTGCCGTAATGGCGTTAGAACGCGTTCCGGCTGATATTCGCGCTGCCGGCGGTGTTGCCCGCATGGCTGATCCGACTATCGTTGAAGAAGTAATGAATGCTGTATCCATTCCCGTAATGGCAAAAGCGCGTATCGGACATATCGTTGAAGCGCGTGTCCTTGAAGCAATGGGAGTAGATTACATCGATGAAAGTGAAGTTCTGACTCCGGCTGACGAAGAATTTCATTTAAATAAAAATGAATATACAGTCCCGTTCGTATGCGGCTGCCGTGATCTCGGCGAAGCAACGCGCCGTATCGCCGAAGGAGCTTCCATGCTTCGTACAAAAGGCGAACCGGGAACAGGAAACATTGTGGAAGCTGTCCGCCATATGAGAAAAGTAAACGCACAAGTGCGCAAAGTTGTTGCGATGAGCGATGATGAGCTGATGACTGAAGCTAAAAACCTCGGCGCTCCTTATGAACTGCTTCTTCAAATCAAACGTGACGGCAAACTGCCTGTAGTGAACTTTGCTGCCGGCGGAGTAGCGACGCCTGCTGACGCGGCATTGATGATGCAGCTTGGCGCTGACGGCGTATTTGTCGGTTCAGGTATTTTCAAATCAGACAACCCTGCTAAATTCGCCAAAGCAATTGTTGAAGCAACGACTCATTACACAGACTACAAACTGATCGCTGAGCTTTCTAAAGAATTAGGCACAGCAATGAAAGGAATCGAAATCTCAAATCTATTGCCGGAACAGCGTATGCAAGAACGCGGCTGGTAA	MAQTGTDRVKRGMAEMQKGGVIMDVVNAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIVEARVLEAMGVDYIDESEVLTPADEEFHLNKNEYTVPFVCGCRDLGEATRRIAEGASMLRTKGEPGTGNIVEAVRHMRKVNAQVRKVVAMSDDELMTEAKNLGAPYELLLQIKRDGKLPVVNFAAGGVATPADAALMMQLGADGVFVGSGIFKSDNPAKFAKAIVEATTHYTDYKLIAELSKELGTAMKGIEISNLLPEQRMQERGW	PGPT0009180_1481	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009180-pdxS|pdx1|yaaD-K06215	NA	NA
D1-12_04083	1332	dacA	COG1686	D-alanyl-D-alanine carboxypeptidase DacA	TTGAACATCACGAAATGGAAACAGCTGTTGGTGTCATTAGTGGTACTGGCACTGGCCGCAACTTGCTTTGTTCCGATGTCTAAAGCGGAGGCAGCCGGCAATGACCCGATTGATGTCAACGCATCAGCTGCGATAATGATTGAGGCTTCATCGGGAAAAATTTTATACAGTAAAAATGCAGACAAAAGACTGCCGATTGCCAGCATGACAAAAATGATGACTGAATATCTGCTTCTGGAAGCCATTAAAGAAGGAAAAGTGAAATGGGATCAAACGTATACTCCTGATGATTATGTCTATGAAATTTCTCAAGACAACAGTTTATCAAACGTCCCCCTTCGAAAAGACGGCAAATACACGGTTAAAGAACTGTATCAGGCTATGGCGATTTACTCTGCCAACGGAGCTGCGATTGCAGTTGCCGAAATTCTTGCCGGAACTGAAACAAAATTTGTCGCTGTAATGAATGCGAAAGCCAAAGAATTAGGTATGACAAACTATGATTTTAAAAATGCCACAGGGCTTGTGAATGAAGATCTTCACGGCAAACAGCCGCAAGGAGAAGGCGTTAAAGAAGAAAGTGAAGTTTCTGCTAAAGACATGGCGCTTCTTGCAGACCGCCTGATCACTGATTATCCGGAAGTTCTCAAAACAACAAGCATCGCTAAGACGAAATTCAGAGCCGGCACTGATGATGAAATGGACATGCCGAACTGGAACTTCATGTTAAAAGGTCTTGTTTCTGAATACCCTGGCGTTGACGGCTTAAAAACGGGTTCTACTGATTCTGCGGGATCTTGTTTTACAAGCACAGCACAGCGGAACGGAATGCGGGTCATCACCGTTGTATTAAACGCAAAAGGCAACCTGCATACCGGACGTTTTGATGAAACGAAAAAAATGCTCGATTACGCATTTAACAGCAATTTCTCAATGAAAGATCTTTACCCTGAAGGCTCTCAAGTAAAAGGGCATAAAACGATTGACGTTGAAAAAGGGAAAGACAAGCAAGTCGATATTGTTACTGACAAGGCGCTTTCTATTCCTGTGAAAAGCGGGGATGAAAAGAACTATAAAGCCGAAGTGACTTTAGATAAAAAAGAAATCACGGCTCCTGTGAAAAAGGGAACGAAAGTCGGAACGCTGACAGTTACATACAAAGGCAGTGACAAAGACTATGGCTTCCTCAAATCCAAAGAGTTCAGCGTGAATCTAGTAACGAAAAATGATGTAGATAAAGCAAACTGGTTTGTTCAGATGATGCGCGGCATCGGCGGATTCTTCTCCGGAATCTGGAACAGCGCCGTTGACACGGTAACAGGCTGGTTTTAA	MNITKWKQLLVSLVVLALAATCFVPMSKAEAAGNDPIDVNASAAIMIEASSGKILYSKNADKRLPIASMTKMMTEYLLLEAIKEGKVKWDQTYTPDDYVYEISQDNSLSNVPLRKDGKYTVKELYQAMAIYSANGAAIAVAEILAGTETKFVAVMNAKAKELGMTNYDFKNATGLVNEDLHGKQPQGEGVKEESEVSAKDMALLADRLITDYPEVLKTTSIAKTKFRAGTDDEMDMPNWNFMLKGLVSEYPGVDGLKTGSTDSAGSCFTSTAQRNGMRVITVVLNAKGNLHTGRFDETKKMLDYAFNSNFSMKDLYPEGSQVKGHKTIDVEKGKDKQVDIVTDKALSIPVKSGDEKNYKAEVTLDKKEITAPVKKGTKVGTLTVTYKGSDKDYGFLKSKEFSVNLVTKNDVDKANWFVQMMRGIGGFFSGIWNSAVDTVTGWF	PGPT0024040_695	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
D1-12_04084	1467	guaB	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGTGGGAAAGTAAATTTTCAAAAGAAGGCTTAACGTTCGATGATGTACTGCTCGTACCGGCTCAATCAGACGTACTTCCGCGTGATGTGGATTTATCTGTTGAACTGACAAAGACGTTAAAGCTTAATATTCCTGTCATCAGTGCGGGAATGGATACAGTAACAGAATCAGCTATGGCGATTGCGATGGCCAGACAGGGCGGCTTGGGCATTATCCATAAAAACATGTCCATCGAACAGCAGGCTGAACATGTTGACAAAGTCAAACGTTCTGAACGGGGCGTTATTACAAATCCCTTCTTTTTAACACCAGATCATCAAGTATTCGATGCGGAGCATTTGATGGGGAAATACAGAATTTCCGGTGTTCCGATCGTAGATAATAAAGACGATCAAAAGCTTGTCGGTATCATTACAAACCGTGATCTTCGCTTTATCTCTGATTATTCAATGAAAATCAGTGATGTCATGACAAAAGAAGAGCTGGTTACGGCTCCTGTGGGAACCACATTAGACGAAGCAGAAAAAATCTTACAGAAACATAAAATTGAAAAACTTCCGTTAGTGGATGACCAAAACAAATTAAAAGGTCTTATCACGATCAAAGATATTGAAAAGGTTATCGAATTCCCGAATTCATCTAAAGATGAACACGGACGCCTTATTGTCGGCGCTGCGGTAGGCGTGACAGGCGATACAATGACACGCGTCAGCAAGCTTGTTGAAGCGAATGTCGACGTTATCGTGGTTGATACGGCTCACGGACATTCCAGAGGCGTACTGAACACAGTTGCGAAAATCCGTGAAACATATCCTGAACTGAACATTATCGCGGGAAATGTTGCAACGGCTGAAGCGACAAAAGCTCTGATTGAAGCCGGAGCAAATATTGTCAAAGTGGGAATCGGACCTGGTTCTATCTGTACGACACGCGTCGTTGCAGGTGTAGGCGTACCGCAGATCACTGCCATTTATGATTGTGCCACTGAAGCGAGAAAACACGGCGCGACAATTATCGCAGACGGCGGTATTAAATTCTCAGGAGATATTACGAAAGCGTTGGCTTCAGGCGGACATGCCGTAATGCTCGGAAGCCTGCTTGCCGGTACTTCAGAAAGCCCGGGAGAGACTGAAATCTATCAGGGCAGAAGATTTAAAGTGTATCGCGGTATGGGTTCTGTCGCTGCCATGGAAAAAGGCAGTAAAGACCGATATTTCCAAGAAGAAAATAAGAAATTCGTCCCTGAAGGTATCGAAGGACGGACTCCGTACAAAGGTCCTGTAGAAGAAACAGTGTATCAGCTTGTCGGCGGTCTTCGTTCAGGTATGGGATATTGCGGTTCAAAAGACTTGCGTGCTTTAAGAGAAGAGGCTCAATTCATCCGTATGACAGGTGCCGGTCTTCGCGAAAGTCATCCGCATGATGTCCAAATTACGAAAGAATCACCAAACTACACAATCTCATAA	MWESKFSKEGLTFDDVLLVPAQSDVLPRDVDLSVELTKTLKLNIPVISAGMDTVTESAMAIAMARQGGLGIIHKNMSIEQQAEHVDKVKRSERGVITNPFFLTPDHQVFDAEHLMGKYRISGVPIVDNKDDQKLVGIITNRDLRFISDYSMKISDVMTKEELVTAPVGTTLDEAEKILQKHKIEKLPLVDDQNKLKGLITIKDIEKVIEFPNSSKDEHGRLIVGAAVGVTGDTMTRVSKLVEANVDVIVVDTAHGHSRGVLNTVAKIRETYPELNIIAGNVATAEATKALIEAGANIVKVGIGPGSICTTRVVAGVGVPQITAIYDCATEARKHGATIIADGGIKFSGDITKALASGGHAVMLGSLLAGTSESPGETEIYQGRRFKVYRGMGSVAAMEKGSKDRYFQEENKKFVPEGIEGRTPYKGPVEETVYQLVGGLRSGMGYCGSKDLRALREEAQFIRMTGAGLRESHPHDVQITKESPNYTIS	PGPT0021445_3254	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
D1-12_04085	990			hypothetical protein	TTGAAATATTTAGATAAAGGAAAGGGTTTAAAAATACGTATGAGAGATCATGAGTGGAAAGAGTTATCATTATTTTATTCCGTAGAATCTTCCCAGAAATTTCTAAATAAAGTCTATACAGTAAGCGGCATGGAAGAAGCAAAACGATATGCGTTTAAGAACAGTGAGCGCTTCATATTCTTTATCAAACACGCCGAGTCCTTTTATAAGCAGGCATCTCTTTCCCCTTTAGAAATTAAGCCTATTCTGTTGTTTTACGGGATGTCACAATTGCTGAAAGCCTGTCTTCTGACCACAGATCCAAGCTACCCAAGCCATGCCTCAGTACTCGCGCATGGCGTGACTGCCCGGAAACGCAAAAAGCAAAATTACTCCTTTAGGGATGATGAAGTGAAGGTGCAGCGCAATGGCTTATGTATTCATGTAATGAAGCACTTATTCGGAATAGCTGGTCTTGAGGAGGAACGGTATACGATGAAGAAATTGCTGACAGCCATTCCTGAATTGCATACTGTCTTTTACTTCCAAGAGAAAAAGAATTGGCTGACCCGAGTAGAGCTGAAAGATGACCTTATTTCAGTGCCTGAGCATGCGGTGATTCATTACAATATGTCTGATTCCCGCTTTGCTGAATATATCAGCCATCATTTGAAGTGGTCTTTTCTGAGGAAAGACCATAACCACTTGGTTTTTGAGGCTGACCCGATAGACAGAGAACCTTGGTCTTCACCAAATTTATTGTTTCACTTGGAGAAAAACCAATATTACATTCCCTCTCAGCGTGATCACTTCCTGCATCTTCCGGAAATGATTATTCATTATTTGGTTCTCTACAATATCGGGATGATTGCGAGATATGAAACGGAGTGGTGGTATGAACTGCTGACACAGCATGTCAGTGATGATTATGTAATGATCCGCCGGTTCTTAGAGGTCACGGAACGCAAATTTCCGTATTACGTTTCTAATTTCCTGAAGCAATACTTATAA	MKYLDKGKGLKIRMRDHEWKELSLFYSVESSQKFLNKVYTVSGMEEAKRYAFKNSERFIFFIKHAESFYKQASLSPLEIKPILLFYGMSQLLKACLLTTDPSYPSHASVLAHGVTARKRKKQNYSFRDDEVKVQRNGLCIHVMKHLFGIAGLEEERYTMKKLLTAIPELHTVFYFQEKKNWLTRVELKDDLISVPEHAVIHYNMSDSRFAEYISHHLKWSFLRKDHNHLVFEADPIDREPWSSPNLLFHLEKNQYYIPSQRDHFLHLPEMIIHYLVLYNIGMIARYETEWWYELLTQHVSDDYVMIRRFLEVTERKFPYYVSNFLKQYL				NA	NA	NA	NA	NA
D1-12_04087	555	opcR_3	COG1510	HTH-type transcriptional repressor OpcR	ATGGATGAGAATCCAGAATTCGCAGCTATAGAACAAGCCAGGGATCTTGTCATTGATTCCATTGCAGAGACGATGGATCTTTACGGAATCACCCGAAGTGTCGGGATTTTATACGGAACAATGTATATGAGGGATGAAATGACGCTTGACGAAATGCGTGAGGAACTGCAGATGAGCAAACCGAGTATGAGCACAGGCGTCAAAAAGCTGCAGGATTTAAATGTGGTCAAAAAAACCTTTCACCGCGGCACACGGAAGCATACGTTTGTAGCGGAAAAAGATTTCTTTACGTTTTTCACGAATTTCTTCCCGCCGAAATGGGATCGTGAAGTTCAGGTGAATTTGTCCGCCATCGTACAGGCCCAGGCGGATTTGCAGTCCGTTTTGCTGGCCGAGGAAGGCAACGCGGAATTACAGGAAGAAGCGCGGCAGTTATATGATCAGCTTGAAAGTTCGAAAGCTTATTATGATTGGCTGAAGCGGCTCGCCGACTCGGTTCAGAGCGGGGAGATTTTTAAATTTATTCCGATAGAAACGGACGAAAAAAACGCCTGA	MDENPEFAAIEQARDLVIDSIAETMDLYGITRSVGILYGTMYMRDEMTLDEMREELQMSKPSMSTGVKKLQDLNVVKKTFHRGTRKHTFVAEKDFFTFFTNFFPPKWDREVQVNLSAIVQAQADLQSVLLAEEGNAELQEEARQLYDQLESSKAYYDWLKRLADSVQSGEIFKFIPIETDEKNA	PGPT0013690_145	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109	NA	NA
D1-12_04088	1473	gbsA	COG1012	Betaine aldehyde dehydrogenase	ATGAGCAAAACGCTTTATATCGGCGGCGAATGGATCAGTGCAGAAAAAAAACAGACCCGCCGTATCATTAATCCATTTAATCAAGAAGAAATTGCAACGGTATGCGAAGGAGACCGGGACGATGCGGTGAAAGCCATCGCCGCAGCCAGAAAAGCATTTGATGAAGGGGAGTGGCCGGTGCTTTCCGGGCTCGAGCGCGGACAATTTGTTCTGAAAATTGCGGAATTAATCAGACGCGATCTGAACGAATTAGCTGAGCTGGAATCGCTCGATACAGGAAAAACGATTGAAGAAAGTAAAGCCGATATGGATGATATCGCAAATGTATTTCAATATTATGCCGGTTTGGCGGATAAAGACGGAGGCGAGGTCATTTCATCTCCGATTCCTGATTCCGTAAGTAAAATCGTCAGAGAGCCCATTGGCGTATGCGGACAAATTACGCCGTGGAACTATCCGCTCCTTCAGGCGAGCTGGAAAATCGCTCCCGCTCTTGCGGCCGGAAACACGATCGTTTTAAAGCCGAGCGAGATTACTCCGCTGACAACCATTAAAGTCTTTCAATTAATAGAAGAAGCCGGTATTCCGAAAGGGGTCGCCAATCTCGTGCTGGGGCCGGGCGCTTCTGTCGGCGATGAGCTGGCGAGAAACCTCGACGTCGATTTGGTCTCTTTTACGGGCGGAATTGAAACAGGCAAAAAAATCATGCAGGCGGCAAGCGGCAACGTGAAAAAGATTGCCCTGGAGCTTGGCGGCAAAAATCCGAATATCGTATTTCAAGATGCAGATCTCGAAACAGCTGCAGATCAAGCGCTGAACGCCGTGTTTTTCCATGCCGGCCAAGTTTGTTCGGCAGGGTCACGTCTTTTGGTGGACGAAGCCATTCATGATGAATTTTTAGCCGAGCTGATCAAGCGTACGAAACGCATCAAATTAGGAAACGGTTTTCATGAAGATACGGAAAGCGGTCCGCTGATTTCCGCCGAGCATCGGGCTAAAGTCGAAAAATACGTAGAAATCGGCATCGAAGAAGGGGCAAAACTGGAAACAGGCGGCAAACGTCCTGATGATCCCGCCCTTCAAAACGGTTTCTTCTATGAACCTACTATTTTCTCAAACTGCAAGTCTGATATGCGGATAGTCCAAGAGGAGATCTTCGGCCCCGTTTTAACAGTTGAGTCATTTTCTTCTGAAGAAGAAGTGATCAGACTTGCCAACGATACCATTTACGGGCTGGCCGGAGCGGTATGGTCAAAGGATATTGAAAAATGCGAACGCGTAGCCGCCAAACTGCGGATGGGAACGGTATGGATCAATGATTTCCACCCGTATTTCGCGCAAGCGCCATGGGGCGGGTACAAACAATCGGGCTTCGGCCGCGAACTCGGCAAAATCGGCCTGGAAGAATACACGGAAATCAAACATATTTACCGCAACACGAAACCTGCGGCTGTGAACTGGTTTCAAGCATAA	MSKTLYIGGEWISAEKKQTRRIINPFNQEEIATVCEGDRDDAVKAIAAARKAFDEGEWPVLSGLERGQFVLKIAELIRRDLNELAELESLDTGKTIEESKADMDDIANVFQYYAGLADKDGGEVISSPIPDSVSKIVREPIGVCGQITPWNYPLLQASWKIAPALAAGNTIVLKPSEITPLTTIKVFQLIEEAGIPKGVANLVLGPGASVGDELARNLDVDLVSFTGGIETGKKIMQAASGNVKKIALELGGKNPNIVFQDADLETAADQALNAVFFHAGQVCSAGSRLLVDEAIHDEFLAELIKRTKRIKLGNGFHEDTESGPLISAEHRAKVEKYVEIGIEEGAKLETGGKRPDDPALQNGFFYEPTIFSNCKSDMRIVQEEIFGPVLTVESFSSEEEVIRLANDTIYGLAGAVWSKDIEKCERVAAKLRMGTVWINDFHPYFAQAPWGGYKQSGFGRELGKIGLEEYTEIKHIYRNTKPAAVNWFQA	PGPT0007165_1364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-12_04089	1209	gbsB	COG1454	Choline dehydrogenase	ATGACATTAAATATGAAAGTAGAAAGCATGCATAAATTCCATACATTCGAAATCCCGACAGTCATTAAACACGGAATCGGTGCGATTCAGCACGCGGGGAGTGAAGTCAGAGCGCTTGGCGTCACAAAAGCGCTGCTCGTAACAGACCCGGGAATTTATAACGCGGGAGTGGCAAACCCGGTCATTGAATCTTTGCAGGAAGCGGGCATCGAAGTCGTCCTGTTTAACAAAGTGGAGCCGAACCCGCCTGTACGTCTTGTAAACGAAGGATCAGAACTGTATAAAAAAGAAAACTGCAACGGCCTTGTGGCTGTCGGCGGCGGAAGCTCCATGGATACAGCGAAAGCGATCGGGGTAGAAGCGACACACGAAGGAAGCGTGCTTGATTATGAAGCCGCGGAAGGCAAAAAGCCGCTGGAAAACCGTATTCCTCCGCTGACAACGATCCCGACGACTGCGGGAACAGGTTCAGAGGTCACACAATGGGCGGTCATTACAGATGAGGAAAGAGAATTTAAATTCAATACGGGCGGACCGCTTATCGCCGCGCATTTAACGGTCATTGACCCTGAGCTGCACACGTCCATGCCTCCGCATGTGACGGCCATGACAGGTATTGACGCACTTGCGCACGCCATCGAGTGCTATACGATGAAATTCGCGCAGCCGATCACTGATGCCGTCGCTTTAATGGCCATTGAATATGCGGCGCATTATATTAAGCGCGCGTTTGCAGACGGAGAGGATTTGGAAGCAAGATACGGCATGGCGCAGGCGGCGATGCTTGCCGGCCTTTCATACGGCAGTGAATCAGCAGGCGCGGCGCATGCAATGAGCCAGACGCTCGGCGGCATCATCCCTGTCGCTCACGGACAATGCGTCGCAGCTATGATGGGGCCGGTAATGGAATACAACTGGAAAGGCTATCCGGAAAAATTCGCCCGCATCGCCAAAGCATTCGGAATCGATACAAGCAACATGACAACCGATGAAGCGGCAAAAGCGTCCGTCAACTGGATGTATGATCTTGTAAAAGATTTAGAGGTGCCGAGTTTAGAAGAACAAGGTGTGTCTCCGGACATGATTGAACGTTTATCAAAAGAAGCCATGAAAGATCCGCAAACATTCGGAAATCCAAGAGATTTGAATGAGAAAGCATACAACTGGATTTACAAACGCTGCTTTGACTTAACACCGAAAACGGTATAA	MTLNMKVESMHKFHTFEIPTVIKHGIGAIQHAGSEVRALGVTKALLVTDPGIYNAGVANPVIESLQEAGIEVVLFNKVEPNPPVRLVNEGSELYKKENCNGLVAVGGGSSMDTAKAIGVEATHEGSVLDYEAAEGKKPLENRIPPLTTIPTTAGTGSEVTQWAVITDEEREFKFNTGGPLIAAHLTVIDPELHTSMPPHVTAMTGIDALAHAIECYTMKFAQPITDAVALMAIEYAAHYIKRAFADGEDLEARYGMAQAAMLAGLSYGSESAGAAHAMSQTLGGIIPVAHGQCVAAMMGPVMEYNWKGYPEKFARIAKAFGIDTSNMTTDEAAKASVNWMYDLVKDLEVPSLEEQGVSPDMIERLSKEAMKDPQTFGNPRDLNEKAYNWIYKRCFDLTPKTV	PGPT0008300_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0008300-gbsB-K11440	NA	NA
D1-12_04090	582	yuaD		Putative metal-sulfur cluster biosynthesis proteins YuaD	ATGTGGAAACGCATAACAGCAAAGACGGAAGGCGTATATATAGCGGATACCGAACAATTTGTTACCAAAAAGATGGACAAGCTTCGTGCGGAATACGGCGGGTTTCCCGGTGACCTGCATTTCGGACTGACAAAAAAGGCCGGCGCGCGTGAGCCGATGTATGAAAGAGGAACAGAAATTTTTAACCGGAGACAAATTTCAATCGTGTCCATGGAGGAATGTGATGACATTGCGGAGAAGATGGGGATTTCTCATATCTTTCCCGAATGGCTCGGCGCTAACATCGCAATCAGCGGTTTTTCTGCACTGACGCCGCTTAAAGAAGGAAGCAGAATAATATTTCCAAGCGGTGCGTCTCTGTTGTGCGAGGGAGAAAATGATCCGTGCATTCAGCCGGGAGAAGTCATTCAATCCTTTTATCCGGATCAGTCAAAACTCGCCGCGGCGTTTGTGAGGCACGCGATGGGCAGAAGAGGAATTGTCTGTATTGTTGAACGCCCGGGTGATATATGCACGGGCGATGCGGTCACCATCCATTCTTATGAACCGAAACGCGCCAAGAAAAAAATCGAGAAGGTCTGA	MWKRITAKTEGVYIADTEQFVTKKMDKLRAEYGGFPGDLHFGLTKKAGAREPMYERGTEIFNRRQISIVSMEECDDIAEKMGISHIFPEWLGANIAISGFSALTPLKEGSRIIFPSGASLLCEGENDPCIQPGEVIQSFYPDQSKLAAAFVRHAMGRRGIVCIVERPGDICTGDAVTIHSYEPKRAKKKIEKV				NA	NA	NA	NA	NA
D1-12_04091	489			hypothetical protein	ATGAGCATTTTTAATGAAGCCAGACAGCAGACCTGGGAAGAACTGAAAGGACTCTCTGATGAGGAATTCAACCGAAAGCCCGCGGCTGATGAGTGGAGCGTGCGGGAAGTCCTTGACCATTTAAAGAAAATTGACGAAACAGCGCAGACCCTTTTATCAAAGCAGGCAAAAGACGCACCGTTTAAAAAAATCGAAGAAAAACCGATGGAGTTTATAGAGGACAGAACAAATAAACGGCCGGCGCCGTCACACCTCGAACCTGAGCAAAACCGAATATCAGTCATTGAAGCAAAACAAGAATTAGATACGGCAAGACAGCAGCTGACCGCAGTTATTTCATCATTAAACGAGGAAGACTTAGAACGTGTGCTTCCCCATCCTGTTTTTCAAGAACTGACGATCCGCCAGTGGATTGATTTTATCGGCCATCATGAAAAGCGTCACATCAATCAAATAGAAGAAATCAAACAAAAAATCGAGAAGGTCTGA	MSIFNEARQQTWEELKGLSDEEFNRKPAADEWSVREVLDHLKKIDETAQTLLSKQAKDAPFKKIEEKPMEFIEDRTNKRPAPSHLEPEQNRISVIEAKQELDTARQQLTAVISSLNEEDLERVLPHPVFQELTIRQWIDFIGHHEKRHINQIEEIKQKIEKV				NA	NA	NA	NA	NA
D1-12_04092	531	yuaF		putative membrane protein YuaF	ATGAACATATTTTATCTGCCGCTTGAAACGGTCTATCTTTACACATTGATTATTTCGGGAAGTCTCACGCTTTTGATTCTGTTTTTTCAAGATGTGTTTCACGGCCTATCGGAAGCCATTCCTGTTTCATTTTTAAACCCTGCATTGATTCTGTCTTTTTTAACAATCTTTTCAGCCTCAGGTTATATCGGCGAAATCGCCGCTCCGCTATCAAGTCCTGTCATTGCGTTGCTTTCATTTGTTCTTTCGGTTCTTTTGGTCAGCCTGCTTCACTTCTTTGTCCTTGTCCCGCTTTCATCAGCGGAAGAATCGCTCGCATATCGGGAGACGGATTTAAAGGGCAGAGTCGGCAGGGTCATTACTTCCGTCCCGAAAGACGGCTATGGAGAAGTAATCATAGAGGGAATAGGGGGCGCCATTTCTAAATCAGCCGTCAGCTTTGATCAAGAACAGATCAAGTACGGAACGGCCGTATTAGTGATTGACGTGAAAGACGGAGTGCTTTTTGTGACGCCGCATGAACCAATCTGA	MNIFYLPLETVYLYTLIISGSLTLLILFFQDVFHGLSEAIPVSFLNPALILSFLTIFSASGYIGEIAAPLSSPVIALLSFVLSVLLVSLLHFFVLVPLSSAEESLAYRETDLKGRVGRVITSVPKDGYGEVIIEGIGGAISKSAVSFDQEQIKYGTAVLVIDVKDGVLFVTPHEPI				NA	NA	NA	NA	NA
D1-12_04093	1530	yqiK	COG2268	Inner membrane protein YqiK	ATGACTATGCCGATTATCATCGTTATCGGAATCGTATTCTTTTTACTCATCGCACTTATTGCTGTATTTATTACGAAGTACCGGACGGCGGGGCCGGACGAAGCCCTTATCGTGACCGGAAGTTATTTGGGAAATAAGAACGTCCACATTGATGAAGGCGGAAATCGTCTGAAAATCGTCCGGGGCGGGGGAACTTTTGTGCTCCCGGTATTCCAGCAGGCAGAACCTCTCAGTTTACTGTCAAGCAAACTTGATGTCTCTACACCTGAAGTCTATACAGAACAAGGCGTGCCGGTAATGGCCGACGGAACCGCCATTATTAAAATCGGAGGCTCCATCGGTGAAATCGCAACAGCAGCTGAACAATTTTTGGGGAAATCTAAGGAAGACCGTGAGCAGGAGGCGCGGGAGGTGCTGGAGGGCCATCTGCGCTCCATCCTCGGCTCCATGACCGTTGAAGAGATTTATAAAAACAGGGAAAAGTTTTCTCAGGAAGTCCAGCGGGTCGCGTCTCAGGATCTTGCTAAAATGGGGCTGATGATCGTTTCTTTTACGATTAAAGACGTCCGCGATAAAAACGGCTATCTTGAATCATTAGGTAAGCCGAGAATCGCCCAAGTCAAGCGGGATGCGGACATTGCCACGGCAGAAGCGGATAAAGAGACGAGGATTAAACGCGCGGCCGCTGATAAAGACGCAAAAAAATCAGAGCTGGAGCGGGCGACGGAAATAGCTGAAGCGGAAAAAATCAATCAGCTGAAAATGGCGGAATACAGAAGAGAGCAGGATACAGCAAAAGCCAATGCCGACCAGGCATATGATCTTGAAACAGCAAAAGCCCGCCAGCAGGTGACAGAGCAGGAAATGCAAATTAAAATTATTGAGCGGCAAAAGCAGATTGAATTGGAAGAAAAAGAAATCCTGCGCCGTGAGCGCCAATATGACTCTGAGGTGAAGAAAAAAGCCGATGCTGACCGTTACTCGGTGGAACAAGCGGCCGCGGCCGCAAAAGCGAAGCAGCTCGCCGAAGCGGATGCCGAGCAGTACAGTATCGAAGCGATGGCCAAGGCGGAAGCGGAACGCGTGAGAATTGACGGTCTTGCTAAAGCGGAGGCTGAAAAGGCGAGAGGAGAAACCGAAGCGGAAGTCATCCGCCTGAAAGGTCTCGCAGAAGCGGAAGCTAAAGAAAAAATCGCCGAAGCATTCGAAAAATACGGGCAGGCTGCAATCCTTGATATGATTGTGAAAATGCTGCCTGAATATGCGAAGCAAGTCTCAGCGCCTCTTTCCAACATTGATAAAATAACCGTCGTTGATACGGGAGGAAGCGGTGAAAACGGCGGGGCCAATAAAGTCACAGGCTACGCAACCAATTTAATGGCCGGTCTTCAGGAAAGCTTAAAAGCATCTTCCGGAATCAATGTAAAAGAGCTTATTGAGAATTTTTCAGGCAAAGGAAACATAAAACAAAGTATAAATGAACTTACAAAAGAACTGAGTGATTCAAACGAACGGCACAGCCCGGAATAA	MTMPIIIVIGIVFFLLIALIAVFITKYRTAGPDEALIVTGSYLGNKNVHIDEGGNRLKIVRGGGTFVLPVFQQAEPLSLLSSKLDVSTPEVYTEQGVPVMADGTAIIKIGGSIGEIATAAEQFLGKSKEDREQEAREVLEGHLRSILGSMTVEEIYKNREKFSQEVQRVASQDLAKMGLMIVSFTIKDVRDKNGYLESLGKPRIAQVKRDADIATAEADKETRIKRAAADKDAKKSELERATEIAEAEKINQLKMAEYRREQDTAKANADQAYDLETAKARQQVTEQEMQIKIIERQKQIELEEKEILRRERQYDSEVKKKADADRYSVEQAAAAAKAKQLAEADAEQYSIEAMAKAEAERVRIDGLAKAEAEKARGETEAEVIRLKGLAEAEAKEKIAEAFEKYGQAAILDMIVKMLPEYAKQVSAPLSNIDKITVVDTGGSGENGGANKVTGYATNLMAGLQESLKASSGINVKELIENFSGKGNIKQSINELTKELSDSNERHSPE				NA	NA	NA	NA	NA
D1-12_04094	582	thiT	COG3859	Thiamine transporter ThiT	ATGAATCATTCAACACAGCTTGTGCGCTTAATTGAAATAGCGATTATGACCGGGTCGGCTGTCATTCTTGACATTGTCTCAGGTATGTTTCTCCGGATGCCCCAAGGCGGTTCGGTCTCTATTATGATGATTCCGATTTTTTTGATTTCATTCCGCTGGGGAGTGAAGGCCGGGCTTACGACAGGCTTTTTAACAGGGATTGTCCAGATCGCCATCGGCAATTTGTTTTTGCAGCACCCGGTGCAGCTATTTCTTGATTACATCGCGGCATTTGCAGTCCTCGGTTTCAGCGGCTTGTTTGCTTCCGGTGTACGAGAATCGGCATTGAATAAAAAAAGAGGCGCTTTAACGATGTATATTATAGGCGGTGTTTTCATCGGCAGTGTGCTGCGCTATGCGGCACATGTGGTCTCCGGAGCTGTCTTTTTCGGAAGCTATGCTCCGAAAGGCACGCCGGTATGGATTTATTCGTCCGTCTATAACGCGACTTATATGATTCCTTCTTTTATCCTTTCGGCCATTGTCCTTATCTTATTATTCATGACTGCGCCGCGGCTTCTTGAAGCTAAGCGGACGAACTGA	MNHSTQLVRLIEIAIMTGSAVILDIVSGMFLRMPQGGSVSIMMIPIFLISFRWGVKAGLTTGFLTGIVQIAIGNLFLQHPVQLFLDYIAAFAVLGFSGLFASGVRESALNKKRGALTMYIIGGVFIGSVLRYAAHVVSGAVFFGSYAPKGTPVWIYSSVYNATYMIPSFILSAIVLILLFMTAPRLLEAKRTN	PGPT0009100_254	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009100-thiT-K16789	NA	NA
D1-12_04097	162			hypothetical protein	ATGAGTGATTTTGAAACAGGAATGAGATATGTAAGAGCAACTCTTGGCTTTGAGGGCTTAGTGCTGACGGAAGAAGAGGAAAAGCTTTTAGAAAGGCGGTTTCATGGAGAAATCACAGAAGAAGAATACATACGAAAAGCGCTGGAGCTGTCTTATCTCTAA	MSDFETGMRYVRATLGFEGLVLTEEEEKLLERRFHGEITEEEYIRKALELSYL				NA	NA	NA	NA	NA
D1-12_04098	480			hypothetical protein	ATGGATATGGGAATCAAATTATCATCAAAGGACGTCGCAAAACACCTCGGTATAGAGCCAGTAACTGTCCGCAAGTATGCCAGTATGCTTGAAGAACAAGGCTACTCCTTCAATAAAGATTCAAAAGGATGGCGACTCTATACCGAAGATGACGTAAAGACTTTAGAGTATCTATGTACAATGACTAAGATCAATGGCCACTCACTCGACGAAACGGTAAAGCATATAGCAGGCCTATATCGTTCAAAACTGACCATATCGGATACCGCTACATCGCTACAGGACAATCCTTTGGTTGAATTCATGAAGCAACAGGAAGAGTTCAACCGCCGCATGGCAGAACGGATGGAGCAATTCGAAAAGAGACAGCAAGAAAGGCACGAGACACTAACTGCCGCATTACGAGAGTCGCTGGAGACACAAAGAATGATCGCAGCCACTAAACAAAAAAAGTGGTGGCAATTTTGGAAGAACAGCTAA	MDMGIKLSSKDVAKHLGIEPVTVRKYASMLEEQGYSFNKDSKGWRLYTEDDVKTLEYLCTMTKINGHSLDETVKHIAGLYRSKLTISDTATSLQDNPLVEFMKQQEEFNRRMAERMEQFEKRQQERHETLTAALRESLETQRMIAATKQKKWWQFWKNS				NA	NA	NA	NA	NA
D1-12_04099	1452			hypothetical protein	GTGGCAAATTATGCGGTTATCAGGATGGAGAAATACAAGAAAGATAGACTGAATGGAACGCAAAAACACAATCAGCGAGAATTTCAAAAAAGCAAAAATGAAAACATTGATCGTGGCCGGTCGCATCTTAATTATGATCTTATCAACGGTCAACCGATCAGCTATGCAAACGCGGTTCGTGAAAAAATCGAGGGCAGGGTCAAACGGAAAGTGCGGGATGATGCCGTCCTGGTGAGTGAGTTTTTGATTACGGCCAGTCCTGACTACATGAACGGATTGAGCGAGACGGAGCAGCGGCGATACTTTGAAGCTGCGGCTGATCATCTGAAAGAGAAATACAGTGCGGAAAATATGCTGTATGCCACGGTACATATGGATGAAGCGACACCGCATATGCATGTCGGGATTGTGCCGATCACCGAGGACGGTCGGCTTTCTGCTAAAGATTTTTTTAACGGCAAGCTGAAGATGAAAGCCATTCAGGATGATTTTCACCGGCATATGGTGAAGAGTGGTTTTGACTTGGAGCGGGGAGAACCAAGCGAAAAGAAGCATGAAAATGTTCACCAGTACAAAATCAATCAGCGGAAAGCGGAGCTTGAGCGGCTGAACGCTGAGATCGCTTTGAAGGAAAAACGGAAAGCAGAACTGGAACAGCAGAACCGAGCAGTTGAATCAGTGGTTTCCGTCAAAAAAGAAGCGCTGACGGCTAAAACGCAAGAGCAGAGGATCCCGAACGTTGAGTATGAAAAAGCCGGTCTTTTCAAAAAAGACAAGGTGACTGTGCCGCAGCACGAACTTGAAAATTTGTATGCTTATGCGAAAGATCAAGGGAAAATGGCGGCGCAACTGTCGCGGCAACTTGAAGCGGAAACGGAAGAGAAGGAACGGTGGAAGTCCATAGCCGGCGAAGAAAGGGAGCGGGCAGATTCGAAAGATAAGATGCTCTCAGATCTGCAGGTGGTTATGAACGAGGAGGTCGAAAAAGCAAAAAGGGGGATGCGGCGGAAGCTGACTAAAGAATTTACGGAAGAGCAGCGGGAAGAACTCCGTCAGGAAGTGAAAGAAGAACTGTCTGCTCTGAAAACAGAAAACAGCGAGCTGAGAACGGAGAATAAGGATTTGAAGCGGCTTACGCTGTCTTTGAGCGAACAAAAAGACAATGAGGTCAAAAAGCACGCCGAAACGAAAAAAAGTCTTAAAGCGGAAAGAGGTAGGTATGGTGAGCTGCTTAACTTCGCCCAAGAGCAGAATAAGGAGTTTCAGGTGCTGAACAAGGAAAATAAGACGTTAAGAGAGCGGGTAGCCGTACTGGAACAGTGGAAAGACAAAATGGTGCAGTGGGCTAAAGAAAAGTTGCCAAGGGTGCGGAAATTAGCGGCATCGTTTTTCCGTACGGCTGGAATGCCTAGAGAAGCGAATAAATACAAGGACCATGAATTAGAGCGGTGA	MANYAVIRMEKYKKDRLNGTQKHNQREFQKSKNENIDRGRSHLNYDLINGQPISYANAVREKIEGRVKRKVRDDAVLVSEFLITASPDYMNGLSETEQRRYFEAAADHLKEKYSAENMLYATVHMDEATPHMHVGIVPITEDGRLSAKDFFNGKLKMKAIQDDFHRHMVKSGFDLERGEPSEKKHENVHQYKINQRKAELERLNAEIALKEKRKAELEQQNRAVESVVSVKKEALTAKTQEQRIPNVEYEKAGLFKKDKVTVPQHELENLYAYAKDQGKMAAQLSRQLEAETEEKERWKSIAGEERERADSKDKMLSDLQVVMNEEVEKAKRGMRRKLTKEFTEEQREELRQEVKEELSALKTENSELRTENKDLKRLTLSLSEQKDNEVKKHAETKKSLKAERGRYGELLNFAQEQNKEFQVLNKENKTLRERVAVLEQWKDKMVQWAKEKLPRVRKLAASFFRTAGMPREANKYKDHELER				NA	NA	NA	NA	NA
D1-12_04100	174			hypothetical protein	GTGAAATTGCTAATGAGTTTTGTGTTTGGAGCTTTAGGGGCATTATTAATGGTAAGTGTGAGAGAAAATTTTTCTTTTACCGTGACATTAATTGTTTTAGTTGTTGTTATTATCGTTGCTTTTATTCTTGATGAGGTATGGAAAAGGCATAAAAAAAAGAGAGAAGAAGATTAA	MKLLMSFVFGALGALLMVSVRENFSFTVTLIVLVVVIIVAFILDEVWKRHKKKREED				NA	NA	NA	NA	NA
D1-12_04101	552			hypothetical protein	TTGAAAGGTAGTATAAAAATTGTATTAGCTTTAGTAATGTCTTTTGTTTTGCTGATTCCTACGAACAGTATACTTGCTGCTCAACAAAATAACAATGAACAGAGTAGAGATATAACAACACCAATAGTTCAAACCACTTTTTCTCAAAATAATATTACAACTTGTTCTTCGAACCAAACTAAAGAGTCTAATCAAAATATAACTATCCAACAGATTCCTGGCGACTATTTAAATTCATGCAAAATTGTCGCTACCAAAAAGTATGATAATGTGAAATATACAGAATGGGAAAATAAAATTATTCCAGCAATTGGAGGTGGCGTAGTTGGAGTTATAGGAAACTATCTCGCTCCAGGAGCATTAAAAGCTTTTGTTTTCGGAGCAATGACAACAGTATATGTAAACTATCCTAAAAGCAAACCAGTTTATGTAACTATTCAACACAGACAATGTAAAGATTCCCTAGGTTATCATAGACAATTAATCATAAAAACCTACAAAGATAAAAAACGAAAAAATCACATTTCAACACAATACAAATGGGTTAGTTAA	MKGSIKIVLALVMSFVLLIPTNSILAAQQNNNEQSRDITTPIVQTTFSQNNITTCSSNQTKESNQNITIQQIPGDYLNSCKIVATKKYDNVKYTEWENKIIPAIGGGVVGVIGNYLAPGALKAFVFGAMTTVYVNYPKSKPVYVTIQHRQCKDSLGYHRQLIIKTYKDKKRKNHISTQYKWVS				NA	NA	NA	NA	NA
D1-12_04102	948			hypothetical protein	ATGAGAGTGAGTGAATATTTTGATTTGGGAGTAGATCAACATGAGTTAGATTTTGTTGATATTGATATGGATACTGATGTAGAACTTTTTATTGATCCTACTTGGATTCATATACAAAACGGGGAGTGGTTTGAAAGAACTTCTAGAACCTTATTTGGCTATTTTGATTACATAGTTGAATTATATGAAGAAGGAAAAAAAGAGAAAGCCAGAGAACTTTTTGGGTTTAGTCGTGAACCTAATGAAACTTGTTTTGGTGTATCGAAAGGTCAACCGGATGGTACAGGGGCTTCTGAGACAATGCTGATAGAGTTTTTTGATGAAGTAATCTCTAATGATATGATTGAAAATGGTTTAATAAGACGTTTAGAGGATCTTCATGTTTTTGTCGAAGGTTTTGGACCTGATAGGCTTTCTGATTTGGTTACGAATGTTATCAGGAAGCATTTGGTTGATTTCACTAAGAAACAGTGTCAGCAGCATGAAATTCCTTTAACTGATGATCCAGTAGAAATAGGATGGTCTTGGAATCAAGACAAAAGGGAATGGGAAATTGTACGAGATCAGGCTTTAATTGTTGATGATCGAGTGAAATTATTAGTCCCTAAAAGTATTGCAGTAAAAGTATTTCGTTATAACGCTAGTCAATATTGTAGTCATCATGTATTGGTTAGAAGACAGAAGGAGCATATAGCTAGCGGTACTTCATTGGTTCAGAAAAGGAAAGATCAAACGCTTTATGTAAATAAGAGTGATATTAGAGATTTAGAAATAACAGGGGCTAATAAAAACGAGAAAAAATATGTTGCAGAACAAACAATTCGAGATACGACTTTGATTGAGGATTTTAGAAATTCTATAGATGATGTTCTTAGAGATTCTAGTAGAACTAATCGTTTATCAAATGAAGACTTTATAGAAGTAGTCCGGAAAAGCCAAGAAAGATAA	MRVSEYFDLGVDQHELDFVDIDMDTDVELFIDPTWIHIQNGEWFERTSRTLFGYFDYIVELYEEGKKEKARELFGFSREPNETCFGVSKGQPDGTGASETMLIEFFDEVISNDMIENGLIRRLEDLHVFVEGFGPDRLSDLVTNVIRKHLVDFTKKQCQQHEIPLTDDPVEIGWSWNQDKREWEIVRDQALIVDDRVKLLVPKSIAVKVFRYNASQYCSHHVLVRRQKEHIASGTSLVQKRKDQTLYVNKSDIRDLEITGANKNEKKYVAEQTIRDTTLIEDFRNSIDDVLRDSSRTNRLSNEDFIEVVRKSQER				NA	NA	NA	NA	NA
D1-12_04103	1020			hypothetical protein	ATGTATTCATCTGAAAATGATTATAGCATCCTTGAAGACAAAACCGCAACAGGTAAAAAGCGGGATTGGAGAGGAAAAAAGAGACGGGCCAATCTTATGGCGGAGCATTATGAGGCATTGGAGAAAAGAATCGGAGCGCCTTACTATGGCAAAAAGGCTGAGCGTTTATCTGAATGTGCAGAGCATCTGTCGTTTAAAAGAGACCCGGAAACGGGCAGATTGAAACTGTATCAAGCCCATTTTTGTAAAGTGAGGTTATGCCCGATGTGTGCGTGGCGCAGGTCGTTAAAAATTGCTTACCATAACAAGCTGATCGTTGAAGAAGCGAATCGACAGTATGGTTGCGGATGGATTTTTTTGACGTTGACGGTTCGAAATGTTAATGGAGAACGCCTGAAGCCACAAATTTCTGAGATGATGGAAGGTTTTCGGAAGCTTTTCCAGTATAAAAAAGTAAAGACCTCTGTGCTTGGATTTTTCAGAGCTTTAGAGATTACTAAAAATCATGAAGAAGATACATATCATCCTCATTTCCATGTGTTGTTACCTGTGAAAAGAAATTATTTCGGTAAAAATTACATTAAGCAAGCGGAATGGACAAGCCTTTGGAAAAGGGCAATGAAGTTGGACTACACTCCGATCGTTGATATTCGAAGGGTCAAGGGAAGAGCTAAAATTGATGCCGAGCAGATAGAGAGTGATGTACGGGAAGCGATGATGGAGCAAAAAGCTGTTTTGGAGATTTCTAAGTATCCAGTGAAAGATACTGATGTTGTGCGCGGCAGCAAGGTGACGGATGATAATTTGAATACTGTGTTTTATTTGGATGATGCTCTTTCAGCCCGAAGGCTTATTGGCTATGGCGGCATCTTGAAGGAGATTCATAAAGAATTGAACCTTGGAGATGTGGAAGACGGTGATCTCGTCAAGATTGAGGAAGAGGATGACGAGGTGGCAAATGGAGCGTTTGAGGTTATGGCTTATTGGCATCCAGGAATTAAAAATTACATAATCAAATAA	MYSSENDYSILEDKTATGKKRDWRGKKRRANLMAEHYEALEKRIGAPYYGKKAERLSECAEHLSFKRDPETGRLKLYQAHFCKVRLCPMCAWRRSLKIAYHNKLIVEEANRQYGCGWIFLTLTVRNVNGERLKPQISEMMEGFRKLFQYKKVKTSVLGFFRALEITKNHEEDTYHPHFHVLLPVKRNYFGKNYIKQAEWTSLWKRAMKLDYTPIVDIRRVKGRAKIDAEQIESDVREAMMEQKAVLEISKYPVKDTDVVRGSKVTDDNLNTVFYLDDALSARRLIGYGGILKEIHKELNLGDVEDGDLVKIEEEDDEVANGAFEVMAYWHPGIKNYIIK				NA	NA	NA	NA	NA
D1-12_04104	1176			hypothetical protein	ATGCCAAGAGAACTGATAAACGCAAAAATCACACATGTTTCTTATGTAGACAAGGCTGCTAATCAAAAGCAGTTCTTTTTTATGAAATCAGAAAAACAGCCGGACTTTCAAAAGGAAGTCAAGGTCCTTGCAAAAGAAGCAGACGAGCAAAAACTCGTTTACGGTATCGTTTATGAACCGGACACAGTGGATGCTCACGGGGATTTCATGACAGCTGCAGAAATTGAGAAGGCCGCTCACGGCTTCCTGAAAGATGCTCGTGAAATTGACAAGCAACATGACTTTCAGGGCGGCGTTGGTGAAGTGGTTGAATCTTATGTCGCTCCTGCTGATTTTGAAATGAATGGTGAAACCATCAAAAAAGGATCTTGGGTCCTTGTGACAAAAGCCTCCGAGGAAGTATGGGAGGAAATTAAGAAAGGCGAGATTACCGGTTATTCAATGGCCGGCATCGCGGATATCGCAAAACAAGAAGAAAAGCCTGTTTCTCCAGAGGACAACCACGAGAAAGGGCTTTTTAATTTGGTCAAAAACTTTTTTAATGCCAGTGTGGCCAAGGGCGCGGTTCGGGACAAATATGACGAGGGGCGCCAACGCCGTGAGTTTTGGGCCGCACAAGATGCGTTAAACTCAGCTTTATTCAAATGGGACTATCCCGGAGAGATGGAAAATGACCCTGCAAAAATCAAAGAAGCTCTGCAAGACTTCGTGGATATCGCTCAGGATGTATTGATTTCCGATGACATTCTAAAAGCGATCGGGCCGAAGCCGGAAGAGCTGCAAAAGGCCGGACGGAAATTCTCGGCTTCAAGCTTACAAGAAATTAAAAGCGCTCATACCGCTCTCGGCAACTTGCTGAGTCAGGTGGAGACGGAAGGAGAGGAAGAAGAAATGAACGCAGAGGATGTAGCAAAATCCATCGAAGCAGCGTTAGAGCCAATTCAGAAGCGGCTCACGGAATTGGAAAAAGAGGAAGATCCTAAAAAGAAGAAAGACGAGGAAAAAGCAGCTGAGGAAGAAGAGGCTGAGAAGTTTAAAAAAGCCATCACAGACGCTGTTCAACCGCTCGCTGATCGTATTGATGCCATTGAAAAAAGCCGCGGCGTTTCAAAACAAGAAGAGACCACGCAGGAAACCGCAGATGTTAAAAAATCAATCTGGGCCGGCCTTCTTTAA	MPRELINAKITHVSYVDKAANQKQFFFMKSEKQPDFQKEVKVLAKEADEQKLVYGIVYEPDTVDAHGDFMTAAEIEKAAHGFLKDAREIDKQHDFQGGVGEVVESYVAPADFEMNGETIKKGSWVLVTKASEEVWEEIKKGEITGYSMAGIADIAKQEEKPVSPEDNHEKGLFNLVKNFFNASVAKGAVRDKYDEGRQRREFWAAQDALNSALFKWDYPGEMENDPAKIKEALQDFVDIAQDVLISDDILKAIGPKPEELQKAGRKFSASSLQEIKSAHTALGNLLSQVETEGEEEEMNAEDVAKSIEAALEPIQKRLTELEKEEDPKKKKDEEKAAEEEEAEKFKKAITDAVQPLADRIDAIEKSRGVSKQEETTQETADVKKSIWAGLL				NA	NA	NA	NA	NA
D1-12_04105	744			hypothetical protein	ATGGATAATCAATGGATGATGCTAACAGTAAGTATTTTAAAAGAAGGATCCAAAGCTTTATATGAATTGCTTAAAATGATTCTAACCTCTTGGCCCTTGGCGATTGTTTTAATTGTGCTATTACTTAAAAAAAGTTTAAATGAGTTATTATTAAATAGGCTAATTACACTTCGAGTAGGCGGTGTTGAATTAGAAATAGCAAAACTTTTTGAGAGCATTGATAAAAACTTAGAGGAAACAAATGAAGTTCTTAAGAATGACGATGAGTCTTCAGAACAAATAAAAGTTGAGTCTTCAGAACAATTAAAACCTGAAGAAAAACCTGAAGAAAAAACAGAAACAAGTAATAAAACAAAAACACTTAAATTTCAGGGACGTTTTAAAAACAAAGCTGAGAAGGTGAGAATTAAATCTCTAAAAAATCCTGCATATGGTATGAGATATGTATATGATTTGTTTATTAAAGAACTCAATAGTATTCAAAAAGAATTAGGTCAACCCAATGAATATCCGGAAGTTTCATATTTTGTTATTTCTTTATATAACAATAACTTGGTAAAAGATAATCTGGTTGAAGCTATAATGGACCTGCTTGCTTTAGGTGAAATAGCGATGGGGAATCAAAATTACTTATCTCTTAAGCATTCGATAAATGATTTTACTATGAGAGATGCACAAGATTATTTTAGCAAATGCAGTCAATCACTTATACAATTAAGATTACAATTAAAATTATTAGAATAA	MDNQWMMLTVSILKEGSKALYELLKMILTSWPLAIVLIVLLLKKSLNELLLNRLITLRVGGVELEIAKLFESIDKNLEETNEVLKNDDESSEQIKVESSEQLKPEEKPEEKTETSNKTKTLKFQGRFKNKAEKVRIKSLKNPAYGMRYVYDLFIKELNSIQKELGQPNEYPEVSYFVISLYNNNLVKDNLVEAIMDLLALGEIAMGNQNYLSLKHSINDFTMRDAQDYFSKCSQSLIQLRLQLKLLE				NA	NA	NA	NA	NA
D1-12_04106	918			hypothetical protein	ATGAACAAAACCGATAAGCTGCTGGCCAGTATTAACTCATTTATTCAAAAAGCCGAGGAAAGCGAAGGCCAGAAGCTTGTGGAGACGATTCCTGACTTCCCCGGCCTCTCTAAGATACCCCGTTACGTAGAAGATTATGAAAAAGGTATCGCCAGATTGCTCAGGAGCCAGCGTAAGAGGTTTTTAAAGGGATTGAATGGTTTTGTAAGCAAAGCTGATTCAGAGACGTTACAAGAGCTTCTGGTGTTTTTTACGCAGAACCTTTTTGCAGAGGATGATTTTCAGGAGGAGTTCCAGGAACTGACCGAGGATTTTCTGCAGCAGACACTTGAAGAGCTGGCCGCTGTCATAATGGATTCAATCGATCCTGAAGTTCCGTTCAAGGTTCTTTCTGCCCGCTCGATCGACTGGATTAAGGATTGGTCAAAGAGGCTGGCCGAGATTATGCAGCTCAACACACATGAGGCAGTGGAAACAGTGCTAACGGAAGCCATTGACTCAAGCTCATCTATTCAGGAGGTTGAACTGACTTTGAAGGATATGCCGCATTTTGATAGACCGAGAGCCCGGACAACGGCCATAACCGAGGTTCTTGCGGCTTCCTCTGCCGCTCAGCATGAATCTTATGTGCAGTCCCCGGCTGTATCTAAGAAGAAATGGCGGCACAGCGGAGGGAAGAAGAACAATCCGCGTGAGAATCATATAGACCTCGACGGCACAATTGTTGGTGTTGACGAAGAATTCAGGATACCAGGAAGCAGCGAAACCTGTATGTATCCGCGAGACACGAAGCTTTCCGCCGCTGAGCGGGTTCATTGTCACTGCGTTCTGTCACCTGTGGTAGATAACGAGATTTTAAGATTGTCAGCTGAGGAAAAAGAAGAGATTCGAAGAGAAGCCTTAGCAAACATGGAATAA	MNKTDKLLASINSFIQKAEESEGQKLVETIPDFPGLSKIPRYVEDYEKGIARLLRSQRKRFLKGLNGFVSKADSETLQELLVFFTQNLFAEDDFQEEFQELTEDFLQQTLEELAAVIMDSIDPEVPFKVLSARSIDWIKDWSKRLAEIMQLNTHEAVETVLTEAIDSSSSIQEVELTLKDMPHFDRPRARTTAITEVLAASSAAQHESYVQSPAVSKKKWRHSGGKKNNPRENHIDLDGTIVGVDEEFRIPGSSETCMYPRDTKLSAAERVHCHCVLSPVVDNEILRLSAEEKEEIRREALANME				NA	NA	NA	NA	NA
D1-12_04107	768			hypothetical protein	ATGTACTTTAAACAAGGCCGGCATATTCCCGCTGCTATTACGATCGAGAACGGAATGCTCTCGGAGGATTCGTATAAACAGTTGCAGGACTATATGAACGGCCTTGAAGGCGTGGAAAACTCACATAAATTTCTTTTGCTCGAAGCGGAAGGGATAGCTAAAGGGAAGAATATTCATGGTGATGAAGAAATAGTACCGGTCAAAGTAGACATCAAGTCACTTGCCGAGATTCTTCAGGAAGATGCTTTGTTCCTGAAGTATGATCAAAAGAGCCGGGATAAAATCCGCTCGGCGTTCCGTCTACCGCCAATTTATACCGGGGAAGCGCAGGATTACAACAGGGCGACAGCTGACACAGCCAGAAAGATTACTGAAGAGCAAGTCTTTCAGCCGGAACGGAAGGTACTTACCGGCAGACTGAACGCGTTATTTTTAAATGATCTTGAAATCCATAAAGTAGAGCTGCAGTTGAAAGGCCCGGACTTTCAGGACCCGCTCGAAATGGCAAAAGTGCTGACTCCTTTCATTACGGCTGGGGCTGTATCGCCTAACGATCTGAGAGATCTGGCCGGACGCGTGCTCGGCAAAACGCTTGAGGAATGGCCGGAGGAAGAATACAATCGGCCAATTGGTAGCAATGAAGCAACGCCTGCAGCGGATCCATTTACAGCACTGTTTAAATCCCAGAGCGGCACTCCAGATGTGATCGGGCTGTTGAAAGATATGCGGGATGTTTTGGAGGATTTGAAGAATGAACAAAACCGATAA	MYFKQGRHIPAAITIENGMLSEDSYKQLQDYMNGLEGVENSHKFLLLEAEGIAKGKNIHGDEEIVPVKVDIKSLAEILQEDALFLKYDQKSRDKIRSAFRLPPIYTGEAQDYNRATADTARKITEEQVFQPERKVLTGRLNALFLNDLEIHKVELQLKGPDFQDPLEMAKVLTPFITAGAVSPNDLRDLAGRVLGKTLEEWPEEEYNRPIGSNEATPAADPFTALFKSQSGTPDVIGLLKDMRDVLEDLKNEQNR				NA	NA	NA	NA	NA
D1-12_04110	330			hypothetical protein	ATGAGAGTTTTTGAAGCAGATACTCTTCTTTCCGCCGCAAAGCAACGCGCAACCGAATACAAAGAATTGCGCAGACAAATGACGAATCTAAAAAAAGCATTACAAGGCATGGCTGACCTCAGCGACAATGATTTTTCGGGCAAAGGCGCTGATAACATCAAAGCTTTATTTCAAGATCATGCAGGCATCACCAATGAATGGCTTGAATTGACCGACATGAAAACCTCTTTTCTAACAGTGATTTCCATCACCTTATACCTTTTCTCTTTATTTTGTGCCAGGTATTCTTTTGTTAATTGCCAGTATTATGATGATCGCAAAACAAAATAA	MRVFEADTLLSAAKQRATEYKELRRQMTNLKKALQGMADLSDNDFSGKGADNIKALFQDHAGITNEWLELTDMKTSFLTVISITLYLFSLFCARYSFVNCQYYDDRKTK	PGPT0027650_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YqcG-YqcF_TOXIN-ANTITOXIN_SYSTEM,PGPT0027650-toxin_yqcG-K21491	NA	NA
D1-12_04111	1125			hypothetical protein	ATGAAAAAAGTAGTGTTGACTTCTTTATTTTGCTGTCTGTTACCTTTACTGTTTTTGTCGAATCATGTATTTGCCGCAACTTCTGAAAATGAAGAAAAAGGTAAAACGTATGTATCGAATGATGTTGGTTTGAAAGAGCTTAATACAATGTTAGAACAACAAAAAAGAGATTTTGAAAACAATGAGCCACTTGCTCATAAAGATGTTTCAAAATTAACTGATTCTGATGAAGCTGTTTTATTGTTTTATGCTTTCACCACAGTTGACAAACAAAAGCTGCATGAATTCACATATGAAATTAGTGATGTCACTACTTATGAAGAAAACAATAAAACATTTGTAGAGGCCTATATTGCTAGAAACTTTGTTTTTGGTGAAGAAAAAGTAGATACAGGATTAGGAGACAATATTAAATTGGAAATTTCTAATAATAATGTTTCCAAGAAACACAGTCTTTCATCAGAAAGCAAAGTGACACCTAAGACAAAAAAATCTTCTGCGCTTCATTTTGAGAATGAAGGTGACAATTCGTCAAATATAAAATTGGACGAGTTTCTAAAGAATTACAAGCAAGAAGTTGAAGAAAATAAAGAACTGTCAACGCAACAAAAATCTGAACCAGCAAAGTTCAACGAGTCGGAAGTATCTGCATCAGCTGTAAAAGGGTATAATCGTTGGAAAGCCATGCAATATGCTGACAAATATGCTTTGTCTCCAAATAAAAATTATAAATATTATAAAAATGGAGACTGTACTAACTTTGTATCTCAGGCTTTAAGAGCGGGTTCAATGCCTTATTTTAAAGAGTGGAAGCCTTATACAAATGCATGGATCAATGCCGGTTCTTTTAGAAACTATATTTTAAAAGCTGGCGGCATAAAAATGAAAACTGTAAAAGACGTTTATTCGAACATTGCGCTTGGTGATGTATATCATTATGATACTCGGAATAAAGTAGGTCTTCCTTTTCCTGATGGTTGGATGGAGCACACCGCTATTGTTACTAGTCGAGCTAATTATAAGATTCTTGTGAGTTACCATACTACCAATAGACACAATGTTCCTAGAGAGTATTACACTTCCAAAGAGGGTGGAAAACGTTACGCAAGTAGCATCCGTATGTAA	MKKVVLTSLFCCLLPLLFLSNHVFAATSENEEKGKTYVSNDVGLKELNTMLEQQKRDFENNEPLAHKDVSKLTDSDEAVLLFYAFTTVDKQKLHEFTYEISDVTTYEENNKTFVEAYIARNFVFGEEKVDTGLGDNIKLEISNNNVSKKHSLSSESKVTPKTKKSSALHFENEGDNSSNIKLDEFLKNYKQEVEENKELSTQQKSEPAKFNESEVSASAVKGYNRWKAMQYADKYALSPNKNYKYYKNGDCTNFVSQALRAGSMPYFKEWKPYTNAWINAGSFRNYILKAGGIKMKTVKDVYSNIALGDVYHYDTRNKVGLPFPDGWMEHTAIVTSRANYKILVSYHTTNRHNVPREYYTSKEGGKRYASSIRM				NA	NA	NA	NA	NA
D1-12_04112	324			hypothetical protein	ATGAAAAAAATAACCAAAATATTTCTTTCCATTTTAGCAACAGTATTAATCATATTAATTTTAATGCCTCCCCTTTCACCAGTTTTGTTCAATACTTCTTCAGAAAGAGGAGCCATAAGACACGAAATCTATAAAATGGGATACCCTTATCAAAGCTATTTCACAATCCTTCAAAAAAGGGAAAGTGATAAATCATCAGGAAGTCTTTATTCTTTGATGTTATTTAATGCTTGGAAAAGTGAAACTGGTCAAACTCCTTATCTCTGTTATTCAAAGCAAGTAACGGAGGACGAATACAAAGTCGATTGCGGAACAGCACCTTAA	MKKITKIFLSILATVLIILILMPPLSPVLFNTSSERGAIRHEIYKMGYPYQSYFTILQKRESDKSSGSLYSLMLFNAWKSETGQTPYLCYSKQVTEDEYKVDCGTAP				NA	NA	NA	NA	NA
D1-12_04113	945			hypothetical protein	ATGACAATTGCAGTCAAAAAAAGAATGGTAGAATCTGAGAAATATGCTCTGAAATGTCCGAATCCGATGACGCCGGAGTACATCACCATTCATAATACGGCAAACGATGCATCAGCCGCCAATGAAATCAGTTATATGACTGGTAACACTGAATCGACAAGCTATCATTTTGCTGTCGATGATATAGAAGTGATTCAGGGAATTCCGCTGAACCGGAACGCATGGCACTCTGGCGACGGTACAAATGGGATCGGGAACCGTAAGTCTATCGGTGTGGAAATCTGCTACAGTAAGTCAGGTGGCGCACGATACCGGGCAGCAGAGGCGCTGGCTATCAAGTTTGTAGCGCAACTTCTTAAAGAGCGCGGATGGGGCGTTGACAAAATCAGAAAGCATCAGGACTGGAACGGAAAATACTGCCCGCACCGCATTTTATCTGAGGGACGCTGGGACCAAGTGAAGGCGGCCATTGCTGCAGAATTAGAACGTCTTGGGGGTAAAAAAGCACCCAAACCACCAAAAACAGAAACCAAGACAGGCGGGACGACGTACATCGTCAAGAAGGGCGATGCCCTTTCTGTCATTGCACAGAAAACAGGCATAAGCATGGCAAACCTTCAGAAATGGAATAACATCAAAGACCCGAATAAAATCACAGTTGGCCAAGTGCTGAAGCTTACAGGATCATCCGGCTCTTCTAAGCCGTCATCCAGCGGTAAAAAATACGTTTACCTTCCGGCTTCTGCCGATTCATGGCGCATCTATCCGACTAACAAAGCTCCGGCTAAAGGGAACGAAATAAACTATTTGCGTCCAAAAAAATTTGGCGGACTTAAATACGATATTCTTGCGAACCCGCAAAAGGATGTCTACACGATCAAGACAGCTCAGTTCGGAAAGGTAAATATCTATGCTGCGAAGTCCACAGGCGCAACTGTAAAATAA	MTIAVKKRMVESEKYALKCPNPMTPEYITIHNTANDASAANEISYMTGNTESTSYHFAVDDIEVIQGIPLNRNAWHSGDGTNGIGNRKSIGVEICYSKSGGARYRAAEALAIKFVAQLLKERGWGVDKIRKHQDWNGKYCPHRILSEGRWDQVKAAIAAELERLGGKKAPKPPKTETKTGGTTYIVKKGDALSVIAQKTGISMANLQKWNNIKDPNKITVGQVLKLTGSSGSSKPSSSGKKYVYLPASADSWRIYPTNKAPAKGNEINYLRPKKFGGLKYDILANPQKDVYTIKTAQFGKVNIYAAKSTGATVK	PGPT0019115_720	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
D1-12_04114	264			hypothetical protein	ATGAAAAGATTTGAAAAAGGCACGGTCGTCCGGACGGTGCTTCTTTTAATTGCGCTTATTAACCAAACAATGTTGATGTTTGGCAAATCACCTTTGGATATCACAGATGCACAAGTGAATCAGCTTGCTGATGCGCTGTATACTGCCGGCTCTGTAATATTTACTATCAGCACTACGCTTGTAGCATGGTTCAAAAACAACTATGTGACTGAAAAAGGCCATAAGCAAAGAGCCGTTTTAAAACAGCACGATTTGACCAAGTAA	MKRFEKGTVVRTVLLLIALINQTMLMFGKSPLDITDAQVNQLADALYTAGSVIFTISTTLVAWFKNNYVTEKGHKQRAVLKQHDLTK				NA	NA	NA	NA	NA
D1-12_04115	180			hypothetical protein	ATGAATAGTATTAGGTACATATTGTATTTTGTGATTTCTTTCGTTTTACAACTTCTCTGGTTCTTCTTAGTAAAAGAAAATTCTAATGTAACTATACTAGACATGTTGATTATGTCTCTGTTATTCACATTATTTATGTTCATCTTAGATAAATTTCTCAAAAAAAAGCAGGCTGCATAA	MNSIRYILYFVISFVLQLLWFFLVKENSNVTILDMLIMSLLFTLFMFILDKFLKKKQAA				NA	NA	NA	NA	NA
D1-12_04116	534			hypothetical protein	TTGGGTACTTTAAAGAAAAATTGGAAGTCTGTTGTTGCTTTGCTTTGTGCTTTAGCTGTATCTCTAGCGGTATTTACGCCTTTTGCAAATGCTAAAACTTTATCTGAAGAGGATCAATTAGCACAAGATATGCAGTTCATTTTTGATGAAGCATCCCTTCTTAAAGATGGGAAGTACATCGTGAATGAGCAATTAGTCTCTGAAAAATTCGGTCCTGAGAACGTTGCGTCTATTGTTGCCTTTGTTAAAATGGTTAATGGGGATAAACTTACTGAAGAAGATTTAAAAGGTGTTCCGAACCCAGACGGTGACTTCTCAACAGCATCTTATATGGGTTGCTTAAAACAAAAAATCATCGACTTCACTGGGATTGGCTTTATTTCCGGAGGCCTGCAAAAATTACTTGAAAAAAAAATGTGGAAAGAAGCGGCTATTCAAATCATAAAAATTGTAGGGAAAAATGCAGTTAGAGGTGGAGTTGTTGGTTTAGCCGCGAGTCTCGCGTGGTTCAGTGTACGCTGTATAGGACAATAA	MGTLKKNWKSVVALLCALAVSLAVFTPFANAKTLSEEDQLAQDMQFIFDEASLLKDGKYIVNEQLVSEKFGPENVASIVAFVKMVNGDKLTEEDLKGVPNPDGDFSTASYMGCLKQKIIDFTGIGFISGGLQKLLEKKMWKEAAIQIIKIVGKNAVRGGVVGLAASLAWFSVRCIGQ				NA	NA	NA	NA	NA
D1-12_04117	1155			hypothetical protein	ATGTCAGCATACAGAAACCAATATATTGATATTAATAAATGGACGCGGCCGGGAATCAAAAATAACGGCGTGAAGAAACTGGTGGTGCATTACACGGCAAACCCCGGCGCGCCCGCTGCCAATCATTATAGATACTTTGGTCAAACGCTCCCCGCACAGAACAGAAATCTGTCTGAGAAGAAACAGACGTTTGCATCTGCACATATCTTTGTCGATCGTACAGAGGCTATTTGTATCATTCCGTTGAATGAGGTGGCCTATCATGCGAATGACGTTCAGCAATTCGTCAACGGGCAGCCTTACCGAGGTGTCGCGGCGCTGAAGCCGAATGCGAATTTCTTATCTATCGGCGTGGAGCTTTGCATTGAAAAGAACGGCACTTTCCATCCGGATACCATTGCTCGTGCAGAACAAGTTTGTGCCGAGCTGTGCAAAATGTATAAACTCGATCCAATCAGTGACATTGTTCGACATTACGACATTACACATAAAATCTGCCCGGAGCCGTGGGTAAGCAACTCTAAAGGGTTTGCCGATTTTAAGACCCGTGTTGAAAAGCGAATGGATGGTGTGGTTGTAACGGCGCCTGTATCAAATCCGGATGTCACCCATACAGACACAGGAAGATTCATCAAAAACACGGTGGTTTCAAGCGATGGCCTTGTTTTACGTACACAACGGAGCGCCTCTTCTTCCATGGTGCTTAACCTGCCGAATGGCACGGTTGTAAAATATCAGCTTGGATCAACTGTCAACGGATGGGGATATGTTGAATACACCAATTCAAAAGGCCAGACATTCCACGGATATGTGAATGTCTCCTATATCAAAAGCGATAATGAGCTGAAAAGCGGCGGCAAGAAGAAAGTAACAGCCTCAAAGCCAAAAAAACAAAAATCAAAATTCAGCCTACCTGCTGGCATTTTTAAAGTGACAAGCCCCTTAACAAAGGGACCCGCCGTGAAACAGATTCAGACAGCACTGGCGGCTCTCTATTACTATCCGGACAAAGGGGCGAAGAATAACGGAATAGATGGTGCATACGGACCGAAGACAGCAAATGCAGTCAAACGGTTCCAGTCCATGTATGGATTGACTGCGGATGGTATTTACGGACCGAATACGAAAACGAAGCTTGAGTCCCTTCTTAAATAA	MSAYRNQYIDINKWTRPGIKNNGVKKLVVHYTANPGAPAANHYRYFGQTLPAQNRNLSEKKQTFASAHIFVDRTEAICIIPLNEVAYHANDVQQFVNGQPYRGVAALKPNANFLSIGVELCIEKNGTFHPDTIARAEQVCAELCKMYKLDPISDIVRHYDITHKICPEPWVSNSKGFADFKTRVEKRMDGVVVTAPVSNPDVTHTDTGRFIKNTVVSSDGLVLRTQRSASSSMVLNLPNGTVVKYQLGSTVNGWGYVEYTNSKGQTFHGYVNVSYIKSDNELKSGGKKKVTASKPKKQKSKFSLPAGIFKVTSPLTKGPAVKQIQTALAALYYYPDKGAKNNGIDGAYGPKTANAVKRFQSMYGLTADGIYGPNTKTKLESLLK	PGPT0019115_300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019115-xlyAB-K01447	NA	NA
D1-12_04118	264			hypothetical protein	ATGAAAAAATTTGAAAAAGGCACGGTCGTCCGGACGGTGCTTCTTTTAATTGCGCTTATTAACCAAACAATGTTGATGTTTGGCAAATCACCTTTGGATATCACAGACGCACAAGTGAATCAGCTTGCTGATGCGCTGTACACTGCCGGCTCTGTAATATTTACTATCAGCACTACGCTTGTAGCATGGTTCAAAAACAACTATGTGACTGAAAAAGGCCAAAAGCAAAGAGCCGTTTTAAAACAGCACGATTTGACCAAGTAA	MKKFEKGTVVRTVLLLIALINQTMLMFGKSPLDITDAQVNQLADALYTAGSVIFTISTTLVAWFKNNYVTEKGQKQRAVLKQHDLTK				NA	NA	NA	NA	NA
D1-12_04119	609			hypothetical protein	ATGAGCCTGCTTTTTCAGGCTTTTCTTTTAAACAAAAAAACCGAACATAGGTTTGTAGTTACTGCAGGAGGATTTATTTTGTTTCAACTATCATTACTTGAAGAAAGAATTAGATCTATTTATTCCGGTATAGGAATTACTGAGCCAGGAGCTGGAGACTTAGAAAAAATCGCAGATCGATTAAAGATATTAATTTACTACAAAAATGAAAAGAGTGTAGCTGTGAAATTACTGGGGATGGCTTGTATTATCCTTGATTCCCGTATTTCTAAAAAGAAGCAATGGGAAGATTTTTGCCATGAACTCTGCCATCACATTAATCATGTCGGTGTTCAATACAAGATCCCATCCCTATTTAGAGAGCTGCAGGAGAATCAGGCAAATGCTTTTATGTATCACTTCGCAGTTCCCACTTTTATGTTAAAGAATCTCGTTTTACCGGCCACCAAACGTGAGGCAATAACCTACATATCCAACTTATTTCAAGTTACGTATCCATTCGCAGAGACACGCCTGGATATGTATCTTCGTAAGCTATTCAGTTTTAAATATCATGCTTTCCTAACTCAAAAATTAGAAAAGGAGAAGTTTGTCTATGCCGAGTATTGA	MSLLFQAFLLNKKTEHRFVVTAGGFILFQLSLLEERIRSIYSGIGITEPGAGDLEKIADRLKILIYYKNEKSVAVKLLGMACIILDSRISKKKQWEDFCHELCHHINHVGVQYKIPSLFRELQENQANAFMYHFAVPTFMLKNLVLPATKREAITYISNLFQVTYPFAETRLDMYLRKLFSFKYHAFLTQKLEKEKFVYAEY				NA	NA	NA	NA	NA
D1-12_04120	1215	xerC_4		Tyrosine recombinase XerC	ATGCCGAGTATTGAGAAAAGAGGAGAAAAATCGTACCGTCTCATTGTTGAGGTAGGGACTAAAGGAAAAAGAAAAAAAGAAAAAAAGTCTATTAGGATTGAAGATGAAAAATTATTAAAATCACCAAAAAAACTTAGGACTTTTTTAGAAAGTGAATGGTATAAATTCAAGGCTGAAATTGAAGCCGGCACTTATATAAAGCCCCAAAAAAGAACATTCAATATGTTTGTAGATGACTGGGAAAACAAATATGCAATGAGTCACCTCGACGGGAAAACAATTGAAACCTATAACTATATAATGAGTAAAGAAATTAGGCCATGGTTTGGTGATATGCATTTAGAAGATATTCAGCCAATCCATATTCTGAATTTTTTAGATGACTACAAAAAGAGTAATGAAAAAATCTCATCTTCAAGTATTCATGCCCGTTATCGAATTATTAGAGACATATTGGGAAGAGCTGCTGAGTGGAAGATAATTGGTGAAAATCCGGCTTTAAATGTTAAGCGGCCAAAACAAGAATATAAAGAATATGAAATATATACAGAAGAAGAAATCAATCATATTTTTCATCTGCTCGATGAATATGCTCCTCTGAGAAATCGGGTGTTTATCAAATTTGCAATTACTGGAGGGTTTCGTAGAGGCGAGTTATTAGCCATAGATGAATCTGACTTATTCTTTGACACGAATCAGGTTAGAATTGATGAGTCTTTGCAATATACAAAGAAACACGGATACAGATTTAAGGCTCCGAAAAATAAGTCATCTAGGACGATTACATTGCCGGCCTCTGTTATGCAGGAAGCTTATATTTTATTAAAGGAGATAAAGAAAAACAGACTTCTATTAGGTGAGCTGTGGGTTGGATGGAAAGAAGACAAAAATAAACTCATGTTGTTTGGAGCGGATAACGGTAAGCCACAGTATCCCACATCTCCAAATACCTGGTGGCAGAAATTCACTAAAAGACATAACATAAAGCCGGGACGGCTGCATGACTTGCGACATACACATGCAACCATGTTAGTTAACCAGCTTGGTACAGTACCTGGTTTAAATATAAAAGATATCTCTGAGAGACTTGGTCATTCAAATATACAAACAACCTTAAACACATATACTCACAGTAACAGACAGGCAGATGCATTGGTGGCAGATGCTATTGGAAATATGATTTACTCAGAGAATATAAAAACTGGGACAAGTTAA	MPSIEKRGEKSYRLIVEVGTKGKRKKEKKSIRIEDEKLLKSPKKLRTFLESEWYKFKAEIEAGTYIKPQKRTFNMFVDDWENKYAMSHLDGKTIETYNYIMSKEIRPWFGDMHLEDIQPIHILNFLDDYKKSNEKISSSSIHARYRIIRDILGRAAEWKIIGENPALNVKRPKQEYKEYEIYTEEEINHIFHLLDEYAPLRNRVFIKFAITGGFRRGELLAIDESDLFFDTNQVRIDESLQYTKKHGYRFKAPKNKSSRTITLPASVMQEAYILLKEIKKNRLLLGELWVGWKEDKNKLMLFGADNGKPQYPTSPNTWWQKFTKRHNIKPGRLHDLRHTHATMLVNQLGTVPGLNIKDISERLGHSNIQTTLNTYTHSNRQADALVADAIGNMIYSENIKTGTS	PGPT0021996_561	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
D1-12_04121	531			hypothetical protein	TTGTTTCAACTATCATTACTTGAAGAAAGAATTAGATCTATTTATTCCGGTATAGGAATTACTGAGCCAGGAACTGGAGACTTAGAAAAAATCGCAGAACGATTAAAGATATTAATTTACTACAAAAATGAAAAGAGTGTAGCTGTGAAATTACTGGGGATGGCTTGTATTATCCTTGATTCACGTATGTCTAAAAAGAAGCAATGGGAAGATTTTTGCCATGAACTCTGCCATCACATTAATCATGTCGGTGTTCAATACAAGATCCCATCCCTATTTAGGGAGCTGCAGGAGAATCAGGCAAATGCTTTTATGTATCACTTCGCTGTTCCCACTTTTATGTTGAGGAATCTCGTTTTACCGGCTTCCAAACGAGAGGCAATAGCCTACATATCCAACTTATTTCAAGTTACGTATCCATTCGCAGAGATACGCCTAGATATGTATCTCCGCAAGCTATTTAGTTTTAAATATCATGCTTTCCTAACTCAAAAATATACGGAGGAGGAGATCTTATATGCCAACTATTGA	MFQLSLLEERIRSIYSGIGITEPGTGDLEKIAERLKILIYYKNEKSVAVKLLGMACIILDSRMSKKKQWEDFCHELCHHINHVGVQYKIPSLFRELQENQANAFMYHFAVPTFMLRNLVLPASKREAIAYISNLFQVTYPFAEIRLDMYLRKLFSFKYHAFLTQKYTEEEILYANY				NA	NA	NA	NA	NA
D1-12_04122	1179		COG0582	Putative prophage phiRv2 integrase	ATGCCAACTATTGAAAAAAGAAATGATAAATCTTTCCGTTTAGTCGTTGATATTGGCACTAAGAGCAAACGTAAACGGAAAGTAAAAACTATAAAAATAGATGATCCAGCCTTATTGAAAACTAAAAAGAAGCTTCGCCAATATCTTGAGAGCGAATGGTATAAATTCAAAACAGAAATTGAAGCCGGCGCATATATAACACCTGGAAAAAGAACTTTTAGGATGTTTATAAAAGACTGGGAGAAAAAATATGCCCTTCAACATTTAGATGATCAGACGATTGAAACTTATGAATATATTATGGGAAAAGAAATTTTGCCATACTTTGGTGATATGTACTTAGATGAGATTAAACCAATTCATATTCTAAATTTCTTAGATGAATACCAAGAAGAAAATAACGTTTCAACATCAAGTGTTCACGCTAGATATCGGATCATAAGAGATATATTAGGAAGAGCTGCAGAATGGCATATCATAGATGAGAATCCAGCTCAAAGTGTTAAACGTCCAAAACAGAAATATAAAGAGTATGACATTTATACTGAAGAAGAAATCAAGGAGATCTTCCATTTACTCGATGAGCATGCACCGCTGAGAAACAGGGTTATGATTAAGTTCGCCTTTACCGGTGGTTTTCGGAAAGGTGAACTGTTAGCCATTGATGAATCGGATTTGTTCTTTGACACAAACGAAGTTAGAATTGATGAGTCATTACAATATACGAAAAAGAATGGATACAGATTTAAAGAACCCAAAAGTAACTCATTCCGTAAAATCACAATGCCTGCAGATGTAATGAAAGAAGCAGCGATTTTATTACGGGAAATAAAGAGAAATCGGTTGATGTTAGGGGAACTCTGGCAAGGGACAGAAAAACTTTTATTGTTTGGGGGAGACTTAGGGAAACCCCAATACCCAACATCACCTAATACCTATTGGCAAAGGTTTGTTCAAAGACATAAAATTAAGCCTGGCCGGCTACATGACATGCGTCATTCCCATGCGACCATGCTGATAAATCAAATTGGAAAAGTGCCGGGATTAAACATCAAAGCAATTTCTCAACGTCTGGGTCACGCAAATGTACAGACTACATTGAATGTCTATACTCATGCCGGCCAAGAATCGGATACGCTAGTGGCAGACGCAATCAACAAATTATTAAGAACATCTTAA	MPTIEKRNDKSFRLVVDIGTKSKRKRKVKTIKIDDPALLKTKKKLRQYLESEWYKFKTEIEAGAYITPGKRTFRMFIKDWEKKYALQHLDDQTIETYEYIMGKEILPYFGDMYLDEIKPIHILNFLDEYQEENNVSTSSVHARYRIIRDILGRAAEWHIIDENPAQSVKRPKQKYKEYDIYTEEEIKEIFHLLDEHAPLRNRVMIKFAFTGGFRKGELLAIDESDLFFDTNEVRIDESLQYTKKNGYRFKEPKSNSFRKITMPADVMKEAAILLREIKRNRLMLGELWQGTEKLLLFGGDLGKPQYPTSPNTYWQRFVQRHKIKPGRLHDMRHSHATMLINQIGKVPGLNIKAISQRLGHANVQTTLNVYTHAGQESDTLVADAINKLLRTS				NA	NA	NA	NA	NA
D1-12_04151	333			hypothetical protein	ATGGGGACAAGAGTGAGTTATCCGGTTGAAGTGAAACAGAAGGCTGTAGAAATGAGATTGGCAGGCGTGCCTATGAAAGAGATCATGCAGGAATTGAATATTAAGAATAAGACACAGGTTCAGACATGGGTTAGATGGCATAAGACTGGGGATACACATCGATTCGAACAGCCTGTCGGAAAGCAATACACTTACGGAAAAGGCCCGGAGTATTCTTCCGAATTAGAGAAACTGCAGGCAGAAAATCGTTATCTGAGACAACAGAATGAAGTTTTAAAAAAGTACAACGAATTGGAAAGGAAGCTGATAGCGAAACGCCAGTCGAGCTTGTAG	MGTRVSYPVEVKQKAVEMRLAGVPMKEIMQELNIKNKTQVQTWVRWHKTGDTHRFEQPVGKQYTYGKGPEYSSELEKLQAENRYLRQQNEVLKKYNELERKLIAKRQSSL				NA	NA	NA	NA	NA
D1-12_04152	729			IS3 family transposase ISBsu1	ATGAAAGATAACCCTAAATACCATTTAGAAAAACAAATCGGCACGTTGTGCCGAGAACACAAGTTTCGATATGGCTATCGGAAAATCACAGCCATATTAAAAAAGGGAATGCGTGTGAATCATAAAACGGTTCAGCGCATTATGCAGAAGAATCAGTGGCAATGCCGGGTTAAGGTGAAAAAGCGCAAGAAAGATGGGCAGCCATATGCCGTGGCCGAGAATATATTGGATCGAAACTTTCAGTCTGATCGCCCTCTGGAAAAGCTAGTAACGGATATCACATATTTGCCTTATGGGCAGAAACAATTGTATCTTTCCAGTATATTGGATTTATACAATGGAGAAGTGATTGCTTTTACAATTGGCGATAGACAGGACACAGACTTTGTCTTACACACACTTGATCAGCTGCCCGCACTGCCAGAGAACTGCGTGTTACATAGTGACCAAGGTTCTGTTTATACATCTTATGAGTATCAGAAAGCTGTTAAAACAAAAGGCATTACCATGAGCATGTCCCGCAAAGGGACGCCCGCTGATAATGCCTCCATCGAATCGTTTCATTCCTCACTAAAGTCTGAAACGTTCTATCTTAACAGCATTGATCGAACTACGACGACCATCGTAGAACGCACTGCCATAGAATACATTCATTATTATAACAATATTCGTATTCAAACGAAACTAAACAGCCAATCGCCGATACAATATCGGCAATTGGCTGTATGA	MKDNPKYHLEKQIGTLCREHKFRYGYRKITAILKKGMRVNHKTVQRIMQKNQWQCRVKVKKRKKDGQPYAVAENILDRNFQSDRPLEKLVTDITYLPYGQKQLYLSSILDLYNGEVIAFTIGDRQDTDFVLHTLDQLPALPENCVLHSDQGSVYTSYEYQKAVKTKGITMSMSRKGTPADNASIESFHSSLKSETFYLNSIDRTTTTIVERTAIEYIHYYNNIRIQTKLNSQSPIQYRQLAV				NA	NA	NA	NA	NA
D1-12_04154	189			hypothetical protein	ATGAATGATTTCGAGCGGAAAGTGTACCGGATAATCTTTAACATGACCCAATTCGGGAAAGATCCCTCCTTGGATGAGTTGAAGAGGAAAACCGGTAAAGATGAACAGACTATACGTGAAGCGGTCAAGAACCTTATGCGGCAGCGGATGTTGAAATGGAATAAGAAAAAAAACAGATGGATGTTTTGA	MNDFERKVYRIIFNMTQFGKDPSLDELKRKTGKDEQTIREAVKNLMRQRMLKWNKKKNRWMF				NA	NA	NA	NA	NA
D1-12_04155	132			hypothetical protein	ATGAATTTTAAAAAGAGTATCTTCATCGTCCTAGGTCTGTCATTGACTTTAGTATGTGGATTGGGTATGAACTCAGTAGAAAAACAAGCACAAGATACAATCAAAGTAGCTTCAGATCGCCTTCAAACTTGA	MNFKKSIFIVLGLSLTLVCGLGMNSVEKQAQDTIKVASDRLQT				NA	NA	NA	NA	NA
D1-12_04156	480	rapA_5	COG0457	Response regulator aspartate phosphatase A	TTGATTAGTTCTGCCCTTTATAATTTGGGTACAAATTTCGGAGATAGGGGCGACTATGAAAAGGCTGAGATATTTTTAAGGCAAGCAGTTGAGATAACCGAAAAAGCAAAACTGAGCAACTTGCCGCACTCTTTATTTTCTTATGCAAAATTCCTTTTTAAACAGGGGAAAATGGCTGAGGGTATCCAAGCAAGCAAAAAAGGTTTGTCGGCCGCGGTATATCAAGGCGATAAGCTTTTTGAAAATCTTCAGGGGTATCTGAAGGCACTTTATGTGGATGCAGTGGATCAACAGGGAGTTAATGAAACAATTGAGTATCTGGAGAAGAATAAGAATTACTCATATGTTGAAGATATTGCCTGCGAAACTGCATCTGTTTACGCAGATTCAAGGGAGTTTGAGAATTCTTATTTTTATCATAAAAAAATGGTTGATACGCAAACACAAATTCAAAGGGGAGAGTGCCTGTATGAATTTTAA	MISSALYNLGTNFGDRGDYEKAEIFLRQAVEITEKAKLSNLPHSLFSYAKFLFKQGKMAEGIQASKKGLSAAVYQGDKLFENLQGYLKALYVDAVDQQGVNETIEYLEKNKNYSYVEDIACETASVYADSREFENSYFYHKKMVDTQTQIQRGECLYEF	PGPT0025780_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025780-rapH-K06366	NA	NA
D1-12_04157	276			hypothetical protein	ATGAATGATTTCGAGCGGAAAGTGTACCGGATAATCTTTAACATGACCCAATTCGGGAAAAATCCCTCCTTGGATGAGTTGAAGAGGAAAACCGGTAAAGATGAACAGACTATACGTGAAGCGGTCAAGAGCCTTATGCGGCAGCGGATGTTGAAATGGAATAAGAAAAAAACAGATGGGTGTTTTGAATGCATTATAATGAAGGAACTAAAAAAAGCCTTTCCCGAAGAAAGGCGTAAGTTGTTCAAGTTTGAAGGCGATCTGAAGCTACTTTGA	MNDFERKVYRIIFNMTQFGKNPSLDELKRKTGKDEQTIREAVKSLMRQRMLKWNKKKTDGCFECIIMKELKKAFPEERRKLFKFEGDLKLL				NA	NA	NA	NA	NA
D1-12_04158	330			hypothetical protein	ATGTGGATGCAGTGGATCAACAGGGAGTTAATGAAACAATTTAGTATCTGGAGAAGAATAAGAATTACTCATATGTTGAAGATATTGCTTGCGAAACTGCATCTGTTTACGCAGATTCAAGGGAGTTTGAGAATTCTTATTTTTATCATAAGAAAATGGTTGATACGCAAACACAAATTCAAAGGGGAGAGTGCCTGTATGAATTTTAAAAAGAGCATTTTCATCGTCCTGGGTCTGTCATTGACTTTAGTATGTGGGTTGGGTATGAACTCAGTAGAAAAACAAGCACAAGATACAATCAAAGTAGCTTCAGATCGCCTTCAAACTTGA	MWMQWINRELMKQFSIWRRIRITHMLKILLAKLHLFTQIQGSLRILIFIIRKWLIRKHKFKGESACMNFKKSIFIVLGLSLTLVCGLGMNSVEKQAQDTIKVASDRLQT				NA	NA	NA	NA	NA
D1-12_04159	315	rapA_6	COG0457	Response regulator aspartate phosphatase A	TTGATTAGTTCTGCTCTTTATAATTTGGGTACAAATTTCGGAGATAGGGGCGACTATGAAAAGGCTGAGATATTTTTAAGGCAAGCAGTAGAGATAACCGAAAAAGCAAAACTGAGCAACTTGCCACACTCTTTATTTTCTTATGCAAAATTCCTCTTTAAACAGGGGAAAATGGCTGAGGGTATCCAAGCAAGCAAAAAAGGTTTGTCGGCCGCGGTGTACCAAGGCGATAAGCTTTTCGAAAATCTTCAGGGGTATCTGAAGGCTCTTTATGTGGATGCAGTGGATCAACAGGGAGTTAATGAAACAATTTAG	MISSALYNLGTNFGDRGDYEKAEIFLRQAVEITEKAKLSNLPHSLFSYAKFLFKQGKMAEGIQASKKGLSAAVYQGDKLFENLQGYLKALYVDAVDQQGVNETI	PGPT0025780_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0025780-rapH-K06366	NA	NA
D1-12_04168	264			hypothetical protein	TTGAAAGTCGGTTCCTTTAAAACATTATTGATTGAAGTCTATGGCACGGCTGATACAAGTGAATTGAAGTTCTGGGGGAAATCTCTTTCAGGAACAAAACGCCCGCTGCGCGGCCAAAAAGTTGACGACGGCACTCTGGCTATAAGCACAGTCGGGAAGTCAGAAGCTTGGACTTTTGATATTACAGGATTCAAAGAGATCGTGATGGAGATTACCGCTTTAAATAATGGGAACTTTTCCGTAAAAGGGACAGCCGTCTCATAA	MKVGSFKTLLIEVYGTADTSELKFWGKSLSGTKRPLRGQKVDDGTLAISTVGKSEAWTFDITGFKEIVMEITALNNGNFSVKGTAVS				NA	NA	NA	NA	NA
D1-12_04169	228			hypothetical protein	TTGCATTCATTGTTAAACCGCTCATTAAATGAAAAATCAACGCTGGACATGATCTACATAAAGAATGATGGGACAATATCGAAGAGAGCAATCATAGTACATCAAATCAAGAATCAATACATTCGTGCGTTCTGTTTTAAAAGTAGACAGACAAAAACTTTCAGGATGGATAATATTCTCGCTGTGGCCCCCTCTAATTATAGAAGGGGAATCAGCAATCATGCGTAA	MHSLLNRSLNEKSTLDMIYIKNDGTISKRAIIVHQIKNQYIRAFCFKSRQTKTFRMDNILAVAPSNYRRGISNHA				NA	NA	NA	NA	NA